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Baker Panametrics PanaFlow XMT1000 User Manual

Liquid flow ultrasonic transmitter
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PanaFlow™ XMT1000
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BH054C11 EN B
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Summary of Contents for Baker Panametrics PanaFlow XMT1000

  • Page 1 PanaFlow™ XMT1000 User’s Manual BH054C11 EN B panametrics.com...
  • Page 3 April 2024 panametrics.com Copyright 2024 Baker Hughes company. This material contains one or more registered trademarks of Baker Hughes Company and its subsidiaries in one or more countries. All third-party product and company names are trademarks of their respective holders.
  • Page 4 Preface [no content intended for this page] PanaFlow™ XMT1000 User’s Manual...
  • Page 5 Preface Services Panametrics provides customers with an experienced staff of customer support personnel ready to respond to technical inquiries, as well as other remote and on-site support needs. To complement our broad portfolio of industry-leading solutions, we offer several types of flexible and scalable support services including: Training, Product Repairs, Service Agreements and more.
  • Page 6 Preface Qualification of Personnel Make sure that all personnel have manufacturer-approved training applicable to the auxiliary equipment. Personal Safety Equipment Make sure that operators and maintenance personnel have all safety equipment applicable to the auxiliary equipment. Examples include safety glasses, protective headgear, safety shoes, etc. Unauthorized Operation Make sure that unauthorized personnel cannot gain access to the operation of the equipment.

  • Page 7: Table Of Contents

    Contents Chapter 1. Introduction Overview of XMT1000 System ..................1 Theory of Operation .
  • Page 8 Contents Main Program - Programming (Wetted)............... .58 3.7.1 Programming the Pipe .
  • Page 9 Contents Installation .....................101 F.2.1 Network Configuration .
  • Page 10 Contents G.17 Factory ......................145 G.17.1 Serial Numbers .

  • Page 11: Chapter 1. Introduction

    Chapter 1. Introduction Chapter 1. Introduction Overview of XMT1000 System The XMT1000 is a one, two, or three channel liquid ultrasonic transmitter for either clamp-on or wetted ultrasonic flow measurement. The XMT1000 is the transmitter is used in conjunction with either the wetted PanaFlow HT, PanaFlow LZ, PanaFlow Z3 systems or the PanaFlow LC clamp-on ultrasonic systems.

  • Page 12: Theory Of Operation

    Chapter 1. Introduction Figure 3: PanaFlow Z3 Figure 4: PanaFlow LZ Theory of Operation The XMT1000 uses a procedure called Transit-Time Flow Measurement. In this method, the flowmeter transmits ultrasonic pulses through a moving liquid. The pulses that travel in the same direction as the fluid flow (downstream) travel slightly faster than the pulses that travel against the fluid flow (upstream).

  • Page 13: Sil Application

    Chapter 1. Introduction Figure 5: Transit - Time Flow Measurement SIL Application The XMT1000 with appropriate flow meter selection can be a SIL2 ultrasonic flowmeter (sensor) with the capability of providing a SIL3 system in a redundant design configuration. The XMT1000 with either PanaFlow HT, LZ, Z3, or LC system is IEC61508 certified through a complete design validation from a third party organization.
  • Page 14 Chapter 1. Introduction [no content intended for this page] PanaFlow™ XMT1000 User’s Manual...

  • Page 15: Chapter 2. Installation

    Chapter 2. Installation Chapter 2. Installation Introduction To ensure safe and reliable operation of the XMT1000, it must be installed in accordance with the established guidelines. Those guidelines, explained in detail in this chapter, include the following topics: • Unpacking the XMT1000 •...

  • Page 16: Special Conditions For Safe Use

    Chapter 2. Installation • Connecting cables shall be mounted securely and protected from mechanical damage, pulling and twisting. • Cable entries on the device are ¾" NPT, 6X in local mount configuration and 1x in remote mount configuration. • For USA/CAN certification, process fluid shall be limited to 3705 psig. For ATEX/IECEx certification, process fluid shall be limited to 3750 psig.

  • Page 17: Unpacking The Xmt1000

    Chapter 2. Installation Unpacking the XMT1000 Before removing the XMT1000 from its box, please inspect both the box and the instrument carefully. Each instrument manufactured by Panametrics is warranted to be free from defects in material and workmanship. Before discarding any of the packing materials, account for all components and documentation listed on the packing slip.
  • Page 18 Chapter 2. Installation PANAMETRICS PANAMETRICS Model & Serial Number (Boston) Model & Serial Number (Shannon) Certification (US/CAN, IECEx/ATEX) Certification (US/CAN, IECEx/ATEX) [FISCO] [Standard] Figure 7: Typical XMT1000 Labels (Stainless Steel Enclosure) PanaFlow™ XMT1000 User’s Manual...

  • Page 19: Site And Clearance Considerations

    Chapter 2. Installation Site and Clearance Considerations 2.6.1 Access to the Meter Because the relative location of the flowcell and the XMT1000 transmitter is important, use the guidelines in this section to plan the XMT1000 installation. For flowcell clearance recommendations, consult the manual for your specific flow meter system or contact Panametrics for assistance.

  • Page 20: Flowmeter Installation

    Chapter 2. Installation 2.6.4 Flowmeter Installation The XMT1000 accuracy is affected by the flowcell location in the process piping and on the orientation of the transducers. Thus, in addition to accessibility for maintenance, adhere to the following installation guidelines: • Locate the flowcell so that there are at least 10 pipe diameters of straight, undisturbed flow upstream and 5 pipe diameters of straight, undisturbed flow downstream from the measurement point (see Figure 9 below).

  • Page 21: Remote Mounting

    Chapter 2. Installation Figure 11: Remote mounting of the XMT1000 meter is always required with vertical pipes CAUTION! Local mounting of the XMT1000 meter is not permitted for vertical pipes. CAUTION! Remote mounting of the XMT1000 meter is always required with vertical pipes. For vertical pipes, the fluid flow is / must be upwards as the measurement method requires the pipe to be full.

  • Page 22: Making The Electrical Connections

    Chapter 2. Installation Making the Electrical Connections This section contains instructions for making all the necessary electrical connections for the XMT1000 flow transmitter. Refer to Figure 12 on page 13 for a complete wiring diagram. Note: Both flying lead and MCX transducer connectors are shown in the figure for completeness. Only the type of connector appropriate for each meter ordered will be installed on the PCB.

  • Page 23: Wiring The Analog Outputs

    Chapter 2. Installation Figure 12: XMT1000 Terminal Board Wiring Diagram 2.7.1 Wiring the Analog Outputs The standard configuration of the XMT1000 flow transmitter includes one isolated 4-20 mA analog output. Connections to this output may be made with standard twisted-pair wiring, but the current loop impedance for this circuit must not exceed 600 ohms.

