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Contactor combination - You are here in the eibabo catalog for the various contactor combinations. You probably already know that there are different contactor circuits that are required for different applications. Here you will find contactors and contactor combinations for the production of simple contactor circuits, for contactor circuits with latching, for circuits with mutually interlocking contactors, for reversing contactor circuits, for star-delta contactor circuits or for contactor circuits that represent a combination of the above. Simply select the right components for you and your application from our catalogue. With our high-performance logistics, we can meet very short delivery times. In addition, your purchase is always secured with Trusted Shops buyer protection. And if you have not ordered the right component, that is not a problem. Our accommodating complaint handling will find a solution together with you.Catalogue content:In this eibabo® catalogue Low-voltage industrial components > Combination of contactors you will find items from the following product groups:Item overview:Automatic reversing switchAutomatic star delta starterAutomatic star-delta starterCombination of contactorsConsumer feederContactorContactor combinationDelta contactorInstigatorLeft-right contactorLine contactorMotor starterMotor starter combinationReversing combinationReversing contactorReversing safetyReversing starterReversing switchStar deltaStar-deltaStar-delta combinationStar-delta contactorStar-delta contactor combinationStar-delta instigatorStar-delta motor starterStar-delta starterStar-delta switchStarter combinationfrom the following manufacturers:Manufacturer overview catalogue Contactor combination:ABBCondorEatonRockwellSchneider ElectricSiemensStiebel Eltron
Contactor relay - Contactors are divided into power contactors and auxiliary contactors. The eibabo catalog offers a wide range of auxiliary contactors and contactor relays for all applications. Typical uses of contactor relays are control purposes and the automation of switching processes. Auxiliary contactors are, unlike power contactors, mostly designed for switching currents of up to 6A. Among the auxiliary contactors are, among others, time relays and safety relays for electrical installations. When the switch of the auxiliary contactor is operated electromechanically, a control current flows through a magnetic coil and the resulting magnetic field draws the contacts into the active switching position. When the current no longer flows, the initial state is restored due to the built-in return spring. Contactors and auxiliary contactors operate similar to a relay, but are designed for higher switching capacities. An auxiliary contactor relay is not different from a conventional low-power relay, but its design is similar to that of a normal contactor. If the auxiliary contactor relay is used together with another contactor or power contactor, the term 'auxiliary contactor' is used. This indicates that the auxiliary contactor does not switch power but merely assumes switching functions and control functions. Many auxiliary contactors are usually 4-pole in their basic version and can be extended by means of a combination with auxiliary switch blocks to several poles (eg 8 poles). Many contactor relays are designed for both AC operation and for DC operation. When choosing your required contactor make sure that the chosen contactor is suitable for the function. Our shop provides a wide selection of high-quality relays and contactor relays: auxiliary contactors are available with screw connection or spring terminals and, depending on the type, are suitable either for mounting on a top hat rail / DIN rail or screw mounting. The auxiliary contactor relays have standardized connection designations and help you to save time and money through an optimized and effective connection system.Catalogue content:In this eibabo® catalogue Low-voltage industrial components > Contactor relay you will find items from the following product groups:Item overview:AC contactorAuxiliary contactorAuxiliary contactor with alternating currentAuxiliary contactor with direct currentAuxiliary contactor, relayBuilt-in deviceBuilt-in distributor deviceContactorContactor moduleContactor relayControl circuit relayControl contactorCoupler Auxiliary ContactorCoupling relaysDC contactorInstallation contactorInterface relaysItemized listLittle AuxiliaryMini-relayMiniature relayModular installation devicePlug-in relayPrint relayRelaySmall auxiliary contactorSmall contactorUniversal relayfrom the following manufacturers:Manufacturer overview catalogue Contactor relay:ABBDoldEatonEberleGlen DimplexMetzMurrelektronikRockwellSchalkSchneider ElectricSiemensTele
