The ceramic piezoresistive transmitter is an industrial instrument that uses thick-film ceramic technology to directly sinter piezoresistors onto ceramic elastic diaphragms to achieve pressure measurement.

• High stability: Long-term drift is typically better than ±0.2%FS/year, ensuring stable and reliable performance.
• Strong overload capacity: Overload can reach several times or even dozens of times the range, with excellent shock and vibration resistance.
• Outstanding corrosion resistance: Ceramic diaphragms can directly contact most corrosive media, and wetted materials can be selected from 316L stainless steel, etc.
• Dry measurement: No filling liquid is used, avoiding possible contamination and temperature gradient effects caused by liquid transmission, making it particularly suitable for the food and pharmaceutical industries.
• Wide temperature range: The operating temperature range is wide, with some products reaching -40°C to +125°C.
• Convenient installation: Compact structure, small size, light weight, and can be installed in any position without being affected by direction.

• Process control: It is used in industries such as petroleum, chemical engineering, power, and metallurgy to measure the pressure of liquids, gases, or steam.
• Corrosive medium measurement: It is suitable for measuring the pressure of strong corrosive media such as hydrochloric acid, sulfuric acid, and caustic soda.
• Food : Due to its lack of filling liquid and no generation of process pollution, it is particularly suitable for hygienic measurement in the food and pharmaceutical industries.
• Hydraulic and pneumatic systems: It is used to monitor the pressure of equipment such as hydraulic stations, cylinders, and air compressors.
• Environmental monitoring and water treatment: It is used for pressure monitoring in fields such as hydrology, environmental protection, and municipal water supply.

Ceramic piezoresistive transmitters, with their high stability, excellent overload and corrosion resistance, and the safety brought by dry measurement, have become the preferred solution for reliable pressure measurement in complex industrial environments.