LT3971 View Datasheet(PDF) - Linear Technology

Part Name

Description

MFG CO.

LT3971

38V, 1.2A, 2MHz Step-Down Regulator with 2.8µA Quiescent Current

Linear Technology 

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LT3971/LT3971-3.3/LT3971-5

APPLICATIONS INFORMATION

For outputs of 3V and above, the standard circuit (Figure  3a)

is best. For outputs between 2.8V and 3V, use a 1μF boost

capacitor. A 2.5V output presents a special case because it

is marginally adequate to support the boosted drive stage

while using the internal boost diode. For reliable BOOST pin

operation with 2.5V outputs use a good external Schottky

diode (such as the ON Semi MBR0540), and a 1μF boost

capacitor (Figure 3b). For output voltages below 2.5V,

the boost diode can be tied to the input (Figure 3c), or to

another external supply greater than 2.8V. However, the

circuit in Figure 3a is more efficient because the BOOST pin

current comes from a lower voltage source. You must also

be sure that the maximum voltage ratings of the BOOST

and BD pins are not exceeded.

VIN

4.7µF

BD

VIN

BOOST

LT3971

C3

SW

GND

VOUT

(3a) For VOUT > 2.8V

VIN

4.7µF

BD

VIN

BOOST

LT3971

SW

GND

D2

C3

VOUT

(3b) For 2.5V < VOUT < 2.8V

VIN

4.7µF

BD

VIN

BOOST

LT3971

C3

SW

GND

VOUT

3971 FO3

(3c) For VOUT < 2.5V; VIN(MAX) = 27V

Figure 3. Three Circuits for Generating the Boost Voltage

16

The minimum operating voltage of an LT3971 application

is limited by the minimum input voltage (4.3V) and by

the maximum duty cycle as outlined in the Input Voltage

Range section. For proper start-up, the minimum input

voltage is also limited by the boost circuit. If the input

voltage is ramped slowly, the boost capacitor may not

be fully charged. Because the boost capacitor is charged

with the energy stored in the inductor, the circuit will rely

on some minimum load current to get the boost circuit

running properly. This minimum load will depend on input

and output voltages, and on the arrangement of the boost

circuit. The minimum load generally goes to zero once the

circuit has started. Figure 4 shows a plot of minimum load

to start and to run as a function of input voltage. In many

cases the discharged output capacitor will present a load

to the switcher, which will allow it to start. The plots show

the worst-case situation where VIN is ramping very slowly.

5.0

4.8

4.6

4.4

TO START

4.2

4.0

3.8 TO RUN

3.6

3.4 VOUT = 3.3V

TA = 25°C

3.2 L = 4.7µH

3.0 f = 800kHz

10

100

LOAD CURRENT (mA)

6.4

1000

6.2

6.0 TO START

5.8

5.6

TO RUN

5.4

VOUT = 5V

5.2

TA = 25°C

L = 4.7µH

f = 800kHz

5.0

10

100

LOAD CURRENT (mA)

1000

3971 F04

Figure 4. The Minimum Input Voltage Depends on

Output Voltage, Load Current and Boost Circuit

3971fd

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