Nevion 3GHD-EO-2 User Manual

Nevion HQ:

Nevion Europe, P.O. Box 1020, 3204 Sandefjord, Norway

Tel: +47 33 48 99 99 – Fax: +47 33 48 99 98 – www.nevion.com

3GHD-EO

3GHD-EO-2

Single/dual 3G-SDI

electrical to optical converter

User manual

Rev. 4

3GHD-EO / 3GHD-EO-2 Rev. 4

nevion.com | 2

Nevion Support

Nevion Europe
P.O. Box 1020

3204 Sandefjord, Norway

Support phone 1: +47 33 48 99 97
Support phone 2: +47 90 60 99 99

Nevion USA

1600 Emerson Avenue

Oxnard, CA 93033, USA

Toll free North America: (866) 515-0811

Outside North America: +1 (805) 247-8560

E-mail: support@nevion.com

See http://www.nevion.com/support/ for service hours for customer support globally.

Revision history

Current revision of this document is the uppermost in the table below.

Rev.

Repl.

Date

Sign

Change description

4 3 2012-11-14

SHH

Updated chapter 5.1

3 2 2012-06-12

AJM

Updated chapter 3.4

2 1 2011-08-15

SHH

Enabled functionality for fibre breakage detection
signal. Only available in HW version 1.1. Updated in

3.5. Added MADI transport chapter.

1 0 2009-10-23

AJM

Updated DIP 3 and 7 in 3.1 and dip 3, 6 and 7 in 3.2.
Updated figure 10 and 11.

0 - 2009-04-09

AJM

First release.

3GHD-EO / 3GHD-EO-2 Rev. 4

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Contents

1 Product overview ..................................................................................................... 4

1.1 Product version ............................................................................................................... 5

2 Specifications .......................................................................................................... 7

2.1 General ........................................................................................................................... 7

2.2 Electrical Input ................................................................................................................. 7

2.3 Electrical Outputs ............................................................................................................ 7

2.4 Optical Output ................................................................................................................. 7

2.5 Standards ........................................................................................................................ 8

3 Configuration ........................................................................................................... 9

3.1 Single converter .............................................................................................................. 9

3.2 Dual converter ................................................................................................................10

3.3 Reclocker mode .............................................................................................................11

3.4 Automatic change over ...................................................................................................11

3.5 Fibre breakage detection signalling ................................................................................11

3.6 Single converter configuration example ..........................................................................12

3.7 Dual converter configuration example .............................................................................13

4 MADI transport ...................................................................................................... 14

4.1 Connections ................................ ................................................................................... 14

4.2 Terminal format support..................................................................................................14

4.3 Mounting the connector module ......................................................................................15

5 Module status ........................................................................................................ 16

5.1 GPI ALARM – Module Status Outputs ............................................................................16

5.2 Front panel – Status monitoring ......................................................................................17

6 RS422 commands ................................................................................................. 18

6.1 FLP4.0 block commands ................................................................................................18

6.2 Single converter .............................................................................................................19

6.3 Dual converter ................................................................................................................19

General environmental requirements for Nevion equipment..................................... 21

Product Warranty ................................................................ ................................ ...... 22

Appendix A Materials declaration and recycling information..................................... 23

EC Declaration of Conformity ................................................................................... 24

3GHD-EO / 3GHD-EO-2 Rev. 4

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1 Product overview

The Flashlink 3GHD-EO and 3GHD-EO-2 is a single or dual multi bit-rate electrical to optical
converter module providing high performance media conversion for various signal formats
from 19.4Mbps up to 2970Mbps. Unmatched signal accuracy, even in critical applications
with pathological signal patterns makes the 3GHD-EO and 3GHD-EO-2 the first choice for all
optical transport demands.

The 3GHD-EO and 3GHD-EO-2 can transport all HD and SD signal formats in addition to
DVB-ASI and SMPTE310M. It performs electrical equalizing and signal re-clocking, which is
selectable on application. High quality optical transmitters using FP or DFB lasers are
suitable for short and medium haul applications. The open system platform of Nevion
Flashlink system allows easy interoperability with third party fiber optical systems.

