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High-speed switched-capacitor filters based on unity-gain buffersBruneau, David 22 April 2002 (has links)
In this work a new voltage buffer, the drain-follower, achieves 300MHz band-width
with 2pF load, a dc gain of 0.993V/V, 1mV offset voltage, -60 dB total harmonic
distortion at 1.4Vpp output voltage and 6.5mW power dissipation from 5V
supply. A unity-gain buffer switched-capacitor biquad filter has been implemented
in 0.5��m CMOS technology. The circuit has been sent for fabrication. Simulation
results of the biquad filter indicate operation at 100MHz with 20mW power
consumption from a 5V supply can be achieved. / Graduation date: 2002
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Design techniques of high-performance switched capacitor circuits in the presence of component imperfectionsHuang, Yunteng 06 March 1997 (has links)
This thesis describes design techniques for high-performance switched-capacitor
(SC) circuits, primarily for high-linearity low-noise SC circuits in the presence of
component imperfections, such as nonlinear op-amp voltage transfer characteristics,
capacitor nonlinearities as well as the finite op-amp dc gain and op-amp offset and noise.
Various correlated-double-sampling (CDS) schemes are discussed, and some novel
predictive CDS schemes are proposed. Analysis, simulation and experimental results show
that these schemes are very effective for reducing the effects of op-amp imperfections,
resulting in lower signal distortion and reduced low-frequency noise and dc offset. The
effect of capacitor nonlinearity in an SC circuits is analyzed in detail, and techniques for
linearization are discussed. Applying these techniques, MOSFET capacitors can be used in
high-performance digital-process-compatible SC circuit designs.
To verify the effectiveness of the proposed techniques, three prototype chips
containing a 3-V all-MOSFET delta-sigma modulator, predictive gain- and offset-compensated
track-and-hold stages, and SC amplifiers with various CDS techniques, were
designed and fabricated in 1.2 ��m CMOS technology. The measured results show that
these circuit techniques are highly effective in high-performance SC circuit designs. / Graduation date: 1997
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An efficient switched capacitor buck-boost voltage regulator using delta-sigma control loopRao, Arun 29 April 2002 (has links)
Voltage converters or charge pumps find their use in many circuits. They are
extensively used in hand held devices as cell phones, pagers, PDA's and laptops.
Some of the important issues relating to design of voltage regulators for handheld
devices are size, efficiency and noise. Another important factor to be considered is
the discharge characteristic of the various batteries used by the handheld devices.
This thesis addresses the issues of tones present in the conventional switched
capacitor voltage regulator. An alternate architecture with a delta-sigma control
loop to eliminate this problem is proposed. Also discussed is a method to compute
the efficiency of switched capacitor charge pumps. A test chip implementing the new
architecture was fabricated in a 0.72-micron CMOS process. The results of the test
chip verify the improved architecture. / Graduation date: 2002
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Analysis and measurement of charge injection in switched-capacitor circuitsShen, Min 10 March 1998 (has links)
It has been verified by theoretical analysis, circuit simulation and test that two
switch transistors in parallel in a simple sample and hold circuit can be achieve high speed
with low error voltage due to charge injection. The wide transistor provides low RC time
constant when it is closed and the narrow one ensures a low error voltage. However, tradeoff
can be made in a specific application. A concise analytical expression for switch-induced
error voltage on a switched capacitor is derived in this thesis. It can help designer
to make the optimum decision. Experimentally, it was found that the optimum size of the
wide transistor is several times wider than the narrow one.
Delayed clock scheme can be used to make charge injection signal-independent in
a basic integrator structure. Using two transistors with different sizes and clock duty
cycles in parallel can take advantage of the fast speed of the wide transistor and the small
charge injection error of the small transistor. However, the combination of the two
devices, including the size and clock duty cycles, should be chosen carefully to achieve
the improvement. / Graduation date: 1998
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High-linearity switched-capacitor circuits in digital CMOS technologiesYoshizawa, Hirokazu 15 May 1997 (has links)
In this thesis, novel design techniques have been proposed for implementing high-linearity SC circuits in a standard digital CMOS process. They use nonlinear MOSFET capacitors instead of linear double-poly capacitors. To reduce their nonlinearities, a bias voltage is applied to keep MOSFET capacitors in their accumulation regions. For further reduction of distortion, two capacitors can be connected in series or in parallel so that a first-order cancellation of the nonlinearity can be achieved. Experimental results demonstrated that the among these techniques series compensation is the most effective for reducing the nonlinearity of MOSFET capacitors.
