ELECTRODE DEVICE OF GAS-INSULATED SWITCH
The present invention refers to case of head inside stable is order to ensure insulation with yttrium coating layer made of said conductor the pin is rounded to minimize the a shape for, more specifically gas insulated switch relates to device electrode. Generally recent field of industry for electric power demand and waste gas are generated from a sudden system diagram mirror array is to prevent the deflection mass, which is is high, according to is very reliability stabilization and of power facilities not produced the important matters acted on of wet liquid to flow down. According to a sudden power demand difficult securing an for protecting paper and deionized high, maintenance cost for practicing, main circuit a mobile portable handset, such as ensuring safety an enclosed system, the control system and concealment a digitalization which is formed as the upper achieved with, such trend for co-firing LCR and oil air or of a gas-insulated type deionized deionized're going are replaced with. Gas insulated switchgear (GIS: Gas Insulated Switchgear) has a circuit breaker device, disconnector, folding switch open/shut-off equipment and, transformer, arrester, main circuit seperate bus bar metal or the like is received and collective and in a pressure vessel, number, and a charging part (spacer) solid insulation at a predetermined position of which supported SOHO performance and and the solder bump includes the insulating tank a water SF6 gas insulating medium deionized sealing the filled with on. processing system. This gas insulated switchgear device a separating group search reference disconnector recorded in the machining program, breaker, grounding switch by unit operated with, device management of the decoration plate further comprises an efficiently a pluratliy of occupied-volume and paper device the character, recent gas insulated switchgear device P11, P12 associated areas of technology ECS is developed very active, time. In particular breaker to be inner insulation layered circuit board conductor embodiment insulating coating as well as a to electric field concentration or for field is is formed integrally with the screw and effort to prevent, a 1Layer said insulating coating as well as a material for a coating on the stable as insulating material is provided to achieve a is induced at. In particular said gas insulated switchgear device for a shortened vertically; and a railing imide and a self-lubricated device gas insulated switchgear for size of is reduced interval disposed between equipment while relatively closer thereby packages are manufactured at a gas pin is rounded gaseous isolating excellent isolation despite injection layer base to the opposite side of the force is outputted from an audio signal is. In addition of the existing method made conductor portion said insulating coating generated by surface roughness of conductor portion in question such that the surfaces with the carbon is made to a non-archived state a robot picks the chip with stability and a truncated detects the amount of the gas to the caused no warping Figure while for a frame counter requires of lightning countermeasure for aerial. Examples of the present invention embodiment gas insulated switchgear electrode line to the pin is rounded and the insulation gas an electric field with an intensity of insulation and is stable, and weakening that can hold gas insulated switch. provides device electrode. A gas insulation by of the present invention number 1 in the embodiment device electrode switch outside the processing chamber, and a conductor is located inside a case for surface layer an electric field in order to reduce the a coated dielectric constant number 1 number 1 coating layer; and said number 1 coating layer and are relatively low than said number 1 number 2 number 2 a coated dielectric constant includes coating layer.
A minimum dielectric constant 3.0 9.0 maximum or more within said number 1 with a black color for an excellent in that. Said number 1 dielectric used in an oxide aluminum or epoxy resin (epoxy resin) a dielectric material at least one of the and selectively using is characterized in that. Said number 2 coating layer to relatively thick compared coating said number 1 coated thickness., characterized in that it comprises. Said number 1 minimum thickness coated coating layer 3 micro meters or more within predetermined maximum 1 with a black color for an excellent in that.
A minimum dielectric constant maximum 5.0 2.0 or more within said number 2 with a black color for an excellent in that. Said number 2 dielectric used in an epoxy resin (epoxy resin) or a dielectric material (polytetrafluoroethylene) one of ethylene tetrafluoroethane and selectively using characterized in that. Said number 2 minimum thickness coated coating layer 30 within predetermined maximum 10 micro meters or more with a black color for an excellent in that.
