STMICROELECTRONICS L7805CD2T

L7800
SERIES
POSITIVE VOLTAGE REGULATORS
■
■
■
■
■
OUTPUT CURRENT UP TO 1.5 A
OUTPUT VOLTAGES OF 5; 5.2; 6; 8; 8.5; 9;
12; 15; 18; 24V
THERMAL OVERLOAD PROTECTION
SHORT CIRCUIT PROTECTION
OUTPUT TRANSITION SOA PROTECTION
DESCRIPTION
The L7800 series of three-terminal positive
regulators is available in TO-220 ISOWATT220
TO-3 and D2PAK packages and several fixed
output voltages, making it useful in a wide range
of applications.These regulators can provide local
on-card regulation, eliminating the distribution
problems associated with single point regulation.
Each type employs internal current limiting,
thermal shut-down and safe area protection,
making it essentially indestructible. If adequate
heat sinking is provided, they can deliver over 1A
output current. Although designed primarily as
fixed voltage regulators, these devices can be
used with external components to obtain
adjustable voltages and currents.
1
3
1
2
D2PAK
TO-3
3
1
TO-220
3
2
1
2
ISOWATT220
BLOCK DIAGRAM
January 1997
1/25
L7800
ABSOLUTE MAXIMUM RATINGS
Symbol
Parameter
Value
Unit
35
40
V
V
Vi
DC Input Voltage (for VO = 5 to 18V)
(for VO = 20, 24V)
Io
Output Current
Internally limited
Pt ot
Power Dissipation
Internally limited
To p
Operating Junction Temperature Range (for L7800)
(for L7800C)
- 55 to 125
0 to 150
o
T stg
Storage Temperature Range
- 40 to 150
o
o
C
C
C
THERMAL DATA
Symbol
D2PAK
Parameter
R t hj- case Thermal Resistance Junction-case
Max
R th j-a mb Thermal Resistance Junction-ambient Max
TO-220
3
62.5
3
50
ISOWATT220
4
60
TO-3
Unit
o
4
35
o
C/W
C/W
CONNECTION DIAGRAM AND ORDERING NUMBERS (top view)
D2PAK
TO-220 & ISOWATT220
Type
L7805
L7805C
L7852C
L7806
L7806C
L7808
L7808C
L7885C
L7809C
L7812
L7812C
L7815
L7815C
L7818
L7818C
L7820
L7820C
L7824
L7824C
TO-220
2
D PAK (*)
L7805CV
L7852CV
L7805CD2T
L7852CD2T
L7805CP
L7852CP
L7806CV
L7806CD2T
L7806CP
L7808CV
L7885CV
L7809CV
L7808CD2T
L7885CD2T
L7809CD2T
L7808CP
L7885CP
L7809CP
L7812CV
L7812CD2T
L7812CP
L7815CV
L7815CD2T
L7815CP
L7818CV
L7818CD2T
L7818CP
L7820CV
L7820CD2T
L7820CP
L7824CV
L7824CD2T
L7824CP
(*) AVAILABLE IN TAPE AND REEL WITH ”-TR” SUFFIX
2/25
ISOWATT 220
TO-3
TO-3
L7805T
L7805CT
L7852CT
L7806T
L7806CT
L7808T
L7808CT
L7885CT
L7809CT
L7812T
L7812CT
L7815T
L7815CT
L7818T
L7818CT
L7820T
L7820CT
L7824T
L7824CT
Output Voltage
5V
5V
5.2V
6V
6V
8V
8V
8.5V
9V
12V
12V
15V
15V
18V
18V
20V
20V
24V
24V
L7800
APPLICATION CIRCUIT
SCHEMATIC DIAGRAM
3/25
L7800
TEST CIRCUITS
Figure 1 : DC Parameter
Figure 3 : Ripple Rejection.
4/25
Figure 2 : Load Regulation.
L7800
ELECTRICAL CHARACTERISTICS FOR L7805 (refer to the test circuits, Tj = -55 to 150 oC,
Vi = 10V, Io = 500 mA, Ci = 0.33 µF, Co = 0.1 µF unless otherwise specified)
Symbol
Parameter
Test Conditions
o
Vo
Output Voltage
Tj = 25 C
Vo
Output Voltage
Io = 5 mA to 1 A
Vi = 8 to 20 V
∆V o *
Line Regulation
Vi = 7 to 25 V
Vi = 8 to 12 V
∆V o *
Load Regulation
Io = 5 to 1500 mA
Io = 250 to 750 mA
Quiescent Current
Tj = 25 oC
∆I d
Quiescent Current Change
Io = 5 to 1000 mA
Id
Po ≤ 15 W
Vi = 8 to 25 V
Output Voltage Drift
Io = 5 mA
eN
Output Noise Voltage
B = 10Hz to 100KHz Tj = 25 oC
Supply Voltage Rejection
Vi = 8 to 18 V
Ro
Output Resistance
f = 1 KHz
I sc
Short Circuit Current
Vi = 35 V
I s cp
Short Circuit Peak Current
Io = 1 A
Unit
5.2
V
4.65
5
5.35
V
3
1
50
25
mV
mV
100
25
mV
mV
6
mA
0.5
mA
o
Quiescent Current Change
Dropout Voltage
Max.
5
Tj = 25 C
o
Tj = 25 C
∆I d
Vd
Typ.
4.8
Tj = 25 oC
o
Tj = 25 C
∆Vo
∆T
SVR
Min.
