Glenn F Engen
Microwave Circuit Theory and Foundations of Microwave
Glenn F Engen
Microwave Circuit Theory and Foundations of Microwave
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This book provides a thorough understanding of the microwave circuit model and its limitations.
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This book provides a thorough understanding of the microwave circuit model and its limitations.
Produktdetails
- Produktdetails
- Verlag: Institution of Engineering & Technology
- Seitenzahl: 256
- Erscheinungstermin: 30. Juni 1992
- Englisch
- Abmessung: 240mm x 161mm x 18mm
- Gewicht: 554g
- ISBN-13: 9780863412875
- ISBN-10: 0863412874
- Artikelnr.: 35731511
- Verlag: Institution of Engineering & Technology
- Seitenzahl: 256
- Erscheinungstermin: 30. Juni 1992
- Englisch
- Abmessung: 240mm x 161mm x 18mm
- Gewicht: 554g
- ISBN-13: 9780863412875
- ISBN-10: 0863412874
- Artikelnr.: 35731511
During his tenure of more than 30 years at the National Bureau of Standards, Glenn F. Engen has published over forty papers in the field of microwave metrology. His contributions to the art have been recognised by Department of Commerce Gold and Silver Medals, the NBS Applied Research Award, the (Instrumentation and Measurement) Society Award, the Woodington Award for Professionalism in Metrology, the IEEE membership rank of Fellow and the ARFTG Automated Measurement Career Award.
Chapter 1: The world of microwaves
Chapter 2: Foundations of microwave circuit theory
Chapter 3: Elementary boundary conditions
Chapter 4: Multi-port boundary conditions
Chapter 5: Elementary two-port applications
Chapter 6: Amplitude stabilisation and multi-channel isolation
Chapter 7: The measurement problem at microwave frequencies
Chapter 8: The fundamental equationof microwave metrology
Chapter 9: The linear fractional transform
Chapter 10: The slotted line technique of impedance measurement
Chapter 11: Attenuation measurement
Chapter 12: The microwave reflectometer
Chapter 13: Precision power measurement
Chapter 14: Power meter applications
Chapter 15: Power equation methods
Chapter 16: The automatic network analyser
Chapter 17: The 'Six-port' network analyser
Chapter 18: Adapter evaluation techniques
Chapter 19: Noise in communication systems
Chapter 20: Noise standards and radiometry
Chapter 21: A scattering description ofAmplifier noise
Chapter 2: Foundations of microwave circuit theory
Chapter 3: Elementary boundary conditions
Chapter 4: Multi-port boundary conditions
Chapter 5: Elementary two-port applications
Chapter 6: Amplitude stabilisation and multi-channel isolation
Chapter 7: The measurement problem at microwave frequencies
Chapter 8: The fundamental equationof microwave metrology
Chapter 9: The linear fractional transform
Chapter 10: The slotted line technique of impedance measurement
Chapter 11: Attenuation measurement
Chapter 12: The microwave reflectometer
Chapter 13: Precision power measurement
Chapter 14: Power meter applications
Chapter 15: Power equation methods
Chapter 16: The automatic network analyser
Chapter 17: The 'Six-port' network analyser
Chapter 18: Adapter evaluation techniques
Chapter 19: Noise in communication systems
Chapter 20: Noise standards and radiometry
Chapter 21: A scattering description ofAmplifier noise
Chapter 1: The world of microwaves
Chapter 2: Foundations of microwave circuit theory
Chapter 3: Elementary boundary conditions
Chapter 4: Multi-port boundary conditions
Chapter 5: Elementary two-port applications
Chapter 6: Amplitude stabilisation and multi-channel isolation
Chapter 7: The measurement problem at microwave frequencies
Chapter 8: The fundamental equationof microwave metrology
Chapter 9: The linear fractional transform
Chapter 10: The slotted line technique of impedance measurement
Chapter 11: Attenuation measurement
Chapter 12: The microwave reflectometer
Chapter 13: Precision power measurement
Chapter 14: Power meter applications
Chapter 15: Power equation methods
Chapter 16: The automatic network analyser
Chapter 17: The 'Six-port' network analyser
Chapter 18: Adapter evaluation techniques
Chapter 19: Noise in communication systems
Chapter 20: Noise standards and radiometry
Chapter 21: A scattering description ofAmplifier noise
Chapter 2: Foundations of microwave circuit theory
Chapter 3: Elementary boundary conditions
Chapter 4: Multi-port boundary conditions
Chapter 5: Elementary two-port applications
Chapter 6: Amplitude stabilisation and multi-channel isolation
Chapter 7: The measurement problem at microwave frequencies
Chapter 8: The fundamental equationof microwave metrology
Chapter 9: The linear fractional transform
Chapter 10: The slotted line technique of impedance measurement
Chapter 11: Attenuation measurement
Chapter 12: The microwave reflectometer
Chapter 13: Precision power measurement
Chapter 14: Power meter applications
Chapter 15: Power equation methods
Chapter 16: The automatic network analyser
Chapter 17: The 'Six-port' network analyser
Chapter 18: Adapter evaluation techniques
Chapter 19: Noise in communication systems
Chapter 20: Noise standards and radiometry
Chapter 21: A scattering description ofAmplifier noise