A Memristor-Based Continuous-Time Digital FIR Filter for Biomedical Signal Processing

This paper proposes a new timing storage circuit based on memristors. Its ability to store and reproduce timing information in an analog manner without performing quantization can be useful for a wide range of applications. For continuous-time (CT) digital filters, the power and area costly analog d...
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Autor*in:	Yibin Hong [verfasserIn] Yong Lian

Format:	Artikel
Sprache:	Englisch

Erschienen:	2015

Schlagwörter:	continuous-time digital signal processing power 6.63 muW continuous-time digital filters CT DSP FIR filters biomedical signal processing timing information inverter chains CT digital signal processing Asynchronous circuit design CT digital filters memristors continuous time filters Digital signal processing timing storage circuit memristor-based delay blocks Inverters timing storage analog delay blocks Switches Integrated circuit modeling memristor memristor circuits CT finite impulse response Savitzky-Golay filter timing circuits Delays level-crossing sampling CT FIR S-G filter medical signal processing CT digital signals storage voltage 3.3 V Signal processing Digital broadcasting Digital signal processors Measurement Integrated circuits Voltage Design and construction Memristors Usage Semiconductor chips

Übergeordnetes Werk:	Enthalten in: IEEE transactions on circuits and systems / 1 - New York, NY : Institute of Electrical and Electronics Engineers, 1992, 62(2015), 5, Seite 1392-1401
Übergeordnetes Werk:	volume:62 ; year:2015 ; number:5 ; pages:1392-1401

Links:	Volltext Link aufrufen Link aufrufen

DOI / URN:	10.1109/TCSI.2015.2403033

Katalog-ID:	OLC1959252550

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650		4	\|a continuous-time digital signal processing
650		4	\|a power 6.63 muW
650		4	\|a continuous-time digital filters
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650		4	\|a FIR filters
650		4	\|a biomedical signal processing
650		4	\|a timing information
650		4	\|a inverter chains
650		4	\|a CT digital signal processing
650		4	\|a Asynchronous circuit design
650		4	\|a CT digital filters
650		4	\|a memristors
650		4	\|a continuous time filters
650		4	\|a Digital signal processing
650		4	\|a timing storage circuit
650		4	\|a memristor-based delay blocks
650		4	\|a Inverters
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650		4	\|a Switches
650		4	\|a Integrated circuit modeling
650		4	\|a memristor
650		4	\|a memristor circuits
650		4	\|a CT finite impulse response Savitzky-Golay filter
650		4	\|a timing circuits
650		4	\|a Delays
650		4	\|a level-crossing sampling
650		4	\|a CT FIR S-G filter
650		4	\|a medical signal processing
650		4	\|a CT digital signals storage
650		4	\|a voltage 3.3 V
650		4	\|a Signal processing
650		4	\|a Digital broadcasting
650		4	\|a Digital signal processors
650		4	\|a Measurement
650		4	\|a Integrated circuits
650		4	\|a Voltage
650		4	\|a Design and construction
650		4	\|a Memristors
650		4	\|a Usage
650		4	\|a Semiconductor chips
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allfields	10.1109/TCSI.2015.2403033 doi PQ20160617 (DE-627)OLC1959252550 (DE-599)GBVOLC1959252550 (PRQ)c2640-ac50261f18d85830b0faad969c69cdea66e7505450d5d4e86eb3e505e31121200 (KEY)0213966920150000062000501392memristorbasedcontinuoustimedigitalfirfilterforbio DE-627 ger DE-627 rakwb eng 000 620 DNB Yibin Hong verfasserin aut A Memristor-Based Continuous-Time Digital FIR Filter for Biomedical Signal Processing 2015 Text txt rdacontent ohne Hilfsmittel zu benutzen n rdamedia Band nc rdacarrier This paper proposes a new timing storage circuit based on memristors. Its ability to store and reproduce timing information in an analog manner without performing quantization can be useful for a wide range of applications. For continuous-time (CT) digital filters, the power and area costly analog delay blocks, which are usually implemented as inverter chains or their variants, can be replaced by the proposed timing storage circuits to delay CT digital signals in a more efficient way, especially for low-frequency biomedical applications that require very long tap delays. In addition, the same timing storage circuits also enable the storage of CT digital signals, extending the benefits of CT digital signal processing (DSP) to applications that require signal storage. As an example, a 15-tap CT finite impulse response (FIR) Savitzky-Golay (S-G) filter was designed with memristor-based delay blocks to smoothen electrocardiographic (ECG) signals accompanied with high-frequency noise. The simulated power consumption under a 3.3-volt supply was 6.63 μw. continuous-time digital signal processing power 6.63 muW