AQ2A2-C2-T5VDC [PANASONIC]
Trigger Output SSR, 1-Channel, 3000V Isolation, 1.772 X 0.945 INCH, 0.354 INCH HEIGHT, ROHS COMPLIANT PACKAGE-4;型号: | AQ2A2-C2-T5VDC |
厂家: | PANASONIC |
描述: | Trigger Output SSR, 1-Channel, 3000V Isolation, 1.772 X 0.945 INCH, 0.354 INCH HEIGHT, ROHS COMPLIANT PACKAGE-4 |
文件: | 总7页 (文件大小:149K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Please contact us
about TÜV certified
products.
SIL type SSR with
9mm thickness
controls up to 3A
AQ8 RELAYS
FEATURES
1. Slim with 9 mm .354 inch thickness
The thin type (45 mm long × 24 mm high
× 9 mm wide) (1.772×.945×.354 inch)
permits high density mounting.
2. Excellent in noise resistance
Since the input and output are insulated
by the phototriac coupler, the noise on
the output side is not fed back to the input
side.
5. High dielectric strength: 3,000 V AC
(between input and output)
6.Two kinds of terminals distance are
available. (5.08 mm and 7.62 mm) (.200
and .300 inch)
7. High reliability, long life and
maintenance-free
TYPICAL APPLICATIONS
3. Snubber circuit integrated
The snubber circuit is integrated to
prevent malfunction caused by the rapid
rise of the voltage on the output side,
such as inductive load and noise.
4. Zero-cross and random types are
available.
The zero-cross type generates minimal
noise by suppressing occurrence of radio
frequency interference (RFI) and electro-
magnetic interference (EMI).
1. Most suitable as drivers for small
size AC motors, solenoids, solenoid
valves and so on.
2. Copying equipment
3. Air conditioners
4. Industrial equipment such as NC
machines, sequencers, robots, etc.
The random type features a short
operation time which permits phase
control.
RoHS compliant
ORDERING INFORMATION
AQ
Load current
2 A
3 A
Load voltage
1: 75 to 125 V AC
2: 75 to 250 V AC
Input terminal distance
C1: 5.08 mm .200 inch
C2: 7.62 mm .300 inch
Type
ZT: Zero-cross type
T: Random type
Input voltage
5, 12, 24 V DC
ASCTB213E 201201-T1
Panasonic Corporation Automation Controls Business Unit industrial.panasonic.com/ac/e/
AQ8
TYPES
Input terminals distance
(5.08 mm .200 inch type)
Input terminals distance
(7.62 mm .300 inch type)
Types
Load current
Load voltage
Input voltage
Part No.
Part No.
5 V DC
12 V DC
24 V DC
5 V DC
AQ2A1-C1-ZT5V DC
AQ2A1-C1-ZT12V DC
AQ2A1-C1-ZT24V DC
AQ2A2-C1-ZT5V DC
AQ2A2-C1-ZT12V DC
AQ2A2-C1-ZT24V DC
AQ3A1-C1-ZT5V DC