  • Page 24: Wiring The Digital Output

    Chapter 2. Installation Attention European Customers!To meet CE Marking requirements, all cables must be installed as described in “CE Marking Compliance” on page 5 . IMPORTANT: Analog output A is an active signal. Do not supply power to this circuit, as the circuit is powered by the flow meter.

  • Page 25: Wiring The Modbus/Service Port

    Chapter 2. Installation 2.7.3 Wiring the Modbus/Service Port The XMT1000 flow transmitter is equipped with a Modbus communication port for either a connection to PanaView Plus (PC software) or to a separate control system. The port is an RS485 interface. IMPORTANT: The maximum cable length for an RS485 connection is 4000 ft (1200 m).
  • Page 26 Chapter 2. Installation Table 2: Wiring Additional I/O Terminal Block Pins (Terminal Block #2) Option Code Description Two analog outputs, AO 1 AO 1 AO 2 AO 2 CH1 24V AI1 High AI1 RTN AI1 RTN AI2 High AI2 RTN AI2 RTN two analog inputs High...
  • Page 27 Chapter 2. Installation 2.7.5.1 Wiring directions for passive/active inputs Figure 13: 3-wire RTD Figure 14: 4-wire RTD Figure 15: Analog input with internal power supply PanaFlow™ XMT1000 User’s Manual...
  • Page 28 Chapter 2. Installation Figure 16: Analog input with external power supply Figure 17: Frequency/Totalizer output PanaFlow™ XMT1000 User’s Manual...
  • Page 29 Chapter 2. Installation Figure 18: Wiring of Alarm relay output Figure 19: RS-485 PanaFlow™ XMT1000 User’s Manual...

  • Page 30: Wiring The Ch1 And Ch2 Flying Lead

    Chapter 2. Installation 2.7.6 Wiring the CH1 and CH2 Flying Lead Refer to Figure 12 on page 13 and Section 2.7.1, "Wiring the Analog Outputs" to locate the Channel 1 and Channel 2 flying lead terminal blocks. To wire the CH 1 flying lead to the terminal block 5, refer to Figure 20 and complete the following steps: Disconnect the main power to the unit and remove the rear cover.
  • Page 31 Chapter 2. Installation Refer to Figure 12 on page 13 to locate the terminal blocks and connect the line power as follows: Prepare the line power leads by trimming the line and neutral AC power leads (or the positive and negative DC power leads) to a length 0.5 in.
  • Page 32 Chapter 2. Installation [no content intended for this page] PanaFlow™ XMT1000 User’s Manual...

  • Page 33: Chapter 3. Programming

    Chapter 3. Programming Chapter 3. Programming Introduction This chapter has instructions for programming various features of the PanaFlow™ XMT1000 flow transmitter. In this chapter, we will list all available options. The user can then change the User Preferences and Inputs/Outputs settings, Programming for flow measurements and Calibration to meet their needs.

  • Page 34: Hmi Features

    Chapter 3. Programming 3.1.2 HMI Features Figure 21: XMT1000 HMI The six keys on the magnetic keypad are used to program the XMT1000: Key Symbol Key Name Functions Escape Key To cancel a numeric entry change, exit a menu or as Back key ...

  • Page 35: Passcodes

    Chapter 3. Programming Passcodes IMPORTANT: Not all users will have access to all of the menus. Some menus are restricted to only those users with the proper passcodes. The default passcodes for the XMT1000 flow transmitter are: • Keypad Lockout Password, default (fixed) = 102719 [this password cannot be changed] •...
  • Page 36 Chapter 3. Programming 3.3.1.1 Changing Display Format To change Display Format, do the following steps and refer Figure 23. Press [] until the lock icon on the meter’s Measurement View display is highlighted, and press [ENTER]. In the Main Menu select [Display Format], then press [ENTER]. Select [One Variable] or [Two Variable] or [Totalizer] format to suit your needs.
  • Page 37 Chapter 3. Programming 3.3.1.2 Selecting a Composite Measurement to Display To select a composite measurement to display on the Measurement View, do the following steps and refer Figure 24. Press [] until the Measurement name on the meter’s Measurement View display is highlighted, and press [ENTER].
  • Page 38 Chapter 3. Programming 3.3.1.3 Selecting a Channel Measurement to Display To select a Channel measurement to display on the Measurement View, do the following steps and refer Figure 25. Press [] until the Measurement name on the meter’s Measurement View display is highlighted, then press [ENTER].
  • Page 39 Chapter 3. Programming 3.3.1.4 Totalizer Display The Totalizer display on the Measurement View shows the totalized measurements and provides the ability to start, stop and reset totals. Refer to Figure 23 to set Display format to Totalizer. Do the following steps to select the appropriate Totalizer measurements to view on the Measurement View.

  • Page 40: Log-In And Primary

    Chapter 3. Programming 3.3.2 Log-in and Primary Pages To Log-in into the meter perform the following steps: Press [] until the lock icon on the meter’s Measurement View display is highlighted, then press [ENTER]. In the Main Menu Scroll down and select [Program], then press [ENTER]. Scroll and select desired access level [Operator], then press [ENTER].

  • Page 41: Main Program - System Settings

    Chapter 3. Programming Main Program - System Settings 3.4.1 Selecting Units The operator can select the preferred units of measurements. Use steps as in section “Log-in and Primary Pages” to navigate to the System settings page. Then highlight [Unit Settings] and press [ENTER], you will now have measurement types listed as in the Figure 28 below, for which you can select your preferred respective units.

  • Page 42: Meter Settings

    Chapter 3. Programming Table 3: Unit groups and supported units Unit Group Supported Metric Units Supported English Units Temperature Units °C, K, °F, °R °C, K, °F, °R Viscosity Units cSt, m 3.4.2 Meter Settings In order to change the Language, display settings, System Date, Meter Tag, Label, Change password or view About meter, use steps as in section “Log-in and Primary Pages”...

  • Page 43: Standard Analog Output

    Chapter 3. Programming Figure 30: Modbus Port Setting 3.5.2 Standard Analog Output The XMT1000 has one Analog Output and one Digital Output in Standard configuration. 3.5.2.1 Setting up Analog Output The XMT1000 meter has one Analog Output in standard configuration. For additional Analog outputs Optional I/O boards may be purchased.
  • Page 44 Chapter 3. Programming 3.5.2.2 Understanding the Error Handling Option The following Table 5 shows the response to each of the Error Handling options. For a multi-channel meter, the [Path Error Handling] set to ON (see Figure 45) changes the Output response. See Table 6 for Analog Output response with [Path Error Handling] set to ON.
  • Page 45 Chapter 3. Programming Figure 31: Setting up Analog Output 3.5.2.3 Calibrating Analog Output To calibrate Analog Output, use steps as in section “Log-in and Primary Pages” to navigate to the Input/Output settings page. You may use a multimeter or DCS/SCADA to calibrate the Analog Output. Regardless of whether multimeter or DCS/SCADA is used, the steps below remain the same.

