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DSP

1a 8A, 1a1b/2a 5A

small polarized power

relays

3. High sensitivity

Using the same type of high-

performance polar magnetic circuits as

DS relays, by matching the spring load

to the magnetic force of attraction,

greater sensitivity has been achieved.

The resultant pick up sensitivity of

about 190 mW makes possible direct

driving of transistors and chips.

4. High breakdown voltage

Breakdown voltage has been raised by

keeping the coil and contacts separate.

Between contact

and coil

3,000 Vrms for 1 min.

5,000 V surge

breakdown voltage

Conforms with FCC Part 68

Between contacts

1,000 Vrms for 1 min.

1,500 V surge

breakdown voltage

DSP RELAYS

TYPICAL APPLICATIONS

1. Ofﬁce and industrial electronic

devices

2. Terminal devices of information

processing equipment, such as

printer, data recorder.

3. Ofﬁce equipment (copier, facsimile)

4. Measuring instruments

5. NC machines, temperature

controllers and programmable logic

controllers.

RoHS compliant

FEATURES

1. Compact with high contact rating

Even with small 10 mm

.394 inch

(H) x

11 mm

.433 inch

(W) x 20 mm

.787

inch

(L) (dimensions, high capacity

switching is provided: 1a, 8 A 250 V

AC; 2a and 1a1b, 5 A 250 V AC.

2. High switching capability

High contact pressure, low contact

bounce, and wiping operation improve

resistance to weld bonding. Resistant

against lamp load and dielectric

loading: 1a achieves maximum

switching capacity of 2,000 VA (8A 250

V AC).

5. Latching types available

6. Wide variation

Three types of contact arrangement

are offered: 1a, 2a, and 1a1b. In

addition, each is available in standard

and reversed polarity types.

7. Sealed construction allows

automatic washing.

8. Complies with safety standards

Complies with Japan Electrical

Appliance and Material Safety Law

requirements for operating 200 V

power supply circuits, and complies

with UL, CSA, and TÜV safety

standards.

9. Sockets are available.

ORDERING INFORMATION

DSP

Contact arrangement

1a: 1 Form A

1: 1 Form A 1 Form B

2a: 2 Form A

Operating function

Nil: Single side stable

L2: 2 coil latching

Nominal coil voltage

DC 3, 5, 6, 9, 12, 24 V

Polarity

Nil: Standard polarity

R: Reverse polarity

Contact material

• AgSnO

type

F: 1 Form A 1 Form B

Nil: 1 Form A, 2 Form A

Notes: 1. Reverse polarity types available (add suffix-R)

2. Certified by UL, CSA and TÜV

Panasonic Corporation

Automation Controls Business Unit

industrial.panasonic.com/ac/e/

ASCTB180E 201202-T

DSP

TYPES

Contact

arrangement

Nominal coil

voltage

3V DC

5V DC

6V DC

9V DC

12V DC

24V DC

3V DC

5V DC

6V DC

9V DC

12V DC

24V DC

3V DC

5V DC

6V DC

9V DC

12V DC

24V DC

Single side stable

Part No.

DSP1a-DC3V

DSP1a-DC5V

DSP1a-DC6V

DSP1a-DC9V

DSP1a-DC12V

DSP1a-DC24V

DSP1-DC3V-F

DSP1-DC5V-F

DSP1-DC6V-F

DSP1-DC9V-F

DSP1-DC12V-F

DSP1-DC24V-F

DSP2a-DC3V

DSP2a-DC5V

DSP2a-DC6V

DSP2a-DC9V

DSP2a-DC12V

DSP2a-DC24V

2 coil latching

Part No.

DSP1a-L2-DC3V

DSP1a-L2-DC5V

DSP1a-L2-DC6V

DSP1a-L2-DC9V

DSP1a-L2-DC12V

DSP1a-L2-DC24V

DSP1-L2-DC3V-F

DSP1-L2-DC5V-F

DSP1-L2-DC6V-F

DSP1-L2-DC9V-F

DSP1-L2-DC12V-F

DSP1-L2-DC24V-F

DSP2a-L2-DC3V

DSP2a-L2-DC5V

DSP2a-L2-DC6V

DSP2a-L2-DC9V

DSP2a-L2-DC12V

DSP2a-L2-DC24V

1 Form A

1 Form B

2 Form A

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

Note: Reverse polarity type are manufactured by lot upon receipt of order. Self-clinching types are also available, please consult us.

* For sockets, see page 100.

