The DPS2200W is an advanced differential pressure switch engineered for demanding industrial applications requiring precise pressure monitoring and control. Designed to operate reliably in harsh environments, it combines durability, accuracy, and safety to support critical processes in fluid handling, water systems, and industrial automation.
Key Features
- Weatherproof IP66 enclosure for outdoor and rugged conditions
- Stainless steel (SS316) wetted parts for corrosion resistance
- Welded diaphragm pressure sensing element for stability
- High switching capacity with SPDT and dual SPDT options
- Adjustable pressure range for flexible industrial use
Application
The DPS2200W is widely used in industries such as water treatment plants, chemical processing, oil and gas systems, and manufacturing facilities. It is ideal for monitoring liquid levels, controlling pumps, ensuring safe pressure conditions, and protecting equipment from overpressure or failure.
Design & Functionality
Built with a welded diaphragm sensing mechanism, the DPS2200W ensures accurate pressure detection and long-term reliability. The robust construction minimizes wear and ensures consistent performance even under fluctuating pressure conditions. Its microswitch configuration allows precise control signals for automation systems.
Total Crossed Beams
The internal mechanism is optimized for stable pressure response, ensuring consistent switching behavior. This enhances reliability in continuous operations and reduces false triggering.
Beam Pitch Options
The adjustable pressure range allows flexible calibration, making it suitable for different industrial setups. This adaptability ensures compatibility across various fluid control systems.
Intrinsic Synchronism
The DPS2200W maintains synchronized switching performance, ensuring smooth integration with automated control systems. This helps improve operational efficiency and reduces downtime.
Operational Advantages
With its high durability, precise control, and weatherproof design, the DPS2200W enhances safety and efficiency in industrial environments. It reduces maintenance requirements, prevents equipment damage, and ensures stable system performance, making it a reliable solution for pressure monitoring and control.
