SKF Enlight Collect IMx-1 System User Manual P/N Part Number 15V-090-00087-100 Revision A Read this manual carefully before using the product. Failure to follow the instructions and safety precautions in this manual can result in serious injury, damage to the product or incorrect readings. Keep this manual in a safe location for future reference. Copyright © 2019 by SKF Group All rights reserved.
® SKF is a registered trademark of the SKF Group. Android is a trademark of Google LLC. The Bluetooth® word mark and logos are registered trademarks owned by Bluetooth SIG, Inc. and any use of such marks by SKF is under licence. All other trademarks are the property of their respective owners. The contents of this publication are the copyright of the publisher and may not be reproduced (even extracts) unless prior written permission is granted.
Technical Support – SKF's Technical Support Group can be reached during normal business hours via phone, e-mail and live chat. Always check the self-service web portal before contacting your nearest Technical Support Group (TSG) to see if the answer is already published. You may search the vast knowledgebase within the self-service web portal for answers to commonly-asked questions (FAQ), how-to articles, technical specs, installation and user manuals, best practices and more.
Table of contents 1 Product description .......................................................................... 9 1.1 1.2 1.3 1.4 Introduction to the SKF Enlight Collect IMx-1 system ....................................9 System considerations and architectures .....................................................10 SKF Enlight Collect IMx-1 wireless sensors .................................................11 SKF Enlight Collect gateway ..................................................................
3.3 3.2.3 Network connections and configuration .........................................42 3.2.4 Commissioning...............................................................................43 3.2.5 Other interfaces ..............................................................................45 SKF Enlight Collect IMx-1 wireless sensors .................................................45 3.3.1 Installation considerations ..............................................................45 3.3.
5.2 5.3 5.4 6 5.1.5 Interfaces........................................................................................69 5.1.6 Certifications ..................................................................................70 Enlight Collect gateway specifications..........................................................72 5.2.1 Environmental and physical ...........................................................72 5.2.2 Power ......................................................................
PRODUCT DESCRIPTION Introduction to the SKF Enlight Collect IMx-1 system 1 Product description 1.1 Introduction to the SKF Enlight Collect IMx-1 system The overall architecture of the SKF Enlight Collect IMx-1 System can be illustrated by the figure below.
PRODUCT DESCRIPTION System considerations and architectures visualisation software, SKF @ptitude Observer, can be installed on a local server at the customer location or as a cloud solution. If the equipment is used in a manner not specified by the manufacturer, the protection provided by the equipment may be impaired. 1.
PRODUCT DESCRIPTION SKF Enlight Collect gateway *Important Note: for local, on premise, @ptitude Observer installations Wi-Fi access to the server is required so that a connection to the app can be established during commissioning and maintenance. This connection can be just temporary and can precede the commissioning work but is required irrespective of whether Wi-Fi is used for the gateway network connection. 1.
PRODUCT DESCRIPTION SKF Enlight Collect gateway Figure 2 View on gateway and mounting plate with key features annotated To access the connector area, unscrew the two Torx T10 screws on the lower edge of the cover at the locations circled in the image above. Once this cover is removed, four M12 connectors and one blanking plug are accessible: 1. Connector for dual speed inputs with transducer power (future use) 2. Connector for Ethernet link 2 (future use) 3. Connector for Ethernet link 1 and PoE 4.
PRODUCT DESCRIPTION SKF Enlight Collect gateway • • Top, Power LED – furthest from the connector area: o Green: gateway is powered o Off: gateway is unpowered Lower, Status LED indicator o Off: gateway is unpowered o White: gateway is starting up o Yellow: started but not yet connected to @ptitude Observer o Green: gateway has started and is also connected to the software 1.4.
PRODUCT DESCRIPTION SKF Enlight Collect Manager – Android app If configured schedules cannot be met, all sensors will still be measured, but at the best achievable rate and with some slippage from the configured schedule. Sensors that cannot be reached are assumed to be now, in a normal, non-alarm state. 1.4.5 Local data storage The gateway will buffer measurement/event data until it is able to be transferred to the host system/software.
