What is Modulation: Definition and 144 Discussions

In electronics and telecommunications, modulation is the process of varying one or more properties of a periodic waveform, called the carrier signal, with a separate signal called the modulation signal that typically contains information to be transmitted. For example, the modulation signal might be an audio signal representing sound from a microphone, a video signal representing moving images from a video camera, or a digital signal representing a sequence of binary digits, a bitstream from a computer. The carrier is higher in frequency than the modulation signal. The purpose of modulation is to impress the information on the carrier wave, which is used to carry the information to another location. In radio communication the modulated carrier is transmitted through space as a radio wave to a radio receiver. Another purpose is to transmit multiple channels of information through a single communication medium, using frequency division multiplexing (FDM). For example in cable television which uses FDM, many carrier signals carrying different television channels are transported through a single cable to customers. Since each carrier occupies a different frequency, the channels do not interfere with each other. At the destination end, the carrier signal is demodulated to extract the information bearing modulation signal.
A modulator is a device or circuit that performs modulation. A demodulator (sometimes detector) is a circuit that performs demodulation, the inverse of modulation. A modem (from modulator–demodulator), used in bidirectional communication, can perform both operations. The frequency band occupied by the modulation signal is called the baseband, while the higher frequency band occupied by the modulated carrier is called the passband.
In analog modulation an analog modulation signal is impressed on the carrier. Examples are amplitude modulation (AM) in which the amplitude (strength) of the carrier wave is varied by the modulation signal, and frequency modulation (FM) in which the frequency of the carrier wave is varied by the modulation signal. These were the earliest types of modulation, and are used to transmit an audio signal representing sound, in AM and FM radio broadcasting. More recent systems use digital modulation, which impresses a digital signal consisting of a sequence of binary digits (bits), a bitstream, on the carrier. In frequency shift keying (FSK) modulation, used in computer buses and telemetry, the carrier signal is periodically shifted between two frequencies that represent the two binary digits. In digital baseband modulation (line coding) used to transmit data in serial computer bus cables and wired LAN computer networks such as Ethernet, the voltage on the line is switched between two amplitudes (voltage levels) representing the two binary digits, 0 and 1, and the carrier (clock) frequency is combined with the data. A more complicated digital modulation method that employs multiple carriers, orthogonal frequency division multiplexing (OFDM), is used in WiFi networks, digital radio stations and digital cable television transmission.
In music production, the term modulation has a different meaning: it is the process of gradually changing sound properties in order to reproduce a sense of movement and depth in audio recordings. It involves the use of a source signal (known as a modulator) to control another signal (a carrier) through a variety of sound effects and methods of synthesis. With singers and other vocalists, modulation means to modify characteristics of their voices during a performance, such as loudness or pitch.

View More On Wikipedia.org
Recent contents Top users
  1. B

    Frequency Modulation: Periodicity & Modulation Index

    For frequency modulation, will the modulated signal always be periodic? or does the periodicity depend on the modulation index? or does it depend on whether the message signal is periodic? Thanks for any help on this
  2. T

    Pulse Width Modulation (MOSFET Question)

    Hello Everyone, I am working on a system for an undergraduate project that uses pulse width modulation to power two electromagnetic clutches. I have a pic microcontroller that is supplying a PWM signal to a MOSFET that is in turn switching the ground side of my clutches. Everything seems...
  3. H

    Modulation of Sinusoids in Matlab (Frequency Domain Problems)

    The Problem Hi, I am trying to modulate two sinusoids in Matlab. I have some and some , where fx and fc are different frequencies. I then modulate them together, using dot multiplication, . I then plot each in the time domain using and I obtained the correct solution. The problem comes with...
  4. M

    Repeating fequency modulation scan averaging

    Hello, Not sure if this is the appropriate forum for this, but I'll give it a shot. I am recording a laser signal through my experiment which is running an FM scan at 20 kHz. The time scale of the experiment I'm running is much larger than the 20 kHz signal, so each scan is about the same. In...
  5. X

