The system shown in Figure P-3.19 is used to generate an AM signal. The modulating signal m(t) has zero mean and its maximum (absolute) value is Am = max |m()1. The nonlinear device has a input–output characteristic y(e) = ax(t) + bx²(t) 1. Express y(#) in terms of the modulating signal m(t) and the carrier e(t) cos 2n fet. 2. What is the modulation index? 3. Specify the filter characteristics that yield an AM signal at its output. Nonlinear memoryless system Linear filter AM signal Figure P-3.19
The system shown in Figure P-3.19 is used to generate an AM signal. The modulating signal m(t) has zero mean and its maximum (absolute) value is Am = max |m()1. The nonlinear device has a input–output characteristic y(e) = ax(t) + bx²(t) 1. Express y(#) in terms of the modulating signal m(t) and the carrier e(t) cos 2n fet. 2. What is the modulation index? 3. Specify the filter characteristics that yield an AM signal at its output. Nonlinear memoryless system Linear filter AM signal Figure P-3.19
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Transcribed Image Text:The system shown in Figure P-3.19 is used to generate an AM signal. The
modulating signal m(t) has zero mean and its maximum (absolute) value is
Am = max |m()1. The nonlinear device has a input–output characteristic
y(e) = ax(t) + bx²(t)
1. Express y(#) in terms of the modulating signal m(t) and the carrier c(t).
cos 2n fet.
2. What is the modulation index?
3. Specify the filter characteristics that yield an AM signal at its output.
Nonlinear
memoryless
system
Linear
filter
AM signal
Figure P-3.19
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