LM3940IS-3.3/NOPB National Semiconductor, LM3940IS-3.3/NOPB Datasheet - Page 6

LM3940IS-3.3/NOPB

Manufacturer Part Number

LM3940IS-3.3/NOPB

Description

IC REGULATOR LDO 3.3V TO-263

Manufacturer

National Semiconductor

Datasheet

1.LM3940IMP-3.3NOPB.pdf (12 pages)

Specifications of LM3940IS-3.3/NOPB

Regulator Topology

Positive Fixed

Voltage - Output

3.3V

Voltage - Input

Up to 7.5V

Voltage - Dropout (typical)

0.5V @ 1A

Number Of Regulators

Current - Output

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

TO-263-3, D²Pak (3 leads + Tab), TO-263AA

Number Of Outputs

Polarity

Positive

Input Voltage Max

7.5 V

Output Voltage

3.3 V

Output Type

Fixed

Dropout Voltage (max)

0.8 V At 1 A

Output Current

1 A

Line Regulation

40 mV

Load Regulation

50 mV

Maximum Operating Temperature

+ 125 C

Mounting Style

SMD/SMT

Minimum Operating Temperature

- 40 C

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current - Limit (min)

Lead Free Status / Rohs Status

Details

Other names

*LM3940IS-3.3
*LM3940IS-3.3/NOPB
LM3940IS-3.3

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

LM3940IS-3.3/NOPB

Manufacturer:

TI/德州仪器

Quantity:

20 000

Current page: 6 of 12
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Application Hints

EXTERNAL CAPACITORS

The output capacitor is critical to maintaining regulator stabil-

ity, and must meet the required conditions for both ESR

(Equivalent Series Resistance) and minimum amount of ca-

pacitance.

MINIMUM CAPACITANCE:

The minimum output capacitance required to maintain stabil-

ity is 33 μF (this value may be increased without limit). Larger

values of output capacitance will give improved transient re-

sponse.

ESR LIMITS:

The ESR of the output capacitor will cause loop instability if it

is too high or too low. The acceptable range of ESR plotted

versus load current is shown in the graph below. It is essen-

tial that the output capacitor meet these requirements, or

oscillations can result.

It is important to note that for most capacitors, ESR is speci-

fied only at room temperature. However, the designer must

ensure that the ESR will stay inside the limits shown over the

entire operating temperature range for the design.

For aluminum electrolytic capacitors, ESR will increase by

about 30X as the temperature is reduced from 25°C to −40°

C. This type of capacitor is not well-suited for low temperature

operation.

Solid tantalum capacitors have a more stable ESR over tem-

perature, but are more expensive than aluminum electrolyt-

ics. A cost-effective approach sometimes used is to parallel

an aluminum electrolytic with a solid Tantalum, with the total

capacitance split about 75/25% with the Aluminum being the

larger value.

If two capacitors are paralleled, the effective ESR is the par-

allel of the two individual values. The “flatter” ESR of the

Tantalum will keep the effective ESR from rising as quickly at

low temperatures.

FIGURE 1. ESR Limits

1208005

HEATSINKING

A heatsink may be required depending on the maximum pow-

er dissipation and maximum ambient temperature of the ap-

plication. Under all possible operating conditions, the junction

temperature must be within the range specified under Abso-

lute Maximum Ratings.

To determine if a heatsink is required, the power dissipated

by the regulator, P

The figure below shows the voltages and currents which are

present in the circuit, as well as the formula for calculating the

power dissipated in the regulator:

The next parameter which must be calculated is the maximum

allowable temperature rise, T

using the formula:

Where: T

Using the calculated values for T

mum allowable value for the junction-to-ambient thermal re-

sistance, θ

IMPORTANT: If the maximum allowable value for θ

found to be

the TO-263 package, or

no heatsink is needed since the package alone will dissipate

enough heat to satisfy these requirements.

If the calculated value for θ

heatsink is required.

HEATSINKING TO-220 PACKAGE PARTS

The TO-220 can be attached to a typical heatsink, or secured

to a copper plane on a PC board. If a copper plane is to be

used, the values of θ

section for the TO-263.

(JA)

= I

= (V

(max) = T

= T

+ I

− V

FIGURE 2. Power Dissipation Diagram

(max)

(max)/P

OUT

(JA)

(max) is the maximum allowable junction tem-

≥

) I

, can now be found:

60°C/W for the TO-220 package,

(max) − T

+ (V

perature, which is 125°C for commercial

grade parts.

is the maximum ambient temperature

which will be encountered in the applica-

tion.

, must be calculated.

(JA)

) I

≥

will be the same as shown in the next

174°C/W for the SOT-223 package,

(max)

(JA)

(max). This is calculated by

falls below these limits, a

(max) and P

≥

, the maxi-

80°C/W for

1208006

(JA)

LM3940IS-3.3/NOPB National Semiconductor, LM3940IS-3.3/NOPB Datasheet - Page 6

LM3940IS-3.3/NOPB

Specifications of LM3940IS-3.3/NOPB

Available stocks

Related parts for LM3940IS-3.3/NOPB