Electrostatic info page.
It only takes 25 electrostatic volts to irreparably damage an integrated circuit
Electrostatic discharge (ESD) has been around since the beginning of time. However, this natural phenomenon has only become an issue with the widespread use of solid-state electronics.
Sources of ESD
All materials (insulators and conductors alike) are sources of ESD. They are lumped together in what is known as the triboelectric series, which defines the materials associated with positive or negative charges. Positive charges accumulate predominantly on human skin or animal fur. Negative charges are more common to synthetic materials such as Styrofoam or plastic cups. The amount of electrostatic charge that can accumulate on any item is dependent on its capacity to store a charge. For example, the human body can store a charge equal to 250 picofarads. This correlates into a stored charge that can be as high as 25,000V.
How does ESD damage electronic circuitry?
ESD is a tiny version of lightning. As the current dissipates through an object, it's seeking a low impedance path to ground to equalize potentials. In most cases, ESD currents will travel to ground via the metal chassis frame of a device. However, it's well known that current will travel on every available path. In some cases, one path may be between the PN junctions on integrated circuits to reach ground. This current flow will burn holes visible to the naked eye in an integrated circuit, with evidence of heat damage to the surrounding area. One ESD event will not disrupt equipment operation. However, repeated events will degrade equipment's internal components over time.
How does ESD occur?
ESD can occur in a variety of forms. One of the most common is through human contact with sensitive devices. Human touch is only sensitive on ESD levels that exceed 4,000V.
A recent investigation found the human body and its clothing capable of storing between 500V and 2,500V electrostatic during the normal workday. This is far above the level that damages circuits yet below the human perception threshold. Other sources of ESD damage to equipment include:
• Troubleshooting electronic equipment or handling of printed circuit boards without using an electrostatic wrist strap;
• Placement of synthetic materials (i.e. plastic, Styrofoam, etc.) on or near electronic equipment; and
• Rapid movement of air near electronic equipment (including using compressed air to blow dirt off printed circuit boards, circulating fans blowing on electronic equipment, or using an electronic device close to an air handling system).
In all of these scenarios, the accumulation of static charges may occur, but you may never know. Furthermore, a charged object does not necessarily have to contact the item for an ESD event to occur.
How do you measure electrostatic voltage?
One of the most effective ways to identify potential ESD problem areas is to make measurements using an electrostatic voltmeter. This meter will effectively measure electrostatic voltage up to 30,000V on all conductors and insulators. It also will display whether the charge is negative or positive. This may help you determine the source of the electrostatic accumulation.
How can you prevent ESD?
It's unlikely you can eliminate ESD completely from any site. However, experience has shown that the following guidelines are helpful:
• Keep all synthetic materials at least 4 in. away from electronic equipment.
• When cleaning printed circuit boards, use a spray labeled as non-static forming.
• When troubleshooting electronic equipment, always wear a static wrist strap that's grounded to the frame of the device. Also, wear the wrist strap when handling printed circuit boards.