ADC System Architecture - PowerPoint PPT Presentation

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ADC System Architecture

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ADC System Architecture – PowerPoint PPT presentation

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Title: ADC System Architecture


1
ADC System Architecture
  • LMS Adaptive Filter is designed to correct the
    errors from a high speed pipelined ADC.
  • Analog accuracy problem is translated to DSP
    problem in this approach
  • Error Signal
  • ?(n)d(n)-X(n)TW(n)
  • where d(n) is the correct/ideal value, W and X
    are vectors. X(n) is the input and W(n) is the
    tap values.
  • Tap Update
  • W(n1)W(n)2??(n)X(n)
  • where ? is the step size . Step size determines
    the convergence time.
  • LMS Output
  • Y(n)W(n)TX(n)

2
2-1 MASH ?? Architecture
  • ?? ADC specifications
  • 14-bit accuracy (84.3dB Dynamic Range)
  • ?1 Msample/sec
  • Matching errors limit the additional dynamic
    range achievable with the extra stage

3
Voltage Scaled ??
  • Applying voltage scaling to limit the output
    voltage swings of the integrators

DR100dB for M64
4
SQNR of 2-1 MASH ??
  • Simulink simulation
  • M64
  • Peak SQNR95dB

5
Switched Capacitor Integrators
  • Integrators are implemented with switched
    capacitors.
  • Non-overlapping clocks are used to reduce
    switched charge injections.
  • Bootstrapped clocks are employed at the input and
    the feedback switches to minimize signal
    dependent switch charge injection.
  • The 1st integrator is shown below. The 2nd and
    3rd integrators are implemented using a similar
    structure.

6
Amplifier Design
  • OTA architecture is a single stage gain boosted
    folded cascode
  • High Gain, Gain ? (gmro)4
  • High Speed
  • The transistor sizes are limited by flicker noise
  • The 2nd and 3rd are scaled versions of the 1st
    integrator to reduce power consumption

Gain
Vod
1st OTA
7
CMFB and Comparator
  • Common Mode Feedback(CMFB)
  • Switch capacitor common mode feedback circuit
  • Common mode output is set at mid-rail

CMFB
  • Comparator
  • The performance of the modulator is relative
    insensitive to the comparator offset and
    hysteresis
  • The effects of these impairments are noise
    shaped by the 2nd order modulator the same as the
    quantization noise.

Comparator
8
Clock Generation
  • The operation of the modulation is controlled by
    non-overlapping clocks.
  • To the first order, the MOS switch charge
    injection is canceled by the differential design.

9
Decimation Filter
  • One bit raw codes from the ?? is decimated to 14
    bit codes using digital low pass FIR filter
  • 2 stage decimation filter is the most suitable
    design considering hardware and filter transient
    response time
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