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ABB Automation Technologies AB Robotics SE-721 68 Västerås Sweden Prepared by, date: 2 W e re se rv e al l r ig ht s in th is d oc um en t a nd in th e in fo rm at io n co nt ai ne d th er ei n. R ep ro du ct io n, u se o r di sc lo su re to th ird p ar tie s w ith ou t e xp re ss a ut ho rit y is s tri ct ly fo rb id de n. © C op yr ig ht 2 00 3 AB B 2008-07-03 Page 1 26TotalSPOT PACK Latest revision: Approved by, date: COPYRIGHT PAGE Location: Plant: = + +Sublocation: SP Document no. Next Rev. Ind Lab/Office: Status:SWC IRC5 M2004 1 2 73 4 5 6 8 06 LCM 500000041477 3HAC026208-001 APPROVED PERA, 2010-08-31 GUED, 2010-08-31 Rev. 06 Manufacture Type Control cabinet Mains voltage Supply Control voltage Year of construction : : : : : : : Type of installation Customer Robot serial number(s) Drawing number Drawing version : : : : : Project start Project manager Last revision Designed by Designed date Number of pages : : : : : : : Prepared by, date: 3 W e re se rv e al l r ig ht s in th is d oc um en t a nd in th e in fo rm at io n co nt ai ne d th er ei n. R ep ro du ct io n, u se o r di sc lo su re to th ird p ar tie s w ith ou t e xp re ss a ut ho rit y is s tri ct ly fo rb id de n. © C op yr ig ht 2 00 3 AB B 2008-07-03 Page 2 26TotalSPOT PACK Latest revision: Approved by, date: TITLE PAGE Location: Plant: = + +Sublocation: SP Document no. Next Rev. Ind Lab/Office: Status:SWC IRC5 M2004 1 2 73 4 5 6 8 06 LCM 500000041477 3HAC026208-001 APPROVED PERA, 2010-08-31 GUED, 2010-08-31 Rev. 06 Table of contents Plant Location RemarkPage Page description Date Editor ABB_table_of_contents Prepared by, date: +S/50 W e re se rv e al l r ig ht s in th is d oc um en t a nd in th e in fo rm at io n co nt ai ne d th er ei n. R ep ro du ct io n, u se o r di sc lo su re to th ird p ar tie s w ith ou t e xp re ss a ut ho rit y is s tri ct ly fo rb id de n. © C op yr ig ht 2 00 3 AB B 2008-07-03 Page 3 26TotalSPOT PACK Latest revision: Approved by, date: TABLE OF CONTENTS Location: Plant: = + +Sublocation: SP Document no. Next Rev. Ind Lab/Office: Status:SWC IRC5 M2004 1 2 73 4 5 6 8 06 LCM 500000041477 3HAC026208-001 APPROVED PERA, 2010-08-31 GUED, 2010-08-31 Rev. 06 SEPERAS2010-08-19COPYRIGHT PAGE1SP SEPERAS2010-08-19TITLE PAGE2SP SETHSTA2010-08-253SP SEPERAS2010-08-19BLOCK DIAGRAM TYPE S50SSP SEPERAS2010-08-19BLOCK DIAGRAM TYPE S - IRBDP SW551SSP SEPERAS2010-08-19BLOCK DIAGRAM TYPE HS52HSSP SEPERAS2010-08-19BLOCK DIAGRAM TYPE Se53SeSP SEPERAS2010-08-19BLOCK DIAGRAM TYPE Se - IRBDP SW554SeSP SEPERAS2010-08-19BLOCK DIAGRAM TYPE HSe55HSeSP SEPERAS2010-08-19VIEW SPOT WELDING CABINET - STANDARD56CABSP SEPERAS2010-08-19CONNECTOR LAYOUT - IRBDP SW557CONSP SEPERAS2010-08-19VIEW SPOT WELDING CABINET58CABSP SEPERAS2010-08-23BOSCH AC/MFDC100P.24VSWCA SEPERAS2010-08-23BOSCH AC/MFDC101P.24VSWCE SEPERAS2010-08-19COMPACT BOSCH AC102P.24VSWC SEPERAS2010-08-20BOSCH AC/MFDC103P.BSWC SEPERAS2010-08-20COMPACT BOSCH AC104P.BSWC SEPERAS2010-08-20BOSCH AC/MFDC105BSWCAE SEPERAS2010-08-23COMPACT BOSCH AC106BSWC SEPERAS2010-08-23COMPACT BOSCH AC107S.BSWC SEPERAS2010-08-23BOSCH AC/MFDC108RGSWCAE SEPERAS2010-08-25BOSCH AC/MFDC109PGSWCAE SEPERAS2010-08-25BOSCH AC/MFDC110SWCWA_AE SEPERAS2010-08-23BOSCH AC/MFDC111SBWA_AE SEPERAS2010-08-23BOSCH AC/MFDC112SBWA_AE SEPERAS2010-08-23COMPACT BOSCH AC113SWA TABLE OF CONTENTS Prepared by, date: 51 W e re se rv e al l r ig ht s in th is d oc um en t a nd in th e in fo rm at io n co nt ai ne d th er ei n. R ep ro du ct io n, u se o r di sc lo su re to th ird p ar tie s w ith ou t e xp re ss a ut ho rit y is s tri ct ly fo rb id de n. © C op yr ig ht 2 00 3 AB B 2008-07-03 Page 50 26TotalSPOT PACK Latest revision: Approved by, date: BLOCK DIAGRAM TYPE S Location: Plant: = + +Sublocation: SP S Document no. Next Rev. Ind Lab/Office: Status:SWC IRC5 M2004 1 2 73 4 5 6 8 06 LCM 500000041477 3HAC026208-001 APPROVED PERA, 2010-08-31 GUED, 2010-08-31 Rev. 06 REGION E & A BLOCK DIAGRAM TYPE S (pneumatic gun) IRBDP SW2 Single cabinet controller, IRC5: See circuit diagram, 3HAC024480-004. Dashed cables: See circuit diagram DressPack, 3HAC026209-001 Axis 1 R3.CP/CS Axis 5 Axis 6 Axis 2 Axis 4 R2.CP/CS Axis 3 Base R1.WELD R1.CP/CS/CBUS WATER AND AIR UNIT XS/XP101 24VDC SUPPLY, PARALLEL INTERFACE, PROP. VALVE WELD POWER ROBOT SIGNALS, 24VDC SUPPLY XP/XS13 XP/XS103 X101 11 5/ 23 0V AC C AN BU S IN TE R FA C E SPOT WELDING CABINET XP/XS113 SINGLE CABINET CONTROLLER 24 VD C S U PP LY , W EL D IN G S IG N AL S R S2 32 /R S4 85 Prepared by, date: +HS/52 W e re se rv e al l r ig ht s in th is d oc um en t a nd in th e in fo rm at io n co nt ai ne d th er ei n. R ep ro du ct io n, u se o r di sc lo su re to th ird p ar tie s w ith ou t e xp re ss a ut ho rit y is s tri ct ly fo rb id de n. © C op yr ig ht 2 00 3 AB B 2008-07-03 Page 51 26TotalSPOT PACK Latest revision: Approved by, date: BLOCK DIAGRAM TYPE S - IRBDP SW5 Location: Plant: = + +Sublocation: SP S Document no. Next Rev. Ind Lab/Office: Status:SWC IRC5 M2004 1 2 73 4 5 6 8 06 LCM 500000041477 3HAC026208-001 APPROVED PERA, 2010-08-31 GUED, 2010-08-31 Rev. 06 REGION E BLOCK DIAGRAM TYPE S (pneumatic gun) IRBDP SW5 Single cabinet controller, IRC5: See circuit diagram, 3HAC024480-004. Axis 6 Axis 1 R3.CP/CS Axis 5 Axis 2 Axis 4 R2.CP/CS Axis 3 Base CONNECTION BOX R1.WA R1.CB R1.CB R1.WELD WATER AND AIR UNIT CUSTOMER POWER CUSTOMER SIGNAL WELD POWER SWC.WELD SWC.24V SWC.I/O 3H AC 02 94 44 -0 01 C AN BU S IN TE R FA C E 3H AC 02 94 46 -0 01 2 4V D C S U PP LY , W EL D IN G S IG N AL S SPOT WELDING CABINET SINGLE CABINET CONTROLLER 3H AC 02 94 86 -0 01 R S2 32 /R S4 85 Prepared by, date: +Se/53 W e re se rv e al l r ig ht s in th is d oc um en t a nd in th e in fo rm at io n co nt ai ne d th er ei n. R ep ro du ct io n, u se o r di sc lo su re to th ird p ar tie s w ith ou t e xp re ss a ut ho rit y is s tri ct ly fo rb id de n. © C op yr ig ht 2 00 3 AB B 2008-07-03 Page 52 26TotalSPOT PACK Latest revision: Approved by, date: BLOCK DIAGRAM TYPE HS Location: Plant: = + +Sublocation: SP HS Document no. Next Rev. Ind Lab/Office: Status:SWC IRC5 M2004 1 2 73 4 5 6 8 06 LCM 500000041477 3HAC026208-001 APPROVED PERA, 2010-08-31 GUED, 2010-08-31 Rev. 06 REGION E & A BLOCK DIAGRAM TYPE HS (material handling and pneumatic gun) IRBDP SW2 Single cabinet controller, IRC5: See circuit diagram, 3HAC024480-004. Dashed cables: See circuit diagram DressPack,I/OBOARD -I/OBOARD1 Multi-line =SWCAE+RG/108.1 W -W1 Multi-line =SWCAE+RG/108.4 -W2 Multi-line =SWCAE+RG/108.4 -W3 Multi-line =SWCAE+RG/108.4 X -X1 Multi-line =SWCAE+RG/108.1 1 =SWCAE+RG/108.1 6 =SWCAE+RG/108.1 7 =SWCAE+RG/108.1 8 =SWCAE+RG/108.1 9 =SWCAE+RG/108.1 10 =SWCAE+RG/108.1 -X2 Multi-line =SWCAE+RG/108.1 1 =SWCAE+RG/108.1 2 =SWCAE+RG/108.1 8 =SWCAE+RG/108.1 9 =SWCAE+RG/108.1 10 =SWCAE+RG/108.1 7 =SWCAE+RG/108.1 -X3 Multi-line =SWCAE+RG/108.1 -X3 Multi-line 4 =SWCAE+RG/108.1 5 =SWCAE+RG/108.1 6 =SWCAE+RG/108.1 7 =SWCAE+RG/108.1 8 =SWCAE+RG/108.1 9 =SWCAE+RG/108.1 -X4 Multi-line =SWCAE+RG/108.1 -X4 Multi-line 1 =SWCAE+RG/108.1 2 =SWCAE+RG/108.1 3 =SWCAE+RG/108.1 9 =SWCAE+RG/108.1 XS/XP -XS/XP13 Multi-line =SWCAE+RG/108.5 A1 =SWCAE+RG/108.5 B12 =SWCAE+RG/108.5 A2 =SWCAE+RG/108.5 B13 =SWCAE+RG/108.5 A3 =SWCAE+RG/108.5 C19 =SWCAE+RG/108.5 A4 =SWCAE+RG/108.5 B14 =SWCAE+RG/108.5 B11 =SWCAE+RG/108.5 B10 =SWCAE+RG/108.5 B9 =SWCAE+RG/108.5 B8 =SWCAE+RG/108.5 B7 =SWCAE+RG/108.5 B1 =SWCAE+RG/108.5 B2 =SWCAE+RG/108.5 -1 Multi-line =SWCAE+RG/108.4 -XS/XP61 Multi-line =SWCAE+RG/108.3 11 =SWCAE+RG/108.3 12 =SWCAE+RG/108.3 1 =SWCAE+RG/108.3 2 =SWCAE+RG/108.3 -XS/XP113 Multi-line =SWCAE+RG/108.6 B9 =SWCAE+RG/108.6 B11 =SWCAE+RG/108.6 B3 =SWCAE+RG/108.6 B4 =SWCAE+RG/108.6 B5 =SWCAE+RG/108.6 B8 =SWCAE+RG/108.6 B6 =SWCAE+RG/108.6 B10 =SWCAE+RG/108.6 F7 =SWCAE+RG/108.6 F8 =SWCAE+RG/108.6 F5 =SWCAE+RG/108.6 F6 =SWCAE+RG/108.6 B7 =SWCAE+RG/108.6 B12 =SWCAE+RG/108.6 B1 =SWCAE+RG/108.6 B2 =SWCAE+RG/108.6 XSXP -XSXP60 Multi-line 9 =SWCAE+RG/108.3 3 =SWCAE+RG/108.3 4 =SWCAE+RG/108.3 5 =SWCAE+RG/108.3 7 =SWCAE+RG/108.3 8 =SWCAE+RG/108.3 6 =SWCAE+RG/108.3 10 =SWCAE+RG/108.3 21 =SWCAE+RG/108.3 22 =SWCAE+RG/108.3 23 =SWCAE+RG/108.3 24 =SWCAE+RG/108.3 XT -XT5.1 Multi-line =SWCAE+RG/108.3 4 =SWCAE+RG/108.3 5 =SWCAE+RG/108.3 7 =SWCAE+RG/108.3 3 =SWCAE+RG/108.3 6 =SWCAE+RG/108.3 1 =SWCAE+RG/108.3 9 =SWCAE+RG/108.3 10 =SWCAE+RG/108.3 11 =SWCAE+RG/108.3 12 =SWCAE+RG/108.3 2 =SWCAE+RG/108.3 -XT5.4 Multi-line =SWCAE+RG/108.8 9 =SWCAE+RG/108.8 8 =SWCAE+RG/108.8 10 =SWCAE+RG/108.8 -XT5.5 Multi-line =SWCAE+RG/108.8 3 =SWCAE+RG/108.8 11 =SWCAE+RG/108.8 4 =SWCAE+RG/108.8 5 =SWCAE+RG/108.8 7 =SWCAE+RG/108.8 6 =SWCAE+RG/108.8 -XT6 Multi-line =SWCAE+RG/108.3 1 =SWCAE+RG/108.3 2 =SWCAE+RG/108.3 3 =SWCAE+RG/108.3 4 =SWCAE+RG/108.3 -XT31 Multi-line =SWCAE+RG/108.2 2 =SWCAE+RG/108.2 3 =SWCAE+RG/108.2 6 =SWCAE+RG/108.2 7 =SWCAE+RG/108.2 +PG (empty) -1003 Multi-line =SWCAE+PG/109.6 -1004 Multi-line =SWCAE+PG/109.6 -1005 Multi-line =SWCAE+PG/109.6 -1006 Multi-line =SWCAE+PG/109.6 -1007 Multi-line =SWCAE+PG/109.6 -1008 Multi-line =SWCAE+PG/109.6 -1009 Multi-line =SWCAE+PG/109.6 -1010 Multi-line =SWCAE+PG/109.6 -1011 Multi-line =SWCAE+PG/109.6 -1013 Multi-line =SWCAE+PG/109.6 -1014 Multi-line =SWCAE+PG/109.6 -1015 Multi-line =SWCAE+PG/109.6 -1016 Multi-line =SWCAE+PG/109.6 -1017 Multi-line =SWCAE+PG/109.6 -1018 Multi-line =SWCAE+PG/109.6 -1019 Multi-line =SWCAE+PG/109.6 -1020 Multi-line =SWCAE+PG/109.6 -1021 Multi-line =SWCAE+PG/109.6 -1022 Multi-line =SWCAE+PG/109.6 -1023 Multi-line =SWCAE+PG/109.6 -1024 Multi-line =SWCAE+PG/109.6 E -E1 Multi-line =SWCAE+PG/109.5 HAC -3HAC021579 Multi-line =SWCAE+PG/109.6 -3HAC22454 Multi-line =SWCAE+PG/109.4 =SWCAE+PG/109.7 9:RD =SWCAE+PG/109.4 7:VT =SWCAE+PG/109.7 -3HAC22455 Multi-line =SWCAE+PG/109.7 -3HAC22456 Multi-line =SWCAE+PG/109.7 -3HAC22457 Multi-line =SWCAE+PG/109.7 -3HAC22458 Multi-line =SWCAE+PG/109.4 -3HAC22459 Multi-line =SWCAE+PG/109.4 -3HAC22460 Multi-line =SWCAE+PG/109.4 -3HAC22463 Multi-line =SWCAE+PG/109.7 -3HAC22464 Multi-line =SWCAE+PG/109.7 SG -SG.CP/CS Multi-line =SWCAE+PG/109.7 -SG.CP/CS1 Multi-line C4 =SWCAE+PG/109.7 C5 =SWCAE+PG/109.7 B18 =SWCAE+PG/109.7 B19 =SWCAE+PG/109.7 B1 =SWCAE+PG/109.7 B2 =SWCAE+PG/109.7 B3 =SWCAE+PG/109.7 B4 =SWCAE+PG/109.7 B14 =SWCAE+PG/109.7 B20 =SWCAE+PG/109.7 B21 =SWCAE+PG/109.7 B22 =SWCAE+PG/109.7 B24 =SWCAE+PG/109.7 B25 =SWCAE+PG/109.7 B16 =SWCAE+PG/109.7 B17 =SWCAE+PG/109.7 U -U1 Multi-line =SWCAE+PG/109.8 =SWCAE+PG/109.6 VE -VE101_X3 Multi-line =SWCAE+PG/109.5 1 =SWCAE+PG/109.5 2 =SWCAE+PG/109.5 3 =SWCAE+PG/109.5 4 =SWCAE+PG/109.5 5 =SWCAE+PG/109.5 W -W1 Multi-line =SWCAE+PG/109.5 -W2 Multi-line =SWCAE+PG/109.5 X -X104 Multi-line =SWCAE+PG/109.6 XS/XP -XS/XP5.7 Multi-line =SWCAE+PG/109.6 -XS/XP60 Multi-line =SWCAE+PG/109.3 13 =SWCAE+PG/109.3 14 =SWCAE+PG/109.3 15 =SWCAE+PG/109.3 16 =SWCAE+PG/109.3 17 =SWCAE+PG/109.3 18 =SWCAE+PG/109.3 19 =SWCAE+PG/109.3 4 =SWCAE+PG/109.3 3 =SWCAE+PG/109.3 9 =SWCAE+PG/109.3 7 =SWCAE+PG/109.3 8 =SWCAE+PG/109.3 6 =SWCAE+PG/109.3 10 =SWCAE+PG/109.3 5 =SWCAE+PG/109.3 -XS/XP61 Multi-line =SWCAE+PG/109.3 5 =SWCAE+PG/109.3 6 =SWCAE+PG/109.3 7 =SWCAE+PG/109.3 3 =SWCAE+PG/109.3 4 =SWCAE+PG/109.3 11 =SWCAE+PG/109.3 1 =SWCAE+PG/109.3 2 =SWCAE+PG/109.3 12 =SWCAE+PG/109.3 -XS/XP113 Multi-line =SWCAE+PG/109.4 C1 =SWCAE+PG/109.5 C2 =SWCAE+PG/109.5 C3 =SWCAE+PG/109.5 C4 =SWCAE+PG/109.5 C5 =SWCAE+PG/109.5 C6 =SWCAE+PG/109.5 C7 =SWCAE+PG/109.5 C8 =SWCAE+PG/109.5 C9 =SWCAE+PG/109.5 C10 =SWCAE+PG/109.5 C11 =SWCAE+PG/109.5 C12 =SWCAE+PG/109.5 B9 =SWCAE+PG/109.5 B3 =SWCAE+PG/109.5 B4 =SWCAE+PG/109.5 B5 =SWCAE+PG/109.5 B7 =SWCAE+PG/109.5 B8 =SWCAE+PG/109.5 B6 =SWCAE+PG/109.5 B10 =SWCAE+PG/109.5 B11 =SWCAE+PG/109.5 B1 =SWCAE+PG/109.5 B2 =SWCAE+PG/109.5 B12 =SWCAE+PG/109.5 =SWCAE+PG/109.5 -1 Multi-line =SWCAE+PG/109.4 XS/XT -XS/XT5.7 Multi-line 1 =SWCAE+PG/109.6 2 =SWCAE+PG/109.6 4 =SWCAE+PG/109.6 5 =SWCAE+PG/109.6 3 =SWCAE+PG/109.6 XT -XT5.4 Multi-line =SWCAE+PG/109.6 8 =SWCAE+PG/109.6 9 =SWCAE+PG/109.6 10 =SWCAE+PG/109.6 -XT5.5 Multi-line =SWCAE+PG/109.6 3 =SWCAE+PG/109.6 6 =SWCAE+PG/109.6 4 =SWCAE+PG/109.6 11 =SWCAE+PG/109.6 5 =SWCAE+PG/109.6 7 =SWCAE+PG/109.6 -XT5.6 Multi-line =SWCAE+PG/109.6 2 =SWCAE+PG/109.6 12 =SWCAE+PG/109.6 3 =SWCAE+PG/109.6 4 =SWCAE+PG/109.6 5 =SWCAE+PG/109.6 6 =SWCAE+PG/109.6 7 =SWCAE+PG/109.6 8 =SWCAE+PG/109.6 9 =SWCAE+PG/109.6 10 =SWCAE+PG/109.6 11 =SWCAE+PG/109.6 1 =SWCAE+PG/109.6 -XT31 Multi-line =SWCAE+PG/109.3 2 =SWCAE+PG/109.3 3 =SWCAE+PG/109.3 6 =SWCAE+PG/109.3 7 =SWCAE+PG/109.3 +B.AC HAB -3HAB8277 Multi-line =SWCAE+B/105.5 1/Shield =SWCAE+B/105.5 -3HAB8278 Multi-line 1/Shield =SWC+B/106.5 HAC -3HAC022454 Multi-line =SWCAE+B/105.6 XP -XP60 Multi-line =SWCAE+B/105.6 -XP60 Multi-line 23 =SWCAE+B/105.6 24 =SWCAE+B/105.6 21 =SWCAE+B/105.6 22 =SWCAE+B/105.6 +B.MFDC U -U1 Multi-line 001 =SWCAE+B/105.8 -U2 Multi-line =SWCAE+B/105.4 -1 Multi-line =SWCAE+B/105.8 XS -XS101 Multi-line =SWCAE+B/105.8 -XS102 Multi-line =SWCAE+B/105.8 +MAC A -A39.X1 -A39.X1 Multi-line 1 =SWCAE+B/105.7 3 =SWCAE+B/105.7 2 =SWCAE+B/105.7 9 =SWCAE+B/105.7 5 =SWCAE+B/105.7 -A46 Multi-line =SWCAE+B/105.5 -A47 Multi-line =SWCAE+B/105.8 -A48 Multi-line =SWCAE+B/105.8DN -DN2 Multi-line =SWCAE+B/105.5 RS -RS2 Multi-line =SWCAE+B/105.6 XT -XT53 Multi-line =SWCAE+B/105.6 -XT54 Multi-line =SWCAE+B/105.6 -XT55 Multi-line =SWCAE+B/105.6 +PG.SG (empty) -681 Multi-line =SWCAE+PG/109.2 -686 Multi-line =SWCAE+PG/109.2 -687 Multi-line =SWCAE+PG/109.2 -688 Multi-line =SWCAE+PG/109.2 -691 Multi-line =SWCAE+PG/109.2 -692 Multi-line =SWCAE+PG/109.2 -698 Multi-line =SWCAE+PG/109.2 -703 Multi-line =SWCAE+PG/109.2 -704 Multi-line =SWCAE+PG/109.2 -705 Multi-line =SWCAE+PG/109.2 -706 Multi-line =SWCAE+PG/109.2 -707 Multi-line =SWCAE+PG/109.2 -709 Multi-line =SWCAE+PG/109.2 -710 Multi-line =SWCAE+PG/109.2 -711 Multi-line =SWCAE+PG/109.2 -830 Multi-line =SWCAE+PG/109.2 -831 Multi-line =SWCAE+PG/109.2 I/OBOARD -I/OBOARD1 Multi-line =SWCAE+PG/109.1 X -X1 Multi-line =SWCAE+PG/109.1 -X1 Multi-line 1 =SWCAE+PG/109.1 6 =SWCAE+PG/109.1 7 =SWCAE+PG/109.1 8 =SWCAE+PG/109.1 9 =SWCAE+PG/109.1 10 =SWCAE+PG/109.1 2 =SWCAE+RG/108.1 -X2 Multi-line =SWCAE+PG/109.1 -X2 Multi-line 1 =SWCAE+PG/109.1 2 =SWCAE+PG/109.1 8 =SWCAE+PG/109.1 9 =SWCAE+PG/109.1 10 =SWCAE+PG/109.1 -X3 Multi-line =SWCAE+PG/109.1 -X3 Multi-line 4 =SWCAE+PG/109.1 5 =SWCAE+PG/109.1 6 =SWCAE+PG/109.1 7 =SWCAE+PG/109.1 8 =SWCAE+PG/109.1 9 =SWCAE+PG/109.1 1 =SWCAE+RG/108.1 2 =SWCAE+RG/108.1 -X4 Multi-line =SWCAE+PG/109.1 -X4 Multi-line 1 =SWCAE+PG/109.1 2 =SWCAE+PG/109.1 3 =SWCAE+PG/109.1 9 =SWCAE+PG/109.1 +RG.IN (empty) -700 Multi-line =SWCAE+RG/108.2 -703 Multi-line =SWCAE+RG/108.2 +RG.RG (empty) -681 Multi-line =SWCAE+RG/108.2 -682 Multi-line =SWCAE+RG/108.2 -686 Multi-line =SWCAE+RG/108.2 -687 Multi-line =SWCAE+RG/108.2 -688 Multi-line =SWCAE+RG/108.2 -691 Multi-line =SWCAE+RG/108.2 -692 Multi-line =SWCAE+RG/108.2 -698 Multi-line =SWCAE+RG/108.2 -704 Multi-line =SWCAE+RG/108.2 -705 Multi-line =SWCAE+RG/108.2 -706 Multi-line =SWCAE+RG/108.2 -707 Multi-line =SWCAE+RG/108.2 -709 Multi-line =SWCAE+RG/108.2 -710 Multi-line =SWCAE+RG/108.2 -830 Multi-line =SWCAE+RG/108.2 -831 Multi-line =SWCAE+RG/108.2 -1088 Multi-line =SWCAE+RG/108.3 -1089 Multi-line =SWCAE+RG/108.3 W -W1 Multi-line =SWCAE+RG/108.3 XS/XP -XS/XP60 Multi-line =SWCAE+RG/108.3 =WA_AE +SWC (empty) -1003 Multi-line =WA_AE+SWC/110.5 -1004 Multi-line =WA_AE+SWC/110.5 -1005 Multi-line =WA_AE+SWC/110.5 -1006 Multi-line =WA_AE+SWC/110.5 -1007 Multi-line =WA_AE+SWC/110.5 -1008 Multi-line =WA_AE+SWC/110.5 -1009 Multi-line =WA_AE+SWC/110.5 -1010 Multi-line =WA_AE+SWC/110.5 -1011 Multi-line =WA_AE+SWC/110.5 -1043 Multi-line =WA_AE+SWC/110.6 -1044 Multi-line =WA_AE+SWC/110.6 -1045 Multi-line =WA_AE+SWC/110.6 -1046 Multi-line =WA_AE+SWC/110.6 -1047 Multi-line =WA_AE+SWC/110.6 -1048 Multi-line =WA_AE+SWC/110.6 -1049 Multi-line =WA_AE+SWC/110.6 -1053 Multi-line =WA_AE+SWC/110.6 -1085 Multi-line =WA_AE+SWC/110.5 -1086 Multi-line =WA_AE+SWC/110.5 E -E1 Multi-line =WA_AE+SWC/110.4 -E2 Multi-line =WA_AE+SWC/110.5 HAC -3HAC16844 Multi-line =WA_AE+SWC/110.7 =WA_AE+SWC/110.6 -3HAC022454 Multi-line =WA_AE+SWC/110.3 =WA_AE+SWC/110.4 I/OBOARD -I/OBOARD1 Multi-line =WA_AE+SWC/110.1 W -W1 Multi-line =WA_AE+SWC/110.6 -W2 Multi-line =WA_AE+SWC/110.4 X -X1 Multi-line =WA_AE+SWC/110.1 -X2 Multi-line =WA_AE+SWC/110.1 -X3 Multi-line =WA_AE+SWC/110.1 4 =WA_AE+SWC/110.1 5 =WA_AE+SWC/110.1 6 =WA_AE+SWC/110.1 7 =WA_AE+SWC/110.1 9 =WA_AE+SWC/110.1 -X4 Multi-line =WA_AE+SWC/110.1 1 =WA_AE+SWC/110.1 9 =WA_AE+SWC/110.1 XS/XP -XS/XP60 Multi-line =WA_AE+SWC/110.2 4 =WA_AE+SWC/110.2 3 =WA_AE+SWC/110.2 9 =WA_AE+SWC/110.2 7 =WA_AE+SWC/110.2 8 =WA_AE+SWC/110.2 6 =WA_AE+SWC/110.2 10 =WA_AE+SWC/110.2 5 =WA_AE+SWC/110.2 -XS/XP61 Multi-line =WA_AE+SWC/110.2 1 =WA_AE+SWC/110.2 2 =WA_AE+SWC/110.2 11 =WA_AE+SWC/110.2 12 =WA_AE+SWC/110.2 5 =WA_AE+SWC/110.2 6 =WA_AE+SWC/110.2 7 =WA_AE+SWC/110.2 3 =WA_AE+SWC/110.2 4 =WA_AE+SWC/110.2 -XS/XP101 Multi-line =WA_AE+SWC/110.7 19 =WA_AE+SWC/110.7 6 =WA_AE+SWC/110.7 5 =WA_AE+SWC/110.7 16 =WA_AE+SWC/110.7 3 =WA_AE+SWC/110.7 15 =WA_AE+SWC/110.7 17 =WA_AE+SWC/110.7 9 =WA_AE+SWC/110.7 7 =WA_AE+SWC/110.7 14 =WA_AE+SWC/110.7 2 =WA_AE+SWC/110.7 13 =WA_AE+SWC/110.7 -1 Multi-line =WA_AE+SWC/110.7 -2 Multi-line =SWC+S.B/107.6 -XS/XP103 Multi-line =WA_AE+SWC/110.6 1 =WA_AE+SWC/110.6 2 =WA_AE+SWC/110.6 3 =WA_AE+SWC/110.6 4 =WA_AE+SWC/110.6 5 =WA_AE+SWC/110.6 6 =WA_AE+SWC/110.6 7 =WA_AE+SWC/110.6 8 =WA_AE+SWC/110.6 9 =WA_AE+SWC/110.6 10 =WA_AE+SWC/110.6 11 =WA_AE+SWC/110.6 12 =WA_AE+SWC/110.6 -1 Multi-line =WA_AE+SWC/110.6 -2 Multi-line =SWC+S.B/107.5 -3 Multi-line =SWC+S.B/107.5 -XS/XP113 Multi-line =WA_AE+SWC/110.4 B1 =WA_AE+SWC/110.4 B2 =WA_AE+SWC/110.4 B3 =WA_AE+SWC/110.4 B4 =WA_AE+SWC/110.4 B5 =WA_AE+SWC/110.4 B6 =WA_AE+SWC/110.4 B7 =WA_AE+SWC/110.4 B8 =WA_AE+SWC/110.4 B9 =WA_AE+SWC/110.4 B10 =WA_AE+SWC/110.4 B11 =WA_AE+SWC/110.4 B12 =WA_AE+SWC/110.4 C10 =WA_AE+SWC/110.4 C11 =WA_AE+SWC/110.4 C12 =WA_AE+SWC/110.4 C1 =WA_AE+SWC/110.4 C2 =WA_AE+SWC/110.4 -1 Multi-line =WA_AE+SWC/110.4 XT -XT5.4 Multi-line =WA_AE+SWC/110.5 8 =WA_AE+SWC/110.5 9 =WA_AE+SWC/110.5 10 =WA_AE+SWC/110.5 -XT5.5 Multi-line =WA_AE+SWC/110.5 3 =WA_AE+SWC/110.5 4 =WA_AE+SWC/110.5 5 =WA_AE+SWC/110.5 6 =WA_AE+SWC/110.5 7 =WA_AE+SWC/110.5 1 =WA_AE+SWC/110.5 2 =WA_AE+SWC/110.5 11 =WA_AE+SWC/110.5 -XT31 Multi-line =WA_AE+SWC/110.2 2 =WA_AE+SWC/110.2 6 =WA_AE+SWC/110.2 +SB J -J1 Multi-line =WA_AE+SB/112.4 -J2 Multi-line =WA_AE+SB/112.4 -J3 Multi-line =WA_AE+SB/112.4 -J4 Multi-line =WA_AE+SB/112.4 -J5 Multi-line =WA_AE+SB/112.4 -J6 Multi-line =WA_AE+SB/112.4 1 =WA_AE+SB/112.4 2 =WA_AE+SB/112.4 3 =WA_AE+SB/112.4 4 =WA_AE+SB/112.4 5 =WA_AE+SB/112.4 PV -PV1 Multi-line =WA_AE+SB/111.5 =WA_AE+SB/112.5 001 =WA_AE+SB/111.5 001 =WA_AE+SB/112.5 002 =WA_AE+SB/111.5 002 =WA_AE+SB/112.5 003 =WA_AE+SB/111.5 003 =WA_AE+SB/112.5 004 =WA_AE+SB/111.5 004 =WA_AE+SB/112.5 SF -SF101.2 Multi-line BN;;BU;BK;WH =WA_AE+SB/111.5 BN;;BU;BK =WA_AE+SB/111.7 BN;;BU;BK;WH =WA_AE+SB/112.5 -SF101.3 Multi-line BN;;BU;BK;WH =WA_AE+SB/111.5 BN;;BU;BK =WA_AE+SB/111.7 BN;;BU;BK;WH =WA_AE+SB/112.5 -SF101.4 Multi-line BN;WH;BU;BK =WA_AE+SB/111.5 BN;WH;BU;BK =WA_AE+SB/112.5 SPLITBOX -SPLITBOX1 Multi-line =WA_AE+SB/111.2 -SPLITBOX2 Multi-line =WA_AE+SB/112.2 VD -VD101.1 Multi-line 2;1 =WA_AE+SB/111.5 2;1 =WA_AE+SB/111.7 2;1 =WA_AE+SB/112.5 XS/XP -XS/XP101 Multi-line =WA_AE+SB/111.2 =WA_AE+SB/112.2 19 =WA_AE+SB/111.2 