AQ3A1-C1-ZT12V DC
AQ3A1-C1-ZT24V DC
AQ3A2-C1-ZT5V DC
AQ3A2-C1-ZT12V DC
AQ3A2-C1-ZT24V DC
AQ2A1-C1-T5V DC
AQ2A1-C1-T12V DC
AQ2A1-C1-T24V DC
AQ2A2-C1-T5V DC
AQ2A2-C1-T12V DC
AQ2A2-C1-T24V DC
AQ3A1-C1-T5V DC
AQ3A1-C1-T12V DC
AQ3A1-C1-T24V DC
AQ3A2-C1-T5V DC
AQ3A2-C1-T12V DC
AQ3A2-C1-T24V DC
AQ2A1-C2-ZT5V DC
AQ2A1-C2-ZT12V DC
AQ2A1-C2-ZT24V DC
AQ2A2-C2-ZT5V DC
AQ2A2-C2-ZT12V DC
AQ2A2-C2-ZT24V DC
AQ3A1-C2-ZT5V DC
AQ3A1-C2-ZT12V DC
AQ3A1-C2-ZT24V DC
AQ3A2-C2-ZT5V DC
AQ3A2-C2-ZT12V DC
AQ3A2-C2-ZT24V DC
AQ2A1-C2-T5V DC
AQ2A1-C2-T12V DC
AQ2A1-C2-T24V DC
AQ2A2-C2-T5V DC
AQ2A2-C2-T12V DC
AQ2A2-C2-T24V DC
AQ3A1-C2-T5V DC
AQ3A1-C2-T12V DC
AQ3A1-C2-T24V DC
AQ3A2-C2-T5V DC
AQ3A2-C2-T12V DC
AQ3A2-C2-T24V DC
75 to 125V AC
2A
75 to 250V AC
75 to 125V AC
75 to 250V AC
75 to 125V AC
75 to 250V AC
75 to 125V AC
75 to 250V AC
12 V DC
24 V DC
5 V DC
Zero-cross type
12 V DC
24 V DC
5 V DC
3A
2A
3A
12 V DC
24 V DC
5 V DC
12 V DC
24 V DC
5 V DC
12 V DC
24 V DC
5 V DC
Random type
12 V DC
24 V DC
5 V DC
12 V DC
24 V DC
Standard packing: Carton 20 pcs., Case 200 pcs.
RATING
1. Rating (Ambient temperature: 20°C, 68°F; Voltage ripple on the input side: 1% or less)
1) Zero-cross type
• 2 A type
Part No.
AQ2A1-C1-
ZT5VDC
AQ2A1-C2-
ZT5VDC
AQ2A1-C1-
ZT12VDC
AQ2A1-C2-
ZT12VDC
AQ2A1-C1-
ZT24VDC
AQ2A1-C2-
ZT24VDC
AQ2A2-C1-
ZT5VDC
AQ2A2-C2-
ZT5VDC
AQ2A2-C1-
ZT12VDC
AQ2A2-C2-
ZT12VDC
AQ2A2-C1-
ZT24VDC
AQ2A2-C2-
ZT24VDC
Remarks
Item
5 V DC
(4 to 6V)
12 V DC
(9.6 to 14.4V)
24 V DC
(21.6 to 26.4V)
5 V DC
(4 to 6V)
12 V DC
(9.6 to 14.4V)
24 V DC
(21.6 to 26.4V)
Control voltage
Input
1
*
side Input impedance
Approx. 0.18 kΩ Approx. 0.55 kΩ Approx. 1.4 kΩ Approx. 0.18 kΩ Approx. 0.55 kΩ Approx. 1.4 kΩ
Drop-out voltage
Min. 0.5 V
Min. 1.2 V
Min. 2.4 V
Min. 0.5 V
Min. 1.2 V
Min. 2.4 V
At ambient temperature of
30°C or less
Max. load current
2 A*2
Load voltage
Frequency
75 to 125 V AC
400 V
75 to 250 V AC
600 V
45 to 65 Hz
30 A*3
Repetitive peak
OFF voltage
Non-repetitive
Load
In one cycle at 60 Hz
at 60 Hz
surge current
side
Max. “OFF-state”
leakage current
2.5 mA (100 V applied)
25 mA*4
5 mA (200 V applied)
50 mA*4
Max. “ON-state”
voltage drop
1.6 V
at max. carrying current
Min. load current
At ambient temperature of
80°C
OFF state dV/dt
50 V/µs
ASCTB213E 201201-T1
Panasonic Corporation Automation Controls Business Unit industrial.panasonic.com/ac/e/
AQ8
• 3 A type
Part No.
