Maximum Demand Calculations for EV Chargers
Maximum demand is the highest amount of electricity that an electrical system is expected to need at any time. There are four main ways to figure out maximum demand for EV chargers: 1. Assessment One way to assess maximum demand is to list all...
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Understanding Load Management System in EV Chargers
The Load Management System helps regulate the charging rate in various EV chargers with the available power. This means that more vehicle chargers can be installed and ensures optimum charging time for the driver. With load management, you can: Charge more Install maximum vehicle...
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Types of Electric Vehicle Chargers – A Brief Comparison
Electric vehicle chargers (EV chargers) come in different types, each designed to meet various charging needs. Understanding these options can help you choose the right charger for your situation. The following are the main types of EV chargers: 7kW EV Charger A 7kW EV...
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Maximum Limits for Voltage Drop and Voltage Rise
Section 3.6 of AS/NZS 3000:2018 states that a maximum limit for a maximum value of voltage drops should not be more than 5% of the rated supply voltage between the source and a point in the electrical system. This is quite necessary for ensuring...
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Top EV Charger Brands in Local and International Market
As the world transitions towards a more sustainable future, EV charger brands are becoming center stage. With the ever-increasing number of drivers choosing electric over conventional gasoline-powered cars, the demand for reliable and efficient EV charging infrastructure is at an all-time high. In Australia,...
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Horizon Power – A Guide to PowerFactory Modelling
Horizon Power provides comprehensive requirements for computer models of facilities connecting to its networks to ensure safety, performance, and reliability. This article synthesizes key information from Horizon Power’s guidelines regarding the modelling requirements, assessment processes, and specific technical standards. Overview of Modelling Requirements Horizon...
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Transient Analysis and Power System Studies
Transient Analysis is a branch of study of the response of a power system during abnormal conditions, including those caused by faults, a change in load, or switching operations. This focuses on the dynamic response of stability, protection mechanisms, and power quality. Characteristics of...
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Understanding Load Flow Study – Key Concepts
A load flow study, often known as a power flow study, determines the voltage, current, power flows, and losses in an electrical power system under steady-state conditions. It’s really important for understanding how the power transmits throughout the network, for system performance evaluation, and...
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