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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
Explosion-proof signalling horn - Alarm horns as audible signaling devices are devices that are used to generate acoustic signals. Depending on the construction, alarm horns are powered with electric energy or compressed air. In the fire-protection technology, in fire extinguishing systems with gaseous extinguishing agents, alarm horns are used to announce a finished or imminent flooding of the protection area. You can also use alarm horns, for example, in process control to signal that certain thresholds have been exceeded. In electrically operated signal horns or sounders, a steel diaphragm is responsible for sound radiation. Together with an iron block, which closes the magnetic circuit, the membrane also forms the mechanical resonator. The fundamental frequency of the horn is determined by the mass of the iron block and the restoring force of the membrane used. Often, an additional horn is mounted for effective sound emission. The shape and material of the steel membrane determine, in addition to the internal cushioning and the spring characteristics of the system, the range of harmonics and the sound character of the horn. In contrast to electrically operated alarm horns, pressure horns operate acc. to the principle of a cushion whistle or the principle of a valve periodically closed by the flow. Some of the compressed air-operated alarm horns have a diaphragm which detects the flow and closes the valve.Catalogue content:In this eibabo® catalogue Optical and acoustic signalling equipment > Explosion proof signal horn you will find items from the following product groups:Item overview:Ex signal hornExplosion proof signal hornExplosion-proof signal hornExplosion-proof signaling deviceSignaling devicefrom the following manufacturers:Manufacturer overview catalogue Explosion-proof signalling horn:Stahl
Installation relay - What is a relay and how does it work? What types of relays are there? Where are relays used? And which relay suits your project best? Here you can learn more about switching and controlling electrical circuits. Installation relays are used in many different applications. You will find relays in domestic electrical installations, in electrical appliances, in commerce and industry, and in vehicles.A look into historyThe first relay was invented by the American J. Henry in 1831 and was based on the electromagnetic principle of operation. Henry used the relay in his university lab as a 'gimmick' to entertain his students. However, it was not yet possible to switch gears. The first switching relay was invented by Samuel Morse in 1837. Morse refined Henry's device and adapted it to transmit signals (the Morse code) down miles of wire. This was also the basis for the telegraph.Did you know that the world's first computer was also built with only relays? It was a development by Konrad Zuse, which was presented in 1941. A lot has happened since then and relays are no longer used in modern computers. Nevertheless, the relay is still an important and popular component in electrical installations today. Think, for example, of switching on and off the lighting in the stairwell. The circuit works regardless of which floor you are on. However, there are numerous other areas of application. That is why different installation relays are also available in the eibabo® shop. Simply browse through our virtual catalogue. You will surely find some high-quality and inexpensive installation relays that arouse your interest.Image: Eltako ER12-110-UC switching relayWhat are relays?Relays are components within electrical installations of all kinds. They are mainly used as circuit breakers and control switches in electrical devices or are used as important components in many control processes. There are numerous types of relays, which differ in detail. The manufacturers develop the devices for special tasks and adjust the triggering characteristics accordingly. Relays that are often bought in this catalog are coupling relays, power relays, switching relays, interface relays, semiconductor relays and many more. The basic operating principle of a relay is to open and close circuits or contacts by reacting to electrical quantities such as current or voltage.How are relays differentiated?Relays are classified according to various criteria. These include:the type of physical inputs to which the relay respondsthe area of application that the relay assumes in control systemsthe structure of the device design and the principle of operationthe switching capacitythe shape and sizeand some others A relay consists of three main elements:entering / entering a valuethe intermediateof execution / actuation by actuator If we look at the type of physical input variable, we distinguish between electrical, thermal, optical, mechanical, magnetic or acoustic relays. NoticeNot all relays work with fixed physical quantities. Differential relays, for example, react to the difference in values. Polarized relays respond to a change in sign of a specific value. The acquisition of the measurand is the primary element of the relay. This converts the input value into another physical quantity. The receiving element can have different designs depending on the purpose of the relay and the nature of the physical quantity. In the case of a latching relay or a voltage relay, the receiving element consists of an electromagnet. In the case of a pressure relay, this can be a membrane or bellows. The sensing element of a level relay is usually a float and so on.The intermediate element compares the input value with the specified limit value of the device and, if it is exceeded, transmits an impulse to the executing actuator.The actuator transmits the pulse from the relay to the working circuits. Each relay basically contains a control circuit and one or more operating circuits. Depending on the type of actuator, the relays are divided into contact relays and contactless relays. Contact relays act on the outgoing circuit with the help of electrical contacts. Their closed or open state allows either full closure or full mechanical break of the work circuit. Contactless relays act on the working circuit by a sudden change in parameters in the control circuit. This is achieved via resistance, capacitance, inductance or a change in voltage level or current level.How does an installation relay work?Depending on the requirement and application, relays are simple or complex. However, the basic functional principle does not differ significantly. In the center is the coil with an iron core. When current flows through the coil, an electric magnetic field builds up. A movable, ferromagnetic armature reacts to this magnetic field and is attracted. This change in position connects two contact springs with each other and the so-called working contacts in the relay