Almost all production processes or modern building system is powered by electricity. People have started to rely on various kinds of technologies to accomplish the smallest mundane task. Be it communicating with friends, launching a project or presenting a critical presentation to the potential investors, technology plays a crucial role. The flipside is – they are highly sensitive and slightest of fluctuation in power supply results into serious damages to the equipment. Permanent damage, down time and decreased efficiency are the immediate negative repercussions. To prevent all these problems, a regular power quality analysis is a must.
4 things you should know about them are enumerated below:
Have a Complete Understanding and Know-How
To start with, have a proper understanding and know-how what power quality is all about. In simple terms they represent limits and parameters set by manufacturers of a specific electronic device so that it functions within acceptable standards. Hence, the process involves rightful determination and verification of power supplied to electronic devices within parameters stipulated by the manufacturer.
The Analysis Needs To Be Done At Frequent Intervals
Oftentimes, the power being supplied to different devices and equipment is of an unstable nature. This explains why electronic devices receive too much or too low power. This might make the device non-functional besides causing other damages. In order to regulate the fluctuation, manufacturers do add a surge capacitor to handle sudden burst of electricity. Despite this, it might not be enough. The best remedy is to seek professional help of experts to check on this. This will ensure your equipment lasts for a longer duration and exchange of sensitive information remains protected.
Adhere To This Mechanism for Better Optimization Results
At a time when there is a cut-throat completion, strict regulations with penalties and diminishing resources, better optimization results is the only feasible alternative. Businesses of all types try hard to maximize productivity of all factors of production. All labor works can be divided into shifts with adequate breaks. All important activities can be spread evenly after proper calculations and on the basis of priorities. While these are easy to attain, the secondary level of resources like power is a great challenge to optimize. For one, despite supply of proper levels of power being supplied, they may still experience power disturbances like transients, swells, voltage sags or harmonics. When a facility receives proper supply of power but fails to make an efficient usage of the same, it could be due to absence of the power correction equipment, obsolete technology or machinery, etc. Knowing the power quality is very important in these circumstances.
Helpful In Judging Capability of a System
This form of analysis is designed to measure power quality of any functional power consuming system. It analyses the capability of a system to get the maximum out of its loads. Power disturbances can originate from anywhere – consumer loads, the utility or the consumer power systems. The analysis is done to detect the how, when, and where of such disturbances. This helps in fixing the problem areas to achieve higher power usage optimization goal. Observation of energy usage for a short period of time becomes easy. The same data can be used to calculate long-term energy usage. If needed, a three-phase power logger can be employed to study a month long load. The best part is – it produces accurate detailed consumption data. The sad part is – it takes a longer period when compared to other methods. Quality analyzers and recorders are some other tools that can be put to use depending on need of a situation.
The power quality analysis is extremely helpful in detecting the causes of outages, over voltages, breakers tripping, harmonics and harmonic mitigation, equipment over heating and under voltages. The equipment and metering used can view and record display of AC waveform, detect voltage swells and dips outside a pre-set range, record power, usage, dips, sags, power factor parameters and peak demand, measure specific harmonic wave interference and total harmonic distortion. The task of emerson maintenance is accomplished by using thermo graphic imaging, metering equipment and specialized infrared. With infrared scanning, thermal images are produced for almost all electrical devices like motor control centers, motors, panels, switchgear, transformers, bus duct and disconnect.