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Solar MEMS designs and develops products for Spacecrafts
We are proud of having the smallest, most accurate sun sensor in the space market.
Additionally, SMT designs, develops and manufactures other attitude sensors for satellites based on our long experience.
Our technology is manufactured with the highest quality standards to withstand space environment and fully compliant to ESA standards.
Space Qualified Sun Sensor
Attitude Determination, Space-Qualified Sensors for Nano-Satellite
NanoSSOC-A60
Nano Sun Sensor on a Chip (nanoSSOC) is a two-axes and low cost sun sensor for high accurate sun-tracking, pointing and attitude determination. The device measures the incident angle of sun ray in two orthogonal axes, providing a high sensitivity based on the geometrical dimensions of the design. NanoSSOC sun sensor is based on MEMS fabrication processes to achieve high integrated sensing structures. nanoSSOC-A60 has tiny size, low weight and low power consumption to be the perfect ADCS solution for nanosatellite platforms like Cubesats.
NanoSSOC-D60
Nano Sun Sensor on a Chip (nanoSSOC) is a two-axis low cost sun sensor for high accurate sun-tracking and attitude determination. This device measures the incident angle of a sun ray in both azimuth and elevation, providing an accurate angle reading. nanoSSOC-D60 includes a microcontroller that directly provides the sun light incident angles and other information useful for attitude determination, via UART, I2C or SPI protocol. NanoSSOC-D60 has minimum size, weight and power consumption to be the perfect ADCS solution for nano-satellite platforms like Cubesats. Download brochureNanoSSOC sun sensor is based on MEMS fabrication processes to achieve high integrated sensing structures. nanoSSOC-A60 has tiny size, low weight and low power consumption to be the perfect ADCS solution for nanosatellite platforms like Cubesats.
SSOC-A60
Sun Sensor on a Chip (SSoC), is based on MEMS fabrication processes to achieve highly integrated sensing structures for high accurate sun-tracking, positioning systems and attitude determination. SSOC-A60 device measures the incident angle of a sun ray in two axes. The high sensitivity is based on geometrical dimensions of the design. The use of a metal shield and a cover glass in the optical eye minimizes the ageing of the device under high radiation levels.NanoSSOC sun sensor is based on MEMS fabrication processes to achieve high integrated sensing structures. nanoSSOC-A60 has tiny size, low weight and low power consumption to be the perfect ADCS solution for nanosatellite platforms like Cubesats.
SSOC-D60
Sun Sensor on a Chip (SSOC), is based on MEMS fabrication processes to achieve highly integrated sensing structures for high accurate sun-tracking, positioning systems and attitude determination. SSOC-D60 device measures the incident angle of a sun ray in both axis. It includes a microprocessor that directly provides the sun light incident angles and their derivatives without external calculations, via digital interface. The use of a metal shield and a cover glass minimizes the ageing of the device under high radiation levels.NanoSSOC sun sensor is based on MEMS fabrication processes to achieve high integrated sensing structures. nanoSSOC-A60 has tiny size, low weight and low power consumption to be the perfect ADCS solution for nanosatellite platforms like Cubesats.
Space Qualified Horizon Sensor
Horizon Sensor
Horizon Sensor for Nano and Micro Satellites (HSNS) of Solar MEMS is a Quad Thermopile sensor for Earth detection and Nadir vector determination. This device measures the infrared radiation from Space and from Earth with 4 IR eyes, providing accurate and reliable detection and attitude determination. HSNS is based on previous experience of Solar MEMS making attitude sensors and long research projects on IR sensing devices. Every HSNS is tailored for each customer, and it includes a microcontroller for fast assembly and integration with different options like UART or I2C protocols.NanoSSOC sun sensor is based on MEMS fabrication processes to achieve high integrated sensing structures. nanoSSOC-A60 has tiny size, low weight and low power consumption to be the perfect ADCS solution for nanosatellite platforms like Cubesats.
Products For Solar Tracking Systems
ISSDX SUN SENSOR / Digital sensor
Two accuracy axes. Field of view from 10º to 120º (depending on the model). Accuracy from 0.005º to 0.06º (depending on the model). Position error (3sigma) less than 0.3º. It measures direct normal radiation (DNI). Communication interface MODBUS RTU over RS-485. Dimensions about 80x80x27 mm. Useful in aeronautics and renewable energy industries.NanoSSOC sun sensor is based on MEMS fabrication processes to achieve high integrated sensing structures. nanoSSOC-A60 has tiny size, low weight and low power consumption to be the perfect ADCS solution for nanosatellite platforms like Cubesats.
ISSTX SUN SENSOR / Digital sensor for solar trackers
Two accuracy axes. Field of view from 10º to 120º (depending on the model). Accuracy from 0.005º to 0.06º (depending on the model). It measures direct normal radiation (DNI). Communication interface MODBUS RTU over RS-485. Dimensions about 80x80x27 mm. Useful in renewable energy, specifically on solar trackers.NanoSSOC-D60 has minimum size, weight and power consumption to be the perfect ADCS solution for nano-satellite platforms like Cubesats. Download brochureNanoSSOC sun sensor is based on MEMS fabrication processes to achieve high integrated sensing structures. nanoSSOC-A60 has tiny size, low weight and low power consumption to be the perfect ADCS solution for nanosatellite platforms like Cubesats.
ISSAX SUN SENSOR / Analog sensor
Two accuracy axes. Field of view from 10º to 120º (depending on the model). Accuracy from 0.02º to 0.06º (depending on the model). Interface of 4 analog signals. Dimensiones about 80x80x27 mm. Useful for aeronautics and renewable energy.SSOC-A60 device measures the incident angle of a sun ray in two axes. The high sensitivity is based on geometrical dimensions of the design. The use of a metal shield and a cover glass in the optical eye minimizes the ageing of the device under high radiation levels.NanoSSOC sun sensor is based on MEMS fabrication processes to achieve high integrated sensing structures. nanoSSOC-A60 has tiny size, low weight and low power consumption to be the perfect ADCS solution for nanosatellite platforms like Cubesats.
MASS SENSOR / Digital sensor with Magnetometer + Accelerometer + Sun Sensor
Sun-ray angles for closed-loop control. Azimuth and elevation (tilt) for open-loop control. Sun sensor, magnetometer and accelerometer included. Roll, tilt and hard-iron compensation included. Communication interface MODBUS RTU over RS-485. Dimensions about 80x80x27 mm. Useful in renewable energy, specifically on solar trackers.
Want to know more? Contact us at info@arazim.co.il or call us