IPBox B Manual

IP BOX B

User manual

MN.00202.E - 001Volume 1/1

The information contained in this handbook is subject to change without notice.

Property of Siae Microelettronica. All rights reserved according to the law and according to the internationalregulations. No part of this document may be reproduced or transmitted in any form or by any means,electronic or mechanical, without written permission from Siae Microelettronica S.p.A.

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IP BOX B - MN.00202.E - 001 1

Contents

Section 1.IP-BOX 3

1 IP-BOX...................................................................................................................... 3

1.1 GENERAL.......................................................................................................... 3

1.2 DESCRIPTION ................................................................................................... 3

1.2.1 Power supply........................................................................................... 4

1.2.2 Controller ............................................................................................... 4

1.2.3 Drop/Insert............................................................................................. 4

1.2.4 E1 Line interfaces .................................................................................... 5

1.2.5 Ethernet L2 Switch................................................................................... 5

1.3 INSTALLATION .................................................................................................. 6

1.3.1 Mechanical installation.............................................................................. 6

1.3.2 Electrical installation................................................................................. 6

1.3.2.1 Single Unit BOX ........................................................................ 6

1.3.2.2 Three unit sub-rack ................................................................... 7

1.4 PROGRAMMABILITY AND MANAGEMENT................................................................ 8

1.5 MAINTENANCE AND ALARMS..............................................................................14

1.6 ANNEX 1 - BLOCK DIAGRAM AND SUBRACK CONFIGURATION ...............................15

1.7 SCT - E1 PORT CONFIGURATION .......................................................................18

Section 2.USER GUIDE 19

2 FIRST AID FOR ELECTRICAL SHOCK AND SAFETY RULES .........................................19

2.1 FIRST AID FOR ELECTRICAL SHOCK....................................................................19

2.1.1 Artificial respiration .................................................................................19

2.1.2 Treatment of burns .................................................................................19

2.2 SAFETY RULES .................................................................................................20

2.3 CORRECT DISPOSAL OF THIS PRODUCT (WASTE ELECTRICAL & ELECTRONIC EQUIPMENT) ....................................................................................................22

3 PURPOSE AND STRUCTURE OF THE MANUAL............................................................23

3.1 PURPOSE OF THE MANUAL.................................................................................23

3.2 STRUCTURE OF THE MANUAL .............................................................................23

2 IP BOX B - MN.00202.E - 001

Section 3.LISTS AND ASSISTANCE SERVICE 25

4 FIGURE LIST ............................................................................................................25

5 TABLE LIST ..............................................................................................................27

6 ASSISTANCE SERVICE..............................................................................................29

IP BOX B - MN.00202.E - 001 3

Section 1.IP-BOX

1 IP-BOX

1.1 GENERAL

This document describes the IP BOX-B unit, its characteristics, its activation procedure and the relevantmaintenance operations.

1.2 DESCRIPTION

The IP BOX unit is an equipment used in a TMN network to connect NE(s) to the Management System (SIAE- NMS5UX). It can be used as an IP or IP-OSI (IS-IS) router providing four interface types:

• RS232 Asynchronous serial interface

• RS422-V11 Synchronous serial interface

• ETHERNET LA N - 10Base T

• E1 line (nx64Kbit/s port or nx16Kbit/s into a 64Kbit/s time slot or 16Kbit/s using TS0)

In addition a USB (V1.0) port is reserved for LCT (Local Craft Terminal) access.

Two software versions are available:

1. IP-BOX with IP communication stack

2. IP BOX with IP and OSI communication stack

The IP Box is composed of a printed circuit board that can be housed:

• in a small metallic box with connectors placed on the front and rear panels (Fig.12).

• in a one unit (1U) 19" sub - rack (Fig.13)

In the sub-rack version up to three units can be housed.

4 IP BOX B - MN.00202.E - 001

Fig.11 represents a simplified block-diagram of the unit. This diagram shows the most important functionalblocks and the relevant ports towards the IP network.

The main functional blocks of the IP BOX are as follows:

• power supply;

• controller;

• FPGA - E1 Drop/Insert;

• Ethernet L2 Switch.

Below, there is a brief description of each functional block.

1.2.1 Power supply

The Power supply block of the IP BOX is composed of two DC/DC converters in cascade. The first one isdevoted to transform the battery main voltage (20 ÷ 72v DC range), coming from the ALARM LINES con-nector into 5v DC, while the second one converts this 5v DC into 3.3v DC.