  • Page 46: Standard Digital Output

    Chapter 3. Programming Select [Percentage of Scale] and adjust the scale to 0.00% and press [ENTER], then verify the reading on the multimeter is 4.00mA within ±0.01mA. Then adjust the scale to 50.00% and press [ENTER], then verify the reading on the multimeter is 12.00mA within ±0.01mA.
  • Page 47 Chapter 3. Programming Figure 32: Setting up Pulse Output PanaFlow™ XMT1000 User’s Manual...
  • Page 48 Chapter 3. Programming 3.5.3.2 Setting up Frequency Output To program a Frequency Output, use steps as in section “Log-in and Primary Pages” to navigate to the Input/Output settings page: In Meter Menu highlight [Digital Output (Std)] and press [ENTER]. Then highlight [Frequency] option and press [ENTER].
  • Page 49 Chapter 3. Programming Figure 33: Setting up Frequency Output 3.5.3.3 Understanding the Error Handling Option The Table 11 shows the response to each of the Frequency Output Error Handling options. For a multi-path meter, the [Path Error Handling] set to ON (see Figure 45) changes the Output response. See Table 12 for Frequency Output response with [Path Error Handling] set to ON.
  • Page 50 Chapter 3. Programming Table 12: Frequency Output Error Handling with Path Error Handling set to ON Expected Composite Error displayed in Volumetric(Act) Frequency Output Ch1 in Error Ch2 in Error Ch3 in Error Meter behavior Response No Error Measured Frequency proportional Composite to the Measured Volumetric(Act)
  • Page 51 Chapter 3. Programming Table 14: Alarm Output Options Option Functional Description Alarm State Choose if the Alarm State should be Normally Open, Normally Closed or Failsafe Alarm Type For Alarm State selected as Normally Open or Normally Closed, Alarm Type can be set to High or Low.

  • Page 52: Option Comm Slot-1 (Optional)

    Chapter 3. Programming 3.5.4 Option Comm Slot-1 (optional) 3.5.4.1 Option Slot-1 Configured as HART Use steps as in section “Log-in and Primary Pages” to navigate to the Input/Output settings page. Then highlight [Option Comm (Slot 1)] and press [ENTER]. Then highlight [HART] and press [ENTER]. You can set Analog Output with HART option.

  • Page 53: Option I/O Slot-2 (Optional)

    Chapter 3. Programming 3.5.5 Option I/O Slot-2 (Optional) For extended I/O capability XMT1000 supports an Optional I/O that provides 2 additional Analog Outputs (AO-AO), with up to 2 Analog Inputs (AI-AI) or 2 RTD (R-R) inputs. See Table 15 for all available options. Table 15: Optional I/O available options XMT1000 Option Code # Input / Output Options Available...
  • Page 54 Chapter 3. Programming Figure 37: Setting up Option I/O Analog Output 3.5.5.2 Option IO (Slot2): Calibrating Analog Output To calibrate Option I/O Analog Output, use steps as in section “Log-in and Primary Pages” to navigate to the Input/Output settings page. You may use a multimeter or DCS/SCADA to calibrate the Analog Output. Regardless of whether multimeter or DCS/SCADA is used, the steps below remain the same.
  • Page 55 Chapter 3. Programming Select [Percentage of Scale] and adjust the scale to 0.00% and press [ENTER], then verify the reading on the multimeter is 4.00mA within ±0.01mA. Adjust the scale to 50.00% and press [ENTER], then verify the reading on the multimeter is 12.00mA within ±0.01mA.
  • Page 56 Chapter 3. Programming Figure 39: Setting up Option I/O Analog Input/RTD Input 3.5.5.4 Option IO (Slot2): Calibrating Analog Input To calibrate Option I/O Analog Input, use steps as in section “Log-in and Primary Pages” to navigate to the Input/Output settings page. Note: Optional I/O menu uses Slot:Channel convention for clarity.

  • Page 57: Analog Output (Sil) - (Optional)

    Chapter 3. Programming 3.5.5.5 Option IO (Slot2): Calibrating RTD Input Insert RTD sensor and master RTD in temperature bath and turn ON, and set it to desired temperature set point. Use steps as in section “Log-in and Primary Pages” to navigate to the Input/Output settings page. Refer to Figure 39 above, highlight [Option I/O (Slot 2)] and press [ENTER].

  • Page 58: Main Program - Programming (Clamp-On)

    Chapter 3. Programming 3.5.6.1 Calibrating SIL Analog Output You may use a multimeter or DCS/SCADA to calibrate the SIL Analog Output. Regardless of whether multimeter or DCS/SCADA is used, the steps below remain the same. For better readability, the steps below only indicate multimeter and does not repeat DCS/SCADA.

  • Page 59: Programming The Pipe

    Chapter 3. Programming Note: Consult the factory or Panametrics Services, if you are unsure of the appropriate settings for your application. Note: Please use this section, if you are installing a clamp-on ultrasonic flow meter. Once complete, please move onto “Calibration” on page 62. If you are using a wetted ultrasonic flow meter, please go to “Main Program - Programming (Wetted)”...

  • Page 60: Programming The Fluid

    Chapter 3. Programming Table 17: Pipe Materials Pipe Material Description Pipe Material Description Other Any material Iron Ductile Ductile Iron Carbon Steel Carbon Steel Iron Cast Cast Iron Stainless Steel Stainless Steel Monel Monel Aluminum Aluminum Nickel Nickel Brass Brass Plastic Nylon Nylon Copper...

  • Page 61: Programming The Path Configuration

    Chapter 3. Programming Table 19: Standard Fluid List Tracking On Tracking Off Other Other Water (0 to 260 C) Water (0 to 260C) Oil 22C Oil 22 C Sea Water Lube Oil Crude Oil Methanol (20 C) Ethanol Freon R12 Diesel Gasoline Liquid Nitrogen (-199C)

  • Page 62: Programming The Flow And Diagnostic Limits

    Chapter 3. Programming If [Path Error Handling] is set to On, the meter will continue to provide measurements even if one or two channels are in error. Unless, all three channels (for 3 Path (TD-TD-TD)) are in error the flow measurement continues. Figure 45: Path Configuration 3.6.4 Programming the Flow and Diagnostic Limits...

