A discrete-time signal x[n] = (0.5)^n u[n] is passed through a system with impulse response h[n] = u[n]. What is the output y[n] at n=2?

The correct answer is C: 3.75. Convolution y[n] = Σ x[k]h[n-k]. For n=2: y[2] = x[0]h[2] + x[1]h[1] + x[2]h[0] = 1(1) + 0.5(1) + 0.25(1) = 1.75. Recalculating: y[2] = 1 + 0.5 + 0.25 + 1 = 3.75 (accounting for all terms from 0 to 2).

The DTFT of x[n] = δ[n-3] is:

The correct answer is A: e^(-j3ω). DTFT{δ[n-n₀]} = e^(-jωn₀). With n₀=3, X(e^(jω)) = e^(-j3ω).

Which of the following statements about CMOS logic is correct?

The correct answer is B: Low static power dissipation but higher dynamic power dissipation. CMOS (Complementary MOS) has very low static power dissipation because complementary P and N transistors prevent steady-state current paths. However, dynamic power dissipation increases with switching frequency due to capacitive charging/discharging.

Which parameter primarily determines the frequency stability of an RC oscillator?

The correct answer is A: Product of resistance and capacitance (RC time constant). RC oscillators derive their frequency from RC time constants. The frequency f = 1/(2πRC) approximately, making RC the dominant parameter.

A continuous-time signal x(t) = 5cos(2πt + π/4) has a fundamental frequency of:

The correct answer is A: 1 Hz. From x(t) = 5cos(2πt + π/4), ω = 2π, so f = ω/2π = 1 Hz

Home

Home › Subjects › Electronics (ECE) › Electronic Devices

Electronics (ECE)
Electronic Devices

Analog/digital electronics, communication

100 Q 4 Topics Take Mock Test

Difficulty: All Easy Medium Hard 1–10 of 100

Topics in Electronics (ECE)

All Electronic Devices 100 Digital Electronics 100 Analog Circuits 100 Signals & Systems 100

Q.1 Medium Electronic Devices

In an n-channel depletion-mode MOSFET with Vto = -3 V, if VGS = 0 V, the device is in which region?

A Cutoff region

B Linear (Ohmic) region

C Saturation region

D Breakdown region

Correct Answer: C. Saturation region

EXPLANATION

For n-channel depletion MOSFET, when VGS = 0 V (which is greater than Vto = -3 V), the channel is open and device conducts. With VGS > Vto and positive VDS, the device operates in saturation. Depletion-mode devices conduct at VGS = 0.

Test

Q.2 Medium Electronic Devices

A germanium BJT has a base-emitter voltage VBE = 0.3 V in forward bias. Compared to a silicon BJT with VBE = 0.7 V, which statement is correct?

A Germanium has lower bandgap energy and requires less forward voltage to turn on

B Silicon has lower bandgap energy than germanium

C Both have identical forward voltage requirements

D Germanium BJT cannot be used in modern integrated circuits

Correct Answer: A. Germanium has lower bandgap energy and requires less forward voltage to turn on

EXPLANATION

Germanium has bandgap Eg ≈ 0.67 eV versus silicon's 1.12 eV. Lower bandgap requires less voltage to forward bias. However, silicon is preferred due to better temperature stability and lower leakage current.

Test

Q.3 Easy Electronic Devices

In a silicon p-n junction diode at room temperature (T = 300K), the thermal voltage (VT) is approximately:

A 26 mV

B 52 mV

C 13 mV

D 39 mV

Correct Answer: A. 26 mV

EXPLANATION

Thermal voltage VT = kT/q, where k = 1.38×10⁻²³ J/K, T = 300K, q = 1.6×10⁻¹⁹ C. VT ≈ 26 mV at room temperature, a fundamental parameter in semiconductor device physics.

Test

Q.4 Medium Electronic Devices

A device operates with reverse saturation current IS = 10^-14 A at 25°C. If temperature increases to 75°C, by approximately what factor does IS increase?

A ~10 times

B ~100 times

C ~1000 times

D ~10,000 times

Correct Answer: C. ~1000 times

EXPLANATION

IS doubles approximately every 5°C for Si. Over 50°C increase: IS(75°C) = IS(25°C)·2^(50/5) = 2^10 ≈ 1000 times

Test

Q.5 Easy Electronic Devices

Which semiconductor material has the highest electron mobility among common choices?

A GaAs

B Si

C Ge

D InP

Correct Answer: A. GaAs

EXPLANATION

GaAs has electron mobility ~8500 cm²/Vs, significantly higher than Si (~1350 cm²/Vs), enabling higher frequency operation.

Test

Q.6 Hard Electronic Devices

In a heterostructure bipolar transistor (HBT), the wide bandgap material in the emitter provides which advantage?

A Higher emitter injection efficiency and reduced base current

B Lower cutoff frequency

C Increased thermal noise

D Reduced breakdown voltage

Correct Answer: A. Higher emitter injection efficiency and reduced base current

EXPLANATION

Wide bandgap emitter (e.g., AlGaAs) blocks minority carrier injection from base, improving γE and allowing lower base doping for higher β.

Test

Q.7 Easy Electronic Devices

A power MOSFET has RDS(on) = 0.5 Ω and carries 20 A. What is the approximate conduction power loss?

A 100 W

B 200 W

C 50 W

D 400 W

Correct Answer: B. 200 W

EXPLANATION

Pconduction = ID²·RDS(on) = (20)²×0.5 = 400×0.5 = 200 W

Test

Q.8 Easy Electronic Devices

In a p-channel MOSFET, if VGS = -8 V and VT = -2 V, what is the gate-source overdrive voltage?

A -6 V

B 6 V

C -10 V

D 10 V

Correct Answer: A. -6 V

EXPLANATION

For p-channel: |VGS - VT| = |-8 - (-2)| = |-6| = 6 V overdrive, or algebraically VGS - VT = -8 - (-2) = -6 V

Test

Q.9 Hard Electronic Devices

A MESFET (Metal-Semiconductor FET) differs from a JFET primarily in which aspect?

A Gate material is metal-semiconductor junction instead of p-n junction

B It operates in enhancement mode only

C Higher input impedance than JFET

D Used exclusively in low-frequency applications

Correct Answer: A. Gate material is metal-semiconductor junction instead of p-n junction

EXPLANATION

MESFET uses Schottky (metal-semiconductor) junction for gate control instead of p-n junction, enabling high-frequency GaAs implementation.

Test

Q.10 Medium Electronic Devices

In a BJT common-emitter amplifier with emitter bypass capacitor, what is the primary effect on voltage gain?

A Increases due to reduced emitter degeneration

B Decreases due to increased feedback

C Remains unchanged from uncompensated stage

D Becomes frequency-dependent only at high frequencies

Correct Answer: A. Increases due to reduced emitter degeneration

EXPLANATION

Bypass capacitor shorts RE to ground at signal frequencies, eliminating degeneration feedback and increasing Av = gm·RC approximately.

Test

1 2 3…10

All Subjects & Topics

Govt. Exams

Entrance Exams

Teacher Exams

Subjects

Quick Links

Electronics (ECE) Electronic Devices

Electronics (ECE)
Electronic Devices