Hager RCBOs and Hager MCBs

An RCBO is a residual current circuit breaker with an integrated overload relay. It combines two devices (RCD/RCCB and MCB) that are commonly used in domestic and industrial fuseboxes (consumer units). The main benefit of using an RCBO is that it can save space in the electrical distribution panel. Additionally, it provides protection against both overloads and short circuits. RCBOs are designed to trip when they sense an imbalance in the current flowing through the live and neutral wires. Read on to know more about this valuable device!MCCB Vs MCB Vs RCBO: What Do They Mean?An MCCB is a molded case circuit breaker, and an MCB is a miniaturised circuit breaker. They are both used in electrical circuits to provide overcurrent protection. MCCBs are typically used in larger systems, while MCBs are used in smaller circuits. An RCBO is a combination of an MCCB and an MCB. It is used in circuits where both overcurrent and short-circuit protection are required. RCBOs are less common than MCCBs or MCBs, but they are growing in popularity due to their ability to provide two types of protection in one device. MCCBs, MCBs, and RCBOs all serve the same basic function: to protect electrical circuits from damage due to excessive current conditions. However, they each have their own advantages and disadvantages. MCCBs are the largest and most expensive of the three options, but they can handle higher currents and have a longer lifespan. MCBs are smaller and less expensive, but they have a shorter lifespan and can only handle lower currents. RCBOs are the most advanced option, and they offer the benefits of both MCCBs and MCBs in one device. MCB (Miniature Circuit Breakers)When there's an abnormality detected in a circuit, an MCB or miniature circuit breaker automatically switches the circuit off. MCBs are designed to easily sense when there's an excessive current, which often happens when there's a short circuit. Buy MEM Memshield2 Type B 20A MCBHow does an MCB work? There are two types of contacts in an MCB - one fixed and the other movable. When the current flowing through the circuit increases, it causes the movable contacts to disconnect from the fixed contacts. This effectively "opens" the circuit and stops the flow of electricity from the main supply. In other words, the MCB acts as a safety measure to protect circuits from overloads and damage.MCCB (Molded Case Circuit Breaker)MCCBs are designed to protect your circuit from overloading. They feature two arrangements: one for overcurrent and one for over-temperature. MCCBs also have a manually operated switch for tripping the circuit, as well as bimetallic contacts that expand or contract when the MCCB's temperature changes. All of these elements come together to create a reliable, durable device that can help keep your circuit safe. Thanks to its design, an MCCB can be a great choice for a variety of applications. An MCCB is a circuit breaker that helps to protect equipment from damage by disconnecting the main supply when the current exceeds a preset value. When the current increases, the contacts in the MCCB expand and warm until they open, thereby breaking the circuit. This prevents further damage by securing the equipment from the main supply.What Makes MCCB & MCB Similar?MCCBs and MCBs are both circuit breakers that provide an element of protection to the power circuit. They are mostly used in low voltage circuits and are designed to sense and protect the circuit from short circuits or overcurrent situations. While they share many similarities, MCCBs are typically used for larger circuits or those with higher currents, while MCBs are more suited for smaller circuits. Both types of circuit breaker play an important role in ensuring the safety of electrical systems.What Differentiates MCCB From MCB?The main difference between an MCB and MCCB is their capacity. An MCB has a rating of under 100 amps with an under 18,000 amps interrupting rating, while an MCCB provides amps as low as 10 and as high as 2,500. In addition, the MCCB features an adjustable trip element for the more advanced models. As a result, the MCCB is more suitable for circuits that require a higher capacity. Following are a few more essential differences between the two types of circuit breakers:An MCCB is a specific type of circuit breaker that is used to control and protect electrical systems. MCBs are also circuit breakers but they differ in that they are used for household appliances and low energy requirements. MCCBs can be used for high energy requirement regions, such as large industries. MCBs have a fixed tripping circuit while on MCCBs, the tripping circuit is movable. In terms of amps, MCBs have less than 100 amps while MCCBs can have as high as 2500 amps. It is not possible to remotely turn on and off an MCB while it is possible to do so with an MCCB by using a shunt