0HDVXUHPHQW0RGH | Emerson Process Management rosemount 3300 series

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00809-0100-4811, Rev AA October 2002

Rosemount 3300 Series

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%(

1, 3, 9

Normally the Measurement Mode does not need to be changed. The transmitter is pre-configured according to the specified model:

Table 4-1. Measurement Mode

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%(%(	1, 3, 11

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%(	1, 3, 12

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%(	1, 4, 4, 4

567@3301 !(1),

3302

(1),

,QWHUIDFH,PPHUVHG3UREH is used for applications where the probe is fully

immersed in liquid. In this mode the transmitter ignores the upper product level. See 6HFWLRQ,QWHUIDFHPHDVXUHPHQWVZLWKIXOO\LPPHUVHGSUREHV for

more information.

127(

Only use ,QWHUIDFH,PPHUVHG3UREH for applications where interface is measured for a fully immersed probe.

Enter the angle between the probe and the vertical line. The default value is equal to zero. Do not change this value if the transmitter is mounted with the probe along the vertical line (which is normally the case).

For interface measurements the Maximum Upper Product Thickness parameter may be used in special cases when the dielectric constant of the upper product is relatively high. By setting this parameter you can avoid that interface measurements are getting out of range.

The default Damping value is 10. Normally this value does not need to be changed. The Damping parameter determines how quickly the transmitter

responds to level changes and how robust the measurement signal is against noise. See ³+LJK/HYHO5DWHV´RQSDJH for more information.

'LVSOD\ SDQHO

1, 4, 2

Choose which variables to be displayed and the desired language to be used. The display toggles between the selected variables every two seconds.

4-11

Image 53

$Emerson Process Management rosemount 3300 series manual 0HDVXUHPHQW0RGH, 3UREH$QJOH, 7KLFNQHVV Dpslqj, LVSOD\ Sdqho$

