产品描述:
5536652500 CLAMP-OUTER 5575627600 DUMP BOX MT5
5536657100 PUMP W/ADAPT 5575627900 ENGINE ASSY
5536658600 SEAL-OIL 5575629200 F,STE
5536660500 SPRING 5575629700 RADIATOR EPO
5536661000 SEAL-OIL 5575630300 RADIATOR MOU
5536661300 YOKE 5575631100 TOWING SYSTEM
5536662100 SPRING 5575631200 SURGE TANK W
5536667200 SWITCH 5575631300 HEAT SHIELD
5536667300 BOOT 5575631900 RUBBERMOULDING
5536668200 BREATHER 5575632000 ALTERNATOR
5536672900 RECEPTACLE 5575632100 GUARD
5536674100 BOOT 5575634100 GUARD
5536677900 VALVE-CHARGE 5575634500 PLC SYSTEM
5536678900 COVER 5575635600 GUARD
5536679000 RETAINER 5575635700 GUARD
5536679100 RETAINER 5575635800 DRIVELINE GU
5536679200 RETAINER 5575635900 GUARD
5536679400 FLANGE-MOUNT 5575636300 INLET BLOCK
5536679900 KNOB 5575637500 HOOD ENGINE
5536680100 SCREW 5575637600 ENGINE HOODS
5536680300 PIN 5575638300 COOLER PIPE
5536680500 BLOCK 5575638900 BAR
5536680700 LEVER 5575639000 COOLER-FUEL
5536680800 CLAMP 5575639200 FILTER ATTACHMENT
5536680900 COVER 5575639500 TUBE-CAC
5536681000 METER-HOUR 5575640000 JUNCTION BLOCK
5536682400 PACKING SEAL 5575641000 GUARD
5536684900 PANEL 5575641200 ELECTR.BOX
5536690500 STUD 5575641400 HARNESS
5536690600 SPINDLE 5575644900 HOOD
5536690900 BEARING 5575645300 THERMOSTAT
5536691600 SPRING VALVE 5575645500 GUARD
5536693800 PUMP, CHARGE 5575645700 SCREW
5536693900 IMPELLER 5575645800 MOUNT
5536695500 NUT 5575700000 HOSE LIST
5536695600 WASHER 5575700007 DUMP BOX
5536695700 SHAFT 5575700011 CONE WITH BE
5536709000 BEARING CONE 5575700029 V-BELT
5536710800 CAPSCREW 5575700034 MOUNT
5536711100 O-RING 5575700040 PURIFIER
5536711300 MEMBER 5575700053 HARNESS
5536711400 CAPSCREW 5575700058 BUCKET
5536711900 HOSE 5575700062 HOSE ASSEMBL
5536712700 BEARING 5575700071 BUCKET
5536713100 PLUG 5575700072 CONTROL PANE
5536713200 PLUG 5575700099 COVER ASSY
5536713300 END PLATE 5575700103 COVER
5536714400 O-RING 5575700115 BLADE
5536717900 SHAFT, AXLE 5575700116 BLADE-EDGE C
5536718000 VALVE 5575700119 CORNER-LH BO
5536718600 CABLE ASSY 5575700120 CORNER PIECE
5536718700 ACTUATOR 5575700121 MANIPULATOR
5536719600 LOCKWASHER 5575700122 PLC SYSTEM
5536719700 LOCKNUT 5575700129 BUCKET
5536720000 VALVE-PRESS 5575700130 BUCKET 1520
5536722600 BALL BEARING 5575700131 GAITOR
5536723300 STOP PLATE 5575700139 CABLE 2/0
5536723400 PISTON-SPOOL 5575700140 CABLE
5536723700 SPRING 5575700141 CABLE
5536723800 SPACER 5575700142 CABLE
5536723900 WASHER 5575700143 CABLE
5536724000 NUT 5575700151 BOX
5536725600 CAM FOLLOWER 5575700158 HOOD
5536727500 CYLINDER 5575700164 FILTER
5536730300 CHECK 5575700165 HARNESS
5536730800 VALVE-RELIEF 5575700182 RADIATOR EPO
5536731000 PLUG-FITTING 5575700201 HOSE ASSY
5536731100 O-RING 5575700203 HOSE ASSEMBL
5536731600 VALVE, 5575700204 HOSE ASSY
5536731700 VALVE CHECK 5575700212 SPACER
5536731800 COVER 5575700214 GENERATOR KO
5536731900 COVER 5575700221 BRACKET – AL
5536732200 PLATE 5575700222 HOSE ASSEMBL
5536732300 CAPSCREW 5575700223 HOSE ASSEMBL
5536732400 O-RING 5575700226 HOSE ASSEMBL
5536732500 RETAINER 5575700227 HOSE ASSEMBL
5536732600 RETAINER 5575700228 HOSE ASSEMBL
5536732700 RETAINER 5575700236 ATTACHMENT
5536732800 CHECK 5575700241 GUARD
5536732900 CHECK VALVE 5575700243 HOSE ASSY
5536733000 CAP 5575700244 GUARD
5536733100 CAP 5575700253 WHEEL COMPL.
5536733200 SPRING 5575700260 LIGHT SET
5536733300 SPRING 5575700270 WHEEL COMPL.
5536733600 SPACER 5575700275 INSERT
5536734100 SEAT 5575700288 FENDER
5536734200 POPPET VALVE 5575700289 FENDER
5536734800 RING-BACKUP 5575700298 TUBE
5536734900 RING-BACKUP 5575700299 HOSE ASSY
5536735000 O-RING 5575700303 COVER
5536750600 SETSCREW 5575700312 HOSE ASSEMBLY
5536754200 NUT 5575700314 FENDER
5536761600 SEAL 5575700316 JOYSTICK MT2
5536767600 LINK 5575700317 HOUR METER
5536767700 FLEX CPLG 5575700327 HARNESS
5536767900 CHAIN-ROLLER 5575700335 HOSE
5536770000 KIT 5575700336 GROUND CABLE
5536771600 COVER 5575700339 HARNESS
5536774500 BOOT 5575700360 HOSE ASSEMBL
5536777000 PLATE 5575700369 YOKE
5536779700 RESISTOR 5575700373 SPACER
5536782600 BRACKET 5575700376 KIT HOUR MET
5536789300 KIT-IND 5575700377 DRIVELINE
5536790400 GUARD-FAN 5575700378 DRIVELINE
5536790900 WIPER 5575700379 ATTACHMENT
5536791000 O-RING 5575700381 ATTACHMENT
5536795000 CYLINDER SET 5575700386 TUBE
5536796700 PUMP 5575700387 CLAMP
5536803300 IMPELLOR 5575700393 BRACKET
5536803400 ADAPTER 5575700395 DISTANCE PLATE
5536803600 DOWEL PIN 5575700398 ATTACHMENT
5536803700 SCREEN 5575700403 HOSE SET
5536803800 BEARING 5575700408 VIBR. DAMPER
5536803900 DRUM & SHAFT 5575700409 WASHER
5536804000 DRUM & SHAFT 5575700421 HOSE SET
5536804300 VALVE 5575700428 HOSE ASSEMBL
5536804400 PIN 5575700431 PIN
5536804500 SPACER 5575700432 PIN
5536804600 PLUG 5575700462 GUARD
5536808800 VALVE 5575700465 MOUNT BRACKE
5536809000 SEAT 5575700487 NIPPLE
5536810700 ELBOW 5575700488 HOSE ASSY
5536821000 BEARING-BALL 5575700489 HOSE ASSY
5536823300 KNOB-CTRL 5575700490 TUBE
5536823400 KIT-SEAL 5575700491 TUBE
5536823900 MOUNT 5575700494 CLAMP
5536824000 SEAL 5575700495 RUBBER CLAMP
5536824400 CABLE 5575700496 RUBBER CLAMP
5536827900 WAGNER PART 5575700497 RUBBER FENDER
5536828200 HUB 5575700498 RUBBER FENDE
5536828300 WASHER 5575700501 MOUNT
5536829000 SHIM .224 5575700503 TRUNNION CAP
5536831500 CAPSCREW 5575700551 PANEL
5536833100 CYLINDER 5575700571 UPBOX
5536835800 SPRING 5575700572 HOSE ASSEMBLY
5536836100 KIT-REPAIR 5575700575 HOLDER
5536836300 KIT-REPAIR 5575700577 DIP STICK
5536836600 SPRING 5575700579 CONTACT BLOCK
5536836700 O-RING 5575700580 SWITCH
5536837000 BLOCK-CONTRL 5575700585 HOSE ASSY
5536838700 ADAPTER 5575700591 FUEL FILL ST
5536838900 RADIATOR CAP 5575700592 LABEL
5536839400 LATCH RELAY 5575700595 PANEL
5536840100 ELBOW-RUBBER 5575700596 GUARD-ALTERN
5536842300 BRG 5575700601 LIGHT SET
5536842900 BUSHING 5575700608 ADAPTER FLANGE
5536843000 SPROCKET 5575700609 SPACER
5536843200 VALVE 5575700611 CABLE
5536843400 VALVE-SPLITT 5575700612 HARNESS
5536845300 TERMINAL 5575700627 WALKWAY
5536845600 LIMIT SWITCH 5575700632 HOSE ASSEMBL
5536847100 CONDUIT FITTING 5575700635 PLATE
5536847400 PUMP 5575700636 MOUNT- SAHR
5536847600 PUMP 5575700639 HORN
5536847700 CABLE 5575700645 VALVE
5536855900 KIT-SEAL W/C 5575700655 PIVOT
5536860300 KIT-O-RINGS 5575700657 SPACER
5536864300 SPOOL 5575700658 EYE
5536866100 FILTER 5575700659 SPACER
5536869300 FIBROMOUNT 5575700660 MOUNT
5536874100 O-RING 5575700680 FUSE HOLDER
5536877800 LEGEND 5575700686 BRACKET
5536879900 COVER 5575700687 BRACKET
5536885400 O-RING 5575700693 RUBBER FLAP
5536885500 BREATHER 5575700701 SPEED SWITCH
5536886600 FILTER 5575700705 EXHAUST COVER
5536889900 O-RING (V 5575700706 COVER PLATE
5536896900 U BOLT 5575700707 HOSE ASSEMBLY
5536904500 BUSHING 5575700719 STUD
5536911100 VALVE STOP 5575700732 MOUNT
5536913200 JAMNUT 5575700733 SEAT
5536914200 GEAR 5575700738 STAY
5536920100 GEAR 5575700757 PLATE
5536920200 SPRING 5575700777 HOLDER IRON
5536920300 PIN 5575700793 HOOD SUPPORT
5536920400 CLU SUPPORT 5575700794 BOSS
5536920900 SPRING 5575700795 CABLE
5536921100 DRUM ASSY 5575700797 HARNESS
5536922700 GROUND STRAP 5575700798 HARNESS
5536924400 BEARING 5575700799 CABLE
5536928300 VALVE 5575700800 HARNESS
5536934300 CLAMP-TUBE 5575700824 E-PROM
5536943900 SWITCH 5575700834 BRACKET
5536947200 SEAL 5575700835 BRACKET
5536953300 SHAFT, AXLE 5575700849 DEFLECTOR
5536953400 VENT-CLOSABL 5575700861 FENDER
5536954300 KIT- O-RING 5575700863 SPACER
5536960700 VALVE 5575700864 GUARD
5536965000 DEMAND VALVE 5575700868 GUARD
5536965700 BRKR-CIRCUIT 5575700869 GUARD
5536966000 RING 5575700873 DIPSTICK TUBE
5536968500 SHAFT 5575700874 DIPSTICK
5536974300 JUMPER 5575700876 EXHAUST COVER
5536974400 BOARD 5575700877 EXHAUST COVER
5536974800 OPERATOR 5575700880 TUBE
5536975000 GROM-3HOLE 5575700887 DUMP BOX
5536975600 SCREW-HEX HD 5575700890 BUSHING
5536980700 PUMP 5575700892 BUSHING
5536981600 FRICTION PL 5575700893 BUSHING
5536982100 GASKET 5575700894 BUSHING
5536982300 KIT-SEAL 5575700895 SPACER
5536982400 KIT 5575700896 SPACER
5536982500 KT-GSKT/SEAL 5575700898 SPACER
5536982700 KIT-SEAL 5575700899 SPACER
5536982800 KIT-SEAL 5575700901 SPACER
5536982900 SEAL KIT 5575700902 SPACER
5536983000 KIT 5575700904 MOUNT
5536983100 GASKET 5575700910 INSERT
5536984000 GASKET 5575700915 BUSHING
5536985500 BEARING PART 5575700916 BUSHING
5536986400 WASHER 5575700925 ELBOW
5536988800 SEAL 5575700927 PLATE
5536989300 O-RING 5575700928 PLATE
5536989500 O-RING 5575700929 STAY
5536990400 KT-GSKT/SEAL 5575700937 PIN
5536990500 GASKET 5575700940 PIN
5536993000 SHAFT, AXLE 5575700941 AIR FILTER
5536993200 BODY-DIFF 5575700942 BRACKET
5536998300 FLANGE 5575700948 PRESS SENSOR
5536999000 VALVE 5575700949 PIN
5536999100 FILTER 5575700951 BOOM SYSTEM
5536999700 VALVE-CTRL 5575700953 CABLE
5537001300 BRACKET 5575700954 CABLE
5537001800 CLAMP-TUBE 5575700957 LOADFRAME, ST1030
5537001900 CLAMP 5575700959 Z-BAR,COMPLE
5537002800 CYLINDER 5575700986 HARNESS-GAUG
5537003600 RING PIN 5575700987 HOSE ASSEMBLY
5537003700 KNOB 5575700995 BRACKET
5537005100 FLANGE 5575700998 GEAR RING
5537005200 NUT 5575700999 CLAMP
5537005400 PLUG 5575701000 SPEED SENSOR
5537006500 CABLE 5575701046 ATTACHMENT S
5537009500 ACTUATOR 5575701054 HOSE ASSEMBLY
5537011700 CLAMP 5575701065 MOUNT
5537012300 SPROCKET WHEEL 5575701073 FENDER ASSY-
5537012400 VALVE 5575701077 GUARD
5537012900 ROD 5575701086 HOSE SET
5537013700 IMPELLER 5575701095 CABLE
5537013800 TURBINE 5575701096 HARNESS
5537015300 U-RING 5575701097 CABLE
5537016000 PUMP-PISTON 5575701098 CABLE
5537016200 ACCUMULATOR 5575701099 HARNESS
5537017600 CAPSCREW 5575701108 SWITCH PANEL
5537021200 CAPSCREW 5575701110 OILCOOLER
5537023900 VALVE-CHECK 5575701160 PLATE
5537026800 VALVE-SELECT 5575701165 HARNESS
5537027600 TRANSFORMER 5575701173 INSULATION E
5537034300 OIL SEAL 5575701175 TUBE
5537035000 CAPSCREW 5575701176 TUBE
5537035600 PISTON-BRAKE 5575701181 HARNESS
5537035800 DISK 5575701182 HARNESS
5537035900 SEAL 5575701183 HARNESS
5537036300 COVER-BRAKE 5575701200 POWERFRAME
5537039400 PUMP, TANDEM 5575701206 TEE
5537039500 ADAPTER 5575701208 CABLE
5537039600 SLEEVE ASSY 5575701221 BUCKET
5537040100 VALVE 5575701226 CUTTER
5537040400 AIR DRYER 5575701229 WEAR SHROUD
5537040900 FILTER 5575701231 ELECTR. CABI
5537041200 GEAR 5575701239 POSITION LIG
5537041400 GEAR 5575701245 CABLE
5537042700 RETAINER 5575701248 HOSE SET
5537042900 SPOOL 5575701251 HOSE SET
5537043100 SEAL 5575701256 BLADE
5537043400 SPOOL-SPEED 5575701257 BLADE
5537045100 WASHER 5575701276 DRAIN HOSE
5537045500 RING-SNAP 5575701278 SPIR.HOSE COMP.
5537047400 FAN 5575701279 SPIR.HOSE COMP.
5537047600 CAPSCREW 5575701284 ISO SWITCH
5537050200 MOTOR 5575701285 CABLE
5537050400 SEAL V RING 5575701286 KABEL LINCOL
5537051100 GEAR 5575701287 RELAY
5537052000 SPRING-OUTER 5575701296 BUCKET
5537052100 SPRING 5575701302 VALVE
5537052200 SPRING 5575701316 FRAME
5537055100 GASKET 5575701325 HARNESS
5537055700 TUBE 5575701333 RADIATOR
5537055800 EXPAND TUBE 5575701337 RADIATOR
5537055900 RING 5575701338 JORDKABEL
5537056000 PISTON RING 5575701340 FAN GUARD
5537056100 RING SPRING EXPANDER 5575701345 RADIATOR
5537056200 SPOOL 5575701352 CONNECTOR
5537056900 CONNECTOR 5575701360 HOSE ASSY
5537057500 FLANGE-INPUT 5575701363 HOSE ASSY
5537062200 PUMP 5575701375 V-BELT
5537065600 VALVE-DUMP 5575701409 VALVE
5537065700 VALVE-PILOT 5575701419 BUSHING
5537066300 BRG-FLANGE 5575701420 SOLENOID VALVE
5537069000 VALVE-RELIEF 5575701423 LOADFRAME
5537070100 REDUCING VALVE 5575701426 CONNECTOR
5537081700 SWITCH 5575701427 CABLE
5537082900 SHIM .007 5575701428 CYLINDER
5537083000 SHIM .020 5575701441 SUPPORT RAIL
5537083100 WASHER 5575701445 COVER
5537085300 CONE-BRG 5575701447 STAY
5537085500 SEAL 5575701450 SILENCER COV
5537088600 SPACER 5575701451 V-BELT
5537088700 SHIM 5575701452 EXHAUST COVE
5537088800 SHIM 5575701454 DUMP BOX
5537088900 SHIM 5575701475 MOUNT
5537089000 SHIM 5575701481 MOUNT
5537089300 SEAL 5575701488 DRIVELINE
5537089800 SPACER 5575701493 EXHAUST COVER
5537091200 WASHER 5575701494 CLAMP BAR
5537097600 O-RING 5575701495 CLAMP
5537098000 VALVE-CTRL 5575701496 BRACKET
5537098600 SPRING 5575701573 TANK UNIT
5537098700 SPRING 5575701753 INSERT-BEARI
5537100500 PUMP-CHARGE 5575701764 RIM COMPL.
5537103000 SLEEVE 5575701840 VALVE
5537103100 VALVE-SHIFT 5575701845 CONVERSION K
5537104100 CHAIN-ROLLER 5575701847 WEARING RING
5537104800 O-RING 5575701852 PIPE
5537104900 BELT 5575701858 HINGE
5537107700 TANDEM PUMP 5575701859 HINGE
5537107800 DRIVELINE 5575701874 WARNING LIGHT
5537107900 BEARING 5575701875 POWERFRAME
5537108600 HEATER 5575701879 SLIDING PLATE
5537109300 GASKET 5575701886 ATTACHMENT
5537110200 PUMP 5575701916 STABILIZER
5537111200 PRE-CLEANER AIR 5575701923 GASKET
5537113600 CLAMP 5575701941 WELDMENT
5537115000 CUP-BRG 5575701960 GUIDE RAIL
5537115600 WASHER 5575701975 WEAR PLATE
5537115700 COVER 5575701976 WEAR PLATE
5537115800 SPINDLE 5575701977 WEAR PLATE
5537115900 NEEDLE RLR 5575701979 WEAR PLATE
5537118900 PIN 5575701991 PIPE
5537119900 MOUNT BRKT 5575702002 TUBE
5537121400 O-RING 5575702003 AIR CONDITIONER
5537122100 GEAR 5575702005 GUARD
5537122600 GEAR 5575702006 GUARD
5537122700 COVER-VALVE 5575702007 GUARD
5537123800 GEAR-SUN 5575702008 BRACKET
5537123900 SHAFT, AXLE 5575702052 MOUNT
5537124000 SHAFT, AXLE 5575702055 PIN
5537124400 SHIM 5575702098 PILOT VALVE
5537124500 SHIM 5575702102 SOUND SUPPRE
5537125300 SLEEVE-OVAL 5575702105 BOOM, ST1030
5537125400 ISOLATOR 5575702107 BOOM ATTACHM
5537127400 LAMP-HALOGEN 5575702249 DUMP BOX
5537129400 KIT-CYLINDER 5575702284 HYDRAULIC PUMP
5537130800 CLAMP 5575702341 REAR AXLE
5537131800 BASE-RELAY 5579 PLUG
5537132100 VALVE-ACCUM 5580 THROTTLE VALVE PIN
5537132200 ELBOW-RUBBER 5580000025 HOSE
5537132600 SEAL RING 5580000038 CABLE
5537133500 HARNESS-ACCU 5580000039 WIRE-RED
5537133700 TRANSFORMER 5580000043 CABLE
5537134600 RING 5580000049 CABLE
5537135600 REDUCER 5580000051 CABLE
5537140200 MUFFLER 5580000055 SLEEVE-CORDU
5537144300 ROD END 5580000057 CABLE
5537144600 PUMP 5580000061 CABLE
5537148100 SEAL 5580000066 HOSE
5537148500 MOUNT CLIP 5580000080 SLEEVE-COUDU
5537148800 VALVE-PILOT 5580000086 CABLE
5537152700 VALVE 5580000092 CABLE -SHIEL
5537152800 CYLINDER THROTTLE 5580000821 WIRE-BLACK
5537153100 CYLINDER 5580000823 CABLE
5537153400 CYLINDER 5580000824 WIRE-WHITE
5537153700 KIT-VALVE 5580000825 CABLE
5537154000 BEARING 5580000843 CABLE
5537154500 SHIM 5580000848 WIRE-ORANGE
5537154600 SHIM 5580000849 CABLE
5537154700 SHIM 5580000851 WIRE-BROWN
5537154800 GEAR 5580000857 WIRE-ORANGE
5537154900 PLATE 5580000861 WIRE-BLACK
5537155000 CONE 5580000863 WIRE-BROWN
5537155200 BAFFLE 5580000869 WIRE
5537155300 BAFFLE 5580000879 PROTECTION HOSE
5537155400 CUP 5580000925 WIRE- YEL/GR
5537155500 CONE-BEARING 5580000926 WIRE- YEL/GR
5537155600 SHAFT 5580000927 CABLE
5537155700 CLUTCH COVER 5580000928 WIRE- YEL/GR
5537155800 BEARING 5580000929 CABLE
5537156000 GEAR 5580000934 CABLE
5537156100 GEAR 5580000937 HOSE
5537156200 PIN LOCK 5580000992 HOSE
5537156300 GEAR 5580000993 HOSE
5537156400 FRAME/SCREEN 5580000994 HOSE
5537156500 GEAR 5580000995 HOSE
5537156900 WASHER 5580000996 HOSE
5537158300 CONE 5580001003 HOSE
5537158600 DISC-SPRING 5580001029 SHRINKING TUB.
5537158700 PIN-SPRING 5580001041 HOSE
5537158800 PISTON 5580001044 HOSE,BULK
5537158900 SEAL 5580001045 HOSE, BULK
5537159000 SEAL 5580001053 HOSE BULK
5537159100 BEARING 5580001062 HOSE
5537159300 GEAR 5580001070 CHAIN-GALV
5537159400 SLEEVE 5580001071 CABLE
5537159500 FLANGE 5580001077 HOSE
5537160100 NUT-ADJ 5580001079 SLEEVE
5537160700 CAPSCREW 5580001085 CONDUIT LI
5537161000 SEAL HUB 5580001088 TUBING-HEAT
5537161100 HUB & CUP 5580001096 CONDUIT
5537161500 SPINDLE 5580001100 SPIRAL HOSE
5537162400 PRESS SWITCH 5580001113 WEATHERSTRIP
5537162500 PRESS SWITCH 5580001132 HOSE
5537162800 CONNECTOR 5580001138 HEAT SHRINK.
5537163400 VALVE-SOL 5580001139 WIRE -LEADIN
5537165300 CONDUIT FITT 5580001145 HOSE, BULK
5537167300 VALVE-DUMP C 5580001147 HOSE
5537167400 VALVE-CTRL 5580001153 SHRINKING TU
5537168300 PLUG MAG 5580001165 HOSE
5537168400 VALVE-RELIEF 5580001168 WIRE
5537168500 LOCKRING 5580001175 HEAT SHIELD
5537168600 SIDE 5580001176 PYRO-TAPE
5537168700 BEAD SEAT-NO 5580001179 RUBBER
5537168800 LOCKRING 5580001182 SEAL
5537169000 LOCK RING 5580001185 WIRE-SPIRAL-
5537169100 SIDE RING FL 5580001186 RAIL
5537169700 FLASHER-24V 5580001191 SEALING LIST
5537170200 VALVE 5580001192 HEAT SHRINK
5537170800 RADIATOR CAP 5580001198 CABLE -AIRC
5537171600 SIDE 5580001201 WEATHERSTRIP
5537173100 CONNECTOR 5580001202 SEALING LIST
5537173500 INTENSIFIER 5580001214 CABLE
5537173600 HUB 5580001221 HEAT SHRINK
5537173900 GEAR & HUB 5580001229 CABLE
5537175100 CYLINDER BACK TO 5580001245 BACK-TO-BACK
5537176100 DRIVER 5580001250 TRIM SEAL-BU
5537177400 SIDE RING 5580001251 CABEL
5537177700 COVER, REAR 5580001262 SEAL
5537177800 PLATE 5580001266 LOCK STRIP
5537177900 BALL-STEEL 5580001267 CABLE
5537178000 BEARING 5580001279 CABLE
5537178100 SHAFT 5580001283 SEAL-RUBBER
5537178200 BEARING 5580001287 EDGE LIST
5537178400 PLUG 5580001288 CABLE -UNSHI
5537178600 SEAL 5580001300 CABLE
5537178700 SPACER 5580001307 LABEL STRIPE
5537178900 RETAINER 5580001308 GASKET
5537179100 DRUM 5580001310 STRIPE-SINGL
5537179400 BEARING 5580002024 CYLINDER
5537179700 SPACER 5580002076 SET
5537179800 SHAFT-OUTPUT 5580002087 CROSSING NIPPLE
5537179900 CAP-BEARING 5580002088 BRAKE ASSY
5537182100 SIDE RING 5580002094 DATA PLATE
5537182200 GEAR 5580002095 DATA PLATE
5537185400 FUSE 5580002109 GUSSET SHEET
5537186500 HUB GEAR 5580002111 RUBBER PROFILE
5537189000 BEARING 5580002112 RUBBER PROFI
5537189800 WEAR RING 5580002118 HARNESS
5537190600 NOZZLE 5580002122 DISK
5537191100 SEPARATOR 5580002141 KIT MOTOR-HY
5537191200 VALVE-BRAKE 5580002144 DRAIN PLUG
5537191300 RESERVOIR 5580002178 COIL
5537191500 SIDE 5580002186 DISK
5537192000 BEARING 5580002189 JOYSTICK
5537193100 KIT-SEAL 5580002194 HARNESS
5537196200 PUMP 5580002200 AIR CLEANER
5537196900 MONITOR UNIT 5580002206 LOADFRAME COMPL
5537197000 ADAPTER DEUTZ ENGINE 5580002215 STEERING JOY
5537198300 O-RING 5580002227 UPBOX
5537198400 BACK-UP RING 5580002241 Z-BOM
5537198500 WEAR RING 5580002242 SWIVEL
5537198700 DRIVELINE 5580002249 MUDGUARD
5537199600 SEAL 5580002250 FENDER
5537199700 GREASE 5580002252 FENDER
5537200200 BRKR-CIRCUIT 5580002267 ANCHOR PLATE
5537204700 VALVE-BRAKE 5580002268 ANCHOR PLATE
5537205200 GEAR 5580002269 SHIM
5537206300 KIT-HUB 5580002279 SPACER RING
5537206700 BRACKET 5580002281 PIN
5537207000 SPRING 5580002282 PIN
5537207100 O-RING 5580002286 THERMOSTAT
5537207200 O-RING 5580002287 POWERFRAME S
5537207300 PISTON SEAL 5580002295 DIFFERENT.GEAR
5537207400 SEAL-PISTON 5580002334 SEAL KIT
5537207700 CONNECTOR 5580002337 LABEL INST –
5537207800 CONNECTOR 5580002338 125H MT431/4
5537208700 SEAL-GREASE 5580002339 SERVICE KIT
5537209000 CLAMP 5580002340 SERVICE KIT
5537226100 PLUG 5580002341 1000H MT431/
5537228700 BOOT 5580002395 VALVES CABLE
5537233400 HYDRAULIC PUMP 5580002397 PORTABLE ANT
5537235000 DRIVE ASSY 5580002421 BUSHING
5537238000 JOYSTICK 5580002423 BUSHING
5537239100 PUMP 5580002424 BUSHING
5537240700 SHIM 5580002425 BUSHING
5537241100 O-RING 5580002428 BUSHING
5537246700 COVER 5580002442 CAP
5537246900 PLUNGER 5580002447 Z-BAR
5537247000 SEAL 5580002466 RIM COMPL.
5537247100 SPRING 5580002472 VALVE-COUNTE
5537247200 SPRING 5580002474 BUFFER
5537247300 EYE 5580002475 PROTECTION C
5537251400 SEAL 5580002476 PROTECTION CASE
5537254900 STUD 5580002478 KEY RING
5537255300 COVER 5580002479 SEAL-DOOR
5537255400 HOUSING 5580002480 SEAL
5537258800 ROD 5580002481 VALVE
5537258900 SCREW 5580002483 WASHER
5537259200 SLEEVE 5580002484 LAMP
5537259600 SPRING 5580002486 WIPER ARM
5537260400 POPPET 5580002487 WIPER ARM
5537260600 INSERT 5580002488 PIN
5537260800 BODY-INLET 5580002493 PIN
5537261000 KIT-REPAIR 5580002495 NOZZLE SET
5537261700 KIT-REPAIR 5580002496 WIPER BLADE
5537262200 PROTECTION 5580002499 RELAY PLATE
5537262300 SCREW 5580002501 DOOR FRAME W
5537262600 ROLLER 5580002502 PROTECTION
5537262700 TREADLE 5580002503 HINGE
5537263000 PIN-TREADLE 5580002504 BUFFER
5537263100 BASE PLATE 5580002505 FAN
5537267000 SEAL RING(PKG-2) 5580002506 CLIP
5537268400 IND-VISUAL 5580002507 HOSE CLIP
5537269000 COVER 5580002508 PIPE
5537269100 COVER 5580002510 HOSE CLIP
5537269500 CAPSCREW 5580002511 SPRING
5537269600 O-RING 5580002512 SPRING
5537269700 SPRING 5580002513 WASHER
5537269800 RETAINER 5580002514 ISO MOUNT
5537270000 CAP 5580002515 DRIVERS CHAI
5537270200 SPACER 5580002516 HARNESS
5537270300 CAPSCREW 5580002517 ATTACHMENT
5537270400 SPRING 5580002518 PLUG – 1_
5537270500 SPRING 5580002519 PLUG-1 1/4_
5537270600 COVER PL 5580002520 PLUG-2_
5537270800 O-RING 5580002521 PLUG-5/16_
5537270900 SHAFT 5580002522 PLUG
5537271000 GEAR 5580002524 CLAMP
5537271400 BOLT 5580002525 CABLE
5537273000 VALVE 5580002527 WINDOW
5537273200 DIFF & CARRI 5580002528 WINDOW
5537273300 FLANGE 5580002529 WINDOW
5537274100 CAPSCREW 5580002530 WINDOW
5537274200 CAPSCREW 5580002531 PLUG
5537274400 WASHER 5580002532 HANDLE
5537275200 LAMP 5580002534 WINDOW RUBBE
5537275500 VALVE 5580002535 BOLT
5537275800 GEAR HOUSING 5580002536 CAP
连续油管车-海德瑞克-HYDRA RIG-发电机
连续油管车-海德瑞克-HYDRA RIG-台上风扇离合器
连续油管车-海德瑞克-HYDRA RIG-HR440B-注入头链条轴承-CA310017
连续油管车-海德瑞克-HYDRA RIG-HR440B-注入头滚轮轴-CA310017
连续油管车-海德瑞克-HYDRA RIG-HR440B-注入头夹持块-滚块座-CA310017
连续油管车-海德瑞克-HYDRA RIG-HR440B-注入头-97MMG-195(63)715US-出厂序号JOB2319
连续油管车-海德瑞克-HYDRA RIG-HR440B-O型圈挡环-HSB00013
连续油管车-海德瑞克-HYDRA RIG-HR440B-O型圈-HS000148
连续油管车-海德瑞克-HYDRA RIG-HR440B-油封-TXS00024
连续油管车-海德瑞克-HYDRA RIG-NTC400-液压泵-丹尼逊 -T6EC 052 010 3L00 B1
连续油管车-海德瑞克-HYDRA RIG-NTC400-液压泵-丹尼逊 -S26 34699 0 0068618
小连续油管车-海德瑞克-HYDRA RIG-HR635-注入头1-1/4寸夹持块(卡瓦)-CD310373
小连续油管车-海德瑞克-HYDRA RIG-HR635-注入头1-1/4寸夹持块(卡簧)
小连续油管车-海德瑞克-HYDRA RIG-HR635-注入头1-1/4寸夹持块缓冲垫-(卡挖:CD310373)
小连续油管车-海德瑞克-HYDRA RIG-HR635注入头-卡挖-CD310373
小连续油管车-海德瑞克-HYDRA RIG-HR635注入头-1-1/4寸防喷盒胶皮-8412-7041
小连续油管车-海德瑞克-HYDRA RIG-HR63夹持块-CD310373
小连续油管车-海德瑞克-HYDRA RIG-HR63小连续油管链条轴承-CD310366
小连续油管车-海德瑞克-HYDRA RIG-HR63小连续油管链条轴承卡簧-BSR00039
小连续油管车-海德瑞克-HYDRA RIG-HR63小连续油管夹持块缓冲垫-CC310387
小连续油管车-海德瑞克-HYDRA RIG-HR63小连续油管夹持块缓冲垫-CB310192
Roller bearing P/N:CA314196
SHAFT BEARING P/N:CB315402
PAD ELASTOMER P/N:CB315388
弹簧片spring reiainer CB315389
Bearing Bearings limited TBB00022 india 7211BG
立管 盘根 T.O.T P/N:7992-1648 KEVA
P.O.NO.:74010
BATCH NO CP 73957
主管盘根 O型圈 TUBOSCOPE P.O. :665530
P/N:7813-4345
COMP V90
BATCH 29003
Bearing MCGILL SPHERE ROL
F63374-105
SB 22215 W 33 SS
方向机滤芯 83804EFLG
轴承 P/N:CA314196
轴 P/N:CB315402
垫片 P/N:CB315388
防喷系统配件HRC2.OTLCB44型防喷盒接头密封圈止推环7992-1644加拿大海德瑞克公司
防喷系统配件HRC2.625TL侧门防喷盒自封芯2-5/8″8412-6067加拿大海德瑞克公司
防喷系统配件HRC2.OTL侧门防喷盒自封芯2″8412-6051加拿大海德瑞克公司
动力选择箱配件15000psi3〞高压弯头密封圈15000psi-4L17307
O型圈 O-Ring 3NB096039
U管 U Tube Discharge Line w/ AE Fittings 3NB027351
挡圈 Retainer Ring 3IMP10021
活塞杆 Pony Rod 3EL100262
聚乙烯密封 Roly Pack Seal 3HFP00558
空气进口 Air Breather 3CHA00217
密封管总成 Collet/Gland Assembly,1'' 3NB027354
数字显示器 Tachometer,Digital White Background 2LA110003
压力表传感器(0-103MPa) 2LD000046
液压启动器 Hydraulic Starter 3CVB00181
导向轮 CC416249
滚珠轴承 TBB00009
法兰轴承 TBF00016
拉伸弹簧 BSA00002
机械记深器 ITM00006
软管固定夹 CB410052
轮式计深器(米) CC410008
爪式弹性接箍 3TDC00128
滚柱轴承 TBR00004
外部限位圈 TDR00004
滚珠轴承 3TBB00518
扭矩限制器 500A-2 3TCX00239
密封件 3HSX02973
滚筒刹车修理工具 (盘) TCH00003
调压阀 3HVR01673
调压阀 3HVR01674
调压阀 3HVR01315
密封件 HSX00035
排管臂法兰轴承 3TBF00422
排管器滚轮补心 3TBF00299
滚筒轴承 3TBS00154
减压器总成修理工具 IPP00042
滚筒进液口蝶阀
旋转接头滚珠轴承 TBB00022
心轴 CC420032
旋转接头密封 HSX00003
O 型密封圈 HSO00063
O 型密封圈 HSO00027
O 型密封圈 HSO00008
油密封 TXS00009
旋转接头表面密封 3CB421512
垫圈 CB420039
抗压圈 CB420015
心轴档圈 CB420051
注入头方向引导阀(Gressen) 3HVC01216
2 路换向阀 3HVT01241
夹紧压力控制阀 3HVD01238
减压调压阀 3HVP00056
液压控制阀 3HVS01327
针阀 3HVF01137
调压阀 3HVR01222
手动/气动泵修理工具 3HSX02975
手动/液动泵修理工具 3HSX02974
梭阀 3HVS01347
气压调节阀 3AVR00076
泵空气滤芯 3AAF00077
空气滤芯 3AAF00132
慢速减压阀 3HVD01253
3 通调压阀 3HVD01238
4 通控制阀 3HVD02475
3 通控制阀 3HVD01247
注入头链条总成 CD315387
注入头链条托架 CD315386
注入头弹簧挡板 CB315389
弹性垫片 CB315388
夹持块 CD365724
夹持块 CD365722
夹持块 CD365721
连接块 TDR00015
连接块 TDR00056
固定销 TDR00057
滚柱轴承 CA314196
心轴 CB315402
外部档圈 BSR00039
张紧缸总成 CD365516
滚柱轴承 TBR00060
张紧缸卡子 CB361215
衬套挡圈 CC360956
注入头耐磨板 CB360957
压力表 IPM00364
滤芯 HFR00020
夹紧液缸 CC365552
夹紧液缸修理工具 HCD00226
储能器胶囊 HAB00020
调压阀 HVP00298
高压滤芯 HFP00065
负荷传感器膜片 IWS00010
计数器 ITM00087
电子计数器传感器螺旋状天线
滚轮固定盒 CD360114
滚轮套 CB360111
鹅颈架滚轮 CB360122
鹅颈架滚轮轴螺母 BFN00041
滚柱轴承 TBB00001
油管导向器滚轮总成 CC360062
油管导向器滚轮总成 CC360054
油管导向器滚轮总成 CC360055
油管导向器滚轮总成 CC361147
油管导向器滚轮总成 CC361148
油管导向器滚轮总成 CC361149
油管导向器滚轮总成 CC361150
油管导向器滚轮总成 C14S2254
油管导向器滚轮总成 C14S2255
油管导向器滚轮总成 C14S2257
快速接头 3HHD01156
快速接头 3HHD01158
快速接头 3HHD01149
快速接头 3HHD00724
快速接头 3HHD01371
快速接头 3HHD00727
快速接头 3HHD01366
快速接头 3HHD00732
快速接头 3HHD01365
快速接头 3HHD00729
快速接头 3HHD00705
快速接头 3HHD00699
充液压力表 3IPM00552
充液压力表 3IPM00519
充液压力表 IPM00141
充液压力表 3IPM00518
充液压力表 3IPM00523
充液压力表 3IPM00248
充液压力表 3IPM00517
充液压力表 3IPM00516
充液压力表 3IPM00553
U-型卡子工具 3IPM00240
压力表 3IPM00528
压力表 3IPM00505
压力表 IPM00383
压力表 3IPM00527
压力表 IPM00079
压力表 3IPM00495
压力表 3IPM00525
压力表 3IPM00499
压力表 IPM00312
密封件 DSH4-SK01
转换件
转换件 DSH4-SC41
转换件 DSH4-SC44
转换件 DSH4-SC51
抗压圈
抗压圈 8204-2241
抗压圈 8204-2244
抗压圈 8204-2251
互锁密封件
互锁密封件 8412-6041
互锁密封件 8412-6044
互锁密封件 8412-6051
压帽O-型密封圈 EH34-SK01
启动器密封件 EH34-SK02
平衡阀密封件 EVA4-S000
前端密封 7810-3621
前端密封
前端密封 7810-3641
前端密封 7810-3644
前端密封 7810-3651
止动杆 8308-2133
后部密封 7810-1223
带导板的卡瓦块
带导板的卡瓦块 9110-0141
带导板的卡瓦块 9110-0144
带导板的卡瓦块 9110-0151 (9110-2151)
卡瓦块固定销 8010-5524
剪切闸板 8011-5555
螺杆帽 7935-0805
增压器液缸密封件 EH34-BCSK5
吊机备件包括:
停车开关 3ESX02432
喇叭开关 3ESX02433
液压过滤器 907088
起吊按钮 3HXX03049
举升按钮 3HXX03050
吊杆按钮 3HXX03051
移动按钮 3HXX03052
下降按钮 3HXX03053
出杆按钮 3HXX03054
轴承 105026
举升液缸密封 7373100050
加长液缸密封 124064
外伸支腿密封件 123016
千斤顶液缸密封件 9372103466
液压油滤芯 3HFS02373
液压油滤芯 3HFR02493
液压油滤芯 3HFR02477
液压油滤芯 3HFR02489
液压油滤芯 3HFR01396
液压油滤芯 3HFR01396
液压油滤芯 3HFP02483
液压油滤芯 3HFS02373
液压油滤芯 3HFR02424
继电器(吊车) 3ESR00815
液压管线
液压管线
液马达总成
液马达修理包
液马达总成
液马达修理包
液马达总成 3HPP02494
液马达修理包
液马达总成 3HMV00654
液马达修理包
液马达总成
液马达修理包
液马达总成 3HPV02623
液马达修理包
液马达总成 3HPP02457
液马达修理包
Roll接头
Roll接头密封圈
Roll接头
Roll接头密封圈
Roll接头
Roll接头密封圈
储能器气囊 3HAB01145
储能器气囊 3HAB02474
储能器气囊 3HAB01145
PLUG "1209062-101-03
108DF434F-3.101" Hauni "KDF 2
KDF 4"
LINEAR MOTOR 4483870-000-00 Hauni Magomat SL
PRESSURE SENSOR BOARD "9371138-000-02
5002DN000" Hauni "Protos VE 90 SE 90
Max 90
PROTOS M5
Protos VE 2-2 SE 2-2"
SOCKET "2700530-000-02
21DR123-2" Hauni "Protos VE 70 SE 70
Protos VE 80 SE 80
Protos VE 90 SE 90"
MOTOR 1939876-000-00 Hauni "Max M5
350
KTC"
SENSOR MODULE "1134667-000-00
