H3C Campus Switches
PoE Technology White Paper

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Contents

Overview·· 1

Technical background· 1

Benefits· 1

PoE standards· 1

PoE implementation· 2

PoE system·· 2

PoE power delivery modes· 2

PoE power delivery process· 3

Fast PoE· 4

Perpetual PoE· 4

AI-driven PoE· 4

PoE transmission distance· 5

H3C PoE++ campus switches· 6

H3C S6520X switch series· 6

H3C S5130S switch series· 7

H3C S5570S switch series· 7

H3C campus switches that support long-range PoE·· 8

H3C S5120V3-LI switch series· 8

H3C S1850V2-X switch series· 10

H3C S1850V2-EI switch series· 10

H3C S1600V2 switch series· 11

References· 12

Appendix  Acronyms· 13

 

Overview

Technical background

Varieties of IP-based endpoints such as IP phones, access points, portable device chargers, card readers, and Webcams have been developed and widely used nowadays driven by fast development of network technologies. For these devices to run on the network, you must connect network cables to transmit data and deploy power sourcing devices to supply power to them. These power sourcing devices and power cords will not only cause higher expenditure but also increase device deployment and maintenance complexity.

Power over Ethernet (PoE), also known as remote power supply, is a technology that delivers power to powered devices (PDs) over twisted pair cables. It minimizes the costs while ensuring secure network operation without changing the network cabling.

PoE++ technology, defined in the latest PoE standard 802.3bt, delivers a maximum power output of 90 W and is backward compatible with existing PoE standards, making it to fit various power needs.

Benefits

PoE technology offers the following benefits:

·     Highly available—PoE power comes from a single centralized point and not from distributed power supplies, enabling unified power management and convenient power backup.

·     Easy to deploy—Network endpoints do not need a connection to an external power supply but a single network cable which will carry both data and power simultaneously.

·     Standards compliant—This technology is defined in 802.3af standard, 802.3at standard, and 802.3bt standard. The differences among these three PoE versions lie in their power transmission capabilities and the number of wires used.

·     Widely applicable—This technology is widely applicable to varieties of IP endpoints such as IP phones, access points, portable device chargers, card readers, and Webcams.

PoE standards

IEEE released 802.3af (PoE), 802.3at (PoE+), and 802.3bt (PoE++) standards in chronological sequence. These standards are backward compatible while forwards incompatible. 802.3af PoE, 802.3at PoE+, and 802.3bt PoE++ deliver a maximum PoE power of 15.4 W, 30 W, and 90 W, respectively. H3C supports a maximum power output of 99 W from a PoE++ port.

 

IMPORTANT: PoE++ interfaces on some switches cannot auto-negotiate to the maximum output power of 99 W. You must use the poe max-power command to configure the maximum power for the PoE interfaces.

 

Table 1 Specifications of different PoE standards

Item	PoE	PoE+	PoE++	PoE++
Standard	802.3af	802.3at	802.3bt	802.3bt
Power transmission distance	100 m (328.08 ft)	100 m (328.08 ft)	100 m (328.08 ft)	100 m (328.08 ft)
Power classes	0 to 3	4	5 and 6	7 and 8
PSE output voltage	44 to 57 VDC	50 to 57 VDC	50 to 57 VDC	52 to 57 VDC
PSE output power	≤ 15.4 W	≤ 30 W	≤ 60 W	≤ 90 W
PD input voltage	36 to 57 VDC	42.5 to 57 VDC	42.5 to 57 VDC	42.5 to 57 VDC
PD max power	12.95 W	25.5 W	51 W	71 W
Cable	Ethernet cable	CAT-5 or above	CAT-5 or above	CAT-5 or above
Cable pairs to transmit power	2	2	4	4

 

PoE implementation

PoE system

As shown in Figure 1, a PoE system contains the following elements:

·     PoE power supply—A PoE power supply provides power for the entire PoE system.

·     PSE—A power sourcing equipment (PSE) supplies power to PDs. PSE devices are classified into single-PSE devices and multiple-PSE devices.

¡     A single-PSE device has only one piece of PSE firmware.

¡     A multiple-PSE device has multiple PSEs. A multiple-PSE device uses PSE IDs to identify different PSEs. To view the mapping between the PSE ID and slot number, execute the display poe device command.

·     PI—A power interface (PI) is a PoE-capable Ethernet interface on a PSE.

