LTC3826_15 Datasheet, PDF(20/36 Page) Linear Technology – 30A IQ, Dual, 2-Phase Synchronous Step-Down Controller

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LTC3826_15 Datasheet, PDF (20/36 Pages) Linear Technology – 30A IQ, Dual, 2-Phase Synchronous Step-Down Controller

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LTC3826

APPLICATIONS INFORMATION

The LTC3826 will regulate the VFB pin (and hence VOUT)

according to the voltage on the TRACK/SS pin, allowing

VOUT to rise smoothly from 0V to its ï¬nal regulated value.

The total soft-start time will be approximately:

tSS

CSS

â¢

0.8V

1ÂµA

Alternatively, the TRACK/SS pin can be used to track two

(or more) supplies during start-up, as shown qualitatively

in Figures 6a and 6b. To do this, a resistor divider should

be connected from the master supply (VX) to the TRACK/

SS pin of the slave supply (VOUT), as shown in Figure 7.

VX (MASTER)

VOUT (SLAVE)

TIME

3826 F06a

(6a) Coincident Tracking

VX (MASTER)

VOUT (SLAVE)

TIME

3826 F06b

(6b) Ratiometric Tracking

Figure 6. Two Different Modes of Output Voltage Tracking

Vx VOUT

RTRACKB

RTRACKA

RB 1/2 LTC3826

VFB

TRACK/SS

3826 F07

Figure 7. Using the TRACK/SS Pin for Tracking

During start-up VOUT will track VX according to the ratio

set by the resistor divider:

VOUT

RTRACKA

â¢ RTRACKA

+ RTRACKB

+ RB

For coincident tracking (VOUT = VX during start-up),

RA = RTRACKA

RB = RTRACKB

INTVCC Regulators

The LTC3826 features two separate internal P-channel low

dropout linear regulators (LDO) that supply power at the

INTVCC pin from either the VIN supply pin or the EXTVCC

pin, respectively, depending on the connection of the

EXTVCC pin. INTVCC powers the gate drivers and much of

the LTC3826âs internal circuitry. The VIN LDO regulates

the voltage at the INTVCC pin to 5.25V and the EXTVCC

LDO regulates it to 7.5V. Each of these can supply a peak

current of 50mA and must be bypassed to ground with a

minimum of 4.7Î¼F ceramic capacitor. The ceramic capacitor

placed directly adjacent to the INTVCC and PGND IC pins is

highly recommended. Good bypassing is needed to supply

the high transient currents required by the MOSFET gate

drivers and to prevent interaction between the channels.

High input voltage applications in which large MOSFETs

are being driven at high frequencies may cause the maxi-

mum junction temperature rating for the LTC3826 to be

exceeded. The INTVCC current, which is dominated by the

3826fc

▷