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LT1941

Triple Monolithic Switching Regulator

Linear Technology 

LT1941

APPLICATIONS INFORMATION

current capability of the third channel can be calculated

from the output currents and voltages of the other chan-

nels, the switching regulator efficiency (η), the ambient

temperature (TA), the maximum junction temperature

(TJMAX) and the thermal resistance from junction to ambi-

ent (θJA) as follows:

PDISS

=

TJMAX –

θJA

TA

P3

=

PDISS

1– η

–

V1• I1

–

V2

•

I2

I3

=

P3

V3

Example: LT1941 at V1 = 2.5V, I1 = 2A, V2 = 3.3V, I2 =

1A, V3 = 12V, η = 80%, TA = 75°C, TJMAX = 125°C, θJA =

25°C/W:

PDISS

=

125°C – 75°C

25°C/W

=

2W

P3 = 2W – 2.5V • 2A – 3.3V • 1A = 1.7W

1– 0.8

I3

=

1.7W

12V

=

0.141A

Note that decreasing θJA increases the power output

capability. The power output capability of the individual

channels can be calculated from the following:

Channel 1 Output Power (P1) = V1 • I1

Channel 2 Output Power (P2) = V2 • I2

Channel 3 Output Power (P3) = V3 • I3

Total Output Power (P123) = PDISS/η = P1 + P2 + P3

Figure 9 shows power output capability if overall system

efficiency (η) is 75% and maximum allowable power

dissipation (PDISS) is either 1W or 2W. For example, if al-

lowable power dissipation is 2W, Channel 3 output power

is 2W and Channel 2 output power is 1W, then Channel 1

output power can be up to 5W.

RELATED LINEAR TECHNOLOGY PUBLICATIONS

Application notes 19, 35, 44, 76 and 88 contain more

detailed descriptions and design information for buck

regulators and other switching regulators. The LT1375

data sheet has a more extensive discussion of output

ripple, loop compensation, and stability testing. Design

Notes 100 and 318 show how to generate a dual polarity

output supply using a buck regulator.

Power Output Capability for PDISS = 2W, η = 0.75

6

Power Output Capability for PDISS = 1W, η = 0.75

3.0

5

CHANNEL 3

OUTPUT POWER (P3)

P3 = 2W

4

2.5

CHANNEL 3

OUTPUT POWER (P3)

P3 = 1W

2.0

3

P3 = 4W

2

P3 = 6W

1

1.5

P3 = 2W

1.0

P3 = 3W

0.5

0

012

3

4

56

CHANNEL 1 OUTPUT POWER (WATTS)

1941 F09a

0

0

1

2

3

CHANNEL 1 OUTPUT POWER (WATTS)

1941 F09b

Figure 9. Power Output Capability of an Individual Channel Depends on the Output Power of the Other Channels

1941fb

20

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