Myths about Power Over Ethernet
Myths about Power Over Ethernet August 27, 2009 Power-over-Ethernet (PoE) technology integrates power and data across standard Cat5/5e/6 network cabling and provides more flexibility in today’s workplace. PoE enables power to be supplied to network devices, such as IP phones, network cameras, and wireless access points through a single, most often existing, network cable. When combined with an uninterruptable power supply (UPS) a PoE network delivers continuous operation and minimizes business downtime by eliminating most power interruptions. With the ability to install endpoints in any location PoE technology provides a scalable and flexible networking infrastructure geared for growth and efficiency. PoE Switches can provide all the power I need or will need. Today most switches are merely PoE-enabled. This means the majority rely on power management to share available power across the switch ports. The switches are designed with a smaller power supply that is typically capable of powering the switch itself and providing the required 15.4 watts of power over a limited number of ports. For example: A 24-port PoE Switch with power management typically has a 195-watt power supply. After the 40 watts needed to power the switch, you have approximately 155 watts remaining. If 12 of the 24 ports are used to connect end devices using 11.5 watts each, you would only have 17 watts remaining to provide power on the last 12 ports. The math doesn’t match the ports: 195W – 40W (switch) – 138 (12 devices @ 11.5W/ea) = 17W left for power on 12 ports Myth Busted: A PoE Switch is often not the best and most cost effective solution. A midspan and a PoE switch are the same. A PoE Midspan is not a switch. A Midspan is an additional PoE power source that can be used to offer full power to all endpoint devices. PoE Midspans (Power Hub or Power Injector) pass data from a switch and ‘inject’ safe power acting as a patch panel of sorts. Midspans are commonly used with either a non-PoE switch, an existing PoE switch, or a new PoE switch in a network. In addition to offering full power across all available ports, midspans costs substantially less per port and overall than a new PoE enabled switch. Myth Busted: Midspans do not switch – they make use of existing best-in-class switches. They inject safe power across all ports and cost less than PoE switches. . Only a switch that has PoE built in should be used to power devices like IP Phones, Access Points, and IP Security Cameras. Switches were designed to, well, switch. PoE Switches are designed with power management and have to distribute different power as required to ports but there is often not enough power for all devices plus the power required to complete the primary task - switching. Networks that have multiple devices like IP phones, IP cameras, wireless access points quickly go beyond the limited capacity of managed power PoE switches. As more PoE devices continue to grow in capabilities and market share this managed power limitation will become more and more evident. Midspans, in contrast to switches, were designed to provide full power on every port and deliver safe and reliable power based on the industry standards (IEEE802.3af/at). Myth Busted: Rather than relying on power management in a switch use a midspan that can deliver full power (15.4W) to every port for all PoE-enabled devices now and in the future. Ethernet devices not PoE-enabled (non 802.3af/at compliant) cannot be powered using PoE technology. Many devices do not directly accept Power-over-Ethernet but can still use PoE technology. If the device uses less than 12.5 watts (802.3af) or less than 50 watts (802.3at+) and connects to an IP Ethernet network you can use a PoE splitter. PoE splitters enable you to accept PoE power from any IEEE 802.3af/at compliant switch or midspan then separates the data and power on to two seprate cables. The data is connected to the end device through a standard RJ45 plug while the power is connected using a standard 5.5 x 2.1 x 12mm Adapter Plug. Splitters can also convert the input voltage to the required voltage for a non-PoE device. Splitters are traditionally used with older network products which only accept power through their (DC) jack and data through their RJ-45 jack. Myth Busted: PoE splitters can be used in conjunction with PoE midspans and switches to provide both the data connectivity and power required by most endpoint devices. I need/will need additional PoE switch ports to power my IP cameras and high-power pan, tilt, and zoom (PTZ) cameras. Today, many devices have evolved into more advanced solutions with higher power requirements. The traditional approach was to endure a “forklift upgrade”. This meant buying new PoE switches at considerable cost and physically swapping out the existing switches to meet higher power requirements or add more powered ports
Re: Myths about Power Over Ethernet