Dielectric constant at least the difference in the dielectric constant and said number 1 number 2 characterized in that 1 or more. Said conductor etching tunnel prior to coating layer formatied said number 1,2 (tunnel etching) through tertiary surfaces 1 after the processing is done (electro polishing) electrolytic polishing lane 2 is characterized in that the processing is done. A gas insulation by of the present invention number 2 in the embodiment device electrode switch the processing chamber, and a conductor is located inside a case for a surface layer of an electric field having 5.0 in order to reduce the dielectric constant made of number 1 number 1 coating layer; and said number 1 coating layer and are relatively low than said number 1 number 2 number 2 made of dielectric constant of 2.1 includes coating layer. Said number 1 minimum thickness coated coating layer 3 micro meters or more within predetermined maximum 1 with a black color for an excellent in that. Said number 2 minimum thickness coated coating layer 30 within predetermined maximum 10 micro meters or more with a black color for an excellent in that. A gas insulation by of the present invention number 3 in the embodiment device electrode switch the processing chamber, and a conductor is located inside a case for a surface layer of an electric field having 5.0 in order to reduce the dielectric constant made of number 1 number 1 coating layer; and said number 1 coating layer and are of relatively low than 2.1 said number 1 number 2 number 2 coating layer is made of dielectric constant, said number 2 coating layer to relatively thick compared coating said number 1 coated thickness., characterized in that it comprises. Said number 1 dielectric constant dielectric material used in an oxide aluminum or epoxy resin (epoxy resin) at least one of the and selectively using is characterized in that. Said number 2 dielectric constant dielectric material used in an epoxy resin (epoxy resin) or tetrafluoro ethylene (polytetrafluoroethylene) at least one of the and selectively using is characterized in that. Examples of the present invention embodiment for minimizing surface roughness of conductor coating layer coating, adhesion is improved and the number 1,2, coated with yttrium are concentrated on the layer an electric field in said conductor with a bent unit can be reduced in case maximum field the insulation gas that is poured in a strenthening by relieving the objective compound.. Examples of the present invention embodiment of a case size to pass through the conductors of the interval between adjacent even that when the delivery system is placed preservation strenthening minimizing oxide whose dielectric breakdown voltage of the penetration hole while moving up and down. By also Figure 1 shows a device of the present invention number 1 in the embodiment is provided with a gas insulation switch electrode side it is shown a one example. Also Figure 2 shows a device of the present invention number 1 in the embodiment by a gas insulation switch electrode species cross section. A gas insulation switch of the present invention number 1 in the embodiment also Figure 3 shows a device electrode by the distance between group and experimental according to an electric field with an intensity timing graph. Figure 4 shows a also of the present invention number 2 in the embodiment by a gas insulation switch electrode device species cross section. Figure 5 shows a also of the present invention number 3 in the embodiment by a gas insulation switch electrode device species cross section. By a gas insulation switch electrode device (1) of the present invention number 1 in the embodiment of the insulated gas is implanted is located within the interior of the case a bus bar conductor (bus bar conductor) (Bushing conductor) conductor or bushing one or the insulation gas which are impregnated with an field due to high voltage case to mitigate other the use is usable in all components applied so that an electric shown in drawing has by not limiting the aspect. A gas insulation by also with reference to Figure 1 shows a device electrode switch of the present invention number 1 in the embodiment is provided with a drawing and it is shown a one example, by Figure 2 of the present invention number 1 in the embodiment a gas insulation switch electrode is cross-sectional drawing species device, by Figure 3 of the present invention number 1 in the embodiment a gas insulation switch electrode device and experimental group is graph timing an electric field with an intensity according to the distance between. 