ltc1709-7 Linear Technology Corporation, ltc1709-7 Datasheet - Page 20

ltc1709-7

Manufacturer Part Number

ltc1709-7

Description

2-phase, 5-bit Vid, Current Mode, High Efficiency, Synchronous Step-down Switching Regulator

Manufacturer

Linear Technology Corporation

Datasheet

1.LTC1709-7.pdf (28 pages)

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APPLICATIO S I FOR ATIO

LTC1709-7

If the external frequency (f

lator frequency f

pulling up the PLLFLTR pin. When the external frequency

is less than f

down the PLLFLTR pin. If the external and internal fre-

quencies are the same but exhibit a phase difference, the

current sources turn on for an amount of time correspond-

ing to the phase difference. Thus the voltage on the

PLLFLTR pin is adjusted until the phase and frequency of

the external and internal oscillators are identical. At this

stable operating point the phase comparator output is

open and the filter capacitor C

LTC1709-7 PLLIN pin must be driven from a low imped-

ance source such as a logic gate located close to the pin.

The loop filter components (C

current pulses from the phase detector and provide a

stable input to the voltage controlled oscillator. The filter

components C

acquires lock. Typically R

0.1 F.

Minimum On-Time Considerations

Minimum on-time, t

that the LTC1709-7 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:

PLLIN

EXTERNAL

OSC

Figure 7. Phase-Locked Loop Block Diagram

50k

0SC

, current is sunk continuously, pulling

0SC

and R

FREQUENCY

DETECTOR

ON(MIN)

DIGITAL

PHASE/

PHASE

, current is sourced continuously,

PLLIN

, is the smallest time duration

determine how fast the loop

=10k and C

) is greater than the oscil-

2.4V

, R

holds the voltage. The

) smooth out the

is 0.01 F to

PLLFLTR

10k

1709 F07

OSC

If the duty cycle falls below what can be accommodated by

the minimum on-time, the LTC1709-7 will begin to skip

cycles resulting in variable frequency operation. The out-

put voltage will continue to be regulated, but the ripple

current and ripple voltage will increase.

The minimum on-time for the LTC1709-7 is generally less

than 200ns. However, as the peak sense voltage de-

creases, the minimum on-time gradually increases. This is

of particular 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 corre-

spondingly larger ripple current and voltage ripple.

If an application can operate close to the minimum

on-time limit, an inductor must be chosen that has a low

enough inductance to provide sufficient ripple amplitude

to meet the minimum on-time requirement. As a general

rule, keep the inductor ripple current of each phase equal

to or greater than 15% of I

FCB Pin Operation

The FCB pin can be used to regulate a secondary winding

or as a logic level input. Continuous operation is forced

when the FCB pin drops below 0.8V. During continuous

mode, current flows continuously in the transformer pri-

mary. The secondary winding(s) supply current only when

the bottom, synchronous switch is on. When primary load

currents are low and/or the V

synchronous switch may not be on for a sufficient amount

of time to transfer power from the output capacitor to the

secondary load. Forced continuous operation will support

secondary windings providing there is sufficient synchro-

nous switch duty factor. Thus, the FCB input pin removes

the requirement that power must be drawn from the

inductor primary in order to extract power from the

auxiliary winding(s). With the loop in continuous mode,

the auxiliary output(s) may nominally be loaded without

regard to the primary output load.

ON MIN

V f

OUT

OUT(MAX)

OUT

at V

ratio is low, the

IN(MAX)

ltc1709-7 Linear Technology Corporation, ltc1709-7 Datasheet - Page 20

ltc1709-7

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