Lead Pulling
Lead pulling
is the condition wherein one or more leads of a semiconductor device are
yanked out of the device package completely (see Figure 1). It is
actually a failure of the plastic material holding the affected leads,
and not a failure of the leads themselves.
This
phenomenon results if the
axial stress
through the lead
exceeds
the
adhesion
strength
of the lead
to the plastic package
without exceeding the fracture strength of the lead itself.
If an anchor hole is present in the lead finger, then the axial stress
must exceed the sum of
the
lead-to-plastic adhesion strength and the flexural strength of the
plastic inside the anchor hole before lead pulling can occur. Thus,
putting
anchor holes
in lead fingers is a very effective way to prevent lead pulling.
Lead pulling
does not happen in normal units, since the lead would break first in
normal units before
the lead-to-plastic anchoring and adhesion fail.
Lead
pulling generally indicates a weakness in the attachment of the leads to
the package.
Leadframe design problems such as improper lead geometry,
inadequate lead finger dimensions, and lack of anchoring features can result in this problem.
Material problems that affect the adhesion of the molding
compound to the leadframe can also result in 'pulled' leads.
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 |
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Figure 1.
Holes in the package from which two leads got pulled
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Lead
pulling may also indicate the presence of package anomalies such as
cracks and
delaminations. In
fact, if the package is properly designed,
lead pulling can only occur if there are cracks or delaminations
in the plastic material surrounding the affected lead.
Partial lead pulling may not produce visible cracks but may
result in second bond breaks
in the affected leads.
See also:
Lead Tearing;
Package
Failure Mechanisms; Failure Analysis
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