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Busch Jaeger - At eibabo®, we offer products from one of the most renowned manufacturers of electrical installation products: Busch-Jaeger. One of the most significant market leaders, Busch-Jaeger has more than 130 years of experience in the area of electrical installation technology and operates two manufacturing facilities in Germany. The company is part of the ABB Group and employs 135,000 staff in 100 countries. Around 1,300 employees work at Busch-Jaeger's two sites in Germany. Busch-Jaeger's portfolio covers everything from a complete product range for electrical installation featuring switches, sockets, special plug-in devices, modular installation devices, as well as dimmers and motion detectors through door communication systems to products for KNX® intelligent building automation. These high-end electronic products for smart home and smart building are designed for both energy optimization and the convenient central control of electrical loads in private and commercial applications. Busch-Jaeger is committed to promoting quality and environmental awareness. Occupational health and safety, data protection, and data security are also key aspects of Busch-Jaeger's corporate vision. An end-to-end management system in accordance with DIN EN ISO 9001 ensures that Busch-Jaeger's consistently high quality criteria are met. To maintain the high quality standard of its products, the company works with an accredited central laboratory in accordance with DIN EN ISO/IEC 17025. Busch-Jaeger's product range comprises a total of more than 6,000 electrical installation products. All relevant Busch-Jaeger items are on sale in the eibabo® online shop and can be delivered worldwide. Busch-Jaeger's switch ranges are particularly well known: Decento, Busch-dynasty, carat, pure stainless steel, impuls, solo, Busch-axcent, alpha, future linear, Busch-balance SI, Reflex SI/SI Linear, Busch-Duro 2000 SI/SI Linear, All Weather 44, ocean, Busch-Duro 2000 WDI, and Busch-Duro 2000 AP, which can be purchased from eibabo® by private and business customers. eibmarkt® offers more than 2,500 Busch-Jaeger items in the eibabo® store, over 1,500 of which are available immediately from stock. The systems and branded products for ABB-free@home, KNX® building systems technology, door communication, Busch-Infoline, and Busch-easycare are becoming increasingly popular with our customers thanks to their high quality standards and particularly innovative features. However, Busch-Jaeger also offers other product solutions in addition to sockets and switches. These include Busch-Jaeger data communication, multimedia, dimmers, LED lighting, motion/presence detectors, USB charging devices, smoke detectors, heat detectors, management of blinds, room temperature controllers, timers, remote control, security technology, plus switches for German soccer fans sporting the logos of teams such as Borussia Dortmund, FC Bayern Munich, FC Schalke 04, Borussia Mönchengladbach, and FC Cologne, and numerous Busch modular installation devices. Busch-Jaeger items can be found in the eibabo® smart home, switches, and electrical material main catalogs with special purchasing conditions for private and business customers.
Televes - elevés is a global technology leader in the design, development and manufacture of infrastructure solutions in the telecommunications sector. The target groups are made up of private households, public and commercial buildings and municipal facilities. The company's headquarters are in Santiago de Compostela (Spain), where the company was founded in 1958. The founding coincided with the beginning of television broadcasts in Spain. Therefore, the company first made antennas in its small workshop. Today Televés is at the head of a group with more than 20 industrial and service companies, more than 700 employees and 75 patents. Televés has 11 international subsidiaries in Portugal, France, United Kingdom, Italy, Germany, Poland, Scandinavia, Russia, United States, China and United Arab Emirates and supplies its products to more than 100 countries on five continents through an extensive dealer network . The eibabo® shops from eibmarkt® are among the company's most important sales partners in Germany and Europe. With decades of development experience, Televés has launched more than 1,500 different products. The company has internal certification laboratories and quality controls in order to be able to produce on its own facilities with the highest possible quality. These high-quality products, which all bear the title "European Technology Made in Europe", include compression connectors, optical converters, stub and through sockets, connection cables, branching systems, power supplies, compression plugs, multiswitches, connectors and couplings, measuring devices, amplifiers and tools. A large proportion of these items are always available from stock in the eibabo® technology store and are shipped worldwide within a very short time

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Pendant lights - Find the right pendant light or hanging light at eibabo®. Our extensive lighting catalog leaves nothing to be desired. Read on to learn about the different styles, colors, materials and sizes. In addition, you will receive conventional light sources or economical LEDs to match.Where are pendant lights used?When we think of pendant lights, the place above the dining table comes to mind as a classic place of use. And indeed, pendant lights are often mounted above tables such as the dining table or coffee table and, as ceiling lighting, create atmospheric light when eating or socializing. But pendant lights are also decorative alternatives in other places. Think of a counter in a bar, the reception area of the doctor's office or the reception desk in a hotel. With a bit of creativity and stylistic sensitivity, you can turn pendant lights into full-fledged furnishings that create atmosphere and enhance your ambience. Pendant lights are even used in industrial workshops. However, these are technically and optically optimized for these applications.Image: Fischer & Honsel 69540 LED pendant lightWhat should be considered when installing pendant lights?Remember that pendant lamps need a reference point in order to look their best. Suspended anywhere in the room, pendant lights usually look out of place. Pendant lights can be ideally adapted to the spatial conditions. With high ceilings, the length of the suspension can often be adjusted manually. A distance of around 60 to 80 cm above the edge of the table has proven to be the ideal height for lights above the dining table. Of course, this can vary depending on taste and the size of the lamp. You should make sure that your new pendant lamp has a lampshade in order to form a cone of light and direct the brightness optimally to the desired area. As a result, other areas are not or only diffusely illuminated and the light is not perceived as disturbing.our recommendationAvoid pendant lights in rooms with low ceilings and bathrooms. Use ceiling spotlights or recessed spotlights instead. For cheap and stylish spotlights and recessed lights, please select the appropriate category here in the shop.Smaller pendant lights with a small lampshade look particularly stylish when placed above bedside tables, your bar or a side table. Many of our pendant lights are also available in versions with multiple light sources, so that you can easily implement uniform illumination of larger tables or longer areas.How big should a pendant light be?For a successful look, it is advisable to follow a few basic stylistic rules, especially in the private sphere. These relate to:the size/diameter or circumference of the pendant light in relation to the room sizethe installation height in relation to the room height It is assumed that lamps that are too large or too small disturb the harmonious overall impression. Calculating the rough guideline is quite simple:(Length of the room in meters + width of the room in meters) x 10 = the optimal diameter of the pendant light in centimetresIt is clear that very few lights consist of a sphere and therefore the diameter cannot always be used as a reference. Alternatively, the circumference calculated from this can be used, for example if the pendant light consists of several spheres or has an elongated shape. An example:(Room length 5.5 meters + room width 4.5 meters) x 10 = 100 centimeters in diameter or 314 centimeters in circumferenceOf course you can also deviate from this. Other influencing factors often also play a role in the decision. For example, whether the floor plan of the room is very simple or complex, or whether there is already a lot of furniture in the room. The height of the pendant lamp should not be more than one third of the distance from the floor to the ceiling. With a ceiling height of 3 meters, this is 1 meter. For classic living room heights of around 2.7 meters, 50 to 70 cm should be chosen so that the height to the floor is at least 2 meters.Are