The following 7500 products have been found matching your search "Schneider":

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Elso - Within the Schneider Electric SE structure, Elso is the name of a button and switch program and belongs to the product family of installation and building system technology. Elso itself is the abbreviation for Elektroinstallation Sondershausen and refers to a GmbH based in Thuringia. As with many companies in the former GDR, the company's history is quite erratic and shaped by the prevailing political conditions. A short digression: The production of electrotechnical products began in Sondershausen in 1898. At the location of today's ELSO GmbH, an old mill was converted into a watch factory in 1895, in which fuses, lamp sockets and switches were manufactured shortly afterwards. In the years that followed, ownership changed and the number of employees grew to over 1,000 in the meantime. After the Second World War, the company became public property and finally became VEB Kombinat Elektroinstallation Sondershausen in 1970, with over 3000 employees towards the end of the 1980s. After privatization in 1993 by the Scandinavian group Ahlstrom Electrical Accessories, Schneider Electric SE finally took over the company in 1999. Since then, Schneider Electric SE has been operating as an international parent company with its headquarters in Rueil-Malmaison near Paris and whose main focus is on industrial automation and energy management. The group is represented in around 190 countries worldwide and employs over 130,000 people. The German branch is Schneider Electric GmbH and is based in Ratingen. Since 2018, Elso has operated as the German sales and production site of Merten GmbH, which also belongs to the Schneider Group. In the eibabo® shops from eibmarkt® you will find sockets, buttons, timers, device mounts, frames, switches, housings, central plates, rockers, relays and dimmers from the Elso brand. As a reliable, experienced online mail order company that is available in many languages, the eibabo® technology store ships your order quickly and securely to almost every part of the world.
Elektra - It is more than 100 years since the company was founded in Tailfingen by Richard Maute, Karl Schneider and Gotthilf Ammann as an electrotechnical company for building installations. A year later, DC starters and lever switches were manufactured, laying the foundation for the switchgear specialist Elektra Tailfingen. In the same year, the first patent application for a sewing machine controller was filed and series production began. Today the company supplies customers all over the world with individual solutions and standard products such as switches, industrial plugs and sockets, distributors as well as testing and measuring devices. It attaches particular importance to customer proximity, flexibility and solution-oriented approaches in the development of new products. This is made possible by an extensive core range, which is based on a well thought-out modular system. This saves resources, ensures short reaction times and enables all requirements to be implemented quickly. Of course, Elektra Tailfingen is certified according to DIN EN ISO 9001. All products are developed, built and tested according to national and international regulations. From the company's product range, we offer, for example, main and emergency stop switches in numerous designs, star-delta switches, reversing switches, motor protection switches, Cekon sockets, Cekon plugs and Cekon couplings, pole-changing switches, foot switches, line testers and site power distributors from the eibabo® technology store . We are particularly impressed by the high quality and the solid and durable design of the components. In the eibabo® shops from eibmarkt® you will find not only products from Elektra but also everything else you need for your electrical installation - be it for private purposes or for commercial and industrial use.

