This article originally appeared on our Kordz partner site. Read the entire article on the Kordz.com website. 

It’s late in the day, your client is waiting, and their HDMI system still isn’t working. The display is blank, audio is dropping out, or switching between the sources is painfully slow. You’ve checked all the obvious things, but the fault isn’t going away.

Every integrator knows this scenario. HDMI is the backbone of modern residential AV, yet after two decades it remains one of the most common causes of site callbacks – and therefore profit erosion – on projects.

Why? Because HDMI was never designed to carry today’s huge bandwidths, dozens of audio channels or variable refresh rates. It was meant to be a simple point-to-point connector. What we ask of it today is far beyond its original brief.

This article helps you save time onsite and avoid callbacks with troubleshooting 101 – where to start when the signal isn’t working. These steps will solve most on-site failures quickly.

 

It’s a System, So Don’t Diagnose in Isolation

Firstly, it’s important to remember that HDMI is part of a system and that’s the keyword – “system.” One of the most common mistakes we see integrators make is looking at HDMI runs in isolation. It’s easy to assume, for example, that a problem comes from a 20m projector cable when in reality, the signal has already travelled through a 3m patch, an AVR, a matrix, or an extender to get there. So, it’s best to think of HDMI as a signal carried through one continuous chain in which every device and patch plays its part -while also being a potential source of a problem. You cannot ignore that 3m lead because it may be the link that tips the system over the edge.

• Remember, the more links in the chain, the greater the complexity and smaller your margin. Aim to design simple systems with quality products. Less is more.
• Always calculate the end-to-end path, not just the longest cable.
• Include every device: AVRs, splitters, scalers, reclockers, extenders, etc.

 

The Handshake Dance and Why Sequence Matters

HDMI doesn’t simply “switch on.” Every time a device is connected or reinitialised, it goes through a specific sequence of events we know as the “handshake.” This is the basic process:

That’s a lot of steps, and if any one of them fails, you’ll see it show up as a performance issue in your system. Most of the time there’s no warning message, simply an incomplete, flashing, mis-colored or blank screen, or a slow response. The root of your issue is usually somewhere in the handshake.

• Power the display on first, then the source.
• Reseat HDMI connections to trigger a clean hot plug.
• Allow the handshake to complete fully before pressing the remote again.
• If in doubt, a controlled power cycle can reset the sequence.
• That’s why reducing system complexity helps a lot!

 

How to Decode Symptoms

The fastest way to find the fault is by learning how to correctly identify and triage the symptoms. Here are some basic examples to get you started:

• The system worked before but now doesn’t. Stable systems often fail after seemingly unrelated upgrades. So, for example, new lighting or appliances may have added electrical noise to the shared circuit. Sometimes failure is also caused by lightning strikes and surges, or degraded electronics.
• Blank screen but audio continues. Often an HDCP or EDID failure. Modern HDCP checks happen constantly in microsecond intervals. If the response is late, video can drop.
• Intermittent audio dropouts. The link is running on the edge and, in this scenario, audio usually fails first. Dropping the display resolution or frame rate can confirm this.
• Slow switching between inputs. A handshake delay caused by too many devices in the chain or poorly made cables.

 

Heat and Noise: Your Silent Saboteurs

Two things silently undermine HDMI performance: heat and electrical noise.

Ceiling voids can reach extreme temperatures. Heat alters electrical characteristics, reduces capacitance and accelerates breakdown in cables and electronics. In extreme heat, it’s common for electronics to overheat and shut down, and sometimes cables even melt.

Modern LED lighting, dimmers and appliances all inject noise directly into electrical circuits. This interference can affect HDMI operation when they share power and tip a marginal system into failure.

• Keep HDMI runs and low powered cables away from noisy power lines.
• If a system fails when the lights are switched on but works when they’re off, suspect electrical noise.
• Consider rack ventilation and ceiling temperatures as part of your diagnosis.

 

Handle the Cable Properly

How you treat a cable matters as much as how it’s made. Even small changes to geometry or shielding integrity can combine with other stress points and cause failure, as long cables can act like an antenna.

• Don’t fold HDMI cables over themselves.
• Maintain bend radius to avoid impedance bumps.
• Avoid running parallel to mains power or LED drivers.

 

Quick Isolation Steps: Take it to the Basics

When you’re on site and time is tight, these are the fastest ways to get going whilst you work on the problem:

• Simplify the path: connect source to display directly with a short, known-good cable.
• Use built-in tests: many devices now offer HDMI cable checks that simulate known loads.
• Hot-plug reset: reseat connections to restart the handshake.
• Quiet test: power down lights and noisy loads to see if stability returns.

Each of these helps identify whether the fault lies in the chain, the environment, or the cable itself.

 

Takeaway for Integrators

HDMI failures are rarely random. They are the result of small margins being consumed by chain length, device count, heat or noise. By treating HDMI as a whole system, respecting the handshake sequence, and reading symptoms correctly, most failures can be resolved quickly on site.

HDMI may not have been designed for the demands we place on it today, but with a methodical approach you can keep systems stable and avoid those late night and weekend callbacks.

These are the same fundamentals we apply at Kordz when we design, engineer and test our products. Our goal is to equip integrators with connectivity that works reliably in the real world, not just in the lab. Learn more about our award-winning product at FutureReadySolutions.com.

 

This article originally appeared on our Kordz partner site. Read the entire article on the Kordz.com website.