    Comparison of Modulation Techniques

    Hi guys, I'm new to the forums and hope someone can help with this. Homework Statement Compare the modulation techniques used by 2 different applications, giving reasons for their use. Use data tables, diagrams and any other sources to help Homework Equations None The Attempt...
  6. M

    Help to verify this 8PSK modulation

    Homework Statement I used MATLAB to perform simulation on 8psk modulation, and this is the result i obtained. I would need your help to help me to verify whether the result I obtained is valid. Thanks. [PLAIN]http://img132.imageshack.us/img132/8124/8pskverification.jpg Homework...
  7. M

    Transmit Digital Signal using Analog Modulation?

    Hello, I know that you send digital signals using ASK, FSK, PSK modulation. I was wondering though if it was possible to send that same digital signal using FM or AM modulation? If not, I was wondering if anybody knew of any popular ASK or FSK modulation IC's? Thanks!
  8. O

    Modulation: Why 455kHz is the IF Frequency

    why it is disaster if asignal exists in am at frequency of 455 khz , i mean asignal is at the IF frequency. also why IF not greater or smaller than 455khz i need to know thanks
  9. O

    Why is 455 kHz the chosen IF frequency in superheterodyning?

    any one tell me briefly why in the superheterodyning we take the IF as 455 khz? also why not to take aparallel resonance circuit instead of band pass filter? thanks
  10. A

    MATLAB How Can I Correct My MATLAB Code for Frequency Modulation?

    Ok I am trying to solve this problem, I will lay it out, then say what I've done so far, and I would appreciate if someone could help me figure out where I am going wrong. I am very new to MATLAB (using it for the first time) so I've only got the basics down so far. Problem: Message signal...
  11. E

    Understanding Modulation: Types and Meaning

    what is the meaning of modulation and what is types can anyone explain that to me and give me any book.
  12. O

    Amplitude Modulation Transmitter question (graphs needed)

    This is not a HW question but an activity i am working on. The attachment is a symbolic AM transmitter. The carrier is 15MHz and message frequency is 2Mhz. I want to sketch the waveforms labelling them in as much detail as possible. Also sketch the output waveform in both time and...
  13. M

    Understanding Amplitude Modulation for Radios

    I'm learning about radios at the moment but there's a few things I'm not clear about concerning modulation. I'll use audio amplitude modulation as an example. Let's say I have a device which I speak into and this device converts the variations of the sounds waves coming outta my mouth into an...
  14. G

    Question reg. Amplitude Modulation

    Given m(t) = 25cos(2*pi*1000t) and sc(t) = 75cos(2*pi*150000t), hence the AM signal equation is 75[1+0.333cos(2*pi*1000t)]cos(2*pi*150000t). Expanding it will yield 75cos(2*pi*150000t) + 12.5cos(2*pi*149000t) + 12.5cos(2*pi*151000t) and proceeding with Fourier Transform, i got delta functions...
  15. D

    How does the MC1496 circuit produce an AM signal?

    Homework Statement analyze the MC1496 circuit and explain how it produces an AM signal. Homework Equations The Attempt at a Solution this is my understanding to modulation: Amplitude Modulation AM is mostly used when we need to transmit information over a radio signal; to do so...
  16. M

    Amplitude modulation using using BC107 transistor

    Homework Statement In my electronics practical class, i assemble a ckt of amplitude modulation using BC107 transistor ,but the modulated wave always has the same phase up and above , there is no phase difference b/w the upper and lower part of the wave . My teacher also couldn't...
  17. maverick280857

    How Does Phase Modulation Affect Signal Characteristics?

