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USER`S MANUAL MODEL: 3474-140 MODEL

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14. 2 5 y 2 40 13365 Dx 1 avos s AN 0007 2010 COT W 3MVMLJOS V OSV LOG 6 LV NOILOJ OHd WALSAS ASSY 1X3N ON 3715 Em co HSIN 0910811 e Odvr vg AGOW SS VO dvor dea dali 31111 SO OF 00 XXXX 9628 208 0 9 xo4 7628 208 0 9 191 HEEL ONISIINIONA A 431412345 5531 0 0 6 V9 SODO UDS DLYSNPU 666 O 5 MWO SSS NOS ajola E ish 51 ALON NOILdIYOS3G YSEWNN LNVd ALO O dob 203 3402 3708 02170641 INIINNON 310d 0917064116 Z Ei dob wwog 404 1108 310d 170641 Z WIHS LSLVO6LL19 y Uy a M3NIVI3M 310d 091706 1 2 6 6 6 OW LAN 726 9 S S OS X ZLN 5085 216 0 20 Z S S Of X W S HS 716 0 9 8 S S 4 MOIHL Z X OEN M3HSVM 6 OILSW1d AVM9 SOHS ZIN SM3JAOO 7901 N8 vZ 01 2 MOVIE LAN XIN O W SM3AOO 7601 N8 Z N fy EL MND lv O3llld SiMVd 310N N SI ZZ 2 710611 lt
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26. 90 x SOF IJ ASSV dSVH ONIIIOM pies M 8 Sut 00 XXX X JL N29 me Y 8608 208 059 0 7508 008 069 191 __ 0 gt i 93131934 3SIMM3HIO 5531 0 0 078 Vor USM Ee leamos suecia UY 170 H MVD 11 25 LON 00 06 90 01 S ids lt 2 ISIT 51 Oi jlON 0530 YSEWNN 19 ALO x 3599 018109 TI x 3015 I3NVd LMIMS 16 1081 7 3015 HY 9 I3Nvd 19155 COLLOBLI Z 678197 AMAIA 3015 MV3M IINVA 6 108 931 1504415 008108 11 19 1003 ANGAT 07 6706 1 9 4 OolclO NI zZ c 93159 E 52 vol Pp 2 ce 058 S LOLSO W1 ZZ Z 13AIMS 15 2 2 9 m i 5 5 9LN 6 v 6 O 5 S S OS X 9IN 1108 COB 0 Se S S OLW 1913 YIHSVM 62 S S 9 3201 W3HSVM ZZL 71 gO 80 90 S S Qe qM XA OE 91 3 S S OLW 1913 43HSVM V 62 9 S S OLW 3201 YIHSVM ZL IS 390 O S S Of X 9 226 NIGIOL 9 S S TL X 9N 11084 91 IZ 55 S S OW 1 14 M3HSVM 62 95 8 S S OW ONIMdS YIHSVM 01 1 92 61 S 4 00 ANOS 9079 M388n 119 909 loz qm 2 SA3ISAS 1 gv 00200601 7 X
27. SUSHSVM N St LC SET les 7100 ANN 767108 1 91 S S MOIHL WAZ X dl NALES 1 14 W3HSVM Zl N3AOO VNIWS3I l13M0V38 18710871 L 8l SA A elod 9 way 203 HON3SM 07820821 6 M3WNvd ldN 8 9 1 133815 8 8 dvizc 05 2 14 8 6 3SOH 2 1 NO HSAd 8 9 28105 9 14 59 2 139 5 CI 2 1 Q3N3AOO N388nM 3S0H 8 8 8d 0 2 HONIO 549018 IVNINY3 0918 5 dlls N3WNV 071 8 54 5 5 7 485805 GH 91 X EN Sc 0 01 5 5 1 14 YIHSVM EN 92 31 M3NOS 3AIS3HQV 3135 9 S S 3806 OH Nyd OL 7 8z i i 575 1108 GH 21 X ON v 62 b L AN 575 OW 06 J eco 575 SOHS OF X ZIN Zi 1 NS PO O 5 5 M3YIS OH 91 X 9 Size H 5 5 INN Z BTI ee ae Ded 00 UA a IF E S S 5085 08 X 9 s n gt 575709 06 X 8 lt lt 2 Sy lt S S YIHSVM 8 D IU DU UA A 7 YU ONIN EEN 8 77 5 N JdAL MANOS 2 06 GOOMNTS 505535 9 0 9 6 2 5 N N OL X SW d18VIOVHI3M 05 X 019 Z Ov 3 22417 N N 575 4 5 ON S 1v WG MMMM 4 55788 5 SIONINOO 15 011 8 193 SNS 70565 8 1
28. ZL WL 02076 YO SOHO 40S PH 556 see ae ONIN dNVIO 10045 30V1d NI 39 WHOM 340235 V MIND 31905 LON OQ V TENE 1 WALI 10045 OINO Z 4439 WHOM TIVISNI 1 310N NOWLdIYOS30 iva ASSY 03013 10045 09800611 h SALON AIBNJSSV 3ZNOM8 Yv39 WHOM 060006011 7 81 S S Yana YSONNId nol Hwaslo INOLLOG E 30109 uv8 015 001106411 5 5 1198 Po os 0600061 lo 09 x 9N i3400 _ s s zt x SsHS zy 216 6 1 s s ot x 5556 zy 216 lot A 1 23S S sz x 9 S9HS 216 NOLLOSS L sso cte najo 1935 91 X OW vi X em MOOT u3HSvVM z6ZNgalo fvi ECT CL X 9W 201 H3HSVM 264 ISL S S ZL X 9N unN 481 ol 9 S S 60 XLL X 9 YSHSWM 41 10045 138471 071006011 81 avd 4015 NOLLIAG 0232 719140 335 MIA ACIS 0007070707 52595252525 svionodo 90 21 70 310 18 4355 aav ZL SHO svionod 9 6 jdvHS ONINdS GOW 81 1 Wal MND A8 ONILINM NI Sv19noa 9 46
29. 10800611 ee foo woe ae ae See ts Aa 8678 Z08 0S9 x04 2608 008 009 491 pe e ee INSWLSNPGY ONIHS3N 0 0 6 VI SOLIDO UDS py 996 SVIONOG 5 SGYVMYOS MIND NOR 1 10 09 svionoa9 WYOM JOY SOSVMADVE EE d E stet lt Wai 832 45 S S ONISN Y ES Ip WALI 9NISnOH 318W3SSV 118 1355 0018 4015 09800611 2 ININISAPOV LHOISH 3NITH31N39 WALI NO 5 OL 3111907 Alddv lt Ad 3SV8 01010651 WHOM 503 350 SYAHSVM WIHS lt 901 0500611 35 3134 LNOLNO N3HL PY 001 09006471 TETAS ON PETE T ze ez lez 9NISNOH OLNO ZL W3ll 138v1 TIVISNI d X 09010671 Emi dAvio 318 2 3ovds 08110611 8 ION S S 9NO1 WAY 43ovds 100106 6 S S 9NO1 32745 106 1 OL lt 938 HI331 1138 ONINIL A311nd 81 9 9 LL 4 45 338vi _ 16100601 21 _ W3ddiis oreja asesa lr er e4nsseud OLN 39Nnid TIVE NOL HWES L vi H A WWO8z 1 9938 9NINIL 1738 6 9330c8i1 5
30. 6 NADHS LON W311 ON AISWSSSV JIGVL NOILOS 135 Odv v 8 9 dO HOVE NO 3530 1 4 IN3NISAPOY 075 NIH gt ALINAOSINA 1313 NOV JH AVID JO Ela AISWASSV 03XIW JHL ONIGYNLSIC jNOVA 4313 AISWSASSV dv9 3 ONIYNOSAS 5 484205 4 1510 LON Od O svianoa 9 00 82 80 v fo CH MOLD Q3sn YO 58310 OL 035019510 MO 320004434 SNOISIASY 31 2 3 2 Y E 30 im avos Poy 0004 2010 PINOY 1 LI x apes
31. OG 3984 071 715 10504 SA 4 1014 ALIIWHOHIN LANDVNOYLOA Ta AHOLVHOGSVI 5 1 10055 MIND LOG ZL 1014 AWWIOJU 666 25 eureuej J uonisog X 08 09 Ov 0c 0 0 09 08 00000002 0000700 c 00009002 A 000080072 00000102 00006102 00007102 1591 E 00009102 000081072 00000002 UOI ISOd SA X SIX 027 0 A SIXy 001 JON sJeoeds GG6LO 661 Menigay 1 0 de9 ejog 60 ezinuog NS 810d 002 3984 071 715 10504 SA 4 1014 ALIWHOHIN LANDVNOYLOA TS AHOLIVHOGSVI 5 1 10055 MIND LOG ZL 1014 AWWIOJU 666 25 eureuej J uonisog X 08 09 Ov 0c 0 0 09 08 000002 000092 000002 Fc 000056 1591 00000712 0000Sv Ic 0000046 lt SA X six 027 O A SIXy dwy Opt JON sJeoeds 66 0 1661 1 eieq 0 de9 ejog 60 ON 2195 ezinuog NS 90 002 9984 8 0d 071 7178 10504 SA 4 1014 ALIIWHOHIN LANDVNOYLOA Ta AHOLVHOGSVI 5 1 10055 MIND 20991 1914 AWWIOJIU 666 25 uonisog X
32. 2684 Se 40 imu D im iL 3woS Zu 000Z 2010 Y 3 1 405 V UA 600 6 N NOILOdPOMd 319NV IN31SAS ASSY LX3N ONIMVYEG 325 G 940 OIN H OT SUF ASSV 45 8 Tx 31111 CO OF 00 XXX X 8628 208 099 2608 08 059 191 A onnon 79076 WO AI 8 60 XOg O d snoisnania Eua WONG 025 LON OG 16 00 01 iia 1511 SlNVd jlON 0530 YSEWNN LAVA ALO Wall 3 13 WW 062 JSVH ONILVLOd 066006 44 ONILNAOW 0901061111 576 256 y y S S Of X SIN 1105 NIG 6 S S 1914 N3HSVM V 118 9 S S OLW MOOT M43HSVM 118 L Sv19n0q 9 116 70 01 15 3134 Y 0 0530 Add SNOISIA3M N T MAS q3ziHOHIQv SV 1430 3 18Vd NI 310HM NI AYM Y3HLO NI 0450 YO SYSHLO OL 035019510 YO 0 5000 44 38 LON ISAW MND OL AdVlalddOdd NOLIVAYJO3N IVILN3GIJNOO 5 SIHL Y
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34. 4 Ol MINO NS HOD EE S3OvVJans ANYS 1911 40 A0 159719 LON ALON 89538 ALO 02100858 7158 ONICGNISO 29149 124154 6 jt 1 4 1 77706271 91710971 CI 108 1 er se HS J NIH LYJ S UL TIS V 4 3104 GNIAD 053094 3 10d 429440585 8 200077 200077 200077 200077 INAS HLIA ADV dWYLS Z A lt A lt v0 TU v0 31915 SSIMYSHLO SS3INO CO SYSNYOO dM4VHS MV338 9 07000868441 sg IV3NNV s i 3 3H1 19333 Ol 35 0 38 ONIYAG LNdSVddVv 0052 ia 005 OST DUON 340238 HOIHM 193430 HONS Y3HLO YO NOLVNIAVT GIOA ANY v 1 319341 193 OL NOINd SS20 JNIHOvN HONDA 8 02 LIWITXOdd ANV SLV ld MVA 5 3H 44 TAE iu 06 IND 38 OL 389 0 HOVS 404 530314 2 ue 319 dd J31S MOI 9001 I 855 S310N 200 91 2001 4 y 20 0 v Wy 200 v 0 66 0 66 0 66 0 66 1 108 1 1 108 1 11 108 1 200 07 200 07 200077 e lt NINOS lt lt lt CNIS d ro yO ro 1 r NIAD i 80 y i 3994 1085 NOLLDE 1973 DEN ser 22 V SL 6ree S 00087 00061 00 002
35. 5 03884 y 1 X S H3HSVM 26 11 S S 91 X 1 12 W3HSVM zu e S S YONA Id TIVE NOI HWSS Z Jel 9 Ea d X 00 WASZ 3mmoso e fl ux 13871 NOILNWO 0810060 lt SI Y Cm O O 5 Q gt 2X 058 O oco 4 i bh gt O O 4 O e Of o o e Sv15n00 5 80 12 80 Wall QOv d 79 90 10 80 Sv 106009 80 01 90 5 191009 86 0 01 6 06 11 SNOISIASY NOILdld2S3Q SMIY9S 5 TANVd LHIS INDJ NOI LISOd 93d 081 SHL NMOHS 3S V8 ONILV LOY 3LON ALV Id 5 a dol MNS ONILINM NI 371 0 SV 1430 3 18 4 NI YO 310HM NI Y3HLO NI 0350 YO SYSHLO 01 035012510 YO 4391903934 38 LON ONI OL IVILN3GIJNOO SNIVINOO SIHL y S 9 L 8 od 4 W3l 40 d3sodX3 vv WALI 113 lt 6 NI 3901 gt SIN31I30 HLOG NI O3NIVI3M SI 9 LVHL OS vl NMOd MIYOS amp m uses __ amos 0002 201 19006 L V WBLSAS assy axan NOISN3L 325 Aon Aco
36. a 40 1338s 021 avos pee PAS Qvooinv NU 1 405 V LSV LOO GY NOILO3POSd 319NV QMIH W3l1SAS ASSY LX3N ON 9 azis HSIN ou 930 we E O L IN3BBOO H1 ASSV 100 SV A Ee ee dvd WWG
37. 000002871 000007871 000009871 0000088 0000006 1591 0000066 0000096 UOI ISOd SA X SIXY 0 7 O A peni JON s1e9eds ejog 6 0 7661 62 1 0G aj0d 60 ezinuog 3 NS 091 9004 9104 Or L VALV UONISOG SA 4 1014 ALIWHOHIN LANDVNOYLOA TS AHOLIVHOGSVI 5 1 10055 MIND 2099 1014 AWWIOJU 99695 4 uonisog X 08 09 Ov 0c 0 0 09 08 000008271 000000671 000000671 000007271 000009671 1591 000008671 000000F 00000 7 00000 UOI ISOd SA X SIXy 0 7 07A SIXV 001 JON s1e9eds 6 0 7661 62 1 09 dey 904 60 ezinuog 3 NS 091 19004 9104 Or L VALV UONISOG SA 4 1014 ALIIWHOHIN LANDVNOYLOA Ta AHOLVHOGSVI 5 1 10055 MIND 2099 1014 AWWIOJU 99695 4 uonisog X 08 09 Ov 0c 0 0 09 08 000009571 00000881 0000009 J 0000029 I 0000079 0000099 000008971 00000071 4 000002771 00000711 1591 UO
38. 096106 699024 929 104 1935 0 6106 8 9 seqoud MN Qojosje 2104 1 35 086106 6 624024 uoxuas 204 IM3SNI 0661067 01 OY Gp WDA 90 3015 EE lt 1 3319NV NH 004 3595 010206 2 OlSvid SLONGONd WI al Y IAN NI0Z00vONSO Z SS 6 5 INIOd 3NOO 8 X v SSHS 116 012 61 O ADA LANOVIA O S S 9 X SOHS 66 9 SS SES S S 8 X SOHS 8 051 7 4311015 OW MANOS 135 crol 51 1221061 ON ONIMVAG 335 INNOWN 38044 40 11915 9935 303 xepul S S X LW 13MOQ Sg WSAIZ 6 INOOW 34034 I IVISNI LNOA4 SMOHS ONIMVAC SIHL 31U0IN S S SW TIVA SHNGESI L 02 NOLLVOIHILN3ONI 138 Ooze0060L ll 11 NIC SVE NH 40 Ol 031113 02 Nid 1 11 A V a sv19noq 9 86 92 80 Jsvinms v Sma awa Noudwosaa JAGA LINOVA ON EAA DONI ME OL ee WILNSGISNOOD SNIVINOO SIHL SNOISIASY AMV L3IMdOMd C A Section 7 CUSTOM OPTIONS Section 8 EXCITATION CURVES GMW Associates Electromagnet Excitation Plot Field Vs Gap Contract No Page 1 of 1 Date Feb 04 2003 Customer Engr Y Qin Model 3474 Power Supply Set Current 140 Am
