GE moisture.iq User Manual

GE moisture.iq User Manual

Multi-channel moisture and oxygen analyzer
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Table of Contents
Moisture and Oxygen
moisture.IQ
User's Manual
bhge.com
910-298 Rev. E
September 2017
Table of Contents
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Summary of Contents for GE moisture.iq

  • Page 1 Moisture and Oxygen moisture.IQ User’s Manual bhge.com 910-298 Rev. E September 2017...
  • Page 3 Contact your BHGE representative for the most current information. The Baker Hughes logo is a trade mark of Baker Hughes, a GE company. The GE Monogram is a trademark of the General Electric...
  • Page 4 [no content intended for this page]...
  • Page 5: Table Of Contents

    Connecting the Delta F Oxygen Cell ............. .21 moisture.IQ User’s Manual...
  • Page 6 5.1 Configuring the Probes ................. . .59 moisture.IQ User’s Manual...
  • Page 7 6.1 Setting Up moisture.IQ Communications ........
  • Page 8 C.2 Updating the moisture.IQ Module Firmware ........
  • Page 9: Product Registration

    Preface Product Registration Thank you for purchasing your moisture.IQ from Baker Hughes, a GE Company. Please register your product at www.gemeasurement.com/productregistration for product support such as the latest software/firmware upgrades, product information and special promotions. Services BHGE 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.
  • Page 10: Auxiliary 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. viii moisture.IQ User’s Manual...
  • Page 11: Environmental Compliance

    Preface Environmental Compliance RoHS The moisture.IQ fully complies with RoHS regulations (Directive 2011/65/EU). Waste Electrical and Electronic Equipment (WEEE) Directive BHGE is an active participant in Europe’s Waste Electrical and Electronic Equipment (WEEE) take-back initiative (Directive 2012/19/EU). The equipment that you bought has required the extraction and use of natural resources for its production. It may contain hazardous substances that could impact health and the environment.
  • Page 12 Preface [no content intended for this page] moisture.IQ User’s Manual...
  • Page 13: Chapter 1. Installation

    Chapter 1. Installation 1.1 Introduction Users typically install the moisture.IQ as part of a complex process system, which includes components such as filters, pumps, and pressure regulators. In such an environment, probes and other parts of the system may be subjected to environmental hazards, such as high temperature, pressure extremes, corrosive elements and mechanical vibrations.
  • Page 14: Choosing An Installation Site

    The equipment provided should be suited to your application and installation site. The moisture.IQ is available in rack-mount, bench top, or panel-mount versions that are suitable for most indoor installations. BHGE also provides weatherproof and explosion-proof housings for outdoor and hazardous area locations.
  • Page 15: Moisture Probe Considerations

    It will also perform well under gas flow conditions as high as 10,000 cm/sec and liquid flow conditions up to 10 cm/sec. Refer to BHGE document #916-064, Basic Hygrometry Principles, for maximum flow rates in gases and liquids. moisture.IQ User’s Manual...
  • Page 16: Pressure Range

    The sensor will operate properly in a multitude of gaseous or non-conductive liquid environments. 1.5.7 Corrosive Materials Avoid all materials that are corrosive or otherwise damaging to aluminum or aluminum oxide. These include strongly acidic or basic materials and primary amines. moisture.IQ User’s Manual...
  • Page 17: Sample System Guidelines

    Contact BHGE for further instructions. Sam ple Cell Sam ple Sam ple Outlet Inlet Vent Figure 1: A Typical Moisture Sample System Note: The actual sample system design is dependent on the application requirements. moisture.IQ User’s Manual...
  • Page 18: Oxygen Sample Systems

    You must also install a vacuum relief valve set at 1.0 psig between the oxygen cell and the pump. Sam ple Outlet Sam ple Inlet Figure 2: A Typical Oxygen Cell Sample System Note: The actual sample system design is dependent on the application requirements. moisture.IQ User’s Manual...
  • Page 19: Mounting The Hygrometer System

    1.7.1 Mounting the Electronics Unit Use the outline and dimension drawings in the Certification and Safety Statements at the end of this manual to mount the moisture.IQ. These drawings provide clearance and other mounting dimensions needed to prepare the site for mounting.
  • Page 20: Mounting The Oxygen Cell

    Sample 1.23 (149.9) (31.2) inlet 2.05 (52.1) 0.55 (14.0) Sample outlet 2.80 (71.1) 0.37 (9.4) CONN TEMPERATURE SENSOR 0.25 (6.4) 2.10 1.05 (26.7) (53.3) CONN 5.00 (127.0 MAX) 0.62 1.50 (15.8) (38.1) Figure 3: Oxygen Cell Dimensions moisture.IQ User’s Manual...
  • Page 21: Installing The Probes

    For gas applications, you should check for leaks using a soap bubble solution. IMPORTANT: Refer to the Calibration Data Sheets to connect the probes to their corresponding channels. If a probe is connected to the wrong channel, the meter will display incorrect data. moisture.IQ User’s Manual...
  • Page 22: Adapting An Existing Tf-Series Probe Cable

    4. At the moisture analyzer end of the TF-Series cable, locate the same TF-Series cable and disconnect all flying leads from the pluggable connector. 5. Locate the BLACK and WHITE wires of the TF-Series cable and connect them to the moisture.IQ at the MISP2 probe gray pluggable connector. See “Moisture Image Series Probes (MISP and MISP2)” on page 19 for help.
  • Page 23: Adapting An Existing M-Series Probe Cable

    "BLK" label and RED wire is connected to the MISP connector " WHT " label.) See “Moisture Image Series Probes (MISP and MISP2)” on page 19 for help. 6. Trim all other flying leads from the M-Series cable flush with the jacket. 7. Plug the newly-wired MISP2 probe pluggable connector into the moisture.IQ. moisture.IQ User’s Manual...
  • Page 24: Pressure Sensors

    The moisture.IQ accepts any 0 to 20-mA, 4 to 20-mA, or 0 to 2-V pressure transmitters. Always mount the pressure transmitter directly downstream from the moisture probe to ensure that the pressure is measured at the same point as the moisture measurement.
  • Page 25 Make sure the venting system does not create a back pressure on the oxygen cell. Note: The vented sample will not be corrosive if you install and operate the cell properly. moisture.IQ User’s Manual...
  • Page 26: Making Electrical Connections

    WARNING! Turn off the moisture.IQ before making any electrical connections. WARNING! The stainless steel Weatherproof enclosure must be properly grounded. To open a Weatherproof moisture.IQ unit, use a large, flat-bladed screwdriver to turn the latch on the enclosure cover. To open an Explosion-Proof moisture.IQ unit, remove all 24 bolts from around the periphery of the enclosure cover.
  • Page 27: Using The Lever To Make Wiring Connections