·     PD—A powered device (PD) receives power from a PSE. PDs include IP telephones, APs, portable chargers, POS terminals, and Web cameras. You can also connect a PD to a redundant power source for reliability.

Figure 1 PoE system

 

PoE power delivery modes

PoE power can be delivered over data pairs or spare pairs of a twisted pair cable.

·     Power delivery over data pairs (Alternative A)—A PSE uses data pairs (on pins 1, 2 and pins 3, 6) to transmit data and power to PDs. The PSE applies negative voltage to pair 1, 2 and positive voltage to pair 3 and 6, or positive voltage to pair 1 and 2 and negative voltage to pair 3 and 6. Because DC current and data frequencies do not interfere with each other, both current and data can be transmitted simultaneously on the same pair of wires. A 10BASE-T or 100BASETX interface uses pairs 1, 2 and 3, 6 to transmit data and a 1000BASE-T interface uses all the pairs to transmit data.

Figure 2 Power delivery over data pairs

 

·     Power delivery over spare pairs (Alternative B)—A PSE transmits power to a PD over spare pairs (on pins 4, 5 and pins 7, 8). It applies positive voltage to pair 4, 5 and negative voltage to pair 7, 8.

Figure 3 Power delivery over spare pairs

 

A PD must support both the power delivery modes. H3C PoE and PoE+ devices support power deliver over data pairs. H3C PoE++ devices support power delivery over data pairs and spare pairs and can use all the eight twisted pairs to transmit power.

PoE power delivery process

To ensure power safety, a PSE will have a detection of PDs before delivering power to PDs.

A PSE uses the following procedure to deliver power to PDs:

1.     Detects PDs. With PoE enabled on a power interface (PI), a PSE periodically outputs a small voltage (2.8 V to 10 V) with limited current or current (170 to 260 μA) from each PI to detect presence of PDs compliant with a PoE standard.

2.     Classifies PDs. Upon detection of a PD, the PSE determines the power requirements of the PD and classifies it. Classification of PDs can be implemented through current detection or link layer discovery protocol (LLDP).

The available power classes vary by PoE standard:

¡     802.3af—Defines four power classes 0 to 3 and delivers a maximum power of 12.95 W.

¡     802.3at—Adds class 4 in addition to the four power classes defined by 802.3af and delivers a maximum power of 25.5 W.

¡     802.3bt—Adds classes 5 to 8 in addition to the five power classes defined by 802.3at and delivers a maximum power of 71 W.

3.     Delivers power to PDs. The PSE supplies stable power to each PD based on its power class.

4.     Cuts off power from PDs. The PSE continuously monitors the current of PDs while delivery power to them and will cut off power to a PD if one of the following conditions is detected:

¡     The PD current drops below the minimum value.

¡     The PD current surges. This might occur when the PD is removed or rebooted, a PD power overload or short circuit occurs, or the required power exceeds the maximum capacity of the PSE.

Fast PoE

Typically, PIs does not deliver power to PDs the moment the PSE is powered on but wait until the PSE completes startup.

Fast PoE enables PIs to deliver power to PDs within few seconds after power is supplied to the PSE.

Only part of H3C PoE models support this feature. For switch compatibility with this feature, see the document for the switch.

Perpetual PoE

Perpetual PoE continuously monitors the PD states and ensures continued power supply to PDs even when the PSE device is hot rebooting.

AI-driven PoE

Innovatively integrating AI technologies into PoE switches, H3C AI-driven PoE enables completely automated, intelligently managed, healed, and optimized PoE, bringing convenient and outstanding PoE experience to users. Only part of H3C switch models support this feature. For switch compatibility with this feature, see the document for this switch.

Smart power management

AI-driven PoE adaptively adjusts the power supply parameters to fit power needs in various scenarios such as multiple types of PDs and address issues such as power supply failure and power interruption without human intervention.

The following describes how AI-driven PoE addresses power supply failure and power interruption without human intervention.

·     Failure to supply power to a PD

After PoE is enabled on a port, the PSE chip sends PD detection signals. AI-driven PoE monitors the PD detection result in real time.

¡     If the system does not detect the PD, AI-driven PoE automatically adjusts the detection range, and the PSE chip relaxes the PD identification restrictions.