AQ3A1-C1-
ZT5VDC
AQ3A1-C2-
ZT5VDC
AQ3A1-C1-
ZT12VDC
AQ3A1-C2-
ZT12VDC
AQ3A1-C1-
ZT24VDC
AQ3A1-C2-
ZT24VDC
AQ3A2-C1-
ZT5VDC
AQ3A2-C2-
ZT5VDC
AQ3A2-C1-
ZT12VDC
AQ3A2-C2-
ZT12VDC
AQ3A2-C1-
ZT24VDC
AQ3A2-C2-
ZT24VDC
Remarks
Item
5 V DC
(4 to 6V)
12 V DC
(9.6 to 14.4V)
24 V DC
(21.6 to 26.4V)
5 V DC
(4 to 6V)
12 V DC
(9.6 to 14.4V)
24 V DC
(21.6 to 26.4V)
Control voltage
Input
1
*
side Input impedance
Approx. 0.18 kΩ Approx. 0.55 kΩ Approx. 1.4 kΩ Approx. 0.18 kΩ Approx. 0.55 kΩ Approx. 1.4 kΩ
Drop-out voltage
Min. 0.5 V
Min. 1.2 V
Min. 2.4 V
Min. 0.5 V
Min. 1.2 V
Min. 2.4 V
At ambient temperature of
30°C or less
Max. load current
3 A*2
Load voltage
Frequency
75 to 125 V AC
400 V
75 to 250 V AC
600 V
45 to 65 Hz
80 A*3
Repetitive peak
OFF voltage
Non-repetitive
Load
In one cycle at 60 Hz
at 60 Hz
surge current
side
Max. “OFF-state”
leakage current
2.5 mA (100 V applied)
25 mA*4
5 mA (200 V applied)
50 mA*4
Max. “ON-state”
voltage drop
1.6 V
at max. carrying current
Min. load current
At ambient temperature of
80°C
OFF state dV/dt
50 V/µs
Notes: *1. Refer to REFERENCE DATA “3. Characteristics of input current vs. input voltage”.
*2. Refer to REFERENCE DATA “1. Characteristics of load current vs. ambient temperature”.
*3. Refer to REFERENCE DATA “2. Characteristics of non-repetitive surge current vs. carrying time”.
*4. When the load current is less than the rated minimum load current, please refer to “Cautions for Use of SSR”.
2) Random type
• 2 A type
Part No.
AQ2A1-C1-
T5VDC
AQ2A1-C1-
T12VDC
AQ2A1-C1-
T24VDC
AQ2A2-C1-
T5VDC
AQ2A2-C1-
T12VDC
AQ2A2-C1-
T24VDC
Remarks
AQ2A1-C2-
T5VDC
AQ2A1-C2-
T12VDC
AQ2A1-C2-
T24VDC
AQ2A2-C2-
T5VDC
AQ2A2-C2-
T12VDC
AQ2A2-C2-
T24VDC
Item
5 V DC
(4 to 6V)
12 V DC
(9.6 to 14.4V)
24 V DC
(21.6 to 26.4V)
5 V DC
(4 to 6V)
12 V DC
(9.6 to 14.4V)
24 V DC
(21.6 to 26.4V)
Control voltage
Input
1
*
side Input impedance
Approx. 0.3 kΩ Approx. 0.8 kΩ Approx. 1.8 kΩ Approx. 0.3 kΩ Approx. 0.8 kΩ Approx. 1.8 kΩ
Drop-out voltage
Min. 0.5 V
Min. 1.2 V
Min. 2.4 V
Min. 0.5 V
Min. 1.2 V
Min. 2.4 V
At ambient temperature of
30°C or less
Max. load current
2 A*2
Load voltage
Frequency
75 to 125 V AC
400 V
75 to 250 V AC
600 V
45 to 65 Hz
30 A*3
Repetitive peak
OFF voltage
Non-repetitive
Load
In one cycle at 60 Hz
at 60 Hz
surge current
side
Max. “OFF-state”
leakage current
2.5 mA (100 V applied)
25 mA*4
5 mA (200 V applied)
50 mA*4
Max. “ON-state”
voltage drop
1.6 V
at max. carrying current
Min. load current
At ambient temperature of
80°C
OFF state dV/dt
50 V/µs
ASCTB213E 201201-T1
Panasonic Corporation Automation Controls Business Unit industrial.panasonic.com/ac/e/
AQ8
• 3 A type
Part No.
