Jun. 17, 2024
Subracks, also known as card cages or chassis, are crucial components in various industries for housing and organizing electronic modules, circuit boards, and other components. Their design allows for efficient cooling, protection, and organization of electronic systems. Here are some diverse applications of subracks:
Network Infrastructure: Subracks are used to house communication cards, such as routers, switches, and multiplexers, ensuring reliable and organized network connectivity.
Base Stations: In mobile networks, subracks organize and protect the electronic modules that facilitate signal transmission and reception.
Server Racks: Subracks are employed to organize and cool servers and storage devices, ensuring optimal performance and easy maintenance.
Blade Servers: They are used to house blade servers, which are compact server modules designed for high-density environments.
Control Systems: Subracks house programmable logic controllers (PLCs) and other control systems used in automated manufacturing processes.
Robotics: They are used to organize and protect the control electronics and power supplies for industrial robots.
Avionics: In aircraft, subracks house avionics systems, including navigation, communication, and control modules, ensuring they are securely mounted and protected.
Military Systems: Used in various military applications to house ruggedized electronic systems that must withstand harsh environments.
Imaging Systems: Subracks are used in medical imaging equipment, such as MRI and CT scanners, to organize and protect the complex electronic systems involved.
Diagnostic Devices: They house the electronics for diagnostic devices like blood analyzers and patient monitoring systems.
Railway Systems: In railway applications, subracks house communication and control systems for trains, ensuring reliable and safe operation.
Automotive: Used in advanced driver-assistance systems (ADAS) and infotainment systems to organize and protect electronic modules.
Power Distribution: Subracks organize and protect the electronics used in power distribution systems, including monitoring and control units.
Renewable Energy: They are used in wind turbines and solar power systems to house control electronics and inverters.
Television and Radio Stations: Subracks house the transmission and reception equipment used in broadcasting, ensuring reliable and organized signal processing.
Audio/Video Equipment: Used to organize and protect professional audio and video equipment in studios and production environments.
Laboratory Equipment: Subracks are used in laboratories to house test and measurement equipment, including oscilloscopes, signal generators, and analyzers.
Field Testing: Portable subracks are used in field testing applications to protect and organize equipment used for on-site measurements and diagnostics.
Prototype Development: In R&D environments, subracks are used to organize and test prototype electronic systems, allowing easy access for modifications and testing.
Scientific Instruments: They house the electronics for various scientific instruments used in research institutions and universities.
Home Automation: Subracks are used to organize and protect the control units for home automation systems, including lighting, security, and HVAC controls.
Entertainment Systems: Used in high-end audio and video systems to house and organize the electronic components.
Surveillance: Subracks house the control units for surveillance systems, including video recorders and network interfaces.
Access Control: They are used to organize and protect the electronics for access control systems, such as card readers and control panels.
Modularity: Subracks should offer modular designs to allow easy customization and expansion.
Cooling: Proper ventilation and cooling mechanisms are essential to prevent overheating of housed components.
Durability: Depending on the application, subracks may need to withstand harsh environments, requiring ruggedized construction.
Accessibility: Easy access to the housed components for maintenance and upgrades is crucial.
Compatibility: Ensure the subrack is compatible with the form factors of the components it will house, such as VME, VPX, or PCI standards.
By understanding the diverse applications and key features of subracks, you can select the right type to meet the specific needs of your industry and application.
Whether it's electronic cabinets, racks, and plugins, or rugged solutions that resist impact and vibration,RDEKONO products can meet your needs and protect your crucial communication and electronic systems.
Oct. 01, 2023
For PCB board of the subrack insertion and extraction, Provides assistance when pulled out.Composed of four parts: handle, scutcheon, printed board bracket, and shaft. Handle material: PC+GF20%, Fire retardant standard: UL94V1, printed board bracket material: die-cast zinc alloy surface nickel plating.
Oct. 08, 2023
The subrack does not have a series of profiles, and after receiving an order, it is usually customized and processed according to the drawings. Products from different customers and products of different specifications from the same customer all need to be redesigned and processed, resulting in higher costs;