SEMICONDUCTOR
TECHNICAL DATA
KIA78L05BP/F~
KIA78L24BP/F
BIPOLAR LINEAR INTEGRATED CIRCUIT
THREE TERMINAL POSITIVE VOLTAGE REGULATORS
5V, 6V, 8V, 9V, 10V, 12V, 15V, 18V, 20V, 24V.
FEATURES
・Suitable for C-MOS, TTL, DTL, HTL Power Supply.
・Internal Short-Circuit Current Limiting.
・Internal Thermal Overload Protection.
・Maximum Output Current of 150mA (Tj=25℃).
・Suitable for MLCC, Tantalum and Low ESR Electrolytic Capacitors.
・Suffix U : Qualified to AEC-Q100(Grade 3)
: Automotive and standard product are electrically and thermally the same,
except where specified. ex) KIA78L**BF-RTF/PU.
LINE-UP
ITEM
OUTPUT VOLTAGE (Typ.)
KIA78L05BP/F
5
UNIT
KIA78L06BP/F
6
KIA78L08BP/F
8
KIA78L09BP/F
9
KIA78L10BP/F
10
BP : TO-92L
KIA78L12BP/F
12
F : SOT-89
KIA78L15BP/F
15
KIA78L18BP/F
18
KIA78L20BP/F
20
KIA78L24BP/F
24
℃)
MAXIMUM RATINGS (Ta=25℃
CHARACTERISTIC
SYMBOL
RATING
KIA78L05~15
UNIT
35
VIN
Input Voltage
V
KIA78L18~24
40
BP
Power
800
PD
Dissipation
mW
F
500
Tj
-30~150
℃
Operating Temperature
Topr
-40~85
℃
Storage Temperature
Tstg
-55~150
℃
Operating Junction Temperature
Marking (SOT-89 Package)
Type No.
Marking
Type No.
Marking
Type No.
Marking
KIA78L05F
8A
KIA78L10F
8F
KIA78L20F
8K
KIA78L06F
8B
KIA78L12F
8G
KIA78L24F
8L
KIA78L08F
8D
KIA78L15F
8I
KIA78L09F
8E
KIA78L18F
8J
2015. 5. 13
Revision No : 3
1/15
�KIA78L05BP/F~KIA78L24BP/F
ELECTRICAL CHARACTERISTICS
KIA78L05BP/F
μ
μ
℃≦Tj≦125℃
℃)
(Unless otherwise specified, VIN=10V, IOUT=40mA, CIN=0.33μ
F, COUT=0.1μ
F, 0℃
SYMBOL
TEST
CIRCUIT
Output Voltage
VOUT
Fig.1
Tj=25℃
Input Regulation
Reg line
Fig.1
Tj=25℃
CHARACTERISTIC
Load Regulation
Output Voltage
Quiescent Current
Quiescent Current Change
Output Noise Voltage
Long Term Stability
Ripple Rejection Ratio
Dropout Voltage
Average Temperature
Coefficient of Output Voltage
2015. 5. 13
Reg load
VOUT
IB
ΔIB
Fig.1
Fig.1
TEST CONDITION
MIN.
TYP.
MAX.
UNIT
4.8
5.0
5.2
V
7.0V≦VIN≦20V
-
55
150
8.0V≦VIN≦20V
-
45
100
1.0mA≦IOUT≦100mA
-
11
60
1.0mA≦IOUT≦40mA
-
5.0
30
7.0V≦VIN≦20V,
1.0mA≦IOUT≦40mA
4.75
-
5.25
VIN=10V, 1.0mA≦IOUT≦70mA
4.75
-
5.25
Tj=25℃
-
3.1
6.0
Tj=125℃
-
-
5.5
8.0V≦VIN≦20V
-
-
1.5
1.0mA≦IOUT≦40mA
-
-
0.1
Ta=25℃, 10Hz≦f≦100kHz
-
40
-
μVrms
-
12
-
mV/
1.0kHrs
41
49
-
dB
Tj=25℃
mV
mV
V
Fig.1
Fig.1
mA
mA
VNO
Fig.2
ΔVOUT/Δt
Fig.1
R・R
Fig.3
f=120Hz,
8.0V≦VIN≦18V, Tj=25℃
| VIN-VOUT |
Fig.1
Tj=25℃
-
1.7
-
V
TCVO
Fig.1
IOUT=5mA
-
-0.6
-
mV/℃
Revision No : 3
2/15
�KIA78L05BP/F~KIA78L24BP/F
ELECTRICAL CHARACTERISTICS
KIA78L06BP/F
μ
μ
℃≦Tj≦125℃
℃)
(Unless otherwise specified, VIN=11V, IOUT=40mA, CIN=0.33μ
F, COUT=0.1μ
F, 0℃
SYMBOL
TEST
CIRCUIT
Output Voltage
VOUT
Fig.1
Tj=25℃
Input Regulation
Reg line
Fig.1
Tj=25℃
CHARACTERISTIC
TEST CONDITION
8.1V≦VIN≦21V
Load Regulation
Output Voltage
Reg load
VOUT
Fig.1
Fig.1
Quiescent Current Change
Output Noise Voltage
Long Term Stability
Ripple Rejection Ratio
Dropout Voltage
Average Temperature
Coefficient of Output Voltage
2015. 5. 13
IB
ΔIB
TYP.
