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INTRODUCTION TO FOOT STEP ELECTRICITY GENERATOR IMG_7797, (CORE CONCEPT,…
INTRODUCTION TO FOOT STEP ELECTRICITY GENERATOR
WORKING PRINCIPLE
Footstep Pressure activates piezoelectric crystals or electromagnetic components.
Energy Harvesting from footstep compression.
Conversion of mechanical energy into electrical energy using a generator.
Storage of the electrical energy in batteries for continuous supply.
TYPES OF
GENERATORS
Piezoelectric Generators
Generate electricity from mechanical stress/pressure.
Electromagnetic Generators
Use magnetic induction to generate electricity when pressure is applied.
Main Components
Pressure Sensor / Piezoelectric Materials
Converts the pressure from footstep into electrical energy.
Generator
Converts mechanical motion into electrical energy.
Storage System (Battery/Capacitor)
Stores generated electricity for later use.
Load (Light, Devices)
Powers small electrical devices, such as LEDs, fans, etc.
Advantages
Renewable energy source
Harnesses human movement without the need for fossil fuels.
Environmentally friendly
Reduces dependency on non-renewable resources.
Low cost of operation
No fuel required; just human activity.
Portability
Can be used in many environments (buildings, stations, sidewalks).
Future Scope : : :
Integration with IoT
Use in smart cities for energy-saving.
Improvements in energy efficiency and larger-scale applications.
CORE
CONCEPT
Converts mechanical energy (footstep motion) into electrical energy.
Sustainable energy source using human activity.
Cost of installation
Innovation
