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Hager - Almost every household has a HAGER product. There is no getting around HAGER when it comes to electrical installations in residential or functional buildings. That also has a reason. There is probably no comparable manufacturer in the world with such an extensive and diverse range of products in electrical installation. HAGER is the epitome for every electrician, not only for the basic electrical installation for electrical distribution boards and meter cabinets. Electrical installers deliberately prefer HAGER products because they are very innovative and easy to install. Of course, this also goes down well with the consumer thanks to lower installation costs. From the selective main circuit breaker (selective circuit breaker - SLS) in the meter cabinet via circuit breakers, smoke detectors; The eibabo® HAGER product portfolio is very large with well over 3000 items, more than 1000 of which are immediately available stock items, for energy distribution and meter space systems, cable routing and room connection systems, security technology and door communication as well as switch programs and products for intelligent building control (Smart Home, building automation KNX® ). In particular, the extraordinarily intelligent, well thought-out solutions for quick and safe system integration are very popular with all installers. With the three brands Hager, Berker and Elcom, Hager combines product solutions and services that offer innovation, safety and reliability, easy installation and operability as well as an attractive design. Electrical engineers, planners and architects as well as wholesalers and end customers have relied on these products for decades. The global company employs over 11,500 people. Hager Vertriebsgesellschaft mbH & Co. KG belongs to the Hager Group and is a direct subsidiary of Hager SE, an owner-managed family company based in Germany. Hager Vertriebsgesellschaft mbH & Co. KG (Hager) provides solutions and services for electrical installations that cover the entire spectrum of residential and functional buildings. At eibabo®, we list a large selection of HAGER products for private and corporate customers to purchase in the Smart Home and Elektromaterial main catalogs at top conditions with worldwide delivery. In particular, Hager residual current circuit breakers, small installation distributors, installation contactors, meter cabinet systems, automatic circuit breakers, Hager KNX® switching actuators, dimming actuators, main line terminals, shutter actuators, push-button sensors as well as Hager KNX® energy meters and KNX® bus couplers are particularly popular. At eibmarkt® in the eibabo® store you will find a large selection of top products from the manufacturer HAGER, which will certainly convince you with their excellent quality. Find the HAGER products you need in our HAGER manufacturer catalog in our eibabo® online shop. If you cannot find a Hager product you need, please do not hesitate to contact us. eibabo® can procure all products available from Hager.
Berker - Hager Vertriebsgesellschaft mbH & Co. KG is part of the Hager Group. It is a direct subsidiary of Hager SE, an owner-managed family company based in Blieskastel, Germany. The global company employs over 11,500 people. Hager Vertriebsgesellschaft mbH & Co. KG unites three brands and companies with a common goal: Hager provides solutions and services for electrical installations that cover the entire spectrum of residential and functional buildings. Since 1955, the Hager brand has stood within the group for solutions and services for electrical installation that meet all requirements. Whether in residential or functional buildings: Hager's innovative range is comprehensive and ranges from energy distribution and metering systems to cable routing and room connection systems to security technology and intelligent building control. For all-round easy and safe installation by the electrical trade. Since 1919, the traditional brand Berker has been convincing with high-quality switch ranges, whose successful designs have been awarded several international prizes. They are characterized by long-lasting quality and ease of use. This also applies to intelligent building technology systems. Whether switches or home controls: BERKER develops products that meet the high aesthetic and technological demands of end customers, architects and planners. The Elcom brand has been known for professional door intercom systems for residential and office buildings of all sizes since 1976. Technologically advanced products and the creative design of the entrance area are the key to success. In addition, there is the willingness to adapt flexibly to the wishes of the customers with individual solutions. The spectrum of the three companies includes energy distribution and metering systems, cable routing and room connection systems, security technology and door communication as well as switch programs and intelligent building control. Innovation, security and reliability, easy installation and usability as well as an attractive design are key terms that describe the offerings from the Hager, Berker and Elcom brands. At the same time, they define the requirements for the solutions and services. Electrical engineers, planners and architects as well as wholesalers and end customers can rely on this claim.
Elcom - When it comes to electrical installations, here in the eibabo® technology store you cannot ignore the Hager Group with its three main brands Hager, Berker and Elcom. Hager sees itself as a leading provider of solutions and services for electrotechnical installations in residential, industrial and commercial real estate. The former company Elcom was a manufacturer of door communication systems and was taken over by the Hager Group in 2012. The range was integrated into the group's program and is now being sold as an in-house brand. The company relies heavily on a symbiosis of all areas of the company, which bundles all the skills needed to develop innovative products, solutions and services related to intelligent buildings. The eibabo® shops from eibmarkt® carry numerous products from the group. From the Elcom brand, these include door intercom sets, code locks, door loudspeakers, in-house telephones, switching relays, interfaces, door electronics, installation frames and cover modules, indoor and outdoor stations, motion detectors, power supplies, card readers, secondary signal housings, bell plates and consoles. Based on the experience we have gained in more than 20 years of installing and selling components from Hager, the products meet all the expectations placed on them. The quality is in no way inferior to the reliability. Customers and partner companies use Hager, and especially Elcom items, very often for house installations and have not recorded any significant failures even after years of use. The product groups of the other two brands, Hager and Berker, include, for example, meter space systems, distribution systems, switching and protective devices, modular installation devices, energy management, charging stations, cable routing systems, room connection systems and switch ranges.

