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Sensia 3300 EFM Installation, Operation & Maintenance Manual

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Scanner 3300 EFM
Hardware Installation, Operation & Maintenance Manual
Manual No. 50343919-01, Rev. 8

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Summary of Contents for Sensia 3300 EFM

  • Page 1 QRATE Scanner 3300 EFM Hardware Installation, Operation & Maintenance Manual Manual No. 50343919-01, Rev. 8...

  • Page 2: Important Safety Information

    Important Safety Information Symbols and Terms Used in this Manual WARNING: This symbol identifies information about practices or circumstances that can lead to personal injury or death, property damage, or economic loss. CAUTION Indicates actions or procedures which if not performed correctly may lead to personal injury or incorrect function of the instrument or connected equipment.

  • Page 3: Table Of Contents

    Flow Rate and Fluid Property Calculations ..........................14 Table 1.4—Flow Rate Standards...........................15 Table 1.5—Fluid Property and Energy Flow Calculations .....................16 Table 1.6—Flow Correction Factors ..........................18 Section 2 - Installing the Scanner 3300 EFM ....................20 Overview....................................20 CSA Installations ..................................20 Wiring Precautions ..............................20 Multi Variable Transmitter Mounting .............................20...
  • Page 4 Remote Mount to Orifice Meter or Cone Meter ......................46 Measuring Compensated Liquid via a Turbine Meter ......................48 Best Practices ................................48 Section 3 - Wiring the Scanner 3300 EFM ....................50 Field Wiring Connections..............................50 Power Supply Wiring ................................52 External Power Supply ..............................52 Transmitter Supply ................................53...
  • Page 5 Table of Contents Scanner 3300 EFM Table 6.5—Scanner 3300 Circuit Board Replacements ....................77 Appendix A - FTP Downloads ........................A-1 Downloading SDF Files from the Scanner 3300 ........................ A-1 Slave Device Archive Logs ..............................A-2 Viewing and Sharing Downloaded Data ..........................A-2 Appendix B - Firmware, Configuration, Scanner Logic, and Modbus Register Map Uploads ....B-1...
  • Page 6 Scanner 3300 EFM Table of Contents This page intentionally left blank.

  • Page 7: Section 1 - Introduction

    About the QRATE Scanner 3300 EFM The QRATE* Scanner* 3300 EFM is uniquely designed to serve as a stand-alone flow computer or as a network man- ager capable of collecting and storing data from up to 20 Scanner 2000 Series flow computers. As a stand-alone flow computer, the Scanner 3300 offers dual flow stream and bidirectional measurement and control, as well as the processing power to handle the industry’s most challenging flow computations for liquid and natural gas measurement.
  • Page 8 Section 1 Scanner 3300 EFM Important To download software or user documentation, visit Sensia’s Measurement website, https://www.sensiaglobal.com/Measurement/Types/Flow-Computing-and-Automation, select Scanner 3300 Series Wired and Wireless, and click on the link for the desired software installation or user manual. Feature Comparison Scanner 3100...

  • Page 9: Standard Features

    WARNING: PERSONAL RISK. Substitution of components and/or the use of equipment in a manner other than that specified by Sensia may impair suitability for ordinary locations. Sensia bears no legal respon- sibility for the performance of a product that has been serviced or repaired with parts that are not autho- rized by Sensia.

  • Page 10: Panel Mounting Kit

    Section 1 Scanner 3300 EFM Panel Mounting Kit It is recommended that the Scanner 3300 is panel mounted (Figure 1.3). For installation instructions, see Panel Mounting the Scanner 3300, page 24. Figure 1.3 - Scanner 3300 panel mounted...

  • Page 11: Wireless Communications

    Sensia’s direct-mount antenna is rated for a maximum of 1 watt of power and a maximum antenna gain of 1.6 dB (in North America) and has a frequency range of 2.35 to 2.60 GHz. Antennas with equivalent ratings may also be used with the coupler.

