KK78L06ACLS [KODENSHI]
Regulator;
| 型号: | KK78L06ACLS |
| 厂家: | 
KODENSHI KOREA CORP. |
| 描述: | Regulator |
| 文件: | 总13页 (文件大小:231K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
FIXED VOLTAGE REGULATOR (POSITIVE)
KK78LXX
3-TERMINAL 0.1A POSITIVE VOLTAGE REGULATORS
This series of fixed-voltage monolithic integrated-circuit
voltage regulators is designed for a wide range of
applications.
TO - 92
These applications include on-card regulation for
elimination of noise and distribution problems associated
with single-point regulation.
In addition, they can be used with power-pass elements
to make high current voltage regulators.
Each of these regulators can deliver up to 100mA output
current.
The internal limiting and thermal shutdown features of
these regulators make them essentially immune to overload.
When used as a replacement for a zener diode-resistor com-
bination, an effective improvement in output impedance
can be obtained together with lower-bias current.
FEATURES
SO - 8
◇ Output current Up to 100mA
◇ No External Components
◇ Internal Thermal Overload Protection
◇ Internal Short-Circuit Limiting
◇ Output Voltage of 5V, 6V, 8V, 9V, 10V, 12V, 15V, 18V
and 24V
ABSOLUTE MAXIMUM RATINGS
Unit
V
Characteristic
IL78L05 ~ IL78L10
Symbol
Vl
Value
30
Input voltage
IL78L12 ~ IL78L18
IL78L24
35
40
Operating junction temperature
Storage temperature
Topr
Tstg
Tsol
-40 ~ +150
-65 ~ +150
260/10sec
℃
Soldering temperature and time
1
KK78LXX
RECOMMENDED OPERATING CONDITIONS
78Lxx
Min.
7
Max.
20
Unit
IL78L05
IL78L06
IL78L08
IL78L09
8
20
10.5
11.5
12.5
14.5
17.5
20.5
26.5
23
24
Input voltage, VI
V
IL78L10
IL78L12
IL78L15
IL78L18
IL78L24
25
27
30
33
39
Output current, Io
100
125
㎃
℃
Operating virtual junction temperature, Tj
-40
TYPICAL APPLICATION
Notes
1. To specify an output voltage, substitute voltage for "XX"
2. Bypass capacitors are recommended for optimum stability and transient response
and should be located as close as possible to the regulators.
2
KK78LXX
IL78L05 ELECTRICAL CHARACTERISTICS
(At specified virtual junction temperature, Vl=10V, lo=40mA (unless otherwise noted)
Test condition *
Characteistic
Symbol
Min
4.8
Typ.
5
Max.
5.2
Unit
25
℃
1
Io 40
≤ ㎃
㎃≤
Output voltage **
Vout
V
4.75
4.75
5
5.25
7V VI Vmax
≤
≤
-40 ~ 125
℃
1
Io 70
≤ ㎃
5
32
26
15
8
5.25
150
100
60
㎃≤
7
VI 20V
≤
≤
≤
Line regulation
Load regulation
Bias current
Reg line
Reg load
IB
25
℃
㎷
㎷
㎃
㎃
8
VI 20V
≤
1
㎃≤
Io 100
≤ ㎃
25
25
℃
1
㎃≤
Io 40
≤ ㎃
30
3.8
6
℃
125
5.5
1.5
0.1
℃
9
≤
VI 20V
≤
I
△
B
Bias current change
-40 ~ 125
℃
1
㎃≤
Io 40
≤ ㎃
VN
RR
VD
Output noise voltage
Ripple rejection
10
f
100
25
℃
25
℃
25
℃
42
49
㎐≤ ≤
㎑
㎶
dB
V
8
VI 20V
≤
f=120
≤
41
㎐
Dropout voltage
1.7
Notes
*. Pulse testing techniques are used to maintain the junction temperature as close to the ambient temperature as
possible.
Thermal effects must be taken into account separately.
All characteristics are measured with a 0.33㎌ capacitor across the input and a 0.1㎌ capacitor across the output.
**. This specification applies only for DC power dissipation permitted by absolute maximum ratings.
3
KK78LXX
IL78L18 ELECTRICAL CHARACTERISTICS
(At specified virtual junction temperature, Vl=23V, lo=40mA (unless otherwise noted)
Test condition *
Characteistic
Symbol
Min
Typ.
18
Max.
