Soo-Min Lee scite author profile

Abstract-By using the clock timing control at transmitter (TX), the crosstalk-induced jitter (CIJ) is compensated for in the 2-bit parallel data transmission through the coupled microstrip lines on printed circuit board (PCB). Compared to the authors' prior work, the delay block circuit is simplified by combining a delay block with a minimal number of stages and a 3-to-1 multiplexer. The delay block generates three clock signals with different delays corresponding to the channel delay of three different signal modes. The 3-to-1 multiplexer selects one of the three clock signals for TX timing depending on the signal mode. The TX is implemented by using a 0.18 μm CMOS process. The measurement shows that the TX reduces the RX jitters by about 38 ps at the data rates from 2.6 Gbps to 3.8 Gbps. Compared to the authors' prior work, the amount of RX Jitter reduction increases from 28 ps to 38 ps by using the improved implementation.

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23.6 A 0.6V 4.266Gb/s/pin LPDDR4X interface with auto-DQS cleaning and write-VWM training for memory controller

Lee

Choi

et al. 2017

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6.3: A Low‐EMI 2Gbps ClockAlignedtoData IntraPanel Interface (CADI) for TFT‐LCD with the VSYNC‐Embedded Clock and Equalization

Chi

Choi

Lee

et al. 2010

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Soo-Min Lee

Enhancement of open circuit voltage for CuSCN-based perovskite solar cells by controlling the perovskite/CuSCN interface with functional molecules

A slew-rate controlled transmitter to compensate for the crosstalk-induced jitter of coupled microstrip lines

A TX Clock Timing Technique for the CIJ Compensation of Coupled Microstrip Lines

23.6 A 0.6V 4.266Gb/s/pin LPDDR4X interface with auto-DQS cleaning and write-VWM training for memory controller

6.3: A Low‐EMI 2Gbps ClockAlignedtoData IntraPanel Interface (CADI) for TFT‐LCD with the VSYNC‐Embedded Clock and Equalization

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