USER'S MANUALSiemens Industry, Inc. UMSITRPDS3-1 Rev 10 November 2010 Supersedes Rev 9 SITRANS P, Series DSIII Transmitters for Pressure, Dif
Contents UMSITRPDS3-1 November 2010 viii Conventions, Symbols, and General Information Conventions and Symbols The following symbols may be used in
On-Line Operation UMSITRPDS3-1 November 2010 6-2 6.1.2 Numeric Display The 5-digit numeric display can be configured to show one of the following.
UMSITRPDS3-1 On-Line Operation November 2010 6-36.1.3 Unit/Bargraph Display This alphanumeric display has five 14-segment fields in the lower righ
On-Line Operation UMSITRPDS3-1 November 2010 6-4 1 2 3 4 5 6 7 Linear modulation range Lower limit of the modulation range (default value) Upper l
UMSITRPDS3-1 On-Line Operation November 2010 6-56.2 LOCAL OPERATION WITH THE MAGNETIC PUSHBUTTONS The transmitter can be configured locally using
On-Line Operation UMSITRPDS3-1 November 2010 6-6 TABLE 6-2 Parameters Accessible Using the Magnetic Pushbuttons Configuration Mode Increase/Decre
UMSITRPDS3-1 On-Line Operation November 2010 6-76.2.1 Cancel Pushbutton Disable and Write Protection A pushbutton disable (LA, LO, LS, or L) can b
On-Line Operation UMSITRPDS3-1 November 2010 6-8 Given Set Zero Set Full Scale Calculate Output Current Adjusting Zero and Full Scal
UMSITRPDS3-1 On-Line Operation November 2010 6-9 Given Set Zero Set Full Scale 6.2.2.2 Practical Applications Set Zero and Full Scale
On-Line Operation UMSITRPDS3-1 November 2010 6-10 Adjust Zero and Full Scale If only a single reference pressure is available, calculate the curre
UMSITRPDS3-1 On-Line Operation November 2010 6-11 After adjusting, the measuring span specified on the rating plate may no longer match the new spa
UMSITRPDS3-1 Contents November 2010 ixSupport section of this manual or to the local Siemens sales office. The contents of this manual shall not be
On-Line Operation UMSITRPDS3-1 November 2010 6-12 6.2.5 Zero Adjustment (Position Correction) The zero error resulting from a non-vertical install
UMSITRPDS3-1 On-Line Operation November 2010 6-13Change the display, when necessary, by use of mode 13, so that the physical unit selected in mode
On-Line Operation UMSITRPDS3-1 November 2010 6-14 6.2.8 Pushbutton and Function Disable Mode 10 is used to disable some or all magnetic pushbutton
UMSITRPDS3-1 On-Line Operation November 2010 6-155. Press either arrow pushbutton to select a switch point between 5 and 15%. 6. Save the selecti
On-Line Operation UMSITRPDS3-1 November 2010 6-16 6.2.10 Select Measured Value to Display Mode 13 has three options: • Display output current in
UMSITRPDS3-1 On-Line Operation November 2010 6-17 mm water column (20°C/68°F)Inch water column (20°C/68°F)Feet water column (20°C/68°F)mm mercury
On-Line Operation UMSITRPDS3-1 November 2010 6-18 6.3 LOCAL OPERATION WITHOUT A DISPLAY OR WITH ACTIVATED KEYLOCK When a transmitter is ordered wi
UMSITRPDS3-1 On-Line Operation November 2010 6-19To set zero and full scale: 1. Clean the enclosure to prevent dirt from entering. 2. Unscrew the
On-Line Operation UMSITRPDS3-1 November 2010 6-20 6.4 REMOTE CONFIGURATION AND OPERATION BY HART This section describes operation of the transmitt
UMSITRPDS3-1 On-Line Operation November 2010 6-21Refer to the Online Configuration Map in Appendix A; the display of active data is indicated by a
Contents UMSITRPDS3-1 November 2010 x The equipment may be used only for the purposes specified in this manual. CAUTION Electrostatic discharge c
On-Line Operation UMSITRPDS3-1 November 2010 6-22 1. Install and pipe the transmitter. Ventilate or evacuate the transmitter. • Ventilate for pre
UMSITRPDS3-1 On-Line Operation November 2010 6-236.4.7 Fixed Current Output To aid in loop troubleshooting, the transmitter can be placed in a con
On-Line Operation UMSITRPDS3-1 November 2010 6-24 6.4.9 Disabling the Transmitter Magnetic Pushbuttons and Write Protection The table below correl
