Since its magnetic field is activated by electricity, it is possible to control when and how the magnetic field can be used.Īll wires produce a weak magnetic field when electricity passes through them. This particular problem is not part of the operation of a hydraulic solenoid coil. ![]() The problem with a magnet is that once magnetized, it cannot be turned off, and it continually emits its magnetic field. Magnets can be pointed at metal objects and change the direction of the object or its position. There are two key components to a hydraulic solenoid coil: its magnetic field and electricity. Working Principle of Hydraulic Solenoid Valve Coil The classes of copper wire that have the characteristics and properties needed for solenoid coils are classes F, H, and N.Ĭlass F copper windings can withstand temperatures exceeding 155° C and work well in ambient temperatures of 20° C with media up to 100° C.Ĭlass H windings can withstand temperatures in excess of 180° C and operate well in 50° C with media at 180° C.Ĭlass N windings work well at temperatures that exceed 200° C and an ambient temperature of 80° C with media up to 200° C. There are other types of wire available, but none of them have the same conductivity and pliability as copper. What is the Insulation Grade of the Hydraulic Solenoid Valve Coil?Ĭopper wire is the most common type of wire that is used to construct a solenoid coil. Hydraulic solenoid valve coils are one of the simplest forms of linear actuation devices. ![]() When an electrical current is passed through the coil, the electromagnetic field that is created provides energy for linear motion. ![]() Hydraulic solenoid coils are a common electrical component that uses a wire that is tightly wrapped around a core, usually made of metal, to generate an electromagnetic field. How Does the Hydraulic Solenoid Valve Coil Work?
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