Emerson Rosemount 3300 Series Reference Manual
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Emerson Rosemount 3300 Series Reference Manual

Guided wave radar level and interface transmitters
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Reference Manual
00809-0100-4811, Rev CA
February 2006
Rosemount 3300 Series
Guided Wave Radar Level and Interface Transmitters
www.rosemount.com

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  • Page 1 Reference Manual 00809-0100-4811, Rev CA February 2006 Rosemount 3300 Series Guided Wave Radar Level and Interface Transmitters www.rosemount.com...
  • Page 3 Rosemount and the Rosemount logotype are registered trademarks of Rosemount Inc. HART is a registered trademark of the HART Communication Foundation. Teflon, VITON, and Kalrez are registered trademarks of DuPont Performance Elastomers. Asset Management Solutions is a trademark of Emerson Process Management. Cover Photo: CoverPhoto_08/CoverPhoto_07 www.rosemount.com...

  • Page 5: Table Of Contents

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Table of Contents SECTION 1 Safety Messages ......... 1-1 Manual Overview .
  • Page 6 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Non-Intrinsically Safe Output ......3-24 Intrinsically Safe Output .
  • Page 7 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 SECTION 6 Safety messages ......... 6-1 Advanced Configuration .
  • Page 8 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 TOC-4...

  • Page 9: Safety Messages

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Section 1 Introduction Safety Messages ....... . . page 1-1 Manual Overview .

  • Page 10: Manual Overview

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 MANUAL OVERVIEW This manual provides installation, configuration and maintenance information for the Rosemount 3300 Series Radar Transmitter. Section 2: Transmitter Overview • Theory of Operation • Description of the transmitter •...

  • Page 11: Service Support

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 SERVICE SUPPORT To expedite the return process outside of the United States, contact the nearest Rosemount representative. Within the United States, call the Rosemount National Response Center using the 1-800-654-RSMT (7768) toll-free number. This center, available 24 hours a day, will assist you with any needed information or materials.
  • Page 12 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006...

  • Page 13: Theory Of Operation

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Section 2 Transmitter Overview Theory of Operation ......page 2-1 Applications .

  • Page 14: Applications

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 APPLICATIONS The Rosemount 3300 Series Radar Transmitter program is suited for aggregate (total) level measurements on most liquids, semi-liquids, and liquid/liquid interfaces. Guided microwave technology offers highest reliability and precision which ensure measurements are virtually unaffected by temperature, pressure, vapor gas mixtures, density, turbulence, bubbling/boiling, low level, varying dielectric media, pH, and viscosity.
  • Page 15 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Separator tank. The Rosemount 3302 measures both level and interface level. The Rosemount 3300 series is a good choice for underground tanks since it is installed on the tank top with the radar pulse concentrated near the probe.

  • Page 16: Components Of The Transmitter

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 COMPONENTS OF THE The Rosemount 3300 Series Radar Transmitter has an aluminum transmitter housing which contains advanced electronics for signal processing. TRANSMITTER The radar electronics produces an electromagnetic pulse which is guided by the probe.

  • Page 17: System Architecture

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 SYSTEM The Rosemount 3300 Series Radar Transmitter is loop-powered which means it uses the same two wires for both power supply and output signal. ARCHITECTURE The output is a 4-20 mA analog signal superimposed with a digital HART signal.

  • Page 18: Probe Selection Guide

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 PROBE SELECTION Use the following guidelines to choose appropriate probe for your 3300 transmitter: GUIDE Table 2-1. Probe selection guide. G=Good, NR=Not Recommended, AD=Application Dependent (consult factory) Coaxial Rigid Twin Lead Flexible Twin Lead Rigid Single Lead Flexible Single Lead Measurements...

  • Page 19: Dead Zones

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Dead Zones The measuring range depends on probe type and properties of the product. The Upper Dead Zone is the minimum measurement distance between the upper reference point and the product surface. The Upper Dead Zone varies between 4 - 20 in.

  • Page 20: Process Characteristics

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 PROCESS The Rosemount 3300 Series has a high sensitivity due to its advanced signal processing and high signal to noise ratio, which makes it able to handle CHARACTERISTICS various disturbances. However, the following circumstances should be considered before mounting the transmitter.

  • Page 21: Measuring Range

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Measuring Range The measuring range differs depending on probe type and characteristics of the application. The values given in Table 2-4 can be used as a guideline for clean liquids. Table 2-4.
  • Page 22 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 For measuring the interface level, the transmitter uses the residual wave of the first reflection. Part of the wave, which was not reflected at the upper product surface, continues until it is reflected at the lower product surface. The speed of this wave depends fully on the dielectric constant of the upper product.

