Contents

Configuring PoE·· 1

About PoE· 1

PoE system·· 1

AI-driven PoE· 1

Protocols and standards· 2

Restrictions: Hardware compatibility with PoE· 2

Restrictions and guidelines: PoE configuration· 2

PoE configuration tasks at a glance· 3

Prerequisites for configuring PoE· 3

Enabling PoE on a PI 3

Enabling AI-driven PoE· 4

Enabling fast PoE for a PSE· 5

Allowing inrush currents drawn by PDs· 5

Enabling PI power cycling upon a system warm reboot 6

Configuring PD detection· 6

Enabling nonstandard PD detection· 6

Configuring a PD detection mode· 6

Configuring the maximum PI power 7

Configuring the PI priority policy· 7

Configuring PSE power monitoring· 8

Configuring a PI by using a PoE profile· 9

Restrictions and guidelines· 9

Configuring a PoE profile· 9

Applying a PoE profile· 9

Upgrading PSE firmware in service· 10

Display and maintenance commands for PoE· 10

PoE configuration examples· 11

Example: Configuring PoE· 11

Troubleshooting PoE· 12

Failure to set the priority of a PI to critical 12

Failure to apply a PoE profile to a PI 12

 

Configuring PoE

About PoE

Power over Ethernet (PoE) enables a network device to supply power to terminals over twisted pair cables.

PoE system

As shown in Figure 1, a PoE system includes 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 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 ID and slot number of a PSE, 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 diagram

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AI-driven PoE

AI-driven PoE innovatively integrates AI technologies into PoE switches and offers the following benefits:

·     Adaptive power supply management

AI-driven PoE can adaptively adjust the power supply parameters to fit power needs in various scenarios such as multiple types of PDs and address issues such as no power supply to a PD and power failure, minimizing human intervention.

·     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 module management

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

·     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.

·     Perpetual PoE

During a hot reboot of the PoE switch from the reboot command, AI-driven PoE continuously monitors the PD states and ensures continued power supply to PDs, maintaining terminal service stability.

·     Remote PoE

AI-driven PoE adaptively adjusts the network bandwidth based on the transmission distance between a PSE and PD. When the transmission distance exceeds 100 m (328.08 ft), the system automatically decreases the port rate to reduce the line loss and ensure the signal and power transmission quality. With AI-driven PoE enabled, a PSE can transmit power to a PD of 200 to 250 m (656.17 to 820.21 ft) away.

Protocols and standards

·     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

Restrictions: Hardware compatibility with PoE

Only the PoE models support the PoE feature.

Restrictions and guidelines: PoE configuration

You can configure a PI through either of the following ways:

·     Configure the settings directly on the PI.

·     Configure a PoE profile and apply it to the PI. If you apply a PoE profile to multiple PIs, these PIs have the same PoE features. If you connect a PD to another PI, you can apply the PoE profile of the original PI to the new PI. This method relieves the task of configuring PoE on the new PI.

You can only use one way to configure a parameter for a PI. To use the other way to reconfigure a parameter, you must first remove the original configuration.

You must use the same configuration method for the poe max-power max-power and poe priority { critical | high | low } commands.

PoE configuration tasks at a glance

To configure PoE, perform the following tasks:

1.     Enabling PoE on a PI

2.     (Optional.) Enabling AI-driven PoE

3.     (Optional.) Allowing inrush currents drawn by PDs

4.     (Optional.) Enabling PI power cycling upon a system warm reboot

5.     (Optional.) Configuring PD detection

¡     Enabling nonstandard PD detection

¡     Configuring a PD detection mode

6.     (Optional.) Configuring the maximum PI power

7.     (Optional.) Configuring the PI priority policy

8.     (Optional.) Configuring PSE power monitoring

9.     (Optional.) Upgrading PSE firmware in service

To use a PoE profile to enable PoE and configure the priority and maximum power for a PI, see "Configuring a PI by using a PoE profile."

