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Beckhoff - In the eibabo® shops from eibmarkt® you will find brand quality from Beckhoff. The company implements open automation systems based on PC-based control technology and produces integrated system solutions for all areas of industrial automation. However, it also offers individual components from the product groups IPC, I/O, motion, automation and MX systems. These include bus couplers, digital output terminals, master terminals, input terminals, branch components, potential feed terminals, bus end terminals, servo amplifiers, power supply terminals, patch cables, encoder interfaces or EtherCAT bridge terminals. The eibabo® technology store sells all of these products at top conditions and delivers them quickly and reliably to almost any address worldwide. The Beckhoff company has its headquarters in Verl, North Rhine-Westphalia, where the development department, production and administration, sales and all other service departments are located. The national and global presence is impressive. With 40 of its own subsidiaries, over 20 branches in Germany alone and cooperation partners in over 75 countries, the company operates on all continents. Beckhoff employs over 5,000 people worldwide. The beginnings of Beckhoff Automation can be traced back to 1953. The company in its current form was founded in 1980 when the 2nd generation took over the management of the family business. Since then, the core business areas have included modern industry solutions for almost all branches of industry. Starting with the automotive industry, through renewable energies to heavy manufacturing industry, the company's innovative applications offer individual and universal automation solutions.

Found in shop categories: 9

Wide span cable tray - Are you looking for a stable cable support system? Do you have larger spans to bridge and want to ensure that the weight of the cables is carried safely? Your eibabo® shop offers you a huge range of cable support systems from well-known manufacturers at the best prices. With numerous modules you can meet almost all architectural requirements and lay cables and lines quickly, clearly and inexpensively. In this catalog you will find the product group 'Cable trays and wide-span cable trays'.What are cable support systems?With cable carrier systems, you can lay cables and lines vertically and horizontally through rooms, basements, production halls and across floors. In contrast to electrical installation conduits, the systems accommodate massive cable bundles and are therefore suitable for complex commercial systems and industrial applications. You can use this, for example, to lay the power supply for your building. Or you can use it to create measuring systems, control systems or other wired data transmissions for your system. The modular design ensures maximum flexibility combined with stability, security and cost efficiency.Image: OBO Bettermann RKSM620 cable trayWhat are wide span cable trays?Wide-span cable trays are part of cable carrier systems. These form long, rigid and rectilinear structures for laying electrical cables, conduits and cable ducts. Cable trays are typically made of galvanized steel, stainless steel or aluminium. There are also non-metallic cable trays. These are made of glass fiber reinforced plastic. The different cable tray types include:Metal cable trays (perforated, slotted and in ladder form)Small metal ducts (perforated, unperforated)Cable trays made of non-metallic material (perforated, slotted and in ladder form)Small ducts made of non-metallic material (perforated, unperforated)Metal and non-metallic cable trays (unperforated)Metal wire mesh cable trays Why are some cable trays perforated and others not?There are perforated and unperforated cable trays. Some cable trays consist 'only' of a wire mesh. The difference lies in the different possible uses. In most cases, open cable trays are used. These are in the form of ladders with rungs or a base, and side parts are provided with round or oblong holes. The holes have different functions:ventilationCurrent-carrying cables and lines can generate heat. The removal of excess heat is a safety feature, especially when these are laid in a bundle.attachmentCable ties and other fastening systems can be pulled through the holes. This allows the cables and lines to be sorted and fixed. In addition, fastening systems such as ropes, hanging brackets or support arms are connected to the channels through the holes.weight reductionMetal cable trays are solid. Cables and wires can also be very heavy. Larger installations often reach a high weight as a result. Perforated material is lighter and simplifies assembly.junctionIf individual cables and wires need to be routed out of the gutter, this can be done, for example, down through one of the larger holes.water permeabilitySprinkler systems are installed in many areas for safety reasons. In an emergency, the water can drain through the holes in the cable trays. TIP:With wide-span cable trays, you can bridge a span of up to 3 meters. In contrast, the unperforated cable trays are installed at other locations. Closed systems are used for:Rooms with increased pollutionIn a dusty environment, the laid cables and lines remain clean and can be replaced, checked or repaired more easily in an emergency. Additional gutter covers are used in these environments.Electromagnetic shieldingClosed cable trays have a shielding effect. The influence of the cables on the environment (or vice versa) is significantly reduced through the use of unperforated cable trays.What does suitability for functional integrity mean?In the product descriptions of