Search results for Warema

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Warema - Warema is an abbreviation and stands for Wagner Renkhoff Marktheidenfeld. The company was founded in 1955 by Hans-Wilhelm Renkhoff, Karl-Friedrich Wagner and Hans-Wilhelm Bach in Marktheidenfeld and is now formally known as Warema Renkhoff SE. SE stands for the European legal form Societas Europaea. The company is a leading European manufacturer of technical products for sun protection and blackout. The offer includes the product groups awnings, roller shutters, outdoor blinds and external blinds, internal sun protection systems, insect protection, light control systems, sun sails, roof windows and patio roofs. Because electronic controls are also designed and manufactured in addition to the sun protection articles, the company also offers individual and complete solutions for the home, trade and industry. In Marktheidenfeld, in Lower Franconia, there is not only production, but also a competence center to advise customers and specialist dealers and to show planning options. A second production site is in Limbach-Oberfrohna. In addition to numerous branches in many German cities, there are subsidiaries in Switzerland, Austria, France, Spain and China. Warema items are sold through specialist retailers, including here in the eibabo® technology store. We focus mainly on installation and control modules such as switching actuators, weather stations and sensors for light and wind, parallel control devices, isolating relays, connecting cables, timers, installation housings, transmitters and motor control units. Warema components are highly recommended, especially if you want to equip a residential building, an office complex or an industrial hall in a modern way and control it intelligently in terms of light management. Make your building smart with products from the eibabo® shops from eibmarkt®.

Found in shop categories: 9

Blind control - There are many ways to control blinds. Finding the right solution for your facility can be difficult. In this guide, we'll explain what options are available and help you make a purchasing decision. It doesn't matter whether you need a button for your existing control or are planning a blind control with high-end devices: In our online shop we offer you the complete range of products and solutions for your individual project ideas. In the eibabo® shop you will find high-quality products from leading manufacturers such as Peha, Jung, SOMFY, Schalk, Gira, Busch-Jaeger, Berker, Elso, Merten, Siemens, Warema Sonnen, Doepke and Rademacher. TIP:Plan the controls for your blind carefully. The choice of controller type is important and affects the day-to-day operation of your facility. In addition, numerous control options can influence other parameters of your building and its automation. These include, for example:the management of heating, ventilation and coolingthe energy consumptionthe fire protectionthe security systemand some more An intelligently planned and installed blind control contributes to comfort, security and energy efficiency. Connected sensors assume important comfort and safety functions. Some examples:Blinds, roller shutters and awnings can be controlled depending on the light using brightness sensors or twilight sensors.Precipitation sensors and wind sensors can automatically retract or raise awnings or shutters when the weather changes.Sensors for open doors support you in the implementation of lock-out protection. Once you know what you value, you can determine the optimal type of control. Manual control by hand is the simplest variant. This is the cheapest, not very convenient and offers no possibility for automation. With a wired blind control, you have convenient control options using buttons or switches (also with sensor evaluation). If you instead rely on an electronic blind control, you will benefit from time-dependent control options. You can also automate the daily operation of your blinds and shutters or simulate a presence. You can conveniently control your blinds with a blind control via radio. Complex installations can be avoided with wireless solutions. In addition, a radio blind control is an enormous gain in comfort: You can remotely control blinds, roller shutters or awnings with radio control buttons and radio hand-held transmitters.Wired control via switches and buttonsThe classic method of controlling blinds is to connect the motor cable directly to a switch. This gives you the option of moving the system up or down and influencing the opening. There are no other options. With this setup you control a single motor with a switch or button. This contact closure control can also be used for basic hardwired switching. This enables, for example, control via an alarm system, a fire protection installation or a building management system. To control multiple motors, you need to expand the installation.Image: Jung AT 04 WW awning controlThe use of relaysUsing a motor relay (disconnect relay) you can control multiple blinds from one switch. Group controls and individual controls are possible. The number of inputs on a standard relay determines the amount of individual or grouped motors that you can connect to the relay. Other functions are also possible with relays. Some relays have additional inputs. A classic safety function is the fire alarm. A signal on the relay's fire alarm input overrides all other controls. This allows blinds to be opened or closed automatically as soon as a fire alarm is triggered. Some relays are equipped with potential-free contacts for connection to a home automation or building management system.radio controlAlternatively, you can connect a radio remote controlled motor to a power source. Radio-controlled motors can be controlled using wireless wall switches or a remote control. If you want to operate each blind individually, you can use a separate controller for each motor.Electronic blind controlWith motor control via digital building management, you are absolutely flexible. Each motor has its own address within the network, regardless of the type of wiring. This makes your system fit for any adjustment or change in the future. For example, imagine dividing your parents' house into two residential units for the children. This may require some windows to be regrouped. You can easily change the switch positions for these particular blinds in software without having to physically rewire the building. You can use blind control to improve the energy efficiency of the house. In conjunction with sensors on the window, you can, for example, have the blinds opened or closed automatically. This means that daylight can be used optimally and electricity can be saved. The heat conditions caused by solar radiation also fluctuate throughout the day. Use automation to ensure a constant temperature. Use the sensors of a weather station with an astro function to automatically control the position of the sun on the blinds according to your geographical orientation or to ensure the slats are protected against ice.Use digital assistanceThere are numerous building automation devices that are compatible with your blinds and other devices in your home. These can be connected to digital assistants such as Amazon's Alexa, Google Assistant. This makes it possible to control the blinds using voice commands.Another option is to link the blind control with other automatisms in the building. For example, blinds can be closed depending on the activated alarm system or opened in the event of a fire alarm. The possibilities are manifold. All this increases comfort and improves the quality of life.Which blind control components do you recommend?In the eibabo® technology store you get everything you need to implement your individual blind control. We offer a large selection of blind controls and accessories for the current switch ranges from the most important manufacturers. Our product range includes, among other things, covers for switches and control devices, OPEN/CLOSE controls, roller shutter controls, blind controls and blind timers, control elements, radio controls and radio program timers, blind inserts (flush mounting), buttons and rockers, motor group relays and motor control inserts as well as motor controllers, program timers and timers.Use our intelligent search to put together your personal set. The products in this catalog are sorted by relevance. Popularity, quality and value for money are included in the sorting. This should make your selection a little easier. Use one of our many secure payment methods and benefit from cheap and fast worldwide shipping. Catalogue content:In this eibabo® catalogue Domestic switching devices > Venetian blind control unit you will find items from the following product groups:Item overview:Automatic switchBelt case watchBuilding automationCentral controlDIN railDirect currentEngine control operationEngine control unitEngine control unitsEngine controlsGroup controlHome controlModular installation deviceOne button controlRademacherRadio timerRolloHomeControlSecurityShutter actuatorShutter controlShutter relayShutter switchShutter timerSun sensorTubular motor controlTwo button controlVenetian blind controlWind sensorfrom the following manufacturers:Manufacturer overview catalogue Blind control:BerkerBusch JaegerElsoEltakoGiraJungKaiser NienhausLegrand BticinoMertenPehaRademacherSchalkSiemensSomfySommerWarema

