design high frequency multirate switched capacitor di seng pan (33 risultati)

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Taschenbuch. Condizione: Neu. Druck auf Anfrage Neuware - Printed after ordering - Design of Very High-Frequency Multirate Switched-Capacitor Circuits presents the theory and the corresponding CMOS implementation of the novel multirate sampled-data analog interpolation technique which has its great potential on very high-frequency analog frond-end filtering due to its inherent dual advantage of reducing the speed of data-converters and DSP core together with the specification relaxation of the post continuous-time filtering. This technique completely eliminates the traditional phenomenon of sampled-and-hold frequency-shaping at the lower input sampling rate. Also, in order to tackle physical IC imperfections at very high frequency, the state-of-the-art circuit design and layout techniques for high-speed Switched-Capacitor (SC) circuits are comprehensively discussed:-Optimum circuit architecture tradeoff analysis-Simple speed and power trade-off analysis of active elements-High-order filtering response accuracy with respect to capacitor-ratio mismatches-Time-interleaved effect with respect to gain and offset mismatch-Time-interleaved effect with respect to timing-skew and random jitter with non-uniformly holding-Stage noise analysis and allocation scheme-Substrate and supply noise reduction-Gain-and offset-compensation techniques-High-bandwidth low-power amplifier design and layout-Very low timing-skew multiphase generationTwo tailor-made optimum design examples in CMOS are presented. The first one achieves a 3-stage 8-fold SC interpolating filter with 5.5MHz bandwidth and 108MHz output sampling rate for a NTSC/PAL CCIR 601 digital video at 3 V. Another is a 15-tap 57MHz SC FIR bandpass interpolating filter with 4-fold sampling rate increase to 320MHz and the first-time embedded frequency band up-translation for DDFS system at 2.5V. The corresponding chip prototype achieves so far the highest operating frequency, highest filter order and highest center frequency with highestdynamic range under the lowest supply voltage when compared to the previously reported high-frequency SC filters in CMOS.

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Paperback. Condizione: new. Paperback. Design of Very High-Frequency Multirate Switched-Capacitor Circuits presents the theory and the corresponding CMOS implementation of the novel multirate sampled-data analog interpolation technique which has its great potential on very high-frequency analog frond-end filtering due to its inherent dual advantage of reducing the speed of data-converters and DSP core together with the specification relaxation of the post continuous-time filtering. This technique completely eliminates the traditional phenomenon of sampled-and-hold frequency-shaping at the lower input sampling rate.Also, in order to tackle physical IC imperfections at very high frequency, the state-of-the-art circuit design and layout techniques for high-speed Switched-Capacitor (SC) circuits are comprehensively discussed: -Optimum circuit architecture tradeoff analysis-Simple speed and power trade-off analysis of active elements-High-order filtering response accuracy with respect to capacitor-ratio mismatches-Time-interleaved effect with respect to gain and offset mismatch-Time-interleaved effect with respect to timing-skew and random jitter with non-uniformly holding-Stage noise analysis and allocation scheme-Substrate and supply noise reduction-Gain-and offset-compensation techniques-High-bandwidth low-power amplifier design and layout-Very low timing-skew multiphase generation Two tailor-made optimum design examples in CMOS are presented. The first one achieves a 3-stage 8-fold SC interpolating filter with 5.5MHz bandwidth and 108MHz output sampling rate for a NTSC/PAL CCIR 601 digital video at 3 V. Another is a 15-tap 57MHz SC FIR bandpass interpolating filter with 4-fold sampling rate increase to 320MHz and the first-time embedded frequency band up-translation for DDFS system at 2.5V.The corresponding chip prototype achieves so far the highest operating frequency, highest filter order and highest center frequency with highest dynamic range under the lowest supply voltage when compared to the previously reported high-frequency SC filters in CMOS. This title presents the theory and the corresponding CMOS implementation of the novel multirate sampled-data analog interpolation technique which has its great potential on very high-frequency analog front-end filtering due to its inherent dual advantage of reducing the speed of data-converters and DSP core. Shipping may be from multiple locations in the US or from the UK, depending on stock availability.

