BA05ST (Rohm)
(BAxxST) Regulator

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BAΟΟST / BAΟΟSFP series
Regulator, low drop-out type with ON/OFF
switch
BAΟΟST / BAΟΟSFP series
The BAΟΟST and BAΟΟSFP series are variable, fixed output low drop-out type voltage regulators with an ON/OFF
switch.
These regulators are used to provide a stabilized output voltage from a fluctuating DC input voltage.
Fixed output voltages are 3.3V, 5V, 6V(SFP), 7V, 8V, 9V, 10V(ST), 12V(ST). The maximum current capacity is 1 A for
each of the above voltages.
!Application
Constant voltage power supply
!Features
1) Built-in overvoltage protection circuit, overcurrent protection circuit and thermal shutdown circuit
2) TO220FP-5, TO252-5 standard packages can be accomodated in wide application.
3) 0µA (design value) circuit current when switch is off
4) Richly diverse lineup.
5) Low minimum I/O voltage differential.
!Product codes
Output voltage (V)
Variable
3.3
5.0
6.0
7.0
Product No.
BA00AST / ASFP
BA033ST / SFP
BA05ST / SFP
BA06SFP
BA07ST / SFP
Output voltage (V)
8.0
9.0
10.0
12.0
Product No.
BA08ST / SFP
BA09ST / SFP
BA10ST
BA12ST
!Absolute maximum ratings (Ta=25°C)
Parameter
Symbol
Power supply voltage
Power dissipation TO220FP-5
TO252-5
Operating temperature
Storage temperature
VCC
Pd
Topr
Tstg
Peak applied voltage
Vsurge
*1 Reduced by 16mW for each increase in Ta of 1˚C over 25˚C.
*2 Reduced by 8mW for each increase in Ta of 1˚C over 25˚C.
*3 Voltage application time : 200 msec. or less
Limits
35
2000 *1
1000 *2
-40~+85
-55~+150
50 *3
Unit
V
mW
˚C
˚C
V


BA05ST (Rohm)
(BAxxST) Regulator

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!Block diagram
BAΟΟST / BAΟΟSFP series
VCC
2
CTL
1
REFERENCE
VOLTAGE
OUT
+4
+
5
C
GND
3
Variable output type (BA00AST / ASFP)
VCC
2
CTL
1
REFERENCE
VOLTAGE
OUT
+4
+
GND
3
Fixed output type
!Pin descriptions
Pin No.
1
2
3
4
Pin name
CTL
VCC
GND
OUT
C
5
N.C.
Function
Output ON/OFF
Power supply input
Ground
Output
Reference power supply pin for setting voltage with
the BA00AST/ASFP.
In the BAOOST/SFP Series, these are NC pins,
except for the BA00AST/ASFP.


BA05ST (Rohm)
(BAxxST) Regulator

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!Recommended operating conditions
BA00AST / ASFP
Parameter
Input voltage
Output current
Symbol Min.
VCC 4
IO -
Max.
25
1
Unit
V
A
BA033ST / SFP
Parameter
Input voltage
Output current
Symbol Min.
VCC 4.3
IO -
Max.
25
1
Unit
V
A
BA05ST / SFP
Parameter
Input voltage
Output current
Symbol Min. Max.
VCC 6 25
IO - 1
Unit
V
A
BA06SFP
Parameter
Input voltage
Output current
Symbol Min.
VCC
7
IO -
Max.
25
1
Unit
V
A
BA07ST / SFP
Parameter
Input voltage
Output current
Symbol Min.
VCC
8
IO -
Max.
25
1
Unit
V
A
BAΟΟST / BAΟΟSFP series
BA08ST / SFP
Parameter
Input voltage
Output current
Symbol Min. Max.
VCC 9 25
IO - 1
Unit
V
A
BA09ST / SFP
Parameter
Input voltage
Output current
Symbol Min.
VCC 10
IO -
Max.
25
1
Unit
V
A
BA10ST
Parameter
Input voltage
Output current
Symbol Min. Max. Unit
VCC 11 25
V
IO - 1 A
BA12ST
Parameter
Input voltage
Output current
Symbol Min. Max.
VCC 13 25
IO - 1
Unit
V
A
!Electrical characteristics
BA00AST / ASFP (unless otherwise noted, Ta=25°C, Vcc=10V, Io=500mA)
Parameter
Reference voltage
Power save current
Output voltage
Input stability
Ripple rejection ratio
Load regulation
Temperature coefficient of output voltage
Minimum I/O voltage differential
Bias current
Peak output current
Output short-circuit current
ON mode voltage
OFF mode voltage
Input high level current
Symbol
Vref
Ist
VO
Reg.I
R.R.
Reg.L
TCVO
Vd
Ib
IO-P
IOS
Vth1
Vth2
IIN
Min.
1.200
-
-
-
45
-
-
-
-
1.0
-
2.0
-
100
Typ.
1.225
0
5.0
20
55
50
±0.01
0.3
2.5
1.5
0.4
-
-
200
Max.
1.250
10
-
100
-
150
-
0.5
5.0
-
-
-
0.8
300
Unit Conditions
V
µA
V
mV
dB
mV
% / ˚C
V
mA
A
A
V
V
µA
OFF mode
VCC=625V
eIN=1Vrms, f=120Hz, IO=100mA
IO=5mA1A
IO=5mA, Tj=0~125˚C
VCC=0.95VO
IO=0mA
Tj=25˚C
VCC=25V
Output Active mode, IO=0mA
Output OFF mode, IO=0mA
CTL=5V, IO=0mA
Measurement
circuit
Fig.1
Fig.4
Fig.1
Fig.1
Fig.2
Fig.1
Fig.1
Fig.3
Fig.4
Fig.1
Fig.5
Fig.6
Fig.6
Fig.6


