LM340A.PDF

January 1995

LM140A/LM140/LM340A/LM340/LM7800C

Series 3-Terminal Positive Regulators

General Description

The LM140A/LM140/LM340A/LM340/LM7800C monolith-

ic 3-terminal positive voltage regulators employ internal cur-

rent-limiting, thermal shutdown and safe-area compensa-

tion, making them essentially indestructible. If adequate

heat sinking is provided, they can deliver over 1.0A output

current. They are intended as fixed voltage regulators in a

wide range of applications including local (on-card) regula-

tion for elimination of noise and distribution problems asso-

ciated with single-point regulation. In addition to use as fixed

voltage regulators, these devices can be used with external

components to obtain adjustable output voltages and cur-

rents.

Considerable effort was expended to make the entire series

of regulators easy to use and minimize the number of exter-

nal components. It is not necessary to bypass the output,

although this does improve transient response. Input by-

passing is needed only if the regulator is located far from

the filter capacitor of the power supply.

The 5V, 12V, and 15V regulator options are available in the

steel TO-3 power package. The LM340A/LM340/LM7800C

series is available in the TO-220 plastic power package, and

the LM7805 and LM7812 are also available in the surface-

mount TO-263 package.

Features

Y Complete specifications at 1A load

Y Output voltage tolerances of g 2% at T j e 25 § C and

g 4% over the temperature range (LM140A/LM340A)

Y Line regulation of 0.01% of V OUT /V of D V IN at 1A load

(LM140A/LM340A)

Y Load regulation of 0.3% of V OUT /A (LM140A/LM340A)

Y Internal thermal overload protection

Y Internal short-circuit current limit

Y Output transistor safe area protection

Y P a Product Enhancement tested

Device Output Voltages

Packages

LM140A/LM140 5, 12, 15

TO-3 (K)

LM340A/LM340 5, 12, 15

TO-3 (K), TO-220 (T)

LM7800C

5, 6, 8, 12, 15, TO-220 (T), TO-263 (S)

18, 24

(5V and 12V only)

Typical Applications

Fixed Output Regulator

Adjustable Output Regulator

Current Regulator

TL/H/7781±1

*Required if the regulator is located far from the

power supply filter.

**Although no output capacitor is needed for sta-

bility, it does help transient response. (If need-

ed, use 0.1 m F, ceramic disc).

TL/H/7781±3

V2-3

R1 a I Q

D I Q e 1.3 mA over line and load changes.

TL/H/7781±2

V OUT e 5V a (5V/R1 a I Q ) R2 5V/R1 l 3I Q ,

load regulation (L r ) & [(R1 a R2)/R1] (L r of

LM340-5).

C 1995 National Semiconductor Corporation

TL/H/7781

RRD-B30M115/Printed in U. S. A.

I OUT e

Absolute Maximum Ratings (Note 1)

If Military/Aerospace specified devices are required,

please contact the National Semiconductor Sales

Office/Distributors for availability and specifications.

(Note 5)

DC Input Voltage

All Devices except LM7824/LM7824C

Operating Conditions (Note 1)

Temperature Range (T A ) (Note 2)

LM140A, LM140

b 55 § Cto a 125 § C

LM340A, LM340, LM7805C,

LM7812C, LM7815C

0 § Cto a 70 § C

LM7806C, LM7808C, LM7818C,

LM7824C

35V

0 § Cto a 125 § C

LM7824/LM7824C

40V

Internal Power Dissipation (Note 2)

Internally Limited

Maximum Junction Temperature

150 § C

Storage Temperature Range

b 65 § Cto a 150 § C

Lead Temperature (Soldering, 10 sec.)

