ANALOG ELECTRONICS VIVA &

INTERVIEW QUESTIONS
By Prof. Hitesh Dholakiya
Engineering Funda YouTube Channel

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 ANALOG ELECTRONICS VIVA & INTERVIEW QUESTIONS
PROF. HITESH DHOLAKIYA

Q-1 What do you mean by operational amplifier?

Ans An operational amplifier is a direct- coupled, high gain amplifier used for some
mathematical operation such as addition, subtraction, multiplication and integration.
Q-2 List the ideal characteristics of an op-amp?
Ans An ideal-opamp would have the following characteristics:-
1 Infinite voltage gain
2 Infinite input resistance
3 Zero o/p resistance
4 Zero o/p voltage when (i/p voltage is zero)
5 Infinite Band with
6 infinite common mode Rejection ratio
7 infinite slew rates.
Q-3 What are the main features of Ics 741?
Ans the main features of Ics 741 are:-
1 No external frequency compensation required.
2 short circuit protection.
3 offset null capability.
4 large common mode and differential voltage range
5 low power consumption
6 No latch up problem
Q-4 What do you mean by input offset current?
Ans The algebraic difference between the current in the inverting terminals is as known as
Input offset current.
Q-5 What do you mean by input offset voltage?
Ans Input offset voltage that must be applied between the two input terminals of an Op-
amp to null the output.
Q-6 What do you mean by input biased current?
Ans Input biased current is the average of the current that flow into the inverting and Non
Inverting input terminals of the op-amps.
Q-7 What do you mean by differential input resistance?
Ans Differential input resistance is the equivalent resistance that can be measured at either
the inverting and non-inverting input terminal with the other terminal connected to
ground.
Q-8 What do you mean common mode rejection ratio (CMMR).
Ans Common mode rejection ratio define as “it is the ratio of the differential voltage Gain
to the common mode gain of an op-amp.
CMMR= differential gain/ common mode gain
Q-9 What do you mean by SVRR (supply voltage rejection ratio).
Ans. The change in an op-amp input –offset voltage, caused by variation in supply voltage
is called supply voltage rejection ratio (SVRR).
Q-10 What do you mean by output resistance of an op-amp?
Ans The output resistance is the equivalent resistance that can be measured between the
Terminal of the op-amp and ground.
Q-11 What do you mean by slew rate of an op-amp.?

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Ans Slew rate is the maximum rate of change of output voltage per unit of time.
Q-12 What do you mean by gain band width product of an op-amp?
Ans The gain bandwidth of an op-amp is the “bandwidth when the voltage gain is unity”.
Q-13 What do you mean by an open loop configuration of an op-amp?
Ans The open loop configuration of an op-amp indicate the No connection, exist between
The output signal is not fed-back in any form into the input.
Q-14 How many configuration in open-loop op-amp configuration?
Ans there are three open-loop op-amp configurations:
1 Differential –amplifier.
2 Inverting amplifier
3 Non- inverting amplifier
Q-15 What do you mean by voltage follower?
Ans The lowest gain that can be obtained from a non-inverting amplifier with feedback Is
1. When the non-inverting amplifier is configured for unity, it is called a voltage
Follower.
Q-16 What do you mean by a comparator?
Ans Comparator is an open-loop op-amplifier which compares the input voltage at other
one terminal to a reference voltage at other terminal and produce a voltage at their
output terminal.
Q-17 What do you mean by a zero-crossing detector?
Ans Zero-detector is a comparator in which a zero reference is applied at their non-inverting
terminal. Zero-crossing detector switches their output from one state to another state if
the input voltage crosses the zero point.
Q-18 What do mean by a Schmitt trigger?
Ans Schmitt trigger is a type of comparator which uses positive feedback. Schmitt trigger
convert a sinusoidal signal to a square wave signal.
Q-19 How many types of Schmitt trigger used?
Ans There are two types Schmitt trigger are used.
1. Inverting Schmitt trigger.
2. Non-inverting Schmitt trigger.
Q-20 What do you mean by threshold voltage of Schmitt trigger?
Ans The input voltage of Schmitt trigger for which the Schmitt trigger changes their output
is called threshold voltage.
Q-21 What do you mean by hysteresis of Schmitt trigger?
Ans Hysteresis is the voltage difference between turn-on and turn-off voltage of
comparator.
Q-22 Explain the main effect of a hysteresis?
Ans The main effect of hysteresis are-
1. It improves the noise immunity.
2. It reduces the response time.
3. It reduces the false triggering.
4. When hysteresis increases then sensitivity reduce.
Q-23 What do you mean by a voltage to frequency converter?
Ans A device which convert an analog voltage into a pulse signal which frequency is
proportional to the applied input voltage.
Q-24 What is the function of frequency to voltage converter?

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Ans A device which convert the frequency of the input signal into a proportional output
voltage.
Q-25 What are main application of frequency to voltage converter?
Ans The main applications of these are follows-
1. It is used to control the speed of motor.
2. It is used for rotational measurement.
3. It is used for digital to analog conversion.
Q-26 Explain the Timer IC-555?
Ans IC-555 is timer IC which is used in a stable, multivibrator, square wave generator,
triangular wave generator, pulse modulator and pulse detector circuit.
Q-27 Explain the function of phase detector?
Ans The main function of phase detector is to compare the signal with feedback voltage
and produce a D.C. output voltage
Q-28 Define an Integrated circuit.
Ans An integrated circuit(IC) is a miniature, low cost electronic circuit consisting of active
and passive components fabricated together on a single crystal of silicon. The active
components are transistors and diodes and passive components are resistors and
capacitors.
Q-29 Explain the main feature of IC-723.
Ans The main feature of IC-723 are-
1. Input voltage ( 9.5 Volt-40 volt)
2. Regulated output voltage (2 to 37 v)
3. Maximum load current = 150 ma.
4. Internal power dissipation is 800 mV
Q-30 What is function of pulse width modulator?
Ans In pulse width modulator the width of the output pulse is varying according to the
variation in the amplitude of modulating signal
Q-31 What are the two important properties of SiO2?
Ans 1. SiO2 is an extremely hard protective coating & is unaffected by almost all reagents
except by hydrochloric acid. Thus it stands against any contamination.
2. By selective etching of SiO2, diffusion of impurities through carefully defined
Windows in the SiO2 can be accomplished to fabricate various components.
Q-32 What is oxidation induced defects in semiconductor?
Ans 1.Stacking faults
2. Oxide isolation defects
Q-33 What are the advantages of ICs over discrete circuits?
Ans 1. Minimization & hence increased equipment density.
2. Cost reduction due to batch processing.
3. Increased system reliability
4. Improved functional performance.
5. Matched devices.
6. Increased operating speeds
7. Reduction in power consumption
Q-34 What is OPAMP?
Ans An operational amplifier is a direct coupled high gain amplifier consisting of one or
more differential amplifiers, followed by a level translator and an output stage. It is a
versatile device that can be used to amplify ac as well as dc input signals & designed
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PROF. HITESH DHOLAKIYA

for computing mathematical functions such as addition, subtraction ,multiplication,

integration & differentiation.
Q-35 List out the ideal characteristics of OPAMP?
Ans (i) Open loop gain infinite
(ii)Input impedance infinite
(iii)Output impedance low
(iv)Bandwidth infinite
(v)Zero offset, ie, VO=0 when V1=V2=0
Q-36 What do you mean by sample and hold circuit?
Ans Sample and hold circuit is an analog device that samples (captures, grabs) the voltage
of a continuously varying analog signal and holds (locks, freezes) its value at a constant
level for a specified minimal period of time.
Q-37 What is the use sample and hold circuit?
Ans Sample and hold circuits are typically used in analog-to-digital converters to eliminate
variations in input signal that can corrupt the conversion process.
Q-38 What are the component used in sample and hold circuit?
Ans A typical sample and hold circuit stores electric charge in a capacitor and contains at
least one fast FET switch and at least one operational amplifier.
Q-39 What is the function of buffer amplifier in sample and hold circuit?
Ans The buffer amplifier charges or discharges the capacitor so that the voltage across the
capacitor is practically equal, or proportional to, input voltage.
Q-40 Explains the function sample and hold circuit in Hold mode?
Ans In hold mode the switch disconnects the capacitor from the buffer. The capacitor is
invariably discharged by its own leakage currents and useful load currents, which
makes the circuit inherently volatile
Q-41 What is the function of FET used in sample and hold circuit?
Ans The FET is used as a switch in sample and hold circuit.
Q-42 What do you mean by sample rate?
Ans The number of times an analog signal is measured (sampled) per second. The unit of
sample rate is samples per second. This is often expressed in kilohertz (kHz). For
example, CD quality sound has a sample rate of 44 kHz.
Q-43 What is the range of capacitor use in sample and hold circuit?
Ans In the circuit, the storage capacitor (C1) value is only 200pF. Larger value capacitors
give longer “hold” periods but with slower slew rates.
Q-44 What happened if the value capacitor is increased in sample and hold circuit?
Ans If we increased C to 2000pF, the “hold-droop” rate will decrease to 0.085uV/us, and
the slew rate would decrease to 0.25V/us.(*u=mhu)
Q-45 What is function of pulse width modulator?
Ans In pulse width modulator the width of the output pulse is varying according to the
variation in the amplitude of modulating signal.
Q-46 What do you mean by PLL?
Ans PLL is a close- loop- system which is used to track a system.
Q-47 Explain the main component PLL?
Ans The main component of PLL are-
1. Phase detector.
2. Low pass filter.

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3. Error amplifier.
4. Voltage control oscillator.
Q-48 Explain the function of phase detector?
Ans The main function of phase detector is to compare the signal with feedback voltage
and produce a D.C. output voltage.
Q-49 What do you mean by lock range of PLL?
Ans The range of input frequency for which PLL maintain lock is called lock range.
Q-50 Explain the types of PLL?
Ans Their are two types of PLL-
1. First order PLL
2. Second order PLL.
Q-51 Explain 1st order PLL?
Ans In first-order PLL the output of the phase detectors linear-relation with phase
difference. In first order PLL, phase detector and fitter block connected in cascade and
PLL is in locked.
Q-52 Explain the function of loop filter?
Ans The main function of loop filter are-
1. It improve the interference rejection
2. It reduces/eliminate the high frequency error component.
3. It also provide short term memory for PLL
4. It controls the transient and capture response
Q-53 What are the main application of PLL?
Ans The main application of PLL are-
1. It is used in frequency demodulation.
2. It is used in a phase shifter.
3. It is used as a signal synchronizer.
4. It is used in tracking filter.
5. It is used in frequency division and multiplication.
Q-54 What is the value of pulse drop during the hold interval in sample and hold
circuit?
Ans Pulse “droop” during the hold interval is 170pA/200pF which is 0.85uV/us (i.e.,
170pA/200pF), this 170pA represents the typical leakage current
Q-55 What is the different kinds of packages of IC741?
Ans a) Metal can (TO) package
b) Dual-in-line package
c) Flat package or flat pack
Q-56 Explain the function of each pin of timer IC?
Ans These are follows-
1. Ground pin- It is ground pin which connect the supply voltage into ground terminal.
2. Trigger pin- This pin is used for triggering the timer IC-555.
3. Output pin- This pin is connected to the output load and it is connected between
ground and output pin.
4. Reset pin- This pin is used to reset the timer IC-555. If timer is resetted then a –ve
voltage is applied into pin no. 4.
5. Control pin- if a modulated pulse is required then an AC signal is applied into pin
no. 5 otherwise this pin is connected to ground.

