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Metz - Metz Connect is a medium-sized German family company from Blumberg. It was founded in 1976 under the name RIA electronic by Albert Metz. In the early years, the company's main business area was the development and production of its own connectors. To date, the Metz Connect Group has continued to develop and grow, and has production and sales locations in Hungary, France, Austria, the USA and China. In addition, the company cooperates with sales partners in well over 20 countries. It has outstanding development and manufacturing skills and is continuously expanding its product portfolio with modern and innovative solutions. The product range mainly covers the area of contact technology. These are cabling solutions for networks, classic connection technology and intelligent system components. The connecting elements in the electrical engineering and electronics sector in particular are in demand internationally and stand for high quality. Our sales figures also prove this. The eibabo® shops from eibmarkt® register worldwide interest in the products. Positive customer feedback confirms that the entire range ensures safe and reliable connections for a smooth flow of information. The Metz Connect Group is represented with numerous product groups in the eibabo® technology store. You get high-quality E-DAT modules and sockets, junction boxes, E-DAT plugs, RJ45 plugs, C6A modules, coupling modules, DIN rail modules, empty housings, interface modules, patch panels and numerous other components for efficient data transmission. With several decades of experience in worldwide mail order, the eibabo® technology store is your competent and reliable partner for smart home, lighting, switch programs and electrical material. We always have the Metz Connect items in stock and ship them immediately after we receive your order.

Found in shop categories: 9

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
Limit switch - Limit signal transmitters switch depending on certain states and thus take on important control and regulation functions. As a rule, they are used when limit values are to be monitored and, for example, circuits are to be opened or closed in accordance with the set parameters when these limit values are exceeded or not reached. An application: A constant temperature must prevail for the smooth running of a manufacturing process. If the temperature falls below or exceeds the tolerable range, the process would be disrupted because the lubricant might no longer flow correctly. A signal is therefore sent, which initiates automated measures to restore the target state, switches off machines or triggers an alarm, not least to protect people and systems from the resulting dangers. Rely on high-quality and reliable limit signal transmitters from well-known manufacturers such as Metz, Phoenix or Siemens, which are offered to you in the eibabo online shop at fair conditions.Catalogue content:In this eibabo® catalogue Sensors > Limit signal transmitter you will find items from the following product groups:Item overview:Analog encoderAnalog separatorBinary separatorCoupling moduleDisconnecting deviceInterface moduleInterface technologyIsolating converterIsolation switching amplifierLimit componentLimit signal transmitterLimit signallerLimit switchManipulated variable specificationManual control levelManual operationNAMUR switching amplifierSetpoint adjusterSignal analyzerStandard signal converterValve positionsfrom the following manufacturers:Manufacturer overview catalogue Limit switch:MetzPhoenixSiemensWeidmüller
Voltage monitoring device - For safe voltage monitoring, eibabo offers a wide range of voltage monitoring devices, voltage monitoring relays and voltage measuring relays, mains voltage monitoring devices, and power supply monitoring relays and grid disconnection relays. Devices to monitor the voltage are usually used for monitoring undervoltage. Many devices are suitable for undervoltage monitoring in three-phase systems (each phase against the neutral wire) with a fixed threshold value. Sometimes the voltage monitoring devices are equipped with a fixed hysteresis as well as an integrated test button. When you press the test button on the device, the output relay drops. The devices can also be used for monitoring a single phase: Connect all unused inputs with a connected phase, because the missing voltage would otherwise be displayed. The output relay of the voltage monitoring device switches on when the measured voltage of all connected phases exceeds the fixed value (including hysteresis). The output relay switches off again when the voltage of one of the connected phases falls below the fixed value. Please remember that no error message occurs in devices for sole undervoltage monitoring if there is reverse voltage from a consumer that is higher than the set threshold value. Mains decoupling relays monitor voltage and frequency in three-phase systems and can, in connection with inverters with integrated isolated network detection, be used for monitoring the NA-protection. Many voltage monitoring devices monitor the presence of the neutral conductor, the current under-voltage and over-voltage. The respective threshold usually has its own adjustable delay. If a voltage fault occurs, the corresponding relay (undervoltage output and overvoltage output) opens after the delay set by you. If the neutral conductor fails, the two relays normally open immediately without delay. We provide high-quality devices for voltage monitoring from all major manufacturers such as Schalk, Finder, Metz Connect, Ziehl, Dold & Söhne and Siemens, Bender, Hager or by Schneider Electric or Tele Haase.Catalogue content:In this eibabo® catalogue Relays > Voltage monitoring relay you will find items from the following product groups:Item overview:Alarm relayError memoryGrid monitoring relayMains protectionMeasuring relayMonitoring deviceMonitoring relayNetwork guardNeutral conductor monitoringOvervoltage relayPhase failure relayRelayRelay for measuring and reporting v. undervoltagesRotary field monitoringRotating field directionSurge monitorThree-phase monitoring relayUndervoltage monitoringUndervoltage monitoring deviceUndervoltage relayVoltage limit switchVoltage measuring relayVoltage monitorVoltage monitoringVoltage monitoring deviceVoltage monitoring relayVoltage relayWindow voltage relayfrom the following manufacturers:Manufacturer overview catalogue Voltage monitoring device:ABBABNBenderDoldEberleFinderHagerMetzPhoenixPilzSchalkSchneider ElectricSiemensTeleWielandZiehl
