Feeder Protection System - GE Grid Solutions...850 FEEDER PROTECTION SYSTEM – COMMUNICATIONS GUIDE 1-1 850 Feeder Protection System Chapter 1: Introduction GE Digital Energy Introduction

COMMUNICATIONS GUIDE850 version: 1.1

GE publication code: 1601-0299-A1 (GEK-119592)

*1601-0299-A1*

850Feeder Protection System

Feeder Protection and Control

GEDigital Energy

© 2013 GE Multilin Inc. Incorporated. All rights reserved.

GE Multilin Inc. 850 Feeder Protection System instruction manual for revision 1.1.

850 Feeder Protection System, EnerVista, EnerVista Launchpad, and EnerVista 8 Series Setup are registered trademarks of GE Multilin Inc. Inc.

The contents of this manual are the property of GE Multilin Inc. Inc. This documentation is furnished on license and may not be reproduced in whole or in part without the permission of GE Multilin Inc. The content of this manual is for informational use only and is subject to change without notice.

Part number: 1601-0299-A1 (December 2013)

Note

GENERAL SAFETY PRECAUTIONS• Failure to observe and follow the instructions provided in the equipment manual(s)

could cause irreversible damage to the equipment and could lead to property damage, personal injury and/or death.

• Before attempting to use the equipment, it is important that all danger and caution indicators are reviewed.

• If the equipment is used in a manner not specified by the manufacturer or functions abnormally, proceed with caution. Otherwise, the protection provided by the equipment may be impaired and can result in Impaired operation and injury.

• Caution: Hazardous voltages can cause shock, burns or death.

• Installation/service personnel must be familiar with general device test practices, electrical awareness and safety precautions must be followed.

• Before performing visual inspections, tests, or periodic maintenance on this device or associated circuits, isolate or disconnect all hazardous live circuits and sources of electric power.

• Failure to shut equipment off prior to removing the power connections could expose you to dangerous voltages causing injury or death.

• All recommended equipment that should be grounded and must have a reliable and un-compromised grounding path for safety purposes, protection against electromagnetic interference and proper device operation.

• Equipment grounds should be bonded together and connected to the facility’s main ground system for primary power.

• Keep all ground leads as short as possible.

• At all times, equipment ground terminal must be grounded during device operation and service.

• In addition to the safety precautions mentioned all electrical connections made must respect the applicable local jurisdiction electrical code.

• Before working on CTs, they must be short-circuited.

This product cannot be disposed of as unsorted municipal waste in the European Union. For proper recycling return this product to your supplier or a designated collection point. For more information go to www.recyclethis.info.

Safety words and definitionsThe following symbols used in this document indicate the following conditions

Note Indicates a hazardous situation which, if not avoided, will result in death or serious injury.

Note Indicates a hazardous situation which, if not avoided, could result in death or serious injury.

Note Indicates a hazardous situation which, if not avoided, could result in minor or moderate injury.

Note Indicates practices not related to personal injury.

Table of Contents

1.INTRODUCTION 1 - 1Communications .............................................................................................................................. 1 - 1

For Further Assistance ............................................................................................................................1 - 1

2.COMMUNICATIONS PORTS 2 - 1RS485 Port ........................................................................................................................................... 2 - 1

RS485 ..............................................................................................................................................................2 - 1WiFi ......................................................................................................................................................... 2 - 2

WiFi Quick Start Procedure...................................................................................................................2 - 5USB.......................................................................................................................................................... 2 - 6

Using the Quick Connect Feature via the USB Port...................................................................2 - 6Ethernet Ports .................................................................................................................................... 2 - 7

Network Settings Menu ..........................................................................................................................2 - 7

3.TIME PROTOCOLS 3 - 1Real-time Clock ................................................................................................................................. 3 - 1

IEEE 1588 Precision Time Protocol (PTP) .........................................................................................3 - 2Clock ................................................................................................................................................................3 - 5

4.DNP 3 4 - 1DNP communication ...................................................................................................................... 4 - 6DNP device profile ........................................................................................................................... 4 - 7DNP implementation ...................................................................................................................... 4 - 9

5.DNP / IEC104 POINT LISTS 5 - 1

6.IEC 60870-5-104 6 - 1Interoperability.................................................................................................................................. 6 - 3

7.IEC 60870-5-103 7 - 1Cause of Transmission .................................................................................................................. 7 - 1Communications Menus............................................................................................................... 7 - 4Interoperability.................................................................................................................................. 7 - 7

Physical layer...............................................................................................................................................7 - 7Link layer .......................................................................................................................................................7 - 7Application layer ........................................................................................................................................7 - 8

8.IEC 61850 8 - 1General.................................................................................................................................................. 8 - 2Functionality....................................................................................................................................... 8 - 5The IEC 61850 Configurator........................................................................................................ 8 - 5

Online and Offline Setup ........................................................................................................................8 - 5IEC 61850 Device Configurator Details ...........................................................................................8 - 7

850 FEEDER PROTECTION SYSTEM – COMMUNICATIONS GUIDE

9.TFTP 9 - 1

10.MODBUS PROTOCOL 10 - 1Modbus Protocol ............................................................................................................................ 10 - 2

11.MODBUS MEMORY MAP 11 - 1Reading the Event Recorder..................................................................................................... 11 - 1Reading Transient Recorder ..................................................................................................... 11 - 1Reading Fault Reports ................................................................................................................. 11 - 2Accessing Data via the User Map .......................................................................................... 11 - 2Memory Map Organization ....................................................................................................... 11 - 3MODBUS memory map............................................................................................................... 11 - 3Format Codes .............................................................................................................................11 - 130Modbus Commands ................................................................................................................11 - 219

TOC-2 850 FEEDER PROTECTION SYSTEM – COMMUNICATIONS GUIDE

850 Feeder Protection System

Chapter 1: Introduction

GEDigital Energy

Introduction

The 850 Feeder Protection Systems are microprocessor-based units intended for the management and primary protection of distribution feeders, as well as for the management and backup protection of buses, transformers, and transmission lines. The 850 relay is particularly suited to overhead feeders, where automatic reclosing is normally applied.

Communications

The 850 has a two-stage communications capability. The base CPU supports Modbus protocol through the Ethernet, USB and serial, as well as WiFi port. In addition, the base CPU also supports IEC 103, DNP serial, and TFTP protocol. Once the communications module option is added to the base, the base Ethernet port becomes disabled but the two Ethernet ports on the communications module have enhanced communications capabilities such as 61850, IEC62439 parallel redundancy protocol, IEEE 1588 Precision Time Protocol. The communications CPU also supports IEC 104, DNP tcp, TFTP, and SNTP protocol.

For Further AssistanceFor product support, contact the information and call center as follows:GE Digital Energy650 Markland StreetMarkham, OntarioCanada L6C 0M1Worldwide telephone: +1 905 927 7070Europe/Middle East/Africa telephone: +34 94 485 88 54North America toll-free: 1 800 547 8629Fax: +1 905 927 5098Worldwide e-mail: [email protected] e-mail: [email protected]: http://www.gedigitalenergy.com/multilin

850 FEEDER PROTECTION SYSTEM – COMMUNICATIONS GUIDE 1-1

COMMUNICATIONS CHAPTER 1: INTRODUCTION

1-2 850 FEEDER PROTECTION SYSTEM – COMMUNICATIONS GUIDE


Chapter 2: Communications Ports

GEDigital Energy

Communications Ports

The 850 has four communications ports: RS485, WiFi, USB, and Ethernet.

RS485 Port

CHARACTERISTICSRS485 port: ............................................................ Opto-coupledBaud rates:............................................................. up to 115 kbpsResponse time:..................................................... 6.62 ms typicalParity:........................................................................ None, Odd, EvenProtocol: .................................................................. Modbus RTU, DNP 3.0, IEC 60870-5-103Maximum distance: ........................................... 1200 m (4000 feet)Isolation:.................................................................. 2 kV

RS485On the rear card the 850 is equipped with one RS485 serial communication port and one 10/100 Mbps Ethernet port. The RS485 port has settings for baud rate and parity. It is important that these parameters agree with the settings used on the computer or other equipment connected to these ports. A maximum of 32 relays can be daisy-chained and connected to a DCS, PLC or a PC using the RS485 ports.


WIFI CHAPTER 2: COMMUNICATIONS PORTS

Path: Setpoints > Device > Communications > RS485

BAUD RATERange: 9600, 19200, 38400, 57600, 115200Default: 115200

PARITYRange: None, Odd, EvenDefault: None

PORT PROTOCOLRange: Modbus, DNP3, IEC 60870-5-103Default: Modbus

WiFi

WiFi refers to Wireless Local Area Networks (WLANs) that are based on the 802.11 set of standards. WLANs are essentially providing Local Area Network (LAN) type of connectivity but without the need of cables, which makes them more convenient for use in limited spaces. WiFi works on top of the TCP/IP stack, the same as Ethernet. The signal strength and its range is determined by the wireless device’s antenna technology and standard, the best being IEEE 802.11n.WiFi defines two modes of operation, namely ad-hoc, used for small deployments, and infrastructure mode, which supports more robust types of security and better capabilities for centralized management. The infrastructure mode requires an access point (AP). Devices operating in this mode pass all data through the AP. The WiFi module integrated on the 8-Series of products conforms to IEEE 802.11b/g/n standards. The 8-Series devices operate in infrastructure mode. Security is optional, but enabled by default and it is advisable that it is left on, as wireless traffic is very susceptible to cyber-attacks.The security technology used is WPA2 (Wireless Protected Access version 2), based on the IEEE 802.11i standard for data encryption. WPA2 is a second version of WPA technology, designed to solve known security limitations found in one of the encryption algorithms used by WPA, namely TKIP (Temporal Key Integrity Protocol). WPA2 uses CCMP (Counter Mode with Cipher Block Chaining Message Authentication Code Protocol), which provides an enhanced data cryptographic encapsulation mechanism based on AES (Advanced Encryption Standard). CCMP makes WPA2 much stronger and secure than its predecessors, WPA and WEP.Several forms of WPA2 security keys exist. The 8-Series support WPA2 PSK (Pre-Shared Key), which utilizes 64 hexadecimal digits. The key may actually be entered as a string of 64 hexadecimal digits or as a passphrase of 8 to 32 printable ASCII characters. For user convenience, the settings accept the key in the form of a passphrase, internally the ASCII passphrase is used for deriving a 256-bit key.WiFi SettingsThe following are the WiFi network settings for the 8-Series product. Only an Administrator has the rights to change them.


CHAPTER 2: COMMUNICATIONS PORTS WIFI

Path: Setpoints > Device > Communications > WiFi

WiFi EnableThis setting switches WiFi functionality on/off. By default WiFi is enabled in the basic offering, but it is disabled in software options that offer CyberSentry.WiFi IP Address / Subnet MaskThe default IP address is 192.168.1.x, where x is calculated as:X = (modulo 252 of the last 3 digits of the serial number) + 2This is to ensure uniqueness of the default IP address for all 850s present on one wireless network.

FASTPATH: In order for the wireless connection to be established between the AP, the 850s and a laptop, the AP and the laptop must be configured with IP address belonging to the network 192.168.0.0/24. The following two addresses have been reserved for this purpose: AP: IP address = 192.168.0.1; IP mask = 255.255.255.0 Laptop: IP address = 192.168.0.2; IP mask = 255.255.255.0

WiFi SecurityThe setting enables WiFi security. If set to “None”, there is no security and all traffic is open. By default WiFi Security is set to WPA2-PSK.WiFi SSIDThe SSID is the public name of a wireless network. All of the wireless devices on a WLAN must use the same SSID in order to communicate with each other. The default for the SSID is provided by the vendor with the shipment of any new 8-Series device. It is recommended that the customer modifies this name as needed after initial startup, to ensure unique SSIDs if several WLANs are configured.

FASTPATH: SSID broadcast should be disabled on AP. This provides some extra protection by requiring a user to know an SSID before the user can connect to the device and making it harder for casual outsiders looking for wireless networks to find the device and attempt to connect.

WiFi Enable:Enabled

WiFi IP Address:192.168.0.x

WiFi Subnet Mask:255.255.255.0

WiFi GWY IP Address:0.0.0.0

WiFi Security:WPA2-PSK

WiFi SSID:xxxxxxxx

Message

Message

Message

Message

Message

■ WiFi■

Range: Enabled, DisDefault:

abledEnabled

Range: Standard IPV4 address formatDefault: 192.168.0.x

Range: Standard IPV4 mask formatDefault: 255.255.255.0

Range: None, WPA2-PSKDefault: WPA2-PSK

Any name using up to characters

Default: provided by vendor

WiFi WPA2 passphrase:**********

Any 8 to ASCII characters

Default: Provided by vendor and notvisible on the user interface

Message

Range: Standard IPV4 address formatDefault: 0.0.0.0


WIFI CHAPTER 2: COMMUNICATIONS PORTS

WiFi WPA2 PassphraseThe WPA2 Passphrase is used for generating the encryption key. The same passphrase must be set on AP and on all devices communicating on the same WLAN. The passphrase is a string of 8 to 32 printable ASCII characters. Internally a 256-bit key is calculated by applying the PBKDF2 key derivation function to this passphrase, using the SSID as the salt and 4096 iterations of HMAC-SHA1.The 8-Series devices are configured with a default passphrase, which is provided by vendor with the shipment of any new 8-Series device.When choosing a new passphrase, the password complexity rules of CyberSentry must be used (see the CyberSentry specification).This field is visible only if the security is set to WPA2-PSK.

FASTPATH: Ideally, the passphrase is set through EnerVista and not directly from the Keypad, where there are limitations in terms of space and types of characters supported. However, for convenience, the key setting is available from the Keypad as well.

WiFi StatusA WiFi symbol is displayed in the caption area of the 8-Series product front panel. The following table lists all possibilities for this icon:

WiFi Events

WiFi TargetsA target is produced while WiFi is enabled, but left to default settings.The target looks something like this:

• What the user is expected to do: Change the WiFi settings from the defaults.

WiFi State WiFi Icon Color

Disabled Icon is grey and crossed by a red line

Disconnected Grey

Connecting Yellow

Connected Green

Event Description

WiFi Connected, TIMESTAMP: This event is recorded to indicate a network connect.

WiFi Disconnected, TIMESTAMP: This event is recorded to indicate a network disconnect.

M **WiFi default settings**


CHAPTER 2: COMMUNICATIONS PORTS WIFI

WiFi Quick Start ProcedureThe following provides the settings information and instructions to quickly setup.Required Equipment

• 8-Series Relay with WiFi functionality

• PC with WiFi

• Access Point

Quick Start Procedure

1. The PC WiFi Network Settings are as follows:

2. The Access Point Settings are given below:

3. If the 8-Series relay(s) are in range, they automatically connect to the configured Access Point.

4. Start EnerVista on a PC and use the Discover function, all relays within range appear and are populated in Enervista for initial configuration and commissioning.

5. Once the relay is configured, change the 8-Series relay default WiFi SSID and Passphrase settings to make the relay go into service.

Figure 2-1: Example of WiFi Deployment

TCP/IP Settings WiFi Login Settings

IP address: 192.168.0.2 SSID: provided with the 8-Series relay

Subnet Mask: 255.255.255.0 Security type: WPA2-PSK (WPA2-Personal)

Gateway: 192.168.0.1 Encryption: AES

Passphrase: provided with the 8-Series relay

IP address: 192.168.0.1

Subnet Mask: 255.255.255.0

SSID: same as entered on the PC (provided with the 8-Series relay)

Broadcast disabled

Security type: WPA2-PSK (WPA2-Personal)

Encryption: AES

Passphrase: same as entered on the PC (provided with the 8-Series relay)


USB CHAPTER 2: COMMUNICATIONS PORTS

USB

The USB parameters are as follows:IP Address: 172.16.0.2IP Mask: 255.255.255.0IP Gateway: 172.16.0.1

FASTPATH: Whenever the device is rebooted, the USB cable needs to be unplugged and plugged in again for proper communication to be established over USB.

FASTPATH: Connecting multiple 850 relays over USB to a single PC is not possible because in the case of USB, the IP address of the device 172.16.0.2 is constant.

Using the Quick Connect Feature via the USB PortFrom the EnerVista 8 Series Setupsoftware the Quick Connect button can be used to establish a fast connection through the front panel USB port of a 850 relay.Before starting, verify that the standard USB cable is properly connected from the laptop computer to the front panel USB port.

1. Verify that the latest version of the EnerVista 8 Series Setup software is installed (available from the GE EnerVista CD or online from http://www.GEMultilin.com). See the software installation section in the 850 Feeder Protection System instruction manual for installation details.

2. Select the 850 device from the EnerVista Launchpad to start EnerVista 8 Series Setup.

3. Click the Quick Connect button to open the Quick Connect dialog box.

4. Select the Interface, then click Connect.

5. The EnerVista 8 Series Setup software creates a site named “Quick Connect” with a corresponding device also named “Quick Connect” and display them on the upper-left corner of the screen. Expand the sections to view data directly from the 850 device.


CHAPTER 2: COMMUNICATIONS PORTS ETHERNET PORTS

Ethernet Ports

The following communication offerings are available.

Base OfferingModes: 10/100 MbpsOne Port: RJ45 Protocol: Modbus TCP, TFTP

Communications Card OptionModes: 100 MBTwo Ports: ST (with this option both enabled ports are on the communications card; the Ethernet port located on the base CPU is disabled)Protocols: Modbus TCP, DNP3.0, IEC60870-5-104, IEC 61850 GOOSE, IEEE 1588, SNTP, IEC 62439-3 clause 4 (PRP)

Network Settings MenuThe following are the network settings menu of the 850 to accommodate the features of the 850 product. If the communications card is installed network 1 is no longer available.

NETWORK 1, 4, 5, PRT1(4,5) IP ADDRESSRange: Standard IPV4 Address formatDefault: 169.254.3.3 (Port 1)Default: 0.0.0.0 (Port 4, 5)

The setting sets the port’s IPV4 address in standard IPV4 format.FASTPATH: The setting is valid on port 1 if the optional communications card is not present.

The setting is valid on port 5 if port 4’s OPERATION is set to INDEPENDENT.

PRT1(4,5) SUBNET MASKRange: Standard IP Address formatDefault: 0.0.0.0

The setting sets the port’s IPV4 Subnet Mask in standard IPV4 format.FASTPATH: The setting is valid on port 1 if the optional communications card is not present.

The setting is valid on port 5 if port 4’s OPERATION is set to INDEPENDENT.

PRT1(4,5) GWY ADDRESSRange: Standard IPV4 Address formatDefault: 0.0.0.0

The setting sets the port’s IPV4 Gateway Address in standard IPV4 format.FASTPATH: This setting is valid on port 1 if the optional communications card is not present.

This setting is valid on port 5 if port 4’s OPERATION is set to INDEPENDENT.

LLA: LLA (Link Loss Alert) is a proprietary feature supported by the 850 relay fiber optic ports. When enabled on a 850 fiber optic port this feature is able to detect a failure of the fiber link, if port 4’s OPERATION is set to LLA, the detection of a link failure by this feature triggers the transfer of communications from port 4 to port 5. Port 5 mode supports only full duplex.


ETHERNET PORTS CHAPTER 2: COMMUNICATIONS PORTS

FASTPATH: Notes:

1. The fiber optic ports support only 100 Mbps.

2. Changes to the Ethernet communications settings take effect only after rebooting the relay.

3. All Ethernet ports have flex operands associated with them. A failure of one of the Ethernet ports triggers an event, a target message and the corresponding operand set.

FASTPATH: The fiber optic ports support only full duplex mode.

PRT4 OPERATIONRange: Independent, LLA, PRPDefault: Independent

This setting determines the mode of operation for ports 4 and 5: INDEPENDENT, LLA or PRP.

INDEPENDENT operation: ports 4 and 5 operate independently with their own MAC and IP address.

LLA operation: the operation of ports 4 and 5 are as follows:

Ports 4 and 5 use port 4’s MAC and IP address settings while port 5 is in standby mode in that it does not actively communicate on the Ethernet network but monitors its link. If PORT4’s LLA detects a problem with the link, communications is switched to Port 5. Port 5 is, in effect, acting as a redundant or backup link to the network for port 4.

PRP (Parallel Redundancy Protocol): ports 4 and 5 use the same MAC (physical device) address and combine information at the link layer. It is intended to only be used if the two ports are connected to separate parallel LAN’s. In this mode of operation both ports cannot be connected to the same LAN. The receiving devices process the first frame received and discard the duplicate through a link redundancy entity (LRE) or similar service that operates below layer 2. Aside from LRE, PRP uses conventional Ethernet hardware but both ports must know they are in PRP. Both ports of PRP devices operate with the same Internet Protocol (IP) addresses for traffic that uses IP Management protocols such as Address Resolution Protocol (ARP) must operate correctly.

Duplicate Discard mode (only mode supported by the 8 Series). This is the normal setting for PRP operation and once set it allows the sender LRE to append a six-octet field that contains a sequence number, the Redundancy Control Trailer (RCT) to both frames it sends. The receiver LRE uses the sequence number of the RCT and the source MAC address to detect duplicates. It forwards only the first frame of a pair to its upper layers.



Chapter 3: Time Protocols

GEDigital Energy

Time Protocols

The 850 supports an internal clock, SNTP, IRIG-B, and PTP 1588 as potential time references.

Real-time Clock

Path: Setpoints > Device > Real Time Clock

The 850 is capable of receiving a time reference from several time sources in addition to its own internal clock for the purpose of time-stamping events, transient recorders and other occurrences within the relay. The accuracy of the time stamp is based on the time reference that is used. The 850 supports an internal clock, SNTP, IRIG-B, and PTP 1588 as potential time references.If two or more time sources are available the time source with the higher priority shown in table 1 is used where 1 is considered to be the highest priority. Please note that the time source priority of PTP and IRIG-B can be swapped. If both PTP and IRIG-B are available to the 850 by default the 850 clock syncs to PTP over IRIG-B. If PTP is not available the 850 CPU syncs the internal clock to IRIG-B.

* The priority of IRIG-B and PTP can be swapped.FASTPATH: Synchronization by IEC103, DNP, Modbus and IEC104 is not going to be issued if there is a

synch source from IRIGB, SNTP or PTP.

Time Source Accuracy Priority

PTP (IEEE1588) 1*

IRIG-B 2*

SNTP 3

Internal Clock 4


REAL-TIME CLOCK CHAPTER 3: TIME PROTOCOLS

IEEE 1588 Precision Time Protocol (PTP)

PTP Status The present values of the PTP protocol are displayed here. Path: Status > Clock > PTP Status

The RTC Sync Source actual value is the time synchronizing source the relay is using at present. Possible sources are: Port 4 PTP Clock, Port 5 PTP Clock, IRIG-B, SNTP and None.Grandmaster ID is the grandmaster Identity code being received from the present PTP grandmaster, if any. When the relay is not using any PTP grandmaster, this actual value is zero. The grandmaster Identity code is specified by PTP to be globally unique, so one can always know which clock is grandmaster in a system with multiple grandmaster-capable clocks.Accuracy is the estimated maximum time error at present in the Real Time Clock (RTC), considering the quality information imbedded in the received time signal, how long the relay has had to lock to the time source, and in the case of time signal interruptions, the length of the interruption. The value 999,999,999 indicates that the magnitude of the estimated error is one second or more, or that the error cannot be estimated.Port 4 (5) PTP State is the present state of the port’s PTP clock. The PTP clock state is:

• DISABLED If the port’s function setting is Disabled

• NO SIGNAL If enabled but no signal from an active master has been found and selected

• CALIBRATING If an active master has been selected but lock is not at present established

• SYNCH’D (NO PDELAY) If the port is synchronized, but the peer delay mechanism is non-operational

• SYNCHRONIZED If the port is synchronized


CHAPTER 3: TIME PROTOCOLS REAL-TIME CLOCK

PTP Configuration Path: Setpoints > Device > Real Time Clock > PTP

PORT 4(5) PTP FUNCTIONRange: Disabled, EnabledDefault: Enabled

When the port setting is selected as “Disabled,” PTP is disabled on the port. The relay does not generate, or listen to, PTP messages on the port.

PORT 4(5) PATH DELAY ADDERRange: 0 to 60000 ns in steps of 1 nsDefault: 0 ns

The time delivered by PTP is advanced by the time value in the setting prior to the time being used to synchronize the relay’s real time clock. This is to compensate to the extent practical, for time delivery delays not compensated for in the network. In a fully compliant PP network, the peer delay and the processing delay mechanisms compensate for all the delays between the grandmaster and the relay. In such networks, the setting is zero.

In networks containing one or more switches and/or clocks that do not implement both of these mechanisms, not all delays are compensated, so the time of message arrival at the relay is later than the time indicated in the message. The setting can be used to approximately compensate for the delay. Since the relay is not aware of network switching that dynamically changes the amount of uncompensated delay, there is no setting that always completely correct for uncompensated delay. A setting can be chosen that reduces worst-case error to half of the range between minimum and maximum uncompensated delay if these values are known.

PORT 4 PTP FUNCTION:Disabled

PORT 4 PATH DELAY ADDER:00000 ns

Message

Message

Message

Message

Message

■ PTP■

Range: Enabled, DisabledDefault: Disabled

■ REAL TIME CLOCK

PORT 4 PATH DELAY:ASYMMETRY: 0000 ns

STRICT POWER PROFILE:Enabled

PORT 5 PATH DELAY ADDER:00000 ns

PORT 5 PATH DELAY:ASYMMETRY: 0000 ns

Range: 0 to 60000 ns in steps of 1Default: 0000 ns

Range: -1000 to +1000 ns in steps of 1Default: 0000 ns

Range: 0 to 60000 ns in steps of 1Default: 0000 ns

Range: -1000 to +1000 ns in steps of 1Default: 0000 ns

Range: Enabled, DisabledDefault: Enabled

Message

Message

Message

Message Range: 1, 2Default: 1

Range: 0 to 4095Default: 0



PTP DOMAIN NUMBER:0

PTP VLAN PRIORITY:4

PTP VLAN ID:0

PTP PRIORITY:1



PORT 4(5) PATH DELAY ASYMMETRYRange: -5000 to +5000 ns in steps of 1 nsDefault: 0 ns

The setting corresponds to “Delay Asymmetry” in PTP, which is used by the peer delay mechanism to compensate for any difference in the propagation delay between the two directions of a link. Except in unusual cases, the two fibers are of essentially identical length and composition, so the setting is set to zero.

In unusual cases where the length of link is different in different directions, the setting is be set to the number of nanoseconds longer the Ethernet propagation delay is to the relay compared with the mean of path propagation delays to and the from the relay. For instance, if it is known say from the physical length of the fibers and the propagation speed in the fibers that the delay from the relay to the Ethernet switch it is connected to is 9 000 ns and that the delay from the switch to the relay is 11 000 ns, then the mean delay is 10 000 ns, and the path delay asymmetry is +1 000 ns.

STRICT POWER PROFILERange: Enabled, DisabledDefault: Enabled

Power profile (IEEE Std C37.238™ 2011) requires that the relay select as a grandmaster only power profile compliant clocks, that the delivered time have a worst-case error of ±1 µs, and that the peer delay mechanism be implemented. With the strict power profile setting enabled, the relay selects as master only clocks displaying the IEEE_C37_238 identification codes. It uses a port only when the peer delay mechanism is operational. With the strict power profile setting disabled, the relay uses clocks without the power profile identification when no power profile clocks are present, and uses ports even if the peer delay mechanism is non-operational.

The setting applies to all of the relay’s PTP-capable ports.

PTP DOMAIN NUMBERRange: 0 to 255Default: 0

The setting is set to the domain number of the grandmaster-capable clock(s) to which they can be synchronized. A network may support multiple time distribution domains, each distinguished with a unique domain number. More commonly, there is a single domain using the default domain number zero.


PTP VLAN PRIORITYRange: 0 to 7Default: 4

The setting selects the value of the priority field in the 802.1Q VLAN tag in request messages issued by the relay’s peer delay mechanism. In compliance with PP the default VLAN priority is 4, but it is recommended that in accordance with PTP it be set to 7.

Depending on the characteristics of the device to which the relay is directly linked, VLAN Priority may have no effect.



CHAPTER 3: TIME PROTOCOLS REAL-TIME CLOCK

PTP VLAN IDRange: 0 to 4095Default: 0

The setting selects the value of the ID field in the 802.1Q VLAN tag in request messages issued by the relay’s peer delay mechanism. It is provided in compliance with PP. As these messages have a destination address that indicates they are not to be bridged, their VLAN ID serves no function, and so may be left at its default value.

Depending on the characteristics of the device to which the relay is directly linked, VLAN ID may have no effect.


PTP PRIORITYRange: 1, 2Default: 1

The setting sets the priority of PTP time for the relay. If set to 1 and IRIG-B is available, the relay syncs the relay’s time reference to the PTP time. If set to 2 and IRIG-B is available, the relay syncs its reference to IRIG-B time.

ClockPath: Setpoints > Device > Real Time Clock > Clock

DATE Format: Month/Day/YearRange: Month: 1 to 12; Day: 1 to 31; Year: 2008 to 2094Default: 01/01/2008

TIMERange: 0 to 23: 0 to 59:0 to 59Default: 00:00:00

IRIG-BRange: Disabled, EnabledDefault: Disabled

REAL-TIME CLOCK EVENTSRange: Disabled, EnabledDefault: Enabled

LOCAL TIME OFFSET FROM UTCRange: –24.0 to 24.0 hrs in steps of 0.5 hrsDefault: 0.0 hrs

DAYLIGHT SAVINGS TIMERange: Disabled, EnabledDefault: Disabled

DST START MONTHRange: January to December (all months)Default: Not Set

DST START WEEKDAYRange: Sunday to Saturday (all days of the week)Default: Not Set

DST START WEEKRange: First, Second, Third, Fourth, LastDefault: Not Set



DST END MONTHRange: January to December (all months)Default: Not Set

DST END WEEKDAYRange: Sunday to Saturday (all days of the week)Default: Not Set

DST END WEEKRange: First, Second, Third, Fourth, LastDefault: Not Set

IRIG-B IRIG-B is available in the basic offering of the product. The IRIG-B state has a flex operand associated with it . A failure on IRIG-B triggers an event, the flex operand set, and a target message.

FASTPATH: Note that IRIG-B is auto detect. The signal type is detected in hardware, so there are no configurable options.



Chapter 4: DNP 3

GEDigital Energy

DNP 3

The 850 supports Distributed Network Protocol (DNP) version 3.0. and the 850 operates as a DNP slave device. Two DNP masters can actively communicate with the 850 at one time as the 850 maintains two sets of DNP data change buffers and connection information. The following is a detailed explanation of the 850 ’s DNP 3 implementation.

FASTPATH: Both DNP and IEC104 protocol can work at the same time, but the user has to consider that there is only one point map. So, both protocols use the same configured points.

FASTPATH: The 850 supports two DNP3.0 client connections simultaneously.

Figure 4-1: DNP Data Types

DATA TYPESBinary input data: Binary input data is used to monitor two-state device operations such as the position of a breaker. The user can configure up to 96 Binary inputs. All binary inputs are configured from Flexlogic operands.Binary output data: Binary output data is used to control two-state devices such as the opening and closing of a breaker. The 850 can be configured to support up to 16 Binary outputs. The client’s Binary outputs are automatically mapped into the 850 virtual inputs starting at virtual input 1. Please note that the number of Binary/ Control outputs is configurable. Of the total number of outputs configured, the user can configure a subset that supports dual point control. This subset starts at address 0. Analog input data: Analog input data is used to monitor analog signals such as voltages, currents, and power. The 850 has 32 analog inputs.


CHAPTER 4: DNP 3

Analog output data: Not supported in the 850 .Time stamps Count input data: Count input data could represent a cumulative quantity such as kilowatt-hours of energy. The 850 has 16 Count inputs

Table 4-1: Supported Object Numbers

Object DNP Data Type 850

1 Binary Input Status User Assigned FlexLogic Operands

2 Binary Input Change since last read

10 Binary Output Status for monitoring

User assigned Virtual Inputs and/or Commands (client looks at status only)

12 Control Relay Output Block User assigned Virtual inputs and/or Commands (client can write to the user specified number of control relay outputs)

20 Counter Value Digital counters 1 through 16.

21 Frozen Counter Value

22 Counter Value Change since last read

23 Frozen Counter Value Change since last read by client

30 User configured Analog Input value

32 User configured Analog Input value changed since last time read by client

Analog Variation Numbers Data Format

1 32-bit integer value with flag

2 16-bit integer value with flag

3 32-bit integer value without flag

4 16-bit integer value without flag

5 32-bit floating point value with flag


CHAPTER 4: DNP 3

Path: Setpoints > Device > Communications > DNP Protocol

DNP CHANNEL 1 PORTRange: NONE, NETWORK - TCP, NETWORK- UDPDefault: NONE

DNP CHANNEL 2 PORTRange: NONE, NETWORK - TCP, NETWORK- UDPDefault: NONE

The DNP Channel 1 Port and DNP Channel 2 Port settings select the communications port assigned to the DNP protocol for each channel. When this setting is set to “Network - TCP,” the DNP protocol can be used over TCP/IP on channels 1 or 2. When this value is set to “Network - UDP,” the DNP protocol can be used over UDP/IP.

FASTPATH: If the Communications Board is not present, only RS485 is a possible option. The Network options are hidden in this case and the DNP channel is defaulted to RS485.

DNP ADDRESSRange: 0 to 65519 in steps of 1Default: 65519

Sets the DNP slave address. This number identifies this 850 on a DNP communications link. Each DNP slave should be assigned a unique address.

DNP NETWORK CLIENT ADDRESS 1(2)Range: Standard IP AddressDefault: 0.0.0.0

The DNP Network Client Address settings can force the 850 to respond to a maximum of two specific DNP masters.

DNP TCP/UDP PORT NUMBER 1 (2)Range: 1 to 65535 in steps of 1Default: 20000

The DNP NETWORK CLIENT ADDRESS 1(2) and DNP TCP/UDP PORT NUMBER 1(2) settings are available only if the communications card is present. “DNP Channel 1 Port” takes the “Port Number 1” and “Client Address 1” to allow or reject connections. The same relation is used by channel 2.

DNP UNSOL RESPONSE FUNCTIONRange: Enabled, DisabledDefault: Disabled

Should be “Disabled” for RS485 applications since there is no collision avoidance mechanism. Unsolicited response settings is hidden if the communication card is not present, as DNP runs only on RS485 in this case.

DNP UNSOL RESPONSE TIMEOUTRange: 0 to 60 s in steps of 1 sDefault: 5 s

Sets the time the 850 waits for a DNP master to confirm an unsolicited response.

DNP UNSOL RESPONSE MAX RETRIESRange: 1 to 255 in steps of 1Default: 10

Sets the number of times the 850 retransmits an unsolicited response without receiving confirmation from the master; a value of “255” allows infinite re-tries.


CHAPTER 4: DNP 3

DNP UNSOL RESPONSE DEST ADDRESSRange: 0 to 65519 in steps of 1Default: 1

Sets the DNP address to which all unsolicited responses are sent. The IP address to which unsolicited responses are sent is determined by the 850 from the current TCP connection or the most recent UDP message.

DNP TIME SYNC IIN PERIODRange: 1 to 10080 min in steps of 1 minDefault: 1440 min

This setting determines how often the Need Time Internal Indication (IIN) bit is set by the 850 . Changing this time allows the DNP master to send time synchronization commands more or less often, as required.

FASTPATH: If the requirement for synchronization is more than a couple of seconds the user is advised to consider synchronization via other means such as IRIG-B or 1588, given network asymmetry, the consistency of the network latency, clock drift and additional delays due to routers located between the client and the 850 , all of which contribute errors.

DNP MESSAGE FRAGMENTRange: 30 to 2048 in steps of 1Default: 240

This setting determines the size, in bytes, at which message fragmentation occurs. Large fragment sizes allow for more efficient throughput; smaller fragment sizes cause more application layer confirmations to be necessary which can provide for more robust data transfer over noisy communication channels.

DNP OBJECT 1(2) DEFAULT VARIATIONRange: 1, 2Default: 2

These settings allow the user to select the DNP default variation number for object types 1, 2, 20, 21, 22, 23, 30, and 32. The default variation refers to the variation response when variation 0 is requested and/or in class 0, 1, 2, or 3 scans. The DNP binary outputs typically map one-to-one to IED data points. That is, each DNP binary output controls a single physical or virtual control point in an IED. In the 850 relay, DNP binary outputs are mapped to virtual inputs.

DNP OBJECT 20(22) DEFAULT VARIATIONRange: 1, 2, 5, 6Default: 1

For explanation, see above.

DNP OBJECT 21 DEFAULT VARIATIONRange: 1, 2, 9, 10Default: 1


DNP OBJECT 23 DEFAULT VARIATIONRange: 1, 2, 5, 6Default: 2


DNP OBJECT 30 DEFAULT VARIATIONRange: 1, 2, 3, 4, 5Default: 1



CHAPTER 4: DNP 3

DNP OBJECT 32 DEFAULT VARIATIONRange: 1, 2, 3, 4, 5, 7Default: 1


DNP TCP CONNECTION TIMEOUTRange: 10 to 300 s in steps of 1 sDefault: 120 s

The setting specifies a time delay for the detection of dead network TCP connections. If there is no data traffic on a DNP TCP connection for greater than the time specified by the setting, the connection is aborted by the 850 . This frees up the connection to be re-used by a client.


DNP COMMUNICATION CHAPTER 4: DNP 3

DNP communication

Figure 4-2: DNP communication menu

The following path is available using the keypad. For instructions on how to use the keypad, please refer to Chapter 3 - Working with the Keypad.PATH: SETPOINTS > RELAY SETUP > COMMUNICATIONS > DNP PROTOCOL > DNP GENERAL

To view the list of DNP Binary Inputs please refer to the Format Codes section - FC134B - of this Guide.

S1 DNP GENERAL

DNP ADDRESS

DNP TCP/UDP PORT

CHANNEL 1 PORT

CHANNEL 2 PORT

TME SYNC IIN PER.

DNP MSG FRAG SIZE

DNP TCP CONN. T/O

▼

S1 DNP

DNP GENERAL

DNP UNSOL RESPONSE*

DEFAULT VARIATION

DNP CLIENT ADDRESS*

DNP POINTS LIST

▼

898769A1.cdr

DNP CLIENT ADDRESS*

CLIENT ADDRESS 1

▼

CLIENT ADDRESS 2

CLIENT ADDRESS 3

CLIENT ADDRESS 4

CLIENT ADDRESS 5

POINT 0

...

▼

POINT 1

POINT 2

POINT 63

S1 DNP POINTS LIST

BINARY INPUTS

BINARY OUTPUTS

ANALOG INPUTS

POINT 0 ENTRY

...

POINT 1

POINT 2

POINT 31

▼

ENTRY

ENTRY

ENTRY

POINT 0 ON

...

POINT 0 OFF

POINT 1 ON

POINT 1 OFF

POINT 15 ON

POINT 15 OFF

▼

DEFAULT VARIATION

DNP OBJECT 1

▼

DNP OBJECT 2

DNP OBJECT 20

DNP OBJECT 21

DNP OBJECT 22

DNP OBJECT 23

DNP OBJECT 30

DNP OBJECT 32

DNP UNSOL RESPONSE*

FUNCTION

▼

TIMEOUT

MAX RETRIES

DEST ADDRESS

* Ethernet only


CHAPTER 4: DNP 3 DNP DEVICE PROFILE

DNP device profile

DNP 3.0 Device Profile

(Also see the IMPLEMENTATION TABLE in the following section)

Vendor Name: General Electric Multilin

Device Name: 850 Relay

Highest DNP Level Supported:For Requests: Level 2For Responses: Level 2

Device Function:□ Master⊠ Slave

Notable objects, functions, and/or qualifiers supported in addition to the Highest DNP Levels Supported (the complete list is described in the attached table):

Binary Inputs (Object 1)Binary Input Changes (Object 2)

Binary Outputs (Object 10)Control Relay Output Block (Object 12)

Binary Counters (Object 20)Frozen Counters (Object 21)Counter Change Event (Object 22)Frozen Counter Event (Object 23)

Analog Inputs (Object 30)Analog Input Changes (Object 32)Analog Deadbands (Object 34)

Time and Date (Object 50)Time Delay Fine (Object 52)

Class Data (Object 60)

Internal Indications (Object 80)

Maximum Data Link Frame Size (octets): Maximum Application Fragment Size (octets):

Transmitted: 292 Transmitted: configurable up to 2048

Received: 292 Received: 2048

Maximum Data Link Re-tries: Maximum Application Layer Re-tries:

⊠None ⊠ None

□Fixed at 3 □ Configurable

□Configurable

Requires Data Link Layer Confirmation:⊠ Never□ Always□ Sometimes□ Configurable

Requires Application Layer Confirmation:□ Never□ Always⊠ When reporting Event Data⊠ When sending multi-fragment responses□ Sometimes□ Configurable

Timeouts while waiting for:Data Link Confirm: ⊠ None □ Fixed □ Variable □ ConfigurableComplete Appl. Fragment: ⊠ None □ Fixed □ Variable □ ConfigurableApplication Confirm: □ None ⊠ Fixed at 10 s □ Variable □ ConfigurableComplete Appl. Response: ⊠ None □ Fixed at ___ □ Variable □ Configurable


DNP DEVICE PROFILE CHAPTER 4: DNP 3

Others:Transmission Delay: No intentional delayNeed Time Interval: Configurable (default = 24 hrs.)Select/Operate Arm Timeout: 10 sBinary input change scanning period: 8 times per power system cycleAnalog input change scanning period: 500 msCounter change scanning period: 500 msFrozen counter event scanning period: 500 ms

Sends/Executes Control Operations:WRITE Binary Outputs ⊠ Never □ Always □ Sometimes □ ConfigurableSELECT/OPERATE □ Never ⊠ Always □ Sometimes □ ConfigurableDIRECT OPERATE □ Never ⊠Always □ Sometimes □ ConfigurableDIRECT OPERATE – NO ACK □ Never ⊠ Always □ Sometimes □ ConfigurableCount > 1 ⊠ Never □ Always □ Sometimes □ ConfigurablePulse On □ Never □ Always ⊠ Sometimes □ ConfigurablePulse Off □ Never □ Always ⊠ Sometimes □ ConfigurableLatch On □ Never □ Always ⊠ Sometimes □ ConfigurableLatch Off □ Never □ Always ⊠ Sometimes □ ConfigurableQueue ⊠ Never □ Always □ Sometimes □ ConfigurableClear Queue ⊠ Never □ Always □ Sometimes □ Configurable

Explanation of ‘Sometimes’: Object 12 points are mapped to Virtual Inputs and Commands (Force Coils). Both “Pulse On” and “Latch On” operations perform the same function in the 850 ; that is, the appropriate Virtual Input or Coil is put into the “On” state. The On/Off times and Count value are ignored. “Pulse Off” and “Latch Off” operations put the appropriate Virtual Input or Coil into the “Off” state. “Trip” and “Close” operations both put the appropriate Virtual Input or coil into the “On” state if a paired mapping is set, otherwise “Trip” will put into “Off” and “Close” will put into “On”.

Reports Binary Input Change Events when no specific variation requested:

□ Never⊠ Only time-tagged□ Only non-time-tagged□ Configurable

Reports time-tagged Binary Input Change Events when no specific variation requested:□ Never⊠ Binary Input Change With Time□ Binary Input Change With Relative Time□ Configurable (attach explanation)

Sends Unsolicited Responses:□ Never□ Configurable□ Only certain objects⊠ Sometimes⊠ ENABLE/DISABLE unsolicited Function codes supported

Sends Static Data in Unsolicited Responses:⊠ Never□ When Device Restarts□ When Status Flags ChangeNo other options are permitted.

Explanation of ‘Sometimes’: It will be disabled for RS-485 applications, since there is no collision avoidance mechanism. For Ethernet communication it will be available and it can be disabled or enabled with the proper function code.

Default Counter Object/Variation:□ No Counters Reported□ Configurable (attach explanation)⊠ Default Object: 20Default Variation: 1⊠ Point-by-point list attached

Counters Roll Over at:□ No Counters Reported□ Configurable (attach explanation)⊠ 16 Bits□ 32 Bits□ Other Value: _____⊠ Point-by-point list attached

Sends Multi-Fragment Responses:⊠ Yes□ No

DNP 3.0 Device Profile


CHAPTER 4: DNP 3 DNP IMPLEMENTATION

DNP implementation

OBJECT REQUEST RESPONSE

OBJECT NO.

VARIATION NO.

DESCRIPTION FUNCTION CODES (DEC)

QUALIFIER CODES (HEX) FUNCTION CODES (DEC)

QUALIFIER CODES (HEX)

1 0 Binary Input (Variation 0 is used to request default variation)

1 (read) 22 (assign class)

00, 01 (start-stop) 06 (no range, or all)07, 08 (limited quantity) 17, 28 (index)

--- ---

1 Binary Input 1 (read) 22 (assign class)


129 (response) 00, 01 (start-stop) 17, 28 (index) (see Note 2)

2 Binary Input with Status




2 0 Binary Input Change (Variation 0 is used to request default variation)

1 (read) 06 (no range, or all) 07, 08 (limited quantity)

--- ---

1 Binary Input Change without Time


129 (response) 130 (unsol. resp.)

17, 28 (index)

2 Binary Input Change with Time



17, 28 (index)

3 Binary Input Change with Relative Time


--- ---

10 0 Binary Output Status (Variation 0 is used to request default variation)

1 (read) 00, 01(start-stop) 06 (no range, or all)07, 08 (limited quantity) 17, 28 (index)

--- ---

2 Binary Output Status 1 (read) 00, 01 (start-stop)06 (no range, or all)07, 08 (limited quantity)17, 28 (index)


12 1 Control Relay Output Block

3 (select)4 (operate) 5 (direct op) 6 (dir. op, noack)

00, 01 (start-stop)07, 08 (limited quantity)17, 28 (index)

129 (response) echo of request

20 0 Binary Counter (Variation 0 is used to request default variation)

1 (read) 7 (freeze) 8 (freeze noack) 9 (freeze clear) 10 (frz. cl. noack) 22 (assign class)

00, 01 (start-stop) 06 (no range, or all) 07, 08 (limited quantity) 17, 28 (index)

--- ---

1 32-Bit Binary Counter

1 (read)7 (freeze) 8 (freeze noack) 9 (freeze clear) 10 (frz. cl. noack) 22 (assign class)



2 16-Bit Binary Counter





DNP IMPLEMENTATION CHAPTER 4: DNP 3

5 32-Bit Binary Counter without Flag




6 16-Bit Binary Counter without Flag




21 0 Frozen Counter(Variation 0 is used to request defaultvariation)



--- ---

1 32-Bit Frozen Counter




2 16-Bit Frozen Counter




9 32-Bit Frozen Counter without Flag




10 16-Bit Frozen Counter without Flag




22 0 Counter Change Event (Variation 0 is used to request default variation)


--- ---

1 32-Bit Counter Change Event



17, 28 (index)

2 16-Bit Counter Change Event



17, 28 (index)

5 32-Bit Counter Change Event with Time



17, 28 (index)

6 16-Bit Counter Change Event with Time



17, 28 (index)

23 0 Frozen Counter Event (Variation 0 is used to request default variation)


--- ---

1 32-Bit Frozen Counter Event



17, 28 (index)

2 16-Bit Frozen Counter Event



17, 28 (index)

5 32-Bit Frozen Counter Event with Time



17, 28 (index)

6 16-Bit Frozen Counter Event with Time



17, 28 (index)


OBJECT NO.

VARIATION NO.





CHAPTER 4: DNP 3 DNP IMPLEMENTATION

30 0 Analog Input (Variation 0 is used to request default variation)



--- ---

1 32-Bit Analog Input 1 (read) 22 (assign class)



2 16-Bit Analog Input 1 (read) 22 (assign class)



3 32-Bit Analog Input without Flag




4 16-Bit Analog Input without Flag




5 short floating point 1 (read) 22 (assign class)



32 0 Analog Change Event (Variation 0 is used to request default variation)


--- ---

1 32-Bit Analog Change Event without Time



17, 28 (index)

2 16-Bit Analog Change Event without Time



17, 28 (index)

3 32-Bit Analog Change Event with Time



17, 28 (index)

4 16-Bit Analog Change Event with Time



17, 28 (index)

5 short floating point Analog Change Event without Time



17, 28 (index)

7 short floating point Analog Change Event with Time



17, 28 (index)

34 0 Analog Input Reporting Deadband (Variation 0 is used to request default variation)

1 (read) 00, 01 (start-stop) 06 (no range, or all) 07, 08 (limited quantity) 17, 28 (index)

--- ---

1 16-bit Analog Input Reporting Deadband (default - see Note 1)



2 (write) 00, 01 (start-stop) 07, 08 (limited quantity) 17, 28 (index)

--- ---

2 32-bit Analog Input Reporting Deadband




OBJECT NO.

VARIATION NO.





DNP IMPLEMENTATION CHAPTER 4: DNP 3

FASTPATH: 1. A default variation refers to the variation response when variation 0 is requested and/or in class 0, 1, 2, or 3 scans. The default variations for object types 1, 2, 20, 21, 22, 23, 30, and 32 are selected via relay settings. This optimizes the class 0 poll data size.

2. For static (non-change-event) objects, qualifiers 17 or 28 are only responded when a request is sent with qualifiers 17 or 28, respectively. Otherwise, static object requests sent with qualifiers 00, 01, 06, 07, or 08, will be responded with qualifiers 00 or 01 (for changeevent objects, qualifiers 17 or 28 are always responded.)

Cold restarts are implemented the same as warm restarts – the 850 is not restarted, but the DNP process is restarted.

2 (write) 00, 01 (start-stop) 07, 08 (limited quantity) 17, 28 (index)

--- ---

50 1 Time and Date (default - see Note 1)

1 (read)2 (write)

00, 01 (start-stop) 06 (no range, or all) 07 (limited qty=1) 08 (limited quantity) 17, 28 (index)


52 2 Time Delay Fine (quantity = 1)

129 (response) 07 (limited quantity) --- ---

60 0 Class 0, 1, 2, and 3 Data

1 (read) 20 (enable unsol) 21 (disable unsol) 22 (assign class)

06 (no range, or all) --- ---

1 Class 0 Data 1 (read) 22 (assign class)

06 (no range, or all) --- ---

2 Class 1 Data 1 (read) 20 (enable unsol)

06 (no range, or all) 07, 08 (limited quantity)

--- ---

3 Class 2 Data 21 (disable unsol) --- ---

4 Class 3 Data 22 (assign class) --- ---

80 1 Internal Indications 1 (read) 00, 01 (start-stop) (index =7)

129 (response) 00, 01 (start-stop)

2 (write) (see Note 3)

00 (start-stop) (index =7)

--- ---

No Object (function code only) see Note 3

13 (cold restart) --- --- ---

No Object (function code only)

14 (warm restart) --- --- ---

No Object (function code only)

23 (delay meas.) --- --- ---


OBJECT NO.

VARIATION NO.






Chapter 5: DNP / IEC104 Point Lists

GEDigital Energy

DNP / IEC104 Point Lists

The menu for the DNP/IEC104 point lists is shown below.Path: Setpoints > Device > Communications > DNP/IEC104 Point Lists

The binary inputs points for the DNP protocol, or the MSP points for IEC 60870-5-104 protocol, can configured to a maximum of 96 points. The value for each point is user-programmable and can be configured by assigning FlexLogic operands.The menu for the binary input points (DNP) or MSP points (IEC 60870-5-104) is shown below.Path: Setpoints > Device > Communications > DNP/IEC104 Point Lists > Binary Input/MSP Points

Up to 32 analog input points can be configured for the DNP or IEC 60870-5-104 protocols. The menu for the analog input point (DNP) or MME points (IEC 60870-5-104) is shown below.

Message

Message

Range: FlexLogic operandDefault: Off

■ BINARY INPUT / MSP■ POINTS

Point: 0Off

Point: 1Off

Point: 95Off




CHAPTER 5: DNP / IEC104 POINT LISTS

DNP ANALOG 0 SCALE FACTORRange: 0.001, 0.01. 0.1, 1, 10, 100, 1000, 10000, 100000Default: 1

The setting specifies a time delay for the detection of dead network TCP connections. If there is no data traffic on a DNP TCP connection for greater than the time specified by the setting, the connection is aborted by the 850. This frees up the connection to be re-used by a client.

DNP ANALOG 0(31) DEFAULT DEADBANDRange: 1 to 100000000 in steps of 1Default: 30000

The settings determine when to trigger unsolicited responses containing analog input data. Each setting represents the default deadband value for the associate analog input.For example, to trigger unsolicited responses from the 850 when phase A current changes by 15 A, the DNP CURRENT DEFAULT DEADBAND for Phase A current should be set to “15”. Note that these settings are the deadband default values. DNP object 34 points can be used to change deadband values from the default for each individual DNPanalog input point. Whenever power is removed and re-applied to the 850 the default deadbands are in effect.

DNP ANALOG 0(31) SCALE FACTORRange: 0.001, 0.01. 0.1, 1, 10, 100, 1000, 10000, 100000Default: 1

These are numbers used to scale analog input point values. Each setting represents the scale factor for the analog input point. For example, if the DNP PHASE A VOLTAGE SCALE FACTOR setting is set to “1000”, Phase A voltage is returned with values 1000 times smaller (for example, a value of 72000 V on the 850 is returned as 72). The settings are useful when analog input values must be adjusted to fit within certain ranges in DNP masters.

FASTPATH: Note that a scale factor of 0.1 is equivalent to a multiplier of 10 (that is, the value is 10 times larger), and that the first 16 analog points are 16 bit integer format and the second 16 analog points are in IEEE 32bit floating point notation

The menu for the analog input points (DNP) or MME points (IEC 60870-5-104) is shown below.Path: Setpoints > Device > Communications > DNP/IEC104 Point Lists > Analog Input / MME Points

The binary outputs points for the DNP protocol, or the CSC/CDC points for IEC 60870-5-104 protocol, can configured to a maximum of 16 points. The value for each point is user-programmable and can be configured by assigning FlexLogic operands.

Message

Message

Range: any FlexAnalog parameterDefault: Off

■ ANALOG INPUT/MME■ POINTS

Point: 0Off

Point: 1Off

Point: 31Off





The menu for the binary output points (DNP) or CSC/CDC points (IEC 60870-5-104) is shown below.Path: Setpoints > Device > Communications > DNP/IEC104 Point Lists > Binary Output / CSC/CDC Points

FASTPATH: The DNP / IEC 60870-5-104 point lists always begin with point 0 and end at the first “Off” value. Since DNP / IEC 60870-5-104 point lists must be in one continuous block, any points assigned after the first “Off” point are ignored.

BINARY INPUT POINTSThe DNP binary input data points are configured through the DNP / IEC104 POINT LISTS BINARY INPUT / MSP POINTS menu. When a freeze function is performed on a binary counter point, the frozen value is available in the corresponding frozen counter point.BINARY INPUT POINTS

Static (Steady-State) Object Number: 1Change Event Object Number: 2Request Function Codes supported: 1 (read), 22 (assign class)Static Variation reported when variation 0 requested: 2 (Binary Input with status), ConfigurableChange Event Variation reported when variation 0 requested: 2 (Binary Input Change with Time), ConfigurableChange Event Scan Rate: 8 times per power system cycleChange Event Buffer Size: 1024Default Class for All Points: 1

POINT NAME/DESCRIPTION COUNTERSThe following table lists both Binary Counters (Object 20) and Frozen Counters (Object 21). When a freeze function is performed on a Binary Counter point, the frozen value is available in the corresponding Frozen Counter point. 850 Digital Counter values are represented as 16 or 32-bit integers. The DNP 3.0 protocol defines counters to be unsigned integers. Care should be taken when interpreting negative counter values.

Message

Message


■ BINARY OUTPUT /■ CSC / CDC POINTS

Point: 0 ONOff

Point: 0 OFFOff

Point: 15 ONOff

MessagePoint: 15 OFFOff






BINARY COUNTERSStatic (Steady-State) Object Number: 20Change Event Object Number: 22Request Function Codes supported: 1 (read), 7 (freeze), 8 (freeze noack), 9 (freeze and clear), 10 (freeze and clear, noack), 22 (assign class)Static Variation reported when variation 0 requested: 1 (32-Bit Binary Counter with Flag)Change Event Variation reported when variation 0 requested: 1 (32-Bit Counter Change Event without time)Change Event Buffer Size: 10Default Class for all points: 3

FROZEN COUNTERSStatic (Steady-State) Object Number: 21Change Event Object Number: 23Request Function Codes supported: 1 (read)Static Variation reported when variation 0 requested: 1 (32-Bit Frozen Counter with Flag)Change Event Variation reported when variation 0 requested: 1 (32-Bit Counter Change Event without time)Change Event Buffer Size: 10Default Class for all points: 3

BINARY AND FROZEN COUNTERS POINT INDEX NAME/DESCRIPTION0 Digital Counter 11 Digital Counter 22 Digital Counter 33 Digital Counter 44 Digital Counter 55 Digital Counter 66 Digital Counter 77 Digital Counter 88 Digital Counter 99 Digital Counter 1010 Digital Counter 1111 Digital Counter 1212 Digital Counter 1313 Digital Counter 1414 Digital Counter 1515 Digital Counter 16



ANALOG INPUTSThe DNP analog input data points are configured through the PRODUCT SETUP/ COMMUNICATIONS/ DNP / IEC104 POINT LISTS / ANALOG INPUT / MME POINTS menu. It is important to note that 16-bit and 32-bit variations of analog inputs are transmitted through DNP as signed numbers. Even for analog input points that are not valid as negative values, the maximum positive representation is 32767 for 16-bit values and 2147483647 for 32-bit values. This is a DNP requirement. The deadbands for all Analog Input points are in the same units as the Analog Input quantity. For example, an Analog Input quantity measured in volts has a corresponding deadband in units of volts. Relay settings are available to set default deadband values according to data type. Deadbands for individual Analog Input Points can be set using DNP Object 34.

FASTPATH: 1. A default variation refers to the variation response when variation 0 is requested and/or in class 0, 1, 2, or 3 scans. The default variations for object types 1, 2, 20, 21, 22, 23, 30, and 32 are selected via relay settings. This optimizes the class 0 poll data size.

2. For static (non-change-event) objects, qualifiers 17 or 28 are only responded when a request is sent with qualifiers 17 or 28, respectively. Otherwise, static object requests sent with qualifiers 00, 01, 06, 07, or 08, are responded with qualifiers 00 or 01 (for change event objects, qualifiers 17 or 28 are always responded.

Cold restarts are implemented the same as warm restarts – the 850 is not restarted, but the DNP process is restarted.





Chapter 6: IEC 60870-5-104

GEDigital Energy

IEC 60870-5-104

The IEC 60870-5-104 communications protocol is supported on Ethernet ports 4 and 5 only. Setting changes become active after rebooting.

FASTPATH: In 850 both DNP and IEC104 protocol can work at the same time, but the user has to consider that there is only one point map. So, both protocols use the same configured points

FASTPATH: The 850 supports two IEC104 client connections simultaneously.

Path: Setpoints > Device > Communications > IEC 60870-5-104

Message

Message

■ IEC 60870-5-104 Range: see sub-menu below■ IEC104■ CHANNELS

Range: 0 to 65535 in steps of 1

Range: see sub-menu below



■ IEC104 NETWORK■ CLIENT ADDRESSES

IEC104 COMMONADDRESS OF ASDU:0

■ IEC104 TCP■ PORTS

■ IEC104 CYCLIC DATAPERIOD: 60 s

■ IEC104 Obj InfoAddr Binary: 1000



■ IEC104 Obj InfoAddr Analog: 2000

■ IEC104 Obj InfoAddr Counter: 3000

Message

Message

Message

Message

Message

Message

Range: 0 to 16777215 in steps of 1■ IEC104 Obj InfoAddr Command: 4000

Range: 0 to 16777215 in steps of 1■ IEC104 Obj InfoAnalog Param: 5000

Message



CHAPTER 6: IEC 60870-5-104

By default the Object Information Address for the different data is as follows:M_SP (Single Points) = 1000M_ME (Measured value) = 2000M_IT (Integrated Totals) = 3000C_SC or C_DC (Single or Double Command) = 4000P_ME_NB (Parameter of measured value) = 5000

Each Measured value has a Parameter of measured value (P_ME_NB) associated to its threshold.The IEC 60870-5-104 Deadbands settings are used to determine when to trigger spontaneous responses containing M_ME_NB_1 analog data. Each setting represents the threshold value for each M_ME_NB_1 analog point.For example, to trigger spontaneous responses from the 850 when a current value changes by 15 A, the “Analog Point xx Deadband” setting should be set to 15. Note that these settings are the default values of the deadbands. P_ME_NB_1 (parameter of measured value, scaled value) points can be used to change threshold values, from the default, for each individual M_ME_NB_1 analog point.There are three ways to send the measurands to the Master station. The measurands are part of the General Group and Group 2, so when a general interrogation or group 2 interrogation takes place all the measurands are included in the response. Also, there is a cyclic data period setting where it is configured in the scan period to send the measurands to the Master. And the last way, is by sending spontaneously when a deadband overflow takes place.The IEC104 Channels sub-menu is shown below.Commands are executed over the Binary Outputs. The first 8 Binary Outputs are configured to receive Select/Operate Commands and the next 8 Binary Outputs are configured to receive Direct Execute Commands.Path: Setpoints > Device > Communications > IEC 60870-5-104

The IEC104 CHANNEL 1 PORT and IEC104 CHANNEL 2 PORT settings select the communications port assigned to the IEC104 protocol for each channel. When this setting is set to “Network - TCP”, the IEC104 protocol can be used over TCP/IP on channels 1 or 2. The IEC104 NETWORK CLIENT ADDRESS settings can force the 850 to respond to a maximum of two specific IEC104 masters. The settings in this sub-menu are shown below.Path: Setpoints > Device > Communications > IEC 60870-5-104

Path: Setpoints > Device > Communications > IEC 60870-5-104

FASTPATH: “IEC104 Channel 1 Port” takes the “Port Number 1” and “Client Address 1” to allow or reject connections. The same method is used by channel 2.

Message

Range: None, Network-TCP■ IEC104 60870-5-104■

CHANNEL 1PORT: NETWORK-TCP

Range: None, Network-TCPCHANNEL 2PORT: NETWORK-TCP

Message

Range: standard IP address■ IEC104 60870-5-104

■

CLIENT ADDRESS 1:0.0.0.0

CLIENT ADDRESS 2:0.0.0.0

Range: standard IP address

Message

Range: 1 to 65535 in steps of 1■ IEC104 60870-5-104

■

TCP PORT NUMBER 1:2404

TCP PORT NUMBER 2:2404



CHAPTER 6: IEC 60870-5-104 INTEROPERABILITY

GROUPS OF DATAThe data is organized into groups in order to provide values when the controlling station requests them by a general or group interrogation.

Group 1 is set by the 96 Single Points (M_SP).Group 2 is set by the 32 Measured values (M_ME).Group 3 is set by the 32 Measured threshold (P_ME).

These 96 Single Points and 32 Measured Values are also sent as a response to a General Interrogation.The Integrated Totals (M_IT) has its own Counter Group 1, and it is sent as a response to a General Request Counter.

Interoperability

This document is adapted from the IEC 60870-5-104 standard. For this section the boxes indicate the following: ⊠ – used in the standard direction; □– not used.IEC 60870-5-104 Interoperability DocumentSystem or device:□ System definition.□ Controlling station definition (master).⊠ Controlled station definition (slave).Application layer:Transmission mode for application data:Mode 1 (least significant octet first), as defined in Clause 4.10 of IEC 60870-5-4, is used exclusively in this companion standard.Common address of ASDU:⊠ Two octets.Information object address:⊠ Three octets. ⊠ Structured ⊠ UnstructuredCause of transmission: ⊠ Two octets (with originator address). Originator address is set to zero if not used.Maximum length of APDU.253 in both directions (the maximum length is a fixed system parameter).Selection of standard ASDUs.For the following lists, the boxes indicate the following:⊠ – used in standard direction; □ – not used.Process information in monitor direction:

Table 6-1: Process information in monitor directionNumber / description Mnemonic

⊠ <1> := Single-point information M_SP_NA_1

□ <3> := Double-point information M_DP_NA_1

□ <5> := Step position information M_ST_NA_1

□ <7> := Bitstring of 32 bits M_BO_NA_1

□ <9> := Measured value, normalized value M_ME_NA_1

⊠ <11> := Measured value, scaled value M_ME_NB_1

□ <13> := Measured value, short floating point value M_ME_NC_1

⊠ <15> := Integrated totals M_IT_NA_1

□ <20> := Packed single-point information with status change detection M_SP_NA_1

□ <21> := Measured value, normalized value without quantity descriptor M_ME_ND_1

⊠ <30> := Single-point information with time tag CP56Time2a M_SP_TB_1

□ <31> := Double-point information with time tag CP56Time2a M_DP_TB_1


INTEROPERABILITY CHAPTER 6: IEC 60870-5-104

Table 6-2: Process information in control direction

Either the ASDUs of the set <45> to <51> or of the set <58> to <64> are used.

