Application of Jindeke Configuration Software in the Monitoring System of Electric Vehicle Charging Stations-Fornitore globale

001, 7th Floor, Block A, Hedong Building, Xixiang Town, Bao'an District, Shenzhen City, Guangdong Province

Basic Overview

Electric vehicle charging stations are an important foundational support system for electric vehicles, as well as an important link in the commercialization and industrialization process of electric vehicles. The performance of charging stations affects the service life and safety of the most important power batteries in the electric vehicle industry. Establishing a charging station monitoring system can collect information on the charging equipment status, voltage, current, capacity, and battery temperature during the charging process of power batteries, quickly store this information, and establish an information management system that can efficiently query, analyze, and process data. This is of great significance for the safe operation of electric vehicles, improving the quality of power batteries, and enhancing the efficiency of charging stations.

Jindeke General Industrial Configuration Software has its own copyright and proprietary industrial real-time library technology, which can support millisecond level data collection and storage of up to hundreds of thousands of IO data points. Adopting an efficient secondary compression algorithm system to improve data storage efficiency. At the same time, optimized database indexing technology is designed based on the characteristics of industrial control systems, greatly improving the speed of data entry and query. Very suitable for electric vehicles, with a large number of batteries and high requirements for data sampling frequency and data quality; It can quickly establish a database of charging and discharging data for power batteries, providing powerful information support for performance analysis of power batteries, operation status of charging equipment, improvement of power battery production technology, safety, and enhancement of charging station performance.

The Jindeke General Industrial Software Platform comes with its own graphic drawing tools, which can easily draw various industrial graphics. At the same time, it utilizes the management forms of dynamic and static graphics to design quick and convenient management. The platform supports importing images in various formats such as GIF, JPG, BMP, and PNG, and supports direct embedding in Flash NET components and traditional unmanaged control reduction. It can quickly build a monitoring interface for electric vehicle charging monitoring system, presenting the working status of the charging station and various data such as voltage, current, temperature of the power battery perfectly through rich graphics and animation.

Multiple alarm modes including graphics, sound, and list, providing intuitive and timely alerts based on the settings. A multi-level user management approach that divides and allocates permissions appropriately.

Topology diagram of monitoring system for electric vehicle charging station:

Main functions:

1. Overall status monitoring of charging stations. Display the distribution and operational fault status of each charger in a graphical manner; The location of each electric vehicle entering the charging station and the overall status of the power battery;

2. Charging machine status monitoring. Display the working or fault alarm status of the charger in the form of a physical diagram, and real-time display the characteristic data information of the charger;

3. Battery status monitoring. Display characteristic data such as voltage, current, capacity, temperature, etc. of each battery in the power battery pack in the form of a legend.

4. Battery statistics information. Display statistical information such as the maximum voltage, maximum temperature, and temperature difference of the battery.

5. Charging curve. You can view the characteristic data curve of a specific battery pack during a charging process based on the battery pack number and time;

6. Report. Display charging data report;

7. Call the police. Alarm information can be prompted in various ways such as graphics, text, sound, and text messages, which can be used to confirm, query, and clear alarms;

8. Data management. Management of data operations such as rapid sampling, compression, storage, querying, backup, and restoration;

9. System settings. Set the data, distribution, types of characteristic data, and sampling time requirements for the charging machine;

10. Interface configuration tool. Provided various static and dynamic graphic libraries required for the charging station monitoring system, engineers can use the development platform to draw monitoring interfaces based on on-site conditions and specific customer needs;

11. Data management tools. According to the specific situation of the charging station, the engineering personnel set the location, number, and characteristic data types of the charging machines, configure the connection between the data server and the equipment hardware for data collection, and associate the corresponding data with the monitoring interface;

12. Secondary development interface. Open data interfaces to third-party software to achieve data sharing. The platform itself is an integrated development and compilation environment, where logical development of data analysis modules and program function extensions can be directly carried out.

Screenshot of the editing interface:

Project operation status:

The electric vehicle charging station monitoring system developed using Jindeke General Industrial Configuration Software supports large IO data points and fast data sampling and storage. The stable operation at multiple large charging stations has achieved a rich and intuitive interface, which perfectly realizes the application of the charging station monitoring and management system.

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