close. In this case, the relay acts as a closer. In some designs, so-called break contacts are opened when the magnetic field is created. These are called openers. Combinations of openers and closers are also possible. These are changeover contacts or changeover contacts.Already knew?If the coil of a relay is suddenly de-energized, high voltage peaks can occur. Therefore, depending on the model, resistors or diodes are used to prevent these voltage peaks from flowing back into the control circuit. Sensitive components remain protected.As soon as the coil no longer generates a magnetic field, the armature is returned to its original position by spring force. The make contacts are no longer closed and the break contacts are no longer open.What are Solid State Relays?More and more relay functions are currently being taken over by semiconductor circuits, so-called solid-state relays (SSR). A solid state relay is an electronic device that turns on and off a high power circuit with low voltages. There are no mechanically moving elements in this type of relay. The device consists of:a sensor that responds to an input signala solid-state electronics with high-performance circuitry Solid state relays can be used with both direct current and alternating current. With the help of thyristors and transistors it is possible to switch currents of several hundred amperes. Compared to electromechanical relays, semiconductor relays have a significantly higher switching speed. Solid-state relays are less suitable for switching under short-term overload conditions. Compared to electromechanical relays, solid state relays offer the following advantages:smaller dimensionshigh switching speedsnoiselesspowerfulmore energy efficientspark-free circuitmaintenance freelong lifetimelow sensitivity to adverse conditions What should I look out for when buying an installation relay?In the eibabo® shop there is a huge selection of different relays with numerous specifications. Choosing the right installation relay can be difficult. Before you buy, you should determine the function of your circuit and then define the task of the relay. Then select a suitable relay for your project. Decision criteria include:What kind is the physical input quantity?Will the device be subjected to vibration and shock?Where will the installation take place?Are dust, moisture or temperature fluctuations to be expected?What is the switching voltage and the switching current?Which current magnitudes and voltage magnitudes occur?What is the expected switching frequency?What requirements do I place on the durability of the relay?Are special functions or additional programming required?  Notice:When switching active and inductive loads, opening the circuit for the contacts is the most difficult. In this case, arcing occurs, which puts a lot of strain on the contacts. The switching relays offered by eibabo® are high quality, inexpensive, versatile, reliable and universally applicable. The best-known manufacturers in our range are ABB, Doepke, Dold, Eaton, Eberle, Eltako, Finder, Hager, Jung, Schalk, Schneider Electric, Siemens and WAGO.  Catalogue content:In this eibabo® catalogue Devices for distribution board- / surface mounting > Installation relay you will find items from the following product groups:Item overview:AC contactorAC voltage relayBoiler relayBuilt-in distributor deviceCan relayCoupling relayDC contactorExpansion moduleInstallation relayInstallation switching relayMemory relayModular installation devicePower relayPreset relayRelay interfaceRelay stationSwitching relayUniversal voltage relayfrom the following manufacturers:Manufacturer overview catalogue Installation relay:ABBDoepkeDoldEatonEberleEltakoFinderHagerJungSchalkSchneider ElectricSiemensWAGO
Dc power supply - Are you looking for a reliable DC power supply within your electrical installation? But you need more information to be able to decide on a specific device? In the following article we clarify frequently asked questions and support you in choosing the right device. At eibabo® we list a large number of switching devices for low voltage. This allows you to implement a DC power supply that can be used in electrical distribution installations in low-voltage networks.What is a DC power supply?Devices for the direct current supply supply the consumers connected to your electrical distribution system (fuse box or distribution cabinet) with low voltage. The scope of performance of the devices we offer ranges from under 5V to 12V, 24V, 48V to 54V.Good to knowWhen electric current flows, charge carriers move. If the voltage has the same polarity continuously, the direction of movement of electrons and protons is also constant and it is direct current. If the polarity changes periodically, the direction of movement of the charge carriers also changes. Then there is alternating current.Most of the devices are mounted on the DIN rail in the control cabinet. In home automation and building technology, flush-mounted power supplies are also increasingly being used, which you can install directly in flush-mounted boxes (deep switch boxes). Discover a large selection of high-quality DC power supply products with us. These include, for exampleDC/DC converterCompact power supplies, power supplies and power packsSwitching power supplies and switching power supplies (for mounting on DIN rails, for surface mounting, for flush mounting and for fixed installations)as well as primary switching regulators, transformer rectifiers and wide-range switching power supplies What are DC/DC converters?DC/DC converters are used wherever one direct voltage has to be converted into another. In other words, DC/DC converters convert the power of a direct current (DC) source from one voltage level to another. In this case, the input energy is temporarily stored and then delivered to the output with a different voltage. The output voltage can be either higher or lower than the input voltage. Electrical energy is stored either in magnetic field storage components (such as a transformer) or in electric field storage components (such as a capacitor). The devices will not work with AC power sources. Good to know:The devices for direct current supply are characterized by a very favorable price-performance ratio and a high level of efficiency. Considering efficiency is important because there are power losses when converting between different voltage levels. Depending on the voltage, current and type of DC/DC converter, the efficiency varies from 75% to 95% or more.What are DC power supplies?In contrast to DC/DC converters, DC power supplies are supplied with AC voltage and provide a specific DC output voltage. The devices are available with different performance data, among other things in order to meet the sometimes different mains voltages in many regions of the world. On the other hand, the various electronic components in an installation