用于空间使用的3D封装相机头

V. Patel, S. Bhati, Sandip Paul, A. Roy Chowdhury, R. Parmar, Rakesh Vikraman Nair Rema, P. N. Babu, A. K. Lal, R. Dave, D. Samudraiah, A. S. Kiran Kumar, Mathieu Gil
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引用次数: 0

摘要

小型化是星载电子硬件发展的基本要求。最近,器件和封装技术的进步,如模拟前端(AFE)、FPGA和ASIC,使板上设计人员能够开发出符合功能和性能要求的空间价值高、高可靠性的小型化硬件。HMC、SIP、3D封装技术等可以通过嵌入骰子、器件、有源和无源元件,进一步实现硬件的小型化。3D封装技术通过ESA认证,使我们能够将封装设备和印刷电路板(PCB)集成在一起,具有高可靠性的垂直互连。有可能从现有的PCB设计以及相同的材料清单迁移到3D封装技术。利用3D封装技术,开发了由4K线性探测器、探测器驱动电子器件、模拟视频处理和数字化电子器件、时序和控制逻辑以及串行数据输出组成的小型化相机模块,用于空间使用。本文简要介绍了该摄像机的硬件结构、开发步骤和实现难点,并给出了测试结果。
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3D packaged camera head for space use
Miniaturization is an essential requirement for development of space-borne electronics hardware. Recently, advancements in the device and packaging technology such as Analog Front End (AFE), FPGA and ASIC has enabled on-board designers to develop space worthy, high reliability miniaturized hardware meeting the functional and performance requirements. HMC, SIP, 3D packaging technology etc. can further miniaturize the hardware by embedding dice, devices, active and passive components. 3D packaging technology, which is ESA qualified, allows us to integrate packaged devices and printed circuit boards (PCB) with high reliability vertical interconnections. It is possible to migrate from existing PCB designs along with the same bill of material to 3D packaging technology. A development of miniaturized camera module consisting of 4K elements linear detector, detector drive electronics, analog video processing and digitizing electronics, timing and control logic along with serial data output has been carried out for space use using 3D packaging. Brief details of this camera hardware, development steps and realization challenges along with test results are given in this paper.
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