楼下大吹的J-20碳化硅雷达,以为是老共的独门暗器,结果。。。。

本帖于 2025-07-04 15:01:11 时间, 由普通用户 Uusequery 编辑
Does US use Silicon carbide (SiC) radar?
silicon carbide (SiC) radar power obsolescence | Military ...
Yes, the United States is actively developing and utilizing Silicon Carbide (SiC) in advanced radar systems for its military.  
Specifically, SiC is used in:
  • High-power RF electronics: SiC enables higher power and higher frequency operations, leading to significant improvements in radar systems, particularly in military aircraft where solid-state microwave electronics operating at higher powers and temperatures are desired.
  • Radar power conversion systems: SiC is used in power conversion systems (AC/DC and DC/DC conversions) within advanced naval radar systems like the SPY-3 radar system used on the U.S. Navy's Zumwalt-class destroyers and Ford-class aircraft carriers. This enhances efficiency, thermal management, and reliability.
  • Transmit/Receive (T/R) Modules: For example, the S4R EDM radar system, designed for various missions including air and ballistic missile defense, utilizes SiC-based high-power T/R modules for improved power, longer range, and more precise target discrimination.
  • APY-9 Radar: The U.S. Navy is ensuring a long-term supply of SiC components for radar power electronics aboard the E-2D Advanced Hawkeye carrier-based surveillance aircraft to support the APY-9 radar's primary power supply and power amplifier module. 
Benefits of using SiC in radar systems:
  • Higher power handling: SiC's wider bandgap allows it to handle higher power levels than traditional silicon, leading to more powerful radar systems.
  • Improved efficiency: SiC enables faster switching speeds and reduced energy loss, increasing radar system efficiency.
  • Better thermal management: SiC can operate at higher temperatures and dissipate heat more effectively than silicon, which is critical in high-power and compact military electronics used in extreme environments.
  • Increased range and resolution: Higher power handling capabilities lead to longer range and improved resolution.
  • Smaller size and weight: Improved efficiency and thermal management allow for more compact and lightweight radar modules.
  • Enhanced reliability: SiC's robustness ensures stable radar operation in harsh environments, reducing failures and maintenance costs. 
In essence, SiC technology offers significant advantages over traditional silicon-based devices for military radar systems due to its superior power handling, efficiency, and thermal properties. The development and deployment of SiC in these applications are key priorities for the US military as it seeks to enhance its technological capabilities and maintain a competitive edge. 

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中国就是不断抄袭美国人发明的技术 -波粒子3- 给 波粒子3 发送悄悄话 (0 bytes) () 07/04/2025 postreply 15:02:50

美国的应该不是碳化硅雷达,是做为氮化镓的衬里用的。 中国的是不是不清楚,估计也和美国差不多 -893852- 给 893852 发送悄悄话 (1701 bytes) () 07/04/2025 postreply 15:22:44

氮化镓雷达美国也有,但不如中国普及和便宜, -大洋bridge- 给 大洋bridge 发送悄悄话 大洋bridge 的博客首页 (0 bytes) () 07/04/2025 postreply 15:31:50

用吹来掩盖偷的本质。LOL -金笔- 给 金笔 发送悄悄话 金笔 的博客首页 (0 bytes) () 07/04/2025 postreply 17:11:34

碰赔熬--我们偷骗抢 -美国老师- 给 美国老师 发送悄悄话 美国老师 的博客首页 (0 bytes) () 07/04/2025 postreply 17:45:13

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