RATING

1. Coil data

1) Single side stable

Nominal coil

voltage

3V DC

5V DC

6V DC

9V DC

12V DC

24V DC

80%V or less of

nominal voltage

(Initial)

10%V or more of

nominal voltage

(Initial)

Pick-up voltage

(at 20°C

68°F)

Drop-out voltage

(at 20°C

68°F)

Nominal operating

current

[±10%] (at 20°C

68°F)

100mA

60mA

50mA

33.3mA

25mA

12.5mA

Coil resistance

[±10%] (at 20°C

68°F)

30Ω

83Ω

120Ω

270Ω

480Ω

1,920Ω

130%V of

nominal voltage

Nominal operating

power

Max. applied voltage

(at 20°C

68°F)

300mW

2) 2 coil latching

Nominal coil

voltage

3V DC

5V DC

6V DC

9V DC

12V DC

24V DC

80%V or less of

nominal voltage

(Initial)

80%V or less of

nominal voltage

(Initial)

Set voltage

(at 20°C

68°F)

Reset voltage

(at 20°C

68°F)

Nominal operating

current

[±10%] (at 20°C

68°F)

Set coil

Reset coil

100mA

60mA

50mA

33.3mA

25mA

12.5mA

100mA

60mA

50mA

33.3mA

25mA

12.5mA

Coil resistance

[±10%] (at 20°C

68°F)

Set coil

30Ω

83Ω

120Ω

270Ω

480Ω

1,920Ω

Reset coil

30Ω

83Ω

120Ω

270Ω

480Ω

1,920Ω

130%V of

nominal voltage

Nominal operating

power

Set coil

Reset coil

Max. applied voltage

(at 20°C

68°F)

300mW

ASCTB180E 201202-T

Panasonic Corporation

Automation Controls Business Unit

industrial.panasonic.com/ac/e/

DSP

2. Speciﬁcations

Characteristics

Contact

Item

Arrangement

Contact resistance (Initial)

Contact material

Nominal switching capacity (resistive load)

Max. switching power (resistive load)

Max. switching voltage

Max. switching current

Nominal operating power

Min. switching capacity (Reference value)*

Insulation resistance (Initial)

Breakdown voltage

(Initial)

Electrical

characteristics

Between open contacts

Between contact sets

Between contact and coil

1 Form A

Speciﬁcations

1 Form A 1 Form B

2 Form A

Max. 30 mΩ (By voltage drop 6 V DC 1A)

Au-ﬂashed AgSnO

type

8 A 250 V AC, 5A 30V DC

5 A 250 V AC, 5 A 30 V DC

2,000 VA, 150 W

1,250 VA, 150 W

250 V AC, 125 V DC

8 A AC, 5 A DC

5 A AC, DC

300 mW

10m A 5 V DC

Min. 1,000MΩ (at 500V DC) Measurement at same location as “Breakdown voltage” section.

1,000 Vrms for 1min. (Detection current: 10mA.)

2,000 Vrms (1 Form A 1 Form B, 2 Form A) (Detection current: 10mA.)

3,000 Vrms for 1min. (Detection current: 10mA.)

5,000 V

Max. 55°C

Max. 40°C

Max. 55°C

Rating

Surge breakdown

between contacts and coil

voltage*

Temperature rise (coil) (at 65°C

149°F)

Operate time [Set time] (at 20°C

68°F)

Release time [Reset time] (at 20°C

68°F)

Shock resistance

Functional

Destructive

Functional

Destructive

Max. 10 ms [10 ms] (Nominal coil voltage applied to the coil, excluding contact bounce time.)

Max. 5 ms [10 ms] (Nominal coil voltage applied to the coil, excluding contact bounce time.)

(without diode)

Min. 196 m/s

(Half-wave pulse of sine wave: 11 ms; detection time: 10µs.)

Min. 980 m/s

(Half-wave pulse of sine wave: 6 ms.)

10 to 55 Hz at double amplitude of 2 mm (Detection time: 10µs.)

10 to 55 Hz at double amplitude of 3.5 mm

Min. 5×10

(at 180 times/min.)

Min. 10

(resistive load)

Ambient temperature:

–40°C to +60°C

–40°C to +65°C

–40°C to +60°C

–40°F to +140°F

–40°F to +149°F

–40°F to +140°F

250°C

482°F

(10s), 300°C

572°F

(5s), 350°C

662°F

(3s)

(Soldering depth: 2/3 terminal pitch)

3 cps

Approx. 4.5 g

.16 oz

Mechanical

characteristics

Vibration resistance

Expected life

Mechanical

Electrical

Conditions for operation, transport and storage*

(Not freezing and condensing at low temperature)

Conditions

Solder heating

Max. operating speed

Unit weight

Notes: *1. This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the

actual load.

