KIA378R12PI - Korea Electronics

2001. 6. 28 1/7

SEMICONDUCTOR

TECHNICAL DATA

KIA378R05PI~KIA378R15PI

BIPOLAR LINEAR INTEGRATED CIRCUIT

Revision No : 1

4 TERMINAL 3A OUTPUT LOW DROP

VOLTAGE REGULATOR

The KIA378Rᴧᴧ Series are Low Drop Voltage

Regulator suitable for various electronic equipments.

It provides constant voltage power source with TO-220

4 terminal lead full molded PKG.

The Regulator has multi function such as over current

protection, overheat protection and ON/OFF control.

FEATURES

ᴌ3.0A Output Low Drop Voltage Regulator.

ᴌBuilt in ON/OFF Control Terminal.

ᴌBuilt in Over Current Protection, Over Heat

Protection Function.

LINE UP

A

F

J

L

D

M

1234

1

2

3

4

DC INPUT (V )

DC OUTPUT (V )

GND

ON/OFF CONTROL

IN

O

DIM MILLIMETERS

TO-220IS-4

10.00 0.20

15.00 0.20

2.70 0.20

0.60 0.10

Φ3.20 0.20

3.50 0.10

A

B

C

D

E

F

G15.70 0.20

0.40 0.10

H

14.3+0.2/-0.1

1.45 0.10

1.00 0.10

2.54

4.50 0.20

7.5 0.1

1.50 0.10

J

K

L

M

N

O

P

S

R

8

5

B

C

E

G

H

LVV

U

T

K

N

O

R

S

P

+

_

+

_

+

_

1.30 0.1

3-1.00 0.1

1.30 0.1

T

U

V

+

_

+

_

+

_

+

_

+

_

+

_

+

_

+

_

+

_

+

_

+

_

+

_

+

_

MAXIMUM RATING (Ta=25ᴱ)

ITEM OUTPUT VOLTAGE (Typ.) UNIT

* KIA378R05PI 5

V

* KIA378R06PI 6

* KIA378R08PI 8

* KIA378R09PI 9

* KIA378R10PI 10

* KIA378R12PI 12

* KIA378R15PI 15

CHARACTERISTIC SYMBOL RATING UNIT Remark

Input Voltage VIN 35 V -

ON/OFF Control Voltage VC35 V -

Output Current IO3 A -

Power Dissipation 1 Pd1 1.5 W No heatsink

Power Dissipation 2 Pd2 15 W with heatsink

Junction Temperature Tj125 ᴱ-

Operating Temperature Topr -20ᴕ80 ᴱ-

Storage Temperature Tstg -30ᴕ125 ᴱ-

Soldering Temperature (10sec) Tsol 260 ᴱ-

Note) * : Under Development.

2001. 6. 28 2/7

KIA378R05PI~KIA378R15PI

Revision No : 1

OVER HEAT

PROTECTION

CONTROL

OUTPUT ON/OFF

ASO

PROTECTION

BANDGAP

REFERENCE

-

+

1

4

2

3

V

o

V

IN

Control

GND

ELECTRICAL CHARACTERISTICS (Ta=25ᴱ)

(Unless otherwise specified, IO=1.0A, Ta=25ᴱ, Note1.)