    Proper connections and cabling are extremely important for accurate measurement. Use the correct cable type for each probe and make sure the cables are not damaged during installation. See the sections that follow for specific connection instructions. moisture.IQ User’s Manual...
  • Page 28: Connecting The Input Power

    Figure 10: DC Power Wiring 1.9.3 Connecting Moisture Probes The moisture.IQ uses M-Series and Moisture Image Series probes to measure moisture. If you need to connect a different probe type, please contact our technical support department. If you ordered one or more M-Series probes with the moisture.IQ, BHGE has entered the necessary probe setup data on a pre-assigned channel.
  • Page 29 1/8 of a turn). Wire the probe cable per the wiring diagram in Figure 12 below. The M-Series terminal block on the back panel of the moisture.IQ (see Figure 13 on page 18) also notes the corresponding color from the probe cable.
  • Page 30 “The Probe Configuration Screen” on page 60. WARNING! The M-Series probe may not be capable of withstanding the 500V insulation rating. This must be taken into account in any installation in which it is used. moisture.IQ User’s Manual...
  • Page 31 1.9.3.2 Moisture Image Series Probes (MISP and MISP2) Connect the Moisture Image Series probes ( MISP ) to the moisture.IQ using the cable provided. You can locate a Moisture Image Series probe up to 915 m (3000 ft) from the electronics unit.
  • Page 32 After you complete the Moisture Image Series probe connections, you must activate the probe on the installed channel as described in “The Probe Configuration Screen” on page 60. MISP 1 or MISP 2 Figure 17: MIS Probe Cable Wiring Diagram moisture.IQ User’s Manual...
  • Page 33: Connecting The Delta F Oxygen Cell

    22 AWG conductors for use with Delta F Oxygen cells. Note: Cable with 16 AWG conductors is the largest cable size that can be easily installed into the moisture.IQ terminal blocks and the Delta F sensor terminal posts.
  • Page 34 Note: Additional Delta F Oxygen cells may be connected to CH4 , CH5 and CH6 in the Module B connector group on the right side of the back panel. Note: For moisture.IQ Fiberglass Weatherproof installation with optional Delta F sensors, clamp a ferrite bead GE P/N 222-031 to each Delta F cable on the inside of the enclosure.
  • Page 35 Make oxygen cell connections from the electrodes on the oxygen cell to the OXYGEN terminal block on the back of the moisture.IQ. Refer to Figure 18 on page 22 and Table 2 below for the required connections. IMPORTANT: To maintain good contact at each terminal block and to avoid damaging the pins on the connector,...
  • Page 36 Connect the other end of the cable to the OXYGEN terminal block on the back of the moisture.IQ. Refer to Figure 18 on page 22 and Table 3 below for the required connections. Table 3: Weatherproof Delta F Oxygen Cell Connections To Delta F Enclosure To moisture.IQ OXYGEN...
  • Page 37 Connect one end of the cable to the OXYGEN terminal block on the back of the moisture.IQ and the other end to the terminal strip in the oxygen cell enclosure. Feed the cable wires through one of the cable ports in the side of the explosion-proof enclosure.
  • Page 38: Establishing A Gas Flow Through The Oxygen Cell

    Trace and low percent range sensors may be damaged if exposed to high levels of oxygen, such as air, for long periods (>1 hour) while the moisture.IQ is in operation. If exposure is unavoidable, either disconnect the oxygen cell from the moisture.IQ or equip the sample system with a valve that allows the cell to be switched to a purge gas.
  • Page 39 2.0 – 2.5 SCFH Flow Control Electrolyte Sample Valve Reservoir Gas In Oxygen Cell Sample Gas Out Relief Valve Assembly Flowmeter Vent Sample Gas Outlet and Relief Valve should vent to atmosphere. Figure 22: Gas Flow Schematic moisture.IQ User’s Manual...
  • Page 40: Connecting An Auxiliary Device

    1.11 Connecting an Auxiliary Device moisture.IQ can power an auxiliary device (such as a loop power transmitter) in which the connection is +24V to Aux 1 or 2. For external power devices with output directly connected to the auxiliary device, you can use aux 1 or 2 with respect to RTN (pin 5).
  • Page 41: Connecting Analog Outputs

    Chapter 1. Installation Note: If you are connecting the oxy.IQ to AUX-IN, the oxy.IQ's shield needs to be terminated to the moisture.IQ via RTN (pin 5). In order to expose the shield wire, strip back the cable jacket. 1.12 Connecting Analog Outputs The moisture.IQ has two Analog Outputs per channel.
  • Page 42: Connecting Alarms

    Note: Customers must provide their own cables for connecting alarm relays. Acceptable cables range from 12 to 24 AWG. The moisture.IQ has two high/low alarm relays per channel. There is also one system fault alarm relay, which is not channel specific. Each alarm relay has single-pole, double-throw contacts that consist of the following: •...
  • Page 43: Chapter 2. Operation

    After completing the installation of your system, as described in Chapter 1. “Installation” on page 1, power up the moisture.IQ with the ON/OFF switch located at the lower left corner of the back panel. You will observe the following display screens in sequence: 1.
  • Page 44: The Help Button

    Chapter 2. Operation 2.3 The Help Button In the main menu on the right side of the measurement display screen and on every other moisture.IQ programming screen, a Help button is available to provide the user with detailed information on that specific screen or menu option.
  • Page 45 Chapter 2. Operation moisture.IQ User’s Manual...
  • Page 46: Initial Setup

    After your initial setup is complete, these same menus can be used to program the moisture.IQ with your personal preferences and to reconfigure the unit whenever there are any changes in your system.
  • Page 47: Restarting The System

    Chapter 2. Operation 2.6 Restarting the System To restart the moisture.IQ, complete the following steps: 1. Tap the Settings Menu button on the right side of the touch screen. 2. Tap the Restart button in the Service section of the touch screen.
  • Page 48: Shutting Down The System

    4. After the message “It is now safe to shut down the unit” is displayed on the touch screen, use the On/Off power switch at the lower left corner of the back panel to shut down the moisture.IQ. [no content intended for this page] Figure 31: Shut Down Confirmation Screen moisture.IQ User’s Manual...
  • Page 49 Chapter 2. Operation moisture.IQ User’s Manual...
  • Page 50 Chapter 2. Operation moisture.IQ User’s Manual...
  • Page 51: Chapter 3. Using The Settings Menu

