Comprehensive Approach to Control Contact Resistance Instability and Improve First Pass Yield of Bumped Devices

Similar documents

Probe Needle Wear and Contact Resistance

Vertical Probe Alternative for Cantilever Pad Probing

Evaluation of New Probe Technology on SnAg and Copper Bumps

Low and Stable Contact Resistance With Reduced Cleaning......A Paradigm Shift

Wafer Level Testing Challenges for Flip Chip and Wafer Level Packages

Automated Contact Resistance Tester CR-2601

1.Introduction. Introduction. Most of slides come from Semiconductor Manufacturing Technology by Michael Quirk and Julian Serda.

The Road to 450 mm Semiconductor Wafers Ira Feldman

Miniaturizing Flexible Circuits for use in Medical Electronics. Nate Kreutter 3M

MDU SC Connector Termination Procedure

Actual vs. Programmed Overtravel for Advanced Probe Cards

Meridian TM WS-DP Next Generation Wafer Based Electrical Fault Isolation System to Improve Yield Ramp

Test-data validation. Ing. Rob Marcelis

Connector Launch Design Guide

C3 Coating: Solution for IC Testing (Reduction of Solder Migration)

RF Test Gage R&R Improvement

Why Expanded Beam types are essential in military and other harsh environment applications

MT-RJ Connectors Termination Procedure

Connectivity in a Wireless World. Cables Connectors A Special Supplement to

Extending Rigid-Flex Printed Circuits to RF Frequencies

Fiber Optic Terminus End Face Quality Standards

Flexible Circuit Simple Design Guide

Optilia Instruments. Empowering Your Vision!

Comparing Digital and Analogue X-ray Inspection for BGA, Flip Chip and CSP Analysis

Electronic Board Assembly

XG2. Flat Cable Connectors for PCBs. Achieve Total Cost Reduction through High-density Mounting and Reduced Wiring. Terminal Arrangement

Cable Testing with the Huntron Tracker Model 30 and Scanners

Mounting Instructions for SP4 Power Modules

Embedding components within PCB substrates

4000 Optima. Bondtesting Optimized.

SMZ type 43 INTRODUCTION. The Radiall Type 43 coaxial connector range. Type 43 series - Features and benefits

Flex Circuits for the ATLAS Pixel Detector

M. Jämsä PCB COST REDUCTIONS

ADDENDUM USER MANUAL LBV300S-6, LBV300XL & LBV600XL

C ole s quality Open Frame Instrument Rotary Switch provides low

T H A N K S F O R A T T E N D I N G OUR. FLEX-RIGID PCBs. Presented by: Nechan Naicker

Power Supply Cables and Connectors

Unmatched Metal Hardness Testing

Good Boards = Results

ONE OF THE SMALLEST SNAP-ACTION SWITCHES IN THE WORLD. FEATURES Superminiature type, light-weight snap action switch PC board terminal type (0.

PCB Fabrication Enabling Solutions

Flex Circuit Design and Manufacture.

Enhanced interconnect medium simplifies test & verification Abstract Introduction Spring Probe Contact Resistance

CHAPTER 5. OVERVIEW OF THE MANUFACTURING PROCESS

Objective. Testing Principle. Types of Testing. Characterization Test. Verification Testing. VLSI Design Verification and Testing.

PRODUCT SPECIFICATION

Enabling 21 st Century Connectivity

HSeries. High Power High Quality. Ultra-High Speed, Sensing Ionizer SJ-H Series

STRAIN GAGE INSTALLATION HOLE DRILLING

P C B Wiz a r d 3 T u t o r i a l 3 Drawing a test probe circuit

Card electrical characteristic, Parallelism & Reliability. Jung Keun Park Willtechnology

LONGTERM EXPERIENCE WITH PV POWER PLANTS IN GERMANY

Scanning Acoustic Microscopy Training

CIRCUITS AND SYSTEMS- Assembly and Printed Circuit Board (PCB) Package Mohammad S. Sharawi ASSEMBLY AND PRINTED CIRCUIT BOARD (PCB) PACKAGE

A new technology for high current, low insertion force, low resistance and long cycle life power connectors

ELECTRIC FIELD LINES AND EQUIPOTENTIAL SURFACES

PRINTED CIRCUIT BOARD DESIGN AND MANUFACTURING CORP.

