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· 제목 : Secrets of Rf Circuit Design (Paperback, 3rd) 
· 분류 : 외국도서 > 기술공학 > 기술공학 > 전자공학 > 회로
· ISBN : 9780071370677
· 쪽수 : 528쪽
· 분류 : 외국도서 > 기술공학 > 기술공학 > 전자공학 > 회로
· ISBN : 9780071370677
· 쪽수 : 528쪽
목차
Chapter 1: Introduction to RF electronics.
Chapter 2: RF components and tuned circuits.
Chapter 3: Variable capacitors in RF circuits.
Chapter 4: Winding your own coils.
Chapter 5: Radio receivers: Theory and projects.
Chapter 6: Direct-conversion radio receivers.
Chapter 7: RF amplifier and preselector circuits.
Chapter 8: Building IF amplifiers.
Chapter 9: Interpreting radio receiver specifications.
Chapter 10: Building signal-generator and oscillator circuits.
Chapter 11: RF directional couplers.
Chapter 12: The RF hybrid coupler.
Chapter 13: Build simple VLF radio receivers.
Chapter 14: What's that mess coming from my receiver?
Filtering circuits against EMI.
Chapter 15: Measuring inductors and capacitors at RF frequencies.
Chapter 16: Building and using the RF noise bridge.
Chapter 17: Vectors for RF circuits.
Chapter 18: Impedance matching: Methods and circuits.
Chapter 19: Using the double-balanced mixer (DBM).
Chapter 20: PIN diodes and their uses.
Chapter 21: UHF and microwave diodes, transistors, and integrated circuits.
Chapter 22: LC RF filter circuits.
Chapter 23: Time-domain reflectometry on a budget.
Chapter 24: Solving frequency drift problems.
Chapter 25: The Smith chart.
Chapter 26: Detector and demodulator circuits.
Chapter 3: Variable capacitors in RF circuits.
Chapter 4: Winding your own coils.
Chapter 5: Radio receivers: Theory and projects.
Chapter 6: Direct-conversion radio receivers.
Chapter 7: RF amplifier and preselector circuits.
Chapter 8: Building IF amplifiers.
Chapter 9: Interpreting radio receiver specifications.
Chapter 10: Building signal-generator and oscillator circuits.
Chapter 11: RF directional couplers.
Chapter 12: The RF hybrid coupler.
Chapter 13: Build simple VLF radio receivers.
Chapter 14: What's that mess coming from my receiver?
Filtering circuits against EMI.
Chapter 15: Measuring inductors and capacitors at RF frequencies.
Chapter 16: Building and using the RF noise bridge.
Chapter 17: Vectors for RF circuits.
Chapter 18: Impedance matching: Methods and circuits.
Chapter 19: Using the double-balanced mixer (DBM).
Chapter 20: PIN diodes and their uses.
Chapter 21: UHF and microwave diodes, transistors, and integrated circuits.
Chapter 22: LC RF filter circuits.
Chapter 23: Time-domain reflectometry on a budget.
Chapter 24: Solving frequency drift problems.
Chapter 25: The Smith chart.
Chapter 26: Detector and demodulator circuits.
Chapter 5: Radio receivers: Theory and projects.
Chapter 6: Direct-conversion radio receivers.
Chapter 7: RF amplifier and preselector circuits.
Chapter 8: Building IF amplifiers.
Chapter 9: Interpreting radio receiver specifications.
Chapter 10: Building signal-generator and oscillator circuits.
Chapter 11: RF directional couplers.
Chapter 12: The RF hybrid coupler.
Chapter 13: Build simple VLF radio receivers.
Chapter 14: What's that mess coming from my receiver?
Filtering circuits against EMI.
Chapter 15: Measuring inductors and capacitors at RF frequencies.
Chapter 16: Building and using the RF noise bridge.
Chapter 17: Vectors for RF circuits.
Chapter 18: Impedance matching: Methods and circuits.
Chapter 19: Using the double-balanced mixer (DBM).
Chapter 20: PIN diodes and their uses.
Chapter 21: UHF and microwave diodes, transistors, and integrated circuits.
Chapter 22: LC RF filter circuits.
Chapter 23: Time-domain reflectometry on a budget.
Chapter 24: Solving frequency drift problems.
Chapter 25: The Smith chart.
Chapter 26: Detector and demodulator circuits.
Chapter 7: RF amplifier and preselector circuits.
Chapter 8: Building IF amplifiers.
Chapter 9: Interpreting radio receiver specifications.
Chapter 10: Building signal-generator and oscillator circuits.
Chapter 11: RF directional couplers.
Chapter 12: The RF hybrid coupler.
Chapter 13: Build simple VLF radio receivers.
Chapter 14: What's that mess coming from my receiver?
Filtering circuits against EMI.
Chapter 15: Measuring inductors and capacitors at RF frequencies.
Chapter 16: Building and using the RF noise bridge.
Chapter 17: Vectors for RF circuits.
Chapter 18: Impedance matching: Methods and circuits.
Chapter 19: Using the double-balanced mixer (DBM).
Chapter 20: PIN diodes and their uses.
Chapter 21: UHF and microwave diodes, transistors, and integrated circuits.
Chapter 22: LC RF filter circuits.
Chapter 23: Time-domain reflectometry on a budget.
Chapter 24: Solving frequency drift problems.