continuous-time digital filters CT DSP FIR filters biomedical signal processing timing information inverter chains CT digital signal processing Asynchronous circuit design CT digital filters memristors continuous time filters Digital signal processing timing storage circuit memristor-based delay blocks Inverters timing storage analog delay blocks Switches Integrated circuit modeling memristor memristor circuits CT finite impulse response Savitzky-Golay filter timing circuits Delays level-crossing sampling CT FIR S-G filter medical signal processing CT digital signals storage voltage 3.3 V Signal processing Digital broadcasting Digital signal processors Measurement Integrated circuits Voltage Design and construction Memristors Usage Semiconductor chips Yong Lian oth Enthalten in IEEE transactions on circuits and systems / 1 New York, NY : Institute of Electrical and Electronics Engineers, 1992 62(2015), 5, Seite 1392-1401 (DE-627)131043080 (DE-600)1100194-X (DE-576)02804679X 1549-8328 nnns volume:62 year:2015 number:5 pages:1392-1401 http://dx.doi.org/10.1109/TCSI.2015.2403033 Volltext http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=7080909 http://search.proquest.com/docview/1685290668 GBV_USEFLAG_A SYSFLAG_A GBV_OLC SSG-OLC-TEC SSG-OLC-MAT GBV_ILN_30 GBV_ILN_70 GBV_ILN_2002 GBV_ILN_2005 GBV_ILN_2059 AR 62 2015 5 1392-1401
spelling	10.1109/TCSI.2015.2403033 doi PQ20160617 (DE-627)OLC1959252550 (DE-599)GBVOLC1959252550 (PRQ)c2640-ac50261f18d85830b0faad969c69cdea66e7505450d5d4e86eb3e505e31121200 (KEY)0213966920150000062000501392memristorbasedcontinuoustimedigitalfirfilterforbio DE-627 ger DE-627 rakwb eng 000 620 DNB Yibin Hong verfasserin aut A Memristor-Based Continuous-Time Digital FIR Filter for Biomedical Signal Processing 2015 Text txt rdacontent ohne Hilfsmittel zu benutzen n rdamedia Band nc rdacarrier This paper proposes a new timing storage circuit based on memristors. Its ability to store and reproduce timing information in an analog manner without performing quantization can be useful for a wide range of applications. For continuous-time (CT) digital filters, the power and area costly analog delay blocks, which are usually implemented as inverter chains or their variants, can be replaced by the proposed timing storage circuits to delay CT digital signals in a more efficient way, especially for low-frequency biomedical applications that require very long tap delays. In addition, the same timing storage circuits also enable the storage of CT digital signals, extending the benefits of CT digital signal processing (DSP) to applications that require signal storage. As an example, a 15-tap CT finite impulse response (FIR) Savitzky-Golay (S-G) filter was designed with memristor-based delay blocks to smoothen electrocardiographic (ECG) signals accompanied with high-frequency noise. The simulated power consumption under a 3.3-volt supply was 6.63 μw. continuous-time digital signal processing power 6.63 muW continuous-time digital filters CT DSP FIR filters biomedical signal processing timing information inverter chains CT digital signal processing Asynchronous circuit design CT digital filters memristors continuous time filters Digital signal processing timing storage circuit memristor-based delay blocks Inverters timing storage analog delay blocks Switches Integrated circuit modeling memristor memristor circuits CT finite impulse response Savitzky-Golay filter timing circuits Delays level-crossing sampling CT FIR S-G filter medical signal processing CT digital signals storage voltage 3.3 V Signal processing Digital broadcasting Digital signal processors Measurement Integrated circuits Voltage Design and construction Memristors Usage Semiconductor chips Yong Lian oth Enthalten in IEEE transactions on circuits and systems / 1 New York, NY : Institute of Electrical and Electronics Engineers, 1992 62(2015), 5, Seite 1392-1401 (DE-627)131043080 (DE-600)1100194-X (DE-576)02804679X 1549-8328 nnns volume:62 year:2015 number:5 pages:1392-1401 http://dx.doi.org/10.1109/TCSI.2015.2403033 Volltext http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=7080909 http://search.proquest.com/docview/1685290668 GBV_USEFLAG_A SYSFLAG_A GBV_OLC SSG-OLC-TEC SSG-OLC-MAT GBV_ILN_30 GBV_ILN_70 GBV_ILN_2002 GBV_ILN_2005 GBV_ILN_2059 AR 62 2015 5 1392-1401