18.7
Unit
25
℃
17.3
1
Io 40
≤ ㎃
㎃≤
Output voltage **
Vout
V
17.1
17.1
18
18.9
20.5V VI 33V
≤
≤
-40 ~ 125
℃
1
Io 70
18
70
64
27
19
4.7
18.9
360
300
180
90
㎃≤
≤
㎃
20.5 VI 33V
≤
≤
Line regulation
Load regulation
Bias current
Reg line
Reg load
IB
25
℃
㎷
㎷
㎃
㎃
22 VI 33V
≤
≤
1
㎃≤
Io 100
≤ ㎃
25
25
℃
1
㎃≤
Io 40
≤ ㎃
6.5
6
℃
125
℃
22 VI 33V
1.5
0.1
≤
≤
I
△
B
Bias current change
-40 ~ 125
℃
1
㎃≤
Io 40
≤ ㎃
VN
RR
VD
Output noise voltage
Ripple rejection
10
f
㎐≤ ≤
100
25
℃
25
℃
25
℃
82
36
㎑
㎶
dB
V
21.5 VI 31.5V
≤
≤
32
f=120
㎐
Dropout voltage
1.7
Notes
*. Pulse testing techniques are used to maintain the junction temperature as close to the ambient temperature as
possible.
Thermal effects must be taken into account separately.
All characteristics are measured with a 0.33㎌ capacitor across the input and a 0.1㎌ capacitor across the output.
**. This specification applies only for DC power dissipation permitted by absolute maximum ratings.
10
KK78LXX
IL78L24 ELECTRICAL CHARACTERISTICS
(At specified virtual junction temperature, Vl=26V, lo=40mA (unless otherwise noted)
Test condition *
Characteistic
Symbol
Min
23
Typ.
24
Max.
25
Unit
25
℃
1
Io 40
≤ ㎃
㎃≤
Output voltage **
Vout
V
22.8
22.8
24
25.2
26.5V VI 39V
≤
≤
-40 ~ 125
℃
1
Io 70
24
95
78
41
28
4.8
25.2
480
400
240
120
6.5
6
㎃≤
≤
㎃
26.5 VI 39V
≤
≤
Line regulation
Load regulation
Bias current
Reg line
Reg load
IB
25
℃
㎷
㎷
㎃
㎃
29 VI 39V
≤
≤
1
㎃≤
Io 100
≤ ㎃
25
25
℃
1
㎃≤
Io 40
≤ ㎃
℃
125
℃
28 VI 39V
1.5
0.1
≤
≤
I
△
B
Bias current change
-40 ~ 125
℃
1
㎃≤
Io 40
≤ ㎃
VN
RR
VD
Output noise voltage
Ripple rejection
10
f
㎐≤ ≤
100
25
℃
25
℃
25
℃
82
33
㎑
㎶
dB
V
27.5 VI 37.5V
≤
≤
30
f=120
㎐
Dropout voltage
1.7
Notes
*. Pulse testing techniques are used to maintain the junction temperature as close to the ambient temperature as
possible.
Thermal effects must be taken into account separately.
All characteristics are measured with a 0.33㎌ capacitor across the input and a 0.1㎌ capacitor across the output.
**. This specification applies only for DC power dissipation permitted by absolute maximum ratings.
11
KK78LXX
IL78L09 ELECTRICAL CHARACTERISTICS
(At specified virtual junction temperature, Vl=14V, lo=40mA (unless otherwise noted)
Test condition *
Characteistic
Symbol
Min
806
Typ.
9
Max.
9.4
Unit
25
℃
1
Io 40
≤ ㎃
㎃≤
Output voltage **
Vout
V
8.55
8.55
9
9.45
12V VI 24V
≤
≤
-40 ~ 125
℃
1
Io 70
9
9.45
175
125
90
㎃≤
≤
㎃
12 VI 24V
45
40
19
11
4.1
≤
≤
Line regulation
Load regulation
Bias current
Reg line
Reg load
IB
25
℃
㎷
㎷
㎃
㎃
13 VI 24V
≤
≤
1
㎃≤
Io 100
≤ ㎃
25
25
℃
1
㎃≤
Io 40
≤ ㎃
40
6
℃
125
5.5
1.5
0.1
℃
13 VI 24V
≤
≤
I
△
B
Bias current change
-40 ~ 125
℃
1
㎃≤
Io 40
≤ ㎃
VN
RR
VD
Output noise voltage
Ripple rejection
10
f
㎐≤ ≤
100
25
℃
25
℃
25
℃
58
45
㎑
㎶
dB
V
13 VI 23V
≤
≤
38
f=120
㎐
Dropout voltage
1.7
Notes
*. Pulse testing techniques are used to maintain the junction temperature as close to the ambient temperature as
possible.