Found in shop categories: 4

Installation contactor mdrc - Do you want to know why an installation contactor hums? Find out here. Or would you like to activate and stop large consumers using a remote switch? Then you need a high-quality and inexpensive installation contactor from the eibabo® technology store. With us you will find a large selection of high-quality installation contactors from many well-known brands. We carry installation contactors (REG) and accessories from the following manufacturers: Schneider Electric, Eberle Controls, Siemens, Eltako, ABB Stotz S&J,Finder, Eaton (Moeller) and Legrand (BT).All offered installation contactors are characterized by:excellent processing qualitylittle to no hum during operationquiet switching operationsvery good industrial qualityhigh switching capacitylong lifetime What is an installation contactor in electrical engineering?An installation contactor is an electrical device that is primarily used to protect electrical systems and devices from overload and short circuits. Installation contactors are mainly used in building installation for automation. In many cases, this involves the automatic switching on and off of electrical devices and systems. The installation contactor assumes the task of a remote switch, which switches a larger current with a lower current. In the area of electrical distribution installation and control panel installation, installation contactors are used, among other things, as series installation devices (REG) for mounting on DIN rails or support rails (35 mm) according to DIN EN 50022.What are the typical areas of application of an installation contactor?An installation contactor can be used, for example, to switch heating systems on and off automatically to protect them from overheating. Other automation processes include switching and controlling three-phase motors, lighting systems, ventilation, pumps, cable pulls, gates, shading systems and other building automation drives.How does an installation contactor work?Installation contactors usually work with operating voltages of 230V or 440V and with actuating voltages of 230V or 24V. There are also versions where both voltages are 230V. In addition to the housing, an installation contactor consists of an excitation coil, coil core, metal armature, switching contacts and armature return spring. There can be multiple of these essential functional elements in the installation contactor. The device consists of a control circuit and a load circuit. If current flows through the control circuit, the load circuit closes and also carries current. In the idle state (OFF), the switching contacts do not touch. TIP:If a contactor hums, this is not yet a cause for concern. This is due to dust and dirt or the rivets in the coil core loosening over time. Incipient wear on the short-circuit ring can also be a reason. The task of the excitation coil is to generate a strong magnetic field when current flows. The coil core serves as a carrier for the coil and strengthens its magnetic field. This is the only way to overcome the force of the return spring. The magnetic effect becomes large enough to move the armature. As soon as the armature is attracted, the switch contacts touch and the contactor is active (ON). The return spring returns the armature to its original position when the coil's magnetic field disappears. The contacts loosen and the device goes back to sleep mode. This means that the device only stops by itself in the OFF position. The control circuit of the coil and the load circuit of the switch contacts are isolated from each other. The armature creates the connection between the circuits and enables the consumers to be switched on the load circuit. A contactor is therefore an electromechanical switch designed for high power, which is similar to a relay in terms of its function.Can several contactors be combined?You can combine multiple contactors to meet specific installation and automation needs. You have even more diverse control options if you use contactor relays to control the installation contactor or to display an operating status. Contactors of various combinations with a maximum of four contacts are often used (e.g. two NO contacts / two NC contacts or three NO contacts / one NC contact).Contacts in an installation contactorAn installation contactor is usually provided with different types of contacts. A distinction is made between main contacts and auxiliary contacts.Good to knowThe contacts of a contactor are divided into working contact (closer), break contact (opener) and changeover contact (changeover contact). The changeover contact is a combination of opener and closer. Opener and closer can also be combined in one installation contactor.The main contacts described in the function are used for the power to be switched. This makes it possible to connect large consumers. The auxiliary contacts are designed as signaling lines for contactor control and signal display.What is an auxiliary contactor?You have a wide range of control options when using contactor relays. Power contactors have a significantly higher switching capacity than contactor relays and switch load circuits of large consumers. Auxiliary contactors switch control voltages for small loads and are designed for small consumers and displays. You can use it to implement logical operations and control power contactors.Image: Schneider Electric A9C20844 installation contactorWhat is the difference between a contactor and a relay?Relays serve primarily as circuit breakers and control switches in devices and are important components in many control processes. There are different types of relays that perform different functions. The most common types include protection relays, monitoring relays, auxiliary relays and reclosing relays. Relays open and close circuits or contacts by responding to electrical quantities such as current or voltage. A contactor is an electromechanically controlled circuit switch. Here a circuit with a low power level is switching a circuit with a higher power level. A contactor is designed for operation with normally open contacts. If there is no power on the device, there is no switching connection. Relays can usually open and close. Another difference lies in the performance of the respective device. Contactors are used in control circuits with higher electrical voltages and higher currents. This results in further safety-relevant differences. Contactors work with tie rods and return springs, relays with hinged armatures or rotary armatures. Sparking caused by the separation of live contacts is reduced in the contactor with arc suppression. As a rule, relays switch much faster than contactors, are lighter, smaller and consume less energy. Due to the more complex structure, contactors are more expensive than relays.  