GU (General Use) Type
[2-Channel (Form B) Type]
PhotoMOS
RELAYS
5. Controls load currents up to 0.13 A
with an input current of 5 mA
6. High speed switching: operate time
typical of 300
µ
s
7. Eliminates the need for a power sup-
ply to drive the power MOSFET
8. Extremely low closed-circuit offset
voltages to enable control of small an-
alog signals without distortion
9. Surface-mount model available
FEATURES
9.78
.385
6.4
.252
3.9±0.2
.154±.008
6.4
.252
3.6±0.2
.142±.008
1. Approx. 1/2 the space compared
with the mounting of Two 1 Form B
photo MOS units
Two 1 Form B units
9.78
.385
2 Form B type
mm
inch
2. Applicable for 2 Form B use as well
as two independent 1 Form B use
3. Low thermal electromotive force
(Approx. 1
µ
V)
4. Eliminates the need for a counter
electromotive force protection diode in
the drive circuits on the input side
TYPICAL APPLICATIONS
• High-speed inspection machines
• Telephone equipment
• Computer
TYPES
Output rating*
Type
Through hole
terminal
Load
voltage
Load
current
Tube packing style
Part No.
Surface-mount terminal
Tape and reel packing style
Picked from the
Picked from the
1/2/3-pin side
4/5/6-pin side
AQW414AX
AQW414AZ
Packing quantity
Tube
1 tube contains
40 pcs.
1 batch contains
400 pcs.
Tape and reel
AC/DC type
400 V
100 mA
AQW414
AQW414A
1,000 pcs
*Indicate the peak AC and DC values.
Note: For space reasons, the package type indicator "X" and "Z" are omitted from the seal.
RATINGS
1. Absolute maximum ratings (Ambient temperature: 25
°
C
77
°
F)
Item
LED forward current
LED reverse voltage
Peak forward current
Power dissipation
Load voltage
Output
Continuous load current
Symbol
I
F
V
R
I
FP
P
in
V
L
I
L
I
peak
P
out
P
T
V
iso
T
opr
T
stag
AQW414(A)
50 mA
3V
1A
75 mW
400 V
0.1 A (0.13 A)
0.3 A
800 mW
850 mW
1,500 V AC
–40
°
C to +85
°
C
–40
°
F to +185
°
F
–40
°
C to +100
°
C
–40
°
F to +212
°
F
Peak AC, DC
( ): in case of using only 1 channel
100 ms (1 shot), V
L
= DC
Remarks
Input
f = 100 Hz, Duty factor = 0.1%
Peak load current
Power dissipation
Total power dissipation
I/O isolation voltage
Temperature limits
Operating
Storage
Non-condensing at low temperatures
486
AQW414
2. Electrical characteristics (Ambient temperature: 25
°
C
77
°
F)
Item
LED operate (OFF) current
Input
LED reverse (ON) current
LED dropout voltage
On resistance
Output
Off state leakage current
Operate (OFF) time*
Transfer
characteristics
Reverse (ON) time*
I/O capacitance
Initial I/O isolation resistance
Maximum
Maximum
Typical
Maximum
Typical
Maximum
Typical
Maximum
Minimum
I
Leak
T
off
T
on
C
iso
R
iso
Typical
Maximum
Minimum
Typical
Typical
Maximum
Typical
R
on
Symbol
I
Foff
I
Fon
V
F
AQW414(A)
0.7 mA
3 mA
0.4 mA
0.64 mA
1.14 V (1.25 V at I
F
= 50 mA)
1.5 V
26
Ω
50
Ω
1
µ
A
0.46 ms
1 ms
0.40 ms
1 ms
0.8 pF
1.5 pF
1,000 M
Ω
Condition
I
L
= 100 mA
I
L
= 100 mA
I
F
= 5 mA
I
F
= 0 mA
I
L
= 100 mA
Within 1 s on time
I
F
= 5 mA
V
L
= 400 V
I
F
= 0 mA
¨
5 mA
I
L
= 100 mA
I
F
= 5 mA
¨
0 mA
I
L
= 100 mA
f = 1 MHz
V
B
= 0
500 V DC
Note: Recommendable LED forward current I
F
= 5 mA.