Dry Film Photoresist & Material Solutions for 3D/TSV

Auditing Contract Manufacturing Processes

Choosing a Stencil. By William E. Coleman, Ph.D. and Michael R. Burgess

Modifying the Yaesu FT-847 External MHz Reference Input

How to Build a Printed Circuit Board. Advanced Circuits Inc 2004

Design Guide: Introduction to Automated Test Fixtures

SIM 3 TRACES OF MISWIRED AND/OR DAMAGED BALANCED (3-PIN XLR) CABLES

Water Flow in. Alex Vlachos, Valve July 28, 2010

Metallized Particle Interconnect A simple solution for high-speed, high-bandwidth applications

PS323. Precision, Single-Supply SPST Analog Switch. Features. Description. Block Diagram, Pin Configuration, and Truth Table. Applications PS323 PS323

WONDERFUL PCB (HK) LIMITED Introduction

Lapping and Polishing Basics

MODERN 2D / 3D X-RAY INSPECTION -- EMPHASIS ON BGA, QFN, 3D PACKAGES, AND COUNTERFEIT COMPONENTS

Designing with High-Density BGA Packages for Altera Devices

Bending, Forming and Flexing Printed Circuits

MICRO-COAX Space Grade Cable Assembly Integration Manual

PORTABLE MICROSCOPES PORTABLE MICROSCOPES PORTABLE MICROSCOPES PORTABLE MICROSCOPES PORTABLE MICROSCOPES PORTABLE MICROSCOPES

PCI EXPRESS CARD EDGE G630E Series

Standards Affecting a Premise T-1 Installation

TopSky DLG Installation Manual

White Paper. Recommendations for Installing Flash LEDs on Flex Circuits. By Shereen Lim. Abstract. What is a Flex Circuit?

ULTIMATE SNAP-N-SEAL

Rogers 3003, 3006, 3010, 3035, 3203, 3206, 3210

Wire Bonding A Closer Look

FABRICATION 2011 SERVICES TECHNOLOGIES CAPABILITIES INDUSTRY

08. SEK IDC CONNECTORS

RC Scrub R. High Performance Test Socket Systems for Micro Lead Frame Packages

WIRE, TERMINAL AND CONNECTOR REPAIR CONDUCTORS

Evaluating Surface Roughness of Si Following Selected Lapping and Polishing Processes

Flip Chip Package Qualification of RF-IC Packages

Connection Systems. Gold Dot Connection Systems

Webinar HDI Microvia Technology Cost Aspects

ECP Embedded Component Packaging Technology

Hand-held thermometer Model CTH7000

Complete. PCB Design Using. NI Multisim, NI Ultiboard, LPKF CircuitCAM and BoardMaster. pg. 1. Wei Siang Pee

How to Avoid Conductive Anodic Filaments (CAF)

Laboratory 2. Exercise 2. Exercise 2. PCB Design

X. Dealing with Signature Differences

Technical Seminar H412

ATE for Manufacturing Test. Major ATE Companies: Teradyne, Credence, Agilent, Advantest, NPTest... Agilent 83K. Advantest T6682

How To Terminate Copper Magnet Wire On Aluminum Wire

5W HI-POWER LED SPECIFICATION

Transcription:

Comprehensive Approach to Control Contact Resistance Instability and Improve First Pass Yield of Bumped Devices Atsushi Mine Phill Mai JEM 3000 Laurelview Court Fremont, CA 94538 Joe Foerstel Sean Chen Altera Corporation 101 Innovation Drive San Jose, CA 95134 Jerry J. Broz, Ph.D. International Test Solutions 5690 Riggins Court Reno, Nevada 89502 2005 SouthWest Workshop June 5 to 8, 2005

Overview Introduction Objectives / Approach Methodology Overview Implementation / Characterization Summary 06/07/2005 SouthWest Test Workshop 2005 2

Evaluation Goals To determine the initial time zero path resistance of the VS crown probe card, and monitor that same path resistance after various amounts of die had been sorted. To compare the performance of current standard VS flat tip technology against the new VS crown tip in terms of wafer yield. 06/07/2005 SouthWest Test Workshop 2005 3

VS-Series Probe (Crown) VS Series Newly developed spring probe design Achieves precise probe position and planarity Picture of the Probe Guide Plate Stopper Crown Tip Shape 06/07/2005 SouthWest Test Workshop 2005 4

Contact Concept Crown Probe Tip Image of the Contact Point The ridge of the crown probe tip translates vertical force into radial force. Probe Mark Stable CRES by lower contact force with minimal probe mark. 06/07/2005 SouthWest Test Workshop 2005 5

