dtr-1000 user manual (revision 00) - i.r.t. communications€¦ · the ethernet port conforms to...
TRANSCRIPT
DTR-1000
I.R.T. Communications Pty Ltd | www.irtcommunications.com
Revision 00
Multi-Channel 3G/HD/SD/ASI + Gigabit Ethernet Fibre Optic Link
User Manual
DTR-1000
I.R.T. Communications Pty Ltd | www.irtcommunications.com
Page 2 of 28 Revision 00
MULTI-CHANNEL 3G/HD/SD/ASI + GIGABIT ETHERNET FIBRE OPTIC LINK
Revision History:
Revision Date By Change Description Applicable to:
00 19/12/2016 AL Original Issue. Firmware version ≥
1.3
DTR-1000
I.R.T. Communications Pty Ltd | www.irtcommunications.com
Page 3 of 28 Revision 00
USER MANUAL
Table of Contents:
Section Page
Revision History 2 Operational Safety 4 General Description 5
Block Diagrams 6 DTR-1000/16Tx+E | DTR-1000/16Rx+E 6 DTR-1000/12Tx+4Rx+E | DTR-1000/12Rx+4Tx+E 6 DTR-1000/8Tx+8Rx+E | DTR-1000/8Rx+8Tx+E 7 DTR-1000/8Tx+E | DTR-1000/8Rx+E 7 DTR-1000/4Tx+4Rx+E | DTR-1000/4Rx+4Tx+E 8
Technical Specifications 9 Installation 10
Pre-installation 10 Power 10 Earthing 10
Rear Panel – Power/Ethernet Decal Connections 10 Input Power 10 Control 10 Alarm 11 Ethernet 11 Optical 11
Rear Panel - Signal Connections 12 DTR-1000/16Tx+E | DTR-1000/16Rx+E 12 DTR-1000/12Tx+4Rx+E | DTR-1000/12Rx+4Tx+E 13 DTR-1000/8Tx+8Rx+E | DTR-1000/8Rx+8Tx+E 13 DTR-1000/8Tx+E | DTR-1000/8Rx+E 14 DTR-1000/4Tx+4Rx+E | DTR-1000/4Rx+4Tx+E 14
Operation 15 Front Panel Display 15
Alarm Indication 17 Front Panel Pushbuttons 17 Front Panel Window Navigation 18
Front Panel Windows 19 Web-Browser Control 25
Maintenance & Storage 27 Warranty & Service 28
This instruction book applies to units fitted with firmware version ≥ 1.3
DTR-1000
I.R.T. Communications Pty Ltd | www.irtcommunications.com
Page 4 of 28 Revision 00
OPERATIONAL SAFETY
WARNING
Operation of electronic equipment involves the use of voltages and currents that
may be dangerous to human life. Note that under certain conditions dangerous
potentials may exist in some circuits when power controls are in the OFF position.
Maintenance personnel should observe all safety regulations.
Do not make any adjustments inside equipment with power ON unless proper
precautions are observed. All internal adjustments should only be made by suitably
qualified personnel. All operational adjustments are available externally without
the need for removing covers or use of extender cards.
Optical Safety
The light emitted from the LASER diodes used in this system are
invisible and may be harmful to the human eye. Avoid looking
directly into the fibre optic cable or connectors or into the
collimated beam along their axis when the device is in operation.
Operating the LASER diode outside of its maximum ratings may
cause device failure or a safety hazard.
AVOID EXPOSURE TO BEAM
CLASS LASER PRODUCT
3B
WARNING !
DTR-1000
I.R.T. Communications Pty Ltd | www.irtcommunications.com
Page 5 of 28 Revision 00
GENERAL DESCRIPTION
The DTR-1000 is a multi-channel transmitter / receiver unit designed principally for use as an up to sixteen serial
data + Ethernet fibre optic transmission link on a single fibre for 3G-SDI, HD-SDI or SD-SDI applications conforming
to SMPTE standards 424M, 292M and 259M-C using 9/125 μm single mode fibre.
In addition, the links may be used for ASI transport streams for use with MPEG compressed video streams or other
270 Mb/s type data.
The Ethernet port conforms to the IEEE 802.3i, 802.3y and 802.3ab standards for Ethernet over CAT-5 cable, and
the IEEE 802.3z (1000 Base-X) standard for Gigabit Ethernet over optical fibre.
The Ethernet port has automatic MDI/MDI-X detection, this detects whether the Ethernet interconnect cable is a
straight through or cross over type and automatically switches itself to accommodate, and will automatically select
the link speed of the connected network (10/100/1000 Mb/s).
The optical port uses an internal course wave division multiplexer (CWDM) unit to combine the individual signals
together allowing up to almost 50Gb of data to be transmitted over a single fibre.
Monitoring is possible locally via the front panel display or remotely via a web browser.
Power is supplied by an internal AC input power supply, with two secondary external +12Vdc input ports provided
for power supply redundancy (external power packs sold separately).
The DTR-1000 is designed to be operated as a transmit/receive pair and is orderable as either a 16-channel
transmitter only; a 16-channel receiver only; a 12-channel transmitter + 4-channel receiver; a 12-channel receiver +
4-channel transmitter; an 8-channel transmitter + 8-channel receiver; an 8-channel receiver + 8-channel
transmitter; an 8-channel transmitter only; an 8-channel receiver only; a 4-channel transmitter + 4-channel
receiver; or a 4-channel receiver + 4-channel transmitter. All models come with the bi-directional Ethernet port.
The DTR-1000 comes as a 1RU enclosed chassis with all signal and power connections on the rear.
Standard Features:
• Transports up to 16 independent 3G-SDI, HD-SDI, SD-SDI or ASI signal rates plus a
1000/100/10Mb/s Ethernet signal on a single fibre.
• Path lengths up to 26 dB1 optical path loss using 9/125μm single mode fibre.
• DTR-1000 available as either 16 Tx; 16 Rx; 12 Tx + 4 Rx; 12 Rx + 4 Tx; 8 Tx + 8 Rx; 8 Rx + 8 Tx; 8 Tx; 8 Rx;
4 Tx + 4 Rx; or 4 Rx + 4 Tx models.
• Secondary DC supply inputs for power supply redundancy.
• Web Browser monitoring and control.
NOTE 1 Rated at 21dB path loss, though typically > 24dB at 3G & > 26dB at HD and SD. Fitted with APD detectors.
DTR-1000
I.R.T. Communications Pty Ltd | www.irtcommunications.com
Page 6 of 28 Revision 00
Block Diagrams:
Ethernet
(1000/100/10)
Ethernet
(1000/100/10)
BLOCK DIAGRAM DTR-1000/16Tx+E | DTR-1000/16Rx+E SIGNAL PATH
(16 Tx)
3G-SDI
HD-SDI
SD-SDI
ASI Fibre Link
5-21dB*
(typically >24dB at 3G &
>26dB at HD and SD)
DTR-1000
/16Tx+E
IN 1
IN 2
IN 16
Fibre O/P
Ethernet
DTR-1000
/16Rx+E
OUT 1
OUT 2
OUT 16
Fibre I/P
Ethernet
(16 Rx)
3G-SDI
HD-SDI
SD-SDI
ASI
NOTE: * When fitted with APD detectors (standard).
