ASX200A06Z datasheet, PDF - EEWORLD Datasheet

ASX200A06Z: DescriptionHIGH SENSITIVITY RELAY WITH GUARANTEED LOW LEVEL SWITCHING CAPACITY; File Size93KB，5 Pages; ManufacturerNais ( Matsushita Electric Works ); Websitehttp://www.nais-e.com/

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HIGH SENSITIVITY RELAY WITH GUARANTEED LOW LEVEL SWITCHING CAPACITY

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HIGH SENSITIVITY RELAY

WITH GUARANTEED LOW

LEVEL SWITCHING

CAPACITY

FEATURES

15.0

.591

7.4

.291

8.2

.323

TESTING

SX-RELAYS

2. High sensitibity of 50 mW

By using the highly efﬁcient polar magnet-

ic circuit "seesaw balance armature

mechanism", a rated power consumption

of 50 mW (for single side stable type) has

been achieved.

3. Low thermal electromotive force

Reducing the heat from the coil enables a

thermal electromotive force of 3

V or

less.

15.0

.591

7.4

.291

Max. 10.0

.394

1. High contact reliability over a long

life has been made possible for low

level loads.

Using a low level load (1 mV 10

A to 10 V

10 mA) 10

operations were achieved with

a static contact resistance of Max. 100

Ω

(voltage drop of 20 mV, 1 mA, 1 kHz)

and a dynamic contact resistance of Max.

Ω

(Measurement delay 10 ms, voltage

drop of 20 mV, 1 mA, 1 kHz).

inch

SPECIFICATIONS

Contact

Arrangement

Static contact resistance (During initial and

electric life tests)*

(By voltage drop of 20 mV 1 mA [1kHz])

Dynamic contact resistance (During initial and

electric life tests)*

(By voltage drop of 20 mV 1 mA[1 kHz], Mea-

surement delay 10 ms after applying nominal

coil voltage)

Contact material

Nominal switching capacity

(resistive load)

Rating

Max. switching power

Max. switching voltage

Max. switching current

Min. switching capacity**

Single side stable

Nominal

operating

power

1 coil latching

2 coil latching

Thermal electromotive force, max.

(at nominal voltage applied to the coil**

)

Mechanical (at 750 cpm)

Expected

life (min.

Electrical (at 750 cpm)

operations) (10 mA 10 V DC resistive load)

Notes:

This value can change due to the switching frequency, environmental conditions,

and desired reliability level, therefore it is recommended to check this with the ac-

tual load.

For single side stable only.

Characteristics

2 Form C

Max. 100 m

Ω

Initial insulation resistance*

Initial

breakdown

voltage*

Between open contacts

Between contact sets

Between contact and coil

Min. 10,000M

Ω

(at 500V DC)

750 Vrms for 1min.

1,000 Vrms for 1min.

1,800 Vrms for 1min.

Max. 5 ms (Approx. 3 ms)

[Max. 5 ms (Approx. 3 ms)]

Max. 5 ms (Approx. 1.5 ms)

[Max. 5 ms (Approx. 3 ms)]

Max. 50

Min. 750 m/s

{75G]

Min. 1,000 m/s

{100G]

10 to 55 Hz at double

amplitude of 3.3 mm

10 to 55 Hz at double

amplitude of 5 mm

–40

C to 70

–40

F to 158

5 to 85% R.H.

Approx. 2 g

.071 oz

Max. 1

Ω

Operate time [Set time]*

(at 20

Release time (without diode)

[Reset time]*

(at 20

Temperature rise*

(at 20

Functional*

Shock resistance

Destructive*

Functional*

Vibration resistance

Destructive

Conditions for operation,

transport and storage*

(Not freezing and con-

densing at low tempera-

ture)

Unit weight

Remarks:

Ambient

temperature

Humidity

Gold-clad silver alloy

10 mA 10 VDC

0.1 W

10 VDC

10 mA DC

A 1 mVDC

50mW (1.5 to 12 V DC)

70mW (24 V DC)

35mW (1.5 to 12 V DC)

50mW (24 V DC)

70mW (1.5 to 12 V DC)

150mW (24 V DC)

* Speciﬁcations will vary with foreign standards certiﬁcation ratings.

By nominal switching capacity: No. of operations: 10

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

Detection current: 10mA.

Nominal voltage applied to the coil, excluding contact bounce time.

By resistive method, nominal voltage applied to the coil; contact carrying current:

10mA.

Half-wave pulse of sine wave: 6 ms; detection time: 10

Half-wave pulse of sine wave: 6 ms.

Detection time: 10

Refer to 5. Conditions for operation, transport and storage mentioned in

AMBIENT ENVIRONMENT (Page 61)

TYPICAL APPLICATIONS

This relay will be used for the small load

for measuring instruments or others

where a stable contact resistance is

required.

120

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