  • Page 12: Remote-Mount Antenna

    (Figure 1.5) may be installed up to 30 ft (10 m) away and connected by cable to the antenna coupler. A remote-mount antenna and connecting cable may be purchased from Sensia (see Section 6 - Scanner 3300 Parts, page 77).

  • Page 13: Configuration Lock

    Scanner 3300 EFM Section 1 Configuration Lock The configuration lock is located on the terminal board of the Scanner 3300 (Figure 1.6). The switch can be enabled to prevent unauthorized individuals from changing the configuration of the Scanner 3300. By default, this configuration lock feature is disabled and the switch position is ignored.

  • Page 14: Specifications

    Section 1 Scanner 3300 EFM Specifications Table 1.1—General Specifications Approvals CSA (US and Canada) ordinary location Environmental Relative humidity: 0% to 95% non-condensing Safety Altitude: Up to 2000 meters Enclosure Dimensions (L x W x H): 11.2” x 5.4” x 7.8”...
  • Page 15 Scanner 3300 EFM Section 1 Table 1.1—General Specifications Up to 58 archivable parameters per flow run Archive Capacity Daily log capacity 2,048 days Interval log 2.8 years with 13 parameters (plus date, time and status) logged hourly capacity Capacity varies with the number of parameters logged (13 to 58) and...
  • Page 16 Section 1 Scanner 3300 EFM Table 1.1—General Specifications Liquid Temperature and pressure compensation Compensation and Meter factor compensation Correction Factors Shrinkage factor compensation Live BS&W correction Live density correction Dynamic oil fraction (watercut)—derived from flowing density or watercut analyzer; automatic...
  • Page 17 Scanner 3300 EFM Section 1 Table 1.1—General Specifications Pulse/Frequency 3 channels (configurable as either Pulse/Frequency Inputs or as Analog Inputs for current) Inputs Maximum voltage: 30 VDC Maximum frequency: 10,000 Hz Gated transmitter power for each input channel Transmitter voltage supply is configurable: 8.5 V to 24 V...
  • Page 18 Section 1 Scanner 3300 EFM Table 1.1—General Specifications Digital I/O Output Modes Pulse (based on pulse count or time period) (cont’d) Alarm (based on the status of any or all selected alarms; up to 32 user- configured alarms are selectable)
  • Page 19 Scanner 3300 EFM Section 1 Table 1.2—Hardware Options 2.4 GHz self-healing and self-sustaining network Wireless SmartMesh Radio Factory installed antenna coupler with 12-in. coaxial cable and MMCX male connector Transmits up to 300 m (985 ft) node-to-node Radio Certifications Supports communications with up to 20 remote Scanner 2000 Series devices (each Scanner...

  • Page 20: Flow Rate And Fluid Property Calculations

    Section 1 Scanner 3300 EFM Table 1.3—Scanner Companion Software Important To download software or software user manuals, visit the Sensia website at https://www.sensiaglobal.com/Measurement/Types/Flow-Computing-and-Automation, select Scanner 3300 Series Wired and Wireless, and click on the link for the desired software install/manual.
  • Page 21 Scanner 3300 EFM Section 1 Table 1.4—Flow Rate Standards Standard Description ♦ The Scanner 3300 supports the orifice metering calculations described in AGA AGA 3 Report No. 3 (1992). This meter covers pipe sizes of nominal 2-in. and larger; (1992) there is no stated maximum limit, but the largest size listed in the standard is nominal 36 inch.
  • Page 22 Section 1 Scanner 3300 EFM Table 1.5—Fluid Property and Energy Flow Calculations Standard Description ♦ ♦ AGA 5 (2009) AGA 5 provides the methods for computing the mass, molar, and volumetric heating values of natural gas at reference temperature. AGA 5 is also used in calculating re- lated properties, including Wobbe index, motor octane number, and net (inferior) vol- ume heating value.
  • Page 23 Scanner 3300 EFM Section 1 Table 1.5—Fluid Property and Energy Flow Calculations Standard Description ♦ ISO 6976 specifies methods for the calculation of the superior calorific value and the ISO 6976 inferior calorific value, density, relative density and Wobbe index of dry natural gas...
  • Page 24 Section 1 Scanner 3300 EFM Flow Correction Factors The Scanner 3300 measures compensated petroleum liquid flow using an orifice or cone flow meter. For accuracy, these measurements often include a correction factor to compensate for the effect of gas or water on volume, or changes in cal- ibration.
  • Page 25 Scanner 3300 EFM Section 1 This page intentionally left blank.