The two modules also support Fibre breakage detection signalling. This feature allows for the
user to distinguish between a loss of signal at the input of the transmitter and a fibre
breakage towards the receiver.

The 3GHD-EO and 3GHD-EO-2 unit has also two electrical outputs for each channel, which

reduces the need for additional DA’s. The electrical input is equipped with a multi rate cable

equalizer providing an equalization of typically 75m of high quality coax cable at 2970Mbps.

Figure 1 Block diagram of the 3GHD-E0 converter

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Figure 2 Block diagram of the 3GHD-EO-2 converter

1.1 Product version

3GHD-EO is available in the following version:
Single converter version:

3GHD-EO-13T -7.5dBm

1310nm -7.5dBm F-P laser

3GHD-EO-C1270

1270nm 0dBm

3GHD-EO-C1290

1290nm 0dBm

3GHD-EO-C1310

1310nm 0dBm

3GHD-EO-C1330

1330nm 0dBm

3GHD-EO-C1350

1350nm 0dBm

3GHD-EO-C1370

1370nm 0dBm

3GHD-EO-C1390

1390nm 0dBm

3GHD-EO-C1410

1410nm 0dBm

3GHD-EO-C1470

1470nm 0dBm

3GHD-EO-C1490

1490nm 0dBm

3GHD-EO-C1510

1510nm 0dBm

3GHD-EO-C1530

1530nm 0dBm

3GHD-EO-C1550

1550nm 0dBm

3GHD-EO-C1570

1570nm 0dBm

3GHD-EO-C1590

1590nm 0dBm

3GHD-EO-C1610

1610nm 0dBm

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Dual converter version:

3GHD-EO-2-T13 -7.5dBm

1310nm -7.5dBm F-P laser

3GHD-EO-2-C1310/1550

1310nm and 1550nm 0dBm DFB laser

3GHD-EO-2-C1470/1490

1470nm and 1490nm 0dBm DFB laser

3GHD-EO-2-C1510/1530

1510nm and 1530nm 0dBm DFB laser

3GHD-EO-2-C1550/1570

1550nm and 1570nm 0dBm DFB laser

3GHD-EO-2-C1590/1610

1590nm and 1610nm 0dBm DFB laser

3GHD-EO-2-C1270/1290

1270nm and 1290nm 0dBm DFB laser

3GHD-EO-2-C1310/1330

1310nm and 1330nm 0dBm DFB laser

3GHD-EO-2-C1350/1370

1350nm and 1370nm 0dBm DFB laser

3GHD-EO-2-C1390/1410

1390nm and 1410nm 0dBm DFB laser

3GHD-EO / 3GHD-EO-2 Rev. 4

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2 Specifications

2.1 General

Power +5V DC / 3.5W, max
Control Control system for access to setup and module status with

BITE (Built-In Test Equipment)

Temp. range 0 to +40 °C

2.2 Electrical Input

Data rate NRZ 19.4 to 2970Mbps
Equalization Automatic,

Cable equalizer and reclocker can be bypassed to support

bitrates down to 2Mbps.
Impedance 75 ohm
Return loss >15dB @ 5-1485MHz
>10dB 1485-2970MHz
Signal level Nom. 800mV
Connector BNC, 2 inputs

2.3 Electrical Outputs

Number of outputs 4 on single converter
2 (per converter) on the dual converter
Connector BNC
Impedance 75 ohm
Return loss >15dB @ 5-1485MHz
>10dB 1485-2970MHz
Peak to peak signal level 800mV ± 100mV
Signal polarity 2 inverting, 2 non-inverting on single converter
1 inverting, 1 non-inverting (per converter) on dual converter

2.4 Optical Output

Number of outputs 1 on single converter
1 (per converter) on the dual converter
Transmission circuit fiber Single mode 9/125um
Light source F-P / DFB laser
Optical power 13T -7.5dBm: -3 to -12dBm, typ -5dBm,
CWDM: +0dBm +/- 1dBm
Optical centre wavelength 1310nm or CWDM
Max. wavelength variation +/- 6nm for CWDM
+/-20nm for 1310nm

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Connector return loss >40dB w/SM fiber
Maximum reflected power 4%
Connector SC/UPC

2.5 Standards

Supported standards for electrical and optical ports:
SMPTE292M, SMPTE259M, SMPTE297M, SMPTE305.2M, SMPTE310M, SMPTE424M,

DVB-ASI EN50083-9.