pendant lights also suitable as workplace lighting?The lighting effect of pendant lights results from the design, the light source used and the positioning of the light. In this way, you can influence whether the effect of the lighting should be more direct or more indirect, or whether the light should be diffused or directed. You can also use pendant lights in the company as office lighting or workplace lighting. Of course, the requirements for optimal lighting in the workplace are high, but with the right shape and suitable lamps, this can be implemented without any problems. TIP:If necessary, such pendant lights for the office can be equipped with a grid or diffuser in front of the light source. These emit a glare-free light on the work area. Use pendant lights in an elongated design if they are to be placed directly above the desk. LED strips ensure even light distribution over the entire length. This ensures that the pendant lights used do not cast any lateral shadows and that the entire work area is optimally illuminated. The higher the light source, the wider the irradiated area and the lower the illuminance on the floor and work surface. To ensure the desired light intensity, you should adjust the height of your pendant lights correctly. Never place them lower than two meters so that employees do not accidentally hit their heads.What advantages do pendant lights offer?The main advantage of pendant lamps is the ability to place light sources at the right height. This is especially useful when organizing lighting on dining tables, kitchen worktops, warehouses, machine rooms, workshops and industrial halls where the rooms typically have high ceilings. Another plus is the easy installation. How a pendant light is attached depends on its design. Usually 1 to 2 suspension points are required. Particularly large and heavy models can also have more suspension points. Whether for private use or commercial use - pendant lights are available in countless variants, colours, price ranges and designs. There are both classic and creative pendant lights of various types on the market. The selection is so large that you are sure to find a model that suits you.Which bulbs should I use for pendant lights?When buying your new pendant light, don't just look at its appearance. Consider at the same time an economical, effective and powerful lighting effect. This is easily possible with LED pendant lights. Pendant lights with LED bulbs offer lower power consumption and a long service life. The LEDs are often permanently installed and cannot be replaced individually. But the use of energy-saving lamps is also recommended for pendant lights with replaceable lamps and classic screw sockets. Be sure to pay attention to the color temperature emitted by a light source. This is given in Kelvin (K). The higher the value, the more the color temperature shifts towards the blue. Daylight of around 5,500 Kelvin is recommended for use in laboratories, classrooms or in industry. This increases concentration and prevents fatigue. The somewhat warmer neutral white is generally used for offices. For comparisonCandlelight has a color temperature of around 1500 Kelvin. Lamps with a color temperature between 2200 and 2700 Kelvin are the right choice for a cozy atmosphere at the dining table.By the way:The chandelier is considered the forerunner of the modern pendant lamp. This was typically a multi-level lamp made of copper or iron, which was hung on chains and sometimes equipped with numerous candles. Magnificent accessories made of glass and crystal reflected the candlelight and thus optimized the light output.  Catalogue content:In this eibabo® catalogue Luminaires > Pendant luminaire you will find items from the following product groups:Item overview:Ceiling lampDining table lampDirect lightFlat lampGlass downlightInterior lightsKitchen lightLamp pendantLED linear systemLine of lightLinearLiving lightLiving room lampLiving room pendant lightMicroprism lampMounted lightOpal glass lampOpal glass lightsOutdoor lightingOval lampPendant lampPendant lamp modulePendant lightsPhase railPull pendant lightTrunking systemsVDU workstation lightWall lampfrom the following manufacturers:Manufacturer overview catalogue Pendant lights:AbalightArcliteAura LightBEGA GantenbrinkBrumbergBöhmerEgloESYLUXFabas LuceFischer & HonselHelestra LeuchtenHonselHoubenHufnagelLEDVANCELichtlineLTSNeuhaus LeuchtenNobileOligoOpple LightingPerformance in LightPhilips LichtRegioluxRidi-LeuchtenRZBScharnberger+Has.Schmitz-LeuchtenSchneiderSignify PLSSitecoSLVSun CracksTriluxTrio-LeuchtenWaldmannZumtobel
Room temperature controller - When building a new house or renovating, you have numerous interesting options for organizing the control of the room temperature. We will tell you how you can use various bus systems such as KNX, radio or LCN in addition to the conventional temperature setting. Automation not only increases living comfort, but also contributes to the value of your building. This enables you to make necessary adjustments or changes even when you are not at home. This eibabo® catalog provides room temperature controllers for all common applications.What are KNX room temperature controllers?KNX room temperature controllers are part of a building's heating system. These are used for individual room temperature control of interior rooms and have various measuring ranges. The respective devices can differ significantly in terms of application and the functions provided for operation and comfort. For example, the differences are whether static heating surfaces or underfloor heating are to be controlled or whether air conditioning and ventilation functions are to be provided.Do not confuseThermostats are also known as room temperature controllers. Installed on radiators, however, they measure the temperature at the heating and usually only differentiate between on and off.KNX room temperature controllers, on the other hand, continuously control between 0 and 100 percent and use a heating actuator to communicate with the heating actuators.How is the room temperature controlled using KNX?A KNX room temperature controller determines the control difference between the target temperature and the actual temperature. The calculated control difference is sent as a 1-byte command value telegram (a value between 0 and 100 percent) via the KNX bus to the corresponding channel of a heating actuator. This processes the signal and then controls the actuator.The following small example illustrates the rough functionality. The actual manufacturer specific control algorithm may be different:The room temperature controller determines a current temperature of 18 degrees Celsius (controlled variable). However, the desired room temperature should be 22 degrees Celsius. The 22 degrees Celsius then represents the setpoint for the controlled variable. The resulting difference between the actual value and the setpoint is the control deviation. The control difference is 4 degrees Celsius and is used to determine the control variable that is to be used to influence the room temperature. Assuming the manipulated variable is 25%. This value is transmitted as a 1-byte telegram (0-255 = 0-100%) from the room temperature controller to the heating actuator. In this case 63.75. For example, the actuator takes 2 minutes to fully open. The time required for the respective actuator to open or close can be found in the data sheet for the thermoelectric actuator. This information must have been previously stored in the parameters of the actuator using Engineering Tool Software (ETS). With a command value specification of 25%, the actuator would switch on the actuator for 30 seconds (this corresponds to 25% of 2 minutes) and switch it off for 90 seconds. The actuator then switches on again for 30 seconds and so on. If the room temperature controller calculates and transmits a different command value specification, the switching cycle for the actuator also changes.Image: Gira 210003 KNX continuous controllerWhat is the difference between KNX continuous controllers, KNX object controllers and KNX room temperature controllers?The selection of KNX temperature controllers is very large. eibabo® offers products from all leading manufacturers of control technology for HVAC (heating, air conditioning, ventilation) in smart home automation. These include ABB, Berker, Busch-Jaeger, Eaton, Elsner Elektronik, Eltako, EIBMARKT, Gira, Hager, Issendorf, Jung, Lingg & Janke, MDT, Merten, Siemens, Theben and Thermokon. Many of these manufacturers use different designations, such as KNX continuous controller, KNX object controller or KNX room temperature controller.KNX room temperature controllers continuously record temperature values and forward them to other system components as KNX signals that can be evaluated. This process takes place continuously. A KNX continuous controller is therefore the same as a KNX room temperature controller. The situation is different with a KNX object controller. Object controllers are room temperature controllers