0 to 12dB (typically >15dB at 3G & >17dB at HD and SD) when fitted with
PIN detectors (optional).
Web Server Web Server
BLOCK DIAGRAM DTR-1000/12Tx+4Rx+E | DTR-1000/12Rx+4Tx+E SIGNAL PATH
NOTE: * When fitted with APD detectors (standard).
0 to 12dB (typically >15dB at 3G & >17dB at HD and SD) when
fitted with PIN detectors (optional).
Fibre Link
5-21dB*
(typically >24dB at 3G &
>26dB at HD and SD)
DTR-1000
/12Tx+4Rx+E
IN 1
IN 2
IN 12
Fibre I/O
OUT 1
OUT 2
OUT 3
OUT 4
Ethernet
DTR-1000
/12Rx+4Tx+E
OUT 1
OUT 2
OUT 12
Fibre I/O
IN 1
IN 2
IN 3
IN 4
Ethernet
Web Server Web Server
Ethernet
(1000/100/10)
Ethernet
(1000/100/10)
(12 Tx)
3G-SDI
HD-SDI
SD-SDI
ASI
(4 Rx)
(12 Rx)
3G-SDI
HD-SDI
SD-SDI
ASI
(4 Tx)
DTR-1000
I.R.T. Communications Pty Ltd | www.irtcommunications.com
Page 7 of 28 Revision 00
BLOCK DIAGRAM DTR-1000/8Tx+E | DTR-1000/8Rx+E SIGNAL PATH
Ethernet
(1000/100/10)
Ethernet
(1000/100/10)
(8 Tx)
3G-SDI
HD-SDI
SD-SDI
ASI Fibre Link
5-23dB*
(typically >26dB at 3G &
>28dB at HD and SD)
DTR-1000
/8Tx+E
IN 1
IN 2
IN 8
Fibre O/P
Ethernet
DTR-1000
/8Rx+E
OUT 1
OUT 2
OUT 8
Fibre I/P
Ethernet
(8 Rx)
3G-SDI
HD-SDI
SD-SDI
ASI
NOTE: * When fitted with APD detectors (standard).
0 to 14dB (typically >17dB at 3G & >19dB at HD and SD) when
fitted with PIN detectors (optional).
Web Server Web Server
Ethernet
(1000/100/10)
Ethernet
(1000/100/10)
BLOCK DIAGRAM DTR-1000/8Tx+8Rx+E | DTR-1000/8Rx+8Tx+E SIGNAL PATH
(8 Tx)
3G-SDI
HD-SDI
SD-SDI
ASI
(8 Rx)
Fibre Link
5-21dB*
(typically >24dB at 3G &
>26dB at HD and SD)
DTR-1000
/8Tx+8Rx+E
IN 1
IN 2
IN 8
Fibre I/O
OUT 1
OUT 2
OUT 8
Ethernet
DTR-1000
/8Rx+8Tx+E
OUT 1
OUT 2
OUT 8
Fibre I/O
IN 1
IN 2
IN 8
Ethernet
(8 Rx)
3G-SDI
HD-SDI
SD-SDI
ASI
(8 Tx)
NOTE: * When fitted with APD detectors (standard).
0 to 12dB (typically >15dB at 3G & >17dB at HD and SD) when fitted
with PIN detectors (optional).
Web Server Web Server
DTR-1000
I.R.T. Communications Pty Ltd | www.irtcommunications.com
Page 8 of 28 Revision 00
Ethernet
(1000/100/10)
Ethernet
(1000/100/10)
BLOCK DIAGRAM DTR-1000/4Tx+4Rx+E | DTR-1000/4Rx+4Tx+E SIGNAL PATH
Fibre Link
5-23dB*
(typically >26dB at 3G &
>28dB at HD and SD)
DTR-1000
/4Tx+4Rx+E
IN 1
IN 2
IN 3
IN 4
Fibre I/O
OUT 1
OUT 2
OUT 3
OUT 4
Ethernet
DTR-1000
/4Rx+4Tx+E
OUT 1
OUT 2
OUT 3
OUT 4
Fibre I/O
IN 1
IN 2
IN 3
IN 4
Ethernet
NOTE: * When fitted with APD detectors (standard).
0 to 14dB (typically >17dB at 3G & >19dB at HD and SD) when
fitted with PIN detectors (optional).
Web Server Web Server
(4 Tx)
3G-SDI
HD-SDI
SD-SDI
ASI
(4 Rx)
(4 Rx)
3G-SDI
HD-SDI
SD-SDI
ASI
(4 Tx)
DTR-1000
I.R.T. Communications Pty Ltd | www.irtcommunications.com
Page 9 of 28 Revision 00
TECHNICAL SPECIFICATIONS
Transmitter Mode:
Input Serial Data Signal 2.97 Gb/s (3G-SDI) to SMPTE 424M;
1.485 Gb/s (HD-SDI) to SMPTE 292M;
270 Mb/s (SD-SDI) to SMPTE 259M-C and DVB-ASI.
Input Impedance 75 Ω.
Input Return Loss > 15 dB 5 MHz to 1.5 GHz;
> 10 dB 1.5 GHz to 2.97 GHz.
Automatic Cable Compensation > 100 m at 2.97 Gb/s (3G-SDI) with Belden 1694A (typ. 110m);
> 140 m at 1.485 Gb/s (HD-SDI) with Belden 1694A (typ. 160m);
> 250 m at 270 Mb/s (SD-SDI/ASI) with Belden 8281 (typ. >300m).
Input Connector Up to 16 x BNC on rear panel, 1 per channel, dependent upon model chosen.
Receiver Mode:
Number of Outputs 1 per channel, data reclocked, AC coupled.
Output Level 800 mV ± 10%.
Output Impedance 75 Ω.
Output Return Loss > 15 dB 5 MHz to 1.5 GHz;
> 10 dB 1.5 GHz to 2.97 GHz.
Output Rise and Fall Time < 135 ps at 2.97 Gb/s and 1.485 Gb/s;
> 0.4 ns and < 1.5 ns at 270 Mb/s.
Intrinsic Jitter < 0.3 UI at 2.97 Gb/s reclocked;
< 0.2 UI at 1.485 Gb/s reclocked;
< 0.1 UI at 270 Mb/s reclocked.
Output Connector Up to 16 x BNC on rear panel, 1 per channel, dependent upon model chosen.
