4: amplitude modulation - arraytoolintroductiondsb-sc modulationamplitude modulationbandwidth...
TRANSCRIPT
![Page 1: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/1.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
4: Amplitude Modulation
Y. Yoganandam, Runa Kumari, and S. R. Zinka
Department of Electrical & Electronics EngineeringBITS Pilani, Hyderbad Campus
August 14, 17, 19, 21, 24 & 26, 2015
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 2: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/2.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Outline
1 Introduction
2 DSB-SC Modulation
3 Amplitude Modulation
4 Bandwidth Efficient Modulations
5 FDM
6 AM Receivers
7 Noise
8 Summary
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 3: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/3.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Outline
1 Introduction
2 DSB-SC Modulation
3 Amplitude Modulation
4 Bandwidth Efficient Modulations
5 FDM
6 AM Receivers
7 Noise
8 Summary
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 4: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/4.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Modulation
To alter or adapt (the voice) according to the circumstances, one’s listener, etc.
Baseband signals produced by various information sources are not alwayssuitable for direct transmission over a given channel. These signals are
usually further modified to facilitate transmission. This conversion process isknown as modulation.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 5: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/5.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Modulation
To alter or adapt (the voice) according to the circumstances, one’s listener, etc.
Baseband signals produced by various information sources are not alwayssuitable for direct transmission over a given channel. These signals are
usually further modified to facilitate transmission. This conversion process isknown as modulation.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 6: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/6.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Modulation
To alter or adapt (the voice) according to the circumstances, one’s listener, etc.
Baseband signals produced by various information sources are not alwayssuitable for direct transmission over a given channel. These signals are
usually further modified to facilitate transmission. This conversion process isknown as modulation.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 7: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/7.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Modulation
Carrier Signal:Ac cos (ωct + θ)
Amplitude Modulation:AAM = f (m (t))
Frequency Modulation:ωFM = g (m (t))
Phase Modulation:θPM = h (m (t))
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 8: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/8.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Modulation
Carrier Signal:Ac cos (ωct + θ)
Amplitude Modulation:AAM = f (m (t))
Frequency Modulation:ωFM = g (m (t))
Phase Modulation:θPM = h (m (t))
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 9: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/9.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Modulation
Carrier Signal:Ac cos (ωct + θ)
Amplitude Modulation:AAM = f (m (t))
Frequency Modulation:ωFM = g (m (t))
Phase Modulation:θPM = h (m (t))
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 10: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/10.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Modulation
Carrier Signal:Ac cos (ωct + θ)
Amplitude Modulation:AAM = f (m (t))
Frequency Modulation:ωFM = g (m (t))
Phase Modulation:θPM = h (m (t))
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 11: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/11.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Modulation
Carrier Signal:Ac cos (ωct + θ)
Amplitude Modulation:AAM = f (m (t))
Frequency Modulation:ωFM = g (m (t))
Phase Modulation:θPM = h (m (t))
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 12: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/12.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Amplitude Modulation
Time
Amplitude
0
−1.5
1.5
−0.5
0.5
Message wave envelopeCarrier wave
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 13: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/13.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Amplitude Modulation
Time
Amplitude
0
−1.5
1.5
−0.5
0.5
Message wave envelopeCarrier wave
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 14: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/14.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Why Modulation?
• Ease of radiation
• Simultaneous transmission of several signals
• Effecting the exchange of SNR with bandwidth
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 15: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/15.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Why Modulation?
• Ease of radiation
• Simultaneous transmission of several signals
• Effecting the exchange of SNR with bandwidth
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 16: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/16.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Why Modulation?
• Ease of radiation
• Simultaneous transmission of several signals
• Effecting the exchange of SNR with bandwidth
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 17: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/17.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Why Modulation?
• Ease of radiation
• Simultaneous transmission of several signals
• Effecting the exchange of SNR with bandwidth
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 18: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/18.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Basic Terminology
• Modulation
• Modulating Signal
• Carrier Signal
• Modulated Signal
• Sidebands
• Aliasing
• Demodulation
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 19: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/19.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Basic Terminology
• Modulation
• Modulating Signal
• Carrier Signal
• Modulated Signal
• Sidebands
• Aliasing
• Demodulation
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 20: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/20.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Basic Terminology
• Modulation
• Modulating Signal
• Carrier Signal
• Modulated Signal
• Sidebands
• Aliasing
• Demodulation
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 21: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/21.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Basic Terminology
• Modulation
• Modulating Signal
• Carrier Signal
• Modulated Signal
• Sidebands
• Aliasing
• Demodulation
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 22: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/22.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Basic Terminology
• Modulation
• Modulating Signal
• Carrier Signal
• Modulated Signal
• Sidebands
• Aliasing
• Demodulation
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 23: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/23.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Basic Terminology
• Modulation
• Modulating Signal
• Carrier Signal
• Modulated Signal
• Sidebands
• Aliasing
• Demodulation
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 24: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/24.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Basic Terminology
• Modulation
• Modulating Signal
• Carrier Signal
• Modulated Signal
• Sidebands
• Aliasing
• Demodulation
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 25: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/25.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Basic Terminology
• Modulation
• Modulating Signal
• Carrier Signal
• Modulated Signal
• Sidebands
• Aliasing
• Demodulation
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 26: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/26.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Baseband Communication
The term baseband is used to designate the band of frequencies of the signaldelivered by the source or the input transducer.
In telephony, the baseband is the audio band of (voice signals) of 0 to 3.5 kHz.
In television, the baseband is the video band occupying 0 to 4.3 MHz.
For digital data or PCM using bipolar signaling at a rate of Rb pulses per sec-ond, the baseband is 0 to Rb Hz.
Usually, baseband signals cannot be transmitted over a radio link but are suit-able for transmission over a pair of wires , coaxial cables, or optical fibers.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 27: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/27.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Baseband Communication
The term baseband is used to designate the band of frequencies of the signaldelivered by the source or the input transducer.
In telephony, the baseband is the audio band of (voice signals) of 0 to 3.5 kHz.
In television, the baseband is the video band occupying 0 to 4.3 MHz.
For digital data or PCM using bipolar signaling at a rate of Rb pulses per sec-ond, the baseband is 0 to Rb Hz.
Usually, baseband signals cannot be transmitted over a radio link but are suit-able for transmission over a pair of wires , coaxial cables, or optical fibers.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 28: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/28.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Baseband Communication
The term baseband is used to designate the band of frequencies of the signaldelivered by the source or the input transducer.
In telephony, the baseband is the audio band of (voice signals) of 0 to 3.5 kHz.
In television, the baseband is the video band occupying 0 to 4.3 MHz.
For digital data or PCM using bipolar signaling at a rate of Rb pulses per sec-ond, the baseband is 0 to Rb Hz.
Usually, baseband signals cannot be transmitted over a radio link but are suit-able for transmission over a pair of wires , coaxial cables, or optical fibers.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 29: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/29.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Baseband Communication
The term baseband is used to designate the band of frequencies of the signaldelivered by the source or the input transducer.
In telephony, the baseband is the audio band of (voice signals) of 0 to 3.5 kHz.
In television, the baseband is the video band occupying 0 to 4.3 MHz.
For digital data or PCM using bipolar signaling at a rate of Rb pulses per sec-ond, the baseband is 0 to Rb Hz.
Usually, baseband signals cannot be transmitted over a radio link but are suit-able for transmission over a pair of wires , coaxial cables, or optical fibers.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 30: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/30.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Baseband Communication
The term baseband is used to designate the band of frequencies of the signaldelivered by the source or the input transducer.
In telephony, the baseband is the audio band of (voice signals) of 0 to 3.5 kHz.
In television, the baseband is the video band occupying 0 to 4.3 MHz.
For digital data or PCM using bipolar signaling at a rate of Rb pulses per sec-ond, the baseband is 0 to Rb Hz.
Usually, baseband signals cannot be transmitted over a radio link but are suit-able for transmission over a pair of wires , coaxial cables, or optical fibers.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 31: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/31.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Baseband Communication
The term baseband is used to designate the band of frequencies of the signaldelivered by the source or the input transducer.
In telephony, the baseband is the audio band of (voice signals) of 0 to 3.5 kHz.
In television, the baseband is the video band occupying 0 to 4.3 MHz.
For digital data or PCM using bipolar signaling at a rate of Rb pulses per sec-ond, the baseband is 0 to Rb Hz.
Usually, baseband signals cannot be transmitted over a radio link but are suit-able for transmission over a pair of wires , coaxial cables, or optical fibers.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 32: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/32.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Carrier Communication
Communication that uses modulation to shift the frequency spectrum of asignal is known as carrier communication.
In this mode, one of the basic parameters (amplitude, frequency, or phase) of asinusoidal carrier of high frequency ωc is varied in proportion to the basebandsignal m (t). This results in amplitude modulation (AM), frequency modula-tion (FM), or phase modulation (PM), respectively.
Modulation is used to transmit both analog as well as digital baseband signals.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 33: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/33.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Carrier Communication
Communication that uses modulation to shift the frequency spectrum of asignal is known as carrier communication.
In this mode, one of the basic parameters (amplitude, frequency, or phase) of asinusoidal carrier of high frequency ωc is varied in proportion to the basebandsignal m (t). This results in amplitude modulation (AM), frequency modula-tion (FM), or phase modulation (PM), respectively.
Modulation is used to transmit both analog as well as digital baseband signals.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 34: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/34.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Carrier Communication
Communication that uses modulation to shift the frequency spectrum of asignal is known as carrier communication.
In this mode, one of the basic parameters (amplitude, frequency, or phase) of asinusoidal carrier of high frequency ωc is varied in proportion to the basebandsignal m (t). This results in amplitude modulation (AM), frequency modula-tion (FM), or phase modulation (PM), respectively.
Modulation is used to transmit both analog as well as digital baseband signals.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 35: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/35.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Carrier Communication
Communication that uses modulation to shift the frequency spectrum of asignal is known as carrier communication.
In this mode, one of the basic parameters (amplitude, frequency, or phase) of asinusoidal carrier of high frequency ωc is varied in proportion to the basebandsignal m (t). This results in amplitude modulation (AM), frequency modula-tion (FM), or phase modulation (PM), respectively.
Modulation is used to transmit both analog as well as digital baseband signals.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 36: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/36.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Outline
1 Introduction
2 DSB-SC Modulation
3 Amplitude Modulation
4 Bandwidth Efficient Modulations
5 FDM
6 AM Receivers
7 Noise
8 Summary
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulation
m(t)(Modulating signal)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulation
m(t)(Modulating signal)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulation
m(t)(Modulating signal)
cosωct(Carrier)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulation
m(t)(Modulating signal) (Modulated signal)
m(t) cosωct
cosωct(Carrier)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulation
m(t)(Modulating signal) (Modulated signal)
m(t) cosωct
cosωct(Carrier)
t
m(t)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulation
m(t)(Modulating signal) (Modulated signal)
m(t) cosωct
cosωct(Carrier)
t
m(t) cosωctm(t)
-m(t)
t
m(t)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulation
m(t)(Modulating signal) (Modulated signal)
m(t) cosωct
cosωct(Carrier)
t
m(t) cosωctm(t)
-m(t)
t ω
m(t)
0 2πB-2πB
2A
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulation
m(t)(Modulating signal) (Modulated signal)
m(t) cosωct
cosωct(Carrier)
t ω
m(t) cosωctm(t)
-m(t)
-ωc +ωc
4πB
LSB USBLSBUSB
t ω
m(t)
0 2πB-2πB
2A
ωc≥2πB
A
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Demodulation
m(t) cosωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Demodulation
m(t) cosωct
cosωct(Carrier)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Demodulation
m(t) cosωct
cosωct(Carrier)
e(t)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Demodulation
m(t) cosωct
cosωct(Carrier)
e(t)
ω+2ωc-2ωc 0
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Demodulation
m(t) cosωct
cosωct(Carrier)
Low-pass filtere(t)
m(t)12
ω+2ωc-2ωc 0
A
A/2A/2
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Theoretical Explanation of DSB-SC
Modulation:
m (t)⇐⇒ M (ω)
m (t) cos ωct⇐⇒ 12[M (ω + ωc) + M (ω−ωc)] (1)
Demodulation:
e (t) = m (t) cos2 ωct =12[m (t) + m (t) cos 2ωct]
e (t)⇐⇒ 12
M (ω) +14[M (ω + 2ωc) + M (ω− 2ωc)] (2)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Theoretical Explanation of DSB-SC
Modulation:
m (t)⇐⇒ M (ω)
m (t) cos ωct⇐⇒ 12[M (ω + ωc) + M (ω−ωc)] (1)
Demodulation:
e (t) = m (t) cos2 ωct =12[m (t) + m (t) cos 2ωct]
e (t)⇐⇒ 12
M (ω) +14[M (ω + 2ωc) + M (ω− 2ωc)] (2)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Theoretical Explanation of DSB-SC
Modulation:
m (t)⇐⇒ M (ω)
m (t) cos ωct⇐⇒ 12[M (ω + ωc) + M (ω−ωc)] (1)
Demodulation:
e (t) = m (t) cos2 ωct =12[m (t) + m (t) cos 2ωct]
e (t)⇐⇒ 12
M (ω) +14[M (ω + 2ωc) + M (ω− 2ωc)] (2)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 1: Nonlinear Modulator
m(t)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 1: Nonlinear Modulator
m(t)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 1: Nonlinear Modulator
m(t)
cosωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 1: Nonlinear Modulator
m(t) Σ
cosωct
x1(t)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 1: Nonlinear Modulator
m(t) Σ
cosωct
x1(t) NLy1(t)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 1: Nonlinear Modulator
m(t)
Σ
Σ
cosωct
x1(t)
NL
NL
x2(t)
y1(t)
y2(t)
-1
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 1: Nonlinear Modulator
m(t)
Σ
Σ
cosωct
x1(t)
z(t)Σ
NL
NL
x2(t)
y1(t)
y2(t)
-1
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 1: Nonlinear Modulator
m(t)
4bm(t) cosωct
Σ
Σ
cosωct
x1(t)
z(t) BPF±ωc
Σ
NL
NL
x2(t)
y1(t)
y2(t)
-1
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 1: Nonlinear Modulator
Let input-output characteristics of NL device be approximated by a powerseries:
y (t) = ax (t) + bx2 (t) (3)
Then the summer output z (t) is given by
z (t) = y1 (t)− y2 (t) =[ax1 (t) + bx2
1 (t)]−[ax2 (t) + bx2
2 (t)]
. (4)
Substituting the two input signals x1 (t) = cos ωct + m (t) and x2 (t) =cos ωct−m (t) in the above equation gives
z (t) = 2am (t) + 4bm (t) cos ωct. (5)
From the above equation, it can be said that the circuit acts as a balancedbridge for carrier signal. Do you know what is meant by that?
