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Systematic Design of SigmaDelta AnalogtoDigital Converters (The Springer International Series in Engineering and Computer Sci,Used
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Systematic Design of SigmaDelta AnalogtoDigital Converters describes the issues related to the sigmadelta analogtodigital converters (ADCs) design in a systematic manner: from the top level of abstraction represented by the filters defining signal and noise transfer functions (STF, NTF), passing through the architecture level where topologyrelated performance is calculated and simulated, and finally down to parameters of circuit elements like resistors, capacitors, and amplifier transconductances used in individual integrators. The systematic approach allows the evaluation of different loop filters (order, aggressiveness, discretetime or continuoustime implementation) with quantizers varying in resolution. Topologies explored range from simple single loops to multiple cascaded loops with complex structures including more feedbacks and feedforwards. For differential circuits, with switchedcapacitor integrators for discretetime (DT) loop filters and activeRC for continuoustime (CT) ones, the passive integrator components are calculated and the power consumption is estimated, based on toplevel requirements like harmonic distortion and noise budget.This unified, systematic approach to choosing the best sigmadelta ADC implementation for a given design target yields an interesting solution for a highresolution, broadband (DSLlike) ADC operated at low oversampling ratio, which is detailed down to transistorlevel schematics.The target audience of Systematic Design of SigmaDelta AnalogtoDigital Converters are engineers designing sigmadelta ADCs and/or switchedcapacitor and continuoustime filters, both beginners and experienced. It is also intended for students/academics involved in sigmadelta and analog CAD research.
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