ROHM BA44W12SAT Datasheet

BA44W12SAT

Regulator ICs

Dual output voltage regulator with power
saving

BA44W12SAT

The BA44W12SAT is a general-purpose power supply with outputs : 8V, 1A and 8V, 500mA. The IC is available in a
compact TO220FP-5 package. The outputs can be turned off during the power saving state with a built-in switch. Also
built in the IC are an overcurrent protection circuit, an overvoltage protection circuit, and a thermal shutdown circuit.

!!!!

Applications

Car audio systems, VCRs, facsimiles, air conditions, and other household and industrial equipment

!!!!Features

1) Minimum I / O voltage differential is 0.5V or less.

2) Built-in protection circuits against overcurrent, over voltage, and overheat.

3) Available in a compact TO220FP-5 package (pins are bendable)

4) Zero power saving current. (Typ.)

!!!!

Absolute maximum ratings

Parameter Symbol Limits Unit
Power supply voltage V
Power dissipation Pd
Operating temperature Topr −40~+85 ˚C
Storage temperature Tstg −55~+150 ˚C
Peak applied voltage V

∗1 Reduced by 16mW for each increase in Ta of 1˚C over 25˚C.

2 Applied time is less than 200ms (tr≥1ms).

∗

tr≥1ms

50V

35V

0V

(Ta=25°C)

CC

CC

Peak 50

Max.200ms

35 V

1

∗

2000

2

∗

!!!!Recommended operating conditions (Ta=25°C)

Parameter

Power supply voltage V

Symbol Min. Typ. Max. Unit

CC

9.0 25 V13

mW

V

Regulator ICs

!!!!Block diagram

V

CC

2

CTL

5

REFERENCE VOLTAGE

BA44W12SAT

8V

1

OUT1

+

GND

3

!Pin descriptions

Pin No.

1
2
3
4
5

Pin name

OUT1

GND

OUT2

V

CC

CTL

Output 1 (8V, 1A)
Power supply
Ground
Output 2 (8V, 500mA)
ON / OFF switch

Function

8V

4

OUT2

+

Regulator ICs

!!!!Input / output circuits

CTL (5pin)

OUT1, 2

CC

(2pin)

V

BA44W12SAT

!!!!

Electrical characteristics

Parameter
Power save supply current
Bias current

25k

25k

GND (3pin)

10.8k (1pin)

10.8k (4pin)

(unless otherwise noted, Ta=25°C, VCC=13.0V)

0

Max. Unit

10 µA

5.0 mA

Symbol

I

ST

I

b

Min.

-

-

Typ.

3.0

2k

GND (3pin)

OFF mode
ON mode

1, 4pin

Conditions Test circuit

<8V output section> (Output 1)
Output voltage 1
Minimum I / O voltage differential 1
Output current capacity 1

Ripple rejection ratio 1
Input stabillty 1

Load regulation 1

Reg.I1

Reg.L1

Output short-circuit current 1

V

O1

∆V

I

O1

R.R1

I

OS1

-

8.4 V

0.5 V

-A

-dB

100 mV
150 mV

-mA

7.6

O1

8.0

0.3

-

1.0

-

-

-

-

55

50
100
150

I

O1

=500mA

I

O1

=500mA VCC=7.6V

I

O1

=500mA, f=120Hz

IN

=1V

rms

e
VCC=9→25V, IO=500mA
I

O

=5mA→1A

CC

=25V

V
<8V output section> (Output 2)
Output voltage 2
Minimum I / O voltage differential

2

Output current capacity 2
Ripple rejection ratio 2
Input stabillty 2

Load regulation 2
Output short-circuit current 2

V

O2

∆V

O2

I

O2

R.R2

Reg.I2

Reg.L2

I

OS2

7.6

500

-

8.4 V

0.5 V

-mA

-dB

100 mV
100 mV

-mA

8.0

0.3

-

-

-

-

-

60
50

50

100

O2

=350mA

I

I

O2

=350mA VCC=7.6V

I

O2

=350mA, f=120Hz

IN

=1V

rms

e

VCC=9→25V, IO=350mA

I

O

=5mA→500mA

V

CC

=25V
<CTL section>
ON mode voltage
OFF mode voltage
Input high level current

Note) All the characteristic values are measured with a 0.33µF-capacitor connected the input pin and 22µF-capacitor connected to the output pin.
Measurements are made by using a plus (tw≤10ms, duty cycle≤5%) in all cases but noise voltage and the ripple rejection ratio.

V

th

V

th

I

IN

2.0

1

2

-

-

-

-

150

-V

0.8 V

- µA

Output ACTIVE MODE
Output OFF MODE

th

=5V

V

Fig.4
Fig.4

Fig.1
Fig.3
Fig.1

Fig.2
Fig.1

Fig.1
Fig.5

Fig.1
Fig.3
Fig.1

Fig.2
Fig.1

Fig.1
Fig.5

Fig.6
Fig.6
Fig.7