ST's MEMS sensors and FingerTip technology share a similar architecture, in which a sensing element is connected to a high-performance capacitance-sensing circuit. ST has applied its know-how in analog and mixed-signal interface technology to develop an innovative analog-front-end that is able to detect variations of capacitance in atto-Farads (10- F) and to immunize the system against noise.
Touchscreen applications are subject to noise coming from various sources, including the display, the system, human touch, or battery chargers. Low-cost and poor-quality chargers, in particular, are a source of noise that can be as high as tens of volts and can affect normal operations when a finger touches the screen. When this happens, a strong periodic noise - which could be in the range of 100 V (peak-to-peak) and in the frequency range from 1kHz to 1MHz - will enter into the touchscreen controller's analog front-end and result in 'false' finger touches.
The new FingerTip capacitive sensing technology with its powerful 32-bit DSP (Digital Signal Processing) engine is able to eliminate this sort of charger noise effect and reach higher immunity levels without reducing performance in terms of accuracy, frame rate and power consumption. FingerTip has also been designed to eliminate noises from displays and works with both 'in-cell' and 'on-cell' display technologies.
"Noise from battery chargers pose a special issue for touchscreens, resulting in a poor user experience," said Benedetto Vigna, General Manager of MEMS, Sensors and High Performance Analog Division. "Our leadership in analog capacitive interface IP, developed for MEMS sensors, will allow us to achieve higher noise rejection prior to digital filtering. This new FingerTip technology is able to achieve faster response time, low-power consumption and higher noise rejection required for high-end portable applications."
ST's new product family, based on the new technology, is under evaluation with major customers that can benefit from the FingerTip's: hand writing capability with a small stylus; fast response time; ultra-low power consumption; best