39. 08 09 Ov 0c 0 0 09 08 00000611 000066171 00000021 0000901 1591 00000121 000061271 00000cc UOI ISOd SA X 5 0 Z O A SIXV 001 910N peny JON sJeoeds 29620 ON 1661 Menigay OZ deb ejog 60 ON 2195 az nyos NS 002 99eJ 9104 Ot L VLV UONISOG SA 4 1014 ALIWHOHIN LANDVNOYLOA TS AHOLIVHOGSVI 5 1 10055 MIND 20991 1914 AWWIOJIU 666 25 uonisog X 08 09 Ov 0c 0 0 09 08 000066771 0000077 A 0000 lt 7771 000004771 1591 000069771 0000097 000099 0000017 UOI ISOd SA X SIX 027 0 A SIXy dwy JON sJeoeds 96 9 1661 Menigay 1 0 ejog 60 ezinuog NS 810d 002 3984 071 715 10504 SA 4 1014 ALIIWHOHIN LANDVNOYLOA Ta AHOLVHOGSVI 5 1 10055 MIND 7069014 AWWIOJIU 666 25 uonisog X 08 09 Ov 0c 0 0 09 08 000067870 00000480 000055870 000009870 00004980 00000 8 0 00004 80 4 000008870 1591 z 00005880
40. 5 lL JO um tiL avos 0004 AVIOLNV 1 1405 OS 600 O GN NOILOdPOSMd 10 N31SAS ASSY MJY ON ONIMVEG 325 d Gor GF EN OIN LF 90 X OT F XX ASSY 3Svg 9NUVIOM 9NITIOJ 371 0 0 XXX X gt SdHONI 8628 Z08 089 04 2628 08 099 191 9NIG3NION3 i 03110345 351 10 5531 07076 01109 UDS PY 0 5 556 SNOISN3AIG Sed 23H29 WON E MILD voz iow i 9 0 ISI SLYVd SLON 0530 LWVd ALO ASSV 3599 ONILVLOY 066006 ASSY 3578 008108111 E SINNOW 10045 q ONILNDON 7 7 ONILNNOW 930 Sv v v2 9 ONILNNOW 1933410 5310 ONILNNOW sv19noqd 9 180 77 80 28 S201 NOIUVIOM NO 310N Gav 8 9 e6 1 1 15 313 dVMG 0 830 Adu SNOISIA3M
41. Field 1 0021700 1 0021600 1 0021500 1 0021400 15 44 16 13 16 42 17 11 17 39 18 08 Time Index 18 37 19 06 Temperature Stability 25 Water temp in Water temp out Ambient air temp 20 Temp C 0 15 44 16 13 16 42 17 11 17 39 18 08 Time Index 18 37 19 06 Filename SC7955 Stability Plot 1 0 507 Section 10 DRAWINGS SERIES 3450 3450R 3455R 3455RBV 15 Typical Applications Power Supplies Communication Equipment Medical Equiopment Computers Where High AMP Loads are Present The Series 3450 3455 is snap acting non adjustable precision thermostat especially suited for industrial and electrical equipment The 3450 390 or 10mm overall is ideal for applications that require precision control of high electric loads to 8 Amp resistive The and 3455 have patented metal insert rivet construction The 3455R 484 12 5mm overall has higher spacing as required by European approval agencies Model 3455RBV is an epoxy overmold version of the 3455R specifically designed for electrical insulation or protection in a high humidity environment Consult factory for performance qualifications To insure that a safe combination of thermostat and application is achieved the purchaser must determine product suitability for their individual requirements AMP THERMOSTATS Ingari See Consr
42. SNOISIAdM AN 7 S L Ol My Ltd abla JUN IA 184455 JUDAS GSLNNUW 9390 00 NUILISUd DNIWOHI 11048 0234 SI 940 00 NUILISUd DNIWOH NSHM 1091 00 35010 HOLIASDSIOIN LOVINDO UN RHILIASOSITIA Q3HOVd3 SI NUILISUd 1 XVW N3HA SNddl HOLIASDSOIW 0 SJHOLIASUSOIN LIWII IJAVal WNWIXYW AL EI 533 MNS SV 1439X3 1YWd NI MO NI Y3HLO NI 0350 YO SYSHLO 01 435012510 YO 320004434 38 LON LSAW ONI MND OL AYVLAlddOYd TWILNSGISNOO 5 SIHL V aM 2 y 305 ommwso 2 0 80081 ASSY WHOM _ 1973 LJVHS OLNO 13 M3YOSI3S 3NhSN3 LOY Q3ZIHOLO WEST HL vd ee m al 13384 SLVLON ISAW L4VHS 318I5SOd WNWININ OL IN3W3AOW L4VHS V OLO6 YO SOLIDO UDS jonsnpu cco eee eee snm uuo jond3N 01 ATBW3SSv OL LL 3SN S3ONV331OL SNOISN3WIO ONIMVYC NOY43 MNO 31 25 LON 00 16 20 50 dr LON 151 S1YVd PINON WHOM 08010670 M Pot 0500060 pa38 oys S O 203 H1331 81 81 9M8SvOZdl Je P
43. JAIM ANIT N3349 9NO1 u1u00 OL NMOG 100 SIYIM SOLON 9 183 NI N3339 YOLOW 344316 INI LOV Y Y HS 9 8 198 HOLIMS HOLIMS HOLIMS JAOLONNINOD LONINOH Of Y 310N 335 31UN 335 Y 310N 335 O MIO 3018 O 5041 O sod O MO 2V 18 Qow Qs o 01800611 ON 33S LPL TAGON ON OMG adas Qe TEVE Jaden q 103 0 SSHILIMS Q z q MOLOINNOI SNISIA YDLON ze VN y gt y C gt H C2 VN svionodo 80 81 90 5 190049 10 21 00 SNOLLO3NNOO HOLMS YOLOW Gav 0 SNIMNIT 30193NNOO 3311041NOO9 00 8 MNS A8 NI sv19n00 9 86 21 20 3831384 v CGZINOHINY 1d3OX3 NI YO TIOHM NI AVM ava 1 NOILdINOSIG Mu SNOISIA33 L3IMdOMd a 7 Y 9 L y
44. PEI viv 031010 1 904 wx ZX 54207 NOILVLOY SAOWSY auf coor 339 WHOM JHL V 9628 08 009 03 7608 008 069 191 us PNT IHL TIV OL 0 0 6 YO soub UDS ipunsnpup GG6 97890 10 d9 Kiddy lt 4 NOJA AAA 6 0 11 Sv 1nOQ 9 EA vos Lon _ NINA HOLOMW SISVI13Y z LY Pg 15 Siuvd SOVONASIC To oon SS gt CNET 310N 401151530 s38WnN Hh 1 dh E ASSY 3578 9NILVIOS 9N 086006111010 NOLLISOd 930 0 HOLIMSOYIIN 9NIWOH 1011 Sc 54018 TVOINVHOAW aH ASSV MOION 1900611 Ge ER ASSY 10045 04800611 a1vevdas G MES p 430vdS 10045 0 2106 9 ASV ONILVLOW ONITION a 530119 AT8N3SSV YOLO 020106 112 16 T3Nvd LAS SNOLLO3NNOO LO313 HOLOW H3dd31S 7 mE 39v9N3 39v9N3S 191006011 9 14044015 31850 05221061101 88 vec 2 ct 069 al S S S X OIN SOHS 716 Na 9 e aM S S SZ X BW SOHS 216 Niaje 6 Q o o 14315 0 5 Q388lM 9 X OLN YIHSVM 26 Najo 01 1315 0
45. v Sci 9 S S 94 201 saHsvM 8 2 Naje N sylonoq o 16 25 0 39431384 V _ k 6 197221 List 68 675 965 cel 0 8 i Sy 143553 an V Ee a del 0150 YO 5436 03551350 0 0220004003 3B JON LEMA MAD Cl Auy 13i ddd SNININOO NMysin AV Oud 40 imu D im iL 3woS Zu 000Z 2010 Y 3 1405 V 09 600 6 N NOILOdPOMd 319NV IN31SAS ASSY LX3N ONIMVEG 3ZIS G 940 OIN H AS OT SUF ASSV JjSvH ONIIIOS 31111 00 XXX X 8678 208 059 2628 208 099 191 a onnon 79076 WO AI 8 60 XOg O d snoisnania Eus ge ONIMVMO WONG 025 LON OG 16 20 01 2 1511 SlNVd jlON 0530 YSEWNN LAVA ALO Wall 3 13 WW 052 JSvH 1104 OOSLOSLI 44 ONILNAOW
46. Install 45 Mounting Brackets using M16 x 30 Hex bolts flat and spring washers refer to figure 2 Lift magnet from top lifting eye about 50mm 2 remove 100mm x 100mm 4 wooden block located next to 45 mounting bracket refer to figure 2 Lower magnet so that it rests only on the front 100mm x 100mm 4 wooden block refer to figure 3 Install shackles and lifting sling to BOTH FRONT EYEBOLTS Caution keep hands and feet clear of magnet and 45 brackets during the following operation Take weight of magnet and push the top front of the magnet rearward The magnet weight should move over center Lower magnet so that it rests on the 45 mounts refer to figure 3 and 4 Rolling or Rolling Rotating Base Mounting refer to Drawing 11900480 Caution do not attempt to move magnet and rolling base or rolling rotating base until the magnet has been firmly bolted down to the base refer to figure 6 1 2 To mount on rolling base or rolling rotating base lift magnet from BOTH FRONT EYEBOLTS high enough to clear top of base refer to figure 5 Slide rolling base or rolling rotating base underneath lower magnet to 12mm 0 5 above base top surface refer to figure 5 Position rolling base or rolling rotating base so the tapped holes in the base are aligned with the 45 mounting bracket hole refer to figure 5 Lower magnet onto rolling base or rolling rotating base assembly refer to figure 5 Secure magnet and 45 mounting asse
47. MOUNTING AND ROLLING ROTATING BASE NAAN ae 16 30 BOLT S S 100mm 100mm WOODEN BLOCKS SPRING WASHER FLAT WASHER 4 PLS BRACKET TO MAGNET 12mm PLYWOOD SHEET Go 777 7 2 NOTE LIFT ELECTROMAGNET BY BOTH FRONT LIFTING EYEBOLTS OTHER FRONT LIFTING EYEBOLT NOT SHOWN NOTE LIFT ELECTROMAGNET BY BOTH FRONT LIFTING EYEBOLTS OTHER FRONT LIFTING EYEBOLT NOT SHOWN 222 NOTE LIFT ELECTROMAGNET BY BOTH FRONT LIFTING EYEBOLTS OTHER FRONT LIFTING EYEBOLT NOT SHOWN 11801602 OR SS 11901430 17801730 M16 X 30 HEX BDLT X SPRING WASHER FLAT C4 PLS BRACKET TO MAGNET 16 25 HEX BOLT S S SPRING WASHER FLAT WASHER C4 PLS BRACKET TO BASE 11900990 ON mi a GRECE ICQ A o DRAWING NO 11900480 REV A DRAWN BY G DOUGLAS DATE 07 20 06 a Sell 96 556 ir 058 1 9 Me UU M zx UU
48. Q VNINOZISOI 0901061111 576 2026 y y S S Of X SIN 1105 NIG S S S 1914 N3HSVM V 118 9 S S OLW MOOT M43HSVM 118 L Sv19n0q 9 116 70 01 15 3134 Y 0 0530 Add SNOISIA3M L6 ZE ice Le 18 5442 CO MAS q3ziHOHIQv SV 1430 3 18Vd NI 310HM NI AYM Y3HLO NI 0450 YO SYSHLO OL 035019510 YO 0 5000 44 38 LON ISNAN ll MWO OL AsVviIdISdOsd SNIVINOO SIHL ASV L3lsdOsd Y 71 2 WWO89 S3 IUH DLW 9 21 L SE 806 Seda Sre
49. SPECIFICATIONS Table 1 Model 3474 140 General Specifications Pole Diameter Pole Gap Standard Pole Caps Coil Resistance 20 C Maximum Resistance hot Maximum Power air Maximum Power water Self Inductance Water Cooling 18 C Overtemperature Interlock Water Flow Interlock Dimensions Weight 250 mm 10 inch 0 160 mm 0 to 6 3 inch 250 mm 10 inch cylindrical 200 mm 8 inch tapered 150 mm 6 inch tapered 100 mm 4 inch tapered 75 mm 3 inch tapered 50 mm 2 inch tapered 2 5 mm 1 inch tapered series connection 0 44 ohm 0 54 ohm 40A 22V 0 88kW 140A 76V 10 6kW S0mH measured at 5Hz 15 liters m 4 US gpm 2 0 bar 30 psid Elmwood 3450G thermal sensor part number 3450G 611 1 L50C 89 16 mounted on each coil and wired in series Contact rating 120Vac 0 5A Closed below 50 C Johnson Controls flow switch part number F61KD mounted on outlet side of water circuit Contact rating 120Vac 16A 240Vac 8A non inductive Set to open at a flow of less than 10 liter min 2 7US gpm Drawing 11801602 11801603 920mm W x 636 mm D x 864 mm H 36 2 inch W x 25 0 Inch D x 34 0 inch H 1800 kg 3970 Ib The 3474FG 140 is a fixed pole gap magnet Pole gap can be fixed in the range of 5 to 160mm CAUTION The value of maximum coil resistance given should not be exceeded At this resistance the coils are at maximum safe temperature for continuous operation 1 1 Section 1 S
50. T zA E 5 e e ww os 91 3215 318vo ov 57130 MO4 00910811 ON 33S NOILO3 35 NMOHS SYN 102 E CPF ONISIM IVOIMTO E Fe ES AA Wee eee TEM HL Ol qit53 7041409 dOLS A9N39N3W3 9628 208 09 X04 z628 708 099 ue LE ORT os M3iv3uH NIV SSFINN 9 WYSL 7 S NY OW3N LON 00 2 0 076 YO SOJID UDS py 666 Sxoeriol noia ene Vez N3ge8no ayol TINJA 1 MAD 053 gm Sv onono NMOHS SV SJMIM 500143 09 AlddNS NO jlVOS LON Od 31v 2869 01 87 ASVHd YAMOd OV v WMA 9 QNV WMI 151 SLYVd 310N NOILdINOS3G MASWAN 1YYd ALO WLI IWOlYLOS WALSAS OY 93 310N 00000691 ON l1Y3Vd 709 31819 MOOIYSLNI Ya We omy 81 NW OS OPS 3MOO WW OS 91 349090 v OS dAL 31970 SNIVIA 125 SISSVHO ATddNS 35 8 X 1 JUHM 9349 7 49 A Sa 9 Cll Xovi8 EN xvi ESTATE SS SENS S S S ALIH T 9 9 9 9 9 9 o o o f SS SS sss ssssissss OUO I moras 46 SUH 0 A iei a eoooeoloooooooo su Sos t e e e 109110 20 OV 53515 SMOOTYS