2 door appended also to 1 refers to surface, gas insulated switch device (1) electrode conductors (2) a surface layer of number 1 having permittivity different each coating layer (10) and number 2 coating layer (20) which coated with, said number 1 coating layer (10) conductor (2) an electric field for outside surface layer in order to reduce the coated dielectric constant made number 1, said number 2 coating layer (20) the number 1 coating layer and are relatively low than said number 1 number 2 consisting of coated dielectric constant. In the embodiment the present in particular a number 1 coating layer (10) and number 2 coating layer (20) rapidly increases in temperature by oxidation different dielectric, said number 1 coating layer (10) the number 1 3.0 9.0 maximum or more a minimum dielectric constant is formed within, said number 2 number 2 a minimum dielectric constant dielectric layer is made from within maximum 5.0 2.0 or more. Wherein number 1 number 2 dielectric constant dielectric constant relatively large compared to the reason for this is that the conductor having permittivity (2) electric fields surface layer of relatively which are impregnated with an the insulation gas alleviates the case into the interior of an electric field is of the order to ensure. Said number 2 number 2 dielectric layer is composed dielectric constant field generated in the insulation gas said for lowering the first and second having a cross point, the different dielectric constant are formed on the first surface positioned therein case are concentrated on the specific conductor an electric field in stable even when insulating performance for maximum field the insulation gas is maintained as it is hereby possible to reduce is. In particular case the size of conductor plurality while taper controlling disposition intervals of between each other through the insulation gas part to stable insulating atmosphere and a surface layer of conductor with yttrium the electrodes forming the overcoat layer with groove is in a long circle shape is since the more advantageous. Number 1 number 1 the aforementioned dielectric layer dielectric constant ion implantation is chosen various range, minimum 3.0 meaning of inside a case is or a state with few number of, a relatively high degree of separation distance between plurality of conductor when sufficiently spaced apart in and corresponding to, 9.0 meaning of inside a case is many or the number of, between conductor plurality close a relatively high degree of separation distance can be the easily be arranged even in the presence of separation distance but dielectric constant of 9.0 number 1 to coating layer (10) product is available to also constitutes a. two found. Number 1 coating layer (10) used in an oxide aluminum dielectric material (epoxy resin) resin or epoxy any of the selectively which is used, corrosion and the aluminum oxide said of a wear-resistant resistant for primary usage therein so that the changes in which insulator easily worked as having features. Number 1 coating layer (10) is minimized (d1) thickness coated 3 micro meters or more predetermined maximum 1 the after alcoholic beverage it will do number 2 within the stator is formed of a coating layer (20) coated thickness (d2) and. coated with different thicknesses. Number 2 coating layer (20) of the dielectric constant number 2, formed to within 2.0 5.0 maximum or more minimum, said number 2 coating layer (20) such as the dielectric constant is maintained member finishes a burr by forcibly pressing the reason for this is that the case of head inside by the insulation gas with (2) peripheral insulating said number 1 the outside stably atmosphere is an atmosphere of a coating layer (10) dielectric constant number 1 of the gap is formed between the substrate consists of bent in the upward or downward direction. Number 2 coating layer (20) the number 1 coating layer (10) a relatively thick thickness as compared to coated occur, in one example coated minimum thickness 30 micro meters or more is formed within predetermined maximum 10 are electrically connected with each other through the insulation gas, and an electric field which to minimize. Number 2 dielectric constant dielectric material used in an epoxy resin (epoxy resin) or tetrafluoro ethylene (polytetrafluoroethylene) any of the selectively which is used, the aforementioned dielectric material and other similar to a dielectric substance is used which can be permitting. Number 2 coating layer (20) the number 1 coating layer (10) a relatively thick thickness as compared to coated occur, said number 2 coating layer (20) depending on the thickness of an a conductor specific locations in the insulation gas maximum field of the invention exhibits a relatively small, and can be made such as on number 2 coating layer (20) thickness of coating layer number 1 (10) is made from thickness rather than thickness of. In addition conductor (2) considering the surface layer roughness arranged to be opposed to each other the most electric field concentration containing a highly number 1 embodiment and a corrosion of dielectric constant, said number 2 coating layer (20) an insulating gas to minimize the maximum field insulating layer number 1 that a relatively low than number 1 number 2 consisting of coated dielectric constant. Dielectric constant the difference in the dielectric constant and said number 1 number 2 there remains a stable at least 1 or more to maintain insulation 1 which it is desired to have the results and the one or more differences which, when conductor 1 hereinafter, or held in the (2) a surface layer of an electric field concentration for causing or, the insulation gas electric fields to a stable since difficult to maintain the 1. which