基于费控电表的充电桩研究与应用
王超1,周竹菁1,张嘉昊2
(1 嘉兴市恒创电力设备有限公司,浙江 嘉兴 314033;
2 杭州电子科技大学 自动化学院,浙江 杭州 310018)
摘 要:现阶段由于充电桩内的电费计量模块不能接入电网公司电表系统,电网公司需额外加装电表获取充电数据。设计了一种基于费控电表的充电桩,整合电表与充电桩的重复功能模块。利用 STM32F103C8T6 微控制器结合控制器局域网络总线完成充电桩与费控电表之间的电气连接和交互控制,并进行了样机开发验证。结果表明相较于传统充电桩,基于费控电表的充电桩可以简化充电桩结构,降低充电桩制造、安装成本,更好地实现电动汽车和电网间的互联。
关键词:电动汽车;费控电表;充电桩;样机开发
中图分类号:U469.72 文献标识码:B 文章编号:1007-3175(2021)11-0035-04
Research and Application of Charging Pile Based on
Fee-Controlled Electricity Meter
WANG Chao1, ZHOU Zhu-jing1, ZHANG Jia-hao2
(1 Jiaxing Hengchuang Electric Equipment Co., Ltd, Jiaxing 314033, China;
2 School of Automation, Hangzhou Dianzi University, Hangzhou 310018, China)
Abstract: There is a problem that the electricity metering module in the charging pile cannot be connected to the meter system of the grid company so that the grid company needs to install an additional meter to obtain charging data. This research designed a charging pile based on the fee-controlled electricity meter to solve the problem. This design could integrate the repetition function modules of the electricity meter and the charging pile. Moreover, this study used the STM32F103C8T6 microcontroller and the CAN bus to complete the electrical connection and interactive control between the charging pile and fee-controlled meter and verified the developed prototype. The results show that the new charging pile could refine the traditional one, such as simplify the structure, reducing the cost of production and installation. Untimely,it enhances the interconnection between the electric vehicle and the power grid.
Key words: electric vehicle; fee-controlled electricity meter; charging pile; prototype development
参考文献
[1] 冯玉婷.2020 年全球电动汽车销量突破 300 万辆[J]. 新能源科技,2021(3) :15-18.
[2] 陈丽丹,聂涌泉,钟庆. 基于出行链的电动汽车充电负荷预测模型[J] . 电工技术学报,2015,30(4) :216-225.
[3] 杨玮婷. 基于阶梯费控的单相智能电表设计[D] .包头:内蒙古科技大学,2020.
[4] 赵瑞,杨维翰,仲兆准. 直流充电站系统 CAN 总线通信协议的制定与实现[J]. 电工电气,2012(11) :1-5.
[5] 高珮文, 李乾坤, 刘圣荇, 等. 基于 Proteus 的无刷直流电机控制系统设计[J] . 电工电气,2021(5) :17-21.
[6] 黄颖,李妍,马殿雨,等. 通风管道清洗机器人的控制系统设计[J]. 电工电气,2017(11) :6-9.
[7] 冯子陵,俞建新. RS485 总线通信协议的设计与实现[J]. 计算机工程,2012,38(20) :215-218.
[8] 韩成浩,高晓红.CAN 总线技术及其应用[J]. 制造业自动化,2010,32(2) :146-149.
[9] 何俊佳,袁召,赵文婷,等. 直流断路器技术发展综述[J]. 南方电网技术,2015,9(2) :9-15.
