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IOA78-1C January 2005 LANEX S.A., 8 Ceramiczna Street, 20-150 Lublin POLAND service phone no. +48 81 443 96 39 EtherTel 10/100Base-T/ E1 Converter TM-78 Operating Manual

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IOA78-1C January 2005

LANEX S.A., 8 Ceramiczna Street, 20-150 Lublin POLAND service phone no. +48 81 443 96 39

EtherTel

10/100Base-T/ E1 Converter TM-78 Operating Manual

10Base-T/100Base-TX/E1 Converter Operating Manual

IOA78-1C I January 2005

Table of Contents 1. GENERAL DESCRIPTION ......................................................................................... 1 1.1. Designed use .............................................................................................................................. 1 1.2. Sample applications .................................................................................................................. 2 1.3. Integration with other manufacturers’ equipment ................................................................ 3 1.4. Labeling ..................................................................................................................................... 3 2. CONNECTORS AND LED INDICATORS ..................................................................... 4 2.1. Front panel ................................................................................................................................ 4 2.2. Rear panel.................................................................................................................................. 5 2.3. Description of connectors ......................................................................................................... 6 3. FUNCTIONAL DESCRIPTION..................................................................................... 7 3.1. Rule of operation....................................................................................................................... 7 3.2. Clock .......................................................................................................................................... 7 3.3. Diagnostic and signaling systems............................................................................................. 7 3.4. Test loops ................................................................................................................................... 8 3.5. Quality management............................................................................................................... 10 3.6. Event log .................................................................................................................................. 11 3.7. Service channels ...................................................................................................................... 11 4. INSTALLATION & OPERATION............................................................................... 12 4.1. Introduction............................................................................................................................. 12 4.2. Working conditions................................................................................................................. 12 4.3. Power Supply .......................................................................................................................... 12 4.4. Connecting connection cables ................................................................................................ 13

4.4.1. Ethernet interface ................................................................................................................. 13 4.4.2. E1/G.703 line interface ........................................................................................................ 13

4.5. Attachment of surveillance cables ......................................................................................... 14 4.6. Clock setup .............................................................................................................................. 15 4.7. Configuration of the E1 G.703 interface............................................................................... 15 5. CONVERTER SETUP WITH LANWIN SOFTWARE ...................................................... 16 5.1. Global setup............................................................................................................................. 16

5.1.1. Device Name........................................................................................................................ 17 5.1.2. Date and time setting............................................................................................................ 17 5.1.3. Additional information......................................................................................................... 17

5.2. Interfaces ................................................................................................................................. 18 5.2.1. E1, Setup tab ........................................................................................................................ 18

5.3. Global clock............................................................................................................................. 23 5.4. Log............................................................................................................................................ 24

5.4.1. Event log tab ........................................................................................................................ 24 5.4.2. Event log tab, event log filters ............................................................................................. 25

5.5. G.826 statistics......................................................................................................................... 28 5.5.1. G.826 statistics, Counters tab............................................................................................... 28

6. TECHNICAL SPECIFICATION .................................................................................. 32 6.1. Electrical characteristics ........................................................................................................ 32

6.1.1. Ethernet interface ................................................................................................................. 32 6.1.2. E1/G.703 line interface ........................................................................................................ 32

6.2. Mechanical parameters .......................................................................................................... 32 6.3. Environmental requirements ................................................................................................. 33

6.3.1. Operation.............................................................................................................................. 33 6.3.2. Transport .............................................................................................................................. 33 6.3.3. Storage ................................................................................................................................. 33

6.4. Electromagnetic compatibility ............................................................................................... 33 6.5. Power Supply .......................................................................................................................... 33 7. PRODUCT ELEMENTS AND ACCESSORIES.............................................................. 34

10Base-T/100Base-TX/E1 Converter Operating Manual

IOA78-1C II January 2005

Drawings Figure 1-2: Example application II. ............................................................................... 2 Figure 1-3: Example application III. .............................................................................. 3 Figure 2-1: Layout and description of the front panel. .................................................. 4 Figure 2-2: Layout and description of the rear panel. .................................................... 5 Figure 2-3: RJ-45 surveillance connector ...................................................................... 6 Figure 2-4: E1/G.703. interface connector..................................................................... 6 Figure 2-5: Ethernet MDI interface connector - port 1 and 2. ....................................... 6 Figure 2-6: MDIX Ethernet interface connector - port 2. .............................................. 6 Figure 3-1: Rules of introducing and using the LOOP1 local loop. .............................. 9 Figure 3-2: Rules of introducing and using the LOOP2 remote loop. ........................... 9 Figure 3-3: Device unavailability................................................................................. 11 Figure 4-1: Ethernet interface RJ-45 male connector. ................................................. 13 Figure 4-2: Method of connecting crossed cable. ........................................................ 13 Figure 4-3. E1/G.703. interface RJ-45 male connector. .............................................. 13 Figure 4-4: RS-232 cable with DB-9 RJ-45 pins.................................................... 14 Figure 5-1: Global setup............................................................................................... 16 Figure 5-2: Device Name. ............................................................................................ 17 Figure 5-3: Date and time setting................................................................................. 17 Figure 5-4: Additional information. ............................................................................. 17 Figure 5-5: Interfaces - E1, Setup. ............................................................................... 18 Figure 5-6: Interfaces - E1, Loops. .............................................................................. 19 Figure 5-7: Interfaces - E1, Monitoring. ...................................................................... 20 Figure 5-8: Interfaces - Ethernet, Setup. ...................................................................... 21 Figure 5-9: Interfaces - Ethernet, Monitoring. ............................................................. 22 Figure 5-10: Global clock. ........................................................................................... 23 Figure 5-11: Log - Event log........................................................................................ 24 Figure 5-12: Log - Event log filters. ............................................................................ 25 Figure 5-13. Event log filter – Date. ............................................................................ 26 Figure 5-14. Event log filter – UAL/NUAL. ............................................................... 27 Figure 5-15. G.826 statistics – 15-minute counters. .................................................... 29 Figure 5-16. G.826 statistics – 24-hour counters. ........................................................ 29 Figure 5-17. G.826 statistics – Time periods. .............................................................. 30 Figure 5-18. Count initialization time. ......................................................................... 30 Figure 5-19. Ranges. .................................................................................................... 30 Figure 5-20. Alarm on thresholds. ............................................................................... 31 Figure 5-21. Alarms hierarchy. .................................................................................... 31

