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Session 3
BiTS Workshop 2013 Archive
AWARD WINNING PERFORMANCE
High performance devices call for high performance test and burn-in solutions and require participation by the entire test ecosystem including contactors, sockets, the DUT board, along with the environment that testing takes place in and the methodology applied. This session provides insight to each step beginning with the development of a statistical model to identify the optimized bandwidth for spring probes. Next up is a look at environmental factors that can readily impact socket performance and thus indirectly test yield. The third presentation verifies test methodology to troubleshoot a device that is having issues in a very high performance test contactor to determine the cause of the issues and affect changes to prevent them from reoccurring. Lastly, we’ll hear about the unique challenges to create an optimized test methodology for 25 to 40 GHz RF amplifiers, mixers, and down converters in LFCSP (QFN) and WLCSP packages, considering connectivity issues between DUT board and sockets.
Design of Experiments Using Spring Probe Parameters for Optimized Socket Bandwidth
Mike Fedde, Ila Pal—Ironwood Electronics, Inc.
Socket Performance vs. Environmental Conditions Gert Hohenwarter—GateWave Northern, Inc.
Troubleshooting Test Oscillation Problems Jeff Sherry—Johnstech International Corporation
Optimization of Package, Socket and PC Board for 25 to 40GHz RF Devices
Carol McCuen, Phil Warwick—R&D Circuits, Inc.
COPYRIGHT NOTICE The paper(s) in this publication comprise the Proceedings of the 2013 BiTS Workshop. The content reflects the opinion of the authors and their respective companies. They are reproduced here as they were presented at the 2013 BiTS Workshop. This version of the papers may differ from the version that was distributed in hardcopy & softcopy form at the 2013 BiTS Workshop. The inclusion of the papers in this publication does not constitute an endorsement by BiTS Workshop, LLC or the workshop’s sponsors.
There is NO copyright protection claimed on the presentation content by BiTS Workshop, LLC. (Occasionally a Tutorial and/or TechTalk may be copyrighted by the author). However, each presentation is the work of the authors and their respective companies: as such, it is strongly encouraged that any use reflect proper acknowledgement to the appropriate source. Any questions regarding the use of any materials presented should be directed to the author(s) or their companies.
The BiTS logo and ‘Burn-in & Test Strategies Workshop’ are trademarks of BiTS Workshop, LLC. All rights reserved.
This Paper
2013 BiTS Workshop ~ March 3 - 6, 2013
Paper #31
Award Winning Performance
Session 3
TroubleshootingTest Oscillation Problems
2013 BiTS WorkshopMarch 3 - 6, 2013
Jeff SherryJohnstech International
Conference Ready 2/5/2013
2
Consult. Analyze. Identify. Solve.Getting to the Heart of the Matter
with a CSI Approach
3/2013 Troubleshooting Test Oscillation Problems
2013 BiTS Workshop ~ March 3 - 6, 2013
Paper #32
Award Winning Performance
Session 3
The Scene of the Crime
• Customer has problem with test setup and wants you to fix problem
• Customer provides limited knowledge of problem
• Customer only provides bad data
• Customer not sure what problem is
33/2013 Troubleshooting Test Oscillation Problems
Consult
43/2013 Troubleshooting Test Oscillation Problems
2013 BiTS Workshop ~ March 3 - 6, 2013
Paper #33
Award Winning Performance
Session 3
Initial Customer Issue“I have been doing some measurements on the contactor in my 24 GHz application. I am concerned. I measure an open in socket and it looks OK but when I measure a shorted device, I see resonance as if the network was behaving like a filter. Without the socket, doing the same two measurements are OK with no resonance proving that my PCB to the pad is OK. Do you have any inputs on this?”
Mission, should we choose to accept:• Find out what is causing the in-band oscillation issue
• Fix the problem without changing customer hardware (Mission Impossible?)
3/2013 Troubleshooting Test Oscillation Problems 5
Measured Results on Load Board With Contactor Open Circuited
0 5 10 15 20 25 30 35 40 45 50Frequency (GHz)
63/2013 Troubleshooting Test Oscillation Problems
2013 BiTS Workshop ~ March 3 - 6, 2013
Paper #34
Award Winning Performance
Session 3
Simulation Results: Inductance to Ground Plane – Contactor W/O Device
73/2013 Troubleshooting Test Oscillation Problems
Board Simulation: Load Board Inductance to Ground Plane
3/2013 Troubleshooting Test Oscillation Problems 8
2013 BiTS Workshop ~ March 3 - 6, 2013
Paper #35
Award Winning Performance
Session 3
ADS Board Simulation Model to Get Resonant Match to Measured Data
ADS Model
Shorted Test Z = 0.001 Ohm
3/2013 Troubleshooting Test Oscillation Problems 9
Analyze
3/2013 Troubleshooting Test Oscillation Problems 10
2013 BiTS Workshop ~ March 3 - 6, 2013
Paper #36
Award Winning Performance
Session 3
Capacitance Sensitivity to Ground Plane – Contactor W/O Device
All results with 0.4nH inductance to ground plane.