TO-3 Package (K)

300 § C

TO-220 Package (T), TO-263 Package (S)

230 § C

ESD Susceptibility (Note 3)

2 kV

LM140A/LM340A

Electrical Characteristics

I OUT e 1A, b 55 § C s T J s a 150 § C (LM140A), or 0 § C s T J s a 125 § C (LM340A) unless otherwise specified (Note 4)

Output Voltage

12V

15V

Symbol

Input Voltage (unless otherwise noted)

10V

19V

23V

Units

Parameter

Conditions

Min Typ Max Min Typ Max Min Typ Max

V O Output Voltage

T J e 25 § C

4.9 5 5.1 11.75 12 12.25 14.7 15 15.3 V

P D s 15W, 5 mA s I O s 1A

4.8

5.2 11.5

12.5 14.4

15.6 V

V MIN s V IN s V MAX

(7.5 s V IN s 20) (14.8 s V IN s 27) (17.9 s V IN s 30) V

D V O Line Regulation

I O e 500 mA

22 mV

D V IN

(7.5 s V IN s 20) (14.8 s V IN s 27) (17.9 s V IN s 30) V

T J e 25 § C

3 10

4 18

4 22 mV

D V IN

(7.5 s V IN s 20) (14.5 s V IN s 27) (17.5 s V IN s 30) V

T J e 25 § C

10 mV

Over Temperature

30 mV

D V IN

(8 s V IN s 12) (16 s V IN s 22)

(20 s V IN s 26) V

D V O Load Regulation T J e 25 § C5mA s I O s 1.5A

10 25

12 32

12 35 mV

250 mA s I O s 750 mA

21 mV

Over Temperature,

75 mV

5mA s I O s 1A

I Q Quiescent Current T J e 25 § C

6 mA

Over Temperature

6.5

6.5 mA

D I Q Quiescent Current 5 mA s I O s 1A

0.5

0.5 mA

Change

T J e 25 § C, I O e 1A

0.8

0.8 mA

V MIN s V IN s V MAX

(7.5 s V IN s 20) (14.8 s V IN s 27) (17.9 s V IN s 30) V

I O e 500 mA

0.8

0.8 mA

V MIN s V IN s V MAX

(8 s V IN s 25) (15 s V IN s 30) (17.9 s V IN s 30) V

V N Output Noise Voltage T A e 25 § C, 10 Hz s f s 100 kHz

m V

D V IN

D V OUT

Ripple Rejection T J e 25 § C, f e 120 Hz, I O e 1A 68 80

61 72

60 70

or f e 120 Hz, I O e 500 mA,

Over Temperature,

V MIN s V IN s V MAX

(8 s V IN s 18) (15 s V IN s 25) (18.5 s V IN s 28.5) V

R O Dropout Voltage T J e 25 § C, I O e 1A

2.0

Output Resistance f e 1 kHz

m X

Short-Circuit Current T J e 25 § C

2.1

1.5

1.2

Peak Output Current T J e 25 § C

2.4

Average TC of V O Min, T J e 0 § C, I O e 5mA

b 0.6

b 1.5

b 1.8 mV/ § C

V IN Input Voltage

Required to Maintain

T J e 25 § C

7.5

14.5

17.5

Line Regulation

LM140

Electrical Characteristics (Note 4) b 55 § C s T J s a 150 § C unless otherwise specified

Output Voltage

12V

15V

Symbol

Input Voltage (unless otherwise noted)

10V

19V

23V

Units

Parameter

Conditions

Min Typ Max Min Typ Max Min Typ Max

V O Output Voltage

T J e 25 § C,5mA s I O s 1A

4.8 5 5.2 11.5 12 12.5 14.4 15 15.6 V

P D s 15W, 5 mA s I O s 1A

4.75

5.25 11.4

12.6 14.25

15.75 V

V MIN s V IN s V MAX

(8 s V IN s 20)

(15.5 s V IN s 27)

(18.5 s V IN s 30) V

D V O Line Regulation

I O e 500 mA T J e 25 § C

3 50

4 120

4 150 mV

D V IN

(7 s V IN s 25)

(14.5 s V IN s 30)