AQ3A1-C1-
T5VDC
AQ3A1-C1-
T12VDC
AQ3A1-C1-
T24VDC
AQ3A2-C1-
T5VDC
AQ3A2-C1-
T12VDC
AQ3A2-C1-
T24VDC
Remarks
AQ3A1-C2-
T5VDC
AQ3A1-C2-
T12VDC
AQ3A1-C2-
T24VDC
AQ3A2-C2-
T5VDC
AQ3A2-C2-
T12VDC
AQ3A2-C2-
T24VDC
Item
5 V DC
(4 to 6V)
12 V DC
(9.6 to 14.4V)
24 V DC
(21.6 to 26.4V)
5 V DC
(4 to 6V)
12 V DC
(9.6 to 14.4V)
24 V DC
(21.6 to 26.4V)
Control voltage
Input
1
*
side Input impedance
Approx. 0.3 kΩ Approx. 0.8 kΩ Approx. 1.8 kΩ Approx. 0.3 kΩ Approx. 0.8 kΩ Approx. 1.8 kΩ
Drop-out voltage
Min. 0.5 V
Min. 1.2 V
Min. 2.4 V
Min. 0.5 V
Min. 1.2 V
Min. 2.4 V
At ambient temperature of
30°C or less
Max. load current
3 A*2
Load voltage
Frequency
75 to 125 V AC
400 V
75 to 250 V AC
600 V
45 to 65 Hz
80 A*3
Repetitive peak
OFF voltage
Non-repetitive
Load
In one cycle at 60 Hz
at 60 Hz
surge current
side
Max. “OFF-state”
leakage current
2.5 mA (100 V applied)
25 mA*4
5 mA (200 V applied)
50 mA*4
Max. “ON-state”
voltage drop
1.6 V
at max. carrying current
Min. load current
At ambient temperature of
80°C
OFF state dV/dt
50 V/µs
Notes: *1. Refer to REFERENCE DATA “3. Characteristics of input current vs. input voltage”.
*2. Refer to REFERENCE DATA “1. Characteristics of load current vs. ambient temperature”.
*3. Refer to REFERENCE DATA “2. characteristics of non-repetitive surge current vs. carrying time”.
*4. When the load current is less than the rated minimum load current, please refer to “Cautions for Use of SSR”.
2. Characteristics (Ambient temperature: 20°C 68°F; Input voltage ripple: 1% or less)
Type
Zero-cross type
Random type
Remarks
Item
Operate time, max.
Release time, max.
Insulation resistance, min.
Breakdown voltage
1/2 cycle of voltage sine wave + 1 ms
1 ms
1/2 cycle of voltage sine wave + 1 ms
109Ω between input and output
3,000 V AC between input and output
at 500 V DC
For 1 minute
Destructive
Functional
Destructive
Functional
10 to 55 Hz at double amplitude of 3 mm
10 to 55 Hz at double amplitude of 3 mm
Min. 980 m/s2 {100 G}
1 hour for X, Y, Z axis
10 min. for X, Y, Z axis
5 times each for X, Y, Z axis
4 times each for X, Y, Z axis
Vibration
resistance
Shock
resistance
Min. 980 m/s2 {100 G}
Ambient temperature
Storage temperature
Operational method
–30°C to +80°C –22°F to +176°F
–30°C to +100°C –22°F to +212°F
Zero-cross (Turn ON and Turn OFF)
Random turn ON, zero-cross turn OFF
REFERENCE DATA
1. Characteristics of load current vs. ambient
temperature
2.-(1) Characteristics of non-repetitive surge
current vs. carrying time
(2 A type)
2.-(2) Characteristics of non-repetitive surge
current vs. carrying time
(3 A type)
Use load current within range specified in the figure
below.
