For buildings to function optimally, they must be equipped with a fully functional electric power system. With this system, equipment pieces, machines, and appliances are all allowed to work and function accordingly, making sure that buildings can carry out a wide array of activities.
One part of the electric power system that should work optimally is the electrical outlet. An electrical outlet is a system component that allows electrical equipment pieces to be connected to the electrical grid. Once an electrical device is plugged into the electrical outlet, the loop of wire is ultimately complete, allowing electric power to flow through so that the device can become operational.
Not all electrical outlets, however, work similarly. Here are some of the most common electrical outlets and how they work.
2-prong outlets have been around for a long time. They are 15-amp, 125-volt outlets that maximise two wires on an undergrounded circuit, making them somehow less safe compared to other outlets as they do not utilise a ground wire. Building owners that still use 2-prong outlets are often advised to replace them right away to ensure the safety of their properties.
3-prong outlets serve as the perfect replacement for 2-prong outlets. These outlets are the go-to outlets for most properties as they have a third prong for ground, making them much more compliant with existing building codes and standards. Through the grounding element of these outlets, any unstable or high electrical currents are expected to be neutralised.
Ground Fault Circuit Interrupter Outlets
Ground Fault Circuit Interrupter or GFCI outlets are outlets often used in areas where water is being maximised. Some areas where GFCI outlets are commonly installed are the kitchen, bathroom, and laundry areas. These outlets can be easily identified thanks to their huge TEST and RESET buttons on their bottom area. Once they have detected current changes, they will promptly stop the current flow.
Arc Fault Circuit Interrupter Outlets
Air Fault Circuit Interrupter or AFCI outlets, alternatively, may look similar to GFCI outlets. The main difference is that AFCI outlets regulate and minimise arcs whenever electricity leaps from one wire to another. Most of the time, these outlets are installed into the breaker. They can, however, be added through a special outlet on older properties.
A great alternative to 3-prong outlets, recessed outlets are outlets that recessed into the box. They are not flushed with the wall plate that other outlets often manifest, giving them a stealthy vibe that makes a property appealing. What is great about maximising recessed outlets compared to other outlets is they can prevent cords and other electrical cables from bending.
Temper Resistant Outlets
Temper resistant outlets are one of the outlets that are now required by some building codes globally. These outlets utilise a special barrier to stop random foreign objects from being inserted. The special barrier will then only open if a grounded or 2-bladed plug is being inserted. Maximising these outlets can be very useful to protect children from electrocution.
To know more about these electrical outlets, you can contact us at Light-On Electrical.
Lights in properties are essential to effectively illuminate areas where daily activities are conducted. They also help deter burglars and other unauthorised people from entering private properties. Lighting fixtures are likewise used to enhance the appeal and ambience of various rooms and spaces.
But to ensure that these functions are carried out, the lights in properties should always be used appropriately. Additionally, they must be assessed and checked regularly to ensure that they are still in good condition. Replacing some lights, even if they are still operating, can sometimes be a good choice since they may be already inefficient and ineffective. As faulty lights are used, they may end up causing damages to electrical systems. They may likewise generate higher energy bills.
There are various reasons why your lights have become inefficient. Some of them are the following.
One of the reasons why your lights have become inefficient is erratic usage. Lighting fixtures receive a lot of power every time they are being switched on. And if they are constantly switched on and off, there is a high chance that their components will generate heat. The heat will then expand some of its core parts like the filament and the wire. Turning the lights off may cool them a little bit. However, once they are turned on again right away, these components might finally break and make the lights defective.
Fluctuations or fluxes in power can also be a reason why your lights may become inefficient. Power companies have been doing their best just to provide the necessary power supply to households, offices, and other customers. But there are times when the power supply becomes unstable. The instability in power often leads to power surges, forcing the lights to switch on and off rapidly. Power fluxes are not only caused by an unstable power supply but can also be triggered by lightning strikes and small voltage spikes, which are often caused by plugging in and unplugging appliances and devices.
Aside from erratic usage and power fluxes, your property lights may have become inefficient due to loose connections. Light fittings that are not connected properly to wirings and fixtures can become inefficient as they cannot maximise the power being supplied to them. As the power is hindered from reaching the lights, they may burn out prematurely.
One more possible reason your lights have become inefficient is due to aged switches. Some switches may be existing for a long time now. And even though they are still functional, they might not be compatible with modern models of lights. Hence, if you will be attempting to install lights into older switches, there is a huge chance that the lights might blow out in just a few days or weeks. If you want to make your lights effective and efficient, you can call us at Light-On Electrical.