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Thermo Scientific AutoXP Manual

Thermo Scientific AutoXP Manual

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AutoXP
Users Guide
1-0511-006 • July 2019

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Summary of Contents for Thermo Scientific AutoXP

  • Page 1 AutoXP Users Guide 1-0511-006 • July 2019...
  • Page 3 © 2019 Thermo Fisher Scientific Inc. All rights reserved. “Honeywell” is a trademark or registered trademark of Honeywell International Inc., or its subsidiaries or affiliates. “Rosemount” is a registered trademark of Rosemount Inc. “Bluetooth” is a trademark or registered trademark of Bluetooth SIG, Inc. “Emerson”...
  • Page 5 Revision History Revision Level Date Comments 02-2018 Initial release (ECO 9377). 04-2018 Change Table D-1 to correct polarity (ECO 9461). 07-2018 Add CSA Class I Div 2 (ECO 9535). Revised per ECO 9808. 07-2019 Thermo Fisher Scientific AutoXP Users Guide...
  • Page 7 The Thermo Scientific AutoXP flow computer complies with part 15 of the FCC rules. Caution The AutoXP flow computer must be operated as supplied. Any changes or modifications made to the device without the express written approval of Thermo Fisher Scientific can void the user’s authority to operate the equipment.

  • Page 9: Table Of Contents

    Security Consideration..................1-3 Hardware Description: Basic System ..............2-1 The Enclosure ....................2-1 Power ......................... 2-3 External Power Source................... 2-3 The AutoXP Basic System................. 2-4 Jumper Setting ....................2-4 Lithium Backup Battery .................. 2-4 Transducer Inputs ................... 2-5 Local Serial Communication Port ..............2-10 Honeywell Smart Transducer Connection .............
  • Page 10 Contents x AutoXP Users Guide Thermo Fisher Scientific...

  • Page 11: Product Overview

    Chapter 1 Product Overview General The Thermo Scientific AutoXP / MVT™ is an explosion proof Class I Div 1 flow computer as well as a Multi-Variable Transmitter. The AutoXP flow computer combines Thermo Fisher Scientific’s long legacy of flow computer knowledge with all the latest technology, e.g., low power, high speed data...

  • Page 12: Main Board

    - Basic Unit - Two Analog Inputs - One Analog Output - Two discrete outputs - Two discrete inputs - Two pulse inputs - Remote RS485 serial communication port dedicated for HART or 1-2 AutoXP Users Guide Thermo Fisher Scientific...

  • Page 13: Using This Manual

    Manual procedures, and maintenance and troubleshooting procedures. For instructions on how to use the Thermo Scientific AutoCONFIG™ instrumentation configuration software with this instrument, refer to the AutoCONFIG software startup guide (p/n 1-0485-068) and the AutoCONFIG software help system.

  • Page 15: Hardware Description: Basic System

    Chapter 2 Hardware Description: Basic System The basic AutoXP system consists of the explosion proof enclosure with mounted Transmitter. The Enclosure Figure 2-1. AutoXP Enclosure Thermo Fisher Scientific AutoXP Users Guide...
  • Page 16 Hardware Description: Basic System Figure 2-2. AutoXP Assembly 2-2 AutoXP Users Guide Thermo Fisher Scientific...

  • Page 17: Power

    The standard instrument is powered by an external 10–30 Vdc power supply. Power Power consumption of the basic/advanced AutoXP flow computer is about 0.4 W for a typical unit; however, overall power consumption depends upon the I/O configuration and is determined on an individual basis.

  • Page 18: The Autoxp Basic System

     Tip The Lithium battery is a field replaceable item.  Warning The Lithium battery may explode if mistreated. Do not attempt to recharge, disassemble, or burn it.  2-4 AutoXP Users Guide Thermo Fisher Scientific...

