XC6214
Series
■ELECTRICAL
CHARACTERISTICS (Continued)
●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}
●XC6214P302
(Under development)
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
=4.0V, I
OUT
=50mA
V
IN
=4.0V, V
OUT
=V
OUT(E)
×0.96
V
IN
=4.3V, 1mA≦I
OUT
≦200mA
I
OUT
=500mA
V
IN
=4.0V
I
OUT
=50mA
4.0V≦V
IN
≦6.0V
I
OUT
=50mA
- 40℃≦Topr
≦85℃
V
IN
=4.0V, V
OUT
=0V
MIN.
2.940
500
-
-
-
-
1.8
-
-
TYP.
3.000
-
20
560
8
0.05
-
+ 100
50
MAX.
3.060
-
50
820
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}
8