LTC3859AL Datasheet, PDF(31/44 Page) Linear Technology – Triple Output, Buck/Buck/Boost Synchronous Controller with 28μA Burst Mode IQ

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

LTC3859AL Datasheet, PDF (31/44 Pages) Linear Technology – Triple Output, Buck/Buck/Boost Synchronous Controller with 28μA Burst Mode IQ

◁

LTC3859AL

applications information

VCO input. 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 at the VCO input is adjusted until

the phase and frequency of the internal and external os-

cillators are identical. At the stable operating point, the

phase detector output is high impedance and the internal

filter capacitor, CLP, holds the voltage at the VCO input.

Note that the LTC3859AL can only be synchronized to

an external clock whose frequency is within range of the

LTC3859ALâs internal VCO, which is nominally 55kHz to

1MHz. This is guaranteed to be between 75kHz and 850kHz.

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

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

Rapid phase-locking can be achieved by using the FREQ

pin to set a free-running frequency near the desired

synchronization frequency. The VCOâs input voltage is

prebiased at a frequency correspond to the frequency

set by the FREQ pin. Once prebiased, the PLL only needs

to adjust the frequency slightly to achieve phase-lock

and synchronization. Although it is not required that the

free-running frequency be near external clock frequency,

doing so will prevent the operating frequency from pass-

ing through a large range of frequencies as the PLL locks.

Table 1 summarizes the different states in which the FREQ

pin can be used.

Table 1

FREQ PIN

INTVCC

Resistor to SGND

Any of the Above

PLLIN/MODE PIN

DC Voltage

External Clock

FREQUENCY

350kHz

535kHz

50kHz to 900kHz

Phase-Locked to

External Clock

Minimum On-Time Considerations

Minimum on-time tON(MIN) is the smallest time duration that

the LTC3859AL is capable of turning on the top MOSFET

(bottom MOSFET for the boost controller). 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

tON(MIN)_ BUCK

VOUT

VIN(f)

tON(MIN)_ BOOST

VOUT â VIN

VOUT (f)

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 LTC3859AL is approximately

95ns for the bucks and 120ns for the boost. However, as

the peak sense voltage decreases the minimum on-time

gradually increases up to about 130ns. This is of particu-

lar concern in forced continuous applications with low

ripple current at light loads. If the duty cycle drops below

the minimum on-time limit in this situation, a significant

amount of cycle skipping can occur with correspondingly

larger current and voltage ripple.

For more information www.linear.com/3859AL

3859alf

▷