MAX.
UNIT
5.76
6.0
6.24
V
-
50
150
mV
9.0V≦VIN≦21V
-
45
110
1.0mA≦IOUT≦100mA
-
12
70
1.0mA≦IOUT≦40mA
-
5.5
35
8.1V≦VIN≦21V,
1.0mA≦IOUT≦40mA
5.7
-
6.3
VIN=11V, 1.0mA≦IOUT≦70mA
5.7
-
6.3
-
3.1
6.0
Tj=25℃
mV
Tj=25℃
Quiescent Current
MIN.
V
Fig.1
mA
Tj=125℃
-
-
5.5
9.0V≦VIN≦20V
-
-
1.5
1.0mA≦IOUT≦40mA
-
-
0.1
Ta=25℃, 10Hz≦f≦100kHz
-
40
-
μVrms
-
14
-
mV/
1.0kHrs
39
47
-
dB
Fig.1
mA
VNO
Fig.2
ΔVOUT/Δt
Fig.1
R・R
Fig.3
f=120Hz,
9.0V≦VIN≦19V, Tj=25℃
| VIN-VOUT |
Fig.1
Tj=25℃
-
1.7
-
V
TCVO
Fig.1
IOUT=5mA
-
-0.7
-
mV/℃
Revision No : 3
3/15
�KIA78L05BP/F~KIA78L24BP/F
ELECTRICAL CHARACTERISTICS
KIA78L08BP/F
μ
μ
℃≦Tj≦125℃
℃)
(Unless otherwise specified, VIN=14V, IOUT=40mA, CIN=0.33μ
F, COUT=0.1μ
F, 0℃
CHARACTERISTIC
Output Voltage
Input Regulation
Load Regulation
SYMBOL
TEST
CIRCUIT
VOUT
Fig.1
Reg line
Reg load
Fig.1
Fig.1
TEST CONDITION
MIN.
TYP.
MAX.
UNIT
7.7
8.0
8.3
V
10.5V≦VIN≦23V
-
20
175
11V≦VIN≦23V
-
12
125
1.0mA≦IOUT≦100mA
-
15
80
Tj=25℃
Tj=25℃
mV
Tj=25℃
mV
1.0mA≦IOUT≦40mA
Output Voltage
Quiescent Current
Quiescent Current Change
Output Noise Voltage
Long Term Stability
Ripple Rejection Ratio
Dropout Voltage
Average Temperature
Coefficient of Output Voltage
2015. 5. 13
VOUT
IB
ΔIB
Fig.1
-
7.0
40
10.5V≦VIN≦23V
1.0mA≦IOUT≦40mA
7.6
-
8.4
VIN=14V, 1.0mA≦IOUT≦70mA
7.6
-
8.4
Tj=25℃
-
3.1
6.5
Tj=125℃
-
-
6.0
11V≦VIN≦23V
-
-
1.5
V
Fig.1
mA
Fig.1
mA
1.0mA≦IOUT≦40mA
-
-
0.1
Ta=25℃, 10Hz≦f≦100kHz
-
60
-
μVrms
-
20
-
mV/
1.0kHrs
37
45
-
dB
VNO
Fig.2
ΔVOUT/Δt
Fig.1
R・R
Fig.3
f=120Hz,
12V≦VIN≦23V, Tj=25℃
| VIN-VOUT |
Fig.1
Tj=25℃
-
1.7
-
V
TCVO
Fig.1
IOUT=5mA
-
-0.8
-
mV/℃
Revision No : 3
4/15
�KIA78L05BP/F~KIA78L24BP/F
ELECTRICAL CHARACTERISTICS
KIA78L09BP/F
μ
μ
℃≦Tj≦125℃
℃)
(Unless otherwise specified, VIN=15V, IOUT=40mA, CIN=0.33μ
F, COUT=0.1μ
F, 0℃
SYMBOL
TEST
CIRCUIT
Output Voltage
VOUT
Fig.1
Tj=25℃
Input Regulation
Reg line
Fig.1
Tj=25℃
CHARACTERISTIC
TEST CONDITION
11.4V≦VIN≦24V
Load Regulation
Reg load
Fig.1
VOUT
Fig.1
Quiescent Current Change
Output Noise Voltage
Long Term Stability
Ripple Rejection Ratio
Dropout Voltage
Average Temperature
Coefficient of Output Voltage
2015. 5. 13
IB
ΔIB
MAX.
