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Duct numbering for EE- 09/06/2008 Wolfgang Funk - CERN CMS 1 06.B 07.B
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Note: N2 of EE is always on top of Dee, sniffer on bottom
View towards I.P. for EE+ LV1 4*7.4 (172) LV2 4*6.1 (120) HV 1*15.3 (184) OF 3*4.3X2 (27) signal 1*9 (64) View from I.P. for EE- CO 1*14 is (314mm**2) CO 1*14 con (154) N2 1*10 (78) OF 15*4.3X2 (129) HV 4*14 (616) Duct 05.A Sum: (1858) P F B ret N2 Duct 06.B Similar to Duct 03.A Note that the EE HV cables are only the indicated size where there is no space problem. The mantle is cut off elsewhere (curves) and saves almost 60% of cross section. Note: N2 of EE is always on top of Dee, sniffer on bottom LV1 4*7.4 (172) LV2 4*6.1 (120) HV 1*15.3 (184) OF 2*4.3X2 (18) signal 1*9 (64) LV 10*12.2 (1169) CO 1*14 con (154) Signal 1*10 (79) Duct 05.B P ret Sum: (1960) Duct 06.A Similar to Duct 03.B 09/06/2008 Wolfgang Funk - CERN CMS 2
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Wolfgang Funk - CERN CMS 3
LV1 4*7.4 (172) LV2 4*6.1 (120) HV 1*15.3 (184) OF 5*4.3X2 (45) signal 1*9 (64) LV 10*12.2 (1169mm**2) CO 1*14 con (154) Signal 1*10 (79) Duct 04.A Sum: (1987) P ret P F Duct 07.B Similar to Duct 02.A LV1 8*7.4 (344) LV2 8*6.1 (240) HV 2*15.3 (368) signal 2*9 (128) HV 4*14 (616) CO 1*14 is (314) OF 15*4.3X2 (129) Duct 04.B Sum: (2149) P F Duct 07.A Similar to Duct 02.B 09/06/2008 Wolfgang Funk - CERN CMS 3
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Note: FES F is always on upper part of Dee, FES R on lower
LV1 4*7.4 (172) LV2 4*6.1 (120) HV 1*15.3 (184) OF 5*4.3X2 (45) signal 1*9 (64) CO 4*10 is (804mm**2) CO 1*14 is (314) CO 1*12 is (255) CO 1*14 con (154) OF 15*4.3X2 (129) HV 2*14 (308) Duct 03.A OES FES F Sum: (2549) BF BF BF OES BF R Duct 08.B F Similar to Duct 05.A Note: FES F is always on upper part of Dee, FES R on lower LV1 4*7.4 (172) LV2 4*6.1 (120) HV 1*15.3 (184) OF 3*4.3X2 (27) Signal 1*9 (64) LV 10*12.2 (1169) CO 1*14 con (154) Signal 1*10 (79) Duct 03.B Sum: (1969) P ret P F Duct 08.A Similar to Duct 05.B 09/06/2008 Wolfgang Funk - CERN CMS 4
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Note: PE is only in in 9A-/2B+ for ES and not in 18A-/11B+
LV1 4*7.4 (172) LV2 4*6.1 (120) HV 1*15.3 (184) OF 2*4.3X2 (18) signal 1*9 (64) LV 10*12.2 (1169mm**2) CO 1*14 con (154) Signal 1*10 (79) DCS 1*11 (95) DCS 1*7.2 (41) DCS 1*5.8 (26) Duct 02.A Sum: (2122) P ret P F Duct 09.B Similar to Duct 04.A Note: PE is only in in 9A-/2B+ for ES and not in 18A-/11B+ PE 1*3.6 (10) LV1 8*7.4 (344) LV2 8*6.1 (240) HV 2*15.3 (368) OF 4*4.3X2 (36) signal 2*9 (128) CO 2*14 is (628) Laser 1*10 (79) OF 15*4.3X2 (129) Co 1*14 (154) MEM 24*2.2 (92) MEM 4*1.5X2 (12) MEM 6*2X10 (120) Duct 02.B Sum: (2340) P F P F ret B ret Duct 09.A Similar to Duct 04.B Note: additional cables between MEM and balconies: Hybrid (5V,2.5V Ving, sensing for all) 2*12.3 (238), OF 2*4.3X2 (18) MEM cables (MEM 24*2.2 (92), MEM 4*1.5X2 (12) and MEM 6*2X10 (120) )are only between MEM and Dees Sum: (2403) 09/06/2008 Wolfgang Funk - CERN CMS 5
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CO 1*71 (3960) Duct 01.A Duct 10.B 09/06/2008 Wolfgang Funk - CERN CMS 6
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CO 1*71 (3960) Duct 01.B Duct 10.A 09/06/2008 Wolfgang Funk - CERN CMS 7
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Wolfgang Funk - CERN CMS 8
LV1 8*7.4 (344) LV2 8*6.1 (240) HV 2*15.3 (368) OF 5*4.3X2 (45) signal 2*9 (128) CO 2*14 is (628) Co 1*14 (154) HV 4*14 (616) OF 15*4.3X2 (129) Duct 18.A Sum: (2652) P F P F B ret ret Duct 11.B Similar to Duct 16.A LV1 4*7.4 (172) LV2 4*6.1 (120) HV 1*15.3 (184) OF 2*4.3X2 (18) signal 1*9 (64) LV 10*12.2 (1169mm**2) CO 1*14 con (154) Signal 1*10 (79) DCS 1*11 (95) DCS 1*7.2 (41) DCS 1*5.8 (26) Duct 18.B Sum: (2122) P ret P F Duct 11.A Similar to Duct 16.B 09/06/2008 Wolfgang Funk - CERN CMS 8
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Note: FES F is always on upper part of Dee, FES R on lower
