Development of an ASIC for the readout of CZT/CdTe radiation detectors in space

The IDE 4281 is an application specific integrated circuit (ASIC) that has been designed for the readout of CdTe/CZT radiation detectors in space. The chip can be used for single photon spectroscopy of x-rays and γ -rays with energy between 3.5 keV and 140 keV and rate up to 100 kcps per chip. The chip contains 12 low-noise pre-amplifiers (110 e equivalent noise charge, ENC), each followed by a pulse shaper (6 programmable peaking times from 0.75 µs to 4 µs) and a level comparator for triggering. The amplifiers are optimized for negative polarity input charge up to −5 fC. When a charge from the detector exceeds one of the adjustable thresholds, the chip delivers a data packet containing the address of the triggering channel and it delivers an analog signal proportional to the energy deposited by the photon in the detector. The chip requires positive and negative voltage supplies (+1.5 V and −2 V) and one reference bias current to generate its internal bias currents. The total power is 19 mW in idle state and 25 mW maximum. The chip has a 113-bit shift register, programmable via a serial interface, which allows one to set various functions, to program digital-to-analogue converters (DACs), and to tune parameters. Each channel has an optional compensation for detector leakage currents. All amplifier inputs are protected by diodes against over-voltage and electrostatic discharge (ESD). The engineering model (EM) and flight model (FM) ASICs have been designed and manufactured. The article describes the results obtained with the EM ASIC and the design of the FM ASIC.