Edition 1.0 CB1P3900en 27.11.2006 Building Technologies HVAC Products POLYCOOL AC&R Controller RWR470.10 Basic Documentation
Oct 24, 2014
Edition 1.0 CB1P3900en 27.11.2006
Building TechnologiesHVAC Products
POLYCOOL AC&R Controller RWR470.10 Basic Documentation
2/56
Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products Table of Contents 27.11.2006
Siemens Schweiz AG Building Technologies Group International Headquarters HVAC Products Gubelstrasse 22 CH-6301 Zug Tel. +41 41-724 24 24 Fax +41 41-724 35 22 http://www.sbt.siemens.com
© 2006 Siemens Schweiz AG Subject to change
3/56
Siemens Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products Table of Contents 27.11.2006
Table of Contents
1 Summary................................................................................................ 6
1.1 Range of Units ........................................................................................ 6 1.2 Equipment Combination........................................................................... 6 1.3 Product Documentation............................................................................ 6 1.4 Key Features .......................................................................................... 7 1.5 Typical Application................................................................................... 7 1.6 Important Notes....................................................................................... 8
2 Operation................................................................................................ 9
2.1 LCD Display............................................................................................ 9 2.2 Menu Tree .............................................................................................12 2.3 Access Rights ........................................................................................13
3 Wiring Examples ....................................................................................14
3.1 Connection Terminals.............................................................................14 3.2 Overview of DIP Switch Configuration......................................................15 3.3 Wiring with Power Supply........................................................................16 3.4 Wiring with Digital Inputs.........................................................................16
3.5 Wiring with Passive Temperature Sensors................................................16 3.6 Wiring with Pressure Sensors..................................................................17 3.6.1 Pressure Sensor with DC 0…10 V Output ................................................17 3.6.2 Pressure Sensor with 4…20 mA Output ...................................................18 3.6.3 Pressure Sensor with DC 0…5 V Output ..................................................18 3.7 Wiring with Digital Outputs ......................................................................19 3.8 Wiring with Analog Outputs .....................................................................19
4 General Device Settings .........................................................................20
4.1 Modes of Operation ................................................................................20
4.2 Accessing the Menus..............................................................................20 4.3 Starting and Stopping the Device.............................................................21 4.4 Selection of System Modes .....................................................................21 4.5 Viewing Inputs and Outputs.....................................................................22
4.6 Changing Setpoints (for end users)..........................................................22
5 Configuration of Analog Inputs.................................................................24
5.1 Selection of Signals ................................................................................24 5.2 Selection of Sensor Types.......................................................................25
5.3 Configuring Analogu Inputs as Digital Inputs (ON/OFF) .............................25 5.3.1 Configuration of DIP Switches .................................................................26 5.3.2 Selection of Digital Input Signals (X1…X6) ...............................................26 5.3.3 Setting Validity of Analog Inputs (When Configured as Digital Inputs) .........27
4/56
Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products Table of Contents 27.11.2006
6 Configuration of Digital Inputs..................................................................28
6.1 Selection of Signals................................................................................28
6.2 Setting Validity of Digital Inputs ...............................................................28
7 Configuration of Analog Outputs..............................................................29
8 Configuration of Digital Outputs ...............................................................30
8.1 Selection of Devices ...............................................................................30
8.2 Setting Validity of Digital Outputs (for RV & CV)........................................30
9 Fast Configuration via PolyStick ..............................................................31
9.1 Uploading Application and Parameters to PolyStick...................................31 9.2 Downloading Application and Parameters from PolyStick ..........................31
10 Customizing Application by Adjusting Parameter Values............................32
10.1 Accessing the Parameter Menu...............................................................32 10.2 Adjusting Parameter Values ....................................................................33 10.3 Setting User’s Privilege to Parameters .....................................................33 10.4 Changing the Units of Temperature and Pressure.....................................36
11 Commissioning ......................................................................................36
12 Warning Management.............................................................................36
12.1 Codes for Warnings................................................................................36 12.2 Viewing Warning Logs ............................................................................36
13 Alarm Management ................................................................................37
13.1 Auto Reset Alarms .................................................................................37 13.2 Manual Reset Alarms .............................................................................38 13.3 Viewing Alarm Logs................................................................................39 13.4 Acknowledging and Resetting Manual Reset Alarms.................................39
14 Main Control Logic .................................................................................40
14.1 Compressor Capacity Control..................................................................40 14.2 Defrost Control.......................................................................................41 14.3 Energy Savings and Comfort Conditions ..................................................42
14.3.1 Economic Cooling/Heating Function.........................................................42 14.3.2 Economy Mode ......................................................................................43 14.4 Antifreeze ..............................................................................................44 14.5 Forced Adjustment Management .............................................................44
14.6 Pump Down...........................................................................................45
15 Paramter Tables.....................................................................................46
15.1 Compressor Settings ..............................................................................46
5/56
Siemens Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products Table of Contents 27.11.2006
15.2 Condenser Settings ................................................................................47 15.3 Evaporator Settings ................................................................................48 15.4 Defrost Settings......................................................................................49 15.5 Special Functions ...................................................................................50
15.6 User Settings .........................................................................................51 15.7 User Interface ........................................................................................51 15.8 Alarm Settings........................................................................................52 15.9 Inputs and Outputs Configuration.............................................................53
15.10 System Function ....................................................................................54
16 Device/Signal List...................................................................................55
6/56
Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 1 Summary 27.11.2006
1 Summary
1.1 Range of Units
Device Name Type Datasheet No. Controller AC&R Controller RWR470.10 CB1Q3900en
1.2 Equipment Combination
Device Type Datasheet
no. Temperature sensor
QAZ21.682/101 with a sensing element LG Ni 1000 Ω, Silicon cable 200cm, with -50ºC…+80ºC measurement range
Q1848
QAZ36.526/109 with a sensing element NTC10 kΩ, PVC cable 600cm, with -25°C…+80ºC measurement range
Q1843
Pressure sensor
QBE9101-P10U, -1…+9 bar / QBE9101-P30U,1…+29bar / QBE9101-P60U, -1…+59 bar, with 4…20 mA output signal
Q1908
QBE2001-P10U, -1…+9 bar / QBE2001-P25U, -1…+24 bar / QBE2001-P60U, -1…+59 bar. with DC 0…10 V output signal
N1907
QBE620-P40U, 0…40bar with 0…10V output signal N1904 Texas Instruments 2CP5-47/48 operates on 5 VDC
supply voltage with +1…+35.5 bar measurement range and DC 0.5…4.5 V output signal
1.3 Product Documentation
In addition to this Basic Documentation, the pieces of product documentation listed below provide detailed information on the safe and proper use and operation of RWR470.10 in building services plant.
Type of document Ordering no. Datasheet CB1Q3901en
7/56
Siemens Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 1 Summary 27.11.2006
1.4 Key Features
Its main features are as follows: • Non-programmable stand-alone controller, or networked via the communication of
PCLBUS • Strict user privilege control • Multiple applications can be configured by setting parameters • Flexible I/O configuration • Control of inlet/outlet air/water temperature • Multiple defrost methods( Fan, hot gas bypass, or reversing valve) by timer, timer
and temperature/pressure, or the differential value between defrost sensor temperature and outside temperature
• Economy mode by fixed heating/cooling setpoint replacements, or built-in economic heating/cooling function by adjustable setpoint shift values according to actual outside temperature
• Fast application (with parameters) uploading and downloading via PolyStick • PID control of outdoor condenser fan speed • Complete alarm and warning management • User-friendly icon HMI, LCD display and light blue backlight
1.5 Typical Application
Device Device 1-2 Compressor
Condenser
Bypass valve Defrost valve 4-port reverse value Fan module
Pressure sensor Evaporator
Temperature sensor Pump
LP
Low pressure alarm FS Flow switch (optional)
High pressure alarm Condenser fan
Solenoid valve
Legend
8/56
Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 1 Summary 27.11.2006
1.6 Important Notes
This symbol draws your attention to special safety notes and warnings. If such notes are not observed, personal injury and / or considerable damage to property can occur. RWR470.10 controller may only be used for the control and supervision of heating, ventilation, air conditioning and chiller plant. Prerequisites for flawless and safe operation of RWR470.10 controller are proper transport, installation, commissioning, and correct operation. Fuses, switches, wiring and earthing must be in compliance with local safety regulations for electrical installations. Preparation for use of commission of RWR470.10 controller must be undertaken by qualified staff who have been appropriately trained by Siemens Building Technologies. RWR470.10 controller may only be operated by staffs who have been instructed by Siemens Building Technologies or their delegates and whose attention has been drawn to potential risks. When wiring the system, the AC 240V section must be strictly segregated from the AC 24V safety extra low-voltage (SELV) section in order to ensure protection against electric shock hazard!! For storage and transport, the limit values given in the relevant Datasheet must be always be observed. System sections accommodated in the control panel should be freed from dust and dirt whenever normal service visits are due. Should system faults occur and you are not authorized to make diagnostics and to rectify faults, call your service staff of Siemens Building Technologies. Only authorized staffs are permitted to make diagnostics, to rectify faults and to restart the plant. This also applies to work carried out within the control panel (e.g. safety checks or changing fuses). The products contain electrical and electronic components and may not be disposed of as household waste. Local and currently legislation must be complied with!
Field of Use
Electrical Installation
Commissioning
Operation
Wiring
Storage and Transport
Maintenance
Faults
Disposal
9/56
Siemens Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 2 Operation 27.11.2006
2 Operation
2.1 LCD Display
Operation of RWR470.10 is fully driven by buttons and menus.
