The ACADIA ASIC - detector control and digitization for the Wide-Field Infrared Survey Telescope (WFIRST)

摘要

NASA's Wide-Field Infrared Survey Telescope (WFIRST) project has developed the ACADIA ASIC, a next generation detector control and acquisition system-on-a-chip. The purpose of this ASIC is to address the stringent requirements of operating a cryogenic detector in a spacecraft environment. Key performance criteria are low analog noise and low power consumption at temperatures between 150K and I80K while supporting the full dynamic range of the sensor. The ASIC is primarily intended to operate the Teledyne H4RG for WFIRST, but has been designed with considerable flexibility to provide compatibility with a large selection of other detectors. Up to 40 analog sensor outputs can processed in parallel, where each signal is amplified and conditioned by a low-noise pre-amplifier with programmable gain and bandwidth, and then digitized by a 16-bit successive approximation analog-to-digital converter (ADC). The ASIC includes 24 analog output channels that can be configured as programmable voltage or current sources, and are used to generate biases and references to the detector. A simple-to-program sequencer provides timing control for the detector and the ASIC internal circuits, with the option of using an embedded microprocessor for more elaborate readout schemes. This paper presents an overview of the ACADIA ASIC design with detailed descriptions of its analog, mixed-signal, and digital circuit blocks. First prototypes of the ACADIA ASIC have been fabricated, and preliminary test results of functionality and performance have been measured. We discuss the test environment and the obtained results, and conclude by describing the next steps for the project.