Circuits monitoring device - Devices for monitoring safety-related circuits are also referred to as emergency stop switching devices or safety relays. But what is the difference to a normal switching relay? You will find out in the following sections. Rely on quality and equip your safety-related circuits with high-quality emergency switching devices from the eibabo® online shop.Image: Pilz PNOZ XV2 emergency stop switching deviceWhat are safety relays?Despite automation, people are always involved in the implementation of technological processes. Safety at work plays a central role in this. By selecting suitable protective measures, the risk of endangering the health or life of people in the working area of a machine can be reduced. The most important protective elements include safety relays. Their task is to switch off the power supply in the event of a fault, danger or defect. This protects the life or health of the operator and prevents damage to the machine, the facility or the system.Originally, safety circuits were equipped with a single electromechanical contactor and combined with a circuit-connected safety switch. However, this variant did not offer complete protection. If, for example, the contacts of the contactor stuck together, the machine or system continued to run despite the safety switch being actuated. The solution to this problem was to add an additional contactor to the circuit. This already reduced the probability of errors, but still did not provide complete protection. Electronic devices were therefore developed which were equipped with at least two relays and a microprocessor system. A safety relay is therefore protected several times and automatically checks with each switching cycle whether its own safety device is still working properly. Even if a component fails, the safety device remains effective. The function of these safety relays henceforth made it possible to eliminate the risks associated with the use of a single contactor while knowing the status of input devices and output devices.Where are circuit monitoring devices used?The classic place of use for circuit monitoring devices is industrial systems. These devices are used wherever a workplace is potentially dangerous due to moving parts of a machine. The following safety circuits are the most common:The emergency stop switchThe emergency stop button is a large, robust and strikingly designed button that you can use to manually activate the safety relay and bring a machine to a standstill in the event of a hazard.Tip for saving:Complementary to circuit monitors are emergency stop switches and other components to create a complete safety device. Benefit from our low prices and save costs with combined shipping.Two-hand operationAs the name suggests, a circuit in this circuit is only closed when you press two different buttons with both hands. This is to prevent you from accidentally reaching into a rotating machine, for example. As soon as you release one of the two buttons, the safety relay stops the machine.protective doorsDangerous working areas are often provided with protective doors. Opening such a protective door triggers the safety relay, which then immediately interrupts the circuit. The machine stops.Light grids / light barriersWhere no protective doors or other physical barriers can prevent access to dangerous areas, the safety regulations are implemented using light grids or light barriers. If an object enters the monitored danger area, the safety relay is triggered and the machine stops.How is a safety relay structured?The typical structure of the safety relay uses a classic combination of 3 contactors. This system redundancy provides increased device reliability. Two relays ensure safe contact switching. Each is driven by one of the two input circuits. The operation of these circuits is not only determined by the signal present at their outputs, but is started by the starting relay. Between its outputs there is a control circuit (also a monitoring circuit) which checks the position of the actuators to be controlled and switched. What does that mean? After switching on, the device carries out a self-test. The input devices are checked first. If their circuits are closed, a safe state has been reached. The output devices are then checked. Here, too, the safety relay waits for a start signal, upon receipt of which the output devices are activated. The safety functions of the relay are now also activated and the device is ready to fulfill the required safety tasks.What are the advantages of programmable safety relays?There are applications where a conventional safety relay would not suffice. In such cases, using a programmable safety relay can be an excellent alternative. This is especially true in more complex systems where using a traditional relay would be cumbersome or impossible. Programmable safety relays are also referred to as control devices for circuit monitoring or programmable logic controllers (PLC). In a nutshell:Programmable logic controllers are devices that allow you to implement more safety functions than individual relays. While a separate safety relay is used for each device by default, one PLC can secure multiple devices. This saves a lot of space in the control cabinet. You can also use it to control processes that can be changed or corrected at any time. The programmable safety relays consist of input modules and output modules as well as a central unit. A processor executes the control algorithm stored in memory based on the data read from the input modules. The control signals are then sent to the output modules. These forward the signals to the corresponding actuators, which are connected to the relay outputs. Programming is done using a computer and the appropriate software or via the built-in keyboard or display. PLCs are most commonly found in modern security systems where sophisticated communication and complex data exchange takes place.Based on your requirements, you can now assess whether an emergency stop relay or a PLC is right for your application. Here you can get high-quality products from well-known brands such as Pilz, Siemens, Weidmüller, Wieland, Dold, Rockwell, ABB and many others.  