User Guide MHM-97927-PBF, Rev DRAFT July 2020 AMS Wireless Vibration Monitor User Guide
Copyright © 2020 by Emerson. All rights reserved. No part of this publication may be reproduced, transmitted, transcribed, stored in a retrieval system, or translated into any language in any form by any means without the written permission of Emerson. Disclaimer This manual is provided for informational purposes. EMERSON MAKES NO WARRANTY OF ANY KIND WITH REGARD TO THIS MATERIAL, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
User Guide Contents MHM-97927-PBF July 2020 Contents Chapter 1 Introduction.................................................................................................................. 5 Chapter 2 Configuration...............................................................................................................13 Chapter 3 Installation...................................................................................................................39 Chapter 4 Operation.............
Contents July 2020 iv User Guide MHM-97927-PBF MHM-97927-PBF, DRAFT
User Guide Introduction MHM-97927-PBF July 2020 1 Introduction 1.1 Safety messages Instructions in this manual may require special precautions to ensure the safety of the personnel performing the operations. This AMS Wireless Vibration Monitor device complies with Part 15 of the FCC Rules. Operation is subject to the following conditions: This device may not cause harmful interference, this device must accept any interference received, including interference that may cause undesired operation.
Introduction User Guide July 2020 1.2 MHM-97927-PBF Overview The manual This User Guide applies to the AMS Wireless Vibration Monitor, a triaxial vibration measurement device designed for use on a WirelessHART network. Use this manual to install, operate, and maintain the device. The monitor The AMS Wireless Vibration Monitor is an installation-ready solution that monitors vibration and temperature in rotating equipment in hard-to-reach locations.
User Guide Introduction MHM-97927-PBF July 2020 Parts of the monitor A. B. C. D.
Introduction User Guide July 2020 MHM-97927-PBF A. B. C. D. E. Cover Battery clamp Battery Battery pull tab Base O-ring Measurements The device supports the following measurements. Any of these can be configured as a process variable.
User Guide Introduction MHM-97927-PBF July 2020 Device revision information 1 Revision Current level Description Universal 7 This is the HART version the monitor supports. Field device1 1 This is the major revision of the monitor and corresponds with a major interface release. When using AMS Device Manager, this revision can be found on the screen title. Software 43 This is the current software version. The software may be occasionally modified to refine functionality.
Introduction User Guide July 2020 1.3 MHM-97927-PBF Considerations General Electrical vibration sensors, such as accelerometers, produce low-level signals proportional to their sensed vibration. With simple HART configuration, the monitor converts the lowlevel sensor signal to a wireless-enabled signal. Commissioning The monitor can be commissioned before or after installation. You can commission it on the bench before installation to ensure proper operation and to be familiar with its functions.
User Guide Introduction MHM-97927-PBF July 2020 Note If the monitor has been exposed to hazardous substances, a Material Safety Data Sheet (MSDS) must be included with the returned materials. An MSDS is required by law to be available to people exposed to specific hazardous substances. Shipping considerations for wireless products (Lithium Batteries) • The unit was shipped to you with the battery inside but disconnected. Connect the battery for proper operation.
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User Guide Configuration MHM-97927-PBF July 2020 2 Configuration 2.1 Configuration setup Unless the AMS Wireless Vibration Monitor is purchased pre-configured from the factory, it needs to be configured prior to installation at the facility or measurement location. There are three possible setups to configure the device: 1. Connect the device to a field communicator, and then configure the device using the field communicator. Note This setup is recommended if you are in a hazardous area. 2.
Configuration User Guide July 2020 2.1.1 MHM-97927-PBF Pre-configuration The AMS Wireless Vibration Monitor is shipped with the battery disconnected to comply with safety requirements. You need to connect the battery to the device before you can configure the device. Procedure 1. Remove the cover of the device. This exposes the HART ports. Use an Allen wrench or a small screwdriver and put it through the Tool hole to use as leverage while loosening the cover.
