LTC3425 Linear Technology, LTC3425 Datasheet - Page 18

LTC3425

Manufacturer Part Number

LTC3425

Description

5A 8MHz 4-Phase Synchronous Step-Up DC/DC Converter

Manufacturer

Linear Technology

Datasheet

1.LTC3425.pdf (24 pages)

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APPLICATIO S I FOR ATIO

LTC3425

The ESR (equivalent series resistance) is usually the most

dominant factor for ripple in most power converters. The

ripple due to capacitor ESR is given by:

where C

The ESL (equivalent series inductance) is also an impor-

tant factor for high frequency converters. Using small,

surface mount ceramic capacitors, placed as close as

possible to the V

Low ESR/ESL capacitors should be used to minimize

output voltage ripple. For surface mount applications, AVX

TPS Series tantalum capacitors, Sanyo POSCAP or X5R

type ceramic capacitors are recommended.

In all applications, a minimum of 1 F, low ESR ceramic

capacitor should be placed as close to each of the four

plane.

Input Capacitor Selection

The input filter capacitor reduces peak currents drawn

from the input source and reduces input switching noise.

Since the IC can operate at voltages below 0.5V once the

output is regulated (as long as SHDN is above 0.65V), the

demand on the input capacitor to lower ripple is much less.

Taiyo Yuden offers very low ESR capacitors, for example

the 2.2 F in a 0603 case (JMK107BJ22MA). See Table 3

for a list of capacitor manufacturers for input and output

capacitor selection.

Table 3. Capacitor Vendor Information

SUPPLIER

AVX

Sanyo

TDK

Murata

Taiyo Yuden (408) 573-4150 (408) 573-4159 www.t-yuden.com

Applications Where V

Due to the very high slew rates associated with the switch

nodes, Schottky diode clamps are required in any applica-

tion where V

OUT

RCESR

pins as possible, and grounded to a local ground

ESR

= I

PHONE

(803) 448-9411 (803) 448-1943 www.avxcorp.com

(619) 661-6322 (619) 661-1055 www.sanyovideo.com

(847) 803-6100 (847) 803-6296 www.component.tdk.com

USA:

(814) 237-1431 (814) 238-0490

(800) 831-9172

= Capacitor Series Resistance

OUT

• C

OUT

can exceed 4.3V to prevent the switch

ESR

pins, will minimize ESL.

OUT

FAX

USA:

> 4.3V

WEB SITE

www.murata.com

voltage from exceeding its maximum rating during the

break-before-make time. Surface mount diodes, such as

the MBR0520L or equivalent, must be used and must be

located very close to the pins to minimize stray inductance.

Two example application circuits are shown in Figures 7

and 8, one with output disconnect and one without.

Operating Frequency Selection

There are several considerations in selecting the operat-

ing frequency of the converter. The first is, which are the

sensitive frequency bands that cannot tolerate any spec-

tral noise? For example, in products incorporating RF

communications, the 455kHz IF frequency is sensitive to

any noise, therefore switching above 600kHz is desired.

Some communications have sensitivity to 1.1MHz, and

in that case, a 1.5MHz converter frequency may be

employed.

The second consideration is the physical size of the

converter. As the operating frequency goes up, the induc-

tor and filter capacitors go down in value and size. The

trade off is in efficiency, since the switching losses in-

crease proportionally with frequency.

Thermal Considerations

To deliver the power that the LTC3425 is capable of, it is

imperative that a good thermal path be provided to dissi-

pate the heat generated within the package. This can be

accomplished by taking advantage of the large thermal

pad on the underside of the IC. It is recommended that

multiple vias in the printed circuit board be used to

conduct heat away from the IC and into a copper plane with

as much area as possible. In the event that the junction

temperature gets too high, the peak current limit will

automatically be decreased. If the junction temperature

continues to rise, the part will go into thermal shutdown,

and all switching will stop until the temperature drops.

Closing the Feedback Loop

The LTC3425 uses current mode control with internal

adaptive slope compensation. Current mode control elimi-

nates the 2nd order filter, due to the inductor and output

capacitor exhibited in voltage mode controllers, and sim-

plifies it to a single pole filter response. The product of the

www.DataSheet4U.com

3425f

LTC3425 Linear Technology, LTC3425 Datasheet - Page 18

LTC3425

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