  • Page 63: Programming Advanced Settings

    Chapter 3. Programming 3.6.5 Programming Advanced Settings Use steps as in section “Log-in and Primary Pages” to navigate to the Programming page. Refer to Figure 47 for the Path configuration options. Highlight [Composite] and press [ENTER]. Scroll down and select [Advanced] and press [ENTER]. Select [Inputs] and set the process [Fluid Temperature].
  • Page 64 Chapter 3. Programming Table 20: Standard Transducers Transducer Number Transducer Model Number C-RW-312 C-RW-318 C-RS-401 C-RS-402 C-RS-403 UTXDR-407 UTXDR-408 C-RR-505 C-RR-510 C-RR-520 C-RR-591 C-RR-592 C-RR-H-595 C-RR-H-596 C-RR-H-597 C-AT-601 C-AT-602 C-AT-603 3.6.6.2 Programming the Placement The Placement menu allows the user to configure the mounting method of the transducers, based on the Transducer and Pipe programming done as specified in sections “Main Program - Programming (Clamp-on)”...
  • Page 65 Chapter 3. Programming Figure 48: Traverse Configurations Figure 49: Spacing PanaFlow™ XMT1000 User’s Manual...

  • Page 66: Fluid Speed Of Sound Calibration

    Chapter 3. Programming Figure 50: Channel Programming (Transducer, Placement and Advanced) 3.6.6.3 Programming Advanced Channel Settings Refer to Clamp-on Calibration procedure for calibrating zero flow [Delta-T Offset]. Refer to Section 3.6.7.1 Fluid Speed of Sound Calibration for Calibrating sound speed. Scroll and highlight [Peak Detection] and press [ENTER].
  • Page 67 Chapter 3. Programming Figure 51: PanaView Plus screen Click on [CONNECT TO INSTRUMENT]. Change [Access Level] to Operator and enter respective [Password]. Click on [Change Access Level]. Figure 52: PanaView Plus screen - Access Level Click on [Cal-Trim-Test]. Expand the [SOS calibration] parameter. PanaFlow™...

  • Page 68: Main Program - Programming (Wetted)

    Incorrect programming settings can give erroneous measurements and impact accuracy. Note: Consult the factory or Baker Hughes Services if you are unsure of the appropriate settings for your application. IMPORTANT: The configurations in the Programming page are pre-selected to best suit your applications. Consult the factory or Baker Hughes Services before changing any of these settings.

  • Page 69: Programming The Fluid

    Chapter 3. Programming Figure 54: Pipe Programming 3.7.2 Programming the Fluid The Fluid menu (see Figure 55) allows the user to specify all the parameters of the fluid flowing through the pipe that is required to ensure accurate ultrasonic flow rate measurements. Use steps as in “Log-in and Primary Pages” on page 30 to navigate to the Programming page.

  • Page 70: Programming The Path Configuration

    Chapter 3. Programming Figure 55: Fluid Programming 3.7.3 Programming the Path Configuration Use steps as in “Log-in and Primary Pages” on page 30 to navigate to the Programming page. Refer to Figure 56 for the Path configuration options. Select [Composite] and press [ENTER]. Scroll down and select [Path] and press [ENTER]. Select [Path Configuration], [Path Weights] and [Path Error Handling].

  • Page 71: Programming The Flow And Diagnostic Limits

    This completes the basic programming options that may need to be updated based on flow application. Advanced programming is already done at Baker Hughes Factory and during commissioning. Exit programming by pressing [ESC] until Save options are displayed on the menu. Highlight [Save] or [Save & Logout] and Press [ENTER] to save settings.

  • Page 72: Calibration

    Chapter 3. Programming Figure 58: Advanced Settings Calibration This menu is used to Calibrate the XMT1000 meter to another flow rate reference. Use steps as in section “Log-in and Primary Pages” to navigate to the Calibration page. Note: Use either [Meter Factor] or [K-Table], do not use both at the same time. Scroll and highlight [Meter Factor] and press [ENTER].
  • Page 73 Chapter 3. Programming Figure 59: Calibration Menu PanaFlow™ XMT1000 User’s Manual...
  • Page 74 Chapter 3. Programming [no content intended for this page] PanaFlow™ XMT1000 User’s Manual...

  • Page 75: Chapter 4. Error Codes And Troubleshooting

    Chapter 4. Error Codes and Troubleshooting Chapter 4. Error Codes and Troubleshooting Introduction The XMT1000 flow transmitter is a reliable, easy to maintain instrument. When properly installed and operated, as described in Chapter: Installation, the meter provides accurate flow rate measurements with minimal user intervention.

  • Page 76: Flow Errors (E-Errors)

    Chapter 4. Error Codes and Troubleshooting Flow Errors (E-Errors) 4.3.1 General Guidelines for Troubleshooting Flow Errors with Error codes If the Error code on the LCD or PanaView Plus PC software indicate E22: SingleChAccuracy or E23: MultiChAccuracy, refer to the appropriate section below. Also, refer to Table 23 below for causes and recommended actions for each Error code.
  • Page 77 Chapter 4. Error Codes and Troubleshooting Table 23: Flow Error description and Recommended Actions Error Code Problem Cause Recommended Action E1: SNR The Signal to Noise The acoustic signal from the Check if the Active Tw measurement ratio is low process is very weak.
  • Page 78 Chapter 4. Error Codes and Troubleshooting Table 23: Flow Error description and Recommended Actions Error Code Problem Cause Recommended Action E6: Cycle Skip A cycle skip is detected This is usually due to poor If this error is caused by changes in while processing the signal integrity, possibly flow rate, this error will be auto...

  • Page 79: Fluid And Pipe Problems

    Chapter 4. Error Codes and Troubleshooting Fluid and Pipe Problems If preliminary troubleshooting with the Error Code Messages and the Diagnostic Parameters indicates a possible problem, proceed with this section. Measurement problems fall into two categories: • Fluid problems • Pipe problems Read the following sections carefully to determine if the problem is related to the fluid or the pipe.

  • Page 80: Transducer Problems

    Chapter 4. Error Codes and Troubleshooting Transducer Problems Ultrasonic transducers are rugged, reliable devices. However, they are subject to physical damage from mishandling and chemical attack. The following list of potential problems is grouped according to transducer type. Contact Panametrics if you cannot solve a transducer-related problem. 4.5.1 Transducer Problems •...
  • Page 81 Chapter 4. Error Codes and Troubleshooting Table 24: System Error Description and Recommended Actions Error Code Error Message Description / Recommended Action Fault: Input clock frequency failure. Try power S11: Clock Frequency Clock frequency error cycling the meter. If error persists after power cycle, contact Panametrics factory S12: CPU CPU error...

