(Standard type)
TESTING
VDE
(Reinforced type)
GU (General Use)-E Type
[1-Channel (Form A) Type]
PhotoMOS
RELAYS
6. Stable on resistance
7. Low-level off state leakage current
8. Eliminates the need for a power sup-
ply to drive the power MOSFET
A power supply used to drive the power
MOSFET is unnecessary because of the
built-in optoelectronic device. This results
in easy circuit design and small PC board
area.
9. Low thermal electromotive force
(Approx. 1
µ
V)
FEATURES
8.8±0.05
.346±.002
6.4±0.05
.252±.002
3.9±0.2
.154±.008
6.4±0.05
.252±.002
3.6±0.2
.142±.008
8.8±0.05
.346±.002
mm
inch
1
2
3
6
5
4
1. Controls low-level analog signals
PhotoMOS relays feature extremely low
closed-circuit offset voltage to enable
control of low-level analog signals without
distortion.
2. Control with low-level input signals
3. Controls various types of loads such
as relays, motors, lamps and sole-
noids.
4. Optical coupling for extremely high
isolation
Unlike mechanical relays, the PhotoMOS
relay combines LED and optoelectronic
device to transfer signals using light for
extremely high isolation.
5. 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
• Data communication equipment
• Computer
TYPES
Part No.
Output rating*
Type
I/O isolation
Load
voltage
Standard 1,500 V AC
AC/DC
Reinforced 5,000 V
350 V
400 V
350 V
400 V
Load
current
130 mA
120 mA
130 mA
120 mA
Through hole
terminal
Tube packing style
AQV210E
AQV214E
AQV210EH
AQV214EH
AQV210EA
AQV214EA
AQV210EHA
AQV214EHA
Surface-mount terminal
Tape and reel packing style
Picked from the Picked from the
1/2/3-pin side
4/5/6-pin side
AQV210EAX
AQV210EAZ
AQV214EAX
AQV210EHAX
AQV214EHAX
AQV214EAZ
AQV210EHAZ
AQV214EHAZ
Packing quantity
Tube
1 tube contains
50 pcs.
1 batch contains
500 pcs.
Tape and reel
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.
RATING
1. Absolute maximum ratings (Ambient temperature: 25
°
C
77
°
F)
Item
LED forward current
LED reverse voltage
Peak forward current
Power dissipation
Load voltage (peak AC)
Continuous load current
Output
Peak load current
Power dissipation
Total power dissipation
I/O isolation voltage
Operating
Temperature limits
Storage
I
peak
P
out
P
T
V
iso
T
opr
T
stg
Type of
Sym-
connec-
bol
tion
I
F
V
R
I
FP
P
in
V
L
A
I
L
B
C
AQV210E(A)
AQV214E(A)
AQV210EH(A)
AQV214EH(A)
Remarks
Input
50 mA
3V
1A
75 mW
350 V
0.13 A
0.15 A
0.17 A
0.4 A
400 V
0.12 A
0.13 A
0.15 A
0.3 A
500 mW
550 mW
1,500 V AC
5,000 V AC
–40
°
C to +85
°
C
–40
°
F to +185
°
F
–40
°
C to +100
°
C
–40
°
F to +212
°
F
350 V
0.13 A
0.15 A
0.17 A
0.4 A
400 V
0.12 A
0.13 A
0.15 A
0.3 A
f = 100 Hz, Duty factor = 0.1%
A connection: Peak AC, DC;
B, C connection: DC
A connection: 100 ms (1 shot),
V
L
=DC
Non-condensing at low temp.
1
AQV21
r
E
2. Electrical characteristics (Ambient temperature: 25
°
C
77
°
F)
Item
LED operate current
Input
LED turn off current
LED dropout voltage
Typical
Maximum
Minimum
Typical
Typical
Maximum
Typical
R
on
Maximum
Typical
On resistance
Maximum
Output
Typical
R
on
Maximum
Output capacitance
Typical
C
out
—
T
on
T
off
C
iso
R
iso
A
—
—
—
—
—
0.5 ms
2.0 ms
0.5 ms
2.0 ms
0.05 ms
1.0 ms
0.8 pF
1.5 pF
1,000 M
Ω
C
R
on
B
A
Type of
Sym-
connec-
bol
tion
I
Fon
I
Foff
V
F
—
—
—
23
Ω
35
Ω
11.5
Ω
17.5
Ω
6.0
Ω
8.8
Ω
AQV210E(A)
1.1 mA
0.3 mA
1.0 mA
AQV214E(A)
1.1 mA
3 mA
0.3 mA
0.4 mA
1.0 mA
1.5 mA
1.14 V (1.25 V at I
F
= 50 mA)
1.5 V
30
Ω
50
Ω
22.5
Ω
25
Ω
11.3
Ω
12.5
Ω
45 pF
1
µ
A
0.7 ms
2.0 ms
0.7 ms
2.0 ms
23
Ω
35
Ω
11.5
Ω
17.5
Ω
6.0
Ω
8.8
Ω
0.4 mA
1.5 mA
AQV210EH(A)
1.6 mA
AQV214EH(A)
1.6 mA
Condition
I
L
= Max.
I
L
= Max.
I
F
= 5 mA
30
Ω
50
Ω
22.5
Ω
25
Ω
11.3
Ω
12.5
Ω
I
F
= 5 mA
I
L
= Max.
Within 1 s on time
I
F
= 5 mA
I
L
= Max.
Within 1 s on time
I
F
= 5 mA
I
L
= Max.
Within 1 s on time
I
F
= 0
V
B
= 0
f = 1 MHz
I
F
= 0
V
L
= Max.
I
F
= 5 mA**
l
L
=Max.
