LTC3606B_15 Datasheet, PDF(7/20 Page) Linear Technology – 800mA Synchronous Step-Down DC/DC with Average Input Current Limit

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LTC3606B_15 Datasheet, PDF (7/20 Pages) Linear Technology – 800mA Synchronous Step-Down DC/DC with Average Input Current Limit

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LTC3606B

OPERATION

The LTC3606B uses a constant-frequency, current mode

architecture. The operating frequency is set at 2.25MHz.

The output voltage is set by an external resistor divider

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

divided output voltage with a reference voltage of 0.6V and

regulates the peak inductor current accordingly.

The LTC3606B continuously monitors the input current

via the voltage drop across the RDS(ON) of the internal

P-channel MOSFET. When the input current exceeds the

programmed input current limit set by an external resistor,

RLIM, the regulatorâs input current is limited. The regulator

output voltage will drop to meet output current demand

and to maintain constant input current.

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

peak inductor current (controlled by ITH) is reached. The

RS latch turns off the synchronous switch and energy

stored in the inductor is discharged through the bottom

switch (N-channel MOSFET) into the load until the next

clock cycle begins, or until the inductor current begins to

reverse (sensed by the IRCMP comparator).

The peak inductor current is controlled by the internally

compensated ITH voltage, which is the output of the error

ampliï¬er. This ampliï¬er regulates the VFB pin to the internal

0.6V reference by adjusting the peak inductor current

accordingly.

When the input current limit is engaged, the peak inductor

current will be lowered, which then reduces the switching

duty cycle and VOUT. This allows the input voltage to stay

regulated when its programmed current output capability

is met.

Light Load Operation

The LTC3606B will automatically transition from continuous

operation to the pulse-skipping operation when the load

current is low. The inductor current is not ï¬xed during the

pulse-skipping mode which allows the LTC3606B to switch

at constant-frequency down to very low currents, where it

will begin skipping pulses to maintain output regulation.

This mode of operation exhibits low output ripple as well

as low audio noise and reduced RF interference while

providing reasonable low current efï¬ciency.

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 the Typical Performance Characteristics

section). Therefore, the user should calculate the worst-

case power dissipation when the LTC3606B is used at

100% duty cycle with low input voltage (see Thermal

Considerations in the Applications Information section).

Soft-Start

In order to minimize the inrush current on the input by-

pass capacitor, the LTC3606B slowly ramps up the output

voltage during start-up. Whenever the RUN pin is pulled

high, the corresponding output will ramp from zero to

full-scale over a time period of approximately 950Î¼s. This

prevents the LTC3606B from having to quickly charge the

output capacitor and thus supplying an excessive amount

of instantaneous current.

When the output is loaded heavily, for example, with mil-

lifarad of capacitance, it may take longer than 950Î¼s to

charge the output to regulation. If the output is still low

after the soft-start time, the LTC3606B will try to quickly

charge the output capacitor. In this case, the input current

limit (after it engages) can prevent excessive amount of

instantaneous current that is required to quickly charge

the output. See the Start-Up from Shutdown curve

(CL = 4.4mF)in the Typical Performance Characteristics

section. After input current limit is engaged, the output

slowly ramps up to regulation while limited by its 500mA

of input current.

3606bfb

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