  • Page 19: Transducer Inputs

    25 feet. Each local analog input provides a transmitter signal input (IN), and a transmitter signal return (AGND). The analog inputs on the terminal board are identified in the following Figure 2-3. Thermo Fisher Scientific AutoXP Users Guide...
  • Page 20 Hardware Description: Basic System The following diagram provides the Analog inputs on the Terminal board. Figure 2-3. Terminal Board 2-6 AutoXP Users Guide Thermo Fisher Scientific...
  • Page 21 P/N 5-1270-250, for converting the 4-20 mA current signal to the 1-5V voltage signal, connecting to instrument analog inputs. Contact Thermo Fisher Scientific for resistor availability. Figure 2-4. Low Power Transmitter and Local Analog Inputs Thermo Fisher Scientific AutoXP Users Guide...
  • Page 22 Another type of RTD probe with integral metal sheathing may connect to J15 on the main board with up to 25 feet of standard cabling between the probe body and flow computer. Note For connection drawings and system requirements, refer to the AutoXP Installation Manual. 2-8 AutoXP Users Guide...
  • Page 23 Hardware Description: Basic System AutoXP typical configuration switch settings for various inputs are shown in Table 2-1 below. Table 2–1. AutoXP Typical Switch Configurations Board Designator Description Default Bluetooth Development Auto-run development Over The Air OTA mode disable Bluetooth update...
  • Page 24 DB9S connecter with 15-ft cable for use with the six-position connecter 3-0446-090B DB9S connecter with 25-ft cable for use with the six-position connecter Bluetooth LE Bluetooth Low Energy connection is available. A Bluetooth Low Energy Dongle is required to do so. 2-10 AutoXP Users Guide Thermo Fisher Scientific...
  • Page 25 The host communication port also supports RS485 communication. To RS485 Mode use RS485 mode, jumpers J14 and J16 must be installed. Select RS485 2-wire mode by installing a jumper on J12 pins 2-3. Remove the jumper for 4-wire mode. Thermo Fisher Scientific AutoXP Users Guide 2-11...
  • Page 26 J4 on the main board is a 10M/100M Ethernet port that supports standard TCP/IP protocol. A local Honeywell smart transducer is mounted into the bottom of the Honeywell Smart AutoXP enclosure. The transducer’s 10-pin connector connects to J4 on Transducer Connection the back of the main board.

