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  • High Temperature Piezoelectric FSR Flexible Force Transducer Touch Sensor Robot Tactile Sensor
  • High Temperature Piezoelectric FSR Flexible Force Transducer Touch Sensor Robot Tactile Sensor
  • High Temperature Piezoelectric FSR Flexible Force Transducer Touch Sensor Robot Tactile Sensor
  • High Temperature Piezoelectric FSR Flexible Force Transducer Touch Sensor Robot Tactile Sensor
  • High Temperature Piezoelectric FSR Flexible Force Transducer Touch Sensor Robot Tactile Sensor
High Temperature Piezoelectric FSR Flexible Force Transducer Touch Sensor Robot Tactile Sensor

High Temperature Piezoelectric FSR Flexible Force Transducer Touch Sensor Robot Tactile Sensor

  • 10 - 99 Pieces
    $3
  • 100 - 499 Pieces
    $2.50
  • 500 - 999 Pieces
    $2
  • >= 1000 Pieces
    $1.80

Customization:

OEM SIZE(Min.Order: 1000 pieces)
View product details

High Temperature Piezoelectric FSR Flexible Force Transducer Touch Sensor Robot Tactile Sensor

Product overview

Core functionalities

Applicable scenarios

Unique advantages

  • High-Temperature Piezoelectric Sensing: Detects touch, pressure, and force variations with precision, designed for applications up to high-temperature environments.
  • Multi-Functional Transduction: Converts mechanical pressure into electrical signals via radar-assisted technology, enabling real-time data output for robotics, automation, and electronic systems.

Key features

  • 1. Material Technology

    • With high-temperature-resistant piezoelectric material and flexible FSR (Force Sensing Resistor) design, this sensor maintains accuracy in extreme environments. The silicone-based, ribbed bottom section provides superior grip and shock absorption compared to rigid sensors*, ensuring stable operation even on uneven surfaces.

  • 2. Interactive Design

    • With multi-touch sensitivity and radar-enhanced pressure detection, the sensor enables precise force measurement and real-time feedback. Its ceiling-mountable design allows seamless integration into robotics or industrial systems, unlike floor-mounted sensors limited to static setups*.

  • 3. Performance Parameters

    • With a 12V power supply and transducer output, the sensor delivers rapid signal transmission (up to 20% faster than analog sensors*). Its compatibility with thin, flexible materials ensures adaptability for wearable electronics or compact devices.

  • 4. Scenario Solutions

    • With a ribbed, non-slip base and ruggedized construction, this sensor is ideal for high-traffic commercial use (e.g., robotic arms, industrial automation). Its high-temperature tolerance outperforms standard sensors in environments like automotive manufacturing*.

  • 5. Certification Standards

    • With compliance to industrial safety certifications (e.g., IP67 for dust/water resistance), the sensor meets rigorous commercial standards. Its piezoelectric tech avoids electromagnetic interference, unlike radar-only systems in sensitive electronic setups*.

Product details

High Temperature Piezoelectric FSR Flexible Force Transducer Touch Sensor Robot Tactile Sensor

The Touch Sensor Robot Piezoelectric Tactile Sensor is a high-temperature-resistant, flexible force transducer designed for precision pressure sensing in electronic devices. Its dual-material construction combines a rigid rectangular top section (for structural integrity) with a ribbed, flexible bottom section (for enhanced grip and shock absorption). Engineered for rugged environments, it supports 12V operation and integrates radar technology for advanced force detection.

Technical specifications

FeatureSpecificationApplication Scenario
MaterialHigh-temperature piezoelectric filmIndustrial robotics, automotive sensors
DesignRibbed silicone base + rigid topSecure mounting in slippery or uneven surfaces
TechnologyRadar-based force detectionPrecision pressure monitoring in IoT devices
Voltage Supply12V DCCompatible with standard industrial power systems
Mounting TypeCeiling-mounted designWall or ceiling integration in smart environments
Output TypeTransducer (force-to-electrical signal)Real-time feedback in robotics and automation

Customization guide

Adjustable parameters include:

  • Ribbed texture depth: Customize grip strength for surfaces like metal, rubber, or textiles.
  • Material thickness: Optimize for temperature resistance (e.g., 150°C for industrial use) or flexibility (e.g., 0.5mm for wearable devices).
  • Sensor sensitivity: Calibrate force detection thresholds for light-touch applications (e.g., medical devices) or heavy-duty machinery.

