Young-Jae Jang scite author profile

Young-Jae Jang

4Publications

3Citation Statements Received

23Citation Statements Given

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Pohang University of Science and Technology

Publications

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EMI Issues in Pseudo-Differential Signaling for SDRAM Interface

Jang¹,

Yi²,

Kim³

et al. 2015

JSTS:Journal of Semiconductor Technology and Science

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Abstract-H-field EMI measurements have been performed for the single-ended, the differential, and the pseudo-differential signaling on a 11" FR4 microstrip line. The pseudo-differential signaling reduces EMI by more than 10 dB compared to the single-ended signaling if the delay mismatch is lower than 5% of a period for a 3 GHz clock signal. Empirical H-field equations for both differential and single-ended signaling showed fair agreements with measurements.

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A Single-Ended Parallel Transceiver With Four-Bit Four-Wire Four-Level Balanced Coding for the Point-to-Point DRAM Interface

Lee

Lim

et al. 2016

IEEE J. Solid-State Circuits

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A four-bit four-wire four-level (4B4W4L) singleended parallel transceiver for the point-to-point DRAM interface achieved a peak reduction of ∼10 dB in the electromagnetic interference (EMI) H-field power, compared to a conventional 4-bit parallel binary transceiver with the same output driver power of transmitter (TX) and the same input voltage margin of receiver (RX). A four-level balanced coding is used in this work to minimize the simultaneous switching noise at TX, to utilize a differential sensing without a reference voltage at RX, to maintain the pin efficiency of 100%, and also to reduce EMI by setting the sum of currents through the four wires to be zero. A capacitive pre-emphasis scheme modified for four-level signaling is also used at TX to compensate for inter-symbol interference. The transmitted four-level signals are recovered by six differential comparators with an offset compensation and a decoder at RX. The proposed transceiver chip fabricated in a 65 nm CMOS process consumes 2.39 pJ/bit with a 1.2 V supply and a 2 inch FR4 channel at 8 Gb/s. Index Terms-Balanced coding, DRAM interface, electromagnetic interference (EMI), H-field measurement, parallel links, single-ended, transceiver, 4-bit 4-wire 4-level signaling.

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A low-power LDO circuit with a fast load regulation

Jang

Cho

Kim

et al. 2016

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A low-EMI four-bit four-wire single-ended DRAM interface by using a three-level balanced coding scheme

Bae

Chae

et al. 2016

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Young-Jae Jang

EMI Issues in Pseudo-Differential Signaling for SDRAM Interface

A Single-Ended Parallel Transceiver With Four-Bit Four-Wire Four-Level Balanced Coding for the Point-to-Point DRAM Interface

A low-power LDO circuit with a fast load regulation

A low-EMI four-bit four-wire single-ended DRAM interface by using a three-level balanced coding scheme

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