0.8
f = 120 Hz
mA
o
0.6
mV/ C
40
68
µV/V O
dB
o
2
o
0.75
1.2
A
2.2
3.3
A
Tj = 25 C
2.5
17
Tj = 25 C
o
Tj = 25 C
1.3
V
mΩ
ELECTRICAL CHARACTERISTICS FOR L7806 (refer to the test circuits, Tj = -55 to 150 oC,
Vi = 15V, Io = 500 mA, Ci = 0.33 µF, Co = 0.1 µF unless otherwise specified)
Symbol
Parameter
Test Conditions
o
Vo
Output Voltage
Tj = 25 C
Vo
Output Voltage
Io = 5 mA to 1 A
Vi = 9 to 21 V
∆V o *
Line Regulation
Vi = 8 to 25 V
Vi = 9 to 13 V
∆V o *
Load Regulation
Io = 5 to 1500 mA
Io = 250 to 750 mA
Quiescent Current
Tj = 25 oC
∆I d
Quiescent Current Change
Io = 5 to 1000 mA
Id
Po ≤ 15 W
Unit
6.25
V
5.65
6
6.35
V
60
30
mV
mV
100
30
mV
mV
6
mA
0.5
mA
Tj = 25 oC
o
Tj = 25 C
Quiescent Current Change
Vi = 9 to 25 V
Output Voltage Drift
Io = 5 mA
eN
Output Noise Voltage
B = 10Hz to 100KHz Tj = 25 C
Supply Voltage Rejection
Vi = 9 to 19 V
0.8
Dropout Voltage
Ro
Output Resistance
f = 1 KHz
I sc
Short Circuit Current
Vi = 35 V
Io = 1 A
o
Tj = 25 C
f = 120 Hz
mA
o
0.7
o
Vd
Short Circuit Peak Current
Max.
6
o
∆I d
I s cp
Typ.
Tj = 25 C
o
Tj = 25 C
∆Vo
∆T
SVR
Min.
5.75
mV/ C
40
65
µV/V O
dB
o
2
o
0.75
1.2
A
2.2
3.3
A
Tj = 25 C
2.5
19
Tj = 25 C
1.3
V
mΩ
* Load and line regulation are specified at constant junction temperature. Changes in Vo due to heating effects must be taken into account
separately. Pulce testing with low duty cycle is used.
5/25
L7800
ELECTRICAL CHARACTERISTICS FOR L7808 (refer to the test circuits, Tj = -55 to 150 oC,
Vi = 14V, Io = 500 mA, Ci = 0.33 µF, Co = 0.1 µF unless otherwise specified)
Symbol
Min.
Typ.
Max.
Unit
Vo
Output Voltage
Tj = 25 C
7.7
8
8.3
V
Vo
Output Voltage
Io = 5 mA to 1 A Po ≤ 15 W
Vi = 11.5 to 23 V
7.6
8
8.4
V
∆V o *
Line Regulation
Vi = 10.5 to 25 V Tj = 25 oC
o
Vi = 11 to 17 V Tj = 25 C
80
40
mV
mV
∆V o *
Load Regulation
Io = 5 to 1500 mA
Io = 250 to 750 mA
100
40
mV
mV
Quiescent Current
Tj = 25 oC
6
mA
∆I d
Quiescent Current Change
Io = 5 to 1000 mA
0.5
mA
Id
Parameter
Test Conditions
o
o
Tj = 25 C
o
Tj = 25 C
∆I d
Quiescent Current Change
Vi = 11.5 to 25 V
∆Vo
∆T
Output Voltage Drift
Io = 5 mA
eN
Output Noise Voltage
B = 10Hz to 100KHz Tj = 25 oC
Supply Voltage Rejection
Vi = 11.5 to 21.5 V
SVR
Vd
Dropout Voltage
Ro
Output Resistance
f = 1 KHz
I sc
Short Circuit Current
Vi = 35 V
I s cp
Short Circuit Peak Current
Io = 1 A
0.8
f = 120 Hz
mA
o
1
mV/ C
40
62
µV/V O
dB
o
2
o
0.75
1.2
A
2.2
3.3
A
Tj = 25 C
2.5
16
Tj = 25 C
o
Tj = 25 C
1.3
V
mΩ
ELECTRICAL CHARACTERISTICS FOR L7812 (refer to the test circuits, Tj = -55 to 150 oC,
Vi = 19V, Io = 500 mA, Ci = 0.33 µF, Co = 0.1 µF unless otherwise specified)
Symbol
Min.
Typ.
Max.
Unit
Vo
Output Voltage
Tj = 25 C
11.5
12
12.5
V
Vo
Output Voltage
Io = 5 mA to 1 A Po ≤ 15 W
Vi = 15.5 to 27 V
11.4
12
12.6
V
∆V o *
Line Regulation
Vi = 14.5 to 30 V Tj = 25 C
o
Vi = 16 to 22 V Tj = 25 C
120
60
mV
mV
∆V o *
Load Regulation
Io = 5 to 1500 mA
Io = 250 to 750 mA
100
60
mV
mV
Quiescent Current
Tj = 25 oC
6
mA
∆I d
Quiescent Current Change
Io = 5 to 1000 mA
0.5
mA
Id
Parameter
Test Conditions
o
o
Tj = 25 oC
o
Tj = 25 C
∆I d
Quiescent Current Change
Vi = 15 to 30 V
∆Vo
∆T
Output Voltage Drift
Io = 5 mA
eN
Output Noise Voltage
B = 10Hz to 100KHz Tj = 25 C
Supply Voltage Rejection
Vi = 15 to 25 V
SVR
o
Vd
Dropout Voltage
Ro
Output Resistance
f = 1 KHz
I sc
Short Circuit Current
Vi = 35 V
I s cp
Short Circuit Peak Current
0.8
Io = 1 A
o
Tj = 25 C
f = 120 Hz
mA
o
1.5
mV/ C
40
61
µV/V O
dB
o
2
o
0.75
1.2
A
2.2
3.3
A
Tj = 25 C
2.5
18
Tj = 25 C
1.3
V
mΩ
* Load and line regulation are specified at constant junction temperature. Changes in Vo due to heating effects must be taken into account
separately. Pulce testing with low duty cycle is used.
6/25
L7800
ELECTRICAL CHARACTERISTICS FOR L7815 (refer to the test circuits, Tj = -55 to 150 oC,
Vi = 23V, Io = 500 mA, Ci = 0.33 µF, Co = 0.1 µF unless otherwise specified)
Symbol
Min.
Typ.
Max.
