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Armstrong AIM ST6700 Installation, Operation And Maintenance Manual

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AIM
Model: ST6700 Armstrong Intelligent
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Monitoring Installation, Operation and
Maintenance Manual
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260-EN-V1.0

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Summary of Contents for Armstrong AIM ST6700

  • Page 1 Model: ST6700 Armstrong Intelligent ® Monitoring Installation, Operation and Maintenance Manual Please read and save these instructions 260-EN-V1.0...

  • Page 2: Table Of Contents

    Product Specifications ...................... 18-19 Product Certifications ....................... 20-21 Product Labels ........................22 Connecting the Armstrong ST6700 to the Honeywell WDM ..........23-43 Connecting the Armstrong ST6700 to the Yokogawa YFGW410 ........44-113 LIMITED WARRANTY AND REMEDY ..................114 Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit armstronginternational.com for up-to-date information.

  • Page 3: Safety

    Safety Icon Legend: — DANGER! … Injury or death and property damage are imminent. — WARNING! … Injury or death and property damage are possible. — CAUTION! … Potential property damage, expensive repairs, and/or voiding the equipment warranty may result. —...

  • Page 4: Warnings And Cautions

    System. Selection or installation of equipment should always be accompanied by competent Caution: Lithium Batteries and Shipping technical assistance. You are encouraged to contact Armstrong International or its local sales Armstrong Intelligent Monitoring™ representative for additional information. products use lithium batteries as power source.
  • Page 5 Warnings and Cautions – continued Notice: Do not exceed 360° of rotation. Rotating the antenna more than 360° can cause the antenna to become disconnected internally. 360° (1 rotation) Maximum Notice: Do not lay the monitor flat on a table or bench without the front cover. Contact with a hard surface can cause damage to internal components.

  • Page 6: Introduction

    Introduction Armstrong Intelligent Monitoring Model ST6700 is wireless monitoring technology that efficiently monitors and evaluates steam trap operation. The AIM ST6700 identifies the conditions of a steam trap to determine ® significant problems that could put your operation at risk. The AIM ST6700 can accurately detect potential ®...

  • Page 7: Theory Of Operation

    (Piezo) and a temperature sensor (Thermistor). The integrated algorithms are patented, proprietary code designed by Armstrong to provide actual steam trap conditions based on inputs from the hardware. When applied to a steam trap, the device wirelessly transmits the current condition of the steam trap.

  • Page 8: Communication Overview

    Communication Overview Armstrong offers a variety of tools to help manage steam trap populations. A primary tool offered by Armstrong is SAGE . SAGE is an online trap management tool that lets you keep all you trap information in one place.

  • Page 9: Communication Map - On Site Sage ® Proxy

    Communication Overview - continued Communication Map – On Site SAGE Proxy ® Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit armstronginternational.com for up-to-date information. North America • Latin America • India • Europe / Middle East / Africa • China • Pacific Rim armstronginternational.com...

  • Page 10: St6700 Overview

    ST6700 Overview Front Stem Antenna Back Cap Pressure (Battery) Equalization Valve Antenna Pressure Equalization Valve IR Sensors Dipswitches Front Cap (Battery) Stem Power Switch Provisioning Button Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit armstronginternational.com for up-to-date information. North America •...
  • Page 11 ST6700 Overview – continued Battery Battery Plug Battery Alighment Pins (3) and Alignment Antenna Battery Plug Pressure Equilizatino Valve Antenna Cable Battery Alignment Holes Stem Back Cap (Battery) Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit armstronginternational.com for up-to-date information. North America •...

  • Page 12: Install Steam Trap Transmitter

    Install Steam Trap Transmitter BURN HAZARD! Pipe and fittings may be hot. Refer to page 13- To avoid contact burns, shut off the steam 14 to determine the flow to the installation point and allow piping proper installation to cool before installing the transmitter wave orientation.

  • Page 13: Proper Transmitter Positioning

    Proper Transmitter Positioning Pipe application temperature determines the correct transmitter mounting configuration. The transmitter may have angular mounting restrictions on horizontally running pipe. There are no angular mounting restrictions on vertical piping. Pipe Temperature 0-160 ºC / 32-320 ºF Corresponding Saturated 5.2 barg/75psig Steam Pressure Pipe Temperature...
  • Page 14 Proper Transmitter Positioning – continued Pipe Temperature 195-255 °C / 383-491 °F Corresponding Saturated 13- 42.2 barg / 188-612 psig Steam Pressure Note: A single heat sink is required. Pipe Temperature 255-440 °C / 491-824 °F Corresponding Saturated 42.2-* barg / 612-* psig Steam Pressure *Steam is superheated at this temperature.

