The AFBR-1529Z is a multi-link fiber optic analog transmitter manufactured by Avago with a variety of performance characteristics and application scenarios. The following is a detailed description of AFBR-1529Z:
1. Light source: The transmitter uses 650nm LED light source, which has a long life and stable output characteristics, and can provide continuous and reliable light signal.
2. Fiber interface: The AFBR-1529Z supports interoperation with the FTBR-2529Z receiver, which means that it can be paired with a specific fiber for high-speed, long-distance fiber communication.
3. Data transmission rate: The transmitter's data transmission rate is DC-10 Mbps, which means that it is able to handle high-speed data streams, which is suitable for scenarios that require high-speed data transmission.
4. Drive current: The transmitter is characterized by low drive current, which helps to reduce energy consumption and extend the service life of the device.
5. Transmission distance: The minimum transmission distance of the transmitter is 50 meters, which means that under standard conditions, it can cover a large range, suitable for long-distance communication needs.
6. Operating temperature range: The transmitter's operating temperature range is -40 ° C to 85 ° C, which indicates that it can work under harsh environmental conditions and has high stability and reliability.
7. Application areas: The transmitter is suitable for a variety of fields, including factory automation, local area networks, audio/video applications/game applications, industrial networks and fieldbuses, and high voltage isolation. These areas require high-speed, reliable fiber optic communication links, and the AFBR-1529Z can meet these needs.
Overall, the AFBR-1529Z is an excellent and versatile fiber optic transmitter module that provides a reliable solution for high-speed, long-distance fiber optic communications. For more information about AFBR-1529Z, it is recommended to consult Anwar High-tech technical support or consult relevant technical materials.