Unit
Vo
Output Voltage
Tj = 25 C
14.4
15
15.6
V
Vo
Output Voltage
Io = 5 mA to 1 A Po ≤ 15 W
Vi = 18.5 to 30 V
14.25
15
15.75
V
∆V o *
Line Regulation
Vi = 17.5 to 30 V Tj = 25 oC
o
Vi = 20 to 26 V Tj = 25 C
150
75
mV
mV
∆V o *
Load Regulation
Io = 5 to 1500 mA
Io = 250 to 750 mA
150
75
mV
mV
Quiescent Current
Tj = 25 oC
6
mA
∆I d
Quiescent Current Change
Io = 5 to 1000 mA
0.5
mA
Id
Parameter
Test Conditions
o
o
Tj = 25 C
o
Tj = 25 C
∆I d
Quiescent Current Change
Vi = 18.5 to 30 V
∆Vo
∆T
Output Voltage Drift
Io = 5 mA
eN
Output Noise Voltage
B = 10Hz to 100KHz Tj = 25 oC
Supply Voltage Rejection
Vi = 18.5 to 28.5 V
SVR
Vd
Dropout Voltage
Ro
Output Resistance
f = 1 KHz
I sc
Short Circuit Current
Vi = 35 V
I s cp
Short Circuit Peak Current
Io = 1 A
0.8
f = 120 Hz
mA
o
1.8
mV/ C
40
60
µV/V O
dB
o
2
o
0.75
1.2
A
2.2
3.3
A
Tj = 25 C
2.5
19
Tj = 25 C
o
Tj = 25 C
1.3
V
mΩ
ELECTRICAL CHARACTERISTICS FOR L7818 (refer to the test circuits, Tj = -55 to 150 oC,
Vi = 26V, Io = 500 mA, Ci = 0.33 µF, Co = 0.1 µF unless otherwise specified)
Symbol
Parameter
Test Conditions
o
Vo
Output Voltage
Tj = 25 C
Vo
Output Voltage
Io = 5 mA to 1 A
Vi = 22 to 33 V
∆V o *
Line Regulation
Vi = 21 to 33 V
Vi = 24 to 30 V
∆V o *
Load Regulation
Io = 5 to 1500 mA
Io = 250 to 750 mA
Quiescent Current
Tj = 25 oC
∆I d
Quiescent Current Change
Io = 5 to 1000 mA
Id
Po ≤ 15 W
Unit
18.7
V
17.1
18
18.9
V
180
90
mV
mV
180
90
mV
mV
6
mA
0.5
mA
Tj = 25 oC
o
Tj = 25 C
Quiescent Current Change
Vi = 22 to 33 V
Output Voltage Drift
Io = 5 mA
eN
Output Noise Voltage
B = 10Hz to 100KHz Tj = 25 C
Supply Voltage Rejection
Vi = 22 to 32 V
0.8
Dropout Voltage
Ro
Output Resistance
f = 1 KHz
I sc
Short Circuit Current
Vi = 35 V
Io = 1 A
o
Tj = 25 C
f = 120 Hz
mA
o
2.3
o
Vd
Short Circuit Peak Current
Max.
18
o
∆I d
I s cp
Typ.
Tj = 25 C
o
Tj = 25 C
∆Vo
∆T
SVR
Min.
17.3
mV/ C
40
59
µV/V O
dB
o
2
o
0.75
1.2
A
2.2
3.3
A
Tj = 25 C
2.5
22
Tj = 25 C
1.3
V
mΩ
* Load and line regulation are specified at constant junction temperature. Changes in Vo due to heating effects must be taken into account
separately. Pulce testing with low duty cycle is used.
7/25
L7800
ELECTRICAL CHARACTERISTICS FOR L7820 (refer to the test circuits, Tj = -55 to 150 oC,
Vi = 28V, Io = 500 mA, Ci = 0.33 µF, Co = 0.1 µF unless otherwise specified)
Symbol
Parameter
Test Conditions
o
Vo
Output Voltage
Tj = 25 C
Vo
Output Voltage
Io = 5 mA to 1 A
Vi = 24 to 35 V
∆V o *
Line Regulation
Vi = 22.5 to 35 V Tj = 25 oC
o
Vi = 26 to 32 V Tj = 25 C
∆V o *
Load Regulation
Io = 5 to 1500 mA
Io = 250 to 750 mA
Quiescent Current
Tj = 25 oC
∆I d
Quiescent Current Change
Io = 5 to 1000 mA
Id
Po ≤ 15 W
Quiescent Current Change
Vi = 24 to 35 V
Output Voltage Drift
Io = 5 mA
eN
Output Noise Voltage
B = 10Hz to 100KHz Tj = 25 oC
Supply Voltage Rejection
Vi = 24 to 35 V
Dropout Voltage
Ro
Output Resistance
f = 1 KHz
I sc
Short Circuit Current
Vi = 35 V
I s cp
Short Circuit Peak Current
Io = 1 A
Max.
Unit
20
20.8
V
19
20
21
V
200
100
mV
mV
200
100
mV
mV
6
mA
0.5
mA
o
∆I d
Vd
Typ.
Tj = 25 C
o
Tj = 25 C
∆Vo
∆T
SVR
Min.