  • Page 26: Section 2 - Installing The Scanner 3300 Efm

    The Scanner 3300 flow computer is fully assembled at the time of shipment and ready for mounting. The Scanner 3300 is not installed in a hazardous location, and so Sensia recommends that operators configure the EFM after mounting. The device may be configured via the web interface, using the touch screen controls (refer to...
  • Page 27 Figure 2.1, page 22. Contact your local Sensia sales office for details. Tubing is used to connect the integral multi variable transducer to the orifice meter or cone meter. If a multi variable transducer will be used for steam measurement, a condensate pot must also be installed to protect the multi variable transducer from extreme temperatures.
  • Page 28 Section 2 Scanner 3300 EFM Pole mount kit 9.60 Pole (243.8) mount kit MVT adapter 6.56 (166.6) 6.00 (152.4) 6.95 (176.5) Figure 2.1 - MVT with a standard bottom-port multi variable transducer and manifold on a 2-in. pole...

  • Page 29: Panel Mounting The Scanner 3300

    Scanner 3300 EFM Section 2 Panel Mounting the Scanner 3300 The Scanner 3300 may be panel mounted (Figure 2.2) side-by-side on a 4.5U panel. This is a convenient option as it al- lows the installation of the Scanner 3300 to be less laborious, and the Scanner may be organize along side other display units.
  • Page 30 Section 2 Scanner 3300 EFM Figure 2.4 - Scanner 3300 dimensions; dimensions in inches (mm) Install as follows: 1. Choose the location on the rack where the Scanner 3300 will be installed. 2. Securely fasten the panel on which the Scanner 3300 will be mounted to the chosen location on the rack.

  • Page 31: Requirements For Wireless Communications

    The installation of the antenna coupler, antennas, and antenna cable for the SmartMesh wireless must meet the require- ments shown in Figure 2.6, page 26 Figure 2.7, page Sensia supplies the following antenna and antenna cable options for SmartMesh wireless: • Direct-mount, right-angle antenna with SMA connector •...

  • Page 32: Fcc Radio Frequency Compliance

    PART NO. ANT-2.4-CW-RAH-SMA CONNECTS TO WIRELESS MODULE INSIDE SCANNER 3300 ENCLOSURE Figure 2.6 - Installation requirements for a direct-mount Sensia-supplied antenna REMOTE ANTENNA PART NO. 50279275 OR EQUIVALENT DESIGN WITH GAIN OF 10 dBI OR LESS SMA CONNECTOR (CSA - NORTH AMERICA) MAX.

  • Page 33: Ic Radio Frequency Compliance

    Scanner 3300 EFM Section 2 The SmartMesh radio has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a resi- dential installation.

  • Page 34: Antenna Installation Options

    2 in. or less. The supplied hardware includes two U-bolts, two toothed brackets, four lock washers and four nuts. Note If a 2-in. pipe with a 2 3/8-in. outside diameter is to be used, consider using Sensia’s 2-in. pipe mount hardware kit. To install the antenna, reference Figure 2.9...