Prerequisites for configuring PoE

Before you configure PoE, make sure the PoE power supply and PSEs are operating correctly.

Enabling PoE on a PI

About enabling PoE on a PI

After you enable PoE on a PI, the PI supplies power to the connected PD if the PI will not result in PSE power overload. PSE overload occurs when the sum of the power consumption of all PIs exceeds the maximum power of the PSE.

If the PI will result in PSE power overload, the following restrictions apply:

·     If the PI priority policy is not enabled, the PI does not supply power to the connected PD.

·     If the PI priority policy is enabled, whether the PDs can be powered depends on the priority of the PI.

For more information about the PI priority policy, see "Configuring the PI priority policy."

Restrictions and guidelines

Only the UPWR switch models support the PoE standard of PIs. For the specific switch models, see the installation guide for the switch series.

Power can be transmitted over a twisted pair cable in either of the following modes:

·     Signal pair mode—Signal pairs 1, 2, 3, and 6 of the twisted pair cable are used for power transmission.

·     Spare pair mode—Spare pairs 4, 5, 7, and 8 of the twisted pair cable are used for power transmission.

A PI can supply power to a PD only when the PI and PD use the same power transmission mode. If the PI and PD use different power transmission modes, a reconnection is required.

The device supports power transmission only over signal pairs.

Procedure

1.     Enter system view.

system-view

2.     Enter PI view.

interface interface-type interface-number

3.     (Optional.) Configure a description for the PD connected to the PI.

poe pd-description text

By default, no description is configured for the PD connected to the PI.

4.     (Optional.) Specify the PoE standard for the PI.

poe standard { at | bt }

By default, the PoE standard of a PI is IEEE 802.3bt.

5.     Enable PoE on the PI.

poe enable

¡     S5130S-HI switch series, S5130S-EI switch series, S3100V3-EI switch series, E500C switch series, E500D switch series:

-     In Release 6328 or earlier, PoE is disabled on PIs by default.

-     In Release 6328 or later, PoE is enabled on PIs when the switch starts up with factory defaults and is disabled on PIs when the switch starts up with the initial configuration.

¡     S5130S-SI switch series and S5120V2-SI switch series:

-     PoE is enabled on PIs when the switch starts up with factory defaults and is disabled on PIs when the switch starts up with the initial configuration. For more information about the device initial configuration and factory defaults, see configuration file management in Fundamentals Configuration Guide.

Enabling AI-driven PoE

Restrictions and guidelines

AI-driven PoE takes effect only on PSEs that run firmware V147 or later.

·     Firmware earlier than V147—You must use the poe update command to upgrade the PSE firmware and then enable AI-driven PoE on the PSE.

·     Firmware V147 or later—You do not need to re-enable AI-driven PoE after upgrading the firmware if you have enabled the feature before the upgrade.

This feature is supported only in Release 6318P01 and later.

Procedure

1.     Enter system view.

system-view

2.     Enable AI-driven PoE.

poe ai enable

By default, AI-driven PoE is disabled.

AI-driven PoE automatically adjusts the power supply parameters to fit the power needs. If you disable AI-driven PoE, the system reverts the parameters to the settings before the adjustment.

Enabling fast PoE for a PSE

About fast PoE for a PSE

This feature enables a PI on a PSE to supply power to PDs immediately after the PSE is powered on.

Restrictions and guidelines

You must re-configure this feature if you modified other PoE settings after configuring this feature.

Procedure

1.     Enter system view.

system-view

2.     Enable fast PoE for a PSE.

poe fast-on enable pse pse-id

By default, fast PoE is disabled on a PSE.

This command is supported only in Release 6328 or later.

Allowing inrush currents drawn by PDs

About allowing inrush currents drawn by PDs

Inrush current might occur at PD startup and trigger PSE self-protection, As a result, the PSE stops supplying power to the PDs. To continue power supply to the PDs, configure this feature to allow inrush currents drawn by PDs.