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3 Configuration

3.1 Single converter

The 3GHD-EO can support a number of different broadcast formats. The correct
configuration can either be set with a DIP switch or with the GYDA Control System. The
layout of 3GHD-EO is shown in the drawing below with the DIP switch to the upper left
position.

Figure 3 3GHD-EO board layout

Switch #

Label

Function, DIP = ON

Function, DIP = OFF

Comment

1

RCL1

Reclocker 1 ON

Reclocker 1 bypass

Reclocker mode

2

EQ1

Automatic cable
Equalizer ON

Automatic cable
Equalizer OFF

Cable equalizer
mode on input 1

3

PRI1

Electrical input 2

Electrical input 1

Select electrical input
to laser 1

4

RCL2

No function on this
product

5

EQ2

Automatic Cable
Equalizer ON

Automatic Cable
Equalizer OFF

Cable equalizer
mode on input 2

6

PRI2

No function on this
product

7

SWP

Automatic change
over

Normal operation

ACO mode

8

OVR

Override GYDA
control.
Configuration with
DIP switch

GYDA control.
Configuration with
GYDA

Select configuration
from GYDA

All DIP switches are off when pointing towards the release handle.

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3.2 Dual converter

The 3GHD-EO-2 can support a number of different broadcast formats. The correct
configuration can either be set with a DIP switch or with the GYDA Control System. The
layout of 3GHD-EO-2 is shown in the drawing below with the DIP switch to the upper left
position.

Figure 4 3GHD-EO-2 board layout

Switch #

Label

Function, DIP = ON

Function, DIP = OFF

Comment

1

RCL1

Reclocker 1 ON

Reclocker 1 bypass

Reclocker mode

2

EQ1

Automatic cable
Equalizer ON

Automatic cable
Equalizer OFF

Cable equalizer
mode on input 1

3

PRI1

Electrical input 2

Electrical input 1

Select electrical input
to laser 1

4

RCL2

Reclocker 2 ON

Reclocker 2 bypass

Reclocker mode

5

EQ2

Automatic Cable
Equalizer ON

Automatic Cable
Equalizer OFF

Cable equalizer
mode on input 2

6

PRI2

Electrical input 2

Electrical input 1

Select electrical input
to laser 2

7

SWP

Automatic change
over

Normal operation

ACO mode

8

OVR

Override GYDA
control.
Configuration with
DIP switch

GYDA control.
Configuration with
GYDA

Select configuration
from GYDA

All DIP switches are off when pointing towards the release handle.

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3.3 Reclocker mode

The reclocker can be set to re-clock or bypass from DIP#1 and DIP#3 or from GYDA.
When reclocker is set to re-clock mode jitter from the signal is removed. Accepted bitrates is

270, 1483.5, 1485, 2967 and 2970Mbps.
When reclocker is set to bypass, the converter accept all bitrates between 19.4 to 2970Mbps.

Note that in this mode the jitter is not removed and this can cause problems for downstream
equipment.

3.3.1 Transparent

This converter only looks at the bitrates and not the content. This means that any signal with
correct bitrates is converted. The product is transparent to data in the ancillary space like
embedded audio.

3.4 Automatic change over

Dual electrical converter has an automatic changeover module. This module has the
possibility to have an automatic change over on the input. This can be used in redundancy
systems where the user wants automatically switch to a backup port when the main input
loses signal. This function can be turned with DIP#5. From GYDA this function can be turned
on for each converter. Each converter can be configured to what is main and backup input by
DIP#3 and DIP#6 or from GYDA.

