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Hirschmann - The HIRSCHMANN company is regarded as the technology and market leader for industrial networks. As a specialist in automation and network technology, Hirschmann develops innovative solutions that are based on customer requirements in terms of performance, efficiency and investment security. HIRSCHMANN is part of the international BELDEN Group. Belden has 15 offices in Europe, the Middle East and Africa, and manufacturing facilities in Germany, the Czech Republic, the Netherlands, the UK, Denmark, Italy and Hungary. In Germany, Belden has a total of three locations - Neckartenzlingen, Ettlingen and Schalksmühle - and around 600 employees. The Hirschmann company has always played an important role in introducing Ethernet technology as a standard on the production floor. Today, the Powerlink protocol of the Ethernet Powerlink Standardization Group (EPSG) offers an open method for realizing demanding real-time applications based on Ethernet, e.g. B. for machine control through the integration of the CANopen protocol. Hirschmann is currently the only brand worldwide that offers a complete product range for data communication in the industrial sector based on Ethernet and fieldbus systems. These include layer 2 and layer 3 switches as well as industrial security and WLAN systems that serve as a uniform, company-wide communication infrastructure without interface problems and media breaks. These products are used in many different applications, including factory automation, process control, transportation and engineering. You can also find many of the HIRSCHMANN products in the eibabo online shop. Find the product you are looking for now in the online catalog under HIRSCHMANN!

