Your search keyword '"Jae-Hong Hahn"' showing total 4 results

1. A 233-MHz 80%-87% efficient four-phase DC-DC converter utilizing air-core inductors on package

Author

Jae-Hong Hahn, Siva G. Narendra, Vivek De, B. Bloechel, Tanay Karnik, Donald S. Gardner, Gerhard Schrom, P. Hack, S. Borkar, G. Dermer, and Peter Hazucha

Subjects

Engineering, business.industry, Buck converter, Ćuk converter, Electrical engineering, Buck–boost converter, Hardware_PERFORMANCEANDRELIABILITY, Decoupling capacitor, Inductor, law.invention, Capacitor, law, Boost converter, Hardware_INTEGRATEDCIRCUITS, Electronic engineering, Electrical and Electronic Engineering, business, Decoupling (electronics)

Abstract

We demonstrate an integrated buck dc-dc converter for multi-V/sub CC/ microprocessors. At nominal conditions, the converter produces a 0.9-V output from a 1.2-V input. The circuit was implemented in a 90-nm CMOS technology. By operating at high switching frequency of 100 to 317 MHz with four-phase topology and fast hysteretic control, we reduced inductor and capacitor sizes by three orders of magnitude compared to previously published dc-dc converters. This eliminated the need for the inductor magnetic core and enabled integration of the output decoupling capacitor on-chip. The converter achieves 80%-87% efficiency and 10% peak-to-peak output noise for a 0.3-A output current and 2.5-nF decoupling capacitance. A forward body bias of 500 mV applied to PMOS transistors in the bridge improves efficiency by 0.5%-1%.

Published

2005

2. An integrated single-switch approach to improve harmonic performance of standard PWM adjustable-speed drives

Author

S. Hansen, P.N. Enjeti, null Jae-Hong Hahn, and F. Blaabjerg

Subjects

Control and Systems Engineering, Electrical and Electronic Engineering, Industrial and Manufacturing Engineering

Published

2000

3. A 233MHz, 80-87% efficient, integrated, 4-phase DC-DC converter in 90nm CMOS

Author

Donald S. Gardner, Vivek De, P. Hack, G. Dermer, Tanay Karnik, Peter Hazucha, Jae-Hong Hahn, S. Borkar, B. Bloechel, Gerhard Schrom, and Siva G. Narendra

Subjects

business.industry, Buck converter, Computer science, Ćuk converter, Electrical engineering, Buck–boost converter, Hardware_PERFORMANCEANDRELIABILITY, Inductor, Decoupling capacitor, law.invention, Capacitor, CMOS, Hardware_GENERAL, law, Boost converter, Hardware_INTEGRATEDCIRCUITS, Electronic engineering, business

Abstract

We demonstrate an integrated buck DC-DC converter implemented in a 90nm CMOS technology for multi-Vcc microprocessors. High switching frequency (100-317MHz), 4-phase topology, and fast hysteretic control reduce inductor and capacitor sizes by 1000x, thereby enabling off-chip inductors with no magnetic core and an on-chip decoupling capacitor. The converter achieves 80-87.7% efficiency and 10% peak-to-peak output noise.

Published

2004

4. Feasibility of monolithic and 3D-stacked DC-DC converters for microprocessors in 90nm technology generation

Author

Tanay Karnik, Volkan Kursun, Gerhard Schrom, Jae-Hong Hahn, Donald S. Gardner, Peter Hazucha, Siva G. Narendra, and Vivek De

Subjects

Engineering, business.industry, Motherboard, Electrical engineering, Integrated circuit, Decoupling capacitor, Inductor, law.invention, CMOS, law, Low-power electronics, Electronic engineering, Voltage droop, business, Decoupling (electronics)

Abstract

Rapidly increasing input current of microprocessors resulted in rising cost and motherboard real estate occupied by decoupling capacitors and power routing. We show by analysis that an on-die switching DC-DC converter is feasible for future microprocessor power delivery. The DC-DC converter can be fabricated in an existing CMOS process (90nm-180nm) with a back-end thin-film inductor module. We show that 85% efficiency and 10% output voltage droop can be achieved for 4:1, 3:1, and 2:1 conversion ratios, area overhead of 5% and no additional on-die decoupling capacitance. A 4:1 conversion results in 3.4x smaller input current and 6.8x smaller external decoupling.

Published

2004