Note1) VIN of KIA378R05=7V Note2) VIN of KIA378R05=6ᴕ12V Note3) At VIN=0.95VO

" KIA378R06=8V " KIA378R06=7ᴕ15V

" KIA378R08=10V " KIA378R08=9ᴕ25V

" KIA378R09=15V " KIA378R09=10ᴕ25V

" KIA378R10=16V " KIA378R10=11ᴕ26V

" KIA378R12=18V " KIA378R12=13ᴕ29V

" KIA378R15=21V " KIA378R15=16ᴕ32V

BLOCK DIAGRAM

CHARACTERISTIC SYMBOL CONDITIONS MIN. TYP. MAX. UNIT

Output Voltage

KIA378R05

VO

- 4.88 5.0 5.12

V

KIA378R06 - 5.85 6.0 6.15

KIA378R08 - 7.80 8.0 8.2

KIA378R09 - 8.78 9.0 9.22

KIA378R10 - 9.75 10.0 10.25

KIA378R12 - 11.70 12.0 12.30

KIA378R15 - 14.70 15.0 15.30

Load Regulation Reg Load IO=5mAᴕ3A - 0.1 2.0 %

Line Regulation Reg Line (Note 2) - 0.5 2.5 %

Temperature Coefficient of Output Voltage TCVOTj=0ᴕ125ᴱ-ᴦ0.02 ᴦ0.05 %/ᴱ

Ripple Rejection RᴌR- 45 55 - dB

Drop Out Voltage VDIO=3A - - 0.5 V

Output ON state for control Voltage VC(ON) - 2.0 - - V

Output ON state for control Current IC(ON) VC=2.7V - - 20 ỌA

Output OFF state for control Voltage VC(OFF) - - - 0.8 V

Output OFF state for control Current IC(OFF) VC=0.4V - - -0.4 mA

Quiescent Current IQIO=0 - - 10 mA

2001. 6. 28 3/7

KIA378R05PI~KIA378R15PI

Revision No : 1

12

3

4

A

V

0.33µF

IIR

I

qcL

o

Vo

c

V

VIN 47µF

Fig. 1 Standard Test Circuit

KIA378RXXPI

Specific IC

4

1

3

2

ON/OFF

signal

Co

Load

Vo

High or Open:Output ON

Low :Output OFF

CMOS or TTL

IN

V

Fig. 2 Application Circuit for Standard

12

3V

0.33µF

RLeo

VIN

47µF

Fig. 1-2 Ripple Rejection Test Circuit

ei

f=120Hz(sine wave)

ei=0.5Vrms

RR=20log(ei/eo)

KIA378RXXPI

4

2001. 6. 28 4/7

KIA378R05PI~KIA378R15PI

Revision No : 1

o

OUTPUT VOLTAGE DEVIATION V (mV)

-100

-25

JUNCTION TEMPERATURE T ( C)

j

jo

Fig.5-1 T - V (KIA378R05)

0 25 50 75 100 125

-50

0

50

100

150

V =7V

I =1.5A

IN

O

j

JUNCTION TEMPERATURE T ( C)

Fig.5-3 T - V (KIA378R09)

-150

OUTPUT VOLTAGE DEVIATION V (mV)

o

O

V =15V

I =1.5A

-25

IN

0755025

jo

100 125

-100

-50

0

50

100

150

200

-150

O

V =10V

I =1.5A

-25

IN

0755025 100 125

-100

-50

0

50

100

150

200

RELATIVE OUTPUT VOLTAGE (%)

OUTPUT CURRENT I (A)

O

Fig.4 I - VOO

OUTPUT VOLTAGE DEVIATION V (mV)

JUNCTION TEMPERATURE T ( C)

j

Fig.5-4 T - V (KIA378R12)

o

jo

OUTPUT VOLTAGE DEVIATION V (mV)

JUNCTION TEMPERATURE T ( C)

j

Fig.5-2 T - V (KIA378R08)

o

jo

D

POWER DISSIPATION P (W)

AMBIENT TEMPERATURE Ta ( C)

Fig.3 Ta - P

Note) Oblique line portion : Overheat

protection may operate in this

area.

D

0

-25 0 50 100 150

5

10

15

20

P 1:No heat sink

p 2:With infinite heat sink

D

P 1

P 2

D

-150

-25

-200

02550

I =1.5A

V =18V

100

-50

-100

50

0

200

150

250

O

IN

10075 125

0

012 34 567

20

40

60

80

100

2001. 6. 28 5/7

KIA378R05PI~KIA378R15PI

Revision No : 1

o

OUTPUT VOLTAGE V (V)

0

INPUT VOLTAGE V (V)

IN

Fig.6-3 V -V (KIA378R09)

51015

5

10

R =

R =4.5Ω

R =3Ω

L

Fig.6-4 V -V (KIA378R12)

INPUT VOLTAGE V (V)

L

R =4Ω

OUTPUT VOLTAGE V (V)

0

o

20

R =

L

R =6Ω

L

IN

5 10152025

5

10

15

IN

OUTPUT VOLTAGE V (V)

INPUT VOLTAGE V (V)