Get inspired

With its modular design, this sensor can transform into a protective mount for drones, a tactile interface for industrial robots, or a shock-absorbing base for fragile electronics. The ribbed texture ensures stability even in high-vibration environments, while the radar integration enables non-contact force monitoring.

Choose your model

ParameterBase ModelAdvanced ModelPro Model
Temperature Resistance85°C+15% (100°C)+30% (110°C)*
Force Detection Range0–10N0–20N0–50N
Radar SensitivityStandard (±2% error)Enhanced (±1% error)Premium (±0.5% error)
Material Thickness1mm2mm3mm

Supplier's note

  1. Technical Breakthroughs:

    • High-temperature piezoelectric film: Enables operation in environments exceeding 100°C, ideal for automotive or industrial machinery.
    • Radar-integrated force detection: Eliminates mechanical wear while achieving ±0.5% accuracy in the Pro model.
    • Customizable ribbed texture: Reduces slippage by 40% compared to flat designs, validated in robotics gripper tests.

  2. Version Selection Guide:

    • Base Model: Suitable for consumer electronics (e.g., smart home devices) requiring basic force sensing.
    • Advanced Model: Optimized for moderate industrial use (e.g., assembly line sensors) with enhanced durability.
    • Pro Model: Designed for extreme environments (e.g., aerospace, chemical plants) where precision and heat resistance are critical.

With the Pro’s triple-industry-standard chemical resistance, you can safely handle corrosive materials in chemical plants. When paired with its 3mm thick base, this creates a stable platform for high-precision robotic arms. For healthcare applications, the Base Model’s lightweight design ensures patient comfort in wearable devices.

Frequently asked questions

  • Which touch sensor model suits high-temperature industrial applications?

  • How do I clean the piezoelectric force transducer’s sensitive surface?

  • What materials make this sensor suitable for robotic applications?

  • Can the sensor’s ribbed base be customized for specific grip needs?

  • Is this sensor FDA-approved for medical devices?

  • How does the 12V voltage supply ensure stable performance?

  • What applications use the radar technology in this force transducer?

  • Does the flexible piezoelectric material handle extreme pressure?

Product comparison

CategoryUsage ScenariosCharacteristicsAdvantagesDisadvantages
Piezoelectric Tactile SensorsRobotics, ProstheticsForce Sensitivity: 0.1N–50N (ISO 9001)▲▲
(Detects subtle to heavy pressures)		Ultra-sensitive for precision tasks (e.g., robotic surgery)Higher cost due to advanced piezoelectric materials
Pressure Sensitivity RangeIndustrial Automation, Haptic FeedbackRange: 0.1N–50N (ISO 9001) vs Industry Standard 0.5N–30N
(Wider usable spectrum)		Covers both light and heavy-force applicationsRequires calibration for extreme precision
Mounting SolutionsCeiling-Mounted Systems (Factories)Ceiling-Mounted Design (IP67 Rated)
(Ribbed base for grip, 12V operation)		Space-efficient and stable for overhead installationsLimited to fixed mounting configurations
Voltage CompatibilityLow-Power Systems12V DC (IEC 60950)▲▲
(Backward-compatible with 5V/24V via adapter)		Widespread compatibility with industrial equipmentRequires adapters for non-standard voltages
High-Temperature OperationHarsh Environments (e.g., Foundries)Operating Temp: Up to 150°C (ASTM E1461)▲▲
(vs Industry Standard 85°C)		Reliable in extreme heat (e.g., automotive testing)Reduced lifespan in prolonged high-temperature use
Material FlexibilityWearable Tech, Flexible RoboticsFlexible Piezoelectric Film (ASTM D2000)
(Curved surfaces, 1mm thickness)		Adapts to non-flat surfaces (e.g., wearable health monitors)Lower durability compared to rigid sensors

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