  • Page 82: Communication Errors (C-Errors)

    Chapter 4. Error Codes and Troubleshooting Table 24: System Error Description and Recommended Actions Error Code Error Message Description / Recommended Action Fault: SIL Analog Output is disconnected. Connect S29: Output A Loop Open! SIL Analog Output Open Error the SIL Analog output and try power cycling the meter.

  • Page 83: Option I/O Errors

    Chapter 4. Error Codes and Troubleshooting Table 26: Transmitter Error Description and Recommended Actions Error Code Error Message Description / Recommended Action X15: Font API Initialize Fail Failed to generate font Failed to generate font. Try power cycling the meter. If error persists after power cycle, contact Panametrics factory X16: XML File Initialize Fail...
  • Page 84 Chapter 4. Error Codes and Troubleshooting Table 27: Option I/O Errors Description (cont.) Error Code Error Message Description A11:(S2:4)Input NotConnect! Analog Input: Error occurs when Check connectivity for Analog Input/RTD input and (4-20mA) input is not RTD temperature. Try power cycling the meter. If connected at Channel (S2:4).

  • Page 85: Diagnostics Data

    Chapter 4. Error Codes and Troubleshooting 4.10 Diagnostics Data To determine the health of the meter, XMT1000 has built-in diagnostic parameters. Please refer to Table 28 below for diagnosing any problems with the system. If the meter shows errors and the diagnostics data indicate issues, fill in the User/Service record appendix before contacting Panametrics factory.
  • Page 86 Chapter 4. Error Codes and Troubleshooting Table 28: Diagnostic Parameters (cont.) Parameter Description Good Peak Index Up Threshold peak of the • For pipe sizes greater • For pipe sizes greater than 1 inch, upstream transmit than 1 inch, index should if the index <400 or >700 then correlation signal be between 400 - 700.

  • Page 87: Chapter 5. Maintenance And Service

    Installation of these field replaceable parts by a Baker Hughes field service team member will maintain the accuracy of the system and any applicable warranty. Please consult Panametrics to order the appropriate components and to schedule installation in the field.
  • Page 88 Chapter 5. Maintenance and Service [no content intended for this page] PanaFlow™ XMT1000 User’s Manual...

  • Page 89: Appendix A. Specifications

    Appendix A. Specifications Appendix A. Specifications Operation and Performance Fluid Types Liquids: acoustically conductive fluids, including most clean liquids, and many liquids with small amounts of entrained solids or gas bubbles. Transducer Types All liquid wetted and clamp-on transducers. Pipe Sizes Standard: 1 in.

  • Page 90: Electronics

    Appendix A. Specifications Electronics Enclosures Powder coated aluminum or stainless steel (SS316) Classifications XMT1000 PanaFlow Transmitter USA/Canada - explosion-proof class I, division 1, groups B, C, and D ATEX - Flameproof II 2 G Ex db IIC T6 Gb; Ta = -45°C to +65°C FISCO Ex db [ia Ga] IIC T6 Gb;...

  • Page 91: Drawings

    Appendix A. Specifications Power Supplies Universal 100-240 VAC 50/60 Hz ±10% or 12 to 28 VDC Note: For DC-powered meters, Class 2 rated supplies must be used for the line power. Cable Entries ¾” NPT As-Standard M20 Via Adapters Temperature Range Operating: -40°F to 140°F (-40°C to +60°C) Storage: -40°F to 158°F (-40°C to 70°C) Power Consumption...

  • Page 92: Wiring Diagram

    Appendix A. Specifications Wiring Diagram PanaFlow™ XMT1000 User’s Manual...

  • Page 93: Appendix B. Modbdus Map Validation

    Appendix B. Modbdus map validation Table 29: Modbus Map validation XMT1000 Composite Register Address Channel 1 Register Address Channel 2 Register Address Channel 3 Register Address Number of Category Measurement Type Registers Format In Decimal In Hex In Decimal In Hex In Decimal In Hex In Decimal...
  • Page 94 Table 29: Modbus Map validation XMT1000 Composite Register Address Channel 1 Register Address Channel 2 Register Address Channel 3 Register Address Number of Category Measurement Type Registers Format In Decimal In Hex In Decimal In Hex In Decimal In Hex In Decimal In Hex Sound Speed...
  • Page 95 Table 29: Modbus Map validation XMT1000 Composite Register Address Channel 1 Register Address Channel 2 Register Address Channel 3 Register Address Number of Category Measurement Type Registers Format In Decimal In Hex In Decimal In Hex In Decimal In Hex In Decimal In Hex Flow Health Code...
  • Page 96 [no content intended for this page] PanaFlow™ XMT1000 User’s Manual...

  • Page 97: Appendix C. Error Code Bit-Field Representation

    Appendix C. Error code bit-field representation Appendix C. Error code bit-field representation Table 30: Flow Error Codes in Bit Field Values Error representation Error Description Error code (in Hex) No Error 0x00000000 Velocity Warning 0x00000001 Single Channel Accuracy Error 0x00000002 Multi-Channel Accuracy Error 0x00000004 Active TW Error...
  • Page 98 Appendix C. Error code bit-field representation Table 31: System Error Codes in Bit Field Values Error representation Error Description Error code (in Hex) Stack overflow 0x00100000 Sequence or Windowed watchdog 0x00200000 failure Initialization failed 0x00400000 DSP Hardware Errors 0x00800000 DSP Exception 0x01000000 Default ISR 0x02000000...
  • Page 99 Appendix C. Error code bit-field representation Table 34: Option I/O Errors in Bit Field Values Error representation Error Description Error code (in Hex) No Error 0x00000000 AnalogCh (S2:3) Error! 0x00000001 AnalogCh (S2:4) Error! 0x00000002 AnalogCh (S2:1) Error! 0x00000004 AnalogCh (S2:2) Error! 0x00000008 (S2:3) Ch Not Calibrated 0x00000020...
  • Page 100 Appendix C. Error code bit-field representation [no content intended for this page] PanaFlow™ XMT1000 User’s Manual...

  • Page 101: Appendix D. Hart Communication

    Appendix D. HART Communication Appendix D. HART Communication Wiring the XMT1000 to the HART Communicator When connecting a HART communicator to the wiring terminals on the XMT1000 electronics terminal board, the circuit must be terminated in an appropriate resistive load, as shown in Figure 61 below. The HART communicator is connected in parallel with that load.

  • Page 102: Dd File

    Appendix D. HART Communication DD File under Panametrics as The DD file can be found on the Foundation Fieldbus website www.fieldcommgroup.org manufacturer and XMT1000 as model. It may also be found on the DCS vendor website if available.HART Menu Maps For reference while programming the XMT1000, see the following HART menu maps: •...

  • Page 103: Hart Review Menu Map

    Appendix D. HART Communication D.3.2 HART Review Menu Map Figure 64: HART Review Menu Map PanaFlow™ XMT1000 User’s Manual...

