LTC3810-5 Datasheet, PDF(29/36 Page) Linear Technology – 60V Current Mode Synchronous Switching Regulator Controller

English

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

LTC3810-5 Datasheet, PDF (29/36 Pages) Linear Technology – 60V Current Mode Synchronous Switching Regulator Controller

◁

LTC3810-5

APPLICATIONS INFORMATION

TRACK/SS2

0.8V

VFB2

EA2

38105 F17

Figure 17. Equivalent Input Circuit of Error Ampliï¬er

help of Figure 17. At the input stage of the slave ICâs error

ampliï¬er, two common anode diodes are used to clamp

the equivalent reference voltage and an additional diode

is used to match the shifted common mode voltage. The

top two current sources are of the same amplitude. In the

coincident mode, the TRACK/SS voltage is substantially

higher than 0.8V at steady state and effectively turns off

D1. D2 and D3 will therefore conduct the same current

and offer tight matching between VFB2 and the internal

precision 0.8V reference. In the ratiometric mode, however,

TRACK/SS equals 0.8V at steady state. D1 will divert part

of the bias current to make VFB2 slightly lower than 0.8V.

Although this error is minimized by the exponential I-V

characteristic of the diode, it does impose a ï¬nite amount

of output voltage deviation. Furthermore, when the master

ICâs output experiences dynamic excursion (under load

transient, for example), the slave IC output will be affected

as well. For better output regulation, use the coincident

tracking mode instead of ratiometric.

Phase-Locked Loop and Frequency Synchronization

The LTC3810-5 has a phase-locked loop comprised of an

internal voltage controlled oscillator and phase detector.

This allows the top MOSFET turn-on to be locked to the

rising edge of an external source. The frequency range

of the voltage controlled oscillator is Â±30% around the

center frequency fO. The center frequency is the operating

frequency discussed in the Operating Frequency section.

The LTC3810-5 incorporates a pulse detection circuit that

will detect a clock on the MODE/SYNC pin. In turn, it will

turn on the phase-locked loop function. The pulse width of

the clock has to be greater than 400ns and the amplitude

of the clock should be greater than 2V.

The internal oscillator locks to the external clock after

the second clock transition is received. When external

synchronization is detected, LTC3810-5 will operate in

forced continuous mode. If an external clock transition

is not detected for three successive periods, the internal

oscillator will revert to the frequency programmed by the

RON resistor.

During the start-up phase, phase-locked loop function is

disabled. When LTC3810-5 is not in synchronization mode,

PLL/LPF pin voltage is set to around 1.215V. Frequency

synchronization is accomplished by changing the internal

on-time current according to the voltage on the PLL/LPF

pin.

The phase detector used is an edge sensitive digital type

which provides zero degrees phase shift between the ex-

ternal and internal pulses. This type of phase detector will

not lock up on input frequencies close to the harmonics

of the VCO center frequency. The PLL hold-in range, ÎfH,

is equal to the capture range, ÎfC:

ÎfH = ÎfC = Â±0.3 fO

The output of the phase detector is a complementary pair of

current sources charging or discharging the external ï¬lter

network on the PLL/LPF pin. A simpliï¬ed block diagram

is shown in Figure 18.

2.4V

MODE/SYNC

DIGITAL

PHASE/

FREQUENCY

DETECTOR

RLP

CLP

PLL/LPF

VCO

38105 F18

Figure 18. Phase-Locked Loop Block Diagram

38105fc

▷