MM-Wave Silicon Power Amplifiers and Transmitters
Herausgeber: Hashemi, Hossein; Raman, Sanjay
MM-Wave Silicon Power Amplifiers and Transmitters
Herausgeber: Hashemi, Hossein; Raman, Sanjay
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Build high-performance, energy-efficient circuits with this cutting-edge guide to designing, modeling, analysing, implementing and testing new mm-wave systems.
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Build high-performance, energy-efficient circuits with this cutting-edge guide to designing, modeling, analysing, implementing and testing new mm-wave systems.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 495
- Erscheinungstermin: 4. April 2016
- Englisch
- Abmessung: 254mm x 180mm x 30mm
- Gewicht: 1081g
- ISBN-13: 9781107055865
- ISBN-10: 1107055865
- Artikelnr.: 42801078
- Verlag: Cambridge University Press
- Seitenzahl: 495
- Erscheinungstermin: 4. April 2016
- Englisch
- Abmessung: 254mm x 180mm x 30mm
- Gewicht: 1081g
- ISBN-13: 9781107055865
- ISBN-10: 1107055865
- Artikelnr.: 42801078
1. Silicon
based mm
wave transmitters: motivation and state
of
the
art Hossein Hashemi and Sanjay Raman; 2. Characteristics, performance, modelling, and reliability of SiGe HBT technologies for mm
wave power amplifiers David Harame, Vibhor Jain and Renata Camillo Castillo; 3. Characteristics, performance, modelling, and reliability of CMOS technologies for mm
wave power amplifiers Antonio Scuderi and Egidio Ragonese; 4. Linear
mode mm
wave silicon power amplifiers James Buckwalter; 5. Switching
mode mm
wave silicon power amplifiers Harish Krishnaswamy, Anandaroop Chakarbarti, Kunal Datta and Hossein Hashemi; 6. Stacked mm
wave amplifiers Peter Asbeck and Harish Krishnaswamy; 7. On
chip power combining techniques for mm
wave silicon power amplifiers Jeng
Han Tsai, Jin
Fu Yeh and Tian
Wei Huang; 8. Out
phasing mm
wave silicon transmitters Patrick Reynaert and Dixian Zhao; 9. Digital mm
wave silicon transmitters Ali Niknejad and Sorin Voinigescu; 10. System
on
a
chip mm
wave silicon transmitters Arun Natarajan and Brian Floyd; 11. Self
healing for mm
wave power amplifiers Ali Hajimiri, Steve Bowers, Kaushik Sengupta and Kaushik Dasgupta.
based mm
wave transmitters: motivation and state
of
the
art Hossein Hashemi and Sanjay Raman; 2. Characteristics, performance, modelling, and reliability of SiGe HBT technologies for mm
wave power amplifiers David Harame, Vibhor Jain and Renata Camillo Castillo; 3. Characteristics, performance, modelling, and reliability of CMOS technologies for mm
wave power amplifiers Antonio Scuderi and Egidio Ragonese; 4. Linear
mode mm
wave silicon power amplifiers James Buckwalter; 5. Switching
mode mm
wave silicon power amplifiers Harish Krishnaswamy, Anandaroop Chakarbarti, Kunal Datta and Hossein Hashemi; 6. Stacked mm
wave amplifiers Peter Asbeck and Harish Krishnaswamy; 7. On
chip power combining techniques for mm
wave silicon power amplifiers Jeng
Han Tsai, Jin
Fu Yeh and Tian
Wei Huang; 8. Out
phasing mm
wave silicon transmitters Patrick Reynaert and Dixian Zhao; 9. Digital mm
wave silicon transmitters Ali Niknejad and Sorin Voinigescu; 10. System
on
a
chip mm
wave silicon transmitters Arun Natarajan and Brian Floyd; 11. Self
healing for mm
wave power amplifiers Ali Hajimiri, Steve Bowers, Kaushik Sengupta and Kaushik Dasgupta.
1. Silicon
based mm
wave transmitters: motivation and state
of
the
art Hossein Hashemi and Sanjay Raman; 2. Characteristics, performance, modelling, and reliability of SiGe HBT technologies for mm
wave power amplifiers David Harame, Vibhor Jain and Renata Camillo Castillo; 3. Characteristics, performance, modelling, and reliability of CMOS technologies for mm
wave power amplifiers Antonio Scuderi and Egidio Ragonese; 4. Linear
mode mm
wave silicon power amplifiers James Buckwalter; 5. Switching
mode mm
wave silicon power amplifiers Harish Krishnaswamy, Anandaroop Chakarbarti, Kunal Datta and Hossein Hashemi; 6. Stacked mm
wave amplifiers Peter Asbeck and Harish Krishnaswamy; 7. On
chip power combining techniques for mm
wave silicon power amplifiers Jeng
Han Tsai, Jin
Fu Yeh and Tian
Wei Huang; 8. Out
phasing mm
wave silicon transmitters Patrick Reynaert and Dixian Zhao; 9. Digital mm
wave silicon transmitters Ali Niknejad and Sorin Voinigescu; 10. System
on
a
chip mm
wave silicon transmitters Arun Natarajan and Brian Floyd; 11. Self
healing for mm
wave power amplifiers Ali Hajimiri, Steve Bowers, Kaushik Sengupta and Kaushik Dasgupta.
based mm
wave transmitters: motivation and state
of
the
art Hossein Hashemi and Sanjay Raman; 2. Characteristics, performance, modelling, and reliability of SiGe HBT technologies for mm
wave power amplifiers David Harame, Vibhor Jain and Renata Camillo Castillo; 3. Characteristics, performance, modelling, and reliability of CMOS technologies for mm
wave power amplifiers Antonio Scuderi and Egidio Ragonese; 4. Linear
mode mm
wave silicon power amplifiers James Buckwalter; 5. Switching
mode mm
wave silicon power amplifiers Harish Krishnaswamy, Anandaroop Chakarbarti, Kunal Datta and Hossein Hashemi; 6. Stacked mm
wave amplifiers Peter Asbeck and Harish Krishnaswamy; 7. On
chip power combining techniques for mm
wave silicon power amplifiers Jeng
Han Tsai, Jin
Fu Yeh and Tian
Wei Huang; 8. Out
phasing mm
wave silicon transmitters Patrick Reynaert and Dixian Zhao; 9. Digital mm
wave silicon transmitters Ali Niknejad and Sorin Voinigescu; 10. System
on
a
chip mm
wave silicon transmitters Arun Natarajan and Brian Floyd; 11. Self
healing for mm
wave power amplifiers Ali Hajimiri, Steve Bowers, Kaushik Sengupta and Kaushik Dasgupta.