The electrical characteristics of the Power supply block are as follows:

- Primary voltage (ALARM LINES connector) from 18 ÷ 72v DC

- Secondary voltages 5v DC, 3.3v DC

- Power Consumption less than 6W

1.2.2 Controller

The Controller block is composed of a 32 bit/50 MHz Motorola ColdFire micro-controller and the relevantmemory benches

The main characteristics of the controller block are as follows:

- Clock: 50 MHz

- Not Volatile Memory (Flash): 8 MBytes

- Dynamic Memory: 32 MBytes

- Serial Ports: 3

1.2.3 Drop/Insert

The Drop/Insert block is composed of a FPGA connected with the line interfaces of the input and output 2Mbit/s streams. The IP BOX unit receives and transmits a 2 Mbit/s stream and it is able to drop and toinsert a data stream into nx64Kb/s time slots of the 2Mbit/s signal or into an nx16Kb/s of a selected 64Kb/s time slot or into the spare bits in Time Slot0. The Drop/Insert operations are executed by the FPGA underthe direct control of the Controller block.

IP BOX B - MN.00202.E - 001 5

1.2.4 E1 Line interfaces

The line interfaces, present into the IP BOX unit, work with 2 Mbit/s HDB3 encoded streams. Each line in-terface has different functions related to the direction of the data stream and are referred to as INPUT andOUTPUT, their functions are as follows:

• input data - The interface regenerates the input signal and balances attenuation due to the cableas detailed by ITU G.703/G.704 specifications.

• output data - The interface provides a data stream with the electric characteristics detailed by ITUG.703/G.704 specifications.

Electrical characteristics of 2Mbit/s interface

The electrical characteristics of the 2Mbit/s interface, provided to the user, are as follows:

- Bit rate 2048 kbit/s

- Line code HDB3

- Type of nominal interface/impedance unbalanced / 75 W

- Connector 1.0/2.3

- Nominal value ±2,37Vp on 75 W

- Input reflection attenuation 12 dB from 51 kHz to 102 kHz18 dB from 102 kHz to 2048 kHz14 dB from 2048 kHz to 3072 kHz

- Max attenuation of input cable 6 dB in at 1024 kHz

If DC power is removed from the IP BOX unit, the unit becomes transparent to the 2 Mbit/s lines towardsthe user and the master station.

1.2.5 Ethernet L2 Switch

The IP-BOX has an Ethernet L2 Switch connecting the following ports:

• Micro processor Ethernet port

• Two 10BaseT external Ethernet ports

• Two Internal ports connectable to E1 ports or to RS422-64Kb/s port

It is possible to connect to each of the internal ports a serial frame generated by an nx64Kbit/s drop/insertsignal on the E1s it is also possible to connect the 64Kb/s synchronous signal frame coming from RS422port.

The two Ethernet interfaces of the IP BOX unit follow specification 802.3 with MAU transceiver 10BaseTand standard RJ45 connector.

The two Ethernet ports are configurable (using SCT) as:

• “MDI" (Media Dependent Interface)

• "MDIX" (Media Dependent Interface with Crossover).

• "Auto Cross".

f

6 IP BOX B - MN.00202.E - 001

1.3 INSTALLATION

This paragraph describes the mechanical and electrical installation practices of the IP BOX unit.

1.3.1 Mechanical installation

The IP BOX is an indoor unit with a metallic protection shell that requires some special installation proce-dures (refer to Fig.12).

Up to three IP BOX units can be also housed into a subrack (Fig.13):

- 19" Height 1U HxWxD (mm): 44 x 482 x 240

1.3.2 Electrical installation

The electrical installation of the IP BOX unit requires the preparation of the wiring necessary for the correctfunction of the unit and for the connections to the Ethernet network.

Different connectors are provided dependant on the version.

1.3.2.1 Single Unit BOX

The connectors provided on the unit are listed below (Refer to Fig.12).

Front panel:

• E1 in/out connectors ( connector) female type 1.0/2.3 at 75 Ω

• E1 in/out connectors (PMP connector) female type 1.0/2.3 at 75 Ω

• ALARM LINES connector Sub-D male type with 15 pins (the description of the pins is detailed inTab.1). This connector provides the 48v DC and user input relay contacts.

Rear panel:

• 2 x 802.3 connector RJ45 Ethernet standard type

• PMP-LES or RS232-RS422/PPP RJ45 connectors (the wiring is detailed in Tab.1).

