中国电机工程学报
中國電機工程學報
중국전궤공정학보
Proceedings of the CSEE
2015年
20期
5235-5243,后插9
,共10页
电力线载波通信%信道认知%在线可定义%数字前端%中短波电台检测%前导序列
電力線載波通信%信道認知%在線可定義%數字前耑%中短波電檯檢測%前導序列
전력선재파통신%신도인지%재선가정의%수자전단%중단파전태검측%전도서렬
power line communication (PLC)%channel sensing%on (power-) line defined%digital front-end (DFE)%detection of medium/short wave radio stations%preamble sequence
常规的电力线载波技术在规定的频带范围采用固定的工作频率通信,不能适应复杂、时变、差异性的电网信道特性,通信性能和业务保障差.为提高面向智能电网应用的电力线载波通信技术的可靠性、灵活性与覆盖率,满足智能配用电业务通信需求,提出一种基于信道认知在线可定义的电力线载波通信方法,使载波通信可根据中低压配电网电力线信道实际情况,在150 kHz~10 MHz跨频带范围内自适应选择合适的工作频率和通信带宽.从而打破传统电力线载波通信工作频率窄带和宽带的分割,实现基于信道认知结果的电力线载波通信参数"在线定义".在给出所提出方法实现架构的基础上,着重探讨基于等效复数基带和收发端双加窗的数字前端、基于无线电信号接收因子的中短波电台检测、以及前导序列辅助下的频率选择等关键技术.仿真和现场实际测试证明了所提电力线载波通信方法的有效性,通过节点自主认知信道环境并自适应选择工作频率,提高了载波通信链路的可靠性和单跳覆盖率,对未来电力线载波技术在智能电网中的应用具有推动作用.
常規的電力線載波技術在規定的頻帶範圍採用固定的工作頻率通信,不能適應複雜、時變、差異性的電網信道特性,通信性能和業務保障差.為提高麵嚮智能電網應用的電力線載波通信技術的可靠性、靈活性與覆蓋率,滿足智能配用電業務通信需求,提齣一種基于信道認知在線可定義的電力線載波通信方法,使載波通信可根據中低壓配電網電力線信道實際情況,在150 kHz~10 MHz跨頻帶範圍內自適應選擇閤適的工作頻率和通信帶寬.從而打破傳統電力線載波通信工作頻率窄帶和寬帶的分割,實現基于信道認知結果的電力線載波通信參數"在線定義".在給齣所提齣方法實現架構的基礎上,著重探討基于等效複數基帶和收髮耑雙加窗的數字前耑、基于無線電信號接收因子的中短波電檯檢測、以及前導序列輔助下的頻率選擇等關鍵技術.倣真和現場實際測試證明瞭所提電力線載波通信方法的有效性,通過節點自主認知信道環境併自適應選擇工作頻率,提高瞭載波通信鏈路的可靠性和單跳覆蓋率,對未來電力線載波技術在智能電網中的應用具有推動作用.
상규적전력선재파기술재규정적빈대범위채용고정적공작빈솔통신,불능괄응복잡、시변、차이성적전망신도특성,통신성능화업무보장차.위제고면향지능전망응용적전력선재파통신기술적가고성、령활성여복개솔,만족지능배용전업무통신수구,제출일충기우신도인지재선가정의적전력선재파통신방법,사재파통신가근거중저압배전망전력선신도실제정황,재150 kHz~10 MHz과빈대범위내자괄응선택합괄적공작빈솔화통신대관.종이타파전통전력선재파통신공작빈솔착대화관대적분할,실현기우신도인지결과적전력선재파통신삼수"재선정의".재급출소제출방법실현가구적기출상,착중탐토기우등효복수기대화수발단쌍가창적수자전단、기우무선전신호접수인자적중단파전태검측、이급전도서렬보조하적빈솔선택등관건기술.방진화현장실제측시증명료소제전력선재파통신방법적유효성,통과절점자주인지신도배경병자괄응선택공작빈솔,제고료재파통신련로적가고성화단도복개솔,대미래전력선재파기술재지능전망중적응용구유추동작용.
Conventional power line communications (PLC) use the fixed working frequencies in the pre-defined spectrum band. It ignores the complicated, time-varying and differential power line channel characteristics, which leads to the low communication performance and weak service assurance. For smart grid applications, PLC needs to improve its reliability, flexibility and coverage in order to satisfy the emerging communication requirements. This paper proposed an on (power-) line defined PLC solution based on channel sensing, which entails PLC nodes to on-line determine their proper working frequency and communication bandwidth within 150 kHz-10 MHz that fit their specific channel conditions. The proposed solution exceeds the traditional narrowband and broadband frequency separation of PLC, and makes the communication parameters be efficiently on-line defined according to the channel sensing results. Apart from its implementation architecture, this paper mainly discussed its key components, including the digital front-end (DFE) design combined with equivalent complex base-band (ECB) and windowing technique, the detection method of medium/short wave radio stations based on radio reception factors, as well as the preamble assisted frequency selection scheme. Simulations and field tests confirmed the effectiveness of the proposed solution. By sensing the channel autonomously and selecting the working frequency adaptively, the proposed solution can establish reliable communication links and enhance the single-hop coverage, which will promote the future applications of PLC in smart grid.