Microchip Introduces High-Voltage Capacitive Touchscreen Line Driver for Advanced Touch Performance

23. Januar 2015
23. Januar 2015
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Microchip Introduces High-Voltage Capacitive Touchscreen Line Driver for Advanced Touch Performance

MTCH65X Increases SNR for Robust Projected-Capacitive Touch Performance.

CHANDLER, Ariz., Oct. 8, 2014 [NASDAQ: MCHP] — Microchip Technology Inc., a leading provider of microcontroller, mixed-signal, analog and Flash-IP solutions, today announced a new addition to its Human Interface Input Sensing Solutions portfolio with a standalone integrated high-voltage line driver to increase Signal-to-Noise Ratio (SNR) for advanced projected-capacitive touch performance—the MTCH65X.

The MTCH652 features an integrated boost converter and can interface to any touch controller via SPI to drive up to 19 Transmit (Tx) channels at selectable voltages up to 18V to increase the SNR in projected capacitive touch systems. The improved SNR increases the robustness of the system in noisy environments, allows thicker cover lenses, and reduces the number of samples and time required by the touch controller to scan large displays. These capabilities are especially important in demanding environments such as white goods (e.g., washing machines, refrigerators and security panels), automotive (e.g., dashboard infotainment and navigation controls), PC Peripherals (e.g. touch pads, displays) and industrial controls (e.g., machine interface) markets, among others.

Also announced today, Microchip’s new 3DTouchPad DM160225 incorporates the new MTCH652 and demonstrates its advantages including advanced touch performance in a noise robust design. The MTCH652’s higher SNR enables Electromagnetic Compatibility (EMC) resistance and is a versatile companion chip to advance multi-touch performance.

“Microchip’s new high-voltage driver MTCH652 provides the industry with a simple high-voltage boost solution that can improve robustness and increase the sensor sizes for today’s touch controllers,” said Fanie Duvenhage, director of Microchip’s Human-Machine Interface Division. “The wide range of input and output voltages supported combined with the ability to daisy chain the MTCH65X devices give our customers more flexibility in their designs.”

“The addition of Microchip’s MTCH652 to our projected-capacitive electronics solution resulted in a more robust design that supports larger size displays up to 24” and facilitated passing 10V/m for Radiated Susceptibility (RS) testing and 10Vrms for Conducted Susceptibility (CS) testing (per IEC61000-4-3 Level 3 and IEC61000-4-6 Level 3),” said Lillian Chao, president of Apex Material Technology Corp (AMT). “In addition, using the MTCH652 helped AMT achieve advanced features such as water immunity and gloved input. Also, AMT was able to easily integrate multiple MTCH652 chips to support larger designs.”

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