Table 6-3: System information in monitor direction

Table 6-4: System information in control direction

Table 6-5: Parameter in control direction

□ <32> := Step position information with time tag CP56Time2a M_ST_TB_1

□ <33> := Bitstring of 32 bits with time tag CP56Time2a M_BO_TB_1

□ <34> := Measured value, normalized value with time tag CP56Time2a M_ME_TD_1

⊠ <35> := Measured value, scaled value with time tag CP56Time2a M_ME_TE_1

□ <36> := Measured value, short floating point value with time tag CP56Time2a M_ME_TF_1

⊠ <37> := Integrated totals with time tag CP56Time2a M_IT_TB_1

□ <38> := Event of protection equipment with time tag CP56Time2a M_EP_TD_1

□ <39> := Packed start events of protection equipment with time tag CP56Time2a

M_EP_TE_1

□ <40> := Packed output circuit information of protection equipment with time tag CP56Time2a

M_EP_TF_1

Number / description Mnemonic

⊠ <45> := Single command C_SC_NA_1

⊠ <46> := Double command C_DC_NA_1

□ <47> := Regulating step command C_RC_NA_1

□ <48> := Set point command, normalized value C_SE_NA_1

□ <49> := Set point command, scaled value C_SE_NB_1

□ <50> := Set point command, short floating point value C_SE_NC_1

□ <51> := Bitstring of 32 bits C_BO_NA_1

⊠ <58> := Single command with time tag CP56Time2a C_SC_TA_1

⊠ <59> := Double command with time tag CP56Time2a C_DC_TA_1

□ <60> := Regulating step command with time tag CP56Time2a C_RC_TA_1

□ <61> := Set point command, normalized value with time tag CP56Time2a C_SE_TA_1

□ <62> := Set point command, scaled value with time tag CP56Time2a C_SE_TB_1

□ <63> := Set point command, short floating point value with time tag CP56Time2a

C_SE_TC_1

□ <64> := Bitstring of 32 bits with time tag CP56Time2a C_BO_TA_1


⊠ <70> := End of initialization M_EI_NA_1


⊠ <100> := Interrogation command C_IC_NA_1

⊠ <101> := Counter interrogation command C_CI_NA_1

⊠ <102> := Read command C_RD_NA_1

⊠ <103> := Clock synchronization command (see Clause 7.6 in standard) C_CS_NA_1

⊠ <105> := Reset process command C_RP_NA_1

⊠ <107> := Test command with time tag CP56Time2a C_TS_TA_1


□ <110> := Parameter of measured value, normalized value PE_ME_NA_1




Table 6-6: File transfer

Type identifier and cause of transmission assignments (station-specific parameters) are shown in the following tables. In these tables, shaded boxes (░) are not required, black boxes (█) are not permitted in the companion standard, empty cells indicate the functions or ASDU are not used, and a cross (╳) indicates availability only in the standard direction.

Table 6-7: Cause of transmission numbers

⊠ <111> := Parameter of measured value, scaled value PE_ME_NB_1

□ <112> := Parameter of measured value, short floating point value PE_ME_NC_1

□ <113> := Parameter activation PE_AC_NA_1


□ <120> := File ready F_FR_NA_1

□ <121> := Section ready F_SR_NA_1

□ <122> := Call directory, select file, call file, call section F_SC_NA_1

□ <123> := Last section, last segment F_LS_NA_1

□ <124> := Ack file, ack section F_AF_NA_1

□ <125> := Segment F_SG_NA_1

□ <126> := Directory (blank or X, available only in monitor [standard] direction) F_DR_TA_1

□ <127> := Query log - Request archive file F_SC_NB_1

Number Cause of transmission

1 Periodic, cyclic

2 Background scan

3 Spontaneous

4 Initialized

5 Request or requested

6 Activation

7 Activation confirmation

8 Deactivation

9 Deactivation confirmation

10 Activation termination

11 Return information caused by a remote command

12 Return information caused by a local command

13 File transfer

20 20 Interrogated by station interrogation

21 to 36 Interrogated by group <number> interrogation

37 37 Requested by general counter request

38 to 41 Requested by group <number> counter request

44 Unknown type of identification

45 Unknown cause of transmission

46 Unknown command address of ADSU

47 Unknown information object address




Table 6-8: Cause of transmission assignments

Type identification Cause of transmission

No. Mnemonic 1 2 3 4 5 6 7 8 9 10 11 12 13 20 to 36

37 to 41

44 45 46 47

<1> M_SP_NA_1 ░ ░ ╳ ░ ░ ░ ░ ░ ░ ╳ ░ ░ ░ ░ ░<2> M_SP_TA_1 ░ ░ █ ░ █ ░ ░ ░ ░ ░ █ █ ░ ░ ░ ░ ░ ░ ░<3> M_DP_NA_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<4> M_DP_TA_1 ░ ░ █ ░ █ ░ ░ ░ ░ ░ █ █ ░ ░ ░ ░ ░ ░ ░<5> M_ST_NA_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<6> M_ST_TA_1 ░ ░ █ ░ █ ░ ░ ░ ░ ░ █ █ ░ ░ ░ ░ ░ ░ ░<7> M_BO_NA_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<8> M_BO_TA_1 ░ ░ █ ░ █ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<9> M_ME_NA_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<10> M_ME_TA_1 ░ ░ █ ░ █ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<11> M_ME_NB_1 ╳ ░ ╳ ░ ░ ░ ░ ░ ░ ░ ░ ╳ ░ ░ ░ ░ ░<12> M_ME_TB_1 ░ ░ █ ░ █ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<13> M_ME_NC_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<14> M_ME_TC_1 ░ ░ █ ░ █ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<15> M_IT_NA_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ╳ ░ ░ ░ ░<16> M_IT_TA_1 ░ ░ █ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ █ ░ ░ ░ ░<17> M_EP_TA_1 ░ ░ █ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<18> M_EP_TB_1 ░ ░ █ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<19> M_EP_TC_1 ░ ░ █ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<20> M_PS_NA_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<21> M_ME_ND_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<30> M_SP_TB_1 ░ ░ ╳ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<31> M_DP_TB_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<32> M_ST_TB_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<33> M_BO_TB_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<34> M_ME_TD_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<35> M_ME_TE_1 ░ ░ ╳ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<36> M_ME_TF_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<37> M_IT_TB_1 ░ ░ ╳ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<38> M_EP_TD_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<39> M_EP_TE_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<40> M_EP_TF_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<45> C_SC_NA_1 ░ ░ ░ ░ ░ ╳ ╳ ╳ ╳ ╳ ░ ░ ░ ░ ░<46> C_DC_NA_1 ░ ░ ░ ░ ░ ╳ ╳ ╳ ╳ ╳ ░ ░ ░ ░ ░<47> C_RC_NA_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<48> C_SE_NA_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<49> C_SE_NB_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<50> C_SE_NC_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<51> C_BO_NA_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<58> C_SC_TA_1 ░ ░ ░ ░ ░ ╳ ╳ ╳ ╳ ╳ ░ ░ ░ ░ ░<59> C_DC_TA_1 ░ ░ ░ ░ ░ ╳ ╳ ╳ ╳ ╳ ░ ░ ░ ░ ░<60> C_RC_TA_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<61> C_SE_TA_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░



FASTPATH: “*” blank or X only

Basic application functions:Station initialization:⊠ Remote initialization.Cyclic data transmission:⊠ Cyclic data transmission.Read procedure:⊠ Read procedure.Spontaneous transmission:⊠ Spontaneous transmission.Double transmission of information objects with cause of transmission spontaneous:The following type identifications may be transmitted in succession caused by a single status change of an information object. The particular information object addresses for which double transmission is enabled are defined in a project-specific list.□ Single point information: M_SP_NA_1, M_SP_TA_1, M_SP_TB_1, and M_PS_NA_1.□ Double point information: M_DP_NA_1, M_DP_TA_1, and M_DP_TB_1.□ Step position information: M_ST_NA_1, M_ST_TA_1, and M_ST_TB_1.□ Bitstring of 32 bits: M_BO_NA_1, M_BO_TA_1, and M_BO_TB_1 (if defined for a specific project).

<62> C_SE_TB_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<63> C_SE_TC_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<64> C_BO_TA_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<70> M_EI_NA_1*) ░ ░ ░ ╳ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<100> C_IC_NA_1 ░ ░ ░ ░ ░ ╳ ╳ ╳ ╳ ╳ ░ ░ ░ ░ ░<101> C_CI_NA_1 ░ ░ ░ ░ ░ ╳ ╳ ░ ░ ╳ ░ ░ ░ ░ ░<102> C_RD_NA_1 ░ ░ ░ ░ ╳ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<103> C_CS_NA_1 ░ ░ ╳ ░ ░ ╳ ╳ ░ ░ ░ ░ ░ ░ ░ ░<104> C_TS_NA_1 ░ ░ ░ ░ ░ █ █ ░ ░ ░ ░ ░ ░ ░ ░ █ █ █ █<105> C_RP_NA_1 ░ ░ ░ ░ ░ ╳ ╳ ░ ░ ░ ░ ░ ░ ░ ░<106> C_CD_NA_1 ░ ░ █ ░ ░ █ █ ░ ░ ░ ░ ░ ░ ░ ░ █ █ █ █<107> C_TS_TA_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<110> P_ME_NA_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<111> P_ME_NB_1 ░ ░ ░ ░ ░ ╳ ╳ ░ ░ ░ ░ ░ ░ ╳ ░<112> P_ME_NC_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<113> P_AC_NA_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<120> F_FR_NA_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<121> F_SR_NA_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<122> F_SC_NA_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<123> F_LS_NA_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<124> F_AF_NA_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<125> F_SG_NA_1 ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<126> F_DR_TA_1*) ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░<127> F_SC_NB_1*) ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░

Type identification Cause of transmission

No. Mnemonic 1 2 3 4 5 6 7 8 9 10 11 12 13 20 to 36

37 to 41

44 45 46 47



□ Measured value, normalized value: M_ME_NA_1, M_ME_TA_1, M_ME_ND_1, and M_ME_TD_1.□ Measured value, scaled value: M_ME_NB_1, M_ME_TB_1, and M_ME_TE_1.□ Measured value, short floating point number: M_ME_NC_1, M_ME_TC_1, and M_ME_TF_1.Station interrogation:⊠ Group 1.⊠ Group 2.⊠ Group 3.⊠ Group 4.⊠ Group 5.⊠ Group 6.⊠ Group 7.⊠ Group 8.⊠ Group 9.⊠ Group 10.⊠ Group 11.⊠ Group 12.⊠ Group 13.⊠ Group 14.⊠ Group 15.⊠ Group 16.⊠ Global.Clock synchronization:⊠ Clock synchronization (optional, see Clause 7.6).□ Day of week used.□ RESI, GEN (time tag substituted/not substituted)□ SU-bit (summertime) used.Command transmission:⊠ Direct command transmission.□ Direct setpoint command transmission.⊠ Select and execute command.□ Select and execute setpoint command.⊠ C_SE ACTTERM used.⊠ No additional definition.⊠ Short pulse duration (duration determined by a system parameter in the outstation).⊠ Long pulse duration (duration determined by a system parameter in the outstation).⊠ Persistent output.⊠ Supervision of maximum delay in command direction of commands and setpoint commands.Maximum allowable delay of commands and setpoint commands: 5 s.Transmission of integrated totals:⊠ Mode A: Local freeze with spontaneous transmission.⊠ Mode B: Local freeze with counter interrogation.⊠ Mode C: Freeze and transmit by counter-interrogation commands.⊠ Mode D: Freeze by counter-interrogation command, frozen values reported simultaneously.⊠ Counter read.



⊠ Counter freeze without reset.⊠ Counter freeze with reset.⊠ Counter reset.⊠ General request counter.⊠ Request counter group 1.⊠ Request counter group 2.⊠ Request counter group 3.⊠ Request counter group 4.Parameter loading:⊠ Threshold value.□ Smoothing factor.□ Low limit for transmission of measured values.□ High limit for transmission of measured values.Parameter activation:□ Activation/deactivation of persistent cyclic or periodic transmission of the addressed object.Test procedure:□ Test procedure.File transfer in monitor direction:□ Transparent file.□ Transmission of disturbance data of protection equipment.□ Transmission of sequences of events.□ Transmission of sequences of recorded analog values.File transfer in control direction:□ Transparent file.Background scan:□ Background scan.Definition of timeouts:

Maximum range of values for all time outs: 1 to 255 s, accuracy 1 s.Maximum number of outstanding I-format APDUs (k) and latest acknowledge APDUs (w):

Maximum range of values k: 1 to 32767 (215 – 1) APDUs, accuracy 1 APDU.Maximum range of values w: 1 to 32767 APDUs, accuracy 1 APDU.Recommendation: w should not exceed two-thirds of k.Port number:

Parameter Default value Remarks Selected value

t0 Timeout of connection establishment N/A

t1 15 s Timeout of send or test APDUs 15 s

t2 10 s Timeout for acknowledgements in case of no data messages t2 < t1

10 s

t3 20 s Timeout for sending test frames in case of a long idle state

20 s

Parameter Default value Remarks Selected value

k 12 APDUs Maximum difference receive sequence number to send state variable

12 APDUs

w 8 APDUs Latest acknowledge after receiving w I-format APDUs

8 APDUs



RFC 2200 suite:RFC 2200 is an official Internet Standard which describes the state of standardization of protocols used in the Internet as determined by the Internet Architecture Board (IAB). It offers a broad spectrum of actual standards used in the Internet. The suitable selection of documents from RFC 2200 defined in this standard for given projects has to be chosen by the user of this standard.⊠ Ethernet 802.3.□ Serial X.21 interface.□ Other selection(s) from RFC 2200 (list below if selected).

Parameter Value Remarks

Port number 2404 In all cases



Chapter 7: IEC 60870-5-103

GEDigital Energy

IEC 60870-5-103

The point map for the 103 is different from the one shared by the IEC104 and DNP protocols. IEC 60870-5-103 serial communications protocol is supported on the rear RS485 ports only and is implemented as per the 850.The DNP, 103 and Modbus can not be enabled simultaneously on the RS485 serial port. DNP can be enabled on Ethernet and 103 on serial RS485.Path: Setpoints > Device > Communications > IEC60870-5-103

To view the list of binary inputs, see the 850 Flexlogic Operands table in the Setpoints/ FlexLogic section of the 850 instruction manual.

FASTPATH: The user must pay attention when configuring the function type and information number of the different points, because they must be unique. There is no mechanism in the EnerVista 8 Series Setup or the front panel HMI to detect this situation.

FASTPATH: The IEC 60870-5-103 point lists always begin with point 0 and end at the first “Off” value. Since IEC 60870-5-103 point lists must be in one continuous block, any points assigned after the first “Off” point are ignored.

Cause of Transmission

The cause of transmission is an unsigned integer which takes one of the values specified in the following tables.

Table 7-1: Cause of Transmission in the Monitor Direction

Value Description

<1> Spontaneous

<2> Cyclic

<3> Reset frame count bit (FCB)

<4> Reset communications unit (CU)

<5> Start/Restart

<6> Power on

<8> Time synchronization

<9> General interrogation


CAUSE OF TRANSMISSION CHAPTER 7: IEC 60870-5-103

Table 7-2: Cause of Transmission in the Control Direction

IEC 60870-5-103 COMMUNICATIONS MENUSPATH: SETPOINTS > DEVICE > COMMUNICATIONS > IEC 60870-5-103 PROTOCOL

PATH: SETPOINTS > DEVICE > COMMUNICATIONS > IEC103 POINT LISTS

PATH: SETPOINTS > DEVICE > COMMUNICATIONS > IEC103 POINT LISTS > BINARY INPUTS

PATH: SETPOINTS > DEVICE > COMMUNICATIONS > IEC103 POINT LISTS > MEASURANDS

<10> Termination of general interrogation

<20> Positive ack of command

<21> Nack of command

Value Description

<8> Time synchronization

<9> Initiation of general interrogation

<20> General command

Value Description

Message

Range: 0 to 254 in steps of 1■ IEC 60870-5-103■ PROTOCOL

IEC103 COMMONADDRESS OF ASDU: 0

IEC103 Sync Timeout:0

Range: 0 to 1440 min in steps of 1

Message

Range: see sub-menu below■ IEC103■ POINT LISTS


■ BINARY INPUTS■

■ MEASURANDS■

MessageRange: see sub-menu below■ COMMANDS

■

Message

Range: 0 to 255 in steps of 1Default: 0

■ BINAR INPUTS■

Point 0 Func Type:0

Point 0 Info Num:0

Message Point 0:off


Message Point 95 Func Type:0


Message Point 95 Info Num:0


Message Point 95:off


TM


TM

■ MEASURANDS■

■ FIRST ASDU■

■

■

SECOND ASDUTHIRD ASDUFOURTH ASDU


CHAPTER 7: IEC 60870-5-103 CAUSE OF TRANSMISSION

There are four measurand ASDUs with the following sub-menu.PATH: SETPOINTS > DEVICE > COMMUNICATIONS > IEC103 POINT LISTS > MEASURANDS > FIRST ASDU

Message

Range: 3, 9Default: 3

■ FIRST ASDU■

First ASDUIndent Type: 0

Message


MessageRange: 0 to 1000 s in steps of 1Default: 0

Message

Message


TM

First ASDUInfo Num: 0

First ASDUFunc Type: 0



First ASDUScan Timeout: 0 s

First Analog Entry:Off

First Analog Factor:0

Message First Analog Factor:0

MessageRange: 0 to 255 in steps of 1Default: 0


Message First Analog Offset:0

Message

Message


TM


Ninth Analog Entry:Off


MessageRange: 0.000 to 65.535 in steps of 0.001Default: 0

Ninth Analog Factor:0



MessageRange: -32768 to +32767 in steps of 1Default: 0

Ninth Analog Offset:0

Range: 0.000 to 65.535 in steps of 0.001Default: 0

Range: -32768 to +32767 in steps of 1Default: 0


COMMUNICATIONS MENUS CHAPTER 7: IEC 60870-5-103

PATH: SETPOINTS > DEVICE > COMMUNICATIONS > IEC103 POINT LISTS > COMMANDS

Communications Menus

The following show the menus and sub-menus for the 103 protocols.PATH: SETPOINTS > DEVICE > COMMUNICATIONS > IEC 60870-5-103 PROTOCOL

PATH: SETPOINTS > DEVICE > COMMUNICATIONS > IEC103 POINT LISTS

Message

■ COMMANDS■

Command 0 Func Type:0

Message


Message

Message

Message

Command 0 ON:off

Command 0 Info Num:0




Message



Message

Message Range: FlexLogic operandDefault: Off

TM

Command 0 OFF:off


Command 31 ON:off


Command 31 OFF:off


TM




TM


TM

Message

Range: 0 to 254 in steps of 1■ IEC 60870-5-103■ PROTOCOL

IEC103 COMMONADDRESS OF ASDU: 0

IEC103 Sync Timeout:0

Range: 0 to 1440 min in steps of 1

Message

Range: see sub-menu below■ IEC103■ POINT LISTS


■ BINARY INPUTS■

■ MEASURANDS■

MessageRange: see sub-menu below■ COMMANDS

■


CHAPTER 7: IEC 60870-5-103 COMMUNICATIONS MENUS

PATH: SETPOINTS > DEVICE > COMMUNICATIONS > IEC103 POINT LISTS > BINARY INPUTS

PATH: SETPOINTS > DEVICE > COMMUNICATIONS > IEC103 POINT LISTS > MEASURANDS

Message


■ BINAR INPUTS■

Point 0 Func Type:0

Point 0 Info Num:0

Message Point 0:off


Message Point 95 Func Type:0


Message Point 95 Info Num:0


Message Point 95:off


TM


TM

■ MEASURANDS■

■ FIRST ASDU■

■

■

SECOND ASDUTHIRD ASDUFOURTH ASDU


COMMUNICATIONS MENUS CHAPTER 7: IEC 60870-5-103

There are four measurand ASDUs with the following sub-menu.PATH: SETPOINTS > DEVICE > COMMUNICATIONS > IEC103 POINT LISTS > MEASURANDS > FIRST ASDU

Message

Range: 3, 9Default: 3

■ FIRST ASDU■

First ASDUIndent Type: 0

Message


MessageRange: 0 to 1000 s in steps of 1Default: 0

Message

Message


TM

First ASDUInfo Num: 0

First ASDUFunc Type: 0



First ASDUScan Timeout: 0 s

First Analog Entry:Off


Message First Analog Factor:0



Message First Analog Offset:0

Message

Message


TM


Ninth Analog Entry:Off


MessageRange: 0.000 to 65.535 in steps of 0.001Default: 0

Ninth Analog Factor:0



MessageRange: -32768 to +32767 in steps of 1Default: 0

Ninth Analog Offset:0

Range: 0.000 to 65.535 in steps of 0.001Default: 0

Range: -32768 to +32767 in steps of 1Default: 0



PATH: SETPOINTS > DEVICE > COMMUNICATIONS > IEC103 POINT LISTS > COMMANDS

Interoperability

Physical layer

Electrical interface

Optical interface

Transmission speed

Link layerThere are no choices for the Link Layer.

Message

■ COMMANDS■


Message


Message

Message

Message

Command 0 ON:off





Message



Message

Message Range: FlexLogic operandDefault: Off

TM

Command 0 OFF:off


Command 31 ON:off


Command 31 OFF:off


TM




TM


TM

⊠ EIA RS-485

32 Number of loads for one protection equipment

□ Glass fibre

□ Plastic fibre

□ F-SMA type connector

□ BFOC/2,5 type connector

⊠ 9600 bits/s

⊠ 19200 bits/s



Application layer

Transmission mode for application data

Mode 1 (least significant octet first), is used exclusively in this companion standard.

Common address of ASDU

Selection of standard information numbers

in monitor direction

Table 7-3: System functions in monitor direction

Table 7-4: Status indications in monitor direction

Table 7-5: Supervision indications in monitor direction

⊠ One COMMON ADDRESS OF ASDU (identical with station address)

More than one COMMON ADDRESS OF ASDU

INF Semantics

⊠ <0> End of general interrogation

⊠ <0> Time synchronization

⊠ <2> Reset FCB

⊠ <3> Reset CU

⊠ <4> Start/restart

⊠ <5> Power on

INF Semantics 850 Identifier 850 Data Text

□ <16> Auto-recloser active

□ <17> Teleprotection active

□ <18> Protection active

□ <19> LED reset

□ <20> Monitor direction blocked

□ <21> Test mode

□ <22> Local parameter setting

□ <23> Characteristic 1




□ <27> Auxiliary input 1





□ <32> Measurand supervision I

□ <33> Measurand supervision V

□ <35> Phase sequence supervision

□ <36> Trip circuit supervision

□ <37> I>> back-up operation

□ <38> VT fuse failure

□ <39> Teleprotection disturbed

□ <46> Group warning

□ <47> Group alarm



Table 7-6: Earth fault indications in monitor direction

Table 7-7: Fault indications in monitor direction

Table 7-8: Auto-reclosure indications in monitor direction


□ INF Semantics 850 Identifier 850 Data Text

□ <48> Earth fault L1



□ <51> Earth fault forward, i.e. line

□ <52> Earth fault reverse, i.e. busbar


□ INF Semantics 850 Identifier 850 Data Text

□ <64> Start / pick-up L1



□ <67> Start / pick-up N

□ <68> General trip

□ <69> Trip L1

□ <70> Trip L2

□ <71> Trip L3

□ <72> Trip I>> (back-up operation)

□ <73> Fault location X in ohms

□ <74> Fault forward / line

□ <75> Fault reverse / busbar

□ <76> Teleprotection signal transmitted

□ <77> Teleprotection signal received

□ <78> Zone 1

□ <79> Zone 2

□ <80> Zone 3

□ <81> Zone 4

□ <82> Zone 5

□ <83> Zone 6

□ <84> General start / pick-up

□ <85> Breaker failure

□ <86> Trip measuring system L1



□ <89> Trip measuring system E

□ <90> Trip I>

□ <91> Trip I>>

□ <92> Trip IN>

□ <93> Trip IN>>


□ <128> CB ‘on’ by AR

□ <129> CB ‘on’ by long-time AR

□ <130> AR blocked



Table 7-9: Measurands in monitor direction

Table 7-10: Generic functions in monitor direction

Selection of standard information numbers

in control direction

Table 7-11: System functions in control direction

Table 7-12: General commands in control direction

Table 7-13: General functions in control direction


□ <144> Measurand I

□ <145> Measurands I, V

□ <146> Measurands I, V, P, Q

□ <147> Measurands In, Ven

□ <148> Measurands IL123, VL123, P, Q, f

INF Semantics

□ <240> Read headings of all defined groups

□ <241> Read values or attributes of all entries of one group

□ <243> Read directory of a single entry

□ <244> Read value or attribute of a single entry

□ <245> End of general interrogation of generic data

□ <249> Write entry with confirmation

□ <250> Write entry with execution

□ <251> Write entry aborted

INF Semantics

⊠ <0> Initiation of general interrogation

⊠ <0> Time synchronization

INF Semantics

□ <16> Auto-recloser on / off

□ <17> Teleprotection on / off

□ <18> Protection on / off

□ <19> LED reset

□ <23> Activate characteristic 1




INF Semantics

□ <240> Read headings of all defined groups

□ <241> Read values or attributes of all entries of one group

□ <243> Read directory of a single entry

□ <244> Read value or attribute of a single entry

□ <245> General interrogation of generic data

□ <248> Write entry

□ <249> Write entry with confirmation

□ <250> Write entry with execution

□ <251> Write entry abort



Basic application functions

Miscellaneous

□ Test mode

□ Blocking of monitor direction

□ Disturbance data

□ Generic services

□ Private data

Measurand Max. MVAL = times rated value

1,2 or 2,4

Current L1 □ ⊠Current L2 □ ⊠Current L3 □ ⊠Voltage L1-E □ ⊠Voltage L2-E □ ⊠Voltage L3-E □ ⊠Active power P □ ⊠Reactive power Q □ ⊠Frequency f □ ⊠Voltage L1-L2 □ ⊠





Chapter 8: IEC 61850

GEDigital Energy

IEC 61850

The optional communications processor supports both the IEC61850 protocol GOOSE messaging and server service as per edition 2. The GOOSE messaging service allows the 850 relay the ability to publish digital, analog information and subscribe digital information with other relays supporting the same service while the server support allows IEC61850 SCADA and HMI devices access to the relay for monitoring and control. The configuration of IEC61850 services is accomplished using the 850 configuration software. Setting changes are active after rebooting.850 SCANThe 850 has a 2 ms scan during which inputs are read, the data of all general generic logical nodes is updated, protection elements are executed, Flexlogic is solved, and outputs are updated.


GENERAL CHAPTER 8: IEC 61850

Digital data in the logical nodes are updated every time they change, by event mechanism. Analog data are refreshed every 250 millisecond by polling.

FASTPATH: MMS file transfer is not supported by the 850 relay in firmware version 1.10

General

IEC61850 SERVERThe information of interest that is exchanged between the relay’s IEC61850 server and the substation HMI or SCADA system resides within the logical nodes of the relay.The following tables list the logical nodes and number of instances that are supported within the 850 relay.LOGICAL NODES

Table 8-1: Communication Elements in the 850

Power up self-test

Self-test

Comms Service

Read Inputs

Service GGl

Solve Protection

Solve Logic

Service GGO

Set Outputs

Top of second Update enabled digitalnodes

Y

N

850 Communications Elements Corresponding IEC61850 Logical node and number of instances

Supported in 850

Port status LCCH (3)

Remote Device LGOS (8) Yes

Time master supervision LTMS


CHAPTER 8: IEC 61850 GENERAL

Table 8-2: Protection and Protection Related Elements in the 850

Time management LTIM

PHYSICAL DEVICE INFORMATION LPHD Yes

Logical Node 0 LLN0 Yes

850 PROTECTION and PROTECTION RELATED ELEMENTS

Corresponding IEC61850 Logical node and number of instances

Supported in 850

GENERIC PROCESS I/O GGIO(6) Yes (GGIO2 to 6 are supported & GGIO1 is not supported)

METERING AND MEASUREMENT MMXU(3) Yes (only 2 is supported)

SEQUENCE AND IMBALANCE MSQI(3) Yes (only 1 is supported)

NONE PHASE RELATED METERING MMXN

CIRCUIT BREAKER XCBR(3) Yes (only 1 is supported)

BREAKER FAILURE RBRF

SYNCHROCHECK RSYN

AUTORECLOSING RREC(1) Yes

PHASE TOC 1-3 (51P) PTOC(3) Yes (only 2 is supported)

PHASE IOC 1-3 (50P) PIOC(3) Yes (only 2 is supported)

PHASE DIRECTIONAL OC (67P) RDIR Yes

NEUTRAL TOC1-2 (51N) PTOC(2) Yes

NEUTRAL IOC 1-2 (50N) PIOC(2) Yes

NEUTRAL DIRECTIONAL OC (67N) RDIR Yes

GROUND TOC 1 (51G) PTOC(1) Yes

GROUND IOC 1 (50G) PIOC(1) Yes

GROUND DIRECTIONAL OC (67G) RDIR Yes

SENSITIVE GROUND TOC (51SG) PTOC(1) Yes

SENSITIVE GROUND IOC (50 SG) PIOC(1) Yes

SENS. GROUND DIRECTIONAL OC (67SG) RDIR Yes

NEGATIVE SEQUENCE TOC (51¬_2) PTOC(1) Yes

NEGATIVE SEQUENCE IOC (50_2) PIOC(1) Yes

NEGATIVE SEQUENCE DIRECTIONAL (67_2) RDIR Yes

PHASE UNDERVOLTAGE 1-2 (27P) PTUV(2) Yes

AUX UNDERVOLTAGE 1 -2(27X) PTUV(2) Yes

AUX OVERVOLTAGE 1 -2(59X) PTOV(2) Yes (only 1 is supported)

PHASE OVERVOLTAGE 1 -2(59P) PTOV(2) Yes

NEUTRAL OVERVOLTAGE (59N) PTOV(1) Yes

NEGATIVE SEQUENCE OVERVOLTAGE (47P) PTOV(1)

VT FUSE FAIL

REVERSE POWER (32RP)

DIRECTIONAL POWER (32) PDOP

WATTMETRIC GND FAULT

UNDERFREQUENCY 1-4 (81U) PTUF(4) Yes

OVERFREQUENCY 1 -2(81O) PTOF(2) Yes

THERMAL OVERLOAD PTTR Yes

FREQUENCY RATE OF CHANGE (81df/dt) PFRC

850 Communications Elements Corresponding IEC61850 Logical node and number of instances

Supported in 850


GENERAL CHAPTER 8: IEC 61850

Each logical node within the preceding tables support all mandatory attributes in addition to the optional data attributes (that are supported within the protection element). See figure PDIF Class.

Figure 8-1: PDIF Class

POWER FACTOR 1 POPF(2)

FAULT LOCATOR RFLO

CURRENT LEVEL

MANUAL CLOSE BLOCKING

LOAD ENCROACHMENT

COLD LOAD PICKUP

BUS TRANSFER

UNDERVOLTAGE RESTORATION

UNDERFREQUENCY RESTORATION

EARTH LEAKAGE PHIZ

RESTRICTED EARTH FAULT

LOAD ENCROACHMENT

BROKEN CONDUCTOR

CABLE THERMAL MODEL

850 PROTECTION and PROTECTION RELATED ELEMENTS

Corresponding IEC61850 Logical node and number of instances

Supported in 850


CHAPTER 8: IEC 61850 FUNCTIONALITY

Functionality

CLIENT CONNECTIONSThe 850 supports four IEC61850 concurrent client connections.LOGICAL DEVICES AND REPORTSSupported buffered and un-buffered report triggers are shown in the Supported Triggers list.Supported Triggers

• Data-change

• Integrity

• General-interrogation

Supported buffered and un-buffered report option fields are shown in the Field list.Field

• Sequence number

• Report time stamp

• Reason for inclusion

• Data set name

• Data-ref

• Buffer-overflow (Buffered reports only)

• Entry id (Buffered reports only)

• Conf- revision

Report control block configuration settings are modified from IEC61850 advanced configurator writing directly in a CID file. There are no Modbus settings.The datasets for reports are fully configurable with CDCs from any Logical Node.The Description field in the LN is fixed text and it is not updated from the Modbus settings.

The IEC 61850 Configurator

The 850 relay supports the IEC 61850 protocol which is identified by order code option “2E”. The IEC 61850 device configurator is found in both the online and offline section of the EnerVista 8 Series Setup for configuring the online 850 relay and offline 850 settings file respectively.

Online and Offline SetupONLINE SETTINGS FILETwo options are available to configure the relay’s online settings file.

1. Configuration

– Configure the 850 relay (having order code option: IEC 61850) through the Device Setup or Quick connect screen.


THE IEC 61850 CONFIGURATOR CHAPTER 8: IEC 61850

– The IEC 61850 Device Configurator “tree” item is displayed after Maintenance. See figure below.

– Launch the online IEC 61850 Device configurator screen, by double-clicking on the IEC61850 Device Configurator “tree” item.

– Select the required settings from the different tab displays (in the configurator screen) to complete the IEC 61850 configuration.

2. Online right-click option

– Select any online relay and right click on the selected “tree” item. More options become available for selection, as shown in the next examples.

Example of Additional OptionsGenerate ICD file: The menu option generates a default ICD file with the respective order code option and saves the file to the path the user has selected previously..

Read Device Settings: The menu option reads all the settings from the relay by TFTP and creates an 850 relay file with extension *.CID. The created *.CID file consists of two sections. A private section where all non IEC 61850 settings are available, and a public section in which IEC 61850 related settings are implemented.


CHAPTER 8: IEC 61850 THE IEC 61850 CONFIGURATOR

OFFLINE SETTINGS FILEThe Generate ICD file menu option generates a default ICD file with the respective order code option and saves the file to the path the user has selected previously.

IEC 61850 Device Configurator DetailsThe IEC61850 Device Configurator allows the user to edit all sections of the IEC61850 CID and ICD file. The user cannot perform any other operations in the EnerVista 8 Series Setup software if the IEC 61850 Device Configurator is open. The user must wait until the Device Configurator session is closed to perform other operations in the EnerVista software.The IEC 61850 Device configurator consists of five sections:

• ICD/CID

• Settings

• Reports

• Goose Reception

• Goose Transmission



ICD/CID Select the ICD/CID tab in the IEC 61850 Configurator window. The ICD/CID tab consists of the ICD Explorer window to the left side of the view. The ICD Explorer window allows the user to navigate through the data model of the relay and change desired IEC 61850 parameters such as the Logical Device Name, MMS port and others.

To Modify the Parameters

1. Select a parameter in the ICD Explorer window to open the Attributes window in the right part of the screen.

2. In the Attributes window, double click in the Value row of the table and enter the new value for that parameter. For example, from the Attributes window the user can set the IED name, description, and configuration version for the Logical Device, see preceding figure.

Parameters

• IP, IP-Subnet, IP-Gateway: The parameters are the configured IP details in the device.

• OSI parameters: The parameters must be configured according to the IEC 61850 standard.

• MMS TCP Port Number: The range of the setting is 1 to 65535, in steps of 1. The setting allows the user to change the TCP port number for MMS connections.

• TCP Connection timeout: The range of the setting is 10 to 1800 s, in steps of 10. The setting is useful for detecting “dead” IEC 61850 connections. The timer must be application specific for IEC 61850. If there is no data traffic on a TCP connection for



more than the established timeout, the connection is aborted by the server.

GOOSE Transmission on port -4 and port-5 (which are the 2 fiber optic ports available) is configurable. The user can choose either port or both of the ports for GOOSE transmissions and Receptions. The logical nodes displayed under the GEDevice > 850 tree (see figure below) are shown based on the order code. If a particular order code does not support certain protection and control functions, the respective logical node is not shown in the list.

Settings The Settings tab consists of General settings and a DAI settings tab.

1. General SettingsIED NameRange: Up to 64 alphanumeric characters The IED Name represents the MMS domain name (IEC 61850 logical device) where all IEC/MMS logical nodes are located. Valid characters for these values are upper and lowercase letters, numbers, and the underscore (_) character, and the first character in the string must be a letter. This conforms to the IEC l1850 standard.LDevice inst Range: Up to 64 alphanumeric characters The setting represents the MMS domain name (IEC 61850 logical device) where all IEC/



MMS logical nodes are located. Valid characters for these values are upper and lowercase letters, numbers, and the underscore (_) character. The first character in the string must be a letter. This conforms to the IEC 61850 standard.

2. DAI Settings tabDAI settings contains these features for configuration: MMXU & MSQI logical nodes, GGIO3 logical node, XCBR logical node.MMXU & MSQI Logical nodes Range: 1 to 100.000 % The MMXU & MSQI deadband settings represent the deadband values used to determine when to update the MMXU “mag” and “cVal” values from the associated “instmag” and “instcVal” values. The “mag” and “cVal” values are used for the IEC 61850 buffered and unbuffered reports. The settings correspond to the associated “db” data items in the CF functional constraint of the MMXU logical node, as per the IEC 61850 standard. According to IEC 61850-7-3, the db value “shall represent the percentage of difference between the maximum and minimum in units of 0.001%”. Thus, it is important to know the maximum value for each MMXU measured quantity, since this represents the 100.00% value for the deadband.MIN/MAX VALUES FOR MMXU NODESThe equations to calculate minimum (min) and maximum (max) values in the MMXU nodes are as follows:

Table 8-3: Calculate Min/Max MMXU Node Values

MMXU Node Value To Calculate

TotW max = (Phase CT Primary * 46) * (Phase VT Ratio * 240) / 1000min = -maxNote that the max is divided by 1000 to convert from W to kW

TotVar max = (Phase CT Primary * 46) * (Phase VT Ratio * 240) / 1000min = -max

TotVA max = (Phase CT Primary * 46) * (Phase VT Ratio * 240) / 1000min = -max

TotPF max = 1min = -1

Hz max = 90min = 0

PPV max = Phase VT Ratio * 240min = 0

PhV max = Phase VT Ratio * 240min = 0

A$phsA, phsB, phsC max = (Phase CT Primary * 46)min = 0

A$neut max = (Ground CT Primary * 46)min = 0

A$net max = (Phase CT Primary * 46)min = 0



See the following list of supported parameters. Note that the same list is also supported for the MSQI logical node. MSQI parameters are displayed only if the relay supports sensitive ground CT.

A$res max = (Sens. Ground CT Primary * 3)min = 0

AuxV max = Aux. VT Ratio * 240min = 0

SeqA$c1, c2 ,c3 max = (Phase CT Primary * 46)min = 0

SeqV$c1, c2, c3 max = (Phase VT Ratio * 240)min = 0

Supported Parameters

850.MMXU1$CF$TotW$db

850.MMXU1$CF$TotVAr$db

850.MMXU1$CF$TotVA$db

850.MMXU1$CF$TotPF$db

850.MMXU1$CF$Hz$db

850.MMXU1$CF$PPV$phsAB$db

850.MMXU1$CF$PPV$phsAB$dbAng

850.MMXU1$CF$PPV$phsBC$db

850.MMXU1$CF$PPV$phsBC$dbAng

850.MMXU1$CF$PPV$phsCA$db

850.MMXU1$CF$PPV$phsCA$dbAng

850.MMXU1$CF$PhV$phsA$db

850.MMXU1$CF$PhV$phsA$dbAng

850.MMXU1$CF$PhV$phsB$db

850.MMXU1$CF$PhV$phsB$dbAng

850.MMXU1$CF$PhV$phsC$db

850.MMXU1$CF$PhV$phsC$dbAng

850.MMXU1$CF$PhV$neut$db

850.MMXU1$CF$PhV$neut$dbAng

850.MMXU1$CF$A$phsA$db

850.MMXU1$CF$A$phsA$dbAng

850.MMXU1$CF$A$phsB$db

850.MMXU1$CF$A$phsB$dbAng

850.MMXU1$CF$A$phsC$db

850.MMXU1$CF$A$phsC$dbAng

850.MMXU1$CF$A$neut$db

850.MMXU1$CF$A$neut$dbAng

850.MMXU1$CF$A$net$db

850.MMXU1$CF$A$net$dbAng

850.MMXU1$CF$A$res$db

850.MMXU1$CF$A$res$dbAng

850.MMXU1$CF$AuxV$db

850.MMXU1$CF$AuxV$dbAng

MMXU Node Value To Calculate



GGIO3 Logical Node Range: Enum These are the control models supported: (0) status only, (1) direct-with-normal-security. They can be configured under the Value column.

XCBR Logical Node Range: the sboTimeout setting range is 500 to 60000 msec The XCBR1 Pos sboTimeout setting is used to select SBO timeout value. To be successful, the IEC 61850 "operate" command must be executed after the "select" command within the XCBR1 Pos sboTimeout setting value. XCBR-POS can be configured for status only, Direct operate, Select before operate, Direct operate with enhanced, SBO enhanced.

Reports The Reports tab in IEC 61580 Configurator permits configuration of data sets and control blocks for buffered and unbuffered reports.



Figure 8-2: Reports Screen

The screen helps the user to create, modify and delete Report Control Blocks (RCBs) and Datasets. Each Report Control Block must have a maximum of 4 different clients up to a maximum of 4 Report Control Blocks linked to their Datasets. Each dataset must have a maximum of 64 elements in total.There are two screens are available in the Report tab window:

• Report control block: The user can add the required report control block

• Dataset sources: Each report control block can be appended with dataset items in the screen using a drag and drop operation.

Figure 8-3: Report Control Blocks and DataSet Sources Screen

The following buttons are available in the Reports window.



• “Add Report” button and “Remove Report” button: Both buttons are in the lower side of the screen.

• Note that a Report control block can also be added by right clicking on “850” which is under the GEDevice “tree”.

The “Remove Report” button deletes an existing Report control block.

Note that the Report can also be deleted by right clicking on the configured existing report.

• Save button and Cancel button: Click the Save button to save all configured settings. Click the Cancel button to discard the modifications just made to the configuration.

Add Report Control Block

1. Click on the “Add Report” button.

The button is available in the lower side of the screen and is used to add a report control block. (a Report can also be added by right clicking on “850” under GEDevice “tree”.) The “New Report Control Block” window appears.

Figure 8-4: New Report Control Block Window

2. In the “New Report Control Block” window under “Select Report Type”, select the radio button for a buffered or unbuffered report.

3. In the “IEC61850 Clients N#” dropdown list, select 1 or any other available number.

4. Click the “Next” button to proceed with further configuration (else click “Cancel” to discard the new configuration).

5. In the “Select DataSet” window, select the radio button for “New DataSet” or “Existing DataSet”.



Figure 8-5: Select DataSet Window

Report PropertiesThe report properties section can be viewed when any configured report available under GEDevice > 850 is selected

Figure 8-6: Report Properties Window

All the available parameters of the Report control block are displayed when clicking “Report Advanced Configuration”. Respective OptFields, TrgOps can be configured by either selecting “True” or “False”. Buffer time is given in milliseconds.

Figure 8-7: Advanced Configuration

Configure Dataset Items

1. Select the required logical node under GEDevice > 850 tree.

2. Go to the required dataset item.

3. Drag and drop the item to the “DataSet Elements” section, see the following DataSet Sources/DataSet figure.



Figure 8-8: DataSet Sources Window

Change the Order of Configured Dataset Items

1. Select the row in which the order is to be changed.

2. Use the “up” arrow if you want to shift the row to the top. Use the “down” arrow to shift the row down.

Figure 8-9: Re-order DataSet Items

Delete a Dataset ItemThe following list gives the two methods that can be used to delete a dataset item.

• Select the row in which the dataset item is to be deleted and click the “x” button.

Figure 8-10: Delete a Dataset Item

• Select the row in which the dataset item is to be deleted then right click and select the displayed “Delete FCDA” option.

Figure 8-11: Delete FCDA Option

Number of DAs CounterDepending on the configured dataset items, the “Number of DAs” counter increases automatically.



Figure 8-12: Dataset Properties

Maximum Report Control BlocksThe 850 relay supports a maximum of 4 report control blocks. Buffered and unbuffered reports are both included in the maximum. The user can configure reports based on the Report Configurations Supported table as follows.

Table 8-4: Report Configurations Supported

Goose Transmission The 850 relay has an IEC 61850 server and supports the GOOSE message scheme. A maximum of three GOOSE control blocks can be added. The GOOSE Configuration has two sections:

• Transmission

• Reception

GOOSE transmission configuration is described in this section.

Buffered Report Unbuffered Report Total Reports

4 0 4

3 1 4

2 2 4

1 3 4



Figure 8-13: Goose Transmission Screen

The GOOSE Transmission window has two screens.

• GOOSE Tx control blocks: The user can add the required GOOSE control block.

• Dataset sources: Each GOOSE control block can be appended with dataset items in this screen using a drag and drop operation.

Figure 8-14: Goose TX Control Blocks and DataSet Sources Screen

The following buttons are available in the Goose Transmission window:



• “Add GOOSE Control Block” button and “Remove GOOSE Control Block” button: Both buttons are in the lower side of the screen.

• Note that a GOOSE Control block can also be added by right clicking on “850” which is under the GEDevice “tree”.

The “Remove Goose Control Block” button deletes a configured existing Goose control block.

Note that the Goose control block can also be deleted by right clicking on the configured existing report.


Add GOOSE Transmission Control Block

1. Click on the “Add GOOSE Control Block” button.

2. The Tx GOOSE control block is added under GEDevice>850 tree node with a default Control block name.

Figure 8-15: Goose TX Control Blocks

Goose Tx PropertiesThe properties section can be viewed on selecting any configured GOOSE block available under GEDevice > 850.



Figure 8-16: Goose TX Properties Screen

Parameters for Goose TX

• GOOSE ID: The range of the setting is 129-characters

• Time to live (ms): The range of the setting is 1000 to 60000 in steps of 1000

• Multicast MAC: The standard MAC address limit. Make sure to configure the MAC with a value of left most binary bit of 1st octet as 1. Example: 03: 00: 00: 00: 00: 00, where left most bit of 03 (0000 0011) is 1 (or) A5: 00 :AB: CD :12 :13, where left most bit of A5 (10100101) is 1

• VLAN priority: The range of the setting is 0 to 7 in steps of 1

• VLAN identifier: The range of the setting is 0 to 4095 in steps of 1

Goose Transmission Dataset ItemsThe following provides details for working with dataset items.Change the Order of Configured Dataset Items

1. Select the row in which the order is to be changed.

2. Use the “up” arrow if you want to shift the row to the top. Use the “down” arrow to shift the row down.

Figure 8-17: Re-order DataSet Items

Delete a Dataset ItemThe following list gives the two methods that can be used to delete a dataset item.

• Select the row in which the dataset item is to be deleted and click the “x” button.


• Select the row in which the dataset item is to be deleted then right click and select the displayed “Delete FCDA” option.



Figure 8-19: Delete FCDA Option

Number of DAsDepending on the configured dataset items, the “Number of DAs” counter increases automatically.

Figure 8-20: Dataset Properties

Goose Reception The 850 relay can receive Transmitted GOOSE from any IED in “GOOSE Reception”. For proper GOOSE reception the relay must be configurated as described in this section. A maximum of eight IEDs can be added.GOOSE Reception has two sections:

• IDE list: The user can add IED to subscribe GOOSE.

• Mapping to Remote Inputs: Each subscribed GOOSE dataset item can be appended in the screen using the drag and drop method.

Figure 8-21: Goose Reception Screen

The following buttons are available in the Goose Reception window:

• “Add IED” button and “Remove IED” button: Both buttons are in the lower side of the screen.

• Note that IED can also be added by right clicking in the “IED List” section.

The “Remove IED” button deletes a configured IED.




Configure Dataset Items

1. Select the dataset item being subscribed under the required IED which is available in Template > LDInst > GOOSEOut 1 tree.

2. Go to the required dataset item.

3. Drag and drop the chosen dataset item to the “Mapping to Remote Inputs” section as shown in the figure: Mapping to Remote Inputs.

Figure 8-22: Mapping to Remote Inputs

Delete a Dataset Item

• Select the row in which the dataset item is being deleted then right click and select the “Delete Entry” button.


IED CountDepending on the configured dataset items for IEDs, the IED count increases automatically. In addition, the ”GOOSE Id” field is updated with the GOOSE ID of the subscriber relay.

Figure 8-24: IED Count



Chapter 9: TFTP

GEDigital Energy

TFTP

The 850 relay supports Trivial File Transfer Protocol (TFTP). The default port 69 is always used. No configuration setting is available.


CHAPTER 9: TFTP



Chapter 10: Modbus Protocol

GEDigital Energy

Modbus Protocol

All Ethernet ports and serial communication ports support the Modbus protocol. The only exception is if the serial port has been configured for DNP or IEC 60870-5-103 operation (see descriptions below). This allows the EnerVista 8 Series Setup software (which is a Modbus master application) to communicate to the 850 . The 850 implements a subset of the Modicon Modbus RTU serial communication standard. The Modbus protocol is hardware-independent. That is, the physical layer can be any of a variety of standard hardware configurations. This includes USB, RS485, fibre optics, etc. Modbus is a single master / multiple slave type of protocol suitable for a multi-drop configuration. The 850 is always a Modbus slave with a valid slave address range 1 to 254.DATA FRAME FORMAT AND DATA RATEOne data frame of an asynchronous transmission to or from an 850 typically consists of 1 start bit, 8 data bits, and 1 stop bit. This produces a 10-bit data frame. This is important for transmission through modems at high bit rates. Modbus protocol can be implemented at any standard communication speed. The 850 supports operation at 9600, 19200, 38400, 57600, and 115200 baud. The USB interface supports ModBus TCP/IP.

850 SUPPORTED FUNCTIONSThe following functions are supported by the 850 :

• FUNCTION CODE 03H - Read Setpoints

• FUNCTION CODE 04H - Read Actual Values

• FUNCTION CODE 05H - Execute Operation

• FUNCTION CODE 06H - Store Single Setpoint

• FUNCTION CODE 07H - Read Device Status

• FUNCTION CODE 08H - Loopback Test

• FUNCTION CODE 10H - Store Multiple Setpoints

• FUNCTION CODE 42H - Group Settings Read

• FUNCTION CODE 43H - Group Settings Write

When a ModBus master such as the EnerVista 8 Series Setup software communicates to the 850 over Ethernet, the 850 slave address, TCP port number and the 850 IP address for the associated port must be configured and are also configured within the Master for this device. The default ModBus TCP port number is 502. The following ModBus parameters are configurable:


MODBUS PROTOCOL CHAPTER 10: MODBUS PROTOCOL

Path: Setpoints > Device > Communications > Modbus Protocol

MODBUS SLAVE ADDRESSRange: 1 to 254 in steps of 1Default: 254

For the RS485 ports each 850 must have a unique address from 1 to 254. Address 0 is the broadcast address to which all Modbus slave devices listen. Addresses do not have to be sequential, but no two devices can have the same address, otherwise conflicts resulting in errors occur. Generally, each device added to the link uses the next higher address starting at 1.

MODBUS TCP PORTRange: 1 to 65535 in steps of 1Default: 502

The TCP port number used with Modbus over Ethernet. Note that the maximum number of simultaneous Modbus connections supported over Ethernet is:

• three for an 850 relay without the communications card,

• five for an 850 relay with the communications card.

MODBUS ERROR RESPONSESThe following exception response codes are implemented.

Modbus Protocol

Function Code 03HModbus implementation: Read Holding Registers850 implementation: Read SetpointsFor the 850 implementation of Modbus, the function code can be used to read any setpoints (“holding registers”). Holding registers are 16 bit (two byte) values transmitted high order byte first. As a result all 350 Setpoints are sent as two bytes. The maximum number of registers that can be read in one transmission is 125.The slave response to this function code is the slave address, function code, a count of the number of data bytes to follow, the data itself and the CRC. Each data item is sent as a two byte number with the high order byte sent first.

Error ID Exception Description

01 ILLEGAL FUNCTION The function code transmitted is not one of the functions supported by the 850.

02 ILLEGAL DATA ADDRESS The address referenced in the data field transmitted by the master is not an allowable address for the 850.

03 ILLEGAL DATA VALUE The value referenced in the data field transmitted by the master is not within range for the selected data address.


CHAPTER 10: MODBUS PROTOCOL MODBUS PROTOCOL

For example, consider a request for slave 17 to respond with 3 registers starting at address006B. For this example the register data in these addresses is as follows:

Function Code 04HModbus Implementation: Read Input Registers850 implementation: Read Actual ValuesFor the 850 implementation of Modbus, the function code can be used to read any actual values (“input registers”). Input registers are 16 bit (two byte) values transmitted high order byte first. Thus all 350 Actual Values are sent as two bytes. The maximum number of registers that can be read in one transmission is 125.The slave response to this function code is the slave address, function code, a count of the data bytes to follow, the data itself and the CRC. Each data item is sent as a two byte number with the high order byte sent first.For example, request slave 17 to respond with 1 register starting at address 0008. For this example the value in this register (0008) is 0000.

Function Code 05HModbus Implementation: Force Single Coil850 Implementation: Execute Operation



The function code allows the master to request a 850 to perform specific command operations.For example, to request slave 17 to execute operation code 1 (reset), we have the following master/slave packet format:

Function Code 06HModbus Implementation: Preset Single Register850 Implementation: Store Single SetpointThe command allows the master to store a single setpoint into the memory of a 850 relay. The slave response to this function code is to echo the entire master transmission.For example, request slave 17 to store the value 2 in setpoint address 04 5C. After the transmission in this example is complete, setpoints address 04 5C contains the value 0002. The master/slave packet format is shown next.

Function Code 07HModbus Implementation: Read Exception Status850 Implementation: Read Device Status


CHAPTER 10: MODBUS PROTOCOL MODBUS PROTOCOL

The function used to quickly read the status of a selected device. A short message length allows for rapid reading of status. The status byte returned has individual bits set to 1 or 0 depending on the status of the slave device. For this example, consider the following 850 general status byte:

Function Code 08HModbus Implementation: Loopback850 Implementation: Loopback TestThe function is used to test the integrity of the communication link. The 850 echos the request.For example, consider a loopback test from slave 17:

Function Code 10HModbus Implementation: Preset Multiple Registers850 Implementation: Store Multiple SetpointsThe function code allows multiple Setpoints to be stored into the 850 memory. Modbus “registers” are 16-bit (two byte) values transmitted high order byte first. Thus all 850 setpoints are sent as two bytes. The maximum number of Setpoints that can be stored in one transmission is dependent on the slave device. Modbus allows up to a maximum of 60 holding registers to be stored. The 850 response to this function code is to echo the slave address, function code, starting address, the number of Setpoints stored, and the CRC.



For example, consider a request for slave 17 to store the value 00 02 to setpoint address 045C and the value 01 F4 to setpoint address 04 5D. After the transmission in this example is complete, 850 slave 17 has the following setpoints information stored:



Chapter 11: Modbus Memory Map

GEDigital Energy

Modbus Memory Map

Reading the Event Recorder

To read the entire event recorder contents (the only available format), use the following filename:Evt.evt

Reading Transient Recorder

Familiarity with the Transient recorder feature is required to understand the following description. The Oscillography_ Number_of_Triggers register is incremented by one every time a new oscillography file is triggered (captured) and cleared to zero when oscillography data is cleared. When a new trigger occurs, the associated oscillography file is assigned a file identifier number equal to the incremented value of the register; the newest file number is equal to the Oscillography_Number_of_Triggers register. This register can be used to determine if any new data has been captured by periodically reading it to see if the value has changed; if the number has increased then new data is available.The Oscillography Number of Records register specifies the maximum number of files (and the number of cycles of data per file) that can be stored in the memory of the relay.The Oscillography Available Records register specifies the actual number of files that are stored and still available to be read out of the relay. Writing “Yes” (i.e. the value 1) to the Oscillography Clear Data register clears oscillography data files, clears both the Oscillography Number of Triggers and Oscillography Available Records registers to zero, and sets the Oscillography Last Cleared Date to the present date and time.To read binary COMTRADE oscillography files, read the following filenames:OSCnnnn.CFG and OSCnnn.DATReplace the “nnn” with the desired oscillography trigger number. For ASCII format, use the following filenames:OSCAnnnn.CFG and OSCAnnn.DAT


READING FAULT REPORTS CHAPTER 11: MODBUS MEMORY MAP

Reading Fault Reports

Fault report data is available via the file retrieval mechanism in 850 relay. The filename is FaultReport1_#####.txt and the ##### refers to the fault report record number.The fault report number is a counter that indicates how many fault reports have ever occurred. Only the last fifteen fault reports are available for retrieval; a request for a non-existent fault report file yields a null file.The current value fault report counter is available in “Number of Fault Reports” Modbus register.

Accessing Data via the User Map

The 850 has a powerful feature, called the User Map, which allows a computer to read up to 125 non-consecutive data registers (setpoints or actual values) by using one Modbus packet. It is often necessary for a master computer to continuously poll various values in each of the connected slave relays. If these values are scattered throughout the memory map, reading them would require numerous transmissions and would burden the communication link. The User Map can be programmed to join any memory map address to one in the block of consecutive User Map locations, so that they can be accessed by reading these consecutive locations.The 850 contains a user-definable area in the Modbus memory map. This area allows re-mapping of the addresses of any Actual Values registers. The User Definable area has two sections.

1. A Register Index area (40524 to 40648) that contains 125 Actual Values register addresses

2. A Register area (30524 to 30648) that contains the data at the addresses in the Register Index

Register data that is separated in the rest of the memory map may be re-mapped to adjacent register addresses in the user-definable registers area. This is accomplished by writing to register addresses in the user-definable register index area. This allows for improved throughput of data and can eliminate the need for multiple read command sequences. The user-definable register index is stored as a setpoint and therefore it is “remembered” even when the power is removed.Default User MapCommon actual values have been defaulted for the user. Below are the default registers.

Table 11-1: Default User Map

User Map Address Description Modbus Address

User Map Address 1,2 LED Status 30712 30713

User Map Address 3,4 LED Status 30708 30709

User Map Address 5,6 Contact Input 1-32 30700 30701

User Map Address 7,8 Contact Output 1-32 30706 30707

User Map Address 9,10 Virtual Input Status 1-32 30714 30715

User Map Address 11, 12 Virtual Output Status 1-32 30718 30719

User Map Address 13,14 Remote Input 1-32 30728 30729

User Map Address 15,16 Remote Output 1-32 30736 30737

User Map Address 17,18 Ia 31270 31271

User Map Address 19,20 Ib 31272 31273


CHAPTER 11: MODBUS MEMORY MAP MEMORY MAP ORGANIZATION

The 850 supports 32-bit Modbus items to be configured in the user map. When such an address is configured in the user map for example at user map address 1, user map address 2 is also consumed by the same item irrespective of the address assigned in address 2.

Memory Map Organization

The 850 Memory Map describes all the data registers that can be accessed via serial communications. The Memory Map address range is grouped into several categories as outlined in the following table. All memory map locations are two byte (16 bit) values. The remaining pages of this chapter list all locations of the Memory Map. Addresses for all locations are shown in hexadecimal. Consult the range, step, units, and the data format (listed after the memory map) to interpret register values.Many Modbus communications drivers add 40001d to the actual address of the register addresses. For example, if address 0h was to be read, then 40001d would be the address required by the Modbus communications driver; similarly, if address 320h (800d) was to be read, then 40801d would be the address required by the Modbus communications driver.

Table 11-2: Memory Map Organization

MODBUS memory map

User Map Address 21,22 Ic 31274 31275

User Map Address 23,24 In 31278 31279

User Map Address 25,26 Iavg 31295 31296

User Map Address 27,28 Ig 31276 31277

User Map Address Description Modbus Address

Memory Map Section Address Range Description

Product ID 0000h to 007Fh Identification and revision information.

Commands 0080h to 00FFh Substitute command locations. Read and write access.

User Map 0100h to 01FFh User Map Values and Addresses. See the previous section for details.

Actual Values 0200h to 0FFFh Actual values data. Read Only.

Setpoints 1000h to 1FFFh Setpoints data. Read and Write.

Event Recorder, Trace Memory, and Data Logger

2000h to 2FFFh See relevant sections in this chapter for details.

Reserved 3000h to 3FFFh Reserved for future use.

Factory Service Data 4000h to FFFFh Reserved.