VS Crown Tip Probe Mark Images 06/07/2005 SouthWest Test Workshop 2005 6

VS Crown Tip Probe Mark Images 06/07/2005 SouthWest Test Workshop 2005 7

Microscope Images of VS Crown Tip Probe Marks 06/07/2005 SouthWest Test Workshop 2005 8

Probe Mark Size Comparison Crown Tip Marks vs. Flat Tip Bump Deformation 06/07/2005 SouthWest Test Workshop 2005 9

Side View Comparison Of Probe Marks 130 um dia. VSC 2 Probe Head 100 um Actual probe mark location 111 um high measured Bump 50 um 140 um dia. Speced. 50 um 100 um Die Surface 140 um Flat Tip Crown Tip 06/07/2005 SouthWest Test Workshop 2005 10

VS Crown Probe After Sorting 12 Wafers VS Crown Probe VS Crown Probe VS Crown Probe VS Crown Probe VS Crown Probe Non-destructive on-line cleaning is needed to keep the contact surfaces debris free. 06/07/2005 SouthWest Test Workshop 2005 11

Path Resistance Measurement Shorted Probe Card PCB used to zero out the resistance measurements of Test Head and Test Head Cables. VS crown tip probe card used to probe a shorted wafer, using 150 um OD. Resistance measurements taken at 3 minute intervals, while resting on a die, no Z-up or Z-down in between. Zero out resistance measurements subtracted out to acquire actual path resistance. 06/07/2005 SouthWest Test Workshop 2005 12

Yield Comparison Use VS flat tip and VS crown tip to probe the same wafers. Perform selective resort (resorting bad dice only) with both technologies to achieve maximum yield for comparison. Inspect VS crown tip probe marks. Inspect VS crown tip probes to compare bump residue build-up. Measure Planarity and Contact Resistance using PRVX. 06/07/2005 SouthWest Test Workshop 2005 13

Testing Parameters Same tester and prober used throughout the experiments. VS Flat Tip parameters Probing: 175um OD Cleaning: 50um OD, 12 times every 50 dice Cleaning medium 3M 1um lapping film VS Crown Tip parameters Probing: 150um OD Cleaning: 100um OD, once every wafer Cleaning medium Probe Polish 99, filled cleaning polymer Due to tip shape requirements a lapping film cannot be used 06/07/2005 SouthWest Test Workshop 2005 14

Physical Path Measured for Resistance Test Head Connectors 6.3 mil Copper Wire Signal Ground Probe Head Probe Pin Epoxy Shorted Wafer PCB Cross-sectional View Path Resistance measured outlined by Blue Arrows. 06/07/2005 SouthWest Test Workshop 2005 15

Path Resistance, 1st Die Probed VS Crown Tip Second Resistance Reading Single TD, Four Readings over 3 min. intervals, 1st Die Probed 3.50 AVG Resistance: 1.075 ohm 3.00 2.50 2.00 Resistance (ohm) 1.50 1.00 0.50 0.00-0.50 0 50 101 152 202-1.00 Tester Channel T0 T1 T2 T3 06/07/2005 SouthWest Test Workshop 2005 16

Path Resistance, 2nd Die Probed VS Crown Tip Second Resistance Reading Double TD, Four Readings at 3 min. Intervals, 2nd Die Probed 3.50 3.00 AVG Resistance: 0.998 ohm 2.50 2.00 Resistance (ohm) 1.50 1.00 0.50 0.00-0.50 0 50 101 152 202-1.00 Tester Channel T0 T1 T2 T3 06/07/2005 SouthWest Test Workshop 2005 17

Path Resistance, 2754th Die Probed Resistance Reading After Probing 2754 Die Single TD, Four readings over 3 min. Intervals 3.50 AVG Resistance: 1.103 ohm 3.00 2.50 2.00 Resistance (ohm) 1.50 1.00 0.50 0.00-0.50 0 50 101 152 202-1.00 Tester Channel T0 T1 T2 T3 06/07/2005 SouthWest Test Workshop 2005 18

Average Path Resistance 25 Die Tested in a row, with no Cleaning VS Crown Tip Average Path Resistance 25 Die in a row, no cleaning 10.00 9.00 8.00 7.00 open found on 1 pin on die 18 (removed from data) Resistance (ohm) 6.00 5.00 4.00 3.00 2.00 1.00 0.00 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 Die # on Shorted Wafer AVG MAX 06/07/2005 SouthWest Test Workshop 2005 19