UMSITRPDS3-1 On-Line Operation November 2010 6-256.4.10 Measured Value Display The transmitter display can show the output current in mA, the outp
On-Line Operation UMSITRPDS3-1 November 2010 6-26 6.4.13 Sensor Trim Using sensor trim it is possible to set the characteristic of the transmitter
UMSITRPDS3-1 On-Line Operation November 2010 6-276.4.13.2 Trimming the Upper Sensor Adjustment Point A pressure representing the upper sensor pres
On-Line Operation UMSITRPDS3-1 November 2010 6-28 6.4.14 D/A Trim There are two trim options: D/A trim and Scaled D/A trim. Since they operate sim
UMSITRPDS3-1 On-Line Operation November 2010 6-291. Determine the output currents required to compensate for the external inaccuracy. 2. Connect
On-Line Operation UMSITRPDS3-1 November 2010 6-30 To restore manufacturer trims: 1. In the Online menu, press 3 Device Setup. 2. In the Device Se
UMSITRPDS3-1 On-Line Operation November 2010 6-31The default setting for all warnings and alarms is OFF. To set and enable: 1. In the Online menu,
UMSITRPDS3-1 Introduction November 2010 1-11.0 INTRODUCTION This user’s manual is for the Siemens SITRANS P Series DSIII Pressure Transmitters. A
On-Line Operation UMSITRPDS3-1 November 2010 6-32 6.4.19.3 Min/Max Pointer The maximum positive and negative excursions of the input pressure, sen
UMSITRPDS3-1 On-Line Operation November 2010 6-33In the third example, the input spikes below minimum pressure. At t2 the response time expires and
On-Line Operation UMSITRPDS3-1 November 2010 6-34 4. In the Simulation Test menu, press 1 Simulation to display the Select menu. Choose one of the
UMSITRPDS3-1 Calibration And Maintenance November 2010 7-17.0 CALIBRATION AND MAINTENANCE This section discusses calibration, preventive mainten
Calibration and Maintenance UMSITRPSD3-1 November 2010 7-2 7.1 CALIBRATION Calibration can involve adjusting zero to eliminate any position-induce
UMSITRPDS3-1 Calibration And Maintenance November 2010 7-3Calibration Procedure Section References Calibration Needed Local (Pushbutton) HART C
Calibration and Maintenance UMSITRPSD3-1 November 2010 7-4 7.2.3 Transmitter Enclosure Interior Inspection Remove the two enclosure caps periodica
UMSITRPDS3-1 Calibration And Maintenance November 2010 7-57.3 TROUBLESHOOTING This section provides guidance and procedures to assist in identif
Calibration and Maintenance UMSITRPSD3-1 November 2010 7-6 Transmitter Troubleshooting Steps Several troubleshooting avenues are presented below.
UMSITRPDS3-1 Calibration And Maintenance November 2010 7-7Check Impulse Piping • Check that high and low pressure pipe connections are not rever
Introduction UMSITRPDS3-1 November 2010 1-2 Appendix A, Online Configuration Map, is used to help navigate HART/transmitter menus during remote co
Calibration and Maintenance UMSITRPSD3-1 November 2010 7-8 7.3.2 Digital Output (Communication) A malfunctioning digital output can indicate a def
UMSITRPDS3-1 Calibration And Maintenance November 2010 7-97.4 ASSEMBLY REMOVAL AND REPLACEMENT The display, electronics module, measuring cell,
Calibration and Maintenance UMSITRPSD3-1 November 2010 7-10 Device Parameters After Replacing Electronics Module or Measuring Cell Parameter Descri
UMSITRPDS3-1 Calibration And Maintenance November 2010 7-117.4.1 Display Assembly Removal 1. Remove power from the transmitter. 2. Place an an
Calibration and Maintenance UMSITRPSD3-1 November 2010 7-12 7.4.2 Replacing the Electronics Module A larger tweezers (4"-6") is very use
UMSITRPDS3-1 Calibration And Maintenance November 2010 7-13Installation 1. Remove the new electronics module from its anti-static bag. 2. Caref
Calibration and Maintenance UMSITRPSD3-1 November 2010 7-14 6. Separate the measuring cell from the enclosure. • Differential construction - Clam
UMSITRPDS3-1 Calibration And Maintenance November 2010 7-15 MG00353aDifferential ConstructionGauge Construction1234Dimension A = 0.1" +/- 0.