  • Page 23: Vessel Characteristics

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Emulsion Layers Sometimes there is an emulsion layer (mix of the products) between the two products which, depending on its characteristics, will affect interface measurements. Please consult factory for guidelines on how to handle emulsion layers. VESSEL CHARACTERISTICS Heating Coils, Agitators...
  • Page 24 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 2-12...

  • Page 25: Safety Messages

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Section 3 Installation Safety messages ....... . . page 3-1 Installation Procedure .
  • Page 26 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 High voltage that may be present on leads could cause electrical shock: Avoid contact with leads and terminals. Make sure the main power to the 3300 transmitter is off and the lines to any other external power source are disconnected or not powered while wiring the gauge.

  • Page 27: Installation Procedure

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 INSTALLATION Follow these steps for proper installation: PROCEDURE Review Installation Considerations (see page 3-6) Check switches for 4-20 mA AlarmOutput (see page 3-4) Mount the transmitter (see page 3-13) Wire the transmitter (see page 3-21) Make sure covers and cable/conduit...

  • Page 28: Before You Install

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 BEFORE YOU INSTALL Alarm and Write Electronic boards are electrostatically sensitive. Failure to observe proper handling precautions for static-sensitive components can result in damage to Protection Switches the electronic components. Do not remove the electronic boards from the 3300 Radar Transmitter.
  • Page 29 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Figure 3-1. Switches for Alarm and Write Protection Write Protection Alarm Output To set the Alarm and Write Protect switches do the following: 1. Remove the cover on the circuit side (see main label). 2.

  • Page 30: Mounting Considerations

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 MOUNTING Before you install the Rosemount 3300 Series Radar Transmitter, be sure to consider specific mounting requirements, vessel characteristics and process CONSIDERATIONS characteristics. Process Connection The 3300 Series has a threaded connection for easy mounting on the tank roof.
  • Page 31 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Flange Connection on Nozzles Figure 3-3. Mounting in nozzles D1=min. diameter D2=min. diameter with Upper Null Zone adjustment Avoid nozzles with reducer The transmitter can be mounted in nozzles by using an appropriate flange. It is recommended that the nozzle size is within the dimensions given in Table 3-4.

  • Page 32: Installation Of Single Lead Probes In Non-Metallic Tanks

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Installation of Single For optimal single lead probe performance in non-metallic tanks the probe must be mounted with a metal flange, or screwed in to a metal sheet (d>8 Lead Probes in in./200 mm) if the threaded version is used.

  • Page 33: Mounting In Still Pipes/By-Pass Pipes

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Mounting in Still In order to prevent the probe from contacting the bridle wall when replacing displacers or installing in pipes, centering discs are available for the Rigid pipes/by-pass pipes Single, Flexible Single and Flexible Twin Lead probes.

  • Page 34: Free Space

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Free Space For easy access to the transmitter make sure that it is mounted with sufficient service space. For maximum measurement performance the transmitter should not be mounted too close to the tank wall or other objects in the tank. If the probe is mounted close to a wall, nozzle or other tank obstruction noise might appear in the level signal.

  • Page 35: Recommended Mounting Position

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Recommended Mounting When finding an appropriate mounting position for the transmitter the conditions of the tank must be carefully considered. The transmitter should be Position mounted so that the influence of disturbing objects is reduced to a minimum. In case of turbulence the probe may need to be anchored to the bottom.

  • Page 36: Insulated Tanks

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Insulated Tanks For insulated tanks the permitted ambient temperature is limited above a certain process temperature. Limitations depend on the thickness of the tank insulation, see “Ambient Temperature“ on page A-6 for more information. HTHP version Tank insulation Figure 3-8.

  • Page 37: Mechanical Installation

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 MECHANICAL Mount the transmitter with flange on a nozzle on top of the tank. The transmitter can also be mounted on a threaded connection. Make sure only INSTALLATION qualified personnel perform the installation. NOTE If you need to remove the transmitter head from the probe, make sure that the Process Seal is carefully protected from dust and water.
  • Page 38 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Figure 3-11. Threaded tank connection. 1. For tank connections with BSP/G threads, place a gasket on top of the tank flange, or use a sealant on the threads of the tank connection.

  • Page 39: Shortening The Probe

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Shortening the Probe Flexible Twin/Single Lead 1. Mark off the required probe length. Add at least 1.6 inch/40 mm to the required probe length to be inserted into the weight. 2.
  • Page 40 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Rigid Twin Lead The spacers are put closer together at the probe end. The maximum amount that can be cut away is related to the ordering length L. To cut a Rigid Twin Lead probe do the following: L>46.5 in.
  • Page 41 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Coaxial To cut a coaxial probe do the following: Centering piece NOTE! The HTHP coaxial probe must not be cut in field. 1. Insert the centering piece. (The centering piece is delivered from factory and should be used to prevent the spacers centering the rod from...

