If there’s any place that needs reliable, high-speed wireless Internet with rock-solid uptime it’s a university. Students use their computers and mobile devices to take notes and study, professors rely on their equipment for research and teaching, and the athletic department has tablets to use during practices and games.
How do you install a Cat6 cable?
The challenge for universities is that deploying a cabling upgrade to accommodate new technology and the demands of the campus community can be expensive and disruptive to students. As a result, many IT departments are opting to wait and see how their current cabling plants perform with the new Wi-Fi 6 technology before making the decision to deploy a full upgrade.
That strategy may be fine for some universities, but Cat 6A Cable for Wi-Fi 6E and Wi-Fi 7 AP’s san antonio could be a costly mistake in the long run. As Wi-Fi 6 technology evolves to support increased bandwidth, the older 2.5GBASE-T and 5GBASE-T cabling infrastructure can no longer meet those requirements and it will be difficult for most existing systems to scale.
Moreover, the power requirements for PoE are another key reason why many companies and universities are upgrading to CAT 6A or higher. To deliver the required power over a link, the cabling’s geometry must balance DC resistance between pairs and within a pair, or the voltage will saturate the receiver’s transformers and interfere with data transmission. The Fluke Networks MicroScanner® PoE tester makes it easy to test the cabling for proper balance and ensure that a cable plant is ready to support Wi-Fi 6 and other 10GBASE-T and advanced Power over Ethernet applications.