10Base-T/100Base-TX/E1 Converter Operating Manual

IOA78-1C III January 2005

Abbreviations

AIS Alarm Indication Signal NUAL Non-urgent Alarm UAL Urgent Alarm ES Errored Seconds ES15 15-minute Errored Seconds Counter ES ES24 24-hour Errored Seconds Counter ES HDLC High Level Data Link Control IEEE Institute of Electrical and Electronics Engineers ITU-T International Telecommunication Union – Telecommunication

Standardization Sector LOF Loss Of Frame LOS Loss Of Signal MDI Medium Dependent Interface MII Medium Independent Interface SES Severely Errored Second SES15 15-minute Severely Errored Seconds Counter SES SES24 24-hour Severely Errored Seconds Counter SES LOF Loss of Frame

10Base-T/100Base-TX/E1 Converter Operating Manual

IOA78-1C IV January 2005

Operating Safety The EtherTel TM-78 converter has been designed and tested in the range of safety and

operation in accordance with the PN-EN-60950 standards. It conforms to Class I safety requirements.

! The earthing clamp located on the rear wall of the device should be connected to earth.

! The device is not provided with an integrated tripping system. Such system should be located outside the device.

The manufacturer shall not be held liable for use of the device contrary to this

operating manual. The operating manual is a part of supply and is delivered to users together with

the device.

10Base-T/100Base-TX/E1 converter Operating Manual

_______________________________________________________________________________IOA78-1C 1 January 2005

1. GENERAL DESCRIPTION

1.1. Designed use

EtherTel TM-78 is a converter that enables connecting independent segments of local area networks in Ethernet 10BASE-T and 100BASE-TX standard, using SDH or PDH telecommunication network, on the basis of framed signal with transmission rate of 2048 kbit/s, structure specified in guideline G.704, interface according to guideline G.703. Data transmission rate can be one of n x 64 kbit/s, where n = 1 ÷ 31. Operation in non-framed mode is also possible at full speed of 2048 kbit/s.

Each Ethernet package has a destination address field, determining the destination for transmitted data. EtherTel receives the incoming package and verifies its destination address, then compares the address with source addresses collected from previous frames and decides whether the frame should be sent to a second port or not. Therefore, network segments can be isolated and network capacity can be increased. Flow control, compliant with IEEE802.3x, determines the method of sending the frames in full duplex mode so that to avoid overloading the converter.

EtherTel converter also transparently transfers Ethernet frames longer than 1522 bytes, belonging to virtual networks according to IEEE 802.1Q standard, or to setting priorities IEEE 802.1p.

10Base-T/100Base-TX/E1 converter Operating Manual

_______________________________________________________________________________IOA78-1C 2 January 2005

1.2. Sample applications

One of the simplest applications is the possibility of providing Internet access service using telecommunication network with transmission speed gradation n x 64 kbit/s. The service operator may freely switch the range, depending on the user’s requirements and capacity (Figure 1-1).

Telecommunication network

E1/G.703

E1/G.703

Switch Ethernet

Switch Ethernrt

Internet

10/100BASE-T/E1 CONVERTER

EtherTel

RS-232DCE

5-RxD4-SG

6-TxD

LOOP1

10/100BASE-TE1

LOOP2

LOS

LOF

TXD

LNK

ACT

LNK

ACT

AIS

ERR

RXD

10/10

0

10/10

0

FD/C

OL

FD/C

OL

21

MENAGEMENT

10/100BASE-T/E1 CONVERTER

EtherTel

RS-232DCE

5-RxD4-SG

6-TxD

LOOP1

10/100BASE-TE1

LOOP2

LOS

LOF

TXD

LNK

ACT

LNK

ACT

AIS

ERR

RXD

10/10

0

10/10

0

FD/C

OL

FD/C

OL

21

MENAGEMENT

EtherTel

EtherTel

Figure 1-1: Example application I.

Figure 1-2 presents network configuration enabling cooperation of four workgroups in remote locations. Fibre optic and copper lines are used, with the SHDSL technology.