  • Page 42: Anchoring

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Anchoring In turbulent tanks it may be necessary to fix the probe. Depending on the probe type different methods can be used to guide the probe to the tank bottom. This may be needed in order to prevent the probe from hitting the tank wall or other objects in the tank, as well as preventing a probe from breaking.
  • Page 43 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Coaxial probe. The Coaxial probe can be guided by a tube welded on the tank bottom. Tubes are customer supplied. Make sure that the probe can move freely in order to handle thermal expansion. Drain Rigid Twin Lead probe.

  • Page 44: Mounting A Centering Disc For Pipe Installations

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Mounting a Centering Flexible Single/Twin Lead probe Disc for Pipe Installations Centering disc 1. Mount the centering disc at the end of the weight. 2. Make sure that the tab washer is properly inserted in the centering Tab washer disc.

  • Page 45: Electrical Installation

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 ELECTRICAL INSTALLATION Cable/conduit entries The electronics housing has two entries for ½ - 14 NPT. Optional M20×1.5 and PG 13.5 adapters are also available. The connections are made in accordance with local or plant electrical codes. Make sure that unused ports are properly sealed to prevent moisture or other contamination from entering the terminal block compartment of the electronics housing.

  • Page 46: Power Requirements

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Power Requirements Terminals in the transmitter housing provide connections for signal cables. The 3300 transmitter is loop-powered and operates with power supplies ranging from 11 to 42 VDC. For Intrinsically Safe output the supply voltage must be within 11 to 30 VDC.

  • Page 47: Connecting The Transmitter

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Connecting the The 3300 Series is a two-wire loop powered transmitter accepting power supplies ranging from 11 VDC to 42 VDC. It uses 4-20 mA power Transmitter superimposed with a HART signal. To connect the transmitter: 1.

  • Page 48: Non-Intrinsically Safe Output

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Non-Intrinsically Safe For non-intrinsically safe installations, wire the transmitter as shown in Figure 3-15. Output NOTE! Make sure that the power supply is off when connecting the transmitter. Figure 3-15. Wiring diagram for non-intrinsically safe installations.

  • Page 49: Intrinsically Safe Output

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Intrinsically Safe Output For intrinsically safe installations wire the transmitter as shown in Figure 3-16. NOTE! Make sure that the instruments in the loop are installed in accordance with intrinsically safe field wiring practices and System Control Drawings when applicable.

  • Page 50: Optional Devices

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 OPTIONAL DEVICES Tri-Loop The Model 3300 transmitter outputs a HART signal with four process variables. By using the Model 333 HART Tri-Loop up to three additional analog 4-20 mA outputs are provided. Figure 3-17.

  • Page 51: Using More Than One Transmitter On The Bus

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Using More than one The 3300 transmitter can be run in multidrop mode. In the multidrop mode each transmitter has a unique HART address. transmitter on the bus Figure 3-18. Multidrop connection The poll address can be changed by using a 375 Field Communicator or by using the Rosemount Configuration Tools software.

  • Page 52: 751 Field Signal Indicator

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 751 Field Signal Indicator Figure 3-19. Wiring diagram for 3300 transmitter with 751 Field Signal Indicator MODEL 3300 RADAR TRANSMITTER Model 751 Field Signal Indicator Power supply Figure 3-20. Alternative wiring diagram for 3300 transmitter with 751 Field Signal Indicator MODEL 3300 RADAR...

  • Page 53: Safety Messages

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Section 4 Start-Up Safety messages ....... . . page 4-1 Configuration Parameters .

  • Page 54: Configuration Parameters

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 CONFIGURATION The Rosemount 3301 transmitter can be configured for level and volume measurements. The Rosemount 3302 is designed to measure interface level PARAMETERS and interface distance as well. The 3300 transmitter can be pre-configured according to the ordering specifications in the Configuration Data Sheet.
  • Page 55 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Reference Gauge Height The Reference Gauge Height is the distance from the Upper Reference Point to the bottom of the tank. The transmitter measures the distance to the product surface and subtracts this value from the Reference Gauge Height to determine the level.
  • Page 56 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Upper Null Zone This parameter should only be changed if there are measurement problems in the upper part of the tank. Such problems may occur if there are disturbing objects close to the probe. By setting the Upper Null Zone the measuring range is reduced.

  • Page 57: Volume Configuration

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Volume Configuration For volume calculations you can choose one of the standard tank shapes or the strapping option. Choose None if volume calculation is not used. Tank Type You can choose one of the following options: •...
  • Page 58 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Standard Tank Shapes Figure 4-4. Standard tank shapes Vertical Cylinder Vertical Cylinder tanks are specified by Diameter and Height. Diameter Height Horizontal Cylinder Horizontal Cylinders are specified by Diameter Diameter and Height. Height Vertical Bullet Vertical Bullet tanks are specified by...