User Guide Configuration MHM-97927-PBF July 2020 • To configure the device using AMS Trex Communicator, see Configure with Trex Communicator. 5. Mount the cover and then tighten it. To avoid depleting the battery, disconnect it when the device is not in use. If you have configured the device and network but are not ready to commission it, remove the battery to extend its operating life. 2.1.
Configuration User Guide July 2020 MHM-97927-PBF 5. Specify which measurements (velocity, temperature, etc.) correspond to the process variables PV, SV, TV, and QV. Specify the units (English, metric, or SI) for each parameter. By default, PV corresponds to Z-axis overall, SV is X-axis overall, TV is Y-axis overall, and QV is Z-axis PeakVue. 6. Specify alert levels. Determine the thresholds at which measurement alerts will display and determine the behavior of device alerts.
User Guide Configuration MHM-97927-PBF 2.1.3 July 2020 Connect to a wired HART interface You need to initially connect the device to a wired HART interface to define the credentials that allow it to communicate on a wireless network. You can also define other device configurations such as sensor type and alert thresholds at this time. Notes Use the wired HART interface only for configuration.
Configuration User Guide July 2020 2.1.
User Guide Configuration MHM-97927-PBF July 2020 Variable Mappings The AMS Wireless Vibration Monitor has 13 device varibles. Any of the device variables can be configured as a process variable. The process variables and their default values are as follows.
Configuration User Guide July 2020 MHM-97927-PBF Measurement parameter units The table below shows the measurement parameters and units that can be configured for each parameter.
User Guide Configuration MHM-97927-PBF July 2020 Table 2-4: Configuration Values (continued) Configuration option Default value Z FMAX 1000 Hz Z Peakvue LOR Z velocity spectrum Z Peakvue HP Filter 2 Z Peakvue FMAX 65 Velocity Band 1 Source Z velocity spectrum Velocity Band 1 Start 2 Velocity Band 1 Stop 65 Velocity Band 2 Source Z velocity spectrum Velocity Band 2 Start 65 Velocity Band 2 Stop 300 Acceleration Band 1 Source Z acceleration spectrum Acceleration Band 1 Start 10 A
Configuration User Guide July 2020 MHM-97927-PBF Note If the device is configured to publish at the fastest allowable update rate (once per minute), the battery is expected to last only about 2-3 months. Alert levels The AMS Wireless Vibration Monitor sets HART status bits to indicate when measured values exceed the configured thresholds. Measured values have six levels: Saturated, Sensor, Range, Advisory, Maintenance, and Failed.
User Guide Configuration MHM-97927-PBF July 2020 The settings in the gateway and the host must be consistent and entered in both locations (for example, Modbus register definitions). Also, with AMS Machine Works and AMS Wireless Vibration Monitor devices (that are licensed for the Advanced Diagnostics application), you can trend Energy Band parameters and collect spectrum and waveform information. For more information, see Advanced Diagnostics application. 2.
Configuration User Guide July 2020 MHM-97927-PBF 2.3 Configuration with AMS Device Manager 2.3.1 Configure wireless network credentials in AMS Device Manager Prerequisites Before performing operations in AMS Device Manager, first scan the AMS Wireless Vibration Monitor with a wired HART modem. Right-click the HART Modem icon Device Explorer and select Scan All Devices. in Note Configuring the wireless network is only applicable using a wired HART modem and cannot be done using WirelessHART devices.
User Guide Configuration MHM-97927-PBF 2.3.2 July 2020 Main navigation The main navigation page provides quick links to the Overview, Configure, and Service Tools menus, as well as to other context menus available for the device. In the Device Explorer view, select the wireless network where the transmitter is connected and right-click the transmitter to display the context menus.
Configuration User Guide July 2020 2.3.3 MHM-97927-PBF Overview menu The Overview menu provides a glimpse of the status of the AMS Wireless Vibration Monitor, including the status of the connection to the wireless network, and a summary of the primary variables, machine temprerature, battery voltage, and update rate.
