Walk into almost any garage or basement, and you’ll see one of the NEC’s most common red tags waiting to happen. Electrical panel clearance code issues top nearly every inspection list—and for good reason. Boxes, shelves, and storage crowding the working space in front of the panel. It’s been a top-ten inspection issue for decades—and for good reason. On remodels in particular, too many installers assume “a little tight” is fine… right up until the inspection proves otherwise.

The truth is, this clearance rule isn’t there for convenience—it’s there for safety. NEC 110.26 sets clear, measurable boundaries to keep anyone working on that panel out of harm’s way.

Electrical Panel Clearance Code — 120/240 V Residential Panels

In most homes, you’re working with 120/240 V systems, which fall under Condition 1 of Table 110.26(A)(1). Here’s what that means in real terms:

• Depth: 3 ft (900 mm) minimum working space
• Width: 30 in. (762 mm) or the width of the equipment, whichever is greater
• Height: 6 ft 6 in. (2.0 m) clear from floor or grade

Think of it as a three-dimensional safety box in front of your panel. That box must stay completely clear—no shelves, pipes, or storage—so an electrician can work safely without risk of contact with live parts or losing footing.

Meeting the electrical panel clearance code is one of the easiest ways to avoid inspection delays.

Why 3 Feet Matters

The three-foot working depth gives you safe access for operation and maintenance while energized. It’s measured from the face of the equipment straight out. The goal is simple: protect workers from shock and give them space to back away if something goes wrong.

The 2023 NEC also clarified that open equipment doors cannot block egress—if doors reduce the path to less than 24 inches wide or 6½ feet high, it’s not compliant.

110.26(A)(2) — Width

This one causes confusion, so let’s make it clear:

• The required width is at least 30 inches or the width of the panel, whichever is greater.
• It doesn’t have to be centered on the panel—you can offset it left or right.
• The key is that the entire 30 inches must remain clear, and the panel door or cover must open a full 90 degrees.

In simple terms: picture a 30-inch-wide lane in front of your panel. You can shift it side to side, but it must be clear, continuous, and usable.

110.26(A)(3) — Height

Keep the working space clear from the floor or grade up to 6 ft 6 in. (2.0 m) or the height of the panel—whichever is greater.
Minor elements like conduit or raceways can project up to 6 inches (150 mm) into that zone, but nothing more.

When It Goes Wrong — My Stairwell Inspection

On one inspection, I came across a panel upgrade where the electrician had reused the original location—mounted in the wall above a stairway leading down to the basement—partly over the landing and partly over the steps.

The installation was clean, but it was a clear violation for two reasons:

Overcurrent devices can’t be over stairs:

• NEC 240.24(F) flatly prohibits overcurrent devices “over the steps of a stairway.”
• Even though part of the panel was on the landing, it still projected over the descending stairs—meaning anyone servicing it would be forced to straddle steps

Unsafe and non-compliant working space:

• NEC 110.26(A) requires the working area to allow ready and safe operation and maintenance.
• Standing on stairs while working energized equipment doesn’t qualify as “safe.” You can’t maintain the required 3 ft depth or level footing in that setup.

If your 3-ft clearance area doesn’t have stable ground for both feet, it fails code. That’s why panels can’t be installed over stairways, no matter how “convenient” the location seems.

110.26(A)(6) — Level and Flat Floor (New 2023 Change)

Speaking of footing—this rule got a 2023 upgrade.
The working area must now be as level and flat as practical. Uneven concrete or a sloped garage floor can now draw a correction if it compromises footing in front of the panel.

You can also see what shifted from 2020 to 2023 in laundry rooms by visiting my article Laundry Area GFCI & AFCI Requirements.

110.26(B) — No Storage in the Zone

The code’s language is blunt: “Working space required by this section shall not be used for storage.”
When panels are open for servicing, that area must also be guarded to prevent accidental contact by others.

Are Panels Allowed in Closets?

Short answer: No—not in clothes closets or anywhere combustible materials are stored.

• NEC 240.24(D) prohibits overcurrent devices “in the vicinity of easily ignitable material, such as in clothes closets.”
• Even if you technically meet the clearance requirements, AHJs almost always reject panels in closets for that reason.
• Same logic applies to bathrooms (240.24(E)) and stairways (240.24(F))—all are off-limits due to safety and accessibility concerns.

So if it looks like a storage area, an inspector will almost certainly call it out.

A/C Disconnects Now Included (440.14 – 2023 Update)

The 2023 NEC officially tied HVAC disconnects to the same working-space requirements as panels:

“Disconnecting means shall meet the working space requirements of 110.26(A).”

That means 3 ft deep, 30 in wide, 6½ ft high—right in front of the disconnect itself, not just the condenser.
No more “behind the unit” installs—if a tech can’t stand in front of it with clear access, it fails.

Beyond the Home — When Voltages Rise

As voltage increases, so do the clearance requirements. Once you get into commercial or industrial gear—like 480 V switchboards, MCCs, or service switchgear—NEC Table 110.26(A)(1) adds two more spacing categories beyond the Condition 1 – 3 ft residential baseline.

• Condition 2: Exposed live parts on one side and grounded parts on the other. (Concrete, brick, or tile walls count as grounded.)
• Working depth increases to about 3 ½ ft (1.0 m) for 151–600 V systems.
  • Example: a 480 V distribution panel facing a concrete wall.
• Condition 3: Exposed live parts on both sides of the working space.
• Here the minimum depth jumps to 4 ft (1.2 m) for 151–600 V systems, since you’re surrounded by energized components.
  • Example: two rows of energized switchgear or MCCs facing each other across an aisle.

At these voltage levels, proper engineering layout, documented maintenance procedures, and qualified installations become essential. But for the residential world, remember: your baseline remains 3′ – 30″ – 6’6″ and level working space in front of the panel—simple, safe, and fully code-compliant.

Quick Residential Checklist

Keep 3 ft clear depth in front of the panel.
Maintain 30 in width (doesn’t have to be centered).
Keep 6 ft 6 in height clear above the floor.
Ensure level, stable flooring.
No storage in the zone.
Keep the dedicated space above clear of systems.
No panels in closets, bathrooms, or over stairs.
HVAC disconnects require the same clearance (440.14).

Final Thought

You’ll never get written up for too much space—but you’ll get tagged fast for too little.
That 3-ft clearance zone isn’t wasted floor space—it’s the room someone needs to work safely, see clearly, and walk away without injury if something goes wrong.

As an inspector, I can tell you: the installs that pass are the ones where the electrician planned the clearance first—not the ones that tried to “make it fit” after drywall went up.

Need help passing your next AFCI or GFCI inspection?
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