(17.5 s V IN s 30) V

b 55 § C s T J s a 150 § C

120

150 mV

D V IN

(8 s V IN s 20)

(15 s V IN s 27)

(18.5 s V IN s 30) V

I O s 1A T J e 25 § C

120

150 mV

D V IN

(7.5 s V IN s 20) (14.6 s V IN s 27)

(17.7 s V IN s 30) V

b 55 § C s T J s a 150 § C

75 mV

D V IN

(8 s V IN s 12)

(16 s V IN s 22)

(20 s V IN s 26) V

D V O Load Regulation T J e 25 § C5A s I O s 1.5A

10 50

12 120

12 150 mV

250 mA s I P s 750 mA

75 mV

b 55 § C s T J s a 150 § C,

120

150 mV

5mA s I O s 1A

I Q Quiescent Current

I O s 1A T J e 25 § C

6 mA

b 55 § C s T J s a 150 § C

7 mA

D I Q Quiescent Current 5 mA s I O s 1A

0.5

0.5 mA

Change

T J e 25 § C, I O s 1A

0.8

0.8 mA

V MIN s V IN s V MAX

(8 s V IN s 20)

(15 s V IN s 27)

(18.5 s V IN s 30) V

I O e 500 mA, b 55 § C s T J s a 150 § C

0.8

0.8 mA

V MIN s V IN s V MAX

(8 s V IN s 25)

(15 s V IN s 30)

(18.5 s V IN s 30) V

V N Output Noise Voltage T A e 25 § C, 10 Hz s f s 100 kHz

m V

D V IN

D V OUT

Ripple Rejection

I O s 1A, T J e 25 § Cor 68 80

61 72

60 70

f e 120 Hz

I O s 500 mA,

b 55 § C s T J s a 150 § C

V MIN s V IN s V MAX

(8 s V IN s 18)

(15 s V IN s 25)

(18.5 s V IN s 28.5) V

R O Dropout Voltage T J e 25 § C, I O e 1A

2.0

Output Resistance f e 1 kHz

m X

Short-Circuit Current T J e 25 § C

2.1

1.5

1.2

Peak Output Current T J e 25 § C

2.4

Average TC of V OUT 0 § C s T J s a 150 § C, I O e 5mA

b 0.6

b 1.5

b 1.8

mV/ § C

V IN Input Voltage

T J e 25 § C, I O s 1A

Required to Maintain

7.5

14.6

17.7

Line Regulation

LM340/LM7800C

Electrical Characteristics (Note 4) 0 § C s T J s a 125 § C unless otherwise specified

Output Voltage

12V

15V

Symbol

Input Voltage (unless otherwise noted)

10V

19V

23V

Units

Parameter

Conditions

Min Typ Max Min Typ Max Min Typ Max

V O Output Voltage

T J e 25 § C,5mA s I O s 1A

4.8 5 5.2 11.5 12 12.5 14.4 15 15.6 V

P D s 15W, 5 mA s I O s 1A

4.75

5.25 11.4

12.6 14.25

15.75 V

V MIN s V IN s V MAX

(7.5 s V IN s 20)

(14.5 s V IN s 27)

(17.5 s V IN s 30) V

D V O Line Regulation

I O e 500 mA T J e 25 § C

3 50

4 120

4 150 mV

D V IN

(7 s V IN s 25)

(14.5 s V IN s 30)

(17.5 s V IN s 30) V

0 § C s T J s a 125 § C

120

150 mV

D V IN

(8 s V IN s 20)

(15 s V IN s 27)

(18.5 s V IN s 30) V

I O s 1A T J e 25 § C

120

150 mV

D V IN

(7.5 s V IN s 20)

(14.6 s V IN s 27)

(17.7 s V IN s 30) V

0 § C s T J s a 125 § C

75 mV

D V IN

(8 s V IN s 12)

(16 s V IN s 22)

