1. CuOF towards the Production Certification Tests 4/9/131 D. Dattola, P. De Remigis, S. Maselli, G. Mazza, G.Ortona, G.L. Pinna Angioni, F. Rotondo, R. Wheadon INFN – Torino D. Dattola, P. De Remigis, S. Maselli, G. Mazza, G.Ortona, G.L. Pinna Angioni, F. Rotondo, R. Wheadon INFN – Torino CMSWeek 2013

2. Test Certification Set Up in Torino Today VME Serializer PU- Xilinx CuOF OFCu 27 m copper 60 m fiber trunk cable 2 m copper VME De-Serializer data flow Test set up used to certify the CuOF prototypes in Torino (10 mezzanines CuOF.2) Only 4 optical channels at a time (= half mezzanines at a time) Possibility to run Read Out Patterns and Trigger Patterns at 480 Mb/s Software to control Bias and Mod currents and check Lock and Bit integrity (scan plots) Bit Error Rate tests 4/9/132CMSWeek 2013

3. Test Certification Set Up in Torino for Production: the Goal Test Set Up for Production of 650 CuOF mezzanines and 150 CuOF MotherBoards 32 optical channels at a time (= 4 mezzanines at a time = 1 motherboard) at least ! Possibility to run Read Out Patterns and Trigger Patterns at 480 Mb/s Use same certification software to control Bias and Mod currents and check Lock and Bit integrity (scan plots) Bit Error Rate tests Central repository of certification tests (Web Server at CERN) New PU CuOF MotherBoard OFCu 27 m copper 60 m fiber trunk cable 2 m copper data flow Clock- Xilinx 4/9/133CMSWeek 2013

4. Test Certification Set Up in Torino for Production: the Goal The Device Under Test (DUT) are the CuOF boards We have to select the best components to tests the DUTs to be confident in the test set up Campaign of measurements of instruments we have: o Copper cables (2 blue cables, only 1 working) o VCSELS o Mother Boards Fan Outs o Trunk optical cables o OFCu o New PU The VCSELs, FanOuts,Trunk Cables come certified by industry, however we want to check their behavior within our application. 4/9/134CMSWeek 2013

5. VCSEL - Optowell Certification VCSEL number  = 0.9 rms = 0.01  = 0.63 rms = 0.06 @7mA 4/9/135CMSWeek 2013

6. VCSEL - Calibration with the Optical Probe VCSEL - Calibration with the Optical Probe The optical power slopes are ALL within the OPTOWELL specification BIAS Current[mA] 60 120 Slope limits asked to OPTOWELL for Production Slope limits asked to OPTOWELL for Production Slope [mW/A] n Channel Optical Power [  W] CuOF 6CuOF 7 0 200 400 60 0 2 4 6 8 10 4/9/136CMSWeek 2013

7. Fan Out - Lightech Certification All geometrical parameters of fibers + position in MTP connectors are certified Insertion Loss [dB] Fiber number 1a1b3a3b5a5b 6a6b7a7b8a8b 9a9b10a11a11b12a12b 2a2b MTP side LC side 4/9/137CMSWeek 2013

8. Fo87485.06a Fo87485.06bFo87485.08aFo87485.09a BIAS Current [counts] MODULATION Current [counts] Fan-Out certification – BIAS MOD scan Trigger Pattern 80 idles + 2 Rndm Fan-Out certification – BIAS MOD scan Trigger Pattern 80 idles + 2 Rndm 1 fan out = 12 fibers CuOF Mezzanine 7: Channel 05-08 CuOF Mezzanine 7: Channel 05-08 Trunk cable Ribbon 8 (c51674) OFCu MTP1 RJ45 1 = fibre 01-04 RJ45 2 = fibre 05-08 RJ45 3 = fibre 09-12 OFCu MTP1 RJ45 1 = fibre 01-04 RJ45 2 = fibre 05-08 RJ45 3 = fibre 09-12 4/9/138CMSWeek 2013

9. Trunk Cable Tests – BIAS MOD scan CuOF Mezzanine 9 Channel 05-08 OFCu MTP1 RJ45 1 = fibre 01-04 RJ45 2 = fibre 05-08 RJ45 3 = fibre 09-12 FanOut fo87485.01a Trigger Pattern: 80 idle + 2 rndm Each measure is 5 s for each Mod/Bias current BIAS Current [counts] MODULATION Current [counts] OK NO ~ Ribbon 5 Ribbon 6 Ribbon 7 4/9/139CMSWeek 2013

10. Trunk Cable - Draka Certification Fiber number Insertion Loss [dB] http://personalpages.to.infn.it/~deremigi/trunkcable/pattern.readout Ribbon 1Ribbon 2Ribbon 3Ribbon 4Ribbon 5Ribbon 6Ribbon 7Ribbon 8 4/9/1310CMSWeek 2013

11. Trunk Cable Tests – BIAS MOD scan Reproducibility tests 4/9/1311CMSWeek 2013

12. Reproducibility 1 7 measures of the same ribbon and fibers with same conditions The number of white cells of the Bias-Mod scans ~constant Number of errors Number of Bias/Mod cells “0” errors = White cells 4/9/1312CMSWeek 2013

13. Reproducibility 2 7 measures of the same ribbon and fibers with same conditions The number of white cells of the Bias-Mod scans ~constant 4/9/1313CMSWeek 2013

14. BIAS Current [counts] MODULATION Current [counts] Fo87485.01b Fo87485.03a Fo87485.03b Fo87485.07b Fo87485.12a Fo87485.06aFo87485.06b Fan-Out certification – BIAS MOD scan With selected Trunk Cable Fan-Out certification – BIAS MOD scan With selected Trunk Cable 4/9/1314CMSWeek 2013

15. Fo87485.09b Fo87485.10aFo87485.11aFo87485.11bFo87485.12a Fo87485.08aFo87485.09a Fan-Out certification – BIAS MOD scan With selected Trunk Cable Fan-Out certification – BIAS MOD scan With selected Trunk Cable All 20 fan out received from Lightech have been certified 4/9/1315CMSWeek 2013

16. Scan Trunk Cable Read Out Pattern http://personalpages.to.infn.it/~deremigi/trunkcable/pattern.readout http://personalpages.to.infn.it/~deremigi/trunkcable/pattern.trigger All figures in : 4/9/1316CMSWeek 2013

17. Further CuOF Tests 4/9/1317CMSWeek 2013

18. Test in the Climatic Chamber T= 30 o, Humidity 30% 2 hT= 50 o, Humidity 30% 5 h T= 70 o, Humidity 70% 48 h T= 70 o, Humidity 70% 325 h Measure in progress According to Arrhenius formula with activation energy = 0.7 we have Acceleration factor = 36  325 h ~ 483 gg (~1.5 year) According to Arrhenius formula with activation energy = 0.7 we have Acceleration factor = 36  325 h ~ 483 gg (~1.5 year) 4/9/1318CMSWeek 2013

19. Test with the Optical Splitter No Splitter CuOF Ch5-Fiber 5 No Splitter CuOF Ch5-Fiber 6 Splitter CuOF Ch5 to Fiber 5 + Fiber 6 4/9/1319CMSWeek 2013

20. The Mother Board 4/9/1320CMSWeek 2013

21. What next o Work in progress on the new PU o Work in progress on Mother Board firmware (Casimiro) o Production of Mezzanines and MotherBoards 4/9/1321CMSWeek 2013