Understanding PSE and PD in PoE Networks

Introduction

Power over Ethernet (PoE) has transformed modern networking by allowing a single Ethernet cable to carry both data and DC power.
From surveillance cameras to wireless access points, thousands of devices now rely on PoE for simplified installations and reduced wiring costs.

At the heart of every PoE system are two essential components:

• PSE (Power Sourcing Equipment) – the device that provides power
• PD (Powered Device) – the device that receives and uses that power

Understanding how PSE and PD interact is crucial for designing reliable PoE networks, ensuring power compatibility, and selecting the right PoE RJ45 connectors and magnetics.

1. What Is PSE (Power Sourcing Equipment)?

PSE is the power-providing end of a PoE link. It delivers electrical power along the Ethernet cable to downstream devices.

Typical PSE Examples

• PoE Switches (Endspan PSE): The most common type. Integrates PoE functionality directly into the switch ports.
• PoE Injectors (Midspan PSE): Standalone devices placed between a non-PoE switch and the PD to “inject” power into the Ethernet line.
• Industrial Controllers / Gateways: Used in smart factories or outdoor environments where power and data are combined for field devices.

Key Functions

1. Detects whether a connected device supports PoE
2. Classifies the PD’s power requirement
3. Supplies regulated DC voltage (typically 44–57 VDC)
4. Protects against overload and short circuits
5. Negotiates available power dynamically (via LLDP in PoE+ and PoE++)

IEEE Standard Reference

2. What Is PD (Powered Device)?

A Powered Device (PD) is any network device that receives power from the PSE through the Ethernet cable. The PD extracts DC voltage from the cable pairs using internal magnetics and power circuits.

Typical PD Examples

• Wireless Access Points (WAPs)
• IP Surveillance Cameras
• VoIP Phones
• Thin Clients and Mini PCs
• Smart Lighting Controllers
• IoT Gateways and Edge Sensors

PD Power Classification

Each PD communicates its required power level using classification signatures or LLDP negotiation, enabling the PSE to allocate the correct wattage.

3. PSE vs PD: How They Work Together

In a PoE network, the PSE provides power while the PD consumes it.
Before sending power, the PSE first performs a detection phase — checking if the connected device has the correct 25kΩ signature.
If valid, power is applied, and data transmission continues simultaneously over the same pairs.

Power Delivery Process

1. Detection: PSE identifies PD signature.
2. Classification: PD reports its class/power requirement.
3. Power On: PSE applies voltage (~48 VDC).
4. Power Management: LLDP negotiates precise power dynamically.

This handshake ensures interoperability between devices from different manufacturers — a key strength of IEEE PoE standards.

4. Endspan vs Midspan PSE: What’s the Difference?

• Endspan PSE is ideal for new installations or high-density enterprise setups.
• Midspan PSE is perfect for retrofitting existing infrastructure where switches lack built-in PoE capability.

Both types comply with IEEE 802.3 standards and can coexist in the same network as long as they follow the detection and classification process.

5. Real-World Applications

• Enterprise Networks: PoE switches (PSE) power WAPs (PDs) to support Wi-Fi 6 deployment.
• Smart Buildings: PoE++ injectors power LED lighting controllers and sensors.
• Industrial Automation: Rugged PoE switches feed power to remote IP cameras and IoT nodes over extended distances.
• Surveillance Systems: PoE cameras simplify outdoor cabling, reducing AC outlets in hazardous areas.

6. LINK-PP PoE Solutions for PSE and PD Designs

High-performance PoE systems require components that can safely handle current and maintain signal integrity.
LINK-PP provides PoE RJ45 connectors with integrated magnetics, optimized for IEEE 802.3af / at / bt compliance.

Recommended Models

• LPJG0926HENL — RJ45 with integrated magnetics, supports PoE/PoE+, ideal for VoIP phones and APs.
• LPJK6072AON — PoE RJ45 with Integrated Magnetics for WAPs
• LP41223NL — PoE+ LAN Transformer for 10/100Base-T Networks

Each connector ensures:

• Excellent insertion loss and crosstalk performance
• Robust current handling up to 1.0 A per pair
• Integrated magnetic coupling for EMC protection
• Compatibility with industrial temperature ranges

LINK-PP PoE connectors guarantee long-term reliability for both Endspan and Midspan PSE designs, ensuring safe and efficient power transmission.

7. Quick FAQ

Q1: Can any Ethernet port provide PoE?
Only if the device is a certified PSE (e.g., PoE switch or injector), standard non-PoE ports do not supply power.

Q2: Can a device be both PSE and PD?
Yes. Some network devices, such as daisy-chainable access points or PoE extenders, can function as both.

Q3: Is PoE power safe for network cables?
Yes. IEEE standards limit voltage and current per pair to safe levels. For PoE++, use Cat6 or higher to reduce heating.

8. Conclusion

In PoE networks, understanding the roles of PSE and PD is fundamental to achieving reliable power delivery and efficient design.

Whether the power originates from an Endspan switch or a Midspan injector, IEEE standards ensure safe, intelligent, and interoperable operation.

By integrating high-quality LINK-PP PoE RJ45 connectors, designers can guarantee consistent power transmission, signal integrity, and long service life — the foundation for modern smart network infrastructure.

→ Explore LINK-PP’s full line of PoE RJ45 connectors for PSE and PD applications.