19.2
0.8
f = 120 Hz
mA
o
2.5
mV/ C
40
58
µV/V O
dB
o
2
o
0.75
1.2
A
2.2
3.3
A
Tj = 25 C
2.5
24
Tj = 25 C
o
Tj = 25 C
1.3
V
mΩ
ELECTRICAL CHARACTERISTICS FOR L7824 (refer to the test circuits, Tj = -55 to 150 oC,
Vi = 33V, Io = 500 mA, Ci = 0.33 µF, Co = 0.1 µF unless otherwise specified)
Symbol
Parameter
Test Conditions
o
Vo
Output Voltage
Tj = 25 C
Vo
Output Voltage
Io = 5 mA to 1 A
Vi = 28 to 38 V
∆V o *
Line Regulation
Vi = 27 to 38 V
Vi = 30 to 36 V
∆V o *
Load Regulation
Io = 5 to 1500 mA
Io = 250 to 750 mA
Quiescent Current
Tj = 25 oC
∆I d
Quiescent Current Change
Io = 5 to 1000 mA
Id
Po ≤ 15 W
Unit
25
V
22.8
24
25.2
V
240
120
mV
mV
240
120
mV
mV
6
mA
0.5
mA
Tj = 25 oC
o
Tj = 25 C
Quiescent Current Change
Vi = 28 to 38 V
Output Voltage Drift
Io = 5 mA
eN
Output Noise Voltage
B = 10Hz to 100KHz Tj = 25 C
Supply Voltage Rejection
Vi = 28 to 38 V
0.8
Dropout Voltage
Ro
Output Resistance
f = 1 KHz
I sc
Short Circuit Current
Vi = 35 V
Io = 1 A
o
Tj = 25 C
f = 120 Hz
mA
o
3
o
Vd
Short Circuit Peak Current
Max.
24
o
∆I d
I s cp
Typ.
23
Tj = 25 C
o
Tj = 25 C
∆Vo
∆T
SVR
Min.
mV/ C
40
56
µV/V O
dB
o
2
o
0.75
1.2
A
2.2
3.3
A
Tj = 25 C
2.5
28
Tj = 25 C
1.3
V
mΩ
* Load and line regulation are specified at constant junction temperature. Changes in Vo due to heating effects must be taken into account
separately. Pulce testing with low duty cycle is used.
8/25
L7800
ELECTRICAL CHARACTERISTICS FOR L7805C (refer to the test circuits, Tj = 0 to 125 oC,
Vi = 10V, Io = 500 mA, Ci = 0.33 µF, Co = 0.1 µF unless otherwise specified)
Symbol
Parameter
Test Conditions
o
Vo
Output Voltage
Tj = 25 C
Vo
Output Voltage
Io = 5 mA to 1 A
Vi = 7 to 20 V
∆V o *
Line Regulation
Vi = 7 to 25 V
Vi = 8 to 12 V
∆V o *
Load Regulation
Io = 5 to 1500 mA
Io = 250 to 750 mA
Quiescent Current
Tj = 25 oC
∆I d
Quiescent Current Change
Io = 5 to 1000 mA
Id
Po ≤ 15 W
Vi = 7 to 25 V
Output Voltage Drift
Io = 5 mA
eN
Output Noise Voltage
B = 10Hz to 100KHz Tj = 25 oC
Supply Voltage Rejection
Vi = 8 to 18 V
Ro
Output Resistance
f = 1 KHz
I sc
Short Circuit Current
Vi = 35 V
I s cp
Short Circuit Peak Current
Io = 1 A
Unit
5.2
V
4.75
5
5.25
V
3
1
100
50
mV
mV
100
50
mV
mV
8
mA
0.5
mA
o
Quiescent Current Change
Dropout Voltage
Max.
5
Tj = 25 C
o
Tj = 25 C
∆I d
Vd
Typ.
4.8
Tj = 25 oC
o
Tj = 25 C
∆Vo
∆T
SVR
Min.
0.8
f = 120 Hz
mA
o
-1.1
mV/ C
40
µV
62
dB
o
2
V
17
mΩ
o
750
mA
2.2
A
Tj = 25 C
Tj = 25 C
o
Tj = 25 C
ELECTRICAL CHARACTERISTICS FOR L7852C (refer to the test circuits, Tj = 0 to 125 oC, Vi = 10V,
Io = 500 mA, C i = 0.33 µF, Co = 0.1 µF unless otherwise specified)
Symbol
Parameter
Test Conditions
o
Vo
Output Voltage
Tj = 25 C
Vo
Output Voltage
Io = 5 mA to 1 A
Vi = 8 to 20 V
∆V o *
Line Regulation
Vi = 7 to 25 V
Vi = 8 to 12 V
∆V o *
Load Regulation
Io = 5 to 1500 mA
Io = 250 to 750 mA
Quiescent Current
Tj = 25 oC
∆I d
Quiescent Current Change
Io = 5 to 1000 mA
Id
Po ≤ 15 W
Unit
5.4
V
4.95
5.2
5.45
V
3
1
105
52
mV
mV
105
52
mV
mV
8
mA
0.5
mA
Tj = 25 oC
o
Tj = 25 C
Quiescent Current Change
Vi = 7 to 25 V
Output Voltage Drift
Io = 5 mA
eN
Output Noise Voltage
B = 10Hz to 100KHz Tj = 25 C
Supply Voltage Rejection
Vi = 8 to 18 V
1.3
o
Vd
Dropout Voltage
Ro
Output Resistance
f = 1 KHz
I sc
Short Circuit Current
Vi = 35 V
Short Circuit Peak Current
Max.
5.2
o
∆I d
I s cp
Typ.
5.0
Tj = 25 C
o
Tj = 25 C
∆Vo
∆T
SVR
Min.
Io = 1 A
o
Tj = 25 C
f = 120 Hz
mA
o
-1.0
mV/ C
42
µV
61
dB
o
2
V
17
mΩ
o
750
mA
2.2
A
Tj = 25 C
Tj = 25 C
* Load and line regulation are specified at constant junction temperature. Changes in Vo due to heating effects must be taken into account
separately. Pulce testing with low duty cycle is used.
9/25
L7800
ELECTRICAL CHARACTERISTICS FOR L7806C (refer to the test circuits, Tj = 0 to 125 oC,
Vi = 11V, Io = 500 mA, Ci = 0.33 µF, Co = 0.1 µF unless otherwise specified)
Symbol
Parameter
Test Conditions
o
Vo
Output Voltage
Tj = 25 C
Vo
Output Voltage
Io = 5 mA to 1 A
Vi = 8 to 21 V
∆V o *
Line Regulation
Vi = 8 to 25 V
Vi = 9 to 13 V
∆V o *
Load Regulation
Io = 5 to 1500 mA
Io = 250 to 750 mA
Quiescent Current
Tj = 25 oC
∆I d
Quiescent Current Change
Io = 5 to 1000 mA
Id
Po ≤ 15 W
Vi = 8 to 25 V
Output Voltage Drift
Io = 5 mA
eN
Output Noise Voltage
B = 10Hz to 100KHz Tj = 25 oC
Supply Voltage Rejection
Vi = 9 to 19 V
Ro
Output Resistance
f = 1 KHz
I sc
Short Circuit Current
Vi = 35 V
I s cp
Short Circuit Peak Current
Io = 1 A
Unit
6.25
V
5.7
6
6.3
V
120
60
mV
mV
120
60
mV
mV
8
mA
0.5
mA
o
Quiescent Current Change
Dropout Voltage
Max.