• RS232/PPP connector Sub-D male type with 9 pins (the wiring description is detailed in Tab.1).

• USB connector for LCT

Power supply connectors

The power supply connector is included with the ALARM LINES (48v DC)

IP BOX B - MN.00202.E - 001 7

Tab.1 - Connector Wire

1.3.2.2 Three unit sub-rack

The connectors provided by each equipped unit are listed below (Refer to Fig.3):

• E1-1 in/out connectors female type 1.0/2.3 at 75 Ω

• E1-2 in/out connectors female type 1.0/2.3 a 75 Ω

• 2x802.3 connectors RJ45 Ethernet standard type

• RS232-RS422/PPP connector RJ45 type (the wiring is detailed in Tab.2).

• RS232/PPP connector RJ45 type (the wiring is detailed out in Tab.2).

• USB connector

Alarm Connector

Alarm line connector Sub-D male type with 15 pins (the description of the pins is detailed in Tab.2). It isused for the return of relay contacts.

Power supply connector

The sub-rack version requires a single SUB D 3W3 male connector for 48v DC power supply (Tab.2)

Pin Rs232/RS422PMP_LES RS232/PPP ALARM LINES PIN

1 CkTx- (V11) RTS (C105) Power supply - 1

2 CkTx+ (V11) DTR (C108) Relay-1 2

3 TxD- (C103 or V11) TxD (C103) Relay-2 3

4 TxD+ (V11) GND (C102) Relay-3 4

5 RxD+ (V11) +5V (Out) Relay-4 5

6 RxD- (C104 or V11) RxD (C104) Relay-5 6

7 CkRx- (V11) CD (C109) Relay-6 7

8 CkRx+ (V11) or 5VDC CTS (C106) Relay-7 8

Shield GND a

a. The ground connection for the PMP_LES connector has made via RJ45 Chassis

Power supply + 9

Power supply + 10

Power supply + 11

Power supply + 12

GND 13

GND 14

15

8 IP BOX B - MN.00202.E - 001

Tab.2 - Pins of the connectors

1.4 PROGRAMMABILITY AND MANAGEMENT

The IP BOX unit is managed through SNMP protocol using a proprietary MIB (Management InformationBase) which details the managed objects.

The SNMP v1 protocol is used in accordance with RFC 1157 spec; MIB description is according to V1 syntax,the unit is fully complaint with these specifications:

• RFC 1155 SMIv1

• RFC 1156 MIB for Network Management

• RFC 1212 concise MIB definitions

According to the network type and customer requirements the IP BOX supporting SNMP protocol can beprovided with two protocol stacks: a "Full IP stack" or an "OSI+IP stack".

As an option the "Full IP stack" version supports dynamic IP routing through OSPF (Open Shortest PathFirst) protocol.

When implementing OSI+IP stack, layers 1 to 3 are compliant with the recommendations:

• Level3: ISO 8473, ISO 10589 IS-IS

• Level2: G.921 LAPD

Pin RS232-RS422/PPP RS232/PPP 3W3 Alarm Connector PIN

1 CkTx- (V11) RTS (C105_PPP) +V - 1

2 CkTx+ (V11) DTR (C108_PPP) GND IP-BOX-1 Alarm 2

3 TxD- (C103 or V11) TxD (C103_PPP) -V - 3

4 TxD+ (V11) GND (C102) IP-BOX-2 Alarm 4

5 RxD+ (V11) +5V (Out) . 5

6 RxD- (C104 or V11) RxD (C104_PPP) IP-BOX-3 Alarm 6

7 CkRx- (V11) CD (C109_PPP) - 7

8 CkRx+ (V11) or 5VDC CTS (C106_PPP) - 8

Shield * GND - 9

- 10

- 11

- 12

- 13

- 14

- 15

IP BOX B - MN.00202.E - 001 9

Fig.1 - IP Communication Stack

Fig.2 - IP - OSI Communication Stack

Fig.3 - IP - BOX IP INTERFACE INTERCONNECTION

IP - OSPF

TCP / UDP

802.3 ETH - LAN

LLC 802.2 MAC 802 3

APPLICAT ION SOFTWARE

SNMP

PPP

2Mb/s nx64(16)Kb/s

SYNC-RS422 64 Kb/s

ASYN-Rs232 57.6 Kb/s

TCP / UDP

802.3 ETH - LAN

LLC 802.2 MAC 802 3

ISO 8473 ISO10589 IS-IS

IP

APPLICATION SOFTWARE

PPP

SNMP

LAPD G.921

2Mb/s nx64(16)Kb/

ASYN-Rs232 57.6 Kb/s

SYNC-RS422 64 Kb/s

E1-1 or E1-2nx64Kb/s (n<=4) or

TS0 spare bits PPP Protocol

RS422/V11 Synch. (64Kb/s)