  • Page 27: Hmi

    Chapter 3 The AutoXP HMI display has dimension of 59 mm x 42 mm display with 128 x 65 pixels. HMI also employs four infra-red resistive UV touch through glass keypads. Low Energy Bluetooth is available for wireless connectivity. Std Keypad Operation...
  • Page 28 To See DISPLAY LIST Function Enter Request User ID Down or Up Display List Exit LCD Welcome Screen SELECT RUN Function Exit Go back to Main Menu ENTER Init Run Items Down Run Select or Up 3-2 AutoXP Users Guide Thermo Fisher Scientific...
  • Page 29 DOWN Decrement displayed digit Real Types Edit Real Number Function ENTER Accept Entry and exit edit Increment digit selection* DOWN Decrement digit selection* DONE Move to next digit *Digit Selection Digit Selection Options Thermo Fisher Scientific AutoXP Users Guide 3-3...
  • Page 30 String Types Edit String Function ENTER Accept Entry and exit edit Increment digit selection* DOWN Decrement digit selection* DONE Move to next digit 3-4 AutoXP Users Guide Thermo Fisher Scientific...
  • Page 31 Figure 3-1. Bluetooth Operation JP2 and JP3 Bluetooth Connection Step 1: Make sure to remove any wire connections into CEN* (J3-pin5 on terminal board) Figure 3-2. Remove wire connections into CEN J3-pin5 (CEN*) removed Thermo Fisher Scientific AutoXP Users Guide 3-5...
  • Page 32 Wait until Scanning Bar reaches the end. Bluetooth Dongle is programmed to scan for 20 seconds. AutoCONFIG connect screen Step 8: You may click Save anytime to store the AutoXP MAC with the given file name to a connection file list. 3-6 AutoXP Users Guide...
  • Page 33 AutoXP/MVT screening Figure 3-4. MVT found Step 9: Type in file name. Then click Refresh button as shown below. Figure 3-5. BLE File Name/Refresh button Thermo Fisher Scientific AutoXP Users Guide 3-7...
  • Page 34 Name AutoXP/MVT device found Figure 3-6. MVT device found Step 10: Double click the saved file name, and make sure BLE MAC address is BLE MAC address shown below. Figure 3-7. BLE MAC address Step 11: Click Connect. This may take as much as 10 Seconds. Please observe Message Panel located at the bottom of the AutoCONFIG Screen.
  • Page 35 Figure 3-8. Connect screen Unit connecting by Bluetooth Step 12: The successful connection screen will display AutoXP Firmware ID as shown in Figure 3-9. Figure 3-9. Bluetooth connection successful The unit is now successfully connected to Bluetooth. Thermo Fisher Scientific...
  • Page 37 The Highway Addressable Remote Transducer (HART) protocol is an industrial protocol that is superimposed on the 4–20 mA analog output of the AutoXP. It is an open standard, and full details about HART can be obtained from the HART Communication Foundation at www.fieldcommgroup.org.
  • Page 38 Figure 4-2. HART AutoMITTER Mapping Disabled Note: After changing the state of Enabled/Disabled, the user must then perform an I/O rescan or power cycle the AutoXP for the change to take effect. Wiring & Connections A typical HART connection for the 4-20mA current loop is shown below (see Figure 4-3).
  • Page 39 The 4-20ma output represents the digital Primary Variable [PV]. 4-20mA Output For AutoXP the PV can be setup for Differential Pressure, Static Pressure or Line Temperature. By default, the 4-20mA output is set for Differential Pressure with a Range of 0-100 inches H2O.
  • Page 40 LCD display of the HHT Online Menu. When first connecting to the AutoXP using a 475 HHT, the initial screen displayed will be the Online Menu. Figure 4-4. Initial Online Menu Device setup Menu [475 key sequence 1] The Device Setup Menu is accessed via the Online Menu.
  • Page 41 Cfg Process Vars Menu [475 key sequence 1, 1, 7] The Cfg Process Vars Menu is used to configure/allocate each of the process variables to items within the AutoXP MVT. Figure 4-7. Cfg Process Vars Menu Each process variable PV, SV, TV or QV can be allocated to one of the following items: •...
  • Page 42 HART Diag/Service Menu [475 key sequence 1, 2] The Diag/Service Menu is used to verify the status of the AutoXP MVT and also to perform calibration/verification of the analog inputs and 4-20mA output. Figure 4-8. Diag/Service Menu Status Info Menu [475 key sequence 1, 2, 1] Figure 4-9.
  • Page 43 RTD Temp Status [475 key sequence 1, 2, 1, 4] RTD: LO ALARM OFF|ON RTD: LOLO Alarm OFF|ON RTD: HI Alarm OFF|ON RTD: HIHI Alarm OFF|ON RTD: Out Of Range OFF|ON RTD: ManOvrd OFF|ON RTD: In Calibration OFF|ON Thermo Fisher Scientific 4-7 AutoXP Users Guide...