LV1 4*7.4 (172) LV2 4*6.1 (120) HV 1*15.3 (184) OF 3*4.3X2 (27) Signal 1*9 (64) LV 10*12.2 (1169) CO 1*14 con (154) Signal 1*10 (79) Duct 17.A Sum: (1969) P ret P F Duct 12.B Similar to Duct 15.A LV1 4*7.4 (172) LV2 4*6.1 (120) HV 1*15.3 (184) OF 5*4.3X2 (45) signal 1*9 (64) CO 4*10 is (804mm**2) CO 1*14 is (314) CO 1*12 con (113) CO 1*14 con (154) OF 15*4.3X2 (129) HV 2*14 (308) Duct 17.B OES FES R OES Sum: (2407) BF BF BF BF R Duct 12.A F Similar to Duct 15.B Note: FES F is always on upper part of Dee, FES R on lower 09/06/2008 Wolfgang Funk - CERN CMS 9
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Wolfgang Funk - CERN CMS 10
HV 4*14 (616) CO 1*14 is (314) OF 15*4.3X2 (129) LV1 8*7.4 (344) LV2 8*6.1 ( 240) HV 2*15.3 (368) signal 2*9 (128) Duct 16.A Sum: (2139) P F Duct 13.B Similar to Duct 18.A LV1 4*7.4 (172) LV2 4*6.1 (120) HV 1*15.3 (184) OF 5*4.3X2 (45) signal 1*9 (64) LV 10*12.2 (1169mm**2) CO 1*14 con (154) Signal 1*10 (79) Duct 16.B Sum: (1987) P ret P F Duct 13.A Similar to Duct 18.B 09/06/2008 Wolfgang Funk - CERN CMS 10
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Note: N2 of EE is always on top of Dee, sniffer on bottom
Note: in 14B-/15A+ for ES only LV2 2*6.1 and not 4! whereas in 5B-/6A+ LV2 4*6.1 existent LV1 4*7.4 (172) LV2 4*6.1 (120) OF 2*4.3X2 (18) signal 2*9 (128) LV 10*12.2 (1169) CO 1*14 con (154) Signal 1*10 (79) Duct 15.A P ret Sum: (1840) 14/23 Duct 14.B Similar to Duct 17.A Note: in the ducts 14B-/15A+/5B-/6A+ ES LV1 and ES LV2 all cables run to counting room since used for heating LV1 2*7.4 (86) LV2 2*6.1 (60) HV 1*15.3 (184) OF 2*4.3X2 (18) signal 1*9 (64) HV 6*14 (924) OF 15*4.3X2 (129) Sniff 1*10 (78) CO 1*14 is (314mm**2) CO 1*14 con (154) N2/sniff 1*12 (113) Duct 15.B Sum: (2124) P F B ret N2 Duct 14.A sn Similar to Duct 17.B Note: ES N2 pipe is input on one Dee and output on other Dee (same diameter), upper line is N2, lower sniffer Note: N2 of EE is always on top of Dee, sniffer on bottom 09/06/2008 Wolfgang Funk - CERN CMS 11
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History New version 14/7/03 to avoid crossing of services at EE patch panel area according to Justin’s proposal of patch panel design of spring ’03: Move ES services out of 10B-/10A- into 9A-/11B- (no space in ducts with ES pipes). Move PF from 7A- to 9A- and from 13B- to 11B- to avoid crossing of cooling pipe over ring flange bean. Move half of OF from 6B-/8B-/13B-/11B- to 7A-/9A-/14A-/12A- to have less crossings. Move half of HV from 7A-/9A-/14A-/12A- to 6B-/8B-/13B-/11B- to have less crossings. Change of DCS scheme: no DCS cable anymore in 7B-/13A-, but 3 DCS cables in 9B-/11A-, no overall cross section increase. New version 6/8/03 to increase LV cable sets to 20/Quadrant (before 18/Quadrant) because of new “EE-mechatronics’’ design of Tony: 2 more LV EE cables each in ducts 7B-,9B-,11A-,13A- . New version 11/8/03 to increase space in ducts for ES cooling pipes. Move EE backplate return pipes from 10B-/10A- into 9A-/11B- . 09/06/2008 Wolfgang Funk - CERN CMS 12
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History(2) New version 23/9/03 to adapt latest version of ES services:
Remove one OF from of 9A-. Remove separate LV cables for controls 14A- (are part of standard LV system) New version 03/12/03 to adapt latest version of EE/ES services: One ES unit contains now only one signal- (control) cable instead of 2 with exception of duct 14B-. One ES LV unit contains now of 4*7.4 and 4*6.1 instead of 6*7.4 MEM services adopted to new information EE HV 2*13 mantles/Dee (each has 13/12 coax) replaces single coaxes, changed some positions to equalize filling factors. New version 2/03/04 to adapt latest version of EE/ES services: In 14B- ES now only 2 LV 6.1mm instead of 4 (but not other Dee (5B-), where are still 4) In 14A- ES only 2 LV 6.1mm and 2 LV 7.4mm instead of 4 each before Only 4 signal cables/Quadrant for EE instead of 6 before One more optical fiber in all ducts where there was a fiber for ES (spare) 09/06/2008 Wolfgang Funk - CERN CMS 13
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History(3) New version 30/7/04 to adapt latest version of ES/EE services: 4 less OF spares/ Dee than before. Implement 1 OF spare per double MEM Implement 1 protection conductor per ES disk New version 09/06/08 to adapt latest version of ES/EE services: FES Fill always un upper part of each Dee, FES Return always on lower part N2/Sniffer pipes of EE are 10mm OD and only one N2 and sniffer pipe per Dee. 09/06/2008 Wolfgang Funk - CERN CMS 14
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