LT1339ISW#PBF Linear Technology, LT1339ISW#PBF Datasheet - Page 11

LT1339ISW#PBF

Manufacturer Part Number

LT1339ISW#PBF

Description

IC DC/DC CONTROLLER HIPWR 20SOIC

Manufacturer

Linear Technology

Type

Step-Up (Boost)r

Datasheet

1.LT1339CNPBF.pdf (20 pages)

Specifications of LT1339ISW#PBF

Internal Switch(s)

Synchronous Rectifier

Yes

Number Of Outputs

Current - Output

65mA

Frequency - Switching

150kHz

Voltage - Input

Up to 60V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

20-SOIC (7.5mm Width)

Primary Input Voltage

60V

No. Of Outputs

Output Voltage

54V

Output Current

65mA

No. Of Pins

Operating Temperature Range

-40Â°C To +85Â°C

Msl

MSL 1 - Unlimited

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Output

Power - Output

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Company:

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LT1339ISW#PBF

Manufacturer:

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APPLICATIONS

impedance of the I

quency is typically set 1 to 2 orders of magnitude below the

oscillator frequency and follows the relation:

The average current limit function can be disabled by

shorting the I

Soft Start Programming

The current control pin (V

to zero at voltages less than a transistor V

current limit at V

regulation range for average load current. An internal

voltage clamp forces the V

the SS pin voltage. This 100mV “dead zone” assures 0%

duty cycle operation at the start of the soft start cycle, or

when the soft start pin is pulled to ground. Given the

typical soft start current of 8 A and a soft start timing

capacitor C

average current will be:

Boost Supply

The V

tor. This supply provides gate drive to the topside switch

FET. The bootstrap capacitor is charged from 12V

a diode when the switch node is pulled low.

The diode reverse breakdown voltage must be greater than

times greater than the total input capacitance of the

topside FET. A capacitor in the range of 0.1 F to 1 F is

generally adequate for most applications.

Shutdown Function — Input Undervoltage Detect and

Threshold Hysteresis

The LT1339 RUN/SHDN pin uses a bandgap generated

reference threshold of about 1.25V. This precision thresh-

old allows use of the RUN/SHDN pin for both logic-level

shutdown applications and analog monitoring applica-

tions such as power supply sequencing.

Because an LT1339 controlled converter is a power

transfer device, a voltage that is lower than expected on

the input supply could require currents that exceed the

–3dB

+ 12V

BOOST

= (1.5)(10

= (3.2)(10

. The bootstrap capacitor should be at least 100

supply is bootstrapped via an external capaci-

AVG

, the start-up delay time to full available

)(C

pin directly to SGND.

= V

– 6

AVG

)/C

)

AVG

+ 1.8V. This generates a 1.8V full

INFORMATION

pin. The integrator corner fre-

) limits sensed inductor current

pin to a V

– 100mV above

, to full average

through

sourcing capabilities of that supply, causing the system to

lock up in an undervoltage state. Input supply start-up

protection can be achieved by enabling the RUN/SHDN

pin using a resistor divider from the input supply to

ground. Setting the divider output to 1.25V when that

supply is almost fully enabled prevents the LT1339 regu-

lator from drawing large currents until the input supply is

able to provide the required power.

If additional hysteresis is desired for the enable function,

an external feedback resistor can be used from the LT1339

regulator output. If connection to the regulator output is

not desired, the 5V

Figure 3 shows a resistor connection on a 48V to 5V

converter that yields a 40V V

regulator enable and also provides about 10% input

referred hysteresis.

The shutdown function can be disabled by connecting the

RUN/SHDN pin to the 12V

clamped to 2.5V through a 20k series input resistance and

will therefore draw about 0.5mA when tied directly to 12V.

This additional current can be minimized by making the

connection through an external resistor (100k is typically

used).

Operation with Split Supplies and Supply Sequencing

N-channel power MOSFETs can parasitically turn them-

selves on due to leakage currents or capacitive coupling

onto the MOSFET gate. In shutdown, this is prevented by

active pull-down clamps on the TG and BG driver outputs

of the LT1339. These clamps are active when 12V

The 12V

from the converter input supply; however, these supplies

can be independent. If these supplies are independent and

Figure 3. Input Supply Sequencing Programming

power supply for the LT1339 is usually derived

48V

300k

10k

390k

REF

OPTION 1

OPTION 2

internal supply pin can be used.

rail. This pin is internally

RUN/SHDN

REF

start-up threshold for

LT1339

OUT

1339 • F03

LT1339

sn1339 1339fas

> 0.7V.

LT1339ISW#PBF Linear Technology, LT1339ISW#PBF Datasheet - Page 11

LT1339ISW#PBF

Specifications of LT1339ISW#PBF

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