IEEE 802.3af and IEEE 802.3at define specifications for inrush current. Support for the specifications defined by IEEE 802.3af and/or IEEE 802.3at depends on the device model.

Restrictions and guidelines

CAUTION: Inrush currents might damage the components on the device. Use this feature with caution.

 

This feature is available only for a PSE that has a model name ending with a character of B, LSPPSE48B for example. To obtain the PSE model name, execute the display poe pse command.

Procedure

1.     Enter system view.

system-view

2.     Allow inrush currents drawn by PDs.

poe high-inrush enable pse pse-id

By default, inrush currents drawn by PDs are not allowed.

Enabling PI power cycling upon a system warm reboot

About enabling PI power cycling upon a system warm reboot

During the system warm reboot process (upon execution of the reboot command), the PIs continue supplying power to the PDs but data connections between the PDs and the device are interrupted. After the system reboots, PDs might not re-initiate data connections with the device. Power cycling PIs upon a system warm reboot allows the PDs to re-establish data connections with the device after a warm reboot.

Procedure

1.     Enter system view.

system-view

2.     Enter PI power cycling upon a system warm reboot.

poe reset enable

By default, PI power cycling upon a system warm reboot is disabled.

Configuring PD detection

Enabling nonstandard PD detection

About enabling nonstandard PD detection

PDs are classified into standard PDs and nonstandard PDs. Standard PDs are compliant with IEEE 802.3af and IEEE 802.3at. A PSE supplies power to a nonstandard PD only after nonstandard PD detection is enabled.

The device supports PSE-based and PI-based nonstandard PD detection. Enabling nonstandard PD detection for a PSE enables this feature for all PIs on the PSE. As a best practice for disabling nonstandard PD detection for all PIs successfully in one operation, disable this feature in both system view and interface view.

Procedure

1.     Enter system view.

system-view

2.     Enable nonstandard PD detection. Choose one option as needed.

¡     Enable nonstandard PD detection for the PSE.

poe legacy enable pse pse-id

By default, nonstandard PD detection is disabled for a PSE.

¡     Execute the following commands in sequence to enable nonstandard PD detection for a PI:

interface interface-type interface-number

poe legacy enable

By default, nonstandard PD detection is disabled for a PI.

Configuring a PD detection mode

About PD detection modes

The device detects PDs in one of the following modes:

·     None—The device supplies power to PDs that are correctly connected to the device without causing short circuit.

·     Simple—The device supplies power to PDs that comply with basic requirements of 802.3af or 802.3at.

·     Strict—The device supplies power to PDs that comply with all requirements of 802.3af or 802.3at.

Restrictions and guidelines

CAUTION: A non-PD device might be damaged when power is supplied to it. To avoid device damage, do not use the none mode when the PI connects to a non-PD device.

 

This task is available only for a PSE that has a model name ending with a character of B, LSPPSE48B for example. To obtain the PSE model name, execute the display poe pse command.

For this task to take effect on nonstandard PDs, you must enable detection for nonstandard PDs by using the poe legacy enable command.

Procedure

1.     Enter system view.

system-view

2.     Enter PI view.

interface interface-type interface-number

3.     Configure the PD detection mode.

poe detection-mode { none | simple | strict }

By default, the PD detection mode is strict.

Configuring the maximum PI power

About the maximum PI power

The maximum PI power is the maximum power that a PI can provide to the connected PD. If the PD requires more power than the maximum PI power, the PI does not supply power to the PD.

Procedure

1.     Enter system view.

system-view

2.     Enter PI view.

interface interface-type interface-number

3.     Configure the maximum power for the PI.

poe max-power max-power

The maximum power depends on the PoE standard of the PI.

Configuring the PI priority policy

About the PI priority policy

The PI priority policy enables the PSE to perform priority-based power allocation to PIs when PSE power overload occurs. The priority levels for PIs are critical, high, and low in descending order.

