MSBTE Electronics Past Paper Summer-2018 PDF

Summary

This document is a past paper from the MSBTE Summer 2018 examinations for a Diploma in Electrical Engineering. The paper covers various topics in electronics, including diodes, transistors, rectifiers, and oscillators.

Full Transcript

Zeal Education Society’s
ZEAL POLYTECHNIC, PUNE.
NARHE │PUNE -41 │ INDIA

FIRST YEAR (FY)
DIPLOMA IN ELECTRICAL ENGINEERING
SCHEME: I SEMESTER: II

NAME OF SUBJECT: ELEMENTS OF ELECTRONICS
SUBJECT CODE: 22213

MSBTE QUESTION PAPERS & MODEL ANSWERS
1. MSBTE SUMMER-18 EXAMINATION
2. MSBTE WINTER-18 EXAMINATION
3. MSBTE SUMMER-19 EXAMINATION
4. MSBTE WINTER-19 EXAMINATION
21718
22213
3 Hours / 70 Marks Seat No.

Instructions : (1) All Questions are compulsory.
(2) Answer each next main Question on a new page.
(3) Illustrate your answers with neat sketches wherever necessary.
(4) Figures to the right indicate full marks.
(5) Assume suitable data, if necessary.
(6) Use of Non-programmable Electronic Pocket Calculator is permissible.
(7) Mobile Phone, Pager and any other Electronic Communication
devices are not permissible in Examination Hall.

Marks

1. Attempt any FIVE of the following : 10

(a) Name the components of following symbols :

(i)

(ii)

(b) Define the term ‘Ripple factor’ for rectifier.

(c) State relation between emitter current (IE), Base current (IB) and collector

current (IC) of BJT.

(d) Write three terminal voltage regulator IC for obtaining :

(i) + 5V

(ii) –12V
[1 of 4] P.T.O.
22213 [2 of 4]
(e) ‘Germanium diode knee voltage is lower than silicon diode knee voltage.’
Justify.

(f) Define the term ‘Load Regulation’.

(g) Draw symbol and write truth table of EX-OR gate.

2. Attempt any THREE of the following : 12

(a) State working principle of photo diode. List out its three applications.

(b) Sketch circuit diagram and input, output waveform of Half wave rectifier.
State its efficiency.

(c) Compare BJT common base configuration with common collector
configuration on the basis of

(i) Current gain

(ii) Voltage gain

(iii) Input impedance

(iv) Output impedance

(d) Sketch block diagram of D.C. regulated power supply. State functions of each
block.

3. Attempt any THREE of the following : 12

(a) Explain with circuit diagram operation of zener diode as a voltage regulator.

(b) State type of feedback used for oscillator circuit. Explain Barkhausen criteria.

(c) State condition for both junction to operate BJT in cut off state, Active state
and saturation state.
22213 [3 of 4]
(d) Name the type of rectifier for each of following feature :

(i) Highest rectifier efficiency

(ii) Highest form factor

(iii) Two diode rectifier circuit

(iv) PIV = 2Vm

4. Attempt any THREE of the following : 12

(a) Sketch circuit diagram of Hartely oscillator. State expression for frequency of
oscillation.

(b) Sketch circuit diagram of bridge rectifier with LC filter. State function of each
component.

(c) In a common base configuration, the emitter current is 1 mA. If the emitter
circuit is open, the collector current is 50 A. Find total collector current.
Assume  (Alpha) = 0.92.

(d) Sketch and label V-I characteristics of P-N junction diode. Write steps to
calculate dynamic forward bias resistance.

(e) Explain operation of series inductor filter and find out its ripple factor.

5. Attempt any TWO of the following : 12

(a) A transistor is connected in common emitter (CE) configuration with collector
supply VCC of 8V. Voltage drop across resistance RC connected in series with

collector is 0.5 V. The value of RC is 800 . If alpha () equal to 0.96,
calculate :

(i) Collector-emitter voltage

(ii) Collector current

(iii) Base current

P.T.O.
22213 [4 of 4]
(b) Sketch pin configuration of IC 723. State functions of each pin. Sketch circuit
diagram for obtaining 6V output d.c. regulated voltage using IC 723.

(c) Implement the fundamental logic gates ‘OR gate’, ‘AND gate’, ‘NOT gate’
using only NAND gates.

6. Attempt any TWO of the following : 12

(a) Sketch circuit diagram of RC phase shift oscillator. If value of capacitor
C = C1 = C2 = C3 = 5 pF and frequency of oscillation is 800 Hz, calculate
value of resistor R, (R = R1 = R2 = R3).

(b) For common emitter configuration sketch input characteristics for two
different values of VCE and output characteristics for two different values of

IB. Write formula for input resistance and output resistance.

(c) Perform following number system conversion :

(i) (589)10 = ( )2

(ii) (101101)2 = ( )16

(iii) (413)8 = ( )2

(iv) (5AF)16 = ( )10

(v) (AC8)16 = ( )2

(vi) (106)8 = ( )10

_______________
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Summer- 2018 Examinations
Subject Code: 22213 Model Answer Page 1 of 13

Important suggestions to examiners:
1) The answers should be examined by key words and not as word-to-word as given in the model
answer scheme.
2) The model answer and the answer written by candidate may vary but the examiner may try to
assess the understanding level of the candidate.
3) The language errors such as grammatical, spelling errors should not be given more importance.
(Not applicable for subject English and communication skills)
4) While assessing figures, examiner may give credit for principle components indicated in a figure.
The figures drawn by candidate and model answer may vary. The examiner may give credit for any
equivalent figure drawn.
5) Credits may be given step wise for numerical problems. In some cases, the assumed constant
values may vary and there may be some difference in the candidate’s answers and model answer.
6) In case some questions credit may be given by judgment on part of examiner of relevant answer
based on candidate understands.
7) For programming language papers, credit may be given to any other program based on equivalent
concept.

Q.1 Attempt any FIVE of the following : 10 Marks
Name the components of following symbols :
a)
(i) ii)
Ans
i) : Semiconductor Diode (1 Mark)

ii) : Light Emitting Diode (1 Mark)
b) Define the term 'Ripple factor' for rectifier.
Ans Ripple factor: The ratio of RMS value of ac component present in the waveform to the dc
component in the waveform is called as ripple factor. (2 Marks)
OR
The unwanted AC components present in output waveform of a rectifier is called as ripple
factor
State relation between emitter current (IE), Base current (IB) and collector current (Ic)
c)
of BJT.
Ans IE = Ic + IB (2 Marks)

IE = (1+β) IB
d) Write three terminal voltage regulator IC for obtaining : (i) + 5V (ii) —12V
Ans (i) Terminal voltage regulator IC for obtaining : + 5V : IC 7805 ( 1 Mark)
(ii) Terminal voltage regulator IC for obtaining : - 12V : IC 7912 ( 1 Mark)
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e) ‘Germanium diode knee voltage is lower than silicon diode knee voltage.' Justify.
Ans Justification: (2 Marks)
The band gap between conduction and valence band for Germanium (0.66eV) is less as
compared to Silicon (1.11eV).Hence less energy is required to start conduction in Germanium
diode.

