At the time of the ESA Call for ``Proposals for ISO instruments", there was no array available in Europe for the long wavelength channel. A specific development was undertaken at the Laboratoire d'imagerie Infrarouge du CEA-LETI in Grenoble. It is a 32 x 32 Gallium doped Silicon photoconductor array hybridized by Indium bumps to a direct voltage readout circuit. The pixel pitch is 100 m and the detectors are 500 m thick. A 25 V bias voltage is applied to the photoconductor, providing the optimum trade off between responsivity and stabilization overhead. With this bias voltage, the responsivity at 15 m is 10 V/W, which corresponds to a photogain quantum efficiency product of g1. In first approximation, at shorter wavelength, the responsivity (in Volt/Watt) decreases as , and there is a long wavelength cut-off at 18 m.
To obtain a 100% filling factor, the front surface is doped to ensure a good electrical surface conductivity and the bias voltage is applied to an Aluminium frame on the side of the optical sensitive area. An external guard, 3 pixels wide, has been added around the 32 x 32 sensitive pixel frame to prevent field line distortion in the detectors at the edges. The optical crosstalk is very low, and remains below 1.5 %, even for the 12 arcesc PFOV which has the fastest lens of the camera (numerical aperture f/1).