PPP Protocol

RS232 Asynch. (57.6Kb/s)PPP Protocol

E1-1/2 nx64Kb/s (n<=31) RS422/V11 Synch.

64Kb/s

LAN MicroProcessor

ETH LAN A

ETH LAN B

10 IP BOX B - MN.00202.E - 001

The communication ports of IP-BOX unit are:

• 2 x Ethernet LAN

• 1 x Asynchronous RS232 serial interfaces

• 1 x Asynchronous RS232 or 1xSynchronous RS422-V.11 serial interface

• 2 x E1 G.704 signals

Fig.4 - LAN Interconnection

The two Ethernet ports are connected to the L2 internal switch, both ports can be used to connect the IP-BOX to the LAN or to another NE (Refer to Fig.4)

The Asynchronous RS232 serial interfaces are programmed to support Point to Point Protocol (PPP) sup-porting Wide Area Network (WAN) interconnection using TCP/IP protocol.

The maximum speed is 57.6Kb/s

One of the two RS232 port can be configured to support synchronous RS422-V11, the maximum speed is64Kb/s. The supported protocol is PPP for "Full IP" version or LAPD for "IP-OSI" version. The RS422-V11port can be connected also to a port of the internal L2 switch

The IP-BOX provides 2 x E1 G704 interfaces.

On both of these it is possible to drop/insert:

• nx64Kb/s time slots

• nx16Kb/s within a 64Kb/s time slot

• TS0 spare bits

Because the IP BOX provides one serial controller, the operator has to select which E1 to connect. Thesupported protocol is PPP for "Full IP" version or LAPD for "IP-OSI" version.

The maximum number of 64Kbit/s is four.

It is mandatory the use of the serial controller (PPP or LAPD protocol) with TS0 spare bits and nx16Kbit/s

Ohe nx64Kbit/s (n<=31) dropped/inserted from/to an E1 signal can be connected to an internal port of L2Switch (Fig.11) and in this way it can be used to connect two remote IP-BOX (WAN interconnection be-tween two Ethernet LAN switches).

Two internal L2 switch ports are available (Fig.11), to these ports two TS Group (TSG1 and TSG2) canbe connected. The two TSG can belong or not to the same E1.

Using the "Lan per port" L2 switch feature it is possible to separate the traffic coming from the LAN portsand addressed to the internal CPU and/or to the two TSG.

Fig.13 reports the SCT window used to configure E1 drop/insert features.

The following page show different scenarios covered by the IP BOX's features.

FROM OTHER NE TO OTHER NE

LAN interconnection

IP BOX B - MN.00202.E - 001 11

Scenario 1

Fig.5 - IP BOX connection

The E1 signals are connected to L2 IP-BOX switch, the number of 64Kb/s E1 time slots is configurable from1 to 31, no routing IP is performed by IP-BOX and it looks as if all the IP-BOXs are connected to the sameLAN.

Scenario 2

Fig.6 - IP BOX connection

The connection between IP-BOX 1 and IP-BOX 2 is a point-to-point connection using PPP protocol, IP BOX-1 and IP-BOX 2 belong to two different IP sub-networks and they act as routers between the two sub-networks. The connection between IP-BOX 1 and IP-BOX 2 can use:

• nx64Kb/s time slots (n<=4)

• nx16Kb within a 64Kb/s time slot

• TS0 spare bits (16Kb/s)

IP-BOX 2 and IP-BOX 3 are connected using bridging functionality.

Scenario 3

TDMTDM

CONTROLLER CONTROLLER CONTROLLER

Ethernet EthernetEthernet

IP-BOX 1 IP-BOX 2 IP-BOX 3

nx64Kb/s on E1 nx64Kb/s on E1

Only one IP NETWORK

TDM

CONTROLLER CONTROLLER CONTROLLER

Ethernet

IP-BOX 1 IP-BOX 2

IP-BOX 3

nx64Kb/s on E1

TDM

nx64Kb/s or TS0 on E1

IP-NET 1 IP-NET 2

Ethernet Ethernet

12 IP BOX B - MN.00202.E - 001

Fig.7 - IP BOX connection

The connection between IP-BOX 1 and IP-BOX 2 is implemented both by a point-to-point connection usingPPP protocol and by bridging functionality. Both connections can use the same E1 signal.