Calibration and Maintenance UMSITRPSD3-1 November 2010 7-16 7.4.4 Terminal Board Assembly Removal and Replacement Perform this procedure to replac
UMSITRPDS3-1 Calibration And Maintenance November 2010 7-177.6 TRANSMITTER REPLACEMENT To replace a transmitter, refer to the procedure below an
UMSITRPDS3-1 Introduction November 2010 1-3 1 2 3 4 5 Process connection: 1/2-NPT, connection shank G1/2A Oval flange Blanking plug Electr
Calibration and Maintenance UMSITRPSD3-1 November 2010 7-18 6. Check all connections, then open shut-off valves and close by-pass valves. As neede
UMSITRPDS3-1 Calibration And Maintenance November 2010 7-196. Reason for return for repair; include system failure symptoms, station failure sym
Calibration and Maintenance UMSITRPSD3-1 November 2010 7-20
UMSITRAPDS3-1 Circuit Description November 2010 8-18.0 CIRCUIT DESCRIPTION This section provides a basic circuit description of the SITRANS P DSII
Circuit Description UMSITRPDS3-1 November 2010 8-2 8.1 OVERALL OPERATION The measuring cell sensor (1) detects the applied process pressure. The
UMSITRAPDS3-1 Circuit Description November 2010 8-38.3 DIFFERENTIAL PRESSURE AND FLOW Differential pressure is applied to the silicon pressure sen
Circuit Description UMSITRPDS3-1 November 2010 8-4 1 2 3 4 5 6 7 8 9 10 Process flange (qty. 2) O-ring (qty. 2) Silicon pressure sensor Measur
UMSITRAPDS3-1 Circuit Description November 2010 8-5 1 2 3 4 5 pe Measuring cell Pressure connection Seal diaphragm Oil fill Absolute pressure senso
Circuit Description UMSITRPDS3-1 November 2010 8-6
UMSITRAPDS3-1 Model Designations and Specifications November 2010 9-19.0 MODEL DESIGNATIONS AND SPECIFICATIONS This section contains the model des
Introduction UMSITRPDS3-1 November 2010 1-4 1 2 3 4 5 6 7 8 9 Process Connection 1/4-18NPT for absolute pressure + side Mounting thread M10
Model Designations and Specifications UMSITRPDS3-1 November 2010 9-2 9.1 MODEL 7MF4033, GAGE PRESSURE This section contains a dimension drawing o
UMSITRAPDS3-1 Model Designations and Specifications November 2010 9-3TABLE 9-1 Model 7MF4033, Model Designation Pressure transmitter, two-wire, se
Model Designations and Specifications UMSITRPDS3-1 November 2010 9-4 Additional Model 7MF4033 Selections and Data* Order Code Transmitter with m
UMSITRAPDS3-1 Model Designations and Specifications November 2010 9-5TABLE 9-2 Model 7MF4033, Specifications Input Measured variable Gage press
Model Designations and Specifications UMSITRPDS3-1 November 2010 9-6 Wetted parts materials • Connection shank Stainless steel, mat. No. 1.44
UMSITRAPDS3-1 Model Designations and Specifications November 2010 9-79.2 MODEL 7MF4233, ABSOLUTE PRESSURE This section contains a dimension drawin
Model Designations and Specifications UMSITRPDS3-1 November 2010 9-8 TABLE 9-3 Model 7MF4233, Model Designation Absolute pressure, gauge construc
UMSITRAPDS3-1 Model Designations and Specifications November 2010 9-9 Additional Model 7MF4233 Selections and Data* Order Code Transmitter
Model Designations and Specifications UMSITRPDS3-1 November 2010 9-10 TABLE 9-4 Model 7MF4233, Specifications Input Measured variable Absolute
UMSITRAPDS3-1 Model Designations and Specifications November 2010 9-11Measuring cell filling Silicone oil or inert filling liquid; max. 160 bar a
UMSITRPDS3-1 Introduction November 2010 1-5 1 2 3 4 5 6 7 Process connection 1/4-18NPT Mounting thread M10 or 7/16-20UMF Field terminals; remove
Model Designations and Specifications UMSITRPDS3-1 November 2010 9-12 9.3 MODEL 7MF4333, ABSOLUTE PRESSURE This section contains a dimension draw
UMSITRAPDS3-1 Model Designations and Specifications November 2010 9-13TABLE 9-5 Model 7MF4333, Model Designation Absolute pressure, differential p
Model Designations and Specifications UMSITRPDS3-1 November 2010 9-14 Additional Model 7MF4333 Selections and Data* Order Code Transmit