51. TYPICAL FLOW RATES m hr REQUIRED TO ACTUATE SWITCH Line Pipe 1 1 2 Flow Increase R to Y Closes Flow Decrease RtoB Closes Flow Increase R to Y Closes Flow Decrease RtoB Closes Flow rates for these sizes are calculated 3 4 5 6 8 375 0 215 85 2 6 2 205 01 46 6 50 0 1010 1580 3200 190 11 4 229 359 727 43 2701 4101 5401 17001 6 1 9 3 123 386 7600 53 0 172 6 12 0 41501 94 2 360 0 7300 500 81 8 165 8 11 4 13501 40001 307 908 These GPM figures are for switch with 6 in paddle For 4 in and 5 in line pipe the paddle is trimmed LOW FLOW RATE SPDT For use on liquid lines using water ethylene glycol solutions or other liquids not injurious to the brass and phosphor bronze parts SPDT contact switch is activated by a low flow rate however it has a large flow capacity with minimum pressure drop Typical applications include Water purification and treatment systems Booster pumps Fast shut down on high input boilers to guard against circulation failure Cooling systems for electronic tubes bearings and compressors F61KD NEMA 1 type enclosure F61MD NEMA 4 vaportight enclosure F61KD 3 V in X in FS1MD 2 Non Stock item Built to Order Adjustment Range GPM m hr Maximum
52. bo oze Ole obe 062 082 0 2 ole o wl a M UU M 25 Q 53 E m fever 169 pe PO SEN OOO LOG m dod ERES gas NN SL ZA NT 5 gt 5 21915 S 7 NN PER Fi feo 2 r 39 Y JO Dx pil avos cS iS 0002 Qvooinv yy JYVMLIOS V a 60 6 GY NOILOJPOMd SIONV IN31SAS ASSY LX3N 3ZIS Agg HSING SOF G 940 OC LW ps jC OW 90 f X SOF XX ASSV 3SV8 V 31111 00 XXX X 8628 208 059 x04 0608 008 069 191 awf 0 076 V9 50002 UDS DUISNPU 666 SNOISN3mI0 Eus gis INIMV30 WO jlv9S LON OQ 6 10 01 M 2 1511 SlNVd jlON 0530 YSEWNNN LWVd ALO WALI JNOVNWOMI23 13 ISVG ONILVLOY ONITIO 0960061 Z INIINNON 930 Sy ATAR Es SIS cgo OS CCB 1108 S S S OLW 1V1J YIHSVM 9 S S 201 YIHSVM 2 Zz gt 2 Sv19n009 46 10 01 JSV3IM V 31 JVMO 0530 SNOISIASY MIND ONILIGM G3ZIMOHINY SV 1430 3 18Vd NI 310HM AYM Y3HLO NI 0450 YO 543 10
53. 1 HOLIMSONQIN fr a ld TL E N ANING 37892 4 m CZ NOLSNHOC SHOLIMS j svionoa 9 40 2 80 H4J8NOQN lIMvd 00 MND NI Sv 19nO309 66 92 40 15 4144 Y Q3ziMOHInv SY 1439 3 1994 YO 310HM NI AYM NI 0351 YO SUSHLO OL 03501099 YO Q30000Md3M 3190 5 LON ISMW ON MND OL WILNIGISNOD SNIVLNOO SIHL SNOISIA33 E v a
54. 2 2 jepou uo 531 M3MOd TINA ONISSVd AT18W3SSV 3131dWOO 104 9 y XDJ ONIS33NION3 50 OGL JIMOA XVN 014 8628 204059 203 2628 08 099 PL rrr SNILLOd 390438 M3MOd TINI 1Y ATSW3SSv Q3131d4WOO 1531 76 79076 VO W 8 60 08 Sod 103H0 ulug HIOIM 10045 MANAD lt LON OG 00 90 41 zv wwogs 00 10045 NMOHS SV ONIONIM 29 IHVO LAGNI MNIMHSIV3H v Pa MOVIE OL 30 HSINI ALON 53 HJHNDN LAVA AO Wall AI E 10045 9 6 GVO JO OL ONIONIM 40 14 15 IO3NNOO lt 9Mv9z Sui 001 INIONIM OF pajoauuos salas NMOHS SY NOILO3MIKC ON viaas 9 1300N 7389 00700601 SAHO 002 5 06 O 29 15 548 193 ONIGNIM 10046 OL 43114 SI INIGNIM 7100 JYNSNZ l 39 H1 5 2 2345 38V 0170060 Y 7 E SSION ATSWSSSV MOVIE 3909 2 VHdv 21899 07290196 6 ONIA331S MNISNHSIVJI 9 IVOONSAS 2 9NILLOd zo v g e I n 4 2 AA 0710601 ON 18710611 ON 18 4 7109 5 H svig H 3LIHM wove 3LIHM G 03193 05 531855 1 013 NO on HON Y90718 e ll o J18V
55. 8 TEVE LEON ER J 2 SOF F XX LINNON goy Su 2 E LAN SWNHL NSLHDIL 9 8628 08 099 2628 208 099 191 avaj __ 0 076 v UDS GGG ssoweno NIS Ol Hle JA E TS INY 2V8 ATLHDIIS 31Vl1U3 v 23020 31V33d M 31 25 LON OQ ae jg 319NV 01 5 TWH 1 SI 1 uud AVGMAD 3 INd JLON 0530 YSEWNN 1 ALO uuo Ln d JS 1 2 3lvid 3598 006106 3515231 13 2 WALI 33130 419494415 wugsz NOISNYLXZ ONILNNOW 35 016106 2 dda 10 3908 1 IMOddNS 35 8 076106 _ INN 3svd 08610611 v E EIS 23 NOISQMIX3 ONILNNOW VILA 9 6106 D 1545 MW syg an 0 606 9 Y34090 8f 096106 529044 dW d49 404 1YISNI 0 6106 e seqoud MN Qojosje 2104 1 35 086106 6 599024 uojues 104 1535 fl 0661067 01 O Gp WOA 31 IRIS ans 8n 0002067 Hd 2 2 41891501749 319 an 0015 3598 010206 5 OuSvid dvd SLONGONd WA IAN NI0Z00vONSO Z SOS 6 5 INIOd 3NOO 8 X v SSHS 116 012 61 O ADA LANOVIA O S S 1 14 9 X SOHS 66 9 SESS SS SSSA S S 8 X SOHS 0907 Ost ly Z OTAN GH 431101
56. ALO SMHONO8 4135 HON3SM i 1108 9NINIVL3H dVO 310d HON3MM 079208 111 7 1 15 0311015 H3AIOM3HOS 950 291 gt AJINVIS M3AIMOM3MOS 770 791 7 e 1 15 0311016 W3AIMOM3NOS 9 6 a 2x A3TNVIS M3AIMOM3MOS 120 791 9 11 OdIML 3S0 900 0S 2 Z 7 31 LdN8 9 SSVM8 Gv MOSTJ 90 8 1 8 SSvM8 0 2 1 9Nndno9 350 8N90 80VM Z 6 SOW 41104 096 01 1001 WAOWSY AVI 310d 010006 1 Z 1001 38V mE nv3aWvij 215 14 JOVYOLS 72 Y 5 01000681 YSSEWNN LYVd l3NO9OVWOMIO313 7 76 73000 404 114 1004 L3NOVINOMLO3 13 SWALSAS M W LANIVW Q 52 MWS A8 NI sy19n00 9 6 Sz Z0 O3ZIMOHLOV SV 1430X3 1994 NI MO 310HM NI M3HLO NI 0351 MO SYSHLO 01 035019510 YO Qq3onaosd3s LAVYG NOILdINOS3d A3M 38 LON LSAW LI MWS OL AYVLAINdOYd IWILNSCISNOD SNIVLNOO SIHL SNOISIA 3M 2 5 9 7 8
57. FLOW SWITCH STANDARD FLOW RATE SPDT The F61 flow switch is designed for use on liquid lines using water ethylene glyco solutions or other liquids not injurious to the brass and phos phor bronze parts that come in contact with the liquid The SPDT contacts make or break an electrical circuit when flow starts or stops F61KB 11 NEMA 1 type enclosure F61MB 1 This flow switch meets NEMA type 4 requirements and is UL listed as raintight Use on indoor or outdoor applications in high humidity atmospheres on liquid lines handling fluids below dewpoint or below 32 F 090 Use on lines carrying well water swimming pool water sea water brine or ethylene glycol Not for use with hazardous fluids or in hazardous atmos pheres The bronze paddle is of three segments for use in pipes from 1 in to 3 in diameter Paddle segments may be removed or trimmed as needed Catalog No F61KB 11 and F61MB 1 include paddle for pipes 4 in to Pipe Connection 1 in NPT Max Liquid Pressure 150 PSIG 1034 kPa Max Liquid Temperature 250 F 121 C Min Liquid Temperature F61KB 11 32 F 0 C 61 1 20 F 29 C Dimensions F61KB 11 8 in H 3 in paddle 4 in W 23e in D F61MB 1 8 in 3 in paddle 45 64 in 2 3 16 in D TO ORDER Specify F61KB 11 for NEMA 1 sure F61MB 1 for NEMA 4 enclosure ELECTRICAL RATINGS Pilot Duty 125 VA 24 277 VAC
58. Ferromagnetic Objects During operation the magnet exerts strong magnetic attraction towards ferromagnetic objects in the near vicinity of its pole gap or coils Loose objects can be accelerated to sufficient velocity to cause severe personnel injury or damage to the coils or precision pole faces if struck Keep ferromagnetic tools clear Arcing This magnet stores considerable energy in its field during operation Do not disconnect any current lead while under load or the magnetic field energy will be discharged across the interruption causing hazardous arcing Coil Hot Resistance Do not exceed the maximum coil hot resistance given in the specifications or coil overheating and possible damage may occur Interlocks These should always be connected if the magnet is operated unattended to avoid the possibility of coil overheating caused by excessive power dissipation or inadequate cooling Watches Credit Cards and Magnetic Disks Do not move magnetically sensitive items into the close vicinity of the magnet Even some anti magnetic watches can be damaged when placed in close proximity to the pole gap during operation Credit cards and magnetic disks are affected by magnetic fields as low as 0 5mT 5G Depending on the previous operating field and the pole gap the remanent field in the gap can be in excess of 50G SmT with the magnet power supply off or disconnected G W April 11 2003 Model 3474 System Installation Minimum Facility
59. ITEM 7 7 FILL IN SHIMMING DETAILS ON SHEET NO 5474 0001 lt PROPRIETARY FINAL SHIMMING METHOD This document eantains information propritary ta GMW Inc It must not be repreduced or disclosed to others or used in any other way in whole or part except as authorized in writing by GMW Inc 80900110 SHEET 1 mI TAKE MEASUREMENTS OF GAP TAPER AT POINTS MARKED WITH BORE GAUGE RECORD RESULTS BELOW TOP gt POLE CAP 150mm MAGNET GAP TAPER LOG 70 JY 70 Xx 70 _ 70 ___ xor MAGNET MODEL ______ DATA LOGGED BY _____ MAGNET SERIAL ND ____ DATA LOGGED DATE PROPRIETARY MAGNET GAP TAPER TEST This document eantains information propritary ta GMW Inc It must not be repreduced or disclosed to others or used in any other way in whole of part except as autherized in writing by GMW Inc 80900120 SHEET 1 mI 209 1014 Aiuojiu 1 656205 uonisog X 08 09 Ov 0c 0 0 09 08 00000902 000008072 00000012 000002 00000Ft 00000912 000008 N 000000 00000cc c 1591 00000rc c UOI ISOd SA X SIXy 0 7 07A SIXV 001 JON s1e9eds 6 0 7661 62 1 oe 409 904 60 ezinuog 3 NS
60. OASIS SIS coe wg OS CCB STS DE 91 11086 S S S OLW 1V1J YIHSVM 9 S S 201 YIHSVM 2 Zz Sv19n009 16 70 01 4673734 V 0 0530 SNOISIASY 9 8 8 9 51 Sve CET S310H DIN UN Um 02 861 2 6 MAS q3ziHOHIQv SV 1430 3 18Vd NI 310HM AYM Y3HLO NI Q3Sn YO 543 10 OL 035019510 0 5000 444 38 LON ISNAN ll MWO OL AsVviIdISdOsd IVILN3GIJNOO SNIVINOO SIHL AV L3ledOsd Y aT ODIN 34HVA LIOS 0460061 ev ouo uus DG 1718 5 Agi Ago 227 x sm 9629 208 089 04 2629 208 099 19 151 I3NOvNOH1D313 0520 fji 35 ONIVICH ONITION 08600814 2 13 99 SNIINNOW 1viNOZIMOH OSZLOGLII S S 59 X SIN 104 76 N v r S S Of X SIN 5 S 5 5 9 N 115 u3HSvM
61. OL 035019510 0 5000 444 38 LON ISAW CON MND OL IVILN3GIJNOO 5 SIHL 40 avos pre AN 0002 AVOOLNYV Y 1 1405 V o9 6 GY NOILOdPOMd 319NV IN31SAS ASSY LX3N A38 ON ONIMVEG 325 o G 940 SN Say pis 143600 LF 90 f X OT SUF 31111 00 XXX X 0 076 V9 50402 UDS DUjSnpu 666 szonvesio1 gis WONG WD 05 LON OG 16 50 50 1511 SlNVd 0530 YSEWNN 19 ALO 3 13 052 JSvH 0081081 48 ONILNNOW 930 Gr OELLOSELIG SS OS X 9IN 1108 226 NIGIS y S S OLW 1W13 YIHSVM v StL 5 S S 9LN 001 YIHSVM zzi 19 SvVI9noq 9 16 20 20 15 3134 Y 0 0530 Add SNOISIA3M LS wed Te 8101 261 0
