Product series: The T-IPC3517-D3 controller empowers large-scale distributed systems, and its multi-core architecture facilitates industrial intelligence
In modern industrial control systems, large-scale distributed architectures place higher demands on the data processing capabilities and communication real-time performance of control units. The T-IPC3517-D3 series controller, with its stable multi-core processor architecture and efficient data processing capabilities, provides reliable system solutions for complex industrial scenarios.
The multi-core architecture enables efficient processing
The T-IPC3517-D3 series adopts a multi-core processor design, fully leveraging the advantages of parallel computing. The multi-core architecture enables the controller to handle multiple tasks simultaneously, achieving parallel execution of data acquisition, logical operations, communication transmission and other tasks, effectively enhancing the overall processing efficiency of the system and meeting the requirements of distributed systems for concurrent processing of multiple tasks.
The series of models meet diverse needs
The T-IPC3517-D3 series includes three model configurations, namely D3-S, D3-M and D3-H. These three controllers, while maintaining the same multi-core architecture, offer differentiated storage capacity and processing capabilities, capable of meeting application requirements at different levels from basic control to high-performance computing, providing users with high-precision and cost-effective selection solutions.
Efficient data processing enhances system performance
Based on the advantages of multi-core processors, the speed of traveling back and forth between a data packet after the master and slave cpus process the data can reach the millisecond level. When dealing with large-scale control instructions, the execution time of a single instruction with one million bits is only 2ns, demonstrating outstanding computational efficiency and ensuring timely and reliable system response.
Stabilize communication to ensure the reliability of the system
The multi-core architecture combined with an optimized communication mechanism ensures the stable and reliable data exchange of the T-IPC3517-D3 controller in a multi-CPU working environment. This design effectively ensures the coordinated operation among various processing units in large-scale distributed systems, providing a solid foundation for the stable operation of the system.
Rich interfaces support system integration
Equipped with multiple industrial standard interfaces, including Gigabit Ethernet ports, RS232/RS485 serial ports and USB3.1, etc., it can flexibly connect with various industrial devices. The rich interface configuration provides convenience for the construction of distributed systems, supporting the rapid access and data exchange of different devices.
Industrial-grade design is suitable for complex environments
The product adopts industrial-grade design standards, supports a wide voltage input of 12-24V, and combined with the high energy efficiency ratio of multi-core processors, it can operate stably in harsh industrial environments. The excellent heat dissipation design and protective features ensure that the equipment maintains outstanding performance under continuous operation conditions.
The T-IPC3517-D3 controller, with its significant advantages of multi-core processor architecture, provides strong technical support for large-scale distributed systems in fields such as metallurgy, power, and intelligent manufacturing, facilitating the development of industrial control systems towards greater efficiency and intelligence.
Tianjin Changdatong Technology Co., LTD
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