A low-cost wireless interface with no external antenna and crystal oscillator for cm-range contactless testing

This work presents a low-cost wireless system design that serves as an interface to support the SoC with contactless testability feature. The communication hierarchy includes PHY, MAC, data exchange, and test wrapper functions. The wireless does not require external antennae and crystal reference, a...

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Bibliographic Details
Main Authors: Li, Chin-Fu, Lee, Chi-Ying, Wang, Chen-Hsing, Chang, Shu-Lin, Denq, Li-Ming, Chi, Chun-Chuan, Hsu, Hsuan-Jung, Chu, Ming-Yi, Liou, Jing-Jia, Huang, Shi-Yu, Huang, Po-Chiun, Ma, Hsi-Pin, Bor, Jenn-Chiou, Wu, Cheng-Wen, Tien, Ching-Cheng, Wang, Chi-Hu, Kuo, Yung-Sheng, Huang, Chih-Tsun, Chang, Tien-Yu
Format: Conference Proceeding
Language:English
Subjects:
Baseband
Built-in self-test
Downlink
Receivers
System-on-a-chip
Wireless communication
Online Access:Request full text
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Summary:This work presents a low-cost wireless system design that serves as an interface to support the SoC with contactless testability feature. The communication hierarchy includes PHY, MAC, data exchange, and test wrapper functions. The wireless does not require external antennae and crystal reference, and therefore minimize the setup cost. The embedded all-digital timing generation achieves robust performance in the noisy environment. The whole wireless system occupies a small area. In a 0.18μm device-under-test, the active area of wireless front-end is 0.14mm2 and the gate count for digital processing is 112K. The maximum energy efficiency for uplink is 1.1nJ/bit and for downlink is 2.9nJ/bit when the wireless distance is set around 1cm. The prototype system includes test equipment and an SoC as the device-under-test. The SoC integrating logic, memory, and analog plug-in modules can be contactlessly tested. It is a low-cost platform controlled by a simple hand-held computer.
ISSN:0738-100X
DOI:10.1145/2024724.2024897