ESD Sensitivity Classification Levels  

 

Different devices have different levels of sensitivity to electrostatic discharge, or ESD.  Thus, there needs to be a way to distinguish ESD-sensitive devices from those which are not as vulnerable to ESD.  Each of the ESD models used in ESD sensitivity testing has its own classification system for categorizing devices according to their ESD sensitivity. 

   

The ESD sensitivity of a device is usually specified in terms of the highest ESD test voltage that it passes and the lowest ESD test voltage that it fails per ESD model. Thus, ESD sensitivity is often expressed as a range of ESD voltage that a device can safely be subjected to for each of the ESD models. The following tables present the ESD sensitivity classification levels defined by the ESD Association for each ESD model.

          

Table 1. ESDS Component Sensitivity Classification - Human Body Model

(Per ESD STM5.1-1998*)

Class

Voltage Range

Class 0

< 250 volts

Class 1A

250 volts to < 500 volts

Class 1B

500 volts to < 1,000 volts

Class 1C

1000 volts to < 2,000 volts

Class 2

2000 volts to < 4,000 volts

Class 3A

4000 volts to < 8000 volts

Class 3B

> = 8000 volts

     

Table 2. ESDS Component Sensitivity Classification - Machine Model
(Per ESD STM5.2-1999*)

Class

Voltage Range

Class M1

< 100 volts

Class M2

100 volts to < 200 volts

Class M3

200 volts to < 400 volts

Class M4

> or = 400 volts

         

Table 3. ESDS Component Sensitivity Classification - Charged Device Model
(Per ESD STM5.3.1-1999*)

Class

Voltage Range

Class C1

<125 volts

Class C2

125 volts to < 250 volts

Class C3

250 volts to < 500 volts

Class C4

500 volts to < 1,000 volts

Class C5

1,000 volts to < 1,500 volts

Class C6

1,500 volts to < 2,000 volts

Class C7

=>2,000 volts

    

*Reference: www.esda.org

 

A complete ESD characterization of every new product prior to its release is highly recommended.  Complete ESD characterization consists of subjecting the device to ESD testing for all of the three ESD models, i.e., HBM, CDM, MM.  Data for one ESD model can not be substituted for those of the other ESD models, since good ESDS test results for one model doesn't necessarily mean that the test results will also be good for the other ESD models. Thus, a company that takes its ESD program seriously must equip itself with ESD tester(s) capable of performing the required ESD tests for each of the test models.

      

Figure 1. Examples of ESD Testers

   

See also:   What is ESD?ESD Models ESD Test Waveforms ESD FailuresESD Standards

ESD Controls ESD Audit ChecklistThe Triboelectric Series

           

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