PRODUCT DESCRIPTION SKF Enlight Collect Manager – Android app a) Main screen Figure 3 b) System settings password Accessing system settings The default password to access the system settings is: admin although this can be changed at the next screen, if required.
PRODUCT DESCRIPTION SKF Enlight Collect Manager – Android app a) System settings menu Figure 4 b) Server properties/configuration Access the Monitor server configuration As can be seen above, for each Observer Monitor instance a friendly informative Name, an Address and a Port number are entered. As these settings are critical for connection to the Observer Monitor, ensure that they correctly reflect the required instance otherwise a log-in failure can be expected.
PRODUCT DESCRIPTION Third party licences There, there will be options to display Trusted credentials tabbed as System, app installed and User installed. Menu naming may vary a little depending on operating system version and phone manufacturer. 1.6 Third party licences Some pieces of licensed software such as open source or third-party libraries have been used when developing this product. SKF Enlight Collect Gateway firmware.
INTEGRATION WITH SKF @PTITUDE OBSERVER @ptitude Observer overview and prerequisites 2 Integration with SKF @ptitude Observer 2.1 @ptitude Observer overview and prerequisites Before starting pre-commissioning, a suitably licensed version 12.0 or later, @ptitude Monitor/Observer, must be installed and functioning. It should have an appropriate database available with machines created and their operating speeds set. Submachines must then be defined ready for IMx-1 sensor placement.
INTEGRATION WITH SKF @PTITUDE OBSERVER @ptitude Observer overview and prerequisites address entered here should always be the internal or private IP address for the Monitor server and not its public IP address. • Port: The port Monitor will listen to. By default, this is set to the standard, nonTLS, MQTT port 1883. Ensure that incoming MQTT, TCP connections to this port are not blocked by a firewall. 2.1.
INTEGRATION WITH SKF @PTITUDE OBSERVER Hierarchy view – adding sensors and measurements Figure 7 IMx-1 Engineering unit selection Engineering units for each of the four measurement types can be chosen and the following alternatives are available: • • • • Acceleration: g or m/s^2 Velocity: mm/s or ips Envelope: gE or m/s^2E Temperature: C or F As shown, the scaling/detection method applicable to the vibration measurements, is fixed.
INTEGRATION WITH SKF @PTITUDE OBSERVER Hierarchy view – adding sensors and measurements Figure 9 Hierarchy: IMx-1 sensor example As shown above, the automatic measurement point naming takes the user chosen sensor name, adds a dash/hyphen and then 1 or 2 characters to identify the measurement type. Measurement naming is automatically updated if the sensor name is subsequently changed.
INTEGRATION WITH SKF @PTITUDE OBSERVER Hierarchy view – adding sensors and measurements Figure 10 IMx-1 sensor dialog example Main tab: in the upper area are the sensor ‘Name’ and the ‘Leaf node’ selection, noting that the node type cannot be changed once the sensor is commissioned. Name can usefully be used to indicate the sensor’s physical location using standard, vibration measurement point, taxonomy. Also provided is a read back of the gateway allocation – ‘Gateway’.
INTEGRATION WITH SKF @PTITUDE OBSERVER Hierarchy view – adding sensors and measurements The four measurements each have their own sub-tab in the sensor configuration dialog: Sub-tabs for each measurement type typically have three zones where aspects of that measurement can be configured or are available for review: General: an area to report the measurement name, engineering units and scaling.
INTEGRATION WITH SKF @PTITUDE OBSERVER Enlight Collect IMx-1 System View 2.3 Enlight Collect IMx-1 System View This is a dedicated window that provides gateway and sensor information and access to IMx-1 system configuration functions. Get to this system view from On-line > Enlight Collect IMx-1 System view: Figure 11 Access the ‘IMx-1 System view’ The view opens in the main window, where the top section relates to a gateway view or table and the lower section contains a sensor view or table.
INTEGRATION WITH SKF @PTITUDE OBSERVER Enlight Collect IMx-1 System View In this view the upper area is a table of all gateways in the database (see also note about external databases, below). The lower area lists sensors and can be filtered by gateway or by hierarchical position: • Filter by gateway: o • Select an entry in the gateway table/list: the associated measurement and relay sensors for the selected gateway are shown.
