LT3435IFE#TRPBF Datasheet LT3435EFE#TRPBF, LT3435IFE#TRPBF, LT3435IFE#PBF | P7-P9

LT3435

3435fa

PI FU CTIO S

When the PGFB pin rises above V

PGFB

, current is sourced

from the C

pin into the external capacitor. When the volt-

age on the external capacitor reaches an internal clamp

), the PG pin becomes a high impedance node. The

resultant PG delay time is given by t = C

• V

. If the

voltage on the PGFB pin drops below V

PGFB

, C

will be

discharged rapidly to 0V and PG will be active low with a

200µA sink capability. If the C

pin is clamped (Power Good

condition) during normal operation and SHDN is taken low,

the C

pin will be discharged and a delay period will occur

when SHDN is returned high. See the Power Good section

in Applications Information for details.

GND (Pins 8, 17): The GND pin connection acts as the

reference for the regulated output, so load regulation will

suffer if the “ground” end of the load is not at the same

voltage as the GND pin of the IC. This condition will occur

when load current or other currents flow through metal

paths between the GND pin and the load ground. Keep the

path between the GND pin and the load ground short and

use a ground plane when possible. The GND pin also acts

as a heat sink and should be soldered (along with the

exposed leadframe) to the copper ground plane to reduce

thermal resistance (see Applications Information).

(Pin 9): A capacitor from the C

pin to the regulated

output voltage determines the output voltage ramp rate

during start-up. When the current through the C

capaci-

tor exceeds the C

threshold (I

CSS

), the voltage ramp of

the output is limited. The C

threshold is proportional to

the FB voltage (see Typical Performance Characteristics)

and is defeated for FB voltage greater than 0.9V (typical).

See Soft-Start section in Applications Information for

details.

BIAS (Pin 10): The BIAS pin is used to improve efficiency

when operating at higher input voltages and light load

current. Connecting this pin to the regulated output volt-

age forces most of the internal circuitry to draw its

operating current from the output voltage rather than the

input supply. This architecture increases efficiency espe-

cially when the input voltage is much higher than the

output. Minimum output voltage setting for this mode of

operation is 3V.

(Pin 11): The V

pin is the output of the error amplifier

and the input of the peak switch current comparator. It is

normally used for frequency compensation, but can also

serve as a current clamp or control loop override. V

sits

at about 0.45V for light loads and 2.2V at maximum load.

During the sleep portion of Burst Mode operation, the V

pin is held at a voltage slightly below the burst threshold

for better transient response. Driving the V

pin to ground

will disable switching and place the IC into sleep mode.

FB (Pin 12): The feedback pin is used to determine the

output voltage using an external voltage divider from the

output that generates 1.25V at the FB pin . When the FB pin

drops below 0.9V, switching frequency is reduced, the

SYNC function is disabled and output ramp rate control is

enabled via the C

pin. See the Feedback section in

Applications Information for details.

PGFB (PIN 13): The PGFB pin is the positive input to a

comparator whose negative input is set at V

PGFB

. When

PGFB is taken above V

PGFB

, current (I

CSS

) is sourced into

the C

pin starting the PG delay period. When the voltage

on the PGFB pin drops below V

PGFB

, the C

pin is rapidly

discharged resetting the PG delay period. The PGFB volt-

age is typically generated by a resistive divider from the

regulated output or input supply. See Power Good section

in Applications Information for details.

SYNC (Pin 14): The SYNC pin is used to synchronize the

internal oscillator to an external signal. It is directly logic

compatible and can be driven with any signal between 5%

and 75% duty cycle. The synchronizing range is equal to

maximum initial operating frequency up to 700kHz. When

the voltage on the FB pin is below 0.9V the SYNC function

is disabled. See the Synchronizing section in Applications

Information for details.

SHDN (Pin 15): The SHDN pin is used to turn off the

regulator and to reduce input current to less than 1µA. The

SHDN pin requires a voltage above 1.3V with a typical

source current of 5µA to take the IC out of the shutdown

state.

PG (Pin 16): The PG pin is functional only when the SHDN

pin is above its threshold, and is active low when the

internal clamp on the C

pin is below its clamp level and

high impedance when the clamp is active. The PG pin has

a typical sink capability of 200µA. See the Power Good

section in Applications Information for details.

