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AQ1-RELAYS
AQ1 SOLID STATE RELAY
10
.394
25.1
.988
33
1.299
mm inch
25
.984
12
.472
33
1.299
FEATURES
• Strong against high inrush current and long life
• Strong against high inrush current and long life
Optical isolation: 5
×
10
7
operations
• No chattering or bouncing and no arc generation
• Both slim and flat package available
• SIL (single in line) terminal layout
• Zero-voltage turn-ON and Zero-current turn-OFF for elimi-
nating surge and reducing inrush currents and EMI
TYPICAL APPLICATIONS
• Traffic signal control
• Terminal equipment of data processing
• Computer peripherals
• NC machines
• Automatic ticket punchers
TYPES
1. AQ1 Solid State Relays
2. Heat sink for AQ1 solid state relay (for 5 A types): AQ-HS-5A
Load Isolation Zero-cross
function Type Input
voltage Load current
Load voltage Part No.
AC Optically
coupled isolation Zero-cross
2 A (Vertical) 3 to 28 V DC 2 A, 75 to 250 V AC AQ2A2-ZP3/28VDC
2 A (flat) 3 to 28 V DC 2 A, 75 to 250 V AC AQ2A2-J-ZP3/28VDC
5 A 3 to 28 V DC 5 A, 75 to 250 V AC
(3 A without heat sink) AQ5A2-ZP3/28VDC
DC Optically
coupled isolation –1 A 3 to 28 V DC 1 A, 10 to 200 V DC AQ1AD2-3/28VDC
2 A 3 to 28 V DC 2 A, 3 to 60 V DC AQ2AD1-3/28VDC
ORDERING INFORMATION
AQ 2A
Load current Load voltage Shape Type Input voltage
1 A
2 A
5 A
2: 75 to 250 V AC
D1: 03 to 60 V DC
D2: 10 to 200 V DC
Nil: Vertical type
J: Flat type Nil:DC output
ZP: AC output (Zero-cross) 3/28 V DC: 3 to 28 V DC
2 J ZP 3/28 VDC
All Rights Reserved © COPYRIGHT Matsushita Electric Works, Ltd.
AQ1
SPECIFICATIONS
Rating
(at 20
°
C
68
°
F
, Ripple factor: less than 1%)
1. AC output type
*5 A with heat sink 3 A without heat sink see "REFERENCE DATA 1-(2)"
Zero-cross Remarks
2 A 5 A
Input side
Input voltage 3 to 28 V DC
Input impedance Approx. 1.6 k
Ω
(3 to 28 V DC)
Drop-out voltage, min. 0.8 V
Load side
Max. load current 2 A 5 A* at ambient temperature
40
°
C 104
°
F
Load voltage 75 to 250 V AC
Non-repetitive surge current 80 A 100 A
See "REFERENCE DATA 2-(1), (2)"
In one cycle at 60 Hz
Max. "OFF-state" leakage current 5 mA at 200 V AC 60 Hz
Max. "ON-state" voltage drop 1.6 V at Max. carrying current
Min. load current 50 mA
2. DC output type
Characteristics
(at 20
°
C
68
°
F
, Ripple factor: less than 1%)
1 A type 2 A type Remarks
Input
side
Input voltage 3 to 28 V DC
Input impedance Approx. 1.6 k
Ω
Drop-out voltage, min. 0.8 V
Load
side
Max. load current 1 A 2 A at ambient temperature
40
°
C 104
°
F
Load voltage 10 to 200 V DC 3 to 60 V DC
Non-repetitive
surge current 5 A (1 s)
Max. "OFF-state"
leakage current 1 mA at 200 V AC 60 Hz
Max. "ON-state"
voltage drop 2.3 V 1.6 V at Max. carrying current
Min. load current 5 mA
AC output
DC output RemarksZero-cross
2 A 5 A
Operate time, Max. (1/2 cycle of voltage sine wave) + 1 ms 0.5 ms
Release time, Max. (1/2 cycle of voltage sine wave) + 1 ms 2 ms
Insulation resistance, Min. 100 M
Ω
for input, output and case 100 M
Ω
for input, output at 500 V DC
Breakdown voltage 3,000 Vrms between
input and output 3,000 Vrms between input and output
1,500 Vrms among input, output and case 3,000 Vrms between
input-output
Vibration
resistance
Destructive 117.6 m/s
2
{12G}, 10 to 55 Hz at double amplitude of 2 mm 1 hour for X, Y, Z
axis
Functional 117.6 m/s
2
{12G}, 10 to 55 Hz at double amplitude of 2 mm 10 minutes for
X, Y, Z axis
Shock
resistance
Destructive Min. 980 m/s
2
{100 G} Min. 980 m/s
2
{100 G} 5 times each for
X, Y, Z axis
Functional Min. 980 m/s
2
{100 G} Min. 980 m/s
2
{100 G} 4 times each for
X, Y, Z axis
Ambient temperature –30
°
C to +80
°
C –22
°
F to +176
°
F
Storage temperature –30
°
C to +100
°
C –22
°
F to +212
°
F
Operational method Zero-cross (Turn-ON and Turn-OFF) —
All Rights Reserved © COPYRIGHT Matsushita Electric Works, Ltd.