Found in shop categories: 7

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
Multi-level installation terminal - Which multilevel installation terminals are there and what functions do they have in the control cabinet? Are multi-level installation terminals the same as feed-through terminals? What's the difference? How is the assembly done? Here you will find answers to many questions. In the eibabo® technology store you can get multi-level installation terminals from all well-known manufacturers such as ABB, Hager, Phoenix, Siemens, WAGO, Weidmüller and Wieland at top conditions and in large quantities. Delivery is worldwide, fast and safe.Installation multi-level terminals are among the most important components within a control cabinet and fulfill several functions. The terminals represent connecting elements between the incoming cables and lines of an installation and the actual control cabinet installation. The assembly is carried out on the DIN rail.What are installation multi-level terminals?Installation multi-level terminals are multi-pole terminal blocks. The term 'terminal block' not only includes multi-level installation terminals, but also, for example, feed-through terminals, fuse terminals and relay terminals. Surely you have already heard or read about single-level clamps and triple-level clamps. These are other common names for feed-through terminals and tier terminals. When it comes to spring-loaded terminals, push-in terminals or screw terminals, the focus is on the type of wire attachment. But these terminals can also be counted among the multi-level installation terminals. The main feature of the installation multi-level terminals is the potential entries arranged one above the other.What is the difference to a feed-through terminal?The differences between feed-through terminals and multi-level terminals are small and mainly lie in the number and arrangement of the potential entries. A simple feed-through terminal usually only has one potential, while tier terminals can have several potentials. This saves space compared to feed-through terminals, since the feed-through terminals are arranged next to each other as individual terminals. A clear assignment of the different cores is guaranteed by the colored conductor entry openings in multi-level terminal blocks. Tier terminals are therefore more complex feed-through terminals and are often equipped with special functions for building installation, for example with N disconnect terminals, equipotential bonding terminals or distribution feed terminals.How important are multi-level installation terminals for control cabinet construction?With multi-level installation terminals, you achieve enormous flexibility in control cabinet construction. Rigid incoming cables and lines are clearly laid out on the terminals. You thus create flexible connection points to connect the actuators, fuses or other devices in the control cabinet with individual wires. This keeps the entire installation flexible, as there are nodes for testing and changing the entire system. A direct connection without installation multi-level terminals would not be clear and would lead to considerable effort in the event of changes.Image: WAGO 2003-7641 Multi-level installation terminalWith the implementation of a well-structured circuit diagram, each link created in this way takes on a comprehensible function. The installation of the system remains clear. Additions, repairs and maintenance in the future are made easier. Changes to the system are always possible by reconnecting individual wires. The rigid supply lines remain untouched.For a better overviewYou can attach labeling fields to some tier terminals. We recommend using this. Label all devices and connections sensibly. Matching labeling fields are available here in the shop.But this structure offers other advantages. During maintenance work, the electrician can carry out his insulation measurements and other control work directly on the tier terminals. This saves time and money when troubleshooting. For example, many DIN rail mounted devices (REG) only have two contact points for connecting the cables. With the use of installation clamps, you can expand this if necessary. An example: You want to protect several lines with one fuse. Unfortunately, you can only connect the wires from one line directly to the fuse. What can you do? In order to link further lines, establish clear jumper connections on the installation multi-level terminals.How can the cables be attached to the installation multi-level clamps?Each manufacturer builds the multi-level installation terminal blocks slightly differently. However, the principle is the same. While single-level terminals connect only one line as simple feed-through terminals, the installation of several incoming and outgoing lines is possible in multi-level terminals / tier terminals. A three-tier terminal block is designed for the connection of the protective conductor, the N line and the L line. The arrangement in tiers saves a lot of space in the control cabinet. Multi-level terminal blocks are used very frequently, especially in the smaller switch cabinets in private households and in smart home installations. TIP:If a terminal block does not have a connection point for the outgoing protective conductor, snapping it onto the DIN rail ensures 100 percent contact with the protective conductor contact foot. The types of attachment for the cables represent a special distinguishing feature. There are screw terminals, spring-loaded terminals and push-in terminals.With the screw terminal, a screw fixes the respective wire. This method is comparatively time-consuming, especially when dealing with a large system with many connections. Fastening with a screw must be done carefully so as not to damage the solid or flexible cable too much.With the spring-loaded terminal, the electrical contact is made with a mechanical metal spring. The spring is in the form of a curved flat contact with a hole. The wire must be put through the hole to connect. This is only possible if the spring is stretched with a pointed tool. The line will bind as soon as the tool is removed and the spring relaxes. The connection is released in the same way.The push-in connection is a variant of the spring-loaded