  • Page 35: Remote-Mount Antenna For Pipe Outside Diameters Of 2 3/8 Inches

    Remote-Mount Antenna for Pipe Outside Diameters of 2 3/8 Inches Sensia’s optional pipe mount kit accommodates mounting the remote antenna to a 2-in. pipe with a 2 3/8-in. outside diameter. The hardware kit includes a stainless steel L-shaped bracket, two U-bolts, four U-bolt nuts, two stainless steel 5/16-18 bolts (3.25-in.

  • Page 36: Industry Standard Compliance

    Section 2 Scanner 3300 EFM Industry Standard Compliance To ensure measurement accuracy, flow runs and turbine meter runs must be installed in accordance with the industry standards listed in Table 2.2—Industry Standards for Meter Installation, page 30. For a complete list of industry stan- dards used in the development of flow rate and fluid property calculations, see Table 1.4—Flow Rate Standards, page...
  • Page 37 Scanner 3300 EFM Section 2 Table 2.2—Industry Standards for Meter Installation Meter Type Standard Description Venturi Meter ISO 5167, Part 1 Installation of orifice plates inserted into a circular cross-section conduit running full Limitation of pipe size and Reynolds number ISO 5167 is applicable only to flow that remains subsonic throughout the measuring section and where the fluid can be considered single-phase.

  • Page 38: Measuring Natural Gas Via A Differential Pressure Meter

    Section 2 Scanner 3300 EFM Measuring Natural Gas via a Differential Pressure Meter Best Practices The Scanner 3300 calculates gas flow through outputs from a MVT connected to a differential pressure meter. For best measurement accuracy, ensure that the meter run complies with the following AGA 3 and ISO 5167 guidelines, as appli- cable: •...

  • Page 39: Installation Procedure-Direct Mount To Orifice Meter Or Cone Meter

    This adapter can be a one-piece sta- bilizer (often preferred for added strength and stability) or a short heavy wall pipe nipple attached to a futbol flange (available from Sensia). Use a suitable compound or tape on all threaded process connections. CAUTION Do not use Teflon tape on the threads of the union, adapter, or pipe plugs.

  • Page 40: Installation Procedure-Remote Mount To Orifice Meter Or Cone Meter

    1. Verify that the meter is properly installed in the flow line (per manufacturer’s instructions). 2. Mount the MVT to a 2-in. pipe using the mounting bosses on the side of the enclosure and a Sensia pole mount kit. Multi Variable Transmitter Mounting, page 20 for detailed mounting instructions.

  • Page 41: Measuring Natural Gas Via A Turbine Meter

    Scanner 3300 EFM Section 2 Measuring Natural Gas via a Turbine Meter Best Practices The Scanner 3300 calculates gas flow through outputs from a MVT connected to a turbine meter (or directly from the output from the turbine meter) in accordance with AGA 7 and API MPMS Chapter 21.1 industry standards. For optimum performance, ensure that the turbine and MVT installation complies with the industry recommendations listed below: •...

  • Page 42: Installation Procedure-Remote Mount To A Turbine Meter

    1. Verify that the flowmeter and magnetic pickup are installed in the flow line. 2. Mount the MVT to a 2-in. pipe using the mounting bosses on the side of the enclosure and a Sensia pole mount kit. Multi Variable Transmitter Mounting, page 20 for detailed mounting instructions.

  • Page 43: Installation Procedure-Remote Connection To A Turbine Meter

    Scanner 3300 EFM Section 2 Connect the pressure port of the turbine meter to either manifold process port with tubing. The unused pressure port can be used as a “vent” as required. Always leave the equalizer valves open to allow pressure to both sides of the transducer.
  • Page 44 Section 2 Scanner 3300 EFM 3. Tighten all sections of the pipe union. 4. Connect the pressure port of the turbine meter to the external pressure transducer. 5. Route the cables from the turbine meter through the conduit, and connect them to the turbine meter terminals on the Scanner 3300.

