Basic Electronics (DE And EDC) MCQ
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Attempt Free Basic Electronics (DE And EDC) MCQ Here. Read The Important Electricity MCQ From Below.
(A) avalanche breakdown.
(B) zener breakdown.
(C) breakdown by tunnelling.
(D) high voltage breakdown.
(A) Av
(B) 1 + Av
(C) A 2
(D) None
(A) Voltage controlled resistor.
(B) Current controlled current source.
(C) Voltage controlled current source.
(D) Current controlled resistor.
(A) increase in current gain.
(C) increase in voltage gain.
(A) Av + Ac
(B) Av/Ac
(C)Av + 1/Ac
(D) Ac/A v
(A) a ramp.
(B) a sinusoidal wave.
(C) a rectangular wave.
(D) a triangular wave with dc bias.
(A) energy is to be stored/discharged in parasitic capacitances.
(B) effects of temperature would be compensated.
(C) devices in the circuit should be allowed time for saturation and desaturation.
(D) it would prevent noise from causing false triggering.
(A) 0.482
(C) 1.79
(A) x′ + y + z
(C) x z
(A) 5
(C) 7
(A) does not contain mobile carriers
(B) contains both free electrons and holes
(C) contains one type of mobile carriers depending on the level of doping of the p or n regions
(D) contains electrons only as free carriers
(A) high input impedance and high output impedance
(B) high input impedance and low output impedance
(C) low input impedance and low output impedance
(D) low input impedance and high output impedance
(A) the drain current becomes almost zero
(B) the drain current begins to decrease
(C) the drain current is almost at saturation value.
(D) the drain-to-source voltage is close to zero volts.
(A) input impedance increases and output impedance decreases
(B) input and output impedances both decrease
(C) input impedance decreases and output impedance increases
(D) input and output impedances both increase
(A) 267 kHz
(C) 1.68 kHz
(A) 10–1
(C) 105
(A) protect the IC from inadvertent application of high voltage
(B) prevent false triggering by noise coupled onto the pin
(C) convert the trigger input to sharp pulse by differentiation
(D) suppress any negative triggering pulse
(A) 1.2
(C) 2.2
(A) y + xz
(C) y + xz
(A) low input impedance
(C) low output impedance
(A) closer to the valence band
(B) midway between conduction and valence band
(C) closer to the conduction band
(D) within the valence band
(A) doubles for every 10°C increase in temperature
(B) does not change with temperature
(C) halves for every 1°C decrease in temperature
(D) increases by 1.5 times for every 2°C increment in temperature
(A) collector follower
(C) Emitter follower
(A) a part of the cycle or the input signal.
(B) the full cycle of the input signal.
(C) half the cycle of the input signal.
(D) 3/4th of the cycle of the input signal.
(A) only the gain of the amplifier is affected
(B) only the gain and bandwidth of the amplifier are affected
(C) only the input and output impedances are affected
(D) All of the four parameters mentioned above would be affected
(A) 1KHz – 1MHz
(B) 1 MHz – 10MHz
(C) 10MHz – 100MHz
(D) 100MHz – 150MHz
(A) and mathematically differentiates the average of the voltages on the two input lines
(B) and differentiates the input waveform on one line when the other line is grounded
(C) the difference of voltages between the two input lines
(D) and differentiates the sum of the two input waveforms
(A) 0.6
(C) 0.9
(A) x .y + z
(B) x . y . z
(C) X^Y^Z^
(D) x + yz
(A) 8
(C) 6
(A) (Load power + supply power) / supply power
(B) (Load power + supply power) / (load power-supply power)
(C) Load power / supply power
(D) Supply power / load power
(A) Current controlled current device.
(B) Current controlled voltage device.
(C) Voltage controlled current device.
(D) Voltage controlled voltage device.
(A) Free running oscillator.
(C) Saw tooth wave generator.
(A) 100K2V
(C) 100nV
(A) A + B
(B) A + B
(C) A + B
(D) A +BAns. (A) A.1+A B= A (1+B) +A B = A + AB +A B = A+B (A +A) = A+B
(A) Increases
(B) decreases
(C) remains constant.
(D) First decreases and then increases.