Modbus Address

Hex Address

Description Min Max Step Units Format Code

Factory Default

Size in Words

Actual Values

Product Information

30001 0x0000 Product Code 0 65535 1 F0 0 1

30002 0x0001 Hardware Revision 0 26 1 FC110 1 1

30003 0x0002 Firmware Version 0 65535 1 F2 110 1


MODBUS MEMORY MAP CHAPTER 11: MODBUS MEMORY MAP

30005 0x0004 Boot 0 65535 1 F2 0 1

30006 0x0005 Firmware Date 0x010107D8 0x0C1F082E 1 F53 16844760 1

30008 0x0007 Firmware Time 0 0x173B3B63 1 F54 0 1

30010 0x0009 Boot Date 0x010107D8 0x0C1F082E 1 F53 16844760 1

30012 0x000B Boot Time 0 0x173B3B63 1 F54 0 1

30014 0x000D Product Serial # 0 65535 1 F60_12 Serial 12

30021 0x0014 Order Code 0 65535 1 F60_34 OrderCode 34

30038 0x0025 MAC Address 1 0 65535 1 F60_6A 0 6A

30047 0x002E Comms CPU fw Version 0 65535 1 F2 0 1

30049 0x0030 Boot 0 65535 1 F2 0 1

30050 0x0031 Comms CPU Firmware Date

0x010107D8 0x0C1F082E 1 F53 16844760 1

30052 0x0033 Comms CPU Firmware Time

0 0x173B3B63 1 F54 0 1

30054 0x0035 Boot Date 0x010107D8 0x0C1F082E 1 F53 16844760 1

30056 0x0037 Boot Time 0 0x173B3B63 1 F54 0 1

30058 0x0039 MAC Address 1 0 65535 1 F60_6A 0 6A

30061 0x003C MAC Address 2 0 65535 1 F60_6A 0 6A

30067 0x0042 FPGA Firmware Version 0 0xFFFFFFFF 1 F71 0 1

30069 0x0044 IO F CPLD 0 0xFFFFFFFF 1 F71 0 1

30071 0x0046 IO G CPLD 0 0xFFFFFFFF 1 F71 0 1

30075 0x004A AN J CPLD 0 0xFFFFFFFF 1 F71 0 1

30077 0x004C AN K CPLD 0 0xFFFFFFFF 1 F71 0 1

30079 0x004E Display CPLD 0 0xFFFFFFFF 1 F71 0 1

Time

30241 0x00F0 Time 0 0x173B3B63 1 F54 0 1

30243 0x00F2 Date 0x010107D8 0x0C1F082E 1 F53 16844760 1

30245 0x00F4 RTC Time 0 0xFFFFFFFF 1 s F52 0 1

30247 0x00F6 System Clock 0 0xFFFFFFFF 1 s F52 0 1

Targets

30257 0x0100 Target Custom Text 0 65535 1 F60_26 26

30270 0x010D Target Count 0 256 1 F0 0 1

30271 0x010E Target Cause 0 0xFFFFFFFF 1 FC134 0 1

30273 0x0110 Target Type 0 2 1 FC101 0 1

30274 0x0111 Target Time 0 60000 1 F0 0 1

PTP Status

30300 0x012B RTC Sync Source 0 4 1 FC342 0 1

30301 0x012C Grandmaster ID 0 65535 1 F60_8A 0 8A

30305 0x0130 RTC Accuracy -999999999 999999999 1 ns F30 0 1

30307 0x0132 Port 4 PTP State 0 4 1 FC343 1 1

30308 0x0133 Port 5 PTP State 0 4 1 FC343 1 1

User Map Values

30524 0x020B User Map Value 1 0 65535 1 F0 0 1

30525 0x020C User Map Value 2 0 65535 1 F0 0 1

30526 0x020D User Map Value 3 0 65535 1 F0 0 1

30527 0x020E User Map Value 4 0 65535 1 F0 0 1

30528 0x020F User Map Value 5 0 65535 1 F0 0 1

Modbus Address

Hex Address


Factory Default

Size in Words


CHAPTER 11: MODBUS MEMORY MAP MODBUS MEMORY MAP

30529 0x0210 User Map Value 6 0 65535 1 F0 0 1

30530 0x0211 User Map Value 7 0 65535 1 F0 0 1

30531 0x0212 User Map Value 8 0 65535 1 F0 0 1

30532 0x0213 User Map Value 9 0 65535 1 F0 0 1

30533 0x0214 User Map Value 10 0 65535 1 F0 0 1

30534 0x0215 User Map Value 11 0 65535 1 F0 0 1

30535 0x0216 User Map Value 12 0 65535 1 F0 0 1

30536 0x0217 User Map Value 13 0 65535 1 F0 0 1

30537 0x0218 User Map Value 14 0 65535 1 F0 0 1

30538 0x0219 User Map Value 15 0 65535 1 F0 0 1

30539 0x021A User Map Value 16 0 65535 1 F0 0 1






30545 0x0220 User Map Value 22 0 65535 1 F0 0 1

30546 0x0221 User Map Value 23 0 65535 1 F0 0 1

30547 0x0222 User Map Value 24 0 65535 1 F0 0 1

30548 0x0223 User Map Value 25 0 65535 1 F0 0 1

30549 0x0224 User Map Value 26 0 65535 1 F0 0 1

30550 0x0225 User Map Value 27 0 65535 1 F0 0 1

30551 0x0226 User Map Value 28 0 65535 1 F0 0 1

30552 0x0227 User Map Value 29 0 65535 1 F0 0 1

30553 0x0228 User Map Value 30 0 65535 1 F0 0 1

30554 0x0229 User Map Value 31 0 65535 1 F0 0 1







30561 0x0230 User Map Value 38 0 65535 1 F0 0 1

30562 0x0231 User Map Value 39 0 65535 1 F0 0 1

30563 0x0232 User Map Value 40 0 65535 1 F0 0 1

30564 0x0233 User Map Value 41 0 65535 1 F0 0 1

30565 0x0234 User Map Value 42 0 65535 1 F0 0 1

30566 0x0235 User Map Value 43 0 65535 1 F0 0 1

30567 0x0236 User Map Value 44 0 65535 1 F0 0 1

30568 0x0237 User Map Value 45 0 65535 1 F0 0 1

30569 0x0238 User Map Value 46 0 65535 1 F0 0 1

30570 0x0239 User Map Value 47 0 65535 1 F0 0 1





Modbus Address

Hex Address


Factory Default

Size in Words





30577 0x0240 User Map Value 54 0 65535 1 F0 0 1

30578 0x0241 User Map Value 55 0 65535 1 F0 0 1

30579 0x0242 User Map Value 56 0 65535 1 F0 0 1

30580 0x0243 User Map Value 57 0 65535 1 F0 0 1

30581 0x0244 User Map Value 58 0 65535 1 F0 0 1

30582 0x0245 User Map Value 59 0 65535 1 F0 0 1

30583 0x0246 User Map Value 60 0 65535 1 F0 0 1

30584 0x0247 User Map Value 61 0 65535 1 F0 0 1

30585 0x0248 User Map Value 62 0 65535 1 F0 0 1

30586 0x0249 User Map Value 63 0 65535 1 F0 0 1







30593 0x0250 User Map Value 70 0 65535 1 F0 0 1

30594 0x0251 User Map Value 71 0 65535 1 F0 0 1

30595 0x0252 User Map Value 72 0 65535 1 F0 0 1

30596 0x0253 User Map Value 73 0 65535 1 F0 0 1

30597 0x0254 User Map Value 74 0 65535 1 F0 0 1

30598 0x0255 User Map Value 75 0 65535 1 F0 0 1

30599 0x0256 User Map Value 76 0 65535 1 F0 0 1

30600 0x0257 User Map Value 77 0 65535 1 F0 0 1

30601 0x0258 User Map Value 78 0 65535 1 F0 0 1

30602 0x0259 User Map Value 79 0 65535 1 F0 0 1







30609 0x0260 User Map Value 86 0 65535 1 F0 0 1

30610 0x0261 User Map Value 87 0 65535 1 F0 0 1

30611 0x0262 User Map Value 88 0 65535 1 F0 0 1

30612 0x0263 User Map Value 89 0 65535 1 F0 0 1

30613 0x0264 User Map Value 90 0 65535 1 F0 0 1

30614 0x0265 User Map Value 91 0 65535 1 F0 0 1

30615 0x0266 User Map Value 92 0 65535 1 F0 0 1

30616 0x0267 User Map Value 93 0 65535 1 F0 0 1

30617 0x0268 User Map Value 94 0 65535 1 F0 0 1

30618 0x0269 User Map Value 95 0 65535 1 F0 0 1



Modbus Address

Hex Address


Factory Default

Size in Words







30625 0x0270 User Map Value 102 0 65535 1 F0 0 1

30626 0x0271 User Map Value 103 0 65535 1 F0 0 1

30627 0x0272 User Map Value 104 0 65535 1 F0 0 1

30628 0x0273 User Map Value 105 0 65535 1 F0 0 1

30629 0x0274 User Map Value 106 0 65535 1 F0 0 1

30630 0x0275 User Map Value 107 0 65535 1 F0 0 1

30631 0x0276 User Map Value 108 0 65535 1 F0 0 1

30632 0x0277 User Map Value 109 0 65535 1 F0 0 1

30633 0x0278 User Map Value 110 0 65535 1 F0 0 1

30634 0x0279 User Map Value 111 0 65535 1 F0 0 1







30641 0x0280 User Map Value 118 0 65535 1 F0 0 1

30642 0x0281 User Map Value 119 0 65535 1 F0 0 1

30643 0x0282 User Map Value 120 0 65535 1 F0 0 1

30644 0x0283 User Map Value 121 0 65535 1 F0 0 1

30645 0x0284 User Map Value 122 0 65535 1 F0 0 1

30646 0x0285 User Map Value 123 0 65535 1 F0 0 1

30647 0x0286 User Map Value 124 0 65535 1 F0 0 1

30648 0x0287 User Map Value 125 0 65535 1 F0 0 1

Event Recorder

30660 0x0293 Date/Time Of Last Clear 0 0xFFFFFFFF 1 F50 0 1

30662 0x0295 Time Of Last Clear (us) 0 999999 1 us F51 0 1

30664 0x0297 Events Since Last Clear 0 1024 1 F0 0 1

Input / Output Status

30700 0x02BB CI Inputs 1-32 0 0xFFFFFFFF 1 FC194 0 1

30706 0x02C1 CO Outputs 0 0xFFFFFFFF 1 FC198 0 1

30708 0x02C3 LED 1-32 0 0xFFFFFFFF 1 F10 0 1

30712 0x02C7 Device Status 0 0xFFFFFFFF 1 FC135 0 1

30714 0x02C9 Virtual Inputs 1-32 0 0xFFFFFFFF 1 F10 0 1

30718 0x02CD Virtual Outputs 1-32 0 0xFFFFFFFF 1 F10 0 1

30728 0x02D7 Remote Inputs 1 0 0xFFFFFFFF 1 FC191 0 1

30740 0x02E3 Element Status 1 (Any Trip)

0 65535 1 FC151 0 1

30741 0x02E4 Element Status 2 (Any Alarm)

0 65535 1 FC151 0 1

30744 0x02E7 Element Status 5 (Any Block)

0 65535 1 FC151 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



30745 0x02E8 Element Status 6 (Any Pickup)

0 65535 1 FC151 0 1

30746 0x02E9 Element Status 7 (Any OP) 0 65535 1 FC151 0 1

30747 0x02EA Element Status 8 (Reset) 0 65535 1 FC151 0 1

30748 0x02EB Element Status 9 (Setpoint Access)

0 65535 1 FC151 0 1

30749 0x02EC Element Status 10 (Targets Active)

0 65535 1 FC151 0 1

30750 0x02ED Element Status 11 (In Service)

0 65535 1 FC151 0 1

30751 0x02EE Element Status 12 (Test Mode)

0 65535 1 FC151 0 1

30752 0x02EF Element Status 13 (Any Major Error)

0 65535 1 FC151 0 1

30753 0x02F0 Element Status 14 (Any Minor Error)

0 65535 1 FC151 0 1

30754 0x02F1 Element Status 15 (Output Relay 1)

0 65535 1 FC151 0 1


0 65535 1 FC151 0 1


0 65535 1 FC151 0 1


0 65535 1 FC151 0 1


0 65535 1 FC151 0 1


0 65535 1 FC151 0 1

30760 0x02F7 Element Status 21 (Critical Fail)

0 65535 1 FC151 0 1

30761 0x02F8 Element Status 22 (Comms OK)

0 65535 1 FC151 0 1

30762 0x02F9 Element Status 23 (Phase TOC 1)

0 65535 1 FC151 0 1

30763 0x02FA Element Status 24 (Phase TOC 2)

0 65535 1 FC151 0 1

30765 0x02FC Element Status 26 (Phase IOC 1)

0 65535 1 FC151 0 1

30766 0x02FD Element Status 27 (Phase IOC 2)

0 65535 1 FC151 0 1

30768 0x02FF Element Status 29 (Phase Directional OC)

0 65535 1 FC151 0 1

30769 0x0300 Element Status 30 (Neutral TOC 1)

0 65535 1 FC151 0 1

30770 0x0301 Element Status 31 (Neutral TOC 2)

0 65535 1 FC151 0 1

30771 0x0302 Element Status 32 (Neutral IOC 1)

0 65535 1 FC151 0 1

30772 0x0303 Element Status 33 (Neutral IOC 2)

0 65535 1 FC151 0 1

30773 0x0304 Element Status 34 (Neutral Directional OC)

0 65535 1 FC151 0 1

30774 0x0305 Element Status 35 (Ground TOC 1)

0 65535 1 FC151 0 1

30778 0x0309 Element Status 39 (Ground IOC 1)

0 65535 1 FC151 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



30782 0x030D Element Status 43 (Ground Directional OC)

0 65535 1 FC151 0 1

30783 0x030E Element Status 44 (Sensitive Ground TOC 1)

0 65535 1 FC151 0 1

30784 0x030F Element Status 45 (Sensitive Ground TOC 2)

0 65535 1 FC151 0 1

30785 0x0310 Element Status 46 (Sensitive Ground IOC 1)

0 65535 1 FC151 0 1

30786 0x0311 Element Status 47 (Sensitive Ground IOC 2)

0 65535 1 FC151 0 1

30787 0x0312 Element Status 48 (Sensitive Ground Directional OC)

0 65535 1 FC151 0 1

30788 0x0313 Element Status 49 (Restricted Ground Fault 1)

0 65535 1 FC151 0 1

30791 0x0316 Element Status 52 (Negative Sequence TOC 1)

0 65535 1 FC151 0 1

30793 0x0318 Element Status 54 (Negative Sequence IOC 1)

0 65535 1 FC151 0 1

30795 0x031A Element Status 56 (Negative Sequence Dir OC)

0 65535 1 FC151 0 1

30796 0x031B Element Status 57 (Broken Conductor)

0 65535 1 FC151 0 1

30797 0x031C Element Status 58 (Load Encroachment)

0 65535 1 FC151 0 1

30798 0x031D Element Status 59 (Cable Thermal Model)

0 65535 1 FC151 0 1

30799 0x031E Element Status 60 (Cable Thermal Model Alarm)

0 65535 1 FC151 0 1

30800 0x031F Element Status 61 (Phase UV 1)

0 65535 1 FC151 0 1

30801 0x0320 Element Status 62 (Phase UV 2)

0 65535 1 FC151 0 1

30802 0x0321 Element Status 63 (Phase OV 1)

0 65535 1 FC151 0 1

30803 0x0322 Element Status 64 (Phase OV 2)

0 65535 1 FC151 0 1

30804 0x0323 Element Status 65 (Auxiliary UV 1)

0 65535 1 FC151 0 1

30805 0x0324 Element Status 66 (Auxiliary UV 2)

0 65535 1 FC151 0 1

30806 0x0325 Element Status 67 (Auxiliary OV)

0 65535 1 FC151 0 1

30807 0x0326 Element Status 68 (Neutral OV 1)

0 65535 1 FC151 0 1

30809 0x0328 Element Status 70 (Negative Sequence OV 1)

0 65535 1 FC151 0 1

30811 0x032A Element Status 72 (Dir Power 1)

0 65535 1 FC151 0 1

30812 0x032B Element Status 73 (Dir Power 2)

0 65535 1 FC151 0 1

30813 0x032C Element Status 74 (WattMetric 1)

0 65535 1 FC151 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



30815 0x032E Element Status 76 (Underfrequency 1)

0 65535 1 FC151 0 1

30816 0x032F Element Status 77 (Underfrequency 2)

0 65535 1 FC151 0 1

30817 0x0330 Element Status 78 (Underfrequency 3)

0 65535 1 FC151 0 1

30818 0x0331 Element Status 79 (Underfrequency 4)

0 65535 1 FC151 0 1

30819 0x0332 Element Status 80 (Overfrequency 1)

0 65535 1 FC151 0 1

30820 0x0333 Element Status 81 (Overfrequency 2)

0 65535 1 FC151 0 1

30821 0x0334 Element Status 82 (Frequency Rate Of Change 1)

0 65535 1 FC151 0 1

30825 0x0338 Element Status 86 (Group 1)

0 65535 1 FC151 0 1

30826 0x0339 Element Status 87 (Group 2)

0 65535 1 FC151 0 1

30827 0x033A Element Status 88 (Group 3)

0 65535 1 FC151 0 1

30828 0x033B Element Status 89 (Group 4)

0 65535 1 FC151 0 1

30829 0x033C Element Status 90 (Group 5)

0 65535 1 FC151 0 1

30830 0x033D Element Status 91 (Group 6)

0 65535 1 FC151 0 1

30831 0x033E Element Status 92 (Local Mode)

0 65535 1 FC151 0 1

30832 0x033F Element Status 93 (Open Breaker 1)

0 65535 1 FC151 0 1

30835 0x0342 Element Status 96 (Close Breaker 1)

0 65535 1 FC151 0 1

30838 0x0345 Element Status 99 (Trip Bus 1)

0 65535 1 FC151 0 1


0 65535 1 FC151 0 1


0 65535 1 FC151 0 1


0 65535 1 FC151 0 1


0 65535 1 FC151 0 1

30843 0x034A Element Status 104 (Trip Bus 6)

0 65535 1 FC151 0 1

30844 0x034B Element Status 105 (Breaker Fail 1)

0 65535 1 FC151 0 1

30847 0x034E Element Status 108 (Synchrocheck 1)

0 65535 1 FC151 0 1

30849 0x0350 Element Status 110 (Manual Close Blocking)

0 65535 1 FC151 0 1

30850 0x0351 Element Status 111 (VT Fuse Fail 1)

0 65535 1 FC151 0 1

30852 0x0353 Element Status 113 (Cold Load Pickup 1)

0 65535 1 FC151 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



30854 0x0355 Element Status 115 (Undervoltage Restoration)

0 65535 1 FC151 0 1

30855 0x0356 Element Status 116 (Bus Transfer)

0 65535 1 FC151 0 1

30856 0x0357 Element Status 117 (AutoReclose 1)

0 65535 1 FC151 0 1

30857 0x0358 Element Status 118 (AR1 Shot Cnt)

0 65535 1 FC151 0 1

30858 0x0359 Element Status 119 (AR1 Shot Cnt Reduction)

0 65535 1 FC151 0 1

30859 0x035A Element Status 120 (AR1 Rate Supervision)

0 65535 1 FC151 0 1

30864 0x035F Element Status 125 (Underfrequency Restoration)

0 65535 1 FC151 0 1

30865 0x0360 Element Status 126 (BKR1 Status Closed)

0 65535 1 FC151 0 1

30866 0x0361 Element Status 127 (BKR1 Status Opened)

0 65535 1 FC151 0 1

30867 0x0362 Element Status 128 (BKR1 Status Unknown)

0 65535 1 FC151 0 1

30868 0x0363 Element Status 129 (BKR1 Status Disconnected)

0 65535 1 FC151 0 1

30869 0x0364 Element Status 130 (BKR1 52a Contact)

0 65535 1 FC151 0 1

30870 0x0365 Element Status 131 (BKR1 52b Contact)

0 65535 1 FC151 0 1

30883 0x0372 Element Status 144 (Trip Coil Monitor 1)

0 65535 1 FC151 0 1

30886 0x0375 Element Status 147 (Close Coil Monitor 1)

0 65535 1 FC151 0 1

30889 0x0378 Element Status 150 (Breaker 1 Arcing Current)

0 65535 1 FC151 0 1

30892 0x037B Element Status 153 (Breaker1 Health)

0 65535 1 FC151 0 1

30895 0x037E Element Status 156 (Breaker1 Arc Health)

0 65535 1 FC151 0 1

30898 0x0381 Element Status 159 (Power Factor 1)

0 65535 1 FC151 0 1

30899 0x0382 Element Status 160 (Power Factor 2)

0 65535 1 FC151 0 1

30900 0x0383 Element Status 161 (Current Demand)

0 65535 1 FC151 0 1

30901 0x0384 Element Status 162 (Real Power Demand)

0 65535 1 FC151 0 1

30902 0x0385 Element Status 163 (Reactive Power Demand)

0 65535 1 FC151 0 1

30903 0x0386 Element Status 164 (Apparent Power Demand)

0 65535 1 FC151 0 1

30904 0x0387 Element Status 165 (Fault Locator)

0 65535 1 FC151 0 1

30941 0x03AC Element Status 202 (Pulse Out)

0 65535 1 FC151 0 1

30942 0x03AD Element Status 203 (Digital Counter 1)

0 65535 1 FC151 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



30943 0x03AE Element Status 204 (Digital Counter 2)

0 65535 1 FC151 0 1

30944 0x03AF Element Status 205 (Digital Counter 3)

0 65535 1 FC151 0 1

30945 0x03B0 Element Status 206 (Digital Counter 4)

0 65535 1 FC151 0 1


0 65535 1 FC151 0 1


0 65535 1 FC151 0 1


0 65535 1 FC151 0 1


0 65535 1 FC151 0 1


0 65535 1 FC151 0 1


0 65535 1 FC151 0 1


0 65535 1 FC151 0 1


0 65535 1 FC151 0 1


0 65535 1 FC151 0 1

30955 0x03BA Element Status 216 (Digital Counter 14)

0 65535 1 FC151 0 1

30956 0x03BB Element Status 217 (Digital Counter 15)

0 65535 1 FC151 0 1

30957 0x03BC Element Status 218 (Digital Counter 16)

0 65535 1 FC151 0 1

30958 0x03BD Element Status 219 (NV Latch 1)

0 65535 1 FC151 0 1

30959 0x03BE Element Status 220 (NV Latch 2)

0 65535 1 FC151 0 1

30960 0x03BF Element Status 221 (NV Latch 3)

0 65535 1 FC151 0 1

30961 0x03C0 Element Status 222 (NV Latch 4)

0 65535 1 FC151 0 1


0 65535 1 FC151 0 1


0 65535 1 FC151 0 1


0 65535 1 FC151 0 1


0 65535 1 FC151 0 1


0 65535 1 FC151 0 1


0 65535 1 FC151 0 1


0 65535 1 FC151 0 1


0 65535 1 FC151 0 1


0 65535 1 FC151 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



30971 0x03CA Element Status 232 (NV Latch 14)

0 65535 1 FC151 0 1

30972 0x03CB Element Status 233 (NV Latch 15)

0 65535 1 FC151 0 1

30973 0x03CC Element Status 234 (NV Latch 16)

0 65535 1 FC151 0 1

30974 0x03CD Element Status 235 (Programmable PB 1)

0 65535 1 FC151 0 1

30975 0x03CE Element Status 236 (Programmable PB 2)

0 65535 1 FC151 0 1

30976 0x03CF Element Status 237 (Programmable PB 3)

0 65535 1 FC151 0 1

30977 0x03D0 Element Status 238 (Active Security Login)

0 65535 1 FC151 0 1

30978 0x03D1 Element Status 239 (Data Logger)

0 65535 1 FC151 0 1

30979 0x03D2 Element Status 240 (Transfer Initiated)

0 65535 1 FC151 0 1

31252 0x04E3 Active Group 0 0xFFFF 1 FC132 1 1

31253 0x04E4 Last Key Pressed 0 65535 1 FC118 0 1

Current Values 1

31270 0x04F5 J1 Ia 0 0xFFFFFFFF 1 A F13 0 1

31272 0x04F7 J1 Ib 0 0xFFFFFFFF 1 A F13 0 1

31274 0x04F9 J1 Ic 0 0xFFFFFFFF 1 A F13 0 1

31276 0x04FB J1 Ig 0 0xFFFFFFFF 1 A F13 0 1

31278 0x04FD J1 In 0 0xFFFFFFFF 1 A F13 0 1

31280 0x04FF J1 Ia RMS 0 0xFFFFFFFF 1 A F13 0 1

31282 0x0501 J1 Ib RMS 0 0xFFFFFFFF 1 A F13 0 1

31284 0x0503 J1 Ic RMS 0 0xFFFFFFFF 1 A F13 0 1

31286 0x0505 J1 Ig RMS 0 0xFFFFFFFF 1 A F13 0 1

31288 0x0507 J1 In RMS 0 0xFFFFFFFF 1 A F13 0 1

31290 0x0509 J1 Ia Angle -3599 0 1 ° F21 0 1

31291 0x050A J1 Ib Angle -3599 0 1 ° F21 0 1

31292 0x050B J1 Ic Angle -3599 0 1 ° F21 0 1

31293 0x050C J1 Ig Angle -3599 0 1 ° F21 0 1

31294 0x050D J1 In Angle -3599 0 1 ° F21 0 1

31295 0x050E J1 I AVG 0 0xFFFFFFFF 1 A F13 0 1

31297 0x0510 J1 I_0 0 0xFFFFFFFF 1 A F13 0 1

31299 0x0512 J1 I_1 0 0xFFFFFFFF 1 A F13 0 1

31301 0x0514 J1 I_2 0 0xFFFFFFFF 1 A F13 0 1

31303 0x0516 J1 I_0 Angle -3599 0 1 ° F21 0 1

31304 0x0517 J1 I_1 Angle -3599 0 1 ° F21 0 1

31305 0x0518 J1 I_2 Angle -3599 0 1 ° F21 0 1

31306 0x0519 J1 Igd 0 0xFFFFFFFF 1 A F13 0 1

31308 0x051B J1 Igd Angle -3599 0 1 ° F21 0 1

31309 0x051C J1 Load 0 2000 1 % F1 0 1

Current Values 2

31326 0x052D K1 Isg 0 0xFFFFFFFF 1 A F13 0 1

31336 0x0537 K1 Isg RMS 0 0xFFFFFFFF 1 A F13 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



31343 0x053E K1 Isg Angle -3599 0 1 ° F21 0 1

Voltages 1

31430 0x0595 J2 Van 0 200000000 1 V F12 0 1

31432 0x0597 J2 Vbn 0 200000000 1 V F12 0 1

31434 0x0599 J2 Vcn 0 200000000 1 V F12 0 1

31436 0x059B J2 Vab 0 200000000 1 V F12 0 1

31438 0x059D J2 Vbc 0 200000000 1 V F12 0 1

31440 0x059F J2 Vca 0 200000000 1 V F12 0 1

31442 0x05A1 J2 Vn 0 200000000 1 V F12 0 1

31444 0x05A3 J2 Vaux 0 200000000 1 V F12 0 1

31446 0x05A5 J2 Van RMS 0 200000000 1 V F12 0 1

31448 0x05A7 J2 Vbn RMS 0 200000000 1 V F12 0 1

31450 0x05A9 J2 Vcn RMS 0 200000000 1 V F12 0 1

31452 0x05AB J2 Vab RMS 0 200000000 1 V F12 0 1

31454 0x05AD J2 Vbc RMS 0 200000000 1 V F12 0 1

31456 0x05AF J2 Vca RMS 0 200000000 1 V F12 0 1

31458 0x05B1 J2 Vn RMS 0 200000000 1 V F12 0 1

31460 0x05B3 J2 Vaux RMS 0 200000000 1 V F12 0 1

31462 0x05B5 J2 Van Angle -3599 0 1 ° F21 0 1

31463 0x05B6 J2 Vbn Angle -3599 0 1 ° F21 0 1

31464 0x05B7 J2 Vcn Angle -3599 0 1 ° F21 0 1

31465 0x05B8 J2 Vab Angle -3599 0 1 ° F21 0 1

31466 0x05B9 J2 Vbc Angle -3599 0 1 ° F21 0 1

31467 0x05BA J2 Vca Angle -3599 0 1 ° F21 0 1

31468 0x05BB J2 Vn Angle -3599 0 1 ° F21 0 1

31469 0x05BC J2 Vaux Angle -3599 0 1 ° F21 0 1

31470 0x05BD J2 V AVG L-L 0 200000000 1 V F12 0 1

31472 0x05BF J2 V AVG L-N 0 200000000 1 V F12 0 1

31474 0x05C1 J2 V0 0 200000000 1 V F12 0 1

31476 0x05C3 J2 V1 0 200000000 1 V F12 0 1

31478 0x05C5 J2 V2 0 200000000 1 V F12 0 1

31480 0x05C7 J2 V0 Angle -3599 0 1 ° F21 0 1

31481 0x05C8 J2 V1 Angle -3599 0 1 ° F21 0 1

31482 0x05C9 J2 V2 Angle -3599 0 1 ° F21 0 1

Harmonics 1

31610 0x0649 J1 Phase A THD 0 65535 1 % F1 0 1

31611 0x064A J1 Phase B THD 0 65535 1 % F1 0 1

31612 0x064B J1 Phase C THD 0 65535 1 % F1 0 1

31613 0x064C J1 Phase A 2 0 65535 1 % F1 0 1

31614 0x064D J1 Phase B 2 0 65535 1 % F1 0 1

31615 0x064E J1 Phase C 2 0 65535 1 % F1 0 1

31616 0x064F J1 Phase A 3 0 65535 1 % F1 0 1

31617 0x0650 J1 Phase B 3 0 65535 1 % F1 0 1

31618 0x0651 J1 Phase C 3 0 65535 1 % F1 0 1

31619 0x0652 J1 Phase A 4 0 65535 1 % F1 0 1

31620 0x0653 J1 Phase B 4 0 65535 1 % F1 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



31621 0x0654 J1 Phase C 4 0 65535 1 % F1 0 1

31622 0x0655 J1 Phase A 5 0 65535 1 % F1 0 1

31623 0x0656 J1 Phase B 5 0 65535 1 % F1 0 1

31624 0x0657 J1 Phase C 5 0 65535 1 % F1 0 1

31625 0x0658 J1 Phase A 6 0 65535 1 % F1 0 1

31626 0x0659 J1 Phase B 6 0 65535 1 % F1 0 1

31627 0x065A J1 Phase C 6 0 65535 1 % F1 0 1

31628 0x065B J1 Phase A 7 0 65535 1 % F1 0 1

31629 0x065C J1 Phase B 7 0 65535 1 % F1 0 1

31630 0x065D J1 Phase C 7 0 65535 1 % F1 0 1

31631 0x065E J1 Phase A 8 0 65535 1 % F1 0 1

31632 0x065F J1 Phase B 8 0 65535 1 % F1 0 1

31633 0x0660 J1 Phase C 8 0 65535 1 % F1 0 1

31634 0x0661 J1 Phase A 9 0 65535 1 % F1 0 1

31635 0x0662 J1 Phase B 9 0 65535 1 % F1 0 1

31636 0x0663 J1 Phase C 9 0 65535 1 % F1 0 1

31637 0x0664 J1 Phase A 10 0 65535 1 % F1 0 1

31638 0x0665 J1 Phase B 10 0 65535 1 % F1 0 1

31639 0x0666 J1 Phase C 10 0 65535 1 % F1 0 1

31640 0x0667 J1 Phase A 11 0 65535 1 % F1 0 1

31641 0x0668 J1 Phase B 11 0 65535 1 % F1 0 1

31642 0x0669 J1 Phase C 11 0 65535 1 % F1 0 1

31643 0x066A J1 Phase A 12 0 65535 1 % F1 0 1

31644 0x066B J1 Phase B 12 0 65535 1 % F1 0 1

31645 0x066C J1 Phase C 12 0 65535 1 % F1 0 1

31646 0x066D J1 Phase A 13 0 65535 1 % F1 0 1

31647 0x066E J1 Phase B 13 0 65535 1 % F1 0 1

31648 0x066F J1 Phase C 13 0 65535 1 % F1 0 1

31649 0x0670 J1 Phase A 14 0 65535 1 % F1 0 1

31650 0x0671 J1 Phase B 14 0 65535 1 % F1 0 1

31651 0x0672 J1 Phase C 14 0 65535 1 % F1 0 1

31652 0x0673 J1 Phase A 15 0 65535 1 % F1 0 1

31653 0x0674 J1 Phase B 15 0 65535 1 % F1 0 1

31654 0x0675 J1 Phase C 15 0 65535 1 % F1 0 1

31655 0x0676 J1 Phase A 16 0 65535 1 % F1 0 1

31656 0x0677 J1 Phase B 16 0 65535 1 % F1 0 1

31657 0x0678 J1 Phase C 16 0 65535 1 % F1 0 1

31658 0x0679 J1 Phase A 17 0 65535 1 % F1 0 1

31659 0x067A J1 Phase B 17 0 65535 1 % F1 0 1

31660 0x067B J1 Phase C 17 0 65535 1 % F1 0 1

31661 0x067C J1 Phase A 18 0 65535 1 % F1 0 1

31662 0x067D J1 Phase B 18 0 65535 1 % F1 0 1

31663 0x067E J1 Phase C 18 0 65535 1 % F1 0 1

31664 0x067F J1 Phase A 19 0 65535 1 % F1 0 1

31665 0x0680 J1 Phase B 19 0 65535 1 % F1 0 1

31666 0x0681 J1 Phase C 19 0 65535 1 % F1 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



31667 0x0682 J1 Phase A 20 0 65535 1 % F1 0 1

31668 0x0683 J1 Phase B 20 0 65535 1 % F1 0 1

31669 0x0684 J1 Phase C 20 0 65535 1 % F1 0 1

31670 0x0685 J1 Phase A 21 0 65535 1 % F1 0 1

31671 0x0686 J1 Phase B 21 0 65535 1 % F1 0 1

31672 0x0687 J1 Phase C 21 0 65535 1 % F1 0 1

31673 0x0688 J1 Phase A 22 0 65535 1 % F1 0 1

31674 0x0689 J1 Phase B 22 0 65535 1 % F1 0 1

31675 0x068A J1 Phase C 22 0 65535 1 % F1 0 1

31676 0x068B J1 Phase A 23 0 65535 1 % F1 0 1

31677 0x068C J1 Phase B 23 0 65535 1 % F1 0 1

31678 0x068D J1 Phase C 23 0 65535 1 % F1 0 1

31679 0x068E J1 Phase A 24 0 65535 1 % F1 0 1

31680 0x068F J1 Phase B 24 0 65535 1 % F1 0 1

31681 0x0690 J1 Phase C 24 0 65535 1 % F1 0 1

31682 0x0691 J1 Phase A 25 0 65535 1 % F1 0 1

31683 0x0692 J1 Phase B 25 0 65535 1 % F1 0 1

31684 0x0693 J1 Phase C 25 0 65535 1 % F1 0 1

Harmonics 2

31695 0x069E J2 Phase A THD 0 65535 1 % F1 0 1

31696 0x069F J2 Phase B THD 0 65535 1 % F1 0 1

31697 0x06A0 J2 Phase C THD 0 65535 1 % F1 0 1

31698 0x06A1 J2 Phase A 2 0 65535 1 % F1 0 1

31699 0x06A2 J2 Phase B 2 0 65535 1 % F1 0 1

31700 0x06A3 J2 Phase C 2 0 65535 1 % F1 0 1

31701 0x06A4 J2 Phase A 3 0 65535 1 % F1 0 1

31702 0x06A5 J2 Phase B 3 0 65535 1 % F1 0 1

31703 0x06A6 J2 Phase C 3 0 65535 1 % F1 0 1

31704 0x06A7 J2 Phase A 4 0 65535 1 % F1 0 1

31705 0x06A8 J2 Phase B 4 0 65535 1 % F1 0 1

31706 0x06A9 J2 Phase C 4 0 65535 1 % F1 0 1

31707 0x06AA J2 Phase A 5 0 65535 1 % F1 0 1

31708 0x06AB J2 Phase B 5 0 65535 1 % F1 0 1

31709 0x06AC J2 Phase C 5 0 65535 1 % F1 0 1

31710 0x06AD J2 Phase A 6 0 65535 1 % F1 0 1

31711 0x06AE J2 Phase B 6 0 65535 1 % F1 0 1

31712 0x06AF J2 Phase C 6 0 65535 1 % F1 0 1

31713 0x06B0 J2 Phase A 7 0 65535 1 % F1 0 1

31714 0x06B1 J2 Phase B 7 0 65535 1 % F1 0 1

31715 0x06B2 J2 Phase C 7 0 65535 1 % F1 0 1

31716 0x06B3 J2 Phase A 8 0 65535 1 % F1 0 1

31717 0x06B4 J2 Phase B 8 0 65535 1 % F1 0 1

31718 0x06B5 J2 Phase C 8 0 65535 1 % F1 0 1

31719 0x06B6 J2 Phase A 9 0 65535 1 % F1 0 1

31720 0x06B7 J2 Phase B 9 0 65535 1 % F1 0 1

31721 0x06B8 J2 Phase C 9 0 65535 1 % F1 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



31722 0x06B9 J2 Phase A 10 0 65535 1 % F1 0 1

31723 0x06BA J2 Phase B 10 0 65535 1 % F1 0 1

31724 0x06BB J2 Phase C 10 0 65535 1 % F1 0 1

31725 0x06BC J2 Phase A 11 0 65535 1 % F1 0 1

31726 0x06BD J2 Phase B 11 0 65535 1 % F1 0 1

31727 0x06BE J2 Phase C 11 0 65535 1 % F1 0 1

31728 0x06BF J2 Phase A 12 0 65535 1 % F1 0 1

31729 0x06C0 J2 Phase B 12 0 65535 1 % F1 0 1

31730 0x06C1 J2 Phase C 12 0 65535 1 % F1 0 1

31731 0x06C2 J2 Phase A 13 0 65535 1 % F1 0 1

31732 0x06C3 J2 Phase B 13 0 65535 1 % F1 0 1

31733 0x06C4 J2 Phase C 13 0 65535 1 % F1 0 1

31734 0x06C5 J2 Phase A 14 0 65535 1 % F1 0 1

31735 0x06C6 J2 Phase B 14 0 65535 1 % F1 0 1

31736 0x06C7 J2 Phase C 14 0 65535 1 % F1 0 1

31737 0x06C8 J2 Phase A 15 0 65535 1 % F1 0 1

31738 0x06C9 J2 Phase B 15 0 65535 1 % F1 0 1

31739 0x06CA J2 Phase C 15 0 65535 1 % F1 0 1

31740 0x06CB J2 Phase A 16 0 65535 1 % F1 0 1

31741 0x06CC J2 Phase B 16 0 65535 1 % F1 0 1

31742 0x06CD J2 Phase C 16 0 65535 1 % F1 0 1

31743 0x06CE J2 Phase A 17 0 65535 1 % F1 0 1

31744 0x06CF J2 Phase B 17 0 65535 1 % F1 0 1

31745 0x06D0 J2 Phase C 17 0 65535 1 % F1 0 1

31746 0x06D1 J2 Phase A 18 0 65535 1 % F1 0 1

31747 0x06D2 J2 Phase B 18 0 65535 1 % F1 0 1

31748 0x06D3 J2 Phase C 18 0 65535 1 % F1 0 1

31749 0x06D4 J2 Phase A 19 0 65535 1 % F1 0 1

31750 0x06D5 J2 Phase B 19 0 65535 1 % F1 0 1

31751 0x06D6 J2 Phase C 19 0 65535 1 % F1 0 1

31752 0x06D7 J2 Phase A 20 0 65535 1 % F1 0 1

31753 0x06D8 J2 Phase B 20 0 65535 1 % F1 0 1

31754 0x06D9 J2 Phase C 20 0 65535 1 % F1 0 1

31755 0x06DA J2 Phase A 21 0 65535 1 % F1 0 1

31756 0x06DB J2 Phase B 21 0 65535 1 % F1 0 1

31757 0x06DC J2 Phase C 21 0 65535 1 % F1 0 1

31758 0x06DD J2 Phase A 22 0 65535 1 % F1 0 1

31759 0x06DE J2 Phase B 22 0 65535 1 % F1 0 1

31760 0x06DF J2 Phase C 22 0 65535 1 % F1 0 1

31761 0x06E0 J2 Phase A 23 0 65535 1 % F1 0 1

31762 0x06E1 J2 Phase B 23 0 65535 1 % F1 0 1

31763 0x06E2 J2 Phase C 23 0 65535 1 % F1 0 1

31764 0x06E3 J2 Phase A 24 0 65535 1 % F1 0 1

31765 0x06E4 J2 Phase B 24 0 65535 1 % F1 0 1

31766 0x06E5 J2 Phase C 24 0 65535 1 % F1 0 1

31767 0x06E6 J2 Phase A 25 0 65535 1 % F1 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



31768 0x06E7 J2 Phase B 25 0 65535 1 % F1 0 1

31769 0x06E8 J2 Phase C 25 0 65535 1 % F1 0 1

Synchrocheck 1 Metering

31960 0x07A7 Bus Volts Magnitude 0 200000000 1 V F12 0 1

31962 0x07A9 Bus Volts Angle -3599 0 1 ° F21 0 1

31963 0x07AA Bus Volts Frequency 0 120000 1 Hz F13 0 1

31965 0x07AC Line Volts Magnitude 0 200000000 1 V F12 0 1

31967 0x07AE Line Volts Angle -3599 0 1 ° F21 0 1

31968 0x07AF Line Volts Frequency 0 120000 1 Hz F13 10 1

31970 0x07B1 Voltage Difference 0 0xFFFFFFFF 1 V F12 0 1

31972 0x07B3 Angle Difference 0 180 1 ° F1 0 1

31973 0x07B4 Frequency Difference 0 120000 1 Hz F13 10 1

Power Values 1

32020 0x07E3 Pwr1 Real -2147483648 2147483647 1 kW F31 0 1

32022 0x07E5 Pwr1 Reactive -2147483648 2147483647 1 kvar F31 0 1

32024 0x07E7 Pwr1 Apparent -2147483648 2147483647 1 kVA F31 0 1

32026 0x07E9 Pwr1 Ph A Real -2147483648 2147483647 1 kW F31 0 1

32028 0x07EB Pwr1 Ph B Real -2147483648 2147483647 1 kW F31 0 1

32030 0x07ED Pwr1 Ph C Real -2147483648 2147483647 1 kW F31 0 1

32032 0x07EF Pwr1 Ph A Reactive -2147483648 2147483647 1 kvar F31 0 1

32034 0x07F1 Pwr1 Ph B Reactive -2147483648 2147483647 1 kvar F31 0 1

32036 0x07F3 Pwr1 Ph C Reactive -2147483648 2147483647 1 kvar F31 0 1

32038 0x07F5 Pwr1 Ph A Apparent -2147483648 2147483647 1 kVA F31 0 1

32040 0x07F7 Pwr1 Ph B Apparent -2147483648 2147483647 1 kVA F31 0 1

32042 0x07F9 Pwr1 Ph C Apparent -2147483648 2147483647 1 kVA F31 0 1

32044 0x07FB Pwr1 PF -99 100 1 F22 0 1

32045 0x07FC Pwr1 Ph A PF -99 100 1 F22 0 1

32046 0x07FD Pwr1 Ph B PF -99 100 1 F22 0 1

32047 0x07FE Pwr1 Ph C PF -99 100 1 F22 0 1

Energy Values 1

32110 0x083D Reset Energy D/T 0 0xFFFFFFFF 1 F50 0 1

32112 0x083F Reset Energy Time (us) 0 999999 1 us F51 0 1

32114 0x0841 Pwr1 Pos WattHours -2147483648 2147483647 1 MWh F33 0 1

32116 0x0843 Pwr1 Pos WattHours Cost 0 0xFFFFFFFF 1 $ F12 0 1

32118 0x0845 Pwr1 Neg WattHours -2147483648 2147483647 1 MWh F33 0 1

32120 0x0847 Pwr1 Neg WattHours Cost

0 0xFFFFFFFF 1 $ F12 0 1

32122 0x0849 Pwr1 Pos VarHours -2147483648 2147483647 1 Mvarh F33 0 1

32124 0x084B Pwr1 Neg VarHours -2147483648 2147483647 1 Mvarh F33 0 1

Current Demand Values 1

32180 0x0883 J1 Reset Demand Date/Time

0 0xFFFFFFFF 1 F50 0 1

32182 0x0885 J1 Reset Demand Time (us)

0 999999 1 us F51 0 1

32184 0x0887 J1 Ph A Demand 0 0xFFFFFFFF 1 A F13 0 1

32186 0x0889 J1 Ph B Demand 0 0xFFFFFFFF 1 A F13 0 1

32188 0x088B J1 Ph C Demand 0 0xFFFFFFFF 1 A F13 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



32190 0x088D J1 Max Ph A Demand 0 0xFFFFFFFF 1 A F13 0 1

32192 0x088F J1 Max Ph B Demand 0 0xFFFFFFFF 1 A F13 0 1

32194 0x0891 J1 Max Ph C Demand 0 0xFFFFFFFF 1 A F13 0 1

32196 0x0893 J1 Date/Time Ph A Demand


32198 0x0895 J1 Date/Time Ph B Demand


32200 0x0897 J1 Date/Time Ph C Demand


32202 0x0899 J1 Ph A Demand Time (us) 0 999999 1 us F51 0 1

32204 0x089B J1 Ph B Demand Time (us) 0 999999 1 us F51 0 1

32206 0x089D J1 Ph C Demand Time (us) 0 999999 1 us F51 0 1

Power Demand Values 1

32310 0x0905 Pwr1 Reset Dmd Date/Time


32312 0x0907 Pwr1 Reset Dmd Time (us) 0 999999 1 us F51 0 1

32314 0x0909 Pwr1 Real Dmd -2147483648 2147483647 1 kW F31 0 1

32316 0x090B Pwr1 Max Real Dmd -2147483648 2147483647 1 kW F31 0 1

32318 0x090D Pwr1 Date/Time Real Dmd


32320 0x090F Pwr1 Real Dmd Time (us) 0 999999 1 us F51 0 1

32322 0x0911 Pwr1 Reactive Dmd -2147483648 2147483647 1 kvar F31 0 1

32324 0x0913 Pwr1 Max Reactive Dmd -2147483648 2147483647 1 kvar F31 0 1

32326 0x0915 Pwr1 D/T Reactive Dmd 0 0xFFFFFFFF 1 F50 0 1

32328 0x0917 Pwr1 Reactive Dmd Time(us)

0 999999 1 us F51 0 1

32330 0x0919 Pwr1 Apparent Dmd -2147483648 2147483647 1 kVA F31 0 1

32332 0x091B Pwr1 Max Apparent Dmd -2147483648 2147483647 1 kVA F31 0 1

32334 0x091D Pwr1 D/T Apparent Demand


32336 0x091F Pwr1 Apparent Dmd Time(us)

0 999999 1 us F51 0 1

AutoReclose 1 Status

32580 0x0A13 Shot Number In Effect 0 65535 1 shots F0 0 1

32581 0x0A14 Shots Remaining 0 65535 1 shots F0 0 1

32582 0x0A15 Shot Rate Per Hour 0 65535 1 sh/hr F0 0 1

32583 0x0A16 Total Shot Count 0 65535 1 shots F0 0 1

32584 0x0A17 Shot Cnt Last Rst D/T 0 0xFFFFFFFF 1 F50 0 1

32586 0x0A19 Shot Cnt Last Rst (us) 0 999999 1 us F51 0 1

Fault Location

32670 0x0A6D Fault Date/Time 0 0xFFFFFFFF 1 F50 0 1

32672 0x0A6F Fault Time (us) 0 999999 1 us F51 0 1

32674 0x0A71 Type 0 65535 1 F0 0 1

32676 0x0A73 Distance 0 65535 1 F0 0 1

Fault Report Summary

32690 0x0A81 Number of Reports 0 65535 1 F0 0 1

32691 0x0A82 Fault Report 1 Time 0 0xFFFFFFFF 1 F50 0 1



Modbus Address

Hex Address


Factory Default

Size in Words




32699 0x0A8A Fault Report 5 Time 0 0xFFFFFFFF 1 F50 0 1

32701 0x0A8C Fault Report 6 Time 0 0xFFFFFFFF 1 F50 0 1

32703 0x0A8E Fault Report 7 Time 0 0xFFFFFFFF 1 F50 0 1






32715 0x0A9A Fault Report 13 Time 0 0xFFFFFFFF 1 F50 0 1

32717 0x0A9C Fault Report 14 Time 0 0xFFFFFFFF 1 F50 0 1

32719 0x0A9E Fault Report 15 Time 0 0xFFFFFFFF 1 F50 0 1

Fault Report

32740 0x0AB3 Date/Time 0 0xFFFFFFFF 1 F50 0 1

32742 0x0AB5 Time (us) 0 999999 1 us F51 0 1

32744 0x0AB7 Type of Fault 0 10 1 FC270 0 1

32745 0x0AB8 Distance to Fault 1 9999 1 F2 1 1

32746 0x0AB9 Distance to Fault 1 9999 1 F2 1 1

Transient Recorder Status

32760 0x0AC7 Total Transient Records 0 16 1 F0 0 1

Transient Recorder Date/Time

32780 0x0ADB Oscill. Record 1 0 0xFFFFFFFF 1 F50 0 1

32782 0x0ADD Oscill. Record 1 (us) 0 999999 1 us F51 0 1

32786 0x0AE1 Oscill. Record 2 0 0xFFFFFFFF 1 F50 0 1

32788 0x0AE3 Oscill. Record 2 (us) 0 999999 1 us F51 0 1

32792 0x0AE7 Oscill. Record 3 0 0xFFFFFFFF 1 F50 0 1

32794 0x0AE9 Oscill. Record 3 (us) 0 999999 1 us F51 0 1

32798 0x0AED Oscill. Record 4 0 0xFFFFFFFF 1 F50 0 1

32800 0x0AEF Oscill. Record 4 (us) 0 999999 1 us F51 0 1

32804 0x0AF3 Oscill. Record 5 0 0xFFFFFFFF 1 F50 0 1

32806 0x0AF5 Oscill. Record 5 (us) 0 999999 1 us F51 0 1

32810 0x0AF9 Oscill. Record 6 0 0xFFFFFFFF 1 F50 0 1

32812 0x0AFB Oscill. Record 6 (us) 0 999999 1 us F51 0 1

32816 0x0AFF Oscill. Record 7 0 0xFFFFFFFF 1 F50 0 1

32818 0x0B01 Oscill. Record 7 (us) 0 999999 1 us F51 0 1

32822 0x0B05 Oscill. Record 8 0 0xFFFFFFFF 1 F50 0 1


32828 0x0B0B Oscill. Record 9 0 0xFFFFFFFF 1 F50 0 1

32830 0x0B0D Oscill. Record 9 (us) 0 999999 1 us F51 0 1





32846 0x0B1D Oscill. Record 12 0 0xFFFFFFFF 1 F50 0 1

32848 0x0B1F Oscill. Record 12 (us) 0 999999 1 us F51 0 1


Modbus Address

Hex Address


Factory Default

Size in Words





32860 0x0B2B Oscill. Record 14 (us) 0 999999 1 us F51 0 1

32864 0x0B2F Oscill. Record 15 0 0xFFFFFFFF 1 F50 0 1




Breaker Health Values

32900 0x0B53 Total Breaker Trips 0 100000 1 F10 0 1

32902 0x0B55 Trips Since Last Reset 0 100000 1 F10 0 1

32904 0x0B57 Alarm Counter 0 100 1 F0 0 1

32905 0x0B58 Last Trip Time 0 4294967295 1 ms F10 0 1

32907 0x0B5A Avg. of 5 Trip Time 0 4294967295 1 ms F10 0 1

32909 0x0B5C Avg. of Trip Time 0 4294967295 1 ms F10 0 1

32911 0x0B5E Last Close Time 0 4294967295 1 ms F10 0 1

32913 0x0B60 Avg. of 5 Close Time 0 4294967295 1 ms F10 0 1

32915 0x0B62 Avg. of Close Time 0 4294967295 1 ms F10 0 1

32917 0x0B64 Last PH A Arc Time 0 4294967295 1 ms F10 0 1

32919 0x0B66 Avg. of 5 PH A Arc Time 0 4294967295 1 ms F10 0 1

32921 0x0B68 Avg. of PH A Arc Time 0 4294967295 1 ms F10 0 1

32923 0x0B6A Last PH B Arc Time 0 4294967295 1 ms F10 0 1

32925 0x0B6C Avg. of 5 PH B Arc Time 0 4294967295 1 ms F10 0 1

32927 0x0B6E Avg. of PH B Arc Time 0 4294967295 1 ms F10 0 1

32929 0x0B70 Last PH C Arc Time 0 4294967295 1 ms F10 0 1

32931 0x0B72 Avg. of 5 PH C Arc Time 0 4294967295 1 ms F10 0 1

32933 0x0B74 Avg. of PH C Arc Time 0 4294967295 1 ms F10 0 1

32935 0x0B76 Last Spring Charge Time 0 6000000 1 s F13 0 1

32937 0x0B78 Avg. of 5 Charge Time 0 6000000 1 s F13 0 1

32939 0x0B7A Avg. of Charge Time 0 6000000 1 s F13 0 1

32941 0x0B7C Last PH A Arc Energy 0 4294967295 1 kA2-cyc F12 0 1

32943 0x0B7E Avg. of 5 PH A Arc Ener 0 4294967295 1 kA2-cyc F12 0 1

32945 0x0B80 Avg. of PH A Arc Energy 0 4294967295 1 kA2-cyc F12 0 1

32947 0x0B82 Last PH B Arc Energy 0 4294967295 1 kA2-cyc F12 0 1

32949 0x0B84 Avg. of 5 PH B Arc Ener 0 4294967295 1 kA2-cyc F12 0 1

32951 0x0B86 Avg. of PH B Arc Energy 0 4294967295 1 kA2-cyc F12 0 1

32953 0x0B88 Last PH C Arc Energy 0 4294967295 1 kA2-cyc F12 0 1

32955 0x0B8A Avg. of 5 PH C Arc Ener 0 4294967295 1 kA2-cyc F12 0 1

32957 0x0B8C Avg. of PH C Arc Energy 0 4294967295 1 kA2-cyc F12 0 1

Breaker 1 Arcing Current

33100 0x0C1B Arcing Current Phase A 0 4294967295 1 kA2-cyc F12 0 1

33102 0x0C1D Arcing Current Phase B 0 4294967295 1 kA2-cyc F12 0 1

33104 0x0C1F Arcing Current Phase C 0 4294967295 1 kA2-cyc F12 0 1

33106 0x0C21 Total Arcing Current 0 4294967295 1 kA2-cyc F12 0 1

Digital Counter Status 1

33140 0x0C43 Counter 1 Accumulated -2147483648 2147483647 1 User-Programmable Units

F30 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



33142 0x0C45 Counter 1 Frozen -2147483648 2147483647 1 User-Programmable Units

F30 0 1

33144 0x0C47 Date/Time - Frozen 0 0xFFFFFFFF 1 F50 0 1

33146 0x0C49 Counter 1 us - Frozen 0 999999 1 us F51 0 1


33152 0x0C4F Counter 2 Accumulated -2147483648 2147483647 1 User-Programmable Units

F30 0 1


F30 0 1




33164 0x0C5B Counter 3 Accumulated -2147483648 2147483647 1 User-Programmable Units

F30 0 1

33166 0x0C5D Counter 3 Frozen -2147483648 2147483647 1 User-Programmable Units

F30 0 1

33168 0x0C5F Date/Time - Frozen 0 0xFFFFFFFF 1 F50 0 1




F30 0 1


F30 0 1

33180 0x0C6B Date/Time - Frozen 0 0xFFFFFFFF 1 F50 0 1

33182 0x0C6D Counter 4 us - Frozen 0 999999 1 us F51 0 1



F30 0 1


F30 0 1




33200 0x0C7F Counter 6 Accumulated -2147483648 2147483647 1 User-Programmable Units

F30 0 1


F30 0 1




33212 0x0C8B Counter 7 Accumulated -2147483648 2147483647 1 User-Programmable Units

F30 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



33214 0x0C8D Counter 7 Frozen -2147483648 2147483647 1 User-Programmable Units

F30 0 1

33216 0x0C8F Date/Time - Frozen 0 0xFFFFFFFF 1 F50 0 1




F30 0 1


F30 0 1

33228 0x0C9B Date/Time - Frozen 0 0xFFFFFFFF 1 F50 0 1

33230 0x0C9D Counter 8 us - Frozen 0 999999 1 us F51 0 1


33236 0x0CA3 Counter 9 Accumulated -2147483648 2147483647 1 User-Programmable Units

F30 0 1

33238 0x0CA5 Counter 9 Frozen -2147483648 2147483647 1 User-Programmable Units

F30 0 1

33240 0x0CA7 Date/Time - Frozen 0 0xFFFFFFFF 1 F50 0 1

33242 0x0CA9 Counter 9 us - Frozen 0 999999 1 us F51 0 1


33248 0x0CAF Counter 10 Accumulated -2147483648 2147483647 1 User-Programmable Units

F30 0 1

33250 0x0CB1 Counter 10 Frozen -2147483648 2147483647 1 User-Programmable Units

F30 0 1

33252 0x0CB3 Date/Time - Frozen 0 0xFFFFFFFF 1 F50 0 1

33254 0x0CB5 Counter 10 us - Frozen 0 999999 1 us F51 0 1


33260 0x0CBB Counter 11 Accumulated -2147483648 2147483647 1 User-Programmable Units

F30 0 1

33262 0x0CBD Counter 11 Frozen -2147483648 2147483647 1 User-Programmable Units

F30 0 1

33264 0x0CBF Date/Time - Frozen 0 0xFFFFFFFF 1 F50 0 1

33266 0x0CC1 Counter 11 us - Frozen 0 999999 1 us F51 0 1


33272 0x0CC7 Counter 12 Accumulated -2147483648 2147483647 1 User-Programmable Units

F30 0 1

33274 0x0CC9 Counter 12 Frozen -2147483648 2147483647 1 User-Programmable Units

F30 0 1

33276 0x0CCB Date/Time - Frozen 0 0xFFFFFFFF 1 F50 0 1

33278 0x0CCD Counter 12 us - Frozen 0 999999 1 us F51 0 1


33284 0x0CD3 Counter 13 Accumulated -2147483648 2147483647 1 User-Programmable Units

F30 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



33286 0x0CD5 Counter 13 Frozen -2147483648 2147483647 1 User-Programmable Units

F30 0 1

33288 0x0CD7 Date/Time - Frozen 0 0xFFFFFFFF 1 F50 0 1

33290 0x0CD9 Counter 13 us - Frozen 0 999999 1 us F51 0 1


33296 0x0CDF Counter 14 Accumulated -2147483648 2147483647 1 User-Programmable Units

F30 0 1

33298 0x0CE1 Counter 14 Frozen -2147483648 2147483647 1 User-Programmable Units

F30 0 1

33300 0x0CE3 Date/Time - Frozen 0 0xFFFFFFFF 1 F50 0 1

33302 0x0CE5 Counter 14 us - Frozen 0 999999 1 us F51 0 1


33308 0x0CEB Counter 15 Accumulated -2147483648 2147483647 1 User-Programmable Units

F30 0 1

33310 0x0CED Counter 15 Frozen -2147483648 2147483647 1 User-Programmable Units

F30 0 1

33312 0x0CEF Date/Time - Frozen 0 0xFFFFFFFF 1 F50 0 1

33314 0x0CF1 Counter 15 us - Frozen 0 999999 1 us F51 0 1


33320 0x0CF7 Counter 16 Accumulated -2147483648 2147483647 1 User-Programmable Units

F30 0 1

33322 0x0CF9 Counter 16 Frozen -2147483648 2147483647 1 User-Programmable Units

F30 0 1

33324 0x0CFB Date/Time - Frozen 0 0xFFFFFFFF 1 F50 0 1

33326 0x0CFD Counter 16 us - Frozen 0 999999 1 us F51 0 1

Breaker 1 Status

33370 0x0D29 Breaker State 0 4 1 FC264 0 1

33371 0x0D2A Trip Coil 0 2 1 FC289 0 1

33372 0x0D2B Close Coil 0 2 1 FC289 0 1

Thermal Capacity

33430 0x0D65 Phase A Thermal Cap 0 1500 1 % F1 0 1

33431 0x0D66 Phase B Thermal Cap 0 1500 1 % F1 0 1

33432 0x0D67 Phase C Thermal Cap 0 1500 1 % F1 0 1

Directional Power

33450 0x0D79 Directional Power 1 -2147483648 2147483647 1 kW F31 0 1

33452 0x0D7B Directional Power 2 -2147483648 2147483647 1 kW F31 0 1

Wattmetric Ground Fault

33460 0x0D83 Wattmetric Ground Fault -2147483648 2147483647 1 W F32 0 1

Communications Status

33470 0x0D8D 61850 Status 0 0xFFFF 1 FC228 0 1

33471 0x0D8E Remote GOOSE Status 1 0 0xFFFFFFFF 1 FC323 0 1

33473 0x0D90 Remote GOOSE Status 2 0 0xFFFFFFFF 1 FC323 0 1

33475 0x0D92 Rem GOOSE Hdr Status 1 0 0xFFFFFFFF 1 FC323 0 1

33477 0x0D94 Rem GOOSE Hdr Status 2 0 0xFFFFFFFF 1 FC323 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



33479 0x0D96 SNTP Status 0 65535 1 F0 0 1

J Module Frequency

33540 0x0DD3 J1-CT Frequency 0 120000 1 Hz F13 0 1

33542 0x0DD5 J1-CT Frq Rate of Chge -12000 12000 1 Hz/sec F22 0 1

33543 0x0DD6 J2-3VT Frequency 0 120000 1 Hz F13 0 1

33545 0x0DD8 J2-3VT Frq Rate of Chge -12000 12000 1 Hz/sec F22 0 1

33546 0x0DD9 J2-Vx Frequency 0 120000 1 Hz F13 0 1

33548 0x0DDB J2-Vx Frq Rate of Chge -12000 12000 1 Hz/sec F22 0 1

K Module Frequency

Setpoints

Firmware Build Signature

40001 0x0000 Version 110 110 1 F0 110 1

40002 0x0001 Date 0x0B1807DD 0x0B1807DD 1 F10 0x0B1807DD

1

40004 0x0003 Time 0x12032E00 0x12032E00 1 F10 0x12032E00

1

40006 0x0005 SPChangeDateTime 0 0xFFFFFFFF 1 F50 0 1

40008 0x0007 SPChangeuSeconds 0 999999 1 us F51 0 1

Modbus Commands

40129 0x0080 Command Address 0 65535 1 F1 0 1

40130 0x0081 Command Function 0 65535 1 F1 0 1

40131 0x0082 Command Data 1 0 65535 1 F1 0 1

40132 0x0083 Command Data 2 0 65535 1 F1 0 1

40133 0x0084 Command Data 3 0 65535 1 F1 0 1

40134 0x0085 Command Data 4 0 65535 1 F1 0 1

40135 0x0086 Command Data 5 0 65535 1 F1 0 1

40136 0x0087 Command Data 6 0 65535 1 F1 0 1

40137 0x0088 Command Data 7 0 65535 1 F1 0 1

40138 0x0089 Command Data 8 0 65535 1 F1 0 1

40139 0x008A Command Data 9 0 65535 1 F1 0 1

40140 0x008B Command Data 10 0 65535 1 F1 0 1

Targets Selection

40230 0x00E5 Select Target Index 1 256 1 F0 1 1

Clock

40241 0x00F0 Time 0 0x173B3B63 1 F54 0 1

40243 0x00F2 Date 0x010107D8 0x0C1F082E 1 F53 16844760 1

40245 0x00F4 RTC Time 0 0xFFFFFFFF 1 s F52 0 1

40247 0x00F6 Local Time Offset from UTC

-240 240 5 hrs F21 0 1

40248 0x00F7 Real Time Clock Events 0 1 1 FC126 1 1

40249 0x00F8 Daylight Savings Time 0 1 1 FC126 0 1

40250 0x00F9 DST Start Month 0 12 1 FC169 0 1

40251 0x00FA DST Start Week 0 5 1 FC170 0 1

40252 0x00FB DST Start Weekday 0 7 1 FC171 0 1

40253 0x00FC DST Start Hour 0 23 1 F0 2 1

40254 0x00FD DST End Month 0 12 1 FC169 0 1

40255 0x00FE DST End Week 0 5 1 FC170 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



40256 0x00FF DST End Weekday 0 7 1 FC171 0 1

40257 0x0100 DST End Hour 0 23 1 F0 2 1

40258 0x0101 IRIG-B 0 1 1 FC126 0 1

User Map Setpoints

40524 0x020B User Map Address 1 30001 49999 1 F0 30712 1

40525 0x020C User Map Address 2 30001 49999 1 F0 30713 1

40526 0x020D User Map Address 3 30001 49999 1 F0 30708 1

40527 0x020E User Map Address 4 30001 49999 1 F0 30709 1

40528 0x020F User Map Address 5 30001 49999 1 F0 30700 1

40529 0x0210 User Map Address 6 30001 49999 1 F0 30701 1










40539 0x021A User Map Address 16 30001 49999 1 F0 30737 1



























Modbus Address

Hex Address


Factory Default

Size in Words

















































Modbus Address

Hex Address


Factory Default

Size in Words








































Event Recorder Configuration

40660 0x0293 Enable Events 0 1 1 FC126 1 1

Clear Records

40700 0x02BB All Records 0 1 1 FC126B 0 1

40701 0x02BC Targets 0 1 1 FC126B 0 1

40702 0x02BD Event Records 0 1 1 FC126B 0 1

40703 0x02BE Transient Records 0 1 1 FC126B 0 1

40705 0x02C0 Fault Reports 0 1 1 FC126B 0 1

40706 0x02C1 Max Current Demand 0 1 1 FC126B 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