  • Page 15: Battery Installation And Replacement

    Continue this process of working outward from the access point. This battery Note: Use only Armstrong Model D64519 lithium metal battery replacement technique will help the monitors pack. Use caution when installing battery not to damage or in the system to learn the existence of bend any components.

  • Page 16: Maintenance And Service

    Maintenance and Service On / Off ON/OFF Switch Functions The power switch is a small white toggle on the left side of the internal board. It controls the unit’s power and must be toggled to “on” or up for the unit to operate and function. Shown in “off” position below.

  • Page 17: Dip Switch Mode Selection

    Dip Switch Mode Selection Dipswitches Switch Device Operation Mode Code 1.0C and Older 1.13 or Newer Normal Operation Normal Operation / Units - Imperial Down Burst Burst / Units - Imperial Switch Position Down Burst Normal Operation / Units - Metric Down Down Test (Factory use only)

  • Page 18: Product Specifications

    Product Specifications ST6700 Specifications Weight 1.9 Kg (4.1 lbs) Ingress Protection Rating IP66 Output Signal ISA 100.00a 2.4 GHz Operating Temperature -40 °C to 70 °C (-40 °F to 158 °F) Housing - Aluminum (<0.4% copper) Paint - Powder Coat O-ring - EPDM Materials of Construction Stem - 304 Stainless Steel...
  • Page 19 ST6700 ® The Armstrong battery pack P/N D64519 is designed and approved only for use within the AIM-ISA Model ST6700 steam trap monitor. The ST6700 steam trap monitor carries limited design certifications for specific hazardous locations under UL (US and Canada), ATEX,...

  • Page 20: Product Certifications

    Temperature Code: T4 [275ºF (135ºC)] Ambient Temperature Range: T amb -40ºC to 70ºC (-40ºF to 158ºF) For use with Armstrong model D64519 lithium ion battery only Standards used for Certification: UL 913, Ed. 8; UL 60079-0, Ed. 6; UL 60079-11, Ed. 6...
  • Page 21 Product Certifications - Continued North American Hazardous Location / Explosive Atmosphere Ratings Class I, II, III; Division 1; Group A,B,C,D,E,F,G Zone 0; Group IIC, IIB, IIA T4 at T ambient = -40ºC to 70ºC (-40ºF to 158ºF) Notes: Install per the National Electrical Code, ANSI/ISA-RP12.06.01, the Canadian Electrical Code, and applicable European or other international installation codes, including BS EN / IEC 60079-14, as applicable.

  • Page 22: Product Labels

    Product Labels Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit armstronginternational.com for up-to-date information. North America • Latin America • India • Europe / Middle East / Africa • China • Pacific Rim armstronginternational.com...