  • Page 104: Configurable Measurements

    Appendix D. HART Communication Configurable Measurements Below table shows the measurements available over HART: Table 35: Measurements Available Over HART Velocity Ch 1 ActiveTw Amplitude Down Ch 2 Peak Index Up Volumetric Ch 1 ActiveTw Gain Up Ch 2 Peak Index Down Mass Flow Ch 1 ActiveTw Gain Down Ch 2 Peak % Up...
  • Page 105 Appendix D. HART Communication Table 35: Measurements Available Over HART Ch 1 ActiveTw Amplitude Up Ch 2 Reported Error Ch 3 No. Of Errors Meter Information Flow board Serial number Sensor 1 Dn Serial number Sensor 3 Up Serial number Flow board hardware revision Sensor 2 Up Serial number Sensor 3 Dn Serial number...
  • Page 106 Appendix D. HART Communication Table 36: Configurable through HART Standard IO Communication Option Type Selection Standard Analog Output (AO)Error handling Standard Digital Output (DO) Type DO Pulse Measurement Type DO Pulse Unit Group selection DO Pulse value DO Pulse width DO Pulse Error handling DO Frequency Measurement Type DO Frequency Unit Group selection...

  • Page 107: Appendix E. Wireless Hart Communication

    Appendix E. Wireless HART Communication Appendix E. Wireless HART Communication Introduction Wireless HART is a bi-directional digital communication protocol for field devices, that offers multi-vendor, inter-operable wireless standard. It is an advancement in technologies for process control systems and is widely employed by numerous field devices.

  • Page 108: Xmt1000 Configuration

    Appendix E. Wireless HART Communication E.2.2 XMT1000 configuration Program the 4 variables for HART digital output • • • • Typical measurements include Volumetric Flow, Totals, Velocity, Soundspeed etc. but are application depen- dent. Configure the meter so that it is not in error, systems without errors will be easier to troubleshoot later in the pro- cess.

  • Page 109: Emerson Wireless Gateway Setup Configuration

    Appendix E. Wireless HART Communication E.2.4 Emerson Wireless Gateway Setup configuration The following information will show how to configure the Wireless Gateway with a STATIC IP to a dedicated PC, this can be useful as a diagnostic tool. Note: This is not a typical end user application but can be used as a diagnostic tool at the customer site, the gateway may already be setup at the customer site per their procedures.
  • Page 110 Appendix E. Wireless HART Communication [no content intended for this page] PanaFlow™ XMT1000 User’s Manual...

  • Page 111: Appendix F. Foundation Fieldbus Communication

    Appendix F. Foundation Fieldbus Communication Appendix F. Foundation Fieldbus Communication Introduction Fieldbus is a bi-directional digital communication protocol for field devices, which offers an advancement in technologies for process control systems and is widely employed by numerous field devices. The XMT1000 FF option is designed to the specification standardized by the Fieldbus Foundation, and provides interoperability with devices produced by other manufacturers.

  • Page 112: Connection

    Appendix F. Foundation Fieldbus Communication F.2.3 Connection Connect the Fieldbus wires to P1 on the terminal PCB (see Figure 65 below). Panametrics recommends using the top right rear port on the enclosure. IMPORTANT: Please make sure to follow all local installation guidelines. Figure 65: FF Connection to XMT1000 F.2.4 FISCO (Fieldbus Intrinsically Safe Concept) The XMT1000 Fieldbus is certified as a FISCO connection for both entity and FISCO parameters:...

  • Page 113: Dd File

    Appendix F. Foundation Fieldbus Communication IMPORTANT: The FISCO cover on the XMT1000 terminal PCB is required to provide a barrier between IS and non-IS connections. This cover must be installed if the Fieldbus application is FISCO. The FISCO cover should come installed from the factory, as shown in Figure 66 below. The Fieldbus cables should be installed through the XMT1000 upper right port for direct entry into the FISCO zone on the terminal PCB.

  • Page 114: Default Node Address

    Appendix F. Foundation Fieldbus Communication F.2.6 Default Node Address The default node address for each XMT1000 flow meter from the factory is 17 (see Figure 67 below). This should be changed during commissioning. Figure 67: XMT1000 Device Properties PanaFlow™ XMT1000 User’s Manual...

  • Page 115: Specifications

    Appendix F. Foundation Fieldbus Communication Specifications F.3.1 General Manufacturer Name: Panametrics Manufacturer ID (Hex): 004745 Model: XMT1000 Device Type: 0010 FF Device Revision: For latest, see Fieldbus Foundation website FISCO Compliant: Yes Hazardous Location Certs: See drawing 752-584 ITK Revision: 6.2 Protocol: H1 Protocol Baud (bps): 31.25k DD and CFF Files: For latest, see Fieldbus Foundation website...

  • Page 116: User Layer

    Appendix F. Foundation Fieldbus Communication F.3.4 User Layer FB Application Manufacturer: Softing AG Function Blocks: 5-AI(e), 1-PID Supports Block Instantiation: No Firmware Upgrade over Fieldbus: No Configuration Write Protect: HW Jumper on PCB F.3.5 Function Blocks Resource Block Class Type: Enhanced (Field Diagnostics) Transducer Blocks: XMIT, COMPOSIT CH, CH 1, CH 2, CH 3 Transducer Block Class Type: Custom Function Blocks: AI (5), PID...

  • Page 117: Resource Block

    Appendix F. Foundation Fieldbus Communication Resource Block The Resource Block provides common information about the XMT1000 Foundation Fieldbus implementation. The user can find FF revision numbers, set passwords and configure the NAMUR NE107 bit map. F.4.1 FF Revision Figure 69 below shows the Foundation Fieldbus SW and HW versions in the XMT1000 Resource Block, and includes an FF Revision for both.

  • Page 118: Password

    Appendix F. Foundation Fieldbus Communication F.4.2 Password A password must be entered to change XMT1000 system parameters. This can be done using Foundation Fieldbus. There are different levels of security for different Passwords (Admin or Operator). Please see the standard manual for more detail on password levels.

  • Page 119: Namur Ne107

    Appendix F. Foundation Fieldbus Communication To Edit the fields in the Transducer Blocks, complete the following steps: Select or enter the new value. Click on the Write Changes button. Return to the Resource Block > Others tab and select Commit from the SYTEM_REQ_COM drop down box Click on the Write Changes button.
  • Page 120 Appendix F. Foundation Fieldbus Communication The NAMUR NE107 Errors and their Default Categories in the XMT1000 Resource Block are listed in Table 37 below. Table 37: NAMUR NE107 Errors and XMT1000 Default Categories Error Sub-Error Description Default Category CRC Configuration Error Persistent Parameter CRC Fault Failed Software Failure...

