Conductive and Static-Dissipative Flooring: What's the Difference?

The Layperson's Answer

[13 min read]

Should I choose a conductive or static-dissipative floor?

This is one of the most common questions we hear from buyers and specifiers. Most of the time, when people ask – or assume, incorrectly, that they should use one or the other – it’s because they don’t really understand the difference. Technically, conductive and static-dissipative are descriptive terms, defined by the electrical resistance of the floor, as measured by an ohm meter, according to ANSI/ESD Standard Test Method 7.1.

Conductive floors measure below 1.0 x 10E6 ohms to ground.

Static-dissipative floors measure above 1.0 x 10E6 and below 1.0 x 10E9 ohms to ground.

Floors measuring above 10E9 are insulative (with little to no measurable conductivity)

Okay, you’re thinking. That’s all well and good – in practical terms, what does this mean?

Pretend for a moment that you’re emptying water from a large jug to a smaller container. To control the flow of water, you grab a funnel. As you pour, water collects in the cone then moves through a hose that’s narrower than the cone. The narrow hose slows the rate at which water leaves the cone and flows into the container.

Enlarging or shrinking the diameter of the hose will either increase or restrict the rate at which water is “discharged” from the funnel.

Conductive versus Dissipative

The rate at which static charges flow is determined by the degree of conductivity or static dissipation.

Like a funnel with a large open hose, the conductive elements in a conductive ESD floor allow static electricity (or any form of electricity) to flow quickly across its surface or through the thickness of the flooring material.

Static-dissipative flooring, on the other hand, is more like a funnel with a narrow hose. With less conductivity, static flows across and through the thickness of the flooring material at an appreciably slower rate.

How ESD Flooring Works

The conductive elements in a properly performing ESD floor draw static away from a charged person or object, and through the thickness of the flooring material. From the floor tiles, static charges move to and across the underlying ground plane – conductive adhesive or underlayment – to copper strips placed at the perimeter of the room. From the copper strips, charges move to an A/C outlet or other type of ground connection to ground.

The graphic below shows the flow of static electricity from a person on an ESD floor to ground.

ESD flooring demo

Conductive Floors

A conductive floor is more conductive – or less resistant – to the flow of electricity. A highly conductive floor – measuring 2.5 x 10E4 ohms to ground or below, for example – provides too little resistance. Like water gushing through a funnel with an overly large hose, static charges will race across or through an overly conductive floor.

Electronics Environments

ESD Shoes
Electrical resistors built into ESD footwear protect the wearer from electrical shock.

In electronics manufacturing and handling environments that follow protocols set out in ANSI/ESD S20.20-2014, everyone in or walking through the space is required to wear special ESD footwear. As part of its design, ESD footwear has built-in electrical resistors. The resistors slow the rate at which electricity passes between the floor and soles of shoes to the person wearing the ESD footwear (toe, heel or sole straps or ESD shoes). This electrical resistor is intended to protect the wearer from electrical hazards if the floor is too conductive.

End User Spaces

The protocols in data centers, flight control towers, telecom spaces, 9-1-1 dispatch centers and other end-user spaces are different from those for electronics manufacturing and handling spaces.

In end-user spaces, people are not usually required to wear ESD footwear. In environments like critical call centers, 9-1-1 dispatch operations, and FAA flight towers, where people work with electrified equipment – i.e., equipment plugged into a power source – conductive flooring is generally prohibited. That’s because if a highly conductive floor were somehow exposed to an A/C power source – from a short circuit, for instance – the floor could become part of a dangerous electrical circuit, exposing people in the space to a significant shock hazard.

The chart below shows the results of tests performed by an independent lab on overly conductive flooring.

Resulting current chart

As you see in the chart, both static-dissipative carpet and EC (electrically conductive) rubber restrict the flow of electricity sufficiently to prevent the floor from becoming part of a dangerous circuit. An overly conductive carpet, on the other hand, could expose the same person in the same scenario to a significant shock hazard.

Note: due to its material composition, conductive rubber restricts and controls the flow of electricity more predictably than composite floors like conductive carpet tile.

Static-dissipative Floors

Static dissipative floors have more electrical resistance than conductive floors – i.e., they slow the flow of electricity. Electricity flows at a more controlled rate across a static-dissipative than a conductive floor.

