LTC1844_15 Datasheet, PDF(10/12 Page) Linear Technology – 150mA, Micropower, Low Noise, VLDO Linear Regulator

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LTC1844_15 Datasheet, PDF (10/12 Pages) Linear Technology – 150mA, Micropower, Low Noise, VLDO Linear Regulator

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LTC1844 Series

APPLICATIONS INFORMATION

Thermal Considerations

The power handling capability of the device will be limited

by the maximum rated junction temperature (125Â°C). The

power dissipated by the device will be the output current

multiplied by the input/output voltage differential:

(IOUT)(VIN â VOUT).

The LTC1844 series regulators have internal thermal lim-

iting designed to protect the device during momentary

overload conditions. For continuous normal conditions,

the maximum junction temperature rating of 125Â°C must

not be exceeded. It is important to give careful consider-

ation to all sources of thermal resistance from junction to

ambient. Additional heat sources mounted nearby must

also be considered.

For surface mount devices, heat sinking is accomplished

by using the heat-spreading capabilities of the PC board

and its copper traces. Copper board stiffeners and plated

through holes can also be used to spread the heat gener-

ated by power devices.

Table 1 lists thermal resistance for several different board

sizes and copper areas. All measurements were taken in

still air on 3/32" FR-4 board with one ounce copper.

Table 1. Measured Thermal Resistance

COPPER AREA

THERMAL RESISTANCE

TOPSIDE* BACKSIDE BOARD AREA (JUNCTION-TO-AMBIENT)

2500mm2

1000mm2

225mm2

100mm2

50mm2

2500mm2

125Â°C/ W

130Â°C/ W

135Â°C/ W

150Â°C/ W

*Device is mounted on topside.

Calculating Junction Temperature

Example: Given an output voltage of 3.3V, an input voltage

of 4V to 6V, an output current range of 0mA to 50mA and

a maximum ambient temperature of 50Â°C, what will the

maximum junction temperature be?

The power dissipated by the device will be equal to:

IOUT(MAX)(VIN(MAX) â VOUT)

where:

IOUT(MAX) = 50mA

VIN(MAX) = 6V

So:

P = 50mA(6V â 3.3V) = 0.135W

The power dissipated by the LTC1844âs quiescent current

(240ÂµW) is insignificant. The thermal resistance will be in

the range of 125Â°C/W to 150Â°C/W depending on the

copper area. The junction temperature rise above ambient

will be approximately equal to:

0.135W(150Â°C/W) = 20.3Â°C

The maximum junction temperature will then be equal to

the maximum junction temperature rise above ambient

plus the maximum ambient temperature or:

T = 50Â°C + 20.3Â°C = 70.3Â°C

Protection Features

The LTC1844 regulators incorporate several protection

features which make them ideal for use in battery-powered

circuits. In addition to the usual protection features asso-

ciated with monolithic regulators, such as current limiting

and thermal limiting, the devices are protected against

reverse input voltages and reverse voltages from output to

input.

Current limit protection and thermal overload protection

are intended to protect the device against current overload

conditions at the output of the device. For normal opera-

tion, the junction temperature should not exceed 125Â°C.

The input of the device will withstand input voltages of

â 7V. Current flow into the device will be limited to less

than 500ÂµA (typically less than 200ÂµA) and only a small

negative voltage will appear at the output (~ â300mV with

no load). The LTC1844 will protect both itself and the load

against batteries plugged in backward. The shutdown pin

will require current limiting if used (see Pin Functions).

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