wire. MCCBs are mainly used in situations where there is a very heavy current while MCBs can be used in any low current circuit. So, if you need a circuit breaker for your home, you would use an MCB but if you needed one for an industrial setting, you would use an MCCB. RCCB Vs RCD Vs RCBO Vs RCB: What Do They Mean?An RCCB (Residual Current Circuit Breaker) is an electrical device that breaks the circuit as soon as it detects a current leak to the earth wire. It also protects against electric electrocution or electric coal shock caused by direct contact. An RCD (Residual Current Device) is similar to an RCCB, but it doesn't break the circuit - instead, it just trips an alarm. An RCB (Residual Current Breaker) is also similar, but it only trips the breaker, not the alarm. Buy Schneider Easy9 6A RCD 6kA 30mA Type B RCBOSo, if you're looking for a device to protect you from shock or electrocution, an RCCB is your best bet. If you're looking for a device to trip an alarm in case of a current leak, go for an RCD. And if you just want a breaker that trips in case of a current leak, then an RCB is what you need. Types of RCDs - guide by Hager. Residual current protection devices, like RCBOs and RCCBs, are circuit breakers that monitor the current flowing in a circuit's line and neutral. In a healthy circuit, the current in the line should equal the return current in the neutral. However, if there's an abnormality, the return current might not equal the line current. In this case, the residual current device will sense the discrepancy and interrupt the circuit. By doing so, these devices help protect against electrical hazards.What Is An RCBO?An RCBO is a device that combines the functions of an MCB and RCD/RCCB. When there is a current leakage, the RCBO trips the entire circuit, preventing further damage. Consequently, internal magnetic/thermal circuit breaker components can trip the electronic device when the circuit is overloaded, protecting it from further damage. In this way, an RCBO can be a vital piece of equipment in protecting your electrical circuits.Similarities & Differences: RCBO Vs RCDElectrical systems are components of our daily lives that we often take for granted. We use them every day without a second thought, but when something goes wrong, it can be a major inconvenience. That's where devices like RCBOs and RCDs come in. Buy Hager RCD Double Pole 80A 30mA Type A RCCBBoth electrical devices are typically found in a fuse box, commonly referred to as a consumer unit or breaker panel. Similarly, they both help in the protection of systems. RCBOs (Residual Current Devices with Overcurrent Protection) are used in homes and businesses to protect against electric shock and fires. They work by sensing when there is an imbalance in the current flowing through the electrical circuit and shutting off the power before it can do any damage.So, what's the difference between an RCBO and an RCD? An RCD is a protective device that will normally protect at least 5 circuits. If it picks up a fault on any of these circuits, it will trip and cut the power to every circuit it's protecting. An RCBO is basically exactly the same as an RCD, except it protects 1 individual circuit. So, if you're looking for protection for just one circuit, then an RCBO is probably what you need. What Differentiates An MCB From RCD?The biggest difference is that MCBs don't protect against earth faults, while RCDs/RCCBs do. This means that if there's a problem with the earth connection, an RCD will trip and cut off the power, but an MCB won't. This can be important in preventing electrical shocks. Another difference is that MCBs are mostly used in homes and industries, while RCDs are mostly used in homes. This is because RCDs offer better protection against shocks, which is important in domestic settings. Finally, MCBs come in single, two, three, and four-pole options, while RCDs lack the single-pole options but have the two, three, and four-pole options. This simply means that MCBs can be used in more situations than RCDs. ConclusionSo, what is an RCBO and how does it work? An RCBO, or residual current circuit breaker with excess current protection, is a type of circuit breaker that combines the functions of an MCB and RCD. It protects against both overloads and short circuits and can be used in both residential and commercial settings. Based on the need for electrical protection you have and being advised by your electrician, you can choose either a RCD or a RCBO. On our website, we have a wide range of Hager RCBOs and RCDs, MEM Memshield RCBOs and RCDs, BG Electrical RCBOs and RCDs, Merlin Gerin MCBs, MK Electrical RCBOs and RCDs, Wylex RCBOs, and Schneider RCBOs and RCDs to choose from. Please bear in mind, each manufacturer specifies their own RCBOs or RCDs, so you cannot mix-and-match these circuit breakers; a Schneider fusebox takes Schneider RCBOs. 