¡     If the system still does not detect the PD, AI-driven PoE automatically adjusts the detection algorithm and sampling and waveform parameters. Upon detection of the PD, the system immediately supplies power to it.

·     Power interruption to a PD

AI-driven PoE monitors the power supply status of PIs in real time. If a PI loses power, it will monitor the LLDP information that the PI receives from its neighbor and the power supply status of the PSE.

¡     If no faults have occurred, it resumes power supply of the PI.

¡     If the PI has not received LLDP information from its neighbor for a long time but the PSE is operating correctly, it will automatically adjust relevant registers and reset PoE on the PI to re-power the PD.

¡     If a power failure is detected on the PSE, it automatically identifies the cause and makes adjustment accordingly.

-     Instantaneous overcurrent—Automatically adjusts the inrush current limit of the PSE to allow large instantaneous currents.

-     Smaller load current—Automatically adjusts the MPS current of the PSE to adapt to small loads.

-     Higher load power—Automatically adjusts the power of the PSE and maximizes the PI power limit.

Priority-based power management

When the power demanded by PDs exceeds the power that can be supplied by the PoE switch, the system supplies power to PDs based on the PI priorities to ensure power supply to critical businesses and reduce power supply to PIs of lower priorities.

Smart power supply management

For a PoE switch with dual power supplies, AI-driven PoE can automatically calculate and regulate power output of each power supply based on the type and quantity of the power supply, to maximize the power usage of each power supply. When a power supply is removed, AI-driven PoE recalculates to preferentially guarantee power supply to PDs that are being powered.

Alarms and logs

AI-driven PoE constantly monitors the PoE running status continuously. If an exception occurs, it automatically analyzes, recovers, or even resets PoE, and outputs alarms and logs.

High PoE security

When an exception such as short circuit or circuit break occurs, AI-driven PoE immediately starts self-protection to protect the PoE switch from being damaged or burned.

PoE transmission distance

The PoE transmission distance depends on many factors including interface rate and network cable quality. A lower port rate allow for greater PoE transmission distance, reaching up to 200 to 250 m (656.168 to 820.21 ft) at a transmission rate of 10 Mbps. Whether an interface supports automatic negotiation for speed downgrading and the interface speed configuration method depend on the device model.

·     For interfaces that support automatic negotiation for speed downgrading, the system will automatically reduce the port's speed to decrease line loss and ensure signal and power supply quality when the transmission distance exceeds 100 m (328.08 ft). Automatic negotiation for speed downgrading is enabled by default. To configure this feature, access the page for configuring interface speed autonegotiation in the Web interface or execute the speed auto downgrade command at the CLI.

·     For interfaces that do support automatic negotiation for speed downgrading, you can manually change the interface speed 10 Mbps. To set the interface speed, access the page for configuring interface speed in the Web interface or execute the speed command at the CLI.

H3C PoE++ campus switches

H3C S6520X switch series

H3C S6520X PoE switch models S6520X-26MC-UPWR-SI, S6520X-26XC-UPWR-SI, and S6520X-54XC-UPWR-SI support PoE, PoE+, and PoE++ that deliver a maximum power of 15.4 W, 30 W, and 60 or 90 W, respectively.

Table 2 H3C S6520X PoE++ switch models

Switch model	Ports and slots
S6520X-26XC-UPWR-SI	·     24 × 10G/5G/2.5G/1000/100BASE-T autosensing Ethernet ports ·     1 × interface module slot
S6520X-54XC-UPWR-SI	·     48 × 10G/5G/2.5G/1000/100BASE-T autosensing Ethernet ports ·     4 × QSFP+ ports ·     1 × interface module slot
S6520X-26MC-UPWR-SI	·     24 × 5G/2.5G/1000/100BASE-T autosensing Ethernet ports ·     1 × interface module slot

 

Table 3 Maximum PoE transmission distance of the multi-rate ports on H3C S6520X PoE switch models

Switch model	Transmission rate	Network cable type	Maximum transmission distance
S6520X-26XC-UPWR-SI S6520X-54XC-UPWR-SI	10 Gbps	CAT6 S/FTP or above	100 m (328.08 ft)
		CAT6 UTP	55 m (180.45 ft)
		CAT5e	55 m (180.45 ft)
	5 Gbps	CAT5e or above	100 m (328.08 ft)
	2.5 Gbps	CAT5e or above	200 m (656.17 ft)
	1 Gbps	CAT5e or above	140 m (459.32 ft)
	100 Mbps	CAT5e or above	200 m (656.17 ft)
S6520X-26MC-UPWR-SI	5 Gbps	CAT5e or above	100 m (328.08 ft)
	2.5 Gbps	CAT5e or above	200 m (656.17 ft)
	1 Gbps	CAT5e or above	200 m (656.17 ft)
	100 Mbps	CAT5e or above	200 m (656.17 ft)

 

NOTE: The maximum PoE transmission distance and power depend on many factors including the compliant PoE standard and power class of the PD and network cable quality.