(A) Class A
(B) Class B
(C) Class AB
(D) Class C
(A) 50Hz to 60Hz
(B) variable frequency
(C) a constant frequency.
(D) d.c
(A) CB configuration.
(B) CE configuration.
(C) CC configuration.
(D) CE with RE configuration.
(A) They have higher input impedance
(B) They have high switching time
(C) They consume less power
(D) Mobility of electrons is greater than that of holes
(A) Coupling capacitor
(B) Emitter bypass capacitor
(C) Output capacitance of signal source
(D) Inter-electrode capacitance and stray shunt capacitanceAns. (D)
(A) Amplifies power
(B) Amplifies signal current
(C) Merely converts the signal ac power into the dc power
(D) Merely converts the dc power into useful ac powerAns. (D)Q.44 A radio frequency signal contains three frequency components, 870 KHz, 875 KHz and 880 KHz. The signal needs to be amplified. The amplifier used should be
(A) audio frequency amplifier
(B) wide band amplifier
(C) tuned voltage amplifier
(D) push-pull amplifier
Ans. (C) We need to amplify 3 signal frequencies i.e., 870 kHz, 875 kHz and 880 kHz. These frequencies lie in a bandwidth of 10 kHz and we should use only tuned voltage amplifiers to amplify them.
Q.45 An oscillator of the LC type that has a split capacitor in the circuit is
(A) Hartley oscillator
(B) Colpitts oscillator
(C) Weinbridge oscillator
(D) R-C phase shift oscillator
Ans. (B) We have two capacitors in the tank circuit, which serve as a simple ac voltage divider.
Q.46 The function of a bleeder resistor in a power supply is
(A) the same as that of load resistor
(B) to ensure a minimum current drain in the circuit
(C) to increase the output dc voltage
(D) to increase the output current
Ans. (B)
Basic Electronics (DE And EDC) MCQ
Q.47 In a bistable multivibrator circuit, commutating capacitor is used
(A) to increase the base storage charge
(B) to provide ac coupling
(C) to increase the speed of response
(D) to provide the speed of oscillations
Ans. (C) The commutating capacitor is used for the speedy transition of the state of the bistable.
Q.48 n-type silicon is obtained by
(A) Doping with tetravalent element
(B) Doping with pentavalent element
(C) Doping with trivalent element
(D) Doping with a mixture of trivalent and tetravalent element
Ans: (B) The pentavalent atom provides an excess electron while the other four form the covalent bond with the neighbouring atoms. This excess free electron provides the n type conductivity.
Q.49 The forward characteristic of a diode has a slope of approximately 50mA/V at a desired point. The approximate incremental resistance of the diode is
(A) 50fi
(B) 35fi
(C) 20fi
(D) 10fi
Ans: (C) Resistance at any point in the forward characteristics is given by R= 6V/ 6I = 1/50mA = 20fi
Basic Electronics (DE And EDC) MCQ
Q.50 Two stages of BJT amplifiers are cascaded by RC coupling. The voltage gain of the first stage is 10 and that of the second stage is 20. The overall gain of the coupled amplifier is
(A) 10×20
(B) 10+20
(C) (10+20)2
(D) (10×20)/2Ans:
(A) The voltage gain of a multistage amplifier is equal to the product of the gains of the individual stages.
Q.51 In the voltage range, Vp < VDS < BVDSS of an ideal JFET or MOSFET
(A) The drain current varies linearly with VDS.
(B) The drain current is constant.
(C) The drain current varies nonlinearly with VDS.
(D) The drain current is cut off.
Ans: (B) It is the saturation region or pinch off region, and drain current remains almost constant at its maximum value, provided VGS is kept constant.
Basic Electronics (DE And EDC) MCQ
Q.52 In a voltage shunt negative feedback amplifier system, the input resistance Ri and the output resistance Ro of the basic amplifier are modified as follows:
(A) Ri is decreased and Ro increased.
(B) Both Ri and Ro are decreased.
(C) Both Ri and Ro are increased
(D) Ri is increased and Ro is decreased.
Ans: (B) Here, a fraction of output voltage obtained by parallel sampling is applied in parallel with the input voltage through feedback and both input and output resistance decrease by a factor equal to (1+ þAv).