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PROF. HITESH DHOLAKIYA

6. Threshold pin- It is non inverting terminal of the upper if the voltage at this terminal
is greater than 2/3 vcc then output of upper comparator is high.
7. Discharge pin- If the voltage at pin 7 is equal to 2/3 Vcc then output voltage is zero.
8. Supply pin- This pin used to connect a supply +Vcc to timer –IC-555.
Q-57 Explain the main feature of IC-723.
Ans The main feature of IC-723 are-
1 Input voltage (9.5 Volt-40 volts)
2 Regulated output voltages (2 to 37 v)
3 Maximum load current = 150 ma.
4 Internal power dissipation is 800 mvolt.
5 Short circuit protection.
6 Very low temperature drift.
7 High ripple rejection.
Q-58 Define an Integrated circuit.
Ans An integrated circuit(IC) is a miniature, low cost electronic circuit consisting of active
and passive components fabricated together on a single crystal of silicon. The active
components are transistors and diodes and passive components are resistors and
capacitors.
Q-59 What is the basic processes involved in fabricating ICs using planar technology?
Ans 1. Silicon wafer (substrate) preparation
2. Epitaxial growth
3. Oxidation
4. Photolithography
5. Diffusion
6. Ion implantation
7. Isolation technique
8. Metallization
9. Assembly processing & packaging
Q-60 List out the steps used in the preparation of Si – wafers.
Ans 1.Crystal growth & doping
2. Ingot trimming & grinding
3. Ingot slicing
4. Wafer policing & etching
5. Wafer cleaning
Q-61 What is the assumptions made from ideal opamp characteristics?
Ans i) The current drawn by either of the input terminals (noninverting/inverting) is
negligible.
ii) The potential difference between the inverting & non-inverting input terminals is
zero.
Q-62 Mention some of the linear applications of op – amps?
Ans Adder, subtractor, voltage –to- current converter, current –to- voltage converters,
instrumentation amplifier, analog computation, power amplifier, etc are some of the
linear op-amp circuits.
Q-63 Mention some of the non – linear applications of op-amps?
Ans Rectifier, peak detector, clipper, clamper, sample and hold circuit, log amplifier, anti
–log amplifier, multiplier are some of the non – linear op-amp circuits.
Q-64 List the broad classification of ADCs?

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Ans 1. Direct type ADC.

2. Integrating type ADC.
Q-65 List out the direct type ADCs.
Ans 1. Flash (comparator) type converter
2. Counter type converter
3. Tracking or servo converter
4. Successive approximation type converter
Q-66 List out some integrating type converters.
Ans 1. Charge balancing ADC
2. Dual slope ADC
Q-67 What is integrating type converter?
Ans An ADC converter that perform conversion in an indirect manner by first changing the
analog I/P signal to a linear function of time or frequency and then to a digital code is
known as integrating type A/D converter.
Q-68 Explain in brief the principle of operation of successive Approximation ADC?
Ans The circuit of successive approximation ADC consists of a successive approximation
register (SAR), to find the required value of each bit by trial & error.With the arrival
of START command, SAR sets the MSB bit to 1. The O/P is converted into an analog
signal & it is compared with I/P signal. This O/P is low or high. This process continues
until all bits are checked.
Q-69 What are the main advantages of integrating type ADCs?
Ans i. The integrating type of ADC’s do not need a sample/Hold circuit at the input.
ii. It is possible to transmit frequency even in noisy environment or in an isolated form.
Q-70 Define conversion time?
Ans It is defined as the total time required to convert an analog signal into its digital output.
It depends on the conversion technique used & the propagation delay of circuit
components. The conversion time of a successive approximation type ADC is given
by T (n+1)
Where T---clock period
Tc---conversion time
n----no. Of bits
Q-71 Define resolution of a data converter?
Ans The resolution of a converter is the smallest change in voltage which may be produced
at the output or input of the converter. Resolution (volts) = VFS/2n-1=1 LSB
increment. The resolution of an ADC is defined as the smallest change in analog input
for a one-bit change at the output.
Q-72 Explain in brief stability of a converter?
Ans The performance of converter changes with temperature age & power supply variation.
So all the relevant parameters such as offset, gain, linearity error & monotonicity must
be specified over the full temperature & power supply ranges to have better stability
performances.
Q-73 What is meant by linearity?
Ans The linearity of an ADC/DAC is an important measure of its accuracy & tells us how
close the converter output is to its ideal transfer characteristics. The linearity error is
usually expressed as a fraction of LSB increment or percentage of full-scale voltage.
A good converter exhibits a linearity error of less than ±½LSB.
Q-74 What is filter?

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Ans A filter circuit is a device that converts pulsating output of a rectifier into a steady dc
level. Hence, it becomes essential to reduce the ripples from the pulsating dc supply
available from rectifier circuits to the minimum. This is achieved by using a filter or
smoothing circuit which removes (or filters out) the ac components and allows only
the dc component to reach the load. Obviously, a filter circuit should be placed
between, the rectifier and the load.
Q-75 What is filter circuit?
Ans A filter is generally a combination of inductors L and Capacitors C. The filtering action
of L and C depends upon the facts that an inductor allows only dc and a capacitor
allows ac only to pass. So a suitable L and C network can effectively filter out (or
remove) the ac components from the rectified output.
Q-76 What are the commonly used types of filter circuits?
Ans (1) Series Inductor Filter ,
(2) Shunt Capacitor Filter ,
(3) Choke Input Filter,
(4) Capacitor input or pie filter
Q-77 Series Inductor Filter?
Ans In this arrangement a high value inductor or choke L is connected in series with the
rectifier element and the load, the filtering action of an inductor filter depends upon its
property of opposing any change in the current flowing through it. The function of the
inductor filter may be viewed in terms of impedances. The choke offers high
impedance to the ac components but offers almost zero resistance to the desired dc
components. Thus ripples are removed to a large extent.
Q-78 What is shunt capacitor filter?
Ans In this arrangement a high value Capacitor is connected in parallel with the rectifier
element and the load, the function of the capacitor filter may be viewed in terms of
impedances. The capacitor offers zero impedance to the ac components but offers high
resistance to the desired dc components, so C bypasses the dc. Thus ripples are
removed to a large extent
Q-79 What is the drawback of series inductor and shunt capacitor filter?
Ans A simple shunt capacitor filter reduces the ripple voltage but increases the diode
current. The diode may get damaged due to large current and at the same time it causes
greater heating of supply transformer resulting in reduced efficiency. In an inductor
filter, ripple factor increases with the increase in load resistance RL while in a capacitor
filter it varies inversely with load resistance RL. From economical point of view also;
neither series inductor nor shunt capacitor type filters are suitable.
Q-80 What is practical filter circuit?
Ans Practical filter-circuits are derived by combining the voltage stabilizing action of shunt
capacitor with the current smoothing action of series choke coil. By using combination
of inductor and capacitor ripple factor can be lowered, diode current can be restricted
and simultaneously ripple factor can be made almost independent of load resistance
(or load current). Two types of most commonly used combinations are choke-input or
L-section filter-and capacitor-input or Pi-Filter.
Q-81 What is Choke-input filter?
Ans Choke-input filter consists of a choke L connected in series with the rectifier and a
capacitor C connected across the load. This is also sometimes called the L-section filter
The choke L on the input side of the filter readily allows dc to pass but opposes the

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flow of ac components Any fluctuation that remains in the current even after passing
through the choke are largely by-passed around the load by the shunt capacitor
However, a small ripple still remains in the filtered output and this is considered
negligible if it than l%.
Q-82 What is Capacitor-Input or Pi-Filter?
Ans Such a filter consists of a shunt capacitor C1 at the input followed by an L-section filter
formed by series inductor L and shunt capacitor C2. This is also called the filter the
input capacitor C1 is selected to offer very low reactance to the ripple frequency. Hence
major part of filtering is accomplished by the input capacitor C1. Most of the remaining
ripple is removed by the L-section filter consisting of a choke L and capacitor C2.
Q-83 Salient Features of L-Section and Pi-Filters?
Ans 1. In pi-filter the dc output voltage is much larger than that can be had from an L-
section filter with the same input voltage.
2. In pi-filter ripples are less in comparison to those in shunt capacitor or L-section
filter. So smaller valued choke is required in a pi-filter in comparison to that required
in L-section filter.
3. In pi-filter, the capacitor is to be charged to the peak value hence the rms current in
supply transformer is larger as compared in case of L-section filter.
4. Voltage regulation in case of pi-filter is very poor, as already mentioned. So n-filters
are suitable for fixed loads whereas L-section filters can work satisfactorily with
varying loads provided a minimum current is maintained.
5. In case of a pi-filter PIV is larger than that in case of an L-section filter.
Q-84 What is clipper?
Ans In electronics, a clipper is a device designed to prevent the output of a circuit from
exceeding a predetermined voltage level without distorting the remaining part of the
applied waveform. Series clippers are employed as noise limiters in FM transmitters
by clipping excessive noise peaks above a specified level.
Q-85 Can you explain clipping circuit?
Ans A clipping circuit consists of linear elements like resistors and non-linear elements like
junction diodes or transistors. Thus a clipper circuit can remove certain portions of an
arbitrary waveform near the positive or negative peaks. Clipping may be achieved
either at one level or two levels Clipping Circuits are also called as Slicers, amplitude
selectors or limiters.
Q-86 Clipping using Zener Diode?
Ans One or two zener diodes are used to clip the voltage VIN. In the first circuit, the voltage
is clipped to the reverse breakdown voltage of the zener diode. In the second, it is
limited to the reverse breakdown voltage plus the voltage drop across one zener diode.
Q-87 Classification of clipper?
Ans Practical clippers may be classified into two types: (a) Shunt Clippers, and (b) Series
Clippers. The series configuration is defined as one where diode is in series with the
load In a shunt clipper which uses a diode in conjunction with a resistor the diode forms
a parallel path across the output. The network must have capacitor, a diode, and a
resistive element, but it also employs an independent dc supply to introduce an
additional shift.
Q-88 Application of clipper?
Ans It is used in television sets and FM receivers. It is also used for amplifier and different
types of opamps through which we can do some mathematical operations.

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Q-89 What is positive and negative clipping?

Ans Depending on the orientation of the diode, the positive or negative region of the input
signal is “clipped” off and accordingly the diode clippers may be positive or negative
clippers.
Q-90 What is Positive Clipper circuit?
Ans Positive Clipper: The clipper which removes the positive half cycles of the input
voltage is called the positive clipper. The positive series clipper circuit (that is, diode
in series with the load). While the input is positive, diode D is reverse biased and so
the output remains at zero that is, positive half cycle is clipped off. During the negative
half cycle of the input, the diode is forward biased and so the negative half cycle
appears across the output.
Q-91 What is negative clipper circuit?
Ans If the positive clipper circuit is reconnected with reversed polarity, the circuits will
become for a negative clipper and the operation will be same.
Q-92 What is Combination Clipper?
Ans When a portion of both positive and negative of each half cycle of the input voltage is
to be clipped (or removed), combination clipper is employed.
Q-93 Drawbacks of Series Diode Clippers?
Ans In series clippers, when diode is in ‘off’ position, there should be no transmission of
input signal to output. But in case of high frequency signals transmission occurs
through diode capacitance which is undesirable. This is the drawback of using diode
as a series element in such clippers.
Q-94 What are oscillators?
Ans Oscillators produce a waveform (mostly sine or square waves) of desired amplitude
and frequency. They can take input from the output itself. For a complete oscillator
circuit we require a feedback device, amplifier and feedback factor. Oscillators
designed to produce a high-power AC output from a DC supply are usually called
inverters
Q-95 Application of electronic oscillator?
Ans An electronic oscillator is an electronic circuit that produces a repetitive electronic
signal, often a sine wave or a square wave. They are widely used in innumerable
electronic devices. Common examples of signals generated by oscillators include
signals broadcast by radio and television transmitters, clock signals that regulate
computers and quartz clocks, and the sounds produced by electronic beepers and video
games.
Q-96 Types of electronic oscillator?
Ans. There are two main types of electronic oscillator: the harmonic oscillator and the
relaxation oscillator.
Q-97 What is Harmonic oscillator?
Ans The harmonic, or linear, oscillator produces a sinusoidal output. The basic form of a
harmonic oscillator is an electronic amplifier with the output attached to an electronic
filter, and the output of the filter attached to the input of the amplifier, in a feedback
loop. When the power supply to the amplifier is first switched on, the amplifiers output
consists only of noise. The noise travels around the loop, being filtered and re-
amplified until it increasingly resembles the desired signal.
Q-98 Types of Harmonic oscillator?

