A22K-K Omron, A22K-K Datasheet - Page 16

A22K-K

Manufacturer Part Number

A22K-K

Description

REPLACEMENT KEY A22 SERIES 2 PCS

Manufacturer

Omron

Type

Pushbutton Switchr

Datasheets

1.M2DA-7001.pdf (265 pages)

2.A22K-K.pdf (6 pages)

Specifications of A22K-K

Accessory Type

Replacement Key

Termination Style

Crimp

For Use With/related Products

A22K Series

For Use With

A22K-3MC-20 - SWITCH KEYLOCK 3POS ALT DPST-NOA22K-3MC-10 - SWITCH KEYLOCK 3POS ALT SPST-NOA22K-3MC-02 - SWITCH KEYLOCK 3POS ALT DPST-NCA22K-3MC-01 - SWITCH KEYLOCK 3POS ALT SPST-NCA22K-3AC-20 - SWITCH KEYLOCK 3POS MOM DPST-NOA22K-3AC-10 - SWITCH KEYLOCK 3POS MOM SPST-NOA22K-3AC-02 - SWITCH KEYLOCK 3POS MOM DPST-NCA22K-2ML-20 - SWITCH KEYLOCK 2POS ALT DPST-NOA22K-2ML-11 - SWITCH KEYLOC 2POS ALT DPST-NO/CA22K-2ML-02 - SWITCH KEYLOCK 2POS ALT DPST-NCA22K-2ML-01 - SWITCH KEYLOCK 2POS ALT SPST-NCA22K-2M-20 - SWITCH KEYLOCK 2POS ALT DPST-NOA22K-2M-11 - SWITCH KEYLOC 2POS ALT SPST-NO/CA22K-2M-02 - SWITCH KEYLOCK 2POS ALT DPST-NCA22K-2M-01 - SWITCH KEYLOCK 2POS ALT SPST-NCA22K-2AL-20 - SWITCH KEYLOCK 2POS MOM DPST-NOA22K-2AL-11 - SWITCH KEYLOC 2POS MOM SPST-NO/CA22K-2AL-02 - SWITCH KEYLOCK 2POS MOM DPST-NCA22K-2AL-01 - SWITCH KEYLOCK 2POS MOM SPST-NCA22K-3ML - SWITCH UNIT KEYLOCK ALT 3POS BLKA22K-3MC - SWITCH UNIT KEYLOCK ALT 3POS BLKA22K-3M - SWITCH UNIT KEYLOCK ALT 3POS BLKA22K-3AC - SWITCH UNIT KEYLOCK MOM 3POS BLKA22K-2ML - SWITCH UNIT KEYLOCK ALT 2POS BLKA22K-2M - SWITCH UNIT KEYLOCK ALT 2POS BLKA22K-2AL - SWITCH UNIT KEYLOCK MOM 2POS BLKZ1536 - SWITCH KEY 3-POS SPST-NO/NC BLKZ1535 - SWITCH KEY 3-POS SPST-NO/NC BLKZ1534 - SWITCH KEY 3-POS SPST-NO/NC BLKZ1533 - SWITCH KEY 3-POS SPST-NO/NC BLKZ1532 - SWITCH KEY 2POS SPST-NO BLACKZ1531 - SWITCH KEY 2POS SPST-NO BLACKZ1530 - SWITCH KEY 2POS SPST-NO BLACK

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

A22K-K
A22KK
Z1669

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Technical Information

For the individual precautions for a Switch, refer to the precautions

in the section for that Switch.

Cautions

Do not perform wiring or touch the charged parts of terminals while

power is being supplied to the Switch. Doing so may result in electric

shock.

Electrical Characteristics

Electrical Conditions

•

Inrush Current

•

Common Precautions

The switching load capacity of the Switch greatly varies between

AC and DC. Always be sure to apply the rated load. The control

capacity will drastically drop if it is a DC load. This is because a

DC load has no current zero-cross point, unlike an AC load.

Therefore, if an arc is generated, it may continue for a

comparatively long time. Furthermore, the current direction is

always the same, which results in a contact relocation

phenomena whereby the contacts easily stick to each other and

do not separate when the surfaces of the contacts are uneven.

Some types of load have a great difference between normal

current and inrush current. Make sure that the inrush current is

within the permissible value. The greater the inrush current in the

closed circuit is, the greater the contact abrasion or shift will be.

Consequently, contact weld, contact separation failures, or

insulation failures may result. Furthermore, the Switch may be

broken or damaged.

If the load is inductive, counter-electromotive voltage will be

generated. The higher the voltage is, the higher the generated

energy will be, which will increase the abrasion of the contacts

and contact relocation phenomena. Be sure to use the Switch

within the rated conditions.

Approximate control capacities are given in ratings tables, but

these alone are insufficient to guarantee correct operation. For

special types of load, with unusual switching voltage or current

waveforms, test whether correct operation is possible with the

actual load before application.

When switching for microloads (voltage or current), use a Switch

with microload specifications. The reliability of silver-plated

contacts, which are used in Switches for standard loads, will be

insufficient for microloads.

When switching microloads or very high loads that are beyond

the switching capacity of the Switch, connect a relay suitable for

the load.

i (Inrush current)

o (Steady-

state current)

Type of Load vs. Inrush Current

•

Note: Inductive loads can cause problems especially in DC cir-

Load Connections

Do not contact a single Switch to two power supplies that are differ-

ent in polarity or type.

Connection of Different Polarities

The power supply may short-circuit if the loads are connected in the

way shown in the “incorrect” example below.

Even in the “correct” example, note that the insulation performance

of the switch may deteriorate and the switch life may be shortened

because loads are connected to both contacts.

All the performance ratings given are for operation under the

following conditions unless otherwise specified.

Inductive load: A minimum power factor of 0.4 (AC) and a maxi-

Lamp load:

Motor load:

Incorrect

Correct

cuitry. Therefore, it is essential to know the time constants

(L/R) of the load.

mum time constant of 7 ms (DC)

An inrush current 10 times higher than the

steady-state current

An inrush current 6 times higher than the

steady-state current

Load

Solenoid

(Approximately 10 to 20 times higher)

Incandescent

lamp (Approximately 10 to 15 times

higher)

Technical Information

Motor

(Approximately

5 to 10 times

higher)

Relay

(Approxi-

mately 4 to 5

times higher)

Load

A22K-K Omron, A22K-K Datasheet - Page 16

A22K-K

Specifications of A22K-K

Related parts for A22K-K