  • Page 44 HART Loop Test [475 key sequence 1, 2, 2] Loop Test is used to verify the 4-20mA current output of the AutoXP MVT. The associated method will automatically run and can supply any required mA value from between 4 and 20mA so that the current loop can be verified when connecting to a host device.
  • Page 45 Figure 4-13. Required output fixed 5. Press OK to return to step 2 or Press Abort to exit the Loop Test. 6. Current Loop Test is complete. Figure 4-14. Current Loop Test complete Thermo Fisher Scientific 4-9 AutoXP Users Guide...
  • Page 46 4-20mA current loop. Points are calibrated at 4mA and 20mA as follows: 1. After selection of D/A Trim, a warning is provided to remove the AutoXP MVT output from any automatic control.
  • Page 47 4. User enters actual measured value. Figure 4-18. Enter meter value 5. AutoXP will modify the output to provide 4mA. If the output goes to 4mA, proceed to step 6 below. If the output is not 4mA, go back to step 4.
  • Page 48 HART 6. 20mA is forced onto the current loop. Figure 4-20. Setting fld dev output to 20mA 7. User enters actual measured value. Figure 4-21. Enter meter value 4-12 AutoXP Users Guide Thermo Fisher Scientific...
  • Page 49 HART 8. AutoXP will modify the output to provide 20mA. If the output goes to 20mA, proceed to step 9 below. If the output is not 20mA, go back to step 7. Figure 4-22. Fld dev output 20.000mA 9. D/A Trim is complete. The 4-20mA output will be returned to its original value.
  • Page 50 Both Differential Pressure and Pressure inputs will follow the same sequence: 1. After selection of the required input for calibration, a warning is provided to remove the AutoXP MVT output from any automatic control. Figure 24. Remove Loop from automatic control 2.
  • Page 51 4. DD will display live updates of actual input value. 5. Press ENTER/OK when value is stable. Figure 4-27. Actual input value display 6. Enter actual value supplied to the input. Figure 4-28. Enter New EU Supplied Value Thermo Fisher Scientific 4-15 AutoXP Users Guide...
  • Page 52 9. DD will display live updates of actual input value. 10. Press ENTER/OK when value is stable. Figure 4-30. EU Value 11. Enter actual Mid value supplied to the input. Figure 4-31. Enter actual MID value supplied to the input Thermo Fisher Scientific 4-17 AutoXP Users Guide...
  • Page 53 13. DD will display live updates of actual input value. 14. Press ENTER/OK when value is stable. Figure 4-33. Live updates of actual input value 15. Enter actual Max value supplied to the input. Figure 4-34. Enter New EU Supplied Value Thermo Fisher Scientific 4-17 AutoXP Users Guide...
  • Page 54 HART 16. DD will update calibration within the AutoXP. Figure 4-35. Updating Calibration 17. Calibration is complete and user can return to the DD Diag/Service Menu. Figure 4-36. Calibration Complete 4-18 AutoXP Users Guide Thermo Fisher Scientific...
  • Page 55 • Loop Current Mode • Poll Address • Device ID • Config Change Count • Tag • Long Tag • Date • Write Protect Mode • Descriptor • Message • Final Assembly Number • Revision Info Thermo Fisher Scientific 4-19 AutoXP Users Guide...
  • Page 56 Detailed Setup Menu [475 key sequence 1, 4] Figure 4-40. Detailed Setup Menu The Detailed Setup Menu is used to configure/view the AutoXP specific variables. The Menu has the following 5 sub menus that are used to configure/view System and Input Configuration: 1.
  • Page 57 HART System Info Menu [475 Key Sequence 1, 4, 1] Figure 4-41. System Info Menu System Info Menu provides general information about the AutoXP MVT as follows: • Start Date • Start Time • RTU Version • HART Version • DD Thermo ID •...
  • Page 58 HART System Config Menu allows a user to configure the RTC, Display and Input Units Selection for the AutoXP MVT. A menu is also provided to allow various reset commands to be issued to the device as follows: • RTC Config •...
  • Page 59 • DP Units • Pressure Units • RTD Temp Units Command Menu [475 Key Sequence 1, 4, 2, 4] Command Menu is used to access the Reset Method for the AutoXP. Figure 4-46. Command Menu Thermo Fisher Scientific 4-23 AutoXP Users Guide...
  • Page 60 3. If Yes is selected, ALL Configurations will be reset with the following display asking the user to wait. Figure 4-48. Performing COLD Start 4. After about 30 seconds, the display will return to the System Config Menu. 4-24 AutoXP Users Guide Thermo Fisher Scientific...