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Circuit breaker - Are you sure that your electrical installation offers correct protection against overcurrents? Errors in protection can have dangerous consequences. Read here what you should pay attention to and the importance of the high-quality miniature circuit breakers from our eibabo® online shop.The use of electronic devices is a matter of course for us. Their use is comfortable and safe. But what happens if the television, washing machine, oven or refrigerator has a short circuit or overcurrent? These devices would be permanently damaged and fire accidents would be the result if suitable protective mechanisms were not activated as quickly as possible. In everyday life, hardly anyone thinks about these dangers. Why is that? Various safety elements are integrated in today's electrical installations, which protect people, electrical devices or the circuits themselves from damage caused by overcurrent. Modern miniature circuit breakers, among others, perform this task. They are also called circuit breakers or fuses. Do you remember?Historically, fuses contained a metal wire or strip that would melt if overcurrented, interrupting the flow of current. As a result, a tripped fuse was destroyed and had to be replaced. These so-called safety fuses are still used today, for example in vehicle construction. Circuit breakers work differently, can be reactivated manually after tripping and thus offer obvious advantages over fuses.What are circuit breakers?All non-adjustable circuit breakers are referred to as miniature circuit breakers, also known as MCBs. MCB is the abbreviation for the English term 'Miniature Circuit Breaker'. It is always an overcurrent protective device in the electrical installation when used in low-voltage networks. Miniature circuit breakers protect lines from damage caused by heating up as a result of excessive current, usually caused by a short circuit. The miniature circuit breaker is a reusable safety element that does not reset itself automatically. This makes handling very safe and you can quickly restore the power supply after it has been triggered. There are no high maintenance and replacement costs. Combinations of a miniature circuit breaker (MCB) with a residual current device (RCCB) are also available, these combined devices are referred to as RCBO devices (English: 'Residual current operated Circuit-Breaker with Overcurrent protection').What were the different miniature circuit breakers developed for?The miniature circuit breakers available from eibabo® differ not only in their rated current and design, but also in their tripping characteristics. The following standardized tripping characteristics are currently permitted for miniature circuit breakers:Type B (standard line protection)Type B miniature circuit breakers are the usual variants for private use. These switch off the circuit as soon as the current exceeds three to five times the actual current flow. Type C (higher inrush current for machines or lamp groups)Type C switches are used, among other things, in household appliances and in commercial devices such as fluorescent tubes, PCs, printers and servers. These break the circuit when the current exceeds five to ten times the actual current flow. Type D (for highly inductive or capacitive loads, e.g. with transformers, magnets or capacitors)Type D MCBs offer high resistance. These turn off the circuit when the current exceeds ten to twenty times the actual current flow. Type E (SLS / circuit breakers for main lines)SLS stands for 'Selective Circuit Breaker'. This triggers with a time delay when the current exceeds 5 to 6.25 times the actual nominal current. This means that downstream fuses or classic miniature circuit breakers switch off the current beforehand. Type K (with high inrush current with sensitive overload tripping)Type K miniature circuit breakers trip at eight to twelve times the actual current flow. These protect heavy-duty equipment such as compressors, winding motors and X-ray machines. Type Z (semiconductor protection with high line impedance)Type Z miniature circuit breakers are sensitive to short circuits and are used in semiconductor production. These break the circuit when the current exceeds two to three times the actual rated current. Image: Hager MCN316 miniature circuit breaker 3-poleIs the installation of miniature circuit breakers absolutely necessary?Miniature circuit breakers for lighting circuits and socket circuits are mandatory in the circuit distributors of apartments and residential buildings. You must install these. For industrial installations, in industrial plants and in trade, please pay attention to the higher requirements for miniature circuit breakers. Here, miniature circuit breakers / MCBs often also protect equipment and devices.How does a circuit breaker work?Miniature circuit breakers usually have two trigger mechanisms, the electromagnetic quick release and the thermal release. When an overcurrent flows through the circuit breaker, a bimetallic strip in the thermal trip unit heats up and bends. This triggers an interlock, interrupting the flow of current in the circuit. This process protects against hazards or damage to devices that can result from the overload. In addition, the melting of the lines is prevented. In the event of a short circuit, the electromagnetic trigger acts. Here the current suddenly increases and a magnetic field builds up inside a coil. A bolt reacts to this, hitting the trigger mechanism in fractions of a second and interrupting the circuit.NoticeIn the circuit breaker, the outer switching lever is not directly connected to the actual switching mechanism. The device also triggers reliably if the shift lever is jammed, locked or manipulated.To get the current flow going again, the circuit breaker can be reactivated using the shift lever.What is the difference between single-pole and multi-pole miniature circuit breakers?You use single-pole miniature circuit breakers, for example, for circuits with single-phase alternating current. Three-pole miniature circuit breakers are used in AC circuits with three current-carrying phases. In the event of an overcurrent or short circuit, these are able to switch off all phases. This happens even if the fault affects only one phase. recommendationWe advise you to protect multi-phase circuits with a multi-pole circuit breaker. Do not divide the individual phases into single-pole circuit breakers. Working with electricity is dangerous. Please have changes or extensions to your system carried out by a specialist electrician.Which miniature circuit breakers are recommended?A large selection of miniature circuit breakers for electrical distribution installation can be found in the eibabo® online catalogue. We carry high-quality and reliable miniature circuit breakers from well-known and well-known manufacturers such as Siemens, ETA, ABL Sursum, ABB Stotz S&J, Eaton, Hager, Schneider Electric or from Moeller, Doepke and Stahl.  Catalogue content:In this eibabo® catalogue Circuit breakers and fuses > Miniature circuit breaker (MCB) you will find items from the following product groups:Item overview:AC circuit breakerAC voltage machineAuxiliary circuitBuilt-in deviceBuilt-in distributor deviceBuilt-in machineBusbar automatBusbar fuseCable circuit breakerCircuit breakerControl circuit breakerDC circuit breakerDC voltageDirect currentDirect current machineEnergy TechnologyHigh performance circuit breakerInstallation machineMCB circuit breakerModular installation deviceMotor protection switchOvercurrent protectionOvercurrent switchPlug-in circuit breakerRail mounted devicesScrew circuit breakerShort circuitTax securityfrom the following manufacturers:Manufacturer overview catalogue Circuit breaker:ABBABNBachmannDoepkeEatonETAHagerMurrelektronikPhoenixSchneider ElectricSiemensStahl
Smart Home - Smart Home is a general term for automation solutions in residential buildings designed to create added value for the user by increasing the quality of living and quality of life. A wide variety of systems and installation procedures are used. Only a few of them are standardized worldwide, e.g. the KNX®, unfortunately most are stand-alone solutions. The devices used for this purpose ought to be compatible among themselves and among manufacturers in order to implement convenience functions, safety functions and energy-saving functions. Human nature is ill-equipped to process the future information overload and extreme rapidity of changes. The human body needs to slow down to be able to consciously perceive its environment and to process and store experiences. This also presents future challenges for manufacturers and service providers of smart home systems, namely to provide relieve to human beings, instead of burdening them with information and instructions. It is very difficult to keep up with the number of automation solutions in the Smart Home field, and the number of actually totally senseless applications is constantly increasing. The consumer can hardly even recognize which hardware and application is smart and which isn't, as nearly everything is advertised as being ''smart'' without actually being so. Who really needs a toothbrush that tells you whether you've brushed your upper left row of teeth long enough, an app-controlled toilet flush or a washing machine that reorders the washing detergent. Applications are only smart if they actually provide the user with practical added value. Studies have shown that most users (over 50%) would like to have a smart heating control, followed by a remote-control window/shutter/rolling shutter control and automated lighting. Of course, the future advances at a rapid speed, and today's standards may already be obsolete 10 years from now and might be replaced by disruptive technologies. The heavy automation of processes and routines, pressure towards efficiency due to globalization, along with massive digitalization in all areas of life are the heralds of a new future. Robot technology and androids will be a ubiquitous part of all our lives in less than 20 years. There are already efforts to optimize the human brain to withstand the future?s heavily increasing challenges of the digital world. Normal life and work routines as they largely exist today will change significantly. There is a substantial future in store for the smart home ? in particular the KNX smart home ? in the private domain, which is why anyone who is planning to build or is currently building a home ought to be aware of the future requirements and at least make preparations now for relevant KNX installations. In our main Smart Home catalogues at eibabo®, we carry a vast selection of products from ABB, Berker, Busch Jaeger, Eaton Moeller, EIBMARKT, ELSNER, EMU-ELEKTRONIK, ESYLUX, Issendorf, GIRA, Hager, Jung, Legrand, Lingg & Janke, MDT, Merten, Siemens, SOMFY, Steinel, THEBEN, Thermokon and Warema available for private and commercial customers at top prices with worldwide delivery.