  • Page 23: Connecting The Armstrong St6700 To The Honeywell Wdm

    Connecting the Armstrong ST6700 to the Honeywell WDM - Table of Contents 1.0 Over The Air (OTA) Armstrong ST6700 Provisioning and Joining ....... 24-27 2.0 Infrared (IR) Armstrong ST6700 Provisioning and Joining ......... 28-32 3.0 Checking ST6700 Software Revision ................33-24 4.0 Checking ST6700 Battery Life...
  • Page 24 1.0 Over The Air (OTA) Armstrong ST6700 Provisioning and Joining OneWireless (includes the Configurator tool) is the software used to configure the WDM and FDAP. To configure the network please use the following steps: 1. Start Internet Explorer, navigate and login to OneWireless via assigned IP address.
  • Page 25 1.0 Over The Air (OTA) Armstrong ST6700 Provisioning and Joining - continued 3. In the FDAP Property Panel, click to select/expand Device Management. Next, scroll down to locate Over The Air Provisioning and click . Ensure FDAP in the device list now has key icon.
  • Page 26 1.0 Over The Air (OTA) Armstrong ST6700 Provisioning and Joining - continued 5. Shortly, the ST6700 should appear on the device list with a icon. Click to select the ST6700 and on the top menu bar on the Provisioning tab click 6.
  • Page 27 1.0 Over The Air (OTA) Armstrong ST6700 Provisioning and Joining - continued 8. The ST6700’s channels will cycle from a icon to a icon. Once all 3 channels have a icon, drag & drop the ST6700 onto the map. Clicking on the ST6700’s map icon will expand its window showing: •...
  • Page 28 2.0 Infrared (IR) Armstrong ST6700 Provisioning and Joining 1. Start Internet Explorer, navigate and login to OneWireless via assigned IP address. 2. Connect the Provisioning Device handheld’s power supply, and its docking station to the USB port on the WDM.
  • Page 29 2.0 Infrared (IR) Armstrong ST6700 Provisioning and Joining - continued 3. In the device list, click to select WDM. Next, expand the Property Panel on the right. Click to expand Property Panel 4. On the Property Panel, expand Provisioning. Check Transfer to PDA, and complete the following information under Settings.
  • Page 30 2.0 Infrared (IR) Armstrong ST6700 Provisioning and Joining - continued 5. If ST6700 isn’t already powered on, power it on. Next, clear any previous provisioning by pressing & holding the provisioning button for 35 seconds. Provisioning Button 6. On the Provisioning Device handheld, select Start > Provisioning Device > Provisioning, the Provisioning screen appears.
  • Page 31 2.0 Infrared (IR) Armstrong ST6700 Provisioning and Joining - continued 7. Hold the Provisioning Device’s IR sensor in line with the IR sensor of the ST6700 and tap “Provision A Device”. If successful, the device provisioned successfully message appears, tap Ok.
  • Page 32 2.0 Infrared (IR) Armstrong ST6700 Provisioning and Joining - continued 8. The ST6700 should now appear on the device list with a icon. Shortly, a will appear next to the ST6700. Click the Graphic icon to expand the channels list. Next, quickly press and release the Provisioning button 5 times consecutively, within 2-4 seconds.
  • Page 33 3.0 Checking ST6700 Software Revision 1. One way to determine a ST6700’s software revision is to click the device list icon, expanding the list. Once expanded, scroll through the list and locate the desired ST6700’s row. Determine its software revision in the Revision column.
  • Page 34 3.0 Checking ST6700 Software Revision - continued 2. Another way to determine a ST6700’s software revision is to select the desired ST6700 from the device list. Once selected, expand the Property Panel and click Field Device Summary in the Identification section will be Sensor Revision: H01.S01.0302.09 Designs, materials, weights and performance ratings are approximate and subject to change without notice.
  • Page 35 4.0 Checking ST6700 Battery Life 1. To determine a ST6700’s remaining battery life, select the desired ST6700 from the device list. Once selected, expand the Property Panel and click Device Vendor Parameters. Scroll down and locate Remaining Battery. ST6700 selected Designs, materials, weights and performance ratings are approximate and subject to change without notice.
  • Page 36 4.1 Resetting Battery Life Through WDM After installing a new battery the battery life indicator needs to be reset. Follow the instructions below to reset the battery life. Note: resetting the battery life when the battery is not new or isn’t replaced with a new battery will cause the remaining battery life to display incorrectly.
  • Page 37 5.0 Modbus Register Content Description Name Data format Details Data Status Unsigned 16 0x0080: Good Status Status of the field wireless device Unsigned 16 (0: connected, 2: not connected) Battery life (0>: days, <0: hours, Integer 16 0x7FFF: external power source) YFGW410.GW_STATUS Device Status...
  • Page 38 5.1 Translating (“STEAMTRAP_UAPMO’).DIAG_STATUS Active Bit Diagnostic Status Failure Status Function Check Status Out of Specification Status Maintenance Required Status Fault In Electronics Faults in sensor or actuator element Installation, calibration problem Out of service Outside sensor limits Environmental conditions out of devices specifications Fault prediction: Maintenance required Power is critical low: maintenance need short term Power is low: maintenance need mid-term...
  • Page 39 5.2 Translating (“TEMPERATURE AIO”).PV and (“TEMPERATURE SETPOINT AIO”).PV Example #2 Register Result Combine Convert 32 HEX to Floating Point 41C8 41C80000 25.00000 0000 Example #3 Register Result Combine Convert 32 HEX to Floating Point 428C 428C0000 70.00000 0000 5.3 Device Self-Diagnosis Status Flags Category 1: Failure Diagnostics Diagnostic: Fault in Electronics Functional Behavior:...
  • Page 40 Diagnostic: Other Faults Functional Behavior: The following diagnostic flags are set: “Failure Status” and “Watchdog Reset” (Bit 31 and Bit 8 are set to 1). Causes and Triggers: The diagnostic flag is set if the result of ProbeTempReadObjId, ProbeTempSetObjId, PiezoStatusUAPObjId registration not successful. This is more like an extra software validation method to assure that all the channels have a right object attached to it and there is no duplicate registration.
  • Page 41 Causes and Triggers: The diagnostic flag is set when the simulation mode /function of any process channel (AI object) is active. Diagnostic: Cold Trap Detected (Armstrong specific) Functional Behavior: The following diagnostic flags are set: “Function Check Status” and “Cold trap” (Bit 30 and Bit 6 are set to 1).
  • Page 42 Category 3: Out of Specification Diagnostic: Outside Sensor Limits Functional Behavior: The following diagnostic flags are set: “Out of Specification Status” and “Environmental Conditions Out of Device Specification” (Bit 29 and Bit 23 are set to 1). Causes and Triggers: The diagnostic flag is set if the internal reading of the A/D converter present in the application processor is out of range.
  • Page 43 Diagnostic: Communication Error (Armstrong specific) Functional Behavior: Diagnostic: Communication error (Armstrong specific) (Bit 28 and Bit 3 are set to 1). Causes and Triggers: The diagnostic flag is set if the API communication between application processor and stack radio module is not working.

