Design of Onboard Avionics Based on Commercial Off-the-Shelf Parts for TianQi-2 Nanosatellite

Journal of Spacecraft and Rockets Pub Date : 2024-04-05 DOI:10.2514/1.a35743

Lianxiang Jiang, Wang Lei, Mingxiang Li, Zhang Teng, Peipei Xu

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Abstract

With the development of modern small satellite technology, short development cycles, low cost, and high reliability have become trends in the era of New Space. To achieve the above goals, an integrated centralized architecture of onboard avionics for an internet of things CubeSat was proposed, and CAN, I2C, and 1-wire buses were employed for telemetry collection and command sending. The implementation of onboard computers (OBCs) and the power conditioning and distribution unit (PCDU) was introduced based on the PC104 industrial standards. An arbitration switching strategy between the primary and backup OBCs was proposed so that the primary OBC had priority to be on duty. Over 98% of commercial off-the-shelf (COTS) parts were used to decrease costs, so a procedure for COTS part selection and a qualified method were presented for reliable application. The onboard avionics, including OBC and PCDU, were developed in six months, and the satellite has been in orbit for more than three years and still works well. The reliability of the onboard avionics developed using the philosophy of New Space is demonstrated by the three-year flight in orbit.

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基于商用现成部件的天启二号超小型卫星星载航空电子设备设计

随着现代小卫星技术的发展，研制周期短、成本低、可靠性高已成为新空间时代的发展趋势。为实现上述目标，提出了一种物联网立方体卫星星载航空电子设备的集成集中式架构，并采用 CAN、I2C 和单线总线进行遥测采集和指令发送。机载计算机（OBC）和功率调节与分配单元（PCDU）的实现基于 PC104 工业标准。提出了主用和备用 OBC 之间的仲裁切换策略，以便主用 OBC 优先值班。为了降低成本，98% 以上的商用现成（COTS）部件被采用，因此提出了一套 COTS 部件选择程序和合格方法，以确保可靠应用。包括 OBC 和 PCDU 在内的星载航空电子设备在 6 个月内开发完成，卫星已在轨道上运行了 3 年多，仍然运行良好。在轨飞行三年证明了采用新空间理念开发的星载航空电子设备的可靠性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Spacecraft and Rockets

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