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 Conference Papers (Available on Advance Programs)  (Sort by: Date Descending)
 Results 1 - 20 of 44  /  [Next]  
Committee Date Time Place Paper Title / Authors Abstract Paper #
MW, WPT 2024-04-18
11:10
Kanagawa Kanagawa University
(Primary: On-site, Secondary: Online)
Derivation of General-Purpose ηmax kQ Theoretical Formula and Evaluation of Practical Characteristics of S-SP Type Wireless Power Transfer Circuit -- Relationship with X-N, X-S, X-P type kQ theoretical formula and evaluation of application to robust design against large fluctuations in R and k. --
Hideaki Abe
 [more]
WPT 2024-03-14
14:00
Kyoto Kyoto-Univ. (Uji campus)
(Primary: On-site, Secondary: Online)
Resonant Voltage Transient Phenomenon Analysis and Design Precautions for Magnetic Coupled Wireless Power Transfer (Part 2) -- Characteristic Index Setting by Envelope Approximation Formula for N-P,S-P Types and Consideration of Various Transient Phenomena --
Hideaki Abe
(To be available after the conference date) [more]
AP, WPT
(Joint)
2024-01-18
10:55
Niigata Niigata Univ.
(Primary: On-site, Secondary: Online)
Extended kQ Theoretical Formula for Multiple Magnetic Coupling with N-S・S-S type and Consideration of Maximum Transmission Efficiency -- Consideration of Efficiency Characteristics in Various Forms of (1:Multi)and(Multi:1) by Constant Current /Costant Voltage Drive --
Hideaki Abe WPT2023-31
In magnetic coupling wireless power transfer, the kQ theoretical formula that indicates maximum transmission efficiency ... [more] WPT2023-31
pp.6-11
WPT 2023-11-10
10:35
Tokyo Hachijomachi-Shokokai
(Primary: On-site, Secondary: Online)
Coil Current Waveform Analysis for Various Drive Voltage Waveforms in Wireless Power Transfer -- Characteristics of Various Circuit Configurations Combined with Resonance Forms and Comparison of Harmonic Components --
Hideaki Abe WPT2023-23
In magnetically coupled wireless power transfer uses nearby magnetic fields, it is necessary to pay attention to harmoni... [more] WPT2023-23
pp.1-6
EE, WPT
(Joint)
2023-10-06
11:00
Osaka
(Primary: On-site, Secondary: Online)
Wireless Power Transfer by Primary Rod-shaped Secondary Rod-shaped Coil having Robust Characteristics for Large Changes in Position and Load -- Demonstration of load voltage autonomy stability and k estimation ability by S-SP type magnetic coupling using intersecting rod-shaped coils --
Hideaki Abe WPT2023-21
Research on magnetically coupled wireless power transfer with resonant circuits has been carried out for a long time. In... [more] WPT2023-21
pp.8-13
WPT 2023-06-30
14:30
Tokyo
(Primary: On-site, Secondary: Online)
Derivation of Efficiency Equivalent Coupling Factor Equivalent to Position Efficiency of Receiving Coil on Multiple Transmission Coils -- Demonstration of Correlation Between Efficiency Equivalent Coupling Factor and Receiver Coil Position Efficiency of Quadratic Equivalent Circuit --
Hideaki Abe WPT2023-11
The efficiency characteristic of magnetic coupled wireless power transfer in which a pair of transmission / reception co... [more] WPT2023-11
pp.3-8
EE, IEE-HCA 2023-05-26
11:25
Tokyo Kikai-Shinko-Kaikan Bldg.
(Primary: On-site, Secondary: Online)
Wireless Power Transfer by Tying String with Convenient Properties of Magnetic and Load Voltage Behavior -- Number of Knots by String-Shaped Flexible Resonance Coil and Characteristic Evaluation by Multiple Connection --
Hideaki Abe EE2023-3
Research on magnetically coupled non-contact feeding with resonant circuits has been carried out for a long time. Variou... [more] EE2023-3
pp.12-17
ICD, SDM, ITE-IST [detail] 2022-08-10
15:15
Online   [Invited Talk] A CMOS Image Sensor and an AI Accelerator for Realizing Edge-Computing-Based Surveillance Camera Systems
Fukashi Morishita, Norihito Kato, Satoshi Okubo, Takao Toi, Mitsuru Hiraki, Sugako Otani, Hideaki Abe, Yuji Shinohara, Hiroyuki Kondo (Renesas Electronics) SDM2022-52 ICD2022-20
This paper presents a CMOS image sensor and an AI accelerator to realize surveillance camera systems based on edge compu... [more] SDM2022-52 ICD2022-20
pp.83-86
AP, WPT
(Joint)
2022-01-21
10:00
Tottori Kenmin-Fureai-Kaikan
(Primary: On-site, Secondary: Online)
Wireless Power Transfer by Primary Square Secondary Rod-shaped Coil Having Robust Characteristics for Large Changes in k and R -- Mechanism and demonstration of S-SP Type Load Voltage Stabilization by k Notation Block Diagram --
Hideaki Abe (Panasonic) WPT2021-15
Research on magnetically coupled wireless power transfer with resonant circuits has been carried out for a long time. In... [more] WPT2021-15
pp.1-4
AP, WPT
(Joint)
2022-01-21
10:25
Tottori Kenmin-Fureai-Kaikan
(Primary: On-site, Secondary: Online)