BA05ST (Rohm)
(BAxxST) Regulator

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BAΟΟST / BAΟΟSFP series
BA033ST / SFP (unless otherwise noted, Ta=25°C, Vcc=8 V, Io=500 mA)
Parameter
Symbol Min. Typ. Max. Unit
Conditions
Power save current
Output voltage
Input stability
Ripple rejection ratio
Load regulation
Temperature coefficient of output voltage
Minimum I/O voltage differential
Bias current
Peak output current
Output short-circuit current
ON mode voltage
OFF mode voltage
Input high level current
IST
VO1
Reg.I
R.R.
Reg.L
TCVO
Vd
Ib
IO-P
IOS
Vth1
Vth2
IIN
- 0 10 µA OFF mode
3.13 3.3 3.47
V
- 20 100 mV VCC=4=.325V
45 55 - dB eIN=1Vrms, f=120Hz, IO=100mA
- 50 150 mV IO=5mA1A
- ±0.02 - % / ˚C IO=5mA, Tj=0~125˚C
-
0.3 0.5
V VCC=0.95VO
- 2.5 5.0 mA IO=0mA
1.0 1.5
-
A Tj=25˚C
- 0.4 -
A VCC=25V
2.0 - - V Output Active mode, IO=0mA
- - 0.8 V Output OFF mode, IO=0mA
100 200 300
µA CTL=5V, IO=0mA
Measurement
circuit
Fig.4
Fig.1
Fig.1
Fig.2
Fig.1
Fig.1
Fig.3
Fig.4
Fig.1
Fig.5
Fig.6
Fig.6
Fig.6
BA05ST / SFP (unless otherwise noted, Ta=25°C, Vcc=10 V, Io=500 mA)
Parameter
Symbol Min. Typ. Max. Unit
Conditions
Power save current
Output voltage
Input stability
Ripple rejection ratio
Load regulation
Temperature coefficient of output voltage
Minimum I/O voltage differential
Bias current
Peak output current
Output short-circuit current
ON mode voltage
OFF mode voltage
Input high level current
IST
VO1
Reg.I
R.R.
Reg.L
TCVO
Vd
Ib
IO-P
IOS
Vth1
Vth2
IIN
- 0 10 µA OFF mode
4.75 5.0 5.25
V
- 20 100 mV VCC=62=5V
45 55 - dB eIN=1Vrms, f=120Hz, IO=100mA
- 50 150 mV IO=5mA1A
- ±0.02 - % / ˚C IO=5mA, Tj=0~125˚C
- 0.3 0.5 V VCC=4.75V
- 2.5 5.0 mA IO=0mA
1.0 1.5
-
A Tj=25˚C
- 0.4 -
A VCC=25V
2.0 - - V Output Active mode, IO=0mA
- - 0.8 V Output OFF mode, IO=0mA
100 200 300 µA CTL=5V, IO=0mA
Measurement
circuit
Fig.4
Fig.1
Fig.1
Fig.2
Fig.1
Fig.1
Fig.3
Fig.4
Fig.1
Fig.5
Fig.6
Fig.6
Fig.6
BA06SFP ( unless otherwise noted, Ta=25°C, Vcc=11 V, Io=500 mA)
Parameter
Symbol Min. Typ. Max. Unit
Conditions
Power save current
Output voltage
Input stability
Ripple rejection ratio
Load regulation
Temperature coefficient of output voltage
Minimum I/O voltage differential
Bias current
Peak output current
Output short-circuit current
ON mode voltage
OFF mode voltage
Input high level current
IST
VO1
Reg.I
R.R.
Reg.L
TCVO
Vd
Ib
IO-P
IOS
Vth1
Vth2
IIN
- 0 10 µA OFF mode
5.7 6.0 6.3
V
- 20 100 mV VCC=725V
45 55 - dB eIN=1Vrms, f=120Hz, IO=100mA
- 50 150 mV IO=5mA1A
- ±0.02 - % / ˚C IO=5mA, Tj=0~125˚C
- 0.3 0.5 V VCC=5.7V
- 2.5 5.0 mA IO=0mA
1.0 1.5
-
A Tj=25˚C
- 0.4 -
A VCC=25V
2.0 - - V Output Active mode, IO=0mA
- - 0.8 V Output OFF mode, IO=0mA
100 200 300 µA CTL=5V, IO=0mA
Measurement
circuit
Fig.4
Fig.1
Fig.1
Fig.2
Fig.1
Fig.1
Fig.3
Fig.4
Fig.1
Fig.5
Fig.6
Fig.6
Fig.6


