ARTECHE RELAYS PDF

First years[ edit ] Mr. Aurelio Arteche, December After nine years in exile due to the Spanish Civil War and the Second World War , Aurelio de Arteche y Arana — returned to Bilbao , his hometown, in to accomplish his main life objective: creating a company like Usines Balteau, S. The separation from ICE-Paris was triggered by frequent supply problems. A substantial portion of the company resources were devoted to the development of new products and solutions and to open new markets.

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The figures given below show the actual design of a simple relay. Relay Construction It is an electro-magnetic relay with a wire coil, surrounded by an iron core. A path of very low reluctance for the magnetic flux is provided for the movable armature and also the switch point contacts.

The movable armature is connected to the yoke which is mechanically connected to the switch point contacts. These parts are safely held with the help of a spring. The spring is used so as to produce an air gap in the circuit when the relay becomes de-energized.

How relay works? The relay function can be better understood by explaining the following diagram given below. Relay Design The diagram shows an inner section diagram of a relay. An iron core is surrounded by a control coil. As shown, the power source is given to the electromagnet through a control switch and through contacts to the load. When current starts flowing through the control coil, the electromagnet starts energizing and thus intensifies the magnetic field.

Thus the upper contact arm starts to be attracted to the lower fixed arm and thus closes the contacts causing a short circuit for the power to the load. On the other hand, if the relay was already de-energized when the contacts were closed, then the contact move oppositely and make an open circuit.

As soon as the coil current is off, the movable armature will be returned by a force back to its initial position. This force will be almost equal to half the strength of the magnetic force.

This force is mainly provided by two factors. They are the spring and also gravity. Relays are mainly made for two basic operations. One is low voltage application and the other is high voltage. For low voltage applications, more preference will be given to reduce the noise of the whole circuit. For high voltage applications, they are mainly designed to reduce a phenomenon called arcing. Relay Basics The basics for all the relays are the same.

Take a look at a 4 — pin relay shown below. There are two colours shown. The green colour represents the control circuit and the red colour represents the load circuit.

A small control coil is connected onto the control circuit. A switch is connected to the load. This switch is controlled by the coil in the control circuit. Now let us take the different steps that occour in a relay. This magnetic field causes the closing of the pins 2 and 4. Thus the switch plays an important role in the relay working. As it is a part of the load circuit, it is used to control an electrical circuit that is connected to it.

Thus, when the electrical relay in energized the current flow will be through the pins 2 and 4. Energized Relay ON De — Energized Relay OFF As soon as the current flow stops through pins 1 and 3, the relay switch opens and thus the open circuit prevents the current flow through pins 2 and 4. Thus the relay becomes de-energized and thus in off position.

De-Energized Relay OFF In simple, when a voltage is applied to pin 1, the electromagnet activates, causing a magnetic field to be developed, which goes on to close the pins 2 and 4 causing a closed circuit. When there is no voltage on pin 1, there will be no electromagnetic force and thus no magnetic field. Thus the switches remain open. Pole and Throw Relays have the exact working of a switch. So, the same concept is also applied. A relay is said to switch one or more poles.

Each pole has contacts that can be thrown in mainly three ways. It closes the circuit when the relay is activated. It disconnects the circuit when the relay is inactive. This is opposite to the NO contact. When the relay is activated, the circuit disconnects. When the relay is deactivated, the circuit connects. They are used to control a NO contact and also a NC contact with a common terminal.

According to their type they are called by the names break before make and make before break contacts. Relays can be used to control several circuits by just one signal. A relay switches one or more poles, each of whose contacts can be thrown by energizing the coil. Out of these two terminals can be connected or disconnected. The other two terminals are needed for the coil to be connected. Out of these two are the coil terminals. A common terminal is also included which connects to either of two others.

These terminals are further divided into two pairs. Out of the six terminals two of them are coil terminals. It has mainly eight relay terminals. Out of these two rows are designed to be change over terminals. They are designed to act as two SPDT relays which are actuated by a single coil.

Relay Applications A relay circuit is used to realize logic functions. They play a very important role in providing safety critical logic. Relays are used to provide time delay functions. They are used to time the delay open and delay close of contacts. Relays are used to control high voltage circuits with the help of low voltage signals.

Similarly they are used to control high current circuits with the help of low current signals. They are also used as protective relays. By this function all the faults during transmission and reception can be detected and isolated.

Application of Overload Relay Overload relay is an electro-mechanical device that is used to safeguard motors from overloads and power failures. Overload relays are installed in motors to safeguard against sudden current spikes that may damage the motor. An overload relay switch works in characteristics with current over time and is different from circuit breakers and fuses, where a sudden trip is made to turn off the motor. The most widely used overload relay is the thermal overload relay where a bimetallic strip is used to turn off the motor.

This strip is set to make contact with a contactor by bending itself with rising temperatures due to excess current flow. The contact between the strip and the contactor causes the contactor to de-energize and restricts the power to the motor, and thus turns it off.

All overload relays available to buy comes in different specifications, the most important of them being the current ranges and response time. Most of them are designed to automatically reset to work after the motor is turned back on. Relay Selection You must note some factors while selecting a particular relay. They are Protection — Different protections like contact protection and coil protection must be noted. Contact protection helps in reducing arcing in circuits using inductors. Coil protection helps in reducing surge voltage produced during switching.

Look for a standard relay with all regulatory approvals. Switching time — Ask for high speed switching relays if you want one.

Ratings — There are current as well as voltage ratings. The current ratings vary from a few amperes to about amperes. There are also high voltage relays of about 15, Volts. Select Make before Break or Break before Make contacts wisely. Isolation between coil circuit and contacts.

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