BGLP.PL0095 >100000422<" Hauni "PROTOS M5
KDF 2"
HEATER CYLINDER "7729790-001-00
GF206,1200W,110V,180X260MM" Hauni KDF 2
SENSOR "1715972-000-00
1015947" Hauni "Protos VE 90 SE 90
Protos VE 1-8 SE 1-8"
MOTOR "1911326-000-00
TM080S-B" Hauni Max M5
LAMP 1442496-000-01 Hauni Merlin
SOCKET "8705660-000-00
U364FCA8" Hauni PROTOS M5
DENSED-END INSPECTION SEGMENT "4370868-000-01
5071DB000.01" Hauni Protos VE 2-2 SE 2-2
REAR DENSED-END INSPECTION SEGMENT "4370868-010-01
5071DB010.01" Hauni Protos VE 2-2 SE 2-2
REAR FILTER-END INSPECTION SEGMENT "4370868-011-01
5071DB011.01" Hauni Protos VE 2-2 SE 2-2
SOLENOID VALVE 1073671-000-00 Hauni KDF 2
CABLE. PRE-ASSEMBLED. FEM/OPEN-END 4407274-000-02 Hauni Max 2-2
LAMP 1057630-000-02 Hauni Protos VE 2 SE 2
TWIN CABLE "8614986-002-00
6261DN002" Hauni PROTOS M5
SUPPLY BOARD "8509651-000-00
5122DN000" Hauni PROTOS M5
ADMISSION PRESSURE VALVE 4391249-000-00 Hauni Max 2-2
LINEAR MOTOR 2103262-007-00 Hauni "General PMD Conveyor
Weigh Belt"
TANDEM GLUE PUMP "4415176-001-03
2344-0-3-UD" Hauni "KDF 2
KDF 1"
MAGNET "2783355-000-00
H10-3B402" Hauni "AF 2
KDF 3
AF 3
AF 1"
KEYBOARD "6613044-000-00
BGLP.P0065C" Hauni Protos VE 2 SE 2
POTENTIOMETER 8767580-000-02 Hauni "Protos VE 90 SE 90
MAX 2"
SOCKET "6700233-000-00
U2168DS89" Hauni Protos VE 2 SE 2
SOCKET "6177301-000-00
38DS653" Hauni Protos VE 90 SE 90
SOCKET "7436998-000-00
182AF37" Hauni "AF 2
KDF 3
Mulfi"
SAFETY VALVE 8251459-000-00 Hauni Protos VE 2 SE 2
COOLING BAR "1118385-101-02
U2132DF71F-2.101" Hauni KDF 4
MEMORY CARD 1462716-000-00 Hauni Merlin
REFLECTOR "9563230-001-00
136-0461" Hauni Protos VE 80 SE 80
LINEAR MOTOR 6808208-000-00 Hauni Protos VE 80 SE 80
AIR HEATER 1175702-000-00 Hauni PMD Control Panels
PUMP 8522355-000-00 Hauni "KT2-L125
Rotary Dryer"
SOCKET "4440331-000-00
1117DR129" Hauni Protos VE 100 SE 100
SWITCH-ON VALVE 2723712-000-00 Hauni Vibratory Conveyor
Check reg PS15SPP
PS15 SPR
Check reg PS15SPR
PS15 SPS
Check reg PS15SPS
PS15 SPT
Check reg PS15SPT
PS15 SPU
Check reg PS15SPU
PS15 SPV
Check reg PS15SPV
PS15 SPW
Check reg PS15SPW
PS15 SPX
Check reg PS15SPX
PS15 SPY
Check reg PS15SPY
PS15 SPZ
Check reg PS15SPZ
PS15SR
PS15 SRA
Check reg PS15SRA
PS15 SRB
Check reg PS15SRB
PS15 SRC
Check reg PS15SRC
PS15 SRD
Check reg PS15SRD
PS15 SRE
Check reg PS15SRE
PS15 SRF
Check reg PS15SRF
PS15 SRG
Check reg PS15SRG
PS15 SRH
Check reg PS15SRH
PS15 SRJ
Check reg PS15SRJ
PS15 SRK
Check reg PS15SRK
PS15 SRL
Check reg PS15SRL
PS15 SRM
Check reg PS15SRM
PS15 SRN
Check reg PS15SRN
PS15 SRO
Check reg PS15SRO
PS15 SRP
Check reg PS15SRP
PS15 SRR
Check reg PS15SRR
PS15 SRS
Check reg PS15SRS
PS15 SRT
Check reg PS15SRT
PS15 SRU
Check reg PS15SRU
PS15 SRV
Check reg PS15SRV
PS15 SRW
Check reg PS15SRW
PS15 SRX
Check reg PS15SRX
PS15 SRY
Check reg PS15SRY
PS15 SRZ
Check reg PS15SRZ
PS15SS
PS15 SSA
Check reg PS15SSA
PS15 SSB
Check reg PS15SSB
PS15 SSC
Check reg PS15SSC
PS15 SSD
Check reg PS15SSD
PS15 SSE
Check reg PS15SSE
PS15 SSF
Check reg PS15SSF
PS15 SSG
Check reg PS15SSG
PS15 SSH
Check reg PS15SSH
PS15 SSJ
Check reg PS15SSJ
PS15 SSK
Check reg PS15SSK
PS15 SSL
Check reg PS15SSL
PS15 SSM
Check reg PS15SSM
PS15 SSN
Check reg PS15SSN
PS15 SSO
Check reg PS15SSO
PS15 SSP
Check reg PS15SSP
PS15 SSR
Check reg PS15SSR
PS15 SSS
Check reg PS15SSS
PS15 SST
Check reg PS15SST
PS15 SSU
Check reg PS15SSU
PS15 SSV
Check reg PS15SSV
PS15 SSW
Check reg PS15SSW
PS15 SSX
Check reg PS15SSX
PS15 SSY
Check reg PS15SSY
PS15 SSZ
Check reg PS15SSZ
PS15ST
PS15 STA
Check reg PS15STA
PS15 STB
Check reg PS15STB
PS15 STC
Check reg PS15STC
PS15 STD
Check reg PS15STD
PS15 STE
Check reg PS15STE
PS15 STF
Check reg PS15STF
PS15 STG
Check reg PS15STG
PS15 STH
Check reg PS15STH
PS15 STJ
Check reg PS15STJ
PS15 STK
Check reg PS15STK
PS15 STL
Check reg PS15STL
PS15 STM
Check reg PS15STM
PS15 STN
Check reg PS15STN
PS15 STO
Check reg PS15STO
PS15 STP
Check reg PS15STP
PS15 STR
Check reg PS15STR
PS15 STS
Check reg PS15STS
PS15 STT
Check reg PS15STT
PS15 STU
Check reg PS15STU
PS15 STV
Check reg PS15STV
PS15 STW
Check reg PS15STW
PS15 STX
Check reg PS15STX
PS15 STY
Check reg PS15STY
PS15 STZ
Check reg PS15STZ
PS15SU
PS15 SUA
Check reg PS15SUA
PS15 SUB
Check reg PS15SUB
PS15 SUC
Check reg PS15SUC
PS15 SUD
Check reg PS15SUD
PS15 SUE
Check reg PS15SUE
PS15 SUF
Check reg PS15SUF
PS15 SUG
Check reg PS15SUG
PS15 SUH
Check reg PS15SUH
PS15 SUJ
Check reg PS15SUJ
PS15 SUK
Check reg PS15SUK
PS15 SUL
Check reg PS15SUL
PS15 SUM
Check reg PS15SUM
PS15 SUN
Check reg PS15SUN
PS15 SUO
Check reg PS15SUO
PS15 SUP
Check reg PS15SUP
PS15 SUR
Check reg PS15SUR
PS15 SUS
Check reg PS15SUS
PS15 SUT
Check reg PS15SUT
PS15 SUU
Check reg PS15SUU
PS15 SUV
Check reg PS15SUV
PS15 SUW
Check reg PS15SUW
PS15 SUX
Check reg PS15SUX
PS15 SUY
Check reg PS15SUY
PS15 SUZ
Check reg PS15SUZ
PS15SV
PS15 SVA
Check reg PS15SVA
PS15 SVB
Check reg PS15SVB
PS15 SVC
Check reg PS15SVC
PS15 SVD
Check reg PS15SVD
PS15 SVE
Check reg PS15SVE
PS15 SVF
Check reg PS15SVF
PS15 SVG
Check reg PS15SVG
PS15 SVH
Check reg PS15SVH
PS15 SVJ
Check reg PS15SVJ
PS15 SVK
Check reg PS15SVK
PS15 SVL
Check reg PS15SVL
PS15 SVM
Check reg PS15SVM
PS15 SVN
Check reg PS15SVN
PS15 SVO
Check reg PS15SVO
PS15 SVP
Check reg PS15SVP
PS15 SVR
Check reg PS15SVR
PS15 SVS
Check reg PS15SVS
PS15 SVT
Check reg PS15SVT
PS15 SVU
Check reg PS15SVU
PS15 SVV
Check reg PS15SVV
PS15 SVW
Check reg PS15SVW
PS15 SVX
Check reg PS15SVX
PS15 SVY
Check reg PS15SVY
PS15 SVZ
Check reg PS15SVZ
PS15SW
PS15 SWA
Check reg PS15SWA
PS15 SWB
Check reg PS15SWB
PS15 SWC
Check reg PS15SWC
PS15 SWD
Check reg PS15SWD
PS15 SWE
Check reg PS15SWE
PS15 SWF
Check reg PS15SWF
PS15 SWG
Check reg PS15SWG
PS15 SWH
Check reg PS15SWH
PS15 SWJ
Check reg PS15SWJ
PS15 SWK
Check reg PS15SWK
PS15 SWL
Check reg PS15SWL
PS15 SWM
Check reg PS15SWM
PS15 SWN
Check reg PS15SWN
PS15 SWO
Check reg PS15SWO
PS15 SWP
Check reg PS15SWP
PS15 SWR
Check reg PS15SWR
PS15 SWS
Check reg PS15SWS
PS15 SWT
Check reg PS15SWT
PS15 SWU
Check reg PS15SWU
PS15 SWV
Check reg PS15SWV
PS15 SWW
Check reg PS15SWW
PS15 SWX
Check reg PS15SWX
PS15 SWY
Check reg PS15SWY
PS15 SWZ
Check reg PS15SWZ
PS15SX
PS15 SXA
Check reg PS15SXA
PS15 SXB
Check reg PS15SXB
PS15 SXC
Check reg PS15SXC
PS15 SXD
Check reg PS15SXD
PS15 SXE
Check reg PS15SXE
PS15 SXF
Check reg PS15SXF
PS15 SXG
Check reg PS15SXG
PS15 SXH
Check reg PS15SXH
PS15 SXJ
Check reg PS15SXJ
PS15 SXK
Check reg PS15SXK
PS15 SXL
Check reg PS15SXL
PS15 SXM
Check reg PS15SXM
PS15 SXN
Check reg PS15SXN
PS15 SXO
Check reg PS15SXO
PS15 SXP
Check reg PS15SXP
PS15 SXR
Check reg PS15SXR
PS15 SXS
Check reg PS15SXS
PS15 SXT
Check reg PS15SXT
PS15 SXU
Check reg PS15SXU
PS15 SXV
Check reg PS15SXV
PS15 SXW
Check reg PS15SXW
PS15 SXX
Check reg PS15SXX
PS15 SXY
Check reg PS15SXY
PS15 SXZ
Check reg PS15SXZ
PS15SY
PS15 SYA
Check reg PS15SYA
PS15 SYB
Check reg PS15SYB
PS15 SYC
Check reg PS15SYC
PS15 SYD
Check reg PS15SYD
PS15 SYE
Check reg PS15SYE
PS15 SYF
Check reg PS15SYF
PS15 SYG
Check reg PS15SYG
PS15 SYH
Check reg PS15SYH
PS15 SYJ
Check reg PS15SYJ
PS15 SYK
Check reg PS15SYK
PS15 SYL
Check reg PS15SYL
PS15 SYM
Check reg PS15SYM
PS15 SYN
Check reg PS15SYN
PS15 SYO
Check reg PS15SYO
PS15 SYP
Check reg PS15SYP
PS15 SYR
Check reg PS15SYR
PS15 SYS
Check reg PS15SYS
PS15 SYT
Check reg PS15SYT
PS15 SYU
Check reg PS15SYU
PS15 SYV
Check reg PS15SYV
PS15 SYW
Check reg PS15SYW
PS15 SYX
Check reg PS15SYX
PS15 SYY
Check reg PS15SYY
PS15 SYZ
Check reg PS15SYZ
PS15SZ
PS15 SZA
Check reg PS15SZA
PS15 SZB
Check reg PS15SZB
PS15 SZC
Check reg PS15SZC
PS15 SZD
Check reg PS15SZD
PS15 SZE
Check reg PS15SZE
PS15 SZF
Check reg PS15SZF
PS15 SZG
Check reg PS15SZG
PS15 SZH
Check reg PS15SZH
PS15 SZJ
Check reg PS15SZJ
PS15 SZK
Check reg PS15SZK
PS15 SZL
Check reg PS15SZL
PS15 SZM
Check reg PS15SZM
PS15 SZN
560PSU02 R0001 1KGT011900R0001 Power supply unit for RTU560, 48 … 220 VDC, 85W
560SFR02 R0001 1KGT022200R0001 19" swing frame rack for optional redundant power supply
560CMU02 1KGT012600R0002 Communication unit (CMU) for RTU560, 2 serial ports, 2 Ethernet ports 560CMR01 R0002 1KGT036200R0002 Communication unit (CMU) for RTU560, 2 serial ports, 2 Ethernet ports, crypto chip
23OK24 R5001 1KGT011800R5001 Fibre optic coupler (BFOC/2.5) for 2 glass-fibre optical lines
560RTC01 1KGT006700R0001 Real time clock GPS for RTU560 560RCR01 R0001 1KGT038600R0001 Real time clock GPS for RTU560
23BE23 1KGT012100R5001 Binary input, 16 channels, LED's;Process voltage: 24 ... 60 VDC 560BIR01 R0101 1KGT034000R0101 Binary input, 16 channels, LED's;Process voltage: 24 ... 60 VDC
23BA20 GSNE000700R5312 Binary output, 16 channels,Operating voltage: 24 ... 60 VDC, 60 W 560BOR01 R0102 1KGT036800R0102 Binary output, 16 relays 125 VDC,Operating voltage: 24 ... 125 VDC, 60 W
23AE23 1KGT012200R5001 "Analog input, 8 channels;
- measuring ranges: +/- 2 mA; +/- 5 mA; +/- 10 mA; +/- 20 mA; +/- 40 mA; +/- 2 V DC; 0 … 20 VDC" 560AIR01 R0001 1KGT036500R0001 "Analog input module (mA, V), 8 channels
- measuring ranges: +/- 2 mA; +/- 5 mA; +/- 10 mA; +/- 20 mA; +/- 40 mA; +/- 2 VDC; 0 … 20 VDC"
23AA21 1KGT020700R0001 Analog output, 2 channels with potential isolation;selectable current outputs: +/-2.5 mA; +/-5 mA; +/-10 mA; +/-20 mA; +4 … 20 mA
Rel. 10 HMI license 5000 DP, CF 1KGT201439R0001 HMI license, CF-card Rel. 13 HMI license open DP, SD 1KGT201644R0013 HMI License, SD-card (560CMR01, 560CMR02, 540CMD01, 540CID01)
RTUtil560 (for FW release 10) 1KGT210203R0001 Software package utilities RTU560 RTUtil500 (for FW release 13) 1KGT210278R0013 Software package utilities RTU500
MULTIPROGwt 1KGT210204R0001 Software package utilities RTU500 series for PLC MULTIPROG 5 1KGT038500R0001 Software package utilities RTU500 series for PLC (license)
560ANA02 R0020 23AN02 R0001 1KGT006800R0001 Active antenna for the real time clock module 560RCR01
23PK31 R0001 1KGT013200R0001 Programming cable 23WT25
1KGT007700R0001 Blanking front plate 560FPR01 R1002 (100 pcs) 1KGT007700R1002 Blanking front plate
23XS42 R0001 1KGN000798R0001 Removal tool for snap-in contacts
23XS41 R0001 1KGN000797R0001 Crimp tool for 23XS40 R4001
1KGN000758R1001 23XS40 R3001 (100 pcs) 1KGN000758R3001 Process-connector-housing 560SFR02
1KGN000758R2001 23XS40 R4001 (500 pcs) 1KGN000758R4001 Snap-in contacts for 23XS40 R3001
560NFO85 R0001 1KHW001895R0001 SFP (small form-factor pluggable) for optical switch No replacement
560CMR01 R0001 1KGT036200R0001 Communication unit (CMU) for RTU560, 2 serial ports, 2 Ethernet ports
Rel. 12 HMI license 5000 DP, SD 1KGT201644R0012 HMI License, SD-card (560CMR01, 560CMR02, 540CMD01, 540CID01) Rel. 12 HMI license open DP, SD 1KGT201644R0012 HMI License, SD-card (560CMR01, 560CMR02, 540CMD01, 540CID01)
23XS43 R0001 1KGN000799R0001 Removal tool for process connector 23XS40 R3001
2657786923 Atlas Copco
2658379678 Atlas Copco
2650938109 Atlas Copco
2657420127 Atlas Copco
2654454087 Atlas Copco
2657420135 Atlas Copco
2657451924 Atlas Copco
2657780074 Atlas Copco
2657666117 Atlas Copco
2654498357 Atlas Copco
2657826331/2659602321 Atlas Copco
2657780082 Atlas Copco
2650616408 Atlas Copco
2657082463 Atlas Copco
2657786923 Atlas Copco
2658456181 Atlas Copco
Check reg PS15SZN
PS15 SZO
Check reg PS15SZO
PS15 SZP
Product Unique Code: NBHFGTRU345546
Brand Name: IPVBN
Product Name: IPVBN - Peripheral Magnetic Drive Pumps NBHFGTRU345546
Check reg PS15SZP
PS15 SZR
ABB
VFD Inverter Drives
ACS880 Low Voltage Single Drives
ACS880-01 Wall-mounted Single Drives
ACS880-04 Single Drive Modules
ACS880-07 All-compatible Single Drives
ACS880-104 Inverter Drive Modules (INU)
ACS880-14 Regenerative Single Drive Modules
ACS880-17 Regenerative Single Drives
ACS880-37 Low-harmonic Single Drives
ACS880-M04 Machinery Drives
ACS880 Аccessories & Parts
Check reg PS15SZR
PS15 SZS
Check reg PS15SZS
PS15 SZT
Check reg PS15SZT
PS15 SZU
Check reg PS15SZU
PS15 SZV
Check reg PS15SZV
PS15 SZW
Check reg PS15SZW
PS15 SZX
Check reg PS15SZX
PS15 SZY
Check reg PS15SZY
PS15 SZZ
Check reg PS15SZZ
OUTPUTS:Chinese name:密封剂TRK 19043
电动执行器PSL208.1MA-40-AMT SPEED 100mm/s 230VAC50HZ THRUST 8.0KN/S SERIAL NO 262739
(RS-232 OR RS-485)55199140 Sandvik 山特的。 KM025BS 6F ASSY-B
SERIAL I/O 谷轮、比泽尔、丹佛斯、百福马、美优乐、泰康、大金、三洋、松下、布里斯托
Model 700 Gas Chromatograph System Reference Manual
APRIL 2012 3-9000-521 AM3013-1C00-0001
MN-ASB20GLM-8-500V.9-TX1WL
MN-ASB30GLM-8-500V.9-TX1WL UFM
1.2.2 Controller assembly
The controller assembly (lower enclosure) includes electronics and ports
for signal processing, instrument control, data storage, personal
computer (PC) interface, and telecommunications. This assembly allows
the user to control the GC functions via a PC with MON2000 (see
Section 1.4).Chinese name:密封剂TRK 19043
See Figure and Figure 1-4 for lower enclosure block diagrams.
System Reference Manual Model 700 Gas Chromatograph
3-9000-521 APRIL 2012
Atlas Copco 57786923
Atlas Copco 2658379678
Atlas Copco 50938109
Atlas Copco 57420127
Atlas Copco 54454087
Atlas Copco 57420135
Atlas Copco 57451924
Atlas Copco 57780074
Atlas Copco 57666117
Atlas Copco 54498357
Atlas Copco 2657826331
Atlas Copco 57780082
Atlas Copco 50616408
Atlas Copco 57082463 AMCO ACS100
Atlas Copco 57786923
Atlas Copco 58456181
Figure 1-3. Block diagram TCD lower enclosure
Model 700 Gas Chromatograph System Reference Manual
APRIL 2012 3-9000-521
R900598358 Bosch Rexroth Hydraulic Pressure Control Valve
CD2-HPR-240 Stand alone heated pressure reduction system 240VAC (300 barg/4350 psig inlet, max 507psig/35barg outlet) - ATEX only
CD2-HPR-115 Stand alone heated pressure reduction system 115VAC (300 barg/4350 psig inlet, max 507psig/35barg outlet) - ATEX only
CD2-SYS-SC Michell standard mounting frame, floor standing with sun canopy and three sides- 316 box section construction
876541 Reflection light barrier monitor. loss - 1 pc
901773 Module FMZ5000 conventional detector - 2 pcs
901673 Module FMZ5000 control groups - 2 pcs
901595 Module FMZ5000 Relay 8 - 2 pcs
876541 反射光栅监视器。 损失 - CL6431-0012-0 KM025B F TML(M)
CL6431-0011-8
KM025B F TML(L)
TELECONTROLS MSP4 MSP-4-AIP -EP
Centura DXZ 和 Centura WCVD
. REPAIR VALVE KIT P# 2-3-9300-108
FILTER ELEMENT 2 MICRON SWAGELOK SS-2FK4-2 P# 2-4-5000-113
MEMBRANE FILTER P# 2-4-5000-939
3
VALVE SOLENOID 3-WAY ASCO (AUTO CAL) P# 2-4-5000-075
4
. SOV VALVE 4 WAY P# 2-4-5000-369
12
. REPAIR VALVE KIT P# 2-3-9300-108
4
FILTER ELEMENT 2 MICRON SWAGELOK SS-2FK4-2 P# 2-4-5000-113
2
MEMBRANE FILTER P# 2-4-5000-939
3
VALVE SOLENOID 3-WAY ASCO (AUTO CAL) P# 2-4-5000-075
4
. SOV VALVE 4 WAY P# 2-4-5000-369
2
KIT,5 ELEMENT GENIE 120 FILTER P# 2-4-5000-938
KIT,5 ELEMENT GENIE 120 FILTER P# 2-4-5000-938
22-20
CHFUS0.22
AVss0.3~0.5
CopperAlloy
CopperAlloy
Pre-Tin
Pre-Tin
901773 模块 FMZ5000 常规检测器 - CST33004-02 FOR SAMSUNG AIR COMPRESSOR SM 5000
Pressure switch AMOT CONTROLS RANGE: 0.28-3.45 BAR , SET 1 : 1.5 BAR - 3pcs
Pressure switch AMOT CONTROLS RANGE : 0.28 - 3.45 BAR, SET 1 : 2 BAR - 2 pcs
CST83011-G16 FOR SAMSUNG AIR COMPRESSOR SM 5000
901673 模块 FMZ5000 控制组 - 2 件
901595 模块 FMZ5000 继电器 8 -真空计 PCG550 15-30V 2.5W;LPS品牌:INFICON AG,LI-9496 Balazers
HC dew-point sensor cell assembly (with Storm pressure transmitter)
Water dew-point sensor assembly (with Storm pressure transmitter)
Water dew-point sensor exchange (fully calibrated)
Material Certificates for spare parts
Documentation package (per individual system (to Michell Standard SDR list))
* CD2-DOC-E Electronic documentation package (per individual system (to Michell Standard SDR list))
Duplicate of DOC package (each hard copy)
Duplicate of DOC package (each soft copy (CDROM))
* CD2-DOC-ADE Duplicate of DOC-E package (on CDROM)
* CD2-DOC-CVDR Documentation package for customer specific VDR
Document package on customer headed paper (per individual system (to Michell Standard SDR list))
Duplicate of DOC package on customer headed paper (each hard copy)
Duplicate of DOC package on customer headed paper (each soft copy (CDROM))
Drawings for approval before build
Packing for Main Unit only (crate for air and road)
Packing for main unit with sampling system (crate for air and road)
CD2-SFK Filter kit for Coalescer and Membrane Separator – each (systems from November 2015)
Membrane filter elements pack of 5 + 5 Viton O-ring (systems up to October 2015)
Commissioning & training on-site (as engineer rates price list)
One day FAT pre-delivery inspection / or first day of inspection
Each consecutive day of FAT pre-delivery inspection
FAT 8 hour stability test
FAT 12 hour stability test
FAT 24 hour stability test
Refurbish and recalibrate Condumax HC Cell (includes Peltier replacement - further costs may be incurred if other items need
replacement) - see Calibration & Service Exchange page
Full test and adjustment (if necessary) of all internal components (other than measurement cells) of the Condumax II unit
BB-Service plus full system functional test, filter change and purge
Please note: Michell Instruments adopts a continuous development program which sometimes necessitates specification changes without
notice. Please contact us for latest version. Issue No: Condumax II_97149_V9_UK_0223
For systems needing > 3m trace heated sample line (max. 15m) - contact Michell Instruments
001 applies to sensors fitted with a Druck pressure transducer with mV output. This applies to older Condumax II until January 2006
002 applies to sensors fitted with a GEM Storm 4-20mA pressure transmitter. This applies to all Condumax II from January 2006, serial number 120477 to current day.
* On certain labor intensive services, no discount can be offered. These items are always offered at list price.
Spares & Accessories
NOTE: Standard delivery (if no documentation is ordered) will include user manual (hard copy), drawings and certificate (on CD).
* On certain labor intensive services, no discount can be offered. These items are always offered at list price.
**These are the Michell charges for the FAT only. The cost of any third party inspector attending will be passed on, at cost, in addition to the
Michell charges. Therefore, please ensure that the costs of any third party inspector(s) are added at the quotation stage.
Documentation (Standard documentation package comprises User Manuals (one printed per analyzer system) plus CD ROM containing Ex
certificates, Drawing Set, Calibration Certificates and Pressure test certificates)
Packaging
Additional Services
** GEN-FAT-ST8
** GEN-FAT-ST12
** GEN-FAT-ST24
* SP-MC
CD2-SCR-002
CDS-Service
CD2-WDC-002
Consumable items - sampling systems only:
* CD2-DRG
CD2-MFE
* CD2-DOC-CP
** CD2-FAT1
* CD2-DOC-ADS
* CD2-DOC-CP-ADS
CD2-SX-WDC-002
* CD2-COM
Ordering Example
CD2-MON+B3+C1+M0
* CD2-DOC-ADH
* CD2-SYS-PAC
* CD2-MON-PAC
** CD2-FAT2
* CD2-DOC-CP-ADH
CONDUMAX II ACCESSORIES, SPARE PARTS, DOCUMENTATION & SERVICES
Order Codes Product / Description
CD2-SYS-I+AB2+B1+C5+D3
+E0+F0+M1
Material Certification
Heat Trace Line
BB-Service
SYS-Service
pall的滤芯 CLM05DV20P1G ,AB05EKV2PH4,KA1DJLP1G各十个。
TRICONEX TRIPAK NAIN PROCESSOR V2-V3 TRI-GP 5101S2
TRICONEX TRIPAK AI MOD 32PT 0-20MA 5351S2
TRICONEX TRIPAK ANALOG OUTPUT TRIPAK, TRI-GP 5481-1S2
TRICONEX TRIPAK PULCE INPUT TRIPAK 5382-1S2
TRICONEX TRIPAK DI MOD 32PT 24VDC 5301S2
TRICONEX TRIPAK DO MOD 16PT 24VDC 5401S2
TRICONEX 5211S2
TRICONEX 3211S2
BeckHoff CP2219-0020
艾默生丹尼尔 2-3-9300-108
艾默生丹尼尔 SS-2FK4-2 P# 2-4-5000-113
艾默生丹尼尔 2-4-5000-939
2060147
П/муфта A180X 75 H7 KSB
P/coupling A180X 75 H7 SB
VALVE,RLF:805PSIG,1",MNPT,A216-WCB ";Material PO text:
VALVE,SAFETY RELIEF
SET PRESSURE: 805 PSIG
INLET: 1 INCH NPT MALE
OUTLET: 1 INCH NPT FEMALE
ORIFICE CODE: E
BODY MATERIAL:ASTM A216 GRADE WCB
DISC MATERIAL: 316 SS
SPRING MATERIAL: 316 SS
SOFT SEAL: VITON
CONSTRUCTION:ASME SECTION VIII
REFERENCE MODEL NUMBER: HYDROSEAL 14BE3M0V00/E0"
VALVE,RLF:800PSIG,1.1/2",A216-WCC ";Material PO text:
VALVE,RELIEF
SET PRESSURE: 800 PSIG
INLET SIZE: 1.1/2 INCH
ORIFICE CODE: G
BODY MATERIAL: CARBON STEEL
BODY MATERIAL GRADE: ASTM A216 GRADE WCC
MANUFACTURER: HYDROSEAL VALVE
MANUFACTURER MODEL NUMBER:12BG7M0V00/D5
CAPACITY:421 GPM"
KIT,REPAIR:RK1400BV,HYDROSEAL,F/VLV ";Material PO text:
KIT,REPAIR
KIT PART NUMBER: RK1400BV
KIT MANUFACTURER: HYDROSEAL VALVE
EQUIPMENT NAME:RELIEF VALVE
EQUIPMENT MODEL: 14BE3M0V00/E0
EQUIPMENT SERIAL NUMBER: 743570-1
EQUIPMENT INLET SIZE:1 INCH MNPT;
EQUIPMENT SET PRESSURE RATING:805 PSIG,BELOW 941 PSI;
EQUIPMENT REFERENCE:1400B; STANDARD:UV CODE STAMPED;
ORIFICE DIAMETER:E; MAIN-EQUIPMENT NAME:TRIPLEX PUMP;
MAIN-EQUIPMENT CAPACITY:187 GPM"
1. 9922-05-BO
2. HL-S2Y
3. 4M4F-RL4A-VT-SS-KE
4. 4M4F-RL4A-VT-SS-KC
1) K2A.01.00.001 Plate
2) NB32.02.105 Valve seal
3) 11G-3-4-2 Pressure washer
4) 11G-3-4-3 Lock washer
Valve NB 50 with seat
6D140E3 Komatsu 1 PCS
型号:WS-820C
GHT102A-000624
PR21VP-307
Advantech 4Channel Analog Output Module with Modbus
I/O Module
Part No. ADAM-4024-B1E
Order Code: 1777552
1
2
Omron Digital Panel Meter
Model: K3HB-PNB
Basic Unit
NPN input/Voltage Pulse Input
Supply Voltage: 100-240VAC
1
3
Omron Digital Panel Meter
Model: K3HB-PNB
Basic Unit
NPN input/Voltage Pulse Input
Supply Voltage: 24VAC/DC
1
4
SMC Digital Flow Sensor
PF2W720-F04-67N
Flow rate: 2-16 L/Min.
Thread Type: G
Port Size: ½ inch
PnP Open collector, 2 Output.
With unit Switching Function
Without Lead wire
1
5
Honeywell Thermostat
Part No. 2455RC 80821003
1
6
HONEYWELL COMMERCIAL THEROMOSTAT AUTO RESET ONE SHOT
MATERIAL CERAMIC
HIGH TEMPERATURE 236-260 DEG. C
AMB.TEMP. -20 - 290c
OPER. TEMP. 0-260
HONEYWELL BRAND: ELMWOOD
PART NO. 2455RC-9100-373
1
7
Telestar Encoder
Art. No. T40396556
5/30 B 250 RO F12
1
8
Deutschmann Order number: V2405
Article designation: TA58 -0360-GYE-IDR
Resolution: 360 steps
Output: code Gray Excess
Shaft: 10 mm
Flange: Clamping flange
1
9
Deutschmann Order No. V1700
16-pole cable connector with union nut EMC-version, protection class IP67, socket, standard version, for the use with encoders parallel-output or ROTARNOCK Fieldbus Version
ALLEN BRADLEY 1756-EN2TR
ALLEN BRADLEY 1783-ETAP
SCHNEIDER BMXAMO0802
SCHNEIDER BMXXBE2005
Siemens Encoder 6FX2001-2CF00
D 521 285 -40
Type: Incremental
No. of Track: 1
Interface: RS422 (TTL)
Design of Connection: Cable 1 Meter with connector
Flange Type: Synchro Flange/Supported Flange Joint
高能点火装置|356A3217P001||
电源分配卡|IS2020JPDCG01||
振动传感器|379A9798P010||
瓦振传感器|379A9798P040||
火焰检测器|362A1052P104||
美国GE的
高能点火装置|356A3217P001|| 个 2
电源分配卡|IS2020JPDCG01|| 个 1
振动传感器|379A9798P010|| 台 1
瓦振传感器|379A9798P040|| 件 1
火焰检测器|362A1052P104|| 台 2
3PC1-021-1101
GHT102A-000624
PR21VP-307
Emerson 1-360-03-211
Emerson 1-360-03-210
Emerson 1-360-03-103
ACS580-01-088A-4+J429+K454
ACS580-01-026A-4+J249+K454
ACS580-01-169A-4+J429+K454
NBRA-658
OFAF000H40
OFAF000H100
XLP00-6M8
A12-30-10
A26-30-10
A30-30-10
A50-30-22
A260-30-11
3BSE030220R1 (CI854AK01)
3BSE022366R1 (CI801)
3BSE040662R1 (AI830a)
3BSC690072R1 (AO890)
3BSC690073R1 (DI890)
ACS-BRK-D
CBR-V
SAFUR200F500
Voltage: 5VDC
876541 Reflection light barrier monitor. loss - 1 pc
901773 Module FMZ5000 conventional detector - 2 pcs
901673 Module FMZ5000 control groups - 2 pcs
901595 Module FMZ5000 Relay 8 - 2 pcs
Solid Shaft
BACHARACH
8000-8050
Resolution: 5000 S/R
Emerson 1-360-03-211 1
Emerson 1-360-03-210 1
Emerson 1-360-03-103 1
VEMAG
电阻温度计W52M181-4m(型号)9020/25-402-1001-1-6-400-254/ 320-550)
高能点火装置|356A3217P001||
电源分配卡|IS2020JPDCG01||
振动传感器|379A9798P010||
瓦振传感器|379A9798P040||
火焰检测器|362A1052P104||
6211-32-2130 Piston Komatsu 6pcs
6217-31-2130 Piston Komatsu 6pcs
6211-31-2033 Ring Ass,y Komatsu 6pcs
6217-31-2030 Ring Ass,y Komatsu 6pcs
6218-11-3100 Injector Ass,y Komatsu 6pcs
6261-11-3200 Injector Ass,y Komatsu 6pcs
Engine type: komatsu 6d140 E3 & 6d140 E2
708-2L-00760 PUMP ASS,y Komatsu 1pc
708-2L-90740 PUMP ASS,y Komatsu 1pc
207-01-31141 PUMP ASS,y Komatsu 1pc
SAA6D140E-3N-8 Engine S/N:110003-UP Komatsu 1pc
SAA6D125E-3K-8M Engine S/N:310314-UP Komatsu 1pc
ACS580-01-088A-4+J429+K454 pcs 1
ACS580-01-026A-4+J249+K454 pcs 2
ACS580-01-169A-4+J429+K454 pcs 1
NBRA-658 pcs 1
OFAF000H40 pcs 12
OFAF000H100 pcs 9
XLP00-6M8 pcs 3
A12-30-10 pcs 2
A26-30-10 pcs 1
A30-30-10 pcs 1
A50-30-22 pcs 1
A260-30-11 pcs 2
3BSE030220R1 (CI854AK01) pcs 1
3BSE022366R1 (CI801) pcs 1
3BSE040662R1 (AI830a) pcs 1
3BSC690072R1 (AO890) pcs 1
3BSC690073R1 (DI890) pcs 1
ACS-BRK-D pcs 1
CBR-V pcs 1
SAFUR200F500 pcs 1
Siemens Encoder
6FX5002-2CD01-1AF0
序列号:54520-2060/ 3587
6D140E2 Komatsu IRA-6-GW-F2-20-U-56C
Atlas Copco 6970452207 1
Atlas Copco 6970452208 1
Atlas Copco 6970452209 1
Atlas Copco 6970452212 1
Atlas Copco 6970451061 6
Atlas Copco 6970452205 1
Atlas Copco 6970452206 1
Atlas Copco 6970452221 1
Atlas Copco 6970452220 1
Atlas Copco 6970452213 1
Atlas Copco 6970452215 1
Atlas Copco 6970328092 1
Atlas Copco 6970328092 1
Atlas Copco 6970315565 1
Atlas Copco 6970315565 1
Atlas Copco 6970442371 1
Atlas Copco 6970442370 1
Atlas Copco 6970442369 1
Valve NB 125 with seat
Sleeve Ф100 4558.001.02/А to mud pump
英格索兰 SHAFT LINE P/N 12A 30-1018-00245
一个DNS WET BENCH Mitsubishi computer WS-820C A75LMS-DH-S1
VALVE,RLF:805PSIG,1",MNPT,A216-WCB ";Material PO text:
VALVE,SAFETY RELIEF
SET PRESSURE: 805 PSIG
INLET: 1 INCH NPT MALE
OUTLET: 1 INCH NPT FEMALE
ORIFICE CODE: E
BODY MATERIAL:ASTM A216 GRADE WCB
DISC MATERIAL: 316 SS
SPRING MATERIAL: 316 SS
SOFT SEAL: VITON
CONSTRUCTION:ASME SECTION VIII
REFERENCE MODEL NUMBER: HYDROSEAL 14BE3M0V00/E0"
VALVE,RLF:800PSIG,1.1/2",A216-WCC ";Material PO text:
VALVE,RELIEF
SET PRESSURE: 800 PSIG
INLET SIZE: 1.1/2 INCH
ORIFICE CODE: G
BODY MATERIAL: CARBON STEEL
BODY MATERIAL GRADE: ASTM A216 GRADE WCC
MANUFACTURER: HYDROSEAL VALVE
MANUFACTURER MODEL NUMBER:12BG7M0V00/D5
CAPACITY:421 GPM"
KIT,REPAIR:RK1400BV,HYDROSEAL,F/VLV ";Material PO text:
KIT,REPAIR
KIT PART NUMBER: RK1400BV
KIT MANUFACTURER: HYDROSEAL VALVE
EQUIPMENT NAME:RELIEF VALVE
EQUIPMENT MODEL: 14BE3M0V00/E0
EQUIPMENT SERIAL NUMBER: 743570-1
EQUIPMENT INLET SIZE:1 INCH MNPT;
EQUIPMENT SET PRESSURE RATING:805 PSIG,BELOW 941 PSI;
EQUIPMENT REFERENCE:1400B; STANDARD:UV CODE STAMPED;
ORIFICE DIAMETER:E; MAIN-EQUIPMENT NAME:TRIPLEX PUMP;
MAIN-EQUIPMENT CAPACITY:187 GPM"
5. 4M4F-RL4A-VT-SS-KG
去离子罐
太离了罐滤芯
水冷单元滤筒
精密滤芯
水冷单元软管
西门子GM150变频器水冷单元FST-6DOW 树脂19SL050(1035796) WK PP 50um127mm19CC047
旅
Advantech 4Channel Analog Output Module with Modbus
I/O Module
Part No. ADAM-4024-B1E
Order Code: 1777552
1
2
Omron Digital Panel Meter
Model: K3HB-PNB
Basic Unit
NPN input/Voltage Pulse Input
Supply Voltage: 100-240VAC
1
3
Omron Digital Panel Meter
Model: K3HB-PNB
Basic Unit
NPN input/Voltage Pulse Input
Supply Voltage: 24VAC/DC
1
4
SMC Digital Flow Sensor
PF2W720-F04-67N
Flow rate: 2-16 L/Min.
