LTC3526L_15 Datasheet, PDF(10/16 Page) Linear Technology – 550mA 1MHz Synchronous Step-Up DC/DC Converters

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LTC3526L_15 Datasheet, PDF (10/16 Pages) Linear Technology – 550mA 1MHz Synchronous Step-Up DC/DC Converters

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LTC3526L/LTC3526LB

Applications Information

VIN > VOUT Operation

The LTC3526L/LTC3526LB will maintain voltage regulation

even when the input voltage is above the desired output

voltage. Note that the efficiency is much lower in this mode,

and the maximum output current capability will be less.

Refer to the Typical Performance Characteristics.

Short-Circuit Protection

The LTC3526L/LTC3526LB output disconnect feature al-

lows output short circuit while maintaining a maximum

internally set current limit. To reduce power dissipation

under short-circuit conditions, the peak switch current

limit is reduced to 400mA (typical).

Schottky Diode

Although not recommended, adding a Schottky diode from

SW to VOUT will improve efficiency by about 2%. Note

that this defeats the output disconnect and short-circuit

protection features.

PCB layout guidelines

The high speed operation of the LTC3526L/LTC3526LB

demands careful attention to board layout. A careless

layout will result in reduced performance. Figure 2 shows

the recommended component placement. A large ground

pin copper area will help to lower the die temperature. A

multilayer board with a separate ground plane is ideal, but

not absolutely necessary.

COMPONENT SELECTION

Inductor Selection

The LTC3526L/LTC3526LB can utilize small surface mount

chip inductors due to their fast 1MHz switching frequency.

Inductor values between 3.3ÂµH and 6.8ÂµH are suitable for

most applications. Larger values of inductance will allow

slightly greater output current capability (and lower the

Burst Mode threshold) by reducing the inductor ripple cur-

rent. Increasing the inductance above 10ÂµH will increase

component size while providing little improvement in

output current capability.

The minimum inductance value is given by:

( ) L

VIN(MIN) â¢ VOUT(MAX) â VIN(MIN)

Ripple â¢ VOUT(MAX)

where:

Ripple = Allowable inductor current ripple (amps peak-

peak)

VIN(MIN) = Minimum input voltage

VOUT(MAX) = Maximum output voltage

The inductor current ripple is typically set for 20% to

40% of the maximum inductor current. High frequency

ferrite core inductor materials reduce frequency dependent

power losses compared to cheaper powdered iron types,

improving efficiency. The inductor should have low ESR

(series resistance of the windings) to reduce the I2R power

SW 1

LTC3526L

6 VOUT

GND 2

5 FB

MINIMIZE

TRACE ON FB

AND SW

VIN

VIN 3

4 SHDN

MULTIPLE VIAS

TO GROUND PLANE

3526l F02

Figure 2. Recommended Component Placement for Single Layer Board

3526lfc

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