the cable support systems, some information on functional integrity is stored. This information is used to help you assess the suitability of each system for specific locations. Fire safety is an important issue in private, commercial, industrial and municipal buildings. There are special requirements for safety-relevant areas, also for the supporting devices of the electrical installation. Functional integrity describes how long the system must remain functional in the event of a fire.Functional integrity of 30 minutes (E30) is required for electrical systems used to evacuate people and animals from a burning building. These arefire alarm systemsSystems for alerting and issuing instructionsSecurity lighting and backup power lightingpassenger elevatorsSmoke and heat extraction systems Functional integrity of 60 or 90 minutes (E60 and E90) is necessary for the fire brigade to fight fires effectively and for complex evacuations. For example, it applies toWater pressure booster systems for the supply of extinguishing waterAutomatic extinguishing systemsFire brigade lifts and bed lifts (in hospitals)Ventilation systems and smoke protection pressure systems of safety stairwellsElevator shafts and machine rooms In these applications, use tested cable support systems that guarantee functional integrity of up to 90 minutes, depending on the requirements.With what weight can cable trays be loaded?When choosing the right cable tray or the optimal cable support system, its resilience is crucial. The carrying capacity must correspond to the expected cable weight. TIP:Calculate a reserve of 10% for possible subsequent installations when considering the load-bearing capacity. Approximately 15 kg per meter and per 10 cm channel width apply as a guideline for the load capacity. With a channel width of 30 cm, for example, this results in a load-bearing capacity of around 45 kg per meter. With a channel width of 60 cm, the value increases to 90 kg per meter. Alternatively, look at the manufacturer's product specification or use the formula of DIN VDE 0639 T1 to calculate the maximum permissible cable load.What accessories are available for wide-span cable trays?At eibabo® you will find all the components you need to route cables and lines individually through your building. Examples of suitable accessories and add-on modules for wide-span cable trays are:Gutter connectors, gutter bends, angle brackets and end piecesTees, crosses, branch pieces and reducersCable rakes, base plates, hanging brackets, coversSupport arms, cable ladders and fastening material We carry complete systems from all leading manufacturers, including OBO Bettermann, Niedax, Unex, Pflitsch, Tehalit, Legrand Cablofil and many more. All items are characterized by special durability, longevity and quick assembly. These systems meet the highest standards of quality and professional processing in industry, commerce and marine.  Catalogue content:In this eibabo® catalogue Cable carrying systems > Cable tray/wide span cable tray you will find items from the following product groups:Item overview:Cable stageCable support systemCable trayCeiling flashingDistribution channelLight channelLight support railLuminaire channelLuminaire mounting railLuminaire trayMini cable trayShip cable carShip cable traySmall channelWide span cable platformWide span cable trayfrom the following manufacturers:Manufacturer overview catalogue Wide span cable tray:CommScope EMEAHenselLegrand CablofilNiedaxNiedergesäßOBOPflitschPohlCon Vertrieb (Puk)RicoTehalit
Through terminal - Which feed-through terminals should you use for your control cabinet? Are terminal blocks the same as feed-through blocks? Find out here what the differences are between feed-through terminals and what they are used for. In the eibabo® technology store you can get feed-through terminal blocks from all well-known manufacturers such as ABB, Eaton, Eberle, Hager, Metz, Phoenix, Schneider Electric, Siemens, Spelsberg, TE Connectivity, WAGO, Weidmüller, Wieland and Wöhner at great prices and in large quantities. We deliver our range worldwide.Feed-through terminals fulfill several functions and are among the most important components within a control cabinet. It is mounted on the DIN rail. Feed-through terminals are connecting elements between the incoming cables and lines of an installation and the actual control cabinet installation.What is the difference between feed-through terminals and terminal blocks?Feed-through terminals are terminal blocks. 'Terminal block' is a generic term that also includes other types of terminals. These include, for example, fuse terminals and relay terminals. Other terms describe the way a terminal is constructed or its ability to connect the conductors. In these contexts, one often hears about one-tier terminals, three-tier terminals, spring-loaded terminals, push-in terminals or screw terminals. We would like to briefly discuss some of these types in the following sections.Why are feed-through terminals indispensable components in the control cabinet?Feed-through terminals offer the necessary flexibility in the control cabinet to connect rigid incoming cables and lines to the relevant fuses, actuators or other devices. A direct connection without feed-through terminals does not make sense. A clear installation would not be possible. First, the cables and lines are clearly laid out on the terminal blocks. They then lead them from there to the devices in the control cabinet. As a result, the entire installation remains flexible because there are connection points and nodes for checking and changing the system structure.Image: Phoenix PT 2.5-3L feed-through terminalEach connection that is made takes