TP-IPC provides a reliable industrial control solution for power equipment data acquisition and intelligent energy management. By integrating advanced industrial modules, high-speed data acquisition interfaces, and robust communication capabilities, the solution enables real-time monitoring, device communication, and stable control across smart grid, energy storage, and industrial power systems.
Designed for demanding industrial environments, this solution helps improve energy efficiency, strengthen grid stability, and reduce operating costs through accurate data collection and intelligent field connectivity.
Conventional power systems often rely on fragmented monitoring and low-efficiency management methods, making it difficult to optimize energy usage and reduce operating costs.
With more renewable energy sources connected to the grid, the complexity of load balancing, power distribution, and safety management continues to increase.
Energy systems now involve large numbers of devices such as power meters, inverters, sensors, relays, and battery management systems. Many traditional platforms lack the communication interfaces and data processing capability required for reliable real-time control.
Power infrastructure often operates in environments with electrical interference, wide voltage variation, and long-term continuous workloads, requiring industrial-grade hardware with strong anti-interference capability and stable operation.
Standard industrial products can meet the requirements of most power monitoring and control scenarios, enabling fast deployment and stable operation.
The hardware platform supports customized configurations based on specific project requirements, including communication interfaces, expansion modules, and system-level optimization. OEM and ODM customization are also supported.
A modular and cable-reduced design improves system stability, simplifies maintenance, and makes future upgrades more efficient.
All major components, including the motherboard, memory, and storage devices, are based on industrial-grade standards to ensure reliable long-term performance in energy and power environments.
Multiple integrated serial ports allow the system to exchange data with power meters, relays, controllers, and other field devices for real-time status monitoring.
High-speed DIO interfaces can be used to connect and control field signals such as fire alarms, smoke detectors, pressure switches, and signal valves.
Integrated CAN Bus modules enable real-time acquisition and processing of key electrical parameters such as voltage, current, and power.
The controller can monitor and interact with BMS systems, inverters, and battery energy storage equipment, supporting stable operation of modern energy systems.
The IBOX-105V2-2L10C is a compact industrial embedded controller designed for communication-intensive power and energy applications.
Supports 2 CAN Bus modules with CAN 2.0B protocol
Built-in 8 high-speed DIO interfaces, expandable to 15 channels
Supports 4G / 5G / WiFi communication module expansion
Wide voltage DC 9-36V input for harsh industrial power environments
Compact industrial design for embedded control applications