Multiple control unit - Would you like to be able to conveniently regulate and control sensors and actuators in your smart home from a central location? Very easily. With multiple operating devices from the eibabo® online shop, you are opting for the best quality and high-quality workmanship. Typically, an individual assignment of different functions is possible. The eibabo® shop stands for excellent value for money.What is a multiple operator panel?Multiple operating devices are items, mostly KNX push-button sensors, which are equipped with special functions. These are, for example, infrared interfaces or room temperature controllers to implement extensive detailed circuits. TIP:The installation on the wall takes place at approx. 1.60 m upper edge of the finished floor. This simplifies operation and integrated sensors (e.g. for the room temperature) deliver optimal measurement results. Multiple operating devices often have rocker switches to which you can assign different function inputs at the same time, for example switching the light and adjusting the room temperature. You will also find specific special devices in this eibabo® catalogue. These can be special KNX displays or KNX touch operating devices with special additional functions.Which functions can I map with a multiple operator panel?Depending on the manufacturer, multiple operating devices differ in terms of design, quality, user guidance and scope of the application (software). While simple devices only have the classic basic functions, complex models resemble real 'control centers' for the visualization and operation of various building automation systems. A little overview:When used as a KNX room operating device, the focus is on switching, pressing, dimming as well as controlling blinds and roller shutters. In addition, there is the temperature measurement and temperature control, optionally with different operating modes, switching times or protective circuits against frost and heat. In addition, the control of air conditioning and ventilation systems may be possible. Background lighting, status displays and displays for the date, time and temperature make operation easy. But such a multiple operating device can do even more. TIP:We recommend good advance planning so that you can later accommodate all the functions you need in your multiple control panel. As a security station, for example, you can open and close doors or use the intercom function. Cameras can also be switched if a screen is integrated or connected. You can also implement the operation of the alarm system or in-house communication (internal call, storey call). If required, you can also use such a device as a client for external SIP systems (VoIP communication). With the integration of Internet services, you are able to call up weather data and weather forecasts, web radio and streaming services.Are the multiple operator panels with touch displays better than the simple models with buttons?All models have their advantages and disadvantages. There is basically no better or worse. Much more important is whether a device is suitable for the intended use or not. The range of functions and the operation of the functions play a decisive role. If you would like to operate two to three basic functions, a device designed for this purpose with two to six buttons is sufficient. You assign the respective function to them via Engineering Tool Software (ETS) or proprietary software. If you want to keep the option open for additional functions, a device with a display would be recommended. Depending on the model, you often have the option of providing each button with additional functions. You can trigger this, for example, with a long press, double-click or triple-click. In this way, you can later assign additional keys or expand the range of functions of the device. A display provides an overview. As a communication center for an entire building, we recommend a solution with a touch display. This allows you to organize dozens of parameters clearly using a menu structure.The advantages and disadvantages of multiple operating devicesThe biggest advantage is the central regulation and control of a large number of actions. In addition, you can react comfortably and flexibly to changes and expansions. The architecture of the electrical installation must be well thought out beforehand, especially in the case of a new building or a building renovation. In this way you can later use all desired functions optimally. The disadvantage lies in the higher acquisition costs of such a system compared to individual, conventional devices. With units without a display, with many keys and multiple key assignments, it is easy to lose track.Do all multiple operating devices have an integrated bus connection?Multiple operating devices are designed as part of an automated building structure and usually have an integrated bus connection. This can be recognized by the red and black or red and gray Bus Terminal. Some devices are not equipped with a bus coupler and are plugged onto a separate flush-mounted bus coupler, for example.How are multiple operator panels attached?If you look at the back of the various multiple operator panels, you will notice that they can look different. Many models are designed for installation in one or more switch boxes, whereby the actual attachment can be individual. Please pay attention to a suitable system for you. Devices with a plastic ring and clamps (on the left in the picture) only offer a secure hold if the ring lies firmly and flush against the wall. Small bumps in the plaster or a switch box that protrudes a little too far are not compensated for. This can cause the device to wobble. Screw other devices directly into the switch box. This connection is more stable (middle picture). For some flush-mounted devices, you should use a deep switch box to have more space for connecting the cables (picture on the right).Image: Multiple operating devices mounting typesVariants without their own KNX connection are usually connected to a bus coupler permanently installed in the switch box. These are also securely fastened. If you are planning to install it in a place that is accessible to strangers, we recommend a model with dismantling protection.How do I change the button assignment on multiple operator panels?Normally, the assignment of the key