Contents

00809-0100-4811, Rev AA October 5HIHUHQFH0DQXDOPage QWHUIDFH7UDQVPLWWHUV 5RVHPRXQW6HULHVPage Qvwdoodwlrq 7DEOHRI&RQWHQWVQwurgxfwlrq 21 6WDUW8S +$57&RPPXQLFDWRU 7URXEOHVKRRWLQJ$331 TOC-4 $7066$*6 6HFWLRQ Qwurgxfwlrq 6HFWLRQ,QVWDOODWLRQ 6HFWLRQ7UDQVPLWWHU2YHUYLHZ6HFWLRQ6WDUW8S 6HFWLRQ2SHUDWLQJWKHLVSOD\3DQHO Measurement Principle 6HFWLRQ 7UDQVPLWWHU2YHUYLHZ $33/,&$7,216 Separator tank. The model 75$160,775 2032117627+ 6670 $5&+,7&785 +,5% 352%6/&7,21 *8 0DLPXP HDG=RQHV 352&66 +$5$&75,67,&6 Clean liquidsRdwlqj Ulgjlqj RDP 9DSRU Probe is fully immersed in the liquid Qwhuidfh PXOVLRQ/D\HUV 966 +$5$&75,67,&67DQN6KDSH 6HFWLRQ Qvwdoodwlrq 00809-0100-4811, Rev AA Rosemount 3300 SeriesOctober 352&85 Follow these steps for proper installation167$//$7,21 $ODUPDQGULWH 3URWHFWLRQ6ZLWFKHV Analog Output Standard Alarm Values vs. Saturation Values2528,167$ Switches for Alarm Write Protection 7KUHDGHG&RQQHFWLRQ 02817,1* &216,5$7,2163URFHVVFRQQHFWLRQ Plqgldphwhu ODQJH&RQQHFWLRQRQ1ROHV Still Pipes 00809-0100-4811, Rev AA 0RXQWLQJLQ6WLOO SLSHVE\SDVVSLSHV Recommended free space to tank wall UHH6SDFHAccording to the table below, must be maintained 3RVLWLRQ Gasket on top of the tank flange For adapters with BSP/G threads, placeLower the transmitter and probe into Tank 5LJLG7ZLQ/HDG 6KRUWHQLQJWKH3UREH OHLEOH7ZLQ/HDG Rdldo 1D**+0=55 = $QFKRULQJ SUPPORT2 Coax Probe Rigid Twin +DDUGRXV$UHDV Urxqglqj DEOH6HOHFWLRQ 3RZHU5HTXLUHPHQWV 0DLPXP/RRS 5HVLVWDQFH 10. Non-hazardous installations 7UDQVPLWWHU Rqqhfwlqjwkh 7UDQVPLWWHU2XWSXW Ui=30 Ii=130 mA Pi=1 W Ci=0 Li=0 6SDUDPHWHUV 7UL/RRS 237,21$/9,&6 15. Multidrop connection Wudqvplwwhurqwkhexv Rosemount 3300 Series 6HFWLRQ 6WDUW8S DVLF&RQILJXUDWLRQ 21,*85$7,21 3$5$0756 3UREH/HQJWK 5HIHUHQFH*DXJH+HLJKW3UREH7\SH LHOHFWULF&RQVWDQWRI8SSHU3URGXFW Make sure that the 20 mA point is below the Upper Null Zone $SRLQWFull range of the analog output is not used 3UREHDQJOH 6WUDSSLQJ7DEOH 9ROXPH&RQILJXUDWLRQ7DQN7\SH +RULRQWDO&\OLQGHU 6WDQGDUG7DQN6KDSHV+RULRQWDO%XOOHW 6SKHUH 21,*85$7,2186,1* $+$57 &20081,&$725 #Tag 3UREH/HQJWK 7UDQVPLWWHU8QLWV 3URGXFW Lhohfwulf 9DSRULHOHFWULF 3UREH7\SH 3UREH$QJOH 0HDVXUHPHQW0RGH7KLFNQHVV Dpslqj LVSOD\ Sdqho Range Values DQG P$3RLQWV 7UDQVPLWWHU9DULDEOHV 9ROXPH 8QLWV 92/80 &21,*85$7,217DQN7\SH 7DQNLPHQVLRQV 6WUDSSLQJ 7DEOH QVWDOOLQJWKH5&7 Vriwzduh 21,*85$7,2186,1* 7+5$$5 &21,*85$7,21722 Rhcs Server window October +HOS,Q5&7 RCT1 8VLQJWKH6HWXS Display panel settings 127Xqfwlrq Choose the appropriate tab QIR information about the device 6HWXS%DVLFV 6HWXS,QIR 6HWXS2XWSXW 6HWXS7DQN&RQILJ Equal to zero in the factory configurationParameters and dielectrics 7DQN*HRPHWU\ Sdjh for further information 0HDVXUHPHQW 0RGHLhohfwulfv Configuration Choose None if volume calculation is not used at all6HWXS9ROXPH Choose one of the following options Choose one of the following options LCD parameters 6HWXS RCT SetupBasics tab RCT SetupOutput tab63&,$/81&7,216 Model 3300 transmitter Tri-Loop 19. Tri-Loop wiring Rosemount 3300 Series 63/$ 81&7,21$/,7 6HFWLRQ 2SHUDWLQJWKHLVSOD\3DQHO $/$50$15,7 3527&7,21 Row shows error codes and the lower row shows ’ERROR’5525066$*6 6HUYLFHDQG7URXEOHVKRRWLQJ 6HFWLRQ 8VHUGHILQHG8SSHU $9$1& &21,*85$7,215HIHUHQFH3RLQW Waveform plot in RCT 3ORWWLQJWKH Phdvxuhphqwvljqdo Rjjlqjdqgvdylqjwrglvn QWHUIDFH0HDVXUHPHQWV IRU6HPL7UDQVSDUHQW %RWWRP3URGXFWV Waveformplot Interface LOW Epsilon After Damping value May be increased in order to get a stable measurement signal Click the Send Page button 127 Open the Setup window Select the Tank Config tabSurehv $QDORJ2XWSXW Fdoleudwlrq 659 Hyhofdoleudwlrq Hyhodqglvwdqfh DoleudwlrqLvwdqfhfdoleudwlrq KDQJLQJWKH3UREH Riwkhwdqn Using the Waveform Plot in RCT to set the Upper Null Zone 11. Example 2 amplitude threshold T2 is too low 10. Example 1 amplitude threshold T2 is too high Adjusted 6DYLQJWKHORJWRGLVN Rjjlqjphdvxuhphqw Gdwd 6DYLQJWKH7UDQVPLWWHU Rqiljxudwlrq 0HPRU\0DS 7RORDGDVHWXS 5HPRYLQJWKH 7UDQVPLWWHU+HDG $*1267,& 066$*6 1for information on possible causes Troubleshooting Chart Uuruv Most cases do not result in Analog Output alarms Is a list of diagnostic messages that may be displayed onDuqlqjv See the warning message do one of the following Rosemount 3300 Series 63&,,&$7,216 $SSHQGL$ 5HIHUHQFHDWD Rosemount 3300 Series 7 E Dimensions are in inches millimeter 017C,8 Dimensions are in millimeter inches +E8 =798 +D7D,8 . /5/&= 0RGHO&RGH Hyho LQ/LTXLGV 255,1* ,1250$7,21 5HIHUHQFH 0DQXDO 0RGHO&RGH /HYHO DQG ,QWHUIDFHLQ/LTXLGV 67xx 567!B!!8 Rosemount 3300 Series $SSHQGL% +DDUGRXV$SSURYDOV Rosemount 3300 Series Guided Wave Radar Level and Interface QWULQVLF6DIHW\April-1994 6SHFLDO&RQGLWLRQVIRU6DIH8VH Figure B-2. Approval Label Atex Kema and Name Plate ODPH3URRI $SSURYDOV DFWRU\0XWXDO0 Cert. no $VVRFLDWLRQ&6$ $SSURYDO Rosemount 3300 Series Intrinsically safe FM approved apparatus 5HIHUHQFH 9150077-945 00809-0100-4275 $SSHQGL +$57&RPPXQLFDWRU17528&7,21 5HIHUHQFH 0DQXDO Figure C-1. Hart Communicator Menu Tree 5, 2 211&7,216 LUHFWLRQDO.H\V $6,&$7856$FWLRQ.H\V $OSKDQXPHULFDQG6KLIW .H\V XQFWLRQ.H\V 0DLQ0HQX 0186$1 81&7,216 2QOLQH0HQX +DUW&RPPXQLFDWRU LDJQRVWLF0HVVDJHV $O#3 An offline configuration. User answers using the softkeys Table C-2. Hart Communicator Diagnostic Messages Rosemount 3300 Series 1XPHULFV QGH Strapping Table Shift Keys . . . . . . . . . . . . . . . C-7Page R2002 Rosemount Inc. All rights reserved