A Source Emulation Method Based on 2-Tone Sinusoidal Jitter Modeling for High-Speed Serial-Link Compliance Testing

In this letter, we propose a compliance test emulation method for high-speed serial links based on source and channel modeling. The source and channel are characterized by using the proposed 2-tone sinusoidal jitter (SJ) modeling and impulse responses, respectively. The proposed 2-tone model represe...

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Veröffentlicht in:	IEEE journal on electromagnetic compatibility practice and applications 2024-09, Vol.6 (3), p.102-105
Hauptverfasser:	Ko, Baekseok, Song, Eakhwan
Format:	Artikel
Sprache:	eng
Schlagworte:	2-tone sinusoidal jitter (SJ) Clocks compliance test emulation Conformance testing High speed high-speed serial link Jitter Modeling Modelling Phase noise Signal integrity Sine waves source jitter modeling Testing time Vibration
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container_title	IEEE journal on electromagnetic compatibility practice and applications
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creator	Ko, Baekseok Song, Eakhwan
description	In this letter, we propose a compliance test emulation method for high-speed serial links based on source and channel modeling. The source and channel are characterized by using the proposed 2-tone sinusoidal jitter (SJ) modeling and impulse responses, respectively. The proposed 2-tone model represents periodic jitter components which include phase noise and power supply-induced jitter (PSIJ). The proposed method enables a sink device-only compliance test by effectively emulating the source devices and channels, which reduces the test time and cost. The effectiveness of the proposed link emulation method is demonstrated by comparing its performance with that of conventional compliance tests.
doi_str_mv	10.1109/LEMCPA.2024.3417008
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subjects	2-tone sinusoidal jitter (SJ) Clocks compliance test emulation Conformance testing High speed high-speed serial link Jitter Modeling Modelling Phase noise Signal integrity Sine waves source jitter modeling Testing time Vibration
title	A Source Emulation Method Based on 2-Tone Sinusoidal Jitter Modeling for High-Speed Serial-Link Compliance Testing
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