Capacitive Touch Sensors, Proximity Sensor ICs

Capacitive touch sensors and proximity sensor ICs are advanced pieces of technology that play a central role in a variety of applications. Capacitive touch sensors are devices that are capable of detecting and measuring anything that is conductive or has a dielectric different from air. These sensors are typically used for touch-sensitive buttons and sliders, mouse pads, and other interactive surfaces. On the other hand, proximity sensor ICs are Integrated Circuits (ICs) designed to detect the presence or absence of an object without making physical contact, commonly used in mobile devices, robotics, and industrial automation to avoid collisions and maintain certain distances.

Capacitive touch sensors are specifically designed for control panels, automotive systems, and handheld devices. They provide optimal user interfaces by recognizing different touch positions, enhancing the interaction between the user and the device. Proximity sensor ICs, meanwhile, find distinctive applications in fields like security systems, vehicle sensor systems, robotics, and others. They are characterized by their high degree of reliability, long operating life, and the ability to function in a variety of environmental conditions. Notable manufacturers of these products include STMicroelectronics, Texas Instruments, Analog Devices Inc., and Broadcom Limited.

Search within results
Filter by Manufacturers
Apply

Categories

Image
Part Number
Manufacturer
Description
Inquiry
IC TOUCH BUTTON CTLR 28QFN
RFQ
IC TOUCH BUTTON CTLR 28QFN
RFQ
IC TOUCH BUTTON CTLR 28QFN
RFQ
IC TOUCH BUTTON CTLR 28MLPQ
RFQ
IC TOUCH SENSOR 12CH 32 MLPQ
RFQ
IC SENSOR MAXTOUCH 768CH
RFQ
IC MCU SENSOR TOUCH/PROX 8UFDFPN
RFQ
IC TOUCH SENSOR/LED DRVR 10DFN
RFQ
IC TOUCH SENSOR/LED DRVR 10DFN
RFQ
 
12345 ... 16 Go to Page Go
Electronic Parts Index
More
# 0 1 2 3 4 5 6 7 8 9 A B C D E F G H I J K L M N O P Q R S T U V W X Y Z

We value your privacy

Our website uses cookies to ensure you are getting the best browsing experience, serve personalized content, and analyze our traffic.
By clicking "Accept Cookies", you consent to our use of cookies. Privacy Policy