functions can be freely parameterized in the case of multiple operator panels. This is typically done with ETS, the Engineering Tool Software. This is a tool that you need to commission the KNX devices. You can obtain the software from www.knx.org. The ETS is used to parameterize your system and is generally suitable for laypersons who are interested in the logic of the KNX. No programming knowledge is required to make changes to the key assignment. An understanding of simple logical connections is sufficient. We recommend having an experienced system integrator perform the initial setup and have them explain how the setup works. This way you will later be able to change small things yourself.Which multiple operator panel should I buy?That decision is up to you, but maybe we can help. There are numerous versions of KNX multiple operating devices. Manufacturers offer solutions that suit every taste or style of living. But don't let the looks alone guide you. We generally recommend studying the applications (parameters and functions) provided by the manufacturer for the commissioning software (ETS). This ensures that you are able to control the necessary actions via touch sensors or the display. Plan exactly which requirements you place on the multiple control device and decide on a suitable model at top conditions from our shop. TIP:Depending on the model, it is possible to set status LEDs depending on the ambient brightness. In a darkening room, the status LEDs automatically dim and do not disturb at night. In addition to the technical performance, the optics also play a role. Rely on shapes, colors and materials that have a positive effect in the long term. Think about whether you'll enjoy brightly colored displays or LEDs over the long term, or whether it should be more subtle. If possible, opt for dimmable displays or LEDs that can be switched off.High gloss or matteGlass or painted surfaces are beautiful to look at. Note that dirt and fingerprints are quickly visible. Shiny surfaces need to be cleaned more often than matt or rough surfaces.Timeless surface designs made of metal or glass are simple, elegant and look classy. But even with plastic housings, you don't have to make any compromises in terms of design. Many manufacturers offer buttons in acrylic or in a brushed or satined metal look.Which manufacturer of multiple operator panels is recommended?At the eibabo® technology store, we stock high-quality multiple control devices from numerous well-known manufacturers such as Berker, Busch Jaeger, Gira, Hager, Jung, MDT, Merten, Metz, Peha, Thermokon, Warema and Zumtobel. With over 25 years of experience, we can recommend the items from these manufacturers. Please take a look at the following product presentation. There, excellent multiple operator panels are presented according to their relevance.  Catalogue content:In this eibabo® catalogue Installation bus systems > Multi operating device for bus system you will find items from the following product groups:Item overview:Battery operationBrightnessBus couplerBus technologyButton interfaceCareControl panelControl unitExpansion moduleHumidityLight controlLine of lightMagnetic contactMoellerfunkMultistationOperating unitRadio controlRadio systemRemote controlRoom controllerRoom temperature controllerRoom temperature sensorTactile sensorTactile sensorsTemperature controllerTemperature inputTemperature transmitterTouch displayfrom the following manufacturers:Manufacturer overview catalogue Multiple control unit:BerkerBusch JaegerGiraJungMDTMertenZumtobel
Inductive proximity switch - Are you interested in an inductive proximity switch and would you like to learn more about how it works and areas of application? Would you like to buy an inductive proximity switch and are you looking for a reliable supplier with a large selection at top conditions? In addition to information, the eibabo® shop also offers you high-quality articles in the field of Smart Home, lighting, switch programs and electrical material. Of course, this also includes inductive proximity switches and many other types of position switches and limit switches.What are inductive proximity switches?Inductive proximity switches are used to detect metal objects in the working area of a sensor and to signal this by changing the switching status.StoryThe physicist Michael Faraday first described the principle of electromagnetic induction in 1831. He found that changing magnetic fields create electric current.Proximity sensors are used for automatic non-contact detection of metallic objects for various industrial purposes and work reliably even under difficult conditions and various external influences. When the sensor is supplied with electricity, a magnetic coil inside generates an alternating magnetic field. This magnetic field is the working range of the sensor. The principle of operation is based on the phenomenon of change in vibration amplitude caused by a ferromagnetic, magnetic or metal object of a certain size in the working area of the sensor. If you bring a metal object into this area, the eddy currents induced in the metal lead to a change in the original oscillation amplitude of the coil. The intensity of the change depends on the distance between the metal object and the sensor. This change is presented as an analog signal and is converted into a logic signal with a corresponding value. The switch itself is a semiconductor converter, which controls the circuit to be executed depending on the position of the object.How are inductive proximity switches constructed?The electrical part of the sensor is typically housed in a threaded metallic cylindrical housing or a rectangular plastic housing. The cylindrical metal housing is assembled using the thread. To do this, they are attached to bores in mounting plates using nuts or screwed directly into the sockets provided for this purpose. The sensors with a rectangular housing are fastened with screws at the place of use. In order to be able to withstand the conditions of the industrial environment, the technology is usually surrounded by a protective sealant. TIPThe electromagnetic field of the inductive proximity switch is very weak and harmless to human health. The switches are available for both flush and non-flush mounting. Flush sensors can be mounted without protruding beyond the mounting surface. However, these generally have a shorter sensing range or more restricted working range than non-flush sensors.What properties