Ethernet:
Type Standard IEEE 802.3i, 802.3y & 802.3ab
Data Rate 10/100/1000 Mb/s, automatic.
Maximum Frame Size 10,240 bytes.
Connector RJ-45.
Optical:
Optical Output 0 dBm +4.5/-0 dB individual CWDM DFB lasers.
Optical Input (APD Standard) -5 to -21 dBm, typically < -24 dBm at 3G-SDI & < -26 dBm at HD/SD-SDI + Ethernet;
(PIN Optional) 0 to -12 dBm, typically < -15 dBm at 3G-SDI & < -17 dBm at HD/SD-SDI+ Ethernet.
Wavelengths 18 x CWDM DFB lasers – 1270nm to 1610nm, 20nm spacing.
Optical Path Loss2,3
5 to 21 dB, typically > 24 dB at 3G-SDI & > 26 dB at HD/SD-SDI, APD detectors;
0 to 12 dB, typically > 15 dB at 3G-SDI & > 17 dB at HD/SD-SDI, PIN detectors.
Optical Fibre Designed for use with 9/125 μm single mode fibre.
Optical Connector 1 x SC/PC (standard) on rear.
Power Requirements:
Voltage 90 – 264 Vac and/or + 12 Vdc.
Power Consumption < 40 VA.
Other:
Temperature Range 0 - 50° C ambient.
Mechanical 1 RU (482 mm x 44.5 mm) standard 19” rack frame; suitable for mounting in
standard 19" racks.
Dimensions 482 x 44.5 x 310 mm.
Ordering DTR-1000/16Tx+E DTR-1000 configured as a 16-channel transmitter only + Ethernet.
DTR-1000/16Rx+E DTR-1000 configured as a 16-channel receiver only + Ethernet.
DTR-1000/12Tx+4Rx+E DTR-1000 configured as a 12-channel transmitter/4-channel receiver + Ethernet.
DTR-1000/12Rx+4Tx+E DTR-1000 configured as a 12-channel receiver/4-channel transmitter + Ethernet.
DTR-1000/8Tx+8Rx+E DTR-1000 configured as a 8-channel transmitter/8-channel receiver + Ethernet.
DTR-1000/8Rx+8Tx+E DTR-1000 configured as a 8-channel receiver/8-channel transmitter + Ethernet.
DTR-1000/8Tx+E DTR-1000 configured as a 8-channel transmitter only + Ethernet.
DTR-1000/8Rx+E DTR-1000 configured as a 8-channel receiver only + Ethernet
DTR-1000/4Tx+4Rx+E DTR-1000 configured as a 4-channel transmitter/4-channel receiver + Ethernet.
DTR-1000/4Rx+4Tx+E DTR-1000 configured as a 4-channel receiver/4-channel transmitter + Ethernet.
NOTE: 2 Optical attenuator supplied for when optical path loss is less 5dB for APD detector.
3 Add 2dB to optical path loss for 8Tx+E, 8Rx+E, 4Tx+4Rx+E and 4Rx+4Tx+E models.
Due to our policy of continuing development, these specifications are subject to change without notice.
DTR-1000
I.R.T. Communications Pty Ltd | www.irtcommunications.com
Page 10 of 28 Revision 00
INSTALLATION
Pre-installation:
Handling:
This equipment contains static sensitive devices and proper static free handling precautions should be observed.
Do not remove the lid. Dangerous mains voltage may exist inside and service should only be done by qualified
service personnel.
Where individual circuit cards are stored, they should be placed in antistatic bags. Proper antistatic procedures
should be followed when inserting or removing cards from these bags.
Power:
AC mains supply: AC mains input (PSU 1) is via an IEC mains connector on the rear of the assembly. AC input is
limited between 90Vac and 264Vac, thus the unit is suitable for all country’s standard mains
levels without the need for switching between levels. A 1 amp slow blow fuse is fitted in the
IEC connector in line with the active mains voltage.
DC supply: DC supply input is via two DC locking jacks (PSU 2 & PSU 3) suitable for external +12Vdc power
packs (50W minimum rating) fitted with a 2.1mm inner diameter/5.5mm outer diameter
connector plug with a locking thread lock. The locking thread keeps the DC plug securely in
place, but is not a necessity for operation.
Any of the three power inlets may be used independently, or together for power supply redundancy.
NOTE: There is no ON/OFF switch. The DTR-1000 will power on as soon as an external power source is applied.
Earthing:
The frame is earthed via the AC mains input signal earth being connected to the chassis. Where a mains earth is
not present, signal earth is also connected directly to the chassis.
Rear Panel – Power/Ethernet Decal Connections:
The model number is printed on the back of the unit, along with the unit’s serial number, on the Power/Ethernet
decal, as shown below. For this example, this decal unit’s model number is DTR-1000/12Tx+4Rx+E. Apart from the
model number, this Power/Ethernet decal is common to all models of DTR-1000.
Input Power: Input power is via either an IEC power connector (PSU 1) plugged into a 90Vac to 264Vac source, so is suitable for
all world standards of mains AC power; or via two DC locking jacks (PSU 2 & PSU 3) suitable for external +12Vdc
power packs (50W minimum rating) fitted with a 2.1mm inner diameter/5.5mm outer diameter DC connector plug
with a locking thread lock. The locking thread keeps the DC plug securely in place, but is not a necessity for
operation. Any of the three power inlets may be used independently, or together for power supply redundancy.
Control:
The Control connector is an RJ-45 connector for CAT-5 twisted pair Ethernet cable. It operates at 10Mbps
(10base-T) and is suitable for Ethernet (10Base-T), Fast Ethernet (100Base-T) and Gigabit (1000Base-T) Ethernet
systems. It is called a Control port but really it is a Monitoring port. Channel Aliases are, however, set via this port.
The actual control is via a web-based Ethernet browser addressed to the IP address of the unit. The web based
browser window will be discussed in Operation section of this manual.
DTR-1000
I.R.T. Communications Pty Ltd | www.irtcommunications.com
Page 11 of 28 Revision 00
Alarm:
Two opto-coupled alarm outputs, via a 4 pole Phoenix style screw terminal block on the rear panel, switches to
open circuit on alarm conditions.
Alarm 1: Pins 1 & 2 form the Receiver alarm. A Receiver alarm is activated when there is a total
optical input loss to the unit, or if all receiver output channels have been disabled.
Alarm 2: Pins 3 & 4 form the Transmitter alarm. A Transmitter alarm is activated when a laser
module has failed, or if all transmitter input channels have been disabled.
Note that if a unit is a Transmit only or Receive only model, the opposite alarm pins are not active.
Ethernet:
The Ethernet port is an RJ-45 connector for CAT-5 twisted pair Ethernet cable. It is suitable for Ethernet (10Base-T),
Fast Ethernet (100Base-T) and Gigabit (1000Base-T) Ethernet systems. This Ethernet port is optically converted for
optical transmission and reception between a mating pair of DTR-1000 units.
