D4BL-K3 Omron, D4BL-K3 Datasheet - Page 20

D4BL-K3

Manufacturer Part Number

D4BL-K3

Description

Contact OSTI For Purchase

Manufacturer

Omron

Type

Safety-Door Switchr

Series

D4BLr

Datasheets

1.D4BL-K1.pdf (16 pages)

2.D4BL-K3.pdf (25 pages)

Specifications of D4BL-K3

Contact Form

DPDT

Contact Rating

10 Amps

Actuator

Plunger

Operating Force

19.61 N

Termination Style

Wire

Color

Red

Mounting Style

Screw

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With

D4BL Guard Lock Safety Door Switches

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

Q2025725A

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Contact Protection Circuits

Using a contact protection circuit to increase the contact durability,

prevent noise, and suppress the generation of carbide or nitric acid.

Be sure to apply the contact protection circuit correctly, otherwise

adverse results may occur.

The following tables shows typical examples of contact protection

circuits. If the Switch is used in an excessively humid location for

Typical Examples of Contact Protection Circuits

Do not use the following types of contact protection circuit.

Using Switches for Microloads

Contact failure may occur if a Switch for a general load is used to

switch a microload circuit. Use Switches in the ranges shown in the

diagram right. However, even when using microload models within

the operating range shown here, if inrush current occurs when the

contact is opened or closed, it may increase contact wear and so

decrease durability. Therefore, insert a contact protection circuit

where necessary. The minimum applicable load is the N-level

reference value. This value indicates the malfunction reference level

for the reliability level of 60% (

0.5×10

less than 1/2,000,000 operations with a reliability level of 60%.

Diode

Diode +

Zener diode

Varistor

Power

supply

/operations indicates that the estimated malfunction rate is

Circuit example

Load

Power

supply

Power

supply

Power

supply

Power

supply

This circuit arrangement is very

effective for diminishing arcing at

the contacts when breaking the

circuit. However, since electrical

energy is stored in C (capacitor)

when the contacts are open, the

current from C flows into the

contacts when they close. This

may lead to contact welding.

http://www.ia.omron.com/

Power

supply

Inductive

load

Inductive

load

Inductive

load

Inductive

load

Inductive

load

) (JIS C5003). The equation,

(Yes)

Yes

Applicable

current

Yes

Power

supply

* Load impedance must be much smaller than

The operating time of the contacts will be

increased if the load is a Relay or solenoid.

Connecting the CR circuit in parallel to the load

is effective when the power supply voltage is 24

or 48 V and in parallel to the contacts when the

power supply voltage is 100 to 200 V.

The energy stored in the coil reaches the coil as

current via the diode connected in parallel, and

is dissipated as Joule heat by the resistance of

the inductive load. This type of circuit increases

the release time more than the CR type.

This circuit effectively shortens the reset time in

applications where the release time of a diode

circuit is too slow.

This circuit prevents a high voltage from being

applied across the contacts by using the

constant-voltage characteristic of a varistor.

This circuit also somewhat increases the reset

time. Connecting the varistor across the load is

effective when the supply voltage is 24 to 48 V,

and across the contacts when the supply

voltage is 100 to 200 V.

the CR circuit impedance when using the

Switch for an AC voltage.

Load

Features and remarks

This circuit arrangement is very

useful for diminishing arcing at the

contacts when breaking the circuit.

However, since the charging current

to C flows into the contacts when

they are closed, contact welding

may occur.

switching a load that easily generates arcs, such as an inductive load,

the arcs may generate NOx, which will change into HNO

reacts with moisture. Consequently, the internal metal parts may

corrode and the Switch may fail. Be sure to select the best contact

protection circuit from the following table.

0.1

Unusable

range

5 mW

0.16 mA

1 mA

Operating range for

micro-load models

Although it is thought that switching a DC

inductive load is more difficult than a resistive

load, an appropriate contact protection circuit

can achieve almost the same characteristics.

Use the following as guides for C and R

values:

These values depend on various factors,

including the load

optimum values experimentally.

Capacitor C suppresses the discharge when

the contacts are opened, while the resistor

R limits the current applied when the

contacts are closed the next time.

Generally, use a capacitor with a low

dielectric strength of 200 to 300 V. For

applications in an AC circuit, use an AC

capacitor (with no polarity).

Use a diode having a reverse breakdown

voltage of more than 10 times the circuit

voltage, and a forward current rating greater

than the load current.

Use a Zener diode with a low breakdown

voltage.

800 mW

C: 1 to 0.5 F per 1 A of contact current (A)

R: 0.5 to 1

26 mA

100 mA 160 mA

100

Precautions for All Switches

Operating

range for

standard

models

Element selection

per 1 V of contact voltage (V)

1,000 Current (mA)

characteristics

---

. Confirm

when it

C-5

D4BL-K3 Omron, D4BL-K3 Datasheet - Page 20

D4BL-K3

Specifications of D4BL-K3

Related parts for D4BL-K3