Free Expert Guides on Power Systems, Circuit Design & Electrical Troubleshooting

Basic concept In electricity, "bypass" refers to providing an alternative path for electric current to bypass a certain element, circuit, or part of a device. This alternative path is usually connected in parallel with the main path. When certain conditions are met (such as a signal of a specific frequency or a current exceeding a certain amplitude), the current will preferentially or partially pass through the bypass. Application scenarios Principle: In electronic circuits, a capacitor is

Differences between Overcurrent Relays and Directional Overcurrent RelaysCurrent relays and directional overcurrent relays are both devices used to protect power systems, but they have different functions and application scenarios.Current RelayA current relay is a protective device mainly used to detect whether the current in the circuit exceeds the preset rated value. When the current in the circuit exceeds the set value, the current relay quickly cuts off the circuit or sends an alarm signal t

The most effective way to use large capacitors mainly depends on the specific application scenario. Here are some common application scenarios and their usage methods: Energy Storage: Large capacitors can be used for energy storage, especially in situations where a large amount of energy needs to be released quickly. For example, in audio systems, large capacitors store energy for the amplifier to use on demand. Uninterruptible Power Supply (UPS)- In a UPS, large capacitors can serve as a backup

When an alternating current passes through a coil, the following situations occur:I. Electromagnetic effects1. Generation of a magnetic fieldWhen an alternating current passes through a coil, an alternating magnetic field is generated around the coil. The intensity of this magnetic field changes with the change of current.For example, in an electromagnet, when an alternating current passes through a coil, a magnetic field that attracts ferromagnetic objects is generated. The direction and intens

In a three-phase system, when supplying power to a three-phase appliance with a star (Y-type) connected heating load where each phase draws different current values, it is typically necessary to include a neutral conductor (Neutral Conductor) in the cable. Below are two main reasons why a neutral conductor is needed:1. Balancing Unbalanced LoadsUnbalanced Load SituationIn practical applications, perfectly balanced three-phase loads are rare. If the three-phase appliance draws different current v

High impedance electrical faults (High Impedance Fault, HIF) and low impedance faults differ significantly in their characteristics and the hazards they pose in electrical systems. Understanding these differences is crucial for fault diagnosis and prevention. Here are the basic distinctions between the two types of faults and how to identify them:High Impedance Electrical Fault (HIF)Characteristics Higher Impedance: In high impedance electrical faults, the impedance at the fault point is higher,

Difference between Reactive Power and Resistance PowerReactive power and resistive power (real power) are two fundamental but distinct concepts in a power system. They describe different aspects of the energy storage and conversion processes within a power system.1. Definition and Physical MeaningReactive Powerrefers to the power generated when current flows through a capacitor or inductor in an AC circuit. It does not perform any actual power conversion or energy transfer but is used to compens

Here are some things that use a 480-volt power supply:I. Industrial equipment fieldLarge electric motorsIn industrial production, many large electric motors require a higher voltage to provide sufficient power. For example, electric motors used to drive large fans, pumps, compressors and other equipment usually adopt 480 volts. These motors have relatively large power, generally ranging from several tens of kilowatts to several hundred kilowatts or even higher.For example, in a chemical plant, t

The relationship between reactance, resistance, and impedance1. ResistanceResistance is a hindrance to the flow of current in the circuit, which only considers the resistance properties in the AC circuit. The unit of resistance is ohm (Ω), and its calculation formula is as follows:R= V/IV is for voltageI is for currentResistance is present in both DC and AC circuits, but in AC circuits it is only part of the impedance.32. ReactanceReactance is the obstruction effect caused by alternating current

When current flows through a circuit with lower voltage from a higher voltage, several scenarios may occur: Damaged Circuit Components: Circuits with lower voltages may not be able to withstand higher voltages, leading to the burning or permanent damage of components within the circuit (such as resistors, capacitors, transistors, etc.). Performance Degradation: Even if components are not immediately damaged, higher voltages can lead to a decline in circuit performance, such as changes in the ope