without direct adjustment options on the device for the setpoint temperature. Object controllers were developed for object use. In public objects, as a rule, direct adjustment by strangers should be prevented. The values are parameterised directly via the ETS (software). You can change these directly via KNX (KNX buttons, KNX operating panels, KNX visualisations) in the setpoints. KNX object controllers are often cheaper and suitable in private areas for corridors, basements or storage rooms.What do you have to consider when positioning a KNX room temperature controller?As a rule, the installation is carried out using a branch switch box with 4 screw bosses, one switch box deep. Alternatively, use an electronics box if a separate bus coupler is required. With our convenient search function, you can quickly find the right items here in the eibabo® technology store. TIP:There are multi-channel KNX room temperature controllers for installation in your electrical distribution. Here, the temperature is measured via separate KNX sensors, for example from KNX buttons or KNX motion detectors with an integrated temperature sensor. For optimal use of all functions and the best possible recording of the measurement data, please ensure that the installation height is 1.60 m from the top edge of the finished floor. In this way you ensure optimal control and user-friendly handling.How is a room temperature controller connected to the KNX bus?KNX room temperature controllers are equipped differently by the manufacturers. You can either buy the KNX room temperature controller including a bus coupler or you have to order the bus coupler separately. The required interface between the KNX bus and the KNX room temperature controller is called the bus coupler. You can tell whether your controller has a bus connection by the red and black bus terminal. The KNX controllers often offer included KNX binary inputs. These are used, for example, to integrate conventional buttons in the room to switch lights via KNX. These binary inputs usually correspond to the technical data of KNX push button interfaces and can therefore only be extended up to a maximum of 50cm.How important is the appearance of a KNX room temperature controller?There are controllers with or without a dial to adjust the temperature. Other models are operated via the display and menu controls. Everything is possible here. The controls should match your other switch range and reflect your modern, classic, simple or extravagant style of living. TIP:Don't just look at the exterior of a KNX room temperature controller, but also at its inner values. There are often considerable differences in the application developments (software) of the manufacturers. The possibilities that the respective software can offer you may be relevant to your project requirements. Think of:control behaviorInfluencing control processesOperating modes and external switching options or setpoint adjustment optionsstatus feedbacknumber of group addressesBehavior in the event of a bus voltage failureand much more What other properties should I consider before buying a KNX room temperature controller?In addition to the technical, optical and software properties mentioned, other factors can speak for or against a specific model.Do I need anti-theft or dismantling protection?What color or what material do I want for the control panel?Do the local conditions require wireless data transmission?Should it be regulated via a room controller?and some more What are room controllers with integrated KNX room temperature controller?An alternative to the KNX room temperature controllers presented here are the KNX room controllers, provided they have an integrated temperature controller. These are devices that you can use to centrally control lighting, temperature and blinds, for example. Such controllers can be used via individually assignable control panels for switching, dimming, regulating or controlling all required actuators and sensors. You can also get numerous high-quality KNX room controllers here in the shop at top conditions. Use our intelligent search for your research.  Catalogue content:In this eibabo® catalogue Installation bus systems > Room temperature controller for bus system you will find items from the following product groups:Item overview:Building system technologyBus technologyButton interfaceClock thermostatContinuous controllerControllersEnd stripsEnergy efficientHeating controlHeating technologyHome controlHumidityMoellerfunkMoisture meterMultifunction displayNetworkingObject controllerRadio systemRadio transmitterRemote room sensorRoom controllerRoom sensorRoom temperature controllerRoom thermostatTemperatureTemperature controllerThermostatWireless temperature sensorfrom the following manufacturers:Manufacturer overview catalogue Room temperature controller:ABBAlre-itBerkerBusch JaegerEatonEberleElsnerElsoEltakoGiraHagerJungMDTMertenSiemensTheben
Binary input - What interesting possibilities does the use of binary inputs in building automation offer you? Learn more about differences, use cases, and things to watch out for on this page.What do you need a KNX binary input for?KNX binary inputs are used to convert conventional alarm messages, fault messages, operating messages or status messages (generally analog signals) into digital signals and connect them to the KNX bus.Image: KNX binary input universal - Hager TXA306 for KNX building automationWhat should you know before buying a KNX binary input?Take a look at your project and ask yourself the following questions:Is it a new installation or do I have to consider the properties of existing devices (e.g. switches)?Which signals or voltages should be recorded?What is the distance between the signal transmitter and the receiver?Do I need additional cables and lines?Should the control only be wired or also possible via radio?Which logic functions do I want to implement?and much more The answers will help you to make the right choice for a suitable binary input. Among other things, this results in the number of channels that your new binary input should have, which manufacturer supplies an application (software) suitable for the project and whether the binary input must be suitable for potential-free devices or not.What is the difference between the individual binary inputs?The binary inputs are often provided in the variants 20V, 24V, 230V and potential-free. Which one you need in each individual case depends on which signals you want to activate. Notice:The addition potential-free, 20V, 24V or 230V does not refer to the binary input, but to the signal to be recorded. potential-free binary inputsPotential-free means that no external voltages (potentials) may be connected to the inputs at these binary inputs, since the contact voltage (usually 10-20V) is already provided by the binary input itself. The potential-free variant is typically used for buttons, switches, door contacts (magnetic or reed contacts), window contacts (magnetic contacts) or auxiliary contacts. Magnetic contacts may often only be assigned a maximum of 20V DC. However, the maximum cable length that can be connected is often limited to between 50-100m, see the description of the respective potential-free binary input and can also be negatively influenced by inductive or capacitive loads in the area around the routed cable. Devices with wires that have already been brought out should generally not be extended at all, eg button interfaces (a button interface is also a binary input). 20V and 24V binary inputsModels with 20V or 24V are used when devices cannot switch potential-free. These are, for example, presence detectors or differential pressure monitors for stoves that work with 24V technology. 