  • Page 61 3. If Yes is selected, ALL Configurations will be reset with the following display asking the user to wait. Figure 50. Performing Warm Start 4. After about 30 seconds, the display will return to the System Config Menu. Thermo Fisher Scientific 4-25 AutoXP Users Guide...
  • Page 62 3. If Yes is selected, ALL HART Configurations will be reset with the following display asking the user to wait. Figure 4-52. Performing HART Reset 4. After about 15 seconds, the display will return to the System Config Menu. 4-26 AutoXP Users Guide Thermo Fisher Scientific...
  • Page 63 When set to LIVE, the current value is the EU Value from the live input. When set to MANUAL, a Manual Value can be entered. This value is then used as the Current Value in the Live Input Data. Thermo Fisher Scientific 4-27 AutoXP Users Guide...
  • Page 64 In the following screen, only LO Alarm, HI Alarm and LO Value Alarm will annunciate in the HART additional Status Bytes. LOLO, HIHI and HI Value Alarms are disabled. Figure 4-56. Alarm Enable Menu 4-28 AutoXP Users Guide Thermo Fisher Scientific...
  • Page 65 The previous Current Calibration Menu shows the three point calibration table for the input prior to the last successful calibration. By comparing the two previous and current calibration constants, an idea of the performance of the input can be determined. Thermo Fisher Scientific 4-29 AutoXP Users Guide...
  • Page 66 Review Menu [475 Key Sequence 1, 5] Figure 4-59. Review Menu The Review Menu can be used to read the setup of the AutoXP as a list of variables. Items within each sub menu are listed contiguously and are READ ONLY for review purposes only.
  • Page 67 HART System [475 Key Sequence 1, 5, 2] Figure 4-61. System Menu Diff Press [475 Key Sequence 1, 5, 3] Figure 4-62. Diff Press Menu Thermo Fisher Scientific 4-31 AutoXP Users Guide...
  • Page 68 HART Pressure [475 Key Sequence 1, 5, 4] Figure 4-63. Pressure Menu RTD Temperature [475 Key Sequence 1, 5, 5] Figure 4-64. RTD Temperature Menu 4-32 AutoXP Users Guide Thermo Fisher Scientific...
  • Page 69 HART AutoXP MVT DD Menu Structure for 475 On Line Menu Cfg Proc Vars Process Variables 1 Device Setup 1 PV is 1 PV 2 PV 2 SV is 2 PV % rnge 3 PV % rnge 3 TV is...
  • Page 70 HART AMS Type Masters The AutoXP Device Description can be imported into PC HART masters such as Fisher Rosemount’s AMS Asset Management Tool. This section describes the PC Type interface available when connected to a PC HART master. 4-34 AutoXP Users Guide...
  • Page 71 After selecting Configure/Setup from the menu tree, the Basic Setup screen will be displayed. Device Information Tab This screen allows access to the basic HART Configuration for the AutoXP. Figure 4-67. Device Information Tab Thermo Fisher Scientific 4-35 AutoXP Users Guide...
  • Page 72 HART Config Process Variables Tab This screen allows the 4 HART process variables to be allocated to the required variables within the AutoXP. Default Configuration will be: • PV is DP • SV is Pressure • TV is RTD Temperature •...
  • Page 73 HART Current Output Tab This screen is used to configure, test and calibrate the 4-20mA output. Figure 4-68. Current Output Tab Thermo Fisher Scientific 4-37 AutoXP Users Guide...
  • Page 74 HART Loop Test Loop Test is used to verify the 4-20mA current output of the AutoXP MVT. The associated method will automatically run and can supply any required mA value from between 4 and 20mA so that the current loop can be verified when connecting to a host device.
  • Page 75 HART If Other was selected, the required Output current must be entered. Figure 4-71. Enter other output value Output is forced to requested value. Figure 4-72. Requested value output Thermo Fisher Scientific 4-39 AutoXP Users Guide...
  • Page 76 HART On exit from method, the output is returned to its original state. Figure 4-73. Output returned to original state Method is complete. Press Finish to close the dialog. Figure 4-74. Method complete 4-40 AutoXP Users Guide Thermo Fisher Scientific...
  • Page 77 4-20mA current loop. Points are calibrated at 4mA and 20mA as follows: 1. After selection of D/A Trim, a warning is provided to remove the AutoXP MVT output from any automatic control.
  • Page 78 HART 3. 4mA is forced onto current loop. Figure 4-77. Setting fld dev output to 4mA 4. User enters actual measured value. Figure 4-78. Enter meter value 4-42 AutoXP Users Guide Thermo Fisher Scientific...
