WOODWARD 5453-277 控制器模块它还使用户能够通过ABB移动操作应用程序从移动设备访问过程和警报数据,从而使他们能够保持更新以更快地做出反应、减少停机时间并节省成本。借助基于HTML5的网络操作和工程工具,现在可以随时随地查看关键数据,从而促进协作、提高工厂正常运行时间和性能。ABB的现场信息管理器(FIM)[2]还实现了灵活的现场设备管理,使现场总线仪器的配置、调试、诊断和维护变得更快、更容易。在开发最新版本的Symphony Plus时,重点是创造创新技术,使客户能够访问更广泛的数字应用程序,ABB过程自动化系统产品和产品组合管理主管Joerg Schubert说道,最终目标是通过安全、可靠和无缝的运营帮助社会和行业实现更加高效、可持续的未来。新添加的SD系列e-Class过程控制器为传统Harmony Rack(HR)安装提供低风险、低中断的改造解决方案。
WOODWARD 5453-277 控制器模块它为HR系统带来了更快的速度、更高的容量和更多的功能。在此过程中,它提供了连续性创新,实现了全厂数字化,同时最大限度地减少了对流程运营和系统基础设施的影响。IS220UCSAH1A针对双馈式变速恒频(VSCF)风电机组的控制方式进行了研究,并以2 MW VSCF风电机组为模型,设计了基于FMS320C28346型DSP与现场可编程门阵列(FPGA)的双馈风力发电变流器系统,控制系统硬件平台采用标准6U机箱,具有高可靠性与抗干扰性。该系统将矢量控制技术应用于发电机控制,并对网侧和转子侧变流器采用双闭环控制策略。最后在自主研发的2 MW双馈式变流器样机上进行了大量实验和长期的现场试运行,验证了控制方法的可行性与实用性。
The WOODWARD 5453-277 controller module also enables users to access process and alarm data from mobile devices through ABB mobile operations applications, enabling them to maintain updates for faster response, reduce downtime, and save costs. With HTML5 based network operations and engineering tools, critical data can now be viewed anytime, anywhere, promoting collaboration, improving factory uptime, and performance. ABB’s Field Information Manager (FEM) [2] also enables flexible field device management, making the configuration, debugging, diagnosis, and maintenance of fieldbus instruments faster and easier. When developing the latest version of Symphony Plus, our focus is on creating innovative technologies that enable customers to access a wider range of digital applications, “said Joerg Schubert, Director of Product and Portfolio Management for ABB Process Automation Systems. The ultimate goal is to help society and the industry achieve a more efficient and sustainable future through safe, reliable, and seamless operations. The newly added SD series e-Class process controller provides a low-risk, low-interruption retrofit solution for traditional Harmony Rack (HR) installations.
The WOODWARD 5453-277 controller module brings faster speed, higher capacity, and more functionality to the HR system. In this process, it provides continuous innovation, achieving digitalization of the entire factory while minimizing the impact on process operations and system infrastructure. IS220UCSAH1A conducted research on the control method of doubly fed variable speed constant frequency (VSCF) wind turbines, and designed a doubly fed wind power converter system based on FMS320C28346 DSP and field programmable gate array (FPGA) using a 2 MW VSCF wind turbine as a model. The hardware platform of the control system adopts a standard 6U chassis, which has high reliability and anti-interference. This system applies vector control technology to generator control and adopts a dual closed-loop control strategy for the grid side and rotor side converters. Finally, a large number of experiments and long-term on-site trial runs were conducted on the self-developed 2 MW doubly fed converter prototype, verifying the feasibility and practicality of the control method
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