Outstanding Performance
Advanced optical filters based of dielectric thin-film feature low loss, low PDL and low dispersion. Field proven, highly reliable optical filters have contributed to various applications.
Model No. | Features |
---|---|
MTF-1 | MEMS-based Tunable Filter |
OFM-15 | 2 port In-Line Optical Filter |
WDM-15 | 3 Port Add/ Drop Filter Module |
MDM-15-4/8 | Multi channel Mux/DeMux Filter Module |
CWDM-15 | 3 Port Add/ Drop CWDM Module |
Metro-X | CWDM Mux/ Demux Filter Module |
C-CWDM | Compact CWDM Mux/Demux Filter Module |
MTF-1
SANTEC's MTF is a single channel, world smallest Micro Electro Mechanical Systems (MEMS) tunable filter (TF) for 400G+ digital coherent transceivers. The MTFis a superior passive optical component used in CFP and CFP2 form factor transceivers to reduce optically amplified noise and to improve transmission quality. The MTF has achieved a record low-voltage specification of 12V; 5 times lower when compared with other 60V suppliers. In addition, the MTF does not need a specific high voltage IC to drive the component.
RoHS Compliant
Minimum Fiber Bending Radius of 5 mm
OFM-15
OFM-15 is a compact and reliable bandpass filter module. It uses our proven interference filter technology and quality manufacturing techniques.
WDM-15
WDM-15 is a compact and reliable bandpass filter module. It uses our proven interference filter technology and quality manufacturing techniques.
MDM-15-4/8
MDM-15 is a multi-channel WDM Multiplexer or Demultiplexer based on dielectric thin-film filter technology. The module is designed to add or drop 4/8 channels with ITU grid spacing of 100, 200 GHz.
CWDM-15
Especially designed for CWDM networks, CWDM-15 unit is optimized for wide-pass band and low loss to reduce costs and extend reach in Metro and Access equipment.
Metro-X
Metro-X is based on dielectric thin-film technology designed for integration in low cost Metro and Access networks.
C-CWDM
C-CWDM module has been specifically designed for low cost CWDM systems where both package size and insertion loss are critical.