Button Name Use
Press this button and confirm by pressing <OK> to stop the units from normal running mode Press down and release it to activate the system from Stop Mode
<Esc> & <Power On/Off>
In Menu /parameter setting mode, press it to return to the previous menu level, or to reject the value entered Press down it for more than 2 seconds and release it to enter the Menu mode In Menu/parameter setting mode, press it to confirm the selected menu level, or the value entered
<Enter>
Press it to acknowledge/reset warnings and alarms
Press it for 2 seconds to activate the System Mode in normal working mode
<Plus>
Or, press it to select the menu level, or to increase the value in Menu/parameter setting mode Press it to select the menu level, or to decrease the value in Menu/parameter setting mode
<Minus>
Press it for more than 2 seconds and release it to start Manual Defrost if all required parameters are configured and the system runs in heating mode
Icon Meaning Function
Actual values of all configured inputs and outputs (see Device Assignments in Parameter Table) Software version
Compressor number with their running time
Query/view
Pump with their running time
Warning Existence of warning, and the latest 10 warnings
Alarm Existence of alarm and the latest 20 alarms
Parameters Set parameters and values (see also Menu Tree)
The unit of compressor and pump running time is 10 hours.
Operating buttons
Legend for menus
Note
10/56
Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 2 Operation 27.11.2006
As for how to access the Query/Warning/Alarm/Parameter menus above, see also <Chapter 4.2 Accessing the Menus>
Parameters listed under the menu vary with the password privileged user. Before accessing the Parameter menu, select the user group (“ENd” or “PWd”) first and input the corresponding password that is required only for the “PWd” group user (service men and factory users). See also <Chapter 10.2 Accessing the Parameter Menu> On the right lower side, nine icons are used to indicate system modes and status.
Icon Meaning Icon Meaning
Power on/Off; Pump Down
Dehumidification (not available in this version)
Cooling Defrost
Heating Capacity stages of compressor or outdoor/indoor units
Economy Mode Communication
House (All devices within this icon are called indoor devices.)
When the device is activated, the corresponding icon will be lit.
On the right middle area, eight icons are used to indicate the work status of the devices.
Icon Meaning Status and Indication
Compressor On solid: Running
Blinking : Alarms related to compressor
High pressure
Blinking :High pressure alarm
Low pressure Blinking: Low pressure alarm
Flow switch Blinking: flow switch alarm
Indoor pump On solid: running Blinking: alarms detected
Outdoor pump (not used for the air-to-water system)
Anti-freeze heater On solid: running
condenser fan On solid: running Blinking: alarms detected
For any warning/alarm detected, the corresponding device icon and the / icon will blink continuously until the alarm is acknowledged or reset Two LEDs are provided to identify the status of the controller. See the following table for descriptions of the status LEDs.
Status Meaning
LED 1 (red) Red: ON solid Failure ? or alarm
LED 2 (green) Green: ON solid Power on and system running
Green: Flashing Communicating, data transfer between PolyStick and controller
Notes
Legend for system Mode and status
Notes
Legend for devices
Notes
Status LEDs
11/56
Siemens Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 2 Operation 27.11.2006
Display pictures Meaning Steps
Normal readouts
If the system (air-to-water) runs properly, the LCD, by default, displays with measured return temperature on the upper part and the actual supply air/water temperature on the lower part.
Warning When a warning is detected, the warning code
and the Warning icon will simultaneously flash.
Alarm When an alarm is detected, the alarm icon,
relevant devices (if applicable) and alarm code will flash simultaneously on the LCD.
Stop mode If the system is shut down from Stop mode, after power on, the Stop mode will be restored. Press <Esc> to release the system from Stop mode.
View/Query inputs
Press <Enter> for 2 seconds to enter the Menu mode and activate the Query menu
Display examples
12/56
Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 2 Operation 27.11.2006
2.2 Menu Tree
By default, end users can access all parameters in ST group.
Code Indication Code Indication CM Compressor settings ST Setpoints CN Condenser settings UI User interface EV Evaporator settings AL Alarm settings DF Defrost settings IO Input/Output configuration SF Special functions NT Network address FN System function
For more information about parameters contained under each group, please refer to <Chapter 15. Parameter Tables> at the end of this document. Menu level Example Steps Instructions Access the Menu
ä ä
Select user group
ä ä
Select parameter group
ä ä
Select parameter
ä ä
Adjust parameter value
Press <Enter> for 2 seconds to enter the Menu mode. Select the menu level with <Plus> or <Minus>, and press <Enter> to confirm.
* Selecting user group is only required for entering the Parameter menu.
Note
Legend for parameter groups
Menu level
Menus
User Group *
Parameter Group
Parameter Code
Value
ENd or PWd
ST
ST 01
ST 01
20
13/56
Siemens Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 2 Operation 27.11.2006
2.3 Access Rights
Three groups of users with different privilege levels are described below.
Privilege Level
User Main Activities Special
All
2 (Highest)
Factory User
• Password required • Configure and commission
applications by setting/adjusting parameter values
• Set other two users’ privilege to parameters
1 (Medium)
Service Men
• Password required • Configure and commission
applications by setting/adjusting parameter values
0 (Lowest)
End User
• No password is required • Adjust limited values of parameters
(by default , can only adjust values of parameters in the “ST” group)
• View information and status
• Acknowledge warnings and alarms
• Heating /Cooling changeover
• Economy/comfort changeover
• Manual defrost
14/56
Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 3 Wiring Examples 27.11.2006
3 Wiring Examples
3.1 Connection Terminals
Brief descriptions of the inputs and the outputs are summarized as follows. Terminal Assigments Terminal Assignments
G Power supply AC/DC 24 V Q13 Supply 1 (AC 24 V …230 V)
G0 Power supply ground Q14 Relay output 1, normally open contact
PE Saftey ground Q24 Relay output 2, normally open contact
Q34 Relay output 3, normally open contact
X1 Analog input 1, configurable as (DI, NTC, 0...10 V, 0...5 V, 4...20 mA) Q44 Relay output 4, normally open contact
X2 Analog input 2, configurable as (DI, NTC, NI1000) Q54 Relay output 5, normally open contact
X3 Analog input 3, configurable as (DI, NTC, 0…10 V, 0…5 V, 4…20 mA) Q64 Relay output 6, normally open contact
X4 Analog input 4, configurable as (DI, NTC, 0…10 V, 0…5 V, 4…20 mA)
X5 Analog input 5, configurable as (DI, NTC, NI1000) Q23 Supply 2 (AC 24 V …230 V)
X6 Analog input 6 (DI, NTC) Q74 Relay output 7, normally open contact
GND Common reference point for analog input Q84 Relay output 8, normally open contact,
+5 V DC 5 V power output for active sensor Y1 Analog ouput 1, 0...10 V
+24 V DC 24 V power output for active sensor GND Common reference point
Y2 Analog output 2, 0...10 V
D1 Digital input 1, potential-free
D2 Digital input 2, potential-free A+ A+ connector for RS485
D3 Digital input 3, potential-free B- B- connector for RS485
D4 Digital input 4, potential-free GND Optional for RS485 communication
D5 Digital input 5, potential-free RJ45 Service interface for parameters uploading and downloading
M Common reference point for digital input
15/56
Siemens Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 3 Wiring Examples 27.11.2006
3.2 Overview of DIP Switch Configuration
The analogue inputs can be configured for the more common sensors on the market: NTC, 0…10V and 4…20 mA.. For the power supply to the active sensors, the terminals for +5V or +24VDC are offered. At the rear top of the controller, two sets of DIP switches are presented as follows.
The different types of sensors can be selected using the corresponding DIP Switches below. Bit 1 of J2 is used for factory calibration
Bit 4 of J1 Bit 5 of J1 Bit 6 of J1 NTC (Digital Input) Off Off On 4…20mA Off On Off 0…10V On Off Off 0…5V Off Off Off
Bit 2 of J1 Bit 3 of J1 NTC (Digital Input) Off On Ni1000 On Off
Bit 7 of J2 Bit 8 of J2 Bit 1 of J1 NTC (Digital Input) Off Off On 4…20 mA Off On Off 0…10 V On Off Off 0…5 V Off Off Off
Bit 4 of J2 Bit 5 of J2 Bit 6 of J2 NTC (Digital Input) Off Off On 4…20 mA Off On Off 0…10 V On Off Off 0…5 V Off Off Off
Bit 2 of J2 Bit 3 of J2 NTC (Digital Input) Off On Ni1000 On Off
X6 can be configured for NTC or digital input, but has no requirement to configure DIP switches.
X1
X2
X3
X4
X5
Notes
16/56
Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 3 Wiring Examples 27.11.2006
All analogue inputs can be configured as digital inputs. When this happens, please configure the corresponding software program and set the DIP switches positions same as that of NTC.
3.3 Wiring with Power Supply
RWR470.10 is supplied with 24 VAC ± 20 % or 24 VDC ± 10 % via plug-in terminals G and G0
3.4 Wiring with Digital Inputs
RWR470.10 offers five digital inputs for connecting safety devices, alarms, device status, and remote switches. These digital inputs are voltage free. The following figure represents an example of wiring the digital input
3.5 Wiring with Passive Temperature Sensors
Before wiring with passive sensor, pay attention to the following: • By default, terminals X1…X6 can be wired with NTC sensor. • In addition, terminals X2 and X5 can be wired with NI1000 sensor if the
corresponding DIP switches are configured as follows.
Bit 2 of J1 Bit 3 of J1 NTC Off On Ni1000 On Off
Bit 2 of J2 Bit 3 of J2 NTC Off On Ni1000 On Off
X2
X5
17/56
Siemens Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 3 Wiring Examples 27.11.2006
The following are wiring examples with two types of temperature sensors. A B
A: Temperature sensor QAZ36.526/109 with a sensing element NTC 10 kΩ. B: Temperature sensor QAZ21.682/101 with a sensing element LG-Ni 1kΩ ???
3.6 Wiring with Pressure Sensors
Before wiring with pressure sensors, please refer to their datasheets for appropriate wiring connection diagrams.
