LTC3417A-2_15 Datasheet, PDF(8/20 Page) Linear Technology – Dual Synchronous 1.5A/1A 4MHz Step-Down DC/DC Regulator

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LTC3417A-2_15 Datasheet, PDF (8/20 Pages) Linear Technology – Dual Synchronous 1.5A/1A 4MHz Step-Down DC/DC Regulator

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LTC3417A-2

OPERATION

The LTC3417A-2 uses a constant frequency, current

mode architecture. Both channels share the same clock

frequency. The PHASE pin sets whether the channels are

running in-phase or out of phase. The operating frequency

is determined by connecting the FREQ pin to VIN for

1.5MHz operation or by connecting a resistor from FREQ

to ground for a frequency from 0.6MHz to 4MHz. To suit

a variety of applications, the SYNC/MODE pin allows the

user to trade off noise for efï¬ciency.

The output voltages are set by external dividers returned

to the VFB1 and VFB2 pins. An error ampliï¬er compares the

divided output voltage with a reference voltage of 0.8V and

adjusts the peak inductor current accordingly. Undervoltage

comparators will pull the PGOOD output low when either

output voltage is 6% below its targeted value.

Main Control Loop

For each regulator, during normal operation, the P-chan-

nel MOSFET power switch is turned on at the beginning

of a clock cycle when the VFB voltage is below the refer-

ence 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 N-channel MOSFET switch into the load until

the next clock cycle.

The peak inductor current is controlled by the voltage

on the ITH pin, which is the output of the error ampliï¬er.

This ampliï¬er compares the VFB pin to the 0.8V reference.

When the load current increases the VFB voltage decreases

slightly below the reference. This decrease causes the er-

ror 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 pin

to ground. A digital soft-start is enabled after shutdown,

which will slowly ramp the peak inductor current up over

1024 clock cycles.

Low Current Operation

Three modes are available to control the operation of the

LTC3417A-2 at low currents. Each of the three modes

automatically switch from continuous operation to the

selected mode when the load current is low.

To optimize efï¬ciency, Burst Mode operation can be se-

lected. When the load is relatively light, the LTC3417A-2

automatically switches into Burst Mode operation in which

the PMOS switches operate intermittently based on load

demand. By running cycles periodically, the switching

losses, which are dominated 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. The hysteresis voltage comparator

trips when ITH is below 0.24V, shutting off the switch and

reducing the power. The output capacitor and the induc-

tor supply the power to the load until ITH exceeds 0.31V,

turning on the switch and the main control loop which

starts another cycle.

For lower output voltage ripple at low currents, pulse skip-

ping mode can be used. In this mode, the LTC3417A-2

continues to switch at constant frequency down to very

low currents, where it will begin skipping pulses used to

control the power MOSFETs.

Finally, in forced continuous mode, the inductor current is

constantly cycled creating a ï¬xed output voltage ripple at all

output current levels. This feature is desirable in telecom-

munications since the noise is a constant frequency and is

thus easy to ï¬lter out. Another advantage of this mode is

that the regulator is capable of both sourcing current into

a load and sinking some current from the output.

The mode selection for the LTC3417A-2 is set using the

SYNC/MODE pin. The SYNC/MODE pin sets the mode for

both the1A and the 1.5A step-down DC/DC converters.

Dropout Operation

When the input supply voltage decreases toward the output

voltage, the duty cycle increases to 100%. In this dropout

condition, 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 inductor.

Low Supply Operation

The LTC3417A-2 incorporates an undervoltage lockout

circuit which shuts down the part when the input voltage

drops below about 2.07V to prevent unstable operation.

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