AQC1A2-T24VDC-R - Panasonic Industrial Devices

Panasonic Corporation Automation Controls Business Unit industrial.panasonic.com/ac/e/

AQ-C

ASCTB214E 201201-T1

ORDERING INFORMATION

TYPES

1. Input module

Standard packing: Carton: 50 pcs.; Case: 500 pcs.

Miniature DIL SSR

1A control type for PCBs

AQ-C RELAYS

Type Output voltage Input voltage Part No.

AC input 4 to 32 V DC 80 to 250 V AC AQCD3-IM 100/240 V AC

DC input 4 to 32 V DC 3 to 32 V DC AQCD3-IM 4/24 V DC

Please contact us

about TÜV certified

products.

RoHS compliant

FEATURES

1. Compact DIL type:

L20 mm × W10 mm × H12.8 mm

(.787×.394×.504 inch)

2. Excellent in noise resistance

3. Snubber circuit integrated

4. High dielectric strength: 2,500 V

between input and output

5. Reverse polarity type available

TYPICAL APPLICATIONS

1. Compact AC motor, Solenoid,

Magnet, Driver of magnetic valve

2. Copying equipment

3. NC machine, Robot

4. Programmable controller

5. Air conditioners

Load current

Nil:

1A:

AQC

Load voltage

D1:

D3:

Type

Nil:

IM:

ZT:

Input voltage

Output module:

Input module:

5, 12, 24 V DC

4/24 V DC, 100/240 V AC

Input polarity

Nil:

Input module

Output module

75 to 125 V AC (Output module)

75 to 250 V AC (Output module)

3 to 60 V DC (Output module)

4 to 32 V DC (Input module)

DC output

Input module

AC output Random

AC output Zero-cross

Standard polarity

Reverse polarity (Only for output module)

Panasonic Corporation Automation Controls Business Unit industrial.panasonic.com/ac/e/

AQ-C

ASCTB214E 201201-T1

2. Output module

Standard packing: Carton: 50 pcs.; Case: 500 pcs.

Note: Reverse polarity type (AQC5∗∗ and AQC6∗∗) is also produced by lot after receipt of order.

RATING

1. Rating [Ambient temperature: 20°C 68°F; Input voltage ripple (output module) and output voltage ripple (input module): 1% or less]

1) Input module

2) Output module

(1) AC output type

(2) DC output type

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. Refer to REFERENCE DATA “2. 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”.

Type Load voltage Input voltage Part No.

AC output Zero-cross

75 to 125 V AC

5 V DC AQC1A1 - ZT5 V DC

12 V DC AQC1A1 - ZT12 V DC

24 V DC AQC1A1 - ZT24 V DC

75 to 250 V AC

5 V DC AQC1A2 - ZT5 V DC

12 V DC AQC1A2 - ZT12 V DC

24 V DC AQC1A2 - ZT24 V DC

AC output Random

75 to 125 V AC

5 V DC AQC1A1 - T 5 V DC

12 V DC AQC1A1 - T 12 V DC

24 V DC AQC1A1 - T 24 V DC

75 to 250 V AC

5 V DC AQC1A2 - T 5 V DC

12 V DC AQC1A2 - T 12 V DC

24 V DC AQC1A2 - T 24 V DC

DC output 3 to 60 V DC

5 V DC AQC1AD1- 5 V DC

12 V DC AQC1AD1- 12 V DC

24 V DC AQC1AD1- 24 V DC

Type

Item

AC input DC input Remarks

AQCD3-IM 100/240 V AC AQCD3-IM 4/24 V DC

Input side

Input voltage 80 to 250 V AC 3 to 32 V DC

Input current Max. 5 mA Max. 5 mA

Pick-up voltage Max. 80 V AC Max. 3 V DC

Drop-out voltage Min. 10 V AC Min. 1 V DC

Output side

Load voltage 4 to 32 V DC 4 to 32 V DC

Load current 0.1 to 25 mA 0.1 to 25 mA

Max. “OFF-state” leakage current Max. 5µAMax. 5µA When 32 V DC applied

Max. “ON-state” voltage drop Max. 1.6 V Max. 1.6 V at max. carrying current

Type

Item

AQC1A1-

ZT5VDC

AQC1A1-

T5VDC

AQC1A1-

ZT12VDC

AQC1A1-

T12VDC

AQC1A1-

ZT24VDC

AQC1A1-

T24VDC

AQC1A2-

ZT5VDC

AQC1A2-

T5VDC

AQC1A2-

ZT12VDC

AQC1A2-

T12VDC

AQC1A2-

ZT24VDC

AQC1A2-

T24VDC

Remarks

Input

side

Input voltage

(5 V type)