    Chapter 3. Using the Settings Menu 3.1 Introduction After completing the installation of your moisture.IQ system (see Chapter 1) and powering up the system (see Chapter 2), you must configure the moisture.IQ before reliable data can be collected. The Settings menu is used to configure the display and to program the desired system settings. Use the menu map in Figure 76 on page 109 and the display touch screen shown in Figure 32 below as guides while programming the Settings menu.
  • Page 52: Display Settings

    The blue indicator bar on the slider indicates the current setting location. • After completing your settings, either tap the Check button to save your changes, or tap the Cancel button to discard the changes and keep the original settings. moisture.IQ User’s Manual...
  • Page 53: System Settings

    Chapter 3. Using the Settings Menu 3.3 System Settings The System Settings menu (see Figure 35 below) allows you to configure the global moisture.IQ settings. Figure 35: The System Settings Screen • The system Serial Number is displayed as a read-only value at the top of the screen.
  • Page 54: File Manager

    The File Manager menu (see Figure 36 below) enables you to view and manage any files stored in the moisture.IQ memory or in a connected USB drive. The most current site file is always named moistureIQ.xml , while the previous file is renamed to moistureIQ.xml.backup .
  • Page 55: Screen Alignment (Weatherproof And Explosion-Proof)

    3.5 Screen Alignment (Weatherproof and Explosion-Proof) The Screen Alignment feature is enabled for Weatherproof and Explosion-Proof versions of the moisture.IQ. This feature allows the user to calibrate the LCD screen to their touch and angles of usage to optimize touch screen performance.
  • Page 56: Screen Configuration (Weatherproof And Explosion-Proof)

    Chapter 3. Using the Settings Menu 3.6 Screen Configuration (Weatherproof and Explosion-Proof) The Screen Configuration feature is enabled for Explosion-Proof and Weatherproof versions of the moisture.IQ. This feature allows the user to increase or decrease the touch screen's sensitivity based on the thickness of the protective window.
  • Page 57: Notifications Setup

    Chapter 3. Using the Settings Menu 3.7 Notifications Setup The Notifications Setup menu (see Figure 39 below) allows you to specify how often the moisture.IQ will display calibration reminders. Figure 39: The Notifications Setup Screen • Tap the Calibration Reminder button to open a drop-down list of options for selecting the interval ( None, 6 Months, 12 Months, 18 Months or 24 Months ) between automated reminder notifications.
  • Page 58: Fault Alarm Setup

    Chapter 3. Using the Settings Menu 3.8 Fault Alarm Setup The Fault Alarm Setup menu (see Figure 40 below) allows you to specify how the moisture.IQ dedicated fault alarm relay responds to a fault condition and it lists the source of any current fault conditions.
  • Page 59: Module Setup

    When an external USB drive containing a sensor module firmware update file is connected to the moisture.IQ, the Update Firmware button is enabled. To update the sensor module firmware, tap the Module to be updated and then tap the Update Firmware button. The module firmware will be updated and the system will reboot automatically.
  • Page 60: Service Menu Options

    Figure 30 on page 35. 3.10.3 Shut Down To shut down the moisture.IQ system, tap the Shut Down button. Then, tap either Yes or No at a confirmation screen similar to the one shown in Figure 31 on page 36.
  • Page 61: Chapter 4. Using The Outputs, Alarms And Logger Menus

    A dashed border around an output indicates that the channel is not installed. The moisture.IQ features two isolated analog outputs (A and B) for each of its six channels. To configure these outputs, refer to the menu map in Figure 77 on page 110 and tap the Outputs button on the right side of the main touch screen to open a screen similar to that shown in Figure 43 below.
  • Page 62: Testing The Selected Output

    Chapter 4. Using the Outputs, Alarms and Logger Menus 4.1.2 Testing the Selected Output Make sure the output device is connected to the moisture.IQ as described in Chapter 1, “Installation” and complete the following steps to test the output: 1. Tap the Channel (1-6) and Output ( A or B ) to be tested, and then tap the Test button to open a screen similar to Figure 44 below.
  • Page 63: Trimming The Selected Output

    7. Tap the Exit button and test the output as described in “Testing the Selected Output” on page 50. Note: The 0% of full scale value is: 1 mA for a 0-20 mA scale, 4 mA for a 4-20 mA scale or 0.1 V for a 0-2 V scale. moisture.IQ User’s Manual...
  • Page 64: Setting The Output Range Error Response

    For example, if a dew point measurement is Over Range , then moisture in ppMv will also be Over Range. If multiple Range Errors occur simultaneously, the moisture.IQ responds to them in the following order: Oxygen Errors , Moisture Errors , Temperature Errors and then Pressure Errors.
  • Page 65: Setting Up The Alarms

    Note: An active alarm is indicated by a “Play” symbol, and the alarm selected for editing is highlighted in yellow. The moisture.IQ features two optional alarms (A and B) for each of its six channels. To configure these alarms, refer to the menu map in Figure 77 on page 110 and tap the Alarms button on the right side of the main touch screen to open a screen similar to that shown in Figure 47 below.
  • Page 66: Testing The Selected Alarm

    2. Tap the Trip button to trip the alarm and verify that the alarm has been tripped. 3. Tap the Reset button to reset the alarm and verify that the alarm has been reset. 4. After you have finished testing the alarm, tap the Exit button to return to the Alarm Selection screen. moisture.IQ User’s Manual...
  • Page 67: Setting The Alarm Range Error Response

    For example, if a dew point measurement is Over Range , then moisture in ppMv will also be Over Range. If multiple Range Errors occur simultaneously, the moisture.IQ responds to them in the following order: Oxygen Errors , Moisture Errors , Temperature Errors and then Pressure Errors.
  • Page 68: Setting Up And Running Logs

    Start button. Tap this button to resume a paused log or to start a new log. • The Transfer Log button is used to move a highlighted log file from the internal moisture.IQ memory to a connected USB drive. Tap the Transfer Log button and follow the instructions. •...
  • Page 69 After you have finished configuring your log data, tap the Return button to return to the Log Creator screen above. Then, tap the Return button again to return to the Logger Setup screen. f. When you are ready, tap the Start button to begin running the new log. moisture.IQ User’s Manual...
  • Page 70 Chapter 4. Using the Outputs, Alarms and Logger Menus [no content intended for this page] moisture.IQ User’s Manual...
  • Page 71: Chapter 5. Using The Configuration Menu

    In addition, if you want to use a constant value rather than a live input, or if you want to apply a user function, you must program the moisture.IQ accordingly. If you do not activate the probes, or if you activate them incorrectly, the meter will display No Probe or other error messages.
  • Page 72: The Probe Configuration Screen

