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XC6119 Series
PARAMETER SYMBOL CONDITIONS MIN. TYP. MAX. UNIT CIRCUIT
Operating Voltage V
IN
V
DF(T)
=0.8~5.0V
(*1)
0.7 6.0 V -
Detect Voltage V
DF
V
DF(T)
=0.8~5.0V E-1 V ①
Hysteresis Width V
HYS
V
IN
=1.0~6.0V
V
DF
×0.02
V
DF
×0.05
V
DF
×0.08
V ①
Supply Current 1 I
SS1
V
IN
=V
DF
×0.9
V
DF(T)
=0.8~1.9V
V
DF(T)
=2.0~3.9V
V
DF(T)
=4.0~5.0V
0.5
0.6
0.7
1.2
1.3
1.4
μA ②
Supply Current 2 I
SS2
V
IN
=V
DF
×1.1
V
DF(T)
=0.8~1.9V
V
DF(T)
=2.0~3.9V
V
DF(T)
=4.0~5.0V
0.9
1.1
1.2
1.8
2.0
2.2
μA ②
V
IN
=0.7V
V
DS
=0.5V(Nch)
0.01
0.36
V
IN
=1.0V(※2)
V
DS
=0.5V(Nch)
0.1
0.7
V
IN
=2.0V(※3)
V
DS
=0.5V(Nch)
0.8
1.6
V
IN
=3.0V(※4)
V
DS
=0.5V(Nch)
1.2
2.0
I
OUT1
V
IN
=4.0V(※5)
V
DS
=0.5V(Nch)
1.6
2.3
mA ③
Output Current
I
OUT2
(*6)
V
IN
=VDF×1.1
V
DS
=0.5V(Pch)
E-2 mA ④
CMOS output
(P-ch)
V
IN
= V
DF
×
0.9V, V
OUT
= 0V,
Cd: Open
-0.20
Leakage
Current
N-ch Open
Drain Output
I
LEAK
V
IN
= 6.0V, V
OUT
= 6.0V,
Cd: Open
0.20 0.40
μA
③
Temperature
Characteristics
ΔV
DF
/
(ΔTa・
V
DF
)
-40
o
C≦T
a
≦85
o
C ±100
ppm/
o
C
①
Delay Resistance
(*7)
R
DELAY
V
IN
=6.0V, Cd=0V 1.6 2.0 2.4 MΩ ⑤
Delay Pin Sink Current I
CD
Cd=0.5V, V
IN
=0.7V 8 60 μA ⑤
V
IN
=1.0V 0.4 0.5 0.6
Delay Capacitance Pin
Threshold Voltage
V
TCD
V
IN
=6.0V 2.9 3.0 3.1
V ⑥
Unspecified Operating
Voltage
(*8)
V
UNS
V
IN
=0~0.7V 0.3 0.4 V ⑦
Detect Delay Time
(*9)
t
DF0
V
IN
=6.0→0.7V
Cd: Open
30 230 μs ⑧
Detect Delay Time
(*9)
t
DR0
V
IN
=0.7V→6.0V
Cd: Open
30 200 μs ⑧
■ELECTRICAL CHARACTERISTICS
Ta=2 5℃
NOTE:
*1: V
DF(T): Setting Detect Voltage
*2: V
DF(T)>1.0V
*3: V
DF(T)>2.0V
*4: V
DF(T)>3.0V
*5: V
DF(T)>4.0V
*6: This numerical value is applied only to the XC6119C series (CMOS output).
*7: Calculated from the voltage value and the current value of both ends of the resistor.
*8: The maximum voltage of the V
OUT in the range of the VIN 0 to 0.7V. This numerical value is applied only to the XC6119C series
(CMOS output).
*9: Time which ranges from the state of V
IN =VDF to the VOUT reaching 0.6V when the VIN falls without connecting to the Cd pin.
*10: Time which ranges from the state of V
IN= VDF +VHYS to the VOUT reaching 5.4V when the VIN rises without connecting to the Cd
pin.