  • Page 59: Configuration Usinga 375 Field Communicator

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 CONFIGURATION USING This section describes how to configure the 3300 transmitter by using a 375 Field Communicator. A 275 HART Communicator may also be used. A 375 FIELD COMMUNICATOR For information on all the capabilities, refer to the 375 Field Communicator Product Manual (document 00809-0100-4276).
  • Page 60 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Figure 4-6. HART Communicator Menu Tree corresponding to Device Revision 2. 1 Variable mapping 1 Variable re-map - Level - Distance 2 Level 2 PV is 1 Process 3 Distance 3 SV is - Volume Variables...

  • Page 61: Basic Configuration

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 BASIC CONFIGURATION This section describes the various HART commands used to configure the 3300 Series of transmitters for level measurements. The transmitter outputs a 4 - 20 mA signal proportional to the primary variable. Three additional variables are available through the HART signal.

  • Page 62: Probe Type

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Probe Type The transmitter automatically makes an initial calibration based on the type of 1, 3, 2, 3 HART Comm probe that is used. This parameter is pre-configured at factory and only needs to be set if the probe is changed to another type.

  • Page 63: Measurement Mode

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Measurement Mode Normally the Measurement Mode does not need to be changed. The 1, 3, 3, 4 HART Comm transmitter is pre-configured according to the specified model: Table 4-1. Measurement Mode Model Measurement Mode 3301...

  • Page 64: And 20 Ma Points

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 4 and 20 mA Points When setting the range values, it is possible to enter the values directly using 1, 3, 4, 3 HART Comm the keypad on the Field Communicator, or you may use actual values (HART command [1, 3, 4, 2]).

  • Page 65: Volume Configuration

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 VOLUME CONFIGURATION Transmitter Variables Select the Volume option in order to configure the transmitter for volume 1, 1, 1, 1 HART Comm measurements. Volume Units Choose one of the following units: 1, 3, 1, 2 HART Comm •...

  • Page 66: Configuration Using The Radar Configuration Tool

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 CONFIGURATION USING The Radar Configuration Tool (RCT) is a user-friendly software tool that allows you to configure the Rosemount 3300 transmitter. You can choose THE RADAR either of the following two methods to configure a 3300 transmitter: CONFIGURATION TOOL •...

  • Page 67: Help In Rct

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Figure 4-8. RHCS Server window Check that the selected COM port matches the connected port on the PC. 3. Check the COM port. 4. Choose the COM Port option that matches the COM Port connected to the transmitter.

  • Page 68: Using The Setup Wizard

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Using the Setup Wizard To install a 3300 transmitter by using the installation Wizard do the following: Figure 4-9. RCT workspace 1. Start the RCT software. Basic 2. In the RCT workspace click the Wizard icon (make sure that the Wizard Basic section is open),...

  • Page 69: Using The Setup Function

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Using the Setup To install a 3300 transmitter by using the Setup function do the following: Function Figure 4-11. RCT workspace 1. Start the RCT software. Basic 2. In the RCT workspace click the Setup icon (make sure that the Basic area is open), Setup...

  • Page 70: Setup - Info

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Setup - Info The Title tab shows information about the connected transmitter. Figure 4-13. Setup Title tab Device Name: designation of the current transmitter model. EPROM ID:current transmitter database version. Device Type: designates the transmitter type.

  • Page 71: Setup - Output

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Setup - Output The Output tab lets you assign up to four transmitter variables. Figure 4-15. Setup output tab Typically, the Primary Variable (PV) is configured to be Product Level, Interface Level or Volume.

  • Page 72: Setup - Tank Config

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Setup - Tank Config The Tank Configuration tab contains information on tank geometry parameters and dielectrics. Figure 4-16. Setup Tank Configuration tab Tank Geometry The Reference Gauge Height is the distance from the Upper Reference Point to the bottom of the tank (see Figure 4-1 on page 4-2).
  • Page 73 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Measurement Mode Normally the Measurement Mode does not need to be changed. The transmitter is pre-configured according to the specified model: Table 4-2. Measurement Mode Model Measurement Mode 3301 Level , Interface Immersed probe 3302 Level, Level and Interface...

  • Page 74: Setup - Volume

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Measurements Below Probe End The Present Level=0... check box controls how the level value is presented when the tank is almost empty. By selecting this check box the Level is set equal to zero as long as the product surface is below the probe.

  • Page 75: Setup - Lcd

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Setup - LCD The LCD tab lets you specify which parameters to appear on the display panel. The display has two rows, the upper row with five characters is for the measured value and the lower row with six characters for the value name.