 

H3C S5130S switch series

H3C S5130S PoE switch models S5130S-10MS-UPWR-EI, S5130S-28S-UPWR-EI-Q, S5130S-16S-UPWR-EI-Q, and S5130S-28S-UPWR-HI support PoE, PoE+, and PoE++ that deliver a maximum power of 15.4 W, 30 W, and 60 or 90 W, respectively.

Table 4 H3C S5130S PoE++ switch models

Switch model	Ports
S5130S-10MS-UPWR-EI	·     8 × 2.5G/1000/100BASE-T autosensing Ethernet ports ·     2 × SFP+ ports
S5130S-28S-UPWR-EI-Q	·     24 × 1000/100/10 BASE-T autosensing Ethernet ports (The lowest-number eight ports support PoE++ and the highest-numbered sixteen ports support PoE+) ·     4 × SFP+ ports
S5130S-16S-UPWR-EI-Q	·     12 × 1000/100/10 BASE-T autosensing Ethernet ports ·     4 × SFP+ ports
S5130S-28S-UPWR-HI	·     24 × 1000/100/10 BASE-T autosensing Ethernet ports ·     4 × SFP+ ports

 

Table 5 Maximum PoE transmission distance of the multi-rate ports on H3C S5130S PoE switch models

Switch model	Transmission rate	Network cable type	Maximum transmission distance
S5130S-10MS-UPWR-EI	2.5 Gbps	CAT5e or above	200 m (656.17 ft)
	1 Gbps	CAT5e or above	200 m (656.17 ft)
	100 Mbps	CAT5e or above	250 m (820.21 ft)
S5130S-28S-UPWR-EI-Q	1 Gbps	CAT5e or above	120 m (393.70 ft)
	100 Mbps	CAT5e or above	180 m (590.55 ft)
	10 Mbps	CAT5e or above	250 m (820.21 ft)
S5130S-16S-UPWR-EI-Q	1 Gbps	CAT5e or above	120 m (393.70 ft)
	100 Mbps	CAT5e or above	180 m (590.55 ft)
	10 Mbps	CAT5e or above	250 m (820.21 ft)
S5130S-28S-UPWR-HI	1 Gbps	CAT5e or above	120 m (393.70 ft)
	100 Mbps	CAT5e or above	180 m (590.55 ft)
	10 Mbps	CAT5e or above	250 m (820.21 ft)

 

NOTE: The maximum PoE transmission distance depends on many factors including the compliant PoE standard and power class of the PD and network cable quality.

 

H3C S5570S switch series

H3C S5570S PoE switch model S5570S-30MS-UPWR-EI supports PoE, PoE+, and PoE++ that deliver a maximum power of 15.4 W, 30 W, and 60 or 99 W, respectively.

Table 6 H3C S5570S PoE++ switch models

Switch model	Ports
S5570S-30MS-UPWR-EI	24 × 2.5G/1000/100BASE-T autosensing Ethernet ports 6 × SFP+ ports

 

Table 7 Maximum PoE transmission distance of the multi-rate ports on H3C S5570S PoE switch models

Switch model	Transmission rate	Network cable type	Maximum transmission distance
S5570S-30MS-UPWR-EI	2.5 Gbps	CAT5e or above	100
	1 Gbps	CAT5e or above	140
	100 Mbps	CAT5e or above	200

 

NOTE: The maximum PoE transmission distance depends on many factors including the compliant PoE standard and power class of the PD and network cable quality.

 

H3C campus switches that support long-range PoE

Support for long-range PoE depends on the device model. This section lists only some models.

For devices that do not support automatic negotiation for speed downgrading, you must manually configure the speed.

The data listed in the tables in this section is laboratory test data. The actual transmission distance and power supply capacity supported by the device depend on the capabilities of the peer device and the quality of the twisted pair.