Installation small distributor - Do you need one or more small installation distributors at top conditions for the production of your electrical installation? The eibabo technology store offers the right machine housing for every requirement. Choose from numerous models in different sizes and for every type of installation. TIP:Calculate reserves, at least 25% additional space required. Size the distributor slightly larger. You never know if and when you might want to make more installs. If there is later a need for expansion, additional slots and mounting locations for fuses, sockets or measuring devices are required.What are installation small distributors?A small installation distribution board is also referred to as a machine housing, power box or fuse box. There are power distributors in almost every electrified house these days. Depending on how complex a system is, there can be various sub-distributors or group distributors in addition to a main control cabinet. The safety devices, switching devices or measuring devices for a specific section of the installation are then located in these distribution boxes.What is the function of a small installation distribution board?A complex electrical installation must be divided into individual sections. These are individually insured. This avoids faults and short circuits affecting the entire system. Such a section can be, for example, an apartment. The small installation distribution board contains switches, automatic circuit breakers and other devices with which the electrical current is distributed and secured in the respective section. From here, the lines lead to other sub-distributors (e.g. circuit junction boxes) or directly to consumers such as sockets or lamps. Devices with high power consumption, such as electric stoves, have a separate fuse in the sub-distribution board for safety reasons. The importance of an individual distributor depends on the size of the overall system. In larger houses with multiple entrances and residential units, sub-distributors may be required for each entrance, then for each floor and then for each individual apartment.Already knew?A main distribution is the first distribution after the transformer station. From here, the energy is distributed to commercial buildings, residential buildings and other consumers.Thus everything after the main distribution is a sub-distribution, field distribution or group distribution. Please refer to the product descriptions for the specifications for using the small distributors (for example: maximum rated current, number of modular units).Why do I need a small installation distributor?Electrical systems within a building are based on a primary sub-distribution. How useful a further sub-distribution is depends on the complexity of the system. Each installation small distributor thus serves as a node for a specific section. This results in the following advantages:Overview and control of the subsequent installationFrom this point it is easy to determine individual rooms. Possible errors and defects can be localized quickly. In addition, individual devices such as electric stoves or heating controls can be precisely assigned. Ensuring short cable routes to the end user or to the next fuseShort distances mean less voltage losses and line losses. Installation costs are lower. Maintenance work and repairs do not take that much time. Possibility of individually securing or switching off an areaThe installation after the distributor is secured separately. In the event of a problem or damage, only this area is affected without affecting the entire system. Picture: Hensel Mi 1444 machine housing 48TEIs the structure of a small installation distribution board standardized?A small installation distributor is a component of the electrical installation and is subject to certain regulations and standards. In Germany, these are regulated in the DIN standard 43880. The size of a junction box can be freely selected to a certain extent and is determined by your needs. The internal structure is determined by the DIN rails on which circuit breakers, circuit breakers, sockets and other devices are mounted. The top-hat rails must be at least 150 mm apart in height. This distance may be increased in increments of 25mm if required by the installation. The DIN rail, also known as the mounting rail, is divided into 12 modules. A pitch unit is indicated in the descriptions with 'TE' and is 18 mm wide as standard. This allows the capacity of an installation small distribution board to be clearly described. TIP:The external dimensions of a distributor vary from manufacturer to manufacturer. These say nothing about how many devices you can install. The capacity of a distributor is specified in division units. An example: If the description says 48TE 4x12x18mm IP54, you know that this distributor has 4 DIN rails. Each rail comprises 12 pitch units of 18 mm. The sum of the devices that you can install is 48 TE. The manufacturers follow this grid dimension and offer their modular installation devices in 1 HP, 2 HP, 3 HP and so on. The specification IP54 refers to the degree of protection. This describes how well the distributor is protected against the ingress of water or other foreign bodies from the outside. The first digit stands for foreign bodies and touch, the second digit for water. In the example given, the '5' means protection against dust and larger particles, the '4' means protection against splash water.Which devices may be installed in a small installation distribution board?The lines of the individual circuits come together in the small distributor. Here you can find the following built-in devices:Miniature circuit breakers and RCDs/residual current circuit breakers and other switchesAutomatic circuit breakers and fusesrelays and contactorstransformersStaircase light machinestimersindicator lightsSchuko socketsterminal blockstransducerOvervoltage protectionprogrammable logic controllersautomation componentsIn addition, a combined installation with the electricity meter is possible. Where and how can small distribution boards be installed?A suitable installation location must be selected depending on the function performed by the distributor. The installation can be flush-mounted or surface-mounted. Flush-mounted distributors, for example, are the first choice for masonry. Surface mounting makes sense on concrete walls. A place in the house connection room should be provided for a main sub-distribution. There are usually other media such as gas and water. For additional sub-distributions on the floors or in the apartments, observe the following installation criteria:Choose a suitable place with average room temperature.Avoid high humidity and strong temperature fluctuations.Install the small distribution board at a comfortable height. The distance from the floor to the center of the distributor should be at least 1.10 m and maximum 1.85 m.Ensure there is sufficient light and freedom of movement in and around the small distribution board.Make sure that the distributor is always easily accessible. This facilitates access to the installation if necessary.   Catalogue content:In this eibabo® catalogue Distribution boards > Small distribution board you will find items from the following product groups:Item overview:Arrester housingAutomatic installation unitBusbar systemCable holderClick technologyCombination distributorConfiguratorConnection housingDistribution cabinetEmpty CaseEmpty closetInstallation small distribution boardInsulating distributorMedia distributorMicroperforatedMistral spreaderMultimedia distributorPolycarbonatePower distributionProject delivery formRenovationSealableSingle housingSmall surface-mounted distributorSpace unitsSub-distributionTelecom fieldWall boxfrom the following manufacturers:Manufacturer overview catalogue Installation small distributor:ABNAcomeDehnEatonGSABHagerHenselHomewayLegrand BticinoNiedaxOBORittalSchneider ElectricSiemensSpelsbergStriebel & JohnTehalitTelevesWaltherWeidmüller
Radio receiver - Do you have an existing electrical installation and would like to automate it inexpensively? Do you want to retrofit or expand your smart home without having to open walls? Then high-quality radio receivers belong in your shopping cart. Find out here what options are available to you with the use of radio receivers.What are radio receivers?Radio receiver is the generic term for a variety of different devices that are capable of receiving signals. Within a communication system, a radio transmitter emits a modulated signal. The signal is transmitted via a carrier medium (e.g. air) and reaches the receiver. This very weak signal is picked up by the radio receiver's antenna and amplified inside the receiver. In addition, the received signal is isolated from noise or interference signals. Finally, the modulated signal has to be demodulated in the receiver in order to get back the original signal. This is reinforced again. We all know radio receivers from our daily life. A typical representative is the classic radio. Here speech or music is transmitted via long wave bands, medium wave bands and short wave bands. Their frequency is between 30 kHz and 300 kHz for long waves and 30 MHz to 300 MHz for short waves. Another recipient of our everyday use is the telephone. This so-called communications receiver is used to receive shortwave telephone signals.Already knew?The higher the frequency, the shorter the wavelength and the faster the speed of transmission.A final example is the receivers of television signals. These signals are typically transmitted over VHF (very high frequency) and UHF (ultra high frequency) bands with a frequency between 30 MHz and 3 GHz.But how important are radio receivers for you, your building automation or the electrical installation?Radio receivers are used wherever there is no power line or bus line. In addition, radio receivers are suitable for anyone who wants an installation that is as flexible as possible. Our radio receivers are also suitable for retrofitting existing analogue installations and device controls. In this way, radio receivers offer an interesting and cost-effective solution for home automation and to increase living comfort.For this reason we offer a wide range of radio receiversfor