The DTR-1000 conforms to the IEEE 802.3i, 802.3y and 802.3ab standards for Ethernet over CAT-5 cable, and the
IEEE 802.3z (1000 Base-X) standard for Gigabit Ethernet over optical fibre.
The Ethernet port has automatic MDI/MDI-X detection, this detects whether the Ethernet interconnect cable is a
straight through or cross over type and automatically switches itself to accommodate, and will automatically select
the link speed of the connected network (10/100/1000 Mb/s).
The Ethernet port is also able to support Jumbo frames, which are Ethernet frames with more than 1500 bytes of
payload data, up to a maximum frame size of 10,240 bytes.
Optical:
The standard optical connector is an SC/PC type. This is a single optically muxed/de-muxed fibre connector sharing
up to 16 optical transmit/receive digital video signals + bi-directional Ethernet traffic depending on the model of
DTR-1000 unit. As such, optical laser outputs are multiplexed together. Avoid direct exposure to the eyes. A dust
cap is included for when unit is not connected to an optical fibre.
WARNING: Class 3B laser device. Never look directly into the optical connector at the back of the
DTR-1000. Optically multiplexed laser output levels are greater than individual laser outputs and can
potentially cause damage to the eyes.
1 2
DTR-1000
I.R.T. Communications Pty Ltd | www.irtcommunications.com
Page 12 of 28 Revision 00
Rear Panel - Signal Connections:
The DTR-1000 is designed to be operated as a pair, though in reality they will also work into other devices that use
either an internal or external CWDM optical MUX/DeMux, at the correct wavelengths, such as IRT’s single or
multi-channel Eurocard and openGear® cards.
3G/HD/SD-SDI or ASI signal connections are made via BNC connectors on the rear of the unit. Transmitter inputs
are marked as IN 1 to IN 16 and receiver outputs as OUT 1 to OUT 16, the exact number of inputs and outputs is
dependent on the DTR-1000 model number. Input rates are independent of each other and do not have to be all
the same. They may be 3G-SDI, HD-SDI, SD-SDI or ASI types of signals. What is transmitted on one channel of one
unit is reclocked and received on the corresponding output of the reciprocal unit. Only high quality 75Ω coaxial
cable suitable for the desired signal data rate should be used for error free results.
With the signal channels set to reclocker bypass mode, other data rates can also be sent/received, though the
DTR-1000 will not be able to determine what those rates may be and will report a signal unknown condition.
The DTR-1000/16Tx+E and DTR-1000/16Rx+E models are designed to operate together as a pair. They form a
16-channel, single direction, fibre link with bi-directional Ethernet.
DTR-1000/16Tx+E Rear Panel Signal Connectors:
DTR-1000/16Rx+E Rear Panel Signal Connectors:
IN 1
IN 2
IN 3
IN 16
Ethernet
OUT 1
OUT 2
OUT 3
OUT 16
Ethernet
DTR-1000/16Tx+E DTR-1000/16Rx+E 16 Tx 16 Rx
DTR-1000
I.R.T. Communications Pty Ltd | www.irtcommunications.com
Page 13 of 28 Revision 00
The DTR-1000/12Tx+4Rx+E and DTR-1000/12Rx+4Tx+E models are designed to operate together as a pair. They
form a 12-channel forward, 4-channel reverse fibre link with bi-directional Ethernet.
DTR-1000/12Tx+4Rx+E Rear Panel Signal Connectors:
DTR-1000/12Rx+4Tx+E Rear Panel Signal Connectors:
The DTR-1000/8Tx+8Rx+E and DTR-1000/8Rx+8Tx+E models are designed to operate together as a pair. They form
an 8-channel forward, 8-channel reverse fibre link with bi-directional Ethernet.
DTR-1000/8Tx+8Rx+E Rear Panel Signal Connectors:
DTR-1000/8Rx+8Tx+E Rear Panel Signal Connectors:
IN 1
IN 2
IN 3
IN 12
OUT 1
OUT 2
OUT 3
OUT 4
Ethernet
OUT 1
OUT 2
OUT 3
OUT 12
IN 1
IN 2
IN 3
IN 4
Ethernet
DTR-1000/12Tx+4Rx+E DTR-1000/12Rx+4Tx+E
4 Rx 4 Tx
12 Tx 12 Rx
IN 1
IN 2
IN 3
IN 8
OUT 1
OUT 2
OUT 3
OUT 8
Ethernet
OUT 1
OUT 2
OUT 3
OUT 8
IN 1
IN 2
IN 3
IN 8
Ethernet
DTR-1000/8Tx+8Rx+E DTR-1000/8Rx+8Tx+E
8 Tx
8 Rx
8 Rx
8 Tx
DTR-1000
I.R.T. Communications Pty Ltd | www.irtcommunications.com
Page 14 of 28 Revision 00
The DTR-1000/8Tx+E and DTR-1000/8Rx+E models are designed to operate together as a pair. They form an
8-channel, single direction, fibre link with bi-directional Ethernet.
DTR-1000/8Tx+E Rear Panel Signal Connectors:
DTR-1000/8Rx+E Rear Panel Signal Connectors:
The DTR-1000/4Tx+4Rx+E and DTR-1000/4Rx+TRx+E models are designed to operate together as a pair. They form
a 4-channel forward, 4-channel reverse fibre link with bi-directional Ethernet.
DTR-1000/4Tx+4Rx+E Rear Panel Signal Connectors:
DTR-1000/4Rx+4Tx+E Rear Panel Signal Connectors:
IN 1
IN 2
IN 3
IN 8
Ethernet
OUT 1
OUT 2
OUT 3
OUT 8
Ethernet
DTR-1000/8Tx+E DTR-1000/8Rx+E 8 Tx 8 Rx
IN 1
IN 2
IN 3
IN 4
OUT 1
OUT 2
OUT 3
OUT 4
Ethernet
OUT 1
OUT 2
OUT 3
OUT 4
IN 1
IN 2
IN 3
IN 8
Ethernet
DTR-1000/4Tx+4Rx+E DTR-1000/4Rx+4Tx+E
4 Tx
4 Rx
4 Rx
4 Tx
DTR-1000
I.R.T. Communications Pty Ltd | www.irtcommunications.com
Page 15 of 28 Revision 00
OPERATION
The DTR-1000 operation is essentially the same for all models of units, so a generic description will be given, with
differences explained where required.
Front Panel Display:
When the DTR-1000 is first turned on, the front panel displays the name of the manufacturer
(IRT Communications), the model number of the device (in this example, DTR-1000/16Tx+E), the unit’s set IP
address (in this example, 192.168.0.100) and the version number of the installed firmware (in this example, V1.3)
as per the window below, hereby designated as Window 1:
After about 5 or 6 seconds the display changes to the signal display screen (Window 2) where signal inputs are
designated as Transmitter (T) numbers and signal outputs are designated as Receiver (R) numbers. Transmitter
input and Receiver output channel numbers are labelled 1 to 16, the exact number of each is dependent on the
model number of the DTR-1000. Pressing and holding the front panel pushbutton switch designated by the
symbol, whilst in the Window 2 display, will again display Window 1 for as long as the pushbutton is held.
