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DesnityPRO NAI - User Manual

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1. Part Number Description of Cable Assembly 3 0700 035 Cable 20 ft Power Supply MS with straight connection 3 0700 051 Cable 20 ft COMM 8 4 20 mA Output MS with straight connection 810120 Cable 15 ft XM Det MS 810121 Cable 20 ft XM Det MS 810122 Cable 30 ft XM Det MS 817603 Cable 100 ft XM Det MS 817604 Cable 150 ft XM Det MS Part Number Description of Transmitter XMTR 1NGN 01 NEMA 4X Transmitter XMTR 2NGN 01 NEMA 4X Transmitter Quick Connect Part Number Description of Detector For Remote Unit DETXP NGN 01 XP Detector DETXPW NGN 01 XP Detector with Water Cooled Jacket DETN4 NGN 01 NEMA 4X Detector DETN40 1NGN 01 NEMA 4X Detec or with Quick Connect and MS Style DETN40 2NGN 01 NEMA 4X Detector with Quick Connect and Amphenol DETN40 3NGN 01 NEMA 4X Detec or with Quick Connect and Jupiter Thermo Scientific DensityPRO NAI Installation Manual A 3 This page intentionally left blank Thermo Scientific Appendix B Specifications Results may vary under different operating conditions Table B 1 Performance specifications System performance 0 0015 g cc 99 confidence typical conditions Stability Drift less than 0 05 of radiation change over six months Ambient temperature field 0 009 of radiation change per degree Celsius Response time
2. Thermo Scientific DensityPRO NAI Installation Manual 16 D Index 4 4 20 mA current output 1 4 4 1 4 9 4 13 4 15 4 16 A 3 B 4 A AC power supply 4 1 4 2 4 4 B 3 C Canadian Nuclear Safety Commission CNSC 2 2 3 2 CNSC See Canadian Nuclear Safety Commission commissioning 3 1 communications See HART communications FOUNDATION fieldbus communications and serial communications contact closure digital input 4 1 4 11 B 2 contact information 5 1 current output See 4 20 mA current output D DC power supply 4 2 4 3 4 4 B 3 connector for wiring 4 3 Department of Transportation DOT 2 2 detector remote 3 9 installation 3 3 3 14 guidelines 3 2 Operating temperature range 3 2 ordering information A 1 PCA replacement 3 6 3 9 3 10 specifications B 1 transmitter wiring to 4 7 detector transmitter 1 3 3 1 installation 3 3 3 14 guidelines 3 2 Operating temperature range 3 2 ordering information A 1 PCA replacement 3 6 3 8 specifications B 1 DOT See Department of Transportation Thermo Scientific E electrostatic discharge ESD 2 1 ESD See electrostatic discharge F fieldbus B 5 current input 4 10 FOUNDATION fieldbus communications 1 4 4 1 4 17 A 2 B 4 G gauge 3 1 H handling the instrument 2 1 HART communications 1 1 4 1 4 15 4 16 A 2 I installation installing drawi
3. DensityPRO Code Outputs amp Communications NAI NAI NAI 0 0 No Selection 1 ISIO 2 ISIO HARTO 3 ISIO FOUNDATION M fieldbus 4 ISIO Profibus DensityPRO Code Detector Mounting NAI NAI O N No Selection B Base Plate Mount W Base Plate Mount Water Cooled DensityPRO Code Detector Mounting Hardware NAI NAI O 0 No Selection 1 5 Pipe Saddle for 1 5 or 1 0 Pipes XX 10 Pipe Saddle for 3 16 Pipes Available pipe sizes in inches 3 4 5 6 8 10 2 9 12 14and 16 XX 10 Pipe Saddle for 18 42 Pipes Available pipe sizes in inches 18 20 22 24 26 28 30 36 and 42 DensityPRO Code Detector Connector Options NAI NAI O Military Style MS A Amphenol J Jupiter DensityPRO Code Accessories NAI NAL NAI O 0 No Selection 1 Large SS Tag 3 3 x 2 5 Wired A 2 DensityPRO NAI Installation Manual Remote Systems Only If Selected Pipe Saddle with Correct Size Required For Explosion Proof NEMA 4X and NEMA 4X with OC Detector Options For Explosion Proof with Water Cooled Detector Option Use Pipe Size In Place of XX in Code Use with NEMA 4X with Quick Connect Detector N40 Option Only Thermo Scientific Ordering Information Integrated System gt v wo a o Figure A 1 Sample order format Table A 2 DensityPRO NAI Accessories
4. PUIN fuyu BEH en pasamod jas paqe osi ue se paunsijuon s yu 07 y en ONO 5 ME w O L Bu oguouu euo 2991 doo vu OZ y 01 23 yZ s qdcee JIEN aut uoneunfyuco palamod doo PIJEJO Ue s PICINO vw OZ y BY 20 PIEN vontuniijuoo 3 eut Zn PaJamod payejos ue se paunsiuoo s yw OZ y El oo euuou OO Avz eonos a ra ssn NG yin fiu OO LALO es doo VW OC Y 03204 v7 Foye 2 sn IUL 0101390 pau wmoc dool UE si ALO vui 07 p PU 20 BREN voptindyuoo ange PUL TL 1 6 snq r ti LO MPUNOS NIPA JOUEBAOCOT u paan aq IIA HQE ared PIDA PIAL rs aoonos EU 2d 06 nj ligam pun MON S 2551 21 door mauno yu gg y sapang uong die 1 vu OF p Gt EVI 142 Um Uab 342 pue MON Y TT a EZT 2d Aidan mae OO Du ucysous Wan es pasad pas we se pounByuco vui OL Y ED OND D 009400 Buyoyuoul LALO 06 Ayz e2 n0s a ejos sn oo VUOZ O 20A v7 6 sajade JASN 941 uope nBguoo palamod Goo PINON ut ti INNO vau OT y aug Ij paan VOMEINAYUGD unejap eq 06 5 PRO JURISTAS uuum TO S yw oz WWE OA dd ums 23 pus MON O ayay nora sanos suo G EN TU 3A Y Sz GR usa oy affari uc illus ore napana 14 TY 142 URN 76 aav put MON d Figure C 2 1 0700 039 Installation wiring diagram DensityPRO NAI remo
5. jo no sjuauodwo 26 18 sem ainjesadwa juerqure sus shure 1134 puo q aunjeJadua aux eg seiddns yuung 186 pue aimeredwia Jamod abejjoa yBiy ay pue sauoiiMs 10129 8s wing Aunful jauuosiag NEM Pale pajgaylano 0 pasodxa 196 auuosiaj po a9ejung uBiH ay Japjoy esnj sjuauodwoo 6911 0 YUI aIn gladwa 8 GemO e ulyjim 0 a Bunso dua sued qIss 33e A ISe3 0102 1 01019 931 01 paisa sem juawdinbz A613u3 guay L Sy90 197U1 542014910 831 ep 8A1193101d Aue UlB U03 104 saop juawdinb3 YN eoe 89A1199101d pini aunssaud Aue yoaful Jou saop juawdinb3 YN uonoefui aunssaid uBiH emjonas ejqeis e 0 paxij aq Im juawdinb3 YN uopesqin 8240 a isua 10 Je9ys UNISJ0 0 jou s juawdinb3 YN a010 Su8 pue Jeays 0190 juawdinba e s 511 YN A llqoul juawdinb3 aunssald passed aunso 2u3 YN sseujsnqoi VN enueja asal Aupi6u ssau snqo BINSO JUZ D 3 DensityPRO NAI Installation Manual Thermo Scientific Risk Assessment Bulqoayul anbal sjuabe Bulsa 10 sip Duiueaj Aue jo asn ou saop juawdinb3 YN sjuabe Bunsa Jo Bunsayuisip Buiue 9 awn Aue ajeJauab auny ou saop juawdinb3 YN spinbi 10 seb ajqewwels spinbi
6. n s s n 4 10 Density PRO NAT RK ANS kaa GANA LAHAR AN 4 10 Relay Outputs csc sua s a RAAT Ales anaes pahaba poa BN BAN 4 11 Contact Closure Digital Inputs eere eee tite iet 4 11 Temperature Compensation essere eene emen eene eene 4 12 Wiring the Optional ISIO Boards eene 4 13 Current Output ee aae ode 7070000000 4 13 HART Communications edet te eese Re eben BA 4 16 FOUNDATION Fieldbus Communications eee 4 17 viii DensityPRO NAI Installation Manual Thermo Scientific Thermo Scientific Chapter 5 Appendix A Appendix B Appendix C Appendix D Us 5 1 Contact Information pnas AN HANNA io rtt ae ee E ret hie pe 5 1 E 5 2 Ordering Information KALA 1 Specifications oed necant tdem B 1 DraWIngs a A iia C 1 RISAS MN ada D 1 LLO o INDEX 1 DensityPRO NAI Installation Manual ix This page intentionally left blank Safety Considerations Thermo Scientific Safety Information 4 Guidelines All persons installing using or maintaining this equipment must read and understand the information contained in this section Failure to follow appropriate safety procedures and or inappropriate use of the equipment described in this manual can lead to equipment damage or injury to personne
7. DensityPRO NAI Gamma Density Measurement Systems Installation Guide PN 1 0702 015 O 2013 Thermo Fisher Scientific Inc All rights reserved Microsoft and Windows are either trademarks or registered trademarks of Microsoft Corporation in the United States and or other countries HART is a registered trademark of the HART Communication Foundation Iv Founbarion FOUNDATION fieldbus and Fieldbus Foundation are registered trademarks of Fieldbus Foundation National Instruments is a registered trademark of National Instruments Corporation All other trademarks are the property of Thermo Fisher Scientific Inc and its subsidiaries Thermo Fisher Scientific Inc Thermo Scientific makes every effort to ensure the accuracy and completeness of this manual However we cannot be responsible for errors omissions or any loss of data as the result of errors or omissions Thermo Scientific reserves the right to make changes to the manual or improvements to the product at any time without notice The material in this manual is proprietary and cannot be reproduced in any form without expressed written consent from Thermo Scientific This page intentionally left blank Thermo Scientific Revision History Revision Level Date Comments 1 0 06 2013 Preliminary Draft A 08 2013 Initial Release per ERO 8272 DensityPRO NAI Installation Manual v This page intentionally left blank Contents
8. SUO17ONJSu uoneJado 0 suononasui Buijejedo ji asue Aew plezeH v VN 1 02 Suonejlui Jo 0 y VN ainsojasip ayenbapeu wey aul eLajew adojosioipey ees san oyne 3 81s 10 pue jesapay 0 Buipyo23e sipa asp Aadosd pajpuey aq 0 sey 11 pue 0 81d 10 uoneay roads jeluajew ado osIo1peJ sure uos ayenbapeu peau asnos ay yey 1d 3x syoayo asn aid Aue Ajiads 10 Jou saop juawdinb3 VN Thermo Scientific DensityPRO NAI Installation Manual 6 D Risk Assessment sanssi aAeu sjuauoduo9 juenajas Aug J palJajsuex A njssaoons aq jou Aew eeg jauuosiad 0 xsu e 1sod saop Y ing 9U lugAU09UI sasnea Y pauajsuen pamala aq ouue2 ejep J Juawdinba ay 10 juawadinbas aun y analyse 0 4994 aney 218 S0128UUO2 SE uns SJUSUOAUWOI Auessadau ay suoneaiunuluo3 10 suod eues ZEZSH pue S8YSY y10q sapiAoid ay YN anss JojsueJ eyeq JeuuosJed 0 4191 e asod jou saop ainjIej sy pue aunyle 3 asodind euoneuloyul SI 3 38s 31 14 WJe y VuJe e 0 anp juawa Inseaw 34119949 JON ued Jasn u9IuM sule e sse3oJd 9 0 dn sepnjour juawdinb3 YN Jeuuosjed 0 xsu e asod jou seop y Ing 318 sisAjeue juawainseaw Jayjun ay 198448 Ajasianpe 98110JU A JUdWBINSBAW 1991103u YN Maneq dn yoeq y m 914 Mouuaul Use j ui PAJ0 S aJe eyep VN ejeg Jo 5501 UONE E SUI Buipj
9. sjuawuoJAua yal YIM uonounfuoo ul asn 10 ajqeyins Jo paubisap jou si quauidinb3 VN S U WUOJIAUa 21 u B xo u asp Bungi Apjiqewwel sadoid any 104 SOP UO JONIJSUOD e3iep ui pasn jeuaye w Aue JI puezey lli Jo uoiso dxz piezey uolsojdxy 8114 pezeu uorsojdxa 8114 jugwaiinba pagzeH uolsojdxy 31 ic uonounj pasinbas wuojad 0 adejuns pajeay Aue jou saop juawdinb3 YN spiezey ally suoseal euonpuny 10 892 UNS payeay jualque mojaq amesadua 01 amyesadwa joalqns qolu syed a eJodjoou 32eJIng mo jou saop juawdinb3 YN juing 196 pue uing unlul jauuosieg aimejadwa pajesylano 0 pasodxa jab jauuosiag a2ejing YBIH A619u3 jewsay L 990 1834 3IA 9A1133101d ping aunssaud uBiu Aue uoloaful y lul Jou saop juawdinb3 YN nss ld uBiH uonsuqlA 8210 lSU 10 15908 U01840 e2uauedxa 1ou si juawdinb3 YN 39 0 a Isua pue Jeays U0IS10 juawdinba paxiy e s SIUL YN A111qou juawdinb3 syeaig peau asnos ay yo Japinys 1 uonouny Auadoud jou im juawdinbz yyeey jauuosiag von aun 1 004 1uauudinb3 sseuisnqoi jenuej ss ns jeolueyoaw 0 anp u yoiq A jeyueproae SI 81nso0 3u8 yl 318 solu0n99 euJa ul 0 pasodxa b Aew auuosJag Anlul jauuossag AupiBu Ssaujsnqoi aJnso 2u3 D 11 DensityPRO NA
10. paburya jou syed ajqeasejdal G uonounjjeui quavudinb3 ewe Ie jeuejeui ay JI uonoun eu Aew juawdinb3 sjueunsn py AH dold pasivas jou sem juawdinba Buroinlas l y JI pabewep b Aew juawdinb3 3 8auBuajule pasodsip p38uoout si quauidinbs J ase puezey G puezeH e USWUOIIAUA jesodsiq juawdinb3 Au dold papuey jou sem jenazew edojosiorpeJ ululeyuoo 0 juawdinba y J sib Aew puezey v abewep juawdinb3 BuijpueH jedoudui pajpuey jou 8J8 syed aajisuas 093 8u Ji peBeurep f Aew juawdinb3 sjueunsn py Burjpueg o Gunejas spiezey D 9 DensityPRO NAI Installation Manual Thermo Scientific Risk Assessment k assessment Itter ris Table D 2 DensityPRO NAI transm sued su1e u03 ainsojaua e39 N VN syed Burjadx3 paddoup Ajjejuapisae pue 1 jou si juawdinba Ji unu 396 Aew jauuossad Anlul jauuossag juawdinba jo bunyi 81mon1s 9 ge1s e 0 painaas aq IIVM juawdinb3 YN ssew papuadsng 8umjoniqs 9 qe1s e 0 peun2es aq juawdinb3 YN Auiqes sued buinow Aue UIB U00 104 seop juawdinb3 YN sued Buloy psezey 112 plone 0 sabpa pue s13u109 pue yYjoows aney juawdinba ay jo sued a qeyono Ajise3 SIBYWIAUL S SSEU payuea Aq pajesedas ae syed e snopsezey aauls puezey e asneo JOU im BULIM AI
