Programmable delay circuit for low power applications

Programmable delay circuits are described herein according to embodiments of the present disclosure. In one embodiment, a delay circuit comprises a plurality of delay stages coupled in series. Each of the delay stages comprises a delay gate on a forward path of the delay circuit, wherein the delay g...

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Hauptverfasser:	Sridhar Shraddha, Diffenderfer Jan Christian, Singh Guneet, Fertsch Michael Thomas
Format:	Patent
Sprache:	eng
Schlagworte:	BASIC ELECTRONIC CIRCUITRY ELECTRICITY IMPEDANCE NETWORKS, e.g. RESONANT CIRCUITS PULSE TECHNIQUE RESONATORS
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creator	Sridhar Shraddha Diffenderfer Jan Christian Singh Guneet Fertsch Michael Thomas
description	Programmable delay circuits are described herein according to embodiments of the present disclosure. In one embodiment, a delay circuit comprises a plurality of delay stages coupled in series. Each of the delay stages comprises a delay gate on a forward path of the delay circuit, wherein the delay gate is configured to pass or block a signal on the forward path depending on a logic state of a respective select signal. Each of the delay stages also comprises a multiplexer on a return path of the delay circuit, wherein the multiplexer is configured to pass a signal on the return path or route the signal on the forward path to the return path depending on the logic state of the respective select signal. Output logic states of the delay gates and the multiplexers may remain static during a change in the delay setting of the delay circuit to reduce glitch.
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In one embodiment, a delay circuit comprises a plurality of delay stages coupled in series. Each of the delay stages comprises a delay gate on a forward path of the delay circuit, wherein the delay gate is configured to pass or block a signal on the forward path depending on a logic state of a respective select signal. Each of the delay stages also comprises a multiplexer on a return path of the delay circuit, wherein the multiplexer is configured to pass a signal on the return path or route the signal on the forward path to the return path depending on the logic state of the respective select signal. 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In one embodiment, a delay circuit comprises a plurality of delay stages coupled in series. Each of the delay stages comprises a delay gate on a forward path of the delay circuit, wherein the delay gate is configured to pass or block a signal on the forward path depending on a logic state of a respective select signal. Each of the delay stages also comprises a multiplexer on a return path of the delay circuit, wherein the multiplexer is configured to pass a signal on the return path or route the signal on the forward path to the return path depending on the logic state of the respective select signal. 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In one embodiment, a delay circuit comprises a plurality of delay stages coupled in series. Each of the delay stages comprises a delay gate on a forward path of the delay circuit, wherein the delay gate is configured to pass or block a signal on the forward path depending on a logic state of a respective select signal. Each of the delay stages also comprises a multiplexer on a return path of the delay circuit, wherein the multiplexer is configured to pass a signal on the return path or route the signal on the forward path to the return path depending on the logic state of the respective select signal. Output logic states of the delay gates and the multiplexers may remain static during a change in the delay setting of the delay circuit to reduce glitch.</abstract><oa>free_for_read</oa></addata></record>
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subjects	BASIC ELECTRONIC CIRCUITRY ELECTRICITY IMPEDANCE NETWORKS, e.g. RESONANT CIRCUITS PULSE TECHNIQUE RESONATORS
title	Programmable delay circuit for low power applications
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