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What is the power budget of a 48-port PoE switch, and how many devices can it support?

What is the power budget of a 48-port PoE switch, and how many devices can it support?

November 29, 2024

What is the power budget of a 48-port PoE switch, and how many devices can it support?

 

The power budget of a 48-port PoE switch is the total amount of Power over Ethernet (PoE) it can supply across all its ports to power connected devices like IP cameras, VoIP phones, or wireless access points. How many devices it can support depends on the power budget, the PoE standard, and the power demand of the connected devices.

 

Power Budget and PoE Standards

The power budget varies significantly based on the PoE standard used by the switch:

PoE Standard Maximum Power Per Port Common Switch Power Budgets
IEEE 802.3af (PoE) 15.4 watts 370–400 watts
IEEE 802.3at (PoE+) 25.5 watts 740–1,240 watts
IEEE 802.3bt Type 3 60 watts 2,000–2,880 watts
IEEE 802.3bt Type 4 100 watts 4,000–4,800 watts

 

Power Per Port vs. Power Budget

--- Per-Port Power: Each PoE-enabled port has a maximum power limit defined by the PoE standard (e.g., 15.4W for PoE, 25.5W for PoE+).

--- Total Power Budget: This is the cumulative power that the switch can deliver across all ports. It’s typically less than the sum of the per-port maximums, meaning not all ports can deliver maximum power simultaneously.

 

 

How to Calculate Device Support

To determine how many devices a 48-port PoE switch can support, you divide the total power budget by the power required by each connected device. Here's a breakdown based on different PoE standards:

1. IEEE 802.3af (PoE)

Max Power Per Port: 15.4W

Typical Power Budget: 370W–400W

Devices Supported:

--- If each device uses 15.4W:

400W÷15.4W≈26devices

--- If devices require less power (e.g., VoIP phones using 7W):

400W÷7W≈57devices(limited to 48 ports)

 

 

2. IEEE 802.3at (PoE+)

Max Power Per Port: 25.5W

Typical Power Budget: 740W–1,240W

Devices Supported:

--- At 25.5W per device:

1240W÷15W≈48devices

--- At 15W per device (e.g., IP cameras):

1240W÷15W≈82devices(limited to 48 ports)

 

 

3. IEEE 802.3bt (PoE++ Type 3)

Max Power Per Port: 60W

Typical Power Budget: 2,000W–2,880W

Devices Supported:

--- At 60W per device:

2880W÷60W=48devices

--- At 30W per device (e.g., high-power access points):

2880W÷30W≈96devices(limited to 48 ports)

 

 

4. IEEE 802.3bt (PoE++ Type 4)

Max Power Per Port: 100W

Typical Power Budget: 4,000W–4,800W

Devices Supported:

--- At 100W per device:

4800W÷100W=48devices

--- At 50W per device (e.g., advanced devices with lower power needs):

4800W÷50W=96devices (linited to 48 ports)

 

 

Key Factors Influencing Device Support

1. Device Power Requirements:

--- Low-power devices (e.g., VoIP phones at 7W) consume less power, allowing more devices to be connected.

--- High-power devices (e.g., pan-tilt-zoom cameras at 25–60W) reduce the total number of supported devices.

2. Switch Power Allocation:

--- Many managed PoE switches use dynamic power allocation, distributing power based on actual device needs. This ensures efficient use of the power budget.

3. Port Prioritization:

--- Some switches allow you to set port priorities, ensuring critical devices receive power first if the power budget is exceeded.

4. Power Supply Redundancy:

--- High-end switches may include dual power supplies for enhanced power availability and reliability.

 

 

Practical Example

Consider a 48-port PoE+ switch with a 740W power budget:

--- Devices Using 7W Each:

740W÷7W≈105devices(limited to 48 ports)

--- Devices Using 15W Each:

740W÷15.5W≈49devices(practically 48 ports)

--- Devices Using 25.5W Each:

740W÷25.5W≈29devices

 

 

Summary

The power budget of a 48-port PoE switch depends on the PoE standard and specific model, typically ranging from 370W for basic PoE switches to 4,800W for advanced PoE++ switches. The number of devices supported is influenced by the switch's total power budget, the power requirements of the devices, and how power is allocated. Managed switches with dynamic power allocation provide flexibility to optimize device support while maintaining efficient operation.

 

 

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