Catalogue content:In this eibabo® catalogue Devices for distribution board- / surface mounting > Installation contactor for distribution board you will find items from the following product groups:Item overview:AC contactorBuilt-in contactorBuilt-in distributor deviceChangeover contactorContactor moduleControl contactorDC contactorHeater contactorHigh power contactorInstallation contactorInstallation contactorsInstallation relayLighting contactorLoad contactorMagnetic switchModular installation devicePower contactorSeries built-in contactorSmall contactorUniversal voltage contactorfrom the following manufacturers:Manufacturer overview catalogue Installation contactor mdrc:ABBDoepkeEatonEberleEltakoFinderHagerLegrand BticinoSchneider ElectricSiemens
Through terminal - Which feed-through terminals should you use for your control cabinet? Are terminal blocks the same as feed-through blocks? Find out here what the differences are between feed-through terminals and what they are used for. In the eibabo® technology store you can get feed-through terminal blocks from all well-known manufacturers such as ABB, Eaton, Eberle, Hager, Metz, Phoenix, Schneider Electric, Siemens, Spelsberg, TE Connectivity, WAGO, Weidmüller, Wieland and Wöhner at great prices and in large quantities. We deliver our range worldwide.Feed-through terminals fulfill several functions and are among the most important components within a control cabinet. It is mounted on the DIN rail. Feed-through terminals are connecting elements between the incoming cables and lines of an installation and the actual control cabinet installation.What is the difference between feed-through terminals and terminal blocks?Feed-through terminals are terminal blocks. 'Terminal block' is a generic term that also includes other types of terminals. These include, for example, fuse terminals and relay terminals. Other terms describe the way a terminal is constructed or its ability to connect the conductors. In these contexts, one often hears about one-tier terminals, three-tier terminals, spring-loaded terminals, push-in terminals or screw terminals. We would like to briefly discuss some of these types in the following sections.Why are feed-through terminals indispensable components in the control cabinet?Feed-through terminals offer the necessary flexibility in the control cabinet to connect rigid incoming cables and lines to the relevant fuses, actuators or other devices. A direct connection without feed-through terminals does not make sense. A clear installation would not be possible. First, the cables and lines are clearly laid out on the terminal blocks. They then lead them from there to the devices in the control cabinet. As a result, the entire installation remains flexible because there are connection points and nodes for checking and changing the system structure.Image: Phoenix PT 2.5-3L feed-through terminalEach connection that is made takes on a function previously defined in the circuit diagram. The installation of the system and the function of individual connections remains traceable. This makes later additions, repairs and maintenance easier. If you want to make changes, these can be done by reconnecting individual wires. The rigid supply lines remain unaffected.And there are other advantages: For example, you can only connect two wires to many modular installation devices. The feed-through terminal blocks offer further advantages here. An example: A fuse is intended to protect several lines. However, you can only connect the cores of one line. In order to also integrate the other lines, you can create clear bridge connections on the feed-through terminals. The electrician can also carry out insulation measurements and other control work directly on the terminal blocks. Troubleshooting is made much easier and faster.What different feed-through terminals are there?Each manufacturer builds the feed-through terminals slightly differently. However, the principle is the same. There are single-level terminals and multi-level terminals. While you can only connect one line in the single-level terminal, several incoming and outgoing lines can be installed in multi-level terminals. Use a three-tier terminal for a three-wire cable. The is designed for connecting the protective conductor, the L conductor and the N conductor. This arrangement saves an enormous amount of space in the control cabinet. Three-tier terminals are mainly found in the control cabinets of private households and in smart home installations. TIP:On some models, the protective conductor has no connection point for the outgoing line. The protective earth contact is made directly by the clamp connection with the DIN rail. Another feature that distinguishes feed-through terminals is the way the wires are fastened. The screw terminal fixes the respective wire with a screw connection. This method takes a comparatively long time, especially when the plant is complex. A spring-loaded terminal makes electrical contact with a mechanical spring. This consists of a bent, flat copper contact. The wire must be inserted through a hole in the copper contact. This is only possible if the contact is clamped with a pointed tool. When the clamping tool is removed, the spring pulls back and the wire is jammed. The connection is released in the same way. The push-in connection is another fastening variant, similar to the spring-loaded terminal. Here, too, a spring presses against the wire. In contrast to the spring-cage connection, installation is tool-free and therefore even faster. The wire is inserted into the spring shaft of the feed-through terminal and the spring locks automatically. If you want to loosen the connection, you need a pointed tool. A small screwdriver is usually sufficient, which bends the retaining spring to the side and loosens the wire. This method saves a lot of time with cores with solid conductors. Wires with flexible conductors can also be attached using wire end sleeves using this method.Solid and flexible veinsYou can connect cables with solid cores and flexible strands in feed-through terminals. Both variants and combinations are permitted. Flexible cores can easily fan out. The use of ferrules makes handling easier