Each input/output channel data rate is represented by the following code:
3 = 3G-SDI;
H = HD-SDI;
S = SD-SDI/ASI;
x = Channel Disabled;
? = Unknown data rate signal present (in Non-Reclock mode);
- = No signal detected;
! = Laser Fail;
* = Optical Loss (Receiver channel input is below its input threshold, or
corresponding transmitter channel has been disabled).
Window 2:
DTR-1000/16Tx+E signal display screen example:
T = Transmitter inputs. In this example, IN 1 to IN 3 = 3G-SDI data rate; IN 4 to IN 11 = HG-SDI data rate; and
IN 12 to IN 16 = SD-SDI (or ASI) data rate.
DTR-1000/16Rx+E signal display screen example:
R = Receiver outputs. In this example, OUT 1 to OUT 3 = 3G-SDI data rate; OUT 4 to OUT 11 = HG-SDI data
rate; and OUT 12 to OUT 16 = SD-SDI (or ASI) data rate.
I RT Communi ca t i ons DTR-1000/ 16Tx+E I P Add r ess 192 . 168. 0 . 100 V1 . 3
T 1 : 3 2 : 3 3 : 3 4 : H 5 : H 6 : H 7 : H 8 : H 9 : H 10 : H 11 : H 12 : S 13: S 14 : S 15 : S 16 : S
R 1 : 3 2 : 3 3 : 3 4 : H 5 : H 6 : H 7 : H 8 : H 9 : H 10 : H 11 : H 12 : S 13: S 14 : S 15 : S 16 : S
DTR-1000
I.R.T. Communications Pty Ltd | www.irtcommunications.com
Page 16 of 28 Revision 00
Other Window 2 examples:
DTR-1000/12Tx+4Rx+E signal display screen example:
DTR-1000/12Rx+4Tx+E signal display screen example:
DTR-1000/8Tx+8Rx+E signal display screen example:
DTR-1000/8Rx+8Tx+E signal display screen example:
DTR-1000/8Tx+E signal display screen example:
DTR-1000/8Rx+E signal display screen example:
DTR-1000/4Tx+4Rx+E signal display screen example:
DTR-1000/4Rx+4Tx+E signal display screen example:
T 1 : 3 2 : 3 3 : 3 4 : H 5 : H 6 : H 7 : H 8 : H 9 : H 10 : H 11 : H 12 : S R1: S R2 : S R3: S R4 : S
R 1 : 3 2 : 3 3 : 3 4 : H 5 : H 6 : H 7 : H 8 : H 9 : H 10 : H 11 : H 12 : S T1: S T2 : S T3 : S T4 : S
T 1 : 3 2 : 3 3 : H 4 : H 5 : H 6 : H 7 : S 8 : S R 1 : H 2 : H 3 : H 4 : H 5 : S 6 : S 7 : S 8 : S
R 1 : 3 2 : 3 3 : H 4 : H 5 : H 6 : H 7 : S 8 : S T 1 : H 2 : H 3 : H 4 : H 5 : S 6 : S 7 : S 8 : S
T 1 : 3 2 : 3 3 : H 4 : H 5 : H 6 : H 7 : S 8 : S
R 1 : 3 2 : 3 3 : H 4 : H 5 : H 6 : H 7 : S 8 : S
T 1 : 3 2 : 3 3 : H 4 : H R 1 : H 2 : H 3 : H 4 : H
R 1 : 3 2 : 3 3 : H 4 : H T 1 : H 2 : H 3 : H 4 : H
DTR-1000
I.R.T. Communications Pty Ltd | www.irtcommunications.com
Page 17 of 28 Revision 00
Alarm Indication:
If an alarm condition occurs, for the Transmitter, the front panel Window 2 ‘T’ will flash, and, for the Receiver, the
front panel Window 2 ‘R’ will flash:
Front panel Transmitter ‘T’ alarm is activated (flashing ‘T’) when any laser fail occurs; or all channels
have been disabled.
Front panel Receiver ‘R’ alarm is activated (flashing ‘R’) when any detector registers an optical low
condition; all detectors register an optical loss condition; or all channels have been disabled.
Front Panel Pushbuttons:
Six front panel pushbutton switches allow navigation between the various front panel display windows and control
of the settable parameters within the windows. As shown in the diagram above, a five segment unmarked switch
allows UP, DOWN, LEFT, RIGHT movement and ENTER function. A separate circular switch designated with the
symbol acts as ESCAPE (or GO BACK) function.
LEFT RIGHT
UP
DOWN
ENTER ESCAPE
(GO BACK)
T
R
DTR-1000
I.R.T. Communications Pty Ltd | www.irtcommunications.com
Page 18 of 28 Revision 00
Front Panel Window Navigation:
Window navigation is via the front panel pushbuttons mentioned above. In order to describe the navigation
pictorially, the below diagram references Windows 1 to 7, and their sub-windows. These are shown and described
separately.
Window 1
Welcome Screen
Window 2
Signal Display
Window 3*
Tx Settings ENTER
Window 3a1*
Tx01 Status
Window 3b1*
Tx01 Settings
ESCAPE
ENTER
Window 3c1*
Tx01 Setup Select
Window 3a16*†
Tx16 Status
Window 3b16*†
Tx16 Settings
ESCAPE
ENTER
Window 3c16*†
Tx16 Setup Select
Window 4*
Rx Settings ENTER
ESCAPE
Window 4a1*
Rx01 Status
Window 4b1*
Rx01 Settings
ESCAPE
ENTER
Window 4c1*†
Rx01 Setup Select
Window 4a8*†
Rx08 Status
Window 5
Ethernet Control
Window 4b8*†
Rx08 Settings
Window 4c8*†
Rx08 Setup Select
ENTER
ESCAPE
ESCAPE
ESCAPE
Select ENTER
Select ENTER
Select ENTER
ESCAPE
Select ENTER
ESCAPE
ESCAPE
ENTER
Window 5b1
MAC Address
ESCAPE
ESCAPE
ESCAPE Window 5c1
IP Address ENTER
ESCAPE
Select ENTER ESCAPE
Window 5d1
Subnet Mask ENTER
ESCAPE
Select ENTER ESCAPE
Window 5e1
Default Gateway ENTER
ESCAPE
Select ENTER
Window 5a
Ethernet Status
ENTER
LEFT
LEFT
LEFT
LEFT
RIGHT
RIGHT
RIGHT
RIGHT
UP
DOWN
UP
DOWN
UP
DOWN
UP
UP
UP
UP
DOWN
DOWN
DOWN
DOWN
UP
DOWN
UP
DOWN
Press ESCAPE & hold
ENTER
ENTER
ENTER
ENTER
ENTER
ESCAPE
ESCAPE
ESCAPE
ESCAPE
ESCAPE UP
Window 6
Reset Device
Window 7
Factory Reset
DOWN
UP
DOWN
Window 6a
Are You Sure?
