EN5330DI-T ENPIRION [Enpirion, Inc.], EN5330DI-T Datasheet - Page 9

EN5330DI-T

Manufacturer Part Number

EN5330DI-T

Description

3A Voltage Mode Synchronous Buck PWM DC-DC Converter

Manufacturer

ENPIRION [Enpirion, Inc.]

Datasheet

1.EN5330DI-T.pdf (11 pages)

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Rev 1.0 – July 2005

PWM operation resumes and POK returns to its high

state.

Thermal Overload Protection

Thermal shutdown will disable operation once the

Junction temperature exceeds approximately 160ºC.

Once the junction temperature drops by approx 25ºC,

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

Low Input Voltage Operation

Circuitry is provided to ensure that when the input

voltage is below the specified voltage range, the

operation of the converter is controlled and

predictable. Circuits for hysteresis, input de-glitch and

output leading edge blanking are included to ensure

high noise immunity and prevent false tripping.

Compensation

The EN5330 is internally compensated through the

use of a type 3 compensation network and is

optimized for use with about 50µF of output

capacitance and will provide excellent loop bandwidth

and transient performance for most applications. (See

the section on Capacitor Selection for details on

recommended capacitor types.) In some cases

modifications to the compensation may be required.

For more information, contact Enpirion Applications

Engineering support.

Layout Considerations

The EN5330 Layout Guidelines application note

provides more details on specific layout

recommendations for this part. The following are

general layout guidelines to consider.

The CMOS chip inside the EN5330 has two grounds:

AGND for the controller, and PGND for the power

stage. These two grounds need to be connected

outside the package at one point through a low-

impedance trace. The connection should be made such

that the impedance between the connection point and

the AGND pad on the package is minimized. Since

the internal voltage sensing circuit is based on AGND,

the connection of the two grounds should also be

made such that the best voltage regulation can be

achieved. The soft-start capacitor, the voltage

programming resistors, and any other external control

component should be tied to AGND.

The placement of the input decoupling capacitors

between PVIN and PGND is very critical. These

components should be placed such that they have the

lowest inductance traces to PVIN and PGND.

There are two thermal pads underneath the device.

The centrally located pad is PGND, and, depending on

the number of layers of the PC board, it needs to be

connected to a thermal plane in order to conduct heat

away from the device. Note that if any of the thermal

planes is also connected to AGND, the impedance

between this point and the GND connection of the

load needs to be minimized in order to get the best

possible load regulation. The pad opposite the V

pins is connected to V

connected to a top layer copper area as large as

possible to conduct more heat away from the package.

This will also help minimize the trace length to the

output filter caps.

Pin 19 is a connected to a noisy internal node and is

brought out for test purposes only. Keep all sensitive

signal traces as far as possible from this pin. Ideally,

on the top layer there should be no traces or vias

underneath the package between this pin and the V

thermal pad.

OUT

. This V

OUT

EN5330

www.enpirion.com

pad should be

OUT

EN5330DI-T ENPIRION [Enpirion, Inc.], EN5330DI-T Datasheet - Page 9

EN5330DI-T

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