allfields_unstemmed	10.1109/TCSI.2015.2403033 doi PQ20160617 (DE-627)OLC1959252550 (DE-599)GBVOLC1959252550 (PRQ)c2640-ac50261f18d85830b0faad969c69cdea66e7505450d5d4e86eb3e505e31121200 (KEY)0213966920150000062000501392memristorbasedcontinuoustimedigitalfirfilterforbio DE-627 ger DE-627 rakwb eng 000 620 DNB Yibin Hong verfasserin aut A Memristor-Based Continuous-Time Digital FIR Filter for Biomedical Signal Processing 2015 Text txt rdacontent ohne Hilfsmittel zu benutzen n rdamedia Band nc rdacarrier This paper proposes a new timing storage circuit based on memristors. Its ability to store and reproduce timing information in an analog manner without performing quantization can be useful for a wide range of applications. For continuous-time (CT) digital filters, the power and area costly analog delay blocks, which are usually implemented as inverter chains or their variants, can be replaced by the proposed timing storage circuits to delay CT digital signals in a more efficient way, especially for low-frequency biomedical applications that require very long tap delays. In addition, the same timing storage circuits also enable the storage of CT digital signals, extending the benefits of CT digital signal processing (DSP) to applications that require signal storage. As an example, a 15-tap CT finite impulse response (FIR) Savitzky-Golay (S-G) filter was designed with memristor-based delay blocks to smoothen electrocardiographic (ECG) signals accompanied with high-frequency noise. The simulated power consumption under a 3.3-volt supply was 6.63 μw. continuous-time digital signal processing power 6.63 muW continuous-time digital filters CT DSP FIR filters biomedical signal processing timing information inverter chains CT digital signal processing Asynchronous circuit design CT digital filters memristors continuous time filters Digital signal processing timing storage circuit memristor-based delay blocks Inverters timing storage analog delay blocks Switches Integrated circuit modeling memristor memristor circuits CT finite impulse response Savitzky-Golay filter timing circuits Delays level-crossing sampling CT FIR S-G filter medical signal processing CT digital signals storage voltage 3.3 V Signal processing Digital broadcasting Digital signal processors Measurement Integrated circuits Voltage Design and construction Memristors Usage Semiconductor chips Yong Lian oth Enthalten in IEEE transactions on circuits and systems / 1 New York, NY : Institute of Electrical and Electronics Engineers, 1992 62(2015), 5, Seite 1392-1401 (DE-627)131043080 (DE-600)1100194-X (DE-576)02804679X 1549-8328 nnns volume:62 year:2015 number:5 pages:1392-1401 http://dx.doi.org/10.1109/TCSI.2015.2403033 Volltext http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=7080909 http://search.proquest.com/docview/1685290668 GBV_USEFLAG_A SYSFLAG_A GBV_OLC SSG-OLC-TEC SSG-OLC-MAT GBV_ILN_30 GBV_ILN_70 GBV_ILN_2002 GBV_ILN_2005 GBV_ILN_2059 AR 62 2015 5 1392-1401
allfieldsGer	10.1109/TCSI.2015.2403033 doi PQ20160617 (DE-627)OLC1959252550 (DE-599)GBVOLC1959252550 (PRQ)c2640-ac50261f18d85830b0faad969c69cdea66e7505450d5d4e86eb3e505e31121200 (KEY)0213966920150000062000501392memristorbasedcontinuoustimedigitalfirfilterforbio DE-627 ger DE-627 rakwb eng 000 620 DNB Yibin Hong verfasserin aut A Memristor-Based Continuous-Time Digital FIR Filter for Biomedical Signal Processing 2015 Text txt rdacontent ohne Hilfsmittel zu benutzen n rdamedia Band nc rdacarrier This paper proposes a new timing storage circuit based on memristors. Its ability to store and reproduce timing information in an analog manner without performing quantization can be useful for a wide range of applications. For continuous-time (CT) digital filters, the power and area costly analog delay blocks, which are usually implemented as inverter chains or their variants, can be replaced by the proposed timing storage circuits to delay CT digital signals in a more efficient way, especially for low-frequency biomedical applications that require very long tap delays. In addition, the same timing storage circuits also enable the storage of CT digital signals, extending the benefits of CT digital signal processing (DSP) to applications that require signal storage. As an example, a 15-tap CT finite impulse response (FIR) Savitzky-Golay (S-G) filter was designed with memristor-based delay blocks to smoothen electrocardiographic (ECG) signals accompanied with high-frequency noise. The simulated power consumption under a 3.3-volt supply was 6.63 μw. continuous-time digital signal processing power 6.63 muW continuous-time digital filters CT DSP FIR filters biomedical signal processing timing information inverter chains CT digital signal processing Asynchronous circuit design CT digital filters memristors continuous time filters Digital signal processing timing storage circuit memristor-based delay blocks Inverters timing storage analog delay blocks Switches Integrated circuit modeling memristor memristor circuits CT finite impulse response Savitzky-Golay filter timing circuits Delays level-crossing sampling CT FIR S-G filter medical signal processing CT digital signals storage voltage 3.3 V Signal processing Digital broadcasting