  • Page 76: Special Functions

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 SPECIAL FUNCTIONS TriLoop The Rosemount 333 HART Tri-Loop HART-to-Analog Signal Converter is capable of converting a digital HART burst signal into three additional 4-20 mA analog signals. To set the Rosemount 3300 transmitter up for the HART Tri-Loop do the following: 1.
  • Page 77 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 5. Set the 3300 in Burst mode. HART command [1, 4, 5, 2, 3]. RCT: Device Commands>Details>Set Burst Mode option. 6. Select Burst option 3=Process variables and current (Process vars/crnt). HART command [1,4,5,2,4].
  • Page 78 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 To turn off the Burst Mode In order to turn off the Burst Mode use one of the following options: • The RCT program (requires that the Receive and Transfer Buffers for the selected COM Port is adjusted) •...

  • Page 79: Display Functionality

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Section 5 Operating the Display Panel Display Functionality ......page 5-1 Error Messages .

  • Page 80: Error Messages

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 ERROR MESSAGES The display can also be used for presentation of software errors. The upper row shows error codes and the lower row shows 'ERROR'. Figure 5-2. Presentation of error messages Error code “ERROR”...

  • Page 81: Safety Messages

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Section 6 Service and Troubleshooting Safety messages ....... . . page 6-1 Advanced Configuration .

  • Page 82: Advanced Configuration

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 ADVANCED This section covers non-standard configuration. CONFIGURATION User defined Upper If you want to specify your own Upper Reference Point you can do this by setting the Calibration Offset parameter. Reference Point Figure 6-1.

  • Page 83: Plotting The Measurement Signal

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Plotting the The Radar Configuration Tool (RCT) has powerful tools for advanced troubleshooting. By using the Waveform Plot function you get an instant view Measurement Signal of the tank signal. Measurement problems can be solved by studying the position and amplitude of the different pulses.
  • Page 84 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Logging and saving to disk The Waveform plot can be automatically logged and saved to file by specifying the read plot interval and the number of plots to log. Figure 6-3. Disk logging Waveform plot Read action type Start monitoring...

  • Page 85: Interface Measurements For Semi-Transparent Bottom Products

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Interface Measurements In interface applications where the bottom product has a low dielectric constant, or if the signal is attenuated in the upper product, the amplitude of for Semi-Transparent the reflected signal is relatively low and difficult for the transmitter to detect. In Bottom Products such a case it may be possible to detect the reflected signal if the corresponding amplitude threshold is adjusted.
  • Page 86 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Figure 6-4 illustrates a situation where amplitude threshold T3 is too high. The signal amplitude peak at the interface between the upper and lower products is not detected in this case. By adjusting amplitude threshold T3, the peak at the interface between the upper and lower products is detected as illustrated in Figure 6-5: Figure 6-5.

  • Page 87: High Level Rates

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 High Level Rates The measurement signal is filtered in order to minimize the influence of disturbing noise. In most measurement situations this does not have a noticeable effect on the response time to level changes. If high level rates occur it may however be necessary to reduce the damping value in order to allow the transmitter to respond quicker.

  • Page 88: Interface Measurements With Fully Immersed Probes

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Interface Measurements The 3300 series has a measurement option which makes it possible to handle interface measurements when the product level is not visible, for example in a with Fully Immersed full bridle pipe as illustrated in Figure 6-6.

  • Page 89: Service

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 SERVICE Analog Output To calibrate the Analog Output current do the following: Calibration 1. Start RCT and make sure that the transmitter communicates with the PC (see Section 4: Installing the RCT software). 2.

  • Page 90: Level And Distance Calibration

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Level and Distance When calibrating the transmitter it is important that the product surface is calm and that the tank is not being filled or emptied. Calibration A complete calibration is performed in two steps: 1.

  • Page 91: Disturbances At The Top Of The Tank

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Disturbances at the Top Using the Trim Near Zone Function of the Tank For transmitters using the Guided Wave Radar technology the performance In the Near Zone (referred to as the region between 0-1.6 ft (0-0.5 m) below the Upper Reference Point) is normally somewhat limited.
  • Page 92 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 To set the Upper Null Zone do one of the following: 1. Select the HART command [1, 3, 3, 1]. 2. Enter the desired value, 1. Start the Radar Configuration Tool (RCT). 2.

  • Page 93: Amplitude Threshold Settings

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Amplitude Threshold The amplitude thresholds are automatically adjusted to appropriate values in order to filter out noise and other non-valid measurements from the Settings measurement signal. The amplitude of the measurement signal, i.e. the amplitude of the signal that is reflected by the product surface, is related to the actual dielectric constant of the product.
  • Page 94 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 By adjusting the amplitude threshold T2 the product surface is detected correctly as illustrated in Figure 6-12. Figure 6-12. Waveform plot after threshold T2 was adjusted After T2 is adjusted the product surface is correctly detected Distance (samples) To adjust the amplitude thresholds select HART command [1, 4, 5, 3]...
  • Page 95 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Using the 375 Field Communicator To adjust amplitude threshold value: 1. Select HART command [1, 4, 5, 3]. The different amplitude thresholds appear on the display. Signal amplitude Amplitude threshold 2.

