工业收发芯片低引脚数测试实例研究

2018 IEEE 27th North Atlantic Test Workshop (NATW) Pub Date : 2018-05-01 DOI:10.1109/NATW.2018.8388868

Imtiaz Ahmed, Subhash Baraiya, Rahul Singhal

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引用次数: 0

摘要

IC设计的尺寸呈指数级增长，但引脚数量却没有保持同样的速度。当一个设计的测试引脚数量非常有限，但仍然需要高质量的测试时，这种不平衡就构成了一个困难的挑战。当需要额外的故障模型(如转换延迟故障模型)进行测试时，这个问题会更加严重。本文描述了低引脚数测试控制器如何能够满足所有这些要求，以测试高通技术公司最先进的芯片组中使用的引脚限制收发器芯片。低引脚数测试控制器支持片上时钟控制器的高速测试，并且分别超出卡滞和高速测试的测试覆盖率要求1.22%和2.16%。在晶圆测试过程中，这种测试引脚的节省使得使用多站点测试的模具可以进行更高的并行测试，从而将测试成本降低了约1.6倍。

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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Case study on low pin count testing of industry transceiver chip

IC designs have been growing exponentially in size but the number of pins have not kept the same pace. This imbalance poses a difficult challenge when a design has very limited number of test pins but still requires a high quality testing. This problem is exacerbated when additional fault models like transition delay fault model are required for testing. This paper describes how a low pin count test controller was able to meet all these requirements to test a pin limited transceiver chip used in Qualcomm Technologies Inc.'s state-of-the-art chipset. The low pin count test controller supports at-speed testing with on-chip clock controller and exceeded the test coverage requirements for both stuck-at and at-speed testing by 1.22% and 2.16% respectively. During wafer testing, this test-pin savings enabled higher parallel testing of dies using multi-site testing which reduced the test-costs by about 1.6x.

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2018 IEEE 27th North Atlantic Test Workshop (NATW)

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