Illustration which shows cropped legs with black shoes on flooring. Blue circles with minus signs in indicate the charge being generated. The image is labeled "Even with special ESD shoes, charge cannot be grounded". A small graphic shows a charge meter with the arrow in green with the text "Floor resistance > 1 x 10E9"

How ESD and Antistatic Differ and Why It Matters

4 min read

Q: Can you help differentiate between Antistatic and ESD?

How do you know which type of floor you need?

I know you can measure resistance, but is resistance different from anti-static? 

A: Good question!

Let’s start with the term ESD.

ESD and ESD Flooring

The term ESD is an acronym that stands for Electrostatic Discharge. ESD flooring is a generic term used to describe any floor that controls static electricity. When engineers refer to “ESD floors,” they typically mean a floor that gets rid of static.

All ESD floors have some degree of conductivity. Conductivity allows the floor to be grounded. When a static charge is deposited on a conductive (or static dissipative) floor, the floor transports the charge though its thickness to an earth ground. Floors with no conductivity cannot be grounded and cannot dissipate static charges.

Illustration which shows cropped legs with black shoes on flooring. Blue circles with minus signs in indicate the charge being generated. The image is labeled "Even with special ESD shoes, charge cannot be grounded". A small graphic shows a charge meter with the arrow in green with the text "Floor resistance > 1 x 10E9". Text at the top of the graphic reads "Standard non-ESD floors cannot be grounded: Materials with a resistance above 1.0 x 10E9 are considered insulators and cannot be grounded. Static charges cannot flow through the flooring material to reach an underlying ground plane."

Measuring Conductivity

We determine the conductivity of a floor by measuring its electrical resistance, or its ability to slow the rate at which electrical charges move through the floor to ground. To meet ANSI/ESD S20.20 the electrical resistance of an ESD floor must measure below 1.0 x 10E9 ohms (also noted as under 1 x 109 ohms).

The term conductive refers to any floor measuring under 1 x 10E6 ohms

The term static dissipative refers to any floor measuring at or above 1 x 10E6.

Determining which type of floor to use – conductive or dissipative – requires you to evaluate any needs specific to your application, determine the type of footwear that will be used in the space, and adhere to the static-control standards and specifications for your industry.

The right floor has conductivity. It also prevents static generation (i.e., it is also antistatic).

Illustration demonstrating how ESD flooring works. The diagram shows cut off legs/foot standing on a conductive tile (labelled conductive tile with carbon pathways). A zoomed in cross-section is labelled "tile cross section: carbon veins". The next layer down is labelled "conductive adhesive". The next layer is labelled "concrete". From the conductive adhesive, copper stripping is shown with a grounding symbol and the label "connect to AC or bldg. ground". The diagram shows an electrical charge being carried from the person throw the conductive tile to the conductive adhesive and then along the copper stripping to ground.

Antistatic Flooring

The term “antistatic” means that a material generates very little static electricity. When we say a floor is antistatic, we ask the questions “will it charge” and “how much will it charge?”

Believe it or not, the answers have very little to do with conductivity and more to do with footwear. Conductivity and static generation are separate properties. Even highly conductive floors can generate static on people wearing ordinary street shoes. For these floors to inhibit static generation, everyone in the space must wear some type of static-control footwear. Conductive elements in ESD footwear move charges from the wearer to the static-control floor, where they are discharged to ground, preventing static from accumulating.

Chart showing how various materials measure for voltage when someone walks across them. The header text reads “Body Voltage Generating in Combination with a Person per ANSI/ESD STM97.2” The materials included ar StaticWorx Eclipse Rubber, Vinyl A, Vinyl B, Vinyl C, Vinyl D, Vinyl E, Epoxy The text underneath the chart reads “Body Voltage Generation. In controlled environments body voltage must measure below 100 volts to meet the parameters of ANSI/ESD S20.20. Two footnotes are included: 1) Epoxy flooring was tested with conductive footwear. 2) Tests performed by an independent testing company.

Rubber - Inherently Antistatic

On a person wearing street shoes, such as sneakers, a marginally conductive rubber floor will control static significantly better than a highly conductive surface like metal. The reason for this phenomenon is that regular shoes have no conductivity. Although the metal floor is highly conductive, there is no electrical continuity between the floor and the sneakers. When the sneaker soles rub against the floor they generate static. With no electrical continuity, the charge has nowhere to go. With nowhere to go, it stays on the person.

Preventing a charge on a person wearing regular (non-ESD) footwear requires that the floor be a low static-generating material. We call this type of low-generating floor antistatic. Conductive rubber, such as StaticWorx Eclipse EC rubber, is an inherently low-generating (antistatic) material. In independent lab tests, of any of the ESD floors tested, EC rubber generated the least amount of static on people wearing regular footwear.

ESD, Conductive, and Antistatic

The terms ESD flooring, conductive flooring and antistatic flooring are all different. ESD is generic term; conductive refers to the ability of a floor to dissipate charges; antistatic means that people can walk on the floor without generating static charges.

When choosing an ESD floor, there are two properties to consider:

  1. Charge generation per a standard lab test – ANSI or AATCC methods.
  2. Electrical resistance as measured per an ASTM resistance test.

Note: you don’t want a floor that is too conductive.

Resistance test and walking body voltage test

These two properties work together to prevent static generation and dissipate any charges to ground.

Read

Why Resistance Requirements Differ by Industry and Why Standards Matter

Listen

Resistance Tests Alone Are Not Enough to Qualify an ESD Floor

Watch

ESD Basics:
What is Antistatic Flooring?

Read

Why Resistance Requirements Differ by Industry and Why Standards Matter

Listen

Resistance Tests Alone Are Not Enough to Qualify an ESD Floor

Watch

ESD Basics:
What is Antistatic Flooring?

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’ ESD workshop, give us a call: 617-923-2000.

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Background graphic is a still from the StaticWorx GroundSafe ESD Flooring – Your Trusted Partner explainer animation. In the foreground at the bottom are two boxes. The top is a bright blue with the StaticWorx logo and "GroundSafe ESD Flooring" underneath in white. The second is a dark blue-gray and includes the text in white: “GroundWorx ESD Flooring – Your Trusted Partner”
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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.