  • Page 96: Logging Measurement Data

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Logging Measurement To start logging do the following: Data 1. Click the Monitor icon in the RCT workspace or choose the Monitor option from the View menu. Start monitoring Log interval Counter Start disk logging 2.

  • Page 97: Saving The Transmitter Configuration

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Saving the Transmitter The Radar Configuration Tool offers different methods to save the current transmitter configuration: Configuration • Save only the configuration specified in the Setup window. • Use the more extensive function in the Memory Map window. You can use a stored configuration file as a backup of the current configuration, or it can be distributed for service purposes.
  • Page 98 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 To load a setup 1. Click the Setup icon in the RCT workspace or choose the Setup option from the File menu. Open Setup 2. In the Setup window click the right mouse button and choose the Open Setup option, or from the File menu choose the Open Setup option.

  • Page 99: Removing The Transmitter Head

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Removing the Transmitter Head 1. Loosen the nut that connects the FLANGE VERSION transmitter housing to the Process Seal. 2. Carefully lift the transmitter head. 3. Make sure that the upper surface of the Process Seal is clean and the Process Seal Put the protection...

  • Page 100: Changing The Probe

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Changing the Probe Transmitter head Process Seal 1. Loosen the nut. 2. Remove the transmitter head from the old probe. 3. On the new probe, make sure that the protection plug is removed and the upper surface of the Process Seal is clean.

  • Page 101: Diagnostic Messages

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 DIAGNOSTIC MESSAGES Troubleshooting If there is a malfunction despite the absence of diagnostic messages, see Table 6-1 for information on possible causes. Table 6-1. Troubleshooting chart Symptom Possible cause Action No HART communication.

  • Page 102: Errors

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Errors Table 6-2 is a list of diagnostic messages that may be displayed on the Integral Display, on the 375 Field Communicator, in AMS Suite or by the Radar Configuration Tools (RCT) software. Errors normally result in Analog Output alarm.

  • Page 103: Warnings

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Warnings Table 6-3 is a list of diagnostic messages that may be displayed on the Integral Display, on the Model 375 Field Communicator or by the Radar Configuration Tools (RCT) software. Warnings are less serious than errors and in most cases do not result in Analog Output alarms.
  • Page 104 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 6-24...

  • Page 105: Specifications

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Appendix A Reference Data Specifications ........page A-1 Dimensional drawings .
  • Page 106 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Mechanical Probes Coaxial: 1.3 ft (0.4 m) to 19.7 ft (6 m). Rigid Twin Lead: 1.3 ft (0.4 m) to 9.8 ft (3 m). Flexible Twin Lead: 3.3 ft (1 m) to 77.1 ft (23.5 m). Rigid Single Lead: 1.3 ft (0.4 m) to 9.8 ft (3 m).
  • Page 107 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Measuring Performance ≤ Reference accuracy ± 0.2 inch (5 mm) for probes 16.4 ft (5 m). ± 0.1% of measured distance for probes >16.4 ft (5 m). Repeatability ± 0.04 inch (1 mm). Ambient Temperature Effect Less than 0.01 % of measured distance per °C.

  • Page 108: Process Temperature And Pressure Rating

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Process Temperature The tank connection consists of tank seal and a flange (EN, ANSI, Fisher or Masoneilan) or NPT or BSP/G threads (1 or 1.5 in. depending on probe type, and Pressure Rating see ”Ordering Information”.).
  • Page 109 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 The HP and HTHP versions have a ceramic tank seal, and graphite gaskets - no O-rings are used. The difference between the HP and HTHP versions is spacer material; PFA for HP, and ceramics for HTHP.

  • Page 110: Ambient Temperature

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Ambient Temperature When the Rosemount 3300 is installed in high temperature applications, it is important that the maximum ambient temperature is considered. Tank insulation should not exceed 4 inches (10 cm). The diagram below shows the maximum ambient temperature vs.

