High-Reliability Intelligent Monitoring and Control Solution for Agricultural Machinery Engineering Vehicles

Core technology

　　Currently, agricultural machinery is undergoing a rapid transformation toward intelligence and precision. The pressure monitoring of critical components—such as hydraulic systems and transmission units—is directly linked to operational accuracy, energy efficiency, and safety. However, agricultural machines are constantly exposed to harsh operating conditions characterized by vibration, dust, humidity, and significant temperature fluctuations. As a result, conventional pressure sensors are prone to issues like drift and seal failure, leading to control malfunctions, increased fuel consumption, and frequent maintenance requirements. These problems severely impact operational efficiency and economic returns.

　　In response to the challenges outlined above, we have specially developed a high-performance pressure sensor tailored for smart agriculture in farming environments. Relying on a robust sensor structure and advanced environmental tolerance technologies, this product boasts exceptional resistance to vibration, dust, and water, as well as a wide operating temperature range. It can be reliably deployed in a variety of complex operational settings. We are committed to providing dependable and precise pressure-sensing solutions that help agricultural machinery manufacturers and users enhance equipment reliability, achieve accurate control and intelligent maintenance, and offer solid support for the advancement of modern agriculture.

Product Advantages

Service Guarantee

Core technology

　　The nano-film technology independently developed by Sensor Nobleman integrates several core technologies, including specialized metallic elastomers, novel sensitive materials, and vacuum atomic film deposition. Sensors built on this technology achieve atomic-level bonding between the sensing element and the elastomer, fundamentally overcoming the zero-point drift issue commonly encountered in traditional sensors due to structural slippage. These sensors boast exceptional characteristics such as high accuracy, minimal temperature drift, a wide operating temperature range, excellent stability, and robust resistance to vibration and shock, enabling them to operate reliably over extended periods in a variety of harsh environments.