XC6214
Series
500mA Output Current, High Speed LDO Regulators,
Thermal Shutdown Function, Ceramic Capacitor Compatible
ETR0318_009
■GENERAL
DESCRIPTION
The XC6214 series are highly precise, low noise, high current, positive voltage, low dropout voltage regulators. They are
fabricated using CMOS process. The series features a voltage reference, an error amplifier, a current limiter, a thermal
protection circuit, and a phase compensation circuit plus a driver transistor.
The output voltage is selectable in 1.2V, 1.5V, 1.8V, 2.5V, 3.0V and 3.3V.
The series is also compatible with low ESR ceramic capacitors, which provides stable output voltage. This stability can be
maintained even during load fluctuations due to the excellent transient response.
The over current protection circuit and the thermal shutdown circuit are built in. The over current protection circuit will
operate when the output current reaches limit current. The thermal shutdown circuit will operate when the junction
temperature reaches limit temperature.
■APPLICATIONS
●DVD,
CD-ROM, HDD drive equipment
●Portable
audio visual equipment
(Digital Still Cameras, Video Cameras)
●Wireless
Communication equipment
(Mobile Phones, Cordless phones)
●Desktop
computers, Note book computer, PDAs
●Network
equipment (Wireless LAN)
●Reference
voltage
●Battery
powered equipment
■FEATURES
Maximum Output Current
Dropout Voltage
Operating Voltage Range
Output Voltage
: More than 500mA
(800mA limit)
: 500mV @ I
OUT
= 500mA
(V
OUT
=3.3V)
: 1.8V ~ 6.0V
: 1.2V, 1.5V, 1.8V, 2.5V, 3.0V, 3.3V
(standard)
Other voltages between 1.2V to
5.0V (semi-custom)
: Setting voltage accuracy
±2%
: 8μA (TYP.)
: 40dB @ 1kHz
: - 40℃ ~ 85℃
High Accuracy
Low Power Consumption
Ripple Rejection Rate
Operating Temperature
Current Limit Circuit Built-In
Thermal Shutdown Circuit Built-In
Ceramic Capacitor Compatible
: SOT-89, SOT-26, TO-252
Packages
■TYPICAL
APPLICATION CIRCUIT
■TYPICAL
PERFORMANCE
CHARACTERISTICS
●
Dropout Voltage vs. Output Current
XC6214P332
1.2
1.0
0.8
0.6
0.4
0.2
0.0
0
100
200
300
400
500
Output Current : IOUT (mA)
CIN=CL=1.0μF (ceramic)
CIN=CL=1.0μF(ceramic)
Ta=85
o
C
25
o
C
-40
o
C
V
IN
V
IN
V
SS
V
OUT
C
L
1.0uF
1.0μF
R
L
C
IN
1.0uF
1.0μF
Dropout Voltage : Vdif (V)
1/26
XC6214
Series
■PIN
CONFIGURATION
V
OUT
6
V
SS
5
V
SS
4
1
2
3
1
2
3
V
IN
V
SS
NC
V
SS
V
IN
V
OUT
V
IN
V
SS
V
OUT
SOT-26 (TOP VIEW)
* The 2, 4 and 5 pins of the SOT-26 package
are the common V
SS
pins in the package.
For a heat design, in case of connecting the
heat dissipation pad to a circuit,
Please use the 2, 4, and 5 pins as the V
SS
pin on the PCB board
SOT-89 (TOP VIEW)
TO-252 (TOP VIEW)
■PIN
ASSIGNMENT
PIN NUMBER
SOT-26
1
2, 4, 5
3
6
SOT-89
2
1
-
3
TO-252
1
2
-
3
PIN NAME
V
IN
V
SS
NC
V
OUT
FUNCTIONS
Power Input
Ground
No Connection
Output
■PRODUCT
CLASSIFICATION
●Ordering
Information
XC6214P
①②③④⑤
DESIGNATOR
① ②
③
DESCRIPTION
Output Voltage
Output Voltage Accuracy
SYMBOL
12 ~ 50
2
M
④
Package
P
J
⑤
Device Orientation
R
L
DESCRIPTION
: ex.) 3.0V products
→ ①=3, ②=0
: Within
±2%
ex.) 2.50V products
→ ①=2, ②=5, ③=2
: SOT-26 (Discontinued Products / EOL Plan)
: SOT-89
: TO-252
: Embossed tape, standard feed
: Embossed tape, reverse feed
2/26
XC6214
Series
■BLOCK
DIAGRAM
V
IN
V
OUT
Current Limit
Thermal
Shutdown
+
-
Voltage
Reference
R1
R2
V
SS
* Diodes inside the circuit are ESD protection diodes and parasitic diodes.
