为接近零DPPM应用的模拟/射频电路的基于缺陷的测试优化

2009 IEEE International Conference on Computer Design Pub Date : 2009-10-04 DOI:10.1109/ICCD.2009.5413139

E. Yilmaz, S. Ozev

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引用次数: 7

摘要

模拟电路通常根据其规格进行测试。虽然基于规格的测试确保了最初的产品质量，但在大批量生产中，全面测试通常是不可能的。此外，即使是基于完整规格的测试也不能保证电路不包含任何物理缺陷。一些应用领域需要接近于零的缺陷级别，这与是否满足规范无关。在这项工作中，我们提出了一种基于缺陷的测试优化方法，该方法的重点是缺陷率(DPPM)最小化。通过归纳故障分析(IFA)提取潜在缺陷，在不降低测试质量的前提下减少测试次数。为了实现接近零的DPPM，我们采用离群值分析来识别无法使用基于规范的方法识别的缺陷电路。在LNA上的仿真结果表明，该方法以0.2%的产率损失为代价，将DPPM降至0。

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Defect-based test optimization for analog/RF circuits for near-zero DPPM applications

Analog circuits are often tested based on their specifications. While specification-based testing ensures the initial product quality, full testing is often not possible in high volume production. Moreover, even full specification-based testing cannot guarantee that the circuit does not contain any physical defects. Some application domains require near-zero defect levels independent of whether the specifications are met. In this work, we present a defect based test optimization method focusing on defective parts per million (DPPM) minimization. We extract potential defects through inductive fault analysis (IFA) and reduce the number of tests without degrading the test quality. In order to achieve near zero DPPM, we employ outlier analysis to identify defective circuits that cannot be identified using specification based methods. Simulation results on an LNA show that DPPM is reduced down to 0 at a cost of 0.2% yield loss with the proposed method.

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2009 IEEE International Conference on Computer Design

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