The HPT607 Submersible Borehole Level Sensor is engineered for precise and continuous liquid level measurement in deep wells, boreholes, and reservoirs. Designed to perform in demanding industrial environments, this sensor supports applications across water management, oil & gas exploration, chemical processing, HVAC systems, and marine operations. Its hydrostatic sensing technology ensures stable, long-term monitoring even under extreme pressure and temperature conditions.
Key Features
- High-accuracy hydrostatic level measurement
- Wide measurement range up to 500 meters water column
- Multiple output signals including analog and digital communication
- Rugged IP68 waterproof design for full submersion
- Excellent long-term stability with minimal drift
Design & Functionality
The HPT607 features a compact, corrosion-resistant stainless steel housing designed for continuous immersion. Its sealed cable system ensures reliable data transmission while protecting internal electronics from moisture and contaminants. The sensor converts liquid pressure into precise electrical signals, enabling accurate level monitoring in wells, tanks, and pipelines.
Total Crossed Beams
Engineered with advanced sensing elements, the device ensures uniform pressure detection across varying depths. This allows consistent performance in fluctuating fluid conditions commonly found in wastewater plants and oil reservoirs.
Beam Pitch Options
Flexible measurement configurations allow adaptation to different depth requirements, from shallow tanks to deep groundwater monitoring systems. This versatility supports a wide range of industrial and environmental applications.
Intrinsic Synchronism
The sensor maintains signal stability through integrated temperature compensation and low nonlinearity performance. This ensures synchronized and accurate readings even in environments with temperature variations.
Operational Advantages
The HPT607 offers reliable performance in critical industries such as water treatment, chemical processing, and marine systems. Its durable construction minimizes maintenance needs, while its compatibility with automation systems enhances process control efficiency. Engineers and operators benefit from real-time data accuracy, improved system reliability, and reduced operational downtime.
