Core IPC Solution for PV Empirical Communication Cabinet — KTB-2230L
User Background
In the field of photovoltaic (PV) verification, the communication cabinet is a key hub for data collection and transmission, and its stable operation is directly related to the data monitoring and analysis efficiency of the entire PV system. As the core of the communication cabinet, the industrial personal computer (IPC) needs to be able to cope with harsh working conditions such as high temperatures and sand and dust in outdoor PV power stations. At the same time, it should have strong data processing and device compatibility capabilities to ensure the real - time and accurate collection and transmission of information such as PV module power generation data and environmental parameters.
Challenges Faced
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Outdoor environments of photovoltaic (PV) power stations are complex, with issues such as high temperatures (which may exceed the tolerance of conventional equipment), heavy dust, and large day-night temperature differences, placing stringent requirements on the industrial computer's dust resistance, corrosion resistance, and wide-temperature operation capabilities. Additionally, PV verification involves various devices such as PV module monitoring modules and meteorological sensors, requiring the industrial computer to have rich interfaces for efficient and stable multi-device connection, as well as the ability to quickly process massive collected data to support PV system optimization and research.
Application Overview
The KTB-2230L industrial computer, with its excellent design, has become the core choice for PV empirical communication cabinets, meeting PV empirical needs in multiple aspects:
Structure and environmental adaptability:
Adopting a reinforced structural design with high-quality shell materials, it features excellent dust and corrosion resistance. It can operate stably in a wide temperature range of -10℃ to 60℃, easily coping with harsh outdoor conditions such as high temperatures and dust at PV power stations, laying a solid foundation for continuous data collection in PV empirical research.
Interface and device compatibility:
Equipped with a variety of interfaces, including multiple USB ports, Ethernet ports, and serial ports, it enables efficient and stable connection with various devices such as PV module monitoring modules and meteorological sensors, ensuring real-time and accurate transmission of information like PV module power generation data and environmental parameters.
Data processing capability:
Equipped with a high-performance processor and large-capacity memory, it can quickly complete data collection, calculation, and storage tasks. This allows staff to promptly grasp the operating status of PV systems, providing strong data support for PV technology optimization and research.
KTB-2230L
Ktb Embedded Fanless Industrial PC
Application Results
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Stable operation guarantee:The reinforced structure of the KTB-2230L industrial computer, along with its wide-temperature, dust-proof, and corrosion-resistant design, enables it to operate stably even in harsh outdoor environments of PV power stations. It effectively reduces data collection interruptions caused by equipment failures, ensuring the continuity of PV empirical data collection.
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Efficient data interaction:The rich interface configuration realizes efficient and stable connection between various devices (such as PV module monitoring modules and meteorological sensors) and the communication cabinet. This significantly improves the real-time performance and accuracy of information transmission, including PV module power generation data and environmental parameters, providing a timely and reliable data source for analyzing the operating status of PV systems.
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Strong data support:Equipped with a high-performance processor and large-capacity memory, the efficiency of data collection, calculation, and storage is significantly improved. This allows staff to grasp the operating conditions of PV systems more quickly and comprehensively, providing a solid data foundation for PV technology optimization (such as improving module power generation efficiency and optimizing system energy consumption) and PV empirical research (such as comparing PV performance under different environments), thus contributing to the continuous progress of PV technology.
Stable operation guarantee
Efficient data interaction
Strong data support
Related Configurations
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● Supports WINDOWS/LINUX operating systems● Based on Intel J1900/4200U processors● Supports 3G and 4G internet access to meet communication requirements (separate module selection required)● Supports dual communication modules: Wifi and Bluetooth● Supports 6 serial ports: 4*RS-232 + 2*RS-232/422/485● DC-12V power input (DC9-36V optional)