3.6.1 Pressure Sensor with DC 0…10 V Output
X1, X3 and X4 can be wired with a pressure sensor with DC 0…10 V output if the corresponding DIP switches are configured as follows.
Bit 4 of J1 Bit 5 of J1 Bit 6 of J1 0…10V On Off Off
Bit 7 of J2 Bit 8 of J2 Bit 1 of J1 0…10V On Off Off
Bit 4 of J2 Bit 5 of J2 Bit 6 of J2 0…10V On Off Off
The following is a wiring example with QBE2001-P10U/P25U/P60U pressure sensor.
X1
X3
X4
18/56
Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 3 Wiring Examples 27.11.2006
3.6.2 Pressure Sensor with 4…20 mA Output
Only terminals X1, X3 and X4 can be wired with pressure sensor with 4…20 mA output when the corresponding DIP switches are configured as follows. Bit 4 of J1 Bit 5 of J1 Bit 6 of J1 4...20mA Off On Off
Bit 7 of J2 Bit 8 of J2 Bit 1 of J1 4...20mA Off On Off
Bit 4 of J2 Bit 5 of J2 Bit 6 of J2 4...20mA Off On Off
The follow is a wiring example with QBE9101-P10U/30U/P60U pressure sensor.
3.6.3 Pressure Sensor with DC 0…5 V Output
X1, X3 and X4 can be wired with ratiometric active sensor with 0…5 V output. For some active sensor with 0…5 V supply voltage, wire with the terminal +5 V.
When wiring with the sensor with 0…5 V output signal, the relevant DIP switches must be set on the OFF positions.
X1
X3
X4
19/56
Siemens Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 3 Wiring Examples 27.11.2006
3.7 Wiring with Digital Outputs
The following is a wiring example with relay output.
3.8 Wiring with Analog Outputs
The following is a wiring example of analogue output.
20/56
Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 4 General Device Settings 27.11.2006
4 General Device Settings
4.1 Modes of Operation
The current RWR470.10 controller consists of three kinds of operation modes:
Mode Function
1 Normal working mode Display all running devices and measured values 2 Menu mode* View configured analog inputs, warning and alarm logs
Set/adjust parameter values and also user privilege to parameters
3 Stop mode** Normally shut-down status (all units stop running.)
*To enter menu mode, see also <Chapter 4.2. Accessing the Menus>. ** To enter stop mode, see also <Chapter 4.3. Starting and Stopping the Device> • In normal working mode, the back light will be timed out after 15 seconds without any
operation. • Leaving the Menu mode without any operation for over 5 minutes, the system will
automatically return to the normal working mode or Stop mode. • Factory users can configure application at any time, but it is strongly recommended
to perform configuration in Stop mode. • Only in Stop mode, factory users can do commissioning.
4.2 Accessing the Menus
Display Procedures
In normal working mode (or Stop mode), press the <Enter> button for 2 seconds and release it to enter the Menu mode. By default, the Query icon is blinking, waiting for further instructions.
To view all configured inputs and outputs: • Continuously press <Enter> to proceed when the icon is flashing. To view the latest 10 warnings generated: • Navigate to the menu by pressing <Plus> or <Minus>, and then press <Enter>
to confirm and proceed. To view the latest 20 alarms generated: • Navigate to the menu by pressing <Plus> or <Minus>, and then press <Enter>
to confirm and proceed. To set parameter values:
• Navigate to the menu by pressing <Plus> or <Minus>, and then press <Enter> to confirm and proceed. Contents under this menu may vary with the privilege right of the user.
− For end users, select “ENd,” and press <Enter > to proceed.
Notes
21/56
Siemens Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 4 General Device Settings 27.11.2006
− For service men and factory users, select “PWd,” and press <Enter> to input the password.
4.3 Starting and Stopping the Device
Applying power to the controller, if all parameters are configured in advance, the normal working mode (air-to-water) will be displayed with measured values. If the system is shut down from Stop mode, after power on, the Stop mode will be restored. Press <Esc> and release it to start the system and return to the normal working mode. Initially applying power to the controller, the default status of the controller is Stop mode.
Display Procedures
When the controller is running in normal working mode, press <Esc> and release it. The word “OK” will be displayed on the left side of the LCD, asking for confirmation.
Press <Enter> to confirm, and all related devices will stop working upon the expiry of their delay time. Finally, the Stop mode will be displayed as follows.
The icon will flash when the pump down function (if configured) is under process.
During this process, pressing <Esc> and releasing it again will activate the system from Stop mode, and return back to the normal working mode.
4.4 Selection of System Modes
Display Procedures
Press down the <Plus> button for more than 2 seconds, and release it to activate the selection of system mode. The currently system mode will start flashing. Press <Plus> or <Minus> to select the desired system mode, and then press<Enter > to confirm.
The selection sequence of system modes varies with the <Plus> or <Minus> button you selected based on the current system mode (SF01). The corresponding icon(s) for system mode will blink once selected.
Start the device
Note
Stop the device
Notes
22/56
Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 4 General Device Settings 27.11.2006
If the current system is heat pump (when SF01=1) and Economy Mode is activated (when SF06=1), the full sequence of selecting the system modes will be as follows. Activity Sequence Press <Plus> _ + _ _ + Press <Minus> _ + _ _ +
4.5 Viewing Inputs and Outputs
By default, all the inputs and outputs are accessible for all users.
Display Procedures
In normal working mode, press <Enter> for 2 seconds and release it to activate the Menu mode. Press <Enter> to confirm and proceed when the icon is flashing.
The analogue input configured with the smallest device number will be first displayed with the measured value. For more information, please refer to <Chapter 16, Device/Signal List>. To view other configured inputs/outputs, press <Plus> or <Minus>, and then press <Enter> to confirm.
4.6 Changing Setpoints (for end users)
Display Procedures In normal working mode, press <Enter> for 2 seconds and release it to activate the Menu mode.
When the icon is blinking, press <Plus> or
<Minus> to navigate to the menu, and then press <Enter> to proceed.
Contents under the Parameter Menu may vary with the privilege right of the user. • For end users, select “ENd,” and press <Enter > to proceed. • For service men and factory users, select “PWd,” and press <Enter> to input the 4-
digit password (See also Chapter 10.1 Accessing the Parameter Menu).
For end users, parameters in the “ST” group will by default be displayed. Press <Plus> and <Minus> to navigate to the parameter and press<Enter> to continue.
Or, continuously press <Esc> to exit out of the current level and back to the desired menu level.
Note
Notes
Notes
5
23/56
Siemens Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 4 General Device Settings 27.11.2006
For end users, parameters in other groups by default read “NoNE.” The following list is parameters contained in the “ST” group. Para-
meter
Descriptions De-
fault
Min. Max. Unit Res
ST01 Setpoint of compressors in cooling mode (End User) 11.5 -40 30 ºC/ºF 0.1
ST02 Setpoint of compressors in heating mode (End User) 45 -40 60 ºC/ºF 0.1
ST03 Adjustable temperature band of compressor in Cooling mode 0.5 0 10 ºC/ºF 0.1
ST04 Adjustable temperature band of compressor in Heating mode 0.5 0 10 ºC/ºF 0.1
ST05 Adjustable time band for economic cooling/heating function 120 0 3600 Sec
ST06 Cooling setpoint in Economy Mode 13 ST01 30 ºC/ºF 0.1
ST07 Heating setpoint in Economy Mode 40 -40 ST02 ºC/ºF 0.1
ST08 Shift value of outside temperature (OT) setpoint in economic cooling function 35 20 50 ºC 0.1
ST09 Shift value of outside temperature (OT) band in economic cooling function 7 1 20 ºC 0.1
ST10 Shift value of setpoint band in economic cooling function 5 1 12 ºC 0.1
ST11 Shift value of outside temperature (OT) setpoint in economic heating function 2 -10 15 ºC 0.1
ST12 Shift value of outside temperature (OT) band in economic heating function 7 1 15 ºC 0.1
ST13 Shift value of setpoint band in economic heating function 5 1 12 ºC 0.1
Note
Parameters in ST Group
24/56
Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 5 Configuration of Analog Inputs 27.11.2006
5 Configuration of Analog Inputs
Only authorized staffs can access the “IO” parameter group categorized under the menu and configure analog inputs. It is recommended to configure all the parameters and values in Stop Mode of the controller. When connecting the devices with the terminals(X1…X6) for analogue inputs, please configure all relevant parameters to make sure that sensors can work properly. The main steps are as follows: • Selection of analog input signals • Selection of sensor types • Configuration of DIP switches • Configuring analogue inputs as digital inputs (ON/OFF) • Setting validity of analogue inputs (Configured as Digital Inputs) For example: To configure terminal X1 to measure condenser pressure, do the following: • Go to _ _IO14, and set IO14 = 4 (condenser pressure). • Then, navigate to IO27 and indicate the type of pressure sensor by selecting a value
from the range 1 to 14
5.1 Selection of Signals
By default, only factory users can access the parameters IO14 through IO19 and select analog signals. After entering into the Menu mode, go to _ , and navigate to the parameters IO14 through IO19. Set their values by selecting the numbers from 0 to 24. Terminal Parameter Range Code & Signal Procedures X1 IO14 0…7 0- Return temperature X2 IO15 1- Supply temperature X3 IO16 2- Condenser pressure X4 IO17 3- Condenser temperature X5 IO18 4- Defrost temperature X6 IO19 5- Outside temperature 6- Evaporator temperature 7- Compressor suction gas temperature
Select parameter/parameter value with +/-. Continue/confirm with<Enter>. Exit with <Esc>.