Like a funnel with a very narrow hose, highly dissipative floors — with resistance measurement of 1.0 x 10E9 — provide too much resistance. If water were to flow continuously into a funnel with a very narrow hose, the cone would empty too slowly to keep up with demand and the funnel would overflow. When we walk on a floor with a very high electrical resistance, static charges move through the floor too slowly and static builds on our body.

Walking Body Voltage and Static Discharge

When we walk across a floor, the contact and separation between the floor and soles of our shoes generates static. As we continue to walk, static accumulates on our body. This static charge is called walking body voltage.

Walking Body Voltage
A properly performing ESD floor should drain static from people or objects at a rate sufficient to prevent the person or object from accumulating too much static.

Like water in an overflowing funnel, when a person is carrying excess static electricity, the charge has to go somewhere.

If the electrical resistance of the floor is too high – > 10E9 ohms – , static cannot flow to ground quickly enough to prevent static charges from accumulating on people. These charges stay in place, on the body, and jump to the first person or object people touch. This transfer of static electricity is called electrostatic discharge, or ESD.

A minute static discharge (ESD event) – a discharge so small that humans can’t even perceive it – can damage or destroy static-sensitive electronic equipment and components.

The Sweet Spot

Is there an ideal range for conductivity or static dissipation?

We’re glad you asked. Yes. We call it “the sweet spot” – that is, between 1.0 x 10E5 and 1.0 x 10E8.

Sweet spot

As noted above, electrical resistance below 10E5 allows electricity to flow too quickly, posing a potential safety risk. That’s why grounding standards like Motorola R56, FAA 019f and ATIS 0600321- 2015—governing the telecom, flight control, emergency and critical call centers, 9-1-1 dispatch, data centers and other end-user spaces—require floors to have a resistance range of at least 10E6 and no higher than 10E9. 

Standard ANSI/ESD S20.20-2014, governing electronics manufacturing and handling facilities, allows resistance up to 10E9 ohms to ground. While, in some cases, a floor measuring 10E9 may provide adequate static control, ambient humidity and other environmental factors can affect the ESD properties of a floor. If a floor measuring at the upper end of the acceptable resistance range were to lose any conductivity at all, it could too easily become out of spec, ineffective or even insulative.

Resistance measurements between 10E5 and 10E8 fall within the acceptable range for any ESD application. This range offers adequate tolerance against external variables like changing humidity and surface contamination.

Questions? We’re here to help. Call today: 617-923-2000

Here’s a short cartoon video using a slightly different water analogy to demonstrate The Sweet Spot.

Further Resources

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About StaticWorx, Inc

All StaticWorx posts are written by our technical team and based on industry standards and specifications, test data, independent lab reports and other verifiable data. We provide ESD training and offer CEU credits to architects. If you’re interested in an ESD training session or architects’ Lunch and Learn workshop, give us a call: 617-923-2000.

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StaticWorx high-performance static-control floors protect electronic components, explosives, and high-speed computers from damage caused by static electricity. ESD flooring is part of a system. Choices should always be based on objective, researched evidence. When you partner with us, we look at all possible items that may need to integrate with the floor, and, focusing on your goals and objectives, help you find the right floor for your application.

Play Video

StaticWorx high-performance static-control floors protect electronic components, explosives, and high-speed computers from damage caused by static electricity. ESD flooring is part of a system. Choices should always be based on objective, researched evidence. When you partner with us, we look at all possible items that may need to integrate with the floor, and, focusing on your goals and objectives, help you find the right floor for your application.

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Vermont Collection/ESD Planx

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“I’m so glad we were able to find an attractive solution that didn’t leave us with some run-of-the-mill ugly disaster.”

Share This

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Get in Touch

East Coast: 617-923-2000
Email: [email protected]

We accept these major credit cards.

The FAA has updated its standard for facilities and electronic equipment. StaticWorx meets all requirements for ESD flooring.

Flooring Products

subscribe to newsletter

Sign up for our newsletter and occasional updates.

Flooring Products

We accept these major credit cards.

The FAA has updated its standard for facilities and electronic equipment. StaticWorx meets all requirements for ESD flooring.

Share This

Share on twitter
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Share on facebook
Share on email
Share on whatsapp

Get in Touch

East Coast: 617-923-2000
Email: [email protected]

“I’m so glad we were able to find an attractive solution that didn’t leave us with some run-of-the-mill ugly disaster.”

subscribe to newsletter

Sign up for our newsletter and occasional updates.

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