Used in-stock Erbium Doped Fiber Amplifiers from Nortel, FiboTec, ILX, Newport and Highwave. Our equipment is always tested. Inquire when requesting a EDFA quote for our complete calibration with data and graph. PM, C+L, Raman In Stock
JDSU OAB1564 C+L band InLine amplifier.
1530-1560 and 1570-1600 wavelength range
Saturated output single channel is 14 dBm
Small Signal Gain 20 dB
Noise Figure 6.5 dB
FC PC connectors
The MPB 1RU-P Series consists of a family of power amplifiers, with up to 27 dBm of output power.
Installed right after the transmission equipment, it provides post amplification of the signal into the link.
We have...
The MPB 1RU-P Series consists of a family of power amplifiers, with up to 27 dBm of output power.
Installed right after the transmission equipment, it provides post amplification of the signal into the link.
We have...
The MPB 1RU-P Series consists of a family of power amplifiers, with up to 22 dBm of output power.
Installed right after the transmission equipment, it provides post amplification of the signal into the link.
We have...
The MPB 1RU-P Series consists of a family of power amplifiers, with up to 27 dBm of output power.
Installed right after the transmission equipment, it provides post amplification of the signal into the link.
We have...
JDS OAB1558-22FA0 DWDM booster Erbium dopped amplifier.
Range 1528 to 1563 nm.
Saturated output power 21 dBm.
Small signal gain 25 dB.
Spectral Gain flatness 1.4 dB.
Gain flattened model, FC/APC connector,...
The JDSU Oprel Benchtop OFA24D-12131S Erbium-Doped Fiber Amplifier (EDFA) amplifies optical signals across the EDFA window (1528 to 1565 nm). Through optimization of amplifier gain, noise figure, and...
The NE6000 is a high-performance optical amplifier designed for 1550 nm-based network applications EDFA. This 19” rack-mount module is ideal for long haul applications, fiber dense systems and transport...
The JDSU Oprel Benchtop OFA20D-1221M Erbium-Doped Fiber Amplifier (EDFA) amplifies optical signals across the EDFA window (1528 to 1610 nm). Through optimization of amplifier gain, noise figure, and saturated...