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HgCdTe (MCT) Photovoltaic DetectorPV-4TE-8

3.3 – 9.0 µm, four-stage thermoelectrically cooled

PV-4TE-8 is four-stage thermoelectrically cooled IR photovoltaic detector based on sophisticated HgCdTe heterostructure for the best performance and stability. The device is optimized for the maximum performance at λopt = 8.0 μm. Cut‑on wavelength can be optimized upon request. Reverse bias Vb may significantly increase response speed and dynamic range. It also results in improved performance at high frequencies, but 1/f noise that appears in biased devices may reduce performance at low frequencies. 3° wedged zinc selenide anti-reflection coated (wZnSeAR) window prevents unwanted interference effects.

Features

High performance in the 3.3 – 9.0 µm spectral range

Four-stage thermoelectrically cooled

No bias required

No 1/f noise

Specification (Ta = 20°C, Vb = 0 mV)

Parameter
PV-4TE-8
Active element material
epitaxial HgCdTe heterostructure
Optimum wavelength λopt, µm
8.0
Detectivity D*(λpeak), cm⋅Hz1/2/W
≥5.0×108
Detectivity D*(λopt), cm⋅Hz1/2/W
≥4.0×108
Current responsivity Riopt), A/W
≥1.5
Time constant τ, ns
≤45
Resistance-active area product R⋅A, Ω⋅cm2
≥0.0006
Active element temperature Tdet, K
~195
Active area A, mm×mm
0.05×0.05, 0.1×0.1
Package
TO8, TO66
Acceptance angle, Φ
~70°
Window
wZnSeAR

Spectral response (Ta = 20°C, Vb = 0 mV)

PV-4TE-8-1

Mechanical layout, mm

4TE-TO8-non-imm-7

4TE-TO8 package

4TE-TO66-non-imm-7

4TE-TO66 package

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