电力自动化设备
電力自動化設備
전력자동화설비
ELECTRIC POWER AUTOMATION EQUIPMENT
2010年
3期
90-94
,共5页
数字化变电站%弹性分组环%时间同步%秒脉冲%现场可编程门阵列
數字化變電站%彈性分組環%時間同步%秒脈遲%現場可編程門陣列
수자화변전참%탄성분조배%시간동보%초맥충%현장가편정문진렬
digital substation%resilient packet ring%time synchronization%PPS%FPGA
针对IEC61850标准所定义的过程总线上采样值高精度同步要求,提出一种基于弹性分组环(RPR)双环的数字化变电站秒脉冲(PPS)同步方案.在该方案中,RPR节点分为主、从2种节点,主节点接入源秒脉冲,从节点负责恢复PPS输出.PPS上升沿采用以太网物理层编码中的保留控制字K28.6表示,以抢占式高优先级(无延迟抖动)在RPR双环上同时传输;并采用主节点预补偿方式消除传输延迟的影响.对PPS恢复方案的误差进行了分析,给出了现场可编程门阵列(FPGA)的设计方法,采用硬件描述语言Verilog HDL设计,并用Modelsim软件做了仿真验证.结果表明:基于RPR双环的PPS恢复精度可以达到纳秒级;该方案使数字化变电站的过程总线和时钟同步网络合并成为可能.
針對IEC61850標準所定義的過程總線上採樣值高精度同步要求,提齣一種基于彈性分組環(RPR)雙環的數字化變電站秒脈遲(PPS)同步方案.在該方案中,RPR節點分為主、從2種節點,主節點接入源秒脈遲,從節點負責恢複PPS輸齣.PPS上升沿採用以太網物理層編碼中的保留控製字K28.6錶示,以搶佔式高優先級(無延遲抖動)在RPR雙環上同時傳輸;併採用主節點預補償方式消除傳輸延遲的影響.對PPS恢複方案的誤差進行瞭分析,給齣瞭現場可編程門陣列(FPGA)的設計方法,採用硬件描述語言Verilog HDL設計,併用Modelsim軟件做瞭倣真驗證.結果錶明:基于RPR雙環的PPS恢複精度可以達到納秒級;該方案使數字化變電站的過程總線和時鐘同步網絡閤併成為可能.
침대IEC61850표준소정의적과정총선상채양치고정도동보요구,제출일충기우탄성분조배(RPR)쌍배적수자화변전참초맥충(PPS)동보방안.재해방안중,RPR절점분위주、종2충절점,주절점접입원초맥충,종절점부책회복PPS수출.PPS상승연채용이태망물리층편마중적보류공제자K28.6표시,이창점식고우선급(무연지두동)재RPR쌍배상동시전수;병채용주절점예보상방식소제전수연지적영향.대PPS회복방안적오차진행료분석,급출료현장가편정문진렬(FPGA)적설계방법,채용경건묘술어언Verilog HDL설계,병용Modelsim연건주료방진험증.결과표명:기우RPR쌍배적PPS회복정도가이체도납초급;해방안사수자화변전참적과정총선화시종동보망락합병성위가능.
For the high-precision synchronization defined in IEC61850 for the data sampled on process bus,a PPS(Pulse Per Second) synchronization scheme based on RPR(Resilient Packet Ring) is proposed for digital substation. In this scheme,there are the master RPR node,which receives the PPS source,and the slave RPR node,which outputs the rebuilt PPS. The reserved control code K28.6 in Ethernet physical coding layer is used to represent the uprising edge of PPS,whieh is simultaneously transferred with the preemptive priority in both RPRs and a backoff algorithm is applied to balance out the propagation delay. The tolerance of PPS rebuilding is analyzed and the hardware design of FPGA(Field Programmable Gate Array) with Verilog HDL is introduced. The results of Modelsim-based simulation indicate that,the rebuilt PPS precision is up to nanosecond. The scheme makes it possible to merger the process bus and time synchro-nization network together in digital substation.