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 1: Nonlinear Modulator
Let input-output characteristics of NL device be approximated by a powerseries:
y (t) = ax (t) + bx2 (t) (3)
Then the summer output z (t) is given by
z (t) = y1 (t)− y2 (t) =[ax1 (t) + bx2
1 (t)]−[ax2 (t) + bx2
2 (t)]
. (4)
Substituting the two input signals x1 (t) = cos ωct + m (t) and x2 (t) =cos ωct−m (t) in the above equation gives
z (t) = 2am (t) + 4bm (t) cos ωct. (5)
From the above equation, it can be said that the circuit acts as a balancedbridge for carrier signal. Do you know what is meant by that?
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 63: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/63.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 1: Nonlinear Modulator
Let input-output characteristics of NL device be approximated by a powerseries:
y (t) = ax (t) + bx2 (t) (3)
Then the summer output z (t) is given by
z (t) = y1 (t)− y2 (t) =[ax1 (t) + bx2
1 (t)]−[ax2 (t) + bx2
2 (t)]
. (4)
Substituting the two input signals x1 (t) = cos ωct + m (t) and x2 (t) =cos ωct−m (t) in the above equation gives
z (t) = 2am (t) + 4bm (t) cos ωct. (5)
From the above equation, it can be said that the circuit acts as a balancedbridge for carrier signal. Do you know what is meant by that?
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 64: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/64.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 1: Nonlinear Modulator
Let input-output characteristics of NL device be approximated by a powerseries:
y (t) = ax (t) + bx2 (t) (3)
Then the summer output z (t) is given by
z (t) = y1 (t)− y2 (t) =[ax1 (t) + bx2
1 (t)]−[ax2 (t) + bx2
2 (t)]
. (4)
Substituting the two input signals x1 (t) = cos ωct + m (t) and x2 (t) =cos ωct−m (t) in the above equation gives
z (t) = 2am (t) + 4bm (t) cos ωct. (5)
From the above equation, it can be said that the circuit acts as a balancedbridge for carrier signal. Do you know what is meant by that?
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 65: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/65.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 1: Nonlinear Modulator
Let input-output characteristics of NL device be approximated by a powerseries:
y (t) = ax (t) + bx2 (t) (3)
Then the summer output z (t) is given by
z (t) = y1 (t)− y2 (t) =[ax1 (t) + bx2
1 (t)]−[ax2 (t) + bx2
2 (t)]
. (4)
Substituting the two input signals x1 (t) = cos ωct + m (t) and x2 (t) =cos ωct−m (t) in the above equation gives
z (t) = 2am (t) + 4bm (t) cos ωct. (5)
From the above equation, it can be said that the circuit acts as a balancedbridge for carrier signal. Do you know what is meant by that?
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 66: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/66.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 2: Switching Modulators
t
m(t)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 2: Switching Modulators
t
m(t)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 2: Switching Modulators
t
m(t)
ω0
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 2: Switching Modulators
t
w(t)
t
m(t)
ω0
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 2: Switching Modulators
t
w(t)
t
m(t)w(t)
t
m(t)
ω0
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 2: Switching Modulators
t
w(t)
t
m(t)w(t)
ω0
t
m(t)
ω0
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 72: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/72.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 2: Switching Modulators
t
w(t)
t
m(t)w(t)
ω0
t
m(t)
ω0
BPF±ωc
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 73: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/73.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 2: Switching Modulators
t
w(t)
t
m(t)w(t)
ω0
t
m(t)
ω0
BPF±ωc t
m(t) cosωct2π
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 74: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/74.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 3: Diode Bridge Switch
a
b
c d
D1 D3
D4D2
Acosωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 75: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/75.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 3: Diode Bridge Switch
a
b
c d
D1 D3
D4D2
Acosωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 76: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/76.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 3: Diode Bridge Switch
a
b
c d
D1 D3
D4D2
Duringpositive
cycle
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 77: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/77.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 3: Diode Bridge Switch
a
b
c d
D1 D3
D4D2
Duringnegative
cycle
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 78: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/78.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 3: Diode Bridge Switch
a
b
c d
D1 D3
D4D2
a b
+−
Bandpassfilterm(t) km(t) cosωct
+
−
+−
a
b
Bandpassfilterm(t) km(t) cosωct
+
−
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 79: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/79.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 4: Ring Modulator
Bandpassfilter km(t) cosωct
a
b
c
d
m(t)
Acosωct
D1
D3
D4
D2
+
−vi
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 80: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/80.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 4: Ring Modulator
Bandpassfilter km(t) cosωct
a
b
c
d
m(t)
Acosωct
D1
D3
D4
D2
+
−vi
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 81: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/81.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 4: Ring Modulator
Bandpassfilter km(t) cosωct
a
b
c
d
m(t)
Acosωct
D1
D3
D4
D2
+
−vi
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 82: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/82.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 4: Ring Modulator
Bandpassfilter km(t) cosωct
a
b
c
d
m(t)
Acosωct
D1
D3
D4
D2
+
−vi
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 83: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/83.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 4: Ring Modulator
Bandpassfilter km(t) cosωct
a
b
c
d
m(t)
Acosωct
D1
D3
D4
D2
+
−vi
t
w0(t)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 84: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/84.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 4: Ring Modulator
Bandpassfilter km(t) cosωct
a
b
c
d
m(t)
Acosωct
D1
D3
D4
D2
+
−vi
t
w0(t)
t
m(t)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 85: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/85.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Modulators – 4: Ring Modulator
Bandpassfilter km(t) cosωct
a
b
c
d
m(t)
Acosωct
D1
D3
D4
D2
+
−vi
t
w0(t)
t
vi=m(t)w0(t)
t
m(t)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 86: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/86.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Impact of Asynchronous Carrier
m(t) cosωct
cosωct(Carrier)
Low-pass filtere(t)
m(t)12
ω+2ωc-2ωc 0
A
A/2A/2
Demodulation process is similar to that of modulation except that we use alowpass filter instead of bandpass filter. Thus all the circuits used for modu-lation can be used for demodulation also.
But having a synchronous carrier at the receiver end is a must. This compli-cates the receiver design.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 87: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/87.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Impact of Asynchronous Carrier
m(t) cosωct
cosωct(Carrier)
Low-pass filtere(t)
m(t)12
ω+2ωc-2ωc 0
A
A/2A/2
Demodulation process is similar to that of modulation except that we use alowpass filter instead of bandpass filter. Thus all the circuits used for modu-lation can be used for demodulation also.
But having a synchronous carrier at the receiver end is a must. This compli-cates the receiver design.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 88: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/88.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Impact of Asynchronous Carrier
m(t) cosωct
cosωct(Carrier)
Low-pass filtere(t)
m(t)12
ω+2ωc-2ωc 0
A
A/2A/2
Demodulation process is similar to that of modulation except that we use alowpass filter instead of bandpass filter. Thus all the circuits used for modu-lation can be used for demodulation also.
But having a synchronous carrier at the receiver end is a must. This compli-cates the receiver design.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 89: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/89.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Impact of Asynchronous Carrier
m(t) cosωct
cosωct(Carrier)
Low-pass filtere(t)
m(t)12
ω+2ωc-2ωc 0
A
A/2A/2
Demodulation process is similar to that of modulation except that we use alowpass filter instead of bandpass filter. Thus all the circuits used for modu-lation can be used for demodulation also.
But having a synchronous carrier at the receiver end is a must. This compli-cates the receiver design.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 90: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/90.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Impact of Asynchronous Carrier
Let the local carrier with phase and frequency offset be 2 cos [(ωc + ∆ω) t + δ] .
Then the product at the receiver is given as
e (t) = 2m (t) cos ωct cos [(ωc + ∆ω) t + δ]
= m (t) {cos [(2ωc + ∆ω) t + δ] + cos [(∆ω) t + δ]} .
After lowpass filtering,
e0 (t) = m (t) cos [(∆ω) t + δ] . (6)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 91: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/91.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Impact of Asynchronous Carrier
Let the local carrier with phase and frequency offset be 2 cos [(ωc + ∆ω) t + δ] .
Then the product at the receiver is given as
e (t) = 2m (t) cos ωct cos [(ωc + ∆ω) t + δ]
= m (t) {cos [(2ωc + ∆ω) t + δ] + cos [(∆ω) t + δ]} .
After lowpass filtering,
e0 (t) = m (t) cos [(∆ω) t + δ] . (6)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 92: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/92.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Impact of Asynchronous Carrier
Let the local carrier with phase and frequency offset be 2 cos [(ωc + ∆ω) t + δ] .
Then the product at the receiver is given as
e (t) = 2m (t) cos ωct cos [(ωc + ∆ω) t + δ]
= m (t) {cos [(2ωc + ∆ω) t + δ] + cos [(∆ω) t + δ]} .
After lowpass filtering,
e0 (t) = m (t) cos [(∆ω) t + δ] . (6)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 93: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/93.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Impact of Asynchronous Carrier
Let the local carrier with phase and frequency offset be 2 cos [(ωc + ∆ω) t + δ] .
Then the product at the receiver is given as
e (t) = 2m (t) cos ωct cos [(ωc + ∆ω) t + δ]
= m (t) {cos [(2ωc + ∆ω) t + δ] + cos [(∆ω) t + δ]} .
After lowpass filtering,
e0 (t) = m (t) cos [(∆ω) t + δ] . (6)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 94: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/94.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Impact of Asynchronous Carrier
So, after lowpass filtering,
e0 (t) = m (t) cos [(∆ω) t + δ] .
If ∆ω = 0,e0 (t) = m (t) cos δ. (7)
If δ = 0 and ∆ω 6= 0,e0 (t) = m (t) cos (∆ωt) . (8)
Even if ∆f is 1 Hz, the effect is very annoying.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 95: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/95.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Impact of Asynchronous Carrier
So, after lowpass filtering,
e0 (t) = m (t) cos [(∆ω) t + δ] .
If ∆ω = 0,e0 (t) = m (t) cos δ. (7)
If δ = 0 and ∆ω 6= 0,e0 (t) = m (t) cos (∆ωt) . (8)
Even if ∆f is 1 Hz, the effect is very annoying.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 96: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/96.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Impact of Asynchronous Carrier
So, after lowpass filtering,
e0 (t) = m (t) cos [(∆ω) t + δ] .
If ∆ω = 0,e0 (t) = m (t) cos δ. (7)
If δ = 0 and ∆ω 6= 0,e0 (t) = m (t) cos (∆ωt) . (8)
Even if ∆f is 1 Hz, the effect is very annoying.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 97: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/97.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Impact of Asynchronous Carrier
So, after lowpass filtering,
e0 (t) = m (t) cos [(∆ω) t + δ] .
If ∆ω = 0,e0 (t) = m (t) cos δ. (7)
If δ = 0 and ∆ω 6= 0,e0 (t) = m (t) cos (∆ωt) . (8)
Even if ∆f is 1 Hz, the effect is very annoying.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 98: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/98.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Impact of Asynchronous Carrier
So, after lowpass filtering,
e0 (t) = m (t) cos [(∆ω) t + δ] .
If ∆ω = 0,e0 (t) = m (t) cos δ. (7)
If δ = 0 and ∆ω 6= 0,e0 (t) = m (t) cos (∆ωt) . (8)
Even if ∆f is 1 Hz, the effect is very annoying.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 99: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/99.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Ensuring Synchronous Carrier at the Receiver
To ensure identical carrier frequencies at the transmitter and the receiver, wecan use quartz crystal oscillators, which are very stable (at least at low carrierfrequencies).
At very high frequencies, a carrier, or pilot, is transmitted at a reduced level(usually about -20dB) along with the sidebands. After separating the pilotsignal using a very narrow-band filter, it is amplified and used to synchronize(with the help of a phase-locked loop or PLL) the local oscillator.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 100: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/100.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Ensuring Synchronous Carrier at the Receiver
To ensure identical carrier frequencies at the transmitter and the receiver, wecan use quartz crystal oscillators, which are very stable (at least at low carrierfrequencies).
At very high frequencies, a carrier, or pilot, is transmitted at a reduced level(usually about -20dB) along with the sidebands. After separating the pilotsignal using a very narrow-band filter, it is amplified and used to synchronize(with the help of a phase-locked loop or PLL) the local oscillator.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 101: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/101.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Ensuring Synchronous Carrier at the Receiver
To ensure identical carrier frequencies at the transmitter and the receiver, wecan use quartz crystal oscillators, which are very stable (at least at low carrierfrequencies).
At very high frequencies, a carrier, or pilot, is transmitted at a reduced level(usually about -20dB) along with the sidebands. After separating the pilotsignal using a very narrow-band filter, it is amplified and used to synchronize(with the help of a phase-locked loop or PLL) the local oscillator.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 102: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/102.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Phase-Locked Loop (PLL)
A sin (ωct+θi)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 103: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/103.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Phase-Locked Loop (PLL)
A sin (ωct+θi)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Phase-Locked Loop (PLL)
VCO
A sin (ωct+θi)
B cos (ωct+θo)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Phase-Locked Loop (PLL)
VCO
x(t)A sin (ωct+θi)
B cos (ωct+θo)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Phase-Locked Loop (PLL)
Loopfilter
VCO
eo(t)x(t)A sin (ωct+θi)
B cos (ωct+θo)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Phase-Locked Loop (PLL)
Loopfilter
VCO
eo(t)x(t)A sin (ωct+θi)
B cos (ωct+θo)Phase Detector
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Phase-Locked Loop (PLL)
Loopfilter
VCO
eo(t)x(t)A sin (ωct+θi)
B cos (ωct+θo)ω = ωc + ceo(t)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Phase-Locked Loop (PLL)
Loopfilter
VCO
eo(t)x(t)A sin (ωct+θi)
B cos (ωct+θo)
eo
θe
a
θe
eo
ω = ωc + ceo(t)
θe = θi-θo
eo = sinθe
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Phase-Locked Loop (PLL)
Let the input to the PLL be A sin (ωct + θi), and let the VCO output beB cos (ωct + θo). Then
x (t) = AB sin (ωct + θi) cos (ωct + θo)
=AB2
[sin (2ωct + θi + θo) + sin (θi − θo)] .
After filtering, error signal eo (t) is given as
eo (t)=AB2
sin (θi − θo) =AB2
sin θe, (9)
where θe = θi − θo.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Phase-Locked Loop (PLL)
Let the input to the PLL be A sin (ωct + θi), and let the VCO output beB cos (ωct + θo). Then
x (t) = AB sin (ωct + θi) cos (ωct + θo)
=AB2
[sin (2ωct + θi + θo) + sin (θi − θo)] .
After filtering, error signal eo (t) is given as
eo (t)=AB2
sin (θi − θo) =AB2
sin θe, (9)
where θe = θi − θo.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Phase-Locked Loop (PLL)
Let the input to the PLL be A sin (ωct + θi), and let the VCO output beB cos (ωct + θo). Then
x (t) = AB sin (ωct + θi) cos (ωct + θo)
=AB2
[sin (2ωct + θi + θo) + sin (θi − θo)] .
After filtering, error signal eo (t) is given as
eo (t)=AB2
sin (θi − θo) =AB2
sin θe, (9)
where θe = θi − θo.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Signal-Squaring Method
BPF±2ωc
x(t)( )2 PLL 2:1 Frequency
dividerk cosωctm(t) cosωct c cos 2ωct
Narrow-bandfilter
The squarer output x (t) is
x (t) = [m (t) cos ωct]2 =12
m2 (t) +12
m2 (t) cos 2ωct.
