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AQ-J
2) Output side
Item
Output arrangement
Max. load current* 1
Part No.
AQJ112VY
AQJ119VY
AQJ116VY
10A
1a
AQJ412VY
AQJ419VY
AQJ416VY
20A
AQJ112VW
AQJ119VW
AQJ116VW
10A
1a × 2
AQJ412VW
AQJ419VW
AQJ416VW
15A
Load voltage
Frequency
75 to 264V AC
45Hz to 65Hz
Non-repetitive surge current* 2
100A
250A
100A
250A
“OFF-state” leakage current
“ON-state” voltage drop
Min. load current* 3
Max. 5mA
Max. 1.6V
50mA
Notes: *1. Refer to REFERENCE DATA “3. Input current vs. input voltage characteristics”.
*2. Refer to REFERENCE DATA “1. Load current vs. ambient temperature”.
*3. When the load current is less than the rated minimum load current, please refer to “Cautions for Use”.
3. Characteristics (Measurement condition: at 20 ° C 68 ° F , input ripple: 1% or less)
Operate time
Release time
Insulation resistance
Breakdown voltage
Vibration resistance
Shock resistance
Ambient temperature
Storage temperature
Operational method
Item
Characteristics
Max. 1/2 cycle of voltage sine wave + 1ms
Max. 1/2 cycle of voltage sine wave + 1ms
Min. 100M ? between input, output and case
3,000 Vrms between input and output
2,500 Vrms between input, output and case
SSR stand-alone: 10 to 55Hz, double amplitude of 1.5mm
Slim heat sink combined type: 10 to 55Hz, double amplitude of 0.75mm
SSR stand-alone: Min. 980m/s 2
Slim heat sink combined type: Min. 197m/s 2
–30 to +80 ° C –22 to +176 ° F
–30 to +100 ° C –22 to +212°F
Zero-cross (Turn ON and Turn OFF)
Remarks
at 500 V DC
for 1min.
X, Y, Z axes
X, Y, Z axes
Non-condensing at low temperatures
REFERENCE DATA
(1) AQ-J Solid State Relays
1. Load current vs. ambient temperature Use load current within range speci?ed in the ?gure below
Tested condition:
1) If attached to a heat sink, use a heat
(1) 10 A type (when using heat sink or iron
plate)
(2)-1. 15 A type (when using iron plate)
conductive compound of similar coating to
improve cooling
2) Without external heat sink
12
10
When a si ngle  unit is mounted on an (A) slim heat sink
When a single unit is mounted
on an (B) slim heat sink
18
15
When using 200 × 200 × t2 mm iron plate
If the mounting surface is not metallic and a
When two units are mounted
9 100 × 100 × t1.6 mm
heat sink is not used, expose the bottom
surface and plate surface to improve heat
dissipation.
3) The current value is per 1a.
(A) slim heat sink AQP-HS-SJ20A
8
6
4
on an (A) slim heat sink
When a single unit is mounted
on an (C) standard heat sink
When two units are mounted
on an (B) slim heat sink
When using 100 × 100 × t1.6 mm iron plate
When using as stand-alone
12
When using
iron plate
When using
6 150 × 150 × t1.6 mm
iron plate
(B) slim heat sink
AQP-HS-SJ10A
2
When using an (D) DIN rail mounting plate
3
(C) standard heat sink
AQP-HS-J10A
(D) DIN rail mounting plate
(E) standard heat sink
AQP-DPJ
AQP-HS-J25A
0
0
20
40 60 80
Ambient temperature, ° C
100
0
-20
0
20 40 60 80
Ambient temperature, ° C
(2)-2. 15 A type (when using a heat sink)
(3)-1. 25 A type (when using iron plate)
(3)-2. 25 A type (when using a heat sink)
20
15
When a single unit is mounted When a single unit
on an (C) standard heat sink is mounted on an
When a single unit is mounted (A) slim heat sink
on an (B) slim heat sink
30
25
20
When using 300 × 300 × t2 mm iron plate
When using 250 × 250 × t2 mm
iron plate
When using
200 × 200 × t2 mm
iron plate
30
25
20
When a single unit is
mounted on an (E)
standard heat sink
When a single unit is mounted
on an (C) standard heat sink
When a single unit is
mounted on an (A)
slim heat sink
10 When two units are mounted
on an (A) slim heat sink
15
15
When a single
unit is mounted on an
are mounted on an
(B) slim heat sink
5
When two units are mounted
on an (B) slim heat sink
When using as stand-alone
When using an (D) DIN rail mounting plate
10
5
When using 150 × 150 × t1.6 mm
iron plate
When using 100 × 100 × t1.6 mm
iron plate
10
5
(B) slim heat sink
When two units are When two units
mounted on an (A)
slim heat sink
When using as stand-alone
When using an (D) DIN rail mounting plate
0
0
20
40 60 80
100
0
-20
0
20 40 60 80
0
0
20
40 60 80
100
Ambient temperature, ° C
Ambient temperature, ° C
Ambient temperature, ° C
ASCTB216E 201201-T1
Panasonic Corporation
Automation Controls Business Unit
industrial.panasonic.com/ac/e/
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