6
Tj = 25 C
o
Tj = 25 C
∆I d
Vd
Typ.
Tj = 25 oC
o
Tj = 25 C
∆Vo
∆T
SVR
Min.
5.75
1.3
f = 120 Hz
mA
o
-0.8
mV/ C
45
µV
59
dB
o
2
V
19
mΩ
o
550
mA
2.2
A
Tj = 25 C
Tj = 25 C
o
Tj = 25 C
ELECTRICAL CHARACTERISTICS FOR L7808C (refer to the test circuits, Tj = 0 to 125 oC, Vi = 14V,
Io = 500 mA, C i = 0.33 µF, Co = 0.1 µF unless otherwise specified)
Symbol
Min.
Typ.
Max.
Unit
Vo
Output Voltage
Tj = 25 C
7.7
8
8.3
V
Vo
Output Voltage
Io = 5 mA to 1 A Po ≤ 15 W
Vi = 10.5 to 25 V
7.6
8
8.4
V
∆V o *
Line Regulation
Vi = 10.5 to 25 V Tj = 25 C
o
Vi = 11 to 17 V Tj = 25 C
160
80
mV
mV
∆V o *
Load Regulation
Io = 5 to 1500 mA
Io = 250 to 750 mA
160
80
mV
mV
Quiescent Current
Tj = 25 oC
8
mA
∆I d
Quiescent Current Change
Io = 5 to 1000 mA
0.5
mA
Id
Parameter
Test Conditions
o
o
Tj = 25 oC
o
Tj = 25 C
∆I d
Quiescent Current Change
Vi = 10.5 to 25 V
∆Vo
∆T
Output Voltage Drift
Io = 5 mA
eN
Output Noise Voltage
B = 10Hz to 100KHz Tj = 25 C
Supply Voltage Rejection
Vi = 11.5 to 21.5 V
SVR
o
Vd
Dropout Voltage
Ro
Output Resistance
f = 1 KHz
I sc
Short Circuit Current
Vi = 35 V
I s cp
Short Circuit Peak Current
1
Io = 1 A
o
Tj = 25 C
f = 120 Hz
mA
o
-0.8
mV/ C
52
µV
56
dB
o
2
V
16
mΩ
o
450
mA
2.2
A
Tj = 25 C
Tj = 25 C
* Load and line regulation are specified at constant junction temperature. Changes in Vo due to heating effects must be taken into account
separately. Pulce testing with low duty cycle is used.
10/25
L7800
ELECTRICAL CHARACTERISTICS FOR L7885C (refer to the test circuits, Tj = 0 to 125 oC, Vi =
14.5V, Io = 500 mA, Ci = 0.33 µF, Co = 0.1 µF unless otherwise specified)
Symbol
Parameter
Test Conditions
o
Vo
Output Voltage
Tj = 25 C
Vo
Output Voltage
Io = 5 mA to 1 A
Vi = 11 to 26 V
∆V o *
Line Regulation
Vi = 11 to 27 V Tj = 25 oC
o
Vi = 11.5 to 17.5 V Tj = 25 C
∆V o *
Load Regulation
Io = 5 to 1500 mA
Io = 250 to 750 mA
Quiescent Current
Tj = 25 oC
∆I d
Quiescent Current Change
Io = 5 to 1000 mA
Id
Po ≤ 15 W
Quiescent Current Change
Vi = 11 to 27 V
Output Voltage Drift
Io = 5 mA
eN
Output Noise Voltage
B = 10Hz to 100KHz Tj = 25 oC
Supply Voltage Rejection
Vi = 12 to 22 V
Dropout Voltage
Ro
Output Resistance
f = 1 KHz
I sc
Short Circuit Current
Vi = 35 V
I s cp
Short Circuit Peak Current
Io = 1 A
Max.
Unit
8.5
8.8
V
8.1
8.5
8.9
V
160
80
mV
mV
160
80
mV
mV
8
mA
0.5
mA
o
∆I d
Vd
Typ.
8.2
Tj = 25 C
o
Tj = 25 C
∆Vo
∆T
SVR
Min.
1
f = 120 Hz
mA
o
-0.8
mV/ C
55
µV
56
dB
o
2
V
16
mΩ
o
450
mA
2.2
A
Tj = 25 C
Tj = 25 C
o
Tj = 25 C
ELECTRICAL CHARACTERISTICS FOR L7809C (refer to the test circuits, Tj = 0 to 125 oC, Vi = 15V,
Io = 500 mA, C i = 0.33 µF, Co = 0.1 µF unless otherwise specified)
Symbol
Min.
Typ.
Max.