Window 7b
Resetting…
Window 7a
Are You Sure? ENTER
ESCAPE
ENTER
ESCAPE
ENTER
ENTER
ESCAPE
ESCAPE
Window 5c2
IP Setup
Window 5d2
Subnet Setup
Window 5e2
Gateway Setup
Window 6b
Resetting…
DTR-1000
I.R.T. Communications Pty Ltd | www.irtcommunications.com
Page 19 of 28 Revision 00
Front Panel Windows:
Window 1: Welcome Screen. Previously described under Front Panel Display section. In this example the model
number is DTR-1000/8Tx+8Rx+E. The Welcome Screen will display whatever model the DTR-1000 has been
configured for.
Window 2: Signal Display Screen. Previously described under Front Panel Display section. In this example the
model number is DTR-1000/8Tx+8Rx+E.
Window 3: * Transmitter Settings window. Upper menu level before entering the Transmitter Input settings
menus. In this example the Transmitter Settings window appears before the Receiver Settings window. This is
because in this example the Transmitter Inputs are displayed on the top row of Window 2 and the Receiver
Outputs are displayed on the bottom row of Window 2. This occurs for all model numbers where the Tx appears
before the Rx in the model name, namely DTR-1000/16Tx+E, DTR-1000/12Tx+4Rx+E, DTR-1000/8Tx+8Rx+E,
DTR-1000/8Tx+E and DTR-1000/4Tx+4Rx+E. Where the model number has the Rx before the Tx in the model
number, window 3 would be the Receiver Settings window instead. Where there is no Tx in the model name,
namely DTR-1000/16Rx+E and DTR-1000/8Rx+E, the Transmitter Settings window and its subset status and settings
windows are not displayed.
Window 3a: *† Transmitter Status window. Displays Transmitter Input number (Tx01, in this example); the set
channel alias, which is a 15 bit name set via the web-browser (TransmitAlias01, in this example); the optical
wavelength of the channel laser (1610nm, in this example); the channel input signal type (3G Signal, in this
example); and the channel reclocker rate (3G/HD/SD Only, in this example). The number of Transmitter Status
windows match the number of Transmitter Inputs, as determined by the model number. In this example, the
Transmitter Status windows appear before the Receiver Status windows. See explanation in Window 3 description
why this is so.
Window 3b: *† Transmitter Settings window. This is similar to the Transmitter Status window with the filled in
squares showing the set data rate.
I RT Communi ca t i ons DTR-1000/ 8Rx+8Tx+E I P Add r ess 192 . 168. 0 . 100 V1 . 3
T 1 : 3 2 : 3 3 : H 4 : H 5 : H 6 : H 7 : S 8 : S R 1 : H 2 : H 3 : H 4 : H 5 : S 6 : S 7 : S 8 : S
Tr ansmi t t e r Se t t i n s
g
Tx01- T r ansmi t A l i as01 Opt i ca l - 1 6 10nm 3G S i na l 3G/ HD / SD On l g y
Tx01- T r ansmi t A l i as01 Opt i ca l - 1 6 10nm 3G HD SD NonRecl oc ked D i sab l e
DTR-1000
I.R.T. Communications Pty Ltd | www.irtcommunications.com
Page 20 of 28 Revision 00
Window 3c: Transmitter Setup Select window. When Window 3b is displayed and the ENTER pushbutton is
pressed, the display turns into Window 3c. The highlighted square flashes and the LEFT/RIGHT pushbuttons move
the flashing square to the desired input rate, in this case 3G. Pressing the ENTER pushbutton again locks in the
selected rate and the window returns to Window 3b. In the 3G mode the input will accept 3G, HD and SD rates
(including ASI). If the HD mode is selected then the input will accept HD and SD (& ASI) rates only. 3G rate will be
blocked and not transmitted. The Non-Reclocked setting bypasses the input reclocker allowing rates other than
those of 3G, HD or SD to pass. The Disable setting disables the channel completely and no signal is transmitted on
the channel. Pressing the ESCAPE (GO BACK) pushbutton returns the window back to Window 3b without making
any changes.
Window 4: * Receiver Settings window. Upper menu level before entering the Receiver Output settings menus. In
this example the Receiver Settings window appears after the Transmitter Settings window. This is because in this
example the Transmitter Inputs are displayed on the top row of Window 2 and the Receiver Outputs are displayed
on the bottom row of Window 2. This occurs for all model numbers where the Rx appears after the Tx in the model
name, namely DTR-1000/12Tx+4Rx+E, DTR-1000/8Tx+8Rx+E and DTR-1000/4Tx+4Rx+E. Where the model number
has the Rx before the Tx in the model number, Window 3 would be the Receiver Settings window instead, likewise
if there was no Tx in the name. Where there is no Rx in the model name, namely DTR-1000/16Tx+E and
DTR-1000/8Tx+E, the Receiver Settings window and its subset status and settings windows are not displayed.
Window 4a: *† Receiver Status window. Displays Receiver Output number (Rx01, in this example); the set channel
alias, which is a 15 bit name set via the web-browser (ReceiverAlias01, in this example); the optical detector type
and its status (APD and Good, in this example); the received channel output signal type (3G Signal, in this example);
and the channel reclocker rate (3G/HD/SD Only, in this example). The number of Receiver Status windows match
the number of Receiver Outputs, as determined by the model number. In this example, the Receiver Status
windows appear after the Transmitter Status windows. See explanation in Window 4 description why this is so.
Window 4b: *† Receiver Settings window. This is similar to the Receiver Status window with the filled in squares
showing the set data rate.
Rece i ve r Se t t i n s
g
Tx01- T r ansmi t A l i as01 Opt i ca l - 1 6 10nm 3G HD SD NonRecl oc ked D i sab l e
Rx01- Rece i ve r A l i as01 Opt i cal-APD-Good 3G S i na l 3G/ HD / SD On l g y
Rx01- Rece i ve r A l i as01 Opt i ca l - APD- Good 3G HD SD NonRecl oc ked D i sab l e
DTR-1000
I.R.T. Communications Pty Ltd | www.irtcommunications.com
Page 21 of 28 Revision 00
Window 4c: Receiver Setup Select window. When Window 4b is displayed and the ENTER pushbutton is pressed,
the display turns into Window 4c. The highlighted square flashes and the LEFT/RIGHT pushbuttons move the
flashing square to the desired input rate, in this case 3G. Pressing the ENTER pushbutton again locks in the selected
rate and the window returns to Window 4b. In the 3G mode the channel will output 3G, HD and SD rates (including
ASI). If the HD mode is selected then the channel will only output HD and SD (& ASI) rates. 3G rate will be blocked
and not received. The Non-Reclocked setting bypasses the output reclocker allowing rates other than those of 3G,
HD or SD to pass. The Disable setting disables the channel completely and no signal is received on the channel.