4 to 6

V DC

(12 V type)

9.6 to 14.4

V DC

(24 V type)

21.6 to 26.4

V DC

(5 V type)

4 to 6

V DC

(12 V type)

9.6 to 14.4

V DC

(24 V type)

21.6 to 26.4

V DC *1

Input impedance (Approx.) 0.3 kΩ0.8 kΩ1.8 kΩ0.3 kΩ0.8 kΩ1.8 kΩ

Drop-out voltage, min 0.5 V 1.2 V 2.4 V 0.5 V 1.2 V 2.4 V

Load

side

Max. load current 1 A*2Ta = Max. 40°C 104°F

Load voltage 75 to 125 V AC 75 to 250 V AC

Non-repetitive surge current 20 A*3In one cycle at 60 Hz

Max. “OFF-state” leakage current 0.6 m A (When 100 V AC applied) 1.1 m A (When 200 V AC applied) at 60 Hz

Max. “ON-state” voltage drop 1.6 V at max. carrying current

Min. load current 10 mA*420 mA*4

Type

Item AQC1AD1-5VDC AQC1AD1-12VDC AQC1AD1-24VDC Remarks

Input

side

Input voltage (5 V type)

4 to 6 V DC

(12 V type)

9.6 to 14.4 V DC

(24 V type)

21.6 to 26.4 V DC *1

Input impedance (Approx.) 0.43 kΩ1.2 kΩ2.8 kΩ

Drop-out voltage, min 0.8 V

Load

side

Max. load current 1 A*2Ta = Max. 40°C 104°F

Load voltage 3 to 60 V DC

Non-repetitive surge current 1.5 A*3at 1s

Max. “OFF-state” leakage current 0.1 m A (When 60 V DC applied)

Max. “ON-state” voltage drop 1.6 V at max. carrying current

Min. load current 1 mA*4

Panasonic Corporation Automation Controls Business Unit industrial.panasonic.com/ac/e/

AQ-C

ASCTB214E 201201-T1

2. Characteristics

[Ambient temperature: 20°C 68°F; Input voltage ripple (output module) and output voltage ripple (input module): 1% or less]

1) Input module

2) Output module

REFERENCE DATA

Type

Item AC Input module DC Input module Remarks

Operate time, max. 20 ms 0.5 ms Input voltage: 24 V DC or 100V AC

Output voltage: 24 V DC

Output current: 25mA

Release time, max 20 ms 0.5 ms

Insulation resistance, min. 109 Ω between input and output at 500 V DC

Breakdown voltage 2,500 Vrms between input and output For 1 minute

Vibration

resistance

Destructive 10 to 55Hz double amplitude of 3 mm 1 hour for X,Y, Z, axis

Functional 10 to 55Hz double amplitude of 3 mm 10 minutes for X,Y, Z, axis

Shock

resistance

Destructive Min. 980 m/s2 {100 G} 5 time each for X,Y,Z axis

Functional Min. 980 m/s2 {100 G} 4 time 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

Type

Item

AC output DC output Remarks

Random Zero-cross

Operate time, max. 1 ms 1/2 cycle of voltage sine wave + 1ms 0.5 ms

Release time, max. 1/2 cycle of voltage sine wave + 1ms 1 ms

Insulation resistance, min. 109Ω between input and output at 500 V DC

Breakdown voltage 2,500 Vrms between input and output For 1 minute

Vibration

resistance

Destructive 10 to 55Hz double amplitude of 3 mm 1 hour for X,Y, Z, axis

Functional 10 to 55Hz double amplitude of 3 mm 10 minutes for X,Y, Z, axis

Shock

resistance

Destructive Min. 980 m/s2 {100 G} 5 time each for X,Y,Z axis

Functional Min. 980 m/s2 {100 G} 4 time 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 Random Turn-ON,

Zero-cross (Turn-OFF) Zero-cross (Turn-ON and Turn-OFF) —

1. Load current vs. ambient temperature

characteristics

(AC/DC output)

Use load current within range speciﬁed in the ﬁgure

below

2.-(1) Non-repetitive surge current vs. carrying

time characteristics

(AC output)