62. Requirements for Systems with Field Reversal High Precision Systems and High Power Systems installed in North America Floor Space Magnet Floor Area 830 x 830mm 33 x 33 Floor Capacity 1800kg 3 9801b Power Supply amp Rack Floor Area 700 x 900mm 28 x 36 Floor Capacity 100kg 220Ib An area for access to the Magnet and Power Supply must be provided The total area for the system and comfortable operation is about 3 x 3m 10 x 10ft The area should be clean and free from obstructions Electrical Service Systens with Field Reversal or High Power System High Precision Systems MPS Power Power Supply Power10 P83C 100150 Power10 P86C 100200 Danfysik 853 160A 80V Voltage 208Vac Three Phase 208Vac Three Phase 50 60Hz 50 60Hz Current 56 Amps per phase 74 Amps per phase Circuit Breaker 60 Amps minimum 80 Amps minimum Power Cable 4 Conductor 4A WG Min 4 Conductor 3AWG Min Mains Outlet Nema 15 60R or equivalent Hard wired in to electrical panel Mating Plug Nema 15 60P or equivalent no suitable plugs available Auxiliary Power for Rack Voltage 115Vac Single Phase Current 15A Note Due to liability and insurance reasons the mains power installation and connections must be completed by the facility electrician Water Cooling Water Temperature 15 to 20 C non condensing Specifications given at 18 C Flow Rate 15 liters minute 4 US gpm Pressure 2 bar 30 PSID Water Hose
63. dWv1O 9108 1 OL GIOSINVA 8 1 08910841 082108411 Cl 30 5 5 SOHS 0 X EN E el HOLIMS HOLIMS HOLIMS JIOH Y3A09 1 4JMOVYE 8 108 71 IVAY3H 0313130 Si m LTE 908 7109 ANN 76710811 91 S S MOIHL X WALES YSHSVM c 4 ON3 18 WJAOO VNIWSH3I Avg 18710871 81 LE 92 199 ONSYM 0782082 6 8 6 1 133915 il 90 8 vcl v 02
64. do 2 088 NOLLVOIHILN3QI 138V 0120060 IZZ p 8 60 0S2 yx TVNM3INI OL 3SV349 3SOdMf d TVM3N39 A ddv lt 5 40 WOLLOG WOM4 dn N31N39 NO 139 f T SLNNOW YOLOW GYW ell E 7 3Sv8 INIVIOY 0 1 ONILNNOW ZYOH 7 0 ONILNNOW 930 Sv vLvY 8 INILNNON 1933410 vrZv V C O g O g O 5 O S31O0H ONILNNOW E Od q sv1onoa 9 80 62 60 Z 3lON 1 dav 4 O O Sv 19009 0 12 L0 6 9 MON 8 SWSLI W3ll JO NOWISOd OHO Sp M O O Sv19nog9 151 Sivad SHO S310H OSNILNNOW QNA Gav q a L 9 91WN ZMOH MIIA dav 2 nae eee HE as ASIA LNON4 ASIA 401 ANY 035 YO OL 3901050 30 Qion oseis ps e sema e cse SNOISIA33 A v
65. payiy sjeoeds GG6LO 2661 AreniqeJ 7 eieq 0 de9 60 ezinuos 3 NS 90 002 998 4 ejod Ot L vZV SIXV X UOUN E SE SIXV 7 A TLIINHOAIN I LINOVNO419313 1 SJLVIOOSSY MAND Model Serial No Contract No 3474 140 09 C7955 GMW ASSOCIATES LABORATORY ELECTROMAGNET STABILITY PLOT Pole Face 200 mm Pole Gap 50 mm Pole Spacers Fitted Engr E Schulze Date 14 February 1997 Note 140A Fixed Axis 0 Y 0 Z 0 Field measurement done with MetroLab 2025 amp 1062 5 NMR system Field Stability 1 7649000 1 7648500 1 7648000 1 7647500 Field 1 7647000 1 7646500 1 7646000 1 7645500 10 16 19 16 33 16 48 17 02 17 16 17 31 17 45 Time Index 18 00 Temperature Stability 30 Water temp in Water temp out Ambient air temp 25 20 Temp C T 0 16 19 16 33 16 48 17 02 17 16 17 31 17 45 Time index 18 00 Filename SC7955 Stability Plot 140 Amps 507 GMW ASSOCIATES LABORATORY ELECTROMAGNET STABILITY PLOT Model 3474 140 Serial No 09 Contract No C7955 Pole Spacers Fitted Note 56A Fixed Axis X 0 Y 0 Z 0 Field measurement done with MetroLab 2025 amp 1062 5 NMR system Pole Face 200 mm Pole Gap 50 mm Engr E Schulze Date 25 February 1997 Field Stability 1 0022100 1 0022000 1 0021900 10 1 0021800
66. q vt Die Gp Aas 4C 5 INJWJJ NI NI J Talk SM eb O ADA 3NOVIN R SSY NOILVTIVLSNI 3415 14093 I3NOVM NOILYTIVISNI LNON4 WOLLOS NOLLVTVISNI 3V33 WOLLO8 NOILWTIVISNI 1NOY3 401 NOILWTIVISNI 401 X e tty X EZ 2 LA 0 Aa Sv19n00 9 0 10 01 119 NOLLO3T3S 01 1675 00 8 Scan EST 5 86 11 60 35734 148 V CAZIMOHIAW SV 1d30X3 leva NI MO AYM YIHLO NI 0350 YO SYSHLO OL 035019510 YO 03910409433 JVMQ NOILdINHOSAG Add 38 LON ISAN Li MWD OL TVILN3GIJNOO SNIVINOO SIHL SNOISIAJ amp H L3lHdOMd 2
67. rated lift truck or a traveling crane It is the responsibility of the facility to provide the means to move and lift the magnet for assembly on to its base and move it to its final installed position If the means to do this 1s not available in house the customer may be required to hire an outside rigging company to lift and move the magnet Scheduling of the riggers is the responsibility of the customer Should the installation time be extended due to problems with the rigger scheduling GMW reserves the right to bill for additional time beyond the original contracted amount Important Due to liability and insurance reasons the mains power installation and connections must be completed by the facility electrician The GMW engineer will not complete the mains power connection Please ensure that the facility electrician 1s available to do this work 955 Industrial Road San Carlos CA 94070 Tel 650 802 8292 Fax 650 802 8298 Email sales gmw com Web site http www gmw com Section 3 INSTALLATION Caution This is a heavy system The magnet mass is approximately 1800 kg 4000 Ib so lifting equipment of this capacity should be used to shift the magnet Two lifting eyes threaded M33 are provided and they can be used in several holes Be sure to ensure the eyes are screwed fully home before use Flexible lifting slings of at least 4000kg 9 000 Ib lifting capacity are recommended to avoid damage to the magnet All movement lifting and ins
68. the flow can be reduced until the hot resistance is approached NOTE This adjustment must be made slowly enough to allow for the thermal inertia of the coils 3 5 Section 4 OPERATION General The magnet operates as a conventional electromagnet 1 Adjust the poles to the desired gap with the poles approximately symmetrical about the center magnet line To reduce mechanical backlash when the magnetic field is applied it is best to set the poles by increasing the gap 2 Adjust the cooling water flow to about 15 liters min 4 US gpm For operation at less than maximum power the water flow may be correspondingly reduced 3 Turn on the power supply and increase the current until the desired field is reached Calibration The induction curves may be used to estimate the field in the air gap to within four or five percent More accurate field determination may be obtained by deriving experimentally a calibration curve for the particular pole and air gap combination being used Magnetic hysteresis in the yoke and poles can cause an error of 30 to 70G 3 to 7mT with an arbitrary application of such a calibration curve This effect may be reduced to less than one percent by following a prescribed current setting schedule designed to make the magnet forget its prior magnetic history The schedule should of course be used both in establishing the calibration curve and its subsequent use A possible schedule would be From ze
69. 091 99 4 9104 Or L VALV UONISOG SA 4 1014 ALIWHOHIN LANDVNOYLOA TS AHOLIVHOGSVI 5 1 10055 MIND 209 1014 Aiuojiu 1 656205 uonisog X 08 09 Ov 0c 0 0 09 08 0000002 0000022 00000726 00000902 00000802 000000672 00000266 N 000007672 000009576 1591 000008676 lt SA X SIXy 0 7 07A SIXV JON s1e9eds 6 0 7661 62 1 oe 409 904 60 ezinuog 3 NS 091 99 4 9104 Or L VALV UONISOG SA 4 1014 ALIIWHOHIN LANDVNOYLOA Ta AHOLVHOGSVI 5 1 10055 MIND LOGE 10914 AWWIOJU 99695 4 uonisog X 08 09 Ov 0c 0 0 Ov 09 08 000008771 0000008 1 00000 8 0000078 0000098 1591 000008871 0000006 E 0000026 0000096 UOI ISOd SA X SIX 027 0 A SIXy 001 JON sJeoeds GG6LO 1661 ez a18Q de9 ejog 60 ezinuog NS 90 OG 3984 071 715 10504 SA 4 1014 ALIIWHOHIN LANDVNOYLOA Ta AHOLVHOGSVI 5 1 10055 MIND LOGE 10914 AWWIOJU 99695 4 uon
70. 1 g 10S x 50155344402 NiMdS g 192 X v ONINdS lev Male OMY zz Sulvd 3013 5 9 318vO 8 8 N9 81 D 5 55 X 5205 zie niaje CSS 52 5295 cie 5 5 55 __ Ill M l Bi Eum S S 91 X 9N SHS 216 S S GN SOHS 6 lez PO 0 94 32 GH MOT 91 X OW 50 5 902 rz S S 91 X GH M3soS 86 sz S S 91 X SW GH Nvd 3405 vegez foz 5 5 91 5 5 916 Zz TPSLS ONINdS Q388lM Zii X 3HSVM 26 ez TPSLS ONINdS 93999 11 X SW Zz6 Ngl py Jez S S 91 X OIN 1VlJ YSHSVM ecr fos S S 9 x 1 14 uausvM ls ms NH S S OL X SN 1914 H3HSVM 8 ze zu S S GO X 1 14 YSHSVM es x 9 S S 60 X SW 113 3HsSVM re H 7 S S S O X OLW 201 INI 1619 9 3 E S S S O X 4901 INI 3HSVM 4679 foc gt Bs m S S X SW 4901 1NI H3HSVM 46 9 Ze O S S 60 X 81 X WIHS H3HSVM 97 es S S ____ 726 6 S S 8 QW LAN ves fo AVM ZL 001
71. 10 10 10 10 3543 148 CGZIMOHINY SV 1d30X3 NI 0 310HM AVM Y3HLO ANY NI 0350 0 SU3HIO OL 035019510 YO 03200044394 3iva NOlLdls2S3Q ISNW DNI MND OL AMVi3lMdONd NOLWNYOINI TVUN3GLINOD SNNINOO 9NIMVHO SIHL SNOISIA33 ASV L3lidOsd m 0004 AVOOLNV 305 325 29 559 01800611 40018 Eesti JANC 109 032190100244 0L0v6 VO 50402 UDS V 31111 8608 208 069 x 4 0608 008 069 191 pu aya DLnsnpu 031510395 SSIINN 1 666 S3ONV331OL 9 SNOISN3WIO 3190 TEE AA JAL 9 SY 8988 5 151 S13Vd HOLI S S SS 2 svionog 46 10 10 _ S dS 60 X EN 5 45 4201 YIHSVM 26 NG ALO m i 5539918 5 8 EN Bs 5 45 SO X ZN 5 45 001 3HSVM Nal9 NOlLdlM2S3Q N38ANN _ PTI dOlS 07010671 HOLIMSOYOIN 0832 I340vH8 085110641 5 I349v498 09110671 MSOMOIN 0832 14VHS 6 1 5640408 HOLIMSOMOIN LINYA OL X SOHS 1108 OL X CW SOHS 1108 616 5 40 MIA 319 5 144 2538
