LTM4602HVIV#PBF Linear Technology, LTM4602HVIV#PBF Datasheet - Page 14

LTM4602HVIV#PBF

Manufacturer Part Number

LTM4602HVIV#PBF

Description

IC DC/DC UMODULE 6A 104-LGA

Manufacturer

Linear Technology

Series

µModuler

Type

Point of Load (POL) Non-Isolatedr

Datasheet

1.LTM4602HVEVPBF.pdf (24 pages)

Specifications of LTM4602HVIV#PBF

Design Resources

LTM4602HV Spice Model

Output

0.6 ~ 5 V

Number Of Outputs

Power (watts)

30W

Mounting Type

Surface Mount

Voltage - Input

4.5 ~ 28 V

Package / Case

104-LGA

1st Output

0.6 ~ 5 VDC @ 6A

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 ~ 85°C

Efficiency

92%

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

3rd Output

2nd Output

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APPLICATIO S I FOR ATIO

LTM4602HV

In the application where the light load efﬁ ciency is im-

portant, tying the FCB pin above 0.6V threshold enables

discontinuous operation where the bottom MOSFET turns

off when inductor current reverses. Therefore, the conduc-

tion loss is minimized and light load efﬁ cient is improved.

The penalty is that the controller may skip cycle and the

output voltage ripple increases at light load.

Paralleling Operation with Load Sharing

Two or more LTM4602HV modules can be paralleled to

provide higher than 6A output current. Figure 7 shows

the necessary interconnection between two paralleled

modules. The OPTI-LOOP™ current mode control en-

sures good current sharing among modules to balance

the thermal stress. The new feedback equation for two or

more LTM4602HVs in parallel is:

where N is the number of LTM4602HVs in parallel.

Thermal Considerations and Output Current Derating

The power loss curves in Figures 8 and 15 can be used

in coordination with the load current derating curves in

Figures 9 to 14, and Figures 16 to 19 for calculating an

OUT

0 6

•

100

SET

Figure 7. Parallel Two µModules with Load Sharing

PGOOD

PGND

COMP V

LTM4602HV

PGOOD

PULLUP

100k

OSET

OPTI-LOOP is a trademark of Linear Technology Corporation.

approximate θ

ing methods. Thermal models are derived from several

temperature measurements at the bench, and thermal

modeling analysis. Application Note 103 provides a detailed

explanation of the analysis for the thermal models, and the

derating curves. Tables 3 and 4 provide a summary of the

equivalent θ

improved with air-ﬂ ow. The case temperature is maintained

at 100°C or below for the derating curves. This allows for

4W maximum power dissipation in the total module with

top and bottom heatsinking, and 2W power dissipation

through the top of the module with an approximate θ

between 6°C/W to 9°C/W. This equates to a total of 124°C

at the junction of the device. The θ

and 4 can be used to derive the derating curves for other

output voltages.

Safety Considerations

The LTM4602HV modules do not provide isolation from

blow fuse with a rating twice the maximum input current

should be provided to protect each unit from catastrophic

failure.

SET

SGND

4602HV

parameters are correlated to the measure values, and

to V

OUT

F07

OUT

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

for the noted conditions. These equivalent

12A MAX

OUT

for the module with various heatsink-

values in Tables 3

4602hvf

LTM4602HVIV#PBF Linear Technology, LTM4602HVIV#PBF Datasheet - Page 14

LTM4602HVIV#PBF

Specifications of LTM4602HVIV#PBF

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