Q1: What are the key features of the Moxa DA-820E Power Modules?
The Moxa DA-820E Power Modules are designed for industrial computing applications, specifically for the DA-820E Series. These power modules are hot-swappable, allowing for easy maintenance and replacement without shutting down the system. They support a wide input range of 100 to 240 VAC/VDC, making them versatile for various industrial environments. The modules also include a system power input and a terminal block for secure connections.
Q2: How do the Moxa DA-820E Power Modules enhance the performance of x86 computers?
The Moxa DA-820E Power Modules are engineered to provide reliable power supply solutions for x86 computers in industrial settings. By offering hot-swappable capabilities, they ensure minimal downtime during maintenance. The wide input voltage range (100 to 240 VAC/VDC) supports stable operation across different power conditions, which is crucial for maintaining the performance and longevity of x86 computers in demanding environments.
Q3: Can the Moxa DA-PWR-150-HV power module be used in high-voltage applications?
Yes, the Moxa DA-PWR-150-HV power module is suitable for high-voltage applications. It supports an input voltage range of 100 to 240 VAC/VDC, making it adaptable for various industrial power systems. This flexibility ensures that the module can be integrated into different setups without the need for additional converters or adapters.
Q4: Where can I purchase Moxa DA-820E Power Modules in Australia?
In Australia, you can purchase Moxa DA-820E Power Modules through authorized resellers like IP Trading. They offer a range of Moxa products, including the DA-PWR-150-HV model, ensuring you receive genuine and reliable components for your industrial computing needs.
Q5: What is the advantage of using hot-swappable power modules like the Moxa DA-PWR-150-HV?
The primary advantage of using hot-swappable power modules like the Moxa DA-PWR-150-HV is the ability to replace or upgrade the power supply without shutting down the entire system. This feature is particularly beneficial in industrial environments where continuous operation is critical. It minimizes downtime and maintenance disruptions, ensuring that your systems remain operational and efficient.