3.0
100
80
60
40
20
0
100
80
60
40
20
0
3 A type
2.5
2 A type
2.0
1.5
1.0
0.5
0
–30
0
20
40
60
80
5
10
50 100
5
10
50 100
Ambient temperature, °C
No. of cycles at 60 Hz
No. of cycles at 60 Hz
ASCTB213E 201201-T1
Panasonic Corporation Automation Controls Business Unit industrial.panasonic.com/ac/e/
AQ8
3. Characteristics of input current vs. input
voltage
4.-(1) Characteristics of load current vs.
ambient temperature for adjacent mounting
4.-(2) Characteristics of load current vs.
ambient temperature for adjacent mounting
—zero-cross type
---Random type
(2 A type)
Conditions: Natural cooling
(3 A type)
Conditions: Natural cooling
30
25
20
15
2.5
3.0
=20.32 mm
.800 inch
=12.7 mm
.500 inch
=9.0 mm
.354 inch
=20.32 mm
.800 inch
=12.7 mm
.500 inch
=9.0 mm
2.0
1.5
2.0
.354 inch
1.0
(24 V type)
(12 V type)
10
5
1.0
0
(5 V type)
0.5
=Adjacent mounting pitch
0
=Adjacent mounting pitch
0
0
10
20
30
–30
0
20
40
60
80
–30
0
20
40
60
80
Input voltage, V
Ambient temperature, °C
Ambient temperature, °C
The CAD data of the products with a CAD Data mark can be downloaded from: http://industrial.panasonic.com/ac/e/
DIMENSIONS (mm inch)
(Common for zero-cross and random types)
1. Input terminals distance 5.08 mm .200 inch
1) 2 A type
External dimensions
Mounting hole location (Bottom view)
CAD Data
27.94
1.100
9 max.
.354
Copper foil
45 max.
1.772
4
3
2
1
Terminal
4-1.2 dia.
4-.047 dia.
2.54×5
.100×5
2.54×2
.100×2
2.54×4
.100×4
24 max.
.945
4
3
INPUT
2
1
LOAD
–
+
Tolerance: 0.1 .004
8 min.
.315
Schematic
5.08
.200
2.5
5.08
.200
10.16
12.7
.500
.098
.400
4-0.8 dia.
4-.031
INPUT
LOAD
4
3
2
1
4
3
2
1
– +
General tolerance: 0.5 .020
Load
power source
Input
Load
power source
2) 3 A type
External dimensions
Mounting hole location (Bottom view)
CAD Data
27.94
1.100
9 max.
.354
Copper foil
43 max.
1.693
4
3
2
1
Terminal
4-1.2 dia.
4-.047 dia.
2.54×5
.100×5
2.54×2
.100×2
2.54×4
.100×4
32 max.
1.259
Tolerance: 0.1 .004
Schematic
4
3
INPUT
2
1
LOAD
–
+
8 min.
.315
INPUT
LOAD
5.08
.200
2.5
4
3
2
1
.098
4-0.8 dia.
4-.031
10.16
5.08
.200
12.7
.500
.400
– +
4
3
2
1
Load
power source
Input
Load
power source
General tolerance: 0.5 .020
ASCTB213E 201201-T1
Panasonic Corporation Automation Controls Business Unit industrial.panasonic.com/ac/e/
AQ8
2. Input terminals distance 7.62 mm .300 inch
1) 2A type
External dimensions
Mounting hole location (Bottom view)
CAD Data
9 max.
.354
30.48
1.200
Copper foil
45 max.
1.772
4
3
2
1
Terminal
4-1.2 dia.
4-.047 dia.
2.54×5
.100×5
24 max.
2.54×3
.100×3
2.54×4
.100×4
.945
4
3
2
1
LOAD
–
INPUT
+
Tolerance: 0.1 .004
8 min.