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Ans There are many ways to implement harmonic oscillators, because there are different
ways to amplify and filter. Some of the different circuits are:
• Hartley oscillator
• Colpitts oscillator
• Cross-coupled LC oscillator
• crystal oscillator
• Phase-shift oscillator
• RC oscillator (Wien Bridge and Twin-T)
Q-99 What are LC oscillators?
Ans Inductive oscillators also known as LC oscillators are built of a tank circuit, which
oscillates by charging and discharging a capacitor through an inductor. These
oscillators are typically used when a tuneable precision frequency source is necessary,
such as with radio transmitters and receivers
Q-100 What is phase-shift oscillator?
Ans A phase-shift oscillator is a simple electronic oscillator. It contains an inverting
amplifier, and a feedback filter which shifts the phase of the amplifier output by 180
degrees at the oscillation frequency. The filter produces a phase shift that increases
with frequency. It must have a maximum phase shift of considerably greater than 180
degree at high frequencies, so that the phase shift at the desired oscillation frequency
is 180 degree.
Q-101 How to produced 180° phase shift?
Ans The most common way of achieving this kind of filter is using three identical cascaded
resistor capacitor filters, which together produce a phase shift of zero at low
frequencies, and 270 degrees at high frequencies. At the oscillation frequency each
filter produces a phase shift of 60 degrees and the whole filter circuit produces a phase
shift of 180 degrees.
Q-102 How to implement the phase-shift oscillator?
Ans A version of this circuit can be made by putting an op-amp buffer between each R-C
stage which simplifies the calculations. The voltage gain of the inverting channel is
always unity.
Q-103 What is the applications of 555 Timer?
Ans o Astable multivibrator
o Monostable multivibrator
o Missing pulse detector
o Linear ramp generator
o Frequency divider
o Pulse width modulation
o FSK generator
o Pulse position modulator
o Schmitt trigger
Q-104 List the applications of 555 timers in monostable mode of operation?
Ans * pulse detector
* Linear ramp generator
* Frequency divider
* Pulse width modulation.
Q-105 List the applications of 555 timers in Astable mode of operation?
Ans * FSK generator

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* Pulse-position modulator
Q-106 Define 555 IC?
Ans The 555 timer is an integrated circuit specifically designed to perform signal generation
and timing functions.
Q-107 List the basic blocks of IC 555 timers?
Ans o A relaxation oscillator
o S flip flop
o Two comparator
o Discharge transistor.
Q-108 List the features of 555 Timer?
Ans It has two basic operating modes: monostable and astable
· It is available in three packages. 8 pin metals can, 8 pin dip, 14 pin dip.
· It has very high temperature stability.
Q-109 Define duty cycle?
Ans The ratio of high output and low output period is given by a mathematical parameter
called duty cycle. It is defined as the ratio of ON Time to total time.
Q-110 Define VCO.
Ans A voltage controlled oscillator is an oscillator circuit in which the frequency of
oscillations can be controlled by an externally applied voltage.
Q-111 List the features of 566 VCO.
Ans Wide supply voltage range (10-24V)
· Very linear modulation characteristics
· High temperature stability
Q-112 What does u mean by PLL?
Ans PLL is a basically a closed loop system designed to lock output frequency and Phase
to the frequency and phase of an input signal. 11. Define lock range.
Q-113 What is the areas of application of non-linear op- amp circuits?
Ans 1. Industrial instrumentation,
2. Communication
3. Signal processing
Q-114 What happens when the common terminal of V+ and V- sources is not grounded?
Ans If the common point of the two supplies is not grounded, twice the supply voltage Will
get applied and it may damage the op-amp.
Q-115 Define input offset voltage.
Ans A small voltage applied to the input terminals to make the output voltage as zero when
the two input terminals are grounded is called input offset voltage.
Q-116 Define input offset current. State the reasons for the offset currents at the input
of the Op-amp.?
Ans The difference between the bias currents at the input terminals of the op-amp is called
as input offset current. The input terminals conduct a small value of dc current to bias
the input transistors. Since the input transistors cannot be made identical, there exists
a difference in bias currents.
Q-117 Define CMRR of an op-amp.
Ans The relative sensitivity of an op-amp to a difference signal as compared to a Common
–mode signal is called the common –mode rejection ratio. It is expressed in decibels.
CMRR= Ad/Ac

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Q-118 In practical op-amps, what is the effect of high frequency on its performance?
Ans The open-loop gain of op-amp decreases at higher frequencies due to the Presence of
parasitic capacitance. The closed-loop gain increases at higher frequencies and leads
to instability.
Q-119 What is the need for frequency compensation in practical op-amps?
Ans Frequency compensation is needed when large bandwidth and lower closed loop gain
is desired. Compensating networks are used to control the phase shift and hence to
improve the stability.
Q-120 Mention the frequency compensation methods.
Ans 1. Dominant-pole compensation
2. Pole-zero compensation.
Q-121 What is the merits and demerits of Dominant-pole compensation?
Ans * Noise immunity of the system is improved.
* Open-loop bandwidth is reduced.
Q-122 Define slew rate.
Ans The slew rate is defined as the maximum rate of change of output voltage caused By a
step input voltage. An ideal slew rate is infinite which means that op-amp’s output
Voltage should change instantaneously in response to input step voltage.
Q-123 Why IC 741 is not used for high frequency applications?
Ans IC741 has a low slew rate because of the predominance of capacitance present in the
circuit at higher frequencies. As frequency increases the output gets distorted due to
limited slew rate.
Q-124 What causes slew rate?
Ans There is a capacitor with-in or outside of an op-amp to prevent oscillation. It is this
capacitor which prevents the output voltage from responding immediately to a fast
changing input.
Q-125 Define thermal drift?
Ans The bias current, offset current & offset voltage change with temperature. A circuit
carefully nulled at 25oC may not remain so when the temperature raises to 35oC.This
is called thermal drift. Often, offset current drift is expressed in nA/oC and offset
voltage drift in mV/oC.
Q-126 Define supply voltage rejection ratio (SVRR)?
Ans The change in OPAMP’s input offset voltage due to variations in supply voltage is
called the supply voltage rejection ratio. It is also called Power Supply Rejection Ratio
(PSRR) or Power Supply Sensitivity (PSS).
Q-127 What is the need for an instrumentation amplifier?
Ans In a number of industrial and consumer applications, the measurement of physical
quantities is usually done with the help of transducers. The output of transducer has to
be amplified So that it can drive the indicator or display system. This function is
performed by an instrumentation amplifier.
Q-128 List the features of instrumentation amplifier:
Ans 1. High gain accuracy
2. High CMRR
3. High gain stability with low temperature co-efficient
4. Low dc offset
5. Low output impedance

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Q-129 What is a comparator?

Ans A comparator is a circuit which compares a signal voltage applied at one input of an
op-amp with a known reference voltage at the other input. It is an open loop op - amp
with output + Vsat.
Q-130 What is the applications of comparator?
Ans 1. Zero crossing detectors
2. Window detector
3. Time marker generator
4. Phase detector
Q-131 What is a Schmitt trigger?
Ans Schmitt trigger is a regenerative comparator. It converts sinusoidal input into a square
wave output. The output of Schmitt trigger swings between upper and lower threshold
voltages, which are the reference voltages of the input waveform.
Q-132 What is a multivibrator?
Ans Multivibrators are a group of regenerative circuits that are used extensively in timing
applications. It is a wave shaping circuit which gives symmetric or asymmetric square
output. It has two states stable or quasi- stable depending on the type of multivibrator.
Q-133 What is the rectifier?
Ans The process of converting A.C. voltage into D.C. voltage which is in only one
direction, a process known as rectification is called rectification and it is done by
rectifier.
Q-134 Write the application of Bistable multivibrator.
Ans 1. The bistable multivibrator is used as memory element in shift registers counters,
and so on.
2. It is used to generate square waves of symmetrical shape by sending regular
triggering pulses to the input. By adjusting the frequency of the input trigger pulse, the
width of the square wave can be altered.
Q-135 What is the application of rectifier?
Ans Rectifiers have many uses including as components of power supplies and as detectors
of radio signals. Rectifiers may be made of solid state diodes, vacuum tube diodes,
mercury arc valves, and other components. Rectifiers also find a use in detection of
amplitude modulated radio signals
Q-136 What is the type of rectifier?
Ans There are two type of rectifier:-
1. Half wave rectifier
2. Full wave rectifier:- centre tape full wave Bridge full wave
Q-137 What is the ripple factor of the rectifier?
Ans The ripple factor of the rectifier: - Half wave rectifier:-1.21, Centre tape wave rectifier:-
0.48 Bridge full wave:-0.48
Q-138 What is the PIV of all type rectifiers?
Ans The PIV of rectifier: -
Half wave rectifier = Vm,
Centre tape wave rectifier = 2Vm
Bridge full wave = Vm
Q-139 Half wave rectifier?
Ans In a half wave rectifier only one half cycle of ac voltage is taking. The circuit is given.
Here only one diode is using. During the positive half cycle of ac voltage the diode
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conducts. So current flows through load. During the negative half cycle, the diode is
reverse biased .So no current flows through the diode. Half-wave rectification can be
achieved with a single diode in a one-phase supply, or with three diodes in a three-
phase supply.
Q-140 Full wave bridge rectifier?
Ans Full wave bridge rectifier: In full wave bridge rectifiers 4 diodes are using. During
positive half cycle, D1 and D4 are in forward biased condition. In the negative half
cycle of ac D3 and D2 are in forward biased condition. So in both the half cycles current
through the load is in single direction. This circuit does not need a centre tap rectifier.
But it requires more number of diodes than centre tap and half wave rectifiers
Q-141 Full wave centre tap rectifier?
Ans In this method only two diodes are using. But it requires a centre tap transformer.
During the positive half cycle diode D1 conducts. In the negative half cycle diode D2
conducts. So in both half cycles current flowing through load in same direction. Full-
wave rectification converts both polarities of the input waveform to DC (direct
current), and is more efficient.
Q-142 Why we use Filter?
Ans While half-wave and full-wave rectification suffice to deliver a form of DC output,
neither produces constant-voltage DC. In order to produce steady DC from a rectified
AC supply, a smoothing circuit or filter is required. In its simplest form this can be just
a reservoir capacitor or smoothing capacitor, placed at the DC output of the rectifier.
There will still remain an amount of AC ripple voltage where the voltage is not
completely smoothed.
Q-143 Difference between half wave and full wave rectifier?
Ans The efficiency of half wave rectifier is not as good as that of full wave rectifier Because
only one half of the input waveform reaches the output, it is very inefficient if used for
power transfer. The ripples are maximum in the single phase half-wave rectifier and
being reduced in the full-wave rectifier and being reduced further with the increase in
the number of phases.
Q-144 What do you mean by monostable multivibrator?
Ans Monostable multivibrator is one which generates a single pulse of specified duration
in response to each external trigger signal. It has only one stable state. Application of
a trigger causes a change to the quasi-stable state. An external trigger signal generated
due to charging and discharging of the capacitor produces the transition to the original
stable state.
Q-145 What is an astable multivibrator?
Ans Astable multivibrator is a free running oscillator having two quasi-stable states. Thus,
there are oscillations between these two states and no external signals are required to
produce the change in state.
Q-146 What is a bistable multivibrator?
Ans Bistable multivibrator is one that maintains a given output voltage level unless an
external trigger is applied. Application of an external trigger signal causes a change of
state, and this output level is maintained indefinitely until a second trigger is applied.
Thus, it requires two external triggers before it returns to its initial state
Q-147 What is the requirements for producing sustained oscillations in feedback
circuits?
Ans For sustained oscillations,