with spring connections.The attachment of the wire using cutting terminals is rather rare. Use this variant if your veins are particularly thin. Here, the contact is made through a small cut in the insulation.Depending on the function and area of application, cables and wires with different cross-sections are used in the electrical installation. This affects the feed-through terminals. Appropriate feed-through terminals are available for all common cable cross-sections. Whether a clamp can be used for a specific cross-section is indicated on the clamp. It is usually possible to bridge the L conductor and the N conductor using several feed-through terminals, sometimes on several levels. Suitable cable bridges are available here in the shop.markLabeling the lines helps with orientation, especially when a new employee or another electrical company takes over the system. Some terminals have labeling fields. We recommend using this option and labeling all devices and connections in a meaningful way.The design of the neutral conductor contact is another distinguishing feature. In addition to models for classic wiring, there are feed-through terminals with which an N busbar can be used. The neutral contact on these terminals is designed accordingly so that the connection can be made with one hand. When using a busbar, you need an additional terminal for feeding. To securely fix the rail, use suitable support blocks or the fastening levers on the end clamps at the beginning and end of the row. Longer rails are additionally fixed every 20 cm. To be able to use cables with five cores, use multi-level terminals to connect the outer conductors.How to use feed-through terminals in the KNX area?In addition to the classic feed-through terminals, you can get special terminal blocks for low-voltage or KNX use. These have a different color and can therefore immediately be distinguished from other terminal blocks. This also contributes to order and clarity in the control cabinet. In terms of function, these terminal blocks hardly differ from conventional terminal blocks. You can connect cables with a cross-section of up to 1.5 mm2 to these terminals.Why are feed-through terminals not closed on one side?The available space in the control cabinet is specified in modular widths (HP). These provide information about the capacity of a control cabinet. Feed-through terminals are not manufactured according to this pitch, but as narrow as possible. The narrower a terminal, the more terminals can be installed on a specific area of the DIN rail. Good to know:Feed-through terminals are not closed on one side. The missing cover saves a little space. In relation to the length of a top-hat rail, more terminals can be mounted. Since feed-through terminals are mounted directly next to each other on the DIN rail, there is no danger of touching the contacts on the open sides. Without a side cover, a terminal is narrower. A cover is only attached to the last terminal in a row.Which installation aids and which accessories are available for feed-through terminal blocks?For the construction of a control cabinet, you receive numerous well thought-out components that simplify your work. For feed-through terminals, for example, the cross-bridges and busbars already mentioned are available. In addition, you will receive separator plates and end plates, covers, feeds or end blocks as well as test plugs, fuses, labeling fields and other components.  Catalogue content:In this eibabo® catalogue Terminal blocks > Feed-through terminal block you will find items from the following product groups:Item overview:Base clampBolt clampChangeover relayCompartment clampConnecting combsConnection moduleConnection technologyDistribution blockFeed terminalFour-level clampLightning arrowMarshalling boxMini clampMotor connection terminalMotor output terminalMulti-level clampMulti-wire terminalNeutral terminalPotential clampRelay terminalSocketSpring clampsSpring clipSwitching relayTerminal block connectorThermal voltage terminal blockThrough terminalUniversal clampfrom the following manufacturers:Manufacturer overview catalogue Through terminal:ABBEatonEberleHagerMetzPhoenixSchneider ElectricSiemensSpelsbergTE ConnectivityWAGOWeidmüllerWielandWöhner
Single position switches - Do you want to use single-position switches to control movements? Then use single position switches or limit switches. But what types of single-position switches are there and where are they best used? Find out here. Their functional principle is the same as with conventional switches, except that the switching process is automated or determined by external influences. Such an installation will help you avoid manual shifting where it is particularly difficult and/or dangerous.Image: Schneider Electric XCKM115H29 position switchWhat are single position switches?You won't use single-position switches that often in your home. Their areas of application are more in the industrial sector. There they ensure that a hydraulic, pneumatic, electrical or mechanical signal is triggered when a moving object has reached a specific position within a sequence control. This means, for example, that the position switch is activated or deactivated when the end of a specific production section has been reached and the next step in the process is to be started. Single position switches are also called limit switches, position switches or limit switches.What types of single position switches are there?Since the requirements in the industrial sector often depend on the respective process, the individual position switches can also be very different. A suitable solution is available for almost every application. In the following we will go into more detail about the functional principles and properties of the individual variants.Mechanical single position switchesSingle position mechanical switches can be found in both production and household settings. These switches often take the form of a button, roller, float, or lever. The classic example of the use of a mechanical single-position switch is the elevator. Only when the elevator car has reached a certain position can the door be opened. But these devices are also used in living areas in the form of microswitches. These can be found on front doors, for example, so that the lighting is switched on automatically when they are opened.Single position switch with push button or wheel switchThese versions of the single position switches consist of a housing with electrical contacts that can either open