  • Page 79 HART 5. AutoXP will modify the output to provide 4mA. Figure 4-79. Fld dev output equal to reference meter If the output goes to 4mA, proceed to step 6 below. If the output is not 4mA, go back to step 4.
  • Page 80 7. User enters actual measured value. Figure 4-81. Enter meter value. 8. AutoXP will modify the output to provide 20mA. Figure 4-82. Fld dev output equal to reference meter If the output goes to 20mA, proceed to step 9 below.
  • Page 81 9. D/A Trim is complete and the 4-20mA output will return to its original value. Figure 4-83. Return fld dev to original output The loop can now be returned to automatic control. Figure 4-84. Loop returned to automatic control Thermo Fisher Scientific 4-45 AutoXP Users Guide...
  • Page 82 HART Method is complete. Press Finish to close Dialog. Figure 4-85. Method Complete 4-46 AutoXP Users Guide Thermo Fisher Scientific...
  • Page 83 HART Detailed Setup Menu The Detailed Setup Menu is used to configure/view the AutoXP specific variables. The Menu has the following six sub menus that are used to configure/view System and Input Configuration: • System Info • System Config • Diff Press •...
  • Page 84 System Config Tab System Config Menu allows a user to configure the RTC, Display and Input Units Selection for the AutoXP MVT. A button is also provided to allow various reset commands to be issued to the device as follows: - Command Method Figure 4-87.
  • Page 85 HART Diff PressTab This screen allows configuration, calibration and monitoring of the Differential Pressure Input for the AutoXP MVT. Pressing Calibrate DP Input will start the input calibration method. Figure 4-88. Diff Press Tab Figure 4-89. Detailed Setup Thermo Fisher Scientific...
  • Page 86 HART Pressure Tab This screen allows configuration, calibration and monitoring of the Pressure Input for the AutoXP MVT. Pressing Calibrate Pressure Input will start the input calibration method. Figure 4-90. Pressure Tab 4-50 AutoXP Users Guide Thermo Fisher Scientific...
  • Page 87 HART RTD Temperature Tab This screen allows configuration, calibration and monitoring of the RTD Temperature Input for the AutoXP MVT. Pressing Calibrate RTD Input will start the input calibration method. Figure 4-91. RTD Temperature Tab Thermo Fisher Scientific 4-51 AutoXP Users Guide...
  • Page 88 Both DP and Pressure inputs will follow the same sequence. 1. After selection of the required input for calibration, a warning is provided to remove the AutoXP MVT output from any automatic control. Figure 4-92. Calibrate RTD Input 2. Select the required number of calibration points.
  • Page 89 Figure 4-94. Supply MIN degF to RTD Input 6. DD will display live updates of actual input value. 5. Press Next > when value is stable. Figure 4-95. Press Next when value is stable Thermo Fisher Scientific 4-53 AutoXP Users Guide...
  • Page 90 8. If a two point calibration is required, go back to step 13. For a three point calibration, supply a mid-range value to the input. Figure 4-97. Supply MID degF to RTD Input 4-54 AutoXP Users Guide Thermo Fisher Scientific...
  • Page 91 9. DD will display live updates of actual input value. 10. Press ENTER/OK when value is stable. Figure 4-98. Actual Input Value 11. Enter actual Mid value supplied to the input Figure 4-99. Enter New EU Supplied Value Thermo Fisher Scientific 4-55 AutoXP Users Guide...
  • Page 92 Figure 4-100. Supply MAX degF to RTD Input 13. DD will display live updates of actual input value. 14. Press Next when value is stable. Figure 4-101. Press Next when value is stable 4-56 AutoXP Users Guide Thermo Fisher Scientific...
  • Page 93 HART 15. Enter actual Max value applied to the input. Figure 4-102. Enter New EU Supplied Value 16. DD will update calibration within the AutoXP. Figure 4-103. Update Calibration Thermo Fisher Scientific 4-57 AutoXP Users Guide...
  • Page 94 17. Calibration is complete and user can return to the DD Diag/Service Menu. Figure 4-104. Calibration Complete 18. Method is complete. Press Finish to close the Dialog box. Figure 4- 105. Method Complete 4-58 AutoXP Users Guide Thermo Fisher Scientific...
  • Page 95 HART Device Diagnostics Screen The Device Diagnostic Screen will indicate any device faults present on the AutoXP as shown below: Figure 106. Device Diagnostic Screen Thermo Fisher Scientific 4-59 AutoXP Users Guide...
  • Page 96 HART Process Variables The Process Variables Screen below shows the live HART values and current output information. Figure 4-107. Process Variables Screen 4-60 AutoXP Users Guide Thermo Fisher Scientific...