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1. The total phase shift around the loop must be zero at the desired frequency
of oscillation, fo. ie, LAB =0 (or) 360°
2. At fo, the magnitude of the loop gain |Ab| should be equal to unity
Q-148 What is the different types of filters?
Ans Based on functions: Low pass filter, High pass filter, Band pass filter, Band reject filter
Based on order of transfer function: first, second, third higher order filters. Based on
configuration: Bessel, Chebychev, Butterworth filters.
Q-149 What is a sample and hold circuit? Where it is used?
Ans A sample and hold circuit is one which samples an input signal and holds on to its last
sampled value until the input is sampled again. This circuit is mainly used in digital
interfacing, analog to digital systems, and pulse code modulation systems.
Q-150 Define sample period and hold period?
Ans The time during which the voltage across the capacitor in sample and hold circuit is
equal to the input voltage is called sample period. The time period during which the
voltage across the capacitor is held constant is called hold period.
Q-151 Why use Monostable Multivibrators?
Ans Monostable Multivibrators deliver a single output pulse when it is triggered externally
only returning back to its first original and stable state after a period of time determined
by the time constant of the RC coupled circuit.
Q-152 Disadvantage of Monostable Multivibrators?
Ans One main disadvantage of Monostable Multivibrators is that the time between the
applications of the next trigger pulse has to be greater than the preset RC time constant
of the circuit to allow the capacitor time to charge and discharge
Q-153 Application of Monostable Multivibrators?
Ans Monostable Multivibrators can therefore be considered as triggered pulse generators
and are generally used to produce a time delay within a circuit as the frequency of the
output signal is the same as that for the trigger pulse input the only difference being
the pulse width.
Q-154 What is a voltage regulator?
Ans A voltage regulator is an electronic circuit that provides a stable dc voltage independent
of the load current, temperature, and ac line voltage variations.
Q-155 Give the classification of voltage regulators:
Ans *Series / Linear regulators
*Switching regulators.
Q-156 What is a linear voltage regulator?
Ans Series or linear regulator uses a power transistor connected in series between the
unregulated dc input and the load and it conducts in the linear region .The output
voltage is controlled by the continuous voltage drop taking place across the series pass
transistor.
Q-157 What is a switching regulator?
Ans Switching regulators are those which operate the power transistor as a high frequency
on/off switch, so that the power transistor does not conduct current continuously give
improved efficiency over series regulators.
Q-158 What is the advantages of IC voltage regulators?
Ans *low cost
*high reliability
*reduction in size
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*excellent performance
Q-159 Give some examples of monolithic IC voltage regulators:
Ans 78XX series fixed output, positive voltage regulators
79XX series fixed output, negative voltage regulators
723 general purpose regulators.
Q-160 What is the purpose of having input and output capacitors in three terminal IC
Regulators?
Ans A capacitor connected between the input terminal and ground cancels the inductive
effects due to long distribution leads. The output capacitor improves the transient
response.
Q-161 Define line regulation.
Ans Line regulation is defined as the percentage change in the output voltage for a change
in the input voltage. It is expressed in millionths or as a percentage of the output
voltage.
Q-162 Define load regulation.
Ans Load regulation is defined as the change in output voltage for a change in load current.
It is expressed in millivolts or as a percentage of the output voltage.
Q-163 What is meant by current limiting?
Ans Current limiting refers to the ability of a regulator to prevent the load current from
Increasing above a preset value.
Q-164 Give the drawbacks of linear regulators:
Ans *the input step down transformer is bulky and expensive because of low line
frequency.
*Because of low line frequency, large values of filter capacitors are required to
decrease the ripple.
*Efficiency is reduced due to the continuous power dissipation by the transistor as it
operates in the linear region.
Q-165 What is the advantage of switching regulators?
Ans *Greater efficiency is achieved as the power transistor is made to operate as low
impedance switch. Power transmitted across the transistor is in discrete pulses rather
than as a steady current flow.
*By using suitable switching loss reduction technique, the switching frequency can be
increased so as to reduce the size and weight of the inductors and capacitors.
Q-166 What is an opto-coupler IC?
Ans Opto-coupler IC is a combined package of a photo-emitting device and a photo sensing
device.
Q-167 What is the types of opto couplers?
Ans LED and a photo diode,
· LED and photo transistor,
· LED and Darlington.
Q-168 Mention the advantages of opto-couplers:
Ans *Better isolation between the two stages.
*Impedance problem between the stages is eliminated.
*Wide frequency response.
*Easily interfaced with digital circuit.
*Compact and light weight.
*Problems such as noise, transients, contact bounce, are eliminated.

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Q-169 Give two examples of IC optocouplers?

Ans . Examples for opto-coupler IC
MCT 2F
MCT 2E.
Q-170 What is an isolation amplifier?
Ans An isolation amplifier is an amplifier that offers electrical isolation between its input
and output terminals.
Q-171 What is the features of isolation amplifier?
Ans Easy to use
· Ultra low leakage
· 18 pin DIP package
Q-172 What is LM380?
Ans It is a power amplifier produced by national semiconductor. It is capable of delivering
2.5 W min, to 8 ohm load.
Q-173 Define capture range.
Ans The range of frequencies over which the PLL can acquire lock with the input signal is
called as capture range.
Q-174 Define pull-in time.
Ans The total time taken by the PLL to establish lock is called pull-in time.
Q-175 List the applications of 565 PLL.
Ans Frequency multiplier
· Frequency synthesizer
· FM detector
Q-176 What are the two types of analog multiplier Ics?
Ans a) IC AD 533
b) IC AD 534
Q-177 What is ICAD 533?
Ans It is a multiplier IC by analog devices. It is a low cost IC comprising a Trans
conductance multiplying element, stable reference and an output amplifier.
Q-178 What is the time period of monostable multivibrator?
Ans The time of period monostable multivibrator remains in unstable state is given by t =
ln (2) R2C1. If repeated application of the input pulse maintains the circuit in the
unstable state, it is called a retrigger able monostable. If further trigger pulses do not
affect the period, the circuit is a non-retrigger able multivibrator.
Q-179 Mention the advantages of integrated circuits.
Ans *Miniaturisation and hence increased equipment density.
*Cost reduction due to batch processing.
*Increased system reliability due to the elimination of soldered joints.
*Improved functional performance.
*Matched devices.
*Increased operating speeds.
*Reduction in power consumption.
Q-180 Write down the various processes used to fabricate IC’s using silicon planar
technology.
Ans *Silicon wafer preparation.
* Epitaxial growth

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*Oxidation.
*Photolithography.
*Diffusion.
*Ion implantation.
*Isolation.
*Metallisation.
*Assembly processing and packaging.
Q-181 What is the purpose of oxidation?
Ans *SiO2 is an extremely hard protective coating and is unaffected by almost all reagents.
*By selective etching of SiO2, diffusion of impurities through carefully defined
windows can be accomplished to fabricate various components.
Q-182 Why aluminium is preferred for metallization?
Ans *It is a good conductor.
*it is easy to deposit aluminium films using vacuum deposition.
*It makes good mechanical bonds with silicon.
*It forms a low resistance contact.
Q-183 What are the popular IC packages available?
Ans Metal can package.
Dual-in-line package.
Ceramic flat package.
Q-184 Define an operational amplifier.
Ans An operational amplifier is a direct-coupled, high gain amplifier consisting of one or
more differential amplifier. By properly selecting the external components, it can be
used to perform a variety of mathematical operations.
Q-185 Define CMRR of an op-amp.
Ans The relative sensitivity of an op-amp to a difference signal as compared to a common
–mode signal is called the common –mode rejection ratio. It is expressed in decibels.
CMRR= Ad/Ac
Q-186 What are the applications of current sources?
Ans Transistor current sources are widely used in analog ICs both as biasing elements and
as load devices for amplifier stages.
Q-187 Justify the reasons for using current sources in integrated circuits.
Ans *superior insensitivity of circuit performance to power supply variations and
temperature.
*more economical than resistors in terms of die area required to provide bias currents
of small value.
*When used as load element, the high incremental resistance of current source results
in high voltage gain at low supply voltages.
Q-188 What is the advantage of widlar current source over constant current source?
Ans Using constant current source output current of small magnitude (microamp range) is
not attainable due to the limitations in chip area. Widlar current source is useful for
obtaining small output currents. Sensitivity of widlar current source is less compared
to constant current source.
Q-189 Mention the advantages of Wilson current source.
Ans *provides high output resistance.
*offers low sensitivity to transistor base currents.
Q-190 Define sensitivity.

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Ans Sensitivity is defined as the percentage or fractional change in output current per
percentage or fractional change in power-supply voltage.
Q-191 What are the limitations in a temperature compensated zener-reference source?
Ans A power supply voltage of atleast 7 to 10 V is required to place the diode in the
breakdown region and that substantial noise is introduced in the circuit by the
avalanching diode.
Q-192 What do you mean by a band-gap referenced biasing circuit?
Ans The biasing sources referenced to VBE has a negative temperature co-efficient and VT
has a positive temperature co-efficient. Band gap reference circuit is one in which the
output current is referenced to a composite voltage that is a weighted sum of Vbe and
Vt so that by proper weighting, zero temperature co-efficient can be achieved.
Q-193 What are the applications of V-I converter?
Ans * Low voltage dc and ac voltmeter
* LED
* Zener diode tester
Q-194 What do you mean by a precision diode?
Ans The major limitation of ordinary diode is that it cannot rectify voltages below the cut
± in voltage of the diode. A circuit designed by placing a diode in the feedback loop of
an op ± amp is called the precision diode and it is capable of rectifying input signals of
the order of millivolt.
Q-195 Write down the applications of precision diode.
Ans * Half - wave rectifier
* Full - Wave rectifier
* Peak ± value detector
* Clipper
* Clamper
Q-196 List the applications of Log amplifiers:
Ans 1. Analog computation may require functions such as lnx, log x, sin hx etc. These
functions can be performed by log amplifiers
2. Log amplifier can perform direct dB display on digital voltmeter and spectrum
analyzer
3. Log amplifier can be used to compress the dynamic range of a signal
Q-197 What are the limitations of the basic differentiator circuit?
Ans * At high frequency, a differentiator may become unstable and break into oscillations
/n
*The input impedance decreases with increase in frequency, thereby making the circuit
sensitive to high frequency noise.
Q-198 Write down the condition for good differentiation :-
Ans For good differentiation, the time period of the input signal must be greater than or
equal to Rf C1
T ≥ Rf Cf
Where, Rf is the feedback resistance
Cf is the input capacitance
Q-199 Mention any two audio frequency oscillators :
Ans 1. RC phase shift oscillator
2. Wein bridge oscillator
Q-200 What are the characteristics of a comparator?

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Ans 1. Speed of operation

2. Accuracy
3. Compatibility of the output
Q-201 What mean by a filter?
Ans Filter is a frequency selective circuit that passes signal of specified band of frequencies
and attenuates the signals of frequencies outside the band
Q-202 What are the demerits of passive filters?
Ans Passive filters works well for high frequencies. But at audio frequencies, the inductors
become problematic, as they become large, heavy and expensive. For low frequency
applications, more number of turns of wire must be used which in turn adds to the
series resistance degrading inductor’s performance i.e. low Q, resulting in high power
dissipation.
Q-203 What are the advantages of active filters?
Ans Active filters used op- amp as the active element and resistors and capacitors as passive
elements.
1. By enclosing a capacitor in the feedback loop , inductor less active filters can be
obtained
2. Op-amp used in non ± inverting configuration offers high input impedance and low
output impedance, thus improving the load drive capacity.
Q-204 Mention some commonly used active filters :
Ans 1. Low pass filter
2. High pass filter
3. Band pass filter
4. Band reject filter.
Q-205 Mention some areas where PLL is widely used:
Ans *Radar synchronisation
*satellite communication systems
*air borne navigational systems
*FM communication systems
*Computers.
Q-206 List the basic building blocks of PLL:
Ans *Phase detector/comparator
*Low pass filter
*Error amplifier
*Voltage controlled oscillator
Q-207 What are the three stages through which PLL operates?
Ans *Free running
*Capture
*Locked/ tracking
Q-208 Define lock-in range of a PLL:
Ans The range of frequencies over which the PLL can maintain lock with the incoming
signal is called the lock-in range or tracking range. It is expressed as a percentage of
the VCO free running frequency.
Q-209 Define capture range of PLL:
Ans The range of frequencies over which the PLL can acquire lock with an input signal is
called the capture range. It is expressed as a percentage of the VCO free running
frequency.

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Q-210 Define in which factors Pull-in time depend?