230V binary inputsThe 230 V version is often used to connect existing 230 V AC signals to the bus in order to evaluate them. For example for conventional 230V outdoor motion detectors, buttons, switches or other messages from other systems. Fuses can also be monitored in order to immediately notice critical changes in large building complexes, for example. What specific applications can be implemented with KNX binary inputs?The possibilities are diverse and depend entirely on your project. A KNX binary input detects a status change at its input. Depending on the parameterization that you carry out using the software (ETS), a telegram is then sent to the KNX bus. This information can then be integrated into other desired functional logic, for example:Open windows = set heating to standby/frost protectionLevel reached = open valveTo evaluate a conventional 230V motion detectionFor activation of conventional buttonsTo capture status or operational messagesEvaluate error messages from connected devicesand much more Or you use the information for displays on displays, for touch functions or for visualizations for evaluation purposes.What is ETS?ETS is the abbreviation for Engineering Tool Software. This is used to assign and parameterize certain actions, relationships or functions within the building automation. So you determine what a binary input should do with an incoming signal. Programming skills or learning a programming language are not required. If you are interested in logical connections and can imagine the later function in the building based on an abstract scheme, the creation of a project should be a solvable task for you.We recommendIn the case of particularly complex projects, it can be advantageous to hire an experienced system integrator to create the basic project. This is typically much faster than doing it yourself and you will receive a tested, error-free basic version of your system. Later you can easily change, add or remove individual parameters yourself.You can think of the configuration as similar to the folder system on your Windows PC or iOS computer. You create your own structure and save files in it. In addition, you create shortcuts to other files and folders based on certain conditions. In the ETS, the 'folders' are floors or rooms, for example, and the 'files' in them correspond to sensors and actuators that you can relate to one another.Can consumption also be recorded and evaluated with KNX binary inputs?At eibabo® you will also find KNX binary inputs to record counter values. You can order almost all conventional water meters, electricity meters, gas meters, heat meters and many more including an S0 interface (pronounced: S-zero interface). This is used to transmit measured consumption values for further processing in the building automation. The interface sends an impulse via a contact, which corresponds to a certain value of the measured medium. The pulse value is always the responsibility of the meter manufacturer.An example: If you buy a water meter with an S0 interface, the pulse value is on the meter or in the product description, for example 10 liters = 1 pulse. That means the contact closes and opens again (rising/falling edge, 30 ms = t_ON = 120 ms 30 ms = t_OFF) as soon as 10 liters of water have been consumed. Simply put, the signal is similar to when you press a button. You can evaluate these contacts using a KNX binary input with the application provided by the manufacturer for counting value acquisition.As a rule, potential-free 20V or 24V binary inputs are used for this, as the contact voltage may be a maximum of 15V (S0 interface class B, short transmission paths) or a maximum of 27V (S0 interface class A, long transmission paths).Are long distances critical for signal transmission?Pay attention to the technically required maximum cable lengths between signal detection and binary input contact, especially with 20V, 24V and potential-free. These are often a maximum of 100 meters and should be routed in a protected manner without inductive or capacitive cross-influences. TIP:Please refer to the manufacturer information for this. The individual brands and the different variants have individual limit values. This applies in particular when critical states are to be monitored, such as counting for billing purposes (LIYCY lines, cables).How are KNX binary inputs mounted?KNX binary inputs are available with eibabo® for different types of installation, for example for installation in an electrical distribution board. These devices are referred to as modular installation devices (REG). There are also binary inputs for flush-mounting (UP) or surface-mounting (AP) and for integration in ducts or similar (EB).Which manufacturers of KNX binary inputs are recommended?In this eibabo® catalog you will find everything on the subject of KNX binary input, binary input device, binary input module, button interface, universal interface, input module, button coupler and evaluation unit. Well-known manufacturers are ABB, Berker, Busch-Jaeger, Doepke, Eaton, Elsner, Elso, Eltako, Gira, Hager, Issendorf, Jumo, Jung, Lingg & Janke, MDT, Merten, Peha, Siemens, Theben and Warema.Trust our experienceWe have been working with the products from these manufacturers for over 25 years and have been able to use them in hundreds of projects around the world.We have always paid attention to quality and reliability when realizing our projects. Because permanently error-free functionality is crucial, especially in complex building automation installations.  Catalogue content:In this eibabo® catalogue Installation bus systems > Binary input for bus system you will find items from the following product groups:Item overview:Basic moduleBattery poweredBinary inputBinary inputsBus technologyButton inputCombination actuatorControl unitDIN railEngine control unitExpansion moduleFlush-mounted boxInput couplingInput moduleInterfaceLighting controlNormally open outputPanel adapterRadio systemShading controlShutter controlSocket coverStatus indicatorSwitching outputTactile sensorUniversal interfacesWireless reed contactWireless solutionfrom the following manufacturers:Manufacturer overview catalogue Binary input:ABBBerkerBusch JaegerEatonElsnerElsoESYLUXfrogblue AGGiraHagerIssendorffJungLingg & JankeMDTMertenPehaSchneider ElectricSiemensThebenZumtobel
Combined arresters - eletric - Are you looking for combination devices to divert lightning currents and surge voltages for your electrical installation? But you are still not sure what requirements such a device has to meet? Learn more here. In order to be able to decide on a specific device, you must be aware of the dangers caused by lightning currents or surge voltages. Admittedly, these events are rare and often only last a few milliseconds. Nevertheless, major damage can result. We therefore always recommend appropriate protective measures to prevent damage to buildings and sensitive electronic devices. We support you in choosing the right item.Image: Dehn DSH-TNS-255 combined arresterWhat are combined arresters in power engineering?Combined arresters are of enormous importance for safety in electrical engineering. These limit lightning currents and overvoltages in electrical lines and divert them. Combined arresters are therefore used to protect sensitive devices such as computers, televisions or hi-fi systems.But what requirements do these devices combine?To understand this, we need to take a closer look at the overvoltage phenomenon. In Germany and large parts of Europe, the mains voltage is 230V. Overvoltages go well beyond this value. These are caused by switching operations by the network operator, lightning strikes, short circuits or electrostatic discharges. The resulting consequences depend on the level of the overvoltage, the duration and the speed of the voltage pulse. If suitable protective measures are missing, fires can break out or people can be injured. Since the type and extent of a fault caused by overvoltage and lightning current cannot be predicted, protective devices are constructed in three stages. We distinguish between coarse protection (type 1), medium protection (type 2) and fine protection (type 3). With each level, the overvoltage is further reduced until it can no longer pose a threat to the end devices. Combined devices for dissipating lightning current and surge voltage usually meet the requirement classes type 1 and type 2. In the following text we will explain in more detail what this means.Surge arresters and combination arresters are also referred to as Surge Protective Devices (SPD). They are usually installed in the installation distribution board or in the sub-distribution boards between the active conductors and earth. The devices are usually designed as pluggable modular devices or as devices for mounting on DIN rails. Other properties, some of which are optional, are:connectable lightning current and surge arrestershigh discharge capacity for lightning current surges up to 100 kA (10/350?s)optical status display / defect displayremote signallingshockproof and tolerable to vibrationsConnections can be labeled The construction of a lightning protection system with overvoltage protectionIn order to be able to decide on a specific combination arrester, you should know the entire structure of a lightning protection system with overvoltage protection.side noteBuildings are classified in lightning protection classes I to IV. This assesses the risk of lightning strikes. The class in which a building is to be classified depends on its type, use and the damage to be expected. The lightning protection class determines the structure and dimensioning of the lightning protection system.Whether a combination device is suitable for a building with a specific lightning protection class can usually be found in the product description. Lightning is high-energy and carries very high lightning currents. In the case of overvoltages, the currents and energy are small, but the charge difference between two potentials is very large. In order to counteract these dangers completely, such a system consists of three parts:the external lightning protectionthe internal lightning protectionthe overvoltage protection The external lightning protectionAs the name suggests, external lightning protection is protective measures outside the building. These are lightning arresters, lightning