I
F
= 5 mA
I
L
= Max.
f = 1 MHz
V
B
= 0
500 V DC
Off state leakage cur-
Maximum
rent
Switching
speed
Transfer
characteristics
Turn on
time*
Turn off
time*
Typical
Maximum
Typical
Maximum
Typical
Maximum
Minimum
I/O capacitance
Initial I/O isolation
resistance
Note: Recommendable LED forward current
Standard type: 5 mA
Reinforced type: 5 to 10 mA
*Turn on/Turn off time
For type of connection, see page 31.
Input
90%
Output
Ton
Toff
10%
REFERENCE DATA
1. Load current vs. ambient temperature char-
acteristics
Allowable ambient temperature: –40
°
C to +85
°
C
–40
°
F to +185
°
F
Type of connection:A
140
120
Load current, mA
100
80
60
40
10
20
0
–40 –20
0
20
40
60 80 100
85
Ambient temperature,
°C
0
0.4
AQV214E
AQV210E (H)
AQV214E (H)
On resistance,
Ω
2. On resistance vs. ambient temperature char-
acteristics
Measured portion: between terminals 4 and 6;
LED current: 5 mA; Load voltage: Max. (DC);
Continuous load current: Max. (DC)
50
AQV214E (H)
3. Turn on time vs. ambient temperature char-
acteristics
LED current: 5 mA;
Load voltage: Max. (DC);
Continuous load current: Max. (DC)
2.0
30
Turn on time, ms
40
1.6
AQV210EH, AQV214EH
AQV210E (H)
1.2
20
0.8
AQV210E
–40
–20
0
20
40
60
8085
Ambient temperature,
°C
0
–40
–20
0
20
40
60
8085
Ambient temperature,
°C
2
AQV21
r
E
4. Turn off time vs. ambient temperature char-
acteristics
LED current: 5 mA; Load voltage: Max. (DC);
Continuous load current: Max. (DC)
0.4
LED operate current, mA
5. LED operate current vs. ambient tempera-
ture characteristics
Load voltage: Max. (DC);
Continuous load current: Max. (DC)
5
6. LED turn off current vs. ambient temperature
characteristics
Load voltage: Max. (DC);
Continuous load current: Max. (DC)
5
LED turn off current, mA
4
4
Turn off time, ms
0.3
3
AQV210EH, AQV214EH
3
AQV210EH, AQV214EH
2
0.2
2
AQV210E,AQV214E
0.1
AQV210E
0
–40
–20
AQV214E
AQV210EH, AQV214EH
1
1
AQV210E,AQV214E
0
20
40
60
8085
Ambient temperature,
°C
0
–40
–20
0
20
40
60
8085
Ambient temperature,
°C
0
–40
–20
0
20
40
60
8085
Ambient temperature,
°C
7. LED dropout voltage vs. ambient tempera-
ture characteristics
Sample: All types
LED current: 5 to 50 mA
1.5
LED dropout voltage, V
1.4
1.3
50mA
1.2
1.1
1.0
0
–40
–20
0
20
40
60 80 85
Ambient temperature,
°C
30mA
20mA
10mA
5mA
8. Voltage vs. current characteristics of output
at MOS portion
Measured portion: between terminals 4 and 6;
Ambient temperature: 25
°
C
77
°
F
140
120
100
80
60
40
20
–3 –2 –1
Curremt, mA
1
–20
–40
–60
–80
–100
–120
–140
AQV210E(H)
9. Off state leakage current
Measured portion: between terminals 4 and 6;
Ambient temperature: 25
°
C
77
°
F
AQV214E(H)
Off state leakage current, A
10
–3
10
–6
–5 –4
2 3 4
Voltage, V
5
10
–9
AQV214E(H)
AQV210E(H)
10
–12
0
20
40
80
60
Load voltage, V
100
10-(1). LED forward current vs. turn on time
characteristics
Measured portion: between terminals 4 and 6;
Load voltage: Max. (DC); Continuous load current:
Max. (DC); Ambient temperature: 25
°
C
77
°
F
1.4
1.2
Turn on time, ms
1.0
0.8
0.6
0.4
AQV214E
AQV210E
10-(2). LED forward current vs. turn on time
characteristics
Measured portion: between terminals 4 and 6;
Load voltage: Max. (DC); Continuous load current:
Max. (DC); Ambient temperature: 25
°
C
77
°F
2.5
11-(1). LED forward current vs. turn off time
characteristics
Measured portion: between terminals 4 and 6;
Load voltage: Max. (DC); Continuous load current:
Max. (DC); Ambient temperature: 25°C
77°F
0.10
2.0
Turn on time, ms
Turn off time, ms
0.08
1.5
0.06
AQV214E
1.0
0.04
AQV210E
0.5
0.2
0
0
10
AQV210EH, AQV214EH
0.02
0
10
50
20
30
40
LED forward current, mA
60
50
20
30
40
LED forward current, mA
60
10
50
20
30
40
LED forward current, mA
11-(2). LED forward current vs. turn off time
characteristics
Measured portion: between terminals 4 and 6;
Load voltage: Max. (DC); Continuous load current:
Max. (DC); Ambient temperature: 25°C
77°F
0.25
12. Applied voltage vs. output capacitance
characteristics
Measured portion: between terminals 4 and 6;
Frequency: 1 MHz;
Ambient temperature: 25°C
77°F
50
Output capacitance, pF
0.20
Turn off time, ms
40
0.15
30
0.10
AQV210EH, AQV214EH
0.05
0
20
10
10
50
20
30
40
LED forward current, mA
0
0
10
20
30
40
Applied voltage, V
50
5/7/2001
118
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