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KIA79M05PI View Datasheet(PDF) - KEC

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Description
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KIA79M05PI Datasheet PDF : 9 Pages
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KIA79M05PI~KIA79M15PI
Design Considerations
Typical Applications
The KIA79MXX fixed voltage regulator series have thermal
overload protection from excessive power, internal short circuit
protection which limits the circuit's maximum current, and output
transistor safe-area compensation for reducing the output current
as the voltage across the pass transistor is increased.
Although the internal power dissipation is limited, the junction
temperature must be kept below the maximum specified temperature
in order to meet data sheet specifications. To calculate the maximum
junction temperature or heat sink required, the following thermal
resistance values should be used ;
Bypass capacitors are necessary for stable operation of the
KIA79MXX series of regulators over the input voltage and output
current ranges. Output bypass capacitors will improve the transient
response of the regulator.
The bypass capacitors (2.2 F on the input, 1.0 F on the output),
Should be ceramic or solid tantalum which have good high frequency
characteristics. If aluminum electrolytics are used, their values
should be 10 F or larger. The bypass capacitors should be mounted
with the shortest leads, and if possible, directly across the regulator
terminals.
PACKAGE
TO-220
JC ( /W)
6.0
JA ( /W)
62.5
PDMAX =
Tjmax - Ta
JC+ CA
or
= Tjmax - Ta (Without a Heat Sink)
JA
CA= CS+ SA
Solving for TJ :
TJ = TA+PD ( JC+ CA) or
= TA=+PD JA (Without a Heat Sink)
Where
TJ = Junction Temperature
TA = Ambient Temperature
PD = Power Dissipation
JC = Junction to Case Thermal Resistance
CA = Case to Ambient Thermal Resistance
CS = Case to Heak Sink Thermal Resistance
SA = Heat Sink to Ambient Thermal Resistance
JA = Junction to Ambient Thermal Resistance
Fixed Regulator
+ C1 (1)
- 2.2µF
+ C2 (2)
- 1µF
Input
KIA79MXX
Output
(1) Required if regulator is separated from filter capacitor by
more than 3. For value given, capacitor must be solid tantalum.
25 F aluminum electrolytic may be substituted.
(2) Required for stability. For value given, capacitor must be solid
tantalum. 25 F aluminum electrolytic may be substituted.
Values given may be increased without limit.
For output capacitance in excess of 100 F, a high current
diode from input to output (1N4001, etc.) will protect the
regulator from momentary input shorts.
Varlable Output
C1
2.2µF
SOLID
TANTALUM
C3
+ 25µF
-
+
C3 *
- 25µF
INPUT
KIA79MXX
R1
+ C2
1µF
- SOLID
TANTALUM
R2
OUTPUT
* Improves transient response and ripple rejection.
Do not increase beyond 50 F.
R1+R2
VOUT=VSET ( R2 )
Select R2 as follows :
KIA79M05 300
KIA79M08 470
KIA79M12 750
KIA79M15 1k
2002. 8. 29
Revision No : 3
9/9
 

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