A long power transmission distance might cause reduced power output at the remote end.

H3C S5120V3-LI switch series

H3C S5120V3-LI PoE models support automatic adjustment of network bandwidth based on the transmission distance between a PSE and PDs, with a maximum transmission distance of 200 to 250 m (656.17 to 820.21 ft).

Table 8 H3C S5120V3-LI switch models that support long-range PoE

Switch model	Ports
S5120V3-28P-PWR-LI	24 × 10/100/1000Base-T autosensing Ethernet ports 4 × SFP ports
S5120V3-28S-PWR-LI	24 × 10/100/1000Base-T autosensing Ethernet ports 4 × SFP+ ports
S5120V3-52P-PWR-LI	48 × 10/100/1000Base-T autosensing Ethernet ports 4 × SFP ports
S5120V3-52S-PWR-LI	48 × 10/100/1000Base-T autosensing Ethernet ports 4 × SFP+ ports
S5120V3-10P-PWR-LI	8 × 10/100/1000Base-T autosensing Ethernet ports 2 × SFP ports
S5120V3-28P-HPWR-LI	28 × 10/100/1000Base-T autosensing Ethernet ports 4 × SFP ports
S5120V3-28S-HPWR-LI	24 × 10/100/1000Base-T autosensing Ethernet ports 4 × SFP ports 4 × SFP+ ports

 

Table 9 Maximum PoE transmission distance of the multi-rate ports on H3C S5120V3-LI PoE switch models

Switch model	Transmission rate	Network cable type	Max transmission distance	Max power supply
S5120V3-28P-PWR-LI	1 Gbps	CAT5e or above	120	25.5 W
	100 Mbps	CAT5e or above	180
	10 Mbps	CAT5e or above	250
S5120V3-28S-PWR-LI	1 Gbps	CAT5e or above	120	25.5 W
	100 Mbps	CAT5e or above	180
	10 Mbps	CAT5e or above	250
S5120V3-52P-PWR-LI	1 Gbps	CAT5e or above	120	25.5 W
	100 Mbps	CAT5e or above	180
	10 Mbps	CAT5e or above	250
S5120V3-52S-PWR-LI	1 Gbps	CAT5e or above	120	25.5 W
	100 Mbps	CAT5e or above	180
	10 Mbps	CAT5e or above	250
S5120V3-10P-PWR-LI	1 Gbps	CAT5e or above	120	25.5 W
	1 Gbps	CAT5e or above	180
	1 Gbps	CAT5e or above	250
S5120V3-28P-HPWR-LI	1 Gbps	CAT5e or above	120	25.5 W
	100 Mbps	CAT5e or above	180
	10 Mbps	CAT5e or above	250
S5120V3-28S-HPWR-LI	1 Gbps	CAT5e or above	120	25.5 W
	100 Mbps	CAT5e or above	180
	10 Mbps	CAT5e or above	250

 

H3C S1850V2-X switch series

H3C S1850V2-X PoE models support automatic adjustment of network bandwidth based on the transmission distance between a PSE and PDs, with a maximum transmission distance of 200 to 250 m (656.17 to 820.21 ft).

Table 10 H3C S1850V2-X switch models that support long-range PoE

Switch model	Ports
S1850V2-28X-HPWR	24 × 10/100/1000Base-T autosensing Ethernet ports 4 × SFP+ ports
S1850V2-52X-PWR	48 × 10/100/1000Base-T autosensing Ethernet ports 4 × SFP+ ports

 

Table 11 Maximum PoE transmission distance of the multi-rate ports on H3C S1850V2-X PoE switch models

Switch model	Transmission rate	Network cable type	Max transmission distance	Max power supply
S1850V2-28X-HPWR	1 Gbps	CAT5e or above	120	25.5 W
	100 Mbps	CAT5e or above	180
	10 Mbps	CAT5e or above	250
S1850V2-52X-PWR	1 Gbps	CAT5e or above	120	25.5 W
	100 Mbps	CAT5e or above	180
	10 Mbps	CAT5e or above	250

 

H3C S1850V2-EI switch series

H3C S1850V2-EI PoE models support automatic adjustment of network bandwidth based on the transmission distance between a PSE and PDs, with a maximum transmission distance of 200 to 250 m (656.17 to 820.21 ft).