Thread Type: G
Port Size: ½ inch
PnP Open collector, 2 Output.
With unit Switching Function
Without Lead wire
1
5
Honeywell Thermostat
Part No. 2455RC 80821003
1
6
HONEYWELL COMMERCIAL THEROMOSTAT AUTO RESET ONE SHOT
MATERIAL CERAMIC
HIGH TEMPERATURE 236-260 DEG. C
AMB.TEMP. -20 - 290c
OPER. TEMP. 0-260
HONEYWELL BRAND: ELMWOOD
PART NO. 2455RC-9100-373
1
7
Telestar Encoder
Art. No. T40396556
5/30 B 250 RO F12
1
8
Deutschmann Order number: V2405
Article designation: TA58 -0360-GYE-IDR
Resolution: 360 steps
Output: code Gray Excess
Shaft: 10 mm
Flange: Clamping flange
1
9
Deutschmann Order No. V1700
16-pole cable connector with union nut EMC-version, protection class IP67, socket, standard version, for the use with encoders parallel-output or ROTARNOCK Fieldbus Version
00-00020986 保险器3NWNS2 415 Vac
00-00020987 保险器 3NWNS6 415 Vac
Н000076667 2极迷你开关 5SL6207RC MCB C6 415 v 5SL6206-7
00-00020988 单迷你开关 5SV3120RC RCCB 25 A 240 V 30 mA 5SV3120RC
Н000076668 迷你开关5SL61047RC C4 240/415V 5SL6104-7
Н000077242 触头组 3RН 2911-1НА02 3RH2911-1HA02
00-00020989 触头组 3RH 2911-1 HA01 2911-1HA01
00-00020990 触头组3RH 2911-1 HA22 2911-1HA22
Н000077234 触头组3RH 2911-1 HA20 3RH2911-1HA20
00-00006066 触头组 3RH 2911-1 HA10 3RH2911-1HA10
Н000077235 自动迷你开关 3RV 2021-4BA10 13-20 A 13-20А
Н000076648 自动迷你开关 3RV 2031-4VA10 35-45 A 35-45A
Н000076659 自动迷你开关 3RV 2021-4FA10 34-40 A 34-40A
Н000077240 自动迷你开关 3RV 2031-4РA10 28-36 A 28-36-A
Н000076653 自动迷你开关 3RV 2011-1GA10 -MPCB 4,5-6,3 А 456382A
Н000077237 接触器 3RT 2036-1AL20 50 A 3RT2036-1AL20
00-00020991 接触器 3RT 2025-1AL 17 A 220 V 交流电 2025-1AL
00-00020992 过载继电器3RU 2126-4BB0 3RU2126-4BB0
Н000077238 过载继电器底座 3RU2926 -3AA01 3RU2926-3AA01
00-00020993 延迟计时器 3RP1513-1AP30 3RP1513-1AP30
00-00020994 延迟计时器 3RP1525-1AP30 3RP1525-1AP30
Н000094347 通用保护继电器 3SK1111-1AW20 3SK1111-1AW20
Н000065662 电源装置 Omron S8VK-c12024 24V 直流电 5 А S8VK-C-12024
Н000077226 自动电机保护3RV 2011-1JA10 3RV2011-1JA10
00-00020995 辅助接触器 3RH 2140-1BB40 4 HO 24V DC 3RH2140-1BB40
00-00020988 保险器3NWNS2 415 Vac
00-00020989 保险器 3NWNS6 415 Vac
Н000076668 2极迷你开关 5SL6207RC MCB C6 415 v 5SL6206-8
00-00020989 单迷你开关 5SV3120RC RCCB 25 A 240 V 30 mA 5SV3120RC
Siemens Encoder 6FX2001-2CF00
D 521 285 -40
Type: Incremental
No. of Track: 1
Interface: RS422 (TTL)
Design of Connection: Cable 1 Meter with connector
Flange Type: Synchro Flange/Supported Flange Joint
Voltage: 5VDC
Solid Shaft
Resolution: 5000 S/R
00-00020986 保险器3NWNS2 415 Vac
00-00020987 保险器 3NWNS6 415 Vac
Н000076667 2极迷你开关 5SL6207RC MCB C6 415 v 5SL6206-7
00-00020988 单迷你开关 5SV3120RC RCCB 25 A 240 V 30 mA 5SV3120RC
Н000076668 迷你开关5SL61047RC C4 240/415V 5SL6104-7
Н000077242 触头组 3RН 2911-1НА02 3RH2911-1HA02
00-00020989 触头组 3RH 2911-1 HA01 2911-1HA01
00-00020990 触头组3RH 2911-1 HA22 2911-1HA22
Н000077234 触头组3RH 2911-1 HA20 3RH2911-1HA20
00-00006066 触头组 3RH 2911-1 HA10 3RH2911-1HA10
Н000077235 自动迷你开关 3RV 2021-4BA10 13-20 A 13-20А
Н000076648 自动迷你开关 3RV 2031-4VA10 35-45 A 35-45A
Н000076659 自动迷你开关 3RV 2021-4FA10 34-40 A 34-40A
Н000077240 自动迷你开关 3RV 2031-4РA10 28-36 A 28-36-A
Н000076653 自动迷你开关 3RV 2011-1GA10 -MPCB 4,5-6,3 А 456382A
Н000077237 接触器 3RT 2036-1AL20 50 A 3RT2036-1AL20
00-00020991 接触器 3RT 2025-1AL 17 A 220 V 交流电 2025-1AL
00-00020992 过载继电器3RU 2126-4BB0 3RU2126-4BB0
Н000077238 过载继电器底座 3RU2926 -3AA01 3RU2926-3AA01
00-00020993 延迟计时器 3RP1513-1AP30 3RP1513-1AP30
00-00020994 延迟计时器 3RP1525-1AP30 3RP1525-1AP30
Н000094347 通用保护继电器 3SK1111-1AW20 3SK1111-1AW20
Н000065662 电源装置 Omron S8VK-c12024 24V 直流电 5 А S8VK-C-12024
Н000077226 自动电机保护3RV 2011-1JA10 3RV2011-1JA10
00-00020995 辅助接触器 3RH 2140-1BB40 4 HO 24V DC 3RH2140-1BB40
00-00020988 保险器3NWNS2 415 Vac
00-00020989 保险器 3NWNS6 415 Vac
Н000076668 2极迷你开关 5SL6207RC MCB C6 415 v 5SL6206-8
00-00020989 单迷你开关 5SV3120RC RCCB 25 A 240 V 30 mA 5SV3120RC
Siemens Encoder
6FX5002-2CD01-1AF0
水冷单元软管
水冷单元软管
19CC049
19SL051
福
6. M6A-C4L-1-SS
6211-32-2130 Piston Komatsu 6pcs
6217-31-2130 Piston Komatsu 6pcs
6211-31-2033 Ring Ass,y Komatsu 6pcs
6217-31-2030 Ring Ass,y Komatsu 6pcs
6218-11-3100 Injector Ass,y Komatsu 6pcs
6261-11-3200 Injector Ass,y Komatsu 6pcs
Engine type: komatsu 6d140 E3 & 6d140 E2
708-2L-00760 PUMP ASS,y Komatsu 1pc
708-2L-90740 PUMP ASS,y Komatsu 1pc
207-01-31141 PUMP ASS,y Komatsu 1pc
SAA6D140E-3N-8 Engine S/N:110003-UP Komatsu 1pc
SAA6D125E-3K-8M Engine S/N:310314-UP Komatsu 1pc
7.M6A-C4L-1/3-SS
8. 1R4004SK4PBX4B
9. 4M4A-FT4-10-SS
(41) / - / 0040-87765 / Faceplates, 23 mil center Hole, RF Cap, SACVD, 12"
(2) / DPSII / 0200-06615 / LID HPM Dual gas flats IEP DPS232, 12"
(1) / DPSII / 0020-87876 / Liner lower Y203 coat
(1) / DPSII / 0040-46003 / Lower Chamber Liner (DTPHM)
(3) / DPSII / 0040-37642 / Liner upper thick Y2O3 coaters, 12"
(1) / DPSII / 0040-88340 / Chamber upper liner thick, 12"
(13) / EMAX / 0040-83384 / Liner chambers CT, W/Leak check port, EMAX, 12"
(1) / Producer / 0190-11203 / Chamber AC distribution box
(2) / - / 0920-01117 / RF Generator, 600W, 13.56 MHz W/Harmonic
(3) / MF AP / 0010-27198 / L-Door Corrosion res, 12"
(2) / Producer Se / 0200-06112 / Blead, CIP AL2O3
(5) / Producer / 0200-03574 / Ring quartz
(2) / - / 0200-05623 / Top liner, no ledge W/SR
(6) / Producer / 0040-87958 / Shower head, 12"
(1) / Producer / -19608 / Assy cathode, 12"
(1) / Producer / 0010-19609 / Assy cathode, 12"
(1) / - / 0200-07942 / Shadow ring, 2.00mm edge, Notch, TSV, 12"
(2) / Producer / 0010-28101 / Hoop assembly
(4) / DPSII / 0190-15207W / RF match 13.56 MHz, 4 kV, 50A AE Navigator
(2) / DPSII / 0200-00250 / Ring capture C-ESC SNNF Metal, 8"
(1) / Producer / 0190-27387, 0190-28841 / Controller-DVSN, VXP Robot
(7) / - / 0041-26723 / Bonded ASSY, CESC, 12"
(3) / - / 0010-16392 / ESC Assy, Dual electrode CT, 12"
(5) / DPSII / 0520-00131 / ACTR Stepper motor for vat series 65.1 valve
(1) / DPSII / 0200-00933 / Cover, Screw, Cathode liner, 12"
(1) / DPSII / 0020-87791 / Plasma screen Y203 coated, 12"
(1) / - / 0020-84596 / Faceplate, 12"
Repair Kit 857213-003 for the PumpsWSEERepair Kit 857210-003 for the pumosowserve
Working wheel p/n 2003518940
Pump 6HPX23A Flowserve
Repair Kit 857213-003 for the PumpsWSEERepair Kit 857210-003 for the pumosowserve
Working wheel p/n 2003518940
Pump 6HPX23A Flowserve
Oilcan 5009603610 -owserve
Fixed Ring 4N12167SL Flowserve
Fixed Ring 4N12167SL Flowserve
Movable Ring 3N04253RY Flowserve
Movable Ring 154790RY Flowserve
Repair Kit 857213-003 for the Pumps Flowserve 美国福斯修理工具包 857213-003
Repair Kit 857210-003 for the Pumps Flowserve 美国福斯修理包 857210-003
Oilcan 5009603610 Flowserve 美国福斯油罐 5009603610
Working wheel p/n 2003518940 for the Pump 6HPX23A Flowserve p/n 2003518940工作轮用于美国福斯6HPX23A 泵
Fixed Ring 4N12167SL Flowserve 福斯4N12167SL 固定环
Movable Ring 3N04253RY Flowserve 福斯3N04253RY 活动环
Movable Ring 154790RY Flowserve 福斯154790RY活动环
Fixed Ring 668856SL Flowserve 福斯 668856SL 固定环
Movable Ring 3N01297RY Flowserve 福斯3N01297RY 活动环
Movable Ring Flowserve 154799RY 福斯154799RY活动环
GEC-GE1SD-D19SG-00
GEC-GE1SD-D19SG-00 EATON GECMA 19" EX GLASS TOUCH DISPLAY MODULE, 1280X1024 PIXEL, 5:4 PICTURE FORMAT ...
7 506,00
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1
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GEC-GE1SD-D19SN-00
GEC-GE1SD-D19SN-00
GEC-GE1SD-D19SN-00 EATON GECMA 19" EX STANDARD DISPLAY MODULE, 1280X1024 PIXEL, 5:4 PICTURE FORMAT ...
6 263,00
prix unitaire, si Qté, nous consulter
1
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GEC-GE1SD-D22SN-01
GEC-GE1SD-D22SN-01
GEC-GE1SD-D22SN-01 EATON GECMA 22" EX STANDARD DISPLAY MODULE, 1920X1080 PIXEL, 16:9 PICTURE FORMAT ...
6 879,00
prix unitaire, si Qté, nous consulter
GEC-GE1SD-D19SG-00
GEC-GE1SD-D19SG-00
GEC-GE1SD-D19SG-00 EATON GECMA 19" EX GLASS TOUCH DISPLAY MODULE, 1280X1024 PIXEL, 5:4 PICTURE FORMAT ...
7 506,00
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1
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GEC-GE1SD-D19SN-00
GEC-GE1SD-D19SN-00
GEC-GE1SD-D19SN-00 EATON GECMA 19" EX STANDARD DISPLAY MODULE, 1280X1024 PIXEL, 5:4 PICTURE FORMAT ...
GEC-GE1RT-C00CX-00-19
GEC-GE1RT-C00CX-00-19
GEC-GE1RT-C00CX-00-19 EATON GECMA 19" RT COMMUNICATION MODULE WITH INTRINSICALLY SAFE DATA CONNECTION, COPPER, M12 CIRCULAR CONNECTOR ...
5 116,00
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GEC-GE1RT-C00MX-00-19
GEC-GE1RT-C00MX-00-19
GEC-GE1RT-C00MX-00-19 EATON GECMA 19" RT COMMUNICATION MODULE WITH INTRINSICALLY SAFE DATA CONNECTION, LC CONNECTOR, MULTI MODE FIBER ...
4 694,00
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1
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GEC-GE1RT-C00MX-00-22
GEC-GE1RT-C00MX-00-22
GEC-GE1RT-C00MX-00-22 EATON GECMA 22" RT COMMUNICATION MODULE WITH INTRINSICALLY SAFE DATA CONNECTION, LC CONNECTOR, MULTI MODE FIBER ...
4 694,00
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1
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GEC-GE1RT-C00SX-00-24
GEC-GE1RT-C00SX-00-24
GEC-GE1RT-C00SX-00-24 EATON GECMA 24" RT COMMUNICATION MODULE WITH INTRINSICALLY SAFE DATA CONNECTION, LC CONNECTOR, SINGLE MODE FIBER ...
5 008,00
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1
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GEC-GE1RT-C00SX-00-22
GEC-GE1RT-C00SX-00-22
GEC-GE1RT-C00SX-00-22 EATON GECMA 22" RT COMMUNICATION MODULE WITH INTRINSICALLY SAFE DATA CONNECTION, LC CONNECTOR, SINGLE MODE FIBER ...
5 008,00
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1
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GEC-GE1RT-TRC01-00
GEC-GE1RT-TRC01-00
GEC-GE1RT-TRC01-00 EATON GECMA RACK VERSION SAFE AREA UNIT WITH INTRINSICALLY SAFE DATA CONNECTION, COPPER, M12 CIRCULAR CONNECTOR ...
3 483,00
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1
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GEC-GE1RT-TRC02-00
GEC-GE1RT-TRC02-00
GEC-GE1RT-TRC02-00 EATON GECMA RACK VERSION SAFE AREA UNIT WITH INTRINSICALLY SAFE DATA CONNECTION, COPPER, M12 CIRCULAR CONNECTOR ...
4 261,00
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1
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GEC-GE1RT-C00SX-00-19
GEC-GE1RT-C00SX-00-19
GEC-GE1RT-C00SX-00-19 EATON GECMA 19" RT COMMUNICATION MODULE WITH INTRINSICALLY SAFE DATA CONNECTION, LC CONNECTOR, SINGLE MODE FIBER ...
5 008,00
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1
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GEC-GE1RT-TRM01-00
GEC-GE1RT-TRM01-00
GEC-GE1RT-TRM01-00 EATON GECMA RACK VERSION SAFE AREA UNIT WITH INTRINSICALLY SAFE DATA CONNECTION, LC CONNECTOR, MULTI MODE FIBER ...
2 877,00
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1
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GEC-GE1RT-TRM03-00
GEC-GE1RT-TRM03-00
GEC-GE1RT-TRM03-00 EATON GECMA RACK VERSION SAFE AREA UNIT WITH INTRINSICALLY SAFE DATA CONNECTION, LC CONNECTOR, MULTI MODE FIBER ...
4 349,00
prix unitaire, si Qté, nous consulter
1
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GEC-GE1RT-TRM02-00
GEC-GE1RT-TRM02-00
GEC-GE1RT-TRM02-00 EATON GECMA RACK VERSION SAFE AREA UNIT WITH INTRINSICALLY SAFE DATA CONNECTION, LC CONNECTOR, MULTI MODE FIBER ...
3 612,00
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1
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GEC-GE1RT-TRS01-00
GEC-GE1RT-TRS01-00
GEC-GE1RT-TRS01-00 EATON GECMA RACK VERSION SAFE AREA UNIT WITH INTRINSICALLY SAFE DATA CONNECTION, LC CONNECTOR, SINGLE MODE FIBER ...
3 472,00
prix unitaire, si Qté, nous consulter
1
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GEC-GE1RT-TRS02-00
GEC-GE1RT-TRS02-00
GEC-GE1RT-TRS02-00 EATON GECMA RACK VERSION SAFE AREA UNIT WITH INTRINSICALLY SAFE DATA CONNECTION, LC CONNECTOR, SINGLE MODE FIBER ...
4 208,00
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1
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GEC-GE1RT-TRC03-00
GEC-GE1RT-TRC03-00
GEC-GE1RT-TRC03-00 EATON GECMA RACK VERSION SAFE AREA UNIT WITH INTRINSICALLY SAFE DATA CONNECTION, COPPER, M12 CIRCULAR CONNECTOR ...
5 018,00
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1
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GEC-GE1RT-TRC04-00
GEC-GE1RT-TRC04-00
GEC-GE1RT-TRC04-00 EATON GECMA RACK VERSION SAFE AREA UNIT WITH INTRINSICALLY SAFE DATA CONNECTION, COPPER, M12 CIRCULAR CONNECTOR ...
5 787,00
prix unitaire, si Qté, nous consulter
1
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GEC-GE1RT-C00MX-00-24
GEC-GE1RT-C00MX-00-24
GEC-GE1RT-C00MX-00-24 EATON GECMA 24" RT COMMUNICATION MODULE WITH INTRINSICALLY SAFE DATA CONNECTION, LC CONNECTOR, MULTI MODE FIBER ...
4 694,00
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1
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GEC-GE1RT-TSM01-00
GEC-GE1RT-TSM01-00
GEC-GE1RT-TSM01-00 EATON GECMA DESKTOP VERSION SAFE AREA UNIT WITH INTRINSICALLY SAFE DATA CONNECTION, LC CONNECTOR, MULTI MODE FIB ...
2 834,00
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1
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GEC-GE1RT-TSS01-00
GEC-GE1RT-TSS01-00
GEC-GE1RT-TSS01-00 EATON GECMA DESKTOP VERSION SAFE AREA UNIT WITH INTRINSICALLY SAFE DATA CONNECTION, LC CONNECTOR, SINGLE MODE FI ...
3 439,00
prix unitaire, si Qté, nous consulter
1
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GEC-GE1RT-TRS04-00
GEC-GE1RT-TRS04-00
GEC-GE1RT-TRS04-00 EATON GECMA RACK VERSION SAFE AREA UNIT WITH INTRINSICALLY SAFE DATA CONNECTION, LC CONNECTOR, SINGLE MODE FIBER ...
5 679,00
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1
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GEC-GE1RT-TRM04-00
GEC-GE1RT-TRM04-00
GEC-GE1RT-TRM04-00 EATON GECMA RACK VERSION SAFE AREA UNIT WITH INTRINSICALLY SAFE DATA CONNECTION, LC CONNECTOR, MULTI MODE FIBER ...
H38-EV1
H38-AF1
6838131
6838133
Drum shaft assembly complete
Cathead Shaft Assembly Complete
prix unitaire, si Qté, nous consulter
1
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GEC-GE1RT-TRS03-00
GEC-GE1RT-TRS03-00
GEC-GE1RT-TRS03-00 EATON GECMA RACK VERSION SAFE AREA UNIT WITH INTRINSICALLY SAFE DATA CONNECTION, LC CONNECTOR, SINGLE MODE FIBER ...
4 943,00
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1
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GEC-GE1RT-TSC01-00
GEC-GE1RT-TSC01-00
GEC-GE1RT-TSC01-00 EATON GECMA DESKTOP VERSION SAFE AREA UNIT WITH INTRINSICALLY SAFE DATA CONNECTION, COPPER, M12 CIRCULAR CONNECT ...
3 386,00
prix unitaire, si Qté, nous consulter
prix unitaire, si Qté, nous consulter
1
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GEC-GE1SD-D22SN-01
GEC-GE1SD-D22SN-01
GEC-GE1SD-D22SN-01 EATON GECMA 22" EX STANDARD DISPLAY MODULE, 1920X1080 PIXEL, 16:9 PICTURE FORMAT ...
6 879,00
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1
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GEC-GE1SD-D22SG-01
GEC-GE1SD-D22SG-01
GEC-GE1SD-D22SG-01 EATON GECMA 22" EX GLASS TOUCH DISPLAY MODULE, 1920X1080 PIXEL, 16:9 PICTURE FORMAT ...
8 134,00
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1
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GEC-GE1SD-D24SG-00
GEC-GE1SD-D24SG-00
GEC-GE1SD-D24SG-00 EATON GECMA 24" EX GLASS TOUCH DISPLAY MODULE, 1920X1200 PIXEL, 16:10 PICTURE FORMAT ...
8 761,00
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GEC-GE1SD-D22SG-01
GEC-GE1SD-D22SG-01
GEC-GE1SD-D22SG-01 EATON GECMA 22" EX GLASS TOUCH DISPLAY MODULE, 1920X1080 PIXEL, 16:9 PICTURE FORMAT ...
8 134,00
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1
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GEC-GE1SD-D24SG-00
GEC-GE1SD-D24SG-00
GEC-GE1SD-D24SG-00 EATON GECMA 24" EX GLASS TOUCH DISPLAY MODULE, 1920X1200 PIXEL, 16:10 PICTURE FORMAT ...
8 761,00
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1
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GEC-GE1SD-D24SN-00
GEC-GE1SD-D24SN-00
GEC-GE1SD-D24SN-00 EATON GECMA 24" EX STANDARD DISPLAY MODULE, 1920X1200 PIXEL, 16:10 PICTURE FORMAT ...
7 506,00
prix unitaire, si Qté, nous consulter
(3) / DPSII G3 / 0190-25087 / Pedestal assy, 12"
(1) / DPSII / 0190-33576 / VAT TGV actuator, 65.0, DN160-DN250
(1) / DPSII / 3930-00362 / Pressure controller for VAT 65.1 valve
(1) / DPSII / 0010-10874 / RF coil assy
(1) / DPSII / 0010-30277 / ESC assy, 12"
(1) / DPSII / 0190-03234 / Pneumatic actuator, VAT, Centura AP
(1) / DPSII / 0200-35956 / Dome ceramic 2.75 DIA window DPS Chamber
(1) / Producer SE / 0020-49785 / Faceplate, APF, 12"
(1) / DPSII / 0020-87845 / Liner cathode Y203 W/Screen DPS
(2) / - / 0190-13690 / Pneumatic actuator assemblies, Bellows ISO
(1) / DPSII / 0190-30029 / Integrated controller complete
(1) / DPSII / 0190-30030 / Integrated controller complete
(2) / DPSII / 0520-00094 / Actuator stepper motors for VAT series 65 valve
(1) / - / 0200-04877 / Single ring
(1) / DPSII / 3980-00102 / Locking ring anodized alum for 65/DN
(1) / DPSII / 3720-00131 / Plate pendulum anodized alum for 65/DN32
(1) / DPSII / 0010-05370 / RF coil, 12"
(1) / - / 1110-00056 / RF Match 13.56 MHz AZX 72 W/Esc SUP
(1) / DPSII / 0190-37403 / 3155132-010 / ARF Match
(4) / DPSII / 1350-00200, 1350-00200W / Manometers
(1) / - / 0190-26328 / Hot ion pirani vacuum gauge, DN40 CF-R D-NET, 750 Torr
(1) / - / 3870-01920 / Valve, 2" Pneumatic genesis / ESVP
(7) / - / 3020-00225 / CYL air Bore 50mm stroke DBL Rod, SMC Cylinder NCDQ2WB50-50DC
(5) / DPSII / 0200-04593 / Lift pins, Sapphire 0.09 DIA
(1) / - / 0190-36115 / Linear slide 2-carrier lubricated produce
(1) / - / 1350-01279W / XDCR Press ABS 1SLM 1/4MVCR W/O Manomet
(11) / DPSII / 0200-06616 / Nozzle, Insert TGN Y203 for LID GAS NOZ
(1) / - / 4020-01194 / FLTR in-line gas 1000 PSIG 1/4 VCR-M
(1) / MF 4.0 / 0190-10208 / PCB, Card, Interface device NET,8 BIT DIR DI/O, 8AI
(1) / - / 0200-10133 / Window recessed endpoint
(8) / - / 0190-22456 / SPEC. PCB, VAT Slit valve position
(3) / FI 5.3/MF 4.0 / 0190-24445 / XMP Motion controllers, 3U, F6 Firmware
(1) / - / 0190-04745 / Assembly, PCB,IO,CDN 494 W/ Type "AB", 8 Analog Inputs / Outputs
(1) / Producer SE / 0100-01363 / Signal conditioning board
(1) / Producer SE / 0190-07970 / CH Interlock module, CDN 500-19
(11) / VHP / 0020-75846 / Robot clamp, blade, 12"
(20) / VHP / 0021-76773 / Robot blades, Dual blade NCR4.0 Mainframe, 12"
(1) / VHP / 0190-00958 / Robot bearing BRG, 4PT Count
(3) / - / 0200-05147 / Lift pins
(181) / MF / AP 3020-00320 / Short stoke clamping modules
(127) / FI / 0190-11442 / ADO-e Mech, Interference lockout pins
(96) / - / 3690-00331 / SCR Cap SKT HD 10-24 X 1-1/8L HEX
(160) / - / 3690-01093 / SCR Cap SKT HD 10-32 X 1/2L HEX SKT SST
(1) / FI / 0190-08008 / KAWASAKI Guide parts
(1) / FI / 0190-12608 / FIC Robot parts
(2) / ASP / 1010-00154 / Lamp capillaries ozone free 2mm
(3) / EMAX / 0190-27856 / PCB, Stepper motor motion
(1) / EMAX / 0190-07452 / PCB, IP-Stepper
(1) / DPSII / 0051-01264 / Weldment dual gas Al203 Hub, 12"
(1) / DPSII / 0200-08585 / HUB Center dual gas side feed, 12"
(1) / DPSII / 0190-19023 / 3155132-004 / Navigator RF Match, Source RF Match
(1) / DPSII / 0190-19024W / 3155126-020 / Navigator RF Match, Bias RF Match
(5) / DPSII / 0200-07102 / Nozzle insert Y203 DG Solid thick flanges, 12"
(1) / FI / 0140-15201 / Harness assembly, interlock
(1) / CDN180-12 / 0190-37195 / Redesign
(1) / - / 0190-37684 / DI/DO Board redesign
(11) / DPSII / 3030-15769 / Flow controllers ratio 500/500 SCCM
(1) / NW40 / AP 0190-76185 / Valve, Two stage inline, Load lock ISO Valve, 12"
(5) / DPSII / 0040-39066 / Bellows assembly lift pin w/ball bearings
(1) / ASP / 0200-05376 / Quartz tube, Applicator ASP+
(1) / - / 0010-37128 / BOX DB9 Tri-Port CHX PASS-THRU
(2)/ - / 0620-02763 / Cable assy RS232 10 FT DB9-M/M EMI/RF Hoods
(2) / - / 0190-27197 / Cylinders
(1) / - / 3700-03273 / Seal
(7) / DPSII / 0190-23942 / CESC 5 mm Puck bipolar heated, 12"
(2) / - / 3870-01438 / 2 Way mini N/C 1/4 VCRF
(1) / - / 3870-04843 / Digital flow sw integ sensor
(1) / Producer / 0140-06833 / H/A Producer E DC Power B
(2) / FI / 0190-15036 / Etch corrosion resistant, KAWASAKI Robot blade AA & A3
(3) / DPSII / 0200-14731 / Single ring quartz, 09 Height, 12 Recess
(3) / DPSII / 0200-14732 / Single ring quartz, 09 Height, 12 Recess
(3)/ DPSII / 0200-05959 / Single ring quartz, 09 Height, 12 Recess
(1) / - / 0200-17141 / Wafer center ring
(3) / EMAX / 0021-12470 / Cathode insulator(bulkhead) ring, 12"
(1) / DPSII / 0150-06325 / Jumper MF Remote interlocks, 12"
(3) / DPSII / 0150-19939 / Cable assemblies, AC Power
(2) / DPSII / 0190-30401 / Paramount cables
(1) / ASP / - / Appicator quartz, 12"
(1) / - / 0200-35785 / Ring, Wafer lift
(2) / AXIOM / 0021-43884 / Lift pins, 12"
(2) / MF AP / 0150-06324 / Jumper MF
(1) / MF AP / 0150-08141 / Jumper MF
(1) / MF AP / 0150-06326 / Jumper MF Remote pump interlocks, 12"
(6) / VHP / 0190-13249 / Ball bearings
(6) / VHP / 0190-13250 / Ball bearings
(1) / VHP / 3870-02320 / SPR, EXT 1.000 FL* .094 OD* .016 Wire
(1) / VHP / 0010-17407 / Assy, RH, Pivot ant bearing, robot, 12"
(1) / VHP / 0040-50657 / Base, Wrist Robot LCF+ NON-PLT, 12"
(3) / SYMIII / 0190-33595 / Cable assemblies, HN(M) TO HN(M) R/A, Pulsar
(3) / SYMIII / 0190-30402 / Cable assemblies HN(M) STR TO HN(M) R/A with TRU RG-
(2) / - / 3870-04136 / Valve OD NW25
(2) / ASP / 0200-18464 / Quartz tubes, 12"
(1) / - / 0680-00620 / K Frame flexible shafT 4FT
(1) / DPSII / 3870-06771 / VAT, DN320 65.1 TGV, Spring washer
(1) / DPSII / 3870-06770 / VAT, DN320 65.1 TGV, Reduction ring
(2) / - / 0190-19313 / MFC, IFC-125C, SC21, Unit 125
(23) / - / 0190-19315 / MFC, IFC-125C, SC22, Unit 125
(8) / - / 0190-19316 / MFC, IFC-125C, SC23, Unit 125
(7) / - / 0190-19317 / MFC, IFC-125C, SC24, Unit 125
(6) / - / 0190-19318 / MFC, IFC-125C, SC25, Unit 125
(1) / - / 0040-80400, 0010-22596 / Assy, Heater, 12"
(2) / - / 0200-03313 / Ring floatings
(2) / DPS II / 0200-18987 / Nozzle insert TGN
(6) / - / 0190-33595 / Cable assemblies, HN(M) TO HN(M) R/A, PULS AMAT
(3) / FI / 0190-14786 / Pre aligners, A3, 12"
(2) / - / 0090-03402 / ASSY, Panel latch CPCI Pyro board 30
(2) / - / 1150-00262 / Wafer sense ATS, 12"
(8) / - / 1270-01982 / SW Press .156" Dia smooth CTR PORT 0.5 TO
(3) / - / 0200-01942 / Lift pin tips
(2) / - / 0150-18132 / Cable assy, Copley driver RS-232 Communication
(1) / DPS532 / 0200-06396 / Nozzle insert AG1000 Solid 1.3L, 12"
(2) / - / 0190-28683 / Specification assy, HUB 8 Channel
(1) / - / 0190-23645 / Specification for MPG401 Magnetron pira
(1) / - / 0090-00982 / Assy, Rotation motor
(6) / MF 4.0 / 0090-76042 / Assy, OTF Emitter, 12"
(1) / - / GLP2CLXPVMM4 / Filter
(3) / DPSII / 0200-01195 / Sapphire window, IEP, 12"
(1) / DPSII / 0010-32005 / Helium feed through, 12"
(1) / - / SS-4BY-V35-1C / PNEU, 3 Way valve
(1) / - / 0620-00344 / Turbo pump power cable
(1) / - / 0620-02195 / Cable sensor 1.5M
(1) / - / 3620-00448 / TMS cable, BOC EDWARDS Turbo pump
(1) / - / 3870-00021 / Valve PNEU N/C RTANG KF25 VITON Seal
(3) / - / 3870-02225 / Valve VAC N/C NW40 ISO-KF FLNG VITON Seal
(1) / DPSII / 0020-63668 / Door, SV Blocker, Single rod, DPSII
(1) / - / 3870-02226 / Valve VAC N/C NW25 ISO-KF
(1) / - / 0010-08724 / Throttle valve, ULTIMA10 / FI / 0190-14738 / YASKAWA ROBOT XU-RCM6841, 12"
(2) / - / 0041-10348 / Siconi shower heads
(1) / - / 1360-00078 / XDMRCNTRL 480V-PRI 24/120V-SEC 50/60HZ
(1) / - / 1350-00084 / MKS-Gauge
(1) / - / 3780-04517 / MKS-T/V 253B-26278
(1) / - / 1050504-001 / MKS-T3BIA-30973(1050504-001)
HYDROSEAL
parker
伺服电机 型号:NX840ERJR7000
14BE3M0V00/E0
parker
伺服电机 型号:NX840ERJR7000
12BG7M0V00/D5
14BE3M0V00/E0, RK1400BV
(1) / - / 1051129-001 / MKS-T/V Control box
(5) / - / 3870-05305 / Valves, 1/4'' Body(2port)
(1) / - / 3870-05035 / Valve ball ON-OFF 2 way 3000P SIG
(1) / - / 0200-89005 / Insert, Chamber inlet, 5 zones
(1) / - / 0040-92503 / RF Electrode, 12" SCT-2480-430 船舶电源 BATTERY CHARGER / RECTIFIER SCT-2480-430
(1) / - / 0195-02977 / Valve
(2) / - / 3300-01722 / FIGCPLG QDISC 3/8'' Body X 3/8''-18FP 2.75''L
(1) / - / 0680-01190 / CVHERM SGL pole SA PB 50 VDC 250 VAC 5016
(2) / - / HMS30-BVKC / -
(1) / - / HMS20-BVKC / -Комплект з/ч к датч.ур. ЦДУ-01/12323-058 "Комплект запасных частей к датчику уровня ЦДУ-01/12323-058 (прокладки, торсионная трубк, эл.плата, датчик Холла)"
LANCOM SO2 Sensor 703.241 Lancom III 703.241. Sulfur dioxide sensor for Lancom III
LANCOM CO(H2) Sensor. AMETEK Land СО 703.915 д/Lancom III 703.915 Carbon monoxide sensor
Блок электронный SWINGE60NEX.DA Vega SWINGE60NEX.CA
Корпус клапана M2CP 3529201-1 ABB Plate,10 Port Valve Body,Model M2CP,316S
Сетка Honeywell FF06 арт.AS06-1/2A Filter Honeywell AS06-1/2A
Ячейка измерительная Ametek 71063SE spare parts to Ametek WDG-IV (Ametek 71063SE)
Ячейка COe Comtec KEX60000D000 spare parts to Enotec Comtec-6000
Сенсор Ametek 305122901S spare parts to Ametek 3050-OLV (Ametek 305122901S Sensor Calibrated Moisture OCM)
Ячейка измерительная 563076929 spare parts to Ametek 5000 (563076929|5000 Sensor (Cell) - Asymmetric Timing)
Лампа плазменная ABB 0746376 spare parts to ABB AO2000
Ячейка измерительная ABB 769202 spare parts to ABB AO2000 (Sensor Magnos206 FPM, uncalibrated)
Часть зонда Comtec 6000 KEX6001 SIK-6001EX spare parts to Enotec Comtec 6000
Расходомер Ametek 305449901S spare parts to анализатору Ametek 3050 - SLR/TE (QT001-2). (305449901S|3050/5830 Mass Flow Meter (MFM) - Standard)
Датчик влажности Panametrics M2LRT "spare parts to Panametrics MIS-1 (поз. QT-002)
GE PANAMETRICS M2LRT M Series Probe / Moisture Probe"
Осушитель Ametek 305400901S 305400901S|3050 OLV/SLR/DO/TE Reference Dryer
Генератор влажности Ametek 305540901S 305540901S by AMETEK. GENERATOR, MOISTURE, 1PPM NOM
Генератор влажности Ametek 560086901S 560086901S|5000 20 ppmv Nominal Moisture Generator
Ячейка измерительная 563076929 Ametek 563076929|5000 Sensor (Cell) - Asymmetric Timing
Ползунок 764M005-81 для PGC5000 ABB art.764M005-81 - SLIDER 10 PT SAMPLE/BF SP TECHTRON
Сито молекулярное A.207599000 Ametek 207599000 by AMETEK. DESICCANT, MOLECULAR SIEVE, TYPE 3, 1/16" PELLET
ACS580-01-088A-4+J429+K454
ACS580-01-026A-4+J249+K454
ACS580-01-169A-4+J429+K454
J429 是蓝牙控制盘ACS-AP-W PCG550 15-30V 2.5W;LPS,3PC1-021-110
K454 是FPBA-01
NBRA-658C
OFAF000H40
OFAF000H100
XLP00-6M8 GE通用电气 F00BL0P047 GE通用电气 332X1021 GE通用电气 84E901259G5 GEVO-12-LDD 发动机 ET44AC 机车
A12-30-10
A26-30-10
A30-30-10
A50-30-22
A260-30-11
3BSE030220R1 (CI854AK01)
3BSE022366R1 (CI801)
3BSE040662R1 (AI830a)
3BSC690072R1 (AO890)
3BSC690073R1 (DI890)
ACS-BRK-D
CBR-V
SAFUR200F500
LENZE
E82MV152-4B001 AMAT Producer/Centura DXZ/Centura WCVD/Endura
连接电缆IEMERSONYBO-ELCO-DO
数字输出卡IEMERSONICE4032S1T2B8
继电器卡IEMERSONBO-RELAYBOARD-DO
E82MV222-4B001
BROKK AG330 机器的无线电遥控系统
SCANRECO RC400,型号:344 - 序列号:50055,YYWW:0535
RADIO REMOTE CONTROL SYSTEM for BROKK AG330 machine
SCANRECO RC400, TYPE: 344 - SERIAL NO.: 50055, YYWW: 0535
E82MV552-4B001
E82MV152-4B001XX4A37
SCHIEBEL SE160134CLSC39635 2PCS TYPE AB8AM40 TELETRANSMITTER ESG2 POS.9Z1 REAL P/ 2PCS
(2) / - / 3370-04809 / Valve 2LNS4C-CM2-NB
(1) / - / 3870-04192 / Valve MAGD-10V-AT2-JS3 (CKD)
(1) / - / 3870-00899 / Valve MAGD-11R-AT2-CO1 (CKD)
(1) / - / 3870-05983 / Valve MAGD-12R-AT2-CO1 (CKD)
(9) / - / 0200-00188 / Sic coated graphite pin wafer lift
(1) / - / 0090-04913 / I3EDR SMC ZSE1-T1-55 Vacuum switch
(1) / - / 5070-00128 / FGREASE High vacuum
(1) / - / 1310-00102 / TC Bayonet
(1) / - / 0140-24226 / Cable upper sensors EPI30
(1) / - / 0620-00938 / DNET Cable
(1) / - / 0150-17135 / Cable assy throttle valve
(1) / - / 0090-03805 / Assy CVD TC AMP Inter look, 12"
(1) / - / 0100-01071 / Assy mezzanine EPI, 12"
(1) / - / 0190-37193 / Kit position
(2) / - / 0190-37775 / CH Inter look boards
(2) / - / 0190-07970 / CH Inter look boards
(1) / - / 0190-30079 / PCB, CDN496R I/O Board, MKS AS01496-AB-2
(2) / - / 0100-01363 / PCB Assembly, Signal conditioning
(2) / - / - / GAS Panel transduces
(16) / SEC-Z714AGX -06 / - / HORIBA STEC MFC
(1) / SEC-Z714AGX -09 / - / HORIBA STEC MFC
(3) / SEC-Z714AGX-08 / - / HORIBA STEC MFC
(1) / SEC-Z714AGX -12 / - / HORIBA STEC MFC
(3) / SEC-Z714AGX -04 / - / HORIBA STEC MFC
(2) / SEC-Z714AGX -14 / - / HORIBA STEC MFC
(3) / LF-F404M-A-EVD / - / HORIBA STEC MFC.
