LTC3526EDC-2#TRMPBF Datasheet LTC3526EDC-2#TRMPBF, LTC3526BEDC-2#TRMPBF, LTC3526EDC-2#TRPBF | P7-P9

LTC3526-2/LTC3526B-2

35262b2fc

–

GATE DRIVERS

AND

ANTI-CROSS

CONDUCTION

LOGIC

CLK

COMP

SLOPE

COMP

ZERO

COMP

ERROR AMP

SLEEP COMP

ZERO

WAKE

EXPOSED

PAD

–

WELL

SWITCH

MODE

CONTROL

UVLO

REF

1.195V

SHDN

BEST

START-UP

2MHz

OSC

TSD

THERMAL

SHUTDOWN

ANTI-RING

SEL

OUT

2.2µH

SHUTDOWN

CLAMP

REF

OUT

GND

35262b2 BD

OUT

4.7µF

OUT

1.6V

TO 5.25V

2.2µF

0.85V

TO 5V

block DiAgrAM

(Refer to Block Diagram)

operAtion

The LTC3526-2/LTC3526B-2 are 2MHz synchronous boost

converters housed in a 6-lead 2mm × 2mm DFN

package.

With the ability to start up and operate from inputs less

than 1V, these devices feature fixed frequency, current

mode PWM control for exceptional line and load regula

tion. The current mode architecture with adaptive slope

compensation provides excellent transient load response,

requiring minimal output filtering. Internal soft-start and

internal loop compensation simplifies the design process

while minimizing the number of external components.

With its low R

DS(ON)

and low gate charge internal N-chan-

nel MOSFET switch and P-channel MOSFET synchronous

rectifier, the LTC3526-2 achieves high efficiency over a wide

range of load currents. Automatic Burst Mode operation

maintains high efficiency at very light loads, reducing

the quiescent current to just 9µA. Operation can be best

understood by referring to the Block Diagram.

LOW VOLTAGE START-UP

The LTC3526-2/LTC3526B-2 include an independent start-

up oscillator designed to start up at an input voltage of

0.85V (typical). Soft-start and inrush current limiting are

provided during start-up, as well as normal mode.

When either V

or V

OUT

exceeds 1.4V typical, the IC

enters normal operating mode. When the output voltage

LTC3526-2/LTC3526B-2

35262b2fc

exceeds the input by 0.24V, the IC powers itself from

OUT

instead of V

. At this point the internal circuitry has

no dependency on the V

input voltage, eliminating the

requirement for a large input capacitor. The input voltage

can drop as low as 0.5V. The limiting factor for the ap

plication becomes

the availability of the power source to

supply sufficient energy to the output at low voltages, and

maximum duty cycle, which is clamped at 90% typical.

Note that at low input voltages, small voltage drops due

to series resistance become critical, and greatly limit the

power delivery capability of the converter.

LOW NOISE FIXED FREQUENCY OPERATION

Soft-Start

e LTC3526-2/LTC3526B-2 contain internal circuitry to

provide soft-start operation. The soft-start circuitry slowly

ramps the peak inductor current from zero to its peak value

of 700mA (typical) in approximately 0.5ms, allowing start-

up into heavy loads. The soft-start circuitry is reset in the

event of a shutdown command or a thermal shutdown.

Oscillator

An internal

oscillator sets the switching frequency to

2MHz.

Shutdown

Shutdown is accomplished by pulling the S H D N pin

below

0.3V and enabled by pulling the SHDN pin above

0.8V typical. Although SHDN can be

driven above V

OUT

(up to the absolute maximum rating) without dam-

age, the LTC3526-2/LTC3526B-2 have a proprietary test

mode that may be engaged if

SHDN is held

in the range

of 0.5V to 1V higher than the greater of V

or V

OUT

. If

the test mode is engaged, normal PWM switching action

is interrupted, which can cause undesirable operation

in some applications. Therefore, in applications where

SHDN may be

driven above V

, a resistor divider or other

means must be employed to keep the SHDN voltage below

+ 0.4V) to prevent the possibility of the test mode

being engaged. Please refer to Figure 1 for two possible

implementations.

Error Amplifier

The positive input of the transconductance error amplifier

is internally connected to the 1.195V reference and the

negative input is connected to FB. Clamps limit the mini

mum and maximum error amp output voltage for improved

large-signal transient response. Power converter control

loop compensation is provided internally. An external

resistive voltage divider from V

OUT

to ground programs

the output voltage via FB from 1.6V to 5.25V.

V V

OUT

= +













1 195 1

. •

Current Sensing

Lossless current sensing converts the peak current signal of

the N-channel MOSFET switch into a voltage that is summed

with the internal slope compensation. The summed signal

is compared to the error amplifier output to provide a peak

current control command for the PWM.