INTEGRATION WITH SKF @PTITUDE OBSERVER Enlight Collect IMx-1 System View Edit, will launch the gateway properties dialog where extended status information can be viewed. If the gateway status deviates from OK, this will also be reflected by appropriate system or critical system alarms being raised. Configuration: • Not synchronized: the configuration held by @ptitude Monitor/Observer is different to that in the gateway. This will not be corrected until/unless the user initiates a synchronise action.
INTEGRATION WITH SKF @PTITUDE OBSERVER Enlight Collect IMx-1 System View o Vibration circuit failure (2) o Temperature circuit failure (4) o Program ROM memory failure (8) o External Flash memory failure (16) o RAM memory failure (32) o Configuration CRC failure (64) o Firmware update error (128) o Watchdog reset (256) o Network instability (512) Self-diagnostic errors may also raise a system or critical system alarm in @ptitude Observer.
INTEGRATION WITH SKF @PTITUDE OBSERVER IMx-1 system configuration Last seen: A date and time corresponding to when the sensor was last communicated with. Location: For a measurement sensor, Leaf or Mesh, the hierarchical location where that sensor and measurement points have been created. For a relay node, this field contains the descriptive location information entered by the user, Figure 17. 2.4 IMx-1 system configuration 2.4.
INTEGRATION WITH SKF @PTITUDE OBSERVER IMx-1 system configuration Virtual ID is a unique identifying number for each gateway in the database. Valid assignments are in the range 1 to 999 999, the system will suggest the lowest available Virtual ID. The Virtual ID can be thought of as a reference to a specific ‘slot or position’ in the database. During commissioning an individual gateway’s Hardware ID is assigned to that position to ensure that data reaches the intended destination.
INTEGRATION WITH SKF @PTITUDE OBSERVER IMx-1 system configuration Figure 16 Machine properties, ‘IMx-1’ tab example Gateway: There, a drop-down list allows the selection of any gateway that exists in the system, or ‘None’. Note also that whilst gateways can be associated with multiple machines, multiple sensors on a machine can only connect to the same, single gateway. In addition, whilst a machine has a commissioned sensor, it is not possible to change to another gateway or select ‘None’.
INTEGRATION WITH SKF @PTITUDE OBSERVER IMx-1 system configuration 2.4.2 Sensor Sensors can operate in different modes: • Mesh – default mode, makes measurements and contributes to the sensor mesh. • Leaf – makes measurements only and uses but doesn’t contribute to, the sensor mesh. • Relay – contributes only to the sensor mesh but makes no measurements. Mesh/leaf modes are associated with a hierarchical location as they relate to machine monitoring.
INTEGRATION WITH SKF @PTITUDE OBSERVER IMx-1 system configuration • As well as being created, a relay node can also be deleted, by selecting it in the IMx-1 System View and pressing the Delete button below the sensor list. Figure 18 Sensor table example All types of configured sensors allocated to a gateway will be shown in the sensor table, as illustrated in the example shown above. When a sensor has been commissioned the device MAC address will be reported in the Hardware ID column.
INTEGRATION WITH SKF @PTITUDE OBSERVER IMx-1 system configuration 2.4.3 Synchronisation of configuration changes By completing all the configuration and pre-commissioning work described, the machine hierarchy, sensor and gateway information will be available as a ‘Commissioning Route’, when the sensor installer starts the app and connects to @ptitude Observer.
INTEGRATION WITH SKF @PTITUDE OBSERVER Use of @ptitude Observer machine templates Figure 21 Hardware ID clear button – Relay mode sensor example Clearing a Hardware ID does not remove measurement data but stops @ptitude Observer communicating with that device and allows another physical device to be commissioned as a replacement for the previous one. 2.
INSTALLATION AND COMMISSIONING Overview and prerequisites 3 Installation and commissioning 3.1 Overview and prerequisites Installation of an IMx-1 wireless system interfacing to SKF @ptitude Observer software, must be ‘top-down’ that is: • Decide whether a cloud or local-server based system is required. Note: to download the commissioning route the mobile app must be able to use a mobile data or Wi-Fi connection to access the server.
