LM341T-15/NOPB National Semiconductor, LM341T-15/NOPB Datasheet - Page 6

LM341T-15/NOPB

Manufacturer Part Number

LM341T-15/NOPB

Description

IC REGULATOR POSITIVE TO220-3

Manufacturer

National Semiconductor

Type

Voltage Regulatorr

Datasheets

1.LM78M05CDTNOPB.pdf (11 pages)

2.LM341T-15NOPB.pdf (4 pages)

Specifications of LM341T-15/NOPB

Regulator Topology

Positive Fixed

Voltage - Output

15V

Voltage - Input

17.6 ~ 35 V

Number Of Regulators

Current - Output

500mA

Operating Temperature

-40°C ~ 125°C

Mounting Type

Through Hole

Package / Case

TO-220-3 (Straight Leads)

Current, Output

0.5 A

Current, Supply

4 mA

Package Type

TO-220

Regulation, Line

300 mV

Regulation, Load

300 mV

Regulator Type

Positive Voltage Out

Resistance, Thermal, Junction To Case

5 °C/W

Temperature, Operating, Range

-40 to +125 °C

Voltage, Input

35 V

Voltage, Noise

90 μV

Voltage, Output

15 V

Voltage, Supply, Rejection Ratio

69 dB

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Dropout (typical)

Current - Limit (min)

Lead Free Status / Rohs Status

RoHS Compliant part Electrostatic Device

Other names

*LM341T-15
*LM341T-15/NOPB
LM341T-15

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Typical Performance Characteristics

Design Considerations

The LM78MXX/LM341XX fixed voltage regulator series has

built-in thermal overload protection which prevents the de-

vice from being damaged due to excessive junction tem-

perature.

The regulators also contain internal short-circuit protection

which limits the maximum output current, and safe-area

protection for the pass transistor which reduces the short-

circuit current as the voltage across the pass transistor is

increased.

Although the internal power dissipation is automatically lim-

ited, the maximum junction temperature of the device must

be kept below +125˚C in order to meet data sheet specifica-

tions. An adequate heatsink should be provided to assure

this limit is not exceeded under worst-case operating condi-

tions (maximum input voltage and load current) if reliable

performance is to be obtained).

1.0 HEATSINK CONSIDERATIONS

When an integrated circuit operates with appreciable cur-

rent, its junction temperature is elevated. It is important to

quantify its thermal limits in order to achieve acceptable

performance and reliability. This limit is determined by sum-

ming the individual parts consisting of a series of tempera-

ture rises from the semiconductor junction to the operating

environment. A one-dimension steady-state model of con-

Line Transient Response

Quiescent Current

01048416

01048407

(Continued)

duction heat transfer is demonstrated in The heat generated

at the device junction flows through the die to the die attach

pad, through the lead frame to the surrounding case mate-

rial, to the printed circuit board, and eventually to the ambi-

ent environment. Below is a list of variables that may affect

the thermal resistance and in turn the need for a heatsink.

Variables)

Leadframe Size & Material

No. of Conduction Pins

Die Size

Die Attach Material

Molding Compound Size

and Material

θJC

(Component

Load Transient Response

Output Impedance

Variables)

Mounting Pad Size,

Material, & Location

Placement of Mounting Pad

PCB Size & Material

Traces Length & Width

Adjacent Heat Sources

Volume of Air

Air Flow

Ambient Temperature

Shape of Mounting Pad

θCA

(Application

01048417

01048408

LM341T-15/NOPB National Semiconductor, LM341T-15/NOPB Datasheet - Page 6

LM341T-15/NOPB

Specifications of LM341T-15/NOPB

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