on a function previously defined in the circuit diagram. The installation of the system and the function of individual connections remains traceable. This makes later additions, repairs and maintenance easier. If you want to make changes, these can be done by reconnecting individual wires. The rigid supply lines remain unaffected.And there are other advantages: For example, you can only connect two wires to many modular installation devices. The feed-through terminal blocks offer further advantages here. An example: A fuse is intended to protect several lines. However, you can only connect the cores of one line. In order to also integrate the other lines, you can create clear bridge connections on the feed-through terminals. The electrician can also carry out insulation measurements and other control work directly on the terminal blocks. Troubleshooting is made much easier and faster.What different feed-through terminals are there?Each manufacturer builds the feed-through terminals slightly differently. However, the principle is the same. There are single-level terminals and multi-level terminals. While you can only connect one line in the single-level terminal, several incoming and outgoing lines can be installed in multi-level terminals. Use a three-tier terminal for a three-wire cable. The is designed for connecting the protective conductor, the L conductor and the N conductor. This arrangement saves an enormous amount of space in the control cabinet. Three-tier terminals are mainly found in the control cabinets of private households and in smart home installations. TIP:On some models, the protective conductor has no connection point for the outgoing line. The protective earth contact is made directly by the clamp connection with the DIN rail. Another feature that distinguishes feed-through terminals is the way the wires are fastened. The screw terminal fixes the respective wire with a screw connection. This method takes a comparatively long time, especially when the plant is complex. A spring-loaded terminal makes electrical contact with a mechanical spring. This consists of a bent, flat copper contact. The wire must be inserted through a hole in the copper contact. This is only possible if the contact is clamped with a pointed tool. When the clamping tool is removed, the spring pulls back and the wire is jammed. The connection is released in the same way. The push-in connection is another fastening variant, similar to the spring-loaded terminal. Here, too, a spring presses against the wire. In contrast to the spring-cage connection, installation is tool-free and therefore even faster. The wire is inserted into the spring shaft of the feed-through terminal and the spring locks automatically. If you want to loosen the connection, you need a pointed tool. A small screwdriver is usually sufficient, which bends the retaining spring to the side and loosens the wire. This method saves a lot of time with cores with solid conductors. Wires with flexible conductors can also be attached using wire end sleeves using this method.Solid and flexible veinsYou can connect cables with solid cores and flexible strands in feed-through terminals. Both variants and combinations are permitted. Flexible cores can easily fan out. The use of ferrules makes handling easier with spring connections.The attachment of the wire using cutting terminals is rather rare. Use this variant if your veins are particularly thin. Here, the contact is made through a small cut in the insulation.Depending on the function and area of application, cables and wires with different cross-sections are used in the electrical installation. This affects the feed-through terminals. Appropriate feed-through terminals are available for all common cable cross-sections. Whether a clamp can be used for a specific cross-section is indicated on the clamp. It is usually possible to bridge the L conductor and the N conductor using several feed-through terminals, sometimes on several levels. Suitable cable bridges are available here in the shop.markLabeling the lines helps with orientation, especially when a new employee or another electrical company takes over the system. Some terminals have labeling fields. We recommend using this option and labeling all devices and connections in a meaningful way.The design of the neutral conductor contact is another distinguishing feature. In addition to models for classic wiring, there are feed-through terminals with which an N busbar can be used. The neutral contact on these terminals is designed accordingly so that the connection can be made with one hand. When using a busbar, you need an additional terminal for feeding. To securely fix the rail, use suitable support blocks or the fastening levers on the end clamps at the beginning and end of the row. Longer rails are additionally fixed every 20 cm. To be able to use cables with five cores, use multi-level terminals to connect the outer conductors.How to use feed-through terminals in the KNX area?In addition to the classic feed-through terminals, you can get special terminal blocks for low-voltage or KNX use. These have a different color and can therefore immediately be distinguished from other terminal blocks. This also contributes to order and clarity in the control cabinet. In terms of function, these terminal blocks hardly differ from conventional terminal blocks. You can connect cables with a cross-section of up to 1.5 mm2 to these terminals.Why are feed-through terminals not closed on one side?The available space in the control cabinet is specified in modular widths (HP). These provide information about the capacity of a control cabinet. Feed-through terminals are not manufactured