4xE1/G.703

Location 1

TM-75

Switch Ethernet

TM-44

TM-44

Fiber optic line

E1

SHDSL

Location 2

Location 3

Location 4

TM-75

TM-75

TM-75

TM-75

TM-75

TM-75

TM-75

SHDSL

SHDSL

SHDSL

4xE1/G.703

E1

E1

E1

10/100BASE-T/E1 CONVERTER

EtherTel

RS-232DCE

5-RxD4-SG

6-TxD

LOOP1

10/100BASE-TE1

LOOP2

LOS

LOF

TXD

LNK

ACT

LNK

ACT

AIS

ERR

RXD

10/1

00

10/1

00

FD/C

OL

FD/C

OL

21

MENAGEMENT

10/100BASE-T/E1 CONVERTER

EtherTel

RS-232DCE

5-RxD4-SG

6-TxD

LOOP1

10/100BASE-TE1

LOOP2

LOS

LOF

TXD

LNK

ACT

LNK

ACT

AIS

ERR

RXD

10/1

00

10/1

00

FD/C

OL

FD/C

OL

21

MENAGEMENT

10/100BASE-T/E1 CONVERTER

EtherTel

RS-232DCE

5-RxD4-SG

6-TxD

LOOP1

10/100BASE-TE1

LOOP2

LOS

LOF

TXD

LNK

ACT

LNK

ACT

AIS

ERR

RXD

10/1

00

10/1

00

FD/C

OL

FD/C

OL

21

MENAGEMENT

10/100BASE-T/E1 CONVERTER

EtherTel

RS-232DCE

5-RxD4-SG

6-TxD

LOOP1

10/100BASE-TE1

LOOP2

LOS

LOF

TXD

LNK

ACT

LNK

ACT

AIS

ERR

RXD

10/1

00

10/1

00

FD/C

OL

FD/C

OL

21

MENAGEMENT

10/100BASE-T/E1 CONVERTER

EtherTel

RS-232DCE

5-RxD4-SG

6-TxD

LOOP1

10/100BASE-TE1

LOOP2

LOS

LOF

TXD

LNK

ACT

LNK

ACT

AIS

ERR

RXD

10/1

00

10/1

00

FD/C

OL

FD/C

OL

21

MENAGEMENT

10/100BASE-T/E1 CONVERTER

EtherTel

RS-232DCE

5-RxD4-SG

6-TxD

LOOP1

10/100BASE-TE1

LOOP2

LOS

LOF

TXD

LNK

ACT

LNK

ACT

AIS

ERR

RXD

10/1

00

10/1

00

FD/C

OL

FD/C

OL

21

MENAGEMENT

10/100BASE-T/E1 CONVERTER

EtherTel

RS-232DCE

5-RxD4-SG

6-TxD

LOOP1

10/100BASE-TE1

LOOP2

LOS

LOF

TXD

LNK

ACT

LNK

ACT

AIS

ERR

RXD

10/1

00

10/1

00

FD/C

OL

FD/C

OL

21

MENAGEMENT

10/100BASE-T/E1 CONVERTER

EtherTel

RS-232DCE

5-RxD4-SG

6-TxD

LOOP1

10/100BASE-TE1

LOOP2

LOS

LOF

TXD

LNK

ACT

LNK

ACT

AIS

ERR

RXD

10/1

00

10/1

00

FD/C

OL

FD/C

OL

21

MENAGEMENT

EtherTel

EtherTel

EtherTel

EtherTel

EtherTel

EtherTel

EtherTel

EtherTel Figure 1-2: Example application II.

Figure 1-3 presents the option of applying EtherTel converters in network

management, supervision, configuration or monitoring applications. Using a single 2048 kbit/s stream in SDH network, we can control devices located in remote facilities, distributed across a large area. The host is connected via the converter to SDH network. There are two EtherTel converters in each remote facility, connected to local Ethernet. One of the converters receives host data via SDH network and transmits it to local area network, while the other converter transmits the local area network data via SDH to consecutive facilities. In this configuration, two converters perform the Add/Drop function for signal E1/G.703.

10Base-T/100Base-TX/E1 converter Operating Manual

_______________________________________________________________________________IOA78-1C 3 January 2005

E1/G.703

Ethernet

Object 1

2048kbit/s

E1/G.703

2048kbit/s 2048kbit/s

E1/G.703

Ethernet Ethernet Ethernet

Switch

E1/G.703

2048kbit/s

Host

Ethernet

Switch Switch Switch Switch SwitchSwitch Switch

MANAGEMENT CENTER

SDH RING

MANAGEMENT CENTER

OBJECT 1

OBJECT 2 OBJECT 3

OBject 4

Object 2 Object 3 Object 4

10/100BASE-T/E1 CONVERTER

EtherTel

RS-232DCE

5-RxD4-SG

6-TxD

LOOP1

10/100BASE-TE1

LOOP2

LOS

LOF

TXD

LNK

ACT

LNK

ACT

AIS

ERR

RXD

10/1

00

10/10

0

FD/C

OL

FD/C

OL

21

MENAGEMENT

10/100BASE-T/E1 CONVERTER

EtherTel

RS-232DCE

5-RxD4-SG

6-TxD

LOOP1

10/100BASE-TE1

LOOP2

LOS

LOF

TXD

LNK

ACT

LNK

ACT

AIS

ERR

RXD

10/1

00

10/10

0

FD/C

OL

FD/C

OL

21

MENAGEMENT

10/100BASE-T/E1 CONVERTER

EtherTel

RS-232DCE

5-RxD4-SG

6-TxD

LOOP1

10/100BASE-TE1

LOOP2

LOS

LOF

TXD

LNK

ACT

LNK

ACT

AIS

ERR

RXD

10/10

0

10/10

0

FD/C

OL

FD/C

OL

21

MENAGEMENT

10/100BASE-T/E1 CONVERTER

EtherTel

RS-232DCE

5-RxD4-SG

6-TxD

LOOP1

10/100BASE-TE1

LOOP2

LOS

LOF

TXD

LNK

ACT

LNK

ACT

AIS

ERR

RXD

10/10

0

10/1

00

FD/C

OL

FD/C

OL

21

MENAGEMENT

10/100BASE-T/E1 CONVERTER

EtherTel

RS-232DCE

5-RxD4-SG

6-TxD

LOOP1

10/100BASE-TE1

LOOP2

LOS

LOF

TXD

LNK

ACT

LNK

ACT

AIS

ERR

RXD

10/10

0

10/10

0

FD/C

OL

FD/C

OL

21

MENAGEMENT

10/100BASE-T/E1 CONVERTER

EtherTel

RS-232DCE

5-RxD4-SG

6-TxD

LOOP1

10/100BASE-TE1

LOOP2

LOS

LOF

TXD

LNK

ACT

LNK

ACT

AIS

ERR

RXD

10/10

0

10/10

0

FD/C

OL

FD/C

OL

21

MENAGEMENT

10/100BASE-T/E1 CONVERTER

EtherTel

RS-232DCE

5-RxD4-SG

6-TxD

LOOP1

10/100BASE-TE1

LOOP2

LOS

LOF

TXD

LNK

ACT

LNK

ACT

AIS

ERR

RXD

10/10

0

10/10

0

FD/C

OL

FD/C

OL

21

MENAGEMENT

10/100BASE-T/E1 CONVERTER

EtherTel

RS-232DCE

5-RxD4-SG

6-TxD

LOOP1

10/100BASE-TE1

LOOP2

LOS

LOF

TXD

LNK

ACT

LNK

ACT

AIS

ERR

RXD

10/10

0

10/10

0

FD/C

OL

FD/C

OL

21

MENAGEMENT

10/100BASE-T/E1 CONVERTER

EtherTel

RS-232DCE

5-RxD4-SG

6-TxD

LOOP1

10/100BASE-TE1

LOOP2

LOS

LOF

TXD

LNK

ACT

LNK

ACT

AIS

ERR

RXD

10/10

0

10/10

0

FD/C

OL

FD/C

OL

21

MENAGEMENT

EtherTel

Figure 1-3: Example application III.

1.3. Integration with other manufacturers’ equipment

From the E1/G.703 interface, the converter may work with other manufacturers’ equipment if they use HDLC (High Level Data Link Control) bit transmission protocol for transport of Ethernet frames.

From the Ethernet interface, the converter may work with any equipment conforming to 10BASE-T and 100BASE-TX standard.

