LM3475MF/NOPB National Semiconductor, LM3475MF/NOPB Datasheet - Page 10

LM3475MF/NOPB

Manufacturer Part Number

LM3475MF/NOPB

Description

IC CTRLR HYSTERETIC BUCK SOT23-5

Manufacturer

National Semiconductor

Type

Step-Down (Buck)r

Datasheet

1.LM3475MFNOPB.pdf (14 pages)

Specifications of LM3475MF/NOPB

Internal Switch(s)

Synchronous Rectifier

Number Of Outputs

Voltage - Output

0.8 ~ 10 V

Current - Output

Voltage - Input

2.7 ~ 10 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

SOT-23-5, SC-74A, SOT-25

Power - Output

440mW

For Use With

LM3475EVAL - BOARD EVALUATION LM3475

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Frequency - Switching

Other names

LM3475MF
LM3475MFTR

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

LM3475MF/NOPB

Manufacturer:

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Design Information

voltage regulated. The hysteretic control topology is well

suited to using ceramic output capacitors. However, ceramic

capacitors have a very low ESR, resulting in a 90˚ phase

shift of the output voltage ripple. This results in low operating

frequency and increased output ripple. To fix this problem a

low value resistor could be added in series with the ceramic

output capacitor. Although counter intuitive, this combination

of a ceramic capacitor and external series resistance provide

highly accurate control over the output voltage ripple. An-

other method is to add an external ramp at the FB pin as

shown in Figure 3. By proper selection of R1 and C2, the FB

pin sees faster voltage change than the output ripple can

cause. As a result, the switching frequency is higher while

the output ripple becomes lower. The switching frequency is

approximately:

Other types of capacitor, such as Sanyo POSCAP, OS-CON,

and Nichicon ’NA’ series are also recommended and may be

used without additional series resistance. For all practical

purposes, any type of output capacitor may be used with

proper circuit verification.

DIODE SELECTION

The catch diode provides the current path to the load during

the PFET off time. Therefore, the current rating of the diode

must be higher than the average current through the diode,

which be calculated as shown:

The peak voltage across the catch diode is approximately

equal to the input voltage. Therefore, the diode’s peak re-

verse voltage rating should be greater than 1.3 times the

input voltage.

A Schottky diode is recommended, since a low forward

voltage drop will improve efficiency.

For high temperature applications, diode leakage current

may become significant and require a higher reverse voltage

rating to achieve acceptable performance.

D_AVE

= I

OUT

x (1 − D)

(Continued)

FIGURE 3. External Ramp

Capacitors with high ESL (equivalent series inductance) val-

ues should not be used. As shown in Figure 1, the output

ripple voltage contains a small step at both the high and low

peaks. This step is caused by and is directly proportional to

the output capacitor’s ESL. A large ESL, such as in an

electrolytic capacitor, can create a step large enough to

cause abnormal switching behavior.

INPUT CAPACITOR SELECTION

A bypass capacitor is required between V

must be placed near the source of the external PFET. The

input capacitor prevents large voltage transients at the input

and provides the instantaneous current when the PFET turns

on. The important parameters for the input capacitor are the

voltage rating and the RMS current rating. Follow the manu-

facturer’s recommended voltage de-rating. RMS current and

power dissipation (PD) can be calculated with the equations

below:

P-CHANNEL MOSFET SELECTION

The PFET switch should be selected based on the maximum

Drain-Source voltage (VDS), Drain current rating (I

mum Gate-Source voltage (VGS), on resistance (R

and Gate capacitance. The voltage across the PFET when it

is turned off is equal to the sum of the input voltage and the

diode forward voltage. The VDS must be selected to provide

some margin beyond the sum of the input voltage and Vd.

Since the current flowing through the PFET is equal to the

current through the inductor, I

maximum I

gate from V

lected with a maximum VGS larger than V

the PFET turns on completely and quickly, refer to the

PGATE section.

. During switching, PGATE swings the PFET’s

to ground. Therefore, A PFET must be se-

must be rated higher than the

20070120

. To insure that

and ground. It

), maxi-

DSON

LM3475MF/NOPB National Semiconductor, LM3475MF/NOPB Datasheet - Page 10

LM3475MF/NOPB

Specifications of LM3475MF/NOPB

Available stocks

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