A minimally invasive wideband mixed-mode detector for mm-Wave BIST applications

Differential circuits, employed to alleviate performance trade-offs associated with increased levels of system integration, demand leading edge solutions to address testing limitations. As a result, a differential, wideband amplitude detector suitable for built-in-self-test (BIST) applications at RF...

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Hauptverfasser:	Rami, Said, Paganini, Andrea, Eisenstadt, William R.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Bandwidth BiCMOS integrated circuits Built-in self-test Circuit testing Detectors Minimally invasive surgery Radio frequency Signal analysis System testing Wideband
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creator	Rami, Said Paganini, Andrea Eisenstadt, William R.
description	Differential circuits, employed to alleviate performance trade-offs associated with increased levels of system integration, demand leading edge solutions to address testing limitations. As a result, a differential, wideband amplitude detector suitable for built-in-self-test (BIST) applications at RF to millimeterwave (mm-Wave) frequencies is presented. For compatibility with BIST methodologies, a comprehensive analysis, lacking in previous literature, simplifies and classifies the detector's response into a known type (RMS, Peak) depending on certain operating conditions (operating region, input signal level). Additionally, another novel concept of cross-mode detection error is introduced to supplement characteristics of the differential detector. The detector was implemented in a BiCMOS IBM8HP process and two design variants were characterized. A BJT version features a bandwidth between 100 MHz and 17.5 GHz. The second design added few improvements to the original topology; innovative common-mode detection capability was included with minimal loading effects to the device-under-test (DUT), the circuit was migrated to MOS transistors, and the bandwidth was extended to 70 GHz. Both versions (BJT and MOS) occupy a core area smaller than 0.045 mm 2 , with a static power consumption as low as 8 μW and exhibit a dynamic range of at least 30 dB.
doi_str_mv	10.1109/ECTC.2010.5490758
format	Conference Proceeding
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The second design added few improvements to the original topology; innovative common-mode detection capability was included with minimal loading effects to the device-under-test (DUT), the circuit was migrated to MOS transistors, and the bandwidth was extended to 70 GHz. 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The second design added few improvements to the original topology; innovative common-mode detection capability was included with minimal loading effects to the device-under-test (DUT), the circuit was migrated to MOS transistors, and the bandwidth was extended to 70 GHz. 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As a result, a differential, wideband amplitude detector suitable for built-in-self-test (BIST) applications at RF to millimeterwave (mm-Wave) frequencies is presented. For compatibility with BIST methodologies, a comprehensive analysis, lacking in previous literature, simplifies and classifies the detector's response into a known type (RMS, Peak) depending on certain operating conditions (operating region, input signal level). Additionally, another novel concept of cross-mode detection error is introduced to supplement characteristics of the differential detector. The detector was implemented in a BiCMOS IBM8HP process and two design variants were characterized. A BJT version features a bandwidth between 100 MHz and 17.5 GHz. 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subjects	Bandwidth BiCMOS integrated circuits Built-in self-test Circuit testing Detectors Minimally invasive surgery Radio frequency Signal analysis System testing Wideband
title	A minimally invasive wideband mixed-mode detector for mm-Wave BIST applications
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