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With high sensitivity, fast response, compact size, and cost-effectiveness (especially after mass production), piezoresistive pressure sensors are widely used in industrial automation, medical devices, consumer electronics, automotive, aerospace, and other fields. They cover scenarios from low-pressure/micro-pressure monitoring to medium/high-pressure control, and from static pressure measurement to dynamic pressure capture.
Industrial scenarios demand stability, anti-interference capability, and range adaptability. Piezoresistive sensors, with temperature compensation and vibration-resistant designs, meet most industrial control requirements.
Fluid Pressure Control
Injection molding machines (0–30 MPa sensors) stabilize plastic molding pressure.
Urban water networks (0–1 MPa sensors) prevent pipe bursts or low pressure.
Applications: Hydraulic/pneumatic systems, constant pressure water/gas supply, pipeline monitoring (e.g., petrochemical, water treatment).
Role: Real-time fluid (liquid/gas) pressure feedback to regulate pumps/valves, preventing equipment damage or inefficiency.
Examples:
Equipment Condition Monitoring
Applications: Compressors, vacuum pumps, leak detection in pressure vessels.
Role: Detect faults (e.g., abnormal compressor pressure) or leaks via transient pressure changes (response time <1 ms).
Medical sensors require accuracy, miniaturization, and biosafety. Silicon-based piezoresistive sensors meet physiological monitoring and device control needs.
Physiological Pressure Monitoring
Intracranial sensors (<1 mm3) monitor pressure (0.7–2.0 kPa) to prevent brain injury.
Applications: Blood pressure (sphygmomanometers), intracranial pressure, eye pressure, ventilators.
Role: Provide diagnostic data (e.g., ±0.5 kPa accuracy in blood pressure sensors).
Examples:
Medical Device Control
Applications: Infusion pumps, anesthesia machines.
Role: Ensure safe fluid/gas delivery (e.g., drug infusion pressure).
Automotive sensors must withstand extreme temperatures, vibrations, and long lifespans.
Powertrain Pressure Monitoring
Applications: Engine intake (MAP sensors), fuel/oil pressure.
Role: Optimize fuel injection/ignition timing (e.g., MAP sensors, 0–100 kPa, -40°C–125°C).
Safety & Comfort Systems
Applications: TPMS, brake pressure, seat air cushions.
Role: Prevent tire blowouts (TPMS sensors, 0–350 kPa, withstand centrifugal force).
Wearable Devices
Applications: Smartwatches (heart rate via vascular pressure), smart insoles (gait analysis).
Role: Enable health monitoring (e.g., 0–10 kPa sensors for pulse detection).
Human-Computer Interaction
Applications: 3D Touch (iPhone), drone altitude control.
Role: Enable pressure-sensitive interactions (e.g., 0–500g force detection).
Atmospheric Data Measurement
Applications: Aircraft static/dynamic pressure (ADS), altitude/speed calculation.
Role: Ensure flight safety (±0.01 kPa accuracy, -60°C–150°C).
Military Equipment
Applications: Missile engines, tank hydraulics.
Role: Monitor extreme conditions (>200°C, >100 MPa).
Meteorology: Weather stations (80–110 kPa).
Food/Pharma: Sterilization pressure control (food-grade 316L stainless steel).
Advantage | Application | Examples |
|---|---|---|
High sensitivity (mV/kPa) | Micro-pressure, physiological signals | Medical, wearables |
Fast response (<1 ms) | Dynamic pressure capture | Automotive, industrial |
Miniaturization | Implantable devices | Medical, consumer |
Harsh environment (-40°C–150°C) | Engine compartments, aerospace | Automotive, military |
Cost-effective (mass production) | Consumer electronics, batch applications | Smartphones, home appliances |
Piezoresistive sensors, with their customizable ranges, packages, and precisions, remain the most widely adopted pressure-sensing technology.
For specific inquiries, please contact our NOIKE technical team.
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