Cornes Technologies Signs Agency Agreement with AWL-Electricity. Full-Scale Domestic Rollout of Long-Range, Multiple Simultaneous Wireless Power Transfer Technology Overcoming Conventional Weaknesses
Cornes Technologies has partnered with Canada's AWL-Electricity to introduce a next-generation 'Capacitive Power Transfer' wireless charging technology in Japan. It features long-range, obstacle-penetrating, and simultaneous multi-device charging.
📋 Article Processing Timeline
- 📰 Published: April 7, 2026 at 18:30
- 🔍 Collected: April 7, 2026 at 10:00
- 🤖 AI Analyzed: April 21, 2026 at 00:24 (326h 23m after Collected)
Cornes Technologies Limited (Headquarters: Minato-ku, Tokyo; President: Kazuhiko Nishioka) announces the signing of an agency agreement with AWL-Electricity (Headquarters: Canada; hereafter 'AWL-E'). With this agreement, the domestic rollout of AWL-E's proprietary 'Capacitive Power Transfer' wireless charging technology will begin in earnest.
Next-Generation Wireless Power Transfer Technology Realizing 'Long-Range, High-Power, Multiple Simultaneous, and Safe' operations
The 'Capacitive Power Transfer' method provided by AWL-E is a wireless charging technology that resolves the weaknesses of conventional electromagnetic induction and microwave methods.
- Long Range & Obstacle Penetration: Significantly expands the transmission range, a challenge for conventional electric field coupling methods, enabling 360° omnidirectional power transfer within a maximum range of about 1.5m. Power can be supplied even through shielding materials like metal and walls.
- High Power & Dynamic Charging: Capable of transmitting large amounts of power, maintaining efficiency with a high tolerance for misalignment and charging while in motion.
- Multiple Simultaneous Charging: Enables simultaneous power delivery to multiple devices from a single transmitter.
- Safe and Efficient Charging: Utilizing the capacitive power transfer method eliminates heat generation—a major issue with electromagnetic induction—allowing for safer and more efficient power delivery.
From FA and Robotics to Automobiles and Small Devices: Realizing a Completely Wireless Environment Unbound by Cables
AWL-E's 'Capacitive Power Transfer' method is a technology that can be utilized in a wide range of fields.
Next-Generation Wireless Power Transfer Technology Realizing 'Long-Range, High-Power, Multiple Simultaneous, and Safe' operations
The 'Capacitive Power Transfer' method provided by AWL-E is a wireless charging technology that resolves the weaknesses of conventional electromagnetic induction and microwave methods.
- Long Range & Obstacle Penetration: Significantly expands the transmission range, a challenge for conventional electric field coupling methods, enabling 360° omnidirectional power transfer within a maximum range of about 1.5m. Power can be supplied even through shielding materials like metal and walls.
- High Power & Dynamic Charging: Capable of transmitting large amounts of power, maintaining efficiency with a high tolerance for misalignment and charging while in motion.
- Multiple Simultaneous Charging: Enables simultaneous power delivery to multiple devices from a single transmitter.
- Safe and Efficient Charging: Utilizing the capacitive power transfer method eliminates heat generation—a major issue with electromagnetic induction—allowing for safer and more efficient power delivery.
From FA and Robotics to Automobiles and Small Devices: Realizing a Completely Wireless Environment Unbound by Cables
AWL-E's 'Capacitive Power Transfer' method is a technology that can be utilized in a wide range of fields.