AQ1
DIMENSIONS
mm inch
AC output, 2A type (vertical)
General tolerance:
±
0.5
±
.020
12.7
.500
25.4
1.000
7.62
.300
5.08
.200
6
.236
C2
4-0.8DIA.
4-.031DIA.
25
.984
1
.039
10
.394
5.0
.197
33
1.299
0.8
.031 5.7
.224
INPUTLOAD
12 34
+–
Mounting hole location
(Copper-side view)
Schematic
Tolerance:
±
0.1
±
.004
4-1.2DIA.
4-.047DIA.
2.54×3
.100×32.54×5
.100×52.54×2
.100×2
25.4
1.000
4321
Copper foil
LOAD INPUT
SSR
2134
Load
power source
+–
Load
Input
power source
AC output, 2A type (Flat)
General tolerance:
±
0.5
±
.020
25.4
1.000
6
.236
11
.433
1
.039
12.7
.500
10.16
.400
25
.984
33
1.299
0.8
.031
7.82
.308
6.55
.258
INPUT LOAD
1
2
3
4
+
–
4-0.8DIA.
4-.031DIA.
Mounting hole location
(Copper-side view)
Schematic
Tolerance:
±
0.1
±
.004
4-1.2DIA.
4-.047DIA.
10.16
.400 12.7
.500
25.4
1.000
3
4
2
1
Copper foil
LOAD INPUT
SSR
2
1
3
4
Load
power source +–
Input
power source
Load
AC output, 5A type
General tolerance:
±
0.5
±
.020
12.7
.500
7.62
.300
7.62
.300
2
.079 2
.079
0.8
.031
25
.984
5.08
.200
8.89
.35010.16
.400
15 min.
.591
C2
4
.157
1
.039
0.6
.024 2
.079
6.9
.272
12 max.
.472
54
2.126
41
1.614
33
1.299
INPUTLOAD
12 34
+–
Mounting hole location (Copper-side view)
Schematic
Tolerance:
±
0.1
±
.004
4-1.2DIA.
4-.047DIA.
2-3.5DIA.*
2-.138DIA.
9.1
.358
2.54×3
.100×32.54×5
.100×52.54×2
.100×2
25.4
1.000
20
.787
4321
Copper foil
20
.787
* There 2 holes are not necessary when not using heat sink (AQ-HS-5A)
LOAD INPUT
SSR
2134
Load
power source
+–
Load
Input
power source
All Rights Reserved © COPYRIGHT Matsushita Electric Works, Ltd.
AQ1
Heat sink (for AC output, 5A type)
AQ-HS-5A
General tolerance:
±
0.5
±
.020
27±2
1.063±.079
58±2
2.283±.079
13.8
.543
5.2
.205
8
.315
8
.315
8
.315
8
.315
8
.315
8
.315
8
.315
47.6
1.874
40
1.575 9
.354
2-M3 Screw
2-M3 Screw depth: min. 10mm
Knurl surface
30±2
1.181±.079
2.5
.098
When using heat sink, please refer to "Thermal Design (Page 25)"
DC output, 1A, 2A types
General tolerance:
±
0.5
±
.020
12.7
.500
25.4
1.000
7.62
.300
5.08
.200
6
.236
C2
4-0.8DIA.