f) Define the term 'Load Regulation'.
Ans Load Regulation : (2 Marks)
Load regulation is the ability of a power supply to maintain a constant output voltage
irrespective of any changes in load current.

g) Draw symbol and write truth table of EX-OR gate.
Ans Symbol and truth table of EX-OR : (1 Mark for symbol & 1 Mark for Truth table)

Q.2 Attempt any THREE of the following : 12 Marks
a) State working principle of photo diode. List out its three applications.
Ans: Diagram of photo diode : (1 Mark)
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Working principle of photo diode : (2 Marks)
When photons of energy greater than 1.1 eV hit the diode, electron-hole pairs are
created. The intensity of photon absorption depends on the energy of photons – the lower
the energy of photons, the deeper the absorption is. This process is known as the inner
photoelectric effect.
If the absorption occurs in the depletion region of the p-n junction, these hole
pairs are swept from the junction - due to the built-in electric field of the depletion region.
As a result, the holes move toward the anode and the electrons move toward the cathode,
thereby producing photocurrent.

Applications principle of photo diode : (1 Mark)

Cameras, Medical devices, Smoke detector, Optical communication devices,
Position sensors, Bar code scanners, Automotive devices, Surveying instruments

Sketch circuit diagram and input, output waveform of Half wave rectifier. State its
b)
efficiency.
Ans: Half wave Rectifier (Circuit) :- (Circuit - 2 Mark)

Waveform: (Waveform - 1 Mark)

Efficiency : 40.6 % ( 1 Mark)
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Compare BJT common base configuration with common collector configuration on the
c)
basis of (i) Current gain (ii) Voltage gain (iii) Input impedance (iv) Output impedance
Ans: Comparison : ( 4 Marks)

Parameter Common Base Common Collector
Current gain Low (About 1) High (1+β)
Voltage gain High 1
Input impedance Low High
Output impedance High Low

d) Sketch block diagram of D.C. regulated power supply. State functions of each block.
Ans: Diagram : ( 2 Mark)

Functions of each block: ( 2 Mark)
1) Transformer:
It Converts an AC input source to AC required output without changing frequency. The
transformer is step up or step down transformer.
2) Rectifier:
It is a circuit which is used to convert AC into pulsating DC. A rectifying diode is used.
3) Filter:
It is a circuit used to convert pulsating DC into pure DC. A inductor and capacitors are
used as filter
4) Voltage regulator:
An unregulated DC voltage is converted into regulated DC voltage. IC 78XX & 79XX
series are used as regulator.
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Q.3 Attempt any THREE of the following : 12 Marks
a) Explain with circuit diagram operation of zener diode as a voltage regulator.
Ans: Diagram of zener diode as voltage regulator: (2 Mark)

Working: (2 Mark)
Zener Diodes are widely used as Shunt Voltage Regulators to regulate voltage
across small loads. Zener Diodes have a sharp reverse breakdown voltage and breakdown
voltage will be constant for a wide range of currents. Thus we will connect the zener
diode parallel to the load such that the applied voltage will reverse bias it. Thus if the
reverse bias voltage across the zener diode exceeds the knee voltage, the voltage across
the load will be constant.
Characteristics :

b) State type of feedback used for oscillator circuit. Explain Barkhausen criteria.
Ans: Type of feedback used for oscillator circuit : Positive feedback (1 Mark)

Barkhausen's criterion is a necessary condition for oscillation: (3 Marks)

It states that if A is the gain of the amplifying element in the circuit and β(jω) is
the transfer function of the feedback path, so βA is the loop gain around the feedback
loop of the circuit, the circuit will sustain steady-state oscillations only at frequencies for
which:

1. The loop gain is equal to unity in absolute magnitude, that is, and
2. The phase shift around the loop is zero or an integer multiple of 2π.
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c) State condition for both junction to operate BJT in cut off state, Active state and
saturation state.
Ans: (4 Marks)

Name the type of rectifier for each of following feature : (i) Highest rectifier efficiency
d)
(ii) Highest form factor (iii) Two diode rectifier circuit (iv) PIV = 2Vm.
Ans: (4 Marks)
(i) Highest rectifier efficiency : Center tapped & Bridge full wave Rectifier
(ii) Highest form factor : Center tapped & Bridge full wave Rectifier
(iii) Two diode rectifier circuit : Center tapped full wave Rectifier
(iv) PIV = 2Vm : Center tapped full wave Rectifier

Q.4 A) Attempt any THREE of the following : 12 Marks
a) Sketch circuit diagram of Hartely oscillator. State expression for frequency of oscillation
Ans: Circuit Diagram (3 Marks)
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Expression for frequency of oscillation: (1 Mark)

Sketch circuit diagram of bridge rectifier with LC filter. State function of each
b)
component.
Ans: Circuit diagram : (2 Marks)

Components and its function: : (2 Marks)
1. Transformer- An electrical device which transfers electrical energy from one electric
circuit to other, without changing the frequency. The energy transfer takes place with
change in voltage and current.
2. Rectifier- Convert AC into pulsating DC.
3. Inductor- Blocks AC components of rectified output and only pass DC components.
4. Capacitor- It bypasses AC components if any and gives DC to load.

In a common base configuration, the emitter current is 1 mA. If the emitter circuit is
c) open, the collector current is 50 microA. Find total collector current. Assume a (Alpha) =
0.92.
Ans: Given Data : IE= 1mA
ICBO=50 µA, α= 0.92
Using Equation: ( 4 Marks)
IC = α IE+ICBO
IC = (0.92 × 1mA ) + 0.05 mA.
IC = 0.97 mA.
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Subject Code: 22213 Model Answer Page 8 of 13

Sketch and label V-I characteristics of P-N junction diode. Write steps to calculate
d)
dynamic forward bias resistance.
Ans: V-I characteristics of P-N junction diode : (2 Marks)

Dynamic forward bias resistance:- (2 Marks)
Dynamic resistance is defined as the ratio of change in voltage to the change in current. It is
denoted as rf.
Change in voltage
=
Change in current

e) Explain operation of series inductor filter and find out its ripple factor.
Ans: Circuit diagram of series inductor filter : (2 Marks)

Operation of Series Inductor Filter : (1 Mark)
A high value of inductor is connected in series with load. Then the combination is
connected across the rectifier. The Inductive reactance is directly proportional to
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frequency. Therefore for AC contents inductor offers high opposition, and hence block the
AC signals. For DC signal, freq.is zero.XL=0.i.e.inductor acts as a short ckt. Thus all DC
signals from rectifier are given to load.
Applying KVL to the series inductor ckt.
V0=VR - I* XL
For DC input F=0 and XL=0.Therefore V0=VR. Thus DC components reach to load.
For AC input Freq.is high, XL is high, I* XL drop is high, therefore V0 is small as
compared to VR.
Inductor opposes change in current through it. So, current waveform is made smooth.
This filter operates properly and effectively for higher values of currents. Hence
increase in current reduces ripple factor.

