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1 2 3 4 | User Manual | Users Manual | 1.83 MiB | January 25 2023 / February 28 2023 |
SENSAIO SENSA.iO Intelligent Connected Intelligent Connected Wireless Sensors Wireless Sensors For Hazardous environments For Hazardous Environments VALVE POSITION INSTRUCTION MANUAL
(613-00001) SENSA.VALV Disclaimer SENSA.iO is a brand of 2022 EDGE TECHNOLOGIES SAS. All Rights Reserved. The trademarks, logos, and service marks (Marks) included herein are the property of EDGE TECHNOLOGIES SAS or of their respective owners. Use of any Mark is not permitted without the prior written consent of EDGE TECHNOLOGIES SAS or of the respective owner. The information in this document is subject to change without notice. EDGE TECHNOLOGIES SAS and/or its representatives cannot be held responsible for any errors or inaccuracies within this document. L A I T N E D I F N O C LoRaWAN Valve position Sensors User Manual | English Revisions Page No. Context All All
#21, #15 All First Release Second Update Payload decoding, Grounding Third Update Version DRAFT Rev.1.1 Rev.1.2 Rev.2 Date 01/02/2021 21/07/2021 16/09/2021 11/09/2022 Further information Additional documentation on SENSA.iO LoRaWAN Valve position is available for download free of charge at https://sensa.io/wireless-valve position-transmitter/ or alternatively, scan this code:
Manufacturer EDGE TECHNOLOGIES SAS 735 Rue du Lieutenant Parayre 13290 AIX-EN-PROVENCE France Tel : +33 (0)4 84 39 08 82 Customer service center https://sensaio.zohodesk.com support@sensa.io 613-00001 Page 1 of 53 LoRaWAN Valve position Sensors User Manual | English Contents 1 3 2.1 2.2 3.1 3.2 3.3 3.4 3.5 3.6 3.7 Safety information ............................................................................................................. 3 Intended use .............................................................................................................. 4 1.1 Handling of lithium-ion batteries ............................................................................... 4 1.2 Transportation ........................................................................................................... 5 1.3 1.4 Packaging ................................................................................................................... 5 1.5 Warranty provisions .................................................................................................. 5 Storage ....................................................................................................................... 5 1.6 Environmental conditions .......................................................................................... 6 1.7 Radio Waves .............................................................................................................. 6 1.8 2 General Product information ............................................................................................. 7 Product description ................................................................................................... 7 Product specifications ............................................................................................... 8 Installation of the sensor .................................................................................................. 10 Replacing the battery .............................................................................................. 12 Sealing procedure .................................................................................................... 15 Operate the device .................................................................................................. 16 Battery life ............................................................................................................... 17 Installation of Valve position Sensor ....................................................................... 18 Grounding ................................................................................................................ 19 Serial Number .......................................................................................................... 20 4 App and Device ................................................................................................................ 21 Sensalink Mobile ...................................................................................................... 21 Sensalink Web ......................................................................................................... 30 LoRawan Payload ............................................................................................................. 35 LoRaWAN Regional parameters .............................................................................. 35 Data formatting ....................................................................................................... 36 Spare parts ....................................................................................................................... 44 Certifications and approvals ............................................................................................. 45 Equipment marking ................................................................................................. 45 Installation, maintenance and repair ....................................................................... 48 Specific Conditions of Use ....................................................................................... 48 Availability of instructions ....................................................................................... 48 Regulatory Compliance Statements ........................................................................ 49 8 Technical Battery data ...................................................................................................... 52 9 Ordering number .............................................................................................................. 53 7.1 7.2 7.3 7.4 7.5 5.1 5.2 4.1 4.2 6 7 5 613-00001 Page 2 of 53 LoRaWAN Valve position Sensors User Manual | English 1 Safety information These instructions are an important part of the product and must be retained for future reference. Installation, commissioning, and maintenance of the product may only be performed by trained specialist personnel who have been authorized by the plant operator accordingly. The specialist personnel must have read and understood the manual and must comply with its instructions. For additional information or if specific problems occur that are not discussed in these instructions, contact the manufacturer. The content of these instructions is neither part of nor an amendment to any previous or existing agreement, promise or legal relationship. Information and symbols on the product must be observed. These may not be removed and must be fully legible at all times. The operating company must strictly observe the applicable national regulations relating to the installation, function testing, repair and maintenance of electrical products. Modification of the product is strictly prohibited. Any repair or modification to this device by customer will cause a malfunction of explosion protect function and hazardous situation and the protection provided by the device may be compromised. If you need to repair or modification, please contact the manufacturer or nearest authorized reseller. Use of personal protective equipment, or other plant standard safety procedures. must be followed. The signal words in these instructions are structured as follows:
DANGER The signal word "DANGER" indicates an imminent danger. Failure to observe this information will result in death or severe injury. WARNING The signal word "WARNING" indicates an imminent danger. Failure to observe this information may result in death or severe injury. CAUTION The signal word "CAUTION" indicates an imminent danger. Failure to observe this information may result in minor or moderate injury. NOTE The signal word "NOTE" indicates useful or important information about the product. The signal word "NOTE" is not a signal word indicating a danger to personnel. The signal word "NOTE" can also refer to material damage. 613-00001 Page 3 of 53 LoRaWAN Valve position Sensors User Manual | English 1.1 Intended use Referring to the User Instructions, name-plate and Technical Information brochures, check that the product is suitable for the intended use/application. To measure the valve position of fluid or gases substances. The device has been designed for use exclusively within the values stated on the sensor plate and within the technical limit values specified on the data sheets. The maximum and minimum operating valve position limits must not be exceeded or undershot in normal and default conditions. The permissible ambient temperature must not be exceeded The housings degree of protection must be observed during operation Prior any installations you must take in consideration:
Flammable materials, substances hazardous to health, extremes of temperature. Explosion risk areas, lack of oxygen (e.g. tanks, pits), dangerous gases, extremes of temperature, hot surfaces, fire hazard (e.g. during welding), excessive noise, moving machinery Ensure the sensors have the correct gaskets regard the temperature and that those were designed accordingly the maximal valve position. Make sure the valve position pipe were shutdown before any attempt to remove the sensors. Allow time for temperature to normalize after isolation to avoid the danger of burns and consider whether protective clothing is required. Before starting work ensure that you have suitable tools and / or consumables available. Use only genuine parts from manufacturer or authorized reseller. All work must be carried out or be supervised by a suitably competent person. Installation and operating personnel should be trained in the correct use of the product according to the Installation and Maintenance Instructions. In normal use it is not advised to touch the sensor in the case the pipe is hot or under valve position. If used at the maximum permitted operating conditions the surface temperature of some products may reach hot temperatures. This product has to be dumped regarding the local legislation. The product should be recycled in line with local legislation. Special attention should be paid to the battery, see section 1.2. 1.2 Handling of lithium-ion batteries Lithium batteries do not pose a danger if handled properly. Please note the following points for the proper handling of lithium batteries:
Do not recharge, short circuit, crush, disassemble, heat above +100C / +212F, incinerate, or expose contents to water. Keep batteries in non-conductive (i.e. plastic) trays. Fire, explosion and burn hazard Do not obstruct venting mechanism 613-00001 Page 4 of 53 LoRaWAN Valve position Sensors User Manual | English 1.3 Transportation Transport of lithium batteries is subject to regulations. i.e.:
ADR (European Ground Transportation) IATA (International Air Transport Association) ICAO (International Civil Aviation Organization) and the Regulations concerning the International Carriage of Dangerous Goods by Rail (Intergovernmental Organization for International Carriage by Rail). It is the responsibility of the shipper to ensure that these regulations are followed. 1.4 Packaging Observe the following instructions:
Check the packaging and the delivered items for visible damage. Report any claims for damages immediately to the shipping company. Verify the specification indicated in the marking plate complies with the specifications written on the order sheet. To prevent damage while in transit, leave the device in the original shipping container until it reaches the installation site. WARNING Using damaged or incomplete device may cause risk of explosion in hazardous areas Do not use damaged or incomplete devices 1.5 Warranty provisions Using the device in a manner that does not fall within the scope of its intended use, disregarding this manual, using underqualified personnel, or making unauthorized alterations releases the manufacturer from liability for any resulting damage, the protection provided by the device may be compromised. This renders the manufacturer's warranty null and void. Please read the Quick Start Guide before use. 1.6 Storage When an extended storage period is expected, observed the following instructions:
A location that is not exposed to rain or water A location subject to a minimum of vibration or impact Store the device at +25C (+77F) , dry, clean and well-ventilated area. When storing the device, repack it carefully in original packaging NOTE When storing or shipping, its recommended to unscrew the nut ring to put the instrument in OFF Mode to conserve the battery. For maximum battery life, the storage temperature should not exceed +25C (+77F) 613-00001 Page 5 of 53 LoRaWAN Valve position Sensors User Manual | English 1.7 Environmental conditions Ambient conditions Ambient Temperature Permissible ambient temperature for operation Storage Temperature (recommended) Protection rating Vibration Endurance @ 25C (+77F) Shock Relative humidity IEC 61010-1 Compliance 1.8 Radio Waves For use indoors and outdoors In hazardous areas, observe the maximum permissible ambient temperature corresponding to the temperature class
-40 + 59C (-40 +138F)
+ 25 C (+77F) IP65/67 in accordance with EN60529 20 g, 52000 Hz, X/Y/Z
>10 million FS cycles 50g/11ms 100g/6ms 0 to 100% (Use in wet locations) Meets Pollution Degree 3 This product is designated as a certification of construction type as a wireless facility from 800MHz, 900 MHz and 2.4GHz bands low-power data communication systems of the Radio Act. Refer to Regulatory parameter Statements for detail. NOTE Available frequency bands vary depending on the country. Due to the designated certification of construction type, users may be subject to legal punishment in case of disassembling or modifying this product. Preventing interference with other wireless stations Industrial, scientific, and medical equipment, as well as local wireless stations (license required) and specific low power wireless stations (license not required) for identifying mobile objects used in factory production lines, use the same frequency band as this product. Check that local wireless stations and specific low-power wireless stations are not being used in the vicinity before using this product. If this product causes radio interference in a local wireless station, stop the emission of radio waves immediately. For details on how to prevent radio interference, contact our service office. 613-00001 Page 6 of 53 LoRaWAN Valve position Sensors User Manual | English 2 General Product information 2.1 Product description SENSA.iO is a wide range of Industrial intelligent connected devices that converts any conventional assets into an intelligent connected machine located in hazardous et remote locations. Fully autonomous, this device is battery-operated transmitting value by radio communication over Bluetooth 5.0 or LoRaWAN (version 1.0.3), an LPWAN technology
(lower power wide area network) to enable long transmission ranges and long battery life. The transmission of the measured valve position values can be carried out in a customer-
specific IIoT infrastructure while performing advanced analytics at edge and alarm threshold triggering. SENSA.iO devices fulfil safety-related requirements of the relevant international standards and regulations for hazardous areas Zone 0/1/2. This device enables accurate valve position measurement for numerous different applications (e.g pipeline, wellhead,). How does it work?