Since m2 (t) is a non-negative signal, it can be written as
12
m2 (t) = k + φ (t) .
Thenx (t) =
12
m2 (t) + k cos 2ωct + φ (t) cos 2ωct. (10)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Signal-Squaring Method
BPF±2ωc
x(t)( )2 PLL 2:1 Frequency
dividerk cosωctm(t) cosωct c cos 2ωct
Narrow-bandfilter
The squarer output x (t) is
x (t) = [m (t) cos ωct]2 =12
m2 (t) +12
m2 (t) cos 2ωct.
Since m2 (t) is a non-negative signal, it can be written as
12
m2 (t) = k + φ (t) .
Thenx (t) =
12
m2 (t) + k cos 2ωct + φ (t) cos 2ωct. (10)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Signal-Squaring Method
BPF±2ωc
x(t)( )2 PLL 2:1 Frequency
dividerk cosωctm(t) cosωct c cos 2ωct
Narrow-bandfilter
The squarer output x (t) is
x (t) = [m (t) cos ωct]2 =12
m2 (t) +12
m2 (t) cos 2ωct.
Since m2 (t) is a non-negative signal, it can be written as
12
m2 (t) = k + φ (t) .
Thenx (t) =
12
m2 (t) + k cos 2ωct + φ (t) cos 2ωct. (10)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Signal-Squaring Method
BPF±2ωc
x(t)( )2 PLL 2:1 Frequency
dividerk cosωctm(t) cosωct c cos 2ωct
Narrow-bandfilter
The squarer output x (t) is
x (t) = [m (t) cos ωct]2 =12
m2 (t) +12
m2 (t) cos 2ωct.
Since m2 (t) is a non-negative signal, it can be written as
12
m2 (t) = k + φ (t) .
Thenx (t) =
12
m2 (t) + k cos 2ωct + φ (t) cos 2ωct. (10)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Signal-Squaring Method
BPF±2ωc
x(t)( )2 PLL 2:1 Frequency
dividerk cosωctm(t) cosωct c cos 2ωct
Narrow-bandfilter
The squarer output x (t) is
x (t) = [m (t) cos ωct]2 =12
m2 (t) +12
m2 (t) cos 2ωct.
Since m2 (t) is a non-negative signal, it can be written as
12
m2 (t) = k + φ (t) .
Thenx (t) =
12
m2 (t) + k cos 2ωct + φ (t) cos 2ωct. (10)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Costas Loop
m(t) cos (ωct+θi)
The mechanism is very similar to that of PLL except that
eo (t) ∝ sin 2θe.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Costas Loop
VCOm(t) cos (ωct+θi)
2 cos (ωct+θo)
2 sin (ωct+θo)
−π/2
The mechanism is very similar to that of PLL except that
eo (t) ∝ sin 2θe.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Costas Loop
VCOm(t) cos (ωct+θi)
2 cos (ωct+θo)
2 sin (ωct+θo)
−π/2
The mechanism is very similar to that of PLL except that
eo (t) ∝ sin 2θe.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Costas Loop
Lowpassfilter
VCO
Lowpassfilter
m(t) cos (ωct+θi)
2 cos (ωct+θo)
2 sin (ωct+θo)
m(t) cos θe
m(t) sin θe
−π/2
The mechanism is very similar to that of PLL except that
eo (t) ∝ sin 2θe.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Costas Loop
Lowpassfilter
VCO
Lowpassfilter
m(t) cos (ωct+θi)
2 cos (ωct+θo)
2 sin (ωct+θo)
m(t) cos θe
m(t) sin θe
m2(t) sin 2θe12
−π/2
The mechanism is very similar to that of PLL except that
eo (t) ∝ sin 2θe.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Costas Loop
Lowpassfilter
Lowpassfilter
(narrow band)VCO
Lowpassfilter
m(t) cos (ωct+θi)
2 cos (ωct+θo)
2 sin (ωct+θo)
m(t) cos θe
m(t) sin θe
K sin 2θe
m2(t) sin 2θe12
−π/2
The mechanism is very similar to that of PLL except that
eo (t) ∝ sin 2θe.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Costas Loop
Lowpassfilter
Lowpassfilter
(narrow band)VCO
Lowpassfilter
m(t) cos (ωct+θi)
2 cos (ωct+θo)
2 sin (ωct+θo)
m(t) cos θe
m(t) sin θe
K sin 2θe
m2(t) sin 2θe12
−π/2
The mechanism is very similar to that of PLL except that
eo (t) ∝ sin 2θe.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Costas Loop
Lowpassfilter
Lowpassfilter
(narrow band)
Output
VCO
Lowpassfilter
m(t) cos (ωct+θi)
2 cos (ωct+θo)
2 sin (ωct+θo)
m(t) cos θe
m(t) sin θe
K sin 2θe
m2(t) sin 2θe12
−π/2
The mechanism is very similar to that of PLL except that
eo (t) ∝ sin 2θe.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Outline
1 Introduction
2 DSB-SC Modulation
3 Amplitude Modulation
4 Bandwidth Efficient Modulations
5 FDM
6 AM Receivers
7 Noise
8 Summary
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Amplitude Modulation (with Carrier)
DSB-SC receivers are expensive as they have to maintain the synchronismwith that of the transmitter.
The solution is to send the carrier along with the signal. This implies that thetransmitter has to transmit extra power in the high power carrier.
So, amplitude modulated signal is given by
ϕAM (t) = m (t) cos ωct + A cos ωct = [A + m (t)] cos ωct. (11)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Amplitude Modulation (with Carrier)
DSB-SC receivers are expensive as they have to maintain the synchronismwith that of the transmitter.
The solution is to send the carrier along with the signal. This implies that thetransmitter has to transmit extra power in the high power carrier.
So, amplitude modulated signal is given by
ϕAM (t) = m (t) cos ωct + A cos ωct = [A + m (t)] cos ωct. (11)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Amplitude Modulation (with Carrier)
DSB-SC receivers are expensive as they have to maintain the synchronismwith that of the transmitter.
The solution is to send the carrier along with the signal. This implies that thetransmitter has to transmit extra power in the high power carrier.
So, amplitude modulated signal is given by
ϕAM (t) = m (t) cos ωct + A cos ωct = [A + m (t)] cos ωct. (11)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Amplitude Modulation (with Carrier)
DSB-SC receivers are expensive as they have to maintain the synchronismwith that of the transmitter.
The solution is to send the carrier along with the signal. This implies that thetransmitter has to transmit extra power in the high power carrier.
So, amplitude modulated signal is given by
ϕAM (t) = m (t) cos ωct + A cos ωct = [A + m (t)] cos ωct. (11)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Under Modulation
Time
Amplitude
0
−0.5
0.5
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Under Modulation
Time
Amplitude
0
−0.5
0.5
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Under Modulation
Time
Amplitude
0
1.5
−0.5
0.5
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Under Modulation
Time
Amplitude
0
−1.5
1.5
−0.5
0.5
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Under Modulation
Time
Amplitude
0
−1.5
1.5
−0.5
0.5
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 136: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/136.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Over Modulation
Time
Amplitude
0−0.5
0.5
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Over Modulation
Time
Amplitude
0−0.5
0.5
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 138: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/138.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Over Modulation
Time
Amplitude
0
2.5
−0.5
0.5
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 139: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/139.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Over Modulation
Time
Amplitude
0
−2.5
2.5
−0.5
0.5
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 140: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/140.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Over Modulation
Time
Amplitude
0
−2.5
2.5
−0.5
0.5
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 141: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/141.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Modulation Index (µ)
From the previous slides, the condition for envelope detection of an AM signalis
A + m (t) ≥ 0. (12)
The above equation is equivalent to
A ≥ mnp, (13)
where mnp is the absolute negative peak amplitude.
From the above discussion, we define modulation index (µ) as
µ =mnp
A. (14)
When µ > 1 (over-modulation), envelop detection is not possible and onlyoption available is synchronous detection.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 142: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/142.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Modulation Index (µ)
From the previous slides, the condition for envelope detection of an AM signalis
A + m (t) ≥ 0. (12)
The above equation is equivalent to
A ≥ mnp, (13)
where mnp is the absolute negative peak amplitude.
From the above discussion, we define modulation index (µ) as
µ =mnp
A. (14)
When µ > 1 (over-modulation), envelop detection is not possible and onlyoption available is synchronous detection.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 143: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/143.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Modulation Index (µ)
From the previous slides, the condition for envelope detection of an AM signalis
A + m (t) ≥ 0. (12)
The above equation is equivalent to
A ≥ mnp, (13)
where mnp is the absolute negative peak amplitude.
From the above discussion, we define modulation index (µ) as
µ =mnp
A. (14)
When µ > 1 (over-modulation), envelop detection is not possible and onlyoption available is synchronous detection.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 144: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/144.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Modulation Index (µ)
From the previous slides, the condition for envelope detection of an AM signalis
A + m (t) ≥ 0. (12)
The above equation is equivalent to
A ≥ mnp, (13)
where mnp is the absolute negative peak amplitude.
From the above discussion, we define modulation index (µ) as
µ =mnp
A. (14)
When µ > 1 (over-modulation), envelop detection is not possible and onlyoption available is synchronous detection.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 145: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/145.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Modulation Index (µ)
From the previous slides, the condition for envelope detection of an AM signalis
A + m (t) ≥ 0. (12)
The above equation is equivalent to
A ≥ mnp, (13)
where mnp is the absolute negative peak amplitude.
From the above discussion, we define modulation index (µ) as
µ =mnp
A. (14)
When µ > 1 (over-modulation), envelop detection is not possible and onlyoption available is synchronous detection.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 146: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/146.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Power Efficiency (η)
ϕAM (t) = m (t) cos ωct︸ ︷︷ ︸side−bands
+A cos ωct︸ ︷︷ ︸carrier
Pc =A2
2and Ps =
12
m2 (t)
The sideband power is the useful power and the carrier power is the powerwasted for convenience. So, η, the power efficiency is defined as
η =useful powertotal power
=Ps
Pc + Ps=
m2 (t)
m2 (t) + A2× 100%. (15)
For the special case of tone modulation, m (t) = µA cos ωmt. So, m2 (t) =
(µA)2 /2 and
η =µ2
2 + µ2 × 100%. (16)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Power Efficiency (η)
ϕAM (t) = m (t) cos ωct︸ ︷︷ ︸side−bands
+A cos ωct︸ ︷︷ ︸carrier
Pc =A2
2and Ps =
12
m2 (t)
The sideband power is the useful power and the carrier power is the powerwasted for convenience. So, η, the power efficiency is defined as
η =useful powertotal power
=Ps
Pc + Ps=
m2 (t)
m2 (t) + A2× 100%. (15)
For the special case of tone modulation, m (t) = µA cos ωmt. So, m2 (t) =
(µA)2 /2 and
η =µ2
2 + µ2 × 100%. (16)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Power Efficiency (η)
ϕAM (t) = m (t) cos ωct︸ ︷︷ ︸side−bands
+A cos ωct︸ ︷︷ ︸carrier
Pc =A2
2and Ps =
12
m2 (t)
The sideband power is the useful power and the carrier power is the powerwasted for convenience. So, η, the power efficiency is defined as
η =useful powertotal power
=Ps
Pc + Ps=
m2 (t)
m2 (t) + A2× 100%. (15)
For the special case of tone modulation, m (t) = µA cos ωmt. So, m2 (t) =
(µA)2 /2 and
η =µ2
2 + µ2 × 100%. (16)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Power Efficiency (η)
ϕAM (t) = m (t) cos ωct︸ ︷︷ ︸side−bands
+A cos ωct︸ ︷︷ ︸carrier
Pc =A2
2and Ps =
12
m2 (t)
The sideband power is the useful power and the carrier power is the powerwasted for convenience. So, η, the power efficiency is defined as
η =useful powertotal power
=Ps
Pc + Ps=
m2 (t)
m2 (t) + A2× 100%. (15)
For the special case of tone modulation, m (t) = µA cos ωmt. So, m2 (t) =
(µA)2 /2 and
η =µ2
2 + µ2 × 100%. (16)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Modulators
AM signals can be generated by any DSB-SC modulator if the modulatingsignal is A + m (t) instead of just m (t).
But because there is no need to suppress the carrier in the output, the modu-lating signal do not have to be balanced. This results in a considerably simplermodulator for AM.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Modulators
AM signals can be generated by any DSB-SC modulator if the modulatingsignal is A + m (t) instead of just m (t).
But because there is no need to suppress the carrier in the output, the modu-lating signal do not have to be balanced. This results in a considerably simplermodulator for AM.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 152: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/152.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Modulators
AM signals can be generated by any DSB-SC modulator if the modulatingsignal is A + m (t) instead of just m (t).
But because there is no need to suppress the carrier in the output, the modu-lating signal do not have to be balanced. This results in a considerably simplermodulator for AM.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 153: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/153.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Modulators
+−
+−
BPF±ωc
m(t)
c cosωct
a b
a' b'
c
c'
vo(t)
When c� m (t), the voltage across terminals bb′ is
vbb′ = [c cos ωct + m (t)]w (t)
= [c cos ωct + m (t)][
12+
2π
(cos ωct− 1
3cos 3ωct +
15
cos 5ωct− · · ·)]
=c2
cos ωct +2π
m (t) cos ωct︸ ︷︷ ︸AM
+ other terms.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 154: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/154.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Modulators
+−
+−
BPF±ωc
m(t)
c cosωct
a b
a' b'
c
c'
vo(t)
When c� m (t), the voltage across terminals bb′ is
vbb′ = [c cos ωct + m (t)]w (t)
= [c cos ωct + m (t)][
12+
2π
(cos ωct− 1
3cos 3ωct +
15
cos 5ωct− · · ·)]
=c2
cos ωct +2π
m (t) cos ωct︸ ︷︷ ︸AM
+ other terms.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 155: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/155.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Modulators
+−
+−
BPF±ωc
m(t)
c cosωct
a b
a' b'
c
c'
vo(t)
When c� m (t), the voltage across terminals bb′ is
vbb′ = [c cos ωct + m (t)]w (t)
= [c cos ωct + m (t)][
12+
2π
(cos ωct− 1
3cos 3ωct +
15
cos 5ωct− · · ·)]
=c2
cos ωct +2π
m (t) cos ωct︸ ︷︷ ︸AM
+ other terms.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 156: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/156.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Modulators
+−
+−
BPF±ωc
m(t)
c cosωct
a b
a' b'
c
c'
vo(t)
When c� m (t), the voltage across terminals bb′ is
vbb′ = [c cos ωct + m (t)]w (t)
= [c cos ωct + m (t)][
12+
2π
(cos ωct− 1
3cos 3ωct +
15
cos 5ωct− · · ·)]
=c2
cos ωct +2π
m (t) cos ωct︸ ︷︷ ︸AM
+ other terms.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 157: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/157.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Modulators
+−
+−
BPF±ωc
m(t)
c cosωct
a b
a' b'
c
c'
vo(t)
When c� m (t), the voltage across terminals bb′ is
vbb′ = [c cos ωct + m (t)]w (t)
= [c cos ωct + m (t)][
12+
2π
(cos ωct− 1
3cos 3ωct +
15
cos 5ωct− · · ·)]
=c2
cos ωct +2π
m (t) cos ωct︸ ︷︷ ︸AM
+ other terms.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 158: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/158.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Modulators
+−
+−
BPF±ωc
m(t)
c cosωct
a b
a' b'
c
c'
vo(t)
When c� m (t), the voltage across terminals bb′ is
vbb′ = [c cos ωct + m (t)]w (t)
= [c cos ωct + m (t)][
12+
2π
(cos ωct− 1
3cos 3ωct +
15
cos 5ωct− · · ·)]
=c2
cos ωct +2π
m (t) cos ωct︸ ︷︷ ︸AM
+ other terms.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 159: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/159.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Demodulation
The AM signal can be demodulated coherently by a locally generated carrier.However, this defeats the very purpose (i.e., using non-coherent demodula-tion) of AM.