UNIT
8.64
9.0
9.36
V
-
80
200
12V≦VIN≦24V
-
20
160
1.0mA≦IOUT≦100mA
-
17
90
Tj=25℃
mV
-
8.0
45
11.4V≦VIN≦24V
1.0mA≦IOUT≦40mA
8.55
-
9.45
VIN=15V, 1.0mA≦IOUT≦70mA
8.55
-
9.45
-
3.2
6.5
Tj=25℃
Quiescent Current
TYP.
mV
1.0mA≦IOUT≦40mA
Output Voltage
MIN.
V
Fig.1
mA
Tj=125℃
-
-
6.0
11.5V≦VIN≦26V
-
-
1.5
Fig.1
mA
1.0mA≦IOUT≦40mA
-
-
0.1
Ta=25℃, 10Hz≦f≦100kHz
-
65
-
μVrms
-
21
-
mV/
1.0kHrs
36
44
-
dB
VNO
Fig.2
ΔVOUT/Δt
Fig.1
R・R
Fig.3
f=120Hz,
12V≦VIN≦24V, Tj=25℃
| VIN-VOUT |
Fig.1
Tj=25℃
-
1.7
-
V
TCVO
Fig.1
IOUT=5mA
-
-0.85
-
mV/℃
Revision No : 3
5/15
�KIA78L05BP/F~KIA78L24BP/F
ELECTRICAL CHARACTERISTICS
KIA78L10BP/F
μ
μ
℃≦Tj≦125℃
℃)
(Unless otherwise specified, VIN=16V, IOUT=40mA, CIN=0.33μ
F, COUT=0.1μ
F, 0℃
CHARACTERISTIC
Output Voltage
SYMBOL
TEST
CIRCUIT
VOUT
Fig.1
TEST CONDITION
Tj=25℃
12.5V≦VIN≦25V
Input Regulation
Load Regulation
Reg line
Reg load
Fig.1
Fig.1
Output Voltage
Fig.1
Quiescent Current Change
Output Noise Voltage
Long Term Stability
Ripple Rejection Ratio
Dropout Voltage
Average Temperature
Coefficient of Output Voltage
2015. 5. 13
IB
ΔIB
MAX.
UNIT
9.6
10
10.4
V
-
80
230
mV
13V≦VIN≦25V
-
30
170
1.0mA≦IOUT≦100mA
-
18
90
Tj=25℃
mV
-
8.5
45
12.5V≦VIN≦25V
1.0mA≦IOUT≦40mA
9.5
-
10.5
VIN=16V, 1.0mA≦IOUT≦70mA
9.5
-
10.5
-
3.2
6.5
Tj=25℃
Quiescent Current
TYP.
Tj=25℃
1.0mA≦IOUT≦40mA
VOUT
MIN.