  • Page 97: Hart

    PV URV 100 inH2O PV is SV is Pressure TV is Temperature QV is Battery Volts Display Scroll Time Display Contrast Display MM/DD/YY Date Format DP Units inH2O Pressure Units RTDTemp Deg F Thermo Fisher Scientific 4-61 AutoXP Users Guide...
  • Page 98 HART Table 4-1. Basic HART Configuration (continued) Item Default Units DP Mode Live DP Alarm 0x00 Enable Pressure Live Mode Pressure 0x00 Alarm Enable RTD Temp Live Mode RTD Temp 0x00 Alarm Enable 4-62 AutoXP Users Guide Thermo Fisher Scientific...

  • Page 99: Functional Description

    Tasks performing calibrations, refer to the AutoCONFIG software help system. The AutoXP flow computer provides support for both Gas and Liquid on Meter Types differential pressure meter and linear meter types. For differential pressure meters, the instrument supports orifice, V-Cone, annubar, and slotted DP installations.
  • Page 100 • Propylene density API Ch. 11.3.3.2 • Ethylene density API 2565 (Ch. 11.3.2.1); Ethylene NBS 1045 • Live density input Thermo Scientific Sarasota liquid density meter, Solartron, UGC, 4-20 mA 5-2 AutoXP Users Guide Thermo Fisher Scientific...
  • Page 101 The results of this calculation are then used as the input into the Fwv equation to obtain the Fwv factor. Thermo Fisher Scientific AutoXP Users Guide 5-3...
  • Page 102 Averaging Techniques Users may configure the AutoXP flow computer to support one of the four averaging techniques as outlined in the API Ch. 21.1. 1. Flow dependent time-weighted linear averaging 2.
  • Page 103 Undefined Pipe Diameter (Snapshot) Orifice Diameter (Snapshot) Atmospheric Pressure (Snapshot) Pressure Base (Snapshot) Temperature Base (Snapshot) Average Differential Pressure Average Static Pressure Average Gas Temperature Flow Status (Snapshot) Accumulated Volume (Current Log Period) Thermo Fisher Scientific AutoXP Users Guide 5-5...
  • Page 104 Average Propane Content Average Water Content Average Hydrogen Sulfide Content Average Hydrogen Content Average Carbon Monoxide Content Average Oxygen Content Average I-Butane Content Average N-Butane Content Average I-Pentane Content Average N-Pentane Content Average C6+ Content 5-6 AutoXP Users Guide Thermo Fisher Scientific...
  • Page 105 Average Static Pressure Average Gas Temperature Flow Status (Snapshot) Accumulated Volume (Current Log Period) Accumulated Energy (Current Log Period) Hourly Flow Rate (Snapshot) Daily Flow Rate (Snapshot) Hourly Energy Rate (Snapshot) Daily Energy Rate (Snapshot) Thermo Fisher Scientific AutoXP Users Guide 5-7...
  • Page 106 Average Oxygen Content Average I-Butane Content Average N-Butane Content Average I-Pentane Content Average N-Pentane Content Average C6+ Content Average N-Hexane Content Average N-Heptane Content Average N-Octane Content Average N-Nonane Content Average N-Decane Content 5-8 AutoXP Users Guide Thermo Fisher Scientific...
  • Page 107 Contact Hour Opening Volume Totalizer IV IV Daily Gross Total Drive Gain FWA Density API FWA Density API@60F FWA Meter Factor Shrinkage Factor Water Cut FWA Pressure FWA Temperature FWA CTL/VCF FWA CPL Avg. Frequency Thermo Fisher Scientific AutoXP Users Guide 5-9...
  • Page 108 Meter Factor IV Open (FP) IV Close (FP) IV Total (PRD) Gross Total (PRD) S/W Volume (PRD) Net Total (PRD) Cumm Gross Total (FP) Cumm Net Total (FP) Avg. GSV Flowrate Avg. NSV Flowrate 5-10 AutoXP Users Guide Thermo Fisher Scientific...
  • Page 109 Functional Description Delivery / Time Preset Volume (bbls) Driver ID # Alternate Ticket Thermo Fisher Scientific AutoXP Users Guide 5-11...
  • Page 110 When users log in, flow is not affected unless the unit is in maintenance mode. Before entering maintenance mode, the unit asks the user if the inputs should be frozen. 5-12 AutoXP Users Guide Thermo Fisher Scientific...
  • Page 111 Functional Description Communication Functions The AutoXP flow computer uses one communications port definition block per serial port. The block can be used to specify the port as a Master or Slave. When in Master mode, the communications block references contain pointers to any combination of the following types of Master blocks: Modbus master communications blocks –...
  • Page 112 Slave Mode Password #2 Modbus Register Number Slave Mode Password #2 Value Slave Mode Password #2 Security Access Mask Slave Mode Password #3 Modbus Register Number Slave Mode Password #3 Value Slave Mode Password #3 Security Access Mask Thermo Fisher Scientific 5-14 AutoXP Users Guide...
  • Page 113 Modbus Register Item #1 (Starting Register Number + 0) Modbus Register Item #2 (Starting Register Number + 1) Modbus Register Item #3 (Starting Register Number + 2) Modbus Register Item #100 (Starting Register Number + 99) Thermo Fisher Scientific 5-15 AutoXP Users Guide...
  • Page 114 Modbus Register Item #1 (Starting Register Number + 0) Modbus Register Item #2 (Starting Register Number + 1) Modbus Register Item #3 (Starting Register Number + 2) Modbus Register Item #50 (Starting Register Number + 49) AutoXP Users Guide 5-16 Thermo Fisher Scientific...

  • Page 115: Maintenance

    Maintenance Warning For hazardous area installations: In the event of a fault condition, the AutoXP flow computer cannot be serviced by the customer. No repair to faulty assemblies should be attempted. Faulty assemblies must be replaced with identical replacements. All repairs or part replacements must be done by Thermo Fisher or its appointed repair agent.
  • Page 116 Maintenance 2. Replace new XP Motherboard by reversing the steps from 1. ‘Replacing the Main Board’ above. AutoXP Users Guide Thermo Fisher Scientific...
  • Page 117 Replacing the Backup Battery The Lithium coin backup battery is located at BH1 on the back of the AutoXP main board. It is a field replaceable item. Warning The Lithium battery may explode if mistreated. Do not attempt to recharge, disassemble, or burn it.
  • Page 118 6. Upon completion, the flow computer will display that the download is complete, and the software will inform you that the download has been successful. Click OK. If AutoXP Main board SW 1 is on, turn it off. 7. Establish communications with the flow computer. The No Display List screen will appear on the flow computer display.

