自动化与信息工程
自動化與信息工程
자동화여신식공정
AUTOMATION & INFORMATION ENGINEERING
2014年
2期
6-11
,共6页
充电站%充电机%通讯技术%以太网%CAN
充電站%充電機%通訊技術%以太網%CAN
충전참%충전궤%통신기술%이태망%CAN
Charging Station%Electric Vehicle Charger%Communication Technology%Ethernet%CAN
针对智能充电站的应用要求,提出通讯技术在电动汽车充电站中的设计方案。论述充电站的监控系统三层通讯整体结构;提出充电机监控系统双 CAN 通讯网络;对充电站主要设备充电机、充电桩的内部多种通讯方式和功能进行描述和方案设计;对通讯过程中采用的 CAN 通讯、以太网和串行通讯接口进行设计并对其通讯协议进行讨论和说明。
針對智能充電站的應用要求,提齣通訊技術在電動汽車充電站中的設計方案。論述充電站的鑑控繫統三層通訊整體結構;提齣充電機鑑控繫統雙 CAN 通訊網絡;對充電站主要設備充電機、充電樁的內部多種通訊方式和功能進行描述和方案設計;對通訊過程中採用的 CAN 通訊、以太網和串行通訊接口進行設計併對其通訊協議進行討論和說明。
침대지능충전참적응용요구,제출통신기술재전동기차충전참중적설계방안。논술충전참적감공계통삼층통신정체결구;제출충전궤감공계통쌍 CAN 통신망락;대충전참주요설비충전궤、충전장적내부다충통신방식화공능진행묘술화방안설계;대통신과정중채용적 CAN 통신、이태망화천행통신접구진행설계병대기통신협의진행토론화설명。
According to the application requirements of modern intelligent charging station, the design of the electric vehicle charging station using information and communication technology is proposed. The monitoring system for charging station adopting three communication structuresis analyzed. The dual CAN communication network is proposed in charger monitoring system.A variety of means of communication is described inthe main equipments including charging converter and charging pile in charging station. CAN communication, Ethernet and serial communication interface are designed and discussed, and their communication protocols are also explained.