INSTALLATION AND COMMISSIONING Overview and prerequisites cloud scenarios this endpoint will be the public IP address or URL where the Monitor service can be reached from outside of the cloud. Note: like an @ptitude Observer login, the user name entry is not case sensitive. When logging in to the app it will attempt to communicate with @ptitude Observer Monitor to retrieve a commissioning route for the system and store it in a local device database.
INSTALLATION AND COMMISSIONING SKF Enlight Collect gateway In the example above the equipment to be commissioned is: • Installed across two machines • Each with two sub-machines • There are two sensors to be commissioned • A gateway and a relay node From the commissioning progress screen, by selecting Sensors, it is possible to ‘drill down’ through functional locations, then sub-machines to the sensor names and similarly for the relay node to confirm its name and associated gateway. 3.
INSTALLATION AND COMMISSIONING SKF Enlight Collect gateway Figure 23 Example of connector/cable assemblies Longer cable assemblies or intermediate junction boxes may be required depending on site layout and requirements. 3.2.2 Power requirements The SKF Enlight Collect Gateway is designed to be powered from either PoE or an industrial range 24 V DC supply, including 12 V battery operation. The connection details for the DC supply are as shown in the figure and table below.
INSTALLATION AND COMMISSIONING SKF Enlight Collect gateway Important safety warnings: In some countries, the installer must be certified to connect equipment, such as a gateway, to plant systems. Make sure that the power is disconnected before the installation begins. The system power supply must be provided with an appropriately positioned, clearly labelled full pole isolator or switch that can be used to isolate and lock-out power from the gateway during installation, maintenance or modification work.
INSTALLATION AND COMMISSIONING SKF Enlight Collect gateway 3.2.3 Network connections and configuration Network configuration designates the type of network connection that the gateway will use and is a part of the gateway configuration process. A wired, Ethernet connection is the default, but the alternative Wi-Fi connection can be used, where preferred. 3.2.3.1 Ethernet (wired) The gateway has one, 10/100/1 000 Mbit, Ethernet port for connection to a local network.
INSTALLATION AND COMMISSIONING SKF Enlight Collect gateway When using fibre optics or PoE, suitable network hardware must be in place. 3.2.3.2 Wi-Fi The built-in Wi-Fi module provides an alternative network connection method where a wireless network is available. The gateway provides an integral radio antenna, no connection to an external antenna is required. 3.2.3.
INSTALLATION AND COMMISSIONING SKF Enlight Collect gateway D. The gateway should be decommissioned, press Commission to proceed. E. Now choose the ‘virtual’ gateway, configured in @ptitude Observer, that this physical gateway should be associated with. Virtual gateways will be listed with both their name and location text visible. Virtual gateway locations that are already commissioned will have MAC addresses associated with them and be unavailable for selection. F.
INSTALLATION AND COMMISSIONING SKF Enlight Collect IMx-1 wireless sensors 3.2.5 Other interfaces 3.2.5.1 USB service interface A USB service interface is available internally, for SKF use only or under the direction of TSG or SKF application engineers 3.3 SKF Enlight Collect IMx-1 wireless sensors 3.3.1 Installation considerations When selecting a location for the sensor bear in mind that the sensor is single axis, the vibration sensitive axis is through and perpendicular to, the mounting face.
INSTALLATION AND COMMISSIONING SKF Enlight Collect IMx-1 wireless sensors The sensor base, sensor mounting detail and typical mounting studs are shown in the figure: b) Various studs a) Sensor base/mounting detail Figure 25 Key sensor dimensions and example stud fixing options The sensor mounting nut is 6-sided, “6-point”. When fitting the sensor to the stud, always apply torque to that mounting nut rather than using the main sensor housing.
INSTALLATION AND COMMISSIONING Relay node commissioning E. F. G. H. a. Press ‘Commission’. b. Drill down through the Functional location > Asset > to the desired Location tag. c. Leaf mode “yes”/”no” set in @ptitude Observer, can be overridden at this point if needed. d. Confirm selections by pressing ‘Commission’. App shows confirmation of successful commissioning or error. After exiting this screen, the app will instruct the commissioned sensor to activate its mesh radio and attempt to connect.
