Compact Ku-band transmitter design for satellite communication applications : from system analysis to hardware implementation / Chang-Ho Lee, Joy Laskar.

Compact Ku-band Transmitter Design for Satellite Communication Applications reviews approaches to and topologies of Ku-band transmitters. The advantages and disadvantages of these transmitters are explored along with critical design criteria necessary to enhance system performance. The design and im...

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Bibliographic Details
Main Author: Lee, Chang-Ho
Other Authors: Laskar, Joy
Format: eBook
Language:English
Published: Boston : Kluwer Academic Publishers, ©2002.
Subjects:
Online Access:Click for online access
Table of Contents:
  • Cover
  • Table of Contents
  • PREFACE
  • 1. INTRODUCTION
  • 2. KU-BAND TRANSMITTER ARCHITECTURE
  • 2.1 DESIGN CRITERIA
  • 2.2 UP-CONVERSION TOPOLOGIES
  • 3. TRANSMITTER SYSTEM SIMULATION MODEL
  • 3.1 INTRODUCTION
  • 3.2 SYSTEM MODEL DEVELOPMENT
  • 3.3 TRANSMITTER MODULE IMPLEMENTATION PROCEDURE
  • 4. REVIEW OF KU-BAND MIXERS
  • 4.1 MIXER DESIGN PRINCIPLES
  • 4.2 MIXER PERFORMANCE PARAMETERS
  • 4.3 DEVICE TECHNOLOGIES FOR KU-BAND MIXER
  • 4.4 KU-BAND MIXER TOPOLOGIES
  • 4.5 COMPARISON OF KU-BANDMIXER
  • 4.6 CONCLUSIONS
  • 5. REVIEW OF KU-B AND VCOs
  • 5.1 OSCILLATOR DESIGN PRINCIPLES
  • 5.2 VCO DESIGN PRINCIPLES
  • 5.3 VCO PERFORMANCE PARAMETERS
  • 5.4 KU-BAND VCO MMIC
  • 5.5 KU-BAND GAAS MESFET VCO DESIGN
  • 5.6 KU-BAND ALGAAS/GAAS HBT VCO
  • 5.7 CONCLUSIONS
  • 6. TRANSMITTER MMIC FOR SATELLITE COMMUNICATIONS APPLICATIONS
  • 6.1 INTRODUCTION
  • 6.2 TRANSMITTER MMIC DESIGN CRITERIA
  • 6.3 DUAL GATE MIXER
  • 6.4 VOLTAGE CONTROLLED OSCILLATOR
  • 6.5 IF AMPLIFIER MMIC AND RF AMPLIFIER MMIC
  • 6.6 DRIVER AMPLIFIER MMIC
  • 6.7 POWER AMPLIFIER DESIGN
  • 6.8 CONCLUSIONS
  • 7. TRANSMITTER MODULE DESIGN
  • 7.1 INTRODUCTION
  • 7.2 STRIP LINE BAND PASS FILTER
  • 7.3 MODULE DESIGN
  • 7.4 MODULE MEASUREMENT RESULTS
  • 7.5 CONCLUSION
  • 8. CONCLUSION
  • BIBLIOGRAPHY.