(20 s V IN s 26) V

D V O Load Regulation T J e 25 § C5mA s I O s 1.5A

10 50

12 120

12 150 mV

250 mA s I O s 750 mA

75 mV

5mA s I O s 1A, 0 § C s T J s a 125 § C

120

150 mV

I Q Quiescent Current

I O s 1A T J e 25 § C

8 mA

0 § C s T J s a 125 § C

8.5

8.5 mA

D I Q Quiescent Current 5 mA s I O s 1A

0.5

0.5 mA

Change

T J e 25 § C, I O s 1A

1.0

1.0 mA

V MIN s V IN s V MAX

(7.5 s V IN s 20)

(14.8 s V IN s 27)

(17.9 s V IN s 30) V

I O s 500 mA, 0 § C s T J s a 125 § C

1.0

1.0 mA

V MIN s V IN s V MAX

(7 s V IN s 25)

(14.5 s V IN s 30)

(17.5 s V IN s 30) V

V N Output Noise Voltage T A e 25 § C, 10 Hz s f s 100 kHz

m V

D V IN

D V OUT

Ripple Rejection

I O s 1A, T J e 25 § C20 52 40 B

f e 120 Hz or I O s 500 mA,

0 § C s T J s a 125 § C

V MIN s V IN s V MAX

(8 s V IN s 18)

(15 s V IN s 25)

(18.5 s V IN s 28.5) V

R O Dropout Voltage T J e 25 § C, I O e 1A

2.0

Output Resistance f e 1 kHz

m X

Short-Circuit Current T J e 25 § C

2.1

1.5

1.2

Peak Output Current T J e 25 § C

2.4

Average TC of V OUT 0 § C s T J s a 125 § C, I O e 5mA

b 0.6

b 1.5

b 1.8

mV/ § C

V IN Input Voltage

T J e 25 § C, I O s 1A

Required to Maintain

7.5

14.6

17.7

Line Regulation

Note 1: Absolute Maximum Ratings are limits beyond which damage to the device may occur. Operating Conditions are conditions under which the device

functions but the specifications might not be guaranteed. For guaranteed specifications and test conditions see the Electrical Characteristics.

Note 2: The maximum allowable power dissipation at any ambient temperature is a function of the maximum junction temperature for operation (T JMAX e 125 § Cor

150 § C), the junction-to-ambient thermal resistance ( i JA ), and the ambient temperature (T A ). P DMAX e (T JMAX b T A )/ i JA . If this dissipation is exceeded, the die

temperature will rise above T JMAX and the electrical specifications do not apply. If the die temperature rises above 150 § C, the device will go into thermal shutdown.

For the TO-3 package (K, KC), the junction-to-ambient thermal resistance ( i JA )is39 § C/W. When using a heatsink, i JA is the sum of the 4 § C/W junction-to-case

thermal resistance ( i JC ) of the TO-3 package and the case-to-ambient thermal resistance of the heatsink. For the TO-220 package (T), i JA is 54 § C/W and i JC is

4 § C/W.

If the TO-263 package is used, the thermal resistance can be reduced by increasing the PC board copper area thermally connected to the package: Using 0.5

square inches of copper area, i JA is 50 § C/W; with 1 square inch of copper area, i JA is 37 § G/W; and with 1.6 or more inches of copper area, i JA is 32 § C/W.

Note 3: ESD rating is based on the human body model, 100 pF discharged through 1.5 k X .

Note 4: All characteristics are measured with a 0.22 m F capacitor from input to ground and a 0.1 m F capacitor from output to ground. All characteristics except

noise voltage and ripple rejection ratio are measured using pulse techniques (t w s 10 ms, duty cycle s 5%). Output voltage changes due to changes in internal

temperature must be taken into account separately.

Note 5: A military RETS specification is available on request. At the time of printing, the military RETS specifications for the LM140AK-5.0/883, LM140AK-12/883,

and LM140AK-15/883 complied with the min and max limits for the respective versions of the LM140A. At the time of printing, the military RETS specifications for

the LM140K-5.0/883, LM140K-12/883, and LM140K-15/883 complied with the min and max limits for the respective versions of the LM140. The LM140H/883,

LM140K/883, and LM140AK/883 may also be procured as a Standard Military Drawing.