    [see “Configuring Delta F Oxygen Sensor Probes” on page 63 for details.] • Aux 1 - mA (current), Volts (voltage) • Aux 2 - mA (current), Volts (voltage) IMPORTANT: Activating probes that are not physically connected to the meter will result in error messages and slow performance. moisture.IQ User’s Manual...
  • Page 73 Vapor Pressure mmHg MH = MH* (Diagnostic Mode) FH = FH* (Diagnostic Mode) Temperature °C = Degrees Celsius (default) Temperature °C °F = Degrees Fahrenheit Temperature °F Kelvin = Kelvin Temperature °R = Degrees Rankine Temperature °R moisture.IQ User’s Manual...
  • Page 74 Scaled = scale defined by the user in the calibration menu Aux1 Scaled User Func1-6 = User defined functions for each channel *The MH, FH and FP values are the moisture sensors’ response values and are the values that are recorded during calibration. moisture.IQ User’s Manual...
  • Page 75: Configuring Delta F Oxygen Sensor Probes

    The Delta F Oxygen Sensor probes are available in the two following types: • GE 1 through GE 9 , which include temperature compensation • % O2 , PPM O2 and PPB O2 , which do not include temperature compensation To properly configure your Delta F Sensor probe, use the information found on the label affixed to the sensor body.
  • Page 76: Calibrating Individual Channels

    The status should read “Connect probe to channel X, then click Read”. Connect your low value dummy probe to the M-Series input on the corresponding channel of the moisture.IQ module. 5. Tap the Read button. Wait up to a minute. When complete, the status will show “Reading complete on channel X*.”...
  • Page 77: Setting The Probe Auto-Cal Schedule

    Figure 57: Set Auto-Cal Interval Screen 2. Enter the desired number of hours (1 - 730) between Auto-Cal runs. 3. Tap the Save button to enter the new value into the moisture.IQ, or tap the Cancel button to retain the previous value.
  • Page 78: Calibrating The Probes

    5.2.2 Entering Calibration Data Manually Be sure you have the Calibration Data Sheets that are supplied with each GE probe. Each Calibration Data Sheet consists of a list of data points that must be entered or verified. Each Calibration Data Sheet lists the corresponding probe serial number, as well as the preassigned channel number.
  • Page 79 Remove Row - Use this button along with the Insert Row button to organize the rows in the table as desired. 5. After you have finished entering your probe calibration data, tap the Return button to return to the Configuration Menu. moisture.IQ User’s Manual...
  • Page 80: Tagging The Inputs

    Chapter 5. Using the Configuration Menu 5.3 Tagging the Inputs The moisture.IQ enables users to assign tags to customize the display of the input parameters. The instrument accepts a separate 9-character label for each input. To tag inputs, complete the following steps: Figure 59: Tag Setup 1.
  • Page 81: Entering User Information

    1. Tap the User Function button on the Configuration Menu screen (see Figure 52 on page 59) to open the User Function Setup screen (see Figure 60 below). Figure 60: User Function Setup Screen 2. Tap the Channel button to select the channel where the function will be applied. moisture.IQ User’s Manual...
  • Page 82 7. Tap the Max and Min text boxes to enter the Valid Range for the function in digits from the keypad. 8. After the functions has been defined, tap the Return button to return to the Configuration Menu. moisture.IQ User’s Manual...
  • Page 83: Entering User-Defined Tables

    5.4.2 Entering User-Defined Tables To support user-defined functions, the moisture.IQ allows up to six user-defined tables (designated as Table A through Table F ) of non-linear or empirical data. Up to 10 X-Y pairs can be entered in each table. If a user function inputs an X value, the meter interpolates the corresponding Y value and outputs that value to the function.
  • Page 84: Entering User Constants

    IMPORTANT: Before the moisture.IQ can use the constants entered above, the probe type on the specified channel must be properly configured for Constant Value (kH, kT or kP) , as described in “The Probe Configuration Screen”...
  • Page 85: Entering Saturation Constants

    In other words, PPMw = (Pw/Ps) x Cs . To calculate ppmw moisture values for an organic liquid with the moisture.IQ, saturation values ( Cs ), as a function of temperature, must be entered in the Cs Table shown in Figure 64 below.
  • Page 86 5. After all of the data has been entered, tap the Sort button to be sure the data points are arranged in ascending order of Temp C values. Then, tap the Check button to save the table and tap the Return button to return to the Configuration Menu. moisture.IQ User’s Manual...
  • Page 87: Chapter 6. Setting Up Communications

    Chapter 6. Setting Up Communications Chapter 6. Setting Up Communications 6.1 Setting Up moisture.IQ Communications The Comms section of the Configuration Menu is used to set up all communications for the moisture.IQ (see Figure 79 on page 112). It includes the following options: •...
  • Page 88: Configuring The Modbus Connection

    Note: For RS-485 wiring, refer to Figure 83 on page 116. 6.3 Configuring the Modbus Connection To configure the moisture.IQ Modbus connection, complete the following steps: 1. From the Configuration Menu screen (see Figure 52 on page 59), tap the Modbus button to open a Modbus Setup screen similar to Figure 68 below.
  • Page 89: Connecting To An Ethernet Lan

    6.4.1 Configuring the Ethernet TCP/IP Connection The moisture.IQ can either be configured with a static Internet Protocol ( IP ) address or it can use the Dynamic Host Configuration Protocol ( DHCP ) to obtain an address from a DHCP server or router. No further address configuration is required.
  • Page 90: Capabilities Of The Ethernet Connection

    An embedded Web Server allows access to the moisture.IQ status and files using a standard web browser. • A Virtual Network Computing ( VNC ) server allows full remote control of the moisture.IQ using any of several VNC clients. Note: Both the Web Server and the VNC Server are disabled by default.
  • Page 91 The Admin account allows complete configuration of the Ethernet option. This account should be used only by experienced network administrators. Misuse of the Admin account could prevent connection to the moisture.IQ, enable unauthorized access to the moisture.IQ or possibly expose the network to unauthorized users.
  • Page 92 Tap the Change Password button to enter and confirm a new password for the Admin account: CAUTION! Record the new Admin password immediately and keep it in a safe and secure location. It is NOT POSSIBLE to obtain a lost or forgotten Admin password! moisture.IQ User’s Manual...
  • Page 93 Chapter 6. Setting Up Communications 6.4.2.2 The Operator Account The Operator account is provided to for day-to-day management of the moisture.IQ. By default, the Operator has all the same privileges as the Admin , but cannot create or modify other accounts. The Operator account allows the user to: •...
  • Page 94: Configuring A Vnc Connection

    IMPORTANT: The VNC connection opens port 5900 (user-configurable) when Enabled . Note: The moisture.IQ system cycle time may be increased by VNC usage. A Virtual Network Console ( VNC ) connection allows remote access to the moiture.IQ by replicating the touchscreen on a PC monitor, tablet or smart phone.
  • Page 95: Configuring The Web Server