40707 0x02C2 Max Real Power Demand 0 1 1 FC126B 0 1

40708 0x02C3 Max Reactive Power Demand

0 1 1 FC126B 0 1

40709 0x02C4 Max Apparent Power Demand

0 1 1 FC126B 0 1

40710 0x02C5 Energy Use Data 0 1 1 FC126B 0 1

40711 0x02C6 Thermal Capacity 0 1 1 FC126B 0 1

40712 0x02C7 Digital Counters 0 1 1 FC126B 0 1

40713 0x02C8 BKR1 Arcing Current 0 1 1 FC126B 0 1

40714 0x02C9 BKR1 Health Data 0 1 1 FC126B 0 1

40720 0x02CF Autoreclose 0 1 1 FC126B 0 1

Modbus Protocol

40730 0x02D9 Modbus Slave Address 1 254 1 F0 254 1

40731 0x02DA Modbus TCP Port Number 1 65535 1 F0 502 1

RS485 Port 1

40750 0x02ED Baud Rate 0 4 1 FC210 4 1

40751 0x02EE Parity 0 2 1 FC211 0 1

40752 0x02EF Port Protocol 0 2 1 FC209 0 1

Ethernet Port 1

40800 0x031F PRT1 IP Address 0 0xFFFFFFFF 1 F70 0xA9FE0303

1

40802 0x0321 PRT1 Subnet IP Mask 0 0xFFFFFFFF 1 F70 0xFFFFFF00 1

40804 0x0323 PRT1 GWY IP Address 0 0xFFFFFFFF 1 F70 0xA9FE0301

1

40806 0x0325 PRT4 IP Address 0 0xFFFFFFFF 1 F70 0 1

40808 0x0327 PRT4 Subnet IP Mask 0 0xFFFFFFFF 1 F70 0 1

40810 0x0329 PRT4 GWY IP Address 0 0xFFFFFFFF 1 F70 0 1

40812 0x032B PRT4 Operation 0 2 1 FC219 0 1

40814 0x032D PRT5 IP Address 0 0xFFFFFFFF 1 F70 0 1

40816 0x032F PRT5 Subnet IP Mask 0 0xFFFFFFFF 1 F70 0 1

40818 0x0331 PRT5 GWY IP Address 0 0xFFFFFFFF 1 F70 0 1

WiFi

40840 0x0347 WiFi Enable 0 1 1 FC126 1 1

40841 0x0348 WiFi IP Address 0 0xFFFFFFFF 1 F70 0xC0A80002

1

40843 0x034A WiFi Subnet Mask 0 0xFFFFFFFF 1 F70 0xFFFFFF00 1

40845 0x034C WiFi GWY IP Address 0 0xFFFFFFFF 1 F70 0xC0A80001

1

40847 0x034E WiFi Security 0 1 1 FC226 1 1

40848 0x034F WiFi SSID 0 65535 1 F60_14 GEMULTILIN 14

40864 0x035F WiFi WPA2 passphrase 0 65535 1 F60_14 Ge1wx9s3123!4

14

Precision Time Protocol

40920 0x0397 Port 4 PTP Function 0 1 1 FC126 0 1

40921 0x0398 Port 4 Path Delay Adder 0 60000 1 ns F0 0 1

40922 0x0399 Port4 Path Delay Asymetry

-1000 1000 1 ns F20 0 1

40923 0x039A Port 5 PTP Function 0 1 1 FC126 0 1

40924 0x039B Port 5 Path Delay Adder 0 60000 1 ns F0 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



40925 0x039C Port5 Path Delay Asymetry

-1000 1000 1 ns F20 0 1

40926 0x039D Strict Power Profile 0 1 1 FC126 1 1

40927 0x039E PTP Domain Number 0 255 1 F0 0 1

40928 0x039F PTP VLAN Priority 0 7 1 F0 4 1

40929 0x03A0 PTP VLAN ID 0 4095 1 F0 0 1

40930 0x03A1 PTP Priority 1 2 1 F0 1 1

SNTP

40950 0x03B5 SNTP Function 0 1 1 FC126 0 1

40951 0x03B6 SNTP Server IP Address 0 0xFFFFFFFF 1 F70 0 1

40953 0x03B8 SNTP UDP Port Number 0 65535 1 F0A 123 1

40954 0x03B9 SNTP Source Port Number 4 5 1 F0 4 1

Resetting

40970 0x03C9 Reset Input 1 0 0xFFFFFFFF 1 FC142 0 1

40972 0x03CB Reset Input 2 0 0xFFFFFFFF 1 FC142 0 1

40974 0x03CD Reset Input 3 0 0xFFFFFFFF 1 FC142 0 1

Installation

40990 0x03DD Device Name 0 65535 1 F60_26 Relay 1 26

41003 0x03EA Device In Service 0 1 1 FC114 0 1

41004 0x03EB Service Command 0 65535 1 F0 0 1

Front Panel Properties

41020 0x03FB Flash Message Time 1 10 1 s F0 5 1

41021 0x03FC Message Timeout 10 900 1 s F0 30 1

41022 0x03FD Screen Saver 0 1 1 FC126A 0 1

Default Screens

41040 0x040F Function 0 1 1 FC126 0 1

41042 0x0411 Display Time 5 900 1 s F0 10 1

41043 0x0412 Default Screen 1 0 56 1 FC290 0 1



Programmable LED 1

41060 0x0423 LED 1 Name 0 65535 1 F60_26 In Service 26

41073 0x0430 LED 1 Color 0 3 1 FC157 2 1

41074 0x0431 LED 1 Trigger 0 0xFFFFFFFF 1 FC142 0x801402 1

41076 0x0433 LED 1 Type 0 1 1 FC199 0 1

Programmable LED 2

41077 0x0434 LED 2 Name 0 65535 1 F60_26 Trip 26

41090 0x0441 LED 2 Color 0 3 1 FC157 1 1


41093 0x0444 LED 2 Type 0 1 1 FC199 1 1

Programmable LED 3

41094 0x0445 LED 3 Name 0 65535 1 F60_26 Alarm 26

41107 0x0452 LED 3 Color 0 3 1 FC157 3 1


41110 0x0455 LED 3 Type 0 1 1 FC199 0 1

Programmable LED 4

Modbus Address

Hex Address


Factory Default

Size in Words



41111 0x0456 LED 4 Name 0 65535 1 F60_26 Pickup 26

41124 0x0463 LED 4 Color 0 3 1 FC157 2 1

41125 0x0464 LED 4 Trigger 0 0xFFFFFFFF 1 FC142 0x800A02 1

41127 0x0466 LED 4 Type 0 1 1 FC199 0 1

Programmable LED 5

41128 0x0467 LED 5 Name 0 65535 1 F60_26 Test Mode 26

41141 0x0474 LED 5 Color 0 3 1 FC157 3 1


41144 0x0477 LED 5 Type 0 1 1 FC199 0 1

Programmable LED 6

41145 0x0478 LED 6 Name 0 65535 1 F60_26 Message 26

41158 0x0485 LED 6 Color 0 3 1 FC157 3 1


41161 0x0488 LED 6 Type 0 1 1 FC199 0 1

Programmable LED 7

41162 0x0489 LED 7 Name 0 65535 1 F60_26 Local Mode 26

41175 0x0496 LED 7 Color 0 3 1 FC157 3 1

41176 0x0497 LED 7 Trigger 0 0xFFFFFFFF 1 FC142 0x80B608 1

41178 0x0499 LED 7 Type 0 1 1 FC199 0 1

Programmable LED 8

41179 0x049A LED 8 Name 0 65535 1 F60_26 BKR Open 26

41192 0x04A7 LED 8 Color 0 3 1 FC157 2 1

41193 0x04A8 LED 8 Trigger 0 0xFFFFFFFF 1 FC142 0x80FC02 1

41195 0x04AA LED 8 Type 0 1 1 FC199 0 1

Programmable LED 9

41196 0x04AB LED 9 Name 0 65535 1 F60_26 BKR Closed 26

41209 0x04B8 LED 9 Color 0 3 1 FC157 2 1

41210 0x04B9 LED 9 Trigger 0 0xFFFFFFFF 1 FC142 0x80FA02 1

41212 0x04BB LED 9 Type 0 1 1 FC199 0 1

Programmable LED 10

41213 0x04BC LED 10 Name 0 65535 1 F60_26 LED 10 26

41226 0x04C9 LED 10 Color 0 3 1 FC157 2 1

41227 0x04CA LED 10 Trigger 0 0xFFFFFFFF 1 FC142 0 1

41229 0x04CC LED 10 Type 0 1 1 FC199 0 1

Programmable LED 11

41230 0x04CD LED 11 Name 0 65535 1 F60_26 LED 11 26

41243 0x04DA LED 11 Color 0 3 1 FC157 2 1

41244 0x04DB LED 11 Trigger 0 0xFFFFFFFF 1 FC142 0 1

41246 0x04DD LED 11 Type 0 1 1 FC199 0 1

Programmable LED 12

41247 0x04DE LED 12 Name 0 65535 1 F60_26 LED 12 26

41260 0x04EB LED 12 Color 0 3 1 FC157 3 1

41261 0x04EC LED 12 Trigger 0 0xFFFFFFFF 1 FC142 0 1

41263 0x04EE LED 12 Type 0 1 1 FC199 0 1

Programmable LED 13

41264 0x04EF LED 13 Name 0 65535 1 F60_26 LED 13 26

Modbus Address

Hex Address


Factory Default

Size in Words



41277 0x04FC LED 13 Color 0 3 1 FC157 3 1

41278 0x04FD LED 13 Trigger 0 0xFFFFFFFF 1 FC142 0 1

41280 0x04FF LED 13 Type 0 1 1 FC199 0 1

Programmable LED 14

41281 0x0500 LED 14 Name 0 65535 1 F60_26 LED 14 26

41294 0x050D LED 14 Color 0 3 1 FC157 3 1

41295 0x050E LED 14 Trigger 0 0xFFFFFFFF 1 FC142 0 1

41297 0x0510 LED 14 Type 0 1 1 FC199 0 1

Programmable LED 15

41298 0x0511 LED 15 Name 0 65535 1 F60_26 PB 1 26

41311 0x051E LED 15 Color 0 3 1 FC157 3 1

41312 0x051F LED 15 Trigger 0 0xFFFFFFFF 1 FC142 0x81D402 1

41314 0x0521 LED 15 Type 0 1 1 FC199 0 1

Programmable LED 16

41315 0x0522 LED 16 Name 0 65535 1 F60_26 PB 2 26

41328 0x052F LED 16 Color 0 3 1 FC157 3 1

41329 0x0530 LED 16 Trigger 0 0xFFFFFFFF 1 FC142 0x81D602 1

41331 0x0532 LED 16 Type 0 1 1 FC199 0 1

Programmable LED 17

41332 0x0533 LED 17 Name 0 65535 1 F60_26 PB 3 26

41345 0x0540 LED 17 Color 0 3 1 FC157 3 1

41346 0x0541 LED 17 Trigger 0 0xFFFFFFFF 1 FC142 0x81D802 1

41348 0x0543 LED 17 Type 0 1 1 FC199 0 1

Programmable Pushbutton 1

41360 0x054F Function 0 2 1 FC101 1 1

41361 0x0550 ID Text 0 65535 1 F60_26 Open BKR1 26

41374 0x055D ON Text 0 65535 1 F60_26 PB1 On 26

41387 0x056A OFF Text 0 65535 1 F60_26 PB1 Off 26

41400 0x0577 Hold Pressed 0 100 1 s F1 0 1

41401 0x0578 Autoreset 0 1 1 FC126 0 1

41402 0x0579 Autoreset Delay 2 6000 1 s F1 10 1

41403 0x057A Lock 0 0xFFFFFFFF 1 FC142 0 1

41405 0x057C Dropout Time 0 6000 1 s F1 0 1

41406 0x057D Events 0 1 1 FC126 1 1


41408 0x057F Function 0 2 1 FC101 1 1

41409 0x0580 ID Text 0 65535 1 F60_26 Close BKR1 26

41422 0x058D ON Text 0 65535 1 F60_26 PB2 On 26

41435 0x059A OFF Text 0 65535 1 F60_26 PB2 Off 26

41448 0x05A7 Hold Pressed 0 100 1 s F1 0 1

41449 0x05A8 Autoreset 0 1 1 FC126 0 1

41450 0x05A9 Autoreset Delay 2 6000 1 s F1 10 1

41451 0x05AA Lock 0 0xFFFFFFFF 1 FC142 0 1

41453 0x05AC Dropout Time 0 6000 1 s F1 0 1

41454 0x05AD Events 0 1 1 FC126 1 1


Modbus Address

Hex Address


Factory Default

Size in Words



41456 0x05AF Function 0 2 1 FC101 1 1

41457 0x05B0 ID Text 0 65535 1 F60_26 F1 26

41470 0x05BD ON Text 0 65535 1 F60_26 PB3 On 26

41483 0x05CA OFF Text 0 65535 1 F60_26 PB3 Off 26

41496 0x05D7 Hold Pressed 0 100 1 s F1 0 1

41497 0x05D8 Autoreset 0 1 1 FC126 0 1

41498 0x05D9 Autoreset Delay 2 6000 1 s F1 10 1

41499 0x05DA Lock 0 0xFFFFFFFF 1 FC142 0 1

41501 0x05DC Dropout Time 0 6000 1 s F1 0 1

41502 0x05DD Events 0 1 1 FC126 1 1

Fault Report 1

41520 0x05EF Function 0 1 1 FC126 0 1

41521 0x05F0 Pre-Fault Trigger 0 0xFFFFFFFF 1 FC142 0 1

41523 0x05F2 Fault Trigger 0 0xFFFFFFFF 1 FC142 0 1

41525 0x05F4 Analog Channel 1 0 33560 1 FC273 0 1






41531 0x05FA Analog Channel 7 0 33560 1 FC273 0 1

41532 0x05FB Analog Channel 8 0 33560 1 FC273 0 1

41533 0x05FC Analog Channel 9 0 33560 1 FC273 0 1

41534 0x05FD Analog Channel 10 0 33560 1 FC273 0 1

41535 0x05FE Analog Channel 11 0 33560 1 FC273 0 1

41536 0x05FF Analog Channel 12 0 33560 1 FC273 0 1

41537 0x0600 Analog Channel 13 0 33560 1 FC273 0 1










41547 0x060A Analog Channel 23 0 33560 1 FC273 0 1

41548 0x060B Analog Channel 24 0 33560 1 FC273 0 1

41549 0x060C Analog Channel 25 0 33560 1 FC273 0 1

41550 0x060D Analog Channel 26 0 33560 1 FC273 0 1

41551 0x060E Analog Channel 27 0 33560 1 FC273 0 1

41552 0x060F Analog Channel 28 0 33560 1 FC273 0 1





Modbus Address

Hex Address


Factory Default

Size in Words



Transient Recorder Setup

41610 0x0649 Number of Records 1 16 1 F0 5 1

41611 0x064A Samples per Cycle 0 4 1 FC182 2 1

41612 0x064B Trigger Mode 0 1 1 FC181 0 1

41613 0x064C Trigger Position 0 100 1 % F0 20 1

41614 0x064D Trigger Source 0 0xFFFFFFFF 1 FC142 0 1

41616 0x064F Trigger on Any Pickup 0 1 1 FC126A 0 1

41617 0x0650 Trigger on Any Operate 0 1 1 FC126A 0 1

41618 0x0651 Trigger on Trip 0 1 1 FC126A 0 1

41619 0x0652 Trigger on Alarm 0 1 1 FC126A 0 1

41620 0x0653 Digital Input 1 0 0xFFFFFFFF 1 FC142 0 1




41628 0x065B Digital Input 5 0 0xFFFFFFFF 1 FC142 0 1

41630 0x065D Digital Input 6 0 0xFFFFFFFF 1 FC142 0 1

41632 0x065F Digital Input 7 0 0xFFFFFFFF 1 FC142 0 1


























41684 0x0693 Analog Input 1 0 33560 1 FC273 0 1

41685 0x0694 Analog Input 2 0 33560 1 FC273 0 1

41686 0x0695 Analog Input 3 0 33560 1 FC273 0 1

41687 0x0696 Analog Input 4 0 33560 1 FC273 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



41688 0x0697 Analog Input 5 0 33560 1 FC273 0 1

41689 0x0698 Analog Input 6 0 33560 1 FC273 0 1

41690 0x0699 Analog Input 7 0 33560 1 FC273 0 1

41691 0x069A Analog Input 8 0 33560 1 FC273 0 1

41692 0x069B Analog Input 9 0 33560 1 FC273 0 1

41693 0x069C Analog Input 10 0 33560 1 FC273 0 1

41694 0x069D Analog Input 11 0 33560 1 FC273 0 1

41695 0x069E Analog Input 12 0 33560 1 FC273 0 1

41696 0x069F Analog Input 13 0 33560 1 FC273 0 1

41697 0x06A0 Analog Input 14 0 33560 1 FC273 0 1



Timer 1

41710 0x06AD Timer 1 Type 0 2 1 FC141 0 1

41711 0x06AE Timer 1 Pickup Delay 0 60000 1 F0 0 1

41712 0x06AF Timer 1 Dropout Delay 0 60000 1 F0 0 1

Timer 2

41713 0x06B0 Timer 2 Type 0 2 1 FC141 0 1

41714 0x06B1 Timer 2 Pickup Delay 0 60000 1 F0 0 1

41715 0x06B2 Timer 2 Dropout Delay 0 60000 1 F0 0 1

Timer 3

41716 0x06B3 Timer 3 Type 0 2 1 FC141 0 1



Timer 4

41719 0x06B6 Timer 4 Type 0 2 1 FC141 0 1



Timer 5

41722 0x06B9 Timer 5 Type 0 2 1 FC141 0 1

41723 0x06BA Timer 5 Pickup Delay 0 60000 1 F0 0 1

41724 0x06BB Timer 5 Dropout Delay 0 60000 1 F0 0 1

Timer 6

41725 0x06BC Timer 6 Type 0 2 1 FC141 0 1

41726 0x06BD Timer 6 Pickup Delay 0 60000 1 F0 0 1

41727 0x06BE Timer 6 Dropout Delay 0 60000 1 F0 0 1

Timer 7

41728 0x06BF Timer 7 Type 0 2 1 FC141 0 1

41729 0x06C0 Timer 7 Pickup Delay 0 60000 1 F0 0 1

41730 0x06C1 Timer 7 Dropout Delay 0 60000 1 F0 0 1

Timer 8

41731 0x06C2 Timer 8 Type 0 2 1 FC141 0 1



Timer 9

41734 0x06C5 Timer 9 Type 0 2 1 FC141 0 1

Modbus Address

Hex Address


Factory Default

Size in Words





Timer 10

41737 0x06C8 Timer 10 Type 0 2 1 FC141 0 1


41739 0x06CA Timer 10 Dropout Delay 0 60000 1 F0 0 1

Timer 11

41740 0x06CB Timer 11 Type 0 2 1 FC141 0 1

41741 0x06CC Timer 11 Pickup Delay 0 60000 1 F0 0 1

41742 0x06CD Timer 11 Dropout Delay 0 60000 1 F0 0 1

Timer 12

41743 0x06CE Timer 12 Type 0 2 1 FC141 0 1

41744 0x06CF Timer 12 Pickup Delay 0 60000 1 F0 0 1

41745 0x06D0 Timer 12 Dropout Delay 0 60000 1 F0 0 1

Timer 13

41746 0x06D1 Timer 13 Type 0 2 1 FC141 0 1

41747 0x06D2 Timer 13 Pickup Delay 0 60000 1 F0 0 1


Timer 14

41749 0x06D4 Timer 14 Type 0 2 1 FC141 0 1



Timer 15

41752 0x06D7 Timer 15 Type 0 2 1 FC141 0 1



Timer 16

41755 0x06DA Timer 16 Type 0 2 1 FC141 0 1

41756 0x06DB Timer 16 Pickup Delay 0 60000 1 F0 0 1

41757 0x06DC Timer 16 Dropout Delay 0 60000 1 F0 0 1

Timer 17

41758 0x06DD Timer 17 Type 0 2 1 FC141 0 1

41759 0x06DE Timer 17 Pickup Delay 0 60000 1 F0 0 1

41760 0x06DF Timer 17 Dropout Delay 0 60000 1 F0 0 1

Timer 18

41761 0x06E0 Timer 18 Type 0 2 1 FC141 0 1

41762 0x06E1 Timer 18 Pickup Delay 0 60000 1 F0 0 1

41763 0x06E2 Timer 18 Dropout Delay 0 60000 1 F0 0 1

Timer 19

41764 0x06E3 Timer 19 Type 0 2 1 FC141 0 1



Timer 20

41767 0x06E6 Timer 20 Type 0 2 1 FC141 0 1



Modbus Address

Hex Address


Factory Default

Size in Words



Timer 21

41770 0x06E9 Timer 21 Type 0 2 1 FC141 0 1

41771 0x06EA Timer 21 Pickup Delay 0 60000 1 F0 0 1

41772 0x06EB Timer 21 Dropout Delay 0 60000 1 F0 0 1

Timer 22

41773 0x06EC Timer 22 Type 0 2 1 FC141 0 1

41774 0x06ED Timer 22 Pickup Delay 0 60000 1 F0 0 1

41775 0x06EE Timer 22 Dropout Delay 0 60000 1 F0 0 1

Timer 23

41776 0x06EF Timer 23 Type 0 2 1 FC141 0 1

41777 0x06F0 Timer 23 Pickup Delay 0 60000 1 F0 0 1

41778 0x06F1 Timer 23 Dropout Delay 0 60000 1 F0 0 1

Timer 24

41779 0x06F2 Timer 24 Type 0 2 1 FC141 0 1



Timer 25

41782 0x06F5 Timer 25 Type 0 2 1 FC141 0 1



Timer 26

41785 0x06F8 Timer 26 Type 0 2 1 FC141 0 1


41787 0x06FA Timer 26 Dropout Delay 0 60000 1 F0 0 1

Timer 27

41788 0x06FB Timer 27 Type 0 2 1 FC141 0 1

41789 0x06FC Timer 27 Pickup Delay 0 60000 1 F0 0 1

41790 0x06FD Timer 27 Dropout Delay 0 60000 1 F0 0 1

Timer 28

41791 0x06FE Timer 28 Type 0 2 1 FC141 0 1

41792 0x06FF Timer 28 Pickup Delay 0 60000 1 F0 0 1

41793 0x0700 Timer 28 Dropout Delay 0 60000 1 F0 0 1

Timer 29

41794 0x0701 Timer 29 Type 0 2 1 FC141 0 1

41795 0x0702 Timer 29 Pickup Delay 0 60000 1 F0 0 1


Timer 30

41797 0x0704 Timer 30 Type 0 2 1 FC141 0 1



Timer 31

41800 0x0707 Timer 31 Type 0 2 1 FC141 0 1



Timer 32

41803 0x070A Timer 32 Type 0 2 1 FC141 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



41804 0x070B Timer 32 Pickup Delay 0 60000 1 F0 0 1

41805 0x070C Timer 32 Dropout Delay 0 60000 1 F0 0 1

Non-Volatile Latch 1

41820 0x071B NV Latch 1 Name 0 65535 1 F60_26 NV Latch 1 26

41833 0x0728 NV Latch 1 Function 0 1 1 FC126 0 1

41834 0x0729 NV Latch 1 Type 0 1 1 FC271 0 1

41835 0x072A NV Latch 1 Set 0 0xFFFFFFFF 1 FC142 0 1

41837 0x072C NV Latch 1 Reset 0 0xFFFFFFFF 1 FC142 0 1

41839 0x072E NV Latch 1 Events 0 1 1 FC126 1 1

41840 0x072F NV Latch 1 Targets 0 2 1 FC101 1 1


41841 0x0730 NV Latch 2 Name 0 65535 1 F60_26 NV Latch 2 26

41854 0x073D NV Latch 2 Function 0 1 1 FC126 0 1

41855 0x073E NV Latch 2 Type 0 1 1 FC271 0 1

41856 0x073F NV Latch 2 Set 0 0xFFFFFFFF 1 FC142 0 1

41858 0x0741 NV Latch 2 Reset 0 0xFFFFFFFF 1 FC142 0 1

41860 0x0743 NV Latch 2 Events 0 1 1 FC126 1 1

41861 0x0744 NV Latch 2 Targets 0 2 1 FC101 1 1




41876 0x0753 NV Latch 3 Type 0 1 1 FC271 0 1

41877 0x0754 NV Latch 3 Set 0 0xFFFFFFFF 1 FC142 0 1





41883 0x075A NV Latch 4 Name 0 65535 1 F60_26 NV Latch 4 26


41897 0x0768 NV Latch 4 Type 0 1 1 FC271 0 1


41900 0x076B NV Latch 4 Reset 0 0xFFFFFFFF 1 FC142 0 1

41902 0x076D NV Latch 4 Events 0 1 1 FC126 1 1

41903 0x076E NV Latch 4 Targets 0 2 1 FC101 1 1


41904 0x076F NV Latch 5 Name 0 65535 1 F60_26 NV Latch 5 26

41917 0x077C NV Latch 5 Function 0 1 1 FC126 0 1

41918 0x077D NV Latch 5 Type 0 1 1 FC271 0 1

41919 0x077E NV Latch 5 Set 0 0xFFFFFFFF 1 FC142 0 1







41939 0x0792 NV Latch 6 Type 0 1 1 FC271 0 1

Modbus Address

Hex Address


Factory Default

Size in Words









41959 0x07A6 NV Latch 7 Function 0 1 1 FC126 0 1

41960 0x07A7 NV Latch 7 Type 0 1 1 FC271 0 1

41961 0x07A8 NV Latch 7 Set 0 0xFFFFFFFF 1 FC142 0 1

41963 0x07AA NV Latch 7 Reset 0 0xFFFFFFFF 1 FC142 0 1

41965 0x07AC NV Latch 7 Events 0 1 1 FC126 1 1

41966 0x07AD NV Latch 7 Targets 0 2 1 FC101 1 1


41967 0x07AE NV Latch 8 Name 0 65535 1 F60_26 NV Latch 8 26

41980 0x07BB NV Latch 8 Function 0 1 1 FC126 0 1

41981 0x07BC NV Latch 8 Type 0 1 1 FC271 0 1

41982 0x07BD NV Latch 8 Set 0 0xFFFFFFFF 1 FC142 0 1

41984 0x07BF NV Latch 8 Reset 0 0xFFFFFFFF 1 FC142 0 1

41986 0x07C1 NV Latch 8 Events 0 1 1 FC126 1 1

41987 0x07C2 NV Latch 8 Targets 0 2 1 FC101 1 1


41988 0x07C3 NV Latch 9 Name 0 65535 1 F60_26 NV Latch 9 26

42001 0x07D0 NV Latch 9 Function 0 1 1 FC126 0 1

42002 0x07D1 NV Latch 9 Type 0 1 1 FC271 0 1

42003 0x07D2 NV Latch 9 Set 0 0xFFFFFFFF 1 FC142 0 1

42005 0x07D4 NV Latch 9 Reset 0 0xFFFFFFFF 1 FC142 0 1

42007 0x07D6 NV Latch 9 Events 0 1 1 FC126 1 1

42008 0x07D7 NV Latch 9 Targets 0 2 1 FC101 1 1


42009 0x07D8 NV Latch 10 Name 0 65535 1 F60_26 NV Latch 10 26

42022 0x07E5 NV Latch 10 Function 0 1 1 FC126 0 1

42023 0x07E6 NV Latch 10 Type 0 1 1 FC271 0 1

42024 0x07E7 NV Latch 10 Set 0 0xFFFFFFFF 1 FC142 0 1

42026 0x07E9 NV Latch 10 Reset 0 0xFFFFFFFF 1 FC142 0 1

42028 0x07EB NV Latch 10 Events 0 1 1 FC126 1 1

42029 0x07EC NV Latch 10 Targets 0 2 1 FC101 1 1


42030 0x07ED NV Latch 11 Name 0 65535 1 F60_26 NV Latch 11 26

42043 0x07FA NV Latch 11 Function 0 1 1 FC126 0 1

42044 0x07FB NV Latch 11 Type 0 1 1 FC271 0 1

42045 0x07FC NV Latch 11 Set 0 0xFFFFFFFF 1 FC142 0 1

42047 0x07FE NV Latch 11 Reset 0 0xFFFFFFFF 1 FC142 0 1





Modbus Address

Hex Address


Factory Default

Size in Words



42064 0x080F NV Latch 12 Function 0 1 1 FC126 0 1

42065 0x0810 NV Latch 12 Type 0 1 1 FC271 0 1








42086 0x0825 NV Latch 13 Type 0 1 1 FC271 0 1



42091 0x082A NV Latch 13 Events 0 1 1 FC126 1 1

42092 0x082B NV Latch 13 Targets 0 2 1 FC101 1 1


42093 0x082C NV Latch 14 Name 0 65535 1 F60_26 NV Latch 14 26


42107 0x083A NV Latch 14 Type 0 1 1 FC271 0 1

42108 0x083B NV Latch 14 Set 0 0xFFFFFFFF 1 FC142 0 1

42110 0x083D NV Latch 14 Reset 0 0xFFFFFFFF 1 FC142 0 1

42112 0x083F NV Latch 14 Events 0 1 1 FC126 1 1




42127 0x084E NV Latch 15 Function 0 1 1 FC126 0 1

42128 0x084F NV Latch 15 Type 0 1 1 FC271 0 1








42149 0x0864 NV Latch 16 Type 0 1 1 FC271 0 1




42155 0x086A NV Latch 16 Targets 0 2 1 FC101 1 1

Force Virtual Inputs

42170 0x0879 Force Virtual Input 1 0 1 1 FC126A 0 1

42171 0x087A Force Virtual Input 2 0 1 1 FC126A 0 1

42172 0x087B Force Virtual Input 3 0 1 1 FC126A 0 1

42173 0x087C Force Virtual Input 4 0 1 1 FC126A 0 1

42174 0x087D Force Virtual Input 5 0 1 1 FC126A 0 1

42175 0x087E Force Virtual Input 6 0 1 1 FC126A 0 1

42176 0x087F Force Virtual Input 7 0 1 1 FC126A 0 1

Modbus Address

Hex Address


Factory Default

Size in Words













42187 0x088A Force Virtual Input 18 0 1 1 FC126A 0 1

42188 0x088B Force Virtual Input 19 0 1 1 FC126A 0 1

42189 0x088C Force Virtual Input 20 0 1 1 FC126A 0 1

42190 0x088D Force Virtual Input 21 0 1 1 FC126A 0 1

42191 0x088E Force Virtual Input 22 0 1 1 FC126A 0 1

42192 0x088F Force Virtual Input 23 0 1 1 FC126A 0 1










Contact Input Voltage Threshold

42250 0x08C9 Voltage Threshold / Slot F 0 3 1 FC123 1 1

42251 0x08CA Voltage Threshold / Slot G 0 3 1 FC123 1 1

Contact Input 1

42270 0x08DD Name 0 65535 1 F60_26 CI 1 26

42283 0x08EA Debounce Time 0 160 5 ms F1 100 1

42284 0x08EB Events 0 1 1 FC126 1 1

Contact Input 2

42285 0x08EC Name 0 65535 1 F60_26 CI 2 26

42298 0x08F9 Debounce Time 0 160 5 ms F1 100 1

42299 0x08FA Events 0 1 1 FC126 1 1

Contact Input 3

42300 0x08FB Name 0 65535 1 F60_26 CI 3 26

42313 0x0908 Debounce Time 0 160 5 ms F1 100 1

42314 0x0909 Events 0 1 1 FC126 1 1

Contact Input 4

42315 0x090A Name 0 65535 1 F60_26 CI 4 26


42329 0x0918 Events 0 1 1 FC126 1 1

Contact Input 5

42330 0x0919 Name 0 65535 1 F60_26 CI 5 26

Modbus Address

Hex Address


Factory Default

Size in Words




42344 0x0927 Events 0 1 1 FC126 1 1

Contact Input 6

42345 0x0928 Name 0 65535 1 F60_26 CI 6 26


42359 0x0936 Events 0 1 1 FC126 1 1

Contact Input 7

42360 0x0937 Name 0 65535 1 F60_26 CI 7 26


42374 0x0945 Events 0 1 1 FC126 1 1

Contact Input 8

42375 0x0946 Name 0 65535 1 F60_26 CI 8 26


42389 0x0954 Events 0 1 1 FC126 1 1

Contact Input 9

42390 0x0955 Name 0 65535 1 F60_26 CI 9 26


42404 0x0963 Events 0 1 1 FC126 1 1

Contact Input 10

42405 0x0964 Name 0 65535 1 F60_26 CI 10 26


42419 0x0972 Events 0 1 1 FC126 1 1

Contact Input 11

42420 0x0973 Name 0 65535 1 F60_26 CI 11 26


42434 0x0981 Events 0 1 1 FC126 1 1

Contact Input 12

42435 0x0982 Name 0 65535 1 F60_26 CI 12 26

42448 0x098F Debounce Time 0 160 5 ms F1 100 1

42449 0x0990 Events 0 1 1 FC126 1 1

Contact Input 13

42450 0x0991 Name 0 65535 1 F60_26 CI 13 26

42463 0x099E Debounce Time 0 160 5 ms F1 100 1

42464 0x099F Events 0 1 1 FC126 1 1

Contact Input 14

42465 0x09A0 Name 0 65535 1 F60_26 CI 14 26

42478 0x09AD Debounce Time 0 160 5 ms F1 100 1

42479 0x09AE Events 0 1 1 FC126 1 1

Virtual Input 1

42820 0x0B03 Function 0 1 1 FC126 0 1

42821 0x0B04 Name 0 65535 1 F60_26 VI 1 26

42834 0x0B11 Type 0 1 1 FC199 1 1

42835 0x0B12 Events 0 1 1 FC126 1 1

Virtual Input 2

42836 0x0B13 Function 0 1 1 FC126 0 1

42837 0x0B14 Name 0 65535 1 F60_26 VI 2 26

Modbus Address

Hex Address


Factory Default

Size in Words



42850 0x0B21 Type 0 1 1 FC199 1 1

42851 0x0B22 Events 0 1 1 FC126 1 1

Virtual Input 3

42852 0x0B23 Function 0 1 1 FC126 0 1

42853 0x0B24 Name 0 65535 1 F60_26 VI 3 26

42866 0x0B31 Type 0 1 1 FC199 1 1

42867 0x0B32 Events 0 1 1 FC126 1 1

Virtual Input 4

42868 0x0B33 Function 0 1 1 FC126 0 1

42869 0x0B34 Name 0 65535 1 F60_26 VI 4 26

42882 0x0B41 Type 0 1 1 FC199 1 1

42883 0x0B42 Events 0 1 1 FC126 1 1

Virtual Input 5

42884 0x0B43 Function 0 1 1 FC126 0 1

42885 0x0B44 Name 0 65535 1 F60_26 VI 5 26

42898 0x0B51 Type 0 1 1 FC199 1 1

42899 0x0B52 Events 0 1 1 FC126 1 1

Virtual Input 6

42900 0x0B53 Function 0 1 1 FC126 0 1

42901 0x0B54 Name 0 65535 1 F60_26 VI 6 26

42914 0x0B61 Type 0 1 1 FC199 1 1

42915 0x0B62 Events 0 1 1 FC126 1 1

Virtual Input 7

42916 0x0B63 Function 0 1 1 FC126 0 1

42917 0x0B64 Name 0 65535 1 F60_26 VI 7 26

42930 0x0B71 Type 0 1 1 FC199 1 1

42931 0x0B72 Events 0 1 1 FC126 1 1

Virtual Input 8

42932 0x0B73 Function 0 1 1 FC126 0 1

42933 0x0B74 Name 0 65535 1 F60_26 VI 8 26

42946 0x0B81 Type 0 1 1 FC199 1 1

42947 0x0B82 Events 0 1 1 FC126 1 1

Virtual Input 9

42948 0x0B83 Function 0 1 1 FC126 0 1

42949 0x0B84 Name 0 65535 1 F60_26 VI 9 26

42962 0x0B91 Type 0 1 1 FC199 1 1

42963 0x0B92 Events 0 1 1 FC126 1 1

Virtual Input 10

42964 0x0B93 Function 0 1 1 FC126 0 1

42965 0x0B94 Name 0 65535 1 F60_26 VI 10 26

42978 0x0BA1 Type 0 1 1 FC199 1 1

42979 0x0BA2 Events 0 1 1 FC126 1 1

Virtual Input 11

42980 0x0BA3 Function 0 1 1 FC126 0 1

42981 0x0BA4 Name 0 65535 1 F60_26 VI 11 26

42994 0x0BB1 Type 0 1 1 FC199 1 1

Modbus Address

Hex Address


Factory Default

Size in Words



42995 0x0BB2 Events 0 1 1 FC126 1 1

Virtual Input 12

42996 0x0BB3 Function 0 1 1 FC126 0 1

42997 0x0BB4 Name 0 65535 1 F60_26 VI 12 26

43010 0x0BC1 Type 0 1 1 FC199 1 1

43011 0x0BC2 Events 0 1 1 FC126 1 1

Virtual Input 13

43012 0x0BC3 Function 0 1 1 FC126 0 1

43013 0x0BC4 Name 0 65535 1 F60_26 VI 13 26

43026 0x0BD1 Type 0 1 1 FC199 1 1

43027 0x0BD2 Events 0 1 1 FC126 1 1

Virtual Input 14

43028 0x0BD3 Function 0 1 1 FC126 0 1

43029 0x0BD4 Name 0 65535 1 F60_26 VI 14 26

43042 0x0BE1 Type 0 1 1 FC199 1 1

43043 0x0BE2 Events 0 1 1 FC126 1 1

Virtual Input 15

43044 0x0BE3 Function 0 1 1 FC126 0 1

43045 0x0BE4 Name 0 65535 1 F60_26 VI 15 26

43058 0x0BF1 Type 0 1 1 FC199 1 1

43059 0x0BF2 Events 0 1 1 FC126 1 1

Virtual Input 16

43060 0x0BF3 Function 0 1 1 FC126 0 1

43061 0x0BF4 Name 0 65535 1 F60_26 VI 16 26

43074 0x0C01 Type 0 1 1 FC199 1 1

43075 0x0C02 Events 0 1 1 FC126 1 1

Virtual Input 17

43076 0x0C03 Function 0 1 1 FC126 0 1

43077 0x0C04 Name 0 65535 1 F60_26 VI 17 26

43090 0x0C11 Type 0 1 1 FC199 1 1

43091 0x0C12 Events 0 1 1 FC126 1 1

Virtual Input 18

43092 0x0C13 Function 0 1 1 FC126 0 1

43093 0x0C14 Name 0 65535 1 F60_26 VI 18 26

43106 0x0C21 Type 0 1 1 FC199 1 1

43107 0x0C22 Events 0 1 1 FC126 1 1

Virtual Input 19

43108 0x0C23 Function 0 1 1 FC126 0 1

43109 0x0C24 Name 0 65535 1 F60_26 VI 19 26

43122 0x0C31 Type 0 1 1 FC199 1 1

43123 0x0C32 Events 0 1 1 FC126 1 1

Virtual Input 20

43124 0x0C33 Function 0 1 1 FC126 0 1

43125 0x0C34 Name 0 65535 1 F60_26 VI 20 26

43138 0x0C41 Type 0 1 1 FC199 1 1

43139 0x0C42 Events 0 1 1 FC126 1 1

Modbus Address

Hex Address


Factory Default

Size in Words



Virtual Input 21

43140 0x0C43 Function 0 1 1 FC126 0 1

43141 0x0C44 Name 0 65535 1 F60_26 VI 21 26

43154 0x0C51 Type 0 1 1 FC199 1 1

43155 0x0C52 Events 0 1 1 FC126 1 1

Virtual Input 22

43156 0x0C53 Function 0 1 1 FC126 0 1

43157 0x0C54 Name 0 65535 1 F60_26 VI 22 26

43170 0x0C61 Type 0 1 1 FC199 1 1

43171 0x0C62 Events 0 1 1 FC126 1 1

Virtual Input 23

43172 0x0C63 Function 0 1 1 FC126 0 1

43173 0x0C64 Name 0 65535 1 F60_26 VI 23 26

43186 0x0C71 Type 0 1 1 FC199 1 1

43187 0x0C72 Events 0 1 1 FC126 1 1

Virtual Input 24

43188 0x0C73 Function 0 1 1 FC126 0 1

43189 0x0C74 Name 0 65535 1 F60_26 VI 24 26

43202 0x0C81 Type 0 1 1 FC199 1 1

43203 0x0C82 Events 0 1 1 FC126 1 1

Virtual Input 25

43204 0x0C83 Function 0 1 1 FC126 0 1

43205 0x0C84 Name 0 65535 1 F60_26 VI 25 26

43218 0x0C91 Type 0 1 1 FC199 1 1

43219 0x0C92 Events 0 1 1 FC126 1 1

Virtual Input 26

43220 0x0C93 Function 0 1 1 FC126 0 1

43221 0x0C94 Name 0 65535 1 F60_26 VI 26 26

43234 0x0CA1 Type 0 1 1 FC199 1 1

43235 0x0CA2 Events 0 1 1 FC126 1 1

Virtual Input 27

43236 0x0CA3 Function 0 1 1 FC126 0 1

43237 0x0CA4 Name 0 65535 1 F60_26 VI 27 26

43250 0x0CB1 Type 0 1 1 FC199 1 1

43251 0x0CB2 Events 0 1 1 FC126 1 1

Virtual Input 28

43252 0x0CB3 Function 0 1 1 FC126 0 1

43253 0x0CB4 Name 0 65535 1 F60_26 VI 28 26

43266 0x0CC1 Type 0 1 1 FC199 1 1

43267 0x0CC2 Events 0 1 1 FC126 1 1

Virtual Input 29

43268 0x0CC3 Function 0 1 1 FC126 0 1

43269 0x0CC4 Name 0 65535 1 F60_26 VI 29 26

43282 0x0CD1 Type 0 1 1 FC199 1 1

43283 0x0CD2 Events 0 1 1 FC126 1 1

Virtual Input 30

Modbus Address

Hex Address


Factory Default

Size in Words



43284 0x0CD3 Function 0 1 1 FC126 0 1

43285 0x0CD4 Name 0 65535 1 F60_26 VI 30 26

43298 0x0CE1 Type 0 1 1 FC199 1 1

43299 0x0CE2 Events 0 1 1 FC126 1 1

Virtual Input 31

43300 0x0CE3 Function 0 1 1 FC126 0 1

43301 0x0CE4 Name 0 65535 1 F60_26 VI 31 26

43314 0x0CF1 Type 0 1 1 FC199 1 1

43315 0x0CF2 Events 0 1 1 FC126 1 1

Virtual Input 32

43316 0x0CF3 Function 0 1 1 FC126 0 1

43317 0x0CF4 Name 0 65535 1 F60_26 VI 32 26

43330 0x0D01 Type 0 1 1 FC199 1 1

43331 0x0D02 Events 0 1 1 FC126 1 1

Output Relay 1 Seal-In

44310 0x10D5 Seal-In Time 0 999 1 s F2 4 1

44311 0x10D6 Block Trip 0 0xFFFFFFFF 1 FC142 0 1

Output Relay 2 Seal-In

44315 0x10DA Seal-In Time 0 999 1 s F2 4 1

44316 0x10DB Block Close 0 0xFFFFFFFF 1 FC142 0 1

Virtual Output 1

45070 0x13CD Name 0 65535 1 F60_26 VO 1 26

45083 0x13DA Events 0 1 1 FC126 0 1

Virtual Output 2

45086 0x13DD Name 0 65535 1 F60_26 VO 2 26

45099 0x13EA Events 0 1 1 FC126 0 1

Virtual Output 3

45102 0x13ED Name 0 65535 1 F60_26 VO 3 26

45115 0x13FA Events 0 1 1 FC126 0 1

Virtual Output 4

45118 0x13FD Name 0 65535 1 F60_26 VO 4 26

45131 0x140A Events 0 1 1 FC126 0 1

Virtual Output 5

45134 0x140D Name 0 65535 1 F60_26 VO 5 26

45147 0x141A Events 0 1 1 FC126 0 1

Virtual Output 6

45150 0x141D Name 0 65535 1 F60_26 VO 6 26

45163 0x142A Events 0 1 1 FC126 0 1

Virtual Output 7

45166 0x142D Name 0 65535 1 F60_26 VO 7 26

45179 0x143A Events 0 1 1 FC126 0 1

Virtual Output 8

45182 0x143D Name 0 65535 1 F60_26 VO 8 26

45195 0x144A Events 0 1 1 FC126 0 1

Virtual Output 9

45198 0x144D Name 0 65535 1 F60_26 VO 9 26

Modbus Address

Hex Address


Factory Default

Size in Words



45211 0x145A Events 0 1 1 FC126 0 1

Virtual Output 10

45214 0x145D Name 0 65535 1 F60_26 VO 10 26

45227 0x146A Events 0 1 1 FC126 0 1

Virtual Output 11

45230 0x146D Name 0 65535 1 F60_26 VO 11 26

45243 0x147A Events 0 1 1 FC126 0 1

Virtual Output 12

45246 0x147D Name 0 65535 1 F60_26 VO 12 26

45259 0x148A Events 0 1 1 FC126 0 1

Virtual Output 13

45262 0x148D Name 0 65535 1 F60_26 VO 13 26

45275 0x149A Events 0 1 1 FC126 0 1

Virtual Output 14

45278 0x149D Name 0 65535 1 F60_26 VO 14 26

45291 0x14AA Events 0 1 1 FC126 0 1

Virtual Output 15

45294 0x14AD Name 0 65535 1 F60_26 VO 15 26

45307 0x14BA Events 0 1 1 FC126 0 1

Virtual Output 16

45310 0x14BD Name 0 65535 1 F60_26 VO 16 26

45323 0x14CA Events 0 1 1 FC126 0 1

Virtual Output 17

45326 0x14CD Name 0 65535 1 F60_26 VO 17 26

45339 0x14DA Events 0 1 1 FC126 0 1

Virtual Output 18

45342 0x14DD Name 0 65535 1 F60_26 VO 18 26

45355 0x14EA Events 0 1 1 FC126 0 1

Virtual Output 19

45358 0x14ED Name 0 65535 1 F60_26 VO 19 26

45371 0x14FA Events 0 1 1 FC126 0 1

Virtual Output 20

45374 0x14FD Name 0 65535 1 F60_26 VO 20 26

45387 0x150A Events 0 1 1 FC126 0 1

Virtual Output 21

45390 0x150D Name 0 65535 1 F60_26 VO 21 26

45403 0x151A Events 0 1 1 FC126 0 1

Virtual Output 22

45406 0x151D Name 0 65535 1 F60_26 VO 22 26

45419 0x152A Events 0 1 1 FC126 0 1

Virtual Output 23

45422 0x152D Name 0 65535 1 F60_26 VO 23 26

45435 0x153A Events 0 1 1 FC126 0 1

Virtual Output 24

45438 0x153D Name 0 65535 1 F60_26 VO 24 26

45451 0x154A Events 0 1 1 FC126 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