V
Fig.1
mA
Tj=125℃
-
-
6.0
13V≦VIN≦25V
-
-
1.5
Fig.1
mA
1.0mA≦IOUT≦40mA
-
-
0.1
Ta=25℃, 10Hz≦f≦100kHz
-
70
-
μVrms
-
22
-
mV/
1.0kHrs
36
43
-
dB
VNO
Fig.2
ΔVOUT/Δt
Fig.1
R・R
Fig.3
f=120Hz,
13V≦VIN≦24V, Tj=25℃
| VIN-VOUT |
Fig.1
Tj=25℃
-
1.7
-
V
TCVO
Fig.1
IOUT=5mA
-
-0.9
-
mV/℃
Revision No : 3
6/15
�KIA78L05BP/F~KIA78L24BP/F
ELECTRICAL CHARACTERISTICS
KIA78L12BP/F
μ
μ
℃≦Tj≦125℃
℃)
(Unless otherwise specified, VIN=19V, IOUT=40mA, CIN=0.33μ
F, COUT=0.1μ
F, 0℃
SYMBOL
TEST
CIRCUIT
Output Voltage
VOUT
Fig.1
Tj=25℃
Input Regulation
Reg line
Fig.1
Tj=25℃
CHARACTERISTIC
TEST CONDITION
14.5V≦VIN≦27V
Load Regulation
Output Voltage
Reg load
VOUT
Fig.1
Fig.1
Quiescent Current Change
Output Noise Voltage
Long Term Stability
Ripple Rejection Ratio
Dropout Voltage
Average Temperature
Coefficient of Output Voltage
2015. 5. 13
IB
ΔIB
TYP.
MAX.
UNIT
11.5
12
12.5
V
-
120
250
mV
16V≦VIN≦27V
-
100
200
1.0mA≦IOUT≦100mA
-
20
100
1.0mA≦IOUT≦40mA
-
10
50
14.5V≦VIN≦27V
1.0mA≦IOUT≦40mA
11.4
-
12.6
VIN=19V, 1.0mA≦IOUT≦70mA
11.4
-
12.6
-
3.2
6.5
Tj=25℃
mV
Tj=25℃
Quiescent Current
MIN.
V
Fig.1
mA
Tj=125℃
-
-
6.0
16V≦VIN≦27V
-
-
1.5
1.0mA≦IOUT≦40mA
-
-
0.1
Ta=25℃, 10Hz≦f≦100kHz
-
80
-
μVrms
-
24
-
mV/
1.0kHrs
36
41
-
dB
Fig.1
mA
VNO
Fig.2
ΔVOUT/Δt
Fig.1
R・R
Fig.3
f=120Hz,
15V≦VIN≦25V, Tj=25℃
| VIN-VOUT |
Fig.1
Tj=25℃
-
1.7
-
V
TCVO
Fig.1
IOUT=5mA
-
1.0
-
mV/℃
Revision No : 3
7/15
�KIA78L05BP/F~KIA78L24BP/F
ELECTRICAL CHARACTERISTICS
KIA78L15BP/F
μ
μ
℃≦Tj≦125℃
℃)
(Unless otherwise specified, VIN=23V, IOUT=40mA, CIN=0.33μ
F, COUT=0.1μ
F, 0℃
SYMBOL
TEST
CIRCUIT
Output Voltage
VOUT
Fig.1
Tj=25℃
Input Regulation
Reg line
Fig.1
Tj=25℃
CHARACTERISTIC
TEST CONDITION
17.5V≦VIN≦30V
Load Regulation
Output Voltage
Reg load
VOUT
Fig.1
Fig.1
Quiescent Current Change
Output Noise Voltage
Long Term Stability
Ripple Rejection Ratio
Dropout Voltage
Average Temperature
Coefficient of Output Voltage
2015. 5. 13
IB
ΔIB
TYP.
MAX.
UNIT
14.4
15
15.6
V
-
130
300
mV
20V≦VIN≦30V
-
110
250
1.0mA≦IOUT≦100mA
-
25
150
1.0mA≦IOUT≦40mA
-
12
75
17.5V≦VIN≦30V
1.0mA≦IOUT≦40mA
14.25
-
15.75
VIN=23V, 1.0mA≦IOUT≦70mA
14.25
-
15.75
-
3.3
6.5
Tj=25℃
mV
Tj=25℃
Quiescent Current
MIN.
