An Enhanced Built-off-Test Transceiver with Wide-range, Self-calibration Engine for 3.2 Gb/s/pin DDR4 SDRAM

Moon, Jin Young; Yoo, Hae-Yong; Choi, Hyun-Jun; Park, Il-Won; Kang, Sang Bom; Kim, Jun-Bae; Chung, Haeyoung; Kim, Kiho; Lee, Dong Hun; Song, Ki-Jae; Hyun, Seok-Hun; Song, Indal; Sohn, Young-Soo; Cho, Yong-Ho; Choi, Jung-Hwan; Park, Kwang-Il; Jang, Seong-Jin

doi:10.1109/asscc.2018.8579329

Cited by 6 publications

(1 citation statement)

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“…Recently, it has been proposed to use a built-off-test (BOT) or built-off-self-test (BOST) module as a cost-effective method for the at-speed testing of high-speed memory ICs [3][4][5]. As shown in Figure 1, the BOT (or BOST) module is used as a bridge connecting the DUT and the ATE.…”

Section: Introductionmentioning

confidence: 99%

A Cost-Effective and Compact All-Digital Dual-Loop Jitter Attenuator for Built-Off-Test Applications

2022

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A compact and low-power all-digital CMOS dual-loop jitter attenuator (DJA) for low-cost built-off-test (BOT) applications such as parallel multi-DUT testing is presented. The proposed DJA adopts a new digital phase interpolator (PI)-based clock recovery (CR) loop with an adaptive decimation filter (ADF) function to remove the jitter and phase noise of the input clock, and generate a phase-aligned clean output clock. In addition, by adopting an all-digital multi-phase multiplying delay-locked loop (MDLL), eight low-jitter evenly spaced reference clocks that are required for the PI are generated. In the proposed DJA, both the MDLL and PI-based CR are first-order systems, and so this DJA has the advantage of high system stability. In addition, the proposed DJA has the benefit of a wide operating frequency range, unlike general PLL-based jitter attenuators that have a narrow frequency range and a jitter peaking problem. Implemented in a 40 nm 0.9 V CMOS process, the proposed DJA generates cleaned programmable output clock frequencies from 2.4 to 4.7 GHz. Furthermore, it achieves a peak-to-peak and RMS jitter attenuation of –25.6 dB and –32.6 dB, respectively, at 2.4 GHz. In addition, it occupies an active area of only 0.0257 mm2 and consumes a power of 7.41 mW at 2.4 GHz.

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Section: Introductionmentioning

confidence: 99%