So, we shall consider here the following non-coherent demodulation schemes:
1 Rectifier detection
2 Envelop detection
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Demodulation
The AM signal can be demodulated coherently by a locally generated carrier.However, this defeats the very purpose (i.e., using non-coherent demodula-tion) of AM.
So, we shall consider here the following non-coherent demodulation schemes:
1 Rectifier detection
2 Envelop detection
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 161: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/161.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Demodulation
The AM signal can be demodulated coherently by a locally generated carrier.However, this defeats the very purpose (i.e., using non-coherent demodula-tion) of AM.
So, we shall consider here the following non-coherent demodulation schemes:
1 Rectifier detection
2 Envelop detection
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 162: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/162.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Rectifier Detector
+−[A+m(t)] cosωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Rectifier Detector
+−[A+m(t)] cosωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Rectifier Detector
+−[A+m(t)] cosωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Rectifier Detector
+−[A+m(t)] cosωct
[A+m(t)]
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Rectifier Detector
+−[A+m(t)] cosωct
[A+m(t)]/π
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 167: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/167.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Rectifier Detector
+−
Lowpassfilter[A+m(t)] cosωct
[A+m(t)]/π
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Rectifier Detector
+−
Lowpassfilter[A+m(t)] cosωct
[A+m(t)]/π
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Rectifier Detector
+−
Lowpassfilter[A+m(t)] cosωct vo(t)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 170: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/170.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Rectifier Detector
+−
Lowpassfilter[A+m(t)] cosωct vo(t)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Envelop Detector
+−[A+m(t)] cosωct RC Capacitor
discharge vo(t)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Envelop Detector
+−[A+m(t)] cosωct RC Capacitor
discharge vo(t)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 173: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/173.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Envelop Detector
+−[A+m(t)] cosωct RC Capacitor
discharge vo(t)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Envelop Detector
+−[A+m(t)] cosωct RC Capacitor
discharge vo(t)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 175: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/175.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Envelop Detector
+−[A+m(t)] cosωct RC Capacitor
discharge vo(t)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 176: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/176.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Envelop Detector
+−[A+m(t)] cosωct RC Capacitor
discharge vo(t)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Envelop Detector
+−[A+m(t)] cosωct RC Capacitor
discharge vo(t)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 178: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/178.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Outline
1 Introduction
2 DSB-SC Modulation
3 Amplitude Modulation
4 Bandwidth Efficient Modulations
5 FDM
6 AM Receivers
7 Noise
8 Summary
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Bandwidth Efficient Modulation Schemes
• Single Side-Band Modulation (SSB)
• Vestigial Side-Band Modulation (VSB)
• Quadrature Amplitude Modulation (QAM)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Bandwidth Efficient Modulation Schemes
• Single Side-Band Modulation (SSB)
• Vestigial Side-Band Modulation (VSB)
• Quadrature Amplitude Modulation (QAM)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Bandwidth Efficient Modulation Schemes
• Single Side-Band Modulation (SSB)
• Vestigial Side-Band Modulation (VSB)
• Quadrature Amplitude Modulation (QAM)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Bandwidth Efficient Modulation Schemes
• Single Side-Band Modulation (SSB)
• Vestigial Side-Band Modulation (VSB)
• Quadrature Amplitude Modulation (QAM)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
SSB-SC Modulation
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
SSB-SC Modulation
ω0
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
SSB-SC Modulation
ω-ωc +ωc
LSB USBLSBUSB
ω0
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
SSB-SC Modulation
ω-ωc +ωc
LSB USBLSBUSB
ω-ωc +ωc
ω0
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
SSB-SC Modulation
ω-ωc +ωc
LSB USBLSBUSB
ω-ωc +ωc
ω-ωc +ωc
ω0
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
SSB-SC Modulation
ω-ωc +ωc
LSB USBLSBUSB
ω-ωc +ωc
ω-ωc +ωc
ω0
ω0-2ωc +2ωc
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Time-Domain Representation of SSB Signals
ω0
M(ω)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Time-Domain Representation of SSB Signals
ω0
M(ω)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Time-Domain Representation of SSB Signals
ω0
M(ω)
ω
M+(ω)
ω
M−(ω)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Time-Domain Representation of SSB Signals
ω0
M(ω)
ω
M+(ω)
ω
M−(ω)
ω-ωc +ωc
M+(ω−ωc)M−(ω+ωc)
ω-ωc +ωc
M−(ω−ωc)M+(ω+ωc)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Time-Domain Representation of SSB Signals
M+ (ω)⇐⇒ m+ (t)M− (ω)⇐⇒ m− (t)
Since M+ (ω) and M− (ω) are conjugates, m+ (t) and m− (t) are also conju-gates. Also, because m+ (t) + m− (t) = m (t), we can express
m+ (t) =12[m (t) + jmh (t)]
m− (t) =12[m (t)− jmh (t)]
where mh (t) is unknown.
From the above set of equations, it follows that
M+ (ω) =12[M (ω) + jMh (ω)] (17)
M− (ω) =12[M (ω)− jMh (ω)] .
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Time-Domain Representation of SSB Signals
M+ (ω)⇐⇒ m+ (t)M− (ω)⇐⇒ m− (t)
Since M+ (ω) and M− (ω) are conjugates, m+ (t) and m− (t) are also conju-gates. Also, because m+ (t) + m− (t) = m (t), we can express
m+ (t) =12[m (t) + jmh (t)]
m− (t) =12[m (t)− jmh (t)]
where mh (t) is unknown.
From the above set of equations, it follows that
M+ (ω) =12[M (ω) + jMh (ω)] (17)
M− (ω) =12[M (ω)− jMh (ω)] .
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Time-Domain Representation of SSB Signals
M+ (ω)⇐⇒ m+ (t)M− (ω)⇐⇒ m− (t)
Since M+ (ω) and M− (ω) are conjugates, m+ (t) and m− (t) are also conju-gates. Also, because m+ (t) + m− (t) = m (t), we can express
m+ (t) =12[m (t) + jmh (t)]
m− (t) =12[m (t)− jmh (t)]
where mh (t) is unknown.
From the above set of equations, it follows that
M+ (ω) =12[M (ω) + jMh (ω)] (17)
M− (ω) =12[M (ω)− jMh (ω)] .
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Time-Domain Representation of SSB Signals
M+ (ω)⇐⇒ m+ (t)M− (ω)⇐⇒ m− (t)
Since M+ (ω) and M− (ω) are conjugates, m+ (t) and m− (t) are also conju-gates. Also, because m+ (t) + m− (t) = m (t), we can express
m+ (t) =12[m (t) + jmh (t)]
m− (t) =12[m (t)− jmh (t)]
where mh (t) is unknown.
From the above set of equations, it follows that
M+ (ω) =12[M (ω) + jMh (ω)] (17)
M− (ω) =12[M (ω)− jMh (ω)] .
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Time-Domain Representation of SSB Signals
Since M+ (ω) = M (ω) u (ω),
M+ (ω) =12
M (ω) [1 + sgn (ω)]
=12
M (ω) +12
M (ω) sgn (ω) . (18)
Comparing (18) and (17) gives
Mh (ω) = −jM (ω) sgn (ω) = [M (ω)] [−jsgn (ω)] .
Since, 1/πt⇐⇒ −jsgn (ω), taking inverse Fourier transform on both sides ofthe above equation gives
Mh (ω) =12
ˆ ∞
−∞
m (τ)
t− τdτ =
12
ˆ ∞
−∞
m (α)
t− αdα. (19)
The right-hand side of the above equation defines the Hilbert transform ofm (t).
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Time-Domain Representation of SSB Signals
Since M+ (ω) = M (ω) u (ω),
M+ (ω) =12
M (ω) [1 + sgn (ω)]
=12
M (ω) +12
M (ω) sgn (ω) . (18)
Comparing (18) and (17) gives
Mh (ω) = −jM (ω) sgn (ω) = [M (ω)] [−jsgn (ω)] .
Since, 1/πt⇐⇒ −jsgn (ω), taking inverse Fourier transform on both sides ofthe above equation gives
Mh (ω) =12
ˆ ∞
−∞
m (τ)
t− τdτ =
12
ˆ ∞
−∞
m (α)
t− αdα. (19)
The right-hand side of the above equation defines the Hilbert transform ofm (t).
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Time-Domain Representation of SSB Signals
Since M+ (ω) = M (ω) u (ω),
M+ (ω) =12
M (ω) [1 + sgn (ω)]
=12
M (ω) +12
M (ω) sgn (ω) . (18)
Comparing (18) and (17) gives
Mh (ω) = −jM (ω) sgn (ω) = [M (ω)] [−jsgn (ω)] .
Since, 1/πt⇐⇒ −jsgn (ω), taking inverse Fourier transform on both sides ofthe above equation gives
Mh (ω) =12
ˆ ∞
−∞
m (τ)
t− τdτ =
12
ˆ ∞
−∞
m (α)
t− αdα. (19)
The right-hand side of the above equation defines the Hilbert transform ofm (t).
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 200: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/200.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Time-Domain Representation of SSB Signals
Since M+ (ω) = M (ω) u (ω),
M+ (ω) =12
M (ω) [1 + sgn (ω)]
=12
M (ω) +12
M (ω) sgn (ω) . (18)
Comparing (18) and (17) gives
Mh (ω) = −jM (ω) sgn (ω) = [M (ω)] [−jsgn (ω)] .
Since, 1/πt⇐⇒ −jsgn (ω),
taking inverse Fourier transform on both sides ofthe above equation gives
Mh (ω) =12
ˆ ∞
−∞
m (τ)
t− τdτ =
12
ˆ ∞
−∞
m (α)
t− αdα. (19)
The right-hand side of the above equation defines the Hilbert transform ofm (t).
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Time-Domain Representation of SSB Signals
Since M+ (ω) = M (ω) u (ω),
M+ (ω) =12
M (ω) [1 + sgn (ω)]
=12
M (ω) +12
M (ω) sgn (ω) . (18)
Comparing (18) and (17) gives
Mh (ω) = −jM (ω) sgn (ω) = [M (ω)] [−jsgn (ω)] .
Since, 1/πt⇐⇒ −jsgn (ω), taking inverse Fourier transform on both sides ofthe above equation gives
Mh (ω) =12
ˆ ∞
−∞
m (τ)
t− τdτ =
12
ˆ ∞
−∞
m (α)
t− αdα. (19)
The right-hand side of the above equation defines the Hilbert transform ofm (t).
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Time-Domain Representation of SSB Signals
SSB signal ΦUSB (ω) can be expressed as
ΦUSB (ω) = M+ (ω−ωc) + M− (ω + ωc) .
Taking inverse transform of the above equation gives
ϕUSB (t) = m+ (t) ejωct + m− (t) e−jωct.
Substituting m+ (t) and m− (t) values gives
ϕUSB (t)= m (t) cos ωct−mh (t) sin ωct. (20)
Similarly, it can be shown that
ϕLSB (t)= m (t) cos ωct + mh (t) sin ωct. (21)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Time-Domain Representation of SSB Signals
SSB signal ΦUSB (ω) can be expressed as
ΦUSB (ω) = M+ (ω−ωc) + M− (ω + ωc) .
Taking inverse transform of the above equation gives
ϕUSB (t) = m+ (t) ejωct + m− (t) e−jωct.
Substituting m+ (t) and m− (t) values gives
ϕUSB (t)= m (t) cos ωct−mh (t) sin ωct. (20)
Similarly, it can be shown that
ϕLSB (t)= m (t) cos ωct + mh (t) sin ωct. (21)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Time-Domain Representation of SSB Signals
SSB signal ΦUSB (ω) can be expressed as
ΦUSB (ω) = M+ (ω−ωc) + M− (ω + ωc) .
Taking inverse transform of the above equation gives
ϕUSB (t) = m+ (t) ejωct + m− (t) e−jωct.
Substituting m+ (t) and m− (t) values gives
ϕUSB (t)= m (t) cos ωct−mh (t) sin ωct. (20)
Similarly, it can be shown that
ϕLSB (t)= m (t) cos ωct + mh (t) sin ωct. (21)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Time-Domain Representation of SSB Signals
SSB signal ΦUSB (ω) can be expressed as
ΦUSB (ω) = M+ (ω−ωc) + M− (ω + ωc) .
Taking inverse transform of the above equation gives
ϕUSB (t) = m+ (t) ejωct + m− (t) e−jωct.
Substituting m+ (t) and m− (t) values gives
ϕUSB (t)= m (t) cos ωct−mh (t) sin ωct. (20)
Similarly, it can be shown that
ϕLSB (t)= m (t) cos ωct + mh (t) sin ωct. (21)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Time-Domain Representation of SSB Signals
SSB signal ΦUSB (ω) can be expressed as
ΦUSB (ω) = M+ (ω−ωc) + M− (ω + ωc) .
Taking inverse transform of the above equation gives
ϕUSB (t) = m+ (t) ejωct + m− (t) e−jωct.