terminal. Here, too, a spring-loaded metal contact presses against the wire. Installation is tool-free. The wire is inserted into the spring shaft of the multi-level terminal block and the contact is locked directly by the spring force. You need a tool to loosen the connection. Using a small screwdriver, bend the spring contact to the side and the wire will come loose. These connections save a lot of time with cables with solid conductors. Wires with flexible strands can also be fixed using this method, but they should be stabilized with a ferrule.The attachment of the cores using insulation displacement terminals is rare and is only used if your cable is particularly thin. With this method, the conductive contact is made by cutting the wire insulation.Special features of the neutral conductor contactIn addition to models with screw attachment and spring clamps, there are multi-level terminals where you can use an N busbar. With these terminals, the neutral conductor contact is designed in such a way that a busbar can be connected with a flick of the wrist. In this case you need an additional terminal for feeding. To ensure that the rail is held securely, use suitable trestles at the beginning and end of the row. Some clamps also offer mounting levers. Please also fix longer rails every 20 centimetres.Are there different tier terminals for the different cable cross-sections?Cables and lines with different cross-sections are used in electrical installations. This affects the tier terminals. Appropriate terminals are available for all common cable cross-sections. The suitability for certain cross-sections is indicated on the terminals. In addition, there is the option of bridging the N lines and the L lines via several tier terminals, sometimes on several levels. Suitable cable bridges are available here in the shop.Why are multi-level installation terminals open on one side?As you may know, the space available in the control cabinet is specified in modular widths (TE). The specification of the pitch units provides information about the capacity of a control cabinet and helps with the purchase decision. Installation multi-level terminals do not correspond to this grid dimension, but are manufactured as narrow as possible. So the narrower the individual terminal is, the more terminals you can install on a certain area of the DIN rail. Good to know:A pitch unit is 18 millimeters according to DIN 43880:1988-12. The installation width of the devices is 17.5 millimeters (deviation plus 0.5 millimeters) and its multiples. Installation multi-level terminals are typically mounted directly next to each other on the mounting rail. There is therefore no risk of touching the contacts on the open sides. This saves material in production and some space. Without a side cover, a terminal is slightly narrower. Only the last terminal in a row is covered.What are N disconnect terminals?Electrical systems must be checked regularly. The insulation measurement (e.g. between neutral conductor and protective conductor) is an essential part of such a test. As a result, possible insulation faults, which can cause fires and the associated damage to persons or property, are detected at an early stage. To do this, the neutral wire of each circuit must be disconnected. The use of neutral conductor disconnect terminals is therefore necessary in this country in public facilities, workplaces in trade and industry and in fire-endangered premises.  Catalogue content:In this eibabo® catalogue Terminal blocks > Multi level installation terminal block you will find items from the following product groups:Item overview:Cage clampDouble clampFeed blockFeed-through terminal blockFuse plugGround terminalInsta clampInstallation clampMulti-level clampPhase terminal blockSingle clampSpring clampSpring clipSpring terminalTerminal blockThree-wire terminalTier clampTripod clampUniversal clampfrom the following manufacturers:Manufacturer overview catalogue Multi-level installation terminal:ABBHagerPhoenixSiemensWAGOWeidmüllerWieland
Dimming actuator - The technical requirements for the use of dimming actuators are very extensive. Why do I need a dimming actuator and which dimming actuator is the right one for me? In this eibabo catalog you will find many dimming actuators from different manufacturers, for example from the top brands ABB, Berker, Busch-Jaeger, Eaton, EVN, Gira, Hager, Issendorf, Jung, Lingg & Janke, MDT, Merten, Siemens and Theben various automation systems or conventional applications.How do I plan the lighting correctly?You should not start with the control technology first, because this follows at the very end of the lighting planning. First you should plan the lighting according to necessity, appearance, ambience and your own wishes, followed by the functional requirements and then find the right lights.Save by planning!The more precise, the cheaper the execution of the installations. The more complex the functional requirements are, the more important it is to plan and research a suitable SmartHome system.Only then is the functional implementation carried out, which consists of many other topics.What should I know beforehand?Which lights do I want to install?Do I want to use a conventional installation or a bus system?Should the SmartHome be wired or radio (KNX, DALI, or Zigbee radio protocols such as Hue)?Which lights are switched and/or dimmed together and how?Should it be controlled via app or voice assistant?and much more... ... this results in the following findings, for example:Which cables and lines are required?Which control components (e.g. dimming actuators) have to be considered?To what extent do the operating resources have to be secured?How much space must be provided in the electrical distribution?Do I have to consider special flush-mounted sockets for lights?and much more... What do I have to consider before buying a dimming actuator?Before you buy a KNX dimming actuator, the load types of the equipment and their performance should be checked carefully. There are basically 3 types of KNX dimming actuators. There are dimming actuators with the control type leading edge, trailing edge or universal dimming actuators that recognize the connected load type and automatically activate the correct type of control. TIP:Install a few more lights in the room and use a dimming actuator to create a pleasant lighting ambience. KNX dimming actuators are available for installation in the electrical distribution system, then they have the suffix 'REG' for modular installation devices or as a concealed version 'UP' for installation in a mounting box or junction box or as an installation version 'EB' for integration in ducts or similar. 