V25W Mide Technology Corporation, V25W Datasheet - Page 21

V25W

Manufacturer Part Number

V25W

Description

PIEZOELECTRIC ENERGY HARVESTER

Manufacturer

Mide Technology Corporation

Series

Volture™r

Datasheet

1.V25W.pdf (24 pages)

Specifications of V25W

Sensor Type

Acceleration

Sensing Range

60Hz ~ 140Hz

Output Type

Analog

Operating Temperature

-40°C ~ 90°C

Features

Piezoelectric Vibration Energy Harvesting, Hermetically Sealed

Package / Case

Cantilever Piezo Film (Wafer)

Mounting Type

Through Hole

Termination

PC Pins

Lead Free Status / RoHS Status

Lead free by exemption / RoHS compliant by exemption

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APPLICATIONS INFORMATION -

Application Example

The steps to configure this circuit optimally for a given

load are presented below. This example assumes the

following are known:

1) Set output voltage

The output voltage is determined by

Where V

In direct sensor-power applications where reverse

leakage into the circuit during its off-time is not a

concern, D8 may be omitted (but see important

warnings below). To minimize no-load supply current,

resistor values in the megaohm range should be used.

2) Choose inductor size and maximum inductor

current, following the guidelines of the LT1474

datasheet. For greatest efficiency where space is not a

concern, first choose the inductor current sense

resistor R6 according to desired output current

accordingly. For space-limited applications, size L1 as

dictated by the available space and set I

as the inductor will tolerate without saturating.

3) Choose C1 bias voltage to be approximately ½ the

open-circuit piezo voltage in its natural vibration

environment. In applications with highly variable

amplitudes, a trade-off must be made between

efficiency at higher amplitudes and the ability to

harvest power from lower amplitudes: no charge will

be drawn by this circuit if the piezo open-circuit voltage

after rectification never reaches the set turn-on voltage.

SENSE

Required output voltage

Required output current

Nominal piezo open-circuit voltage

is the forward voltage drop of D8 under load.

Equation above), then size the inductor

Vout = 1.23 1+

REVISION N0. 001

PEAK

as high

LOAD ISOLATION EXAMPLE

REVISION DATE: 06-03-2010

(Circuit adaptations for self-adjusting bias voltage may

be explored if the power gains exceed the consumption

of the added circuitry.)

The LTC1540 features a programmable hysteresis

band of up to 100mV. However, a larger hysteresis is

generally preferable to allow for smaller values of C1

and/or longer output ON-times, particularly for directly-

powered sensors. This can be accomplished by

bypassing the onboard hysteresis adjustment (R4=0

ohms; R5=open) and adding a small amount of

positive feedback via R3.

First select the desired center voltage (Vc) for C1 and

the desired hysteresis band (V

R1 such that the current across it at the trip point is

substantially greater than the comparator’s input

leakage (1nA typ.), for example 100nA. The 5.7M value

shown is perfectly reasonable, but the following will

more formally dictate its upper limit. The LTC1540’s

internal reference (Vref) is 1.182V. The current through

R1 at the lower trip point is (Vc-(Vhb/2)-Vref) / R1.

Thus the upper limit for R1 is

Choose R2 to set the center voltage, Vc. Neglecting the

small influence of R3,

Choose R3 to set the hysteresis. At the lower

comparator trip point, the threshold voltage will be

equal to

Vc 1.182

1.182 R1

R1 R3

). Choose a value for

1.182

V25W Mide Technology Corporation, V25W Datasheet - Page 21

V25W

Specifications of V25W

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