11. General Refer to the table below for the components of the various Thermo Scientific DensityPRO NAI measurement systems Note The combination of the detector transmitter and the source head is referred to as the gauge Table 3 1 DensityPRO NAl measurement system components DensityPRO Component NAI NAL NAI 0 Detector Transmitter MS20111 N A N A Detector N A MS2011R MS2011R 4XY Transmitter N A MS2011T MS2011T 0C Source Head 5200 5201 5202 5203 5204 N A Available with NEMA 4X housing Additional Info Available with explosion proof housing with or without water cooling jacket Where Y specifies the type of quick disconnect Licensing AN Warning The instrument is a nuclear device regulated by federal and or state authorities The user is responsible for knowing and following the pertinent safety and regulatory requirements Refer to the Gamma Radiation Safety Guide p n 717904 for a summary of these requirements A VVarning Installation and commissioning of Thermo Scientific source heads requires a icensed operator Thermo Scientific DensityPRO NAI Installation Manual 3 1 Installation Guidelines In the United States a general license permits the licensee to own and install all of the instrument s components including the source head However a specific license authorizing radiation commissioning is required to commission the instrument by removing the lock and opening t
12. Safety Information amp Guidelines eee u u u xi Safety Considerations atada da a xi Warnings Cautions AAA AKIN ALAN BAKED xii Chapter 1 Introduction Product Overview didnt 1 1 O 1 2 TheiSoutce cederet tuU ERE e bns 1 2 The Detector Transmitter oia alas 1 3 Functional Description daras tito Rel 1 3 Measurement Calculation uri oa 1 3 Communications amp Measurement Display annassa 1 3 EZ Cal II Software Configuration eese ener 1 4 Multiple Readouts 8 keen e eel end 1 4 Yotalizers 8 Batch Control inst cone annee UOI 1 4 Input 8 Output Signals tti e tr rege P dnde n s n 1 4 Associated Documentation eapite omia dani e eee 1 4 Chapter 2 Handling Storage amp Shipping 2 1 ESD Procedures PN 2 1 Unpacking Inspection amp Storage eerte 2 2 Shipping iustos m P etu eite ere opt 2 2 Chapter 3 I fp cp NAAN 3 1 General i eiie 0000000000 0000000000 KENA 3 1 A ON 3 1 Guidelines caciones eb ea e ird eee ee reden 32 General aaa noeud rra 32 Moun tin gets acere tata ta 3 3 Mounting ContiguratioBs u n US eene hua aaa ua trennen 3 3 Mounting Instructions iia aa tette a q aka sus 3 4 Pipe Saddle Cradle Mount eee 3 5 Pipe Spool Mount oen eet e e tee ere HE 3 5 Z Pipe Axial Mount cete
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14. 2 seconds to 65 535 seconds Diagnostic Process high low alarm X ray interference Table B 2 Gamma ray source Source type Cs 137 or Co 60 Double encapsulated by stainless steel Size 1 to 10 000 mCi 37 MBq to 370 GBq Cs 137 or 1 000 to 3000 mCi 37 GBq to 111 GBq Co 60 Source housing Polyurethane painted lead filled carbon or stainless steel Three position shutter On Off Reference locks in OFF closed position DensityPRO NAI Installation Manual B 1 Specifications Table B 3 DensityPRO NAI measurement systems System architecture 32 bit 60 MHz microcomputer A Real time clock Lithium backup battery voltage monitor for the RTC and SRAM circuits allows for configuration retention in the event of a power failure Local 1 0 consisting of Four analog two current two voltage inputs e One 100 ohm Pt RTD input e Two digital outputs DO Two digital inputs DI e Two relay outputs e One local serial communication port e One RS232 RS485 host serial communication port One 15 V 100 mA power supply output e One isolated 24 V output supporting two 4 20 mA loops e One 10 100BASE T Ethernet communication port with ESD protection e One USB port Optional 1 0 consisting of Two isolated 24 V outputs supporting two 4 20 mA loops e Two 4 20 mA loop outputs Detection type Sodium lodide Nal scintillator with wide dynamic range
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18. sealed to prevent passage of gas or vapors The surrounding atmosphere or liquids should not affect the sealing compound The minimum thickness of the sealing compound should be 5 8 inch 16 mm DensityPRO NAI Installation Manual 41 Wiring DensityPRO NAI Wiring Procedures A Warning If metal conduit is used the conduit must be grounded A Warning Verify the source shutter is in the OFF position before wiring DensityPRO The steps below provide general instructions for detector transmitter wiring For each cable to be connected refer to the wiring label on the top of the chassis or to the N Al Wi ri ng wiring installation diagram You will need a screwdriver with a 1 8 inch blade to connect the wires to the screw terminal connectors Procedures 1 Ensure all source shutters are in the OFF position 2 Ensure all power to the gauge is turned off Remove the housing access cover a For the explosion proof housing loosen the screw on the cover retaining bracket and slide the bracket off the housing cover Unscrew the housing access cover If necessary use the two lugs provided on the top of the cover to aid in removal 4 Remove the cable conduit plugs from only the holes that will be used Lay one conduit for the DC power input and signal cables and if applicable a second conduit for the AC power input and relays Route the cables into the detector housing Leave approximately six inches 150 mm for strain relief 5 Connect
19. 3 jueujeJnseaui jou uo 9un eu juawdinb3 918uBeuo J99 3 uone3o7 uonejjejsu SP1ZeH jejuauruo1Au3 Buueduie ejem 01 Au iqe1ou 0 NA 8AI198JJ9 J0143 BurvuWe1B014 jou uondunyjew 3ueuudinb3 915AN10 sanss aney sjuauodujoo Aue J jueulaJnseaui JON anss Jaysued eje pauejsue Ajnjssaoons aq you Aew eye EN B juauieJnseaui JON ainjle4 Wel uueje 0 anp puawanseaw JON D 15 DensityPRO NAI Installation Manual Thermo Scientific Risk Assessment jueuiuoliAua p8 ji3 ds ay Japun pao s Jou sem y abewep juawdinbz juawdinba Ji pabewep b Aew juawdinb3 0H91X ayy uo pajund suon ni sul Bululem ybiam UDISUAWIP Sales BABY IM 9119 uapoom yoe3 ad Aj pue Yibua ay uo p seq 37219 uapoom azis JedoJd e Buisn paddiys aq im juawdinb3 jeyueuiuoJiAua abeJo s ayeudouddeu abeJo s pue uoneuodsuea 10 jou sem Burbexoed Jadoud ji pabewep 396 Aew yuawdinby eJn iej abewep juawdinb3 Agwasse sjuauoduos yo aunyie4 2 uoljounyjew juawdinb3 buibeyoeg ayenbapeu ab e10 s wodsuesy I0nuo9 J0j9e qu0qng shueuoduos a qei a jsnoinaud jo aunyie4 G uonounjjeu juawdinb3 abuey 55920 4 JO 103002 3uarauynsu 39014
20. HART Communications The entity parameters for J11 are as follows Vmax 35 25V e Imax 200mA e Ci Onf e Li 0 e Pma 0 81W User current monitoring device 4 20 Out C 4 20 RTN C Figure 4 20 Optional 4 20 mA output isolated loop powered Usage voltage source 24 VDC nominal User current monitoring device ISIO PCAs J4 4 20 Out C 24 V Out 2 Figure 4 21 Optional 4 20 mA output isolated self powered J4 is an isolated 24 volt output with a zener barrier output The results of calculating the values were very similar to the MTL 787 barrier The MTL document Cable Parameters and Permitted Combinations was used to determine the C and L values below e Vo 28 35 V lo 106mA gt fuse rated for 63 mA e Ohm 270 Co 79 nt lo 2mH L Rratio uH ohms 56 e Po 1 02 W DensityPRO NAI Installation Manual 4 15 Wiring Wiring the Optional ISIO Boards HARTO The HART Communication protocol is supported over port J11 the 4 20 mA C icati current output with an optional ISIO board Communication with the gauge takes place through an Emerson Electric Co field communicator Model 275 or newer Refer to the Interface Operation Guide for the DensityPRO DensityPRO with HART Protocol p n 717816 The entity parameters for port J11with the HART option are as follows e Vmax 35 25V e Imax 200mA e Ci Onf e Li 0 e Pma 0 81 To connect the HART wi
21. Table A 1 DensityPRO NAI System 3 DensityPRO Code System Options NAI NAL NAI O Integrated System R Remote System DensityPRO Code Transmitter Options NAI NAL NAI O T1 Industrial T3 Oilfield MS Style NEMA 4X QC DensityPRO Code Transmitter Approvals NAI NAI O 1 CSA C US Class 1 Div 2 Groups C amp D 2 CE ATEX Zone 22 DensityPR0 Code Detector Enclosure NAI NAI O XP Explosion Proof 3 XPW Explosion Proof with Water Cooled Jacket 3 N4 NEMA 4X N40 Nema 4X with Quick Connect e DensityPRO Code Detector Type NAI NAI NAI O 1 Carbon Steel DensityPRO Code Detector Approvals NAI NAL NAI O Al CSA C US Class 1 Div 1 Groups C amp D A2 CSA C US Class 1 Div 2 Groups C D C1 CE ATEX Zone 1 IEC 5 C2 CE ATEX Zone 2 IEC Thermo Scientific Remote Systems Only Use with NEMA 4X with Ouick Connect Detector N40 Option Only Transmitter Approval Only Available for Both Integrated and Remote Systems Available for Remote System Only Use with Oilfield MS Style Transmitter T3 8 Low Pressure Application Only Available for Explosion Proof amp Explosion Proof with Water Cooled Detector Only DensityPRO NAI Installation Manual A 1 Ordering Information
22. as closely as possible with the centerline of the detector housing Be sure to mount the detector securely since any movement or change in alignment can affect the gauge s calibration e The gauge measures only the material that passes through the beam For best performance the beam must pass through a representative cross section of the process material being measured Prevent suspended solids from settling out of the measured area by mounting the detector on a vertical section of pipe e For mounting on a horizontal pipe Position the beam path at a 30 to 45 degree angle from vertical This position tends to average density variations caused by settling while reducing the effect of any trapped gases or solids that accumulate in the top or bottom of the pipe Thermo Scientific DensityPRO NAI Installation Manual 3 3 Installation Mounting Ifthe process material is a solution light slurry or single phase liquid that will not separate the detector can be mounted such that the beam is horizontal Ifthe process material is slurry position the detector as far as possible from any elbows tees or valves as these tend to separate suspended solids Position the beam path in the plane of the upstream elbow so the measurement includes any uneven distribution caused by the fitting X INCORRECT GAUGE HEAD MOUNTING Y CORRECT GAUGE HEAD MOUNTING as y v Figure 3 1 Examples of gauge installation Mounting The fol
23. contact closure digital input 4 1 4 11 current input 4 10 current output 4 1 4 9 4 13 4 15 FOUNDATION fieldbus communications 4 1 4 17 HART communications 4 1 4 15 4 16 relay output 4 1 4 11 remote display 4 1 temperature compensation circuitry 4 12 B 4 power supply 4 3 4 4 preparation 4 1 4 2 serial communications 4 4 4 7 Thermo Scientific Thermo Fisher Scientific 81 Wyman Street P O Box 9046 Waltham M assachusetts 02454 9046 United States www thermofisher com
24. gauge should where process overflow or other material can collect in the beam path The source shutter mechanism must be kept free of debris T Caution Do not place your hand between the source and the vessel wall Use a brush or other tool to remove accumulated debris 3 2 DensityPRO NAI Installation Manual Thermo Scientific Installation Mounting Mounting Warning Installation must be in accordance with local and national electric codes for the area classifications A Warning The handle of the source housing must be in the OFF position during installation Ad Warning Do not reach inside the source housing at any time during installation AN Warning Use proper lifting procedures during installation to avoid injury Mounting The optimum gauge mounting configuration depends on the application The following mounting options are supported for the DensityPRO NAI measurement Configurations systems e Pipe saddle cradle mount Pipe spool with detector pre installed e Z pipe axial mount for small diameter pipes Note Moving the gauge to a pipe with a different diameter may require changing the radiation source size Contact Thermo Scientific Technical Support for assistance In addition to the guidelines listed earlier in this chapter note the following when planning detector installation e Whichever mounting configuration is used it is important to align the beam path the centerline of the source housing
