QUESTION BANK 2016
SIDDHARTH INSTITUTE OF ENGINEERING AND TECHNOLOGY :: PUTTUR
(AUTONOMOUS)
Siddharth Nagar, Narayanavanam Road – 517583
QUESTION BANK
Subject with Code :AICD(16EC5702)
Course & Branch: M.Tech – (VLSI) Year & Sem: I-M.Tech & I-Sem
UNIT –I
INTEGRATED DEVICES AND MODELLING AND CURRENT MIRROR
1. a) Explain in detail about MOS transistors modeling in saturation and cutoff in
highfrequency equivalent circuit. [5M]
b) Explain the advantages of MOS technology over bipolar technology and why
MOS devices gained predominance over bipolar devices. [5M]
2. a) Draw the small signal model for the common source stage and derive the equations
for small signal and also explain how to maximize the gain. [5M]
b) Discuss the frequency response of high output impedance current mirror circuit. [5M]
3. a) Design simple CMOS current mirror circuit and explain its operation [5M]
b) Explain about the source follower with current mirror to supply bias current. [5M]
4. a)Explain the operation of simple CMOS current mirror [5M]
b) Explain the basic electrical properties of MOS circuit in non-saturated region and
saturatedregion. [5M]
5. a) Draw the MOS transistor characteristics for enhancement mode and depletion mode. [5M]
b)What are the deficiencies of MOS technology? How they can it be overcome. [5M]
6. a) Explain briefly large signal modeling for BJT with basic current mirrors. [5M]
b) Discuss the frequency response of single stage BJT amplifiers. [5M]
7. a) Explain the effect of threshold voltage on MOSFET current equations. [5M]
b) Explain the advantages of MOS technology over bipolar technology and why MOS devices
gained predominance over bipolar devices. [5M]
8. a)Draw the structure of a MOS device and explain how it works, with the help of
characteristics. [5M]
b) What are the deficiencies of MOS technology? How they can be overcome. [5M]
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9. a) Explain in detail about MOS transistors modeling in saturation and cut off in high
frequencyequivalent circuit. [5M]
b) Discuss in detail about large signal and small signal modeling for BJT. [5M]
10. a) Explain the effect of threshold voltage on MOSFET current equations. [5M]
b) Explain briefly large signal modeling for BJT with basic current mirrors. [5M]
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UNIT –II
OPERATIONAL AMPLIFIER DESIGN AND COMPENSENSATION
1.a) Discuss the various short channel effects in MOS devices. [5M]
b) Draw the noise model of a source follower with necessary equations.[5M] 2.a)
Explain why common mode feedback is required. [5M]
b) Explain charge injection error. [5M]
3.a) Draw the circuit diagram of common source stage with active load and find its gain.[5M]
b) Explain how the folded-cascode improves the voltage gain. [5M]
4.a)Explain latched comparators. [5M]
b)Explain the design considerations of Bi-CMOS comparator.
5.a)Explain about advanced current mirror circuits. [5M]
b) Explain about two stage CMOS operational amplifier. [5M]
6 Explain about:
a)Bi-CMOS comparator. [5M]
b) Fully differential amplifier.[5M]
7.a) Explain the terms stability, frequency compensation and phase margin in op-amp [5M]
b) Explain what is meant by dominant pole compensation in operational amplifiers. [5M]
8.a) Explain in detail about current feedback OP-amplifier. [5M]
b) Explain about two stage CMOS operational amplifier [5M]
9.a)Discuss about current mirror op-amp. [5M]
b) Explain about common-mode feedback circuit [5M]
10.Discuss the operation of op-amps with current mirror load. [10M]
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UNIT –III
SAMPLE AND HOLD SWITCHED CAPACITOR CIRCUIT-I & II
1. a) Draw a neat figure and explain the basic operation of Bi-CMOS sample and
hold circuit. [5M]
b) What is the function of a first order filter in sample and hold circuit. [5M]
2. a) Explain the correlated double sampling techniques with suitable example. [5M]
b) Explain about folded cascade operational amplifier operation with
circuit diagram. [5M]
3. Discuss in detail about
a)CMOS. [5M]
b)Bi-CMOS sample and hold circuit.[5M]
4. Discuss in detail about correlated double sampling techniques. [10M]
5. a) Give the schematic of a simple sample and hold circuit using a MOS switch.[5M]
b) Explain what is meant by channel charge injection error and how
it is minimized. [5M]
6. a)Explain MOS sample and hold circuit [5M]
b)What is the need for double sampling techniques. [5M]
7. a)Explain the function of folding and pipelining. [5M]
b) Draw a neat figure and explain the operation of a switched capacitor circuit [5M]
