LTC3857 Datasheet, PDF(13/38 Page) Linear Technology – Low IQ, Dual, 2-Phase Synchronous Step-Down Controller

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LTC3857 Datasheet, PDF (13/38 Pages) Linear Technology – Low IQ, Dual, 2-Phase Synchronous Step-Down Controller

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LTC3857

Operation (Refer to the Functional Diagram)

selects 535kHz. Placing a resistor between FREQ and SGND

allows the frequency to be programmed between 50kHz

and 900kHz, as shown in Figure 10.

A phase-locked loop (PLL) is available on the LTC3857

to synchronize the internal oscillator to an external clock

source that is connected to the PLLIN/MODE pin. The

phase detector adjusts the voltage (through an internal

lowpass filter) of the VCO input to align the turn-on of

controller 1âs external top MOSFET to the rising edge of

the synchronizing signal. Thus, the turn-on of controller 2âs

external top MOSFET is 180 degrees out of phase to the

rising edge of the external clock source.

The VCO input voltage is prebiased to the operating fre-

quency set by the FREQ pin before the external clock is

applied. If prebiased near the external clock frequency,

the PLL loop only needs to make slight changes to the

VCO input in order to synchronize the rising edge of the

external clockâs to the rising edge of TG1. The ability to

prebias the loop filter allows the PLL to lock-in rapidly

without deviating far from the desired frequency.

The typical capture range of the phase-locked loop is from

approximately 55kHz to 1MHz, with a guarantee over all

manufacturing variations to be between 75kHz and 850kHz.

In other words, the LTC3857âs PLL is guaranteed to lock

to an external clock source whose frequency is between

75kHz and 850kHz.

The typical input clock thresholds on the PLLIN/MODE

pin are 1.6V (rising) and 1.1V (falling).

PolyPhaseÂ® Applications (CLKOUT and PHASMD Pins)

The LTC3857 features two pins (CLKOUT and PHASMD)

that allow other controller ICs to be daisy-chained with

the LTC3857 in PolyPhase applications. The clock output

signal on the CLKOUT pin can be used to synchronize

additional power stages in a multiphase power supply

solution feeding a single, high current output or multiple

separate outputs. The PHASMD pin is used to adjust the

phase of the CLKOUT signal as well as the relative phases

between the two internal controllers, as summarized in

Table 1. The phases are calculated relative to the zero

degrees phase being defined as the rising edge of the top

gate driver output of controller 1 (TG1).

Table 1

VPHASMD

GND

Floating

INTVCC

CONTROLLER 2 PHASE

180Â°

240Â°

CLKOUT PHASE

60Â°

90Â°

120Â°

Output Overvoltage Protection

An overvoltage comparator guards against transient over-

shoots as well as other more serious conditions that may

overvoltage the output. When the VFB pin rises by more

than 10% above its regulation point of 0.800V, the top

MOSFET is turned off and the bottom MOSFET is turned

on until the overvoltage condition is cleared.

Power Good (PGOOD1 and PGOOD2) Pins

Each PGOOD pin is connected to an open drain of an

internal N-channel MOSFET. The MOSFET turns on and

pulls the PGOOD pin low when the corresponding VFB pin

voltage is not within Â±10% of the 0.8V reference voltage.

The PGOOD pin is also pulled low when the corresponding

RUN pin is low (shut down). When the VFB pin voltage

is within the Â±10% requirement, the MOSFET is turned

off and the pin is allowed to be pulled up by an external

resistor to a source no greater than 6V.

Foldback Current

When the output voltage falls to less than 70% of its

nominal level, foldback current limiting is activated, pro-

gressively lowering the peak current limit in proportion to

the severity of the overcurrent or short-circuit condition.

Foldback current limiting is disabled during the soft-start

interval (as long as the VFB voltage is keeping up with the

TRACK/SS voltage).

Theory and Benefits of 2-Phase Operation

Why the need for 2-phase operation? Up until the 2âphase

family, constant-frequency dual switching regulators

operated both channels in phase (i.e., single phase

operation). This means that both switches turned on at

the same time, causing current pulses of up to twice the

amplitude of those for one regulator to be drawn from the

input capacitor and battery. These large amplitude current

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