Myths about Power Over Ethernet May 28, 2009 Power-over-Ethernet (PoE) technology integrates power and data across standard Cat5/5e/6 network cabling and provides more flexibility in today?s workplace. PoE enables power to be supplied to network devices, such as IP phones, network cameras, and wireless access points through a single, most often existing, network cable. When combined with an uninterruptable power supply (UPS) a PoE network delivers continuous operation and minimizes business downtime by eliminating most power interruptions. With the ability to install endpoints in any location PoE technology provides a scalable and flexible networking infrastructure geared for growth and efficiency. Unless gigabit ethernet is used, the simplest PoE is to put + on brown pair and - on blue pair, as only green and orange pairs are used. Unless the device doesn't have low voltage like 5V or less as input and doesn't suck too much power it's just fine, and requires just 5-10 minutes or work, soldering iron and insulation tape. It's really funny to see "PoE converter" sets costing at least 150PLN (45$) here doing exactly the same. of course nobody forbids anyone to spent too much :) I even know somebody that had a lots of equipment with american-style power (110V AC), made 220 to 110V transformer and actually put 110V AC OVER CAT5 CABLE. It worked but really - it wasn't safe IMHO :) ___ freebsd-questions@freebsd.org mailing list http://lists.freebsd.org/mailman/listinfo/freebsd-questions To unsubscribe, send any mail to "freebsd-questions-unsubscr...@freebsd.org"
Myths about Power Over Ethernet
Myths about Power Over Ethernet May 28, 2009 Power-over-Ethernet (PoE) technology integrates power and data across standard Cat5/5e/6 network cabling and provides more flexibility in today’s workplace. PoE enables power to be supplied to network devices, such as IP phones, network cameras, and wireless access points through a single, most often existing, network cable. When combined with an uninterruptable power supply (UPS) a PoE network delivers continuous operation and minimizes business downtime by eliminating most power interruptions. With the ability to install endpoints in any location PoE technology provides a scalable and flexible networking infrastructure geared for growth and efficiency. PoE Switches can provide all the power I need or will need. Today most switches are merely PoE-enabled. This means the majority rely on power management to share available power across the switch ports. The switches are designed with a smaller power supply that is typically capable of powering the switch itself and providing the required 15.4 watts of power over a limited number of ports. For example: A 24-port PoE Switch with power management typically has a 195-watt power supply. After the 40 watts needed to power the switch, you have approximately 155 watts remaining. If 12 of the 24 ports are used to connect end devices using 11.5 watts each, you would only have 17 watts remaining to provide power on the last 12 ports. The math doesn’t match the ports: 195W – 40W (switch) – 138 (12 devices @ 11.5W/ea) = 17W left for power on 12 ports Myth Busted: A PoE Switch is often not the best and most cost effective solution. A midspan and a PoE switch are the same. A PoE Midspan is not a switch. A Midspan is an additional PoE power source that can be used to offer full power to all endpoint devices. PoE Midspans (Power Hub or Power Injector) pass data from a switch and ‘inject’ safe power acting as a patch panel of sorts. Midspans are commonly used with either a non-PoE switch, an existing PoE switch, or a new PoE switch in a network. In addition to offering full power across all available ports, midspans costs substantially less per port and overall than a new PoE enabled switch. Myth Busted: Midspans do not switch – they make use of existing best-in-class switches. They inject safe power across all ports and cost less than PoE switches. . Only a switch that has PoE built in should be used to power devices like IP Phones, Access Points, and IP Security Cameras. Switches were designed to, well, switch. PoE Switches are designed with power management and have to distribute different power as required to ports but there is often not enough power for all devices plus the power required to complete the primary task - switching. Networks that have multiple devices like IP phones, IP cameras, wireless access points quickly go beyond the limited capacity of managed power PoE switches. As more PoE devices continue to grow in capabilities and market share this managed power limitation will become more and more evident. Midspans, in contrast to switches, were designed to provide full power on every port and deliver safe and reliable power based on the industry standards (IEEE802.3af/at). Myth Busted: Rather than relying on power management in a switch use a midspan that can deliver full power (15.4W) to every port for all PoE-enabled devices now and in the future. Ethernet devices not PoE-enabled (non 802.3af/at compliant) cannot be powered using PoE technology. Many devices do not directly accept Power-over-Ethernet but can still use PoE technology. If the device uses less than 12.5 watts (802.3af) or less than 50 watts (802.3at+) and connects to an IP Ethernet network you can use a PoE splitter. PoE splitters enable you to accept PoE power from any IEEE 802.3af/at compliant switch or midspan then separates the data and power on to two seprate cables. The data is