Smart chip sensor is a kind of sensor with information processing function. It has the ability to collect, process and exchange information. It is the product of the combination of sensor integration and microprocessor. Compared with general sensors, intelligent sensors can not only achieve high-precision information acquisition, but also have lower cost and certain programming automation ability.
In this case, txga provides various types of SCSI connectors, network port connectors, pins, busbars and other products for intelligent chip sensors. The products have small volume, high transmission sensitivity, excellent signal-to-noise ratio and wider frequency measurement range, and still have stable performance under high temperature conditions. Its excellent static and dynamic performance can be widely adapted to different industrial environments.
Industrial temperature and humidity sensors are devices used to measure environmental temperature and humidity, which can continuously monitor the temperature and humidity in the environment and transmit the measurement results to receivers or cloud platforms through wireless signals. Widely used in high-precision temperature and humidity data collection operations in industries, healthcare, warehousing, communication, and other fields.
In response to the data transmission stability requirements of industrial temperature and humidity sensors, TXGA's board to board connectors are designed with a floating structure. The internal spring mechanism of the product can alleviate environmental impact, absorb environmental vibration, and prevent the connector from cracking and damage caused by vibration, drop, and collision during operation, ensuring the data transmission stability of industrial temperature and humidity sensors.
Laser sensor refers to a sensor that uses laser technology to measure the distance, velocity, position, shape, and other information data of a target object. It has advantages such as high precision, high-speed measurement, long distance measurement, and non-contact measurement. Commonly used in fields such as industrial automation, robot navigation, surveying, geological exploration, military applications, drones, and automotive safety systems.
In response to the vibration working environment in which the laser sensor is located, in this case, TXGA developed and produced an FPC connector for the laser sensor using a pull-out structure design. During installation, simply push up the locking buckle to firmly fix the wires inserted into the wire hole and prevent them from loosening. To achieve reliable interconnection of laser sensors in vibration environments.
