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FOX demonstrator Configuration for LArDPS to eFEX Test -- direct path Rev: 07-Jan-2015.

Published byNickolas Horton Modified over 8 years ago

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Presentation on theme: "FOX demonstrator Configuration for LArDPS to eFEX Test -- direct path Rev: 07-Jan-2015."— Presentation transcript:

1 FOX demonstrator Configuration for LArDPS to eFEX Test -- direct path Rev: 07-Jan-2015

2 LArDPS to eFEX Test Configuration -- direct path High level diagram of LArDPS to eFEX light path (trivial case) http://www.pa.msu.edu/hep/atlas/l1calo/fox/specification/2_demonstrator/figures/

3 Trunk Cable M FF M 48 Fibers LArDPS to eFEX Test Configuration – direct path: Optical Insertion Loss Measurement with CMX MTP 48 Fibers Breakout Cable (48) CMX out F in M 12 Fibers M F LC/LC x12 Breakout Cable (12) MTP Above the line EXACTLY matches the setup planned for this FOX demonstrator test

4 CMX out F in M 12 Fibers M F LC/LC Direct LC-LC connections x12 LArDPS to eFEX Test Configuration – direct path: offset calibration with CMX Breakout Cable (12) MTP

5 Trunk Cable 48 Fibers M F M F MTP 48 Fibers Breakout Cable (48) Fluke Source Fluke Meter LC/LC Single Fiber SC-LC x1 LArDPS to eFEX Test Configuration – direct path: Optical Insertion Loss Measurement with Fluke handheld meter Above the line EXACTLY matches the setup planned for this FOX demonstrator test

6 Direct LC-LC connection Fluke Source Fluke Meter LC/LC Single Fiber SC-LC x1 LArDPS to eFEX Test Configuration – direct path: offset calibration with Fluke handheld meter

7 FOX demonstrator Configuration for LArDPS to eFEX Test -- without splitters

8 LArDPS to eFEX Test Configuration -- without splitters High level diagram of LArDPS to eFEX light paths http://www.pa.msu.edu/hep/atlas/l1calo/fox/specification/2_demonstrator/figures/

9 LArDPS to eFEX Test Configuration -- without splitters Detailed connection map between all modules http://www.pa.msu.edu/hep/atlas/l1calo/fox/specification/2_demonstrator/figures/

10 MM LArDPS to eFEX Test Configuration – without splitters: Optical Insertion Loss Measurement with CMX 48 Fibers Breakout Cable (48) CMX out F in M 12 Fibers M F LC/LC x12 Breakout Cable (12) MTP out in F M M LC/LC Trunk Cable (48) Above the line EXACTLY matches the setup planned for this FOX demonstrator test M M F F F out (LArFOX) (eFOX) x48 FF MTP in Trunk Cable (48) Breakout Cable (48) Trunk Cable (48)

11 Direct LC-LC connections LArDPS to eFEX Test Configuration – without splitters: offset calibration with CMX – method #1 CMX out F in M 12 Fibers M F LC/LC x12 Breakout Cable (12) MTP

12 M F M Trunk Cable F 48-Fiber MTP LArDPS to eFEX Test Configuration – without splitters: offset calibration with CMX – method #2 48 Fibers Breakout Cable (48) CMX out F in M 12 Fibers M F LC/LC x12 Breakout Cable (12) MTP

13 out in F M M LC/LC Trunk Cable (48) M M F F 48 Fibers F out Fluke Source Fluke Meter LC/LC Single Fiber SC-LC (LArFOX) (eFOX) x1 x48 M F M F MTP in LArDPS to eFEX Test Configuration – without splitters: Optical Insertion Loss Measurement with Fluke handheld meter Trunk Cable (48) Breakout Cable (48) Trunk Cable (48) Above the line EXACTLY matches the setup planned for this FOX demonstrator test

14 Direct LC-LC connection LArDPS to eFEX Test Configuration – without splitters: offset calibration with Fluke -- method #1 Fluke Source Fluke Meter LC/LC Single Fiber SC-LC x1

15 Trunk Cable 48-Fiber M F M F MTP LArDPS to eFEX Test Configuration – without splitters: offset calibration with Fluke -- method #2 Tentative decision : Not currently planning to use this time-intensive method unless the CMX tests suggest otherwise Fluke Source Fluke Meter LC/LC Single Fiber SC-LC 1xx 1 x1 48 Fibers Breakout Cable (48)

16 FOX demonstrator Configuration for LArDPS to eFEX Test -- with splitters

17 LArDPS to eFEX Test Configuration -- with splitters High level diagram of LArDPS to eFEX light paths http://www.pa.msu.edu/hep/atlas/l1calo/fox/specification/2_demonstrator/figures/