72. 12 5mm I D 2 rubber 2 x 5m long minimum Plumbing Fittings To connect 12 5mm hose to water source and drain It is recommended to have a 50 micron water filter to trap debris on the facility water source and shutoff valves on the water source and drain System Computer if required and not provided by GMW Processor Intel Pentium III SOOMHz PC or better Memory 128 RAM Free Drive Space SOOMB Interface 488 GIPB National Instruments GPIB PCIUIIA P N 777158 01 Monitor Resolution 1024 x 768 or better Operating System Windows ME 2000 XP pro NT4 Lifting Equipment for Installation Forktruck or other lifting device with minimum safe lifting capacity of 2000kg Nylon Slings with minimum safe lifting capacity of 2000kg Continued 955 Industrial Road San Carlos CA 94070 Tel 650 802 8292 Fax 650 802 8298 Email sales gmw com Web site http www gmw com GMW General The Purchaser must provide all equipment and labor for delivering the equipment from the delivery dock to the installation site You should have a User Manual for the Model 3474 250mm Electromagnet and for the magnet power supply Please provide these to the person who will be responsible for the System installation If you do not have the User Manual or need to discuss details of the installation please call GMW If a GMW Engineer is to supervise the installation any delays caused by inadequate preparation may result in additi
73. 28 LZ OI INN NS MAS G3ZIMOHINY SV 1430 3 18Vd NI 310HM AYM Y3HLO NI Q3Sn YO SYSHLO OL 035019510 YO 030 00 3 38 LON ISAW CON MND OL IVILN3GIJNOO 5 SIHL 30 cL 1334 avos Zu 0002 Qvooinv yy JYVMLIOS V 076006 GY NOILOJPOMd SIONV IN31SAS ASSY LX3N 3ZIS HSING OIN Gr ETE ECON A SOF XX ASSV dSvH ONIIIOM 31111 00 XXX X 8628 c08 069 x04 0608 008 069 191 L awp 0 076 V9 50002 UDS DUjSnpu 666 SNOISN3mI0 Eus gis INIMV30 WO jlv9S LON OQ 16 00 01 M 2 1511 SlNVd jlON 0530 YSEWNNN LWVd ALO WALI 3N9VWOMIO3 T3 uu 0621071 15 4 0660061 Z INIINNON 930 Sy
74. 303 00910811 ON 33S S3lM3S NMOHS SANIT 1100 ONIMHIMA 2 Fe 405 51 191100 YIMOS OV Q30N3AWOO3M pesn you ONIASS 15 5 LVSH S3MIM 3349 FIV In SNI 7 371 lt 00 F XXXX VO VOS M3xv3M8 OV NIVA Q30N3AWOO3M H 441 103 628 208 059 2628 208 099 191 ro onon UNE 04076 YO 50002 UDS 5 666 vez vaz var 1N3NMhO QVO TINS NANI Ov 1V AlddNS NO 9 Nid 9 S Nid N33A138 ANT MONIS V 80 c0 01 svionoa o pem Reon RDUM Sa 8 WIL 09 WAL OL S3SIM MOTI YSLVM N3349 ANY 2 V ISI Slava eS EUR 3NOVW S3lJ3S NI Q3XNI1 SMOOTYSLNI ANY N31VM I3NOVNWN SoS SMW SEE ATEN SIN3A3MIQO3M 71991919973 W3ISAS Q 31ON 9059 51 VW3N 00000691 ON Lavd i f 318 2 MOOTNSLNI INIYSNO Jl 5 v 05 9L 3400 v OS 3dAL 37870 5 81 WNW OS 318 2 OPS 3dAL 3NOO v 11414 S3MIM N33M9 ANY ALIH d
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79. ETARY MAGNETIC PLOTTING AXIS This document ecantains information propritary te GMW Inc must not be reproduced or disclosed to others or used in any other way im whole or part except as authorized in writing by GMW Inc 80900010 SHEET 1 OF NE gt SHIM SHOWN FITTED POLE 90 DEG POSITION 5 90 LN 180 0 D 180 270 270 YA QT POLE SHIM DETAILS NUMBER THICKNESS POSITION A eee MAGNET MODEL DATA LOGGED BY MAGNET SERIAL NO __ DATA LOGGED DATE This document contains to GMW Inc t must M A GN E F N A L H N G LO G not be reproduced or disclosed to others or used any other in whole or part except as authorized writing SMW Inc 80900100 SHEET 1 OF 1 mI mn VIEW AREA SHIM STOCK gt SS UNDERCUT AREA 01 DEEP INI S SHIM STOCK CHAMFER 1mm cO M 4 PLS 1 1 DOUBLE SIDED TAPE VIEW AREA SHIM DETAILS THROUGHLY CLEAN AND DEGREASE AREA WHERE SHIM IS BE FITTED CUT SHIM STOCK DIMENSIONS SHOWN APPLY DOUBLE SIDED TAPE O 1mm THICK AREA SHOWN FIT SHIM TO POLE FACE ENSURE TAPE IS KEPT WITHIN UNDERCUT AREA REASSEMBLE POLE CAPS MAGNET REMAP MAGNET IF RESULTS WITHIN SPECIFICATION THEN GO TO ITEM 7 IF OUTSIDE SPECIFICATION ADJUST SHIMS REMAP THEN GO TO
80. Ew S JYYMLJOS LJNDVNW OLNO A IEWJSSY p ATE EAT A 113 NOILOdPOSHd 319NV IN31SAS ASSV LX3N JINVA eld JM IMS 4 J dS 9 1715 291 Z 89 00910811 7 E 8 02 HOLIMS WOYS S GEV I 1138 MOS N3SSV QJ10O4JINVIN O ror JA vahe WSLS 3594 2491 WAS GVASHL fun goos WILS 55984 OINO 31914 3598 1390984 HOLIMSONIIN 31484355934 8628 208 0S9 a 7628 208 0S9 191 031310345 DUM Ly g P DOUG wn eo WO NS DU A 081 599 es e ONIMVHO WO MVD 11 25 LON Od 56 92 90 2 JJAUI H LIMS M 3 JAUN33 T LSI 514 ALON NOILdlJOS3Q YSEWNNN ALO H LIAS ME TA 40 5 11114 ANY NBILVOIJIGCHRA SNOT NALSNI MOTA N31V leno 04600607 ON Lavd IN NULLO3NNUO 43198 739 o lt M3YIS 035 4315 55946 d 089108 1 ON Lavd 0
81. G6 e SNOSNOMO MITO NUS vC 1511 ulucO0 53943 de S IV one 424148 SVH 431 940 ONIMOVd 7 75 31943 Sid M38YIS 001 X 219 34 2 3 9NV WW 21 X 001 X OST bone RE lt en DNINOVd 3N3NdD3N EN Sid 21 GHSVA 1874 NV Layovad_ NOS 135 06 X OEW Sy C00 01 108 1 2 Deer m E 493 3108 0 11317 9cl psp E 2 Y e O DEI 124 d E emm C IH a B O C Sv19n00 9 66 52 80 310N QOV 8 ae NILSVIA V 76 10 11 35734 148 V Laas UL Sid F O3ziMOHinv SY 1430 3 L8Vd MO 310HM NI AVM 33H10 NI 035 SIFHLO OL 035010510 YO GSONGOYdSY 31 0 NOlLdlJ2S3Q di4NIL OS X OS 38 LON LSAW ON MS OL AMVI3IMdOMd NOLLVINMOJNI WILNSCISNOO 5 5 SNOISIAJ amp H AV au Z T 5 y E
82. GMW USER S MANUAL MODEL 3474 140 MODEL 3474FG 140 250MM ELECTROMAGNET Date Sold Magnet SN File No M3474h 407 doc Revision Date July 2009 G 955 Industrial Road San Carlos 94070 Tel 650 802 8292 Fax 650 802 8298 Email sales gmw com Web site http www gmw com TABLE OF CONTENTS SPECIFICATIONS Table 1 Model 3474 140 General Specifications Table 2 Model 3474 140 Electrical and Water Connections WARNINGS Refer to this section before operation of Electromagnet INSTALLATION Facility Requirements Unpacking Instructions Mounting Position Pole Selection and Installation Electrical Circuit Interlocks Cooling OPERATION General Calibration Field Control Operation MAINTENANCE STANDARD OPTIONS Heat Exchanger Cooling System Motorized Rotating Drive Bias Coils Pole Spacer Probe Holder CUSTOM OPTIONS EXCITATION CURVES TEST DATA Magnet System Open Loop Stability Plots Magnet System Closed Loop Stability Plots Magnet Field Uniformity Plots DRAWINGS See list of drawing on next page Section 1 Section 2 Section 3 Section 4 Section 5 Section 6 Section 7 Section 8 Section 9 Section 10 TABLE OF CONTENTS DRAWINGS Elmwood 3450 Thermostats Johnson Controls 61 Series Flow Switches Drawing 11801602 3474 140 Electromagnet General Assembly Drawing 11801603 3474FG 140 Electromagnet General Assembly Drawing 11901430 3474FG 140 Electromagnet Fixed Gap Genera
83. HS WHOM 09000621 PCOLNE CHN6ES 2 9 MJIA le 6 E 2 9 E 4 19 0079 90 12 80 4 310N 8 9 OL JONVHO 3 4 19 0079 80 10 0 8 WIL JONVHO svionoq o 86 80 0 Nau SHO 3 svionodq o 6 2 1 Wall SHO 310N LL Wall ONI MNO ONILIYM NI svionoq 9 16 10 0 35 3134 SV 1d3OX3 NI YO NI HN EE E IVILN3GIJNOO SNIVINOO SIHL SNOISIAdM _ y S 9 L 8 eddlfidWOO 44 YOLOW e amp ddda3lS ed 21 ox 9628 208 009 7609 000 069 291 AZ 03112345 3SIMY3HLO 5531 01076 SODO UDS 666 a Od 989 98v WnllN3d 21 25 LON OQ 310N 1953 YISNNN 1599 ALO A LAdGNI ASMOd 23V 7019 01700691 41892 SNDILVOINDQWNWDO 1914345 00700691 31449 HOLIAS LIWII g ANUS SON OM 445 A Ie dos
84. I ISOd SA X SIXy 0 7 07A SIXV JON s1e9eds 6 0 7661 62 1 09 dey 904 60 ezinuog 3 NS 091 19004 9104 Or L VALV UONISOG SA 4 1014 ALIIWHOHIN LANDVNOYLOA Ta AHOLVHOGSVI 5 1 10055 MIND 7069104 AWWIOJU 99695 4 uonisog X 08 09 Ov 0c 0 0 09 08 00000611 00000 A 00000911 000008171 1591 00000021 00000cc Mai 000007271 0000090 lt SA X SIXy 0 Z O A SIXy YOOL peny JON sJeoeds 986 0 1661 gz ayeq OZ de9 ejog 60 NS 90 091 8084 Ot L vZV UONISOG SA 4 1014 ALIIWHOHIN LANDVNOYLOA Ta AHOLVHOGSVI 5 1 10055 MIND 7069104 AWWIOJU 99695 4 uonisog X 08 09 Ov 0c 0 0 09 08 000000F 00000 N 0000077 00000971 Y 000008771 000000571 00000241 1591 0000074 000009571 00000881 UOI ISOd SA X SIXy 027 0 A SIXy JON 5180845 GG6LO 7661 gz a1eg 0 dey 60 SNA NS
85. INI MS Y31VM MS dl MS me AlddNS YAMOd 09 L NO8 CoS IJIGOW MISAJ3NVO 405 651 VWSN 7 EE SNIVIN 2 Sv19N0d d 6 72 20 jsv34l34 14 0 530 Adu SNOISIA3M DMv v WW OS aif 318VO SNIQ 13M O z WW OS OZ NNOy 1 COW 318VO ONIG TIM MWO A8 ONILIGM NI 3ZIVOHLAW Sv 1430 3 YO AVM 03SN YO SYSHLO OL 03501950 YO 0391909939 38 LON ISAW OL AMBVIdIddO3Hd WILNSGIINOD SNIVINOO SIHL Advldldd0dd 8 _
86. IT 8678 7081059 Tad oca PL rnas SNOILOJNNOO LNSYYNO NMOHS 13N9V E WAIN EM Te 80 3SVHd YSHLO SONIIVH 5 y a m Ov X04 05000661 NO 318Vl OL YA Em TIED STET MH ETC OV 80 3SVHd NMOHS Alddns A NET 709 41892 MOOTYHSLNI 9 0000069 330 Y NO v 1 48 AUM WWG NOTAN 318995 79500 IZ JION SAHOLIMS NO 401 4V8 TAN SAISSHOV 318995 978019 a 2 No zl S N INVAYJE v0g 3svHde dNOGP8 c 4 LE A S NIM3LXINV 34309 v OS 31890 0 0 G HIA AGIA 440 40 440 1 CMS HOLIMS d IOLIMS did HOLIMS did OLIMS YSHLOW AIddNS SONILLL3 HOLMS lt 58 OW MISAANVG 4 1 1 SNOILOJNNOO 31 jm a nte AfidNI OW SCN 75 N N lt UTA N N SS SS SS X Y 9 LA 4 M3MOd LNdNI OV ONIATddY 390338 SIN3W3MInO3M 094193 AlddnS M3MOd HOLWN AQNSNDSYS 9 M3MOd Ov xxx ONINSVM OI 55559 t MNS SNILISM NI Sv19n0Q 9 196 2 Z0 jSV3 13M Q3ZiMOHifV SV 1d3OX3 iMvd NO 310HM AVM 8310 pev n Es 47 BG EE EU SNOISIASY 4 y A 8 _ Z
87. L MAIA AVAA 5 OMY 3800 v 05 JdAL 3180 aa YIMOd INdNI OV ONIATddY 380438 5 3141035 Aldd S M3MOd HOLY AON300344 JOVLIOA M3MOd OV YOSHIO ONINSHVAN xxx m g 43 AlddNS 83 gt 4 33N Od JAN Lo S6380UV 3331 2 2 2 AlddNS 4 VOSLOOL O 8d JIAGOW Nd NH3MOd a LINSVNOYLOSIS IGON q 86 20 01 54 v uS fo CH MOLD SNOISIASY 31 B 7 9 A 9 2 5 9 2 3O 133HS Dx SIN 31 95 0004 AVYOOLNY L 3 3NVMLJOS V 08 0069 LV NOILO3POYA QSIHL WALSAS ASSV LX3N ren on azs Agi co 43MOd OV 80 dSVHd SN AlddNS YAMOd SMOHS 31O0N VOGLOOL 2 8d v vs E Z E e 8 91 azis si8vo ov OSONJANOOSH
88. Maximum Catalog Iniet ME ET 9 Liquid Liquid Number RtoY Closes R to Y Opens Temp F ressure Female NPT T one Pressu ype Flow increase Flow Decrease C PSIG kPa Minimum 6 0 14 Maximum 1 1 0 25 Min Liquid Temperature F61KD 32 F 090 F61MD 20 F 29 C Dimensions 5 z in H 4 in W 27 6 in D TO ORDER Specify Catalog Number only ELECTRICAL RATINGS 208 240 Motor Ratings VAC 120 AC Full Load amp 16 0 8 8 8 0 AC Locked Rotor amp 48 0 S Non Inductive Resistance Load Pilot Duty 125 VA 24 277 VAC Minimum 3 0 07 Maximum 0 9 0 2 Series F61 ACTION ON INCREASE OF FLOW F61KB 11 Reptaces McDonnell Miller FS4 3 F61MB 1 Replaces McDonnell amp Milier FSBV 12 iM 3 Y 9 7 2 5 Dx im pil avos
