V110A24C400BL

### V110A24C400BL Description The V110A24C400BL is a high-power density DC-DC converter module designed by Vicor Corporation. It belongs to the Maxi Family of converters, which are known for their compact form factor and high efficiency. This module is specifically rated for 400W of power output and operates on a 24V input voltage. The compact full brick design makes it ideal for space-constrained applications where high power density is crucial. ### V110A24C400BL Features - **High Power Density**: The module delivers up to 400W of power in a compact form factor, making it suitable for applications where space is limited. - **Integrated EMI**: The converter includes integrated EMI (Electromagnetic Interference) solutions, which help in reducing electromagnetic noise and ensuring a cleaner output. - **Remote Shutdown**: The module features remote shutdown capabilities, allowing for centralized control and management of the converter. This is particularly useful in applications where the converter needs to be disabled or enabled remotely. - **Operating Temperature Range**: The V110A24C400BL operates within a temperature range of -20°C to 100°C, providing flexibility in various environmental conditions. - **Mounting Type**: The module is designed for through-hole mounting, which is a common method for PCB (Printed Circuit Board) assembly. - **Output Connections and Considerations**: The permissible load current must never be exceeded during normal, abnormal, or test conditions. Dynamic loading exceeding 25% of the rated current requires review by Vicor Applications Engineering. The converter may emit audible noise under dynamic-load, light-load, or no-load conditions. Remote-sense leads must be protected against conditions like lead reversal, noise pickup, open circuit, or excessive output lead resistance. - **Module Alarm and Watchdog Circuitry**: The module contains watchdog circuitry that monitors input voltage, operating temperature, and internal operating parameters. In the event of any parameter being outside its allowable range, the module will shut down and the PC pin will go low. The SC pin will also go low in the event of a fault and return to its normal state after the fault has been cleared. - **Primary Auxiliary Supply**: At 5.7V, the module can source up to 1.5mA. This can be used to power a module-enabled LED or other low-power components. ### V110A24C400BL Applications The V110A24C400BL DC-DC converter module is versatile and can be applied in various commercial and industrial settings. Some of the key applications include: - **Railway/Transportation Systems**: The module is used in railway and transportation systems for applications such as communications systems, information display, lighting, control systems, ticket machines, and passenger information systems. - **Commercial IT Equipment (ITE)**: The high power density and remote shutdown features make it suitable for ITE applications where space is limited and centralized control is necessary. - **Industrial Control Systems**: The module's ability to handle high power in a compact form makes it ideal for industrial control systems where space is a constraint. - **Medical Equipment**: While not specifically listed as an application, the high reliability and compact design of the V110A24C400BL make it potentially suitable for medical equipment that requires high power density and reliability. ### Conclusion of V110A24C400BL The V110A24C400BL DC-DC converter module from Vicor Corporation offers a robust set of features and applications. Its high power density, integrated EMI solutions, remote shutdown capabilities, and reliable operation make it an excellent choice for space-constrained applications in commercial and industrial settings. The module's versatility in handling various environmental conditions and its ability to be integrated into complex power systems make it a valuable component in modern electronic design. However, it is crucial to adhere to the specified load current limits and ensure proper protection against dynamic loading and other operational conditions to maximize the module's performance and lifespan.