Virtual Output 25

45454 0x154D Name 0 65535 1 F60_26 VO 25 26

45467 0x155A Events 0 1 1 FC126 0 1

Virtual Output 26

45470 0x155D Name 0 65535 1 F60_26 VO 26 26

45483 0x156A Events 0 1 1 FC126 0 1

Virtual Output 27

45486 0x156D Name 0 65535 1 F60_26 VO 27 26

45499 0x157A Events 0 1 1 FC126 0 1

Virtual Output 28

45502 0x157D Name 0 65535 1 F60_26 VO 28 26

45515 0x158A Events 0 1 1 FC126 0 1

Virtual Output 29

45518 0x158D Name 0 65535 1 F60_26 VO 29 26

45531 0x159A Events 0 1 1 FC126 0 1

Virtual Output 30

45534 0x159D Name 0 65535 1 F60_26 VO 30 26

45547 0x15AA Events 0 1 1 FC126 0 1

Virtual Output 31

45550 0x15AD Name 0 65535 1 F60_26 VO 31 26

45563 0x15BA Events 0 1 1 FC126 0 1

Virtual Output 32

45566 0x15BD Name 0 65535 1 F60_26 VO 32 26

45579 0x15CA Events 0 1 1 FC126 0 1

FlexCurve 1

46183 0x1826 FlexCurve A Time 0.00xPKP

0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1

46187 0x182A FlexCurve A Time 0.10xPKP

0 6000000 1 ms F10 0 1

46189 0x182C FlexCurve A Time 0.15xPKP

0 6000000 1 ms F10 0 1

46191 0x182E FlexCurve A Time 0.20xPKP

0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1

Modbus Address

Hex Address


Factory Default

Size in Words




0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1

Modbus Address

Hex Address


Factory Default

Size in Words




0 6000000 1 ms F10 0 1

46267 0x187A FlexCurve A Time 1.1xPKP 0 6000000 1 ms F10 0 1

46269 0x187C FlexCurve A Time 1.2xPKP 0 6000000 1 ms F10 0 1

46271 0x187E FlexCurve A Time 1.3xPKP 0 6000000 1 ms F10 0 1

46273 0x1880 FlexCurve A Time 1.4xPKP 0 6000000 1 ms F10 0 1
















46305 0x18A0 FlexCurve A Time 3.0xPKP 0 6000000 1 ms F10 0 1





46315 0x18AA FlexCurve A Time 3.5xPKP 0 6000000 1 ms F10 0 1

46317 0x18AC FlexCurve A Time 3.6xPKP 0 6000000 1 ms F10 0 1

46319 0x18AE FlexCurve A Time 3.7xPKP 0 6000000 1 ms F10 0 1

46321 0x18B0 FlexCurve A Time 3.8xPKP 0 6000000 1 ms F10 0 1





46331 0x18BA FlexCurve A Time 4.3xPKP 0 6000000 1 ms F10 0 1

46333 0x18BC FlexCurve A Time 4.4xPKP 0 6000000 1 ms F10 0 1

46335 0x18BE FlexCurve A Time 4.5xPKP 0 6000000 1 ms F10 0 1

46337 0x18C0 FlexCurve A Time 4.6xPKP 0 6000000 1 ms F10 0 1





46347 0x18CA FlexCurve A Time 5.1xPKP 0 6000000 1 ms F10 0 1

46349 0x18CC FlexCurve A Time 5.2xPKP 0 6000000 1 ms F10 0 1

46351 0x18CE FlexCurve A Time 5.3xPKP 0 6000000 1 ms F10 0 1

46353 0x18D0 FlexCurve A Time 5.4xPKP 0 6000000 1 ms F10 0 1

Modbus Address

Hex Address


Factory Default

Size in Words







46363 0x18DA FlexCurve A Time 5.9xPKP 0 6000000 1 ms F10 0 1

46365 0x18DC FlexCurve A Time 6.0xPKP 0 6000000 1 ms F10 0 1

46367 0x18DE FlexCurve A Time 6.5xPKP 0 6000000 1 ms F10 0 1

46369 0x18E0 FlexCurve A Time 7.0xPKP 0 6000000 1 ms F10 0 1





46379 0x18EA FlexCurve A Time 9.5xPKP 0 6000000 1 ms F10 0 1

46381 0x18EC FlexCurve A Time 10.0xPKP

0 6000000 1 ms F10 0 1

46383 0x18EE FlexCurve A Time 10.5xPKP

0 6000000 1 ms F10 0 1

46385 0x18F0 FlexCurve A Time 11.0xPKP

0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1

46395 0x18FA FlexCurve A Time 13.5xPKP

0 6000000 1 ms F10 0 1

46397 0x18FC FlexCurve A Time 14.0xPKP

0 6000000 1 ms F10 0 1

46399 0x18FE FlexCurve A Time 14.5xPKP

0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1

Modbus Address

Hex Address


Factory Default

Size in Words




0 6000000 1 ms F10 0 1

FlexCurve 2

46436 0x1923 FlexCurve B Time 0.00xPKP

0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1

46444 0x192B FlexCurve B Time 0.20xPKP

0 6000000 1 ms F10 0 1

46446 0x192D FlexCurve B Time 0.25xPKP

0 6000000 1 ms F10 0 1

46448 0x192F FlexCurve B Time 0.30xPKP

0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1

Modbus Address

Hex Address


Factory Default

Size in Words




0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1

46520 0x1977 FlexCurve B Time 1.1xPKP 0 6000000 1 ms F10 0 1


46524 0x197B FlexCurve B Time 1.3xPKP 0 6000000 1 ms F10 0 1

46526 0x197D FlexCurve B Time 1.4xPKP 0 6000000 1 ms F10 0 1

46528 0x197F FlexCurve B Time 1.5xPKP 0 6000000 1 ms F10 0 1
















Modbus Address

Hex Address


Factory Default

Size in Words




46562 0x19A1 FlexCurve B Time 3.2xPKP 0 6000000 1 ms F10 0 1





46572 0x19AB FlexCurve B Time 3.7xPKP 0 6000000 1 ms F10 0 1

46574 0x19AD FlexCurve B Time 3.8xPKP 0 6000000 1 ms F10 0 1

46576 0x19AF FlexCurve B Time 3.9xPKP 0 6000000 1 ms F10 0 1

46578 0x19B1 FlexCurve B Time 4.0xPKP 0 6000000 1 ms F10 0 1





46588 0x19BB FlexCurve B Time 4.5xPKP 0 6000000 1 ms F10 0 1

46590 0x19BD FlexCurve B Time 4.6xPKP 0 6000000 1 ms F10 0 1

46592 0x19BF FlexCurve B Time 4.7xPKP 0 6000000 1 ms F10 0 1

46594 0x19C1 FlexCurve B Time 4.8xPKP 0 6000000 1 ms F10 0 1





46604 0x19CB FlexCurve B Time 5.3xPKP 0 6000000 1 ms F10 0 1

46606 0x19CD FlexCurve B Time 5.4xPKP 0 6000000 1 ms F10 0 1

46608 0x19CF FlexCurve B Time 5.5xPKP 0 6000000 1 ms F10 0 1

46610 0x19D1 FlexCurve B Time 5.6xPKP 0 6000000 1 ms F10 0 1





46620 0x19DB FlexCurve B Time 6.5xPKP 0 6000000 1 ms F10 0 1

46622 0x19DD FlexCurve B Time 7.0xPKP 0 6000000 1 ms F10 0 1

46624 0x19DF FlexCurve B Time 7.5xPKP 0 6000000 1 ms F10 0 1

46626 0x19E1 FlexCurve B Time 8.0xPKP 0 6000000 1 ms F10 0 1




46634 0x19E9 FlexCurve B Time 10.0xPKP

0 6000000 1 ms F10 0 1

46636 0x19EB FlexCurve B Time 10.5xPKP

0 6000000 1 ms F10 0 1

46638 0x19ED FlexCurve B Time 11.0xPKP

0 6000000 1 ms F10 0 1

46640 0x19EF FlexCurve B Time 11.5xPKP

0 6000000 1 ms F10 0 1

46642 0x19F1 FlexCurve B Time 12.0xPKP

0 6000000 1 ms F10 0 1

Modbus Address

Hex Address


Factory Default

Size in Words




0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1

46652 0x19FB FlexCurve B Time 14.5xPKP

0 6000000 1 ms F10 0 1

46654 0x19FD FlexCurve B Time 15.0xPKP

0 6000000 1 ms F10 0 1

46656 0x19FF FlexCurve B Time 15.5xPKP

0 6000000 1 ms F10 0 1

46658 0x1A01 FlexCurve B Time 16.0xPKP

0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1

46668 0x1A0B FlexCurve B Time 18.5xPKP

0 6000000 1 ms F10 0 1

46670 0x1A0D FlexCurve B Time 19.0xPKP

0 6000000 1 ms F10 0 1

46672 0x1A0F FlexCurve B Time 19.5xPKP

0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1

FlexCurve 3

46689 0x1A20 FlexCurve C Time 0.00xPKP

0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1

46699 0x1A2A FlexCurve C Time 0.25xPKP

0 6000000 1 ms F10 0 1

46701 0x1A2C FlexCurve C Time 0.30xPKP

0 6000000 1 ms F10 0 1

46703 0x1A2E FlexCurve C Time 0.35xPKP

0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1

Modbus Address

Hex Address


Factory Default

Size in Words




0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1

Modbus Address

Hex Address


Factory Default

Size in Words




0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1

46773 0x1A74 FlexCurve C Time 1.1xPKP 0 6000000 1 ms F10 0 1



46779 0x1A7A FlexCurve C Time 1.4xPKP 0 6000000 1 ms F10 0 1

46781 0x1A7C FlexCurve C Time 1.5xPKP 0 6000000 1 ms F10 0 1

46783 0x1A7E FlexCurve C Time 1.6xPKP 0 6000000 1 ms F10 0 1

















46817 0x1AA0 FlexCurve C Time 3.3xPKP 0 6000000 1 ms F10 0 1





46827 0x1AAA FlexCurve C Time 3.8xPKP 0 6000000 1 ms F10 0 1

46829 0x1AAC FlexCurve C Time 3.9xPKP 0 6000000 1 ms F10 0 1

46831 0x1AAE FlexCurve C Time 4.0xPKP 0 6000000 1 ms F10 0 1

46833 0x1AB0 FlexCurve C Time 4.1xPKP 0 6000000 1 ms F10 0 1





46843 0x1ABA FlexCurve C Time 4.6xPKP 0 6000000 1 ms F10 0 1

46845 0x1ABC FlexCurve C Time 4.7xPKP 0 6000000 1 ms F10 0 1

46847 0x1ABE FlexCurve C Time 4.8xPKP 0 6000000 1 ms F10 0 1

46849 0x1AC0 FlexCurve C Time 4.9xPKP 0 6000000 1 ms F10 0 1



Modbus Address

Hex Address


Factory Default

Size in Words





46859 0x1ACA FlexCurve C Time 5.4xPKP 0 6000000 1 ms F10 0 1

46861 0x1ACC FlexCurve C Time 5.5xPKP 0 6000000 1 ms F10 0 1

46863 0x1ACE FlexCurve C Time 5.6xPKP 0 6000000 1 ms F10 0 1

46865 0x1AD0 FlexCurve C Time 5.7xPKP 0 6000000 1 ms F10 0 1





46875 0x1ADA FlexCurve C Time 7.0xPKP 0 6000000 1 ms F10 0 1

46877 0x1ADC FlexCurve C Time 7.5xPKP 0 6000000 1 ms F10 0 1

46879 0x1ADE FlexCurve C Time 8.0xPKP 0 6000000 1 ms F10 0 1

46881 0x1AE0 FlexCurve C Time 8.5xPKP 0 6000000 1 ms F10 0 1



46887 0x1AE6 FlexCurve C Time 10.0xPKP

0 6000000 1 ms F10 0 1

46889 0x1AE8 FlexCurve C Time 10.5xPKP

0 6000000 1 ms F10 0 1

46891 0x1AEA FlexCurve C Time 11.0xPKP

0 6000000 1 ms F10 0 1

46893 0x1AEC FlexCurve C Time 11.5xPKP

0 6000000 1 ms F10 0 1

46895 0x1AEE FlexCurve C Time 12.0xPKP

0 6000000 1 ms F10 0 1

46897 0x1AF0 FlexCurve C Time 12.5xPKP

0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1

46907 0x1AFA FlexCurve C Time 15.0xPKP

0 6000000 1 ms F10 0 1

46909 0x1AFC FlexCurve C Time 15.5xPKP

0 6000000 1 ms F10 0 1

46911 0x1AFE FlexCurve C Time 16.0xPKP

0 6000000 1 ms F10 0 1

46913 0x1B00 FlexCurve C Time 16.5xPKP

0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



46923 0x1B0A FlexCurve C Time 19.0xPKP

0 6000000 1 ms F10 0 1

46925 0x1B0C FlexCurve C Time 19.5xPKP

0 6000000 1 ms F10 0 1

46927 0x1B0E FlexCurve C Time 20.0xPKP

0 6000000 1 ms F10 0 1

FlexCurve 4

46942 0x1B1D FlexCurve D Time 0.00xPKP

0 6000000 1 ms F10 0 1

46944 0x1B1F FlexCurve D Time 0.05xPKP

0 6000000 1 ms F10 0 1

46946 0x1B21 FlexCurve D Time 0.10xPKP

0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1

46956 0x1B2B FlexCurve D Time 0.35xPKP

0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1

Modbus Address

Hex Address


Factory Default

Size in Words




0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1

47026 0x1B71 FlexCurve D Time 1.1xPKP 0 6000000 1 ms F10 0 1





47036 0x1B7B FlexCurve D Time 1.6xPKP 0 6000000 1 ms F10 0 1

47038 0x1B7D FlexCurve D Time 1.7xPKP 0 6000000 1 ms F10 0 1

47040 0x1B7F FlexCurve D Time 1.8xPKP 0 6000000 1 ms F10 0 1










Modbus Address

Hex Address


Factory Default

Size in Words










47074 0x1BA1 FlexCurve D Time 3.5xPKP 0 6000000 1 ms F10 0 1





47084 0x1BAB FlexCurve D Time 4.0xPKP 0 6000000 1 ms F10 0 1

47086 0x1BAD FlexCurve D Time 4.1xPKP 0 6000000 1 ms F10 0 1

47088 0x1BAF FlexCurve D Time 4.2xPKP 0 6000000 1 ms F10 0 1

47090 0x1BB1 FlexCurve D Time 4.3xPKP 0 6000000 1 ms F10 0 1





47100 0x1BBB FlexCurve D Time 4.8xPKP 0 6000000 1 ms F10 0 1

47102 0x1BBD FlexCurve D Time 4.9xPKP 0 6000000 1 ms F10 0 1

47104 0x1BBF FlexCurve D Time 5.0xPKP 0 6000000 1 ms F10 0 1

47106 0x1BC1 FlexCurve D Time 5.1xPKP 0 6000000 1 ms F10 0 1





47116 0x1BCB FlexCurve D Time 5.6xPKP 0 6000000 1 ms F10 0 1

47118 0x1BCD FlexCurve D Time 5.7xPKP 0 6000000 1 ms F10 0 1

47120 0x1BCF FlexCurve D Time 5.8xPKP 0 6000000 1 ms F10 0 1

47122 0x1BD1 FlexCurve D Time 5.9xPKP 0 6000000 1 ms F10 0 1





47132 0x1BDB FlexCurve D Time 8.0xPKP 0 6000000 1 ms F10 0 1

47134 0x1BDD FlexCurve D Time 8.5xPKP 0 6000000 1 ms F10 0 1

47136 0x1BDF FlexCurve D Time 9.0xPKP 0 6000000 1 ms F10 0 1

47138 0x1BE1 FlexCurve D Time 9.5xPKP 0 6000000 1 ms F10 0 1

47140 0x1BE3 FlexCurve D Time 10.0xPKP

0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1

Modbus Address

Hex Address


Factory Default

Size in Words




0 6000000 1 ms F10 0 1

47148 0x1BEB FlexCurve D Time 12.0xPKP

0 6000000 1 ms F10 0 1

47150 0x1BED FlexCurve D Time 12.5xPKP

0 6000000 1 ms F10 0 1

47152 0x1BEF FlexCurve D Time 13.0xPKP

0 6000000 1 ms F10 0 1

47154 0x1BF1 FlexCurve D Time 13.5xPKP

0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1

47164 0x1BFB FlexCurve D Time 16.0xPKP

0 6000000 1 ms F10 0 1

47166 0x1BFD FlexCurve D Time 16.5xPKP

0 6000000 1 ms F10 0 1

47168 0x1BFF FlexCurve D Time 17.0xPKP

0 6000000 1 ms F10 0 1

47170 0x1C01 FlexCurve D Time 17.5xPKP

0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1


0 6000000 1 ms F10 0 1

47180 0x1C0B FlexCurve D Time 20.0xPKP

0 6000000 1 ms F10 0 1

Power System

47220 0x1C33 Nominal Frequency 0 1 1 FC107 0 1

47221 0x1C34 Phase Rotation 0 1 1 FC124A 0 1

47224 0x1C37 Frequency Tracking 0 1 1 FC126 1 1

47225 0x1C38 Cost of Energy 1 1000 1 c/kWh F1 50 1

Current Sensing 1

47253 0x1C54 Phase CT Primary 1 12000 1 A F0 500 1

47254 0x1C55 Phase CT Secondary 0 1 1 FC258 1 1

47255 0x1C56 Ground CT Primary 1 12000 1 A F0 500 1

47256 0x1C57 Ground CT Secondary 0 1 1 FC258 1 1

47257 0x1C58 Sens. Ground CT Primary 1 12000 1 A F0 500 1

47258 0x1C59 Sens. Ground CT Secondary

0 1 1 FC258 1 1

Voltage Sensing 1

47323 0x1C9A Phase VT Connection 0 1 1 FC106 0 1

47324 0x1C9B Phase VT Secondary 100 2400 1 V F1 1200 1

47325 0x1C9C Phase VT Ratio 100 500000 1 F12 100 1

Modbus Address

Hex Address


Factory Default

Size in Words



47327 0x1C9E Aux. VT Name 0 65535 1 F60_26 Aux VT 1 26

47340 0x1CAB Aux. VT Connection 0 6 1 FC176 0 1

47341 0x1CAC Aux. VT Secondary 100 2400 1 V F1 1200 1

47342 0x1CAD Aux. VT Ratio 100 500000 1 F12 100 1

Breaker Settings 1

47390 0x1CDD BKR 1 Name 0 65535 1 F60_26 BKR 1 26

47403 0x1CEA BKR 1 Contact Input 52a 0 0x25F 1 FC266 0 1

47405 0x1CEC BKR 1 Contact Input 52b 0 0x25F 1 FC266 0 1

47407 0x1CEE BKR 1 Connected 0 0x25F 1 FC266 0 1

Current Demand

47460 0x1D23 Function 0 4 1 FC100A 0 1

47462 0x1D25 Measurement Type 0 2 1 FC254 0 1

47463 0x1D26 Thermal 90% Response Time

0 4 1 FC255 2 1

47464 0x1D27 Time Interval 0 4 1 FC255 3 1

47465 0x1D28 Pickup 10 10000 1 A F0 1000 1

47466 0x1D29 Relays 0 0xFFFFFFFF 1 FC198 0 1

47468 0x1D2B Block 0 0xFFFFFFFF 1 FC142 0 1

47470 0x1D2D Events 0 1 1 FC126 1 1

47471 0x1D2E Targets 0 2 1 FC101 1 1

Real Power Demand

47520 0x1D5F Function 0 4 1 FC100A 0 1



0 4 1 FC255 2 1


47525 0x1D64 Pickup 1 3000000 1 kW F11 10000 1


47529 0x1D68 Block 0 0xFFFFFFFF 1 FC142 0 1

47531 0x1D6A Events 0 1 1 FC126 1 1

47532 0x1D6B Targets 0 2 1 FC101 1 1

Reactive Power Demand

47570 0x1D91 Function 0 4 1 FC100A 0 1



0 4 1 FC255 2 1


47575 0x1D96 Pickup 1 3000000 1 kvar F11 10000 1


47579 0x1D9A Block 0 0xFFFFFFFF 1 FC142 0 1

47581 0x1D9C Events 0 1 1 FC126 1 1

47582 0x1D9D Targets 0 2 1 FC101 1 1

Apparent Power Demand

47620 0x1DC3 Function 0 4 1 FC100A 0 1

47622 0x1DC5 Measurement Type 0 2 1 FC254 0 1

47623 0x1DC6 Thermal 90% Response Time

0 4 1 FC255 2 1

Modbus Address

Hex Address


Factory Default

Size in Words



47624 0x1DC7 Time Interval 0 4 1 FC255 3 1

47625 0x1DC8 Pickup 1 3000000 1 kVA F11 10000 1

47627 0x1DCA Relays 0 0xFFFFFFFF 1 FC198 0 1

47629 0x1DCC Block 0 0xFFFFFFFF 1 FC142 0 1

47631 0x1DCE Events 0 1 1 FC126 1 1

47632 0x1DCF Targets 0 2 1 FC101 1 1

Fault Locator

47761 0x1E50 Trigger 0 0xFFFFFFFF 1 FC142 0 1

47763 0x1E52 Units of Length 0 1 1 FC268 1 1

47764 0x1E53 Length of Feeder 1 999 1 F1 1 1

47765 0x1E54 Length of Feeder 1 999 1 F1 1 1

47766 0x1E55 Z_1 (Resistive) of Feeder 1 25000 1 ohms F2 1 1

47767 0x1E56 Z_1 (Inductive) of Feeder 1 25000 1 ohms F2 1 1

47768 0x1E57 Z_0 (Resistive) of Feeder 1 65000 1 ohms F2 1 1

47769 0x1E58 Z_0 (Inductive) of Feeder 1 65000 1 ohms F2 1 1

47770 0x1E59 VT Substitution 0 2 1 FC269 0 1

47771 0x1E5A Z_0 (Resistive) of System 1 9999 1 ohms F2 1 1

47772 0x1E5B Z_0 (Inductive) of System 1 9999 1 ohms F2 1 1

Power Factor 1

47790 0x1E6D Function 0 4 1 FC100A 0 1

47792 0x1E6F Switch-In -99 100 1 F22 80 1

47793 0x1E70 Switch-Out -99 100 1 F22 100 1

47794 0x1E71 Delay 0 6000000 1 s F13 50000 1

47796 0x1E73 Minimum Voltage 0 125 1 x VT F2 30 1

47797 0x1E74 Relays 0 0xFFFFFFFF 1 FC198 0 1

47799 0x1E76 Block 0 0xFFFFFFFF 1 FC142 0 1

47801 0x1E78 Events 0 1 1 FC126 1 1

47802 0x1E79 Targets 0 2 1 FC101 1 1

Power Factor 2

47803 0x1E7A Function 0 4 1 FC100A 0 1

47805 0x1E7C Switch-In -99 100 1 F22 80 1

47806 0x1E7D Switch-Out -99 100 1 F22 100 1

47807 0x1E7E Delay 0 6000000 1 s F13 50000 1




47814 0x1E85 Events 0 1 1 FC126 1 1

47815 0x1E86 Targets 0 2 1 FC101 1 1

Pulse Output

47830 0x1E95 Function 0 1 1 FC126 0 1

47831 0x1E96 Pos Whs Pulse Increment 0 1000000 1 MWh F33 10000 1

47833 0x1E98 Pos Whs Pulse Relays 0 0xFFFFFFFF 1 FC198A 0 1

47835 0x1E9A Neg Whs Pulse Increment 0 1000000 1 MWh F33 10000 1

47837 0x1E9C Neg Whs Pulse Relays 0 0xFFFFFFFF 1 FC198A 0 1

47839 0x1E9E Pos VARhs Pulse Increment

0 1000000 1 Mvarh F33 10000 1

Modbus Address

Hex Address


Factory Default

Size in Words



47841 0x1EA0 Pos VARhs Pulse Relays 0 0xFFFFFFFF 1 FC198A 0 1

47843 0x1EA2 Neg VARhs Pulse Increment

0 1000000 1 Mvarh F33 10000 1

47845 0x1EA4 Neg VARhs Pulse Relays 0 0xFFFFFFFF 1 FC198A 0 1

47847 0x1EA6 Events 0 1 1 FC126 1 1

47848 0x1EA7 Targets 0 2 1 FC101 1 1

Trip Circuit Monitoring

47860 0x1EB3 Function 0 4 1 FC100A 0 1

47861 0x1EB4 Pickup Delay 0 6000000 1 s F13 10000 1

47863 0x1EB6 Dropout Delay 0 6000000 1 s F13 0 1

47865 0x1EB8 Bypass Breaker State 0 1 1 FC126 0 1

47866 0x1EB9 Breaker Status Closed 0 0xFFFFFFFF 1 FC142 0 1

47868 0x1EBB Block 0 0xFFFFFFFF 1 FC142 0 1

47870 0x1EBD Relays 0 0xFFFFFFFF 1 FC198 0 1

47872 0x1EBF Events 0 1 1 FC126 1 1

47873 0x1EC0 Targets 0 2 1 FC101 1 1

Close Circuit Monitoring

47874 0x1EC1 Function 0 4 1 FC100A 0 1

47875 0x1EC2 Pickup Delay 0 6000000 1 s F13 10000 1

47877 0x1EC4 Dropout Delay 0 6000000 1 s F13 0 1

47879 0x1EC6 Bypass Breaker State 0 1 1 FC126 0 1

47880 0x1EC7 Breaker Status Opened 0 0xFFFFFFFF 1 FC142 0 1

47882 0x1EC9 Block 0 0xFFFFFFFF 1 FC142 0 1

47884 0x1ECB Relays 0 0xFFFFFFFF 1 FC198 0 1

47886 0x1ECD Events 0 1 1 FC126 1 1

47887 0x1ECE Targets 0 2 1 FC101 1 1

Digital Counter 1

48120 0x1FB7 Function 0 1 1 FC126 0 1

48121 0x1FB8 Name 0 65535 1 F60_26 Counter 1 26

48134 0x1FC5 Units 0 65535 1 F60_6 units 6

48137 0x1FC8 Pre-set -2147483648 2147483647 1 F30 0 1

48139 0x1FCA Compare -2147483648 2147483647 1 F30 0 1

48141 0x1FCC Up 0 0xFFFFFFFF 1 FC142 0 1

48143 0x1FCE Down 0 0xFFFFFFFF 1 FC142 0 1

48145 0x1FD0 Set to Pre-set 0 0xFFFFFFFF 1 FC142 0 1

48147 0x1FD2 Reset 0 0xFFFFFFFF 1 FC142 0 1

48149 0x1FD4 Freeze/Reset 0 0xFFFFFFFF 1 FC142 0 1

48151 0x1FD6 Freeze/Count 0 0xFFFFFFFF 1 FC142 0 1

48153 0x1FD8 Block 0 0xFFFFFFFF 1 FC142 0 1

48155 0x1FDA HI 1 Output Relays 0 0xFFFFFFFF 1 FC198 0 1

48157 0x1FDC EQL 1 Output Relays 0 0xFFFFFFFF 1 FC198 0 1

48159 0x1FDE LO 1 Output Relays 0 0xFFFFFFFF 1 FC198 0 1

48161 0x1FE0 Events 0 1 1 FC126 1 1

Digital Counter 2

48162 0x1FE1 Function 0 1 1 FC126 0 1

48163 0x1FE2 Name 0 65535 1 F60_26 Counter 2 26

Modbus Address

Hex Address


Factory Default

Size in Words



48176 0x1FEF Units 0 65535 1 F60_6 units 6

48179 0x1FF2 Pre-set -2147483648 2147483647 1 F30 0 1

48181 0x1FF4 Compare -2147483648 2147483647 1 F30 0 1

48183 0x1FF6 Up 0 0xFFFFFFFF 1 FC142 0 1

48185 0x1FF8 Down 0 0xFFFFFFFF 1 FC142 0 1

48187 0x1FFA Set to Pre-set 0 0xFFFFFFFF 1 FC142 0 1

48189 0x1FFC Reset 0 0xFFFFFFFF 1 FC142 0 1

48191 0x1FFE Freeze/Reset 0 0xFFFFFFFF 1 FC142 0 1

48193 0x2000 Freeze/Count 0 0xFFFFFFFF 1 FC142 0 1

48195 0x2002 Block 0 0xFFFFFFFF 1 FC142 0 1

48197 0x2004 HI 2 Output Relays 0 0xFFFFFFFF 1 FC198 0 1

48199 0x2006 EQL 2 Output Relays 0 0xFFFFFFFF 1 FC198 0 1

48201 0x2008 LO 2 Output Relays 0 0xFFFFFFFF 1 FC198 0 1

48203 0x200A Events 0 1 1 FC126 1 1

Digital Counter 3

48204 0x200B Function 0 1 1 FC126 0 1

48205 0x200C Name 0 65535 1 F60_26 Counter 3 26

48218 0x2019 Units 0 65535 1 F60_6 units 6

48221 0x201C Pre-set -2147483648 2147483647 1 F30 0 1

48223 0x201E Compare -2147483648 2147483647 1 F30 0 1

48225 0x2020 Up 0 0xFFFFFFFF 1 FC142 0 1

48227 0x2022 Down 0 0xFFFFFFFF 1 FC142 0 1

48229 0x2024 Set to Pre-set 0 0xFFFFFFFF 1 FC142 0 1

48231 0x2026 Reset 0 0xFFFFFFFF 1 FC142 0 1

48233 0x2028 Freeze/Reset 0 0xFFFFFFFF 1 FC142 0 1

48235 0x202A Freeze/Count 0 0xFFFFFFFF 1 FC142 0 1

48237 0x202C Block 0 0xFFFFFFFF 1 FC142 0 1

48239 0x202E HI 3 Output Relays 0 0xFFFFFFFF 1 FC198 0 1



48245 0x2034 Events 0 1 1 FC126 1 1

Digital Counter 4

48246 0x2035 Function 0 1 1 FC126 0 1

48247 0x2036 Name 0 65535 1 F60_26 Counter 4 26

48260 0x2043 Units 0 65535 1 F60_6 units 6

48263 0x2046 Pre-set -2147483648 2147483647 1 F30 0 1

48265 0x2048 Compare -2147483648 2147483647 1 F30 0 1

48267 0x204A Up 0 0xFFFFFFFF 1 FC142 0 1

48269 0x204C Down 0 0xFFFFFFFF 1 FC142 0 1

48271 0x204E Set to Pre-set 0 0xFFFFFFFF 1 FC142 0 1






48283 0x205A EQL 4 Output Relays 0 0xFFFFFFFF 1 FC198 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



48285 0x205C LO 4 Output Relays 0 0xFFFFFFFF 1 FC198 0 1

48287 0x205E Events 0 1 1 FC126 1 1

Digital Counter 5

48288 0x205F Function 0 1 1 FC126 0 1

48289 0x2060 Name 0 65535 1 F60_26 Counter 5 26

48302 0x206D Units 0 65535 1 F60_6 units 6

48305 0x2070 Pre-set -2147483648 2147483647 1 F30 0 1

48307 0x2072 Compare -2147483648 2147483647 1 F30 0 1

48309 0x2074 Up 0 0xFFFFFFFF 1 FC142 0 1



48315 0x207A Reset 0 0xFFFFFFFF 1 FC142 0 1

48317 0x207C Freeze/Reset 0 0xFFFFFFFF 1 FC142 0 1

48319 0x207E Freeze/Count 0 0xFFFFFFFF 1 FC142 0 1





48329 0x2088 Events 0 1 1 FC126 1 1

Digital Counter 6

48330 0x2089 Function 0 1 1 FC126 0 1

48331 0x208A Name 0 65535 1 F60_26 Counter 6 26

48344 0x2097 Units 0 65535 1 F60_6 units 6

48347 0x209A Pre-set -2147483648 2147483647 1 F30 0 1

48349 0x209C Compare -2147483648 2147483647 1 F30 0 1

48351 0x209E Up 0 0xFFFFFFFF 1 FC142 0 1

48353 0x20A0 Down 0 0xFFFFFFFF 1 FC142 0 1

48355 0x20A2 Set to Pre-set 0 0xFFFFFFFF 1 FC142 0 1

48357 0x20A4 Reset 0 0xFFFFFFFF 1 FC142 0 1

48359 0x20A6 Freeze/Reset 0 0xFFFFFFFF 1 FC142 0 1

48361 0x20A8 Freeze/Count 0 0xFFFFFFFF 1 FC142 0 1

48363 0x20AA Block 0 0xFFFFFFFF 1 FC142 0 1

48365 0x20AC HI 6 Output Relays 0 0xFFFFFFFF 1 FC198 0 1

48367 0x20AE EQL 6 Output Relays 0 0xFFFFFFFF 1 FC198 0 1

48369 0x20B0 LO 6 Output Relays 0 0xFFFFFFFF 1 FC198 0 1

48371 0x20B2 Events 0 1 1 FC126 1 1

Digital Counter 7

48372 0x20B3 Function 0 1 1 FC126 0 1

48373 0x20B4 Name 0 65535 1 F60_26 Counter 7 26

48386 0x20C1 Units 0 65535 1 F60_6 units 6

48389 0x20C4 Pre-set -2147483648 2147483647 1 F30 0 1

48391 0x20C6 Compare -2147483648 2147483647 1 F30 0 1

48393 0x20C8 Up 0 0xFFFFFFFF 1 FC142 0 1

48395 0x20CA Down 0 0xFFFFFFFF 1 FC142 0 1

48397 0x20CC Set to Pre-set 0 0xFFFFFFFF 1 FC142 0 1

48399 0x20CE Reset 0 0xFFFFFFFF 1 FC142 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



48401 0x20D0 Freeze/Reset 0 0xFFFFFFFF 1 FC142 0 1

48403 0x20D2 Freeze/Count 0 0xFFFFFFFF 1 FC142 0 1


48407 0x20D6 HI 7 Output Relays 0 0xFFFFFFFF 1 FC198 0 1

48409 0x20D8 EQL 7 Output Relays 0 0xFFFFFFFF 1 FC198 0 1

48411 0x20DA LO 7 Output Relays 0 0xFFFFFFFF 1 FC198 0 1

48413 0x20DC Events 0 1 1 FC126 1 1

Digital Counter 8

48414 0x20DD Function 0 1 1 FC126 0 1

48415 0x20DE Name 0 65535 1 F60_26 Counter 8 26

48428 0x20EB Units 0 65535 1 F60_6 units 6

48431 0x20EE Pre-set -2147483648 2147483647 1 F30 0 1

48433 0x20F0 Compare -2147483648 2147483647 1 F30 0 1

48435 0x20F2 Up 0 0xFFFFFFFF 1 FC142 0 1

48437 0x20F4 Down 0 0xFFFFFFFF 1 FC142 0 1

48439 0x20F6 Set to Pre-set 0 0xFFFFFFFF 1 FC142 0 1

48441 0x20F8 Reset 0 0xFFFFFFFF 1 FC142 0 1

48443 0x20FA Freeze/Reset 0 0xFFFFFFFF 1 FC142 0 1

48445 0x20FC Freeze/Count 0 0xFFFFFFFF 1 FC142 0 1

48447 0x20FE Block 0 0xFFFFFFFF 1 FC142 0 1




48455 0x2106 Events 0 1 1 FC126 1 1

Digital Counter 9

48456 0x2107 Function 0 1 1 FC126 0 1

48457 0x2108 Name 0 65535 1 F60_26 Counter 9 26

48470 0x2115 Units 0 65535 1 F60_6 units 6

48473 0x2118 Pre-set -2147483648 2147483647 1 F30 0 1

48475 0x211A Compare -2147483648 2147483647 1 F30 0 1

48477 0x211C Up 0 0xFFFFFFFF 1 FC142 0 1

48479 0x211E Down 0 0xFFFFFFFF 1 FC142 0 1






48491 0x212A HI 9 Output Relays 0 0xFFFFFFFF 1 FC198 0 1

48493 0x212C EQL 9 Output Relays 0 0xFFFFFFFF 1 FC198 0 1

48495 0x212E LO 9 Output Relays 0 0xFFFFFFFF 1 FC198 0 1

48497 0x2130 Events 0 1 1 FC126 1 1

Digital Counter 10

48498 0x2131 Function 0 1 1 FC126 0 1

48499 0x2132 Name 0 65535 1 F60_26 Counter 10 26

48512 0x213F Units 0 65535 1 F60_6 units 6

48515 0x2142 Pre-set -2147483648 2147483647 1 F30 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



48517 0x2144 Compare -2147483648 2147483647 1 F30 0 1

48519 0x2146 Up 0 0xFFFFFFFF 1 FC142 0 1


48523 0x214A Set to Pre-set 0 0xFFFFFFFF 1 FC142 0 1

48525 0x214C Reset 0 0xFFFFFFFF 1 FC142 0 1

48527 0x214E Freeze/Reset 0 0xFFFFFFFF 1 FC142 0 1






48539 0x215A Events 0 1 1 FC126 1 1

Digital Counter 11

48540 0x215B Function 0 1 1 FC126 0 1

48541 0x215C Name 0 65535 1 F60_26 Counter 11 26

48554 0x2169 Units 0 65535 1 F60_6 units 6

48557 0x216C Pre-set -2147483648 2147483647 1 F30 0 1

48559 0x216E Compare -2147483648 2147483647 1 F30 0 1

48561 0x2170 Up 0 0xFFFFFFFF 1 FC142 0 1





48571 0x217A Freeze/Count 0 0xFFFFFFFF 1 FC142 0 1


48575 0x217E HI 11 Output Relays 0 0xFFFFFFFF 1 FC198 0 1



48581 0x2184 Events 0 1 1 FC126 1 1

Digital Counter 12

48582 0x2185 Function 0 1 1 FC126 0 1

48583 0x2186 Name 0 65535 1 F60_26 Counter 12 26

48596 0x2193 Units 0 65535 1 F60_6 units 6

48599 0x2196 Pre-set -2147483648 2147483647 1 F30 0 1

48601 0x2198 Compare -2147483648 2147483647 1 F30 0 1

48603 0x219A Up 0 0xFFFFFFFF 1 FC142 0 1

48605 0x219C Down 0 0xFFFFFFFF 1 FC142 0 1

48607 0x219E Set to Pre-set 0 0xFFFFFFFF 1 FC142 0 1

48609 0x21A0 Reset 0 0xFFFFFFFF 1 FC142 0 1

48611 0x21A2 Freeze/Reset 0 0xFFFFFFFF 1 FC142 0 1

48613 0x21A4 Freeze/Count 0 0xFFFFFFFF 1 FC142 0 1

48615 0x21A6 Block 0 0xFFFFFFFF 1 FC142 0 1

48617 0x21A8 HI 12 Output Relays 0 0xFFFFFFFF 1 FC198 0 1

48619 0x21AA EQL 12 Output Relays 0 0xFFFFFFFF 1 FC198 0 1

48621 0x21AC LO 12 Output Relays 0 0xFFFFFFFF 1 FC198 0 1

48623 0x21AE Events 0 1 1 FC126 1 1

Modbus Address

Hex Address


Factory Default

Size in Words



Digital Counter 13

48624 0x21AF Function 0 1 1 FC126 0 1

48625 0x21B0 Name 0 65535 1 F60_26 Counter 13 26

48638 0x21BD Units 0 65535 1 F60_6 units 6

48641 0x21C0 Pre-set -2147483648 2147483647 1 F30 0 1

48643 0x21C2 Compare -2147483648 2147483647 1 F30 0 1

48645 0x21C4 Up 0 0xFFFFFFFF 1 FC142 0 1

48647 0x21C6 Down 0 0xFFFFFFFF 1 FC142 0 1

48649 0x21C8 Set to Pre-set 0 0xFFFFFFFF 1 FC142 0 1

48651 0x21CA Reset 0 0xFFFFFFFF 1 FC142 0 1

48653 0x21CC Freeze/Reset 0 0xFFFFFFFF 1 FC142 0 1

48655 0x21CE Freeze/Count 0 0xFFFFFFFF 1 FC142 0 1


48659 0x21D2 HI 13 Output Relays 0 0xFFFFFFFF 1 FC198 0 1

48661 0x21D4 EQL 13 Output Relays 0 0xFFFFFFFF 1 FC198 0 1

48663 0x21D6 LO 13 Output Relays 0 0xFFFFFFFF 1 FC198 0 1

48665 0x21D8 Events 0 1 1 FC126 1 1

Digital Counter 14

48666 0x21D9 Function 0 1 1 FC126 0 1

48667 0x21DA Name 0 65535 1 F60_26 Counter 14 26

48680 0x21E7 Units 0 65535 1 F60_6 units 6

48683 0x21EA Pre-set -2147483648 2147483647 1 F30 0 1

48685 0x21EC Compare -2147483648 2147483647 1 F30 0 1

48687 0x21EE Up 0 0xFFFFFFFF 1 FC142 0 1

48689 0x21F0 Down 0 0xFFFFFFFF 1 FC142 0 1

48691 0x21F2 Set to Pre-set 0 0xFFFFFFFF 1 FC142 0 1


48695 0x21F6 Freeze/Reset 0 0xFFFFFFFF 1 FC142 0 1

48697 0x21F8 Freeze/Count 0 0xFFFFFFFF 1 FC142 0 1

48699 0x21FA Block 0 0xFFFFFFFF 1 FC142 0 1

48701 0x21FC HI 14 Output Relays 0 0xFFFFFFFF 1 FC198 0 1

48703 0x21FE EQL 14 Output Relays 0 0xFFFFFFFF 1 FC198 0 1


48707 0x2202 Events 0 1 1 FC126 1 1

Digital Counter 15

48708 0x2203 Function 0 1 1 FC126 0 1

48709 0x2204 Name 0 65535 1 F60_26 Counter 15 26

48722 0x2211 Units 0 65535 1 F60_6 units 6

48725 0x2214 Pre-set -2147483648 2147483647 1 F30 0 1

48727 0x2216 Compare -2147483648 2147483647 1 F30 0 1

48729 0x2218 Up 0 0xFFFFFFFF 1 FC142 0 1

48731 0x221A Down 0 0xFFFFFFFF 1 FC142 0 1

48733 0x221C Set to Pre-set 0 0xFFFFFFFF 1 FC142 0 1

48735 0x221E Reset 0 0xFFFFFFFF 1 FC142 0 1



Modbus Address

Hex Address


Factory Default

Size in Words






48747 0x222A LO 15 Output Relays 0 0xFFFFFFFF 1 FC198 0 1

48749 0x222C Events 0 1 1 FC126 1 1

Digital Counter 16

48750 0x222D Function 0 1 1 FC126 0 1

48751 0x222E Name 0 65535 1 F60_26 Counter 16 26

48764 0x223B Units 0 65535 1 F60_6 units 6

48767 0x223E Pre-set -2147483648 2147483647 1 F30 0 1

48769 0x2240 Compare -2147483648 2147483647 1 F30 0 1

48771 0x2242 Up 0 0xFFFFFFFF 1 FC142 0 1




48779 0x224A Freeze/Reset 0 0xFFFFFFFF 1 FC142 0 1

48781 0x224C Freeze/Count 0 0xFFFFFFFF 1 FC142 0 1

48783 0x224E Block 0 0xFFFFFFFF 1 FC142 0 1




48791 0x2256 Events 0 1 1 FC126 1 1

Breaker Health

48810 0x2269 Function 0 4 1 FC100A 0 1

48811 0x226A Mode 0 1 1 FC277 0 1

48812 0x226B Preset Trip Counter 0 100000 1 F10 0 1

48814 0x226D Trip Trigger 0 0xFFFFFFFF 1 FC142 0 1

48816 0x226F Close Trigger 0 0xFFFFFFFF 1 FC142 0 1

48818 0x2271 Open Status 0 0xFFFFFFFF 1 FC142 0 1

48820 0x2273 Close Status 0 0xFFFFFFFF 1 FC142 0 1

48822 0x2275 Spring Charge Status 0 0xFFFFFFFF 1 FC142 0 1

48824 0x2277 Trip Time Pickup 0 6000000 1 s F13 50 1

48826 0x2279 Close Time Pickup 0 6000000 1 s F13 50 1

48828 0x227B Incomplete Trp/Cls Time 0 6000000 1 s F13 100 1

48830 0x227D Arc Time Pickup 0 6000000 1 s F13 100 1

48832 0x227F Incomplete Arc Time 0 6000000 1 s F13 300 1

48834 0x2281 Spring Charge Time Pickup

0 6000000 1 s F13 15000 1

48836 0x2283 Incomplete Charge Time 0 6000000 1 s F13 45000 1

48838 0x2285 Arc Energy Pickup 1 100000 1 kA2-cyc F10 1000 1

48840 0x2287 Alarm Counter 1 100 1 F0 5 1

48841 0x2288 Relays 0 0xFFFFFFFF 1 FC198 0 1

48843 0x228A Block 0 0xFFFFFFFF 1 FC142 0 1

48845 0x228C Events 0 1 1 FC126 1 1

48846 0x228D Targets 0 2 1 FC101 1 1

Breaker 1 Arcing Current Config

Modbus Address

Hex Address


Factory Default

Size in Words



48930 0x22E1 Function 0 4 1 FC100A 0 1

48932 0x22E3 Initiation 0 0xFFFFFFFF 1 FC142 0 1

48934 0x22E5 Delay 0 6000000 1 s F13 30 1

48936 0x22E7 Alarm Level 0 50000 1 kA2-cyc F0 1000 1


48939 0x22EA Block 0 0xFFFFFFFF 1 FC142 0 1

48941 0x22EC Events 0 1 1 FC126 1 1

48942 0x22ED Targets 0 2 1 FC101 1 1

Change Setpoint Group

49030 0x2345 Active Setpoint Group 0 5 1 FC132A 0 1

49031 0x2346 Set Group 2 Active 0 0xFFFFFFFF 1 FC142 0 1

49033 0x2348 Set Group 3 Active 0 0xFFFFFFFF 1 FC142 0 1

49035 0x234A Set Group 4 Active 0 0xFFFFFFFF 1 FC142 0 1

49037 0x234C Set Group 5 Active 0 0xFFFFFFFF 1 FC142 0 1

49039 0x234E Set Group 6 Active 0 0xFFFFFFFF 1 FC142 0 1

49119 0x239E Change Inhibit 1 0 0xFFFFFFFF 1 FC142 0 1

49121 0x23A0 Change Inhibit 2 0 0xFFFFFFFF 1 FC142 0 1





49131 0x23AA Change Inhibit 7 0 0xFFFFFFFF 1 FC142 0 1

49133 0x23AC Change Inhibit 8 0 0xFFFFFFFF 1 FC142 0 1

49135 0x23AE Change Inhibit 9 0 0xFFFFFFFF 1 FC142 0 1

49137 0x23B0 Change Inhibit 10 0 0xFFFFFFFF 1 FC142 0 1





49147 0x23BA Change Inhibit 15 0 0xFFFFFFFF 1 FC142 0 1

49149 0x23BC Change Inhibit 16 0 0xFFFFFFFF 1 FC142 0 1

49151 0x23BE Events 0 1 1 FC126 1 1

Breaker Control

49170 0x23D1 Local Mode 0 0xFFFFFFFF 1 FC142 0 1

49172 0x23D3 Local Open 0 3 1 FC322 1 1

49173 0x23D4 Local Close 0 3 1 FC322 2 1

49174 0x23D5 Remote Open 0 0xFFFFFFFF 1 FC142 0 1

49176 0x23D7 Remote Close 0 0xFFFFFFFF 1 FC142 0 1

49178 0x23D9 Close Sync Supervision 0 2 1 FC280 0 1

49179 0x23DA Events 0 1 1 FC126 1 1

49180 0x23DB Targets 0 2 1 FC101 1 1

Trip Bus 1

49190 0x23E5 Function 0 4 1 FC100 0 1

49191 0x23E6 Input 1 0 0xFFFFFFFF 1 FC142 0 1


49195 0x23EA Input 3 0 0xFFFFFFFF 1 FC142 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



49197 0x23EC Input 4 0 0xFFFFFFFF 1 FC142 0 1

49199 0x23EE Input 5 0 0xFFFFFFFF 1 FC142 0 1

49201 0x23F0 Input 6 0 0xFFFFFFFF 1 FC142 0 1





49211 0x23FA Input 11 0 0xFFFFFFFF 1 FC142 0 1

49213 0x23FC Input 12 0 0xFFFFFFFF 1 FC142 0 1

49215 0x23FE Input 13 0 0xFFFFFFFF 1 FC142 0 1

49217 0x2400 Input 14 0 0xFFFFFFFF 1 FC142 0 1



49223 0x2406 Latching 0 1 1 FC126 0 1


49226 0x2409 Pickup Delay 0 6000000 1 s F13 0 1

49228 0x240B Dropout Delay 0 6000000 1 s F13 0 1

49230 0x240D Relays 0 0xFFFFFFFF 1 FC198 0 1

49232 0x240F Block 0 0xFFFFFFFF 1 FC142 0 1

49234 0x2411 Events 0 1 1 FC126 1 1

49235 0x2412 Targets 0 2 1 FC101 1 1

Trip Bus 2

49237 0x2414 Function 0 4 1 FC100 0 1




49244 0x241B Input 4 0 0xFFFFFFFF 1 FC142 0 1

49246 0x241D Input 5 0 0xFFFFFFFF 1 FC142 0 1

49248 0x241F Input 6 0 0xFFFFFFFF 1 FC142 0 1











49270 0x2435 Latching 0 1 1 FC126 0 1


49273 0x2438 Pickup Delay 0 6000000 1 s F13 0 1

49275 0x243A Dropout Delay 0 6000000 1 s F13 0 1

49277 0x243C Relays 0 0xFFFFFFFF 1 FC198 0 1


49281 0x2440 Events 0 1 1 FC126 1 1

Modbus Address

Hex Address


Factory Default

Size in Words



49282 0x2441 Targets 0 2 1 FC101 1 1

Trip Bus 3

49284 0x2443 Function 0 4 1 FC100 0 1




49291 0x244A Input 4 0 0xFFFFFFFF 1 FC142 0 1

49293 0x244C Input 5 0 0xFFFFFFFF 1 FC142 0 1

49295 0x244E Input 6 0 0xFFFFFFFF 1 FC142 0 1






49307 0x245A Input 12 0 0xFFFFFFFF 1 FC142 0 1

49309 0x245C Input 13 0 0xFFFFFFFF 1 FC142 0 1

49311 0x245E Input 14 0 0xFFFFFFFF 1 FC142 0 1



49317 0x2464 Latching 0 1 1 FC126 0 1


49320 0x2467 Pickup Delay 0 6000000 1 s F13 0 1

49322 0x2469 Dropout Delay 0 6000000 1 s F13 0 1

49324 0x246B Relays 0 0xFFFFFFFF 1 FC198 0 1

49326 0x246D Block 0 0xFFFFFFFF 1 FC142 0 1

49328 0x246F Events 0 1 1 FC126 1 1

49329 0x2470 Targets 0 2 1 FC101 1 1

Trip Bus 4

49331 0x2472 Function 0 4 1 FC100 0 1

















49364 0x2493 Latching 0 1 1 FC126 0 1

Modbus Address

Hex Address


Factory Default

Size in Words




49367 0x2496 Pickup Delay 0 6000000 1 s F13 0 1


49371 0x249A Relays 0 0xFFFFFFFF 1 FC198 0 1


49375 0x249E Events 0 1 1 FC126 1 1

49376 0x249F Targets 0 2 1 FC101 1 1

Trip Bus 5

49378 0x24A1 Function 0 4 1 FC100 0 1

49379 0x24A2 Input 1 0 0xFFFFFFFF 1 FC142 0 1




49387 0x24AA Input 5 0 0xFFFFFFFF 1 FC142 0 1

49389 0x24AC Input 6 0 0xFFFFFFFF 1 FC142 0 1

49391 0x24AE Input 7 0 0xFFFFFFFF 1 FC142 0 1

49393 0x24B0 Input 8 0 0xFFFFFFFF 1 FC142 0 1





49403 0x24BA Input 13 0 0xFFFFFFFF 1 FC142 0 1

49405 0x24BC Input 14 0 0xFFFFFFFF 1 FC142 0 1

49407 0x24BE Input 15 0 0xFFFFFFFF 1 FC142 0 1

49409 0x24C0 Input 16 0 0xFFFFFFFF 1 FC142 0 1

49411 0x24C2 Latching 0 1 1 FC126 0 1

49412 0x24C3 Reset 0 0xFFFFFFFF 1 FC142 0 1

49414 0x24C5 Pickup Delay 0 6000000 1 s F13 0 1

49416 0x24C7 Dropout Delay 0 6000000 1 s F13 0 1

49418 0x24C9 Relays 0 0xFFFFFFFF 1 FC198 0 1

49420 0x24CB Block 0 0xFFFFFFFF 1 FC142 0 1

49422 0x24CD Events 0 1 1 FC126 1 1

49423 0x24CE Targets 0 2 1 FC101 1 1

Trip Bus 6

49425 0x24D0 Function 0 4 1 FC100 0 1

49426 0x24D1 Input 1 0 0xFFFFFFFF 1 FC142 0 1





49436 0x24DB Input 6 0 0xFFFFFFFF 1 FC142 0 1

49438 0x24DD Input 7 0 0xFFFFFFFF 1 FC142 0 1

49440 0x24DF Input 8 0 0xFFFFFFFF 1 FC142 0 1




Modbus Address

Hex Address


Factory Default

Size in Words





49452 0x24EB Input 14 0 0xFFFFFFFF 1 FC142 0 1

49454 0x24ED Input 15 0 0xFFFFFFFF 1 FC142 0 1

49456 0x24EF Input 16 0 0xFFFFFFFF 1 FC142 0 1

49458 0x24F1 Latching 0 1 1 FC126 0 1


49461 0x24F4 Pickup Delay 0 6000000 1 s F13 0 1

49463 0x24F6 Dropout Delay 0 6000000 1 s F13 0 1

49465 0x24F8 Relays 0 0xFFFFFFFF 1 FC198 0 1

49467 0x24FA Block 0 0xFFFFFFFF 1 FC142 0 1

49469 0x24FC Events 0 1 1 FC126 1 1

49470 0x24FD Targets 0 2 1 FC101 1 1

Breaker Failure 1 Setup

49490 0x2511 Function 0 4 1 FC262 0 1

49492 0x2513 PH Retrip Superv Pickup 50 30000 1 x CT F3 1000 1

49493 0x2514 NTRL Retrip Superv Pickup

50 30000 1 x CT F3 1000 1

49494 0x2515 Supervision 0 2 1 FC263 0 1

49495 0x2516 Breaker Closed 0 0xFFFFFFFF 1 FC142 0 1

49497 0x2518 T1 Pickup Delay 0 6000000 1 s F13 120 1

49499 0x251A T2 Pickup Delay 0 6000000 1 s F13 120 1

49501 0x251C T3 Pickup Delay 0 6000000 1 s F13 120 1

49503 0x251E Phase Highset Pickup 50 30000 1 x CT F3 1000 1

49504 0x251F Neutral Highset Pickup 50 30000 1 x CT F3 1000 1

49505 0x2520 Lowset Delay 0 6000000 1 s F13 0 1

49507 0x2522 Phase Lowset Pickup 50 30000 1 x CT F3 1000 1

49508 0x2523 Neutral Lowset Pickup 50 30000 1 x CT F3 1000 1




49515 0x252A Events 0 1 1 FC126 1 1

49516 0x252B Targets 0 2 1 FC101 1 1

Breaker Failure 1 Initiate

49530 0x2539 External Initiate 0 0xFFFFFFFF 1 FC142 0 1

49532 0x253B Initiate IN1 0 0xFFFFFFFF 1 FC142 0x802C02 1

49534 0x253D Initiate IN2 0 0xFFFFFFFF 1 FC142 0x802E02 1

49536 0x253F Initiate IN3 0 0xFFFFFFFF 1 FC142 0x803202 1

49538 0x2541 Initiate IN4 0 0xFFFFFFFF 1 FC142 0x803402 1

49540 0x2543 Initiate IN5 0 0xFFFFFFFF 1 FC142 0x803A02 1

49542 0x2545 Initiate IN6 0 0xFFFFFFFF 1 FC142 0x803C02 1

49544 0x2547 Initiate IN7 0 0xFFFFFFFF 1 FC142 0x803E02 1

49546 0x2549 Initiate IN8 0 0xFFFFFFFF 1 FC142 0x804002 1

49548 0x254B Initiate IN9 0 0xFFFFFFFF 1 FC142 0x804402 1

49550 0x254D Initiate IN10 0 0xFFFFFFFF 1 FC142 0x804C02 1

49552 0x254F Initiate IN11 0 0xFFFFFFFF 1 FC142 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



49554 0x2551 Initiate IN12 0 0xFFFFFFFF 1 FC142 0 1




Synchrocheck 1 Setup

49760 0x261F Function 0 1 1 FC126 0 1

49762 0x2621 Bus Volts Input 0x12 0x22 1 FC103A 0x12 1

49764 0x2623 Line Volts Input 0x12 0x22 1 FC103A 0x22 1

49765 0x2624 Max Freq Difference 1 500 1 Hz F2 20 1

49766 0x2625 Max Angle Difference 1 100 1 ° F0 20 1

49767 0x2626 Max Volt Difference 10 600000 1 V F10 2000 1

49769 0x2628 Max Freq Hysteresis 1 10 1 Hz F2 5 1

49773 0x262C Dead Source Perm 0 5 1 FC283 0 1

49774 0x262D Live Bus Volts Min 0 150 1 x VT F2 80 1

49775 0x262E Live Line Volts Min 0 150 1 x VT F2 80 1

49776 0x262F Dead Bus Volts Max 0 150 1 x VT F2 20 1

49777 0x2630 Dead Line Volts Max 0 150 1 x VT F2 20 1



49782 0x2635 Events 0 1 1 FC126 1 1

49783 0x2636 Targets 0 2 1 FC101 1 1

Manual Close Blocking

49820 0x265B Function 0 4 1 FC100A 0 1

49821 0x265C Manual Cls Block Interval 0 6000000 1 s F13 5000 1

49823 0x265E Block Phase IOC 1 0 1 1 FC126A 0 1

49824 0x265F Block Phase IOC 2 0 1 1 FC126A 0 1

49825 0x2660 Block Neutral IOC 1 0 1 1 FC126A 0 1

49826 0x2661 Block Neutral IOC 2 0 1 1 FC126A 0 1

49827 0x2662 Block Ground IOC 1 0 1 1 FC126A 0 1

49828 0x2663 Block Sens Ground IOC 1 0 1 1 FC126A 0 1

49829 0x2664 Block Neg Sequence IOC 1

0 1 1 FC126A 0 1

49830 0x2665 Raise Phase TOC 1 PKP 0 100 1 % F0 0 1


49832 0x2667 Raise Neutral TOC 1 PKP 0 100 1 % F0 0 1


49834 0x2669 Raise Ground TOC 1 PKP 0 100 1 % F0 0 1

49835 0x266A Raise Sens Gnd TOC 1 PKP 0 100 1 % F0 0 1

49836 0x266B Raise Neg Seq TOC 1 PKP 0 100 1 % F0 0 1

49837 0x266C Select Setting Group 0 0xFFFF 1 FC132 65535 1


49840 0x266F Events 0 1 1 FC126 1 1

49841 0x2670 Targets 0 2 1 FC101 1 1

Cold Load Pickup

49860 0x2683 Function 0 4 1 FC100A 0 1

49862 0x2685 External Initiation 0 0xFFFFFFFF 1 FC142 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



49864 0x2687 Outage T Before Cold Load

0 6000000 1 s F13 1000000 1

49866 0x2689 Cold Load T Before Reset 0 6000000 1 s F13 100000 1

49868 0x268B Block Phase IOC 1 0 1 1 FC126A 0 1

49869 0x268C Block Phase IOC 2 0 1 1 FC126A 0 1

49870 0x268D Block Neutral IOC 1 0 1 1 FC126A 0 1

49871 0x268E Block Neutral IOC 2 0 1 1 FC126A 0 1

49872 0x268F Block Ground IOC 1 0 1 1 FC126A 0 1

49873 0x2690 Block Sens Ground IOC 1 0 1 1 FC126A 0 1


0 1 1 FC126A 0 1






49880 0x2697 Raise Sens Gnd TOC 1 PKP 0 100 1 % F0 0 1

49881 0x2698 Raise Neg Seq TOC 1 PKP 0 100 1 % F0 0 1

49882 0x2699 Select Setting Group 0 0xFFFF 1 FC132 65535 1



49887 0x269E Events 0 1 1 FC126 1 1

49888 0x269F Targets 0 2 1 FC101 1 1

Undervoltage Restoration

49900 0x26AB Function 0 4 1 FC100B 0 1

49901 0x26AC Initiation 0 4 1 FC279 0 1

49903 0x26AE Minimum Voltage 0 1250 1 x VT F13 900 1

49905 0x26B0 Restore Delay 0 6000000 1 s F13 10000 1

49907 0x26B2 Incomplete Sequence Time

1 10000 1 min F0 100 1

49908 0x26B3 Synchrocheck Supervision

0 2 1 FC280 0 1

49909 0x26B4 Relays 0 0xFFFFFFFF 1 FC198 0 1

49911 0x26B6 Block 0 0xFFFFFFFF 1 FC142 0 1

49913 0x26B8 Events 0 1 1 FC126 1 1

49914 0x26B9 Targets 0 2 1 FC101 1 1

Underfrequency Restoration

49930 0x26C9 Name 0 65535 1 F60_26 UF Restore 26

49943 0x26D6 Function 0 4 1 FC100B 0 1

49944 0x26D7 Initiation 0 5 1 FC287 0 1

49946 0x26D9 Minimum Voltage 0 1250 1 x VT F13 900 1

49948 0x26DB Minimum Frequency 2000 6500 1 Hz F2 5990 1

49949 0x26DC Restore Delay 0 6000000 1 s F13 10000 1

49951 0x26DE Incomplete Sequence Time

1 10000 1 min F0 100 1

49952 0x26DF Synchrocheck Supervision

0 2 1 FC280 0 1


Modbus Address

Hex Address


Factory Default

Size in Words




49957 0x26E4 Events 0 1 1 FC126 1 1

49958 0x26E5 Targets 0 2 1 FC101 1 1

Transfer Function Selection

49970 0x26F1 Function 0 3 1 FC284 0 1

Transfer Function Incomer 1

49990 0x2705 Inc 1 BKR Connected 0 0xFFFFFFFF 1 FC142 0 1

49992 0x2707 Inc 1 BKR Select To Trip 0 0xFFFFFFFF 1 FC142 0 1

49994 0x2709 Delay Select To Trip 0 6000000 1 s F13 0 1

49996 0x270B Inc 2 BKR Conn&Closed 0 0xFFFFFFFF 1 FC142 0 1

49998 0x270D Tie-BKR Conn&Closed 0 0xFFFFFFFF 1 FC142 0 1

50000 0x270F Tie-BKR Connected 0 0xFFFFFFFF 1 FC142 0 1

50002 0x2711 Inc 1 Transformer Lockout

0 0xFFFFFFFF 1 FC142 0 1

50004 0x2713 Inc 1 Source Trip 0 0xFFFFFFFF 1 FC142 0 1

50006 0x2715 Timed UV On This Source 0 0xFFFFFFFF 1 FC142 0 1

50008 0x2717 Block Trip On Double Loss 0 1 1 FC126 0 1

50009 0x2718 Inc 1 BKR Closed 0 0xFFFFFFFF 1 FC142 0 1

50011 0x271A UV On Other Source 0 0xFFFFFFFF 1 FC142 0 1

50013 0x271C Delay Other Source 0 6000000 1 s F13 3000 1

50015 0x271E Inst UV On This Source 0 0xFFFFFFFF 1 FC142 0 1

50017 0x2720 Delay This Source 0 6000000 1 s F13 1000 1

50019 0x2722 Fault Current Pickup In 1 0 0xFFFFFFFF 1 FC142 0 1




50027 0x272A Fault Current Pickup In 5 0 0xFFFFFFFF 1 FC142 0 1

50029 0x272C Fault Current Pickup In 6 0 0xFFFFFFFF 1 FC142 0 1

50031 0x272E Block Transfer 0 0xFFFFFFFF 1 FC142 0 1

50033 0x2730 Events 0 1 1 FC126 1 1

50034 0x2731 Targets 0 2 1 FC101 1 1

Transfer Function Incomer 2

50035 0x2732 Inc 2 BKR Connected 0 0xFFFFFFFF 1 FC142 0 1

50037 0x2734 Inc 2 BKR Select To Trip 0 0xFFFFFFFF 1 FC142 0 1

50039 0x2736 Delay Select To Trip 0 6000000 1 s F13 0 1

50041 0x2738 Inc 1 BKR Conn&Closed 0 0xFFFFFFFF 1 FC142 0 1

50043 0x273A Tie-BKR Conn&Closed 0 0xFFFFFFFF 1 FC142 0 1

50045 0x273C Tie-BKR Connected 0 0xFFFFFFFF 1 FC142 0 1

50047 0x273E Inc 2 Transformer Lockout


50049 0x2740 Inc 2 Source Trip 0 0xFFFFFFFF 1 FC142 0 1

50051 0x2742 Timed UV On This Source 0 0xFFFFFFFF 1 FC142 0 1

50053 0x2744 Block Trip On Double Loss 0 1 1 FC126 0 1

50054 0x2745 Inc 2 BKR Closed 0 0xFFFFFFFF 1 FC142 0 1

50056 0x2747 UV On Other Source 0 0xFFFFFFFF 1 FC142 0 1

50058 0x2749 Delay Other Source 0 6000000 1 s F13 3000 1

50060 0x274B Inst UV On This Source 0 0xFFFFFFFF 1 FC142 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



50062 0x274D Delay This Source 0 6000000 1 s F13 1000 1

50064 0x274F Fault Current Pickup In 1 0 0xFFFFFFFF 1 FC142 0 1






50076 0x275B Block Transfer 0 0xFFFFFFFF 1 FC142 0 1

50078 0x275D Events 0 1 1 FC126 1 1

50079 0x275E Targets 0 2 1 FC101 1 1

Transfer Function Bus Tie

50090 0x2769 Tie-BKR Connected 0 0xFFFFFFFF 1 FC142 0 1

50092 0x276B Tie-BKR Select To Trip 0 0xFFFFFFFF 1 FC142 0 1

50094 0x276D Delay Select To Trip 0 6000000 1 s F13 0 1

50096 0x276F Inc 1 BKR Conn&Closed 0 0xFFFFFFFF 1 FC142 0 1

50098 0x2771 Inc 2 BKR Conn&Closed 0 0xFFFFFFFF 1 FC142 0 1

50100 0x2773 Tie-BKR Closed 0 0xFFFFFFFF 1 FC142 0 1

50102 0x2775 Close Tie-BKR from Inc 1 0 0xFFFFFFFF 1 FC142 0 1

50104 0x2777 Close Tie-BKR from Inc 2 0 0xFFFFFFFF 1 FC142 0 1

50107 0x277A Block Transfer 0 0xFFFFFFFF 1 FC142 0 1

50109 0x277C Events 0 1 1 FC126 1 1

50110 0x277D Targets 0 2 1 FC101 1 1

AR1 Setup

50130 0x2791 Function 0 1 1 FC126 0 1

50131 0x2792 Maximum Number Shots 1 4 1 F0 1 1

50132 0x2793 Block/Cancel 0 0xFFFFFFFF 1 FC142 0 1

50134 0x2795 Manual Close 0 0xFFFFFFFF 1 FC142 0 1

50136 0x2797 Blk Time Upon Manual Cls 0 6000000 1 s F13 10000 1

50138 0x2799 Breaker Closed 0 0xFFFFFFFF 1 FC142 0 1

50140 0x279B Breaker Opened 0 0xFFFFFFFF 1 FC142 0 1

50142 0x279D Rst Lockout On Manual Cls

0 1 1 FC126A 0 1

50143 0x279E Rst Lockout If Bkr Closed 0 1 1 FC126A 0 1

50144 0x279F Rst Lockout Delay 0 6000000 1 s F13 60000 1

50146 0x27A1 Manual Reset From Lockout


50148 0x27A3 Add Delay 0 0xFFFFFFFF 1 FC142 0 1

50150 0x27A5 Delay 0 6000000 1 s F13 0 1

50152 0x27A7 Incomplete Sequence Time

0 6000000 1 s F13 5000 1

50154 0x27A9 Reset Time 0 6000000 1 s F13 60000 1

50156 0x27AB Reduce Maximum To 1 0 0xFFFFFFFF 1 FC142 0 1

50158 0x27AD Reduce Maximum To 2 0 0xFFFFFFFF 1 FC142 0 1

50160 0x27AF Reduce Maximum To 3 0 0xFFFFFFFF 1 FC142 0 1

50162 0x27B1 Synchrocheck Superv 0 2 1 FC280 0 1

50163 0x27B2 Enabled Output Relays 0 0xFFFFFFFF 1 FC198 0 1

50165 0x27B4 In Progress Output Relays 0 0xFFFFFFFF 1 FC198 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



50167 0x27B6 Lockout Output Relays 0 0xFFFFFFFF 1 FC198 0 1

50169 0x27B8 Setup Events 0 1 1 FC126 1 1

AR1 Initiate

50180 0x27C3 External Initiate 0 0xFFFFFFFF 1 FC142 0 1

50182 0x27C5 Initiate IN1 0 0xFFFFFFFF 1 FC142 0x802C02 1

50184 0x27C7 Initiate IN2 0 0xFFFFFFFF 1 FC142 0x802E02 1

50186 0x27C9 Initiate IN3 0 0xFFFFFFFF 1 FC142 0x803202 1

50188 0x27CB Initiate IN4 0 0xFFFFFFFF 1 FC142 0x803402 1

50190 0x27CD Initiate IN5 0 0xFFFFFFFF 1 FC142 0x803A02 1

50192 0x27CF Initiate IN6 0 0xFFFFFFFF 1 FC142 0x803C02 1

50194 0x27D1 Initiate IN7 0 0xFFFFFFFF 1 FC142 0x803E02 1

50196 0x27D3 Initiate IN8 0 0xFFFFFFFF 1 FC142 0x804002 1

50198 0x27D5 Initiate IN9 0 0xFFFFFFFF 1 FC142 0x804402 1

50200 0x27D7 Initiate IN10 0 0xFFFFFFFF 1 FC142 0x804C02 1

50202 0x27D9 Initiate IN11 0 0xFFFFFFFF 1 FC142 0 1

50204 0x27DB Initiate IN12 0 0xFFFFFFFF 1 FC142 0 1

50206 0x27DD Initiate IN13 0 0xFFFFFFFF 1 FC142 0 1

50208 0x27DF Initiate IN14 0 0xFFFFFFFF 1 FC142 0 1

50210 0x27E1 Initiate IN15 0 0xFFFFFFFF 1 FC142 0 1

AR1 Shot 1

50230 0x27F5 Dead Time 1 100 6000000 1 s F13 1000 1

50232 0x27F7 Block Phase IOC 1 0 1 1 FC126A 0 1

50233 0x27F8 Block Phase IOC 2 0 1 1 FC126A 0 1

50234 0x27F9 Block Neutral IOC 1 0 1 1 FC126A 0 1

50235 0x27FA Block Neutral IOC 2 0 1 1 FC126A 0 1

50236 0x27FB Block Ground IOC 1 0 1 1 FC126A 0 1

50237 0x27FC Block Sens Ground IOC 1 0 1 1 FC126A 0 1

50238 0x27FD Block Neg Sequence IOC 1

0 1 1 FC126A 0 1

50239 0x27FE Raise Phase TOC 1 PKP 0 100 1 % F0 0 1

50240 0x27FF Raise Phase TOC 2 PKP 0 100 1 % F0 0 1







AR1 Shot 2

50247 0x2806 Dead Time 2 100 6000000 1 s F13 2000 1

50249 0x2808 Block Phase IOC 1 0 1 1 FC126A 0 1


50251 0x280A Block Neutral IOC 1 0 1 1 FC126A 0 1

50252 0x280B Block Neutral IOC 2 0 1 1 FC126A 0 1

50253 0x280C Block Ground IOC 1 0 1 1 FC126A 0 1

50254 0x280D Block Sens Ground IOC 1 0 1 1 FC126A 0 1

50255 0x280E Block Neg Sequence IOC 1

0 1 1 FC126A 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



50256 0x280F Raise Phase TOC 1 PKP 0 100 1 % F0 0 1








AR1 Shot 3

50264 0x2817 Dead Time 3 100 6000000 1 s F13 3000 1


50267 0x281A Block Phase IOC 2 0 1 1 FC126A 0 1

50268 0x281B Block Neutral IOC 1 0 1 1 FC126A 0 1

50269 0x281C Block Neutral IOC 2 0 1 1 FC126A 0 1

50270 0x281D Block Ground IOC 1 0 1 1 FC126A 0 1

50271 0x281E Block Sens Ground IOC 1 0 1 1 FC126A 0 1

50272 0x281F Block Neg Sequence IOC 1

0 1 1 FC126A 0 1









AR1 Shot 4

50281 0x2828 Dead Time 4 100 6000000 1 s F13 4000 1

50283 0x282A Block Phase IOC 1 0 1 1 FC126A 0 1

50284 0x282B Block Phase IOC 2 0 1 1 FC126A 0 1

50285 0x282C Block Neutral IOC 1 0 1 1 FC126A 0 1

50286 0x282D Block Neutral IOC 2 0 1 1 FC126A 0 1

50287 0x282E Block Ground IOC 1 0 1 1 FC126A 0 1

50288 0x282F Block Sens Ground IOC 1 0 1 1 FC126A 0 1


0 1 1 FC126A 0 1









AR1 Rate Supervision

50310 0x2845 Function 0 2 1 FC267 0 1

50311 0x2846 Maximum Rate Per Hour 1 50 1 /hour F0 25 1

Modbus Address

Hex Address


Factory Default

Size in Words




50314 0x2849 Events 0 1 1 FC126 1 1

AR1 Current Supervision

50330 0x2859 Function 0 1 1 FC126 0 1

50332 0x285B 3 Shots For Current Above 50 30000 1 x CT F13 17000 1

50334 0x285D 2 Shots For Current Above 50 30000 1 x CT F13 18000 1

50336 0x285F 1 Shots For Current Above 50 30000 1 x CT F13 19000 1

50338 0x2861 Lockout For Current Above

50 30000 1 x CT F13 20000 1

50340 0x2863 Lockout 0 1 1 FC126 0 1

50341 0x2864 Events 0 1 1 FC126 1 1

AR1 Zone Coordination

50360 0x2877 Function 0 1 1 FC126 0 1

50362 0x2879 Phase Current Pickup 50 30000 1 x CT F13 1000 1

50364 0x287B Neutral Current Pickup 50 30000 1 x CT F13 300 1

50366 0x287D Pickup Time 0 6000000 1 s F13 20 1

50368 0x287F Dropout Time 0 6000000 1 s F13 20 1

50370 0x2881 Events 0 1 1 FC126 1 1

VT Fuse Fail 1

50663 0x29A6 Function 0 4 1 FC100A 0 1

50665 0x29A8 Relays 0 0xFFFFFFFF 1 FC198 0 1

50667 0x29AA Events 0 1 1 FC126 1 1

50668 0x29AB Targets 0 2 1 FC101 1 1

VT Fuse Fail 2

50682 0x29B9 Function 0 4 1 FC100A 0 1

50684 0x29BB Relays 0 0xFFFFFFFF 1 FC198 0 1

50686 0x29BD Events 0 1 1 FC126 1 1

50687 0x29BE Targets 0 2 1 FC101 1 1

Security

50930 0x2AB1 Login 0 8 1 FC252 0 1

50931 0x2AB2 Logout 0 1 1 FC126B 0 1

50932 0x2AB3 Factory Service Mode 0 1 1 FC126 0 1

50933 0x2AB4 Load Factory Defaults 0 1 1 FC126B 0 1

50934 0x2AB5 Access Lockout 0 99 1 F0 3 1

50935 0x2AB6 Access Lockout Period 0 9999 1 min F0 3 1

50936 0x2AB7 Access Timeout 0 999 1 min F0 5 1

50937 0x2AB8 Password Complexity 0 1 1 FC126 0 1

50938 0x2AB9 Setpoint Access 0 0xFFFFFFFF 1 FC142 0 1

50940 0x2ABB Device Authentication 0 1 1 FC126B 1 1

50945 0x2AC0 Force Observer Logoff 0 1 1 FC126B 0 1

Supervisory Settings

51101 0x2B5C Lock Relay 0 1 1 FC126 0 1

51102 0x2B5D Administrator Forced Logout

0 1 1 FC126B 0 1

51103 0x2B5E Operator Forced Logout 0 1 1 FC126B 0 1

51104 0x2B5F Clear Security Data 0 1 1 FC126B 0 1

Security - Radius

Modbus Address

Hex Address


Factory Default

Size in Words



51200 0x2BBF Primary Radius IP Address 0 0xDFFFFFFE 1 F70 0 1

51203 0x2BC2 Primary Accounting Port 0 65535 1 F0 0 1

51204 0x2BC3 Vendor ID 0 65535 1 F0 2910 1

51205 0x2BC4 Radius Authentication Method

0 0 1 FC341 0 1

51206 0x2BC5 Timeout 0 9999 1 F0 10 1

51207 0x2BC6 Retries 0 9999 1 F0 3 1

Modbus File Transfer Mode

52544 0x30FF Transfer Mode 0 1 1 FC324 0 1

Modbus File Transfer

52545 0x3100 Name of File To Read 0 65535 1 F60_80 Filename 80

Modbus File Transfer Values

52801 0x3200 Char Position in Block 0 4294967295 1 F10 0 1

52803 0x3202 Data Block Size 0 65535 1 F0 0 1

52804 0x3203 DataBlock 0 0 65535 1 F0 0 1

52805 0x3204 DataBlock 1 0 65535 1 F0 0 1

52806 0x3205 DataBlock 2 0 65535 1 F0 0 1

52807 0x3206 DataBlock 3 0 65535 1 F0 0 1

52808 0x3207 DataBlock 4 0 65535 1 F0 0 1

52809 0x3208 DataBlock 5 0 65535 1 F0 0 1

52810 0x3209 DataBlock 6 0 65535 1 F0 0 1

52811 0x320A DataBlock 7 0 65535 1 F0 0 1

52812 0x320B DataBlock 8 0 65535 1 F0 0 1

52813 0x320C DataBlock 9 0 65535 1 F0 0 1

52814 0x320D DataBlock 10 0 65535 1 F0 0 1

52815 0x320E DataBlock 11 0 65535 1 F0 0 1

52816 0x320F DataBlock 12 0 65535 1 F0 0 1

52817 0x3210 DataBlock 13 0 65535 1 F0 0 1

52818 0x3211 DataBlock 14 0 65535 1 F0 0 1

52819 0x3212 DataBlock 15 0 65535 1 F0 0 1

52820 0x3213 DataBlock 16 0 65535 1 F0 0 1

52821 0x3214 DataBlock 17 0 65535 1 F0 0 1

52822 0x3215 DataBlock 18 0 65535 1 F0 0 1

52823 0x3216 DataBlock 19 0 65535 1 F0 0 1

52824 0x3217 DataBlock 20 0 65535 1 F0 0 1

52825 0x3218 DataBlock 21 0 65535 1 F0 0 1

52826 0x3219 DataBlock 22 0 65535 1 F0 0 1

52827 0x321A DataBlock 23 0 65535 1 F0 0 1

52828 0x321B DataBlock 24 0 65535 1 F0 0 1

52829 0x321C DataBlock 25 0 65535 1 F0 0 1

52830 0x321D DataBlock 26 0 65535 1 F0 0 1

52831 0x321E DataBlock 27 0 65535 1 F0 0 1

52832 0x321F DataBlock 28 0 65535 1 F0 0 1

52833 0x3220 DataBlock 29 0 65535 1 F0 0 1

52834 0x3221 DataBlock 30 0 65535 1 F0 0 1

52835 0x3222 DataBlock 31 0 65535 1 F0 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



52836 0x3223 DataBlock 32 0 65535 1 F0 0 1

52837 0x3224 DataBlock 33 0 65535 1 F0 0 1

52838 0x3225 DataBlock 34 0 65535 1 F0 0 1

52839 0x3226 DataBlock 35 0 65535 1 F0 0 1

52840 0x3227 DataBlock 36 0 65535 1 F0 0 1

52841 0x3228 DataBlock 37 0 65535 1 F0 0 1

52842 0x3229 DataBlock 38 0 65535 1 F0 0 1

52843 0x322A DataBlock 39 0 65535 1 F0 0 1

52844 0x322B DataBlock 40 0 65535 1 F0 0 1

52845 0x322C DataBlock 41 0 65535 1 F0 0 1

52846 0x322D DataBlock 42 0 65535 1 F0 0 1

52847 0x322E DataBlock 43 0 65535 1 F0 0 1

52848 0x322F DataBlock 44 0 65535 1 F0 0 1

52849 0x3230 DataBlock 45 0 65535 1 F0 0 1

52850 0x3231 DataBlock 46 0 65535 1 F0 0 1

52851 0x3232 DataBlock 47 0 65535 1 F0 0 1

52852 0x3233 DataBlock 48 0 65535 1 F0 0 1

52853 0x3234 DataBlock 49 0 65535 1 F0 0 1

52854 0x3235 DataBlock 50 0 65535 1 F0 0 1

52855 0x3236 DataBlock 51 0 65535 1 F0 0 1

52856 0x3237 DataBlock 52 0 65535 1 F0 0 1

52857 0x3238 DataBlock 53 0 65535 1 F0 0 1

52858 0x3239 DataBlock 54 0 65535 1 F0 0 1

52859 0x323A DataBlock 55 0 65535 1 F0 0 1

52860 0x323B DataBlock 56 0 65535 1 F0 0 1

52861 0x323C DataBlock 57 0 65535 1 F0 0 1

52862 0x323D DataBlock 58 0 65535 1 F0 0 1

52863 0x323E DataBlock 59 0 65535 1 F0 0 1

52864 0x323F DataBlock 60 0 65535 1 F0 0 1

52865 0x3240 DataBlock 61 0 65535 1 F0 0 1

52866 0x3241 DataBlock 62 0 65535 1 F0 0 1

52867 0x3242 DataBlock 63 0 65535 1 F0 0 1

52868 0x3243 DataBlock 64 0 65535 1 F0 0 1

52869 0x3244 DataBlock 65 0 65535 1 F0 0 1

52870 0x3245 DataBlock 66 0 65535 1 F0 0 1

52871 0x3246 DataBlock 67 0 65535 1 F0 0 1

52872 0x3247 DataBlock 68 0 65535 1 F0 0 1

52873 0x3248 DataBlock 69 0 65535 1 F0 0 1

52874 0x3249 DataBlock 70 0 65535 1 F0 0 1

52875 0x324A DataBlock 71 0 65535 1 F0 0 1

52876 0x324B DataBlock 72 0 65535 1 F0 0 1

52877 0x324C DataBlock 73 0 65535 1 F0 0 1

52878 0x324D DataBlock 74 0 65535 1 F0 0 1

52879 0x324E DataBlock 75 0 65535 1 F0 0 1

52880 0x324F DataBlock 76 0 65535 1 F0 0 1

52881 0x3250 DataBlock 77 0 65535 1 F0 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