The scenario covers the need to have a connection reserved for data traffic and the other one for the IP-BOX remote management.

Scenario 4

Fig.8 - IP BOX connection

The three IP-BOX are connected using bridging functionality.

• IP-BOX maps two TSG (Time Slot Group) on the same E1, the two TSG are dropped/inserted in dif-ferent sites by IP-BOX 2 and IP-BOX 3.

• Using "Lan per Port" L2 switch feature in IP-BOX 1 it is possible to separate the traffic coming fromETH A and ETH B

Scenario 5

CONTROLLER CONTROLLER

IP-BOX 1 IP-BOX 2

TDM

nx64Kb/s or TS0 on E1-1(2)

IP-NET 1 IP-NET 2

Ethernet Ethernet

TDM

nx64Kb/s on E1-1(2)

IP-NET 3

TDM TDM

TSG1 - TSG2 TSG1 TSG2

E1-1 E1-1 E1-1E1-2

IPBOX 1 IPBOX 2 IPBOX 3

ETH A ETH B ETH A ETH A

IP BOX B - MN.00202.E - 001 13

Fig.9 - IP BOX connection

This Scenario 5 is a Scenario 4 extension.

All the IP BOX are connected using bridging functionality.

It shows that, connecting in a site more IP BOX using LAN interface, it is possible to implement also aconfiguration site-multi site.

All the sites are in the same IP network.

Scenario 6

Fig.10 - IP BOX connection

All the IP BOX are connected using bridging functionality.

It shows the use of a 64Kb/s V11 contradirectional service channel of a radio link to connect in bridge modethe IPBOX 2 and 3.

All the sites are in the same IP network.

It is possible to manage and to control IP BOX locally using SCT/LCT through SNMP protocol:

• Port Configuration (IP address, IP netmask, OSI NSAP)

• OSPF parameters ("Full IP" version only)

• Software inventory and Software download

• Alarm Management. The alarms are transferred in an asynchronously using SNMP-Trap. An alarmhistory log is locally managed by the IP-BOX.

TDM

TSG1 - TSG2 TSG1 TSG2

E1-1 E1-1 E1-1E1-2

IPBOX 1 IPBOX 2 IPBOX 3

ETH A ETH B ETH A ETH A

TDM

TSG1 - TSG2IPBOX 5

ETH A ETH B

ETH A

ETH B ETH B

ETH B

TSG1 - TSG2

IPBOX 4

E1-2

E1-1E1-1

TDME1-1

TSG1 - TSG2

IPBOX 6

ETH A ETH B

CONTROLLER CONTROLLER CONTROLLER

Ethernet EthernetEthernet

IP-BOX 1 IP-BOX 2 IP-BOX 3

nx64Kb/s on E1

Only one IP NETWORK

TDMRs422-V11

64Kb/sService channel

rr rr

14 IP BOX B - MN.00202.E - 001

• Security Management The access to the IP-BOX is protected by username and password accordingto different user profile.

The IP-BOX can be managed remotely by NMS5UX/NMS5LX through SNMP protocol:

• Port Configuration (E1 Time slot assignment only)

• Software inventory and Software download

• Alarm Management. The alarms are transferred in an asynchronously using SNMP-Trap.

• Security Management. The access to the IP-BOX is protected by username and password accordingto different user profile.

1.5 MAINTENANCE AND ALARMS

The maintenance of the IP BOX unit consists of the activation of the relevant alarm signals.

In case of a positive hardware fail, it is necessary to replace the entire unit.

