LTC3440_15 Datasheet, PDF(8/20 Page) Linear Technology – Micropower Synchronous Buck-Boost DC/DC Converter

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LTC3440_15 Datasheet, PDF (8/20 Pages) Linear Technology – Micropower Synchronous Buck-Boost DC/DC Converter

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LTC3440

Operation

The LTC3440 provides high efficiency, low noise power

for applications such as portable instrumentation. The

LTC proprietary topology allows input voltages above,

below or equal to the output voltage by properly phasing

the output switches. The error amp output voltage on the

VC pin determines the output duty cycle of the switches.

Since the VC pin is a filtered signal, it provides rejection

of frequencies from well below the switching frequency.

The low RDS(ON), low gate charge synchronous switches

provide high frequency pulse width modulation control at

high efficiency. Schottky diodes across the synchronous

switch D and synchronous switch B are not required, but

provide a lower drop during the break-before-make time

(typically 15ns). The addition of the Schottky diodes will

improve peak efficiency by typically 1% to 2% at 600kHz.

High efficiency is achieved at light loads when Burst Mode

operation is entered and when the ICâs quiescent current

is a low 25ÂµA.

Error Amp

The error amplifier is a voltage mode amplifier. The loop

compensation components are configured around the

amplifier to provide loop compensation for the converter.

The SHDN/SS pin will clamp the error amp output, VC, to

provide a soft-start function.

Supply Current Limit

The current limit amplifier will shut PMOS switch A off

once the current exceeds 2.7A typical. The current ampli-

fier delay to output is typically 50ns.

Reverse Current Limit

The reverse current limit amplifier monitors the inductor

current from the output through switch D. Once a nega-

tive inductor current exceeds â 400mA typical, the IC will

shut off switch D.

Low Noise Fixed Frequency Operation

Oscillator

The frequency of operation is user programmable and is

set through a resistor from the RT pin to ground where:

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An internally trimmed timing capacitor resides inside the

IC. The oscillator can be synchronized with an external

clock applied to the MODE/SYNC pin. A clock frequency

of twice the desired switching frequency and with a pulse

width between 100ns and 2Âµs is applied. The oscillator

RT component value required is given by:

Output Switch Control

Figure 1 shows a simplified diagram of how the four internal

switches are connected to the inductor, VIN, VOUT and GND.

Figure 2 shows the regions of operation for the LTC3440

as a function of the internal control voltage, VCI. The VCI

voltage is a level shifted voltage from the output of the

error amp (VC pin) (see Figure 5). The output switches are

properly phased so the transfer between operation modes

is continuous, filtered and transparent to the user. When

VIN approaches VOUT the Buck/Boost region is reached

where the conduction time of the four switch region is

typically 150ns. Referring to Figures 1 and 2, the various

regions of operation will now be described.

â¢ 1010

fSW

where fSW = desired synchronized switching frequency.

For example to achieve a 1.2MHz synchronized switching

frequency the applied clock frequency to the MODE/SYNC

pin is set to 2.4MHz and the timing resistor, RT, is set to

66.5k (closest 1% value).

VIN

PMOS A

SW1

NMOS B

VOUT

PMOS D

SW2

NMOS C

3440 F01

Figure 1. Simplified Diagram of Output Switches

3440fc

For more information www.linear.com/LTC3440

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