User Guide Configuration MHM-97927-PBF July 2020 Identification—displays the device tag, long tag, device type, serial number, device identifier, date, and device description. Revision Numbers—displays the universal, field device, software, hardware, and DD revision numbers.
Configuration User Guide July 2020 2.3.4 MHM-97927-PBF Configure menu Use this menu to configure sensors, variable mappings, units and alert limits. You can select either Guided Setup or Manual Setup. Important To be able to edit configuration settings, select Current in the Time drop-down menu at the bottom of the screen. Guided Setup Guided Setup lets you configure device settings in a guided step-by-step process. Click each of the buttons under Initial Setup to complete the guided setup.
User Guide Configuration MHM-97927-PBF July 2020 Manual Setup Manual Setup lets you configure device settings manually. Click the Wireless tab to display wireless network information for the transmitter. Figure 2-2: Wireless tab Click Join Device to Network to enter network identifiers and join keys that will enable the transmitter to join a wireless network.
Configuration User Guide July 2020 MHM-97927-PBF Figure 2-3: Machine Settings tab Click Configure Acquisiton Settings to configure the parameters for the specific sensor. Click Refresh Acquisition Settings to reset the parameters to default values.
User Guide Configuration MHM-97927-PBF July 2020 Figure 2-4: General Settings tab Click Write Protect to allow or block an appliocation from modifying the device parameters. Click Allow Software Configuration to allow or block software appliocations to modify the device parameters. Click the Configure Device Variable Units to specify the units for measurement for acceleration, velocity, and temperature. Use this tab to set the country and timezone where the device is located.
Configuration User Guide July 2020 MHM-97927-PBF Figure 2-5: Mapping tab Use this tab to set the primary, secondary, tertiary, and quarternary variables. You can set any of the device variables as process variables.
User Guide Configuration MHM-97927-PBF July 2020 Figure 2-7: License tab Click Change License to change installed licenses.
Configuration July 2020 User Guide MHM-97927-PBF Alert Setup lets you configure the upper and lower range values and alarm limits for Z Overall, Z Peakvue, X Overall, Y Overall, Machine Temperature, Battery Voltage, Velocity, Acceleration, and Speed. For each of these parameters, you have the option to revert to the default values and set the units of measurement. To see all the default values, see Configuration defaults.
User Guide Configuration MHM-97927-PBF 2.3.5 July 2020 Service Tools Figure 2-9: Service Tools menu The Service Tools menu displays alert conditions. These include hardware and software malfunctions or parameters with values beyond specifications. Alerts Click Alerts to display active alerts for the device. Variables Click Variables to display graphical gauges of device variables.
Configuration User Guide July 2020 MHM-97927-PBF Figure 2-10: Variables Click the Device Variables to display graphical gauges of all the variables. Click the Mapped to display graphical gauges of the variables that you set as primary, secondary, tertiary, and quarternary. Click the tabs for Z Axis, X-Y Axis, Battery Voltage, Velocity, Acceleration, and Speed to view graphical gauges for each of these parameters. Spectra This tab allows you to retrieve spectral data from the device.
User Guide Configuration MHM-97927-PBF July 2020 Communications tab Click the Join Mode drop-down to select when the monitor attempts to join a network. Maintenance tab Use this tab to manage the device maintenance and log settings.
Configuration July 2020 User Guide MHM-97927-PBF Click Routine Maintenance tab to view device statistics and restore the device to default settings. Click the Log to display events such as measurements, HART transmissions, and wake actions. Click the Log Configuration to configure event logging options. Data from event logs are useful during a debug process. Click the Device Statistics to display statistics related to radio transmission operation such as communication interval between data requests.
User Guide Installation MHM-97927-PBF July 2020 3 Installation 3.1 Device handling Before beginning the installation process: Install the Emerson Wireless Gateway and ensure it functions properly before you activate the AMS Wireless Vibration Monitor or any other wireless devices. Power up wireless devices in order of proximity from the Emerson Wireless Gateway, beginning with the closest. This will result in a simpler and faster network installation.
