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TEC Production in the US
N. Bacchetta, J. Incandela,…and
October 14, 2003
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TEC Production Meeting – Incandela 2
Outline
• Overview of US CMS Silicon– Hybrid processing
– Robotic (gantry) module assembly
– Wirebonding
– Electronic Testing Cycle:
• Hybrids Modules Rods
– Recent production rates
• Current capacities of US Production lines• Requirements and Recommendations for assisting TEC
module production• The possibility to assist FNAL while providing a great
opportunity for Run 2b physicists to join and contribute to the CMS experiment
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TEC Production Meeting – Incandela 3
US Module Production Plan
• Hybrids– New UCSB Task: Wirebond
&Test:• Quick Test then Wirebond pa’s• Thermal cycle with continuous
ARC test and pitch adapter pulsing
Adds 3.3 Million bond wires – Ship hybrids to FNAL– Until recently all hybrids were
processed at CERN
• Frames and sensors– Received by FNAL– Sample sensor checks at Rochester– Ship frames and sensors to UCSB
• TOB Module production: (FNAL & UCSB)– Gantry fabrication of 12+ modules
per day per site (average=9 at peak)• Overnight cure • Cross-check on OGP
– Wirebond 12+ modules/day/site• Recent significant improvements
– Fast test with ARC/LED• Simple repairs
– Overnight temperature-cycling with readout in “Vienna box”
– Full characterization with ARC/LED• Diagnostics and Repairs if
Necessary– Store for installation in rods
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TEC Production Meeting – Incandela 4
Hybrid Bonding/Testing• Hybrid Task
– Wirebond PA to APV• with pull-testing and other QA to
assure specs are met– Thermal cycle (20C to –20C) and
pulse test (using capacitively-coupled antenna) for opens/shorts
• This is the first serious stress test of the hybrid
• UCSB 4-hybrid test stand: – Based upon CERN design. – Fairly complicated, took a decent effort
to design and build– UCSB to wirebond and test ALL TOB
hybrids
• TEC 4-hybrid stand– UCSB has already begun work to build
a second stand for use at FNAL
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TEC Production Meeting – Incandela 5
Gantry Module Production• Pick and Place Robot
– Initially developed at CERN• similar system at FNAL has
been used to build 50+ modules within specs and without serious difficulties
– UCSB made significant revisions for robustness and ease of maintenance
• 50+ modules so far• Commissioned 3 r-phi
plates this summer: – ALL worked “right out
of the box”:– modules to original
tight specs– First stereo module plate at
UCSB shown at left
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TEC Production Meeting – Incandela 6
Adding a new module type: Example of UCSB Stereo TOB module development
• UCSB Stereo Timeline– End of July: Began designing
– August: Continue design work with interruptions to produce >30 r-phi modules and to commission of 3 new r-phi plates
– September: Complete all machining and assemble plates. Perform dry (glue-less) assembly runs. Build first stereo module.
– October 1st thru 3rd : Build 2 more stereo modules and 3 r-phi modules.
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TEC Production Meeting – Incandela 7
First stereo TOB modules
– Plot above is for the first 3 stereo and an additional 3 r-phi modules built at end of September and in 1st week of October:
• Strip to strip alignment well within CMS specifications (specifications are in fact the full scale of plot shown above).
– Result for strip-to-strip alignment has an rms of 3.2 m in this plot !!
• UCSB engineers are confident that the system works well– It is easily adapted to new modules (TEC R6) quickly and at almost no cost
(discussed more below)
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TEC Production Meeting – Incandela 8
More results
• Results for previous 52 modules at UCSB– 5 different plates, as they were being commissioned
– Prior to an array of refinements, nevertheless, results are great
• RMS 7 m
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TEC Production Meeting – Incandela 9
Wire bonding
• 3rd K&S 8090 at FNAL– Operational and has been used
for subsequent FNAL modules.
• UCSB – Recently learned to fully
automate bonding of entire TOB module using K&S pattern recognition:
• Can bond a full TOB module in under 5 minutes!
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TEC Production Meeting – Incandela 10
The TOB Electronic Testing Cycle
Quick test hybrids on ARC Gantry makes modules.
Modules test on ARC
Assemble rods from modules Rod burn-in Rods shipped to CERN
24 hour Thermal cycling
Wir
e b
on
d
Final pinhole test on ARC
Wire bond
Thermal cycle and pulse-test hybrids
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TEC Production Meeting – Incandela 11
US Module Production Rate
• 103 TOB modules produced since April – 14 April– 8 May– 17 June– 24 July– 40 August
0
20
40
60
80
100
120
april may june july august
# of
TO
B m
odul
es
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TEC Production Meeting – Incandela 12
US Production in August
• What was done:– FNAL:
• 17 modules produced in several consecutive days using 1 or 2 plates per day (with 2 modules per plate).
