The research on electromagnetic performance and anti-interference of agricultural copper forgings is mainly to evaluate and improve its performance in electromagnetic environment, ensure its normal operation and reduce the influence of electromagnetic interference on it. The following will introduce the main contents and methods of electromagnetic performance and anti-interference research of agricultural copper forgings.
- Electromagnetic performance research
(1) Electromagnetic compatibility test: By conducting electromagnetic radiation and conduction tests on agricultural copper forgings, evaluating their electromagnetic radiation levels and tolerance to ensure that they will not interfere with surrounding equipment and systems.
(2) Shielding effectiveness test: shielding effectiveness test of agricultural copper forgings to evaluate its shielding ability to external electromagnetic signals.
(3) Coupling and crosstalk analysis: By means of finite element analysis, electromagnetic field simulation and experimental testing, the electromagnetic coupling and crosstalk phenomenon between agricultural copper forgings and other equipment is studied, potential problems are identified and corresponding solutions are proposed.
(4) Material selection: Select materials with good electromagnetic properties, such as copper alloys with high electrical conductivity, to improve the electromagnetic properties of agricultural copper forgings.
- Anti-interference research
(1) Interference source analysis: Investigate and analyze the electromagnetic environment of agricultural copper forgings to determine potential interference sources, including wired and wireless communication equipment, power systems, lightning and so on.
(2) Anti-interference design: According to the characteristics of the interference source and the working requirements of agricultural copper forgings, effective anti-interference measures are taken, such as ground wire design, filter design, shielding optimization, grounding design, etc., to reduce or isolate external interference.
(3) Fault simulation and analysis: Through electromagnetic field simulation and experimental testing, simulate and analyze the working state of agricultural machinery copper forgings under different interference conditions, evaluate its anti-interference performance, and find out potential fault causes and solutions.
(4) Compliance with standard specifications: comply with relevant electromagnetic compatibility standards and specifications, such as IEC 61000 series standards, to ensure that the electromagnetic compatibility of agricultural copper forgings meets the requirements.
In summary, the research on electromagnetic performance and anti-interference of agricultural copper forgings is to ensure its normal operation in electromagnetic environment and reduce the interference to surrounding equipment and systems. The electromagnetic compatibility, shielding ability and working stability of copper forgings of agricultural machinery can be improved through the study of electromagnetic properties and anti-interference design, so as to ensure its reliability and safety.