230V halogen lamps or incandescent lamps, for example, can be operated with both types of control.What is the difference between leading edge dimming and trailing edge dimming?Very simply explained; 12V low-voltage lighting (NV) with a conventional iron-core transformer requires phase control dimming, although these transformers are hardly ever used. 12V low-voltage lighting (NV) with an electronic transformer requires trailing edge dimming.The type of dimming of the dimming actuator can be recognized by the abbreviation 'RL' for trailing edge dimming for incandescent lamps, 230 volt halogen lamps and the abbreviation 'RC' for trailing edge dimming for incandescent lamps, 230V high-voltage halogen lamps, 12V low-voltage halogen lamps, dimmable LEDs and dimmable ones energy-saving lamps. It is also possible that both abbreviations 'RC' and 'RL' can be found printed on the dimming actuator. Often you will also find this imprint: 'R, L, C'. It designates which equipment the dimming actuator can work with (dimmer, transformer, LED). If you find all 3 letters or the abbreviations 'RL' and 'RC', then it is usually a universal dimming actuator.Image: KNX LED universal dimming actuator - Jung 390041SRIn this case, however, the limit values of the power ranges for each type of dimming with connected equipment must be observed. Dimming actuators often have minimum loads, which may not be suitable for the use of LEDs. Trailing edge dimming 'RC' (trailing edge control) is the most common application. Basically, the lamp and the dimmer must be marked as 'dimmable' and fit together. TIP:For LEDs, we always recommend LED dimmers or LED controllers, which have also been developed for exactly this application. If in doubt, you can also contact the manufacturer of the dimming actuator directly if you send a data sheet for the equipment (lamps and, if applicable, ballasts).Can I dim a fluorescent lamp? Are energy-saving lamps dimmable?Yes, fluorescent lamps and energy-saving lamps can also be dimmed, provided the lamp is suitable and marked as 'dimmable' or, in the case of fluorescent lamps, there is a dimmable electronic ballast (EVG) for 1-10V or the DALI standard. You can find KNX dimming actuators for electronic ballasts with a 1-10V interface under Smart Home > Light control unit. Another standard for electronic ballasts is DALI (Digital Addressable Lighting Interface). The advantage over the 1-10V variant is that addressing is possible and there is no wiring according to groups. Further advantages are direct addressing, status messages, scene memory and a wide range of dimming options with the DALI ECG.How do I find out if my lamp / luminaire is dimmable?Basically, the light source used should first be checked to see whether it is dimmable. You can find this marking in the item description or on the packaging. Lamps that have already been planned and fitted with light sources must be checked for dimmability and the type of control with the control gear used.How do I determine the power for my dimming actuator?It must be clear which light groups are to be switched and dimmed together and how high the total output (W/VA) of the group is in order to select the appropriate KNX dimming actuator with regard to the required maximum output, the minimum load and the number of channels as well as the type of control Find. eibabo always recommends a thorough analysis of the application prior to purchase. Lamps and illuminants must be technically analyzed and checked against the technical data of the dimming actuator. In addition, there are countless different parameter properties of KNX dimming actuators between the manufacturers.Why can't I dim my LED light?All dimming actuators meet the standard requirements for dimming. In addition, many manufacturers offer additional interesting parameters. These parameters may be functionally important for your project. The marking KNX universal dimming actuator does not automatically mean that these dimming actuators are also suitable for dimming the LEDs you use.  Catalogue content:In this eibabo® catalogue Installation bus systems > Dimming actuator for bus system you will find items from the following product groups:Item overview:ActuatorBasic moduleBinary inputBrightness controlBus technologyControl blockControl unitDimmer plugDimming actuatorsDimming extensionDIN railEnergy efficientExpansion moduleFan driveFunction moduleLight controllerLightbulbsLightingLighting technologyLuminaire controlOutput moduleRadio controlRadio receiverRetrofit lampsSocket coverStarter packUniversal dimmerUniversal dimming actuatorfrom the following manufacturers:Manufacturer overview catalogue Dimming actuator:ABBBerkerBusch JaegerEatonElsoEltakoESYLUXFinderfrogblue AGGiraHagerIssendorffJungLegrand BticinoLegrand SEKOLingg & JankeMDTMean WellMertenPehaSchneider ElectricSiemensThebenWielandZumtobel
Plug-in terminal - Would you like to connect solid or stranded conductors quickly and safely? This is not a problem with the plug-in terminals from the eibabo® technology store. Choose from numerous different versions for a wide range of applications. Best prices, a wide range of additional information and illustrations, fast availability and worldwide shipping characterize our shop. In addition to the company Wago, other well-known manufacturers offer high-quality plug-in terminals. The eibabo® shop stocks plug-in terminals from the brands ABN, Barthelme, Eaton, Finder, Hager, Hellermann Tyton, Kleinhuis, OBO, Phoenix, PROTEC.class, Spelsberg and Striebel & John.You will find a large selection of clamps for different requirements and areas of application. There is a large number of terminals, which are designed in different designs depending on the wire type and cross-section and thus perfectly match the respective area of application. These include bus coupler terminals, compact connection terminals, box