EN6337QI3 ENPIRION [Enpirion, Inc.], EN6337QI3 Datasheet - Page 12

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EN6337QI3

Manufacturer Part Number

EN6337QI3

Description

3A Voltage Mode Synchronous Buck PWM DC-DC Converter with Integrated Inductor

Manufacturer

ENPIRION [Enpirion, Inc.]

Datasheet

1.EN6337QI3.pdf (17 pages)

Current page: 12 of 17
Download datasheet (418Kb)

Thermal Overload Protection

Thermal shutdown circuit will disable device

operation when the Junction temperature

exceeds approximately 150ºC. After a thermal

shutdown

temperature drops by approx 20ºC, the

converter will re-start with a normal soft-start.

Input Under-Voltage Lock-Out

Internal circuits ensure that the converter will

not start switching until the input voltage is

above

Hysteresis and input de-glitch circuits ensure

high noise immunity and prevent false UVLO

triggers.

Application Information

The EN6337QI output voltage is programmed

using a simple resistor divider network. Figure

6 shows the resistor divider configuration.

An additional compensation capacitor C

also required in parallel with the upper resistor.

Input Capacitor Selection

The EN6337QI requires about 20uF of input

capacitance.

capacitors should be used as input capacitors

for this converter. The dielectric must be X5R

or X7R rated. Y5V or equivalent dielectric

formulations must not be used as these lose

too

temperature

applications,

needed in parallel with the larger, capacitors in

order to provide high frequency decoupling.

©Enpirion 2011 all rights reserved, E&OE

05800

Figure 6: V

much

the

event,

and

capacitance

lower

specified

Compensation Capacitor

Low-cost,

OUT

RA

RB

Resistor Divider &

bias

=

=

value

200

when

(

VOUT

k

minimum

. 0

voltage.

low-ESR

Ω

75

with

capacitors

−

*

the

. 0

RA

75

frequency,

V

In

)

voltage.

ceramic

junction

A

is

some

are

6/17/2011

12

Compensation

The EN6337QI uses a type 3 compensation

network. As noted earlier, a piece of the

compensation network is the phase lead

capacitor CA in Figure 6. This network is

optimized for use with about 50-100μF of

output capacitance and will provide wide loop

bandwidth and excellent transient performance

for most applications. Voltage mode operation

provides high noise immunity at light load.

In some applications, modifications to the

compensation may be required. For more

information,

Engineering support.

Recommended Input Capacitors

10 µF, 10V, 10%

X7R, 1206

(2 capacitors needed)

22 µF, 10V, 20%

X5R, 1206

(1 capacitor needed)

Output Capacitor Selection

The EN6337QI has been nominally optimized

for use with approximately 50-100μF of output

capacitance. Low ESR ceramic capacitors are

required with X5R or X7R rated dielectric

formulation.

formulations must not be used as these lose

too

temperature and bias voltage.

Output ripple voltage is determined by the

aggregate output capacitor impedance. Output

impedance, denoted as Z, is comprised of

effective series resistance, ESR, and effective

series inductance, ESL:

Placing output capacitors in parallel reduces

the impedance and will hence result in lower

PWM ripple voltage. In addition, higher output

capacitance will improve overall regulation and

ripple in light-load mode.

Description

much

Z

Total

1

contact

capacitance

Y5V or equivalent dielectric

Z = ESR + ESL

=

Murata

Taiyo Yuden

Murata

Taiyo Yuden

Z

1

1

MFG

+

Z

Enpirion

1

2

+

www.enpirion.com

...

with

+

GRM31CR71A106KA01L

LMK316B7106KL-T

GRM31CR61A226ME19L

LMK316BJ226ML-T

Z

1

n

EN6337QI

Applications

frequency,

P/N

Rev: B

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