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This project aims to develop an advanced A/D converter and digital signal processing (DSP) system that enhances satellite stabilization and connectivity. The system will integrate multiple components such as amplifiers, microprocessors, and sensors, including cameras and particle detectors. It addresses challenges in accessibility, separation, and stability of the satellite housing and components. Emphasis will be placed on ensuring reliable connections through both serial and parallel connectors while maintaining optimal weight distribution and performance under various conditions.
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A/D CONVERTER 1 AMPLIFIER 2 CAMERA MICROPROCESSOR AMPLIFIER 1 DSP VOLTAGE STABILIZER SERIAL CONNECTOR HOUSING A/D CONVERTER 2 PARALLEL CONNECTOR Problem Definition Constraints: ACCESSIBILITY CONNECTIVITY SEPARATION
transceiver accessibility OMC valves stability (weight) connectivity light medium heavy Problem Description Satellite housing gyro OMC gas canister ORBITAL MANOEUVERING CONTROL AND STABILIZATION objectives OMC controller
amplifier generator motor battery computer connectors stellar reference unit Particle detector SENSORS camera UV detector IR sensor
