Panasonic AQJ Relays

C-UL

TÜV AQ-J

Pending Pending

AQ-J RELAYS

AQ-J SOLID STATE RELAY

• Footprint comparison (Unit: mm inch)

59 2.323 44.8 1.764

Conventional (AQ-R)

38 1.496

AQ-J

28 1.102

FEATURES

TYPICAL APPLICATIONS

2. Built-in varistor Superior external noise absorption. 3. Three types available from 10 A to 25 A.

1. Ultra-compact size Space saved with footprint 40% that of previous.

4. Reverse input connection prevention function. 5. Uses #110 type input and #250 type output terminals. 6. Environmentally friendly Supports RoHS Directive (2002/95/EC)

1. Kitchen appliances 2. Vending machine 3. Injection molding machine 4. Amusement machine

TYPES Type

Load current

Load voltage

10A

Zero-cross

15A

75V to 264V AC

25A

Input voltage 4 to 6V DC 10 to 18V DC 18 to 28V DC 4 to 6V DC 10 to 18V DC 18 to 28V DC 4 to 6V DC 10 to 18V DC 18 to 28V DC

Part No. AQJ112V AQJ119V AQJ116V AQJ212V AQJ219V AQJ216V AQJ412V AQJ419V AQJ416V

ORDERING INFORMATION Ex. AQJ

Load current/voltage

Terminal

Input voltage

Built-in varistor

1: 10 A 75 to 264 V AC 2: 15 A 75 to 264 V AC 4: 25 A 75 to 264 V AC

1: Plug-in terminal, Zero-cross 2: Plug-in terminal, Random*

2: 4 to 6 V DC 6: 18 to 28 V DC 9: 10 to 18 V DC

V: Built-in varistor

*Random type is available by custom order. Note: Standard packing: Carton 10 pcs., Case: 200 pcs.

SPECIFICATIONS 1. Ratings (at 20°C 68°F, input ripple: 1% or less) 1) Input side Type Item Rated voltage Input voltage Input impedance Drop-out voltage

AQJ112V AQJ212V AQJ412V 5V DC 4 to 6V DC Approx. 260Ω

AQJ119V AQJ219V AQJ419V 12V DC 10 to 18V DC Approx. 800Ω Min. 1V DC

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AQJ116V AQJ216V AQJ416V 24V DC 18 to 28V DC Approx. 1.6kΩ

AQ-J 2) Output side Type

AQJ112V AQJ119V AQJ116V 10A

Item Max. load current Load voltage Frequency Non-repetitive surge current Max. “OFF-state” leakage current Max. “ON-state” voltage drop Min. load current*

AQJ212V AQJ219V AQJ216V 15A 75 to 264V AC 45Hz to 65Hz 150A Max. 5mA Max. 1.6V 50mA

100A

AQJ412V AQJ419V AQJ416V 25A

250A

* See CAUTIONS FOR USE 2. Output side (Using be below the specified load)

2. Characteristics (at 20°C 68°F, input ripple: 1% or less) Type Operate time, max. Release time, max. Insulation resistance, min.

Characteristics (1/2 cycle of voltage sine wave) + 1ms (1/2 cycle of voltage sine wave) + 1ms 100MΩ between input to output to case 3,000 Vrms between input and output 2,500 Vrms between input, output and case 10 to 55 Hz double amplitude of 1.5mm Min. 980m/s2 –30 to +80°C –22 to +176°F –30 to +100°C –22 to +212°F Zero-cross (Turn ON and Turn OFF)

Breakdown voltage Vibration resistance Shock resistance Ambient temperature Storage temperature Operational method

Remarks

Using 500 V DC megger for 1min. X, Y, Z axes X, Y, Z axes Non-condensing at low temperatures

REFERENCE DATA 1. Load current vs. ambient temperature Use load current within range specified in the figure below (1) 10A type

(2) 15A type

When mounting a standard heat sink (AQP808) When mounting on 100 × 100 × t1.6 (mm) iron plate

10

When used alone

5

10

When used alone 5

0 –20

0

20 40 60 80 Ambient temperature, °C

0 –20

100

2. Non-repetitive surge current vs. carrying time (3) 25A type

0

20 40 60 80 Ambient temperature, °C

100

3. Input current vs. input voltage characteristics (10A, 15A and 25A common)

300

When mounting on 20 200 × 200 × t2 (mm) iron plate

10 When used alone

30 (4 to 6V DC) 25 25A type

200 15A type 10A type 100

Input current, mA

When mounting a standard heat sink (AQP808)