Pressing the ESCAPE (GO BACK) pushbutton returns the window back to Window 4b without making any changes.
Window 5: Ethernet Control Settings window. Upper menu level before entering the Ethernet settings menus.
Note that any changes made to the Ethernet settings will not take effect until the unit has had a system Reset.
Window 5a: Ethernet Status window. Shows the status of the Ethernet port – the rate of the Ethernet connection
(in this example 1Gb); the detector type and its received optical status; and its transmitter wavelength.
Window 5b1: MAC Address status window. This window displays the set MAC Address. The MAC Address is factory
set and is not settable here. If the Mac address does need to be changed, when the DTR-1000 is first turned on or
the DTR-1000 is doing a Reset routine, hold both the ENTER and LEFT pushbuttons at the same time to enter the
Mac Address setup screen, Window 5b2.
Window 5b2: Mac Address settings window.
WARNING: Use with caution. This should only be changed if it is deemed absolutely necessary and
should be set to its own unique Mac address. Otherwise leave at the original Mac address setting.
Note that a Factory Reset will not default back to the original Mac address if something goes wrong.
Keep the original Mac address on file if it needs to be entered back again.
To set the MAC address, move the flashing curser to the desired digit using the LEFT/RIGHT pushbuttons. The
UP/DOWN pushbuttons increment and decrement the digits. Once the Mac address has been changed, press the
ENTER pushbutton and the DTR-1000 will reset itself with the new Mac address saved.
Ethenet Cont r o l Set t i n s
g
Rx01- Rece i ve r A l i as01 Opt i ca l - APD- Good 3G HD SD NonRecl oc ked D i sab l e
Mac Address FF-FF-FF-FF-FF
Et he r ne t 1Gb Det e t o r - APD- Good Wavel en t h - 1410nm g
Mac Address FF-FF-FF-FF-FF
DTR-1000
I.R.T. Communications Pty Ltd | www.irtcommunications.com
Page 22 of 28 Revision 00
Window 5c1: IP Address status window. This window displays the set IP address of the unit. To change the IP
address press the ENTER pushbutton to open Window 5c2.
Window 5c2: IP Address settings window. To set the IP address, move the flashing curser to the desired digit using
the LEFT/RIGHT pushbuttons. The UP/DOWN pushbuttons increment and decrement the digits. The 3-digit number
segments are limited to 255. So, for example, if you wished to change the 192 shown below to 255 you cannot first
increase the 1 to a 2. First you will have to decrease the 9 to a 5, otherwise you’ll have 292 listed and the unit will
not allow you to do that. Once the IP address has been changed, press the ENTER pushbutton to return to the
Window 5c1 screen. Note that any changes made to the IP Address setting will not take effect until the unit has
had a system Reset.
Window 5d1: Subnet Mask status window. This window displays the set Subnet Mask of the unit. To change the
Subnet Mask press the ENTER pushbutton to open Window 5d2.
Window 5d2: Subnet Mask settings window. To set the Subnet Mask, move the flashing curser to the desired digit
using the LEFT/RIGHT pushbuttons. The UP/DOWN pushbuttons increment and decrement the digits. The 3-digit
number segments are limited to 255. Once the Subnet Mask has been changed, press the ENTER pushbutton to
return to the Window 5d1 screen. Note that any changes made to the Subnet Mask setting will not take effect until
the unit has had a system Reset.
I P Addr ess 192. 168 . 0 , 100
I P Addr ess 192. 168 . 000 , 100
Subnet Mask 255. 255 . 255 . 0
Subnet Mask 255. 255 . 255 . 000
DTR-1000
I.R.T. Communications Pty Ltd | www.irtcommunications.com
Page 23 of 28 Revision 00
Window 5e1: Default Gateway status window. This window displays the set Default Gateway of the unit. To change
the Default Gateway press the ENTER pushbutton to open Window 5e2.
Window 5e2: Default Gateway settings window. To set the Default Gateway, move the flashing curser to the
desired digit using the LEFT/RIGHT pushbuttons. The UP/DOWN pushbuttons increment and decrement the digits.
The 3-digit number segments are limited to 255. Once the Default Gateway has been changed, press the ENTER
pushbutton to return to the Window 5e1 screen. Note that any changes made to the Default Gateway setting will
not take effect until the unit has had a system Reset.
Window 6: Reset Device Window. It is necessary to reset the DTR-1000 whenever any of the Ethernet settings have
been changed, or it may be necessary to reset if something odd happens instead of powering down and up the
unit. To Reset the DTR-1000, press the ENTER pushbutton. You will be taken to Window 6a where you are asked to
confirm whether you wish to proceed.
Window 6a: Confirmation window. If you wish to proceed resetting the DTR-1000, press the ENTER pushbutton
and the unit will then reset and display Window 6b.
Window 6b: Resetting window. The DTR-1000 is in the process of resetting itself. After resetting the unit goes back
to Window 1.
De f au l t Gat ewa 192. 168 . 0 . 1
y
De f au l t Gat ewa 192. 168 . 000 . 001
y
Reset Dev i ce
A r e ou su r e ou want t o Reset ?
y y
Reset t i n . . .
g
DTR-1000
I.R.T. Communications Pty Ltd | www.irtcommunications.com
Page 24 of 28 Revision 00
Window 7: Factory Reset window. If you wish to discard all settings made and go back to the original configuration,
press the ENTER pushbutton here. You will be taken to Window 7a where you are asked to confirm whether you
wish to proceed.
Window 7a: Confirmation window. If you wish to proceed resetting the DTR-1000 to the factory defaults, press the
ENTER pushbutton and the unit will then reset and display Window 7b.
Window 7b: Resetting window. The DTR-1000 is in the process of resetting itself to the factory defaults. After
resetting the unit goes back to Window 1.
Fact o r Reset
y
Reset t i n . . .
g
A r e ou su r e ou want t o Reset ?
y y
DTR-1000
I.R.T. Communications Pty Ltd | www.irtcommunications.com
Page 25 of 28 Revision 00
Web-Browser Control:
With the DTR-1000 connected via the Control port to an Ethernet system, using a standard web-browser enter the
IP address of the DTR-1000 in the address bar to directly access and monitor the DTR-1000. Ensure that the
Ethernet system allows access on the same Gateway Address. The following screen is displayed:
The web-browser window acts as a remote status screen for the DTR-1000. The model number, software version,
IP Address and Mac Address of the DTR-1000 is displayed along with the Transmitter and Receiver channel and
connected Ethernet port signal information. From this window 15 bit frame and channel aliases can be set which
are saved to the DTR-1000 itself.
