Wireless Pressure Sensors

Wireless Pressure Sensors

Key Features

-Completely wireless operation eliminates the need for expensive trenching and hard-wiring in remote or hazardous areas

-Supports enterprise-grade communication, including LoRaWAN, 4G/NB-IoT, and Bluetooth for seamless network integration

-Housed in an IP67/IP68 rated 316L stainless steel enclosure, ensuring resistance to harsh chemicals, moisture, and extreme outdoor weather

Advanced power management enables up to 3–5 years of operation on a single battery, perfect for remote field deployments

-Simultaneously measures and transmits both pressure and temperature data, providing a deeper understanding of process health

-MEMS-based piezoresistive sensing element guarantees long-term stability and ±0.25% FS (Full Scale) accuracy

-Robust signal shielding protects data integrity against electromagnetic interference commonly found in heavy machinery and electrical environments

-Fast commissioning via mobile app or PC software, allowing for rapid scaling of monitoring nodes across your entire facility

-Configurable alarm thresholds for high/low pressure spikes, notifying your team instantly via SMS or cloud dashboard

-Designed for easy integration with standard ISA100 or LoRaWAN gateways, making it compatible with existing IIoT architectures

Industrial Wireless Pressure Transmitter | IIoT-Ready Remote Monitoring

The Future of Industrial Pressure Monitoring

The move toward Industrial IoT (IIoT) is transforming how plants operate, and our Industrial Wireless Pressure Transmitter is at the forefront of this shift. By replacing traditional, labor-intensive wired infrastructures—which require conduit, junction boxes, and expensive person-hour—our wireless solution provides a scalable, plug-and-play architecture for pressure monitoring across geographically dispersed assets.

Engineered for reliability in harsh environments, these sensors provide high-frequency, encrypted data transmission, allowing maintenance teams to transition from reactive repairs to predictive maintenance strategies.

Wireless Pressure  Transducer Specification

FeatureIndustrial Grade Specification
Sensing PrincipleMEMS Piezoresistive / Silicon-on-Sapphire
Pressure Range0–15 PSI to 0–10,000 PSI (Gauge/Absolute)
Accuracy±0.25% FS (Total Error Band including thermal)
Communication RangeUp to 5km (LoRaWAN) / 300m (Bluetooth)
Data EncryptionAES-128 / AES-256 bit hardware-level encryption
Update RateUser-selectable (1s to 24h)
Environmental-40°C to +85°C, 0-100% RH
CertificationsCE, FCC, RoHS, ATEX/IECEx (Optional)

Applications of Wireless Pressure  Sensor

  • Oil & Gas Pipeline Integrity: Remote monitoring of wellheads, pumping stations, and cathodic protection pressure without laying cables over miles of terrain.

  • Water Distribution Networks: Tracking pressure transients in underground municipal pipes to prevent burst events and non-revenue water loss.

 

  • Manufacturing/Automation: Providing pressure feedback for mobile robots, AGVs, and modular production cells that require frequent relocation.

 

  • Process Chemical Plants: Continuous monitoring of corrosive media in storage tanks where explosion-proof wiring is prohibitively expensive.

 

  • Facility Management: Monitoring compressed air efficiency and HVAC system differentials across large commercial complexes.

FAQ

Q1: How does wireless transmission affect data accuracy?
Unlike legacy analog wiring which can suffer from signal degradation and ground loops, our digital wireless transmission maintains 100% bit-for-bit data integrity from the sensor to the gateway, ensuring the accuracy at the dashboard matches the sensor’s raw output.

 

Q2: What happens if the network connection drops?
Our sensors feature onboard data logging (Local Buffer). In the event of a gateway connection drop, the transmitter stores readings locally and performs an automatic “backfill” upload once the connection is restored, ensuring zero data loss.

 

Q3: Can I integrate these into my existing SCADA/PLC?
Yes. Our wireless gateways provide industry-standard outputs like Modbus TCP/IP or Ethernet/IP, making it easy for your PLC to “see” the wireless sensors just like a traditional wired sensor.

 

Q4: Is wireless monitoring secure?
Security is our top priority. We use industry-standard encryption protocols (AES) and offer private APN or localized gateway options to ensure your process data never touches the public internet if not desired.

 

Q5: What is the benefit of a wireless differential pressure sensor?
A wireless differential sensor is essential for filter monitoring (Delta P) across large plants. It allows you to track filter clogging in real-time, replacing the expensive “check-every-week” manual maintenance schedule.

Related Products:

Board Mount Pressure Sensor
TPMS Sensor
MAP Sensor
Barometric Pressure Sensor
Fuel Tank Pressure Sensor
Differential Pressure Sensor
Pressure Transmitter
Boost Pressure Sensor
Fuel Rail Pressure Sensor
Transmission Fluid Pressure Sensor
Thin Film Pressure Sensor

 

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Strict Production Process

Product Design

Engineers develop optimized electronic circuits and structural designs based on real application needs.

Premium Component Sourcing

High-quality components and materials are carefully selected from trusted suppliers to ensure long-term reliability.

Advanced PCB Manufacturing

Automated SMT and precision soldering technologies are used to build stable and high-performance circuit boards.

Precision Assembly

Sensor elements or connector terminals are assembled with the PCB and housing to ensure accurate operation and strong mechanical stability.

Calibration & Performance Testing

Each product undergoes strict calibration and functional testing to guarantee accuracy and stable performance.

Final Quality Inspection & Packaging

Every unit is carefully inspected, labeled, and securely packaged to ensure it arrives safely and performs reliably for your applications.

Strict Production Process of Yafeite