Linear Equivalent Circuit of a Digital Gate for Characterization of Malfunction Mechanism
スポンサーリンク
概要
- 論文の詳細を見る
Time-related jitters caused by small noise voltage due to electromagnetic noise induce malfunction of digital equipment. The jitters increase with not only magnitude of the noise but also resonance of digital circuits in the equipment. In this report, we proposes a linear equivalent circuit model of a digital CMOS gate for analyzing circuit resonance and verifies the validity of the model.
- 社団法人電子情報通信学会の論文
- 1997-11-25
著者
-
WADA Osami
The Faculty of Engineering, Okayama University
-
KOGA Ryuji
The Faculty of Engineering, Okayama University
-
Koga R
Graduate School Of Natural Science And Technology Okayama University
-
Wada O
Graduate School Of Engineering Kyoto University
-
Kagawa Naoki
The Faculty Of Engineering Fukuyama University
関連論文
- Modeling and Simulation of Via-Connected Power Bus Stacks in Multilayer PCBs(Printed Circuit Boards, 2004 International Symposium on Electromagnetic Compatibility)
- Efficient Calculation of Power Bus Impedance using a Fast Algorithm Together with a Segmentation Method
- A Simulation Method for EM Radiation from Power/Ground Plane of PCB by Using a Power Current Model, Vol.J86-B,No.2, pp.226-235
- Reduction of Q-factor of resonance in power/ground planes of multilayer PCBs by using resistive metal films
- Evaluation of EMI Reduction Effect of Guard Traces Based on Imbalance Difference Model
- Increase of Common-Mode Radiation due to Guard Trace Voltage and Determination of Effective Via-Location
- A Prediction Method of Common-Mode Excitation on a Printed Circuit Board Having a Signal Trace near the Ground Edge(Electromagnetic Compatibility (EMC))
- Power Current Model of LSI/IC Containing Equivalent Internal Impedance for EMI Analysis of Digital Circuits
- A Bidirectional Iteration Algorithm for Determining Lidar Ratios and its Use to Evaluate Boundary Values in the Lidar Inversion
- Common-Mode-Current Generation Caused by Difference of Unbalance of Transmission Lines on a Printed Circuit Board with Narrow Ground Pattern(Special Issue on Recent Progress in Electromagnetic Compatibility Technology)
- Linear Equivalent Circuit of a Digital Gate for Characterization of Malfunction Mechanism
- Prediction of Far-Field EMI Spectrum of Differential Mode Emission from a Digital PCB by Near-Field Measurement
- Special Issue on EMC Implications of Densely Mounted Electronic Devices
- Field Analysis of Pillbox Resonator with Radiation Loss Utilizing Finite-Element Beam Propagation Method Formulation
- Eigenmode Analysis of Whispering Gallery Modes of Pillbox-Type Optical Resonators Utilizing the FE-BPM Formulation
- Prediction of Peak Frequencies on Electromagnetic Emission from a Signal Line on a Printed Circuit Board
- Scintillation of far-infrared laser beam of wavelength in absorption region
- In Situ and Real-Time Measurement of Methane Concentration in Rice Paddy Field at Okayama University Using Tunable Diode Laser Absorption Spectrometry
- Adjoint Spectrum I: an Algorithm to Extract Target Spectra Under Spectral Interferences for Use in On-Line Spectrometry
- Power-Sum Estimation of Electromagnetic Noise Radiated from High-Speed CMOS Printed Circuit Boards
- Suppression of Guard-Trace Resonance by Matched Termination for Reducing Common-Mode Radiation
- Calculation of Common-Mode Radiation from Single-Channel Differential Signaling System Using Imbalance Difference Model
- High Sensitivity Short-Path Monitoring of Trace Gases Employing PbSnTe Tunable Diode Laser
- Power-Sum Estimation of Electromagnetic Noise Radiated from High-Speed CMOS Printed Circuit Boards
- A Tunable Diode Laser Gas-Density Spectrometry with the Coverage from Trace Species to Rich Fuel Transients
- Preliminary Experiments of Light-Pulse Waveform Synthesizer Implementing Optical Bistability Circuit
- Analytical Description of Tunable Diode Laser Derivative Spectrometry