The alarm management is executed according to the following modes:

• By means of four LEDs present on the front panel of the equipment for the stand alone version (referto Fig.12);

The illumination of each LED has the following meaning:

- Rx: Data detected at input; GREEN

- Tx: Data detected at output; GREEN

- : Unit correctly power supplied; GREEN

- : Failed unit. RED

• By means of a led present on the front panel of the equipment in 1RU version (refer to Fig.13).When the "STATUS":LED is illuminated GREEN the IP-BOX is functioning normally

• By means of the supervisory software (refer to the manual of the relevant supervisory software)

The alarms reported to the Manager through SNMP trap are the following ones:

• LAN 1 (LAN 2) cable FailFault on the etnernet port (cable missing or fail)

• IP BOX 2Mb/S G.704 signal fail at E1-1 (E1-2)E1 signal fail (cable missing or fail)

• IP BOX Communication 2Mb/s EOC Data Link AlarmProtocol error (PPP or LAPD) on E1 link

• IP BOX Communication 64Kb/s V11 EOC Data Link AlarmProtocol error (PPP or LAPD) on 64Kb/s V11 data link or signal fail when connected to L2 switch.

''

IP BOX B - MN.00202.E - 001 15

1.6 ANNEX 1 - BLOCK DIAGRAM AND SUBRACK CONFIGURATION

Fig.11 - Block-diagram of the IP BOX unit

Alarms anduser I/O

Aux-Power Supply

Main-Power Supply

E1conn.

E1conn.

RJ-45 Sub-D15-Pin

Alarms &Main Power Supply (+48V)

TNM Conn.

Ethernet

RJ-45

RJ-45RJ-45USB

EthernetPort B

EthernetPort A

USB 1.0

FPGAE1

Drop/Insert

Rs422/Rs232

LAN

LAN-1 LAN-2

L2 Switch

RS232

Controller

2xE1 or

64Kb/s(Rs422)

16 IP BOX B - MN.00202.E - 001

Fig.12 - IP-BOX Stand alone version

2x10BaseTETH LAN

ports

RS232 - PPPPort

RS232/Rs422PMP_LES/PPPPort

USB LCT Port

E1-2/SwitchPort

E1-1/PMPPort

Alarm Lines48v DC PSU

IP BOX B - MN.00202.E - 001 17

Fig.13 - IP-BOX 1RU Sub-rack version

E1-1 Port E1-2 Port

2x10BaseT ETH LAN

Ports

RS232 PPPPort

RS232/RS422PPP - Port

USBLCT Port

Alarm Connector

PSU Connector

18 IP BOX B - MN.00202.E - 001

1.7 SCT - E1 PORT CONFIGURATION

Fig.14 - SCT - E1 port configuration

E1-PPP Protocol enable

E1-PPP IP configuration

E1 PPP TS assignement

E1 PPP 16Kb/s assignement

E1 Bridging

LAN per Port

E1 Bridging

TSG1 and TSG2 Configuration

IP BOX B - MN.00202.E - 001 19

Section 2.USER GUIDE

2 FIRST AID FOR ELECTRICAL SHOCK AND SAFETY RULES

2.1 FIRST AID FOR ELECTRICAL SHOCK

Do not touch the bare hands until the circuit has been opened. pen the circuit by switching off the lineswitches. If that is not possible protect yourself with dry material and free the patient from the con-ductor.

2.1.1 Artificial respiration

It is important to start mouth resoutputtion at once and to call a doctor immediately. suggested procedurefor mouth to mouth resoutputtion method is described in the Tab.3.

2.1.2 Treatment of burns

This treatment should be used after the patient has regained consciousness. It can also be employed whileartificial respiration is being applied (in this case there should be at least two persons present).

Warning

• Do not attempt to remove clothing from burnt sections

• Apply dry gauze on the burns

• Do not apply ointments or other oily substances.

20 IP BOX B - MN.00202.E - 001

Tab.3 - Artificial respiration

2.2 SAFETY RULES

When the equipment units are provided with the plate, shown in Fig.15, it means that they contain com-ponents electrostatic charge sensitive.

Step Description Figure

1

Lay the patient on his back with his arms parallel to the body. If the patient is laying on an inclined plane, make sure that his

stomach is slightly lower than his chest. Open the patients mouth and check that there is no foreign matter in mouth (den-

tures, chewing gum, etc.).

2

Kneel beside the patient level with his head. Put an hand under the patient’s head and one under his neck.

Lift the patient’s head and let it recline backwards as far as possible.

3

Shift the hand from the patient’s neck to his chin and his mouth, the index along his jawbone, and keep the other fingers

closed together.