Ripple Factor:- = (1 Mark)
√

Q.5 Attempt any TWO of the following : 12 Marks
(a) A transistor is connected in common emitter (CE) configuration with collector supply
Vcc of 8V. Voltage drop across resistance RC connected in series with collector is 0.5 V.
The value of RC is 800 ohm. If alpha (  ) equal to 0.96, calculate : (i) Collector-emitter
voltage (ii) Collector current (iii) Base current
Ans: Given data :
Vcc = 8V Rc = 800 Ω α= 0.96 VRC = 0.5 V.

By using Equations
(i) Collector-emitter voltage : ( 2 Marks)
VCE = VCC - IC RC
VCE = 8 – 0.5 = 7.5 V
(ii) Collector current : ( 2 Marks)
−
=

=.
(iii) Base current : ( 2 Marks)
( − )
=

= 26.04 µA
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Sketch pin configuration of IC 723. State functions of each pin. Sketch circuit diagram
b)
for obtaining 6V output d.c. regulated voltage using IC 723.
Ans: (Configuration : 2 Mark, Function : 2 Marks & Diagram : 2 Marks)
1) Pin configuration of IC 723 : (2 Mark)

2) Functions of each pin:- (2 Marks)

V+ and V-: These are the supply voltage terminals of the IC. V+ is the positive terminal and
V- is the negative terminal.

Non Inverting Input: This is the non-inverting input of the error amplifier whose output is
connected to the series pass transistor. Reference voltage or a portion of it is given to the non-
inverting input.

Inverting Input: This is the inverting input of the error amplifier whose output is connected
to the series pass transistor. Usually output voltage or a portion of it is given to the inverting
input. This makes the output voltage constant.

Vref: It is the reference voltage output of the IC. It is the output of voltage reference amplifier.
Its output voltage is about 7.15V.

Vout : It is the output terminal of the IC. Usually output voltage ranges from 2 to 37V. This
pin can provide up to 150mA current.

Current Limit: It is the base input of the current limiter transistor. This pin is used for
current limiting or current fold back applications.

Current Sense: This is the emitter of current limiting transistor. This terminal is used with
current limiting and current fold-back applications.
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Vc : This is the collector input of the series pass transistor. It is usually directly connected to
the positive supply voltage if an external transistor is not used.

Freq. Comp: Frequency Compensation : This pin is used to connect a capacitor which
bypasses high frequency noises. It is the output of error amplifier. The capacitor is connected
between this pin and inverting input of the error amplifier. The prescribed value of this
capacitor varies for different types of regulators.

Current Sense: This is the emitter of current limiting transistor. This terminal is used with
current limiting and current fold-back applications.

Vc: This is the collector input of the series pass transistor. It is usually directly connected to
the positive supply voltage if an external transistor is not used.

Freq. Comp: Frequency Compensation: This pin is used to connect a capacitor which
bypasses high frequency noises. It is the output of error amplifier. The capacitor is connected
between this pin and inverting input of the error amplifier. The prescribed value of this
capacitor varies for different types of regulators.

Vz: It is the anode of the zener diode whose cathode connected to the output terminal. It is
usually used for making negative regulators.

3) Circuit diagram for obtaining 6V output d.c. regulated voltage using IC 723 (2 Marks)

Expression Vout = Vref * (R2 / R1+R2)

Assume any value of R2, R1 can be calculated.
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Implement the fundamental logic gates 'OR gate', 'AND gate', 'NOT gate' using only
c)
NAND gates.
Ans: Fundamental logic gates 'OR gate', 'AND gate', 'NOT gate' using only NAND gates:
(6 Marks)

Q.6 Attempt any TWO of the following : 12 Marks
Sketch circuit diagram of RC phase shift oscillator. If value of capacitor C = C1 = C2 =
a) C3 = 5 pF and frequency of oscillation is 800 Hz, calculate value of resistor R, (R = R1 =
R2 = R3).
Ans: Circuit diagram of RC phase shift oscillator (3 Marks)

or equivalent circuits

Given data :

fo= 800 Hz and C = 5 pF

Using Expression for frequency of oscillation

(1 Marks)
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Putting values in above equation

R = 16.24 MΩ (2 Marks)

For common emitter configuration sketch input Characteristics for two different values
b) of VcE and output characteristics for two different values of IB. Write formula for input
resistance and output resistance.
Ans: ( Input characteristics 2 Marks & Output characteristics 2 Marks)

∆
= …..for VCE = constant (1 Mark)
∆

∆
= …..for IB = constant (1 Mark)
∆

Perform following number system conversion :
(i) (589)10 =( )2 (ii) (101101)2 = ( )16
c)
(iii) (413)8 = ( )2 (iv) (5AF)16 = ( )10
(v) (AC8)16 = ( )2 (vi) (106)8 =( )10
Ans: (1 Mark for each)
(i) (589)10 = (1001001101)2
(ii) (101101)2 = ( 2D )16
(iii) (413)8 = (100001011 )2
(iv) (5AF)16 = (1455 )10
(v) (AC8)16 = (101011001000)2
(vi) (106)8 = (70)10

---------------------------------------------------- END-----------------------------------------------------------
11819
22213
3 Hours / 70 Marks Seat No.

Instructions : (1) All Questions are compulsory.
(2) Illustrate your answers with neat sketches wherever necessary.
(3) Figures to the right indicate full marks.
(4) Assume suitable data, if necessary.
(5) Use of Non-programmable Electronic Pocket Calculator is permissible.

Marks

1. Attempt any FIVE of the following : 10
(a) Draw the symbol of LED & photodiode.
(b) Define rectifier and list its types.
(c) List configurations of BJT.
(d) State the output voltage for IC 7824 and IC 7906.
(e) Suggest the suitable diode type for rectifier circuit.
(f) Define the term line regulation.
(g) Draw the symbol, logic expression and truth table of NOR gate.

2. Attempt any THREE of the following : 12
(a) Draw experimental circuit diagram and characteristics for forward biased P-N
junction diode.
(b) Explain Center-tapped full wave rectifier with the help of circuit diagram and
draw input-output waveforms.
(c) Describe the operation of NPN transistor with neat diagram.
(d) Draw block diagram of IC 723. Write the functions of IC 723.

[1 of 4] P.T.O.
22213 [2 of 4]
3. Attempt any THREE of the following : 12

(a) Draw the block diagram of regulated DC power supply and explain the function
of each block.

(b) Differentiate between positive and negative feedback on the basis of :

(i) overall phase shift (ii) voltage gain

(iii) stability (iv) applications

(c) Describe transistor as a switch with neat sketch.

(d) An AC supply of 230 V is applied to half wave rectifier circuit. A transformer
turns ratio is 20 : 1. Find

(i) Output DC voltage (ii) Peak Inverse Voltage (PIV)

4. Attempt any THREE of the following : 12

(a) List the applications of RC oscillator and crystal oscillator. (two each)

(b) Draw the circuit diagram of bridge rectifier with  filter. Draw its input and
output waveform.