8. Explain what is meant by correlated double sampling (CDS) technique.
What are the advantages of correlated double sampling techniques. [10M]
9. Illustrate with an example how CDS techniques can be used to minimize
offsets, 1/f noise and other errors in switched capacitor circuits. [10M]
10.a) Explain about Switched capacitor gain circuit.[5M]
b)Design about Biquard filter. [5M]
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UNIT-IV
DATA CONVERTERS
1. a) Explain the operation of over sampling A/D converter. [5M]
b) Explain briefly about Hybrid converter. [5M]
2. a) Differentiate interpolation and decimation. [5M]
b) Explain the design procedure for integrates A/D converters. [5M]
3. a) Folding and pipelined A/D converters. [5M]
b) Define the terms resolution, offset and gain errors, integral linearity error
an differential non linearity error in respect of Nyquist D/A converters. [5M]
4. a) Draw the schematic of 4 bit resistor based binary weighted D/A converter and
explain itoperation. What are the advantages of binary weighted converters?
b) With the help of a neat diagram, explain the working of a successive
approximation ADC. [5M]
5. a) Explain the working of a Hybrid DAC. [5M]
b) Explain the function of folding and pipelining. [5M]
6. a) Explain the parameters quantization noise and Nyquist rate with respect
to an ideal D/A &A/D converters. [5M]
b) Write briefly about:
i. Binary scaled converters. [3M]
ii.Pipelined A/D converters. [2M]
7. a) Explain the design procedure for successive approximation type DAC. [5M]
b) Explain about Cyclic flash type ADC. [5M]
8. a) Explain in detail about Ideal D/A & A/D converters. [5M]
b) Explain in detail about Nyquist rate D/A converters. [5M]
9. a) Describe the working of a binary scaled DAC. [5M]
b) Explain about Twostep ADC. [5M]
10. a) Explain about interpolating A/D converters. [5M]
b) Explain about Time interleaved A/D converters. [5M]
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UNIT –V
OVER SAMPLING CONVERTERS AND FILTERS
1. a) Write about Digital decimation filter. [5M]
b) Write about over sampling without noise shaping. [5M]
2. Write explanatory notes on:
a)Over sampling with Noise shaping. [5M]
b)Continuous time filters. [5M]
3. Discuss in detail about band pass over sampling converter [10M]
4. Write about over sampling advantages and disadvantages. [10M]
5. a) Define the term over sampling ratio (OSR) in data converters. Explain how
oversampling improves the signal to noise ratio of a data converter. [5M]
b) Digital decimation filter. [5M]
6. a)Explain the structure of a first order noise shaped sigma delta modulator. [5M]
b) How does noise shaping improve the signal to noise ratio. [5M]
7. Discuss in detail about over sampling with and without noise shaping. [10M]
8. a) Explain about practical considerations for stability. [5M]
b) Discuss about linearity of two –level converters. [5M]
9. a) Explain about multi bit oversampling converters. [5M]
b) Explain about dynamic matched current sources in a D/A converter. [5M]
10. a) Discuss about third-order A/D design example. [5M]
b) Explain digital calibration A/D converter.[5M]
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Prepared by: M .SHOBHA
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