  • Page 44: Connecting The Armstrong St6700 To The Yokogawa Yfgw410

    1.0 Required Software ......................45 1.2 Required Hardware ..........................................................................2.0 Wireless System Configuration .................. 46-81 2.1 OTA Armstrong ST6700 Provisioning and Joining ..................................................2.2 IR Armstrong ST6700 Provisioning and Joining ..................................................... 2.3 Viewing Device Data – Field Wireless Management Console ..........................................
  • Page 45 1.0 Required Software The following table lists the required software for ST6700 device integration with the Yokogawa environment: No. Software Scope Required steps Communication with the Internet Explorer Included with all Windows based machine YFGW410 Wireless Network Field Wireless Web based application integral to the YFGW410. Available via the YFGW410 Configuration and Management Console assigned IP address.
  • Page 46 2.0 Wireless System Configuration Field Wireless Management Console (includes the Configurator tool) is the software used to configure the Field Wireless System. To configure the network please use the following steps: 1. Start Internet Explorer and enter assigned IP (Default http://192.168.0.101:8080) in the web browser navigation field.
  • Page 47 2.0 Wireless System Configuration – continued 3. Follow the login steps (if it is the first time, the default login user is “admin” and password “admin”). 4. A valid login opens the configurator tool. Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit armstronginternational.com for up-to-date information. North America •...
  • Page 48 2.0 Wireless System Configuration – continued 5. Select “Network ID” in the navigation pane on the left side of the screen (example Network ID: 204). 6. Select the “Field Devices” tab. 7. Click “Add” to prepare connection for a Field Wireless Device. Designs, materials, weights and performance ratings are approximate and subject to change without notice.
  • Page 49 2.0 Wireless System Configuration – continued 8. Obtain the Device Tag from the ST6700. • Remove the front cover • Record the last 4 characters on the device ID tag (highlighted below) • In this example they are “A532” 9. Fill out the “Device Tag” field with T022FF000002 followed by the recorded 4 characters. •...
  • Page 50 2.0 Wireless System Configuration – continued 10. Verify the following and select OK. • The “OTA Provisioning” check box is selected (for both OTA and IR Provisioning methods) • The device role is selected in the desired function (Default: “IO(Auto)”) •...
  • Page 51 2.0 Wireless System Configuration – continued 12. Select “Sampling Data” in the navigation pane on the left side of the screen. 13. Click “Add” to configure Sampling Data. 14. Select the device to configure • Click the button Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit armstronginternational.com for up-to-date information. North America •...
  • Page 52 15. Select the check box of the device to be configured and click OK. 16. Select “Load CF/DD” from the CF File dropdown. 17. Navigate to folder containing the Armstrong *.cff file and open the file (The device driver package is available at www.armstronginternational.com).
  • Page 53 2.0 Wireless System Configuration – continued 19. If a warning for register device definitions appears, select OK to close the window. 20. Click OK to confirm the Sampling Data configuration. Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit armstronginternational.com for up-to-date information. North America •...
  • Page 54 2.0 Wireless System Configuration – continued 21. After clicking OK sampling data table will be displayed. 22. Select Modbus settings and verify “Normal Mapping” is selected. Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit armstronginternational.com for up-to-date information. North America •...
  • Page 55 2.0 Wireless System Configuration – continued 23. Select “Input Register” tab and drag and drop the device parameters desired to the “Input Registers”. 24. Repeats steps 6 – 23 for multiple devices, if all devices have been configured select the download button. Designs, materials, weights and performance ratings are approximate and subject to change without notice.
  • Page 56 2.0 Wireless System Configuration – continued 25. Confirm that Total Errors and Warnings are 0. Click “OK” to start the download process. 26. Click “Start Download”. Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit armstronginternational.com for up-to-date information. North America •...
  • Page 57 27. Confirm and close the dialog boxes. 28. Configure additional devices. 2.1 OTA Armstrong ST6700 Provisioning and Joining The Yokokawa environment supports two methods of provisioning and joining. The first one is out of band provisioning that requires an infrared adaptor and the second method is the over the air provisioning.