.315
Schematic
5.08
.200
10.16
.400
7.62
.300
12.7
.500
2.5
.098
4-0.8 dia.
4-.031
INPUT
LOAD
4
3
2
1
4
3
1
2
– +
Input
power source
General tolerance: 0.5 .020
Load
power source
Load
2) 3A type
External dimensions
Mounting hole location (Bottom view)
CAD Data
9 max.
.354
30.48
1.200
Copper foil
43 max.
1.693
4
3
2
1
Terminal
4-1.2 dia.
4-.047 dia.
2.54×5
.100×5
2.54×3
.100×3
2.54×4
.100×4
32 max.
1.259
Tolerance: 0.1 .004
Schematic
4
3
INPUT +
2
1
LOAD
–
8 min.
.315
INPUT
LOAD
5.08
.200
2.5
4
3
2
1
.098
4-0.8 dia.
4-.031
7.62
.300
12.7
.500
10.16
.400
– +
Input
power source
4
3
2
1
Load
power source
Load
General tolerance: 0.5 .020
ASCTB213E 201201-T1
Panasonic Corporation Automation Controls Business Unit industrial.panasonic.com/ac/e/
AQ8
NOTE
1. When used for the load less than
rated
• Characteristics of residual voltage vs.
load impedance
In case of the load current less than
rated, malfunction may result from the
residual voltage across the both ends of
the load even if the solid state relay is
turned off. Use a dummy resistor as a
countermeasure.
The total of the current through the
resistor and the load current must exceed
the min. rated load current.
100
f= 60Hz
Ve: Residual voltage
V: Power voltage
80
Load
Ve
1
V
SSR
2
60
40
20
Ve
V
(%)
100
×
Power factor:1
(resistor load)
Power factor:0.4
(induction load)
R0 Dummy resistor
Load
1
2
SSR
0
Load
power
source
10
20
30
40
50
Ω)
Load impedance (k
2. when the terminal is bent
Care shall be taken neither to apply
mechanical stresses to the mold area of
the solid state relay nor to bend the
terminal 45 degrees or more.
In case the dummy resistor is not used,
keep in mind that the residual voltage
becomes as follows:
Example:
For the inductive load by the 20 mA load
current and the 200 V AC load voltage,
the load impedance becomes 10 k Ω and
Ve/V = 14% is estimated from the right
above graph. Accordingly, the 28 V
voltage remains across the both ends of
the load when the solid state relay is
turned off.
Max.
45°
Solid
state relay
Printed circuit board
Solder
Recommended Temperature Controllers
<KT4H Temperature Controller>
Our temperature controller is recommended for use with our Solid State Relays.
Features
• Space saving requiring only a depth of 65 mm
• Data collection possible through a PLC using RS485 communication
• Tool port is standard for easy data setting
48mm
1.890inch
• Inverted LCD + backlight for good legibility with large characters
• Excellent operability and rich optional control functions
56mm
2.205inch
Substitute part numbers
48mm
1.890inch
Power supply
Control output
Part No.
100 to 240 V AC
Non-contact voltage output
AKT4H112100
* For detailed product information about temperature controllers, please refer to our website:
http://industrial.panasonic.com/ac/e/
For Cautions for Use.
ASCTB213E 201201-T1
Panasonic Corporation Automation Controls Business Unit industrial.panasonic.com/ac/e/
相关型号:
AQ2A2-C2-ZT12VDC
Trigger Output SSR, 1-Channel, 3000V Isolation, 1.772 X 0.945 INCH, 0.354 INCH HEIGHT, ROHS COMPLIANT, SIL-4
PANASONIC
AQ2A2-C2-ZT5VDC
Trigger Output SSR, 1-Channel, 3000V Isolation, 1.772 X 0.945 INCH, 0.354 INCH HEIGHT, ROHS COMPLIANT, SIL-4
PANASONIC
©2020 ICPDF网 联系我们和版权申明