terminals, terminal strips and connection terminals. Depending on the design and area of application, the plug-in terminals have a certain number of slots. Some variants of clamps are transparent. This will help you see if the wire is properly attached.Image: WAGO 243-208 screwless connection terminalWhat are plug-in terminals?Plug-in terminals is the name for numerous different spring-loaded terminals, spring-loaded terminals, connecting terminals or screw terminals. These are used in electrical engineering to connect wires, cores and lines. Clamping or screwing an electrical conductor offers a safe and maintenance-free connection. Already knew?Push-in terminal does not mean that the wire is fixed by inserting it into the terminal. There are also push-in terminals where the wire is held in place with a screw. The plug-in terminal is also often referred to as a Wago terminal. The clamps were given this designation after the manufacturer Wago. He introduced the spring clamp technology in the early 1950s and has continuously improved it since then. Since the 1970s, the product has revolutionized electrical installation, as screw connections can now be dispensed with in many areas. However, this does not mean that clamps with screw fastening are no longer used. In this catalog you will also find clamps with screw connections, also known as luster clamps or Euroclamps.Where are plug-in terminals used?Push-in terminals are one of the most popular methods of making electrical connections. Solid or stranded conductors can be connected quickly and safely with the help of plug-in terminals. In our shop we offer different types of clamps, which are suitable for different areas of application. For example, there are terminals for use in the following branches of industry:electrical industryautomotive industrytelecommunicationscommunications engineeringPlant construction and mechanical engineeringcomputer engineeringmedical technology In the private sphere, plug-in terminals are mainly used to clamp rigid wires in junction boxes, in control cabinets, in domestic installations or to connect lights.What should I know about plug-in terminals before buying?Electrical installations and electronic circuits almost always have to be connected to external devices, power sources, inputs or outputs. These connections are made using plug-in terminals. These are available in many different types, shapes, sizes and denominations. Choosing unsuitable plug-in terminals can cause some difficulties. These can be simple space problems within a terminal box or have serious consequences such as fires. Therefore, we would like to introduce you to some types of plug-in terminals. Although there are many other variants, we limit ourselves to the most well-known products, which can be found in almost every sector. The areas of application range from classic household wiring to automated applications.Push-in terminalsSo-called push-in terminals use small spring-loaded contact levers. The highlight is that the electrical conductor can be pushed into the terminal without tools. However, it is not possible to pull it out just as easily. The wire is effectively held in place. Compared to the screw clamp, this fixing method offers the advantage that the wire cannot be damaged during installation. If you want to release a pinched wire, pull on the wire while making an alternating twisting motion. In this way, you release the plug connection without damaging the plug-in terminal, the spring mechanism or the electrical conductor.Please noteNot all push-in terminals are designed for multiple use. Some clamp springs hold the wire 'forever'. If you want flexibility in your installation for modifications or repairs, choose push-in clamps with a lever-release lever. This releases the wire again when actuated.When choosing the right terminal, pay attention to the appropriate cable cross-section. This should always correspond to the permitted nominal cross-section of the terminal. You will typically find this information on the packaging. An electrical conductor that is too thin cannot be securely clamped and held.terminal blocks and terminal blocksTerminal blocks accept a single wire and connect it to a circuit or other system. Terminal blocks are available in a variety of sizes, ratings and shapes and are available in rows. Each terminal in a row is only fitted with one wire. This variant of the plug-in terminal is useful for connections that are subject to regular maintenance, repair or modification. Terminal blocks always have a mechanically strong body made of plastic or another insulating material. In addition to the spring attachment, versions with a locking lever are also available. The wire is inserted and a clamping lever holds the electrical conductor in place. Another common connection method is to use a screw. TIP:Great care must be taken when tightening the screw. Overtightening the inserted cable can damage the electrical conductor. An unreliable or potentially dangerous connection would result. In some variants, the screw presses the electrical conductor against a metal body. On other screw-connection terminal blocks, the screw presses onto a flat metal head. This in turn presses the wire against a metal insert.Pluggable terminalsPluggable terminals have a cable entry to allow the wire to be connected. On the other hand, these terminals have a plug output and thus offer a pluggable connection for further installation. This type of plug-in terminal is useful when the connection must be frequently disconnected for maintenance or inspection. These contacts are usually screwed.barrier clampsBarrier clamps also use screws as the mechanism for holding the electrical conductors. Barrier clamps often have more than one connection point for multiple cables or wires. These connection points are isolated from each other (barrier). Depending on the model, barrier terminals have small covers or housings. These protect the cabling additionally. Barrier clamps find application in house wiring and other high voltage connections where arcing or potential short circuits must be avoided.  Catalogue content:In this eibabo® catalogue Installation, isolation and connection material > Screw less terminal you will find items from the following product groups:Item overview:Apartment distributorCable connectionCan clampClamp adapterClamping railComplete cabinetConnection clampConnection clampsConnectorConnector pinsCounter distributionCounter systemDirect measurementEngineering centerFuse boxFuse distributorJunction box clampJunction box terminalMeter boxNeutral terminal barOverhead line clampPower boxRelaxation gripSix-wire terminalSmall distributorsSpare PartsTerminal blockTwo-wire terminalfrom the following manufacturers:Manufacturer overview catalogue Plug-in terminal:ABNBarthelmeEatonFinderHagerKleinhuisOBOPhoenixSpelsbergStriebel & JohnWAGO