When PSE power overload occurs, the PSE supplies power to PDs as follows:

·     If the PI priority policy is disabled, the PSE supplies power to PDs depending on whether you have configured the maximum PSE power.

¡     If you have configured the maximum PSE power, the PSE does not supply power to the newly-added or existing PD that causes PSE power overload.

¡     If you have not configured the maximum PSE power, the PoE self-protection mechanism is triggered. The PSE stops supplying power to all PDs.

·     If the PI priority policy is enabled, the PSE supplies power to PDs as follows:

¡     If a PD being powered causes PSE power overload, the PSE stops supplying power to the PD.

¡     If a newly-added PD causes PSE power overload, the PSE supplies power to PDs in priority descending order of the PIs to which they are connected. If the newly-added PD and a PD being powered have the same priority, the PD being powered takes precedence. If multiple PIs being powered have the same priority, the PIs with smaller IDs takes precedence.

Restrictions and guidelines

Before you configure a PI with critical priority, make sure the remaining power from the maximum PSE power minus the maximum powers of the existing PIs with critical priority is greater than maximum power of the PI.

Configuration for a PI whose power is preempted remains unchanged.

Procedure

1.     Enter system view.

system-view

2.     Enable the PI priority policy.

poe pd-policy priority

By default, the PI priority policy is disabled.

3.     Enter PI view.

interface interface-type interface-number

4.     (Optional.) Configure a priority for the PI.

poe priority { critical | high | low }

By default, the priority for a PI is low.

Configuring PSE power monitoring

About PSE power monitoring

The system monitors PSE power utilization and sends notification messages when PSE power utilization exceeds or drops below the threshold. If PSE power utilization crosses the threshold multiple times in succession, the system sends notification messages only for the first crossing. For more information about the notification message, see "Configuring SNMP."

Procedure

1.     Enter system view.

system-view

2.     Configure a power alarm threshold for a PSE.

poe utilization-threshold value pse pse-id

By default, the power alarm threshold for a PSE is 80%.

Configuring a PI by using a PoE profile

Restrictions and guidelines

To modify a PoE profile applied on a PI, first remove the PoE profile from the PI.

You can configure a PI either on the PI or by using a PoE profile. The poe max-power max-power and poe priority { critical | high | low } commands must be configured using the same method.

Configuring a PoE profile

1.     Enter system view.

system-view

2.     Create a PoE profile and enter its view.

poe-profile profile-name [ index ]

By default, no PoE profiles exist.

3.     Enable PoE.

poe enable

By default, PoE is disabled.

4.     (Optional.) Configure the maximum PI power.

poe max-power max-power

By default, the maximum PI power is 30000 W.

5.     (Optional.) Configure a PI priority.

poe priority { critical | high | low }

The default priority is low.

This command takes effect only after the PI priority policy is enabled.

Applying a PoE profile

Restrictions and guidelines

You can apply a PoE profile to multiple PIs in system view or a single PI in PI view. If you perform the operation in both views for the same PI, the most recent operation takes effect.

You can apply only one PoE profile to a PI.

Applying a PoE profile in system view

1.     Enter system view.

system-view

2.     Apply a PoE profile to PIs.

apply poe-profile { index index | name profile-name } interface interface-range

By default, a PoE profile is not applied to a PI.

Applying a PoE profile in PI view

1.     Enter system view.

system-view

2.     Enter PI view.

interface interface-type interface-number

3.     Apply the PoE profile to the interface.

apply poe-profile { index index | name profile-name }

By default, a PoE profile is not applied to a PI.

Upgrading PSE firmware in service

About upgrading PSE firmware in service

You can upgrade the PSE firmware in service in the following modes:

·     Refresh mode—Updates the PSE firmware without deleting it. You can use the refresh mode in most cases.

·     Full mode—Deletes the current PSE firmware and reloads a new one. Use the full mode if the PSE firmware is damaged and you cannot execute any PoE commands.