89. O MINI NIIN 30 aS nea 9 SH AA NOLLO3MIQ ONIGNIM S S S m INdNI BR d 054 061 050 GON NVIdOOV 5 M3MOd 1100 5 E ES p 4 MIA 1NO3J V V NOILO3S MNO ONILIYM NI SVISNOd S 00 20 71 Jsv3lM V CAZIMOHINY SV 1430 3 lMVd MO 310HM AVM NOLLdlS3Q ION ISAW MAD OL NOILVINMOJNI SNIVLNOO SIHL SNOISIA33 31 B 8628 208059 04 76Z8Z0N0GD 281 ayo onmes ODE VO AID PODMPSY 8 50 Old sama y usan 31498 JON Lb a SV1DNO0d D NDLARDEI MN a Nil WINOSZ 33N9vWOH1O313 AIGWASSY 930945 5109 09 0611014 13315 SNhdS ISIA NMdS SLCINS Z V 111130 d Y 2289 SSS ae 4 SS o E E GS 9 a IINIVNAOY4193 13 7275 1300 5 0 5 92 00 85 3984 meer SNOISIASY C C AX 0004 Qvooinv YY podes L 1334 by 721 aos JuVMLJOS V TP CV NOLLO3POYA STONY CHIH W31SAS ASSY 1X3N ON 375 Aco HSIN 990 ERAS ONIN MJ
90. OLVINSOJNI IVILN3OIJNOO SNIVINOO SIHL Advil 30 By 9305 7 Y 405 sacs d 99260540 GV i j19NV IN31SAS ASSY JND ZW el 9 ie S 4 72448 d T Qvooinv YY CN A3M ON 9NIMYMQ 3715 E 010008684 SE VLVS v WNICAW LNSWNALSN JILL 0 0 XXX X V 8608 208 059 03 2608 008 069 181 FESS smao seny ue emm 53003 dNVHS 119 AVISE 9076 VO ANO 8 07 O d svorsvanic ATE gra ISINNV ro SA ces oS EVA TI 3ivd SH SIMVd d LUN SLON 53 199 m 029 8 086 ES 9 N s 096 0951 g N
91. OO N3dO ATIVAWHON S3Sn HOLIMS 9NIWOH 9628 208 099 XD4 z6z8 c08 0c9 181 04076 SOLIDO uos GGG Szwmwsor N3dd3lS X04 O3Sn S3MIM MOVIE XIN LON OG SMIvd 3349 WOMJ S3MIM MOVIE JSN Sos ton 57 ION 310N u38WnN leva ALO poda tonc ore uu datus AL M MA rh ems a tea A he om e SMIVd UILSIMI y 43T1OMINOO 30 NOISY3A 0101 MOLO3NNOO AVM 6 M3TIOMINOO DNE Nue ee ui gt xc amas fs BMC mers UJ B FC UJ 70 x pz NOILOW 3318VN3 01 NIA 3LON 33 5 m3 c gt 3 gt E 55 m 2 A Al S3HOLIAS LIWIT1 9NIWDH zs ps D a 3 8VN3 01 ANIT 4377054409 30 NOISM3A 1N33302 N N N S N S a MOLO3NNOO AVM OL N3TIOMINOO Heb EL LES 5 2 9 G a G 8 VS SO Y Y Y Y Y Y Y Y 4 Y UJ 2 w lt 27725 401129499 3NEE D I le m z um O 5 2 PN NOILOW 3718VN3 OL NIT S3HILIMS LINIT ONIWDH NMO38 DAREN 318VN3 OL SANIT NOILISNNOQ 47315 AOV Ig 2v18 Y 2018 Ly Ov A SNOILOJNNOO 531435 NMOHS YOLOWN E 54194 Q31SIA L I JESS
92. OVdS 3104 Hees lL 0 0 9628 208 009 x04 2629 08 099 191 _ t 43110345 ISIMYJHLO SSIINN 7906 VO AQ poompay 8 GZ O d lt SNOISNINIG MANCO 41405 LON Od 16 52 20 A LSI 514 SLON NOILdlM2S3Q YJgJNWNN ALO 1349 M3OvdS 3104 0970061 OINVM3O 5430 5 310d 069006 11 C 14 5508 311015 MIYOS 135 SL OUN8 a 7 NOILOJ4S Er NOIL OJ4S Sv19noQ09 16 62 70 35734 148 V 3ZIVOHLNW SV 1430X3 bn E SON ME WE NI G3SN MO 58310 OL 0ISOTOSIO YO 31v0 NOLLdI2S3Q A3M 38 LON ISAW MND OL AMVI3lMdOd SNIVINOO SIHL SNOISIAdM 9 v
93. PECIFICATIONS Table 2 Model 3474 140 Electrical and Water Connections DC Current Refer to Drawing 11801602 11801603 Right hand terminal Negative Left Hand terminal Positive Ground An M6 screw is provided alongside the dc current connections to enable the magnet frame to be grounded according to local safety regulations It is normally appropriate to connect the magnet frame to the power supply ground Interlocks Refer to Drawing 11801602 11801603 1 Water flow Normally open Closed when flow 2 Water flow over 10 l min 2 7 USgpm 3 Overtemperature Normally closed Open when coil 4 Overtemperature temperature exceeds 50 C 5 No connection 6 No connection 7 No connection 9 Control ground Water Refer to Drawing 11801602 11801603 outlet 3 8 inch NPT inlet 3 8 inch NTP mating couplings for 1 2 inch hose provided CAUTION Ensure that the high current connections are tight Loose connections may lead to oxidation and overheating The field stability may be degraded and the current terminations damaged 1 2 Section 2 WARNINGS REFER TO WARNINGS BELOW BEFORE OPERATING ELECTROMAGNET Personnel Safety In operation the magnet fringing field is in excess of 0 5mT 5G This can cause malfunctioning of heart pacemakers and other medical implants We recommend that the fringing field should be mapped and warning signs be placed outside the 0 5mT 5G contour Entry to this region should be restricted to qualified personnel
94. TWILNSGISNOD SNIVINOO SIHL INO de a 7 Y AX 0004 Qvooinv YY
95. V MOO18 dOLS NO G4LNNOW S3HOLIIMSOSOIN NOlllSOd 930 004 LV NOILVLOYN 54015 SLNN NOIISOd 034 00 OL 531108 ONINOH SNOILONN4 5 E 191519313 0 0550066 335 INJISAS 403 IVOLLN3GI 131645 L0ZG ZLv 4Lv SMOHS 71 svionod o 0 00 0 s31dH DLW aav NOLLSISNVYL 30 3715 YONI 8 svionodq o 96 1 0 2593134 dOL 1d3OX3 NI YO TIOHM NI AVM E 3iva NOlLdls2S3Q Aad SNOISIA33 a 7 Y 9 L y S 9 L 8 1 2 00004 1 L 3 1305 3 OS2 0062 Luouosroue mow 9 SISVMNMOCG ONIMOOT AJda dOL 4 O OJ3MJIA 35V8 ONILVIOS OL 030 343434 MO MOO NOILVLOS 325 Aor Aso 10800611 LOS O3ZIHOLON 7 A NN PRA SIOVINOO 03S019 ATIVAYON 3SN SSHOLIMS MO MOD 19VIN
96. Vd ALO UU LU 30038 092406 1 LNdNI 30 Ol ONIGNIM JO LYVLS 193NNOO 72 IMVIZ SUN 001 INIONIM 0177061 2 2 Senes NMOHS Sv NOILO3HIC ON S 1300W 138v 00700601 2 SHO 004 5 06 O ZONVISISJM 109 ONIONIM 10045 OL GILLA SI 1102 340SN3 71 31015 H 5301121412345 39 0670060 a 07280196 101 395 A 9NIAJJ 9 1IVOOM3A3 aNnOdWOO 9NILLOd LES M V L nno 1 10611 LYVd 19710611 ON 18 4 7109 5 svig SLIHM 9v 18 3193NNOO 531855 NO 51100 Svg LON 39018 IVNINHL 1 PAS PN TVo MINI NININA 30 QUE yovga mel 5 NOLLO3MIG ONIGNIM O S 5 O i c a O c OCLXNOSOd3 NVIdOOV AlddNS YAMOd 1100 5 Ly 2 V 3 4 1NO3MJ V V MIA NOILO3S svi9noq 9 00 50 21 ISI v ANY 0351 YO SM3HIO Ol 445012510 YO 43914909434 44 0 NOILdIJOS30 A3M 38 LON ISAW Ll OL AYVLEIYdOdd NOILVINMOJNI SNIVLNOO SIHL SNOISIASY AYVIFINdOYd y 7 Y
97. age 4 of 7 Date March 03 86 Customer Engr R Gummer 3474 Power Supply Set Current 01 Serial No Target Field 100 mm Position None Notes As per table below Pole Spacers None Field in Tesla 80 100 Current in Amps Filename 3474 100 10 150 xls GMW Associates Electromagnet Excitation Plot Field Vs Current Page 5 7 Date Feb 4 03 Engr Y Qin 3474 Power Supply Set Current 48 serial No Target Field 75mm Position None Notes As per table below None Field in Tesla 80 100 Current in Amps Filename 3474 Ex 75 10 150 GMW Associates Electromagnet Excitation Plot Field Vs Current Contract No Page 6 of 7 Date March 03 86 Customer Engr R Gummer Model 3474 Power Supply Set Current Serial No 01 Serial No Target Field Pole Face 50 Position Serial No None Notes Pole Gap As per table below Pole Spacers None Field in Tesla 80 100 Current in Amps Filename 3474 50 10 150 xls GMW Associates Electromagnet Excitation Plot Field Vs Current Contract No Page 7 of 7 Date March 03 86 Engr R Gummer Customer 3474 Power Supply Set Current 01 Serial No Target Field 25 Position None Notes As per table below Pole Spacers None Field in Tesla 80 100 Current in Amps Filename 3474 25 10 150 xls Section 9 TEST DATA E E FRONI VIEW SIDE VIEW PROPRI
98. coor CX 9628 08 0 9 2628 208 0 9 191 AMNI _ 5 P 43110345 3SIMM3HIO SSIINN 79076 AQ g GZ 74 ai seus ONIMVMO MID Sos LSI 515 10 NOILdldHOS 4 MJ8NRQN LYVd ALO Dm ld 05810 e 1 lt 43003 daVvHs 14 9348 NIH Id 5 lt 1149153 INYNOS M3NND9 3 93 00081 ININIHOVW WOIldAL 69060 00 08 OST 0S gt NILYN Y 26 80 21 NMVMO3M LJVMO NOILdINHOSAG SNOISIA3M 5 5 M3HSV SNISdS S S N3HSV 1974 S S 1708 S2 X 9IW 8 ALO 53411934 33d 135 1708 3091 931 1 NAVIA SY 931 53 003 1 33d 01000856841 1S8 3d 1 31 WOIG3W NYL LIN3WQOSISNI LNIVd HSINIJ 11 S 607 SS 19 685 pee e o0 GY TUVLAd Gas Sid ed avd SW OL X 06 11979 SW wu 9 MIND NI GAZIMOHINY Sv 1430 3 NI YO FIOHM NI AVM ANY NI 0350 YO 543 OL 035019510 YO 93514904434
99. dO3N 9 5 5 YIHSVM SON c LY LO yel FOS i GNNOND 38Vi 06900601 8v SNOIIO3NNOO avi 07900601 L 0313130 0S 54074 21011575 SOMS 8 X 9121716 0313730 ZG NI oe 046 57 0081 SSVN i 19Y1 OL MOT38 N3dO 3490 1431NI lt 2 06 3AO8V N3dO IWNYSHI pisd og 209 02 wdb sn y 9NM009 LE ALGA AvL NOYL XV Oe ONI 1009 22 15 43MOd XV uuo yS 0 3ONVISIS3H wyo pr O 3ONVISIS3M 2 04 o 59 S pe1oeuuoo salas 51109 M OG GZ 001 OGL 002 Q3N3dVI 011 WWOSZ WOINGNITAO 5 310d Ez vt TEST us NS 51130 09710611 ON ATSWSSSV 3104 dvd Q3Xl4 335 lt 9 D D lt ae 9 lt 9 0 9 Q3XIJ 4 9 30d 62 v2 Lv Es 011 wwosz 310d SIIVI3d O9 10611 ON ONIMVYG 55 0 1 335 lt 5 52 SNOILVOIJIOJdS STIVISG 08610611 18 1355 71991419373 335 lt 2 WNOWdO AMIN3 318VO HI NMOHS AXINI 318VO EKS v WALI LAN 61 Wall HONSYM GIOH 440 MOVE dvO 3104 OINI ATING 9 1108 3104 TIVISNI lt Z 21 AB ONLLIBM NI
100. de ierann The 2 tolerances shown have been established after careful review of many thermostat applications Amempes be made to establish the wides acceptable tolerance possible For example ihe chis may list tidlerance oi 35 F 32 however 26 F 13 3 0 may be acceptable for the application ar reduced cox Note Temperature checking meibods may be dightly different and allowance for a 14 F 0 C variance sbauli be considered See Section B of the Terminal and Bracket Guide for dimensbonal characteristics Dwelectric Strength Operating Temp Aange Marking Weight UL and CSA Listings Mii STO 202 301 2000 WAC 50 Hz Terminal to Casa NEN Mi STD 202 Method 302 Cond B 500 Megotma 500 Volts OG applied 0 m 5 7 18 17770 Mi STD 200 Method 307 50 0 5701 285 I ERE Grame Brackets and wire taada not Included Phelonic Terminale Plated Brass Sigel Ciosura Aluminum 5rainigss Steel or Brasa Brackets Aluminum Stankees Meel Brass Lomacte Sivar UL amid CSA Listings are for use in equipment where the accentahility af the combinacion of the thenmosiar and equipment is determined by Underamicrs Laboratories inc and or the Canadian Standards UL Pile Fie 544489 3455RBY oniy UL File 34396 only CSA File 21048 F61 SERIES PENN FLOW SWITCHES 21 F61 SERIES