If the computer mouse is clicked on the blue text, I.R.T. Communications Pty Ltd, the web-browser is directed to
I.R.T. Communications’ web page, www.irtcommunications.com.
DTR-1000/8Tx+8Rx+E
Frame ID:
TransmitAlias01
TransmitAlias02
TransmitAlias03
TransmitAlias08
TransmitAlias04
TransmitAlias05
TransmitAlias06
TransmitAlias07
ReceiverAlias01
ReceiverAlias02
ReceiverAlias03
ReceiverAlias08
ReceiverAlias04
ReceiverAlias05
ReceiverAlias06
ReceiverAlias07
TRANSMITTER RECLOCKER MODE DETECTED INPUT CHANNEL ALIAS
RECEIVER RECLOCKER MODE DETECTED INPUT CHANNEL ALIAS
ETHERNET
DTR-1000/8Tx+8Rx+E Version 1.3
IP Address 192.168.1.100
Mac Address FF-FF-FF-FF-FF-FF
I.R.T. Communications Pty Ltd
More Information
Save
Save
Save
Save
Save
Save
Save
Save
Save
Save
Save
Save
Save
Save
Save
Save
Save @IRT
Input 1 3G/HD/SD Only 3G Signal
Input 2 3G/HD/SD Only 3G Signal
Input 3 3G/HD/SD Only 3G Signal
Input 4 3G/HD/SD Only 3G Signal
Input 5 3G/HD/SD Only 3G Signal
Input 6 3G/HD/SD Only 3G Signal
Input 7 3G/HD/SD Only 3G Signal
Input 8 3G/HD/SD Only 3G Signal
Output 1 3G/HD/SD Only 3G Signal
Output 2 3G/HD/SD Only 3G Signal
Output 3 3G/HD/SD Only 3G Signal
Output 4 3G/HD/SD Only 3G Signal
Output 5 3G/HD/SD Only 3G Signal
Output 6 3G/HD/SD Only 3G Signal
Output 7 3G/HD/SD Only 3G Signal
Output 8 3G/HD/SD Only 3G Signal
Cable 1Gbs Optical Good
DTR-1000
I.R.T. Communications Pty Ltd | www.irtcommunications.com
Page 26 of 28 Revision 00
Clicking on “More Information” opens up a maintenance window that has some further information about the
channel wavelength, indicative power levels and laser/detector temperatures:
Temperature is measured in degrees Celsius.
The power levels are indicative levels as reported by the laser and detector modules. To convert these readings to
dBm measurements, apply the following formula:
dBm measurement = 10log(Power Reading/10000)
For example, based on the table above,
Channel_01 power reading = 14860.
10log(14860/10000) = 1.72dBm (Tx laser output power level);
Channel_09 power reading = 604.
10log(604/10000) = -12.2dBm (Rx detector input power level).
If the computer mouse is clicked on the blue text, Index, the web-browser is directed back to the main window.
Ethernet Rx 478 33 1390nm
Ethernet Tx 13503 33 1410nm
Channel_01 Tx 14860 43 1610nm
Channel_02 Tx 13111 43 1590nm
Channel_03 Tx 13713 43 1570nm
Channel_04 Tx 14889 43 1550nm
Channel_05 Tx 13430 47 1530nm
Channel_06 Tx 14776 47 1510nm
Channel_07 Tx 13640 46 1490nm
Channel_08 Tx 13550 46 1470nm
Channel_09 Rx 604 44 1450nm
Channel_10 Rx 403 44 1430nm
Channel_11 Rx 527 43 1370nm
Channel_12 Rx 383 43 1350nm
Channel_13 Rx 507 42 1330nm
Channel_14 Rx 529 42 1310nm
Channel_15 Rx 476 43 1290nm
Channel_16 Rx 588 43 1270nm
CHANNEL POWER TEMPERATURE WAVELENGTH
DTR-1000/8Tx+8Rx+E Version 1.3
IP Address 192.168.1.100
Mac Address FF-FF-FF-FF-FF-FF
Index
More Information
DTR-1000
I.R.T. Communications Pty Ltd | www.irtcommunications.com
Page 27 of 28 Revision 00
MAINTENANCE & STORAGE
Maintenance:
Ensure that front panel fan inlets are free from dust else fan operation may be impinged and damage to laser
and/or detector modules, or internal components, may occur due to excessive heat build up.
Care should be taken to ensure that all connectors are kept clean and free from contamination of any kind. This is
especially important in fibre optic equipment where cleanliness of optical connections is critical to performance.
When the optical connector is not in use, the supplied dust cap should be kept in place.
Storage:
If the equipment is not to be used for an extended period, it is recommended the whole unit be placed in a sealed
plastic bag to prevent dust contamination. In areas of high humidity a suitably sized bag of silica gel should be
included to deter corrosion.
Where individual circuit cards are stored, they should be placed in antistatic bags. Proper antistatic procedures
should be followed when inserting or removing cards from these bags.
DTR-1000
I.R.T. Communications Pty Ltd | www.irtcommunications.com
Page 28 of 28 Revision 00
WARRANTY & SERVICE
Equipment is covered by a limited warranty period of three years from date of first delivery unless contrary
conditions apply under a particular contract of supply. For situations when “No Fault Found” for repairs, a
minimum charge of 1 hour’s labour, at IRT’s current labour charge rate, will apply, whether the equipment is
within the warranty period or not.
Equipment warranty is limited to faults attributable to defects in original design or manufacture. Warranty on
components shall be extended by IRT only to the extent obtainable from the component supplier. Note that fans
are not covered by warranty in situations where dust ingress has been a cause of failure.
Equipment return: Before arranging service, ensure that the fault is in the unit to be serviced and not in associated equipment. If
possible, confirm this by substitution.
Before returning equipment contact should be made with IRT or your local agent to determine whether the
equipment can be serviced in the field or should be returned for repair.
The equipment should be properly packed for return observing antistatic procedures.
The following information should accompany the unit to be returned:
1. A fault report should be included indicating the nature of the fault
2. The operating conditions under which the fault initially occurred.
3. Any additional information, which may be of assistance in fault location and remedy.
4. A contact name and telephone and fax numbers.
5. Details of payment method for items not covered by warranty.
6. Full return address.
7. For situations when “No Fault Found” for repairs, a minimum charge of 1 hour’s labour will apply,
whether the equipment is within the warranty period or not. Contact IRT for current hourly rate.
Please note that all freight charges are the responsibility of the customer.
The equipment should be returned to the agent who originally supplied the equipment or, where this is not
possible, to IRT directly. Details of IRT’s direct address can be found at I.R.T. Communications’ website.
Web address: www.irtcommunications.com
Email: [email protected]