Ans The total time taken by the PLL to establish lock is called pull-in time. It depends on
the initial phase and frequency difference between the two signals as well as on the
overall loop gain and loop filter characteristics.
Q-211 For perfect lock, what should be the phase relation between the incoming signal
and
VCO output signal?
Ans The VCO output should be 90 degrees out of phase with respect to the input signal.
Q-212 Give the classification of phase detector:
Ans *Analog phase detector
*Digital phase detector
Q-213 What is a switch type phase detector?
Ans An electronic switch is opened and closed by signal coming from VCO and the input
signal is chopped at a repetition rate determined by the VCO frequency.This type of
phase detector is called a half wave detector since the phase information for only one
half of the input signal is detected and averaged.
Q-214 What are the problems associated with switch type phase detector?
Ans *The output voltage Ve is proportional to the input signal amplitude.This is undesirable
because it makes phase detector gain and loop gain dependent on the input signal
amplitude.
*The output is proportional to cosϕ making it non-linear.
Q-215 What is a voltage controlled oscillator?
Ans Voltage controlled oscillator is a free running multivibrator operating at a set frequency
called the free running frequency.This frequency can be shifted to either side by
applying a dc control voltage and the frequency deviation is proportional to the dc
control voltage.
Q-216 On what parameters does the free running frequency of VCO depend on?
Ans *External timing resistor, RT
*External timing capacitor, CT
*The dc control voltage Vc.
Q-217 Give the expression for the VCO free running frequency.
Ans fo = 0.25/Rt.Ct
Q-218 Define Voltage to Frequency conversion factor.
Ans Voltage to Frequency conversion factor is defined as,
Kv = Δf0/ΔVc = 8f/Vcc
Where ΔVc , is the modulation voltage required to produce the frequency shift Δf0
Q-219 What is the purpose of having a low pass filter in PLL?
Ans *It removes the high frequency components and noise.
*Controls the dynamic characteristics of the PLL such as capture range, lock-in
range,band-width and transient response.
*The charge on the filter capacitor gives a short- time memory to the PLL.
Q-220 Discuss the effect of having large capture range.
Ans The PLL cannot acquire a signal outside the capture range, but once captured, it will
hold on till the frequency goes beyond the lock-in range. Thus, to increase the ability
of lock range, large capture range is required. But, a large capture range will make the
PLL more susceptible to noise and undesirable signal.

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Q-221 Mention some typical applications of PLL:

Ans Frequency multiplication/division
· Frequency translation
· AM detection
· FM demodulation
· FSK demodulation.
Q-222 What is a compander IC? Give some examples.
Ans The term companding means compressing and expanding. In a communication system,
the audio signal is compressed in the transmitter and expanded in the receiver.
Examples: LM 2704- LM 2707; NE 570/571.
Q-223 What are the merits of companding?
Ans *The compression process reduces the dynamic range of the signal before it is
transmitted.
*Companding preserves the signal to noise ratio of the original signal and avoids
nonlinear distortion of the signal when the input amplitude is large.
*It also reduces buzz, bias and low level audio tones caused by mild interference.
Q-224 List the applications of OTA:
Ans OTA can be used in
· programmable gain voltage amplifier
· sample and hold circuits
· voltage controlled state variable filter
· Current controlled relaxation oscillator.
Q-225 Where are the successive approximation type ADC’s used?
Ans The Successive approximation ADCs are used in applications such as data loggers &
instrumentation where conversion speed is important.
Q-226 What is the main drawback of a dual-slop ADC?
Ans The dual slope ADC has long conversion time. This is the main drawback of dual
slope ADC.
Q-227 State the advantages of dual slope ADC:
Ans It provides excellent noise rejection of ac signals whose periods are integral multiples
of the integration time T.
Q-228 Define accuracy of converter.
Ans Absolute accuracy:
It is the maximum deviation between the actual converter output & the ideal converter
output.
Relative accuracy:
It is the maximum deviation after gain & offset errors have been removed. The
accuracy of a converter is also specified in form of LSB increments or % of full scale
voltage.
Q-229 What is settling time?
Ans It represents the time it takes for the output to settle within a specified band ½LSB of
its final value following a code change at the input (usually a full scale change). It
depends upon the switching time of the logic circuitry due to internal parasitic
capacitance & inductances. Settling time ranges from 100ns. 10μs depending on word
length & type circuit used.
Q-230 What is monotonic DAC?
Ans A monotonic DAC is one whose analog output increases for an increase in digital input
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Q-231 What is multiplying DAC?

Ans A digital to analog converter which uses a varying reference voltage VR is called a
multiplying DAC (MDAC). If the reference voltage of a DAC, VR is a sine wave given
by:
V(t) = Vin cos2Πft ,
Then
V(o) = Vom cos(2Πft +180°)
Q-232 What is meant by delta modulation?
Ans Delta modulation is a technique capable of performing analog signal quantisation with
smaller bandwidth requirements. Here, the binary output representing the most recent
sampled amplitude will be determined on the basis of previous sampled amplitude
levels.
Q-233 Mention some applications of 555 timer:
Ans *Oscillator
*pulse generator
*ramp and square wave generator
*mono-shot multivibrator
*burglar alarm
*traffic light control.
Q-234 What is the need for a tuned amplifier?
Ans In radio or TV receivers, it is necessary to select a particular channel among all other
available channels. Hence some sort of frequency selective circuit is needed that will
allow us to amplify the frequency band required and reject all the other unwanted
signals and this function is provided by a tuned amplifier.
Q-235 Give the classification of tuned amplifier:
Ans (i) Small signal tuned amplifier
*Single tuned
*Double tuned
*Stagger tuned
(ii) Large signal tuned amplifier
Q-236 What is an ideal diode?
Ans An ideal diode is one which offers zero resistance when forward biased and infinite
resistance when reverse biased.
Q-237 Compare ideal diode as a switch.
Ans An ideal diode when forward biased is equivalent a closed (ON) switch and when
reverse biased, it is equivalent to an open (OFF) switch.
Q-238 Define knee/cut-in/threshold voltage of a PN diode.
Ans It is the forward voltage applied across the PN diode below which practically no current
flows.
Q-239 What is the effect of junction temperature on cut-in voltage of a PN diode?
Ans Cut-in voltage of a PN diode decreases as junction temperature increases.
Q-240 What is the effect of junction temperature on forward current and reverse
current of a PN diode?
Ans For the same forward voltage, the forward current of a PN diode increases and reverse
saturation current increases with increase in junction temperature.
Q-241 Differentiate between breakdown voltage and PIV of a PN diode.

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Ans The breakdown voltage of a PN diode is the reverse voltage applied to it at which the
PN junction breaks down with sudden rise in reverse current. Whereas, the peak inverse
voltage (PIV) is the maximum reverse voltage that can be applied to the PN junction
without damage to the junction.
Q-242 Differentiate avalanche and zener breakdowns.
Ans Zener Breakdown
1. Breakdown occurs due to heavily doped junction and applied strong electric field.
2. Doping level is high.
3. Breakdown occurs at lower voltage compared to avalanche breakdown.
Avalanche Breakdown
1. Breakdown occurs due to avalanche multiplication between thermally generated
ions.
2. Doping level is low.
3. Breakdown occurs at higher voltage.
Q-243 Differentiate between drift and diffusion currents
Ans Drift Current
1. It is developed due to potential gradient.
2. This phenomenon is found both in metals and semiconductors.
Diffusion Current
1. It is developed to charge concentration gradient.
2. It is found only in semiconductors.
Q-244 List the PN diode parameters.
Ans 1. Bulk Resistance. (rB )
2. Static Resistance/Junction Resistance (or) DC Forward Resistance (Rf or rf)
3. Dynamic Resistance (or) AC Forward Resistance (rd or rf or Rac )
4. Reverse Resistance (Rr )
5. Knee Voltage (Vk )
6. Breakdown Voltage (Vb )
7. Reverse Current (or) Leakage Current
Q-245 State the PN diode ratings.
Ans Even PN-Junction has limiting values of maximum forward current, peak inverse
voltage and maximum power rating.
Q-246 Define reverse recovery time.
Ans It is maximum time taken by the device to switch from ON to OFF stage.
Q-247 List the PN diode switching times.
Ans 1. Recovery Time
2. Forward Recovery Time
3. Reverse Recovery Time
4. Reverse recovery time, (Rtt )
5. Storage and Transition Times
Q-248 Define transition capacitance of a diode.
Ans Transition Capacitance (CT) or Space-charge Capacitance: When a PN-junction is
reverse-biased, the depletion region acts like an insulator or as a dielectric.
The P- and N-regions on either side have low resistance and act as the plates. Hence it
is similar to a parallel-plate capacitor. This junction capacitance is called transition or
space-charge capacitance (CT).
Its typical value is 40 pF.

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Since the thickness of depletion layer depends on the amount of reverse bias, CT can
be controlled with the help of applied bias.
This property of variable capacitance is used in varicap or varactor diode.
Q-249 Define diffusion capacitance of a diode.
Ans Diffusion or Storage Capacitance (CD):
This capacitive effect is present when the junction is forward-biased.
It is called diffusion capacitance due to the time delay in minority charges across the
junction by diffusion process. Due to this fact, this capacitance cannot be identified in
terms of a dielectric and plates. It varies directly with forward current. When a forward-
biased PN-junction is suddenly reverse biased, a reverse current flows which is large
initially, but gradually decreases to the level of saturation current, I0.
This effect can be likened to the discharging, of a capacitor and is, therefore called
diffusion capacitance, CD. Its typical value is 0.02μF
Q-250 List some applications of zener diode.
Ans Zener diode find wide commercial and industrial applications. Some of their common
applications are:

against damage from accidental application of excessive

voltage.
As a fixed reference voltage in a network for biasing and comparison purposes and for
calibrating voltmeters.
Q-251 State the ratings of zener diode.
Ans 1. Zener voltage (Vz): The voltage at which a zener diode breaks in the reverse bias
condition is called zener voltage. In fact, it is the voltage at which a zener diode is to
operate. The value of zener voltage depends upon doping-more the doping, lesser the
breakdown voltage.
2. Tolerance: The range of voltages about the breakdown voltage in which a zener
diode conducts in reverse direction is called tolerance.
3. Power Rating (PZM): The maximum power which a zener diode can dissipate (or
handle) without damage is called its power rating.
4. Maximum Current Rating (IZM): The maximum value of current which a zener
diode can handle at its rated voltage without damage is called maximum current rating
(IZM).
5. Zener resistance (RZ): The opposition offered to the current flowing through the
zener diode in the operating region is called zener resistance (RZ) or zener impedance
(ZZ).
*PZM = IZM x VZ
Q-252 State the principle of operation of an LED.
Ans When a free electron from the higher energy level gets recombined with the hole , it
gives out the light output. Here, in case of LEDs, the supply of higher level electrons
is provided by the battery connection.
Q-253 State any four advantages of LED.
Ans

perating temperature.
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Q-254 State some disadvantages of LED.

Ans gets affected by the temperature radiation.

over –voltage and over-current.

Q-255 List the applications of LED.
Ans
-couplers.

ndicators in measuring devices.

Q-256 State the principle of operation of an LCD.
Ans
molecules have a special property. The change their orientation when an
electrical signal is applied to them.

between the glass plates.

pplied to the liquid crystal cell, then all the liquid
crystal molecules have random orientation with respect to their axis. The incoming
light passes through the gap of molecules. So, the light also gets twisted.
Now, when an electrical signal is applied to this structure, then all the liquid crystal
molecules gets oriented by 90° to the glass plate. In this case, this light passes in
straight way along the molecular arrangement.
Q-257 State any four advantages of LCD
Ans digit is required.

Q-258 State any four application of LCD.

Ans LCDs are generally applicable in the field of medical, domestic and industrial
electronics. Some of the applications of LCD are:
o Wrist watches.
o Telephones and cellular phones.
o Digital panel meters.
o PCO monitors.
o Calculators.
o For space applications.
o In digital clocks.
o Televisions.
o Automobiles, etc.
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Q-259 Compare LEDs and LCDs.

Ans LEDs
1. More power is required.
2. Fastest displays.
3. More life.
4. LED is light source.
5. More temperature range.
6. Mounting is easy.

LCDs
1. Less power is required
2. Slowest displays.
3. Less life.
4. LCD is not light source. It is a light reflector.
5. Less temperature range.
6. Mounting is difficult.
Q-260 Define rectifier. Mention the types.
Ans Rectifier: A rectifier is a circuit that converts AC into pulsing DC. It uses unidirectional
conducting devices like PN diodes.

Rectifiers are classified into two types based on the conduction of AC input.
They are:

There are two types of FWRs.

-tapped FWR.

Q-261 Define rectifier efficiency.

