According to Desselau engineers, if the electrical design of the M12 connector is not properly designed, it can lead to problems such as poor electrical conductivity, unstable signal transmission or excessive contact resistance.
Failure to fully consider the mechanical strength of the connector in the design may lead to breakage, deformation or loosening during use.
Failure to fully consider the performance of the connector in high temperature, low temperature, humidity, salt spray and other environments may lead to premature corrosion, oxidation or aging.
In the manufacturing process, if the process control is not strict, it may cause defects in the internal structure of the connector, such as poor welding, uneven injection molding, etc., which will affect its electrical and mechanical properties.
During the assembly process, if the individual parts of the connector are not properly installed or secured, it may lead to problems such as loosening, falling off or poor contact during use.
During use, if a connector is subjected to current, voltage, or mechanical stress in excess of its rated value, it may result in damage to its electrical and mechanical properties.
Drastic changes in temperature can have an impact on the material of the M12 connector, resulting in a decrease in its mechanical and electrical properties. Long-term high temperatures can accelerate the aging process of materials.
In wet or salt spray environments, the metal parts of M12 connectors may corrode, affecting their electrical properties and mechanical strength.
Constant vibration or shock may cause the components of the M12 connector to loosen, wear or fatigue breakage, affecting its normal use.
High electromagnetic fields can interfere with the signal transmission of M12 connectors, resulting in signal distortion or reduced stability.
Failure to clean M12 connectors regularly can lead to the accumulation of dust, dirt or other contaminants that can affect their electrical performance and proper functioning of their mechanical structure.
Some M12 connectors have a lifetime limit. Failure to replace the material beyond this period may result in material deterioration, reduced performance, or increased risk of failure.
Improper repair methods can cause further damage to the M12 connector or reduce its performance. For example, incorrect welding operations can damage conductive paths inside or introduce new contact problems.
Storing M12 connectors in an uncomfortable environment for long periods of time may result in degradation of their material properties or unnecessary damage. For example, environmental factors such as too high or too low temperature, too high humidity, or the presence of corrosive gases can cause damage to connectors.