Shanghai Capdisp Technology Co., Ltd.

Customer Country:​​ USA ​Actual Deployment Regions:​​ North America, Europe ​Application Scenario:​​ Monitoring and management of mobile energy systems in RVs and motorhomes ​Customer Integration Needs:​​ The customer is developing an integrated central control screen for RV energy management systems. To achieve precise monitoring of the RV lithium battery system, there is a need to collect real-time battery data and display it on the existing central control screen interface. ​Solution Overview:​​ Battery Data Integration with Central Control Screen via Bluetooth Communication The core of this solution is to install a battery monitoring module with Bluetooth capability, which transmits battery data to the customer's central control screen system, thereby enhancing its energy monitoring functionality. ​Implementation Steps:​​ ​Data Acquisition Layer​ Our battery monitoring module is directly connected to the RV lithium battery pack, continuously collecting key parameters such as voltage, current, State of Charge (SOC), capacity, and power. The module integrates Bluetooth communication functionality, transmitting the collected battery data wirelessly via Bluetooth protocol in a low-power manner. ​Network Transmission Layer​ A specific data gateway within the RV (typically the customer's central processing unit or a dedicated communication module) receives the Bluetooth data packets. After parsing and packaging the data, the gateway securely transmits it to the customer's designated cloud server or local server via a local area network (such as Wi-Fi or Ethernet) or cellular network. ​Platform Application Layer​ The customer's server-side program processes and stores the received battery data. The central control screen application retrieves the latest battery data by calling internal APIs from the server and integrates the information into the energy management page of the central control screen according to its existing UI design specifications.

Customer Country: Argentina Actual Deployment Regions: North America, South America, Europe Application Scenario: Electric forklift fleets in logistics warehouses, manufacturing, and other fields requiring battery monitoring. Problems to Be Solved: In large-scale electric forklift fleets, managers need real-time battery data such as state of charge (SOC), voltage, and power to monitor vehicle status. The solution should enable battery anomaly alerts for proactive maintenance, reduce on-site failures, and support periodic analysis and maintenance planning using historical battery data. The customer aims to integrate battery data into their existing management platform to optimize scheduling and energy efficiency analysis. Solution Overview: Cloud Integration Based on Battery Data Acquisition Modules The core of this solution involves installing battery data acquisition modules to transmit key battery data via WiFi/4G to a cloud server, which is then integrated into the customer’s fleet management platform, enhancing digital management capabilities. Implementation Steps: Data Acquisition Layer High-precision battery data acquisition modules are provided to transmit data via WiFi to the customer’s server. Data types that can be collected include: (1) Battery SOC, voltage, current, power, temperature, and charging status. (2) Historical battery data, including peak values and cumulative statistics. Network Transmission Layer The built-in WiFi module in the acquisition module packages data using the standard MQTT protocol and transmits it to the customer’s cloud server. Platform Application Layer We provide documentation for our private communication protocol. The customer’s technical team can use this protocol to integrate battery data streams into their existing forklift fleet management software or other enterprise systems, enabling data visualization and analysis. Throughout this process, we provide continuous support until the customer’s team successfully completes the integration.