V
Fig.1
mA
Tj=125℃
-
-
6.0
20V≦VIN≦30V
-
-
1.5
1.0mA≦IOUT≦40mA
-
-
0.1
Ta=25℃, 10Hz≦f≦100kHz
-
90
-
μVrms
-
30
-
mV/
1.0kHrs
34
40
-
dB
Fig.1
mA
VNO
Fig.2
ΔVOUT/Δt
Fig.1
R・R
Fig.3
f=120Hz,
18.5V≦VIN≦28.5V, Tj=25℃
| VIN-VOUT |
Fig.1
Tj=25℃
-
1.7
-
V
TCVO
Fig.1
IOUT=5mA
-
-1.3
-
mV/℃
Revision No : 3
8/15
�KIA78L05BP/F~KIA78L24BP/F
ELECTRICAL CHARACTERISTICS
KIA78L18BP/F
μ
μ
℃≦Tj≦125℃
℃)
(Unless otherwise specified, VIN=27V, IOUT=40mA, CIN=0.33μ
F, COUT=0.1μ
F, 0℃
CHARACTERISTIC
Output Voltage
SYMBOL
TEST
CIRCUIT
VOUT
Fig.1
TEST CONDITION
Tj=25℃
21.4V≦VIN≦33V
Input Regulation
Load Regulation
Reg line
Reg load
Fig.1
Fig.1
VOUT
Fig.1
Quiescent Current Change
Output Noise Voltage
Long Term Stability
Ripple Rejection Ratio
Dropout Voltage
Average Temperature
Coefficient of Output Voltage
2015. 5. 13
IB
ΔIB
MAX.
UNIT
17.3
18
18.7
V
-
32
325
mV
22V≦VIN≦33V
-
27
275
1.0mA≦IOUT≦100mA
-
30
170
Tj=25℃
mV
-
15
75
21.4V≦VIN≦33V
1.0mA≦IOUT≦40mA
17.1
-
18.9
VIN=27V, 1.0mA≦IOUT≦70mA
17.1
-
18.9
-
3.3
6.5
Tj=25℃
Quiescent Current
TYP.
Tj=25℃
1.0mA≦IOUT≦40mA
Output Voltage
MIN.
V
Fig.1
mA
Tj=125℃
-
-
6.0
22V≦VIN≦33V
-
-
1.5
Fig.1
mA
1.0mA≦IOUT≦40mA
-
-
0.1
Ta=25℃, 10Hz≦f≦100kHz
-
150
-
μVrms
-
45
-
mV/
1.0kHrs
32
38
-
dB
VNO
Fig.2
ΔVOUT/Δt
Fig.1
R・R
Fig.3
f=120Hz,
23V≦VIN≦33V, Tj=25℃
| VIN-VOUT |
Fig.1
Tj=25℃
-
1.7
-
V
TCVO
Fig.1
IOUT=5mA
-
-1.5
-
mV/℃
Revision No : 3
9/15
�KIA78L05BP/F~KIA78L24BP/F
ELECTRICAL CHARACTERISTICS
KIA78L20BP/F
μ
μ
℃≦Tj≦125℃
℃)
(Unless otherwise specified, VIN=29V, IOUT=40mA, CIN=0.33μ
F, COUT=0.1μ
F, 0℃
CHARACTERISTIC
Output Voltage
SYMBOL
TEST
CIRCUIT
VOUT
Fig.1
TEST CONDITION
Tj=25℃
23.5V≦VIN≦35V
Input Regulation
Load Regulation
Reg line
Reg load
Fig.1
Fig.1
VOUT
Fig.1
Quiescent Current Change
Output Noise Voltage
Long Term Stability
Ripple Rejection Ratio
Dropout Voltage
Average Temperature
Coefficient of Output Voltage
2015. 5. 13
IB
ΔIB
MAX.
UNIT
19.2
20
20.8
V
-
33
330
mV
24V≦VIN≦35V
-
28
285
1.0mA≦IOUT≦100mA
-
33
180
Tj=25℃
mV
-
17
90
23.5V≦VIN≦35V
1.0mA≦IOUT≦40mA
19.0
-
21.0
VIN=29V, 1.0mA≦IOUT≦70mA
19.0
-
21.0
-
3.3
6.5
Tj=25℃
Quiescent Current
TYP.
Tj=25℃
1.0mA≦IOUT≦40mA
Output Voltage
MIN.