Q.53 The use of crystal in a tunable oscillator
(A) Improves frequency stability.
(B) Increases the gain of the oscillator.
(C) Helps to obtain optimum output impedance.
(D) Facilitates generation of wide range of frequencies.
Ans: (A) Piezoelectric crystal is used as a resonant tank circuit. The crystal is made of quartz material and provides a high degree of frequency stability.
Q.54 The large signal bandwidth of an opamp is limited by its
(A) Loop gain
(B) slew rate
(C) output impedance
(D) input frequency
Ans: (B)
Q.55 Rectification efficiency of a full wave rectifier without filter is nearly equal to
(A) 51%
(B) 61%
(C) 71%
(D) 81%
Ans: (D) Efficiency of a full wave rectifier is given by [(2Im / n) 2 x RL] / [(Im / K2) 2 x (Rf + RL)] = 81%, when Rg is zero.
Q.56 When the temperature of a doped semiconductor is increased, its conductivity
(A) decreases.
(B) increases.
(C) does not change.
(D) increases or decreases depending on whether it is p- or n-type.
Ans: B
Basic Electronics (DE And EDC) MCQ
Q.57 The main characteristics of a Darlington Amplifier are
(A) High input impedance, high output impedance and high current gain.
(B) Low input impedance, low output impedance and low voltage gain.
(C) High input impedance, low output impedance and high current gain.
(D) Low input impedance, low output impedance and high current gain.
Ans: C
Q.58 The transconductance, gm, of a JFET is computed at constant VDS, by the following:
(A)ID/VGS
(B)VGS/ID
(C) VGS × ID
(D) ID/VGS + IDS
Ans: A
Q.59 The feedback factor þ at the frequency of oscillation of a Wien bridge oscillator is
(A) 3
(B)1/3
(C) 1/29
(D) -3/29
Ans: B
Basic Electronics (DE And EDC) MCQ
Q.60 In an amplifier with negative feedback, the bandwidth is
(A) increased by a factor of þ
(B) decreased by a factor of þ
(C) increased by a factor of (1+Aþ)
(D) not affected at all by the feedback
where A = gain of the basic amplifier and þ = feedback factor
Ans: C
Q.61 The ‘slew rate’ of an operational amplifier indicates
(A) how fast its output current can change
(B) how fast its output impedance can change
(C) how fast its output power can change
(D) how fast its output voltage can change
when a step input signal is given.
Ans: D
Basic Electronics (DE And EDC) MCQ
Q.62 In a clamping circuit, the peak-to peak voltage of the waveform being clamped is
(A) affected by the clamping
(B) not affected by the clamping
(C) determined by the clamping voltage value
(D) determined by the ratio of rms voltage of the waveform and the clamping voltage
Ans: B
Q.63 Regulation of a.d.c. power supply is given by
(A) product of no-load output voltage and full-load current
(B) ratio of full-load output voltage and full-load current
(C) change in output voltage from no-load to full-load
(D) change in output impedance from no-load to full-load
Ans: D
Q.64 A ‘literal’ in Boolean Algebra means
(A) a variable inn its uncomplemented form only
(B) a variable ORed with its complement
(C) a variable in its complemented form only
(D) a variable in its complemented or uncomplemented form
Ans: D
Q.65 In an unlocked R-S flip-flop made of NOR gates, the forbidden input condition is
(A) R = 0, S = 0
(B) R = 1, S = 0
(C) R = 0, S = 1
(D) R = 1, S = 1
Ans: D
Q.66 The current amplification factor in CE configuration is
(A) a
(B) þ + 1
(C) 1/β
(D) þ
Ans: D
Q.67 A zener diode
(A) Has a high forward voltage rating.
(B) Has a sharp breakdown at low reverse voltage.
(C) Is useful as an amplifier.
(D) Has a negative resistance.
Ans: B
Basic Electronics (DE And EDC) MCQ
Q.68 N-channel FETs are superior to P-channel FETs, because
(A) They have a higher input impedance.
(B) They have high switching time.
(C) They consume less power.
(D) Mobility of electrons is greater than that of holes.