10. HNVS 4A
Н0000542228 软起动器 PSTX570-600-70 1SFA898117R7000 1SFA898117R7000
00-00020658 馈线变频器 ABB acs550-045a-4-01 3AUA0000012789
00-00007834 508-412 橡胶吊架 EVIDGOM PAULSTRA 508-412
00-00019960 止动垫圈 Nordlock Nl24 25.3x39x3.4 ZP 2533934
00-00012925 六角头螺钉. Hd M24x80/54 ZP 8.8. ISO 4017 M24x8054
00-00009003 驱动滚筒内衬 (看图纸)
00-00007834 508-412 橡胶吊架 EVIDGOM PAULSTRA 508-412
00-00019960 止动垫圈 Nordlock Nl24 25.3x39x3.4 ZP 2533934
00-00012925 六角头螺钉 Hd M24x80/54 ZP 8.8. ISO 4017 M24x8054
00-00020900 701.4753-05 装甲板 701.4753-05
00-00020901 701.4753-07 装甲板 701.4753-07
00-00020902 701.4753-09 装甲板 701.4753-09
00-00020903 841.0433-00带有六边形凹槽的沉头螺钉M10x30 8.8 841.0433-00
00-00020904 847.0144-00 垫圈 BRB 10.5x20 HV200 ZP ISO 7089 847.0144-00
00-00020905 845.0213-00 制动螺帽 M10 8 ZP ISO 7040 845.0213-00
00-00020906 701.4751-11 装甲板 701.4751-11 parker
Cisco switch power supply module Input 24-48V DC = 4.5A
AERXEN EN-GJL-250 Schneider Electric Canada. 171CCS76000 - M1/M1E SHENYANG - KS19119 FC13A P1A11U1805404
Deltabar S
PMD75-1TWE8/0
Ser.no.:
Ed ord cd.: PMD75-AAB3L11DAUA+Z1
SHENYANG - KS19119 KSG-4232-HC-D024
SHENYANG - KS19119 FC13A P1A11U180404
Endress+Hauser
IAR-4000 ELECTRIC ACTUATOR CONTROL BOARD -
NO: KS19119 -
Mfr: SHENYANG -
SIGNAL INPUT: 4~20 mA -
STANDARD DIRECTION: 4 mA … VALVE CLOSED -
INVERSE DIRETION: 20 mA VALVE OPENED -
SEE DOC.
PWR -IE65W-PC-DC
西码 WESTCODE 型号是 2UEA001352 跟 2UEA002196
Order code: PMD75-1TWE8/0Ed ord. cd.: PMD75-AAB3L11DAUA+Z1
Ser.no.: J302B70109D
Output 54V = 1.2A, 65V max LPS
AERXEN EN-GJL-250
伺服电机 型号:NX840ERJR7000
00-00020907 701.4751-12 装甲板 701.4751-12
00-00020903 841.0433-00螺丝 M10X30 8.8 841.0433-00
00-00020904 847.0144-00 垫圈 BRB 10.5X20 HV200 Z ISO 7089 847.0144-00
00-00020905 845.0213-00 制动螺帽 M10 8 Z ISO 7040 845.0213-00
00-00020908 701.5444-001装甲板右 701.5444-001
00-00020909 701.5443-001 装甲板右 701.5443-001
00-00020910 701.5305 装甲板 701.5305
00-00020911 701.5303 装甲板 701.5303
00-00020912 701.5302-001 装甲板右 701.5302-001
00-00020913 701.5308-001 装甲板右 701.5308-001
00-00020914 701.5308-002 装甲板左 701.5308-002
00-00020915 701.5302-002 装甲板左 701.5302-002
00-00020916 701.5443-002 装甲板左 701.5443-002
00-00020917 701.5444-002 装甲板左 701.5444-002
00-00020903 841.0433-00 带有六边形凹槽的沉头螺钉 M10x30 8.8 841.0433-00
00-00020920 751.0480-001 V- 滑车 751.0480-001
00-00005419 7200750 破碎机框架的衬里 С1721 7200750
00-00012882 751.0740-001 特殊破碎机框架的衬里 С1721 7510740-001
Н000075044 BG00845043 一套楔子 (12 个) BG00845043
00-00020921 701.5327 反射板障板 701.5327
00-00020922 701.5357 反射板安装 701.5357
00-00020924 701.5329 装甲钢板 701.5329
00-00020925 701.5330 装甲钢板 701.5330
00-00020927 701.5333装甲钢板 701.5333
00-00020928 701.5334 装甲钢板 701.5334
00-00020930 701.5335 装甲钢板 701.5335
00-00020931 701.5336 装甲钢板 701.5336
00-00020932 701.5347 装甲钢板 701.5347
00-00020934 701.5331-002 装甲板左 701.5331-002
00-00020933 701.5331-001 装甲板右 701.5331-001
00-00004393 847.0016-00 垫圈 BRB 17x30 HV200 ZP ISO 7089 847.0016-00
00-00005428 845.0215-00 制动螺帽 M16 8 ZP ISO 7040 845.0215-00
00-00006805 841.0510-00 螺丝 MF6S 16x50 8.8 ISO 10642 841.0510-00
00-00005429 841.0516-00 螺丝 MF6S 16x60 8.8 ISO 10642 841.0516-00
00-00005418 751.0553-001 框架衬里 751.0553-001
00-00005424 751.0726-001 特殊破碎机框架的衬里 751.0726-001
00-00005423 751.0727-001 特殊破碎机框架的衬里 751.0727-001
00-00012880 751.0737-001 特殊破碎机框架的衬里 751.0737-001
00-00012881 751.0739-001 特殊破碎机框架的衬里 7510739-001
00-00005416 847.0038-00 弹垫 FBB 20.2x32.2 ZP 847.0038-00
00-00012883 840.0077-00 螺丝 M6S M20x50 8.8 ZP 840.0077-00
00-00004393 垫圈 BRB 17x30 ZP 847.0016-00
00-00016548 螺丝M6S M16x25 8.8 ZP 11738-84
SHENYANG - KS19119 FC13A P1A11U1805404
00-00020986 保险器3NWNS2 415 Vac
00-00020987 保险器 3NWNS6 415 Vac
Н000076667 2极迷你开关 5SL6207RC MCB C6 415 v 5SL6206-7
00-00020988 单迷你开关 5SV3120RC RCCB 25 A 240 V 30 mA 5SV3120RC
Н000076668 迷你开关5SL61047RC C4 240/415V 5SL6104-7
Н000077242 触头组 3RН 2911-1НА02 3RH2911-1HA02
00-00020989 触头组 3RH 2911-1 HA01 2911-1HA01
00-00020990 触头组3RH 2911-1 HA22 2911-1HA22
Н000077234 触头组3RH 2911-1 HA20 3RH2911-1HA20
00-00006066 触头组 3RH 2911-1 HA10 3RH2911-1HA10
Н000077235 自动迷你开关 3RV 2021-4BA10 13-20 A 13-20А
Н000076648 自动迷你开关 3RV 2031-4VA10 35-45 A 35-45A
Н000076659 自动迷你开关 3RV 2021-4FA10 34-40 A 34-40A
Н000077240 自动迷你开关 3RV 2031-4РA10 28-36 A 28-36-A
Н000076653 自动迷你开关 3RV 2011-1GA10 -MPCB 4,5-6,3 А 456382A
Н000077237 接触器 3RT 2036-1AL20 50 A 3RT2036-1AL20
00-00020991 接触器 3RT 2025-1AL 17 A 220 V 交流电 2025-1AL
00-00020992 过载继电器3RU 2126-4BB0 3RU2126-4BB0
Н000077238 过载继电器底座 3RU2926 -3AA01 3RU2926-3AA01
00-00020993 延迟计时器 3RP1513-1AP30 3RP1513-1AP30
00-00020994 延迟计时器 3RP1525-1AP30 3RP1525-1AP30
Н000094347 通用保护继电器 3SK1111-1AW20 3SK1111-1AW20
Н000065662 电源装置 Omron S8VK-c12024 24V 直流电 5 А S8VK-C-12024
Н000077226 自动电机保护3RV 2011-1JA10 3RV2011-1JA10
00-00020995 辅助接触器 3RH 2140-1BB40 4 HO 24V DC 3RH2140-1BB40
00-00020988 保险器3NWNS2 415 Vac
00-00020989 保险器 3NWNS6 415 Vac
Н000076668 2极迷你开关 5SL6207RC MCB C6 415 v 5SL6206-8
00-00020989 单迷你开关 5SV3120RC RCCB 25 A 240 V 30 mA 5SV3120RC
11.495905C2
12. 121K6423-852023-483824B5
VALVE,RLF:805PSIG,1",MNPT,A216-WCB ";Material PO text:
VALVE,SAFETY RELIEF
SET PRESSURE: 805 PSIG
INLET: 1 INCH NPT MALE
OUTLET: 1 INCH NPT FEMALE
ORIFICE CODE: E
BODY MATERIAL:ASTM A216 GRADE WCB
DISC MATERIAL: 316 SS
SPRING MATERIAL: 316 SS
SOFT SEAL: VITON
CONSTRUCTION:ASME SECTION VIII
REFERENCE MODEL NUMBER: HYDROSEAL 14BE3M0V00/E0"
VALVE,RLF:800PSIG,1.1/2",A216-WCC ";Material PO text:
VALVE,RELIEF
SET PRESSURE: 800 PSIG
HYDROSEAL 14BE3M0V00/E0"
HYDROSEAL 12BG7M0V00/D5 HYDROSEAL 14BE3M0V00/E0的RK1400BV
INLET SIZE: 1.1/2 INCH
ORIFICE CODE: G
BODY MATERIAL: CARBON STEEL
BODY MATERIAL GRADE: ASTM A216 GRADE WCC
MANUFACTURER: HYDROSEAL VALVE
MANUFACTURER MODEL NUMBER:12BG7M0V00/D5
CAPACITY:421 GPM"
KIT,REPAIR:RK1400BV,HYDROSEAL,F/VLV ";Material PO text:
KIT,REPAIR
KIT PART NUMBER: RK1400BV
KIT MANUFACTURER: HYDROSEAL VALVE
EQUIPMENT NAME:RELIEF VALVE
EQUIPMENT MODEL: 14BE3M0V00/E0
EQUIPMENT SERIAL NUMBER: 743570-1
EQUIPMENT INLET SIZE:1 INCH MNPT;
EQUIPMENT SET PRESSURE RATING:805 PSIG,BELOW 941 PSI;
EQUIPMENT REFERENCE:1400B; STANDARD:UV CODE STAMPED;
ORIFICE DIAMETER:E; MAIN-EQUIPMENT NAME:TRIPLEX PUMP;
MAIN-EQUIPMENT CAPACITY:187 GPM"
IC694MDL660
IC694MDL754
Dell 600 Gb, 3.5'' HDD, RPM 15k, 6Gbps SAS 600 Gb, 3,5'', RPM 15k, SAS 6Gbps Dell
Dell PERC H710 Mini Mono SAS Cont Controller Dell PERC H710 Mini Mono SAS Cont Dell
Dell 875w T5400 power supply T5400 Dell
Dell 3.6v 460mAh 1.6Wh Backup Battery (BBU), 70K80 70K80 Dell
Power supply for Dell R320 D550E-S0 servers D550E-S0 550W Dell
Power supply for Dell R740xl servers R740xl 1000W Dell
Battery FR463 for DELL PERC H700 built-in RAID controller 312-0448 NU209 312-0448 NU209 Dell
Dell R340XL (PowerEdge R350 Server) MZ-PCSV67 (PowerEdge R350 Server) Dell
Dell R7920 Control Station (Dell Precision 7920) MZ-PCWS77 (Dell Precision 7920) Dell
LCD monitor DELL 24" 1920x1200 P2421 P2421 Dell
Wyse 5070 thin client Extended w/graphics card: Up to 6 monitors Wyse 5070 (Dell Wyse 5070 thin client extended, AMD Embedded Radeon™ E9173 added) Wyse 5070 Dell
DELL N875EF-00 power supply N875EF-00 Dell
Dell T5500 (Dell Precision 5820 workstation, RAID1 2x1 TB added) T5500 Dell
Dell Precision T7820 (Dell Precision 5820 workstation, RAID1 2x1 TB added) T7820 Dell
Dell PowerEdge R340HWL Server (Dell PowerEdge R350) R340HWL (Dell PowerEdge R350) Dell
MZ-PCVPP1 Dell FX2 Server (PowerEdge FX2 Chassis for 4 Server Nodes) MZ-PCVPP1 (FX2) Dell
MZ-NWSTR3 NAS Dell NX430 (Dell EMC NX3240, Single Intel® Xeon® Bronze 3204 1.9G, 16GB Mem, Entry Config) MZ-NWSTR3 Dell
MZ-PCVC42 VIRT PREM NIC X4 INTEL I350 QP/Network card for Dell FX-2 platform MZ-PCVC42 Dell
MZ-PCVC20 VIRT PREM FN410T 10GBASE-T IOA/Встраиваемый сетевой агрегатор для платформы Dell FX-2 MZ-PCVC20 Dell
C6100 Computer (C6267LNi): Core i5-10400 / 16GB / 1TB / UHD Graphics 630 / DVDRW / Win10 Home C6100 (C6267LNi) Dell
Dell PowerEdge R540 server R540-2212-1 Dell
Server (Dell PowerEdge R740 server) PowerEdge T330 (MZ-PCSV76) Dell
Server (Dell PowerEdge R740 server) PowerEdge T330 (MZ-PCSV76) Dell
Server (Dell PowerEdge R740 server) PowerEdgeR330XL Server (MZ-PCSV62) Dell
Server (Dell PowerEdge R740 server) PowerEdgeR330XL Server (MZ-PCSV62) Dell
Workstation (Precision 5820 Tower 950W Chassis CL FMX) T5820 Workstation (MZ-PCWS93) Dell
Workstation (Precision 5820 Tower 950W Chassis CL FMX) T5820 Workstation (MZ-PCWS93) Dell
Server (Dell PowerEdge R740 server) PowerEdge R350 Dell
Workstation (Dell Precision 5820 Workstation) MZ-PCWS93 T5820XL Dell
Server (Dell PowerEdge T350 server) MZ-PCSV77 T340 Standard RAID Tower Dell
Server (Dell PowerEdge R340 server) MZ-PCSV67 R340XL, 1U rack mount, RAID5 4x300Gb, redundant power supply Dell
Server (Dell PowerEdge R240 server) MZ-PCSV66 R240XL, 1U rack mount, 2 x 1TB, 7.2k RPM, RAID1 Dell
Archive server (Dell PowerVault NX440 server) MZ-NWSTR4 NX440 1U RACK (NAS) 4 x 2TB, 7.2K RPM, RAID5 Dell
Dell Power Edge server (Dell PowerEdge R340 server) R320 Dell
Monitor (housing color black, internal power supply, diagonal at least 24'', mandatory interfaces DVI, VGA, VESA mount 100*100) 24'' LCD (DVI, VGA) Dell
Dell Optiplex 7060 computer (Dell OptiPlex 5090 workstation) Optiplex 7060 Dell
Bypass Station. Dell Precision R7920 2U RACK mount / Quad-Core Intel XEON, 2.40GHz, 1-250GB Hard Disk and 2.0 GB DDR3 RDIMM ECC memory (2x1GB), Redundant PSU, Dual Display Controller, Sliding Mount Kit (Dell Precision 7920 Workstation) MZ-PCWS77 Dell
Dell R330XL RAID5 1U RACK Server Platform (Dell PowerEdge R350 Server) MZ-PCSV62 Dell
WKS PC DELL T5810XL RAID1 TOWER/ Dell Precision T5810XL RAID1 Workstation in Tower Case (Dell Precision 5820 Workstation) WKS PC DELL T5810XL RAID1 TOWER Dell
Battery for Dell FR463 RAID Controller Dell FR463 Dell
DELL 24" monitor,1920x1200, 60 Hz, DisplayPort input U2422HE, U2422H Dell
Dell 5820XL (Dell Precision 5820 Workstation) MZ-PCWS93 Dell
Dell 600 Gb, 3.5'' HDD, RPM 15k, 6Gbps SAS Dell 600 Gb, 3,5'', RPM 15k, SAS 6Gbps Dell
Dell 05CT6D PERC H710 Mini Controller 05CT6D PERC H710 Mini Dell
Power supply for Dell stations:t3400/t5400/t5500 (ATX, 875W) t3400/t5400/t5500 (ATX, 875W) Dell
Battery for Dell FR463 RAID Controller, Rating 3.7 V, Capacity 7Wh FR463, Rating 3.7 V, Capacity 7Wh Dell
Battery for Dell 70K80 RAID Controller Dell 70K80 Dell
LITHIUM-ION BATTERY FOR PERC H710 H810, DELL LITHIUM-ION BATTERY FOR PERC H710 H810, DELL Dell
Power Supply for Dell R320 D550E-S0 Servers Dell R320 D550E-S0 Dell
DELL 2GB 1RX8 PC3-12800U-11-11-A1 Memory with ECC Error Check DELL 2GB 1RX8 PC3-12800U-11-11-A1 Dell
DELL2422 monitor DELL2422 Dell
Dell 5820XL (Dell Precision 5820 Workstation) MZ-PCWS93 Dell
Dell R740xl Server (Dell PowerEdge R740 Server) MZ-PCSV65 Dell
Broadcom Dual Port Network Adapter Dell
Power supply for Dell R740xl servers Dell R740xl Dell
Operator station (Dell Precision 5820 Workstation) DELL T5820 Dell
Dell Backup Battery P9110 Dell
Telemechanics collection server (PowerEdge R540) PowerEdge R540 Dell
ACS operator's arm (Dell OptiPlex 5090 workstation) OptiPlex 5090 Dell
Dell 300GB 15K RPM SAS 12Gbps 2.5in Hot-plug Hard Drive Dell Part (400-AJRK) Dell 300GB 15K RPM SAS 12Gbps 2.5in Hot-plug Hard Drive Dell Part (400-AJRK) Dell
DELL 600GB 10K 12Gbps SFF SAS ENT HDD with Tray (04WX8Y) (AL15SEB060NY) DELL 600GB 10K 12Gbps SFF SAS ENT HDD Dell
"Processor: Intel® Xeon® Processor X5667 (12M Cache, 3.06 GHz) or greater
Memory: RAM 4 GB
Networking: Dual 100 Mbps Ethernet (for FTE)
Video: Resolution 1280x1024, 1600x1200, 1680x1050, 1920x1200, 65K colors
Operating system: Windows 7 Professional SP1 (64-bit)
Hard drive: 80 GB disk space
ELECTROMECHANICAL LEVEL MEASURING SYSTEM -
Mfr: ENDRESS+HAUSER -
TYPE: SILOPILOT M FMM50 -
ORDER NO.: A1B1F1AA21E2 -
MOTOR TRACTION: MAX. 500 N,
BULK DENSITY HIGH - MEASURING RANGE: 25m - POWER SUPPLY: 180~253 VAC - OUTPUT: 0/4 - 20 MA + 2X RELAY, FUNCTION SELECTABLE - PROCESS TEMPERATURE/PRESSURE: -20~150°C/0.8 ~1.1 BAR ABSOLUTE - SENSING WEIGHT: STAINLESS STEEL + UMBRELLA - SEE DOC.
1
D1043Q
HIGH INTEGRITY (SIL2) DIGITAL 4 CHANNEL
GM international
2
2
D1010D
REPEATER POWER SUPPLY SMART
GM international
12
3
D1072D
TEMPERATURE CONVERTER
GM international
2
4
D1092D
2 CH, RELAY OUTPUT MODULE FOR NE AND ND LOADS, SIL 3
GM international
10
5
D5014D
ANALOG INPUT BARRIER, 2 CH.
GM international
6
6
D5020D
ANALOG OUTPUT BARRIER, 2 CH.
GM international
2
7
D6020D
AO ISOLATOR FOR RED SIGNAL
GM international
4
8
D6231E
DI ISOLATOR / 8 CHANNEL
GM international
Rosemount OXT4A 18" 3D39645G01 Rosemount 4847B61G27 Rosemount OXT4C-1-0-0-0-22-3-1-00-01-00-00
D6031S
FDI ISOLATOR / 1 CHANNEL
GM international
Rosemount OXT4A 18" 3D39645G01 Rosemount 4847B61G27 Rosemount OXT4C-1-0-0-0-22-3-1-00-01-00-00
D6014D
HART AI ISOLATOR / 2 CHANNEL
GM international
Heater/Strut Assembly: OXT4A 18" Part #: 3D39645G01......04 PCS.
Cell Replacement Kit: ANSI 18" - Hazardous Area Part #: 4847B61G27.....04 PCS.
In-Situ Oxygen Transmitter - Explo-Proof - HART Smart
Model#: OXT4C-1-0-0-0-22-3-1-00-01-00-00......02 PCS.
D1092S
INTERPOSING RELAY, 5A FOR REDUNDANT DIGITAL OUTPUT
SIGNALS (SIL3)
GM international
D5030D
SIL 3 SWITCH/PROXIMITY DETECTOR REPEATER, RELAY
OUTPUT
GM international
6
MZ-PCWS91 (based on Dell Precision T3600),
MZ-PCWS81 (based on HP Z620),
MZ-PCWS72 (based on Dell Precision R5500)" RAM 4 GB Dell
Rack mounting sled for the RACK station Dell
24" monitor with 1920*1200 resolution (DELL analogue) Dell
Wired keyboard, 104 keys, USB, black (Dell KB216 or equivalent) Dell
Wired mouse, USB, black (Dell MS116 or equivalent) Dell
PowerEdge FC640 Server Node, Host Servers with HDD's MZ-PCVPP1 (FX2) Dell
PowerEdge FC640 Server Node, Host Servers with SSD's MZ-PCVPP1 (FX2) Dell
Dell PowerEdge FN410T I/O Module MZ-PCVPP1 (FX2) Dell
Dell 3.7v 1000mAh 7Wh Backup Battery (BBU) for Perc 5i 6i Poweredge 6850 6950 (FR463) FR463 Dell
Dell 3.7v 1000mAh 7Wh Backup Battery (BBU) for Perc 5i 6i Poweredge 6850 6950(FR463) FR463 Dell
Network Controller Board, NetXtreme BCM5720-2P (BCM95720A2003AC) SGL Dual-Port 1Gb RJ-45 Ethernet Server Adapter, LP + FH brackets incl, BOX.(TD1TDBCM95720A2003AC) Dell
Battery , DELL , 312-0448 NU209 NU209 Dell
П/муфта A180X 75 H7 KSB
P/coupling A180X 75 H7 KSB
SHENYANG - KS19119 FC13A P1A11U1805404
Pcs
2061353
Масленка MCPK-200-150-400 поз.638 KSB
MCPC Oilcan-200-150-400 item 638 KSB
1
Pcs
艾默生丹尼尔 2-4-5000-075
艾默生丹尼尔 2-4-5000-369
艾默生丹尼尔 2-4-5000-938
Figure 1-4. Block diagram Micro-FID lower enclosure
INPUT
AC POWER
OPTIONAL
AC-DC
POWER SUPPLY
24* VDC (24.5 - 26.5 OPERATING VOLTAGE RANGE)
FIELD TERMINATION PCB
BUILT IN SURGE PROTECTION
FIELD WIRING FOR THE FOLLOWING:
COM 1 & 2, 5-8
ANALOG INPUTS 4-20mA.......(4)
ANALOG OUTPUTS 4-20mA....(4)
DIGITAL INPUTS.....................(5)
DIGITAL OUTPUTS (5) RELAYS
2 RELAYS FORM “A” CONTACT
3 SOLID STATE RELAYS
ANALYZER INTERCONNECT
POWER FOR STANDARD BUS
DC-DC CONVERTER
OUTPUTS
5VDC, +12VDC, -12 VDC
- 3.8VDC
STD-BUS
OPTIONAL ANALOG
OUTPUT PCB
4 ISOLATED OR
8 NON-ISOLATED
SIGNALS - POWER
CPU
COM4A PCB
COM 5-8
ETHERNET PCB
INTERNAL MODEM
OPTIONAL PC104
BOARD STACK
MULTIFUNCTION COM 3
FID & TCD PREAMPLIFIER COM 4
System Reference Manual Model 700 Gas Chromatograph
3-9000-521 APRIL 2012
1 - 8
The GC-PC interface provides the user with the greatest capability, ease�of-use, and flexibility. One PC running MON2000 can connect with up to
32 chromatographs (via RS-485 serial communications links). MON2000
is used to edit applications, monitor operations, calibrate streams, and
display analysis chromatograms and reports, which can then be stored
to files on the PC hard drive or printed from either the PC printer port or
the GC printer port.
1.2.3 Sample conditioning system (SCS)
The sample conditioning system is located between the process stream
and the Analyzer Assembly sample inlet (mounted on the lower portion
of the Analyzer Assembly stand). The standard configuration includes a
Stream Switching System and filters.
The Model 700 electronics and hardware are housed in two explosion�proof enclosures and meet IEC Class I, Zone 1, Ex d IIB+H2, T4 (NEC Class
1, Division 1, Groups B, C, and D) approval for use in a hazardous
environment.
1.3 Functional description
A sample of the gas to be analyzed is taken from the process stream by a
sample probe installed in the process line. The sample passes through a
sample line to the SCS where it is filtered or otherwise conditioned. After
conditioning, the sample flows to the Analyzer Assembly for separation
and detection of the gas components.
WARNING
Do not use a PC or a printer in a hazardous area. Serial port and Modbus
communications links are provided to connect the unit to the PC and to connect to
other computers and printers in a safe area. Failure to follow this warning may result in
injury or death to personnel or cause damage to the equipment.
The chromatographic separation of the sample gas into its components
is accomplished in the following manner. A precise volume of sample gas
is injected into one of the analytical columns. The column contains a
stationary phase (packing) that is either an active solid or an inert solid
Model 700 Gas Chromatograph System Reference Manual
APRIL 2012 3-9000-521
1 - 9
support that is coated with a liquid phase (absorption partitioning). The
sample gas is moved through the column by means of a mobile phase
(carrier gas). The selective retardation of the components takes place in
the column, causing each component to move through the column at a
different rate. This separates the sample into its constituent gases and
vapors.
A detector located at the outlet of the analytical column senses the
elution of components from the column and produces electrical outputs
proportional to the concentration of each component. Outputs from the
detector(s) are amplified in the Analyzer Assembly electronics, then
transmitted to the Controller Assembly for further processing.
Note
For additional information, see "Section 1.5: Theory of operation".
Output from the Controller Assembly is normally displayed on a
remotely located PC or a printer. Connection between the Controller
Assembly and the PC can be accomplished via a direct serial line or via a
Modbus-compatible communication interface.
Several chromatograms may be displayed via MON2000, with separate
color schemes, allowing the user to compare present and past data.
Use of the MON2000 software for configuration and troubleshooting
procedures is essential in most cases. The PC may be remotely
connected via telephone, radio or satellite communications. Once
installed and configured, the Model 700 can operate independently for
long periods of time.
System Reference Manual Model 700 Gas Chromatograph
3-9000-521 APRIL 2012
1 - 10
1.3.1 Available functions
Individual GC functions that can be initiated or controlled by the GC
system and its software, MON2000, include (but are not limited to) the
following:
• valve activations
• timing adjustments
• stream sequences
• calibrations
• baseline runs
• analyses
• halt operation
• stream/detector assignments
• stream/component table assignments
• stream/calculation assignments
• diagnostics
• alarm and event processing
• event sequence changes
• component table adjustments
• calculation adjustments
• alarm parameters adjustments
• analog scale adjustments
Model 700 Gas Chromatograph System Reference Manual
APRIL 2012 3-9000-521
1 - 11
Reports and logs that can be produced, depending upon the GC
application in use, include (but are not limited to) the following:
• Configuration Report
• Parameter List
• Analysis Chromatogram
• Chromatogram Comparison
• Alarm Log (unacknowledged and active alarms)
• Event Log
• Various Analysis Reports
1.4 Software description
The MON2000 uses three distinct types of software. This enables total
flexibility in defining the calculation sequence, printed report content,
format, type and amount of data for viewing, control and/or
transmission to another computer or Controller Assembly. The three
types are:
• Baseline Operating System (BOS)
• Application configuration software
• Maintenance and Operations software (MON2000 version 2.2 or
later)
The BOS and the Application configuration software are installed when
the Model 700 system is shipped. The application configuration is
tailored to the customer’s process and shipped on a floppy disk. Note
that the hardware and software are tested together as a unit before the
equipment leaves the factory. MON2000 communicates with the Model
700 system and allows an initial site system setup (i.e., operational
parameters, application modifications, and maintenance).
System Reference Manual Model 700 Gas Chromatograph
3-9000-521 APRIL 2012
1 - 12
1.4.1 BOS
The Baseline Operating System (BOS) supervises operation of the Model
700 through its internal microprocessor-based controller; all direct
hardware interface is via this control software. It consists of a multi�tasking program that controls separate tasks in system operation, as well
as hardware self-testing, user application downloading, start-up, and
communications. Once configured, a Model 700 can operate as a stand
alone unit.
1.4.2 MON2000
MON2000, available as a Windows-based program, provides the human�machine interface for maintenance, operation, and troubleshooting. It
allows the user to download applications developed for a specific GC
unit. MON2000 provides operator control of the connected Model 700,
monitors analysis results, and inspects and edits various parameters that
affect Model 700 operation. It also controls display and printout of the
chromatograms and reports, and it stops and starts automatic analysis
cycling or calibration runs.
After the equipment/software has been installed and the operation
stabilized, automatic operation can be initiated. The link between the
MON2000 computer and the Model 700 can either be direct, via a local
serial connection or remote, via an ethernet network, modems,
telephone lines and/or radio.
Operation of multiple Model 700 chromatographs (up to 32) with a
single MON2000 computer, via a multi-drop serial link, is also supported.
Model 700 Gas Chromatograph System Reference Manual
APRIL 2012 3-9000-521
1 - 13
1.5 Theory of operation
The following sections discuss the theory of operation for the Model
700, the engineering principles and concepts used.
Note
See "Section 1.8: Glossary" for definitions of the terminology used in the following
explanations.
1.5.1 Thermal conductivity detector (TCD)
One of the detectors (located on the oven in the Analyzer upper
assembly) is a thermal conductivity detector that consists of a balanced
bridge network with heat sensitive thermistors in each leg of the bridge.
Each thermistor is enclosed in a separate chamber of the detector block.
One thermistor is designated the reference element and the other the
measurement element. See Figure 1-5 for a schematic diagram of the
thermal conductivity detector (TCD).
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Figure 1-5. Analyzer assembly with tcd detector bridge
In the quiescent condition (prior to injecting a sample), both legs of the
bridge are exposed to pure carrier gas. In this condition, the bridge is
balanced and the bridge output is electrically nulled. (The bridge can be
balanced by the fine and coarse adjustment potentiometers located on
the preamplifier circuit board.)
The analysis begins when a fixed volume of sample is injected into the
column by operation of the sample valve. The sample is moved through
the column by the continuous flow of carrier gas. As successive
components elute from the column, the temperature of the
measurement element changes.
The temperature change unbalances the bridge and produces an
electrical output proportional to the component concentration.
The differential signal developed between the two thermistors is
amplified by the preamplifier. Figure illustrates the change in detector
electrical output during elution of a component.
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Figure 1-6. Detector output during component elution
In addition to amplifying the differential signal developed between the
two thermistors, the preamplifier supplies drive current to the detector
bridge. The voltage signal is converted to a 4-20 milliampere (mA)
current loop for transmission to the Controller Assembly.
The signal is proportional to the concentration of a component detected
in the gas sample. The preamplifier provides four different gain channels
as well as compensation for baseline drift.
The signals from the preamplifier are sent to the Controller Assembly for
computation, recording on a printer, or viewing on a PC monitor (via
MON2000).
1
2
3
1 2
3
1
detector bridge balanced
component begins to elute from column
peak concentration of component
and is measured by thermistor
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1.5.2 Flame ionization detector (FID)
The other detector (located on the oven in the Analyzer Assembly) is a
Flame Ionization Detector. The FID requires a polarization voltage and its
output is connected to the input to a high impedance amplifier which is
called an Electrometer. The burner uses a mixture of hydrogen and air to
maintain the flame. The sample of gas to be measured is also injected
into the burner. See Figure 1-7 for a schematic diagram of the Flame
Ionization Detector (FID).
Figure 1-7. Analyzer assembly with Micro-FID detector bridge
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1.5.3 LSIV
The Liquid Sample Inject Valve (LSIV) penetrates the wall of the upper
enclosure and is held in place by a retaining ring. The mounting
arrangement is designed to ensure integrity of the flameproof enclosure.
Figure 1-8. Model 700 LSIV assembly
The outermost end houses an air operated piston. Air at 15 to 45 psi is
directed by a solenoid valve to either advance the stem to inject the
sample or to retract the stem.
The next section houses an auxiliary stem seal assist. A piston driven by
air at 80 to 100 psi keeps adequate load on the stem seal to counteract
wear at the high temperatures and pressures that might be encountered.
There are two ¼npt ports in this section; one port retracts the sample
piston and the other port activates the seal assist.
The innermost section houses the stem seals and the sample chamber.
There are five ¼ npt ports in this section.
Air Inlet
Retaining Ring Piston Housing
Actuation
Air Inlet
Retraction
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Within the enclosure cavity are the flash chamber components
surrounded with insulating covers. At working temperatures, the
surfaces of these covers become very hot to the touch.
The tip of the LSIV is the port where flashed sample is taken to the oven
system.
The port at right angles to the length of the LSIV is the input for carrier
gas.
The heater block, a cylinder of aluminum, is installed off-center
surrounding the flash chamber, close to the wall of the upper enclosure.
It houses the heater and an RTD and is retained by a jamb nut that should
only be finger tight.
1.5.4 Methanator
After all other components have been separated from the sample,
normally undetectable CO and CO2 are sent through the methanator.
They are combined with hydrogen to make methane in a heat generated
catalytic reaction. The methanator is also known as a methanizer or a
catalytic converter.
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Figure 1-9. Model 700 Methanator Assembly
1.5.5 Data acquisition
Every second, exactly 40 equi-spaced data samples are taken (i.e., one
data sample every 25 milliseconds) for analysis by the Controller
Assembly. The sampling frequency of 40 Hertz (Hz) was chosen to
reduce normal mode noise (at 60 Hz).
After each point on the chromatograph signal is sampled, the resulting
number is stored for processing in a buffer area of the Controller
Assembly memory. During the analysis, only the last 256 data points are
available for processing.
Because the data analysis is done as the signal is sampled (in real-time),
only a limited number of past data samples is required to analyze any
signal.
Methanator
Assembly
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As a part of the data acquisition process, groups of incoming data
samples are averaged together before the result is stored for processing.
Non-overlapping groups of N samples are averaged and stored, and thus
reduce the effective incoming data rate to 40/N samples per second. For
example, if N = 5, then a total of 40/5 or 8 (averaged) data samples are
stored every second.
The value for the variable N is determined by the selection of a Peak
Width parameter (PW). The relationship is
where PW is given in seconds. Allowable values of N are 1 to 63; this
range corresponds to PW values of 2 to 63 seconds.
The variable N is known as the integration factor. This term is used
because N determines how many points are averaged, or integrated, to
form a single value. The integration of data upon input, before storing,
serves two purposes:
• The statistical noise on the input signal is reduced by the square root
of N. In the case of N = 4, a noise reduction of two would be realized.
• The integration factor controls the bandwidth of the chromatograph
signal. It is necessary to match the bandwidth of the input signal to
that of the analysis algorithms in the Controller Assembly. This
prevents small, short-duration perturbations from being recognized
as true peaks by the program. It is therefore important to choose a
Peak Width that corresponds to the narrowest peak in the group
under consideration.
