Class D Amplifiers (CDAs) : PWM-in-PWM-out CDA, Filterless Bang-Bang CDA, and high-frequency high-efficiency CDA for Envelope Tracking
This Ph.D. program pertains to investigations into the mechanisms and parameters affecting the non-idealities and power-efficiency of Class D Amplifiers (CDAs), and our ensuing novel circuit designs (and proposal of novel architectures) to mitigate the aforesaid. There are three specific CDA arch...
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Nanyang Technological University
2020
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sg-ntu-dr.10356-1365862023-07-04T17:21:27Z Class D Amplifiers (CDAs) : PWM-in-PWM-out CDA, Filterless Bang-Bang CDA, and high-frequency high-efficiency CDA for Envelope Tracking Kang, Yang Chang Joseph Sylvester School of Electrical and Electronic Engineering ejschang@ntu.edu.sg Engineering::Electrical and electronic engineering::Integrated circuits This Ph.D. program pertains to investigations into the mechanisms and parameters affecting the non-idealities and power-efficiency of Class D Amplifiers (CDAs), and our ensuing novel circuit designs (and proposal of novel architectures) to mitigate the aforesaid. There are three specific CDA architectures. The first is the PWM-In PWM-Out (PIPO) CDA, an emerging CDA whose input is PWM, hence highly compatible with digital signal processing. Our effort pertains to addressing its relatively high inherent non-linearities. The second is the Bang-Bang CDA, arguably the simplest CDA architecture, hence the CDA with the lowest hardware, and potentially the most power-efficient CDA. Our effort pertains to the design of a 3-state Bang-Bang CDA – to our knowledge the first 3-state (filterless) Bang-Bang CDA reported in literature – where we ascertain its fidelity and power-efficiency. The third is the high-frequency high-efficient CDA for the supply modulator of the Envelop Tracking (ET) Power Amplifier (PA) which serves as the power supply to a radio frequency (RF) PA. Our effort pertains to addressing the power-efficiency of the wideband PA. Doctor of Philosophy 2020-01-03T02:29:57Z 2020-01-03T02:29:57Z 2018 Thesis-Doctor of Philosophy Kang, Y. (2018). Class D Amplifiers (CDAs) : PWM-in-PWM-out CDA, Filterless Bang-Bang CDA, and high-frequency high-efficiency CDA for Envelope Tracking. Doctoral thesis, Nanyang Technological University, Singapore. https://hdl.handle.net/10356/136586 10.32657/10356/136586 en This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License (CC BY-NC 4.0). application/pdf Nanyang Technological University |
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Engineering::Electrical and electronic engineering::Integrated circuits |
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Engineering::Electrical and electronic engineering::Integrated circuits Kang, Yang Class D Amplifiers (CDAs) : PWM-in-PWM-out CDA, Filterless Bang-Bang CDA, and high-frequency high-efficiency CDA for Envelope Tracking |
| description |
This Ph.D. program pertains to investigations into the mechanisms and parameters
affecting the non-idealities and power-efficiency of Class D Amplifiers (CDAs), and
our ensuing novel circuit designs (and proposal of novel architectures) to mitigate
the aforesaid. There are three specific CDA architectures. The first is the PWM-In
PWM-Out (PIPO) CDA, an emerging CDA whose input is PWM, hence highly
compatible with digital signal processing. Our effort pertains to addressing its
relatively high inherent non-linearities. The second is the Bang-Bang CDA,
arguably the simplest CDA architecture, hence the CDA with the lowest hardware,
and potentially the most power-efficient CDA. Our effort pertains to the design of
a 3-state Bang-Bang CDA – to our knowledge the first 3-state (filterless) Bang-Bang
CDA reported in literature – where we ascertain its fidelity and power-efficiency.
The third is the high-frequency high-efficient CDA for the supply modulator of the
Envelop Tracking (ET) Power Amplifier (PA) which serves as the power supply to
a radio frequency (RF) PA. Our effort pertains to addressing the power-efficiency
of the wideband PA. |
| author2 |
Chang Joseph Sylvester |
| author_facet |
Chang Joseph Sylvester Kang, Yang |
| format |
Thesis-Doctor of Philosophy |
| author |
Kang, Yang |
| author_sort |
Kang, Yang |
| title |
Class D Amplifiers (CDAs) : PWM-in-PWM-out CDA, Filterless Bang-Bang CDA, and high-frequency high-efficiency CDA for Envelope Tracking |
| title_short |
Class D Amplifiers (CDAs) : PWM-in-PWM-out CDA, Filterless Bang-Bang CDA, and high-frequency high-efficiency CDA for Envelope Tracking |
| title_full |
Class D Amplifiers (CDAs) : PWM-in-PWM-out CDA, Filterless Bang-Bang CDA, and high-frequency high-efficiency CDA for Envelope Tracking |
| title_fullStr |
Class D Amplifiers (CDAs) : PWM-in-PWM-out CDA, Filterless Bang-Bang CDA, and high-frequency high-efficiency CDA for Envelope Tracking |
| title_full_unstemmed |
Class D Amplifiers (CDAs) : PWM-in-PWM-out CDA, Filterless Bang-Bang CDA, and high-frequency high-efficiency CDA for Envelope Tracking |
| title_sort |
class d amplifiers (cdas) : pwm-in-pwm-out cda, filterless bang-bang cda, and high-frequency high-efficiency cda for envelope tracking |
| publisher |
Nanyang Technological University |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/136586 |
| _version_ |
1772826372968808448 |