An IoT controlling System For Battery performance monitoring and security- alarm of electric vehicle Presented by Lin & Peng Faculty of Automation, GDUT 2010.12 项项项项: 项项项项项项 项项项项项项项项项 项项项项项项项项
An IoT controlling System For Battery performance monitoring and security-alarm of electric vehicle
Presented by Lin & PengFaculty of Automation, GDUT
2010.12
项目简介:电动汽车电池 性能监测与安全预警 控制物联网的研究
Contents Our project has achieved the following three objectives
• To solve the energy waste problem in the battery charging and discharging
process, we design A High Effectiveness-Optimized System For Mass
Batteries Charging and Discharging , making the energy efficiency increased
by 20% .
• Establishing the wireless sensor nodes, online monitoring the process. RFID
Battery Monitor Unit follows the battery units, and be used to record the
whole battery life processes information.
• Wireless node data transmitted over the Internet to achieve the various
parts of data sharing. Established the IoT controlling System for battery
performance monitoring and security-alarm of electric vehicle .
Problems on Battery technology & Solutions
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Pollution of Harmonics
Power Factor of Electrical Devices
Energy Efficiency
DC BUS
IGBT(0.92)
GREAT ENERGY CYCLING
The Framework of the whole system
1.Data Acquisition (Manufacturing Process)
M&M Layer Control Midware Operation Layer
Data Acquisition (Manufacturing Process)·····························································································································
Raw MaterialData
AssemblingData
Battery Charge-discharge Data QC Data
RFID Battery Monitor Unit
Internet of ThingsServers
2. Data Acquisition (Using Process)··················································································································································Initialization
Server
Vehicle Information Battery InformationOwner InformationMatch Information
Data Acquisition (Using Process)··················································································································································Using Process
RFID BMU
“Hot-point”
Internet of ThingsServer
Data Processand AnalyzeResults
Owner
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3. Establish the IoT controlling System
The picture above shows the proposed IoT controlling system. Each cell from the battery factory on the data acquisition module coupled with wireless , after Initialization and quality check, assembled into electric vehicle.Sink node get data ,then send them to a dedicated network server.Battery manufacturers access the server, get the data, to further studied the battery performance;Electric vehicle manufacturers get the data, which help them achieve after-sales maintenance;Charging station get the data to choose a suitable charging method for vehicle;Owners get the data to estimate accurately the battery life cycle, warning them when to replace aging batteries.
充电的电动汽车
汇聚节点
带无线采集节点的电池
电池厂充电站
汇聚节点
网络服务器
电动汽车生产商
电动汽车车主
Our team are working for the project
BMU & AP
Overview & CPU Board
Software components - Upper interface information management system
THANK YOU!!
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