Substituting m+ (t) and m− (t) values gives
ϕUSB (t)= m (t) cos ωct−mh (t) sin ωct. (20)
Similarly, it can be shown that
ϕLSB (t)= m (t) cos ωct + mh (t) sin ωct. (21)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Hilbert Transform – Physical Interpretation
ω0
|H(ω)|
1
ω0
θh(ω)+π/2
−π/2
Mh (ω) = [M (ω)]× [−jsgn (ω)]
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Hilbert Transform – Physical Interpretation
ω0
|H(ω)|
1
ω0
θh(ω)+π/2
−π/2
Mh (ω) = [M (ω)]× [−jsgn (ω)]
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Hilbert Transform – Physical Interpretation
ω0
|H(ω)|
1
ω0
θh(ω)+π/2
−π/2
Mh (ω) = [M (ω)]× [−jsgn (ω)]
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
SSB-SC Modulators
• Selective-Filtering Method
• Phase-Shift Method
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
SSB-SC Modulators
• Selective-Filtering Method
• Phase-Shift Method
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Selective-Filtering Method
0 1000 2000 3000 4000Frequency f, Hz
Rela
tive
PSD
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Selective-Filtering Method
0 1000 2000 3000 4000Frequency f, Hz
Rela
tive
PSD
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Selective-Filtering Method
0 1000 2000 3000 4000Frequency f, Hz
Rela
tive
PSD
ω-ωc +ωc
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Selective-Filtering Method
0 1000 2000 3000 4000Frequency f, Hz
Rela
tive
PSD
ω-ωc +ωc
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Phase-Shift Method
cos ωct
m(t)
ϕUSB (t) = m (t) cos ωct−mh (t) sin ωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Phase-Shift Method
cos ωct
m(t)
ϕUSB (t) = m (t) cos ωct−mh (t) sin ωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Phase-Shift Method
cos ωct
m(t)
ϕUSB (t) = m (t) cos ωct−mh (t) sin ωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Phase-Shift Method
DSB-SCmodulator
cos ωct
m(t)
m(t) cos ωct
ϕUSB (t) = m (t) cos ωct−mh (t) sin ωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Phase-Shift Method
−π/2
DSB-SCmodulator
−π/2
cos ωct
m(t)
mh(t)
m(t) cos ωct
sin ωct
ϕUSB (t) = m (t) cos ωct−mh (t) sin ωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Phase-Shift Method
−π/2
DSB-SCmodulator
DSB-SCmodulator−π/2
cos ωct
m(t)
mh(t) mh(t) sin ωct
m(t) cos ωct
sin ωct
ϕUSB (t) = m (t) cos ωct−mh (t) sin ωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Phase-Shift Method
−π/2 Σ
DSB-SCmodulator
DSB-SCmodulator−π/2
SSB signal
cos ωct
m(t)
mh(t) mh(t) sin ωct
m(t) cos ωct
+
−+
sin ωct
ϕUSB (t) = m (t) cos ωct−mh (t) sin ωct
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
SSB-SC Demodulation
SSB signal is given by
ϕSSB (t) = m (t) cos ωct∓mh (t) sin ωct.
Assuming that we have a synchronized local carrier at the receiver end, wecan demodulate the signal as shown below:
ϕSSB (t) cos ωct =12
m (t) (1 + cos 2ωct)∓ 12
mh (t) sin 2ωct
=12
m (t) +12
m (t) cos 2ωct∓ 12
mh (t) sin 2ωct︸ ︷︷ ︸can be filtered out using an LPF
. (22)
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
SSB-SC Demodulation
SSB signal is given by
ϕSSB (t) = m (t) cos ωct∓mh (t) sin ωct.
Assuming that we have a synchronized local carrier at the receiver end, wecan demodulate the signal as shown below:
ϕSSB (t) cos ωct =12
m (t) (1 + cos 2ωct)∓ 12
mh (t) sin 2ωct
=12
m (t) +12
m (t) cos 2ωct∓ 12
mh (t) sin 2ωct︸ ︷︷ ︸can be filtered out using an LPF
. (22)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
SSB-SC Demodulation
SSB signal is given by
ϕSSB (t) = m (t) cos ωct∓mh (t) sin ωct.
Assuming that we have a synchronized local carrier at the receiver end, wecan demodulate the signal as shown below:
ϕSSB (t) cos ωct =12
m (t) (1 + cos 2ωct)∓ 12
mh (t) sin 2ωct
=12
m (t) +12
m (t) cos 2ωct∓ 12
mh (t) sin 2ωct︸ ︷︷ ︸can be filtered out using an LPF
. (22)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
SSB-SC Demodulation
SSB signal is given by
ϕSSB (t) = m (t) cos ωct∓mh (t) sin ωct.
Assuming that we have a synchronized local carrier at the receiver end, wecan demodulate the signal as shown below:
ϕSSB (t) cos ωct =12
m (t) (1 + cos 2ωct)∓ 12
mh (t) sin 2ωct
=12
m (t) +12
m (t) cos 2ωct∓ 12
mh (t) sin 2ωct︸ ︷︷ ︸can be filtered out using an LPF
. (22)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
SSB-SC Demodulation
SSB signal is given by
ϕSSB (t) = m (t) cos ωct∓mh (t) sin ωct.
Assuming that we have a synchronized local carrier at the receiver end, wecan demodulate the signal as shown below:
ϕSSB (t) cos ωct =12
m (t) (1 + cos 2ωct)∓ 12
mh (t) sin 2ωct
=12
m (t) +12
m (t) cos 2ωct∓ 12
mh (t) sin 2ωct︸ ︷︷ ︸can be filtered out using an LPF
. (22)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Envelope Detection of SSB+C Signal
SSB signal with a carrier (SSB+C) can be expressed as
ϕSSB+C (t) = A cos ωct + [m (t) cos ωct + mh (t) sin ωct]= [A + m (t)] cos ωct + mh (t) sin ωct
=√[A + m (t)]2 + m2
h (t)×[A + m (t)] cos ωct + mh (t) sin ωct√
[A + m (t)]2 + m2h (t)
=√[A + m (t)]2 + m2
h (t) cos (ωct + θ) . (23)
So, the envelope of the SSB+C signal is given by
E =√[A + m (t)]2 + m2
h (t)
= A
√1 +
2m (t)A
+m2 (t)
A2 +m2
h (t)A2
≈ A[
1 +m (t)
A
]= A + m (t). ( Assuming A� m (t)) (24)
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Envelope Detection of SSB+C Signal
SSB signal with a carrier (SSB+C) can be expressed as
ϕSSB+C (t) = A cos ωct + [m (t) cos ωct + mh (t) sin ωct]= [A + m (t)] cos ωct + mh (t) sin ωct
=√[A + m (t)]2 + m2
h (t)×[A + m (t)] cos ωct + mh (t) sin ωct√
[A + m (t)]2 + m2h (t)
=√[A + m (t)]2 + m2
h (t) cos (ωct + θ) . (23)
So, the envelope of the SSB+C signal is given by
E =√[A + m (t)]2 + m2
h (t)
= A
√1 +
2m (t)A
+m2 (t)
A2 +m2
h (t)A2
≈ A[
1 +m (t)
A
]= A + m (t). ( Assuming A� m (t)) (24)
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Envelope Detection of SSB+C Signal
SSB signal with a carrier (SSB+C) can be expressed as
ϕSSB+C (t) = A cos ωct + [m (t) cos ωct + mh (t) sin ωct]
= [A + m (t)] cos ωct + mh (t) sin ωct
=√[A + m (t)]2 + m2
h (t)×[A + m (t)] cos ωct + mh (t) sin ωct√
[A + m (t)]2 + m2h (t)
=√[A + m (t)]2 + m2
h (t) cos (ωct + θ) . (23)
So, the envelope of the SSB+C signal is given by
E =√[A + m (t)]2 + m2
h (t)
= A
√1 +
2m (t)A
+m2 (t)
A2 +m2
h (t)A2
≈ A[
1 +m (t)
A
]= A + m (t). ( Assuming A� m (t)) (24)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 231: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/231.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Envelope Detection of SSB+C Signal
SSB signal with a carrier (SSB+C) can be expressed as
ϕSSB+C (t) = A cos ωct + [m (t) cos ωct + mh (t) sin ωct]= [A + m (t)] cos ωct + mh (t) sin ωct
=√[A + m (t)]2 + m2
h (t)×[A + m (t)] cos ωct + mh (t) sin ωct√
[A + m (t)]2 + m2h (t)
=√[A + m (t)]2 + m2
h (t) cos (ωct + θ) . (23)
So, the envelope of the SSB+C signal is given by
E =√[A + m (t)]2 + m2
h (t)
= A
√1 +
2m (t)A
+m2 (t)
A2 +m2
h (t)A2
≈ A[
1 +m (t)
A
]= A + m (t). ( Assuming A� m (t)) (24)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 232: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/232.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Envelope Detection of SSB+C Signal
SSB signal with a carrier (SSB+C) can be expressed as
ϕSSB+C (t) = A cos ωct + [m (t) cos ωct + mh (t) sin ωct]= [A + m (t)] cos ωct + mh (t) sin ωct
=√[A + m (t)]2 + m2
h (t)×[A + m (t)] cos ωct + mh (t) sin ωct√
[A + m (t)]2 + m2h (t)
=√[A + m (t)]2 + m2
h (t) cos (ωct + θ) . (23)
So, the envelope of the SSB+C signal is given by
E =√[A + m (t)]2 + m2
h (t)
= A
√1 +
2m (t)A
+m2 (t)
A2 +m2
h (t)A2
≈ A[
1 +m (t)
A
]= A + m (t). ( Assuming A� m (t)) (24)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 233: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/233.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Envelope Detection of SSB+C Signal
SSB signal with a carrier (SSB+C) can be expressed as
ϕSSB+C (t) = A cos ωct + [m (t) cos ωct + mh (t) sin ωct]= [A + m (t)] cos ωct + mh (t) sin ωct
=√[A + m (t)]2 + m2
h (t)×[A + m (t)] cos ωct + mh (t) sin ωct√
[A + m (t)]2 + m2h (t)
=√[A + m (t)]2 + m2
h (t) cos (ωct + θ) . (23)
So, the envelope of the SSB+C signal is given by
E =√[A + m (t)]2 + m2
h (t)
= A
√1 +
2m (t)A
+m2 (t)
A2 +m2
h (t)A2
≈ A[
1 +m (t)
A
]= A + m (t). ( Assuming A� m (t)) (24)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 234: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/234.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Envelope Detection of SSB+C Signal
SSB signal with a carrier (SSB+C) can be expressed as
ϕSSB+C (t) = A cos ωct + [m (t) cos ωct + mh (t) sin ωct]= [A + m (t)] cos ωct + mh (t) sin ωct
=√[A + m (t)]2 + m2
h (t)×[A + m (t)] cos ωct + mh (t) sin ωct√
[A + m (t)]2 + m2h (t)
=√[A + m (t)]2 + m2
h (t) cos (ωct + θ) . (23)
So, the envelope of the SSB+C signal is given by
E =√[A + m (t)]2 + m2
h (t)
= A
√1 +
2m (t)A
+m2 (t)
A2 +m2
h (t)A2
≈ A[
1 +m (t)
A
]= A + m (t). ( Assuming A� m (t)) (24)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 235: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/235.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Envelope Detection of SSB+C Signal
SSB signal with a carrier (SSB+C) can be expressed as
ϕSSB+C (t) = A cos ωct + [m (t) cos ωct + mh (t) sin ωct]= [A + m (t)] cos ωct + mh (t) sin ωct
=√[A + m (t)]2 + m2
h (t)×[A + m (t)] cos ωct + mh (t) sin ωct√
[A + m (t)]2 + m2h (t)
=√[A + m (t)]2 + m2
h (t) cos (ωct + θ) . (23)
So, the envelope of the SSB+C signal is given by
E =√[A + m (t)]2 + m2
h (t)
= A
√1 +
2m (t)A
+m2 (t)
A2 +m2
h (t)A2
≈ A[
1 +m (t)
A
]= A + m (t). ( Assuming A� m (t)) (24)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 236: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/236.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Envelope Detection of SSB+C Signal
SSB signal with a carrier (SSB+C) can be expressed as
ϕSSB+C (t) = A cos ωct + [m (t) cos ωct + mh (t) sin ωct]= [A + m (t)] cos ωct + mh (t) sin ωct
=√[A + m (t)]2 + m2
h (t)×[A + m (t)] cos ωct + mh (t) sin ωct√
[A + m (t)]2 + m2h (t)
=√[A + m (t)]2 + m2
h (t) cos (ωct + θ) . (23)
So, the envelope of the SSB+C signal is given by
E =√[A + m (t)]2 + m2
h (t)
= A
√1 +
2m (t)A
+m2 (t)
A2 +m2
h (t)A2
≈ A[
1 +m (t)
A
]= A + m (t). ( Assuming A� m (t)) (24)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 237: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/237.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Vestigial Sideband (VSB) Modulation
ω0
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 238: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/238.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Vestigial Sideband (VSB) Modulation
ω0
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 239: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/239.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Vestigial Sideband (VSB) Modulation
ω-ωc +ωc
LSB USBLSBUSB
ω0
DSB
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 240: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/240.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Vestigial Sideband (VSB) Modulation
ω-ωc +ωc
LSB USBLSBUSB
ω-ωc +ωc
ω0
DSB
SSB
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 241: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/241.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Vestigial Sideband (VSB) Modulation
ω-ωc +ωc
LSB USBLSBUSB
ω-ωc +ωc
ω0
ω-ωc +ωc
DSB
SSB
VSB
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 242: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/242.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Vestigial Sideband (VSB) Modulation
m(t)
2 cosωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 243: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/243.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Vestigial Sideband (VSB) Modulation