We have recently lowered the prices for the Hager AFDDs and we thought we should introduce the Arc Fault Detection Devices - what they are, who needs them, and what are their use. Keep reading to find out more about:Why Arc Fault Detection Devices and Where are AFDDs used?What is an AFDD? What does an AFDD Do?How do AFDDs work?Are AFDDs Required and Who Needs an Arc Fault Detection Device?AFDDs at Sparks - Hager AFDDs at a Discounted PriceHager ProTools for Hager AFDDs - FeaturesHow to Test a Hager AFDDArticles on AFDDs - Further readingWhy Arc Fault Detection Devices and Where are AFDDs used?After the publication of Amendment 2 of the 18th Edition Wiring Regulation on the 28th of March 2022, the use of AFDDs (Arc Fault Detection Device) has been made mandatory use in certain types of installations.  Regulation 421.1.7 now states AFDD conforming to BS EN 62606 shall be provided for single-phase AC final circuits supplying socket-outlets with a rated current not exceeding 32 A in:Higher Risk Residential Buildings (HRRB)Houses in Multiple Occupation (HMO)Purpose-Built Student Accommodation (PBSA)Care homesFor all other premises, the use of AFDDs is recommended for single-phase AC final circuits supplying socket outlets not exceeding 32 A. In the notes of the 18th Edition, there is guidance on the language used in BS 7671. There is also a table describing verbal forms which may be used and the verbal form for recommendation can be translated to “should”.Buy Hager AFDDs at SparksWhat is an AFDD? What does an AFDD Do?An AFDD (Arc Fault Detection Device) is designed to detect the presence of dangerous electrical arcs and disconnect the circuit affected, in order to protect human life and the electrical wiring circuit. An arc fault is where an electrical current jumps between two conductive materials. There can be a parallel arc fault or a series arc faults. One of the most common causes of arcs are worn contacts in the electrical equipment, loose connections, or break in the cables. Arc faults can occur for a number of reasons such as breaks in a cable, damaged cables as a result of DIY projects, defective plugs, rodent bites, cable wear, incorrect bonding, etc. What an Arc Fault Detection Device do is use microprocessor technology to analyse the waveform of the electricity, detect any unusual or higher current jump, and terminate the power to the affected circuit to prevent a fire. There are the MCBs and RCBOs that do the same function, but the AFDDs are more sensitive to arcs than these conventional circuit protection devices. The purpose of an AFDD is to make sure no electrical fire takes place; whether there's a short-circuit or an overload, an earth leakage current or an overvoltage, or a dangerous electric arc, an AFDD detects and trips the circuit. How do AFDDs work?Unlike a circuit breaker which detects overloads and short circuit currents and RCDs which detect current imbalance, an AFDD utilises electronic technology to analyse the signature (waveform) of an arc to differentiate between normal arcing and arcing faults. Although AFDD manufacturers may employ different technologies to analyse arcs, the end result is the same, detecting parallel arcs (line to line, line to neutral and line to earth) and series arcs (arcing within one of the conductors). Upon detection of an arcing fault, the AFDD disconnects the final circuit from the supply. AFDD manufacturers test for numerous possible operating conditions and design their devices to constantly monitor for arcing faults.AFDDs are designed and tested to not respond to arcing under normal operation of equipment such as vacuum cleaners, drills, dimmers, switch mode power supplies, fluorescent lamps, etc. In addition, they are designed and tested to continue to respond to arc faults whilst the aforementioned equipment is being operated.Are AFDDs Required and Who Needs an Arc Fault Detection Device?Though much more expensive than a regular RCBO or MCB, an AFDD can be a lifesaver especially where there is more than one life on the line. So far Amendment 2 only recommends the use of AFDD in domestic use, but they