6 =WA_AE+SB/111.2 5 =WA_AE+SB/111.2 16 =WA_AE+SB/111.2 3 =WA_AE+SB/111.2 15 =WA_AE+SB/111.2 17 =WA_AE+SB/111.2 9 =WA_AE+SB/111.2 7 =WA_AE+SB/111.2 14 =WA_AE+SB/111.2 2 =WA_AE+SB/111.2 13 =WA_AE+SB/111.2 19 =WA_AE+SB/112.2 6 =WA_AE+SB/112.2 5 =WA_AE+SB/112.2 16 =WA_AE+SB/112.2 3 =WA_AE+SB/112.2 15 =WA_AE+SB/112.2 17 =WA_AE+SB/112.2 9 =WA_AE+SB/112.2 7 =WA_AE+SB/112.2 14 =WA_AE+SB/112.2 2 =WA_AE+SB/112.2 13 =WA_AE+SB/112.2 -XS/XP101.1 Multi-line =WA_AE+SB/111.4 =WA_AE+SB/111.6 1 =WA_AE+SB/111.4 1 =WA_AE+SB/111.6 2 =WA_AE+SB/111.4 2 =WA_AE+SB/111.6 3 =WA_AE+SB/111.43 =WA_AE+SB/111.6 4 =WA_AE+SB/111.4 4 =WA_AE+SB/111.6 5 =WA_AE+SB/111.4 5 =WA_AE+SB/111.6 -XS/XP101.2 Multi-line =WA_AE+SB/111.4 =WA_AE+SB/111.6 1 =WA_AE+SB/111.4 1 =WA_AE+SB/112.4 1 =WA_AE+SB/111.6 2 =WA_AE+SB/111.4 2 =WA_AE+SB/112.4 2 =WA_AE+SB/111.6 3 =WA_AE+SB/111.4 3 =WA_AE+SB/112.4 3 =WA_AE+SB/111.6 4 =WA_AE+SB/111.4 4 =WA_AE+SB/112.4 4 =WA_AE+SB/111.6 5 =WA_AE+SB/111.4 5 =WA_AE+SB/112.4 5 =WA_AE+SB/111.6 -XS/XP101.3 Multi-line =WA_AE+SB/111.4 =WA_AE+SB/111.6 1 =WA_AE+SB/111.4 1 =WA_AE+SB/112.4 1 =WA_AE+SB/111.6 2 =WA_AE+SB/111.4 2 =WA_AE+SB/112.4 2 =WA_AE+SB/111.6 3 =WA_AE+SB/111.4 3 =WA_AE+SB/112.4 3 =WA_AE+SB/111.6 4 =WA_AE+SB/111.4 4 =WA_AE+SB/112.4 4 =WA_AE+SB/111.6 5 =WA_AE+SB/111.4 5 =WA_AE+SB/112.4 5 =WA_AE+SB/111.6 -XS/XP101.4 Multi-line =WA_AE+SB/111.4 1 =WA_AE+SB/111.4 1 =WA_AE+SB/112.4 2 =WA_AE+SB/111.4 2 =WA_AE+SB/112.4 3 =WA_AE+SB/111.4 3 =WA_AE+SB/112.4 4 =WA_AE+SB/111.4 4 =WA_AE+SB/112.4 5 =WA_AE+SB/111.4 5 =WA_AE+SB/112.4 -XS/XP101.5 Multi-line =WA_AE+SB/111.4 1 =WA_AE+SB/111.4 1 =WA_AE+SB/112.4 2 =WA_AE+SB/111.4 2 =WA_AE+SB/112.4 3 =WA_AE+SB/111.4 3 =WA_AE+SB/112.4 4 =WA_AE+SB/111.4 4 =WA_AE+SB/112.4 5 =WA_AE+SB/111.4 5 =WA_AE+SB/112.4 -XS/XP101.6 Multi-line =WA_AE+SB/111.4 1 =WA_AE+SB/111.4 1 =WA_AE+SB/112.4 2 =WA_AE+SB/111.4 2 =WA_AE+SB/112.4 3 =WA_AE+SB/111.4 3 =WA_AE+SB/112.4 4 =WA_AE+SB/111.4 4 =WA_AE+SB/112.4 5 =WA_AE+SB/111.4 5 =WA_AE+SB/112.4 +SWC.SG (empty) -686 Multi-line =WA_AE+SWC/110.2 -687 Multi-line =WA_AE+SWC/110.2 -698 Multi-line =WA_AE+SWC/110.2 -703 Multi-line =WA_AE+SWC/110.2 -704 Multi-line =WA_AE+SWC/110.2 -705 Multi-line =WA_AE+SWC/110.2 -706 Multi-line =WA_AE+SWC/110.2 -709 Multi-line =WA_AE+SWC/110.2 -830 Multi-line =WA_AE+SWC/110.2 -831 Multi-line =WA_AE+SWC/110.2 X -X1 -X1 Multi-line 6 =WA_AE+SWC/110.1 7 =WA_AE+SWC/110.1 9 =WA_AE+SWC/110.1 10 =WA_AE+SWC/110.1 -X2 -X2 Multi-line 8 =WA_AE+SWC/110.1 9 =WA_AE+SWC/110.1 10 =WA_AE+SWC/110.1 =WA +S PV -PV1 Multi-line =WA+S/113.4 001 =WA+S/113.4 002 =WA+S/113.4 004 =WA+S/113.4 SF -SF101 Multi-line BN;WH;BK =WA+S/113.4 U -U1 Multi-line =WA+S/113.4 VD -VD101 Multi-line 2;1 =WA+S/113.4 XS/XP -XS/XP8.3 Multi-line =WA+S/113.2 7 =WA+S/113.2 13 =WA+S/113.2 14 =WA+S/113.2 1 =WA+S/113.2 4 =WA+S/113.2 8 =WA+S/113.2 9 =WA+S/113.2 10 =WA+S/113.2 11 =WA+S/113.2 12 =WA+S/113.2 =SC +IO.RG W -W21 Multi-line =SWCAE+RG/108.3 =X3C +B X -X1 Multi-line 5 =SWC+B/106.8 3 =SWC+B/106.8 4 =SWC+B/106.83HAC026209-001 R1.CP/CS/CBUS WATER AND AIR UNIT XS/XP101 ROBOT SIGNALS, 24VDC SUPPLY WELD POWER WELDING SIGNALS, 24VDC SUPPLY 24VDC SUPPLY, PARALLEL INTERFACE, PROP. VALVE X104 X101 XP/XS13 XP/XS103 11 5/ 23 0V AC C AN BU S IN TE R FA C E SPOT WELDING CABINET SINGLE CABINET CONTROLLER XP/XS113 24 VD C S U PP LY , W EL D IN G S IG N AL S R S2 32 /R S4 85 PEDESTAL GUN Axis 1 R3.CP/CS Axis 5 Axis 6 SG.WELD SG.CP/CS Axis 2 Axis 4 R2.CP/CS Axis 3 Base Prepared by, date: 54 W e re se rv e al l r ig ht s in th is d oc um en t a nd in th e in fo rm at io n co nt ai ne d th er ei n. R ep ro du ct io n, u se o r di sc lo su re to th ird p ar tie s w ith ou t e xp re ss a ut ho rit y is s tri ct ly fo rb id de n. © C op yr ig ht 2 00 3 AB B 2008-07-03 Page 53 26TotalSPOT PACK Latest revision: Approved by, date: BLOCK DIAGRAM TYPE Se Location: Plant: = + +Sublocation: SP Se Document no. Next Rev. Ind Lab/Office: Status:SWC IRC5 M2004 1 2 73 4 5 6 8 06 LCM 500000041477 3HAC026208-001 APPROVED PERA, 2010-08-31 GUED, 2010-08-31 Rev. 06 REGION A BLOCK DIAGRAM TYPE Se (servo gun) IRBDP SW2 Single cabinet controller, IRC5: See circuit diagram, 3HAC024480-004. Dashed cables: See circuit diagram DressPack, 3HAC026209-001 SPOT WELDING CABINET SINGLE CABINET CONTROLLER XP/XS113 24 VD C S U PP LY , W EL D IN G S IG N AL S R S2 32 /R S4 85 Servo gun ( axis 7 ) M R3.CP/CS R3.WELD Axis 6 Axis 1 Axis 5 Axis 2 Axis 4 Axis 3 Base R2.CP/CS R2.WELD R1.WELD R1.CP/CS/CBUS R1.SP WATER AND AIR UNIT XS/XP101 24VDC SUPPLY, PARALLEL INTERFACE WELD POWER ROBOT SIGNALS, 24VDC SUPPLY SERVO GUN POWER XP/XS103 XP/XS7 X101 XP/XS13 11 5/ 23 0V AC C AN BU S IN TE R FA C E Prepared by, date: +HSe/55 W e re se rv e al l r ig ht s in th is d oc um en t a nd in th e in fo rm at io n co nt ai ne d th er ei n. R ep ro du ct io n, u se o r di sc lo su re to th ird p ar tie s w ith ou t e xp re ss a ut ho rit y is s tri ct ly fo rb id de n. © C op yr ig ht 2 00 3 AB B 2008-07-03 Page 54 26TotalSPOT PACK Latest revision: Approved by, date: BLOCK DIAGRAM TYPE Se - IRBDP SW5 Location: Plant: = + +Sublocation: SP Se Document no. Next Rev. Ind Lab/Office: Status:SWC IRC5 M2004 1 2 73 4 5 6 8 06 LCM 500000041477 3HAC026208-001 APPROVED PERA, 2010-08-31 GUED, 2010-08-31 Rev. 06 REGION E BLOCK DIAGRAM TYPE Se (servo gun) IRBDP SW5 Single cabinet controller, IRC5: See circuit diagram, 3HAC024480-004. Dashed cables: See circuit diagram DressPack, 3HAC026209-001 3H AC 02 94 44 -0 01 C AN BU S IN TE R FA C E 3H AC 02 94 46 -0 01 2 4V D C S U PP LY , W EL D IN G S IG N AL S SPOT WELDING CABINET SINGLE CABINET CONTROLLER 3H AC 02 94 86 -0 01 R S2 32 /R S4 85 Servo gun ( axis 7 ) M R3.CP/CS R3.WELD Axis 6 Axis 1 Axis 5 Axis 2 Axis 4 Axis 3 Base R2.CP/CS R2.WELD CONNECTION BOX R1.SP R1.WELD R1.CB R1.CB R1.CB WATER AND AIR UNIT SERVO GUN POWER CUSTOMER POWER CUSTOMER SIGNAL WELD POWER SWC.WELD XP/XS7 SWC.24V SWC.I/O Prepared by, date: +CAB/56 W e re se rv e al l r ig ht s in th is d oc um en t a nd in th e in fo rm at io n co nt ai ne d th er ei n. R ep ro du ct io n, u se o r di sc lo su re to th ird p ar tie s w ith ou t e xp re ss a ut ho rit y is s tri ct ly fo rb id de n. © C op yr ig ht 2 00 3 AB B 2008-07-03 Page 55 26TotalSPOT PACK Latest revision: Approved by, date: BLOCK DIAGRAM TYPE HSe Location: Plant: = + +Sublocation: SP HSe Document no. Next Rev. Ind Lab/Office: Status:SWC IRC5 M2004 1 2 73 4 5 6 8 06 LCM 500000041477 3HAC026208-001 APPROVED PERA, 2010-08-31 GUED, 2010-08-31 Rev. 06 REGION A BLOCK DIAGRAM TYPE HSe (material handling and servo gun) IRBDP SW2 Single cabinet controller, IRC5: See circuit diagram, 3HAC024480-004. Dashed cables: See circuit diagram DressPack, 3HAC026209-001 Base R2.CP/CS R2.WELD R1.CP/CS/CBUS R 3. FB 7 WATER AND AIR UNIT XS/XP101 WELDING SIGNALS, 24VDC SUPPLY ROBOT SIGNALS, 24VDC SUPPLY POWER SERVOGUN WELD POWER 24VDC SUPPLY, PARALLEL INTERFACE, PROP. VALVEXP/XS103 M X101 Servo gun XP/XS13 ( axis 7 ) XP/XS7 X104 11 5/ 23 0V AC C AN BU S IN TE R FA C E SPOT WELDING CABINET SINGLE CABINET CONTROLLER XP/XS113 24 VD C S U PP LY , W EL D IN G S IG N AL S R S2 32 /R S4 85 PEDESTAL GUN FB.M7 R1.SP Axis 1 Axis 5 Axis 6 SG.WELD SG.CP/CS R3.CP/CS R3.WELD Axis 2 Axis 4 Axis 3 RESOLVER/SMB SIGNALS Prepared by, date: +CON/57 W e re se rv e al l r ig ht s in th is d oc um en t a nd in th e in fo rm at io n co nt ai ne d th er ei n. R ep ro du ct io n, u se o r di sc lo su re to th ird p ar tie s w ith ou t e xp re ss a ut ho rit y is s tri ct ly fo rb id de n. © C op yr ig ht 2 00 3 AB B 2008-07-03 Page 56 26TotalSPOT PACK Latest revision: Approved by, date: VIEW SPOT WELDING CABINET - STANDARD Location: Plant: = + +Sublocation: SP CAB Document no. Next Rev. Ind Lab/Office: Status:SWC IRC5 M2004 1 2 73 4 5 6 8 06 LCM 500000041477 3HAC026208-001 APPROVED PERA, 2010-08-31 GUED, 2010-08-31 Rev. 06 REGION A REGION E 1 A 2 4 XT6.2 LEFT A-A XP113 XS103 4 K103 MS101 LIN E LO AD XP113 XT5.4 A1 (+ ) LIN E A2 (-) LO AD MED LEFT L1 XT5.6 XT5.5 T13 3 U 4 U 2D X104 QC101 VE101 FZ101 X101 CONNECTION PLATE FU100 QB101 XP/XS100 REGION A B 1 DOOR B 1 LIN E LO AD TOPP B-B XT6.1 XT101 REGION E QI101 (MFDC) QI101 (AC) K101 XT6.1 XT101 Front side Back side K102 4 5 LIN E 6 LO AD LIN E LO AD FRONT L1 T1 33 2 XT5.4 K101 A1 (+ ) A2 (-) BACK U DL1 T1 XT5.5 XS105 XT5.6 LIN E XS105 LO AD A 1 X104 2 XS103 CONNECTION PLATE A1 (+ ) A2 (-) Prepared by, date: +CAB/58 W e re se rv e al l r ig ht s in th is d oc um en t a nd in th e in fo rm at io n co nt ai ne d th er ei n. R ep ro du ct io n, u se o r di sc lo su re to th ird p ar tie s w ith ou t e xp re ss a ut ho rit y is s tri ct ly fo rb id de n. © C op yr ig ht 2 00 3 AB B 2008-07-03 Page 57 26TotalSPOT PACK Latest revision: Approved by, date: CONNECTOR LAYOUT - IRBDP SW5 Location: Plant: = + +Sublocation: SP CON Document no. Next Rev. Ind Lab/Office: Status:SWC IRC5 M2004 1 2 73 4 5 6 8 06 LCM 500000041477 3HAC026208-001 APPROVED PERA, 2010-08-31 GUED, 2010-08-31 Rev. 06 REGION E BLOCK DIAGRAM TYPE S 3HAC029396-001 3HAC029396-001 XP5.3 XT5.3 XS8.1 XT5.2 3HAC029470-001 3HAC029470-001 XS8.3XS8.1 XP5.1 XS8.2 XS8.3 XT5.1 3HAC029393-001 3HAC029393-001 3HAC029393-001 3HAC029393-001 XP5.2 Prepared by, date: =SWCA+P.24V/100 W e re se rv e al l r ig ht s in th is d oc um en t a nd in th e in fo rm at io n co nt ai ne d th er ei n. R ep ro du ct io n, u se o r di sc lo su re to th ird p ar tie s w ith ou t e xp re ss a ut ho rit y is s tri ct ly fo rb id de n. © C op yr ig ht 2 00 3 AB B 2008-07-03 Page 58 26TotalSPOT PACK Latest revision: Approved by, date: VIEW SPOT WELDING CABINET Location: Plant: = + +Sublocation: SP CAB Document no. Next Rev. Ind Lab/Office: Status:SWC IRC5 M2004 1 2 73 4 5 6 8 06 LCM 500000041477 3HAC026208-001 