INSTALLATION AND COMMISSIONING Generating a commissioning report F. Repeat steps B to E for all relay nodes being processed. 3.5 Generating a commissioning report To generate a commissioning report, select Report from the main menu.
MAINTENANCE FUNCTIONS SKF Enlight Collect IMx-1 wireless sensor 4 Maintenance functions 4.1 SKF Enlight Collect IMx-1 wireless sensor 4.1.1 Updating sensor firmware Like gateway firmware, sensor firmware is stored in @ptitude Observer and is first transferred to the gateway. Standard or Alternative firmware are supported, this choice is a gateway level selection, so applies to both sensors and gateway.
MAINTENANCE FUNCTIONS SKF Enlight Collect IMx-1 wireless sensor sensor firmware image, all sensors associated with the gateway will be updated to that same firmware version. Note that whilst sensor firmware can be deleted from @ptitude Observer, that deletion doesn’t affect the copy stored at the gateway and if a distribution of that firmware is underway (staged), it will continue. 4.1.
MAINTENANCE FUNCTIONS SKF Enlight Collect gateway 4.1.3 Sensor maintenance The IMx-1 hardware is maintenance free, non-repairable and users must not attempt to open the device. Firmware updates are available OTA, from @ptitude Observer software. 4.1.4 Sensor performance over time No significant performance degradation over time is expected, until the integral battery has reached the end of its life.
MAINTENANCE FUNCTIONS SKF Enlight Collect gateway 4.2.2 Modify gateway network configuration Whilst the network configuration of a commissioned gateway can be updated by decommissioning and recommissioning, this has the disadvantage that the gateway loses and then has to re-establish its sensor relationships.
MAINTENANCE FUNCTIONS SKF Enlight Collect gateway • ‘Bluetooth’, the user chooses from a list of gateways that are in range The user can at this point, select ‘decommission’.
MAINTENANCE FUNCTIONS Troubleshooting Firmware updates will be available OTA, from @ptitude Observer software. 4.2.6 Gateway performance over time No significant performance degradation over time is expected. Good practice is to investigate any apparently anomalous behaviour or status errors and if needed initiate a gateway exchange. 4.3 Troubleshooting 4.3.1 Introduction This section is intended as an aid to fault finding, on a SKF Enlight Collect IMx-1 System.
MAINTENANCE FUNCTIONS Troubleshooting • Access the Event log from On-line > Event Log. • For an Enlight Collect IMx-1 System, class will be shown as ‘S’. • Event types cover a range of different conditions related to firmware update, configuration change, loss of connectivity, gateway restart or reset, user login to the gateway and integrity checks, etc.
MAINTENANCE FUNCTIONS Troubleshooting • An Export function allows the export of events to an Excel file for further analysis or sharing. Monitor service log and viewer As it is the Monitor service that receives the data from the IMx-1 system, that interface can contain relevant information regarding the system performance and MQTT connection status. The log file can be accessed from the @ptitude Observer Monitor Service Manager software, select the appropriate service then Action > View log file.
MAINTENANCE FUNCTIONS Troubleshooting Figure 32 Enabling the ‘Mesh network information log’ The log will be created in the application folder for the monitor service and will be named IMx1SensorMeshInformation.log, i.e. prefixed by the actual name of the monitor service.
MAINTENANCE FUNCTIONS Troubleshooting • The last 8-bytes of the gateway address Such information can be invaluable when troubleshooting issues with the performance or behaviour of the sensor mesh. 4.3.3 IMx-1 sensor troubleshooting Possible causes for a ‘non-responsive’ sensor include: • Sensor is in ‘flight mode’. • Incorrect or incomplete configuration. • Mechanical damage. • Sensor fault including discharged battery. • Loss of mesh communications – likely multiple sensors affected.
MAINTENANCE FUNCTIONS Troubleshooting • Note that in the mesh active state, the mesh radio will be deactivated if after 5-minutes it hasn’t successfully joined the mesh. This initial deactivation or sleep period lasts for 5-minutes but after subsequent failures it increases in coarse steps from 10 minutes up to 24 hours between mesh connection attempts. An NFC tap on a sensor with its mesh radio enabled, joined, active or ‘sleep’ state, switches it back to WPAN radio, active mode.
