Amplitude Modulation: Definition, Formula, Applications & MCQs

Amplitude modulation (AM) is a technique used to encode information by varying the amplitude of a high-frequency carrier wave in accordance with a lower-frequency message signal. AM is widely used in radio broadcasting, aviation communication, and electronic data transmission. This page covers the basics, equations, solved problems, key FAQs, and MCQs for practice.

What Is Amplitude Modulation (AM)?

Amplitude modulation is a process where the amplitude of a carrier wave (high frequency) is varied in proportion to the instantaneous value of the information signal (message signal). The frequency and phase of the carrier remain constant, but its amplitude changes based on the input signal.

Types of Amplitude Modulation

• Double Sideband-Suppressed Carrier (DSB-SC): Both sidebands transmitted, carrier suppressed.
• Single Sideband (SSB): Only one sideband transmitted, reducing bandwidth.
• Vestigial Sideband (VSB): A sideband is partially suppressed, used in TV broadcasting.

Why Do We Need Modulation?

• Increase transmission range: High-frequency carrier reduces antenna size and allows signals to travel farther.
• Reduce interference: Modulation allows multiple signals on different carriers without overlapping.
• Improve signal quality: Carrier waves help maintain signal integrity over distance.

Mathematical Expression for Amplitude Modulated Wave

Frequencies in Amplitude Modulation & Bandwidth

• Carrier frequency (fc): Frequency of the unmodulated carrier wave.
• Upper sideband: fc + fm
• Lower sideband: fc – fm
• Bandwidth (BW): 2fm (twice the highest frequency of the modulating signal)

The AM waveform consists of the carrier and two sidebands, forming an envelope that matches the original signal shape.

Advantages and Disadvantages of Amplitude Modulation

Applications of Amplitude Modulation

• AM Radio Broadcasting (MW, SW, LW bands)
• Aviation and Air-band Communications
• Citizens Band (CB) Radio
• Point-to-point HF Links (SSB)
• Data Modems, Telemetry, and QAM

Solved Example: Amplitude Modulation

Frequently Asked Questions (FAQs) about Amplitude Modulation

1. What is amplitude modulation?
   Amplitude modulation is the process of varying the amplitude of a high-frequency carrier wave in proportion to a message signal.
2. How is amplitude modulation different from frequency modulation?
   In AM, the amplitude of the carrier changes; in FM, the frequency changes.
3. Why is a high-frequency carrier used in AM?
   It reduces antenna size and allows the signal to travel long distances efficiently.
4. What is the modulation index (μ) in amplitude modulation?
   The ratio of the amplitude of the modulating signal to the carrier wave (μ = Am / Ac).
5. What is bandwidth in amplitude modulation?
   BW = 2 × highest modulating frequency (BW = 2fm).
6. What happens if μ > 1 in AM?
   Overmodulation occurs, causing distortion and loss of information in the received signal.
7. What are sidebands in AM?
   Sidebands are frequency components above (upper) and below (lower) the carrier, carrying the message signal.
8. What are the main advantages and disadvantages of AM?
   Advantage: Simplicity and cost. Disadvantage: Low efficiency, high noise, large bandwidth.
9. Where is amplitude modulation used?
   AM radio, aviation, CB radio, shortwave links, some digital data transmission (QAM).
10. How is AM demodulated?
    Most simply by a diode detector (envelope detector), or with a product detector for higher quality.
11. What is vestigial sideband modulation?
    A type of AM where one sideband is only partially suppressed (used in TV transmission).
12. How does AM improve transmission quality?
    By enabling long-range transmission and minimizing signal overlap/interference.
13. What is the expression for the AM wave?
    Cm(t) = [Ac + Am sin(ωm t)] sin(ωc t)
14. Why is the amplitude of the modulating signal kept less than the carrier?
    To avoid distortion due to overmodulation (keep μ ≤ 1).
15. What is the difference between DSB-SC and SSB?
    DSB-SC transmits both sidebands, suppresses the carrier; SSB transmits only one sideband.
16. Can AM signals be used for digital data?
    Yes, variants like QAM are used for transmitting digital data in wireless and wired systems.
17. What is the formula for bandwidth in amplitude modulation?
    Bandwidth (BW) = 2 × maximum frequency of the modulating signal (BW = 2fm).
18. Why is AM more prone to noise?
    Most noise affects amplitude, making AM signals more susceptible compared to FM.
19. What are practical examples of AM signals?
    AM radio stations (MW, SW, LW), aircraft VHF radios, CB radio, shortwave point-to-point.

Practice MCQs: Amplitude Modulation

1. In amplitude modulation, which property of the carrier is varied?
   a) Frequency
   b) Amplitude
   c) Phase
   d) Wavelength
2. What is the bandwidth of an AM signal if the maximum frequency of the modulating signal is 4 kHz?
   a) 2 kHz
   b) 4 kHz
   c) 8 kHz
   d) 1 kHz
3. What is the formula for modulation index (μ) in amplitude modulation?
   a) μ = Ac/Am
   b) μ = Am/Ac
   c) μ = Ac × Am
   d) μ = Am + Ac
4. If μ > 1 in AM, what happens?
   a) Under-modulation
   b) Perfect modulation
   c) Overmodulation and distortion
   d) Signal becomes digital
5. What is a common application of amplitude modulation?
   a) Satellite TV
   b) AM radio
   c) Wi-Fi
   d) Fiber optics
6. Which of the following is NOT a type of AM?
   a) DSB-SC
   b) SSB
   c) VSB
   d) FSK
7. What is a sideband in AM?
   a) Only carrier frequency
   b) Frequencies above and below the carrier
   c) Frequency of modulating signal
   d) Noise band
8. Which of the following is an advantage of AM?
   a) High efficiency
   b) Simple receiver design
   c) Immune to noise
   d) Narrow bandwidth
9. The simplest AM demodulator uses:
   a) Diode
   b) Transistor
   c) Capacitor
   d) Oscillator
10. What is the carrier frequency in an AM signal if the upper sideband is 1002 kHz and the lower sideband is 998 kHz?
    a) 1002 kHz
    b) 998 kHz
    c) 1000 kHz
    d) 2 kHz

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