UMSITRAPDS3-1 Model Designations and Specifications November 2010 9-15TABLE 9-6 Model 7MF4333, Specifications Input Measured variable Absolute
Model Designations and Specifications UMSITRPDS3-1 November 2010 9-16 • Seal diaphragm Stainless steel, mat. No. 1.4404/316L or Hastelloy C4, mat
UMSITRAPDS3-1 Model Designations and Specifications November 2010 9-179.4 MODELS 7MF4433 AND 7MF4533, DIFFERENTIAL PRESSURE AND FLOW This section
Model Designations and Specifications UMSITRPDS3-1 November 2010 9-18 TABLE 9-7 Model 7MF4433, Model Designation Differential pressure and flow t
UMSITRAPDS3-1 Model Designations and Specifications November 2010 9-19 Additional Model 7MF4433 Selections and Data* Order code Trans
Model Designations and Specifications UMSITRPDS3-1 November 2010 9-20 TABLE 9-8 Model 7MF4533, Model Designation Differential pressure and flow t
UMSITRAPDS3-1 Model Designations and Specifications November 2010 9-21 Additional Model 7MF4533 Selections and Data* Order Code Transmitter with m
Introduction UMSITRPDS3-1 November 2010 1-6 1 2 3 4 5 6 Process connection at low side 1/4-18NPT Mounting thread M10, M12, or 7/16-20UNF Blankin
Model Designations and Specifications UMSITRPDS3-1 November 2010 9-22 TABLE 9-9 Models 7MF4433 and 7MF4533, Specifications Input Measured varia
UMSITRAPDS3-1 Model Designations and Specifications November 2010 9-23Influence of static pressure • on the zero point ≤ (0.15* r) % per 100 b
Model Designations and Specifications UMSITRPDS3-1 November 2010 9-24 9.5 MODELS 7MF4633 AND 7MF4812, LEVEL This section contains a dimension dra
UMSITRAPDS3-1 Model Designations and Specifications November 2010 9-25TABLE 9-10 Models 7MF4633 and 7MF4812, Model Designation Flanged level trans
Model Designations and Specifications UMSITRPDS3-1 November 2010 9-26 Additional Model 7MF4633 (7MF4812) Selections and Data* Order CodeO-rings
UMSITRAPDS3-1 Model Designations and Specifications November 2010 9-27 Flanged Level Transmitter Accessories Mounting flange, mounted dir
Model Designations and Specifications UMSITRPDS3-1 November 2010 9-28 TABLE 9-11 Models 7MF4633 and 7MF4812, Specifications Input Measured vari
UMSITRAPDS3-1 Model Designations and Specifications November 2010 9-29• Measuring cell, silicon oil filling -40 to + 100°C (-40 to +212°F) -
Model Designations and Specifications UMSITRPDS3-1 November 2010 9-30 9.6 SERVICE PARTS, ALL MODELS Tables 9-12 through 9-18 list the measuring c
UMSITRAPDS3-1 Model Designations and Specifications November 2010 9-31TABLE 9-13 Measuring Cells for Absolute Pressure, Gauge Construction, Servic
UMSITRPDS3-1 Introduction November 2010 1-7A transmitter can operate in either analog mode or digital mode, as discussed in the following paragraph
Model Designations and Specifications UMSITRPDS3-1 November 2010 9-32 Additional selections and data below Add “–Z” to the order number and speci
UMSITRAPDS3-1 Model Designations and Specifications November 2010 9-33Additional selections and data below Add “-Z” to the order number and specif
Model Designations and Specifications UMSITRPDS3-1 November 2010 9-34 TABLE 9-17 Measuring Cells for Filling Level, Service Parts DS III and DS I
UMSITRAPDS3-1 Model Designations and Specifications November 2010 9-359.7 ACCESSORIES The following table lists some of the available accessories.
Model Designations and Specifications UMSITRPDS3-1 November 2010 9-36 9.9 HAZARDOUS AREA CLASSIFICATION Table 9-20 lists the hazardous area class
UMSITRAPDS3-1 Model Designations and Specifications November 2010 9-37TABLE 9-20 Certificate and Approvals, All Models Certificate and approva
Model Designations and Specifications UMSITRPDS3-1 November 2010 9-38 Comply with your country’s laws and regulations that apply to electrical ins
UMSITRAPDS3-1 Model Designations and Specifications November 2010 9-41 CERTIFICATE OF NACE COMPLIANCE Siemens Energy & Automation, Inc.
