A Low-Cost Photodiode Sun Sensor for CubeSat and Planetary Microrover

Abstract: This paper presents the development of low-cost methodologies to determine the attitude of a small, CubeSat-class satellite and a microrover relative to the sun's direction. The use of commercial hardware and simple embedded designs has become an effective path for university programs to put experimental payloads in space for minimal cost, and the development of sensors for attitude and heading determination is often a critical part. The development of two compact and efficient but simple coarse sun sensor met… Show more

“…The results of the accuracy analysis of the Design 1 (see Table 2 ) are summarized in Table 5 and highlights the performance of the proposed single-slit DSS design. The 8-bit simulation resulted in a RMSE of 4.7 arcsec, which outperforms linear array based sensors outlined in [ 17 , 18 , 19 , 20 , 21 , 22 ] and several commercially available sun sensors mentioned in Section 2.4 .…”

Improved Accuracy of a Single-Slit Digital Sun Sensor Design for CubeSat Application Using Sub-Pixel Interpolation

“…The results of the accuracy analysis of the Design 1 (see Table 2 ) are summarized in Table 5 and highlights the performance of the proposed single-slit DSS design. The 8-bit simulation resulted in a RMSE of 4.7 arcsec, which outperforms linear array based sensors outlined in [ 17 , 18 , 19 , 20 , 21 , 22 ] and several commercially available sun sensors mentioned in Section 2.4 .…”

Improved Accuracy of a Single-Slit Digital Sun Sensor Design for CubeSat Application Using Sub-Pixel Interpolation

Attitude determination and control system relying on magnetic bearing reaction wheels

Development of a low-cost sun sensor for nanosatellites