according to this pitch, but as narrow as possible. The narrower a terminal, the more terminals can be installed on a specific area of the DIN rail. Good to know:Feed-through terminals are not closed on one side. The missing cover saves a little space. In relation to the length of a top-hat rail, more terminals can be mounted. Since feed-through terminals are mounted directly next to each other on the DIN rail, there is no danger of touching the contacts on the open sides. Without a side cover, a terminal is narrower. A cover is only attached to the last terminal in a row.Which installation aids and which accessories are available for feed-through terminal blocks?For the construction of a control cabinet, you receive numerous well thought-out components that simplify your work. For feed-through terminals, for example, the cross-bridges and busbars already mentioned are available. In addition, you will receive separator plates and end plates, covers, feeds or end blocks as well as test plugs, fuses, labeling fields and other components.  Catalogue content:In this eibabo® catalogue Terminal blocks > Feed-through terminal block you will find items from the following product groups:Item overview:Base clampBolt clampChangeover relayCompartment clampConnecting combsConnection moduleConnection technologyDistribution blockFeed terminalFour-level clampLightning arrowMarshalling boxMini clampMotor connection terminalMotor output terminalMulti-level clampMulti-wire terminalNeutral terminalPotential clampRelay terminalSocketSpring clampsSpring clipSwitching relayTerminal block connectorThermal voltage terminal blockThrough terminalUniversal clampfrom the following manufacturers:Manufacturer overview catalogue Through terminal:ABBEatonEberleHagerMetzPhoenixSchneider ElectricSiemensSpelsbergTE ConnectivityWAGOWeidmüllerWielandWöhner
Dc power supply - Are you looking for a reliable DC power supply within your electrical installation? But you need more information to be able to decide on a specific device? In the following article we clarify frequently asked questions and support you in choosing the right device. At eibabo® we list a large number of switching devices for low voltage. This allows you to implement a DC power supply that can be used in electrical distribution installations in low-voltage networks.What is a DC power supply?Devices for the direct current supply supply the consumers connected to your electrical distribution system (fuse box or distribution cabinet) with low voltage. The scope of performance of the devices we offer ranges from under 5V to 12V, 24V, 48V to 54V.Good to knowWhen electric current flows, charge carriers move. If the voltage has the same polarity continuously, the direction of movement of electrons and protons is also constant and it is direct current. If the polarity changes periodically, the direction of movement of the charge carriers also changes. Then there is alternating current.Most of the devices are mounted on the DIN rail in the control cabinet. In home automation and building technology, flush-mounted power supplies are also increasingly being used, which you can install directly in flush-mounted boxes (deep switch boxes). Discover a large selection of high-quality DC power supply products with us. These include, for exampleDC/DC converterCompact power supplies, power supplies and power packsSwitching power supplies and switching power supplies (for mounting on DIN rails, for surface mounting, for flush mounting and for fixed installations)as well as primary switching regulators, transformer rectifiers and wide-range switching power supplies What are DC/DC converters?DC/DC converters are used wherever one direct voltage has to be converted into another. In other words, DC/DC converters convert the power of a direct current (DC) source from one voltage level to another. In this case, the input energy is temporarily stored and then delivered to the output with a different voltage. The output voltage can be either higher or lower than the input voltage. Electrical energy is stored either in magnetic field storage components (such as a transformer) or in electric field storage components (such as a capacitor). The devices will not work with AC power sources. Good to know:The devices for direct current supply are characterized by a very favorable price-performance ratio and a high level of efficiency. Considering efficiency is important because there are power losses when converting between different voltage levels. Depending on the voltage, current and type of DC/DC converter, the efficiency varies from 75% to 95% or more.What are DC power supplies?In contrast to DC/DC converters, DC power supplies are supplied with AC voltage and provide a specific DC output voltage. The devices are available with different performance data, among other things in order to meet the sometimes different mains voltages in many regions of the world. On the other hand, the various electronic components in an installation require different voltages to achieve their highest efficiency values. In addition to direct current power supplies, which supply a fixed constant voltage, you will also find power supplies with dual outputs or multiple outputs at eibabo. Each output can have a different constant voltage. You are thus able to supply several loads with different operating voltages from one power pack.Power supply or power supply?A power supply is usually a compact device that usually supplies a fixed voltage. A power supply unit, on the other hand, is more complex and expensive. This means that several voltages can often be set variably.In Europe, 12V and 24V power supplies are the most common. Our range of products