(c) In a common base connection, current amplification factor () is 0.9. If the
emitter current is 1 mA, determine the value of base current.

(d) Describe the working principle of photodiode with proper diagram.

(e) In a full wave rectifier Vm = 10 V, RL = 10 k. Find out Vdc, Idc and Ripple

factor. [Refer Fig. 1)

Fig. 1
22213 [3 of 4]
5. Attempt any TWO of the following : 12

(a) Identify type of BJT configuration having following features :

(i) BJT configuration having the least current gain.

(ii) BJT configuration called as voltage follower.

(iii) BJT configuration having current gain less than one.

(iv) BJT configuration suitable for impedance matching.

(v) BJT configuration suitable for voltage amplification.

(vi) BJT configuration having the least output impedance.

(b) Find out the input voltage of the zener regulator shown in Fig. 2. Assume
RS = 200  and Iz(max) = 25 mA.

Fig. 2

(c) Convert the following numbers :

(i) (456)10 = ( )2

(ii) (5A)16 = ( )10

(iii) (43)8 = ( )2

(iv) (101011)2 = ( )16

(v) (204)10 = ( )8

(vi) (259)10 = ( )16

P.T.O.
22213 [4 of 4]
6. Attempt any TWO of the following : 12
(a) Identify the circuit shown in Fig. 3. Find out frequency of oscillator of the
circuit.
+ VCC = 10 V

RFC

CE = 47 F

Fig. 3
(b) Draw output characteristics of common emitter [CE] configuration and explain
active, saturation and cut-off regions in detail.
(c) Refer the diagram shown in Fig. 4. What should be logic level at D input to
make :
(i) LED ON
(ii) LED OFF
(iii) Justify your answer by giving step-by-step output of each stage.

Fig. 4
_______________
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WINTER- 2018 Examinations
Subject Code: 22213 Model Answer Page 1 of 13

Important suggestions to examiners:
1) The answers should be examined by key words and not as word-to-word as given in the model answer scheme.
2) The model answer and the answer written by candidate may vary but the examiner may try to assess the
understanding level of the candidate.
3) The language errors such as grammatical, spelling errors should not be given more importance. (Not applicable
for subject English and communication skills)
4) While assessing figures, examiner may give credit for principle components indicated in a figure. The figures
drawn by candidate and model answer may vary. The examiner may give credit for any equivalent figure
drawn.
5) Credits may be given step wise for numerical problems. In some cases, the assumed constant values may vary
and there may be some difference in the candidate’s answers and model answer.
6) In case some questions credit may be given by judgment on part of examiner of relevant answer based on
candidate understands.
7) For programming language papers, credit may be given to any other program based on equivalent concept.

Q.1 Attempt any FIVE of the following : 10 Marks
a) Draw the symbol of LED & photodiode.
Ans Symbol of LED : Symbol of photodiode : (2 Marks)

b) Define rectifier and list its types.
Ans Definition: (1 Mark)
A rectifier is a circuit that converts AC input voltage into DC output voltage.
Types : 1) Half wave rectifier (1 Mark)
2) Center tap full wave rectifier.
3) Bridge Rectifier

c) List configurations of BJT.
Ans Configurations of BJT : (2 Marks)
1) Common Base (CB) configuration
2) Common Emitter (CE) configuration
3) Common Collector (CC) configuration
d) State the output voltage for IC 7824 and IC 7906.
Ans i) Output voltage for IC 7824 : + 24 V (1 Mark)
ii) Output voltage for IC 7906 : - 6 V (1 Mark)
e) Suggest the suitable diode type for rectifier circuit.
Ans Any general purpose diodes 1N4001 to 1N4007 series (2 Marks)
OR
Silicon diode & Germanium diode
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f) Define the term line regulation.
Ans Line Regulation : (2 Marks)
Line regulation is the ability of a power supply to maintain a constant output voltage
irrespective of any changes in input voltage.

g) Draw the symbol, logic expression and truth table of NOR gate.
Ans The Symbol, logic expression and truth table of NOR gate: (2 Marks)

Q.2 Attempt any THREE of the following : 12 Marks
Draw experimental circuit diagram and characteristics for forward biased P-N junction
a)
diode.
Ans: Experimental circuit diagram: (2 Marks)

or equivalent figure

Forward biased P-N junction diode : (2 Marks)

or equivalent figure
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Explain Center-tapped full wave rectifier with the help of circuit diagram and draw input-
b)
output waveforms.
Ans: Diagram of Bridge rectifier: ( Diagram: 2 Mark & Explanation : 2 Mark)

or equivalent diagram

Operation :
During positive half cycle of an AC supply, D1 will forward biased and current starts
flowing through load. The output voltage is equal to +Vs.

During negative half cycle of an AC supply, D2 will forward biased and current starts
flowing through load. The output voltage is equal to +Vs.

In this pulsating DC waveform will be obtained at the load.

c) Describe the operation of NPN transistor with neat diagram.
Ans: Operation of NPN transistor- (Diagram 2-Marks, Explanation 2-Marks)

or equivalent figure
N-p-n transistor is made by sandwiching thin layer of p-type semiconductor between two layers
of n-type semiconductor. It has three terminals - Emitter, Base and collector. The npn transistor
has two supplies, one is connected through the emitter base and one through the collector base.
The supply is connected such that emitter-base are forward biased and collector base are reverse
biased. It means, Base has to be more positive than the emitter and in turn, the collector must be
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more positive than the base. The current flow in this type of transistor is carried through
movement of electrons. Emitter emits electrons which are pulled by the base as it is more positive.
This end up in the collector as it is more positive. In this way, current flows in the transistor.
d) Draw block diagram of IC 723. Write the functions of IC 723.
Ans: Block diagram of IC 723 : (2 Marks)

or equivalent figure
Functions of IC 723 : (2 Marks)
1. Series, shunt, switching and floating regulators
2. Basic Low-voltage Regulator (Vo = 2 to 37 volts)
3. Low Voltage High Current Regulator.
OR
Block diagram explanation :
Temperature compensated zener diode, constant current source and reference amplifier
constitutes the reference element. In order to get a fixed voltage from zener diode, the constant
current source forces the zener to operate at a fixed point.
Output voltage is compared with this temperature compensated reference potential of the order
of 7 volts. Error amplifier is high gain differential amplifier. It’s inverting input is connected to
the either whole regulated output voltage or part of that from outside. For later case a potential
divider of two scaling resistors is used. Scaling resistors help in getting multiplied reference
voltage or scaled up reference voltage.
Error amplifier controls the series pass transistor Q1, which acts as variable resistor. The series
pass transistor is a small power transistor having about 800 mW dissipation. The unregulated
power supply source (< 36V d.c.) is connected to collector of series pass transistor.
Transistor Q2 acts as current limiter in case of short circuit condition. It senses drop across lc
placed in series with regulated output voltage externally.
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The frequency compensation terminal controls the frequency response of the error amplifier. The
required roll-off is obtained by connecting a small capacitor of 100 pF between frequency
compensation and inverting input terminals.
Q.3 Attempt any THREE of the following : 12 Marks
Draw the block diagram of regulated DC power supply and explain the function of each
a)
block.
Ans: Diagram : ( 2 Mark)