A novel predictive SC amplifier has been proposed for its insensitivity to op-amp imperfections. Experimental results show that the S/THD of the predictive SC amplifier was 10 dB larger than that of the non-predictive one. It was also shown that a predictive circuit was effective for reducing the nonlinearity caused by the op-amp and/or the MOSFET capacitors.
It has been demonstrated that a two-stage op-amp with a large output swing can be fabricated in a standard digital CMOS process. The frequency compensation was accomplished using a source follower and a MOSFET capacitor. An SC amplifier using this two-stage op-amp and double-poly capacitors was fabricated, and it exhibited a large linear output range.
A MOSFET-only digitally controlled gain/loss circuit was designed and fabricated in a 1.2�� CMOS process. It demonstrated that the series compensation is effective not only for a large output swing in an amplifier, but also for a large input swing in an attenuator.
A pipeline D/A converter utilizing MOSFET capacitors was designed as another application of charge processing technique. It consisted of three parts: a V-Q conversion stage, a charge transfer stage, and a Q-V converter.
A new switch configuration which enables the series compensation to have a large bias voltage has also been proposed. It was shown that it works well, and it will be helpful for low-voltage operation, too. / Graduation date: 1998
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Novel switched-capacitor circuits for delta-sigma modulatorsYesilyurt, Ayse Gul 14 March 1997 (has links)
Oversampled delta-sigma modulation is one of the widely used A/D conversion
techniques for narrow bandwidth signals. In this study several new lowpass and
bandpass delta-sigma modulator architectures as well as novel pseudo-N-path integrators
that can be used in implementing these architectures are proposed.
By using multiplexing techniques the new lowpass delta-sigma modulator
architectures exchange higher clock rates with hardware complexity. For a given
oversampling ratio (OSR), the multiplexed first-order delta-sigma modulator achieves a
higher resolution. Guaranteed stability is a very desirable feature of these structures.
The multi-loop delta-sigma modulator architecture similarly reduces the number of
integrators needed to achieve high-resolution conversion for a given OSR. To ensure
stability a quantizer with (N+1) bits must be used, where N is the number of loops, or in
other words, the order of the delta-sigma modulator. Digital correction or randomizing
techniques can be used to eliminate the performance reduction due to digital-to-analog-
(D/A) converter nonlinearity error [59], [64].
Bandpass delta-sigma modulators are useful for applications such as AM radio
receivers, spectrum analyzers, and digital wireless systems. Using z --> -z[superscript N] or z --> z[superscript N] mapping, a low pass delta-sigma modulator can be transformed to a bandpass one. One
of the methods to implement the loop filters in bandpass delta-sigma modulators is to use Pseudo-N-Path (PNP) switched-capacitor (SC) integrators. The advantage is that the center frequency occurs exactly at an integer division of the sampling frequency because of the number of physical paths. To achieve maximum resolution, integrators that do not suffer from clock feedthrough peaks are needed. The proposed differential and single-ended novel PNP integrators address this problem [76]. To keep the opamp specifications less stringent while achieving high resolution, these PNP integrators have been further improved with gain compensation techniques [53]. / Graduation date: 1997
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The design of a postfilter for a delta-sigma digital-to-analog converterChen, Chao-Yin 19 August 1993 (has links)
Graduation date: 1994
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Current-feedthrough cancellation techniques in switched-current circuitsLao, Paul A. 06 August 1990 (has links)
Graduation date: 1991
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A tuning circuit for MOSFET C filterLin, Chang-Chih 16 January 2007 (has links)
MOSFET-C filters is popular in analog filters, the major reason is the simplicity. They are easily implemented with opamps and have similar architectures to active RC filters [1], this saves much of the design time.
The frequency response of analog continuous time filters is determined by resistors, capacitors, inductors or transconductors. However, the process variation, temperature drift and aging, make the integrated RC time constants vary about 30 percent [2]~[3].
We proposed a switched-capacitor tuning circuit , which can be used in MOSFET-C Filter and the novel tuning circuit doesn¡¦t need off chip capacitor. The novel circuit has following advantages (1). Small chip size. (2). Simplicity (3). Low reference clock frequency.
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Design of wideband switched-capacitor delta-sigma analog-to-digital converters /Wang, Peng Chong. January 2009 (has links)
Includes bibliographical references (p. 118-120).
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