Product Features
Certification Compliance
The sensing cable has CE/RoHS certification and third-party testing certification, and has been awarded a patent certificate by the National Patent Office, ensuring product quality and technical compliance.
High Stability & Accuracy
The resistance of the sensing cable is uniform, with an error within 1%. For leakage detection systems where resistance is an important parameter, it provides high stability and accuracy in detection and location.
Wide Applicability
The sensing cable is equipped with a unique waterproof plastic connector, making it convenient for cascading and expanding the detection range. Various length specifications are available to meet the needs of different detection ranges.
Long Service Life
The spiral structure design of the cable not only reduces environmental electromagnetic interference and false alarm rate but also greatly improves the strength and service life of the cable.
Easy Installation & Construction
The cable is highly flexible and can be installed in complex and curved pipe environments.
Product Parameters
| Parameter Item | Technical Index |
|---|
| Cable Diameter | 6.0mm |
| Number of Conductors | 4 |
| Cable Weight | 500g/15m ± 10g/15m |
| Cable Resistance | 13Ω/m |
| Flame Retardancy | V-0 |
| Operating Temperature | -20~75℃ |
| Abrasion Resistance | >65 cycles |
| Sensing Wire | 2×30 AWG, with conductive fluoropolymer sheath |
| Tensile Strength | ≤90kg |
| Fire Resistance | Class 2 cable |
| Leakage Quantity | Maximum 30mm |
Product Application Scenarios
Covered Enterprises
Medical and health care, power engineering, water supply, financial institutions, education and training, communication towers, lifting machinery, construction machinery, transportation, and other enterprises and institutions.
Application Scenarios
Water supply pipelines, data centers, IDC computer rooms, intelligent buildings, warehouses, factory workshops, and other scenarios involving liquid leakage.Note: The sensing wires should avoid being laid in environments with corrosive gases and other sources of electronic noise interference.
When liquid comes into contact with the sensing wires, the inner core wires of the two sensing wires conduct electricity upon contact with the liquid, forming a loop resistance, thereby causing a change in current. Based on the proportional relationship between resistance and conductor length, the controller performs rapid calculations and issues an alarm signal, indicating the specific location of the leakage.