Ans It is defined as the ratio of DC power output to the applied AC power in put
Q-262 Define ripple factor of a rectifier.
Ans The purpose of a rectifier is to convert AC into DC. But the pulsating output of a
rectifier contains a DC component and an AC component, called ripple.
The ratio of RMS value of AC components to the DC component in the rectifier output
is called ‘ripple factor’.
The ripple factor is very important in deciding the effectiveness of a rectifier. It
indicates the purity of the DC power output. The smaller the ripple factor, the lesser
the effective AC component and hence more effective is the rectifier.
Q-263 Define TUF of a rectifier.
Ans Most of the rectifier circuits make use of transformer whose secondary feeds the AC
power. The transformer rating is necessary to design a power supply.
Transformer utilization factor (TF) id defined as the ratio of DC power delivered to
the oad to the AC power rating of transformer secondary.
Q-264 Give the advantages and disadvantages of half wave rectifier (HWR) and full
wave rectifier (FWR).
Ans Half Wave Rectifier (HWR)
Advantages

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Disadvantages.

ion of transformer core occurs.

Q-265 What is the need for a filter in rectifier?
Ans The output of a rectifier is pulsating and contains a steady DC component with
undesirable ripples. If such pulsating DC is given to the electronic circuits, it produces
disturbances and other interferences. Hence ripples have to be kept far from the load.
This is achieved by use of a filter circuit in between the rectifier and load
Q-266 What is a rectifier-filter? List the different types of filters.
Ans A filter circuit is a device which removes the AC component but allows the DC
components of the rectifier to reach the load.
Ripples can be removed by one of the following filtering methods.
(i) A capacitor, in parallel to the load, provides a easier bypass for the ripples due to
low impedance to AC at ripple frequency and leave the DC appear across the load.
(ii) An inductor, in series with the load, prevents the passage of ripples due to high
impedance at ripple frequency, while allowing the DC due to low resistance to DC.
(iii) Various combinations of capacitor and inductor, such has L-section filter, π-
section filter, etc., which make use of both the properties depicted above.

Types of filter circuits: Depending upon the components used in the filter circuits
and the way they are connected, the filter circuits are classified as:
(i) Shunt capacitor filter
(ii) Series inductor filter
(iii) Choke-input (LC) filter
(iv) Capacitor-input (π) filter.
Q-267 List some advantages and disadvantages of Choke-input filter[CLC) filters.
Ans

Q-268 What is the need for voltage regulators? What are the drawbacks of unregulated
power supply?
Ans An ordinary (unregulated) power supply from the following drawbacks:

ch fluctuates at
different times of the day and is different at different locations.

t of ripples is
not acceptable.
Q-269 Define voltage regulator? List some types.
Ans A voltage regulator is a circuit which makes the rectifier-filter output voltage constant
regardless of the variations in the input voltage or load.
Types of regulators: There are three principal types of regulators, viz.,

-mode regulators or switched mode power supply(SMPS)

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Q-270 Define Minimum load resistance.

Ans The change in DC output voltage from no load to full load with respect to full load
voltage of a power supply is called its voltage regulation.
Q-271 For normal operation, how is emitter-base junction biased?
Ans Forward.
Q-272 For normal operation, how is collector-base junction biased?
Ans Reverse.
Q-273 What is the relation between the currents of a transistor?
Ans IE =IB +IC
Q-274 What are the types of circuit connections known as configurations, for operating
a transistor?
Ans Common-Base (CB)
Common-Emitter (CE)
Common-Collector (CC)
Q-275 What is the relation between α and β of a transistor?
Ans α = β/β+1
Q-276 What are the regions used when BJT is used as a switch?
Ans Saturation and cut-off regions.
Q-277 What is the thermal resistance of power BJT?
Ans Thermal resistance is the resistance to the flow of heat. Heat flows from the junction
to the surrounding air. Larger the transistor case, smaller the thermal resistance and
vice-versa. Thermal resistance is reduced by providing heat sink with the transistor.
Q-278 Why must the base be narrow for the transistor (BJT) action?
Ans Beta (β) is the ratio of IC to IB .IB becomes less if the base width is narrow. Higher
value of β can be obtained with lower value of base current.
Q-279 What is the value of cut-in voltage for a BJT?
Ans For Silicon BJT - 0.7V
For Germanium - 0.3V
Q-280 Why an ordinary transistor is called bipolar?
Ans Because the transistor operation is carried out by two types charge carriers—majority
and minority carriers.
Q-281 Why transistor (BJT) is called current controlled device?
Ans The output voltage, current or power is controlled by the input current in a transistor.
So, it is called the current controlled device.
Q-282 What are “emitter injection efficiency” and “base transport factor” of a
transistor?
Ans The ratio of current of injected carriers at emitter junction to the total emitter current
is called the emitter injection efficiency.
Q-283 Why silicon type transistors are more often used than Germanium type?
Ans Because silicon has smaller cut-off current ICBO , small variations in ICBO due to
variations in temperature and high operating temperature as compared to those in case
of Germanium.
Q-284 Why collector is made larger than emitter and base?
Ans Collector is made physically larger than emitter and base because collector is to
dissipate much power.

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Q-285 Why the width of the base region of a transistor is kept very small as compared
to other regions?
Ans Base region of a transistor is kept very small and lightly doped so as to pass most of
the injected charge carriers to the collector.
Q-286 Why emitter is always forward biased with respect to base?
Ans To supply majority charge carrier to the base.
Q-287 Why collector is always reverse biased with respect to base?
Ans To remove the charge carriers away from the collector-base junction.
Q-288 Why CE configuration is most popular in amplifier circuits?
Ans Because it’s current, voltage and power gains are quite high and the ratio of output
impedance and input impedance are quite moderate.
Q-289 Why is CC configuration seldom used?
Ans Because its voltage gain is always less than unity.
Q-290 How many h-parameters are there for a transistor?
Ans Four – hi, ho, hr hf or h11, h12, h21, h22.
Q-291 What are the units for h11 and h22?
Ans h11 – ohm; h22 – mho (or) siemen.
Q-292 What are the parameters hr and h0 called?
Ans hr – reverse transfer voltage.
ho – output admittance.
Q-293 Why h-parameters are called hybrid parameters?
Ans Because they have different units are mixed with other parameters.
Q-294 Which is the smallest of the four h-parameters of a transistor?
Ans h0 or h12
Q-295 What is the typical value of hie?
Ans 1 kΩ
Q-296 Which of the BJT configuration is suitable for impedance matching application
and why?
Ans CC configuration is suitable for impedance matching applications because of very high
input impedance and low output impedance.
Q-297 Give the current gain expression for a common emitter transistor configuration?
Ans γ = ΔIE/ΔIB
Q-298. What are the tools used for small signal analysis of BJT?
Ans i. h – Parameter circuit model.
ii. z – Parameter circuit model.
iii. y – Parameter circuit model.
iv. Trans conductance parameter circuit model.
v. Physical model.
vi. T-model.
Q-299 What is the significance of ICBO and ICO?
Ans ICBO is the leakage current from the collector to base with emitter open. ICO is the
leakage current from collector to emitter with base open (ICO = ICEO).
Q-300 Why field effect transistor are called unipolar transistors?
Ans Because current conduction is by only one type of majority carriers.

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Q-301 Why FET’s are so called? (or) Why FETs are voltage controlled devices?
Ans The output characteristics of a FET can be controlled by the applied electric field
(voltage) and hence the name FET and are voltage controlled devices.
Q-302 How is drain current controlled in a JFET?
Ans By controlling the reverse bias given to its gate, i.e., VGS.
Q-303 What is the pinch-off voltage in a JFET?
Ans The value of VDS at which the channel is pinched-off, i.e., all the free charges from
the channel get removed, is called the pinch-off voltage in a JFET.
Q-304 What are the parameters that control the pinch-off voltage of JFET?
Ans Electron charge, donor/acceptor concentration density, permittivity of channel material
and half-width of channel bar.
Q-305 How does the FET behave
(i) For small values of |VDS| and
(ii) For large values of |VDS| ?
Ans (i) FET behaves as an ordinary resistor for small values of |VDS|, i.e., in ohmic region.
(ii) FET behaves as a constant current source for large values of |VDS| till breakdown
occurs.
Q-306 What is meant by saturation region?
Ans The region of drain characteristic of a FET in which drain current remains fairly
constant is called the saturation or pinch-off region.
Q-307 What is meant by drain-source saturation current IDSS?

Ans The drain current in pinch-off region with VDS = 0 is called IDSS.
Q-308 Why is the input impedance of FET very high?
Ans Because it’s input circuit (gate-to-source) is reverse biased and the input gate current
is very small (nA).
Q-309 Why MOSFET is called IGFET?
Ans MOSFET is constructed with the gate terminal insulated from the channel. So it is
called as insulated gate FET or IGFET.
Q-310 Why E-MOSFET is called sometimes normally-off MOSFET?
Ans E-MOSFET operates with large positive gate voltages only and does not conduct when
VGS = 0. So, it is called normally-off MOSFET.
Q-311 What is meant by gate-to-source threshold voltage VGST in E-MOSFET?
Ans It is the minimum value of VGS that is required to form the inversion layer.
Q-312 Why MOSFETs are never connected or disconnected in the circuit when power
is ON?
Ans If a MOSFET is connected or disconnected in a circuit when power is ON, the transient
voltages caused by inductive kickback and other effects may exceed VGS(max) and
thus wipe out the MOSFET.
Q-313 Name the factors which make the JFET superior to BJT?
Ans High input impedance, low output impedance and low noise level.
Q-314 List the JFET parameters.
Ans Trans conductance (gm), drain resistance (rd) and amplification factor (μ)
μ = gm.rd
Q-315 List some applications of JFETs.

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Ans 1. Used as buffers in measuring equipment, receivers and other general purpose
devices.
2. Used in RF amplifiers of FM tuners and communication equipment.
3. Used in mixer circuits in FM and TV receivers and communication equipment.
4. Used in cascade amplifiers in measuring and test equipment.
5. Used as voltage variable resistor (VVR) in OP-AMPs and tone controls.
6. Used in hearing aids and inductive transducers.
7. Used in oscillator circuits.
8. As the physical size is small, it finds use in digital circuits in computers, large scale
integration (LSI) and memory circuits.
9. Used as current sources.
Q-316 List some advantages of MOSFETs.
Ans MOSFETs combine the inherent advantages of solid-state devices such as:
1. Small size
2. Low power consumption
3. Simplicity of construction
4. Mechanical ruggedness.

With the inherent advantages of electron tubes such as:

1. Very high input impedance
2. Square law transfer characteristics.
Q-317 What is a differential amplifier?
Ans An amplifier, which is designed to give the difference between two input signals, is
called the differential amplifier.
Q-318 What is the function of a differential amplifier?
Ans The function of a differential amplifier is to amplify the difference of two signal inputs
Q-319 When two signals V1 and V2 are connected to the two inputs of a difference
amplifier, define a difference signal Vd and common-mode signal Vc
Ans The difference signal Vd is defined as the difference of the two signal inputs,
i.e., Vd = V1 – V2
The common-mode signal Vc is defined as the average of the two signals,
I.e., Vc = .5(V1 + V2)
Q-320 What is the differential-mode voltage gain of a differential amplifier?
Ans It is given by , Ad = .5(A1 - A2)
Q-321 What is the common-mode gain AC in terms of A1 and A2?
Ans It is given by Ac = A1 + A2
Q-322 Define CMRR.
Ans The common-mode rejection ratio (CMRR) of a differential amplifier is defined as the
ratio of the differential-mode gain to common-mode gain.
CMRR = |Ad/Ac|
Q-323 What are the ideal values of Ad and Ac with reference to the differential
amplifier?
Ans Ideally, Ac should be zero and Ad should be large, ideally infinite.
Q-324 Express CMRR in d
Ans CMRR (dB) = 20 log Ad – 20log Ac.
Q-325 What are advantages of differential amplifier?

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Ans It has high gain and high CMRR.

