EelectricEnergy Harvesting

Through Piezoelectric Polymers

Initial Prototype Presentation

Don Jenket, II

Kathy Li

Peter Stone

April 13, 2004 Eelectric Initial Prototype

Presentation OverviewDesign SchematicsMaterials & Processing JustificationCircuitryTailWire/Electrodes

Initial Prototype UnveilingImprovements for Final DesignRevised Timeline

April 13, 2004 Eelectric Initial Prototype

Design Schematic

Fan

Rectifier

Electronics Housing

April 13, 2004 Eelectric Initial Prototype

Circuitry Schematic

AC

LED

Capacitors

Diodes

April 13, 2004 Eelectric Initial Prototype

Materials & Processing Justifications

Circuitry – Germanium diodesRequire less voltage to bias (0.2V)

Fewest diodes used as possibleFewer voltage dropsLess power consumed by the circuit

Storage DeviceCapacitors used to store energy

April 13, 2004 Eelectric Initial Prototype

“Eel Tail” Schematic

Top View

Side View Front View

Cu Wire

12 cm

2 cm

12 cm 2 cm

0.04 mm

Cu Wire

Silver paste

Titanium Electrodes

Titanium Electrode

Head EndTail End

April 13, 2004 Eelectric Initial Prototype

Materials & Processing Justifications

Tail, Material – PVDF

April 13, 2004 Eelectric Initial Prototype

Materials & Processing Justifications

Tail, Aspect Ratio – 2 cm x 12 cm

April 13, 2004 Eelectric Initial Prototype

Materials & Processing Justifications

Electrodes – Titanium & Silver Paste Gold desired in place of Titanium

Easier processing Better properties in air

Wires – 5 mil insulated magnet wire Flexible Coiled, Wound, Twisted – noise reduction Can come in contact with other conductors (i.e. flagpole)

April 13, 2004 Eelectric Initial Prototype

Oscilloscope Data

2cm x 12cm Piezoelectric PVDF in Wind

April 13, 2004 Eelectric Initial Prototype

Circuitry Schematic

AC

LED

Capacitors

Diodes

April 13, 2004 Eelectric Initial Prototype

Current Progress

Working piezoelectric AC SourceAC Voltage ~700 mV peak-to-peak

Working rectifying circuitTakes >2000 mV AC peak-to-peak to light

an LED

What needs to be done? Increase Voltage Output from PVDF Tail

Connecting multiple tails in series Integrate the two working components

April 13, 2004 Eelectric Initial Prototype

Improvements on Final Design

LayeringTwo layers

Increases possible outputDecreases flexibilityDifficult to adhere together

Adhesive reinforcementSilver Paste alone cannot hold layers together

or wires downKapton and Mylar Tape

2-5 mil thickness should not drastically alter flexibility

April 13, 2004 Eelectric Initial Prototype

Improvements on Final Design

Electrode & Wiring Modifications12 cm

2 cm Cu Wire

Silver Electrode

PVDF

Gold Electrode

Allows for bending freedomStrain relief of wire

Run wire straight to flagpole

April 13, 2004 Eelectric Initial Prototype

Revised Timeline

2/10 2/17 2/24 3/2 3/9 3/16 3/23 4/6 4/13 4/20 4/27 5/4 5/11Electroded piezoelectronic sampleObtain PVDFInvestigate electrode technologyAttach electrodes to PVDFPreliminary measurementsBuild PrototypeElectronic CircuitryTest PrototypeAir testingOutput measurementOptimizing PrototypeIncorporating future revisionsBuild prototype IITest protoype IIPrepare DemoFinal Presentation