Analysis and design of analogue class D amplifier output stages
It is well established that Class D audio amplifiers have higher power efficiency compared to classical linear amplifiers (Class A, Class B and Class AB) due to the fact that the transistors in their output stage operate either in the cut-off region or in the triode region. As the output stage typic...
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sg-ntu-dr.10356-133312023-07-04T17:00:39Z Analysis and design of analogue class D amplifier output stages Kwek, Lawrence Boon Kheng Chang Joseph Sylvester School of Electrical and Electronic Engineering DRNTU::Engineering::Electrical and electronic engineering::Electronic circuits It is well established that Class D audio amplifiers have higher power efficiency compared to classical linear amplifiers (Class A, Class B and Class AB) due to the fact that the transistors in their output stage operate either in the cut-off region or in the triode region. As the output stage typically dissipates the highest power of all circuit blocks in audio amplifiers, the overall power efficiency of amplifiers largely depends on the design of the output stage. The optimization of the output stage based on CMOS (embodying the p-channel-cum-nchannel inverter) has been reported in literature. These output stages are limited only to low voltage (~5V) applications due to the low breakdown voltage of CMOS. In this dissertation, we investigate the power dissipation mechanisms of the High Voltage MOS (HVMOS) output stage in half bridge configuration (the half bridge can be easily extended to the full bridge) and the Double-diffused MOS (DMOS) output stage in full bridge configuration, and apply protection circuits to the output stages for higher voltage (~20V) applications. We derive analytical expressions to determine their power efficiencies and establish a methodology to optimize the channel width of the output stages for optimum power efficiency. We also propose a small non-overlapping logic circuit to reduce the possibility of short-circuit current. The derived expressions depict the parameters that affect power efficiency, and are insightful to designers to design the output stage for optimum power efficiency in view of IC area. The analytical results are verified against Cadence (Spectre) computer simulations for both DMOS and HVMOS, and on the basis of measurements on an IC for DMOS. The DMOS output stage is shown to offer higher power efficiency than the HVMOS output stage due to its lower on-resistance and lower capacitance. MASTER OF ENGINEERING (EEE) 2008-07-21T07:32:00Z 2008-10-20T07:25:05Z 2008-07-21T07:32:00Z 2008-10-20T07:25:05Z 2008 2008 Thesis Kwek, L. B. K. (2008). Analysis and design of analogue class D amplifier output stages. Master’s thesis, Nanyang Technological University, Singapore. https://hdl.handle.net/10356/13331 10.32657/10356/13331 en 131 p. application/pdf |
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DRNTU::Engineering::Electrical and electronic engineering::Electronic circuits Kwek, Lawrence Boon Kheng Analysis and design of analogue class D amplifier output stages |
| description |
It is well established that Class D audio amplifiers have higher power efficiency
compared to classical linear amplifiers (Class A, Class B and Class AB) due to the fact
that the transistors in their output stage operate either in the cut-off region or in the triode
region. As the output stage typically dissipates the highest power of all circuit blocks in
audio amplifiers, the overall power efficiency of amplifiers largely depends on the design
of the output stage.
The optimization of the output stage based on CMOS (embodying the p-channel-cum-nchannel
inverter) has been reported in literature. These output stages are limited only to
low voltage (~5V) applications due to the low breakdown voltage of CMOS. In this
dissertation, we investigate the power dissipation mechanisms of the High Voltage MOS
(HVMOS) output stage in half bridge configuration (the half bridge can be easily
extended to the full bridge) and the Double-diffused MOS (DMOS) output stage in full
bridge configuration, and apply protection circuits to the output stages for higher voltage
(~20V) applications. We derive analytical expressions to determine their power
efficiencies and establish a methodology to optimize the channel width of the output
stages for optimum power efficiency. We also propose a small non-overlapping logic
circuit to reduce the possibility of short-circuit current.
The derived expressions depict the parameters that affect power efficiency, and are
insightful to designers to design the output stage for optimum power efficiency in view of
IC area. The analytical results are verified against Cadence (Spectre) computer
simulations for both DMOS and HVMOS, and on the basis of measurements on an IC for
DMOS. The DMOS output stage is shown to offer higher power efficiency than the
HVMOS output stage due to its lower on-resistance and lower capacitance. |
| author2 |
Chang Joseph Sylvester |
| author_facet |
Chang Joseph Sylvester Kwek, Lawrence Boon Kheng |
| format |
Theses and Dissertations |
| author |
Kwek, Lawrence Boon Kheng |
| author_sort |
Kwek, Lawrence Boon Kheng |
| title |
Analysis and design of analogue class D amplifier output stages |
| title_short |
Analysis and design of analogue class D amplifier output stages |
| title_full |
Analysis and design of analogue class D amplifier output stages |
| title_fullStr |
Analysis and design of analogue class D amplifier output stages |
| title_full_unstemmed |
Analysis and design of analogue class D amplifier output stages |
| title_sort |
analysis and design of analogue class d amplifier output stages |
| publishDate |
2008 |
| url |
https://hdl.handle.net/10356/13331 |
| _version_ |
1772825898824761344 |