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InAs photodiode

Indium arsenide InAs/InAsSb uncooled infrared photovoltaic detector 2-5.5um PVA series

The PVA series is a non cooled infrared photovoltaic detector based on InAs1 xSbx alloy. This device has a temperature stability of up to 300 ℃ and high mechanical durability, and is free of mercury and cadmium, meeting RoHS requirements

Product PN#	product name	Photosensitive area	response wavelength range	peak wavelength	Other parameters
PVA-3-0.1×0.1-TO39-NW-90	InAs Photovoltaic Detector Infrared Non Cooling Non Immersion 2.15-3.5um	0.1×0.1mm^2	2.15-3.5μm	2.95μm		Add Inquiry

Indium arsenide InAs infrared photovoltaic detector 3-3.35um (P10090 series/P7163)

InAs indium arsenide photovoltaic detectors, like PbS lead sulfide photoconductive detectors, have high sensitivity in the infrared region around 3 μ m, low noise, high speed, and high reliability. This series is a new InAs photovoltaic detector series that provides lower noise than our traditional products. Xiaoxiao Photon offers various types to choose from, including non cooled, thermoelectric cooled, and high-performance liquid nitrogen cooled.

Product PN#	product name	Spectral response	Peak wavelength λ p	Cut off wavelength λ c	Other parameters
P10090-01	Indium arsenide InAs photovoltaic detector 3.35um	3.35um	3.35μm	3.65μm		Add Inquiry

InAs/InAsSb optical immersion infrared uncooled photovoltaic detector 2.0-5.5um PVIA series

The PVIA series is a non cooled infrared photovoltaic detector based on InAs1 xSbx alloy, which enhances the performance of the detector through optical immersion. This device has a temperature stability of up to 300 ℃ and high mechanical durability, and is free of mercury and cadmium, meeting RoHS requirements.

Product PN#	product name	Optimal wavelength λ opt	photosensitive area	relative response intensity D * (λ peak)	Other parameters
PVIA-3-1×1-TO39-NW-36	Uncooled InAs Indium Arsenide Infrared Photovoltaic Detector 2.15-3.5um	2.15±0.2μm	1×1mm^2	2.95±0.3 cm·Hz1/2/W		Add Inquiry

Indium arsenide InAs/indium arsenide antimony InAsSb optical immersion infrared photovoltaic detector two-stage TE cooling 2.0-5um PVIA-2TE series

The PVIA-2TE series is a two-stage TE cooled infrared photovoltaic detector based on InAsSb alloy. This device has a temperature stability of up to 300 ℃ and high mechanical durability, and is free of mercury and cadmium, meeting RoHS requirements. Equipped with a 3 ° wedge-shaped sapphire (wAl2O3) window to prevent unnecessary interference.

Product PN#	product name	Spectral response	Photographic specifications	Other parameters
PVIA-2TE-3-1×1-TO8-wAl2O3-36	Indium Arsenide InAs Photoimmersion Infrared Photovoltaic Detector with Two Stage TE Cooling 2-5.5um	2.0-5.5um	1x1mm		Add Inquiry

InAs/InAsSb infrared photovoltaic detector with two-stage TE cooling 2.0-5.5um PVA-2TE series

The PVA-2T series is a two-stage TE cooled infrared photovoltaic detector based on InAs1-x Sbx alloy. This device has a temperature stability of up to 300 ℃ and high mechanical durability, and is free of mercury and cadmium, meeting RoHS requirements. Equipped with a 3 ° wedge-shaped sapphire (wAl2O3) window to prevent unnecessary interference.

Product PN#	product name	Spectral response	Photographic specifications	Other parameters
PVA-2TE-3-0.1×0.1-TO8-wAl2O3-70	InAs infrared photovoltaic detector two-stage TE cooling 2-5.5um	2.0-5.5um	0.1x0.1mm		Add Inquiry

InAs/InAsSb II type superlattice T2SL photoconductive (PC)/photovoltaic (PV) detector 1.6-15um

Type II superlattice two-stage thermoelectric cooled infrared photodetector with excellent parameters. 3 ° wedge-shaped sapphire window (wAl2O3) prevents unnecessary interference effects. Various MWIR and LWIR type II superlattice (T2SL) photoconductive (PC) and photovoltaic (PV) detectors under development can operate at room temperature or under thermoelectric cooling. These detectors can achieve excellent parameters without the need for low-temperature cooling (LN2). They do not contain mercury or cadmium and comply with the RoHS directive. Superlattice materials are multilayer films formed by alternating growth of two different components in thin layers ranging from several nanometers to tens of nanometers, maintaining strict periodicity. In fact, they are specific forms of layered fine composite materials. Superlattice materials are classified into excellent, second, and third types of superlattices based on the type of heterojunction that forms them. Superlattices can be divided into the following types: 1. Constituent superlattices, 2. Doped superlattices, 3. Multidimensional superlattices, and 4. Strain superlattices

Product PN#	product name	Response wavelength range	photosensitive area
T2SL-PCAS-2TE-11-0.1X0.1	Type II superlattice two-stage thermoelectric cooled infrared photodetector 1.6-12um	1.6-12μm	0.1X0.1mm	Add Inquiry
T2SL-PCAS-2TE-13-0.1X0.1	Type II superlattice two-stage thermoelectric cooled infrared photodetector 1.6-15um	1.6-15um	0.1X0.1mm	Add Inquiry
T2SL-PCAS-2TE-9-0.1X0.1	Type II superlattice two-stage thermoelectric cooled infrared photodetector 1.6-11um TO8	1.6-11um	0.1X0.1mm	Add Inquiry
T2SL-PCAS-2TE-9-1X1AR	Type II superlattice two-stage thermoelectric cooled infrared photodetector 2-11um	1.6-11um	1X1mm	Add Inquiry
T2SL-PCAS-3TE-12-0.1X0.1	II type superlattice three-level thermoelectric cooled infrared photodetector 1.6-10.5um	1.6-10.5um	0.1X0.1mm	Add Inquiry
T2SL-PCAS-3TE-9-0.1X0.1	II type superlattice three-level thermoelectric cooled infrared photodetector 1.6-10.5um	1.6-10.5um	0.1X0.1mm	Add Inquiry
T2SL-PVAS-2TE-5-0.1X0.1	InAs/InAsSb T2SL photovoltaic detector two-stage TE cooling 1.7-5.8um	1.7-5.8μm	0.1X0.1mm	Add Inquiry
T2SL-PVAS-5-0.1X0.1	InAs/InAsSb T2SL Photovoltaic Detector Uncooled 1.6-6.2um	1.6-6.2μm	0.1X0.1mm	Add Inquiry