0

5 101520

IN

25

Fig.6-5 V -V (KIA378R15)

o

R =7.5Ω

5

10

L

15

20

R =5Ω

L

R =

IN

Fig.5-5 T - V (KIA378R15)

JUNCTION TEMPERATURE T ( C)

-150

OUTPUT VOLTAGE DEVIATION V (mV)

-25

-200

02550

o

j

I =1.5A

V =21V

100

-50

-100

50

0

200

150

250

O

IN

o

100

j

75 125

OUTPUT VOLTAGE V (V)

R =

INPUT VOLTAGE V (V)

1

0

3

2

5

4

2

L

R =2.5Ω

L

4

L

R =1.7Ω

IN

68

Fig.6-1 V - V (KIA378R05)

o

7

6

8

IN o

OUTPUT VOLTAGE V (V)

INPUT VOLTAGE V (V)

0

5

510

IN

15

Fig.6-2 V -V (KIA378R08)

o

10

IN

L

R =

R =2.7Ω

L

10

R =4Ω

L

o

o o

o

2001. 6. 28 6/7

KIA378R05PI~KIA378R15PI

Revision No : 1

INPUT VOLTAGE V (V)

L

R =2.5Ω

CIRCUIT OPERATING CURRENT I (mA)

0

BIAS

R =

L

5

R =1.7Ω

L

IN

10

Fig.7-1 V -I (KIA378R05)

IN BIAS

10

20

30

40

R =

INPUT VOLTAGE V (V)

0

IN

Fig.7-2 V -I (KIA378R08)

10

20

30

40

IN BIAS

L

51015

CIRCUIT OPERATING CURRENT I (mA)

BIAS

L

R =4Ω

R =2.7Ω

L

CIRCUIT OPERATING CURRENT I (mA)

R =

INPUT VOLTAGE V (V)

0

L

IN

Fig.7-4 V - I (KIA378R12)

10

20

BIAS

30

40

IN BIAS

R =4Ω

L

5 10152025

R =6Ω

L

R =4Ω

L

R =

L

Fig.8 T - V

JUNCTION TEMPERATURE T ( C)

0

-25

DROPOUT VOLTAGE V (V)

D

j

I =3A

O

D

j

0 25 50 75 100 125

0.1

0.2

0.3

0.4

0.5

I =2A

O

I =1A

O

I =0.5A

O

R =6Ω

L

Fig.7-5 V - I (KIA378R15)

R =5Ω

INPUT VOLTAGE V (V)

CIRCUIT OPERATING CURRENT I (mA)

0

10

5

L

40

BIAS

30

20

R =7.5Ω

R =

L

20

R =5Ω

10

IN

15

L

R =

R =7.5Ω

L

25

BIAS

IN

Fig.7-3 V - I (KIA378R09)

INPUT VOLTAGE V (V)

CIRCUIT OPERATING CURRENT I (mA)

0

10

20

BIAS

30

40

10

5

IN

15

R =

L

R =3Ω

R =4.5Ω

L

BIAS

IN

2001. 6. 28 7/7

KIA378R05PI~KIA378R15PI

Revision No : 1

Fig.9 T - I

JUNCTION TEMPERATURE T ( C)

0

-25

QUIESCENT CURRENT I (mA)

q

j

q

j

0 25 50 75 100 125

2

4

6

8

10

V =35V

I =0

IN

O

Fig. 10-1 f - RR

INPUT RIPPLE FREQUENCY f (kHz)

0.1

0

RIPPLE REJECTION RR (dB)

10

20

30

40

50

60

70

80

110100

I =0.5A,ei=0.5V

V =7V(KIA378R05)

O

IN

rms

V =15V(KIA378R09)

IN

V =18V(KIA378R12)

IN

RIPPLE REJECTION RR (dB)

OUTPUT CURRENT I (A)

V =18V(KIA378R12)

V =15V(KIA378R09)

V =7V(KIA378R05)

C =3.3µF

0.1

20

IN

ref

rms

Fig.10-2 I - RR

O

f=120Hz,ei=0.5V

0.5 1.0 1.5 2.0

30

40

50

60

70

V =21V(KIA378R15)

IN

V =21V(KIA378R15)

IN

V =10V(KIA378R08)

IN

V =10V(KIA378R08)

IN