BA05ST (Rohm)
(BAxxST) Regulator

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BAΟΟST / BAΟΟSFP series
BA07ST / SFP (unless otherwise noted, Ta=25°C, Vcc=12 V, Io=500 mA) (under development)
Parameter
Symbol Min. Typ. Max. Unit
Conditions
Power save current
Output voltage
Input stability
Ripple rejection ratio
Load regulation
Temperature coefficient of output voltage
Minimum I/O voltage differential
Bias current
Peak output current
Output short-circuit current
ON mode voltage
OFF mode voltage
Input high level current
IST
VO1
Reg.I
R.R.
Reg.L
TCVO
Vd
Ib
IO-P
IOS
Vth1
Vth2
IIN
- 0 10 µA OFF mode
6.65 7.0 7.35
V
- 20 100 mV VCC=825V
45 55 - dB eIN=1Vrms, f=120Hz, IO=100mA
- 50 150 mV IO=5mA1A
- ±0.02 - % / ˚C IO=5mA, Tj=0~125˚C
- 0.3 0.5 V VCC=6.65V
- 2.5 5.0 mA IO=0mA
1.0 1.5
-
A Tj=25˚C
- 0.4 -
A VCC=25V
2.0 - - V Output Active mode, IO=0mA
- - 0.8 V Output OFF mode, IO=0mA
100 200 300 µA CTL=5V, IO=0mA
Measurement
circuit
Fig.4
Fig.1
Fig.1
Fig.2
Fig.1
Fig.1
Fig.3
Fig.4
Fig.1
Fig.5
Fig.6
Fig.6
Fig.6
BA08ST / SFP (unless otherwise noted, Ta=25°C, Vcc=13 V, Io=500 mA)
Parameter
Symbol Min. Typ. Max. Unit
Conditions
Power save current
Output voltage
Input stability
Ripple rejection ratio
Load regulation
Temperature coefficient of output voltage
Minimum I/O voltage differential
Bias current
Peak output current
Output short-circuit current
ON mode voltage
OFF mode voltage
Input high level current
IST
VO1
Reg.I
R.R.
Reg.L
TCVO
Vd
Ib
IO-P
IOS
Vth1
Vth2
IIN
- 0 10 µA OFF mode
7.6 8.0 8.4
V
- 20 100 mV VCC925V
45 55 - dB eIN=1Vrms, f=120Hz, IO=100mA
- 50 150 mV IO=5mA1A
- ±0.02 - % / ˚C IO=5mA, Tj=0~125˚C
- 0.3 0.5 V VCC=0.95VO
- 2.5 5.0 mA IO=0mA
1.0 1.5
-
A Tj=25˚C
- 0.4 -
A VCC=25V
2.0 - - V Output Active mode, IO=0mA
- - 0.8 V Output OFF mode, IO=0mA
100 200 300 µA CTL=5V, IO=0mA
Measurement
circuit
Fig.4
Fig.1
Fig.1
Fig.2
Fig.1
Fig.1
Fig.3
Fig.4
Fig.1
Fig.5
Fig.6
Fig.6
Fig.6
BA09ST / SFP (unless otherwise noted, Ta=25°C, Vcc=14 V, Io=500 mA)
Parameter
Symbol Min. Typ. Max. Unit
Conditions
Power save current
Output voltage
Input stability
Ripple rejection ratio
Load regulation
Temperature coefficient of output voltage
Minimum I/O voltage differential
Bias current
Peak output current
Output short-circuit current
ON mode voltage
OFF mode voltage
Input high level current
IST
VO1
Reg.I
R.R.
Reg.L
TCVO
Vd
Ib
IO-P
IOS
Vth1
Vth2
IIN
- 0 10 µA OFF mode
8.55 9.0 9.45
V
- 20 100 mV VCC=1025V
45 55 - dB eIN=1Vrms, f=120Hz, IO=100mA
- 50 150 mV IO=5mA1A
- ±0.02 - % / ˚C IO=5mA, Tj=0~125˚C
- 0.3 0.5 V VCC=0.95VO
- 2.5 5.0 mA IO=0mA
1.0 1.5
-
A Tj=25˚C
- 0.4 -
A VCC=25V
2.0 - - V Output Active mode, IO=0mA
- - 0.8 V Output OFF mode, IO=0mA
100 200 300 µA CTL=5V, IO=0mA
Measurement
circuit
Fig.4
Fig.1
Fig.1
Fig.2
Fig.1
Fig.1
Fig.3
Fig.4
Fig.1
Fig.5
Fig.6
Fig.6
Fig.6