Thermal effects must be taken into account separately.
All characteristics are measured with a 0.33㎌ capacitor across the input and a 0.1㎌ capacitor across the output.
**. This specification applies only for DC power dissipation permitted by absolute maximum ratings.
6
KK78LXX
IL78L10 ELECTRICAL CHARACTERISTICS
(At specified virtual junction temperature, Vl=16V, lo=40mA (unless otherwise noted)
Test condition *
Characteistic
Symbol
Min
9.6
Typ.
10
Max.
10.4
Unit
25
℃
1
Io 40
≤ ㎃
㎃≤
Output voltage **
Vout
V
9.5
9.5
10
10.5
13V VI 25V
≤
≤
-40 ~ 125
℃
1
Io 70
10
51
42
20
11
4.2
10.5
175
125
90
㎃≤
≤
㎃
13 VI 25V
≤
≤
Line regulation
Load regulation
Bias current
Reg line
Reg load
IB
25
℃
㎷
㎷
㎃
㎃
14 VI 25V
≤
≤
1
㎃≤
Io 100
≤ ㎃
25
25
℃
1
㎃≤
Io 40
≤ ㎃
40
6
℃
125
5.5
1.5
0.1
℃
14 VI 25V
≤
≤
I
△
B
Bias current change
-40 ~ 125
℃
1
㎃≤
Io 40
≤ ㎃
VN
RR
VD
Output noise voltage
Ripple rejection
10
f
㎐≤ ≤
100
25
℃
25
℃
25
℃
62
44
㎑
㎶
dB
V
15 VI 25V
≤
≤
37
f=120
㎐
Dropout voltage
1.7
Notes
*. Pulse testing techniques are used to maintain the junction temperature as close to the ambient temperature as
possible.
Thermal effects must be taken into account separately.
All characteristics are measured with a 0.33㎌ capacitor across the input and a 0.1㎌ capacitor across the output.
**. This specification applies only for DC power dissipation permitted by absolute maximum ratings.
7
KK78LXX
IL78L12 ELECTRICAL CHARACTERISTICS
(At specified virtual junction temperature, Vl=17V, lo=40mA (unless otherwise noted)
Test condition *
Characteistic
Symbol
Min
Typ.
12
Max.
12.5
Unit
25
℃
11.5
1
Io 40
≤ ㎃
㎃≤
Output voltage **
Vout
V
11.4
11.4
12
12.6
14V VI 27V
≤
≤
-40 ~ 125
℃
1
Io 70
12
55
49
22
13
4.3
12.6
250
200
100
50
㎃≤
≤
㎃
14.5 VI 27V
≤
≤
Line regulation
Load regulation
Bias current
Reg line
Reg load
IB
25
℃
㎷
㎷
㎃
㎃
16 VI 27V
≤
≤
1
㎃≤
Io 100
≤ ㎃
25
25
℃
1
㎃≤
Io 40
≤ ㎃
6.5
6
℃
125
℃
16 VI 27V
1.5
0.1
≤
≤
I
△
B
Bias current change
-40 ~ 125
℃
1
㎃≤
Io 40
≤ ㎃
VN
RR
VD
Output noise voltage
Ripple rejection
10
f
㎐≤ ≤
100
25
℃
25
℃
25
℃
70
42
㎑
㎶
dB
V
15 VI 25V
≤
≤
37
f=120
㎐
Dropout voltage
1.7
Notes
*. Pulse testing techniques are used to maintain the junction temperature as close to the ambient temperature as
possible.
Thermal effects must be taken into account separately.
All characteristics are measured with a 0.33㎌ capacitor across the input and a 0.1㎌ capacitor across the output.
**. This specification applies only for DC power dissipation permitted by absolute maximum ratings.
8
KK78LXX
IL78L15 ELECTRICAL CHARACTERISTICS
(At specified virtual junction temperature, Vl=19V, lo=40mA (unless otherwise noted)
Test condition *
Characteistic
Symbol
Min
Typ.
15
Max.
