OSS - Optical Selective System
Product Overview
The OSS is the Optical Selective System developed by HYD Technology, ensuring communication safety and routing. It can adopt the channel selective receiving module to route the transmitting optical channel at the end of the transmitting line.
Hence, this optical channel is transmitted either with the standby or working channels. It also provides real-time monitoring of optical fibers that are active as well as on standby, and they can even help avoid the chances of blocking routing in the optical fiber.
- This module can support optical selective routing protection in single and multi-mode.
- It also offers a protection function on the optical path with 2:1.
- It offers working modes in two forms, either manual or automated.
- It can support the function of carrying out the maintenance of power down the optical path.
- Provides a power monitoring range in the optical fiber between the range of -50dBm to +25dBm.
- It has a concise switching time of the optical path protection.
- It allows the use of remote control as well as local support and offers SNMP and other network management methods.
- If any enquiry ,please contact HYD TECHNOLOGY .
System Parameter | Technical Index | |
Wavelength range | 1310±50nm and 1550±50nm | |
Monitoring optical power range | +25dBm~-50dBm | |
Insertion loss | OSS protection | ≤ 1.5dB |
Optical power measurement accuracy | ≤0.5dB(+20dBm~-50dBm) ≤1.0dB(-40dBm~-50dBm) | |
Optical power resolution | ≤0.01dB | |
Wavelength dependent loss | ≤0.25dB | |
Polarization dependent loss | ≤0.1dB | |
Switching time | ≤20ms | |
Return loss | ≥45dB | |
Crosstalk | ≥55dB | |
Dimensions (mm) | 177(W)*20(H)*225(D) | |
Working temperature | -10℃~70℃ | |
Storage temperature | -40℃~80℃ | |
Relative humidity | 5%~95% no condensation | |
Safety and EMC | Compliance with FCC, UL, CE, TUV, CSA standards | |
Power consumption | <5W | |
Applications:
HYD Technology offers this 1000 series optical line protection which solves multiple problems due to the damage caused by the fiber transmission. These damages may comprise the interruption of line, power failure in equipment, and board failure; hence the stability of the network is impacted. It also helps resolve problems like self-efficiency in the fiber network and line maintenance.