BA05ST (Rohm)
(BAxxST) Regulator

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BAΟΟST / BAΟΟSFP series
BA10ST (unless otherwise noted, Ta=25°C, Vcc=15 V, Io=500 mA)
Parameter
Symbol Min. Typ. Max.
Power save current
Output voltage
Input stability
Ripple rejection ratio
Load regulation
Temperature coefficient of output voltage
Minimum I/O voltage differential
Bias current
Peak output current
Output short-circuit current
ON mode voltage
OFF mode voltage
Input high level current
IST
VO1
Reg.I
R.R.
Reg.L
TCVO
Vd
Ib
IO-P
IOS
Vth1
Vth2
IIN
- 0 10
9.5 10 10.5
- 20 100
45 55
-
- 50 150
- ±0.02 -
- 0.3 0.5
- 2.5 5.0
1.0 1.5
-
- 0.4 -
2.0 -
-
- - 0.8
100 200 300
Unit Conditions
µA
V
mV
dB
mV
% / ˚C
V
mA
A
A
V
V
µA
OFF mode
VCC=1125V
eIN=1Vrms, f=120Hz, IO=100mA
IO=5mA1A
IO=5mA, Tj=0~125˚C
VCC=0.95VO
IO=0mA
Tj=25˚C
VCC=25V
Output Active mode, IO=0mA
Output OFF mode, IO=0mA
CTL=5V, IO=0mA
Measurement
circuit
Fig.4
Fig.1
Fig.1
Fig.2
Fig.1
Fig.1
Fig.3
Fig.4
Fig.1
Fig.5
Fig.6
Fig.6
Fig.6
BA12ST (unless otherwise noted, Ta=25°C, Vcc=17 V, Io=500 mA)
Parameter
Symbol Min. Typ. Max. Unit
Conditions
Power save current
Output voltage
Input stability
Ripple rejection ratio
Load regulation
Temperature coefficient of output voltage
Minimum I/O voltage differential
Bias current
Peak output current
Output short-circuit current
ON mode voltage
OFF mode voltage
Input high level current
IST
VO1
Reg.I
R.R.
Reg.L
TCVO
Vd
Ib
IO-P
IOS
Vth1
Vth2
IIN
- 0 10 µA OFF mode
11.4 12 12.6
V
- 20 100 mV VCC=1325V
45 55 - dB eIN=1Vrms, f=120Hz, IO=100mA
- 50 150 mV IO=5mA1A
- ±0.02 - % / ˚C IO=5mA, Tj=0~125˚C
- 0.3 0.5 V VCC=0.95VO
- 2.5 5.0 mA IO=0mA
1.0 1.5
-
A Tj=25˚C
- 0.4 -
A VCC=25V
2.0 - - V Output Active mode, IO=0mA
- - 0.8 V Output OFF mode, IO=0mA
100 200 300 µA CTL=5V, IO=0mA
Measurement
circuit
Fig.4
Fig.1
Fig.1
Fig.2
Fig.1
Fig.1
Fig.3
Fig.4
Fig.1
Fig.5
Fig.6
Fig.6
Fig.6