or equivalent figure
Functions of each block: ( 2 Mark)
1) Transformer:
It Converts an AC input source to AC required output without changing frequency. The
transformer is step up or step down transformer.
2) Rectifier:
It is a circuit which is used to convert AC into pulsating DC. A rectifying diode is used.
3) Filter:
It is a circuit used to convert pulsating DC into pure DC. A inductor and capacitors are
used as filter
4) Voltage regulator:
An unregulated DC voltage is converted into regulated DC voltage. IC 78XX & 79XX
series are used as regulator.
Differentiate between positive and negative feedback on the basis of. (i) overall phase shift
b)
(ii) voltage gain (iii) stability (iv) applications
Ans: ( 1 Mark each Point)
S.No. Parameter Positive feedback Negative feedback
i) overall phase shift 0o or 360o (In phase) 180o out of phase
ii) voltage gain Increases Decreases
iii) stability Poor Better
iv) applications Oscillator Amplifier
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c) Describe transistor as a switch with neat sketch.
Ans: Working : ( Diagram 2 Marks Explanation 2 Marks)
From the circuit we can see that the control input Vin is given to base through a current
limiting resistor Rb and Rc is the collector resistor which limits the current through the
transistor

or equivalent figure

When a sufficient voltage V is given to input, transistor becomes ON & it goes into saturation.
During this condition the Collector Emitter voltage Vce will be approximately equal to zero, ie
the transistor acts as a short circuit & Vo = 0.
When input voltage V=0, transistor becomes OFF & it goes into cutoff. The transistor acts as
an open circuit. During this condition the Collector Emitter voltage Vce=Vcc. Therefore Vo =
Vcc.

An AC supply of 230 V is applied to half wave rectifier circuit. A transformer turns ratio
d)
is 20 : 1. Find i) Output DC voltage (ii) Peak Inverse Voltage (PIV)
Ans: Given Data : V primary = 230Vrms. Turns ratio = 20:1
V secondary = V primary/ 20 = 230/20 = 11.5 Vrms ( 1 Mark)
Vm = √2 × Vrms = √2 × 11.5 = 16.26 V ( 1 Mark)

i) Output DC voltage = Vm/π = 16.26/3.14= 5.17 V ( 1 Mark)
ii) Peak Inverse Voltage (PIV) =Vm = 16.26 V ( 1 Mark)
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Q.4 Attempt any THREE of the following : 12 Marks
a) List the applications of RC oscillator and crystal oscillator. (two each)
Ans: Applications of RC oscillator : (Any two 2 Marks)
1) In AF signal generators
2) In radio transmitter & Receivers
3) Sine wave generator.

Applications of Crystal oscillator (Any two 2 Marks)
1) Electronic navigation systems
2) Frequency Synthesizers
3) Timing circuits (Clock) with high stability.
4) RADAR systems.

Draw the circuit diagram of bridge rectifier with π filter. Draw its input and output
b)
waveform.
Ans: Circuit diagram of bridge rectifier with π filter : ( 2 Marks)

or equivalent figure

Input and output waveform: ( 2 Marks)

or equivalent figure
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In a common base connection, current amplification factor (a) is 0.9. If the emitter current
c)
is 1 mA, determine the value of base current.
Ans: Given data : α = 0.9 ( Equation 2 Marks & Answer 2 Marks)
IE = 1mA
Αs α= IC /IE.
Therefore IC = 0.9mA
IE = IC +IB ……(Assume ICBO = 0)
IB = 0.1mA
OR
IB = (1- α) IE
IB = 0.1mA

d) Describe the working principle of photodiode with proper diagram.
Ans: Diagram of photo diode : (2 Mark)

or equivalent figure
Working principle of photo diode : (2 Marks)
When photons of energy greater than 1.1 eV hit the diode, electron-hole pairs are
created. The intensity of photon absorption depends on the energy of photons – the lower
the energy of photons, the deeper the absorption is. This process is known as the inner
photoelectric effect.
If the absorption occurs in the depletion region of the p-n junction, these electron
hole pairs are swept from the junction - due to the built-in electric field of the depletion
region. As a result, the holes move toward the anode and the electrons move toward the
cathode, thereby producing photocurrent.
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In a full wave rectifier V = 10 V, Ri = 10 kf2. Find out Vdc, fide and Ripple factor. [Refer
Fig. 1)

e)

Ans: Given Data : Vm= 10V , RL= 10K
VDC = 2Vm/π = 6.367 V ( 1 Mark)

IDC = VDC/RL = 0.637 mA ( 1 Mark)

Im = Vm/ RL = 1mA ( 1 Mark)

Ripple Factor = [ ] − 1 =0.48 ( 1 Mark)

Q.5 Attempt any TWO of the following : 12 Marks
(a) Identify type of BJT configuration having following features :
(i) BJT configuration having the least current gain.
(ii) KIT configuration called as voltage follower.
(iii) BJT configuration having current gain less than one.
(iv) BJT configuration suitable for impedance matching.
(v) BIT configuration suitable for voltage amplification.
(vi) BJT configuration having the least output impedance.
Ans: (Each 1 Mark)
(i) BJT configuration having the least current gain : Common Base Configuration
(ii) KIT configuration called as voltage follower: Common Collector Configuration
(iii) BJT configuration having current gain less than one : Common Base Configuration
(iv) BJT configuration suitable for impedance matching: Common Collector Configuration
(v) BIT configuration suitable for voltage amplification: Common Emitter Configuration
(vi) BJT configuration having the least output impedance: Common Collector Configuration
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Find out the input voltage of the zener regulator shown in Fig. 2. Assume Rs = 200 Ω and
1Z (max) = 25 mA.

b)

Ans: Given Rs = 200 ohm, RL = 2Kohm , Iz(max) = 25mA
Vo = 30V
So Vz = Vo = 30V. (1 Mark)
The input voltage range
A ) Vs.max = IRmax × R + Vz ………………(1) (1 Mark)
IRmax = IZ max + IL = IZmax + Vz/RL = 40 mA. (1 Mark)
Therefore from equation (1)
Vs.max = 38 V (1 Mark)

B) Assuming Iz min = 20 % of I z max = 5 mA … Practically to maintain zenner diode in
breakdown condition.
So , Vs min = Is Rs + Vz ……… I s = Iz + IL = 20 mA
= 34 V.
So, Input voltage ranging from 34V to 38V. (2 Marks)

Note : Full marks may be given for calculating input Vsmax =38V
Convert the following numbers :
c) i) (456)10 = ( )2 ii) (5A)16 = ( )10 iii) (43) = ( )2
vi) (101011)2 = ( )16 v) (204)10 = ( )8 vi) (259)10 = ( )16
Ans: Convert the following numbers : ( 1 Mark each convert Number)
i) (456)10 = (111001000)2
ii) (5A)16 = (90)10
iii) (43)10 = (101011)2
iv) (101011)2 = (28)16 ,
v) (204)10 = (314)8 ,
vi) (259)10 = (103)16
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Q.6 Attempt any TWO of the following : 12 Marks
Identify the circuit shown in Fig. 3. Find out frequency of oscillator of the circuit.

a)

Ans: Circuit Diagram : Colpitts Oscillator (2 Marks)

Frequency = where (2 Marks)

So

& f = 208.95 KHz. (2 Marks)

Draw output characteristics of common emitter [CE] configuration and explain active,
b)
saturation and cut-off regions in detail.
Ans: Characteristics of common emitter [CE] configuration (3 Marks)

or equivalent figure
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Explanation : (3 Marks)
(1) Active Region:
In this region collector junction is reverse biased and emitter junction is forward
biased. It is the area to the right of VCE = 0.5 V and above IB= 0. In this region transistor
current responds most sensitively to IB. If transistor is to be used as an amplifier, it must
operate in this region.