covers the power range from below 5V to 54V. The spectrum ranges from small, narrow, efficient power supplies to very powerful DC power supplies, converters and complex power supplies.What is the difference between a transformer, a transformer rectifier and a switching power supply?A transformer is a component consisting of coils, copper wire and an iron core. Typically, a transformer increases or decreases electrical voltages. Incoming AC voltage is converted into outgoing AC voltage in a certain ratio. The device does not transform AC voltage into DC voltage. A transformer always uses AC voltage, while a power supply unit uses DC voltage.A transformer rectifier is something like the predecessor of the switching power supply and is only used occasionally today. The device generates DC voltage from AC voltage. With an internal transformer, this device also increases or decreases incoming AC power. The AC voltage is rectified by means of a bridge circuit and then smoothed by a capacitor. A built-in linear regulator on some models ensures that the output voltage is kept at a constant level. These devices are called regulated power supplies, while models without a linear regulator are called unregulated power supplies. A capacitor for short-term damping of voltage peaks is also not installed in all models. The direct current can be taken from the device output. A major disadvantage of these devices is the relatively high permanent power consumption, even when no consumer is connected.The switching power supply is the further development of the transformer rectifier. Here, too, an AC voltage is converted into a larger or smaller AC voltage by a transformer. For safety reasons, the primary circuit (e.g. with 230V mains voltage) is galvanically isolated from the secondary circuit (e.g. with 12V). A bridge rectifier now generates the required direct current, which is also smoothed here by a capacitor.Image: Eltako SNT12-230V/24VDC-1A switching power supplyWhat are wide range power supplies?Power supplies with a 'wide range' on the input side can be operated with different nominal voltages. These devices do not have to be adjusted manually or automatically to the nominal voltage applied.Which devices for DC power supply are recommended?When purchasing a DC power supply, make sure the device meets your requirements for the intended use. Recommended devices for DC power supply are characterized by:a high quality finisha very good efficiencya high energy efficiency You will find the information on efficiency and all other technical specifications in the data sheets as well as in the product description of the respective devices. Here in the shop you only get devices from top manufacturers. These include Eaton, Eltako, Jung, MDT, Phoenix, Omron, Merten, Siemens and many other well-known manufacturers. To make your selection easier, the items in this catalog are pre-sorted according to relevance. You are welcome to filter according to further technical properties. Please use the detailed search for this.  Catalogue content:In this eibabo® catalogue Low-voltage industrial components > DC-power supply you will find items from the following product groups:Item overview:Blind controlCentral supplyCompact power supplyConstant currentConstant voltage sourceDC power supplyEnergy managementEnergy monitoringHome automationHome controlLoad monitoring deviceMains rectifierPower adapterPower converterPower guardPower modulePower monitoring relayPower relayPower suppliesPower supply moduleSecurity of supplySupply deviceSwitching power supplySystem devicesVideo network deviceVoltage moduleVoltage regulatorWide voltagefrom the following manufacturers:Manufacturer overview catalogue Dc power supply:ABBanzadoAssa Abloy effeffBlockEatonEltakoEmtronFinderHagerHeitecHekatronHirschmannIfm ElectronicIndexaJumoJungKonzeptLEG Industrie-Elekt.Legrand BticinoLeuzeMean WellMertenMicrosensMurrelektroniknVent ThermalOligoOmronPepperl + FuchsPhoenixPulsRiedelRockwellRutenbeckSBA-TrafoTechSchneider ElectricSiemensSomfySpectraStahlThebenTrafo-Technik-HoppeckeTurckWAGOWantecWeidmüllerWielandWindowMaster
Auxiliary contact block - Auxiliary switch blocks are an ideal supplement for auxiliary and power contactors. The auxiliary switch blocks we offer differ in design and mounting type, switching type (changeover, opener, closer) and number of contacts. Learn more about these devices in the following post. At eibabo® you will find a huge selection of high-quality auxiliary switch blocks with different specifications. These include:Execution of the electrical connectionType of installation and fasteningHeight of the rated operational currentand more Products such as the auxiliary switch block are among the low-voltage switching devices and are primarily used in electrical distribution installation and the installation of electrical distribution boards. Typical areas of application include engine controls and system controls, switching of lighting systems and multiplication of signals. Switch blocks expand the number of contacts with auxiliary contacts for control.Already knew?Contactors have auxiliary contacts and main contacts. The auxiliary contact is a mechanically operated contact in the auxiliary circuit. This is physically connected to the main contacts and is actuated simultaneously, carries less current and is called the auxiliary contact or control contact.Find out more about the function, structure and use of an auxiliary switch block in the following article.What is an auxiliary switch?An auxiliary contact or auxiliary switch is an additional contact within a circuit. This is used to regulate the amount of current that can flow through the system. Such a