require different voltages to achieve their highest efficiency values. In addition to direct current power supplies, which supply a fixed constant voltage, you will also find power supplies with dual outputs or multiple outputs at eibabo. Each output can have a different constant voltage. You are thus able to supply several loads with different operating voltages from one power pack.Power supply or power supply?A power supply is usually a compact device that usually supplies a fixed voltage. A power supply unit, on the other hand, is more complex and expensive. This means that several voltages can often be set variably.In Europe, 12V and 24V power supplies are the most common. Our range of products covers the power range from below 5V to 54V. The spectrum ranges from small, narrow, efficient power supplies to very powerful DC power supplies, converters and complex power supplies.What is the difference between a transformer, a transformer rectifier and a switching power supply?A transformer is a component consisting of coils, copper wire and an iron core. Typically, a transformer increases or decreases electrical voltages. Incoming AC voltage is converted into outgoing AC voltage in a certain ratio. The device does not transform AC voltage into DC voltage. A transformer always uses AC voltage, while a power supply unit uses DC voltage.A transformer rectifier is something like the predecessor of the switching power supply and is only used occasionally today. The device generates DC voltage from AC voltage. With an internal transformer, this device also increases or decreases incoming AC power. The AC voltage is rectified by means of a bridge circuit and then smoothed by a capacitor. A built-in linear regulator on some models ensures that the output voltage is kept at a constant level. These devices are called regulated power supplies, while models without a linear regulator are called unregulated power supplies. A capacitor for short-term damping of voltage peaks is also not installed in all models. The direct current can be taken from the device output. A major disadvantage of these devices is the relatively high permanent power consumption, even when no consumer is connected.The switching power supply is the further development of the transformer rectifier. Here, too, an AC voltage is converted into a larger or smaller AC voltage by a transformer. For safety reasons, the primary circuit (e.g. with 230V mains voltage) is galvanically isolated from the secondary circuit (e.g. with 12V). A bridge rectifier now generates the required direct current, which is also smoothed here by a capacitor.Image: Eltako SNT12-230V/24VDC-1A switching power supplyWhat are wide range power supplies?Power supplies with a 'wide range' on the input side can be operated with different nominal voltages. These devices do not have to be adjusted manually or automatically to the nominal voltage applied.Which devices for DC power supply are recommended?When purchasing a DC power supply, make sure the device meets your requirements for the intended use. Recommended devices for DC power supply are characterized by:a high quality finisha very good efficiencya high energy efficiency You will find the information on efficiency and all other technical specifications in the data sheets as well as in the product description of the respective devices. Here in the shop you only get devices from top manufacturers. These include Eaton, Eltako, Jung, MDT, Phoenix, Omron, Merten, Siemens and many other well-known manufacturers. To make your selection easier, the items in this catalog are pre-sorted according to relevance. You are welcome to filter according to further technical properties. Please use the detailed search for this.  Catalogue content:In this eibabo® catalogue Low-voltage industrial components > DC-power supply you will find items from the following product groups:Item overview:Blind controlCentral supplyCompact power supplyConstant currentConstant voltage sourceDC power supplyEnergy managementEnergy monitoringHome automationHome controlLoad monitoring deviceMains rectifierPower adapterPower converterPower guardPower modulePower monitoring relayPower relayPower suppliesPower supply moduleSecurity of supplySupply deviceSwitching power supplySystem devicesVideo network deviceVoltage moduleVoltage regulatorWide voltagefrom the following manufacturers:Manufacturer overview catalogue Dc power supply:ABBanzadoAssa Abloy effeffBlockEatonEltakoEmtronFinderHagerHeitecHekatronHirschmannIfm ElectronicIndexaJumoJungKonzeptLEG Industrie-Elekt.Legrand BticinoLeuzeMean WellMertenMicrosensMurrelektroniknVent ThermalOligoOmronPepperl + FuchsPhoenixPulsRiedelRockwellRutenbeckSBA-TrafoTechSchneider ElectricSiemensSomfySpectraStahlThebenTrafo-Technik-HoppeckeTurckWAGOWantecWeidmüllerWielandWindowMaster
Lightning protection - cable holder - Thunderstorms are freaks of nature, impressively dangerous and scary. While people used to not be able to classify the impressive spectacle in the sky, today we know how thunderstorms form and can assess the consequences of lightning strikes well. It is also possible to protect people and buildings from this. With the installation of a suitable lightning protection system, you prevent damage to roofs, walls and electrical installations caused by lightning. The cable holders offered here in this eibabo catalog are just a small part of the total components available in our shop for the production of one or more high-quality, high-performance lightning protection systems. The cable holders themselves represent the connection between the lightning conductor strand and the retaining base attached to the house.Catalogue content:In this eibabo® catalogue Earthing, lightning and surge protection > Conductor holder for lightning protection you will find items from the following product groups:Item overview:Air-termination rodBand iron holderCable holder for lightning protectionClamp holderClamp trestleClamping blockConductor holder for lightning protectionEquipotential bondingFishing tipFlat conductor holderGround clampHolder systemImpact anchor holderLightning arrester systemLightning protection materialLightning rodLightning Rod MountLine holderPipe holderRain pipe holderRibbon holderRound conductor holderScrew cable holderScrew holderStainless steel line holderWall bracketWall cable holder for lightning protectionWall wire holderfrom the following manufacturers:Manufacturer overview catalogue Lightning protection - cable holder:DehnKleinhuisOBO
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Houben - 991104 - Electromagnetic plug-in transformer 20W 230/12V 991104
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Electromagnetic plug-in transformer 20W 230/12V
Houben
| 991104
RECOMMENDED
3D
Televes - MS530VGQ - Amplifier 5x cast iron 30dB for MS NEVO o.NT - Satellite amplifier 25dB(sat) 27dB(terr) MS530VGQ
12,405.81₹ excl. VAT