connected to the end device through a standard RJ45 plug while the power is connected using a standard 5.5 x 2.1 x 12mm Adapter Plug. Splitters can also convert the input voltage to the required voltage for a non-PoE device. Splitters are traditionally used with older network products which only accept power through their (DC) jack and data through their RJ-45 jack. Myth Busted: PoE splitters can be used in conjunction with PoE midspans and switches to provide both the data connectivity and power required by most endpoint devices. I need/will need additional PoE switch ports to power my IP cameras and high-power pan, tilt, and zoom (PTZ) cameras. Today, many devices have evolved into more advanced solutions with higher power requirements. The traditional approach was to endure a “forklift upgrade”. This meant buying new PoE switches at considerable cost and physically swapping out the existing switches to meet higher power requirements or add more powered ports
Myths about Power Over Ethernet
Myths about Power Over Ethernet May 7, 2008 Power-over-Ethernet (PoE) technology integrates power and data across standard Cat5/5e/6 network cabling and provides more flexibility in today’s workplace. PoE enables power to be supplied to network devices, such as IP phones, network cameras, and wireless access points through a single, most often existing, network cable. When combined with an uninterruptable power supply (UPS) a PoE network delivers continuous operation and minimizes business downtime by eliminating most power interruptions. With the ability to install endpoints in any location PoE technology provides a scalable and flexible networking infrastructure geared for growth and efficiency. PoE Switches can provide all the power I need or will need. Today most switches are merely PoE-enabled. This means the majority rely on power management to share available power across the switch ports. The switches are designed with a smaller power supply that is typically capable of powering the switch itself and providing the required 15.4 watts of power over a limited number of ports. For example: A 24-port PoE Switch with power management typically has a 195-watt power supply. After the 40 watts needed to power the switch, you have approximately 155 watts remaining. If 12 of the 24 ports are used to connect end devices using 11.5 watts each, you would only have 17 watts remaining to provide power on the last 12 ports. The math doesn’t match the ports: 195W – 40W (switch) – 138 (12 devices @ 11.5W/ea) = 17W left for power on 12 ports Myth Busted: A PoE Switch is often not the best and most cost effective solution. A midspan and a PoE switch are the same. A PoE Midspan is not a switch. A Midspan is an additional PoE power source that can be used to offer full power to all endpoint devices. PoE Midspans (Power Hub or Power Injector) pass data from a switch and ‘inject’ safe power acting as a patch panel of sorts. Midspans are commonly used with either a non-PoE switch, an existing PoE switch, or a new PoE switch in a network. In addition to offering full power across all available ports, midspans costs substantially less per port and overall than a new PoE enabled switch. Myth Busted: Midspans do not switch – they make use of existing best-in-class switches. They inject safe power across all ports and cost less than PoE switches. . Only a switch that has PoE built in should be used to power devices like IP Phones, Access Points, and IP Security Cameras. Switches were designed to, well, switch. PoE Switches are designed with power management and have to distribute different power as required to ports but there is often not enough power for all devices plus the power required to complete the primary task - switching. Networks that have multiple devices like IP phones, IP cameras, wireless access points quickly go beyond the limited capacity of managed power PoE switches. As more PoE devices continue to grow in capabilities and market share this managed power limitation will become more and more evident. Midspans, in contrast to switches, were designed to provide full power on every port and deliver safe and reliable power based on the industry standards (IEEE802.3af/at). Myth Busted: Rather than relying on power management in a switch use a midspan that can deliver full power (15.4W) to every port for all PoE-enabled devices now and in the future. Ethernet devices not PoE-enabled (non 802.3af/at compliant) cannot be powered using PoE technology. Many devices do not directly accept Power-over-Ethernet but can still use PoE technology. If the device uses less than 12.5 watts (802.3af) or less than 50 watts (802.3at+) and connects to an IP Ethernet network you can use a PoE splitter. PoE splitters enable you to accept PoE power from any IEEE 802.3af/at compliant switch or midspan then separates the data and power on to two seprate cables. The data is connected to the end device through a standard RJ45 plug while the power is connected using a standard 5.5 x 2.1 x 12mm Adapter Plug. Splitters can also convert the input voltage to the required voltage for a non-PoE device. Splitters are traditionally used with older network products which only accept power through their (DC) jack and data through their RJ-45 jack. Myth Busted: PoE splitters can be used in conjunction with PoE midspans and switches to provide both the data connectivity and power required by most endpoint devices. I need/will need additional PoE switch ports to power my IP cameras and high-power pan, tilt, and zoom (PTZ) cameras. Today, many devices have evolved into more advanced solutions with higher power requirements. The traditional approach was to endure a “forklift upgrade”. This meant buying new PoE switches at considerable cost and physically swapping out the existing switches to meet higher power requirements or add more powered ports
