LTC3610EWPPBF Datasheet, PDF(11/24 Page) Linear Technology – 24V, 12A Monolithic Synchronous Step-Down DC/DC Converter

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LTC3610EWPPBF Datasheet, PDF (11/24 Pages) Linear Technology – 24V, 12A Monolithic Synchronous Step-Down DC/DC Converter

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LTC3610

Applications Information

1000

VOUT = 1.5V

VOUT = 3.3V

VOUT = 2.5V

100

1000

RON (kÎ©)

10000

3610 F01a

Figure 1a. Switching Frequency vs RON (VON = 0V)

1000

VOUT = 3.3V

VOUT = 12V

VOUT = 5V

100

1000

RON (kÎ©)

10000

3610 F01b

Figure 1b. Switching Frequency vs RON (VON = INTVCC)

Because the voltage at the ION pin is about 0.7V, the cur-

rent into this pin is not exactly inversely proportional to

VIN, especially in applications with lower input voltages.

To correct for this error, an additional resistor RON2 con-

nected from the ION pin to the 5V INTVCC supply will further

stabilize the frequency.

RON2

0.7V

RON

Changes in the load current magnitude will also cause

frequency shift. Parasitic resistance in the MOSFET

switches and inductor reduce the effective voltage across

the inductance, resulting in increased duty cycle as the

load current increases. By lengthening the on-time slightly

as current increases, constant frequency operation can be

maintained. This is accomplished with a resistive divider

from the ITH pin to the VON pin and VOUT. The values

required will depend on the parasitic resistances in the

specific application. A good starting point is to feed about

25% of the voltage change at the ITH pin to the VON pin

as shown in Figure 2a. Place capacitance on the VON pin

to filter out the ITH variations at the switching frequency.

The resistor load on ITH reduces the DC gain of the error

amp and degrades load regulation, which can be avoided

by using the PNP emitter follower of Figure 2b.

Minimum Off-Time and Dropout Operation

The minimum off-time, tOFF(MIN), is the smallest amount

of time that the LTC3610 is capable of turning on the bot-

tom MOSFET, tripping the current comparator and turning

the MOSFET back off. This time is generally about 250ns.

The minimum off-time limit imposes a maximum duty

cycle of tON/(tON + tOFF(MIN)). If the maximum duty cycle

is reached, due to a dropping input voltage for example,

then the output will drop out of regulation. The minimum

input voltage to avoid dropout is:

VIN(MIN)

VOUT

tON

+ tOFF(MIN)

tON

A plot of maximum duty cycle vs frequency is shown in

Figure 3.

Setting the Output Voltage

The LTC3611 develops a 0.6V reference voltage between

the feedback pin, VFB, and the signal ground as shown in

Figure 6. The output voltage is set by a resistive divider

according to the following formula:

VOUT = 0.6V âââ 1+ RR21ââ â

To improve the frequency response, a feedforward capaci-

tor C1 may also be used. Great care should be taken to

route the VFB line away from noise sources, such as the

inductor or the SW trace.

3610ff

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