IMPORTANT MODEL 275 HART COMMUNICATOR AND MODEL 375 FIELD COMMUNICATOR Many procedures, screens, and wiring diagrams shown in this manual feature t
Introduction UMSITRPDS3-1 November 2010 1-8 An enclosure ground connection is located on the housing beneath the field terminal enclosure cap. The
Model Designations and Specifications UMSITRPDS3-1 November 2010 9-42
UMSITRPDS-1 Glossary November 2010 10-110.0 GLOSSARY Defined below are terms relevant to the SITRANS P DSIII transmitter, this User’s Manual, pres
Glossary UMSITRPDS3-1 November 2010 10-2 Field Instrument – A network element that uses current variation for digital signaling or digital plus an
UMSITRPDS-1 Glossary November 2010 10-3Network Element – Any field instrument or primary or secondary master. Network Resistance – The sum of the
Glossary UMSITRPDS3-1 November 2010 10-4
UMSITRPDS3-1 Appendix A - Online Configuration Map November 2010 11-1 11.0 APPENDIX A - ONLINE CONFIGURATION MAP This Appendix contains a detaile
Appendix A - Online Configuration Map UMSITRPDS3-1 11-2 November 2010 1 Pressure + 2 Type + 3 Device setup 1 Process variables
UMSITRPDS3-1 Appendix A - Online Configuration Map November 2010 11-3 4 Detailed setup 1 Sensors 1 Pressure sensor 1 Pressure + Se
Appendix A - Online Configuration Map UMSITRPDS3-1 11-4 November 2010 !
UMSITRPDS3-1 Appendix B - Hazardous Area Installation November 2010 12-1 12.0 APPENDIX B - HAZARDOUS AREA INSTALLATION This Appendix presents wi
UMSITRPDS3-1 Introduction November 2010 1-91.3 RATING, APPROVAL, AND TAG PLATES These plates are fastened to the outside of the transmitter enclos
Appendix B - Hazardous Area Installation UMSITRPDS3-1 12-2 November 2010 FIGURE 12-1 Control Drawing
UMSITRPDS3-1 Appendix B - Hazardous Area Installation November 2010 12-3 FIGURE 12-2 Control Drawing
Appendix B - Hazardous Area Installation UMSITRPDS3-1 12-4 November 2010 FIGURE 12-3 Control Drawing
UMSITRPDS3-1 Appendix C - Elevation and Suppression Corrections November 2010 13-1 13.0 APPENDIX C - ELEVATION AND SUPPRESSION CORRECTIONS When i
Appendix C - Elevation and Suppression Correction UMSITRPDS3-1 13-2 November 2010 Note that the URL (Upper Range Limit), LRL (Lower Range Limit), an
UMSITRPDS3-1 Appendix C - Elevation and Suppression Corrections November 2010 13-3 13.4 RECOMMENDED METHOD An alternative to making the above cal
Appendix C - Elevation and Suppression Correction UMSITRPDS3-1 13-4 November 2010
Online Configuration Map for Siemens SITRANS P DSIII Pressure Transmitters (with Model 275 HART COMMUNICATOR) 1 Pressure + 2 Type +
Online Configuration Map for Siemens SITRANS P DSIII, Continued 4 Detailed setup 1 Sensors 1 Pressure sensor 1 Pressure + See Note 4
Online Configuration Map forSiemens SITRANS P DSIII Pressure Transmitter withModel 375 Field CommunicatorNotes:1 Model 375 Field Communicator Firmware
Introduction UMSITRPDS3-1 November 2010 1-10 1.5 CUSTOMER/PRODUCT SUPPORT Support is available through an online Support Request service; a link i
Online Configuration Map forSiemens SITRANS P DSIII Pressure Transmitter withModel 375 Field Communicator5 Config Inp/Outp, 2 Input, Continued 3 Meas
Online Configuration Map forSiemens SITRANS P DSIII Pressure Transmitter withModel 375 Field Communicator5 Config inp/outp, 3 Output 1 Analog output 1
Online Configuration Map forSiemens SITRANS P DSIII Pressure Transmitter withModel 375 Field Communicator6 Diagnosis/Service, 3 Diagnostic settings 1
UMSITRPDS3-1 Model 275 Universal Hart Communicator November 2010 2-12.0 MODEL 275 UNIVERSAL HART COMMUNICATOR The Model 275 Universal HART Communi
Model 275 Universal Hart Communicator UMSITRPDS3-1 November 2010 2-2 MG00360aHART CommunicatorIOF1 F2 F3 F4134567890# % &S T UJ K LA B C D E F
UMSITRPDS3-1 Model 275 Universal Hart Communicator November 2010 2-3+_- +4-20 mACurrent SenseResistor 250 to1100; See Note 3Controller,Recorde
Model 275 Universal Hart Communicator UMSITRPDS3-1 November 2010 2-4 2.3 CONTROLS OVERVIEW As shown in Figure 2-1, the front of the HART Communica
UMSITRPDS3-1 Model 275 Universal Hart Communicator November 2010 2-5TABLE 2-1 Function Keys with Their Labels and Actions Performed F1 F2 F3 F4 H
Model 275 Universal Hart Communicator UMSITRPDS3-1 November 2010 2-6 IO2.3.3 Action Keys Directly beneath the LCD and software-defined function ke
UMSITRPDS3-1 Model 275 Universal Hart Communicator November 2010 2-7IMPORTANT When performing certain operations, the message “OFF KEY DISABLED” in
UMSITRPDS3-1 Contents November 2010 iTABLE OF CONTENTS Section and Title Page Conventions, Symbols, and General Information...
