ADQ13Q006 [NAIS]

30A POWER LATCHING RELAY; 30A功率磁保持继电器


型号：	ADQ13Q006
厂家：	NAIS(MATSUSHITA ELECTRIC WORKS)
描述：	30A POWER LATCHING RELAY 30A功率磁保持继电器继电器
文件：	总3页 (文件大小：70K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

30A POWER LATCHING

RELAY

DQ-RELAYS

FEATURES

1. Compact with high capacity

Although compact this relay can handle

high capacity control of 30A.

29.0

1.142

3. High insulation

Designed with an insulation distance of at

least 8 mm.

38.0

1.496

17.3

.681

2. Latching type

4. Cadmium and lead free

With latching this relay contributes to en-

ergy conservation in devices.

5. Complies with safety standards

UL, CSA and VDE approved.

SPECIFICATIONS

Contact

Characteristics

Arrangement

1 Form A

Max. operating speed

(at rated load)

Initial insulation resistance*²

180 cpm

Initial contact resistance, max.

(By voltage drop 6 V DC 1 A)

30 mΩ

Min. 1,000 MΩ (at 500 V DC)

1,500 Vrms for 1 min.

Contact material

Silver alloy

30 A 250V AC

7,500 V A

250V AC

Between open

contacts

Initial breakdown

voltage*³

Nominal switching capacity

Between contacts

and coil

Max. switching power

Max. switching voltage

Max. switching current

Rating

(resistive load)

4,000 Vrms for 1 min.

Min. 10,000 V (initial)

Surge voltage between contact and

coil*⁴

30 A

Mechanical

(at 180 cpm)

Operate time [Set time]*⁵

(at 20°C)

10⁶

Expected life

(min. operations)

Max. 20ms

Electrical

(Resistive load)

(at nominal voltage)

Release time [Reset time]*⁵

(at 20°C)

10⁴*¹

Coil

(at nominal voltage)

Nominal operating power

Temperature rise (at 65°C)*⁶

Max. 50°C

1 coil latching

2 coil latching

800 mW

Functional*⁷

Min. 200 m/s²{20 G}

Min. 1,000 m/s²{100 G}

Shock

resistance

1,600 mW

Destructive*⁸

Functional*⁹

Remarks

10 to 55Hz

at double amplitude of 1.5mm

* Speciﬁcations will vary with foreign standards certiﬁcation ratings.

*¹At nominal switching capacity, operating frequency: 3s ON, 3s OFF

*²Measurement at same location as "Initial breakdown voltage" section.

*³Detection current: 10mA

Vibration

resistance

10 to 55Hz

at double amplitude of 2.0mm

Destructive

*⁴Wave is standard shock voltage of ±1.2 × 50µs according to JEC-212-1981

*⁵Excluding contact bounce time.

Conditions for

operation,

transport and

storage*¹⁰

(Not freezing and

condensing at

low temperature)

Ambient

temperature*¹¹

–40°C to +65°C

–40°F to +149°F

*⁶By resistive method, max. switching current

*⁷Half-wave pulse of sine wave: 11 ms; detection time: 10 µs

*⁸Half-wave pulse of sine wave: 6 ms

*⁹Detection time: 10 µs

Humidity

5 to 75% R.H.

*¹⁰Refer to 5. Usage, transport and storage conditions mentioned in NOTES

*¹¹Under the packing condition, allowable temperature range is from –40 to +65°C

–40° to +149°F.

Unit weight

Approx. 35 g 1.23 oz

TYPICAL APPLICATIONS

• Time switches

• Electric water heaters

• Remote control of electric power meters

ORDERING INFORMATION

ADQ

Operating function

Contact capacity

3: 30 A

Terminal shape

Contact characteristics

0: Standard contact

Coil voltage (DC)

1: 1 coil latching

2: 2 coil latching

Q: 250 Faston terminal

4H: 4.5 V 12: 12 V

06: 6 V

09: 9 V

24: 24 V

TYPES AND COIL DATA (at 20°C 68°F)

• 1 coil latching type

Nominal

Coil

Nominal

voltage,

V DC

Set voltage,

max. V DC

(initial)

Reset voltage,

max. V DC

(initial)

Nominal

operating

power, mW

Max.allowable

voltage,

Contact

arrangement

operating

Part No.

resistance, Ω

current, mA

(±10%)

V DC

(±10%)

ADQ13Q04H

ADQ13Q006

ADQ13Q009

ADQ13Q012

ADQ13Q024

4.5

3.15

4.2

3.15

4.2

25.3

177.8

133.3

88.9

800

5.85

7.8

1 Form A

6.3

101

11.7

15.6

31.2

8.4

180

720

66.7

16.8

33.3

• 2 coil latching type

Set

Reset

Coil resistance, Ω

(±10%)

Nominal operating

current, mA (±10%)

Nominal operating

power, mW

Nominal voltage, voltage,

Max.allowable

voltage,

Contact

arrangement

Part No.

voltage,

V DC

max.

V DC

(initial)

max.

