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  • The 1100nm-1650nm Coaxial Pigtail PIN Photodiode employs a small, coaxial package and InGaAs detector chip. It features a very low power consumption, a small dark current, low return loss, good flexibility, great linearity, compact design, small volume, high reliability, and long service life. This product series is most often used in CATV receivers, in optical signal receivers in analog systems, and power detectors.

  • The 976nm 600mW PM FBG Stabilized pigtailed butterfly Pump laser diode are designed as pump sources for erbium doped fiber amplifier (EDFA) applications. Processes and techniques of coupling the fiber to the laser allow high output powers that are very stable with both time and temperature. The grating is located in the pigtail to stabilize the wavelength. Devices are available with kink free output powers to 600mW. The 976nm 600mW PM FBG Stabilized pigtailed butterfly Pump laser diode series pump module utilises a Fiber Bragg Grating design for enhanced wavelength and power stability performance. This product has been designed to ensure superior wavelength locking over drive current, temperature and optical feedback changes.

  • As the professional manufacture, we would like to provide you 974nm 976nm Pump Laser Module. And we will offer you the best after-sale service and timely delivery.

  • Welcome to buy 1530-1566nm Single Channel EDFA Booster Amplifier Module from us. Every request from customers is being replied within 24 hours.

  • High Power 976nm 600mW SM FBG Stabilized Pump Laser For EDFA provides a noise-free narrowband spectrum, even under changes in temperature, drive current, and optical feedback.

  • BoxOptronics provide 1310nm 1mW superluminescent diodes SLD mini package, This SLD is built into a 6-pin small package with an integrated thermoelectric cooler (TEC) and thermistor to ensure output stability. The output is coupled into an SM or PM fiber. SLDs are applied in situations where a smooth and broadband optical spectrum (i.e. low temporal coherence), combined with high spatial coherence and relatively high intensity, is required.