IPC-D-279 EN.pdf - 第10页

Appendix L Corrision Basics and Checklist L-1.0 CORROSION BASICS ...................................... 1 11 L-2.0 CORROSION OF THE PW A ............................. 1 1 1 L-3.0 CORROSION IN COMPONENTS .................…

F-8.3 Solid Tantalum Capacitors................................. 89

F-8.4 Electrolytic Aluminum Capacitors .................... 89

F-8.5 Variable Capacitors............................................ 89

F-8.5.1 Variable Piston Capacitors................................. 89

F-9.0 INDUCTOR/TRANSFORMERS ......................... 90

F-10.0 SEMICONDUCTORS ........................................ 90

F-10.1 Light Emitting Semiconductor Diode (LED) ... 90

F-10.2 Digital Semiconductors...................................... 91

F-10.3 Digital Silicon Semiconductors

(MOS MSI/LSI)................................................. 91

F-10.4 Linear Semiconductors...................................... 91

F-11.0 OTHER COMPONENTS ................................... 91

F-11.1 Fuse.................................................................... 91

F-11.2 Separable Contacts (Relays, Switches,

Connectors, Sockets) ......................................... 91

F-11.2.1 Batteries.............................................................. 92

F-11.2.2 Separable Electrical Interconnections ............... 92

F-12.0 PRINTED BOARD............................................. 93

F-12.1 Printed Board PTH/Vias.................................... 93

F-12.2 Printed Board Conductor Design...................... 94

F-12.3 Solder Joints....................................................... 94

Appendix G Coefficient of Thermal Expansion

G-1.0 COEFFICIENT OF THERMAL EXPANSION

..... 96

G-2.0 CONSTRAINING CORES .................................. 96

Appendix H Electrostatic Discharge

H-1.0 INTRODUCTION

................................................. 99

H-1.1 ESD Susceptibility and Damage Prevention .... 99

H-1.2 Current Limiting (ESD)..................................... 99

H-1.3

Susceptible Parts and Workarounds.................. 99

H-1.4

Assembly Process and Handling....................... 99

H-2.0 ESD DESIGN AND CHECKLIST....................... 99

H-2.1

Hardware Design ............................................... 99

H-2.2

Assembly Process and Handling....................... 99

H-2.2.1

Firmware/Software ESD Design Guidelines .... 99

H-2.2.2

Printed Board Design Guidelines .................. 100

H-2.2.3

Components...................................................... 100

H-2.2.4

Cable ................................................................ 100

H-2.3 CLASS 1: Sensitivity Range 0 to

1,999 Volts ....................................................... 100

H-2.4 CLASS 2: Sensitivity Range 2,000 to

3,999 Volts ....................................................... 101

H-2.5 CLASS 3: Sensitivity Range 4,000 to

15,999 Volts ..................................................... 101

H-2.6 CLASS ‘‘4’’: Sensitivity Range 16,000 Volts

CONSIDERED NON-ESD SENSITIVE........ 101

APPENDIX I Solvents

I-1.0 INTRODUCTION

................................................. 102

I-2.0 MATERIALS AFFECTED................................... 102

I-3.0 COMMON CLEANING SOLVENT FAMILIES ... 103

I-4.0 HCFC BLEND AND OTHER DATA................... 103

Appendix J Design for Testability

J-1.0 DESIGN FOR TESTABILITY (DfT)

