创新的机械顶夹夹具校准通过称重传感器的方法

2016 IEEE 37th International Electronics Manufacturing Technology (IEMT) & 18th Electronics Materials and Packaging (EMAP) Conference Pub Date : 2016-09-01 DOI:10.1109/IEMT.2016.7761942

Tan Jui Ang, N. Kong

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引用次数: 2

摘要

3D成像模块由3个印刷电路板组件(PCBA)集成，其中包括主板(MB)，投影仪迷你板(PMB)和2个摄像头模块(2CAM)。然后，一块薄衬垫将附着在模块的下方，以加强结构并作为传热机制。为了达到产品对模块厚度和平整度的要求，设计了一种带柱塞的机械顶夹夹具，用于在固化前的衬套装配过程中对模块进行平整度。为了保持每个柱塞力在压平模块时的一致性，需要对机械顶夹柱塞进行定期校准。然而，传统的塞尺校准方法需要测量和调整柱塞杆至最佳水平，耗时长。本文介绍了新开发的称重传感器校准方法与传统校准方法的比较、工作原理、优点和结果。这项创新改进了每天校准2个顶夹夹具。

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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Innovative of mechanical top clamp fixture calibration through load cell methodology

3D imaging module was integrated by 3 Printed Circuit Board Assembly (PCBA) which consists of Main Board (MB), Projector Mini Board (PMB) and 2 Camera Module (2CAM). A piece of thin liner will then attach underneath of the module to strengthen the structure and as heat transfer mechanism. In order to achieve product specification on module thickness and flatness, a mechanical top clamp fixture with plungers was designed to flatten the module during liner assembly prior to curing process. Regular calibration on mechanical top clamp plungers are required in order to maintain a consistency of each plunger force in flattening the module. However, conventional calibration with feeler gauge method is time consuming which required to measure and adjusting the plungers lever to it optimized level. This paper share the new developed calibration method with load cell vs conventional calibration approach, working principle, advantages and result. This innovation have improved 2x top clamp fixture calibrated per day.

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来源期刊

2016 IEEE 37th International Electronics Manufacturing Technology (IEMT) & 18th Electronics Materials and Packaging (EMAP) Conference

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