  • Page 58 2.1 OTA Armstrong ST6700 Provisioning and Joining – continued 3. Follow the login steps (if it is the first time, the default login user is “admin” and password “admin”). 4. After a successful login the following window will become available: 5.
  • Page 59 2.1 OTA Armstrong ST6700 Provisioning and Joining – continued 6. Turn on the ST6700 and clear provisioning. 2. Using a pen, press 1. Turn the and hold the provisioning switch to “ON” button for 35 seconds to clear old provisioning and...
  • Page 60 2.1 OTA Armstrong ST6700 Provisioning and Joining – continued 8. Wait until the “Provisioning Network” window is populated. 9. Under “Provisioning Network” select the device, then in “Target Device Tag” dropdown select the tag being provisioned. 10. Click “Start Provisioning” button to initiate OTA provisioning mechanism. The “Provisioning Status” indication to monitor will update based on the current stage of the provisioning process (Expected steps: not provision ->...
  • Page 61 2.1 OTA Armstrong ST6700 Provisioning and Joining – continued 11. The procedure is considered completed, when the device is removed from the “Provisioning Network” window and the status in the “Operation Network” window is set to “Full Join”. Click “Close” when complete.
  • Page 62 2.2 IR Armstrong ST6700 Provisioning and Joining The Yokokawa environment supports two methods of provisioning and joining. Section 2.1 above covered one method using over the air provisioning. The second method is out of band provisioning (IR Provisioning) that requires an infrared adaptor. This manual assumes the configuration of the infrared adapter (ACTiSYS IR224UN) has been completed.
  • Page 63 2.2 IR Armstrong ST6700 Provisioning and Joining – continued 2. Start the FieldMate software and follow the login steps (if it is the first time, the default login user is “DefaultUser” and Default password is auto filled ). 3. Select Tool -> select ISA100 (Infrared) Interface Configuration.
  • Page 64 2.2 IR Armstrong ST6700 Provisioning and Joining – continued 4. Verify the COM Port has been selected with "Prolific USB-to Serial Comm Port" has been selected and press "OK" 5. Verify that FieldMate is set to use Provisioning Information file Select Tool --> Options --> ISA100 Provisioning Setting Designs, materials, weights and performance ratings are approximate and subject to change without notice.
  • Page 65 2.2 IR Armstrong ST6700 Provisioning and Joining – continued The following settings page will open, verify check box is NOT selected as shown below, select “OK”. 6. Turn on the ST6700 and clear provisioning. 1. Turn the switch to “ON”...
  • Page 66 2.2 IR Armstrong ST6700 Provisioning and Joining – continued 7. Start Provisioning Function Holding the IR adapter close to the IR port on the ST6700 device select ISA100(Infrared) in the segment viewer, select Update, while reading do not remove the adapter from the device.
  • Page 67 2.2 IR Armstrong ST6700 Provisioning and Joining – continued 8. Reading” will be displayed near the bottom of the page while discovering the ST6700 device. Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit armstronginternational.com for up-to-date information.
  • Page 68 2.2 IR Armstrong ST6700 Provisioning and Joining – continued 9. The device information for the ST6700 being configured will be displayed once the “Reading” process has completed. Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit armstronginternational.com for up-to-date information.
  • Page 69 2.2 IR Armstrong ST6700 Provisioning and Joining – continued 10. Select the “Provisioning” button, the “Provisioning” configuration pop up will display, verify the proper device tag is entered and update to the proper Network ID from step 5 of section 2.0, select “OK”...
  • Page 70 2.2 IR Armstrong ST6700 Provisioning and Joining – continued 13. Note the Network ID has updated for the device. 14. Once all the devices have been provisioned, the Provisioning Device Information file needs to be exported. Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit armstronginternational.com for up-to-date information.
  • Page 71 2.2 IR Armstrong ST6700 Provisioning and Joining – continued 15. Select File -> Export Provisioning Device Information File. Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit armstronginternational.com for up-to-date information. North America • Latin America • India • Europe / Middle East / Africa • China • Pacific Rim...
  • Page 72 2.2 IR Armstrong ST6700 Provisioning and Joining – continued 16. The Save As window will be displayed, the default save location will be: FieldMate installed drive:\FM\Export\PD File name: PC computer name_FieldMate user name.ypif In this example we are saving to C:\ FM\Export\PD with file name UserPC_DefaultUser.ypif 17.
