Description
The Rosemount VP-6 Conductivity/Ozone/Chlorine Cable with a 10′ length is a high-quality cable designed for use with Rosemount conductivity, ozone, and chlorine sensors. With its optimal length and durable construction, this cable provides reliable connectivity and accurate measurements in various industrial and environmental monitoring applications.
Specifications
- Cable Type:
- Conductivity/Ozone/Chlorine
- Cable Length:
- 10 feet (approx. 3.05 meters)
- Connector Type:
- Rosemount proprietary connector
- Compatibility:
- Rosemount sensors with matching connector
- Material:
- High-quality, durable materials
- Operating Temperature:
- -20°C to 80°C
Features
- Optimal length for versatile installation
- Durable construction for long-term reliability
- Seamless connectivity with Rosemount sensors
- Compatible with conductivity, ozone, and chlorine sensors
- High-quality materials for optimal performance
- Wide operating temperature range
- Easy to install and use
Applications
- Water treatment plants
- Industrial process monitoring
- Environmental monitoring
- Pool and spa water quality management
- Agricultural water management
- Research laboratories
- Chemical processing facilities
Description
The Rosemount VP-6 Conductivity/Ozone/Chlorine Cable with a 10′ length is designed to provide reliable connectivity and accurate measurements for conductivity, ozone, and chlorine sensors. Its optimal length allows for versatile installation in various industrial and environmental monitoring applications, providing flexibility and ease of use.
Constructed with high-quality and durable materials, this cable ensures long-term reliability and performance even in demanding operating conditions. It seamlessly connects with Rosemount sensors, providing consistent and precise measurements for efficient monitoring of conductivity, ozone, and chlorine levels.
Whether used in water treatment plants, industrial processes, or environmental monitoring projects, the Rosemount VP-6 Cable with a 10′ length offers the durability, reliability, and performance required for accurate and efficient monitoring of water quality parameters.