4-.031DIA.
25
.984
1
.039
10
.394
5.0
.197
33
1.299
0.8
.031 5.7
.224
INPUTLOAD
12 34
+–
Mounting hole location (Copper-side view)
Schematic
Tolerance:
±
0.1
±
.004
4-1.2DIA.
4-.047DIA.
2.54×3
.100×32.54×5
.100×52.54×2
.100×2
25.4
1.000
4321
Copper foil
LOAD INPUT
SSR
2134
Load
power source
+–+–
Load
Input
power source
REFERENCE DATA
1. Load current vs. ambient temperature
(1) AC output zero-cross type (2 A type)
Allowable ambient temperature:
–30
°
C to +80
°
C –22
°
F to +176
°
F
(2) AC output zero-cross type (5 A type)
d. External heat sink is not used.
e. In the case of mounting on heat sink (AQ-
HS-5A) or 66
×
66
×
2.0 thick aluminum plate.
The AQ-HS-5A heat sink is mounted on the
printed circuit board. The load current is im-
proved compared with the unmounted condi-
tion as indicated in the diagram above. When
the 5 A type heat sink (AQ-HS-5A) or a heat
sink is not use, in order to provide good cooling
conditions, the back surface plate should be
exposed.
–30 0 20 40 60 80
0
Ambient temperature, °C
Load current, A
0.5
1.0
1.5
2.0
2.5
–30
5
4
3
2
1
0
Ambient temperature, °C
Load current, A
(e)
(d)
020406080
(3) DC type (1 A, 2 A type)
a. DC type (2 A type)
Allowable temperature range:
–30
°
C to +80
°
C –22
°
F to +176
°
F
b. DC type (1 A type)
Allowable temperature range:
–30
°
C to +80
°
C –22
°
F to +176
°
F
2. Non-repetitive surge current vs. carrying time
(1) AC output zero-crossing type (2 A type)
–30 0 20 40 60 80
0
Ambient temperature, °C
Load current, A
0.5
1.0
1.5
2.0
2.5
(a)
(b)
10 50 100
No. of cycles at 60 Hz
Non-repetitive surge current, A
50
100
mm inch
All Rights Reserved © COPYRIGHT Matsushita Electric Works, Ltd.
AQ1
2. Non-repetitive surge current vs. carrying time
(2) AC output zero-cross type (5 A type) (3) DC output type
3. Input current vs. input voltage characteristics
10 50 100
No. of cycles at 60 Hz
Non-repetitive surge current, A
50
100
50 100 500 1,000
No. of cycles at 60 Hz
Non-repetitive surge current, A
2
0
4
6
8
10
12
14
16
18
20
22
Input voltage, V
Input current, mA
048 1216202428 32
4
8
12
16
20
24
28
32
0
Input 3 to 28 V type
(AC Output, 2 A, 5 A type and DC type)
NOTES
1. When using bent output terminals
To avoid applying mechanical stress on
the main unit and molded section of the
solid state relay, radio pliers should be
used to grasp the terminals between the
point of bending and the molded case
when making the bends.
2. When a heat sink is mounted on the
5 A type
The heat sink (AQ-HS-5A) or a heat sink
which can make good contact should be
used.
If a heat sink is used in which the contact
condition is bad, a heat conducting com-
pound should be used to improve the heat
radiation. (A silicon compound is a typical
example.) The compound should be coat-
ed on the heat sink and the AQ1.
Solid state relay
Terminal bend section
Printed circuit board
Solder
AQ-HS-5A heat radiator
(provided with AQ-HS-5A)
Printed circuit board
About 4 kg-cm of torque should be
used for tightening the M3 screws.
5 A SSR
4-M3 screws
For Cautions for Use
All Rights Reserved © COPYRIGHT Matsushita Electric Works, Ltd.
