A 2.5-W 40-MHz-bandwidth hybrid supply modulator with 91% peak efficiency, 3-V output swing, and 4-mV output ripple at 3.6-V supply
We describe a supply modulator comprising a proposed delay-based hysteresis controller, proposed wideband class-AB amplifier, and class-D amplifier for an envelope tracking (ET) power amplifier (PA). We investigate the power dissipation and optimization method of the supply modulator for wideband ap...
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sg-ntu-dr.10356-1416022020-06-09T07:09:27Z A 2.5-W 40-MHz-bandwidth hybrid supply modulator with 91% peak efficiency, 3-V output swing, and 4-mV output ripple at 3.6-V supply He, Huiqiao Kang, Yang Ge, Tong Guo, Linfei Chang, Joseph Sylvester School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering CMOS Analog Integrated Circuits Communication System Power Supplies We describe a supply modulator comprising a proposed delay-based hysteresis controller, proposed wideband class-AB amplifier, and class-D amplifier for an envelope tracking (ET) power amplifier (PA). We investigate the power dissipation and optimization method of the supply modulator for wideband applications taking into consideration the propagation delay, and show that a controller with zero threshold current not only improves the bandwidth of the supply modulator but also reduces its power dissipation. Based on our investigations, we propose a delay-based hysteresis controller embodying a novel high-speed current comparator whose reference current (threshold current) is zero, thereby achieving higher power-efficiency and simpler hardware. We further propose a class-AB amplifier, which features a high bandwidth and accurately controlled quiescent current. The proposed supply modulator features simultaneously the wide bandwidth (40 MHz), high output power (2.5 W), high peak efficiency (91%), high output voltage swing (3 V), and low output ripple noise (4 mVrms) at 3.6-V supply. The ET PA embodying our proposed supply modulator achieves a high power-efficiency of 41.4% at 28.5-dBm peak output power and 34.4% at 3-dB backoff- A significant >1.6× improvement over the radio frequency PA without the supply modulator. 2020-06-09T07:09:26Z 2020-06-09T07:09:26Z 2018 Journal Article He, H., Kang, Y., Ge, T., Guo, L., & Chang, J. S. (2019). A 2.5-W 40-MHz-bandwidth hybrid supply modulator with 91% peak efficiency, 3-V output swing, and 4-mV output ripple at 3.6-V supply. IEEE Transactions on Power Electronics, 34(1), 712-723. doi:10.1109/TPEL.2018.2827396 0885-8993 https://hdl.handle.net/10356/141602 10.1109/TPEL.2018.2827396 2-s2.0-85045612749 1 34 712 723 en IEEE Transactions on Power Electronics © 2018 IEEE. All rights reserved. |
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Engineering::Electrical and electronic engineering CMOS Analog Integrated Circuits Communication System Power Supplies |
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Engineering::Electrical and electronic engineering CMOS Analog Integrated Circuits Communication System Power Supplies He, Huiqiao Kang, Yang Ge, Tong Guo, Linfei Chang, Joseph Sylvester A 2.5-W 40-MHz-bandwidth hybrid supply modulator with 91% peak efficiency, 3-V output swing, and 4-mV output ripple at 3.6-V supply |
| description |
We describe a supply modulator comprising a proposed delay-based hysteresis controller, proposed wideband class-AB amplifier, and class-D amplifier for an envelope tracking (ET) power amplifier (PA). We investigate the power dissipation and optimization method of the supply modulator for wideband applications taking into consideration the propagation delay, and show that a controller with zero threshold current not only improves the bandwidth of the supply modulator but also reduces its power dissipation. Based on our investigations, we propose a delay-based hysteresis controller embodying a novel high-speed current comparator whose reference current (threshold current) is zero, thereby achieving higher power-efficiency and simpler hardware. We further propose a class-AB amplifier, which features a high bandwidth and accurately controlled quiescent current. The proposed supply modulator features simultaneously the wide bandwidth (40 MHz), high output power (2.5 W), high peak efficiency (91%), high output voltage swing (3 V), and low output ripple noise (4 mVrms) at 3.6-V supply. The ET PA embodying our proposed supply modulator achieves a high power-efficiency of 41.4% at 28.5-dBm peak output power and 34.4% at 3-dB backoff- A significant >1.6× improvement over the radio frequency PA without the supply modulator. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering He, Huiqiao Kang, Yang Ge, Tong Guo, Linfei Chang, Joseph Sylvester |
| format |
Article |
| author |
He, Huiqiao Kang, Yang Ge, Tong Guo, Linfei Chang, Joseph Sylvester |
| author_sort |
He, Huiqiao |
| title |
A 2.5-W 40-MHz-bandwidth hybrid supply modulator with 91% peak efficiency, 3-V output swing, and 4-mV output ripple at 3.6-V supply |
| title_short |
A 2.5-W 40-MHz-bandwidth hybrid supply modulator with 91% peak efficiency, 3-V output swing, and 4-mV output ripple at 3.6-V supply |
| title_full |
A 2.5-W 40-MHz-bandwidth hybrid supply modulator with 91% peak efficiency, 3-V output swing, and 4-mV output ripple at 3.6-V supply |
| title_fullStr |
A 2.5-W 40-MHz-bandwidth hybrid supply modulator with 91% peak efficiency, 3-V output swing, and 4-mV output ripple at 3.6-V supply |
| title_full_unstemmed |
A 2.5-W 40-MHz-bandwidth hybrid supply modulator with 91% peak efficiency, 3-V output swing, and 4-mV output ripple at 3.6-V supply |
| title_sort |
2.5-w 40-mhz-bandwidth hybrid supply modulator with 91% peak efficiency, 3-v output swing, and 4-mv output ripple at 3.6-v supply |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/141602 |
| _version_ |
1681058544420388864 |