Microchip Releases Qi v2.0 Standards-Compliant Wireless Dual-Pad Reference Design

March 20 2024, 09:10
As major charger manufacturers, including those in the automotive industry, are working to implement Qi v2.0 (Qi2) standards, Microchip Technology has released a Qi2 dual-pad wireless power transmitter reference design. The new wireless dual-pad charging design - using fully-automotive qualified Microchip components - supports both Qi2's Extended Power Profile and Magnetic Power Profile with a single controller.
 

Powered by a single dsPIC33 Digital Signal Controller (DSC), the Microchip Qi2 reference design offers a key feature of the new Qi2 standard, recently released by the Wireless Power Consortium (WPC), which is the introduction of a Magnetic Power Profile (MPP) with support for magnetic alignment between the transmitter and the receiver derived from Apple's MagSafe. The DSC's flexible software architecture enables the support of a combination of MPP and Extended Power Profile (EPP) of Qi2 with one controller. This Extended Power Profile (EPP) introduces bi-directional communication, negotiation, calibration, and re-negotiation states to improve foreign object detection.

Utilizing the Qi2 reference design helps minimize customer risk in certifying a final product, which is required to pass through the Qi certification process. As it integrates several of Microchip's automotive-qualified parts, the dual-pad charger also meets automotive standards for reliability and safety. The automotive-grade hardware and software solution enables easier automotive integration with support for AUTomotive Open System ARchitecture (AUTOSAR) and AUTOSAR Microcontroller Abstraction Layer Architecture (MCALs), functional safety and more. An integrated CryptoAuthentication IC provides security to meet the stringent authentication requirement of Qi standards. 

"The dual-pad reference design provides manufacturers of automotive charger modules with the flexibility and programmability to optimize MPP Power Loss Accounting (MPLA) and Q-Based Foreign Object Detection (Q-FOD) and minimize time to certification. It also allows for the seamless integration into the automotive environment," says Joe Thomsen, vice president of Microchip’s digital signal controllers business unit. "The automotive-grade design and full range of hardware and software support help our customers optimize their end solutions and decrease time to market."

As part of the reference design, Microchip can deliver design files and software designed to create an easy design experience and first-pass success. The design includes the dsPIC33 DSC and a TA100/TA010 Trust Anchor secure storage subsystem provisioned by Microchip as a licensed Wireless Power Consortium (WPC) Manufacturer Certificate Authority. Additionally, the design also includes Microchip's ATA6563 CAN transceiver, MCP14700 gate drivers and MCP16331 and MCP1755 regulators. 
www.microchipdirect.com
 
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