A One-Step 325V to 3.3-to-10V 0.5W Resonant DC-DC Converter with Fully Integrated Power Stage and 80.7% Efficiency

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OriginalspracheEnglisch
Titel des Sammelwerks2020 IEEE International Solid-State Circuits Conference, ISSCC 2020
Seiten194-196
Seitenumfang3
ISBN (elektronisch)9781728132044, 978-1-7281-3205-1
PublikationsstatusVeröffentlicht - 2020

Publikationsreihe

NameDigest of Technical Papers - IEEE International Solid-State Circuits Conference
Band2020-February
ISSN (Print)0193-6530

Abstract

There is a growing demand for efficient IC-level power conversion from highvoltage (HV) >200V down to below 5V. Applications include decentralized IoT and smart home, supplied from the grid, as well as control circuits in e-cars with DC-link supply voltages on the order of 400V. While energy harvesting is limited to power levels <1mW, the grid as well as HV batteries provide much higher power, readily available in buildings, etc. However, conventional voltage conversion is achieved by expensive and large power modules [1]-[5], which show poor efficiency below 500mW. Hence, they are not well suitable to supply microcontrollers, sensors, etc. The presented converter IC closes the power gap between energy harvesting and power modules (Fig. 11.3.1), converting voltages of V in=100 to 325V into a low-voltage output V out=3.3 to 10V.

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A One-Step 325V to 3.3-to-10V 0.5W Resonant DC-DC Converter with Fully Integrated Power Stage and 80.7% Efficiency. / Rindfleisch, Christoph; Wicht, Bernhard.
2020 IEEE International Solid-State Circuits Conference, ISSCC 2020. 2020. S. 194-196 9063150 (Digest of Technical Papers - IEEE International Solid-State Circuits Conference; Band 2020-February).

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Rindfleisch, C & Wicht, B 2020, A One-Step 325V to 3.3-to-10V 0.5W Resonant DC-DC Converter with Fully Integrated Power Stage and 80.7% Efficiency. in 2020 IEEE International Solid-State Circuits Conference, ISSCC 2020., 9063150, Digest of Technical Papers - IEEE International Solid-State Circuits Conference, Bd. 2020-February, S. 194-196. https://doi.org/10.1109/isscc19947.2020.9063150
Rindfleisch, C., & Wicht, B. (2020). A One-Step 325V to 3.3-to-10V 0.5W Resonant DC-DC Converter with Fully Integrated Power Stage and 80.7% Efficiency. In 2020 IEEE International Solid-State Circuits Conference, ISSCC 2020 (S. 194-196). Artikel 9063150 (Digest of Technical Papers - IEEE International Solid-State Circuits Conference; Band 2020-February). https://doi.org/10.1109/isscc19947.2020.9063150
Rindfleisch C, Wicht B. A One-Step 325V to 3.3-to-10V 0.5W Resonant DC-DC Converter with Fully Integrated Power Stage and 80.7% Efficiency. in 2020 IEEE International Solid-State Circuits Conference, ISSCC 2020. 2020. S. 194-196. 9063150. (Digest of Technical Papers - IEEE International Solid-State Circuits Conference). doi: 10.1109/isscc19947.2020.9063150
Rindfleisch, Christoph ; Wicht, Bernhard. / A One-Step 325V to 3.3-to-10V 0.5W Resonant DC-DC Converter with Fully Integrated Power Stage and 80.7% Efficiency. 2020 IEEE International Solid-State Circuits Conference, ISSCC 2020. 2020. S. 194-196 (Digest of Technical Papers - IEEE International Solid-State Circuits Conference).
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abstract = "There is a growing demand for efficient IC-level power conversion from highvoltage (HV) >200V down to below 5V. Applications include decentralized IoT and smart home, supplied from the grid, as well as control circuits in e-cars with DC-link supply voltages on the order of 400V. While energy harvesting is limited to power levels <1mW, the grid as well as HV batteries provide much higher power, readily available in buildings, etc. However, conventional voltage conversion is achieved by expensive and large power modules [1]-[5], which show poor efficiency below 500mW. Hence, they are not well suitable to supply microcontrollers, sensors, etc. The presented converter IC closes the power gap between energy harvesting and power modules (Fig. 11.3.1), converting voltages of V in=100 to 325V into a low-voltage output V out=3.3 to 10V. ",
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