Radio receiver - Do you have an existing electrical installation and would like to automate it inexpensively? Do you want to retrofit or expand your smart home without having to open walls? Then high-quality radio receivers belong in your shopping cart. Find out here what options are available to you with the use of radio receivers.What are radio receivers?Radio receiver is the generic term for a variety of different devices that are capable of receiving signals. Within a communication system, a radio transmitter emits a modulated signal. The signal is transmitted via a carrier medium (e.g. air) and reaches the receiver. This very weak signal is picked up by the radio receiver's antenna and amplified inside the receiver. In addition, the received signal is isolated from noise or interference signals. Finally, the modulated signal has to be demodulated in the receiver in order to get back the original signal. This is reinforced again. We all know radio receivers from our daily life. A typical representative is the classic radio. Here speech or music is transmitted via long wave bands, medium wave bands and short wave bands. Their frequency is between 30 kHz and 300 kHz for long waves and 30 MHz to 300 MHz for short waves. Another recipient of our everyday use is the telephone. This so-called communications receiver is used to receive shortwave telephone signals.Already knew?The higher the frequency, the shorter the wavelength and the faster the speed of transmission.A final example is the receivers of television signals. These signals are typically transmitted over VHF (very high frequency) and UHF (ultra high frequency) bands with a frequency between 30 MHz and 3 GHz.But how important are radio receivers for you, your building automation or the electrical installation?Radio receivers are used wherever there is no power line or bus line. In addition, radio receivers are suitable for anyone who wants an installation that is as flexible as possible. Our radio receivers are also suitable for retrofitting existing analogue installations and device controls. In this way, radio receivers offer an interesting and cost-effective solution for home automation and to increase living comfort.For this reason we offer a wide range of radio receiversfor flush mounting (radio receivers, switching actuators and radio actuators)for operation (radio buttons, antenna modules, universal displays)for control (radio adapter, radio sockets and adapter plugs) from all well-known manufacturers. These include top brands such as ABB, Bachmann, Busch Jaeger, Eltako, Grothe, Jung, Peha, Warema, Stiebel Eltron and numerous others.What is a radio actuator?Within building automation, a radio actuator performs the same tasks as a wired actuator. The difference is that the radio actuator does not require a bus line to carry out the tasks assigned to it. The device receives the working signals via a wireless radio link. In principle, it would also be possible to wirelessly implement the power supply in the near field by means of inductive energy transmission. However, wireless actuators usually have a direct power supply. The transmission frequency and reception frequency is usually 868 MHz.What advantages do wireless actuators offer?In order to recognize the differences compared to wired actuators, let's first look at their control. There are actuators that are controlled by switching the power supply on and off. Other actuators are controlled by switching the contacts. With these contact switching actuators, there is a permanent voltage, which the device draws from a machine, for example. The switching tasks are transmitted via an additional bus line. The disadvantage of both variants lies in the sometimes long cable routes and complex cable connections. These are expensive and may affect the mobility of automated machines. The radius of action is limited by the length of the line connections. In addition, with mobile installations there is always a risk of damage to the connections. A radio actuator solves many of these problems. By using wireless actuators, control cabling can be saved and the flexibility of the installation can be increased. TIP:With repeaters you can easily increase the radio range of your radio transmitters and thus expand the area of application of the receivers. When using an inductive power supply, such a device does not require the use of fixed connections. Other advantages are:Possibility to expand the functionality of already existing systems or home automationPreservation of the aesthetics by saving on cables and cable management systemsIncreased security in access systems or similar because no lines can be manipulated What types of radio actuators are there?In the eibabo® technology store you can get wireless actuators for a wide variety of tasks. These include, among others:Blind actuators and roller shutter actuators (for sun-guided or timed control of your shading systems)Dimming actuators (for the realization of different light scenes and for the optimal setting of the lighting according to time and other parameters)Relay actuators (for switching circuits and the associated control of end devices)Temperature controller (to regulate and display the room temperature)Presence detectors and motion sensors (to trigger certain processes when detecting human presence)Light sensors and brightness sensors (for automatically switching the lighting)as well as staircase lighting actuators, impulse switches, universal actuators, time relays and others Image: Eltako FUD61NPN-230V wireless actuator universal dimmer switchWhat do I have to consider when buying radio receivers and radio actuators?Of course, a radio receiver isn't of much use to you if it doesn't receive any signals. You need appropriate radio transmitters or sensors that provide the recipients with the required data. These can be, for example, window contacts or door contacts, universal transmitters, remote controls, hand-held transmitters, weather stations, temperature controllers, motion detectors, thermostats, buttons or the like. In order for the communication between sensors and actuators to work, all components must be parameterized. As a result, each device knows which commands to send or receive and how to respond to them. The standardized 'Engineering Tool Software (ETS)' is available for this. This is a tool that you need for commissioning and linking KNX devices. You can obtain the software from www.knx.org. In principle, the ETS is also suitable for laypersons who are interested in the logic of the KNX, as programming knowledge is not required.In addition, we generally recommend studying the applications (parameters and functions) provided by the manufacturer for the ETS before purchasing. This ensures that a specific device can also take on the tasks you want and carry them out correctly. This also includes the frequency with which the transmitter and receiver work. Catalogue content:In this eibabo® catalogue Domestic switching devices > Radio receiver you will find items from the following product groups:Item overview:Awning actuatorBuilding automationCable replacementDimmer insertsElectric heatingEngine actuatorEngine control unitEntrance gateFlush receiverGate controlGlass radiatorHome automation remote controlHome controlInfrared panelRadio conversion setRadio remote controlRadio switchShutter radio receiverSocket actuatorStaircase timer switchSun protectionTactile sensorUniversal receiverVideo intercomWind sensorWipe-onWireless sensorWireless socketfrom the following manufacturers:Manufacturer overview catalogue Radio receiver:ABBAVM ComputersystemeBerner TorantriebeBusch JaegerEberleElsoEltakoEthermaEVNGrotheHamaHuber + Söhne WHDJumoJungMertenRademacherSchalkSomfySommerStiebel EltronVitramoWarema