25. photomultiplier tube assembly from the collimator iv Loosen the two bolts located to the left and right of the photomultiplier tube v Gently pull the photomultiplier tube down and out of the Preamp PCA vi Remove the four retaining screws and detach any cabling from the Preamp PCA vii Remove and replace the Preamp PCA Thermo Scientific DensityPRO NAI Installation Manual 3 9 Installation System PCAs viii Reattach any cabling and the four previously removed screws to the PCA Reattach the photomultiplier tube to the PCA ix Tighten the two bolts adjacent to the photomultiplier tube x Carefully set the photomultiplier tube assembly into the collimator xi Insert the two screws previously removed from the collimator xii Reattach the PMT assembly to the card cage by reinserting the eight previously removed screws M Place the card cage into the housing cover 6 Reinstall the two screws previously removed from the card cage to secure it into the housing 7 Reconnect the plug in screw terminals to the board connectors reattach any cabling to the bulkhead and replace the housing access cover ee Apply power to the unit Site DC Input 4 20 mA In 24 VDC ISO Out Tach In 4 Relay Out x 2 lt RID In Detector RS485 PCA Power S ower Supply Sito AC Input Assy NAI PMT Figure 3 4 DensityPRO NAl PCAs remote detector 3 10 DensityPRO NAI Installation Manual Thermo Sc
26. snopJezeu jo Buluas00 ln s Ajjealueyaaw aie suonoeuuoo y uolje jeysul Buunp s19u09 dueys Jo uBnoi Buryano Ag n Aje3uopio2e b Aew siaBuly 5 auuosiag jauuosiad 0 yooys 8911198 3 puezey Ino Ainful jauuossag yoou jeounoer sabpa pue s19uJ02 deys se3ejns ybnoy SpHEZEH ed1uey 2a Uu01 99uu09 BuutM Ajundag 0102 L 01019 911 0 paisa pue paubisap sem juawdinbz jauuosiad 0 yooys 8911198 3 yoou 12911397 queuing yano juawdinba Bunaauuoasip 31043q 440 payajims aq 0 amod sebas jenuew uoje e su 0102 L 01019 93 01 pasa pue paubisap sem quawdinb3 JPUIWA Jojonpuoo 9A138101d 0 pepuoq SI pue sBuluado Aue aAeu 10u saop ainso pua 911 8181 9150 00 l pasojdua aye syed I V auuosied 03 0155909 ae syed snopiezeu ON syed ar Bulyono Ag 39008 e21329j8 196 Aew jouuosJ8d spjaly anaubew yoou 89111983 uonounjjeur juawdinb3 Jayjo 199448 ACW a2ua 818 U1 arauDeuio1129 3 Syeg BA SNOPIEZEH SP1ezeH 891119913 splal4 anaube yy spjaly 91119918 01 Y uonounjjeur juawdinb3 Jayjo 198448 ACW a2uaJ8J18 u arauDeuio1129 3 Splal4 9nauDeuio129 3 spiezey n ufbulon2 l4 Thermo Scientific DensityPRO NAI Installation Manual 10 D Risk Assessment s e119 eu a qewwe y asn Jou saop juawdinb3 YN s e119Jeu 3 JEWWE YIM 51
27. units with FOUNDATION fieldbus installed e DensityPRO DensityPRO with HART Protocol Interface Operation Guide p n 717816 for units using HART protocol 1 4 DensityPRO NAI Installation Manual Thermo Scientific Chapter 2 Handling Storage amp Shipping This chapter addresses procedures for handling electrostatic discharge ESD sensitive equipment as well as procedures for unpacking inspecting and storing of the system Caution This system is an ESD sensitive instrument Use proper ESD protective equipment and procedures Failure to comply with ESD procedures can result in circuit damage ESD The instrument contains electronic components that can be damaged from discharges of static electricity Ordinarily handling the circuit boards by their edges will not Procedures damage the circuits Caution Do not touch the circuit board components Observe the following when installing setting up servicing troubleshooting or repairing the instrument 1 Use an antistatic bag Most instrument subassemblies ship in a special antistatic bag When not installed keep the assembly in the bag as often as possible 2 Remove ESD sensitive subassemblies only under the following conditions a When standing at a designated static free workstation or when the bag is grounded at a field site b After the conductive area of the container has been neutralized c After making firm contact with an antistatic mat and or firmly gri
28. 0 mA inputs are provided on port J1B of the Main CPU board There is an additional 4 20 mA input provided through port J2B on the Power Supply board Customer Device 4 20 mA current loop Customer Device 4 20 mA current loop Figure 4 12 4 20 mA input wiring Power Supply PCA Two 4 20 mA inputs are provided on the remote transmitter unit on connectors and J1B of the Main CPU board with an additional 4 20 mA input provided on the remote detector For the wiring configuration of the transmitter inputs see Figure 4 11 Customer Device 4 20 mA current loop Figure 4 13 4 20 mA input wiring remote detector 4 10 DensityPRO NAI Installation Manual Thermo Scientific Relay Outputs Contact Closure Digital Inputs Thermo Scientific Wiring Standard Wiring There are two relays provided on the power supply board The relays are DPDT fully sealed 8 A at 250 VAC Note Ensure the area is non hazardous before making or breaking any connections Customer Device 1 Customer Device 2 Figure 4 14 Relay wiring For instructions on how to configure relays to open or close on fault warning or process measurement alarms refer to the DensityPRO NAI Measurement System User Guide p n 1 0702 016 The two digital contact closure inputs between ground and DI 1 and ground and DI 2 provide the user with the ability to configure the detector to execute a command or other function upon a user provided cont
29. 11 Installation System PCAs PCA Power Supply Digital In x 2 Site DC Input 4 20 mA In 24 VDC ISO Out Tach In PCA LCD H Relay Out x 2 RTDIn Detector RS485 Site AC Input PCA Remote Backplane PCA ISIO FFB PA 4 20 mA Out HART 4 20 mA Out 24 VDC Out x 2 USB Mini B RS485 RS232 Ethernet 4 20 mA Out 4 20 mA In x 2 PCA CPU Figure 3 5 DensityPRO NAH PCAs remote transmitter DensityPRO NAI 0 Remote Detector To access the remote detector electronics of the DensityPRO NALO follow the steps below Ensure all source shutters are in the OFF position Ensure all power to the gauge is turned off Remove the four bolts from the Model MS2011T housing access cover a For the explosion proof housing loosen the screw on the cover retaining bracket and slide the bracket off the housing cover 4 Change the detector electronics of the remote detector unit a Disconnect any cabling from the top of the bulkhead To remove the Power Supply PCA i Remove the retaining screws from the bulkhead ii Remove the power supply cable from the Power Supply PCA iii Remove the four retaining screws from the Power Supply PCA iv Pull the PCA down to remove it from the IBP PCA v Replace 3 12 DensityPRO NAI Installation Manual Thermo Scientific Installation System PCAs c To remove the IBP PCA i Remove retaining screws from the bulkhead ii Remove
30. C to 75 C Enclosure type 4X CE Ex 113 GD Ex nA nC ib IIC T4 Gc Tam 40 C to 75 C IECEx CSA 13 0018X IP66 Power 11 to 32 VDC 770 mA max 100 to 240 VAC 50 60 Hz 380 mA max MS20111 100 to 240 VAC 50 60 Hz 300 mA max MS2011R amp MS2011T t When ISIO PCA is installed Thermo Scientific DensityPRO NAI Installation Manual B 3 Specifications Environment Operating temperature 40 C to 75 C 40 F to 167 ambient Storage temperature e 40 C to 75 C 40 F to 167 F ambient Humidity 0 to 95 non condensing Vibration random EC 60068 2 64 1010 2 000 Hz 1 octave minute 1 g peak Vibration sinusoidal IEC 60068 2 6 1010 2 000 Hz 3 grams 30 minutes axis Shock resistance EC 60068 2 27 300 18 ms 3 shocks direction axis Earthquake Seismic IEEE 344 TFS Generic Profile at 10 g TVA CEB SS 5 10 at 15 g Composite temperature humidity cyclic 60068 2 38 4 DensityPRO NAI Installation Manual Thermo Scientific Table B 4 Inputs and outputs Specifications Inputs Three 4 20 mA inputs full scale 0 3 over operating temperature range fault high low detection Two 0 to 10 VDC voltage inputs full scale 0 3 over operating temperature range Two digital inputs DI provide contact input with internal 5 VDC wettin
31. DensityPRO NAI measurement systems to l provide reliable accurate process material density measurements for a wide variety of Overview challenging applications The density gauge which attaches to the outside of the process vessel or pipe never contacts the process material and can measure the density of almost any liquid slurry emulsion or solution Each gauge can convert the basic density measurement into a variety of output values as appropriate for specific applications e g bulk density or percent by weight solids Given a temperature input the gauge can compensate for process temperature swings reporting the density measurement corrected to a user specified reference temperature If a flow input is provided it can calculate material mass flow The system consists of up to three basic elements the source head which contains the radioisotope source the detector which converts the incident radiation to a useable electronic signal and the transmitter which translates the detector s signal in to a density value The radioisotope source emits gamma radiation which passes through the vessel wall and the process material before arriving at the detector The detector then measures the level of arriving radiation to determine the density of the process material The amount of radiation that reaches the gauge varies inversely with the density of the process material Note The gamma radiation used the gauge cannot make the vesse
32. I Installation Manual Thermo Scientific Risk Assessment sjuabe Bunsa 10 Bunaayuisip Bulueajo Aue jo 9JInbaJ you saop 1uauudinb3 asn VN sjuabe Bursa 10 bunoajuisip Buiue 9 awny Aue ajesguab auny ou saop juawdinb3 YN sp nb l 10 seb ajqewwe spinbi asn jou s op juawdinb3 YN Jo seb a gewwe seb snounfui 10 snouosiod seb asn ou s op juawdinb3 VN snoun lui Jo snouosiog spiny abeyea asn ou s op juawdinb3 YN pue aJnssaJd pin 4 spiezey a2uejsqns sued oneuineud syed Aue asn jou s op juawdinb3 YN oneunaud wo asioy sued Bunejos Aue sued UI amp 3U02 104 saop juawdinb3 YN Bunejo peouejequ sued buinow Aue sued uno urejuo9 jou saop juawdinb3 YN na paje al 5592014 seb Aue asn jou s op juawdinb3 YN yea seb a waysAs 1sneuxo Aue ues ysneuxg BABY jou saop juawdinb3 VN SpJezeH SION J0jeaipul juabianip sose sulequoa Ajuo juawdinb3 YN jou saop juawdinb3 uoljeIpes VN A H U APAA0131 aanpoJd jou saop juawdinb3 Abiaua punosejut YN punoseJju aanpold jou saop juawdinb3 3iuosen VN 3iuosenin jou s op juawdinb3 uone pe Burziuoi uou VN uoneipeg Buiziuo UON uoneipey Burziuo uoneipey Thermo Scientific D
33. In x 2 Site DC Input 4 20 mA In 24 VDC ISO Out Tach In Relay Out x 2 Detector RS485 RTD In Site AC Input PCA Power Supply Assy NAI PMT Figure 3 3 DensityPRO NAI PCAs DensityPRO NAI Installation Manual Thermo Scientific Installation System PCAs DensityPRO NAI Remote Detector To access the remote detector electronics follow the steps below 1 Ensure all source shutters are in the OFF position 2 Ensure all power to the gauge is turned off Remove the Model MS2011R housing access cover a For the explosion proof housing loosen the screw on the cover retaining bracket and slide the bracket off the housing cover 4 Change the detector electronics of the remote detector unit a To remove the Power Supply PCA i Remove retaining screws from the bulkhead ii Remove the power supply cable from the Power Supply PCA iii Remove the four retaining screws from the Power Supply PCA iv Pull the PCA down to remove it from the IBP PCA v Replace b To remove the IBP PCA i Remove the retaining screws from the bulkhead ii Remove the four retaining screws from the IBP iii Gently remove the IBP PCA iv To remove the Preamp continue to the next step To reassemble and close the unit skip to step 5 c To remove the Preamp PCA i Remove the eight screws four from each side on the PMT side of the card cage ii Remove the two screws from the collimator iii Lift the card cage up to remove the
34. S2011R MS2011T MS2011I Connector Detector Transmitter DensityPRO NAI O von 7 7 Conneetor Pin 1 PS PCA J2A Pin 3 PS PCA J2A Pin 3 DC Power GND GND GND Negative Connector Pin 2 PS PCA J2A Pin 4 PS PCA J2A Pin 4 DensityPRO NAI Installation Manual 4 3 Wiring Serial Communications AC Power Serial Communications If the optional AC power board is installed the gauge may be operated using voltages from 100 to 240 VAC Table 4 2 Site AC power wiring Signal Connector MS2011R MS2011T 520111 g Detector Transmitter DensityPRO NAI AC Power Line L Pin 3 PS PCA J8 Pin 1 IPS PCA J8 Pin 1 AC Power Earth Ground E Pin 2 Farin 7 J8 Pin 2 48 Pin 2 AC Power Neutral N Pin 1 UN A PS PCA J8 Pin 3 PS PCA J8 Pin 3 If both AC and DC input power are supplied to the detector the detector will draw power from whichever source provides the higher DC voltage Caution For reliable operation and to maintain safety approval only replace the F2 fuse on the AC power board with an approved fuse Reference the installation wiring drawing p n 1 0700 038 The AC power board contains color coded wires Determine the function of the wire by consulting the color coding listed below Table 4 3 Site AC power wire color coding Signal Standard USA International Hot Black Brown Neutral White Blue Ground Green Green with Yellow Stripe The gauge pr
