LTC3408_15 Datasheet, PDF(6/12 Page) Linear Technology – 1.5MHz, 600mA Synchronous Step-Down Regulator with Bypass Transistor

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LTC3408_15 Datasheet, PDF (6/12 Pages) Linear Technology – 1.5MHz, 600mA Synchronous Step-Down Regulator with Bypass Transistor

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LTC3408

FU CTIO AL DIAGRA

SLOPE

COMP

OSC

REF

VOUT

RUN

FREQ

Ã·2

â EA

0.85V

SLEEP

BURST

ICOMP

360k

180k

IBCMP

BCMP

1.2V +

P-CHANNEL

VIN

RS LATCH

SWITCHING

LOGIC

AND

BLANKING

CIRCUIT

ANTI-

SHOOT-

THRU

IRCMP

2 VIN

5â¦

7 VIN

4 SW

3 GND

3408 BD

OPERATIO (Refer to Functional Diagram)

VIN

2.7V

TO 5V

CINâ

10ÂµF

CER

REF

VIN

LTC3408

RUN VOUT

REF

GND

3403 F01

4.7ÂµH*

COUT**

4.7ÂµF

CER

VOUT

3Ã VREF

600mA

*MURATA LQH32CN4R7M11

**TAIYO YUDEN JMK212BJ475MG

â TAIYO YUDEN JMK212BJ106MN

Figure 1. Typical Application

Main Control Loop

The LTC3408 uses a constant frequency, current mode step-

down architecture. The main (P-channel MOSFET), syn-

chronous (N-channel MOSFET) and bypass (P-channel

MOSFET) switches are internal. During normal operation,

the internal main switch is turned on each cycle when the

oscillator sets the RS latch, and turned off when the cur-

rent comparator, ICOMP, resets the RS latch. The peak in-

ductor current at which ICOMP resets the RS latch, is con-

trolled by the output of error amplifier EA. When the load

current increases, it causes a slight decrease in the feed-

back voltage, FB, relative to the external reference, which

in turn, causes the EA amplifierâs output voltage to increase

until the average inductor current matches the new load cur-

rent. While the main switch is off, the synchronous switch

is turned on until the beginning of the next clock cycle.

The LTC3408 operates in forced continuous mode where

the inductor current is constantly cycled. In this mode, the

output voltage can respond quickly to the external refer-

ence voltage by sourcing or sinking current as needed.

Controlling the Output Voltage

The output voltage can be dynamically programmed from

0.3V to 3.5V using the REF input. Because the gain to VOUT

from REF is internally set to 3, the corresponding input

range at REF is 0.1V to 1.167V. VOUT can be modulated

during operation by driving REF with an external DAC.

When REF exceeds 1.2V, a 0.08â¦ internal bypass P-channel

MOSFET connects VIN to VOUT, dramatically reducing the

drop across the inductor and the main switch.

Short-Circuit Protection

A current sense comparator monitors the current across

the bypass P-channel MOSFET with a trip current of about

2.5A. When this current is exceeded during a VOUT short

to ground, the bypass P-channel MOSFET is immediately

turned off. The propagation delay of the current sensing

comparator, IBCMP, detecting an overcurrent condition to

turning off the bypass P-channel MOSFET is approxmately

100ns. Once the bypass P-channel MOSFET is off for about

10Âµs to 20Âµs, it is allowed to turn back on. The initial

current limit is then lowered to about 1.6A after the first

current limit trip. If the short to ground persists, the cur-

rent comparator will trip at the lower current limit, turning

3408f

▷