m(t)
2 cosωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 244: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/244.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Vestigial Sideband (VSB) Modulation
m(t)
2 cosωct
BPFHi(ω)
VSB signal
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 245: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/245.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Vestigial Sideband (VSB) Modulation
m(t)
2 cosωct
BPFHi(ω)
VSB signal
2 cosωct
VSB signal e(t)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 246: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/246.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Vestigial Sideband (VSB) Modulation
m(t)
2 cosωct
BPFHi(ω)
VSB signal
Lowpasfilter Ho(ω)
2 cosωct
VSB signal m(t)e(t)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 247: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/247.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Vestigial Sideband (VSB) Modulation
ΦVSB = [M (ω + ωc) + M (ω−ωc)]Hi (ω)
e (t)⇐⇒ [ΦVSB (ω + ωc) + ΦVSB (ω−ωc)]
M (ω) = [ΦVSB (ω + ωc) + ΦVSB (ω−ωc)]Ho (ω)
= M (ω) [Hi (ω + ωc) + Hi (ω−ωc)]Ho (ω)
HenceHo (ω) =
1[Hi (ω + ωc) + Hi (ω−ωc)]
, |ω| ≤ 2πB (25)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 248: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/248.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Vestigial Sideband (VSB) Modulation
ΦVSB = [M (ω + ωc) + M (ω−ωc)]Hi (ω)
e (t)⇐⇒ [ΦVSB (ω + ωc) + ΦVSB (ω−ωc)]
M (ω) = [ΦVSB (ω + ωc) + ΦVSB (ω−ωc)]Ho (ω)
= M (ω) [Hi (ω + ωc) + Hi (ω−ωc)]Ho (ω)
HenceHo (ω) =
1[Hi (ω + ωc) + Hi (ω−ωc)]
, |ω| ≤ 2πB (25)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 249: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/249.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Vestigial Sideband (VSB) Modulation
ΦVSB = [M (ω + ωc) + M (ω−ωc)]Hi (ω)
e (t)⇐⇒ [ΦVSB (ω + ωc) + ΦVSB (ω−ωc)]
M (ω) = [ΦVSB (ω + ωc) + ΦVSB (ω−ωc)]Ho (ω)
= M (ω) [Hi (ω + ωc) + Hi (ω−ωc)]Ho (ω)
HenceHo (ω) =
1[Hi (ω + ωc) + Hi (ω−ωc)]
, |ω| ≤ 2πB (25)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 250: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/250.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Vestigial Sideband (VSB) Modulation
ΦVSB = [M (ω + ωc) + M (ω−ωc)]Hi (ω)
e (t)⇐⇒ [ΦVSB (ω + ωc) + ΦVSB (ω−ωc)]
M (ω) = [ΦVSB (ω + ωc) + ΦVSB (ω−ωc)]Ho (ω)
= M (ω) [Hi (ω + ωc) + Hi (ω−ωc)]Ho (ω)
HenceHo (ω) =
1[Hi (ω + ωc) + Hi (ω−ωc)]
, |ω| ≤ 2πB (25)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 251: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/251.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Vestigial Sideband (VSB) Modulation
ΦVSB = [M (ω + ωc) + M (ω−ωc)]Hi (ω)
e (t)⇐⇒ [ΦVSB (ω + ωc) + ΦVSB (ω−ωc)]
M (ω) = [ΦVSB (ω + ωc) + ΦVSB (ω−ωc)]Ho (ω)
= M (ω) [Hi (ω + ωc) + Hi (ω−ωc)]Ho (ω)
HenceHo (ω) =
1[Hi (ω + ωc) + Hi (ω−ωc)]
, |ω| ≤ 2πB (25)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 252: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/252.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Quadrature Amplitude Modulation (QAM)
m1(t)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Quadrature Amplitude Modulation (QAM)
m1(t)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 254: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/254.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Quadrature Amplitude Modulation (QAM)
m1(t)
m2(t)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 255: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/255.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Quadrature Amplitude Modulation (QAM)
m1(t)
m2(t)
cos ωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 256: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/256.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Quadrature Amplitude Modulation (QAM)
m1(t)
m2(t)
cos ωct
−π/2
sin ωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 257: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/257.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Quadrature Amplitude Modulation (QAM)
m1(t)
m2(t)
cos ωct
−π/2
sin ωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 258: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/258.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Quadrature Amplitude Modulation (QAM)
ΣQAM signal
m1(t)
m2(t)
cos ωct
−π/2
sin ωct
m1(t) cos ωct + m2(t) sinωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 259: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/259.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Quadrature Amplitude Modulation (QAM)
Σ
m1(t)
m2(t)
cos ωct
−π/2 −π/2
2cos ωct
sin ωct 2sin ωct
x1(t)
x2(t)
QAM signal
m1(t) cos ωct + m2(t) sinωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 260: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/260.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Quadrature Amplitude Modulation (QAM)
Σ
m1(t)
m2(t)
m1(t)
m2(t)
cos ωct
−π/2 −π/2
2cos ωct
sin ωct 2sin ωct
Lowpassfilter
Lowpassfilterx1(t)
x2(t)
QAM signal
m1(t) cos ωct + m2(t) sinωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Outline
1 Introduction
2 DSB-SC Modulation
3 Amplitude Modulation
4 Bandwidth Efficient Modulations
5 FDM
6 AM Receivers
7 Noise
8 Summary
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
A Simple FDM Example
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
A Simple FDM Example
Channel 3
12 kHz300-3400 Hz
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
A Simple FDM Example
Channel 3
12 kHz300-3400 Hz
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
A Simple FDM Example
Mixer 3Channel 3
12 kHz300-3400 Hz
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
A Simple FDM Example
Mixer 3Channel 3
12 kHz300-3400 Hz
8.6 − 11.7 kHz
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
A Simple FDM Example
Mixer 3Channel 3
12 kHz300-3400 Hz
8.6 − 11.7 kHz
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
A Simple FDM Example
Mixer 2
Mixer 3
Channel 2
Channel 3
12 kHz
16 kHz300-3400 Hz
300-3400 Hz
8.6 − 11.7 kHz
12.6 − 15.7 kHz
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
A Simple FDM Example
Mixer 1
Mixer 2
Mixer 3
Channel 1
Channel 2
Channel 3
12 kHz
16 kHz
20 kHz300-3400 Hz
300-3400 Hz
300-3400 Hz
8.6 − 11.7 kHz
12.6 − 15.7 kHz
16.6 − 19.7 kHz
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
A Simple FDM Example
Mixer 1
Mixer 2
Mixer 3
Channel 1
Channel 2
Channel 3
12 kHz
16 kHz
20 kHz300-3400 Hz
300-3400 Hz
300-3400 Hz
8.6 − 11.7 kHz
12.6 − 15.7 kHz
16.6 − 19.7 kHz
8.6 kHz 19.7 kHz
Output
Common bus
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
A Simple FDM Example
Mixer 1
Mixer 2
Mixer 3
Channel 1
Channel 2
Channel 3
12 kHz
16 kHz
20 kHz300-3400 Hz
300-3400 Hz
300-3400 Hz
8.6 − 11.7 kHz
12.6 − 15.7 kHz
16.6 − 19.7 kHz
8.6 kHz 19.7 kHz
Output
Common bus
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
A More Complicated FDM Modulation Plan
Input
Voice channels(0.3 - 3.4 kHz)
0.3 kHz
3.4 kHz
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
A More Complicated FDM Modulation Plan
Input
Voice channels(0.3 - 3.4 kHz)
0.3 kHz
3.4 kHz
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
A More Complicated FDM Modulation Plan
Input
Voice channels(0.3 - 3.4 kHz)
Channelcarriers
0.3 kHz
3.4 kHz
104 kHz
96 kHz
88 kHz
80 kHz
72 kHz
64 kHz
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
A More Complicated FDM Modulation Plan
Input
Chan 11
Chan 12
Voice channels(0.3 - 3.4 kHz)
Channelcarriers
0.3 kHz
3.4 kHz
104 kHz
96 kHz
88 kHz
80 kHz
72 kHz
64 kHz
60 kHz
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
A More Complicated FDM Modulation Plan
Input
Chan 1
Chan 2
Chan 3
Chan 4
Chan 5
Chan 6
Chan 7
Chan 8
Chan 9
Chan 10
Chan 11
Chan 12
Voice channels(0.3 - 3.4 kHz)
Channelcarriers
0.3 kHz
3.4 kHz
104 kHz
96 kHz
88 kHz
80 kHz
72 kHz
64 kHz
60 kHz
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
A More Complicated FDM Modulation Plan
Input
Chan 1
Chan 2
Chan 3
Chan 4
Chan 5
Chan 6
Chan 7
Chan 8
Chan 9
Chan 10
Chan 11
Chan 12
Voice channels(0.3 - 3.4 kHz)
Channelcarriers
Basic12 - channel
group(60 - 108 kHz)
0.3 kHz
3.4 kHz
104 kHz
96 kHz
88 kHz
80 kHz
72 kHz
64 kHz
60 kHz
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
A More Complicated FDM Modulation Plan
Input
Chan 1
Chan 2
Chan 3
Chan 4
Chan 5
Chan 6
Chan 7
Chan 8
Chan 9
Chan 10
Chan 11
Chan 12
Voice channels(0.3 - 3.4 kHz)
Channelcarriers
Basic12 - channel
group(60 - 108 kHz)
Groupsubcarriers
0.3 kHz
3.4 kHz
104 kHz
96 kHz
88 kHz
80 kHz
72 kHz
64 kHz
612 kHz
468 kHz
584 kHz
516 kHz
420 kHz
60 kHz
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
A More Complicated FDM Modulation Plan
Input
Chan 1
Chan 2
Chan 3
Chan 4
Chan 5
Chan 6
Chan 7
Chan 8
Chan 9
Chan 10
Chan 11
Chan 12
Gr 5
Gr 4
Gr 3
Gr 2
Gr 1
Voice channels(0.3 - 3.4 kHz)
Channelcarriers
Basic12 - channel
group(60 - 108 kHz)
Groupsubcarriers
0.3 kHz
3.4 kHz
104 kHz
96 kHz
88 kHz
80 kHz
72 kHz
64 kHz
612 kHz
468 kHz
584 kHz
516 kHz
420 kHz
552 kHz
504 kHz
408 kHz
456 kHz
360 kHz
312 kHz
60 kHz
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
A More Complicated FDM Modulation Plan
Input
Chan 1
Chan 2
Chan 3
Chan 4
Chan 5
Chan 6
Chan 7
Chan 8
Chan 9
Chan 10
Chan 11
Chan 12
Gr 5
Gr 4
Gr 3
Gr 2
Gr 1
Voice channels(0.3 - 3.4 kHz)
Channelcarriers
Basic12 - channel
group(60 - 108 kHz)
Groupsubcarriers
0.3 kHz
3.4 kHz
Basic60 - channelsupergroup
(312 - 552 kHz)
104 kHz
96 kHz
88 kHz
80 kHz
72 kHz
64 kHz
612 kHz
468 kHz
584 kHz
516 kHz
420 kHz
552 kHz
504 kHz
408 kHz
456 kHz
360 kHz
312 kHz
60 kHz
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 281: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/281.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Outline
1 Introduction
2 DSB-SC Modulation
3 Amplitude Modulation
4 Bandwidth Efficient Modulations
5 FDM
6 AM Receivers
7 Noise
8 Summary
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Tuned Radio Frequency (TRF) Receiver
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Tuned Radio Frequency (TRF) Receiver
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Tuned Radio Frequency (TRF) Receiver
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Tuned Radio Frequency (TRF) Receiver
Receiverantenna
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Tuned Radio Frequency (TRF) Receiver
Receiverantenna
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Tuned Radio Frequency (TRF) Receiver
Antennacouplingnetwork
Receiverantenna
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Tuned Radio Frequency (TRF) Receiver
Antennacouplingnetwork
RF stage
Receiverantenna
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Tuned Radio Frequency (TRF) Receiver
Antennacouplingnetwork
RFamp.
RFamp.
RFamp.
RF stage
Receiverantenna
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Tuned Radio Frequency (TRF) Receiver
Antennacouplingnetwork
RFamp.
RFamp.
RFamp.
RF stage
Receiverantenna
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Tuned Radio Frequency (TRF) Receiver
Antennacouplingnetwork
RFamp.
RFamp.
RFamp.
RF stage Detectorstage
Receiverantenna
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 292: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/292.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Tuned Radio Frequency (TRF) Receiver
Antennacouplingnetwork
RFamp.
RFamp.
RFamp.
Audiodetector
RF stage Detectorstage
Receiverantenna
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Tuned Radio Frequency (TRF) Receiver
Antennacouplingnetwork
RFamp.
RFamp.
RFamp.
Audiodetector
RF stage Detectorstage
Audiostage
Receiverantenna
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Tuned Radio Frequency (TRF) Receiver
Antennacouplingnetwork
RFamp.
RFamp.
RFamp.