Unit
Vo
Output Voltage
Tj = 25 C
8.65
9
9.35
V
Vo
Output Voltage
Io = 5 mA to 1 A Po ≤ 15 W
Vi = 11.5 to 26 V
8.55
9
9.45
V
∆V o *
Line Regulation
Vi = 11.5 to 26 V Tj = 25 C
o
Vi = 12 to 18 V Tj = 25 C
180
90
mV
mV
∆V o *
Load Regulation
Io = 5 to 1500 mA
Io = 250 to 750 mA
180
90
mV
mV
Quiescent Current
Tj = 25 oC
8
mA
∆I d
Quiescent Current Change
Io = 5 to 1000 mA
0.5
mA
Id
Parameter
Test Conditions
o
o
Tj = 25 oC
o
Tj = 25 C
∆I d
Quiescent Current Change
Vi = 11.5 to 26 V
∆Vo
∆T
Output Voltage Drift
Io = 5 mA
eN
Output Noise Voltage
B = 10Hz to 100KHz Tj = 25 C
Supply Voltage Rejection
Vi = 12 to 23 V
SVR
o
Vd
Dropout Voltage
Ro
Output Resistance
f = 1 KHz
I sc
Short Circuit Current
Vi = 35 V
I s cp
Short Circuit Peak Current
1
Io = 1 A
o
Tj = 25 C
f = 120 Hz
mA
o
-1.0
mV/ C
70
µV
55
dB
o
2
V
17
mΩ
o
400
mA
2.2
A
Tj = 25 C
Tj = 25 C
* Load and line regulation are specified at constant junction temperature. Changes in Vo due to heating effects must be taken into account
separately. Pulce testing with low duty cycle is used.
11/25
L7800
ELECTRICAL CHARACTERISTICS FOR L7812C (refer to the test circuits, Tj = 0 to 125 oC, Vi = 19V,
Io = 500 mA, C i = 0.33 µF, Co = 0.1 µF unless otherwise specified)
Symbol
Min.
Typ.
Max.
Unit
Vo
Output Voltage
Tj = 25 C
11.5
12
12.5
V
Vo
Output Voltage
Io = 5 mA to 1 A Po ≤ 15 W
Vi = 14.5 to 27 V
11.4
12
12.6
V
∆V o *
Line Regulation
Vi = 14.5 to 30 V Tj = 25 oC
o
Vi = 16 to 22 V Tj = 25 C
240
120
mV
mV
∆V o *
Load Regulation
Io = 5 to 1500 mA
Io = 250 to 750 mA
240
120
mV
mV
Quiescent Current
Tj = 25 oC
8
mA
∆I d
Quiescent Current Change
Io = 5 to 1000 mA
0.5
mA
Id
Parameter
Test Conditions
o
o
Tj = 25 C
o
Tj = 25 C
∆I d
Quiescent Current Change
Vi = 14.5 to 30 V
∆Vo
∆T
Output Voltage Drift
Io = 5 mA
eN
Output Noise Voltage
B = 10Hz to 100KHz Tj = 25 oC
Supply Voltage Rejection
Vi = 15 to 25 V
SVR
Vd
Dropout Voltage
Ro
Output Resistance
f = 1 KHz
I sc
Short Circuit Current
Vi = 35 V
I s cp
Short Circuit Peak Current
Io = 1 A
1
f = 120 Hz
mA
o
-1
mV/ C
75
µV
55
dB
o
2
V
18
mΩ
o
350
mA
2.2
A
Tj = 25 C
Tj = 25 C
o
Tj = 25 C
ELECTRICAL CHARACTERISTICS FOR L7815C (refer to the test circuits, Tj = 0 to 125 oC, Vi = 23V,
Io = 500 mA, C i = 0.33 µF, Co = 0.1 µF unless otherwise specified)
Symbol
Min.
Typ.
Max.
Unit
Vo
Output Voltage
Tj = 25 C
14.4
15
15.6
V
Vo
Output Voltage
Io = 5 mA to 1 A Po ≤ 15 W
Vi = 17.5 to 30 V
14.25
15
15.75
V
∆V o *
Line Regulation
Vi = 17.5 to 30 V Tj = 25 C
o
Vi = 20 to 26 V Tj = 25 C
300
150
mV
mV
∆V o *
Load Regulation
Io = 5 to 1500 mA
Io = 250 to 750 mA
300
150
mV
mV
Quiescent Current
Tj = 25 oC
8
mA
∆I d
Quiescent Current Change
Io = 5 to 1000 mA
0.5
mA
Id
Parameter
Test Conditions
o
o
Tj = 25 oC
o
Tj = 25 C
∆I d
Quiescent Current Change
Vi = 17.5 to 30 V
∆Vo
∆T
Output Voltage Drift
Io = 5 mA
eN
Output Noise Voltage
B = 10Hz to 100KHz Tj = 25 C
Supply Voltage Rejection
Vi = 18.5 to 28.5 V
SVR
o
Vd
Dropout Voltage
Ro
Output Resistance
f = 1 KHz
I sc
Short Circuit Current
Vi = 35 V
I s cp
Short Circuit Peak Current
1
Io = 1 A
o
Tj = 25 C
f = 120 Hz
mA
o
-1
mV/ C
90
µV
54
dB
o
2
V
19
mΩ
o
230
mA
2.1
A
Tj = 25 C
Tj = 25 C
* Load and line regulation are specified at constant junction temperature. Changes in Vo due to heating effects must be taken into account
separately. Pulce testing with low duty cycle is used.
12/25
L7800
ELECTRICAL CHARACTERISTICS FOR L7818C (refer to the test circuits, Tj = 0 to 125 oC, Vi = 26V,
Io = 500 mA, C i = 0.33 µF, Co = 0.1 µF unless otherwise specified)
Symbol
Parameter
Test Conditions
o
Vo
Output Voltage
Tj = 25 C
Vo
Output Voltage
Io = 5 mA to 1 A
Vi = 21 to 33 V
∆V o *
Line Regulation
Vi = 21 to 33 V
Vi = 24 to 30 V
∆V o *
Load Regulation
Io = 5 to 1500 mA
Io = 250 to 750 mA
Quiescent Current
Tj = 25 oC
∆I d
Quiescent Current Change
Io = 5 to 1000 mA
Id
Po ≤ 15 W
Vi = 21 to 33 V
Output Voltage Drift
Io = 5 mA
eN
Output Noise Voltage
B = 10Hz to 100KHz Tj = 25 oC
Supply Voltage Rejection
Vi = 22 to 32 V
Ro
Output Resistance
f = 1 KHz
I sc
Short Circuit Current
Vi = 35 V
I s cp
Short Circuit Peak Current
Io = 1 A
Unit
18.7
V
17.1
18
18.9
V
360
180
mV
mV
360
180
mV
mV
8
mA
0.5
mA
o
Quiescent Current Change
Dropout Voltage
Max.