Combination rcd-line protection - What are the advantages of a residual current circuit breaker in combination with line protection? Where are these devices used? What specification should you look out for? Read this post to learn more. Electricity is an indispensable part of our life. But the fact is that electricity poses a risk to life and property. The main risks associated with electricity include electric shock and fire. Therefore, you should not be neglectful when protecting your circuits. The aim is to protect people from the risk of electric shock and fire. In the event of sudden ground faults, a residual current circuit breaker is particularly helpful. This ensures that in such cases the circuit is immediately interrupted. Circuit breakers are used in the event of overcurrents. With the combination of both devices you protect yourself against most dangers.Image: Hager ADZ316D residual current circuit breaker with line protectionWhat is combi FI line protection?Combination switches for residual current circuit breakers (FI) and line protection (LS) are also referred to as FI/LS combination switches. This FI/LS combination switch is a protective switching device that combines the functionalities of residual current circuit breakers and miniature circuit breakers. A residual current circuit breaker is an important safety measure when it comes to protecting electrical circuits. RCCB or RCD is also often mentioned. These are the abbreviations for the English terms 'Residual Current Circuit Breaker' and 'Residual Current Device'. It is a current sensing device that can automatically measure and disconnect the circuit. Disconnection occurs when a fault occurs in the connected circuit or the current exceeds the rated sensitivity of the device. Miniature circuit breakers are overcurrent protection devices when used in low-voltage networks. These are also called MCBs. MCB is the abbreviation for the English term 'Miniature Circuit Breaker'. Advantages:The combination FI line protection devices offer the following protection at the same time: short-circuit protection, overload protection, additional protection or error protection, protection against electric shock and preventive fire protection. While a residual current circuit breaker is only used to protect against earth faults and a miniature circuit breaker only to protect against overcurrent, the combination FI line protection protects against both types of faults.Where is combined RCD line protection required?The FI line protection combination devices we offer are used both in residential installations and in industrial applications. You can significantly increase the availability of a system with RCBOs. We recommend fitting a combi RCD to each individual circuit. Errors that occur in one circuit therefore do not impair the functionality of the other circuits. Assembly:The series installation devices are intended for installation in electrical distribution boards on the DIN rail. If you have electrical circuits that must remain functional at all times, a combi FI circuit breaker is the right choice. For example, think of the power supply for your aquarium, freezer or fire alarm. RCDs and miniature circuit breakers can still cause a power outage because they only detect one type of problem. In less important circuits, a residual current device or a simple miniature circuit breaker may be less expensive. However, consider their disadvantages when installing in critical systems.Can I replace a simple residual current circuit breaker with a combination FI circuit breaker?You can, of course, retrofit an FI/LS combination switch or replace your existing residual current circuit breaker with a combination FI circuit breaker. The prerequisite is that the cable sizes are appropriate considering the rating of the combined RCD. We recommend that the replacement be performed by a qualified electrician in accordance with the manufacturer's instructions and guidelines. He should check the resistance values and test the insulation. The isolation of the RCD combination switch should also perform within the appropriate specifications.What should I look out for when buying a combi RCD?When distinguishing between the individual RCBOs, please consider the tripping characteristics. Combination switches with B characteristics and C characteristics are available here. The key difference between Type B and Type C devices is their ability to tolerate surge currents without tripping. These are typically inrush currents in connection with reactive loads, which occur, for example, with lighting or motors (capacitive or inductive loads).Good to knowThe classification according to tripping characteristics is based on the nominal residual current at which instantaneous tripping occurs. This is usually less than 100 milliseconds. On the one hand, devices with high inrush currents should not trigger the RCBO combination switch unnecessarily. On the other hand, it should switch safely in the event of a short-circuit current.Type B devices are primarily suitable for domestic and light commercial applications. Here shift shocks are low or non-existent. Choose Type C equipment for commercial and industrial applications when you expect a certain level of electrical inrush current. In addition, there are devices of type D. These have only limited applications. Typically in industrial environments where high inrush currents are expected.Type B devices trip at fault currents that are three to five times the rated current. For example, a 10 amp device will trip at 30-50 amps.Devices with a C characteristic are designed in such a way that they trip at five to ten times the nominal current. A 10A device will respond at 