While performing these operations take a good supply of oxy-gen by taking deep breaths with your mouth open

4

With your thumb between the patient’s chin and mouth keep his lips together and blow into his nasal cavities

5

While performing these operations observe if the patient’s chest rises. If not it is possible that his nose is blocked: in that case open the patient’s mouth as much as possible by pressing on his chin with your hand, place your lips around his mouth and blow into his oral cavity. Observe if the patient’s chest heaves. This second method can be used instead of the first even when the patient’s nose is not obstructed, provided his

nose is kept closed by pressing the nostrils together using the hand you were holding his head with. The patient’s head must

be kept sloping backwards as much as possible.

6

Start with ten rapid expirations, hence continue at a rate of twelve/fifteen expirations per minute. Go on like this until the patient has regained conscious–ness, or until a doctor has as-

certained his death.

IP BOX B - MN.00202.E - 001 21

Fig.15 - Components electrostatic charge sensitive indication

In order to prevent the units from being damaged while handling, it is advisable to wear an elasticized band(Fig.16) around the wrist ground connected through coiled cord (Fig.17).

Fig.16 - Elasticized band

Fig.17 - Coiled cord

The units showing the label, shown in Fig.18, include laser diodes and the emitted power can be dangerousfor eyes; avoid exposure in the direction of optical signal emission.

Fig.18 - Laser indication

22 IP BOX B - MN.00202.E - 001

2.3 CORRECT DISPOSAL OF THIS PRODUCT (Waste electrical & electronic equipment)

(Applicable in the European Union and other European countries with separate collection systems). Thismarking of Fig.19 shown on the product or its literature, indicates that it should not be disposed with otherhousehold wastes at the end of its working life. To prevent possible harm to the environment or humanhealth from uncontrolled waste disposal, please separate this from other types of wastes and recycle itresponsibly to promote the sustainable reuse of material resources. Household users should contact eitherthe retailer where they purchased this product, or their local government office, for details of where andhow they can take this item for environmentally safe recycling. Business users should contact their supplierand check the terms and conditions of the purchase contract. This product should not be mixed with othercommercial wastes for disposal.

Fig.19 - WEEE symbol - 2002/96/CE EN50419

IP BOX B - MN.00202.E - 001 23

3 PURPOSE AND STRUCTURE OF THE MANUAL

3.1 PURPOSE OF THE MANUAL

The purpose of this manual consists in providing the user with information which permit to operate andmaintain the IP-BOX.

3.2 STRUCTURE OF THE MANUAL

The manual is subdivided into sections each of them developing a specific topic entitling the section.

Section 1 – User Guide

It provides the information about the main safety rules and expounds the purpose and the structure of themanual.

Section 2 – EOW module

This section contains all information about general description, technincal specification, installation, line-up and operation of the IP-BOX.

Section 3 – Lists and assistance

This section contains the lists of figures and tables and the assistance service information.

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Section 3.LISTS AND ASSISTANCE SERV-ICE

4 FIGURE LIST

Fig.1 - IP Communication Stack ....................................................................................... 9

Fig.2 - IP - OSI Communication Stack ............................................................................... 9

Fig.3 - IP - BOX IP INTERFACE INTERCONNECTION............................................................. 9

Fig.4 - LAN Interconnection ............................................................................................ 10

Fig.5 - IP BOX connection............................................................................................... 11

Fig.6 - IP BOX connection............................................................................................... 11

Fig.7 - IP BOX connection............................................................................................... 12

Fig.8 - IP BOX connection............................................................................................... 12

Fig.9 - IP BOX connection............................................................................................... 13

Fig.10 - IP BOX connection ............................................................................................. 13

Fig.11 - Block-diagram of the IP BOX unit......................................................................... 15

Fig.12 - IP-BOX Stand alone version ................................................................................ 16

Fig.13 - IP-BOX 1RU Sub-rack version............................................................................. 17

Fig.14 - SCT - E1 port configuration................................................................................ 18

Fig.15 - Components electrostatic charge sensitive indication .............................................. 21

Fig.16 - Elasticized band ................................................................................................ 21

Fig.17 - Coiled cord ....................................................................................................... 21

Fig.18 - Laser indication ................................................................................................. 21

Fig.19 - WEEE symbol - 2002/96/CE EN50419................................................................... 22

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5 TABLE LIST

Tab.1 - Connector Wire .................................................................................................... 7

Tab.2 - Pins of the connectors........................................................................................... 8

Tab.3 - Artificial respiration .............................................................................................20

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6 ASSISTANCE SERVICE

For more information, refer to the section relevant to the technical support on the Internet site of the com-pany manufacturing the product.

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