  • Page 45: Measuring Steam Via A Differential Pressure Meter

    Scanner 3300 EFM Section 2 Measuring Steam via a Differential Pressure Meter Note Steam fluid types are only supported for flow rate calculation methods using orifice meters or cone meters. Best Practices The Scanner 3300 calculates steam flow through outputs from a MVT connected to a differential pressure meter in ac- cordance with IF-97, AGA-3, and ISO-5167 industry standards.

  • Page 46: Valves

    1. Verify that the meter is properly installed in the flow line (per manufacturer’s instructions). 2. Bolt a flange-by-flange 5-valve manifold (as recommended by Sensia) to the MVT. Locate the H and L markings on the integral MVT sensor body and position the MVT/manifold assembly so that the upstream side of the flow line can easily be connected to the sensor’s “High”...
  • Page 47 This adapter can be a one-piece sta- bilizer (often preferred for added strength and stability) or a short heavy wall pipe nipple attached to a futbol flange (available from Sensia). Use a suitable compound or tape on all threaded process connections. Note To prevent fittings from turning and/or to avoid putting tension on stainless steel tubing, use a backup wrench to attach stainless steel tubing to shut-off valves or sensor ports.

  • Page 48: Installation Procedure-Remote Mount To Orifice Meter Or Cone Meter

    A block manifold is not recom- mended for use with bottom port transducers. Contact a Sensia field representative for assistance. 1. Verify that the meter is properly installed in the flow line (per manufacturer’s instructions).
  • Page 49 Scanner 3300 EFM Section 2 Mount a set of pipe tees (which serve as condensate pots) typically on either side of the MVT at an elevation above the process connections of the MVT (for proper drainage). They should be a considerable distance (4 ft) from the sensor ports, but as close as possible to the pressure taps on the meter.

  • Page 50: Measuring Liquid Via A Differential Pressure Meter

    Section 2 Scanner 3300 EFM Measuring Liquid via a Differential Pressure Meter Best Practices The Scanner 3300 calculates liquid flow through outputs from a MVT connected to a differential pressure meter. To en- sure measurement accuracy, ensure that the meter run complies with the following AGA 3 and ISO 5167 guidelines, as applicable: •...

  • Page 51: Installation Procedure-Direct Mount To Orifice Meter Or Cone Meter

    Scanner 3300 EFM Section 2 Installation Procedure—Direct Mount to Orifice Meter or Cone Meter A MVT can be mounted directly to an orifice meter or cone meter for liquid measurement using a side-port transducer, a block manifold and two football flange adapters (Figure 2.18).

  • Page 52: Remote Mount To Orifice Meter Or Cone Meter

    1. Verify that the meter is properly installed in the flow line (per manufacturer’s instructions). 2. Mount the MVT to a 2-in. pipe using the mounting bosses on the side of the enclosure and a Sensia pole mount kit. Multi Variable Transmitter Mounting, page 20 for detailed mounting instructions.
  • Page 53 Scanner 3300 EFM Section 2 To eliminate air bubbles in the MVT, manifold and legs connecting them to the meter, fill the legs with fluid. Choose a fluid that is safe for the environment and stable when depressurized. Important If the process fluid does not present an environmental risk and is stable when depressurized, it may be used to bleed air from the lines.

  • Page 54: Measuring Compensated Liquid Via A Turbine Meter

    Section 2 Scanner 3300 EFM Measuring Compensated Liquid via a Turbine Meter Best Practices The Scanner 3300 calculates temperature- and pressure-compensated liquid flow through outputs from a MVT connected to a turbine meter (or directly from the output from the turbine meter) in accordance with API MPMS Ch. 11.1 and the measurement principles upon which the AGA 7 standard is based.
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  • Page 56: Section 3 - Wiring The Scanner 3300 Efm

