IEC PAS 62162:2000

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Edition 1.0
2000-08
Field-induced charged-device model
test method for electrostatic
discharge withstand thresholds
of microelectronic components
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IN TER N A TION AL Reference number
E L E C T R OT E CHNI CA L
IEC/PAS 62162
C O MMI S S I O N
Copyright © 1995, JEDEC; 2000, IEC

INTERNATIONAL ELECTROTECHNICAL COMMISSION

____________
FIELD-INDUCED CHARGED-DEVICE MODEL TEST METHOD

FOR ELECTROSTATIC DISCHARGE WITHSTAND THRESHOLDS

OF MICROELECTRONIC COMPONENTS
FOREWORD
A PAS is a technical specification not fulfilling the requirements for a standard, but made available to the
public and established in an organization operating under given procedures.
IEC-PAS 62162 was submitted by JEDEC and has been processed by IEC technical committee 47: Semiconductor
devices.
The text of this PAS is based on the This PAS was approved for
following document: publication by the P-members of the
committee concerned as indicated in
the following document:
Draft PAS Report on voting
47/1462/PAS 47/1495/RVD
Following publication of this PAS, the technical committee or subcommittee concerned will investigate the
possibility of transforming the PAS into an International Standard.
An IEC-PAS licence of copyright and assignment of copyright has been signed by the IEC and JEDEC and is
recorded at the Central Office.
1) The IEC (International Electrotechnical Commission) is a worldwide organization for standardization comprising all
national electrotechnical committees (IEC National Committees). The object of the IEC is to promote international co-
operation on all questions concerning standardization in the electrical and electronic fields. To this end and in addition
to other activities, the IEC publishes International Standards. Their preparation is entrusted to technical committees;
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5) The IEC provides no marking procedure to indicate its approval and cannot be rendered responsible for any
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Page i
Copyright © 1995, JEDEC; 2000, IEC
JESD22–C101
page 1
TEST METHOD C101
FIELD-INDUCED CHARGED-DEVICE MODEL TEST METHOD

FOR ELECTROSTATIC DISCHARGE WITHSTAND THRESHOLDS

OF MICROELECTRONIC COMPONENTS
1. PURPOSE
This standard describes a uniform method for establishing charged-device model (CDM) electrostatic

discharge (ESD) withstand thresholds.

2. SCOPE
All packaged semiconductor components, thin film circuits, surface acoustic wave (SAW) components,
hybrid integrated circuits (HICS), and multi-chip modules (MCMs)
opto-electronic components,
containing any of these components are to be evaluated according to this standard. The test methods
described in this standard may also be used to evaluate components that are shipped as wafers or bare
chips. To perform the tests, the components must be assembled into a package similar to that expected
in the final application. The package used shall be recorded.
3. REFERENCE DOCUMENT
JEDEC Standard No. 42, “Requirements for Handling Electrostatic-Discharge-Sensitive (ESDS)
Devices.”
4. TERMS AND DEFINITIONS
Charged device model (CDM) – A specified circuit characterizing an ESD that occurs where a device
acquires charge through some tribe-electric (frictional) processes and then abruptly touches a grounded
object or surface.
Electrostatic discharge (ESD)
– A transfer of electrostatic charge between bodies at different
electrostatic potentials caused by direct contact or induced by an electrostatic field.
Field-induced charging – A charging method using electrostatic induction.
5. CIRCUIT SCHEMATIC FOR THE CDM SIMULATOR
5.1 The waveforms produced by the simulator shall meet the specifications of 6.1 through 9.
5.2 A schematic for the CDM test circuit is shown in figure 1. (Other equivalent circuits are allowed if
the generated waveform meets the requirements of 6.1 through 9.) A detachable discharge head (see

figure 1), consisting of the pogo probe, radial resistor, top ground plane, semi-rigid coaxial cable, and
oscilloscope should also have a bandwidth of at least 3 GHz.
5.3 The Field-Induced Method shall be used to raise the component potential for a subsequent CDM
discharge. The component potential is raised by applying the test voltage to the field charging electrode
shown in figure 1. The size of the charging electrode shall be larger than the size of the component and
the waveform generated shall meet the requirements in table 3.
Test Method Cl01
Copyright © 1995, JEDEC; 2000, IEC
JESD22-C101
Page2
6. SIMULATOR WAVEFORM VERIFICATION

6.1 The three levels of CDM simulator verification tests are:

l Manufacturer Qualification
. User Verification
l Routine Verification
The tests are described in table 1:

TABLE 1 WAVEFORM VERIFICATION TESTS 1

Routine Manufacturer Qualification

Verification
and User Verification
Record of waveforms required yes yes
8.1 check yes yes
9. Tests
#1 #1, #2, #3
6.2 Manufacturer Qualification –
must be done by the manufacturer when the simulator is installed.
High-speed instrumentation must be used, including an oscilloscope with a 1 GHz single-shot
bandwidth. All three qualification tests of section 9 are required, and the test waveforms must be
permanently recorded with copies supplied to the user when requested.
6.3 User Verification – done during initial acceptance testing, whenever the equipment is serviced, and
on a regular basis at least once per month.
The same tests ar
...