Chapter 25: The Smith chart.
Chapter 26: Detector and demodulator circuits.
Chapter 9: Interpreting radio receiver specifications.
Chapter 10: Building signal-generator and oscillator circuits.
Chapter 11: RF directional couplers.
Chapter 12: The RF hybrid coupler.
Chapter 13: Build simple VLF radio receivers.
Chapter 14: What's that mess coming from my receiver?
Filtering circuits against EMI.
Chapter 15: Measuring inductors and capacitors at RF frequencies.
Chapter 16: Building and using the RF noise bridge.
Chapter 17: Vectors for RF circuits.
Chapter 18: Impedance matching: Methods and circuits.
Chapter 19: Using the double-balanced mixer (DBM).
Chapter 20: PIN diodes and their uses.
Chapter 21: UHF and microwave diodes, transistors, and integrated circuits.
Chapter 22: LC RF filter circuits.
Chapter 23: Time-domain reflectometry on a budget.
Chapter 24: Solving frequency drift problems.
Chapter 25: The Smith chart.
Chapter 26: Detector and demodulator circuits.
Chapter 11: RF directional couplers.
Chapter 12: The RF hybrid coupler.
Chapter 13: Build simple VLF radio receivers.
Chapter 14: What's that mess coming from my receiver?
Filtering circuits against EMI.
Chapter 15: Measuring inductors and capacitors at RF frequencies.
Chapter 16: Building and using the RF noise bridge.
Chapter 17: Vectors for RF circuits.
Chapter 18: Impedance matching: Methods and circuits.
Chapter 19: Using the double-balanced mixer (DBM).
Chapter 20: PIN diodes and their uses.
Chapter 21: UHF and microwave diodes, transistors, and integrated circuits.
Chapter 22: LC RF filter circuits.
Chapter 23: Time-domain reflectometry on a budget.
Chapter 24: Solving frequency drift problems.
Chapter 25: The Smith chart.
Chapter 26: Detector and demodulator circuits.
Chapter 13: Build simple VLF radio receivers.
Chapter 14: What's that mess coming from my receiver?
Filtering circuits against EMI.
Chapter 15: Measuring inductors and capacitors at RF frequencies.
Chapter 16: Building and using the RF noise bridge.
Chapter 17: Vectors for RF circuits.
Chapter 18: Impedance matching: Methods and circuits.
Chapter 19: Using the double-balanced mixer (DBM).
Chapter 20: PIN diodes and their uses.
Chapter 21: UHF and microwave diodes, transistors, and integrated circuits.
Chapter 22: LC RF filter circuits.
Chapter 23: Time-domain reflectometry on a budget.
Chapter 24: Solving frequency drift problems.
Chapter 25: The Smith chart.
Chapter 26: Detector and demodulator circuits.
Filtering circuits against EMI.
Chapter 15: Measuring inductors and capacitors at RF frequencies.
Chapter 16: Building and using the RF noise bridge.
Chapter 17: Vectors for RF circuits.
Chapter 18: Impedance matching: Methods and circuits.
Chapter 19: Using the double-balanced mixer (DBM).
Chapter 20: PIN diodes and their uses.
Chapter 21: UHF and microwave diodes, transistors, and integrated circuits.
Chapter 22: LC RF filter circuits.
Chapter 23: Time-domain reflectometry on a budget.
Chapter 24: Solving frequency drift problems.
Chapter 25: The Smith chart.
Chapter 26: Detector and demodulator circuits.
Chapter 16: Building and using the RF noise bridge.
Chapter 17: Vectors for RF circuits.
Chapter 18: Impedance matching: Methods and circuits.
Chapter 19: Using the double-balanced mixer (DBM).
Chapter 20: PIN diodes and their uses.
Chapter 21: UHF and microwave diodes, transistors, and integrated circuits.
Chapter 22: LC RF filter circuits.
Chapter 23: Time-domain reflectometry on a budget.
Chapter 24: Solving frequency drift problems.
Chapter 25: The Smith chart.
Chapter 26: Detector and demodulator circuits.
Chapter 18: Impedance matching: Methods and circuits.
Chapter 19: Using the double-balanced mixer (DBM).
Chapter 20: PIN diodes and their uses.
Chapter 21: UHF and microwave diodes, transistors, and integrated circuits.
Chapter 22: LC RF filter circuits.
Chapter 23: Time-domain reflectometry on a budget.
Chapter 24: Solving frequency drift problems.
Chapter 25: The Smith chart.
Chapter 26: Detector and demodulator circuits.
Chapter 20: PIN diodes and their uses.
Chapter 21: UHF and microwave diodes, transistors, and integrated circuits.
Chapter 22: LC RF filter circuits.
Chapter 23: Time-domain reflectometry on a budget.
Chapter 24: Solving frequency drift problems.
Chapter 25: The Smith chart.
Chapter 26: Detector and demodulator circuits.
Chapter 22: LC RF filter circuits.
Chapter 23: Time-domain reflectometry on a budget.
Chapter 24: Solving frequency drift problems.
Chapter 25: The Smith chart.
Chapter 26: Detector and demodulator circuits.
Chapter 24: Solving frequency drift problems.
Chapter 25: The Smith chart.
Chapter 26: Detector and demodulator circuits.
Chapter 26: Detector and demodulator circuits.
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