    Section 3 Scanner 3300 EFM Section 3 - Wiring the Scanner 3300 EFM Field Wiring Connections CAUTION All field wiring must conform to the National Electrical Code, NFPA 70, Article 501-4(b) for installa- tions within the United States or the Canadian Electric Code for installations within Canada. Local wiring ordinances may also apply.
  • Page 57 Scanner 3300 EFM Section 3 Connect the pulse input wiring to PIN 1 to 3, as required. (Wiring on page 55 and specifications on page Terminal Block Terminals PIN 1 (AIN 5) 21(P), 22(+), 23(-) PIN 2 (AIN 6) 47(P), 48(+), 49(-)

  • Page 58: Power Supply Wiring

    Section 3 Scanner 3300 EFM Power Supply Wiring External Power Supply The Scanner 3300 can be connected to a remote DC power supply (Figure 3.4). The power supply and cable must be ca- pable of supplying 9 to 30 VDC at 400 mA minimum.

  • Page 59: Transmitter Supply

    Scanner 3300 EFM Section 3 Transmitter Supply The transmitter supply is used to supply power from the Scanner 3300 to external analog or pulse output devices. The transmitter supply configuration is done through the web-interface for each analog or pulse input (outputted on the “P”...

  • Page 60: Input Wiring

    Section 3 Scanner 3300 EFM Input Wiring Pulse Inputs - Turbine Magnetic Pickup Pulse inputs 1, 2 and 3 on the terminal board may be configured through the web-interface for an input signal generated by a magnetic pickup. For example, it may be configured for a magnetic pickup for a turbine meter, which enables the Scanner 3300 to calculate and display instantaneous flow rates and accumulated totals.

  • Page 61: Rtd Inputs

    Scanner 3300 EFM Section 3 RTD Inputs The 4-wire RTDs are recommended for measuring temperature in temperature-compensated gas and liquid calculations, though a 2- or 3-wire RTD may prove functional. Wiring is essentially the same for all three models, though wire color may vary as indicated.

  • Page 62: Analog Inputs - Current Input

    Section 3 Scanner 3300 EFM Analog Inputs - Current Input The analog inputs can be used to receive readings from a pressure or temperature transmitter for use in any flow run. An- alog Inputs 1 to 7 can be configured through the web-interface for 0 to 20 mA or 4 to 20 mA signals. Alternatively, they can be used to log measurements from any device with a compatible analog output.

  • Page 63: Digital Inputs - Pulse

    Scanner 3300 EFM Section 3 Digital Inputs - Pulse The digital pulse input (Figure 3.12) provides an input for use with any 3 to 30 VDC pulse-generating device. DIO 1 through DIO 4 are galvanically isolated and are limited to 60 mA. DIO 5 and DIO 6 are non-isolated and are limited to 500 mA.

  • Page 64: Output Wiring

    Section 3 Scanner 3300 EFM Output Wiring Analog (4 to 20 mA) Outputs The 4 to 20 mA output (Figure 3.15) provides a linear current output that can be configured to represent any parameter in the holding registers using the Scanner 3300 web interface. This output requires a two-conductor cable connected to a 9 to 30 VDC power supply (voltage required is dependent on loop resistance) and a current readout device located in the remote location.

  • Page 65: Digital Outputs

    Scanner 3300 EFM Section 3 Digital Outputs The standard Scanner 3300 supports eight solid-state digital outputs that are configurable as pulse outputs, alarm outputs, conditional outputs, or programmed outputs using time of day or an output state as the trigger.

  • Page 66: Communications

    Section 3 Scanner 3300 EFM Communications RS-485 Communications The Scanner 3300 supports digital serial communications using EIA-RS-485 hardware with Modicon Modbus protocol. RS-485 communications are supported by three ports with a baud range of 300 to 115.2K. Ports 1, 2, and 3 can be used simultaneously, if desired, and all three ports are protected from high-voltage transients.

