LT3430EFE#TRPBF Linear Technology, LT3430EFE#TRPBF Datasheet - Page 15

LT3430EFE#TRPBF

Manufacturer Part Number

LT3430EFE#TRPBF

Description

IC SW REG STEP-DOWN 3A 16TSSOP

Manufacturer

Linear Technology

Type

Step-Down (Buck)r

Datasheet

1.LT3430EFE-1PBF.pdf (28 pages)

Specifications of LT3430EFE#TRPBF

Internal Switch(s)

Yes

Synchronous Rectifier

Number Of Outputs

Voltage - Output

1.2 ~ 54 V

Current - Output

Frequency - Switching

200kHz

Voltage - Input

5.5 ~ 60 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

16-TSSOP Exposed Pad, 16-eTSSOP, 16-HTSSOP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Power - Output

Lead Free Status / Rohs Status

Compliant

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poor RFI behavior and if the overshoot is severe enough,

damage the IC itself.

The suggested catch diode (D1) is an International Recti-

ﬁ er 30BQ060 Schottky. It is rated at 3A average forward

current and 60V reverse voltage. Typical forward voltage

is 0.52V at 3A. The diode conducts current only during

switch off time. Peak reverse voltage is equal to regulator

input voltage. Average forward current in normal operation

can be calculated from:

This formula will not yield values higher than 3A with

maximum load current of 3A.

BOOST PIN

For most LT 3430 applications, the boost components are

a 0.68µF capacitor and a MMSD914TI diode. The anode

is typically connected to the regulated output voltage to

generate a voltage approximately V

the output stage. However, the output stage discharges

the boost capacitor during the on time of the switch. The

output driver requires at least 3V of headroom throughout

this period to keep the switch fully saturated. If the output

voltage is less than 3.3V, it is recommended that an alternate

boost supply is used. For output voltages greater than 6V,

it is recommended to place a zener diode (D4; page 20)

in series with the Boost diode to set Boost-to-SW voltage

between 4V to 6V. This minimizes power loss within the

IC, improving maximum ambient temperature operation.

In addition, D4 minimizes Boost current overshoot during

power switch turn on to reduce noise within the regula-

tor loop. For output voltages greater than the standard

demoboard 5V output, a location for D4 is provided.

A 0.68µF boost capacitor is recommended for most LT3430

applications. Almost any type of ﬁ lm or ceramic capaci-

tor is suitable, but the ESR should be <1Ω to ensure it

can be fully recharged during the off time of the switch.

The LT3430 capacitor value is derived from conditions of

4800ns on time, 75mA boost current and 0.7V discharge

ripple. The boost capacitor value could be reduced under

APPLICATIONS INFORMATION

D AVG

(

)

OUT

(

–

OUT

)

OUT

above V

to drive

less demanding conditions, but this will not improve cir-

cuit operation or efﬁ ciency. Under low input voltage and

low load conditions, a higher value capacitor will reduce

discharge ripple and improve start-up operation. For the

LT3430-1 a 1.5µF boost capacitor is recommended.

SHUTDOWN FUNCTION AND UNDERVOLTAGE

LOCKOUT

Figure 4 shows how to add undervoltage lockout (UVLO)

to the LT3430/LT3430-1. Typically, UVLO is used in situ-

ations where the input supply is current limited, or has

a relatively high source resistance. A switching regulator

draws constant power from the source, so source cur-

rent increases as source voltage drops. This looks like a

negative resistance load to the source and can cause the

source to current limit or latch low under low source voltage

conditions. UVLO prevents the regulator from operating at

source voltages where these problems might occur.

Threshold voltage for lockout is about 2.38V. A 5.5µA

bias current ﬂ ows out of the pin at this threshold. The

internally generated current is used to force a default high

state on the shutdown pin if the pin is left open. When

low shutdown current is not an issue, the error due to this

current can be minimized by making R

shutdown current is an issue, R

but the error due to initial bias current and changes with

temperature should be considered.

Keep the connections from the resistors to the shutdown

pin short and make sure that interplane or surface capaci-

tance to the switching nodes are minimized. If high resistor

values are used, the shutdown pin should be bypassed with

a 1000pF capacitor to prevent coupling problems from the

switch node. If hysteresis is desired in the undervoltage

lockout point, a resistor R

node. Resistor values can be calculated from:

= Minimum input voltage

2 38

to 100k 25k suggested

V R

(

−

2 38

(

5 5

LT3430/LT3430-1

. µ

)

can be added to the output

)

can be raised to 100k,

)

10k or less. If

34301fa

LT3430EFE#TRPBF Linear Technology, LT3430EFE#TRPBF Datasheet - Page 15

LT3430EFE#TRPBF

Specifications of LT3430EFE#TRPBF

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