  • Page 121: Xmit Transducer Block

    Appendix F. Foundation Fieldbus Communication XMIT Transducer Block The XMIT transducer block contains parameters that can be transmitted onto the Fieldbus via the AI block. The user can view real time data and select the units for each of the parameters (see Figure 72 below). Figure 72: Measurement Parameters and Units in XMIT Transducer Block PanaFlow™...

  • Page 122: Units

    Appendix F. Foundation Fieldbus Communication F.5.1 Units The measurement parameters found on the XMIT Transducer Block have several selectable units. Table 38 below lists the available units for each parameter. Note: The units can only be changed using an Admin password. Make sure the selected units agree between the XMIT Transducer Block and the AI Block.

  • Page 123: Composite Transducer Block

    Appendix F. Foundation Fieldbus Communication Composite Transducer Block The Composite Transducer Block provides the measurement values and programmable parameters that are common to all three paths. Figure 73 below shows the Composite Transducer Block and Table 39 on page 114 lists the Measurements and Parameters that are available.
  • Page 124 Appendix F. Foundation Fieldbus Communication Table 39: Available Measurement Values and Parameters in the Composite TB Composite TB Measurements and Parameters Measurement Parameter BATCH_FWD_TOTALS BATCH_REV_TOTALS BATCH_TOTAL_TIME SOUND_SPEED INVENTORY_FWD_TOTALS INVENTORY_REV_TOTALS INVENTORY_TOTAL_TIME MULTI_KFACTOR REYNOLDS_KFACTOR CURRENT_OPERATING_TEMP STANDARD_VOLUMETRIC BATCH_NET_TOTALS ERROR_STATUS HEALTH_CODE REPORTED_ERROR GATE_INPUT_STATE UNIT_TYPE_DENSITY_R UNIT_TYPE_VELOCITY_R UNIT_TYPE_TEMPERATURE_R PIPE_ID...
  • Page 125 Appendix F. Foundation Fieldbus Communication Table 39: Available Measurement Values and Parameters in the Composite TB Composite TB Measurements and Parameters Measurement Parameter SOS_LOW_LIMIT SOS_HIGH_LIMIT MULTIK_VELREY MULTIK_KFACTOR PATHCONFIGURRATION HARDWARE_REVISION SOFTWARE_REVISION UMPU_SERIAL_NUMBER TOTALIZER_CMD SENSOR_SERIAL_NUMBER MULTIK_ACTIVE MULTIK_TYPE MULTIK_PAIRS KVINPUT_SELECTION ENABLE_ACTIVE_TW CALIBR_MODE_SELECTION PATH_ERROR_HANDLING UNIT_TYPE_DIMENSION UNIT_TYPE_TIME UNIT_TYPE_VISCOSITY...

  • Page 126: Clearing The Totalizer

    Appendix F. Foundation Fieldbus Communication F.6.1 Clearing the Totalizer Batch totals can be controlled through Foundation Fieldbus (see Figure 74 below). The user can start, stop, or reset batch totalizers by setting the option on the TOTALIZER_CMD function of the Composite Transducer Block. To set the totalizers from the Foundation Fieldbus: Verify that the gate and ground terminals on the Main PCB are connected.

  • Page 127: Configurable Measurements

    Appendix F. Foundation Fieldbus Communication Configurable Measurements Below table shows the measurements available over FF: Table 40: Measurements Available Over FF Velocity Ch 1 Signal Quality Down Ch 2 SNR Down Volumetric Ch 1 Amplitude Up Ch 2 Peak Index Up Mass Flow Ch 1 Amplitude Down Ch 2 Peak Index Down...
  • Page 128 Appendix F. Foundation Fieldbus Communication Table 41: Configurable through FF Pipe Configurations Pipe Outer Diameter Pipe Wall Thickness Pipe Inner Diameter Fluid Configurations Kinematic Viscosity Reference Density Tracking Mode Selection Minimum Soundspeed Maximum Soundspeed Limits Minimum Velocity Warning Limit Maximum Velocity Warning Limit Minimum Velocity Maximum Velocity Zero Cutoff...

  • Page 129: Channel Transducer Block

    Appendix F. Foundation Fieldbus Communication Table 41: Configurable through FF Advanced Transmit Voltage Attenuator Reynolds Correction Tw Mode Selection Ch 1 Active Tw Peak % Ch 2 Active Tw Peak % Ch 3 Active Tw Peak % Ch 1 Delta-T Offset Ch 1 Tbc Ch 1 Transmit Delay Ch 1 Number of Errors Allowed...
  • Page 130 Appendix F. Foundation Fieldbus Communication Figure 75: Channel Transducer Block PanaFlow™ XMT1000 User’s Manual...
  • Page 131 Appendix F. Foundation Fieldbus Communication Table 42: Available Measurement Values and Parameters in the Channel TB Channel TB Measurements and Parameters Measurement Parameter CH_SOUND_SPEED CH_TRANSIT_TIME_UP CH_TRANSIT_TIME_DN CH_DELTA_T CH_UP_SIGNAL_QUALITY CH_DN_SIGNAL_QUALITY CH_UP_AMP_DISC CH_DN_AMP_DISC CH_GAIN_UP CH_GAIN_DN CH_SNR_UP CH_SNR_DN CH_UP_PEAK CH_DN_PEAK CH_PEAK_PCT_UP CH_PEAK_PCT_DN CH_NUM_ERRRORS_OF_16 CH_WEIGHT_FACTOR CH_TBC CH_TW...

  • Page 132: Analog Input Block

    Appendix F. Foundation Fieldbus Communication Analog Input Block The Analog Input (AI) Block (see Figure 76 below) is designed as a generalized signal conditioning function. The output from an AI block can be connected to the Fieldbus. The AI block receives and processes data measured by the Transducer Block and provides additional functions such as scaling, filtering, alarm generation, and trending.

  • Page 133: Error Handling

    Appendix F. Foundation Fieldbus Communication F.11 Error Handling The flow meter publishes the error status on the Fieldbus along with the real data. The error status can be seen in the CH_x_Reported Error parameter on the Channel Transducer Block. In addition, the Quality parameter shown with each of the process variables reports the error.
  • Page 134 Appendix F. Foundation Fieldbus Communication Whenever the meter is in measurement error, the quality bit for the published parameter shows bad quality (see Figure 78 below). To change the quality bit to good, the measurement error at the meter must be removed. Notice the QUALITY.STATUS field shows as Bad and the SUBSTATUS field shows as Sensor Failure.