it is desired to have the difference. Conductor (2) the surface layer roughness according to which can be altered in terms of electric field concentration, said conductor (2) of swinging and a edge in layer the surface on the angular section is to the greatest extent excluded rapidly increases in temperature by oxidation preferably remains in, the present in the embodiment in the case of coating layer said number 1,2 (10,20) to the formation of the holes 1 through (tunnel etching) etching tunnel prior to tertiary surfaces after the processing is done 2 lane electrolytic polishing (electro polishing) processing is takes place said conductor (2) are electrically connected with each other through the interlayer dielectric to minimizing. Embodiment using a phosphate etching tunnel which, in one example conductor (2) drawing a surface layer of uneven as shown in and made the vertical direction, electrolytic polishing processing edge portion protruding through origin round is to the greatest extent excluded of round. made the vertical direction. Tunnel and with electrolytic polishing processing is done when conductor (2) number 1 to be formed in a surface of coating layer (10) and number 2 coating layer (20) stable coating it is possible to, the pin is rounded penetration hole while moving up and down a bent unit. Figure 3 shows a with an electrode of the present invention number 1 in the embodiment also by a gas insulation switch device and experimental group an electric field with an intensity according to the distance between as shown in the graph, an experiment using a computer to group thin line shown of graph 1 and, [...] experiment group a shown chain line one point where a is 2, a of graph heavier line the present invention and shown, an experiment using a computer to graph timing in dotted lines is 3 group. 1 group with reference to experiment the conductor coating layer formatied in the absence the n bit parallel data inputted demonstrated that despite an electric field with an intensity according to distance, conductors 2 group experiment at this time, a single to form a coating layer in a state into its original demonstrated that despite an electric field with an intensity, experiment group having a low dielectric constant conductor 3 to form a coating layer a single, we have demonstrated that despite an electric field with an intensity in a state. Experiments the present invention a double coating layer field intensity according to distance of electrodes 3 to 1 compared to the experiment group were kept relatively low since conductor by the present invention (10) outside of coating layer number 1 (10) and number 2 coating layer (20) is formed configuration is a conductor (10) to prevent a thin film electric field tubes is, so as to produce a relatively risk for dielectric breakdown of the thick dielectric the height can be viewed. Door appended refers to surface 4, by a gas insulation switch electrode device (1a) of the present invention number 2 in the embodiment the case positioned therein conductor (2) an electric field for a surface layer of the polyurethane film is fixed by using mitigating consisting of 5.0 dielectric constant number 1 number 1 coating layer (100); and said number 1 coating layer (100) formed outside said number 1 and number 2 relatively low than 2.1 dielectric constant made of number 2 coating layer (200) includes. Gas insulated switch electrode device (1a) has the aforementioned number 1 in the embodiment being different from number 1 coating layer (100) of the dielectric constant and number 2 coating layer (200) field optimal dielectric constants capable of retaining state a particular dielectric constant corresponding advertisement based on the shown list defined by said number 1 coating layer (100) of the dielectric constant and number 1 number 2 coating layer (200) of conductor due to dielectric constant number 2 (2) the surface and the light-layer pin is rounded and is relieved, and the, number 2 coating layer (200) of an electric field is of the insulation gas due to dielectric constant number 2 diffuses from the can be. To this end the present invention refers to said number 1 coating layer (100) coated minimum thickness 3 micro meters or more is formed within predetermined maximum 1, said number 2 coating layer (200) coated minimum thickness 30 micro meters or more is made from within predetermined maximum 10. In the embodiment the present in particular a number 1 coating layer (100) and number 2 coating layer (200) rapidly increases in temperature by oxidation different dielectric, said number 1 number 2 dielectric constant dielectric constant relatively large compared to the reason for this is that the conductor having permittivity (2) electric fields surface layer of relatively which are impregnated with an the insulation gas alleviates the case into the interior of an electric field is of the order to ensure. Said number 2 number 2 dielectric layer is composed dielectric constant field generated in the insulation gas said for lowering the first and second having a cross point, the different dielectric constant are formed on the first surface positioned therein case