Bongho Bae scite author profile

Bongho Bae

3Publications

4Citation Statements Received

18Citation Statements Given

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Hongik University

Publications

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A 2–4 GHz fast-locking frequency multiplying delay-locked loop

Kim

Bae

2017

IEICE Electron. Express

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A fast-locking fractional-ratio multiplying DLL (FMDLL) for de-skewed on-chip clock frequency multiplication is presented. A new phase detecting controller (PDC) and a dual-path charge pump (CP) have been adopted to achieve shorter locking time and eliminate lock-in fail problems. The proposed fast-locking FMDLL was implemented in a 65-nm CMOS process and occupies an active area of 0.015 mm 2 . It operates over a frequency range of 2.0-4.0 GHz with a programmable frequency multiplication factor of N/M, where N = 4, 5, 8, 10 and M = 1, 2, 3. It achieves a peak-to-peak output clock jitter of 13.5 ps at 4 GHz while consuming 6.7 mW at 2 GHz from a 1.2 V supply. Compared with the conventional architecture, the locking time has been reduced about 80%.

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A 13-Gbps Low-swing Low-power Near-ground Signaling Transceiver

Ku¹,

Bae²,

Kim³

2014

Journal of the Institute of Electronics and Information Enginee

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A low-swing differential near-ground signaling (NGS) transceiver for low-power high-speed mobile I/O interface is presented. The proposed transmitter adopts an on-chip regulated programmable-swing voltage-mode driver and a pre-driver with asymmetric rising/falling time. The proposed receiver utilizes a new multiple gain-path differential amplifier with feed-forward capacitors that boost high-frequency gain. Also, the receiver incorporates a new adaptive bias generator to compensate the input common-mode variation due to the variable output swing of the transmitter and to minimize the current mismatch of the receiver's input stage amplifier. The use of the new simple and effective impedance matching techniques applied in the transmitter and receiver results in good signal integrity and high power efficiency. The proposed transceiver designed in a 65-nm CMOS technology achieves a data rate of 13 Gbps/channel and 0.3 pJ/bit (= 0.3 mW/Gbps) high power efficiency over a 10 cm FR4 printed circuit board.

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A fast-locking clock multiplying DLL

Kim

Bae

2016

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Bongho Bae

A 2–4 GHz fast-locking frequency multiplying delay-locked loop

A 13-Gbps Low-swing Low-power Near-ground Signaling Transceiver

A fast-locking clock multiplying DLL

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