    6.6 Configuring the Web Server IMPORTANT: The Web Server opens Port 80 when it is Enabled . The moisture.IQ can be remotely accessed using a web browser by enabling the Web Server. To configure the Web Server , complete the following steps: 1.
  • Page 96: User Management Operations

    Chapter 6. Setting Up Communications 6.7 User Management Operations The User Management option allows you to set up and control access to the moisture.IQ for Web Server and VNC users (see previous sections). Tap the button for the designated communication option to enter parameters.
  • Page 97: Setting Up A Remote Connection To A Pc

    3. Refer to “Configuring a VNC Connection” on page 82, and ensure that the VNC Server is Enabled . 4. Use a standard ethernet cable to connect the ethernet port on the back of the moisture.IQ to the LAN .
  • Page 98 Chapter 6. Setting Up Communications [no content intended for this page] moisture.IQ User’s Manual...
  • Page 99: Chapter 7. Maintenance

    7.1 Delta F Oxygen Cell Electrolyte As a result of operating the moisture.IQ, particularly when monitoring dry gases, there may be a gradual loss of water from the electrolyte. The electrolyte level should be checked at regular intervals to ensure that the cell is always operating properly.
  • Page 100: Checking The Electrolyte Level

    Figure 75 below. When the Delta F Oxygen Cell connections are made to the moisture.IQ, the analyzer can detect the electrolyte level and indicate when it is low. When the electrolyte level is low, all oxygen readings are highlighted in amber and an “Oxygen Fluid Low”...
  • Page 101: Replacing And Recalibrating Moisture Probes

    2. If you are not displaying oxygen data, configure the channel as described in “The Probe Configuration Screen” on page 60. Note: A “Channel Not Installed” message appears if you select a channel where no channel module is installed. Select a different channel. moisture.IQ User’s Manual...
  • Page 102: Checking The Oxygen Cell Calibration

      100 75 – – ------------------------------------------------------------- -   75 0.05 –  The new span value (x) is 100 PPMv 387 μA. Enter the new value as described in “Calibrating the Probes” on page 66. moisture.IQ User’s Manual...
  • Page 103: Delta F Oxygen Cell Background Gas Correction Factors

    If this oxygen cell is used in a background gas other than nitrogen, you must enter the gas’s correction factor, as listed in Table 10 on page 92. Then, the moisture.IQ will apply the appropriate correction to the measured oxygen signal. Although the original calibration values for nitrogen are programmed into the moisture.IQ, the meter uses the correction factor to determine the actual oxygen concentration.
  • Page 104: Entering The Background Gas Correction Factor

    0.70 0.65 0.61 0.78 Krypton (Kr) 0.83 0.79 0.76 0.88 Sulfur Hexaflouride (SF 0.54 0.49 0.44 0.64 Freon 318 (C 0.39 0.34 0.30 0.49 Tetrafluoromethane (CF 0.62 0.57 0.52 0.71 Carbon Monoxide (CO) 0.99 0.99 0.98 0.99 moisture.IQ User’s Manual...
  • Page 105: Chapter 8. Troubleshooting

    Common Problems (see “Common Problems” on page 96) 8.1 Screen Messages The moisture.IQ has several screen messages that may display during operation. Refer to Table 11 below for a list of these messages and the possible causes. Table 11: Screen Messages and the Possible Causes...
  • Page 106 Table 11: Screen Messages and the Possible Causes (cont.) Screen Message Possible Cause System Response Action MIS NO LINK Communication with a After the moisture.IQ Check the Moisture Image Series Moisture Image Series performs 5 checks, it Probe connections. Probe has failed. replaces data with the...
  • Page 107 Refer to Make sure the ground bolt is acceptable range. Chapter 4. installed on the channel card. Signal Error has occurred. Remove source of Signal Error and attempt another Auto-Cal. Contact BHGE. moisture.IQ User’s Manual...
  • Page 108: Common Problems

    Chapter 8. Troubleshooting 8.2 Common Problems If the moisture.IQ measurement readings seem strange or do not make sense, there may be a problem with the probe or the process system. Table 12 below contains some of the most common measurement problems.
  • Page 109 (refer to Basic Hygrometry Hygrometry Principles. Then reinstall sensor. Principles. Improper cable Check the cable connections to both the probe connection. and the moisture.IQ. Screen always Open circuit on sensor. Return probe to factory for evaluation. reads the Non-conductive material is...
  • Page 110 Chapter 8. Troubleshooting [no content intended for this page] moisture.IQ User’s Manual...
  • Page 111: Chapter 9. Specifications

    • AC configuration: Universal power supply adjusts automatically from 100 to 240 VAC, 50/60 Hz, 60 Watts maximum, fuse T4A, 250 VAC, 5 x 20 mm • DC configuration: 24 V nominal (± 10%), 60 Watts maximum moisture.IQ User’s Manual...
  • Page 112: Moisture Measurement

    5  of Hg to 5000 psig (345 bar), limited by optional pressure sensor (see “Full-Scale Ranges Available” on page 101) 9.3 Temperature Measurement Type Optional thermistor built into moisture probe Calibration Ranges (Dew/Frost Point) -30 to +70°C (–22 to +158°F) Accuracy ±0.5°C (±0.9°F) at -30°C (-22°F) moisture.IQ User’s Manual...
  • Page 113: Pressure Measurement

    0 to 50 / 500 / 5000 ppm • 0 to 5% • 0 to 10% • 0 to 25% Accuracy • ±1% full scale (ranges >0-2.5 PPM • ±5% full scale (ranges <0-2.5 PPM Pressure Rating 0.2 to 1 psig (0.07 bar) moisture.IQ User’s Manual...
  • Page 114: General Specifications

    Occurs on power up and at user-selectable time intervals Warm-up Time Meets specified accuracy within 5 minutes of turn-on Data Logging Up to six simultaneous logs per storage device, with up to 16 parameters each, stored in 4 GB Micro SDHC moisture.IQ User’s Manual...
  • Page 115: Output Specifications

    The relay contacts can be set to trip at any numerical level within the range of the instrument. Output Updating The microprocessor samples, processes data, and calculates values for each channel sequentially. The minimum update time is 1 second depending on configuration and mode. Channels are updated sequentially. moisture.IQ User’s Manual...
  • Page 116: Input Specifications

    A pressure transducer is optionally available for Moisture Image Series probes. BHGE P40, P40X, or equivalent 4-20 mA, current-transmitting, pressure transducer. Scale factors are entered as part of the user-program sequence. Intrinsic Safety Built-in intrinsic safety provided for all inputs per drawing #752-364, excluding auxiliary inputs moisture.IQ User’s Manual...
  • Page 117: Probe Specifications

