P7S-14P Omron, P7S-14P Datasheet - Page 11

P7S-14P

Manufacturer Part Number

P7S-14P

Description

SOCKET PC MNT FOR G7S RELAY

Manufacturer

Omron

Series

G7Sr

Type

Socketr

Datasheets

1.G7S-4A2B_DC24.pdf (6 pages)

2.P7S-14P.pdf (7 pages)

3.P7S-14P.pdf (22 pages)

Specifications of P7S-14P

Mounting Type

Through Hole

Number Of Positions

Termination Style

PC Pin

Current Rating

Terminal Type

Through Hole

No. Of Pins

Svhc

No SVHC (15-Dec-2010)

Accessory Type

Socket

External Depth

47mm

External Length / Height

80.5mm

External

RoHS Compliant

Associated Relay Series

G7S

Mounting Style

Through Hole

Width

23 mm

Socket Mounting

Through Hole

Socket Terminals

Quick Connect

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With/related Products

G7S Series

For Use With

Z2362 - RELAY SAFETY 6A 24VDC PLUG-INZ2363 - RELAY SAFETY 6A 24VDC PLUG-IN

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

P7S14P
Z2418

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

P7S-14P

Manufacturer:

Omron Electronics Inc-EMC Div

Quantity:

135

Current page: 11 of 22
Download datasheet (703Kb)

C-A-4 Contact Protection Circuits

Using a contact protection circuit is effective in increasing contact

durability and minimizing the production of carbides and nitric acid.

The following table shows typical examples of contact protection

circuits. Use them as guidelines for circuit design.

Typical Examples of Contact Protection Circuits

Do not use the following types of contact protection circuit.

Note: 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

C-A-5 Countermeasures for Surge from External

Install contact protection circuits, such as surge absorbers, at

locations where there is a possibility of surges exceeding the Relay

withstand voltage due to factors such as lightning. If a voltage

exceeding the Relay withstand voltage value is applied, it will cause

line and insulation deterioration between coils and contacts and

between contacts of the same polarity.

Diode

Diode + Zener

diode

Varistor

Power

supply

same characteristics.

Circuits

Circuit example

Load

(See

remarks.)

(See

remarks.)

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

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.

Power

supply

Power

supply

Power

supply

Inductive

load

Inductive

load

Inductive

load

*See

remarks.

(Yes)

Yes

Applicable

current

Yes

*Load impedance must be much smaller than

the CR circuit impedance when using the Relay

for an AC voltage.

When the contacts are open, current flows to the

inductive load via CR.

The release time of the contacts will be

increased if the load is a Relay or solenoid.

The electromagnetic energy stored in the

inductive load reaches the inductive load 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 release 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 release

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 240 V.

Features and remarks

1. Depending on factors such as the nature of the load and the

2. When a contact protection circuit is used, it may cause the

Power

supply

Relay characteristics, the effects may not occur at all or adverse

effects may result. Therefore be sure to check operation under

the actual load conditions.

release time (breaking time) to be increased. Therefore be sure to

check operation under the actual load conditions.

Load

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.

Use the following as guides for C and R values:

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

R: 0.5 to 1 Ω per 1 V of contact voltage (V)

These values depend on various factors,

including the load characteristics and variations

in characteristics. Confirm 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 dielectric

strength of 200 to 300 V. For applications in an

AC circuit, use an AC capacitor (with no polarity).

If there is any question about the ability to cut off

arcing of the contacts in applications with high

DC voltages, it may be more effective to connect

the capacitor and resistor across the contacts,

rather than across the load. Perform testing with

the actual equipment to determine this.

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. A diode having a reverse breakdown

voltage two or three times that of the supply

voltage can be used in an electronic circuit

where the circuit voltage is not particularly high.

The breakdown voltage of the Zener diode

should be about the same as the supply voltage.

The cutoff voltage Vc must satisfy the following

conditions. For AC, it must be multiplied by

If Vc is set too high, its effectiveness will be

reduced because it will fail to cut off high

voltages.

Vc > (Supply voltage × 1.5)

Element selection

C-6

P7S-14P Omron, P7S-14P Datasheet - Page 11

P7S-14P

Specifications of P7S-14P

Available stocks

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