101. eeve 5 Tape cardboard or something similar to the face of the pole cap that is not to be removed to protect it from damage 6 Support the pole weight using a sling and overhead crane approx weight 38kg 84lbs 7 Remove the axial retaining stud nut item 33 on drawing 11801602 11801603 8 Place the pole cap retaining stud wrench item 2 on drawing 18900010 onto the end of the retaining stud item 6 on drawing 11801602 11801603 9 Remove retaining stud item 6 on drawing 11801602 11801603 while supporting the pole cap 10 Carefully rock the pole cap to break the adhesion to the pole and remove from the magnet If lifting equipment is not available the pole cap can be removed using the pole cap removal tool using the following procedure Pole cap removal using pole cap removal tool Refer to Drawing 11801602 11801603 1 Turn off the power supply 2 Draw pole caps about 20mm into the pole sleeves so the tapped M10 holes on the pole cap are still clear 3 Fit the pole cap removal tools 11 on drawing 18900010 firmly into two opposite tapped holes M10 on the pole cap to be removed Tape cardboard or something similar to the face of the other pole cap to protect it from damage 5 Loosen the axial retaining stud nut 1 turn but do not remove item 33 on drawing 11801602 11801603 Use two people to support the weight of the pole cap approx weight 38kg 84lbs 7 Place the pole cap retaining stud wrench item 2 o
102. ieq 0 de9 60 ezinuos 3 NS 90 002 998 4 ejod Ot L vZV uulor LO ld ALINJOJINN LINOVWANO4197313 AHOLVHOGSVI 5 1 10055 MAND 70610719 10 d 9956 95 4 Z A X uonisog 0006667 002666 0076667 0096667 008666771 000000571 1591 wddoo 00200091 00700081 009000571 008000571 000100571 lt SA Z XCSIXV SIXV 161 payiy 592205 996 9 2661 AreniqeJ 7 0 de9 60 2 3 NS 90 002 998 4 ejod Ot L vZV uulor LO ld ALINJOJINN LINOVWANO4197313 AHOLVHOGSVI 5 1 10055 MAND 70 lt 5 Z x sjooeds 1014 666 25 WW uOliSOd 7 JO X Ge 0 01 G 0 G 01 0 Gg 900086 84 000566661 00009689 0 7 Sxe X wddg2 uddgz ____ 00089686 ____ 0 SIXE Li W 0000 6891 01 sIXe 7 e GX 7 F 0 X Z_y 0006 66 6 1 7 6 WUUYU 01 SIxe Z B l 02 SIXE Z__ _ 000086 S 00058662 Z X 51 07A SIXV 001
103. in detail to the shipper for claim and simultaneously notify GMW in case assessment of the damage must be made If no damage is found proceed with magnet unpacking and installation 5 Remove the M16 Hex Bolts that secure the magnet to the steel shipping angle brackets 6 Remove the hex lag bolts that secure the steel shipping angle brackets to shipping crate base and remove shipping angle brackets 7 Install M16 lifting eye and washer to top of magnet yoke screw down firmly 8 The magnet is now prepared for final installation follow the appropriate following procedure to install to 45 vertical or direct mounting Direct Mounting 1 With suitable lifting equipment e g 4000kg 9000 Ib minimum safe lifting rating lift magnet 50mm 2 clear of shipping crate base 2 Slide shipping crate base clear 3 Lower magnet to 50mm 2 above floor 4 Move magnet to final location and secure using the steel shipping angle brackets The brackets can be modified to suit installation space needs 3 1 Section 3 INSTALLATION 45 Mounting Refer to Drawing 11900480 With suitable lifting equipment e g 4000kg 9000 Ib minimum safe lifting rating lift magnet 50mm 2 clear of shipping crate base Slide shipping crate base clear Lower magnet to 50mm 2 above floor Move magnet to desired final location and place on 12mm 0 5 plywood sheet and wooden 100mm x 100mm 4 x 4 blocks refer to figure 2
104. isog X 08 09 Ov 0c 0 0 09 08 0000096 0000086 000000072 00000202 00000T0 c 000009070 000008072 1 0000001 000002 2 000007176 gt pe 0000091 1591 000008 lt UOI ISOd SA X SIX 027 0 A SIXy dwy Opt JON sJeoeds GG6LO 1661 ez a18Q de9 ejog 60 ezinuog NS 90 OG 3984 071 715 10504 SA 4 1014 ALIWHOHIN LANDVNOYLOA TS AHOLIVHOGSVI 5 1 10055 MIND LOGY 1014 GG6ZOS uonisog X 08 09 Ov 0c 0 0 09 08 000000571 00000931 00000751 000009571 1591 000008571 0000009 1 0000029 00000 9 UOI ISOd SA X SIXY 0 7 0 ZIXy 001 OJON peny JON sJeoeds 29620 ON 7661 62 1 0G aj0d 60 ON ees ezinuog 3 NS 04 39 4 90 OVL VLVE UONISOG SA 1919 1014 ALIIWHOHIN LANDVNOYLOA AHOLVHOGSVI 5 1 10055 MIND LOGY 1014 GG6ZOS uonisog X 08 09 Ov 0c 0 0 09 08 00000711 00009 1 0000082 0000008
105. l Assembly Drawing 11901360 3474 Electromagnet Water I O Manifold General Assembly Drawing 11900120 3474 DF853 Electromagnet Electrical Assembly Drawing 13900030 3474 DF853 Electromagnet Electrical Wiring Drawing 11900310 3474 P83C 100150A Electromagnet Electrical Assembly Drawing 13900380 3474 83 100150 Electromagnet Electrical Wiring Drawing 11900480 3474 Electromagnet Assembly Sequence to Rolling Rotating Base Drawing 11900930 3474 Electromagnet Assembly to Rolling Rotating Base 45 Deg Mtg Drawing 11900690 3474 Electromagnet Assembly to Rolling Base 45 Deg Mtg Drawing 11900940 3474 Electromagnet Assembly to Rotating Base 45 Deg Mtg Drawing 11900950 3474 Electromagnet Assembly to Rolling Rotating Base Horz Mtg Drawing 11900960 3474 Electromagnet Assembly to Rolling Base Horz Mtg Drawing 11900970 3474 Electromagnet Assembly to Rotating Base Horz Mtg Drawing 11900980 3474 Electromagnet Rolling Rotating Base Assembly Drawing 11801800 3474 Electromagnet Rolling Base Assembly Drawing 11900990 3474 Electromagnet Rotating Base Assembly Drawing 11900490 3474 Electromagnet Vertical Mounting Assembly Drawing 17802690 3474 Electromagnet Vertical Mounting Bracket Drawing 17801730 3474 Electromagnet 45 Deg Mounting Bracket Drawing 18900010 3474 Electromagnet Tool Kit Drawing 17801710 3474 Pole 250 200 150 100 75 50 25 mm Drawing 18800191 Shipping Crate Assembly Drawing 18800430 Pole Cap Pair Packing Box Section 1
106. mbly to rolling base or rolling rotating base with M16 x 25 long Hex Head Bolts refer to figure 6 Move magnet and rolling base or rolling rotating base to desired location Screw down the four support legs located on each corner of the rolling or rolling rotating base until the wheels clear the floor by 6mm 25 Secure the support legs with the locknut Secure rolling rotating base to an adequate concrete floor to prevent movement and possible injury to personnel during an earthquake 3 2 Section 3 INSTALLATION Pole Cap Selection and Installation Refer to Drawing 11801602 11801603 Using the field uniformity and induction curves determine the most desirable pole cap cylindrical or tapered In general If a uniform field is required use a cylindrical cap If a high field 15 required use a tapered cap The pole caps are machined from low carbon steel This material is relatively soft and easily damaged Since the pole caps are heavy and awkward to manipulate it is advisable to cover the pole faces to protect them from damage Pole cap removal using lifting eye bolt Refer to Drawing 11801602 11801603 1 Turn off the power supply 2 Draw pole caps about 20mm into the pole sleeves so the tapped M10 holes on the pole cap are still clear 3 Fit the pole cap lifting eye bolt firmly into the top tapped hole M10 of the pole cap to be removed 4 Draw in the pole cap that is not to be removed until it 1s flush with the pole sl
107. n drawing 18900010 onto the end of the retaining stud item 6 on drawing 11801602 11801603 8 Remove retaining stud item 6 on drawing 11801602 11801603 while supporting the pole cap 9 Carefully rock the pole cap to break the adhesion to the pole and remove from the magnet 3 3 Section 3 INSTALLATION Pole cap fitting 1 Ensure the pole caps pole cores and pole sleeves are clean and free from debris 2 Reverse the above pole cap removal sequence Electrical Circuit Never connect or remove cables from the magnet with the power supply connected The stored energy in the magnet can cause arcing resulting in severe injury or equipment damage The magnet has two coils which may be connected in series 140A 76V Model 3474 140 or in series parallel 280A 38V Model 3474 280 to match different power supplies Refer to drawing 11801602 11801603 The power supply cables should be connected directly to the DC current terminals marked and Recommended current cable is stranded copper of 120mm cross section 25 for 280A 38V coil connections For 140A 76V coil connections use 70mm cross section 2 0 AWG standard copper current cables Refer to drawing 13900030 for details Because the magnet stores a significant amount of energy in its magnetic field special care should be taken to insure that the current terminations are secure and cannot work loose in operation Local heating at the terminations can cause ra
108. onal charges for Engineering Time April 11 2003 Model 3474 System Installation Check List Site ___ Floor space and work space cleared and ready for equipment installation ___ Appropriate electrical services installed Materials Required ___ Power Plugs ___ Power Cable ___ Facility Electrician ready to make mains connections to power supply at the time of system install Cooling water supply installed with shut off valves Materials Required ___ 2 5mm 27 water hose 5m for source and 5m for drain Water hose fittings appropriate for installed plu mbing ___ Water hose clamps Misc Items to be provided by facility Tools ___ Power Drill with 5 16 socket to open magnet crates ___ 24mm combination wrench open and box end ___ 24 mm socket wrench for attaching the angle brackets to the magnet ___ 3 socket wrench for removal of magnet from shipping crate ___ Nylon lifting slings chains cables and other rigging equipment suitable for lifting magnet Other Items ___ 47 x 4 x 3 wood blocks about 4 6 pieces ___3 x 3 plywood All required materials on this list are to be provided by the facility If you are providing your own equipment rack it must be minimum of 760mm 307 deep Note The weight of an assembled 3474 magnet system is just over 4300 Ibs It is not possible to rig and move this magnet by hand so use of proper lifting equipment is required either an appropriately