Myths about Power Over Ethernet
Myths about Power Over Ethernet May 5, 2008 Power-over-Ethernet (PoE) technology integrates power and data across standard Cat5/5e/6 network cabling and provides more flexibility in today’s workplace. PoE enables power to be supplied to network devices, such as IP phones, network cameras, and wireless access points through a single, most often existing, network cable. When combined with an uninterruptable power supply (UPS) a PoE network delivers continuous operation and minimizes business downtime by eliminating most power interruptions. With the ability to install endpoints in any location PoE technology provides a scalable and flexible networking infrastructure geared for growth and efficiency. PoE Switches can provide all the power I need or will need. Today most switches are merely PoE-enabled. This means the majority rely on power management to share available power across the switch ports. The switches are designed with a smaller power supply that is typically capable of powering the switch itself and providing the required 15.4 watts of power over a limited number of ports. For example: A 24-port PoE Switch with power management typically has a 195-watt power supply. After the 40 watts needed to power the switch, you have approximately 155 watts remaining. If 12 of the 24 ports are used to connect end devices using 11.5 watts each, you would only have 17 watts remaining to provide power on the last 12 ports. The math doesn’t match the ports: 195W – 40W (switch) – 138 (12 devices @ 11.5W/ea) = 17W left for power on 12 ports Myth Busted: A PoE Switch is often not the best and most cost effective solution. A midspan and a PoE switch are the same. A PoE Midspan is not a switch. A Midspan is an additional PoE power source that can be used to offer full power to all endpoint devices. PoE Midspans (Power Hub or Power Injector) pass data from a switch and ‘inject’ safe power acting as a patch panel of sorts. Midspans are commonly used with either a non-PoE switch, an existing PoE switch, or a new PoE switch in a network. In addition to offering full power across all available ports, midspans costs substantially less per port and overall than a new PoE enabled switch. Myth Busted: Midspans do not switch – they make use of existing best-in-class switches. They inject safe power across all ports and cost less than PoE switches. . Only a switch that has PoE built in should be used to power devices like IP Phones, Access Points, and IP Security Cameras. Switches were designed to, well, switch. PoE Switches are designed with power management and have to distribute different power as required to ports but there is often not enough power for all devices plus the power required to complete the primary task - switching. Networks that have multiple devices like IP phones, IP cameras, wireless access points quickly go beyond the limited capacity of managed power PoE switches. As more PoE devices continue to grow in capabilities and market share this managed power limitation will become more and more evident. Midspans, in contrast to switches, were designed to provide full power on every port and deliver safe and reliable power based on the industry standards (IEEE802.3af/at). Myth Busted: Rather than relying on power management in a switch use a midspan that can deliver full power (15.4W) to every port for all PoE-enabled devices now and in the future. Ethernet devices not PoE-enabled (non 802.3af/at compliant) cannot be powered using PoE technology. Many devices do not directly accept Power-over-Ethernet but can still use PoE technology. If the device uses less than 12.5 watts (802.3af) or less than 50 watts (802.3at+) and connects to an IP Ethernet network you can use a PoE splitter. PoE splitters enable you to accept PoE power from any IEEE 802.3af/at compliant switch or midspan then separates the data and power on to two seprate cables. The data is connected to the end device through a standard RJ45 plug while the power is connected using a standard 5.5 x 2.1 x 12mm Adapter Plug. Splitters can also convert the input voltage to the required voltage for a non-PoE device. Splitters are traditionally used with older network products which only accept power through their (DC) jack and data through their RJ-45 jack. Myth Busted: PoE splitters can be used in conjunction with PoE midspans and switches to provide both the data connectivity and power required by most endpoint devices. I need/will need additional PoE switch ports to power my IP cameras and high-power pan, tilt, and zoom (PTZ) cameras. Today, many devices have evolved into more advanced solutions with higher power requirements. The traditional approach was to endure a “forklift upgrade”. This meant buying new PoE switches at considerable cost and physically swapping out the existing switches to meet higher power requirements or add more powered ports