    Homework Statement Consider a tone modulated PM signal of the form s(t) = A_{c}\cos\left(2\pi f_{c}t + \beta_{p}cos(2\pi f_{m}t))\right) where \beta_{p} = k_{p}A_{m}. This modulated signal is applied to an ideal BPF with unity gain, midband frequency f_{c} and passband extending from...
  18. M

    Laser current modulation issues

    I'm working with a couple different diode lasers, attempting to automate control of them (on and off mainly) by modulating the source currents externally. One of them is a green laser that draws ~1.4A, 3.3V but has no modulating chip in the power line. I've got another smaller red laser module...
  19. S

    Explain what modulation and demodulation is

    Hey guys, was just wondering if you could explain what modulation and demodulation is and more importantly, why it needs to occur in things such as radio stations. Also, can you also explain how modulation and demodulation occur when fibre optics are involved?
  20. A

    Frequency Modulation: Amplitude, Max/Min Freq, Change Rate

    A sinusodial carrier wave has amplitude 12 volts and frequency 600 kHz. The frequency of the carrier wave changes by 25 kHz per volt. The carrier wave is to be used for the transmission of a signal of frequency 3 kHz and amplitude 2 volts. For the frequency modulated carrier wave, state...
  21. N

    Question about a Signal's Frequency Spectra and Modulation

    I used to think that the frequencies obtained by a Fourier Series or Transform from a signal in the 'time domain' were simply a consequence of our mathematical system. In other words, it is a consequence of the fact that sinusoids are used to recreate or synthesize the signal. It's just an...
  22. S

    Understanding Amplitude Modulation (AM)

    i hav got some doudts regarding AM (amplitude modulation) 1) the amplitude of carrier wave is changed according to the signal --- defn of modulation wats the amplitude of modulated wave is it A+B or other ... if "A" is the amplitude of carrier & "B" is the amplitude of signal ...
  23. A

    Quadrature amplitude modulation

    Homework Statement The problem is about the http://en.wikipedia.org/wiki/Quadrature_amplitude_modulation" . This is a work from my course Analog signal processing. Here is the scheme http://img99.imageshack.us/img99/9449/zrgwj2.jpg Two things to do : 1. Find the expression of x_qam(t) 2...
  24. H

    Determining Length of Sequence for Modulation Techniques

    Hello, I need help with modulation techniques. If I have a sequence I want to transmit, and need to be modulated, how do I know its length? : I know the time duration of the sequence=t => t/T(carrier period)=number of cycles per sequence...
  25. J

    Pulse Code Modulation - Understanding Digital Transmission

    Hi everyone:smile:, This is my question: " Describe the concepts of PCM (Pulse Code Modulation) in a computer keyboard which its data are in digital format." This is my justification: How to describe the concepts of PCM ? Isn't PCM a technique used to transmit analog signals in digital...
  26. I

    How Do You Illustrate Waveforms for Different 8-QAM Modulation Techniques?

    Homework Statement Illustrate in wave forms for data “101001000111010011110100” by using the following modulation techniques: (a) 8-QAM (2 bit ASK + 1 bit PSK) (b) 8-QAM (2 bit PSK + 1 bit ASK) (c) 2 bit PSK + 1 bit FSK 2. The attempt at a solution *attached* apparently I got it all wrong. I...
  27. W

    Digital Modulation onto Electromagnetic waves

    Hi Guys, I was hoping someone could explain why commercial satellite uplinks (like those used in TV broadcast) are able to achieve such high bandwidth rates vs. radio uplinks like HAM OSCAR uplinks. I don’t completely understand how digital modulation is done onto radio wave, but at 1st...
  28. C

    Understanding Amplitude and Frequency Modulation

    hey everyone I really don't know whether this is the right stream for posting these kind of questions, but anyways here it goes.. Can anyone please explain to me the amplitude modulation and frequency modulation, or at least any website that xplains it, bcoz i am totally confused with...
  29. D

    Modulation in high frequencies and antennas

    Hi to everyone. I have heard that we usually prefer to modulate signals at high frequencies so the wave length is small compared to the length of the antenna. Is there any rule or equation that implies this requirement?
  30. O

    Dual Side Band Amplitude Modulation Quick Question

    Hi, a quick and easy one I hope someone can help me with. What would be the general expression for a DSB-AM modulated signal in terms of the Carrier Signal C(t), Baseband Signal S(t) and the modulation index m? Many Thanks
  31. D

    Where can I find a book on modulation schemes like OFDM, QAM, and DPSK?