  • Page 67: Ethernet Communications

    Scanner 3300 EFM Section 3 Ethernet Communications An RJ-45 connector (Figure 3.1, page 50) provides the Ethernet communications required for accessing the web inter- face via a web browser and for transmitting data over two TCP ports. The TCP ports support Modbus TCP and Modbus- over-TCP protocols and can be configured individually (assigned to unique port numbers) using the web interface.
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  • Page 69: Section 4 - Kiosk Display Interface

    Scanner 3300 EFM Section 4 Section 4 - Kiosk Display Interface The Scanner 3300 touch screen display allows you to view the real-time measurements for up to 32 selected parameters, and gives access to the web interface to configure the device. If the User Configured Device Display is enabled, the pa- rameters scroll continuously through the 5 fields provided.

  • Page 70: Enable/Disable User Configured Device Display Button

    Section 4 Scanner 3300 EFM Shut Down Display. Used to turn off the Android operating system putting Android in a halt condition. The intent • of this command is to turn off Android so you can power down the flow computer. This will causes the network connection to stop functioning.

  • Page 71: User Configured Device Display

    Scanner 3300 EFM Section 4 User Configured Device Display The user configured device display can be used to show a variety of information at a glance. This includes: IP Address, Scanner Logic status, Wireless/Wi-Fi status, and the status of selected parameters (i.e. if they are in alarm). If the user configured device display is disabled, then the Scanner 3300 touch screen will simply show a summary of Flow Run 1 and Flow Run 2.

  • Page 72: Configurable Display Features

    Section 4 Scanner 3300 EFM Table 4.2—Parameter Status Glyph Definitions Fail. This parameter value is in a fail state. High System Alarm. The parameter value exceeds the top end of the system operating range. Locked. The parameter is in Maintenance mode, or is configured to use a user-specified override value. Low System Alarm. The parameter value is below the low end of the system operating range (low end). High User-Configured Alarm. The parameter value exceeds the user-configured high setpoint. Low User-Configured Alarm. The parameter value is below the user-configured low setpoint. Configurable Display Features A number of display features for the user configured device display can be configured via the Scanner 3300 web inter- face with the proper user permissions.

  • Page 73: Web Interface Kiosk Mode

    Scanner 3300 EFM Section 4 Parameters configured A (“topmost”) as “topmost” will always be displayed in the “A” position Parameters not configured as “topmost” will scroll through the four fields in the bottom half Figure 4.3 - Arrangement of parameters in Touch screen display Web Interface Kiosk Mode Using the touch display, a user can navigate to the Web Interface and configure the Scanner 3300.

  • Page 74: First-Time Connecting The Scanner 3300

    Section 4 Scanner 3300 EFM First-Time Connecting the Scanner 3300 When first connecting to the Scanner 3300 and a wireless connection has not been configured yet, you will have to con- nect through the Ethernet port to configure the wireless network or to further configure the Ethernet network. An IP ad-...

  • Page 75: Troubleshooting The Wireless Connection

    Shut off the laptop and restart it. If the Scanner 3300 is powered, but no wireless connectivity is detected on your computer or other browser-en- abled device, it may be necessary to reset the Scanner 3300 IP address. Please contact Sensia technical support for assistance.
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  • Page 77: Section 5 - Scanner 3300 Efm Maintenance

    Scanner 3300 EFM Section 5 Section 5 - Scanner 3300 EFM Maintenance The Scanner 3300 is engineered to provide years of dependable service with minimal maintenance. All configuration set- tings are stored in nonvolatile memory; therefore, configuration settings will not be lost in the event of power failure or circuit removal.
  • Page 78 Section 5 Scanner 3300 EFM 2. Unscrew the four screws on the back of the display assembly (shown in Figure 5.2). Four screws securing the display board to the plate Figure 5.2 - Screws attaching the Scanner 3300 display assembly to the plate and main enclosure.
  • Page 79 Scanner 3300 EFM Section 5 Cut and remove the tie straps (Figure 5.1, page 71) on the extra length of the SAS cable, and disconnect it from the display assembly (as shown in Figure 5.3). Display board SAS Cable SAS tooth lock Rubber seal Figure 5.3 - Scanner 3300 display assembly and main enclosure assembly.
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  • Page 81: Section 6 - Scanner 3300 Parts