52882 0x3251 DataBlock 78 0 65535 1 F0 0 1

52883 0x3252 DataBlock 79 0 65535 1 F0 0 1

52884 0x3253 DataBlock 80 0 65535 1 F0 0 1

52885 0x3254 DataBlock 81 0 65535 1 F0 0 1

52886 0x3255 DataBlock 82 0 65535 1 F0 0 1

52887 0x3256 DataBlock 83 0 65535 1 F0 0 1

52888 0x3257 DataBlock 84 0 65535 1 F0 0 1

52889 0x3258 DataBlock 85 0 65535 1 F0 0 1

52890 0x3259 DataBlock 86 0 65535 1 F0 0 1

52891 0x325A DataBlock 87 0 65535 1 F0 0 1

52892 0x325B DataBlock 88 0 65535 1 F0 0 1

52893 0x325C DataBlock 89 0 65535 1 F0 0 1

52894 0x325D DataBlock 90 0 65535 1 F0 0 1

52895 0x325E DataBlock 91 0 65535 1 F0 0 1

52896 0x325F DataBlock 92 0 65535 1 F0 0 1

52897 0x3260 DataBlock 93 0 65535 1 F0 0 1

52898 0x3261 DataBlock 94 0 65535 1 F0 0 1

52899 0x3262 DataBlock 95 0 65535 1 F0 0 1

52900 0x3263 DataBlock 96 0 65535 1 F0 0 1

52901 0x3264 DataBlock 97 0 65535 1 F0 0 1

52902 0x3265 DataBlock 98 0 65535 1 F0 0 1

52903 0x3266 DataBlock 99 0 65535 1 F0 0 1

52904 0x3267 DataBlock 100 0 65535 1 F0 0 1

52905 0x3268 DataBlock 101 0 65535 1 F0 0 1

52906 0x3269 DataBlock 102 0 65535 1 F0 0 1

52907 0x326A DataBlock 103 0 65535 1 F0 0 1

52908 0x326B DataBlock 104 0 65535 1 F0 0 1

52909 0x326C DataBlock 105 0 65535 1 F0 0 1

52910 0x326D DataBlock 106 0 65535 1 F0 0 1

52911 0x326E DataBlock 107 0 65535 1 F0 0 1

52912 0x326F DataBlock 108 0 65535 1 F0 0 1

52913 0x3270 DataBlock 109 0 65535 1 F0 0 1

52914 0x3271 DataBlock 110 0 65535 1 F0 0 1

52915 0x3272 DataBlock 111 0 65535 1 F0 0 1

52916 0x3273 DataBlock 112 0 65535 1 F0 0 1

52917 0x3274 DataBlock 113 0 65535 1 F0 0 1

52918 0x3275 DataBlock 114 0 65535 1 F0 0 1

52919 0x3276 DataBlock 115 0 65535 1 F0 0 1

52920 0x3277 DataBlock 116 0 65535 1 F0 0 1

52921 0x3278 DataBlock 117 0 65535 1 F0 0 1

52922 0x3279 DataBlock 118 0 65535 1 F0 0 1

52923 0x327A DataBlock 119 0 65535 1 F0 0 1

52924 0x327B DataBlock 120 0 65535 1 F0 0 1

52925 0x327C DataBlock 121 0 65535 1 F0 0 1

Phase TOC 1

52953 0x3298 Function 0 4 1 FC100 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



52955 0x329A Input 0 1 1 FC256 0 1

52956 0x329B Pickup 50 30000 1 x CT F13 1000 1

52958 0x329D Curve 0 21 1 FC161 2 1

52959 0x329E TDM 5 60000 1 F2 100 1

52960 0x329F Reset 0 1 1 FC166 0 1

52961 0x32A0 Voltage Restraint 0 1 1 FC126 0 1

52962 0x32A1 Direction 0 2 1 FC164 0 1



52967 0x32A6 Events 0 1 1 FC126 1 1

52968 0x32A7 Targets 0 2 1 FC101 1 1

Phase TOC 2

52986 0x32B9 Function 0 4 1 FC100 0 1

52988 0x32BB Input 0 1 1 FC256 0 1

52989 0x32BC Pickup 50 30000 1 x CT F13 1000 1

52991 0x32BE Curve 0 21 1 FC161 2 1

52992 0x32BF TDM 5 60000 1 F2 100 1

52993 0x32C0 Reset 0 1 1 FC166 0 1

52994 0x32C1 Voltage Restraint 0 1 1 FC126 0 1

52995 0x32C2 Direction 0 2 1 FC164 0 1


52998 0x32C5 Block 0 0xFFFFFFFF 1 FC142 0 1

53000 0x32C7 Events 0 1 1 FC126 1 1

53001 0x32C8 Targets 0 2 1 FC101 1 1

Phase IOC 1

53063 0x3306 Function 0 4 1 FC100 0 1

53065 0x3308 Input 0 1 1 FC256 0 1

53066 0x3309 Pickup 50 30000 1 x CT F13 1000 1

53068 0x330B Direction 0 2 1 FC164 0 1

53069 0x330C Pickup Delay 0 6000000 1 s F13 0 1

53071 0x330E Dropout Delay 0 6000000 1 s F13 0 1



53077 0x3314 Events 0 1 1 FC126 1 1

53078 0x3315 Targets 0 2 1 FC101 1 1

Phase IOC 2

53096 0x3327 Function 0 4 1 FC100 0 1

53098 0x3329 Input 0 1 1 FC256 0 1

53099 0x332A Pickup 50 30000 1 x CT F13 1000 1

53101 0x332C Direction 0 2 1 FC164 0 1

53102 0x332D Pickup Delay 0 6000000 1 s F13 0 1

53104 0x332F Dropout Delay 0 6000000 1 s F13 0 1



53110 0x3335 Events 0 1 1 FC126 1 1

53111 0x3336 Targets 0 2 1 FC101 1 1

Modbus Address

Hex Address


Factory Default

Size in Words



Phase DirOC

53173 0x3374 Function 0 1 1 FC126 0 1

53175 0x3376 ECA 0 359 1 ° F0 30 1

53176 0x3377 Polarizing V Threshold 50 3000 1 x VT F3 700 1

53177 0x3378 REV When V Mem Exp 0 1 1 FC126B 0 1


53180 0x337B Events 0 1 1 FC126 1 1

53181 0x337C Targets 0 2 1 FC101 1 1

Neutral TOC 1

53213 0x339C Function 0 4 1 FC100 0 1

53215 0x339E Input 0 1 1 FC256 0 1

53216 0x339F Pickup 50 30000 1 x CT F13 1000 1

53218 0x33A1 Curve 0 21 1 FC161 2 1

53219 0x33A2 TDM 5 60000 1 F2 100 1

53220 0x33A3 Reset 0 1 1 FC265 0 1

53221 0x33A4 Direction 0 2 1 FC164 0 1



53226 0x33A9 Events 0 1 1 FC126 1 1

53227 0x33AA Targets 0 2 1 FC101 1 1

Neutral TOC 2

53245 0x33BC Function 0 4 1 FC100 0 1

53247 0x33BE Input 0 1 1 FC256 0 1

53248 0x33BF Pickup 50 30000 1 x CT F13 1000 1

53250 0x33C1 Curve 0 21 1 FC161 2 1

53251 0x33C2 TDM 5 60000 1 F2 100 1

53252 0x33C3 Reset 0 1 1 FC265 0 1

53253 0x33C4 Direction 0 2 1 FC164 0 1



53258 0x33C9 Events 0 1 1 FC126 1 1

53259 0x33CA Targets 0 2 1 FC101 1 1

Neutral IOC 1

53293 0x33EC Function 0 4 1 FC100 0 1

53296 0x33EF Pickup 50 30000 1 x CT F13 1000 1

53298 0x33F1 Direction 0 2 1 FC164 0 1



53303 0x33F6 Relays 0 0xFFFFFFFF 1 FC198 0 1

53305 0x33F8 Block 0 0xFFFFFFFF 1 FC142 0 1

53307 0x33FA Events 0 1 1 FC126 1 1

53308 0x33FB Targets 0 2 1 FC101 1 1

Neutral IOC 2

53326 0x340D Function 0 4 1 FC100 0 1

53329 0x3410 Pickup 50 30000 1 x CT F13 1000 1

53331 0x3412 Direction 0 2 1 FC164 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



53332 0x3413 Pickup Delay 0 6000000 1 s F13 0 1




53340 0x341B Events 0 1 1 FC126 1 1

53341 0x341C Targets 0 2 1 FC101 1 1

Neutral Directional OC

53373 0x343C Function 0 1 1 FC126 0 1

53375 0x343E Polarizing Mode 1 3 1 FC156 1 1

53376 0x343F Polarizing Voltage 0 1 1 FC272 0 1

53377 0x3440 Pos-Seq Restraint 0 500 1 F3 63 1

53379 0x3442 Forward ECA -90 90 1 ° F20 75 1

53380 0x3443 Forward Limit Angle 40 90 1 ° F0 90 1

53381 0x3444 Forward Pickup 50 30000 1 x CT F3 50 1

53382 0x3445 Reverse Limit Angle 40 90 1 ° F0 90 1

53383 0x3446 Reverse Pickup 50 30000 1 x CT F3 50 1


53386 0x3449 Events 0 1 1 FC126 1 1

53387 0x344A Targets 0 2 1 FC101 1 1

Ground TOC 1

53413 0x3464 Function 0 4 1 FC100 0 1

53415 0x3466 Input 0 1 1 FC256 0 1

53416 0x3467 Pickup 50 30000 1 x CT F13 1000 1

53418 0x3469 Curve 0 21 1 FC161 2 1

53419 0x346A TDM 5 60000 1 F2 100 1

53420 0x346B Reset 0 1 1 FC265 0 1

53421 0x346C Direction 0 2 1 FC164 0 1



53426 0x3471 Events 0 1 1 FC126 1 1

53427 0x3472 Targets 0 2 1 FC101 1 1

Ground IOC 1

53553 0x34F0 Function 0 4 1 FC100 0 1

53556 0x34F3 Pickup 50 30000 1 x CT F13 1000 1

53558 0x34F5 Direction 0 2 1 FC164 0 1



53563 0x34FA Relays 0 0xFFFFFFFF 1 FC198 0 1

53565 0x34FC Block 0 0xFFFFFFFF 1 FC142 0 1

53567 0x34FE Events 0 1 1 FC126 1 1

53568 0x34FF Targets 0 2 1 FC101 1 1

Ground Directional OC

53703 0x3586 Function 0 1 1 FC126 0 1

53705 0x3588 Polarizing Mode 1 3 1 FC156 1 1

53706 0x3589 Polarizing Voltage 0 1 1 FC272 0 1

53708 0x358B Forward ECA -90 90 1 ° F20 75 1

Modbus Address

Hex Address


Factory Default

Size in Words



53709 0x358C Forward Limit Angle 40 90 1 ° F0 90 1

53710 0x358D Forward Pickup 50 30000 1 x CT F3 50 1

53711 0x358E Reverse Limit Angle 40 90 1 ° F0 90 1

53712 0x358F Reverse Pickup 50 30000 1 x CT F3 50 1


53715 0x3592 Events 0 1 1 FC126 1 1

53716 0x3593 Targets 0 2 1 FC101 1 1

Sensitive Ground TOC 1

53743 0x35AE Function 0 4 1 FC100 0 1

53745 0x35B0 Input 0 1 1 FC256 0 1

53746 0x35B1 Pickup 5 3000 1 x CT F13 1000 1

53748 0x35B3 Curve 0 21 1 FC161 2 1

53749 0x35B4 TDM 5 60000 1 F2 100 1

53750 0x35B5 Reset 0 1 1 FC265 0 1

53751 0x35B6 Direction 0 2 1 FC164 0 1



53756 0x35BB Events 0 1 1 FC126 1 1

53757 0x35BC Targets 0 2 1 FC101 1 1

Sensitive Ground TOC 2

53775 0x35CE Function 0 4 1 FC100 0 1

53777 0x35D0 Input 0 1 1 FC256 0 1

53778 0x35D1 Pickup 5 3000 1 x CT F13 1000 1

53780 0x35D3 Curve 0 21 1 FC161 2 1

53781 0x35D4 TDM 5 60000 1 F2 100 1

53782 0x35D5 Reset 0 1 1 FC265 0 1

53783 0x35D6 Direction 0 2 1 FC164 0 1



53788 0x35DB Events 0 1 1 FC126 1 1

53789 0x35DC Targets 0 2 1 FC101 1 1

Sensitive Ground IOC 1

53823 0x35FE Function 0 4 1 FC100 0 1

53826 0x3601 Pickup 5 3000 1 x CT F13 1000 1

53828 0x3603 Direction 0 2 1 FC164 0 1

53829 0x3604 Pickup Delay 0 6000000 1 s F13 0 1



53835 0x360A Block 0 0xFFFFFFFF 1 FC142 0 1

53837 0x360C Events 0 1 1 FC126 1 1

53838 0x360D Targets 0 2 1 FC101 1 1

Restricted Ground Fault 1

53903 0x364E Function 0 4 1 FC100 0 1

53905 0x3650 Pickup 50 30000 1 x CT F3 300 1

53906 0x3651 Slope 0 100 1 % F0 50 1

53907 0x3652 Pickup Delay 0 6000000 1 s F13 100 1

Modbus Address

Hex Address


Factory Default

Size in Words



53909 0x3654 Gnd Curr Superv 0 1 1 FC126 0 1

53910 0x3655 Gnd Curr Superv Level 50 30000 1 x CT F3 300 1



53915 0x365A Events 0 1 1 FC126 1 1

53916 0x365B Targets 0 2 1 FC101 1 1

Negative Sequence TOC 1

54013 0x36BC Function 0 4 1 FC100 0 1

54015 0x36BE Pickup 50 30000 1 x CT F13 1000 1

54017 0x36C0 Curve 0 21 1 FC161 2 1

54018 0x36C1 TDM 5 60000 1 F2 100 1

54019 0x36C2 Reset 0 1 1 FC265 0 1

54020 0x36C3 Direction 0 2 1 FC164 0 1



54025 0x36C8 Events 0 1 1 FC126 1 1

54026 0x36C9 Targets 0 2 1 FC101 1 1

Negative Sequence IOC 1

54093 0x370C Function 0 4 1 FC100 0 1

54096 0x370F Pickup 50 30000 1 x CT F13 1000 1

54098 0x3711 Direction 0 2 1 FC164 0 1

54099 0x3712 Pickup Delay 0 6000000 1 s F13 0 1




54107 0x371A Events 0 1 1 FC126 1 1

54108 0x371B Targets 0 2 1 FC101 1 1

Broken Conductor

54173 0x375C Function 0 4 1 FC100 0 1

54175 0x375E I_2/I_1 Ratio 200 1000 1 % F1 200 1

54176 0x375F I_1 Min 5 100 1 x CT F2 10 1

54177 0x3760 I_1 Max 5 500 1 x CT F2 150 1

54178 0x3761 Pickup Delay 0 6000000 1 s F13 20000 1



54184 0x3767 Events 0 1 1 FC126 1 1

54185 0x3768 Targets 0 2 1 FC101 1 1

Cable Thermal Model

54200 0x3777 Function 0 4 1 FC100 0 1

54202 0x3779 Pickup 50 30000 1 x CT F13 1000 1

54204 0x377B Alarm 700 1100 1 % F1 800 1

54205 0x377C Heat Time Constant (tH) 30 6000 1 min F1 60 1

54206 0x377D Cool Time Constant (tC) 100 600 1 x tH F2 200 1

54207 0x377E Relays 0 0xFFFFFFFF 1 FC198 0 1


54211 0x3782 Events 0 1 1 FC126 1 1

Modbus Address

Hex Address


Factory Default

Size in Words



54212 0x3783 Targets 0 2 1 FC101 1 1

PUV 1

54243 0x37A2 Function 0 4 1 FC100 0 1

54246 0x37A5 Mode 0 1 1 FC260 0 1

54247 0x37A6 Pickup 0 150 1 x VT F2 100 1

54248 0x37A7 Minimum Voltage 0 150 1 x VT F2 20 1

54249 0x37A8 Phases for Operation 0 2 1 FC261 0 1

54250 0x37A9 Undervoltage Curves 0 1 1 FC131 0 1

54251 0x37AA Pickup Delay 0 6000000 1 s F13 1000 1

54253 0x37AC Relays 0 0xFFFFFFFF 1 FC198 0 1

54255 0x37AE Block 0 0xFFFFFFFF 1 FC142 0 1

54257 0x37B0 Events 0 1 1 FC126 1 1

54258 0x37B1 Targets 0 2 1 FC101 1 1

PUV 2

54276 0x37C3 Function 0 4 1 FC100 0 1

54279 0x37C6 Mode 0 1 1 FC260 0 1

54280 0x37C7 Pickup 0 150 1 x VT F2 100 1

54281 0x37C8 Minimum Voltage 0 150 1 x VT F2 20 1

54282 0x37C9 Phases for Operation 0 2 1 FC261 0 1

54283 0x37CA Undervoltage Curves 0 1 1 FC131 0 1

54284 0x37CB Pickup Delay 0 6000000 1 s F13 1000 1

54286 0x37CD Relays 0 0xFFFFFFFF 1 FC198 0 1

54288 0x37CF Block 0 0xFFFFFFFF 1 FC142 0 1

54290 0x37D1 Events 0 1 1 FC126 1 1

54291 0x37D2 Targets 0 2 1 FC101 1 1

Aux UV 1

54323 0x37F2 Function 0 4 1 FC100 0 1

54326 0x37F5 Pickup 0 150 1 x VT F2 100 1

54327 0x37F6 Minimum Voltage 0 150 1 x VT F2 20 1

54328 0x37F7 Undervoltage Curves 0 1 1 FC131 0 1


54331 0x37FA Relays 0 0xFFFFFFFF 1 FC198 0 1

54333 0x37FC Block 0 0xFFFFFFFF 1 FC142 0 1

54335 0x37FE Events 0 1 1 FC126 1 1

54336 0x37FF Targets 0 2 1 FC101 1 1

Aux UV 2

54354 0x3811 Function 0 4 1 FC100 0 1

54357 0x3814 Pickup 0 150 1 x VT F2 100 1

54358 0x3815 Minimum Voltage 0 150 1 x VT F2 20 1

54359 0x3816 Undervoltage Curves 0 1 1 FC131 0 1

54360 0x3817 Pickup Delay 0 6000000 1 s F13 1000 1


54364 0x381B Block 0 0xFFFFFFFF 1 FC142 0 1

54366 0x381D Events 0 1 1 FC126 1 1

54367 0x381E Targets 0 2 1 FC101 1 1

POV 1

Modbus Address

Hex Address


Factory Default

Size in Words



54403 0x3842 Function 0 4 1 FC100 0 1

54406 0x3845 Mode 0 1 1 FC260 0 1

54407 0x3846 Pickup 2 300 1 x VT F2 150 1

54408 0x3847 Phases for Operation 0 2 1 FC261 0 1

54409 0x3848 Pickup Delay 0 6000000 1 s F13 1000 1

54411 0x384A Dropout Delay 0 6000000 1 s F13 1000 1

54413 0x384C Relays 0 0xFFFFFFFF 1 FC198 0 1


54417 0x3850 Events 0 1 1 FC126 1 1

54418 0x3851 Targets 0 2 1 FC101 1 1

POV 2

54436 0x3863 Function 0 4 1 FC100 0 1

54439 0x3866 Mode 0 1 1 FC260 0 1

54440 0x3867 Pickup 2 300 1 x VT F2 150 1

54441 0x3868 Phases for Operation 0 2 1 FC261 0 1

54442 0x3869 Pickup Delay 0 6000000 1 s F13 1000 1

54444 0x386B Dropout Delay 0 6000000 1 s F13 1000 1



54450 0x3871 Events 0 1 1 FC126 1 1

54451 0x3872 Targets 0 2 1 FC101 1 1

Aux OV

54483 0x3892 Function 0 4 1 FC100 0 1

54486 0x3895 Pickup 0 300 1 x VT F2 150 1

54487 0x3896 Pickup Delay 0 6000000 1 s F13 1000 1




54495 0x389E Events 0 1 1 FC126 1 1

54496 0x389F Targets 0 2 1 FC101 1 1

Neutral OverVoltage 1

54523 0x38BA Function 0 4 1 FC100 0 1

54526 0x38BD Pickup 2 300 1 x VT F2 30 1

54527 0x38BE Curves 7 19 1 FC161A 7 1

54528 0x38BF Pickup Delay 0 6000000 1 s F13 1000 1

54530 0x38C1 Dropout Delay 0 6000000 1 s F13 1000 1



54536 0x38C7 Events 0 1 1 FC126 1 1

54537 0x38C8 Targets 0 2 1 FC101 1 1

Negative Sequence OverVoltage 1

54603 0x390A Function 0 4 1 FC100 0 1

54605 0x390C Pickup 0 300 1 x VT F2 100 1

54606 0x390D Pickup Delay 0 6000000 1 s F13 1000 1

54608 0x390F Dropout Delay 0 6000000 1 s F13 1000 1


Modbus Address

Hex Address


Factory Default

Size in Words




54614 0x3915 Events 0 1 1 FC126 1 1

54615 0x3916 Targets 0 2 1 FC101 1 1

Directional Power 1

54673 0x3950 Function 0 4 1 FC100 0 1

54675 0x3952 RCA 0 359 1 ° F0 0 1

54676 0x3953 Calibration 0 95 5 ° F2 0 1

54677 0x3954 Stage 1 SMIN -1200 1200 1 x Rated F23 100 1

54678 0x3955 Stage 1 Delay 0 6000000 1 s F13 500 1


54681 0x3958 Stage 2 Delay 0 6000000 1 s F13 20000 1



54687 0x395E Events 0 1 1 FC126 1 1

54688 0x395F Targets 0 2 1 FC101 1 1

Directional Power 2

54706 0x3971 Function 0 4 1 FC100 0 1

54708 0x3973 RCA 0 359 1 ° F0 0 1

54709 0x3974 Calibration 0 95 5 ° F2 0 1


54711 0x3976 Stage 1 Delay 0 6000000 1 s F13 500 1


54714 0x3979 Stage 2 Delay 0 6000000 1 s F13 20000 1

54716 0x397B Relays 0 0xFFFFFFFF 1 FC198 0 1

54718 0x397D Block 0 0xFFFFFFFF 1 FC142 0 1

54720 0x397F Events 0 1 1 FC126 1 1

54721 0x3980 Targets 0 2 1 FC101 1 1

Wattmetric Ground Fault 1

54740 0x3993 Function 0 4 1 FC100 0 1

54742 0x3995 Voltage 0 1 1 FC272A 0 1

54743 0x3996 Operating Voltage Pickup 2 300 1 x VT F2 20 1

54744 0x3997 Current 0 1 1 FC276 0 1

54745 0x3998 Operating Current Pickup 2 30000 1 x CT F3 60 1

54746 0x3999 Power Pickup 1 1200 1 CTxVT F3 100 1

54747 0x399A Reference Power Pickup 1 1200 1 CTxVT F3 500 1

54748 0x399B ECA 0 359 1 °Lag F0 0 1

54749 0x399C Power Pickup Delay 0 6000000 1 s F13 200 1

54751 0x399E Curve 5 19 1 FC161B 7 1

54752 0x399F Multiplier 1 200 1 s F2 100 1



54757 0x39A4 Events 0 1 1 FC126 1 1

54758 0x39A5 Targets 0 2 1 FC101 1 1

Underfrequency 1

54813 0x39DC Function 0 4 1 FC100 0 1

54814 0x39DD Frequency Input 0x12 0x22 1 FC103A 0x12 1

Modbus Address

Hex Address


Factory Default

Size in Words



54815 0x39DE Pickup 2000 6500 1 Hz F2 5900 1

54816 0x39DF Pickup Delay 0 6000000 1 s F13 2000 1

54818 0x39E1 Dropout Delay 0 6000000 1 s F13 2000 1


54822 0x39E5 Minimum Current 0 30000 1 x CT F13 200 1



54828 0x39EB Events 0 1 1 FC126 1 1

54829 0x39EC Targets 0 2 1 FC101 1 1

Underfrequency 2

54847 0x39FE Function 0 4 1 FC100 0 1

54848 0x39FF Frequency Input 0x12 0x22 1 FC103A 0x12 1

54849 0x3A00 Pickup 2000 6500 1 Hz F2 5900 1

54850 0x3A01 Pickup Delay 0 6000000 1 s F13 2000 1

54852 0x3A03 Dropout Delay 0 6000000 1 s F13 2000 1


54856 0x3A07 Minimum Current 0 30000 1 x CT F13 200 1


54860 0x3A0B Block 0 0xFFFFFFFF 1 FC142 0 1

54862 0x3A0D Events 0 1 1 FC126 1 1

54863 0x3A0E Targets 0 2 1 FC101 1 1

Underfrequency 3

54881 0x3A20 Function 0 4 1 FC100 0 1

54882 0x3A21 Frequency Input 0x12 0x22 1 FC103A 0x12 1

54883 0x3A22 Pickup 2000 6500 1 Hz F2 5900 1




54890 0x3A29 Minimum Current 0 30000 1 x CT F13 200 1

54892 0x3A2B Relays 0 0xFFFFFFFF 1 FC198 0 1

54894 0x3A2D Block 0 0xFFFFFFFF 1 FC142 0 1

54896 0x3A2F Events 0 1 1 FC126 1 1

54897 0x3A30 Targets 0 2 1 FC101 1 1

Underfrequency 4

54915 0x3A42 Function 0 4 1 FC100 0 1


54917 0x3A44 Pickup 2000 6500 1 Hz F2 5900 1




54924 0x3A4B Minimum Current 0 30000 1 x CT F13 200 1

54926 0x3A4D Relays 0 0xFFFFFFFF 1 FC198 0 1

54928 0x3A4F Block 0 0xFFFFFFFF 1 FC142 0 1

54930 0x3A51 Events 0 1 1 FC126 1 1

54931 0x3A52 Targets 0 2 1 FC101 1 1

Overfrequency 1

Modbus Address

Hex Address


Factory Default

Size in Words



54963 0x3A72 Function 0 4 1 FC100 0 1


54965 0x3A74 Pickup 2000 6500 1 Hz F2 6050 1






54976 0x3A7F Events 0 1 1 FC126 1 1

54977 0x3A80 Targets 0 2 1 FC101 1 1

Overfrequency 2

54995 0x3A92 Function 0 4 1 FC100 0 1


54997 0x3A94 Pickup 2000 6500 1 Hz F2 6050 1






55008 0x3A9F Events 0 1 1 FC126 1 1

55009 0x3AA0 Targets 0 2 1 FC101 1 1

Frequency Rate Of Change 1

55043 0x3AC2 Function 0 4 1 FC100 0 1

55044 0x3AC3 Frequency Input 0x12 0x22 1 FC103A 0x12 1

55045 0x3AC4 Trend 0 2 1 FC253 0 1

55046 0x3AC5 Pickup 10 1500 1 Hz/sec F2 50 1

55047 0x3AC6 Pickup Delay 0 6000000 1 s F13 2000 1

55049 0x3AC8 Minimum Frequency 2000 8000 1 Hz F2 4500 1

55050 0x3AC9 Maximum Frequency 2000 8000 1 Hz F2 6500 1

55051 0x3ACA Minimum Voltage 0 1250 1 x VT F13 700 1

55053 0x3ACC Minimum Current 0 30000 1 x CT F13 200 1

55055 0x3ACE Relays 0 0xFFFFFFFF 1 FC198 0 1

55057 0x3AD0 Block 0 0xFFFFFFFF 1 FC142 0 1

55059 0x3AD2 Events 0 1 1 FC126 1 1

55060 0x3AD3 Targets 0 2 1 FC101 1 1

Load Encroachment

55180 0x3B4B Function 0 1 1 FC126 0 1

55182 0x3B4D Minimum Voltage 0 150 1 x VT F2 20 1

55183 0x3B4E Reach 2 25000 1 ohms F2 500 1

55184 0x3B4F Angle 5 50 1 ° F0 30 1

55185 0x3B50 Pickup Delay 0 6000000 1 s F13 0 1

55187 0x3B52 Dropout Delay 0 6000000 1 s F13 0 1



55193 0x3B58 Events 0 1 1 FC126 1 1

55194 0x3B59 Targets 0 2 1 FC101 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



Negative Sequence Directional OC

55210 0x3B69 Function 0 1 1 FC126 0 1

55212 0x3B6B Pos-Seq Restraint 0 500 1 F3 63 1

55213 0x3B6C Forward ECA 0 90 1 °Lag F0 75 1

55214 0x3B6D Forward Limit Angle 40 90 1 ° F0 90 1

55215 0x3B6E Forward Pickup 50 30000 1 x CT F3 50 1

55216 0x3B6F Reverse Limit Angle 40 90 1 ° F0 90 1

55217 0x3B70 Reverse Pickup 50 30000 1 x CT F3 50 1


55220 0x3B73 Events 0 1 1 FC126 1 1

55221 0x3B74 Targets 0 2 1 FC101 1 1

Sensitive Ground Directional OC

55240 0x3B87 Function 0 1 1 FC126 0 1

55242 0x3B89 Polarizing Mode 1 3 1 FC156 1 1

55243 0x3B8A Polarizing Voltage 0 1 1 FC272 0 1

55244 0x3B8B Forward ECA -90 90 1 ° F20 75 1

55245 0x3B8C Forward Limit Angle 40 90 1 ° F0 90 1

55246 0x3B8D Forward Pickup 5 3000 1 x CT F3 50 1

55247 0x3B8E Reverse Limit Angle 40 90 1 ° F0 90 1

55248 0x3B8F Reverse Pickup 5 3000 1 x CT F3 50 1


55251 0x3B92 Events 0 1 1 FC126 1 1

55252 0x3B93 Targets 0 2 1 FC101 1 1

DNP Protocol

56080 0x3ECF DNP Channel 1 Port 0 2 1 FC239 0 1

56081 0x3ED0 DNP Channel 2 Port 0 2 1 FC239 0 1

56082 0x3ED1 DNP Address 0 65519 1 F0 65519 1

56083 0x3ED2 DNP Client Address 1 0 0xFFFFFFFF 1 F70 0 1

56085 0x3ED4 DNP Client Address 2 0 0xFFFFFFFF 1 F70 0 1

56087 0x3ED6 DNP TCP/UDP Port 1 1 65535 1 F0 20000 1

56088 0x3ED7 DNP TCP/UDP Port 2 1 65535 1 F0 20000 1

56089 0x3ED8 DNP Unsol Resp Function 0 1 1 FC126 0 1

56090 0x3ED9 DNP Unsol Resp Timeout 0 60 1 s F0 5 1

56091 0x3EDA Unsol Resp Max Retries 1 255 1 F0 10 1

56092 0x3EDB DNP Unsol Resp Dest Addr

0 65519 1 F0 1 1

56093 0x3EDC DNP Time Sync IIN Period 1 10080 1 min F0 1140 1

56094 0x3EDD DNP Message Fragment Size

30 2048 1 F0 240 1

56095 0x3EDE Object 1 Default Variation 1 2 1 FC231 2 1

56096 0x3EDF Object 2 Default Variation 1 2 1 FC232 2 1

56097 0x3EE0 Object 20 Default Variation

1 6 1 FC233 1 1


1 10 1 FC234 1 1


1 6 1 FC235 1 1

Modbus Address

Hex Address


Factory Default

Size in Words




1 6 1 FC236 2 1


1 5 1 FC237 1 1


1 7 1 FC238 1 1

56103 0x3EE6 TCP Connection Timeout 10 300 1 s F0 120 1

Binary Input Points

56120 0x3EF7 Point 0 Entry 0 0xFFFFFFFF 1 FC142 0 1

56122 0x3EF9 Point 1 Entry 0 0xFFFFFFFF 1 FC142 0 1

56124 0x3EFB Point 2 Entry 0 0xFFFFFFFF 1 FC142 0 1

56126 0x3EFD Point 3 Entry 0 0xFFFFFFFF 1 FC142 0 1

56128 0x3EFF Point 4 Entry 0 0xFFFFFFFF 1 FC142 0 1

56130 0x3F01 Point 5 Entry 0 0xFFFFFFFF 1 FC142 0 1





56140 0x3F0B Point 10 Entry 0 0xFFFFFFFF 1 FC142 0 1

56142 0x3F0D Point 11 Entry 0 0xFFFFFFFF 1 FC142 0 1

56144 0x3F0F Point 12 Entry 0 0xFFFFFFFF 1 FC142 0 1



























Modbus Address

Hex Address


Factory Default

Size in Words

















































Modbus Address

Hex Address


Factory Default

Size in Words



56290 0x3FA1 Point 85 Entry 0 0xFFFFFFFF 1 FC142 0 1





56300 0x3FAB Point 90 Entry 0 0xFFFFFFFF 1 FC142 0 1

56302 0x3FAD Point 91 Entry 0 0xFFFFFFFF 1 FC142 0 1

56304 0x3FAF Point 92 Entry 0 0xFFFFFFFF 1 FC142 0 1

56306 0x3FB1 Point 93 Entry 0 0xFFFFFFFF 1 FC142 0 1



Analog Input Point 0

56330 0x3FC9 Analog IP Point 0 Entry 0 33560 1 FC273 0 1

56331 0x3FCA Point 0 Scale Factor 1 9 1 FC229 4 1

56332 0x3FCB Point 0 Deadband 1 100000000 1 F10 30000 1


56334 0x3FCD Analog IP Point 1 Entry 0 33560 1 FC273 0 1

56335 0x3FCE Point 1 Scale Factor 1 9 1 FC229 4 1

56336 0x3FCF Point 1 Deadband 1 100000000 1 F10 30000 1


56338 0x3FD1 Analog IP Point 2 Entry 0 33560 1 FC273 0 1

56339 0x3FD2 Point 2 Scale Factor 1 9 1 FC229 4 1

56340 0x3FD3 Point 2 Deadband 1 100000000 1 F10 30000 1



56343 0x3FD6 Point 3 Scale Factor 1 9 1 FC229 4 1

56344 0x3FD7 Point 3 Deadband 1 100000000 1 F10 30000 1



56347 0x3FDA Point 4 Scale Factor 1 9 1 FC229 4 1

56348 0x3FDB Point 4 Deadband 1 100000000 1 F10 30000 1


56350 0x3FDD Analog IP Point 5 Entry 0 33560 1 FC273 0 1

56351 0x3FDE Point 5 Scale Factor 1 9 1 FC229 4 1

56352 0x3FDF Point 5 Deadband 1 100000000 1 F10 30000 1


56354 0x3FE1 Analog IP Point 6 Entry 0 33560 1 FC273 0 1

56355 0x3FE2 Point 6 Scale Factor 1 9 1 FC229 4 1

56356 0x3FE3 Point 6 Deadband 1 100000000 1 F10 30000 1



56359 0x3FE6 Point 7 Scale Factor 1 9 1 FC229 4 1

56360 0x3FE7 Point 7 Deadband 1 100000000 1 F10 30000 1



56363 0x3FEA Point 8 Scale Factor 1 9 1 FC229 4 1

Modbus Address

Hex Address


Factory Default

Size in Words



56364 0x3FEB Point 8 Deadband 1 100000000 1 F10 30000 1


56366 0x3FED Analog IP Point 9 Entry 0 33560 1 FC273 0 1

56367 0x3FEE Point 9 Scale Factor 1 9 1 FC229 4 1

56368 0x3FEF Point 9 Deadband 1 100000000 1 F10 30000 1


56370 0x3FF1 Analog IP Point 10 Entry 0 33560 1 FC273 0 1

56371 0x3FF2 Point 10 Scale Factor 1 9 1 FC229 4 1

56372 0x3FF3 Point 10 Deadband 1 100000000 1 F10 30000 1



56375 0x3FF6 Point 11 Scale Factor 1 9 1 FC229 4 1

56376 0x3FF7 Point 11 Deadband 1 100000000 1 F10 30000 1



56379 0x3FFA Point 12 Scale Factor 1 9 1 FC229 4 1

56380 0x3FFB Point 12 Deadband 1 100000000 1 F10 30000 1


56382 0x3FFD Analog IP Point 13 Entry 0 33560 1 FC273 0 1

56383 0x3FFE Point 13 Scale Factor 1 9 1 FC229 4 1

56384 0x3FFF Point 13 Deadband 1 100000000 1 F10 30000 1


56386 0x4001 Analog IP Point 14 Entry 0 33560 1 FC273 0 1

56387 0x4002 Point 14 Scale Factor 1 9 1 FC229 4 1

56388 0x4003 Point 14 Deadband 1 100000000 1 F10 30000 1







56395 0x400A Point 16 Scale Factor 1 9 1 FC229 4 1

56396 0x400B Point 16 Deadband 1 100000000 1 F10 30000 1


56398 0x400D Analog IP Point 17 Entry 0 33560 1 FC273 0 1

56399 0x400E Point 17 Scale Factor 1 9 1 FC229 4 1

56400 0x400F Point 17 Deadband 1 100000000 1 F10 30000 1










Modbus Address

Hex Address


Factory Default

Size in Words

















































Modbus Address

Hex Address


Factory Default

Size in Words




Binary Output Point 0

56470 0x4055 Binary Output Point 0 ON 0 47 1 FC230 0 1

56471 0x4056 Binary Output Point 0 OFF 0 47 1 FC230 0 1






56475 0x405A Binary Output Point 2 OFF 0 47 1 FC230 0 1


56476 0x405B Binary Output Point 3 ON 0 47 1 FC230 0 1

56477 0x405C Binary Output Point 3 OFF 0 47 1 FC230 0 1


56478 0x405D Binary Output Point 4 ON 0 47 1 FC230 0 1

56479 0x405E Binary Output Point 4 OFF 0 47 1 FC230 0 1


56480 0x405F Binary Output Point 5 ON 0 47 1 FC230 0 1















56490 0x4069 Binary Output Point 10 ON

0 47 1 FC230 0 1

56491 0x406A Bnry Output Point 10 OFF 0 47 1 FC230 0 1


56492 0x406B Binary Output Point 11 ON

0 47 1 FC230 0 1

56493 0x406C Bnry Output Point 11 OFF 0 47 1 FC230 0 1


56494 0x406D Binary Output Point 12 ON

0 47 1 FC230 0 1

56495 0x406E Bnry Output Point 12 OFF 0 47 1 FC230 0 1


56496 0x406F Binary Output Point 13 ON

0 47 1 FC230 0 1

56497 0x4070 Bnry Output Point 13 OFF 0 47 1 FC230 0 1

Modbus Address

Hex Address


Factory Default

Size in Words





0 47 1 FC230 0 1




0 47 1 FC230 0 1


IEC104 Protocol

56550 0x40A5 Channel 1 Port 0 1 1 FC239A 1 1

56551 0x40A6 Channel 2 Port 0 1 1 FC239A 1 1

56552 0x40A7 Common Address of ASDU

0 65535 1 F0 0 1

56553 0x40A8 Client Address 1 0 0xFFFFFFFF 1 F70 0 1

56555 0x40AA Client Address 2 0 0xFFFFFFFF 1 F70 0 1

56557 0x40AC TCP Port Number 1 1 65535 1 F0 2404 1

56558 0x40AD TCP Port Number 2 1 65535 1 F0 2404 1

56559 0x40AE Cyclic Data Period 0 65535 1 s F0 60 1

56561 0x40B0 Object Info Addrs Bnry 0 16777215 1 F10 1000 1

56563 0x40B2 Object Info Addrs Analog 0 16777215 1 F10 2000 1

56565 0x40B4 Object Info Addrs Countrs 0 16777215 1 F10 3000 1

56567 0x40B6 Object Info Addrs Cmnd 0 16777215 1 F10 4000 1

56569 0x40B8 Object Info Analog Param 0 16777215 1 F10 5000 1

IEC103 Protocol

56590 0x40CD IEC103 Common ASDU Addrs

0 254 1 F0 0 1

56591 0x40CE IEC103 Sync Timeout 0 1440 1 min F0 0 1

Binary Input Point 0

56610 0x40E1 Point 0 Func Type 0 255 1 F0 0 1

56611 0x40E2 Point 0 Info Num 0 255 1 F0 0 1

56612 0x40E3 Point 0 0 0xFFFFFFFF 1 FC142 0 1


56624 0x40EF Point 1 Func Type 0 255 1 F0 0 1

56625 0x40F0 Point 1 Info Num 0 255 1 F0 0 1

56626 0x40F1 Point 1 0 0xFFFFFFFF 1 FC142 0 1


56638 0x40FD Point 2 Func Type 0 255 1 F0 0 1

56639 0x40FE Point 2 Info Num 0 255 1 F0 0 1

56640 0x40FF Point 2 0 0xFFFFFFFF 1 FC142 0 1


56652 0x410B Point 3 Func Type 0 255 1 F0 0 1

56653 0x410C Point 3 Info Num 0 255 1 F0 0 1

56654 0x410D Point 3 0 0xFFFFFFFF 1 FC142 0 1


56666 0x4119 Point 4 Func Type 0 255 1 F0 0 1

56667 0x411A Point 4 Info Num 0 255 1 F0 0 1

56668 0x411B Point 4 0 0xFFFFFFFF 1 FC142 0 1

Modbus Address

Hex Address


Factory Default

Size in Words





56681 0x4128 Point 5 Info Num 0 255 1 F0 0 1

56682 0x4129 Point 5 0 0xFFFFFFFF 1 FC142 0 1



56695 0x4136 Point 6 Info Num 0 255 1 F0 0 1




56709 0x4144 Point 7 Info Num 0 255 1 F0 0 1




56723 0x4152 Point 8 Info Num 0 255 1 F0 0 1



56736 0x415F Point 9 Func Type 0 255 1 F0 0 1

56737 0x4160 Point 9 Info Num 0 255 1 F0 0 1



56750 0x416D Point 10 Func Type 0 255 1 F0 0 1

56751 0x416E Point 10 Info Num 0 255 1 F0 0 1

56752 0x416F Point 10 0 0xFFFFFFFF 1 FC142 0 1











56793 0x4198 Point 13 Info Num 0 255 1 F0 0 1



56806 0x41A5 Point 14 Func Type 0 255 1 F0 0 1

56807 0x41A6 Point 14 Info Num 0 255 1 F0 0 1

56808 0x41A7 Point 14 0 0xFFFFFFFF 1 FC142 0 1


56820 0x41B3 Point 15 Func Type 0 255 1 F0 0 1

56821 0x41B4 Point 15 Info Num 0 255 1 F0 0 1

56822 0x41B5 Point 15 0 0xFFFFFFFF 1 FC142 0 1


56834 0x41C1 Point 16 Func Type 0 255 1 F0 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



56835 0x41C2 Point 16 Info Num 0 255 1 F0 0 1

56836 0x41C3 Point 16 0 0xFFFFFFFF 1 FC142 0 1


56848 0x41CF Point 17 Func Type 0 255 1 F0 0 1

56849 0x41D0 Point 17 Info Num 0 255 1 F0 0 1

56850 0x41D1 Point 17 0 0xFFFFFFFF 1 FC142 0 1


56862 0x41DD Point 18 Func Type 0 255 1 F0 0 1

56863 0x41DE Point 18 Info Num 0 255 1 F0 0 1

56864 0x41DF Point 18 0 0xFFFFFFFF 1 FC142 0 1


56876 0x41EB Point 19 Func Type 0 255 1 F0 0 1

56877 0x41EC Point 19 Info Num 0 255 1 F0 0 1

56878 0x41ED Point 19 0 0xFFFFFFFF 1 FC142 0 1


56890 0x41F9 Point 20 Func Type 0 255 1 F0 0 1

56891 0x41FA Point 20 Info Num 0 255 1 F0 0 1

56892 0x41FB Point 20 0 0xFFFFFFFF 1 FC142 0 1



56905 0x4208 Point 21 Info Num 0 255 1 F0 0 1




56919 0x4216 Point 22 Info Num 0 255 1 F0 0 1




56933 0x4224 Point 23 Info Num 0 255 1 F0 0 1




56947 0x4232 Point 24 Info Num 0 255 1 F0 0 1




56961 0x4240 Point 25 Info Num 0 255 1 F0 0 1










Modbus Address

Hex Address


Factory Default

Size in Words









57017 0x4278 Point 29 Info Num 0 255 1 F0 0 1




57031 0x4286 Point 30 Info Num 0 255 1 F0 0 1




57045 0x4294 Point 31 Info Num 0 255 1 F0 0 1







57072 0x42AF Point 33 Func Type 0 255 1 F0 0 1




57086 0x42BD Point 34 Func Type 0 255 1 F0 0 1

57087 0x42BE Point 34 Info Num 0 255 1 F0 0 1

57088 0x42BF Point 34 0 0xFFFFFFFF 1 FC142 0 1


57100 0x42CB Point 35 Func Type 0 255 1 F0 0 1

57101 0x42CC Point 35 Info Num 0 255 1 F0 0 1

57102 0x42CD Point 35 0 0xFFFFFFFF 1 FC142 0 1


57114 0x42D9 Point 36 Func Type 0 255 1 F0 0 1

57115 0x42DA Point 36 Info Num 0 255 1 F0 0 1

57116 0x42DB Point 36 0 0xFFFFFFFF 1 FC142 0 1











Modbus Address

Hex Address


Factory Default

Size in Words



57157 0x4304 Point 39 Info Num 0 255 1 F0 0 1




57171 0x4312 Point 40 Info Num 0 255 1 F0 0 1




57185 0x4320 Point 41 Info Num 0 255 1 F0 0 1
















57241 0x4358 Point 45 Info Num 0 255 1 F0 0 1




57255 0x4366 Point 46 Info Num 0 255 1 F0 0 1




57269 0x4374 Point 47 Info Num 0 255 1 F0 0 1




57283 0x4382 Point 48 Info Num 0 255 1 F0 0 1




57297 0x4390 Point 49 Info Num 0 255 1 F0 0 1






Modbus Address

Hex Address


Factory Default

Size in Words




57324 0x43AB Point 51 Func Type 0 255 1 F0 0 1

57325 0x43AC Point 51 Info Num 0 255 1 F0 0 1

57326 0x43AD Point 51 0 0xFFFFFFFF 1 FC142 0 1



57339 0x43BA Point 52 Info Num 0 255 1 F0 0 1

57340 0x43BB Point 52 0 0xFFFFFFFF 1 FC142 0 1


















57408 0x43FF Point 57 Func Type 0 255 1 F0 0 1

57409 0x4400 Point 57 Info Num 0 255 1 F0 0 1
















57465 0x4438 Point 61 Info Num 0 255 1 F0 0 1




Modbus Address

Hex Address


Factory Default

Size in Words



57479 0x4446 Point 62 Info Num 0 255 1 F0 0 1




57493 0x4454 Point 63 Info Num 0 255 1 F0 0 1




57507 0x4462 Point 64 Info Num 0 255 1 F0 0 1




57521 0x4470 Point 65 Info Num 0 255 1 F0 0 1































57632 0x44DF Point 73 Func Type 0 255 1 F0 0 1



Modbus Address

Hex Address


Factory Default

Size in Words




57646 0x44ED Point 74 Func Type 0 255 1 F0 0 1

57647 0x44EE Point 74 Info Num 0 255 1 F0 0 1

57648 0x44EF Point 74 0 0xFFFFFFFF 1 FC142 0 1


57660 0x44FB Point 75 Func Type 0 255 1 F0 0 1

57661 0x44FC Point 75 Info Num 0 255 1 F0 0 1

57662 0x44FD Point 75 0 0xFFFFFFFF 1 FC142 0 1







57689 0x4518 Point 77 Info Num 0 255 1 F0 0 1




57703 0x4526 Point 78 Info Num 0 255 1 F0 0 1




57717 0x4534 Point 79 Info Num 0 255 1 F0 0 1




57731 0x4542 Point 80 Info Num 0 255 1 F0 0 1




57745 0x4550 Point 81 Info Num 0 255 1 F0 0 1
















Modbus Address

Hex Address


Factory Default

Size in Words



57801 0x4588 Point 85 Info Num 0 255 1 F0 0 1




57815 0x4596 Point 86 Info Num 0 255 1 F0 0 1











57856 0x45BF Point 89 Func Type 0 255 1 F0 0 1




57870 0x45CD Point 90 Func Type 0 255 1 F0 0 1

57871 0x45CE Point 90 Info Num 0 255 1 F0 0 1

57872 0x45CF Point 90 0 0xFFFFFFFF 1 FC142 0 1


57884 0x45DB Point 91 Func Type 0 255 1 F0 0 1

57885 0x45DC Point 91 Info Num 0 255 1 F0 0 1

57886 0x45DD Point 91 0 0xFFFFFFFF 1 FC142 0 1



57899 0x45EA Point 92 Info Num 0 255 1 F0 0 1

57900 0x45EB Point 92 0 0xFFFFFFFF 1 FC142 0 1







57927 0x4606 Point 94 Info Num 0 255 1 F0 0 1




57941 0x4614 Point 95 Info Num 0 255 1 F0 0 1


First ADSU

57970 0x4631 First ADSU Ident Type 0 1 1 FC212 0 1

57971 0x4632 First ADSU Func Type 0 255 1 F0 0 1

57972 0x4633 First ADSU Info Num 0 255 1 F0 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



57973 0x4634 First ADSU Scan Timeout 0 1000 1 s F0 0 1

57974 0x4635 First Analog Entry 0 33560 1 FC273 0 1

57975 0x4636 First Analog Factor 0 65535 1 F3 0 1

57976 0x4637 First Analog Offset -32768 32767 1 F20 0 1

57977 0x4638 Second Analog Entry 0 33560 1 FC273 0 1

57978 0x4639 Second Analog Factor 0 65535 1 F3 0 1

57979 0x463A Second Analog Offset -32768 32767 1 F20 0 1

57980 0x463B Third Analog Entry 0 33560 1 FC273 0 1

57981 0x463C Third Analog Factor 0 65535 1 F3 0 1

57982 0x463D Third Analog Offset -32768 32767 1 F20 0 1

57983 0x463E Fourth Analog Entry 0 33560 1 FC273 0 1

57984 0x463F Fourth Analog Factor 0 65535 1 F3 0 1

57985 0x4640 Fourth Analog Offset -32768 32767 1 F20 0 1

57986 0x4641 Fifth Analog Entry 0 33560 1 FC273 0 1

57987 0x4642 Fifth Analog Factor 0 65535 1 F3 0 1

57988 0x4643 Fifth Analog Offset -32768 32767 1 F20 0 1

57989 0x4644 Sixth Analog Entry 0 33560 1 FC273 0 1

57990 0x4645 Sixth Analog Factor 0 65535 1 F3 0 1

57991 0x4646 Sixth Analog Offset -32768 32767 1 F20 0 1

57992 0x4647 Seventh Analog Entry 0 33560 1 FC273 0 1

57993 0x4648 Seventh Analog Factor 0 65535 1 F3 0 1

57994 0x4649 Seventh Analog Offset -32768 32767 1 F20 0 1

57995 0x464A Eighth Analog Entry 0 33560 1 FC273 0 1

57996 0x464B Eighth Analog Factor 0 65535 1 F3 0 1

57997 0x464C Eighth Analog Offset -32768 32767 1 F20 0 1

57998 0x464D Ninth Analog Entry 0 33560 1 FC273 0 1

57999 0x464E Ninth Analog Factor 0 65535 1 F3 0 1

58000 0x464F Ninth Analog Offset -32768 32767 1 F20 0 1

Second ADSU

58011 0x465A Second ADSU Ident Type 0 1 1 FC212 0 1

58012 0x465B Second ADSU Func Type 0 255 1 F0 0 1

58013 0x465C Second ADSU Info Num 0 255 1 F0 0 1

58014 0x465D Second ADSU Scan Timeout

0 1000 1 s F0 0 1

58015 0x465E First Analog Entry 0 33560 1 FC273 0 1

58016 0x465F First Analog Factor 0 65535 1 F3 0 1


58018 0x4661 Second Analog Entry 0 33560 1 FC273 0 1

58019 0x4662 Second Analog Factor 0 65535 1 F3 0 1

58020 0x4663 Second Analog Offset -32768 32767 1 F20 0 1

58021 0x4664 Third Analog Entry 0 33560 1 FC273 0 1

58022 0x4665 Third Analog Factor 0 65535 1 F3 0 1

58023 0x4666 Third Analog Offset -32768 32767 1 F20 0 1

58024 0x4667 Fourth Analog Entry 0 33560 1 FC273 0 1

58025 0x4668 Fourth Analog Factor 0 65535 1 F3 0 1


Modbus Address

Hex Address


Factory Default

Size in Words



58027 0x466A Fifth Analog Entry 0 33560 1 FC273 0 1

58028 0x466B Fifth Analog Factor 0 65535 1 F3 0 1

58029 0x466C Fifth Analog Offset -32768 32767 1 F20 0 1

58030 0x466D Sixth Analog Entry 0 33560 1 FC273 0 1

58031 0x466E Sixth Analog Factor 0 65535 1 F3 0 1

58032 0x466F Sixth Analog Offset -32768 32767 1 F20 0 1


58034 0x4671 Seventh Analog Factor 0 65535 1 F3 0 1

58035 0x4672 Seventh Analog Offset -32768 32767 1 F20 0 1

58036 0x4673 Eighth Analog Entry 0 33560 1 FC273 0 1

58037 0x4674 Eighth Analog Factor 0 65535 1 F3 0 1

58038 0x4675 Eighth Analog Offset -32768 32767 1 F20 0 1

58039 0x4676 Ninth Analog Entry 0 33560 1 FC273 0 1

58040 0x4677 Ninth Analog Factor 0 65535 1 F3 0 1

58041 0x4678 Ninth Analog Offset -32768 32767 1 F20 0 1

Third ADSU

58052 0x4683 Third ADSU Ident Type 0 1 1 FC212 0 1

58053 0x4684 Third ADSU Func Type 0 255 1 F0 0 1

58054 0x4685 Third ADSU Info Num 0 255 1 F0 0 1

58055 0x4686 Third ADSU Scan Timeout 0 1000 1 s F0 0 1

58056 0x4687 First Analog Entry 0 33560 1 FC273 0 1

58057 0x4688 First Analog Factor 0 65535 1 F3 0 1


58059 0x468A Second Analog Entry 0 33560 1 FC273 0 1

58060 0x468B Second Analog Factor 0 65535 1 F3 0 1

58061 0x468C Second Analog Offset -32768 32767 1 F20 0 1

58062 0x468D Third Analog Entry 0 33560 1 FC273 0 1

58063 0x468E Third Analog Factor 0 65535 1 F3 0 1

58064 0x468F Third Analog Offset -32768 32767 1 F20 0 1

58065 0x4690 Fourth Analog Entry 0 33560 1 FC273 0 1

58066 0x4691 Fourth Analog Factor 0 65535 1 F3 0 1


58068 0x4693 Fifth Analog Entry 0 33560 1 FC273 0 1

58069 0x4694 Fifth Analog Factor 0 65535 1 F3 0 1

58070 0x4695 Fifth Analog Offset -32768 32767 1 F20 0 1

58071 0x4696 Sixth Analog Entry 0 33560 1 FC273 0 1

58072 0x4697 Sixth Analog Factor 0 65535 1 F3 0 1

58073 0x4698 Sixth Analog Offset -32768 32767 1 F20 0 1


58075 0x469A Seventh Analog Factor 0 65535 1 F3 0 1

58076 0x469B Seventh Analog Offset -32768 32767 1 F20 0 1

58077 0x469C Eighth Analog Entry 0 33560 1 FC273 0 1

58078 0x469D Eighth Analog Factor 0 65535 1 F3 0 1

58079 0x469E Eighth Analog Offset -32768 32767 1 F20 0 1

58080 0x469F Ninth Analog Entry 0 33560 1 FC273 0 1

58081 0x46A0 Ninth Analog Factor 0 65535 1 F3 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



58082 0x46A1 Ninth Analog Offset -32768 32767 1 F20 0 1

Fourth ADSU

58093 0x46AC Fourth ADSU Ident Type 0 1 1 FC212 0 1

58094 0x46AD Fourth ADSU Func Type 0 255 1 F0 0 1

58095 0x46AE Fourth ADSU Info Num 0 255 1 F0 0 1

58096 0x46AF Fourth ADSU Scan Timeout

0 1000 1 s F0 0 1

58097 0x46B0 First Analog Entry 0 33560 1 FC273 0 1

58098 0x46B1 First Analog Factor 0 65535 1 F3 0 1

58099 0x46B2 First Analog Offset -32768 32767 1 F20 0 1

58100 0x46B3 Second Analog Entry 0 33560 1 FC273 0 1

58101 0x46B4 Second Analog Factor 0 65535 1 F3 0 1

58102 0x46B5 Second Analog Offset -32768 32767 1 F20 0 1

58103 0x46B6 Third Analog Entry 0 33560 1 FC273 0 1

58104 0x46B7 Third Analog Factor 0 65535 1 F3 0 1

58105 0x46B8 Third Analog Offset -32768 32767 1 F20 0 1

58106 0x46B9 Fourth Analog Entry 0 33560 1 FC273 0 1

58107 0x46BA Fourth Analog Factor 0 65535 1 F3 0 1

58108 0x46BB Fourth Analog Offset -32768 32767 1 F20 0 1

58109 0x46BC Fifth Analog Entry 0 33560 1 FC273 0 1

58110 0x46BD Fifth Analog Factor 0 65535 1 F3 0 1

58111 0x46BE Fifth Analog Offset -32768 32767 1 F20 0 1

58112 0x46BF Sixth Analog Entry 0 33560 1 FC273 0 1

58113 0x46C0 Sixth Analog Factor 0 65535 1 F3 0 1

58114 0x46C1 Sixth Analog Offset -32768 32767 1 F20 0 1

58115 0x46C2 Seventh Analog Entry 0 33560 1 FC273 0 1

58116 0x46C3 Seventh Analog Factor 0 65535 1 F3 0 1

58117 0x46C4 Seventh Analog Offset -32768 32767 1 F20 0 1

58118 0x46C5 Eighth Analog Entry 0 33560 1 FC273 0 1

58119 0x46C6 Eighth Analog Factor 0 65535 1 F3 0 1

58120 0x46C7 Eighth Analog Offset -32768 32767 1 F20 0 1

58121 0x46C8 Ninth Analog Entry 0 33560 1 FC273 0 1

58122 0x46C9 Ninth Analog Factor 0 65535 1 F3 0 1

58123 0x46CA Ninth Analog Offset -32768 32767 1 F20 0 1

IEC103 Command 0

58150 0x46E5 Command 0 Func Type 0 255 1 F0 0 1

58151 0x46E6 Command 0 Info Num 0 255 1 F0 0 1

58152 0x46E7 Command 0 ON 0 47 1 FC230 0 1

58153 0x46E8 Command 0 OFF 0 47 1 FC230 0 1

IEC103 Command 1

58154 0x46E9 Command 1 Func Type 0 255 1 F0 0 1

58155 0x46EA Command 1 Info Num 0 255 1 F0 0 1

58156 0x46EB Command 1 ON 0 47 1 FC230 0 1

58157 0x46EC Command 1 OFF 0 47 1 FC230 0 1

IEC103 Command 2

58158 0x46ED Command 2 Func Type 0 255 1 F0 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



58159 0x46EE Command 2 Info Num 0 255 1 F0 0 1

58160 0x46EF Command 2 ON 0 47 1 FC230 0 1

58161 0x46F0 Command 2 OFF 0 47 1 FC230 0 1

IEC103 Command 3

58162 0x46F1 Command 3 Func Type 0 255 1 F0 0 1

58163 0x46F2 Command 3 Info Num 0 255 1 F0 0 1

58164 0x46F3 Command 3 ON 0 47 1 FC230 0 1

58165 0x46F4 Command 3 OFF 0 47 1 FC230 0 1

IEC103 Command 4


58167 0x46F6 Command 4 Info Num 0 255 1 F0 0 1

58168 0x46F7 Command 4 ON 0 47 1 FC230 0 1

58169 0x46F8 Command 4 OFF 0 47 1 FC230 0 1

IEC103 Command 5


58171 0x46FA Command 5 Info Num 0 255 1 F0 0 1

58172 0x46FB Command 5 ON 0 47 1 FC230 0 1

58173 0x46FC Command 5 OFF 0 47 1 FC230 0 1

IEC103 Command 6

58174 0x46FD Command 6 Func Type 0 255 1 F0 0 1

58175 0x46FE Command 6 Info Num 0 255 1 F0 0 1

58176 0x46FF Command 6 ON 0 47 1 FC230 0 1

58177 0x4700 Command 6 OFF 0 47 1 FC230 0 1

IEC103 Command 7

58178 0x4701 Command 7 Func Type 0 255 1 F0 0 1

58179 0x4702 Command 7 Info Num 0 255 1 F0 0 1

58180 0x4703 Command 7 ON 0 47 1 FC230 0 1

58181 0x4704 Command 7 OFF 0 47 1 FC230 0 1

IEC103 Command 8



58184 0x4707 Command 8 ON 0 47 1 FC230 0 1

58185 0x4708 Command 8 OFF 0 47 1 FC230 0 1

IEC103 Command 9


58187 0x470A Command 9 Info Num 0 255 1 F0 0 1

58188 0x470B Command 9 ON 0 47 1 FC230 0 1

58189 0x470C Command 9 OFF 0 47 1 FC230 0 1

IEC103 Command 10

58190 0x470D Command 10 Func Type 0 255 1 F0 0 1

58191 0x470E Command 10 Info Num 0 255 1 F0 0 1

58192 0x470F Command 10 ON 0 47 1 FC230 0 1

58193 0x4710 Command 10 OFF 0 47 1 FC230 0 1

IEC103 Command 11



Modbus Address

Hex Address


Factory Default

Size in Words



58196 0x4713 Command 11 ON 0 47 1 FC230 0 1

58197 0x4714 Command 11 OFF 0 47 1 FC230 0 1

IEC103 Command 12



58200 0x4717 Command 12 ON 0 47 1 FC230 0 1

58201 0x4718 Command 12 OFF 0 47 1 FC230 0 1

IEC103 Command 13



58204 0x471B Command 13 ON 0 47 1 FC230 0 1

58205 0x471C Command 13 OFF 0 47 1 FC230 0 1

IEC103 Command 14



58208 0x471F Command 14 ON 0 47 1 FC230 0 1

58209 0x4720 Command 14 OFF 0 47 1 FC230 0 1

IEC103 Command 15



58212 0x4723 Command 15 ON 0 47 1 FC230 0 1

58213 0x4724 Command 15 OFF 0 47 1 FC230 0 1

IEC103 Command 16



58216 0x4727 Command 16 ON 0 47 1 FC230 0 1

58217 0x4728 Command 16 OFF 0 47 1 FC230 0 1

IEC103 Command 17



58220 0x472B Command 17 ON 0 47 1 FC230 0 1

58221 0x472C Command 17 OFF 0 47 1 FC230 0 1

IEC103 Command 18



58224 0x472F Command 18 ON 0 47 1 FC230 0 1

58225 0x4730 Command 18 OFF 0 47 1 FC230 0 1

IEC103 Command 19



58228 0x4733 Command 19 ON 0 47 1 FC230 0 1

58229 0x4734 Command 19 OFF 0 47 1 FC230 0 1

IEC103 Command 20



58232 0x4737 Command 20 ON 0 47 1 FC230 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



58233 0x4738 Command 20 OFF 0 47 1 FC230 0 1

IEC103 Command 21



58236 0x473B Command 21 ON 0 47 1 FC230 0 1

58237 0x473C Command 21 OFF 0 47 1 FC230 0 1

IEC103 Command 22



58240 0x473F Command 22 ON 0 47 1 FC230 0 1

58241 0x4740 Command 22 OFF 0 47 1 FC230 0 1

IEC103 Command 23



58244 0x4743 Command 23 ON 0 47 1 FC230 0 1

58245 0x4744 Command 23 OFF 0 47 1 FC230 0 1

IEC103 Command 24



58248 0x4747 Command 24 ON 0 47 1 FC230 0 1

58249 0x4748 Command 24 OFF 0 47 1 FC230 0 1

IEC103 Command 25



58252 0x474B Command 25 ON 0 47 1 FC230 0 1

58253 0x474C Command 25 OFF 0 47 1 FC230 0 1

IEC103 Command 26



58256 0x474F Command 26 ON 0 47 1 FC230 0 1

58257 0x4750 Command 26 OFF 0 47 1 FC230 0 1

IEC103 Command 27



58260 0x4753 Command 27 ON 0 47 1 FC230 0 1

58261 0x4754 Command 27 OFF 0 47 1 FC230 0 1

IEC103 Command 28



58264 0x4757 Command 28 ON 0 47 1 FC230 0 1

58265 0x4758 Command 28 OFF 0 47 1 FC230 0 1

IEC103 Command 29



58268 0x475B Command 29 ON 0 47 1 FC230 0 1

58269 0x475C Command 29 OFF 0 47 1 FC230 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