(2) Cut Off:
In this region collector junction is reverse biased and emitter junction is reverse biased
Cut off in a transistor is given by IB = 0, IC= ICO.

(3) Saturation Region:
In this region both junctions are forward biased. Since the voltage VBE and VBC
across a forward is approximately 0.7 V therefore, VCE = VCB + VBE = - VBC + VBE is
also few tenths of volts. In this region the transistor collector current is approximately given
by VCC / RC and independent of base current.

Refer the diagram shown in Fig. 4. What should be logic level at D input to make :
(i) LED ON (ii) LED OFF (iii) Justify your answer by giving step-by-step output of each
stage. o+ 5V

c)

Ans: D Flip Flop Truth Table: SR Flip Flop Truth Table:

Looking at the truth table and given circuit diagram to get logic level at D input for following
output :
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i) LED ON: This indicates output of SR FF QA = 1. To get QA = 1, S =1.
So, Q=1. To get Q=1, D=1.
Therefore D = 1 for LED ON condition (3 Marks)

ii) LED OFF: This indicates output of SR FF QA = 0. To get QA = 0, S =0.
So, Q=0. To get Q=0, D=0.
Therefore D = 0 for LED OFF condition (3 Marks)

---------------------------------------------------- END-----------------------------------------------------------
 22213
21819
3 Hours / 70 Marks Seat No.

Instructions – (1) All Questions are Compulsory.
(2) Answer each next main Question on a new page.
(3) Illustrate your answers with neat sketches wherever
necessary.
(4) Figures to the right indicate full marks.
(5) Use of Non-programmable Electronic Pocket
Calculator is permissible.
(6) Mobile Phone, Pager and any other Electronic
Communication devices are not permissible in
Examination Hall.

Marks

1. Attempt any FIVE of the following: 10
a) Draw symbol of:
(i) PN junction diode
(ii) LED
b) Name the different types of filter.
c) Define current gain of a transistor.
d) Define load and line regulation.
e) List any two applications of zener diode.
f) Draw pin configuration of IC 723.
g) Define Demorgans theorem first and write it’s equation.

P.T.O.
22213
Marks
2. Attempt any THREE of the following: 12
a) Describe the operating principle of Light Emitting Diode (LED)
with neat diagram.
b) Draw the circuit diagram of full wave bridge rectifier and
describe its working.
c) Describe the working of NPN transistor with a neat sketch.
d) Draw the block diagram of regulated power supply and state
the function of each block.

3. Attempt any THREE of the following: 12
a) Draw circuit diagram and describe the working of zener diode
as voltage regulator.
b) Draw the circuit diagram of crystal oscillator. Give the basic
principle of working of piezoelectric crystal and give the
equivalent circuit diagram.
c) Draw the output characteristic of CE (Common Emitter)
configuration and label various regions.
d) In full wave bridge rectifier Vm= 10 V RL = 10 k W. Find
out VDC, IDC, ripple factor and PIV.

4. Attempt any THREE of the following: 12
a) Compare positive and negative feedback (any four points).
b) With the help of circuit diagram and waveform, describe the
working of p type filter.
c) For a transistor α = 0.98 and IC = 4 mA. Calculate IB and IE.
d) Draw labelled VI characteristic of PN junction diode and explain.
e) Draw the circuit diagram for the following input-output
waveform of rectifier (Refer Fig. No. 1 and Fig. No. 2)
22213
Marks

Fig. No. 1

Fig. No. 2

P.T.O.
22213
Marks
5. Attempt any TWO of the following: 12
a) Define α, β and γ of transistor and give the relation between
α, β and γ of the transistor.
b) Construct a dual regulated power supply capable of giving
± 12 V using 78 XX and 79 XX IC’s.
c) Define universal gate and implement NAND gate as a OR gate
and EX-OR gate.

6. Attempt any TWO of the following: 12
a) Draw RC phase shift oscillator and determine frequency of
oscillation? How can the frequency of oscillator be changed.
b) Describe the working of transistor as a switch with a circuit
diagram.
c) Convert:
(i) (1101101)2 = ( ? )8
(ii) (513)10 = ( ? )2
(iii) (125)10 = ( ? )16
 22213
11920
3 Hours / 70 Marks Seat No.

Instructions – (1) All Questions are Compulsory.
(2) Answer each next main Question on a new page.
(3) Illustrate your answers with neat sketches wherever
necessary.
(4) Figures to the right indicate full marks.
(5) Assume suitable data, if necessary.
(6) Use of Non-programmable Electronic Pocket
Calculator is permissible.
(7) Mobile Phone, Pager and any other Electronic
Communication devices are not permissible in
Examination Hall.

Marks

1. Attempt any FIVE of the following: 10
a) Draw symbols of zener diode and LED
b) List the types of filters.
c) Draw symbol of NPN and PNP transistor
d) Define the term line regulation and load regulation.
e) Suggest the diode material suitable to rectify 0.5V AC signal.
f) Draw circuit of zener diode as a voltage regulator.
g) Draw truth table for logic gates represented by following IC’s:
(i) IC 7400
(ii) IC 7402

P.T.O.
22213
Marks
2. Attempt any THREE of the following: 12
a) Draw and explain V-I characteristics of a PN Junction diode.
b) Explain shunt capacitor filter with the help of circuit diagram
and waveform.
c) Compare CB, CE, CC configuration of BJT with respect to
following points.
(i) Input Impedance
(ii) Output Impedance
(iii) Current gain
(iv) Voltage gain
d) Draw the functional block diagram of IC 723. State any two
features of IC 723.

3. Attempt any THREE of the following: 12
a) Draw block diagram of DC regulated power supply and explain
function of each block with waveforms.
b) State and explain Barkhausen’s criteria required for Oscillations.
c) State the need of biasing of BJT. List types of biasing.
d) A half wave rectifier is used to supply 50V DC to a resistive
load of 1KΩ. The diode has a resistance of 10Ω. Calculate
required input AC voltage.