Model 275 Universal Hart Communicator UMSITRPDS3-1 November 2010 2-8 2.4 GETTING TO KNOW THE COMMUNICATOR The HART Communicator operates either on
UMSITRPDS3-1 Model 275 Universal Hart Communicator November 2010 2-92.4.2 Menu Structure The HART Communicator uses a hierarchical menu structure.
Model 275 Universal Hart Communicator UMSITRPDS3-1 November 2010 2-10 TABLE 2-2 Communicator Firmware Device Descriptions, Rev. F2.2 MODEL FIELD D
UMSITRPDS3-1 Model 275 Universal Hart Communicator November 2010 2-112.5 MAIN MENU The Main menu is shown at right. To access the Main menu: Comm
Model 275 Universal Hart Communicator UMSITRPDS3-1 November 2010 2-12 2.5.1 Offline Menu The Offline menu provides access to two other menus: New
UMSITRPDS3-1 Model 275 Universal Hart Communicator November 2010 2-132.5.1.1 New Configuration This option is used to compile a custom set of devi
Model 275 Universal Hart Communicator UMSITRPDS3-1 November 2010 2-14 5. With the Blank Template menu displayed, choose from the options available
UMSITRPDS3-1 Model 275 Universal Hart Communicator November 2010 2-15The Save As... menu also is used to enter or edit the configuration Name and D
Model 275 Universal Hart Communicator UMSITRPDS3-1 November 2010 2-16 2.5.1.2 Saved Configuration The second option on the Offline menu is the Sav
UMSITRPDS3-1 Model 275 Universal Hart Communicator November 2010 2-17XPAND The XPAND function key allows a user to view the Tag, Descriptor, and N
Contents UMSITRPDS3-1 November 2010 ii 4.3.1 Mechanical ...
Model 275 Universal Hart Communicator UMSITRPDS3-1 November 2010 2-18 2.5.2 Online Menu An operating transmitter can be tested and configured from
UMSITRPDS3-1 Model 275 Universal Hart Communicator November 2010 2-19 1 Device setup* 1 Process variables 1 Pressure + 2 Percent range +
Model 275 Universal Hart Communicator UMSITRPDS3-1 November 2010 2-20 1 Device setup 1 Process variables 1 Preset variable 2 Percent rang
UMSITRPDS3-1 Model 275 Universal Hart Communicator November 2010 2-21Lower Range Value (LRV) – the current lower range value and the related engine
Model 275 Universal Hart Communicator UMSITRPDS3-1 November 2010 2-22 2.5.4.2 System Information From the Utility menu, press “2” to access the Sy
UMSITRPDS3-1 Model 275 Universal Hart Communicator November 2010 2-232.6 USING THE QUICK ACCESS KEY Pressing the Quick Access Key (Hot Key) while
Model 275 Universal Hart Communicator UMSITRPDS3-1 November 2010 2-24 2.6.1 Adding Quick Access Key Options The Quick Access Key menu contains spa
UMSITRPDS3-1 Model 275 Universal Hart Communicator November 2010 2-252.6.2 Deleting Quick Access Key Options Use the following steps to delete an
Model 275 Universal Hart Communicator UMSITRPDS3-1 November 2010 2-26
UMSITRPDS3-1 Pre-Installation Test November 2010 3-13.0 PRE-INSTALLATION TEST Prior to installation, the transmitter can be tested and operated fr
UMSITRPDS3-1 Contents November 2010 iii6.2.11 Select the Displayed Input Pressure Engineering Unit...6-16 6.