conductors, earthing, fixings and so on. The external lightning protection diverts direct lightning strikes and the associated high lightning current into the ground before they reach the building. In Germany there is no obligation to install external lightning protection systems. Exceptions are buildings which:are over 20 meters highstanding free on a hilltophave a combustible roof (e.g. thatch or thatch)are open to the public (cinema, museum) However, external lightning protection always makes sense, even if your building does not meet any of these criteria. A lightning strike can cause serious damage. Information and high-quality items for setting up reliable external lightning protection can also be found here in the shop. Use our intelligent search.The internal lightning protectionEffective internal lightning protection and overvoltage protection protects apartments, buildings, industrial plants and the devices in them. The internal lightning protection is designed as equipotential bonding. For this purpose, all metallic pipe installations and cable installations in a house are connected to each other and to the main earthing bar. This can prevent voltage differences, lightning flashovers in the building and the resulting danger to people and technology.The overvoltage protectionInternal lightning protection includes overvoltage protection. This is where the combined arresters offered in this catalog come into play. In order to be able to select a suitable device, please consider the type of possible interference as well as the type of devices to be protected. As already mentioned, the overvoltage protection has a three-stage structure. Accordingly, three requirement classes for overvoltage protection devices are also available. We distinguish between type 1 (rough protection), type 2 (medium protection) or type 3 (fine protection). Type 3 standard devices provide fine protection and protect against voltages up to a certain level. Enhanced Type 2 devices provide additional protection against transient voltage spikes. The high protection standard of type 1 also protects against impulse currents. But what exactly does that mean for the combination arresters offered here, which in many cases meet the requirements of types 1 and 2? NoticeSurge protection has been a mandatory part of an electrical system in Germany since December 2018 and must be installed in new buildings. Type 1 surge protective devices are also known as lightning arresters. These divert high lightning currents via the internal or external lightning protection of a building. The residual voltage is reduced to a level between 6000 volts and 1300 volts. However, this basic protection is not yet sufficient to protect the end devices.Type 2 surge protective devices provide medium protection. The residual lightning voltage, which is already reduced by the type 1 devices, is further reduced in this stage to values between 2000 volts and 600 volts. Type 2 devices also limit dangerous transient overvoltages. These are caused by the switching of motors, transformers, circuit breakers or inductive loads. Disturbances of this kind are short-lived. However, these occur more frequently and cause the tension to rise suddenly.Type 3 protective devices further reduce the remaining overvoltage. This fine protection is installed as close as possible to the end devices to be protected.What should you pay attention to when buying a combi arrester?You are now familiar with the structure of a lightning protection system with overvoltage protection. With the installation of combination devices, you usually cover the requirements of test classes type 1 and type 2 with just one device. When buying, pay attention to high-quality components from trusted and well-known manufacturers. We also recommend retrofitting surge protection in older buildings, because the number of devices with sensitive electronics in our households is constantly increasing. When buying, also pay attention to:mounting typeRated voltage AC/DCHighest continuous voltage for AC and DCDissipation capacity for lightning current surgesnumber of polesSuitability for buildings with a special lightning protection classProtection level (must not exceed the impulse withstand voltage of the installation and the connected equipment) Considering your electrical installation in connection with the assessment of your individual protection requirements will help you to choose the right combination arrester. TIP:With a combination device, you save money and space in the control cabinet. You get easy-to-install, comprehensive protection. At eibabo® you can get a large selection of combination arresters for electrical engineering in different designs. These include: CombiController, lightning current arresters, arresters for busbars, combined arresters for meter applications, type 1 + type 2 combined arresters. Also take a look at our extensive range of single-pole and multi-pole devices with integrated arrester back-up fuse.  Catalogue content:In this eibabo® catalogue Earthing, lightning and surge protection > Combined arrester for power supply systems you will find items from the following product groups:Item overview:Charging infrastructureCombiControllerCombined arresterCombiner boxComplete blockComplete unitElectromobilityEnergy distributorFuse holderGas arrestorInsulating distributorInsulating housingInverterLightning protectionLightning protection housingLightning protection moduleLightning rodLoading deviceOvervoltage protectionPhotovoltaicPhotovoltaic system solutionPhotovoltaic systemsRail conductorSurge protection deviceSurge Protection EnclosureSurgeControllerSystem solutionTerminal blockfrom the following manufacturers:Manufacturer overview catalogue Combined arresters - eletric:ABBDEHNEatonFinderHagerOBOPhoenixSchneider Electric
Led lamp multi-led - Don't you think that the era of conventional light bulbs is coming to an end? The range of LED bulbs has taken over the lighting market and is now wider than other types of bulbs. Find out here how the LED lamp has developed over the last few years and why you should replace the conventional lamps you may still have with modern technology.The decades in which conventional incandescent lamps dominated domestic lighting are over. The future belongs to LED lamps, which have been developed in a wide variety of types and shapes in recent years. These are now used everywhere at home, in offices, hotels and public buildings as well as in industry. Even in concert technology, theater lighting and municipal lighting, LED technology has become indispensable.Image: Philips MLEDspotVal LED reflector lampWhat are the advantages and disadvantages of an LED lamp?An LED lamp is a rather complex electronic device with dozens of details that affect the quality of light, safety and lifespan of the lamp. There are numerous differences compared to classic incandescent lamps and the modern compact fluorescent lamps (energy-saving lamps). These have some advantages, but also come with a few disadvantages. NoticeThe main advantage of LED lamps is energy saving. With the same light output, the LED lamp consumes 7 to 10 times less electricity than a conventional incandescent lamp. Other differences are:Durability - the LED bulb lasts 15x to 50x longerLess heat development - the lamp usually does not get that hotLED lamps shine with the same brightness despite the lower mains voltageInstallation ? lower power consumption allows installation in a power-limited luminaireThe light from modern LED lamps is optically comparable to that of conventional incandescent lamps Compared to compact fluorescent lamps (energy-saving lamps), there are the following advantages:Environmental friendliness - LED lamps do not contain any hazardous substances such as mercury.Economy ? The LED lamp consumes less energy with the same luminous flux.In contrast to the compact fluorescent lamp, the LED lamp lights up immediately with full brightness.Compact fluorescent lamps have an unnatural light spectrum. The light spectrum of an LED lamp is much closer to natural light. But there are also disadvantages:The price of an LED lamp can be higher than other lamps.Due to the complex structure, numerous products of poor quality are on the market.Not all models support dimming.The performance specifications of some manufacturers deviate from the actual performance. Briefly on the history of the LEDThe history of the LED begins as early as 1907. British engineer Henry Joseph Round first observed the formation of a point of light when direct current is passed through a silicon carbide point contact connection. In 1924, it was Oleg Vladimirovich Losev who investigated this effect in more detail and then constructed the first light-emitting diode (LED). After initial research, Losew proposed concrete theories of how it works and later used them in practical applications. Based on this, red, yellow, green and blue LEDs were developed in the 1970s and 1980s. Subsequently, white LED light sources were created from the combination of red, green