The market is evolving at a significant pace. With customers requiring that new solutions and systems combine various technologies, HUBER+SUHNER has positioned itself to be able to provide our customers with end-to-end-solutions.
The RF-over-Fiber Series enables the use of Radio Frequency and Fiber Optics in a single system. With these two technologies forming a part of HUBER+SUHNER’s core technology offering, we are using our vast experience and expertise to deliver best-in-class conversion modules.
Key benefits of combining Radio Frequency and Fiber Optics in a single solution:
- No changes required to existing RF infrastructure
- Secure and light-weight
- Covers greater distances (>100 km) with less loss
- Wide frequency ranges available
- Flexible connectivity options
- Reduced total cost of ownership and future-proof
The standard RF-over-Fiber (RFoF) modules are available in 6 and 12 ports. The 12 port module comes in a 1HE 19” chassis. All standard modules are designed for single mode connectivity. The standard products within the RF-over-Fiber product range offers broad frequency ranges that look to cover a number of applications in the market.RFoF6 – 5 GHz RFoF12 – 5 GHz |
The standard GPS-over-Fiber (GPSoF) modules are available as a single port transmitter with a choice of single or 4 port receiver modules and make use of the L1 Band. Other bands (such as L2) are available upon request. With a frequency range of more than 1.5 GHz, GPS-over-Fiber products are very well suited to a number of antenna remoting, signal distribution and other high-tech applications in challenging environments such as mines, subways, special-purpose vehicles and offshoring infrastructures.GPSoF1 – 1.5 GHz |
The standard LAN-over-Fiber (LANoF) modules are available in 6 and 12 ports. The 12 port module comes in a 2HE 19” chassis. The standard products are designed for multimode connectivity. The LAN-over-Fiber product range employs 1000 Base-SX, making all modules appropriate for Gigabit networks.LANoF6 – 1 Gbps LANoF12 – 1 Gbps |