ROHM BA41W12ST

Regulator ICs
Dual output voltage regulator
with power saving
BA41W12ST
The BA41W12ST is a general-purpose power supply with two outputs : 8V, 1A and 5V, 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 conditioners, 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, overvoltage, and overheat.
Block diagram
108
3) Available in a compact TO220FP-5 package (pins
are bendable).
4) Zero power saving current. (Typ.)
Regulator ICs
BA41W12ST
FAbsolute maximum ratings (Ta = 25_C)
FRecommended operating conditions (Ta = 25_C)
FPin descriptions
FInput / output circuits
109
Regulator ICs
FElectrical characteristics (unless otherwise noted, Ta = 25_C and VCC = 13.0V)
110
BA41W12ST
Regulator ICs
BA41W12ST
Measurement circuits
111
Regulator ICs
112
BA41W12ST
Regulator ICs
BA41W12ST
113
Regulator ICs
Application circuit
114
BA41W12ST
Regulator ICs
Operation notes
(1) Although the circuit examples included in this handbook are highly recommendable for general use, you
should be thoroughly familiar with circuit characteristics
as they relate to your own use conditions. If you intend
to change the number of external circuits, leave an ample
margin, taking into account discrepancies in both static
and dynamic characteristics of external parts and Rohm
ICs. In addition, please be advised that Rohm cannot
provide complete assurance regarding patent rights.
(2) Operating power supply voltage
When operating within the proper ranges of power supply
voltage and ambient temperature, most circuit functions
are guaranteed. Although the rated values of electrical
characteristics cannot be absolutely guaranteed, characteristic values do not change drastically within the
proper ranges.
(3) Power dissipation (Pd)
Refer to the power dissipation characteristics in Fig. 10.
If power dissipation exceeds the allowable limit, the functionality of the IC will be degraded (such as reduction of
current capacity by increased chip temperature). Make
sure to use the IC within the allowable range of power dissipation with a sufficient margin.
(4) Preventing oscillation at each output and bypass
capacitor
To stop output oscillation, make sure to connect a capacitor between GND and each output pin (capacitance of at
least 10µF over the whole operating temperature is recommended). Oscillation can occur if capacitance is susceptible to temperature. We recommend using a tantalum electrolytic capacitor with minimal changes in
capacitance. Also, output can be further stabilized by
connecting a bypass capacitor of about 0.33µF between
VCC and GND.
BA41W12ST
(5) Overcurrent protection circuit
An overcurrent protection circuit is installed in each output system, based on the respective output current. This
prevents IC destruction due to overcurrent, by limiting the
current with a curve shape of “7” in the voltage-current
graph. The IC is designed with margins so that current
flow will be restricted and latching will be prevented even
if a large current suddenly flows through a large capacitor. Note that these protection circuits are only good for
preventing damage from sudden accidents. Make sure
your design does not cause the protection circuit to operate continuously under transitional conditions (for
instance, if output is clamped at 1VF or higher, short
mode circuit operates at 1VF or lower). Note that the capacitance is negatively correlated with temperature.
(6) Thermal protection circuit
A built-in thermal protection circuit prevents thermal
damage to the IC. All outputs are turned off when the circuit operates, and revert to the original state when the
temperature drops to a certain level.
(7) We recommend installing a bypass line in your application if there is a mode where potential difference between each output and input (VCC) or GND is reversed
from the normal state. A revered mode may cause damage to the IC.
(8) Although the quality of this IC is rigorously controlled, the IC may be destroyed when the applied voltage or the operating temperature exceeds their absolute
maximum ratings. Because short mode or open mode
cannot be specified when the IC is destroyed, be sure to
take physical safety measures, such as fusing, if any of
the absolute maximum ratings might be exceeded.
(9) When used within a strong magnetic field, be aware
that there is a slight possibility of malfunction.
115
Regulator ICs
Electrical characteristic curves
External dimensions (Units: mm)
116
BA41W12ST