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High Load Force Sensing Resistor
A High Load Force-Sensing Resistor is a compact, flexible sensor built for applications requiring stable force detection under concentrated and repeated loading. Supporting up to 20 kg per sensing point, it is designed for demanding sensing environments where consistent performance under high-force input is essential.
These sensors share the same form factor as standard FSR models, making them straightforward to integrate into designs that require higher load capacity.
Stable Force Detection for High-Load Sensing Applications
High Load Force-Sensing Resistors provide a reliable way to measure concentrated force and pressure in applications that demand stable sensing under stronger and repeated loading conditions.
How High Load FSR Works
A High Load Force-Sensing Resistor responds to applied force through electrical resistance variation — as force increases, resistance changes proportionally, enabling the system to detect and monitor force input. Rated for concentrated loads up to 20 kg at a single sensing point, it delivers consistent and stable output through sustained and repeated high-force use.
Key Features
- Concentrated load sensing up to 20 kg per sensing point.
- Same compact form factor as standard FSR models.
- Stable resistance output under repeated high-force loading.
- Flexible, thin construction for embedded and wearable integration.
Applications
- Smart Insoles and Gait Analysis: Each footstep concentrates significant force onto discrete contact points. High Load FSRs deliver reliable pressure data for step detection and weight distribution across real-world loading conditions.
- Robotic Foot and Ground Contact: Ground contact in legged robotic systems generates localized force at each contact point. High Load FSRs provide stable feedback for contact detection and load monitoring in robotic foot and leg designs.
- Rehabilitation and Therapeutic Monitoring: Limb loading, seating pressure, and therapeutic force applications benefit from consistent sensor output that holds up across the full expected force range.
- Wearable Pressure Interfaces: Body-worn devices and compression applications require sensors that maintain stable performance through sustained, repeated contact loading cycles.
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