LTC3835-1 Linear Technology, LTC3835-1 Datasheet - Page 18

LTC3835-1

Manufacturer Part Number

LTC3835-1

Description

Low IQ Synchronous Step-Down Controller

Manufacturer

Linear Technology

Datasheet

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LTC3835-1

If the external clock frequency is greater than the internal

oscillator’s frequency, f

tinuously from the phase detector output, pulling up the

PLLLPF pin. When the external clock frequency is less

than f

the PLLLPF pin. If the external and internal frequencies

are the same but exhibit a phase difference, the current

sources turn on for an amount of time corresponding to

the phase difference. The voltage on the PLLLPF pin is

adjusted until the phase and frequency of the internal and

external oscillators are identical. At the stable operating

point, the phase detector output is high impedance and

the ﬁ lter capacitor C

The loop ﬁ lter components, C

current pulses from the phase detector and provide a stable

input to the voltage-controlled oscillator. The ﬁ lter compo-

nents C

lock. Typically R

Typically, the external clock (on PLLIN/MODE pin) input high

threshold is 1.6V, while the input low threshold is 1.2V.

Table 1 summarizes the different states in which the

PLLLPF pin can be used.

Table 1

PLLLPF PIN

Floating

INTV

RC Loop Filter

APPLICATIONS INFORMATION

OSC

, current is sunk continuously, pulling down

and R

PLLIN/MODE PIN

Clock Signal

DC Voltage

= 10k and C

determine how fast the loop acquires

holds the voltage.

OSC

, then current is sourced con-

Phase-Locked to External Clock

and R

is 2200pF to 0.01μF .

FREQUENCY

, smooth out the

250kHz

400kHz

530kHz

Minimum On-Time Considerations

Minimum on-time t

the LTC3835-1 is capable of turning on the top MOSFET.

It is determined by internal timing delays and the gate

charge required to turn on the top MOSFET. Low duty

cycle applications may approach this minimum on-time

limit and care should be taken to ensure that:

If the duty cycle falls below what can be accommodated

by the minimum on-time, the controller will begin to skip

cycles. The output voltage will continue to be regulated,

but the ripple voltage and current will increase.

The minimum on-time for the LTC3835-1 is approximately

180ns. However, as the peak sense voltage decreases the

minimum on-time gradually increases up to about 200ns.

This is of particular concern in forced continuous applica-

tions with low ripple current at light loads. If the duty cycle

drops below the minimum on-time limit in this situation,

a signiﬁ cant amount of cycle skipping can occur with cor-

respondingly larger current and voltage ripple.

ON MIN

(

)

V f

OUT

( )

ON(MIN)

is the smallest time duration that

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LTC3835-1 Linear Technology, LTC3835-1 Datasheet - Page 18

LTC3835-1

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