Digital signal processors Measurement Integrated circuits Voltage Design and construction Memristors Usage Semiconductor chips Yong Lian oth Enthalten in IEEE transactions on circuits and systems / 1 New York, NY : Institute of Electrical and Electronics Engineers, 1992 62(2015), 5, Seite 1392-1401 (DE-627)131043080 (DE-600)1100194-X (DE-576)02804679X 1549-8328 nnns volume:62 year:2015 number:5 pages:1392-1401 http://dx.doi.org/10.1109/TCSI.2015.2403033 Volltext http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=7080909 http://search.proquest.com/docview/1685290668 GBV_USEFLAG_A SYSFLAG_A GBV_OLC SSG-OLC-TEC SSG-OLC-MAT GBV_ILN_30 GBV_ILN_70 GBV_ILN_2002 GBV_ILN_2005 GBV_ILN_2059 AR 62 2015 5 1392-1401
allfieldsSound	10.1109/TCSI.2015.2403033 doi PQ20160617 (DE-627)OLC1959252550 (DE-599)GBVOLC1959252550 (PRQ)c2640-ac50261f18d85830b0faad969c69cdea66e7505450d5d4e86eb3e505e31121200 (KEY)0213966920150000062000501392memristorbasedcontinuoustimedigitalfirfilterforbio DE-627 ger DE-627 rakwb eng 000 620 DNB Yibin Hong verfasserin aut A Memristor-Based Continuous-Time Digital FIR Filter for Biomedical Signal Processing 2015 Text txt rdacontent ohne Hilfsmittel zu benutzen n rdamedia Band nc rdacarrier This paper proposes a new timing storage circuit based on memristors. Its ability to store and reproduce timing information in an analog manner without performing quantization can be useful for a wide range of applications. For continuous-time (CT) digital filters, the power and area costly analog delay blocks, which are usually implemented as inverter chains or their variants, can be replaced by the proposed timing storage circuits to delay CT digital signals in a more efficient way, especially for low-frequency biomedical applications that require very long tap delays. In addition, the same timing storage circuits also enable the storage of CT digital signals, extending the benefits of CT digital signal processing (DSP) to applications that require signal storage. As an example, a 15-tap CT finite impulse response (FIR) Savitzky-Golay (S-G) filter was designed with memristor-based delay blocks to smoothen electrocardiographic (ECG) signals accompanied with high-frequency noise. The simulated power consumption under a 3.3-volt supply was 6.63 μw. continuous-time digital signal processing power 6.63 muW continuous-time digital filters CT DSP FIR filters biomedical signal processing timing information inverter chains CT digital signal processing Asynchronous circuit design CT digital filters memristors continuous time filters Digital signal processing timing storage circuit memristor-based delay blocks Inverters timing storage analog delay blocks Switches Integrated circuit modeling memristor memristor circuits CT finite impulse response Savitzky-Golay filter timing circuits Delays level-crossing sampling CT FIR S-G filter medical signal processing CT digital signals storage voltage 3.3 V Signal processing Digital broadcasting Digital signal processors Measurement Integrated circuits Voltage Design and construction Memristors Usage Semiconductor chips Yong Lian oth Enthalten in IEEE transactions on circuits and systems / 1 New York, NY : Institute of Electrical and Electronics Engineers, 1992 62(2015), 5, Seite 1392-1401 (DE-627)131043080 (DE-600)1100194-X (DE-576)02804679X 1549-8328 nnns volume:62 year:2015 number:5 pages:1392-1401 http://dx.doi.org/10.1109/TCSI.2015.2403033 Volltext http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=7080909 http://search.proquest.com/docview/1685290668 GBV_USEFLAG_A SYSFLAG_A GBV_OLC SSG-OLC-TEC SSG-OLC-MAT GBV_ILN_30 GBV_ILN_70 GBV_ILN_2002 GBV_ILN_2005 GBV_ILN_2059 AR 62 2015 5 1392-1401
language	English
source	Enthalten in IEEE transactions on circuits and systems / 1 62(2015), 5, Seite 1392-1401 volume:62 year:2015 number:5 pages:1392-1401
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topic_facet	continuous-time digital signal processing power 6.63 muW continuous-time digital filters CT DSP FIR filters biomedical signal processing timing information inverter chains CT digital signal processing Asynchronous circuit design CT digital filters memristors continuous time filters Digital signal processing timing storage circuit memristor-based delay blocks Inverters timing storage analog delay blocks Switches Integrated circuit modeling memristor memristor circuits CT finite impulse response Savitzky-Golay filter timing circuits Delays level-crossing sampling CT FIR S-G filter medical signal processing CT digital signals storage voltage 3.3 V Signal processing Digital broadcasting Digital signal processors Measurement Integrated circuits Voltage Design and construction Memristors Usage Semiconductor chips
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author	Yibin Hong