IEC103 Command 30



58272 0x475F Command 30 ON 0 47 1 FC230 0 1

58273 0x4760 Command 30 OFF 0 47 1 FC230 0 1

IEC103 Command 31



58276 0x4763 Command 31 ON 0 47 1 FC230 0 1

58277 0x4764 Command 31 OFF 0 47 1 FC230 0 1

Flex States Configuration

58290 0x4771 Parameter 1 0 0xFFFFFFFF 1 FC142 0 1





58300 0x477B Parameter 6 0 0xFFFFFFFF 1 FC142 0 1

58302 0x477D Parameter 7 0 0xFFFFFFFF 1 FC142 0 1

58304 0x477F Parameter 8 0 0xFFFFFFFF 1 FC142 0 1

















58338 0x47A1 Parameter 25 0 0xFFFFFFFF 1 FC142 0 1





58348 0x47AB Parameter 30 0 0xFFFFFFFF 1 FC142 0 1

58350 0x47AD Parameter 31 0 0xFFFFFFFF 1 FC142 0 1

58352 0x47AF Parameter 32 0 0xFFFFFFFF 1 FC142 0 1

58354 0x47B1 Parameter 33 0 0xFFFFFFFF 1 FC142 0 1



Modbus Address

Hex Address


Factory Default

Size in Words





58364 0x47BB Parameter 38 0 0xFFFFFFFF 1 FC142 0 1

58366 0x47BD Parameter 39 0 0xFFFFFFFF 1 FC142 0 1

58368 0x47BF Parameter 40 0 0xFFFFFFFF 1 FC142 0 1

58370 0x47C1 Parameter 41 0 0xFFFFFFFF 1 FC142 0 1





58380 0x47CB Parameter 46 0 0xFFFFFFFF 1 FC142 0 1

58382 0x47CD Parameter 47 0 0xFFFFFFFF 1 FC142 0 1

58384 0x47CF Parameter 48 0 0xFFFFFFFF 1 FC142 0 1

58386 0x47D1 Parameter 49 0 0xFFFFFFFF 1 FC142 0 1





58396 0x47DB Parameter 54 0 0xFFFFFFFF 1 FC142 0 1

58398 0x47DD Parameter 55 0 0xFFFFFFFF 1 FC142 0 1

58400 0x47DF Parameter 56 0 0xFFFFFFFF 1 FC142 0 1

58402 0x47E1 Parameter 57 0 0xFFFFFFFF 1 FC142 0 1





58412 0x47EB Parameter 62 0 0xFFFFFFFF 1 FC142 0 1

58414 0x47ED Parameter 63 0 0xFFFFFFFF 1 FC142 0 1

58416 0x47EF Parameter 64 0 0xFFFFFFFF 1 FC142 0 1

58418 0x47F1 Parameter 65 0 0xFFFFFFFF 1 FC142 0 1





58428 0x47FB Parameter 70 0 0xFFFFFFFF 1 FC142 0 1

58430 0x47FD Parameter 71 0 0xFFFFFFFF 1 FC142 0 1

58432 0x47FF Parameter 72 0 0xFFFFFFFF 1 FC142 0 1










Modbus Address

Hex Address


Factory Default

Size in Words

















































Modbus Address

Hex Address


Factory Default

Size in Words

































58604 0x48AB Parameter 158 0 0xFFFFFFFF 1 FC142 0 1

58606 0x48AD Parameter 159 0 0xFFFFFFFF 1 FC142 0 1

58608 0x48AF Parameter 160 0 0xFFFFFFFF 1 FC142 0 1






58620 0x48BB Parameter 166 0 0xFFFFFFFF 1 FC142 0 1

58622 0x48BD Parameter 167 0 0xFFFFFFFF 1 FC142 0 1

58624 0x48BF Parameter 168 0 0xFFFFFFFF 1 FC142 0 1






Modbus Address

Hex Address


Factory Default

Size in Words



58636 0x48CB Parameter 174 0 0xFFFFFFFF 1 FC142 0 1

58638 0x48CD Parameter 175 0 0xFFFFFFFF 1 FC142 0 1

58640 0x48CF Parameter 176 0 0xFFFFFFFF 1 FC142 0 1






58652 0x48DB Parameter 182 0 0xFFFFFFFF 1 FC142 0 1

58654 0x48DD Parameter 183 0 0xFFFFFFFF 1 FC142 0 1

58656 0x48DF Parameter 184 0 0xFFFFFFFF 1 FC142 0 1






58668 0x48EB Parameter 190 0 0xFFFFFFFF 1 FC142 0 1

58670 0x48ED Parameter 191 0 0xFFFFFFFF 1 FC142 0 1

58672 0x48EF Parameter 192 0 0xFFFFFFFF 1 FC142 0 1






58684 0x48FB Parameter 198 0 0xFFFFFFFF 1 FC142 0 1

58686 0x48FD Parameter 199 0 0xFFFFFFFF 1 FC142 0 1

58688 0x48FF Parameter 200 0 0xFFFFFFFF 1 FC142 0 1




















Modbus Address

Hex Address


Factory Default

Size in Words








































Remote Input 1

58820 0x4983 Events 0 1 1 FC126 1 1

58821 0x4984 Name 0 65535 1 F60_26 RI 1 26

Remote Input 2

58834 0x4991 Events 0 1 1 FC126 1 1

58835 0x4992 Name 0 65535 1 F60_26 RI 2 26

Remote Input 3

58848 0x499F Events 0 1 1 FC126 1 1

58849 0x49A0 Name 0 65535 1 F60_26 RI 3 26

Modbus Address

Hex Address


Factory Default

Size in Words



Remote Input 4

58862 0x49AD Events 0 1 1 FC126 1 1

58863 0x49AE Name 0 65535 1 F60_26 RI 4 26

Remote Input 5

58876 0x49BB Events 0 1 1 FC126 1 1

58877 0x49BC Name 0 65535 1 F60_26 RI 5 26

Remote Input 6

58890 0x49C9 Events 0 1 1 FC126 1 1

58891 0x49CA Name 0 65535 1 F60_26 RI 6 26

Remote Input 7

58904 0x49D7 Events 0 1 1 FC126 1 1

58905 0x49D8 Name 0 65535 1 F60_26 RI 7 26

Remote Input 8

58918 0x49E5 Events 0 1 1 FC126 1 1

58919 0x49E6 Name 0 65535 1 F60_26 RI 8 26

Remote Input 9

58932 0x49F3 Events 0 1 1 FC126 1 1

58933 0x49F4 Name 0 65535 1 F60_26 RI 9 26

Remote Input 10

58946 0x4A01 Events 0 1 1 FC126 1 1

58947 0x4A02 Name 0 65535 1 F60_26 RI 10 26

Remote Input 11

58960 0x4A0F Events 0 1 1 FC126 1 1

58961 0x4A10 Name 0 65535 1 F60_26 RI 11 26

Remote Input 12

58974 0x4A1D Events 0 1 1 FC126 1 1

58975 0x4A1E Name 0 65535 1 F60_26 RI 12 26

Remote Input 13

58988 0x4A2B Events 0 1 1 FC126 1 1

58989 0x4A2C Name 0 65535 1 F60_26 RI 13 26

Remote Input 14

59002 0x4A39 Events 0 1 1 FC126 1 1

59003 0x4A3A Name 0 65535 1 F60_26 RI 14 26

Remote Input 15

59016 0x4A47 Events 0 1 1 FC126 1 1

59017 0x4A48 Name 0 65535 1 F60_26 RI 15 26

Remote Input 16

59030 0x4A55 Events 0 1 1 FC126 1 1

59031 0x4A56 Name 0 65535 1 F60_26 RI 16 26

Remote Input 17

59044 0x4A63 Events 0 1 1 FC126 1 1

59045 0x4A64 Name 0 65535 1 F60_26 RI 17 26

Remote Input 18

59058 0x4A71 Events 0 1 1 FC126 1 1

59059 0x4A72 Name 0 65535 1 F60_26 RI 18 26

Remote Input 19

Modbus Address

Hex Address


Factory Default

Size in Words



59072 0x4A7F Events 0 1 1 FC126 1 1

59073 0x4A80 Name 0 65535 1 F60_26 RI 19 26

Remote Input 20

59086 0x4A8D Events 0 1 1 FC126 1 1

59087 0x4A8E Name 0 65535 1 F60_26 RI 20 26

Remote Input 21

59100 0x4A9B Events 0 1 1 FC126 1 1

59101 0x4A9C Name 0 65535 1 F60_26 RI 21 26

Remote Input 22

59114 0x4AA9 Events 0 1 1 FC126 1 1

59115 0x4AAA Name 0 65535 1 F60_26 RI 22 26

Remote Input 23

59128 0x4AB7 Events 0 1 1 FC126 1 1

59129 0x4AB8 Name 0 65535 1 F60_26 RI 23 26

Remote Input 24

59142 0x4AC5 Events 0 1 1 FC126 1 1

59143 0x4AC6 Name 0 65535 1 F60_26 RI 24 26

Remote Input 25

59156 0x4AD3 Events 0 1 1 FC126 1 1

59157 0x4AD4 Name 0 65535 1 F60_26 RI 25 26

Remote Input 26

59170 0x4AE1 Events 0 1 1 FC126 1 1

59171 0x4AE2 Name 0 65535 1 F60_26 RI 26 26

Remote Input 27

59184 0x4AEF Events 0 1 1 FC126 1 1

59185 0x4AF0 Name 0 65535 1 F60_26 RI 27 26

Remote Input 28

59198 0x4AFD Events 0 1 1 FC126 1 1

59199 0x4AFE Name 0 65535 1 F60_26 RI 28 26

Remote Input 29

59212 0x4B0B Events 0 1 1 FC126 1 1

59213 0x4B0C Name 0 65535 1 F60_26 RI 29 26

Remote Input 30

59226 0x4B19 Events 0 1 1 FC126 1 1

59227 0x4B1A Name 0 65535 1 F60_26 RI 30 26

Remote Input 31

59240 0x4B27 Events 0 1 1 FC126 1 1

59241 0x4B28 Name 0 65535 1 F60_26 RI 31 26

Remote Input 32

59254 0x4B35 Events 0 1 1 FC126 1 1

59255 0x4B36 Name 0 65535 1 F60_26 RI 32 26

Remote Input 96

Factory Service

Setup

101611 0xF0AA Simulation State 0 3 1 FC165 0 1

101613 0xF0AC Aux Relay Sim 0 1 1 FC126 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



101614 0xF0AD Noise 0 65535 1 counts F0 0 1

101615 0xF0AE LEDs 0 1 1 FC126 0 1

Pre-Fault

101651 0xF0D2 Bank 1 PreFlt Van Voltage 0 40000 1 V F2 0 1

101652 0xF0D3 Bank 1 PreFlt Vbn Voltage 0 40000 1 V F2 0 1

101653 0xF0D4 Bank 1 PreFlt Vcn Voltage 0 40000 1 V F2 0 1

101654 0xF0D5 Bank1 Pre-Flt Vx Voltage 0 40000 1 V F2 0 1

101655 0xF0D6 Bank 2 PreFlt Van Voltage 0 40000 1 V F2 0 1

101656 0xF0D7 Bank 2 PreFlt Vbn Voltage 0 40000 1 V F2 0 1

101657 0xF0D8 Bank 2 PreFlt Vcn Voltage 0 40000 1 V F2 0 1

101658 0xF0D9 Bank2 Pre-Flt Vx Voltage 0 40000 1 V F2 0 1

101659 0xF0DA Bank 1 PreFlt Van Angle -3599 0 1 ° F21 0 1

101660 0xF0DB Bank 1 PreFlt Vbn Angle -3599 0 1 ° F21 0 1

101661 0xF0DC Bank 1 PreFlt Vcn Angle -3599 0 1 ° F21 0 1

101662 0xF0DD Bank 1 PreFlt Vaux Angle -3599 0 1 ° F21 0 1

101663 0xF0DE Bank 2 PreFlt Van Angle -3599 0 1 ° F21 0 1

101664 0xF0DF Bank 2 PreFlt Vbn Angle -3599 0 1 ° F21 0 1

101665 0xF0E0 Bank 2 PreFlt Vcn Angle -3599 0 1 ° F21 0 1

101666 0xF0E1 Bank 2 PreFlt Vaux Angle -3599 0 1 ° F21 0 1

101667 0xF0E2 Bank1 Pre-Flt Vx Freq 200 9000 1 Hz F2 200 1

101668 0xF0E3 Bank2 Pre-Flt Vx Freq 200 9000 1 Hz F2 200 1

101669 0xF0E4 Bank 1 PreFlt Phase Ia 0 65535 1 x CT F3 0 1

101670 0xF0E5 Bank 1 PreFlt Phase Ib 0 65535 1 x CT F3 0 1

101671 0xF0E6 Bank 1 PreFlt Phase Ic 0 65535 1 x CT F3 0 1

101672 0xF0E7 Bank 1 PreFlt Phase Ig 0 65535 1 x CT F3 0 1

101673 0xF0E8 Bank 2 PreFlt Phase Ia 0 65535 1 x CT F3 0 1

101674 0xF0E9 Bank 2 PreFlt Phase Ib 0 65535 1 x CT F3 0 1

101675 0xF0EA Bank 2 PreFlt Phase Ic 0 65535 1 x CT F3 0 1

101676 0xF0EB Bank 2 PreFlt Phase Ig 0 65535 1 x CT F3 0 1

101677 0xF0EC Bank 3 PreFlt Phase Ia 0 65535 1 x CT F3 0 1

101678 0xF0ED Bank 3 PreFlt Phase Ib 0 65535 1 x CT F3 0 1

101679 0xF0EE Bank 3 PreFlt Phase Ic 0 65535 1 x CT F3 0 1

101680 0xF0EF Bank 3 PreFlt Phase Ig 0 65535 1 x CT F3 0 1

101681 0xF0F0 Bank 1 PreFlt Ia Angle -3599 0 1 ° F21 0 1

101682 0xF0F1 Bank 1 PreFlt Ib Angle -3599 0 1 ° F21 0 1

101683 0xF0F2 Bank 1 PreFlt Ic Angle -3599 0 1 ° F21 0 1

101684 0xF0F3 Bank 1 PreFlt Ig Angle -3599 0 1 ° F21 0 1



101687 0xF0F6 Bank 2 PreFlt Ic Angle -3599 0 1 ° F21 0 1

101688 0xF0F7 Bank 2 PreFlt Ig Angle -3599 0 1 ° F21 0 1



101691 0xF0FA Bank 3 PreFlt Ic Angle -3599 0 1 ° F21 0 1

101692 0xF0FB Bank 3 PreFlt Ig Angle -3599 0 1 ° F21 0 1

101693 0xF0FC Bank1 Pre-Flt Ix Freq 200 9000 1 Hz F2 200 1

Modbus Address

Hex Address


Factory Default

Size in Words



101694 0xF0FD Bank2 Pre-Flt Ix Freq 200 9000 1 Hz F2 200 1

101695 0xF0FE Bank3 Pre-Flt Ix Freq 200 9000 1 Hz F2 200 1

Fault

101706 0xF109 Bank 1 Flt Van Voltage 0 40000 1 V F2 0 1

101707 0xF10A Bank 1 Flt Vbn Voltage 0 40000 1 V F2 0 1

101708 0xF10B Bank 1 Flt Vcn Voltage 0 40000 1 V F2 0 1

101709 0xF10C Bank 1 Flt Vaux Voltage 0 40000 1 V F2 0 1

101710 0xF10D Bank 2 Flt Van Voltage 0 40000 1 V F2 0 1

101711 0xF10E Bank 2 Flt Vbn Voltage 0 40000 1 V F2 0 1

101712 0xF10F Bank 2 Flt Vcn Voltage 0 40000 1 V F2 0 1

101713 0xF110 Bank 2 Flt Vaux Voltage 0 40000 1 V F2 0 1

101714 0xF111 Bank 1 Flt Van Angle -3599 0 1 ° F21 0 1

101715 0xF112 Bank 1 Flt Vbn Angle -3599 0 1 ° F21 0 1

101716 0xF113 Bank 1 Flt Vcn Angle -3599 0 1 ° F21 0 1

101717 0xF114 Bank 1 Flt Vaux Angle -3599 0 1 ° F21 0 1

101718 0xF115 Bank 2 Flt Van Angle -3599 0 1 ° F21 0 1

101719 0xF116 Bank 2 Flt Vbn Angle -3599 0 1 ° F21 0 1

101720 0xF117 Bank 2 Flt Vcn Angle -3599 0 1 ° F21 0 1

101721 0xF118 Bank 2 Flt Vaux Angle -3599 0 1 ° F21 0 1

101722 0xF119 Bank 1 Flt Vaux Frequency

200 9000 1 Hz F2 200 1

101723 0xF11A Bank 2 Flt Vaux Frequency

200 9000 1 Hz F2 200 1

101724 0xF11B Bank 1 Flt Phase Ia 0 65535 1 x CT F3 0 1

101725 0xF11C Bank 1 Flt Phase Ib 0 65535 1 x CT F3 0 1

101726 0xF11D Bank 1 Flt Phase Ic 0 65535 1 x CT F3 0 1

101727 0xF11E Bank 1 Flt Phase Ig 0 65535 1 x CT F3 0 1

101728 0xF11F Bank 2 Flt Phase Ia 0 65535 1 x CT F3 0 1

101729 0xF120 Bank 2 Flt Phase Ib 0 65535 1 x CT F3 0 1

101730 0xF121 Bank 2 Flt Phase Ic 0 65535 1 x CT F3 0 1

101731 0xF122 Bank 2 Flt Phase Ig 0 65535 1 x CT F3 0 1

101732 0xF123 Bank 3 Flt Phase Ia 0 65535 1 x CT F3 0 1

101733 0xF124 Bank 3 Flt Phase Ib 0 65535 1 x CT F3 0 1

101734 0xF125 Bank 3 Flt Phase Ic 0 65535 1 x CT F3 0 1

101735 0xF126 Bank 3 Flt Phase Ig 0 65535 1 x CT F3 0 1

101736 0xF127 Bank 1 Flt Ia Angle -3599 0 1 ° F21 0 1

101737 0xF128 Bank 1 Flt Ib Angle -3599 0 1 ° F21 0 1

101738 0xF129 Bank 1 Flt Ic Angle -3599 0 1 ° F21 0 1

101739 0xF12A Bank 1 Flt Ig Angle -3599 0 1 ° F21 0 1

101740 0xF12B Bank 2 Flt Ia Angle -3599 0 1 ° F21 0 1

101741 0xF12C Bank 2 Flt Ib Angle -3599 0 1 ° F21 0 1

101742 0xF12D Bank 2 Flt Ic Angle -3599 0 1 ° F21 0 1

101743 0xF12E Bank 2 Flt Ig Angle -3599 0 1 ° F21 0 1

101744 0xF12F Bank 3 Flt Ia Angle -3599 0 1 ° F21 0 1

101745 0xF130 Bank 3 Flt Ib Angle -3599 0 1 ° F21 0 1

101746 0xF131 Bank 3 Flt Ic Angle -3599 0 1 ° F21 0 1

101747 0xF132 Bank 3 Flt Ig Angle -3599 0 1 ° F21 0 1

Modbus Address

Hex Address


Factory Default

Size in Words



101748 0xF133 Bank 1 Flt Ix Frequency 200 9000 1 Hz F2 200 1



Post-Fault

101761 0xF140 Bank 1 PstFlt Van Voltage 0 40000 1 V F2 0 1

101762 0xF141 Bank 1 PstFlt Vbn Voltage 0 40000 1 V F2 0 1

101763 0xF142 Bank 1 PstFlt Vcn Voltage 0 40000 1 V F2 0 1

101764 0xF143 Bank1 Post-Flt Vx Voltage 0 40000 1 V F2 0 1

101765 0xF144 Bank 2 PstFlt Van Voltage 0 40000 1 V F2 0 1

101766 0xF145 Bank 2 PstFlt Vbn Voltage 0 40000 1 V F2 0 1

101767 0xF146 Bank 2 PstFlt Vcn Voltage 0 40000 1 V F2 0 1

101768 0xF147 Bank2 Post-Flt Vx Voltage 0 40000 1 V F2 0 1

101769 0xF148 Bank 1 PstFlt Van Angle -3599 0 1 ° F21 0 1

101770 0xF149 Bank 1 PstFlt Vbn Angle -3599 0 1 ° F21 0 1

101771 0xF14A Bank 1 PstFlt Vcn Angle -3599 0 1 ° F21 0 1

101772 0xF14B Bank 1 PstFlt Vaux Angle -3599 0 1 ° F21 0 1

101773 0xF14C Bank 2 PstFlt Van Angle -3599 0 1 ° F21 0 1

101774 0xF14D Bank 2 PstFlt Vbn Angle -3599 0 1 ° F21 0 1

101775 0xF14E Bank 2 PstFlt Vcn Angle -3599 0 1 ° F21 0 1

101776 0xF14F Bank 2 PstFlt Vaux Angle -3599 0 1 ° F21 0 1

101777 0xF150 Bank1 Post-Flt Vx Freq 200 9000 1 Hz F2 200 1

101778 0xF151 Bank2 Post-Flt Vx Freq 200 9000 1 Hz F2 200 1

101779 0xF152 Bank 1 PstFlt Phase Ia 0 65535 1 x CT F3 0 1

101780 0xF153 Bank 1 PstFlt Phase Ib 0 65535 1 x CT F3 0 1

101781 0xF154 Bank 1 PstFlt Phase Ic 0 65535 1 x CT F3 0 1

101782 0xF155 Bank 1 PstFlt Phase Ig 0 65535 1 x CT F3 0 1

101783 0xF156 Bank 2 PstFlt Phase Ia 0 65535 1 x CT F3 0 1

101784 0xF157 Bank 2 PstFlt Phase Ib 0 65535 1 x CT F3 0 1

101785 0xF158 Bank 2 PstFlt Phase Ic 0 65535 1 x CT F3 0 1

101786 0xF159 Bank 2 PstFlt Phase Ig 0 65535 1 x CT F3 0 1

101787 0xF15A Bank 3 PstFlt Phase Ia 0 65535 1 x CT F3 0 1

101788 0xF15B Bank 3 PstFlt Phase Ib 0 65535 1 x CT F3 0 1

101789 0xF15C Bank 3 PstFlt Phase Ic 0 65535 1 x CT F3 0 1

101790 0xF15D Bank 3 PstFlt Phase Ig 0 65535 1 x CT F3 0 1

101791 0xF15E Bank 1 PstFlt Ia Angle -3599 0 1 ° F21 0 1

101792 0xF15F Bank 1 PstFlt Ib Angle -3599 0 1 ° F21 0 1

101793 0xF160 Bank 1 PstFlt Ic Angle -3599 0 1 ° F21 0 1

101794 0xF161 Bank 1 PstFlt Ig Angle -3599 0 1 ° F21 0 1

101795 0xF162 Bank 2 PstFlt Ia Angle -3599 0 1 ° F21 0 1

101796 0xF163 Bank 2 PstFlt Ib Angle -3599 0 1 ° F21 0 1



101799 0xF166 Bank 3 PstFlt Ia Angle -3599 0 1 ° F21 0 1

101800 0xF167 Bank 3 PstFlt Ib Angle -3599 0 1 ° F21 0 1



Modbus Address

Hex Address


Factory Default

Size in Words


FORMAT CODES CHAPTER 11: MODBUS MEMORY MAP

Format Codes

101803 0xF16A Bank1 Post-Flt Ix Freq 200 9000 1 Hz F2 200 1

101804 0xF16B Bank2 Post-Flt Ix Freq 200 9000 1 Hz F2 200 1

101805 0xF16C Bank3 Post-Flt Ix Freq 200 9000 1 Hz F2 200 1

Simulation Contact Inputs

101911 0xF1D6 CI Inputs 1-32 0 0xFFFFFFFF 1 FC194 0 1

Simulation Contact Outputs

101927 0xF1E6 Contact Outputs 0 0xFFFFFFFF 1 FC198 0 1

Test LEDs

101939 0xF1F2 Test LED 1-16 0 0xFFFFFFFF 1 FC302 0 1

Pickup Test

101953 0xF200 Function 0 1 1 FC126 0 1

101954 0xF201 Contact Outputs 0 0xFFFFFFFF 1 F10 0 1

Information

102111 0xF29E PSU Serial # 0 65535 1 F60_14 PCBSerial1 14

102118 0xF2A5 CAN1 Serial # 0 65535 1 F60_14 PCBSerial2 14

102125 0xF2AC CAN2 Serial # 0 65535 1 F60_14 PCBSerial3 14

102132 0xF2B3 CPU Serial # 0 65535 1 F60_14 PCBSerial4 14

102139 0xF2BA COMM Serial # 0 65535 1 F60_14 PCBSerial5 14

102146 0xF2C1 IO_1 Serial # 0 65535 1 F60_14 PCBSerial6 14

102153 0xF2C8 IO_2 Serial # 0 65535 1 F60_14 PCBSerial7 14

102160 0xF2CF IO_3 Serial # 0 65535 1 F60_14 PCBSerial8 14

102167 0xF2D6 AN_1 Serial # 0 65535 1 F60_14 PCBSerial9 14

102174 0xF2DD AN_2 Serial # 0 65535 1 F60_14 PCBSerial10

14

102181 0xF2E4 MAG_1 Serial # 0 65535 1 F60_14 PCBSerial11

14

102188 0xF2EB MAG_2 Serial # 0 65535 1 F60_14 PCBSerial12

14

102195 0xF2F2 FP Serial # 0 65535 1 F60_14 PCBSerial13

14

Factory Settings

102240 0xF31F Select Editing Group 0 0xFFFF 1 FC132 0xFFFF 1

102241 0xF320 Response Delay 0 100 1 ms F0 0 1

102242 0xF321 Login 0 8 1 FC252 0 1

102243 0xF322 Login Password 0 65535 1 F60_22 0 22

102254 0xF32D Password 0 65535 1 F60_22 0 22

Modbus Address

Hex Address


Factory Default

Size in Words

Code Type Definition

F0 unsigned 16 bits Unsigned Value

Example: 1234 stored as 1234

F0B unsigned 16 bits Unsigned Value, Max Value = OFF


F0A unsigned 16 bits Unsigned Value, Min Value = OFF


CHAPTER 11: MODBUS MEMORY MAP FORMAT CODES


F1 unsigned 16 bits Unsigned Value, 1 Decimal Place

Example: 123.4 stored as 1234

F2 unsigned 16 bits Unsigned Value, 2 Decimal Places


F3 unsigned 16 bits Unsigned Value, 3 Decimal Places


F10 unsigned 32 bits Unsigned Long Value

1st 16 bits High Order Word of Long Value

2nd 16 bits Low Order Word of Long Value


i.e. 1st word: 0001 hex, 2nd word: E240 hex

F11 unsigned 32 bits Unsigned Long Value, 1 Decimal Place





F12 unsigned 32 bits Unsigned Long Value, 2 Decimal Places





F13 unsigned 32 bits Unsigned Long Value, 3 Decimal Places





F20 signed 16 bits 2's Complement Signed Value

Example: -1234 stored as -1234 i.e. 64302

F21 signed 16 bits 2's Complement Signed Value, 1 Decimal Place

Example: -123.4 stored as -1234 i.e. 64302

F22 signed 16 bits 2's Complement Signed Value, 2 Decimal Places


F23 signed 16 bits 2's Complement Signed Value, 3 Decimal Places


F30 signed 32 bits 2's Complement Signed Long Value



Example: -123456 stored as -123456

i.e. 1st word: FFFE hex, 2nd word: 1DC0 hex

F31 signed 32 bits 2's Complement Signed Long Value, 1 Decimal Place



Example: -12345.6 stored as -123456





F32 signed 32 bits 2's Complement Signed Long Value, 2 Decimal Places





F33 signed 32 bits 2's Complement Signed Long Value, 3 Decimal Places





F50 unsigned 32 bits Time and Date (unsigned 32-bit integer)

Indicates the current time in seconds elapsed since 00:00:00 January 1, 1970.

F51 unsigned 32 bits Number of Microseconds (unsigned 32-bit integer)

Fraction of seconds count

F52 unsigned 32 bits RTC Time in Seconds

F53 unsigned 32 bits Date MM/DD/YYYY

F54 unsigned 32 bits Time HH:MM:SS:hh

F60_18 unsigned 16 bits Two 8-BIT Characters Packed Into 16-BIT Unsigned

Custom Text. 18 characters long

F60_8A unsigned 16 bits Two 8-BIT Characters Packed Into 16-BIT Unsigned

Grandmaster ID








Custom Text For Units


Secure Passwords. 22 characters long



F60_6A unsigned 16 bits Two 8-BIT Characters Packed Into 16-BIT Unsigned

MAC Address








F70 unsigned 32 bits IP Address

F71 unsigned 32 bits CPLD / FPGA Version

FC100 unsigned 16 bits Function Enable

0 Disabled

1 Trip

2 Alarm

3 Latched Alarm

4 Configurable

FC100A unsigned 16 bits Alarm Function Enable

0 Disabled

2 Alarm

3 Latched Alarm

4 Configurable

FC100B unsigned 16 bits Function Enable

0 Disabled

1 Close

2 Alarm

3 Latched Alarm

4 Configurable

FC101 unsigned 16 bits Targets

0 Disabled

1 Self-Reset

2 Latched

FC102 unsigned 16 bits Bank Input

0 None

1 J1

2 J2

3 K1

4 K2

FC103 unsigned 16 bits Frequency and Phase Reference

Upper 8 bits Type

1 = 3VT, 2 = Vx, 3 = CT

Lower 8 bits Bank (uses FC102 format)

1 = J1, 2 = J2, 3 = K1, 4 = K2

0 None

0x12 J2-3VT

0x22 J2-Vx

0x31 J1-CT

FC103A unsigned 16 bits Frequency Reference

Upper 8 bits Type

1 = 3VT, 2 = Vx

Lower 8 bits Bank (uses FC102 format)

2 = J2, 4 = K2




0x12 J2-3VT

0x22 J2-Vx

FC106 unsigned 16 bits Voltage Transformer Connection Type

0 Wye

1 Delta

FC107 unsigned 16 bits Supply Frequency

0 60 Hz

1 50 Hz

FC110 unsigned 16 bits Hardware Revision

1 A

FC114 unsigned 16 bits Relay Status

0 Not Ready

1 Ready

FC118 unsigned 16 bits Simulated Key Press / Last Key Pressed

0 None

129 QuickKey 1

130 QuickKey 2

131 QuickKey 3

132 QuickKey 4

133 QuickKey 5

134 USERPushButton1

135 USERPushButton2

136 USERPushButton3

141 No Key Press

142 Nav Up Key

143 Nav Left Key

144 Nav Down Key

145 Nav Right Key

146 Up Key

147 Down Key

148 Enter Key

149 Menu Key

150 Escape Key

151 Reset Key

152 Help Key

FC119 unsigned 16 bits Temperature Units

0 Celsius

1 Fahrenheit

FC123 unsigned 16 bits Contact Input Voltage Threshold

0 17 Vdc

1 33 Vdc

2 84 Vdc

3 166 Vdc

FC124A unsigned 16 bits Phase Rotation

0 ABC

1 ACB

FC126 unsigned 16 bits Disabled / Enabled Selection




0 Disabled

1 Enabled

FC126A unsigned 16 bits Off / On Selection

0 Off

1 On

FC126B unsigned 16 bits No / Yes Selection

0 NO

1 YES

FC131 unsigned 16 bits Phase UV Curve

0 Definite Time

1 Inverse Time

FC132A unsigned 16 bits Active Setpoint Group

0 SP Group 1

1 SP Group 2

2 SP Group 3

3 SP Group 4

4 SP Group 5

5 SP Group 6

FC132 unsigned 16 bits Edit Group

0 SP Group 1 Active

1 SP Group 2 Active

2 SP Group 3 Active

3 SP Group 4 Active

4 SP Group 5 Active

5 SP Group 6 Active

0xFFFF Active Group


FC134 unsigned 32 bits Cause of Event

0 No Evnt/Trp ToDate

1 Ctrl. Pwr Lost

2 Ctrl. Pwr Applied

3 Date or Time Set

4 Reset

5 Lockout Rst Closed

6 Factory Reload

7 Clock Not Set

8 IRIG-B Failure

9 Reset Trip Counter

11 Clear Event Rec

12 Clear Transt Rec

13 Clear Therm Cap

14 Comm. Alert 1

15 Comm. Alert 2

16 Comm. Alert 3

19 Ambient Temp. >80C




20 RMIO Mismatch

22 Emergency Restart

23 Trans. Rec Trigger

24 Failed Auth

25 Auth Lockout

26 Firmware Upgd

27 Firmware Lock

28 Setting Chg

29 Setting Lock

30 Login

31 Logoff

32 Event Rate High

33 Not Calibrated

34 Prototype Software

35 Invalid MAC Address

36 General Target Message

37 Relay Not Ready

39 WiFi Connected

40 WiFi Disconnected

41 Order Code Error

42 CPU Serial# Invalid

43 Slot F IO S/N Invalid

44 Slot G IO S/N Invalid

45 Slot H IO S/N Invalid

46 Slot B IO S/N Invalid

47 Slot C IO S/N Invalid

48 Slot J IO S/N Invalid

49 Slot K IO S/N Invalid

50 COMM Serial# Invalid

51 FP Serial# Invalid

52 PSU Serial# Invalid

53 RTC Error

54 FLASH Error

55 Link Error Primary

56 Traffic Error Primary

57 Ambient Temperature >80C

58 Link Error Secondary

59 Traffic Error Secondary

60 Version Mismatch

61 SPI Error

62 CAN_1 Error

63 CAN_2 Error

64 Product Serial Invalid

65 SelfTestFWUpdate

66 WiFi Default Settings

67 SNTP Failure

68 PTP Failure




69 RTC Failure

0x200 CI 1 On

0x201 CI 2 On

0x202 CI 3 On

0x203 CI 4 On

0x204 CI 5 On

0x205 CI 6 On

0x206 CI 7 On

0x207 CI 8 On

0x208 CI 9 On

0x209 CI 10 On

0x20A CI 11 On

0x20B CI 12 On

0x20C CI 13 On

0x20D CI 14 On

0x300 CI 1 Off

0x301 CI 2 Off

0x302 CI 3 Off

0x303 CI 4 Off

0x304 CI 5 Off

0x305 CI 6 Off

0x306 CI 7 Off

0x307 CI 8 Off

0x308 CI 9 Off

0x309 CI 10 Off

0x30A CI 11 Off

0x30B CI 12 Off

0x30C CI 13 Off

0x30D CI 14 Off

0x400 VI 1 On

0x401 VI 2 On

0x402 VI 3 On

0x403 VI 4 On

0x404 VI 5 On

0x405 VI 6 On

0x406 VI 7 On

0x407 VI 8 On

0x408 VI 9 On

0x409 VI 10 On

0x40A VI 11 On

0x40B VI 12 On

0x40C VI 13 On

0x40D VI 14 On

0x40E VI 15 On

0x40F VI 16 On

0x410 VI 17 On

0x411 VI 18 On




0x412 VI 19 On

0x413 VI 20 On

0x414 VI 21 On

0x415 VI 22 On

0x416 VI 23 On

0x417 VI 24 On

0x418 VI 25 On

0x419 VI 26 On

0x41A VI 27 On

0x41B VI 28 On

0x41C VI 29 On

0x41D VI 30 On

0x41E VI 31 On

0x41F VI 32 On

0x500 VI 1 Off

0x501 VI 2 Off

0x502 VI 3 Off

0x503 VI 4 Off

0x504 VI 5 Off

0x505 VI 6 Off

0x506 VI 7 Off

0x507 VI 8 Off

0x508 VI 9 Off

0x509 VI 10 Off

0x50A VI 11 Off

0x50B VI 12 Off

0x50C VI 13 Off

0x50D VI 14 Off

0x50E VI 15 Off

0x50F VI 16 Off

0x510 VI 17 Off

0x511 VI 18 Off

0x512 VI 19 Off

0x513 VI 20 Off

0x514 VI 21 Off

0x515 VI 22 Off

0x516 VI 23 Off

0x517 VI 24 Off

0x518 VI 25 Off

0x519 VI 26 Off

0x51A VI 27 Off

0x51B VI 28 Off

0x51C VI 29 Off

0x51D VI 30 Off

0x51E VI 31 Off

0x51F VI 32 Off

0x600 VO 1 On




0x601 VO 2 On

0x602 VO 3 On

0x603 VO 4 On

0x604 VO 5 On

0x605 VO 6 On

0x606 VO 7 On

0x607 VO 8 On

0x608 VO 9 On

0x609 VO 10 On

0x60A VO 11 On

0x60B VO 12 On

0x60C VO 13 On

0x60D VO 14 On

0x60E VO 15 On

0x60F VO 16 On

0x610 VO 17 On

0x611 VO 18 On

0x612 VO 19 On

0x613 VO 20 On

0x614 VO 21 On

0x615 VO 22 On

0x616 VO 23 On

0x617 VO 24 On

0x618 VO 25 On

0x619 VO 26 On

0x61A VO 27 On

0x61B VO 28 On

0x61C VO 29 On

0x61D VO 30 On

0x61E VO 31 On

0x61F VO 32 On

0x700 VO 1 Off

0x701 VO 2 Off

0x702 VO 3 Off

0x703 VO 4 Off

0x704 VO 5 Off

0x705 VO 6 Off

0x706 VO 7 Off

0x707 VO 8 Off

0x708 VO 9 Off

0x709 VO 10 Off

0x70A VO 11 Off

0x70B VO 12 Off

0x70C VO 13 Off

0x70D VO 14 Off

0x70E VO 15 Off

0x70F VO 16 Off




0x710 VO 17 Off

0x711 VO 18 Off

0x712 VO 19 Off

0x713 VO 20 Off

0x714 VO 21 Off

0x715 VO 22 Off

0x716 VO 23 Off

0x717 VO 24 Off

0x718 VO 25 Off

0x719 VO 26 Off

0x71A VO 27 Off

0x71B VO 28 Off

0x71C VO 29 Off

0x71D VO 30 Off

0x71E VO 31 Off

0x71F VO 32 Off

0x800 Rly 1 On

0x801 Rly 2 On

0x802 Rly 3 On

0x803 Rly 4 On

0x807 Rly 8 On

0x808 Rly 9 On

0x809 Rly 10 On

0x80A Rly 11 On

0x80B Rly 12 On

0x80F Rly 16 On

0x900 Rly 1 Off

0x901 Rly 2 Off

0x902 Rly 3 Off

0x903 Rly 4 Off

0x907 Rly 8 Off

0x908 Rly 9 Off

0x909 Rly 10 Off

0x90A Rly 11 Off

0x90B Rly 12 Off

0x90F Rly 16 Off

0xE00 Rem Ip 1 On

0xE01 Rem Ip 2 On

0xE02 Rem Ip 3 On

0xE03 Rem Ip 4 On

0xE04 Rem Ip 5 On

0xE05 Rem Ip 6 On

0xE06 Rem Ip 7 On

0xE07 Rem Ip 8 On

0xE08 Rem Ip 9 On

0xE09 Rem Ip 10 On

0xE0A Rem Ip 11 On




0xE0B Rem Ip 12 On

0xE0C Rem Ip 13 On

0xE0D Rem Ip 14 On

0xE0E Rem Ip 15 On

0xE0F Rem Ip 16 On

0xE10 Rem Ip 17 On

0xE11 Rem Ip 18 On

0xE12 Rem Ip 19 On

0xE13 Rem Ip 20 On

0xE14 Rem Ip 21 On

0xE15 Rem Ip 22 On

0xE16 Rem Ip 23 On

0xE17 Rem Ip 24 On

0xE18 Rem Ip 25 On

0xE19 Rem Ip 26 On

0xE1A Rem Ip 27 On

0xE1B Rem Ip 28 On

0xE1C Rem Ip 29 On

0xE1D Rem Ip 30 On

0xE1E Rem Ip 31 On

0xE1F Rem Ip 32 On

0xF00 Rem Ip 1 Off

0xF01 Rem Ip 2 Off

0xF02 Rem Ip 3 Off

0xF03 Rem Ip 4 Off

0xF04 Rem Ip 5 Off

0xF05 Rem Ip 6 Off

0xF06 Rem Ip 7 Off

0xF07 Rem Ip 8 Off

0xF08 Rem Ip 9 Off

0xF09 Rem Ip 10 Off

0xF0A Rem Ip 11 Off

0xF0B Rem Ip 12 Off

0xF0C Rem Ip 13 Off

0xF0D Rem Ip 14 Off

0xF0E Rem Ip 15 Off

0xF0F Rem Ip 16 Off

0xF10 Rem Ip 17 Off

0xF11 Rem Ip 18 Off

0xF12 Rem Ip 19 Off

0xF13 Rem Ip 20 Off

0xF14 Rem Ip 21 Off

0xF15 Rem Ip 22 Off

0xF16 Rem Ip 23 Off

0xF17 Rem Ip 24 Off

0xF18 Rem Ip 25 Off

0xF19 Rem Ip 26 Off




0xF1A Rem Ip 27 Off

0xF1B Rem Ip 28 Off

0xF1C Rem Ip 29 Off

0xF1D Rem Ip 30 Off

0xF1E Rem Ip 31 Off

0xF1F Rem Ip 32 Off

0x800002 Any Trip

0x800202 Any Alarm

0x800802 Any Block

0x800A02 Any PKP

0x800C02 Any OP

0x800E02 Reset OP

0x800E08 Reset OP (PB)

0x800E10 Reset OP (Operand)

0x800E20 Reset OP (Comms)

0x801002 Setpoint Access OP

0x801202 Active Target

0x801402 In-Service

0x801602 Testing ON

0x801802 Any Major Error

0x801A02 Any Minor Error

0x801C02 Von

0x801C04 Voff

0x801E02 Von

0x801E04 Voff

0x802802 Critical Fail OP

0x802C01 Phase TOC 1 PKP

0x802C02 Phase TOC 1 OP

0x802C08 Phase TOC 1 PKP A

0x802C10 Phase TOC 1 PKP B

0x802C20 Phase TOC 1 PKP C

0x802C40 Phase TOC 1 OP A

0x802C80 Phase TOC 1 OP B

0x802D00 Phase TOC 1 OP C

0x802E01 Phase TOC 2 PKP

0x802E02 Phase TOC 2 OP

0x802E08 Phase TOC 2 PKP A

0x802E10 Phase TOC 2 PKP B

0x802E20 Phase TOC 2 PKP C

0x802E40 Phase TOC 2 OP A

0x802E80 Phase TOC 2 OP B

0x802F00 Phase TOC 2 OP C

0x803201 Phase IOC 1 PKP

0x803202 Phase IOC 1 OP

0x803208 Phase IOC 1 PKP A

0x803210 Phase IOC 1 PKP B

0x803220 Phase IOC 1 PKP C




0x803240 Phase IOC 1 OP A

0x803280 Phase IOC 1 OP B

0x803300 Phase IOC 1 OP C









0x803802 Ph Dir OC REV

0x803840 Ph Dir OC REV A

0x803880 Ph Dir OC REV B

0x803900 Ph Dir OC REV C

0x803A01 Neutral TOC 1 PKP

0x803A02 Neutral TOC 1 OP

0x803C01 Neutral TOC 2 PKP

0x803C02 Neutral TOC 2 OP

0x803E01 Neutral IOC 1 PKP

0x803E02 Neutral IOC 1 OP

0x804001 Neutral IOC 2 PKP

0x804002 Neutral IOC 2 OP

0x804208 Ntrl Dir OC FWD

0x804240 Ntrl Dir OC REV

0x804401 Ground TOC 1 PKP

0x804402 Ground TOC 1 OP

0x804C01 Ground IOC 1 PKP

0x804C02 Ground IOC 1 OP

0x805408 Gnd Dir OC FWD

0x805440 Gnd Dir OC REV

0x805601 SGnd TOC 1 PKP

0x805602 SGnd TOC 1 OP

0x805A01 SGnd IOC 1 PKP

0x805A02 Sen Gnd IOC 1 OP

0x805E08 SGnd Dir OC FWD

0x805E40 SGnd Dir OC REV

0x806001 RGF 1 PKP

0x806002 RGF 1 OP

0x806008 RGF 1 Superv ON

0x806601 NegSeq TOC 1 PKP

0x806602 NegSeq TOC 1 OP

0x806A01 NegSeq IOC 1 PKP

0x806A02 NegSeq IOC 1 OP

0x806E08 NegSeq DirOC FWD

0x806E40 NegSeq DirOC REV

0x807001 Broken Cond PKP




0x807002 Broken Cond OP

0x807201 Load Encro PKP

0x807202 Load Encro OP

0x807401 Thermal PKP

0x807402 Thermal OP

0x807408 Thermal PKP A

0x807410 Thermal PKP B

0x807420 Thermal PKP C

0x807440 Thermal OP A

0x807480 Thermal OP B

0x807500 Thermal OP C

0x807602 Thermal Alarm

0x807640 Thermal Alarm A

0x807680 Thermal Alarm B

0x807700 Thermal Alarm C

0x807801 Phase UV 1 PKP

0x807802 Phase UV 1 OP

0x807808 Phase UV 1 PKP A

0x807810 Phase UV 1 PKP B

0x807820 Phase UV 1 PKP C

0x807840 Phase UV 1 OP A

0x807880 Phase UV 1 OP B

0x807900 Phase UV 1 OP C

0x807A01 Phase UV 2 PKP

0x807A02 Phase UV 2 OP

0x807A08 Phase UV 2 PKP A

0x807A10 Phase UV 2 PKP B

0x807A20 Phase UV 2 PKP C

0x807A40 Phase UV 2 OP A

0x807A80 Phase UV 2 OP B

0x807B00 Phase UV 2 OP C

0x807C01 Phase OV 1 PKP

0x807C02 Phase OV 1 OP

0x807C08 Phase OV 1 PKP A

0x807C10 Phase OV 1 PKP B

0x807C20 Phase OV 1 PKP C

0x807C40 Phase OV 1 OP A

0x807C80 Phase OV 1 OP B

0x807D00 Phase OV 1 OP C

0x807E01 Phase OV 2 PKP

0x807E02 Phase OV 2 OP

0x807E08 Phase OV 2 PKP A

0x807E10 Phase OV 2 PKP B

0x807E20 Phase OV 2 PKP C

0x807E40 Phase OV 2 OP A

0x807E80 Phase OV 2 OP B

0x807F00 Phase OV 2 OP C




0x808001 Aux UV 1 PKP

0x808002 Aux UV 1 OP



0x808401 Aux OV PKP

0x808402 Aux OV OP

0x808601 Neutral OV 1 PKP

0x808602 Neutral OV 1 OP

0x808A01 Neg Seq OV 1 PKP

0x808A02 Neg Seq OV 1 OP

0x808E01 DirPwr 1 PKP

0x808E02 DirPwr 1 OP

0x808E08 DirPwr 1 Stg1 PKP


0x808E40 DirPwr 1 Stg1 OP


0x809001 Dir Pwr 2 PKP

0x809002 Dir Pwr 2 OP

0x809008 DirPwr 2 Stg1 PKP


0x809040 DirPwr 2 Stg1 OP


0x809201 Watt GndFlt 1 PKP

0x809202 Watt GndFlt 1 OP

0x809601 Underfreq 1 PKP

0x809602 Underfreq 1 OP



0x809A01 Underfreq 3 PKP

0x809A02 Underfreq 3 OP

0x809C01 Underfreq 4 PKP

0x809C02 Underfreq 4 OP

0x809E01 Overfreq 1 PKP

0x809E02 Overfreq 1 OP

0x80A001 Overfreq 2 PKP

0x80A002 Overfreq 2 OP

0x80A201 FreqRate1 PKP

0x80A202 FreqRate1 OP

0x80A208 FreqRate1 Up PKP

0x80A210 FreqRate1 Dwn PKP

0x80A240 FreqRate1 Up OP

0x80A280 FreqRate1 Dwn OP

0x80AA02 Group 1 Active

0x80AC02 Group 2 Active

0x80AE02 Group 3 Active

0x80B002 Group 4 Active






0x80B608 Local Mode ON

0x80B610 Local Mode OFF

0x80B808 BKR1 Local Open

0x80B810 BKR1 Remote Open

0x80BE08 BKR1 Local Close

0x80BE10 BKR1 Remote Close

0x80C401 Trip Bus 1 PKP

0x80C402 Trip Bus 1 OP





0x80CA01 Trip Bus 4 PKP

0x80CA02 Trip Bus 4 OP

0x80CC01 Trip Bus 5 PKP

0x80CC02 Trip Bus 5 OP

0x80CE01 Trip Bus 6 PKP

0x80CE02 Trip Bus 6 OP

0x80D002 BF1 OP

0x80D008 BF1 Retrip

0x80D010 BF1 Highset OP

0x80D020 BF1 Lowset OP

0x80D040 BF1 52b Superv OP

0x80D602 Sync1 Close Perm

0x80D608 Sync1 Live Bus

0x80D610 Sync1 Live Line

0x80D620 Sync1 Dead Src OK

0x80D640 Sync1 Dead Bus

0x80D680 Sync1 Dead Line

0x80D700 Sync1 OK

0x80DA02 Manual Cls Blk OP

0x80DC02 VT Fuse Fail1 OP

0x80DC08 VT Fuse1 V Loss

0x80E001 Cold Load 1 PKP

0x80E002 Cold Load 1 OP

0x80E401 Ph UV Restore PKP

0x80E408 Aux UV Restore PKP

0x80E440 Aux UV Restore OP

0x80E480 Ph UV Restore OP

0x80E500 UV Restore Init

0x80E601 INC1 BKR Con&Clsd

0x80E602 INC1 Close Tie-BKR

0x80E604 INC1 Trnsfr Ready







0x80E640 Tie-BKR Trfer Rdy

0x80E680 Tie-BKR Conn&Clsd

0x80E700 Transfer Not Ready

0x80E801 AR1 Disabled

0x80E808 AR1 Enabled

0x80E810 AR1 Initiated

0x80E820 AR1 In Progress

0x80E840 AR1 Close

0x80E880 AR1 Lockout

0x80E900 AR1 Man Cls Blk

0x80EA08 AR1 Shot Cnt 0





0x80EC08 AR1 ShotRdc to 1



0x80EC40 AR1 ShotRdc to LO

0x80EE08 AR1 Rate High

0x80EE10 AR1 Rate HI Lockt

0x80EE20 AR1 Coordinating

0x80F801 UF Restore PKP

0x80F802 UF Restore OP

0x80F840 UF Restore Init

0x80FA02 BKR1 Closed

0x80FC02 BKR1 Opened

0x80FE02 BKR1 Unkwn State

0x810002 BKR1 Disconnected

0x810004 BKR1 Connected

0x811E01 TripCoil Mon 1 PKP

0x811E02 TripCoil Mon 1 OP

0x812401 Cls Coil Mon 1 PKP

0x812402 Cls Coil Mon 1 OP

0x812A02 BKR1 Arc OP

0x813001 BKR1 Charge Fail

0x813002 BKR1 Hlth PKP

0x813008 BKR1 Hlth Trip PKP

0x813010 BKR1 Hlth Cls PKP

0x813020 BKR1 Hlth Chg PKP

0x813040 BKR1 Hlth OP Fail

0x813601 BKR1 Arc Fail

0x813608 BKR1 Arc PKP A

0x813610 BKR1 Arc PKP B

0x813620 BKR1 Arc PKP C

0x813640 BKR1 Engy PKP A

0x813680 BKR1 Engy PKP B




0x813700 BKR1 Engy PKP C

0x813C08 PF 1 Switch-In

0x813C10 PF 1 Switch-Out

0x813C40 PF 1 Switch-In OP

0x813C80 PF 1 Switch-Out OP

0x813E08 PF 2 Switch-In

0x813E10 PF 2 Switch-Out

0x813E40 PF 2 Switch-In OP

0x813E80 PF 2 Switch-Out OP

0x814001 Current Dmd PKP

0x814008 Current Dmd PKP A

0x814010 Current Dmd PKP B

0x814020 Current Dmd PKP C

0x814201 RealPwr Dmd PKP

0x814401 ReactvPwr Dmd PKP

0x814601 ApprntPwr Dmd PKP

0x819208 Pos Wthrs Pulse OP

0x819210 Neg Wthrs Pulse OP

0x819220 Pos Varh Pulse OP

0x819240 Neg Varh Pulse OP

0x819408 Counter 1 LO

0x819410 Counter 1 EQL

0x819420 Counter 1 HI

0x819440 Counter 1 at Limit









0x819A08 Counter 4 LO

0x819A10 Counter 4 EQL

0x819A20 Counter 4 HI

0x819A40 Counter 4 at Limit

0x819C08 Counter 5 LO

0x819C10 Counter 5 EQL

0x819C20 Counter 5 HI

0x819C40 Counter 5 at Limit

0x819E08 Counter 6 LO

0x819E10 Counter 6 EQL

0x819E20 Counter 6 HI

0x819E40 Counter 6 at Limit



















0x81A640 Countr 10 at Limit





0x81AA08 Counter 12 LO

0x81AA10 Counter 12 EQL

0x81AA20 Counter 12 HI

0x81AA40 Countr 12 at Limit

0x81AC08 Counter 13 LO

0x81AC10 Counter 13 EQL

0x81AC20 Counter 13 HI

0x81AC40 Countr 13 at Limit

0x81AE08 Counter 14 LO

0x81AE10 Counter 14 EQL

0x81AE20 Counter 14 HI

0x81AE40 Countr 14 at Limit

0x81B008 Counter 15 LO

0x81B010 Counter 15 EQL

0x81B020 Counter 15 HI

0x81B040 Countr 15 at Limit





0x81B402 NV Latch 1 ON

0x81B404 NV Latch 1 OFF





0x81BA02 NV Latch 4 ON

0x81BA04 NV Latch 4 OFF

0x81BC02 NV Latch 5 ON

0x81BC04 NV Latch 5 OFF




0x81BE02 NV Latch 6 ON

0x81BE04 NV Latch 6 OFF

0x81C002 NV Latch 7 ON

0x81C004 NV Latch 7 OFF









0x81CA02 NV Latch 12 ON

0x81CA04 NV Latch 12 OFF

0x81CC02 NV Latch 13 ON

0x81CC04 NV Latch 13 OFF

0x81CE02 NV Latch 14 ON

0x81CE04 NV Latch 14 OFF

0x81D002 NV Latch 15 ON

0x81D004 NV Latch 15 OFF



0x81D402 PB 1 ON

0x81D404 PB 1 OFF

0x81D602 PB 2 ON

0x81D604 PB 2 OFF

0x81D802 PB 3 ON

0x81D804 PB 3 OFF

0x81DA01 Role Admin Act

0x81DA04 Authentication Lockout

0x81DA10 Authentication Fail

0x81DA20 Unauth Change Attempt

0x81DA40 Role Operator Act

0x81DA80 Role Observer Act

0x81DB00 Radius Srv Unavailable

0x81DE02 Transfer Initiated

FC134 unsigned 32 bits Cause of Event

0 No Evnt/Trp ToDate

1 Ctrl. Pwr Lost

2 Ctrl. Pwr Applied

3 Date or Time Set

4 Reset

5 Lockout Rst Closed

6 Factory Reload

7 Clock Not Set

8 IRIG-B Failure

9 Reset Trip Counter




11 Clear Event Rec

12 Clear Transt Rec

13 Clear Therm Cap

14 Comm. Alert 1

15 Comm. Alert 2

16 Comm. Alert 3

19 Ambient Temp. >80C

20 RMIO Mismatch

22 Emergency Restart

23 Trans. Rec Trigger

24 Failed Auth

25 Auth Lockout

26 Firmware Upgd

27 Firmware Lock

28 Setting Chg

29 Setting Lock

30 Login

31 Logoff

32 Event Rate High

33 Not Calibrated

34 Prototype Software

35 Invalid MAC Address

36 General Target Message

37 Relay Not Ready

39 WiFi Connected

40 WiFi Disconnected

41 Order Code Error

42 CPU Serial# Invalid

43 Slot F IO S/N Invalid

44 Slot G IO S/N Invalid

45 Slot H IO S/N Invalid

46 Slot B IO S/N Invalid

47 Slot C IO S/N Invalid

48 Slot J IO S/N Invalid

49 Slot K IO S/N Invalid

50 COMM Serial# Invalid

51 FP Serial# Invalid

52 PSU Serial# Invalid

53 RTC Error

54 FLASH Error

55 Link Error Primary

56 Traffic Error Primary

57 Ambient Temperature >80C

58 Link Error Secondary

59 Traffic Error Secondary

60 Version Mismatch

61 SPI Error




62 CAN_1 Error

63 CAN_2 Error

64 Product Serial Invalid

65 SelfTestFWUpdate

66 WiFi Default Settings

67 SNTP Failure

68 PTP Failure

69 RTC Failure

0x200 CI 1 On

0x201 CI 2 On

0x202 CI 3 On

0x203 CI 4 On

0x204 CI 5 On

0x205 CI 6 On

0x206 CI 7 On

0x207 CI 8 On

0x208 CI 9 On

0x209 CI 10 On

0x20A CI 11 On

0x20B CI 12 On

0x20C CI 13 On

0x20D CI 14 On

0x300 CI 1 Off

0x301 CI 2 Off

0x302 CI 3 Off

0x303 CI 4 Off

0x304 CI 5 Off

0x305 CI 6 Off

0x306 CI 7 Off

0x307 CI 8 Off

0x308 CI 9 Off

0x309 CI 10 Off

0x30A CI 11 Off

0x30B CI 12 Off

0x30C CI 13 Off

0x30D CI 14 Off

0x400 VI 1 On

0x401 VI 2 On

0x402 VI 3 On

0x403 VI 4 On

0x404 VI 5 On

0x405 VI 6 On

0x406 VI 7 On

0x407 VI 8 On

0x408 VI 9 On

0x409 VI 10 On

0x40A VI 11 On




0x40B VI 12 On

0x40C VI 13 On

0x40D VI 14 On

0x40E VI 15 On

0x40F VI 16 On

0x410 VI 17 On

0x411 VI 18 On

0x412 VI 19 On

0x413 VI 20 On

0x414 VI 21 On

0x415 VI 22 On

0x416 VI 23 On

0x417 VI 24 On

0x418 VI 25 On

0x419 VI 26 On

0x41A VI 27 On

0x41B VI 28 On

0x41C VI 29 On

0x41D VI 30 On

0x41E VI 31 On

0x41F VI 32 On

0x500 VI 1 Off

0x501 VI 2 Off

0x502 VI 3 Off

0x503 VI 4 Off

0x504 VI 5 Off

0x505 VI 6 Off

0x506 VI 7 Off

0x507 VI 8 Off

0x508 VI 9 Off

0x509 VI 10 Off

0x50A VI 11 Off

0x50B VI 12 Off

0x50C VI 13 Off

0x50D VI 14 Off

0x50E VI 15 Off

0x50F VI 16 Off

0x510 VI 17 Off

0x511 VI 18 Off

0x512 VI 19 Off

0x513 VI 20 Off

0x514 VI 21 Off

0x515 VI 22 Off

0x516 VI 23 Off

0x517 VI 24 Off

0x518 VI 25 Off

0x519 VI 26 Off




0x51A VI 27 Off

0x51B VI 28 Off

0x51C VI 29 Off

0x51D VI 30 Off

0x51E VI 31 Off

0x51F VI 32 Off

0x600 VO 1 On

0x601 VO 2 On

0x602 VO 3 On

0x603 VO 4 On

0x604 VO 5 On

0x605 VO 6 On

0x606 VO 7 On

0x607 VO 8 On

0x608 VO 9 On

0x609 VO 10 On

0x60A VO 11 On

0x60B VO 12 On

0x60C VO 13 On

0x60D VO 14 On

0x60E VO 15 On

0x60F VO 16 On

0x610 VO 17 On

0x611 VO 18 On

0x612 VO 19 On

0x613 VO 20 On

0x614 VO 21 On

0x615 VO 22 On

0x616 VO 23 On

0x617 VO 24 On

0x618 VO 25 On

0x619 VO 26 On

0x61A VO 27 On

0x61B VO 28 On

0x61C VO 29 On

0x61D VO 30 On

0x61E VO 31 On

0x61F VO 32 On

0x700 VO 1 Off

0x701 VO 2 Off

0x702 VO 3 Off

0x703 VO 4 Off

0x704 VO 5 Off

0x705 VO 6 Off

0x706 VO 7 Off

0x707 VO 8 Off

0x708 VO 9 Off




0x709 VO 10 Off

0x70A VO 11 Off

0x70B VO 12 Off

0x70C VO 13 Off

0x70D VO 14 Off

0x70E VO 15 Off

0x70F VO 16 Off

0x710 VO 17 Off

0x711 VO 18 Off

0x712 VO 19 Off

0x713 VO 20 Off

0x714 VO 21 Off

0x715 VO 22 Off

0x716 VO 23 Off

0x717 VO 24 Off

0x718 VO 25 Off

0x719 VO 26 Off

0x71A VO 27 Off

0x71B VO 28 Off

0x71C VO 29 Off

0x71D VO 30 Off

0x71E VO 31 Off

0x71F VO 32 Off

0x800 Rly 1 On

0x801 Rly 2 On

0x802 Rly 3 On

0x803 Rly 4 On

0x807 Rly 8 On

0x808 Rly 9 On

0x809 Rly 10 On

0x80A Rly 11 On

0x80B Rly 12 On

0x80F Rly 16 On

0x900 Rly 1 Off

0x901 Rly 2 Off

0x902 Rly 3 Off

0x903 Rly 4 Off

0x907 Rly 8 Off

0x908 Rly 9 Off

0x909 Rly 10 Off

0x90A Rly 11 Off

0x90B Rly 12 Off

0x90F Rly 16 Off

0xE00 Rem Ip 1 On

0xE01 Rem Ip 2 On

0xE02 Rem Ip 3 On

0xE03 Rem Ip 4 On




0xE04 Rem Ip 5 On

0xE05 Rem Ip 6 On

0xE06 Rem Ip 7 On

0xE07 Rem Ip 8 On

0xE08 Rem Ip 9 On

0xE09 Rem Ip 10 On

0xE0A Rem Ip 11 On

0xE0B Rem Ip 12 On

0xE0C Rem Ip 13 On

0xE0D Rem Ip 14 On

0xE0E Rem Ip 15 On

0xE0F Rem Ip 16 On

0xE10 Rem Ip 17 On

0xE11 Rem Ip 18 On

0xE12 Rem Ip 19 On

0xE13 Rem Ip 20 On

0xE14 Rem Ip 21 On

0xE15 Rem Ip 22 On

0xE16 Rem Ip 23 On

0xE17 Rem Ip 24 On

0xE18 Rem Ip 25 On

0xE19 Rem Ip 26 On

0xE1A Rem Ip 27 On

0xE1B Rem Ip 28 On

0xE1C Rem Ip 29 On

0xE1D Rem Ip 30 On

0xE1E Rem Ip 31 On

0xE1F Rem Ip 32 On

0xF00 Rem Ip 1 Off

0xF01 Rem Ip 2 Off

0xF02 Rem Ip 3 Off

0xF03 Rem Ip 4 Off

0xF04 Rem Ip 5 Off

0xF05 Rem Ip 6 Off

0xF06 Rem Ip 7 Off

0xF07 Rem Ip 8 Off

0xF08 Rem Ip 9 Off

0xF09 Rem Ip 10 Off

0xF0A Rem Ip 11 Off

0xF0B Rem Ip 12 Off

0xF0C Rem Ip 13 Off

0xF0D Rem Ip 14 Off

0xF0E Rem Ip 15 Off

0xF0F Rem Ip 16 Off

0xF10 Rem Ip 17 Off

0xF11 Rem Ip 18 Off

0xF12 Rem Ip 19 Off




0xF13 Rem Ip 20 Off

0xF14 Rem Ip 21 Off

0xF15 Rem Ip 22 Off

0xF16 Rem Ip 23 Off

0xF17 Rem Ip 24 Off

0xF18 Rem Ip 25 Off

0xF19 Rem Ip 26 Off

0xF1A Rem Ip 27 Off

0xF1B Rem Ip 28 Off

0xF1C Rem Ip 29 Off

0xF1D Rem Ip 30 Off

0xF1E Rem Ip 31 Off

0xF1F Rem Ip 32 Off

0x800002 Any Trip

0x800202 Any Alarm

0x800802 Any Block

0x800A02 Any PKP

0x800C02 Any OP

0x800E02 Reset OP






0x801402 In-Service

0x801602 Testing ON



0x801C02 Von

0x801C04 Voff

0x801E02 Von

0x801E04 Voff































































0x806001 RGF 1 PKP

0x806002 RGF 1 OP
















0x807402 Thermal OP


















































0x808401 Aux OV PKP

0x808402 Aux OV OP
































































0x80D002 BF1 OP

0x80D008 BF1 Retrip










0x80D700 Sync1 OK



























0x80E840 AR1 Close





















































FC135 unsigned 32 bits Device Status

0x00040000 Self-Test Fault

0x00080000 Maintenance

0x00100000 In Service

0x00200000 SP Group 6 Active





0x04000000 Pickup State

0x08000000 Breaker Connected

0x10000000 Breaker Closed

0x20000000 Breaker Tripped

0x40000000 Alarm

0x80000000 Trip

FC142 unsigned 32 bits FlexLogic Bit Field (EEETTTTTTTSSSSSS)

