The HPT710 Micro Differential Pressure Transmitter is engineered for precise measurement of low differential and gauge pressure in non-corrosive gas environments. Designed for industries requiring accurate airflow monitoring, such as HVAC systems, cleanrooms, and industrial automation, this compact device ensures reliable performance across a wide pressure range. Its flexible output options and robust construction make it a preferred solution for modern pressure monitoring applications.
Key Features
- High accuracy measurement with stable performance
- Wide pressure range from ultra-low Pa to high kPa levels
- Multiple signal outputs including analog and digital communication
- Compact and durable design suitable for industrial environments
- Reliable operation in extreme temperature conditions
Design & Functionality
Built with a compact housing, the HPT710 allows easy integration into space-constrained systems. Its advanced sensing technology ensures precise detection of pressure variations, making it ideal for airflow control and gas monitoring systems. The device supports multiple electrical outputs, enabling seamless integration with industrial control systems and automation platforms.
Total Crossed Beams
The optimized internal sensing structure enhances pressure detection sensitivity, ensuring accurate readings even at very low pressure levels. This design improves stability and minimizes drift over time.
Beam Pitch Options
The transmitter supports a wide measuring range configuration, allowing users to select suitable pressure ranges based on application needs, from ultra-low differential pressure to higher industrial ranges.
Intrinsic Synchronism
The sensor ensures synchronized signal output with minimal delay, enabling real-time monitoring and control in dynamic environments such as ventilation systems and process control units.
Operational Advantages
With its IP66-rated protection and wide operating temperature range, the HPT710 is suitable for harsh industrial conditions. It offers long-term reliability, low maintenance requirements, and high compatibility with various systems, making it an efficient solution for pressure monitoring in gas flow, HVAC optimization, and environmental control applications.