A state-of-the-art IMU (Inertial Measurement Unit) sensing element composed of accelerometer and Gyroscope is mounted at the end of the process connection, an electronic sensor board process the data, electronic mainboard wake-up at a preset sending interval or interrupt function trigger a wake-up to transmit the measured value to the IIoT platform via a LoRaWAN gateway. The device goes back to deep sleep mode until the next wake-up. An embedded secure element enables end-to-end security with full asymmetric encryption and authentication. In addition, the device status and values can also be queried locally via a mobile device using Bluetooth 5 radio communication and dedicated mobile application available on Android and IOs store free-of-charge. The LoRaWAN network operating frequency depends on the operating region. Device have to be ordered with the right frequency plan to comply with the local regulation. 613-00001 Page 7 of 53 LoRaWAN Valve position Sensors User Manual | English 2.2 Product specifications Antenna Bluetooth 5 LoRaWAN 1.0.3 Inertial Measurement Unit 0-100%
3 degree Measuring Principle Measuring ranges Accuracy Embedded Software Sensor fusion algorism 0.5 (0.05% of FS) max Long term stability IP 65/67 in accordance with EN60529 Ingress Protection Stainless Steel 316L Wetted Part Aluminum powder coated Housing option Stainless Steel 316L Reinforced anti-static polymer ESG protected and UV stabilized Android 7.0 or IOS 12 or greater Class Range Baud rate range1 Transmission Adaptative Data rate Spreading factor (SF) / modulation 2 Interference immunity Mode Update rate (Default & adjustable) Frequency plans RF power3 A Up to 10km From 0.3 kbps to 50kbps Downlink/Uplink Yes Refer to section 5.1 Very high OTAA 100 trames/day 800 and 900 bands Max. 14dBm ERP 1.05 kg 1.6 kg 1 The speed with which the data is transmitted. Dependent upon the bandwidth used and the spreading factor. 2 Spreading factors (e.g. graded between 7 ... 12) are automatically assigned according to the ambient conditions between the instrument and the gateway. A higher SF increases the sending time and improves the communication range, though the energy consumption of the instrument rises. 3 Amount of energy transmitted to the antenna for communication. In Europe, the maximum transmission power for the uplink is limited to 25 mW (14 dBm). NOTE Duty cycle is the fraction of time in which an end device can occupy a channel. In Europe there is a duty cycle depending on the selected channel of 0.1 % or 1 % per day. 613-00001 Page 8 of 53 LoRaWAN Valve position Sensors User Manual | English Dimensions 613-00001 Page 9 of 53 LoRaWAN Valve position Sensors User Manual | English 3 Installation of the sensor NOTE Prior any installation please carefully read the 'Safety information' in Section 1. The SENSAIO Sensor includes the following parts:
1 Valve position device 1 Battery SAFT M20 EX SV 1 Quick Start Guide 1 Allen screw M5 1 Set mounting bracket NOTE The quick start guide provides a step-by-step description of how to set the device. This can be found in the box delivered with the device. 613-00001 Page 10 of 53 LoRaWAN Valve position Sensors User Manual | English Installation Mount the bracket on the handwheel of the valve (fig.1), (fig.2), Fig. 1. Horizontal mounting Fig. 2. Vertical mounting During installation, ensure no obstructions surrounding the antenna radiation patterns. We recommend enough clearance surrounding the device. Position the gateway so that the transmission power of the device is used optimally. For this, the following recommendations should be observed:
Depending on the application, a gateway for indoor or outdoor use should be selected Between the instrument antenna and the gateway, there should be as few barriers as possible (e.g. walls and hills) The radiation characteristics of the antenna must be taken into account when positioning the gateway. If the measuring instruments are located on one level, vertical mounting of the LoRa antenna on the gateway is recommended. 613-00001 Page 11 of 53 LoRaWAN Valve position Sensors User Manual | English The location should ideally be in the middle of the area to be covered. Ensure that the gateway is mounted at a sufficient height and is not covered by anything in the immediate vicinity. NOTE Signal coverage can impact the life of the battery. Make a test survey prior installing the device 3.1 Replacing the battery NOTE Only use SAFT M20 EX SV 3 V battery only (Part# 142187103) with this device. NOTE Only carry out battery replacement procedure in a dry environment NOTE The device can only be powered by the SAFT M20 EX SV battery. The battery can be buy to any SAFT authorized reseller only. https://www.saftbatteries.com/about-us/who-saft/saft-
worldwide CAUTION There is a risk of explosion if the battery is replaced by an incorrect type. The battery must be replaced by qualified personnel only. Procedure 1. Loosen the allen screw on the side of the nut rings with M5 Allen key provided in the box 613-00001 Page 12 of 53 LoRaWAN Valve position Sensors User Manual | English 2. Unscrew the nut ring 3. Remove the antenna cap carefully without dropping the electronic cartridge. 4. Insert the battery inside the electronic cartridge 613-00001 Page 13 of 53 LoRaWAN Valve position Sensors User Manual | English 5. Ensure the sealing gasket is there and not damage 6. Fully tighten the nut ring NOTE Make sure nut ring is completely screw without gap otherwise device will not be power on. The device switches automatically and advertise below for 30s before going to LoRaWAN mode. 7. Screw back the allen screw on the side of the nut ring 8. When battery has been replaced and device is power-on, using Sensalink Mobile, go to status/battery and click on Replace. Please refer to section 4.1 Sensalink Mobile. 613-00001 Page 14 of 53 LoRaWAN Valve position Sensors User Manual | English WARNING Danger for electronic components through electrostatic discharge (ESD) Improper handling of electrical components can destroy or damage them. When the battery compartment is open, e.g. when changing the battery, sufficient ESD protection must be ensured Battery replacement must be performed by trained personnel only Battery has to be replaced only when gas atmosphere is not present. We recommend to use portable gas detector when performing this action. 3.2 Sealing procedure NOTE Sealing gasket should be replaced if any damaged is observed and free of moisture with genuine gasket only. Please contact manufacturer or authorized reseller for order. 613-00001 Page 15 of 53 LoRaWAN Valve position Sensors User Manual | English 3.3 Operate the device ON/OFF mode When device is delivered it is POWER OFF. A 5mm or 1/4-inch clearance will appear between the nut ring and the process connection as illustrate below. See below illustration. To POWER ON the device, simply fully screw the nut ring until there is no more clearance between the nut ring and the process. 5mm or -inch clearance gap NOTE Device will automatically start advertising in BLE mode during 30s after POWER ON NOTE Its mandatory to POWER OFF the device during storage, or transportation. If device if POWER ON it will automatically try to connect to a LoRaWAN gateway and drag battery down unnecessarily. BLE Advertising mode This mode is only active 30s after POWER ON the device. Double tap the antenna cap with your hand firmly as shown in the illustration to wake up the device in BLE advertising mode. The device will advertise for 30s prior switching to LoRaWAN mode. 613-00001 Page 16 of 53 LoRaWAN Valve position Sensors User Manual | English BLE Beacon mode To active the beacon mode, Beacon mode is always-on mode. Device will keep advertising (1 data per second) and data can be collected using Bluetooth Gateway. This mode is used for data extraction on site or any application requiring live data pulling. Default sampling rate is set to 1 data sample per second. Refer to section 4.1 Sensalink Mobile to active Beacon Mode. NOTE Be aware that beacon mode will drag battery down quickly. (Approximately 90 Days) BLE Beacon and advertising mode are taking into account in the battery life calculation. LoRaWAN mode LoRaWAN mode is the main operating mode with full functionality of the LoRa communication. The LoRaWAN mode is activated automatically when the 30s Bluetooth advertising mode has stopped. LoRaWAN parameters can be modified either using SENSALINK Mobile application or via LoRaWAN downlink. NOTE Device will automatically switch to LoRaWAN mode after 30s BLE advertising mode end. NOTE No data will be send via LoRaWAN mode when BLE Beacon mode or advertising mode is active. 3.4 Battery life The battery life is displayed as a percentage value vue LoRaWAN transmitted or locally by Bluetooth using SENSALINK mobile application. The calculation of the approximate value is based on an internal algorithm measuring each processing time with compensated in temperature to -10Deg, 10DegC, 30DegC and 50DegC. Since the battery life is influenced by many factors, this value is only an approximation. At value below 25% a battery change is recommended. If the battery is completely discharged, no more value is transmitted via the radio interface. Here below an estimated battery life calculation for Sensa.io Valve position device:
Tests conditions SensaIO Sensor Product storage before use: 1 year maximum Measurements have been done on firmware version 1.1 at 0C in May 2021 VALVE POSITION Tests conditions SensaIO Sensor Product storage before use: 1 year maximum Measurements have been done on firmware version 1.1 at 25C in May 2021 VALVE POSITION LoRa TX periodicity 288 LoRa TX per day (every 5) 144 LoRa TX per day (every 10) 96 LoRa TX per day (every 15) 72 LoRa TX per day (every 20) 48 LoRa TX per day (every 30) 32 LoRa TX per day (every 45) 24 LoRa TX per day (every 60) 16 LoRa TX per day (every 90) 12 LoRa TX per day (every 120) LoRa TX periodicity 288 LoRa TX per day (every 5) 144 LoRa TX per day (every 10) 96 LoRa TX per day (every 15) 72 LoRa TX per day (every 20) 48 LoRa TX per day (every 30) 32 LoRa TX per day (every 45) 24 LoRa TX per day (every 60) 16 LoRa TX per day (every 90) 12 LoRa TX per day (every 120) SensaIO lifetime in SF7 8 years and 262 days 9 years and 311 days 10 years and 109 days 10 years and 197 days 10 years and 288 days 10 years and 351 days 11 years and 19 days 11 years and 52 days 11 years and 69 days SensaIO lifetime in SF7 6 years and 352 days 7 years and 245 days 7 years and 343 days 8 years and 29 days 8 years and 83 days 8 years and 119 days 8 years and 138 days 8 years and 157 days 8 years and 167 days SensaIO lifetime in SF12 1 year and 147 days 2 years and 181 days 3 years and 136 days 4 years and 33 days 5 years and 72 days 6 years and 125 days 7 years and 46 days 8 years and 48 days 8 years and 273 days SensaIO lifetime in SF12 1 year and 127 days 2 years and 120 days 3 years and 27 days 3 years and 240 days 4 years and 190 days 5 years and 131 days 5 years and 332 days 6 years and 214 days 6 years and 359 days 613-00001 Disclaimer Due to the internal chemistry of the battery, the autonomy results beyond 7 years should be considered as highly approximate. Disclaimer Due to the internal chemistry of the battery, the autonomy results beyond 7 years should be considered as highly approximate. Page 17 of 53 LoRaWAN Valve position Sensors User Manual | English 3.5 Installation of Valve position Sensor WARNING Ensure the suitability of the valve position measuring instrument and its media resistance within the application through proper choice of materials. Non-observance can result in serious injury and/or damage to property and the environment. CAUTION Damage to the instrument In order to prevent any damage to the instrument, follow below recommendation:
The device must not be subjected to any mechanical loading Make sure the threaded connections are clean and undamaged The device should be installed in such a way that process-related electrostatic charges can be excluded. Ensure the antenna cap is not damaged To avoid electrostatic charge build-up, it must not be rubbed or cleaned with solvents or anti-static cloth. When cleaning the device, make sure that the cleaning agent used does not corrode the housing surface and the gaskets. 613-00001 Page 18 of 53 LoRaWAN Valve position Sensors User Manual | English 3.6 Grounding NOTE Functional grounding terminal This symbol identifies the terminal which is intended for connection to ground to mitigate electromagnetic interference (EMI). Device should be grounded or earthed in accordance with national and local electrical codes. It is necessary to ensure conductivity (Resistance less than 0.2M) between the device and equipment. Grounding impedance equal or less of 5 is recommended. In order to ensure grounding through the process connection while maintaining the seal can be done in several ways. If continuity between the ground terminal and the ground electrode cannot be ensured, use the following cables and a round crimp terminal for M4/M3 grounding terminal with insulation sleeve as per Figure below. NOTE While using Teflon tape properly tighten and measuring the resistance afterwards Insulated Cables for industrial equipment such as;
o 600V polyvinyl chloride insulated wires AWG 14 to 13 (2 to 2.6 mm2) o In each case, it is recommended to ensure that the connection is made by measuring the ground resistance. 613-00001 Page 19 of 53 LoRaWAN Valve position Sensors User Manual | English 3.7 Serial Number The Device EUI and the Device Address are unique numbers to the piece of equipment it is attached to. This cannot be changed and will remain with the product for its lifetime. Software copyright Certain computer programs contained in this product [or device] were developed by EDGE TECHNOLOGIES SAS. Copyright EDGE TECHNOLOGIES SAS. 2022 All Rights Reserved EDGE TECHNOLOGIES SAS grants the legal user of this product (or device) the right to use Sensa.ios firmware solely within the scope of the legitimate operation of the product (or device). No other right is granted under this license. In particular and without prejudice to the generality of the foregoing, Sensa.ios firmware may not be used, sold, licensed, transferred, copied or reproduced in whole or in part or in any manner or form other than as expressly granted here without the prior written consent of EDGE TECHNOLOGIES SAS. 613-00001 Page 20 of 53 LoRaWAN Valve position Sensors User Manual | English 4 App and Device 4.1 Sensalink Mobile Sensa.io device has no display. Though, we are providing free-of-charge a mobile application named Sensalink that will help you to visualize data and configure the device. Sensalink Mobile is available on both App Store and Google Play. NOTE Only user with granted access from your organization administrator can connect to the device using Sensalink Mobile. Please ask your manager to grant you an access that consists of an email and a password. Please use the following QR code to download the last version of Sensalink Mobile. NOTE Only user with granted access and right can connect to the device using Sensalink Mobile. Please ask the administrator of your organization ID to get an access. User creation and user right can be managed using Sensalink Web. Please refer to section 4.2 Sensalink Web. NOTE The version used for Bluetooth 5.0 in that case, it is the users responsibility to have a version of OS and hardware compatible with Bluetooth 5.0. 613-00001 Page 21 of 53 LoRaWAN Valve position Sensors User Manual | English Sensalink Mobile App Tree Before to start:
Make sure the last version of the application is downloaded from the App Store or Google Play of your phone. Turn on Bluetooth and the location features. Launch the SENSALINK Mobile app. NOTE Sensalink is only compatible with Android 7.0 or IOS 12 or greater. NOTE Internet connectivity is mandatory for the first connection of Sensalink with the device in order to activate the warranty. 613-00001 Page 22 of 53 LoRaWAN Valve position Sensors User Manual | English Log-in and first steps:
Enter your Login-Email and password (if you have no login and password, contact the administrator of your organization ID). Click Login Click on Forget your password to reset your password Click on Offline Mode if you have no internet connectivity on your smartphone and want to access your device settings. Please refer to section Off line mode for further information. NOTE The device is activated once you connected to it from the Sensalink application. Ensure you have accepted Bluetooth Pairing request to do it. Off-Line mode:
Offline mode has been developed in order to allow specific user and sensalink application to access the device settings without needs of internet. Please note user must have the right from Sensalink organization admin. Go to status/device and click Swap Offline , then click Apply Click home to display the list of devices in Offline mode. Click Swap Online on device menu, to put back device to Online Mode. NOTE Internet connection is mandatory on the smartphone to swap online/offline. NOTE Please refer to section 4.2 Sensalink Web User right to grant acces on Sensalink Mobile Home menu:
613-00001 Page 23 of 53 LoRaWAN Valve position Sensors User Manual | English If you click on the expanded menu icon in the upper right corner , you open Settings where you can change language or units of measurement . This menu is still available after connection to the device. To log out, just click on the same menu and choose Logout . Connect the device:
After you configure your settings in the application, click side to return to home menu. A list of devices will be refresh automatically. It may take few second before you can find your device on the list. If your device is not shown in the list, ensure the device is power on. Please refer to section 3.3 Operate the device. Check BLE and location (GPS) on your smartphone if active or your smartphone fits with the compatibility. Click on the device name listed to connect. Confirm the Bluetooth Pairing request and Current Location request from the pop-up. When connected to the device, measure page will display live data. If you cannot access the device, it may due to :
The device is too far Your mobile phone is not compatible Your mobile phone is not connected to Internet The device is damaged The battery is too low Someone is already connected to the device Device is in sleep mode. Double tap to wake it up. 613-00001 Page 24 of 53 LoRaWAN Valve position Sensors User Manual | English Measure menu Measure tab is the device interface menu displaying live device data. From here, you have an access to the main information about your device: Value , Process Var and Graph . by on clicking Change your device name and add a photo the Information tab . Click on the existing device name to change it
(). To change your device photo, click on the photo pictogram of the Device Update menu(). NOTE Device information and unit settings will be available on Sensalink web hence if you change, information will be recovered. Status menu Status menu gives you access to the Signal, Shock and Device Temperature data for quality purpose. Battery, and Device are expanded menus, click on it to get access to settings as described below. To check out estimated battery life, go to Battery If you need to replace the battery, go to Battery and click Replace in order to reset the battery life calculation. Battery life calculation is based on in-house algorithm. Page 25 of 53 613-00001 LoRaWAN Valve position Sensors User Manual | English NOTE When replacing the battery, strictly follow the safety rules. Consult the section 3.1 Replacing the battery. Device Device menu contains the next information:
Serial number Date of manufacture Last calibration Firmware version To calibrate your device or to do the Device Firmware Update, click on Device and follow the instructions in the Device section below. NOTE Device Firmware Update and device Calibration are only available for authorized person. Please contact your Sensalink Organization Admin. NOTE Valve position device do not have alarm menu. The device will automatically wake-up when valve is moving then will send LoRaWAN information. When device is asleep LoRaWAN wake will happens very 24hrs. If you are granted person to access the calibration and firmware update, follow the next steps to calibrate your device:
Click Calibrate your device button to access the calibration tab Take the device in your hand. Calibrate the Accelerometer according to the animated guide keeping the device in your hand. If the Calibration indicator is green, you can go to the next stage of calibration (5) Calibrate the Magnetometer 6 keeping your device in your hand and following the animated instruction. Do till the device indicator becomes green same as with Accelerometer. 613-00001 Page 26 of 53 LoRaWAN Valve position Sensors User Manual | English Calibrate the Gyroscope 7 using the targeting valve. To do this, follow the instructions of the next stage of calibration till all the circles will be ticked (8). Click Apply 9 to save your changes If you recalibrate your device, you will see the Calibration Reset pop-up window. Click Next 10 to continue and follow the aforementioned instructions 613-00001 Page 27 of 53 LoRaWAN Valve position Sensors User Manual | English If you are granted person to access the firmware update:
Click on the DFU button Confirm Bluetooth Pairing request Wait till the end of update NOTE Please note that alarm periodicity will impact the battery life. Such parameter is taking into account in the battery life calculation and we invite you to refer to battery menu ensure battery life consumption is acceptable for your application. NOTE Internet connectivity is mandatory for DFU. 613-00001 Page 28 of 53 LoRaWAN Valve position Sensors User Manual | English Network Network menu contains data/settings about your LoRaWAN network. You can modify settings by enabling or disabling the options:
Click the Parameters icon Modify the options Scroll down to save and click Apply Settings LoRaWAN Specific Glossary for better LoRaWAN settings understanding:
DevEUI (Extended Unique Identifier) is a 64-bit unique identification key assigned to an end device by the manufacturer. This value is linked to the hardware and it cannot be modified. ADR (Adaptive Data Rate) this is the optimization feature of the LoRaWAN allowing to use an optimize data rate. AppEUI is the unique ID of the Application server. This is the destination of the messages sent by the nodes. This can be change on Network settings. ACK (Automatically Acknowledged) this is the mode that allows to consider a message to be successfully delivered immediately after it is sent. It will consume more battery. TX Retries these are attempts of the device to connect to an AP but with too weak signal. TX Data Rate represents rate at which data packets being transmitted 613-00001 Page 29 of 53 LoRaWAN Valve position Sensors User Manual | English 4.2 Sensalink Web Sensalink Web is an online platform to manage access to user management, device activation and document management. Sensalink Web Tree Login Go to the https://sensalink.cloud Enter your email and password you have created You can download Sensalink Mobile by scanning the QR code to interact directly with the device. 613-00001 Page 30 of 53 LoRaWAN Valve position Sensors User Manual | English Users After successful log-in the first page you will see is user menu, user rights menu and devices. From here, you can manage your users, edit information about your profile and information about other users, affiliated to you. You have also access to Language settings, Your own profile Settings and Logout button from every page of the platform. You may consider creating new Roles prior adding new users. To edit your own profile, click on your username on upper left corner To add a new user, click on Create a new user To edit an existing user, click on edit icon on the user table To switch languages, click on the Languages menu on the upper right corner. To logout, click on Logout button on lower left corner. 613-00001 Page 31 of 53 LoRaWAN Valve position Sensors User Manual | English After clicking on your name in the right menu, you can modify information about yourself:
If you add a new user, ensure you have created an attributable role to them in the menu Roles (see the next chapter). The same window you will see while updating information about the existing user. Choose the role in the drop down list . Roles From here, you can manage role with rights of your different admin, with the ability to edit and create new ones easily. 613-00001 Page 32 of 53 LoRaWAN Valve position Sensors User Manual | English To enable or disable role editing, click on (). To create a new role, click on create new role (). To change information about a role, go to the role list and click on the Edit
() button of role you want change information about. Devices From here, you can see and manage all your sensors and find their information, Name, Type, Conformity, Calibration. To filter sensor types, click on the different types (). To select/deselect all or a single sensor, click on (). 613-00001 Page 33 of 53 LoRaWAN Valve position Sensors User Manual | English To view sensor details, click on (). To export details, click on (). To get of all the selected sensors, the APPKEYS click on (), the Conformity click on
() and the Calibration certificate click on (). To have the details of the selected sensor, click on (), on this page you can also get the APPKEY by clicking on (). To get the payload and change location click on (). To see the Conformity, click on () and the Calibration certificate, click on (). 613-00001 Page 34 of 53 LoRaWAN Valve position Sensors User Manual | English 5 LoRawan Payload NOTE The SENSA.iO device uses the class A version of the LoRaWAN communication, following the v1.0.3 specification. All missing information here is assumed to follow the reference document: https://lora-alliance.org/wp-content/uploads/2020/11/lorawan1.0.3.pdf 5.1 LoRaWAN Regional parameters The reference document used is available here : https://lora-alliance.org/wp-
content/uploads/2021/05/RP002-1.0.3-FINAL-1.pdf The SENSA.iO device follows all the regulations described in the above reference. The SENSA.iO device is compliant with the regional parameters for the following regions in the table below, with the following DataRate set adaptations. The LoRaWAN regions not addressed in this table cannot be used by the SENSA.iO device because they are out of the antenna capability range. Region EU863-870 US902-928 AU915-928 AS923 KR920-923 IN865-867 RU864-870 Available DataRate
[SF12/125kHz;SF7/125kHz]
[SF10/125kHz;SF8/500kHz]
[SF12/125kHz;SF8/500kHz]
[SF12/125kHz;SF7/125kHz]
[SF12/125kHz;SF7/125kHz]
[SF12/125kHz;SF7/125kHz]
[SF12/125kHz;SF7/125kHz]
613-00001 Page 35 of 53 LoRaWAN Valve position Sensors User Manual | English 5.2 Data formatting NOTE For LoRaWAN regional limitations reasons, the uplink payload size might be reduced to 11 bytes. This could happen for US915 in DR0 (SF10). For the valve position sensor data uplink, this would imply the temperature would be missing. Data Uplink Bit 7 6 5 4 3 2 1 0 8-bit Sensor Type (see table below for sensor type encoding) 3-
bitHwVer sion(1-bit LSB) 7-bit Battery Level (6-bit LSB) 3-bit FwMajorVersion 9-bit DeviceTemp (6-bit LSB) 13-bit DeviceShock (5-bit LSB) 2-bit Msg Type
(seebelow) 3-bit FwMinorVersion 7-bit Battery Level (1-bit MSB) 3-bit HwVersion (2-
bitMSB) 9-bit DeviceTemp (3-bit MSB) 13-bit DeviceShock (8-bit MSB) Reserved Swap Failure Flag Sensor warning Flag Accele ometer Failure Flag Memory Failure Flag Sensor Failure Flag LoRaWAN Failure Flag Secure Failure Flag Specific for valve position sensor 32-bit Valve position value (Pa, float LSB) 32-bit Temperature value (K, float LSB) Specific for temperature sensors (TCK and RTD) 32-bit Temperature value (Pa, float LSB) Specific for motion sensor 8-bit Valve opening percentage ([0:100] %, unsigned integer) 8-bit Valve opening time (s, unsigned integer) Byte 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 7 8 9 10 7 8 613-00001 Page 36 of 53 LoRaWAN Valve position Sensors User Manual | English In byte 0, the Sensor Type is encoded on 8 bits, and can be one of the following:
0x00: Test (internal) 0x01: Valve position sensor 0x02: Temperature RTD sensor 0x03: Motion sensor 0x04: Temperature TCK sensor 0x05: Gas sensor (ongoing) 0x06: Vibration sensor (ongoing) 0x07: Loadcell sensor (ongoing) 0x08: Differential valve position sensor (ongoing) In byte 1, the Msg Type is encoded on 2 bits, and can be one of the following:
0x0: Test 0x1: Periodic 0x2: Alert 0x3: Log Log message type description They are sent in response of a log request downlink (see below). It is useful to recover the latest data sent, in case of temporary network failure for instance. It returns the longest LoRaWAN payload possible with the last uplinks contents. The structure is the same as the Data uplink. Only the pattern of the sensor dedicated field differs from regular data uplinks :
It is a list of elements formed as follow:
[(timestamp1, data1), (timestamp2, data2), (timestampn, datan)]
Each timestamp is on 4 bytes (LSB), corresponding to the data sampling time (GPS time, see GPS, UTC, and TAIClocks for details). The data; is the regular sensor dedicated data content (2 floats for valve position sensor, 1 float for temperature sensor,...). Configuration Uplink This payload is triggered by an internal change of the LoRaWAN or alarm settings, or in response of the LoRaWAN or Alarm configuration downlink (see the downlink section below) NOTE Configuration uplinks are only valid for devices with FW version 1.1.2 and above. 613-00001 Page 37 of 53 LoRaWAN Valve position Sensors User Manual | English Alarm configuration uplink (deprecated) NOTE Alarm configuration format has changed in firmware version 1.2.0+. We strongly recommend to upgrade the devices with the latest firmware, and use the extended alarm configuration (see below) formatting. Refer to the alarm dedicated documentation for the data details. Byte 0 1 0xFF 0x05 2 Status Name/Value Description Configuration message token Alarm Configuration message token 0 = OK, when triggering configuration downlink was accepted, >0 otherwise 3-6 High Alarm Threshold Value 32-bit float LSB 7-10 High Alarm Hysteresis Value 32-bit float LSB 11-14 Low Alarm Threshold Value 32-bit float LSB 15-18 Low Alarm Hysteresis Value 32-bit float LSB 19 Active alarms 0x00=No active alarm, 0x01=High alarm active, 0x02=Low alarm active,0x03:High and low alarm active And only for the valve position sensor, a second alarm (for the temperature) 20-23 High Alarm Threshold Value 32-bit float LSB 24-27 High Alarm Hysteresis Value 32-bit float LSB 28-31 Low Alarm Threshold Value 32-bit float LSB 32-35 Low Alarm Hysteresis Value 32-bit float LSB 36 Active alarms 0x00=No active alarm, 0x01=High alarm active, 0x02=Low alarm active,0x03: High and low alarm active Extended alarm configuration uplink From firmware version 1.2.0 and above. Refer to the alarm dedicated documentation for the data details. Byte Name/Value Description 0 1 2 0xFF 0x07 Status 3-6 High Alarm ThresholdValue Configuration message token Extended alarm Configuration message token 0 = OK, when triggering configuration downlink was accepted, >0 otherwise 32-bit float LSB Byte Name/Value Description 7-10 11-14 15-18 19 High Alarm Hystersis Value Low Alarm ThresholdValue 32-bit float LSB 32-bit float LSB Low Alarm Hystersis Value 32-bit float LSB Parameters Bit0: High alarm threshold active Bit1: Low alarm threshold active Bit2: Variation alarm active Bit3: Reserved Bit7-4: Wakeup period (see below for authorized values) 613-00001 Page 38 of 53 LoRaWAN Valve position Sensors User Manual | English 20 21 22 23-26 27-30 31-34 35-38 39 Variation alarm value 8-bit integer [1:255]
Reserved Reserved And only for the valve position sensor, a second alarm (for the temperature) High Alarm ThresholdValue 32-bit float LSB High Alarm Hystersis Value 32-bit float LSB Low Alarm ThresholdValue 32-bit float LSB Low Alarm Hystersis Value 32-bit float LSB Parameters Bit0: High alarm threshold active Bit1: Low alarm threshold active Bit2: Variation alarm active Bit3: Reserved Bit7-4: Wakeup period (see below for authorized values) 8-bit integer [1:255]
40 41 42 Variation alarm value Reserved Reserved Allowed wakeup period encodings:
0x0: 15 seconds 0x1: 30 seconds 0x2: 1 minute, default 0x3: 2 minutes 0x4: 5 minutes 0x5: 15 minutes 0x6: 30 minutes 0x7: 1 hour 0x8: 3 hours 0x9: 6 hours 0xA: 12 hours 613-00001 Page 39 of 53 LoRaWAN Valve position Sensors User Manual | English LoRaWAN configuration uplink Below is the structure of the LoRaWAN configuration uplink Byte 0 1 2 3 4 5 6 7-10 11 12 13 Name/Value Description 0xFF 0x06 Status TxDatarate Reserved TxRetries AppPort TxPeriodicity IsTxConfirmed AdrEnable PublicNetworkEnable Configuration message token LoRaWAN configuration message token 0 = OK, when triggering configuration downlink was accepted, >0 otherwise 8-bit unsigned 8-bit unsigned 8-bit unsigned 8-bit unsigned LoRaWAN TX Period (32-bit unsigned LSB) 8-bit unsigned 8-bit unsigned 8-bit unsigned Downlink Downlinks are used to update the device configuration (alarms or LoRaWAN), or to request the data log. NOTE An dummy empty configuration downlink on the respective port (4, 5 or 7) will force the device to send its current alarm/LoRaWAN configuration. LoRaWAN configuration downlink This command updates the LoRaWAN configuration of the device. It must be sent on the AppPort 4 Byte Name/Value Type TxDatarate 8-bit unsigned Valid range Region dependent. See LoRaWAN specifications Default value 0 (DR0) Reserved TxRetries AppPort Name/Value TxPeriodicity IsTxConfirmed AdrEnable 0 1 2 3 Byte 4-7 8 9 10 613-00001 8-bit unsigned 8-bit unsigned
[0;5]
[1;254]
Type LoRaWAN TX Period
(32-bit unsigned LSB) 8-bit unsigned 8-bit unsigned Valid range
>= 60000 ms ( =1 minute)
[0;1]
[0;1]
[0;1]
0 (no retries) 2 Default value 900000 (15minutes) 0 (Unconfirmed) 1 (Adaptative DataRate Enabled) 1 (Public Network enabled) Page 40 of 53 PublicNetworkEnable 8-bit unsigned LoRaWAN Valve position Sensors User Manual | English Alarm configuration downlink This command updates the LoRaWAN configuration of the device. It must be sent on the AppPort 4 Byte Name/Value TxDatarate Type 8-bit unsigned Valid range Region dependent. See LoRaWAN specifications Default value 0 (DR0) Reserved TxRetries AppPort TxPeriodicity IsTxConfirmed AdrEnable 8-bit unsigned 8-bit unsigned LoRaWAN TX Period
(32-bit unsigned LSB) 8-bit unsigned 8-bit unsigned
[0;5]
[1;254]
>= 60000 ms ( =1 minute)
[0;1]
[0;1]
PublicNetworkEnabl e 8-bit unsigned
[0;1]
0 (no retries) 2 900000 (15minutes) 0 (Unconfirmed) 1 (Adaptative DataRate Enabled) 1 (Public Networkenabled) 0 1 2 3 4-7 8 9 10 Alarm configuration downlink (deprecated) This command updates the LoRaWAN configuration of the device. It must be sent on the AppPort 5 NOTE Alarm configuration format has changed in firmware version 1.2.0+. We strongly recommend to upgrade the devices with the latest firmware, and use the extended alarm configuration (see below) formatting. Byte 0-3 4-7 8-11 Name/Value Description High AlarmThreshold Value 32-bit float LSB High Alarm HystersisValue 32-bit float LSB Low Alarm ThresholdValue 32-bit float LSB 12-15 Low Alarm HystersisValue 32-bit float LSB Active alarms 16 0x00=No active alarm, 0x01=High alarm active, 0x02=Low alarm active, 0x03:High and low alarm active And only for the valve position sensor, a second alarm (for the temperature) 17-20 High AlarmThreshold Value 21-23 High Alarm HystersisValue Low Alarm ThresholdValue 24-27 28-31 Low Alarm HystersisValue Active alarms 32 613-00001 32-bit float LSB 32-bit float LSB 32-bit float LSB 32-bit float LSB 0x00=No active alarm, 0x01=High alarm active, 0x02=Low alarm active, 0x03:High and low alarm active Page 41 of 53 LoRaWAN Valve position Sensors User Manual | English Extended alarm configuration downlink From firmware version 1.2.0 and above. This command updates the alarm configuration of the device. It must be sent on the AppPort7. Refer to the alarm dedicated documentation for the data details. Byte 0-3 4-7 8-11 12-15 16 17 Byte 18 19 20-23 24-27 28-31 32-35 36 37 38 39 Name/Value High Alarm Threshold Value High Alarm Hystersis Value Low Alarm Threshold Value Low Alarm Hystersis Value Parameters Variation alarm value Description 32-bit float LSB 32-bit float LSB 32-bit float LSB 32-bit float LSB Bit0: High alarm threshold active Bit1: Low alarm threshold active Bit2: Variation alarm active Bit3: Reserved Bit7-4: Wakeup period (see below for authorized values) 8-bit integer [1:255]