Pre-Installation Test UMSITRAPDS3-1 November 2010 3-2 _+mA+_- +4-20 mA+IO250+__MG00358bVdc123456 1 Transmitter field terminals 2 Analog outpu
UMSITRPDS3-1 Pre-Installation Test November 2010 3-33.2 ESTABLISHING COMMUNICATION 1. Connect the transmitter, power supply, and HART Communicato
Pre-Installation Test UMSITRAPDS3-1 November 2010 3-4 3.4 REVIEWING CONFIGURATION DATA Review the configuration before placing a transmitter in se
UMSITRPDS3-1 Installation November 2010 4-14.0 INSTALLATION Transmitter installation is discussed in this section. Topics include: equipment deliv
Installation UMSITRPDS3-1 November 2010 4-2 4.2 ENVIRONMENTAL CONSIDERATIONS Many industrial processes create severe environmental conditions. The
UMSITRPDS3-1 Installation November 2010 4-3• Determine if an explosion-proof or intrinsically safe installation is required. Refer to the transmit
Installation UMSITRPDS3-1 November 2010 4-4 4.3.3 Impulse Piping for Absolute and Differential Models Impulse piping is the piping to be connected
UMSITRPDS3-1 Installation November 2010 4-5MG00344aFlow3-ValveManifoldHighPressureSideLowPressureSideModel 7MF4433or 7MF4533Horizontal Main Line Fl
Installation UMSITRPDS3-1 November 2010 4-6 A. Pressurized (Closed) Vessel Installation:Non-Condensable FluidB. Pressurized (Closed) Vessel Install
UMSITRPDS3-1 Installation November 2010 4-7MG00345aSuppressed-Zero RangeNon-Corrosive Dry Gases and LiquidsSafetyShut-OffValve(Gas)Safety Shut-OffV
Contents UMSITRPDS3-1 November 2010 iv 8.5 ABSOLUTE PRESSURE (DIFFERENTIAL CONSTRUCTION)...8-4 8.6 ABSOLUTE PRE
Installation UMSITRPDS3-1 November 2010 4-8 MG00347aSafetyShut-OffValveShut-OffValveDrainValveFilling Tee withHex PlugTo DrainModel 7MF4033
UMSITRPDS3-1 Installation November 2010 4-9 MG00348bClosed Tank, Non-Condensing Atmosphere, Level MeasurementBlowdownValveNon-CondensingAtmosp
Installation UMSITRPDS3-1 November 2010 4-10 4.3.4 Transmitter Operating Mode and Network Type A transmitter outputs either an analog current or a
UMSITRPDS3-1 Installation November 2010 4-11 +_- +4-20 mA+_- +4-20 mAMG00349aController,Recorder,Indicator, orother 1-5 VdcDeviceSee Note
Installation UMSITRPDS3-1 November 2010 4-12 MG00350a+_- +4-20 mAHazardousLocationNon-HazardousLocationProcidiaTerminalsAIN1See Note 434IOTra
UMSITRPDS3-1 Installation November 2010 4-13 +_- +4-20 mAHazardousLocationNon-HazardousLocationModel 353/354TerminalsAIN1See Note 420IOTransmi
Installation UMSITRPDS3-1 November 2010 4-14 4.3.4.2 Digital Mode When a transmitter is configured for digital mode operation, the following state
UMSITRPDS3-1 Installation November 2010 4-15 +_- +4-20 mAMG00351aHazardousLocationNon-HazardousLocationNetworkPrimaryMasterSee Note 1+IOTransm
Installation UMSITRPDS3-1 November 2010 4-16 100100700600200180045403015 20 25 3517001600150014001300120011001000900800500400300Loop Resistance, Oh
UMSITRPDS3-1 Installation November 2010 4-174.3.5.2 Multi-Drop Network Perform the following simple calculations to ensure that the power supply o
UMSITRPDS3-1 Contents November 2010 v4-5 Open and Closed Tank Level Measurement, Flange Mounted Transmitters ...4-9 4-6 Point-T
Installation UMSITRPDS3-1 November 2010 4-18 4.3.6.2 Maximum Cable Length Calculation The maximum permissible single-pair cable length is 10,000 f
UMSITRPDS3-1 Installation November 2010 4-19Example Calculation: Assume a network consists of two field instruments (both Cn = 1). Let R = 250Ω,
Installation UMSITRPDS3-1 November 2010 4-20 4.3.9 Connection of Miscellaneous Hardware Miscellaneous non-signaling hardware (e.g., recorders, cur
UMSITRPDS3-1 Installation November 2010 4-214.3.10 Shielding and Grounding GROUNDING Ground the transmitter’s enclosure through a 16 AWG (1.3 mm2
Installation UMSITRPDS3-1 November 2010 4-22 4.4 MECHANICAL INSTALLATION This section describes the mechanical installation of a transmitter and t
UMSITRPDS3-1 Installation November 2010 4-23 Models 7MF4033 and 7MF4233 920-07010-XXX-1.pcx FIGURE 4-11 Pipe Mounting, Gauge Construction MG
Installation UMSITRPDS3-1 November 2010 4-24 Models 7MF4333, 7MF4433, and 7MF4533 920-07012-XXX-1.pdf FIGURE 4-13 Differential Construction, P
UMSITRPDS3-1 Installation November 2010 4-253. Thread ½" nipples, 3 inches (or less) in length, into the high- and low-pressure ports of the
Installation UMSITRPDS3-1 November 2010 4-26 TABLE 4-2 Flange And Extension Dimensions A. Flange Dimensions SIZE DIM “D” DIM “BC” DIM “T” DIM “ED”
UMSITRPDS3-1 Installation November 2010 4-274.5 MECHANICAL INSTALLATION, All Models The following subsections describe rotating the enclosure hous
Contents UMSITRPDS3-1 November 2010 vi LIST OF TABLES Table and Title Page 1-1 Measurements, Models and Figure References...
