G9YA-12S-45-D DC24 Omron, G9YA-12S-45-D DC24 Datasheet - Page 14

G9YA-12S-45-D DC24

Manufacturer Part Number

G9YA-12S-45-D DC24

Description

HF RELAY

Manufacturer

Omron

Series

G9YAr

Type

Coaxial Switchr

Datasheets

1.G9YA-12S-45_DC4.5.pdf (10 pages)

2.G9YA-12S-45-D_DC24.pdf (16 pages)

Specifications of G9YA-12S-45-D DC24

Relay Type

Contact Form

SPDT (1 Form C)

Coil Type

Standard

Coil Current

29.2mA

Coil Voltage

24VDC

Turn On Voltage (max)

19.2 VDC

Turn Off Voltage (min)

2.4 VDC

Mounting Type

Chassis Mount

Termination Style

Solder Lug

Circuit

SPDT (1 Form C)

Control On Voltage (max)

19.2 VDC

Control Off Voltage (min)

2.4 VDC

Pole Throw Configuration

SPDT

Current Rating (max)

0.1A

Operating Temp Range

-55C to 85C

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Contact Rating @ Voltage

Lead Free Status / Rohs Status

Compliant

Other names

G9YA-12S-45-DDC24
G9YA12S45DDC24

Current page: 14 of 16
Download datasheet (689Kb)

G9YA

Precautions

Note:

■

Relay Handling

• Relays are precision components. Do not subject the Relay to

• Avoid subjecting the Relay to direct sunlight when it is being

• The Relay is not sealed. It cannot be washed.

• Be absolutely sure not to wire the Relay incorrectly. Incorrect

• Recommended torque for mounting the SMA connectors is the

• Use of two or more Relays may result in change in the Relay

• Use a power supply for the coil operating power supply with a

• Operation in excess of the coil ratings, contact ratings, switching

• For DPDT models, both outputs may be ON for several

Latching Relay Mounting

Make sure that the vibration or shock generated from other

devices (e.g., Relays) on the same panel during operation or

resetting do not exceed the values provided in the catalog,

otherwise the latching Relay that has been set may be reset or

vice versa. The latching Relay is reset before shipping. If

excessive vibration or shock is imposed, however, the latching

Relay may be set accidentally. Be sure to apply a reset signal

before use.

Long-term Continuously ON Contacts

Using the Relay in a circuit where the Relay will be ON

continuously for long periods (without switching) can lead to

unstable contacts because the heat generated by the coil itself

will deteriorate the insulation, causing a film to develop on the

contact surfaces. We recommend using a latching Relay

(magnetic-holding Relay) in this kind of circuit. If a failsafe Relay

must be used in this kind of circuit, use a full-loop circuit design to

provide protection against possible poor connections and coil

disconnection.

Using Relays in an Atmosphere Containing

Corrosive Gas (Silicon, Sulfuric, or Organic Gas)

Do not use Relays in a location where silicon gas, sulfuric gas

(SO

long period in an atmosphere of sulfuric gas or organic gas,

contact surfaces may become corroded and cause contact

instability and obstruction, and terminal soldering characteristics

may be degraded. If Relays are stored or used for a long time in

an atmosphere of silicon gas, a silicon coating will be generated

on contact surfaces, causing contact failure.

vibration or shock in excess of the standard values, whether

before or after mounting. The original performance cannot be

maintained if the Relay is subjected to abnormal vibration or

shock or dropped. Also, do not subject the Relay to vibration or

shock in excess of the rated values when it is still packaged.

used, stored or transported. Keep the Relay at conditions of

normal temperature, humidity, and pressure.

wiring will result in failure of Relay functions and damage or fire

in the Relay, in addition to affecting external circuits.

MIL-C-39012 standard of 0.90±0.1 N·m. The conditions,

however, depend on the compatibility with the material of the

connectors.

characteristics due to interference in the magnetic fields

generated by the Relays. Be sure to check operation using the

actual devices before use.

maximum ripple of 5%. Be sure to check operation using the

actual devices before use.

service life or other specifications may result in abnormal heat

generation, smoke, or fire.

milliseconds. Incorporate this possibility into the safety design so

that the equipment is not damaged.

Precautions for Correct Use

, H

For general precautions refer to precautions for Relays in PCB Relays Group Catalog (Cat. No. X033).

S), or organic gas is present. If Relays are used for a

Connecting to Coil Terminals and Indicator

Terminals

I. Models with Soldering Terminals

Perform manual soldering under the following conditions.

II. Models with Pin Terminals

Heed the following precautions when using models with pin

terminals.

Repeatability

Consult with your OMRON representative before using the Switch

in an application that requires high repeatability of high-frequency

characteristics for a microload. This includes applications in test-

ing and measurement devices (including ATE). OMRON provides

models with high contact reliability.

1. Connectors for use: Straight dip type for panels

2. The sockets do not have a lock mechanism. Pulling the

3. Do not solder the lead wires directly to the pin connectors.

Soldering iron tip temperature: 280 to 300°C

Soldering time: Approx. 3 s max.

Male connectors: HKP-8M29 (Honda Tsushin Kogyo)

Refer to the general catalog of Honda Tsushin Kogyo for

connector models and specifications.

lead wires, shock, or long-term vibration may cause the

connectors to become disconnected. Heed the following

precautions.

• Securely fix the Relay and connectors and make sure that

• Fully insert the socket into the Relay connector.

no force is pulling on the lead wires during use.

G9YA

G9YA-12S-45-D DC24 Omron, G9YA-12S-45-D DC24 Datasheet - Page 14

G9YA-12S-45-D DC24

Specifications of G9YA-12S-45-D DC24

Related parts for G9YA-12S-45-D DC24