In addition, since all analogue inputs can be configured as digital inputs, the following values will be available. 8…24 8- Low pressure 9- High pressure 10- Flow switch 11- Indoor motor protection 12- Outside motor protection 13- Discharge high temperature protection 14- Compressor 1 protection (CP1)
15- Compressor 2 protection (CP2) 16- Power failure 17- (User definable) Manual Rest Alarm 18- (User definable) warning 19- (User definable) Auto Reset Alarm 20- Alarm for over water tank high level 21- Alarm for over water tank low level
Notes
Note
25/56
Siemens Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 5 Configuration of Analog Inputs 27.11.2006
Terminal Parameter Range Code & Signal Procedures 22- Remote ON/OFF 23- Heating/Cooling 24- Economy mode
5.2 Selection of Sensor Types
By default, both factory users and service men can access the parameters IO27 through IO32 and select the specific type of sensors that will be connected.
After entering into the Menu mode, go to _ , and navigate to the parameters from IO27 to IO32. Set their values by selecting the number from 1 to 14. Entering the Parameter Menu requires user group identification and password authentication. See Also « Chapter 4.7. Accessing the Parameter Menu » for details. Termi-nals
Para- meter
Range Code & Sensor
X1 IO27 1…14 Temperature sensor
1 - QAZ21.682/101 (LG-Ni1K) with -50°C…80°C measurement range
X2 IO28 2 - QAZ36.526/109 (NTC10K) with -25°C…80°C measurement range
X3 IO29 Pressure sensor
3 - QBE9101-P10U -1…9bar with 4…20mA output
X4 IO30 4 - QBE9101-P30U -1…29bar with 4…20mA output X5 IO31 5 - QBE9101-P60U -1…59bar with 4…20mA output X6 IO32 6 - QBE2001-P10U -1…9bar with 0…10V output 7 - QBE2001-P25U -1…24bar with 0…10V output 8 - QBE2001-P60U -1…59bar with 0…10V output 9 - QBE620-P40U 0…40bar with 0…10V output 10 - 2CP5 (0) 1…35.5bar with 0…10V output 11 - Reserved 12 - Reserved Others 13 – Reserved 14 – Reserved
5.3 Configuring Analogu Inputs as Digital Inputs (ON/OFF)
RWR470.10 allows some analogue inputs to be connected as voltage-free digital inputs. The terminals X1 through X6 can be used after having configured the program and the corresponding DIP switches on the rear back board. To do this, follow the steps below: • Configuration of DIP switches • Selection of digital input signals (see also Chapter 5.1 Selection of Analog Input
Signals) • Setting validity of digital inputs
Note
Notes
26/56
Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 5 Configuration of Analog Inputs 27.11.2006
5.3.1 Configuration of DIP Switches
To connect digital inputs with terminals X1through X5, set the corresponding DIP Switches as follows. Terminal X6 can be connected with digital input, but has no requirement of DIP settings.
Bit 4 of J1 Bit 5 of J1 Bit 6 of J1 DI Off Off On
Bit 2 of J1 Bit 3 of J1 DI Off On
Bit 7 of J2 Bit 8 of J2 Bit 1 of J1 DI Off Off On
Bit 4 of J2 Bit 5 of J2 Bit 6 of J2 DI Off Off On
Bit 2 of J2 Bit 3 of J2 DI Off On
5.3.2 Selection of Digital Input Signals (X1…X6)
By default, only factory users can access the parameters IO14 through IO19 and select the specific devices that will be connected
To indicate the digital inputs that will be connected, go to _ , and navigate to the parameters from IO14 to IO19. Select their values from the range 8 to 24. Terminals Para-
meter Range Code & Medium Procedures
X1 IO14 8…24 8- Low pressure X2 IO15 9- High pressure X3 IO16 10- Flow switch X4 IO17 11- Indoor motor protection X5 IO18 12- Outside motor protection X6 IO19 13- Discharge high temperature protection 14- Compressor 1 protection (CP1) 15- Compressor 2 protection (CP2) 16- Power failure
In parameter setting mode, select with +/- and confirm with <Enter>. Exit with <Esc>
17- (User definable) Manual Rest Alarm 18- (User definable) warning 19- (User definable) Auto Reset Alarm 20- Alarm for over water tank high level 21- Alarm for over water tank low level 22- Remote ON/OFF 23- Heating/Cooling 24- Economy mode
X1
X2
X3
X4
X5
Note
27/56
Siemens Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 5 Configuration of Analog Inputs 27.11.2006
5.3.3 Setting Validity of Analog Inputs (When Configured as
Digital Inputs)
By default, only factory users and service men can access the parameters IO33 through IO38. After selecting the corresponding digital signals that will be connected to terminals X1 through X6, navigate to the parameters IO33 through IO38, and set the true indicator of each input signal, as appropriate. If 1 indicates TRUE, select 1, otherwise, select 0.
Terminals Parameter Range Default X1 IO33 0, 1 1 X2 IO34 0, 1 1 X3 IO35 0, 1 1 X4 IO36 0, 1 1 X5 IO37 0, 1 1 X6 IO38 0, 1 1
In parameter setting mode, select with +/- and confirm with <Enter>.
Note
28/56
Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 6 Configuration of Digital Inputs 27.11.2006
6 Configuration of Digital Inputs
Terminals D1 through D5 are used for digital inputs of this controller. To activate these terminals, please do the following: • Selection of digital input signals • Setting validity of digital inputs If this digital input is not configured, “NoNE” will be displayed.
6.1 Selection of Signals
By default, only factory users can configure the following digital inputs that will connected to IO01 through IO05. After entering into the Menu mode, go to _ , and navigate to the parameters from IO01 to IO05. Set their values by selecting from the numbers 8 to 24.
Terminals Parameter Range Codes & Signals D1 IO01 8…24 8- Low pressure D2 IO02 9- High pressure D3 IO03 10- Flow switch D4 IO04 11- Indoor motor protection D5 IO05 12- Outside motor protection 13- Discharge high temperature protection 14- Compressor 1 protection (CP1) 15- Compressor 2 protection (CP2) 16- Power failure 17- (User definable) Manual Rest Alarm 18- (User definable) warning 19- (User definable) Auto Reset Alarm 20- Alarm for over water tank high level 21- Alarm for over water tank low level 22- Remote ON/OFF 23- Heating/Cooling 24- Economy mode
6.2 Setting Validity of Digital Inputs
By default, both factory users and service men can access the parameters IO22 through IO26. After selecting the digital signals, go to the parameters IO22 through IO26 and set the true indicator of each digital input, as appropriate. If 1 indicates True, select 1, otherwise, select 0.
Terminals Parameter Values Default D1 IO22 0, 1 1 D2 IO23 0, 1 1 D3 IO24 0, 1 1 D4 IO25 0, 1 1 D5 IO26 0, 1 1
Notes
Notes
Notes
29/56
Siemens Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 7 Configuration of Analog Outputs 27.11.2006
7 Configuration of Analog Outputs
By default, only factory users can access the parameters IO20 through IO21. After entering into the Menu mode, go to _ , and navigate to the parameters from IO20 to IO21. For the terminals (Y1 and Y2) that are used for analogue outputs of this controller, the following devices can be connected. Terminals Parameters Range Codes & Devices Y1 IO20 26 26- Outside fan driver Y2 IO21
Note
30/56
Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 8 Configuration of Digital Outputs 27.11.2006
8 Configuration of Digital Outputs
Two groups of terminals (Q14…Q64 and Q74…Q84) are used for digital outputs of this controller. To activate them, do the following: • Selection of digital output signals • Setting validity of digital outputs (only for RV and DV)
8.1 Selection of Devices
By default, only factory users can access the parameters IO06 through IO13 and select the devices that will be connected to Terminals Q14 through Q84. After entering into the Menu mode, go to _ , and navigate to the parameters from IO06 to IO013. Set their values by selecting from the numbers 26 to 37. Terminals Parameters Range Code & Device Q14 IO06 26…37 26- compressor 1 ON/OFF Q24 IO07 27- compressor 2 ON/OFF Q34 IO08 28- solenoid valve (CV) Q44 IO09 29- outdoor motor low speed (OL) (If constant, ON/OFF) Q54 IO10 30- outdoor motor middle speed Q64 IO11 31- outdoor motor high speed Q74 IO12 32- indoor motor switch (IS) Q84 IO13 33- e-heater 1 34- Boiler 35- solenoid valve (between evaporator and condenser) 36- Reversing valve (RV) 37- defrost valve (DV)
8.2 Setting Validity of Digital Outputs (for RV & CV)
By default, both factory users and service men can access the parameters CM10 to CM11. For digital relay outputs connected with reversing valve (RV) and solenoid valve for compressor capacity control (CV), users can indicate which number, either 1 or 0, means the command from the controller.
Parameters Range Default Meaning ... CM10 0, 1 1 True indicator of RV (1 or 0 indicates heating mode) CM11 0, 1 1 True indicator of CV (1 or 0 indicates connecting CV) ...
After entering into the Menu mode, go to _ , and navigate to the parameters from CM10 to CM11. • For RV, setting CM10=1 means 1 indicates heating mode. Otherwise, 0 indicates
heating mode. • For CV, setting CM11= 1 means 1 indicates connecting solenoid valve (CV).
Otherwise, 0 indicates connecting this valve.
Note
Note
31/56
Siemens Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 9 Fast Configuration via PolyStick 27.11.2006
9 Fast Configuration via PolyStick
Only trained staff can perform fast configuration via PolyStick.
9.1 Uploading Application and Parameters to PolyStick
During the application (with parameters) uploading process, it is forbidden to power off the controller. (See also Chapter 15.10. System Functions)
Display Procedures In Stop Mode, plug PolyStick into RJ45 service interface.
Then, go to _ , navigate to the parameter FN03, and set FN03 as “ON.” Wait while the green LED is continuously blinking, indicating the data communication process. Once finished, the green LED will be fixed.
If successful, FN03 will be automatically set as “OFF.”
If failed, the word “FAIL” will be displayed.