Sensor blinds-time switches - As part of your building automation, should your blinds react independently to wind speeds or brightness? Then you need wind sensors, brightness sensors or multi-sensors, which determine the required measured values. We would like to explain the functional principle of the most common devices to you below.Sensors for controlling blinds are measured value transmitters for the wind-dependent, light-dependent and time-dependent control of sun protection products. The use of these devices makes the operation of your sun protection systems and shading systems particularly easy and convenient. The sensors react automatically to wind, the position of the sun, rain or other environmental influences and forward the measured values in the form of electrical signals. As specialists for smart home installations, we offer you only high-quality components for your systems in the eibabo® technology store and help you to select the right products.What is a wind sensor?A wind sensor is also known as an anemometer. It is a device for measuring the speed of movement of gases, as well as air in closed systems. In meteorology, the device is used to measure wind speed. Depending on the functional principle, a distinction is made between the following types of anemometers:mechanical wind sensorsthermal wind sensorsacoustic wind sensors TIPInstall a wind sensor as high as possible and free-standing, preferably on a mast at a height of about 10 meters. Dormer windows, house walls or trees influence the measured values and falsify the actual conditions. The mechanical wind sensorIn a mechanical wind sensor, the movement of gas or air causes a windmill or impeller to rotate. This sensitive element is movably mounted on an axis of the device connected to the measuring device. The wind causes the wind wheel to rotate around its own axis and the measuring mechanism records the number of revolutions per unit of time. From this, the speed of the wind is calculated. The wind sensor forwards the information to the connected display devices or command devices. This type of wind sensor has been around for a long time and is still widely used today. The disadvantage of these devices lies in the moving parts. These are subject to a certain amount of wear and tear and can be damaged by objects flying around. As a result, failures or faulty measurement data can occur suddenly or slowly and unnoticed.The thermal wind sensorThe functional principle of thermal anemometers is based on measuring the temperature decrease of a heated body (usually a glowing wire) through gas movement. This means that there are highly sensitive sensors in a probe that measure the temperature and air speed. The sensors work on the principle of convection and measure the removal of heat from a heated surface by a moving medium. Applications are in construction, manufacturing, meteorological stations, underground utilities, and in rooms with industrial air conditioning and ventilation systems.The acoustic wind sensorUltrasonic anemometers are based on the change in the speed of sound in gases or air depending on the speed and direction of the wind. The speed of sound against the wind direction is lower than in still air. With the wind, the speed is higher. An acoustic wind sensor evaluates these speed differences and forwards the values to downstream devices.Image: Warema 623021 sensorWhat other sensors can blinds be controlled with?brightness sensorsLight sensors work with photodetectors that record the amount of daylight at the current time. According to the preset programming, the device responds with the output of an electrical signal. As a rule, this is used to regulate the illuminance inside buildings. However, light sensors also work together with roller shutters, curtains or blinds. When the sun shines, the light sensor signals that the windows should be shaded.precipitation sensorsPrecipitation sensors are devices that record the amount of precipitation over a period of time. Rain, hail, snow and mixed precipitation are measured. Depending on the model, the devices are able to interact with actuators and actuators via a wired and/or wireless connection. This ensures an appropriate and immediate response to changing weather conditions. Rain gauges can be used even in difficult weather conditions, as they are designed to provide accurate readings even in strong winds and other unfavorable factors.multisensorsMultisensors are also offered as environmental sensors, multiple sensors or weather stations. These are wired or radio-capable sensors that record various weather data and thus enable the automatic control of building services. The sensors are equipped with various measurement functions, such as temperature, rain, wind speed, humidity, position of the sun, sun height and/or illuminance.Here you saveMultisensors provide a variety of different data and enable automation based on different measured values. The devices are usually less expensive than the sum of the corresponding individual sensors.A clock is also often integrated. Then automatisms can be regulated not only on the basis of the environmental conditions, but also according to the lapse of time. The measured data serve as the basis for triggering automatic processes and are transmitted to the registered recipients for this purpose. Among other things, blinds can be automatically moved to the sun protection position when the sun is shining brightly. Using additional actuators, lights can also be switched on and off automatically at certain brightness values or shading can be automatically retracted in the event of wind or rain.What should I look out for when buying sensors for my blind automation?If you know what data you want to collect, pay attention to the following criteria when purchasing your sensors:Easy installation and setupNumber and positioning of the sensorsquality and manufacturerConnectivity to your network We carry high-quality sensors from leading global manufacturers such as Berker, Busch Jaeger, Eltako, Gira, Jung, Merten, Rademacher, Schalk, Siemens, Somfy, Theben and Warema. If you have any questions, simply contact our support. We will be happy to support you in selecting the components you need. You can pay for all your purchases securely and are protected by our buyer protection. If you don't like something, our accommodating complaints handling will help you. Catalogue content:In this eibabo® catalogue Domestic switching devices > Sensor for venetian blind/time switches you will find items from the following product groups:Item overview:AnemometerBlind controlBlind control systemBrightnessBrightness controlBrightness sensorDoor contactEnvironmental sensorGlass break detectorHome automationHumidity sensorIndoor temperatureLight meterLimit switchMeasuring relayPrecipitation sensorRadio controlRain sensorSecuritySolar photo sensorSun protectionSun sensorTemperature sensorTransducerWind measurementWind meterWind sensorWindow sensorfrom the following manufacturers:Manufacturer overview catalogue Sensor blinds-time switches:BerkerBusch JaegerEltakoGiraJungMertenRademacherSchalkSiemensSomfyWarema

Radio transmitter - Would you like to automate an existing electrical installation at low cost without having to open walls and lay many lines or cables? Do you want to retrofit or expand your smart home? Then both radio transmitters and radio receivers belong on your shopping list. Find out more here about the possibilities that radio transmitters and radio receivers offer you. Radio technology has become an integral part of our everyday life. Think of radio signals, television and mobile phones, the Internet and many other things.WLAN or Wi-Fi?WLAN is a wireless radio network limited to a local area. Wi-Fi is more of a brand name of a consortium of companies (Wi-Fi Alliance). For example, devices labeled 'Wireless Fidelity' receive WiFi.In the field of radio transmitters, there are numerous device types and standards, such as Wi-Fi, Bluetooth, NFC and cellular.What are radio transmitters?A radio transmitter is an electronic device that generates radio waves. In the field of electrical engineering, the device mainly transmits control signals, switching signals, error messages and status messages. In telecommunications, radio transmitters are used to transmit or send data using an antenna. The transmitter converts the information into a high-frequency alternating current, which is radiated from an antenna as radio waves. Already knew?The Solt transmitter of the Hungarian 'Kossuth Rádió' is the most powerful radio transmitter in Europe. The program can be received in the USA and South Asia. Depending on the type of device, the radio waves are emitted in a specific band of the electromagnetic spectrum. The division into bands serves to fulfill a wide variety of communication tasks. This includes the transmission of voice, images or very general data. The transmitter uses the current of its power source to provide alternating current according to its bandwidth in the required wavelength. This is the frequency at which the alternating current changes direction per second. The electromagnetic waves or radio waves are radiated outwards as a weak signal via a carrier medium (e.g. the air) via