or close. These are connected to a roller with a push button or a rod. The functional principle here is also a movement mechanism. For example, if the wheel collides with another object, it is pushed down by a rod. This opens or closes the contacts in the housing and triggers a follow-up action.AssemblyWhen installing such a single-position switch, particular attention must be paid to accuracy. Otherwise, the movement of an object may not actuate the roller or push button properly, or, conversely, apply too much pressure.This may then lead to faulty switching or damage to the mechanism.micro switchSingle position switches as micro switches are used in electronics as well as in household appliances and are very small. Thus, these devices have special properties. Due to the compact dimensions, the stroke of the working part is small. As a result, installation often requires fine tuning or the use of an intermediate link. This makes it possible to increase the stroke of the working part to the extent required to ensure reliable switching.Non-contact single position switchesThis type of single position switch is widely used in industrial production. The market offers numerous variants as well as different functional principles and designs. The most important are:reed switchThis type of limit switch reacts to a magnetic field. These devices consist of several pairs of ferromagnetic contacts. The contacts inside the reed switch close or open when a magnet approaches. Since no mechanical movements trigger the contact process, the service life of the switch increases significantly. A magnet must be present as a trigger during installation, as these devices do not react to other materials. The field of application of reed switches is very diverse. These often work as a microswitch variant, for example as an alarm switch on doors and gates. When the door is closed, the magnetic field acts on the reed switch and the circuit also remains closed. When the door is opened, the magnet moves away from the reed switch. The contact opens and the alarm is triggered.Inductive switchesInductive switches are suitable alternatives to mechanical types of position switches and work without direct contact. The devices work by means of an inductor, which reacts to metal. Compared to the reed switch, these switches do not require a magnet. Inductive models are used in security systems because they respond to both the weight of a metal and its movement. The advantage of inductive switches is their tolerance to environmental pollution. As a result, inductive switches are mainly used in technological processes of industrial production. The size can vary greatly depending on the place of use and function.Switches with optical sensorsSwitches with optical sensors are also non-contact single-position switches. Such devices are often used in areas where special accuracy is required. Optical position switches work according to several principles.Reflective sensors send and receive light, which is reflected by an object located in the sensor area. Receiver and transmitter are in the same housing. The captured light energy causes a specific action at the output of the switch. The distance from the object to the sensor depends on its dimensions, texture, color and so on. If the light beam is crossed by another object and thus changes the captured light energy, a control signal is emitted. The range of such a position switch depends on the environment and its transparency.With passage sensors, the receiver and light source are separate and face each other. An object entering the area of the light beam interrupts the light and thereby changes the light energy. Then a signal is triggered.Capacitive position switchesThe principle of operation of capacitive position switches is as follows: The active surface of the switch consists of two metal electrodes. These can be thought of as capacitor plates. If an AC voltage is applied to it, current flows. The strength of the current flow depends on the medium located between the plates, the distance between the plates and the plate size. TIPCapacitive switches detect conductive and non-conductive materials in liquid, powder, or solid states. When an object appears near the active surface, the strength of the current flow changes. The position switch reacts to this and triggers an action.Are there also wireless single-position switches?Wireless instead of cable ? the wireless position switch offers you additional flexibility when designing machines and systems. You can mount these switches on fixed and moving components without a great deal of assembly work, without having to lay cables or ensure that the cables are laid without any problems. Depending on the manufacturer, the devices offer different transmission protocols or the option of integration into different wireless networks. The differences lie in the range and transmission security, among other things. In addition, there are models with or without feedback (monodirectional or bidirectional).With the single position switches from the eibabo® online shop, you can automate your production processes and thereby improve your efficiency. Since these switches are intended for industrial use, they are very robust, protected from dust and water and are particularly reliable. Manufacturers of high-quality single-position switches are ABB, Eaton, Honeywell, Omron, Rockwell, Schneider Electric, Siemens, Stahl, Steute and others.  Catalogue content:In this eibabo® catalogue Sensors > End switch you will find items from the following product groups:Item overview:Auxiliary blockAuxiliary switchAuxiliary switch moduleBasic switchComplete deviceCross switchmetalMagnetic force lockingMagnetic switchMetal bodymetalMisalignment switchObject detectionPerimeter SwitchPrecision switchProcess protectionRod leverRoller lever buttonRoller position switchRoller tappetRow position switchSafety interlockSafety position switchSafety switchSecurity sensorSecurity technologySingle position switchSpring lockingStandard twist gripSwitching point settingfrom the following manufacturers:Manufacturer overview catalogue Single position switches:ABBBaumerBernsteinEatonElobauEuchnerHoneywellKiepeKisslingKlaschkaOmronPilzRockwellSchmersalSchneider ElectricSickSiemensSteute
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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No results were found for the filter!
RECOMMENDED
3D
Schneider Electric - A9C20844 - Installation contactor 40A A9C20844
¥334.10 excl. VAT