50-100 amps. Choose a suitable model from a trusted manufacturer. The switching properties of cheap no-name devices can differ significantly from the specified values. Don't compromise on your own safety. In this catalog from the eibabo® shop you will find numerous residual current circuit breakers with line protection from leading manufacturers such as ABB, ABL, Busch Jaeger, Doepke, Eaton, Hager, Legrand Bticino, Schneider Electric and Siemens.Why does my combi RCD keep tripping?In addition to natural inrush currents, failure of connected equipment can trip a Type B combination switch in a residential or commercial environment. This is caused by high arc currents occurring at the time of failure. If unwanted trips persist, a Type-C device can replace a Type-B device, especially in commercial applications. Alternatively, it is possible to use a type B device with a higher power rating. Another reason can of course be a constantly present fault current in the installation or in the connected devices. Connected pluggable equipment should be removed in order to identify a defective device as the cause. If this is not the case, an electrician should be commissioned to check the electrical installation immediately. TIP:If a combination FI line protection trips, there is a reason. Increasing the tolerance threshold is only possible within certain limits. In this case, please look at your installation. The normal ratings for cables and wires refer to continuous operation under specified installation conditions. Of course, cables and wires can carry higher currents for a short time without being damaged. If the load becomes too high, please secure individual devices separately.  Catalogue content:In this eibabo® catalogue Circuit breakers and fuses > Earth leakage circuit breaker you will find items from the following product groups:Item overview:Circuit breakerCombination circuit breakerCombination switchEarth leakage circuit breakerLine protectionPersonal protection machineResidual currentfrom the following manufacturers:Manufacturer overview catalogue Combination rcd-line protection:ABBDoepkeEatonHagerSchneider ElectricSiemens
Combi i/o device - Combi IO devices are essential components of complex building automation. Find out here how to use the high-quality IO devices and what options there are for your installation. In any case, these devices increase the efficiency of your installation. Learn more about these modules and why it is so important for them to work properly.What is an IO device?An IO device - also known as an input-output module - enables communication between a computer system and a peripheral device. This type of processor communication between devices increases a computer's capabilities. The operating system is enabled to connect to the outside world. Communication and interaction takes place through sending and receiving information. Possible input information are, for example, signals from user inputs or binary inputs. Output signals are sent by the system or converted into actions as manipulated variables by actuators. With the use of a multifunctional input module, the work can be carried out more efficiently and accurately. Typical IO devices include:KNX universal interfacesKNX universal controllerKNX switching actuators with integrated binary inputsKNX button interfaces with outputs for LED controlspecial KNX room controller with a variety of special functions  TIP:An IO device can interface with a large number of bus protocols, for example PC Cards, USB, PCI, VMEbus and FireWire. In this eibabo® category you will find, for example, KNX devices with multiple functions from top manufacturers such as ABB, Berker, Busch-Jaeger, Gira, Hager, Issendorf, Jung, Lingg & Janke, MDT, Merten, Siemens and Theben.What are the most important functions of an IO device?An IO device is an essential link in the control chain and closes the gap between your computer system and the external devices. It can perform multiple functions including:Communication between the devices in the systemAn IO device assumes several functions within the scope of device communication. This includes the transmission of status messages, the sending of commands and the transmission of information.communication to the processorFull communication with the processor includes recognizing its own IP address, decoding and accepting commands, and reporting status updates.error managementAn IO device detects different types of problems that can occur between the computer system and a peripheral device. These can be mechanical problems, such as a used printer cartridge or errors that occur during data transfer.Image: ABB IO actuator 8-fold IO/S8.6.1.1timingIn order to be able to correctly manage the flow of information between the system and the external device as part of time management, the IO device accesses the internal resources of a computer.data bufferingOne of the most important functions of an IO device is managing the transmission speed between memory, processor and other external devices.How and where can IO devices be mounted?There are many options for mounting IO devices and they depend on your existing installation. Choose from the following options:Panel mounting - the unit is bolted to a chassis or attached to a panelRack mounting - the device fits into a standard housing, such as a 19-inch rack or similarInstallation on DIN rails - the device is attached to one of the common DIN rails or G-railsfree installation - the device has a stable housing and is set up in a freely selectable placePrinted circuit board assembly - the device plugs directly into computers or is attached to the case What advantages do IO devices offer?Depending on the IO device involved, each can play a significant role within an effective operating system. In a programmable logic controller (PLC) and other operating systems, these devices offer the following advantages:a compact design saves space in almost any assembly environmentthe installation can be done remotelyHardware and associated costs can be savedthe wiring and cable setup is simple and clear What are the properties of the inputs and outputs on the IO devices?As a rule, IO devices offer digital channels, analog channels or a combination of both variants. The digital inputs and outputs