the antenna. A corresponding receiver reverses this process and amplifies the incoming signal in order to be able to process the actual message or data. A transmitter can be a separate device or an electronic circuit in another device.Image: Eltako FSM61-UC wireless transmitter moduleHow is a radio transmitter structured?A radio transmitter requires an energy source that supplies the device with power and the energy for transmission. An electronic oscillator creates the radio waves and a modulator inserts the actual data into the radio wave. It does this through small variations in the properties of the carrier wave. A high-frequency amplifier increases the power of the signal. This increases the range. And finally, an antenna tuner matches the impedance of the transmitter to that of the antenna. This makes the energy transfer to the antenna efficient and prevents what is known as a 'standing wave' (reflection of the energy from the antenna back to the transmitter).How important are radio transmitters in building automation or the electrical installation?You use radio transmitters when there is no power line or bus line at a certain point in your installation. There you position a radio receiver, which receives the signals from the transmitter and takes over the desired tasks. These can be switching actions and control functions or the display of information. Radio transmitters are therefore an alternative when flexible installations are desired. Radio transmitters are also suitable if you want to retrofit existing analogue installations and device controls. Radio transmitters are a simple and inexpensive solution for home automation and are used to increase living comfort.You can get a large selection of radio transmitters in the eibabo® technology storefor flush mounting (radio transmitter modules, universal transmitter)for operation (radio buttons, KNX remote controls, hand-held transmitters)for control (wireless weather stations, multiple wall switches, room temperature controllers, wireless window contacts and other sensors) from all well-known manufacturers. These include top brands such as SOMFY, Rademacher, Warema Sonnen, Eltako, Schalk, Sommer and Jung. You will also receive devices and accessories from Hager, Eberle Controls, Berner Torantriebe and EVN Lichttechnik. We also offer elegant wall transmitters that are suitable for flexible installation on wallpaper, glass, mirrors, tiles or wood. Or you can select immediately functional wireless motion detectors, wireless switches or wireless sets from our range.What is the range of radio transmitters in electrical engineering?The range of radio transmitters can vary greatly. This depends both on the radio technology used and on the environmental conditions. Ranges between 20 meters and one kilometer are usually specified. The specifications in the product information about the maximum range are usually values under optimal conditions. These exist when there is a direct line of sight between the transmitter and receiver without obstacles and the area is not affected by interference signals from the same or a neighboring frequency band. Please keep in mind that these conditions rarely apply and the range will therefore be lower in practice. TIP:When installing radio transmitters, allow for a range reserve of 25%. The reserve is not only used to compensate for a lower range due to current obstacles. If further obstacles are added later (e.g. additional walls or growing trees), the devices can still be used.What is an I/O radio module?I/O radio modules are so-called transceivers, a combination of transmitter and receiver. These therefore have signal inputs and signal outputs. This makes it possible to control or monitor systems with just one radio link. In addition to digital interfaces, some models also offer analog inputs for transmitting sensor values and limit values.What do I have to consider when buying radio transmitters?If you want to use radio transmitters, you need additional receivers that pick up the signals, process them and react accordingly. This can be, for example, switching actuators, universal displays or radio-controlled sockets. To ensure that communication between transmitter and receiver works, all components are parameterized using the standardized 'Engineering Tool Software (ETS)'. In this way, each device knows under which conditions it should send or receive commands and how it has to react to changes. The ETS software is available from www.knx.org and is a tool that you need to commission and link KNX devices. Don't worry: programming skills are not required. The ETS is also suitable for laypersons who are interested in the logic of the KNX. Please make sure that your radio transmitter can take over the transmission tasks you want and carry them out correctly. We therefore recommend that you carefully check the parameters and functions for the ETS provided by the manufacturer before purchasing. Catalogue content:In this eibabo® catalogue Optical and acoustic signalling equipment > Radio transmitter you will find items from the following product groups:Item overview:Access controlAdjustment toolAwning radio sensorBlind controlBuilt-in transmitterButton inputCall forwardingControl unitExternal controlFour-channel hand-held transmitterInterval transmitterMicrohand transmitterRadio remote controlRadio transmitterRain sensorReed contactRemote controlSecuritySetting aidShutter buttonSingle-channel hand-held transmitterSun protectionTransceiversUniversal transmitterWind automaticWindow contactWireless technologyWireless wall buttonfrom the following manufacturers:Manufacturer overview catalogue Radio transmitter:Berner TorantriebeBusch JaegerEberleEltakoEthermaEVNGiraGlen DimplexGrotheHagerHamaJungNovarPhoenixRademacherSchabusSchalkSchneider ElectricSiemensSomfySommerWAGO

Blind actuator - How can I automate my shutters and blinds? Can the time of day, the weather and the position of the sun be taken into account? We provide recommendations and information on the purchase of KNX blind actuators and show you what options the technology offers you in everyday life.If you want to build a new house or renovate an existing building, many questions arise. The technical equipment in particular must be well thought out, because a later change is then only possible with a lot of effort. If you already include the advantages of intelligent building automation in your planning, then the opening, closing and shading of the windows will also play an important role.Useful application examples for controlling blinds or roller shutters:the up and down of roller shutters and blinds according to time specificationsturning the slats of blinds based on the brightness in the roomthe automatic opening of roller shutters or blinds when windows are openedthe simultaneous operation of several shading systemsthe flexible control or regulation of the roller shutters when you are absent via a smartphone appthe automatic drive to the safety position in the event of a storm alarm and back after the all-clearthe blocking of operation for certain peopleautomatic shading according to geographic location and position of the sun (astro control) The use of modern KNX blind actuators supports you in realizing all these projects. They ensure more security, greater comfort and increase the value of your property. What distinguishes a KNX blind actuator from a KNX switching actuator?All motorized equipment such as blinds or roller shutters can be automated using KNX blind actuators. Standard 230V blind actuators therefore have 2 channels per switching output. A channel to drive up and a channel to drive down. The channels are mutually locked to prevent damage to the drive. So only one phase can be switched through to the drive at a time, never both at the same time. TIP:Never use KNX switching actuators to control blinds and shutters without a downstream isolating relay. With classic KNX switching actuators, the channels are not mutually locked. It would therefore be possible to connect more than one phase to the drive. This can quickly lead to damage to the technology. There are models which, depending on the configuration, can be used both as a switching actuator and as a shutter actuator. Please read the specification of the respective actuator.What should be considered during installation?Motorized 3-point drives must not be connected in parallel. Group formations may only be carried out using isolating relays or group control devices if the manufacturer does not provide for any isolating function. For example, for 4 windows, each with a drive, you should use a KNX blind actuator with 4 channels. There is also the option of operating several drives via one channel using conventional isolating relays. The shutter actuator channel then controls the isolating