*

plus shipping
(¥1,284.69 RRP***)
Installation contactor 40A
Schneider Electric
| A9C20844
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Schneider Electric - A9C20864 - Installation contactor 4S 63A 220-240VAC A9C20864
¥444.68 excl. VAT

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plus shipping
(¥1,691.23 RRP***)
Installation contactor 4S 63A 220-240VAC
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| A9C20864
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Schneider Electric - A9Z21440 - Residual current circuit breaker, 4-pole, 40A 30mA type A A9Z21440
¥216.77 excl. VAT

*

plus shipping
(¥1,032.63 RRP***)
Residual current circuit breaker, 4-pole, 40A 30mA type A
Schneider Electric
| A9Z21440
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Schneider Electric - LSS100100 - HomeLYnk logic controller, logic module, controller for KNX Modbus and BACnet LSS100100
¥8,571.79 excl. VAT

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plus shipping
(¥11,033.67 RRP***)
HomeLYnk logic controller, logic module, controller for KNX Modbus and BACnet
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Schneider Electric - A9Z51440 - RCD 4P 40A 30mA - Residual current breaker 4-p A9Z51440
¥2,017.36 excl. VAT

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plus shipping
(¥6,764.93 RRP***)
RCD 4P 40A 30mA - Residual current breaker 4-p
Schneider Electric
| A9Z51440
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Schneider Electric - A9Z61440 - RCD 4P 40A 30mA - Residual current breaker 4-p A9Z61440
¥2,233.24 excl. VAT

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plus shipping
(¥8,431.77 RRP***)
RCD 4P 40A 30mA - Residual current breaker 4-p
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| A9Z61440
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Schneider Electric - MTN6705-0008 - Master switch/blind SpaceLogic KNX, 8-gang - KNX Sunblind actuator for bus system 4-ch MTN6705-0008
¥1,464.30 excl. VAT

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plus shipping
(¥1,805.07 RRP***)
Master switch/blind SpaceLogic KNX, 8-gang - KNX Sunblind actuator for bus system 4-ch
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Schneider Electric - MTN6710-0102 - Master Dimmer SpaceLogic KNX, 2gang - KNX Dimming actuator bus system 2...200W MTN6710-0102
¥1,635.86 excl. VAT

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plus shipping
(¥2,016.47 RRP***)
Master Dimmer SpaceLogic KNX, 2gang - KNX Dimming actuator bus system 2...200W
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3D
Schneider Electric - A9C20732 - Installation contactor 25A 2S 230-240VAC A9C20732
¥149.45 excl. VAT

*

plus shipping
(¥480.54 RRP***)
Installation contactor 25A 2S 230-240VAC
Schneider Electric
| A9C20732
RECOMMENDED
3D
Schneider Electric - A9C20834 - Installation contactor 25A 240V AC A9C20834
¥141.56 excl. VAT

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plus shipping
(¥589.49 RRP***)
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| A9C20834
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Schneider Electric - ATV12H075M2 - Frequency converter 1-phase 0.75kW 230V IP20 ATV12H075M2
¥1,347.05 excl. VAT

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plus shipping
(¥2,878.35 RRP***)
Frequency converter 1-phase 0.75kW 230V IP20
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Schneider Electric - A9L40600 - Surge arrester 3p+N 350V - Surge protection for power supply A9L40600
¥536.56 excl. VAT

*

plus shipping
(¥2,642.55 RRP***)
Surge arrester 3p+N 350V - Surge protection for power supply
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1 From 625