C4532X5R0J107MZ LINER [Linear Technology], C4532X5R0J107MZ Datasheet - Page 9

C4532X5R0J107MZ

Manufacturer Part Number

C4532X5R0J107MZ

Description

10A High Effi ciency DC/DC ?Module

Manufacturer

LINER [Linear Technology]

Datasheet

1.C4532X5R0J107MZ.pdf (24 pages)

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APPLICATIONS INFORMATION

The typical LTM4600 application circuit is shown in Figure

18. External component selection is primarily determined

by the maximum load current and output voltage.

Output Voltage Programming and Margining

The PWM controller of the LTM4600 has an internal

0.6V±1% reference voltage. As shown in the block dia-

gram, a 100k/0.5% internal feedback resistor connects

pin to SGND pin programs the output voltage:

Table 1 shows the standard values of 1% R

for typical output voltages:

Table 1.

Voltage margining is the dynamic adjustment of the output

voltage to its worst case operating range in production

testing to stress the load circuitry, verify control/protec-

tion functionality of the board and improve the system

reliability. Figure 2 shows how to implement margining

function with the LTM4600. In addition to the feedback

resistor R

Turn off both transistor Q

margining. When Q

voltage is margined up. The output voltage is margined

(kΩ)

OUT

(V)

SET

and V

= 0.6V •

Open

0.6

Figure 2. LTM4600 Margining Implementation

LTM4600

PGND

SET

OSET

, several external components are added.

100

1.2

100k + R

pins. Adding a resistor R

66.5

SET

100k

1.5

SGND

is on and Q

SET

49.9

1.8

OUT

OSET

and Q

43.2

DOWN

SET

DOWN

31.6

2.5

is off, the output

SET

DOWN

2N7002

to disable the

4600 F02

SET

from V

22.1

3.3

DOWN

resistor

OSET

13.7

down when Q

voltage V

resistor values of R

the following equations:

Input Capacitors

The LTM4600 μModule should be connected to a low

ac-impedance DC source. High frequency, low ESR input

capacitors are required to be placed adjacent to the mod-

ule. In Figure 18, the bulk input capacitor C

for its ability to handle the large RMS current into the

converter. For a buck converter, the switching duty-cycle

can be estimated as:

Without considering the inductor current ripple, the RMS

current of the input capacitor can be estimated as:

In the above equation, η% is the estimated efﬁ ciency of

the power module. C1 can be a switcher-rated electrolytic

aluminum capacitor, OS-CON capacitor or high volume

ceramic capacitors. Note the capacitor ripple current

ratings are often based on only 2000 hours of life. This

makes it advisable to properly derate the input capacitor,

or choose a capacitor rated at a higher temperature than

required. Always contact the capacitor manufacturer for

derating requirements.

In Figure 18, the input capacitors are used as high fre-

quency input decoupling capacitors. In a typical 10A

output application, 1-2 pieces of very low ESR X5R or

X7R, 10μF ceramic capacitors are recommended. This

decoupling capacitor should be placed directly adjacent

D =

CIN(RMS)

SET

+ (100k

• V

needs to be margined up/down by ±M%, the

) • V

DOWN

O(MAX)

• (1– M%)

) + 100k

• (1+ M%)

is on and Q

DOWN

and R

• D • (1 D)

)

DOWN

= 0.6V

can be calculated from

is off. If the output

LTM4600

is selected

4600fc

C4532X5R0J107MZ LINER [Linear Technology], C4532X5R0J107MZ Datasheet - Page 9

C4532X5R0J107MZ

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