Design a wideband FM transmitter to achieve an output carrier frequency of fo = 1.7 GHz, and an output frequency deviation of Afo = 15 kHz using heterodyning, frequency multiplication, and bandpass filter operations. At the front-end of the transmitter you have a narrowband FM modulator with a carrier frequency of fe = 85 MHz, and a frequency deviation of Af; = 150 Hz. The input message waveform has a bandwidth of W = 15 kHz. For this system specifications: 1. For each stage of the design tabulate the ß, carrier frequency, frequency deviation, and Carson bandwidth of the corresponding waveform 2. Specify the center-frequencies and the bandwidths of the BPF's involved. 3. Determine the implementation of the frequency multiplication and het- erodyning operations, specifying the components involved and the block diagram for each component.

Design a wideband FM transmitter to achieve an output carrier frequency of fo = 1.7 GHz, and an output frequency deviation of Afo = 15 kHz using heterodyning, frequency multiplication, and bandpass filter operations. At the front-end of the transmitter you have a narrowband FM modulator with a carrier frequency of fe = 85 MHz, and a frequency deviation of Af; = 150 Hz. The input message waveform has a bandwidth of W = 15 kHz. For this system specifications: 1. For each stage of the design tabulate the ß, carrier frequency, frequency deviation, and Carson bandwidth of the corresponding waveform 2. Specify the center-frequencies and the bandwidths of the BPF's involved. 3. Determine the implementation of the frequency multiplication and het- erodyning operations, specifying the components involved and the block diagram for each component.

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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