Mechanical Performance Characterization Bench-top Materials Testing System Assess cleaning material performance. Evaluate applied load characteristics of probe. High Resolution Camera Precision Z-stage High Magnification Oblique Lens 06/07/2005 SouthWest Test Workshop 2005 20

Mechanical Performance Characterization High resolution and video imaging Synchronized load vs. overtravel data acquisition High Magnification Oblique Lens VS Crown Tip 5 Probes on Probe Polish 150-um Z-overtravel Probes 50-gram Load Cell with Cleaning Material Installed onto Platen High Magnification and High Resolution Imaging 06/07/2005 SouthWest Test Workshop 2005 21

Probe Contact with Bump Play Video 1 x VS Crown Tip Probe at 150um OT on Solder Bump Material VS Crown Tip Probes on Bump 150-um Z-overtravel Compression Load (grams) VS Crown Tip Probes on Bump 150-um Z-overtravel 06/07/2005 SouthWest Test Workshop 2005 22

Probe Clean to Visualize Penetration Play Video 1 x VS Crown Tip Probe at 150um OT on Probe Clean Material VS Crown Tip Probe Cleaning 150-um Z-overtravel Spring Engages Compression Load (grams) Crown tip penetrates into polymer layer VS Crown Tip Probes on Probe Clean 150-um Z-overtravel 06/07/2005 SouthWest Test Workshop 2005 23

5 Probes on Probe Polish 99 Play Video 5 x VS Crown Tip Probe at 150um OT on Probe Polish Material VS Crown Tip Probes on Probe Polish 99 150-um Z-overtravel Spring Engages Compression Load (grams) Crown tip penetrates into polymer layer VS Crown Tip Probes on Probe Polish 99 150-um Z-overtravel 06/07/2005 SouthWest Test Workshop 2005 24

VS Crown Tip Probes After Online Cleaning VS Crown Probe VS Crown Probe Cleaned Once per Wafer Cleaned Once per Wafer 06/07/2005 SouthWest Test Workshop 2005 25

Yield Comparison VS Crown Tip vs. VS Flat Tip VSCC2 Split VS Crown Tip VSC Split Final Yield Equal Good Die Dice per Per Wafer Equal VS Flat Tip 10% 9% 8% 7% yield (dpw) 6% 5% 4% recovery (%) 3% 2% 1% 2 4 6 8 10 12 14 16 18 20 22 24 2 4 6 8 10 12 14 16 18 20 22 24 wafer # 0% WS1 RS1 RS% 06/07/2005 SouthWest Test Workshop 2005 26

Planarity Reading from PRVX 1.500 VS Crown Point Probe Card Planarity, I/O Only, 2754 Die Sorted 1.000 0.500 Mils 0.000-0.500-1.000-1.500 1 26 51 76 101 126 151 176 201 226 251 276 301 Virtual Pad # 06/07/2005 SouthWest Test Workshop 2005 27

Contact Resistance Reading from PRVX VS Crown Point Probe Card Contact Resistance, I/O Only, 2754 Die Sorted 3.500 3.000 2.500 2.000 Ohms 1.500 1.000 0.500 0.000 1 26 51 76 101 126 151 176 201 226 251 276 301 Virtual Pad # 06/07/2005 SouthWest Test Workshop 2005 28

Summary VS crown tip probe path resistance is on the same order as standard VS flat. VS crown tip Path Resistance holds stable after 2500+ die sorted and non-destructive cleaning only after each wafer. VS crown tip is able to achieve maximum yield at first sort, with lower resort recovery. Probe marks generated by VS crown tip show minimal disturbance to the bump structure, compared to VS flat tip and other vertical probing technologies. On-line cleaning with Probe Polish 99 was effective in keeping the crown tip clean without affecting the tip geometry in order to maintain consistent yield. Planarity remained at +/-1mil after probing 12 wafers. 06/07/2005 SouthWest Test Workshop 2005 29

Acknowledgements Patrick Mui Engineering Manager, JEM-America Altera Manufacturing Engineering JEM-Japan Test Engineering ITS Applications Engineering 06/07/2005 SouthWest Test Workshop 2005 30

SWTW 2005 Thank you for your attention Questions??? 06/07/2005 SouthWest Test Workshop 2005 31