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Shizuoka Univ. Hamamatsu‐shi Jpn | 論文
- Effect of Contact Materials of Ag/SnO_2 and Ag/ZnO on Rotational Motion of Break Arcs Driven by Radial Magnetic Field
- Effect of Permanent Magnets Embedded in Electrical Contacts Mounted on Electro-magnetic Relays
- Constant Amplitude Signaling for Parallel Combinatory Spread Spectrum Systems(Sequence Design and its Application in Communications)
- Research on Cathode Root Properties in Carbon Vacuum Arc(Arc Discharge)(IS-EMD2003 : Recent Technical Trend of Electro-Mechanical Devices)
- Research on Calculation of Cathode Root Properties in Carbon Vacuum Arc (国際セッションIS--EMD 2003) -- (Session 4 Arc discharges and related phenomena)
- Research on Calculation of Cathode Root Properties in Carbon Vacuum Arc
- Canae: A Platform for Constructing Graphical User Interfaces with Editors
- V-I Characteristics of Breaking Arc at several contact materials
- Spectroscopic Measurement in Breaking Arc between Copper or Nickel Electrical Contacts
- Influence of the Shape of Contact Surface on the Spatial Distribution of Spectral Intensity of Breaking Arcs in Palladium Contacts
- Evaluation of a Natural Language Interface for Image Retrieval
- An X-Band Phased Array Antenna with a Large Elliptical Aperture (Special Issue on Radar Technology)
- Characteristics of Break Arcs Driven by Transverse Magnetic Field in a DC High-Voltage Resistive Circuit
- An Experimental Equation for Dependence of Duration of Breaking Arcs on Supply Voltage with Constant Circuit Resistance(Arc Discharge & Related Phenomena, IS-EMD2004-Recent Development of Electro-Mechanical Devices)
- Detection of Movement Vectors Based on Edge Segment Detection
- A Waveform Relaxation Method Applicable to the Simulation of ECL Circuits with Gate Level Partitioning
- Effect of Shapes of Contact Surfaces on Break Arcs occurring between Electrical Contacts in which a Magnet is embedded
- Arc Duration and Rotational Frequency of Break Arcs Driven by Radial Magnet Field in a DC42 V Resistive Circuit
- Position and Shape of Break Arcs Driven by Transverse Magnetic Field
- Reignition of Break Arcs Magnetically Blown-out in a 450V DC Resistive Circuit