1.4. Labeling

Device:

TM-78.1

Telecommunication device Device type Device version

10Base-T/100Base-TX/E1 converter Operating Manual

_______________________________________________________________________________IOA78-1C 4 January 2005

2. CONNECTORS AND LED INDICATORS

2.1. Front panel

10/100BASE-T/E1 CONVERTER

EtherTel

RS-232 5-Rx4-SG

6-Tx

LOOP1

10/100BASE-TE1

LOOP2LO

S

LOF

TXD

LNK

ACT

LNK

ACT

AIS

ERR

RXD

10/10

0

10/10

0

FD/C

OL

FD/C

OL

21

1 2 3 4 5

MENAGEMENT

Figure 2-1: Layout and description of the front panel.

1. Power supply status LED

2. Monitoring and surveillance connector RS-232

3. Group of LEDs signaling conditions detected by the E1 local interface:

• LOS – Loss of Signal • LOF – Loss of Frame • ERR – excess of errors rate 10-5 and 10-3

• AIS – Alarm Indication Signal • TXD – Transmit Data to WAN • TXD – Receive Data from WAN

4. Group of LEDs signaling conditions detected by Ethernet interfaces:

• LNK/ACT – loss of received signal/line activity; the LED is lit if no Ethernet signal is lost, or blinks when data is being transmitted

• 10/100 – 10BaseT/100BaseTX; the LED is lit for 100Base-TX • FD/COL – full duplex/half-duplex (collision signaling); the LED is on for full duplex

and blinks in case of collision

5. Group of switches and LEDs signaling closing of test loops:

• LOOP1 – local analog loop (rules of application specified under 3.4) • LOOP2 – remote digital loop (rules of application specified under 3.4)

10Base-T/100Base-TX/E1 converter Operating Manual

_______________________________________________________________________________IOA78-1C 5 January 2005

2.2. Rear panel

1 2 3 4 5

MDI 1 MDI 2 MDIX 2

10/100BASE-T

5V

E1

Figure 2-2: Layout and description of the rear panel.

1. Ethernet interface jacks port 1 and 2 MDI 2. Ethernet interface jack port 2 MDIX 3. E1/G.703 interface jack 120 Ω - RJ-45 4. Earthing clamp 5. Power supply connector

10Base-T/100Base-TX/E1 converter Operating Manual

_______________________________________________________________________________IOA78-1C 6 January 2005

2.3. Description of connectors

Description of RJ-45 connector 4 – Supply common

5 – RXD

1 8

6 – TXD

Figure 2-3: RJ-45 surveillance connector

Description of RJ-45 connector 1,2 – E1/G.703 signal input

3,6 – E1/G.703 signal output

1 8

Figure 2-4: E1/G.703. interface connector

Description of RJ-45 connector 1 - + Ethernet signal input 2 - - Ethernet signal input 3 - + Ethernet signal output 6 - - Ethernet signal output

1 8

Figure 2-5: Ethernet MDI interface connector - port 1 and 2.

Description of RJ-45

connector 1 - + Ethernet signal output 2 - - Ethernet signal output 3 - + Ethernet signal input 6 - - Ethernet signal input

1 8

Figure 2-6: MDIX Ethernet interface connector - port 2.

10Base-T/100Base-TX/E1 converter Operating Manual

_______________________________________________________________________________IOA78-1C 7 January 2005

3. FUNCTIONAL DESCRIPTION

3.1. Rule of operation

The converter is equipped with 3 ports. Two ports are used for connecting external network segments. One port is equipped with an MDI output jack and the other has two output jacks, an MDI and an MDIX (switched transmission and reception signals cables). The Ethernet segment can only be connected in the second port to one of the MDI or MDIX jacks. Regardless of the device connected (NIC, hub, switch), ‘straight’ cable can always be used for that port. The third port is used for connecting E1/G.703 line.

Ethernet frame received from any port, located in time slots of G.704 frame in the form of digital channel n x 64 kbit/s, n from 1 to 31 and sent to PDH or SDH telecommunication network through G.703 interface. To the opposite direction of transmission, G.704 frame is received from the telecommunication network, Ethernet frame is extracted and sent to a relevant port of the switch, depending on where the connected station is located. The device filters local traffic within Ethernet network connected to switch ports and only retransmits inter-network traffic to remote network segments. Device configuration and operation status monitoring, as well as operation of the managing application with LNMP protocol is performed through RS-232 electrical interface.

The Ethernet interface serves two implementations of the physical layer, rated 10 Mbit/s and 100 Mbit/s, with an option of automatic negotiation, which ensures connection at a maximum available rate – Table 3-1. The mode of connection is signaled by LEDs on the front wall.

Table 3-1. Sequence of connection choice in automatic negotiation

Sequence Connection mode 1 100BASE-TX full-duplex 2 100BASE-TX 3 10BASE-T full-duplex 4 10BASE-T

The converter regularly reviews the stored addresses in the MAC source address table,

deleting the ones residing there for over 300 seconds.

3.2. Clock

The converter may send data to transmission direction E1/G.703 with a clock from two sources:

• from internal quartz generator, frequency 2.048 MHz ±50 ppm, operating in MASTER mode

• from clock retrieval systems of opposite direction of transmission E1/G.703, operating in SLAVE mode

3.3. Diagnostic and signaling systems

The converter automatically checks the parameters of line interface E1/G.703 and Ethernet interface signal. It detects and signals the following conditions and volumes:

E1/G.703, G.704 line interface:

• loss of signal at interface input • loss of frame • excess of error rate (violation of HDB3 code) 1x10-3 and 1x10-5 in incoming signal • AIS signal receipt • receipt of alarm bit from remote device in zero slot of G.704 frame

10Base-T/100Base-TX/E1 converter Operating Manual

_______________________________________________________________________________IOA78-1C 8 January 2005

Ethernet interface:

• loss of connection • packets transmission • port configuration following automatic negotiation

Alarm conditions are signaled through: • relevant LED of E1 line interface being lit: LOS, LOF, ERR, AIS, • relevant LED of Ethernet interface not being lit: LNK/ACT

Table 3-2. Detected emergency conditions and accompanying actions.

Emergency condition

LED LNK/ACK

LED LOS

LED LOF

LED ERR

LED

AIS

Action taken

Ethernet interface Loss of connection integrity signal None Loss of signal Setting of A bit in TS0

Loss of frame 1) Setting of A bit in TS0

Errors rate > 10-5 2) None

Line interface E1

G.703, G.704 Errors rate > 10-3 Setting of A bit in TS0

Remote device Occurrence of bit A in TS0 from remote device None

– the LED is lit - the LED is off 1) – urgent alarm is not generated when loss of frame is caused by receipt of AIS signal 2) – LED blinks

3.4. Test loops

The converter enables activation of two types of test loops: • Local analog loop marked as LOOP1 • Remote digital loop marked as LOOP2

Activation and deactivation of test loops from E1 interface is possible using:

• buttons on the front panel of the device: Figure 2-1 • dedicated application on Windows 9x/2000/NT.