Catalogue content:In this eibabo® catalogue Relays > Device for monitoring of safety-related circuits you will find items from the following product groups:Item overview:Compact power supplyContact extensionDC power supplyEmergency stop relayEncoder moduleIsolation guardLight barrier guardLight curtainMuting functionOff-delayedOutput expansion devicePress safetyPress safety valvePress valveProtective door monitoringProtective door monitoring deviceProtective door relayProtective gate guardRelay moduleSafety controlSafety relaySafety switching deviceSafety switching relaySecurity moduleSecurity technologyTransfer pointValve monitoring deviceValve monitoring modulefrom the following manufacturers:Manufacturer overview catalogue Circuits monitoring device:ABBDoldEatonElotechEuchnerIfm ElectronicLeuzePepperl + FuchsPeterPhoenixPilzRockwellSchmersalSchneider ElectricSickSiemensStahlWeidmüllerWieland
Installation contactor mdrc - Do you want to know why an installation contactor hums? Find out here. Or would you like to activate and stop large consumers using a remote switch? Then you need a high-quality and inexpensive installation contactor from the eibabo® technology store. With us you will find a large selection of high-quality installation contactors from many well-known brands. We carry installation contactors (REG) and accessories from the following manufacturers: Schneider Electric, Eberle Controls, Siemens, Eltako, ABB Stotz S&J,Finder, Eaton (Moeller) and Legrand (BT).All offered installation contactors are characterized by:excellent processing qualitylittle to no hum during operationquiet switching operationsvery good industrial qualityhigh switching capacitylong lifetime What is an installation contactor in electrical engineering?An installation contactor is an electrical device that is primarily used to protect electrical systems and devices from overload and short circuits. Installation contactors are mainly used in building installation for automation. In many cases, this involves the automatic switching on and off of electrical devices and systems. The installation contactor assumes the task of a remote switch, which switches a larger current with a lower current. In the area of electrical distribution installation and control panel installation, installation contactors are used, among other things, as series installation devices (REG) for mounting on DIN rails or support rails (35 mm) according to DIN EN 50022.What are the typical areas of application of an installation contactor?An installation contactor can be used, for example, to switch heating systems on and off automatically to protect them from overheating. Other automation processes include switching and controlling three-phase motors, lighting systems, ventilation, pumps, cable pulls, gates, shading systems and other building automation drives.How does an installation contactor work?Installation contactors usually work with operating voltages of 230V or 440V and with actuating voltages of 230V or 24V. There are also versions where both voltages are 230V. In addition to the housing, an installation contactor consists of an excitation coil, coil core, metal armature, switching contacts and armature return spring. There can be multiple of these essential functional elements in the installation contactor. The device consists of a control circuit and a load circuit. If current flows through the control circuit, the load circuit closes and also carries current. In the idle state (OFF), the switching contacts do not touch. TIP:If a contactor hums, this is not yet a cause for concern. This is due to dust and dirt or the rivets in the coil core loosening over time. Incipient wear on the short-circuit ring can also be a reason. The task of the excitation coil is to generate a strong magnetic field when current flows. The coil core serves as a carrier for the coil and strengthens its magnetic field. This is the only way to overcome the force of the return spring. The magnetic effect becomes large enough to move the armature. As soon as the armature is attracted, the switch contacts touch and the contactor is active (ON). The return spring returns the armature to its original position when the coil's magnetic field disappears. The contacts loosen and the device goes back to sleep mode. This means that the device only stops by itself in the OFF position. The control circuit of the coil and the load circuit of the switch contacts are isolated from each other. The armature creates the connection between the circuits and enables the consumers to be switched on the load circuit. A contactor is therefore an electromechanical switch designed for high power, which is similar to a relay in terms of its function.Can several contactors be combined?You can combine multiple contactors to meet