9.2 Downloading Application and Parameters from PolyStick
To download application and parameters from PolyStick to the controller, follow steps below: • Power off the controller • Plug PolyStick into RJ45 service interface • Re-apply power to the controller • Wait while the green LED is continuously blinking, indicating the data communication
process • Once finished, the controller will be set in Stop mode, and the green LED fixed • Un-plug the PolyStick • Press <Esc> to activate the system from Stop mode
32/56
Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 10 Customizing Application by Adjusting Parameter Values 27.11.2006
10 Customizing Application by Adjusting Parameter Values
It is recommended to adjust parameter values in Stop mode.
10.1 Accessing the Parameter Menu
Display Procedures In Stop mode, press <Enter> for 2 seconds and release it to activate the Menu mode.
When the icon is blinking, press <Plus> or <Minus> to navigate to the menu, and then press <Enter> to proceed.
Contents under the menu may vary with the privilege right of the user. • For end users, select “ENd,” and press <Enter > to proceed. • For service men and factory users, select “PWd,” and press <Enter>. Input the 4-
digit password when the following screen is displayed
Press <Enter> to confirm and continue to input the password.
Password is required for service men and factory users.
To input password, follow the instructions below: • When the digit is blinking, press <Plus>/<Minus> to select the value. Then, press
<Enter> to confirm, and proceed to the next digit. • Or, press <Esc> at any time to cancel the input and return to the previous blinking
digit. • Repeat steps above to input other three numbers. • After inputting the password, press <Enter> to confirm, and proceed to setting
parameter values (see also Chapter 10.2 Adjusting Parameter Values).
Notes
Input Password
33/56
Siemens Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 10 Customizing Application by Adjusting Parameter Values 27.11.2006
10.2 Adjusting Parameter Values
Display Procedures After inputting password and enter into the parameter setting mode, the “ST” parameter group will by default be displayed. \
Press <Plus> or <Minus> to select the parameter group, and press <Enter> to confirm and proceed. The first parameter with its default value will be displayed.
Press <Plus> or <Minus> to select the parameter code, and press <Enter> to confirm.
The default value of the parameter will start flashing, allowing you to make a change. Press <Plus> or <Minus> to increase or decrease the value, and press <Enter> to confirm.
(Only for Factory Users) To continuously set user’s privilege to the parameter, go to <Chapter 10.3 Setting User’s Privilege to Parameters> Continuously press <Esc> to exit out of the current level and back to the desired menu level.
10.3 Setting User’s Privilege to Parameters
Only Factory users can set user’s privilege to parameters.
Display Procedures
When both the parameter and its value are selected and confirmed, press <Enter> again, and “P----” will be displayed below the parameter. Press <Plus> or <Minus> to set user’s privilege to the parameter you are working on, and then press <Enter> to confirm.
After setting this parameter value and its privilege level, continuously <Esc> to exit out of the current level and return the desired level.
Privilege Level Meaning 0 This parameter is accessible to all users, including end users. 1 This parameter is only accessible to Service Men and Factory
Users. 2 This parameter is exclusively accessible to Factory Users.
Procedures
Notes
Note
Three Privilege Levels to Parameters
34/56
Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 11 Commissioning 27.11.2006
10.4 Changing the Units of Temperature and Pressure
By default, only Service Men and Factory Users can adjust the units of temperature and pressure.
Display Procedures In normal working mode, press <Enter> for 2 seconds and release it to enter the Menu mode.
Enter into the menu and select “PWd” group. Input the password and press <Enter>. Navigate to UI _ UI03, and press <Enter> to confirm. By default, the unit of temperature is ºC (when UI03=1).
To set the unit of temperature as ºF, set UI03 = 0, and press <Enter> to confirm.
Follow the same way to set the unit of pressure by navigating to the menu _ UI _ UI04, and setting the value of UI04, as appropriate.
11 Commissioning
It is recommended to perform commissioning in Stop mode. By default, only factory users can do commissioning.
Display Procedures
In Stop mode, go to _ , and navigate to the parameter FN06. By default, the value of FN06 reads “OFF.”
To start commissioning, set the value of FN06 as ON, and press <Enter> to confirm.
Pressing any button will enable this system to exit out of this commissioning mode, and automatically set the value of FN06 as OFF. However, all replay outputs are not deenergized. To do this, re-enter the Menu mode, manually set the value of FN06 as OFF.
Note
Notes
Note
35/56
Siemens Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 12 Warning Management 27.11.2006
12 Warning Management
When a warning is detected, the corresponding warning code will be displayed on the
LCD. The warning icon will flash simultaneously. Only the latest 10 warnings will be kept under the menu. Upon power failure of the controller, the warning logs will be erased and recounted
12.1 Codes for Warnings
Ten types of warnings are used to monitor the system. Codes Meaning WN00 Water tank level over the low limit (DI).
WN01 Water tank level over the high limit (DI).
WN02 Supply/return temperature is over the subtraction of antifreeze setpoint minus temperature band SF11-SF12)???
WN03 Compressor 1 running time is over the preset time for discard (CM12).
WN04 Compressor 2 running time is over the preset time for discard (CM14).
WN05 Compressor 1 running time is over the preset time for maintenance (CM13).
WN06 Compressor 2 running time is over the preset time for maintenance (CM15).
WN07 User definable warning (DI)
WN08 Indoor pump ON time is over the preset time for discard (EV03)
WN09 Indoor pump ON time is over the preset time for maintenance. (EV04)
WN10 Actual pressure/temperature is over the setpoint for forced adjustment mode (CN02 /CN03).
12.2 Viewing Warning Logs
Display Procedures Press down <Enter> for 2 seconds and release it to activate the Menu mode.
When the icon is flashing, press <Plus>/ <Minus> to navigate to the menu, and then press <Enter> to confirm.
Two letters “WN” will be displayed on the LCD, continuously flashing. Press <Enter> again to view the last 10 warning codes generated, if any. If no warning is generated, the word “NoNE” will be displayed.
Continuously press <Exit> to exit out of the current level, and back to the normal running mode.
Notes
36/56
Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 13 Alarm Management 27.11.2006
13 Alarm Management
Alarms in PolyCool470.10 are divided into two groups: auto reset alarms and manual reset alarms. • For an auto reset alarm, users are not required to acknowledge and reset it. The
corresponding device will be automatically restarted once the alarm status disappears.
• Once a manual reset alarm is detected, the system will be stopped. Users need acknowledge and reset it, and also manually restart the corresponding device after the fault status is cleared.
When an alarm is detected, the corresponding device icon (if any) and the icon will continuously flash. An alarm code will be displayed on the screen. • If more than one alarm is detected, the alarm codes will be displayed successively
on the LCD screen until the alarm status disappears, or until they are manually acknowledged or reset (only for manual reset alarms).
• If the system detects warnings and alarms at the same time, the warning codes will NOT be displayed on the LCD.
• The latest 20 normal alarms and manual reset alarms generated in total are separately kept under the auto reset alarm (AR) and manual reset alarm (MR) categories in the menu.
13.1 Auto Reset Alarms
The following are codes for auto reset alarms with their meanings. Codes Meaning AL00 Condenser high pressure (when less than CN04/CN03) AL01 (User definable auto reset alarm)
AL02 Compressor low pressure (DI)
AL03 Compressor high pressure (DI)
AL04 Low supply water temperature protection (when less than the subtraction of AL10 minus AL12 in “AL” parameter group)
AL05 Low evaporator temperature protection (when less than the subtraction of AL11 minus AL13 in “AL” parameter group)
Notes
37/56
Siemens Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 13 Alarm Management 27.11.2006
13.2 Manual Reset Alarms
The following are codes for manual reset alarms with their meanings. Codes Meaning AL06 Indoor unit protection alarm (DI) AL07 Outdoor unit protection alarm (DI) AL08 Compressor discharge temperature is over the high limit (DI) AL09 Compressor 1 protection alarm (DI) AL10 Compressor 2 protection alarm (DI) AL11 Power failure (DI) AL12 (User definable manual reset alarm) AL13 Actual return temperature (RT) is greater than 80°C AL14 Actual supply temperature (ST) is greater than 80°C AL15 Actual condenser pressure (CP) is over the high limit of the selected sensor (i.e.
+9bar/+29bar/+24bar /+59bar according to the selected pressure sensor type) AL16 Actual condenser temperature (CT) is greater than 80°C AL17 Actual defrost temperature (DT) is greater than 80°C AL18 Actual outside temperature (OT) is greater than 80°C AL19 Actual evaporator temperature is greater than 80°C AL20 Actual suction gas temperature (IT) is greater than 80°C AL21 Actual return temperature (RT) is less than -25°C (NTC 10K) or less than -50°C (Ni1K) AL22 Actual supply temperature (ST) is less than -25°C (NTC 10K) or less than -50°C (Ni1K) AL23 Actual condenser pressure (CP) is less than -1 bar. AL24 Actual condenser temperature (CT) is less than -25°C (NTC 10K) or less than -50°C (Ni1K) AL25 Actual defrost temperature (DT) is less than -25°C (NTC 10K) or less than -50°C (Ni1K) AL26 Actual outside temperature (OT) is less than -25°C (NTC 10K) or less than -50°C (Ni1K) AL27 Actual evaporator temperature is less than -25°C (NTC 10K) or less than -50°C (Ni1K) AL28 Actual suction gas temperature (IT) is less than -25°C (NTC 10K) or less than -50°C (Ni1K) AL29 Water temperature is over the high limit (compared with the value of AL07 in “AL” parameter
group) AL30 Alarm for memory error AL31 Total alarm number (including auto reset and manual reset alarms) within 24 hours is over the
limit (compared with the value of AL06 in “AL” parameter group) AL32 Alarm number of compressor high pressure within 24 hours is over the limit (compared with the
value of AL02 in “AL” parameter group) AL33 Alarm number of compressor low pressure within 24 hours is over the limit (compared with the
value of AL03 in “AL” parameter group) AL34 Flow switch alarm after the delay (AL08 in “AL” parameter group)
AL35 Actual water tank level is over the low limit after the delay (AL05 in “AL” parameter group) AL36 (reserved) AL37 Actual outside temperature is below the low limit (AL09)
38/56
Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 13 Alarm Management 27.11.2006
13.3 Viewing Alarm Logs
Display Procedures Press down <Enter> for 2 seconds, and release it to activate the Menu mode.