do inductive proximity switches offer?The properties of the inductive proximity switches can vary depending on the model, manufacturer, structure and equipment. In general, the devices offer the following functions and properties:reaction to metal onlyInsensitivity to other materialsTightness against water and dust / correspondingly high degree of protectionReliability and durability because the switch's working surface is not in contact with the objectCompact dimensions and low weightTrip indicator LED Image: Schneider Electric XSAV11801 speed monitorWhere are inductive proximity switches used?Inductive proximity switches are robust and withstand shock, moisture, vibration and dirt. Within an automation process, inductive proximity switches work as the primary control elements, taking into account the position of certain metallic, moving objects. Proximity switches are used particularly frequently on assembly lines in special machine construction and plant construction. These are used there, among other things, for counting and tracking metal objects. But the devices are also used in warehouse logistics and conveyor technology, in the packaging industry and in the automotive sector. Depending on the application, the signals from the proximity switch are evaluated by a counter, a motion controller, an alarm system or other devices. In addition to numerous other functions, the following are also:distance measurements madeMaterial thicknesses and material widths determinedChecked surface texturePosition checks carried outCounting tasks taken over The classic example are bottles with crown caps or beverage cans, which are transported past the sensor and counted on a conveyor belt.What errors can occur with inductive proximity switches?The reliability of the measurements of an inductive proximity sensor depends on its properties, the way it is used, the installation and the nature of the objects to be detected. The two main errors are:The item is not recognizedIf the object is not detected, please check the sensor properties and all distances. Pay attention to the switching distances and the switching function (opener or closer). Is the correct operating voltage present? Is the item made of metal? Is the item big enough? Is the object moving too quickly through the work area?The sensor switches too early or too lateIf the switching time is not correct, this is often due to critical environmental conditions or electromagnetic interference signals. Is the sensor installed correctly (flush or non-flush)? Were other installation conditions observed? Are other switches that are in the immediate vicinity interfering? Is the sensor dirty? Check if other metals affect the work area.The inductive proximity switches in the eibabo® range are all of high quality and are therefore also suitable for your planned application. Well-known brand manufacturers for inductive proximity switches are Baumer, Dietz, Festo, Kisling, Leuze, Metz, Pilz, Rockwell, Turck, Weidmüller and many others.  Catalogue content:In this eibabo® catalogue Sensors > Inductive proximity switch you will find items from the following product groups:Item overview:Analog sensorCable sensorCuboid sensorDC voltage sensorFour-wire sensorInductive sensorObject detectionPlug sensorProximity initiatorProximity switchRound sensorThread sensorThree-wire sensorUniversal voltage sensorUprox sensorfrom the following manufacturers:Manufacturer overview catalogue Inductive proximity switch:BaumerBernsteinDi-soricDietzEatonEGE-ElektronikElobauFestoGavazziHengstlerIfm ElectronicIpf ElectronicKisslingKlaschkaLandefeldLeuzeMetzOmronPepperl + FuchsPilzRockwellSchmersalSchneider ElectricSensopartSickTurckWeidmüller
Modular plug connectors - What are modular connectors? Where can I use these in my home, commercial or industrial installation? What are the benefits of modular connectors? Does the eibabo® shop offer inexpensive and individual connectors? We answer these questions in the following post. In the field of electrical installation, connectors are of particular importance. Using plug-in connections, it is possible to connect two identical or different cables or lines with one another in a form-fitting manner. Such connections can also be released again.Modular connectors are constructed in such a way that they have properties in common with other components. These are, for example, the same installation dimensions or the type of connections and attachments. These work individually, but can also be combined with others within an assembly unit to form a larger whole or exchanged for one another. If you are interested in a flexible and modular structure for your electrical installation, browse through this eibabo® catalogue. Select the modular connectors that are right for you.Why are there modular connectors?The modern, modular connectors go back to the development of the American telephone system. The phone companies dominated the phone network for the first few decades and didn't allow third-party devices. This applied to both commercial and private use. To connect buildings and individual telephones to the network, bulky plugs were used, which had been in use since the 1930s. These had to be installed and maintained by specialist companies at great expense.As the telephone system became more widespread, a way was sought to reduce the high service costs. These efforts resulted in a modular system of components for standard connections. These were smaller, cheaper and easier to install. As a result, a standard was established for the connection between the telephone company's equipment and the customer's equipment. These standard interfaces were known as Registered Jacks (RJ). The RJ interface specification includes:the physical construction of the plugthe wiring patternsthe signal specifications Registered jacks are identified by the letters RJ. Additional digits describe the type and its properties. Modular connectors and RJ connectors are common names for the same devices. The use of modular connectors has helped fuel the global development of voice and data communications.Picture: Ruthenbeck UM-Cat.6A iso A universal moduleHow are modular connectors constructed?Modular plugs consist of a plastic or metal housing. The housing encloses stamped metal contacts separated by insulating channels. The contacts in the plug match the contacts in the socket. Part of the housing can often be used to lock the plug-socket connection and serves as strain relief. A