Current Limit

The current limit comparator shuts off the N-channel

MOSFET switch once its threshold is reached. The cur

rent limit

comparator delay to output is typically 60ns.

Peak switch current is limited to approximately 700mA,

independent of input or output voltage, unless V

OUT

falls

below 0.7V, in which case the current limit is cut in half.

Zero Current Comparator

The zero

current comparator monitors the inductor cur-

rent to

the output and shuts off the synchronous rectifier

(Refer to Block Diagram)

operAtion

ZETEX ZC2811E

35262b2 F01

LTC3526-2/LTC3526B-2

SHDN

CNTRL

±30%

LTC3526-2/LTC3526B-2

SHDN

±30%

R > (V

CNTRL

/(V

+ 0.4) – 1)MΩ

CNTRL

Figure 1. Recommended Shutdown Circuits when Driving

SHDN above V

LTC3526-2/LTC3526B-2

35262b2fc

when this current reduces to approximately 30mA. This

prevents the inductor current from reversing in polarity,

improving efficiency at light loads.

Synchronous Rectifier

To control inrush current and to prevent the inductor

current from running away when V

OUT

is close to V

, the

P-channel MOSFET synchronous rectifier is only enabled

when V

OUT

> (V

+ 0.24V).

Anti-Ringing Control

The anti-ringing

control connects a resistor across the

inductor to prevent high frequency ringing on the SW pin

during discontinuous current mode operation. Although

the ringing of the resonant circuit formed by L and C

(capacitance on SW pin) is low energy, it can cause EMI

radiation.

Output Disconnect

The LTC3526-2/LTC3526B-2 are designed to allow true

output disconnect by eliminating body diode conduction

of the internal P-channel MOSFET rectifier. This allows for

OUT

to go to zero volts during shutdown, drawing no cur-

rent from the input source. It also allows for inrush current

limiting at turn-on, minimizing surge currents seen by the

input supply. Note that to obtain the advantages of output

disconnect, there must not be an external Schottky diode

connected between the SW pin and V

OUT

. The output dis-

connect feature also allows V

OUT

to be pulled high, without

any reverse current into a battery connected to V

Thermal Shutdown

If the

die temperature exceeds 160°C, the LTC3526-2/

LTC3526B-2 will go into thermal shutdown. All switches

will be off and the soft-start capacitor will be discharged.

The device will be enabled again when the die temperature

drops by about 15°C.

Burst Mode OPERATION

The LTC3526-2 will automatically enter Burst Mode opera-

tion at

light load and return to fixed frequency PWM mode

when the load increases. Refer to the Typical Performance

Characteristics to see the output load Burst Mode thresh

old current vs V

. The load current at which Burst Mode

operation is entered can be changed by adjusting the

inductor value. Raising the inductor value will lower the

load current at which Burst Mode operation is entered.

In Burst Mode operation, the LTC3526-2 still switches at

a fixed frequency of 2MHz, using the same error amplifier

and loop compensation for peak current mode control.

This control method eliminates any output transient when

switching between modes. In Burst Mode operation, en

ergy is

delivered to the output until it reaches the nominal

regulation value, then the LTC3526-2 transitions to sleep

mode where the outputs are off and the LTC3526-2 con

sumes only 9µA of quiescent current from V

OUT

. When the

output voltage droops slightly, switching resumes. This

maximizes efficiency at very light loads by minimizing

switching and quiescent losses. Burst Mode output voltage

ripple, which is typically 1% peak-to-peak, can be reduced

by using more output capacitance (10µF or greater), or

with a small capacitor (10pF to 50pF) connected between

OUT

and FB.

As the load current increases, the LTC3526-2 will automati-

cally leave

Burst Mode operation. Note that larger output

capacitor values may cause this transition to occur at lighter

loads. Once the LTC3526-2 has left Burst Mode operation

and returned to normal operation, it will remain there until

the output load is reduced below the burst threshold.

Burst Mode operation is inhibited during start-up and soft-

start and until V

OUT

is at least 0.24V greater than V

The LTC3526B-2 features continuous PWM operation at

2MHz. At very light loads, the LTC3526B-2 will exhibit

pulse-skip operation.

(Refer to Block Diagram)

operAtion

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P16

LTC3526EDC-2#TRMPBF

Mfr. #:

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Manufacturer:

Analog Devices / Linear Technology

Description:

Switching Voltage Regulators 500mA, 2MHz Synch Step -Up in DFN

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LTC3526EDC-2#TRMPBF

LTC3526EDC-2#TRMPBF

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