18 LArDPS to eFEX Test Configuration -- with splitters Detailed connection map between all modules (trivial in this case) http://www.pa.msu.edu/hep/atlas/l1calo/fox/specification/2_demonstrator/figures/

19 MM LArDPS to eFEX Test Configuration – with splitters: Optical Insertion Loss Measurement with CMX 48 Fibers Breakout Cable (48) CMX out F in M 12 Fibers M F LC/LC x12 Breakout Cable (12) MTP out in F M M LC/LC Trunk Cable (48) Above the line EXACTLY matches the setup planned for this FOX demonstrator test M M F F F out (LArFOX) (eFOX) x48 FF MTP in Trunk Cable (48) Breakout Cable (48) With splittters Breakout Cable (48) Trunk Cable (48) x6

20 The same procedure that was illustrated for the measurements of the LArDPS to eFEX Test Configuration without splitters is also followed here for : Offset calibration with CMX Optical Insertion Loss Measurement with Fluke handheld meter Offset calibration with Fluke LArDPS to eFEX Test Configuration – with splitters:

21 FOX demonstrator Configuration for LArDPS to gFEX Test -- without splitters

22 LArDPS to gFEX Test Configuration -- without splitters High level diagram of LArDPS to gFEX light paths http://www.pa.msu.edu/hep/atlas/l1calo/fox/specification/2_demonstrator/figures/

23 LArDPS to gFEX Test Configuration -- without splitters Detailed connection map between all modules http://www.pa.msu.edu/hep/atlas/l1calo/fox/specification/2_demonstrator/figures/

24 MM LArDPS to gFEX Test Configuration – without splitters: Optical Insertion Loss Measurement with CMX 48 Fibers 72 Fibers Breakout Cable (72) Breakout Cable (48) CMX out F in M 12 Fibers M F LC/LC x12 Breakout Cable (12) MTP out in F M M LC/LC Trunk Cable (48) Above the line EXACTLY matches the setup planned for this FOX demonstrator test M M F F F out (LArFOX) (gFOX) x48 FF MTP in Trunk Cable (48) Trunk Cable (72) Breakout Cable (48)Breakout Cable (72) Trunk Cable (48)

25 The same procedure that was illustrated for the measurements of the LArDPS to eFEX Test Configuration without splitters is also followed here for : Offset calibration with CMX Optical Insertion Loss Measurement with Fluke handheld meter Offset calibration with Fluke LArDPS to gFEX Test Configuration – without splitters:

26 FOX demonstrator Configuration for LArDPS to gFEX Test -- with splitters

27 LArDPS to gFEX Test Configuration -- with splitters High level diagram of LArDPS to gFEX light paths http://www.pa.msu.edu/hep/atlas/l1calo/fox/specification/2_demonstrator/figures/

28 LArDPS to gFEX Test Configuration -- with splitters Detailed connection map between all modules http://www.pa.msu.edu/hep/atlas/l1calo/fox/specification/2_demonstrator/figures/

29 MM LArDPS to gFEX Test Configuration – with splitters: Optical Insertion Loss Measurement with CMX 48 Fibers Breakout Cable (48) CMX out F in M 12 Fibers M F LC/LC x12 Breakout Cable (12) MTP out in F M M LC/LC Trunk Cable (48) Above the line EXACTLY matches the setup planned for this FOX demonstrator test M M F F F out (LArFOX) (gFOX) x48 FF MTP in Trunk Cable (48) Breakout Cable (48) With splittters Trunk Cable (48) x6 72 Fibers Breakout Cable (72) Trunk Cable (72) Breakout Cable (72)

30 The same procedure that was illustrated for the measurements of the LArDPS to eFEX Test Configuration without splitters is also followed here for : Offset calibration with CMX Optical Insertion Loss Measurement with Fluke handheld meter Offset calibration with Fluke LArDPS to gFEX Test Configuration – with splitters:

31 Older Slides

32 CMX 12 Fibers 48 Fibers in out in 48 Fibers 12 Fibers out F F F F F F M M M M LC/LC Trunk Cable

33 1 Fiber 48 (or 72) Fibers in out in 48 (or 72) Fibers 1 Fiber out F F M M LC/LC Fluke Source Fluke Meter Trunk Cable SC LC

34 12 Fibers 48 (or 72) Fibers in out in 48 (or 72) Fibers 12 Fibers out F F M M SC/LC LC/LC Fluke Source Fluke Meter 12 Fibers F M Trunk Cable M F 12 Fibers

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