Installation UMSITRPDS3-1 November 2010 4-28 4.5.2 Display Orientation As supplied the display is oriented for viewing with the transmitter instal
UMSITRPDS3-1 Installation November 2010 4-294.5.3 Electrical Conduit and Cable Installation All electrical conduit and all signal wires must be su
Installation UMSITRPDS3-1 November 2010 4-30 4.5.3.2 Cables • Mark or tag each cable conductor as either LOOP (+) or LOOP (-) to ensure correct c
UMSITRPDS3-1 Installation November 2010 4-314.6 ELECTRICAL INSTALLATION This section describes loop wiring for Point-to-Point and Multi-Drop netwo
Installation UMSITRPDS3-1 November 2010 4-32 8. Ground the enclosure by installing a 16 AWG (1.3 mm2) or larger copper wire between the enclosure
UMSITRPDS3-1 Installation November 2010 4-334.7 HAZARDOUS AREA INSTALLATION Drawings providing transmitter installation data for hazardous areas a
Installation UMSITRPDS3-1 November 2010 4-34
UMSITRPDS3-1 Post-Installation Test November 2010 5-15.0 POST-INSTALLATION TEST This section provides guidelines for performing a post-installatio
Post-Installation Test UMSITRPDS3-1 November 2010 5-2 Refer to Section 9 Model Designations and Specifications to confirm that the correct model wi
UMSITRPDS3-1 Post-Installation Test November 2010 5-35.4 VERIFICATION This section describes the communication test, communication error check, an
UMSITRPDS3-1 Contents November 2010 viiChanges for Revision 10, November 2010 Significant changes for Rev. 10 are listed below. Section Revision C
Post-Installation Test UMSITRPDS3-1 November 2010 5-4 5.4.3 Loop Test This test verifies that a transmitter is operating properly and is capable o
UMSITRPDS3-1 Post-Installation Test November 2010 5-55.5 TRANSMITTER ZERO AND SHUTOFF VALVE MANIPULATION This section describes setting transmitte
Post-Installation Test UMSITRPDS3-1 November 2010 5-6 5.5.1.1 Measuring Gases Operate the shutoff fittings as described below. Refer to Figure 5-2
UMSITRPDS3-1 Post-Installation Test November 2010 5-75.5.1.2 Measuring Vapor and Liquid Operate the shutoff valves in the following order. Refer t
Post-Installation Test UMSITRPDS3-1 November 2010 5-8 5.5.2 Differential Pressure and Flow Differential pressure and flow transmitters can be comm
UMSITRPDS3-1 Post-Installation Test November 2010 5-9 Transmitter above the active pressure taps (normal arrangement) Transmitter below the ac
Post-Installation Test UMSITRPDS3-1 November 2010 5-10 8. Close the active pressure valve (2). 9. Open the active pressure valve (3B) slightly un
UMSITRPDS3-1 Post-Installation Test November 2010 5-115.5.3 Measuring Vapor Operate the shutoff valves in the following order. Refer to Figure 5-6
Post-Installation Test UMSITRPDS3-1 November 2010 5-12 11. Check and correct zero (4 mA) if necessary at zero bar. 12. Close the compensation valve
UMSITRPDS3-1 On-Line Operation November 2010 6-16.0 ON-LINE CONFIGURATION AND OPERATION A transmitter is shipped with default data in its memory.
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