and blue. In the 1990s, the first white LEDs appeared, which used a special chemical to convert the light from a blue or ultraviolet LED into white light.What types of LED lamps are there?As already mentioned, the range of offers is very wide. LEDs are not only available as individual components for self-assembly, but also in the form of strips, tubes or panels. In this catalog from the eibabo® shop, we present the LED versions of classic light sources. In other words: Here you get the LED alternatives to all possible types of incandescent lamps, halogen lamps and fluorescent lamps. The LEDs are installed in housings that resemble the original light sources. These can be classic lightbulbs, candles, spheres, spotlights or spotlights. The housings are equipped with the corresponding, standardized bases to enable easy replacement with the conventional variants. The most common sockets are:E27, E40 and E14GU10 and GU5.3G9, G13, G23 and G4GX53R7sand some others What are COB LEDs?Anyone who deals with the selection and differences between individual LED lamps will come across the term COB LEDs. COB LEDs are multiple LED chips that are grouped and bonded together by the manufacturer to form a single module. As a result, the chips are smaller and can be installed closer together. The LED chips are mounted directly in contact with a substrate such as silicon carbide or sapphire. This achieves a significantly higher lumen density in a smaller space. COB technology also uses a single circuit design with only two contacts, no matter how many chips are involved. And what does this mean? In contrast to other LED light sources, there are no longer any transitions in the light from one LED to the next. A uniformly luminous field of any shape and size is created.The term COBCOB is the abbreviation for 'Chip on Board'. This means that the chips are attached directly to a carrier substrate and therefore fewer components are required per LED chip for proper operation. Along with eliminating the otherwise common LED chip structure packaging, less heat is generated and higher installation density is achieved.This technology made it possible, for example, to produce flexible and yet optically uninterrupted light strips. The filaments in the currently very popular 'Edison light bulbs' are also based on COB technology.What characteristics should I look out for when buying LED lamps?There are numerous parameters that can influence the purchase of an LED lamp. Let's take a closer look at some of them:The luminous flux / luminous fluxThe luminous flux is given in lumens and is the total amount of light that the lamp emits in a certain time. The more lumens, the brighter the lamp.the frequencyNatural light sources shone evenly, like candles or the sun. Many electric light sources do not emit an even, but a pulsating light. At a frequency of 50 Hz, the light 'flickers' 50 times per second. Even if we are not consciously aware of this, our body registers the pulsation and may react with discomfort, tiredness and even malaise. Light with a frequency above 300 Hz has no noticeable effect on the human body. So pay attention to the highest possible frequency.The color temperatureLED lamps are available in different light color temperatures. These are given in Kelvin, for example:1800K - Candlelight2600K - warm light like incandescent bulbs3000K - warm white comfortable light5000K - neutral white daylight6000K - Cool White Light White and cool white light is said to increase concentration and efficiency, while warm light promotes relaxation. Warm lighting is recommended so that you can fully relax and fall asleep better after coming home from work. Color temperatures of around 3000 Kelvin are suitable for everyday household routines. It can be daylight to work.In addition to the main parameters, it is important to note some other characteristics of LED lamps. These would be:Illumination angle ? width of the cone of light illuminating a given areaOperating voltage ? Most LED lamps are designed for a mains voltage of 230 V, lamps with GU5.3 and G4 sockets are also available for 12 voltsEnergy Consumption - Typically, the wattage of the lamps is in the range of 1.5 watts to 15 watts. However, this says nothing about the actual brightness. This is given in lumens (see above)Dimmability ? There are dimmable and non-dimmable models. Many dimmable LED lamps do not dim completely, but only to 15% to 20% of full brightness. This depends not only on the lamp, but also on the dimmer.Dimensions - When choosing lamps, don't forget the overall dimensions. LED lamps are sometimes significantly larger than the corresponding light bulbs. As a result, a bulb may not fit into the lamp or protrude.Service life ? The service life is mostly given as between 10,000 and 50,000 hours. Be aware that these are theoretical values.Guarantee period - The longer the manufacturer gives a guarantee on a lamp, the more likely it is that it will be of the highest quality.Date of Manufacture ? Technology is evolving rapidly. If lamps have been stored for a long time, you will surely find better models from more recent productions.  TIP:The indication of the power equivalent to an incandescent lamp is no longer up-to-date (e.g. 'corresponds to 40W') and is also becoming less and less relevant as technology continues to improve. Instead, select your lamp based on the lumen specification. Buy your multi-LED lamp from eibabo® now. In our shop you will find multi-LED lamps for almost all common bases, lamp types and in many shapes. With the LED lamps we offer you can easily replace your old lamps and save up to 80% energy compared to conventional light bulbs. This means that the additional costs associated with the purchase of LED lamps are usually amortized after a short time. The leading manufacturers in the field of LED lamps include Philips, Osram, Opple Lighting, EVN, Schneider Electric, Eglo, Brumberg and around 20 others. Use our extensive detailed search to narrow down the properties and quickly find the product you are looking for.  Catalogue content:In this eibabo® catalogue Lamps > LED-lamp/Multi-LED you will find items from the following product groups:Item overview:Candle bulbsDome mirrorDownlightsDrop lampExtractor hoodFestoon lampFilament lampFilamentfilamentFlask shapeFloor lampFluorescent lampFluorescent tube replacementHalogen rod replacementHanging lightHotel lightingInfrared heatingInterior lightInterior lightingLuminous markingMetal halide lampNight visionPin base lampPlant lampPlant light lampStreet lightingSuitable for the workplaceToilet lightingVintageclassicfrom the following manufacturers:Manufacturer overview catalogue Led lamp multi-led:AbalightAura LightBarthelmeBrumbergDEHNEthermaEVNHellumIDViiMLEDVANCELichtlineOpple LightingPhilips LichtRadiumRidi-LeuchtenRockwellRZBScharnberger+Has.Schneider ElectricSignify LampenSLVSomfySteinelTrio-LeuchtenWermaZumtobel
Power supply - Find out here how to supply your KNX bus system with power. What power requirements do the individual KNX participants have? Which items do we recommend? This eibabo catalog contains power supplies and system devices for various automation systems, such as LCN, radio bus, KNX and many other systems.How do I determine the right KNX power supply for my installation?The most common power supplies in this catalog are for the KNX bus system. To determine the required power supply, you should first look at the structure of a KNX network. A distinction is made here between segments that are divided into a specific hierarchy. Imagine a tree whose trunk splits into branches. Twigs come off the branches. The branches represent the smallest 'unit' and are referred to as lines in the KNX network. Each line consists of the power supply, a KNX bus line and the participants. A main line would be the branch that connects multiple lines into an area. The area line represents the trunk that connects multiple areas. This structure makes sense for larger networks or if a division into several segments is recommended due to the structural conditions of a building.In addition to the power supply for the participants, the bus itself also requires a power supply of 24V nominal voltage. This is transmitted along with the data signals on the bus line. Depending on the manufacturer, the corresponding power supplies deliver 28V to 31V slightly more than the nominal voltage. This creates a buffer, for example for possible line losses. KNX bus participants still work stably up to 21V. The voltage difference is used to compensate for voltage drops in the bus line or at the contact resistances. A line can theoretically include up to 64 devices and provides a maximum current of 640mA at a voltage of 28V to 31V. This statement is based on the assumption that each KNX participant is allowed a maximum of 10mA from the bus voltage. The load capacity of the strongest power supply of 640mA continuous current must not be exceeded.Please plan in reserveWhen dimensioning your lines, allow at least 15% buffer for later extensions. A 640mA power supply