LTC3633A-1_15 Datasheet, PDF(18/30 Page) Linear Technology – Dual Channel 3A, 20V Monolithic Synchronous Step-Down Regulator

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LTC3633A-1_15 Datasheet, PDF (18/30 Pages) Linear Technology – Dual Channel 3A, 20V Monolithic Synchronous Step-Down Regulator

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LTC3633A/LTC3633A-1

APPLICATIONS INFORMATION

this tracking mode, VOUT1 must be set higher than VOUT2.

To implement the ratiometric tracking, the feedback pin of

the master channel should connect to the TRACKSS pin of

the slave channel (as in Figure 5b). By selecting different

resistors, the LTC3633A can achieve different modes of

tracking including the two in Figure 4.

Upon start-up, the regulator defaults to Burst Mode opera-

tion until the output exceeds 80% of its final value (VFB >

0.48V). Once the output reaches this voltage, the operating

mode of the regulator switches to the mode selected by

the MODE/SYNC pin as described above. During normal

operation, if the output drops below 10% of its final value

(as it may when tracking down, for instance), the regula-

tor will automatically switch to Burst Mode operation to

prevent inductor saturation and improve TRACKSS pin

accuracy.

Output Power Good

The PGOOD output of the LTC3633A is driven by a 20Î©

(typical) open-drain pull-down device. This device will be

turned off once the output voltage is within 5% (typical) of

the target regulation point, allowing the voltage at PGOOD

to rise via an external pull-up resistor. If the output voltage

exits an 8% (typical) regulation window around the target

regulation point, the open-drain output will pull down

with 20Î© output resistance to ground, thus dropping the

PGOOD pin voltage. This behavior is described in Figure 6.

NOMINAL OUTPUT

PGOOD

VOLTAGE

â8% â5% 0% 5% 8% OUTPUT VOLTAGE

3633a F06

Figure 6. PGOOD Pin Behavior

A filter time of 40Âµs (typical) acts to prevent unwanted

PGOOD output changes during VOUT transient events.

As a result, the output voltage must be within the target

regulation window of 5% for 40Âµs before the PGOOD pin

pulls high. Conversely, the output voltage must exit the

8% regulation window for 40Âµs before the PGOOD pin

pulls to ground.

Efficiency Considerations

The percent efficiency of a switching regulator is equal to

the output power divided by the input power times 100%.

It is often useful to analyze individual losses to determine

VOUT1

TRACKSS2

R3 R1

VFB1 VFB2

R4 R2

VOUT2

(5a) Coincident Tracking Setup

VOUT1

TRACKSS2

VFB1

VFB2

VOUT2

3633a F05

(5b) Ratiometric Tracking Setup

Figure 5. Setup for Coincident and Ratiometric Tracking

For more information www.linear.com/LTC3633A

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