Audiodetector
Audioamplifiers
Speaker
RF stage Detectorstage
Audiostage
Receiverantenna
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 295: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/295.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Multistage Amplifiers
0
1.0
0.5
0.7 1.0 1.3
n = 1
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Multistage Amplifiers
0
1.0
0.5
0.7 1.0 1.3
n = 1
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Multistage Amplifiers
0
1.0
0.5
0.7 1.0 1.3
n = 1n = 2
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Multistage Amplifiers
0
1.0
0.5
0.7 1.0 1.3
n = 1n = 2n = 3
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Multistage Amplifiers
0
1.0
0.5
0.7 1.0 1.3
n = 1n = 2n = 3n = 4
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Multistage Amplifiers
0
1.0
0.5
0.7 1.0 1.30
1.0
0.5
0.7 1.0 1.3
n = 1n = 2n = 3n = 4
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Multistage Amplifiers
0
1.0
0.5
0.7 1.0 1.30
1.0
0.5
0.7 1.0 1.3
n = 1n = 2n = 3n = 4
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
TRF Receiver – Disadvantages
• Bandwidth is inconsistent and varies with center frequency (due to skineffect)
• High-frequency, multi-stage amplifiers are susceptible to breaking intooscillations
• Gains are not uniform over a very wide frequency range
�
�With the development of the superheterodyne receiver, TRF receivers are
seldom used except for special-purpose, single-station receivers.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
TRF Receiver – Disadvantages
• Bandwidth is inconsistent and varies with center frequency (due to skineffect)
• High-frequency, multi-stage amplifiers are susceptible to breaking intooscillations
• Gains are not uniform over a very wide frequency range
�
�With the development of the superheterodyne receiver, TRF receivers are
seldom used except for special-purpose, single-station receivers.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
TRF Receiver – Disadvantages
• Bandwidth is inconsistent and varies with center frequency (due to skineffect)
• High-frequency, multi-stage amplifiers are susceptible to breaking intooscillations
• Gains are not uniform over a very wide frequency range
�
�With the development of the superheterodyne receiver, TRF receivers are
seldom used except for special-purpose, single-station receivers.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 305: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/305.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
TRF Receiver – Disadvantages
• Bandwidth is inconsistent and varies with center frequency (due to skineffect)
• High-frequency, multi-stage amplifiers are susceptible to breaking intooscillations
• Gains are not uniform over a very wide frequency range
�
�With the development of the superheterodyne receiver, TRF receivers are
seldom used except for special-purpose, single-station receivers.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
TRF Receiver – Disadvantages
• Bandwidth is inconsistent and varies with center frequency (due to skineffect)
• High-frequency, multi-stage amplifiers are susceptible to breaking intooscillations
• Gains are not uniform over a very wide frequency range
�
�With the development of the superheterodyne receiver, TRF receivers are
seldom used except for special-purpose, single-station receivers.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Superheterodyne AM Receiver
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Superheterodyne AM Receiver
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Edwin Howard Armstrong (1890 – 1954)
• Inventor of regenerative andsuper-regenerative circuits
• Invented superheterodynereceiver
• Armstrong was also the inventorof modern frequency modulation(FM) radio transmission
The most prolific and influential inventor in radio history
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Edwin Howard Armstrong (1890 – 1954)
• Inventor of regenerative andsuper-regenerative circuits
• Invented superheterodynereceiver
• Armstrong was also the inventorof modern frequency modulation(FM) radio transmission
The most prolific and influential inventor in radio history
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 311: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/311.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Edwin Howard Armstrong (1890 – 1954)
• Inventor of regenerative andsuper-regenerative circuits
• Invented superheterodynereceiver
• Armstrong was also the inventorof modern frequency modulation(FM) radio transmission
The most prolific and influential inventor in radio history
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 312: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/312.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Edwin Howard Armstrong (1890 – 1954)
• Inventor of regenerative andsuper-regenerative circuits
• Invented superheterodynereceiver
• Armstrong was also the inventorof modern frequency modulation(FM) radio transmission
The most prolific and influential inventor in radio history
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 313: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/313.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Edwin Howard Armstrong (1890 – 1954)
• Inventor of regenerative andsuper-regenerative circuits
• Invented superheterodynereceiver
• Armstrong was also the inventorof modern frequency modulation(FM) radio transmission
The most prolific and influential inventor in radio history
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 314: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/314.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Edwin Howard Armstrong (1890 – 1954)
• Inventor of regenerative andsuper-regenerative circuits
• Invented superheterodynereceiver
• Armstrong was also the inventorof modern frequency modulation(FM) radio transmission
The most prolific and influential inventor in radio history
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 315: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/315.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Superheterodyne AM Receiver
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Superheterodyne AM Receiver
RF amplifierwith bandpassfilters tubanleto desired ωc
Localoscillator
ωc+ωIF
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Superheterodyne AM Receiver
RF amplifierwith bandpassfilters tubanleto desired ωc
Localoscillator
ωc+ωIF
[A+m(t)] cos ωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Superheterodyne AM Receiver
RF amplifierwith bandpassfilters tubanleto desired ωc
Frequencyconverter(mixer)
Localoscillator
ωc+ωIF
[A+m(t)] cos ωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Superheterodyne AM Receiver
RF amplifierwith bandpassfilters tubanleto desired ωc
Frequencyconverter(mixer)
IFamplifier
Localoscillator
ωc+ωIF
[A+m(t)] cos ωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Superheterodyne AM Receiver
RF amplifierwith bandpassfilters tubanleto desired ωc
Frequencyconverter(mixer)
IFamplifier
Localoscillator
ωc+ωIF
[A+m(t)] cos ωct [A+m(t)] cos ωIFt
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Superheterodyne AM Receiver
RF amplifierwith bandpassfilters tubanleto desired ωc
Frequencyconverter(mixer)
IFamplifier Detector
Localoscillator
ωc+ωIF
[A+m(t)] cos ωct [A+m(t)] cos ωIFt
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Superheterodyne AM Receiver
RF amplifierwith bandpassfilters tubanleto desired ωc
Frequencyconverter(mixer)
IFamplifier Detector
Audioamplifier
Speaker
Localoscillator
ωc+ωIF
[A+m(t)] cos ωct [A+m(t)] cos ωIFt
fIF = 455 KHz
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Outline
1 Introduction
2 DSB-SC Modulation
3 Amplitude Modulation
4 Bandwidth Efficient Modulations
5 FDM
6 AM Receivers
7 Noise
8 Summary
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Noise in Baseband Systems
Inputm(t)
TransmitterST
Channel
Channel noisen(t)
ReceiverSi Ni,
So No,Output
so(t) no(t),
Sn(ω)
ω2πB-2πB
Assuming that the filters are ideal and channel is distortion-less,
No = 2ˆ B
0Sn (ω) df = 2
ˆ B
0
N2
df = NB. (26)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Noise in Baseband Systems
Inputm(t)
TransmitterST
Channel
Channel noisen(t)
ReceiverSi Ni,
So No,Output
so(t) no(t),
Sn(ω)
ω2πB-2πB
Assuming that the filters are ideal and channel is distortion-less,
No = 2ˆ B
0Sn (ω) df = 2
ˆ B
0
N2
df = NB. (26)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Noise in Baseband Systems
Inputm(t)
TransmitterST
Channel
Channel noisen(t)
ReceiverSi Ni,
So No,Output
so(t) no(t),
Sn(ω)
ω2πB-2πB
Assuming that the filters are ideal and channel is distortion-less,
No = 2ˆ B
0Sn (ω) df = 2
ˆ B
0
N2
df = NB. (26)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Noise in Baseband Systems
Inputm(t)
TransmitterST
Channel
Channel noisen(t)
ReceiverSi Ni,
So No,Output
so(t) no(t),
Sn(ω)
ω2πB-2πB
Assuming that the filters are ideal and channel is distortion-less,
No = 2ˆ B
0Sn (ω) df = 2
ˆ B
0
N2
df = NB. (26)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 328: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/328.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
SNR
So, SNR for baseband systems is given as
SNR =So
No=
SiNB
=m2
NB= γ. (27)
• SNR of 5 – 10 dB is barely intelligible• Telephone Quality : 25 – 30 dB• TV Quality : 45 – 55 dB
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
SNR
So, SNR for baseband systems is given as
SNR =So
No=
SiNB
=m2
NB= γ. (27)
• SNR of 5 – 10 dB is barely intelligible• Telephone Quality : 25 – 30 dB• TV Quality : 45 – 55 dB
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 330: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/330.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
SNR
So, SNR for baseband systems is given as
SNR =So
No=
SiNB
=m2
NB= γ. (27)
• SNR of 5 – 10 dB is barely intelligible• Telephone Quality : 25 – 30 dB• TV Quality : 45 – 55 dB
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 331: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/331.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
QAM – Revisited
Σ
m1(t)
m2(t)
m1(t)
m2(t)
cos ωct
−π/2 −π/2
2cos ωct
sin ωct 2sin ωct
Lowpassfilter
Lowpassfilterx1(t)
x2(t)
QAM signal
m1(t) cos ωct + m2(t) sinωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
QAM – Revisited
Σ
m1(t)
m2(t)
m1(t)
m2(t)
cos ωct
−π/2 −π/2
2cos ωct
sin ωct 2sin ωct
Lowpassfilter
Lowpassfilterx1(t)
x2(t)
QAM signal
m1(t) cos ωct + m2(t) sinωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Bandpass Noise Representation
ωωc−ωc
4πB
Sn(ω)
n (t) = nc (t) cos ωct + ns (t) sin ωct n2 = n2c = n2
s
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Bandpass Noise Representation
ωωc−ωc
4πB
Sn(ω)
n (t) = nc (t) cos ωct + ns (t) sin ωct n2 = n2c = n2
s
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Bandpass Noise Representation
ωωc−ωc
4πB
Sn(ω)
n (t) = nc (t) cos ωct + ns (t) sin ωct n2 = n2c = n2
s
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Bandpass Noise Representation
ωωc−ωc
4πB
Sn(ω)
ω2πB
Sns(ω)Snc(ω) or
-2πB
n (t) = nc (t) cos ωct + ns (t) sin ωct
n2 = n2c = n2
s
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Bandpass Noise Representation
ωωc−ωc
4πB
Sn(ω)
ω2πB
Sns(ω)Snc(ω) or
-2πB
n (t) = nc (t) cos ωct + ns (t) sin ωct n2 = n2c = n2
s
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Systems
m(t)
√2 cos ωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Systems
m(t)
√2 cos ωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Systems
m(t)
n(t)√2 cos ωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Systems
m(t)
Si Ni,
n(t)
Bandpassfilter
ωc + 2πB yi(t)
√2 cos ωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Systems
m(t)
Si Ni,
n(t)
Bandpassfilter
ωc + 2πB yi(t)
√2 cos ωct √2 cos ωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Systems
m(t)
Si Ni, So No,
n(t)
Bandpassfilter
ωc + 2πB
Basebandfilter
yi(t) yo(t)
√2 cos ωct √2 cos ωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Systems
m(t)
Si Ni, So No,
n(t)
Bandpassfilter
ωc + 2πB
Basebandfilter
yi(t) yo(t)
√2 cos ωct √2 cos ωct
Demodulator
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Systems
m(t)
Si Ni, So No,
n(t)
Bandpassfilter
ωc + 2πB
Basebandfilter
yi(t) yo(t)
√2 cos ωct √2 cos ωct
Demodulator
Receiver
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Systems
m(t)
Si Ni, So No,
n(t)
Bandpassfilter
ωc + 2πB
Basebandfilter
yi(t) yo(t)
√2 cos ωct √2 cos ωct
Demodulator
Receiver
yi =√
2m (t) cos ωct + n (t)
ST = Si = m2 (t)
Ni = 2NB
yo = m (t) +1√2
nc (t)
So = m2 (t)
N0 = NB
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Systems
m(t)
Si Ni, So No,
n(t)
Bandpassfilter
ωc + 2πB
Basebandfilter
yi(t) yo(t)
√2 cos ωct √2 cos ωct
Demodulator
Receiver
yi =√
2m (t) cos ωct + n (t)
ST = Si = m2 (t)
Ni = 2NB
yo = m (t) +1√2
nc (t)
So = m2 (t)
N0 = NB
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Systems
m(t)
Si Ni, So No,
n(t)
Bandpassfilter
ωc + 2πB
Basebandfilter
yi(t) yo(t)
√2 cos ωct √2 cos ωct
Demodulator
Receiver
yi =√
2m (t) cos ωct + n (t)
ST = Si = m2 (t)
Ni = 2NB
yo = m (t) +1√2
nc (t)
So = m2 (t)
N0 = NB
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
DSB-SC Systems
m(t)
Si Ni, So No,
n(t)
Bandpassfilter
ωc + 2πB
Basebandfilter
yi(t) yo(t)
√2 cos ωct √2 cos ωct
Demodulator
Receiver
yi =√
2m (t) cos ωct + n (t)
ST = Si = m2 (t)
Ni = 2NB
yo = m (t) +1√2
nc (t)
So = m2 (t)
N0 = NB
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
SSB-SC Systems
m(t)
2 cos ωct
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
SSB-SC Systems
m(t)
2 cos ωct
SSBfilter
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
SSB-SC Systems
n(t)
m(t)
2 cos ωct
SSBfilter
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
SSB-SC Systems
Si Ni,
n(t)
BandpassfilterLSB yi(t)
m(t)
2 cos ωct
SSBfilter
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
SSB-SC Systems
Si Ni,
n(t)
BandpassfilterLSB yi(t)
m(t)
2 cos ωct 2 cos ωct
SSBfilter
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
SSB-SC Systems
Si Ni, So No,
n(t)
BandpassfilterLSB
Basebandfilter
yi(t) yo(t)m(t)
2 cos ωct 2 cos ωct
SSBfilter
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
SSB-SC Systems
Si Ni, So No,
n(t)
BandpassfilterLSB
Basebandfilter
yi(t) yo(t)m(t)
2 cos ωct 2 cos ωct
Demodulator
SSBfilter
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
SSB-SC Systems
Si Ni, So No,
n(t)
BandpassfilterLSB
Basebandfilter
yi(t) yo(t)m(t)
2 cos ωct 2 cos ωct
Demodulator
Receiver
SSBfilter
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
SSB-SC Systems
Si Ni, So No,
n(t)
BandpassfilterLSB
Basebandfilter
yi(t) yo(t)m(t)
2 cos ωct 2 cos ωct
Demodulator
Receiver
SSBfilter
yi = [m (t) cos ωct∓mh (t) sin ωct]+n (t)
ST = Si = m2 (t)
Ni = NB
yo = m (t) + nc (t)
So = m2 (t)
N0 = NB
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
SSB-SC Systems
Si Ni, So No,
n(t)
BandpassfilterLSB
Basebandfilter
yi(t) yo(t)m(t)
2 cos ωct 2 cos ωct
Demodulator
Receiver
SSBfilter
yi = [m (t) cos ωct∓mh (t) sin ωct]+n (t)
ST = Si = m2 (t)
Ni = NB
yo = m (t) + nc (t)
So = m2 (t)
N0 = NB
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
SSB-SC Systems
Si Ni, So No,
n(t)
BandpassfilterLSB
Basebandfilter
yi(t) yo(t)m(t)
2 cos ωct 2 cos ωct
Demodulator
Receiver
SSBfilter
yi = [m (t) cos ωct∓mh (t) sin ωct]+n (t)
ST = Si = m2 (t)
Ni = NB
yo = m (t) + nc (t)
So = m2 (t)
N0 = NB
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
SSB-SC Systems
Si Ni, So No,
n(t)
BandpassfilterLSB
Basebandfilter
yi(t) yo(t)m(t)
2 cos ωct 2 cos ωct
Demodulator
Receiver
SSBfilter
yi = [m (t) cos ωct∓mh (t) sin ωct]+n (t)
ST = Si = m2 (t)
Ni = NB
yo = m (t) + nc (t)
So = m2 (t)
N0 = NB
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Systems – Synchronous Demodulation
Synchronous demodulation is identical to DSB-SC in every respect except forthe addition carrier. So the signal at the input of the receiver is
yi (t) =√
2 [A + m (t)] cos ωct + n (t) .
Hence, the desired signal power is
Si =(√
2)2 [A + m (t)]2
2= A2 + m2 (t) + 2Am (t) = A2 + m2 (t).
The output noise will be exactly the same as that of DSB-SC:
So = m2 (t)No = NB
So,
So
No=
m2 (t)NB
=A2 + m2 (t)NB
m2 (t)
A2 + m2 (t)=
(SiNB
)m2 (t)
A2 + m2 (t). (28)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Systems – Synchronous DemodulationSynchronous demodulation is identical to DSB-SC in every respect except forthe addition carrier. So the signal at the input of the receiver is
yi (t) =√
2 [A + m (t)] cos ωct + n (t) .
Hence, the desired signal power is
Si =(√
2)2 [A + m (t)]2
2= A2 + m2 (t) + 2Am (t) = A2 + m2 (t).
The output noise will be exactly the same as that of DSB-SC:
So = m2 (t)No = NB
So,
So
No=
m2 (t)NB
=A2 + m2 (t)NB
m2 (t)
A2 + m2 (t)=
(SiNB
)m2 (t)
A2 + m2 (t). (28)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 364: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/364.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Systems – Synchronous DemodulationSynchronous demodulation is identical to DSB-SC in every respect except forthe addition carrier. So the signal at the input of the receiver is
yi (t) =√
2 [A + m (t)] cos ωct + n (t) .
Hence, the desired signal power is
Si
=(√
2)2 [A + m (t)]2
2= A2 + m2 (t) + 2Am (t) = A2 + m2 (t).
The output noise will be exactly the same as that of DSB-SC:
So = m2 (t)No = NB
So,
So
No=
m2 (t)NB
=A2 + m2 (t)NB
m2 (t)
A2 + m2 (t)=
(SiNB
)m2 (t)
A2 + m2 (t). (28)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 365: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/365.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Systems – Synchronous DemodulationSynchronous demodulation is identical to DSB-SC in every respect except forthe addition carrier. So the signal at the input of the receiver is
yi (t) =√
2 [A + m (t)] cos ωct + n (t) .
Hence, the desired signal power is
Si =(√
2)2 [A + m (t)]2
2
= A2 + m2 (t) + 2Am (t) = A2 + m2 (t).
The output noise will be exactly the same as that of DSB-SC:
So = m2 (t)No = NB
So,
So
No=
m2 (t)NB
=A2 + m2 (t)NB
m2 (t)
A2 + m2 (t)=
(SiNB
)m2 (t)
A2 + m2 (t). (28)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 366: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/366.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Systems – Synchronous DemodulationSynchronous demodulation is identical to DSB-SC in every respect except forthe addition carrier. So the signal at the input of the receiver is
yi (t) =√
2 [A + m (t)] cos ωct + n (t) .
Hence, the desired signal power is
Si =(√
2)2 [A + m (t)]2
2= A2 + m2 (t) + 2Am (t)
= A2 + m2 (t).
The output noise will be exactly the same as that of DSB-SC:
So = m2 (t)No = NB
So,
So
No=
m2 (t)NB
=A2 + m2 (t)NB
m2 (t)
A2 + m2 (t)=
(SiNB
)m2 (t)
A2 + m2 (t). (28)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 367: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/367.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Systems – Synchronous DemodulationSynchronous demodulation is identical to DSB-SC in every respect except forthe addition carrier. So the signal at the input of the receiver is
yi (t) =√
2 [A + m (t)] cos ωct + n (t) .