1.5.6 Peak detection
For normal area or peak height concentration evaluation, the
determination of a peak's start point and end point is automatic. The
manual determination of start and end points is used only for area
calculations in the Forced Integration mode. Automatic determination of
peak onset or start is initiated whenever Integrate Inhibit is turned off.
Analysis is started in a region of signal quiescence and stability, such that
the signal level and activity can be considered as baseline values.
N PW =
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Note
The Controller Assemblysoftware assumes that aregion of signal quiescenceand
stability will exist.
Having initiated a peak search by turning Integrate Inhibit off, the
Controller Assembly performs a point by point examination of the signal
slope. This is achieved by using a digital slope detection filter, a
combination low pass filter and differentiator. The output is continually
compared to a user-defined system constant called Slope Sensitivity. A
default value of 8 is assumed if no entry is made. Lower values make peak
onset detection more sensitive, and higher values make detection less
sensitive. Higher values (20 to 100) would be appropriate for noisy
signals, e.g. high amplifier gain.
Onset is defined where the detector output exceeds the baseline
constant, but peak termination is defined where the detector output is
less than the same constant.
Sequences of fused peaks are also automatically handled. This is done by
testing each termination point to see if the region immediately following
it satisfies the criteria of a baseline. A baseline region must have a slope
detector value less than the magnitude of the baseline constant for a
number of sequential points. When a baseline region is found, this
terminates a sequence of peaks.
A zero reference line for peak height and area determination is
established by extending a line from the point of the onset of the peak
sequence to the point of the termination. The values of these two points
are found by averaging the four integrated points just prior to the onset
point and just after the termination points, respectively.
The zero reference line will, in general, be non-horizontal, and thus
compensates for any linear drift in the system from the time the peak
sequence starts until it ends.
In a single peak situation, peak area is the area of the component peak
between the curve and the zero reference line. The peak height is the
distance from the zero reference line to the maximum point on the
component curve. The value and location of the maximum point is
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determined from quadratic interpolation through the three highest
points at the peak of the discrete valued curve stored in the Controller
Assembly.
For fused peak sequences, this interpolation technique is used both for
peaks, as well as, valleys (minimum points). In the latter case, lines are
dropped from the interpolated valley points to the zero reference line to
partition the fused peak areas into individual peaks.
The use of quadratic interpolation improves both area and height
calculation accuracy and eliminates the effects of variations in the
integration factor on these calculations.
For calibration, the Controller Assembly may average several analyses of
the calibration stream.
1.6 Basic analysis computations
Two basic analysis algorithms are included in the Controller Assembly:
Note
For additional information about other calculations performed, see the MON2000
Software for Gas Chromatographs User Manual (P/N 3-9000-522).
• Area Analysis — calculates area under component peak
• Peak Height Analysis — measures height of component peak
1.6.1 Concentration analysis - response factor
Concentration calculations require a unique response factor for each
component in an analysis. These response factors may be manually
entered by an operator or determined automatically by the system
through calibration procedures (with a calibration gas mixture that has
known concentrations).
The response factor calculation, using the external standard, is:
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or
where
Calculated response factors are stored by the Controller Assembly for
use in the concentration calculations, and are printed out in the
configuration and calibration reports.
Average response factor is calculated as follows:
where
The percent deviation of new RF averages from old RF average is
calculated in the following manner:
where the absolute value of percent deviation has been previously
entered by the operator.
ARFn area response factor for component “n” in area per mole percent
Arean area associated with component “n” in calibration gas
Caln amount of component “n” in mole percent in calibration gas
Htn peak height associated with component “n” mole percent in calibration
gas
HRFn peak height response factor for component “n”
RFAVGn area or height average response factor for component “n”
RFi area or height average response factor for component “n” from the
calibration run
k number of calibration runs used to calculate the response factors
ARFn
Arean
Caln
= -------------- HRFn
Htn
Caln
= -----------
RFAVGn
RFi
i = 1
k
?
k = ------------------
deviation
RFnew RFold –
RFold
= ----------------------------------- ? 100
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1.6.2 Concentration calculation - mole percentage (without
normalization)
Once response factors have been determined by the Controller
Assembly or entered by the operator, component concentrations are
determined for each analysis by using the following equations:
or
where
Component concentrations may be input through analog inputs 1 to 4 or
may be fixed. If a fixed value is used, the calibration for that component is
the mole percent that will be used for all analyses.
1.6.3 Concentration calculation in mole percentage (with
normalization)
The normalized concentration calculation is:
ARFn area response factor for component “n” in area per mole percent
Arean area associated with component “n” in unknown sample
CONCn concentration of component “n” in mole percent
Htn peak height associated with component “n” mole percent in unknown
sample
HRFn peak height response factor for component “n”
CONCn
Arean
ARFn
= -------------- CONCn
Htn
HRFn
= --------------
CONCNn
CONCn
CONCi
i = 1
k
?
= ---------------------------- ? 100
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Note
The average concentration of each component will also be calculated when data
averaging is requested.
where
1.7 Additional Resources
In addition to this manual, Model 700 Gas Chromatograph System
Reference Manual, refer to the MON2000 Software for Gas
Chromatographs User Manual (P/N 3-9000-522). Use this manual for
installing the MON2000 and Modbus Test (WinMB) software programs,
getting started, checking various gas chromatograph (GC) application
settings, and configuring and monitoring your GC system.
1.8 Glossary
Auto Zero
Automatic zeroing of the TCD preamplifier may be configured to take
place at any time during the analysis when either the component is not
eluting or the baseline is steady.
The FID is automatically zeroed at each new analysis run and can be
configured to take place anytime during the analysis when either the
component is not eluting or the baseline is steady. The TCD is only
automatically zeroed at the start of a new analysis.
CONCNn normalized concentration of component “n” in percent of total gas
concentration
CONCi non-normalized concentration of component “n” in mole percent for
each “k” component
CONCn non-normalized concentration of component “n” in mole percent
k number of components to be included in the normalization
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Baseline
Signal output when there is only carrier gas going across the detectors.
In a chromatogram you should only see Baseline when running an
analysis without injecting a sample.
Carrier Gas
The gas used to push the sample through the system during an analysis.
In C6+ analysis we use Ultra Pure (zero grade) Carrier Gas for the carrier.
This gas is 99.995 percent pure.
Chromatogram
A permanent record of the detector output. A chromatograph is
obtained from a PC interfaced with the detector output through the
Controller Assembly. A typical chromatogram displays all component
peaks, and gain changes. It may be viewed in color as it is processed on a
PC VGA display. Tick marks recorded on the chromatogram by the
Controller Assembly indicate where timed events take place.
Component
Any one of several different gases that may appear in a sample mixture
For example, natural gas usually contains the following components:
nitrogen, carbon dioxide, methane, ethane, propane, isobutane, normal
butane, isopentane, normal pentane, and hexanes plus.
Condulet
A box with a removable cover providing access to wiring in conduit
(conduit outlet) that is part of an optional cable entry package.
CTS
Clear to send
DCD
Data carrier detect
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DSR
Data set ready
DTR
Data terminal ready
FID
Flame Ionization Detector - The optional
FID may be used in place of one TCD for the detection of trace
compounds. The
Micro-FID requires a polarization voltage and its output is connected to
the input to a high impedance amplifier, an Electrometer. The sample of
gas to be measured is injected into the burner with a mixture of
hydrogen and air to maintain the flame.
LSIV
Liquid Sample Inject Valve - The optional LSIV is used to convert a liquid
sample to a gas sample by vaporizing the liquid in a heated chamber,
then analyzing the flashed sample.
Methanator
The optional Methanator, a catalytic converter, converts otherwise
undetectable CO2 and/or CO into methane by adding hydrogen and heat
to the sample.
Response Factor
Correction factor for each component as determined by the calibration:
RF RawArea
CalibrationConcentration = ----------------------------------------------------------------------
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Retention Time
Time (in seconds) that elapses between the start of analysis (0 seconds)
and the sensing of the maximum concentration of each component by
the detector.
RI
Ring indicator
RLSD
Received Line Signal Detect (a digital simulation of a carrier detect).
RTS
Request to send
RxD, RD, or Sin
Receive data, or signal in
TCD
Thermal Conductivity Detectors — Detectors that use thermal
conductivity of the different gas components to produce an unbalanced
signal across the bridge of the preamplifier. The higher the temperature
the lower the resistance on the detectors.
TxD, TD, or Sout
Transmit data, or signal out
2 - 1
2
Section 2: Equipment description and
specifications
Use the following sections to reference the Model 700 equipment
description or specifications.
2.1 Equipment description
The Model 700 consists of two copper-free aluminium explosion-proof
housings, upper and lower, and a front flow panel assembly. The
enclosures are separated by a pipe conduit which routes electrical wiring
from the lower enclosure to the upper enclosure. Designed to be
explosion-proof, this unit is built for installation in hazardous locations.
See Section 3.1 for more information.
Figure 2-1. Model 700 Gas Chromatograph
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2.1.1 Upper enclosure
The Model 700 upper explosion-proof housing contains the electronic
controller (multifunction board), the Oven System, the Stream Switching
System (SSS) and preamplifier assembly.
Note
All circuit boards are connected through a common ground via the enclosure.
Figure 2-2. Upper Enclosure Assembly
Insulating Cover
Preamplifier Assembly
Multifunction Board
Micro-FID Exhaust Line
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A more detailed equipment list includes:
• TCD Oven System (consists of the electronics, up to three
chromatograph valves and the stream switching system):
- column module (i.e., “oven”)
- one or two pairs thermal conductivity detectors (TCDs)
- valve system consisting of:
• three sample-directing valves
• plastic manifold that thermally insulates the Oven System and
connects the actuating part to the solenoid valves attached to
the plastic manifold
- two heater zones: column with one cartridge heater and one
block with three heaters
- two thermal cut-off switches:
(oven temperature switch) opens at 257°F (±5 °) (125 °C)
Figure 2-3. TCD Oven System Assembly
• Micro-FID
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Figure 2-4. Model 700 Micro-FID upper assembly
The optional flame ionization detector may be used in place of one TCD
for the detection of trace levels of compounds.
• Methanator
Figure 2-5. Model 700 Methanator Upper Assembly
Micro-FID
Methanator
ssembly
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The optional Methanator, a catalytic converter, converts
otherwise undetectable CO2 and/or CO into methane by adding
hydrogen and heat to the sample.
Figure 2-6. LSIV Assembly
The optional liquid sample inject valve (LSIV) is used to convert a liquid
sample to a gas sample for analysis on the Model 700 Gas
Chromatograph.
A measured sample is placed in a heated chamber above the
vaporization point of the liquid and then it is flashed to a gas. Once
vaporized, the sample is pushed by the carrier gas through the heated
tubing into the column train.
• Stream Switching System (SSS) that consists of the following:
- manifold block
- solenoid valves
- valve clamps
- temperature sensor
- oven temperature switch
- tubing
- insulation cover
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Figure 2-7. SSS Installed
• TCD Electronics
- Dual Methods Adapter Board
- Driver I/O Board
- Multifunction Board
- Preamplifier Board
- External Locking Device
• FID Electronics
- Solenoid/Heater Driver Board
- Multifunction Board
- Preamplifier Power supply
- Driver I/O Board
- Multifunction Board
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2.1.2 Lower Enclosure
The Model 700 lower enclosure consists of the Card cage assembly,
which contains the following:
• CPU board
• Com4A board (optional)
• Analog board
• Additional analog board (optional)
• Digital I/O
• Internal modem (optional)
• Ethernet card (optional)
• Field termination board (FTB)
• Connection for AC/DC power supply
(converter)
• Internal and external ground
Note
The Model 700 CSA-certified unit is equipped with 3/4 inch cross-over adapters.
• External locking device
• DB pin connection for serial communications
WARNING
See power supply label prior to connection. Check the unit power design to determine
if it is equipped for AC or DC power. Applying 110/ 220 VAC to a DC power input unit
will severely damage the unit. Failure to do so may result in injury or death to personnel
or cause damage to the equipment.
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2.1.3 Flow Panel Assembly
The flow panel assembly is attached to the front of the upper enclosure
and consists of the following: (see Figure 2-2):
• Carrier pressure regulator(s) and gauge(s)
• Sample flow meter
• Sample Vent (SV)
• Measure Vent (MV)
• Actuation pressure limiting regulator
• Pressure switch, mounted internally
CAUTION
If the carrier gas pressure drops below a set point, this switch causes the analysis to stop
and activates the analyzer failure alarm.
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2.2 Equipment Specifications
2.2.1 Utilities
Use the following table to determine the utility specifications.
Type Specification
unit
dimensions
(P/N 20351)
• basic unit envelope
w - 15.2” (387 mm)
h - 41.5” (1054 mm) Note: Allow 14” (360 mm) additional clearance for removal
of dome.
d - 19.2” (488 mm)
• wall mount
w - 18.2” (463 mm)
h - 41.5” (1054 mm)
d - 19.2” (488 mm)
• pole mount
w - 18.2” (463 mm)
h - 41.5” (1054 mm)
d - 25.0” (635 mm)
• floor mount
w - 18.2” (463 mm)
h - 58.0” (1470 mm)
d - 19.2” (488 mm)
unit weight • wall mount 130 lbs (59 kg)
• pole mount 135 lbs (61 kg)
• floor mount 150 lbs (68)
materials • 303 and 316 stainless steel
• 316 stainless steel and Kapton in contact with sample
• Swagelock and Valco fittings
mounting • floor mount
• pole mount: 2” (60.3 mm); 3” (89.0 mm); 4” (114.3 mm)
• direct wall mount
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power • 24VDC standard (24.5 - 26.5 VDC operating voltage range); 80 watts
• AC optional 90-130/180-264 VAC; 47-63 Hz; 80 watts
80 watts start-up; 33 watts nominal
• 47-63Hz (single phase)
• 75W (Model 700 w/TCD)
• 150W (Model 700 w/Methanator or LSIV)
• 36VDC, Sol/Drv PCB Transorb
Note: Voltage range includes line voltage variations. Ensure the GC receives at
least 24.5 VDC at the terminals. If the power supply is located more than 164 feet
(50 meters) from the GC, a voltage drop may occur across the cable and cause the
solenoids to fail. If your GC installation is more than 164 feet (50 meters) away
from the power supply, use an AC power supply to avoid problems with a voltage
drop across the cable.
instrument
air
not required; optional for valve actuation, minimum pressure of 90 psig
environment • -18 to 55 oC (0 to 130 oF)
• 0 to 95% RH (non-condensing)
• indoor/outdoor
• pollution - degree 2 (the unit can withstand some non conductive
environmental pollutants e.g., humidity)
• max altitude 2000m
Type Specification
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approvals
For USA, Class I, Zone 1, AEx d IIB+H2, T4, Enclosure Type 4
Class I, Division 1, Group B, C and D
For Canada, Class I, Zone 1, Ex d IIB+H2, T4, Enclosure Type 4
Class I, Division 1, Group B, C and D
Gas Chromatograph, Model 700, permanently connected, rated 90-130/180-264 V ac,
75W, 50/60 Hz, I phase, or 23-28 V dc, 75W, Operating Temperature Ambient -18oC to
+55oC.
0518
SIRA 04ATEX1055X
II 2 G
Ex d IIC T4 Gb
Tamb = +60oC
IECEx SIR 08.0008X
Ex d IIC T4 Gb
Tamb = 60oC
Type Specification
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2.2.2 Electronic Hardware
Review the system block diagrams, Upper and Lower Electronics, to
become familiar with the Model 700.
Figure 2-8. Upper Electronics with TCD Block Diagram
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Figure 2-9. Upper Electronics with Micro-FID Block Diagram
PREAMPLIFIER P/S PCB
DC-DC CONVERTERS
24VDC INPUT
OUTPUTS
+20VDC -20VDC
100VDC
5VDC
3.3 VDC
SOLENOID/HEATER
DC-DC CONVERTERS
24 VDC INPUT
OUTPUTS
5VDC
DRIVER PCB
SOLENOID DRIVERS (16)
HEATERS (4 ZONES)
24VDC
PREAMPLIFIER PCB
HEATER PWM CONTROLLER
(4 ZONES)
DIGITAL INPUTS.................(5)
COM RS-232......................(1)
RTD INPUTS.......................(4)
ANALOG INPUTS 4-20mA....(4)
DIGITAL OUTPUTS..............(5)
SERIAL DAC CONTROL.........(SPI)
MULTIFUNCTION
MICRO-CONTROLLER PCB
SERIAL PORT RS-232
SERIAL PERIPHEERAL INTERFACE
POWER
INPUTS:
1 TCD DETECTOR
1 FID DETECTOR
OUTPUTS:
COM (1)
(RS-232 OR RS-485)
SERIAL I/O
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Figure 2-10. Lower Electronics TCD Block Diagram
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Figure 2-11. Lower Electronics Micro-FID Block Diagram
INPUT
AC POWER
OPTIONAL
AC-DC
POWER SUPPLY
24 VDC
FIELD TERMINATION PCB
BUILT IN SURGE PROTECTION
FIELD WIRING FOR THE FOLLOWING:
COM 1 & 2, 5-8
ANALOG INPUTS 4-20mA.......(4)
ANALOG OUTPUTS 4-20mA....(4)
DIGITAL INPUTS.....................(5)
DIGITAL OUTPUTS (5) RELAYS
2 RELAYS FORM “A” CONTACT
3 SOLID STATE RELAYS
ANALYZER INTERCONNECT
POWER FOR STANDARD BUS
DC-DC CONVERTER
OUTPUTS
5VDC, +12VDC, -12 VDC
- 3.8VDC
STD-BUS
OPTIONAL ANALOG
OUTPUT PCB
4 ISOLATED OR
8 NON-ISOLATED
SIGNALS - POWER
CPU
COM4A PCB
COM 5-8
ETHERNET PCB
INTERNAL MODEM
OPTIONAL PC104
BOARD STACK
MULTIFUNCTION COM 3
FID & TCD PREAMPLIFIER COM 4
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Use the following table to determine the electronic hardware
specifications.
Type Specification
Rating Division 1; no purge required
CPU AMD Geode LX800 500MHz
Memory 128 MB System RAM
CompactFlash 128 MB
Communication Ports 6 configurable Modbus ports; support RS-232/422/485 protocols
Optional Modem 56K Baud Telephone
Analog Inputs 4, 12-pin Phoenix on FTB
Standard Analog Outputs 4, 12-pin Phoenix on FTB
Optional Analog Outputs 8, non-isolated outputs 24-pin Phoenix
Located on Optional Analog Board
Or,
4, isolated outputs 12-pin Phoenix connector
Located on Optional Analog Board
Discrete Digital Inputs GC_IN (dedicated to pressure switch); 4 user-defined inputs
Digital Outputs (5) 2 Relays “Form A” contacts
Relay contact rating 24 VDC nominal @ 1 Amp
3 Solid State Relays - Rating of 0.375A @30 VDC on FTB - 10 pin
Phoenix connector
Detector Inputs Optionally 2 micro-volume TCD inputs
1 Flame Ionization Detector (Micro-FID) input
Transient Protection over-voltage category II
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2.2.3 Micro Heat Sink Oven
Use the following table to determine the oven specifications.
Type Specification
Valves 6-port and 10-port valves; piston-operated diaphragms
with pneumatic actuation
Columns max of 40 feet (12 m) of micro-packed columns; 1/16-
inch
(1.6-mm) outside diameter
Solenoid Actuation • 24 VDC
• max 90 psi
Wetted Parts 316 stainless steel and kapton diaphragm
Temperature Control • 24 VDC heat sink
• 2 zones (1 column, 1 block)
• max operating temperature of 115 °C (239 °F)
Sample System 1 zone, includes Stream Switching System
Sample Streams • standard: max of 3 analytical and 1 auto calibration
• optional: max of 8
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2.2.4 Software
Use the following table to determine the software specifications.
Note
The Model 700 has its own applications and is not compatible with 2350/2350A
applications.
Type Specification
Software PC-based MON2000; runs 2350 and 2350A applications (v2.4
or later)
Firmware embedded firmware compatible with 2350/2350A
applications (v1.8 or later)
Methods 4 Timed Event Tables and 4 Component Data Tables
assignable to each stream
Peak Integration • fixed time or auto slope and peak identification
• update Retention Time upon
calibration or during analysis
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3-Section 3: Installation and setup
This section provides instructions for installing and setting up the Model
700 gas chromatograph (GC) system for Zone 1/ Division I
environments.
This procedure involves the following steps:
• Observe precautions and warnings
• Plan site location
• Obtain supplies and tools
• Install GC wiring
• Install GC sample and gas lines
• Perform leak checks
• Purge carrier gas lines
• Purge calibration lines
• Start up GC system
3.1 Precautions and warnings
WARNING
Install and operate all equipment as designed and is compliant with all safety
requirements. The “Seller” does not accept any responsibility for installations of the
Model 700, or any attached equipment, in which the installation or operation thereof
has been performed in a manner that is negligent and/or non-compliant with
applicable safety requirements.
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3.1.1 Hazardous environments
WARNING
Observe all precautionary signs posted on the Model 700 enclosure. Failure to do so
may result in injury or death to personnel or cause damage to the equipment.
WARNING
Observe all precautionary signs posted on the Model 700 enclosure.
WARNING
The Model 700 enclosures are certified by CSA for Class I, Zone 1, Ex d IIB+H2 T4,
Enclosure Type 4 and Class I, Division 1, Groups B,C,D. The Model 700 enclosures are
certified by ATEX for ATEX Ex d IIC T4 and IEC-Ex Ex dIIC T4.
WARNING
ATEX certified units must be installed strictly in compliance with the requirements of
IEC 60079-14.
Special conditions for safe use must be met. The maximum constructional gap (ic) is
less than that required by Table 2 of EN 60079-1:2007.
Before opening the Model 700 enclosure, reduce the risk of igniting hazardous
atmospheres by disconnecting the equipment from all power supplies. Keep the
assembly closed tightly when in operation to reduce the risk of igniting hazardous
atmospheres. Inlet (incoming) wiring must meet local standards (i.e. in conduit with
seal fitting within 18 or via cable glands certified to IEC 60079-1). Upper enclosure
threaded entry is ¾ NPT. Lower enclosure threaded entries are M32-1.5.
Observe all precautionary signs posted on the Model 700 enclosure. Failure to do so
may result in injury or death to personnel or cause damage to the equipment.
Please direct all health, safety and certification related questions to: Emerson Process
Management, Gas Chromatographs, Applications Engineering Group, 713-827-6380 or
1-866-GC Center (1-866-422-3683).
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Follow these precautions if installing or operating the Model 700
instrumentation in a hazardous area:
1. Install and operate only the Zone 1/ Division I version of the
Model 700 in a hazardous area.
2. Do not operate any printer or personal computer (PC) that is
connected to a GC which is installed in a hazardous area. To
interface with a GC in a hazardous area, use a PC that is located in
a nonhazardous area and remotely connected to the GC.
3. Ensure that field connections to the analyzer are made through
explosion-proof conduit or flameproof glands.
3.1.2 Power source wiring
Follow these precautions when installing AC power source wiring:
1. All wiring must conform to the CEC or NEC, local state or other
jurisdiction, and company standards and practices.
2. Provide 24 VDC (24.5 - 26.5 VDC range) power or optional single�phase, 3-wire, power at 115 or 230 VAC, 47-63 Hertz.
3. Locate circuit breaker and optional power disconnect switch in a
safe area.
4. Provide the Model 700 system and any optionally installed
devices with one 15-Amp circuit breaker for protection.
CAUTION
15 amps is the maximum current for 14 AWG (wire).
5. Ensure that the 24 VDC input power is S.E.L.V. compliant by
suitable electrical separation from other circuits.
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6. Use multi-stranded copper conductor wire according to the
following recommendations:
• For power feed distances up to 250 feet (76 meters), use 14
AWG (American Wire Gauge) (18 Metric Wire Gauge),
stranded.
• For power feed distances 250 to 500 feet (76 to 152 meters),
use 12 AWG
(25 Metric Wire Gauge), stranded.
• For power feed distances 500 to 1000 feet (152 to 305
meters), use 10 AWG
(30 Metric Wire Gauge), stranded.
• Cable entries are M32 in accordance with ISO 965.
3.1.3 Card cage removal
The Model 700 card cage assembly is designed to be disconnected and
removed from the lower enclosure to allow space for user power and
signal connections. This may be particularly important for applications
where large numbers of I/O connections are required.
Note
Card cage removal is not necessary for I/O connections.
To disassemble the card cage, do the following:
1. Remove the lower enclosure cover and the front flow panel
assembly or LOI.
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Figure 3-1. Lower enclosure disassembly
If removing a flow panel assembly, leave the wires attached to it
and allow it to hang outside of the enclosure.
2. Carefully disconnect all of the ribbon cables from the boards in
the card cage assembly (CPU, Analog, Modem, etc.).
Note
Note the location of the ribbon cables for ease of reassembly.
Cover
LOI
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Figure 3-2. Card cage cable disassembly
3. Use a Phillips head screw driver and remove the two screws
located at the top of the card cage and one screw on the bottom
left side of the card cage (not visible in the figure).
Flow Panel
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Figure 3-3. Card cage assembly screw locations
4. Slide the card cage assembly out of the lower enclosure.
Card Cage
Screws
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Figure 3-4. Card cage disassembly
5. User power and signal connections may be made with the card
cage removed from the lower enclosure.
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Figure 3-5. Card cage disassembly for power and signal wiring
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3.1.4 Signal wiring
Follow these general precautions for field wiring digital and analog
input/output (I/O) lines:
CAUTION
Observe all precautionary signs posted on the Model 700 enclosure. Applicable to all
digital and analog I/O lines connecting to the GC: Any loop of extra cable left for service
purposes inside the GC housing must not be placed near any AC power lines. If this
precaution is not followed, the data and control signals to and from the GC can be
adversely affected.
• Metal conduit must be used for all process signal wiring (assuming
operation in a Class 1, Division 1 Explosive Area). Metal conduit is not
required for use in general purpose areas.
• Metal conduit or cable (in compliance with EN 60079-14) used for
process signal wiring must be grounded at conduit support points
(intermittent grounding of conduit helps prevent induction of
magnetic loops between the conduit and cable shielding).
• All process signal wiring should be a single, continuous length
between field devices and the GC. If, however, length or conduit runs
require that multiple wiring pulls be made, the individual conductors
must be interconnected with suitable terminal blocks.
• Use suitable lubrication for wire pulls in conduit to prevent wire
stress.
• Use separate conduits for AC voltage and DC voltage circuits.
• Do not place digital or analog I/O lines in same conduit as AC power
circuits.
• Use only shielded cable for digital I/O line connections.
- Ground the shield at only one end.
- Shield-drain wires must not be more than two AWG sizes smaller
than the conductors for the cable.
• When inductive loads (relay coils) are driven by digital output lines,
the inductive transients must be diode-clamped directly at the coil.
• Any auxiliary equipment wired to the GC must have its signal
common isolated from earth/chassis ground.
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3.1.5 Electrical and signal ground
Follow these general precautions for grounding electrical and signal
lines:
• For shielded signal conducting cables, shield-drain wires must not be
more than two AWG sizes smaller than the conductors for the cable.
Shielding is grounded at only one end.
• Metal conduit used for process signal wiring must be grounded at
conduit support points (intermittent grounding of conduit helps
prevent induction of magnetic loops between the conduit and cable
shielding).
• A single-point ground (the outside case ground lug) must be
connected to a copper-clad, 10-foot long, 3/4-inch diameter steel
rod, which is buried, full-length, vertically into the soil as close to the
equipment as is practical (note: the grounding rod is not furnished.)
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Figure 3-6. Ground Lug Lower Enclosure
• Resistance between the copper-clad steel ground rod and the earth
ground must not exceed 25 Ohms.
• On ATEX certified units, the external ground lug must be connected
to the customer’s protective ground system via AWG 9 (6mm2)
ground wire. After the connection is made, apply a non-acidic grease
to the surface of the external ground lug to prevent corrosion.
• The equipment-grounding conductors used between the GC and the
copper-clad steel ground rod must be sized according to the
following specifications:
Length Wire
15 ft. (4.6 m) or less 8 AWG
stranded, insulated copper
Ground Lug
Inside Lower
Enclosure
Ground Lug
Outside Lower
Enclosure
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• All interior enclosure equipment-grounding conductors must be
protected by metal conduit.
• External equipment, such as data printers, that are connected to the
GC should be powered via isolation transformers to minimize the
ground loops caused by the internally shared safety and chassis
grounds.
3.1.6 Electrical conduit
Follow these general precautions for conduit installation:
• Conduit cutoffs must be square. Cutoffs must be made by a cold
cutting tool, hacksaw, or by some other approved means that does
not deform the conduit ends or leave sharp edges.
• All conduit fitting-threads, including factory-cut threads, must be
coated with a metal-bearing conducting grease, such as Crouse�Hinds STL or equivalent, prior to assembly.
• Temporarily cap the ends of all conduit runs immediately after
installation to prevent accumulation of water, dirt, or other
contaminants. If necessary, swab out conduits prior to installing the
conductors.
• Install drain fittings at the lowest point in the conduit run; install seals
at the point of entry to the GC explosion-proof housing to prevent
vapor passage and accumulation of moisture.
• Use liquid-tight conduit fittings, such as Myers Scru-tite or similar, for
conduits exposed to moisture.
When conduit is installed in hazardous areas (e.g., areas classified as NEC
Class I, Division 1, Groups B, C, and D), follow these general precautions
for conduit installation:
15 to 30 ft. (4.6 to 9.1 m) 6 AWG
stranded, insulated copper
30 to 100 ft. (9.1 to 30.5 m) 4 AWG
stranded, insulated copper
Length Wire
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WARNING
Observe all precautionary signs posted on the equipment. Consult your company
policies and procedures and other applicable requirements documents to determine
wiring and installation practices that are appropriate for hazardous areas. Failure to do
so may result in injury or death to personnel or cause damage to the equipment.
• All conduit runs must have a fitting, which contains explosion-proof
sealing (potting) located within 18 inches from the conduit entrance
to the explosion-proof housing.
• The conduit installation must be vapor tight, with threaded hub
fittings, sealed conduit joints and gaskets on covers, or other
approved vapor-tight conduit fittings.
3.1.7 Sample system requirements
Observe the following guidelines for installing GC sample systems:
Line length:
If possible, avoid long sample lines. In case of a long sample line, flow
velocity can be increased by decreasing downstream pressure and using
by-pass flow via a speed loop.
Note
Stream switching requires a sample pressure of 20 psig.
Sample line tubing material:
Note
The calibration gas stream inlet is the last stream inlet following the sample gas.
• Use stainless steel tubing for noncorrosive streams.
• Ensure tubing is clean and free of grease (see Figure 3-7 for details).
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Figure 3-7. Stream Inlets (Right side of unit)
Dryers and filters:
Use small sizes to minimize time lag and prevent back diffusion.
Note
Install the probe/regulator first, immediately followed by the coalescing filter and then
the membrane filter. See Appendix C for a recommended natural gas installation.
• Install a minimum of one filter to remove solid particles. Most
applications require fine-element filters upstream of the GC. The
Model 700 hardware includes a 2-micron filter.
• Do use ceramic or porous metallic type filters. Do not use cork or felt
filters.
Gas Connections
Stream 1 - 8
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Pressure regulators and flow controllers:
• Do not use types containing cork or felt filters, or absorbent
diaphragms.
Pipe Threads, dressing:
• Do use Teflon tape. Do not use pipe thread compounds (dope).
Valving:
• Install a block valve downstream of sample takeoff point for
maintenance and shutdown.
• Block valve should be needle valve or cock valve type, of proper
material and packing, and rated for process line pressure.
3.2 Preparation
Your Model 700 GC was started and checked out before it left the
factory. Program parameters were installed and documented in the PC
Config Report furnished with your Model 700.
3.2.1 Site selection
Install the GC as close as possible to the sample system but allow for
adequate access space for maintenance tasks and adjustments. Allow a
minimum of 14 inches (36 cm) in front for enclosure opening and access.
• Allow a minimum of 14 inches (36 cm) above the top of the dome
enclosure for dome removal and access.
• Ensure that exposure to radio frequency (RF) interference is minimal.
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3.2.2 Unpacking the unit
See the following checklist for unpacking the unit and inspecting for
damage:
1. Unpack the equipment:
• Model 700 system
• MON2000 CD-ROM
2. Ensure that all documentation and software are included on the
CD-ROM:
• This manual: Model 700 Gas Chromatograph System Reference
Manual (P/N 3-9000-521)
• The software manual: MON2000 Software for Gas
Chromatographs User Manual (P/N 3-9000-522)
• The MON2000 Software for Gas Chromatographs Windows
application, Modbus Test application, and GC applications
(P/N 2-3-2350-400)
3. Remove any packing materials from internal areas of the unit
(particularly in the dome enclosure).
4. If an FID is present, remove the vent plug from the FID outlet. The
vent plug has a tag attached to it that reads “REMOVE VENT
PLUGS PRIOR TO OPERATION”. Failure to remove the cap could
result in a performance failure or in damage to the detector.
Installation and startup should proceed only if all required materials are
on hand and free from obvious defects.
If any parts or assemblies appear to have been damaged in shipment,
first file a claim with the carrier. Next, complete a full report describing
the nature and extent of the damage and forward this report
immediately to Measurement Services for further instructions (see the
Customer Repair Report at the back of this manual). Include complete
model number information. Disposition instructions will be returned
immediately.
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3.2.3 Model 700 installation arrangements
The Model 700 GC can be ordered for installation in the following
mounting arrangements (see drawing P/N DE-20993):
Note
The wall should be strong enough to support the 200-pound load.
• Wall mount
• Pole mount
• Floor mount
3.2.3.1 Wall mount
The simplest arrangement is wall mount (see drawing P/N DE-20993).
The unit has two mounting ears on each side. The ear-holes are used to
attach the unit to a wall.
The uppermost of the holes should be about 30 inches from the floor for
the most efficient use of the unit.
The space between the enclosures and the wall (1.3 inches) allows
adequate access above and around the unit.
3.2.3.2 Pole mount
The pole mount arrangement uses mounting ears as attachment points
for the plates clamped to a pole (see drawing P/N DE-20993). The plates
accept the recommended u-bolt systems for the 2 inch, 3 inch or 4 inch
nominal pipe sizes. The base attachment of the pole being used must be
able to accommodate the weight of the unit.
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3.2.3.3 Floor mount
The floor mount arrangement includes additional external framing that
creates a free-standing unit (see drawing P/N DE-20993). The mounting
ears, located on the base of the frame, are used to anchor the unit to a
floor or instrument pad. The frame, also provides a means for attaching
sample-conditioning plates or for anchoring
tubing-runs.
3.2.4 Required Tools and Components
You will need these tools and components to install the Model 700:
• Zero grade carrier gas (99.995% pure, with less than 5 ppm water,
and less than 0.5 ppm hydrocarbons)
• High pressure dual-stage regulator for the carrier gas cylinder, high
side up to 3000 pounds per square inch, gauge (psig), low side
capable of controlling pressure up to 150 psig
• Calibration standard gas with correct number of components and
concentrations. See Appendix Table C-1.
• Single-stage regulator for the calibration gas cylinder, low pressure
side capable of controlling pressure up to 30 psig
• Sample probe regulator (fixture for procuring the stream, or sample
gas for chromatographic analysis)
• Coalescing filter
• Membrane filter
• 1/8-inch stainless steel (SS) tubing for connecting calibration
standard to GC, 1/8 inch SS tubing for connecting carrier gas to the
GC, 1/8-inch SS tubing for connecting stream gas to the GC
• Heat tracing (as required) for sample transport and calibration lines
• Miscellaneous Swagelok tube fittings, tubing benders and tubing
cutter
• 14 AWG (18 MWG) or larger electrical wiring and conduit to provide
115 or 230 volts AC, single phase, 50 to 60 Hertz, from an
appropriate circuit breaker and power disconnect switch. See
guidelines in “Power source wiring” on page 3-3.
• Liquid leak detector (Snoop® or equivalent)
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• Digital volt-ohm meter with probe-type leads
• Flow measuring device
• Open-end wrenches sized 1/4, 5/16, 7/16, 1/2, 1/16 and 5/8-inch
3.2.5 Supporting tools and components
WARNING
Do not use a PC or a printer in a hazardous area. Serial port and Modbus
communications links are provided to connect the unit to the PC and to connect to
other computers and printers in a safe area. Failure to follow this warning may result in
injury or death to personnel or cause damage to the equipment.
Supporting tools and components include:
• Use an IBM-compatible PC and either a direct or remote
communications connection to interface with the Model 700 system.
See Section 2.1 of the MON2000 Software for Gas Chromatographs
User Manual
(P/N 3-9000-522) for more information on specific PC requirements.
• The Model 700 comes with serial Port 2 on the Field Termination
Board (FTB) factory-wired with a DB 9-pin connection. Use the
provided serial cable (P/N 3-2350-068) to hookup to a PC. See Table
A-4 for more information regarding these connections.
Note
You can use the serial cable installed for the Model 700. For straight-through serial
cable installation and fabrication instructions, see Appendix A.
If a different serial cable is used to connect from the PC to the pre�wired DB 9-pin, follow these specifications:
Terminal Connection
DB 9-pin male Serial Port 2
DB 9-pin male
DB 25-pin female
PC serial port
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• Use items necessary for connecting the GC to a network or other
type of remote data transfer system (an example item might be an
RS-232/RS-485 conversion box for long distance serial transmission),
as applicable.
• Use a printer, connected either at the PC or the GC unit, to record
analysis and other data. See Section 3.4.6 for wiring information.
3.3 Model 700 installation
3.3.1 DC power supply
WARNING
Ensure that the DC power source is switched OFF before connecting the wires. Also,
ensure that the DC power is S.E.L.V. compliant by suitable electrical separation from
other circuits. Failure to follow these warnings may result in injury or death to personnel
or cause damage to the equipment.
CAUTION
Check the unit prior to wiring to determine if it is equipped for DC power. Failure to
observe this precaution may damage equipment.
To connect DC power to the GC:
1. Locate the plug-together termination block inside the lower
enclosure.
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Figure 3-8. 24 VDC power connection
2. Bring the two leads in through the entry on the left side of the
lower enclosure. Connect to the termination plug provided with
the unit. See Appendix H Drawing DE- 20993.
24 VDC Power Connection
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Figure 3-9. 24 VDC power inlet
Use the following table for the DC power wiring details:
3. Each board that connects to the 24 VDC is protected from lead
reversal by the use of blocking diodes. The following boards are
connected to the 24 VDC:
• Field Termination Board
• Isolated Analog Output Option Board
• Solenoid/Heater Driver board
Note
A new version of the Solenoid/Heater Driver Board that includes the Diode protection
will soon be released.
• FID/TCD Preamplifier Board
If the Red (+) and Black (-) leads are inadvertently reversed, no
damage will occur, however, the system will not have power.
Attribute Wire Color
+ (positive) red
— (negative) black
24 VDC Power Inlet
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4. Connect the DC power leads to the power disconnect switch that
is properly fused. The recommended fuse size is 10 Amps.
3.3.2 Optional AC — DC power converter
To connect 115 or 230 VAC power to the GC:
WARNING
Check the unit prior to wiring to determine if it is equipped for optional AC power.
Failure to follow this warning may result in injury or death to personnel or cause
damage to the equipment.
1. Locate the plug-together termination block inside the lower
enclosure (located on the lower left side behind the power
supply).
Figure 3-10. AC/DC Power Converter
AC / DC Power
Converter
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WARNING
Do not connect AC power leads without first ensuring that AC power source is switched
OFF. Failure to follow this warning may result in injury or death to personnel or cause
damage to the equipment.