device is often installed when more current needs to flow than a single contact can handle. In practice, at least two contacts are then required. If there were only one auxiliary contact, under certain circumstances too much current would flow at one point in the circuit. This means: some areas receive no power, other areas receive more power than required. The amount of current flowing through the individual areas can be regulated with two or more contacts. This ensures that an even and correct power supply is guaranteed everywhere.How does an auxiliary switch work?When an overload trips a relay or fuse, the connected cable is also heavily loaded. In order to exclude the associated dangers, another, usually larger, switch can be controlled with an auxiliary switch. The auxiliary switch consists of a coil with high-current contacts and two sets of low-current contacts. In contrast to the coils of the main switch, these are not designed for continuous operation in the entire system. However, the auxiliary switch has delay functions. These prevent arcing and possible damage when opening the auxiliary switch while the main switch is still live.Image: Eaton DILA-XHI22 auxiliary switch moduleWhy should I use an auxiliary switch?They protect your circuit breakers and devices from damageSince auxiliary switches trip when a circuit is overloaded, the main switch or fuse are not overloaded. This protects your devices from damage caused by current spikes and heat build-up, to which your under-capacity fuses and circuit breakers would not respond. Auxiliary switches are often equipped with their own fuses. In the event of an overload due to a short circuit, its fuse will therefore trip without affecting the main circuit breaker. The auxiliary switch protects your devices from wear and tear, which would be caused by circuit breakers tripping frequently.You protect yourself from electrical hazardsAuxiliary switches ensure that no dangerous electrical faults occur due to the triggering of overloads. If an overload is not triggered, this may lead to:failures in the circuitsoverheating of componentselectric shocksfire hazard Auxiliary switches minimize these risks and ensure a safer working environment.They minimize the risk of power failuresAuxiliary switches minimize the risk of power failures because the circuit breaker is not overloaded. Even before fuses or circuit breakers trip, an overloaded circuit can cause overheating, damage to equipment, personal injury from electric shock, and other malfunctions. Auxiliary switches trip in the event of overloads before a critical level is reached. This ensures optimal performance and life expectancy for your electrical system.They increase the life expectancy of circuit breakersWithout an auxiliary contact, the circuit breaker would have to handle the additional current required by under-capacity circuits. This would degrade their ability to dissipate heat. And this leads to degradation of circuit breaker performance over time. Auxiliary switches limit the current and ensure that the main circuit breaker is not subjected to dangerous overloads.What is the difference between auxiliary switches and circuit breakers?A circuit breaker uses an insulating washer that separates the two sets of contacts. Protecting high currents and voltages on circuit breakers requires a lot of force to make a conductive connection. The classic useMost often, a circuit breaker with main contacts and auxiliary switches is used to control the operation of motor-driven equipment. When the device is not powered, a spring mechanism keeps the two sets of contacts apart. When the circuit breaker is actuated, the spring is released and the two contacts come together.An auxiliary switch requires less pressure to open and close. When closed, the two sets of contacts touch via a metal bridge. If there is a problem with the circuit breaker mechanism or an overload is detected, one pair of contacts will easily separate from the other. As a result, further protective measures can be taken, including opening the main contacts or turning them off completely. Auxiliary contacts are therefore used for monitoring, so that in the event of a malfunction, the main contacts can be opened before there is a problem with the device or the circuit breaker.As a leading specialist center for electrical engineering, the eibabo® technology store only offers you high-quality auxiliary switches and auxiliary switch blocks. Our range includes products from the manufacturers ABB, Eao, Eaton, Hager, Mennekes, Schlegel, Siemens, Stahl and Steute. Use our numerous payment methods and have your order delivered directly and quickly worldwide.  Catalogue content:In this eibabo® catalogue Low-voltage industrial components > Auxiliary contact block you will find items from the following product groups:Item overview:Auxiliary switchBuilt-in switchConnection baseContact setControl unitEngine monitoringFlat connectorFuseFuse cartridgeInrush current limiterInstallation kitLate break contactLoad disconnectorPendant controlPhase barrierProvisionPush buttonRail mounted devicesResetSealing hoodSignaling contactSwitch blockSwitch-on readySwitching cycle counterSwitching elementTouch protectionTripped signaling moduleVoltage releasefrom the following manufacturers:Manufacturer overview catalogue Auxiliary contact block:ABBEaoEatonEuchnerHagerKraus & NaimerLegrand BticinoMennekesMitsubishiRafiRockwellSchlegelSchmersalSchneider ElectricSiemensStahlSteute
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1 From 624
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RECOMMENDED
3D
Phoenix - FBS-PV - Cross connector/bridge for terminal block FBS-PV
46.87₹ excl. VAT