  • Page 73 2.2 IR Armstrong ST6700 Provisioning and Joining – continued 18. The Open ypif File dialog window will open, navigate to the location where the file was saved in step In this example C:\ FM\Export\PD with file name UserPC_DefaultUser.ypif. Select the file name and select Open.
  • Page 74 2.2 IR Armstrong ST6700 Provisioning and Joining – continued 19. The Import Provisioning File dialog window will open showing the list of new devices to be imported into the YFGW410. Verify all new devices are listed, then select Ok The Import Result dialog will be displayed showing the number of devices loaded successfully, select OK.
  • Page 75 2.2 IR Armstrong ST6700 Provisioning and Joining – continued 20. Verify the Join Key is displayed for the newly added devices in the Configurator Field Devices page. Select the Download button to send the information to the YFGW410 Gateway The Download Configuration dialog window will appear, select “Start Download”...
  • Page 76 2.2 IR Armstrong ST6700 Provisioning and Joining – continued The Download Progress dialog window will display and state completed, select the OK button. 21. On the ST6700 quickly press and release the Provisioning button 5 times consecutively, within 2-4 seconds.
  • Page 77 2.2 IR Armstrong ST6700 Provisioning and Joining – continued 22. Allow up to 30 minutes for the devices to fully join the network and begin publishing. Following steps 1-4 under Section 2.1, log onto the "Monitor" option of the Field Wireless Management Console. Select the Field Device List and verify the added devices show a Join Status of “Full Join”...
  • Page 78 2.3 Viewing Device Data – Field Wireless Management Console The Monitor tool enables the monitoring and operation status of Field Wireless System. In addition to the provisioning method, three other essential functions are available: Topology Viewer - displays the Field Device List – provides communication field wireless network topology.
  • Page 79 2.3 Viewing Device Data – Field Wireless Management Console – continued Tools -> Firmware Download Manager – used for over the air upgrade. Monitor tool. Over the air sensor firmware update. Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit armstronginternational.com for up-to-date information. North America •...
  • Page 80 2.3 Viewing Device Data – Field Wireless Management Console – continued Monitor tool. Other Functions. The function “Read object attribute” allows to read a specified ISA100.11a standard parameter or other vendor attributes. It requires three Ids to read the data: TSAP Id, Object Id and Attribute Id. Monitor tool.
  • Page 81 2.3 Viewing Device Data – Field Wireless Management Console – continued Read Battery used duration attribute. (TSAP Id = 2, Object Id = 1 (UAPMO), Attribute Id = 119). Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit armstronginternational.com for up-to-date information. North America •...
  • Page 82 Edition, version R3.02. The tool supports infrared communication and communication via gateways. Below are the steps required to get the information from a Field Wireless Device (ST6700 Armstrong monitor) via gateway. The setup used is the same one, presented in figure 2.
  • Page 83 3.0 DTM Tool: Configuring Yokogawa FieldMate Tool – continued 3. Select the “Communication Path” pane by selecting the button in the lower left corner 4. To obtain the field device list associated to the configured gateway • Click “ISA100(Gateway) • Click “Update” Designs, materials, weights and performance ratings are approximate and subject to change without notice.
  • Page 84 3.0 DTM Tool: Configuring Yokogawa FieldMate Tool – continued 5. Select the ST6700 monitor and install DD file. • In the Instrumentation List, select the target device and click the dropdown arrow next to the “Device Tag”. • If “Install DD File…” is gray and un-selectable as in the example above then click “Assigned DTM…” The following windows and error messages are expected behavior.
  • Page 85 3.0 DTM Tool: Configuring Yokogawa FieldMate Tool – continued • Reselect the dropdown arrow and “Install DD File…” should now be selectable. Select “Install DD File…” • Select “Install the EDD file for this device, specifying the location and select the location on the PC of the EDD file.
  • Page 86 3.0 DTM Tool: Configuring Yokogawa FieldMate Tool – continued • Confirm the installation of the EDD by selecting “OK”. 6. Install the DTM file for the selected ST6700 monitor. • In the Instrumentation List click the dropdown of the device and select “Select DTM…” Designs, materials, weights and performance ratings are approximate and subject to change without notice.
  • Page 87 3.0 DTM Tool: Configuring Yokogawa FieldMate Tool – continued • Select the “ISA100 Built-in DTM” and select the check box to “Assign selected DTM to this device model” and select “OK”. • “DTM Works” will launch automatically. • In DTM Works – select “Load Default Data” and select “OK”. Designs, materials, weights and performance ratings are approximate and subject to change without notice.