LT3435

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The LT3435 is a constant frequency, current mode buck

converter. This means that there is an internal clock and two

feedback loops that control the duty cycle of the power

switch. In addition to the normal error amplifier, there is a

current sense amplifier that monitors switch current on a

cycle-by-cycle basis. A switch cycle starts with an oscilla-

tor pulse which sets the RS latch to turn the switch on. When

switch current reaches a level set by the current compara-

tor the latch is reset and the switch turns off. Output volt-

age control is obtained by using the output of the error

amplifier to set the switch current trip point. This technique

means that the error amplifier commands current to be

delivered to the output rather than voltage. A voltage fed

system will have low phase shift up to the resonant fre-

quency of the inductor and output capacitor, then an abrupt

180° shift will occur. The current fed system will have 90°

phase shift at a much lower frequency, but will not have the

additional 90° shift until well beyond the LC resonant fre-

quency. This makes it much easier to frequency compen-

sate the feedback loop and also gives much quicker tran-

sient response.

Most of the circuitry of the LT3435 operates from an

internal 2.4V bias line. The bias regulator normally draws

Figure 1. LT3435 Block Diagram

BLOCK DIAGRA

INTERNAL REF

UNDERVOLTAGE

LOCKOUT

THERMAL

SHUTDOWN

SOFT-START

FOLDBACK

DETECT

SLOPE

COMP

ANTISLOPE

COMP

1.2V C

CLAMP

2.4V

–

1.3V

1.25V

SHDN

SYNC

BIAS

SHDN

COMP

–

ERROR

AMP

PGFB

1.12V

–

COMP

BURST MODE

DETECT

500kHz

OSCILLATOR

SWITCH

LATCH

CURRENT

COMP

DRIVER

CIRCUITRY

BOOST

GND

PGND

3435 BD

CLAMP

LT3435

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power from the V

pin, but if the BIAS pin is connected to

an external voltage higher than 3V bias power will be

drawn from the external source (typically the regulated

output voltage). This improves efficiency.

High switch efficiency is attained by using the BOOST pin

to provide a voltage to the switch driver which is higher

than the input voltage, allowing switch to be saturated.

This boosted voltage is generated with an external capaci-

tor and diode.

To further optimize efficiency, the LT3435 automatically

switches to Burst Mode operation in light load situations.

In Burst Mode operation, all circuitry associated with

controlling the output switch is shut down reducing the

input supply current to 45µA.

The LT3435 contains a power good flag with a program-

mable threshold and delay time. A logic-level low on the

SHDN pin disables the IC and reduces input suppy current

to less than 1µA.

APPLICATIO S I FOR ATIO

WUUU

FEEDBACK PIN FUNCTIONS

The feedback (FB) pin on the LT3435 is used to set output

voltage and provide several overload protection features.

The first part of this section deals with selecting resistors

to set output voltage and the remaining part talks about

frequency foldback and soft-start features. Please read

both parts before committing to a final design.

Referring to Figure 2, the output voltage is determined by

a voltage divider from V

OUT

to ground which generates

1.25V at the FB pin. Since the output divider is a load on the

output care must be taken when choosing the resistor

divider values. For light load applications the resistor

values should be as large as possible to achieve peak

efficiency in Burst Mode operation. Extremely large values

for resistor R1 will cause an output voltage error due to the

50nA FB pin input current. The suggested value for the

output divider resistor (see Figure 2) from FB to ground

(R2) is 100k or less. A formula for R1 is shown below. A

table of standard 1% values is shown in Table 1 for

common output voltages.

RnA

OUT

125

125 2 50

•

–.

.•

More Than Just Voltage Feedback

The FB pin is used for more than just output voltage

sensing. It also reduces switching frequency and con-

trols the soft-start voltage ramp rate when output voltage

is below the regulated level (see the Frequency Foldback

Table 1

OUTPUT R1 OUTPUT

VOLTAGE R2 NEAREST (1%) ERROR

(V) (kΩ, 1%) (kΩ)(%)

2.5 100 100 0

3 100 140 0

3.3 100 165 0.38

5 100 301 0.25

6 100 383 0.63

8 100 536 –0.63

10 100 698 –0.25

12 100 866 0.63

Figure 2. Feedback Network

BLOCK DIAGRA

SOFT-START

FOLDBACK

DETECT

500kHz

OSCILLATOR

–

ERROR

AMP

1.25V

OUT

LT3435

3435 F02

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LT3435IFE#TRPBF

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Description:

Switching Voltage Regulators 500kHz Version of LT3434 (200kHz)

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