Restrictions and guidelines

If the PSE firmware upgrade fails because of interruption such as a device reboot, you can restart the device and upgrade it in full mode again. After the upgrade, restart the device manually for the new PSE firmware to take effect.

Procedure

1.     Enter system view.

system-view

2.     Upgrade the PSE firmware in service.

poe update { full | refresh } filename [ pse pse-id ]

Display and maintenance commands for PoE

Execute display commands in any view.

 

Task	Command
Display general PSE information.	display poe device [ slot slot-number ]
Display the power supplying information for the specified PI.	display poe interface [ interface-type interface-number ]
Display power information for PIs.	display poe interface power [ interface-type interface-number ]
Display detailed PSE information.	display poe pse [ pse-id ]
Display the power supplying information for all PIs on a PSE.	display poe pse pse-id interface
Display power information for all PIs on a PSE.	display poe pse pse-id interface power
Display all information about the PoE profile.	display poe-profile [ index index | name profile-name ]
Display all information about the PoE profile applied to the specified PI.	display poe-profile interface interface-type interface-number

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PoE configuration examples

Example: Configuring PoE

Network configuration

As shown in Figure 2, configure PoE as follows:

·     Enable the device to supply power to IP telephones and APs.

·     Enable the device to supply power to IP telephones first when overload occurs.

·     Supply AP B with a maximum power of 9000 milliwatts.

Figure 2 Network diagram

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Procedure

# Enable the PI priority policy.

<PSE> system-view

[PSE] poe pd-policy priority

# Enable PoE on GigabitEthernet 1/0/1, GigabitEthernet 1/0/2, and GigabitEthernet 1/0/3, and configure their power supply priority as critical.

[PSE] interface gigabitethernet 1/0/1

[PSE-GigabitEthernet1/0/1] poe enable

[PSE-GigabitEthernet1/0/1] poe priority critical

[PSE-GigabitEthernet1/0/1] quit

[PSE] interface gigabitethernet 1/0/2

[PSE-GigabitEthernet1/0/2] poe enable

[PSE-GigabitEthernet1/0/2] poe priority critical

[PSE-GigabitEthernet1/0/2] quit

[PSE] interface gigabitethernet 1/0/3

[PSE-GigabitEthernet1/0/3] poe enable

[PSE-GigabitEthernet1/0/3] poe priority critical

[PSE-GigabitEthernet1/0/3] quit

# Enable PoE on GigabitEthernet 1/0/4 and GigabitEthernet 1/0/5, and set the maximum power of GigabitEthernet 1/0/5 to 9000 milliwatts.

[PSE] interface gigabitethernet 1/0/4

[PSE-GigabitEthernet1/0/4] poe enable

[PSE-GigabitEthernet1/0/4] quit

[PSE] interface gigabitethernet 1/0/5

[PSE-GigabitEthernet1/0/5] poe enable

[PSE-GigabitEthernet1/0/5] poe max-power 9000

Verifying the configuration

# Connect the IP telephones and APs to the PSE to verify that they can obtain power and operate correctly. (Details not shown.)

Troubleshooting PoE

Failure to set the priority of a PI to critical

Symptom

Power supply priority configuration for a PI failed.

Solution

To resolve the issue:

1.     Identify whether the remaining guaranteed power of the PSE is lower than the maximum power of the PI. If it is, increase the maximum PSE power or reduce the maximum power of the PI.

2.     Identify whether the priority has been configured through other methods. If the priority has been configured, remove the configuration.

3.     If the issue persists, contact H3C Support.

Failure to apply a PoE profile to a PI

Symptom

PoE profile application for a PI failed.

Solution

To resolve the issue:

1.     Identify whether some settings in the PoE profile have been configured. If they have been configured, remove the configuration.

2.     Identify whether the settings in the PoE profile meet the requirements of the PI. If they do not, modify the settings in the PoE profile.

3.     Identify whether another PoE profile is already applied to the PI. If it is, remove the application.

4.     If the issue persists, contact H3C Support.