IoT Applications
ARMxy Used in Industrial Commercial Energy Storage Systems
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Author : Fiona Dai
Update time : 2024-11-25 15:44:33
Applications of ARMxy Embedded Computers in Industrial and Commercial Energy Storage
1. Data Collection and Processing
ARMxy supports multiple RS485 interfaces (with isolation) to manage and communicate with:
Environmental Sensors: Temperature and humidity sensors to maintain optimal operating conditions.
Auxiliary Devices: Dehumidifiers, cooling liquid systems, and smoke sensors for system safety and environment control.
Safety Devices: Fire host integration for emergency response and protection.
2. Centralized System Control
High-Voltage Cabinet: ARMxy connects to the high-voltage cabinet via CAN to monitor and control high-power equipment.
Storage Cabinet: LAN links ARMxy to the storage cabinet for data exchange with subsystems such as PCS (Power Conversion System), BMS (Battery Management System), and meters.
3. Safety and Alarm Management
Through digital input (DI) and output (DO):
Emergency Stop Switch: Instant system shutdown in emergencies.
Circuit Breakers and Overvoltage Protection: Prevent hardware damage and ensure system safety.
Alarm Systems: Trigger alarm lights and connect with external warning systems for fault notification.
4. Efficient Energy Management
ARMxy enables:
Real-time Data Collection: Interfaces with PCS and meters for accurate monitoring of energy flows.
Intelligent Decision-Making: Processes data to optimize energy storage usage and reduce operational costs.
Remote and Local Control: Provides flexibility in managing energy storage systems via IoT and local HMI.
5. Communication and Networking
Multi-protocol Support: Support industrial communication protocols such as Modbus, CAN, and RS485 for seamless connectivity with host systems or other devices.
IoT Functionality: Provide network connectivity via Ethernet, Wi-Fi, and 4G/5G, enabling remote monitoring and data uploading.
Cloud Integration: Connect to energy management systems (EMS) or cloud platforms to upload data and receive control commands.
Key Advantages
Isolation for Reliability: Ensures safe and stable communication in high-voltage environments.
Scalable Design: Supports integration with additional devices as system requirements grow.
IoT-Enabled: Connects to cloud platforms for remote monitoring, fault diagnosis, and data analytics.
Low Power Consumption: Suitable for long-term operation in energy storage devices.
1. Data Collection and Processing
ARMxy supports multiple RS485 interfaces (with isolation) to manage and communicate with:
Environmental Sensors: Temperature and humidity sensors to maintain optimal operating conditions.
Auxiliary Devices: Dehumidifiers, cooling liquid systems, and smoke sensors for system safety and environment control.
Safety Devices: Fire host integration for emergency response and protection.
2. Centralized System Control
High-Voltage Cabinet: ARMxy connects to the high-voltage cabinet via CAN to monitor and control high-power equipment.
Storage Cabinet: LAN links ARMxy to the storage cabinet for data exchange with subsystems such as PCS (Power Conversion System), BMS (Battery Management System), and meters.
3. Safety and Alarm Management
Through digital input (DI) and output (DO):
Emergency Stop Switch: Instant system shutdown in emergencies.
Circuit Breakers and Overvoltage Protection: Prevent hardware damage and ensure system safety.
Alarm Systems: Trigger alarm lights and connect with external warning systems for fault notification.
4. Efficient Energy Management
ARMxy enables:
Real-time Data Collection: Interfaces with PCS and meters for accurate monitoring of energy flows.
Intelligent Decision-Making: Processes data to optimize energy storage usage and reduce operational costs.
Remote and Local Control: Provides flexibility in managing energy storage systems via IoT and local HMI.
5. Communication and Networking
Multi-protocol Support: Support industrial communication protocols such as Modbus, CAN, and RS485 for seamless connectivity with host systems or other devices.
IoT Functionality: Provide network connectivity via Ethernet, Wi-Fi, and 4G/5G, enabling remote monitoring and data uploading.
Cloud Integration: Connect to energy management systems (EMS) or cloud platforms to upload data and receive control commands.
Key Advantages
Isolation for Reliability: Ensures safe and stable communication in high-voltage environments.
Scalable Design: Supports integration with additional devices as system requirements grow.
IoT-Enabled: Connects to cloud platforms for remote monitoring, fault diagnosis, and data analytics.
Low Power Consumption: Suitable for long-term operation in energy storage devices.