relay and the drives are connected to the isolating relay. In the meantime, however, the prices for the KNX actuators have fallen massively, so that there is hardly any need to reduce costs by using isolating relays. TIP:When selecting your components, always prefer one blind actuator channel per blind motor. For example, if you would like to integrate 6, 8 or 12 blinds into your system, you will find the appropriate actuator here in the shop.Are blind actuators with 230V AC better than models with 24V DC?This question is not about better or worse. Rather, the type of voltage of the drives should always be considered. The drives of blinds or roller shutters are often designed as 230V AC (alternating voltage) or 24V DC (direct current). That's why you have to buy the matching blind actuator or roller shutter actuator. A 24V DC blind actuator or roller shutter actuator has a plus and a minus connection. A suitable KNX actuator generates the direction of travel (up/down) by changing the poles (pole reversal).Do shutter actuators require a separate power supply?The 24V DC mains supply is not provided by the actuator and must also be installed externally depending on the power requirement for simultaneity (central commands). In this case, very large power supply units can become necessary, which, in addition to high costs, also require a large amount of space. If you can, order 230V AC drives and matching 230V KNX blind actuators from the supplier. These also require their own power supply, but no additional power supply units.That is the reasonSo-called monostable relays are installed in the shutter actuators, which are open and not active when idle. However, the relays continuously require energy as long as they are closed (e.g. for the duration of a blind movement). The bus voltage alone cannot cover this requirement.In contrast, there are bistable relays in classic switching actuators. These only require some energy in the brief moment of switching from one position to another. This can be implemented via the bus and an additional power supply is usually not necessary.What do I need an SMI KNX blind actuator for?SMI stands for 'Standard Motor Interface' and is an intelligent, uniform and manufacturer-independent interface in building automation. This is used to connect various operating resources, such as window drives, roller shutter drives or blind drives to a higher-level building management system. There are SMI KNX blind actuators for drives with an SMI interface. These intelligent drives are therefore able to exchange data telegrams across manufacturers.Which actuators are recommended for controlling roller shutters and blinds?eibabo® carries KNX blind actuators, KNX roller shutter actuators and KNX SMI actuators from ABB, Berker, Busch-Jaeger, Gira, Hager, Issendorf, Jung, Lingg & Janke, MDT, Merten, Siemens, Somfy, Theben, Warema and many other manufacturers.Over 25 years of experienceAll actuators that you get here in the shop are of high quality and reliable. We regularly use these actuators in our projects all over the world.Benefit from our low prices and take advantage of safe, fast and worldwide shipping.1-byte communication object - what is that?In any case, make sure that your blind actuator or roller shutter actuator has a 1-byte communication object for the runtime and slat, in order to be able to enable automatic or targeted control if required.There are no slats in roller shutters, which is why roller shutter actuators do not have the slat communication object, only Up/Down/Stop. Roller shutter actuators often have a 1-bit object for a defined positioning movement that can be set via the ETS software.1 byte means that values between 0-255 can be approached, which correspond to 0-100% related to the travel time. The parameters often allow the running time to be set according to the driving time. The travel time of the blind or roller shutter is entered once in the actuator using the ETS software, namely for a complete opening or closing for each channel of the actuator. There are also actuators for evaluating limit switches, which the motorized drive provides.Image: KNX blind actuator ? Eibmarkt JA.6.230The extensive application of the KNX blind actuator / roller shutter actuator JA.6.230 from Eibmarkt® shown here enables a wide range of parameterization via the communication object, including scenes for runtime and slats, blocking functions, automatic functions, security functions and alarm functions, movement limitations, position feedback and much more.Can a layperson use the ETS software to program the KNX devices?Don't be put off by the term 'programming'. The ETS software is only used to assign and parameterize certain actions. Programming skills or learning a programming language are not required. If you have some imagination to understand logical connections, then you are quite capable of creating a project.our recommendationFor more complex projects, a certain amount of experience is of course helpful. Have the basic project created by a qualified system integrator. In this way, you will later be able to easily change important parameters yourself if circumstances require it.Roughly explained: Imagine the folder system on your Windows PC or iOS computer. Here you create your own structure, save files in it and create links to other folders. This is similar with the ETS software. The 'folders' can be floors or rooms and the 'files' in them are the sensors or actuators of the respective room or electrical distribution cabinet, which you then link to one another.What types of installation are there for KNX blind actuators?KNX blind actuators are available for every type of installation at eibabo®. For example, for installation in the electrical distribution, then these carry the suffix 'REG' for series installation devices or as a flush-mounted version 'UP' for installation in a mounting box or junction box or as a built-in version 'EB' for integration in ducts or similar. However, additional protection must also be taken into account for built-in versions depending on the installation. Catalogue content:In this eibabo® catalogue Installation bus systems > Shutting actuator for bus system you will find items from the following product groups:Item overview:Azimuth controlBinary inputBlind functionBuilding controlBuilding system technologyCable entryCombination actuatorControl moduleControl unitsDIN railDIN railsDrive controlEngine control unitEngine controllerHome controlInput moduleLight domeNormally open outputOutdoor areaOutput moduleRadio receiverSeries installationShutter controlShutter outputShutter switchSplash proofSun protectionVentilation flapfrom the following manufacturers:Manufacturer overview catalogue Blind actuator:ABBBerkerBusch JaegerEatonEIBMARKTElsoEltakoESYLUXFinderGiraHagerJungLingg & JankeMDTMertenPehaSchneider ElectricSiemensSomfyThebenWaremaWieland

Timer - A conventional time switch usually switches an electrical relay contact at set times. This is used to realize specific control and automation functions. However, in this eibabo catalog you will find special timers for various automation bus systems, such as radio bus or KNX bus system. KNX time switches, generally, do not dispose of direct switching contacts, but provide the status in digital form as telegrams on the respective bus system or by radio. Depending on the manufacturer, the KNX time switches have diversified but also different characteristics. Most KNX switches feature a day program, week program and year program. Some KNX timers offer a connection option for a DCF or GPS antenna. An automatic summer / winter changeover as well as astro programs. A definition of the geographical location of the building extends the range of options. Switching functions with output of dimming values, switching ON / OFF or UP / DOWN for blinds or shutters, heating control for comfort / standby or night mode, scene release as well as master / slave function are other possible options of KNX time switches. Updating the date and time at KNX displays or other KNX devices in the system by sending the information to the bus are further advantages. Some manufacturers also offer holiday databases, countdown timers and operating hour counters, as well as random programs for simple presence simulations in case of absence to deter potential burglars. A standby in case of power failure is also often standard. What is different is the way to get started. Some manufacturers offer the possibility of direct commissioning of times at the display, programming keys or a separate add-on software or programming solely via the ETS. One should also consider whether another KNX device, which already contains timer programs, is planned in the system, for example KNX weather stations with astro function and GPS / DCF, KNX visualizations (KNX server) KNX displays or complex KNX control and display panels. eibabo provides KNX time switches, KNX time transmitters, wireless timers, KNX year timers, KNX radio switches, KNX week timers, KNX radio blind switches, KNX synchronization timers, digital time switches as well as KNX UP timers of all leading manufacturers, such as ABB, Berker, Busch-Jaeger, Eltako, Hager, Issendorf, Jung,Legrand, MDT, Merten, Peha, Siemens, Theben or Warema.Catalogue content:In this eibabo® catalogue Installation bus systems > Time switch for bus system you will find items from the following product groups:Item overview:Application moduleAstro timerBus systemBus system timerColor displayDistribution timerEIBEnergy efficientLight controlLighting controlMounting rail timerNikobusProgram clockProject clockRadio timerTime switchTime switch for bus systemTimerTimer clockTimer moduleTimersWeek clockWeekly timerYear time switchYear timerfrom the following manufacturers:Manufacturer overview catalogue Timer:ABBBerkerBusch JaegerEltakoHagerMDTMertenSomfyTheben