*2. Wave is standard shock voltage of

±1.2×50µs

according to JEC-212-1981

*3. The upper limit of the ambient temperature is the maximum temperature that can satisfy the coil temperature rise value. Refer to Usage, transport and storage

conditions in NOTES.

REFERENCE DATA

1. Max. switching capacity

AC resistive

load (1a)

No. of operations,

×10

100

265 V·130 V AC cosϕ = 1

AC resistive

load

(1a1b,2a)

2.-(1) Life curve (1 Form A 1 Form B)

2.-(2) Life curve (1 Form A 1 Form B)

No. of operations,

×10

Contact current, V

100

30 V DC L/R = 7 ms

30 V DC resistive

DC resistive

load (1a)

DC resistive load

(1a1b,2a)

10 265 V·130 V AC

cosϕ = 0.4

0.1

100

Contact voltage, V

1000

Switching capacity, A

0.5

Switching capacity, A

3.-(1) Coil temperature rise (1 Form A)

Tested sample: DSP1a-DC12V, 5 pcs.

Coil temperature rise,

°C

3.-(2) Coil temperature rise

(1 Form A 1 Form B)

Tested sample: DSP1-DC12V, 5 pcs.

Coil temperature rise,

°C

3.-(3) Coil temperature rise (2 Form A)

Tested sample: DSP2a-DC12V, 5 pcs.

Coil temperature rise,

°C

100

120

Coil applied voltage, %V

100

120

Coil applied voltage, %V

100

120

Coil applied voltage, %V

Panasonic Corporation

Automation Controls Business Unit

industrial.panasonic.com/ac/e/

ASCTB180E 201202-T

DSP

4.-(1) Operate & release time

(without diode, 1 Form A)

Tested sample: DSP1a-DC12V, 5 pcs.

Operate & release time, ms

Operate time

Max.

Min.

Release time

Max.

Min.

100

120

Coil applied voltage, %V

Operate & release time, ms

4.-(2) Operate & release time

(without diode, 1 Form A 1 Form B)

Tested sample: DSP1-DC12V, 5 pcs.

4.-(3) Operate & release time

(without diode, 2 Form A)

Tested sample: DSP2a-DC12V, 5 pcs.)

Operate & release time, ms

Operate time

Release time

Max.

Min.

Max.

Min.

Release time

Max.

Min.

Max.

Min.

Operate time

100

110

Coil applied voltage, %V

100

120

Coil applied voltage, %V

4.-(4) Operate & release time

(with diode, 1 Form A)

Tested sample: DSP1a-DC12V, 5 pcs.

Operate & release time, ms

4.-(5) Operate & release time

(with diode, 1 Form A 1 Form B)

Tested sample: DSP1-DC12V, 5 pcs.

Operate & release time, ms

4.-(6) Operate & release time

(with diode, 2 Form A)

Tested sample: DSP2a-DC12V, 5 pcs.

Operate & release time, ms

Release time

100

120

Max.

Min.

Max.

Min.

Operate time

Release time

100

120

Coil applied voltage, %V

Operate time

Max.

Min.

Max.

Min.

Release time

100

110

Coil applied voltage, %V

Max.

Min.

Operate time

Coil applied voltage, %V

5.-(1) Change of pick-up and drop-out voltage

(1 Form A)

Tested sample: DSP1a-DC12V, 5 pcs.

(%)

Rate of change

5.-(2) Change of pick-up and drop-out voltage

(1 Form A 1 Form B)

Tested sample: DSP1-DC12V, 5 pcs.

(%)

Rate of change

5.-(3) Change of pick-up and drop-out voltage

(2 Form A)

Tested sample: DSP2a-DC12V, 5 pcs.

(%)

Rate of change

Drop-out

voltage

Pick-up voltage

–40 –20

Pick-up voltage

Drop-out

voltage

Pick-up voltage

–40 –20

20 40

60 80

Ambient

temperature,

°C

20 40

Ambient

temperature,

°C

–40 –20

20 40

60 80

Ambient

temperature,

°C

–50

Drop-out voltage

–50

6.-(1) Inﬂuence of adjacent mounting

(1 Form A)

Tested sample: DSP1a-DC12V, 5 pcs.