  • Page 119: Getting Help

    Ph: +44 (0) 1606 548700 Ph:+1 (800) 437-7979 Fax: +44 (0) 1606 548711 Fax: (713) 272-2273 Fax: +86 (10) 8419-3580 C327, TTC Industrial Area MIDC Pawane New Mumbai 400 705, India Ph: +91 (22) 4157 8800 www.thermofisher.com Thermo Fisher Scientific AutoXP Users Guide 7-1...
  • Page 120 Getting Help Thermo Scientific products are warranted to be free from defects in Warranty material and workmanship at the time of shipment and for one year thereafter. Any claimed defects in Thermo Scientific products must be reported within the warranty period. Thermo Fisher shall have the right to inspect such products at Buyer’s plant or to require Buyer to return such...

  • Page 121: Ordering Information

    Table A–2. Communication Part Number Description 3-0500-546- Bluetooth Dongle 3-0446-090 PC-Lemo Cable (15 feet) 3-0446-090-B PC-Lemo Cable (25 feet) Table A–3. Cable Assembly Part Number Description 3-0500-091 Cable, AutoWAVE Programming 3-0482-013 Antenna Cable (35 feet) Thermo Fisher Scientific AutoXP Users Guide...
  • Page 122 AutoXP, CPU PCBA Spare Kit 3-0500-314-SP AutoXP, Terminal PCBA Spare Kit 3-0500-315-SP AutoXP, Enclosure Internal Mounting Kit 5-3023-052-SP AutoXP, 1500PSI CS HW Spare Kit 5-3023-053-SP AutoXP, 1500PSI SS HW Spare Kit 5-3023-054-SP AutoXP, 4500PSI CS HW Spare Kit 5-3023-055-SP AutoXP, 4500PSI SS HW Spare Kit...

  • Page 123: Specifications

    - Two pulse inputs up to 10 KHz Display 128x65 Back-lit Graphic LCD. Keypad 4 infra-red touch through glass keys Temperature range -40°C to +85°C. Power supply Standard 10–30 Vdc Class 2 power circuit, external power supply. Thermo Fisher Scientific AutoXP Users Guide...
  • Page 124 Class 1, Div. 1, Groups B, C & D, T5C (Temp -40°C to +85° C) Class 1, Div. 2, Groups B, C &D, T4C (Temp -40°C to +85° Temperature range (Temp -40°C to +85°C. Power supply Standard 10–30 Vdc external power supply. Thermo Fisher Scientific AutoXP Users Guide...

  • Page 125: Main Board Switch Settings

    Main Board Switch Settings Switch Settings Factory Setting The factory setting (default) for switch S1 is off (see Figure C-1). SW1 default settings are provided in Table C-1. Figure C-1. S1 switch on Main Board Thermo Fisher Scientific AutoXP User Guide C-1...
  • Page 126 Debugger up when the switch is on. Function selection not available. Continuous System stays in wake-up power on mode when the switch is on. Momentarily switch on to reset System reset the system. AutoXP User Guide C-2 Thermo Fisher Scientific...

  • Page 127: Terminal Board Connectors & Jumpers

    Appendix D Terminal Board Connectors & Jumpers Figure D-1. Terminal Board Thermo Fisher Scientific AutoXP User Guide D-1...
  • Page 128 Local CHIT Port Local CHIT Port Local CHIT Port Local CHIT Port RX/RX+ Host Port CTS/RX- Host Port Host Port Host Port TX/TX- Host Port RTS/TX+ Host Port Description Comment Connector Ethernet RJ 485 AutoXP User Guide D-2 Thermo Fisher Scientific...
  • Page 129 Remote 485 RX+ Reserved for HART or MVT RXD- Remote 485 RX- Reserved for HART or MVT HW5PC J15 Top Description Comment Connector Return RTD return RTD - RTD - RTD+ RTD + Thermo Fisher Scientific AutoXP User Guide D-3...
  • Page 130 Terminal Board Jumpers Jumper Comment Jumpers RS485 RS232 TX AC TX DC RX AC RX DC J12 1-2 SW DUAL/HALF J12 2-3 2-Wire Mode 4 Wire Mode Force DCD Seal Slot Sensor Contact Closure AutoXP Users Guide D-4 Thermo Fisher Scientific...
  • Page 131 Ph: +86 10 84193588 Fax: +44 1606 548711 orders.process.us@thermofisher.com india@thermofisher.com info.eid.china@thermofisher.com sales.epm.uk@thermofisher.com Find out more at thermofisher.com/AutoXP © 2018 Thermo Fisher Scientific Inc. All rights reserved. All trademarks are the property of Thermo Fisher Scientific and its subsidiaries unless otherwise specified. 1-0511-006...

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