specific installation and automation needs. You have even more diverse control options if you use contactor relays to control the installation contactor or to display an operating status. Contactors of various combinations with a maximum of four contacts are often used (e.g. two NO contacts / two NC contacts or three NO contacts / one NC contact).Contacts in an installation contactorAn installation contactor is usually provided with different types of contacts. A distinction is made between main contacts and auxiliary contacts.Good to knowThe contacts of a contactor are divided into working contact (closer), break contact (opener) and changeover contact (changeover contact). The changeover contact is a combination of opener and closer. Opener and closer can also be combined in one installation contactor.The main contacts described in the function are used for the power to be switched. This makes it possible to connect large consumers. The auxiliary contacts are designed as signaling lines for contactor control and signal display.What is an auxiliary contactor?You have a wide range of control options when using contactor relays. Power contactors have a significantly higher switching capacity than contactor relays and switch load circuits of large consumers. Auxiliary contactors switch control voltages for small loads and are designed for small consumers and displays. You can use it to implement logical operations and control power contactors.Image: Schneider Electric A9C20844 installation contactorWhat is the difference between a contactor and a relay?Relays serve primarily as circuit breakers and control switches in devices and are important components in many control processes. There are different types of relays that perform different functions. The most common types include protection relays, monitoring relays, auxiliary relays and reclosing relays. Relays open and close circuits or contacts by responding to electrical quantities such as current or voltage. A contactor is an electromechanically controlled circuit switch. Here a circuit with a low power level is switching a circuit with a higher power level. A contactor is designed for operation with normally open contacts. If there is no power on the device, there is no switching connection. Relays can usually open and close. Another difference lies in the performance of the respective device. Contactors are used in control circuits with higher electrical voltages and higher currents. This results in further safety-relevant differences. Contactors work with tie rods and return springs, relays with hinged armatures or rotary armatures. Sparking caused by the separation of live contacts is reduced in the contactor with arc suppression. As a rule, relays switch much faster than contactors, are lighter, smaller and consume less energy. Due to the more complex structure, contactors are more expensive than relays.  Catalogue content:In this eibabo® catalogue Devices for distribution board- / surface mounting > Installation contactor for distribution board you will find items from the following product groups:Item overview:AC contactorBuilt-in contactorBuilt-in distributor deviceChangeover contactorContactor moduleControl contactorDC contactorHeater contactorHigh power contactorInstallation contactorInstallation contactorsInstallation relayLighting contactorLoad contactorMagnetic switchModular installation devicePower contactorSeries built-in contactorSmall contactorUniversal voltage contactorfrom the following manufacturers:Manufacturer overview catalogue Installation contactor mdrc:ABBDoepkeEatonEberleEltakoFinderHagerLegrand BticinoSchneider ElectricSiemens
Overload relays thermal - In order to protect electric motors from overload and phase failure, either motor protection switches or overload relays are used. If a thermal overload relay is chosen, it is installed in the main circuit and typically directly on a contactor. It does not switch off the motor directly, but if the worst comes to the worst, it controls the contactor via at least one break contact, which in turn switches off the motor. A thermal overload relay usually works with bimetal triggers, which heat up when there is an overload due to the higher motor current, then deform and thus trigger the relay. With high-quality thermal overload relays from the eibabo technology store, you protect your electric motors from overload, prevent damage and save the associated follow-up costs.Catalogue content:In this eibabo® catalogue Low-voltage industrial components > Thermal overload relay you will find items from the following product groups:Item overview:BimetalBimetallic contactBuilt-in series switchControl resistorDelayed activationDIL switchElectric circuitElectric controlElectrical kitElectrical/kit/switching/controlElectro/- mounting set/- circuit/- controlFloor controlInstallation multicircuit switchManual controlManual overrideMotor protection relayOverload protectorOverload relayOverload releaseRegulator kitRelaySeries switchThermal overcurrent relayThermal overload relayThermal protectionThermal relayThermal relay kitThermo-relay mounting setfrom the following manufacturers:Manufacturer overview catalogue Overload relays thermal:ABBCondorEatonRockwellSchneider ElectricSiemens