*

plus shipping
(15,833.95₹ RRP***)
Amplifier 5x cast iron 30dB for MS NEVO o.NT - Satellite amplifier 25dB(sat) 27dB(terr)
Televes
| MS530VGQ
RECOMMENDED
3D
Cimco - 12 0480 - Pipe cutter 12...35mm 12 0480
3,764.68₹ excl. VAT

*

plus shipping
(4,810.84₹ RRP***)
Pipe cutter 12...35mm
Cimco
| 12 0480
RECOMMENDED
3D
Baier - 7235 - Diamond disc Turbo D=150mm High Speed - Slit disc 150mm 7235
2,304.18₹ excl. VAT

*

plus shipping
(4,518.36₹ RRP***)
Diamond disc Turbo D=150mm High Speed - Slit disc 150mm
Baier
| 7235
RECOMMENDED
3D
RECOMMENDED
3D
ITW Spit - 811201 - Milling cutter 25mm/12 teeth - Cutting disc 250mm 811201
21,570.02₹ excl. VAT

*

plus shipping
(30,466.14₹ RRP***)
Milling cutter 25mm/12 teeth - Cutting disc 250mm
ITW Spit
| 811201
RECOMMENDED
3D
Kaiser - 1088-30 - Center drill - Special drill 1088-30
1,140.84₹ excl. VAT

*

plus shipping
(1,462.37₹ RRP***)
Center drill - Special drill
Kaiser
| 1088-30
RECOMMENDED
3D
Kaiser - 1088-07 - Carbide milling cutter 180 mm - Hole saw 68mm 1088-07
8,262.42₹ excl. VAT

*

plus shipping
(10,592.84₹ RRP***)
Carbide milling cutter 180 mm - Hole saw 68mm
Kaiser
| 1088-07
RECOMMENDED
3D
Cimco - 20 7562 - Hole saw for switch box 68mm 20 7562
3,942.79₹ excl. VAT

*

plus shipping
(5,201.74₹ RRP***)
Hole saw for switch box 68mm
Cimco
| 20 7562
RECOMMENDED
3D
Dehn - 595 000 - Straightening iron cranked St/burnished - Straightening tool 595 000
2,474.79₹ excl. VAT

*

plus shipping
(4,687.10₹ RRP***)
Straightening iron cranked St/burnished - Straightening tool
Dehn
| 595 000
RECOMMENDED
3D
Kaiser - 1083-70 - Multi 2000 HM - Hole saw 68mm 1083-70
16,102.99₹ excl. VAT

*

plus shipping
(24,841.62₹ RRP***)
Multi 2000 HM - Hole saw 68mm
Kaiser
| 1083-70
RECOMMENDED
3D
OBO - 915 RBS M4 - Iron with hand protection - Nail driver 4mm 915 RBS M4
4,476.18₹ excl. VAT

*

plus shipping
(8,136.80₹ RRP***)
Iron with hand protection - Nail driver 4mm
OBO
| 915 RBS M4
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