are concentrated on the specific conductor an electric field in stable even when insulating performance for maximum field the insulation gas is maintained as it is hereby possible to reduce is. In particular case the size of conductor plurality while taper controlling disposition intervals of between each other through the insulation gas part to stable insulating atmosphere and a surface layer of conductor with yttrium the electrodes forming the overcoat layer with groove is in a long circle shape is since the more advantageous. Number 1 coating layer (100) dielectric material used in an oxide aluminum or epoxy resin (epoxy resin) any of the selectively which is used, corrosion and the aluminum oxide said of a wear-resistant resistant for primary usage therein so that the changes in which insulator easily worked as having features. Number 1 coating layer (100) thickness coated 3 micro meters or more is minimized (d1) within predetermined maximum 1 number 2 the after alcoholic beverage it will do the stator is formed of a coating layer (200) coated thickness (d2) and. coated with different thicknesses. Number 2 coating layer (200) the number 1 coating layer (100) a relatively thick thickness as compared to coated occur, in one example coated minimum thickness 30 micro meters or more is formed within predetermined maximum 10 are electrically connected with each other through the insulation gas, and an electric field which to minimize. Number 2 dielectric constant dielectric material used in an epoxy resin (epoxy resin) or tetrafluoro ethylene (polytetrafluoroethylene) any of the selectively which is used, the aforementioned dielectric material and other similar to a dielectric substance is used which can be permitting. Number 2 coating layer (200) the number 1 coating layer (100) a relatively thick thickness as compared to coated occur, said number 2 coating layer (200) depending on the thickness of an a conductor specific locations in the insulation gas maximum field of the invention exhibits a relatively small, and can be made such as on number 2 coating layer (200) thickness of coating layer number 1 (100) is made from thickness rather than thickness of. In addition conductor (2) considering the surface layer roughness arranged to be opposed to each other the most electric field concentration containing a highly number 1 embodiment and a corrosion of dielectric constant, said number 2 coating layer (200) an insulating gas to minimize the maximum field insulating layer number 1 that a relatively low than number 1 number 2 consisting of coated dielectric constant. Dielectric constant the difference in the dielectric constant and said number 1 number 2 there remains a stable at least 1 or more to maintain insulation 1 which it is desired to have the results and the one or more differences which, when conductor 1 hereinafter, or held in the (2) a surface layer of an electric field concentration for causing or, the insulation gas electric fields to a stable since difficult to maintain the 1. which it is desired to have the difference. Conductor (2) the surface layer roughness according to which can be altered in terms of electric field concentration, said conductor (2) of swinging and a edge in layer the surface on the angular section is to the greatest extent excluded rapidly increases in temperature by oxidation preferably remains in, the present in the embodiment in the case of coating layer said number 1,2 (100,200) to the formation of the holes 1 through (tunnel etching) etching tunnel prior to tertiary surfaces after the processing is done 2 lane electrolytic polishing (electro polishing) processing is takes place said conductor (2) are electrically connected with each other through the interlayer dielectric to minimizing. Embodiment using a phosphate etching tunnel which, in one example conductor (2) drawing a surface layer of uneven as shown in and made the vertical direction, electrolytic polishing through origin round is to the greatest extent of edge portion rounded in the form. made the vertical direction. Tunnel and with electrolytic polishing processing is done when conductor (2) to be formed in a surface of coating layer number 1 (100) and number 2 coating layer (200) stable coating it is possible to, the pin is rounded penetration hole while moving up and down a bent unit. A gas insulation by device electrode switch of the present invention number 3 in the embodiment to described the reference to drawing. 