Technical Library | 2023-09-16 03:51:09.0
Automatic eyelet pin insert machines are the most efficient way to install eyelets. They can quickly and accurately insert eyelets into a variety of materials, including leather, fabric, and plastic.
Technical Library | 2023-09-16 04:04:13.0
Online axial insertion machines are a fast and efficient way to insert components into PCBs. They are ideal for mass production applications where accuracy and repeatability are essential.
Technical Library | 2023-09-16 03:55:52.0
Odd form insertion machines are the perfect solution for unique applications where standard machines cannot be used. They can insert a variety of odd-shaped components, such as rivets, washers, and studs.
Technical Library | 2023-09-16 06:02:10.0
Discover our cutting-edge online radial insertion machine for precise and efficient PCB assembly. Elevate production speed and accuracy with advanced technology.
Technical Library | 2019-11-07 08:59:14.0
Inductors realized with high permeable MnZn ferrite require, unlike iron-powder cores with an inherent dis-tributed gap, a discrete air gap in the magnetic circuit to prevent saturation of the core material and/or tune the inductance value. This large discrete gap can be divided into several partial gaps in order to reduce the air gap stray field and consequently the proximity losses in the winding. The multi-gap core, realized by stacking several thin ferrite plates and inserting a non-magnetic spacer material between the plates, however, exhibits a substan-tial increase in core losses which cannot be explained from the intrinsic properties of the ferrite. In this paper, a comprehensive overview of the scientific literature regarding machining induced core losses in ferrite, dating back to the early 1970s, is provided which suggests that the observed excess core losses could be attributed to a deterioration of ferrite properties in the surface layer of the plates caused by mechanical stress exerted during machining.
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