Piezoresistive Pressure Sensors: Core Advantages and Industry Applications

Piezoresistive Pressure Sensors: Core Advantages and Industry Applications

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.

I. Industrial Automation: Precision Control & Safety Monitoring

Industrial scenarios demand stability, anti-interference capability, and range adaptability. Piezoresistive sensors, with temperature compensation and vibration-resistant designs, meet most industrial control requirements.

1. 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:

2. 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).

II. Medical Health: High Precision & Biocompatibility

Medical sensors require accuracy, miniaturization, and biosafety. Silicon-based piezoresistive sensors meet physiological monitoring and device control needs.

1. 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:

2. Medical Device Control

• Applications: Infusion pumps, anesthesia machines.

• Role: Ensure safe fluid/gas delivery (e.g., drug infusion pressure).

III. Automotive Electronics: Reliability & Harsh Environment Tolerance

Automotive sensors must withstand extreme temperatures, vibrations, and long lifespans.

1. 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).

2. Safety & Comfort Systems

• Applications: TPMS, brake pressure, seat air cushions.

• Role: Prevent tire blowouts (TPMS sensors, 0–350 kPa, withstand centrifugal force).

IV. Consumer Electronics: Miniaturization & Cost Efficiency

1. 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).

2. Human-Computer Interaction

• Applications: 3D Touch (iPhone), drone altitude control.

• Role: Enable pressure-sensitive interactions (e.g., 0–500g force detection).

V. Aerospace & Military: Extreme Environment Adaptability

1. Atmospheric Data Measurement

• Applications: Aircraft static/dynamic pressure (ADS), altitude/speed calculation.

• Role: Ensure flight safety (±0.01 kPa accuracy, -60°C–150°C).

2. Military Equipment

• Applications: Missile engines, tank hydraulics.

• Role: Monitor extreme conditions (>200°C, >100 MPa).

VI. Other Specialized Applications

• Meteorology: Weather stations (80–110 kPa).

• Food/Pharma: Sterilization pressure control (food-grade 316L stainless steel).

Summary: Core Advantages of Piezoresistive Sensors

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.