flush mounting (radio receivers, switching actuators and radio actuators)for operation (radio buttons, antenna modules, universal displays)for control (radio adapter, radio sockets and adapter plugs) from all well-known manufacturers. These include top brands such as ABB, Bachmann, Busch Jaeger, Eltako, Grothe, Jung, Peha, Warema, Stiebel Eltron and numerous others.What is a radio actuator?Within building automation, a radio actuator performs the same tasks as a wired actuator. The difference is that the radio actuator does not require a bus line to carry out the tasks assigned to it. The device receives the working signals via a wireless radio link. In principle, it would also be possible to wirelessly implement the power supply in the near field by means of inductive energy transmission. However, wireless actuators usually have a direct power supply. The transmission frequency and reception frequency is usually 868 MHz.What advantages do wireless actuators offer?In order to recognize the differences compared to wired actuators, let's first look at their control. There are actuators that are controlled by switching the power supply on and off. Other actuators are controlled by switching the contacts. With these contact switching actuators, there is a permanent voltage, which the device draws from a machine, for example. The switching tasks are transmitted via an additional bus line. The disadvantage of both variants lies in the sometimes long cable routes and complex cable connections. These are expensive and may affect the mobility of automated machines. The radius of action is limited by the length of the line connections. In addition, with mobile installations there is always a risk of damage to the connections. A radio actuator solves many of these problems. By using wireless actuators, control cabling can be saved and the flexibility of the installation can be increased. TIP:With repeaters you can easily increase the radio range of your radio transmitters and thus expand the area of application of the receivers. When using an inductive power supply, such a device does not require the use of fixed connections. Other advantages are:Possibility to expand the functionality of already existing systems or home automationPreservation of the aesthetics by saving on cables and cable management systemsIncreased security in access systems or similar because no lines can be manipulated What types of radio actuators are there?In the eibabo® technology store you can get wireless actuators for a wide variety of tasks. These include, among others:Blind actuators and roller shutter actuators (for sun-guided or timed control of your shading systems)Dimming actuators (for the realization of different light scenes and for the optimal setting of the lighting according to time and other parameters)Relay actuators (for switching circuits and the associated control of end devices)Temperature controller (to regulate and display the room temperature)Presence detectors and motion sensors (to trigger certain processes when detecting human presence)Light sensors and brightness sensors (for automatically switching the lighting)as well as staircase lighting actuators, impulse switches, universal actuators, time relays and others Image: Eltako FUD61NPN-230V wireless actuator universal dimmer switchWhat do I have to consider when buying radio receivers and radio actuators?Of course, a radio receiver isn't of much use to you if it doesn't receive any signals. You need appropriate radio transmitters or sensors that provide the recipients with the required data. These can be, for example, window contacts or door contacts, universal transmitters, remote controls, hand-held transmitters, weather stations, temperature controllers, motion detectors, thermostats, buttons or the like. In order for the communication between sensors and actuators to work, all components must be parameterized. As a result, each device knows which commands to send or receive and how to respond to them. The standardized 'Engineering Tool Software (ETS)' is available for this. This is a tool that you need for commissioning and linking KNX devices. You can obtain the software from www.knx.org. In principle, the ETS is also suitable for laypersons who are interested in the logic of the KNX, as programming knowledge is not required.In addition, we generally recommend studying the applications (parameters and functions) provided by the manufacturer for the ETS before purchasing. This ensures that a specific device can also take on the tasks you want and carry them out correctly. This also includes the frequency with which the transmitter and receiver work.  Catalogue content:In this eibabo® catalogue Domestic switching devices > Radio receiver you will find items from the following product groups:Item overview:Awning actuatorBuilding automationCable replacementDimmer insertsElectric heatingEngine actuatorEngine control unitEntrance gateFlush receiverGate controlGlass radiatorHome automation remote controlHome controlInfrared panelRadio conversion setRadio remote controlRadio switchShutter radio receiverSocket actuatorStaircase timer switchSun protectionTactile sensorUniversal receiverVideo intercomWind sensorWipe-onWireless sensorWireless socketfrom the following manufacturers:Manufacturer overview catalogue Radio receiver:ABBAVM ComputersystemeBerner TorantriebeBusch JaegerEberleElsoEltakoEthermaEVNGrotheHamaHuber + Söhne WHDJumoJungMertenRademacherSchalkSomfySommerStiebel EltronVitramoWarema
Push button - Experience the extensive product selection of our switch programs and find your product from the button and momentary switch area here. Read on and learn more about the different types of buttons, their functions and areas of application. This eibabo® catalog mainly contains buttons for classic domestic use. These are either styli or complete devices for wall installation and wall mounting. The different types include single and double buttons and rocker buttons, rotary buttons, manual release buttons, key buttons and key switches, series buttons and pull-cord switches. Another product group are the pushbutton switches / rocker switches.Are you looking for pushbutton sensors, pushbuttons for industrial applications (e.g. on machines or in consoles) or pushbuttons for use in control cabinets? For this we offer you separate categories with a huge selection. Please use our powerful search.Image: Jung 531-41 U Multi-Switch double buttonWhat is the difference between a button, a switch and a tactile switch?Switching processes accompany us every day. This begins early in the morning when the alarm clock is switched off and the light is switched on. As a rule, we don't worry about how the technology behind each shift works. Typically, these are devices in which a mechanism ensures that a circuit is closed or opened. However, if we take a closer look at the type of circuit, clear differences become apparent.The deskThe classic, simple switching process (e.g. at the light switch) consists of two states - ON and OFF. A conductive connection is made or broken between two contacts. We operate the rocker switch, a circuit closes and the light shines. We operate the other side of the paddle switch, the circuit is broken and the light goes out. The shift paddle remains in the corresponding position with every shift. As a result, the respective switching status ON or OFF remains until the rocker switch is pressed into the other position.The buttonThe basic function of the button is slightly different. A button does not switch, but closes the circuit via a pressure pulse. The functional principle corresponds to that of a switch. Here, too, a conductive connection is established between two contacts by actuating a rocker or a push button. The current flows and the lamp lights up or a bell rings. Unlike the switch, the circuit is immediately broken again when the pressure pulse ends. The rocker or pushbutton is returned to its original position by a spring mechanism. Other types of styli work in the opposite way. The circuit is separated by the pressure pulse and then closed again. An application example for this are electromagnets on the door opener. Switching scenarios can also be implemented via these pressure pulses by using additional relays. You know this from lighting in stairwells, for example.The tactile switchA tactile switch is a combination of a button and a switch. Such a device is similar to a switch in terms of the switching function and a button in terms of operation. A rocker switch or push button closes the circuit when pressed and then returns to the starting position. Unlike the button, however, the circuit remains closed until another pressure pulse interrupts the circuit. So it is the mechanism that distinguishes the pushbutton switch from the switch.Perfect opticsThe rockers of pushbutton switches arranged next to each other are always in the same position relative to each other, regardless of the current switching status.This results in an always uniform and orderly view. Unlike pushbuttons, relay switching with pushbutton switches is not possible. As a rule, there is no significant optical difference between switches, buttons and pushbutton switches from the same switch range. Especially when it comes to rockers, tilting controls, sliding elements or rotary handles.What are normally open, normally closed and changeover contacts?Buttons are available as openers, closers and changers. In most cases, a button is used as a closer. The connected circuit is closed with a pressure pulse. As already described, this state only lasts as long as the button is pressed. The closer works in the opposite direction. In a basically closed circuit, pressing a button breaks the circuit. As you probably already suspected, a changer can take over both functions. You will surely wonder if this is not a switch. And you are right. A changeover contact corresponds to the pushbutton switch described above.What is a key switch?Key buttons are classic buttons, but they do not have manual controls. Instead, a suitable key is required. Turning the key in the lock changes the switching status. For example, turning the key will open a roller door for as long as it is held in the OPEN position. The roller door stops when the key returns to the zero position. However, such devices are usually designed as pushbutton switches / changeover switches. In these cases, turning and holding the key in the other direction closes the roller door.How do I recognize the switching status of pushbutton switches?Simply designed pushbutton switches can leave you in the dark about which switch position is