结合激光扫描显微镜和功率谱分析的高速缺陷定位

2020 IEEE International Reliability Physics Symposium (IRPS) Pub Date : 2020-04-01 DOI:10.1109/IRPS45951.2020.9129560

M. Miller, E. I. Cole, G. M. Kraus, P. Robertson

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引用次数: 0

摘要

功率谱分析(PSA)[1]的缺陷检测能力已成功地与局部激光加热相结合，以隔离高速Si锁相环(PLL)中的缺陷电路。当工作在多ghz速度和高温下时，错误的操作导致计数丢失。通过零跨越监测特定频率的PSA信号，并使用加热激光(波长1340 nm)扫描可疑器件，定位导致故障的区域。PSA避免了对软缺陷定位(SDL)[2]或激光辅助缺陷分析(LADA)[3]中使用的快速合格/故障检测器的需求，并将高速故障转换为直流签名。描述了图像采集的实验设置和演示实用的示例。

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At-Speed Defect Localization by Combining Laser Scanning Microscopy and Power Spectrum Analysis

The defect detection capabilities of Power Spectrum Analysis (PSA) [1] have been successfully combined with local laser heating to isolate defective circuitry in a high-speed Si Phase Locked Loop (PLL). The defective operation resulted in missed counts when operating at multi-GHz speeds and elevated temperatures. By monitoring PSA signals at a specific frequency through zero-spanning and scanning the suspect device with a heating laser (1340 nm wavelength), the area(s) causing failure were localized. PSA circumvents the need for a rapid pass/fail detector like that used for Soft Defect Localization (SDL) [2] or Laser-Assisted Defect Analysis (LADA) [3] and converts the at-speed failure to a DC signature. The experimental setup for image acquisition and examples demonstrating utility are described.

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2020 IEEE International Reliability Physics Symposium (IRPS)

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