The LOOP2 remote loop may only be activated when the E1 interface is configured in framed

mode, when a service channel exists between the two devices.

10Base-T/100Base-TX/E1 converter Operating Manual

_______________________________________________________________________________IOA78-1C 9 January 2005

Use of diagnostic loops is only justified during installation of devices, for testing tract E1/G.703.

The loops may not be activated during normal operation with other Ethernet devices connected.

The use of the LOOP1 local loop is only allowed for the purpose of checking correctness

of connections of the telecommunication route using PCM transmission analyzer. It may not be switched on if EtherTel devices are connected on both ends of the telecommunication line. Figure 3-1.

The rules of using the LOOP2 remote loop are the same as for LOOP1. To use the remote loop, G.703 interfaces of the converters should be connected to line and the loop should be closed. On Figure 3-2 converter 2 activates the remote loop in converter 1.

Then it is disconnected and a PCM transmission analyzer can be connected in its place to take measurements of the route. The time between disconnecting the converter and connecting the analyzer may not exceed 10 s, as after that time the loop disconnects automatically.

10/100BASE-T/E1 CONVERTER

EtherTel

RS-232DCE

5-RxD4-SG

6-TxD

LOOP1

10/100BASE-TE1

LOOP2

LOS

LOF

TXD

LNK

ACT

LNK

ACT

AIS

ERR

RXD

10/1

00

10/10

0

FD/C

OL

FD/C

OL

21

MENAGEMENT

10/100BASE-T/E1 CONVERTER

EtherTel

RS-232DCE

5-RxD4-SG

6-TxD

LOOP1

10/100BASE-TE1

LOOP2

LOS

LOF

TXD

LNK

ACT

LNK

ACT

AIS

ERR

RXD

10/1

00

10/10

0

FD/C

OL

FD/C

OL

21

MENAGEMENT

PCM TRANSMISSION ANALYZER

E1/G.703

PCM TRANSMISSION ANALYZER

E1/G.703Telecommunication

network

EtherTel

EtherTel Figure 3-1: Rules of introducing and using the LOOP1 local loop.

10/100BASE-T/E1 CONVERTER

EtherTel

RS-232DCE

5-RxD4-SG

6-TxD

LOOP1

10/100BASE-TE1

LOOP2

LOS

LOF

TXD

LNK

ACT

LNK

ACT

AIS

ERR

RXD

10/10

0

10/10

0

FD/C

OL

FD/C

OL

21

MENAGEMENT

10/100BASE-T/E1 CONVERTER

EtherTel

RS-232DCE

5-RxD4-SG

6-TxD

LOOP1

10/100BASE-TE1

LOOP2

LOS

LOF

TXD

LNK

ACT

LNK

ACT

AIS

ERR

RXD

10/10

0

10/10

0

FD/C

OL

FD/C

OL

21

MENAGEMENT

PCM TRANSMISSION ANALYZER

E1/G.703Telecommunication

network

E1/G.703Telecommunication

network 10/100BASE-T/E1 CONVERTER

EtherTel

RS-232DCE

5-RxD4-SG

6-TxD

LOOP1

10/100BASE-TE1

LOOP2

LOS

LOF

TXD

LNK

ACT

LNK

ACT

AIS

ERR

RXD

10/10

0

10/10

0

FD/C

OL

FD/C

OL

21

MENAGEMENT

EtherTel 2

EtherTel 2

EtherTel 1

Figure 3-2: Rules of introducing and using the LOOP2 remote loop.

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3.5. Quality management

Quality management refers to surveillance of transmissoin quality in line G.703/E1 ensured by the device, and to package transmission between LAN and WAN ports.

Quality surveillance between LAN and WAN ports consists in monitoring the transmitted packages and registration of bad packages. Transmission quality assessment is the proportion of the number of bad packages to all packages transmitted in the given time.

Quality surveillance of line E1/G.703 consists in recording quality-related transmission events that can be used for assessing transmission and service quality according to G.826. The following should be used as a basis of quality assessment:

• number of errored seconds - ES • number of severely errored seconds - SES • number of errored blocks – EB • proportion of errored seconds to all seconds when the device is available – ESR [%] • proportion of severely errored seconds to all seconds when the device is available – SESR [%] • proportion of errored blocks to all blocks when the device is available – BBER [%] • number of device availability seconds - AS • number of device unavailability seconds – UAS, 10 consecutive SES change the line status to

unavailable, 10 seconds without SES restores the availability status • total number of seconds of operations from the point of switching on the device – TS

AS value = TS – UAS Table 3-3. Event table. specifies the manner of interpretation of events from the receiving

direction for 2048 kbit/s signal.

Table 3-3. Event table.

Type of event per 1 second Interpretation

1 LOS - loss of signal at input ES + SES 1 HDB3 code error ES 1 LOF – loss of frame ES + SES 1 AIS – alarm indication signal ES + SES 10-6 – error rate ES 10-3 – error rate SES 1 FAS – errors in synchronization pattern ES 28 FAS ES + SES 1 CRC-4 – control sequence ES 805 CRC-4 ES + SES

The number of events related to quality of threshold excess is counted in 15-minute and

24-hour cycles in registries located in the device. The 15-minute logs form a stack of at least 16 logs of past periods. When all logs are full,

the contents of the oldest 15-minute cycle logs can be lost. The operator can read and set thresholds for 15-minute and 24-hour logs. Quality

thresholds for a 15-minute cycle should be set in a range from 1 to 900, with the following recommended default values: 120 for ES and 15 for SES. No threshold values are specified in standards for the 24-hour cycle. Quality thresholds for the 24 h cycle should be set within a range from 0 to 86400.

Device unavailability definitions are presented in Figure 3-3.

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Unavailability detection

Unavailable period Available period

Time

Availability detection

Severely errored second

Errored second, no SES

Unerrored second

10 seconds 10 seconds 10 seconds

Figure 3-3: Device unavailability.