Name/Value Description Reserved Reserved High Alarm Threshold Value High Alarm Hysteresis Value Low Alarm Threshold Value Low Alarm Hysteresis Value Parameters And only for the valve position sensor, a second alarm (for the temperature) 32-bit float LSB 32-bit float LSB 32-bit float LSB 32-bit float LSB Bit0: High alarm threshold active Bit1: Low alarm threshold active Bit2: Variation alarm active Bit3: Reserved Bit7-4: Wakeup period (see below for authorized values) 8-bit integer [1:255]
Variation alarm value Reserved Reserved Allowed wakeup period encodings:
0x0: 15 seconds 0x1: 30 seconds 0x2: 1 minute, default 0x3: 2 minutes 0x4: 5 minutes 0x5: 15 minutes 0x6: 30 minutes 0x7: 1 hour 0x8: 3 hours 0x9: 6 hours 0xA: 12 hours 613-00001 Page 42 of 53 LoRaWAN Valve position Sensors User Manual | English Log request downlink This command triggers the send of a data payload of type LOG. It must be sent on the AppPort 6 with the following payload:
Byte 0 1 2 3 4 5 6 Value 0x52 0x45 0x50 0x4C 0x41 0x59 0x00 Description
'R' ASCII char
'E' ASCII char
'P' ASCII char
'L' ASCII char
'A' ASCII char
'Y' ASCII char NULL terminating ASCII string NOTE Uplink decoders and Downlink encoders are available in JS in the following repository:
https://bitbucket.org/sightgate/sensaiodecoder/src/main/
613-00001 Page 43 of 53 LoRaWAN Valve position Sensors User Manual | English 6 Spare parts A B C D
. Y T Q
. O N G N W A R D I
. O N T R A P E M A N T R A P
. O N M E T I 8 7 6 5 4 3 1 1 1 1 1 1 1 1 1 1 1 1 1 1 r o 7 0 0 0 0
0 1 6
W L 3 3 0 0 0
0 1 6
D H r o 1 0 0 0 0
5 1 4
W L 8 0 0 0 0
5 1 4
D H t u N r D H g n R i o W i L g n R t u N 6 1 1 0 0
0 1 6 4 0 0 0 0
5 3 4 M m 3 x 2 4 M K F g n i r
O 2 2 0 0 0
0 1 6 1 0 0 0 0
8 3 4 4 L x 8
, 0 x 5 M b u G r 2 0 0 0 0
7 1 6 2 0 0 0 0
1 9 9 g n i l p u o C b u S g n i s u o H 5 1 0 0 0
0 1 6 1 0 0 0 0
0 2 4 t e k s a G g n i l a e S 1 0 0 0 0
7 1 6 1 0 0 0 0
1 9 9 e g d i r t r a C b u S 3 0 0 0 0
7 1 6 3 0 0 0 0
1 9 9 l e v a V b u S s s e c o r P g n n o i t i s o P i 8 7 0 0 0
0 1 6 2 0 0 0 0
6 4 4 7 7 0 0 0
0 1 6 1 0 0 0 0
6 4 4 3 7 0 0 0
0 1 6 4 1 0 0 0
5 1 4 3 7 0 0 0
0 1 6
5 1 4 r o 0 3 0 0 0
5 1 4 7 4 0 0 0
5 1 4 r o 1 3 0 0 0 e s o H l e e t S l s s e n a t S i m m 0
. 1 e r i l W e b a C i i m u n m u A l l a v O m m 0
. 1 s s e r P l e t a P g n k r a M i i o a s n e S
t s u D e t a P y t e a S f l l e t a P y t e a S f r o s a G y t e a S f r o g n n M i i 3 7 0 0 0
0 1 6 8 2 0 0 0
5 1 4 e t a P r l o s n e S 3 7 0 0 0
0 1 6 2 3 0 0 0
5 1 4 r o f l y n O l
e t a P C C F r
) a e a S U 3 7 0 0 0
0 1 6 9 2 0 0 0
5 1 4
) l a n o i t p O l
e t a P g a T
E L T I T l c o z a H e t a P l i g n n o i t i s o P e v l a V O A S N E S I 1 0 0 0 0
9 9 9 9 0 0 0 0
7 1 6
O N G N W A R D I
O N T R A P D E T O N S S E L N U S E C N A R E L O T
H S I N I F E C A F R U S L A R E N E G S R E T E M I L L I M N I E R A S N O I S N E M D I
D E I F I C E P S E S I W R E H T O S S E L N U I S E I R E S M U D E M 8 6 7 2 O S I
R A E N I L 5 0
R A L U G N A D N A Y T R E P O R P R U O S I I G N W A R D S I H T D E W O L L A T O N S I T I
. L A I T N E D I F N O C S I I D R H T O T W O H S O T R O Y P O C O T N E T T I R W R U O T U O H T I W
, S E I T R A P
. N O I S S I M R E P 1 F O 1 T E E H S 3 A I G N W A R D T O N O D E L A C S S T N
E L A C S B
V E R D N A S R R U B L L A E V O M E R S E G D E P R A H S K A E R B
K R A M E R I G N N O I T I S O P _ E V L A V _ O A S N E S _ S S A I
I L A R E T A M
) g K
S S A M
E M A N E L I F X
I G N W A R D D E L L O R T N O C 1 2 3 4 5 6 7 8 9 0 1 1 1 2 1 3 1 4 1 1 4 5 6 4 1 3 1 7 9 1 1 0 1 2 2 0 2
1 0
2 1
E T A D 2 1 8 2 2 1 3 t n e m e E l y t e a S f
I G N W A R D D E L L O R T N O C N U 4 3 2 1 A B C D E F 613-00001 Page 44 of 53 LoRaWAN Valve position Sensors User Manual | English 7 Certifications and approvals The purpose of this document is to identify the key information relating to explosion protection that is to be included in the user instructions. This include requirements of EN /
IEC 60079-0:2017 Clause 30.1, EN / IEC 60079-11:2011 Clause 13, and EU directive 2014/34/EU Annex II 1.0.6. 7.1 Equipment marking The following information is on the certificates, and hence is not required if copies of the certificates form part of the user instructions. This product is composed of 3 or 4 marking plates attached to the device using stainless steel wire tag. Marking plates are made of stainless steel 304 with dimension 80mm (L) by 15mm
(W) and laser engraved police Gotham size 2.1mm (5.6pt). Manufacturing Plate:
SENSA.VALV-XXX-X-X-X-X-X-X-X SNS-FRYYMMDDXXXX 1C:A8:52:XX:XX:XX:XX:XX
- Device manufacturer and address
- Device model number (Refer to Section 9 Ordering Number)
- Device serial number
- DevEUI a 64-bit globally-unique Extended Unique Identifier (EUI-64)
- QR code LoRaWAN Device Identification QR Code Full (Refer Standard QR tagging scheme https://lora-alliance.org/resource_hub/tr005-lorawan-device-identification-qr-
codes/
NOTE Serial number indicates country of manufacturing (e.g FR ) and date of manufacturing. 613-00001 Page 45 of 53 LoRaWAN Valve position Sensors User Manual | English Safety Plates (European / UK / International) :
Gas and Dust ATEX plate:
Mining ATEX plate:
- CE mark (EC conformity) + Notify Body 2776
- UK mark (UKCA conformity) + Approved Body 2503
- Approvals ATEX/IECEX marking for hazardous area with temperature class
- Waste Instructions
- Consulting operating instructions
- Warning indication II 1 GD Ex ia IIC T4 Ga Ex ia IIIB T200 135C Da
-40C Tamb +59C I M 1 Ex ia I Ma Or
-40C Tamb +59C If the user instructions are common to both Group 1 and Group II products both marking sets shall be included. IEC 60079-0:2017 ; EN IEC 60079-0:2018 IEC 60079-11:2011 ; EN 60079-11:2012 Do not open when an explosive gas atmosphere is present Use only Saft battery M20 EX SV. 613-00001 Page 46 of 53 LoRaWAN Valve position Sensors User Manual | English Safety / FCC / IC Plates (USA / CANADA) :
- MET logo and file number
- Conformity with country-specific directives
- Waste Instructions
- Consulting operating instructions
- Contains IC for Canada
- Contains FCC for USA NOTE Devices described in this manual should be recycled. They may not be disposed in the municipal waste disposal services according to the Directive 2012/19/EC on waste electronic and electrical equipment (WEEE). Devices can be returned to the supplier within the EC, or to a locally approved disposal service for eco-friendly recycling. Observe the specific regulations valid in your country. Sensor Plate:
- Sensor type
- Sensor range
- Process type
- Calibration certificate
- TEB (Total Band Error)
- Miscellaneous 613-00001 Page 47 of 53 LoRaWAN Valve position Sensors User Manual | English 7.2 Installation, maintenance and repair The instruction shall contain statements reflecting the following:
Instructions on how to safety replace the battery. The device shall be installed in accordance with IEC 60079-14 or EN 60079-14 by a suitably qualified person. The installation of the Sensaio shall ensure that no part of the main body of the enclosure (not including external probes) can exceed the temperature range of -40C Tenc +59C The device shall be installed onto earthed metalwork in a location that would give the non-metallic parts of the enclosure a low risk of the build-up of electrostatic charge, and so as to avoid an ignition hazard due to the impact or friction on the aluminium nut ring. There are no user-replaceable or repairable parts other than the battery by qualified personnel only, and that faults must be rectified by return to the manufacturer. The installation shall ensure that there is a low risk of mechanical danger to the device. 7.3 Specific Conditions of Use i. ii. The installation shall minimize the risk from electrostatic discharge. The user shall minimize an ignition hazard from impact or friction on the aluminum nut ring. iii. The installation shall ensure a low risk of mechanical danger. 7.4 Availability of instructions The operating instructions will be translated into one of the EC community languages as and when requested by the end user country requirements. All sales literature and literature describing the equipment will not contradict the instructions with regard to the safety aspects. Paper copies of the instructions shall be provided with every product placed on the market. 613-00001 Page 48 of 53 LoRaWAN Valve position Sensors User Manual | English 7.5 Regulatory Compliance Statements NOTE Please confirm that an installation region fulfills an applicable standard. Observe the test certification, provisions and laws applicable in your country during connection, assembly and operation. These include, for example:
National Electrical Code (NEC NFPA 70) USA Canadian Electrical Code (CEC) Canada Further provisions for hazardous area application are for example:
EN 60079-0 EN IEC 60079-0 EN 60079-11 CE Conformity:
The applicable directives and applied standards with their revision levels can be found in the EU declaration of conformity on http://www.sensalink.cloud/
The Authorized Representative for this product is:
EGDE TECHNOLOGIES 735 Rue du Lieutenant Parayre 13290 AIX-EN-PROVENCE France This product complies with the following directives:
RE Directive (EU Countries) Electro Magnetic Compatibility (EMC) 2014/30/EU Radio Equipment Directive (RED) 2014/53/EU Low Voltage Directive (DBT) 2014/35/UE ATEX Directive (2014/34/EU) Directive of the European Parliament and of the Council on the harmonization of the laws of the member States relating to equipment and protective systems intended for use in potentially explosive atmospheres. PE directive 2014/68/EU Directive of the European Parliament and of the Council on the harmonization of the laws of the member States relating to Valve position equipment Directive. Reduction of Hazardous Substances (RoHS) (2011/65/EU) Safety: IEC 61010-1:2010 + A1:2016 (Indoor/Outdoor use), Meets Pollution Degree 3 Pollution degree describes the degree to which a solid, liquid, or gas which deteriorates dielectric strength or surface resistivity is adhering. 3 to be found in industrial environment or construction sites. 613-00001 Page 49 of 53 LoRaWAN Valve position Sensors User Manual | English FCC compliances (United States) FCC ID : 2A2T5-SENSA915A FCC Approval 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. Co-located:
This transmitter must not be co-located or operated in conjunction with any other antenna or transmitter. FCC WARNING Changes or modifications not expressly approved by the party responsible for compliance could void the users authority to operate the equipment. NOTE This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be requiered to correct the interference a his own expense. RF Exposure Compliance:
This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment and meets the FCC radio frequency (RF) Exposure Guidelines. This equipment should be installed and operated keeping the radiator at least 20 cm or more away from persons body. ISED compliances (Canada) IC : 29177-SENSA915A This device contains licence-exempt transmitter(s)/receiver(s) that comply with Innovation, Science and Economic Development Canadas licence-exempt RSS(s). Operation is subject to the following two conditions:
(1) This device may not cause interference.