18
Tj = 25 C
o
Tj = 25 C
∆I d
Vd
Typ.
Tj = 25 oC
o
Tj = 25 C
∆Vo
∆T
SVR
Min.
17.3
1
f = 120 Hz
mA
o
-1
mV/ C
110
µV
53
dB
o
2
V
22
mΩ
o
200
mA
2.1
A
Tj = 25 C
Tj = 25 C
o
Tj = 25 C
ELECTRICAL CHARACTERISTICS FOR L7820C (refer to the test circuits, Tj = 0 to 125 oC, Vi = 28V,
Io = 500 mA, C i = 0.33 µF, Co = 0.1 µF unless otherwise specified)
Symbol
Parameter
Test Conditions
o
Vo
Output Voltage
Tj = 25 C
Vo
Output Voltage
Io = 5 mA to 1 A
Vi = 23 to 35 V
∆V o *
Line Regulation
Vi = 22.5 to 35 V Tj = 25 C
o
Vi = 26 to 32 V Tj = 25 C
∆V o *
Load Regulation
Io = 5 to 1500 mA
Io = 250 to 750 mA
Quiescent Current
Tj = 25 oC
∆I d
Quiescent Current Change
Io = 5 to 1000 mA
Id
Po ≤ 15 W
Quiescent Current Change
Vi = 23 to 35 V
Output Voltage Drift
Io = 5 mA
eN
Output Noise Voltage
B = 10Hz to 100KHz Tj = 25 C
Supply Voltage Rejection
Vi = 24 to 35 V
Unit
20.8
V
19
20
21
V
400
200
mV
mV
400
200
mV
mV
8
mA
0.5
mA
1
o
Vd
Dropout Voltage
Ro
Output Resistance
f = 1 KHz
I sc
Short Circuit Current
Vi = 35 V
Short Circuit Peak Current
Max.
20
Tj = 25 oC
o
Tj = 25 C
∆I d
I s cp
Typ.
o
∆Vo
∆T
SVR
Min.
19.2
Io = 1 A
o
Tj = 25 C
f = 120 Hz
mA
o
-1
mV/ C
150
µV
52
dB
o
2
V
24
mΩ
o
180
mA
2.1
A
Tj = 25 C
Tj = 25 C
* Load and line regulation are specified at constant junction temperature. Changes in Vo due to heating effects must be taken into account
separately. Pulce testing with low duty cycle is used.
13/25
L7800
ELECTRICAL CHARACTERISTICS FOR L7824C (refer to the test circuits, Tj = 0 to 125 oC, Vi = 33V,
Io = 500 mA, C i = 0.33 µF, Co = 0.1 µF unless otherwise specified)
Symbol
Parameter
Test Conditions
o
Vo
Output Voltage
Tj = 25 C
Vo
Output Voltage
Io = 5 mA to 1 A
Vi = 27 to 38 V
∆V o *
Line Regulation
Vi = 27 to 38 V
Vi = 30 to 36 V
∆V o *
Load Regulation
Io = 5 to 1500 mA
Io = 250 to 750 mA
Quiescent Current
Tj = 25 oC
∆I d
Quiescent Current Change
Io = 5 to 1000 mA
Id
Po ≤ 15 W
Vi = 27 to 38 V
Output Voltage Drift
Io = 5 mA
eN
Output Noise Voltage
B = 10Hz to 100KHz Tj = 25 oC
Supply Voltage Rejection
Vi = 28 to 38 V
Ro
Output Resistance
f = 1 KHz
I sc
Short Circuit Current
Vi = 35 V
I s cp
Short Circuit Peak Current
Io = 1 A
o
Tj = 25 C
Unit
25
V
22.8
24
25.2
V
480
240
mV
mV
480
240
mV
mV
8
mA
0.5
mA
o
Quiescent Current Change
Dropout Voltage
Max.
24
Tj = 25 C
o
Tj = 25 C
∆I d
Vd
Typ.
23
Tj = 25 oC
o
Tj = 25 C
∆Vo
∆T
SVR
Min.
1
f = 120 Hz
mA
o
-1.5
mV/ C
170
µV
50
dB
o
2
V
28
mΩ
o
150
mA
2.1
A
Tj = 25 C
Tj = 25 C
* Load and line regulation are specified at constant junction temperature. Changes in Vo due to heating effects must be taken into account
separately. Pulce testing with low duty cycle is used.
14/25
L7800
Figure 4 : Dropout Voltage vs. Junction
Temperature.
Figure 5 : Peak Output Current vs. Input/output
Differential Voltage.
Figure 6 : Supply Voltage Rejection vs.
Frequency.
Figure 7 : Output Voltage vs. Junction
Temperature.
Figure 8 : Output Impedance vs. Frequency.
Figure 9 : Quiescent Current vs. Junction
Temperature.
15/25
L7800
Figure 10 : Load Transient Response.
Figure 11 : Line Transient Response.
Figure 12 : Quiescent Current vs. Input
Voltage.
Figure 13 : Fixed Output Regulator.
Figure 14 : Current Regulator.
IO =
NOTE:
1. To specify an output voltage, substitute voltage value for ”XX”.
2. Although no output capacitor is need for stability, it does
improve transient response.
3. Required if cregulator is locate an appreciable distance from
power supply filter.
16/25
V XX
+Id
R1
L7800
Figure 15 : Circuit for Increasing Output
Voltage.
Figure 16 : Adjustable Output Regulator
(7 to 30V).
IR1 ≥ 5 Id
VO = V XX (1 +
R2
) +IdR2
R1
Figure 17 : 0.5 to 10V Regulator.
Figure 18 : High Current Voltage Regulator.
R1 =
V BEQ1
I REQ −
VO = V XX
R4
R1
I Q1
β Q1
IO = I REG + Q 1 ( I REG −
V BEQ1
R1
)
17/25
L7800
Figure 19 : High Output Current with Short
Circuit Protection.