– UCSB: • 19 modules in 6 days followed by• 3 plates in one day with 3 modules each plate
– (This is our expected average peak rate at each site.)– Completed the 3rd plate by ~2:30 pm– All modules wirebonded & tested the next day
Conclusion: No difficulty doing 4 plates in one normal day. Could easily do more with slightly overlapping technician shifts.
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TEC Production Meeting – Incandela 13
Current US Capacity
• FNAL: ~12 modules per day (with MUX received this week)
– A fix for the memory problem in gantry controller causing 3rd position unused has been found by R. Taylor of UCSB (see below)
• UCSB:~15 modules per day (5 plates)
– Capacity was limited to 12 per day for r-phi modules and a Memory problem in gantry controller affecting stereo only had limited stereo production to 8 per day.
• In the past week we completed a fully-automated plate survey program on the OGP that takes considerably less time than on the gantry. By doing all but sample surveys on gantry and other such efficiency improvements, we now estimate that 5 plates per normal workday is reasonable.
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TEC Production Meeting – Incandela 14
TEC Production in US
• Basic Assumptions– We need to minimize: cost, technical risk, schedule risk
• US CMS contingency must be used sparingly• Every effort should be made to help CMS meet its schedule
– We need to maximize: quality, cohesion, coordination of effort
• What is vital to success along these lines:1. No reduction of quality assurance
• All levels of electronic testing as they stand in the TOB project will be applied for TEC modules as well– Silicon, Hybrids, and all other components are produced over
long periods and in batches. Every batch is different!
2. The effort will be well integrated into the existing US project
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TEC Production Meeting – Incandela 15
Some background data
• TEC R6 modules – These are very similar to our TOB modules. We have been
asked to start with these. We have reviewed them and see no serious challenges to getting up to production quickly. (see next slides)
• Commissioning new plates vs. new gantries– We can commission new TEC plates quickly, as was done for
TOB stereo modules. Commissioning a new gantry takes a bit longer. (see next slides)
– We have found that switching between one module type and another similar type in production on the gantry is no more difficult than switching plates for the same module type.
• Thus one gantry can easily handle production of multiple module types
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TEC Production Meeting – Incandela 16
TOB Module
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TEC Production Meeting – Incandela 17
TEC R9
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TEC Production Meeting – Incandela 18
Overlay of TEC/TOB
• The footprint is very similar– Most tooling can be common!
• Differences ?– Solution to reinforcement problem for
bond breakage during shipment is different than for TOB
• Driven by the fact that the modules were to be wirebonded in a different location
• This is not true for US centers
– We propose to adopt the UCSB reinforcement method and eliminate the ceramic pieces
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TEC Production Meeting – Incandela 19
Balanced and step-wise approach1. Optimize existing production sites and add TEC module
production– UCSB & FNAL will work together to assure that the gantries &
wirebonders at both sites are optimally configured, robust & maintainable.• Series of meetings at UCSB and FNAL among relevant experts
– May decide to convert FNAL gantry to the UCSB setup, simply modify the existing FNAL setup, or just leave it alone.
• We’ll agree on the best path to develop TEC assembly plates for both gantries and push for production of the first TEC R6 modules
– Advantages:• Leverages our experience and expertise• Stays within CMS project guidelines• Negligible cost, and can be done extremely quickly
– Goal of this step• 15 modules/day/site with no initial increase of assembly manpower• Testing can keep pace if we reduce the cold-cycle time
– We will need a handful of dedicated physicists at FNAL.
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TEC Production Meeting – Incandela 20
Initial production experience
2. Produce TOB and TEC modules– It is likely that parts will still be limited for some time. US capital
equipment capacity of 30 modules per day will not be needed for some time• We will ramp production of both TOB and TEC modules
and see how both production lines perform in order to better understand what we need and to see if there is adequate scientific interest to maintain high throughput with high quality at both sites
NB: Two gantries producing 15 modules per day have an annual production capacity (assuming 15% downtime) of 6375 modules.
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TEC Production Meeting – Incandela 21
Adding contingency• Additional gantry for contingency
– Initial production experience will give us a better understanding of our throughput, and the robustness of the gantries
– 15 modules/day/gantry may be unsustainable or expandable. We need to find out. If necessary we will setup another gantry. No decision on a 3rd gantry is required until we get significant production experience:
• Time for a 3rd gantry to become operational - purchase to module production – estimated at 3 months, including contingency.
– Once we are in steady state production at both sites, engineers will be free to concentrate on setup of a 3rd gantry
– We will have a much better idea at that point of what we want to buy, how and where we will configure and operate it.
» The first choice would be FNAL, provided there is adequate scientific support and a good track record of cost effectiveness and quality.
– The Padova gantry will stay in Europe • The US groups will offer to help their CMS colleagues configure,
program, and train operators for this gantry if desired.
