IEC TR 61191-8:2021

IEC TR 61191-8 ®
Edition 1.0 2021-03
TECHNICAL
REPORT
colour
inside
Printed board assemblies –
Part 8: Voiding in solder joints of printed board assemblies for use in automotive
electronic control units – Best practices

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IEC TR 61191-8 ®
Edition 1.0 2021-03
TECHNICAL
REPORT
colour
inside
Printed board assemblies –
Part 8: Voiding in solder joints of printed board assemblies for use in automotive

electronic control units – Best practices

INTERNATIONAL
ELECTROTECHNICAL
COMMISSION
ICS 31.180; 31.190 ISBN 978-2-8322-9575-5

– 2 – IEC TR 61191-8:2021  IEC 2021
CONTENTS
FOREWORD . 4
INTRODUCTION . 6
1 Scope . 7
2 Normative references . 7
3 Terms and definitions . 7
4 Technical background of voiding in solder joints and potential impact on assembly
reliability . 8
4.1 Void categories . 8
4.2 Void occurrence in surface-mount technology solder joints . 11
4.3 Influence of voiding on solder joint performance . 14
4.3.1 Introductory remarks . 14
4.3.2 Thermomechanical reliability . 15
4.3.3 Mechanical reliability . 17
4.3.4 Thermal functionality . 18
4.3.5 Electrical functionality . 19
5 Determination of voiding levels in solder joints . 20
5.1 Instrumentation available for investigation of voiding in solder joints . 20
5.1.1 General . 20
5.1.2 X-ray inspection equipment operating in two-dimensional mode. 20
5.1.3 X-ray inspection equipment operating in three-dimensional mode . 21
5.2 Challenges for the X-ray inspection of voiding: two case studies . 22
5.2.1 Influence of shadowing effects on measuring reproducibility – first
results for 3D X-ray inspection equipment . 22
5.2.2 Influence of X-ray parameters . 23
5.2.3 Manual determination of voiding levels in solder joints in sample
production . 24
6 Recommendations for sample qualification . 25
7 Recommendations for mass production . 26
7.1 General remarks . 26
7.2 Ramp-up quality assurance for voiding . 26
7.3 X-ray sampling inspection . 26
7.3.1 General . 26
7.3.2 Control limits . 26
7.3.3 Exceeding the control limits . 26
7.4 Process control without X-ray sampling inspection . 27
Annex A (informative) Types of voids and guidelines for acceptability . 28
A.1 Types of voids – Summary . 28
A.2 Typical voiding levels of components and guidelines for acceptability . 29
A.2.1 General . 29
A.2.2 Ball-grid array (BGA) components with collapsing balls . 30
A.2.3 Bottom-termination components involving a lead-frame construction, as
quad-flat no lead packages, dual-flat no lead packages . 30
A.2.4 Exposed pads of components with gull wing solder joints as quad-flat
packages . 31
A.2.5 Transistors with thermal plane as D2PAK and TOLL (TO lead-less) . 31
A.2.6 Rectangular or square end chip components (2, 3 or 5 side
terminations) . 32

A.2.7 Light-emitting diodes . 32
A.3 Further components currently under discussion . 32
A.4 Tabular summary . 32
Bibliography . 34

Figure 1 – Example of inclusion/macro void . 8
Figure 2 – Example of design induced void . 9
Figure 3 – Example of shrinkage void . 9
Figure 4 – Example of planar micro voids . 10
Figure 5 – Example of intermetallic voids . 10
Figure 6 – Example of pinholes . 11
Figure 7 – Example of blowhole voids . 11
Figure 8 – Theoretical model for voiding behaviour of preballed components . 12
Figure 9 – Online X-ray images and trend of void level during melting phase . 13
Figure 10 – Principal influencing parameters affecting solder joint reliability . 14
Figure 11 – Correlation of BGA lifetime with average and maximum void levels . 16
Figure 12 – Correlation void level standoff chip resistor 1206 and shear force after TC. 17
Figure 13 – Sketch of heat transfer with exposed pad solder joints . 18
th
Figure 14 – Calculation of void influence within exposed pads on overall R . 19
Figure 15 – Average voiding results for different shadowing conditions . 22
Figure 16 – Gauge reproducibility of void measurement with different shadowing . 23
Figure 17 – Void measurement of BGA region with varying X-ray parameters . 24

Table A.1 – Types of voids with indication of root cause, occurrence in automotive
electronic assemblies, detectability, effect on thermomechanical reliability, thermal and
electrical function and overall assessment . 28
Table A.2 – Recommendations for acceptable minimum solder coverage or maximum
void level as well as ranges for process indicators . 33

– 4 – IEC TR 61191-8:2021  IEC 2021
INTERNATIONAL ELECTROTECHNICAL COMMISSION
____________
PRINTED BOARD ASSEMBLIES –
Part 8: Voiding in solder joints of printed board assemblies
for use in automotive electronic control units – Best practices

FOREWORD
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