Power supply - Find out here how to supply your KNX bus system with power. What power requirements do the individual KNX participants have? Which items do we recommend? This eibabo catalog contains power supplies and system devices for various automation systems, such as LCN, radio bus, KNX and many other systems.How do I determine the right KNX power supply for my installation?The most common power supplies in this catalog are for the KNX bus system. To determine the required power supply, you should first look at the structure of a KNX network. A distinction is made here between segments that are divided into a specific hierarchy. Imagine a tree whose trunk splits into branches. Twigs come off the branches. The branches represent the smallest 'unit' and are referred to as lines in the KNX network. Each line consists of the power supply, a KNX bus line and the participants. A main line would be the branch that connects multiple lines into an area. The area line represents the trunk that connects multiple areas. This structure makes sense for larger networks or if a division into several segments is recommended due to the structural conditions of a building.In addition to the power supply for the participants, the bus itself also requires a power supply of 24V nominal voltage. This is transmitted along with the data signals on the bus line. Depending on the manufacturer, the corresponding power supplies deliver 28V to 31V slightly more than the nominal voltage. This creates a buffer, for example for possible line losses. KNX bus participants still work stably up to 21V. The voltage difference is used to compensate for voltage drops in the bus line or at the contact resistances. A line can theoretically include up to 64 devices and provides a maximum current of 640mA at a voltage of 28V to 31V. This statement is based on the assumption that each KNX participant is allowed a maximum of 10mA from the bus voltage. The load capacity of the strongest power supply of 640mA continuous current must not be exceeded.Please plan in reserveWhen dimensioning your lines, allow at least 15% buffer for later extensions. A 640mA power supply therefore corresponds to around 54 devices.Smaller KNX power supplies are also available for fewer participants per line. If you know in advance that a line will never have more than a maximum of 32 subscribers (27 with buffer), you can choose a 320mA power supply. The same applies to a line with a maximum of 16 devices (14 with buffer). A 160mA power supply is sufficient here. In addition, there are larger 29V-30V power supplies with current limiters 640mA and KNX chokes separately. A KNX power supply always contains a KNX choke.The power requirement of a KNX participant is usually standardized. This should not normally exceed 200mW. 150mW for power supply of the microprocessor and 50mW for the bus terminal. There are many KNX devices that do not require this power reference. There are also KNX participants with higher requirements, for example KNX actuators, KNX room controllers or KNX displays. Please take this into account when sizing your lines. Pay attention to possible voltage drops, because the devices do not draw a certain current from the bus, but a certain power. If the maximum current is expected to be exceeded, you should integrate fewer than 64 participants in this line.How does the KNX power supply work?In the KNX power supply, the power supply always provides direct current (DC) at the output. The difference between the designation transformer and power supply is essentially that a classic transformer always outputs alternating current (AC) and also only works with alternating current at the input. Depending on the manufacturer, the power supplies generate a supply voltage of 28V to 31V. When the bus is idle, the supply voltage of the power pack is present. This state corresponds to a logical '1'. The logical '0' is generated by an alternating voltage. In order to send the '0', the sending KNX device reduces the voltage by around 5V for a short time. This results in an immediate compensating impulse, which comes from a choke integrated in the power pack. The KNX line is thus decoupled from the associated KNX power supply by the choke. This prevents short circuits in the data telegrams caused by the power pack. The voltage change is necessary so that the recipient can use the informationAre there KNX power supplies for more than 64 participants per line?In the eibabo® technology store you will find KNX power supplies up to 1280mA. However, it is not possible to set up a line with 128 participants. The power is distributed at two different outputs. There is thus the classic choked output with 640mA for the KNX bus as well as another unchoked output. Participants can be supplied with an auxiliary voltage via this output, for example a heatable rain sensor. Alternatively, you can use it to set up a second line. An additional choke is required for this.Image: Siemens 5WG11525-1AB22 KNX power supplyCan I monitor the utilization of a power supply?If you want to check whether a power supply is reaching its limits in use, we recommend a device with an integrated diagnostic function. This allows device temperature, output current, output voltage, bus traffic and other current measured values to be sent via KNX. This enables troubleshooting or general monitoring.What do I need a KNX emergency power supply for?Whether you need a KNX emergency power supply depends on how high you assess the risk of a power failure and its consequences for your system. The emergency power supply is used to buffer the bus voltage. An external battery is connected to the device. This provides a voltage of 12V DC and ensures the bus voltage for some time. The integrated charging electronics of the KNX emergency power supply recharges the battery or maintains the state of charge. You can record the operating states (mains voltage, error warning, battery operation) using a binary input, for example. As a rule, KNX emergency power supplies are mounted on the DIN rail. Both the KNX emergency power supplies and the required batteries are available here in the eibabo® shop at reasonable prices.What does PoE power supply mean?The abbreviation PoE stands for 'Power over Ethernet'. This allows you to transmit the electrical power required for the operation of the individual participants via the data lines of the network cable. You do not need a separate power cable. TIP:With a PoE power supply, the effort involved in cabling wired Ethernet networks is reduced. With this technology, the electrical voltage from the power supply is fed into the data cable. On the participant's side, this is diverted out again. To avoid interference, the participant should be PoE compatible. In this way, it can cleanly separate the incoming supply voltage from the data signal. If the end device is not PoE-compatible, the additional installation of a passive PoE splitter is necessary. The splitter takes the supply voltage from the data cable and feeds it via a separate line to the power input of the end device.Can I get classic 12V and 24V power supplies for conventional applications from eibabo®?Our classic power packs for the top-hat rail can be regulated depending on the model and are suitable for the power supply of external equipment. In addition, it is possible to use these for other equipment. Using a choke and a component for current limitation each, specific power supply units can also be used to supply one or more KNX lines. In addition to the installation technology, we offer you classic power supplies for universal use.What power supplies and manufacturers would you recommend?Basically, we recommend that you choose a device that suits your needs. Voltage supplies / power packs are standardized and are subject to legal requirements and regulations. If the technical parameters are completely identical, a price comparison between different manufacturers is of course worthwhile. In this catalog you will find KNX power supplies, KNX power supplies, KNX commissioning power supplies, KNX emergency power supplies, PoE power supplies, bus power supplies, IP power supplies PoE, battery modules for KNX power supplies, 12V power supplies and 24V power supplies for conventional applications. Rely on the excellent quality from the following leading manufacturers of smart home automation: ABB, Berker, Busch-Jaeger, EASYLUX, EIBMARKT, Gira, Hager, Issendorf, Jung, Lingg & Janke, MDT, Merten, Siemens, Somfy, Theben and Warema . Catalogue content:In this eibabo® catalogue Installation bus systems > Power supply for bus system you will find items from the following product groups:Item overview:Audio electronicsBuilding system technologyBuilt-in power supplyBus supplyBus technologyBus voltage supplyCareControl transformerDC power supplyDIN railsMoellerfunkMotion detectorPower suppliesPower supplyPower supply unitRadio systemSafety power supplySafety transformerSwitching power supplySystem deviceSystem power supplySystem voltagefrom the following manufacturers:Manufacturer overview catalogue Power supply:ABBBusch JaegerEatonEIBMARKTElsnerElsoESYLUXGiraHagerIssendorffJungLegrand SEKOLingg & JankeMDTMean WellMertenPehaSchneider ElectricSiemensSomfyThebenWielandZumtobel

Binary input - What interesting possibilities does the use of binary inputs in building automation offer you? Learn more about differences, use cases, and things to watch out for on this page.What do you need a KNX binary input for?KNX binary inputs are used to convert conventional alarm messages, fault messages, operating messages or status messages (generally analog signals) into digital signals and connect them to the KNX bus.Image: KNX binary input universal - Hager TXA306 for KNX building automationWhat should you know before buying a KNX binary input?Take a look at your project and ask yourself the following questions:Is it a new installation or do I have to consider the properties of existing devices (e.g. switches)?Which signals or voltages should be recorded?What is the distance between the signal transmitter and the receiver?Do I need additional cables and lines?Should the control only be wired or also possible via radio?Which logic functions do I want to implement?and much more The answers will help you to make the right choice for a suitable binary input. Among other things, this results in the number of channels that your new binary input should have, which manufacturer supplies an application (software) suitable for the project and whether the binary input must be suitable for potential-free devices or not.What is the difference between the individual binary inputs?The binary inputs are often provided in the variants 20V, 24V, 230V and potential-free. Which one you need in each individual case depends on which signals you want to activate. Notice:The addition potential-free, 20V, 24V or 230V does not refer to the binary input, but to the signal to be recorded. potential-free binary inputsPotential-free means that no external voltages (potentials) may be connected to the inputs at these binary inputs, since the contact voltage (usually 10-20V) is already provided by the binary input itself. The potential-free variant is typically used for buttons, switches, door contacts (magnetic or reed contacts), window contacts (magnetic contacts) or auxiliary contacts. Magnetic contacts may often only be assigned a maximum of 20V DC. However, the maximum cable length that can be connected is often limited to between 50-100m, see the description of the respective potential-free binary input and can also be negatively influenced by inductive or capacitive loads in the area around the routed cable. Devices with wires that have already been brought out should generally not be extended at all, eg button interfaces (a button interface is also a binary input). 20V and 24V binary inputsModels with 20V or 24V are used when devices cannot switch potential-free. These are, for example, presence detectors or differential pressure monitors for stoves that work with 24V technology. 230V binary inputsThe 230 V version is often used to connect existing 230 V AC signals to the bus in order to evaluate them. For example for conventional 230V outdoor motion detectors, buttons, switches or other messages from other systems. Fuses can also be monitored in order to immediately notice critical changes in large building complexes, for example. What specific applications can be implemented with KNX binary inputs?The possibilities are diverse and depend entirely on your project. A KNX binary input detects a status change at its input. Depending on the parameterization that you carry out using the software (ETS), a telegram is then sent to the KNX bus. This information can then be integrated into other desired functional logic, for example:Open windows = set heating to standby/frost protectionLevel reached = open valveTo evaluate a conventional 230V motion detectionFor activation of conventional buttonsTo capture status or operational messagesEvaluate error messages from connected devicesand much more Or you use the information for displays on displays, for touch functions or for visualizations for evaluation purposes.What is ETS?ETS is the abbreviation for Engineering Tool Software. This is used to assign and parameterize certain actions, relationships or functions within the building automation. So you determine what a binary input should do with an incoming signal. Programming skills or learning a programming language are not required. If you are interested in logical connections and can imagine the later function in the building based on an abstract scheme, the creation of a project should be a solvable task for you.We recommendIn the case of particularly complex projects, it can be advantageous to hire an experienced system integrator to create the basic project. This is typically much faster than doing it yourself and you will receive a tested, error-free basic version of your system. Later you can easily change, add or remove individual parameters yourself.You can think of the configuration as similar to the folder system on your Windows PC or iOS computer. You create your own structure and save files in it. In addition, you create shortcuts to other files and folders based on certain conditions. In the ETS, the 'folders' are floors or rooms, for example, and the 'files' in them correspond to sensors and actuators that you can relate to one another.Can consumption also be recorded and evaluated with KNX binary inputs?At eibabo® you will also find KNX binary inputs to record counter values. You can order almost all conventional water meters, electricity meters, gas meters, heat meters and many more including an S0 interface (pronounced: S-zero interface). This is used to transmit measured consumption values for further processing in the building automation. The interface sends an impulse via a contact, which corresponds to a certain value of the measured medium. The pulse value is always the responsibility of the meter manufacturer.An example: If you buy a water meter with an S0 interface, the pulse value is on the meter or in the product description, for example 10 liters = 1 pulse. That means the contact closes and opens again (rising/falling edge, 30 ms = t_ON = 120 ms 30 ms = t_OFF) as soon as 10 liters of water have been consumed. Simply put, the signal is similar to when you press a button. You can evaluate these contacts using a KNX binary input with the application provided by the manufacturer for counting value acquisition.As a rule, potential-free 20V or 24V binary inputs are used for this, as the contact voltage may be a maximum of 15V (S0 interface class B, short transmission paths) or a maximum of 27V (S0 interface class A, long transmission paths).Are long distances critical for signal transmission?Pay attention to the technically required maximum cable lengths between signal detection and binary input contact, especially with 20V, 24V and potential-free. These are often a maximum of 100 meters and should be routed in a protected manner without inductive or capacitive cross-influences. TIP:Please refer to the manufacturer information for this. The individual brands and the different variants have individual limit values. This applies in particular when critical states are to be monitored, such as counting for billing purposes (LIYCY lines, cables).How are KNX binary inputs mounted?KNX binary inputs are available with eibabo® for different types of installation, for example for installation in an electrical distribution