Hybrid GaN and CMOS integrated module radiation hard DC-to-DC converter

Ashwath Hegde; Jennifer Kitchen; Yu Long; Alexander Odishvili; Phaneendra Bikkina; Andrew Levy; Esko Mikkola

Hybrid GaN and CMOS integrated module radiation hard DC-to-DC converter

Ashwath Hegde, Jennifer Kitchen, Yu Long, Alexander Odishvili, Phaneendra Bikkina, Andrew Levy, Esko Mikkola

Electrical, Computer, and Energy Engineering, School of (IAFSE-ECEE)

Research output: Contribution to journal › Conference article › peer-review

Abstract

A radiation-hard, compact, low-mass, hybrid GaN and CMOS integrated module DC-DC converter has been designed with an input voltage of up to 14V regulated down to an output voltage of 1.5V, with 6A maximum load current. The converter exhibits greater than 70% efficiency. Discrete GaN transistors are used for the power stage, and the controller circuitry and power device drivers are integrated on a 0.35um CMOS chip. Radiation hardening by design (RHBD) techniques have been employed to meet TID levels greater than 150 megarad (Si). This work presents the design and successful measurement results of the custom-designed CMOS driver/controller integrated circuit (IC) and the entire DC-DC converter module that uses this IC. The next version of the controller/driver IC has been sent to fabrication in the fall 2018 and it is expected to provide 18V to 1.5V conversion with >75% efficiency.

Original language	English (US)
Journal	Proceedings of Science
Volume	343
State	Published - 2018
Event	2018 Topical Workshop on Electronics for Particle Physics, TWEPP 2018 - Antwerp, Belgium Duration: Sep 17 2018 → Sep 21 2018

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Cite this

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title = "Hybrid GaN and CMOS integrated module radiation hard DC-to-DC converter",

abstract = "A radiation-hard, compact, low-mass, hybrid GaN and CMOS integrated module DC-DC converter has been designed with an input voltage of up to 14V regulated down to an output voltage of 1.5V, with 6A maximum load current. The converter exhibits greater than 70% efficiency. Discrete GaN transistors are used for the power stage, and the controller circuitry and power device drivers are integrated on a 0.35um CMOS chip. Radiation hardening by design (RHBD) techniques have been employed to meet TID levels greater than 150 megarad (Si). This work presents the design and successful measurement results of the custom-designed CMOS driver/controller integrated circuit (IC) and the entire DC-DC converter module that uses this IC. The next version of the controller/driver IC has been sent to fabrication in the fall 2018 and it is expected to provide 18V to 1.5V conversion with >75% efficiency.",

author = "Ashwath Hegde and Jennifer Kitchen and Yu Long and Alexander Odishvili and Phaneendra Bikkina and Andrew Levy and Esko Mikkola",

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T1 - Hybrid GaN and CMOS integrated module radiation hard DC-to-DC converter

AU - Hegde, Ashwath

AU - Kitchen, Jennifer

AU - Long, Yu

AU - Odishvili, Alexander

AU - Bikkina, Phaneendra

AU - Levy, Andrew

AU - Mikkola, Esko

PY - 2018

Y1 - 2018

N2 - A radiation-hard, compact, low-mass, hybrid GaN and CMOS integrated module DC-DC converter has been designed with an input voltage of up to 14V regulated down to an output voltage of 1.5V, with 6A maximum load current. The converter exhibits greater than 70% efficiency. Discrete GaN transistors are used for the power stage, and the controller circuitry and power device drivers are integrated on a 0.35um CMOS chip. Radiation hardening by design (RHBD) techniques have been employed to meet TID levels greater than 150 megarad (Si). This work presents the design and successful measurement results of the custom-designed CMOS driver/controller integrated circuit (IC) and the entire DC-DC converter module that uses this IC. The next version of the controller/driver IC has been sent to fabrication in the fall 2018 and it is expected to provide 18V to 1.5V conversion with >75% efficiency.

AB - A radiation-hard, compact, low-mass, hybrid GaN and CMOS integrated module DC-DC converter has been designed with an input voltage of up to 14V regulated down to an output voltage of 1.5V, with 6A maximum load current. The converter exhibits greater than 70% efficiency. Discrete GaN transistors are used for the power stage, and the controller circuitry and power device drivers are integrated on a 0.35um CMOS chip. Radiation hardening by design (RHBD) techniques have been employed to meet TID levels greater than 150 megarad (Si). This work presents the design and successful measurement results of the custom-designed CMOS driver/controller integrated circuit (IC) and the entire DC-DC converter module that uses this IC. The next version of the controller/driver IC has been sent to fabrication in the fall 2018 and it is expected to provide 18V to 1.5V conversion with >75% efficiency.

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Hybrid GaN and CMOS integrated module radiation hard DC-to-DC converter

Abstract

ASJC Scopus subject areas

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