Power contactor ac-switching - Power contactors are contactors with high switching capacity and are mainly used in automation and control technology. Here AC switching power contactors are especially used in the control of motors and plants, and for switching electric heaters. The AC switching power contactors from eibabo are available for different installation types, such as for DIN rail mounting, mounting plate or for individual mounting in housings. Contactors are provided in different designs: As a mechanical contactor for a high switching capacity or as semiconductor contactors for faster response times and the prevention of wear due to the electronic switching process. Semiconductor reversing contactors are, therefore, also suitable for reversal of direction in three-phase motors. The three-phase contactors can additionally be equipped with auxiliary contacts to, for example, send signals back to the control unit. With our wide range of contactors, you always have the suitable contactor available. The AC switching power contactors can be used for different current ranges up to a switching current of 250kW. The contactors are divided into different sizes from S00 to S12. In addition to multi-pole standard contactors, eibabo provides installation contactors, motor contactors, coupling contactors to connect control systems, various 4-pole power relays and a huge selection of miniature contactors for a power range of up to 4 kW.Catalogue content:In this eibabo® catalogue Low-voltage industrial components > Power contactor, AC switching you will find items from the following product groups:Item overview:AC contactorBuilt-in distributor deviceContactorContactor moduleContactor, AC-switchingCoupling contactorHeater contactorHeater current contactorInstallation contactorLoad shedding contactorMagnet contactor, AC-switchingMains contactorMini contactorModular installation deviceMotor contactorPower contactorPower contactor for switching ACPower contactor, AC switchingPower relayRelaySmall contactorSolid state contactorStar contactorStar-delta contactorSwitch moduleSwitching moduleThree-phase contactorTriangle contactorfrom the following manufacturers:Manufacturer overview catalogue Power contactor ac-switching:ABBAlbrightEatonKonecranesMaicoRockwellSchneider ElectricSiemensStiebel EltronVitramo
Impulse switch - Do you want to be able to switch lighting from different places? Or should the light be switched on centrally in different areas of the building? No problem. We will explain to you the possibilities offered by the use of impulse switches. Benefit from our huge range of high-quality impulse switches from well-known manufacturers. Favorable prices, numerous secure payment methods and worldwide shipping make the eibabo® technology store a leading specialist electronics centre. Definition:Impulse switches are electromechanical or electronic devices for the simple and energy-saving control of lighting or other consumers. Impulse switches are also referred to as impulse switches or remote switches.How does a impulse switch work?The impulse switches are switches which are actuated electromagnetically or electronically. These are also known as impulse switches or remote switches. The operating principle is similar to that of a classic ballpoint pen, except that it naturally works without electricity. Impulse switches switch on with an electrical impulse at the control inputs and switch off again with another impulse. The distance to the pulse generator is irrelevant. From a technical point of view, impulse switches are bistable relays or flip-flops, since they have two stable rest positions. Each time the connected button is pressed, the impulse switch receives an electrical impulse. This causes a change in the switching status, which is stored mechanically or electronically until the next pulse. This is the essential difference to a monostable relay. This only switches 'on' as long as a connected button is pressed and then automatically returns to the initial state 'off'.What is the difference between electromechanical impulse switches and electronic impulse switches?Electromechanical impulse switches are comparable in structure and function to an installation contactor. In addition to the housing, this consists of the excitation coil, coil core, metal armature, switch contacts and armature return spring. Flowing current creates a magnetic field in a coil and the metal armature is attracted. The switching contacts close. As soon as the coil no longer generates a magnetic field, the armature is returned to its original position by spring force. Unlike an installation contactor, however, the switching contacts of the electromechanical impulse switch do not open as a result. These remain closed by means of a locking mechanism. Only a further impulse causes the latching mechanism to change and the associated opening of the contacts.Electronic impulse switches switch using transistors, which work as electronic switches and influence each other. A so-called bistable multivibrator is created. The current switching status is always determined by the previous status and is not stored in a locking mechanism but electronically. The switching process is completely noiseless. Since no mechanics are used, the wear and