Ans:
Q.69 The maximum possible collector circuit efficiency of an ideal class A power amplifier is
(A) 15% (B) 25%
(C) 50% (D) 75%
Ans: C
Basic Electronics (DE And EDC) MCQ
Q.70 Negative feedback in an amplifier
(A) Reduces the voltage gain.
(B) Increases the voltage gain.
(C) Does not affect the voltage gain.
(D) Converts the amplifier into an oscillator.
Ans: A
Q.71 For generating 1 kHz signal, the most suitable circuit is
(A) Colpitts oscillator.
(B) Hartley oscillator.
(C) Tuned collector oscillator.
(D) Wien bridge oscillator.
Ans: D
Q.72 Phe output stage of an op-amp is usually a
(A) Complementary emitter follower.
(B) Transformer coupled class B amplifier.
(C ) Class A power amplifier.
(D) Class B amplifier.
Ans: A
Q.73 When a sinusoidal voltage wave is fed to a Schmitt trigger, the output will be
(A) triangular wave. (B) asymmetric square wave.
(C) rectangular wave. (D) trapezoidal wave.
Ans: B
Q.74 If the peak value of the input voltage to a half wave rectifier is 28.28 volts and no filter is use, the maximum dc voltage across the load will be
(A) 20 2V . (B) 15 V.
(C) 9 V. (D) 14.14 V.
Ans: C
Basic Electronics (DE And EDC) MCQ
Q.75 The logic gate which detects equality of two bits is
(A) EX-OR (B) EX-NOR
(C) NOR (D) NAND
Ans: B
Q.76 The electron relaxation time of metal A is 2.7 ×10−4 s, that of B is 1.35×10−4 s. The ratio of resistivity of B to resistivity of A will be
(A) 4. (B) 2.0.
(C) 0.5. (D) 0.25.
Ans: B
Q.77 The overall bandwidth of two identical voltage amplifiers connected in cascade will
(A) Remain the same as that of a single stage.
(B) Be worse than that of a single stage.
(C) Be better than that of a single stage.
(D) Be better if stage gain is low and worse if stage gain is high.
Ans: B
Q.78 Field effect transistor has
(A) large input impedance. (B) large output impedance.
(C) large power gain. (D) large votage gain.
Ans: A
Q.79 Which of the following parameters is used for distinguishing between a small signal and a large-signal amplifier?
(A) Voltage gain
(B) Frequency response
(C) Harmonic Distortion
(D) Input/output impedances
Ans: D
Q.80 Which of the following parameters is used for distinguishing between a small signal and a large-signal amplifier?
(A) Instability
(B) Bandwidth
(C) Overall gain
(D) Distortion
Ans: B
Basic Electronics (DE And EDC) MCQ
Q.81 If the feedback signal is returned to the input in series with the applied voltage, the input impedance .
(A) decreases
(B) increases
(C) does not change
(D) becomes infinity
Ans: B
Q.82 Most of linear ICs are based on the two transistor differential amplifier because of its
(A) input voltage dependent linear transfer characteristic.
(B) High voltage gain.
(C) High input resistance.
(D) High CMRR
Ans: D
Q.83 The waveform of the output voltage for the circuit shown in Fig.1 (RC >> 1) is a
(A) sinusoidal wave
(B) square wave
(C) series of spikes
(D) triangular wave.
Ans: D
Q.84 A single phase diode bridge rectifier supplies a highly inductive load. The load current can be assumed to be ripple free. The ac supply side current waveform will be
(A) sinusoidal
(B) constant dc.
(C) square
(D) triangular
Ans: C
Basic Electronics (DE And EDC) MCQ
Q.85 Which of the following Boolean rules is correct?
(A) A + 0 = 0
(B) A + 1 = 1
(C) A + A = A.A
(D) A + AB = A + B
Ans: B
Q.86 A single phase diode bridge rectifier supplies a highly inductive load. The load current can be assumed to be ripple free. The ac supply side current waveform will be
(A) sinusoidal
(B) constant dc.
(C) square
(D) triangular
Ans: C
Q.87 Which of the following Boolean rules is correct?
(A) A + 0 = 0
(B) A + 1 = 1
(C) A + A = A.A
(D) A + AB = A + B
Ans: B
Basic Electronics (DE And EDC) MCQ
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