4. Attempt any THREE of the following: 12
a) Draw the circuit diagram of crystal oscillator and give the
basic principle of piezoelectric crystal.
b) Compare half wave rectifier and full wave rectifier with
respect to:
(i) PIV
(ii) Ripple Frequency
(iii) TUF
(iv) Efficiency
22213
Marks
c) In a common base configuration, current amplification factor
is 0.8. If emitter current is 2mA, determine the value of base
current.
d) Describe the operating principle of LASER diode with
constructional diagram.
e) List out advantages and disadvantages of bridge rectifier.

5. Attempt any TWO of the following: 12
a) Draw frequency response of two stage RC coupled amplifier.
Write procedure to calculate bandwidth and state any two
methods to improve bandwidth.
b) State the need of regulator. Draw circuit diagram of DC
regulated dual power supply for ±12V using IC’s 78XX and
79XX
c) State race around condition. Draw the circuit diagram of
master slave JK flipflop using NAND gates and explain it’s
operation.

6. Attempt any TWO of the following: 12
a) List two applications of oscillator. Calculate the frequency of
oscillation for RC phase shift oscillator for the components
values R = 8·2KΩ, C = 0·01µF, R1 = 1·2KΩ, RF = 39KΩ.
b) Define transistor. Explain how transistor works as a switch
with input and output waveforms.
c) Draw implementation of EX-OR and EX-NOR logic gate
using NAND and NOR gate.
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WINTER-19 EXAMINATION
Subject Name: Elements of Electronics engineering Subject Code: 22213
Model Answer
1

Important Instructions to examiners:
1) The answers should be examined by key words and not as word-to-word as given in themodel answer
scheme.
2) The model answer and the answer written by candidate may vary but the examiner may tryto assess the
understanding level of the candidate.
3) The language errors such as grammatical, spelling errors should not be given moreImportance (Not
applicable for subject English and Communication Skills.
4) While assessing figures, examiner may give credit for principal components indicated in thefigure. The
figures drawn by candidate and model answer may vary. The examiner may give credit for anyequivalent
figure drawn.
5) Credits may be given step wise for numerical problems. In some cases, the assumed constantvalues
may vary and there may be some difference in the candidate’s answers and model answer.
6) In case of some questions credit may be given by judgement on part of examiner of relevant answer
based on candidate’s understanding.
7) For programming language papers, credit may be given to any other program based on equivalent
concept.

Q. Sub Answers Marking
No. Q. N. Scheme

1 (A) Attempt any FIVE of the following: 10- Total
Marks

(a) Draw symbols of zener diode and LED. 2M

Ans: Symbol of zener diode : Symbol of LED : 1 mark
each

(b) List the types of filters. 2M

Ans: Types of filter are as follows: ½M
each
1. Shunt Capacitor filter (C filter)

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WINTER-19 EXAMINATION
Subject Name: Elements of Electronics engineering Subject Code: 22213
Model Answer
2

2. Series Inductor filter (L filter)
3. LC filter
4. filter (CLC filter)

(c) Draw symbol of NPN and PNP transistors. 2M

Ans: 1M
each

(d) Define the term line regulation and load regulation. 2M

Ans: Line Regulation : 1M
Line regulation is the ability of a power supply to maintain a constant output voltage each
irrespective of any changes in input voltage.

Load Regulation :
Load regulation is the ability of a power supply to maintain a constant output voltage
irrespective of any changes in load current.

(Formula is optional)

e) Suggest the diode material suitable to rectify 0.5V AC signal. 2M

Ans: The diode material suitable to rectify 0.5V AC signal is silicon. 2M

f) Draw circuit of zener diode as a voltage regulator. 2M

Page 2/
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WINTER-19 EXAMINATION
Subject Name: Elements of Electronics engineering Subject Code: 22213
Model Answer
3

Ans: Circuit Diagram: 2M

OR

g) Draw truth table for logic gates represented by following IC’s. 2M

(i) IC 7400
(ii) IC 7402

Ans: i) IC 7400 - NAND gate ii) IC 7402 - NOR gate ½M
identify
each IC
½M
Truth
table

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WINTER-19 EXAMINATION
Subject Name: Elements of Electronics engineering Subject Code: 22213
Model Answer
4

Q. Sub Answers Marking
No. Q. N. Scheme

2 Attempt any THREE of the following: 12- Total
Marks

a) Draw and explain V-I characteristics of PN junction diode. 4M

Ans: V-I characteristics of PN junction diode: 2M
Charact
eristics

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WINTER-19 EXAMINATION
Subject Name: Elements of Electronics engineering Subject Code: 22213
Model Answer
5

Explanation:

Forward Bias: 1M

 If the external voltage applied on the silicon diode is less than 0.7 volts, the silicon
diode allows only a small negligible electric current.
 When the external voltage applied on the silicon diode reaches 0.7 volts, the p-n
junction diode starts allowing large electric current through it.
 At this point, a small increase in voltage increases the electric current rapidly.
 The forward voltage at which the silicon diode starts allowing large electric current is
called cut-in voltage.
1M
 The cut-in voltage for silicon diode is approximately 0.7 volts.

Reverse Bias:

 Due to thermal energy in crystal minority carriers are produced.
 These minority carriers are the electrons and holes pushed towards P-N junction by
the negative terminal and positive terminal, respectively.
 Due to the movement of minority carriers, a very little current flows, which is in nano
Ampere range (for silicon). This current is called as reverse saturation current.
 When the reverse voltage is increased beyond the limit and the reverse current
increases drastically is called as reverse breakdown voltage.
 Diode breakdown occurs by two mechanisms: Avalanche breakdown and Zener
breakdown.

b) Explain shunt capacitor filter with the help of circuit diagram and waveform. 4M

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WINTER-19 EXAMINATION
Subject Name: Elements of Electronics engineering Subject Code: 22213
Model Answer
6

Ans: Circuit Diagram: Diagram
-1Mark

Any
wavefor
m-1
Mark
(either
half
wave or
full
wave)

Explanat
Waveforms: ion-
2mark

Half wave Rectifier with shunt capacitor

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WINTER-19 EXAMINATION
Subject Name: Elements of Electronics engineering Subject Code: 22213
Model Answer
7

Full wave Rectifier with shunt capacitor

Note: Consider any one Waveform = half wave or Full wave rectifier with shunt capacitor

Explanation:

 The pulsating DC produced by the rectifier contains both AC and DC components.
 The capacitor allows the AC components and blocks the DC components of the
current.
 When the DC current that contains both DC components and AC components reaches
the filter, the DC components experience a high resistance from the capacitor
whereas the AC components experience a low resistance from the capacitor.
 Electric current always prefers to flow through a low resistance path. So the AC
components will flow through the capacitor whereas the DC components are blocked
by the capacitor. Therefore, they find an alternate path and reach the output load
resistor RL.
 Thus, the filter converts the pulsating DC into pure DC.

c) Compare CB, CE, CC configuration of BJT with respect to following points: 4M

(i) Input impedance
(ii) Output impedance
(iii) Current gain
(iv) Voltage gain

Ans: 1M each
point
Parameter CB CE CC

Input impedance Very Low(less than Low(less than 1K) Very High(750K)
100 ohm)

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Subject Name: Elements of Electronics engineering Subject Code: 22213
Model Answer
8

Output impedance Very High High Low

Current gain Less than 1 High Very high

Voltage gain Greater than CC but Highest Lowest(less than 1)
less than CE

d) Draw the functional block diagram of IC 723. State any two features of IC 723. 4M

Ans: Functional block diagram of IC 723: 2M

Features of IC 723: (Any two points) 2M

 Unregulated dc supply voltage at the input between 9.5V & 40V
 Adjustable regulated output voltage between 2 to 3V.
 Maximum load current of 150 mA (ILmax = 150mA).
 With the additional transistor used, ILmax upto 10A is obtainable.
 Positive or Negative supply operation
 Internal Power dissipation of 800mW.

