LM2733YEVAL National Semiconductor, LM2733YEVAL Datasheet - Page 9

LM2733YEVAL

Manufacturer Part Number

LM2733YEVAL

Description

BOARD EVALUATION LM2733Y

Manufacturer

National Semiconductor

Series

PowerWise®r

Datasheets

1.LM2733XMFNOPB.pdf (14 pages)

2.LM2731XEVAL.pdf (3 pages)

Specifications of LM2733YEVAL

Main Purpose

DC/DC, Step Up

Outputs And Type

1, Non-Isolated

Current - Output

Voltage - Input

2.7 ~ 14V

Regulator Topology

Boost

Frequency - Switching

600kHz

Board Type

Fully Populated

Utilized Ic / Part

LM2733

Lead Free Status / RoHS Status

Not applicable / Not applicable

Voltage - Output

Power - Output

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input pin, it also reduces the amount of EMI passed back

along that line to other circuitry.

FEED-FORWARD COMPENSATION

Although internally compensated, the feed-forward capacitor

Cf is required for stability (see Basic Application Circuit).

Adding this capacitor puts a zero in the loop response of the

converter. Without it, the regulator loop can oscillate. The

recommended frequency for the zero fz should be approxi-

mately 8 kHz. Cf can be calculated using the formula:

SELECTING DIODES

The external diode used in the typical application should be

a Schottky diode. If the switch voltage is less than 15V, a 20V

diode such as the MBR0520 is recommended. If the switch

voltage is between 15V and 25V, a 30V diode such as the

MBR0530 is recommended. If the switch voltage exceeds

25V, a 40V diode such as the MBR0540 should be used.

The MBR05XX series of diodes are designed to handle a

maximum average current of 0.5A. For applications exceed-

ing 0.5A average but less than 1A, a Microsemi UPS5817 can

be used.

LAYOUT HINTS

High frequency switching regulators require very careful lay-

out of components in order to get stable operation and low

noise. All components must be as close as possible to the

LM2733 device. It is recommended that a 4-layer PCB be

used so that internal ground planes are available.

As an example, a recommended layout of components is

shown:

Recommended PCB Component Layout

Cf = 1 / (2 X

X R1 X fz)

20055422

Some additional guidelines to be observed:

SETTING THE OUTPUT VOLTAGE

The output voltage is set using the external resistors R1 and

R2 (see Basic Application Circuit). A value of approximately

13.3 kΩ is recommended for R2 to establish a divider current

of approximately 92 µA. R1 is calculated using the formula:

SWITCHING FREQUENCY

The LM2733 is provided with two switching frequencies: the

“X” version is typically 1.6 MHz, while the “Y” version is typi-

cally 600 kHz. The best frequency for a specific application

must be determined based on the tradeoffs involved:

Higher switching frequency means the inductors and capac-

itors can be made smaller and cheaper for a given output

voltage and current. The down side is that efficiency is slightly

lower because the fixed switching losses occur more fre-

quently and become a larger percentage of total power loss.

EMI is typically worse at higher switching frequencies be-

cause more EMI energy will be seen in the higher frequency

spectrum where most circuits are more sensitive to such in-

terference.

Keep the path between L1, D1, and C2 extremely short.

Parasitic trace inductance in series with D1 and C2 will

increase noise and ringing.

The feedback components R1, R2 and CF must be kept

close to the FB pin of U1 to prevent noise injection on the

FB pin trace.

If internal ground planes are available (recommended)

use vias to connect directly to ground at pin 2 of U1, as

well as the negative sides of capacitors C1 and C2.

R1 = R2 X (V

OUT

/1.23 − 1)

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LM2733YEVAL National Semiconductor, LM2733YEVAL Datasheet - Page 9

LM2733YEVAL

Specifications of LM2733YEVAL

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