modular plug or socket is assembled into a cable using a crimping tool. Depending on the use, individual connectors can have an even number of two to ten contact points. For this reason, the widths of the two connecting bodies vary. Not all contacts have to be assigned a line. Telephone (RJ11) connectors typically use four to six ports. RJ45 Ethernet connections have eight ports. The specification details describe the wiring. For example, a 6P2C connector has six positions and two contacts. A four-position, four-contact connector is designated 4P4C. TIP:The specification given for the wiring does not define the purpose of the wires. Modular connectors are also referred to as male or female. The male connectors are plugs or headers, the female ones are sockets or sockets. Some modular connectors supply low voltage AC or DC power to small electronic devices.What are the advantages of modular connectors?The biggest advantage of modular connectors lies in their standard use in communication and data transmission. The connectors are also used in production, in field installation and in the maintenance and repair of machines and systems. The advantages in production are:low prices and constant availabilityAssembly of plugs and cables without solderingrobust versions available for industrial applicationsPossibility to use the sockets on boards by reflow soldering The same advantages apply to installation and repair. In addition, value is placed on the following properties:Simple cable assembly and replacement of old connections on sitequick assembly with simple toolsnumerous wiring options This avoids production downtime and increases the reliability of a system.Where are modular connectors used?The use of modular connectors allows you to individually configure contact connections. Reliability and ease of use have made modular connectors an easy solution for many applications. The most common applications are data networks, telecommunications and low-speed serial connections. Due to the efficient and compact designs, these are also used as alternatives for bulkier and more expensive connectors in various products. Modular connectors are used worldwide and are among the essential components in data transmission and communication. Modular plug connections are also used in the industrial sector. Standardized assembly units are available for machines and systems, into which a wide variety of plug connections can be integrated. This allows individually multifunctional plugs and sockets to be put together. Use compact plug connections in terminal boxes and control cabinets.What types of modular connectors are there?There are many different types of modular connectors. The world's best known and most widely used modular connectors are:RJ10 - (4 positions and 4 contacts) - connects a telephone handset to a receiverRJ11 - (6 positions and either 2 or 4 contacts) - is used to connect telephone lines and modems, with 4 contacts with power supply via the second pairRJ12 - (6 position and 6 contacts) - for telephone line and additional control lines, used in larger telephone systemsRJ13 - (6 position and 4 contacts, with a circuit behind the line) - for telephone line and additional control linesRJ14 - (6 positions and either 4 or 6 contacts) - is used to connect two telephone lines, with 6 contacts with power on the third pairRJ45 - (8 positions and either 8 or 10 contacts) - Connector for high-speed data transmission in computer networks What special properties do modular connectors have?Special requirements must be met when modular connectors are used in factories, in automated processes or in image processing systems. Many of the modular connectors therefore have additional features. This makes them usable for specific applications. For example:shieldingIf electromagnetic interference is to be expected or the lines are very long, shielded lines and plug connections are often used. These cancel out electromagnetic interference. keyingDue to an attached tab, insertion of a true RJ45 plug into a jack is only possible in one orientation. This is to avoid improper wiring. Standard 8P8C connectors do not have this security feature. AssemblyFor production use, panel mount, board mount, through-hole mount, and surface mount are often possible. The sockets can have a vertical or horizontal orientation. display functionsModern modular connectors may also contain LEDs of different colors to indicate connection status. magneticsMagnets must be taken into account with any Ethernet connection. These are part of the Ethernet specification for 10BASE-T and 100BASE-T networks. The integration of the magnetics in the RJ45 socket shields against electromagnetic interference. Data connections are becoming more reliable. Highest qualityModular connectors are used in systems where high reliability and performance are important. These are, for example, the military and aviation and space travel.In order to meet the highest requirements, high-performance shielding, special coding, protective sleeves and particularly robust parts are used in these so-called Hi-Rel (High Reliability) models.Which manufacturers produce high-quality modular connectors?Implement tailor-made solutions for your requirements or for the wishes of your customers with our modular connectors. Different and variable housing variants and modular contact inserts enable flexible connection options. Many of the modular connectors offered by eibabo® are suitable for use under extreme environmental conditions, in industry and commerce. At eibabo, we only stock high-quality products from top manufacturers such as Telegärtner, CommScope/AMP Netconn, 3M Telecommunications, Reichle&De-Massari, Striebel&John or Metz Connect.  Catalogue content:In this eibabo® catalogue Data and telecommunication > Modular connector you will find items from the following product groups:Item overview:Blank panelBlind coverBuilt-in fuseCommunication technologyCompact distributorConnector insertCounter interior workCoupling socketCrimp connectorCross connectorData connectorData technologyDummy moduleFemale connectorIndustrial data socketInternet technologyLine termination moduleModular plugMultimediaPlasticPlug-in terminalPower plugRecessed housing insertSmall distributorsSpare partTerminal stripUniversal moduleWire managerfrom the following manufacturers:Manufacturer overview catalogue Modular plug connectors:3MABBAssmannBachmannBerkerBrand-RexBusch JaegerCimcoCobiNetCommScope EMEACorningDätwylerE+P ElektrikEatonEFB-ElektronikElsoHagerHartingHirschmannHomewayKindermannKlaukeLappLeoni DatacomLeviton Manufact. EULumberg ConnectLützeMertenMetzMurrelektronikOBOPanduitPepperl + FuchsPhoenixReichle & De-MassariRittalRutenbeckSchlegelSchneider ElectricSetecSiemensStriebel & JohnTehalitTelegärtnerWAGOWeidmüllerWentronic