  • Page 111: Dimensional Drawings

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 DIMENSIONAL DRAWINGS Figure A-5. Rigid Twin Lead NPT 1½ inch NPT 1½ inch G 1½ inch 6.8 (173) 6.8 (173) ½ - 14 NPT 4.1 (104) 4.3 (110) 4.3 (110) Optional adapters: M20x1.5...
  • Page 112 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Figure A-6. Flexible Twin Lead NPT 1½ inch NPT 1½ inch G 1½ inch 6.8 (173) 6.8 (173) 6.8 (173) ½ - 14 NPT 4.3 (110) 4.1 (104) 4.3 (110) Optional adapters: M20x1.5...
  • Page 113 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Figure A-7. Coaxial NPT 1/1½ inch NPT 1/1½ inch G 1/1½ inch 6.8 (173) 6.8 (173) ½ - 14 NPT 4.1 (104) 4.3 (110) 4.3 (110) Optional adapters: M20x1.5 PG13.5 4.5 (113) 9.5 (241) 9.5 (241)
  • Page 114 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Figure A-8. Flexible Single Lead G 1/1½ inch NPT 1/1½ inch NPT 1/1½ inch 6.8 (173) 6.8 (173) ½ - 14 NPT 4.3 (110) 4.3 (110) 4.1 (104) Optional adapters: M20x1.5 PG13.5 4.5 (113)
  • Page 115 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Figure A-9. Rigid Single Lead G 1/1½ inch NPT 1/1½ inch NPT 1/1½ inch 6.8 (173) 6.8 (173) ½ - 14 NPT Optional 4.1 (104) 4.3 (110) 4.3 (110) adapters: M20x1.5 PG13.5 4.5 (113)

  • Page 116: Ordering Information

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 ORDERING INFORMATION Model Code 3301, Level in Liquids Model Product Description 3301 Guided Wave Radar Level Transmitter (interface available for fully immersed probe) Code Signal Output ® 4-20 mA with HART communication Code Housing Material...
  • Page 117 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Code Process Connection - Size / Type (consult factory for other process connections) ANSI Flanges in 316L SST (ASME A182) 2 inch ANSI, 150 lb 2 inch ANSI, 300 lb 2 inch ANSI, 600 lb (HTHP / HP units) 2 inch ANSI, 900 lb (HTHP / HP units) 2 inch ANSI, 1500 lb (HTHP / HP units)
  • Page 118 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Code Hazardous Locations Certifications No Hazardous Locations Certifications ATEX Flameproof FM Explosion Proof CSA Explosion Proof IECEx Flameproof ATEX Intrinsic Safety FM Intrinsic Safety and Non-Incendive CSA Intrinsic Safety and Non-Incendive IECEx Intrinsic Safety ATEX and CSA Flameproof/Explosionproof FM and CSA Explosionproof...
  • Page 119 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Model Code 3302, Level and Interface in Liquids Model Product Description 3302 Guided Wave Radar Level and Interface Transmitter Code Signal Output ® 4-20 mA with HART communication Code Housing Material Polyurethane-covered Aluminum Code Conduit / Cable Threads...
  • Page 120 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Code Process Connection - Size / Type (consult factory for other process connections) ANSI Flanges in 316L SST (ASME A182) 2 inch ANSI, 150 lb 2 inch ANSI, 300 lb 2 inch ANSI, 600 lb (HTHP / HP units) 2 inch ANSI, 900 lb (HTHP / HP units) 2 inch ANSI, 1500 lb (HTHP / HP units)
  • Page 121 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Code Hazardous Locations Certifications No Hazardous Locations Certifications ATEX Flameproof FM Explosion Proof CSA Explosion Proof IECEx Flameproof ATEX Intrinsic Safety FM Intrinsic Safety and Non-Incendive CSA Intrinsic Safety and Non-Incendive IECEx Intrinsic Safety ATEX and CSA Flameproof/Explosionproof FM and CSA Explosionproof...

  • Page 122: Spare Parts

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 SPARE PARTS Spare parts list Transmitter head Model 3301/3302 Model Product Description 3301 Transmitter head Model 3301 3302 Transmitter head Model 3302 Code Signal Output 4-20 mA with HART communication Code Housing Material Polyurethane-covered Aluminum...
  • Page 123 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Code Options Integral Digital Display Bar Code Tag Terminal block without transient protection Cx - Special Configuration (Software) Factory configuration (CDS required with order) Namur alarm and saturation levels, high alarm Namur alarm and saturation levels, low alarm Low alarm (standard Rosemount alarm and saturation levels)
  • Page 124 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Spare parts list Probe Model 3301/3302 Model Product Description 3309 Spare probe Code Signal Output Not applicable Code Housing Material Not applicable Code Conduit Threads/Cable Threads Not applicable Code Operating Temperature and Pressure Standard: -15 psig (-1 Bar) to 580 psig (40 Bar) @ 302 °F (150 °C) High Temp / High Pressure High Pressure...
  • Page 125 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Code Process Connection - Size/Type (consult factory for other process connections) ANSI Flanges in ASME A182 Gr. F316L SST 2 inch ANSI, 150 lb 2 inch ANSI, 300 lb 2 inch ANSI, 600 lb (HTHP / HP) 2 inch ANSI, 900 lb (HTHP / HP) 2 inch ANSI, 1500 lb (HTHP / HP) 3 inch ANSI, 150 lb...
  • Page 126 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Code Hazardous Locations Certifications Not applicable Code Options Hydrostatic testing NACE material recommendation per MR 01-75 Long Stud 9.8 in. (250 mm) for Flexible Single Lead probe. Prevents the wire from contacting wall/nozzle. Standard height is 3.9 in.
  • Page 127 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Spare parts list Other Spares and Accessories Model 3301/3302 Code Process Connection - Size/Type (consult factory for other process connections) Display kit and covers 03300-0670-0002 Integral Display Kit (including cover) 03300-0670-0001 Integral Display Kit (does not include cover) 03300-7002-0001...
  • Page 128 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 A-24...