V
Fig.1
mA
Tj=125℃
-
-
6.0
24V≦VIN≦35V
-
-
1.5
Fig.1
mA
1.0mA≦IOUT≦40mA
-
-
0.1
Ta=25℃, 10Hz≦f≦100kHz
-
170
-
μVrms
-
49
-
mV/
1.0kHrs
31
37
-
dB
VNO
Fig.2
ΔVOUT/Δt
Fig.1
R・R
Fig.3
f=120Hz,
25V≦VIN≦35V, Tj=25℃
| VIN-VOUT |
Fig.1
Tj=25℃
-
1.7
-
V
TCVO
Fig.1
IOUT=5mA
-
-1.7
-
mV/℃
Revision No : 3
10/15
�KIA78L05BP/F~KIA78L24BP/F
ELECTRICAL CHARACTERISTICS
KIA78L24BP/F
μ
μ
℃≦Tj≦125℃
℃)
(Unless otherwise specified, VIN=33V, IOUT=40mA, CIN=0.33μ
F, COUT=0.1μ
F, 0℃
CHARACTERISTIC
Output Voltage
SYMBOL
TEST
CIRCUIT
VOUT
Fig.1
TEST CONDITION
Tj=25℃
27.5V≦VIN≦38V
Input Regulation
Load Regulation
Reg line
Reg load
Fig.1
Fig.1
VOUT
Fig.1
Quiescent Current Change
Output Noise Voltage
Long Term Stability
Ripple Rejection Ratio
Dropout Voltage
Average Temperature
Coefficient of Output Voltage
2015. 5. 13
IB
ΔIB
MAX.
UNIT
23
24
25
V
-
35
350
mV
28V≦VIN≦38V
-
30
300
1.0mA≦IOUT≦100mA
-
40
200
Tj=25℃
mV
-
20
100
27.5V≦VIN≦38V
1.0mA≦IOUT≦40mA
22.8
-
25.2
VIN=33V, 1.0mA≦IOUT≦70mA
22.8
-
25.2
-
3.5
6.5
Tj=25℃
Quiescent Current
TYP.
Tj=25℃
1.0mA≦IOUT≦40mA
Output Voltage
MIN.
V
Fig.1
mA
Tj=125℃
-
-
6.0
28V≦VIN≦38V
-
-
1.5
Fig.1
mA
1.0mA≦IOUT≦40mA
-
-
0.1
Ta=25℃, 10Hz≦f≦100kHz
-
200
-
μVrms
-
56
-
mV/
1.0kHrs
31
35
-
dB
VNO
Fig.2
ΔVOUT/Δt
Fig.1
R・R
Fig.3
f=120Hz,
29V≦VIN≦39V, Tj=25℃
| VIN-VOUT |
Fig.1
Tj=25℃
-
1.7
-
V
TCVO
Fig.1
IOUT=5mA
-
-2.0
-
mV/℃
Revision No : 3
11/15
�KIA78L05BP/F~KIA78L24BP/F
Fig.1 Standard Test Circuit & Application Circuit
Fig.2 VNO Test Circuit
Fig.3 Ripple Rejection Test Circuit
2015. 5. 13
Revision No : 3
12/15
�KIA78L05BP/F~KIA78L24BP/F
2015. 5. 13
Revision No : 3
13/15
�KIA78L05BP/F~KIA78L24BP/F
PRECAUTIONS FOR USE
When such a high voltage as exceeds 10V beyond the fixed output voltage (Typ. value) of IC is applied to the output terminal of IC,
the IC may be destroyed. In such a case, it is advised to prevent an excessive voltage from being applied to the IC by connecting
a zener diode between the output terminal and the GND. Especially, in the current boost circuit as shown in example (2) of application
circuits, an input voltage may be suddenly applied to the output terminal of IC in the form of steps, and that in case of light load,
an excessive voltage may be transiently applied to the output terminal of IC: So that great care should be taken to this matter.
In this case, in addition to the above, it may become necessary to consider such a countermeasure as the output capacitor in use is replaced
with a capacitor of larger capacitance, or as R1 (a resistor for IC bias current) or bypass is replaced with a resistor of smaller resistance
according to circumstance or as the input voltage is gradually raised.
2015. 5. 13
Revision No : 3
14/15
�KIA78L05BP/F~KIA78L24BP/F
2015. 5. 13
Revision No : 3
15/15
�
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