4-20mA Pressure Transmitter 304 Stainless Steel Pressure Sensor for Water Oil Air Measurement
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- 4-20mA Pressure Transmitter 304 Stainless Steel Pressure Sensor for Water Oil Air Measurement
4-20mA Pressure Transmitter 304 Stainless Steel Pressure Sensor for Water Oil Air Measurement
Key Features
Wide Pressure Range
• Measures from very low vacuum pressure to high pressure
High Accuracy & Precision
• Typical accuracy: ±0.5% Full Scale (FS)
Multiple Pressure Types Supported
• Gauge Pressure
• Absolute Pressure
• Differential Pressure
• Absolute Pressure
• Differential Pressure
Robust Construction
• Stainless steel (SS316/SS304) body
• Corrosion resistant and long service life
• Corrosion resistant and long service life
Temperature Compensation
• Built-in compensation reduces error due to temperature variation
Fast Response Time
• Suitable for dynamic and real-time pressure monitoring
Analog & Digital Outputs
• 4–20 mA
• 0–5V / 0–10V
• HART, Modbus protocols
• 0–5V / 0–10V
• HART, Modbus protocols
High Stability & Reliability
• Long-term drift typically ≤ ±0.5% FS/year
Compact & Easy Installation
• Threaded connections (1/4" NPT, BSP)
• Quick and simple mounting
• Quick and simple mounting
Overpressure Protection
• Withstands pressure spikes without damage
Low Power Consumption
• Ideal for battery-operated and remote applications
EMI/RFI Protection
• Resistant to electrical noise in industrial environments
Working Principle
1. Basic Working Concept
When pressure is applied to a sensor:
➡️ It acts on a sensing element (diaphragm)
➡️ The diaphragm deforms (deflects)
➡️ This deformation is converted into an electrical signal
2. Main Components
1. Sensing Element (Diaphragm)
- Thin metallic or silicon membrane
- Deforms under applied pressure
- Common materials: Stainless Steel, Silicon, Ceramic
2. Transduction Element
Converts mechanical deformation into an electrical signal.
Types:
- Strain Gauge (most common)
- Capacitive
- Piezoelectric
- Piezoresistive
3. Signal Conditioning Circuit
- Amplifies weak signals
- Converts into standard output signals like:
- 4–20 mA
- Voltage output
3. Step-by-Step Working
Step 1: Pressure Application
- Process pressure (P) is applied through a sensor port
Step 2: Diaphragm Deflection
- Pressure causes the diaphragm to bend
- Deflection is proportional to applied pressure
4. Common Working Mechanisms
✅ A. Strain Gauge Type (Most Widely Used)
- Strain gauges are mounted on the diaphragm
- When deformation occurs:
- Length and cross-section change
- Electrical resistance changes
Principle:
R = ρ (L / A)
- Change in resistance is very small
- Measured using a Wheatstone Bridge
Output:
- Resistance change → Converted into voltage signal
✅ B. Capacitive Pressure Sensor
- Uses two plates:
- One fixed
- One movable (diaphragm)
Principle:
C = ε (A / d)
- Pressure change alters distance (d)
- Capacitance changes accordingly
✅ C. Piezoelectric Pressure Sensor
- Uses crystals like Quartz
Working:
- Pressure generates electric charge directly
Best For:
- Dynamic pressure measurement
- Vibrations and pulsations
✅ D. Piezoresistive (Silicon) Sensor
- Silicon diaphragm with embedded resistors
- Pressure → Stress → Resistance change
Key Feature:
- Very high sensitivity
5. Signal Conversion Process
- Pressure → Mechanical deformation
- Deformation → Electrical change (Resistance / Capacitance / Charge)
- Electrical change → Amplified signal
- Output → Standard industrial signal
6. Output Signals
Typical outputs include:
- 4–20 mA (industry standard)
- 0–10 V / 0–5 V
- Digital outputs (HART / Modbus)
7. Types of Pressure Measurement
✔ Gauge Pressure
- Measured relative to atmospheric pressure
✔ Absolute Pressure
- Measured relative to vacuum
✔ Differential Pressure
- Difference between two pressure points
Industrial Applications
Oil & Gas Industry
• Pipeline pressure monitoring
• Wellhead pressure measurement
• Tank and vessel pressure control
• Compressor & pump monitoring
