A low power-noise output driver with an adaptive characteristic applicable to a wide range of loading conditions

Semicustom IC design methodologies often assume a wide range of operating conditions. This requirement makes designing output drivers very difficult, as output ringing due to overdriving cannot be avoided. This problem becomes more tricky when power noise due to simultaneous switching of many output...

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Veröffentlicht in:	IEEE journal of solid-state circuits 1997-06, Vol.32 (6), p.913-917
Hauptverfasser:	Choy, C.S., Ku, M.H., Chan, C.F.
Format:	Artikel
Sprache:	eng
Schlagworte:	Adaptive control Circuit noise Circuit testing Design methodology Driver circuits Feedback Integrated circuit noise Inverters Packaging Programmable control
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container_title	IEEE journal of solid-state circuits
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creator	Choy, C.S. Ku, M.H. Chan, C.F.
description	Semicustom IC design methodologies often assume a wide range of operating conditions. This requirement makes designing output drivers very difficult, as output ringing due to overdriving cannot be avoided. This problem becomes more tricky when power noise due to simultaneous switching of many output drivers at very high speed is also considered. A new output driver is proposed that adopts an innovative feedback mechanism to achieve an adaptive characteristic so that its performance will not vary under different loading conditions. The driver is also low in power noise as it works with a principle similar to a controlled slew rate output driver. Measurement from a test chip substantiates all those claims.
doi_str_mv	10.1109/4.585299
format	Article
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This requirement makes designing output drivers very difficult, as output ringing due to overdriving cannot be avoided. This problem becomes more tricky when power noise due to simultaneous switching of many output drivers at very high speed is also considered. A new output driver is proposed that adopts an innovative feedback mechanism to achieve an adaptive characteristic so that its performance will not vary under different loading conditions. The driver is also low in power noise as it works with a principle similar to a controlled slew rate output driver. Measurement from a test chip substantiates all those claims.</abstract><pub>IEEE</pub><doi>10.1109/4.585299</doi><tpages>5</tpages></addata></record>
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subjects	Adaptive control Circuit noise Circuit testing Design methodology Driver circuits Feedback Integrated circuit noise Inverters Packaging Programmable control
title	A low power-noise output driver with an adaptive characteristic applicable to a wide range of loading conditions
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