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WINTER-19 EXAMINATION
Subject Name: Elements of Electronics engineering Subject Code: 22213
Model Answer
9

 Built in short circuit protection.
 Very low temperature drift.
 High ripple rejection.

Q. Sub Answers Marking
No. Q. N. Scheme

3 Attempt any THREE of the following : 12- Total
Marks

a) Draw block diagram of DC regulated power supply and explain function of each block with 4M
waveform.

Ans: Block diagram of DC regulated power supply 2marks
for
Block
diagram

Page 9/
 MAHARASHTRA STATE BOARD OF TECHNICAL EDUCATION
(Autonomous)
(ISO/IEC - 27001 - 2013 Certified)

WINTER-19 EXAMINATION
Subject Name: Elements of Electronics engineering Subject Code: 22213
Model Answer
10

Function of each block:
1. Step Down Transformer:
2marks
A step down transformer will step down the voltage from the ac mains to the required for
voltage level. The turn’s ratio of the transformer is so adjusted such as to obtain the required Explanat
voltage value. The output of the transformer is given as an input to the rectifier circuit. ion
2. Rectifier
Rectifier is an electronic circuit consisting of diodes which carries out the rectification
process. Rectification is the process of converting an alternating voltage or current into
corresponding direct (dc) quantity.
Examples of rectifiers: full wave rectifier or a bridge rectifier
3. DC Filter:
The rectified voltage from the rectifier is a pulsating dc voltage having very high ripple
content. To remove the ripple content and to get a pure ripple free dc waveform. Hence a
filter is used.
Different types of filters are: capacitor filter, LC filter, Choke input filter, π type filter.
4. Regulator:
This is the last block in a regulated DC power supply. The output voltage or current will
change or fluctuate when there is change in the input from ac mains or due to change in
load current at the output of the regulated power supply or due to other factors like
temperature changes. This problem can be eliminated by using a regulator. A regulator will
maintain the output constant even when changes at the input or any other changes occur.
b) State and explain Barkhausen’s criteria required for oscillations. 4M

Ans: Barkhausen’s criteria : 2marks
for
An amplifier will work as an oscillator if and only if it satisfies a set of conditions called Stateme
Barkhausen’s criterion. nt
It states that:
 An oscillator will operate at that frequency for which the total phase shift around
loop equals to 0◦ or 360◦. 2marks
 At the oscillator frequency, the magnitude of the product of open loop gain of the for
Explanat
amplifier A and the feedback factor β is equal or greater than unity.
ion
ie. Aβ ≥ 1

Page 10/
 MAHARASHTRA STATE BOARD OF TECHNICAL EDUCATION
(Autonomous)
(ISO/IEC - 27001 - 2013 Certified)

WINTER-19 EXAMINATION
Subject Name: Elements of Electronics engineering Subject Code: 22213
Model Answer
11

c) State need of biasing of BJT. List types of biasing. 4M

Ans: Need of biasing : The basic need of transistor biasing is to keep the base – emitter (BE) 2marks
junction properly forward biased and the collector – emitter (CE) junction properly reverse for need
biased during the application of AC signal. of
biasing
This type of transistor biasing is necessary for normal and proper operation of transistor to
be used for amplification.

Types of biasing
2marks
1. Fixed bias. for
2. Collector-to-base bias. Types of
3. Fixed bias with emitter resistor. biasing
4. Voltage divider bias or potential divider.
5. Emitter bias.

d) A half wave rectifier is used to supply 50V DC to a resistive load of 1KΩ. The diode has a 4M
resistance of 10Ω. Calculate required input AC voltage.

Page 11/
 MAHARASHTRA STATE BOARD OF TECHNICAL EDUCATION
(Autonomous)
(ISO/IEC - 27001 - 2013 Certified)

WINTER-19 EXAMINATION
Subject Name: Elements of Electronics engineering Subject Code: 22213
Model Answer
12

Ans:

2marks
for Im

2marks
for Vin

Q. Sub Answers Marking
No. Q. N. Scheme

4 Attempt any THREE of the following : 12- Total
Marks

(a) Draw the circuit diagram of crystal oscillator and give the basic principle of piezoelectric 4M
crystal.

Ans: circuit diagram of crystal oscillator: 2marks
for
circuit
diagram

Page 12/
 MAHARASHTRA STATE BOARD OF TECHNICAL EDUCATION
(Autonomous)
(ISO/IEC - 27001 - 2013 Certified)

WINTER-19 EXAMINATION
Subject Name: Elements of Electronics engineering Subject Code: 22213
Model Answer
13

2marks
for
principle

Piezoelectric principle :
Crystal exhibits a property called as piezo-electric property, which states that:
When the crystal is placed across an ac source, it starts vibrating. The amount of vibration
depends upon the frequency of the applied voltage ( By changing the frequency , we can find
a frequency at which the crystal vibrations reach its maximum value & this frequency called
as resonant frequency =
√
Also if mechanical force is applied to crystal then it generates electric potential.

(b) Compare half wave rectifier and full wave rectifier with respect to: 4M

(i) PIV
(ii) Ripple frequency
(iii) TUF
(iv) Efficiency

Ans: 1mark
for Each
Ans:( Note: Bridge rectifier also can be considered) point

Page 13/
 MAHARASHTRA STATE BOARD OF TECHNICAL EDUCATION
(Autonomous)
(ISO/IEC - 27001 - 2013 Certified)

WINTER-19 EXAMINATION
Subject Name: Elements of Electronics engineering Subject Code: 22213
Model Answer
14

S. N. Parameter Half Wave Rectifier Full Wave
Rectifier(center tap)
1 PIV Vm 2Vm
2 Ripple frequency fin 2fin
3 TUF 0.287 0.693
4 Efficiency 40.6% 81.2%
(c) In a common base configuration, current amplification factor is 0.8. If current is 2mA, 4M
determine the value of base current.

Ans: 2 marks
for Ic

2 marks
for IB

(d) Describe the operating principle of LASER diode with constructional diagram. 4M

Ans: constructional diagram of LASER diode: 2marks
for any
relevant
diagram

Page 14/
 MAHARASHTRA STATE BOARD OF TECHNICAL EDUCATION
(Autonomous)
(ISO/IEC - 27001 - 2013 Certified)

WINTER-19 EXAMINATION
Subject Name: Elements of Electronics engineering Subject Code: 22213
Model Answer
15

(OR)