    Note: Sale of the MISP probe was discontinued by BHGE in 2010 and it was replaced by the MISP2 probe. Although the MISP probe can be used successfully with the moisture.IQ analyzer, there may be communication issues when using long cables. Please contact our BHGE technical support team for assistance.
  • Page 118 Range: -30°C to +70°C (-22°F to +158°F) • Accuracy: ±0.5°C (± 0.33°F) overall • Response Time: Maximum 1 second in well stirred oil, 10 seconds in still air for a 63% step change in increasing or decreasing temperature moisture.IQ User’s Manual...
  • Page 119 • US/CAN Class I, Division 1, Groups A, B, C, D, T4 European Compliance ® Complies with EMC Directive 2004/108/EC when connected to a moisture.IQ, Moisture Image Series 1, ® Moisture Image Series 2 or Moisture Monitor™ Series 3 analyzer...
  • Page 120: Sample Requirements

    Moisture: No limits (avoid condensation) • Oil/Solvent Mist • Less than 0.5 mg/ft (standard range) • Greater than 0.5 mg/ft (use filter) • Solid Particles • Less than 2.0 mg/ft (standard range) • Greater than 2.0 mg/ft (use filter) moisture.IQ User’s Manual...
  • Page 121: Appendix A. Menu Maps

    Serial Number Thickness Data Date Format X Axis Flipped Time Time Format Y Axis Flipped In Case of Fault Number Format [for channels 1-6] Service Software Update Restart Shut Down Yes/No? Figure 76: The Settings Menu Map moisture.IQ User’s Manual...
  • Page 122: The Outputs, Alarms And Logger Menu Map

    Unit Type Upper Lower Logger Setup Create Log Transfer Log Sort By Pause Delete Log Log Information View Log Clone Log Context-Sensitive Help Help* [*available on all screens] Figure 77: The Outputs, Alarms and Logger Menu Map moisture.IQ User’s Manual...
  • Page 123: The Configuration > Probe & User Menu Maps

    Insert Row Remove Row Table Sort Copy Channel Hygro k x ppmv Copy Function Label Edit Value Paste Temperature O2 Back. Corr. Paste Insert Row Pressure Remove Row Figure 78: The Configuration > Probe & User Menu Maps moisture.IQ User’s Manual...
  • Page 124: The Configuration > Comms Menu Map

    Log In RTU/TCP Web Server Slave Address/Port Port Lan Access MAC Address VNC Server IP Address 0.0.0.0 Listen on Port Subnet Gateway Password Show/Hide Parity Accept Conn. From Alternate DNS Figure 79: The Configuration > Comms Menu Map moisture.IQ User’s Manual...
  • Page 125: Appendix B. Wiring Diagrams

    Appendix B. Wiring Diagrams Appendix B. Wiring Diagrams B.1 Terminal Blocks Figure 80: moisture.IQ Wiring — Terminal Blocks and Rear View (Dwg. 702-1542B, SH 1) moisture.IQ User’s Manual...
  • Page 126: Rear View Channel Configurations

    Appendix B. Wiring Diagrams B.2 Rear View Channel Configurations Figure 81: moisture.IQ Wiring — Rear View Channel Configuration (Dwg. 702-1542B, SH 2) moisture.IQ User’s Manual...
  • Page 127: Power Wiring

    Appendix B. Wiring Diagrams B.3 Power Wiring Figure 82: moisture.IQ Wiring — Power Wiring (Dwg. 702-1542B, SH 3) moisture.IQ User’s Manual...
  • Page 128: Wiring

    Appendix B. Wiring Diagrams B.4 RS-485 Wiring Pin 5: Ground Pin 2: Inverting (-) RS-485 Half-Duplex Pin 8: Non-Inverting (+) RS-485 Half-Duplex Figure 83: RS-485 Wiring moisture.IQ User’s Manual...
  • Page 129: Appendix C. Updating The Moisture.iq Firmware

    1. Power on the moisture.IQ. 2. Load the updated firmware into the UPDATE folder on the USB flash drive. 3. Plug the USB flash drive (with the software update) into the moisture.IQ (see Figure 84 for Rack/Bench/Panel Mount, Figure 85 for Weatherproof/Explosion-Proof).
  • Page 130 Appendix C. Updating the moisture.IQ Firmware C.1 Updating the Chassis Firmware (cont.) 4. From the main screen, tap the Settings button (see Figure 86 below). Figure 86: Settings Button on the Main Screen 5. In the Service section (see Figure 87 below), tap the Software Update button. If the Software Update button is grayed out, check to ensure that the USB flash drive is properly plugged into the USB port.
  • Page 131 Appendix C. Updating the moisture.IQ Firmware C.1 Updating the Chassis Firmware (cont.) 6. The moisture.IQ prompts you to confirm you want to update the software (see Figure 88 below). Tap the Yes button. Figure 88: Update Confirmation Updating the software will take a few minutes, and the screen shown in Figure 89 below is open during the update.
  • Page 132 C.1 Updating the Chassis Firmware (cont.) 7. After the software update is complete, the meter prompts you to restart the meter (see Figure 90 below). Tap the Restart button to reboot the moisture.IQ. Figure 90: Restart Screen The unit will reboot with the updated firmware.
  • Page 133: Updating The Moisture.iq Module Firmware

    C.2 Updating the moisture.IQ Module Firmware 1. Load the updated firmware into the UPDATE folder on the USB flash drive. 2. Plug the USB flash drive (with the software update) into the moisture.IQ (see Figure 91 for Rack/Bench/Panel Mount, Figure 92 for Weatherproof/Explosion-Proof.).
  • Page 134 Appendix C. Updating the moisture.IQ Firmware C.2 Updating the moisture.IQ Module Firmware (cont.) 3. From the main screen, tap the Settings button (see Figure 93 below). Figure 93: Settings Button on the Main Screen 4. In the Setup section, tap the Module button (see Figure 94 below).
  • Page 135 USB flash drive is properly plugged into the USB port. Figure 95: Module Selection 6. Tap the Update Firmware button, and the moisture.IQ prompts you to confirm that you want to update the module firmware (see Figure 96 below). Tap the Yes button.
  • Page 136 Appendix C. Updating the moisture.IQ Firmware C.2 Updating the moisture.IQ Module Firmware (cont.) Updating the software will take a few minutes, and the screen shown in Figure 97 below is open during the update. [no content intended for this page] Figure 97: Installing the Firmware 7.
  • Page 137 Appendix C. Updating the moisture.IQ Firmware C.2 Updating the moisture.IQ Module Firmware (cont.) The Module Setup screen now displays the updated version of the firmware (see Figure 99 below). Figure 99: Module with Updated Firmware moisture.IQ User’s Manual...
  • Page 138 Appendix C. Updating the moisture.IQ Firmware [no content intended for this page] moisture.IQ User’s Manual...
  • Page 139: Appendix D. Modbus Register Map