tear of electronic impulse switches is lower.Where are impulse switches installed?Impulse switches are usually offered in two designs. On the one hand as an REG device (= modular installation device) for mounting on a DIN rail in the electrical distribution. On the other hand, the devices are installed in switch boxes or junction boxes. This installation can be flush-mounted or surface-mounted.What are the advantages and disadvantages of impulse switches?In electrical installations and in electrical distribution installation, impulse switches can be used instead of off switches, changeover switches and cross switches. In this way, several switching points can switch the same load. The wiring required for the surge circuit can usually be implemented more easily and often more cost-effectively than with other circuits. You can also use impulse switches with three or four switching states. With such impulse series switches, you can map more complex switching processes in a relatively simple way. A classic application is switching the same load (e.g. a lamp) from several switching points. You know this scenario from:Staircases in the private environment or public buildingslong corridors in company buildingsRooms or halls with multiple entrances in hotels or production facilities In these cases you will usually find buttons on all floors or at all entrances in order to be able to switch the lighting on and off from all locations.Good to knowWhen 'switching', the load current only flows through a potential-free switch contact and not through all buttons. This reduces the susceptibility to failure. If a button fails, the circuit with the remaining buttons will continue to function.In addition, there is the option of centrally controlling several impulse switches. Using an additional module, all connected impulse switches can be reliably switched on or off. This happens regardless of the current switching position of a respective impulse switch. Practical example: An employee in an office building switches off the lighting in a central location at the end of a working day.However, electromechanical impulse switches also have a disadvantage. The devices produce a clicking noise when switching. This can be perceived as annoying. During installation, please ensure good sound insulation of the electrical distribution. Also consider this when mounting in the switch boxes of bedrooms or children's rooms. In these cases, use noiseless electronic impulse switches.Image: Eltako ES12DX-UC impulse switchFor what performance are impulse switches designed?The current impulse switches are designed with switching coils for 12 V AC/DC, 24 V AC/DC or 230 V AC. Impulse switches with monostable switching relays constantly require a small amount of electrical energy, while electronic impulse switches with bistable switching relays work with practically no standby loss.Where can I get high-quality impulse switches at particularly low prices?You can buy impulse switches for electrical distribution installation at low prices from eibabo®. We carry a large selection of high-quality impulse switches and electrical remote switches. But you will also find remote switching relays, installation remote switches, cascade circuits, multiple control centers and call-acknowledgment relays with us. In the eibabo catalog for impulse switches, we also have series remote switches, impulse group switches and impulse series switches as well as impulse relays and central impulse switches.  Catalogue content:In this eibabo® catalogue Devices for distribution board- / surface mounting > Latching relay you will find items from the following product groups:Item overview:Building automationBuilt-in deviceBuilt-in moduleCentral control switchCentral controllerCentral entranceDIN rail switchFlush-mounted boxGroup switchImpulse switchInstallation relayLatching relayLatching switchMemory relayModular installation deviceOff switchPower switchReclosing deviceRemote driveRemote switchRemote switching relaySeries installationSeries remote switchShutter actuatorStair light switchStaircase lightStaircase lighting controlSwitching relayfrom the following manufacturers:Manufacturer overview catalogue Impulse switch:ABBDoepkeDoldEatonElsoEltakoFinderGrotheHagerLegrand BticinoSchalkSchneider ElectricSiemensStiebel Eltron
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Schneider Electric - A9C20844 - Installation contactor 40A A9C20844
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Installation contactor 40A
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Finder - 22.32.0.024.4320 - Installation contactor 24VAC/DC,2S,LED 22.32.0.024.4320
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ABB - ESB63-40N-06 - ESB installation contactors - Installation contactor 230VAC/DC ESB63-40N-06
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Schneider Electric - A9C20834 - Installation contactor 25A 240V AC A9C20834
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Siemens - 3RT2026-1BB40 - Contactor 24DC 11KW 1 NO + 1 NC - Magnet contactor 25A 24VDC 3RT2026-1BB40
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Eaton - Z-SCH230/40-40 - Installation contactor 230VAC 4 NO/ 0 NC Z-SCH230/40-40
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