Inductive touch sensing EVM detects and measures presence of conductive objects

12-01-2017 | Mouser Electronics | Design & Manufacture

Mouser is offering the LDC2114 Evaluation Module (EVM) for the LDC2112 and LDC2114 inductive touch solutions from Texas Instruments. A new addition to the company’s sensing solutions, the LDC2114EVM demonstrates the use of inductive sensing to detect and measure the presence of conductive objects to implement inductive touch buttons. The device features the LDC2114, a multi-channel low-noise inductance-to-digital converter optimized for inductive touch applications on monolithic surfaces. Inductive sensing technology enables touch button design on a wide variety of materials such as metal, glass, plastic, and wood by measuring small deflections of conductive targets. The sensor for an inductive touch system is a coil that can be implemented on a small, compact PCB located behind a panel and protected from the environment. The device can connect up to four buttons using the LDCCOILEVM or customized coils designed using the WEBENCH Inductive Sensing Designer. The board offers integrated and configurable algorithms for button press detection with onboard LED indicators. It consumes as little as 6µA at 0.625 samples per second, and designers can configure the device at different duty cycles to optimize the power consumption of their system. These inductive touch solutions are 1.8V, multi-channel low-noise inductance-to-digital converters with integrated algorithms to implement inductive touch applications. The two-channel LDC2112 and four-channel LDC2114 devices employ an innovative inductive-capacitive (LC) resonator that offers high rejection of noise and interference, with a wide range of oscillation frequencies from 1 MHz to 30 MHz. With adjustable sensitivity per input channel, they can reliably detect material deflections of less than 200nm with a wide range of physical button structures and materials. The high-resolution measurement further enables the implementation of multi-level buttons. The devices can operate in an ultra-low-power mode of 6µA for optimal battery life, or can be toggled into a higher scan rate for more responsive button press detection for game play or other low-latency applications. The devices are configured through 400Hz I2C, and the only external components necessary for operation are supply bypass capacitors and a COM pin capacitor to ground. The devices are ideal for smartphones, wearable devices, tablets and PCs, virtual reality headsets, remote controls, and HMI panels and keypads.
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By Electropages Admin