CAUTION
Do not apply electrical power to the GC until all interconnections and external signal
connections have been verified, and proper grounds have been made. Failure to
observe this precaution may cause damage to equipment.
AC wiring is usually colored as:
2. Bring the power leads in through the left entry on the bottom of
the enclosure.
3. If necessary, connect the GC chassis ground to an external copper
ground rod (at remote locations). See Section 3.1.5 regarding
electrical and signal grounding.
Attribute Wire Color
hot brown or black
neutral blue or white
ground green or green
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3.3.3 Sample and Gas Lines
To install GC sample and gas lines:
Note
Use SS tubing. Keep tubing clean and dry internally to avoid contamination. Before
connecting the sample and gas lines, flow clean air or gas through them. Blow out
internal moisture, dust, or other contaminants.
1. Remove the plug from the Sample Vent (SV) line (1/16-inch
tubing marked “SV” located on the Flow Panel Assembly).
• If desired, connect the SV line to an external (ambient
pressure) vent. If the vent line is terminated in an area exposed
to wind, protect the exposed vent with a metal shield.
• Use 1/4-inch or 3/8-inch tubing for vent lines longer than 10
feet.
Figure 3-11. Model 700 Upper Enclosure
Note that, at this stage in the installation, the GC Measure Vent
(MV) line (marked “MV”) remains plugged until leak checks are
completed. For regular operation, however, the MV line must be
unplugged, or open.
Do not discard the vent line plugs. They are useful at any time
when leak-checking the GC and its sample or gas line
connections.
MV
SV
Sample Vent and
Measure Vent Lines
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2. Connect carrier gas to the GC. (The carrier gas inlet is a 1/8-inch
tee fitting located on the left side of the upper enclosure.)
CAUTION
Do not turn on gas until you have completed leak checking the carrier and sample lines
(see Step 5). Failure to follow this precaution may cause injury to personnel or damage
equipment.
Figure 3-12. Carrier gas inlet left-side upper enclosure
• Use 1/8-inch or 1/4-inch stainless steel tubing to conduct
carrier gas.
• Use a dual-stage regulator with high-side capacity of 3000
psig and low-side capacity of 150 psig.
Carrier Gas
Inlet
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• See Appendix C for a description of a dual-cylinder carrier gas
manifold (P/N 3-5000-050) with these features:
Note
The first stream is the calibration gas stream.
- Carrier gas is fed from two bottles.
- When one bottle is nearly empty (100 psig), the other
bottle becomes the primary supply.
- Each bottle can be disconnected for refilling without
interrupting GC operation.
3. Connect calibration standard gas to the GC
Note
When installing the calibration standard gas line, ensure that the correct
tubing connection is made.
• Use 1/8-inch stainless steel tubing to conduct calibration
standard gas.
• Use a single-stage regulator with low-side capacity of up to 30
psig.
• The calibration gas inlet is the last inlet following the sample
gas.
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Figure 3-13. Calibration gas stream inlet (right side of unit)
4. Connect sample gas stream(s) to the GC (see Figure 3-11 Model
700 Upper Enclosure panel).
• Use 1/8-inch or 1/4-inch stainless steel tubing to conduct
calibration standard gas.
• Ensure that pressure of sample line is regulated to maintain 15
to 30 psig (±10%).
• Gas stream inlet(s) are identified (see Figure 3-14) for details.
Gas Inlet
Calibration
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Figure 3-14. Sample stream inlets (Right side of unit)
5. After all lines have been installed, proceed with leak checking the
carrier and sample lines. See Section 3.5.1; note that it requires
the AC power to be turned on at the GC.
3.4 Setting the Com ID
The Model 700 Com ID is determined by dual inline package (DIP) switch
settings.
Note
Follow the steps in this section only if you wish to change the Com ID setting or visually
inspect and verify the DIP switch settings.
Streams 1 - 7
Gas Inlets Gas Inlet
Calibration
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Figure 3-15. Dip switch
In most cases, the Com ID configuration made at the factory will not
need to be changed. The factory DIP switch settings produce a Com ID of
1.
3.4.1 Inspect or change the Com ID
To visually inspect and verify the DIP switch settings or to change the
Com ID settings on the multifunction board,
1. Remove the dome from the upper enclosure.
CAUTION
Use caution when accessing an enclosure. A voltage of 115 to 230 VAC, along with
various DC voltages, are present. Failure to follow this precaution may cause injury to
personnel or damage equipment.
2. Loosen the thumb screws on the oven system mounting plate.
Note
Note that MON2000 Com I.D. settings will override the hardware settings. To
use the hardware Com I.D. configuration, enter a zero in the MON2000 Com
I.D. settings. For details, refer to MON2000 Software for Gas Chromatographs
User Manual (P/N 3-9000-522).
3. Carefully lift up the assembly and rotate so that the enclosure
opening is accessible.
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Figure 3-16. Oven Mounting Bracket
4. Locate the multifunction board. It is mounted on a bracket
towards the center of the upper enclosure.
Figure 3-17. Multifunction Board Location
Mounting Bracket
Thumb Screw
Multifunction
Board
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5. On the multifunction board, locate the Modbus slave address
(Com ID) DIP switch. It is labeled “S1” and mounted on the lower
right corner of the board.
Figure 3-18. Dip Switch
6. Inspect or change the DIP switch as necessary, using the wiring
diagram as a guide. See Table 3-1.
• Make settings on switch S1 located on the multifunction
board.
• Switches “1” through “5” form a 5-bit binary number for
setting the Modbus slave address (also known as Com ID or
Device ID).
• Switch number “1” is the least significant bit, and switch
number “5” is the most significant bit. Set these switches
either ON or OFF.
• Switch “6” and “7” are spares and switch “8” is used to cold
start the processor. See Table 3-2.
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Use the GC maintenance records to document any changes made to the
switch settings.
3.4.2 Preparing for serial connections
The method for operating a Model 700 system is from a connected
personal computer (PC). The PC must be:
• Running MON2000 software (version 2.2 or later). See the MON2000
User Manual (P/N 3-9000-522) for more information.
• Connected to the Model 700 via a serial link.
This section addresses the basic ways to wire a serial connection
between a PC and the GC system.
Before connecting a PC to the Model 700, determine the following:
Table 3-1. Modbus slave address (COM ID) dip switch settings
Com ID 1 2 3 4 5
1 ON OFF OFF OFF OFF
2 OFF ON OFF OFF OFF
3 ON ON OFF OFF OFF
4 OFF OFF ON OFF OFF
5 ON OFF ON OFF OFF
6 SPARE
7 SPARE
8 COLD START
Table 3-2. Switch positions for cold start
8
Normal (Run) OFF
Cold Start ON
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1. What serial ports are available at the PC?
When you select one, consider these points:
• Standard PC serial ports are type
RS-232.
• Usually there are two external serial port jacks on a PC,
located on the rear panel. Most often, they are either DB-9 or
DB-25 male (see below).
Note
Model 700 software upgrades can be installed via any available
communications port.
Figure 3-19. Serial port jacks
• PC serial ports can be used by other peripheral equipment
attached to the PC, such as a printer, mouse, or modem, etc.
To determine which PC serial ports are already being used by
other equipment and which port can be used for connecting
to the GC, note existing serial connections, refer to your PC
user manual, and use diagnostic software (such as Norton
Utilities).
2. What serial ports are available at the GC?
The Model 700 without the FID comes equipped with three serial
ports (standard), unless the customer needs a LOI Interface
connection, then only two com ports are standard. The
installation of the optional Com4A board (with or without a LOI)
brings the total number of available serial ports to six.
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When you select a serial port, consider these points:
• Com1 and Com2 from the WinSystems CPU board (J1) and
Com4 from the WinSystems CPU board (J6) to Field
Termination board (J5 and J7) (standard configuration)
• Com3 from WinSystems CPU board (J6) to the multifunction
board
• Com4 is reserved for the LOI (Local Operator Interface), if
installed.
The Model 700 with the FID comes equipped with two serial ports
(standard). The installation of the optional Com4A board bring
the total number of available serial ports to six.
When you select a serial port, consider these points:
• Com1 and Com2 from the WinSystems CPU board (J1) to
Field Termination board (J5 and J7) standard configuration
• Com3 from WinSystems CPU board (J6) to the multifunction
board (J4)
• Com4 from the WinSystems board (J6) is connected to the
FID/TCD Preamplifier board (J4)
For additional serial ports, the:
• Optional Com4A board may be installed at the factory. Com5
through Com8 are fully available to the user and are factory�configured to RS-232 protocol. See Appendix A for additional
options (RS-422/485).
• With the optional Com4A board installed, six Com ports are
available to the user.
3. Is the connection to be made in a …
• Short distance between the PC and GC?
• With temporary or permanent cable connection?
See Section 3.4.3, FTB connection (RS-232).
4. Is the connection to be made with a …
• Short distance between the PC and GC?
• Permanent cable connection (see Section 3.4.4).
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5. Is the connection to be made with a …
• Long distance between the PC and GC?
• Permanent cable connection (see Section 3.4.5).
3.4.3 FTB connection (RS-232)
The easiest way to connect a PC to the GC is with an off-the-shelf,
straight-through serial cable connected to the GC serial port DB 9-pin
connector pre-wired on the FTB.
1. Obtain a straight-through serial cable with these specifications:
Note
You can buy this cable from most computer supply retailers. If, however, it is
necessary to custom-wire a cable because of circumstances, see guidelines
provided in Appendix B.
• 50 feet long (or less)
• DB 9-pin or DB 25-pin female plug at one end (for PC
connection)
• DB 9-pin male plug at the other end (for GC connection)
2. Connect the serial cable plugs to the appropriate serial port jacks
at the PC and GC. Use the MON2000 software to monitor and
operate the GC as needed.
3.4.4 PC to GC cable short distance connection (RS-232)
The PC-GC connection is made with straight-through serial cable
connected to one of the GC internal serial ports on the FTB.
Note
For detailed information concerning serial communications, refer to Appendix A.
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If the length of cable can be 50 feet or less, connect the serial cable to
one of the GC serial ports configured for RS-232. (Recall that output
from a standard PC serial port follows RS-232 serial definition.) Cable
that is longer than 50 feet, when used for RS-232 serial transmission, can
result in spurious loss or corruption of data.
To connect your PC to one of the Model 700 serial port jacks:
1. Access the GC’s field termination board, located on the right wall
of the lower enclosure.
Figure 3-20. Field termination board
2. Choose an available serial port on the FTB (see P/N CE-21157 in
Appendix H) that is configured for RS-232 protocol.
Note
Model 700, standard configuration, has three communications ports available
on the FTB: Com1, Com2 and Com5.
Unless specified by the customer, serial ports are configured for
RS-232.
FTB
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Note
Com 4 is dedicated to the Micro-FID/TCD Preamplifier.
For further details, see Figure 3-21 and Figure 3-22.
Figure 3-21. Configuration without Com4A Board
Com3
Multifunction
Board
Com4
FID/TCD
Preamplifier Board
Com1
Com2
Com5
Com7
Com8
Field Termination
Board
Com6
Com1
CPU
Com2
Com3
Com4
(1)
(2)
(1) optional
(2) standard
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Figure 3-22. Configuration with Com4A Board
Note
Model 700, with the Com 4A board installed, has six communications ports
available on the FTB; Com1 and Com2, and Com5, Com6, Com7, and Com8.
Note
Com 4 is dedicated to the Micro-FID/TCD Preamplifier.
3. Connect the appropriate serial cable.
Note
See Appendix A for instructions on fabricating a direct serial cable.
If using a direct 6 conductor serial cable, connect the exposed
cable leads to the FTB serial port. A pinout of a female DB 9-pin
socket is shown in Figure 3-23.
Com3
Multifunction
Board
Com4
FID/TCD
Preamplifier Board
Com1
Com2
Com5
Com7
Com8
Field Termination
Board
Com4A
Com5
Com6
Com7
Com8
Com6
Com1
CPU
Com2
Com3
Com4
(1)
(1) optional
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Figure 3-23. FTB Com1 and Com2 DB 9-pin Connector
4. Field Termination Board serial communications settings are
shown in Figure 3-24 through Figure 3-28.
P3
Com2
5
9
4
8
3
7
2
6
1
Com1
P2
RI 1
RI 2
DSR 2
DSR 1
RTS 1
RTS 2
RXD 1
RXD 2
CTS 1
CTS 2
TXD 1
TXD 2
DTR 1
DTR 2
DCD 1
DCD 2
GND
1
6
2
7
3
8
4
9
5
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Figure 3-24. FTB Com 1 DB 9-pin Phoenix Connector
Figure 3-25. FTB Com2 DB 9-pin Phoenix Connector
RI 1
DSR 1
RTS 1
RXD 1
CTS 1
TXD 1
DTR 1
DCD 1
5
4
3
1
2
6
7
8
9
J5 RS-232 RS-485 RS-422
TX/RX+ TX+
TX/RX- TX�RX+
RX�Com1
RI 2
DSR 2
RTS 2
RXD 2
CTS 2
TXD 2
DTR 2
DCD 2
5
4
3
1
2
6
7
8
9
J7 RS-232 RS-485 RS-422
TX/RX+ TX+
TX/RX- TX�RX+
RX�Com2
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Figure 3-26. FTB Com5 DB 9-pin Phoenix Connector
Figure 3-27. FTB Com6 DB 9-pin Phoenix Connector
RI 5
DSR 5
RTS 5
RXD 5
CTS 5
TXD 5
DTR 5
RLSD 5
5
4
3
1
2
6
7
8
9
J9 RS-232 RS-485 RS-422
TX/RX+ TX+
TX/RX- TX�RX+
RX�Com5
RI 6
DSR 6
RTS 6
RXD 6
CTS 6
TXD 6
DTR 6
RLSD 6
5
4
3
1
2
6
7
8
9
J13
RS-232 RS-485 RS-422
TX/RX+ TX+
TX/RX- TX�RX+
RX�Com6
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Figure 3-28. FTB Com7 DB 9-pin Phoenix Connector
Figure 3-29. Com8 DB 9-pin Phoenix Connector GC Phoenix Plug Port
To make an RS-232 serial connection between one of the Phoenix Plug
serial ports of the GC, and an external modem with DB 25-pin serial port,
you will need to manufacture the cable and its DB 25-pin, male plug
cable end as illustrated below. See Figure 3-30.
RI 7
DSR 7
RTS 7
RXD 7
CTS 7
TXD 7
DTR 7
RLSD 7
5
4
3
1
2
6
7
8
9
J17 RS-232 RS-485 RS-422
TX/RX+ TX+
TX/RX- TX�RX+
RX�Com7
RI 8
DSR 8
RTS 8
RXD 8
CTS 8
TXD 8
DTR 8
RLSD 8
5
4
3
1
2
6
7
8
9
J18 RS-232 RS-485 RS-422
TX/RX+ TX+
TX/RX- TX�RX+
RX�Com8
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Figure 3-30. GC Phoenix Plug Port to External Modem DB 25-pin Port
3.4.5 Long distance connection (RS-422, RS-485)
RS-422 and RS-485 serial protocols are recommended for longer
distance serial connections between the PC and GC System (i.e.,
distances greater than the 50 feet).
To connect your PC to one of the internal Model 700 RS-422/RS-485
serial port jacks:
1. Obtain the following equipment:
• An asynchronous line driver (or interface device) with RS-232
input and RS-422/RS-485 output. See Appendix A for example
brand and model.
• Shielded, computer-grade, twisted pair cable (to connect the
asynchronous line driver device to the GC).
• A straight-through serial cable (to connect the PC to the line
driver).
2. Connect the straight-through serial cable from the PC serial port
to the RS-232 serial port of the line driver device. Then connect
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the twisted pair cable to the RS-422/RS-485 serial port of the line
driver.
3. Configure the line driver for data communications equipment
(DCE) operation. See Appendix A for an example configuration.
4. Access the GC FTB (see Figure 3-20 in "Section 3.4.2: Preparing for
serial connections").
5. Choose an available serial port on FTB that is configured for RS�422 or RS-485 serial protocol, and connect the twisted pair cable
from the line driver. See Appendix A for example connection. Also
see Figure 3-24 through see Figure 3-28 for a list of ports and
terminals assigned for serial communications.
Note
Serial ports Com1 through Com3 are configured by default for RS-232. For
further details or instructions on how to configure these ports to RS- 422/485,
see Appendix A.
3.4.6 GC-Printer wiring
A printer can be connected directly to the GC the field termination board
(FTB) at one of the serial ports. The type and scheduling of reports
produced at the GC printer are determined by settings made in
MON2000 (from the Reports menu, select GC Report Request and/or GC
Printer Control; see the MON2000 Software for Gas Chromatographs User
Manual (P/N 3-9000-522) for more information).
Note
The GC uses only a generic printer driver. The PC printer allows more control and better
quality output.
To connect a printer to the GC serial port:
1. Access the GC FTB (see Figure 3-20 in "Section 3.4.2: Preparing for
serial connections").
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2. Choose an available serial port on the FTB that is configured for
RS-232 serial protocol.
Note
See Appendix A for a complete listing of the serial ports and corresponding
pinouts to fabricate a serial printer cable.
3. After the wiring connections have been completed, use
MON2000 to configure the GC serial port.
(a.) From the Application menu, select Serial Ports. The Serial
Ports window appears.
(b.) Select the appropriate Port row and set Usage to “Report”,
Protocol to “ASCII” and RW to “W”.
(c.) Ensure that the Com ID setting is correct.
(d.) Leave all other settings at the default values (see the
MON2000 User Manual for more information).
3.4.7 Discrete digital I/O wiring
The Field Termination Board (P/N 3-0700-010) has five discrete outputs
and four discrete inputs. Refer to the MON2000 Software for Gas
Chromatographs Manual (P/N 3-9000-522) and use the Application>User
Defined>Selection menu to to configure the Digital Outputs.
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Note
Configure the Digital Output using the MON2000 Software, from the Application >
User Defined>Selections, set the enable the Common Alarm either Normally Open or
Normally Closed.
3.4.7.1 Discrete digital inputs
To connect digital signal input/output lines to the GC (P/N 3-0700-010):
1. Access the FTB (see Figure 3-31)
(P/N 3-0700-010).
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Figure 3-31. Field termination board
The FTB has five discrete outputs and four discrete inputs. The
discrete input, DIG_IN4, is dedicated to a pressure switch. The
discrete inputs are located on J10 (10 pin Phoenix connector).
2. Route digital I/O lines appropriately, especially in the case of the
explosion-proof enclosure.
There are connections for four digital inputs and five digital
output lines (Phoenix 10-pin connector), as follows:
Table 3-3. FTB discrete digital inputs
J10 Function Description
Pin 1 DIG_IN1
Pin 2 GND
Pin 3 DIG_IN2
Pin 4 GND
Pin 5 DIG_IN3 to customer
Pin 6 GND
J10
J14
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3.4.7.2 Discrete digital outputs
The discrete outputs are located on J14 (P/N 3-0700-010) (Phoenix 10-
pin connector) have two “Form A” relays on the FTB. Outputs 3-5 are
Solid State switches with a rating of .375A @30 VDC. The relays, with
sealed enclosures, have a contact current rating of 1.0 Amperes each.
For discrete digital outputs, see Table 3-4.
Pin 7 DIG_IN4 dedicated to a pressure switch
Pin 8 GND dedicated to a pressure switch
Pin 9 DIG_IN5
Pin 10 GND
Table 3-4. FTB discrete digital outputs
J14 Function
Pin 1 DIG_OUT
Pin 2 DIG_OUT
Pin 3 DIG_OUT
Pin 4 DIG_OUT
Pin 5 DIG_OUT_ 3+
Pin 6 DIG_OUT_ 3-
Pin 7 DIG_OUT_ 4+
Pin 8 DIG_OUT_ 4-
Pin 9 DIG_OUT_ 5+
Pin 10 DIG_OUT_ 5-
Table 3-3. FTB discrete digital inputs
J10 Function Description
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3.4.8 Analog input wiring
There are four analog inputs on the Field Termination Board (P/N 3-0700-
010 and drawing CE-21157) located at J4 (12-pin Phoenix connector).
3.4.9 Analog output wiring
There are four standard analog outputs on the standard FTB (P/N 3-
0700-010 and drawing CE-21157); located at J8 (12-pin Phoenix
connector). Additionally, if installed, the optional analog board has eight
analog outputs
Table 3-5. FTB analog inputs
J4 Function
Pin 1 VIN+_1
Pin 2 VIN-_1
Pin 3 Shield
Pin 4 VIN+_2
Pin 5 VIN-_1
Pin 6 Shield
Pin 7 VIN+_3
Pin 8 VIN-_1
Pin 9 Shield
Pin 10 VIN+_4
Pin 11 VIN-_1
Pin 12 Shield
Table 3-6. FTB analog outputs
J8 Function
Pin 1 IOUT+_1
Pin 2 IOUT-_1
Pin 3 Shield
Pin 4 IOUT+_2
Pin 5 IOUT-_2
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There are eight analog outputs on the optional analog output board (P/N
2-3-0580-037 and drawing CE-21157); located at J3 (24-pin Phoenix
connector):
Pin 6 Shield
Pin 7 IOUT+_3
Pin 8 IOUT-_3
Pin 9 Shield
Pin 10 IOUT+_4
Pin 11 IOUT-_4
Pin 12 Shield
Table 3-7. Optional analog outputs
J3 Function
Pin 1 IOUT+_5
Pin 13 IOUT-_5
Pin 2 Shield
Pin 14 IOUT+_6
Pin 3 IOUT-_6
Pin 15 Shield
Pin 4 IOUT+_7
Pin 16 IOUT-_7
Pin 5 Shield
Pin 17 IOUT+_8
Pin 6 IOUT-_8
Pin 18 Shield
Pin 7 IOUT+_9
Pin 19 IOUT-_9
Pin 8 Shield
Pin 20 IOUT+_10
Pin 9 IOUT-_10
Table 3-6. FTB analog outputs
J8 Function
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3.4.10 Optional boards
Optional modem boards are available for the Model 700 GC.
The jumper settings and pinouts for each board is shown below.
3.4.10.1 Optional WinSystems Modem
Pin 21 Shield
Pin 10 IOUT+_11
Pin 22 IOUT-_11
Pin 11 Shield
Pin 23 IOUT+_12
Pin 12 IOUT+_12
Pin 24 Shield
Table 3-8. J8 Modem Board Jumper Settings
Pin(s) Position
1 and 2 In
3 and 4 In
5 and 6 In
7 and 8 In
Table 3-9. J9 Modem Board Jumper Settings
Pin(s) Position
1 and 2 In
5 and 6 In
Table 3-7. Optional analog outputs
J3 Function
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3.4.10.2 Optional Radicom Modem Settings
Table 3-10. J10 Modem Board Jumper Settings
Pin(s) Position
1 and 2 In
3 and 4 In
5 and 6 In
9 and 10 In
15 and 16 In
Table 3-11. J26 Radicom Modem Jumper Settings
Pin(s) Position
1 and 2 In
Table 3-12. J27Radicom Modem Jumper Settings
Pin(s) Position
1 and 2 In
Table 3-13. J30 Radicom Modem Jumper Settings
Pin(s) Position
1 and 2 In
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3.5 Leak checks and purging for
first calibration
Apply AC power to the unit after verifying all electrical connections are
correct and safe. Ensure that all interconnections and external signal
connections have been verified and proper grounds have been made
before turning on the power.
3.5.1 Initial leak check
The focus of this section is for field connections to the analyzer, during
the installation process. See “Leak checks” on page 4-26 for an in depth
discussion of analyzer leak checks.
3.5.1.1 Carrier gas line leak checks
1. Plug the Measure Vent (labeled “MV”) to block the free flow of
Carrier Gas through the GC.
Note
The GC does not have an inline Block Valve to shut off the Carrier Gas flow.
2. Slowly pressurize the “GC side” of the Carrier Gas to 110 psig (±2
percent) with the dual-stage regulator at the Carrier Gas cylinder.
Table 3-14. J31 Radicom Modem Jumper Settings
Pin(s) Position
2 and 3 In
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3. After two minutes, shut off the Carrier Gas bottle valve by turning
it clockwise. Then, observe the high-side regulator gauge on the
Carrier Gas bottle.
• The gauge should not bleed down more than 200 psig in 10
minutes.
• If Carrier Gas is lost at a faster rate, then all tube fittings
between the Carrier Gas bottle and the GC (including the
dual-stage regulator) must be checked for leaks and
tightened if necessary.
Most leaks at this stage (Installation and Setup) are usually
found between the Carrier Gas bottle and the GC.
The dual-stage regulator fitting connecting to the Carrier
bottle, may not seat properly with some Carrier Gas bottles
and allow a leak. If this occurs, carefully wrap a small length of
Teflon tape around the tip of the inlet tube on the dual-stage
regulator (which sits against the Carrier Gas bottle valve seat).
4. Once the GC passes the “Initial leak check”, reopen the Carrier
Gas bottle valve and remove the Measurement Vent (MV) plug.
3.5.1.2 Calibration line leak check
1. Slowly pressurize the Calibration line (up to 20 psig).
2. Block-in the line by turning the “Cal Stream” blocking valve
clockwise until seated.
3. Shut off the Calibration gas at the gas bottle by turning the valve
clockwise.
4. Observe the high-side of the Calibration gas dual-stage regulator
making sure the pressure holds. The pressure should not
decrease for a period of two to three minutes.
5. When the GC passes the “Initial Calibration Gas leak check”, re�open the Calibration gas bottle valve and the in-line “Cal Stream”
block valve.
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3.5.1.3 Sample lines (streams) leak check
1. Slowly pressurize the Sample line (up to 20 psig).
2. Block-in the line.
3. Observe the regulator, making sure the pressure holds. The
pressure should not decrease for a period of two to three
minutes.
4. When the GC passes the “Initial Sample Gas leak check”, re-open
the Sample Gas lines.
3.5.2 Purging carrier gas lines
Purging carrier and calibration gas lines requires AC power. Use Helium
that is 99.995% pure and that has less than 5ppm water and less than
0.5ppm hydrocarbons.
Note
Tubing should be clean and dry internally. During installation, the tubing should have
been blown free of internal moisture, dust, or other contaminants.
To purge the carrier gas lines,
1. Ensure that the MV vent line plug has been removed, and the vent
line is open.
2. Ensure that the carrier gas bottle valve is open.
3. Set the carrier gas line pressure at 110 psig. Use the dual stage
regulator at the carrier gas bottle to adjust pressure.
Note
Do not use the “Carrier Pressure Adjust” regulator adjustment (on the Flow Panel
Assembly) to adjust carrier gas line pressure. This pressure is factory-set and should not
be adjusted.
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4. Turn ON the AC power to the GC.
5. Establish communications with the GC via the MON2000
software. (Use the File > Quick Connect menu path; see Section
2.7.2 in the MON2000 Software for Gas Chromatographs User
Manual (P/N 3-9000-522) for more information.)
6. Use the Applications>Temperature Control menu path to access this
function. The readouts of the block, column and SSS heater
controllers should indicate that the unit is warming up. Also, the
yellow and red status indicators on the FTB4 should be on.
7. Allow the GC system temperature to stabilize and the Carrier Gas
lines to become fully purged with Carrier Gas.
8. Select the Auto Sequence Function. Use the Control > Auto
Sequence menu path described in Section 4 of the MON2000
Software for Gas Chromatographs User Manual (P/N 3-9000-522).
Note
A period of 4 to 8 hours (or overnight) is recommended, during which all of the
settings described in Steps 1 through 7 are maintained. No other settings
should be made.
3.5.3 Purging calibration gas lines
To purge the calibration gas lines, as preparation for first calibration:
1. Ensure that the Carrier Gas lines have been fully purged, as
described in the previous section, and that the SV plug has been
removed.
2. Close the calibration gas bottle valve.
3. Fully open the block valve associated with calibration gas feed
(the block valve should be located on lower right-hand corner of
the front panel).
See Section 5.8 in the MON2000 Software for Gas Chromatographs
User Manual (P/N 3-9000-522) for instructions on selecting
streams.
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4. Open the calibration gas bottle valve.
5. At the calibration gas bottle regulator, increase outlet pressure to
20 psig, ±5%.
6. Close the calibration gas bottle valve.
7. Let both gauges on the calibration gas bottle valve bleed down to
0 (zero) psig.
8. Repeat Steps 4 through 7, five times.
9. Open the calibration gas bottle valve.
3.6 System startup
To perform system start-up,
1. For system startup, run an analysis of the calibration gas.
If equipped with an optional stream switching board, ensure that
the stream switch for the calibration stream is set to AUTO.
Otherwise, ensure that the calibration gas supply is turned on and
set to the correct pressure (25 to 30 PSIG).
Using the MON2000 software, run a single stream analysis on the
calibration stream. Once proper operation of the GC is verified,
halt the analysis.
Use the Control > Calibration and Control > Halt menu
paths; see Sections 4.3 and 4.4 in the MON2000 Software for Gas
Chromatographs User Manual (P/N 3-9000-522) for more
information.
2. Start Auto Sequence of the line gas stream(s).
Use the Control > Auto Sequence menu path; see Section 4.1 in
the MON2000 Software for Gas Chromatographs User Manual (P/N
3-9000-522) for more information. The GC will begin the Auto
Sequence analysis mode.
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4 - 1
4--Section 4: Maintenance and troubleshooting
4.1 Hazardous environments
WARNING
Observe all precautionary signs posted on the Model 700 enclosure. Failure to do so
may result in injury or death to personnel or cause damage to the equipment.
WARNING
ATEX certified units must be installed strictly in compliance with the requirements of
IEC 60079-14.
Special conditions for safe use must be met. The maximum constructional gap (ic) is
less than that required by Table 2 of EN 60079-1:2007.
Before opening the Model 700 enclosure, reduce the risk of igniting hazardous
atmospheres by disconnecting the equipment from all power supplies. Keep the
assembly closed tightly when in operation to reduce the risk of igniting hazardous
atmospheres. Inlet (incoming) wiring must meet local standards (i.e. in conduit with
seal fitting within 18 or via cable glands certified to IEC 60079-1). Upper enclosure
threaded entry is ¾ NPT. Lower enclosure threaded entries are M32-1.5.
Observe all precautionary signs posted on the Model 700 enclosure. Failure to do so
may result in injury or death to personnel or cause damage to the equipment.
Please direct all health, safety and certification related questions to: Emerson Process
Management, Gas Chromatographs, Applications Engineering Group, 713-827-6380 or
1-866-GC Center (1-866-422-3683).
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4.2 Troubleshooting and repair concept
The most efficient method for maintaining and repairing the Model 700
GC system is a component-replacement concept that allows you to
return the system to operation as quickly as possible. Sources of trouble,
such as printed-circuit assemblies, valves, etc., are identified during
troubleshooting test procedures and are replaced at the lowest level
practical with units in known working order. The defective components
are then either repaired in the field or returned to Measurement Services
for repair or replacement.
4.3 Routine maintenance
The Model 700 GC system will perform accurately for long periods with
very little attention (except for maintaining the Carrier Gas cylinders). A
bimonthly record of certain parameters will assist greatly in assuring that
your Model 700 is operating to specifications. The maintenance checklist
should be filled out bimonthly, dated, and kept on file for access by
maintenance technicians as necessary.This gives you a historical record
of the operation of your Model 700, enables a maintenance technician to
schedule replacement of gas cylinders at a convenient time, and allows
quick troubleshooting and repair when it becomes necessary.
A chromatogram, a Configuration Report, and a Raw Data Report should
also be made and filed with the checklist, furnishing a positive dated
record of the Model 700. The chromatogram and reports can also be
compared to the chromatograms and reports run during the
troubleshooting process.
4.3.1 Bimonthly maintenance checklist
Copy the sample maintenance checklist as necessary for your files. If you
have a problem, please complete the checklist and reports, and have the
results available when calling Measurement Services with a problem.
Also have the Sales Order number. The Sales Order number can be found
on the nameplate located on the left side wall of the upper housing of
the Model 700. The chromatograms and reports archived when your
Model 700 left the factory are filed by this number.
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MAINTENANCE CHECKLIST
Date Performed: _______________ Sales Order Number: _______________
System Parameters As Found As Left
Carrier Gas Cylinder
Cylinder Pressure Reading (High) _____ psig _____ psig
Cylinder Pressure Outlet Reading _____ psig _____ psig
Cylinder Pressure Panel Regulator _____ psig _____ psig
Sample System
Sample Line Pressure(s) (1)_____ psig _____ psig
(2)_____ psig _____ psig
(3)_____ psig _____ psig
(4)_____ psig _____ psig
(5)_____ psig _____ psig
Sample Flows (1)___ cc/min ___ cc/min
Sample Vent 1 (SV1) (2)___ cc/min ___ cc/min
Sample Vent 2 (SV2) (3)___ cc/min ___ cc/min
(4)___ cc/min ___ cc/min
(5)___ cc/min ___ cc/min
Calibration Gas
High Pressure Reading _____ psig _____ psig
Outlet Pressure Reading _____ psig _____ psig
Flow ___ cc/min ___ cc/min
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4.3.2 Routine maintenance procedures
• Complete the maintenance checklist bi-monthly. Place the sales
order number, date, and time on the form and file it. This gives you a
basis for comparison in the future if you need it.
• Save a Chromatogram of the operating Model 700 on the PC with the
MON2000 software. Print Configuration, Calibration, and Raw Data
reports and file them with the MON2000.
• Check the printer paper (if used) to ensure that a sufficient supply of
paper remains. Check carrier and calibration gas supplies.
4.3.3 Contact service
Measurement Services offers maintenance service programs that are
tailored to fit specific requirements. Contracts for service and repair can
be arranged by contacting Measurement Services at the address or
telephone number on the Customer Repair Report at the back of this
manual.
4.4 Access to GC equipment elements
4.4.1 Electrical/electronic components
WARNING
The explosion-proof housing should not be opened when the unit is exposed to an
explosive environment. If access to the explosion-proof housing is required,
precautions must be taken to ensure that an explosive environment is not present.
Failure to do so may result in injury or death to personnel or cause damage to the
equipment.
The Model 700 electrical/electronic components are located in the
upper and lower explosion-proof housings. All of the electrical/electronic
components are fully accessible from the front and top of the Model 700.
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Figure 4-1. Model 700 with TCD/Micro-FID Front View
Model 700 with TCD Upper Enclosure
• Multifunction Board
• Dual Methods Adapter Board
• Dual Methods Preamplifier Board
• Solenoid Heater/Driver Board
Model 700 with TCD Lower Enclosure
• WinSystems CPU Board
• Analog Board
• Analog Board (optional)
• Com4A Board (optional)
• Radicom Modem board (optional)
• DC/DC Field Termination Board
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Model 700 with Micro-FID/TCD Upper Enclosure
• Multifunction Board
• Solenoid/Heater Driver Board
• FID/TCD Preamplifier Board
• FID/TCD Preamplifier Power Supply Board
• FID Connector Board
Model 700 with Micro-FID/TCD Lower Enclosure
• Field Termination Board
- Backplane Board
- Interconnect Board
- WinSystems CPU (with PC104 interface)
- Com4A PC/104 Board (optional)
- Radicom Modem Board (optional)
Note
The optional Radicom Modem is always mounted on top of the PC/104 card
stack.
- Eight Channel Analog (non-isolated
4-20mA) Output Board (optional)
- Four Channel Analog (isolated 4-20mA) Output Board (optional)
- Front Panel Analytical and Stream Switch Panel
- Dual Methods Adapter Board
4.4.2 Detector elements, heater elements, valves and
columns
The detector elements, heater elements, valves and columns are located
in the upper explosion-proof housing of the Danalyzer Pro GC.
Remove the thermal cover and insulating shield to gain access to these
components.
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Figure 4-2. Upper Explosion-proof Housing
The detector elements, including the FID, are located in the block (TCD)
and on the FID Base attached to the valve block.
Thermal
Cover
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Figure 4-3. Thermal Conductivity Detector
Figure 4-4. Flame Ionization Detector
There are five heater elements: three valve block heaters, the column
heater, and the stream switching system heater.
Thermal
Detectors
Conductivity
FID
FID Block
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The stream switching heater is a cartridge heater inserted into the
stream switch block (manifold).
The column heater is a cartridge heater located in the middle of the
column mandrel.
The block heaters are cartridge heaters located in the corners of the
block. Column and block heaters are identical and are installed from the
underside of the manifold (plastic base) of the oven.
4.5 Precautions for handling pc assemblies
Printed circuit assemblies contain CMOS integrated circuits, which can
be damaged if the assemblies are not properly handled. The following
precautions must be observed when working with the assemblies:
• Do not install or remove the Model 700 printed circuit assemblies
while power is applied to the units.
• Keep electrical components and assemblies in their protective
(conductive) carriers or wrapping until ready for use.
• Use the protective carrier as a glove when installing or removing
printed circuit assemblies.
• Maintain contact with a grounded surface to prevent static discharge
when installing or removing printed circuit assemblies.
4.6 General troubleshooting
This section contains general troubleshooting information for the Model
700. The information is arranged as appropriate either by major
subsystems or by major functions of the instrument. See Table 4-1 for
frequent possible causes of the hardware alarms.
Note
Correct ALL alarms before re-calibration.
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4.6.1 Hardware Alarms
Use the following table to identify the alarm and possible cause to
remedy the problem.
Table 4-1. Basic Hardware Troubleshooting via Alarms
Alarm Possible Cause
Application Checksum Failure DiskOnChip
ROM Checksum Failure DiskOnChip
RAM Diagnostics Failure bad RAM
Micro-FID/TCD Preamplifier
Alarms
Micro-FID Temperature High
Micro-FID Comm. Failure
extinguished flame
Analog Output 1 High Measured value program for Analog Output 1 is
greater than user-defined full scale range.
Analog Output 2 High
Analog Output 3 High
Analog Output 4 High
Analog Output 5 High
Analog Output 6 High
Analog Output 7 High
Analog Output 8 High
Analog Output 9 High
Analog Output 10 High
Analog Output 11 High
Analog Output 12 High
same as Analog Output 1 High
same as Analog Output 1 High
same as Analog Output 1 High
same as Analog Output 1 High
same as Analog Output 1 High
same as Analog Output 1 High
same as Analog Output 1 High
same as Analog Output 1 High
same as Analog Output 1 High
same as Analog Output 1 High
same as Analog Output 1 High
Analog Output 1 Low Measured value program for Analog Output 1 is
lower than user-defined zero range.
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Analog Output 2 Low
Analog Output 3 Low
Analog Output 4 Low
Analog Output 5 Low
Analog Output 6 Low
Analog Output 7 Low
Analog Output 8 Low
Analog Output 9 Low
Analog Output 10 Low
Analog Output 11 Low
Analog Output 12 Low
same as Analog Output 1 Low
same as Analog Output 1 Low
same as Analog Output 1 Low
same as Analog Output 1 Low
same as Analog Output 1 Low
same as Analog Output 1 Low
same as Analog Output 1 Low
same as Analog Output 1 Low
same as Analog Output 1 Low
same as Analog Output 1 Low
same as Analog Output 1 Low
Analog Input High 1 Measured value program for Analog Input 1 is
greater than the user-defined full scale range.
Analog Input High 2
Analog Input High 3
Analog Input High 4
Same as Analog Input 1 High
Same as Analog Input 1 High
Same as Analog Input 1 High
Analog Input Low 1 Measured value program for Analog Input 1 is
lower than the user-defined full scale range.
Analog Input Low 2
Analog Input Low 3
Analog Input Low 4
Same as Analog Input 1 Low
Same as Analog Input 2 Low
Same as Analog Input 3 Low
Preamp Input 1 Out of Range Indicates either Carrier Gas gone; air not purged
from carrier lines; power failure; bad
thermistors; preamp out of balance or failed;
analyzer temperature low; interconnection
wiring.