BA05ST (Rohm)
(BAxxST) Regulator

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BAΟΟST / BAΟΟSFP series
!Measurement circuits
( The C pin only exists on the BA00AST / ASFP, for the BA00AST / ASFP, place a 6.8kresistor between the OUT and
C pins, and a 2.2kresisitor between the C and pins.)
VCC
OUT
22µF
+
VCC
CTL GND *C
IO V
5V
V eIN
105W
100µF
VCC 0.33µF
eIN=1Vrms
f=120Hz
VCC OUT
CTL GND *C
5V
22µF
+
eOUT
V
IO=100mA
Fig.1 Measurement circuit for output voltage, input
stability, load regulation, and temperature
coefficient of output voltage
( )Ripple rejection ratio R.R. = 20 log
eIN
eOUT
Fig.2 Measurement circuit for ripple rejection ratio
V
0.33µF
VCC=0.95VO
VCC OUT
CTL GND *C
22µF
+
IO=500mA
5V
Fig.3 Measurement circuit for minimum I/O
voltage differential
0.33µF
VCC
VCC
OUT
22µF +
CTL GND *C
A
Fig.4 Measurement circuit for bias current,
power save current measurement circuit
0.33µF
VCC
VCC
CTL
OUT
GND *C
22µF
+
IOS A
5V
Fig.5 Measurement circuit for output
short-circuit current
0.33µF
VCC
VCC
CTL
OUT
GND *C
+
22µF
V
A
Fig.6 Measurement circuit for ON/OFF mode voltage,
input high level current


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BAΟΟST / BAΟΟSFP series
!Operation notes
(1) Operating power supply voltage
When operating within the normal voltage range and within the ambient operating temperature range, most circuit
functions are guaranteed. The rated values cannot be guaranteed for the electrical characteristics, but there are no
sudden changes of the characteristics within these ranges.
(2) Power dissipation
Heat attenuation characteristics are noted on a separate page and can be used as a guide in judging power dissipation.
If these ICs are used in such a way that the allowable power dissipation level is exceeded, an increase in the chip
temperature could cause a reduction in the current capability or could otherwise adversely affect the performance of the
IC. Make sure a sufficient margin is allowed so that the allowable power dissipation value is not exceeded.
(3) Output oscillation prevention and bypass capacitor
Be sure to connect a capacitor between the output pin and GND to prevent oscillation. Since fluctuations in the valve of
the capacitor due to temperature changes may cause oscillations, a tantalum electrolytic capacitor with a small internal
series resistance (ESR) is recommended.
A 22m F capacitor is recommended; however, be aware that if an extremely large capacitance is used (1000µF or
greater), then oscillations may occur at low frequencies. Therefore, be sure to perform the appropriate verifications before
selecting the capacitor.
Also, we recommend connecting a 0.33m F bypass capacitor as close as possible between the input pin and GND.
(4) Current overload protection circuit
A current overload protection circuit is built into the outputs, to prevent IC destruction if the load is shorted.
This protection circuit limits the current in the shape of a ‘7’. It is designed with a high margin, so that even if a large current
suddenly flows through the large capacitor in the IC, the current is restricted and latching is prevented.
However, these protection circuits are only good for pre-venting damage from sudden accidents. The design should take
this into consideration, so that the protection circuit is not made to operate continuously (for instance, clamping at an
output of 1VF or greater; below 1VF, the short mode circuit operates). Note that the capacitor has negative temperature
characteristics, and the design should take this into consideration.
(5) Thermal overload circuit
A built-in thermal overload circuit prevents damage from overheating. When the thermal circuit is activated, the various
outputs are in the OFF state. When the temperature drops back to a constant level, the circuit is restored.
(6) Internal circuits could be damaged if there are modes in which the electric potential of the application’s input (VCC) and
GND are the opposite of the electric potential of the various outputs. Use of a diode or other such bypass path is
recommended.
(7) Although the manufacture of this product includes rigorous quality assurance procedures, the product may be
damaged if absolute maximum ratings for voltage or operating temperature are exceeded. If damage has occurred,
special modes (such as short circuit mode or open circuit mode) cannot be specified. If it is possible that such special
modes may be needed, please consider using a fuse or some other mechanical safety measure.
(8) When used within a strong magnetic field, be aware that there is a slight possibility of malfunction.


