Measurement-Based Line Parameter Extraction Method for Multiple-Coupled Lines in Printed Circuit Boards(Special Issue on Microwave and Millimeter Wave Technology)
スポンサーリンク
概要
- 論文の詳細を見る
This paper proposes a novel extraction method of line parameters for multi-coupled lines on high-speed and high-density PCBs, where it uses TDR measurement in time domain and S-parameter measurement in frequency domain. The accuracy of the proposed method have been verified experimentally by comparing the crosstalk noise in the time domain, where (1) the proposed method extracts RLGC matrices by measuring the test pattern, (2) the crosstalk noise is obtained through SPICE simulation using the extracted RLGC matrices, and (3) the SPICE-simulated crosstalk noise is compared with the measured crosstalk noise. From the crosstalk noise comparison, the proposed method is proven to be very accurate. For N-coupled lines, the proposed method doesn't require expensive 2N-port probe for N-coupled lines but only two-port probe, which provides a simple, accurate, and economic extraction method of line parameters for multi-coupled line on the PCB. In the early stage of PCB design, the proposed method is very useful, because it extracts accurate interconnection parameters of each test board and enables to compensate various side effects due to the variation of PCB fabrication process. Also, the proposed method is necessary to analyze the signal integrity of future high-density and high-speed digital system on PCBs.
- 2003-08-01
著者
-
Wee J‐k
Hynix Semiconductor Icheon Kor
-
Kim Y‐j
Memory Research & Development Division Hynix Semiconductor Inc.
-
KIM Yong-Ju
Memory Research & Development Division, Hynix Semiconductor Inc.
-
LEE Seongsoo
School of Electronic Engineering, Soongsil University
-
WEE Jae-Kyung
College of Information and Electronics Engineering, Hallym University
-
YOON Han-Sub
Department of Electronics Engineering, Hanyang University
-
MOON Gyu
College of Information and Electronics Engineering, Hallym University
-
Kim Yong-ju
Memory Research & Development Division Hynix Semiconductor Inc.
-
Kim Yong-ju
Department Of Eecs Korea Advanced Institute Of Science And Technology
-
Kim Yong-ju
Memory R&d Center Hynix
-
Moon Gyu
College Of Information And Electronics Engineering Hallym University
-
Yoon Han-sub
Department Of Electronics Engineering Hanyang University
-
Lee Seongsoo
School Of Electronic Engineering Soongsil University
-
KIM Yong-Ju
Memory R&D Center
関連論文
- Simple Formulas for Interconnect Delay and Crosstalk Considering the Transition Time of Ramp Signals
- Simple Formulas for Interconnect Delay and Crosstalk Considering the Transition Time of Ramp Signals
- Simple Formulas for Interconnect Delay and Crosstalk Considering the Transition Time of Ramp Signals
- Measurement-Based Line Parameter Extraction Method for Multiple-Coupled Lines in Printed Circuit Boards(Special Issue on Microwave and Millimeter Wave Technology)
- Study of the Thermally Stimulated Current (TSC) characteristics of (Ba,Sr)TiO_3 Thin Films
- Study of the Thermally Stimulated Current (TSC) characteristics of (Ba,Sr)TiO_3 Thin Films
- Power Distribution Network Design Using Network Synthesis in High-Speed Digital Systems(Microwaves, Millimeter-Waves)
- Pipelined Wake-Up Scheme to Reduce Power Line Noise for Block-Wise Shutdown of Low-Power VLSI Systems(Low-Power System LSI, IP and Related Technologies)
- Novel Method of Interconnect Worstcase Establishment with Statistically-Based Approaches
- A Novel High-Speed and Low-Voltage CMOS Level-Up/Down Shifter Design for Multiple-Power and Multiple-Clock Domain Chips(Electronic Circuits)
- Fast and Accurate Power Bus Designer for Multi-Layers High-Speed Digital Boards(Integrated Electronics)
- A Temperature- and Supply-Insensitive Fully On-Chip 1Gb/s CMOS Open-Drain Output Driver for High-Bandwidth DRAMs
- Fully On-Chip Current Controlled Open-Drain Output Driver for High-Bandwidth DRAMs
- Low-Hardware-Cost Motion Estimation with Large Search Range for VLSI Multimedia Processors(Image Processing and Video Processing)
- A Digitally-Controlled SMPS Using a Novel High-Resolution DPWM Generator Based on a Pseudo Relaxation-Oscillation Technique
- A Digitally-Controlled SMPS Using a Novel High-Resolution DPWM Generator Based on a Pseudo Relaxation-Oscillation Technique