LTC3810-5 Datasheet, PDF(12/36 Page) Linear Technology – 60V Current Mode Synchronous Switching Regulator Controller

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LTC3810-5 Datasheet, PDF (12/36 Pages) Linear Technology – 60V Current Mode Synchronous Switching Regulator Controller

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LTC3810-5

OPERATION

Main Control Loop

The LTC3810-5 is a current mode controller for DC/DC

step-down converters. In normal operation, the top

MOSFET is turned on for a ï¬xed interval determined by

a one-shot timer (OST). When the top MOSFET is turned

off, the bottom MOSFET is turned on until the current

comparator ICMP trips, restarting the one-shot timer and

initiating the next cycle. Inductor current is determined

by sensing the voltage between the SENSEâ and SENSE+

pins using a sense resistor or the bottom MOSFET on-

resistance. The voltage on the ITH pin sets the comparator

threshold corresponding to the inductor valley current.

The fast 25MHz error ampliï¬er EA adjusts this voltage by

comparing the feedback signal VFB to the internal 0.8V

reference voltage. If the load current increases, it causes a

drop in the feedback voltage relative to the reference. The

ITH voltage then rises until the average inductor current

again matches the load current.

The operating frequency is determined implicitly by the top

MOSFET on-time and the duty cycle required to maintain

regulation. The one-shot timer generates an on time that is

proportional to the ideal duty cycle, thus holding frequency

approximately constant with changes in VIN. The nominal

frequency can be adjusted with an external resistor RON.

For applications with stringent constant frequency re-

quirements, the LTC3810-5 can be synchronized with an

external clock. By programming the nominal frequency

the same as the external clock frequency, the LTC3810-5

behaves as a constant frequency part against the load and

supply variations.

Pulling the SHDN pin low forces the controller into its

shutdown state, turning off both M1 and M2. Forcing a

voltage above 1.5V will turn on the device.

Pulse Skip Mode

The LTC3810-5 can operate in one of two modes selectable

with the MODE/SYNC pinâpulse skip mode or forced con-

tinuous mode (see Figure 1). Pulse skip mode is selected

when increased efï¬ciency at light loads is desired (see

Figure 2). In this mode, the bottom MOSFET is turned off

when inductor current reverses to minimize efï¬ciency loss

due to reverse current ï¬ow and gate charge switching.

At low load currents, ITH will drop below the zero current

level (1.2V) shutting off both switches. Both switches will

remain off with the output capacitor supplying the load

current until the ITH voltage rises above the zero current

level to initiate another cycle. In this mode, frequency is

proportional to load current at light loads.

Pulse skip mode operation is disabled by comparator F

when the MODE/SYNC pin is brought below 0.8V, forcing

continuous synchronous operation. Forced continuous

mode is less efï¬cient due to resistive losses, but has the

advantage of better transient response at low currents,

approximately constant frequency operation, and the ability

to maintain regulation when sinking current.

PULSE SKIP MODE

FORCED CONTINUOUS

DECREASING

LOAD

CURRENT

38105 F01

Figure 1. Comparison of Inductor Current Waveforms for Pulse Skip Mode

and Forced Continuous Operation

100

PULSE

90 SKIP

FORCED

CONTINUOUS

0.01

0.1

VIN = 12V

VIN = 42V

LOAD (A)

38105 F02

Figure 2. Efï¬ciency in Pulse Skip/

Forced Continuous Modes

38105fc

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