A Sun sensor is a navigational instrument used by spacecraft to detect the position of the Sun.[1][2] Sun sensors are used for attitude control, solar array pointing, gyro updating, and fail-safe recovery.[3][4]
In addition to spacecraft, Sun sensors find use in ground-based weather stations and Sun-tracking systems, and aerial vehicles including balloons and UAVs.[2]
Mechanism edit
There are various types of Sun sensors, which differ in their technology and performance characteristics. Sun presence sensors provide a binary output, indicating when the Sun is within the sensor's field of view. Analog and digital Sun sensors, in contrast, indicate the angle of the Sun by continuous and discrete signal outputs, respectively.[2]
In typical Sun sensors, a thin slit at the top of a rectangular chamber allows a line of light to fall on an array of photodetector cells at the bottom of the chamber. A voltage is induced in these cells, which is registered electronically. By orienting two sensors perpendicular to each other, the direction of the Sun can be fully determined.[2]
Often, multiple sensors will share processing electronics.[3]
Criteria edit
There are a number of design and performance criteria which dictate the selection of a Sun sensor model:
- Field of view
- Angular resolution
- Accuracy and stability
- Mass and volume
- Input voltage and power
- Output characteristics (including electrical characteristics, update frequency, nonlinearity, and encoding)
- Durability (including radiation hardening and tolerance to vibration and thermal cycling)
See also edit
References edit
- ^ "LIASS: LInear Accurate Sun Sensor" (PDF). Airbus Defense & Space. Retrieved 11 March 2016.
- ^ a b c d "What is a Sun Sensor?". AZO Sensors. 17 June 2013. Retrieved 11 March 2016.
- ^ a b "Digital Sun Sensors (DSS)". Adcole Corporation. Archived from the original on 25 April 2016. Retrieved 11 March 2016.
- ^ "High Accuracy Fine Sun Sensors". Adcole Corporation. Archived from the original on 25 April 2016. Retrieved 11 March 2016.