用于 CMOS 非接触式晶片级测试的高速电光等离子体调制器

IF 4.3 2区工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Journal of Selected Topics in Quantum Electronics Pub Date : 2024-08-02 DOI:10.1109/JSTQE.2024.3437193

Maryam Sadat Amiri Naeini;Pierre Berini

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引用次数: 0

摘要

晶圆级测试是集成电路（IC）制造中电子芯片封装前进行工艺和质量控制的重要步骤。随着集成电路向更小的技术节点和更紧凑的设计发展，采用传统接触方案的晶圆探测过程变得更加复杂，从而大大增加了测试成本。非接触式光学晶圆探测可以克服物理探测的复杂性，降低成本，提高产量和可靠性。本文提出并演示了一种与 CMOS 兼容、宽带（22 GHz）、小尺寸（5 μm 直径）、低插入损耗（4 dB）和宽光学工作带宽（100 nm）的等离子体电光调制器，作为晶圆级光学测试的潜在解决方案。该装置以非接触方式对光纤中出现的入射光载波进行反射调制，以作为晶圆的数据输出通道。调制深度超过 2%，足以满足晶圆级测试的要求。该装置可放置在晶片的任何位置。

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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High-Speed Electro-Optic Plasmonic Modulator for CMOS Non-Contact Wafer-Level Testing

Wafer-level testing is an important step for process and quality control of electronic chips in integrated circuit (IC) manufacturing which occurs before packaging. The process of wafer probing in its conventional contacting schemes, becomes more complicated as ICs move to smaller technology nodes and more compact designs, greatly increasing testing costs. Non-contact optical wafer probing can overcome physical probing complications, reducing costs, and increasing throughput and reliability. In this article, a CMOS compatible, broadband (22 GHz), small footprint (5 μm dia.) plasmonic electro-optic modulator of low insertion loss (4 dB) and wide optical working bandwidth (100 nm) is proposed and demonstrated as a potential solution for wafer-level optical testing. The device modulates in reflection an incident optical carrier emerging from an optical fiber in a non-contact arrangement, to work as a data output channel from the wafer. A modulation depth of over 2% is achieved which should be sufficient to meet the requirements of wafer-level testing. The device can be placed anywhere on wafer.

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来源期刊

IEEE Journal of Selected Topics in Quantum Electronics 工程技术-工程：电子与电气

CiteScore

10.60

自引率

2.00%

发文量

212

审稿时长

3 months

期刊介绍： Papers published in the IEEE Journal of Selected Topics in Quantum Electronics fall within the broad field of science and technology of quantum electronics of a device, subsystem, or system-oriented nature. Each issue is devoted to a specific topic within this broad spectrum. Announcements of the topical areas planned for future issues, along with deadlines for receipt of manuscripts, are published in this Journal and in the IEEE Journal of Quantum Electronics. Generally, the scope of manuscripts appropriate to this Journal is the same as that for the IEEE Journal of Quantum Electronics. Manuscripts are published that report original theoretical and/or experimental research results that advance the scientific and technological base of quantum electronics devices, systems, or applications. The Journal is dedicated toward publishing research results that advance the state of the art or add to the understanding of the generation, amplification, modulation, detection, waveguiding, or propagation characteristics of coherent electromagnetic radiation having sub-millimeter and shorter wavelengths. In order to be suitable for publication in this Journal, the content of manuscripts concerned with subject-related research must have a potential impact on advancing the technological base of quantum electronic devices, systems, and/or applications. Potential authors of subject-related research have the responsibility of pointing out this potential impact. System-oriented manuscripts must be concerned with systems that perform a function previously unavailable or that outperform previously established systems that did not use quantum electronic components or concepts. Tutorial and review papers are by invitation only.