................... 105

J-1.1 Controllability.................................................. 105

J-1.2 Observability/Visibility.................................... 105

J-1.3 Partitioning....................................................... 105

J-2.0 STANDARDS..................................................... 105

J-2.1 General............................................................. 105

J-2.2 Testability......................................................... 105

J-3.0 SUBSTRATE TESTING..................................... 105

J-4.0 CHIP TESTING.................................................. 106

J-5.0 PROBLEMS AND ISSUES OF UNPACKED

ICs

...................................................................... 106

J-5.1 Availability....................................................... 106

J-5.2 Conﬁdence Level............................................. 106

J-5.3 Vendor Concerns.............................................. 106

J-5.4 User Concerns.................................................. 106

J-5.5 Standards.......................................................... 106

J-6.0 ASSEMBLY TESTING....................................... 106

J-7.0 APPROACHES TO SMT TESTING.................. 106

J-7.1 Ad Hoc Techniques ......................................... 107

J-7.2 Structured Techniques...................................... 107

J-7.2.1 Boundary-Scan................................................. 107

J-7.2.2 BIST................................................................. 107

J-7.2.3 Boundary-Scan Coupled with BIST................ 107

J-7.3 Resistive Testing with Flying Probes.............. 107

J-7.4 Capacitance Testing ......................................... 107

J-7.5 Combined Resistance/Capacitance Testing..... 107

J-7.6 Glow Discharge ............................................... 107

J-7.7 Automatic Optical Inspection (AOI)............... 107

J-8.0 ISSUES AND CONCERNS OF TESTING........ 108

J-8.1

Test Equipment ................................................ 108

J-8.2

Test Points........................................................ 108

J-8.3

Costs................................................................. 108

J-8.4

CAD/CAE Software ........................................ 108

Appendix K Design for Manufacturability and

Assembly Checklist

K-1.0 SUMMARY

........................................................ 109

July 1996 IPC-D-279

vii

Appendix L Corrision Basics and Checklist

L-1.0 CORROSION BASICS

...................................... 111

L-2.0 CORROSION OF THE PWA............................. 111

L-3.0 CORROSION IN COMPONENTS..................... 111

L-4.0 OTHER EFFECTS OF WATER AND WATER

VAPOR

............................................................... 111

L-5.0 FRETTING ‘‘CORROSION’’.............................. 112

L-6.0 CORROSION DESIGN CHECKLIST................ 112

L-6.1 Galvanic Corrosion.......................................... 114

Appendix M Solder Joint Variability

M-1.0 SOLDER JOINT VARIABIALITY

..................... 116

Appendix N Adhesives, Solder Mask and Conformal/

Other Coatings

N-1.0 ADHESIVES

...................................................... 119

N-1.1 Electrically Conductive Attachment

Materials........................................................... 119

N-1.2 Thermally Conductive Adhesives.................... 119

N-1.3 Mechanical Attachment Adhesives.................. 119

N-2.0 SOLDER MASK................................................ 119

N-2.1 Types of Solder Masks.................................... 120

N-2.1.1 Liquid Screenprinted Solder Mask.................. 120

N-2.1.2 Dry Film........................................................... 120

N-2.1.3 Liquid Photoimageable.................................... 121

N-3.0 TEMPORARY MASKS AND STOPS............... 121

N-4.0 CONFORMAL COATING.................................. 121

N-4.1 Selection of Coating ....................................... 122

N-4.2 Thermal Stress Design Considerations ........... 122

N-4.3 Chemical Stress Design Considerations.......... 122

N-4.4 Space Environment Design Considerations.... 122

N-4.5 Manufacturing Considerations......................... 122

N-4.6 Other Design Considerations........................... 122

N-5.0 COMMON CRITICAL PROPERTIES OF

SOLDER MASK AND CONFORMAL

COATINGS

........................................................ 123

N-6.0 JUNCTION COATINGS, ‘‘GLOB-TOPS’’......... 124

Appendix O Aerospace and High Altitude Concerns

O-1.0 INTRODUCTION

............................................... 125

O-2.0 THERMAL DESIGN.......................................... 125

O-3.0 LARGE THERMAL EXCURSIONS.................. 125

O-4.0 CONTAMINATION ............................................ 125

O-5.0 RADIATION ENVIRONMENT........................... 126

O-6.0 ELECTRICAL PROPERTIES OF GASES....... 126

O-7.0 GRAVITY (OR LACK OF)................................ 126

Appendix P Technical Acronyms and Abbreviations

Figures

Figure 1−1

General Design Steps.......................................... 3

Figure 1−2

Flow Chart for Reliability Assurance Processes.. 4

Figure 3−1

SMT Assembly Response to Thermal Shock ...... 8

Figure 3−2

Thermal Relief in Ground Planes....................... 12

Figure 3−3

Spacing Between Parts...................................... 13

Figure 6−1 Impact of Solder Mask Thickness on

Stenciling............................................................ 25

Figure 7−1

Type 1B Assembly − All SMT Components....... 25

Figure 7−2 Type 1C Assembly − Mixed Technology

Assembly............................................................ 25

Figure 7−3

Type 2B − All SMT Components........................ 25

Figure 7−4

Type 2C − Mixed Technology............................. 26

Figure A−1 Depiction of the Effects of the Accumulating

Fatigue Damage in Solder

Joint Structure.................................................... 35

Figure A−2 Solder Joint Pull Strengths for Gullwing Leads

Consisting of Alloy 42 from Different Vendors

and Copper......................................................... 39

Figure A−3 Effect of Component Offsets on the Fatigue

Reliability of Three Capacitor

Chip (CC) Sizes ................................................. 44

Figure B−1 Cross-Section Schematic of a PTV With a

Barrel Fracture Near the Center of the MLB..... 52

Figure B−1 Cross-Section Schematic of a PTV With a

Barrel Fracture Near the Centerof the MLB ...... 52

Figure B−2 Schematic Cross-Sectional View of a PTV with

a Shoulder Fracture in a printed board.............. 53

Figure B−3 Reduction of Available Copper Ductility Due to

Localized Nicks Reducingthe Width of the

FlexCircuit Conductors [Ref. B-7: 25] and PTV

Stress Concentration Factor, K

......................... 56

Figure D−1

Thermal Vias and Planes................................... 70

Figure D−2

Other Methods of Conductive Heat Transfer..... 70

Figure D−3

Use of Heat Slug................................................ 71

Tables

Table 1−1

The Design Team................................................. 1

Table 3−1 Realistic Representative

(1)

Use Environments,

Service Lives, and Acceptable Failure

Probabilities for Surface Mounted Electronics

Attachments by Use Categories .......................... 6

Table 4−1 Advantages and Disadvantages of Various

Types of Substrates ........................................... 18

Table 6−1

Solder Mask Guidelines..................................... 24

Table A−1 Realistic Representative

(1)

Use Environments,

Service Lives, and Acceptable Failure

Probabilities for Surface Mounted Electronics

Attachments by Use Categories ........................ 35

IPC-D-279 July 1996

viii

Table A−2 Quality of Solder Joints with Copper and Alloy

42 Resulting from Different Reﬂow

Temperatures...................................................... 38

Table B-1 Estimates of Tensile Properties of Copper

Deposit Inside the PTVs .................................... 52

Table B−2 Estimates of the Fatigue Life and Time to

Failure of PTVs in Some Typical Use

Environments from Table A-1............................. 57

Table C−1

SIR Test Parameters for Some Industry Tests... 63

Table G−1 Typical Values for Coefficients of

Thermal Expansion (ppm/°C)............................. 96

Table G−2

Properties of Printed Circuit Laminates............. 98

Table K-1 Checklist for Design for Manufacturability and

Assembly.......................................................... 109

Table L−1

Galvanic Compatibility of Metals...................... 115

July 1996 IPC-D-279