Switching relays - How does a relay work? What different relays are there? Where are relays typically used? Which relay is right for your project? Learn more about switching and controlling circuits here. Switching relays are used in many different applications, for example in automated factories, in vehicles and in household appliances. The switching relays offered by eibabo® are high quality, inexpensive, versatile, reliable and universally applicable. The best-known manufacturers in our range are Wago, Schneider Electric, Bircher, Finder, Grothe, Hima, Issendorf, Metz Connect, Phoenix Contact, Siemens, Tele Hase and Omron.What are switching relays?A switching relay is an electromechanical device used to control electrical circuits. It consists of one or more electrical contacts that are controlled by one or more magnetic coils. When the solenoid is activated, the contacts close and current flows. When the solenoid is de-energized, the contacts open and current does not flow.Image: WAGO 788-312 socket with relayWhat should be considered when buying a switching relay?In view of the enormously large selection and the numerous specifications, choosing the right switching relay is not easy. Before you decide on a specific model, you should plan your switching device exactly and define the exact task of the relay. This results in the type of switching relay required. Now select a suitable relay for your project based on the following considerations:Is the installation fixed or moveable? Switching relays for mobile equipment should be able to withstand vibration and shock.What kind of contacts should the relay have? How many? What is the switching current and the switching voltage?Which current magnitudes and voltage magnitudes occur? Consider the nominal voltage of the coil, the coil current, the dropout voltage and pick-up voltage of the coil and resistances.Which response times and release times should not be exceeded?What is the expected switching frequency?What requirements do I place on the service life of the mechanical components?In which environment and in which temperature range is the relay used? How does a switching relay work?Depending on the design, relays can have a simple or complex structure. However, the basic functional principle is the same. The heart of a relay is the coil with an iron core. When current flows through the coil, an electric magnetic field builds up. A ferromagnetic armature responds and is attracted. This movement connects two contact springs together. The so-called working contacts in the relay close (normally open).Good to knowSwitching relays have electrical ratings for the coil and internal switch contacts. The coil voltage is the voltage required for the coil to operate properly. The circuit voltage rating represents the maximum rating of the switch contacts and should not be exceeded.In some designs, so-called break contacts are opened when the magnetic field is created. These are called openers. There are combinations of openers and closers, so-called changeover contacts or changeover contacts. As soon as the coil no longer generates a magnetic field, the armature is returned to its initial position by spring force. The working contacts are no longer closed.In addition, there are numerous other relay types, some for special purposes. As a rule, these relays differ in the functional principle, in structure and size, in the switching capacity and in the contacts. A few examples briefly explained:For example, thermal relays use a bimetallic strip that bends when heated, opening or closing the contacts. Thermal relays are commonly used in circuit breakers.Photoelectric relays respond to light pulses and open or close the contacts accordingly. These are used, for example, in photo flash devices and surveillance systems.In static relays there are no moving contacts. The switching action is triggered by thermionic valves, transistors or amplifiers. This list could be continued, for example with time delay relays, solid state relays, coupling relays, distance relays, differential relays, undervoltage relays or overvoltage relays. There are separate categories for many of these special shapes here in the eibabo® shop. Please use our intelligent search.What are switching relays used for?Relays allow a low current circuit to control or switch one or more higher current circuits. Switching relays in a variety of designs are required in electrical distribution and electrical installation. The switching relays from our shop can be used for all interface applications in demanding control systems. This allows you to connect highly sensitive and almost powerless controls of a PLC, a control system or a process computer with the power level of a machine or another connected consumer.What are the advantages and disadvantages of switching relays compared to other switching mechanisms?Switching relays offer the following advantages:Switching relays are inexpensive.The components are robust and tolerate voltage peaks and current peaks.Switching relays provide potential-free isolation from the load circuit.The heat development is low. Cooling is not necessary.Switching relays switch both very low signals and high-frequency power.In many cases, the current switching status can be seen with the naked eye.Thinner gauge wire can be used to connect the control switch to the relay.Relays make it possible to direct current to a device via the shortest path. This reduces voltage losses.  