Wireless charging/NFC reference design from Melexis and Freescale

Wireless charging/NFC reference design from Melexis and Freescale

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By eeNews Europe

The initial target for this reference design is automotive console applications. The stringent requirements of any electronic system deployed in the passenger compartment include EMC, RFI and EMI at a number of frequency bands and power levels. The joint reference design of Melexis and Freescale demonstrates the successful possibility to achieve a road worthy result. This design is built around the MLX90132 NFC Transceiver IC from Melexis and the MWCT1003AVLH controller IC from Freescale.

The NFC standard for secure, short range communication for point of purchase and access control has gained a strong and growing position in mobile handsets. Melexis has pioneered this technology for Entry-and-Go and PKE (Passive Keyless Entry) solutions in cars with introduction of its MLX90132 NFC transceiver IC. The uptake of wireless charging is accelerating rapidly. The WCT-5WTXAUTO reference design developed jointly by Melexis and Freescale brings together the best attributes in both technologies. Melexis works with automotive Tier suppliers for the integration and deployment of NFC solutions in cars for applications such as, automatic pairing of mobile devices to the media centre (e.g. Wi-Fi or Bluetooth technologies) and automatic identification of the User and download of personal settings. NFC technology can also be used for access control and start, to allow NFC enabled handsets to be the “key” to enter and drive away a car. With this reliance on a wireless lifestyle it is more critical than ever that the enabling device, a smartphone or tablet, be kept in a state of maximum charge. Wireless charging deployed in homes, cars, businesses and public spaces is an obvious solution. Bringing both wireless charging and NFC together enable new capabilities and conveniences, says Melexis.

The reference design includes all the required hardware and associated software drivers to allow fully autonomous behaviour of the wireless charging subsystem, controlled via a standard compliant NCI (NFC Controller Interface). The co-existence is managed on the hardware side through a careful antenna design and on the software side via dedicated control interface. The system can either run in fully autonomous way or be driven by standard compliant upper NFC software stacks (e.g. NFCStack+ from Stollmann).

Beyond the automotive environment, the reference design is suited to a variety of markets relying on personal handsets, where a combination of secure identification and payment combined with battery charging is required. This includes, for example, information and advertisement booths in waiting lounges, restaurants and wireless docking stations.

Melexis; /


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