board. These devices are referred to as modular installation devices (REG). There are also binary inputs for flush-mounting (UP) or surface-mounting (AP) and for integration in ducts or similar (EB).Which manufacturers of KNX binary inputs are recommended?In this eibabo® catalog you will find everything on the subject of KNX binary input, binary input device, binary input module, button interface, universal interface, input module, button coupler and evaluation unit. Well-known manufacturers are ABB, Berker, Busch-Jaeger, Doepke, Eaton, Elsner, Elso, Eltako, Gira, Hager, Issendorf, Jumo, Jung, Lingg & Janke, MDT, Merten, Peha, Siemens, Theben and Warema.Trust our experienceWe have been working with the products from these manufacturers for over 25 years and have been able to use them in hundreds of projects around the world.We have always paid attention to quality and reliability when realizing our projects. Because permanently error-free functionality is crucial, especially in complex building automation installations. Catalogue content:In this eibabo® catalogue Installation bus systems > Binary input for bus system you will find items from the following product groups:Item overview:Basic moduleBattery poweredBinary inputBinary inputsBus technologyButton inputCombination actuatorControl unitDIN railEngine control unitExpansion moduleFlush-mounted boxInput couplingInput moduleInterfaceLighting controlNormally open outputPanel adapterRadio systemShading controlShutter controlSocket coverStatus indicatorSwitching outputTactile sensorUniversal interfacesWireless reed contactWireless solutionfrom the following manufacturers:Manufacturer overview catalogue Binary input:ABBBerkerBusch JaegerEatonElsnerElsoESYLUXfrogblue AGGiraHagerIssendorffJungLingg & JankeMDTMertenPehaSchneider ElectricSiemensThebenZumtobel

Alarm control panel - Would you like to control and regulate as many functions of your KNX building automation as possible from a central location? Then take a look at our multifunctional alarm control panels. With these convenient control centers, you always have an overview of all the comfort settings, automatisms and security-related parameters integrated in the building network. Read more about the use and function of these devices below.Image: Busch Jaeger 8136/12-811 KNX Comfort PanelWhat is the KNX protocol?In order to be able to understand the full potential of the alarm control panels, you must first know the KNX standard and its possibilities.There is a growing desire for more convenience and versatility in managing the heating, lighting and security of a home or office building. At the same time, the efficient use of energy is becoming increasingly important. People want a comfortable, environmentally friendly and safe environment to live and work in. And this is where automation can make a valuable contribution. More comfort, greater security and at the same time lower power consumption can only be achieved with intelligent controls for all devices involved. However, this is fundamentally a problem, since when implementing such a system, numerous different sensors and actuators must be controlled using different command devices. Furthermore, the large number of cabling means increased construction work and more effort during installation for planners, as well as higher costs for the user. Simplification would require a system that eliminates the problems of isolated devices. And that is KNX. KNX ensures that all components communicate in a common language. It doesn't matter what kind of device you want to use. The functions can be individually adapted to your needs and include, for example:lighting and blindsSecurity systems, alarm and surveillance systemsEnergy management, heating, ventilation, air conditioningremote controlsAudio and video controlsInterfaces to systems for building maintenance and building management All these functions work with the KNX fieldbus for building automation via a single system. All components interact with each other and create a dynamic building control system. With over 500 KNX-compliant manufacturers, flexibility and choice are huge. KNX is thus the global standard for intelligent building control and ensures full compatibility between manufacturers and related products. The KNX system can be used in almost any building or open space - from a small house to a large shopping center or industrial complex.What are KNX annunciator control panels?A KNX annunciator panel and control panel are usually highly complex, room-spanning control devices, infotainment interfaces and entertainment centers. With these devices, the complete control of a KNX building automation can be implemented at a central point.Which controls are possible with alarm control panels?There are countless equipment details for complex, logical functions. These include, among others:switching and dimmingBlind controls and automatisms for shadingroom temperature controlsCentral functions and scene controlsMultimedia, IP telephony, RSS reader, intercom with image, e-mail, voice memo and graphic memoMonitoring of consumption dataDoor communication with integrated camera and proximity sensorVideo surveillance with alarm and reporting function Everything is now possible. More and more KNX manufacturers are also offering direct interfaces to other home automation systems. These include Bang & Olufsen (B&O), Philips, Siemens Logo, Siemens SPS, CoDeSys, Beckhoff, Omron, Mitsubishi and many other systems. The menu structures of the KNX signaling control panels are partly already implemented or completely freely parameterizable.What should I look out for when buying a KNX annunciator control panel?The requirements for operating your building automation can be quite different. Depending on the type and complexity of your system, a simple device may be sufficient or a complex device may be required.Saving TIPIf it is 'only' about basic functions such as dimming, setting blinds or controlling the heating, we recommend our high-quality KNX push-button sensors. These can also be parameterized individually, look smart and are significantly cheaper to buy.This results in some purchase criteria that you can consider when making your choice:What is my budget?Do I need a complex annunciator control panel at all or can I achieve the same result with alternative devices (e.g. a push button sensor)?Which functions do I want to map?What color and design do I like (glass, stainless steel, plastic)?How should it be operated (keys, touch)?Should the bus coupling be integrated?What other interfaces are required?Where and how is the device installed (surface-mounted, flush-mounted)?Do I only need the control element or also mounting material and frame?Should a possible display be in color or is a monochrome variant sufficient?Is a special degree of protection necessary (e.g. for outdoor installation)?and more What should be considered during installation and integration into the home network?The devices are very complex. You should therefore note that commissioning can also be very time-consuming. Integration into a network via KNX IP router (routing & tunneling protocol) or KNX IP interface (tunneling protocol) is often necessary for full functional use, depending on the required protocol. Therefore, please ensure that you also lay a network cable in addition to a 230V AC power supply and the KNX bus cable. designeibabo® offers versions in high-quality stainless steel or with the finest capacitive glass surfaces as well as individual frame designs. This makes these all-rounders an eye-catcher in every multimedia KNX smart home. In this eibabo® catalog you will find high-quality KNX panels, KNX comfort panels, design frames, KNX touch panels, KNX control panels, KNX mini panels, KNX smart panels, KNX glass color displays, KNX LED displays and many other devices for controlling your Attachment. The leading manufacturers are ABB, Berker, Busch-Jaeger, Eaton, Elsner-Electronics, Hager, Issendorf, Jung, Legrand, MDT, Merten, Peha, Pro-face, Siemens and Warema. Catalogue content:In this eibabo® catalogue Installation bus systems > Signalling and operation panel for bus system you will find items from the following product groups:Item overview:Annunciator panelColor displayComfort PanelControl panelCover frameDisplayDisplay controlDisplay deviceDisplay unitFlush-mounted boxFrameMinitableauMultifunction deviceOperating unitRadio controlRemote controlRoom managerSmartphone operationStatus indicatorTactile screenTouch computerTouch displayTouch panelTouch screenVisualizationVisuControlfrom the following manufacturers:Manufacturer overview catalogue Alarm control panel:ABBBerkerBusch JaegerEatonElsnerfrogblue AGHagerIssendorffJungMDTMertenPro-faceSchneider ElectricSiemens

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