3.6. Event log

The converter has a function of registering the time and date of occurrence of an event with a specified criteria. The following types of events are included here:

• occurrence or loss of signal at input of the E1 line interface • synchronization or loss of synchronization of E1 connection • synchronization or loss of synchronization of E1 frame • excess or below threshold value of block error rate of 10-3 of signal received from E1 line

interface • excess or below threshold value of block error rate of 10-5 of signal received from E1 line

interface • excess or below user-defined threshold value of counts of the 15-minute ES counter

(ES15) • excess or below user-defined threshold value of counts of the 24-hour ES counter (ES24) • excess or below user-defined threshold value of counts of the 15-minute SES counter

(SES15) • excess or below user-defined threshold value of counts of the 24-hour SES counter

(SES24) • connection or disconnection of test loops • approval of change in device configuration • attempt at unauthorized access to device configuration system using VT-100 terminal

emulator in case of password protection

Viewing and clearing the event log, as well as defining maximum and minimum threshold values for the ES15, ES24 and SES15, SES24 counters of the E1 interface is possible using the LanWin application, described in chapter 5.

3.7. Service channels

Managing applications developed for the converter enable managing the local device, as well as the remote device using service channels. These are dedicated Windows 9x/2000/NT platform applications LanWin and VT-100 terminal emulator software, enabling only local device management.

In the case of G.703 interface, such channel can be created on any single slot of the G.704 stream with a flow capacity of 64 kbit/s. A channel may also be created on slot 0 (TS0), while it should be noted that the flow capacity of such service channel will be only 20 kbit/s. A slot for a service channel of the E1 interface can be selected from the managing application level.

In case of E1 interface configuration into non-framed mode, converters can no longer manage the remote device connected on the side of the E1 interface. This is due to their inability to select the surveillance slot.

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4. INSTALLATION & OPERATION

4.1. Introduction

Proper installation and configuration of the device in accordance with guidelines contained in the following sections of this manual is required before commencement of operation.

4.2. Working conditions

The converter may work in continuous mode indoors, in conditions specified in Technical Data. It should not be exposed to direct sunlight. The device should not be placed on heat sources, although it may be put on another device of the same type or on a rack with other operating devices. In this latter case, free air circulation or forced ventilation when necessary should be provided.

4.3. Power Supply

The converter is supplied with the following voltage: 4.5 – 5.5 VAC. Supply voltage with proper polarization must be provided. The converter is supplied with 4,5÷5,5 VDC, maintaining polarization on the supply connection. Power supply should be connected to the jack with external bolted clamps. Polarity of supply voltage is described on the rear plate Figure 2-2.

Earth should be connected to the earthing clamp on the housing. The earthing wire should be of low impedance type for high frequencies.

Proper power supply is signaled with a green LED lit on the front panel of the device. A Mascot power supply unit type 5015, 230VAC/4,5VDC is recommended for supplying 230

VAC from the power network, with marked polarization cable. Grey, white or red color on one of the cores means „+”, all black core means „-”.

Optionally, ECD1-R2-48s05 type power supply by Merawex can be used, which enables supplying the converter from 48 VDC. The power supply unit can be mounted to the DIN rail or to a flat area with a velcro. The power supply unit is equipped with clamped connections. To attach a cable, insert a screwdriver in one of the openings, causing the clamps to open, then insert a cable in the other opening and remove the screwdriver. Properly fixed cable should not slip away from the connector. Polarity of the +48 V input voltage and +5 V output voltage is described on the housing. Connect „+” of the power supply unit with „+” of the converter and „-” with „-”. The scope of delivery contains two-core cable with polarity marking for simple connection of power supply, one core being red and black, the other being black.

The manufacturer guarantees conformity with safety and electromagnetic compatibility standards for operation with such power supply units.

! The device is not provided with an integrated tripping system. Therefore, an easily available tripping system should be mounted in fixed cabling.

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4.4. Connecting connection cables

4.4.1. Ethernet interface

Pin1

Pin8

1 White-orange 2 Orange 3 White-green 4 White-blue 5 Blue 6 Green 7 White-brown 8 Brown

Figure 4-1: Ethernet interface RJ-45 male connector. Connecting cable connectors Figure 4-1 should be terminated in the same way on both

ends, spiral colors must be clamped on the same appropriate pins in case of straight cable. Straight cable is used for connecting network interface cards with converter MDI ports and for connecting switches or hubs with MDI-X port. Crossed cable can be used for connecting network interface cards with the MDI-X port of the converter and for connecting switches or hubs with MDI ports. Crossed cable is shown on Figure 4-2. .

Pin1

Pin8

1 White-orange 2 Orange 3 White-green 4 White-blue 5 Blue 6 Green 7 White-brown 8 Brown

1 White-green 2 Green 3 White-orange 4 White-blue 5 Blue 6 Orange 7 White-brown 8 Brown

Figure 4-2: Method of connecting crossed cable.

4.4.2. E1/G.703 line interface

Input and output signals of the E1/G.703 interface should be supplied by two symmetrical screening cables, impedance 120 Ω, or by one double screening cable with the same impedance value. The input signal should be supplied to pins 1 and 2, while output signal should be led out of pins 3 and 6 (Figure 4-3). To meet disturbance emission requirements, the following rules should be obeyed. Symmetrical cables should be connected with an RJ-45 pin equipped with metal or metallized casing (tubing). Cable screen should connect to the casing.

Pin1

Pin8

1 White-orange 2 Orange 3 White-green 4 Not connected 5 Not connected 6 Green 7 Not connected 8 Not connected

Figure 4-3. E1/G.703. interface RJ-45 male connector. Description of terminals on E1/G.703 line interface connector is presented on Figure 4-2.

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4.5. Attachment of surveillance cables

So that management of devices is possible, the monitored device must be connected with a PC with LanWin software or VT-100 terminal emulator installed. Connection shall be made with RS-232 cable, specification as provided on Figure 4-4.

1 6 2 7 3 8 4 9 5

Pin1

Pin8

1 Not connected 2 Not connected 3 Not connected 4 GND 5 RXD 6 TXD 7 Not connected 8 Not connected

Figure 4-4: RS-232 cable with DB-9 RJ-45 pins.

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4.6. Clock setup

Three variants of converter operation are possible. The converters may transmit data, depending on conditions and capacity of the telecommunication network, in the following layouts:

• MASTER-MASTER • MASTER-SLAVE • SLAVE-SLAVE

The converter operates in MASTER mode when the clock source for data transmitted to the E1/G.703 interface is the clock from internal quartz generator. In SLAVE mode, clock source for data transmitted to the E1/G.703 interface is the clock retrieved from the opposite direction of transmission.

