Abstract
A programmable low-power, low-noise readout circuit for Cadmium Zinc Telluride (CdZnTe or CZT) detectors is presented. CdZnTe detectors encompass a wide range of applications such as medical imaging and astrophysics. The front-end comprises a charge-sensitive amplifier (CSA), a programmable reset network with dark current compensation capability, a fifth-order semi-Gaussian filter with pole-zero cancellation, a comparator, and serial interface to communicate with external microcontroller. Utilizing the programmablity of the reset- network, the CSA can provide 256 different discharge time- constants, ranging from 60n to 600μ seconds, making the readout suitable for a wide range of event-rates. The application-specific integrated circuit (ASIC) is designed and simulated in a 0.35- μm 3.3V C35 CMOS process of Austria Micro-Systems. The ASIC has a power consumption of less than 2 mW per channel and the CSA only consumes 260 μW stable with a feedback capacitance of 60 f F which contributes to a conversion gain of 135 mV/fC. Equivalent Noise Charge (ENC) is 98 erms @ 0 pF detector capacitance.
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