TIP:Semiconductors, semiconductor circuits or transistors are used as an alternative to relays. These offer an extremely fast response time. However, switching relays also have disadvantages:The mechanical components are subject to a certain amount of wear.Switching relays react sensitively to shocks and mechanical loads.The switching actions are audible.The response times and fall times are very long compared to semiconductors.The insulating capacity often depends on the environmental conditions. Why are protective devices used on some switching relays?If a relay is switched off and the coil suddenly loses current, a large voltage spike can occur. For this reason, protective mechanisms such as resistors or diodes are switched across the coil of the relay. These reduce or prevent the risk of these voltage peaks flowing back into the control circuit and damaging sensitive components. Resistors last longer, diodes provide more efficient protection against voltage spikes. You can judge what kind of protection is required based on the sensitivity of your components in the connected circuit.Why doesn't my switching relay switch off anymore?When choosing the right relay, you should pay attention to the loads that occur. Current peaks when switching can cause the contacts to 'stick' or 'weld' together. If the relay is not designed for the loads that occur, the surfaces of the contact springs will change over time. This can result in the contacts no longer opening when the relay is de-energized. Conversely, loads that are too low can also lead to a similar effect, since the self-cleaning process no longer takes place.  Catalogue content:In this eibabo® catalogue Relays > Switching relay you will find items from the following product groups:Item overview:AC contactorBracket mountBuilt-in relayChangeover relayCloserComplete relayCoupling moduleDC voltage relayInrush voltageInstallation relayManual control levelMiniature relayMounting clipPlug-in relayPower relayRailway relayRelay couplerRelay interface moduleRelay socketRelay switchRelay terminalRemote switching relaySingle relaySwitch moduleToggle relayTransfer blocksUniversal relayWindow drivesfrom the following manufacturers:Manufacturer overview catalogue Switching relays:ABBAlbrightBircherComatDoldFinderGlen DimplexGrotheHimaIndexaLegrand SEKOLützeMetzMurrelektronikOmronPhoenixRockwellSchalkSchneider ElectricSHCSiemensTeleTTIWAGOWeidmüllerWieland
Time relays - What are time relays used for? Sometimes it may be that your structural conditions make it necessary to delay electrical switching processes. Perhaps you still have to walk through a dark garage after activating the light switch, or a motion detector should only be activated after you have left a room. In these and many other scenarios, the use of a time relay can be useful. This ensures that a certain function is only activated or deactivated after a certain period of time. You can set the length of this period of time on the relay.What is a time relay?Timing relays or delay relays are simple control relays that control defined events based on time sequences. The difference between a classic relay and a timer relay is when their output contacts open and close. In a control relay, this occurs when voltage is applied and removed from the coil. With the time relay, the contacts can open or close before or after a certain delay. The installation usually takes place in the control cabinet on the DIN rail. TIPThe set time intervals can be set between milliseconds and hours depending on the relay. Typically, the delay is initiated or triggered by one of two methods:applying or switching off a control voltagethe occurrence of an impulse / trigger signal What functions do time relays perform?It is often difficult for the layperson to understand technical descriptions. When describing the functions of timing relays, we encounter terms such as control voltage, response delay, release delay, pulse shaping or make contact. In order to give you an understanding of how the time relays work, we describe the switching options below using simple examples.To make our examples easier to understand: Always assume that you only switch a 'control voltage' on or off using a switch or button in order to set a switching process (scenario) in motion. However, the actual circuit goes via the relay. Pressing a switch or button when using a switching relay does not necessarily lead to an immediately visible action. You only tell the relay that the preset scenario should now run and that it has to carry out the corresponding switching at the desired time. The following ten scenarios are most commonly implemented with time relays:Scenario 1 - The fallback delayThe release delay is also called switch-off delay.Example: When the control voltage is switched on using the switch (ON), the relay closes the circuit and the light lights up. If you press the switch again (OFF), the light stays on and the set delay time starts to run on the timer relay. The relay keeps the current flowing. At the end of the time period, the relay breaks the circuit, turns off the light and goes into sleep mode. When the light is switched on again using the switch (ON), the process starts again.Scenario 2 - The response delayThe response delay is also called switch-on delay.Example: When the light is switched on using a switch (ON), the time set on the relay starts to run immediately. Only after the time has elapsed does this close the circuit and the light lights up. Now when you press the switch again (OFF), the relay will directly break the circuit, turn off the light and go into sleep mode. When the light is switched on again using the switch (ON), this process starts again. Depending on the model, after the response delay has been interrupted, the time that has already elapsed remains stored or is deleted.Scenario 3 - The impulse controlled response delayThe switch-on delay is not triggered by a permanently applied control voltage, but by a pulse (briefly applied control voltage). These are also referred to as trigger signals.Example: In contrast to scenario 2, a short impulse in the control voltage is sufficient to set the scenario in motion. You don't turn on a switch, but press a button, for example. A preset time starts to run at the relay and then it closes the circuit for a previously defined period of time. Then it goes back to sleep mode. You can usually set both time periods individually. A classic application is a door opener. To do this, briefly press a button. After the set time (this can only be milliseconds), the relay interrupts the circuit on the electromagnet of the door lock for e.g. 3 seconds. During this time, the door is open and visitors can enter. After these 3 seconds have elapsed, the relay automatically restores the power supply to the electromagnet and the door is locked again.Scenario 4 - response delay and release delayThe circuits from scenarios 1 and 2 are combined with each other.Example: When the light is switched on using a switch (ON), a set time immediately begins to run on the relay. Only after this period of time has elapsed does this close the circuit and the light