Pick-up voltage

Rate of change, %

6.-(2) Inﬂuence of adjacent mounting

(1 Form A 1 Form B)

Tested sample: DSP1-DC12V, 5 pcs.

Rate of change, %

–2

–4

–6

–8

–10

Pick-up voltage

6.-(3) Inﬂuence of adjacent mounting

(2 Form A)

Tested sample: DSP2a-DC12V, 5 pcs.

Pick-up voltage

Rate of change, %

Drop-out voltage

A, C

relays

are not

energized

A, C

relays

are

energized

A, C

relays

are not

energized

Drop-out voltage

A, C

relays

are

energized

Drop-out voltage

A, C

relays

are not

energized

A, C

relays

are

energized

Inter-relay distance ( ), mm

ASCTB180E 201202-T

Panasonic Corporation

Automation Controls Business Unit

industrial.panasonic.com/ac/e/

DSP

DIMENSIONS

(mm

inch)

1. 1 Form A type

CAD Data

Single side stable

20.2

.795

The CAD data of the products with a

CAD Data

mark can be downloaded from: http://industrial.panasonic.com/ac/e/

External dimensions

2 coil latching

20.2

.795

11.0

.433

PC board pattern (Bottom view)

Single side stable

4-1.2 dia.

2.54

4-.047 dia.

.100

2 coil latching

6-1.2 dia.

2.54

6-.047 dia.

.100

10.0 10.5

.394 .413

10.0 10.5

.394 .413

2.54

.100

0.3

.012

1.0

.039

7.62

.300

2.54

.100

1.0

.039

0.8

.031

7.62

.300

7.2

.283

10.16

.400

0.3 3.5

.012 .138

0.8

.031

1.21

.031

.048

7.62

.300

1.0

.039

0.3 3.5

.012 .138

0.8

.031

1.21

7.2

.048

.283

2.54

7.62

.100

.300

Tolerance:

±0.1

±.004

Schematic (Bottom view)

Single side stable

–

2 coil latching

–

General tolerance:

±0.3

±.012

(Deenergized condition)

(Reset condition)

2. 1 Form A 1 Form B type

CAD Data

Single side stable

20.2

.795

External dimensions

2 coil latching

20.2

.795

11.0

.433

PC board pattern (Bottom view)

Single side stable

6-1.2 dia.

6-.047 dia.

2.54×3 2.54×4

.100×3 .100×4

2.54× 3

.100× 3

0.3

.012

1.0

.039

7.62

.300

2 coil latching

8-1.2 dia.

8-.047 dia.

2.54×3 2.54

×3

.100

×3

.100

2.54

×3

.100

×3

2.54

.100

10.0 10.5

.394 .413

10.0 10.5

.394 .413

1.0

.039

0.8

.031

7.62

.300

7.2

.283

10.16

.400

0.3 3.5

.012 .138

0.8

.031

1.21

.031

.048

7.62

.300

1.0

.039

0.3 3.5

.012 .138

0.8

.031

1.21

7.2

.048

.283

2.54

7.62

.100

.300

Tolerance:

±0.1

±.004

Schematic (Bottom view)

Single side stable

–

2 coil latching

–

General tolerance:

±0.3

±.012

(Deenergized condition)

(Reset condition)

3. 2 Form A type

CAD Data

Single side stable

20.2

.795

External dimensions

2 coil latching

20.2

.795

11.0

.433

PC board pattern (Bottom view)

Single side stable

6-1.2 dia.

6-.047 dia.

2.54×3 2.54×4

.100×3 .100×4

2.54× 3

.100× 3

0.3

.012

1.0

.039

7.62

.300

2 coil latching

8-1.2 dia.

8-.047 dia.

2.54×3 2.54

×3

.100

×3

.100

2.54

×3

.100

×3

2.54

.100

10.0 10.5

.394 .413

10.0 10.5

.394 .413

1.0

.039

0.8

.031

7.62

.300

7.2

.283

10.16

.400

0.3 3.5

.012 .138

0.8

.031

1.21

.031

.048

7.62

.300

1.0

.039

0.3 3.5

.012 .138

0.8

.031

1.21

7.2

.048

.283

2.54

7.62

.100

.300

Tolerance:

±0.1

±.004

Schematic (Bottom view)

Single side stable

–

2 coil latching

–

General tolerance:

±0.3

±.012

(Deenergized condition)

(Reset condition)

Panasonic Corporation

Automation Controls Business Unit

industrial.panasonic.com/ac/e/

ASCTB180E 201202-T