3.4.1 Trigger condition

Loss of electrical signal trigs the automatic change over. When the main input loss electrical
signal the backup input is selected. When the backup input is active an alarm is displayed in
Gyda. When the main input electrical signal is restored the converter switches immediately
back to main input and the alarm is restored.

Note that bit error or loss of lock on reclocker does not trigger the ACO.

3.5 Fibre breakage detection signalling

The module has the possibility for adding a signal to the output at loss of input signal. This
enables receivers to distinguish between a loss of input on transmitter side and a fibre
breakage towards receiver side. From Gyda this new feature can be enabled thru the GPI 1
and GPI 2 function in Multicon Gyda. Setting GPI 1 active enables the fibre breakage
detection signal at loss of input for channel 1. Setting GPI 2 enables it for channel 2.

See application note on Fibre breakage detection signalling for more information.

Note that this feature is only available on modules with hw version 1.1 or higher.
The software auto detects the hardware version and enables the feature
accordingly.

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3.6 Single converter configuration example

Electrical input 1

O2

O2

O1

O1

Optical output 1

Electrical input 2

RCL1

EQ1

PRI1

RCL2

EQ2

SWP

OVR

ON

18

Reclocker

3G/HD/SD-SDI

PRI2

Figure 5 EO converter with reclocker, input 1

Electrical input 1

O2

O2

O1

O1

Optical output 1

Electrical input 2

RCL1

EQ1

PRI1

RCL2

EQ2

SWP

OVR

ON

18

Reclocker

3G/HD/SD-SDI

PRI2

Figure 6 EO converter with reclocker, input 2

Electrical input 1

O2

O2

O1

O1

Optical output 1

Electrical input 2

RCL1

EQ1

PRI1

RCL2

EQ2

SWP

OVR

ON

18

PRI2

Figure 7 EO converter with reclocker in bypass

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3.7 Dual converter configuration example

Electrical input 1

O2

O2

Optical output 2

O1

O1

Optical output 1

Electrical input 2

RCL1

EQ1

PRI1

RCL2

EQ2

SWP

OVR

ON

18

Reclocker 2

3G/HD/SD-SDI

Reclocker 1

3G/HD/SD-SDI

PRI2

Figure 8 Dual EO converter, standard setup

Electrical input 1

O2

O2

Optical output 2

O1

O1

Optical output 1

Electrical input 2

RCL1

EQ1

PRI1

RCL2

EQ2

SWP

OVR

ON

18

Reclocker 2

3G/HD/SD-SDI

Reclocker 1

3G/HD/SD-SDI

PRI2

Figure 9 Dual EO converter, input swap

Electrical input 1

O2

O2

Optical output 2

O1

O1

Optical output 1

Electrical input 2

RCL1

EQ1

PRI1

RCL2

EQ2

SWP

OVR

ON

18

Reclocker 2

3G/HD/SD-SDI

Reclocker 1

3G/HD/SD-SDI

PRI2

Figure 10 Single EO converter with DA, input 1

Electrical input 1

O2

O2

Optical output 2

O1

O1

Optical output 1

Electrical input 2

RCL1

EQ1

PRI1

RCL2

EQ2

SWP

OVR

ON

18

Reclocker 2

3G/HD/SD-SDI

Reclocker 1

3G/HD/SD-SDI

PRI2

Figure 11 Single EO converter with DA, input 2

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4 MADI transport

The card can be used to transport MADI signal. Nevion recommend setting the cable EQ and
rec-clocker in bypass.

4.1 Connections

The 3GHD-EO and 3GHD-EO-2 has a dedicated connector module: 3GHD-EO-2-C1. This
module is mounted at the rear of the sub-rack. The module is shown in the figure below.

Figure 12 Connector module for 3GHD-EO-2

4.2 Terminal format support

The different input and output ports on 3GHD-EO(-2) can support a number of formats. The
table below show which signal formats are supported on the selected terminals.