• Wellhead pressure measurement
• Tank and vessel pressure control
• Compressor & pump monitoring
Chemical & Petrochemical Plants
• Reactor pressure control
• Process safety monitoring
• Corrosive fluid pressure measurement
• Filtration system pressure
• Process safety monitoring
• Corrosive fluid pressure measurement
• Filtration system pressure
Water & Wastewater Treatment
• Pump pressure monitoring
• Filter clogging detection
• Pipeline pressure measurement
• Level measurement using hydrostatic pressure
• Filter clogging detection
• Pipeline pressure measurement
• Level measurement using hydrostatic pressure
Power Plants
• Boiler pressure monitoring
• Steam pressure control
• Turbine pressure supervision
• Condenser vacuum measurement
• Steam pressure control
• Turbine pressure supervision
• Condenser vacuum measurement
HVAC Systems
• Air duct pressure monitoring
• Filter condition monitoring
• Refrigerant pressure measurement
• Cleanroom pressure control
• Filter condition monitoring
• Refrigerant pressure measurement
• Cleanroom pressure control
Manufacturing & Automation
• Hydraulic system pressure
• Pneumatic system control
• Machine safety systems
• Injection molding pressure control
• Pneumatic system control
• Machine safety systems
• Injection molding pressure control
Food & Beverage Industry
• Hygienic pressure measurement
• CIP/SIP system monitoring
• Tank and vessel pressure
• Pasteurization process control
• CIP/SIP system monitoring
• Tank and vessel pressure
• Pasteurization process control
Pharmaceutical Industry
• Sterile process pressure monitoring
• Cleanroom differential pressure
• Bioreactor pressure control
• GMP compliant operations
• Cleanroom differential pressure
• Bioreactor pressure control
• GMP compliant operations
Automotive Industry
• Engine oil pressure monitoring
• Fuel system pressure
• Tire pressure monitoring (TPMS)
• Brake system pressure
• Fuel system pressure
• Tire pressure monitoring (TPMS)
• Brake system pressure
Aerospace & Aviation
• Cabin pressure monitoring
• Hydraulic system pressure
• Fuel system pressure
• Environmental control systems
• Hydraulic system pressure
• Fuel system pressure
• Environmental control systems
Marine & Ship Industry
• Ballast tank pressure
• Engine and fuel pressure
• Hydraulic control systems
• Engine and fuel pressure
• Hydraulic control systems
Mining Industry
• Slurry pipeline pressure
• Hydraulic equipment monitoring
• Dust suppression systems
• Hydraulic equipment monitoring
• Dust suppression systems
Energy & Renewable Sector
• Wind turbine hydraulic pressure
• Solar thermal system pressure
• Gas distribution systems
• Solar thermal system pressure
• Gas distribution systems
Technical Specifications
| Parameter | Specification |
|---|---|
| Measurement Type | Gauge / Absolute / Differential |
| Pressure Range | Confirm at the time of order |
| Accuracy | ±0.5% FS |
| Output Signal | 4–20 mA, 0–5 V, 0–10 V, Digital (HART/Modbus) |
| Supply Voltage | 12–36 V DC (typical 24 V DC) |
| Response Time | ≤ 1 ms to 100 ms |
| Overpressure Limit | 1.5 to 3 times of full scale |
| Burst Pressure | 3 to 5 times of full scale |
| Long-term Stability | ±0.1% FS/year |
| Repeatability | ±0.05% FS |
| Hysteresis | ±0.05% FS |
| Temperature Range (Operating) | -20°C to +80°C |
| Compensated Temperature Range | -10°C to +70°C |
| Process Temperature | Up to 120°C (with cooling option higher) |
| Temperature Effect (Zero/Span) | ±0.02% FS/°C |
| Wetted Parts Material | SS316 / SS304 / Ceramic |
| Housing Material | Stainless Steel / Aluminum |
| Protection Class | IP65 / IP67 / IP68 |
| Electrical Connection | DIN Connector / Cable / M12 |
| Process Connection | 1/4" NPT, 1/2" NPT, BSP Thread |
| Mounting Type | Direct / Panel / Inline |
| Insulation Resistance | ≥100 MΩ @ 500 V DC |
| Media Compatibility | Liquid, Gas, Steam (depending on material) |
| Ingress Protection | Dust-tight & water-resistant |
| Certification (Optional) | CE, ATEX, ISO |
| Weight | 150 g to 500 g (approx.) |
