LTM4619IV#PBF Linear Technology, LTM4619IV#PBF Datasheet - Page 14

LTM4619IV#PBF

Manufacturer Part Number

LTM4619IV#PBF

Description

IC SWIT REG BUCK 4A ADJ 144LGA

Manufacturer

Linear Technology

Series

µModuler

Type

Point of Load (POL) Non-Isolatedr

Datasheets

1.LTM4619EVPBF.pdf (24 pages)

2.LTM4619IVPBF.pdf (24 pages)

Specifications of LTM4619IV#PBF

Design Resources

LTM4619 Spice Model

Output

0.8 ~ 5 V

Number Of Outputs

Power (watts)

30W

Mounting Type

Surface Mount

Voltage - Input

4.5 ~ 26.5 V

Package / Case

144-LGA

1st Output

0.8 ~ 5 VDC @ 4A

2nd Output

0.8 ~ 5 VDC @ 4A

Size / Dimension

0.59" L x 0.59" W x 0.11" H (15mm x 15mm x 2.8mm)

Power (watts) - Rated

30W

Operating Temperature

-40°C ~ 125°C

Dc To Dc Converter Type

Step Down

Pin Count

144

Input Voltage

26.5V

Output Voltage

0.8 to 5V

Switching Freq

860KHz

Output Current

Package Type

LGA

Output Type

Adjustable

Switching Regulator

Yes

Load Regulation

0.8%

Line Regulation

0.3%

Mounting

Surface Mount

Input Voltage (min)

4.5V

Operating Temperature Classification

Automotive

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

3rd Output

Lead Free Status / Rohs Status

Compliant

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Company:

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Quantity:

3 000

Company:

Part Number:

LTM4619IV#PBF

Manufacturer:

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LTM4619

applicaTions inForMaTion

INTV

The INTV

LTM4619 internal circuitry and drives the power MOSFETs.

The input voltage of the LTM4619 must be 6V or above

for the INTV

the internal LDO dropout from the input voltage. For ap-

plications that need to operate below 6V input, then the

input voltage can be connected directly to the EXTV

pin to bypass the LDO dropout concern, or an external

5V supply can be used to power the EXTV

the input voltage is at high end of the supply range to

reduce power dissipation in the module. For example the

dropout voltage for 24V input would be 24V – 5V = 19V.

This 19V headroom then multiplied by the power MOSFET

drive current of ~15mA would equal ~0.3W additional

power dissipation. So utilizing an external 5V supply on

the EXTV

device temperature rise.

Slope Compensation

The module has already been internally compensated for

all output voltages. LTpowerCAD is available for control

loop optimization.

Burst Mode Operation and Pulse-Skipping Mode

The LTM4619 regulator can be placed into high efficiency

power saving modes at light load condition to conserve

power. The Burst Mode operation can be selected by float-

ing the MODE/PLLIN pin, and pulse-skipping mode can be

selected by pulling the MODE/PLLIN pin to INTV

Mode operation offers the best efficiency at light load, but

output ripple will be higher and lower frequency ranges

are capable which can interfere with some systems. Pulse-

skipping mode efficiency is not as good as Burst Mode

operation, but this mode only skips pulses to save efficiency

and maintains a lower output ripple and a higher switch-

ing frequency. Burst Mode operation and pulse-skipping

mode efficiencies can be reviewed in graph supplied in

the Typical Performance Characteristics section.

and EXTV

would improve design efficiency and reduce

is the internal 5V regulator that powers the

to regulate to the proper 5V level due to

pin when

. Burst

Fault Conditions: Current Limit and Overcurrent

Foldback

The LTM4619 has a current mode controller, which inher-

ently limits the cycle-by-cycle inductor current not only in

steady-state operation, but also in transient.

To further limit current in the event of an overload condi-

tion, the LTM4619 provides foldback current limiting. If the

output voltage falls by more than 50%, then the maximum

output current is progressively lowered to one-third of its

full current limit value. Foldback current limiting is disabled

during the soft-start and tracking up.

Thermal Considerations and Output Current Derating

In different applications, the LTM4619 operates in a variety

of thermal environments. The maximum output current is

limited by the environmental thermal condition. Sufficient

cooling should be provided to ensure reliable operation.

When the cooling is limited, proper output current derat-

ing is necessary, considering the ambient temperature,

airflow, input/output conditions, and the need for increased

reliability.

Two outputs of LTM4619 are paralleled to get high output

current for derating curve tests. The power loss curves in

Figures 7 and 8 can be used in coordination with the load

current derating curves in Figures 9 to 16 for calculating

an approximate θ

methods. Application Note 103 provides a detailed ex-

planation of the analysis for the thermal models and the

derating curves. Tables 2 and 3 provide a summary of the

equivalent θ

and are improved with airflow. The junction temperature

is maintained at 125°C or below for the derating curves.

Safety Considerations

The LTM4619 modules do not provide isolation from V

to V

fuse with a rating twice the maximum input current needs

to be provided to protect each unit from catastrophic failure.

OUT

parameters are correlated to the measured values,

. There is no internal fuse. If required, a slow blow

for the noted conditions. These equivalent

for the module with various cooling

4619fa

LTM4619IV#PBF Linear Technology, LTM4619IV#PBF Datasheet - Page 14

LTM4619IV#PBF

Specifications of LTM4619IV#PBF

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