基于sopc的低成本柔性升降控制系统设计方法

CONVERTER Pub Date : 2021-07-10 DOI:10.17762/converter.139

Dechun Zheng, Li Xu, Yongping Zhang, Guojun Li

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摘要

为有效降低智能升降控制系统的开发和生产成本，提出了一种基于客户端-服务器架构的智能升降控制系统设计方法。我们用Nois II软核处理器代替DSP处理器核心或DSP (Digital Signal processor)核心，从而有效降低设计和生产成本。用Nois II软核处理器代替DSP处理器或DSP处理器核心，可以显著降低设计和生产成本。在我们的设计中，环路矢量控制单元作为服务器处理器，使用一个具有四个独立乘法器和两个加法器的中央计算单元，采用基于状态机的实现方法。实验结果表明，该方法有效降低了FPGA (Field Programmable Gate Array，现场可编程门阵列)的资源需求，可以成功地应用于Altera Cyclone低端FPGA上实现完整的智能柔性升降控制系统，并且伺服电机控制达到了较好的动态性能

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A Design Method for Low-cost and SOPC-based Flexible Lifting Control System

To efficiently reduce the development and production costs of the intelligent lifting control system, we introduce a design method for the intelligent lifting system with client-server architecture. We replace DSP processor core or DSP (Digital Signal processor) core with Nois II soft-core processor so that the design and production costs can be effectively cut. By replacing DSP processor or DSP processor core with Nois II soft-core processor, the design and production costs can be significantly reduced. In our design, loop vector control units work as a server processor, and a central computing unit with four independent multipliers and two adders is employed, with the implementation method based on a state machine. The experimental results prove effective in reducing resource requirements for FPGA (Field Programmable Gate Array), show that the proposed method can be successfully applied to the implementation of a complete intelligent flexible lifting control system on a low-end Altera Cyclone FPGA, and servo motor control achieves better dynamic performance

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