Terminal format support for single converter:

Terminal

Function

Supported Format

Mode

OPT1

Optical output

SDI, DVB-ASI,
SMPTE310, Transparent

Output
OPT2

Not used

I/O1
I/O2

Electrical Input

SDI, DVB-ASI,
SMPTE310, Transparent

Input

O1
O2

Electrical Output
Reclocked DA output

SDI, DVB-ASI, Transparent

Output

O1––
O2––

Electrical Output
Reclocked DA inverted
output

SDI, Transparent

Output

GPI ALARM

Open Collector Alarms

Wired alarms

OC Output

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Terminal format support for dual converter:

Terminal

Function

Supported Format

Mode

OPT1
OPT2

Optical output

SDI, DVB-ASI,
SMPTE310, Transparent

Output

I/O1
I/O2

Electrical Input

SDI, DVB-ASI,
SMPTE310, Transparent

Input

O1
O2

Electrical Output
Reclocked DA output

SDI, DVB-ASI, Transparent

Output

O1––
O2––

Electrical Output
Reclocked DA inverted
output

SDI, Transparent

Output

GPI ALARM

Open Collector Alarms

Wired alarms

OC Output

Unused inputs should be terminated to avoid alarms triggered by noise.

4.3 Mounting the connector module

The details of how the connector module is mounted, is found in the user manual for the sub­rack frame FR-2RU-10-2.

This manual is also available from our web site:

http://www.nevion.com/

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5 Module status

The status of the module can be monitored in three ways.

1. GYDA System Controller (optional).

2. GPI at the rear of the sub-rack.

3. LED’s at the front of the sub-rack.
Of these three, the GPI and the LED’s are mounted on the module itself, whereas the GYDA

System Controller is a separate module giving detailed information on the card status.

5.1 GPI ALARM – Module Status Outputs

These outputs can be used for wiring up alarms for third party control systems. The GPI
outputs are open collector outputs, sinking to ground when an alarm is triggered. The GPI
connector is shown in figures below.

Electrical Maximums for GPI outputs

Max current: 100mA
Max voltage: 30V

5.1.1 GPI connections

3GHD-EO-2 module GPI pinning:

Signal

Name

Pin #

Mode

Status

General error status for the module.

Pin 1

Open Collector
inverted logic

LOS1

Loss of signal on input 1.

Pin 2

Open Collector

LOS2

Loss of signal on input 2.

Pin 3

Open Collector

Laser fail

Laser failure.

Pin 4

Open Collector

Ground

0V / gnd pin.

Pin 8

0V.

Figure 13 GPI connector

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5.2 Front panel – Status monitoring

The status of the module can be easily monitored visually by the LED’s at the front of the

module. The LEDs are visible through the front panel as shown in the figure below.

The 3GHD-EO(-2) has 4 LED’s each showing a status corresponding to the GPI pinning.

Diode \ State

Red LED

Yellow LED

Green LED

No light

Status

Module is faulty, or
module is initializing.

N/A

Module is OK
Module power
is OK

Module
has no
power

LOS/LOCK1

No input signal on
optical output 1.

Input signal on
optical output 1
but reclocker not
in lock.

Input signal on
optical output 1
and reclocker in
lock.

LOS/LOCK2

No input signal on
optical output 2.

Input signal on
optical output 1
but reclocker not
in lock.

Input signal on
optical output 1
and reclocker in
lock.

Laser fail

Laser is
malfunctioning.

Laser is off

Laser is OK

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6 RS422 commands

This card uses the FLP 4.0 protocol to be configured and monitored. See separate
documents for definition of this protocol.

6.1 FLP4.0 block commands

Common FLP4.0 block for both single and dual converter is listed below.

6.1.1 CEQ 0

Electrical input 1.

<identifier> ::= 'ceq'
<status> ::= ['cd'|'ncd'] ['bypass'|'mute']

<block command> ::= 'enable'|'bypass'|'mute'

6.1.2 CEQ 1

Electrical input 2.

<identifier> ::= 'ceq'
<status> ::= ['cd'|'ncd'] ['bypass'|'mute']

<block command> ::= 'enable'|'bypass'|'mute'

6.1.3 TEMP 0

Board temperature.