Press <Plus> or <Minus> to navigate to the menu, and then press <Enter> to confirm.
By default, auto reset alarm “AR” will be displayed on the LCD, flashing.
To view auto reset alarms generated, press <Enter> to continue when “AR” is displayed. To view manual reset alarms, press<Minus> or <Plus> to navigate to the “MR” group, and then press <Enter> to continue. By default, the first manual reset alarm “MR01” will be displayed as follows. Press <Enter> to view the first manual reset alarm code. Or, press<Minus> or <Plus> to view other numbered alarms, and press<Enter> to view the specific code.
If no alarm is generated, the word “NoNE” will be displayed.
Continuously press <Exit> to exit out of the current level, and back to the normal running mode.
MR01 and AR01 are respectively the latest information of manual reset alarm and auto reset alarm.
13.4 Acknowledging and Resetting Manual Reset Alarms
Any alarm detected by the system, either an auto reset alarm or a manual reset alarm, will be displayed on the LCD. However, only manual reset alarms require user’s acknowledgement and reset. To do this, follow the steps below: • Press <Enter> to acknowledge the alarm.
• If the alarm status is cleared, the corresponding device icon and alarm icon that are flashing will accordingly disappear.
• Restart the system, as appropriate.
Note
39/56
Siemens Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 14 Main Control Logic 27.11.2006
14 Main Control Logic
14.1 Compressor Capacity Control
RWR470.10 determines compressor stages according the number of compressors and bypass valve.
CV
CV
1 Stage
4 Stages2 Stages
2 Stages
For the system with two compressors and one bypass valve (CM08=2, CM09=1), maximum four compressor stages can be configured as follows: • Stage 1: one compressor and one bypass valve • Stage 2: one compressor only • Stage 3: two compressors and one bypass valve • Stage 4: two compressors only For the compressor with stages, it will be started with full capacity when the system on.
Band1
Band1
Cooling Setpoint
Tem
pera
ture
Time
3390
D01
+
+
In cooling mode: • When the actual supply/return temperature is higher than the cooling setpoint (ST01)
+ temperature band (ST03), the compressor capacity will be gradually increased by stages every a preset time (ST05).
• When the actual supply/return temperature is lower than the cooling setpoint (ST01)
- temperature band (ST03), the compressor capacity will be gradually decreased by stages every a preset time (ST05).
40/56
Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 14 Main Control Logic 27.11.2006
In heating mode: • When the actual supply/return temperature is lower than the heating setpoint (ST02)
- temperature band (ST04), the compressor capacity will be gradually increased by stages every a preset time (ST05).
• When the actual supply/return temperature is higher than the heating setpoint (ST02)
+ temperature band (ST04), the compressor capacity will be gradually decreased by stages every a preset time (ST05).
14.2 Defrost Control
In heating mode, press the <Minus> button for 2 seconds to start manual defrost if all related parameters are configured. Automatic defrost can only be started when all relevant parameters, such as defrost method and logic, are configured, and the system and the compressor has been running for certain period (DF17 and DF18). Defrost logic with their descriptions are as follows: • Defrost with timer (when DF04=0): the delay time between two defrost requests is
equal to or greater than the preset time (DF11). • Defrost with timer and temperature/pressure (when DF04=1): the referred
temperature (via DF05) remains less than or equal to the defrost start point (DF06) after the delay time (DF08).
• Defrost with the differential value between defrost temperature and outside temperature (when DF04=2): the measured outside temperature is less than the preset setpoint (DF16), and the actual differential value between defrost temperature (via DF05) and outside temperature (?) is equal to or greater than the setpoint (DF15) after the delay time (DF08).
When one of the defrost conditions above is reached, the system will start defrost based on the defrost method you configured: • Fan defrost (DF02=1) • Hot gas bypass (DF04=0) • Reversing valve (DF04=1) First apply the method of fan defrost if it is enabled and if the actual outside temperature is equal to or greater than the preset point (DF14). Otherwise, apply one the other two methods (DF04=0, 1).
Notes
41/56
Siemens Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 14 Main Control Logic 27.11.2006
The defrost process, either automatic or manual, will stop when either of the following conditions is reached: • The referred temperature (via DF05) is greater than the end point (DF07) and the
defrost process lasts for DF09. • Or, the defrost process lasts for DF10. Each of the defrost processes above will end after the preset minimum duration (DF09) if it is manually stopped. At the end of defrost, the fan will be activated at maximum speed to ventilate the condenser for the preset time (DF13). Except for manual defrost, the delay between two automatic defrost processes must meet the preset delay time (DF11).
14.3 Energy Savings and Comfort Conditions
In RWR470.10, two methods of energy savings are provided: • The controller temperature setpoints are automatically compensated according to
outside temperature (herein called Economic Cooling/Heating Function). • Fixed shifts of controller setpoints (herein called Economy Mode)
14.3.1 Economic Cooling/Heating Function
When the system works in Economic Cooling/Heating Function (enabled when SF05=1), the system will automatically adjust the controller setpoints according to the outside temperature. This adjustment can save energy and create comfort conditions as the outside conditions vary. The controller setpoint(s), ST01 for cooling mode and ST02 for heating mode, will be automatically adjusted according to the actual outside temperature. In cooling mode, necessary parameter settings are as follows: • Controller setpoint (ST01) – the setpoint that the system should arrive in normal
working mode • Controller setpoint shift value (ST10) – the range of controller temperature setpoint
shift • Outside temperature setpoint (ST08) – the outside temperature setpoint to start the
energy saving program (if configured ) • Outside temperature shift value (ST09) – the range of outside temperature setpoint
shift
Notes
Notes
42/56
Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 14 Main Control Logic 27.11.2006
In heating mode necessary parameter settings are as follows: • Controller setpoint (ST02) – the setpoint that the system should arrive in normal
working mode • Controller setpoint shift value (ST13) – the range of controller temperature setpoint
shift • Outside temperature setpoint (ST11) – the outside temperature setpoint to start the
energy saving program (if configured ) • Outside temperature shift value (ST12) – the range of outside temperature setpoint
shift
14.3.2 Economy Mode
When Economy Mode is configured (when SF06=1), the system will run in the newer setpoints (ST06 / ST07) instead of the previous ones (ST01/ST02) once this mode is activated via a digital input or menu-driven operation.
Once the Economy Mode is running, the symbol “ ” will be lighted. Economy Mode will be automatically set to OFF upon power failure. Applying power to the controller again needs to re-activate the Economy Mode.
Notes
43/56
Siemens Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 14 Main Control Logic 27.11.2006
14.4 Antifreeze
(Currently, the system refers to the air-to-water application) To activate the antifreeze function, the following prerequisites must be reached: • The controller remains in Stop Mode (power ON yet). • Antifreeze function (SF04) is enabled. • Sensor for outside temperature is configured (CN09=1) Under the conditions above, when the actual supply temperature or return temperature (determined via SF07) is equal to or less than the differential value between antifreeze setpoint and temperature band (SF11 – SF12), and the actual outside temperature (via CN09) is lower than the setpoint (SF13), the pump will be switched on, and a warning (code: WN02) will be displayed on the LCD, flashing continuously. In the meantime, if the feedback signal of flow switch (digital input) from pump ON (only when EV01=0 or 1) is okay within the preset time (AL08), the antifreeze process will be activated. Otherwise, an alarm (code: AL34) will display. Only after the supply temperature/return temperature is greater than the antifreeze setpoint (SF11), the E-heater (If configured) will be stopped, and the pump will be switched off after the delay (CM07).
14.5 Forced Adjustment Management
Forced Adjustment Management is only applicable for the cooling mode of the system. This function is to adjust the condensing pressure/temperature by reducing compressor stages. The Forced Adjustment Management, if configured (SF02) and activated, has priority over the control of compressor capacity stages. That is, if all conditions for Forced Adjustment Management are reached, the system will apply the control logic of Forced Adjustment Management only. Once the actual condensing pressure / temperature (determined via CN08) is equal to or greater than the pressure/ temperature setpoint (CN03/CN02), but less than the pressure / temperature setpoint for alarm (CN05/CN04), the system will start adjusting the condenser pressure/temperature by the following methods: • First reducing the compressor stage from Stage 3/ Stage 4 to Stage 2, if applicable; • Or, reducing the compressor stage to Stage 1 after the delay time (SF08), if the
current stage is Stage 2; • If the actual pressure/temperature falls down to the differential value between
setpoints for alarm and pressure/temperature band for alarm (CN05–CN07/CN04 –CN06), the Forced Adjustment Management will be stopped.
• Or, an auto reset alarm (alarm code: AL00) will be generated after the delay time (SF09) if all methods utilized failed to reduce the condensing pressure /temperature down to the differential value between setpoint for alarm and pressure/temperature band for alarm (CN05-CN07 / CN04-CN06).
• If the actual condensing pressure/temperature is equal to /greater than the pressure /temperature setpoint for alarm (CN05/CN04), the Forced Adjustment Management
Notes
Notes
44/56
Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 14 Main Control Logic 27.11.2006
will be skipped over, and an auto reset alarm (alarm code: AL00) will be displayed directly without any delay.
A warning (code: WN10) will be displayed when the actual condensing pressure is greater than the start point for Forced Adjustment Management, but less than the setpoint for alarm.