begins to shine. If the switch is then actuated again (OFF) and the control voltage is thus interrupted, a set delay time begins to run. The relay keeps the current flowing. Only after the time has elapsed does the relay interrupt the circuit, switch off the light and go into idle mode. Depending on the model, after the response delay has been interrupted, the time that has already elapsed remains stored or is deleted. Depending on the relay, the response delay and release delay are either of the same length or can be set independently of one another.Scenario 5 - The relay as a clock (starting with a pulse)You know this from the turn signal in the car. It is a flasher relay.Example: You press the switch (ON) and the relay closes the circuit immediately. The light glows. After a defined period of time, the relay interrupts the circuit and the light goes out. After another defined period of time, the relay closes the circuit again and the light shines again. This interval continues as long as the control voltage is present. Press the switch (OFF), interrupt the control voltage. The interval switching ends at the relay and it goes into the idle state.Image: Finder 83.02.0.240.0000 time relayScenario 6 - The relay as a clock (starting with a pause)This scenario is similar to scenario 5, it just starts with a pause, not an impulse.Example: You press the switch (ON) and the preset pause time starts to run on the relay. Only then does the relay close the circuit. The light glows. After a defined period of time, the relay interrupts the circuit and the light goes out. The break time begins again. Then the relay closes the circuit again and so on. This interval continues as long as the control voltage is present. Press the switch (OFF), interrupt the control voltage. At the relay, the interval switching ends immediately and it goes into idle mode.Scenario 7 - The fleeting switch-on relayExample: When the control voltage is switched on using a switch (ON), the relay closes the circuit and the light lights up for a previously defined period of time (wiping time). The relay then automatically interrupts the circuit again. It goes into sleep mode even if control power is still present (switch still ON). This scenario can only be repeated if the switch has been actuated (OFF) after the wiping time has elapsed. If the switch is confirmed (OFF) during the wiping time, the control voltage is interrupted and the relay also interrupts the circuit immediately. The rest of the wipe time is deleted. The process can start over.Scenario 8 - The fleeting switch-off relayExample: When switching off the control voltage using a switch (OFF), the relay closes the circuit and the light lights up for a previously defined period of time (wiping time). The relay then automatically interrupts the circuit again and goes into the idle state. This scenario can only be repeated if the switch has been actuated (ON) after the wiping time has elapsed. If the switch is confirmed (ON) during the wiping time, control voltage is applied again and the relay interrupts the circuit immediately. The rest of the wipe time is deleted. The process can start over. A classic use case: you leave a building in the dark and switch off the main light. The orientation lights turn on and you have time to leave the building. After that, the orientation light also switches off automatically.Scenario 9 - The fleeting on and fleeting off relayThe circuits from scenarios 7 and 8 are combined with each other.Example: When the control voltage is switched on using a switch (ON), the relay closes the circuit and the light lights up for a previously defined period of time (wiping time). The relay then automatically interrupts the circuit again. It goes into sleep mode even though control power is still present (switch still ON). When the control voltage is switched off using the switch (OFF), the relay closes the circuit again and the light lights up again for the specified wiping time. When this expires, the relay breaks the circuit, turns off the light and goes into sleep mode.Scenario 10 - The time relay as a pulse shaperThe application of the control voltage (regardless of whether it is long or short) is converted into a switching process of the same length.Example: You press a switch (ON) to start the scenario. The relay closes the circuit for a previously defined period of time. The light glows. After the time has elapsed, the relay opens the circuit again and goes into the idle state. The light goes out. It is irrelevant whether you press the switch again while the light is on (OFF) or whether you do this much later, when the light has already gone out. The process only starts again when control voltage is applied again (switch ON).This is how you saveMany of the scenarios described can be implemented with multifunction time relays. So you are always flexible and only have to invest in one device.In addition, it is also possible to combine several time relays with one another in order to create corresponding dependencies. Please refer to the product descriptions to find out whether additional functions such as a two-stage response delay or switch-off pre-warning can be implemented with a relay.Here in the eibabo® technology store you will find many inexpensive products for the field of control technology and automation technology. If you are interested in the implementation of these or similar circuits, you can get all the relays, switches, buttons and cables you need from us. Buy high-quality time relays from well-known brands such as ABB, Doepke, Dold, Eaton, Eltako, Omron, Metz, Schalk, Siemens and Ziehl. Use one of our many payment methods and benefit from fast, worldwide shipping.  Catalogue content:In this eibabo® catalogue Relays > Timer relay you will find items from the following product groups:Item overview:Cover hoodDIN rail time switchFront installationImpetusItemized listMechanicallyMultifunction moduleON-delay relayPanel mountPlug-in relayPulse shapingRelay moduleRelay modulesResponse delayRetarderStaircaseStaircase lightingSwitch-off delayTerminal coverTime blockTimerTimer relayTimer switchUniversal relayUniversal voltageWipe-offWipe-onWiping relayfrom the following manufacturers:Manufacturer overview catalogue Time relays:ABBDoepkeDoldEatonEberleFinderGöringLegrand BticinoLimotMaicoMetzMurrelektronikOmronPhoenixPilzRockwellSchalkSchneider ElectricSiemensTeleThebenWAGOWeidmüllerWieland
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