<identifier> ::= 'temp'
<status> ::= ['alarm'] [<temperature>'C'] ['ulim' <temperature>]
['llim' <temperature>]
<block command> ::= <upper limit>|<lower limit>
<upper limit> ::= 'ulim' <temperature>
<lower limit> ::= 'llim' <temperature>

6.1.4 PWR 0

<identifier> ::= 'pwr'
<status> ::= [<nominal voltage>'Vnom'] [<voltage>]

6.1.5 PWR 1

<identifier> ::= 'pwr'
<status> ::= [<nominal voltage>'Vnom'] [<voltage>]

6.1.6 LSR 0

Optical output 1.

<identifier> ::= 'lsr'
<status> ::= ['T'|'C'|'D'] [<wavelength>'nm'] [<power>'dBm']
['on'|'off'] ['fail']
<block command> ::= <operation>|<type>|<wavelength>|<power>
<operation> ::= 'on'|'off'
<type> ::= 'type' 'T'|'C'
<wavelength> ::= 'lambda' <laser wavelength>
<power> ::= 'lpwr' <laser power>

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6.1.7 CHO 0

Input select for output 1.

<identifier> ::= 'cho'
<status> ::= [<input>] ['size' 2] [<changeover mode>]
[<priority list>]

<block command> ::= <set position>|<set priority>

<changeover mode> ::= 'auto'|'man'
<priority list> ::= 'pri' <input>

<set position> ::= 'pos' 'auto'|('man' <input>)
<set priority> ::= 'pri' <input>

6.2 Single converter

FLP4.0 block for single converter is listed in 6.2.1.

6.2.1 RCL 0

Reclokcer for output 1.

<identifier> ::= 'rcl'
<status> ::= ['en'|'mute'|'bypass'] ['lock'|'lol']
[<bitrate>'Mbps'] ['asi'|'sdi'|'hdsdi']
['abp' 'on'|'off'] ['rate' 'man'|'auto']

<block command> ::= <set mode>|<set autobypass>|

<set mode> ::= 'en'|'mute'|'bypass'
<set autobypass> ::= 'abp' 'on'|'off'

6.3 Dual converter

FLP4.0 block for dual converter is listed in below.

6.3.1 LSR 1

Optical output 2.

<identifier> ::= 'lsr'
<status> ::= ['T'|'C'|'D'] [<wavelength>'nm'] [<power>'dBm']
['on'|'off'] ['fail']
<block command> ::= <operation>|<type>|<wavelength>|<power>
<operation> ::= 'on'|'off'
<type> ::= 'type' 'T'|'C'
<wavelength> ::= 'lambda' <laser wavelength>
<power> ::= 'lpwr' <laser power>

6.3.2 CHO 1

Input select for output 2.

<identifier> ::= 'cho'
<status> ::= [<input>] ['size' 2] [<changeover mode>]
[<priority list>]

<block command> ::= <set position>|<set priority>

<changeover mode> ::= 'auto'|'man'
<priority list> ::= 'pri' <input>

<set position> ::= 'pos' 'auto'|('man' <input>)
<set priority> ::= 'pri' <input>

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6.3.3 RCL 0

Reclocker for output 1.

<identifier> ::= 'rcl'
<status> ::= ['en'|'mute'|'bypass'] ['lock'|'lol']
[<bitrate>'Mbps'] ['asi'|'sdi'|'hdsdi']
['abp' 'on'|'off'] ['rate' 'man'|'auto']

<block command> ::= <set mode>|<set autobypass>|

<set mode> ::= 'en'|'mute'|'bypass'
<set autobypass> ::= 'abp' 'on'|'off'

6.3.4 RCL 1

Reclokcer for output 2.

<identifier> ::= 'rcl'
<status> ::= ['en'|'mute'|'bypass'] ['lock'|'lol']
[<bitrate>'Mbps'] ['asi'|'sdi'|'hdsdi']
['abp' 'on'|'off'] ['rate' 'man'|'auto']

<block command> ::= <set mode>|<set autobypass>|

<set mode> ::= 'en'|'mute'|'bypass'
<set autobypass> ::= 'abp' 'on'|'off'

3GHD-EO / 3GHD-EO-2 Rev. 4

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General environmental requirements for Nevion equipment

1.