*

Cross connector/bridge for terminal block
Phoenix
| FBS-PV
RECOMMENDED
3D
Phoenix - FBS 2-5 BU - Cross connector/bridge for terminal block FBS 2-5 BU
24.37₹ excl. VAT

*

Cross connector/bridge for terminal block
Phoenix
| FBS 2-5 BU
RECOMMENDED
3D
RECOMMENDED
3D
Hager - HZC709 - Connection rail 4-pole, 63-80A - Connecting bridge HZC709
4,672.10₹ excl. VAT

*

plus shipping
(7,208.76₹ RRP***)
Connection rail 4-pole, 63-80A - Connecting bridge
Hager
| HZC709
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Hager - K67M - Cable bridge NYAF 10qmm, 250mm - Cable tree K67M
258.73₹ excl. VAT

*

plus shipping
(478.08₹ RRP***)
Cable bridge NYAF 10qmm, 250mm - Cable tree
Hager
| K67M
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Rutenbeck - ACR WLAN #22610408 - WLAN access point 150Mbit/s ACR WLAN #22610408
20,937.27₹ excl. VAT

*

WLAN access point 150Mbit/s
Rutenbeck
| ACR WLAN #22610408
RECOMMENDED
3D
Phoenix - FBS 10-5 BU - Cross connector/bridge for terminal block FBS 10-5 BU
218.42₹ excl. VAT

*

Cross connector/bridge for terminal block
Phoenix
| FBS 10-5 BU
RECOMMENDED
3D
Metz - 110728 - 10-pin switching bridge - Cross-connector for terminal block 10-p 110728
205.29₹ excl. VAT

*

plus shipping
(361.84₹ RRP***)
10-pin switching bridge - Cross-connector for terminal block 10-p
Metz
| 110728
RECOMMENDED
3D
Phoenix - FBS 50-5 BU - Cross connector/bridge for terminal block FBS 50-5 BU
1,067.72₹ excl. VAT

*

Cross connector/bridge for terminal block
Phoenix
| FBS 50-5 BU
RECOMMENDED
3D
Hager - K67G - Cable bridge NYAF 6qmm, 250mm - Cable tree K67G
82.49₹ excl. VAT

*

plus shipping
(152.80₹ RRP***)
Cable bridge NYAF 6qmm, 250mm - Cable tree
Hager
| K67G
RECOMMENDED
3D
Phoenix - FBS 2-3,5 GY - 2-pin bridge, grey - Cross-connector for terminal block 2-p FBS 2-3,5 GY
1,189.59₹ excl. VAT

*

(For 50 Piece) plus shipping
2-pin bridge, grey - Cross-connector for terminal block 2-p
Phoenix
| FBS 2-3,5 GY
x 50 Piece
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3D
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