OBD 1410
12G SDI Fiber Optic Bidirectional Transceiver Kit
The OBD 1410 is a kit of two modules which utilities two bidirectional Fiber Optic SDI transceivers over a single fiber link to transport bidirectional SDI video up to 12G. This is a convenient and cost effective solution to combat the restrictions involved with the distribution of uncompressed broadcast quality video signals over long distances.
The OBD 1410 modules are supplied in pairs, one Type A and one Type B which work together in a WDM closed loop application. Each module has an electrical SDI in and SDI out connection and uses a single fiber link between the two.
Each channel is fully independent and can have different standards and formats of SDI video. The modules auto-detect and re-clock any 270Mbit / 1.5Gbit / 3Gbit / 6Gbit / 12Gbit SDI source prior to conversion. The modules are fully compatible with 3Gbit Level A and Level B formats.
Note. This system used WDM optical multiplexing and should only be used in point to point applications. This solution cannot be integrated into a CWDM multiplexed system.
Key Features
- Supports SDI video up to 12Gbit/s (2160p60)
- 3Gbit Level A and Level B support (all formats)
- Auto re-clocking 240Mbit / 1.5Gbit / 3Gbit / 6Gbit / 12Gbit
- Bidirectional – send and receive on single fiber
- Error free optical connections
- Up to 10km* (6.2 miles*) @ 12Gbit/s
- Simplex LC/PC singlemode fiber connection
- Supports hot swapping and hot plugging
*Distance is an approximation. Actual distances achieved can be longer or shorter depending on the type of cable. Determine link losses and perform optical budget calculations to ensure correct operation
Ordering Information
| UPC / EAN | Model | Description |
|---|---|---|
| 4250479327450 | OBD 1410 | SDI Bidirectional Transceiver SMF (LC Connector) |
| Options | ||
| 4250479329024 | RFR 1200 | 1RU 19″ Chassis for 14 yellobriks |
| 4250479315013 | RFR 1001 | Single Module Mounting Bracket |
| 4250479314016 | P-TAP 1000 | P-TAP Battery Power Adapter Cable |
| 4250479314009 | XLR-1000 | 4 Pin XLR Battery Power Adapter Cable |
| 4250479323278 | LC/FC SIM | Simplex LC/FC Fiber Adapter |
| 4250479318250 | LC/SC SIM | Simplex LC/SC Fiber Adapter |
| 4250479318151 | LC/ST SIM | Simplex LC/ST Fiber Adapter |
SDI Video I/O:
- 1x SDI input on 75 Ohm BNC connector
- 1x SDI output on 75 Ohm BNC connector
- SMPTE 2082-1, SMPTE 2081-1, SMPTE 424M, SMPTE 292M, SMPTE 259M
- RGB 4:4:4
- YCbCr 4:4:4/4:2:2/4:2:0
- 8, 10, 12-bit
- Multi-standard operation from 270Mbit/s to 12Gbit/s/s
- Multi-rate reclocking: 270Mbit/s / 1.5Gbit/s / 3Gbit/s / 6Gbit/s / 12Gbit/s
- Transparent: Transports entire SDI payload including all embedded audio and any ancillary / metadata.
Electrical Return Loss:
- 5GHz: >15dB
- 3GHz: >10dB
- 6GHz: >7dB
- 12GHz: >4dB
Automatic cable EQ: (Belden 1694A cable)
- 270Mbit/s = 250m (Belden 1694A cable)
- 5Gbit/s = 190m (Belden 1694A cable)
- 3Gbit/s = 140m (Belden 1694A cable)
- 6Gbit/s = 90m (Belden 4794R cable)
- 12Gbit/s = 80m (Belden 4794R cable)
Optical I/O:
1 x fiber optic bidirectional connection
- Simplex LC/PC (Singlemode)
- SMPTE 297M – 2006
Optical TX Wavelength: (WDM)
- OTR 1410 A = 1270nm (Singlemode)
- OTR 1410 B = 1330nm (Singlemode)
Optical TX power:
- OTR 1410 A -3dBm to +3dBm (Singlemode)
- OTR 1410 B -3dBm to +3dBm (Singlemode)
- TX active LED on side of module
Optical RX Sensitivity
- OTR 1410 A -10dBm (Singlemode)
- OTR 1410 B -10dBm (Singlemode)
- RX active LED on side of module
Optical RX Wavelength (WDM)
- OTR 1810 A = 1330nm (Singlemode)
- OTR 1810 B = 1270nm (Singlemode)
Max. distance*
- 10km* (6.2 miles*) @ 12Gbit/s (Singlemode)
Power (each module)
- +12V DC @ 1.9W nominal – (supports 7 – 24V DC input range)
- Power Present LED on side of module
Physical Size: (including connectors)
- Metric:140mm x 42mm x 22mm
- Inches: 5.51” x 1.65” x 0.86”
Weight: (each module)
- 125g (4.4oz)
Operational Temperature Range:
- Ambient 5 – 40ºC (41 – 104ºF) 90% Humidity (non-condensing)
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*Distance is an approximation. Actual distances achieved can be longer or shorter depending on the type of cable. Determine link losses and perform optical budget calculations to ensure correct operation
