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                                 リチャード「XIWUERは非常に革新的である。それらは先読みする優秀で、直観的なサービスを私達が」。かもしれないものをに関して未来に必要とする提供した リチャード「XIWUERは非常に革新的である。それらは先読みする優秀で、直観的なサービスを私達が」。かもしれないものをに関して未来に必要とする提供した
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                                 マイク「私達の厳しい処理の条件を満たすように異なった指定の設計へのXIWUER献呈研究開発の私達の年へ遺言」はである。 マイク「私達の厳しい処理の条件を満たすように異なった指定の設計へのXIWUER献呈研究開発の私達の年へ遺言」はである。
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                                 結婚しなさい「XIWUER印象的な研究の機能があり、よいプロトタイピングの機能および高い製品品質」を示す。 結婚しなさい「XIWUER印象的な研究の機能があり、よいプロトタイピングの機能および高い製品品質」を示す。
A Revolution in Dielectric Materials: The Evolution of High-Voltage Capacitors from Basic Insulation to Intelligent Response
 
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x| 消化 | ¥0.0040 | 抵抗電圧 | 1.5ur●1分 | 
|---|---|---|---|
| 電圧 絶縁抵抗 | ≧1.0×105mΩ | 
A Revolution in Dielectric Materials: The Evolution of High-Voltage Capacitors from Basic Insulation to Intelligent Response
Drawing:
Parameters:
| No. | Specification | Dissipation | Withstanding voltage | Insulation resistance | Dimension(mm) | ||||
| 1 | 20kV-2000pF | ≦0.0040 | 1.5Ur● 1min | ≧1.0×105MΩ | D | H | L | D | M | 
| 2 | 20kV-10000pF | 45 | 19 | 23 | 12 | 5 | |||
| 3 | 20kV-18000pF | 65 | 15 | 19 | 12 | 5 | |||
| 4 | 30kV-1000pF | 80 | 17 | 25 | 12 | 5 | |||
| 5 | 30kV-2700pF | 45 | 24 | 32 | 12 | 4 | |||
| 6 | 30kV-12000pF | 60 | 20 | 28 | 12 | 4 | |||
| 7 | 40kV-150pF | 20 | 33 | 41 | 8 | 4 | |||
| 8 | 40kV-500pF | 28 | 33 | 41 | 8 | 4 | |||
| 9 | 40kV-7500pF | 80 | 24 | 29 | 12 | 6 | |||
| 10 | 40kV-10000pF | 80 | 22 | 26 | 16 | 5 | |||
| 11 | 50kV-1000pF | 50 | 30 | 34 | 12 | 4 | |||
| 12 | 50kV-1000pF | 32 | 27 | 31 | 16 | 5 | |||
| 13 | 50kV-5600pF | 80 | 31 | 35 | 16 | 5 | |||
| 14 | 60kV-1500pF | 50 | 31 | 34 | 12 | 5 | |||
| 15 | 60kV-3000pF | 65 | 32 | 35 | 16 | 5 | |||
| 16 | 100kV-500pF | 50 | 54 | 58 | 12 | 5 | |||
| 17 | 100kV-2000pF | 51 | 32 | 35 | 16 | 5 | |||
| 18 | Insulator type 100kV-1500pF | 68 | 36 | 40 | 16 | 5 | |||
| 19 | 150kV-820pF | 65 | 95 | 100 | 12 | 5 | |||
| 20 | 200kV-600pF | 50 | 90 | 94 | 16 | 5 | |||
The core competitiveness of high-voltage doorknob capacitors stems from breakthroughs in dielectric materials. We've abandoned traditional single-material systems and developed a nanocomposite dielectric with adaptive properties, evolving capacitors from passive energy storage elements to intelligently responsive system optimizers.
Our third-generation dielectric material, by incorporating functionalized nanofillers into a barium strontium titanate matrix, achieves three major breakthroughs: First, a three-dimensionally stable dielectric constant-temperature-frequency relationship is established, enabling the capacitance temperature coefficient to be controlled within ±15ppm/°C from -40°C to 125°C. Second, through precise control of interfacial polarization, dielectric loss is reduced to 5×10⁻⁵ at 1MHz. Most importantly, the material exhibits self-healing properties, automatically repairing microscopic defects in the event of localized overvoltage, extending the product's service life to more than three times that of conventional products.
This material innovation brings significant system-level benefits: in PLC systems in coastal areas, our capacitors demonstrate excellent moisture and corrosion resistance; in inland areas with large temperature differences, system communication quality is no longer affected by temperature changes; and in complex industrial power environments, the linearity exhibited by the capacitors ensures the fidelity of signal transmission over a large dynamic range.
 


 
                         
                         
                        