currently applied. However, most pushbutton switches have a small indicator light that signals the active status.Are all button inserts compatible with all switch ranges?You can buy buttons from us for the most popular switch programs from all relevant manufacturers. These include Berker, Busch-Jaeger, Siemens, Jung, Gira, Elso, Merten, Hekatron, Sommer, Rademacher as well as von Peha, Hager and WindowMaster. We carry both flush-mounted devices and surface-mounted versions.Please note that every manufacturer offers both button inserts for installation in the switch box and complete devices for flush-mounting and surface-mounting. If you decide to buy button inserts, please make sure they are compatible with the switch range you want. TIP:Choose pushbutton inserts and switches from the same manufacturer and from the same series. Cross-series or cross-manufacturer compatibility is not guaranteed, especially for switch ranges with a very individual design. We recommend first choosing a switch range that corresponds to your visual ideas. After that, the search for the right switches and buttons is easier.Can I also carry out KNX controls with a normal button?In this catalog you will receive buttons without a network connection. With a network-capable KNX button, you can operate the end devices integrated in your smart home network. This can be:the blinds, which let you move up and downthe light that you switch and dimthe heating you controlthe doors you open and closecompletely individual, user-defined scenarios It is generally operated using a different number of buttons or rocker switches on the device and/or via displays. KNX buttons specially made for this are more complex than the buttons without network connection offered in this catalogue. This extends to controls with an elegant touch display. Temperature sensors, LED displays and backlights are often already part of a unit. In addition, it is often possible to provide each key with additional functions, which are triggered, for example, by long pressing, double-clicking or even triple-clicking. A corresponding interface is required for communication with your building automation. With some KNX buttons, the so-called bus coupling is already integrated, with others you have to install it additionally and plug in the button. TIP:Using a KNX universal button interface, you can make simple buttons network-capable. With a KNX universal button interface, however, you can basically turn any conventional button into a KNX button. These interfaces are installed in a deep device box behind the conventional button and take on the task of a binary input. This converts the analogue, mechanical switching processes into KNX signals. But this solution is more for:simple standard applications such as switching lightsthe modernization of analogue existing installationsinexpensive and functionally manageable system extensions Complex parameterizations are not possible with these simple buttons. If you want this, the KNX push-button sensors designed for this are the better choice.  Catalogue content:In this eibabo® catalogue Domestic switching devices > Push-switch button you will find items from the following product groups:Item overview:Branch officeButton buttonsCard switchDouble buttonDouble button series buttonDouble toggle switchFire alarmGroup buttonInstallation buttonInternal buttonManual releaseManual release buttonNostalgia switchPanic buttonParallel buttonPush buttonPush button switchRadio controlReversing buttonRocker switchSignaling contactsSingle buttonTactile elementToggle switchVentilation buttonWireless sensorWireless wall buttonZero clampfrom the following manufacturers:Manufacturer overview catalogue Push button:Assa Abloy effeffBEGA GantenbrinkBerkerBerner TorantriebeBusch JaegerElsoEltakoGiraHagerHekatronHHGIssendorffJungKindermannLegrand BticinoMertenOBOPehaRademacherSiemensSomfySommerWindowMaster
Load break switches - Do you want to disconnect circuits safely under load? Then you need a switch disconnector. But what do you have to pay attention to when buying a load-break switch? Switch disconnectors are available in many different versions. We give you an overview of the different models and help you to make the right purchase decision.What are switch disconnectors?Under normal conditions, load switches can switch and carry specified currents. Disconnectors, on the other hand, have a higher dielectric strength and lower leakage currents in the isolating distance. The switches must under no circumstances switch themselves back on automatically as a result of environmental influences and must have a clear indication of the off position. In a load-break switch, the functions of a load switch are combined with those of a disconnector. So it is a combination of both. The device protects, switches and separates with a safe isolating distance. This means that a load-break switch can also be used to reliably disconnect or switch a circuit under load up to the respective rated current. In general, we distinguish between three types of switch disconnectors:The classic switch disconnectorClassic switch disconnectors are designed for easy disconnection of a system and are used, for example, as a main switch, emergency stop switch or as a repair switch / maintenance switch. These devices are suitable for frequent switching. In the eibabo® shop you can get products for standard applications, for high-performance applications and for remote controls. In addition, we offer standard infrastructure devices for mounting on DIN rails. Please note that with all these devices, the supply line must always be fused separately.Fuse switch-disconnectorThe fuse switch disconnector combines disconnection with a fuse in one device. With this device, the fuse is cut out when switching. This means: When disconnecting under load, a visible arc occurs. Fuse switch-disconnectors are intended for infrequent switching and are used in industry as main switches or in main power distribution. definitionIn electrical engineering, the term 'isolation' refers to the all-round disconnection (of a part) of a system from all non-earthed lines. Load-break switch with fuseSwitch-disconnectors with a fuse also combine the switching function with a fuse in one device. However, the fuse is activated when the device is switched off. This enables you to safely replace the fuse when it is disconnected. The devices are also designed for frequent switching and are therefore also suitable for high-power applications, as main switches and in the main power distribution.What do I use a switch disconnector for?Load-break switches protect people and machines and are used for:Activation of resourcesSwitching short-circuit currentspower shiftingProtection against overcurrentProtection against electric shock These can be used as the main disconnect device in switchgear, interrupting the power supply to one or more electrical circuits. It is possible to switch or disconnect the circuits even under load up to the level of the respective rated current. With a load-break switch, you separate electrical devices, for example for maintenance work and repair purposes. The aim of the switch is to safely stop the flow of current in order to enable authorized specialist personnel to work safely. It does not matter whether it is a simple or a complex installation. Load-break switches offer ideal performance characteristics for industrial use as on/off switches, main switches, motor switches, control switches, repair switches, emergency stop switches and much more. The function as an isolating switch and load switch makes these devices very economical, especially in small systems, because the use of additional isolating switches is not necessary.Image: Hager HAB406 switch-disconnectorWhat is the difference between a classic switch disconnector and circuit breaker?Switch disconnectors and circuit breakers perform different tasks. The switch-disconnector works with the simple objective. to disconnect the power supply. This allows electricians to carry out their maintenance work, repairs and inspections safely. A circuit breaker can take on more tasks than a load-break switch. A circuit breaker connects, carries and interrupts current under standard switching conditions. This is well suited to perform the duties of a disconnector or load switch. Like the load-break switch, it offers full disconnection if required. You can use the circuit breaker as a protective device because it can control the flow of current like a fuse. The device breaks the circuit under unfavorable conditions such as overload and short circuit. A load-break switch does not offer these advantages. Depending on the model, you can control a circuit breaker manually or automatically.Conclusion: A load-break switch serves as a disconnecting device to completely stop the flow of power and is often associated with a circuit breaker or a load switch. The circuit breaker works as a switching device to interrupt the short-circuit current and the rated current. To ensure maximum security, both devices usually complement each other.How do switch-disconnectors ensure safe disconnection of the current flow?Shifting under load is a special process. Sparks and arcs can occur when two conductive contacts are separated. These allow the current to continue to flow, although the contacts are no longer touching. With small currents, a sufficiently large distance between the contacts prevents the sparks from 'jumping over'. These go out by themselves without making a new electrical connection. If this distance is too small compared to the applied voltage or if the contacts are insufficiently insulated, arcs can form.Electric arcAn arc occurs when there is a high electrical charge difference between two poles. To compensate for this imbalance, a channel forms between the poles. Inside, gas (e.g. air) is ionized and a plasma is created. The current can flow through this plasma channel.These arcs must be extinguished using special protective devices in the switch. Load-break switches and circuit breakers are therefore equipped with specific extinguishing agents in order to stop the energy flow of the arc in good time. Depending on the type of circuit breaker, these are air, oil, insulating gas or vacuum. Special chambers for deionization (arc quenching chambers) are typically used in switch-disconnectors in the low-voltage range. These artificially lengthen the arc until the voltage required to maintain it becomes too great. The arc breaks off and quenching plates prevent it from igniting again.Which switch-disconnectors are recommended?Depending on which requirements you want to meet, your eibabo® online shop offers you the right load switch, disconnector or circuit breaker. When it comes to switch disconnectors, you have the choice between all well-known manufacturers. These include ABB, Ceag, Doepke, Eaton, Elektra, Hager, Legrand Bticino, Siemens and many more.To make your selection easier, the items in this catalog are already sorted by relevance. Enjoy high quality at low prices as well as many secure payment methods and fast worldwide shipping.  Catalogue content:In this eibabo® catalogue Low-voltage industrial components > Switch disconnector you will find items from the following product groups:Item overview:Auxiliary circuit breakerAuxiliary switchBasic switchCast pastedConstruction switchDistribution switchDiverter switchEngine switchFeed switchFuse bodyFuse switch disconnectorHard mirrorInsulating housingLoad separatorLow voltage circuit breakerMain switchMolded case circuit breakerMotor drivePadlock lockPlant protectionPower switchPush-through membraneReversing switchService deskStep switchSwitch disconnector protectionSwitch headTransfer switchfrom the following manufacturers:Manufacturer overview catalogue Load break switches:ABBCeagDoepkeEatonElektraHagerHenselKraus & NaimerSchneider ElectricSiemensSontheimerStahlSteidele-Stromvert.Wöhner