  • Page 88 3.0 DTM Tool: Configuring Yokogawa FieldMate Tool – continued • The DTM Works screen will be display Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit armstronginternational.com for up-to-date information. North America • Latin America • India • Europe / Middle East / Africa • China • Pacific Rim armstronginternational.com...
  • Page 89 3.1 DTM Tool: Viewing Device Data in the DTM Tool Manage the ST6700 Monitor. • The following selections are available in the menu screen. • Device Configuration • Steam Trap_UAPMO - contains the device profile parameters and device vendor parameters; According to the device implementation some parameters are read only.
  • Page 90 The temperature set point is the temperature below which the steam trap is considered COLD. By default, Armstrong uses 160°F or 70°C but it can be changed by the user. Best practice recommendation is to be at least 40°F (22°C) above the highest ambient temperature.
  • Page 91 4.1 Changing the Temperature Setpoint – continued Detailed Instructions to Change the Temperature Setpoint: 1. Open FieldMate 2. Open DTM Works (See DTM Tool – Viewing Device Data in DTM Tool) 3. From the menu select “Menu/Device Configuration/Temperature SetPoint AIO/TemperatureSetpointAIO Designs, materials, weights and performance ratings are approximate and subject to change without notice.
  • Page 92 4.1 Changing the Temperature Setpoint – continued 4. Change Mode – Target – from Man to Auto and select “Download to device”. 5. Change Simulation Switch from 00 to 01. Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit armstronginternational.com for up-to-date information. North America •...
  • Page 93 4.1 Changing the Temperature Setpoint – continued 6. Change Simulation Value – Update to desired Set value. + 40 100=Sp a. Identify the new temperature set point and apply it to the following formula = Desired temperature setting Sp = Set point value to be entered into DTW Example: = 50 C = Desired Setpoint 50 + 40...
  • Page 94 4.1 Changing the Temperature Setpoint – continued c. Verify the Temperature Setpoint Value updated. 7. Change Mode – Target – from Auto to Man and select "Download to device". Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit armstronginternational.com for up-to-date information. North America •...
  • Page 95 4.1 Changing the Temperature Setpoint – continued 8. Change Simulation Switch from 01 to 00 and select “Download to device”. 9. Verify the Value is the desired setpoint. Verify the Mode is in “Man” for both TARGET and ACTUAL. Verify the Simulation Switch is “00”.
  • Page 96 4.2 Simulation the Piezo Status (PV_Value) The purpose of Simulation Mode is to push steam trap state changes through to DCS or SAGE® software, for loop testing. Overview: Step 1 – Change Simulation Switch from 00 to 01 Step 2 – Change Simulation Value – Update the Piezo Status to the desired simulation value (see table below) Step 3 –...
  • Page 97 4.2 Simulation the Piezo Status (PV_Value) – continued 4. Change Simulation Switch from 00 to 01 and select “Download to device”. Note: When the device is in Simulation Mode, the Piezo Status AIO will default to 1 (OK trap condition). Designs, materials, weights and performance ratings are approximate and subject to change without notice.
  • Page 98 4.2 Simulation the Piezo Status (PV_Value) – continued 5. Change Simulation Value – Update the Piezo Status to the desired simulation value (see table at the beginning of this section). In this example the desired Simulation Value is Blow Through. From the Simulation Value table on page 38, the PV_Value column should be 100.
  • Page 99 4.2 Simulation the Piezo Status (PV_Value) – continued 7. Return the Monitor to Standard Operation - Change Simulation Switch from 01 to 00 and select “Download to device”. 8. Confirm the device is back in Standard operation mode Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit armstronginternational.com for up-to-date information. North America •...
  • Page 100 4.3 Device Vendor Parameters 1. Open FieldMate. 2. Open DTM Works (See DTM Tool – Viewing Device Data in DTM Tool). 3. From the menu select Menu/Device Configuration/Steam Trap_UAPMO/UAPMOEX. 4. Select the “Device Vendor Parameters” Tab. • AP Firmware Version – Current Firmware installed in the monitor •...
  • Page 101 4.3 Device Vendor Parameters – continued • Percent Battery Life Remaining – Remaining battery life in percent • RadioReset – Allows the user to remotely restart the monitor • Device Tag – Hexadecimal representation of the device tag ASCII characters •...
  • Page 102 4.4 Restarting the Monitor 1. Open FieldMate 2. Open DTM Works (See DTM Tool – Viewing Device Data in DTM Tool) 3. From the menu select Menu/Device Configuration/Steam Trap_UAPMO/UAPMOEX 4. Select the “Device Vendor Parameters” Tab 5. Select dropdown of “RadioReset” Device Management User-Application Device Provisioning...
