Analysis on electromagnetic compatibility of power supply electronic equipment

Based on the electromagnetic interference properties, it can be divided into functional interference sources and non-functional interference sources.

Functional interference sources refer to direct interference to other devices caused by the equipment in the process of realizing its functions; non-functional interference sources refer to side effects that are produced or additionally produced by electrical devices while realizing their own functions, such as arc discharge interference caused by closing or cutting off switches.

According to the frequency range of the interference signal, the interference sources can be divided into power frequency and audio interference sources ( 50Hz and its harmonics), very low frequency interference sources ( below 30Hz ), carrier frequency interference sources ( 10kHz~300kHz ), radio frequency and video interference sources ( 300kHz ), and microwave interference sources ( 300MHz~100GHz ).

Based on the internal and external factors of electronic equipment, it can be divided into internal interference and external interference.

Internal interference refers to the mutual interference between components inside electronic equipment, including the following:

Interference caused by leakage of the working power supply through the distributed capacitance and insulation resistance of the line ( related to the working frequency ) ; interference caused by mutual coupling of signals through the impedance of the ground wire, power supply and transmission wire, or mutual inductance between wires; interference caused by heating of certain components inside the equipment or system, affecting the stability of the component itself or other components; interference caused by magnetic fields and electric fields generated by high-power and high-voltage components affecting other components through coupling.

External interference refers to the interference of factors outside the electronic equipment or system to the line, equipment or system, including the following:

External high voltage and power supply interfere with electronic circuits, equipment or systems through insulation leakage; external high-power equipment generates a strong magnetic field in space, interfering with electronic circuits, equipment or systems through mutual inductance coupling; interference caused by electromagnetic waves in space on electronic circuits or systems; interference caused by unstable working environment temperature, which causes changes in the parameters of internal components of electronic circuits, equipment or systems; equipment powered by industrial power grids and interference caused by the grid voltage through power transformers.

4. Interference transmission pathways

When the frequency of the interference source is high, the wavelength of the interference signal is smaller than the structural size of the interfered object, or the distance between the interference source and the interfered object is r>> λ/ 2π , the interference signal can be considered as a radiation field, which radiates electromagnetic field energy outward in the form of a plane electromagnetic wave and enters the path of the interfered object.

The interference signal enters the interfered line, equipment or system in the form of leakage and coupling through insulating supports (including air) and coupling through common impedance.

Interference signals can be introduced into lines, equipment or systems through direct conduction.

5 Basic principles of electromagnetic compatibility design

5.1 Grounding

Grounding has three functions:

Grounding ensures that all unit circuits in the entire circuit system have a common reference zero potential, ensuring that the circuit system can operate stably.

Prevent interference from external electromagnetic fields. Grounding the chassis allows a large amount of charge accumulated on the chassis due to electrostatic induction to be discharged through the ground. Otherwise, the high voltage formed by these charges may cause spark discharge inside the equipment and cause interference.

Ensure safe work. When electromagnetic induction of direct lightning occurs, it can avoid the destruction of electronic equipment; when the input voltage of the industrial frequency AC power supply is directly connected to the casing due to poor insulation or other reasons, it can avoid electric shock accidents of operators.