35. To remove the IBP PCA i Remove the ISIO Main CPU and Power Supply PCAs by detaching any cabling and gently pulling the PCAs from their connection ports ii Detach any cabling and remove the four retaining screws holding the IBP PCA to the card cage ili Remove the IBP PCA by sliding it out parallel to the NAI Preamp PCA iv Slide the new IBP PCA board in insert the retaining screws and reconnect any cabling from the old board to the new PCA v Reinsert the ISIO Main CPU and Power Supply PCAs into their connection ports and reattach any cabling c To remove the NAI_Preamp PCA i Remove the bolts in the card cage located to the left and right of the photomultiplier tube d Gently pull the photomultiplier tube straight out to disconnect the pins attached to the NAI_Preamp PCA i Detach any cabling from the PCA ii Remove and replace the NAI_Preamp PCA iii Reattach any cabling and the photomultiplier tube to the PCA iv Insert the two screws bolts Reinstall the two screws previously removed from the card cage to secure it into the housing Reconnect the plug in screw terminals to the board connectors and replace the housing access cover Apply power to the unit DensityPRO NAI Installation Manual 3 7 Installation System PCAs 3 8 FFB PA 4 20 mA Out HART 4 20mA Out 24 VDC Out x 2 cada USB Mini B PCA IBP ri AENA RS485 RS232 r7 Ethernet 4 20 mA Out 4 20 mA In x 2 Digital
36. YN aaunos euJajul SMO JJ9A0 abe Idg au 1105 Aew juauodwoo juawdinba abewep pue juawdinba y ouo 8SS A UJ04J 10 Dp id uonaunyeu ebewep juawdinbz asnos euJajxal SMO JJ9A0 abejyids D 5 DensityPRO NAI Installation Manual Thermo Scientific Risk Assessment 1uawdinba y Aq papino1d aq IM uonej3ad ajut ON s nsay 0 0 Misuap ejep jo juawainseaw jo uongjuasaidaisi yy 1811p ay Ajuo SI 8160 YN guuosiad 0 xsu e asod jou s op 11 Ing juaWeinseaw uonauny Jo 0 0 3A1J99448UI 0 Spea uoun uonmeuon l p JO 5507 JO UONEJ0119 9p JO 5501 VN S AOIN asp Buu 0 7 ulu subisap Q uawdinby abeyonano 1U9ISUPJ SALIOSSAJIY Ssa110ssa338 10 saJqeunsuos Aue 0 0 auinbal jou s op juawdinb3 YN dl daa yum ejqneduioau juana 1 0 0 0 JO SINO NI 0 1 Aue 10 s n0 n3 euuJay UreJuO9 104 s op juawdinb3 YN S1041002 ASN 10 U01 INISU 1e9 3 1014009 Aedsip 108 ORA SL RIA pausi qe1sa jou sem uoneJedo abneb jueuieJnseaui JON Aejdsig Ionuo9 sepinoid jenuew 195n Q VN IVN IVN 15090 Jadoud Ji uaye aq you Aew 1uaujaJnsea q U31IAS asn jou saop 1uauudinb3 0 0 sjonuoo Bunejado ON VN uewd nb3 04u09 10113 asf uon un4 spJezeH uonesado NO 0J 30UUE2 Jasn PUE 2 JOU
37. act opening or closing A 3 3 V wetting voltage 0 1 mA max is provided for each discrete input Refer to the DensityPRO NAI Measurement System User Guide p n 1 0702 016 for details on assigning commands to the contact closure inputs MINO Figure 4 15 Discrete input wiring Customer Device DensityPRO NAI Installation Manual 4 11 Wiring Standard Wiring 4 12 DensityPRO NAI Installation Manual Temperature Compensation The DensityPRO NAI measurement system s temperature compensation circuitry utilizes a 3 or 4 wire 100 ohm Platinum RTD Each RTD wire has a maximum per wire resistance of 1 0 ohm Refer to the connections in the figures below RTDRTN Pt100 RTD RTDRTN Pt100 Figure 4 17 RTD 4 wire configuration Thermo Scientific Wiring Standard Wiring Wiring the Optional ISIO Boards Current Output There are two configurations available for the 4 20 mA current output on J3 port of the ISIO PCA e Intrinsically safe isolated loop povvered default e ntrinsically safe isolated self powered All configurations can drive a 750 ohm maximum load over the full current output range The current output is programmable between 3 8 and 20 5 mA The current output has a fault low condition of 3 6 mA or less and a fault high condition of 20 8 m or greater JB is a standard 4 20 mA output with no fieldbus options The entity parameters are as follows e Vmax 35 25V e m
38. admonitions are used throughout this manual to alert users to potential hazards or important information Failure to heed the warnings and cautions in this manual can lead to injury or equipment damage Warning The triangular icon displayed with a warning advises the user about the type of hazard covered by the warning See the table below for the types of warning symbols used in this manual Table 1 1 Types of Warnings Symbol Warning Type Description Notifies users of procedures practices conditions General etc which may result in injury or death if not carefully observed or followed Notifies users of procedures practices conditions Electrical Safety etc which involve electrical circuitry and may result in injury or death if not carefully observed or followed Notifies users of procedures practices conditions etc where ionizing radiation may be present and may result in health issues or death if not carefully observed or followed gt P P lonizing Radiation Caution Cautions notify users of operating procedures practices conditions etc which may result in equipment damage if not carefully observed or followed Note Notes emphasize important or essential information or a statement of company policy regarding an operating procedure practice condition etc xii DensityPRO NAI Installation Manual Thermo Scientific Chapter 1 Introduction Product Thermo Scientific designed the family of
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40. alled to allow the power source to be disconnected from the detector In addition protective bonding grounding must always be provided even if a DC power source is used The enclosure provides internal and external safety ground lugs reference drawing 1 Protective Earth 3 0700 038 for safety protective earth grounding The external safety ground lu Grounding 2 A E connects the unit to earth ground The internal safety ground lug connects the AC power input ground line As permanently connected equipment the DensityPRO NAI detector requires a Safety switch or circuit breaker as the means for disconnection Prepare the switch or circuit Disconnecting breaker according to the following requirements Means z Include a switch or circuit breaker in the building installation Requirements 2 Ensure the switch or circuit breaker is in close proximity to the DensityPRO NAI detector and within easy reach of the operator 3 Mark the switch or circuit breaker as the disconnecting device for the DensityPRO NAI detector The detectors are designed to operate on 11 to 32 VDC The input connector for the DC Power DC source voltage wiring is located on the power supply board Note T o meet the requirements of CSA 1010 1 the input DC terminals shall be supplied from a SELV Safety Extra Low Voltage source Connections are shown in the table below Table 4 1 DC power wiring Thermo Scientific Signal M
41. amod saJinbaJ jenuew uol e su DLOZ 1 01019 931 01 pagsa pue paubisap sem juawdinb3 JPUIWA 1019npU03 A1199101d 01 p puoq SI pue sBuiuado Aue angy zou s op ainsojaua 9118181 anso o u l pasojdua u doud ae sued Ily 9005 o a qissa22e ase syed snopiezeu ON sued ani Buiyono Aq yoous e21129 8 196 Aew uuosiaq POUS 199149844 uonounjjeui 3uaudinb3 s82i ep 19010 199118 ACW 32ua 8 18 U1 arjauDeuio1129 3 Sueg BN snopiezey 01 Aj IqIssaJIY SpHEZEH 891199913 spjey anaube uonounjjeur juawdinb3 Jayjo 198448 ACW a2ua8 18 u1 ojauDeuio1129 3 Splaly 9nauBeuio129 3 spiezey 2naufieuio29 3 Thermo Scientific DensityPRO NAI Installation Manual 2 D Risk Assessment s euajew ejqeuiuie j asn 30u seop juawdinb3 YN sjenazew ejqeuuuey UMA asn syuawuoaua u3u yum uon unluo ul sn 104 ajqeyins Jo paubisap jou si juawdinb3 YN S U8UlUOJIAUB uou uaBAxo ul asp pagzeH uorsojdx3 3114 pjezeu 0150 0 JUaWaLINbaL JeuononJjsuo piezeH uorso dx3 a114 uonounj woad 0 asejins pajeay Aue 1ou seop juawdinb3 VN spiezey 9114 suoseal jeuorpun 10 e2eping payeay Quaque mojaq aunyeradiwa 0 alnjeJadua joalqns uoiuMw syed ejejodjo2ut ade ng MO jou s op juawdinb3 YN jauuossad 0 9 0195909 jou ale
42. aop juawdinb3 VN SYJBYY asf ld 10 uoneaijIsadg ayenbapeu Thermo Scientific DensityPRO NAI Installation Manual 14 D Risk Assessment Apedoud paburya jou alam syed ajqeaoe das ay Ji uorunjjeui Aew juawdinb3 uoljounjjew juawdinb3 juawaoe dad euajew Jadosdw Au dold paar Jas zou sem juawdinba ay JI pabewep 186 Aew juawdinb3 abewep juawdinb3 sjueunsn py pasodsip 193 u03u SI juawdinba Ji asue Im p1ezeH pagzeH glu uluoJIAu3 jesodsiq juawdinb3 Auedold pajpuey jou sem enazew edojosiorpeJ bululejuoa juawdinba y ji esue Aew 2 pa pueu jou ajam syed aAnisuas 093 eui J pabewep 396 Aew juawdinbz s u unsnipy B uoneoo papuaju ue u pa ejsul jou sem juawdinba Ji asue Aew puezey abewep juawdinb3 Anlul jauuossag uoljounyjew juawdinb3 BuijpueH Jadoidw urua 32ULUAJUIE A Burpueg o Bunej spaezey 1011890 UONE B SuI ayenbapeu Bunel sy Duipaaoxe SuO IPUOD 0 anp aunjiey jeuayew zuauodwog aun lg uono unj eui u uidinb3 suonipuoa paquasajd apisino uoneladg ullo02 jo uonouisey pasn sem Jamod ndu 1291102U1 e Jamo 11 papuajul se um Jou Aew juawdinb3 nouns m3 jddns ajenbapeu uoljounyjew juawdinb3 Splel4 SadiAap 19470 129jje Aew 82u818J19jut 339uBeuu01129
43. ax 200mA e Ci Onf e Li 0 e Pmax 0 81 W The default current output configuration is isolated loop powered The figures below demonstrate the wiring configurations possible using the J3 ports on the ISIO PCA User current monitoring device 4 20 Out B 4 20 RTN B Usage voltage source 24 VDC nominal Figure 4 18 Optional 4 20 mA output isolated loop powered Thermo Scientific DensityPRO NAI Installation Manual 4 13 Wiring Wiring the Optional ISIO Boards User current monitoring device ISIO PCAs J4 24 V Out 1 4 20 Out B 4 20 RTN B Figure 4 19 Optional 4 20 mA output isolated self powered J4 is an isolated 24 volt output with a zener barrier output The results of calculating the values were very similar to the MTL 787 barrier The MTL document Cable Parameters and Permitted Combinations was used to determine the C and L values below e Vo 28 35 lo 106 gt fuse rated for 63 mA e Ohm 270 Co 79nf e lo 2mH L Rratio uH ohms 56 e Po 1 02 W 4 14 DensityPRO NAI Installation Manual Thermo Scientific Thermo Scientific Wiring Wiring the Optional ISIO Boards The figures below demonstrate two of the wiring configurations possible using the J11 ports on the ISIO PCA Jll isa 4 20 mA output port that may also be used to support the HART Communication protocol For information on configuring wiring to support a HART Communication protocol see
44. cted cabling Close and latch the two fasteners Apply power to the unit Thermo Scientific Preparation Thermo Scientific gt gt gt BB Chapter 4 Wiring Perform wiring in the following order 1 Connect the power supply to the gauge 2 Connect the remote computer terminal to the gauge via the serial communication ports 3 Optional wiring may include a HART communications b FOUNDATION fieldbus communications 4 20 mA current output o Relay outputs e Contact closure input f Remote display g Sensor input 4 20 mA and 0 10 VDC Review the following carefully prior to connecting any wiring Warning Remove all power from the unit before making any connections Electrocution can result if power is present Warning Qualified individuals must perform all wiring in accordance with applicable codes such as the National Electric Code NEC ANSI NFPA 70 specifications or the Canadian Electrical Code Part 1 Only approved conduit boxes and fittings may be used Warning Do not apply power to the unit in any hazardous area unless the safety ground is properly wired inside the unit and the cover is properly installed Warning Connect the AC wiring earth ground to the internal safety ground terminal as shown in the wiring diagram Warning For hazardous location installations the cable entries must be sealed For non hazardous location installations the cable entries into the enclosures must be