Q-326 List some applications of differential amplifiers?
Ans Used in IC applications, AGC circuits and phase inverters.
Q-327 Define (i) feedback (ii) positive feedback and (iii) negative feedback.
Ans i. Feedback: The process of combining a fraction of the output (of a Device-amplifier)
back to its input is called feedback.
ii. Positive Feedback: If the feedback is in phase to the input, it is called positive
feedback.
iii. Negative Feedback: When the feedback is in opposition (out of phase) to the input,
it is called negative feedback.
Q-328 What loop gain of a feedback amplifier.
Ans In a feedback amplifier, when the signal passes through an amplifier
Q-329 Define pulse and pulse circuits.
Ans The word “pulse” is applied to waveforms that exist for a very short period. The word
“pulse circuits” refer to the active and passive circuits intended to handle, generate,
shape and store pulse signals.
Q-330 Define switching circuit.
Ans A circuit which can turn ON or OFF the current in the electronic circuits is called
switching circuit
Q-331 Define wave shaping and wave shaping circuits.
Ans The process of generating new wave shapes from older wave forms using some
network is called wave shaping. The circuits which perform wave shaping are called
wave shaping circuits.
Eg: Clippers, Clampers, Integrator, Multipliers, etc.
Q-332 Give some examples of linear and non-linear wave shaping circuits.
Ans Linear wave shaping circuits – use R, L, and C.
Examples: RC, RL, RLC circuits, Integrator, Summer, etc.
Non-linear wave shaping circuits – uses R,L,C diodes,
Examples: Clippers, Clampers, etc.
Q-333 Why the capacitor in a high pass RC circuit is called blocking capacitor?
Ans Because of the blocking property of the capacitor for DC or low frequency input
signals, the capacitor acts like an open circuit and blocks the signal. So the capacitor
in high-pass RC circuits is called “blocking capacitor”.
Q-334 Why a high-pass RC circuit is called differentiator?
Ans Because it gives the output voltage proportional to the differentiation of input voltage.
Q-335 What are the conditions for a series RC circuit to act as a differentiator?
Ans i. RC Time constant(RC) lesser than Time period of input signal(T)
ii. XC ≥ 10R
Q-336 List the applications of high-pass RC circuits.
Ans 1. To generate a step from ramp input.
2. To generate a square wave from a triangular wave.
3. To generate a series of narrow pulses called “pips” from rectangular or square
waves.
4. Used in R-C coupling of amplifiers where distortion and differentiation of
waveform is to be avoided.
Q-337 Why a low-pass RC circuit is called an integrator?

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Ans Because it gives the output voltage proportional to the integral of input voltage.
Q-338 What are the conditions for a series RC circuit to act as an integrator?
Ans i. RC Greater than T
ii. R ≥ 10XC
Q-339 List the applications of low-pass RC circuits.
Ans 1. Used as bypass capacitors.
2. To perform mathematical integration in analog computers.
3. To generate triangular and ramp waveforms.
4. Used to discriminate pulses of different lengths.
Q-340 What are the characteristics of pulse waveforms?
Ans Rise time, fall time and tilt.
Q-341 Define Clamping.
Ans Clamping is the process of shifting the input signal above or below the zero level. By
clamping the input signal suitably, we can introduce (insert) any required DC level into
the signal. So clampers are also called DC level restorers.
Q-342 What is a Clamper?
Ans The circuit with which the waveform can be shifted, such that, a particular part of it
(say positive or negative peak) is maintained at a specified level, is called a “clamping
circuit or simply, clamper”.
Q-343 List the types of Clampers.
Ans 1. Positive Clamper
2. Negative Clamper
3. Biased Clamper
Q-344 What is the function of a positive clamper?
Ans It shifts the signal towards the positive side such that the negative side of the signal
reduces to zero.
Q-345 What is the function of a negative clamper?
Ans It shifts the signal towards to negative side such that the positive side of the signal
reduces to zero.
Q-346 What is biased clamper?
Ans A biased clamper means that clamping can be done at any voltage level other than zero.
Q-347 List the applications of Clampers.
Ans 1. They are used in T.V. receivers to restore the original DC reference signal
(corresponding to the brightness level of the picture) to the video signal.
2. They are used to produce a DC voltage is a multiple of peak AC input voltage i.e.,
they are used a as voltage multipliers.
3. They are used to supply power to high voltage/low current devices like CRTs used
in T.V receivers, CROs and computer displays.
Q-348 Define clipper?
Ans The circuit with which the waveform is shaped by removing (or clipping) a certain
portion of the input signal voltage above or below a present level is called clipping
circuit or simply, clipper. They are used to limit the amplitude of the input signal.
Q-349 List the types of clippers.
Ans . Based on limiting action:
1. Positive Clipper
2. Negative Clipper

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3. Biased Clipper
4. Combination Clipper
Q-350 What is the difference between the output from a clipper and a clamper?
Ans The output of a clipper appears as if a portion of the input signal were clipped off, but
a clamper simply shifts the input to a different DC level.
Q-351 What is the difference between positive and negative clippers?
Ans The positive clippers removes the positive half cycles, while the negative clipper
removes the negative half cycles, of the input waveform.
Q-352 What is the difference between positive and negative clampers?
Ans A positive clamper pushes the signal on the positive side or upward while a negative
clamper pushes the signal on the negative side or downward.
Q-353 A clamper circuit sometimes uses a DC battery in addition to diode, a capacitor
and a resistor. Why?
Ans To cause an additional shift.
Q-354 How does a clamper affect the peak-to-peak and RMS values of a waveform?
Ans No change.
Q-355 List the applications of clippers.
Ans 1. They are used to remove unwanted portions like noise accumulated on peaks of
waveforms.
2. They are used in T.V receivers to separate since pulses from the composite video
signal.
3. Two level clippers are used as square wave generators.
4. They are used in PPM modulators.
Q-356 What is a multivibrator? List the different types of multivibrators.
Ans A Multivibrator is basically a two stage amplifier with 100% feedback between the
two stages such that output of one is fed back to the other.
The feedback from one stage to the other is so arranged that when one transistor is
drive to cut-off, the other is driven to saturation. Thus at any particular instant of time,
one transistor is ON and the other is OFF.
Types: There are three basic types of multivibrators depending on the type of coupling
network used. They are:
1. Astable multivibrators (AMV) or free running generator.
2. Monostable multivibrator (MMV) or one-shot multivibrator or univibration.
3. Bistable multivibrator (BMV) or flip-flop.
4. An AMV uses capacitive coupling.
5. An MMV uses RC coupling.
6. An BMV uses resistive coupling.
Q-357 What is AMV? Why is it called a square wave generator?
Ans An AMV is essentially a two-stage RC coupled amplifier with output of one stag
supplied back to the input of another stage.
An AMV generates square wave of known frequency (or period). So, it is called a
“square wave generator”.
Q-358 How does a MMV circuit be constructed from a AMV?
Ans By replacing one R-C timing circuit by a DC voltage divider.
Q-359 What is the function of commutating capacitors in multivibrator?
Ans To improve the switching characteristics of the circuit.

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Q-360 Why are monostable Multivibrators called one-short Multivibrators?

Ans They generate one output pulse for every trigger pulse and hence the name “one shot
Multivibrators or univibrators”.
Q-361 Whey the BMV is called a flip-flop?
Ans In a BMV, one trigger pulse causes the Multivibrator to flip from one state to the other
state and the next pulse causes it to flop back to its original state. So, it is called the
flip flop.
Q-362 What are the applications of AMVs?
Ans AMVs are used as
1. Square wave generators.
2. Voltage to frequency converters.
3. Pulse synchronization circuits.
4. Clock for binary logic signals.
Q-363 What are the applications of MMVs?
Ans MMVs are used for
1. Generation of well-defined pulses
2. Logic design of pulse delay
3. Variable pulse width
Q-364 What are the applications of BMVs?
Ans BMVs are used as
1. Memory elements in shift registers, counters, etc.,
Q365 What are the applications of Schmitt trigger?
Ans 1. Amplitude comparator
2. Squaring circuit
3. Flip flop
Q-366 Why an AMV is called free running relaxation oscillator?
Ans Because it runs and relaxes alternately.
Q-367 Which portion of the UJT characteristic is used to make UJT to generate saw
tooth waves?
Ans Negative resistance region.
Q-368 Define PN junction.
Ans When a p type semiconductor is joined to an N type semiconductor the contact surface
is called PN junction.
Q-369 Explain the forward bias of diode (PN junction).
Ans If p type terminal is connected to Anode (positive electrode), and N type terminal is
connected to cathode (Negative electrode) it is known as forward bias. At forward
bias, large current will flow in the range of milli amperes (10-3A). Forward bias is
equivalent to short circuit.
Q-370 Explain reverse bias of diode (PN Junction).
Ans If p type is connected to cathode and N type is connected to anode, it is reverse bias.
At reverse bias, small current will flow in the range of micro amperes (10^-6). Reverse
bias is equivalent to open circuit.
Q-371 Explain the V-I characteristics of PN Junction diode.
Ans It is a graph drawn between voltage in x axis and current in y axis.
Q-372 Define knee voltage.

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Ans It is the forward voltage of a PN diode at which the current thorough the junction starts
increasing rapidly.
Q-373 Define breakdown voltage.
Ans It is the reverse voltage of a PN junction diode at which the junction breaks down with
sudden rise in the reverse current.
Q-374 Explain the Half wave circuit.
Ans Half wave rectifier circuit consists of one Semiconductor Diode D1 and load
Resistance RL. That is current will flow during positive half cycle and no current will
be conducted during negative half cycle.
Q-375 List the advantages of full bridge rectifier.
Ans 1. Centre-tapped transformer is not needed.
2. For the same secondary voltage, the output is doubled than that of the centre-tap
circuit.
Q-376 Define Zener diode.
Ans A zener diode is a properly doped crystal diode which has a sharp breakdown voltage.
Q-377 Compare between half wave and full wave rectifiers.
Ans 1. The efficiency of a full wave rectifier is double that of a half wave rectifier
2. The ripple factor is large and frequency of voltage is low in a half wave rectifier,
hence the waveform cannot be easily smoothed whereas in full wave rectifier, the
frequency is large therefore can be filtered easily with simple filtering circuits.
Q-378 Define ripple factor
Ans The ripple factor is a measure of purity of the dc output of a rectifier and is defined as
r = rms value of the component of wave / average or dc value
Q-379 What is rectifier efficiency?
Ans The rectification efficiency tells us what percent of total input ac power is converted
into useful dc output power. Thus rectification efficiency is defined as
η = dc power delivered to load / ac input power from transformer secondary
Q-380 Define voltage regulation(rectifier)
Ans Voltage regulation is a measure of the ability of a rectifier to maintain a specified
output voltage with the variation of load resistance and is defined as follows.
Voltage regulation = (output at no load - output at full load) / output at full load
Q-381 List the classification of filters
Ans 1. Low pass filter which transmits low frequencies to the load and attenuates high
frequencies.
2. High pass filter which transmit high frequencies.
3. Band pass filter which transmits a band of frequencies.
Q-382 Define LED.
Ans The PN junction diode can emit light through a process known as electroluminescence.
When a diode is forward biased, majority of the carriers on both side of the junction
will cross the junction potential barrier. This recombination emission is responsible for
the diode emitting light.
Q-383 Define LCD (Liquid Crystal Display).
Ans A thin film of LC fluid is sandwiched between two glass plates. The glass plates are
coated with conductive transparent in the film formed of the desired alpha numeric
image. LCD’s consume less power and have the shortest life.
Q-384 Mention the types of LCD.