Preamp Input 2 Out of Range same as Preamp Input 1 Out of Range
Preamp Input 3 Out of Range same as Preamp Input 1 Out of Range
Table 4-1. Basic Hardware Troubleshooting via Alarms (Continued)
Alarm Possible Cause
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4.6.2 Troubleshooting checklist
An online gas chromatograph can operate properly only if flows are
balanced and constant, the temperature is constant, no leaks are
present, and the GC Controller is correctly timed. Before going through
the troubleshooting procedures, perform the routines of the Basic
Hardware Troubleshooting via Alarms. Checklist records performed
regularly may indicate problems and prevent any sudden breakdown.
Use the MON2000 software in the offline mode and select Logs >
Parameter List from the drop-down menu and open a saved *.par file.
Do not adjust any values if they are within the nominal tolerance values
on the Checklist. Compare the values with those obtained in preceding
weeks. This may pinpoint your problem immediately.
Preamp Input 4 Out of Range same as Preamp Input 1 Out of Range
Preamp Failure same as Preamp Input 1 Out of Range
Analyzer Failure Indicates either the Carrier Gas is low (below 90
psig at Carrier Gas bottle) or gone; a bad
solenoid; a Carrier Gas leak in system.
Power Failure GC Controller has experienced a re-start since
alarms were last cleared, caused by power
failure. Automatically starts in RUN mode and
runs calibration gas until it identifies all retention
times or for a maximum of two hours before
switching to line gas.
TCD
Fused Peak Overflow - Noisy
Baseline
Air not purged from carrier lines; bad
thermistors; shields.
RF% Deviation Calibration gas low or out; valve timing error;
faulty auto-calibration solenoid.
Warm Start Calibration Failure same as RF% deviation
Valve Timing Failure same as RF% deviation
Table 4-1. Basic Hardware Troubleshooting via Alarms (Continued)
Alarm Possible Cause
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The following is a guide for troubleshooting if a problem with sample
analysis occurs. See Table 4-1 for diagnostic data. This data will be useful
if it becomes necessary to call Measurement Services for assistance.
Table 4-2. Troubleshooting Checklist
Description As Found As Left Notes
Analyzer
Leak check with Snoop from
Carrier Gas bottle to Analyzer
regulator.
Leak check with Snoop from
calibration standard to auto�calibration solenoid.
Pre-amp balance voltage
___________mV _________mV 0 (±0.5 mV)
Sample System
Leak check with Snoop from
sample probe to sample solenoid
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Controller Inputs
GRI (CH.1) 0.0 - 0.0
GRI (CH.2) 0.8 - 1.2
GRI (CH.3) 0.8 - 1.2
GRI (CH.4) 0.8 - 1.2
Value (12-bit AD)
PAZ1
PAZ2
PAZ3
PAZ4
Value (16-bit AD)
GC 1
GC2
GC3
GC4
____________
____________
____________
____________
____________
____________
____________
____________
___________
___________
___________
___________
____________
____________
____________
____________
4800 to 6400
4800 to 6400
4800 to 6400
9200 to 12000
-32767 to 32767
-32767 to 32767
-32767 to 32767
-32767 to 32767
Table 4-2. Troubleshooting Checklist
Description As Found As Left Notes
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Power Supply (DC — DC)
Input Voltage Ranges:
(24.5V - 26.5VDC)
Power Supply (AC — DC)
Input Voltage Range:
(90—130/180-264 VAC)
(Auto-ranging)
Note: See Figure 4-5
through Figure 4-8 for test
point locations.
FTB:
+ 12V @ 0.25A (± 0.6)
+ 5V @ 3A (± 0.25V)
- 3.8V @ 0.1A (± 0.2V)
- 12 V @ 0.25A (C 0.6V)
Dual Methods Adapter:
+ 20V @ 0.35A (± 1V)
- 20V @ 0.35A (± 1V)
+ 5VDC (± 0.25V)
Note: The Dual Methods
Board is used on Model 700
GCs with 2350A
Controllers.
SOL/HTR Driver:
N/A
Output Voltage/Current:
24.0VDC
Output Power:
Continuous load demand
power, measured at the
Output Terminals of the
Power Supply, shall not
exceed 140 Watts.
Table 4-2. Troubleshooting Checklist
Description As Found As Left Notes
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Chromatogram
Check baseline
Check component values on
report
Number of peaks
Retention times
Date and file
Temperature
Column Module Temperature
Valve Block Temperature
Stream Switching System
Sample System Temperature
____ °C
____ °F
____°C
____°F
____ °C
____ °F
____ °C
____°C
____°F
____ °C
____ °F
____ °C
____ °F
____ °C
79.80 - 80.20 °C
175.64 - 176.36 °F
79.80 - 80.20 °C
175.64 - 176.36 °F
64.0 - 66.0 °C
147.2 - 150.8 °F
**
Table 4-2. Troubleshooting Checklist
Description As Found As Left Notes
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Note
Refer to System Operational Parameters.
4.6.3 Test points dual methods board and FTB
This section applies to Model 700 GCs with the TCD and 2350A
Controllers. If your Model 700 GC is equipped with an FID or LSIV this
section does not apply.
Use the test points in Figure 4-5 through Figure 4-8 to ensure that the
voltage meets specifications on the dual methods adapter board and the
field termination board. See Table 4-2 for voltage specifications.
Measure Vent Flow
Valve 3 ON
Valve 3 OFF
___ cc/min
___ cc/min
____ cc/min
____ cc/min
Flow should be as specified
on the Parameter List for
the particular GC (from
MON2000 use
Logs>Parameter List menu
path to access the list).
Check the flow using a
portable electronic flow
meter or a mechanical flow
meter like a Set-a-Flo. If a
RotameterTM is
permanently installed it will
cause baseline noise.
Table 4-2. Troubleshooting Checklist
Description As Found As Left Notes
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Figure 4-5. Test Points Dual Methods Board (Cut View)
Figure 4-6. Test Points Dual Methods Board
Test Points
Dual Methods Bd. Test Points
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Figure 4-7. Test Points Field Termination Board (Cut View)
Figure 4-8. Test Points Field Termination Board
FTB Test Points
Test Points
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4.6.4 Preamplifier
The preamplifier (P/N 3-0580-002) has no parts that may be serviced in
the field. If the unit fails, return it to Measurement Services for repair or
replacement.
4.6.5 Flow balance check
Ensure that the flow panel gauge is properly set. Refer to the Model 700
Troubleshooting Checklist for values. Do not adjust; check with
Measurement Services if your reading is abnormal.
Check the flow at the measure vent and sample vent.
4.6.6 Temperature
Use the Temperature Control function for monitoring the Temperature
of the Oven (Detector/s and Columns) and the Stream Switching block
to determine when the MON2020 Software for Gas Chromatographs is
thermally stable. The bottom row labeled Temperature (C) displays the
current temperatures.
The settings and values shown in Figure 4-9 and described in Table 4-3
are preset at the factory and are based on the specific customer
application. These values should not be changed unless recommended
by Application Engineering or Customer Service Personnel, or it is a
factory application requirement.
When connected via MON2000, use the Application>Temperature
Control menu path to access this function.
The Temperature Control dialog displays.
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Figure 4-9. Temperature Control Dialog
Use the pull down menu to select the appropriate mode setting (e.g.
AUTOMATIC, MANUAL, or OUT OF SERVICE). Ensure that the
temperature is constant for the Oven (i.e. Multivalve System block and
column module kit) and the SSS.
Columns 1 through 3 (Zones 1-3) have a temperature range of 20 oC to
100 oC (68 oF to 212 oF). Column 4 (Zone 4) has a temperature range of
20 oC to 450 oC (68 oF to 842 oF).
Table 4-3. Temperature Control Dialog
Zone Function Typical Setting
1 Detector/s or Block Temperature 80 oC (176.0 oF)
2 Column Temperature 80 oC (176.0 oF)
3 Sample Stream Block or ValcoTM Valve 40 oC (104 oF)
60 oC (140 oF)
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4.6.7 FID configuration
When connected to the GC via MON2000, use the Application>FID
Configuration menu to access the FID Configuration dialog. Refer to the
MON2000 Software for Gas Chromatographs User Manual (P/N 3-9000-
522) for additional configuration details.
Figure 4-10. FID Configuration window
Configure the following fields from the FID Configuration dialog:
• FID Ignition - Manual or Automatic
• Number of Ignition attempts
• Wait time between attempts
4 Spare
Or, Methanator
Or, LSIV
N/A
300 oC (572 oF)
150 oC (302 oF)
Table 4-3. Temperature Control Dialog
Zone Function Typical Setting
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• Igniter ON duration
• Flame ON sense temperature Degrees C
• Flame OUT sense temperature Degrees C
• Electrometer (TCD) gain
4.6.8 Baseline noise
Baseline noise is any perturbation on the detector output that is not
related to an eluted solute. It is a fundamental property of the detecting
system and determines its maximum sensitivity. Baseline noise can be
divided into the following three types:
• Short term noise
• Long term noise
• Drift
Short term noise results from baseline upsets that have frequencies
significantly higher than those of an eluted peak. Short term noise is not
a serious problem as it is easily removed by appropriate noise filters
without significantly affecting the profiles of the peaks. Its source usually
originates from either the detector sensor system or the preamplifier.
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Figure 4-11. An example of baseline noise
Long term noise results from baseline upsets that have frequencies similar
to those of an eluted peak. This type of noise is the most damaging
because it can not be differentiated from very small peaks. Long term
noise cannot be removed by electronic filtering without affecting the
profiles of the eluted peaks. Long term noise usually arises from
temperature, pressure or flow rate changes in the sensing cell. It is this
noise that ultimately limits the sensitivity of the detector.
A noisy baseline can be caused by carrier leaks, an electronic failure in
the preamplifier, a faulty power supply, imbalance of carrier flow or
defective thermistors in the detector.
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Baseline drift results from baseline upsets that have frequencies that are
significantly larger than those of the eluted peak. Drift is almost always
due to either changes in ambient temperature, changes in mobile flow
rate, detector cell pressure or column bleed in the GC. Drift is easily
controlled by choosing operating parameters that are within detector
and column specifications.
Figure 4-12. An example of baseline drift
Ensure that no evidence of component elutions is present when sample
is not being injected.
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To ensure that the baseline is not drifting, compare the baseline upsets
caused by valve actuations with those of the spectrum chromatogram
provided with the Operational Parameters Sheet.
If differences exist between the two spectrum chromatograms, the
problem may be due to one or more of the following:
• Programming of events.
• Leaks in the carrier system.
• Column deterioration due to liquid contamination from a sample.
A noisy baseline can be caused by carrier leaks, an electronic failure in
the preamplifier, a faulty power supply, or defective thermistors in the
detector. If the baseline is still noisy after correcting for leaks, perform
the Detector Bridge Balance procedure on page 53 before replacing the
detector thermistors or the preamplifier board.
4.7 Leak checks
4.7.1 Field service
To perform a field-service leak check of the Model 700,
1. Plug all Model 700 vents.
2. Make sure the setting of the carrier cylinder regulator is 115 psig
(pounds per square inch, gauge).
3. Check all fittings at the pressure regulator flow panel and at the
carrier cylinder regulator with a leak detector. Correct any leaks
detected by a bubble indication.
4. Turn the Carrier Gas shut-off valve clockwise to close. Observe the
carrier pressure for ten minutes to check for a drop in carrier
pressure.
The drop should be less than 200 psig on the high side of
the regulator/gauge. If the carrier pressure remains
constant, no leaks are present.
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5. Use MON2000 to manually actuate the valves ON and OFF and
observe the pressure with the valves in different positions.
Note
When the valves are switched, some pressure change is normal because of
carrier loss. Momentarily open the cylinder valve to restore pressure if
necessary.
6. If the pressure does not hold constant, check all valve fittings for
tightness.
7. Repeat Step 5. If leaks persist, check the valve ports with a
commercial gas leak detector.
Note
Do not use a liquid leak detector on the valve or components within the MVS
insulated cover.
4.7.2 Factory level leak check
This section describes how to perform a factory-level leak check. Before
performing the leak check, plug the Measure Vent (labeled “MV”) vent
line if it is open. The Sample Vent (labeled “SV”) line should be left open,
or unplugged.
The following steps are performed to leak-check the Model 700 at the
factory when the unit is quality-checked prior to release. This procedure
is more thorough and is designed to isolate specific zones where a leak
may occur.
Leak check the Carrier Gas line first, according to the steps that follow.
1. Purge the valves with Carrier Gas:
(a.) Open the Carrier Gas bottle valve and slowly increase the
Carrier Gas feed line pressure to 110 psig, ±2%, with a
dual-stage regulator at the Carrier Gas bottle.
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Note
Do not use the “Carrier Pressure Adjust” valve (on the Flow Panel of the Model
700 GC) to adjust Carrier Gas line pressure. The valve is factory-set and should
not be adjusted.
(b.) Using MON2000, manually actuate the valves ON and OFF
about four to five times.
2. Pressurize and check the Carrier Gas feed line:
(a.) Set all Model 700 valves to ON.
(b.) Open the Carrier Gas bottle valve, and ensure that the
Carrier Gas feed line pressure is 110 psig, ±2%.
(c.) Shut the Carrier Gas bottle valve.
(d.) Observe the pressure on the high-side regulator gauge of
the Carrier Gas bottle. Because the MV vent line is
plugged, the pressure should not decrease in 2 to 3
minutes.
(e.) Set all valves to OFF position.
(f.) Repeat Steps (b) through (d).
(g.) Via MON2000, set all valves to AUTO for regular operation.
Next, leak check the calibration gas feed line, per the following steps:
Note
Calibration gas line pressure of 50 psig is for leak check and test purposes only. For
normal operation, the calibration gas line pressure is maintained at 20-30 psig.
1. Plug the SV vent line.
2. Pressurize the calibration gas line to
50 psig.
(a.) Shut the calibration gas bottle valve.
(b.) Observe the pressure on the high-side regulator gauge of
the calibration gas bottle. Because the SV vent line is
plugged, the pressure should not decrease in a period of 2
to 3 minutes.
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Next, leak check the sample gas lines, per the following steps:
1. Ensure that the Sample valve (SV) vent line is plugged.
(a.) Pressurize the sample gas line to 50 psig or a known
pressure.
Note
Calibration gas line pressure of 50 psig is for leak check and test purposes only.
For normal operation, the calibration gas line pressure is maintained at 20-30
psig.
(b.) Shut off the sample gas.
(c.) Observe the pressure on any gauge that indicates pressure
between the closed sample gas block valve and the
plugged SV vent line. Because the line is plugged, the
pressure should not decrease during a period of 2 to 3
minutes.
2. Leak test all other sample stream lines by connecting gas to each
of the sample streams and repeating Step 1(a) through 1(b).
Finish the test and set up the Model 700 for normal operation, as follows:
1. Using MON2000, ensure that all valves are set to AUTO.
2. Unplug, or open, the MV and SV vent lines.
3. If the calibration gas bottle was used to leak check the sample
stream lines, reconnect the calibration gas bottle to the
calibration gas line on the flow panel assembly. Reconnect the
sample stream lines.
4.7.3 Plugged Lines, Columns, or Valves
To ensure that lines, columns, and valves are not plugged, check the gas
flow at valve ports. For a reference, use the flow diagram in the drawing
package, and remember these points about flow diagrams:
• Port-to-port flow paths are indicated by solid or dashed lines.
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• A dashed line indicates flow direction when the valve is ON, that is,
energized.
• A solid line indicates flow direction when the valve is OFF, i.e., not
energized.
• A combination of solid and dashed lines indicates a constant flow
path regardless of the ON/OFF state of the valve.
Figure 4-13. Chromatograph valve assemblies
Only minimal repair and maintenance is required by the customer (e.g.,
replacing the diaphragms). Measurement Services recommends
returning the Oven Assembly for major repairs to maintain the validity of
the warranty.
4.7.4 Required tools
The tools required for performing repair and general maintenance on the
valve assemblies are:
• Torque wrench, scaled in foot-pounds
• 1/2” socket
• 1/4” open-end wrench
6-port Valve 10-port Valve
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• #1 flat screwdriver
4.7.5 Chromatograph valve replacement parts
Note
If an existing unit has a teflon gasket between the lower actuation diaphragms and the
kiosk block, install gasket P/N 2-4-0700-064 (for 6-port valves) and P/N 2-4-0700-160
(for 10-port valves). Otherwise, the teflon gasket is not required.
Replacement parts required for each of the chromatograph valves on the
Oven Assembly consists of the following parts:
• Diaphragm Kit 6-port Valve (P/N 2-4-0700-187)
• Diaphragm Kit 10-port Valve (P/N 2-4-0700-171)
4.7.6 Valve Assembly and Disassembly
Perform valve maintenance in a clean and dry area. Assembly and
disassembly procedures are the same for 6-port and 10-port valves.
To disassemble a valve, unscrew the torque bolt and then flip the valve
over so that the bolt is pointed toward the floor.
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Figure 4-14. Disassembled valve
The dismantled valve contains the following parts:
• Three plates
• Three short pistons
• Three long pistons
• Four types of diaphragms
- One sealing diaphragm
- One cushion diaphragm
- Two upper actuator diaphragms
- Two lower actuator diaphragms
• One torque bolt and washer
torque bolt
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Figure 4-15. Valve parts
Blow clean and dry valve parts with nitrogen before reassembling.
To reassemble a valve, do the following:
1. Inspect the primary plate (Item #9, refer to Figure 4-15) to insure
that the tubing parts are clean and that the sealing surface has no
scratches or pits.
2. Insert guide pins (#2 and #3) in the locating holes in the primary
plate (#9).
3. Place the sealing diaphragm over the guide pins and onto the
primary plate.
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4. Place the cushion diaphragm over the guide pins and onto the
sealing diaphragm and the primary plate.
5. Slide the upper piston plate (#5) over the guide pins.
6. Set the three short pistons (#6) into their respect places in the
upper piston plate.
7. Place the two upper actuator diaphragms over the guide pins and
onto the upper piston plate, covering the short pistons.
8. Slide the lower piston plate (#1) over the guide pins and onto the
upper actuator diaphragms.
9. Set the three long pistons (#4) into their respect places in the
lower piston plate.
10. Place the two lower actuator diaphragms over the guide pins and
onto the lower piston plate, covering the long pistons.
11. Install the torque bolt and washer (#8 and #7) up through the
primary plate and tighten the bolt to 30 ft. lbs.
12. Holding the bolthead and retainer with one hand, install the
plastic retainer disk and cap to hold the assembly together until
the valve is installed onto the GC.
4.7.7 Valve Cleaning
Note
Do not use an oil-based cleaner on the valve.
For cleaning the valve, isopropyl alcohol (P/N 9-9960-111) should be
used.
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4.7.8 TCD Oven System Removal
Use the following procedure for removing the Oven System from the
Model 700 unit:
Note
The Oven System may be removed and repaired at a bench. However, it is not necessary
to remove the oven.
WARNING
Disconnect all electrical power to the unit and ensure the area is free of explosive gases.
Failure to follow this warning may result in injury or death to personnel or cause
damage to the equipment.
1. Disconnect all power to the unit.
2. Remove the explosion proof dome and the thermal cover.
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Figure 4-16. Micro-FID Oven System Thermal Cover
3. Loosen the screw on the mounting bracket that secures the Oven
Plate to the support post (see Figure 4-17).
4. Lift up slightly and rotate the oven forward one quarter turn so
that the components are accessible.
Thermal
Cover
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Figure 4-17. TCD upper assembly components
5. Unplug the solenoid wiring from the driver board end.
6. Unplug the heat control wiring from the driver board side.
7. Unplug the heater wiring from the driver board end.
8. Loosen the screws on the connector blocks.
Connector
Oven System
Wiring Plug
Blocks
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Figure 4-18. TCD Oven System Disassembly
9. Disconnect the three Preamplifier wires and the solenoid wire
plug (see Figure 4-18).
10. Lift the oven assembly from the unit for bench maintenance and
repairs.
11. Reinstall in reverse order of Steps 1-9.
4.7.9 Micro-FID removal
Use the following procedure for removing the FID from the Model 700
unit.
WARNING
Disconnect all electrical power to the unit and ensure the area is free of explosive gases.
Failure to follow this warning may result in injury or death to personnel or cause
damage to the equipment.
1. Disconnect all power to the unit.
2. After powering down the Danalyzer Pro, allow at least 10 minutes
for the components to cool-down.
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3. Remove the explosion proof dome and the thermal cover.
CAUTION
This unit operates at high temperature. Allow a cool-down period of at least 10 minutes
after shutdown and handle the unit carefully. Failure to follow this precaution may
result in injury to personnel.
Figure 4-19. Micro-FID upper assembly components
4. Grasp the edges of the Connector Board on top of the unit and
pull and wiggle to remove the six socket tubes that extend onto
the pins in the cap (see Figure 4-20).
5. Remove the exhaust tube from the side by pulling the 'U' shaped
retainer from the top of the exhaust body and moving the
exhaust tube away from the FID. Take care not to lose the clip.
Oven System
FID
Connector Blocks
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Figure 4-20. Model 700 with Micro-FID Upper Assembly
6. Loosen the two screws in the top of the FID.
7. Grasp the shielded section and lift it over the burner. Pull the cap
out of the shield. Remove the body from the shield, if necessary.
4.7.10 Micro-FID maintenance
The FID cap has no replaceable parts. Damage like a broken RTD or
broken igniter coil requires a replacement cap.
The burner tip can be removed for cleaning.
1. Loosen the isolating nut one turn.
FID Exhaust Tube
Connector Board 'U' shaped retainer
FID Shield
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2. Gently lift out the burner tip tube. Use short needle nose pliers if
it is stubborn, taking care not to bend the tube. The alternative is
to unscrew the assembly and clean as an assembly.
4.7.11 Micro-FID re-assembly
1. Insert burner tip tube into the isolating nut. Be certain it is fully
seated. There should be about .350 of tube visible.
2. Tighten the isolating nut in small increments until the tube ceases
to pull free. Slight additional tightening will ensure proper
sealing.
3. Place the cap onto the end of the body with the deep cavity.
Once the alignment pin is in its mating hole, gently press the two
parts together and ensure the o-ring is seated properly.
4. Slide the FID shield onto the body from the bottom. Align the
notch with the exhaust fitting and insert the two screws.
5. Lower the FID body assembly onto the base, placing the
alignment pin in its hole. Press the body into place, seating the o�ring. Tighten the screws slightly more than 'finger tight.'
6. Re-connect the ground lead.
7. Press the FID exhaust tube onto the fitting and anchor with the
‘U’ shaped clip. (1/16 tubing makes an adequate clip.)
8. Plug the connector board onto the cap.
9. Replace the thermal cover on the upper enclosure.
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Figure 4-21. Upper Enclosure Thermal Cover
10. Replace the explosion-proof cover on the assembly, then apply
power to the unit.
4.7.12 LSIV maintenance
The LSIV can be maintained while attached to the enclosure. However,
the user may find it easier to perform maintenance with the LSIV
removed from the MON2020 Software for Gas Chromatographs upper
enclosure.
CAUTION
This unit operates at high temperature. Allow a cool-down period of at least 10 minutes
after shut-down and handle the unit carefully. Failure to follow this precaution may
result in injury or death to personnel.
Thermal
Cover
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4.7.13 LSIV removal
Inside the MON2020 Software for Gas Chromatographs upper enclosure
there are two insulation covers (which open like clam shells that slide off
of the end of the LSIV) to be removed.
1. Disconnect the carrier and sample tubing from the LSIV.
2. Remove the heater and RTD from the heater block.
3. Disconnect sample and air tubing from the outer portions of the
LSIV.
4. Unscrew the retaining ring, using a pin spanner wrench or other
tool. With the retaining ring loose, the LSIV assembly is free to be
pulled out of the upper enclosure.
4.7.13.1 Replacing LSIV seals
CAUTION
Use of wrenches other than a strap wrench to disassemble the LSIV can damage the
valve beyond repair. Failure to follow this precaution may damage equipment.
Tools Required for Disassembly:
• 2 each - 1 inch strap wrenches
• 1 each - assembly tool for seal nuts
1. Using two strap wrenches, if needed, unscrew the seal assist
housing from the LSIV body. Once the threads are free, pull the
pieces apart taking care to avoid bending the stem.
2. There are two seals with a central packing gland between them to
be removed, either from the stem or the bore in the body. Use
care to avoid scratching the stem or bore surfaces.
3. Replace the two seals with the central packing gland between
them onto the stem. Carefully align the two assemblies and insert
the seals into the bore.
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4. Screw the assemblies together hand-tight.
4.7.13.2 LSIV Disassembly
Use the following procedure to disassemble the LSIV and refer to Figure
4-22.
Figure 4-22. Model 700 with LSIV
1. Use the one (1) inch strap wrenches and unscrew the piston
housing (counter-clockwise) from the seal assist housing (use one
strap wrench on the piston housing and one strap wrench on the
seal assist housing).
CAUTION
Use care when disassembling the LSIV to prevent bending the valve stem. Failure to
follow this precaution may cause damage to the equipment.
2. When the threads disengage, slowly continue to pull apart the
LSIV assembly. Be careful not to bend the valve stem and pull until
the valve stem is free of the seal assist housing or the piston is free
of the piston housing.
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3. Separate the piston and valve stem assembly from the piston
housing or seal assist housing by carefully pulling it straight out.
4. Unscrew (counter-clockwise) the seal assist housing from the
lower body.
5. Unscrew (counter-clockwise) the retaining ring from the body.
6. Pull the piston/packing gland out of the lower body.
7. Push out the football seals and the central packing gland from the
body.
8. Unscrew (counter-clockwise) the stem lock nut from the piston.
9. Remove the valve stem from the piston.
10. Unscrew the seal nut from the upper piston packing gland.
11. Remove the o-rings and the collar.
4.7.14 Methanator maintenance
The optional Methanator, a catalytic converter, converts otherwise
undetectable CO2 and/or CO into methane by adding hydrogen and heat
to the sample. The Methanator requires little maintenance.
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Figure 4-23. MON2020 Software for Gas Chromatographs Optional Methanator
Assembly
A. Case
B. Insulation
C. Tube
D. Catalytic Column
E. Heater
F. RTD (temperature detector)
G. Two #6-20 x 1/2 stainless steel screws
The RTD can be replaced , if necessary. If it is replaced, care must be
taken to anchor the RTD cable to the tubing to prevent loosening over
time.
A catalytic column needing replacement should be replaced with a full
heater/column assembly that includes the tube, column, heater and
RTD.
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To replace the catalytic column,
1. Disconnect the tubing and wiring, then lift the Methanator from
the enclosure.
2. Remove the two screws and open the box (enclosure). The
catalytic column assembly is housed inside this insulation-filled
box.
3. Exchange the catalytic assembly and re-fill the enclosure with
insulation.
4. Reverse this procedure to reassemble the Methanator.
4.7.15 Valve overhaul
The chromatograph valves are designed to withstand millions of
actuation cycles without leakage or failure. If service is required, the
valve can be overhauled using replacement parts available from
Measurement Services.
Note
Replacement factory-built valves are available. We recommend returning and replacing
the 6-port valve for extensive repairs or complete replacement.
Use the following procedure for overhauling a 6-Port Valve:
1. Shut off carrier and sample gas streams entering the unit.
2. Remove the insulating cover from the Oven System.
3. If the faulty valve is not easily accessible, loosen the thumb screw
and rotate the oven forward (see Figure 4-17 and Figure 4-18).
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Note
The Oven System may be removed and repaired at a bench. However, it is not
necessary to remove the oven.
4. Disconnect tubing and fittings that attach to the valve from other
locations.
Figure 4-24. TCD Valve Tubing and Fittings
5. Loosen the attaching bolt on the valve to be replaced or serviced
(see Figure 4-24).
6. Holding the lower piston plate, pull the valve straight off the
block. The alignment pins may stick slightly.
Valve
Bolt
Attaching
Fitting Tubing
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Note
Ensure that the primary seal diaphragm is correctly installed on the primary
plate.
7. Remove and discard the old valve diaphragms and gaskets.
Replace, in the same order, with the new ones supplied.
8. Reinstall the valve using the following steps:
Note
Do not scratch the primary plate surface.
(a.) Clean the sealing surface as required using Chemwipes
with alcohol.
Blow the sealing surface with clean, dry instrument air or
Carrier Gas. Dirt including dust and lint can cause
troublesome leakage.
Note
Do not use an oil base cleaner on the valve.
(b.) Align the pins with holes in the block and push the valve
assembly into place.
(c.) Tighten the valve “attaching bolt” to 30 lbs./ft. (40 N-m)
(d.) Reconnect all fittings and tubing
(see Figure 4-24).
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4.7.16 Oven system and stream switching system solenoid
valve replacement
Both the oven system and the stream switching system use the same
solenoid valves. The solenoids are replaced in both systems using the
same procedure.
WARNING
Disconnect all electrical power to the unit and ensure the area is free of explosive gases.
Failure to follow this warning may result in injury or death to personnel or cause
damage to the equipment.
4.7.17 Solenoid valve replacement
Replace the oven system and stream switching system (SSS) solenoids
using the following steps.
Note
Carrier Gas leaks may be caused by the SSS solenoids See “Leak checks” on page 4-26
for leak check procedures.
1. Remove the dome from the upper enclosure.
2. Loosen the mounting bracket thumb screw that secures the oven
to the chassis, see Figure 4-25.
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Figure 4-25. Side view TCD oven system mounting bracket
3. Holding the left side of the oven mounting plate, gently lift up the
assembly and rotate it so that the enclosure opening is accessible.
Thumb Screw
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Figure 4-26. Rotated TCD upper assembly
4. Loosen the thumb screws holding the valve in place.
Figure 4-27. Stream Switching Assembly
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5. Lift the solenoid off of the alignment pins (approximately 1/8”).
6. Slide out the solenoid block.
7. Disconnect the wire leads and remove the gasket from the
bottom of the solenoid block.
8. Replace the old leads at the connector plug or splice the wires
from the new solenoid to the old leads.
Note
The solenoids are not polarity sensitive.
9. Reassemble the SSS and Oven System in reverse order of Steps 1
through 7.
Figure 4-28. Stream Switching System Final Assembly
4.8 TCD detector bridge balance
The following procedure should be performed if the Model 700 does not
produce a chromatogram.
To balance the detector bridge, do thee following:
1. Remove the cover of the upper explosion- proof housing and the
thermal cover on the Model 700 for access the preamplifier.
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Figure 4-29. Model 700 Micro-FID/TCD Preamplifier
2. Attach the negative lead of a digital voltmeter to the black test
point (-BRIDGE BALANCE). Attach the positive lead of the digital
voltmeter to the red test point (+BRIDGE BALANCE).
Figure 4-30. Model 700 TCD Bridge Balance
Detector 1 Detector 2
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Figure 4-31. Model 700 Micro-FID Bridge Balance
3. Check the detector bridge voltage. The voltage should read 0
millivolts (mV), ±0.5 mV. Adjust the coarse and fine
potentiometers which are located immediately to the left of each
of the (red) test points to obtain the specified reading.
4.9 Measure vent flow
You will need an accurate flow meter for this measurement.
To measure the MV vent flow, proceed as follows:
1. Attach a flow meter to the vent output on the right side of the
Model 700 “MV1”(marked on the tag).
The flow should measure 12-18 cc/min.
2. Attach a flow meter to the vent “MV2” marked on the tag.
The flow should measure 12-18 cc/min.
Detector 1
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Figure 4-32. Measure flow vents
4.10 Model 700 electrical components
The Model 700 GC is designed to operate for long periods of time
without need for preventive or regularly scheduled maintenance. The
Model 700 is designed using explosion-proof enclosures. The enclosure
is dust-proof, water-proof, and flame-proof.
WARNING
Disconnect all electrical power to the unit and ensure the area is free of explosive gases.
Failure to follow this warning may result in injury or death to personnel or cause
damage to the equipment.
Should there be a need to open the explosion-proof enclosure, first
disconnect all electrical power to the unit, and ensure the area is free of
explosive gases. Prior to opening the Model 700, check the operating
parameters of the application with a PC using MON2000 and attempt to
isolate or fix any incorrect parameters.
MV1
MV2
(Marked on tags)
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To access the GC electrical components,
1. Ensure electrical power is disconnected from the unit and the
environment is safe.
2. Remove the lower enclosure cover and access the card cage
assembly holding the circuit boards.
Figure 4-33. Model 700 lower enclosure
3. Note the location and direction of any board removed. Remove
only one end of any cable necessary to obtain access to the
desired board. Remember or make note of the cable installation
so that the cables can be replaced in the same order. Release the
catch(es) and remove/replace the circuit board(s) as necessary.
Explosion-proof Cover
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Note
After removing the cable(s), any board may be replaced without removing the
card cage assembly.
Figure 4-34. Model 700 Lower Assembly
Card Cage Assembly
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4.10.1 DC power supply replacement procedures
The DC/DC power supply is mounted on the left wall of the lower
enclosure (see Figure 4-35) and is accessible by removing the threaded
cover plate from the housing.
WARNING
Disconnect all electrical power to the unit and ensure the area is free of explosive gases.
Failure to follow this warning may result in injury or death to personnel or cause
damage to the equipment.
Figure 4-35. DC Power Supply Lower Enclosure
Tools required to remove and replace the DC Power Supply:
• Cross point #2 Phillips screw driver (long shank is helpful).
• Head lamp (flashlight)
To remove and replace a faulty DC Power supply:
Note
Needle nose pliers may be used to turn rear thumbscrews.
DC Power
Supply
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1. Disconnect the cables from the CPU, the Com4A board (if
installed), and the modem board.
2. Unscrew the card cage thumb screws and remove the card cage
assembly.
3. Unscrew the two thumb screws on the power supply bracket.
4. Remove the assembly from the unit.
5. Disconnect, label and bundle all leads.
6. Attach all leads to the new DC Power Supply.
7. Align the power supply bracket and tighten the two thumb
screws.
8. Reinstall the card cage assembly, tighten the thumb screws and
reconnect all cables.
9. Replace the threaded cover plate on the lower enclosure housing.
4.11 Communications
4.11.1 Model 700 GC with the TCD
The Model 700 with the TCD has up to six communications channels
available; up to three communications ports from the WinSystems CPU
board and four communications ports from the Com4A board.
Note
See Appendix A for a list of the ports and terminals (pins) assigned to serial communica�tions.
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4.11.2 Model 700 GC with the FID and TCD
The MON2020 Software for Gas Chromatographs GC with an FID has
two communications channels available without the Com4A board
installed. With the Com4A board installed, the GC has six
communications ports available on the FTB; Com1 and Com2, and
Com5, Com6, Com7, and Com8.
Com4 is dedicated to the FID/TCD Preamplifier.
The communication protocols are selected inside the Model 700 GC with
jumpers. The protocols are normally specified by the customer and then
set at the factory.
If it becomes necessary to change the communications settings at the
site, access to the boards inside the enclosure is required to make
changes. See Section 3.4.2 if a communications change becomes
necessary.
WARNING
The enclosure should not be opened when hazardous gases are present. Failure to do so
may result in injury or death to personnel or cause damage to the equipment.
The jumpers to be changed are located on the CPU board and the
Com4A board.
When the desired GC address (Com ID) is known, it will be set before the
unit leaves the factory. If the address (Com ID) needs to be changed in
the field, it will be necessary to change the arrangement of an 8-position
DIP switch on the multifunction board.
Figure 4-36. Dip Switch
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This board is mounted on a bracket towards the center of the upper
enclosure.
Figure 4-37. Multifunction board
Ensure the cables are replaced in the exact order and positions.
Note
See “Inspect or change the Com ID” on page 3-31 for an explanation of DIP switch
settings and their determination of the GC Controller Modbus slave address (Com ID).
Multifunction Board
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1. For example MON2020 Software for Gas Chromatographs GCs
with a TCD,
• Switches 1 through 5 form a 5-bit binary number for setting
the Modbus slave address (also known as Com ID or Device
ID.)
• Switch number “1” is the least significant bit, and switch
number “5” is the most significant bit. Set these switches
either ON or OFF.
• Switch 6 is a spare for future use. Switches 7 and 8 are set as
needed for the presence of an optional LOI (Local Operator
Interface) connected via COM8 (when the COM4A board is
installed). If the COM4A board is not installed, the LOI is
connected via COM4. This address should display via
MON2000.
2. For example MON2020 Software for Gas Chromatographs GCs
with an FID,
• Switch number “1” is the least significant bit, and switch
number “5” is the most significant bit. Set these switches
either ON or OFF.
• Switch “6” and “7” are spares and switch “8” is used to cold
start the processor. See Table 3-2.
4.12 Analog inputs and outputs
The analog outputs can be calibrated and or adjusted via the MON2000
software. However, these outputs should be measured with a good
digital meter upon initial installation at zero scale and full scale. Then the
span can be set with MON2000 software so that it represents values
from zero to 100 percent of the user-defined units in use.
Nominally, calibration is made within a range of 4-20 milliamperes (mA)
output from each analog channel. However, zero scale calibrations can
be set with 0 mA output, and full scale calibration can be set with up to
22.5 mA output. If there is reason to suspect that the span on any
particular channel might be off after a period of time and heavy use, then
the analog output for that channel should be recalibrated.
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4.12.1 Model 700 analog inputs
There are four analog inputs available on the Field Termination Board (J4
- 12-pin Phoenix connector).
The Model 700 analog inputs are configured as follows:
Figure 4-38. Analog Inputs
4.12.2 Analog output adjustment
The initial analog output adjustment will be set at the factory, before
shipment, at standard values (4-20 mA). It may be necessary to check
and/or adjust these values depending on output cabling/impedance.
The adjustment may require two persons if the units are some distance
apart. It will require a good digital meter to check the zero and full scale
values at the receiving end. The scale or span value can be adjusted by a
PC with the Model 700 when the values are known at the receiving end.
It is possible to calibrate the analog outputs using different engineering
units, volts and percentages. For examples and detailed instructions,
refer to the MON2000 Software for Gas Chromatographs Users Manual
(P/N 3-9000-522).
Shield
VIN +_1
5
4
3
1
2
6
7
8
9
J4
10
11
12
AGND
AGND
AGND
AGND
VIN + _2
VIN + _3
VIN + _4
Shield
Shield
Shield
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4.12.3 Model 700 analog outputs
The Model 700 has four standard analog outputs (J8 - 12-pin Phoenix
connector) on the Field Termination board (P/N 3-0700-010).
Figure 4-39. FTB Board Analog Outputs
The Model 700 analog outputs are configured as follows:
J4
J8
Analog
Outputs
Analog
Inputs
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Figure 4-40. Analog Outputs
The analog outputs for the optional analog board (P/N 2-3-0580-037)
are configured as follows:
Shield
IOut +_1
5
4
3
1
2
6
7
8
9
J8
10
11
12
Shield
Shield
Shield
IOut - _1
IOut +_2
IOut -_2
IOut +_3
IOut -_3
IOut +_4
IOut -_4
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Figure 4-41. Optional analog board outputs
4.13 Discrete digital inputs and outputs
For instructions on connecting digital inputs and outputs to the GC Field
Termination Boards, see Section 3.4.7 for more details.
An external loopback test circuit can be built for troubleshooting the
Model 700 digital input/output operation.
Shield
IOut +_5
3
14
2
1
13
15
4
16
5
J3
17
6
18
Shield
Shield
Shield
IOut - _5
IOut +_6
IOut - _6
IOut +_7
IOut - _7
IOut +_8
IOut - _8
7
19
8
20
9
21
10
22
11
23
IOut +_9
IOut - _9
Shield
IOut +_10
IOut - _10
IOut - _11
IOut +_11
Shield
Shield
12
IOut +_12
IOut - _12
Shield 24
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4.14 Recommended spare parts
The quantities listed in the following table represent the number of
spares needed to cover most contingencies at facilities where GC
systems are in operation, for a period of less than two years, or a period
of two years or more.