Demonstration of Commercial AC Transmission Wireless Power Transfer with Branch and Extension Cord Capability -- Mechanism of Branching and Multi-Connector Transmission with k -notation Block Diagram and Verification of Commercial Sinusoidal Constant Voltage Transfer --
Hideaki Abe (Panasonic) WPT2021-16
Research on magnetically coupled non-contact feeding with resonant circuits has been carried out for a long time. In the... [more] WPT2021-16
pp.5-8
WPT 2020-12-08
13:55
Online Online Resonant Voltage Transient Phenomenon Analysis and Design Precautions for Magnetic Coupled Wireless Power Transfer (Part 1) -- Characteristic Index Setting by Envelope Approximation Formula for N-S,S-S Types and Consideration of Various Transient Phenomena --
Hideaki Abe WPT2020-28
Research on magnetic coupled wireless power transfer with resonant circuit has been researched for a long time. Researc... [more] WPT2020-28
pp.11-16
WPT, EE
(Joint)
2020-10-07
14:05
Online Online Mechanism of Wall Hanging Wireless Power Transfer with Hooking Type Coil and Demonstration of the Receiving Voltage Characteristics -- Good Properties of Detachable Multi-coupling with Robust to Posture Changes --
Hideaki Abe WPT2020-20
 [more] WPT2020-20
pp.6-11
WPT, EE
(Joint)
2020-10-07
14:30
Online Online Derivation of S-SP Type WPT Design Method Allowing Large Changes in Transfer Distance and Load -- Demonstration and Construction of a General-purpose Design Method by Deriving a Conditional Expression from k-Characteristic with Inverted V Shape --
Hideaki Abe WPT2020-21
 [more] WPT2020-21
pp.12-17
EMCJ, EMD, WPT
(Joint) [detail]
2020-07-03
13:55
Online Online Mechanism of Wireless Power Transfer Forming the Stair-Like Magnetic Field and Demonstration of Receiving Characteristics (Part 2) -- Mechanism of 3 Stage Magnetic Field Formation by 3 Methods and Comparative Consideration of Equivalent Coupling Factor Distribution --
Hideaki Abe WPT2020-17
In the magnetic coupling, the induced voltage based on the electromagnetic induction action by the interchanging of the ... [more] WPT2020-17
pp.13-18
EMCJ, EMD, WPT
(Joint) [detail]
2020-07-03
14:20
Online Online Demonstration of the Mechanism of Wireless Power Transfer with Multiple Hanging Rings and Receiving Voltage Stability -- Significant Effect of Reciprocating Winding Annular Solenoid Coil Allowing Various Changes of Hanging Ring Posture --
Hideaki Abe WPT2020-18
Research on wireless power transfer has been actively conducted from various viewpoints. The author has been studying a ... [more] WPT2020-18
pp.19-24
WPT 2020-03-07
10:50
Kyoto
(Cancelled but technical report was issued)
Proposal of Synchronous Cooperative Control to LED Elements Group by Wireless Power Transfer (Part 3) -- Demonstration of Light Control in Specific Area using Relay Coil and Theoretical Verification by Equivalent Circuit --
Hideaki Abe WPT2019-75
 [more] WPT2019-75
pp.95-100
WPT 2020-03-07
11:10
Kyoto
(Cancelled but technical report was issued)
Frequency Characteristics Analysis of Efficiency and Voltage in S-SP Type Wireless Power Transfer -- Performance Considerations of Design Spec that Allow Large Changes in k and R by Comparison with S-S,S-P Type --
Hideaki Abe WPT2019-76
 [more] WPT2019-76
pp.101-106
WPT, EE
(Joint)
2019-10-09
13:30
Shiga Ryukoku Extension Center, Ryukoku University Verification of Power Reception Characteristics of S-SP Type Wireless Power Transfer Allows Large Change of Receiving Coil Horizontal Position -- Mechanism of Load Voltage Variation Suppression and Transmitter Side k Estimation --
Hideaki Abe WPT2019-31
Research on wireless power transfer is being conducted from various perspectives. The author has studied a novel mechani... [more] WPT2019-31
pp.25-30
WPT, EE
(Joint)
2019-10-09
13:50
Shiga Ryukoku Extension Center, Ryukoku University Mechanism of Wireless Power Transfer Forming the Stair-Like Magnetic Field and Demonstration of Receiving Characteristics (Part 1) -- Properties of Equivalent Coupling Factor Distribution due to Difference in Series and Parallel Connection of 3 coils with Different Number of Turns --
Hideaki Abe WPT2019-32
Researches on wireless power transfer are actively conducted from various perspectives. The author studied new possibili... [more] WPT2019-32
pp.31-36
EE, IEE-SPC 2019-07-24
14:00
Hiroshima   Research on Synchronous Cooperative Control to LED Load Group Using Wireless Power Transfer by Amplitude Modulation -- Mechanism and Demonstration of Various Light Emission Patterns by Autonomous Light Emission Control --
Hideaki Abe EE2019-22
This research is a study to control different behavior with respect to many independent loads grouped, taking advantage ... [more] EE2019-22
pp.31-36
 Results 1 - 20 of 44  /  [Next]  
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