APPROVED PERA, 2010-08-31 GUED, 2010-08-31 Rev. 06 REGION A REGION E FU100 2 8 A BACK A B CONNECTION PLATE B CABLE INLET A C X3C C RIGHT C-CFRONTTOP B-BLEFT A-A 74 61 3 4 DOOR 5 LEFT X101 3 51 62 CABLE INLET 10 QB101 XT101 Back side XT5.1 Front side XT5.2 XT5.3 VE101 9 CONNECTION PLATE I/O BOARD 1 MED XS/XP100 Prepared by, date: =SWCE/101W e re se rv e al l r ig ht s in th is d oc um en t a nd in th e in fo rm at io n co nt ai ne d th er ei n. R ep ro du ct io n, u se o r di sc lo su re to th ird p ar tie s w ith ou t e xp re ss a ut ho rit y is s tri ct ly fo rb id de n. © C op yr ig ht 2 00 3 AB B 2008-07-02 Page 100 26TotalPOWER SUPPLY, 24VDC, 115/230VAC Latest revision: Approved by, date: BOSCH AC/MFDC Location: Plant: = + +Sublocation: SWCA P 24V Document no. Next Rev. Ind Lab/Office: Status:SWC IRC5 M2004 1 2 73 4 5 6 8 06 LCM 500000041477 3HAC026208-001 APPROVED PERA, 2010-08-31 GUED, 2010-08-31 Rev. 06 REGION A SINGLE CABINET SPOT WELDING CABINET +24VDC 0VDC FAN UNIT SE E PA G E 10 5, 1 06 o r 1 07 BO SC H A C /M FD C - SI G N AL O R M ED AR A C - SI G N AL O R M ED AR M FD C - SI G N AL 115/230VAC 0VAC 0,75 0,75 0,75 0,75 X1 04 SE E PA G E 11 1 PE D ES TA L G U N (P G ) X1 04 SE E PA G E 11 3 W AT ER A N D AI R U N IT -S W C SEE PAGE 109, 111 and 113 ROBOT GUN (RG) PEDESTAL GUN (PG) WATER AND AIR UNIT-SWC -1 01 1 AW G 18 -1 01 3 AW G 18 -1 01 4 AW G 18 -1 02 5 AW G 16 -1 02 6 AW G 16-1 02 7 AW G 16 -1029 AWG16 -1030 AWG16 -1 06 7 AW G 18 -1 06 8 AW G 18 -1 06 9 AW G 18 -1 07 0 AW G 18 -1 07 1 AW G 20 -1 07 2 AW G 20 -1 07 3 AW G 20 -1 07 4 AW G 20 -1075 AWG16 -1076 AWG16 -1077 AWG18 -1078 AWG18 -1079 AWG16 -1082 AWG18 -1083 AWG18 -1084 AWG18 -1 08 5 AW G 18 -1 08 6A W G 16 -1090 AWG18 -1091 AWG18 -1092 AWG16 -1093 AWG18 -1 09 4A W G 18 -1 09 5 AW G 18 -1 09 6 AW G 18 -1097 AWG20 -1 09 8A W G 20 -1099 AWG18 -1100 AWG18 2 -F5 OPTION: SERVICE OUTLET .6 OPTION: 790-1 -FZ101 -K 10 1 O PT IO N 7 90 -1 -K 10 2 13 14 -M S1 01 OPTION: 873 TIP DRESSER C1 C2-Q B1 01 1114 .6 21 24 .1 14 11 -Q B1 01 .8 21 24 -Q B1 01 .8 A1 A2-Q C 10 1 1211 .3 13 14 .4 11 12 -Q C 10 1 OPTION: MEDAR AC/MFDC 13 14 -Q C 10 1 OPTION: BOSCH AC/MFDC CP/CS 35 POWER 3 AWG16 GNYE AWG16 AWG21 2 2A 6 2A 8 -XS/XP61 -XS/XP113 124 3 -XT101 -XT5.4-XT5.5-XT5.6 -XT6.1 3 -F4 OPTION: SERVICE OUTLET 2 N(0) -F5 2 6 -XT31 2 1 A1(3+) A2(-4) 5 9A1(-) A2(+) A1 A2 13 14 -K 10 3 O PT IO N 8 73 1 3 -XS100 OPTION: 788-1 1 2 12 11 A1 A2 A11 A12 PEA4B1 B2 B12 B11A3 111 12311 4 5 67 21 21 2 1 2 3 4 5 2A 7 2A 5 OG O G O G OG OG OG OG 1,BK 2,BK OG OG 1, BK 2, BK GNYE OG O G O G OG O G OG OG O G 7:WH6:WH 5:WH4:WH9:WHRD 9:RD 10:YE 10:WHYE O G O G O GO G O G OG OG OG OG O G OG O G OG O G O G O G +. -1 03 3 / VE 10 1 +. -1 03 4 / +. -1 03 7 / +. -1 03 2 / +. -1 03 1 / +. -1 03 5 / +. -1 03 6 / +. -1 04 3 / XS /X P1 03 +. -1 04 4 / +. -1 05 3 / Prepared by, date: =SWC/102 W e re se rv e al l r ig ht s in th is d oc um en t a nd in th e in fo rm at io n co nt ai ne d th er ei n. R ep ro du ct io n, u se o r di sc lo su re to th ird p ar tie s w ith ou t e xp re ss a ut ho rit y is s tri ct ly fo rb id de n. © C op yr ig ht 2 00 3 AB B 2008-07-02 Page 101 26TotalPOWER SUPPLY, 24VDC, 115/230VAC Latest revision: Approved by, date: BOSCH AC/MFDC Location: Plant: = + +Sublocation: SWCE P 24V Document no. Next Rev. Ind Lab/Office: Status:SWC IRC5 M2004 1 2 73 4 5 6 8 06 LCM 500000041477 3HAC026208-001 APPROVED PERA, 2010-08-31 GUED, 2010-08-31 Rev. 06 REGION E SINGLE CABINET SPOT WELDING CABINET 0,75 X1 04 +24VDC SE E PA G E 11 1 PE D ES TA L G U N (P G ) X1 04 0,75 0,75 0VDC SE E PA G E 11 3 W AT ER A N D AI R U N IT -S W C 0,75 FAN UNIT SE E PA G E 10 5, 1 06 o r 1 07 BO SC H A C /M FD C - SI G N AL O R M ED AR A C - SI G N AL O R M ED AR M FD C - SI G N AL 115/230VAC 0VAC SEE PAGE 109, 111 and 113 ROBOT GUN (RG) PEDESTAL GUN (PG) WATER AND AIR UNIT-SWC -1 01 1 AW G 18 -1 01 3 AW G 18 -1 01 4 AW G 18 -1 02 5 AW G 16 -1 02 6 AW G 16 -1 02 7 AW G 16 -1 02 8 AW G 16 -1029 AWG16 -1030 AWG16 -1 06 7 AW G 18 -1 06 8 AW G 18 -1 06 9 AW G 18 -1 07 0 AW G 18 -1 07 1 AW G 20 -1 07 2 AW G 20 -1 07 3 AW G 20 -1 07 4 AW G 20 -1075 AWG16 -1076 AWG16-1077 AWG18 -1 07 8 AW G 18 -1079 AWG18 -1080 AWG18 -1081 AWG18 -1082 AWG18 -1083AWG18 -1084 AWG18 -1 08 5 AW G 18 -1 08 6 AW G 18 -1090 AWG18 -1091 AWG18 -1 09 4A W G 18 -1 09 5 AW G 18 -1 09 6 AW G 18 -1097 AWG20 OPTION: 873 TIP DRESSER -1 09 8A W G 18 -1099 AWG18 -1100 AWG18 2 -F5 OPTION: SERVICE OUTLET .6 OPTION: 790-1 -FZ101 -K 10 1 O PT IO N 7 90 -1 -K 10 3 O PT IO N 8 73 13 14 -M S1 01 C1 C2-Q B1 01 1114 .7 23 24 .1 14 11 -Q B1 01 .3 23 24 -Q B1 01 .3 A1 A2-Q C 10 1 1211 .4 13 14 .4 11 12 -Q C 10 1 OPTION: MEDAR AC/MFDC 13 14 -Q C 10 1 OPTION: BOSCH AC/MFDC CP/CS 35 POWER 3 AWG16 GNYE AWG16 AWG21 2 -XS/XP61 -XS/XP113 1234 -XT101 -XT5.4-XT5.5-XT5.6 -XT6.1-XT6.2 3 -F4 OPTION: SERVICE OUTLET 2 N(0) -F5 13 14 2 1 A1(3+) A2(-4) A1 A2 1 3 -XS100 OPTION: 788-1 2 12 111 A3 A4A1 A2 A11 A12 PEB1 B2 B12 B11 111 123 4 5 67 21 2 111 2 1 2 3 421 3 4 2 6 -XT31 2A 8 2A 7 2A 6 2A 5 6,WH 4,WH 7,WH 5,WH9:WHRD 9:RD 10:YE 10:WHYE O G O G OG O G O G O G O G O G O G O G O G O G O G OG OG OG OG OG OG 1,BK 2,BK OG OG 1, BK 2, BK GNYE OG O G OG O G OG O G OG O G O G O G O G O G OG OG O G O G OG +. -1 04 3 / XS /X P1 03 +. -1 04 4 / +. -1 03 3 / VE 10 1 +. -1 03 4 / +. -1 03 7 / +. -1 03 2 / +. -1 03 1 / +. -1 03 5 / +. -1 03 6 / +. -1 05 3 / Prepared by, date: +.B/103 W e re se rv e al l r ig ht s in th is d oc um en t a nd in th e in fo rm at io n co nt ai ne d th er ei n. R ep ro du ct io n, u se o r di sc lo su re to th ird p ar tie s w ith ou t e xp re ss a ut ho rit y is s tri ct ly fo rb id de n. © C op yr ig ht 2 00 3 AB B 2008-07-02 Page 102 26TotalPOWER SUPPLY, 24VDC Latest revision: Approved by, date: COMPACT BOSCH AC Location: Plant: = + +Sublocation: SWC P 24V Document no. Next Rev. Ind Lab/Office: Status:SWC IRC5 M2004 1 2 73 4 5 6 8 06 LCM 500000041477 3HAC026208-001 APPROVED PERA, 2010-08-31 GUED, 2010-08-31 Rev. 06 REGION E SINGLE CABINET SPOT WELDING CABINET CONNECTION BOX 0V FAN UNIT 24V 24V 0V 24V0V0V 24V 24V 0V 24V 0V 0V 24V 3HAC029446-001 0V 0V 0V 24V -8 30 AW G 18 -8 31 AW G 18 -1001 AWG18 -1002 AWG18 -1 01 3 AW G 18 -1 01 4 AW G 18 -1 02 5 AW G 18 -1 02 6 AW G 18 -1 03 1 AW G 18 -1 03 2 AW G 18 -3HAC15620-1 AWG18 -3HAC15620-1 AWG18 -831 AWG18 -830 AWG18 -830 AWG18 -830 AWG18 -AWG21 -I/OB1 X1 .2 .3 .4 -I/OB1 X3 .2 .3 .4 -I/OB1 X4 .2 .2 .4 -I/OB1 X2 .2 .2 .3 3433 -K42 3433 -K43 -XS/XP8.1 -XS/XP8.3 -XT31 -XT/XP5.3 9 10 9 10 9 10 9 10 -X1S1 TIMER BOSCH 3 4 12 -X1S2 TIMER BOSCH 3 1 -XS100 OPTION: 788-1 26 1 2 1 4 1 212 3 4 5 6 124 310 9 -XT101 2A 6 2A 8 2A 7 2A 5 =SWCE-832 AWG18 2BK4BK 3BK 1BK O G O G O G O G O G O G BU BU 1BK 2BK 3BK 4BK O G O G OG OG OG OG OG 2 1 Prepared by, date: 104 W e re se rv e al l r ig ht s in th is d oc um en t a nd in th e in fo rm at io n co nt ai ne d th er ei n. R ep ro du ct io n, u se o r di sc lo su re to th ird p ar tie s w ith ou t e xp re ss a ut ho rit y is s tri ct ly fo rb id de n. © C op yr ig ht 2 00 3 AB B 2008-07-02 Page 103 26TotalPOWER - WELD TIMER PHASES Latest revision: Approved by, date: BOSCH AC/MFDC Location: Plant: = + +Sublocation:SWC P B Document no. Next Rev. Ind Lab/Office: Status:SWC IRC5 M2004 1 2 73 4 5 6 8 06 LCM 500000041477 3HAC026208-001 APPROVED PERA, 2010-08-31 GUED, 2010-08-31 Rev. 06 REGION A & E Incomming phases (Customer) SPOT WELDING CABINET EARTH FAULT PROTECTION ALT 1) BOSCH AC Outgoing phases Incomming phases (Customer) SPOT WELDING CABINET EARTH FAULT PROTECTION ALT 2) BOSCH MFDC Outgoing phases (10) (10) (10) (10) (10) (10) =- U 1B AW G 4 AW G 16 -1101AWG16 -1101AWG16 -1102AWG16 -1102AWG16 -1103AWG16 -1103AWG16 -1 10 4 AW G 16 -1 10 4 AW G 16 -1 10 5 AW G 16 -1 10 5 AW G 16 -1 10 6 AW G 16 -1 10 6 AW G 16 -1 10 7 AW G 16 -1 10 7 AW G 16 -1 10 8 AW G 16 -1 10 8 AW G 16 -1 10 8 AW G 16 -1 10 9 AW G 16 2T1 1L1 -K103 OPTION 873 4T2 3L2 2T1 1L1 -K103 OPTION 873 4T2 3L2 U1 V1 W1 PE OPTION 807-1 TIP DRESSER 3~ M U1 V1 W1 PE OPTION 807-1 TIP DRESSER 3~ M 1 2 3 4 5 6 -MS101 OPTION 873 I> I>I> 1 2 3 4 5 6 -MS101 OPTION 873 I> I>I> -P E AW G 4 -P E AW G 4 -P E AW G 4 -P E AW G 4 1 2 3 4 5 6 -QB101 I> I>I> 1 2 3 4 5 6 -QB101 I> I>I> 2T1 1L1 -QC101 OPTION 790-1 4T2 3L2 6T3 5L3 6T3 5L3 6T3 5L3 2T1 1L1 -QC101 OPTION 790-1 4T2 3L2 6T3 5L3 1 1 2 2 3 3 N N -QI101 1 1 2 2 3 3 N N -QI101 -R D -R D -R D -R D -R D -R D -R D -R D -U 1A AW G 1 -U 1A AW G 4 -U 1B AW G 1 -V 1A AW G 1 -V 1A AW G 4 -V 1B AW G 1 -V 1B AW G 4 -W 1A AW G 4 PE V U -X101 PE V U -X101 -XS/XP105 OPTION 873 -XS/XP105 OPTION 873 L1 L2 L3 PE L1 L2 L3 PE U1 V1 W1 U2 V2 PE -VE101 BOSCH MFDC U1 V1 PE U2 V2 -VE101 BOSCH AC 1 2 3 PE 1 2 3 PE BK BK BK BK BK BK BK G N YE G N YE BK BK BK BK BK BK G N YE G N YE BK BK BK BK BK BK BK BK BK G N YE GNYE1 2 3 GNYE1 2 3 BK BK BK BK BK BK BK BK BK Prepared by, date: =SWCAE+B./105 W e re se rv e al l r ig ht s in th is d oc um en t a nd in th e in fo rm at io n co nt ai ne d th er ei n. R ep ro du ct io n, u se o r di sc lo su re to th ird p ar tie s w ith ou t e xp re ss a ut ho rit y is s tri ct ly fo rb id de n. © C op yr ig ht 2 00 3 AB B 2008-07-02 Page 104 26TotalPOWER - WELD TIMER PHASES Latest revision: Approved by, date: COMPACT BOSCH AC Location: Plant: = + +Sublocation: SWC P B Document no. Next Rev. Ind Lab/Office: Status:SWC IRC5 M2004 1 2 73 4 5 6 8 06 LCM 500000041477 3HAC026208-001 APPROVED PERA, 2010-08-31 GUED, 2010-08-31 Rev. 06 REGION E Incomming phases (Customer) SPOT WELDING CABINET ALT 3) BOSCH COMPACT Outgoing phases 3H AC 02 51 66 -0 01 3HAC029395-001 3HAC029392-001 -3HAC3730-1-3HAC17137-1 -P E AW G 4 1 2 3 4 5 6 -QB101 I> I>I> 1 2 3 -R2.WELD PE V U -R3.WELD -U 1A AW G 1 -U 1B -V 1A AW G 1 -V 