(2) This device must accept any interference, including interference that may cause undesired operation of the device. French :
Lmetteur/rcepteur exempt de licence contenu dans le prsent appareil est conforme aux CNR dInnovation, Sciences et Dveloppement conomique Canada applicables aux appareils radio exempts de licence. Lexploitation est autorise aux deux conditions suivantes :
(1) Lappareil ne doit pas produire de brouillage ;
613-00001 Page 50 of 53 LoRaWAN Valve position Sensors User Manual | English
(2) Lappareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible den compromettre le fonctionnement. RF Exposure Compliance:
This equipment complies with ISED radiation exposure limits set forth for an uncontrolled environment and meets the RSS-102 of the ISED radio frequency (RF) Exposure rules. This equipment should be installed and operated keeping the radiator at least 20 cm or more away from persons body. French :
Cet quipement est conforme aux limites dexposition aux rayonnements nonces pour un environnement non contrl et respects les rgles dexposition aux frquences radiolectriques (RF) CNR-102 de lISDE. Cet quipement doit tre install et utilis en gardant une distance de 20 cm ou plus entre le radiateur et le corps humain. NOTE CAN ICES-003(A) / NMB-003(A) 613-00001 Page 51 of 53 LoRaWAN Valve position Sensors User Manual | English 8 Technical Battery data 3 V lithium manganese dioxide D-size spiral cell Electrical characteristics
(Typical values relative to cells stored up to one year at + 30C max) 12.4 Ah Nominal capacity (at 150 mA, + 20C, 2.0 V cut-off) 3.2 V Open circuit voltage (at + 20C) 3.0 V Nominal voltage (under 1 mA at +
20C) Nominal energy (at 150 mA, + 20C, 2.0 V cut-off) Pulse capacity Recommended maximum continuous discharge Operating conditions Operating temperature range Storage temperatures (Recommended) Physical characteristics Diameter (max)
- 40C / + 72C (- 40F / + 161F)
+ 30C (+ 86F) max 35 Wh up to 8.0 A 3.5 A 34.2 mm (1.35 in) Height for the tabbed version (max) 61.5 mm (2.42 in) Typical weight 115 g Li metal content NOTE approx.3.5g Prior any installation please carefully read the 'Safety information' in Section 1 or for further safety information, scan this code:
613-00001 Page 52 of 53 LoRaWAN Valve position Sensors User Manual | English 9 Ordering number Ordering Details SENSA. XXXX-
XXX-
X-
X-
X-
X-
X-
X-
X Model Valve Position sensor VALV Type Inertial Measurment IMU Measurement Range Max range 0-100%
Process connection M10 Female Mounting option Mounting support Housing Material Aluminium Powder Coated Stainless Steel 316L
(Mandatory for Mining) Safety Standard ATEX/IECEX/UKCA
(Gas/Dust HAZLOC NEC USA /
CSA Canada ATEX/IECEX/UKCA
(Mining) INMETRO Frequency Plan EU 868 US 915 AU915 AS923 AS923-2 AS923-3 KR920 IN865 RU864 AS923-4 Options Null 613-00001 1 1 1 L H 1 2 3 4 1 2 5 7 8 9 10 11 12 13 N Page 53 of 53
1 2 3 4 | User Manual PRES | Users Manual | 2.26 MiB | June 01 2023 |
SENSAIO SENSA.iO Intelligent Connected Intelligent Connected Wireless Sensors Wireless Sensors For Hazardous environments For Hazardous Environments PRESSURE SENSOR INSTRUCTION MANUAL
(613-00002) SENSA.PRES Disclaimer SENSA.iO is a brand of 2022 EDGE TECHNOLOGIES SAS. All Rights Reserved. The trademarks, logos, and service marks (Marks) included herein are the property of EDGE TECHNOLOGIES SAS or of their respective owners. Use of any Mark is not permitted without the prior written consent of EDGE TECHNOLOGIES SAS or of the respective owner. The information in this document is subject to change without notice. EDGE TECHNOLOGIES SAS and/or its representatives cannot be held responsible for any errors or inaccuracies within this document. L A I T N E D I F N O C LoRaWAN Pressure Sensors User Manual | English Revisions Page No. Context All All Section 3 & 5 All Section 5 First Release Second Update Payload decoding, Grounding Third Update LoRaWAN Payload update Version DRAFT Rev.1.1 Rev.1.2 Rev.2 Rev.2.1 Date 01/02/2021 21/07/2021 16/09/2021 11/09/2022 01/03/2023 Further information Additional documentation on SENSA.iO LoRaWAN Pressure is available for download free of charge at https://sensa.io/wireless-pressure-transmiter/ or alternatively, scan this code:
Manufacturer EDGE TECHNOLOGIES SAS 735 Rue du Lieutenant Parayre 13290 AIX-EN-PROVENCE France Tel : +33 (0)4 84 39 08 82 Customer service center https://sensaio.zohodesk.com support@sensa.io 613-00002 Page 1 of 54 LoRaWAN Pressure Sensors User Manual | English Contents 1 Safety information .............................................................................................................. 3 Intended use .............................................................................................................. 4 1.1 1.2 1.3 1.4 Handling of lithium-ion batteries ............................................................................... 4 Transportation ........................................................................................................... 5 Packaging ................................................................................................................... 5 1.5 Warranty provisions ................................................................................................... 5 1.6 1.7 1.8 Storage ....................................................................................................................... 5 Environmental conditions .......................................................................................... 6 Radio Waves ............................................................................................................... 6 2 General Product information ............................................................................................. 7 Product description .................................................................................................... 7 2.1 2.2 Product specifications ................................................................................................ 8 3 Installation of the sensor .................................................................................................. 10 Replacing the battery ............................................................................................... 12 3.1 3.2 3.3 3.4 3.5 3.6 3.7 Sealing procedure .................................................................................................... 15 Operate the device .................................................................................................. 16 Battery life ................................................................................................................ 17 Installation of Pressure Sensor ................................................................................ 18 Grounding ................................................................................................................ 19 Serial Number .......................................................................................................... 20 4 App and Device ................................................................................................................. 21 Sensalink Mobile ...................................................................................................... 21 4.1 4.2 Sensalink Web .......................................................................................................... 30 5 LoRawan Payload .............................................................................................................. 35 LoRaWAN Regional parameters ............................................................................... 35 5.1 5.2 Data formatting ........................................................................................................ 36 6 7 Spare parts ........................................................................................................................ 44 Certifications and approvals ............................................................................................. 45 Equipment marking .................................................................................................. 45 7.1 7.2 7.3 7.4 7.5 Installation, maintenance and repair ....................................................................... 48 Specific Conditions of Use ........................................................................................ 48 Availability of instructions ....................................................................................... 48 Regulatory Compliance Statements ........................................................................ 49 Technical Battery data ...................................................................................................... 52 8 9 Ordering number .............................................................................................................. 53 613-00002 Page 2 of 54 LoRaWAN Pressure Sensors User Manual | English 1 Safety information These instructions are an important part of the product and must be retained for future reference. Installation, commissioning, and maintenance of the product may only be performed by trained specialist personnel who have been authorized by the plant operator accordingly. The specialist personnel must have read and understood the manual and must comply with its instructions. For additional information or if specific problems occur that are not discussed in these instructions, contact the manufacturer. The content of these instructions is neither part of nor an amendment to any previous or existing agreement, promise or legal relationship. Information and symbols on the product must be observed. These may not be removed and must be fully legible at all times. The operating company must strictly observe the applicable national regulations relating to the installation, function testing, repair and maintenance of electrical products. Modification of the product is strictly prohibited. Any repair or modification to this device by customer will cause a malfunction of explosion protect function and hazardous situation and the protection provided by the device may be compromised. If you need to repair or modification, please contact the manufacturer or nearest authorized reseller. Use of personal protective equipment, or other plant standard safety procedures. must be followed. The signal words in these instructions are structured as follows:
DANGER The signal word "DANGER" indicates an imminent danger. Failure to observe this information will result in death or severe injury. WARNING The signal word "WARNING" indicates an imminent danger. Failure to observe this information may result in death or severe injury. CAUTION The signal word "CAUTION" indicates an imminent danger. Failure to observe this information may result in minor or moderate injury. NOTE The signal word "NOTE" indicates useful or important information about the product. The signal word "NOTE" is not a signal word indicating a danger to personnel. The signal word "NOTE" can also refer to material damage. 613-00002 Page 3 of 54 LoRaWAN Pressure Sensors User Manual | English 1.1 Intended use Referring to the User Instructions, name-plate and Technical Information brochures, check that the product is suitable for the intended use/application. To measure the pressure of fluid or gases substances. The device has been designed for use exclusively within the values stated on the sensor plate and within the technical limit values specified on the data sheets. The maximum and minimum operating pressure limits must not be exceeded or undershot in normal and default conditions. The permissible ambient temperature must not be exceeded The housings degree of protection must be observed during operation Prior any installations you must take in consideration:
Flammable materials, substances hazardous to health, extremes of temperature. Explosion risk areas, lack of oxygen (e.g. tanks, pits), dangerous gases, extremes of temperature, hot surfaces, fire hazard (e.g. during welding), excessive noise, moving machinery Ensure the sensors have the correct gaskets regard the temperature and that those were designed accordingly the maximal pressure. Make sure the pressure pipe were shutdown before any attempt to remove the sensors. Allow time for temperature to normalize after isolation to avoid the danger of burns and consider whether protective clothing is required. Before starting work ensure that you have suitable tools and / or consumables available. Use only genuine parts from manufacturer or authorized reseller. All work must be carried out or be supervised by a suitably competent person. Installation and operating personnel should be trained in the correct use of the product according to the Installation and Maintenance Instructions. In normal use it is not advised to touch the sensor in the case the pipe is hot or under pressure. If used at the maximum permitted operating conditions the surface temperature of some products may reach hot temperatures. This product has to be dumped regarding the local legislation. The product should be recycled in line with local legislation. Special attention should be paid to the battery, see section 1.2. 1.2 Handling of lithium-ion batteries Lithium batteries do not pose a danger if handled properly. Please note the following points for the proper handling of lithium batteries:
Do not recharge, short circuit, crush, disassemble, heat above +100C / +212F, incinerate, or expose contents to water. Keep batteries in non-conductive (i.e. plastic) trays. Fire, explosion and burn hazard Do not obstruct venting mechanism 613-00002 Page 4 of 54 LoRaWAN Pressure Sensors User Manual | English 1.3 Transportation Transport of lithium batteries is subject to regulations. i.e.:
ADR (European Ground Transportation) IATA (International Air Transport Association) ICAO (International Civil Aviation Organization) and the Regulations concerning the International Carriage of Dangerous Goods by Rail (Intergovernmental Organization for International Carriage by Rail). It is the responsibility of the shipper to ensure that these regulations are followed. 1.4 Packaging Observe the following instructions:
Check the packaging and the delivered items for visible damage. Report any claims for damages immediately to the shipping company. Verify the specification indicated in the marking plate complies with the specifications written on the order sheet. To prevent damage while in transit, leave the device in the original shipping container until it reaches the installation site. WARNING Using damaged or incomplete device may cause risk of explosion in hazardous areas Do not use damaged or incomplete devices 1.5 Warranty provisions Using the device in a manner that does not fall within the scope of its intended use, disregarding this manual, using underqualified personnel, or making unauthorized alterations releases the manufacturer from liability for any resulting damage, the protection provided by the device may be compromised. This renders the manufacturer's warranty null and void. Please read the Quick Start Guide before use. 1.6 Storage When an extended storage period is expected, observed the following instructions:
A location that is not exposed to rain or water A location subject to a minimum of vibration or impact Store the device at +25C (+77F) , dry, clean and well-ventilated area. When storing the device, repack it carefully in original packaging NOTE When storing or shipping, its recommended to unscrew the nut ring to put the instrument in OFF Mode to conserve the battery. For maximum battery life, the storage temperature should not exceed +25C (+77F) 613-00002 Page 5 of 54 LoRaWAN Pressure Sensors User Manual | English 1.7 Environmental conditions Ambient conditions Ambient Temperature Permissible ambient temperature for operation Storage Temperature (recommended) Protection rating Vibration Endurance @ 25C (+77F) Shock Relative humidity IEC 61010-1 Compliance 1.8 Radio Waves For use indoors and outdoors In hazardous areas, observe the maximum permissible ambient temperature corresponding to the temperature class
-40 + 59C (-40 +138F)
+ 25 C (+77F) IP65/67 in accordance with EN60529 20 g, 52000 Hz, X/Y/Z
>10 million FS cycles 50g/11ms 100g/6ms 0 to 100% (Use in wet locations) Meets Pollution Degree 3 This product is designated as a certification of construction type as a wireless facility from 800MHz, 900 MHz and 2.4GHz bands low-power data communication systems of the Radio Act. Refer to Regulatory parameter Statements for detail. NOTE Available frequency bands vary depending on the country. Due to the designated certification of construction type, users may be subject to legal punishment in case of disassembling or modifying this product. Preventing interference with other wireless stations Industrial, scientific, and medical equipment, as well as local wireless stations (license required) and specific low power wireless stations (license not required) for identifying mobile objects used in factory production lines, use the same frequency band as this product. Check that local wireless stations and specific low-power wireless stations are not being used in the vicinity before using this product. If this product causes radio interference in a local wireless station, stop the emission of radio waves immediately. For details on how to prevent radio interference, contact our service office. 613-00002 Page 6 of 54 LoRaWAN Pressure Sensors User Manual | English 2 General Product information 2.1 Product description SENSA.iO is a wide range of Industrial intelligent connected devices that converts any conventional assets into an intelligent connected machine located in hazardous et remote locations. Fully autonomous, this device is battery-operated transmitting value by radio communication over Bluetooth 5.0 or LoRaWAN (version 1.0.3), an LPWAN technology
(lower power wide area network) to enable long transmission ranges and long battery life. The transmission of the measured pressure values can be carried out in a customer-specific IIoT infrastructure while performing advanced analytics at edge and alarm threshold triggering. SENSA.iO devices fulfil safety-related requirements of the relevant international standards and regulations for hazardous areas Zone 0/1/2. This device enables accurate pressure measurement for numerous different applications (e.g pipe, wellhead,). How does it work?