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TEC Production Meeting – Incandela 22
Time to Gantry production of TEC
A non-disruptive schedule
An aggressive schedule
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TEC Production Meeting – Incandela 23
Wirebonding Needs and Costs
• Wirebonding– UCSB will need a backup bonder:
• 3rd 8090 from FNAL = the most sensible and cost-effective– Transportation cost and setup $10k
– FNAL fully develops pattern recognition capability: • It’s possible that the machines already have the capability. • Some mention of 30k$ per machine to upgrade?
– Cost this at 30k$ + 30k$ contingency– Carrier plates, wirebond fixtures, etc ~ 20k$
• TOTAL COST: 60k$ + 30k$ contingency
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TEC Production Meeting – Incandela 24
Gantry Needs and Costs• Existing Gantries : Tooling for full capacity
• UCSB: only machining costs, est. conservatively at $15k– Suggest UCSB make all pickup tools where necessary
• FNAL: – Need to agree on a cost cap with FNAL. Suggest 35k$ with
UCSB engineering to assist to keep down costs.– New gantry and all additional associated equipment
• US has already 3rd sets of most auxiliary equipment– 25k$ adequate to cover the rest (Lenny?)
• US purchase a 3rd gantry – Cost 75k$: Could go in as a contingency item
» UCSB Engineers recommend 75 cm machine with new controller. (Controller in use now is discontinued)
» Decision to purchase to be made in first have of 2004.
• Total Gantry costs: 150k$ + 25k$ contingency
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TEC Production Meeting – Incandela 25
Labor and Other costs– Approximate labor cost would be modest if we can limit the
additional manpower needs by first increasing throughput on 1 gantry per site.
• During ramp (first 6 months of FY04) – we will likely not need ANY additional technicians but may want to bring on and train 1 per site in the 2nd quarter: Additional cost: $30k
• At peak we will perhaps need to add 1 more per site. We should assume a peak period of 12 months. Total additional cost $220k
• Total Technical Labor: $260k + 50% contingency
• Transportation of modules to CERN: 40k$ +20k$ contingency
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TEC Production Meeting – Incandela 26
Total Costs
• Total Cost: 510k$ + 205k$ contingency– While we are arguing for TEC production capacity, these costs would
also achieve a considerable of the existing TOB production capabilities.
– Nevertheless, the project should scale up manpower and equipment beyond step 1 (described above) based on experience gained, and demonstrated need.
Item Cost (k$) Contingency (k$)
Wirebonding 60 30
Gantry 150 25
Labor 260 130
Transportation 40 20
Totals 510 205
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TEC Production Meeting – Incandela 27
Clear Positives• Advantages of this scenario
– Immediate, scalable, and flexible• We have already started on the TEC gantry plate design at UCSB, and
we estimate a very short time to start of TEC module production • If TOB parts are limited and TEC are plentiful at some time for whatever
reason, both sites can stay in production with TEC (or vice versa).• Could be easily extended to other module types if necessary• Does not require commissioning of a whole new production line to
get to very substantial TEC production capacity!– Leverages existing high level of experience in the USA– Keeps cost at a reasonable level– If one production site goes down temporarily, the flow of TEC modules and
TOB rods to CERN can continue • Even at high rates by going to overtime or Saturday operation until the
other site is up again for instance..– Add 3rd gantry when there is clear and demonstrated need.
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TEC Production Meeting – Incandela 28
Gantry setup times
A non-disruptive schedule
An aggressive schedule
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TEC Production Meeting – Incandela 29
Cost-controls & backup plan
• UCSB can handle the additional TEC modules– UCSB has low costs and extremely good technical labor
– UCSB probably has the gantry technology, and the most depth and experience in testing and test setups
• Adding a dedicated TEC production line at UCSB and production of 2000 TEC modules there would cost CMS ~$250k
• This is not a preference, only a backup.– UCSB would prefer to maintain a 50/50 split with FNAL
– The UCSB low cost production would only be used if FNAL is unable to maintain production costs within required limits, or there are not enough scientists available to maintain proper testing and general QA.
– The decision on the backup plan would be made at the same time as the decision on the 3rd gantry – after initial production experience over the first 1-2 quarters of FY04.
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TEC Production Meeting – Incandela 30
Summary of Proposal
• Prepare TEC capacity at both sites
• The important criteria– Maintain the current US emphasis on testing and quality
assurance! No relaxation of standards can be allowed– Maintain a single L2 US silicon strip project– Maintain lowest possible costs to CMS
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TEC Production Meeting – Incandela 31
Summary and Conclusions
• US CMS can provide immediate support to the TEC community and CERN at low cost– Wirebonding and testing of TEC hybrids at FNAL – test stand already
being built at UCSB
– Production of TEC R6 modules at UCSB expected by January. FNAL could be making TEC modules by Feb/March or sooner.- work is already underway at UCSB
• A substantial level of TEC production can be done very quickly and with existing Infrastructure at both sites– This allows us to develop added capacity (an additional gantry) off of the
critical path once we have a much better understanding of what we are doing.
• Total cost estimate (which will be viewed as a cap):
$510k + $205k contingency