require Arc Fault Detection Devices to be used in certain applications. UK fire statistics identify that electrical fires are still unacceptably high. The use of overcurrent and residual current protection has vastly reduced the risk and consequence of electrical fires. Electrical fires can be a silent killer occurring in areas of the home that are hidden from view and early detection. If used, an AFDD should be placed at the origin of the circuit to be protected. Examples of locations where AFDDs should be used are:premises with sleeping accommodationlocations with a risk of fire due to the nature of processed or stored materials, i.e. BE2 locations (e.g. barns, woodworking shops, stores of combustible materials)locations with combustible constructional materials, i.e. CA2 locations (e.g. wooden buildings)fire propagating structures, i.e. CB2 locationslocations with endangering of irreplaceable goods.AFDDs at Sparks - Hager AFDDs at a Discounted PriceAt Sparks, we are proud to stock and distribute the Hager AFDDs with AFDD ProTools diagnostic software for the best price - even a discounted price at the moment. The next generation of single module wide AFDDs comes with advanced ProTools diagnostic software as standard. Exclusive to Hager AFDDs, ProTools provides the professional installer with advanced fault-finding and rectification capabilities.Best price for Hager Arc Fault Detection DeviceHager ProTools for Hager AFDDs - FeaturesProTools - On-Board Diagnostics: With the ability to identify 8 statuses, the on-board diagnostics within the device save time and effort in fault finding.ProTools - Diagnostic Support: Access additional diagnostic support and guidance when on-site via the Hager Pilot app on your mobile device.ProTools - In Situ Software Upgrades: The ability to update software via Bluetooth connectivity as and when new electrical signatures are detected, eliminates the need to remove or replace the device in the futureRCBO & MCB Configurations: Available in both RCBO and MCB single module configurations.Backwards Compatibility: Save time on site and upgrade existing Hager MCB-based installations to AFDD with minimal cost and disruption to you and your customers.Hager Technical Support: Receive technical advice with device installation and fault finding from the Hager Telford-based team of technical experts that are on hand to support you. The Hager AFDD with ProTools guarantees that you’re getting that fit-and-forget assurance you’ve come to expect from their products. In addition to the On-Board Diagnostics, the Hager Pilot app contains diagnostic guides providing a step-by-step approach to fault finding, ensuring that the professional electrician can quickly and easily identify the cause of any problems encountered. Exclusive to Hager ProTools, all the AFDDs come equipped with Bluetooth functionality to enable in situ software upgrades.How to Test a Hager AFDDYou don’t need to specifically test the AFDD element as they have a self-test feature. As per the requirements of the product standards, the AFDD must perform a daily self-test. The Hager AFDD undertakes a self-test every hour and should a fault be identified, it will switch off the circuit and the LED status indicator will show that the self-test has failed. AFDDs have a test button on them which doubles up as the RCD test button if it is an RCBO/AFDD. In line with long-standing regulations, this is required to be pressed once every 6 months when the device should trip and will simply be switched back on by the user.Purchase Hager AFDD todayArticles on AFDDs - Further readingThis article was inspired from and partially taken from some of the most popular and informative articles and guides on the AFDDs, including:Single Mod Arc Fault Detection Device via Hager. Beama guide to arc fault detection devices AFDDs here. What you need to know about arc fault detection devices - AFDDs, via, Electrician Courses for you. Arc Fault Detection Devices (AFDD) via The IET. Hager Launches New AFDD Solution, the press release. Arc Fault Detection - via, Electrium. AFDDs: how and when to use them, via, ECA today.