Detector control and data acquisition for the wide field infrared survey telescope (WFIRST) with a custom ASIC

Brian Smith, Markus Loose, Greg Alkire, Atul Joshi, Daniel Kelly, Eric Siskind, Dino Rossetti, Jonathan Mah, Edward Cheng, Laddawan Miko, Gerard Luppino, Harry Culver (+4 others)
2016 High Energy, Optical, and Infrared Detectors for Astronomy VII  
The Wide-Field Infrared Survey Telescope (WFIRST) will have the largest near-IR focal plane ever flown by NASA, a total of 18 4K x 4K devices. The project has adopted a system-level approach to detector control and data acquisition where 1) control and processing intelligence is pushed into components closer to the detector to maximize signal integrity, 2) functions are performed at the highest allowable temperatures, and 3) the electronics are designed to ensure that the intrinsic detector
more » ... e is the limiting factor for system performance. For WFIRST, the detector arrays operate at 90 to 100 K, the detector control and data acquisition functions are performed by a custom ASIC at 150 to 180 K, and the main data processing electronics are at the ambient temperature of the spacecraft, notionally ~300 K. The new ASIC is the main interface between the cryogenic detectors and the warm instrument electronics. Its single-chip design provides basic clocking for most types of hybrid detectors with CMOS ROICs. It includes a flexible but simple-toprogram sequencer, with the option of microprocessor control for more elaborate readout schemes that may be datadependent. All analog biases, digital clocks, and analog-to-digital conversion functions are incorporated and are connected to the nearby detectors with a short cable that can provide thermal isolation. The interface to the warm electronics is simple and robust through multiple LVDS channels. It also includes features that support parallel operation of multiple ASICs to control detectors that may have more capability or requirements than can be supported by a single chip.
doi:10.1117/12.2231060 fatcat:w5qglh2xjbcb3lnqxnutq2zwtm