14.6 Pump Down
The Pump Down function can only take effect in the cooling only or heating only system. The Pump Down function is to drive almost all refrigerant into the condenser before turning off the compressor. It protects the compressor from sucking the liquid refrigerant. To make this function work, you need activate this function (via SF03) and configure all relevant parameters. If the system is stopped from normal working mode, the SV will be first closed, and the compressor will continue working until the preset delay time (SF10) expires. When the pump down process is performed during the system stopping process, the
icon will flash continuously until the pump down process is finished. Except for low pressure alarm, if any other alarm is detected and displayed on the LCD in the pump down process, the system will return to the normal working mode after the alarm is reset. Pump down will not be performed either in the defrost process or under the situation that any alarm except for low pressure is existent.
Notes
Notes
Notes
45/56
Siemens Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 15 Paramter Tables 27.11.2006
15 Paramter Tables
15.1 Compressor Settings
<Second: Sec; Minute: Min; Hour: Hr>
Para-meter
Descriptions De-fault
Min. Max. Unit Res. Privi-lege
CM01 Compressor minimum ON time 180 1 1000 Sec 1 1
CM02 Compressor minimum OFF time 60 1 1000 Sec 1 1
CM03 Delay between two starts of the compressor. The start delay will be the maximum value of CM03 or (CM01+CM02).
36 1 100 Sec 1 1
CM04 Start delay between compressors 30 1 1000 Sec 1 1
CM05 Start delay between compressors in Defrost mode 3 1 1000 Sec 1 1
CM06 Compressor ON delay from indoor pump ON (air-to-water) 20 1 150 Sec 1 1
CM07 Indoor pump (air-to-water) OFF delay from compressor OFF 60 1 1800 Sec 1 1
CM08 The number of compressors 2 1 2 - 1 2
CM09 The number of bypass valves 1 0 1 - 0 2
CM10 RV true indicator:( 1 or 0 indicates heating mode) 1 0 1 1
CM11 CV true indicator ( 1 or 0 indicates connecting to capacity solenoid valve CV)
1 0 1 1
CM12 Compressor 1 consecutive running time for discard 30000 0 50000 Hr 10 1
CM131) Compressor 1 consecutive running time for maintenance 8000 0 50000 Hr 10 1
CM14 Compressor 2 consecutive running time for discard 30000 0 50000 Hr 10 1
CM152) Compressor 2 consecutive running time for maintenance 8000 0 50000 Hr 10 1
1) CM13=0 means ignoring compressor 1 maintenance warning. 2) CM15=0 means ignoring compressor 2 maintenance warning.
46/56
Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 15 Paramter Tables 27.11.2006
15.2 Condenser Settings
Para-meter
Descriptions De-fault
Min Max Unit Res. Privi-lege
CN01 Control Mode - 0= Fan ON/OFF with compressor ON/OFF - 1= Fan with stages - 2= Invert type fan - 3= Fan module
0 0 3 - Discrete 2
CN02 Temperature setpoint for forced adjustment management ON
65.0 10.0 100.0 °C 0.1 1
CN03 Pressure setpoint for forced adjustment management ON
27 10 31 Bar 0.01 1
CN04 Temperature setpoint for alarm ON in forced adjustment management
75 10 100 Bar 0.01 1
CN05 Pressure setpoint for alarm ON in forced adjustment management
33 10 40 Bar 0.01 1
CN061) Temperature band in forced adjustment management 26.0 0 100.0 °C 0.1 1
CN072) Pressure band in forced adjustment management 10.0 0 15.0 Bar 0.01 1
CN08 Referred sensor for condenser fan (see Device/Signal List: - 3=CT - 2=CP
3 2 3 1
CN09 Outside temperature sensor is enabled - 0= disabled - 1= enabled
1 0 1 1
CN10 start point of stage 1 (CN01=1) 0 0 100 % 1 1
CN11 start point of stage 2 (CN01=1) 33 0 100 % 1 1
CN12 start point of stage 3 (CN01=1) 66 0 100 % 1 1
CN13 Fan P value for pressure in heating mode 1 0.01 60 Bar 0.01 1
CN14 Fan I value for pressure in heating mode 60 0 9999 Sec 1 1
CN15 Fan D value for pressure in heating mode 0 0 20 1 (INT) 1
CN16 Fan pressure setpoint in heating mode 5 0.01 10 Bar 0.01 1
CN17 Fan P value for pressure in cooling mode 1 0.01 60 Bar 0.01 1
CN18 Fan I value for pressure in cooling mode 60 0 9999 Sec 1 1
CN19 Fan D value for pressure in cooling mode 0 0 20 1 (INT) 1
CN20 Fan pressure setpoint in cooling mode 15 5 25 Bar 0.01 1
CN21 Fan P value for temperature in heating mode 1 0.1 600 °C 0.1 1
CN22 Fan I value for temperature in heating mode 60 0 9999 Sec 1 1
CN23 Fan D value for temperature in heating mode 0 0 20 1 (INT) 1
CN24 Fan temperature setpoint in heating mode 50 0.1 100 °C 0.1 1
CN25 Fan P value for temperature in cooling 10 0.1 600 °C 0.01 1
CN26 Fan I value for temperature in cooling 60 0 9999 Sec 1 1
CN27 Fan D value for temperature in cooling 0 0 20 INT 1 1
CN28 Fan temperature setpoint in cooling mode 150 50 250 °C 0.1 1
1) If CN08 is lower than (CN04 - CN06), condenser fan alarm “AL00” will be cleared and forced adjustment management stopped. 2) If CN08 is lower than (CN05 - CN07), condenser fan alarm “AL00” will be cleared and forced adjustment management stopped.
47/56
Siemens Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 15 Paramter Tables 27.11.2006
15.3 Evaporator Settings
Para-meter
Descriptions De-fault
Min. Max. Unit Res. Privi-lege
EV01 Control Mode - 0=pump with flow switch - 1= Only flow switch - 2= VFD pump with flow switch (wish)
2 0 2 - Discrete 1
EV02 Indoor reference sensor: (see Device/Signal List) - 0=RT (return temperature sensor) - 1=ST (supply temperature sensor)
0 0 1 - Discrete 1
EV031) Pump consecutive operating hour for discard 5000 0 5000 Hr 10 hr. 1
EV042) Pump consecutive operating hour for maintenance 0 0 5000 Hr 10 hr. 1
1) EV03=0 means the warning (WN08) will not be displayed. 2) EV04=0 means the warning (WN09) will not be displayed.
48/56
Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 15 Paramter Tables 27.11.2006
15.4 Defrost Settings
Para-meter
Descriptions De-fault
Min. Max. Unit Res. Privi-lege
DF01 Defrost control - 0=Disabled - 1=Enabled
1 0 1 - 1 1
DF02 Fan defrost - 0=Disabled - 1=Enabled (only when outside temperature is greater than or equal to DF14)
1 0 1 - 1 1
DF03 Defrost method - 0= by hot gas bypass (DV) - 1= by reversing valve (RV)
1 0 2 - 2
DF04 Defrost logic - 0= Condenser defrost with timer (no precondition) - 1= Condenser defrost with timer and temperature/pressure - 2= Condenser defrost with the differential between defrost temperature
(DF05) and outside temperature (OT)
1 0 2 - 1
DF05 Sensor used for defrost (see Device/Signal List) - 3= Condenser temperature (CT) - 4= Defrost temperature (DT)
CT - 1
DF06 Defrost start temperature (compared with DF05) 5.0 -10.0 7.0 ºC 0.1 1
DF07 Defrost end temperature (compared with DF05) 15.0 3.0 20.0 ºC 0.1 1
DF08 Defrost delay time when defrost condition is reached 20 1 50 Min 1 1 DF09 Minimum defrost duration 5 1 10 Min 1 1
DF10 Maximum defrost duration 30 1 50 Min 1 1
DF11 Delay time between two defrost requests in the same circuit 15 1 50 M 1 1
DF12 Compressor delay from OFF to ON to switch from Heating to Cooling before defrost 6 6 180 Sec 1 1
DF13 Forced ventilation time when defrost ends (only for DF04=1, 2) 15 1 150 Sec 1 1
DF14 Outside temperature setpoint (if outside temperature is greater than or equal to this setpoint, apply Fan Defrost when DF02=1 )
5.0 0 10.0 ºC 0.1 1
DF151) Differential setpoint between DF05 and OT (only when DF04=2) When the actual differential value is equal to/ less than DF15, defrost starts.
8.0 3.0 25.0 ºC 0.1 1
DF16 Outside temperature setpoint (only for DF04=2) 2.0 -15.0 5.0 ºC 0.1 1
DF17 Minimum system power ON time (only for defrost mode) 40 1 s 60 Min 1 1
DF18 Minimum compressor ON time (only for defrost mode) 30 1 s 60 Min 1 1
DF19 Delay time to open solenoid valve (SV) after defrost mode ON 10 1 100 Sec s 1
1) DF05 -OT «DF15
2) OT«DF16
49/56
Siemens Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 15 Paramter Tables 27.11.2006
15.5 Special Functions
Para-
meter
Descriptions De-
fault
Min. Max. Unit Res. Privi-lege
SF01 System mode
- 0=Cooling only - 1=Heating & Cooling - 2=Heating only
0 0 2 1
SF02 Forced adjustment management - 0=Disabled - 1=Enabled
0 0 1 - - 1
SF03 Pump down function - 0=Disabled - 1=Enabled
0 0 1 - - 1
SF04 Antifreeze function - 0=Disabled - 1=Enabled
0 0 1 - - 1
SF05 Economic cooling/heating function - 0=Disabled - 1=Enabled
1 0 1 1
SF06 Economy mode (fixed setpoint shift) - 0=Disabled - 1=Enabled
1 0 1 1
SF07 Antifreeze referred sensor - 0=return temperature (RT) - 1=supply temperature (ST)
ST 0 1 1
SF08 Delay time for reducing compressor to Stage 1 in forced adjustment management 3 1 1000 Sec 1 1
SF09 Delay time for auto reset alarm (code: AL00) in forced adjustment management 3 1 1000 Sec 1 1
SF10 Pump down duration 20 1 1000 Sec 1 1 SF11 End point for antifreeze
If the actual temperature for antifreeze is below SF11-SF12, the antifreeze e-heater will be turned on.