5 door appended refers to surface, gas insulated switch device (1b) electrode conductor positioned therein the case (2) an electric field for a surface layer of the polyurethane film is fixed by using mitigating number 1 number 1 coating layer consisting of 5.0 dielectric constant (1000); and said number 1 coating layer (1000) formed outside relatively low than said number 1 and number 2 number 2 coating layer made of 2.1 dielectric constant (2000) comprising a, said number 2 coating layer (2000) the number 1 coating layer (1000) a relatively thick thickness as compared to coated, characterized in that it comprises.. Said number 2 coating layer (2000) number 1 is (d2) thickness of coating layer (1000) is formed larger in thickness than (d1) thickness of coating layer the reason for this is that the number 2 (2000) depending on the thickness of an a conductor specific locations in the insulation gas maximum field of the invention exhibits a relatively small, and can be made such as on number 2 coating layer (2000) thickness of coating layer number 1 (1000) is made from thickness rather than thickness of. Said number 1 coating layer (1000) coated minimum thickness 3 micro meters or more is formed within predetermined maximum 1, said number 2 coating layer (2000) coated minimum thickness 30 micro meters or more is made from within predetermined maximum 10. In the embodiment the present in particular a number 1 coating layer (1000) and number 2 coating layer (2000) rapidly increases in temperature by oxidation different dielectric, said number 1 number 2 dielectric constant dielectric constant relatively large compared to the reason for this is that the conductor having permittivity (2) electric fields surface layer of relatively which are impregnated with an the insulation gas alleviates the case into the interior of an electric field is of the order to ensure. Said number 2 number 2 dielectric layer is composed dielectric constant field generated in the insulation gas said for lowering the first and second having a cross point, the different dielectric constant are formed on the first surface positioned therein case are concentrated on the specific conductor an electric field in stable even when insulating performance for maximum field the insulation gas is maintained as it is hereby possible to reduce is. In particular case the size of conductor plurality while taper controlling disposition intervals of between each other through the insulation gas part to stable insulating atmosphere and a surface layer of conductor with yttrium the electrodes forming the overcoat layer with groove is in a long circle shape is since the more advantageous. Number 1 coating layer (1000) dielectric material used in an oxide aluminum or epoxy resin (epoxy resin) any of the selectively which is used, corrosion and the aluminum oxide said of a wear-resistant resistant for primary usage therein so that the changes in which insulator easily worked as having features. Number 1 coating layer (1000) coated minimum thickness 3 micro meters or more predetermined maximum 1 the after alcoholic beverage it will do number 2 within the stator is formed of a coating layer (2000) coated thickness and. coated with different thicknesses. Number 2 coating layer (2000) the number 1 coating layer (1000) a relatively thick thickness as compared to coated occur, in one example coated minimum thickness 30 micro meters or more is formed within predetermined maximum 10 are electrically connected with each other through the insulation gas, and an electric field which to minimize. Number 2 dielectric constant dielectric material used in an epoxy resin (epoxy resin) or tetrafluoro ethylene (polytetrafluoroethylene) any of the selectively which is used, the aforementioned dielectric material and other similar to a dielectric substance is used which can be permitting. Conductor (2) considering the surface layer roughness arranged to be opposed to each other the most electric field concentration containing a highly number 1 embodiment and a corrosion of dielectric constant, said number 2 coating layer (2000) an insulating gas to minimize the maximum field insulating layer number 1 that a relatively low than number 1 number 2 consisting of coated dielectric constant. Dielectric constant the difference in the dielectric constant and said number 1 number 2 there remains a stable at least 1 or more to maintain insulation 1 which it is desired to have the results and the one or more differences which, when conductor 1 hereinafter, or held in the (2) a surface layer of an electric field concentration for causing or, the insulation gas electric fields to a stable since difficult to maintain the 1. which it is desired to have the difference. Conductor (2) the surface layer roughness according to which can be altered in terms of electric field concentration, said conductor (2) of swinging and a edge in layer the surface on the angular section is to the greatest extent excluded rapidly increases in temperature by oxidation preferably remains in, the present in the embodiment in the case of coating layer said number 1,2 (1000,2000) to the formation of the holes 1 through (tunnel etching) etching tunnel prior to tertiary surfaces after the processing is done 2 lane electrolytic polishing (electro polishing) processing is takes place said conductor (2) are electrically connected with each other through the interlayer dielectric to minimizing. Embodiment using a phosphate etching tunnel which, in one example conductor (2) drawing a surface layer of uneven as shown in and made the vertical direction, electrolytic polishing through origin round is to the greatest extent of edge portion rounded in the form. made the vertical direction. Tunnel and with electrolytic polishing processing is done when conductor (2) to be formed in a surface of coating layer number 1 (1000) and number 2 coating layer (2000) stable coating it is possible to, the pin is rounded penetration hole while moving up and down a bent unit. Or more, but one of the present invention is described in the embodiment, corresponding in various technical fields claim grow having knowledge of conventional is within such a range that causes no away from idea of the present invention, additional components, changing, deleting or example, in adding a by the present invention various modified and change which would be able, in addition of the present invention is the pixels include methods using cross-linked anti-rights will. 2: conductor 10, 100, 1000: number 1 coating layer Coating layer 20, 200, 2000: number 2 Disclosed is an electrode device of a gas-insulated switch. According to an embodiment of the present invention, the electrode device of a gas-insulated switch includes: a first coating layer coated with first permittivity to alleviate an electric field for a surface layer of an outer side of a conductor located inside a case; and a second coating layer formed on the outer side of the first coating layer and coated with second permittivity which is relatively low in comparison with the first permittivity. COPYRIGHT KIPO 2016 Case outside conductor positioned therein an electric field for surface layer in order to reduce the a coated dielectric constant number 1 number 1 coating layer; and said number 1 coating layer and are relatively low than said number 1 number 2 number 2 coating layer a coated dielectric constant including gas insulated switch electrode device. According to Claim 1,
The dielectric constant said number 1,
Minimum 3.0 within 9.0 maximum or more coated with a characterized by gas insulated switch electrode device. According to Claim 1, said number 1 coating used in a dielectric material, aluminum oxide and is at least one of the epoxy resin (epoxy resin) and selectively using gas insulated switch electrode device. According to Claim 1, said number 2 coating layer, said number 1 coating compared to relatively thick thickness coated for practicing the method comprising a device electrode characterized by gas insulated switch. According to Claim 1, said number 1 coating layer, coated minimum thickness 3 micro meters or more coated with a within predetermined maximum 1 characterized by gas insulated switch electrode device.
Said number 2 the dielectric constant,
Minimum 2.0 within 5.0 maximum or more coated with a characterized by gas insulated switch electrode device. According to Claim 1, said number 2 coating used in a dielectric material, epoxy resin (epoxy resin) or tetrafluoro ethylene (polytetrafluoroethylene) one of and selectively using gas insulated switch electrode device. According to Claim 1, said number 2 coating layer, coated minimum thickness 30 within predetermined maximum 10 micro meters or more coated with a characterized by gas insulated switch electrode device. According to Claim 1,
The difference in the dielectric constant and said number 1 number 2 dielectric constant at least 1 or more device characterized by gas insulated switch electrode. According to Claim 1, said conductor etching tunnel prior to coating layer formatied said number 1,2 (tunnel etching) through tertiary surfaces 1 after the processing is done (electro polishing) electrolytic polishing lane 2 for practicing the method comprising a processing is characterized by gas insulated switch electrode device. Case for a surface layer of conductor positioned therein an electric field having 5.0 in order to reduce the dielectric constant made of number 1 number 1 coating layer; and said number 1 coating layer and are relatively low than said number 1 number 2 number 2 coating layer made of dielectric constant of 2.1 including gas insulated switch electrode device. According to Claim 11, said number 1 coating layer, coated minimum thickness 3 micro meters or more coated with a within predetermined maximum 1 characterized by gas insulated switch electrode device. According to Claim 11, said number 2 coating layer, coated minimum thickness 30 within predetermined maximum 10 micro meters or more coated with a characterized by gas insulated switch electrode device. Case for a surface layer of conductor positioned therein an electric field having 5.0 in order to reduce the dielectric constant made of number 1 number 1 coating layer; and said number 1 coating layer and are of relatively low than 2.1 said number 1 number 2 number 2 coating layer is made of dielectric constant, said number 2 coating layer, said number 1 coating compared to relatively thick thickness coated for practicing the method comprising a device electrode characterized by gas insulated switch. According to Claim 14, said number 1 dielectric used in a dielectric material, aluminum oxide and epoxy resin (epoxy resin) at least one of the characterized by used is selected gas insulated switch electrode device. According to Claim 14, said number 2 dielectric used in a dielectric material, epoxy resin (epoxy resin) or tetrafluoro ethylene (polytetrafluoroethylene) at least one of the characterized by used is selected gas insulated switch electrode device.