    Hello to everyone i am looking for a book dedicated to the modulation schemes. I want to read about the basics but also more advanced modulation schemes such as OFDM,QAM,DPSK etc Do u know any book or url that i can find the information i need?
  32. P

    Understanding AM/FM Modulation: Effects of Distortion, Interference, and Noise

    I have searched and read some sites concerning this topic but I did not find one that has explicit how each type of modulation is affected by distortion, interference and noise. So, could someone mention some? For example, I read this site which has good information but not what I was looking...
  33. D

    Modulation & Signals - Advantages, Disadvantages & Types

    Hi do u have any good articles about signals and modulation... I want to know why we use modulation and how the world would be if no modulation was used at all... Waht arre the types of modulation? What are the differences between them? What are the adgvantages and disadvantages for each...
  34. F

    Unbiased estimator of modulation depth?

    I have the following problem: I measure a sinusoidally varying signal at a number of phase points. I then fit a sine curve to the data points using least squares. The fitting function looks like: f = a1 + a2 cos(phi) + a3 sin(phi) I want to evaluate the modulation depth from the measurements...
  35. quantumdude

    Amplitude Modulation with Function Generators

    Hello everybody, I am trying to use a pair of Tektronix FG 503 Function Generators to modulate a carrier wave and produce an AM modulated signal. I tried running the output of one generator into the VCF input of the other, but it seems to give me FM modulation. I did this because I am...
  36. S

    Exploring the Limitations of Phase Modulation in Practical Broadcasting

    Hello, I want to know why phase modulation (PM) transmitters are not used for practical broadcasting, though its almost similar partner frequency modulation (FM) is used widely for broadcasting.
  37. D

    Quardrature Amplitude Modulation

    Quardrature Amplitude Modulation. I know the basic techniques, like when you have 1 point and only two signals are to be multiplexed. But the constellations got me a bit confused. My text-book doesn't explain it thoroughly, and there isn't much deep information about it on the internet...
  38. Reshma

    What is modulation in radio communication?

    What is modulation in radio communication?
  39. J

    I am a scientist, I cannot provide a webpage title for this content.

    Ok A question here about how AM & FM modulation works. I know that AM trasmits the sound by varying the voltage of the radio signal, and FM varies the frequency itself of the signal, however, viable sound needs two things, varying frequency AND VARYING AMPLITUTE. So the modulation, whether FM...
  40. L

    Signal Modulation: Why Does ASK/PSK (QAM) Need Bandwidth?

    How come a signal modulated using Amplitud Shift Keying and/or Phase Shift Keying (such as QAM) require a bandwidth? I mean, since the frequence is constant; only the amplitude and phase is changed. Thanks in advance!
  41. R

    Trying to understand Modulation

    Hi guys, Need some help and guidance here, I'm having some difficulty(and confused) trying to understand Modulation in telecommunication systems. From what I understand (pls correct me if I am wrong); AM - the amplitude changes, but not the frequency. FM - the frequency changes, but not...
  42. Link

    Understanding Modulation of Sound Waves to AM/FM

    CAn someone explain how sound waves is modulated into Am and FM carrier waves? I only have a poor illustrarion i don't understand.
  43. F

    Help Me Understand Velocity Modulation in Electric Fields

    If anyone is an expert on Velocity Modulation of Electrons within Electric Field, please try to help me. The dilemma is, I'm reading through waveguide theory on TPUB and hit a page that deals with VELOCITY MODULATION. http://www.tpub.com/content/neets/14183/css/14183_85.htm It clearly...
  44. B

    The Role of Bessel Functions in Frequency Modulation Theory

    What role do Bessel functions play in frequency modulation theory?
Back
Top