  • Page 129: Safety Messages

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Appendix B Product Certifications Safety Messages ....... . . page B-1 EU Conformity .

  • Page 130: Eu Conformity

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 High voltage that may be present on leads could cause electrical shock: Avoid contact with leads and terminals. Make sure the main power to the Radar Transmitter is off and the lines to any other external power source are disconnected or not powered while wiring the transmitter.

  • Page 131: European Atex Directive Information

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 EUROPEAN ATEX DIRECTIVE INFORMATION Intrinsic Safety The Rosemount 3300 Series Guided Wave Radar Level and Interface Transmitter that has the following label attached has been certified to comply with Directive 94/9/EC of the European Parliament and the Council as published in the Official Journal of the European Communities No.

  • Page 132: Flameproof

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Flameproof The Rosemount 3300 Series Guided Wave Radar Level and Interface Transmitter that has the following label attached has been certified to comply with Directive 94/9/EC of the European Parliament and the Council as published in the Official Journal of the European Communities No.

  • Page 133: Hazardous Locations Certifications

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 HAZARDOUS The Rosemount 3300 Series Guided Wave Radar Level and Interface Transmitters that have the following labels attached have been certified to LOCATIONS comply with the requirements of the approval agencies noted. CERTIFICATIONS Factory Mutual (FM) Project ID: 3013394...

  • Page 134: Canadian Standards Association (Csa) Approval

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Canadian Standards Cert. no. 2002.1250250. Association (CSA) Approval Figure B-4. Approval Label Canadian Standards Association (CSA) E6 Explosion-Proof for Class I, Division 1, Groups C and D. Dust-Ignition proof for Class II, Division 1 and 2, Groups G and Coal Dust.

  • Page 135: Iecex Approval

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 IECEx Approval Figure B-5. Approval Labels IECEx. E7 Flameproof: Ex d [ia] IIC T6 (T +60 °C). IECEx TSA 04.0013X. Conditions of Certification The apparatus metallic enclosure must be electrically bonded to earth. The conductor used for the connection shall be equivalent to a copper conductor of 4 mm minimum cross-sectional area.

  • Page 136: Combination Of Approvals

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 COMBINATION OF APPROVALS Figure B-6. Approval Label ATEX Flame-Proof and Canadian Standards Association (CSA) Explosion-Proof. Figure B-7. Approval Label CSA Explosion-Proof and FM Explosion-Proof.
  • Page 137 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Figure B-8. Approval Label ATEX Flame-Proof and FM Explosion-Proof. Figure B-9. Approval Label ATEX Intrinsic Safety and CSA Intrinsic Safety.
  • Page 138 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Figure B-10. Approval Label FM Intrinsic Safety and CSA Intrinsic Safety. Figure B-11. Approval Label ATEX Intrinsic Safety and FM Intrinsic Safety. B-10...

  • Page 139: Approval Drawings

    Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 APPROVAL DRAWINGS This section contains Factory Mutual installation drawings and Canadian Standards installation drawings. You must follow the installation guidelines presented in order to maintain certified ratings for installed transmitters. This section contains the following drawings: Saab Rosemount drawing 9150077-944, Issue 1: System Control Drawing for hazardous location installation of intrinsically safe...
  • Page 140 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Figure B-12. System Control Drawing for hazardous location installation of intrinsically safe FM approved apparatus. 077-944 9150 B-12...
  • Page 141 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Figure B-13. System Control Drawing for hazardous location installation of CSA approved apparatus. 9150077-945 B-13...
  • Page 142 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Figure B-14. System Control Drawing for hazardous location installation of IECEx approved apparatus. B-14...
  • Page 143 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Index ... . 4-2 ....2-8 Numerics Configuration Foam...
  • Page 144 Reference Manual 00809-0100-4811, Rev CA Rosemount 3300 Series February 2006 Reference Gauge Height 4-20 ....6-2 3-24 3-25 ....2-8 Maximum load resistance Vapor .
  • Page 146 February 2006 Rosemount and the Rosemount logotype are registered trademarks of Rosemount Inc. PlantWeb is a registered trademark of one of the Emerson Process Management group of companies. Teflon, VITON, and Kalrez are registered trademarks of DuPont Performance Elastomers. Asset Management Solutions is a trademark of Emerson Process Management.

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