LM7806C

Electrical Characteristics

0 § C s T J s a 150 § C, V I e 11V, I O e 500 mA, C I e 0.33 m F, C O e 0.1 m F, unless otherwise specified

Symbol

Parameter

Conditions (Note 4)

Min Typ Max Units

V O

Output Voltage

T J e 25 § C

5.75 6.0 6.25 V

D V O

Line Regulation

T J e 25 § C

8.0V s V I s 25V

5.0 120

9.0V s V I s 13V

1.5 60

D V O

Load Regulation

T J e 25 § C

5.0 mA s I O s 1.5A

14 120

250 mA s I O s 750 mA

4.0 60

V O

Output Voltage

8.0V s V I s 21V, 5.0 mA s I O s 1.0A, P s 15W 5.7

6.3

I Q

Quiescent Current

T J e 25 § C

4.3 8.0 mA

D I Q

Quiescent Current With Line 8.0V s V I s 25V

1.3

Change

With Load 5.0 mA s I O s 1.0A

0.5

V N

Noise

T A e 25 § C, 10 Hz s f s 100 kHz

m V

D V I / D V O Ripple Rejection

f e 120 Hz, I O e 350 mA, T J e 25 § C

59 75

V DO

Dropout Voltage

I O e 1.0A, T J e 25 § C

2.0

R O

Output Resistance

f e 1.0 kHz

m X

I OS

Output Short Circuit Current

T J e 25 § C, V I e 35V

550

I PK

Peak Output Current

T J e 25 § C

2.2

D V O / D T Average Temperature

I O e 5.0 mA, 0 § C s T A s a 125 § C

0.8

mV/ § C

Coefficient of Output Voltage

LM7808C

Electrical Characteristics

0 § C s T J s a 150 § C, V I e 14V, I O e 500 mA, C I e 0.33 m F, C O e 0.1 m F, unless otherwise specified

Symbol

Parameter

Conditions (Note 4)

LM7808C

Units

Min Typ Max

V O

Output Voltage

T J e 25 § C

7.7 8.0 8.3

D V O

Line Regulation

T J e 25 § C

10.5V s V I s 25V

6.0 160

11.0V s V I s 17V

2.0 80

D V O

Load Regulation

T J e 25 § C

5.0 mA s I O s 1.5A

12 160

250 mA s I O s 750 mA

4.0 80

V O

Output Voltage

11.5V s V I s 23V, 5.0 mA s I O s 1.0A, P s 15W 7.6

8.4

I Q

Quiescent Current

T J e 25 § C

4.3 8.0 mA

D I Q

Quiescent

With Line 11.5V s V I s 25V

1.0

Current Change

With Load 5.0 mA s I O s 1.0A

0.5

V N

Noise

T A e 25 § C, 10 Hz s f s 100 kHz

m V

D V I / D V O Ripple Rejection

f e 120 Hz, I O e 350 mA, T J e 25 § C

56 72

V DO

Dropout Voltage

I O e 1.0A, T J e 25 § C

2.0

R O

Output Resistance

f e 1.0 kHz

m X

I OS

Output Short Circuit Current

T J e 25 § C, V I e 35V

0.45

I PK

Peak Output Current

T J e 25 § C

2.2

D V O / D T Average Temperature

I O e 5.0 mA

0.8

mV/ § C

Coefficient of Output Voltage

Note 4: All characteristics are measured with a 0.22 m F capacitor from input to ground and a 0.1 m F capacitor from output to ground. All characteristics except

noise voltage and ripple rejection ratio are measured using pulse techniques (t w s 10 ms, duty cycle s 5%). Output voltage changes due to changes in internal

temperature must be taken into account separately.

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