Installation User Guide July 2020 MHM-97927-PBF Figure 3-1: Spot face or end mill tool Attachment tools and supplies • 40-200 inch-lb torque wrench with 1/8 in. hex bit Suggested vendor: Grainger (P/N 4YA74) Description: 3/8" drive inch-lb torque wrench. You can substitute with any torque wrench with a range of 40 to 70 inch-lb and less than 5 inch-lb increments.
User Guide Installation MHM-97927-PBF July 2020 • Stud mount (preferred) • Epoxy mount (alternative) • Motor fin mount • Magnetic mount 3.3.1 Stud mount (preferred) Prerequisites The mounting location must provide a flat surface of at least 1.1 in (27.94mm) in diameter and a case thickness exceeding 0.4 in. (10.2 mm). If this is not possible, use the epoxy mount method instead. Stud mount provides increased reliability, improved frequency response, and increased signal sensitivity.
Installation User Guide July 2020 MHM-97927-PBF Procedure 1. If the equipment surface has a radius of curvature that is less than 4 in. (100 mm), grind a flat surface approximately 0.5 in. (12.7 mm) in diameter. 2. Using a wire brush and plant-approved cleaner, clean and degrease the surface area. 3. Using a two-part epoxy (such as Emerson P/N A92106)), spray the activator onto the mounting surface.
User Guide Installation MHM-97927-PBF July 2020 Figure 3-3: Installation of Motor Fin Mounts 7. Use a spatula to redirect any epoxy that has been displaced from the mounting area when pushing the fin mount probe/pad into place. 8. Fill in any remaining voids with the adhesive to ensure the motor fin mount will be fixed in place. 9. Allow full cure for the adhesive prior to installing sensor. 3.3.4 Magnetic base mount Emerson recomends a magnetic base that has a ¼”-28 threaded hole.
Installation User Guide July 2020 MHM-97927-PBF 4. Set the device in the proper orientation. Make sure that your planes are in the right direction. The Z plane should be vertical. The orientation of the X and Y axis depends on how you configured your device. To make sure that your X and Y axis stay where they are, use an allen wrench or a small screwdriver while you torque down the device to make sure that everything stays in the correct position. You can also hold the device while you torque it down.
User Guide Operation MHM-97927-PBF July 2020 4 Operation 4.1 Verify the device is operational You can verify the device operates properly using the following methods: • Field Communicator • Emerson Wireless Gateway web interface 4.2 Verify operation with AMS Trex Communicator You can verify the status of the AMS Wireless Vibration Monitor and configure it using an AMS Trex Communicator. For instructions on using the AMS Trex unit, see the AMS Trex Device Communicator User Guide.
Operation User Guide July 2020 MHM-97927-PBF connected to an AMS Trex Device Communicator or HART modem. It can take up to three minutes for the leads connection to time out; after which, the AMS Wireless Vibration Monitor resumes reporting new readings to the gateway. 4.3 Verify operation with Emerson Wireless Gateway If the device is configured with the Network ID and Join Key, and sufficient time for network polling has passed, the transmitter will be connected to the network.
User Guide Operation MHM-97927-PBF July 2020 b. Verify Show join key has a check mark. Note The most common cause of incorrect operation is that the Network ID or Join Key are not set correctly in the device. 4.4 Device operating limits Table 4-2: Standard, low-power sensor operational ranges 4.5 Sensor Range Frequency Response Vibration Overall X 16g's 2.7 KHz Vibration Overall Y 16g's 2.7 KHz Vibration Overall Z 16g's 0.
