Document
NXP Semiconductors Data Sheet
WCT1111DS
Features
Compliant with the latest version Wireless Power Consortium (WPC) power class 0 specification power transmitter design
Supports wide transmitter DC input voltage ranging from 4.2 V, typically 12 V and 19 V
Integrated digital demodulation Supports two-way communication, transmitter to
receiver by FSK and receiver to transmitter by ASK Supports all types of receiver modulation strategies (AC
capacitor, AC resistor and DC resistor) Supports Q factor detection and calibrated power loss
based Foreign Object Detection (FOD) framework Supports low standby power Supports various power control techniques: operation
frequency control, duty cycle control, phase difference control and topology switch LED for system status indication Over-voltage/current/temperature protection Supports CAN/IIC/SCI/SPI interfaces Software-based solution to provide maximum design freedom and product differentiation FreeMASTER GUI tool to enable configuration, calibration and debugging
Applications
Extended Power Profile Power Transmitter Extended power profile consumer power transmitter solution with operation frequency and duty cycle control, phase difference control, and topology switch (WPC MP-Ax types, MP-Bx types or customer properties)
Document Number: WCT1111DS
Rev. 1.1 0,9/2016
Overview Description
The WCT1111 is a wireless power transmitter controller that integrates all required functions for WPC “Qi” compliant wireless power transmitter design. It is an intelligent device that works with the NXP touch sensing technology or uses periodically analog PING to detect a mobile device for charging while gaining super low standby power. Once the mobile device is detected, the WCT1111 controls the power transfer by adjusting the operation frequency and duty cycle, or switching topology, or adjusting the phase difference of the power stage according to message packets sent by the mobile device.
To maximize the design freedom and product differentiation, the WCT1111 supports the extended power profile consumer power transmitter design (WPC MP-Ax types, MP-Bx types or customization) using operation frequency and duty cycle control, phase difference control and topology switch by software based solution, which can support wireless charging with both extended power profile power receiver and baseline power profile power receiver. In addition, the easy-to-use FreeMASTER GUI tool has configuration, calibration and debugging functions to provide the user-friendly design experience and reduce time-to-market.
The WCT1111 includes a digital demodulation module to reduce the external components, an FSK modulation module to support two-way communication, a protection module to handle the over-voltage/current/temperature protection, an FOD module to protect from overheating by misplaced metallic foreign objects, and general CAN/IIC/SCI/SPI interfaces for external communications. It also handles any abnormal condition and operational status and provides comprehensive indicator outputs for robust system design.
Wireless Charging System Functional Diagram
Contents
1 Absolute Maximum Ratings .................................................................................................................... 4
1.1 Electrical operating ratings......................................................................................................................................4 1.2 Thermal handling ratings ........................................................................................................................................5 1.3 ESD handling ratings ...............................................................................................................................................5 1.4 Moisture handling ratings .......................................................................................................................................5
2 Electrical Characteristics ......................................................................................................................... 6
2.1 General characteristics............................................................................................................................................6 2.2 Device characteristics..............................................................................................................................................8 2.3 Thermal operating characteristics ......................................................................................................................... 18
3 Typical Performance Characteristics ............................................................................................... 19
3.1 System efficiency .................................................................................................................................................. 19 3.2 Standby power................