0x200 CI 1 On

0x201 CI 2 On

0x202 CI 3 On

0x203 CI 4 On

0x204 CI 5 On

0x205 CI 6 On

0x206 CI 7 On

0x207 CI 8 On

0x208 CI 9 On

0x209 CI 10 On

0x20A CI 11 On

0x20B CI 12 On




0x20C CI 13 On

0x20D CI 14 On

0x20E CI 15 On

0x20F CI 16 On

0x210 CI 17 On

0x211 CI 18 On

0x212 CI 19 On

0x213 CI 20 On

0x214 CI 21 On

0x215 CI 22 On

0x216 CI 23 On

0x217 CI 24 On

0x218 CI 25 On

0x219 CI 26 On

0x21A CI 27 On

0x21B CI 28 On

0x21C CI 29 On

0x21D CI 30 On

0x21E CI 31 On

0x21F CI 32 On

0x220 CI 33 On

0x221 CI 34 On

0x222 CI 35 On

0x223 CI 36 On

0x224 CI 37 On

0x225 CI 38 On

0x226 CI 39 On

0x227 CI 40 On

0x228 CI 41 On

0x229 CI 42 On

0x22A CI 43 On

0x22B CI 44 On

0x22C CI 45 On

0x22D CI 46 On

0x22E CI 47 On

0x22F CI 48 On

0x230 CI 49 On

0x231 CI 50 On

0x232 CI 51 On

0x233 CI 52 On

0x234 CI 53 On

0x235 CI 54 On

0x236 CI 55 On

0x237 CI 56 On

0x238 CI 57 On

0x239 CI 58 On

0x23A CI 59 On




0x23B CI 60 On

0x23C CI 61 On

0x23D CI 62 On

0x23E CI 63 On

0x23F CI 64 On

0x240 CI 65 On

0x241 CI 66 On

0x242 CI 67 On

0x243 CI 68 On

0x244 CI 69 On

0x245 CI 70 On

0x246 CI 71 On

0x247 CI 72 On

0x248 CI 73 On

0x249 CI 74 On

0x24A CI 75 On

0x24B CI 76 On

0x24C CI 77 On

0x24D CI 78 On

0x24E CI 79 On

0x24F CI 80 On

0x250 CI 81 On

0x251 CI 82 On

0x252 CI 83 On

0x253 CI 84 On

0x254 CI 85 On

0x255 CI 86 On

0x256 CI 87 On

0x257 CI 88 On

0x258 CI 89 On

0x259 CI 90 On

0x25A CI 91 On

0x25B CI 92 On

0x25C CI 93 On

0x25D CI 94 On

0x25E CI 95 On

0x25F CI 96 On

0x300 CI 1 Off

0x301 CI 2 Off

0x302 CI 3 Off

0x303 CI 4 Off

0x304 CI 5 Off

0x305 CI 6 Off

0x306 CI 7 Off

0x307 CI 8 Off

0x308 CI 9 Off

0x309 CI 10 Off




0x30A CI 11 Off

0x30B CI 12 Off

0x30C CI 13 Off

0x30D CI 14 Off

0x30E CI 15 Off

0x30F CI 16 Off

0x310 CI 17 Off

0x311 CI 18 Off

0x312 CI 19 Off

0x313 CI 20 Off

0x314 CI 21 Off

0x315 CI 22 Off

0x316 CI 23 Off

0x317 CI 24 Off

0x318 CI 25 Off

0x319 CI 26 Off

0x31A CI 27 Off

0x31B CI 28 Off

0x31C CI 29 Off

0x31D CI 30 Off

0x31E CI 31 Off

0x31F CI 32 Off

0x320 CI 33 Off

0x321 CI 34 Off

0x322 CI 35 Off

0x323 CI 36 Off

0x324 CI 37 Off

0x325 CI 38 Off

0x326 CI 39 Off

0x327 CI 40 Off

0x328 CI 41 Off

0x329 CI 42 Off

0x32A CI 43 Off

0x32B CI 44 Off

0x32C CI 45 Off

0x32D CI 46 Off

0x32E CI 47 Off

0x32F CI 48 Off

0x330 CI 49 Off

0x331 CI 50 Off

0x332 CI 51 Off

0x333 CI 52 Off

0x334 CI 53 Off

0x335 CI 54 Off

0x336 CI 55 Off

0x337 CI 56 Off

0x338 CI 57 Off




0x339 CI 58 Off

0x33A CI 59 Off

0x33B CI 60 Off

0x33C CI 61 Off

0x33D CI 62 Off

0x33E CI 63 Off

0x33F CI 64 Off

0x340 CI 65 Off

0x341 CI 66 Off

0x342 CI 67 Off

0x343 CI 68 Off

0x344 CI 69 Off

0x345 CI 70 Off

0x346 CI 71 Off

0x347 CI 72 Off

0x348 CI 73 Off

0x349 CI 74 Off

0x34A CI 75 Off

0x34B CI 76 Off

0x34C CI 77 Off

0x34D CI 78 Off

0x34E CI 79 Off

0x34F CI 80 Off

0x350 CI 81 Off

0x351 CI 82 Off

0x352 CI 83 Off

0x353 CI 84 Off

0x354 CI 85 Off

0x355 CI 86 Off

0x356 CI 87 Off

0x357 CI 88 Off

0x358 CI 89 Off

0x359 CI 90 Off

0x35A CI 91 Off

0x35B CI 92 Off

0x35C CI 93 Off

0x35D CI 94 Off

0x35E CI 95 Off

0x35F CI 96 Off

0x400 VI 1 On

0x401 VI 2 On

0x402 VI 3 On

0x403 VI 4 On

0x404 VI 5 On

0x405 VI 6 On

0x406 VI 7 On

0x407 VI 8 On




0x408 VI 9 On

0x409 VI 10 On

0x40A VI 11 On

0x40B VI 12 On

0x40C VI 13 On

0x40D VI 14 On

0x40E VI 15 On

0x40F VI 16 On

0x410 VI 17 On

0x411 VI 18 On

0x412 VI 19 On

0x413 VI 20 On

0x414 VI 21 On

0x415 VI 22 On

0x416 VI 23 On

0x417 VI 24 On

0x418 VI 25 On

0x419 VI 26 On

0x41A VI 27 On

0x41B VI 28 On

0x41C VI 29 On

0x41D VI 30 On

0x41E VI 31 On

0x41F VI 32 On

0x500 VI 1 Off

0x501 VI 2 Off

0x502 VI 3 Off

0x503 VI 4 Off

0x504 VI 5 Off

0x505 VI 6 Off

0x506 VI 7 Off

0x507 VI 8 Off

0x508 VI 9 Off

0x509 VI 10 Off

0x50A VI 11 Off

0x50B VI 12 Off

0x50C VI 13 Off

0x50D VI 14 Off

0x50E VI 15 Off

0x50F VI 16 Off

0x510 VI 17 Off

0x511 VI 18 Off

0x512 VI 19 Off

0x513 VI 20 Off

0x514 VI 21 Off

0x515 VI 22 Off

0x516 VI 23 Off




0x517 VI 24 Off

0x518 VI 25 Off

0x519 VI 26 Off

0x51A VI 27 Off

0x51B VI 28 Off

0x51C VI 29 Off

0x51D VI 30 Off

0x51E VI 31 Off

0x51F VI 32 Off

0x600 VO 1 On

0x601 VO 2 On

0x602 VO 3 On

0x603 VO 4 On

0x604 VO 5 On

0x605 VO 6 On

0x606 VO 7 On

0x607 VO 8 On

0x608 VO 9 On

0x609 VO 10 On

0x60A VO 11 On

0x60B VO 12 On

0x60C VO 13 On

0x60D VO 14 On

0x60E VO 15 On

0x60F VO 16 On

0x610 VO 17 On

0x611 VO 18 On

0x612 VO 19 On

0x613 VO 20 On

0x614 VO 21 On

0x615 VO 22 On

0x616 VO 23 On

0x617 VO 24 On

0x618 VO 25 On

0x619 VO 26 On

0x61A VO 27 On

0x61B VO 28 On

0x61C VO 29 On

0x61D VO 30 On

0x61E VO 31 On

0x61F VO 32 On

0x700 VO 1 Off

0x701 VO 2 Off

0x702 VO 3 Off

0x703 VO 4 Off

0x704 VO 5 Off

0x705 VO 6 Off




0x706 VO 7 Off

0x707 VO 8 Off

0x708 VO 9 Off

0x709 VO 10 Off

0x70A VO 11 Off

0x70B VO 12 Off

0x70C VO 13 Off

0x70D VO 14 Off

0x70E VO 15 Off

0x70F VO 16 Off

0x710 VO 17 Off

0x711 VO 18 Off

0x712 VO 19 Off

0x713 VO 20 Off

0x714 VO 21 Off

0x715 VO 22 Off

0x716 VO 23 Off

0x717 VO 24 Off

0x718 VO 25 Off

0x719 VO 26 Off

0x71A VO 27 Off

0x71B VO 28 Off

0x71C VO 29 Off

0x71D VO 30 Off

0x71E VO 31 Off

0x71F VO 32 Off

0x800 Rly 1 On

0x801 Rly 2 On

0x802 Rly 3 On

0x803 Rly 4 On

0x804 Rly 5 On

0x805 Rly 6 On

0x806 Rly 7 On

0x807 Rly 8 On

0x808 Rly 9 On

0x809 Rly 10 On

0x80A Rly 11 On

0x80B Rly 12 On

0x80C Rly 13 On

0x80D Rly 14 On

0x80E Rly 15 On

0x80F Rly 16 On

0x810 Rly 17 On

0x811 Rly 18 On

0x812 Rly 19 On

0x813 Rly 20 On

0x814 Rly 21 On




0x815 Rly 22 On

0x816 Rly 23 On

0x817 Rly 24 On

0x818 Rly 25 On

0x819 Rly 26 On

0x81A Rly 27 On

0x81B Rly 28 On

0x81C Rly 29 On

0x81D Rly 30 On

0x81E Rly 31 On

0x81F Rly 32 On

0x900 Rly 1 Off

0x901 Rly 2 Off

0x902 Rly 3 Off

0x903 Rly 4 Off

0x904 Rly 5 Off

0x905 Rly 6 Off

0x906 Rly 7 Off

0x907 Rly 8 Off

0x908 Rly 9 Off

0x909 Rly 10 Off

0x90A Rly 11 Off

0x90B Rly 12 Off

0x90C Rly 13 Off

0x90D Rly 14 Off

0x90E Rly 15 Off

0x90F Rly 16 Off

0x910 Rly 17 Off

0x911 Rly 18 Off

0x912 Rly 19 Off

0x913 Rly 20 Off

0x914 Rly 21 Off

0x915 Rly 22 Off

0x916 Rly 23 Off

0x917 Rly 24 Off

0x918 Rly 25 Off

0x919 Rly 26 Off

0x91A Rly 27 Off

0x91B Rly 28 Off

0x91C Rly 29 Off

0x91D Rly 30 Off

0x91E Rly 31 Off

0x91F Rly 32 Off

0xE00 Rem Ip 1 On

0xE01 Rem Ip 2 On

0xE02 Rem Ip 3 On

0xE03 Rem Ip 4 On




0xE04 Rem Ip 5 On

0xE05 Rem Ip 6 On

0xE06 Rem Ip 7 On

0xE07 Rem Ip 8 On

0xE08 Rem Ip 9 On

0xE09 Rem Ip 10 On

0xE0A Rem Ip 11 On

0xE0B Rem Ip 12 On

0xE0C Rem Ip 13 On

0xE0D Rem Ip 14 On

0xE0E Rem Ip 15 On

0xE0F Rem Ip 16 On

0xE10 Rem Ip 17 On

0xE11 Rem Ip 18 On

0xE12 Rem Ip 19 On

0xE13 Rem Ip 20 On

0xE14 Rem Ip 21 On

0xE15 Rem Ip 22 On

0xE16 Rem Ip 23 On

0xE17 Rem Ip 24 On

0xE18 Rem Ip 25 On

0xE19 Rem Ip 26 On

0xE1A Rem Ip 27 On

0xE1B Rem Ip 28 On

0xE1C Rem Ip 29 On

0xE1D Rem Ip 30 On

0xE1E Rem Ip 31 On

0xE1F Rem Ip 32 On

0xF00 Rem Ip 1 Off

0xF01 Rem Ip 2 Off

0xF02 Rem Ip 3 Off

0xF03 Rem Ip 4 Off

0xF04 Rem Ip 5 Off

0xF05 Rem Ip 6 Off

0xF06 Rem Ip 7 Off

0xF07 Rem Ip 8 Off

0xF08 Rem Ip 9 Off

0xF09 Rem Ip 10 Off

0xF0A Rem Ip 11 Off

0xF0B Rem Ip 12 Off

0xF0C Rem Ip 13 Off

0xF0D Rem Ip 14 Off

0xF0E Rem Ip 15 Off

0xF0F Rem Ip 16 Off

0xF10 Rem Ip 17 Off

0xF11 Rem Ip 18 Off

0xF12 Rem Ip 19 Off




0xF13 Rem Ip 20 Off

0xF14 Rem Ip 21 Off

0xF15 Rem Ip 22 Off

0xF16 Rem Ip 23 Off

0xF17 Rem Ip 24 Off

0xF18 Rem Ip 25 Off

0xF19 Rem Ip 26 Off

0xF1A Rem Ip 27 Off

0xF1B Rem Ip 28 Off

0xF1C Rem Ip 29 Off

0xF1D Rem Ip 30 Off

0xF1E Rem Ip 31 Off

0xF1F Rem Ip 32 Off

0x2000 End of List

0x2200 NOT

0x2400 XOR

0x2600 LATCH

0x2802 OR (2 Inputs)

0x2803 OR ( 3 Inputs)







0x280A OR ( 10 Inputs)

0x280B OR ( 11 Inputs)

0x280C OR ( 12 Inputs)

0x280D OR ( 13 Inputs)

0x280E OR ( 14 Inputs)

0x280F OR ( 15 Inputs)


0x2A02 AND ( 2 Inputs)








0x2A0A AND ( 10 Inputs)

0x2A0B AND ( 11 Inputs)

0x2A0C AND ( 12 Inputs)

0x2A0D AND ( 13 Inputs)

0x2A0E AND ( 14 Inputs)

0x2A0F AND ( 15 Inputs)





0x2C02 NOR ( 2 Inputs)








0x2C0A NOR ( 10 Inputs)

0x2C0B NOR ( 11 Inputs)

0x2C0C NOR ( 12 Inputs)

0x2C0D NOR ( 13 Inputs)

0x2C0E NOR ( 14 Inputs)

0x2C0F NOR ( 15 Inputs)


0x2E02 NAND ( 2 Inputs)








0x2E0A NAND ( 10 Inputs)

0x2E0B NAND ( 11 Inputs)

0x2E0C NAND ( 12 Inputs)

0x2E0D NAND ( 13 Inputs)

0x2E0E NAND ( 14 Inputs)

0x2E0F NAND ( 15 Inputs)


0x3000 TIMER 1

0x3001 TIMER 2

0x3002 TIMER 3

0x3003 TIMER 4

0x3004 TIMER 5

0x3005 TIMER 6

0x3006 TIMER 7

0x3007 TIMER 8

0x3008 TIMER 9

0x3009 TIMER 10

0x300A TIMER 11

0x300B TIMER 12

0x300C TIMER 13

0x300D TIMER 14

0x300E TIMER 15

0x300F TIMER 16

0x3010 TIMER 17




0x3011 TIMER 18

0x3012 TIMER 19

0x3013 TIMER 20

0x3014 TIMER 21

0x3015 TIMER 22

0x3016 TIMER 23

0x3017 TIMER 24

0x3018 TIMER 25

0x3019 TIMER 26

0x301A TIMER 27

0x301B TIMER 28

0x301C TIMER 29

0x301D TIMER 30

0x301E TIMER 31

0x301F TIMER 32

0x3200 Assign VO 1

0x3201 Assign VO 2

0x3202 Assign VO 3

0x3203 Assign VO 4

0x3204 Assign VO 5

0x3205 Assign VO 6

0x3206 Assign VO 7

0x3207 Assign VO 8

0x3208 Assign VO 9

0x3209 Assign VO 10

0x320A Assign VO 11

0x320B Assign VO 12

0x320C Assign VO 13

0x320D Assign VO 14

0x320E Assign VO 15

0x320F Assign VO 16

0x3210 Assign VO 17

0x3211 Assign VO 18

0x3212 Assign VO 19

0x3213 Assign VO 20

0x3214 Assign VO 21

0x3215 Assign VO 22

0x3216 Assign VO 23

0x3217 Assign VO 24

0x3218 Assign VO 25

0x3219 Assign VO 26

0x321A Assign VO 27

0x321B Assign VO 28

0x321C Assign VO 29

0x321D Assign VO 30

0x321E Assign VO 31

0x321F Assign VO 32




0x3401 Positive One Shot

0x3402 Negative One Shot

0x3403 Dual One Shot

0x800002 Any Trip

0x800202 Any Alarm

0x800802 Any Block

0x800A02 Any PKP

0x800C02 Any OP

0x800E02 Reset OP






0x801402 In-Service

0x801602 Testing ON

0x801604 Testing OFF



0x801C02 Von

0x801C04 Voff

0x801E02 Von

0x801E04 Voff































































0x806001 RGF 1 PKP

0x806002 RGF 1 OP
















0x807402 Thermal OP


















































0x808401 Aux OV PKP

0x808402 Aux OV OP
































































0x80D002 BF1 OP

0x80D008 BF1 Retrip










0x80D700 Sync1 OK







0x80D900 Sync2 OK



























0x80E840 AR1 Close























0x810202 BKR1 52a CI ON

0x810204 BKR1 52a CI OFF

0x810402 BKR1 52b CI ON

0x810404 BKR1 52b CI OFF






























0x814001 Current Dmd PKP

0x814008 Current Dmd PKP A

0x814010 Current Dmd PKP B

0x814020 Current Dmd PKP C

0x814201 RealPwr Dmd PKP

0x814401 ReactvPwr Dmd PKP

0x814601 ApprntPwr Dmd PKP

0x819208 Pos Wthrs Pulse OP

0x819210 Neg Wthrs Pulse OP

0x819220 Pos Varh Pulse OP

0x819240 Neg Varh Pulse OP

















0x819C08 Counter 5 LO

0x819C10 Counter 5 EQL




0x819C20 Counter 5 HI

0x819C40 Counter 5 at Limit

0x819E08 Counter 6 LO

0x819E10 Counter 6 EQL

0x819E20 Counter 6 HI

0x819E40 Counter 6 at Limit





















0x81AA08 Counter 12 LO

0x81AA10 Counter 12 EQL

0x81AA20 Counter 12 HI

0x81AA40 Countr 12 at Limit

0x81AC08 Counter 13 LO

0x81AC10 Counter 13 EQL

0x81AC20 Counter 13 HI

0x81AC40 Countr 13 at Limit

0x81AE08 Counter 14 LO

0x81AE10 Counter 14 EQL

0x81AE20 Counter 14 HI

0x81AE40 Countr 14 at Limit


















0x81BA02 NV Latch 4 ON

0x81BA04 NV Latch 4 OFF

0x81BC02 NV Latch 5 ON

0x81BC04 NV Latch 5 OFF

0x81BE02 NV Latch 6 ON

0x81BE04 NV Latch 6 OFF











0x81CA02 NV Latch 12 ON

0x81CA04 NV Latch 12 OFF

0x81CC02 NV Latch 13 ON

0x81CC04 NV Latch 13 OFF

0x81CE02 NV Latch 14 ON

0x81CE04 NV Latch 14 OFF





0x81D402 PB 1 ON

0x81D404 PB 1 OFF

0x81D602 PB 2 ON

0x81D604 PB 2 OFF

0x81D802 PB 3 ON

0x81D804 PB 3 OFF

0x81DA01 Role Admin Act

0x81DA04 Authentication Lockout

0x81DA10 Authentication Fail

0x81DA20 Unauth Change Attempt

0x81DA40 Role Operator Act

0x81DA80 Role Observer Act

0x81DB00 Radius Srv Unavailable





FC150 unsigned 16 bits 850 Element List

All Elements Available in the 850

1 Any Trip

2 Any Alarm

5 Any Block

6 Any PKP

7 Any OP

8 Reset

9 Setpoint Access

10 Targets Active

11 In Serv.

12 Test Mode

13 Any Major Error

14 Any Minor Error

15 Output Relay 1

16 Output Relay 2

17 Output Relay 3

18 Output Relay 4

21 Critical Fail

22 Comms OK

23 Phase TOC 1

24 Phase TOC 2

26 Phase IOC 1

27 Phase IOC 2

29 Ph Dir OC

30 Ntrl TOC 1

31 Ntrl TOC 2

32 Ntrl IOC 1

33 Ntrl IOC 2

34 Ntrl Dir OC

35 Gnd TOC 1

39 Gnd IOC 1

43 Gnd Dir OC

44 SGnd TOC 1

46 SGnd IOC 1

48 SGnd Dir OC

49 RGF 1

52 Neg Seq TOC 1

54 Neg Seq IOC 1

56 Neg Seq Dir OC

57 BrokenConductor

58 LoadEncr

59 Thermal Model

60 Thermal Model Alrm

61 Ph UV 1

62 Ph UV 2



63 Ph OV 1

64 Ph OV 2

65 Aux UV 1

66 Aux UV 2

67 Aux OV

68 Neutral OV 1

69 Neutral OV 2

70 Neg Seq OV 1

71 Neg Seq OV 2

72 Dir Pwr 1

73 Dir Pwr 2

74 WattMetric 1

75 WattMetric 2

76 UF 1

77 UF 2

78 UF 3

79 UF 4

80 OF 1

81 OF 2

82 Freq RateOfChng1

86 Group 1

87 Group 2

88 Group 3

89 Group 4

90 Group 5

91 Group 6

92 Local Mode

93 Open BKR 1

96 Close BKR 1

99 Trip Bus 1

100 Trip Bus 2

101 Trip Bus 3

102 Trip Bus 4

103 Trip Bus 5

104 Trip Bus 6

105 BKR Fail 1

108 Sync Check 1

110 Manual Cls Blk

111 VTFF 1

113 CLP 1

115 UV Restore

116 Bus Transfer

117 AR1

118 AR1 Shot Cnt

119 AR1 Shot Cnt Reduction

120 AR1 Rate Supervision

125 UF Restore




126 BKR1 Status Closed

127 BKR1 Status Opened

128 BKR1 Status Unknown

129 BKR1 Status Disconnected

130 BKR1 52a Contact

131 BKR1 52b Contact

144 TripCoilMon 1

147 CloseCoilMon 1

150 Breaker 1 Arcing Current

153 Breaker1 Health

156 Breaker1 Arc Health

159 PF 1

160 PF 2

161 Current Dmd

162 RealPwrDmd

163 ReactivePwrDmd

164 ApparentPwrDmd

165 Fault Locator

202 Pulse Out

203 Digital Counter 1
















219 NV Latch 1

220 NV Latch 2

221 NV Latch 3

222 NV Latch 4

223 NV Latch 5

224 NV Latch 6

225 NV Latch 7

226 NV Latch 8

227 NV Latch 9

228 NV Latch 10

229 NV Latch 11

230 NV Latch 12




231 NV Latch 13

232 NV Latch 14

233 NV Latch 15

234 NV Latch 16

235 PB 1

236 PB 2

237 PB 3

238 Security Login

239 Data Logger

240 Transfer Initiated

FC151 unsigned 16 bits Element Status

This format shows the meaning of the Element Status values.

Refer to Format FC142 for exact information for each element.

There are cases where different meaning is given to

each bit . PKP meaning "Open", for example.

0x0000 None Active

0x0001 Element PKP

0x0002 Element OP

0x0008 Phase A Pickup

0x0010 Phase B Pickup

0x0020 Phase C Pickup

0x0040 Phase A Operate

0x0080 Phase B Operate

0x0100 Phase C Operate

0x0200 Element Is Latched

0x0400 Configurable Type

0x0800 Alarm Type

0x1000 Trip Type

0x2000 Flexlogic Element

FC157 unsigned 16 bits LED Colour

0 Off

1 Red

2 Green

3 Orange

FC161 unsigned 16 bits OC Curve Selection

0 IEEE Extr. Inverse

1 IEEE Very Inverse

2 IEEE Mod Inverse

3 ANSI Extr. Inverse

4 ANSI Very Inverse

5 ANSI Norm Inverse

6 ANSI Mod Inverse

7 Definite Time

8 IEC Curve A

9 IEC Curve B

10 IEC Curve C

11 IEC Short Inverse




12 IAC Extr. Inverse

13 IAC Very Inverse

14 IAC Inverse

15 IAC Short Inverse

16 Flex Curve A

17 Flex Curve B

18 Flex Curve C

19 Flex Curve D

20 I2t

21 I4t

FC161A unsigned 16 bits Neutral OV Curve Selection

7 Definite Time

16 Flex Curve A

17 Flex Curve B

18 Flex Curve C

19 Flex Curve D

FC161B unsigned 16 bits Wattmetric Ground Fault Curve

5 Inverse

7 Definite Time

16 Flex Curve A

17 Flex Curve B

18 Flex Curve C

19 Flex Curve D

FC165 unsigned 16 bits Simulation Status

0 Disabled

1 Prefault State

2 Fault State

3 Postfault State

4 Harmonics

FC169 unsigned 16 bits Month

0 Not Set

1 January

2 February

3 March

4 April

5 May

6 June

7 July

8 August

9 September

10 October

11 November

12 December

FC170 unsigned 16 bits Count of Week

0 Not Set

1 1st

2 2nd




3 3rd

4 4th

5 Last

FC171 unsigned 16 bits Weekdays

0 Not Set

1 SUN

2 MON

3 TUE

4 WED

5 THU

6 FRI

7 SAT

FC176 unsigned 16 bits Auxiliary VT Connection

0 Vab VT

1 Vbc VT

2 Vca VT

3 Van VT

4 Vbn VT

5 Vcn VT

6 Vn

FC181 unsigned 16 bits Transient Recorder Trigger Mode

0 Overwrite

1 Protected

FC182 unsigned 16 bits Transient Recorder Samples Per Cycle

0 128 /c

1 64 /c

2 32 /c

3 16 /c

4 8 /c

FC183 unsigned 16 bits Data Logger Sample Rate

0 1 Cycle

1 1 Second

2 30 Seconds

3 1 Minute

4 15 Minutes

5 30 Minutes

6 1 Hour

FC186 unsigned 16 bits DataLogger Collection Mode

0 Continuous

1 Triggered

FC191 unsigned 32 bits Remote Input Operation

0x00000001 Remote Input 1



































FC192 unsigned 32 bits Remote Output Operation

0x00000001 Remote Output 1



































FC194 unsigned 32 bits Contact Input Operation

0x00000001 Contact Input 1
































FC198 unsigned 32 bits Output Relay Operation




Each bit corresponds to a particular output relay, and uses format FC126A

0x00000004 Output Relay 3





FC198A unsigned 32 bits Relay Operation

Each bit corresponds to a particular output relay, and uses format FC126A

0x00000004 Relay 3

0x00000008 Relay 4

0x00000010 Relay 5

0x00000020 Relay 6

0x00000040 Relay 7

FC199 unsigned 16 bits Output Relay Type

0 Self-Reset

1 Latched

FC208 unsigned 16 bits Relay Operation (Failsafe, Non-Failsafe)

0 Non-Failsafe

1 Failsafe

FC209 unsigned 16 bits Rear 485 Port Protocol

0 Modbus

1 IEC60870-5-103

2 DNP 3.0

FC210 unsigned 16 bits RS 485 Baud Rate

0 9600 baud

1 19200 baud

2 38400 baud

3 57600 baud

4 115200 baud

FC211 unsigned 16 bits RS 485 Parity

0 None

1 Odd

2 Even

FC212 unsigned 16 bits ASDU Ident Type

0 3

1 9

FC217 unsigned 16 bits Ethernet Duplicate

0 Discard

1 Accept

FC218 unsigned 16 bits Ethernet Mode

1 Full-Duplex

FC219 unsigned 16 bits Ethernet Port 4/5 Operation

0 Independent

1 LLA




2 PRP

FC220 unsigned 16 bits IRIG-B Signal Type

0 None

1 DC Shift

2 Amplitude Mod.

FC226 unsigned 16 bits WiFi Infrastructure Security

0 None

1 WPA2-PSK

FC228 unsigned 16 bits 61850 Status

0x0001 Comms NV OK

0x0002 Comms NV Done

0x0004 Comms V OK

0x0008 Comms V Done

0x0010 Main NV OK

0x0020 Main NV Done

0x0040 Main V OK

0x0080 Main V Done

0x0100 NR. Error CID

0x0200 R. Default CID

0x0400 R. Saving CID to Flash

0x0800 CID Handling Done

FC229 unsigned 16 bits DNP Analog Input Point Scale Factor

1 / 0.001

2 / 0.01

3 / 0.1

4 / 1

5 / 10

6 / 100

7 / 1000

8 / 10000

9 / 100000

FC230 unsigned 16 bits DNP and 103 Binary Output Points

0 Off

1 Virtual Input 1

2 Virtual Input 2

3 Virtual Input 3

4 Virtual Input 4

5 Virtual Input 5

6 Virtual Input 6

7 Virtual Input 7

8 Virtual Input 8

9 Virtual Input 9

10 Virtual Input 10

11 Virtual Input 11

12 Virtual Input 12

13 Virtual Input 13

14 Virtual Input 14




15 Virtual Input 15

16 Virtual Input 16

17 Virtual Input 17

18 Virtual Input 18

19 Virtual Input 19

20 Virtual Input 20

21 Virtual Input 21

22 Virtual Input 22

23 Virtual Input 23

24 Virtual Input 24

25 Virtual Input 25

26 Virtual Input 26

27 Virtual Input 27

28 Virtual Input 28

29 Virtual Input 29

30 Virtual Input 30

31 Virtual Input 31

32 Virtual Input 32

33 FC: Reset

34 FC: Open BKR1

35 FC: Close BKR1

FC231 unsigned 16 bits DNP Object 1 Default Variation

1 1

2 2


1 1

2 2


1 1

2 2

5 5

6 6


1 1

2 2

9 9

10 10


1 1

2 2

5 5

6 6


1 1

2 2

5 5

6 6





1 1

2 2

3 3

4 4

5 5


1 1

2 2

3 3

4 4

5 5

7 7

FC239 unsigned 16 bits DNP/Ethernet Channel Port

0 None

1 Network-TCP

2 Network-UDP

FC239A unsigned 16 bits IEC104 Channel Port

0 None

1 Network-TCP

FC240 unsigned 32 bits Self Test Error

0 No Error

0x00000001 Order Code Error

0x00000002 System Health Error

0x00000004 CPU Serial# Invalid

0x00000008 Slot F IO S/N Invalid

0x00000010 Slot G IO S/N Invalid

0x00000020 Slot H IO S/N Invalid

0x00000040 Slot B IO S/N Invalid

0x00000080 Slot C IO S/N Invalid

0x00000100 Slot J IO S/N Invalid

0x00000200 Slot K IO S/N Invalid

0x00000400 COMM Serial# Invalid

0x00000800 FP Serial# Invalid

0x00001000 PSU Serial# Invalid

0x00002000 Calibration Error

0x00004000 RTC Error

0x00008000 Reserved

0x00010000 FLASH Error

0x00020000 EEPROM Error

0x00040000 Reserved

0x00080000 Reserved

0x00100000 Reserved

0x00200000 Ambient Temperature >80C

0x00400000 Voltage Rail Error

0x00800000 Critical Path Error

0x01000000 Reserved




0x02000000 Reserved

0x04000000 Analog Voltage Rail Error

0x08000000 Reserved

0x10000000 Reserved

0x20000000 Reserved

0x40000000 Reserved

0x80000000 Reserved

FC240A unsigned 32 bits Minor Self Test Error

0 No Error

0x00000001 Order Code Error

0x00000002 Event Rate High

0x00000004 CPU Serial# Invalid

0x00000008 Slot F IO S/N Invalid

0x00000010 Slot G IO S/N Invalid

0x00000020 Slot H IO S/N Invalid

0x00000040 Slot B IO S/N Invalid

0x00000080 Slot C IO S/N Invalid

0x00000100 Slot J IO S/N Invalid

0x00000200 Slot K IO S/N Invalid

0x00000400 COMM Serial# Invalid

0x00000800 FP Serial# Invalid

0x00001000 PSU Serial# Invalid

0x00002000 Clock Not Set

0x00004000 RTC Error

0x00008000 COMM Error #1

0x00010000 FLASH Error

0x00020000 COMM Error #2

0x00040000 Link Error Primary

0x00080000 Traffic Error Primary

0x00100000 Comms Checksum Error

0x00200000 Ambient Temperature >80C

0x00400000 Link Error Secondary

0x00800000 Traffic Error Secondary

0x01000000 Version Mismatch

0x02000000 Invalid MAC Address

0x04000000 SPI Error

0x08000000 CAN_1 Error

0x10000000 CAN_2 Error

0x20000000 IRIG-B Error

0x40000000 Product Serial Invalid

0x80000000 SelfTestFWUpdate

FC252 unsigned 16 bits Security Users

1 Administrator

6 Operator

FC253 unsigned 16 bits Trend

0 Decreasing

1 Increasing




2 Bi-directional

FC254 unsigned 16 bits Measurement Type

0 Blk Interval

1 Exponential

2 Rolling Dmd

FC255 unsigned 16 bits Thermal 90% Response Time

0 5 min

1 10 min

2 15 min

3 20 min

4 30 min

FC256 unsigned 16 bits Phase IOC Input

0 Phasor

1 RMS

FC258 unsigned 16 bits CT Secondary

0 1:00 AM

1 5:00 AM

FC259 unsigned 16 bits Source Polarity of ph CTs & VTs

0 Same

1 Reverse

FC260 unsigned 16 bits Mode

0 Phase to Ground

1 Phase to Phase

FC261 unsigned 16 bits Voltages Required For Operation

0 Any One

1 Any Two

2 All Three

FC262 unsigned 16 bits Breaker Failure Function

0 Disabled

1 Retrip

2 Latched Alarm

3 Alarm

4 Configurable

FC263 unsigned 16 bits Breaker Failure Supervision

0 Current

1 52b & Current

2 52b

FC264 unsigned 16 bits Breaker Status

0 State Unknown

1 Opened

2 Closed

3 Disconnected

4 Not Configured

FC265 unsigned 16 bits TOC Reset

0 Instantaneous

1 Timed

FC266 unsigned 32 bits Contact Input Selection




0x0000 Off











0x20A Contact Input 11

0x20B Contact Input 12

0x20C Contact Input 13

0x20D Contact Input 14

FC267 unsigned 16 bits Supervision Function

0 Disabled

1 Lockout

2 Alarm

FC268 unsigned 16 bits Distance Measurement Unit

0 Miles

1 Km

FC269 unsigned 16 bits VT Substitution

0 None

1 I0

2 V0

FC270 unsigned 16 bits Type Of Fault

0 N/A

1 AG

2 BG

3 CG

4 AB

5 BC

6 CA

7 ABG

8 ACG

9 BCG

10 ABC

FC271 unsigned 16 bits Non-Volatile Latch Type

0 Reset-Dominant

1 Set-Dominant

FC272 unsigned 16 bits Directional Polarizing Voltage

0 Calculated V0

1 Measured VX

FC272A unsigned 16 bits Wattmetric Ground Fault Voltage

0 Calculated VN

1 Measured VX




FC273 unsigned 16 bits FlexAnalog Parameters

0 Off

31270 J1 Ia

31272 J1 Ib

31274 J1 Ic

31276 J1 Ig

31278 J1 In

31280 J1 Ia RMS

31282 J1 Ib RMS

31284 J1 Ic RMS

31286 J1 Ig RMS

31288 J1 In RMS

31290 J1 Ia Angle

31291 J1 Ib Angle

31292 J1 Ic Angle

31293 J1 Ig Angle

31294 J1 In Angle

31295 J1 I AVG

31297 J1 I_0

31299 J1 I_1

31301 J1 I_2

31303 J1 I_0 Angle

31304 J1 I_1 Angle

31305 J1 I_2 Angle

31306 J1 Igd

31308 J1 Igd Angle

31309 J1 Load

31320 K1 Ia

31322 K1 Ib

31324 K1 Ic

31326 K1 Isg

31328 K1 In

31330 K1 Ia RMS

31332 K1 Ib RMS

31334 K1 Ic RMS

31336 K1 Isg RMS

31338 K1 In RMS

31340 K1 Ia Angle

31341 K1 Ib Angle

31342 K1 Ic Angle

31343 K1 Isg Angle

31344 K1 In Angle

31345 K1 I AVG

31347 K1 I_0

31349 K1 I_1

31351 K1 I_2

31353 K1 I_0 Angle




31354 K1 I_1 Angle

31355 K1 I_2 Angle

31356 K1 Igd

31358 K1 Igd Angle

31359 K1 Load

31370 K2 Ia

31372 K2 Ib

31374 K2 Ic

31376 K2 Ig

31378 K2 In

31380 K2 Ia RMS

31382 K2 Ib RMS

31384 K2 Ic RMS

31386 K2 Ig RMS

31388 K2 In RMS

31390 K2 Ia Angle

31391 K2 Ib Angle

31392 K2 Ic Angle

31393 K2 Ig Angle

31394 K2 In Angle

31395 K2 I AVG

31397 K2 I_0

31399 K2 I_1

31401 K2 I_2

31403 K2 I_0 Angle

31404 K2 I_1 Angle

31405 K2 I_2 Angle

31406 K2 Igd

31408 K2 Igd Angle

31409 K2 Load

31430 J2 Van

31432 J2 Vbn

31434 J2 Vcn

31436 J2 Vab

31438 J2 Vbc

31440 J2 Vca

31442 J2 Vn

31444 J2 Vaux

31446 J2 Van RMS

31448 J2 Vbn RMS

31450 J2 Vcn RMS

31452 J2 Vab RMS

31454 J2 Vbc RMS

31456 J2 Vca RMS

31458 J2 Vn RMS

31460 J2 Vaux RMS

31462 J2 Van Angle




31463 J2 Vbn Angle

31464 J2 Vcn Angle

31465 J2 Vab Angle

31466 J2 Vbc Angle

31467 J2 Vca Angle

31468 J2 Vn Angle

31469 J2 Vaux Angle

31470 J2 V AVG L-L

31472 J2 V AVG L-N

31474 J2 V0

31476 J2 V1

31478 J2 V2

31480 J2 V0 Angle

31481 J2 V1 Angle

31482 J2 V2 Angle

31493 K2 Van

31495 K2 Vbn

31497 K2 Vcn

31499 K2 Vab

31501 K2 Vbc

31503 K2 Vca

31505 K2 Vn

31507 K2 Vaux

31509 K2 Van RMS

31511 K2 Vbn RMS

31513 K2 Vcn RMS

31515 K2 Vab RMS

31517 K2 Vbc RMS

31519 K2 Vca RMS

31521 K2 Vn RMS

31523 K2 Vaux RMS

31525 K2 Van Angle

31526 K2 Vbn Angle

31527 K2 Vcn Angle

31528 K2 Vab Angle

31529 K2 Vbc Angle

31530 K2 Vca Angle

31531 K2 Vn Angle

31532 K2 Vaux Angle

31533 K2 V AVG L-L

31535 K2 V AVG L-N

31537 K2 V0

31539 K2 V1

31541 K2 V2

31543 K2 V0 Angle

31544 K2 V1 Angle

31545 K2 V2 Angle




31610 J1 Phase A THD

31611 J1 Phase B THD

31612 J1 Phase C THD

31613 J1 Phase A 2

31614 J1 Phase B 2

31615 J1 Phase C 2

31616 J1 Phase A 3

31617 J1 Phase B 3

31618 J1 Phase C 3

31619 J1 Phase A 4

31620 J1 Phase B 4

31621 J1 Phase C 4

31622 J1 Phase A 5

31623 J1 Phase B 5

31624 J1 Phase C 5

31625 J1 Phase A 6

31626 J1 Phase B 6

31627 J1 Phase C 6

31628 J1 Phase A 7

31629 J1 Phase B 7

31630 J1 Phase C 7

31631 J1 Phase A 8

31632 J1 Phase B 8

31633 J1 Phase C 8

31634 J1 Phase A 9

31635 J1 Phase B 9

31636 J1 Phase C 9

31637 J1 Phase A 10

31638 J1 Phase B 10

31639 J1 Phase C 10

31640 J1 Phase A 11

31641 J1 Phase B 11

31642 J1 Phase C 11

31643 J1 Phase A 12

31644 J1 Phase B 12

31645 J1 Phase C 12

31646 J1 Phase A 13

31647 J1 Phase B 13

31648 J1 Phase C 13

31649 J1 Phase A 14

31650 J1 Phase B 14

31651 J1 Phase C 14

31652 J1 Phase A 15

31653 J1 Phase B 15

31654 J1 Phase C 15

31655 J1 Phase A 16

31656 J1 Phase B 16




31657 J1 Phase C 16

31658 J1 Phase A 17

31659 J1 Phase B 17

31660 J1 Phase C 17

31661 J1 Phase A 18

31662 J1 Phase B 18

31663 J1 Phase C 18

31664 J1 Phase A 19

31665 J1 Phase B 19

31666 J1 Phase C 19

31667 J1 Phase A 20

31668 J1 Phase B 20

31669 J1 Phase C 20

31670 J1 Phase A 21

31671 J1 Phase B 21

31672 J1 Phase C 21

31673 J1 Phase A 22

31674 J1 Phase B 22

31675 J1 Phase C 22

31676 J1 Phase A 23

31677 J1 Phase B 23

31678 J1 Phase C 23

31679 J1 Phase A 24

31680 J1 Phase B 24

31681 J1 Phase C 24

31682 J1 Phase A 25

31683 J1 Phase B 25

31684 J1 Phase C 25

31695 J2 Phase A THD

31696 J2 Phase B THD

31697 J2 Phase C THD

31698 J2 Phase A 2

31699 J2 Phase B 2

31700 J2 Phase C 2

31701 J2 Phase A 3

31702 J2 Phase B 3

31703 J2 Phase C 3

31704 J2 Phase A 4

31705 J2 Phase B 4

31706 J2 Phase C 4

31707 J2 Phase A 5

31708 J2 Phase B 5

31709 J2 Phase C 5

31710 J2 Phase A 6

31711 J2 Phase B 6

31712 J2 Phase C 6

31713 J2 Phase A 7




31714 J2 Phase B 7

31715 J2 Phase C 7

31716 J2 Phase A 8

31717 J2 Phase B 8

31718 J2 Phase C 8

31719 J2 Phase A 9

31720 J2 Phase B 9

31721 J2 Phase C 9

31722 J2 Phase A 10

31723 J2 Phase B 10

31724 J2 Phase C 10

31725 J2 Phase A 11

31726 J2 Phase B 11

31727 J2 Phase C 11

31728 J2 Phase A 12

31729 J2 Phase B 12

31730 J2 Phase C 12

31731 J2 Phase A 13

31732 J2 Phase B 13

31733 J2 Phase C 13

31734 J2 Phase A 14

31735 J2 Phase B 14

31736 J2 Phase C 14

31737 J2 Phase A 15

31738 J2 Phase B 15

31739 J2 Phase C 15

31740 J2 Phase A 16

31741 J2 Phase B 16

31742 J2 Phase C 16

31743 J2 Phase A 17

31744 J2 Phase B 17

31745 J2 Phase C 17

31746 J2 Phase A 18

31747 J2 Phase B 18

31748 J2 Phase C 18

31749 J2 Phase A 19

31750 J2 Phase B 19

31751 J2 Phase C 19

31752 J2 Phase A 20

31753 J2 Phase B 20

31754 J2 Phase C 20

31755 J2 Phase A 21

31756 J2 Phase B 21

31757 J2 Phase C 21

31758 J2 Phase A 22

31759 J2 Phase B 22

31760 J2 Phase C 22




31761 J2 Phase A 23

31762 J2 Phase B 23

31763 J2 Phase C 23

31764 J2 Phase A 24

31765 J2 Phase B 24

31766 J2 Phase C 24

31767 J2 Phase A 25

31768 J2 Phase B 25

31769 J2 Phase C 25

31780 K1 Phase A THD

31781 K1 Phase B THD

31782 K1 Phase C THD

31783 K1 Phase A 2

31784 K1 Phase B 2

31785 K1 Phase C 2

31786 K1 Phase A 3

31787 K1 Phase B 3

31788 K1 Phase C 3

31789 K1 Phase A 4

31790 K1 Phase B 4

31791 K1 Phase C 4

31792 K1 Phase A 5

31793 K1 Phase B 5

31794 K1 Phase C 5

31795 K1 Phase A 6

31796 K1 Phase B 6

31797 K1 Phase C 6

31798 K1 Phase A 7

31799 K1 Phase B 7

31800 K1 Phase C 7

31801 K1 Phase A 8

31802 K1 Phase B 8

31803 K1 Phase C 8

31804 K1 Phase A 9

31805 K1 Phase B 9

31806 K1 Phase C 9

31807 K1 Phase A 10

31808 K1 Phase B 10

31809 K1 Phase C 10

31810 K1 Phase A 11

31811 K1 Phase B 11

31812 K1 Phase C 11

31813 K1 Phase A 12

31814 K1 Phase B 12

31815 K1 Phase C 12

31816 K1 Phase A 13

31817 K1 Phase B 13




31818 K1 Phase C 13

31819 K1 Phase A 14

31820 K1 Phase B 14

31821 K1 Phase C 14

31822 K1 Phase A 15

31823 K1 Phase B 15

31824 K1 Phase C 15

31825 K1 Phase A 16

31826 K1 Phase B 16

31827 K1 Phase C 16

31828 K1 Phase A 17

31829 K1 Phase B 17

31830 K1 Phase C 17

31831 K1 Phase A 18

31832 K1 Phase B 18

31833 K1 Phase C 18

31834 K1 Phase A 19

31835 K1 Phase B 19

31836 K1 Phase C 19

31837 K1 Phase A 20

31838 K1 Phase B 20

31839 K1 Phase C 20

31840 K1 Phase A 21

31841 K1 Phase B 21

31842 K1 Phase C 21

31843 K1 Phase A 22

31844 K1 Phase B 22

31845 K1 Phase C 22

31846 K1 Phase A 23

31847 K1 Phase B 23

31848 K1 Phase C 23

31849 K1 Phase A 24

31850 K1 Phase B 24

31851 K1 Phase C 24

31852 K1 Phase A 25

31853 K1 Phase B 25

31854 K1 Phase C 25

31865 K2 Phase A THD

31866 K2 Phase B THD

31867 K2 Phase C THD

31868 K2 Phase A 2

31869 K2 Phase B 2

31870 K2 Phase C 2

31871 K2 Phase A 3

31872 K2 Phase B 3

31873 K2 Phase C 3

31874 K2 Phase A 4




31875 K2 Phase B 4

31876 K2 Phase C 4

31877 K2 Phase A 5

31878 K2 Phase B 5

31879 K2 Phase C 5

31880 K2 Phase A 6

31881 K2 Phase B 6

31882 K2 Phase C 6

31883 K2 Phase A 7

31884 K2 Phase B 7

31885 K2 Phase C 7

31886 K2 Phase A 8

31887 K2 Phase B 8

31888 K2 Phase C 8

31889 K2 Phase A 9

31890 K2 Phase B 9

31891 K2 Phase C 9

31892 K2 Phase A 10

31893 K2 Phase B 10

31894 K2 Phase C 10

31895 K2 Phase A 11

31896 K2 Phase B 11

31897 K2 Phase C 11

31898 K2 Phase A 12

31899 K2 Phase B 12

31900 K2 Phase C 12

31901 K2 Phase A 13

31902 K2 Phase B 13

31903 K2 Phase C 13

31904 K2 Phase A 14

31905 K2 Phase B 14

31906 K2 Phase C 14

31907 K2 Phase A 15

31908 K2 Phase B 15

31909 K2 Phase C 15

31910 K2 Phase A 16

31911 K2 Phase B 16

31912 K2 Phase C 16

31913 K2 Phase A 17

31914 K2 Phase B 17

31915 K2 Phase C 17

31916 K2 Phase A 18

31917 K2 Phase B 18

31918 K2 Phase C 18

31919 K2 Phase A 19

31920 K2 Phase B 19

31921 K2 Phase C 19




31922 K2 Phase A 20

31923 K2 Phase B 20

31924 K2 Phase C 20

31925 K2 Phase A 21

31926 K2 Phase B 21

31927 K2 Phase C 21

31928 K2 Phase A 22

31929 K2 Phase B 22

31930 K2 Phase C 22

31931 K2 Phase A 23

31932 K2 Phase B 23

31933 K2 Phase C 23

31934 K2 Phase A 24

31935 K2 Phase B 24

31936 K2 Phase C 24

31937 K2 Phase A 25

31938 K2 Phase B 25

31939 K2 Phase C 25

31960 Bus Volts Magnitude

31962 Bus Volts Angle

31963 Bus Volts Frequency

31965 Line Volts Magnitude

31967 Line Volts Angle

31968 Line Volts Frequency

31970 Voltage Difference

31972 Angle Difference

31973 Frequency Difference

31985 Bus Volts Magnitude

31987 Bus Volts Angle

31988 Bus Volts Frequency

31990 Line Volts Magnitude

31992 Line Volts Angle

31993 Line Volts Frequency

31995 Voltage Difference

31997 Angle Difference

31998 Frequency Difference

32020 Pwr1 Real

32022 Pwr1 Reactive

32024 Pwr1 Apparent

32026 Pwr1 Ph A Real

32028 Pwr1 Ph B Real

32030 Pwr1 Ph C Real

32032 Pwr1 Ph A Reactive

32034 Pwr1 Ph B Reactive

32036 Pwr1 Ph C Reactive

32038 Pwr1 Ph A Apparent

32040 Pwr1 Ph B Apparent




32042 Pwr1 Ph C Apparent

32044 Pwr1 PF

32045 Pwr1 Ph A PF

32046 Pwr1 Ph B PF

32047 Pwr1 Ph C PF

32058 Pwr2 Real

32060 Pwr2 Reactive

32062 Pwr2 Apparent

32064 Pwr2 Ph A Real

32066 Pwr2 Ph B Real

32068 Pwr2 Ph C Real

32070 Pwr2 Ph A Reactive

32072 Pwr2 Ph B Reactive

32074 Pwr2 Ph C Reactive

32076 Pwr2 Ph A Apparent

32078 Pwr2 Ph B Apparent

32080 Pwr2 Ph C Apparent

32082 Pwr2 PF

32083 Pwr2 Ph A PF

32084 Pwr2 Ph B PF

32085 Pwr2 Ph C PF

32114 Pwr1 Pos WattHours

32118 Pwr1 Neg WattHours

32122 Pwr1 Pos VarHours

32124 Pwr1 Neg VarHours

32140 Pwr2 Pos WattHours

32144 Pwr2 Neg WattHours

32148 Pwr2 Pos VarHours

32150 Pwr2 Neg VarHours

32184 J1 Ph A Demand

32186 J1 Ph B Demand

32188 J1 Ph C Demand

32190 J1 Max Ph A Demand

32192 J1 Max Ph B Demand

32194 J1 Max Ph C Demand

32222 K1 Ph A Demand

32224 K1 Ph B Demand

32226 K1 Ph C Demand

32228 K1 Max Ph A Demand

32230 K1 Max Ph B Demand

32232 K1 Max Ph C Demand

32260 K2 Ph A Demand

32262 K2 Ph B Demand

32264 K2 Ph C Demand

32266 K2 Max Ph A Demand

32268 K2 Max Ph B Demand

32270 K2 Max Ph C Demand




32314 Pwr1 Real Dmd

32316 Pwr1 Max Real Dmd

32322 Pwr1 Reactive Dmd

32324 Pwr1 Max Reactive Dmd

32330 Pwr1 Apparent Dmd

32332 Pwr1 Max Apparent Dmd

32352 Pwr2 Real Dmd

32354 Pwr2 Max Real Dmd

32360 Pwr2 Reactive Dmd

32362 Pwr2 Max Reactive Dmd

32368 Pwr2 Apparent Dmd

32370 Pwr2 Max Apparent Dmd

32620 Arcing Current Phase A

32622 Arcing Current Phase B

32624 Arcing Current Phase C

33430 Phase A Thermal Cap

33431 Phase B Thermal Cap

33432 Phase C Thermal Cap

33450 Directional Power 1

33452 Directional Power 2

33460 Wattmetric Ground Fault

33540 J1-CT Frequency

33542 J1-CT Frq Rate of Chge

33543 J2-3VT Frequency

33545 J2-3VT Frq Rate of Chge

33546 J2-Vx Frequency

33548 J2-Vx Frq Rate of Chge

FC276 unsigned 16 bits Wattmetric Current

0 Calculated IN

1 Measured IG

FC277 unsigned 16 bits Breaker Health Mode

0 Detection

1 Monitoring

FC278 unsigned 16 bits Aux Relay Type

0 Self-Reset

1 Latched

2 Pulsed

FC279 unsigned 16 bits UV Restoration Initiation

0 Off

1 Phase UV 1 OP

2 Phase UV 2 OP

3 Aux UV 1 OP

4 Aux UV 2 OP

FC280 unsigned 16 bits Close Syncrocheck Supervision

0 Bypass

1 Sync1 Close Perm

2 Sync2 Close Perm




FC283 unsigned 16 bits Synchrocheck Dead Source Permit

0 Disabled

1 LB & DL

2 DB & LL

3 DB & DL

4 DB OR DL

5 DB XOR DL

FC284 unsigned 16 bits Transfer Function Scheme

0 Disabled

1 Incomer 1

2 Incomer 2

3 Bus Tie

FC285 unsigned 16 bits Dead Source Permission

0 Sync1 Dead Src OK

FC286 unsigned 16 bits Power Factor Power Input

0 Power 1

1 Power 2

FC287 unsigned 16 bits UF Restoration Initiation

0 Off

1 UnderFreq 1 OP

2 UnderFreq 2 OP

3 UnderFreq 3 OP

4 UnderFreq 4 OP

5 FreqROC DWN OP

FC288 unsigned 16 bits Three State Security Model

0 No Security

1 Passwords Enabled

2 Full Security

FC289 unsigned 16 bits Breaker Status

0 Not Set

1 Fail

2 OK

FC290 unsigned 16 bits Default Screen Index

0 Off

4 BKR1

5 BKR 2

6 BKR 3

8 Inputs

9 Relays

10 V Inputs

11 V Outpts

20 Info

24 Dev Stat

25 Clock

26 PTP

27 Fault Loc

29 Arcing I




32 Summary

33 Phasors

34 Sequence

35 Current 1

36 Current 2

37 Current 3

38 Voltage 1

39 Voltage 2

42 Harm 1

43 Harm 2

44 Harm 3

45 Harm 4

48 Power 1

49 Power 2

50 Energy 1

51 Energy 2

52 Cur Dmd1

53 Cur Dmd2

54 Cur Dmd3

55 Pwr Dmd1

56 Pwr Dmd2

FC302 unsigned 32 bits LEDs 1-16

0x00000003 LED 1

0x0000000C LED 2

0x00000030 LED 3

0x000000C0 LED 4

0x00000300 LED 5

0x00000C00 LED 6

0x00003000 LED 7

0x0000C000 LED 8

0x00030000 LED 9

0x000C0000 LED 10

0x00300000 LED 11

0x00C00000 LED 12

0x03000000 LED 13

0x0C000000 LED 14

0x30000000 LED 15

0xC0000000 LED 16

FC303 unsigned 32 bits LEDs 17-32

0x00000003 LED 17

0x0000000C LED 18

0x00000030 LED 19

0x000000C0 LED 20

0x00000300 LED 21

0x00000C00 LED 22

0x00003000 LED 23

0x0000C000 LED 24




0x00030000 LED 25

0x000C0000 LED 26

0x00300000 LED 27

0x00C00000 LED 28

0x03000000 LED 29

0x0C000000 LED 30

0x30000000 LED 31

0xC0000000 LED 32

FC322 unsigned 16 bits Active Pushbutton

0 Off

1 Pushbutton 1 ON

2 Pushbutton 2 ON

3 Pushbutton 3 ON

FC323 unsigned 32 bits GOOSE Status

0x00000001 GOOSE Status 1








FC324 unsigned 16 bits File Transfer Mode

0 Read

1 Write

FC340 unsigned 16 bits Security Bypass Access

0 Disabled

1 Local

2 Remote

3 Local&Remote

FC341 unsigned 16 bits Radius Authentication Method

0 EAP-TTLS

FC342 unsigned 16 bits RTC Sync Source

0 None

1 Port 4 PTP Clock

2 Port 5 PTP Clock

3 IRIG B

4 SNTP

FC343 unsigned 16 bits PTP State

0 Disabled

1 No Signal

2 Calibrating

3 Synch'd (No PDelay)

4 Synchronized

FC150 unsigned 16 bits SR8 Element List

All Elements Available in the SR8

1 Any Trip




2 Any Alarm

5 Any Block

6 Any PKP

7 Any OP

8 Reset

9 Setpoint Access

10 Targets Active

11 In Serv.

12 Test Mode

13 Any Major Error

14 Any Minor Error

15 Output Relay 1

16 Output Relay 2

17 Output Relay 3

18 Output Relay 4

21 Critical Fail

22 Comms OK

23 Phase TOC 1

24 Phase TOC 2

26 Phase IOC 1

27 Phase IOC 2

29 Ph Dir OC

30 Ntrl TOC 1

31 Ntrl TOC 2

32 Ntrl IOC 1

33 Ntrl IOC 2

34 Ntrl Dir OC

35 Gnd TOC 1

39 Gnd IOC 1

43 Gnd Dir OC

44 SGnd TOC 1

46 SGnd IOC 1

48 SGnd Dir OC

49 RGF 1

52 Neg Seq TOC 1

54 Neg Seq IOC 1

56 Neg Seq Dir OC

57 BrokenConductor

58 LoadEncr

59 Thermal Model

60 Thermal Model Alrm

61 Ph UV 1

62 Ph UV 2

63 Ph OV 1

64 Ph OV 2

65 Aux UV 1

66 Aux UV 2




67 Aux OV

68 Neutral OV 1

69 Neutral OV 2

70 Neg Seq OV 1

71 Neg Seq OV 2

72 Dir Pwr 1

73 Dir Pwr 2

74 WattMetric 1

75 WattMetric 2

76 UF 1

77 UF 2

78 UF 3

79 UF 4

80 OF 1

81 OF 2

82 Freq RateOfChng1

86 Group 1

87 Group 2

88 Group 3

89 Group 4

90 Group 5

91 Group 6

92 Local Mode

93 Open BKR 1

96 Close BKR 1

99 Trip Bus 1

100 Trip Bus 2

101 Trip Bus 3

102 Trip Bus 4

103 Trip Bus 5

104 Trip Bus 6

105 BKR Fail 1

108 Sync Check 1

110 Manual Cls Blk

111 VTFF 1

113 CLP 1

115 UV Restore

116 Bus Transfer

117 AR1

118 AR1 Shot Cnt

119 AR1 Shot Cnt Reduction

120 AR1 Rate Supervision

125 UF Restore

126 BKR1 Status Closed

127 BKR1 Status Opened

128 BKR1 Status Unknown

129 BKR1 Status Disconnected




130 BKR1 52a Contact

131 BKR1 52b Contact

144 TripCoilMon 1

147 CloseCoilMon 1

150 Breaker 1 Arcing Current

153 Breaker1 Health

156 Breaker1 Arc Health

159 PF 1

160 PF 2

161 Current Dmd

162 RealPwrDmd

163 ReactivePwrDmd

164 ApparentPwrDmd

165 Fault Locator

202 Pulse Out

















219 NV Latch 1

220 NV Latch 2

221 NV Latch 3

222 NV Latch 4

223 NV Latch 5

224 NV Latch 6

225 NV Latch 7

226 NV Latch 8

227 NV Latch 9

228 NV Latch 10

229 NV Latch 11

230 NV Latch 12

231 NV Latch 13

232 NV Latch 14

233 NV Latch 15

234 NV Latch 16




235 PB 1

236 PB 2

237 PB 3

238 Security Login

239 Data Logger

240 Transfer Initiated

FC151 unsigned 16 bits Element Status

This format shows the meaning of the Element Status values.

Refer to Format FC142 for exact information for each element.

There are cases where different meaning is given to

each bit . PKP meaning "Open", for example.

0x0000 None Active

0x0001 Element PKP

0x0002 Element OP

0x0008 Phase A Pickup

0x0010 Phase B Pickup

0x0020 Phase C Pickup

0x0040 Phase A Operate

0x0080 Phase B Operate

0x0100 Phase C Operate

0x0200 Element Is Latched

0x0400 Configurable Type

0x0800 Alarm Type

0x1000 Trip Type

0x2000 Flexlogic Element

FC157 unsigned 16 bits LED Colour

0 Off

1 Red

2 Green

3 Orange

FC161 unsigned 16 bits OC Curve Selection

0 IEEE Extr. Inverse

1 IEEE Very Inverse

2 IEEE Mod Inverse

3 ANSI Extr. Inverse

4 ANSI Very Inverse

5 ANSI Norm Inverse

6 ANSI Mod Inverse

7 Definite Time

8 IEC Curve A

9 IEC Curve B

10 IEC Curve C

11 IEC Short Inverse

12 IAC Extr. Inverse

13 IAC Very Inverse

14 IAC Inverse

15 IAC Short Inverse



CHAPTER 11: MODBUS MEMORY MAP MODBUS COMMANDS

Modbus Commands

16 Flex Curve A

17 Flex Curve B

18 Flex Curve C

19 Flex Curve D

20 I2t

21 I4t

FC161A unsigned 16 bits Neutral OV Curve Selection

7 Definite Time


Command Value Description

0 None

1 Reset

3 Open

4 Close

9 ChangeToSetpointGroup1






15 Active Group

18 Local

19 Remote

96 Clear All Records

97 Clear Targets

98 Clear Events

99 Clear Transient Records

101 Clear Max Current Demand

102 Clear Max Real Power Demand

103 Clear Max Reactive Power Demand

104 Clear Max Apparent Power Demand

105 Clear Energy Use Data

108 Clear BKR1 Arcing Current

109 Clear BKR1 Health Data

124 Reset Unauthorized Access

126 Clear Fault Reports

134 USER PushButton 1



153 LED Test

154 Force LEDs

202 Trigger Waveform


MODBUS COMMANDS CHAPTER 11: MODBUS MEMORY MAP

4096 Force Virtual Input 1
































Command Value Description


Feeder Protection System - GE Grid Solutions...850 FEEDER PROTECTION SYSTEM – COMMUNICATIONS GUIDE 1-1 850 Feeder Protection System Chapter 1: Introduction GE Digital Energy Introduction

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