Flexible electric cable - Did you know that there are different types of wiring in your house? Among other things, we distinguish electrical cables according to whether they have rigid or flexible core cables. Read here when which types are used and what you should consider when selecting flexible cables.How are flexible lines constructed?The conductive core of a flexible cable does not consist of a solid (monolithic) wire, but of many little wires twisted together. These little wires form an insulated core, the so-called stranded wire. Depending on the purpose of the product, several of these cores can be bundled together in a further sheath to form a cable. The most important selection criteria for such a product are:the number of insulated cores within the sheathing of a cable (this can be several dozen)the color and positioning of the cores within the sheathing of a cable (see twisted pair cable)the cross-section of the respective coresthe type and structure of the insulation and sheathing The number and cross-section of the cores determine the total power of the current that can be safely conducted. This is one of the most important features of a cable and is specified by the manufacturer at regular intervals on the outer insulation. We recommend using quality products from well-known manufacturers. Tolerances can occur with cheap no-name items, which usually have an adverse effect on the cross-section and thus impair the performance of the line. There are also differences in the shape of the wires or lines. Most often we encounter the round shape, but in some variants the outer shape can also be flat, for example. This affects the outer diameter and the possible uses.The type and structure of the insulation and sheathingInsulation appropriate for the application is the primary safety feature of an electrical cable. Their main task is:Protect people from contact with a live coreto protect the cable from mechanical damageto ensure a correct current flow without interference from the outsideto shield the environment from the influences of the line In a line, each core is separately insulated. This prevents contact between the electrical conductors in the cores and offers protection against mechanical damage. Another outer sheath holds all the components of the cable together and also protects the inner insulation from drying out, high humidity and other influences. Depending on the location and purpose of a line, different materials are used for the insulation. These should correspond to the expected mechanical, chemical and thermal influences. The UV radiation of the sun must also be taken into account. The following materials are therefore used most frequently in the area of classic household electrics:PVC ? inexpensive, flexible, low-wear, non-flammable and resistant to various chemical compounds, not suitable for high and very low temperaturesRubber - particularly flexible, suitable for medium to difficult operating conditions, resistant to low temperaturesPE - resistant to chemical compounds, pressure and low temperaturesSilicone ? particularly reliable at high temperatures up to around 200 °C, low mechanical strengthPUR ? high oil resistance and abrasion resistant immission and emissionCurrent-carrying cables generate magnetic fields. The immission protection protects the data flowing through the wire from external electromagnetic influences. The emission protection prevents the emission of electromagnetic interference signals through the line.The outer casing can consist of additional elements:Shielding made of metal foil or metal mesh as a barrier against immission and emission. These mainly include fault currents, radio waves, EM fields or radiation, which affect the transmission of signals in data lines.Armor as maximum line protection against mechanical damage.Cover made of (impregnated) cotton or silk to protect against mechanical damage, rot or for decorative purposes. Image: Various flexible linesWhat is the difference between flexible lines and rigid lines?Cables with rigid conductors are used for fixed installation in domestic installations. Cables with flexible conductors are used where you want to connect mobile consumers. Mobile consumers are, for example, floor lamps, coffee machines, radios or hair dryers. But why is that?Advantages and disadvantages of flexible, multi-core cables:high elasticity and flexibilitysmall power losseshigh quality circuitreliabilitypoor performance on HF networkshigh price In particular, the higher price and the more complex production of connections (e.g. due to the necessary cable lugs) stand in the way of the use of flexible cables for all areas of electrical installation. In comparison, solid conductors have the following advantages and disadvantages in these points:inexpensiveUse in HF networkseasier installationeasy connectionhigh rigidity, not very flexible, difficult handling You save money with solid conductors in fixed installation. However, the handling of rigid cables is too cumbersome for daily mobile use on electrical devices, extensions or distributors.Pliability of flexible linesThe number of cores and the diameter of the wires in a core determine the flexibility of the core of a cable. The standard DIN EN 60228 (VDE 0295) describes four classes of conductors: solid (i.e. single-core solid conductors), stranded, finely stranded and extra finely stranded. The thinner the wires, the easier it is to bend the line. TIPSingle-wire and multi-wire cables have different levels of flexibility. During operation, these should not be bent too much so that the core is not damaged. The rule of thumb for solid conductors is: The minimum bending radius should not be less than four to five times the diameter of the cable including the sheath. A line with an outer diameter of 11 mm should therefore not be bent below a radius of about 50 mm. Flexible cables are more flexible than solid cables. Their bending radius should not be less than three times the cable diameter.What is a stranded twisted pair?Information systems have become an integral part of life today. Telecommunications, the global Internet and television are part of our everyday lives. One of the most important components of such networks is the twisted pair line. This is a line consisting of four or eight copper wires. The cores of the twisted pair cables are offered as solid or in the form of stranded wires. The special thing about it is that the wires are twisted together in pairs. A shield increases the protection of the line against electromagnetic interference. Twisted pair cables are primarily intended for the transmission of digital information in Ethernet networks. twisted pair lines. The area of application is not only private houses and apartment buildings, but also commercial offices and industrial companies as well as public facilities such as schools and hospitals.What is the significance of the core colors in flexible cables?If you look at a typical flexible power supply cable, you will see strands of different colors in it. In Germany these are typically black, brown, blue, gray and green-yellow. In order to be able to use the individual wires correctly, you should know the meaning of the color coding. This is important so that other people can rely on the correct assignment of the colors during repairs, checks or changes. Installers derive the function of individual wires from this. Instructions are printed on the sheathing, which provide information about the number of wires and their diameter. The following rules apply to the colors of the wires in Germany and the EU: The basic colors are brown, blue and green-yellow. There are also the extended basic colors black and grey. Alternative colors are white, orange, red and purple.NoticeDepending on the manufacturer, country and type of cable, there are major deviations in the colors of the core insulation. Please use the standard applicable in your country.The following applies to Germany and large parts of Europe: the brown wire is phase 'L1' and is always used as the current-carrying line to the device. The blue wire is the 'N' neutral and carries the power back to the source. The green-yellow wire is intended for grounding. This is called the protective conductor 'PE'. The extended basic colors black and gray are used when it is a three-phase AC installation. The black wire represents phase 'L2', the gray wire represents phase 'L3'. The alternative colors of white, orange, red and purple are intended to complement certain installations.Which cross-section do I have to pay attention to with flexible cables?Flexible cables with stranded copper for normal household use start with a standard cross-section of 0.5 mm². The dimensions 0.75 mm², 1.5 mm² and 2.5 mm² are widespread. The cross-section you need depends on numerous conditions. These include:the type of current (direct current, alternating current)the level of the operating voltagethe amperagethe length of the linethe type of transferthe voltage dropthe phase angle These parameters result in a formula that can be used to calculate a cable cross-section. Due to the many variables, for safety reasons we do not give any general recommendations for the use of certain cross-sections at this point.Simply browse through our large eibabo® range. Here you will find flexible PVC hose lines, silicone lines, rubber lines or PUR lines at particularly reasonable prices.  Catalogue content:In this eibabo® catalogue Cables > Power cable < 1 kV, for moving application you will find items from the following product groups:Item overview:Control cableControl lineData cableData lineDevice connection cableExternal lineFuse boxHigh voltage cableHouse connection cableInsulating tubeLine jumperMachine control lineMeasurement lineMeasuring systemMedium voltage cableOvervoltage protectionPower cablePower control linePower lineRubber cableRubber hose lineServo lineSilicone cableSilicone lineSupply cableTrailing cableTrunk cable ringVoltage tapfrom the following manufacturers:Manufacturer overview catalogue Flexible electric cable:BachmannBarthelmeComelit GroupDiverseEatonElsproFaber KabelGlenHagerHartingHelukabelIgusLappkabelLeoni StuderLützeMurrelektronikPhoenixPilzScharnberger+Has.WaltherWaremaWeidmüllerWieland