R SC =
Figure 20 : Tracking Voltage Regulator.
V BEQ2
I SC
Figure 21 : Split Power Supply (± 15V – 1A).
Figure 22 : Negative Output Voltage Circuit.
* Against potential latch-up problems.
Figure 23 : Switching Regulator.
Figure 24 : High Input Voltage Circuit.
VIN = Vi - (VZ + VBE)
18/25
L7800
Figure 25 : High Input Voltage Circuit.
Figure 26 : High Output Voltage Regulator.
Figure 27 : High Input and Output Voltage.
Figure 28 : Reducing Power Dissipation with
Dr opping Resistor.
VO = VXX + VZ1
R=
V i(min) − V XX − V DROP(max)
I O(max) + I d(max)
Figure 29 : Remote Shutdown.
19/25
L7800
Figure 30 : Power AM Modulator (unity voltage
gain, Io < 1A).
Figure 31 : Adjustable Output Voltage with
Temperature Compensation.
VO = V
NOTE: The circuit performs well up to 100KHz
XX
(1 +
R2
) + V BE
R1
NOTE: Q2 is connected as a diode in order to compensate the
variation of the Q1 VBE with the temperature. C allows a slow risetime of the Vo
Figure 32 : Light Controllers (Vo min = Vxx + VBE).
VO falls when the light goes up
VO rises when the light goes up
Figure 33 : Protection against Input Short-circuit
with High Capacitance Loads.
Application with high capacitance loads and an output voltage
greater than 6 volts need an external diode (see fig. 33) to protect
the deviceagainst input short circuit. In this case the input voltage
falls rapidly while the output voltage decrease slowly. The
capacitance dischrges by means of the Base-Emitter junction of
the series pass transistor in the regulator. If the energy is
sufficently high, the transistor may be destroyed. The external
diode by-passes the current from the IC to ground.
20/25
L7800
TO-3 (R) MECHANICAL DATA
mm
DIM.
MIN.
A
inch
TYP.
MAX.
MIN.
TYP.
11.7
B
MAX.
0.460
0.96
1.10
0.037
0.043
C
1.70
0.066
D
8.7
0.342
E
20.0
0.787
G
10.9
0.429
N
16.9
0.665
P
26.2
R
3.88
1.031
4.09
U
0.152
39.50
V
1.555
30.10
1.185
A
P
D
C
O
N
B
V
E
G
U
0.161
R
P003N
21/25
L7800
TO-220 MECHANICAL DATA
mm
DIM.
MIN.
inch
TYP.
MAX.
MIN.
TYP.
MAX.
A
4.40
4.60
0.173
0.181
C
1.23
1.32
0.048
0.051
D
2.40
2.72
0.094
D1
0.107
1.27
0.050
E
0.49
0.70
0.019
0.027
F
0.61
0.88
0.024
0.034
F1
1.14
1.70
0.044
0.067
F2
1.14
1.70
0.044
0.067
G
4.95
5.15
0.194
0.203
G1
2.4
2.7
0.094
0.106
H2
10.0
10.40
0.393
0.409
14.0
0.511
0.551
L2
16.4
L4
0.645
13.0
2.65
2.95
0.104
0.116
L6
15.25
15.75
0.600
0.620
L7
6.2
6.6
0.244
0.260
L9
3.5
3.93
0.137
0.154
DIA.
3.75
3.85
0.147
0.151
D1
C
D
A
E
L5
H2
G
G1
F1
L2
F2
F
Dia.
L5
L9
L7
L6
22/25
L4
P011C
L7800
ISOWATT220 MECHANICAL DATA
mm
DIM.
MIN.
inch
TYP.
MAX.
MIN.
TYP.
MAX.
A
4.4
4.6
0.173
0.181
B
2.5
2.7
0.098
0.106
D
2.5
2.75
0.098
0.108
E
0.4
0.7
0.015
0.027
F
0.75
1
0.030
0.039
F1
1.15
1.7
0.045
0.067
F2
1.15
1.7
0.045
0.067
G
4.95
5.2
0.195
0.204
G1
2.4
2.7
0.094
0.106
H
10
10.4
0.393
0.409
L2
16
0.630
28.6
30.6
1.126
1.204
L4
9.8
10.6
0.385
0.417
L6
15.9
16.4
0.626
0.645
L7
9
9.3
0.354
0.366
Ø
3
3.2
0.118
0.126
B
D
A
E
L3
L3
L6
F
F1
L7
F2
H
G
G1
¯
1 2 3
L2
L4
P011G
23/25
L7800
TO-263 (D2PAK) MECHANICAL DATA
mm
DIM.
MIN.
inch
TYP.
MAX.
MIN.
TYP.
MAX.
A
4.3
4.6
0.169
0.181
A1
2.49
2.69
0.098
0.106
B
0.7
0.93
0.027
0.036
B2
1.25
1.4
0.049
0.055
C
0.45
0.6
0.017
0.023
C2
1.21
1.36
0.047
0.053
D
8.95
9.35
0.352
0.368
E
10
10.28
0.393
0.404
G
4.88
5.28
0.192
0.208
L
15
15.85
0.590
0.624
L2
1.27
1.4
0.050
0.055
L3
1.4
1.75
0.055
0.068
E
A
C2
L2
D
L
L3
B2
B
A1
C
G
P011P6/C
24/25
L7800
Information furnished is believed to be accurate and reliable. However, SGS-THOMSON Microelectronics assumes no responsability for the
consequences of use of such information nor for any infringement of patents or other rights of third parties which may results from its use. No
license is granted by implication or otherwise under any patent or patent rights of SGS-THOMSON Microelectronics. Specifications mentioned
in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied.
SGS-THOMSON Microelectronics products are not authorized for use as critical components in life support devices or systems without express
written approval of SGS-THOMSON Microelectonics.
 1997 SGS-THOMSON Microelectronics - Printed in Italy - All Rights Reserved
SGS-THOMSON Microelectronics GROUP OF COMPANIES
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.
25/25