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Ans 1. Dynamic scattering

2. Field effect.
Q-385 Mention the materials used in LED.
Ans 1. Gallium Arsenic Zinc Antimony.
2. Gallium Phosphorous.
3. GA As Ps.
4. Ga PN.
Q-386 Define Amplifier.
Ans Amplifier is a device which amplifies the given input signal.
Example: transistor
Q-387 Define Transistor.
Ans It consists of two PN Junctions formed by sandwiching either p-type or n-type
semiconductor between a pair of opposite types.
Q-388 Mention the types of transistor?
Ans 1. NPN Transistor
2. PNP Transistor
Q-389 Mention the terminals of transistor.
Ans The transistor has three terminals namely emitter, base and collector.
Q-390 Define doping.
Ans The emitter is heavily doped. The base is lightly doped and the collector is moderately
doped.
Q-391 Define current amplification factor.
Ans The ratio of change in output current to the change in input current at constant other
side voltage is called current amplification factor.
Q-392 Explain the input characteristics of transistor.
Ans It is a graph drawn between output voltage and input current keeping other side voltage
as constant.
Q-393 Explain the output characteristics of transistor.
Ans It is a graph drawn between output voltages and output current keeping other side
current (I/P) as constant.
Q-394 Mention the types of connection in a transistor.
Ans 1. Common base connection.
2. Common emitter connection
3. Common collector connection.
Q-395 Differentiate FET and BJT .
Ans FET
1. Unipolar device (that is current conduction by only one type of either
electron or hole).
2. High input impedance due to reverse bias.
3. Gain is characterized by trans conductance
4. Low noise level
BJT
1. Bipolar device (current conduction by both electron and hole).
2. Low input impedance due to forward bias.
3. Gain is characterized by voltage gain.
4. High noise level.
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Q-396 What are the biasing conditions to operate transistor in active region?
Ans Emitter-base junction has to be forward biased and collector-base junction to be reverse
biased.
Q-397 What is thermal runaway?
Ans The power loss in transistor is primarily at the collector junction because the voltage
there is high compared to the low voltage at the forward biased emitter junction. If the
collector current increases, the power developed tends to raise the junction
temperature. This causes an increase in β and α further increase in collector current in
temperature may occur resulting in “thermal run away.”
Q-398 In a transistor operating in the active region although the collector junction is
reverse biased, the collector current is quite large.
Ans Forward biasing the input side and reverse biasing the output side are the requirements
of a transistor in the active region. The collector current is experimentally equal to the
emitter current. Therefore the collector current will be large as emitter current is large
on the other hand, in CE operation IB is multiplied by β, hence we get large collector
current.
Q-399 Why CE configuration is considered to be the most versatile one?
Ans The common emitter configuration provides very good voltage gain about 500CE
configuration finds excellent usage in audio frequency applications, hence used in
receivers and transmitter.
Q-400 Define bipolar junction transistors.
Ans These devices operate with both holes and electrons and hence are called bipolar
junction.
Q-401 Write the junction transistor operation may be drawn from the analysis.
Ans 1. The major charge carriers in the PNP junction transistor are holes.
2. The major charge carriers in the NPN junction transistor are electrons.
Q-402 Define JFET
Ans A Junction field effect Transistor is a three terminal semiconductor device in which
current conduction is by one type of carrier (i.e., either electron or holes)
Q-403 Define channel.
Ans It is a bar like structure which determines the type of FET. Different types of N channel
are FET and P channel FET.
Q-404 Explain the biasing of JFET.
Ans Input is always reverse biased and output is forward biased. (Note: In transistor input
is forward biased and output is reverse biased).
Q-405 Define Drain resistance.
Ans It is the ratio of change in Drain – source voltage (ΔVDS) to the change in Drain current
(ΔID) at constant gate source voltage (VGS).
Q-406 Define Trans conductance.
Ans It is the ratio of change in drain current (ΔID) to the change in Gate – Source Voltage
(ΔVGS) at constant Drain – Source voltage(VDS)
Q-408 Write the advantages of JFET
Ans 1. Input impedance of JFET is very high. This allows high degree of Isolation between
the Input and Output circuit.
2. Current carriers are not crossing the junction hence noise is reduced drastically
Q-409 Mention the two types of field effect transistors

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Ans 1. N-channel FET

2. P-channel FET
Q-410 Define pinch off voltage.
Ans As the reverse bias is further increased, the effective width of the channel decreases,
the depletion region or the space charge region widens, reaching further into the
channel and restricting the passage of electrons from the source to drain. Finally at a
certain gate to source voltage VGS = VP.
Q-411 Explain the depletion node of operation in MOSFET.
Ans When the gate is at negative bias, the thickness of the depletion layer further increases
owing to the further increase of the induced positive charge. Thus the drain current
decreases, as the gate is made more negative. This is called depletion mode of
operation.
Q-412 Explain the term Drain in FET.
Ans The drain is the terminal through which the current leaves the bar. Convention current
entering the bar is designated as ID.
Q-413 Explain the terms source in FET.
Ans The source is the terminal through which the current enters the bar. Conventional
current entering the bar is designated as IS.
Q-414 Define the term Gate in FET.
Ans The gate consists of either P+ or N+ impurity regions, heavily doped and diffused to
the bar. This region is always reverse biased and in fact, controls the drain current ID.
Q-415 Write the relative disadvantages of an FET over that of a BJT.
Ans 1. The gain bandwidth product in case of a FET is low as compared with a BJT.
2. The category, called MOSFET, is extremely sensitive to handling therefore
additional precautions have to be considered while handling.
Q-416 Mention the methods used for biasing circuits in FET.
Ans 1. Self-bias.
2. Potential divider bias.
Q-417 Explain the term MOSFET.
Ans In the insulated gate FET, conductivity is controlled by the potential on the insulated
metal plate lying on the top of the channel the insulated gate field effect transistor is
often called metallic oxide semiconductor FET.
Q-418 Mention the types of feedback.
Ans 1. Positive or regenerative feedback.
2. Negative of degenerative feedback.
Q-419 Define feedback.
Ans The process of injecting a fraction of the output voltage of an amplifier into the input
so that it becomes a part of the input is known as feedback.
Q-420 Define positive feedback.
Ans It is the feedback voltage in phase with the input from the source; it reinforces the
original input signal and is called positive or regenerative feedback.
Q-421 Define Negative feedback.
Ans If the feedback voltage is opposite in phase to the input from the source, i.e., opposes
the original input signal and is called negative or degenerative feedback
Q-422 Mention the four connections in Feedback
Ans 1. Voltage series feedback.

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2. Voltage shunt feedback

3. Current series feedback.
4. Current shunt feedback.
Q-423 Explain the voltage series feedback.
Ans In this case, the feedback voltage is derived from the output voltage and fed in series
with input signal. The input of the amplifier and the feedback network are in series is
also known as series parallel in parallel, hence this configuration is also known as series
parallel feedback network.
Q-424 Explain the voltage shunt feedback.
Ans The input of amplifier and the feedback network are in parallel and known as parallel
– parallel feedback network. This type of feedback to the ideal current to voltage
converter, a circulating having very low input impedance and very low output
impedance.
Q-425 Explain the current series feedback.
Ans When the feedback voltage derived from the load current and is fed in series with the
input signal, the feedback is said to be current series feedback, the inputs of the
amplifier and the feedback network are in series and the output are also in series. This
configuration is also called as series-series feedback configuration.
Q-426 Explain the current shunt feedback.
Ans When the feedback voltage is derived from the load current and a fed in parallel with
the input signal, the feedback is said to be current shunt feedback. Herein the inputs of
the amplifier and the feedback network are in parallel and the outputs are in series.
This configuration is also known as parallel series feedback.
Q-427 Write the effects of negative feedback.
Ans 1. The gain becomes stabilized with respect to changes in the amplifier active device
parameters like hfe.
2. The non-linear distortion is reduced there by increasing the signal handling capacity
or the dynamic range of the amplifier.
Q-428 Write the conditions for a circuit to oscillate.
Ans 1. The oscillator circuit should consist of an amplifier and a portion of the output
should be feedback to the input. For sustained oscillations, the feedback voltage must
be in phase with the input, i.e., total phase shift around the loop must be 360°.
2. The amount of energy or power feedback to the input must be sufficient to the input
circuit.
Q-429 Mention the classification of oscillators.
Ans According to the frequency determining networks,
1. RC oscillators
2. LC oscillators
3. Crystal oscillators
Q-430 List the advantages of phase shift oscillator.
Ans 1. The phase shift oscillator does not required conductance or transformers.
2. It is suitable for the low frequency range i.e., from a few hertz to several hundred
KHz. The upper frequency is limited because the impedance of RC network may
become so small that it loads the amplifier heavily.
Q-431 Write the disadvantages of Phase shift oscillator.
Ans 1. It is necessary to change the C or R in all the three RC networks simultaneously for
changing the frequency of oscillations. This is practically difficult.

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2. It is not suitable for high frequencies.

Q-432 Write the main drawback of LC oscillators
Ans 1. The frequency stability is not very good.
2. They are too bulky and expensive and cannot be used to generate low frequencies.
Q-433 Define Piezo electric effect.
Ans Certain crystal, when suitable wt, develop a potential difference between opposite
faces, magnitude and polarity of which depends on pressure or tension applied to the
other pair of perpendicular faces. This effect is called Piezo electric effect.
Q-434 Define differential amplifier.
Ans When two or more input is applied to the amplifier and receive the single output is
called differential amplifier.
VO = V1 - V2
Q-435 Define stability.
Ans The variation of input is applied to the system; to get the constant output is called
stability.
Q-436 Define switch.
Ans A switch is a device which opens or closes the electrical circuit, i.e., can turn on or off
current in an electrical circuit. An ideal switch has zero internal resistance when it is
closed an infinite leakage resistance when it is open.
Q-437 What is the function of Clamper circuit?
Ans Clamper circuit introduces a d.c level to an a.c signal. Hence, the damper circuit or
network is also known as d.c restorer. These circuits find applications in television
receivers to restore the d.c reference signal to the video signal.
Q-438 Define rise time.
Ans The time during which the voltage or current reaches to a maximum positive or
negative value is called the rise time. The rise time is zero for the square wave.
Q-439 Define sinusoidal waveform.
Ans A sine wave varies continuously in amplitude in proportion to the sine of an angle
which varies from o to 360°.
Q-440 Define market pips.
Ans Circuits make use of the transient properties of R, C and l to realize the mathematical
operations of differentiations, integration and summation. The differentiating circuit is
extensively used to convert summation. The different circuit is extensively used to
convert pulse trains to a series of timing pips known as market pips.
Q-441 Mention the classification of switches.
Ans 1. Mechanical switch.
2. Electronic switch.
Q-442 Define ramp function generator.
Ans The shape of the pulse resemble the teeth or a saw, therefore the name saw tooth
waveform. A saw tooth generator is also called ramp function generator.
Q-443 Define Multi vibrators.
Ans There is a class of RC coupled oscillators called Multivibrators which generate non-
sinusoidal waveforms such as triangular square and saw tooth.
Q-444 Define free running multi vibrators.
Ans A Multivibrator is a form of relaxation oscillators. They may need no external
excitation, i.e., they are self-excited; if so they are termed as free running Multivibrator.

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Q-445 Mention the types of Multivibrators.

Ans 1. Monostable multivibrator.
2. Bistable multivibrator.
3. Astable multivibrator.
Q-446 Define Astable multivibrator.
Ans The change in the output state is regenerative. The output never remains permanently
at a particular state. Hence, this multivibrator is called astable multivibrator.
Q-447 Define bistable multivibrator.
Ans Since in the absence of an external signal, either transistor can continue indefinitely in
ON or OFF state, they are equally stable in both states. Therefore, the name Bistable
multivibrator.
Q-448 Define Monostable multivibrator.
Ans It is also called the one shot multivibrator. The one shot multivibrator is driven, it is
not free running unlike the bistable trigger, and the monostable has one stable state to
which it returns after the eternal driving pulse has caused it to execute its cycle.
Q-449 Define Schmitt Trigger.
Ans When the input is sinusoidal signal and converted to square waveform in output is
called Schmitt trigger. Generation of pulses when the voltage level rises to a certain
value is achieved by using a circuit.
Q-450 Define high pass filter.
Ans At very high frequencies the capacitor acts as a virtual short circuit and the output falls
to zero. Hence this circuit passes the low frequencies of the input and attenuates the
high frequency is called low pass filter.
Q-451 Define duty cycle.
Ans It is the ration of the ON period to the total period.
(T = TON + TOFF)
Therefore, Duty cycle = Ton/T
Q-452 Write the application of Astable Multivibrator.
Ans 1. The astable multivibrator is used as square wave generator, voltage to frequency
convertor and in pulse synchronization, as clock for binary logic signals and so on.
2. Since it produces square waves it is a source of production of harmonic frequencies
of higher order,
Q-453 Write the applications of monostable multivibrator.
Ans 1. The monostable multivibrator is used to function as an adjustable pulse width
generator.
2. It is used to generate uniform width pulses from a variable width input pulse train.

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