LT3570 查看數據表（PDF） - Linear Technology

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LT3570

1.5A Buck Converter, 1.5A Boost Converter and LDO Controller

Linear Technology 

LT3570

APPLICATIONS INFORMATION

Oscillator

The free-running frequency is set through a resistor from

the RT pin to ground. The oscillator frequency vs RT can

be seen in Figure 4. The oscillator can be synchronized

with an external clock applied to the SYNC pin. When

synchronizing the oscillator, the free running frequency

must be set approximately 10% lower than the desired

synchronized frequency.

2250

2000

1750

1500

1250

1000

750

500

250

5

10 15 20 25 30 35 40 45

RESISTANCE (kΩ)

3570 F04

Figure 4. Frequency vs RT Resistance

Buck Regulator Minimum On-Time

As the input voltage is increased, the LT3570 is required

to turn on for shorter periods of time. Delays associated

with turning off the power switch determine the minimum

on-time that can be achieved and limit the minimum duty

cycle. Figure 5 shows the minimum duty cycle versus

frequency for the LT3570. When the required on-time has

decreased below the minimum on-time of the LT3570 the

inductor current will increase, exceeding the current limit.

If the current through the inductor exceeds the current limit

of the LT3570, the switch is prevented from turning on for

10μs allowing the inductor current to decrease. The 10μs

off-time limits the average current that can be delivered to

the load. To return to normal switching frequency either

the input voltage or load current must decrease.

25

20

15

10

5

0

500

750 1000 1250 1500 1750 2000

FREQUENCY (kHz)

3570 F05

Figure 5. Minimum Duty Cycle vs Frequency

LDO Regulator

The LT3570 LDO regulator is capable of delivering up to

10mA of base drive for an external NPN transistor. For

stable operation the total output capacitance can be from

1μF up to 100μF. The regulator has its own independent

supply voltage which allows for the base of the NPN to be

driven from a higher voltage than its collector. This allows

for the NPN regulator to run more efficiently. The power

Dissipated in the external NPN is equal to:

PDISS = (VCOL – VOUT3) • ILOAD

where VCOL is the collector voltage of the NPN. The maxi-

mum output voltage is limited to:

VIN3 – 1.4V and VCOL – 0.2V or 8V

The short-circuit protection of the NPN regulator is set by

the max output current of the NPN_DRV pin multiplied by

the beta of the NPN.

Thermal Shutdown

An internal temperature monitor will turn off the internal

circuitry and prevent the switches from turning on when

the die temperature reaches approximately 160°C. When

the die temperature has dropped below this value the part

3570fb

16

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