The equipment will meet the guaranteed performance specification under the following
environmental conditions:

-

Operating room temperature range:

0°C to 40°C

-

Operating relative humidity range:

<90% (non-condensing)

2.

The equipment will operate without damage under the following environmental
conditions:

-

Temperature range:

-10°C to 50°C

-

Relative humidity range:

<95% (non-condensing)

3GHD-EO / 3GHD-EO-2 Rev. 4

nevion.com | 22

Product Warranty

The warranty terms and conditions for the product(s) covered by this manual follow the
General Sales Conditions by Nevion, which are available on the company web site:

www.nevion.com

3GHD-EO / 3GHD-EO-2 Rev. 4

nevion.com | 23

Appendix A Materials declaration and recycling information

A.1 Materials declaration

For product sold into China after 1st March 2007, we comply with the “Administrative
Measure on the Control of Pollution by Electronic Information Products”. In the first stage of

this legislation, content of six hazardous materials has to be declared. The table below
shows the required information.

組成名稱

Part Name

Toxic or hazardous substances and elements

鉛

Lead

(Pb)

汞

Mercury

(Hg)

镉

Cadmium

(Cd)

六价铬

Hexavalent

Chromium

(Cr(VI))

多溴联苯

Polybrominated

biphenyls

(PBB)

多溴二苯醚

Polybrominated

diphenyl ethers

(PBDE)

3GHD-EO/
3GHD-EO-2

O O O O O

O

O: Indicates that this toxic or hazardous substance contained in all of the homogeneous materials for this
part is below the limit requirement in SJ/T11363-2006.

X: Indicates that this toxic or hazardous substance contained in at least one of the homogeneous
materials used for this part is above the limit requirement in SJ/T11363-2006.

This is indicated by the product marking:

A.2 Recycling information

Nevion provides assistance to customers and recyclers through our web site

http://www.nevion.com/. Please contact Nevion’s Customer Support for assistance with

recycling if this site does not show the information you require.
Where it is not possible to return the product to Nevion or its agents for recycling, the

following general information may be of assistance:

 Before attempting disassembly, ensure the product is completely disconnected from

power and signal connections.

 All major parts are marked or labeled to show their material content.
 Depending on the date of manufacture, this product may contain lead in solder.
 Some circuit boards may contain battery-backed memory devices.

Nevion HQ:

Nevion Europe, P.O. Box 1020, 3204 Sandefjord, Norway

Tel: +47 33 48 99 99 – Fax: +47 33 48 99 98 – www.nevion.com

EC Declaration of Conformity

MANUFACTURER

Nevion

AUTHORIZED REPRESENTATIVE
(Established within the EEA)

Not applicable

MODEL NUMBER(S)

3GHD-EO / 3GHD-EO-2

DESCRIPTION

Single/dual 3G-SDI electrical to optical
converter

DIRECTIVES this equipment complies with

Low voltage (EU Directive 2006/95/EC)
EMC (EU Directive 2004/108/EC)
RoHS (EU Directive 2002/95/EC)
China RoHS1
WEEE (EU Directive 2002/96/EC)
REACH

HARMONISED STANDARDS applied in order
to verify compliance with Directive(s)

EN 55103-1:1996
EN 55103-2:1996
EN 60950-1:2006

TEST REPORTS ISSUED BY

Notified/Competent
Body

Report no:

Nemko

E08463

TECHNICAL CONSTRUCTION FILE NO

Not applicable

YEAR WHICH THE CE-MARK WAS AFFIXED

2008

TEST AUTHORIZED SIGNATORY

MANUFACTURER

AUTHORIZED
REPRESENTATIVE
(Established within
EEA)

Date of Issue

2009-05-29

Place of Issue

Not applicable

Sandefjord, Norway

Name

Thomas Øhrbom

Position

VP of Business Support Systems,
Nevion
(authorized signature)

1

Administration on the Control of Pollution Caused by Electronic Information Products