Operation User Guide July 2020 MHM-97927-PBF Table 4-4: Overall Y (continued) Axis Severity Upper Limit Lower Limit Unit Remarks Overall Y Maint 0.35 0 in/s Overall Y Maintenance Overall Y Advise 0.14 0 in/s Overall Y Advise Remarks Table 4-5: Overall Z Axis Severity Upper Limit Lower Limit Units Overall Z Saturated 70 0 in/s Overall Z Sensor 70 0 in/s Overall Z Range 5 0 in/s Overall Z Fail 1 0 in/s Overall Z Failure Overall Z Maint 0.
User Guide Operation MHM-97927-PBF July 2020 Table 4-7: Velocity Band 1 (continued) Axis Severity Upper Limit Lower Limit Units Remarks Velocity Band 1 Saturated 70 0 in/s Velocity Band 1 Sensor 70 0 in/s Velocity Band 1 Range 5 0 in/s Velocity Band 1 Fail 0.6 0 in/s Velocity Band 1 Failure Velocity Band Velocity Band 1 Maint 0.21 0 in/s Velocity Band 1 Maintenance Velocity Band 1 Advise 0.
Operation User Guide July 2020 MHM-97927-PBF Table 4-9: Acceleration Band 1 (continued) Axis Severity Upper Limit Lower Limit Units Acceleration Band 1 Advise 4 0 g Remarks Table 4-10: Acceleration Band 2 Axis Severity Upper Limit Lower Limit Units Remarks Acceleration Band 2 Saturated 100 0 g Acceleration Band 2 Sensor 100 0 g Acceleration Band 2 Range 50 0 g Acceleration Band 2 Fail 15 0 g Acceleration Band 2 Failure Acceleration Band 2 Maint 10 0 g Accelerat
User Guide Operation MHM-97927-PBF July 2020 Table 4-12: Supply Voltage (continued) Axis Severity Upper Limit Lower Limit Units Remarks Supply Voltage Sensor 3.75 0 V Power Supply Conditions Out of Range Supply Voltage Range 3.7 2.3 V Supply Voltage Fail NaN DV Unused 2.7 V Power Module Failure Supply Voltage Maint NaN DV Unused 2.
Operation User Guide July 2020 MHM-97927-PBF Table 4-14: Mechanical Condition (continued) Axis Severity Upper LImit Lower Limit Units Remarks Mechanical Condition Advise 10 0 None Mechanical Condition Advise Remarks Table 4-15: Lubrication Condition 4.
User Guide Overall Velocity, PeakVue, and temperature MHM-97927-PBF July 2020 5 Overall Velocity, PeakVue, and temperature 5.1 Overall Velocity The Overall Velocity measurement provides a summation of the low-frequency vibration energy, which indicates fault conditions such as imbalance, misalignment, looseness, and late-stage bearing problems.
Overall Velocity, PeakVue, and temperature July 2020 User Guide MHM-97927-PBF Figure 5-2: PeakVue waveform While PeakVue is very useful for providing an early indication of impact-related faults in rolling-element bearings, there are many general applications where a lower-frequency measurement is more appropriate. Also, virtually all vibration analysts are very familiar with the Overall Velocity measurement and use it as part of their existing vibration programs.
User Guide Overall Velocity, PeakVue, and temperature MHM-97927-PBF July 2020 Figure 5-3: General fault levels Depending on the type of machine being monitored, the values shown in this graph should be multiplied by the service factors given in Table 5-1. Table 5-1: Service factor multiplier Machinery type Service factor Single-stage Centrifugal Pump, Electric Motors, Fans 1.0 Non-critical Chemical Processing Equipment 1.0 Turbine, Turbine Generator, Centrifugal Compressor 1.
Overall Velocity, PeakVue, and temperature User Guide July 2020 MHM-97927-PBF Table 5-2: Default velocity levels in AMS Wireless Vibration Monitor (continued) 5.2 Alert level Velocity (in RMS) Maintenance 0.35 in/s Failed 1.0 in/s PeakVue PeakVue™ is a patented Emerson technology that is very useful for isolating highfrequency phenomena associated with developing faults, especially in rolling-element bearings.