spellingShingle	Yibin Hong ddc 000 misc continuous-time digital signal processing misc power 6.63 muW misc continuous-time digital filters misc CT DSP misc FIR filters misc biomedical signal processing misc timing information misc inverter chains misc CT digital signal processing misc Asynchronous circuit design misc CT digital filters misc memristors misc continuous time filters misc Digital signal processing misc timing storage circuit misc memristor-based delay blocks misc Inverters misc timing storage misc analog delay blocks misc Switches misc Integrated circuit modeling misc memristor misc memristor circuits misc CT finite impulse response Savitzky-Golay filter misc timing circuits misc Delays misc level-crossing sampling misc CT FIR S-G filter misc medical signal processing misc CT digital signals storage misc voltage 3.3 V misc Signal processing misc Digital broadcasting misc Digital signal processors misc Measurement misc Integrated circuits misc Voltage misc Design and construction misc Memristors misc Usage misc Semiconductor chips A Memristor-Based Continuous-Time Digital FIR Filter for Biomedical Signal Processing
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topic_title	000 620 DNB A Memristor-Based Continuous-Time Digital FIR Filter for Biomedical Signal Processing continuous-time digital signal processing power 6.63 muW continuous-time digital filters CT DSP FIR filters biomedical signal processing timing information inverter chains CT digital signal processing Asynchronous circuit design CT digital filters memristors continuous time filters Digital signal processing timing storage circuit memristor-based delay blocks Inverters timing storage analog delay blocks Switches Integrated circuit modeling memristor memristor circuits CT finite impulse response Savitzky-Golay filter timing circuits Delays level-crossing sampling CT FIR S-G filter medical signal processing CT digital signals storage voltage 3.3 V Signal processing Digital broadcasting Digital signal processors Measurement Integrated circuits Voltage Design and construction Memristors Usage Semiconductor chips
topic	ddc 000 misc continuous-time digital signal processing misc power 6.63 muW misc continuous-time digital filters misc CT DSP misc FIR filters misc biomedical signal processing misc timing information misc inverter chains misc CT digital signal processing misc Asynchronous circuit design misc CT digital filters misc memristors misc continuous time filters misc Digital signal processing misc timing storage circuit misc memristor-based delay blocks misc Inverters misc timing storage misc analog delay blocks misc Switches misc Integrated circuit modeling misc memristor misc memristor circuits misc CT finite impulse response Savitzky-Golay filter misc timing circuits misc Delays misc level-crossing sampling misc CT FIR S-G filter misc medical signal processing misc CT digital signals storage misc voltage 3.3 V misc Signal processing misc Digital broadcasting misc Digital signal processors misc Measurement misc Integrated circuits misc Voltage misc Design and construction misc Memristors misc Usage misc Semiconductor chips
topic_unstemmed	ddc 000 misc continuous-time digital signal processing misc power 6.63 muW misc continuous-time digital filters misc CT DSP misc FIR filters misc biomedical signal processing misc timing information misc inverter chains misc CT digital signal processing misc Asynchronous circuit design misc CT digital filters misc memristors misc continuous time filters misc Digital signal processing misc timing storage circuit misc memristor-based delay blocks misc Inverters misc timing storage misc analog delay blocks misc Switches misc Integrated circuit modeling misc memristor misc memristor circuits misc CT finite impulse response Savitzky-Golay filter misc timing circuits misc Delays misc level-crossing sampling misc CT FIR S-G filter misc medical signal processing misc CT digital signals storage misc voltage 3.3 V misc Signal processing misc Digital broadcasting misc Digital signal processors misc Measurement misc Integrated circuits misc Voltage misc Design and construction misc Memristors misc Usage misc Semiconductor chips
topic_browse	ddc 000 misc continuous-time digital signal processing misc power 6.63 muW misc continuous-time digital filters misc CT DSP misc FIR filters misc biomedical signal processing misc timing information misc inverter chains misc CT digital signal processing misc Asynchronous circuit design misc CT digital filters misc memristors misc continuous time filters misc Digital signal processing misc timing storage circuit misc memristor-based delay blocks misc Inverters misc timing storage misc analog delay blocks misc Switches misc Integrated circuit modeling misc memristor misc memristor circuits misc CT finite impulse response Savitzky-Golay filter misc timing circuits misc Delays misc level-crossing sampling misc CT FIR S-G filter misc medical signal processing misc CT digital signals storage misc voltage 3.3 V misc Signal processing misc Digital broadcasting misc Digital signal processors misc Measurement misc Integrated circuits misc Voltage misc Design and construction misc Memristors misc Usage misc Semiconductor chips