therefore corresponds to around 54 devices.Smaller KNX power supplies are also available for fewer participants per line. If you know in advance that a line will never have more than a maximum of 32 subscribers (27 with buffer), you can choose a 320mA power supply. The same applies to a line with a maximum of 16 devices (14 with buffer). A 160mA power supply is sufficient here. In addition, there are larger 29V-30V power supplies with current limiters 640mA and KNX chokes separately. A KNX power supply always contains a KNX choke.The power requirement of a KNX participant is usually standardized. This should not normally exceed 200mW. 150mW for power supply of the microprocessor and 50mW for the bus terminal. There are many KNX devices that do not require this power reference. There are also KNX participants with higher requirements, for example KNX actuators, KNX room controllers or KNX displays. Please take this into account when sizing your lines. Pay attention to possible voltage drops, because the devices do not draw a certain current from the bus, but a certain power. If the maximum current is expected to be exceeded, you should integrate fewer than 64 participants in this line.How does the KNX power supply work?In the KNX power supply, the power supply always provides direct current (DC) at the output. The difference between the designation transformer and power supply is essentially that a classic transformer always outputs alternating current (AC) and also only works with alternating current at the input. Depending on the manufacturer, the power supplies generate a supply voltage of 28V to 31V. When the bus is idle, the supply voltage of the power pack is present. This state corresponds to a logical '1'. The logical '0' is generated by an alternating voltage. In order to send the '0', the sending KNX device reduces the voltage by around 5V for a short time. This results in an immediate compensating impulse, which comes from a choke integrated in the power pack. The KNX line is thus decoupled from the associated KNX power supply by the choke. This prevents short circuits in the data telegrams caused by the power pack. The voltage change is necessary so that the recipient can use the informationAre there KNX power supplies for more than 64 participants per line?In the eibabo® technology store you will find KNX power supplies up to 1280mA. However, it is not possible to set up a line with 128 participants. The power is distributed at two different outputs. There is thus the classic choked output with 640mA for the KNX bus as well as another unchoked output. Participants can be supplied with an auxiliary voltage via this output, for example a heatable rain sensor. Alternatively, you can use it to set up a second line. An additional choke is required for this.Image: Siemens 5WG11525-1AB22 KNX power supplyCan I monitor the utilization of a power supply?If you want to check whether a power supply is reaching its limits in use, we recommend a device with an integrated diagnostic function. This allows device temperature, output current, output voltage, bus traffic and other current measured values to be sent via KNX. This enables troubleshooting or general monitoring.What do I need a KNX emergency power supply for?Whether you need a KNX emergency power supply depends on how high you assess the risk of a power failure and its consequences for your system. The emergency power supply is used to buffer the bus voltage. An external battery is connected to the device. This provides a voltage of 12V DC and ensures the bus voltage for some time. The integrated charging electronics of the KNX emergency power supply recharges the battery or maintains the state of charge. You can record the operating states (mains voltage, error warning, battery operation) using a binary input, for example. As a rule, KNX emergency power supplies are mounted on the DIN rail. Both the KNX emergency power supplies and the required batteries are available here in the eibabo® shop at reasonable prices.What does PoE power supply mean?The abbreviation PoE stands for 'Power over Ethernet'. This allows you to transmit the electrical power required for the operation of the individual participants via the data lines of the network cable. You do not need a separate power cable. TIP:With a PoE power supply, the effort involved in cabling wired Ethernet networks is reduced. With this technology, the electrical voltage from the power supply is fed into the data cable. On the participant's side, this is diverted out again. To avoid interference, the participant should be PoE compatible. In this way, it can cleanly separate the incoming supply voltage from the data signal. If the end device is not PoE-compatible, the additional installation of a passive PoE splitter is necessary. The splitter takes the supply voltage from the data cable and feeds it via a separate line to the power input of the end device.Can I get classic 12V and 24V power supplies for conventional applications from eibabo®?Our classic power packs for the top-hat rail can be regulated depending on the model and are suitable for the power supply of external equipment. In addition, it is possible to use these for other equipment. Using a choke and a component for current limitation each, specific power supply units can also be used to supply one or more KNX lines. In addition to the installation technology, we offer you classic power supplies for universal use.What power supplies and manufacturers would you recommend?Basically, we recommend that you choose a device that suits your needs. Voltage supplies / power packs are standardized and are subject to legal requirements and regulations. If the technical parameters are completely identical, a price comparison between different manufacturers is of course worthwhile. In this catalog you will find KNX power supplies, KNX power supplies, KNX commissioning power supplies, KNX emergency power supplies, PoE power supplies, bus power supplies, IP power supplies PoE, battery modules for KNX power supplies, 12V power supplies and 24V power supplies for conventional applications. Rely on the excellent quality from the following leading manufacturers of smart home automation: ABB, Berker, Busch-Jaeger, EASYLUX, EIBMARKT, Gira, Hager, Issendorf, Jung, Lingg & Janke, MDT, Merten, Siemens, Somfy, Theben and Warema .  Catalogue content:In this eibabo® catalogue Installation bus systems > Power supply for bus system you will find items from the following product groups:Item overview:Audio electronicsBuilding system technologyBuilt-in power supplyBus supplyBus technologyBus voltage supplyCareControl transformerDC power supplyDIN railsMoellerfunkMotion detectorPower suppliesPower supplyPower supply unitRadio systemSafety power supplySafety transformerSwitching power supplySystem deviceSystem power supplySystem voltagefrom the following manufacturers:Manufacturer overview catalogue Power supply:ABBBusch JaegerEatonEIBMARKTElsnerElsoESYLUXGiraHagerIssendorffJungLegrand SEKOLingg & JankeMDTMean WellMertenPehaSchneider ElectricSiemensSomfyThebenWielandZumtobel
Charging device e-mobility - How do I charge an electrically powered car, motorcycle, bicycle, scooter or skateboard? Which charging station is the right one for my vehicle? Find out here which requirements must be met for the installation of a charging station. We support you in the purchase decision and clarify frequently asked questions. Charging stations for electromobility are an investment in the future. The demand for electric vehicles is constantly increasing. Soon they will account for a massive share of the new vehicle market. Now is the ideal time to invest in charging stations. While the cost of electric vehicles is falling, the range is constantly increasing. This means that more and more people will be able to drive their entire journey in an electric vehicle. The increase in electric vehicles is also associated with an increased need for charging stations. If you would like to charge your vehicles at home or at work in the future, you will find suitable offers for high-quality charging stations in the eibabo® shop with which you can maintain your electric mobility.What is a charging station?A charging station connects electric vehicles to a power source. These are mostly electric cars. In the private sphere, such a device is also called a wall box. This provides the energy required to charge a battery. A distinction is made between AC chargers and DC fast charging stations. You can only charge a battery with direct current. The electricity from the socket is available as alternating current. For this reason, most electric vehicles have their own charger or charging cable with rectifier. This converts the alternating current into direct current. DC quick chargers are mainly found in public spaces. These enable charging with higher power. The direct current is supplied directly to the battery. The vehicle's converter is bypassed. There are simple and inexpensive models, but also extensively equipped variants. Some