User Guide Overall Velocity, PeakVue, and temperature MHM-97927-PBF July 2020 These are the equations that govern this curve: These, however, are generic limits. They are provided as a starting point and these values (for a 3600 RPM machine) are used as the default alert thresholds by the vibration transmitter. These levels were devised for periodic data collection with a portable vibration analyzer and are set relatively low.
Overall Velocity, PeakVue, and temperature July 2020 User Guide MHM-97927-PBF Figure 5-5: Example 1: 4600 HP fan motor - OH (Overall) Figure 5-6: Example 2: 4600 fan motor - OH (PeakVue) The defective bearing was removed and Figure 5-7 shows the developing problem that was the source of the impacting. After replacing the bearing, the PeakVue vibration is significantly reduced, as shown in Figure 5-8, indicating that the problem has been resolved.
User Guide Overall Velocity, PeakVue, and temperature MHM-97927-PBF July 2020 Figure 5-7: Defective bearing MHM-97927-PBF, DRAFT 59
Overall Velocity, PeakVue, and temperature July 2020 User Guide MHM-97927-PBF Figure 5-8: Motor - OH after the bearing is replaced (PeakVue) 5.3 Temperature The levels at which to set temperature alerts depend on a number of factors including the specific process, the operating environment, and the characteristics of the equipment being monitored.
User Guide Overall Velocity, PeakVue, and temperature MHM-97927-PBF 5.3.1 July 2020 Relative temperature monitoring The recommended generic guidelines for setting the thresholds based on the relative change are: TAdvise = 10°C increase TMaintenance = 15°C increase TFailed = 20°C increase Assuming that the ambient temperature is 25°C, when operating at steady-state, you have determined that the normal temperature at this point on your equipment is 55°C. Your "baseline" relative difference is 30°C.
Overall Velocity, PeakVue, and temperature User Guide July 2020 MHM-97927-PBF • 5 for service factor of 1.15 or greater • -5 for either open or totally enclosed fan cooled (TEFC) motors, and service factor of 1.0 • 0 for either totally enclosed non-ventilated (TENV) motors or motors with encapsulated windings, and service factor of 1.
User Guide Specifications and reference data MHM-97927-PBF July 2020 A Specifications and reference data A.1 Functional specifications Input Three internal MEMS accelometers oriented in the X-Y-Z direction. The Z accelometer has the greatest bandwidth and is considered the primary sensor. The device also has a temperature sensor designed to read the temperature near the mounting point. Output Wireless-enabled, linear with temperature or input.
Specifications and reference data User Guide July 2020 A.2 MHM-97927-PBF Physical specifications Battery Table A-1: Tadiran Lithium Batteries Model TL-4920/VE Nominal capacity @ 3 mA, to 2 V 8.5 Ah Rated voltage 3.6 V Maximum recommended continuous current 75 mA Maximum 1 sec. pulse capability 200 mA Weight 49.5 g (1.746 oz) Volume 26 cc Operating temperature range -55 ºC to +85 ºC U.L.
User Guide Specifications and reference data MHM-97927-PBF A.4 July 2020 Radio specifications Parameter Value Frequency Accuracy +/- 122 kHz Receiver Sensitivity -95 dBm at 50% PER Receiver Sensitivity -93 dBm at 1% PER Output Power, conducted 6.7 dBm Onboard Antenna Gain, Peak 3.7 dBi, Average = -0.
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User Guide Product certifications MHM-97927-PBF B July 2020 Product certifications Note For specific device certifications, always refer to the product nameplate and markings on the device. B.1 Approved manufacturing locations Emerson 835 Innovation Drive Knoxville, TN 37932 USA T: +1 865-675-2400 Benchmark Electronics (Thailand) Plc. 109 moo.4, Chaimongkol, Muang, Nakorn Ratchasima Thailand 30000 T: +66 44-233-800 B.