3/2013 Troubleshooting Test Oscillation Problems 11
Ground Insert – Inductance Calculation (Back of Envelope Estimate)
Insert Inductance = 0.075 nH
3/2013 Troubleshooting Test Oscillation Problems 12
2013 BiTS Workshop ~ March 3 - 6, 2013
Paper #37
Award Winning Performance
Session 3
Contactor Ground Inductance Calculation
Inductance to GND of Design = 0.04 nH3/2013 Troubleshooting Test Oscillation Problems 13
IdentifyThe Suspects:
• Load Board
• Contactor
• Device/Chip
3/2013 Troubleshooting Test Oscillation Problems 14
2013 BiTS Workshop ~ March 3 - 6, 2013
Paper #38
Award Winning Performance
Session 3
ADS Board Simulation Model to Get Resonant Match to Measured Data
Customer: “I am very impressed with the results. I see the resonance when I have a shorted device in the socket, not an open. A device with all pins shorted to GND with conductive tape. Could you insert a short in the simulation and see what you get?”
Response: It sounds like you have a very long return path or ground is broken, try removing the adjacent contacts to RF signal.
Customer: ?#%&@!*3/2013 Troubleshooting Test Oscillation Problems 15
HFSS Model – Simulation Results With Different Configurations – S11
3/2013 Troubleshooting Test Oscillation Problems 16
2013 BiTS Workshop ~ March 3 - 6, 2013
Paper #39
Award Winning Performance
Session 3
HFSS Model – Simulation Results With Different Configurations – S21
3/2013 Troubleshooting Test Oscillation Problems 17
Customer Response (2 weeks later)
“I removed adjacent GND contacts from the contactor on a 24GHz pin and it improved the performance by 6dB.
Previous to this these contacts were grounded at the PCB pad and open at the DUT pad (not internally down bonded to GND). What do you think?”
3/2013 Troubleshooting Test Oscillation Problems 18
2013 BiTS Workshop ~ March 3 - 6, 2013
Paper #310
Award Winning Performance
Session 3
Ground Paths
3/2013 Troubleshooting Test Oscillation Problems 19
Calling on Outside Resources to Substantiate the Evidence
3/2013 Troubleshooting Test Oscillation Problems 20
2013 BiTS Workshop ~ March 3 - 6, 2013
Paper #311
Award Winning Performance
Session 3
Third Party Validation:Test House Response
• In the following example the third party test house shows that the contact lengths are much longer (5 mm) and the first adverse resonance is observed at about 6 GHz.
• Linear scaling would then suggest that this happens at 40 GHz for 0.75 mm long contacts.
3/2013 Troubleshooting Test Oscillation Problems 21
Third Party Validation:Test House Relevant Graphic
From “Unused Socket pins – What to do With Them During Test and in Final Use” – Gert Hohenwarter GateWave Northern, INC
3/2013 Troubleshooting Test Oscillation Problems 22
2013 BiTS Workshop ~ March 3 - 6, 2013
Paper #312
Award Winning Performance
Session 3
Board Simulation: Load Board Inductance to Ground Plane
Data using third party measured results
3/2013 Troubleshooting Test Oscillation Problems 23
Customer Load Board Impedance
3/2013 Troubleshooting Test Oscillation Problems 24
2013 BiTS Workshop ~ March 3 - 6, 2013
Paper #313
Award Winning Performance
Session 3
0.5mm Pitch Customer Package and Layout
3/2013 Troubleshooting Test Oscillation Problems 25
Customer Wire Bonded Package
Peripheral pads adjacent to RF signal not tied to device ground directly to create GND-SIG-GND configuration
3/2013 Troubleshooting Test Oscillation Problems 26
2013 BiTS Workshop ~ March 3 - 6, 2013
Paper #314
Award Winning Performance
Session 3
0.5mm Pitch Contactor –Input Impedance of Contactor vs. Device
3/2013 Troubleshooting Test Oscillation Problems 27
0.5mm Pitch Comparison of Contactors vs. Package – S11
All models use same customer layout
3/2013 Troubleshooting Test Oscillation Problems 28
2013 BiTS Workshop ~ March 3 - 6, 2013
Paper #315
Award Winning Performance
Session 3
0.5mm Pitch Comparison of Contactors vs. Package – S21
All models use same customer layout
3/2013 Troubleshooting Test Oscillation Problems 29
0.5mm Pitch Contactor Improved Design Impedances
3/2013 Troubleshooting Test Oscillation Problems 30
2013 BiTS Workshop ~ March 3 - 6, 2013
Paper #316
Award Winning Performance
Session 3
Solve
3/2013 Troubleshooting Test Oscillation Problems 31
The Optimized Solution – S11
Modeled HFSS Data
3/2013 Troubleshooting Test Oscillation Problems 32
2013 BiTS Workshop ~ March 3 - 6, 2013
Paper #317
Award Winning Performance
Session 3
The Optimized Solution – S21
Modeled HFSS Data
3/2013 Troubleshooting Test Oscillation Problems 33
The Optimized Solution – S41
Modeled HFSS Data
3/2013 Troubleshooting Test Oscillation Problems 34
2013 BiTS Workshop ~ March 3 - 6, 2013
Paper #318
Award Winning Performance
Session 3
Customer Perspective
“I’d like to extend my thanks to you (and your other colleagues) for all of your work and diligence in finishing what I suspect was some difficult hardware to manufacture.
In addition to my many thanks for developing a test solution to my project, I owe you some feedback on the contactor that you provided me a couple of months ago. I can tell you that we now have a high-confidence isolation measurement.”
3/2013 Troubleshooting Test Oscillation Problems 35
ConclusionLoad Board•Shorter ground paths result in better electrical performance•Coaxial connections can achieve better RF performance
Contactor•Design also improved EMI and ESD shielding, RF isolation, thermal capability, ground inductance and RF performance
Package / Device•Wire bonds are not a good idea for high frequency designs•Device packaging has a big impact on device performance
3/2013 Troubleshooting Test Oscillation Problems 36
Design for Testability