45. drawing remote system detector with 4 0700 145 C 11 explosion proof housing and water cooled jacket 4 0700 146 _ Installation drawing remote system detector with NEMA C42 4X housing and quick connects 4 0700 147 _ Installation drawing remote system detector with NEMA 0 13 4X housing 4 0700 148 _ Installation drawing integrated system with explosion 0 14 proof housing 4 0700 149 _ Installation drawing integrated system with explosion 0 15 proof housing and water cooled jacket i Installation drawing remote system transmitter with pa x NEMA 4X housing Un DensityPRO NAI Installation Manual C 1 This page intentionally left blank Drawings m g 3 da i 8 8 i E Pi di b ibi i HE IHH i i junii O HHE i m ki L 3233434448 35888 5 di m o 8 d Kr S SHE 58 wiz 3 19038 2t atik EI EEE BIEBER dl sav 8881 B PCA Figure C 1 1 0700 038 Installation wiring diagram DensityPRO NAI integrated system Model MS20111 Sheet 1 of 3 Thermo Scientific DensityPRO NAI Installation Manual C 3 Drawings xeu vui 007 JAA STF TO J aseg OT ZN ASN aya Bunp uuoosip JO furpeuuco 21039q snopaezeq uou I aq aan u3 TN GRYSY aum 2 jueuidinb3 LO 29 UNOS AWANO sgv Su an p juewd nb3 uoge junumnuo 262 54 juewdnb3 uogeziunuuo5 SLO SLY pimjue
46. e housing cover has been replaced and the grounds are properly connected before reapplying power Warning Close the shutter on the source housing before servicing the detector 1 Remove the housing to access the detector transmitter electronics of the integrated unit a Ensure all source shutters are in the OFF position b Ensure all power to the gauge is turned off c Remove the Model MS2011I housing access cover i For the explosion proof housing loosen the screw on the cover retaining bracket and slide the bracket off the housing cover ii Remove the two screws securing the card cage into to the housing Note To access or change only the ISIO Main CPU or Power Supply PCAs skip step 1d and proceed with step 2 d Disconnect the plug in screw terminals from the board connector If the connector is tight brace the board with your hand taking care not to touch the circuit or components and pull firmly but carefully Lay the cables and connectors back over the edge of the housing so they will not be in the way when lifting the unit out of the housing 2 Change the detector transmitter electronics of the integrated unit a To remove the ISIO Main CPU or Power Supply PCA i Detach any cabling and gently pull the PCA from its connection port ii Insert the new PCA into the connection port iii Reattach any cabling DensityPRO NAI Installation Manual Thermo Scientific Thermo Scientific Installation System PCAs b
47. ed into a pipe spool mount Caution Use correct pipe fitting techniques suitable for the pipe being used and the process material that the pipe will handle Assemble the pipe spool into the existing pipe Position the source housing with its identification tag upright If the detector and source housings are not already installed bolt them to the mounting plates on either side of the pipe saddle Tighten all bolts securely DensityPRO NAI Installation Manual 3 5 Installation System PCAs 3 6 Z Pipe Axial Mount E System PCAs A A LA DensityPRO NAI A Z pipe mount used for pipes four inches in diameter or less uses a Z shaped pipe section which allows gamma rays to travel along the pipe s axis for several inches This lets the beam pass through more process material providing a more reliable measurement of the material s density Note Users must fabricate or provide any desired Z pipe mounts Though Thermo Scientific does not provide this type of mount a small sampling of Z pipe fabrication and mounting installation drawings are available in Appendix C This section provides general instructions on installing replacing the PCAs in the DensityPRO NAI measurement systems Warning Remove all power from the unit before servicing Electrocution can result if power is present Warning In hazardous locations ensure that power is removed from the detector before removing the housing cover Be sure that th
48. een the DensityPRO NAI gauge and other devices on a FOUNDATION fieldbus network Emerson Electric Co field Configures and calibrates any DensityPRO NAI gauge by communicator Models 275 and communicating with the gauge via the current loop Newer BEL202FSK standard Comm PC interface software EZ Cal Il B 6 DensityPRO NAI Installation Manual Thermo Scientific Thermo Scientific Appendix C Drawings Note Information presented in this chapter has been regenerated from original drawings Every effort is made to maintain document accuracy However in order to enhance legibility the documents may have been restructured and some information may have been intentionally excluded Therefore the drawings within this guide may not be an exact duplicate of the original drawings Note Drawings in this manual are included for reference only and may not be the current version Contact the factory if you need a copy of the latest revision Table C 1 Installation wiring diagrams Drawing Rev Description Page _ Installation wiring diagram DensityPR0 NAI integrated i P system Model MS201 11 ya I Installation wiring diagram DensityPRO NAI remote i system Models MS2011R amp MS2011T ve Table C 2 Installation drawings Drawing Rev Description Page 4 0700 144 _ Installation drawing remote system detector with C 10 explosion proof housing P Installation
49. ensityPRO NAI Installation Manual 12 D Risk Assessment 21A p y jo uoneJado 3 9 dwod ay BULIBADI 104 s911s118 0eJeyo JI esue ABW plezeH asnsiw juswdinb3 s3nsuaj3eleuo aouewwoped uondii3s p ayenbapeu ay o uone1ado aja dwoo ay Jou asn suononujsul ji esue ABW plezey Anlul jauuosiag asnsiw juawdinb3 suononJjsul ajenbapeu Buissiw ae subis Bulyjew ji esue Aew puezey Aun ul jauuossad subis Bunuew ayenbapeu nED y Jo 121 10 uone e su Buunp uoneipes ay 5420 0 jexnus eui yo pawing aq 0 uieaq ay SMO e Jayinys anos ay Buiso 9 syw Paquasaid utu am pue mo Alan S peau asnos ay Buideasa ABiaua ay Yed 3y jo apisino ey sajeorpur 1asn 0 IVN IVN IVN OudAisueq uone u uun3op juenajal ayy ur 3nouBnoJu osje ae subis Burue Majes UONeIpeJ WWE uo uoneulojur Jayung sepinod 706 Nd Majes uoneipeg ewweg senuoune ajejs Jo pue eJapaj Aq SI 11 pue jenazew adojosioIpeJ surejuos peau 82nos ay 161 sajejs Ajeajo enueu uornasu lqepe jou ase pue pabewep Ajpeq uaaq aney sjeqe suBis BUIUJEM Ji esue Aew puezey uyeay jauuosiad edw M e11a eu 106 1 Bululejuoo juawdinba Bulpueysiy Aun ul jauuossad yeay jauuosJag subis Bunueui jo A
50. entation The EZ Cal II software includes a configuration wizard significantly simplifying the gauge configuration process Alternately the EZ Cal II program also provides direct access to a wide range of configuration and troubleshooting tools The DensityPRO NAI gauges can provide a local readout of density parameters either by adding an optional local display to the DensityPRO NAI or through the LCD display built into the transmitter of the DensityPRO NAI For those applications where it may be advantageous to display the density parameters in different units both types of display can accommodate up to four values Four independent totalizers may be configured to count elapsed time or cumulative mass volume when a flow input signal is provided and a mass volume flow measurement has been defined Totalizers can be assigned to drive relays and relays can be set to open or close at specified slow or stop counts for batch or sample control Any process measurement can be assigned to the 4 20 mA current output or the measurement values can be read using a ModBus master host The two contact closure inputs can be used to activate many system commands based on a user provided switch input Along with this guide all persons installing using or maintaining this equipment must read and understand the following documents e Gamma Radiation Safety Guide p n 717904 e DensityPRO FOUNDATION Fieldbus Application Guide p n 717917 for
51. entific directly Process Instruments 1410 Gillingham Lane Sugar Land TX 77478 USA 1 800 437 7979 1 713 272 0404 direct 1 713 XXX 4573 fax 4 14 Gormley Industrial Avenue Gormley Ontario LOH 1G0 CANADA 1 905 888 8808 1 905 888 8828 fax Units 702 715 7th Floor Tower West Yonghe Plaza Andingmen East Street 100007 Beijing P R CHINA 86 10 8419 3588 86 10 8419 3580 fax A 101 ICC Trade Tower Senapati Bapat Road Pune 411016 INDIA 91 20 6626 7000 91 20 6626 7001 fax lon Path Road Three Winsford Cheshire CW7 3GA United Kingdom 44 0 1606 548700 44 0 1606 548711 fax www thermoscientific com DensityPRO NAI Installation Manual 5 1 Support Warranty Warranty Thermo Scientific products are warranted as free from defects in material and workmanship at the time of shipment and for one year thereafter Any claimed defects of Thermo Scientific products must be reported within the warranty period Thermo Scientific shall have the right to inspect such products at Buyer s plant or to require Buyer to return such products to the Thermo Scientific plant In the event Thermo Scientific requests the return of its products Buyer shall ship with transportation charges paid by the Buyer to the Thermo Scientific plant Shipment of repaired or replacement goods from the Thermo Scientific plant shall be F O B Thermo Scientific plant The customer will receive a quotat
52. er Guide p n 1 0702 016 for additional details about configuring and using serial communications DensityPRO NAI Installation Manual 4 5 Wiring Serial Communications RS485 Wiring 4 6 DensityPRO NAI Installation Manual Connecting a PC serial port COM to the RS485 port on the gauge requires an RS485 RS232 converter p n 670045 Refer to the DensityPRO NAI System installation wiring drawing p n 1 0700 038 Make the RS485 connections as follows When making the RS485 connection 1 Connect RS485 connector J2B to the corresponding connections on the RS485 RS232 converter 2 Connect the RS485 RS232 converter to the PC using a standard DB9 serial cable Do not exceed 15 VDC on any of the communication lines The RS232 bus can drive up to 50 feet of cable The RS485 bus can drive up to 4 000 feet of cable Note This port is configurable as RS485 or RS232 When setting up an RS232 configuration refer to Figure 4 3 When setting up an RS485 configuration refer to Figure 4 4 or 4 5 as appropriate CTS RX B RTS input RTS TX Y r CTS output TX TX Z RX output GND GND Figure 4 3 Customer communication equipment RS232 CTS RX B RX RX A RTS TX Y TX TX Z Figure 4 4 Customer communication equipment 4 wire RS485 Thermo Scientific RS485 Detector to Transmitter Wiring Initial Setup for Party Line Communications Standard Thermo Scientific Wir
53. g voltage Temperature compensation circuitry with 100 ohm Platinum RTD 3 or 4 wire full scale 0 4 C over operating temperature Current outputs 4 20 mA output full scale 0 3 over operating temperature range e Isolated loop powered default Isolated self powered output Optional Intrinsically Safe Input Output 4 20 mA output full scale 0 3 over operating temperature range temperature range e Isolated loop powered default Isolated self powered output Contact closure relay outputs Two relays DPDT fully sealed 8 A at 250 VAC Serial outputs Table B 5 Mounting hardware HS485 half duplex RS232 full duplex Fieldbus A DensityPRO NAI gauge is available from the Fieldbus Foundation website The DD is a DD4 or DD5 interpreted by a host implementing DD Services 4 x or 5X ma B U S AS Pending Y wv COMMUNICATION PROTOCOL Gamma ray source Integral bolt on bracket compatible with chain or saddle mount Integrated detector transmitter Thermo Scientific Pipe saddle mount 2 to 42 in 50 8 to 1 066 8 mm Pipe saddle with tabs for mounting on insulated pipes Axial mount hardware for Z pipe installations 1 to 4 in 25 4 to 101 6 mm DensityPRO NAI Installation Manual B 5 Specifications Table B 6 Programming options Fieldbus host such as National Instruments NI FBUS Configurator Provides the interface betw
