Jeremy M. Smallwood

The ESD Control Program Handbook


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rel="nofollow" href="#ulink_815cb58a-9571-5ca5-a0b6-220e221bdf41">Figure 2.12 Discharge from negatively charged (>20 kV) insulating surface.

      2.5.3 Corona Discharge

      2.5.4 Other Types of Discharge

      Where an insulating surface is backed by a conducting material, and high charge levels can be generated, a strong propagating brush discharge can occur. This type of discharge is not usually of concern in electronic component handling, but it can be of concern as an ignition source in industrial processes.

      Any object that is at a different voltage from an ESDS device can be a source of ESD if the object can touch the device or come close enough for a discharge to jump a small air gap between them. The ESD that occurs may be more or less damaging or problematic according to its characteristics. Different ESD sources produce waveforms with very different characteristics in terms of parameters such as peak current, duration, energy and charge transferred to the device, and frequency spectrum. Even an apparently similar source can give widely different ESD waveforms under different circumstances. Some examples of real ESD waveforms are given next – these may or may not be representative of ESD produced from similar sources in other real situations, which may be highly variable.

      2.6.1 ESD from the Human Body

Graphs depict an example of waveform of discharge from the author charged to five hundred Volts and discharging via skin of a finger (above) and small metal object (coin, below).

      2.6.2 ESD from Charged Conductive Objects

      The waveform of real‐world ESD of this type can be highly variable depending on the characteristics of the source and discharge path. Typically, with low resistance source and discharge path materials, a high discharge current reaching tens of amps can occur. The waveform is often oscillatory, with the frequency determined mainly by capacitance and inductance of the source and discharge circuit. The waveform duration may be from a few nanoseconds to hundreds of nanoseconds.

      If the resistance of the discharge circuit is sufficiently high, the peak ESD current is further reduced, and a unidirectional waveform with fast‐rising edge but long decay may occur.

Graph depicts the ESD waveform from screwdriver blade charged to +530 V. Graph depicts the ESD waveform from a160 cross 180 mm metal plate charged to 550 V.

      2.6.3 Charged Device ESD

      The fast high current peak typical of charged device ESD can be seen. The indicated peak current and rise and fall times of the waveform peaks are probably under‐represented, as these waveforms are typically faster than the measurement system used here.

Graphs depict the ESD waveforms from charged integrated circuits describing (above) 32-pin plastic-leaded chip carrier and (below) 24-pin dual-inline package.

      2.6.4 ESD from a Charged Board