Distributor-timer - digital - Don't you also think that many electrical consumers don't have to be in operation all day? Would you like to save costs and conserve resources? This is possible with timers for the control cabinet. Find out here which functions digital distribution time switches can take on and which special features you should pay attention to when buying.At eibabo® you will find the right digital distributor time switch for installation in the electrical distribution board. We carry a large selection of Astro timers, weekly timers and yearly timers. Manufacturers of high-quality devices include Hager, Finder, ABL Sursum, Theben, ABB, Stotz S&J, Legrand (BT), Grässlin, Eltako and Schneider Electric. In the following text we will go into the individual variants in more detail.What are distribution timers?A time switch for the junction box is an electronic or mechanical device that switches electrical consumers on a time-controlled basis. These can be switched on and off without having to flip the switch yourself. This can be useful in private households as well as in commercial companies and in the industrial sector. The purposes of the distributor time switches include, among other things, the automatic switching on and off of lighting systems or the control of fixed house installations such as heating, ventilation, lawn sprinklers and air conditioning units. This not only saves you time, but also money.NoticeDistribution time switches are often offered in grid dimensions (pitch units). Depending on the equipment, such a device requires one to four modular widths in the control cabinet.The advantages of a timer are therefore obvious: electricity costs can be reduced effectively through the targeted control of your electrical devices. At the same time, you have the option of making your home less attractive to burglars, for example by simulating your presence using optionally available random functions.You can also get digital or analogue timers for the socket in another catalog from the eibabo® shop. Their function is comparable to that of the distributor time switches. However, the area of application extends to 'mobile' devices that are not permanently installed. These include Christmas lights, aquarium technology or decorative items such as fountains.What functions do distribution timers offer?A high-quality distributor time switch offers numerous functions and programs for the individual setting of the switching cycles. These include:60 min program / 24 h programWeekly program / annual programAutomatic summer/winter time changeoverholiday programimpulse programcycle programastro programrandom programPermanent switching ON/OFFexpiration timerhour meter Image: Theben TR 644 top2 RC distribution time switchWhat is the difference between each type of timer?We often come across terms such as astro timers, weekly timers or yearly timers. With regard to a purchase decision, the question then arises as to whether there are significant differences between these models. The basic function is the same for all models. The differences lie in the detail and the setting options of the individual variants. The astro function of a timer adjusts the switching times daily to the seasonally changing length of the day. In other words: When the days get longer in spring, the device switches on a little later every evening and a little earlier every morning. This process is calculated electronically and does not require a brightness sensor, for example, which would otherwise have to give the command to switch the light on or off. With a weekly timer, you can set individual switching times for each day of the week. In contrast, the function of a very simple time switch is limited to setting switching cycles within 24 hours.Already knew?Modern timers have a powerful power reserve. In the event of a power failure, this ensures the function of the timer for up to 10 more years.The annual time switch offers even more extensive functions. This means that different switching times can be provided for each calendar day and vacations and public holidays can be taken into account.Do distribution timers require a separate power supply?Digital timers always require energy to operate. As a rule, a distribution time switch is clamped onto the DIN rail of the control cabinet and supplied with mains voltage via an integrated power pack. Time switches that are exclusively battery operated are rare. These are typically analogue variants, which are used, for example, as 'door openers' in stables when there is no electricity.Is a digital timer always better than an analogue model?An analog timer works mechanically, a digital timer works electronically. Whether one or the other variant is more suitable for you depends on your requirements for the device. Mechanical timers usually have a higher-level switch with which you can switch the device off completely, switch it on permanently or switch it to switching mode. Switch buttons arranged in a circle represent the daily routine. There are usually 48 buttons and each button stands for half an hour. Activate or deactivate the corresponding switching period by pressing or pulling out. Compared to analog timers, digital timers offer significantly more setting options and functions. In contrast to mechanical timers, you can usually set several switching programs down to the minute over days or weeks. The distribution timer is operated using buttons and a display. TIP:If you want to control more than one device with the distribution timer, choose a model with the appropriate number of channels. This saves a lot of space in the control cabinet. Times and switching programs are clearly shown on the display. In terms of accuracy and functionality, a digital time switch is clearly superior to the analogue version. However, it requires a certain learning phase to understand the technology and set switching programs. If you only need 'rough' and daily recurring switching processes, analogue time switches are still a good alternative. These are set up and ready to use in just a few seconds.Can distributor time switches be programmed using an app or externally?There are distributor time switches that have Bluetooth and can be configured using an app. This allows you to display and change the switching states via smartphone or tablet computer. The prerequisite is the coupling between the input devices and timers within a network. Another way of programming the switching times is to use manufacturer-specific software. You can transfer the switching information to a special memory card via the USB interface of your computer. The memory card can then be connected to the time switch on the construction site/in the switch cabinet and the switching data can be loaded into the switch and vice versa.Doesn't a distribution timer consume more electricity than it saves?If the focus is on switching a consumer (e.g. the lighting) on and off, a distribution time switch is of course useful. As a rule, active end devices consume significantly more power than a timer. The question asked above relates to switching off a device that would otherwise run in standby mode for hours.To answer this question, a distinction must be made between an analogue and a digital time switch. An analogue model is less complex and usually has an output of less than 1 watt. With an electricity price of 40 cents per kilowatt hour, for example, the consumption costs are around 1 cent per day with 24 hours. With a digital timer, you have to assume around 2 watts and thus calculate electricity costs of 2 cents per day. In this calculation example, the investment costs for one or more time switches should also be taken into account.You can now compare this with the standby power consumption of your devices. This essentially depends on the type, age and number of devices. Old devices with displays consume more power in standby than modern electronics with only one control LED. A mix of new and old devices in the household currently results in an average consumption of 1 to 2 watts per device. If you need a separate timer for each electrical device, using them to save standby power is therefore not economical. The situation is somewhat different with distribution time switches, which can switch several devices or machines with a high standby current at the same time. This may save you on standby electricity costs, although this is not the primary reason for using a timer in these cases either. TIP:Pay attention to the shortest switching time of the device if you want to switch short intervals. Some devices only switch every minute and only a few devices switch every second or even faster. An example: If you have a terrarium with a sprinkler system, the nozzles should usually only spray for a few seconds. This is to maintain high humidity. Prolonged spraying may flood facility and animals.  Catalogue content:In this eibabo® catalogue Devices for distribution board- / surface mounting > Digital time switch for distribution board you will find items from the following product groups:Item overview:Astro timerBuilt-in timerDaily timerDigital timerDistribution timerEnergy efficientExpansion moduleInstallation timerJunction boxLighting controlLocation dependentPosition dataPower reserveProgram clockQuartz timerSeries installationTimerTimer moduleTimersUniversal timerWeekly programWeekly timerYear time switchfrom the following manufacturers:Manufacturer overview catalogue Distributor-timer - digital:ABBDoepkeEatonEltakoFinderHagerHamaLegrand BticinoSchneider ElectricSiemensTheben
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RECOMMENDED
3D
RECOMMENDED
3D
RECOMMENDED
3D
Agfeo - ST 22 Up0/S0 sw - Corded system telephone ST 22 Up0/S0 sw
16,934.02₹ excl. VAT