54. he source housing shutter for the first time In Canada only those who possess a CNSC license with a condition authorizing the mounting dismounting of devices may remove the instrument from the shipping container For assistance obtaining a license or commissioning decommissioning the instrument contact Thermo Scientific Guidelines VVarning Do not install the system in any hazardous area other than those approved Refer to the equipment tag for the specific approvals applicable to the configuration of your instrument VVarning Do not apply povver to the instrument in any hazardous area unless the safety ground is properly wired inside the instrument and the cover is properly installed General Review the following guidelines when planning gauge installation 1 Correct power source for the detector a 11 32 VDC 770 mA max at detector input b 100 to 240 VAC 50 60 Hz 300 mA max with AC power option 2 Operating temperature range 40 C to 75 C 40 F to 167 F Ensure enough clearance exists to install and service the detector Refer to the appropriate drawings for your type of gauge and mount Appendix C 4 Position the detector so that the radioactive source identification tag is visible The source housing tag should be upright Note Do not paint or overcoat the source housing without first masking its identification tag and other labeling All labels on the source housing must remain visible 5 Do not mount the
55. ientific Transmitter Thermo Scientific 1 Installation System PCAs Open the transmitter casing to access the electronics of the remote transmitter a Ensure all power to the transmitter is turned off Unfasten the two latches on the remote transmitter case and open the unit To remove the LCD PCA i Detach any cabling and remove the four retaining screws holding the LCD PCA to the face of the transmitter ii Gently pull the LCD PCA to remove it from the housing iii Insert the new LCD PCA board insert the retaining screws and reconnect any cabling from the old board to the new PCA To remove the ISIO Main CPU or Power Supply PCA a b C Detach any cabling and gently pull the PCA from its connection port Insert the new PCA into the connection port Reattach any cabling To remove the remote backplane a e Remove the ISIO Main CPU and Power Supply PCAs Remove the four screws one in each corner securing the card cage into the housing Carefully remove the card cage from the housing remove the Remote Backplane PCA from the bottom and replace with the new board Place the card cage back into the transmitter housing and secure the card cage in place by inserting the four previously removed screws Reinstall che ISIO Main CPU and Power Supply PCAs Reattach any disconnected cabling Close and latch the two fasteners Apply power to the unit DensityPRO NAI Installation Manual 3
56. ijuoo bunipa Buibueya JO si plomssed VN Buueduie aemjos 0 Au iqeau nA Jeuuosjed 0 xsi1 e asod jou s op 1 Ing 90401 pue juawainseaw ul Aejap 0 pea m BuruureJBoJd SJEMIJOS d1V 19497 Wa sAg O IVN IVN IVN QqdAnsuag 10 0020 pue Binpadolg 1891 BJUB dadIY SJEMYOS O IVN IVN IVN O8d tisuag Gt000 0 L MA S9UEp1099e ul Bunsa e uejdaooy wajsAs Jo Jed se pajepilea uaaq sey BIINAP ui pasn aJemyos YN 10413 Bunwweiboly SIEMYOS Thermo Scientific DensityPRO NAI Installation Manual D Risk Assessment jueuiuoJIAua SUOnIpuo2 0 p l ds ay Japun palos 100 sem y abeuep juawdinb3 jexuauluoJIAua juawidinba ji pabeulep Aew juawdinb3 aberojs ayeudouddeu 10H X ayy uo pajulud s on nisul Buren ybiam abejo s pue uoneuodsuen N A r UOISU WIP sejes BABY IM 81819 Uapoom 10 jou sem buibeyoed ainjigy aBewep jueuidinb3 BuiBexoeg eyenbapeu ad Aj pue u1Bu ay uo peseq 34219 uapoom Jadoud ji pabewep 396 Aew jue uudinb3 azis sado1d e Buisn paddiys aq ill juswdinb3 ofe1ojs wodsuesy Ajquiasse sjuguoduio9 jo G uonounjpeui juawdinb3 ojnuo9 jo 3enuooqns abuey sa3014 shuauodulos ejqerja1 Ajsnoreud yo 18 uonounjjew juawdinb3 jonuog 1u lolinsui ssa2o1g fuunjoenueyy
57. ing USB Ethernet Wiring Standard Wiring RTS TX Y TX TX Z GND Figure 4 5 Customer communication equipment 2 wire RS485 Connect the detector s RS485 communication cable between the remote detector unit MS2011R and the transmitter unit MS2011T as shown in the table below Table 4 4 RS485 detector to transmitter wiring Signal Connector MS2011R Detector MS2011T Transmitter 485A 485A Connector Pin 7 485A PS PCA J3A Pin 1 485B 485B Connector Pin 8 4858 PS PCA J3A Pin 2 GND GND Connector Pin 9 GND PS PCA J3A Pin 3 To communicate with multiple gauges via RS485 party line each unit must be assigned a unique unit identification number so it can be addressed individually By default all gauges are assigned unit number one 1 To assign a unique unit number to each gauge you must be able to communicate with each one individually Disconnect each gauge from the party line in turn and communicate with the disconnected gauge directly Alternatively remove power from all gauges except one and assign a unit number to the powered gauge Repeat this procedure for the remaining gauges If trouble arises when using another device on the RS485 chain verify that the device is properly terminated for its position on the chain To terminate a device connect a 120 ohm resistor between its RS485 data terminals Never terminate more than the first and last device in the chain The Main CPU PCA i
58. inq ul p pnioul aq im Jayeaig 413119 uawdinba pej3euuoo Apuaugwiad 51 juawdinb3 juawdinb3 8Jnjiej juawdinb3 asnos Ajddng UJ0JJ 328uu03SI q Au dold Jo pajpuey jou sem juawdinba ji este Aew pipzeH juawdinba yons Bururezuos juawdinba Buippueu uo euo 1ippe 104 wa au euajew adojosioipey 98S euuosiad paure Aq Ajuo pasn aq pinoys juawdinba jeu s le s 1uauun3op Jasn Q IVN IVN IVN OBgAisueg VN jauuosiag pau enun pasun Aq esp D 7 DensityPRO NAI Installation Manual Thermo Scientific Risk Assessment u0 8 81Su uore2o SNOPIEZeH 10 pajeas aq 3snu s hn lqe suononjsur jeuonippe pue panosdde soy uey 18u10 Bale snopJezey Aue ui p fle3sul aq 10u 25 11 u01 e90 uone jejsur uo sBulwem saptaoid pinb u0NJE e SUI Q IYN HYN IYN QHdAusuaq Anlul uuosi q uonounjjeui zuawdinbg 1013890 UONE E SuI ajenbapeuj Jenueui Jasn pue 401082112905 yonpold vonouny eu juawdinb3 suonipuoa paquoseJd apisino uoneladg Pullo02 a1oads Aue ajinbai you saop juawdinb3 YN ull002 jo uonouiseg juawdinba siy 40 juawa1mbar Jamod Ajddns ayy Jamod ajejs Aj e21ji2ads apin6 uone jejsui pue jddns ajenbapeu apinb jesn 0 IVN IVN IVN 4 6 0 Spl H 81881 IIN3 HH Passed YN anaubewo 99 9 10138907 uonejjejsuj spiezeH eyuawuo nu sBumes suonenb
59. ion of proposed work before repair work begins Thermo Scientific shall be liable only to replace or repair at its option free of charge products that are found by Thermo Scientific to be defective in material or workmanship and which are reported to Thermo Scientific within the warranty period as provided above This right to replacement shall be Buyer s exclusive remedy against Thermo Scientific Thermo Scientific shall not be liable for labor charges or other losses or damages of any kind or description including but not limited to incidental special or consequential damages caused by defective products This warranty shall be void if recommendations provided by Thermo Scientific or its Sales Representatives are not followed concerning methods of operation usage and storage or exposure to harsh conditions Materials and or products furnished to Thermo Scientific by other suppliers shall carry no warranty with the exception of suppliers warranties as to materials and workmanship Thermo Scientific disclaims all warranties expressed or implied with respect to such products EXCEPT AS OTHERWISE AGREED TO IN WRITING BY Thermo Scientific THE WARRANTIES GIVEN ABOVE ARE IN LIEU OF ALL OTHER WARRANTIES EXPRESSED OR IMPLIED AND Thermo Scientific HEREBY DISCLAIMS ALL OTHER WARRANTIES INCLUDING THOSE OF MERCHANTABILITY AND FITNESS FOR PURPOSE 5 2 DensityPRO NAI Installation Manual Thermo Scientific Appendix A Ordering Information
60. k Assessment The following pages include the risk assessments for the DensityPRO NAI detector and transmitter Thermo Scientific DensityPRO NAI Installation Manual D 1 Risk Assessment k assessment Table D 1 DensityPRO NAI detector ris 0 sued syed buijjadxz SUIE U03 A1NSO JUA 19 VN jenuew ay uo Buiwem bungi pue Bui pue paddoup Ajjeyuapisae pue Ayadoid pay unfui jauuosieg ueuidinbe jo bunir Jenuew ur uoreuuojul 1UBI AA jou si queuudinbe il uny 186 Aew euuosJ8g 9 qe1s e 01 0 painaas 2 II YN nm nns 0 9 qe1s e 0 painsas Augers aq im juawdinb3 YN sued Duinow Aue 0 Ulp u02 104 saop juawdinb3 YN sued Burno puezey uonejje1sur Buunp sabpa 13 plore 0 sabpa pue siauo9 pue ujoouis aney juawdinba ayy jo sued ajgeyano Ajise3 SIBYWAUI S SSEU payues Aq pajesedas ale syed A snopsezey asus puezey e asneo jou jim BULIIM AI Snopuezey jo Buluasoo aInas AjjedIuEYJAW aie suonoeuuoo y sJauJo9 deus 10 yBnos Buiyono Aq in Aje3uapio2e b Aew siaBuly 5 auuosiag puezey 13 Aunfur jauuosiag Jeuuosjed 0 y20us 23117397 xoous 1231173917 pue s1auJo9 dueys saaejing uBnog spiezep eolueyoayy uon3euuo BuutM Aun38S 0102 L 01019 911 01 paisa pue paubisap sem juawdinby Jeuuosjed 0 y20us 821293 19048 1231173917 uang uono juawdinba Bunaauuoasip aJ049q JJo payajims aq 01 J
61. l Any person working with or on the equipment described in this manual is required to evaluate all functions and operations for potential safety hazards before commencing work Appropriate precautions must be taken as necessary to prevent potential damage to equipment or injury to personnel The information in this manual is designed to aid personnel in correctly and safely installing operating and or maintaining the system described however personnel are still responsible for considering all actions and procedures for potential hazards or conditions that may not have been anticipated in the written procedures If a procedure cannot be performed safely it must not be performed until appropriate actions can be taken to ensure the safety of the equipment and personnel The procedures in this manual are not designed to replace or supersede required or common sense safety practices All safety warnings listed in any documentation applicable to equipment and parts used in or with the system described in this manual must be read and understood prior to working on or with any part of the system Caution Using this equipment in a manner not specified by Thermo Scientific may impair the protective features provided by the product leading to equipment damage and or personnel injury DensityPRO NAI Installation Manual Xi Safety Information amp Guidelines Warnings Cautions amp Notes Warnings Cautions amp Notes m gt The following
62. l process or structure radioactive Sour Detector Transmitter Figure 1 1 DensityPRO NAI measurement system Thermo Scientific DensityPRO NAI Installation Manual 1 1 Introduction Product Overview 1 2 Configurations The Source The Thermo Scientific DensityPRO NAI density gauge consolidates the transmitter function and the detector to form an integrated system The DensityPRO NAI provides the user with a separate transmitter unit Finally the DensityPRO NAL O offers all the benefits of the DensityPRO NAI with the added advantage of quick disconnects for use in the oilfield Note For the purposes of this manual instructions referring only to the DensityPRO NAI should be considered applicable to the entire family of DensityPRO NAI measurement systems Any installation instructions that apply specifically to the DensityPRO NAI or DensityPRO NAI O will be specifically called out within the text A Cesium Cs 137 radioisotope source is used to provide the gamma radiation field for most applications A Cobalt Co 60 source is available for applications requiring a higher energy source typically those with very large or thick walled vessels The source capsule secures the radioisotope inside a glass matrix and then double encapsulates the glass in a pair of sealed stainless steel capsules ensuring extreme resistant to vibration and mechanical shock The source head a lead filled welded steel housing fur
63. lowing sections provide installation details for the various mounting configurations Refer to the dimensional drawings in Appendix C Instructions A Warning Use proper lifting procedures during installation to avoid injury T Caution Do not over tighten the bolts 3 4 DensityPRO NAI Installation Manual Thermo Scientific Pipe Saddle Cradle Mount Pipe Spool Mount Thermo Scientific A Installation Mounting A pipe saddle mount or cradle mount consists of two identical mounting plates that are bolted together on opposite sides of the process pipe Refer to Appendix C and follow the steps below to install a detector with a pipe saddle mount Figure 3 2 Pipe saddle mount 1 4 Assemble the tvvo halves of the saddle mount onto the process pipe using the supplied nuts bolts and vvashers Thread the nuts and bolts together but do not tighten them Adjust the saddle mount halves so the mounting plates are parallel and even with each other Then tighten the bolts evenly so the clamp ends are the same distance apart on both sides of the pipe Bolt the detector and source housings to the mounting plates on either side of the pipe saddle Tighten all bolts securely so the detector components cannot shift positions A pipe spool is normally a 30 inch length of pipe with either mounting plates or a complete detector already installed Often a length of the required pipe is sent to Thermo Scientific to be convert
