G6SK-2F-H-TRDC2.4 Omron, G6SK-2F-H-TRDC2.4 Datasheet - Page 22

G6SK-2F-H-TRDC2.4

Manufacturer Part Number

G6SK-2F-H-TRDC2.4

Description

RELAY LOW SIGNAL LATCH SMD TR

Manufacturer

Omron

Series

G6Sr

Datasheets

1.G2R-1A-E-DC12.pdf (30 pages)

2.G6S-2F-TR_DC3_BY_OMR.pdf (12 pages)

3.G6S-2F-TR_DC3_BY_OMR.pdf (2 pages)

Specifications of G6SK-2F-H-TRDC2.4

Relay Type

Telecom

Contact Form

DPDT (2 Form C)

Contact Rating (current)

Switching Voltage

250VAC, 220VDC - Max

Coil Type

Latching, Dual Coil

Coil Current

58.3mA

Coil Voltage

2.4VDC

Turn On Voltage (max)

1.8 VDC

Turn Off Voltage (min)

Features

Mounting Type

Surface Mount

Termination Style

Gull Wing

Contact Material

Silver (Ag), Gold (Au)

Operate Time

4ms

Release Time

4ms

Coil Power

140 mW

Coil Resistance

41 Ohms

Operating Temperature

-40°C ~ 85°C

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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Notes on Correct Use

■ Driving by Transistor

When a transistor is used to drive the relay, be sure to ground the emitter of the transistor.

When the transistor is used in emitter-follower configuration (i.e., the collector is grounded), give adequate consideration to the voltage across the

collector and emitter. The required voltage must be applied to the relay.

NPN transistor

Advice on selecting a transistor for driving the relay

1. From the relay catalog or data sheet, ascertain the following coil

2. Determine the lower- and upper-limit values of the pickup voltage

3. By determining the component for suppressing surge, obtain the dielectric strength of the transistor for driving the relay.

4. Determine collector current l

5. Select the transistor that satisfies the conditions determined in

6. After selecting the transistor, observe the l

characteristics:

Rated voltage ________ VDC

Rated current ________ mA

Coil resistance _______ Ω

from the rated voltage.

Lower-limit pickup voltage _____V

Upper-limit pickup voltage _____V

(If surge is contained in the rated voltage, obtain the maximum

value including the surge.)

In the case of diode

(Upper-limit of pickup voltage + 0.6) x 2* ≅ V

In the case of diode and zener diode

(Upper-limit of pickup voltage + 0.6 + breakdown voltage**) x 2* ≅ V

In the case of varistor

(Upper-limit pickup voltage + varistor voltage***) x 2* ≅ V

In the case of RC

(Upper-limit pickup voltage + surge voltage****) x 2* ≅ V

steps 3 and 4.

of the transistor indicated in its ratings.

The characteristic curve illustrates the relation between collector

current l

From this graph, obtain collector-emitter voltage V

by the driver stage.

Thus, Collector-emitter voltage V

Use the transistor in its switching (saturation) area. An adequate

base current is required.

= Upper-limit pickup voltage/Coil resistance x 2*

= Maximum value of must operate voltage/Coil resistance

= Base current of the switching transistor which is determined

and collector-emitter voltage V

Electromechanical Relays

= V

vs. V

CEO

at base current l

Technical Information

≅ V

characteristics

CBO

where,

= ___V

CEO

≅ V

CBO

= ___V

CEO

= ___V

≅ V

PNP transistor

Note:

* This safety factor must be determined by the user.

** The breakdown voltage differs depending on the compo-

*** The varistor voltage differs depending on the component. In

****The surge voltage differs depending on the type and rating

CBO

nent. If multiple zener diodes are to be used, use their max-

imum breakdown voltage.

addition, the varistor voltage of a single varistor may vary

depending on the current. Consult the manufacturer of the

varistor to be used to determine the varistor voltage.

of the relay, and the constants of C and R of the circuit in

which the relay is used. Positively determine the surge volt-

age by experiment.

= ___V

G6SK-2F-H-TRDC2.4 Omron, G6SK-2F-H-TRDC2.4 Datasheet - Page 22

G6SK-2F-H-TRDC2.4

Specifications of G6SK-2F-H-TRDC2.4

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