Ubiquiti SmartPower Redundant Power Systems
The UniFi SmartPower Redundant Power System, also known as the USP-RPS, is an advanced and exclusive power solution specifically engineered to safeguard a maximum of six UniFi SmartPower supported devices against unexpected power supply module malfunctions. This cutting-edge system has been meticulously designed to provide a reliable and uninterrupted power supply, ensuring the continuous operation and optimal performance of your valuable devices. By implementing the USP-RPS, you can rest assured that your UniFi SmartPower supported devices are shielded from any potential disruptions caused by power supply failures, thereby enhancing the overall reliability and stability of your network infrastructure. The United States Postal Service's Remote Processing System (USP-RPS) diligently and consistently engages in the ongoing surveillance and oversight of all interconnected devices. In the unfortunate occurrence of an internal AC/DC power supply failure, rest assured that this failover mechanism will seamlessly and automatically come into action. This failover mechanism has been meticulously designed to ensure that your network remains fully operational, without any interruption in the provision of services. With a remarkable 950W direct current (DC) power budget at its disposal, the Uninterruptible Power Supply-Redundant Power Supply (USP-RPS) exhibits an exceptional capability to safeguard an extensive range of power-intensive devices, such as the cutting-edge UniFi Power over Ethernet (PoE) switches. The integrated 1.3-inch color touchscreen liquid crystal module (LCM) serves as a highly efficient and user-friendly interface, providing a comprehensive display of system information for convenient and effortless monitoring purposes. With its vibrant color palette and intuitive touch functionality, users can easily access and navigate through a wide range of essential data, ensuring a seamless and efficient monitoring experience. This advanced LCM technology enhances the overall usability.