Table 12 H3C S1850V2-EI switch models that support long-range PoE

Switch model	Ports
S1850V2-10P-HPWR-EI	8 × 10/100/1000Base-T autosensing Ethernet ports 2 × SFP+ ports
S1850v2-28P-HPWR-EI	24 × 10/100/1000Base-T autosensing Ethernet ports 4 × SFP+ ports

 

Table 13 Maximum PoE transmission distance of the multi-rate ports on H3C S1850V2-EI PoE switch models

Switch model	Transmission rate	Network cable type	Max transmission distance	Max power supply
S1850V2-10P-HPWR-EI	1 Gbps	CAT5e or above	120	25.5 W
	100 Mbps	CAT5e or above	180
	10 Mbps	CAT5e or above	250
S1850v2-28P-HPWR-EI	1 Gbps	CAT5e or above	120	25.5 W
	100 Mbps	CAT5e or above	180
	10 Mbps	CAT5e or above	250

 

H3C S1600V2 switch series

H3C S1600V2 PoE models S1600V2-6P-HPWR, S1600V2-10P-HPWR, S1600V2-18P-HPWR, and S1600V2-26P-HPWR support PoE that delivers a maximum power of 15.4 W and 30 W. In addition, they support automatic adjustment of network bandwidth based on the transmission distance between a PSE and PDs, with a maximum transmission distance of 200 to 250 m (656.17 to 820.21 ft).

Table 14 H3C S1600V2 switch models that support long-range PoE

Switch model	Ports
S1600V2-6P-HPWR	5 × 10/100/1000Base-T autosensing Ethernet ports Ports 1 through 4 support PoE. 1 × SFP port
S1600V2-10P-HPWR	9 × 10/100/1000Base-T autosensing Ethernet ports Ports 1 through 8 support PoE. 1 × SFP port
S1600V2-18P-HPWR	16 × 10/100/1000Base-T autosensing Ethernet ports 2 × SFP ports
S1600V2-26P-HPWR	24 × 10/100/1000Base-T autosensing Ethernet ports 2 × SFP ports
S1600V2-26S-HPWR	24 × 10/100/1000Base-T autosensing Ethernet ports 2 × SFP+ ports

 

Table 15 Maximum PoE transmission distance of the multi-rate ports on H3C S1600V2 PoE switch models

Switch model	Transmission rate	Network cable type	Maximum transmission distance	Max power supply
S1600V2-6P-HPWR	1 Gbps	CAT5e or above	120	25.5 W
	100 Mbps	CAT5e or above	180
	10 Mbps	CAT5e or above	250
S1600V2-10P-HPWR	1 Gbps	CAT5e or above	120	25.5 W
	100 Mbps	CAT5e or above	180
	10 Mbps	CAT5e or above	250
S1600V2-18P-HPWR	1 Gbps	CAT5e or above	120	25.5 W
	100 Mbps	CAT5e or above	180
	10 Mbps	CAT5e or above	250
S1600V2-26P-HPWR	1 Gbps	CAT5e or above	120	25.5 W
	100 Mbps	CAT5e or above	180
	10 Mbps	CAT5e or above	250
S1600V2-26S-HPWR	1 Gbps	CAT5e or above	120	25.5 W
	100 Mbps	CAT5e or above	180
	10 Mbps	CAT5e or above	250

 

References

·     802.3af-2003, IEEE Standard for Information Technology – Telecommunications and Information Exchange Between Systems – Local and Metropolitan Area Networks – Specific Requirements – Part 3: Carrier Sense Multiple Access with Collision Detection (CSMA/CD) Access Method and Physical Layer Specifications – Data Terminal Equipment (DTE) Power Via Media Dependent Interface (MDI)

·     802.3at-2009, IEEE Standard for Information technology – Local and metropolitan area networks-- Specific requirements – Part 3: CSMA/CD Access Method and Physical Layer Specifications Amendment 3: Data Terminal Equipment (DTE) Power via the Media Dependent Interface (MDI) Enhancements

·     802.3bt-2018, IEEE Standard for Ethernet Amendment 2: Physical Layer and Management Parameters for Power over Ethernet over 4 pairs

Appendix  Acronyms

Table 16 Acronyms

Acronym	Full English name
PoE	Power over Ethernet
AP	Access point
PD	Powered device
PSE	Power sourcing equipment
PI	Power interface
LLDP	Link layer discovery protocol