ltc3602 Linear Technology Corporation, ltc3602 Datasheet - Page 7

ltc3602

Manufacturer Part Number

ltc3602

Description

2.5a, 10v, Monolithic Synchronous Step-down Regulator

Manufacturer

Linear Technology Corporation

Datasheet

1.LTC3602.pdf (20 pages)

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OPERATION

Main Control Loop

The LTC3602 is a monolithic, constant-frequency, current-

mode step-down DC/DC converter. During normal opera-

tion, the internal top power switch (N-channel MOSFET) is

turned on at the beginning of each clock cycle. Current in

the inductor increases until the current comparator trips

and turns off the top power MOSFET. The peak inductor

current at which the current comparator shuts off the top

power switch is controlled by the voltage on the I

The error ampliﬁ er adjusts the voltage on the I

comparing the feedback signal from a resistor divider on

the V

current increases, it causes a reduction in the feedback

voltage relative to the reference. The error ampliﬁ er raises

the I

the new load current. When the top power MOSFET shuts

off, the synchronous power switch (N-channel MOSFET)

turns on until either the bottom current limit is reached or

the beginning of the next clock cycle. The bottom current

limit is set at –2.5A for forced continuous mode and 0A

for Burst Mode operation.

The operating frequency is externally set by an external

resistor connected between the R

practical switching frequency can range from 300kHz to

3MHz.

Overvoltage and undervoltage comparators will pull the

PGOOD output low if the output voltage comes out of

regulation by ±7.5%. In an overvoltage condition, the top

power MOSFET is turned off and the bottom power MOSFET

is switched on until either the overvoltage condition clears

or the bottom MOSFET’s current limit is reached.

Forced Continuous Mode

Connecting the SYNC/MODE pin to INTV

Mode operation and force continuous current operation.

At light loads, forced continuous mode operation is less

efﬁ cient than Burst Mode operation, but may be desirable in

some applications where it is necessary to keep switching

harmonics out of a signal band. The output voltage ripple

is minimized in this mode.

voltage until the average inductor current matches

pin with an internal 0.6V reference. When the load

pin and ground. The

will disable Burst

pin by

pin.

Burst Mode Operation

Connecting the SYNC/MODE pin to a voltage in the range

of 0.42V to 1V enables Burst Mode operation. In Burst

Mode operation, the internal power MOSFETs operate

intermittently at light loads. This increases efﬁ ciency by

minimizing switching losses. During Burst Mode opera-

tion, the minimum peak inductor current is externally set

by the voltage on the SYNC/MODE pin and the voltage

on the I

determine when sleep mode is enabled and disabled.

When the average inductor current is greater than the

load current, the voltage on the I

voltage falls below 330mV, the burst comparator trips and

enables sleep mode. During sleep mode, the top power

MOSFET is held off and the I

the output of the error ampliﬁ er. The majority of the internal

circuitry is also turned off to reduce the quiescent current

to 75μA while the load current is solely supplied by the

output capacitor. When the output voltage drops, the I

pin is reconnected to the output of the error ampliﬁ er and

the top power MOSFET along with all the internal circuitry

is switched back on. This process repeats at a rate that

is dependent on the load demand. Pulse-skipping opera-

tion is implemented by connecting the SYNC/MODE pin

to ground. This forces the burst clamp level to be at 0V.

As the load current decreases, the peak inductor current

will be determined by the voltage on the I

inductor current is determined by the minimum on-time

of the current comparator. If the load demand is less than

the average of the minimum on-time inductor current,

switching cycles will be skipped to keep the output volt-

age in regulation.

Frequency Synchronization

The internal oscillator of the LTC3602 can be synchronized

to an external clock connected to the SYNC/MODE pin.

The frequency of the external clock can be in the range of

300kHz to 3MHz. For this application, the oscillator timing

resistor should be chosen to correspond to a frequency

that is 25% lower than the synchronization frequency.

When synchronized, the LTC3602 will operate in pulse-

skipping mode.

voltage drops below 330mV. At this point, the peak

pin is monitored by the burst comparator to

pin is disconnected from

pin drops. As the I

LTC3602

pin until the

3602f

ltc3602 Linear Technology Corporation, ltc3602 Datasheet - Page 7

ltc3602

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