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In this work, we present a fourth-order cascade-of-integrators feedback Sigma-Delta A/D converter. We use Oversampling and Noise-Shaping techniques to earn a higher resolution than that in the Nyquist-Rate A/D converters. A generic method is presented to make the system stabilized. In order to fix the zeros and poles in the unit circle, we use MATLAB to design the Butterworth high pass filter, and then the coefficients could be obtained. We present a complete design flow to decrease the time of the design. By applying this method, a fourth-order Sigma-Delta A/D converter is implemented by TSMC 0.35 µm 2P4M Mixed-Signal Polycide process provided by National Chip Implementation Center. The circuit specification is as follows: the supply voltage is 3.3 V, the sampling rate is 256, the signal bandwidth is 20k Hz, the working frequency is 10.24Meg Hz, an SNR, 75.7dB is attained, and the total power consumption is 20.3 mW.
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In this work, we present a fourth-order cascade-of-integrators feedback Sigma-Delta A/D converter. We use Oversampling and Noise-Shaping techniques to earn a higher resolution than that in the Nyquist-Rate A/D converters. A generic method is presented to make the system stabilized. In order to fix the zeros and poles in the unit circle, we use MATLAB to design the Butterworth high pass filter, and then the coefficients could be obtained. We present a complete design flow to decrease the time of the design. By applying this method, a fourth-order Sigma-Delta A/D converter is implemented by TSMC 0.35 µm 2P4M Mixed-Signal Polycide process provided by National Chip Implementation Center. The circuit specification is as follows: the supply voltage is 3.3 V, the sampling rate is 256, the signal bandwidth is 20k Hz, the working frequency is 10.24Meg Hz, an SNR, 75.7dB is attained, and the total power consumption is 20.3 mW.
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Switched Capacitor A/D Converter Based on Butterworth Filter Implementation
Anbieter: Ria Christie Collections, Uxbridge, Vereinigtes Königreich
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Switched Capacitor A/D Converter Based on Butterworth Filter Implementation : How to Design Sigma-Delta Analog to Digital Converter
Verlag:
VDM Verlag Dr. Müller, VDM Verlag Dr. Müller E.K., 2008
ISBN 10: 3639001605
ISBN 13: 9783639001600
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Taschenbuch. Zustand: Neu. Neuware - In this work, we present a fourth-order cascade-of-integrators feedback Sigma-Delta A/D converter. We use Oversampling and Noise-Shaping techniques to earn a higher resolution than that in the Nyquist-Rate A/D converters. A generic method is presented to make the system stabilized. In order to fix the zeros and poles in the unit circle, we use MATLAB to design the Butterworth high pass filter, and then the coefficients could be obtained. We present a complete design flow to decrease the time of the design. By applying this method, a fourth-order Sigma-Delta A/D converter is implemented by TSMC 0.35 m 2P4M Mixed-Signal Polycide process provided by National Chip Implementation Center. The circuit specification is as follows: the supply voltage is 3.3 V, the sampling rate is 256, the signal bandwidth is 20k Hz, the working frequency is 10.24Meg Hz, an SNR, 75.7dB is attained, and the total power consumption is 20.3 mW. Artikel-Nr. 9783639001600
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