In MASTER-MASTER mode, both converters work with their own internal clocks – plesiochronous transmission. Possible work with PDH and SDH systems configured in asynchronous mode.

In MASTER-SLAVE mode, the master works with internal clock and the slave works with retrieved clock – synchronous transmission. Possible work with PDH and SDH systems configured in asynchronous mode.

In SLAVE-SLAVE mode, both converters work with retrieved clocks – synchronous transmission. This configuration is only possible if the converters are connected to SDH telecommunication network and the network operates in synchronous mode. Work with PDH systems is not possible.

4.7. Configuration of the E1 G.703 interface

The converter has the following E1 G.703 interface configuration functions: • CRC option available only in framing mode on

o switching this option on enables achieving proper integration with equipment that requires transmission of the remainder of CRC division in zero slot C1-C4 bits

o switching this option off results in setting C bits of the zero slot in ‘1’ position • Framing

o switching this option on enables proper integration with equipment operating with G.704 framed signal and allows selection of a block of slots for transmission. In addition, this option enables communication with the remote device on the side of the E1 interface.

o option off results in blocked selection of slots, surveillance slot and CRC setting. When the framing option is off, E1 stream is transmitted transparently. Therefore, data can be transmitted at full speed of 2048 kbit/s.

• Multiframe o Switching this option on enables proper integration with operating equipment that

uses the sixteenth slot for signals transmission. o In this option, the sixteenth slot may not be used for data transmission

• Choice of surveillance slot number, to be used for managing the remote device connected on the side of the E1 interface, option available only if framing is on.

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5. CONVERTER SETUP WITH LANWIN SOFTWARE The LanWin application in its local version enables surveillance and monitoring of the TM-78

converter. Description of computer connection is contained in section 4.5.

5.1. Global setup

You can enter device name, set system date and time, or view additional information about the equipment in this tab.

Figure 5-1: Global setup.

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5.1.1. Device Name

After you press the Device Name button, a window will open for entering the name. During work with the device, the name entered here will appear in active devices window and in the device window whose name was changed.

Figure 5-2: Device Name.

5.1.2. Date and time setting

When you press Time and date setting, the following window will be displayed.

Figure 5-3: Date and time setting

When you have made your changes and press OK, they will be updated in the device.

5.1.3. Additional information

When you press Additional information, a window will be displayed containing additional information about the connected device.

Figure 5-4: Additional information.

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5.2. Interfaces

The Interfaces tab is designed for managing E1 and Ethernet interfaces. It contains subtabs of the above interfaces. Each subtab enables independent configuration of work parameters, monitoring and creating test loops.

5.2.1. E1, Setup tab

Figure 5-5: Interfaces - E1, Setup.

This module tab enables specifying mode of operation of the E1 interface, selecting

number of slots designed for transmission and determining location of the surveillance slot. Selectable settings:

FRAMING ON-OFF CRC ON-OFF MULTIFRAME ON-OFF A specific slot can be selected through checking a relevant box and saving the setting.

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5.2.1.1. E1, Loops tab

Figure 5-6: Interfaces - E1, Loops.

This tab allows activation of the following loops on the side of the E1 interface: • local LOOP1 • remote LOOP2

The LOOP2 remote loop may only be activated when the E1 interface is configured in framed

mode, when a service channel exists between the two devices.

Use of diagnostic loops is only justified during installation of devices, for testing tract E1/G.703.

The loops may not be activated during normal operation with other Ethernet devices connected. Rules of application – see section 3.4.

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5.2.1.2. E1, Monitoring tab.

Figure 5-7: Interfaces - E1, Monitoring.

This tab enables viewing the E1 interface signaling. An event is signaled through

highlighting in red: LOS - loss of signal LOF - loss of frame, 10E-3 - excess of errors rate 10-3

10E-5 - excess of errors rate 10-5

AIS - Alarm Indication Signal UAL - Urgent Alarm NUAL - Non-urgent Alarm RAL - Alarm from Remote Device

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5.2.1.3. Ethernet, Setup tab

Figure 5-8: Interfaces - Ethernet, Setup.

In this tab, you can change transmission parameters of Ethernet interfaces. The following

modes of operation are available:

AUTONEGOTIATION – determining highest combined transmission rate 100Mbit/s – full duplex – enforced full duplex operation 100Mbit/s 100Mbit/s – half duplex – enforced half duplex operation 100Mbit/s 10Mbit/s – full duplex – enforced full duplex operation 10Mbit/s 10Mbit/s – half duplex – enforced half duplex operation 10Mbit/s

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5.2.1.4. Ethernet, Monitoring tab.

Figure 5-9: Interfaces - Ethernet, Monitoring.

In this tab, you can view the Ethernet interface signaling. The following parameters are

monitored:

LINK1 – loss of signal on port 1 LINK2 – loss of signal on port 2

LANPacketRXCnt – number of packets received from the Ethernet interface LANErrPacketRXCnt – number of errored packets received from the Ethernet interface LANFCtrlPacketRXCnt – number of flow-controlled packets received from the Ethernet interface LANFCtrlPacketTXCnt – number of flow-controlled packets transmitted to the Ethernet interface WANPacketRXCnt – number of packets received from E1 WANErrPacketRXCnt – number of errored packets received from E1 WANFCtrlPacketRXCnt – number of flow-controlled packets received from the E1 interface WANFCtrlPacketTXCnt – number of flow-controlled packets transmitted to the E1 interface

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5.3. Global clock

Figure 5-10: Global clock.

In this tab you can select clock source for data transmitted in the direction of E1/G.703 line

interface. The clock can be selected from two sources: • from internal quartz generator, frequency 2.048 MHz ±50 ppm, operating in MASTER

mode • from clock retrieval systems of opposite direction of transmission E1/G.703, operating in

SLAVE mode

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5.4. Log

5.4.1. Event log tab

Figure 5-11: Log - Event log.

The Event log tab displays recorded events related to the converter. The types of recorded

events are described in section 0. You can delete the whole recorded list of events in this tab. To do that, right-click this window and select Clearing log.

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5.4.2. Event log tab, event log filters

Figure 5-12: Log - Event log filters.

This tab is divided into two parts. The upper section of the tab displays events filtered out

from all recorded events (which are displayed in the Event log tab). The bottom left of the window shows three subtabs. You can use them to select events

filtering criteria.