*Operate/Reverse time
Input
Output
10%
90%
Toff
Ton
s
For Dimensions, see Page 440.
s
For Schematic and Wiring Diagrams, see Page 445.
s
For Cautions for Use, see Page 449.
REFERENCE DATA
1. Load current vs. ambient temperature char-
acteristics
Allowable ambient temperature: –40
°
C to +85
°
C
–40
°
F to +185
°
F
2. On resistance vs. ambient temperature char-
acteristics
Measured portion: between terminals 5 and 6, 7 and 8;
LED current: 0 mA;
Continuous load current: 100 mA (DC)
60
3. Operate (OFF) time vs. ambient temperature
characteristics
LED current: 5 mA;
Load voltage: 400 V (DC);
Continuous load current: 100 mA (DC)
1.2
Operate (OFF) time, ms
1.0
0.8
0.6
0.4
0.2
0
100
Load current, mA
On resistance,
Ω
80
60
40
20
0
–40
50
40
30
20
10
0
–20
0
20
40
60
8085 100
Ambient temperature,
°C
–40
–20
0
20
40
60
8085
Ambient temperature,
°C
–40
–20
0
20
40
60 8085
Ambient temperature,
°C
487
AQW414
4. Reverse (ON) time vs. ambient temperature
characteristics
LED current: 5 mA; Load voltage: 400 V (DC);
Continuous load current: 100 mA (DC)
1.2
Reverse (ON) time, ms
1.0
0.8
0.6
0.4
0.2
0
5. LED operate (OFF) current vs. ambient tem-
perature characteristics
Load voltage: 400 V (DC);
Continuous load current: 100 mA (DC)
LED operate (OFF) current, mA
5
6. LED reverse (ON) current vs. ambient tem-
perature characteristics
Load voltage: 400 V (DC);
Continuous load current: 100 mA (DC)
5
LED reverse (ON) current, mA
4
4
3
3
2
2
1
1
–40
–20
0
20
40
60 8085
Ambient temperature,
°C
0
–40
–20
0
20
40
60
8085
0
–40
–20
Ambient temperature,
°C
0
20
40
60 8085
Ambient temperature,
°C
7. LED dropout voltage vs. ambient tempera-
ture characteristics
LED current: 5 to 50 mA
1.5
8. Voltage vs. current characteristics of output
at MOS portion
Measured portion: between terminals 5 and 6, 7 and 8;
Ambient temperature: 25
°
C
77
°
F
120
Current, mA
80
60
40
100
9. Off state leakage current
Measured portion: between terminals 5 and 6, 7 and 8;
Ambient temperature: 25
°
C
77
°
F
LED dropout voltage, V
1.4
50mA
30mA
1.3 20mA
10mA
1.2 5mA
1.1
1.0
0
Off state leakage current, A
10
–3
10
–6
20
–6 –5 –4 –3 –2 –1
1 2 3 4 5 6
–20
Voltage, V
–40
–60
–80
–100
10
–9
10
–12
0
20
60
40
80
Load voltage, V
100
–40 –20
0
20 40 60 8085 100
Ambient temperature,
°C
–120
10. LED forward current vs. operate (OFF) time
characteristics
Measured portion: between terminals 5 and 6, 7 and 8;
Load voltage: 400 V (DC);
Continuous load current: 100 mA (DC);
Ambient temperature: 25
°
C
77
°
F
3.0
Operate (OFF) time, ms
11. LED forward current vs. reverse (ON) time
characteristics
Measured portion: between terminals 5 and 6, 7 and 8;
Load voltage: 400 V (DC);
Continuous load current: 100 mA (DC);
Ambient temperature: 25
°
C
77
°
F
1.2
Reverse (ON) time, ms
12. Applied voltage vs. output capacitance
characteristics
Measured portion: between terminals 5 and 6, 7 and 8;
Frequency: 1 MHz;
Ambient temperature: 25
°
C
77
°
F
120
Output capasitance, pF
100
80
60
40
20
0
2.5
2.0
1.5
1.0
0.5
0
1.0
0.8
0.6
0.4
0.2
0
10
20
30
40
50
LED forward current, mA
60
10
20
30
40
50
LED forward current, mA
60
0
10
20
30
40
50
60
Applied voltage, V
488
9/1/2000
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