802.11n is rated for a maximum bandwidth of 135Mbps and Gigabit Ethernet (as the name implies) is rated for 1Gbps (or 1000Mbps).
If you want greater speed, why not use gigabit ethernet? Just remember that all the devices and cabling must be capable of that speed or you won't actually see that speed.
Yes, CAT 5E is well-suited for gigabit ethernet. CAT 6 will also work just fine.
Gigabit in relation to Ethernet refers to the data transfer rate of 1 gigabit per second (Gbps), which is equivalent to 1,000 megabits per second (Mbps). This speed is commonly associated with Gigabit Ethernet standards, such as 1000BASE-T, which enable high-speed data transmission over twisted-pair cables. Gigabit Ethernet is widely used in local area networks (LANs) to support bandwidth-intensive applications and improve overall network performance.
You would use gigabit ethernet in a LAN where you want speed; otherwise, most LANs run at 100 megabits per second, which is considerably slower.
You would want to move to a Gigabit network. This will require a switch capable of Gigabit speeds, network cabling capable of Gigabit speeds (Cat 5e for example), and a network interface on a computer that is also Gigabit rated. Most modern switches are Gigabit rated (even inexpensive soho switches).
10 Gigabit Ethernet can transmit Ethernet frames at a speed to 10 gigabits per second (10 billion bits per second). The technology has been slowly growing in popularity, having been hindered by its higher price.
It is not a complete necessity to have a gigabit Ethernet switch but it will increase processing speed to 1,000 Mbits per second. Earlier forms of the Ethernet switches were in the 10 to 100 megabit range.
Here’s a concise overview of the differences between Ethernet, Fast Ethernet, and Gigabit Ethernet: 1. **Speed** **Ethernet**: 10 Mbps **Fast Ethernet**: 100 Mbps **Gigabit Ethernet**: 1 Gbps (1000 Mbps) 2. **Standards** **Ethernet**: IEEE 802.3 (e.g., 10BASE-T) **Fast Ethernet**: IEEE 802.3u (e.g., 100BASE-TX) **Gigabit Ethernet**: IEEE 802.3z (fiber) and 802.3ab (copper, e.g., 1000BASE-T) 3. **Transmission Medium** **Ethernet**: Twisted pair or coaxial cables. **Fast Ethernet**: Twisted pair (Cat 5) and fiber optics. **Gigabit Ethernet**: Twisted pair (Cat 5e or better) and fiber optics. read more...tinyurl. com/578xthwt
In order for you to achieve gigabit data rates, you need: * A gigabit Ethernet card (as you have) * A gigabit router * Cabling that is of correct length and quality to carry a gigabit signal. If these conditions are not met, the card will drop to the next available transfer rate.
Gigabit = 1,000,000,000 bps (bits per second) = 125,000,000 Bps (Bytes per second) = 125 MBps (Megabytes per second (10^3)) = 119.209... MiBps (Mebibytes per second (2^10)) 10 Gigabit = 10,000,000,000 bps (bits per second) = 1,250,000,000 Bps (Bytes per second) = 1.25 GBps (Gigabytes per second (10^3)) = 1.164... GiBps (Gibibytes per second (2^10)) The difference is obvious. 10 Gigabit = 10 x Gigabit or 10:1 Gigabit Ethernet is behind, it's less than 1/4 the speed of USB 3.0. Regardless of availability of 1Gb+ Internet, there are many across the network uses for having 10Gb+ Ethernet. It's standard to have routers 1Gbps wired, and 300Mbps wireless, but nothing above for consumers. You will have to wait.
(From: Jean Andrews CompTIA A+ 6th Edition pg. 846) The three variations of Ethernet are primarily distinguished from one another by speed: (1) 10-Mbps Ethernet, (2) 100-Mbps or Fast Ethernet, and (3) 1000-Mbps or Gigabit Ethernet.
The speed of 100 MB Ethernet, commonly referred to as Fast Ethernet, is 100 megabits per second (Mbps). This standard supports data transmission over twisted-pair cables and fiber optics. Fast Ethernet is widely used in local area networks (LANs) for connecting devices such as computers and switches. It is capable of handling typical network traffic demands but has largely been superseded by faster standards like Gigabit Ethernet.