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ESD Models
Electrostatic discharge (ESD) occurs in a variety of ways, depending on where and how the static charge is accumulated and how the charge build-up is dissipated. There are, however, three industry-standard ESD models that define how semiconductor devices are to be tested for ESD sensitivity under different situations of electrostatic build-up and discharge. These are the Human Body Model (HBM), the Charged Device Model (CDM), and the machine Model (MM).
It is highly recommended for every device to undergo testing against each of these ESD models so that it can be classified in terms of its ESD sensitivity levels. The Human Body Model (HBM)
The Human Body Model simulates the ESD phenomenon wherein a charged body directly transfers its accumulated electrostatic charge to the ESD-sensitive (ESDS) device. A common example of this phenomenon, and from which the name of this model was derived, is when a person accumulates static charge by walking across a carpet and then transferring all of the charge to an ESDS device by touching it. Of course, other 'non-human' materials that accumulate and transfer charge in a similar manner are also covered by the HBM.
Dating back to the 19th century when it was used to investigate gas explosions in mines, the HBM is the oldest and most commonly used model for testing the ESD sensitivity of a device. The general ESD testing set-up for this model consists of a 100 pF capacitor that can be charged to a certain voltage, and then discharged by a switching component into the device being tested through a 1.5 K-Ohm resistor. Figure 1 shows a basic HBM test circuit.
Figure 1. Basic HBM Test Circuit
Three examples of industry standards that define HBM ESD testing are JEDEC's JESD22-A114, the MIL-STD-883 Method 3015 and ESD Association's ESD STM5.1: Electrostatic Discharge Sensitivity Testing -- Human Body Model. The Machine Model (MM)
Originated in Japan as a result of investigating worst-case scenarios of the HBM, the Machine Model simulates a more rapid and severe electrostatic discharge from a charged machine, fixture, or tool. The MM test circuit consists of charging up a 200 pF capacitor to a certain voltage and then discharging this capacitor directly into the device being tested through a 500 nH inductor with no series resistor. Figure 2 shows a basic MM test circuit.
Figure 2. Basic MM Test Circuit
Two examples of industry standards that define MM ESD testing are JEDEC's JESD22-A115 and ESD Association's ESD STM5.2: Electrostatic Discharge Sensitivity Testing -- Machine Model.
See also: What is ESD?; ESD Test Waveforms; ESDS Levels; ESD Failures; ESD Standards; ESD Controls; ESD Audit Checklist; The Triboelectric Series
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