ARMxy Industrial Computer
Air Conditioning Collection Control Scheme
In large customer on-site environments, ordinary gateways often struggle to meet demands. When faced with a multitude of connected devices and complex functional requirements, ordinary gateways fall short. At this point, the ARMxy Industrial Computer becomes the best choice.
On-Site Issues
With the acceleration of industrial intelligence, the scale of equipment and data processing demands at large customer sites is growing exponentially.Ordinary gateways struggle to efficiently collect and distribute large amounts of device data due to limitations in hardware performance and software architecture. Simultaneously, when handling complex functional requirements, such as real-time data processing and complex logic judgment tasks, the processing speed and accuracy of ordinary gateways cannot meet the requirements, which undoubtedly affects the overall system’s operational efficiency and stability.
The Number of Devices Collected by Central Air Conditioning is Too Large
Taking large central air conditioning systems as an example, in some super-large commercial complexes, central air conditioning needs to connect more than 5000 sensors, controllers, and terminal devices. These devices are distributed across various areas, generating tens of thousands of data points every second. Ordinary gateways face such a large number of device connections, with data transmission delays reaching hundreds of milliseconds, and packet loss rates can even reach 5% – 10%, making it even more challenging to meet the real-time processing of data from these devices and the demands of complex control logic.
Solutions
The intervention of industrial computers has completely changed this situation. In system architecture, industrial computers adopt a distributed architecture, reasonably dividing functions such as data collection, processing, and control to ensure efficient operation at each stage. They possess powerful computing capabilities and rich interface resources, enabling a unified system and unified IO. Through high-speed Ethernet interfaces, industrial computers can quickly connect numerous sensors and controllers, ensuring stable data transmission.
In terms of optimizing data processing workflows, industrial computers are equipped with specialized data preprocessing algorithms. When receiving raw data from sensors, they first perform noise reduction, normalization, and other processing to improve data quality. Then, using parallel computing technology, they can quickly analyze large amounts of data. With their high-speed data processing capabilities, industrial computers can complete the analysis of large data sets within tens of milliseconds. Through built-in advanced algorithms, they can quickly make precise logical judgments and dynamically adjust the operating parameters of air conditioning based on actual needs.
In terms of collaboration with other devices, industrial computers can seamlessly connect with smart meters, building automation systems, etc. When smart meters detect peak electricity usage, industrial computers can appropriately reduce the operating power of central air conditioning in non-critical areas to achieve overall energy optimization. At the same time, in coordination with building automation systems, they can intelligently adjust the cooling and heating strategies of air conditioning based on the activity levels of personnel in different areas.
For example, in densely populated shopping areas, when industrial computers detect a rapid rise in temperature and abnormal humidity changes, they will quickly increase the cooling and ventilation of the air conditioning to ensure indoor comfort. Simultaneously, in low-load operating areas, they can accurately control the air conditioning to reduce energy consumption, achieving efficient energy savings. Through such intelligent control, not only is the overall operational efficiency of the central air conditioning system significantly improved, but enterprises also save a substantial amount of energy costs.
BL410 Series
High-Performance Industrial Computer
The ARMxy industrial computer BL410 series adopts a quad-core ARM Cortex-A55, with a frequency of up to 1.8GHz/ 2.0GHz, equipped with 8/16/32GByte eMMC, 1/2/4GByte LPDDR4X various combinations of RAM and ROM, and built-in ITOPS computing power NPU, supporting deep learning.
The ARMxy series industrial-grade ARM industrial computers support flexible configurations of X, Y1, and Y2 type I/O boards, with up to 8112 combinations, integrating Gigabit/Hundred Megabit network ports, USB, HDMI, I/O, Mini PCIE, and other rich interfaces, which can be used for communication, PWM output, pulse counting, and other data collection and control.
⭐ Optional chips from domestic and foreign manufacturers such as Rockchip, Allwinner, NXP, and TI, as well as different ROM and RAM;
⭐ Supports Linux, Ubuntu, Debian, Android, and other systems for application development;
⭐ Supports DI, DO, GPIO, CAN, RS485/RS232, and other I/O types, allowing for hundreds of combinations;
⭐ Built-in MiniPCle interface, supporting 4G, WiFi, Ethernet, LoRa, Bluetooth, and various communication methods;
⭐ Supports installation of BLloTLink (protocol conversion software), and when used as a gateway, also supports API secondary development;
⭐ Compatible with various programming languages, can run software such as Node-Red and Docker;
⭐ Remote access and operation and maintenance can be achieved through the BLRAT remote access tool.
⭐ Product dimensions
Length x Width x Height: 42*83*110mm/48*83*110mm
⭐ Professional electrical performance design and testing verification
⭐ Multiple installation methods
The ARMxy industrial computer not only enhances performance but also optimizes overall solutions, providing strong support for efficient operation in enterprises. Choosing an industrial computer means choosing a smarter and more efficient industrial future. In the future of industrial development, industrial computers will undoubtedly play an increasingly important role, helping various industries reach new heights of intelligence.