Powering What’s Next: The Evolution of Power Distribution with Fault Managed Power

As buildings and campuses become more intelligent and connected, the expectations placed on power infrastructure are changing rapidly. Network engineers and facility teams must now support a growing ecosystem of devices – from wireless access points and security systems to IoT sensors, lighting, and edge computing – often deployed far from traditional power sources.

For years, power distribution followed a predictable model. High-voltage AC systems delivered the power needed to operate facilities, but they came with complexity: conduit, junction boxes, and specialized labor. At the same time, low-voltage solutions like Power over Ethernet (PoE) simplified installations but were constrained by limits in both power capacity and distance.

Today, those limitations are becoming increasingly difficult to work around.

The Challenge: Scaling Power for a Distributed World

Modern infrastructure is no longer centralized. Power is required across buildings, across campuses, and into previously hard-to-reach areas – indoors and outdoors alike. The challenge is no longer just delivering power, but doing so safely, efficiently, and at scale.

Traditional approaches force a difficult trade-off:

• High-voltage AC delivers power, but increases installation complexity and safety constraints
• Low-voltage systems simplify deployment, but limit power delivery and distance

For example, Class 2 systems like PoE typically deliver up to about 100 watts and are limited in reach, making them insufficient for many emerging applications.

At the same time, extending high-voltage infrastructure to every endpoint introduces cost, time, and operational inefficiency.

This growing gap between power needs and practical deployment has driven the industry toward a new approach.

A New Class of Power

Class 4 or fault managed power (FMP), introduced under NEC Article 726, represents the first new class of power in decades, and it is specifically designed to address these challenges.

Panduit’s Fault Managed Power System (FMPS) brings Class 4 power distribution to life by enabling the safe delivery of high-power DC electricity over long distances using structured cabling.

FMPS is a testament to Panduit’s commitment to internal innovation. Developed from scratch by our own engineering teams, the platform carries Panduit DNA through every stage of its lifecycle—from the first drawing board to final UL certification. By controlling the entire design, development, and compliance process internally, we’ve created a proprietary solution that is uniquely ours to deliver.

What Makes FMPS different from similar technology, is the way its safety detection is designed. Instead of relying on firmware-based safety detection, which is susceptible to cyber security threats, it uses redundant hardware circuitry to detect faults. This is how Panduit’s engineers were able to achieve a Safety Integrity Level 3 (SIL 3), which goes above and beyond S, which is required by industry standards. This is what makes FMPS the safest Class 4 system in the market.

FMPS works by delivering energy as controlled pulses. During brief intervals between pulses, it actively checks for faults – such as shorts or human contact – and immediately shuts off power if an issue is detected.

This approach enables a powerful combination that was previously difficult to achieve:
high power delivery with safety characteristics comparable to low-voltage systems.

Redefining Power Distribution: More Power, More Reach

FMPS allows engineers to rethink how power is designed, deployed, and managed.

With this approach, organizations can:

• Deliver significantly higher levels of power over long distances using less copper cabling
• Simplify installation by reducing or eliminating conduit, junction boxes, and complex electrical infrastructure
• Centralize power for easier backup, monitoring, and control
• Enable scalable, modular deployments that can evolve with demand

This shift to centralized, intelligently managed power creates operational benefits as well. Instead of maintaining distributed power systems throughout a building or campus, engineers gain greater visibility and control from a single point. This reduces both maintenance effort and downtime.

Building the Foundation for Smarter Infrastructure

Fault managed power is not just an incremental improvement. It represents a foundational change in how modern infrastructure can be powered.

FMPS supports a wide range of applications, including wireless networks, security systems, lighting, and edge devices, enabling:

• More flexible device placement without proximity constraints
• Greater support for high-power edge applications
• Improved efficiency through DC-based power distribution
• Alignment with sustainability and electrification initiatives

As organizations modernize their facilities and embrace digital transformation, the ability to deliver power where it’s needed – without traditional constraints – becomes a critical enabler.

Looking Ahead: The Future of Power is Fault Managed

The introduction of fault managed power marked a turning point in the evolution of power distribution. It bridges the gap between traditional electrical systems and the dynamic requirements of modern, connected environments.

But this is only the beginning.

As power demands continue to grow – and as buildings become more software-driven and data-centric – the next generation of power solutions will push even further. Advances in scalability, performance, and system intelligence will continue to expand what’s possible, opening new opportunities for efficiency, resiliency, and control.

For network and facility engineers, this shift signals a broader transformation: Power is no longer just infrastructure – it is an active, intelligent component of the digital building ecosystem.

The question is no longer whether power distribution will evolve – it’s how quickly organizations will take advantage of what’s next.

To see what’s next in action, visit Panduit at Cisco Live booth 4609 or stop by the Future-Proof Workplace exhibit in the Cisco Showcase. There, you’ll get a firsthand look at generation 2 of the Fault Managed Power System and how it is advancing power distribution for modern, connected environments. Whether you’re designing new infrastructure or modernizing existing facilities, it’s an opportunity to explore how fault managed power can help you move forward with greater flexibility, efficiency, and confidence.