■ABSOLUTE
MAXIMUM RATINGS
Ta=25℃
PARAMETER
Input Voltage
Output Current *
Output Voltage
SOT-26
Power Dissipation
SOT-89
TO-252
Operating Temperature Range
Storage Temperature Range
SYMBOL
V
IN
I
OUT
V
OUT
Pd
Topr
Tstg
RATINGS
- 0.3 ~ + 6.5
800 *
V
SS
– 0.3 ~ V
IN
+ 0.3
500
(*1)
500
(*1)
1800
- 40 ~ + 85
- 55 ~ + 125
UNITS
V
mA
V
mW
℃
℃
*
I
OUT
< Pd / (V
IN
– V
OUT
)
*1: Refer to
■POWER
DISSIPATION on Page 9 and 10.
3/26
XC6214
Series
■ELECTRICAL
CHARACTERISTICS
●XC6214P122
PARAMETER
Output Voltage
Maximum Output Current
Load Regulation
Dropout Voltage (*2)
Supply Current
Line Regulation
Input Voltage
Output Voltage
SYMBOL
V
OUT(E)
(*1)
I
OUT
max
△V
OUT
Vdif
I
SS
△V
OUT
△V
IN
・V
OUT
V
IN
I
OUT
=50mA
- 40℃≦ Topr
≦85℃
V
IN
=2.2V, V
OUT
=0V
CONDITIONS
V
IN
=2.2V, I
OUT
=50mA
V
IN
=2.25V, V
OUT
=V
OUT(E)
×0.90
V
IN
=2.2V, 1mA≦I
OUT
≦200mA
I
OUT
=500mA
V
IN
=2.5V
I
OUT
=50mA
2.5V≦V
IN
≦6.0V
MIN.
1.170
500
-
-
-
-
1.8
-
-
TYP.
1.200
-
20
900
8
0.05
-
±100
50
MAX.
1.230
-
50
1350
15
0.20
6.0
-
-
UNITS
V
mA
mV
mV
μA
%
/
V
V
ppm
/℃
mA
Ta=25
℃
CIRCUIT
①
①
①
①
②
①
-
①
①
△V
OUT
V
Temperature Characteristics
△Topr ・
OUT
Short-Circuit Current
NOTE:
Ilim
*1: V
OUT(E)
: Effective output voltage (i.e. the output voltage when “V
OUT(T)+
1.0V” is provided at the V
IN
pin while maintaining a certain I
OUT
value.)
*2: Vdif={V
IN1
(*4)
-V
OUT1
(*3)
}
*3: V
OUT1
= A voltage equal to 98% of the output voltage whenever an amply stabilized I
OUT
{V
OUT(T)+
1.0V} is input.
*4: V
IN1
=The Input Voltage when V
OUT1
appears as input voltage is gradually decreased.
*5: Unless otherwise stated, {V
IN
=V
OUT(T)
+1.0V}
●XC6214P152
PARAMETER
Output Voltage
Maximum Output Current
Load Regulation
Dropout Voltage (*2)
Supply Current
Line Regulation
Input Voltage
Output Voltage
SYMBOL
V
OUT(E)
(*1)
I
OUT
max
△V
OUT
Vdif
I
SS
△V
OUT
△V
IN
・V
OUT
V
IN
I
OUT
=50mA
- 40℃≦ Topr
≦85℃
V
IN
=2.5V, V
OUT
=0V
CONDITIONS
V
IN
=2.5V, I
OUT
=50mA
V
IN
=2.5V, V
OUT
=V
OUT(E)
×0.90
V
IN
=2.5V, 1mA≦I
OUT
≦200mA
I
OUT
=500mA
V
IN
=2.5V
I
OUT
=50mA
2.5V≦V
IN
≦6.0V
MIN.
1.470
500
-
-
-
-
1.8
-
-
TYP.
1.500
-
20
800
8
0.05
-
±100
50
MAX.
1.530
-
50
1200
15
0.20
6.0
-
-
UNITS
V
mA
mV
mV
μA
%
/
V
V
ppm
/℃
mA
Ta=25
℃
CIRCUIT
①
①
①
①
②
①
-
①
①
△V
OUT
V
Temperature Characteristics
△Topr ・
OUT
Short-Circuit Current
NOTE:
Ilim
*1: V
OUT(E)
: Effective output voltage (i.e. the output voltage when “V
OUT(T)+
1.0V” is provided at the V
IN
pin while maintaining a certain I
OUT
value.)