Buch. Condizione: Neu. Neuware - Design of Very High-Frequency Multirate Switched-Capacitor Circuits presents the theory and the corresponding CMOS implementation of the novel multirate sampled-data analog interpolation technique which has its great potential on very high-frequency analog frond-end filtering due to its inherent dual advantage of reducing the speed of data-converters and DSP core together with the specification relaxation of the post continuous-time filtering. This technique completely eliminates the traditional phenomenon of sampled-and-hold frequency-shaping at the lower input sampling rate. Also, in order to tackle physical IC imperfections at very high frequency, the state-of-the-art circuit design and layout techniques for high-speed Switched-Capacitor (SC) circuits are comprehensively discussed:-Optimum circuit architecture tradeoff analysis-Simple speed and power trade-off analysis of active elements-High-order filtering response accuracy with respect to capacitor-ratio mismatches-Time-interleaved effect with respect to gain and offset mismatch-Time-interleaved effect with respect to timing-skew and random jitter with non-uniformly holding-Stage noise analysis and allocation scheme-Substrate and supply noise reduction-Gain-and offset-compensation techniques-High-bandwidth low-power amplifier design and layout-Very low timing-skew multiphase generationTwo tailor-made optimum design examples in CMOS are presented. The first one achieves a 3-stage 8-fold SC interpolating filter with 5.5MHz bandwidth and 108MHz output sampling rate for a NTSC/PAL CCIR 601 digital video at 3 V. Another is a 15-tap 57MHz SC FIR bandpass interpolating filter with 4-fold sampling rate increase to 320MHz and the first-time embedded frequency band up-translation for DDFS system at 2.5V. The corresponding chip prototype achieves so far the highest operating frequency, highest filter order and highest center frequency with highestdynamic range under the lowest supply voltage when compared to the previously reported high-frequency SC filters in CMOS.

Hardcover. Condizione: new. Hardcover. Design of Very High-Frequency Multirate Switched-Capacitor Circuits presents the theory and the corresponding CMOS implementation of the novel multirate sampled-data analog interpolation technique which has its great potential on very high-frequency analog frond-end filtering due to its inherent dual advantage of reducing the speed of data-converters and DSP core together with the specification relaxation of the post continuous-time filtering. This technique completely eliminates the traditional phenomenon of sampled-and-hold frequency-shaping at the lower input sampling rate. Also, in order to tackle physical IC imperfections at very high frequency, the state-of-the-art circuit design and layout techniques for high-speed Switched-Capacitor (SC) circuits are comprehensively discussed:-Optimum circuit architecture tradeoff analysis-Simple speed and power trade-off analysis of active elements-High-order filtering response accuracy with respect to capacitor-ratio mismatches-Time-interleaved effect with respect to gain and offset mismatch-Time-interleaved effect with respect to timing-skew and random jitter with non-uniformly holding-Stage noise analysis and allocation scheme-Substrate and supply noise reduction-Gain-and offset-compensation techniques-High-bandwidth low-power amplifier design and layout-Very low timing-skew multiphase generationTwo tailor-made optimum design examples in CMOS are presented. The first one achieves a 3-stage 8-fold SC interpolating filter with 5.5MHz bandwidth and 108MHz output sampling rate for a NTSC/PAL CCIR 601 digital video at 3 V. Another is a 15-tap 57MHz SC FIR bandpass interpolating filter with 4-fold sampling rate increase to 320MHz and the first-time embedded frequency band up-translation for DDFS system at 2.5V. The corresponding chip prototype achieves so far the highest operating frequency, highest filter order and highest center frequency with highestdynamic range under the lowest supply voltage when compared to the previously reported high-frequency SC filters in CMOS. Presents the theory and the corresponding CMOS implementation of the novel multirate sampled-data analog interpolation technique. In order to tackle physical IC imperfections at very high frequency, this work discusses the circuit design and layout techniques for high-speed Switched-Capacitor (SC) circuits. Shipping may be from multiple locations in the US or from the UK, depending on stock availability.