MAINTENANCE FUNCTIONS Troubleshooting Important note: Sensor power consumption in mesh active mode is of the order of 100x greater than the consumption when the mesh has been successfully joined.
MAINTENANCE FUNCTIONS Troubleshooting Figure 36 Approximate NFC antenna location In a ‘quiet’ environment it may be possible to hear an audible ‘ding’ as a notification that the NFC tap was registered by the phone. Be aware that the consistency of NFC and Bluetooth interactions with IMx-1 sensors may vary between phone models, even within those from the same manufacturer, due to differences in the detailed design.
MAINTENANCE FUNCTIONS Troubleshooting In the Diagnostics section, which is in the lower half of the Support list, there is an option to enable log file storage, a further option to choose between a single continuous file or separate files each day and an option to view the created logs in app. When viewing a log file, it can be directly shared using normal Android share capabilities.
MAINTENANCE FUNCTIONS Troubleshooting 4.3.7.1 USB service interface A micro USB header provides access to the service interface. This interface is identified, circled, in the figure below, noting that there is more than one micro USB interface connector within the gateway.
MAINTENANCE FUNCTIONS Troubleshooting Figure 39 A typical terminal configuration for using the service interface Reset to factory defaults • At the login prompt, initiate the reset by using appropriate credentials for both Username and Password. When needed, these credentials can be provided by TSG. Note: The gateway will respond with the message "Job for factory-reset.service canceled." when it has completed the factory reset.
MAINTENANCE FUNCTIONS Troubleshooting o Figure 40 4.3.7.2 The Driver will be ‘(None)’ – meaning no current driver, in the adjacent field use the up/down buttons to select USB Serial (CDC) as shown and then press Install Driver. Using Zadig utility to install the USB device driver Ethernet LEDs Although not visible externally, to aid fault finding, link and activity LEDs are available on-board for the Ethernet interface.
PRODUCT SPECIFICATIONS IMx-1 wireless sensor specifications 5 Product specifications 5.1 IMx-1 wireless sensor specifications 5.1.1 Environmental and physical Table 4 Wireless sensor environmental specifications Mounting Spanner/wrench Material ¼–28 UNF female, recommended torque 2.9 Nm (2.14 lb-ft) 1–1/4 inch AF: Across Flats, 31.75 mm Thermoplastic housing 304L or 303 stainless steel base Diameter (maximum at base) 33.66 mm (1.33 inch) Height 78.2 mm (3.
PRODUCT SPECIFICATIONS IMx-1 wireless sensor specifications 5.1.2 Operational states and battery Table 5 Wireless sensor operational states and battery specifications Model designation IMx-1 Type Non-replaceable lithium thionyl battery Typical lifetime 4 years, configuration dependent Modes WPAN IEEE 802.15.
PRODUCT SPECIFICATIONS IMx-1 wireless sensor specifications The velocity dynamic range is only achievable if within overall sensor acceleration dynamic range. 5.1.4 Signal processing Table 7 Wireless sensor signal processing specifications Model designation IMx-1 Enveloper 3 0 to 1 kHz Source ‘E3’ measurement Acceleration 0.5 to 10 kHz True P2P 10 Hz to 10 kHz ‘A’ measurement Velocity True P2P 10 to 1000 Hz ‘V’ measurement All vibration RMS TWF:1 each A, V, Env.
PRODUCT SPECIFICATIONS IMx-1 wireless sensor specifications Notes: WPAN IEEE 802.15.1: Bluetooth SIG certification is pending. Proximity IEC 14443: NFC (Near Field Communication) certification is pending. OTA: Over The Air device firmware updates 5.1.6 Certifications Note that all certifications listed below are pending or to be confirmed. Europe • Radio Equipment Directive (RED) and CE certified (radio, EMC and product safety) o Radio testing according to: ▪ EN 300328 for IEEE 802.15.
PRODUCT SPECIFICATIONS IMx-1 wireless sensor specifications This equipment has been tested and found to comply with the limits for a class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide a reasonable protection against harmful interference in an industrial installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications.
