The 976nm PM Band-pass Filter is a micro optics device based on environmentally stable thin-film filter technology. It is used to block out unwanted noise signals in fiber amplifier or fiber laser systems. The components are characterized with high isolation, low insertion loss, high return loss, excellent environmental stability and high power handling capability. They are ideal for fiber amplifiers, fiber lasers, and high speed communication system and instrumentation applications.
The 976nm PM Band-pass Filter is a micro optics device based on environmentally stable thin-film filter technology. It is used to block out unwanted noise signals in fiber amplifier or fiber laser systems. The components are characterized with high isolation, low insertion loss, high return loss, excellent environmental stability and high power handling capability. They are ideal for fiber amplifiers, fiber lasers, and high speed communication system and instrumentation applications.
PARAMETER | UNIT | SPECIFICATION | |
Center Wavelength | nm | 976 | |
Max. Pass bandwidth@0.5dB | nm | 10 | |
Max. Stop bandwidth@25dB down | nm | 20 | |
Max. Insertion Loss of Pass Band | dB | 0.8 | |
Min. Extinction Ratio | Type B | dB | 20 |
Type F | dB | 22 | |
Min. Return Loss | dB | 50 | |
Fiber Type | – | PM980 fiber, or other | |
Max. Power Handling | W | 0.3, 1, 2, 3, 5, 10 | |
Max. Tensile Load | N | 5 | |
Operating Temperature | ℃ | -5 – 75 | |
Storage Temperature | ℃ | -40 – 85 | |
Dimensions | mm | Ф5.5×L35 |
①
|
②
|
③
|
④
|
⑤
|
⑥
|
⑦
|
⑧
|
Port
|
Wavelength
|
Pass bandwidth
|
Axis Alignment
|
Power Handling
|
Pigtails Diameter
|
Fiber Length
|
Connector
|
101:1×1(default)
102: 1×2(With reflect unwanted signals port)
|
976:976nm
|
10:10nm
|
B: Both axis working
F: Fast axis blocking
|
L:<0.3W
1:1W
2:2W
|
25:250μm bare fiber
90:900μm Loose Fiber
XX: Others
|
05:0.5m
08:0.8m
10:1.0m
XX: Others
|
00: None
FP: FC/PC
FA: FC/APC
LA: LC/APC
XX: Others
|
If you need to customize other specifications, please provide detailed description for your requirement.