*2: Vdif={V
IN1
(*4)
-V
OUT1
(*3)
}
*3: V
OUT1
= A voltage equal to 98% of the output voltage whenever an amply stabilized I
OUT
{V
OUT(T)+
1.0V} is input.
*4: V
IN1
=The Input Voltage when V
OUT1
appears as input voltage is gradually decreased.
*5: Unless otherwise stated, {V
IN
=V
OUT(T)
+1.0V}
4/26
XC6214
Series
■ELECTRICAL
CHARACTERISTICS (Continued)
●XC6214P182
PARAMETER
Output Voltage
Maximum Output Current
Load Regulation
Dropout Voltage (*2)
Supply Current
Line Regulation
Input Voltage
SYMBOL
V
OUT(E)
(*1)
I
OUT
max
△V
OUT
Vdif
I
SS
△V
OUT
△V
IN・
V
OUT
CONDITIONS
V
IN
=2.8V, I
OUT
=50mA
V
IN
=2.85V, V
OUT
=V
OUT(E)
×0.90
V
IN
=2.8V, 1mA≦I
OUT
≦200mA
I
OUT
=500mA
V
IN
=2.8V
I
OUT
=50mA
2.8V≦V
IN
≦6.0V
I
OUT
=50mA
- 40℃
≦
Topr
≦85℃
V
IN
=2.8V, V
OUT
=0V
MIN.
1.764
500
-
-
-
-
1.8
-
-
TYP.
1.800
-
20
700
8
0.05
-
±100
50
MAX.
1.836
-
50
1050
15
0.20
6.0
-
-
UNITS
V
mA
mV
mV
μA
%
/
V
V
ppm
/℃
mA
Ta=25
℃
CIRCUIT
①
①
①
①
②
①
-
①
①
V
IN
△V
OUT
Output Voltage
Temperature Characteristics
△Topr・V
OUT
Short-Circuit Current
NOTE:
Ilim
*1: V
OUT(E)
: Effective output voltage (i.e. the output voltage when “V
OUT(T)+
1.0V” is provided at the V
IN
pin while maintaining a certain I
OUT
value.)
*2: Vdif={V
IN1
(*4)
-V
OUT1
(*3)
}
*3: V
OUT1
= A voltage equal to 98% of the output voltage whenever an amply stabilized I
OUT
{V
OUT(T)+
1.0V} is input.
*4: V
IN1
=The Input Voltage when V
OUT1
appears as input voltage is gradually decreased.
*5: Unless otherwise stated, {V
IN
=V
OUT(T)
+1.0V}
●XC6214P252
PARAMETER
Output Voltage
Maximum Output Current
Load Regulation
Dropout Voltage (*2)
Supply Current
Line Regulation
Input Voltage
SYMBOL
V
OUT(E)
(*1)
I
OUT
max
△V
OUT
Vdif
I
SS
△V
OUT
△V
IN
・V
OUT
CONDITIONS
V
IN
=3.5V, I
OUT
=50mA
V
IN
=3.5V, V
OUT
=V
OUT(E)
×0.93
V
IN
=3.5V, 1mA≦I
OUT
≦200mA
I
OUT
=500mA
V
IN
=3.5V
I
OUT
=50mA
3.5V≦V
IN
≦6.0V
I
OUT
=50mA
- 40℃≦Topr
≦85℃
V
IN
=3.5V, V
OUT
=0V
MIN.
2.450
500
-
-
-
-
1.8
-
-
TYP.
2.500
-
20
600
8
0.05
-
+ 100
50
MAX.
2.550
-
50
900
15
0.20
6.0
-
-
UNITS
V
mA
mV
mV
μA
%
/
V
V
ppm
/℃
mA
Ta=25
℃
CIRCUIT
①
①
①
①
②
①
-
①
①
V
IN
△V
OUT
Output Voltage
Temperature Characteristics
△Topr・V
OUT
Short-Circuit Current
NOTE:
Ilim
*1: V
OUT(E)
: Effective output voltage (i.e. the output voltage when “V
OUT(T)+
1.0V” is provided at the V
IN
pin while maintaining a certain
I
OUT
value.)
*2: Vdif={V
IN1
(*4)
-V
OUT1
(*3)
}
*3: V
OUT1
= A voltage equal to 98% of the output voltage whenever an amply stabilized I
OUT
{V
OUT(T)+
1.0V} is input.
*4: V
IN1
=The Input Voltage when V
OUT1
appears as input voltage is gradually decreased.
*5: Unless otherwise stated, {V
IN
=V
OUT(T)
+1.0V}
5/26
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