    Type 126 2126 32-bit Integer RW Read 1 = 4-20 mA, Holding 2 = 0-20 mA, (0x03) 3 = 0-2 volts Zero 128 2128 32-bit float Read Holding (0x03) Span 130 2130 32-bit float Read Holding (0x03) moisture.IQ User’s Manual...
  • Page 140 304 2304 32-bit Integer RW Read Measurement/Unit Holding Code 0 = off, (0x03) others see tab Type 306 2306 32-bit Integer RW Read 1 = 4-20 mA, 2 = Holding 0-20 mA, 3 = 0-2 (0x03) volts moisture.IQ User’s Manual...
  • Page 141 420 2432 32-bit float Read When TEST MODE Output B (percent of Holding enabled, force scale) (0x03) output to value State 422 2422 32-bit Integer RW Read 2 = TEST MODE, Holding All else = run mode (0x03) moisture.IQ User’s Manual...
  • Page 142 Type 526 2526 32-bit Integer RW Read 1 = 4-20 mA, Holding 2 = 0-20 mA, (0x03) 3 = 0-2 volts Zero 528 2528 32-bit float Read Holding (0x03) Span 530 2530 32-bit float Read Holding (0x03) moisture.IQ User’s Manual...
  • Page 143 Alarm A (0x04) 0 = De-energized State 102 3102 32-bit Integer RO Read 0 = Disabled, Holding 1 = Enabled (0x04) Units 104 3104 32-bit Integer RW Read Measurement/Unit Holding Code 0 = off, (0x03) others see tab moisture.IQ User’s Manual...
  • Page 144 Units 204 3204 32-bit Integer RW Read Measurement/Unit Holding Code --- 0 = (0x03) off/others See tab Type 206 3206 32-bit Integer RW Read 1 = Setpoint, Holding 2 = In Band, (0x03) 3 = Out Band moisture.IQ User’s Manual...
  • Page 145 Units 304 3304 32-bit Integer RW Read Measurement/Unit Holding Code 0 = off, (0x03) others see tab Type 306 3306 32-bit Integer RW Read 1 = Setpoint, Holding 2 = In Band, (0x03) 3 = Out Band moisture.IQ User’s Manual...
  • Page 146 Units 404 3404 32-bit Integer RW Read Measurement/Unit Holding Code 0 = off, (0x03) others see tab Type 406 3406 32-bit Integer RW Read 1 = Setpoint, Holding 2 = In Band, (0x03) 3 = Out Band moisture.IQ User’s Manual...
  • Page 147 Units 504 3504 32-bit Integer RW Read Measurement/Unit Holding Code 0 = off, (0x03) others see tab Type 506 3506 32-bit Integer RW Read 1 = Setpoint, Holding 2 = In Band, (0x03) 3 = Out Band moisture.IQ User’s Manual...
  • Page 148 Units 604 3604 32-bit Integer RW Read Measurement/Unit Holding Code 0 = off, (0x03) others see tab Type 606 3606 32-bit Integer RW Read 1 = Setpoint, Holding 2 = In Band, (0x03) 3 = Out Band moisture.IQ User’s Manual...
  • Page 149 Block Read 5000 32-bit Integer Read 2-32 Returns 1-16 Unit Unit Codes Holding Codes (0x03) Block Write 5000 32-bit Integer Write 2-32 Set Unit Codes for Unit Codes Multiple Measurements 0-15 (0x10) 5100 Single Measurement Read moisture.IQ User’s Manual...
  • Page 150 5138 32-bit float Read Input Kelvin (0x04) Temperature - 5140 32-bit float Read Input Rankine (0x04) Pressure - kPa 5142 32-bit float Read Input -gauge (0x04) Pressure - 5144 32-bit float Read Input Mpa - gauge (0x04) moisture.IQ User’s Manual...
  • Page 151 User Function 5192 32-bit float Read Input (0x04) User Function 5194 32-bit float Read Input (0x04) User Function 5196 32-bit float Read Input (0x04) Channel 2 Hygro - Dew 102 5202 32-bit float Read Input Point °C (0x04) moisture.IQ User’s Manual...
  • Page 152 Read Input Rankine (0x04) Pressure - kPa 142 5242 32-bit float Read Input -gauge (0x04) Pressure - 144 5244 32-bit float Read Input Mpa - gauge (0x04) Pressure - Pa 146 5246 32-bit float Read Input -gauge (0x04) moisture.IQ User’s Manual...
  • Page 153 Read Input (0x04) User Function 196 5296 32-bit float Read Input (0x04) Channel 3 Hygro - Dew 202 5302 32-bit float Read Input Point °C (0x04) Hygro - Dew 204 5304 32-bit float Read Input Point °F (0x04) moisture.IQ User’s Manual...
  • Page 154 Read Input -gauge (0x04) Pressure - 244 5344 32-bit float Read Input Mpa - gauge (0x04) Pressure - Pa 246 5346 32-bit float Read Input -gauge (0x04) Pressure - Bar 248 5348 32-bit float Read Input -gauge (0x04) moisture.IQ User’s Manual...
  • Page 155 Hygro - Dew 302 5402 32-bit float Read Input Point °C (0x04) Hygro - Dew 304 5404 32-bit float Read Input Point °F (0x04) Hygro - Equiv. 306 5406 32-bit float Read Input Dew Point °C (0x04) moisture.IQ User’s Manual...
  • Page 156 Read Input -gauge (0x04) Pressure - 344 5444 32-bit float Read Input Mpa - gauge (0x04) Pressure - Pa 346 5446 32-bit float Read Input -gauge (0x04) Pressure - Bar 348 5448 32-bit float Read Input -gauge (0x04) moisture.IQ User’s Manual...
  • Page 157 Hygro - Dew 402 5502 32-bit float Read Input Point °C (0x04) Hygro - Dew 404 5504 32-bit float Read Input Point °F (0x04) Hygro - Equiv. 406 5506 32-bit float Read Input Dew Point °C (0x04) moisture.IQ User’s Manual...
  • Page 158 32-bit float Read Input Mpa-gauge (0x04) Pressure - 446 5546 32-bit float Read Input Pa-gauge (0x04) Pressure - 448 5548 32-bit float Read Input Bar-gauge (0x04) Pressure - kPa 450 5550 32-bit float Read Input -absolute (0x04) moisture.IQ User’s Manual...
  • Page 159 Hygro - Dew 504 5604 32-bit float Read Input Point °F (0x04) Hygro - Equiv. 506 5606 32-bit float Read Input Dew Point °C (0x04) Hygro - Equiv. 508 5608 32-bit float Read Input Dew Point °F (0x04) moisture.IQ User’s Manual...
  • Page 160 32-bit float Read Input Pa-gauge (0x04) Pressure - 548 5648 32-bit float Read Input Bar-gauge (0x04) Pressure - kPa 550 5650 32-bit float Read Input -absolute (0x04) Pressure - 552 5652 32-bit float Read Input MPa -absolute (0x04) moisture.IQ User’s Manual...
  • Page 161 16-byte string RO Read Input Firmware (0x04) Version Module Status 10 10010 32-bit Integer RO Read Input 0 = No modules inst. (0x04) 1 = Module A inst., 2 = Module B Inst., 3 = Both Modules inst. moisture.IQ User’s Manual...
  • Page 162 Module B - 202 10202 16-byte string RO Read Input Serial Number (0x04) Module B - 204 10204 16-byte string RO Read Input Firmware (0x04) Version Module B - 240 10240 32-bit float Read Input Temperature, (0x04) °C moisture.IQ User’s Manual...
  • Page 163: Analog Outputs