1B -X101 L1 L2 L3 PE -VE101 BOSCH COMPACT BK 1B K BK 2B K G N YE 1BK 2BK GNYE GNYE 2BK 1BK Prepared by, date: =SWC/106 W e re se rv e al l r ig ht s in th is d oc um en t a nd in th e in fo rm at io n co nt ai ne d th er ei n. R ep ro du ct io n, u se o r di sc lo su re to th ird p ar tie s w ith ou t e xp re ss a ut ho rit y is s tri ct ly fo rb id de n. © C op yr ig ht 2 00 3 AB B 2008-07-02 Page 105 26TotalSIGNAL Latest revision: Approved by, date: BOSCH AC/MFDC Location: Plant: = + +Sublocation: SWCAE B Document no. Next Rev. Ind Lab/Office: Status:SWC IRC5 M2004 1 2 73 4 5 6 8 06 LCM 500000041477 3HAC026208-001 APPROVED PERA, 2010-08-31 GUED, 2010-08-31 Rev. 06 REGION A & E BOSCH AC/MFDC SINGLE CABINET SPOT WELDING CABINET DEVICE NET KSR SEE PAGE: 100 or 101 POWER SUPPLY SEE PAGE: 109 or 111 RG or SG SH IE LD 24 V 0V C AN _H C AN _L V- R EG V- R EG KS R KS R R x- Tx - Tx + R x+ 0V OPTION: 796-1 EPV -1 03 1 AW G 18 -1 03 2 -1 03 3 -1 03 4 -1 03 5 -1036 -1 03 7 AW G 18 -1038 AWG18 -1039 -1 04 0 AW G 18 -1041 -1042-1087 AWG18 AWG26 8 -3HAB8277 5 AWG20 AWG24 2 AWG24 2 -A 35 .X 2 -A 39 .X 1 AWG18 AWG18 AWG16 -X S/ XP 10 3 F1 F2 F3 F4 F5 F6 F7 F8 F9 F10 F11 F12-X S/ XP 11 3 1 2 3 4 5 6 7 8 9 10 11 12-X T5 .4 41 253 X4 -6 X4 -7 X8 -3 X4 -3 X8 -2 X2 -4 X4 -1 X1 0- 1 X2 -2 X3 -1 X3 -2 X3 -3 X4 -2 X1 0- 2 X4 -9 X4 -1 0 X4 -1 1 X4 -1 2 X3 -4 X3 -5 X2 -1 X2 -5 -VE101 =S W C AE +B -X 13 24153 8 +.AC-3HAB8277 5 CP/CS 35 AWG24 +. AC -X P6 0 23 24 21 22 1 3 2 9 5 RD BK2/RD 2/BK 1/WH 1/BU 1: BU 1: W H BU 2: O G 2: W H O G 3: G N 3: W H G N BUOG OG OGOG OG O G O G O G OG O G O G O G O G RD BK 2/ R D 2/ BK 1/ W H 1/ BU 5: W H YE 5: YE 4: W H O G 4: O G OG OG GNYE Prepared by, date: +S.B/107 W e re se rv e al l r ig ht s in th is d oc um en t a nd in th e in fo rm at io n co nt ai ne d th er ei n. R ep ro du ct io n, u se o r di sc lo su re to th ird p ar tie s w ith ou t e xp re ss a ut ho rit y is s tri ct ly fo rb id de n. © C op yr ig ht 2 00 3 AB B 2008-07-02 Page 106 26TotalTIMER SIGNAL Latest revision: Approved by, date: COMPACT BOSCH AC Location: Plant: = + +Sublocation: SWC B Document no. Next Rev. Ind Lab/Office: Status:SWC IRC5 M2004 1 2 73 4 5 6 8 06 LCM 500000041477 3HAC026208-001 APPROVED PERA, 2010-08-31 GUED, 2010-08-31 Rev. 06 REGION E BOSCH COMPACT SINGLE CABINET SPOT WELDING CABINET SH IE LD 24 V 0V DEVICE NET C AN _H C AN _L DEVICE NET R x- /T x- R x- /T x- R x+ /T x+ R x+ /T x+ 0V 3HAC029444-001 3HAC029486-001 0...10V0VGND SEE PAGE I/O SIGNALS SEE PAGE I/O SIGNALS -3HAB8277-1 -3HAB8277-1 -3HAC025999-001 AWG26 -3HAC025999-001 -A 35 .X 2 -A 39 .X 1 -XT/XP5.2 41 253 24153 -I/ O B1 X5 -I/ O B2 X5 -VE101 1 11 14 13 12 3 4 5 6 7 8 9 10 =SWC+B-X2I 11 9 10 5 7 8 =SWC+B-X2O =S W C +B -X 2U =S W C +B -X 3C 3 5 1 4 2 123 9 10 1 3 2 9 5 5 3 4 1: R D 1: BK 2: W H 2: BU 1: BU 1: W H BU 2: O G 2: W H O G 3: G N 3: W H G N Ba re w ire 1: R D 1: BK 2: W H 2: BU 1: W H BU 1: BU 2: W H O G 2: O G Prepared by, date: =SWCAE+RG./108 W e re se rv e al l r ig ht s in th is d oc um en t a nd in th e in fo rm at io n co nt ai ne d th er ei n. R ep ro du ct io n, u se o r di sc lo su re to th ird p ar tie s w ith ou t e xp re ss a ut ho rit y is s tri ct ly fo rb id de n. © C op yr ig ht 2 00 3 AB B 2008-07-02 Page 107 26TotalI/O SIGNALS Latest revision: Approved by, date: COMPACT BOSCH AC Location: Plant: = + +Sublocation: SWC S B Document no. Next Rev. Ind Lab/Office: Status:SWC IRC5 M2004 1 2 73 4 5 6 8 06 LCM 500000041477 3HAC026208-001 APPROVED PERA, 2010-08-31 GUED, 2010-08-31 Rev. 06 Region E start1 weld/no weld, ext fault reset ackn. tip dress ackn. tip change temp ok pressure ok prog sel 1 prog sel 2 prog sel 4 prog sel 8 prog sel 16 prog sel 32 Weld complete Timer ready Weld fault Tip dress req Prewarning tip change End of life tip change SPOT WELDING CABINET CONNECTION BOX SPARE SPARE gun_open hlift_open temp_ok SPARE equalize close_gun open_hlift close_hlift SPARE SPARE flow2_ok air_ok SPARE SPARE SPARE SPARE flow1_nok flow1_ok start_water pressure_ok Press. output GND Press. output (0..10V) See page: Customer signal - IRBDP SW5 See page: Water and air unit OPTION: WELD CONTACT FOR FUTURE TO CONTACTOR SPARE SPARE 3HAC029393-001 13 14 3 4 5 7 8 9 10 1 2 6 11 12 6 7 8 9 10 5 1 2 3 4 11 12 -3HAC2360-3 AWG24 -3HAC025999-1 -681 AWG20 -682 AWG20 -683 AWG20 -684 AWG20 -685 AWG20 -686 AWG20 -687 AWG20 -688 AWG20 -691 AWG20 -692 AWG20 -693 AWG20 -694 AWG20 -695 AWG20 -696 AWG20 -697 AWG20 -698 AWG20 -700AWG20 -701 AWG20 -702 AWG20 -703 AWG20 -704 AWG20 -705 AWG20 -706 AWG20 -707 AWG20 -707 AWG20 -709 AWG20 -709 AWG20 -710 AWG20 -711 AWG20 -712 AWG20 -713 AWG20 -714 AWG20 -I/OB1 X1 X2 X3 X4 -X2U TIMER BOSCH COMPACT -XS/XP8.1 -XS/XP8.2 -XS/XP8.3 -XT/XP5.2 -V101 1 11 14 13 12 5 6 7 8 9 10 3 4 X2I 11 9 10 5 8 7 X2O 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 123 1 2 3 4 5 6 7 8 1 2 3 4 5 6 11 12 13 14 1 2 3 4 5 6 7 8 9 10 11 12 13 14 7 8 9 10 11 12 13 14 -XT/XP5.1 OG OG OG OG OG OG OG OG OG OG OG OG OG OG OG OG OG OG OG OG OG OG OG OG OG OG OG OG OG OG OG OG 1:WHBU 1:BU 2:WH/OG 2:OG 3:WH/GN 3:GN 4:WH/BN 4:BN 5:WH/GY 5:GY 6:RD/BU 6:BU 7:RD/OG 7:OG 10:RD/GY 10:GY 11:BK/BU 11:BU 12:BK/OG 12:OG 8:RD/GN 8:GN 9:RD/BN 9:BN 13:BK/GN 13:GN 1:WHBU 1:BU 2:OG 2:WHOG Prepared by, date: +PG/109 W e re se rv e al l r ig ht s in th is d oc um en t a nd in th e in fo rm at io n co nt ai ne d th er ei n. R ep ro du ct io n, u se o r di sc lo su re to th ird p ar tie s w ith ou t e xp re ss a ut ho rit y is s tri ct ly fo rb id de n. © C op yr ig ht 2 00 3 AB B 2008-07-02 Page 108 26TotalROBOT GUN (RG) Latest revision: Approved by, date: BOSCH AC/MFDC Location: Plant: = + +Sublocation: SWCAE RG Document no. Next Rev. Ind Lab/Office: Status:SWC IRC5 M2004 1 2 73 4 5 6 8 06 LCM 500000041477 3HAC026208-001 APPROVED PERA, 2010-08-31 GUED, 2010-08-31 Rev. 06 REGION A & E 24V 24V 0V 0V KSR KSR VOLT REG. VOLT REG. g1_flow1_ok g1_flow2_ok g1_air_ok g1_start_water g1_pressure_ok g1_weld_power g1_weld_contact TIMER ON g1_open_hlift. Pneu/Spare g1_close_hlift. Pneu/Spare g1_close_gun. Pneu/Spare g1_gun_open. Pneu/Spare g1_hlift_open. Pneu/Spare g1_equalize. Servo/Pneu/Spare g1_temp_ok. Servo/Pneu KSR KSR VOLT REG. VOLT REG. IN 4 IN 5 IN 6 IN 7 IN 8 IN 9 IN 10 IN 11 0 VDC OUT 1 OUT 6 OUT 7 OUT 8 OUT 9 OUT 10 OUT 16 DSQC 328 SINGLE CABINET SPOT WELDING CABINET SE E C IR C U IT D IA G R AM 3 H A0 26 20 9- 00 1 C AB LE T O R 1. C P/ C S SE E PA G E: 1 05 , 1 06 Bo sc h AC /M FD C M ed ar A C SE E PA G E: 1 13 W AT ER A N D A IR U N IT - SW C 0 VDC 0 VDC 24 VDC 0 VDC 24 VDC BU BU BU BU 1:WHBU 1:BU 2:WHOG 2:OG 4 BU -1094 / -1096 / -1095 / AW G 16 2 1 2 -700AWG20 -701AWG20 -1003 AWG18 -1004 AWG18 -1005 AWG18 -1006 AWG18 -1007 AWG18 -1008 AWG18 -1009 AWG18 -1010 AWG18 -1011 AWG18 -1110AWG20 CP/CS 35 AWG24 -3HAC15654-1 -I/OBOARD1 DIGITAL I/O UNIT AWG20 24 AWG24 16 AWG24 8 -X1 OUTPUT CH 1-8 -X2 OUTPUT CH 9-16 -X3 INPUT CH 1-8 -X4 INPUT CH 9-16 -XS/XP13 -XS/XP61 OPTION 873 B11 -XS/XP113 -XT6 -XT5.1 -XT5.4 3 12 5 7 6 -XT5.5 1 6 7 8 9 10 1 2 8 9 10 7 4 5 6 7 8 9 1 2 3 9 B12 B13 C19 B14 B11 B10 B9 B8 B7 B1 B2 A1 A2 A3 A4 9 3 4 5 7 8 6 10 21 22 23 24 11 1 2 B9 B3 B4 B5 B8 B6 B10 F7 F8 F5 F6 B7 B12 B1 B2 4 5 7 3 6 1 9 10 11 12 2 9 8 10 11 1 2 3 4 3 7 2 6 -XT31 +.IN-700AWG20 +.IN-703AWG20 +.RG-681AWG20 +.RG-682AWG20 +.RG-686AWG20 +.RG-687AWG20 +.RG-688AWG20 +.RG-691AWG20 +.RG-692AWG20 +.RG-698AWG20 +.RG-704AWG20 +.RG-705AWG20 +.RG-706AWG20 +.RG-707AWG20 +.RG-709AWG20 +.RG-710AWG20 +.RG-830AWG20 +.RG-831AWG20 +.RG-1088 AWG16 +.RG-1089 AWG16 AW G 16 XS/XP60 BU BU BU BU BU BU BU BU BU BU BU BU BU BU BU BU BU BU BU BU BN OG BK RD YE BU OG YE BU RD GN BK 1/WH 1/BU 2/WH 2/OG BN 1/WH 1/BU 2/WH 2/OG 9:RD 9:WHRD 10:YE 10:WHYE 8:WHOG 7:WHVT 7:VT 7:WHGY 8:WHBK 8:BK 7:GY 8:OG 4:WHOG 4:OG 5:WHYE 5:YE OG OG OG OG OG OG OG OG OGSpare Spare/Start tip dress Spare/Mains on Spare/Tip dress on SE E PA G E: 1 05 Bo sc h AC /M FD C IN 2 IN 1 OUT 2 O PT IO N 8 73 SE E PA G E: 1 00 , 1 01 Po w er s up pl ay OUT 15 Prepared by, date: =WA_AE+SWC/110 W e re se rv e al l r ig ht s in th is d oc um en t a nd in th e in fo rm at io n co nt ai ne d th er ei n. R ep ro du ct io n, u se o r di sc lo su re to th ird p ar tie s w ith ou t e xp re ss a ut ho rit y is s tri ct ly fo rb id de n. © C op yr ig ht 2 00 3 AB B 2008-07-02 Page 109 26TotalPEDESTAL GUN (PG) Latest revision: Approved by, date: BOSCH AC/MFDC Location: Plant: = + +Sublocation: SWCAE PG Document no. Next Rev. Ind Lab/Office: Status:SWC IRC5 M2004 1 2 73 4 5 6 8 06 LCM 500000041477 3HAC026208-001 APPROVED PERA, 2010-08-31 GUED, 2010-08-31 XT31.Terminal No. changed(3). Rev. 06 REGION A & E SINGLE CABINET SPOT WELDING CABINET PEDESTAL GUN (CUST. CONN.) 24VDC 0VDC SPARE SPARE SPARE g1_open_hlift. Pneu/spare g1_close_hlift. Pneu/spare g1_close_gun. Pneu/spare g1_gun_open. Pneu/spare g1_hlift_open. Pneu/spare g1_equalize. Servo/Pneu/Spare g1_temp_ok. Servo/Pneu KSR KSR VOLT REG. VOLT REG. 0,75 0,75 SHIELD IN 4 IN 5 IN 6 IN 7 IN 8 IN 9 IN 10 IN 11 0 VDC DSQC 328 OUT 1 OUT 6 OUT 7 RD BK GN/YE BU =SWC+-XT101_7 / =SWC+-XT101_3 / -1003 AWG18 -1004 AWG18 -1005 AWG18 -1006 AWG18 -1007 AWG18 -1008 AWG18 -1009 AWG18 -1010 AWG18 -1011 AWG18 -1013 AWG18 -1014 AWG18 -1015 AWG18 -1016 AWG18 -1017 AWG18 -1018 AWG18 -1019 AWG18 -1020 AWG18 -1021 AWG18 -1022 AWG18 -1023 AWG18 -1024 AWG18 AWG24 AWG24 2 CP/CS 35 AWG24 -SG.CP/CS AWG16 AWG20 -X104 -XS/XP61 =SWCAE+PG-XS/XP113 -XS/XP113 6 2 3 7 -XT31 8 10 -XT5.4 3 4 5 7 -XT5.5 2 3 4 5 6 7 8 9 10 11 1 -XT5.6 C4 C5 B18 B19 B1 B2 B3 B4 B14 B20 B21 B22 B24 B25 B16 B17 1 2 4 5 3 -VE101_X3 -XS/XP5.7 1 2 4 5 3 13 14 15 16 17 18 19 4 3 9 7 8 6 10 5 -XS/XP60 5 6 7 3 4 11 1 2 12 C1 C2 C3 C4 C5 C6 C7 C8 C9 C10 C11 C12 B9 B3 B4 B5 B7 B8 B6 B10 B11 