Myths about Power Over Ethernet
Myths about Power Over Ethernet April 27, 2008 Power-over-Ethernet (PoE) technology integrates power and data across standard Cat5/5e/6 network cabling and provides more flexibility in today’s workplace. PoE enables power to be supplied to network devices, such as IP phones, network cameras, and wireless access points through a single, most often existing, network cable. When combined with an uninterruptable power supply (UPS) a PoE network delivers continuous operation and minimizes business downtime by eliminating most power interruptions. With the ability to install endpoints in any location PoE technology provides a scalable and flexible networking infrastructure geared for growth and efficiency. PoE Switches can provide all the power I need or will need. Today most switches are merely PoE-enabled. This means the majority rely on power management to share available power across the switch ports. The switches are designed with a smaller power supply that is typically capable of powering the switch itself and providing the required 15.4 watts of power over a limited number of ports. For example: A 24-port PoE Switch with power management typically has a 195-watt power supply. After the 40 watts needed to power the switch, you have approximately 155 watts remaining. If 12 of the 24 ports are used to connect end devices using 11.5 watts each, you would only have 17 watts remaining to provide power on the last 12 ports. The math doesn’t match the ports: 195W – 40W (switch) – 138 (12 devices @ 11.5W/ea) = 17W left for power on 12 ports Myth Busted: A PoE Switch is often not the best and most cost effective solution. A midspan and a PoE switch are the same. A PoE Midspan is not a switch. A Midspan is an additional PoE power source that can be used to offer full power to all endpoint devices. PoE Midspans (Power Hub or Power Injector) pass data from a switch and ‘inject’ safe power acting as a patch panel of sorts. Midspans are commonly used with either a non-PoE switch, an existing PoE switch, or a new PoE switch in a network. In addition to offering full power across all available ports, midspans costs substantially less per port and overall than a new PoE enabled switch. Myth Busted: Midspans do not switch – they make use of existing best-in-class switches. They inject safe power across all ports and cost less than PoE switches. . Only a switch that has PoE built in should be used to power devices like IP Phones, Access Points, and IP Security Cameras. Switches were designed to, well, switch. PoE Switches are designed with power management and have to distribute different power as required to ports but there is often not enough power for all devices plus the power required to complete the primary task - switching. Networks that have multiple devices like IP phones, IP cameras, wireless access points quickly go beyond the limited capacity of managed power PoE switches. As more PoE devices continue to grow in capabilities and market share this managed power limitation will become more and more evident. Midspans, in contrast to switches, were designed to provide full power on every port and deliver safe and reliable power based on the industry standards (IEEE802.3af/at). Myth Busted: Rather than relying on power management in a switch use a midspan that can deliver full power (15.4W) to every port for all PoE-enabled devices now and in the future. Ethernet devices not PoE-enabled (non 802.3af/at compliant) cannot be powered using PoE technology. Many devices do not directly accept Power-over-Ethernet but can still use PoE technology. If the device uses less than 12.5 watts (802.3af) or less than 50 watts (802.3at+) and connects to an IP Ethernet network you can use a PoE splitter. PoE splitters enable you to accept PoE power from any IEEE 802.3af/at compliant switch or midspan then separates the data and power on to two seprate cables. The data is connected to the end device through a standard RJ45 plug while the power is connected using a standard 5.5 x 2.1 x 12mm Adapter Plug. Splitters can also convert the input voltage to the required voltage for a non-PoE device. Splitters are traditionally used with older network products which only accept power through their (DC) jack and data through their RJ-45 jack. Myth Busted: PoE splitters can be used in conjunction with PoE midspans and switches to provide both the data connectivity and power required by most endpoint devices. I need/will need additional PoE switch ports to power my IP cameras and high-power pan, tilt, and zoom (PTZ) cameras. Today, many devices have evolved into more advanced solutions with higher power requirements. The traditional approach was to endure a “forklift upgrade”. This meant buying new PoE switches at considerable cost and physically swapping out the existing switches to meet higher power requirements or add more powered ports