Hikvision DS-3E0318P-E/M(B) 16-Port Fast Ethernet Unmanaged POE Switch
The Hikvision DS-3E0318P-E/M(B) Unmanaged POE Switch is an innovative networking solution intended to fulfill the special needs of surveillance systems. With 16 100 Mbps PoE ports, 1 1000 Mbps RJ45 connector, and 1 1000 Mbps SFP fiber optical port, this switch provides a flexible platform for integrating a range of devices in a surveillance network. Its use of modern PoE technology, which allows for intelligent power management on the PoE ports, is noteworthy. This function comes in handy when the power supply exceeds the limit, resulting in a longer switch lifespan. The switch has extended mode, allowing for up to 300-meter-long access. This is especially useful in cases when cameras are mounted at a distance, guaranteeing stable and dependable video transmission. With its 4/8-core architecture, the adaptive power supply stands out for its ability to minimize power loss on cables, increasing energy efficiency and contributing to total system performance. The switch has 6KV surge protection to ensure durability in tough environments. This built-in mechanism protects the switch from abrupt lightning surges, increasing its dependability and lifetime under harsh climatic conditions. The addition of a VIP port, designed exclusively for video transmission demands, demonstrates the company’s dedication to prioritizing the transfer of essential data. This is especially significant during times of network congestion, guaranteeing the uninterrupted transmission of critical surveillance data. The Hikvision DS-3E0318P-E/M(B) switch, which is intended for ease of use, simplifies installation and maintenance. Its quick switching capabilities, paired with many access ports, make it ideal for access and aggregation, as well as the upload of small-scale LAN devices. In essence, this switch emerges as a critical component in the development of a durable and high-performance network infrastructure, particularly in surveillance applications where reliability, extended reach, and intelligent power management are critical concerns.