Product certifications User Guide July 2020 MHM-97927-PBF • Consult the dealer or an experienced radio/TV technician for help. • This device must be installed to ensure a minimum antenna separation distance of 20cm from all persons CAUTION Changes or modification not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment.
User Guide Product certifications MHM-97927-PBF July 2020 Table B-1: Radio Approvals (continued) Serbia Singapore Complies with IDA Standards DA 100927 South Africa UAE US B.3 NL5-A9530M1 Model: A9530V1, A9530V3 This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.
Product certifications User Guide July 2020 70 MHM-97927-PBF Country Restriction Bulgaria General authorization required for outdoor use and public service. Italy If used outside of own premises, general authorization is required. Norway May be restricted in the geographical area within a radius of 10 km from the center of Ny-Alesund. Romania Use on a secondary basis. Individual license is required.
User Guide Product certifications MHM-97927-PBF B.5 July 2020 Hazardous locations certifications Model No:: A9530 Product Name: Wireless Vibration Monitor The AMS Wireless Vibration Monitor carries certificates for operation in hazardous locations. Table B-2: Hazardous locations certifications CSA C/US Class I Division 1 Groups A, B, C, D Certificate Class I Zone 0 AEx / Ex ia IIC T4 Ga CSA20CA8002652 -40ºC ≤ Ta ≤ +85ºC 4 Type 4X Enclosure IECEx Certificate IECEx CSA 20.
Product certifications User Guide July 2020 MHM-97927-PBF Note The markings that appear on the monitor housing determine whether a device is suitable for operation in a specific hazardous location. This further requires that the monitor is operated in accordance with the installation drawings provided with the unit. Conditions d'utilisation sûre: 1. Ne doit être alimenté que par une cellule primaire au lithium de taille C de type TL-4920/VE fabriquée par Tadiran ou Emerson Part Number A0702PPU. 2.
User Guide Product certifications MHM-97927-PBF July 2020 North America: CAN/CSA C22.2 No. 61010-1-12 UL Std. No. 61010-1 3rd Ed. CAN/CSA C22.2 No. 60079-0 7th Ed.: 2019 UL 60079-0 7th Ed.: 2019 CAN/CSA C22.2 No. 60079-11 6th Ed.: 2014 UL 60079-11: 6th Ed.: 2013 CAN/CSA-C22.2 No. 60529 Ed. 2.2: 2016 ANSI/IEC 60529-2004 (R2011) CAN/CSA-C22.2 No. 94.2-2007 (R2012) UL 50E 2015 B.
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User Guide Index MHM-97927-PBF July 2020 Index A epoxy mount 41 absolute temperature monitoring 61 alert levels 22 alert limits, device variables 47 alert thresholds, default 22 ambient temperature 60 AMS Device Manager Advanced Diagnostics application 26 configure alert limits 28 configure publishing 28 configure sensors 26 configure units 28 Configure window 28 configuring wireless network credentials 24 device revision 26 effective acquisition rate 28 guided setup 28 join device to network 26 manua
Index July 2020 User Guide MHM-97927-PBF publishing mode (continued) generic mode 21 optimized mode 21 R radio specifications, radio 65 relative temperature monitoring 61 restore factory default settings 35 return of materials 10 revisions, device 6 RoHS 73 S safety messages 5 sensor mount, preparing 40 sensor mounting/attachment tools 39 sensor operating limits 47 sensors mounting tools 39 operating limit 47 Smart Power Module 10 spectral data 35 stud mount 41 T temperature absolute monitoring 61 aler
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MHM-97927-PBF Rev. DRAFT 2020 Emerson 835 Innovation Drive Knoxville, TN 37932 USA T +1 865-675-2400 F +1 865-218-1401 www.Emerson.com ©2020, Emerson. The contents of this publication are presented for informational purposes only, and while every effort has been made to ensure their accuracy, they are not to be construed as warranties or guarantees, express or implied, regarding the products or services described herein or their use or applicability.
