ISSUED DATE :2005/11/09
REVISED DATE :
G5M62GR-30 V
OUT
(T) =3.0V
(Note1)
Parameter
Symbol
V
OUT
(E)
Output Voltage
(Note2)
Condition
V
IN
=4.0V, I
OUT
=40mA
V
IN
=4V, V
OUT
(E) 2.7V
V
IN
=4V, I
OUT
=1mA to 80mA
I
OUT
=80mA
I
OUT
=160mA
V
IN
=V
CE
=4V
V
IN
=4V, V
CE
=V
SS
I
OUT
=40mA
V
IN
=4V to 10V
Min
150
-
-
-
-
-
-
-
TYP
-
45
200
380
11
-
0.2
-
±100
-
-
-
-0.05
Max
-
90
395
770
19
0.1
0.3
10
-
-
0.25
5.0
0
Unit
V
mA
mV
mV
A
A
%/V
V
ppm/ :
V
V
A
A
Circuit
2.940 3.000 3.060
1
1
1
1
1
2
2
1
-
Max. Output Current
Load Stability
Input-Output
Voltage Differential
Supply Current1
Supply Current2
Input Stability
Input Voltage
Output Voltage
Temperature
Characteristics
CE Input Voltage “High”
CE Input Voltage “Low”
CE Input Current “High”
CE Input Current “Low”
(Note3)
I
OUT max
V
OUT
V
dif1
V
dif2
I
SS
1
I
SS
2
V
OUT
V
IN*
V
OUT
V
IN
V
OUT
Topr
*
V
OUT
V
CEH
V
CEL
I
CEH
I
CEL
I
OUT
=10mA
-30 : Topr 85 :
-
1.5
-
1
1
2
2
V
CE
=V
IN
V
CE
=V
SS
-
-0.2
Note 1: V
OUT
(T) =Specified Output Voltage.
2: 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).
(Note5)
(Note4)
3: Vdif={V
IN
1
-V
OUT
1
}
4: V
OUT
1=A voltage equal to 98% of the Output Voltage whenever an amply stabilized I
OUT {
V
OUT
(T)+1.0V} is input.
5: V
IN
1=The input voltage when V
OUT
1appears as input voltage is gradually decreased.
Test Circuit
Circuit1
Circuit2
G5M62GR
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