Non-repetitive surge current, A

30

Load current, A

When mounting a standard heat sink (AQP808) When mounting on 200 × 200 × t2 (mm) iron plate

15 Load current, A

Load current, A

Tested condition: 1) If attached to a heat sink, use a heat conductive compound (Ex. Toshiba sillicone YG6111 or TSK5303) of similar coating to improve cooling 2) Without external heat sink If the mounting surface is not metallic and a heat sink is not used, expose the bottom surface and plate surface to improve heat dissipation.

20

(10 to 18V DC)

(18 to 28V DC)

15 10 5

0 –20

0

20 40 60 80 Ambient temperature, °C

100

0

1

10 No. of cycles at 60 Hz

100

0

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5

10

15 20 25 Input voltage, V

30

35

AQ-J DIMENSIONS

mm inch

7.95 .313 4.55 .179

4.3 .169

30 max. 1.181 max.

Mounting dimensions 30+0.2 –0.1 1.181+.008 –.004

8.4 6.35 .331 .250 LOAD 10A 264VAC

AQJ112V

38 1.496

MADE IN JAPAN

+

4 - 6VDC INPUT

2-4.3 dia. or M4 2-.169 dia. or M.157

2-1.65 dia. 2-.065 dia.

50601

30 1.181 2-1.2 dia. 2-.047 dia.

–

5.5 2.8 .217 .110 1.6 .063

4.3 dia. .169 dia.

7.1 .280

28 1.102

17 .669

5 .197

ACCESSORIES Heat sink

Mounting dimensions 4-R2.5 .098 4-M4.5 or 5 dia. 4-M.177 or .197 dia.

5 .197

3-M4 .157

119±0.1 4.685±.004 119 4.685

30 1.181

47.5 1.870

150 5.906

AQP-HS-J25A

132 5.197

7 .276

2 .079

52 2.047

46 1.811 64 2.520 82 3.228 100 3.937

3 .118 13 .512

120 4.724 142 5.591

General tolerance: ±0.5 ±.020

All Rights Reserved © COPYRIGHT Matsushita Electric Works, Ltd.

132±0.1 5.197±.004

AQ-J CAUTIONS FOR USE 1. Input side 1) If the SSR control voltage contains ripple, the peak of the ripple should not exceed the maximum rated control voltage, and the bottom of the ripple should exceed the minimum rated control voltage.

2. Output side An SSR may malfunction if it is used below the specified load. In such an event, use a dummy resistor in parallel with the load. Ro (dummy resistor)

3

Peak ripple voltage

1

Load power supply

Valley ripple voltage 0V

Valley ripple voltage Min. 4V Min. 10V Min. 18V

Part No. AQJ❍12V AQJ❍19V AQJ❍16V

4

Peak ripple voltage Max. 6V Max. 18V Max. 28V

2) A high noise surge voltage applied to the SSR input circuit can cause malfunction or permanent damage to the device. If such a high surge is anticipated, use C or R noise absorber in the input circuit. R Control voltage source

Load

3

1

4

2

C

2

5) Storing the unit under extremely adverse conditions could damage the product’s appearance or impact performance. We recommend that the unit be stored in a location meeting the following requirements: Temperature: 5 to 30°C 41 to 86°F Humidity: Max. 60% RH Atmosphere: Should be free of sulfurous acid and other toxic gasses, and relatively free from dust.

Set a dummy resistor so that it and the load make the load current at least 50mA. 3. Others 1) Make sure that the terminals are wired properly. 2) Be sure to take SSR layout and ventilation into account. Installing a heat source near another solid-state relay could raise the ambient temperature. 3) If attached to a heat sink, use a heatconductive compound or similar coating to improve cooling. 4) Handle the inner and outer cartons with care. Excessive vibration during transport could warp the terminals or damage the unit.

Thermal Design SSRs used in high-reliability equipment require careful thermal design. In particular, junction temperature control has a significant effect on device function and life time. The rated load current for boardmounting SSRs is defined as the maximum current allowable at an ambient temperature of 40°C 104°F (30°C 86°F) and under natural cooling.

All Rights Reserved © COPYRIGHT Matsushita Electric Works, Ltd.