LTC3108-1_12 LINER [Linear Technology], LTC3108-1_12 Datasheet - Page 18

LTC3108-1_12

Manufacturer Part Number

LTC3108-1_12

Description

Ultralow Voltage Step-Up Converter

Manufacturer

LINER [Linear Technology]

Datasheet

1.LTC3108-1_12.pdf (24 pages)

Current page: 18 of 24
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LTC3108-1

APPLICATIONS INFORMATION

If there were 50μA of charge current available and 5μA of

load on V

the initial application of power would be 11.35 seconds.

Design Example 2

In many pulsed load applications, the duration, magnitude

and frequency of the load current bursts are known and

ﬁ xed. In these cases, the average charge current required

from the LTC3108-1 to support the average load must be

calculated, which can be easily done by the following:

Where I

ternal circuitry in between bursts (including cap leakage),

duration of the burst and T is the period of the transmit

burst rate (essentially the time between bursts).

TYPICAL APPLICATIONS

BURST

CHG

is the total load current during the burst, t is the

≥ I

OUT

THERMOELECTRIC

GENERATOR

is the sleep current on V

, the time for V

BURST

ΔT = 1°C TO 20°C

• t

T1: COILCRAFT LPR6235-752SML

THE MAGNITUDE AND DURATION

OF THE LOAD PULSE

OUT

VALUE DEPENDENT ON

Peltier-Powered Energy Harvester for Remote Sensor Applications

to reach regulation after

OUT

1:100

required by the ex-

330pF

499k

1nF

VS2

VS1

VAUX

LTC3108-1

In this example, I

T = one hour. The average charge current required from

the LTC3108-1 would be:

Therefore, if the LTC3108-1 has an input voltage that al-

lows it to supply a charge current greater than 5.14μA, the

application can support 100mA bursts lasting 5ms every

hour. It can be determined that the sleep current of 5μA is

the dominant factor because the transmit duty cycle is so

small (0.00014%). Note that for a V

power required by this application is only 15.4μW (not

including converter losses).

Note that the charge current available from the LTC3108-1

has no effect on the sizing of the V

assumed that the load current during a burst is much larger

than the charge current), and the V

effect on the maximum allowed burst rate.

1μF

CHG

GND

VSTORE

OUT2_EN

VLDO

OUT2

PGD

OUT

≥ 5μA +

OFF

5.25V

2.2V

PGOOD

100mA • 0.005sec

= 5μA, I

OUT

COOPER BUSSMAN PB-5ROH104-R

2.2μF

0.1F

6.3V

3600sec

STORE

BURST

OUT2

μP

OR KR-5R5H104-R

= 100mA, t = 5ms and

SENSORS

OUT

XMTR

OUT

31081 TA02

= 5.14μA

of 3V, the average

capacitor has no

capacitor (if it is

31081fa

LTC3108-1_12 LINER [Linear Technology], LTC3108-1_12 Datasheet - Page 18

LTC3108-1_12

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