Design and Integration of an Adaptive Controller for a Fourier Transform Spectrometer
Abstract
This paper presents the design and integration of an adaptive controller for CIRIS (Compositional InfraRed Interferometric Spectrometer) on a stand-alone field programmable gate array (FPGA) architecture. CIRIS is a novel take on traditional Fourier Transform Spectrometers (FTS) and replaces linearly moving mirrors (characteristic of Michelson interferometers) with a constant-velocity rotating refractor to variably phase shift and alter the path length of incoming light. This design eliminates the need for periodically accelerating/decelerating mirrors inherent to canonical Michelson designs and allows for a compact and robust device, making it ideal for spaceborne measurements in the near-IR to thermal-IR band (2-12 μm) on planetary exploration missions. The instrument's embedded microcontroller is implemented on a VIRTEX-5 FPGA with the aim of sampling the instrument's detector and optical rotary encoder in order to construct an interferogram. Subsequent signal processing, including resampling, Fast Fourier Transform (FFT), filtering, and dispersion correction techniques are applied in real-time to compose the sample spectrum. The instrument's FPGA controller is demonstrated with the FTS to highlight its suitability for implementation in space systems.
Additional Information
© 2014 IEEE. The authors thank the California Institute of Technology Summer Undergraduate Research Fellowship (SURF) program and donors Charles and Valerie Elachi for their generous financial support and role in funding this project. The research described in this paper was carried out at the Jet Propulsion Laboratory, California Institute of Technology.Additional details
- Eprint ID
- 53252
- Resolver ID
- CaltechAUTHORS:20150107-081050517
- Caltech Summer Undergraduate Research Fellowship (SURF)
- Charles and Valerie Elachi
- Created
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2015-01-07Created from EPrint's datestamp field
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2021-11-10Created from EPrint's last_modified field