have smart meters, connectivity to cellular networks, or internet access. TIP:Many charging stations have a residual current circuit breaker. This saves you the cost of an external residual current device. The eibabo® shop not only has charging stations for electric cars, but also for electric bicycles.Why should I invest in a charging station?More and more people own an electric car. If you invest in a charging station, you can use it in your private environment or, for example, offer it to the residents of your building as a landlord. In private use, you make yourself independent of public charging stations. You determine the cost of charging yourself by choosing a cheap energy supplier. There is also the option of connecting your own photovoltaic system. How to use your self-generated solar power to charge your vehicles. There are also many advantages for commercial use. For example, you can encourage your customers to charge their car while they shop. This extends the parking time and can attract new customers.What should I consider when buying the charging station for my electric car?Have the installation carried out by a specialist electrician.Define your equipment requirements before purchasing. Should it be possible to use it via a smartphone app? Do you want to record electricity costs and create statistics? Is access protection desired?A DC residual current detection integrated in the wall box reduces the costs of the house installation.When integrating into a photovoltaic system, please ensure that the interfaces are compatible.Wallboxes are usually not in permanent use. Therefore, the standby consumption should be as low as possible. Can the wallbox be switched off completely?Register the charging station with the network operator.Systems with more than 11 kW of power are subject to approval in Germany, for example.Please ensure that the manufacturer's declaration of conformity is available. This ensures that the device meets the requirements of your country.Good cable management including plug garage makes daily handling easier.A wall box with a socket should have a switchable locking device for the charging cable. This will prevent the charging cable from being stolen. Where should I install the wallbox?A wall box is best installed in a dry, shady place that is not exposed to direct sunlight. The ideal height should be around 1.5 to 2 meters above the ground. Make sure the area around the box is clear of obstacles. Depending on the installation location, the question of the correct cable length arises. It should be noted that power consumption and the associated costs increase with longer cables. Line losses may occur if the cable is too long. The recommended cable length for wall boxes is 10 meters. This is the optimal length to avoid losses and keep power consumption low.DangerThe requirements and standards that must be observed when connecting a charging station for electric cars can be very extensive. You should therefore commission a specialist electrician to do this.If you need a longer cable, you should consult an electrician. He is able to dimension the cable correctly and ensure that no losses occur.Do I need a separate charging station for my e-bike or pedelec?You can charge e-bikes and pedelecs at a classic household socket. If you live in your own house, this is possible in the garage, in the carport or in the basement. We recommend using a charging station if you regularly want to charge more than one bike at the same time. So the bikes are always in a designated place. The distribution of the wheels to several sockets in different rooms is no longer necessary. As a landlord, you can also offer your tenants the charging of their electric bicycles. As a rule, you do not have a publicly accessible socket in the underground car park or in the hallway. A charging station is a suitable alternative before the occupants of your house have to carry the electric bike into the apartment. Depending on the model, individual billing or locking of the charging points is possible.Which wall box is right for me?There are a number of factors to consider when choosing the right charging station. On the one hand, the power of the charging station should be matched to the required charging power of the vehicle. On the other hand, it is important to choose the fuse for the circuit and the dimensioning of the cable accordingly. TIP:The required charging power of a vehicle is usually specified in the operating instructions. For an electric car with a battery capacity of 40 kWh, for example, a charging capacity of 11 kW may be sufficient. Faster charging is possible if the charging station has a higher power. You can usually charge an electric car with a battery capacity of 60 kWh at a charging station with 22 kW. Circuit protection is important to prevent damage to the vehicle or charging station. The recommended fuse for a wall box with 3.7 kW power is 16 A. For a wall box with 11 kW power, the recommended fuse is 32 A and 22 kW power must be fused with 64 A. The dimensioning of the cable depends on the length of the cable and the desired charging power. For example, a 1.5 mm² cable is sufficient for a charging capacity of 3.7 kW. At least 6 mm² is recommended for a charging capacity of 11 kW. The number of charging points depends on the number of vehicles that are to be charged at the same time. If you want to charge several vehicles at the same time, there must be a separate charging point for each vehicle. The power of the charging station is divided among the vehicles. Dimension a new charging station for the future. Lay cables with a cross-section suitable for 22 kW. In this way you avoid further costs if you later buy a vehicle with a quick charging function.How do I calculate the charging time of my electric vehicle?The charging time of an electric vehicle depends on various factors, such as the battery capacity, the charging power and the discharge current. The battery capacity indicates how much electricity the vehicle's battery can store. The charging power is the maximum charging current with which the battery is charged. The discharge current is the maximum current at which the battery can be discharged. To calculate the charging time of an electric vehicle, divide the battery capacity in kilowatt hours (kWh) by the charging power in kilowatts (kW).Image: ABL 1W2221 wall boxThe following example shows how to calculate the charging time of an electric vehicle: A vehicle has a battery capacity of 24 kWh. The charging power is 3 kW. In this case, it takes 8 hours to fully charge the vehicle.What does load management mean for the charging station?A distinction is made between load management within the wall box and load management within the electrical installation. Wallbox load management has the following advantages:Optimized charging performance: Load management optimizes the charging performance of your wall box. For example, you can charge your battery faster and more efficiently.Protection of the battery: Another advantage of load management is that the battery is protected. The optimized charging performance prevents the battery from being overloaded.Maximize battery life: Since load management protects both the charging power and the battery, you can maximize the life of your battery. So you can benefit from your wall box for longer. If several smart charging stations are in use, these can be integrated into a building's load management system via additional modules. This means that several electric cars can be charged at the same time with the same connected load. The available power is automatically distributed to the number of charging vehicles. Companies, car parks and hotels with several charging stations thus avoid expensive power peaks.Do I need restricted access for my Wallbox?In many cases, the Wallbox is located in public or semi-public areas. This means that it is accessible to everyone. This can pose a security risk, especially if the wallbox is not properly secured. A lockable wall box provides an additional layer of security. Unauthorized persons are prevented from accessing it, for example in a communal garage, in a hotel car park or company car park. Another option is to connect the Wallbox to an RFID system. This means that only authorized persons can open the box and use the power plug. RFID systems can be installed either on the wallbox itself or on a separate access control system.  Catalogue content:In this eibabo® catalogue Industrial socket / plug applications > Charging device E-Mobility you will find items from the following product groups:Item overview:Bike charging stationBike charging stationsCharging caseCharging stationElectric bikeElectric bikesElectromobilitySocket housingVehicle chargerfrom the following manufacturers:Manufacturer overview catalogue Charging device e-mobility:ABLGSABHagerMennekes E-MobilitySchneider ElectricSpelsbergWalther

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No results were found for the filter!
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