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title	A Memristor-Based Continuous-Time Digital FIR Filter for Biomedical Signal Processing
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title_full	A Memristor-Based Continuous-Time Digital FIR Filter for Biomedical Signal Processing
author_sort	Yibin Hong
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title_sort	memristor-based continuous-time digital fir filter for biomedical signal processing
title_auth	A Memristor-Based Continuous-Time Digital FIR Filter for Biomedical Signal Processing
abstract	This paper proposes a new timing storage circuit based on memristors. Its ability to store and reproduce timing information in an analog manner without performing quantization can be useful for a wide range of applications. For continuous-time (CT) digital filters, the power and area costly analog delay blocks, which are usually implemented as inverter chains or their variants, can be replaced by the proposed timing storage circuits to delay CT digital signals in a more efficient way, especially for low-frequency biomedical applications that require very long tap delays. In addition, the same timing storage circuits also enable the storage of CT digital signals, extending the benefits of CT digital signal processing (DSP) to applications that require signal storage. As an example, a 15-tap CT finite impulse response (FIR) Savitzky-Golay (S-G) filter was designed with memristor-based delay blocks to smoothen electrocardiographic (ECG) signals accompanied with high-frequency noise. The simulated power consumption under a 3.3-volt supply was 6.63 μw.
abstractGer	This paper proposes a new timing storage circuit based on memristors. Its ability to store and reproduce timing information in an analog manner without performing quantization can be useful for a wide range of applications. For continuous-time (CT) digital filters, the power and area costly analog delay blocks, which are usually implemented as inverter chains or their variants, can be replaced by the proposed timing storage circuits to delay CT digital signals in a more efficient way, especially for low-frequency biomedical applications that require very long tap delays. In addition, the same timing storage circuits also enable the storage of CT digital signals, extending the benefits of CT digital signal processing (DSP) to applications that require signal storage. As an example, a 15-tap CT finite impulse response (FIR) Savitzky-Golay (S-G) filter was designed with memristor-based delay blocks to smoothen electrocardiographic (ECG) signals accompanied with high-frequency noise. The simulated power consumption under a 3.3-volt supply was 6.63 μw.
abstract_unstemmed	This paper proposes a new timing storage circuit based on memristors. Its ability to store and reproduce timing information in an analog manner without performing quantization can be useful for a wide range of applications. For continuous-time (CT) digital filters, the power and area costly analog delay blocks, which are usually implemented as inverter chains or their variants, can be replaced by the proposed timing storage circuits to delay CT digital signals in a more efficient way, especially for low-frequency biomedical applications that require very long tap delays. In addition, the same timing storage circuits also enable the storage of CT digital signals, extending the benefits of CT digital signal processing (DSP) to applications that require signal storage. As an example, a 15-tap CT finite impulse response (FIR) Savitzky-Golay (S-G) filter was designed with memristor-based delay blocks to smoothen electrocardiographic (ECG) signals accompanied with high-frequency noise. The simulated power consumption under a 3.3-volt supply was 6.63 μw.
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container_issue	5
title_short	A Memristor-Based Continuous-Time Digital FIR Filter for Biomedical Signal Processing
url	http://dx.doi.org/10.1109/TCSI.2015.2403033 http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=7080909 http://search.proquest.com/docview/1685290668
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up_date	2024-07-03T16:29:53.056Z
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