Hence, the desired signal power is
Si =(√
2)2 [A + m (t)]2
2= A2 + m2 (t) + 2Am (t) = A2 + m2 (t).
The output noise will be exactly the same as that of DSB-SC:
So = m2 (t)No = NB
So,
So
No=
m2 (t)NB
=A2 + m2 (t)NB
m2 (t)
A2 + m2 (t)=
(SiNB
)m2 (t)
A2 + m2 (t). (28)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 368: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/368.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Systems – Synchronous DemodulationSynchronous demodulation is identical to DSB-SC in every respect except forthe addition carrier. So the signal at the input of the receiver is
yi (t) =√
2 [A + m (t)] cos ωct + n (t) .
Hence, the desired signal power is
Si =(√
2)2 [A + m (t)]2
2= A2 + m2 (t) + 2Am (t) = A2 + m2 (t).
The output noise will be exactly the same as that of DSB-SC:
So = m2 (t)No = NB
So,
So
No=
m2 (t)NB
=A2 + m2 (t)NB
m2 (t)
A2 + m2 (t)=
(SiNB
)m2 (t)
A2 + m2 (t). (28)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 369: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/369.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Systems – Synchronous DemodulationSynchronous demodulation is identical to DSB-SC in every respect except forthe addition carrier. So the signal at the input of the receiver is
yi (t) =√
2 [A + m (t)] cos ωct + n (t) .
Hence, the desired signal power is
Si =(√
2)2 [A + m (t)]2
2= A2 + m2 (t) + 2Am (t) = A2 + m2 (t).
The output noise will be exactly the same as that of DSB-SC:
So = m2 (t)No = NB
So,
So
No=
m2 (t)NB
=A2 + m2 (t)NB
m2 (t)
A2 + m2 (t)=
(SiNB
)m2 (t)
A2 + m2 (t). (28)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 370: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/370.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Systems – Synchronous DemodulationSynchronous demodulation is identical to DSB-SC in every respect except forthe addition carrier. So the signal at the input of the receiver is
yi (t) =√
2 [A + m (t)] cos ωct + n (t) .
Hence, the desired signal power is
Si =(√
2)2 [A + m (t)]2
2= A2 + m2 (t) + 2Am (t) = A2 + m2 (t).
The output noise will be exactly the same as that of DSB-SC:
So = m2 (t)No = NB
So,
So
No=
m2 (t)NB
=A2 + m2 (t)NB
m2 (t)
A2 + m2 (t)
=
(SiNB
)m2 (t)
A2 + m2 (t). (28)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 371: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/371.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Systems – Synchronous DemodulationSynchronous demodulation is identical to DSB-SC in every respect except forthe addition carrier. So the signal at the input of the receiver is
yi (t) =√
2 [A + m (t)] cos ωct + n (t) .
Hence, the desired signal power is
Si =(√
2)2 [A + m (t)]2
2= A2 + m2 (t) + 2Am (t) = A2 + m2 (t).
The output noise will be exactly the same as that of DSB-SC:
So = m2 (t)No = NB
So,
So
No=
m2 (t)NB
=A2 + m2 (t)NB
m2 (t)
A2 + m2 (t)=
(SiNB
)m2 (t)
A2 + m2 (t). (28)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 372: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/372.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Systems – Envelop Detection
In case of envelop detection, signal at the input of the receiver is
yi (t) = [A + m (t)] cos ωct + n (t)= [A + m (t) + nc (t)] cos ωct + ns (t) sin ωct. (29)
Hence, the desired signal power is
Si =[A + m (t)]2
2= A2 + m2 (t) + 2Am (t) =
A2 + m2 (t)2
. (30)
Since we are using envelop detection, output of the demodulator is given as
yo = Ei (t) =
√[A + m (t) + nc (t)]2 + n2
s (t). (31)
Depending upon whether A + m (t) � n (t) or A + m (t) � n (t), we can usedifferent approximations. We will discuss only small-noise noise case. Forfurther explanation, see B. P. Lathi’s book.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 373: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/373.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Systems – Envelop Detection
In case of envelop detection, signal at the input of the receiver is
yi (t) = [A + m (t)] cos ωct + n (t)= [A + m (t) + nc (t)] cos ωct + ns (t) sin ωct. (29)
Hence, the desired signal power is
Si =[A + m (t)]2
2= A2 + m2 (t) + 2Am (t) =
A2 + m2 (t)2
. (30)
Since we are using envelop detection, output of the demodulator is given as
yo = Ei (t) =
√[A + m (t) + nc (t)]2 + n2
s (t). (31)
Depending upon whether A + m (t) � n (t) or A + m (t) � n (t), we can usedifferent approximations. We will discuss only small-noise noise case. Forfurther explanation, see B. P. Lathi’s book.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 374: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/374.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Systems – Envelop Detection
In case of envelop detection, signal at the input of the receiver is
yi (t) = [A + m (t)] cos ωct + n (t)= [A + m (t) + nc (t)] cos ωct + ns (t) sin ωct. (29)
Hence, the desired signal power is
Si
=[A + m (t)]2
2= A2 + m2 (t) + 2Am (t) =
A2 + m2 (t)2
. (30)
Since we are using envelop detection, output of the demodulator is given as
yo = Ei (t) =
√[A + m (t) + nc (t)]2 + n2
s (t). (31)
Depending upon whether A + m (t) � n (t) or A + m (t) � n (t), we can usedifferent approximations. We will discuss only small-noise noise case. Forfurther explanation, see B. P. Lathi’s book.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 375: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/375.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Systems – Envelop Detection
In case of envelop detection, signal at the input of the receiver is
yi (t) = [A + m (t)] cos ωct + n (t)= [A + m (t) + nc (t)] cos ωct + ns (t) sin ωct. (29)
Hence, the desired signal power is
Si =[A + m (t)]2
2
= A2 + m2 (t) + 2Am (t) =A2 + m2 (t)
2. (30)
Since we are using envelop detection, output of the demodulator is given as
yo = Ei (t) =
√[A + m (t) + nc (t)]2 + n2
s (t). (31)
Depending upon whether A + m (t) � n (t) or A + m (t) � n (t), we can usedifferent approximations. We will discuss only small-noise noise case. Forfurther explanation, see B. P. Lathi’s book.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 376: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/376.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Systems – Envelop Detection
In case of envelop detection, signal at the input of the receiver is
yi (t) = [A + m (t)] cos ωct + n (t)= [A + m (t) + nc (t)] cos ωct + ns (t) sin ωct. (29)
Hence, the desired signal power is
Si =[A + m (t)]2
2= A2 + m2 (t) + 2Am (t)
=A2 + m2 (t)
2. (30)
Since we are using envelop detection, output of the demodulator is given as
yo = Ei (t) =
√[A + m (t) + nc (t)]2 + n2
s (t). (31)
Depending upon whether A + m (t) � n (t) or A + m (t) � n (t), we can usedifferent approximations. We will discuss only small-noise noise case. Forfurther explanation, see B. P. Lathi’s book.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 377: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/377.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Systems – Envelop Detection
In case of envelop detection, signal at the input of the receiver is
yi (t) = [A + m (t)] cos ωct + n (t)= [A + m (t) + nc (t)] cos ωct + ns (t) sin ωct. (29)
Hence, the desired signal power is
Si =[A + m (t)]2
2= A2 + m2 (t) + 2Am (t) =
A2 + m2 (t)2
. (30)
Since we are using envelop detection, output of the demodulator is given as
yo = Ei (t) =
√[A + m (t) + nc (t)]2 + n2
s (t). (31)
Depending upon whether A + m (t) � n (t) or A + m (t) � n (t), we can usedifferent approximations. We will discuss only small-noise noise case. Forfurther explanation, see B. P. Lathi’s book.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 378: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/378.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Systems – Envelop Detection
In case of envelop detection, signal at the input of the receiver is
yi (t) = [A + m (t)] cos ωct + n (t)= [A + m (t) + nc (t)] cos ωct + ns (t) sin ωct. (29)
Hence, the desired signal power is
Si =[A + m (t)]2
2= A2 + m2 (t) + 2Am (t) =
A2 + m2 (t)2
. (30)
Since we are using envelop detection, output of the demodulator is given as
yo
= Ei (t) =
√[A + m (t) + nc (t)]2 + n2
s (t). (31)
Depending upon whether A + m (t) � n (t) or A + m (t) � n (t), we can usedifferent approximations. We will discuss only small-noise noise case. Forfurther explanation, see B. P. Lathi’s book.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 379: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/379.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Systems – Envelop Detection
In case of envelop detection, signal at the input of the receiver is
yi (t) = [A + m (t)] cos ωct + n (t)= [A + m (t) + nc (t)] cos ωct + ns (t) sin ωct. (29)
Hence, the desired signal power is
Si =[A + m (t)]2
2= A2 + m2 (t) + 2Am (t) =
A2 + m2 (t)2
. (30)
Since we are using envelop detection, output of the demodulator is given as
yo = Ei (t)
=
√[A + m (t) + nc (t)]2 + n2
s (t). (31)
Depending upon whether A + m (t) � n (t) or A + m (t) � n (t), we can usedifferent approximations. We will discuss only small-noise noise case. Forfurther explanation, see B. P. Lathi’s book.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 380: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/380.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Systems – Envelop Detection
In case of envelop detection, signal at the input of the receiver is
yi (t) = [A + m (t)] cos ωct + n (t)= [A + m (t) + nc (t)] cos ωct + ns (t) sin ωct. (29)
Hence, the desired signal power is
Si =[A + m (t)]2
2= A2 + m2 (t) + 2Am (t) =
A2 + m2 (t)2
. (30)
Since we are using envelop detection, output of the demodulator is given as
yo = Ei (t) =
√[A + m (t) + nc (t)]2 + n2
s (t). (31)
Depending upon whether A + m (t) � n (t) or A + m (t) � n (t), we can usedifferent approximations. We will discuss only small-noise noise case. Forfurther explanation, see B. P. Lathi’s book.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 381: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/381.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Systems – Envelop Detection
In case of envelop detection, signal at the input of the receiver is
yi (t) = [A + m (t)] cos ωct + n (t)= [A + m (t) + nc (t)] cos ωct + ns (t) sin ωct. (29)
Hence, the desired signal power is
Si =[A + m (t)]2
2= A2 + m2 (t) + 2Am (t) =
A2 + m2 (t)2
. (30)
Since we are using envelop detection, output of the demodulator is given as
yo = Ei (t) =
√[A + m (t) + nc (t)]2 + n2
s (t). (31)
Depending upon whether A + m (t) � n (t) or A + m (t) � n (t), we can usedifferent approximations. We will discuss only small-noise noise case. Forfurther explanation, see B. P. Lathi’s book.
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 382: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/382.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Systems – Envelop Detection (Small Noise Case)
In case of envelop detection, signal at the input of the receiver is
yi (t) = [A + m (t)] cos ωct + n (t)= [A + m (t) + nc (t)] cos ωct + ns (t) sin ωct.
For small noise case, envelope Ei can be approximated as
yo = Ei (t) =√[A + m (t) + nc (t)]2 + n2
s (t) ≈ A + m (t) + nc (t) . (32)
ST = Si =A2 + m2 (t)
2
Ni = n2 (t) = 2NB
So = m2 (t)
N0 = 2NB
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 383: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/383.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Systems – Envelop Detection (Small Noise Case)
In case of envelop detection, signal at the input of the receiver is
yi (t) = [A + m (t)] cos ωct + n (t)= [A + m (t) + nc (t)] cos ωct + ns (t) sin ωct.
For small noise case, envelope Ei can be approximated as
yo = Ei (t) =√[A + m (t) + nc (t)]2 + n2
s (t) ≈ A + m (t) + nc (t) . (32)
ST = Si =A2 + m2 (t)
2
Ni = n2 (t) = 2NB
So = m2 (t)
N0 = 2NB
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 384: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/384.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Systems – Envelop Detection (Small Noise Case)
In case of envelop detection, signal at the input of the receiver is
yi (t) = [A + m (t)] cos ωct + n (t)= [A + m (t) + nc (t)] cos ωct + ns (t) sin ωct.
For small noise case, envelope Ei can be approximated as
yo = Ei (t) =√[A + m (t) + nc (t)]2 + n2
s (t) ≈ A + m (t) + nc (t) . (32)
ST = Si =A2 + m2 (t)
2
Ni = n2 (t) = 2NB
So = m2 (t)
N0 = 2NB
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 385: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/385.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Systems – Envelop Detection (Small Noise Case)
In case of envelop detection, signal at the input of the receiver is
yi (t) = [A + m (t)] cos ωct + n (t)= [A + m (t) + nc (t)] cos ωct + ns (t) sin ωct.
For small noise case, envelope Ei can be approximated as
yo = Ei (t) =√[A + m (t) + nc (t)]2 + n2
s (t) ≈ A + m (t) + nc (t) . (32)
ST = Si =A2 + m2 (t)
2
Ni = n2 (t) = 2NB
So = m2 (t)
N0 = 2NB
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
![Page 386: 4: Amplitude Modulation - ArraytoolIntroductionDSB-SC ModulationAmplitude ModulationBandwidth Efficient ModulationsFDMAM ReceiversNoiseSummary 4: Amplitude Modulation Y. Yoganandam,](https://reader033.vdocuments.mx/reader033/viewer/2022041718/5e4cf4e017f9be470e561510/html5/thumbnails/386.jpg)
Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Systems – Envelop Detection (Small Noise Case)
In case of envelop detection, signal at the input of the receiver is
yi (t) = [A + m (t)] cos ωct + n (t)= [A + m (t) + nc (t)] cos ωct + ns (t) sin ωct.
For small noise case, envelope Ei can be approximated as
yo = Ei (t) =√[A + m (t) + nc (t)]2 + n2
s (t) ≈ A + m (t) + nc (t) . (32)
ST = Si =A2 + m2 (t)
2
Ni = n2 (t) = 2NB
So = m2 (t)
N0 = 2NB
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Systems – Envelop Detection (Small Noise Case)
So, signal to noise ratio is given as
So
No=
m2
2NB=
m2
A2 + m2 (t)
A2 + m2 (t)2NB
=
(SiNB
)m2
A2 + m2 (t). (33)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
AM Systems – Envelop Detection (Small Noise Case)
So, signal to noise ratio is given as
So
No=
m2
2NB=
m2
A2 + m2 (t)
A2 + m2 (t)2NB
=
(SiNB
)m2
A2 + m2 (t). (33)
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad
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Introduction DSB-SC Modulation Amplitude Modulation Bandwidth Efficient Modulations FDM AM Receivers Noise Summary
Outline
1 Introduction
2 DSB-SC Modulation
3 Amplitude Modulation
4 Bandwidth Efficient Modulations
5 FDM
6 AM Receivers
7 Noise
8 Summary
4: Amplitude Modulation Communication Systems, Dept. of EEE, BITS Hyderabad