5 -3 10 ºC 0.1 1
SF12 Temperature band for antifreeze 3 0 12 ºC 0.1 1 SF13 Outside temperature setpoint for antifreeze 0 -5.0 5.0 ºC 0.1 1
50/56
Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 15 Paramter Tables 27.11.2006
15.6 User Settings
Para-
meter
Descriptions De-
fault
Min. Max. Unit Res Privi-
lege ST01 Setpoint of compressors in cooling mode (End User) 11.5 -40 30 ºC/ºF 0.1 0
ST02 Setpoint of compressors in heating mode (End User) 45 -40 60 ºC/ºF 0.1 0
ST03 Adjustable temperature band of compressor in Cooling mode 0.5 0 10 ºC/ºF 0.1 0
ST04 Adjustable temperature band of compressor in Heating mode 0.5 0 10 ºC/ºF 0.1 0
ST05 Adjustable time band for economic cooling/heating function 120 0 3600 Sec 0
ST06 Cooling setpoint in Economy Mode 13 ST01 30 ºC/ºF 0.1 0
ST07 Heating setpoint in Economy Mode 40 -40 ST02 ºC/ºF 0.1 0
ST08 Shift value of outside temperature (OT) setpoint in economic cooling function 35 20 50 ºC 0.1 0
ST09 Shift value of outside temperature (OT) band in economic cooling function 7 1 20 ºC 0.1 0
ST10 Shift value of setpoint band in economic cooling function 5 1 12 ºC 0.1 0
ST11 Shift value of outside temperature (OT) setpoint in economic heating function 2 -10 15 ºC 0.1 0
ST12 Shift value of outside temperature (OT) band in economic heating function 7 1 15 ºC 0.1 0
ST13 Shift value of setpoint band in economic heating function 5 1 12 ºC 0.1 0
15.7 User Interface
Para-
meter
Descriptions De-fault Min. Max. Unit Res. Privi-
lege UI01 Password for service user 1234 0 9999 - 1 1
UI02 Password for factory user 4321 0 9999 - 1 2
UI03 Temperature unit selection: - 0=ºF - 1=ºC
1 0 - - 1 1
UI04 Pressure unit selection - 0=PSI - 1=BAR
1 0 - - 1 1
UI05 1) Readout of referred sensor will be shown in the upper area for parameter code (Display 1) <See 2.1 LCD Display>
0 (Return Temperature)
0 8 - - 1
UI06 1) Readout of referred sensor will be shown in the lower area for parameter value (Display 2) <See 2.1 LCD Display>
1 (Supply Temperature) 0 8 - - 1
1) See also <Chapter 16 Device/Signal List> for the measured medium.
51/56
Siemens Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 15 Paramter Tables 27.11.2006
15.8 Alarm Settings
Para-
meter
Descriptions De-
fault
Min. Max. Unit Res. Privi-
lege AL01 Time for fan running in full speed after compressor OFF when auto
reset alarm for high pressure “AL03” displays. (only in cooling or defrost mode)
60 0 180 Sec 1 1
AL02 Maximum number of high pressure alarms within 24 hours (Over this limit, manual reset alarm “code AL32” will be reported.)
6 1 10 - 1 1
AL03 Time range during which low pressure will be ignored when compressor ON 3 1 10 Min 1 1
AL04 Maximum number of low pressure alarms within 24 hours (Over this limit, manual reset alarm “AL33” will be reported.)
4 1 10 - 1 1
AL05 Delay time for water tank low level alarm (Manual reset alarm “AL35” will be generated when the delay time expires.)
3 1 5 Sec 1 1
AL06 Maximum total alarm number within 24 hours (including auto reset and manual reset alarm) (Over this limit, manual reset alarm “AL31” will be reported.)
6 1 20 1
AL07 water temperature setpoint (If return temperature or supply temperature is over this limit, manual reset alarm “AL29” will be reported)
55 55 100 ºC 1 1
AL08 Flow switch feedback time after pump ON (Manual reset alarm “AL34” will be reported when the time expires.)
15 1 300 Sec 1 1
AL09 Outside temperature setpoint (if outside temperature is blow AL09, the controller will not be started and manual reset alarm “AL37” will be reported)
-10 -15 5 ºC 0.1 1
AL10 Setpoint for low supply water temperature (If the supply water temperature is lower than this point, auto reset alarm “AL04” will be reported. Only when the supply water temperature is equal to or greater than AL10 + AL12, this auto reset alarm will be cleared from the LCD display.)
4 1 10 ºC 0.1 1
AL11 Setpoint for low evaporator temperature (If the evaporator temperature is lower this point, manual reset alarm “AL05” will be reported. Only when the supply water temperature is equal to or greater than AL11 +AL13, this auto reset alarm will be cleared from the LCD display.)
4 1 10 ºC 0.1 1
AL12 Band of low supply water temperature 3 0 10 ºC 0.1 1 AL13 Band of low evaporator temperature 3 0 10 ºC 0.1 1
52/56
Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 15 Paramter Tables 27.11.2006
15.9 Inputs and Outputs Configuration
Para-
meter
Descriptions De-
fault
Range Numbers for
devices /signal
Pri-
vilege IO01 DI1 device 8…24 See <Device List> 2 IO02 DI2 device 2 IO03 DI3 device 2 IO04 DI4 device 2 IO05 DI5 device 2 IO06 DO1 device 26 26…37 See <Device List> 2 IO07 DO2 device 27 2 IO08 DO3 device 28 2 IO09 DO4 device 32 2 IO10 DO5 device 36 2 IO09 DO4 device 29 2 IO10 DO5 device 33 2 IO11 DO6 device 37 2 IO12 DO7 device 2 IO13 DO8 device 2 IO14 AI1 device 1 0…24 See <Device List> 2 IO15 AI2 device 0 2 IO16 AI3 device 7 2 IO17 AI4 device 2 2 IO18 AI5 device 4 2 IO19 AI6 device 5 2 IO20 AO1 device 25 See <Device List> 2 IO21 AO2 device 2 IO22 DI1 true indicator 1 0,1 IO23 DI2 true indicator 1 0,1 1 IO24 DI3 true indicator 1 0,1 1 IO25 DI4 true indicator 1 0,1 1 IO26 DI5 true indicator 1 0,1 1 IO27 AI1 sensor type 1…14 See <Device List> 1 IO28 AI2 sensor type 1 IO29 AI3 sensor type 1 IO30 AI4 sensor type 1 IO31 AI5 sensor type 1 IO32 AI6 sensor type 1 IO33 AI1 true indicator when configured as DI 1 0,1 1 IO34 AI2 true indicator when configured as DI 1 0,1 1 IO35 AI3 true indicator when configured as DI 1 0,1 1 IO36 AI4 true indicator when configured as DI 1 0,1 1 IO37 AI5 true indicator when configured as DI 1 0,1 1 IO38 AI6 true indicator when configured as DI 1 0,1 1
53/56
Siemens Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 15 Paramter Tables 27.11.2006
15.10 System Function Parameter Descriptions Default Min. Max. Notes FN01 To clear the running time of Compressor 1 OFF ON/OFF
FN02 To clear the running time of compressor 2 OFF ON/OFF
FN03 To upload application and parameters to PolyStick OFF ON/OFF
FN04 To upload parameters to PC tools OFF ON/OFF
FN05 To clear the running time of the pump OFF ON/OFF
FN06 To perform commissioning test OFF ON/OFF
54/56
Building Technologies AC&R Controller RWR470.10 CB1P3900en HVAC Products 16 Device/Signal List 27.11.2006
16 Device/Signal List
I/O Number Device AI 0 Return temperature
1 Supply temperature
2 Condenser pressure
3 Condenser temperature
4 Defrost temperature
5 Outside temperature
6 Evaporator temperature
7 Compressor suction gas temperature
DI 8 Low pressure
9 High pressure
10 flow switch
11 indoor motor protection (pump for air-to-water system) ?
12 outside motor protection ?
13 discharge high temperature protection
14 compressor 1 protection (CP1)
15 compressor 2 protection (CP2)
16 Power failure
17 (User definable ) manual reset alarm
18 (User definable ) warning
19 (User definable) auto reset alarm
20 Water tank high level alarm
21 Water tank low level alarm
22 Remote ON/OFF
23 Heating/Cooling
24 Economy mode
AO 25 Outside fan driver
DO 26 Compressor 1
27 Compressor 2
28 Solenoid valve (CV)
29 Outdoor motor low speed (OL) (If constant, ON/OFF)
30 Outdoor motor middle speed
31 Outdoor motor high speed
32 Indoor motor switch (IS)
33 E-heater 1
34 Boiler
35 Solenoid valve (between evaporator and condenser) (SV)
36 Reversing valve (RV)
37 Defrost valve ( DV)
55/56
Building Technologies AC&R Controller RWR470.10 CE1P0000de HVAC Products 27.11.2006
Stichwortverzeichnis (wait for the final version)
56/56
Building Technologies AC&R Controller RWR470.10 CE1P0000de HVAC Products 27.11.2006
Siemens Schweiz AG Building Technologies Group International Headquarters HVAC Products Gubelstrasse 22 CH-6301 Zug Tel. +41 41-724 24 24 Fax +41 41-724 35 22 www.sbt.siemens.com
© 2006 Siemens Schweiz AG Änderungen vorbehalten