handle low-level on-off signals. Analog inputs recognize signals such as current, voltage or frequency. Devices with combined channels often process the signals using analog-to-digital converters.The input channels of a device are differentiated as single-ended (SE) or differential (DI). Single-ended inputs consist of two contacts, one of which carries a voltage. The other is connected to ground. Such installation is simpler and cheaper than differential signaling. However, the inductance of the signal line and the difference in ground voltage between the transmitter and receiver will cause noise interference. Differential communication uses two mutual signals on two paired contacts. The difference between the two signals represents the meaningful signal value. Common-mode rejection prevents noise interference. Differential inputs respond to the voltage difference between the two contacts. These are therefore suitable for low-voltage, long-distance and high-resolution applications. The type of input channels your device has can usually be found in the product description. For example, if you have a 16SE-8DI device, it offers 16 single-ended and 8 differential inputs.isolationCertain areas of the electrical system can be isolated from others. This avoids unwanted current flow or signal flow between the areas.For isolation, please distinguish between channel-to-channel isolation, isolated analog input, isolated analog output, isolated digital input, and isolated digital output.  Catalogue content:In this eibabo® catalogue Installation bus systems > I/O device for bus system you will find items from the following product groups:Item overview:Blind controlCentralAccessControl deviceControl elementControl panelControl unitDrive elementDriver moduleEngine control unitHeating actuatorHome serverInput moduleInterfaceJunction boxLight actuatorMixing moduleMulti-controllerOutdoor areaRadio systemSecurity adapterShutter actuatorSmartphoneSun protection actuatorSwitching actuatorSwitching outputUniversal interfaceWireless solutionWireless switching outputfrom the following manufacturers:Manufacturer overview catalogue Combi i/o device:ABBBusch JaegerGiraHagerLingg & JankeMetzSiedleSomfyWaremaWindowMaster
Control line terminal - Terminal blocks for current transformer circuits are components that snap onto DIN rails and are used to short circuit current transformers. Their use is recommended for the purpose of recurring comparative measurements. In order to be able to offer you a wide selection of control cable terminals, we have numerous products from well-known manufacturers such as ABN, Eaton, Hager, Schneider Electric, Siemens, Striebel & John, Wago and ABB in our range in the eibabo technology store. In addition, you will receive high-quality control cable terminals, luster terminals, terminal blocks and other connection terminals for a wide variety of applications. Use one of our numerous secure payment methods and secure your purchase with Trusted Shops buyer protection. In this way, we guarantee a positive shopping experience for you at all times.Catalogue content:In this eibabo® catalogue Low-voltage industrial components > Distribution terminal block you will find items from the following product groups:Item overview:Bus distributorCage clampClampClipConnection clampConnection railConnection terminalControl lineControl line connectionControl terminalControl wire clampDistribution terminal blockEarthing rail for distribution boardFloor distributorHeat pumpLine connectionNeutral busbarPower contactorRetrofit kitSpare partSpare PartsSpring clipSpring terminalTerminal blockWiring setfrom the following manufacturers:Manufacturer overview catalogue Control line terminal:ABBABNComelit GroupEatonHagerSchneider ElectricSiemensStriebel & JohnWAGO
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RECOMMENDED
3D
Hager - TYA608D - KNX switching actuator 8-fold or blind/shutter actuator 4-fold TYA608D
$382.22 excl. VAT

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plus shipping
($709.11 RRP***)
KNX switching actuator 8-fold or blind/shutter actuator 4-fold
Hager
| TYA608D
RECOMMENDED
3D
Hager - CDA440D - Residual current circuit breaker 4-pole, 40A/30mA CDA440D
$47.36 excl. VAT

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plus shipping
($136.05 RRP***)
Residual current circuit breaker 4-pole, 40A/30mA
Hager
| CDA440D
RECOMMENDED
3D
Hager - MBN116 - Miniature circuit breaker 1-pin B-16A MBN116
$3.01 excl. VAT

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($12.01 RRP***)
Miniature circuit breaker 1-pin B-16A
Hager
| MBN116
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Hager - HTN335E - Selective miniature circuit breaker 35A, 3-pole, E-Character. HTN335E
$130.35 excl. VAT

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($407.34 RRP***)
Selective miniature circuit breaker 35A, 3-pole, E-Character.
Hager
| HTN335E
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Hager - TXB304 - KNX binary input 4-fold TXB304
$82.54 excl. VAT

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($153.15 RRP***)
KNX binary input 4-fold
Hager
| TXB304
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Hager - TXM620D - KNX switching actuator 20x or blind/shutter actuator 10-fold TXM620D
$524.48 excl. VAT

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($773.57 RRP***)
KNX switching actuator 20x or blind/shutter actuator 10-fold
Hager
| TXM620D
RECOMMENDED
3D
Hager - TXA628C - KNX blind/shutter actuator 8-fold, 230V TXA628C
$337.93 excl. VAT

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($498.42 RRP***)
KNX blind/shutter actuator 8-fold, 230V
Hager
| TXA628C
RECOMMENDED
3D
Hager - TXB602F - KNX switching actuator 2-fold or blind/shutter actuator 1-fold TXB602F
$63.37 excl. VAT

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plus shipping
($93.45 RRP***)
KNX switching actuator 2-fold or blind/shutter actuator 1-fold
Hager
| TXB602F
RECOMMENDED
3D
RECOMMENDED
3D
Hager - TXA663A - KNX dimming actuator 3-fold, 3 x 300W TXA663A
$315.88 excl. VAT

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($465.91 RRP***)
KNX dimming actuator 3-fold, 3 x 300W
Hager
| TXA663A
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RECOMMENDED
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