Measurement Services offers service and repair service contracts that
make maintaining most spares for the GC system unnecessary. Details
regarding service contracts may be obtained by contacting
Measurement Services at the address or telephone number on the
“Customer Repair Report” provided at the back of this manual.
Part Number Item Name
Quantity for
Less than 2
years
Quantity
for 2 years
or more
2-3-0500-391 Teflon Thermistor Seals (Set of 10) 1 1
2-3-0520-101 Col Set BTU 4 Minute M/121705 1 1
2-3-0580-002 Preamplifier board 1 1
2-3-580-037 PCA Analog I/O - 8 additional 4-20 mA channels non�isolated
optional optional
2-3-0700-004 Multifunction board 1 1
2-3-0700-005 Driver IO board 1 1
2-3-0700-007 PCA Analog I/O - 4 additional 4-20 mA channels
isolated
optional optional
2-3-0700-010 Field Termination Board 1 1
2-3-0700-011 Dual Methods Adapter Board Application
dependent
Application
dependent
2-3-0700-029 Modem board PC104 (If replacing faulty modem
board; if a new kit is needed, purchase 2-3-2350-
142)
1 1
2-3-0700-034 PCA Analog I/O - for use with 2-3-0700-036 CPU
board
1 1
2-3-0700-036 PCA CPU with 4 RS-232 & 700 BOS (Confirm that this
part number matches that on the existing board.)
1 1
2-3-0700-110 AC Power Supply Optional Optional
2-3-0700-136 Fuses, Assortment (5 each of 1, 2, and 6 A) 1 2
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4.15 Upgrade procedures
4.15.1 Base operating system
The Base Operating System (BOS) performs functions similar to
operating systems such as DOS or Windows® or Linux®.
Note
Refer to the MON2000 Software for Gas Chromatographs User Manual (P/N 3-9000-522)
for BOS upgrade procedures.
BOS provides the basic resources and interfaces to run the user's tasks.
Unlike DOS or Windows or Linux, since BOS is an embedded real-time
multi-tasking preemptive operating system, there is no direct user level
interface to it. If a BOS upgrade is required to your system, refer to the
MON2000 Software for Gas Chromatographs User Manual (P/N 3-9000-
522) for additional BOS information.
2-3-2350-098 Ethernet PCA (If replacing faulty Ethernet board; if a
new kit is needed, purchase 2-3-2350-143)
Optional Optional
2-4-0700-152 Solenoid valve, Srs 3 3
2-4-0700-171 Repair Kit, 10-Port Valve (For use on Model 700 GCs
only)
Application
dependent
Application
dependent
2-4-0700-187 Repair Kit, 6-Port Valve 3 6
2-4-5000-113 Filter Element 2 Micron, Swagelok SS-2F-K4-2 1/stream 2/stream
2-4-5000-938 Membrane Kit, Genie® Model 120 Filter/Bypass/LSO 1/stream 2/stream
2-4-9500-084 Regulator, carrier gas, 60-110 PSIG, Masoneilan
(Baked)
1 1
2-6-1611-083 Kit, 9K Thermistors (Not for use with Hydrogen
Carrier)
½ ½
2-3-0500-521 Kit, 9K Thermistors, double-dipped (For use with
Hydrogen Carrier)
Application
dependent
Application
dependent
Part Number Item Name
Quantity for
Less than 2
years
Quantity
for 2 years
or more
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4.15.2 Applications
The GC application, which runs under BOS, utilizes the tools provided by
BOS to perform the desired gas chromatograph functions for the user.
There are different applications to provide for different gas
chromatographic needs. To load a new application or to upgrade an
existing application refer to the MON2000 Software for Gas
Chromatographs User Manual (P/N 3-9000-522) for details.
A - 1
A
Appendix A: Communications specifications
A.1 TCD serial communications
The MON2020 Software for Gas Chromatographs with a TCD has three
standard CPU serial communications ports: Com1, Com2, and Com4;
and four optional Com4A board serial ports: Com5 Com6, Com7, Com8
and Com9 for the optional internal modem. Per the matrix below,
jumper settings can be configured for either RS-232, RS-422, or
RS-485 serial signal definitions.
Note
Com3 is reserved for the multifunction board.
Table A-1 Matrix of possible TCD configurations field termination board
Logical Address Operation Comments
Com1 and Com2 (WinSys CPU
Board) J1 to FTB
RS-232, RS-422 or RS-485 PC, Flow Computer, Modem
(external)
Com3 (WinSys CPU Board) J6 to
Multifunction Board
RS-232 Reserved for Multifunction Board
Com4 (WinSys CPU Board)
J6 to FTB
RS-232, RS-422 or RS-485
Com5 (WinSys Com4A Board)
J9 (9-pin Phoenix)
RS-232, RS-422 or RS-485
(RS-422 and RS-484 needs
Chip Kit #CK 75176-2)
Modem (External)
Com6 (WinSys Com4A Board)
J13 (9-pin Phoenix)
RS-232, RS-422 or RS-485
(RS-422 and RS-484 needs
Chip Kit #CK 75176-2)
Com7 (WinSys Com4A Board)
J17 (9-pin Phoenix)
RS-232, RS-422 or RS-485
(RS-422 and RS-484 needs
Chip Kit #CK 75176-2)
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A - 2
A.1.1 Model 700 with a TCD communications port
The CPU board has three communications ports that can be used for the
PC or the Flow Computer, as the customer desires.
Note
A telephone modem can be connected to any of the GC serial ports configured for RS�232. If an internal modem (WinSystems P/N 3-0580-042) or (P/N 3- 0700-029
Radicom) is installed, it is assigned to serial port Com9. If the Com4A board is installed,
the modem is assigned to Com9. With or without the Com4A board, the internal
modem is assigned to Com9.
The optional 4-channel Com4A board can be installed for applications
requiring more than three communications ports. Each channel can be
configured for RS-232, RS-422, or RS-485 (for ports Com5, Com6,
Com7, and Com8).
Each channel can be configured using MON2000. For more information,
see the “Serial Ports” section of the MON2000 Software for Gas
Chromatographs manual.
If a modem and a serial controller are both required, an external modem
will be assigned to either Com1 or to Com5.
Serial ports configured for RS-232 are most commonly used for direct
serial communication between the GC and a PC or modem.
Serial ports configured for RS-422 or RS-485 are most commonly used
for long distance serial communications systems, such as a DCS or a
network. For these systems, the GC can communicate as a Modbus slave
device.
Com8 (WinSys Com4A Board)
J18 (9-pin Phoenix)
RS-232, RS-422 or RS-485
(RS-422 and RS-484 needs
Chip Kit #CK 75176-2)
Com9 Reserved for internal modem
Table A-1 Matrix of possible TCD configurations field termination board
Logical Address Operation Comments
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A - 3
Note
In any Modbus host-slave DCS or network, there must only be one host to which any
one of the GC serial ports can respond as a Modbus slave. To use MON2000 to configure
the GC for Modbus communication, see the MON2000 Software for Gas Chromatographs
User Manual (P/N 3-9000- 522).
For further details, see Figure A-1 through Figure A-3.
Note
The Model 700, standard configuration, has three ports available on the FTB: Com 1,
Com 2, and Com 5.
Figure A-1 Standard configuration without Com4A Board or FID
Note
The Model 700 with the Com4A board installed has six communications ports available
on the FTB: Com1 and Com2, and Com5, Com6, Com7, and Com8.
Com1
Com2
Com3
Com4
Com3
CPU
Multifunction
Board
Com1
Com2
Com5
Com6
Com7
Com8
Field Termination
Board
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A - 4
Figure A-2 Configuration with Com4A Board
If using a direct 6-conductor serial cable, connect the exposed cable
leads to the FTB serial port. A pinout of a female DB 9-pin socket is shown
in Figure A-3.
Com1
Com2
Com3
Com4
Com3
CPU
Multifunction
Board
Com5
Com6
Com7
Com8
Com 4A
Not
Connected
Com1
Field Termination
Board
Com2
Com5
Com6
Com7
Com8
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Figure A-3 FTB Com1 and Com2 DB9 connector
A.2 FID serial communications
The MON2020 Software for Gas Chromatographs with a FID and a TCD
has two standard CPU board serial communications ports–Com1 and
Com2–that can be used for the PC or the flow computer, as the
customer desires.
Note
Com3 is reserved for Multifunction board. Com4 is reserved for the FID/TCD board.
P3
Com2
5
9
4
8
3
7
2
6
1
Com1
P2
RI 1
RI 2
DSR 2
DSR 1
RTS 1
RTS 2
RXD 1
RXD 2
CTS 1
CTS 2
TXD 1
TXD 2
DTR 1
DTR 2
DCD 1
DCD 2
GND
1
6
2
7
3
8
4
9
5
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A - 6
The optional 4-channel Com4A board can be installed for applications
requiring more than two communications ports. Each channel can be
configured for RS_232, RS-422 or RS-485 (for ports Com5 Com6, Com7,
Com8).
Each channel can be configured using MON2000. For more information,
see the “Serial Ports” section of the MON2000 Software for Gas
Chromatographs manual.
Note
In any Modbus host-slave DCS or network, there must only be one host to which any
one of the GC serial ports can respond as a Modbus slave. To use MON2000 to configure
the GC for Modbus communication, see the MON2000 Software for Gas Chromatographs
User Manual (P/N 3-9000- 522).
Table A-2 Matrix of possible FID configurations field termination board
Logical Address Operation Comments
Com1 and Com2 (WinSys CPU Board) J1
to FTB
RS-232, RS-422 or RS-485 PC, Flow Computer, Modem
(external)
Com3 (WinSys CPU Board) J6 to
Multifunction Board
RS-232 Reserved for Multifunction
PCB
Com4 (WinSys CPU Board)
J6 to FID/TCD Preamplifier
RS-232 Reserved for FID/TCD
Preamplifier PCB
Com5 (WinSys Com4A Board)
J9 on FTB (9-pin Phoenix)
RS-232, RS-422 or RS-485
(RS-422 and RS-484 needs
Chip Kit #CK 75176-2)
Com6 (WinSys CPU Board)
J13 on FTB (9-pin Phoenix)
RS-232, RS-422 or RS-485
(RS-422 and RS-484 needs
Chip Kit #CK 75176-2)
Com7 (WinSys Com4A Board)
J17 on FTB (9-pin Phoenix)
RS-232, RS-422 or RS-485
(RS-422 and RS-484 needs
Chip Kit #CK 75176-2)
Com8 (WinSys Com4A Board)
J18 on FTB (9-pin Phoenix)
RS-232, RS-422 or RS-485
(RS-422 and RS-484 needs
Chip Kit #CK 75176-2)
Com9 Reserved for internal modem
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A - 7
If a modem and a serial controller are both required, an external modem
will be assigned to either Com1 or to Com5.
Serial ports configured for RS-232 are most commonly used for direct
serial communication between the GC and a PC or modem.
Serial ports configured for RS-422 or RS-485 are most commonly used
for long distance serial communications systems, such as a DCS or a
network. For these systems, the GC can communicate as a Modbus slave
device.
For further details, see Figure A-4 and Figure A-5.
Note
The Model 700, standard configuration, has two communications ports available on
the FTB: Com1 and Com2.
Figure A-4 Configuration without Com4A board
Note
Com4 is dedicated to the FID/TCD Preamplifier. When the LOI becomes available, it will
use a video board instead of a serial port connection.
Com3
Multifunction
Board
Com4
FID/TCD
Preamplifier Board
Com1
Com2
Com5
Com7
Com8
Field Termination
Board
Com6
Com1
CPU
Com2
Com3
Com4
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A - 8
Figure A-5 Configuration with Com4A board
Note
The Model 700, with the Com 4A board installed, has six communications ports
available on the FTB: Com1 and Com2, Com5, Com6, Com7, and Com8.
Note
Com4 is dedicated to the Micro-FID/TCD Preamplifier. When the LOI becomes available,
it will use a video board instead of a serial port connection.
A.2.1 Connecting serial communications to the GC
To connect serial communications lines to the GC,
Com3
Multifunction
Board
Com4
FID/TCD
Preamplifier Board
Com1
Com2
Com5
Com7
Com8
Field Termination
Board
Com4A
Com5
Com6
Com7
Com8
Com6
Com1
CPU
Com2
Com3
Com4
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A - 9
Note
Serial communications for FTB (Com1- Com4) is standard. Com3 reserved for the
Multifunction board. Serial communications with optional Com4A board are available
on ports Com5 - Com8.
1. Access the FTB in the lower enclosure.
2. Route serial communications lines appropriately.
3. Make serial communications line connections to the FTB. See
Section A.1.1 for port numbers and pinouts.
Each of the various combinations available for GC serial
communications ports (i.e., RS-232, RS-422, or RS-485) require
specific jumper settings on the WinSystems CPU board or the
optional Com4A board.
In most instances, installation of these jumper settings requires no
modification. Configurations have been performed at the factory
prior to shipment of the MON2020 Software for Gas Chromato�graphs, according to customer specifications for serial communi�cations.
Note
If you are changing or adding serial communications to the GC, ensure that the
correct jumpers are set.
A.2.1.1 RS-232 ports
See Appendix A.2.2 for RS-232 port connections
Voltage: ±5 volts or ±12 volts, depending on jumper settings
Recommended Maximum Cable Length: 50 feet (15 meters)
Pinouts: See Appendix A.2.2
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A - 10
A.2.1.2 RS-422 ports
See Appendix A.2.2 for RS-422 port connections.
Voltage: line drivers meet Electronics Industries Association (EIA)
specifications for RS-422.
Recommended Maximum Cable Length: 4000 feet (1219 meters)
Pinouts: See Appendix A.2.2
A.2.1.3 RS-485 serial specifications
See Appendix A.2.2 for RS-485 port connections.
Voltage: line drivers meet Electronics Industries Association (EIA)
specifications for RS-485
Recommended Maximum Cable Length: 4000 feet (1219 meters)
Pinouts: See Appendix A.2.2
A.2.2 FTB serial communications
The settings are shown in Figure A-6 through Figure A-11.
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Figure A-6 FTB Com1 DB 9-pin Phoenix Connector
Figure A-7 FTB Com2 DB 9-pin Phoenix Connector
RI 1
DSR 1
RTS 1
RXD 1
CTS 1
TXD 1
DTR 1
DCD 1
5
4
3
1
2
6
7
8
9
J5 RS-232 RS-485 RS-422
TX/RX+ TX+
TX/RX- TX�RX+
RX�Com1
RI 2
DSR 2
RTS 2
RXD 2
CTS 2
TXD 2
DTR 2
DCD 2
5
4
3
1
2
6
7
8
9
J7 RS-232 RS-485 RS-422
TX/RX+ TX+
TX/RX- TX�RX+
RX�Com2
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A - 12
Figure A-8 FTB Com5 DB 9-pin Phoenix Connector
Figure A-9 FTB Com6 DB 9-pin Phoenix Connector
RI 5
DSR 5
RTS 5
RXD 5
CTS 5
TXD 5
DTR 5
RLSD 5
5
4
3
1
2
6
7
8
9
J9 RS-232 RS-485 RS-422
TX/RX+ TX+
TX/RX- TX�RX+
RX�Com5
RI 6
DSR 6
RTS 6
RXD 6
CTS 6
TXD 6
DTR 6
RLSD 6
5
4
3
1
2
6
7
8
9
J13
RS-232 RS-485 RS-422
TX/RX+ TX+
TX/RX- TX�RX+
RX�Com6
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Figure A-10 FTB Com7 DB 9-pin Phoenix Connector
Figure A-11 FTB Com8 DB 9-pin Phoenix Connector
RI 7
DSR 7
RTS 7
RXD 7
CTS 7
TXD 7
DTR 7
RLSD 7
5
4
3
1
2
6
7
8
9
J17 RS-232 RS-485 RS-422
TX/RX+ TX+
TX/RX- TX�RX+
RX�Com7
RI 8
DSR 8
RTS 8
RXD 8
CTS 8
TXD 8
DTR 8
RLSD 8
5
4
3
1
2
6
7
8
9
J18 RS-232 RS-485 RS-422
TX/RX+ TX+
TX/RX- TX�RX+
RX�Com8
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A - 14
A.2.2.1 Jumper Settings for Older WinSystems CPU Boards (P/N#2-
3-0700-028)
This section applies only to GCs not installed with the WinSystems LX�800 CPU board (P/N #2-3-0700-036).
Jumper settings and pinouts for the COM1 - COM4 serial
communications ports are defined in the following tables.
Table A-3 Communication with WinSystems CPU
Com1
RS-232 Mode
J8 — Jumpers Pins 1 and 2
J13 — No jumpers
U2 — Installed (Standard)
U5 — Removed
U6 — Removed
RS-422 Mode (Need WinSys Chip Kit CK # 75176-2)
J8 — Jumper Pins 1 and 2
J13 — No jumpers
U2 — Removed
U5 — Installed
U6 — Installed
RS-485 Mode (Need WinSys Chip Kit CK # 75176-2)
J8 — Jumper Pins 1 and 2
J13 — Jumper Pins 2 and 3
U2 — Removed
U5 — Removed
U6 — Installed
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Table A-4 Communication with WinSystems CPU
Com2
RS-232 Mode
J9 — Jumpers Pins 1 and 2
J16 — No jumpers
U9 — Installed (Standard)
U11 — Removed
U12 — Removed
RS-422 Mode (Need WinSys Chip Kit CK # 75176-2)
J9 — Jumper Pins 1 and 2
J16 — No jumpers
U9 — Removed
U11 — Installed
U12 — Installed
RS-485 Mode (Need WinSys Chip Kit CK # 75176-2)
J9 — Jumper Pins 1 and 2
J16 — Jumper pin 2 and 3
U9 — Removed
U11 — Removed
U12 — Installed
Table A-5 Communication with WinSystems CPU
Com3 Reserved for Multifunction Board
RS-232 Mode
J12 — Jumpers Pins 1 and 2
J14 — No jumpers
U4 — Installed (Standard)
U7 — Removed
U8 — Removed
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A - 16
Table A-6 Communication with WinSystems CPU
Com4 (Reserved for FID/TCD Preamplifier Board)
RS-232 Mode
J15 — Jumpers Pins 1 and 2
J17 — No jumpers
U10 — Installed (Standard)
U13 — Removed
U14 — Removed
RS-422 Mode (Need WinSys Chip Kit CK # 75176-2)
J15 — Jumpers Pins 1 and 2
J17 — No jumpers
U10 — Removed
U13 — Installed
U14 — Installed
RS-485 Mode (Need WinSys Chip Kit CK # 75176-2)
J15 — Jumpers Pins 1 and 2
J17 — Jumpers Pins 2 and 3
U10 — Removed
U13 — Removed
U14 — Installed
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A.2.2.2 WinSystems MCM/LPM — Com4A board
Jumper settings and pinouts for the four serial communications ports
(COM5 - COM8) on the optional WinSystems Com4A board are defined
in the following tables.
Table A-7 Communication with WinSystems
MCM/LPM — Com4A Board (Optional)
Com5
RS-232 Mode
J2 — No jumpers
U6 — Installed (Standard)
U3 — Removed
U4 — Removed
RS-422 Mode (Need WinSys Chip Kit CK # 75176-2)
J2 — No jumpers
U6 — Removed
U3 — Installed
U4 — Installed
RS-485 Mode (Need WinSys Chip Kit CK # 75176-2)
J2 — Jumper Pins 2 and 3
U6 — Removed
U3 — Removed
U4 — Installed
Com6
RS-232 Mode
J5 — No jumpers
U13 — Installed (Standard)
U10 — Removed
U14 — Removed
RS-422 Mode (Need WinSys Chip Kit CK # 75176-2)
J5 — No jumpers
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A - 18
U13 — Removed
U10 — Installed
U14 — Installed
RS-485 Mode (Need WinSys Chip Kit CK # 75176-2)
J5 — Jumper pins 2 and 3
U13 — Removed
U10 — Removed
U14 — Installed
Com7
RS-232 Mode
J4 — No jumper
U11 — Installed (Standard)
U9 — Removed
U12 — Removed
RS-422 Mode (Need WinSys Chip Kit CK # 75176-2)
J4 — No jumpers
U11 — Removed
U9 — Installed
U12 — Installed
RS-485 Mode (Need WinSys Chip Kit CK # 75176-2)
J4 — Jumper pins 2 and 3
U11 — Removed
U9— Removed
U12 — Installed
Com8
RS-232 Mode
J1 — No jumpers
U5 — Installed (Standard)
Com6
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A.2.2.3 Com4A board compatibility settings
U1 — Removed
U2 — Removed
RS-422 Mode (Need WinSys Chip Kit CK # 75176-2)
J1 — No jumpers
U5 — Removed
U1 — Installed
U2 — Installed
RS-485 Mode (Need WinSys Chip Kit CK # 75176-2)
J1 — Jumper pins 2 and 3
U5 — Removed
U1 — Removed
U2 — Installed
Table A-8 J10 Jumper Settings
Pin(s) Position
1 and 2 In
3 and 4 In
7 and 8 In
9 and 10 In
Table A-9 J7 Jumper Settings
Pin(s) Position
1 and 2 Open
3 and 4 Open
5 and 6 Open
Com8
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A - 20
A.2.2.4 WinSystems Ethernet board
The PCM-NE2000-16 PC-104 can be configured by using the on-board
jumper block .
Jumper settings and pinouts used on the MON2020 Software for Gas
Chromatographs for the PCM-NE-2000-16 PC-104 Ethernet board
(optional) are defined in the following table:
Table A-10 J8 Jumper Settings
Pin(s) Position
1 and 2 In
3 and 4 In
5 and 6 In
7 and 8 In
Table A-11 J9 Jumper Settings
Pin(s) Position
1 and 2 In
5 and 6 In
Table A-12 Ethernet Board Pin Settings
Jumper Pin Position “In”
J1 13 and 14
15 and 16
17 and 18
23 and 24
27 and 28
J2 1 and 2
J3 1 and 2
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A - 21
A.2.2.5 Radicom 56K baud modem board
The jumper settings and pinouts for the Radicom Modem (P/N 3-0700-
029) are shown below:
A.3 Wiring local RS-232 communications
A.3.1 GC serial port and cable configurations
This section provides more detailed information about local serial port
connections for the Model 700. It identifies serial port pin assignments
and diagrams for designing
RS-232 serial cables.
Table A-13 J26 Radicom Modem Jumper Settings
Pin(s) Position
1 and 2 In
Table A-14 J27 Radicom Modem Jumper Settings
Pin(s) Position
1 and 2 In
Table A-15 J30 Radicom Modem Jumper Settings
Pin(s) Position
1 and 2 In
Table A-16 J31 Radicom Modem Jumper Settings
Pin(s) Position
2 and 3 In
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GC serial ports are found on the Field Termination Board and the
connection points for external devices are as follows:
Figure A-12 FTB Serial Connections
Figure A-13. FTB Serial Connections
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Phoenix plug (bare-wire) connections are available to all four serial ports.
Pin-outs are identical for all four serial port Phoenix plugs and jacks. Each
Phoenix plug/jack (male) combination allows a bare-wire connection and
uses 9-Pins as illustrated:
Figure A-14 Phoenix Connector (J5, J6, J10, and J11) Pinout
Null modem connections (DB 9-pin) are available for Serial Ports 1 and 2
only, as noted in Table A-17.
Table A-17 Serial Ports on Field Termination Board
Port Comments
Phoenix Plug
(bare-wire)
connection
Serial Port 1 (Com1) P2 DB 9-pin Connection J5
Serial Port 2 (Com2) P3 DB 9-pin Connection J7
Serial Port 3 (Com3) Reserved for Multifunction Board N/A
Serial Port 4 (Com4) Reserved for FID/TCD Preamplifier
Board (FID/TCD units)
N/A
Serial Port 5 (Com5) J9
Serial Port 6 (Com6) J13
Serial Port 7 (Com7) J17
Serial Port 8 (Com8) J18
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Note
PC-to-GC connections, direct serial: The GC serial ports were wired to appear as DCE, so
a straight-through serial cable is used for a direct serial connection between the GC and
the PC. (The PC is Data Terminal Equipment, or DTE.) See “GC DB 9-pin serial port to PC
DB 9-pin port” on page A-25.
External modem-to-GC connections, serial: a null modem cable and gender changes
may be purchased from any computer products store, for the GC to external modem
connection. However, a custom serial cable may be built to emulate a null-modem
cable for a connection between the GC Controller and an external modem. (The
modem is Data Communications Equipment, or DCE.) See “Wiring remote RS-232
communications” on page A-28.
Both of the GC DB 9-pin jacks are female and have identical pin
assignments. Note that a DB 9-pin male numbering scheme is also
illustrated, but for reference purposes only as follows.
Figure A-15 DB 9-pin connector (P2 and P3) and pinout for jacks
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A.3.2 GC DB 9-pin serial port to PC DB 9-pin port
To make an RS-232 serial connection between one of the DB 9-pin serial
ports of the GC, and a PC with DB 9-pin serial port, use a straight-through
serial cable, terminated as DB 9-pin male / DB 9-pin female. This will work
if the PC has a male DB 9-pin serial port, and its pin assignments are
identical to those found on a typical DB 9-pin serial port of an IBM PC.
The straight-through serial cable can be obtained from most computer
products suppliers, so custom-building a cable normally is not necessary.
Wiring and signal paths are illustrated as follows.
Figure A-16. GC DB 9-pin Port to PC DB 9-pin Port
A.3.3 GC DB 9-pin serial port to PC DB 25-pin port
To make an RS-232 serial connection between one of the DB 9-pin serial
ports of the GC, and a PC with DB 25-pin serial port, you may be able to
use a straight-through serial cable, terminated as DB 9-pin male / DB 25-
pin female. This will work if the PC has a male DB 25-pin serial port, and
its pin assignments are identical to those found on an IBM PC.
Female DB-9
connector on GC
Male DB-9
cable end to GC
Female DB-9
cable end to PC
1
6
5
9
5
9
1
6
1
6
5
9
9 RI
8 RTS
7 CTS
6 DTR
5 GND
4 DSR
3 RxD
2 TxD
1 RLSD
9 RI
8 CTS
7 RTS
6 DSR
5 GND
4 DTR
3 TxD
2 RxD
1RLSD
(DCD) (DCD)
9 RI
8 CTS
7 RTS
6 DSR
5 GND
4 DTR
3 TxD
2 RxD
1RLSD
(DCD) Straight-through serial cable
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The necessary straight-through serial cable can be obtained from most
computer products suppliers, so custom-building a cable normally is not
necessary. Wiring and signal path are illustrated as follows.
Figure A-17 GC DB 9-pin Port to PC DB 25-pin Port
A.3.4 GC Phoenix plug port to PC DB 9-pin port
To make an RS-232 serial connection between one of the Phoenix Plug
serial ports of the GC, and a PC with DB 9-pin serial port, you will need to
manufacture the cable and its DB 9-pin, female plug cable end as
illustrated below (see Figure A-18).
Note
The cable for this application is also available(P/N 3-2350-068) in a customer-specified
length with six exposed leads and a female DB 9-pin connector.
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Figure A-18 GC DB 9-pin Port to PC DB 25-pin Port
A.3.5 GC Phoenix plug port to PC DB 25-pin port
To make an RS-232 serial connection between one of the Phoenix Plug
serial ports of the GC, and a PC with DB 25-pin serial port, you will need
to manufacture the cable and its DB 25-pin, female plug cable end as
illustrated below.
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Figure A-19 GC Phoenix Plug Port to PC DB 25-pin Port
A.4 Wiring remote RS-232 communications
A.4.1 GC DB 9-pin serial port to modem DB 25-pin port
To make an RS-232 serial connection between one of the DB 9-pin serial
ports of the GC, and an external modem with a DB 25-pin serial port, you
may use gender changes and a null modem cable purchased from any
computer products supplier, or you may manufacture a cable. The
manufactured null modem cable will need a male DB 9-pin connector
and a male DB 25-pin connector. Wire the cable ends as illustrated
below.
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Note
Data Communications Equipment (DCE). Use a custom nullmodem type cable to make
the connection between the GC and an external modem. GC serial ports were wired to
appear as DCE so that a straight-through serial cable could be used for a direct serial
connection between the GC Controller and the PC, which is Data Terminal Equipment
[DTE].
Figure A-20. GC DB 9-pin Port to External Modem DB 25-pin Port
A.4.2 GC Phoenix plug to modem DB 25-pin port
To make an RS-232 serial connection between one of the Phoenix Plug
serial ports of the GC, and an external modem with DB 25-pin serial port,
you will need to manufacture the cable and its DB 25-pin, male plug
cable end as illustrated below.
Male DB-9 cable end
to GC Serial Port
Male DB-25 cable end
to External Modem DCE
5
9
1
6
13
25
1
14
9 RI
8 RTS
7 CTS
6 DTR
5 GND
4 DSR
3 RxD
2 TxD
1 RLSD
9 RI
8 CTS
7 RTS
6 DSR
5 GND
4 DTR
3 TxD
2 RxD
1 DCD
(DCD)
22 RI
4 RTS
5 CTS
20 DTR
7 GND
6 DSR
3 RxD
2 TxD
8 DCD
Null Modem cable
Female DB-9 Serial
connector on GC
1
6
5
9
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Figure A-21 GC Phoenix Plug Port to External Modem DB 25-pin Port
A.5 Example RS-422 PC-GC connection
This section demonstrates an example RS-422 connection from a PC to
GC that is accomplished through use of an asynchronous line driver/
interface device. The line driver device serves as an interface between
the RS-232 output of the PC and the RS-422 protocol needed for long
distance serial input to the GC. Specifics of the line driver are as follows:
Note
See “Setting the Com ID” on page 3-30 for additional details about serial
communication setups.
• Black Box brand
• Model LD485A-MP RS-232/RS-485 Multipoint Line Driver
• RS-232 input (to connect to the PC)
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• RS-422 or RS-485 output (to connect to the GC)
Note
For this example, a straightthrough RS-232 serial cable is used to connect between the
PC and the line driver.
RS-422 line terminations are illustrated in Figure A-22, below, and
jumper and switch settings to configure the line driver device are listed in
Table A-18 and Table A-19.
Figure A-22 Example RS-422 Serial Cable Terminations
Table A-18 Switch Settings for LD485A-MP, RS-422 to GC
Switch Type Label Position Purpose
Front Panel Switch NORMAL / DLB NORMAL Uses normal operation, instead of
loopback testing.
DIP Switch Bank XW1A DCE /
XW1B DTE
XW1A DCE Sets line driver to operate as data
communications equipment (DCE).
DIP Switch Bank S2 UNTERM Eliminates need for resistor network
termination to connect one PC directly
to one GC.
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A.6 Example RS-485 PC-GC connection
This section demonstrates an example RS-485 connection from a PC to
GC that is accomplished through use of an asynchronous line driver/
interface device. The line driver device serves as an interface between
the RS-232 output of the PC and the RS-485 protocol needed for long
distance serial input to the GC. specifics of the line driver are as follows:
Note
See “Setting the Com ID” on page 3-30 for additional details about serial
communication setups.
• Black Box brand
• Model LD485A-MP RS-232/RS-485 Multipoint Line Driver
• RS-232 input (to connect to the PC)
• RS-422 or RS-485 output (to connect to the GC)
Refer to Figure A-23 and Figure A-24 for RS-485 line terminations,
jumpers and switch settings to configure the line driver device (also
listed in Table A-19).
Table A-19 Jumper Settings for LD485A-MP, RS-422 to GC
Jumper Position Purpose
W8 HALF half duplex operation
W9 ON no delay, clear to send (CTS) always true
W15 A-B RS-485 driver enabled by request to send (RTS)
W16 A-B half duplex turnaround delay at 5 ms
W17 B 100 ms disable timeout delay by 100 ms
W18 B-C RS-485 driver enabled by RTS
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Note
For this example, a straightthrough RS-232 serial cable is used to connect between the
PC and the line driver.
Figure A-23 Example RS-485 Serial Cable Terminations, Line Driver to GC
Controller Com3
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Figure A-24 Example RS-485 Serial Cable Terminations, Line Driver to GC
Controller Com4
Table A-20 Switch settings for LD485A-MP, RS-485 to GC
Switch Type Label Position Purpose
Front Panel
Switch
NORMAL / DLB NORMAL Normal operation used, instead of loopback
testing.
DIP Switch Banks XW1A DCE /
XW1B DTE
XW1A DCE Sets line driver to operate as data
communications equipment (DCE).
DIP Switch Banks S2 UNTERM Eliminates need for resistor network
termination to connect one PC directly to
one GC.
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Table A-21 Jumper settings for LD485A-MP, RS-485 to GC
Jumper Position Purpose
W8 HALF half duplex operation
W9 0 ms 0 milliseconds delay from time request to send (RTS) received as
true until clear to send (CTS) asserted as true
W15 A-B RS-485 driver enabled by RTS
W16 A-B half duplex turnaround delay at 5 ms
W17 B 100 ms disable timeout delay by 100 ms
W18 B-C RS-485 driver enabled by RTS
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B
Appendix B: Modem installation
This appendix provides information for installing the optional internal
modem for the Model 700 (P/N 3-0700-029). The modem
communications is established via COM4 and the MON2000 version 2.2
software, which then redirects modem communications through to
Com9.
Note
Revision C of the Internal Modem requires MON2000 software, version 2.2 or later.
B.1 Optional internal modem
WARNING
Before removing the cover from the GC, ensure that the power supply switch is OFF and
the AC power cord is disconnected. Failure to follow this warning may result in injury or
death to personnel or cause damage to the equipment.
To install the internal modem, do the following:
1. Halt any ongoing analysis runs.
2. Disconnect the power from the unit.
3. Remove the explosion-proof dome and the Oven System
protective cover.
4. Disconnect the Analog cable from J6 of the System Interface
board, then disconnect all CPU cables from the System Interface
board.
5. Remove the CPU assembly and install the modem, with
associated hardware into J19 and J20 PC/104 Bus connector on
the CPU assembly. The modem must be the top board in the
assembly.
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Figure B-25. Radicom 56K baud modem installation
6. Set communication port jumper settings on the modem board
(P/N 3-0700-029) as follows:
7. Plug one end of the modem extension cable (P/N 3-2350-075)
into RJ11 of the modem assembly. The in-line jack on the
remaining end of the modem extension cable attaches to the
lower left inside wall of the card cage shield (after the CPU
assembly is reinstalled and all cables reconnected to the System
Interface board). No software setup is required for this board.
8. Insert the phone line into the modem extension assembly.
Jumper Pin
J26 1-2
J27 1-2
J30 1-2
J31 2-3
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B.2 Optional Ethernet board
To add an Ethernet assembly, do the following:
1. Disconnect the Analog cable from J6 of the FTB, then disconnect
all CPU and optional board cables and lines.
2. Remove the CPU assembly and install the Ethernet assembly with
associated hardware into J19 and J20 PC/104 Bus connector on
the CPU assembly. If an option board is already plugged into the
PC/104 Bus on the CPU, install the Ethernet assembly and
mounting hardware into the PC/104 Bus connector on the option
board.
3. Plug one end of the Ethernet extension cable (P/N 3-2350-088)
into J5 of the Ethernet assembly. The in-line jack on the remaining
end of the Ethernet extension cable attaches to the lower left
inside wall of the card cage shield, after the CPU assembly is
reinstalled and all cables and lines reconnected. No software
setup is required for this board.
4. Run the Ethernet line through the conduit into the lower
enclosure and connect it to the Ethernet extension cable.
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C
Appendix C: Manifold Carrier for Gas Bottles
C.1 Carrier Gas
This appendix provides a description of the carrier manifold (P/N 3-5000-
050) that permits connection of two carrier gas bottles, or cylinders, to a
gas chromatograph (GC) system. The benefits of this manifold are as
follows:
Note
The illustration and information in this appendix are adapted from drawing #AE-10098.
• When one bottle is nearly empty (i.e., 100 psig remaining), the other
bottle becomes the primary supply.
• Each bottle can be disconnected for refilling without interrupting GC
operation.
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Figure C-1 Manifold for two carrier gas bottles to GC system
C.2 Installation and line purging
To install and purge the dual-bottle carrier gas manifold, proceed as
follows:
1. Install manifold as shown in Figure C-1. Close all valves and
tighten all fittings. Run tubing to the Analyzer, but do not
connect.
2. Back off pressure regulator (counter clockwise) fully.
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3. Open cylinder valve for Carrier Cylinder 1. The pressure indicator
will read the cylinder pressure.
4. Open the shut-off valve attached to the carrier regulator.
5. Regulate pressure out of the cylinder to 20 psig, then close the
cylinder valve.
6. Open V-1 (bleed valve) and let the carrier gas bleed to
atmosphere until both gauges read 0 psig, then close V-1.
7. Repeat Steps 4 and 5 two more times to purge the line to V-2.
8. Purge the line to V-3 by repeating Steps 2 through 6; but this
time, use bleed valve V-4 and Carrier Cylinder 2.
9. With valves 1-4 closed, open both cylinder valves and regulate
both carriers to approximately 10 psig.
10. Open V-2 and V-3 simultaneously, then turn both cylinder valves
off and let the carrier gasses bleed through the line to the
Analyzer until all gauges read 0 psig.
11. Repeat steps (8) and (9) two more times to purge line to Analyzer.
12. Close V-3, leave V-2 open.
13. Open cylinder valve of Carrier Cylinder 1 and, with carrier gas
flowing at 10 psig or below, connect carrier line to Analyzer.
14. Slowly regulate Carrier Cylinder 1 to 110 psig.
15. Open V-3 and slowly regulate Carrier Cylinder 2 to 100 psig. (By
doing this, all but 100 pounds of Carrier Cylinder 1 will be used
before any of Carrier Cylinder 2 is used. When Carrier Cylinder 1
gets to 100 pounds, replace the cylinder). Leak-check all of the
fittings carefully.
16. Let the Analyzer run overnight before calibrating.
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C.3 Replacing a carrier cylinder
To replace one carrier cylinder without interrupting GC operation,
proceed as follows:
1. Turn cylinder valve off.
2. Back off on cylinder pressure regulator until handle turns freely.
Remove cylinder.
3. Attach new cylinder to regulator and repeat Steps 3 through 7 of
Installation Instructions, "Section C.2: Installation and line
purging", using appropriate bleed valve to purge line. Leak-check
the fitting.
4. Open the appropriate block valve to the Analyzer (V-2 or V-3) and
regulate outlet pressure to appropriate level. (See Steps 14 and
15 of Installation Instructions, "Section C.2: Installation and line
purging".)
C.4 Calibration gas
The calibration gas used for BTU analysis should be blended of gases
specified as Primary Standards. Primary Standard gases are blended
using weights that are traceable to the National Institute of Standards
and Technology (N.I.S.T). For other applications, the calibration gas
should be blended to the specifications detailed in the analyzer’s
Application Data Sheets.
The calibration gas should not have any component that could drop out
at the coldest temperature to which the gas will be subjected. A typical
blend for a temperature of zero degrees Fahrenheit is listed in Table C-1.
No dropout will occur in this calibration gas if it is blended at a pressure
below 250 psig.
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The sampling system should be carefully planned for the best
chromatographic analyses.
Table C-1 Contents of Example Calibration Gas
Gas Mole
Percent
Nitrogen 2.5
Carbon Dioxide 0.5
Methane Balance
Propane 1.0
Isobutane 0.3
N-butane 0.3
Neopentane 0.1
Isopentane 0.1
N-pentane 0.1
N-hexane 0.03
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