PRODUCT SPECIFICATIONS Enlight Collect gateway specifications 5.2 Enlight Collect gateway specifications 5.2.1 Environmental and physical Table 9 Gateway environmental specifications Housing material ASA+PC-FR Flame Retardant Acrylonitrile Styrene Acrylate + Polycarbonate Flammability UL 94 V-0 Dimensions 220 x 220 x 50.5 mm (8.66 x 8.66 x 1.99 in.
PRODUCT SPECIFICATIONS Enlight Collect gateway specifications 5.2.
PRODUCT SPECIFICATIONS Enlight Collect gateway specifications 5.2.5 Certifications Note that all the certifications listed below are pending or to be confirmed. Europe • • • Radio Equipment Directive (RED) and CE certified (radio, EMC and product safety) o Radio testing according to: ▪ EN 300328 for IEEE 802.15.4 Sensor radio ▪ EN 300330 for NFC ▪ The following only for Radiated Spurious Emissions • EN 300328 for Bluetooth Low Energy • EN 300328 for WLAN 802.11 b/g/n • EN 301893 for WLAN 802.
PRODUCT SPECIFICATIONS Enlight Collect gateway specifications This equipment has been tested and found to comply with the limits for a class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide a reasonable protection against harmful interference in an industrial installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications.
PRODUCT SPECIFICATIONS Enlight Collect gateway specifications 5.2.6 Gateway mounting The SKF Enlight Collect Gateway, excluding mounting plate, has overall dimensions of 220 mm high, 220 mm wide and 50.5 mm deep. It is supplied fitted to the mounting plate shown below. This mounting plate has overall dimensions of 195 mm wide, 250 mm high and is 3 mm thick. It provides for a 4-point mounting and has four 6.5 mm, clearance for M6, holes on a 150 mm by 220 mm pitch.
PRODUCT SPECIFICATIONS Product marks and labelling 5.3 Product marks and labelling 5.3.1 Marks Marks are symbols or logos found on the product, its labelling and/or packaging. Table 13 Explanation of marks Mark Meaning CE marking according to CE 2014-53-UE Certification: FCC Certification: ATEX Certification: Anatel WEEE: Waste Electrical and Electronic Equipment Directive (2012/19/EU) 5.3.
PRODUCT SPECIFICATIONS Quality control There is a flat area on one face of the sensor case where the SKF product marking is placed. Below that is a small area that may be used by the customer to place their own identification marking on the sensor, if this is required. 5.3.3 Gateway On the front face of the case a manufacturing data label, Figure 43, confirms product and company information, CE marking, WEEE marking and RoHS compliance. The QR code contains the product information shown alongside it.
ELECTRICAL WASTE 6 Electrical waste Electrical waste and electrical equipment should be recycled as specified by the WEEE-directive and not be placed in the general refuse. Product should be sent to an approved recycling centre for safe recycling, recovery, reuse or returned to SKF for proper recycling.
APPENDIX A Limited Warranty Appendix A Limited Warranty SKF – Limited Warranty WARRANTY PERIOD WARRANTY Except as expressly provided below, the warranty period for each Product shall commence on the date the Product is shipped by SKF to Buyer.
APPENDIX A Limited Warranty For all On-line Systems (as defined below) that have satisfied Criteria 1 and 2 below, the warranty period shall be either thirty (30) months from the date the On-line System is shipped by SKF to Buyer, two (2) years from the date the On-line System is installed and commissioned by SKF, or two (2) years from the date on which the installation of the On-line System has been audited and commissioned by SKF or its authorized service representative, whichever period ends first.
APPENDIX A Limited Warranty the problem, and proof of purchase. SKF, in its sole discretion, will determine if the Buyer must return the product covered under this warranty to SKF. (D) The express warranty set forth in the Limited Lifetime Warranty is in lieu of and excludes any and all other warranties express or implied, including, but not limited to, the implied warranties of merchantability and fitness for a particular purpose.
APPENDIX A Limited Warranty operating history, mounting, wiring, or relubrication of the Product which is the subject of the Buyer’s warranty claim.