15.6
Unit
25
℃
14.4
1
Io 40
≤ ㎃
㎃≤
Output voltage **
Vout
V
14.25
14.25
15
15.75
17.5V VI 30V
≤
≤
-40 ~ 125
℃
1
Io 70
15
65
58
25
15
4.2
15.75
300
250
150
75
㎃≤
≤
㎃
17.5 VI 30V
≤
≤
Line regulation
Load regulation
Bias current
Reg line
Reg load
IB
25
℃
㎷
㎷
㎃
㎃
19 VI 30V
≤
≤
1
㎃≤
Io 100
≤ ㎃
25
25
℃
1
㎃≤
Io 40
≤ ㎃
6.5
6
℃
125
℃
19 VI 30V
1.5
0.1
≤
≤
I
△
B
Bias current change
-40 ~ 125
℃
1
㎃≤
Io 40
≤ ㎃
VN
RR
VD
Output noise voltage
Ripple rejection
10
f
㎐≤ ≤
100
25
℃
25
℃
25
℃
82
44
㎑
㎶
dB
V
18.5 VI 28.5V
≤
≤
37
f=120
㎐
Dropout voltage
1.7
Notes
*. Pulse testing techniques are used to maintain the junction temperature as close to the ambient temperature as
possible.
Thermal effects must be taken into account separately.
All characteristics are measured with a 0.33㎌ capacitor across the input and a 0.1㎌ capacitor across the output.
**. This specification applies only for DC power dissipation permitted by absolute maximum ratings.
9
KK78LXX
IL78L18 ELECTRICAL CHARACTERISTICS
(At specified virtual junction temperature, Vl=23V, lo=40mA (unless otherwise noted)
Test condition *
Characteistic
Symbol
Min
Typ.
18
Max.
18.7
Unit
25
℃
17.3
1
Io 40
≤ ㎃
㎃≤
Output voltage **
Vout
V
17.1
17.1
18
18.9
20.5V VI 33V
≤
≤
-40 ~ 125
℃
1
Io 70
18
70
64
27
19
4.7
18.9
360
300
180
90
㎃≤
≤
㎃
20.5 VI 33V
≤
≤
Line regulation
Load regulation
Bias current
Reg line
Reg load
IB
25
℃
㎷
㎷
㎃
㎃
22 VI 33V
≤
≤
1
㎃≤
Io 100
≤ ㎃
25
25
℃
1
㎃≤
Io 40
≤ ㎃
6.5
6
℃
125
℃
22 VI 33V
1.5
0.1
≤
≤
I
△
B
Bias current change
-40 ~ 125
℃
1
㎃≤
Io 40
≤ ㎃
VN
RR
VD
Output noise voltage
Ripple rejection
10
f
㎐≤ ≤
100
25
℃
25
℃
25
℃
82
36
㎑
㎶
dB
V
21.5 VI 31.5V
≤
≤
32
f=120
㎐
Dropout voltage
1.7
Notes
*. Pulse testing techniques are used to maintain the junction temperature as close to the ambient temperature as
possible.
Thermal effects must be taken into account separately.
All characteristics are measured with a 0.33㎌ capacitor across the input and a 0.1㎌ capacitor across the output.
**. This specification applies only for DC power dissipation permitted by absolute maximum ratings.
10
KK78LXX
IL78L24 ELECTRICAL CHARACTERISTICS
(At specified virtual junction temperature, Vl=26V, lo=40mA (unless otherwise noted)
Test condition *
Characteistic
Symbol
Min
23
Typ.
24
Max.
25
Unit
25
℃
1
Io 40
≤ ㎃
㎃≤
Output voltage **
Vout
V
22.8
22.8
24
25.2
26.5V VI 39V
≤
≤
-40 ~ 125
℃
1
Io 70
24
95
78
41
28
4.8
25.2
480
400
240
120
6.5
6
㎃≤
≤
㎃
26.5 VI 39V
≤
≤
Line regulation
Load regulation
Bias current
Reg line
Reg load
IB
25
℃
㎷
㎷
㎃
㎃
29 VI 39V
≤
≤
1
㎃≤
Io 100
≤ ㎃
25
25
℃
1
㎃≤
Io 40
≤ ㎃
℃
125
℃
28 VI 39V
1.5
0.1
≤
≤
I
△
B
Bias current change
-40 ~ 125
℃
1
㎃≤
Io 40
≤ ㎃
VN
RR
VD
Output noise voltage
Ripple rejection
10
f
㎐≤ ≤
100
25
℃
25
℃
25
℃
82
33
㎑
㎶
dB
V
27.5 VI 37.5V
≤
≤
30
f=120
㎐
Dropout voltage
1.7
Notes
*. Pulse testing techniques are used to maintain the junction temperature as close to the ambient temperature as
possible.
Thermal effects must be taken into account separately.
All characteristics are measured with a 0.33㎌ capacitor across the input and a 0.1㎌ capacitor across the output.
**. This specification applies only for DC power dissipation permitted by absolute maximum ratings.
11
KK78LXX
12
KK78LXX
13
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