V DC

(initial)

Reset

Set coil

Reset

Set coil

Reset

Set coil

V DC

coil

ADQ23Q04H

ADQ23Q006

ADQ23Q009

ADQ23Q012

ADQ23Q024

4.5

3.15

4.2

3.15

4.2

12.7

22.5

50.6

12.7

22.5

50.6

355.6

266.7

177.8

133.3

66.7

355.6

266.7

177.8

133.3

66.7

1,600

5.85

7.8

1 Form A

6.3

11.7

15.6

31.2

8.4

16.8

360

mm inch

DIMENSIONS

Schematic (Bottom view)

38.0

1.496

–

Reset

coil

Set

coil

29.0

1.142

40.1

1.579

250 faston terminal

35.8

1.409

6.35

.250

Note) Terminal No.3 is only for 2 coil latching

type.

4.5

.177

7.9

.311

PC board pattern (Bottom view)

21.4

.843

17.3

.681

0.3

.012

6.9

272

5.08

.200

15.24

.600

10.16

.400

0.8

.031

0.8

.031

5.08

.200

20.32

.800

0.8

0.4

1.5

5.08

.200

3.7

.146

.031

.016

.059

5.08

.200

0.8

.031

1.5

.059

5.08

.200

5.08

.200

25.4

1.000

1.8

.071

25.4

1.000

3.6

.142

10.16

.400

General tolerance: ±0.3 ±.012

Tolerance: ±0.1 ±.004

NOTES

1. Coil operating power

6) Check the ambient conditions when

storing or transporting the relays and de-

vices containing the relays. Freezing or

condensation may occur in the relay,

causing functional damage. Avoid sub-

jecting the relays to heavy loads, or strong

vibration and shocks.

Pure DC current should be applied to the

coil.The wave form should be rectangular.

If it includes ripple, the ripple factor should

be less than 5%. However, check it with

the actual circuit since the characteristics

may be slightly different.

2. Coil connection

5. Usage, transport and storage condi-

tions

1) Ambient temperature, humidity, and at-

mospheric pressure during usage, trans-

port, and storage of the relay:

(1) Temperature:

–40 to +65°C – 40 to +149° F

(2) Humidity: 5 to 75% RH

(Avoid freezing and condensation.)

The humidity range varies with the tempera-

ture. Use within the range indicated in the

graph below.

When connecting coils, refer to the wiring

diagram to prevent mis-operation or mal-

function.

3. Soldering

We recommend the following soldering

conditions

Soldering: 300°C 572° F, max. 5 s

4. Others

1) If the relay has been dropped, the ap-

pearance and characteristics should al-

ways be checked before use.

Humidity, %RH

2) The cycle lifetime is deﬁned under the

standard test condition speciﬁed in the

JIS* C 5442-1996 standard (temperature

15 to 35°C 59 to 95°F, humidity 25 to

75%). Check this with the real device as it

is affected by coil driving circuit, load type,

activation frequency, activation

Tolerance range

(Avoid

(Avoid freezing

condensation

when used at

temperatures lower

temperatures higher

than 0°C 32°F)

phase,ambient conditions and other fac-

tors.

–40

+119

+32

Temperature, °C °F

Also, be especially careful of loads such

as those listed below.

(1) When used for AC load-operating and

the operating phase is synchronous.

Rocking and fusing can easily occur due

to contact shifting.

(2) High-frequency load-operating

When high-frequency opening and clos-

ing of the relay is performed with a load

that causes arcs at the contacts, nitrogen

and oxygen in the air is fused by the arc

energy and HNO³is formed.This can cor-

rode metal materials.

(3) Atmospheric pressure: 86 to 106 kPa Tem-

perature and humidity range for usage, trans-

port, and storage:

2) Condensation

Condensation forms when there is a sud-

den change in temperature under high

temperature and high humidity conditions.

Condensation will cause deterioration of

the relay insulation.

3) Freezing

Condensation or other moisture may

freeze on the relay when the tempera-

tures is lower than 0°C 32° F.This causes

problems such as sticking of movable

parts or operational time lags.

4) Low temperature, low humidity environ-

ments

The plastic becomes brittle if the relay is

exposed to a low temperature, low humid-

ity environment for long periods of time.

Three countermeasures for these are listed

here.

1. Incorporate an arc-extinguishing cir-

cuit.

2. Lower the operating frequency

3. Lower the ambient humidity

3) For secure operations, the voltage ap-

plied to the coil should be nominal volt-

age. In addition, please note that pick-up

and drop-out voltage will vary according

to the ambient temperature and operation

conditions.

4) Heat, smoke, and even a ﬁre may occur

if the relay is used in conditions outside of

the allowable ranges for the coil ratings,

contact ratings, operating cycle lifetime,

and other speciﬁcations. Therefore, do

not use the relay if these ratings are ex-

ceeded. Also, make sure that the relay is

wired correctly.

5) Incorrect wiring may cause unexpected

events or the generation of heat or ﬂames.

12/1/2001

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