Paperback. Condizione: new. Paperback. Design of Very High-Frequency Multirate Switched-Capacitor Circuits presents the theory and the corresponding CMOS implementation of the novel multirate sampled-data analog interpolation technique which has its great potential on very high-frequency analog frond-end filtering due to its inherent dual advantage of reducing the speed of data-converters and DSP core together with the specification relaxation of the post continuous-time filtering. This technique completely eliminates the traditional phenomenon of sampled-and-hold frequency-shaping at the lower input sampling rate.Also, in order to tackle physical IC imperfections at very high frequency, the state-of-the-art circuit design and layout techniques for high-speed Switched-Capacitor (SC) circuits are comprehensively discussed: -Optimum circuit architecture tradeoff analysis-Simple speed and power trade-off analysis of active elements-High-order filtering response accuracy with respect to capacitor-ratio mismatches-Time-interleaved effect with respect to gain and offset mismatch-Time-interleaved effect with respect to timing-skew and random jitter with non-uniformly holding-Stage noise analysis and allocation scheme-Substrate and supply noise reduction-Gain-and offset-compensation techniques-High-bandwidth low-power amplifier design and layout-Very low timing-skew multiphase generation Two tailor-made optimum design examples in CMOS are presented. The first one achieves a 3-stage 8-fold SC interpolating filter with 5.5MHz bandwidth and 108MHz output sampling rate for a NTSC/PAL CCIR 601 digital video at 3 V. Another is a 15-tap 57MHz SC FIR bandpass interpolating filter with 4-fold sampling rate increase to 320MHz and the first-time embedded frequency band up-translation for DDFS system at 2.5V.The corresponding chip prototype achieves so far the highest operating frequency, highest filter order and highest center frequency with highest dynamic range under the lowest supply voltage when compared to the previously reported high-frequency SC filters in CMOS. This title presents the theory and the corresponding CMOS implementation of the novel multirate sampled-data analog interpolation technique which has its great potential on very high-frequency analog front-end filtering due to its inherent dual advantage of reducing the speed of data-converters and DSP core. Shipping may be from our Sydney, NSW warehouse or from our UK or US warehouse, depending on stock availability.

Hardcover. Condizione: new. Hardcover. Design of Very High-Frequency Multirate Switched-Capacitor Circuits presents the theory and the corresponding CMOS implementation of the novel multirate sampled-data analog interpolation technique which has its great potential on very high-frequency analog frond-end filtering due to its inherent dual advantage of reducing the speed of data-converters and DSP core together with the specification relaxation of the post continuous-time filtering. This technique completely eliminates the traditional phenomenon of sampled-and-hold frequency-shaping at the lower input sampling rate. Also, in order to tackle physical IC imperfections at very high frequency, the state-of-the-art circuit design and layout techniques for high-speed Switched-Capacitor (SC) circuits are comprehensively discussed:-Optimum circuit architecture tradeoff analysis-Simple speed and power trade-off analysis of active elements-High-order filtering response accuracy with respect to capacitor-ratio mismatches-Time-interleaved effect with respect to gain and offset mismatch-Time-interleaved effect with respect to timing-skew and random jitter with non-uniformly holding-Stage noise analysis and allocation scheme-Substrate and supply noise reduction-Gain-and offset-compensation techniques-High-bandwidth low-power amplifier design and layout-Very low timing-skew multiphase generationTwo tailor-made optimum design examples in CMOS are presented. The first one achieves a 3-stage 8-fold SC interpolating filter with 5.5MHz bandwidth and 108MHz output sampling rate for a NTSC/PAL CCIR 601 digital video at 3 V. Another is a 15-tap 57MHz SC FIR bandpass interpolating filter with 4-fold sampling rate increase to 320MHz and the first-time embedded frequency band up-translation for DDFS system at 2.5V. The corresponding chip prototype achieves so far the highest operating frequency, highest filter order and highest center frequency with highestdynamic range under the lowest supply voltage when compared to the previously reported high-frequency SC filters in CMOS. Presents the theory and the corresponding CMOS implementation of the novel multirate sampled-data analog interpolation technique. In order to tackle physical IC imperfections at very high frequency, this work discusses the circuit design and layout techniques for high-speed Switched-Capacitor (SC) circuits. Shipping may be from our Sydney, NSW warehouse or from our UK or US warehouse, depending on stock availability.