64. ncludes a USB port which allows the user to connect to the system using a type A Male to Mini 5 pin Male USB cable Operators should ensure the area is non hazardous before connecting or disconnecting the USB cable Each DensityPRO NAI unit includes a 10 Base T minimum Ethernet port on the Main CPU PCA Operators should ensure the area is non hazardous before connection or disconnecting the Ethernet cable DensityPRO NAI Installation Manual 4 7 Wiring Standard Wiring Voltage Output DensityPRO NAI DensityPRO NAI When configuring the Main CPU PCA of the DensityPRO NAI or the remote transmitter of the DensityPRO NAI to power another device the operator should follow the wiring requirements below e 15 VDC nominal 100 mA max output EGND a 15V Out 15 V Out Figure 4 6 15 VDC output Main CPU PCA The remote detector unit of the DensityPRO NAT provides users with an isolated 24 VDC nominal 50 mA max output 24 ISO Pin 4 24 VDC output 24 ISO Pin 3 Figure 4 7 24 VDC isolated output MS2011R 4 8 DensityPRO NAI Installation Manual Thermo Scientific Current Output Thermo Scientific Wiring Standard Wiring There are three configurations available for the 4 20 mA current output e Isolated loop powered default e Isolated self powered Intrinsically safe isolated self powered output requiring an optional ISIO board see Wiring the Optional ISIO Boards All configurati
65. ngs gauge 3 3 3 14 guidelines 3 2 in hazardous areas 3 2 3 6 4 1 ISIO board optional 4 13 A 2 B 3 wiring 4 13 current output 4 13 4 15 FOUNDATION fieldbus communications 4 17 HART communications 4 15 4 16 removal and replacement of 3 6 3 11 3 14 L licensing 3 1 DensityPRO NAI Installation Manual INDEX 1 Index M Main CPU board 10 Base T minimum Ethernet port 4 7 analog input B 2 connectors for serial ports 4 4 current input 4 10 removal and replacement of 3 6 3 11 3 14 USB port 4 7 voltage input 4 10 B 2 B 5 voltage output configuration 4 8 mounting 3 3 configurations 3 3 gauge 3 3 3 13 pipe saddle cradle mount 3 5 pipe spool mount 3 5 z pipe axial mount 3 6 N National Electric Code NEC 4 1 NEC See National Electric Code O ordering information A 1 accessories A 3 P power supply 4 1 wiring 4 3 4 4 R receiving the instrument 2 2 relay output 4 1 B 2 wiring 4 11 RS232 serial port 4 4 4 5 RS485 serial port 4 4 4 6 4 7 S safety xi xii 2 2 3 1 3 2 3 3 3 6 4 1 4 2 serial communications 4 1 4 4 4 7 B 4 shipping the instrument 2 2 2 3 INDEX 2 DensityPRO NAI Installation Manual source 3 1 installation 3 3 3 14 guidelines 3 2 specifications B 1 B 5 storing the instrument 2 2 T temperature compensation circuitry 4 12 B 4 W wiring in hazardous areas 4 1 optional
66. nspect the packing material prior to discarding it to ensure the removal of all equipment and instructional paperwork Use the original packing material and container for storage if necessary If storing the instrument the storage environment should be protected free from extremes of temperatures and high humidity and fall within the environmental constraints listed in Appendix B Sh i ppin g In the event it becomes necessary to ship the DensityPRO NAI measurement system follow the instructions below Ensure there are no loose items in the DensityPRO NAI unit Place the DensityPRO NAI unit on a wooden pallet Bolt the unit to the pallet to ensure the unit is stable and secure for shipping Box up the pallet ensuring there are no loose items in the box HIS ost Pack all available space within the box with packing foam to protect the DensityPRO NAI system from damage during shipment Use the photographs in Figure 2 1 for guidance when packaging the DensityPRO NAI measurement system 2 2 DensityPRO NAI Installation Manual Thermo Scientific Handling Storage amp Shipping Shipping Figure 2 1 Packing the DensityPRO NAI for shipment Thermo Scientific DensityPRO NAI Installation Manual 2 3 This page intentionally left blank Chapter 3 Installation Read the Gamma Radiation Safety Guide p n 717904 prior to installing the equipment Note Copies of drawings referenced in this manual are provided in Appendix C
67. ons can drive a 750 ohm maximum load over the full current output range The current output is programmable between 3 8 and 20 5 mA The current output has a fault low condition of 3 6 mA or less and a fault high condition of 20 8 m or greater The default current output configuration is isolated loop powered User current monitoring device Usage voltage source 24 VDC nominal 4 20 OutA 4 20 RTNA Figure 4 8 4 20 mA isolated loop powered configuration User current monitoring device Power Supply PCAs J2B 4 20 OutA 24 SOt 4 20 RTNA 24 ISO Figure 4 9 4 20 mA isolated self powered configuration DensityPRO NAI Installation Manual 4 9 Wiring Standard Wiring Voltage Input Current Input DensityPRO NAI DensityPRO NAI The Main CPU PCA allows for a user provided 4 20 mA voltage input on connector J1A The maximum cable length from the gauge to each transmitter is 25 feet Refer to the DensityPRO NAI Measurement System User Guide p n 1 0702 016 for details on how to configure the gauge to use the voltage input signal Voltage Source 0 10 V Figure 4 10 Voltage input wiring The Main CPU board allows for a user provided 4 20 mA current input on connector J1B The maximum cable length from the gauge to each transmitter is 25 feet Refer to the DensityPRO NAI Measurement System User Guide p n 1 0702 016 for details on how to configure the gauge to use the flow input signal Two 4 2
68. oof housing and water cooled jacket Thermo Scientific DensityPRO NAI Installation Manual C 11 Drawings 8 8 b b APPROX APPROX 17 431 8 MIN CLEARANCE FOR SHUTTER HANDLE AND ACCESSORIES Figure C 5 4 0700 146 Installation drawing remote system detector with NEMA 4X housing and quick connects C 12 DensityPRO NAI Installation Manual Thermo Scientific Drawings OD PIPE SIZE SOURCE HOUSING DETECTOR 1 1 2 38 1 1 1 2 38 1 Figure C 6 4 0700 147 Installation drawing remote system detector with NEMA 4X housing Thermo Scientific DensityPRO NAI Installation Manual C 13 Drawings y 8 b 1 1 2 38 1 HANDLE AND ACCESSORIES APPROX 17 431 8 MIN CLEARANCE FOR SHUTTER Figure C 7 4 0700 148 Installation drawing integrated system with explosion proof housing C 14 DensityPRO NAI Installation Manual Thermo Scientific Drawings APPROX 11 1 2 292 1 MIN CLEARANCE 1 2 38 1 1 1 2 8 1 APPROX 17 431 8 MIN CLEARANCE FOR SHUTTER HANDLE AND ACCESSORIES Figure C 8 4 0700 149 Installation drawing integrated system with explosion proof housing and water cooled jacket Thermo Scientific DensityPRO NAI Installation Manual 15 Drawings sesz sz 1 622 0o i Figure C 9 4 0700 150 Installation drawing remote system transmitter with NEMA 4X housing Thermo Scientific DensityPRO NAI Installation Manual C 16 Appendix D Ris
69. ovides one RS232 single drop and one RS485 multi drop serial interface Screw terminal connectors for both ports are located on the Main CPU board Both ports are configurable and able to display measurements and both provide independent access to the measurement readings and software functions For information on configuring communications refer to the DensityPRO NAI Measurement System User Guide p n 1 0702 016 4 4 DensityPRO NAI Installation Manual Thermo Scientific RS232 Wiring Thermo Scientific Wiring Serial Communications The serial port on a PC COM1 or COM2 can connect directly to the gauge s RS232 port The RS232 port connector J2A is located on the Main CPU board Standard connections are shown in the figures below e Do not exceed 15 VDC on any of the communication lines The RS232 bus can drive up to 50 feet of cable L leida puer GND Figure 4 1 Customer communication equipment 2 wire RS232 TX input RX output CTS output CTS output GND GND Figure 4 2 Customer communication equipment RS232 with RTS CTS To communicate with the gauge from a PC the PC must be running the Thermo Scientific EZ Cal II software The default communication settings for the RS232 and RS485 ports of the gauge and for the Thermo Scientific EZ Cal II are e 8 data bits e No parity 1 stop bit 9600 baud rate Refer to the DensityPRO NAI Measurement System Us
70. pping a grounded individual 3 Personnel handling ESD sensitive devices should be neutralized to a static free workstation by means of a grounding wrist strap connected to the station or to a good grounding point at the field site 4 Do not allow clothing to make contact with ESD sensitive devices Avoid touching edge connectors and components Thermo Scientific DensityPRO NAI Installation Manual 2 1 Handling Storage amp Shipping Unpacking Inspection amp Storage 6 Avoid partially connecting ESD sensitive devices Floating leads can damage these devices especially the power supply connector 7 Ground all test equipment 8 Avoid static charges during troubleshooting U npacki ng All personnel involved in the packing shipping or receiving of hazardous material d must be trained in accordance with the United States Department of Transportation Inspection amp DOT and OSHA hazardous materials regulations or in accordance with the Canadian Nuclear Safety Commission CNSC regulations Storage 7 Note Inspection adjustment installation and maintenance of the instrument must be performed by experienced personnel only 1 Upon receipt inspect the instrument for damage that may have occurred while in transit If evidence of rough handling or damage exists file a damage claim with the transportation company immediately Notify Thermo Scientific and or your sales representative as soon as possible 2 Carefully i
71. r tube with the associated electronics V hen gamma radiation strikes the scintillation material small flashes of light are emitted As the density of the process material increases more gamma radiation is attenuated by the process material which allows fewer gamma rays to reach the detector and generates fewer light pulses The photomultiplier tube and associated detector electronics convert the light pulses into electrical pulses that are processed by electronics in the detector of the integrated unit or transmitter to determine the process material density and related measurement values Functional Description Measurement After the gauge calculates the process material density it can convert the measurement R into a number of formats For slurry a solid material in a carrier fluid the gauge can Calculation provide measurements based on the ratio of solids to carrier Similar measurements can be made for both emulsions a mixture of two different fluids and for solutions comprised of a solute material dissolved in a solvent fluid Communications There are various communications options available with the DensityPRO NAI measurement system amp Measurement Display Using a PC with the Thermo Scientific communication software allows serial data communication with the gauge via the RS485 or the RS232 serial ports The HART communication protocol is supported over the 4 20 mA current output Communication with the gauge
72. removed bolts 8 Apply power to the unit Thermo Scientific DensityPRO NAI Installation Manual 3 13 Installation System PCAs 3 14 Transmitter 1 DensityPRO NAI Installation Manual Open the transmitter casing to access the electronics of the remote transmitter a Ensure all power to the transmitter is turned off Unfasten the two latches on the remote transmitter case and open the unit To remove the LCD PCA i Detach any cabling and remove the four retaining screws holding the LCD PCA to the face of the transmitter ii Gently pull the LCD PCA to remove it from the housing iii Insert the new LCD PCA board insert the retaining screws and reconnect any cabling from the old board to the new PCA To remove the ISIO Main CPU or Power Supply PCA a b C Detach any cabling and gently pull the PCA from its connection port Insert the new PCA into the connection port Reattach any cabling To remove the remote backplane a e Remove the ISIO Main CPU and Power Supply PCAs Remove the four screws one in each corner securing the card cage into the housing Carefully remove the card cage from the housing remove the Remote Backplane PCA from the bottom and replace with the new board Place the card cage back into the transmitter housing and secure the card cage in place by inserting the four previously removed screws Reinstall che ISIO Main CPU and Power Supply PCAs Reattach any disconne