    VNC Server........82 moisture.IQ User’s Manual...
  • Page 164 Site Selection ........2 Starting Gas Flow ....... .26 moisture.IQ User’s Manual...
  • Page 165 Probe Menu Map........111 Software, Updating ....... . .48 moisture.IQ User’s Manual...
  • Page 166: Specifications

    User Menu Map ........111 User Tables, Entering....... .71 moisture.IQ User’s Manual...
  • Page 167 Certification & Measurement & Control Safety Statements Certification & Safety Statements for the moisture.IQ Moisture and Oxygen Analyzer Special Conditions for Safe Use XP conditions of use for ATEX/IECEx and Zones: • The flameproof joints of the equipment are not intended to be repaired. Consult the manufacturer if repair of the flameproof joints is necessary.
  • Page 168 Certification & Safety Statements for the moisture.IQ August 2017 Installation (cont.) Figure 1: Installation Control Drawing (ref. dwg. 752-364_C, SH 1 of 1) Figure 2: WP/XP System Certification Drawing (ref. dwg. 752-513_B, SH 1 of 7) CSS-0011, Rev. D 2 of 12...
  • Page 169 Certification & Safety Statements for the moisture.IQ August 2017 Installation (cont.) Figure 3: Stainless Steel Weather-Proof Plate Assembly (ref. dwg. 752-513_B, SH 2 of 7) Figure 4: Fiberglass Weather-Proof Plate Assembly (ref. dwg. 752-513_B, SH 3 of 7) CSS-0011, Rev. D...
  • Page 170 Certification & Safety Statements for the moisture.IQ August 2017 Installation (cont.) Figure 5: Explosion-Proof Plate Assembly (ref. dwg. 752-513_B, SH 4 of 7) Figure 6: Chassis Assembly-Part 1 (ref. dwg. 752-513_B, SH 5 of 7) CSS-0011, Rev. D 4 of 12...
  • Page 171 Certification & Safety Statements for the moisture.IQ August 2017 Installation (cont.) Figure 7: Chassis Assembly-Part 2 (ref. dwg. 752-513_B, SH 6 of 7) Figure 8: Display Assembly (ref. dwg. 752-513_B, SH 7 of 7) CSS-0011, Rev. D 5 of 12...
  • Page 172 Certification & Safety Statements for the moisture.IQ August 2017 Installation (cont.) Figure 9: Bench-Top Configuration (Dwg. 712-1889_revA, SH 1 of 3) Figure 10: Rack-Mount Configuration (Dwg. 712-1889_revA, SH 2 of 3) CSS-0011, Rev. D 6 of 12...
  • Page 173 Certification & Safety Statements for the moisture.IQ August 2017 Installation (cont.) Figure 11: Panel-Mount Configuration (Dwg. 712-1889_revA, SH 3 of 3) Figure 12: SS-WP Installation Outline Drawing (Dwg. 712-2126_revB, SH 1 of 1) CSS-0011, Rev. D 7 of 12...
  • Page 174 Certification & Safety Statements for the moisture.IQ August 2017 Installation (cont.) Figure 13: XP Installation Outline Drawing (Dwg. 712-2127_revA, SH 1 of 1) Figure 14: FG-WP Installation Outline Drawing (Dwg. 712-2130_revA, SH 1 of 1) CSS-0011, Rev. D 8 of 12...
  • Page 175 Certification & Safety Statements for the moisture.IQ August 2017 Markings • Markings shall appear on the product as shown in Figure 15 below through Figure 22 on page 11. Figure 15: Product Chassis Label - Boston (ref. dwg. 442-1492-01_D) Figure 16: Product Chassis Label - Shannon (ref. dwg. 442-1492-02_D) Figure 17: Stainless Steel, Weather-Proof Certification Label - Boston (ref.
  • Page 176 Certification & Safety Statements for the moisture.IQ August 2017 Markings (cont.) Figure 18: Stainless Steel, Weather-Proof Certification Label - Shannon (ref. dwg. 442-1848-02_F Figure 19: Fiberglass, Weather-Proof Certification Label - Boston (ref. dwg. 442-1848-03_F Figure 20: Fiberglass, Weather-Proof Certification Label - Shannon (ref. dwg. 442-1848-04_F) CSS-0011, Rev.
  • Page 177 Certification & Safety Statements for the moisture.IQ August 2017 Markings (cont.) Figure 21: Explosion-Proof Certification Label -Boston (ref. dwg. 442-1855-01_F) Figure 22: Explosion-Proof Certification Label -Shannon (ref. dwg. 442-1855-02_F) CSS-0011, Rev. D 11 of 12...
  • Page 178 Certification & Safety Statements for the moisture.IQ August 2017 [no content intended for this page] CSS-0011, Rev. D 12 of 12...
  • Page 179 1100 Technology Park Drive Billerica, MA 01821 declare under our sole responsibility that the moisture.IQ Multi-Channel, Multi-Functional Moisture Analyzer to which this declaration relates, is in conformity with the following standards: • EN 60079-0 : 2012 • EN 60079-11 : 2012 •...
  • Page 180 [no content intended for this page]...
  • Page 182 Contact your BHGE representative for the most current information. The Baker Hughes logo is a trade mark of Baker Hughes, a GE company. The GE Monogram is a trademark of the General Electric Company.

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