2.-(2) Non-repetitive surge current vs. carrying

time characteristics

(DC output)

–30 0 20 40 60 80

Ambient temperature, °C

Load current, A

0.2

0.4

0.6

0.8

1.0

1234571020 304050 70100

No. of cycles at 60 Hz

Non-repetitive surge current, A

10 20 30 4050 70 100 200 300 1,000

Carrying time, ms

Non-repetitive surge current, A

3. Input current vs. input voltage characteristics

(AC/DC output)

4.-(1) Input current vs. input voltage

characteristics

(AC input)

4.-(2) Input current vs. input voltage

characteristics

(DC input)

Input voltage, V

Input current, mA

0102030

AC output

DC output

(5 V type) (12 V type) (24 V type)

Input voltage, V AC

Input current, mA

100 200 300

Input voltage, V DC

Input current, mA

5101520253035

Panasonic Corporation Automation Controls Business Unit industrial.panasonic.com/ac/e/

AQ-C

ASCTB214E 201201-T1

DIMENSIONS (mm inch)

5. Load current vs. ambient temperature

characteristics for adjacent mounting

(AC/DC output)

=12.7 mm

=20.32 mm

–30 0 20 40 60 80

Ambient temperature, °C

Load current, A

0.2

0.4

0.6

0.8

1.0

=Adjacent mounting pitch

.500 inch

.800 inch

The CAD data of the products with a CAD Data mark can be downloaded from: http://industrial.panasonic.com/ac/e/

1. Input module (AC, DC)

External dimensions

General tolerance: ±0.5 ±.020

2.7

.106

0.3 0.3

0.3

0.3 0.3

0.8

12.5

3.9

2.7

5.5

0.4 0.4

10.16 7.62

7.62

AC input

Case color: Yellow Case color: White

Output: DC –

Output: DC +

Input: AC

…

DC input

Output: DC –

Output: DC +

Input: DC +

Input: DC –

…

.394

.012 .012

.012

.012 .012

.031

.492

.154

.106

.217

.016 .016

.787

.400 .300

.300

PC board pattern (Copper-side view)

Tolerance: ±0.1 ±.004

Schematic

7.62

7.6210.16

4-1.1 dia.

4-.043 dia.

Terminal 1

Terminal 5

Terminal 8

Terminal 16

.300

.300.400

Input power

source

Specified polarities for

DC types are shown in

the parentheses.

Load power

source

(+)

(–)

–

Load

CAD Data

2. Output module (AC, DC)

External dimensions

General tolerance: ±0.5 ±.020

2.7

.106

0.3 0.3

0.3

0.3 0.3

0.8

12.5

3.9

2.7

5.5

0.4 0.4

10.16 7.62

7.62

AC output

Case color: Black Case color: Red

Output: AC

Input: DC +

Input: DC –

…

DC output

Output: DC –

Output: DC +

Input: DC +

Input: DC –

…

.394

.012 .012

.012

.012 .012

.031

.492

.154

.106

.217

.016 .016

.787

.400 .300

.300

PC board pattern (Copper-side view)

Tolerance: ±0.1 ±.004

Schematic

7.62

7.6210.16

4-1.1 dia.

4-.043 dia.

Terminal 1

Terminal 5

Terminal 8

Terminal 16

.300

.300.400

Load power source

Specified polarities for

DC types are shown in

the parentheses.

Input power

source

(+) (–)

–

Load

CAD Data

Panasonic Corporation Automation Controls Business Unit industrial.panasonic.com/ac/e/

AQ-C

ASCTB214E 201201-T1

ACCESSORY

NOTES

For Cautions for Use.

Socket

PC1A-PS

When used for the load less than rated

In the 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.

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 5 mA load

current and the 200 V AC load voltage,

the load impedance becomes 40 kΩ and

Ve/V = 16% is estimated from the below

graph.

Accordingly, the 32 V voltage remains

across the both ends of the load when

the solid state relay is turned off.

• Characteristics of residual voltage

vs. load impedance (AC output)

161

Load power source

Input power source

+–

Load

R0(Dummy resistor)

(+)

(–)

020 40

100,%

100

60 80 100

SSR

Load

f = 60 Hz

Ve: Residual voltage

V: Power voltage

Power factor: 1

(resistive load)

Power factor: 0.4

(inductive load)

Load impedance, kΩ

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Authorized Distributor

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AQC1A2-T24VDC-R AQC1A2-ZT12VDC-R