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Condizione: New. Dieser Artikel ist ein Print on Demand Artikel und wird nach Ihrer Bestellung fuer Sie gedruckt. Design of state-of-the-art and most complex SC Analog Filter in CMOSDetailed circuit and layout optimization technique for very high-frequency CMOS SC circuitsComprehensive signal spectrum and noise analysis with timing-mismatch and non-uni.

Taschenbuch. Condizione: Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -Design of Very High-Frequency Multirate Switched-Capacitor Circuits presents the theory and the corresponding CMOS implementation of the novel multirate sampled-data analog interpolation technique which has its great potential on very high-frequency analog frond-end filtering due to its inherent dual advantage of reducing the speed of data-converters and DSP core together with the specification relaxation of the post continuous-time filtering. This technique completely eliminates the traditional phenomenon of sampled-and-hold frequency-shaping at the lower input sampling rate. Also, in order to tackle physical IC imperfections at very high frequency, the state-of-the-art circuit design and layout techniques for high-speed Switched-Capacitor (SC) circuits are comprehensively discussed:-Optimum circuit architecture tradeoff analysis-Simple speed and power trade-off analysis of active elements-High-order filtering response accuracy with respect to capacitor-ratio mismatches-Time-interleaved effect with respect to gain and offset mismatch-Time-interleaved effect with respect to timing-skew and random jitter with non-uniformly holding-Stage noise analysis and allocation scheme-Substrate and supply noise reduction-Gain-and offset-compensation techniques-High-bandwidth low-power amplifier design and layout-Very low timing-skew multiphase generationTwo tailor-made optimum design examples in CMOS are presented. The first one achieves a 3-stage 8-fold SC interpolating filter with 5.5MHz bandwidth and 108MHz output sampling rate for a NTSC/PAL CCIR 601 digital video at 3 V. Another is a 15-tap 57MHz SC FIR bandpass interpolating filter with 4-fold sampling rate increase to 320MHz and the first-time embedded frequency band up-translation for DDFS system at 2.5V. The corresponding chip prototype achieves so far the highest operating frequency, highest filter order and highest center frequency with highest dynamic range under the lowest supply voltage when compared to the previously reported high-frequency SC filters in CMOS. 260 pp. Englisch.

Taschenbuch. Condizione: Neu. This item is printed on demand - Print on Demand Titel. Neuware -Design of Very High-Frequency Multirate Switched-Capacitor Circuits presents the theory and the corresponding CMOS implementation of the novel multirate sampled-data analog interpolation technique which has its great potential on very high-frequency analog frond-end filtering due to its inherent dual advantage of reducing the speed of data-converters and DSP core together with the specification relaxation of the post continuous-time filtering. This technique completely eliminates the traditional phenomenon of sampled-and-hold frequency-shaping at the lower input sampling rate. Also, in order to tackle physical IC imperfections at very high frequency, the state-of-the-art circuit design and layout techniques for high-speed Switched-Capacitor (SC) circuits are comprehensively discussed:Optimum circuit architecture tradeoff analysisSimple speed and power trade-off analysis of active elementsHigh-order filtering response accuracy with respect to capacitor-ratio mismatchesTime-interleaved effect with respect to gain and offset mismatchTime-interleaved effect with respect to timing-skew and random jitter with non-uniformly holdingStage noise analysis and allocation schemeSubstrate and supply noise reductionGain-and offset-compensation techniquesHigh-bandwidth low-power amplifier design and layoutVery low timing-skew multiphase generationTwo tailor-made optimum design examples in CMOS are presented. The first one achieves a 3-stage 8-fold SC interpolating filter with 5.5MHz bandwidth and 108MHz output sampling rate for a NTSC/PAL CCIR 601 digital video at 3 V. Another is a 15-tap 57MHz SC FIR bandpass interpolating filter with 4-fold sampling rate increase to 320MHz and the first-time embedded frequency band up-translation for DDFS system at 2.5V. The corresponding chip prototype achieves so far the highest operating frequency, highest filter order and highest center frequency with highestdynamic range under the lowest supply voltage when compared to the previously reported high-frequency SC filters in CMOS.Springer Verlag GmbH, Tiergartenstr. 17, 69121 Heidelberg 260 pp. Englisch.