B1 B2 B12 9 6 11 12 +.SG-681 AWG20 +.SG-686 AWG20 +.SG-687 AWG20 +.SG-688 AWG20 +.SG-691 AWG20 +.SG-692 AWG20 +.SG-698 AWG20 +.SG-703 AWG20 +.SG-704 AWG20 +.SG-705 AWG20 +.SG-706 AWG20 +.SG-707 AWG20 +.SG-709 AWG20 +.SG-710 AWG20 +.SG-711 AWG20 +.SG-830 AWG20 +.SG-831 AWG20 DIGITAL I/O UNIT I/OBOARD1 OUTPUT CH 1-8 X1 OUTPUT CH 9-16 X2 INPUT CH 1-8 X3 INPUT CH 9-16 X4 1 6 7 8 9 10 1 2 8 9 10 4 5 6 7 8 9 1 2 3 9 1:WHBK 1:BK 6:WHGN 6:GN 6:WHBU 6:BU 9:BN 2:WHBN 2:BN 3:WHRD 4:WHOG 4:OG 5:WHYE 5:YE 3:RD OG OG OG OG OG OG OG OG OG OG OG OG 3:WHRD 2:WHBN 2:BN 3:RD 9:WHBN 10:WHYE 9:WHRD 9:RD 10:YE 1:WHBK 1:BK 6:WHGN 6:GN 6:WHBU 6:BU 9:BN 7:VT 7:WHVT 8:WHOG 8:WHBK 8:BK 7:GY 8:OG 7:WHGY BU BU BU BU BU BU BU BU BU BU BU BU BU BU BU BU BU OG OG OG OG OG OG OG OG OG OUT 8 OUT 9 OUT 10 OUT 16 0 VDC 0 VDC 24 VDC 0 VDC 24 VDC SE E PA G E: 1 05 BO SC H A C /M FD C SE E PA G E: 1 05 BO SC H A C /M FD C DRAIN WIRE 0,75 0,75 SE E PA G E: 1 13 W AT ER A N D A IR U N IT - SW C SE E PA G E: 1 08 R ob ot G un (R G ) Prepared by, date: +SB/111 W e re se rv e al l r ig ht s in th is d oc um en t a nd in th e in fo rm at io n co nt ai ne d th er ei n. R ep ro du ct io n, u se o r di sc lo su re to th ird p ar tie s w ith ou t e xp re ss a ut ho rit y is s tri ct ly fo rb id de n. © C op yr ig ht 2 00 3 AB B 2008-07-02 Page 110 26TotalWATER AND AIR UNIT - SWC Latest revision: Approved by, date: BOSCH AC/MFDC Location: Plant: = + +Sublocation: WA_AE SWC Document no. Next Rev. Ind Lab/Office: Status:SWC IRC5 M2004 1 2 73 4 5 6 8 06 LCM 500000041477 3HAC026208-001 APPROVED PERA, 2010-08-31 GUED, 2010-08-31 XT31.Terminal No. changed(2).Rev. 06 REGION A & E SPOT WELDING CABINET DSQC 327A IN 4 IN 5 IN 6 IN 7 0 VDC IN 9 0 VDC DSQC 328 OUT 6 OUT 7 0 VDC 24 VDC OUT 16 0 VDC 24 VDC SINGLE CABINET SPARE SPARE SPARE SPARE WATER AND AIR UNIT 24V 0V g1_flow1_ok g1_flow2_ok g1_air_ok g1_start_water g1_pressure_ok. Pneu PROP. REF. Pneu SPARE SPARE SPARE / g1_epvalve_ok SPARE SE E PA G E: 1 05 , 1 06 Bo sc h AC /M FD C M ed ar A C Option: SEE PAGE: 105 Bosch AC/MFDC YE GN GN/YE GNYE =W A+ --X T1 01 _6 / =W A+ --X T1 01 _2 / -1094 / -1095 / -1096 / -700 / -701 / -1110 / -682 / -1003 AWG18 -1004 AWG18 -1005 AWG18 -1006 AWG18 -1007 AWG18 -1008 AWG18 -1009 AWG18 -1010 AWG18 -1011 AWG18 -1043 AWG18 -1044 AWG18 -1045 AWG18 -1046 AWG18 -1047 AWG18 -1048 AWG18 -1049 AWG18 -1053 AWG18 -1085 AWG18 -1086 AWG18 -3HAC16844 AWG18 CP/CS 35 AWG24 -I/OBOARD1 DIGITAL I/O UNIT AWG16 AWG16 -X1 OUTPUT CH 1-8 -X2 OUTPUT CH 9-16 4 5 6 7 9 -X3 INPUT CH 1-8 1 9 -X4 INPUT CH 9-16 -XS/XP61 -XS/XP101-XS/XP103 =WA_AE+SWC-XS/XP113 -XS/XP113 -XT5.4 -XT5.5 4 3 9 7 8 6 10 5 -XS/XP60 1 2 11 12 5 6 7 3 4 19 6 5 16 3 15 17 9 7 14 2 13 1 2 3 4 5 6 7 8 9 10 11 12 B1 B2 B3 B4 B5 B6 B7 B8 B9 B10 B11 B12 C10 C11 C12 C1 C2 8 9 10 3 4 5 6 7 1 2 11 6 2 -XT31 +.SG-686 AWG20 +.SG-687 AWG20 +.SG-698 AWG20 +.SG-703 AWG20 +.SG-704 AWG20 +.SG-705 AWG20 +.SG-706 AWG20 +.SG-709 AWG20 +.SG-830 AWG20 +.SG-831 AWG20 6 7 9 10 8 9 10 OG OG OG OG OG OG OG OG OG OG OG OG OG OG OG OG OG OG OG BU BU BU BU BU BU BU BU BU BU 9:WHRD 9:RD 7:WHVT 7:VT 7:WHGY 7:GY 8:WHBK 8:BK 8:WHOG 8:OG 10:WHYE 10:YE 2:WHBN 2:BN 9:WHBN 3:WHRD 3:RD WH VT GY WHBK WHBN RD BK BU OG BN SPARE SPARE SPARE SPARE SPARE O PT IO N 8 73 SE E PA G E: 1 00 , 1 01 Po w er s up pl ay O PT IO N 8 73 SE E PA G E: 1 09 R ob ot g un (R G ) Prepared by, date: 112 W e re se rv e al l r ig ht s in th is d oc um en t a nd in th e in fo rm at io n co nt ai ne d th er ei n. R ep ro du ct io n, u se o r di sc lo su re to th ird p ar tie s w ith ou t e xp re ss a ut ho rit y is s tri ct ly fo rb id de n. © C op yr ig ht 2 00 3 AB B 2008-07-02 Page 111 26TotalWATER AND AIR UNIT - SPLIT BOX Latest revision: Approved by, date: BOSCH AC/MFDC Location: Plant: = + +Sublocation: WA_AE SB Document no. Next Rev. Ind Lab/Office: Status:SWC IRC5 M2004 1 2 73 4 5 6 8 06 LCM 500000041477 3HAC026208-001 APPROVED PERA, 2010-08-31 GUED, 2010-08-31 Rev. 06 REGION A & E WATER VALVE MECHANICAL 0V 24V SIGNAL 0V SIGNAL SIGNAL 24V 0V SIGNAL SIGNAL 24V 0V SIGNAL SIGNAL FLOW CONTROL 1 OPTION: FLOW CONTROL 2 OPTION: PRESSURE SWITCH 0V SIGNAL 24V 0V SIGNAL 24V 0V SIGNAL OPTION: DIGITAL WATER VALVE OPTION: FLOW CONTROL 1 OPTION: FLOW CONTROL 2(1*) (1*) (1*) TERMINAL 1 AND 4 STRAPPED IF NOT USED. OPTION: PROP. VALVE 1 PNEU. (1*) 24V PROP. REG. 0V FEED BACK 24 VDC 0 VDC SPARE / PROP. REF. SPARE SPARE SPARE SPARE g1_flow1_ok g1_flow2_ok g1_air_ok g1_start_water SPARE / g1_pressure_ok VALID FOR 3HAC16711-1 3HAC16711-2 3HAC16711-3 3HAC16711-4 3HAC16711-5 3HAC16711-6 3HAC16711-7 3HAC16711-8 3HAC16711-9 3HAC16711-10 3HAC16711-11 3HAC16711-12 BN BU BK WH -SF101.2 BN BU BK -SF101.2 BN BU BK WH -SF101.3 BN BU BK -SF101.3 BN WHBU BK -SF101.4 -SPLITBOX1 21 -VD101.1 21 -VD101.1 1 2 3 4 5 -XS/XP101.1 -XS/XP101.1 1 2 3 4 5 -XS/XP101.2 -XS/XP101.2 1 2 3 4 5 -XS/XP101.3 -XS/XP101.3 -XS/XP101.4 -XS/XP101.5 1 2 3 4 5 -XS/XP101.6 -PV1 19 6 5 16 3 15 17 9 7 14 2 13 -XS/XP101 /112.2 1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 Prepared by, date: =WA+S/113 W e re se rv e al l r ig ht s in th is d oc um en t a nd in th e in fo rm at io n co nt ai ne d th er ei n. R ep ro du ct io n, u se o r di sc lo su re to th ird p ar tie s w ith ou t e xp re ss a ut ho rit y is s tri ct ly fo rb id de n. © C op yr ig ht 2 00 3 AB B 2008-07-02 Page 112 26TotalWATER AND AIR UNIT - SPLIT BOX Latest revision: Approved by, date: BOSCH AC/MFDC Location: Plant: = + +Sublocation: WA_AE SB Document no. Next Rev. Ind Lab/Office: Status:SWC IRC5 M2004 1 2 73 4 5 6 8 06 LCM 500000041477 3HAC026208-001 APPROVED PERA, 2010-08-31 GUED, 2010-08-31 Rev. 06 REGION A & E g1_flow1_ok g1_flow2_ok g1_air_ok 24 VDC 0 VDC g1_start_water SPARE / g1_pressure_ok SPARE / PROP. REF. SPARE SPARE g1_epvalve_ok SPARE (1*) 0V SIGNAL 24V 0V SIGNAL SIGNAL 24V 0V SIGNAL SIGNAL 24V SIGNAL 0V SIGNAL 24V PROP. REG. 0V FEED BACK MECHANICAL WATER VALVE FLOW CONTROL 1 OPTION: FLOW CONTROL 2 PRESSURE SWITCH OPTION: PROP. VALVE 1 PNEU. (1*) TERMINAL 1 AND 4 STRAPPED IF NOT USED. VALID FOR 3HAC027294-001 3HAC027294-002 3HAC027294-003 -J1 -J2 -J3 -J4 -J5 BN BU BK WH -SF101.2 BN BU BK WH -SF101.3 BN WHBU BK -SF101.4 -SPLITBOX2 21 -VD101.1 1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 -J6 -PV1 19 6 5 16 3 15 17 9 7 14 2 13 -XS/XP101 /111.2 Prepared by, date: W e re se rv e al l r ig ht s in th is d oc um en t a nd in th e in fo rm at io n co nt ai ne d th er ei n. R ep ro du ct io n, u se o r di sc lo su re to th ird p ar tie s w ith ou t e xp re ss a ut ho rit y is s tri ct ly fo rb id de n. © C op yr ig ht 2 00 3 AB B 2008-07-02 Page 113 26TotalWATER AND AIR UNIT Latest revision: Approved by, date: COMPACT BOSCH AC Location: Plant: = + +Sublocation: WA S Document no. Next Rev. Ind Lab/Office: Status:SWC IRC5 M2004 1 2 73 4 5 6 8 06 LCM 500000041477 3HAC026208-001 APPROVED PERA, 2010-08-31 GUED, 2010-08-31 Rev. 06 REGION E 24 VDC 0 VDC g1_flow1_nok g1_flow1_ok g1_start_water g1_pressure_ok Pressure output GND Pressure outpt (0...10V) SPARE EARTH 0V SIGNAL 24V SIGNAL SIGNAL 24V INPUT OUTPUT GND 1 2 4 3 MECHANICAL WATER VALVE FLOW CONTROL 1 OPTION: 796-1 PROP. VALVE 1 PNEU. DELIVERED BY SMC BN WH BK BU EARTH BN WH BK -SF101 21 -VD101 -PV1 7 13 14 1 4 8 9 10 11 12 -XS/XP8.3 Page tree SP 1 COPYRIGHT PAGE 2 TITLE PAGE 3 TABLE OF CONTENTS S 50 BLOCK DIAGRAM TYPE S 51 BLOCK DIAGRAM TYPE S - IRBDP SW5 HS 52 BLOCK DIAGRAM TYPE HS Se 53 BLOCK DIAGRAM TYPE Se 54 BLOCK DIAGRAM TYPE Se - IRBDP SW5 HSe 55 BLOCK DIAGRAM TYPE HSe CAB 56 VIEW SPOT WELDING CABINET - STANDARD 58 VIEW SPOT WELDING CABINET CON 57 CONNECTOR LAYOUT - IRBDP SW5 SWCA P.24V 100 BOSCH AC/MFDC SWCE P.24V 101 BOSCH AC/MFDC SWC P.24V 102 COMPACT BOSCH AC P.B 103 BOSCH AC/MFDC 104 COMPACT BOSCH AC B 106 COMPACT BOSCH AC S.B 107 COMPACT BOSCH AC SWCAE B 105 BOSCH AC/MFDC RG 108 BOSCH AC/MFDC PG 109 BOSCH AC/MFDC WA_AE SWC 110 BOSCH AC/MFDC SB 111 BOSCH AC/MFDC 112 BOSCH AC/MFDC WA S 113 COMPACT BOSCH AC Page list =SP+/1 COPYRIGHT PAGE =SP+/2 TITLE PAGE =SP+/3 TABLE OF CONTENTS =SP+S/50 BLOCK DIAGRAM TYPE S =SP+S/51 BLOCK DIAGRAM TYPE S - IRBDP SW5 =SP+HS/52 BLOCK DIAGRAM TYPE HS =SP+Se/53 BLOCK DIAGRAM TYPE Se =SP+Se/54 BLOCK DIAGRAM TYPE Se - IRBDP SW5 =SP+HSe/55 BLOCK DIAGRAM TYPE HSe =SP+CAB/56 VIEW SPOT WELDING CABINET - STANDARD =SP+CON/57 CONNECTOR LAYOUT - IRBDP SW5 =SP+CAB/58 VIEW SPOT WELDING CABINET =SWCA+P.24V/100 BOSCH AC/MFDC =SWCE+P.24V/101 BOSCH AC/MFDC =SWC+P.24V/102 COMPACT BOSCH AC =SWC+P.B/103 BOSCH AC/MFDC =SWC+P.B/104 COMPACT BOSCH AC =SWCAE+B/105 BOSCH AC/MFDC =SWC+B/106 COMPACT BOSCH AC =SWC+S.B/107 COMPACT BOSCH AC =SWCAE+RG/108 BOSCH AC/MFDC =SWCAE+PG/109BOSCH AC/MFDC =WA_AE+SWC/110 BOSCH AC/MFDC =WA_AE+SB/111 BOSCH AC/MFDC =WA_AE+SB/112 BOSCH AC/MFDC =WA+S/113 COMPACT BOSCH AC Device tree +P.B U -U1B Multi-line =SWC+P.B/103.6 =SWCA +P.24V (empty) -1011 Multi-line =SWCA+P.24V/100.5 -1013 Multi-line =SWCA+P.24V/100.2 -1014 Multi-line =SWCA+P.24V/100.3 -1025 Multi-line =SWCA+P.24V/100.3 -1026 Multi-line =SWCA+P.24V/100.4 -1027 Multi-line =SWCA+P.24V/100.2 -1029 Multi-line =SWCA+P.24V/100.6 -1030 Multi-line =SWCA+P.24V/100.7 -1067 Multi-line =SWCA+P.24V/100.6 -1068 Multi-line =SWCA+P.24V/100.7 -1069 Multi-line =SWCA+P.24V/100.7 -1070 Multi-line =SWCA+P.24V/100.8 -1071 Multi-line =SWCA+P.24V/100.8 -1072 Multi-line =SWCA+P.24V/100.8 -1073 Multi-line =SWCA+P.24V/100.3 -1074 Multi-line =SWCA+P.24V/100.4 -1075 Multi-line =SWCA+P.24V/100.7 -1076 Multi-line =SWCA+P.24V/100.7 -1077 Multi-line =SWCA+P.24V/100.6 -1078 Multi-line =SWCA+P.24V/100.4 -1079 Multi-line =SWCA+P.24V/100.8 -1082 Multi-line =SWCA+P.24V/100.6 -1083 Multi-line =SWCA+P.24V/100.6 -1084 Multi-line =SWCA+P.24V/100.4 -1085 Multi-line =SWCA+P.24V/100.2 -1086 Multi-line =SWCA+P.24V/100.3 -1090 Multi-line =SWCA+P.24V/100.4 -1091 Multi-line =SWCA+P.24V/100.4 -1092 Multi-line =SWCA+P.24V/100.8 -1093 Multi-line =SWCA+P.24V/100.6 -1094 Multi-line =SWCA+P.24V/100.1 -1095 Multi-line =SWCA+P.24V/100.5 -1096 Multi-line =SWCA+P.24V/100.5 -1097 Multi-line =SWCA+P.24V/100.1 -1098 Multi-line =SWCA+P.24V/100.1 -1099 Multi-line =SWCA+P.24V/100.4 -1100 Multi-line =SWCA+P.24V/100.4 F -F4 Multi-line =SWCA+P.24V/100.7 3 =SWCA+P.24V/100.8 -F5 Multi-line =SWCA+P.24V/100.6 2 =SWCA+P.24V/100.6 N(0) =SWCA+P.24V/100.8 FZ -FZ101 Multi-line =SWCA+P.24V/100.7 K -K101 Multi-line =SWCA+P.24V/100.5 -B1 Multi-line 2;1 =SWCA+P.24V/100.7 -K1 Multi-line A1(3+);A2(-4) =SWCA+P.24V/100.6 -K102 Multi-line =SWCA+P.24V/100.6 -B2 Multi-line 5;9 =SWCA+P.24V/100.8 -K1 Multi-line A1(-);A2(+) =SWCA+P.24V/100.6 -K103 Multi-line =SWCA+P.24V/100.4 A1;A2 =SWCA+P.24V/100.5 13;14 =SWCA+P.24V/100.5 MS -MS101 Multi-line 13;14 =SWCA+P.24V/100.1 PE -PE1 Multi-line =SWCA+P.24V/100.8 -PE2 Multi-line =SWCA+P.24V/100.8 QB -QB101 Multi-line C1;C2 =SWCA+P.24V/100.8 14;11 =SWCA+P.24V/100.6 21;24 =SWCA+P.24V/100.1 QC -QC101 Multi-line A1;A2 =SWCA+P.24V/100.7 11;12 =SWCA+P.24V/100.3 13;14 =SWCA+P.24V/100.4 W -W1 Multi-line =SWCA+P.24V/100.1 -W2 Multi-line =SWCA+P.24V/100.6 -W4 Multi-line =SWCA+P.24V/100.8 -W5 Multi-line =SWCA+P.24V/100.2 -W8 Multi-line =SWCA+P.24V/100.5 X -X1 Multi-line 6 =SWCA+P.24V/100.2 7 =SWCA+P.24V/100.2 5 =SWCA+P.24V/100.3 8 =SWCA+P.24V/100.2 1 =SWCA+P.24V/100.2 1 =SWCA+P.24V/100.3 2 =SWCA+P.24V/100.2 2 =SWCA+P.24V/100.3 -X2 Multi-line 7 =SWC+P.24V/102.7 5 =SWC+P.24V/102.7 -X3 Multi-line 6 =SWC+P.24V/102.7 8 =SWC+P.24V/102.6 XS -XS100 Multi-line =SWCA+P.24V/100.5 1 =SWCA+P.24V/100.5 3 =SWCA+P.24V/100.5 XS/XP -XS/XP61 Multi-line =SWCA+P.24V/100.4 1 =SWCA+P.24V/100.4 2 =SWCA+P.24V/100.5 12 =SWCA+P.24V/100.5 11 =SWCA+P.24V/100.5 -XS/XP113 Multi-line =SWCA+P.24V/100.1 A1 =SWCA+P.24V/100.3 A2 =SWCA+P.24V/100.4 A11 =SWCA+P.24V/100.6 A12 =SWCA+P.24V/100.8 PE =SWCA+P.24V/100.8 A4 =SWCA+P.24V/100.3 B1 =SWCA+P.24V/100.1 B2 =SWCA+P.24V/100.5 B12 =SWCA+P.24V/100.5 B11 =SWCA+P.24V/100.5 -XS/XP114 Multi-line A3 =SWCA+P.24V/100.2 XT -XT5.4 Multi-line =SWCA+P.24V/100.4 1 =SWCA+P.24V/100.5 11 =SWCA+P.24V/100.5 12 =SWCA+P.24V/100.5 -XT5.5 Multi-line 3 =SWCA+P.24V/100.4 -XT5.6 Multi-line 4 =SWCA+P.24V/100.4 -XT5.7 Multi-line 5 =SWCA+P.24V/100.5 -XT5.8 Multi-line 6 =SWCA+P.24V/100.6 -XT5.9 Multi-line 7 =SWCA+P.24V/100.5 -XT5.10 Multi-line 2 =SWCA+P.24V/100.5 -XT5.5 Multi-line =SWCA+P.24V/100.3 -XT5.5 Multi-line 11 =SWCA+P.24V/100.3 -XT5.6 Multi-line =SWCA+P.24V/100.2 -XT6.1 Multi-line =SWCA+P.24V/100.6 1 =SWCA+P.24V/100.6 2 =SWCA+P.24V/100.7 3 =SWCA+P.24V/100.7 4 =SWCA+P.24V/100.8 5 =SWCA+P.24V/100.8 -XT31 Multi-line =SWCA+P.24V/100.2 2 =SWCA+P.24V/100.2 6 =SWCA+P.24V/100.3 -XT101 Multi-line =SWCA+P.24V/100.2 1 =SWCA+P.24V/100.4 2 =SWCA+P.24V/100.3 3 =SWCA+P.24V/100.3 4 =SWCA+P.24V/100.3 =SWCE +P.24V (empty) -832 Multi-line =SWC+P.24V/102.7 -1011 Multi-line =SWCE+P.24V/101.5 -1013 Multi-line =SWCE+P.24V/101.2 -1014 Multi-line =SWCE+P.24V/101.3 -1025 Multi-line =SWCE+P.24V/101.2 -1026 Multi-line =SWCE+P.24V/101.4 -1027 Multi-line =SWCE+P.24V/101.2 -1028 Multi-line =SWCE+P.24V/101.2 -1029 Multi-line =SWCE+P.24V/101.7 -1030 Multi-line =SWCE+P.24V/101.8 -1067 Multi-line =SWCE+P.24V/101.7 -1068 Multi-line =SWCE+P.24V/101.7 -1069 Multi-line =SWCE+P.24V/101.8 -1070 Multi-line =SWCE+P.24V/101.8 -1071 Multi-line =SWCE+P.24V/101.3 -1072 Multi-line =SWCE+P.24V/101.4 -1073 Multi-line =SWCE+P.24V/101.4 -1074 Multi-line =SWCE+P.24V/101.4 -1075 Multi-line =SWCE+P.24V/101.7 -1076 Multi-line =SWCE+P.24V/101.7 -1077 Multi-line =SWCE+P.24V/101.4 -1078 Multi-line =SWCE+P.24V/101.3 -1079 Multi-line =SWCE+P.24V/101.4 -1080 Multi-line =SWCE+P.24V/101.4 -1081 Multi-line =SWCE+P.24V/101.4 -1082 Multi-line =SWCE+P.24V/101.6 -1083 Multi-line =SWCE+P.24V/101.6 -1084 Multi-line =SWCE+P.24V/101.4 -1085 Multi-line =SWCE+P.24V/101.2 -1086 Multi-line =SWCE+P.24V/101.3 -1090 Multi-line =SWCE+P.24V/101.4 -1091 Multi-line =SWCE+P.24V/101.4 -1094 Multi-line =SWCE+P.24V/101.1 -1095 Multi-line =SWCE+P.24V/101.5 -1096 Multi-line =SWCE+P.24V/101.5 -1097 Multi-line =SWCE+P.24V/101.1 -1098 Multi-line =SWCE+P.24V/101.1 -1099 Multi-line =SWCE+P.24V/101.4 -1100 Multi-line =SWCE+P.24V/101.4 F -F4 Multi-line =SWCE+P.24V/101.8 3 =SWCE+P.24V/101.8 -F5 Multi-line =SWCE+P.24V/101.6 2 =SWCE+P.24V/101.7 N(0) =SWCE+P.24V/101.8 FZ -FZ101 Multi-line =SWCE+P.24V/101.7 K -K101 Multi-line =SWCE+P.24V/101.6 -B1 Multi-line 2;1 =SWCE+P.24V/101.7 -K1 Multi-line A1(3+);A2(-4) =SWCE+P.24V/101.6 -K103 Multi-line =SWCE+P.24V/101.4 -1 Multi-line 13;14 =SWCE+P.24V/101.5 -K1 Multi-line A1;A2 =SWCE+P.24V/101.5 MS -MS101 Multi-line 13;14 =SWCE+P.24V/101.1 PE -PE1 Multi-line =SWCE+P.24V/101.8 -PE2 Multi-line =SWCE+P.24V/101.8 QB -QB101 Multi-line C1;C2 =SWCE+P.24V/101.3 14;11 =SWCE+P.24V/101.7 23;24 =SWCE+P.24V/101.1 QC -QC101 Multi-line A1;A2 =SWCE+P.24V/101.8 11;12 =SWCE+P.24V/101.4 13;14 =SWCE+P.24V/101.4 W -W1 Multi-line =SWCE+P.24V/101.1 -W2 Multi-line =SWCE+P.24V/101.7 -W4 Multi-line =SWCE+P.24V/101.8 -W5 Multi-line =SWCE+P.24V/101.2 -W8 Multi-line =SWCE+P.24V/101.5 X -X1 Multi-line 8 =SWCE+P.24V/101.2 7 =SWCE+P.24V/101.2 6 =SWCE+P.24V/101.2 5 =SWCE+P.24V/101.2 XS -XS100 Multi-line =SWCE+P.24V/101.5 1 =SWCE+P.24V/101.5 3 =SWCE+P.24V/101.5 XS/XP -XS/XP61 Multi-line =SWCE+P.24V/101.4 2 =SWCE+P.24V/101.5 12 =SWCE+P.24V/101.5 11 =SWCE+P.24V/101.5 1 =SWCE+P.24V/101.4 -XS/XP113 Multi-line =SWCE+P.24V/101.1 A3 =SWCE+P.24V/101.2 A4 =SWCE+P.24V/101.2 A1 =SWCE+P.24V/101.2 A2 =SWCE+P.24V/101.4 A11 =SWCE+P.24V/101.7 A12 =SWCE+P.24V/101.8 PE =SWCE+P.24V/101.8 B1 =SWCE+P.24V/101.1 B2 =SWCE+P.24V/101.5 B12 =SWCE+P.24V/101.5 B11 =SWCE+P.24V/101.5 XT -XT5.4 Multi-line =SWCE+P.24V/101.4 1 =SWCE+P.24V/101.511 =SWCE+P.24V/101.5 12 =SWCE+P.24V/101.5 -XT5.5 Multi-line 3 =SWCE+P.24V/101.5 -XT5.6 Multi-line 4 =SWCE+P.24V/101.5 -XT5.7 Multi-line 5 =SWCE+P.24V/101.6 -XT5.8 Multi-line 6 =SWCE+P.24V/101.6 -XT5.9 Multi-line 7 =SWCE+P.24V/101.5 -XT5.10 Multi-line 2 =SWCE+P.24V/101.5 -XT5.5 Multi-line =SWCE+P.24V/101.2 1 =SWCE+P.24V/101.3 2 =SWCE+P.24V/101.3 11 =SWCE+P.24V/101.3 -XT5.6 Multi-line =SWCE+P.24V/101.2 1 =SWCE+P.24V/101.2 2 =SWCE+P.24V/101.2 -XT6.1 Multi-line =SWCE+P.24V/101.6 1 =SWCE+P.24V/101.7 2 =SWCE+P.24V/101.7 -XT6.2 Multi-line 3 =SWCE+P.24V/101.8 -XT6.3 Multi-line 4 =SWCE+P.24V/101.8 -XT6.2 Multi-line =SWCE+P.24V/101.3 2 =SWCE+P.24V/101.4 -XT6.3 Multi-line 1 =SWCE+P.24V/101.3 -XT6.4 Multi-line 3 =SWCE+P.24V/101.4 -XT6.5 Multi-line 4 =SWCE+P.24V/101.4 -XT31 Multi-line =SWCE+P.24V/101.1 2 =SWCE+P.24V/101.2 6 =SWCE+P.24V/101.2 -XT101 Multi-line =SWCE+P.24V/101.1 1 =SWCE+P.24V/101.4 2 =SWCE+P.24V/101.3 3 =SWCE+P.24V/101.3 4 =SWCE+P.24V/101.2 =SWC +P.24V (empty) -830 Multi-line =SWC+P.24V/102.2 =SWC+P.24V/102.3 =SWC+P.24V/102.4 -831 Multi-line =SWC+P.24V/102.2 =SWC+P.24V/102.3 -1001 Multi-line =SWC+P.24V/102.6 -1002 Multi-line =SWC+P.24V/102.6 -1013 Multi-line =SWC+P.24V/102.7 -1014 Multi-line =SWC+P.24V/102.7 -1025 Multi-line =SWC+P.24V/102.5 -1026 Multi-line =SWC+P.24V/102.5 -1031 Multi-line =SWC+P.24V/102.5 -1032 Multi-line =SWC+P.24V/102.5 -(3HAC15620-1) Multi-line =SWC+P.24V/102.6 AWG -AWG21 Multi-line =SWC+P.24V/102.5 E -E1 Multi-line =SWC+P.24V/102.7 -E2 Multi-line =SWC+P.24V/102.7 HAC -3HAC15620 -1 Multi-line =SWC+P.24V/102.5 =SWC+P.24V/102.7 I/OB -I/OB1 Multi-line =SWC+P.24V/102.2 =SWC+P.24V/102.3 =SWC+P.24V/102.4 9 =SWC+P.24V/102.2 10 =SWC+P.24V/102.2 -I/OB11 Multi-line 9 =SWC+P.24V/102.2 10 =SWC+P.24V/102.3 -I/OB12 Multi-line 9 =SWC+P.24V/102.3 10 =SWC+P.24V/102.3 -I/OB13 Multi-line 9 =SWC+P.24V/102.4 10 =SWC+P.24V/102.4 K -K42 Multi-line 34;33 =SWC+P.24V/102.6 -K43 Multi-line 34;33 =SWC+P.24V/102.6 X -X1S1 Multi-line =SWC+P.24V/102.5 1 =SWC+P.24V/102.5 2 =SWC+P.24V/102.5 3 =SWC+P.24V/102.5 4 =SWC+P.24V/102.5 5 =SWC+P.24V/102.5 6 =SWC+P.24V/102.6 -X1S2 Multi-line =SWC+P.24V/102.2 1 =SWC+P.24V/102.2 2 =SWC+P.24V/102.2 XS -XS100 Multi-line =SWC+P.24V/102.5 1 =SWC+P.24V/102.6 3 =SWC+P.24V/102.5 XS/XP -XS/XP8.1 Multi-line =SWC+P.24V/102.6 1 =SWC+P.24V/102.6 1 =SWC+P.24V/102.7 2 =SWC+P.24V/102.6 4 =SWC+P.24V/102.7 -XS/XP8.3 Multi-line =SWC+P.24V/102.7 -XS/XP60 Multi-line 2 =SWC+P.24V/102.5 6 =SWC+P.24V/102.5 XT -XT31 Multi-line =SWC+P.24V/102.5 -XT101 Multi-line =SWC+P.24V/102.5 1 =SWC+P.24V/102.8 2 =SWC+P.24V/102.8 3 =SWC+P.24V/102.8 4 =SWC+P.24V/102.7 9 =SWC+P.24V/102.5 10 =SWC+P.24V/102.5 XT/XP -XT/XP5.1 Multi-line 1 =SWC+P.24V/102.7 3 =SWC+P.24V/102.7 2 =SWC+P.24V/102.7 4 =SWC+P.24V/102.7 -XT/XP5.3 Multi-line =SWC+P.24V/102.7 +P.B (empty) -1 Multi-line =SWC+P.B/103.1 -1101 Multi-line =SWC+P.B/103.2 =SWC+P.B/103.6 -1102 Multi-line =SWC+P.B/103.2 =SWC+P.B/103.6 -1103 Multi-line =SWC+P.B/103.2 =SWC+P.B/103.6 -1104 Multi-line =SWC+P.B/103.1 =SWC+P.B/103.5 -1105 Multi-line =SWC+P.B/103.1 =SWC+P.B/103.5 -1106 Multi-line =SWC+P.B/103.1 =SWC+P.B/103.5 -1107 Multi-line =SWC+P.B/103.1 =SWC+P.B/103.5 -1108 Multi-line =SWC+P.B/103.1 =SWC+P.B/103.5 -1109 Multi-line =SWC+P.B/103.1 -1124 Multi-line =SWC+P.B/103.5 -1125 Multi-line =SWC+P.B/103.1 -1126 Multi-line =SWC+P.B/103.1 -1127 Multi-line =SWC+P.B/103.5 HAC -3HAC3730 -1 Multi-line =SWC+P.B/104.4 -3HAC17137 -1 Multi-line =SWC+P.B/104.3 K -K103 Multi-line 2T1;1L1 =SWC+P.B/103.1 2T1;1L1 =SWC+P.B/103.5 4T2;3L2 =SWC+P.B/103.1 4T2;3L2 =SWC+P.B/103.5 M -M1 Multi-line U1;V1;W1;PE =SWC+P.B/103.1 -M2 Multi-line U1;V1;W1;PE =SWC+P.B/103.5 MS -MS101 Multi-line 1;2;3;4;5;6 =SWC+P.B/103.1 1;2;3;4;5;6 =SWC+P.B/103.5 PE -PE Multi-line =SWC+P.B/103.3 =SWC+P.B/103.7 =SWC+P.B/104.2 -PE3 Multi-line =SWC+P.B/103.4 -PE4 Multi-line =SWC+P.B/103.8 -PE5 Multi-line =SWC+P.B/103.2 -PE6 Multi-line =SWC+P.B/103.6 -PE10 Multi-line =SWC+P.B/104.3 QB -QB101 Multi-line 1;2;3;4;5;6 =SWC+P.B/103.2 1;2;3;4;5;6 =SWC+P.B/103.6 1;2;3;4;5;6 =SWC+P.B/104.1 QC -QC101 Multi-line 2T1;1L1 =SWC+P.B/103.2 2T1;1L1 =SWC+P.B/103.6 4T2;3L2 =SWC+P.B/103.2 4T2;3L2 =SWC+P.B/103.6 6T3;5L3 =SWC+P.B/103.3 6T3;5L3 =SWC+P.B/103.7 -QC103 Multi-line 6T3;5L3 =SWC+P.B/103.1 -QC104 Multi-line 6T3;5L3 =SWC+P.B/103.5 QI -QI101 Multi-line 1;1;2;2;3;3;N;N =SWC+P.B/103.2 1;1;2;2;3;3;N;N =SWC+P.B/103.6 R -R2.WELD Multi-line =SWC+P.B/104.4 1 =SWC+P.B/104.4 2 =SWC+P.B/104.4 3 =SWC+P.B/104.4 -R3.WELD Multi-line =SWC+P.B/104.4 PE =SWC+P.B/104.4 U =SWC+P.B/104.4 V =SWC+P.B/104.4 RD -RD Multi-line =SWC+P.B/103.2 =SWC+P.B/103.3 =SWC+P.B/103.6 =SWC+P.B/103.7 U -U1 Multi-line =SWC+P.B/103.1 =SWC+P.B/103.3 L1 =SWC+P.B/103.1 L2 =SWC+P.B/103.1 L3 =SWC+P.B/103.1 PE =SWC+P.B/103.1 =SWC+P.B/103.7 -U1A Multi-line =SWC+P.B/103.2 =SWC+P.B/103.6 =SWC+P.B/104.1 -U1B Multi-line =SWC+P.B/103.2 =SWC+P.B/104.1 -U2 Multi-line =SWC+P.B/103.5 L1 =SWC+P.B/103.5 L2 =SWC+P.B/103.5 L3 =SWC+P.B/103.5 PE =SWC+P.B/103.5 -U3 Multi-line =SWC+P.B/104.1 L1 =SWC+P.B/104.1 L2 =SWC+P.B/104.1 L3 =SWC+P.B/104.1 PE =SWC+P.B/104.1 V -V1A Multi-line =SWC+P.B/103.2 =SWC+P.B/103.6 =SWC+P.B/104.2 -V1B Multi-line =SWC+P.B/103.3 =SWC+P.B/103.7 =SWC+P.B/104.2 VE -VE101 Multi-line =SWC+P.B/103.2 =SWC+P.B/103.6 =SWC+P.B/104.1 PE =SWC+P.B/103.3 PE =SWC+P.B/103.7 PE =SWC+P.B/104.2 U1 =SWC+P.B/103.2 U1 =SWC+P.B/103.6 U1 =SWC+P.B/104.1 U2 =SWC+P.B/103.2 U2 =SWC+P.B/103.6 U2 =SWC+P.B/104.1 V1 =SWC+P.B/103.2 V1 =SWC+P.B/103.6 V1 =SWC+P.B/104.2 V2 =SWC+P.B/103.3 V2 =SWC+P.B/103.7 V2 =SWC+P.B/104.2 W1 =SWC+P.B/103.7 W -W1A Multi-line =SWC+P.B/103.7 -W2 Multi-line =SWC+P.B/103.1 =SWC+P.B/103.2 -W3 Multi-line =SWC+P.B/103.5 X -X101 Multi-line =SWC+P.B/103.4 =SWC+P.B/103.8 =SWC+P.B/104.3 PE =SWC+P.B/103.4 PE =SWC+P.B/103.8 U =SWC+P.B/103.4 U =SWC+P.B/103.8 V =SWC+P.B/103.4 V =SWC+P.B/103.8 XS/XP -XS/XP105 Multi-line =SWC+P.B/103.1 =SWC+P.B/103.5 1 =SWC+P.B/103.1 2 =SWC+P.B/103.1 3 =SWC+P.B/103.1 PE =SWC+P.B/103.2 -XS/XP106 Multi-line 1 =SWC+P.B/103.5 2 =SWC+P.B/103.5 3 =SWC+P.B/103.5 PE =SWC+P.B/103.6 +B (empty) -1104 Multi-line =SWC+B/106.7 -1105 Multi-line =SWC+B/106.7 -1106 Multi-line =SWC+B/106.7 -1107 Multi-line =SWC+B/106.7 -1108 Multi-line =SWC+B/106.4 A -A35.X2 Multi-line =SWC+B/106.5 4 =SWC+B/106.6 1 =SWC+B/106.6 2 =SWC+B/106.6 5 =SWC+B/106.6 3 =SWC+B/106.5 -A39.X1 Multi-line =SWC+B/106.7 HAB -3HAB8277 -1 Multi-line =SWC+B/106.7 =SWC+B/106.5 HAC -3HAC025999 -001 Multi-line =SWC+B/106.5 =SWC+B/106.7 I/OB -I/OB1 Multi-line =SWC+B/106.5 -I/OB2 Multi-line =SWC+B/106.7 VE -VE101 Multi-line =SWC+B/106.1 W -W1 Multi-line =SWC+B/106.5 -W7 Multi-line =SWC+B/106.8 -W8 Multi-line =SWC+B/106.7 -W9 Multi-line =SWC+B/106.5 X -X2I Multi-line =SWC+B/106.1 1 =SWC+B/106.1 3 =SWC+B/106.2 4 =SWC+B/106.2 5 =SWC+B/106.2 6 =SWC+B/106.2 7 =SWC+B/106.2 8 =SWC+B/106.3 9 =SWC+B/106.310 =SWC+B/106.3 11 =SWC+B/106.1 12 =SWC+B/106.2 13 =SWC+B/106.1 14 =SWC+B/106.1 -X2O Multi-line =SWC+B/106.3 5 =SWC+B/106.4 7 =SWC+B/106.4 8 =SWC+B/106.4 9 =SWC+B/106.3 10 =SWC+B/106.3 11 =SWC+B/106.3 -X2U Multi-line =SWC+B/106.4 -X2U1 Multi-line 2 =SWC+B/106.5 -X3C Multi-line =SWC+B/106.7 XS/XP -XS/XP1 Multi-line =SWC+B/106.5 XT/XP -XT/XP5.2 Multi-line 10 =SWC+B/106.5 x -x1 Multi-line 2 =SWC+B/106.7 +S.B (empty) -1 Multi-line =SWC+S.B/107.2 -681 Multi-line =SWC+S.B/107.4 -682 Multi-line =SWC+S.B/107.2 -683 Multi-line =SWC+S.B/107.2 -684 Multi-line =SWC+S.B/107.2 -685 Multi-line =SWC+S.B/107.2 -686 Multi-line =SWC+S.B/107.2 -687 Multi-line =SWC+S.B/107.4 -688 Multi-line =SWC+S.B/107.4 -691 Multi-line =SWC+S.B/107.4 -692 Multi-line =SWC+S.B/107.4 -693 Multi-line =SWC+S.B/107.2 -694 Multi-line =SWC+S.B/107.2 -695 Multi-line =SWC+S.B/107.2 -696 Multi-line =SWC+S.B/107.2 -697 Multi-line =SWC+S.B/107.2 -698 Multi-line =SWC+S.B/107.2 -700 Multi-line =SWC+S.B/107.2 -701 Multi-line =SWC+S.B/107.2 -702 Multi-line =SWC+S.B/107.2 -703 Multi-line =SWC+S.B/107.2 -704 Multi-line =SWC+S.B/107.4 -705 Multi-line =SWC+S.B/107.4 -706 Multi-line =SWC+S.B/107.4 -707 Multi-line =SWC+S.B/107.2 =SWC+S.B/107.4 -709 Multi-line =SWC+S.B/107.2 =SWC+S.B/107.4 -710 Multi-line =SWC+S.B/107.4 -711 Multi-line =SWC+S.B/107.4 -712 Multi-line =SWC+S.B/107.2 -713 Multi-line =SWC+S.B/107.2 -714 Multi-line =SWC+S.B/107.2 -(3HAC025999-)1 Multi-line =SWC+S.B/107.4 HAC -3HAC2360 -3 Multi-line =SWC+S.B/107.6 -3HAC025999 -1 Multi-line =SWC+S.B/107.4 I/OB -I/OB1 Multi-line =SWC+S.B/107.3 V -V101 Multi-line =SWC+S.B/107.1 W -W1 Multi-line =SWC+S.B/107.5 -W2 Multi-line =SWC+S.B/107.6 -W3 Multi-line =SWC+S.B/107.4 X -X1 Multi-line =SWC+S.B/107.3 1 =SWC+S.B/107.3 2 =SWC+S.B/107.3 3 =SWC+S.B/107.3 4 =SWC+S.B/107.3 5 =SWC+S.B/107.3 6 =SWC+S.B/107.3 7 =SWC+S.B/107.3 8 =SWC+S.B/107.3 -X2 Multi-line =SWC+S.B/107.3 -X2I Multi-line =SWC+S.B/107.1 1 =SWC+S.B/107.1 3 =SWC+S.B/107.1 4 =SWC+S.B/107.1 5 =SWC+S.B/107.1 6 =SWC+S.B/107.1 7 =SWC+S.B/107.1 8 =SWC+S.B/107.1 9 =SWC+S.B/107.1 10 =SWC+S.B/107.1 11 =SWC+S.B/107.1 12 =SWC+S.B/107.1 13 =SWC+S.B/107.1 14 =SWC+S.B/107.1 -X2O Multi-line =SWC+S.B/107.1 5 =SWC+S.B/107.1 7 =SWC+S.B/107.1 8 =SWC+S.B/107.1 9 =SWC+S.B/107.1 10 =SWC+S.B/107.1 11 =SWC+S.B/107.1 -X2U Multi-line =SWC+S.B/107.4 -X2U1 Multi-line 1 =SWC+S.B/107.4 2 =SWC+S.B/107.4 3 =SWC+S.B/107.4 -X3 Multi-line =SWC+S.B/107.3 -X4 Multi-line =SWC+S.B/107.3 XS/XP -XS/XP8.1 Multi-line =SWC+S.B/107.6 1 =SWC+S.B/107.7 11 =SWC+S.B/107.7 2 =SWC+S.B/107.7 12 =SWC+S.B/107.7 3 =SWC+S.B/107.7 13 =SWC+S.B/107.7 4 =SWC+S.B/107.7 14 =SWC+S.B/107.7 5 =SWC+S.B/107.7 6 =SWC+S.B/107.7 7 =SWC+S.B/107.7 8 =SWC+S.B/107.7 9 =SWC+S.B/107.7 10 =SWC+S.B/107.7 -XS/XP8.2 Multi-line =SWC+S.B/107.6 -XS/XP8.3 Multi-line =SWC+S.B/107.6 7 =SWC+S.B/107.7 8 =SWC+S.B/107.7 9 =SWC+S.B/107.7 10 =SWC+S.B/107.7 11 =SWC+S.B/107.7 12 =SWC+S.B/107.7 13 =SWC+S.B/107.7 14 =SWC+S.B/107.7 XT/XP -XT/XP5.1 Multi-line =SWC+S.B/107.5 -XT/XP5.2 Multi-line =SWC+S.B/107.5 +MAC DN -DN3 Multi-line =SWC+B/106.5 -DN2 Multi-line =SWC+B/106.7 -DN1 Multi-line =SWC+B/106.5 -DN4 Multi-line =SWC+B/106.7 A -A39.X1 -A39.X1 Multi-line 1 =SWC+B/106.8 3 =SWC+B/106.8 2 =SWC+B/106.8 9 =SWC+B/106.8 5 =SWC+B/106.8 +B.MFDC U -U1 Multi-line =SWC+B/106.5 +S.24V XT/XP -XT/XP5.1 -XT/XP5.1 Multi-line 13 =SWC+S.B/107.5 14 =SWC+S.B/107.5 3 =SWC+S.B/107.5 4 =SWC+S.B/107.5 5 =SWC+S.B/107.5 7 =SWC+S.B/107.5 8 =SWC+S.B/107.5 9 =SWC+S.B/107.5 10 =SWC+S.B/107.5 1 =SWC+S.B/107.5 2 =SWC+S.B/107.5 6 =SWC+S.B/107.5 11 =SWC+S.B/107.5 12 =SWC+S.B/107.5 -XT/XP5.2 -XT/XP5.2 Multi-line 6 =SWC+S.B/107.5 7 =SWC+S.B/107.5 8 =SWC+S.B/107.5 9 =SWC+S.B/107.5 10 =SWC+S.B/107.5 5 =SWC+S.B/107.5 1 =SWC+S.B/107.5 2 =SWC+S.B/107.5 3 =SWC+S.B/107.5 4 =SWC+S.B/107.5 11 =SWC+S.B/107.5 12 =SWC+S.B/107.5 =SWCAE +B (empty) -1031 Multi-line =SWCAE+B/105.1 -1032 Multi-line =SWCAE+B/105.1 -1033 Multi-line =SWCAE+B/105.1 -1034 Multi-line =SWCAE+B/105.2 -1035 Multi-line =SWCAE+B/105.2 -1036 Multi-line =SWCAE+B/105.2 -1037 Multi-line =SWCAE+B/105.2 -1038 Multi-line =SWCAE+B/105.4 -1039 Multi-line =SWCAE+B/105.4 -1040 Multi-line =SWCAE+B/105.3 -1041 Multi-line =SWCAE+B/105.3 -1042 Multi-line =SWCAE+B/105.3 -1087 Multi-line =SWCAE+B/105.3 -1088 Multi-line =SWCAE+B/105.5 -1089 Multi-line =SWCAE+B/105.8 -1090 Multi-line =SWCAE+B/105.6 -1091 Multi-line =SWC+P.24V/102.6 -1092 Multi-line =SWC+P.24V/102.6 -1093 Multi-line =SWC+B/106.5 -1094 Multi-line =SWC+B/106.5 A -A35.X2 Multi-line =SWCAE+B/105.5 4 =SWCAE+B/105.5 1 =SWCAE+B/105.5 2 =SWCAE+B/105.5 5 =SWCAE+B/105.5 3 =SWCAE+B/105.5 -A39.X1 Multi-line =SWCAE+B/105.7 E -E1 Multi-line =SWCAE+B/105.4 HAB -3HAB6266 Multi-line =SWCAE+B/105.7 -3HAB8277 Multi-line =SWCAE+B/105.5 -3HAB8303 Multi-line =SWCAE+B/105.7 HAC -3HAC021579 Multi-line =SWCAE+B/105.6 =SWCAE+B/105.8 RS -RS1 Multi-line =SWCAE+B/105.6 VE -VE101 Multi-line =SWCAE+B/105.1 X2-1 =SWCAE+B/105.8 X2-2 =SWCAE+B/105.4 X2-4 =SWCAE+B/105.3 X2-5 =SWCAE+B/105.8 X3-1 =SWCAE+B/105.6 X3-2 =SWCAE+B/105.6 X3-3 =SWCAE+B/105.7 X3-4 =SWCAE+B/105.7 X3-5 =SWCAE+B/105.7 X4-1 =SWCAE+B/105.3 X4-2 =SWCAE+B/105.4 X4-3 =SWCAE+B/105.3 X4-6 =SWCAE+B/105.1 X4-7 =SWCAE+B/105.1 X4-9 =SWCAE+B/105.4 X4-10 =SWCAE+B/105.4 X4-11 =SWCAE+B/105.4 X4-12 =SWCAE+B/105.4 X8-2 =SWCAE+B/105.3 X8-3 =SWCAE+B/105.2 X10-1 =SWCAE+B/105.3 X10-2 =SWCAE+B/105.4 =SWCAE+B/105.8 W -W1 Multi-line =SWCAE+B/105.4 -W2 Multi-line =SWCAE+B/105.4 -W3 Multi-line =SWCAE+B/105.4 X -X13 Multi-line =SWCAE+B/105.5 XS/XP -XS/XP103 Multi-line =SWCAE+B/105.8 8 =SWCAE+B/105.8 -XS/XP113 Multi-line =SWCAE+B/105.4 001 =SWCAE+B/105.4 F1 =SWCAE+B/105.5 F2 =SWCAE+B/105.5 F3 =SWCAE+B/105.5 F4 =SWCAE+B/105.5 F5 =SWCAE+B/105.6 F6 =SWCAE+B/105.6 F7 =SWCAE+B/105.6 F8 =SWCAE+B/105.6 F9 =SWCAE+B/105.7 F10 =SWCAE+B/105.7 F11 =SWCAE+B/105.7 F12 =SWCAE+B/105.7 -1 Multi-line =SWCAE+B/105.8 XT -XT5.4 Multi-line =SWCAE+B/105.1 1 =SWCAE+B/105.1 2 =SWCAE+B/105.1 3 =SWCAE+B/105.1 4 =SWCAE+B/105.2 5 =SWCAE+B/105.2 6 =SWCAE+B/105.2 7 =SWCAE+B/105.2 8 =SWCAE+B/105.2 9 =SWCAE+B/105.2 10 =SWCAE+B/105.3 11 =SWCAE+B/105.3 12 =SWCAE+B/105.3 x -x13 Multi-line 2 =SWCAE+B/105.5 4 =SWCAE+B/105.5 1 =SWCAE+B/105.5 5 =SWCAE+B/105.5 3 =SWCAE+B/105.5 +RG (empty) -700 Multi-line =SWCAE+RG/108.2 -701 Multi-line =SWCAE+RG/108.2 -1003 Multi-line =SWCAE+RG/108.8 -1004 Multi-line =SWCAE+RG/108.8 -1005 Multi-line =SWCAE+RG/108.8 -1006 Multi-line =SWCAE+RG/108.8 -1007 Multi-line =SWCAE+RG/108.8 -1008 Multi-line =SWCAE+RG/108.8 -1009 Multi-line =SWCAE+RG/108.8 -1010 Multi-line =SWCAE+RG/108.8 -1011 Multi-line =SWCAE+RG/108.8 -1012 Multi-line =SWCAE+RG/108.5 -1110 Multi-line =SWCAE+RG/108.2 HAC -3HAC15654 Multi-line =SWCAE+RG/108.4 -1 Multi-line =SWCAE+RG/108.3 -3HAC022454 Multi-line =SWCAE+RG/108.4 =SWCAE+RG/108.5
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