LM2731YMFX/NOPB National Semiconductor, LM2731YMFX/NOPB Datasheet - Page 13

LM2731YMFX/NOPB

Manufacturer Part Number

LM2731YMFX/NOPB

Description

IC BOOST ADJ 1.8A SOT23-5

Manufacturer

National Semiconductor

Type

Step-Up (Boost)r

Datasheet

1.LM2731XMFNOPB.pdf (16 pages)

Specifications of LM2731YMFX/NOPB

Internal Switch(s)

Yes

Synchronous Rectifier

Number Of Outputs

Voltage - Output

1.23 ~ 22 V

Current - Output

1.8A

Frequency - Switching

600kHz

Voltage - Input

2.7 ~ 14 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

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

For Use With

LM2731YEVAL - BOARD EVALUATION LM2731Y

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Power - Output

Other names

LM2731YMFX

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CALCULATING LOAD CURRENT

As shown in the figure which depicts inductor current, the load

current is related to the average inductor current by the rela-

tion:

Where "DC" is the duty cycle of the application. The switch

current can be found by:

Inductor ripple current is dependent on inductance, duty cy-

cle, input voltage and frequency:

combining all terms, we can develop an expression which al-

lows the maximum available load current to be calculated:

The equation shown to calculate maximum load current takes

into account the losses in the inductor or turn-OFF switching

losses of the FET and diode. For actual load current in typical

applications, we took bench data for various input and output

Switch Current Limit vs Duty Cycle - "X"

Switch Current Limit vs Duty Cycle - "Y"

RIPPLE

LOAD

= I

= DC x (V

= I

IND

(AVG) + ½ (I

(AVG) x (1 - DC)

-V

) / (f x L)

RIPPLE

)

20059150

20059151

voltages for both the "X" and "Y" versions of the LM2731 and

displayed the maximum load current available for a typical

device in graph form:

DESIGN PARAMETERS V

The value of the FET "ON" voltage (referred to as V

equations) is dependent on load current. A good approxima-

tion can be obtained by multiplying the "ON Resistance" of

the FET times the average inductor current.

FET on resistance increases at V

the internal N-FET has less gate voltage in this input voltage

range (see Typical performance Characteristics curves).

Above V

5V.

The maximum peak switch current the device can deliver is

dependent on duty cycle. For higher duty cycles, see Typical

performance Characteristics curves.

THERMAL CONSIDERATIONS

At higher duty cycles, the increased ON time of the FET

means the maximum output current will be determined by

power dissipation within the LM2731 FET switch. The switch

power dissipation from ON-state conduction is calculated by:

= 5V, the FET gate voltage is internally clamped to

Max. Load Current (typ) vs V

(SW)

= DC x I

IND

(AVE)

AND I

values below 5V, since

x R

(ON)

- "X"

- "Y"

www.national.com

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20059148

in the

LM2731YMFX/NOPB National Semiconductor, LM2731YMFX/NOPB Datasheet - Page 13

LM2731YMFX/NOPB

Specifications of LM2731YMFX/NOPB

Available stocks

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