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ESCOM ENHANCED SOLUTIONS

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WiDPr-es

Batteryless Differential Pressure Monitoring: Wireless and Autonomous Technology

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ESCOM ENHANCED SOLUTIONS

WiDPr-es

WiDPr-es is a batteryless, wireless differential pressure sensor designed for applications requiring precise measurement between two points, generating its own energy from the environment (energy harvesting). It allows you to monitor filter contamination and HVAC efficiency in real-time without batteries.

Autonomous Energy Harvesting

Completely eliminates the need for batteries by converting thermal or environmental energy in the system into electricity, ensuring limitless data continuity.

Precise Measurement Between Two Points

Detects microscopic differences in industrial systems, clean rooms, and filters with absolute accuracy using High (+) and Low (-) pressure ports.

Flexible Measurement Configurations

Perfectly adapts to different industrial processes and variable pressure ranges thanks to its relative, absolute, and differential measurement capabilities.

Scalable Wireless Network

Supports multiple wireless communication options. Enables real-time pressure monitoring in challenging locations where cabling is impractical.

02
ACCESS AND CABLING CHALLENGES

Areas Where Cabling is Impossible

Maintaining a constant pressure difference in medical areas, laboratories, ventilation ducts, and clean rooms is a vital standard. However, routing data cables to these isolated areas creates a major insulation problem and increases operational workload.

The Cost of Battery Replacement

Using batteries in wireless sensors requires intervention in the sterile environment during periodic replacements. This halts the operation and creates a risk of contamination in sensitive areas.

Blind Spots in Filter and HVAC Systems

The inability to monitor pressure drops in air handling units and filter systems in real-time leads to missed filter blockages and a significant decrease in energy efficiency.

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WIRELESS AND AUTONOMOUS

Self-Powered System

WiDPr-es is designed to operate with energy harvesting technology. It produces its own electricity using the physical potential in the environment, operating batteryless in an infinite loop.

End-to-End Industrial Compatibility

The wireless architecture offered by the device allows you to easily include numerous sensors into the network across the facility. It provides the advantage of rapid commissioning by instantly integrating into challenging industrial configurations.

04
REAL-TIME MONITORING

Wide Application Area

It is a unique diagnostic tool for gas processing plants, pneumatic lines, and fan performance measurements, especially for air handling units (HVAC) and filter blockage tracking.

By communicating with Wi-GaTe gateways or directly with your SCADA systems, it instantly reports critical changes at the mbar level. Move your facility to the digital infrastructure of the future without running cables.

05
TECHNICAL SPECIFICATIONS

Device Advantages

01
Power Source
Energy Harvesting (Batteryless)
02
Measurement Modes
Differential Pressure, Relative, Absolute
03
Communication Protocol
BLE
04
Operating Temperature
Between -20°C and +85°C
05
Connection Points
High (+) and Low (-) Dual Connection
06
Application Areas
Dry Air, Non-Corrosive Gases, HVAC

Monitor Differential Pressure Autonomously

Eliminate battery and cable clutter in your clean rooms, HVAC, and filter systems. Switch to sustainable measurement today.

Product Integration

Frequently Asked Questions

It is primarily manufactured for HVAC (Heating, Ventilation, Air Conditioning), clean room monitoring, and filter blockage detection. However, it can also be safely used in various industrial processes, such as pneumatic lines and laboratories, where cabling is difficult and precise gas/air differential pressure measurement is required.

WiDPr-es operates by generating its own electricity from the environment with energy harvesting technology, without needing an external power cable or battery.

Two separate pressure points are required for Differential Pressure measurement. The High (+) port on the sensor is connected to the high-pressure line, and the Low (-) port is connected to the low-pressure line (or ambient reference). The device calculates the absolute difference between these two points.

By measuring the pressure difference at the inlet and outlet of the filter, it instantly shows the contamination rate of the filter. Thus, it ensures timely intervention (predictive maintenance) before the filter completely clogs and damages the system, or is replaced prematurely.

The sensor utilizes BLE (Bluetooth Low Energy) wireless communication protocol. In facilities where cabling is difficult, a scalable and flexible sensor network is created, and real-time data is instantly transferred to the system.