List of filtering criteria tabs Events - Here you can choose to display events of only one type from the above list of recorded events (Figure 5-12). Date – Here you can select events filtering time criterion. In this tab, beginning and end date and time of this criterion can be selected (Figure 5-13). UAL/NUAL – Here you can select the criteria of displayed events, same as the ones determined for:

• Urgent alarm criteria (Figure 5-14) • Non-urgent alarm criteria (Figure 5-14) • other criteria (not contained in the urgent and non-urgent alarm criteria.)

Two buttons are located on the right side of this window: Filter – displays events of the same type and value as in the left-hand tab. OR – displays events applying criteria from all tabs

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Figure 5-13. Event log filter – Date.

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Figure 5-14. Event log filter – UAL/NUAL.

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5.5. G.826 statistics

In this tab, you can set start time for counting: • of errored seconds - ES • of severely errored seconds - SES • of errored blocks – EB • of device unavailability seconds - UAS, You can also set the minimum and maximum threshold values for SES15, SES24, ES15,

ES24 counters, on the basis of which event log entries and alarms are generated. Generating threshold exceeded alarms can be switched on or off.

5.5.1. G.826 statistics, Counters tab.

When you press the Menu key in the upper left corner of the tab, a drop-down list is displayed with the following commands: Reports Save Print Clear (clearing ES/SES counters), Count initialization time (a new window opens for entering the time), Generating UAL and NUAL Setup (a window opens for entering threshold values of switching the signaling of ES15, SES15, ES24, SES24 errors).

You can also enter the count starting time, pressing the Count initialization time button to

the right of the ES/SES window, or clicking the box below this button. Setting up threshold values of switching the signaling of ES15, SES15, ES24, SES24 errors is also possible after clicking anywhere on the ES/SES window. Pressing the Generating UAL and NUAL button enables signaling these alarms after the set ES/SES threshold values have been exceeded.

Depending on which button you press: 15-minute counters, or 24-hour counters, the bottom section of this tab will display (Figure 5-15, Figure 5-16): • number of errored seconds - ES • number of severely errored seconds - SES • number of errored blocks – BBE • number of device unavailability seconds - UAS,

When you press Time periods, the following will be displayed (Figure 5-17):

• proportion of errored seconds to all seconds when the device is available – ESR [%] • proportion of severely errored seconds to all seconds when the device is available – SESR [%] • proportion of errored blocks to all blocks when the device is available – BBER [%] The Ranges button appearing in this window enables entering time periods in which measurement is performed (Figure 5-19).

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Figure 5-15. G.826 statistics – 15-minute counters.

Figure 5-16. G.826 statistics – 24-hour counters.

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Figure 5-17. G.826 statistics – Time periods.

Figure 5-18. Count initialization time.

Figure 5-19. Ranges.

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Figure 5-20. Alarm on thresholds.

Figure 5-21. Alarms hierarchy.

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6. TECHNICAL SPECIFICATION

6.1. Electrical characteristics

6.1.1. Ethernet interface

Parameter Value of the parameter Standard describing the electrical interface IEEE 802.3 10Base-T transmission rate 10 Mbit/s, full duplex and half duplex 100Base-TX transmission rate 100 Mbit/s, full duplex and half duplex Input and output impedance 100 Ω 10Base-T line code Manchester 100Base-TX line code MLT-3 Length of segment 100m Required cabling Category 5 UTP or STP Error rate ≤10-8 Type of connection RJ-45

6.1.2. E1/G.703 line interface

Parameter Value of the parameter Standard describing the electrical interface ITU-T G.703 Transmission rate in line 2048 kbit/s ±50 ppm Data transmission rate n x 64kbit/s, n=1 do 31, zgodnie z G.704 Input and output impedance 120 Ω Maximum cable transmission loss for frequency 1024kHz 43 dB

Line code HDB-3 Error rate ≤10-9 Type of connection RJ-45

6.2. Mechanical parameters

Parameter Value Width 105 mm Height 36 mm Depth 185 mm Weight 0.6 kg

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6.3. Environmental requirements

6.3.1. Operation

The converter may operate indoors, in unevenly heated rooms, in the following ambient conditions:

Environmental parameter Acceptable value Ambient temperature +5 ÷ +40OC Air relative humidity ≤ 80% at a temperature of +20OC

6.3.2. Transport

The devices in factory packaging should be transported in the following conditions:

Environmental parameter Acceptable value Ambient temperature -25 ÷ +40OC Temperature variation rate ≤ 10OC/h Maximum air humidity 95% Atmospheric pressure 700 ÷ 1060 hPa Multiple strokes 5 ÷ 15 g in 10 ms

6.3.3. Storage

Converters should be stored indoors, in the following ambient conditions:

Environmental parameter Acceptable value Ambient temperature -25 ÷ +55OC Humidity 5% to 90% over +40OC

Vibrations frequency: 10 Hz to 55 Hz, amplitude: 0.15 mm duration: 10 cycles in three planes

Level of pollution typical home or office environment

6.4. Electromagnetic compatibility

Converters conform to requirements for A class devices regarding radio/electrical interference as set out in the PN-EN 55022 standard, provided that they have been installed in accordance with this manual.

Warning: This is a Class A device. In a domestic environment this product may cause radio and electrical interference

in which case the user may be required to take adequate measures.

6.5. Power Supply

Parameter Value Rated supply voltage 4,5÷5,5 V; 0 Hz Maximum rated power input 800 mA Type of connection double clamped (screwed) joint

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7. PRODUCT ELEMENTS AND ACCESSORIES

The complete packing list of the product delivered to the customer includes: 1. EtherTel TM-78 converter 1 pcs. 2. RS-232 cable, DB-9 RJ-45 pins. 1 pcs. 3. Operating manual 1 pcs. 4. Guarantee card 1 pcs.

Recommended power supply units: 1. 230 VAC Mascot type 5015, 4,5 VDC, 1,2A 2. 48 VDC Merawex type ECD1-R2- 48s05,

two-core cable 2x0.75mm, length 1 m 3M band, length 0.15m

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Manufacturer: Lanex S.A. 8 Ceramiczna Street 20-150 Lublin POLAND phone: +48 81 444-10-11 fax: +48 81 740-35-70 e-mail: [email protected] web: www.lanex.pl Service contact: phone +48 81 443 96 39 Lanex S.A. 2005