The 2001-FC Silicon Fiber-Optic Receiver features low-noise detectors, variable-gain trans impedance amplifiers, and two adjustable filters. It offers a wavelength range of 300 to 1050 nm and FC/PC connector optical input. The DC÷30 setting prevents your signal from going off-scale due to DC amplitu..
The 2001-FC-M Silicon Fiber-Optic Receiver features low-noise detectors, variable-gain trans impedance amplifiers, and two adjustable filters. It offers a wavelength range of 300 to 1050 nm and FC/PC connector optical input. The DC÷30 setting prevents your signal from going off-scale due to DC ampli..
The 1801-FC-AC Silicon Fiber-Optic Receiver is a FC connectorized, 320 to 1000 nm photoreceiver offering a well-balanced combination of gain, bandwidth, and low noise over the 25 kHz to 125 MHz frequency range. Because of it's high transimpedance gain and low noise-equivalent power (NEP), it offers ..
The 1601FC-AC Silicon Fiber-Optic Receiver is used for experiments requiring up to 1 GHz bandwidths and 400 ps rise times. This FC/PC connectorized photoreceiver offers a well-balanced combination of gain, bandwidth, and very low noise. The Silicon detector wavelength range is 320 to 1000 nm. For mo..
The 2011-FC Fiber-Optic Receiver features a low-noise InGaAs detector, variable-gain trans impedance amplifiers, and two adjustable filters. It offers a wavelength range of 900 to 1700 nm and FC/PC connector optical input. The DC÷30 setting prevents your signal from going off-scale due to DC amplitu..
The 2011FC-M Fiber-Optic Receiver features a low-noise InGaAs detectors, variable-gain trans impedance amplifiers, and two adjustable filters. It offers a wavelength range of 900 to 1700 nm and FC/PC connector optical input. The DC÷30 setting prevents your signal from going off-scale due to DC ampli..
The 2032 Large Diameter Silicon Optical Receiver allows you to tweak your experiment without worrying about the beam wandering off the detector. Just position the 5.8 mm diameter, 190 to 1110 nm Silicon detector close to where you think the laser beam is and you'll see a signal. No more time-consumi..
The 2031 Extra-large Diameter Silicon Optical Receiver allows you to tweak your experiment without worrying about the beam wandering off the detector. Just position the 8 mm diameter, 400 to 1070 nm Silicon detector close to where you think the laser beam is and you'll see a signal. No more time-con..
The 2033 Large Diameter Germanium Optical Receiver allows you to tweak your experiment without worrying about the beam wandering off the detector. Just position the 5.0 mm diameter, 800 to 1750 nm Germanium detector close to where you think the laser beam is and you'll see a signal. No more time-con..
The 2007 Nirvana Auto-Balanced Optical Receiver can cut the effects of laser noise by 50 dB, making even very small signals easy to see. The 2007 has a 400 to 1070 nm wavelength range. In spectroscopy, ellipsometry, or heterodyne-detection experiments, these receivers can yield shot-noise-limited pe..
The 2017 Nirvana Auto-Balanced Optical Receiver can cut the effects of laser noise by 50 dB, making even very small signals easy to see. The 2017 has a 800-1700 nm wavelength range. In spectroscopy, ellipsometry, or heterodyne-detection experiments, these receivers can yield shot-noise-limited perfo..
The 1801-FS-AC Silicon Optical Receiver is a free space, 320 to 1000 nm AC coupled photoreceiver offering a well-balanced combination of gain, bandwidth, and low noise over the 25 kHz to 125 MHz frequency range. Because of it's high trans impedance gain and low noise-equivalent power (NEP), it offer..