#Footsteppower #inspireawardproject #piezoelectric #Footsenergy
How to make : Piezoelectric based Footstep Power Generation Project
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In this project, we utilize piezoelectric modules to harness mechanical energy from footstep pressure, generating a steady 5V of electrical energy. This energy is then efficiently stored in a 4V battery. To achieve the desired 12V charging level for the battery, we employ a voltage booster. Once the battery reaches its target voltage, a DC to AC circuit is employed to convert the direct current into alternating current (AC). Finally, by simply flipping a switch, the AC current powers a bulb, causing it to glow. This innovative system presents several advantages, including environmentally-friendly energy harvesting from footstep pressure, efficient voltage conversion with the voltage booster, and the ability to power an AC device using the stored energy, providing illumination through the bulb.
A piezoelectric sensor is a type of sensor that uses the piezoelectric effect to convert mechanical stress or pressure into an electrical charge or voltage, or vice versa. This effect is observed in certain materials like quartz, ceramics, and some polymers. Piezoelectric sensors have a wide range of applications, including in industrial, automotive, medical, and consumer electronics fields. Here's a basic overview of how a piezoelectric sensor works and how you might use it:
Working Principle:
Piezoelectric Material: A piezoelectric sensor is made from a material that exhibits the piezoelectric effect. When mechanical stress or pressure is applied to this material, it generates electric charges on its surface.
Generation of Charge: When the material is subjected to mechanical deformation (e.g., pressure, vibration, or impact), the arrangement of atoms within the material changes, causing a displacement of electrons and the generation of an electric charge across its surfaces.
Voltage Output: This electric charge generates a voltage across the sensor's terminals, which can be measured using appropriate electronics. The magnitude of the voltage is proportional to the applied mechanical force or pressure.
Use in Sensing: In many applications, this generated voltage is used to sense or measure the force, pressure, or acceleration applied to the sensor.
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8 окт 2024