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BAΟΟST / BAΟΟSFP series
(9) When the connected load which contains a big inductance component in an output terminal is connected and the
occurrence of a reverse electromotive force can be considered at the time of and power-output OFF at the time of starting,
I ask the insertion of protection diode of you.
(Example) Output
pin
(10) Although it is sure that the example of an application circuit should be recommended, in a usage, I fully ask the
validation of a property of you.
In addition, when you alter the circuit constant with outside and you become a usage, please see and decide sufficient
margin in consideration of the dispersion in an external component and IC of our company etc. not only including the static
characteristic but including a transient characteristic.
This IC is monolithic IC and has P+ isolation and P substrate for an isolation between each element.
A P-N junction is formed by these P layers and N layers of each element, and various kinds of parasitic elements are
formed. For example, when the resistor and the transistor are connected with the pin like the example of a simple
architecture,
At a resistor, it is at the time of GND > (PIN A), at a transistor (NPN), it is at the time of GND > (PIN B),
A P-N junction operates as parasitism diode.
At a transistor (NPN), it is at the time of GND > (PIN B),
The NPN transistor of a parasitic element operates by N layers of other elements which approach with the above-
mentioned parasitism diode.
A parasitic element is inevitably made according to a potential relation on the architecture of IC.
When a parasitic element operates, the interference of a circuit operation is caused and the cause of a malfunction, as a
result a destructive is obtained.
Therefore, please be fully careful of impressing a voltage lower than GND(P substrate) to an input/output terminal etc. not
to carry out usage with which a parasitic element operates.
(Pin A)
Resistor
(Pin B) C
Transistor (NPN)
B
E
P+
N
P
N
P+
N
P substrate Parasitic elements
GND
(Pin A)
Parasitic elements
GND
N
P+
P
N
N
P substrate
Parasitic elements
GND
(Pin B)
GND
P+
N
B
Other approaching
elements
C
E
GND
Parasitic elements
The example of a simple architecture of bipolar IC


BA05ST (Rohm)
(BAxxST) Regulator

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BAΟΟST / BAΟΟSFP series
!Electrical characteristic curves
25
(1)22.0
20
(1) Infinite heat sink
(2) Alumina PCB, 100×100×2 mm2
(3) Alumina PCB, 50×50×2 mm2
(4) IC alone
12.5
10
(1)10.0
(1) Infinite heat sink is used θj-c=12.5 (ºC/W)
(2) IC simple substance θj-a=125.0 (ºC/W)
15
(2)11.0
10
(3)6.5
5
(4)2.0
7.5
5
2.5
(2)1.0
0 25 50 75 100 125 150
AMBIENT TEMPERATURE : Ta(˚C)
0 25 50 75 100 125 150
AMBIENT TEMPERATURE : Ta (ºC)
Fig. 7 Thermal derating curves
(TO220FP-5)
Fig.8 Thermal derating curves
(TO252-5)
6
BA05ST
5
4
6
BA05ST
5
4
3
2
1
0
0 10 20 30 40 50
INPUT VOLTAGE : VCC (V)
Fig. 9 Current limit characteristics
3
2
1
0
0 10 20 30 40 50
INPUT VOLTAGE : VCC (V)
Fig. 10 Over voltage protection
characteristics
!External Dimensions (Units: mm)
10.0
+0.3
0.1
7.0
+0.3
0.1
f3.2±0.1
4.5
+0.3
0.1
2.8
+0.2
0.1
1pin : CTL
2pin : VCC
3pin : GND
4pin : OUT
5pin : N.C.
1.2
0.8
12345
1.778
0.5+0.1
TO220FP-5
2.85
6.5±0.2
5.1
+0.2
0.1
3
2.3±0.2
0.5±0.1
12
45
0.5 1.27 0.5±0.1
1.0±0.2
TO252-5




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