109. ovide a corresponding power supply control signal through the power supply programming inputs Contact GMW for suitable instrumentation 4 2 Section 5 MAINTENANCE Periodically check that the pole adjustment mechanism is clean properly lubricated and free of grit and dirt which may cause binding of the mechanism Be very careful not to damage the relatively soft pole surface since this may degrade the magnetic field uniformity in the gap Note that the surface treatments used provide good corrosion protection but in order to maintain the inherent mechanical precision of the magnet heavy build up of plating materials is deliberately avoided As a result high humidity or otherwise seriously corrosive atmospheres can cause corrosion Periodically apply an appropriate corrosion protection particularly when the magnet is stored for an extended period Check the cooling water circuit to ensure the water is clean and free of debris and bacterial growth Ensure the in line water filter 1s clean 5 1 Section 6 STANDARD OPTIONS NOILISOd 930 081 4 LV NMOHS 35 ONILVLOY 3 LON aveva d Bes Lc el aM Lu lt gt 05 08006 _ 3154 ASSY 1 3 ON ONIMVNG 3715 29 0004 AVOOLNV ASSY ASV SNILV LOH ONITIOM INOHJ ASSY YOLOW SAOWSY OL 951 SNId 3S V3 13H NOILV43d0 Q3ZIHO LOIN Sc 66
110. pid oxidation leading to a high contact resistance and high power dissipation at the terminals If left unattended this can cause enough local heating to damage the terminals and the coils Interlocks Six thermal sensors Elmwood 3450G Part Number 3450G611 1 L50C 89 16 are wired in series and terminated in positions 3 and 4 on the Interlock Terminal block They are normally closed opening when the coil central cooling plate temperature exceeds 50 C 3 C The flow switch is connected to terminals 1 and 2 The contacts are normally open closing when the water flow exceeds approx 10 l min 3 4 Section 3 INSTALLATION Cooling The Model 3474 can be operated to an average coil temperature of 70 C Assuming an ambient laboratory temperature of 20 C and a temperature coefficient of resistivity of 0 00393 the hot resistance of the coil should not exceed 20 more than the ambient temperature cold resistance The coil thermal sensor will open when the coil cooling plate temperature exceeds approximately 50 C Clean cool 12 C 20 C water at 15 l min and 2 0 bar 30 psid should be used to cool the magnet The cooling tubes are not electrically connected to the coils so no electrochemical corrosion will occur If the water supply contains particulates a 50 micron filter should be placed before the input to the magnet to avoid unreliable operation of the flow switch For continuous operation of the magnet it may be appropriate to use a
111. ps Serial No Serial No Target Field Pole Face As per table below Position Serial No None Notes Pole Gap As per table below Pole Spacers None Field in Tesla Filename 3474 Gap Field GMW Associates Electromagnet Excitation Plot Field Vs Current Contract No Page 1 of 7 Date April 93 Customer Engr G Douglas 3474 Power Supply Set Current 07 Serial No Target Field 250 mm Position None Notes As per table below Pole Spacers None Field in Tesla 80 100 Current in Amps Filename 3474 Ex 250 10 150 xls GMW Associates Electromagnet Excitation Plot Field Vs Current Contract No Page 2 of 7 Date Feb 12 97 Customer Engr E Schulze Model 3474 Power Supply Set Current Serial No 09 Serial No Target Field Pole Face 200 mm Position Serial No None Notes Pole Gap As per table below Pole Spacers None Field in Tesla 80 100 Current in Amps Filename 3474 Ex 200 10 150 xls GMW Associates Electromagnet Excitation Plot Field Vs Current Contract No Page 3 of 7 Date April 93 Customer Engr G Douglas 3474 Power Supply Set Current 07 Serial No Target Field 150 mm Position None Notes As per table below Pole Spacers None Field in Tesla 80 100 Current in Amps Filename 3474 Ex 150 10 150 xls GMW Associates Electromagnet Excitation Plot Field Vs Current Contract No P
112. recirculating chiller to reduce water and drainage costs The chiller capacity will depend on whether cooling is required for the magnet alone or magnet and power supply For the Model 3474 Electromagnet alone a suitable chiller is the Neslab HX 300 with PD 2 pump Use distilled or deionized water with a biocide to prevent bacterial growth and corrosion Do not use corrosion inhibitors in high quality electrical systems since the water conductivity 1s increased which can result in increased leakage currents and electrochemical corrosion At currents of below 40A for coils that are series connected or 80A for series parallel connected coils the Model 3474 can be operated safely without water cooling However the coil temperature will vary with the power dissipation This results in dimensional and permeability changes of the magnet yoke Air cooling is not suitable when high field stability is required Freon oil ethylene glycol or other cooling mediums can be used flow required will be approximately inversely proportional to their specific heats An experimental determination of the flow and pressure required will be necessary Avoid cooling the magnet below the dew point of the ambient air Condensation may cause electrical shorts and corrosion During operation the resistance can be checked using a voltmeter across each coil The voltage will rise to a constant value once thermal equilibrium has been reached If it is desired to save water
113. richon 14508 14558 Seibching Ann Transfer Pin Desr Amps FLA Full Load Amga LRA Locked Rotor Amps antarta a available dor enillivolt mien applications Inclades UL and CSA ratings Consult Fimwood Sensors for aiditzona ratings Key Features Electric Rating fo 15 Amp 120 Resistive e Environmental Exposure 0 to 350 F 18 to 177 C s UL recognized and GSA certified and European Approved a Single Pole Single Throw SPST Pre set and Tamperproot Variety of Mounting Brackets and Terminals Available SERIES 3450 3450R 3455R 3455RBV 15 AMP THERMOSTATS Standard Temperature Characteristics Dperating Tolerance Temperature Akne Range al mean wn a mines the group TF IU 0 327 to 79 F 9 28 8 44 0 10 25 5 28 7 34 5 28 8 33 5 28 6 33 80 to 200 F 28 8 44 25 10 96 C 5 2B 7 39 5 28 33 6 22 5 28 201 to 250 F B 44 B 44 967 to 120 C 8 38 7 38 6 33 6 33 6 28 6 28 251 to 302 F 7 39 8 44 121 7 10 148 906 7 39 7 339 T 38 7 39 6 33 7 38 Grouped according to level of accuracy required Group 1 with greatest latibade is less expensive than Group et 16 28 14 16 11 13 8 11 16 28 14 16 11 14 8 11 16 28 14 16 11 14 8 11 16 28 16 28 11 16 8 11 i N Please consult factory bor temperature ranges tolerances and differentials not noted The operating iesperabure ranges inclu
114. ro current increase to maximum current and reduce again to zero current Increase again to maximum current and reduce to the current to give the desired field setting Approaching the desired field from a higher setting will typically produce better field uniformity This is because the field changes at the pole edges will normally lag the field change at the center thereby helping to compensate the radial decrease in field Greater precision in setting up the calibration curve will be achieved with the use of a digital gaussmeter and by making a numerical table This table used with an interpolation routine will eliminate the error associated with reading a graph In any event three points need to be remembered 1 A calibration curve or table is only as good as the precision employed in generating it 2 The field is defined only at the point it is measured It will generally be different at a different point in the air gap For example the induction curves refer to the field on the pole axis and at the center of the air gap median plane 3 The field is most directly a function of the current in the magnet coils Voltage across the coils is not a good measure of field since the electrical resistance of the coils depends on the temperature about 0 4 per degree Celsius 4 1 Section 4 OPERATION Field Control Operation The necessity to use calibration curves can be avoided by using a field controller to sense the magnetic field and pr
115. tallation of the 3474 Electromagnet must be under the Supervision of an experienced person to prevent the possibility of serious injury or damage to the Electromagnet and associated equipment Mounting Position The magnet can be operated in any position 45 degree mounting angles are available to allow the field axis to be horizontal with the yoke inclined back at 45 for access from the horizontal and vertical direction Refer to drawing 11900930 for showing the 45 mounting arrangement Alternatively vertical mounting brackets can be used to position the field axis vertically In each case the magnet should be oriented with the water lines below the electrical connections to reduce the chance of water leakage shorting electrical connections Refer to drawing 11900490 Unpacking Instructions and Damage Inspection To unpack the electromagnet please use the following procedure Refer to Drawing 18800191 1 First remove all of the Hex Head Screws located at the lower edge of all the side panels of the Crate Top Cover 2 Gently rock the Crate Top Cover to work it loose from the shipping crate base 3 Use one person on each side of the shipping crate grip the side panels of the Crate Top Cover Lift Crate Top Cover high enough to clear top of electromagnet walk cover sideways to clear area and place on floor 4 Inspect the magnet to ensure that no damage has occurred to the magnet in shipment If damage is evident report the damage
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USER`S MANUAL MODEL: 3474-140 MODEL

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