    WARNING—ELECTRICAL HAZARD: Substitution of components may impair safety. Use of spare parts other than those identified by Sensia International Corporation voids CSA certification. Sensia bears no legal responsibility for the performance of a product that has been serviced or repaired with parts that are not authorized by Sensia.
  • Page 82 The thermowell dimensions listed above refer to the maximum “U” dimensions that a probe will fit with a plastic bushing. Consult Sensia for sizing information if a union and nipple is to be used in place of a bushing. When using a bushing,...

  • Page 83: Electronics Replacement

    For disassembly instructions, see the Scanner 3300 Service User Manual. Subassemblies must be replaced without further disassembly. Before attempting any repair work on a Scanner 3300, contact a Sensia technician to review the issues you are observing and determine if the problem requires hardware replacement.
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  • Page 85: Appendix A - Ftp Downloads

    Scanner 3300 EFM Appendix A Appendix A - FTP Downloads FTP downloads provide an alternative to the web interface download process and may be preferred for expediting down- loads, particularly if you have no other need to log into the web interface. FTP downloads can be performed with a router connection to the Scanner, or with a physical Ethernet cable connection between the PC/laptop and the Scanner.

  • Page 86: Slave Device Archive Logs

    Viewing and Sharing Downloaded Data Sensia’s Scanner Data Manager software opens the proprietary SDF files and provides an assortment of file sharing, con- version and reporting tools. See the Scanner Data Manager manual for more information. To download the Scanner Data Manager software and user manual, visit Sensia’s Measurement website at https://www.sensiaglobal.com/Measurement/...
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  • Page 88: Appendix B - Firmware, Configuration, Scanner Logic, And Modbus Register Map Uploads

    Register Map Uploads Using Sensia’s ScanMap software, a user can create a set of user-defined Modbus register maps (.pmap) for customizing Modbus communications protocols. A .pmap file can be uploaded to a Scanner 3300 using the Scanner 3300 web inter- face or the ScanFlash software utility.

  • Page 89: Scanflash Upload

    Modbus register maps, you must have Configuration Editor-level or Administrator-level user access. 1. Download ScanFlash from the Sensia website, as noted above. 2. Open a web browser and enter the IP address of the Scanner 3300 to establish a connection to the device.

  • Page 90: Troubleshooting A Failed Upload

    Scanner 3300 EFM Appendix B Enter your user name and password for accessing the Scanner 3300 web interface. You must have the appropriate user access level to proceed. See the “Important” note above. Enter the port that the network admin has forwarded, and follow their instructions on whether to select passive mode to be active.
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  • Page 92: Appendix C - Scanner 3300 Panel Cutout

    Scanner 3300 EFM Appendix C Appendix C - Scanner 3300 Panel Cutout 4.658in [118.33mm] 4.080in [103.63mm] 7.459in [189.46mm] 2X Ø.201in [Ø5.11mm]...
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  • Page 94 Scanner 3300 EFM Appendix C...
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  • Page 96 WARRANTY - LIMITATION OF LIABILITY: Seller warrants only title to the products, software, supplies and materials and that, except as to software, the same are free from defects in workmanship and materials for a period of one (1) year from the date of delivery. Seller does not warranty that software is free from error or that software will run in an uninterrupted fashion.
  • Page 101 Office No. 701, S. No. 144 & 145, Coraopolis, Pennsylvania Jebel-Ali 15108-7766 P.O. Box 16776, Plot WWA 115, Samrat Ashoka Path, YERAWADA, Pune, Dubai, U.A.E. Maharashtra, India, 411006 sensiaglobal.com Add intelligent action to your oil and gas solutions © Sensia LLC 2020. All rights reserved.

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