The WaveEgg Low-Power (LP) EVB is built on the company’s proprietary, high-frequency WaveEgg architecture, which optimises performance and efficiency while reducing component count and form factor in high-performance power converter and wireless power transmission systems.
Suited to wirelessly charging and powering small, smart devices and IoT products, WaveEgg delivers powers between 0.5 W and 30W and can work at extremely high frequencies (from some MHz to tens of MHz, including ISM 6.78 - 13.56 - 27.12 MHz).
WaveEgg offers end-to-end efficiency that is significantly higher than traditional systems, while allowing overall bill of materials (BoM) to be reduced. Using the WaveEgg LP EVB, engineers can create systems with high low-load to full-load efficiency using fewer components than standard class D, class-E, class F, class Phi, and other resonant wireless power transfer solutions - including Qi, - and Airfuel-based technologies.
“Wireless power transfer technology based on conventional designs has limitations in relation to size, bill of materials and efficiency at reduced loads that limits its use for IoT and small smart devices,” said Igor Spinella, Eggtronic’s founder and CEO. “WaveEgg addresses the historical challenges of efficiency and component count for powers up to 30 W and the WaveEgg 6W LP evaluation board provides a platform for engineers to quickly and easily realise practical and commercially viable low-power wireless designs.”
WaveEgg is based on Eggtronic’s EPIC (Eggtronic Power Integrated Controller) ICs which integrate a 32-bit RISC-V core and high-performance digital and analogue peripherals and feature a flexible internal structure that supports control of both standard and proprietary power conversion architectures.
High efficiency over the whole load range is achieved through a proprietary design that achieves zero-voltage-switching (ZVS) and quasi-zero-current-switching (quasi-ZCS) on the transmission side and ZVS+ZCS on the receiving side.
At an output of 6W and a switching frequency of 2 MHz, WaveEgg achieves an efficiency of 85%. The requirement for fewer components than conventional designs contribute to efficiency by reducing losses from non-ideal component behaviour.
Additional component count reduction is possible for battery charging applications as the receiver is also capable of charging a battery through a step-down converter implementing a CC/CV mode algorithm, eliminating the need for a battery charger controller.