  • Page 103 4.5 Attributes List TSAP Object Attribute Description Type Comments: Device Identification Number Array of Unsigned8 (8 Bytes – Byte 0..3 – Vendor ID, Byte 4..5 Model ID, Byte 6..7 Device Revision) DIAG_STATUS Unit32 See Diag_Status decoding Software Version Uint16 Hardware Version Uint16 Battery Energy Reset Uint8...
  • Page 104 4.6 Armstrong Specific Attributes The following table contains a vendor specific attribute list for Armstrong ST 6700 instrument. Each of them could be displayed based on the “Read Object attribute” function. TSAP ID Object ID Attribute ID Description 1 (UAPMO)
  • Page 105 5.0 Viewing the Modbus Registers of the Monitor 1. Start Internet Explorer and enter assigned IP (Default http://192.168.0.101:8080) in the web browser navigation field. 2. Click “Configurator” and the login dialog will appear. 3. Follow the login steps (if it is the first time, the default login user is “admin” and password “admin”). 4.
  • Page 106 5.0 Viewing the Modbus Registers of the Monitor – continued 5. Select “Modbus Settings” and the “Input Registers” tab. Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit armstronginternational.com for up-to-date information. North America • Latin America • India • Europe / Middle East / Africa • China • Pacific Rim armstronginternational.com...
  • Page 107 6.0 Modbus Register Content Description Name Data format Details Data Status Unsigned 16 0x0080: Good Status Status of the field wireless device Unsigned 16 (0: connected, 2: not connected) Battery life (0>: days, <0: hours, Integer 16 0x7FFF: external power source) YFGW410.GW_STATUS Device Status...
  • Page 108 6.1 Translating (“STEAMTRAP_UAPMO’).DIAG_STATUS Active Bit Diagnostic Status Failure Status Function Check Status Out Of Specification Status Maintenance Required Status Fault In Electronics Faults in sensor or actuator element Installation, calibration problem Out of service Outside sensor limits Environmental conditions out of devices specifications Fault prediction: Maintenance required Power is critical low: maintenance need short term Power is low: maintenance need mid-term...
  • Page 109 6.2 Translating (“TEMPERATURE AIO”).PV and (“TEMPERATURE SETPOINT AIO”).PV Example #2 Example #3 Convert 32 HEX to Floating Convert 32 HEX to Floating Register Result Combine Register Result Combine Point Point 428C 41C8 428C0000 70.00000 41C80000 25.00000 0000 0000 6.3 Device Self-Diagnosis Status Flags Category 1: Failure Diagnostics Diagnostic: Fault in Electronics Functional Behavior:...
  • Page 110 6.3 Device Self-Diagnosis Status Flags – continued Diagnostic: Other Faults Functional Behavior: The following diagnostic flags are set: “Failure Status” and “Watchdog Reset” (Bit 31 and Bit 8 are set to 1). Causes and Triggers: The diagnostic flag is set if the result of ProbeTempReadObjId, ProbeTempSetObjId,PiezoStatusUAPObj Id registration not successful.
  • Page 111 Causes and Triggers: The diagnostic flag is set when the simulation mode/function of any process channel (AI object) is active. Diagnostic: Cold Trap Detected (Armstrong Specific) Functional Behavior: The following diagnostic flags are set: “Function Check Status” and “Cold trap” (Bit 30 and Bit 6 are set to 1).
  • Page 112 6.3 Device Self-Diagnosis Status Flags – continued Category 3: Out of Specification Diagnostic: Outside Sensor Limits Functional Behavior: The following diagnostic flags are set: “Out of Specification Status” and “Environmental Conditions Out of Device Specification” (Bit 29 and Bit 23 are set to 1). Causes and Triggers: The diagnostic flag is set if the internal reading of the A/D converter present in the application processor is out of range.
  • Page 113 Diagnostic: Communication Error (Armstrong Specific) Functional Behavior: Diagnostic: Communication error (Armstrong specific) (Bit 28 and Bit 3 are set to 1). Causes and Triggers: The diagnostic flag is set if the API communication between application processor and stack radio module is not working.

  • Page 114: Limited Warranty And Remedy

    Armstrong products, notice of any warranty or other claim relating to the products must be given in writing to Armstrong: (i) within 30 days of last day of the applicable warranty period, or (ii) within 30 days of the date of the manifestation of the condition or occurrence giving rise to the claim, whichever is earlier.
  • Page 115 Notes Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit armstronginternational.com for up-to-date information. North America • Latin America • India • Europe / Middle East / Africa • China • Pacific Rim armstronginternational.com...
  • Page 116 Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit armstronginternational.com for up-to-date information. Armstrong International North America • Latin America • India • Europe / Middle East / Africa • China • Pacific Rim armstronginternational.com 260-EN - V1.0 © 2019 Armstrong International, Inc.

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