Hisense LTF2302-BC+ Compatible 10G BiDi SFP+, Tx1270/Rx1330
Hisense Broadband compatible LTF2302-BC+ - Key Features
- Compatibility: Hisense Broadband
- Media Type: Single-Mode Fiber (SMF)
- Fiber Count: BiDi
- Connector: Single LC/UPC
- Maximum Distance: 20 km
- Average Link Budget: 9 dB
- Tx Wavelength: 1270 nm
- Supported Data Rate: 1.25 Gbps - 11.32 Gbps
- DDM/DOM: Supported
- Temperature Range: Standard 0°-70°C
Hisense Broadband LTF2302-BC+ Price
In Stock - Ships Next Business DayHisense Broadband compatible LTF2302-BC+ Specifications
Form Factor | SFP+ |
Media Type | Single-Mode Fiber (SMF) |
Fiber Count | BiDi |
Connector | Single LC/UPC |
Maximum Distance | 20 km |
Average Link Budget | 9 dB |
TX Wavelength | 1270 nm |
RX Wavelength | 1330 nm |
Supported Data Rate | 1.25 Gbps - 11.32 Gbps |
Supported Ethernet Applications | 10G Ethernet (10.31Gbps), Gigabit Ethernet (1.25 Gbps) |
Supported Fiber Channel Applications | 10G Fiber Channel (10.52 Gbps), 1G Fiber Channel (1.0625 Gbps), 2G Fiber Channel (2.125 Gbps), 4G Fiber Channel (4.25 Gbps), 8G Fiber Channel (8.5 Gbps) |
SDH/SONET Standards | STM-64 (9.95Gbps) |
DDM/DOM | Supported |
Tx Wavelength Bandwidth | 40 nm (1250-1290 nm) |
Rx Wavelength Bandwidth | 40 nm (1310-1350 nm) |
Minimum Transmitting Power | -5 dBm |
Maximum Transmitting Power | 0 dBm |
Receiver Sensitivity | -14.5 dBm |
Receiver Overload | 4 dBm |
Dispersion | 140-160 ps/nm |
Transmitter Type | DFB Laser |
Receiver Type | PIN photodiode |
Temperature Range | Standard 0°-70°C |
Power | +3.3V single power supply |
Compliance | CE,Class 1 FDA and IEC60825-1 Laser Safety Compliant,RoHS,SFF-8431,SFP MSA |
Hisense Broadband compatible LTF2302-BC+ Datasheet
v5Complete technical specifications and product details
Hisense Broadband compatible LTF2302-BC+ Description
EdgeOptic's LTF2302-BC+ compatible is a Hisense Broadband-coded Tx1270/Rx1330 version of the EdgeOptic BIDI-10G-SFP-20A multi-vendor 10G BiDi SFP+ transceiver. It carries Hisense Broadband-recognized identification data, so host equipment programmed for the LTF2302-BC+ reads it as a matching module. This is the A-side of a bidirectional pair: it transmits at 1270 nm and receives at 1330 nm over a single strand of single-mode fiber.
Bidirectional operation carries transmit and receive on a single strand of single-mode fiber, where a conventional duplex 10G link needs two strands, so a BiDi pair halves fiber-strand consumption on the span. That makes the module a practical fit for metro, campus, and inter-building links where spare fiber is limited. The EdgeOptic compatible reaches 20 km over single-mode fiber with a 9 dB link budget covering connector and splice loss across the span. It must pair at the far end with a Tx1330/Rx1270 B-side module, such as the LTF3202-BC+ compatible. The module uses a single LC/UPC connector.
The optical interface uses a DFB laser transmitter and a PIN photodiode receiver. Transmit power runs from −5 dBm to 0 dBm, receiver sensitivity is better than −14.5 dBm, and the receiver tolerates input up to +4 dBm before overload. The module runs on a single +3.3 V supply across a 0 to 70 C operating range and supports digital optical monitoring, so host equipment can read live temperature, supply voltage, laser bias, and optical power. Build and safety compliance follows the SFP MSA and SFF-8431, with Class 1 laser rating per IEC 60825-1.
The LTF2302-BC+ compatible handles 10 Gigabit Ethernet and Gigabit Ethernet traffic on SFF-8431 MSA-compliant 10G SFP+ host equipment. To confirm the part for a specific switch or router, contact our sales team with the host model.
Backed by 15+ years of EdgeOptic compatibility engineering across vendor optical platforms, the LTF2302-BC+ compatible ships next business day from EU stock with a lifetime warranty.
Frequently Asked Questions
Which Hisense module pairs with the LTF2302-BC+ at the other end of the link?
The LTF2302-BC+ is the A-side module: it transmits at 1270 nm and receives at 1330 nm. It pairs with a Tx1330/Rx1270 B-side module at the opposite fiber end, the LTF3202-BC+. A single-fiber BiDi link needs one of each so the transmit wavelength on each module matches the receive wavelength at the far end. Two A-side modules will not pass traffic.