LTC3407A Datasheet, PDF(7/16 Page) Linear Technology – Dual Synchronous 600mA, 1.5MHz Step-Down DC/DC Regulator

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LTC3407A Datasheet, PDF (7/16 Pages) Linear Technology – Dual Synchronous 600mA, 1.5MHz Step-Down DC/DC Regulator

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LTC3407A

OPERATION

The LTC3407A uses a constant frequency, current mode

architecture. The operating frequency is set at 1.5MHz

and can be synchronized to an external oscillator. Both

channels share the same clock and run in-phase. To suit

a variety of applications, the selectable MODE/SYNC pin

allows the user to trade-off noise for efï¬ciency.

The output voltage is set by an external divider returned

to the VFB pins. An error ampliï¬er compares the divided

output voltage with a reference voltage of 0.6V and adjusts

the peak inductor current accordingly. Overvoltage and

undervoltage comparators will pull the POR output low if

the output voltage is not within Â±8.5%. The POR output

will go high after 65,536 clock cycles (about 44ms in pulse

skipping mode) of achieving regulation.

Main Control Loop

During normal operation, the top power switch (P-channel

MOSFET) is turned on at the beginning of a clock cycle when

the VFB voltage is below the reference voltage. The current

into the inductor and the load increases until the current

limit is reached. The switch turns off and energy stored in

the inductor ï¬ows through the bottom switch (N-channel

MOSFET) into the load until the next clock cycle.

The peak inductor current is controlled by the internally

compensated ITH voltage, which is the output of the er-

ror ampliï¬er.This ampliï¬er compares the VFB pin to the

0.6V reference. When the load current increases, the

VFB voltage decreases slightly below the reference. This

decrease causes the error ampliï¬er to increase the ITH

voltage until the average inductor current matches the

new load current.

The main control loop is shut down by pulling the RUN/SS

pin to ground.

Low Current Operation

Two modes are available to control the operation of the

LTC3407A at low currents. Both modes automatically

switch from continuous operation to the selected mode

when the load current is low.

To optimize efï¬ciency, the Burst Mode operation can be

selected. When the load is relatively light, the LTC3407A

automatically switches into Burst Mode operation in which

the PMOS switch operates intermittently based on load

demand with a ï¬xed peak inductor current. By running

cycles periodically, the switching losses which are domi-

nated by the gate charge losses of the power MOSFETs

are minimized. The main control loop is interrupted when

the output voltage reaches the desired regulated value. A

voltage comparator trips when ITH is below 0.65V, shutting

off the switch and reducing the power. The output capaci-

tor and the inductor supply the power to the load until ITH

exceeds 0.65V, turning on the switch and the main control

loop which starts another cycle.

For lower ripple noise at low currents, the pulse skipping

mode can be used. In this mode, the LTC3407A continues

to switch at a constant frequency down to very low cur-

rents, where it will begin skipping pulses.

Dropout Operation

When the input supply voltage decreases toward the

output voltage, the duty cycle increases to 100% which

is the dropout condition. In dropout, the PMOS switch is

turned on continuously with the output voltage being equal

to the input voltage minus the voltage drops across the

internal P-channel MOSFET and the inductor.

An important design consideration is that the RDS(ON)

of the P-channel switch increases with decreasing input

supply voltage (See Typical Performance Characteristics).

Therefore, the user should calculate the power dissipation

when the LTC3407A is used at 100% duty cycle with low

input voltage (See Thermal Considerations in the Applica-

tions Information Section).

Low Supply Operation

The LTC3407A incorporates an undervoltage lockout circuit

which shuts down the part when the input voltage drops

below about 1.65V to prevent unstable operation.

A general LTC3407A application circuit is shown in

Figure 1. External component selection is driven by the

load requirement, and begins with the selection of the

inductor L. Once the inductor is chosen, CIN and COUT

can be selected.

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