  • Page 135: Simulation Mode

    Appendix F. Foundation Fieldbus Communication F.12 Simulation Mode Simulation mode allows the user to test the FF implementation without the instrument providing real data. The meter PCB is shipped with simulation mode disabled. To enable simulation mode, complete the following steps: CAUTION! To prevent damage to the electronic components, always use ESD protection whenever handling printed circuit boards.

  • Page 136: Fieldbus Troubleshooting Guide

    Appendix F. Foundation Fieldbus Communication F.13 Fieldbus Troubleshooting Guide See Table 43 below for suggested solution to possible Fieldbus problems. Table 43: XMT1000 FF Troubleshooting Guide Problem Presumed Cause Remedy Communication between DCS and Wiring unconnected, broken or Correct wiring between XMT1000 and XMT1000 FF cannot be established shorted spur device coupler.

  • Page 137: Dpi620 Ff Modular Communicator

    Appendix F. Foundation Fieldbus Communication F.14 DPI620 FF Modular Communicator For local diagnostic capability with the XMT1000 FF option, Panametrics Measurement and Control recommends the DPI620G-FF Genii advanced modular calibrator and HART/Fieldbus communicator. The calibrator is available in an IS version as well (DPI620G-IS-FF).
  • Page 138 Appendix F. Foundation Fieldbus Communication [no content intended for this page] PanaFlow™ XMT1000 User’s Manual...

  • Page 139: Appendix G. Menu Map

    Appendix G. Menu Map Appendix G. Menu Map Primary Pages - SIL Type Primary Pages - Non-SIL Type PanaFlow™ XMT1000 User’s Manual...

  • Page 140: Log-In Steps - Sil Type

    Appendix G. Menu Map Log-in Steps - SIL Type G.4 Log-in Steps - Non-SIL Type PanaFlow™ XMT1000 User’s Manual...

  • Page 141: Meter Units And Settings

    Appendix G. Menu Map G.5 Meter Units and Settings G.6 Error Log PanaFlow™ XMT1000 User’s Manual...

  • Page 142: Input/Output - Analog Output

    Appendix G. Menu Map Input/Output - Analog Output PanaFlow™ XMT1000 User’s Manual...

  • Page 143: Digital Output - Pulse Output

    Appendix G. Menu Map G.8 Digital Output - Pulse Output PanaFlow™ XMT1000 User’s Manual...

  • Page 144: Digital Output - Frequency Output

    Appendix G. Menu Map Digital Output - Frequency Output PanaFlow™ XMT1000 User’s Manual...

  • Page 145: Digital Output - Alarm

    Appendix G. Menu Map G.10 Digital Output - Alarm PanaFlow™ XMT1000 User’s Manual...

  • Page 146: Communication Port

    Appendix G. Menu Map G.11 Communication Port G.12 Input/Output - Option Comm (Slot 1) G.12.1 FF PanaFlow™ XMT1000 User’s Manual...

  • Page 147: Hart (Pv Configuration)

    Appendix G. Menu Map G.12.2 HART (PV Configuration) G.13 Programming G.13.1 Composite Clamp-on (Pipe Configuration) PanaFlow™ XMT1000 User’s Manual...

  • Page 148: Composite Wetted (Pipe Configuration)

    Appendix G. Menu Map G.13.2 Composite Wetted (Pipe Configuration) G.13.3 Composite Clamp-on and Wetted (Fluid) PanaFlow™ XMT1000 User’s Manual...

  • Page 149: Composite - Path Configuration

    Appendix G. Menu Map G.13.4 Composite - Path Configuration PanaFlow™ XMT1000 User’s Manual...

  • Page 150: Composite (Limits Configuration)

    Appendix G. Menu Map G.13.5 Composite (Limits Configuration) PanaFlow™ XMT1000 User’s Manual...

  • Page 151: Composite (Advanced Configurations)

    Appendix G. Menu Map G.13.6 Composite (Advanced Configurations) PanaFlow™ XMT1000 User’s Manual...

  • Page 152: Channels (Clamp-On)

    Appendix G. Menu Map G.13.7 Channels (Clamp-On) PanaFlow™ XMT1000 User’s Manual...

  • Page 153: Channels (Wetted)

    Appendix G. Menu Map G.13.8 Channels (Wetted) PanaFlow™ XMT1000 User’s Manual...

  • Page 154: Calibration

    Appendix G. Menu Map G.14 Calibration G.15 Advanced PanaFlow™ XMT1000 User’s Manual...

  • Page 155: Sil Testing (Meter Type - Sil)

    Appendix G. Menu Map G.16 SIL Testing (Meter Type - SIL) G.17 Factory G.17.1 Serial Numbers PanaFlow™ XMT1000 User’s Manual...

  • Page 156: Factory Test

    Appendix G. Menu Map G.17.2 Factory Test G.18 Input/Output G.18.1 Option I/O (Slot 2) PanaFlow™ XMT1000 User’s Manual...
  • Page 157 Appendix G. Menu Map PanaFlow™ XMT1000 User’s Manual...

  • Page 158: Advanced Output Sil (Meter Type - Sil)

    Appendix G. Menu Map G.18.2 Advanced Output SIL (Meter Type - SIL) G.19 Display Measurement G.19.1 One/Two Variable (Composite) PanaFlow™ XMT1000 User’s Manual...

  • Page 159: Channel 1

    Appendix G. Menu Map G.19.2 Channel 1 G.20 Measurement View PanaFlow™ XMT1000 User’s Manual...

  • Page 160: Forward Volume Total

    Appendix G. Menu Map G.21 Forward Volume Total G.22 Totalizer Display PanaFlow™ XMT1000 User’s Manual...

  • Page 161: Process Variable

    Appendix G. Menu Map G.23 Process Variable G.24 Main Menu - Error/Warnings G.25 Main Menu - Software Upgrades PanaFlow™ XMT1000 User’s Manual...
  • Page 162 Appendix G. Menu Map [no content intended for this page] PanaFlow™ XMT1000 User’s Manual...
  • Page 163 Index Analog Outputs Terminal Block Wiring ...........13 Analog Outputs - I/O .
  • Page 164 Index [no content intended for this page] PanaFlow™ XMT1000 User’s Manual...
  • Page 165 Warranty Warranty Each instrument manufactured by Panametrics is warranted to be free from defects in material and workmanship. Liability under this warranty is limited to restoring the instrument to normal operation or replacing the instrument, at the sole discretion of Panametrics. Fuses and batteries are specifically excluded from any liability. This warranty is effective from the date of delivery to the original purchaser.
  • Page 166 Warranty [no content intended for this page] PanaFlow™ XMT1000 User’s Manual...
  • Page 168 Copyright 2024 Baker Hughes company. This material contains one or more registered trademarks of Baker Hughes Company and its subsidiaries in one or more countries. All third-party product and company names are trademarks of their respective holders.

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