*

Corded system telephone
Agfeo
| ST 22 Up0/S0 sw
RECOMMENDED
3D
Auerswald - COMfortel 1400 IP sw - IP system telephone black COMfortel 1400 IP sw
16,648.11₹ excl. VAT

*

IP system telephone black
Auerswald
| COMfortel 1400 IP sw
RECOMMENDED
RECOMMENDED
3D
Auerswald - COMfortel 2600 IP sw - IP system telephone black COMfortel 2600 IP sw
24,405.98₹ excl. VAT

*

IP system telephone black
Auerswald
| COMfortel 2600 IP sw
RECOMMENDED
Wiha - 7148CS - Quick change holder CentroFix 6.3mm - Bit holder 7148CS
1,347.97₹ excl. VAT

*

plus shipping
(1,904.78₹ RRP***)
Quick change holder CentroFix 6.3mm - Bit holder
Wiha
| 7148CS
RECOMMENDED
Fränkische - FFKuS-EM-F-105 50mag - Plastic corrugated pipe, medium cable protection pipe 50.0x38.8 flexible FFKuS-EM-F-105 50mag
10,345.08₹ excl. VAT

*

(For 25 Metre) plus shipping bulky item
(43,705.98₹ RRP***)
Plastic corrugated pipe, medium cable protection pipe 50.0x38.8 flexible
Fränkische
| FFKuS-EM-F-105 50mag
x 25 Metre
Add to wishlist
RECOMMENDED
3D
Legrand SEKO - 344642 - CLASSE300 X13E LIGHT video intercom - Indoor station door communication White 344642
37,845.39₹ excl. VAT

*

plus shipping
(47,900.81₹ RRP***)
CLASSE300 X13E LIGHT video intercom - Indoor station door communication White
Legrand SEKO
| 344642
RECOMMENDED
ITW Spit - SPIT 353 SVC BONUSP - Combination hammer - Hammer drill 1100W SPIT 353 SVC BONUSP
124,475.56₹ excl. VAT

*

plus shipping
(160,200.57₹ RRP***)
Combination hammer - Hammer drill 1100W
ITW Spit
| SPIT 353 SVC BONUSP
RECOMMENDED
Auerswald - 90698 - Audio box a/b 16-60V DC - Answering machine 90698
8,848.06₹ excl. VAT

*

Audio box a/b 16-60V DC - Answering machine
Auerswald
| 90698
RECOMMENDED
Fränkische - FFKuS-EM-F-105 20mag - Plastic corrugated pipe, medium cable protection pipe 20.0x13.6 flexible FFKuS-EM-F-105 20mag
6,003.07₹ excl. VAT

*

(For 50 Metre) plus shipping bulky item
(27,090.68₹ RRP***)
Plastic corrugated pipe, medium cable protection pipe 20.0x13.6 flexible
Fränkische
| FFKuS-EM-F-105 20mag
x 50 Metre
Add to wishlist
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