73. resists shock and moisture damage Detector stabilization Electronic control without heater stabilization for optimum performance over operating temperature range patent pending Detector enclosure construction Carbon steel or 316 stainless steel polyurethane painted Optional water cooled detector for high temperature applications Transmitter enclosure construction Stainless steel enclosure e Nema 4X and IP66 20 pushbutton keypad 8 line monochrome LCD B 2 DensityPRO NAI Installation Manual Thermo Scientific Specifications Approvals DensityPRO NAI MS20111 amp DensityPRO NAI Detector MS2011R XP XPW amp 4X Class 1 Div 1 Groups B C D T4 Class 1 Div 2 Groups A B C D T4 Class 1 Div 2 Groups E F G T4 Class Ill T4 Tamo 40 C to 75 C Enclosure type 4X CE Ex M2 GD Ex d ib IIB H2 Gb T4 Tac 125 C C Ex 112 GD Exd ib IIB H2 Gb T4 Tam 40 C to 75 C SIRA 13ATEX1187 IECEx CSA 13 0013 IP66 Approvals Class Div 2 Groups A B C D T4 DensityPRO NAl Transmitter GP Class Il Div 2 Groups E F G T4 MS2011T amp DensityPRO NAI O Class Ill T4 Tame 40 C to 75 C Transmitter MS2011T QC Us Enclosure type 4X CE Ex 113 GD Ex nA nC ib IIC T4 Gc Tan 40 C to 75 C IECEx CSA 13 0018X IP66 Approvals DensityPRO NAI O MS2011R GB Class Il Div 2 Groups E F G T4 MS2011T 0C Class Ill T4 Tan 40
74. ri hatten em 3 6 Thermo Scientific DensityPRO NAI Installation Manual vii System CA soii de 3 6 DensityPRO NAL aii did 3 6 Density PRO NAT Ho iiiter ir rer e 00 3 9 Remote Detector zie Evene e eer here tire ee nte 3 9 Transmite I 3 11 Density PRO NAFO asnasan aha ORG RI ETE saa 3 12 Remote Detector aispa sr HEP ND IF re E e 3 12 Transmitter ai maneo ean OO 3 14 Chapter 4 Wi A 4 1 Preparacion sonia 4 1 DensityPRO NAI Wiring Procedures eese nene 4 2 Power Supply Wiring cotes i t e ap eti e Gad 4 3 Protective Earth Grounding a nn S qatu u eene ener 4 3 Safety Disconnecting Means Requirements eene 4 3 DG Powel nap paqaspa oT enean itat diem 000 4 3 AG BOWEL Nagka 000 0000 a 44 Serial Communications nxa kain AAA 4 4 RS232 Wi AA PAA AA PAA AA 4 5 RS485 MA DAP iia ANAN AGA AA Kun 4 6 RS485 Detector to Transmitter Wiring _ 4 7 Initial Setup for Party Line Communications eee 4 7 Standard Wiring tania ra o 4 7 0035000000 00 0 AY 4 7 Erie di Gan 4 7 Voltage Output acess ANN AIN rai 4 8 Density PRO NAT 0020222200 0000000000 4 8 Density PRO NATE i aaa eto s s s oe o EU E KANING 4 8 Current Outp t i tete nempe tata ede i b Na 4 9 Voltage Input i ioa ide dered NI KANAN HAND NA NAAN ANGLE ANAL s s n 4 10 Current Input 2200002200 EERE EEE 4 10 DensityPRO NAT
75. ring e Use shielded twisted pair cabling with the proper conductor size e Ground at one point only e Ensure a properly specified power supply Power Supply HART Modem 4 20 Out C 4 20 RTNC Figure 4 22 Optional ISIO board J11 HART Communications 4 16 DensityPRO NAI Installation Manual Thermo Scientific FOUNDATION Fieldbus Communications Thermo Scientific Wiring Wiring the Optional ISIO Boards With FOUNDATION fieldbus the DensityPRO NAI gauge provides users with access to the control or program parameters via a host system The fieldbus connector accessible from the faceplate of the gauge only requires connection to the H1 bus for operation Twisted shielded pair cable must be used in accordance with the FOUNDATION fieldbus specification The FOUNDATION fieldbus option is utilized through the J12 port The entity parameters for port J12 are as follows e Vi 24V e li 250mA Ci Negligibly low e li 10uH e Temperature class T4 Shield FFB PA FFB PA Figure 4 23 Optional ISIO board J12 FOUNDAT ON fieldbus DensityPRO NAI Installation Manual 4 17 This page intentionally left blank Contact Information Thermo Scientific Chapter 5 Support Considered the front line of support local representatives are well equipped to answer questions and provide application assistance Should additional assistance be required please feel free to contact Thermo Sci
76. takes place through an Emerson Electric Co field communicator Model 275 or newer or any other compatible device containing the appropriate device descriptors DensityPRO NAI systems equipped with the HART communication option are supported on the Emerson Electric Co Asset Management System AMS With the FOUNDATION fieldbus communication option the DensityPRO NAI system provides users with access to control or program parameters via a host system The FOUNDATION fieldbus communication option is FISCO qualified Thermo Scientific DensityPRO NAI Installation Manual 1 3 Introduction Associated Documentation E EZ Cal Il Software Configuration Multiple Readouts Totalizers amp Batch Control Input amp Output Signals Associated Documentation DensityPRO NAI systems equipped with the Profibus PA communication option y quipp P provide users with access to control or program parameters via a host system Upon completion of gauge setup any present density measurement appears on the external display Note The HART FOUNDATION fieldbus and Profibus PA communication options are not available on the beta versions of the DensityPRO NAI systems The DensityPRO NAI comes with the Windows based EZ Cal II configuration software This program allows you to construct a gauge configuration file for a specific application and either upload it immediately to a connected gauge or store it on your Windows based PC for later implem
77. te system Models MS2011R amp MS2011T Sheet 3 Thermo Scientific DensityPRO NAI Installation Manual C 8 Drawings QUAY PE OC DQO INCL peppers i TE Y DOG ti VT TOTO 03 11737SW WOJ La DS unupa TE e EE xeu vui NG jeu uou SQA rt PON 116 CO TAN k k po 1 KITU doo yw OZ y owed Jeuouan E LA 20 20 SWP 07 DUI CLH BIZ K IUUD Z D W A JOA SOU ma RAMA X RLL LZ RDG A PWE 2 Z Nid GND 20 ASE ALL U Nid uA yuna OTXS WT Tome sey Treny v EW Vz SQA 9 TT Sindy Rod 2077 alitqpa andu 20 a n Div ST 990 TY ba put SION y unu 0NG oz NS Sau OMV 9 Yi 1 ARE OWA OF 06 Addon pus Vk 4 1003387 9 0U99Y9 Y L0ZSW VET S Vd Addins amod 1025 Figure C 2 1 0700 039 Installation wiring diagram DensityPRO NAI remote system Models MS2011R amp MS2011T Sheet 4 C 9 DensityPRO NAI Installation Manual Thermo Scientific Drawings 1 12 38 1 1 127 38 1 Figure C 3 4 0700 144 Installation drawing remote system detector with explosion proof housing C 10 DensityPRO NAI Installation Manual Thermo Scientific Drawings 12 12 917 5 DETECTOR 1 12 38 1 1 1 2 38 1 APPROX APPROX 17 431 8 MIN CLEARANCE FOR SHUTTER HANDLE AND ACCESSORIES Figure C 4 4 0700 145 Installation drawing remote system detector with explosion pr
78. the cable to the appropriate connector as follows a Remove the screw terminal connector from the on board connector If the connector is tight brace the board with your hand taking care not to touch any circuit components and remove the screw terminal connector b Loosen the terminal screws on the connector Insert the wires into the connector and make connections as shown in the M520111 installation wiring drawing p n 1 0700 038 and as described in the remainder of this chapter c Tighten the terminal screws to secure the wires Once all wires are secure replace the connector on the board 6 Connect the ground line of the AC input power to the internal safety ground lug of the Density PRO NAI housing 7 When DC input power is used it is imperative to connect an earth to either the internal or external safety ground lug of the DensityPRO NAI housing Secure the conduit making sure it is completely sealed 9 When the wiring is complete replace the detector housing cover and secure the cover retaining bracket 10 While the mounting hardware of the DensityPRO NAI housing may provide an adequate earth ground Thermo Scientific recommends always connecting a true earth ground to the external safety ground lug of the housing 4 2 DensityPRO NAI Installation Manual Thermo Scientific Wiring Power Supply Wiring Power Supply Wiring Note To meet the requirements of CSA 1010 1 an external switch or circuit breaker must be inst
79. the four retaining screws from the IBP iii Gently remove the IBP PCA iv To remove the Preamp continue to the next step To reassemble and close the unit skip to step 5 d To remove the Preamp PCA i Remove the eight screws four from each side on the PMT side of the card cage ii Remove the two screws from the collimator iii Lift the card cage up to remove the photomultiplier tube assembly from the collimator iv Loosen the two bolts located to the left and right of the photomultiplier tube v Gently pull the photomultiplier tube down and out of the Preamp PCA vi Remove the four retaining screws and detach any cabling from the Preamp PCA vii Remove and replace the Preamp PCA viii Reattach any cabling and the four previously removed screws to the PCA Reattach the photomultiplier tube to the PCA ix Tighten the two bolts adjacent to the photomultiplier tube x Carefully set the photomultiplier tube assembly into the collimator xi Insert the two screws previously removed from the collimator xii Reattach the PMT assembly to the card cage by reinserting the eight previously removed screws 5 Place the card cage into the housing cover 6 Reinstall the two screws previously removed from the card cage to secure it into the housing 7 Reconnect the plug in screw terminals to the board connectors reattach any cabling to the bulkhead and replace the housing access cover by securing the four previously
80. ther encloses the source capsule A shaped opening in the lead shielding directs the gamma radiation beam through the process material towards the detector For most density applications the source is designed to produce a very narrow beam of approximately 13 included angle Outside of the beam path the energy emitted from the source head is very low and well within prescribed limits Closing the source shutter blocks the radiation attenuating the energy in the beam path and allowing for safe handling installation or servicing of the gauge All source housings meet or exceed the safety requirements of regulatory agencies such as the U S Nuclear Regulatory Commission NRC agreement states the Canadian Nuclear Safety Commission and local regulatory agencies in other countries selling the device Please refer to the Gamma Radiation Safety Guide p n 717904 for more radiation safety information DensityPRO NAI Installation Manual Thermo Scientific Introduction Funcitional Description The Detector The transmitter function in the DensityPRO NAI system is incorporated into the V detector housing to create an integrated system while in the DensityPRO NAI Transmitter system the transmitter is a separate enclosure The DensityPRO NAI measurement system uses a sodium iodide scintillation detector to measure the radiation reaching the detector from the source The detector consists of a sodium iodide Nal scintillator and a photomultiplie
81. u iqean Jeuoneunoju Jeueyeui adojosioipey VN sieje 10 spi36 abeyea 81 101329 8 juabe 221601010 asn 104 saop yuawdinb3 YN juabe e3I6o oiqo191uu pue jeoi60jo1g 19quieya eBe1o1s pinbi JO 10 e 91eJ0dJO2UI jou saop juawdinb3 YN asnos euJaju1 smo uano abe Idg juauodulo9 juawdinba ay abeuep pue jueuudinba ay 0340 Ids eu sSs A Moyano Jo abe Ids uoljounjjew abBewep juawdinb3 asnos euJa xa SAA0 H A0 abe yidg D 13 DensityPRO NAI Installation Manual Thermo Scientific Risk Assessment 9 210119 9p uonouny sjuauoduoo Aay Aue Jo AH dold U YE JOU Jam sjuawainseaw ay fl ejeunose aq Jou Aew juawa insea e isAjeue Juawainseaw 3A173943 JON judwainseaw 19391109U papuajui se uo1jduny 01 jrej sjueuoduio2 Alessadau ay JI 1so aq Aew eje sis jeue juawainseaw ON eje Jo 5301 uoneje3sut Buipjing u p pnioul aq JM 11n2117 jueuidinba paj3euuoo Anueueuued s 3uauudinb3 8Jn iej juawdinb3 8Jnjie juatudinb3 asnos Ajddns UJ0JJ 198UU03SI Jo pajpuey you sem juawdinba ji esue Aew puezey tgjeau jauuosiad JUBWAINSESW 3A133443 JON jauuosiag paureun Palipisun Aq esp juawdinba y Aq papiaosd aq IIVM uone aJdi
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