M7571-46

Series:	M75
Packaging:	Bulk
Part Status:	Active
Type:	Open Top
Gender:	Female Sockets
Number of Positions or Pins (Grid):	2 (1 x 2)
Pitch:	0.100" (2.54mm)
Height:	0.248" (6.30mm)
Contact Finish:	Tin
Contact Finish Thickness:	118.1µin (3.00µm)
Color:	Blue

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M7571-46 Application Field and Working Principle Shunts and jumpers are an important part of the M7571-46 sintering process, a process used for the production of ceramic industrial components. Shunts and jumpers are used to create specific passage paths in a sintered ceramic body. These terms describe the function of a single or multiple metal form that is inserted into a ceramic body. The metal form assists in creating a thermal or electrical contact between the walls and the other functions within the ceramic body.Shunts are often used to create series circuits and/or pathways of electrical contacts in a ceramic body. A shunt is a conductor placed between two conductive material components in order to create an electrical connection between them. Shunts provide electrical continuity throughout the ceramic body and increase its electrical capability. Shunts also allow for the efficient transfer of electrical current through the body and help to reduce electrical losses.Jumpers are commonly used to create chains of electrical contacts in a sintered ceramic body. A jumper is a metal conductor or connector that is positioned between two parts of the same ceramic body or between two component layers. Jumpers connect two separate ceramic layers or components and create a pathway for electrical current. This type of electrical interconnect allows for the efficient transfer of current from one component layer to the other.The M7571-46 process utilizes shunts and jumpers to produce ceramic components of superior electrical characteristics. This process is commonly used in the production of ceramic capacitors, varistors, thermistors, and other high-performance electronic components. The shunt and jumper technology employed in the M7571-46 process allows for the efficient transfer of current from the ceramic body to the component layers while maintaining the structural integrity of the ceramic body.The M7571-46 process utilizes two distinct types of ceramic materials. The first material is an aquelamic material, which is composed of an inorganic material. The aquelamic material is then sintered with a metal oxide to form a porous structure. The second type of material is a dielectric material. The dielectric material is composed of a dielectric material such as aluminium oxide, zinc oxide, or magnesium oxide. This material is then processed with a metal oxide to form a low-loss, porous and isotropic ceramic material. The M7571-46 process consists of multiple steps, including a sifting process, a mixing process, a forming process, a drying process, a firing process, and a polishing process. During the mixing process, the aquelamic material is mixed with the metal oxide to form the porous structure. During the forming process, the metal oxide and aquelamic mix material is cast. The casting is then fired and the metal oxide and aquelamic material are fused together to form a single ceramic body.During the firing process, the shunt and jumper elements are inserted into the ceramic body. The shunt elements are placed in parallel to the component layers and the jumpers are placed between the two layers. The ceramic body is fired at a high temperature to fuse the shunt and jumper elements with the ceramic body. After the firing process is completed, the ceramic body is polished to create a smooth surface and the electrical contacts are made.The shunt and jumper elements allow for the efficient transfer of electrical current from one component layer to another without having to run complicated wiring networks. The shunt and jumper elements reduce the amount of heat lost during the firing process and create a more reliable electrical system. The efficient electrical connections also make the ceramic component more durable and reliable, as well as being able to withstand extreme temperature variations.Overall, the M7571-46 process is a very efficient and cost-effective way to create ceramic components with superior electrical characteristics. The use of shunt and jumper elements allows for the efficient transfer of electrical current from one component layer to the other. This technology has enabled the production of reliable, durable, and high-performance ceramic components.

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