A state-of-the-art piezo-resistive sensing element is mounted at the end of the process connection, an electronic sensor board process the data, electronic mainboard wake-up at a preset sending interval or interrupt function trigger a wake-up to transmit the measured value to the IIoT platform via a LoRaWAN gateway. The device goes back to deep sleep mode until the next wake-up. An embedded secure element enables end-to-end security with full asymmetric encryption and authentication. In addition, the device status and values can also be queried locally via a mobile device using Bluetooth 5 radio communication and dedicated mobile application available on Android and IOs store free-of-charge. The LoRaWAN network operating frequency depends on the operating region. Device have to be ordered with the right frequency plan to comply with the local regulation. 613-00002 Page 7 of 54 LoRaWAN Pressure Sensors User Manual | English 2.2 Product specifications Measuring Principle Measuring ranges Accuracy Piezoresistive technology
-11 up to 1000 bar / -14.5 . 14.5 up to 14,500 psi Up to 400 bar / 5,800 psi Up to 600 bar / 8,700 psi Up to 1,000 bar / 14,500 psi Absolute or Relative 0.15%FS 0.25%FS 0.35%FS Type Long term stability Max 0.2% FS / Year Ingress Protection Wetted Part Housing option 1.1 kg 1.75 kg IP 65/67 in accordance with EN60529 Stainless Steel 316L or Inconel 625 Aluminum powder coated Stainless Steel 316L Reinforced anti-static polymer ESG protected and UV stabilized Android 7.0 or IOS 12 or greater Class Range Baud rate range1 Transmission Adaptative Data rate Spreading factor (SF) / modulation 2 Interference immunity Mode Update rate (Default & adjustable) Frequency plans RF power3 A Up to 10km From 0.3 kbps to 50kbps Downlink/Uplink Yes Refer to section 5.1 Very high OTAA 100 trames/day 800 and 900 bands Max. 14dBm ERP Antenna Bluetooth 5 LoRaWAN 1.0.3 1 The speed with which the data is transmitted. Dependent upon the bandwidth used and the spreading factor. 2 Spreading factors (e.g. graded between 7 ... 12) are automatically assigned according to the ambient conditions between the instrument and the gateway. A higher SF increases the sending time and improves the communication range, though the energy consumption of the instrument rises. 3 Amount of energy transmitted to the antenna for communication. In Europe, the maximum transmission power for the uplink is limited to 25 mW (14 dBm). NOTE Duty cycle is the fraction of time in which an end device can occupy a channel. In Europe there is a duty cycle depending on the selected channel of 0.1 % or 1 % per day. 613-00002 Page 8 of 54 LoRaWAN Pressure Sensors User Manual | English Dimensions 127mm (50inches) M5 Allen Screw m m 9 5 Tool Kit Flat Spanner Lock Spanner Max Torque 59 mm 613-00002 Page 9 of 54 LoRaWAN Pressure Sensors User Manual | English 3 Installation of the sensor NOTE Prior any installation please carefully read the 'Safety information' in Section 1. The SENSAIO Sensor includes the following parts:
1 Pressure device 1 Battery SAFT M20 EX SV 1 Quick Start Guide 1 Allen screw M5 Nut Ring Antenna Cap Electronic Catridge Process Electronic Sensor Allen Key Quick Start Guide Battery NOTE The quick start guide provides a step-by-step description of how to set the device. This can be found in the box delivered with the device. NOTE Prior installation, refer the general technical regulations for pressure gauges (e.g EN 837-2 Selection and installation recommendations for pressure gauges) 613-00002 Page 10 of 54 LoRaWAN Pressure Sensors User Manual | English Installation Place the taps in the upper part of the pipe (fig.1). Mount the transmitter above the elevation of the process tap. Connect the device. fig.1 During installation, ensure no obstructions surrounding the antenna radiation patterns. We recommend enough clearance surrounding the device. Position the gateway so that the transmission power of the device is used optimally. For this, the following recommendations should be observed:
Depending on the application, a gateway for indoor or outdoor use should be selected Between the instrument antenna and the gateway, there should be as few barriers as possible (e.g. walls and hills) 613-00002 Page 11 of 54 LoRaWAN Pressure Sensors User Manual | English The radiation characteristics of the antenna must be taken into account when positioning the gateway. If the measuring instruments are located on one level, vertical mounting of the LoRa antenna on the gateway is recommended. The location should ideally be in the middle of the area to be covered. Ensure that the gateway is mounted at a sufficient height and is not covered by anything in the immediate vicinity. NOTE Signal coverage can impact the life of the battery. Make a test survey prior installing the device 3.1 Replacing the battery NOTE Only use SAFT M20 EX SV 3 V battery only (Part# 142187103) with this device. NOTE Only carry out battery replacement procedure in a dry environment NOTE The device can only be powered by the SAFT M20 EX SV battery. The battery can be buy to any SAFT authorized reseller only. https://www.saftbatteries.com/about-us/who-saft/saft-
worldwide CAUTION There is a risk of explosion if the battery is replaced by an incorrect type. The battery must be replaced by qualified personnel only. Procedure 1. Loosen the allen screw on the side of the nut rings with M5 Allen key provided in the box 613-00002 Page 12 of 54 LoRaWAN Pressure Sensors User Manual | English 2. Unscrew the nut ring 3. Remove the antenna cap carefully without dropping the electronic cartridge. 4. Insert the battery inside the electronic cartridge 613-00002 Page 13 of 54 LoRaWAN Pressure Sensors User Manual | English 5. Ensure the sealing gasket is there and not damage 6. Fully tighten the nut ring NOTE Make sure nut ring is completely screw without gap otherwise device will not be power on. The device switches automatically and advertise below for 30s before going to LoRaWAN mode. 7. Screw back the allen screw on the side of the nut ring 8. When battery has been replaced and device is power-on, using Sensalink Mobile, go to status/battery and click on Replace. Please refer to section 4.1 Sensalink Mobile. 613-00002 Page 14 of 54 LoRaWAN Pressure Sensors User Manual | English WARNING Danger for electronic components through electrostatic discharge (ESD) Improper handling of electrical components can destroy or damage them. When the battery compartment is open, e.g. when changing the battery, sufficient ESD protection must be ensured Battery replacement must be performed by trained personnel only Battery has to be replaced only when gas atmosphere is not present. We recommend to use portable gas detector when performing this action. 3.2 Sealing procedure NOTE Sealing gasket should be replaced if any damaged is observed and free of moisture with genuine gasket only. Please contact manufacturer or authorized reseller for order. 613-00002 Page 15 of 54 LoRaWAN Pressure Sensors User Manual | English 3.3 Operate the device ON/OFF mode When device is delivered it is POWER OFF. A 5mm or 1/4-inch clearance will appear between the nut ring and the process connection as illustrate below. See below illustration. To POWER ON the device, simply fully screw the nut ring until there is no more clearance between the nut ring and the process. 5mm or -inch clearance gap NOTE Device will automatically start advertising in BLE mode during 30s after POWER ON. NOTE Its mandatory to POWER OFF the device during storage, or transportation. If device if POWER ON it will automatically try to connect to a LoRaWAN gateway and drag battery down unnecessarily. BLE Advertising mode This mode is only active 30s after POWER ON the device. Double tap the antenna cap with your hand firmly as shown in the illustration to wake up the device in BLE advertising mode. The device will advertise for 30s prior switching to LoRaWAN mode. 613-00002 Page 16 of 54 LoRaWAN Pressure Sensors User Manual | English BLE Beacon mode To active the beacon mode, Beacon mode is always-on mode. Device will keep advertising (1 data per second) and data can be collected using Bluetooth Gateway. This mode is used for data extraction on site or any application requiring live data pulling. Default sampling rate is set to 1 data sample per second. Refer to section 4.1 Sensalink Mobile to active Beacon Mode. NOTE Be aware that beacon mode will drag battery down quickly. (Approximately 90 Days) BLE Beacon and advertising mode are taking into account in the battery life calculation. LoRaWAN mode LoRaWAN mode is the main operating mode with full functionality of the LoRa communication. The LoRaWAN mode is activated automatically when the 30s Bluetooth advertising mode has stopped. LoRaWAN parameters can be modified either using SENSALINK Mobile application or via LoRaWAN downlink. NOTE Device will automatically switch to LoRaWAN mode after 30s BLE advertising mode end. NOTE No data will be send via LoRaWAN mode when BLE Beacon mode or advertising mode is active. 3.4 Battery life The battery life is displayed as a percentage value vue LoRaWAN transmitted or locally by Bluetooth using SENSALINK mobile application. The calculation of the approximate value is based on an internal algorithm measuring each processing time with compensated in temperature to -10Deg, 10DegC, 30DegC and 50DegC. Since the battery life is influenced by many factors, this value is only an approximation. At value below 25% a battery change is recommended. If the battery is completely discharged, no more value is transmitted via the radio interface. Here below an estimated battery life calculation for Sensa.io Pressure device:
Tests conditions SensaIO Sensor Product storage before use: 1 year maximum Measurements have been done on firmware version 1.1 at 0C in May 2021 PRESSURE Tests conditions SensaIO Sensor Product storage before use: 1 year maximum Measurements have been done on firmware version 1.1 at 25C in May 2021 PRESSURE 613-00002 LoRa TX periodicity 288 LoRa TX per day (every 5) 144 LoRa TX per day (every 10) 96 LoRa TX per day (every 15) 72 LoRa TX per day (every 20) 48 LoRa TX per day (every 30) 32 LoRa TX per day (every 45) 24 LoRa TX per day (every 60) 16 LoRa TX per day (every 90) 12 LoRa TX per day (every 120) LoRa TX periodicity 288 LoRa TX per day (every 5) 144 LoRa TX per day (every 10) 96 LoRa TX per day (every 15) 72 LoRa TX per day (every 20) 48 LoRa TX per day (every 30) 32 LoRa TX per day (every 45) 24 LoRa TX per day (every 60) 16 LoRa TX per day (every 90) 12 LoRa TX per day (every 120) SensaIO lifetime in SF7 8 years and 262 days 9 years and 311 days 10 years and 109 days 10 years and 197 days 10 years and 288 days 10 years and 351 days 11 years and 19 days 11 years and 52 days 11 years and 69 days SensaIO lifetime in SF7 6 years and 352 days 7 years and 245 days 7 years and 343 days 8 years and 29 days 8 years and 83 days 8 years and 119 days 8 years and 138 days 8 years and 157 days 8 years and 167 days SensaIO lifetime in SF12 1 year and 147 days 2 years and 181 days 3 years and 136 days 4 years and 33 days 5 years and 72 days 6 years and 125 days 7 years and 46 days 8 years and 48 days 8 years and 273 days SensaIO lifetime in SF12 1 year and 127 days 2 years and 120 days 3 years and 27 days 3 years and 240 days 4 years and 190 days 5 years and 131 days 5 years and 332 days 6 years and 214 days 6 years and 359 days Disclaimer Due to the internal chemistry of the battery, the autonomy results beyond 7 years should be considered as highly approximate. Disclaimer Due to the internal chemistry of the battery, the autonomy results beyond 7 years should be considered as highly approximate. Page 17 of 54 LoRaWAN Pressure Sensors User Manual | English 3.5 Installation of Pressure Sensor There are several steps to follow for the installation of the device. These steps depend on the type of device which are installed. You can place this sensor as you like. It is only necessary that the tip is in contact with the fluid. Here are introduced the most used tips for the Pressure Sensor:
WARNING Ensure the suitability of the pressure measuring instrument and its media resistance within the application through proper choice of materials. Non-observance can result in serious injury and/or damage to property and the environment. CAUTION Damage to the instrument In order to prevent any damage to the instrument, follow below recommendation:
The device must not be subjected to any mechanical loading Make sure the threaded connections are clean and undamaged The device should be installed in such a way that process-related electrostatic charges can be excluded. Ensure the antenna cap is not damaged To avoid electrostatic charge build-up, it must not be rubbed or cleaned with solvents or anti-static cloth. When cleaning the device, make sure that the cleaning agent used does not corrode the housing surface and the gaskets. 613-00002 Page 18 of 54 LoRaWAN Pressure Sensors User Manual | English 3.6 Grounding NOTE Functional grounding terminal This symbol identifies the terminal which is intended for connection to ground to mitigate electromagnetic interference (EMI). Device should be grounded or earthed in accordance with national and local electrical codes. It is necessary to ensure conductivity (Resistance less than 0.2M) between the device and equipment. Grounding impedance equal or less of 5 is recommended. In order to ensure grounding through the process connection while maintaining the seal can be done in several ways. If continuity between the ground terminal and the ground electrode cannot be ensured, use the following cables and a round crimp terminal for M4/M3 grounding terminal with insulation sleeve as per Figure below. NOTE While using Teflon tape properly tighten and measuring the resistance afterwards Insulated Cables for industrial equipment such as;
o 600V polyvinyl chloride insulated wires AWG 14 to 13 (2 to 2.6 mm2) o In each case, it is recommended to ensure that the connection is made by measuring the ground resistance. 613-00002 Page 19 of 54 LoRaWAN Pressure Sensors User Manual | English 3.7 Serial Number The Device EUI and the Device Address are unique numbers to the piece of equipment it is attached to. This cannot be changed and will remain with the product for its lifetime. Software copyright Certain computer programs contained in this product [or device] were developed by EDGE TECHNOLOGIES SAS. Copyright EDGE TECHNOLOGIES SAS. 2022 All Rights Reserved EDGE TECHNOLOGIES SAS grants the legal user of this product (or device) the right to use Sensa.ios firmware solely within the scope of the legitimate operation of the product (or device). No other right is granted under this license. In particular and without prejudice to the generality of the foregoing, Sensa.ios firmware may not be used, sold, licensed, transferred, copied or reproduced in whole or in part or in any manner or form other than as expressly granted here without the prior written consent of EDGE TECHNOLOGIES SAS. 613-00002 Page 20 of 54 LoRaWAN Pressure Sensors User Manual | English 4 App and Device 4.1 Sensalink Mobile Sensa.io device has no display. Though, we are providing free-of-charge a mobile application named Sensalink that will help you to visualize data and configure the device. Sensalink Mobile is available on both App Store and Google Play. NOTE Only user with granted access from your organization administrator can connect to the device using Sensalink Mobile. Please ask your manager to grant you an access that consists of an email and a password. Please use the following QR code to download the last version of Sensalink Mobile. NOTE Only user with granted access and right can connect to the device using Sensalink Mobile. Please ask the administrator of your organization ID to get an access. User creation and user right can be managed using Sensalink Web. Please refer to section 4.2 Sensalink Web. NOTE The version used for Bluetooth 5.0 in that case, it is the users responsibility to have a version of OS and hardware compatible with Bluetooth 5.0. 613-00002 Page 21 of 54 LoRaWAN Pressure Sensors User Manual | English Sensalink Mobile App Tree Before to start:
Make sure the last version of the application is downloaded from the App Store or Google Play of your phone. Turn on Bluetooth and the location features. Launch the SENSALINK Mobile app. NOTE Sensalink is only compatible with Android 7.0 or IOS 12 or greater. NOTE Internet connectivity is mandatory for the first connection of Sensalink with the device in order to activate the warranty. 613-00002 Page 22 of 54 LoRaWAN Pressure Sensors User Manual | English Log-in and first steps:
Enter your Login-Email and password (if you have no login and password, contact the administrator of your organization ID). Click Login Click on Forget your password to reset your password Click on Offline Mode if you have no internet connectivity on your smartphone and want to access your device settings. Please refer to section Off line mode for further information. NOTE The device is activated once you connected to it from the Sensalink application. Ensure you have accepted Bluetooth Pairing request to do it. Off-Line mode:
Offline mode has been developed in order to allow specific user and sensalink application to access the device settings without needs of internet. Please note user must have the right from Sensalink organization admin. Go to status/device and click Swap Offline , then click Apply Click home to display the list of devices in Offline mode. Click Swap Online on device menu, to put back device to Online Mode. NOTE Internet connection is mandatory on the smartphone to swap online/offline. User must logout/Login NOTE Please refer to section 4.2 Sensalink Web User right to grant acces on Sensalink Mobile 613-00002 Page 23 of 54 LoRaWAN Pressure Sensors User Manual | English Home menu:
If you click on the expanded menu icon in the upper right corner , you open Settings where you can change language or units of measurement . This menu is still available after connection to the device. To log out, just click on the same menu and choose Logout . Connect the device:
After you configure your settings in the application, click side to return to home menu. A list of devices will be refresh automatically. It may take few second before you can find your device on the list. If your device is not shown in the list, ensure the device is power on. Please refer to section 3.3 Operate the device. Check BLE and location (GPS) on your smartphone if active or your smartphone fits with the compatibility. Click on the device name listed to connect. Confirm the Bluetooth Pairing request and Current Location request from the pop-up. When connected to the device, measure page will display live data. If you cannot access the device, it may due to :
The device is too far Your mobile phone is not compatible Your mobile phone is not connected to Internet The device is damaged The battery is too low Someone is already connected to the device Device is in sleep mode. Double tap to wake it up. 613-00002 Page 24 of 54 LoRaWAN Pressure Sensors User Manual | English Measure menu Measure tab is the device interface menu displaying live device data. From here, you have an access to the main information about your device: Value , Temperature value , Process Var and Graph . To access the Temperature Value graph, click on Temperature Value tab. The Value tabs are clickable. Change your device name and add a photo by clicking on the Information tab . Click on the existing device name to change it (). To change your device photo, click on the photo pictogram of the Device Update menu(). NOTE Device information and unit settings will be available on Sensalink web hence if you change, information will be recovered. Status menu Status menu gives you access to the Signal, Shock and Device Temperature data for quality purpose. Battery, Alarms and Device are expanded menus, click on it to get access to settings as described below. To check out estimated battery life, go to Battery If you need to replace the battery, go to Battery and click Replace in order to reset the battery life calculation. Battery life calculation is based on in-house algorithm. 613-00002 Page 25 of 54 LoRaWAN Pressure Sensors User Manual | English NOTE When replacing the battery, strictly follow the safety rules. Consult the section 3.1 Replacing the battery. To set your high and low threshold alarms, go to Alarms . You can enable both Pressure and Resistance Temperature Detector (RTD) alarms and modify the thresholds according to the instructions in the next section Alarms. To calibrate your device or to do the Device Firmware Update, click on Device and follow the instructions in the Device section below. NOTE Device Firmware Update and device Calibration are only available for authorized person. Please contact your Sensalink Organization Admin. Alarms Menu In the alarm menu, you need to toggle on the needed threshold (High or/and Low) or Variation and specify the required value of Threshold, Hysteresis or variation (%). To do this, ensure to consult the following instructions before the custom setting. Sensor threshold is the value when a temperature or pressure sensor reading exceeds or is below the settings. In this case, high threshold is the value when high alarm is enabling during the increase phase and low threshold is the value when low alarm is enabling during the decline phase. Hysteresis is the difference between the values when alarm is activated and deactivated within the high or low threshold. The value decreases till it gets high threshold (alarm enabling) and declines till it gets high threshold hysteresis (alarm disabling). Hysteresis is the difference between these two values that needed to be indicated in the Alarm settings. High alarm is enabled when value reaches the high threshold within the increase phase and disabled when it reaches high threshold hysteresis within the decline phase. Low alarm is enabled when value reaches the low threshold within the decrease phase and disabled when it reaches low threshold hysteresis within the increase phase. 613-00002 Page 26 of 54 LoRaWAN Pressure Sensors User Manual | English To set the High or Low alarm :
Toggle on the High or/and Low alarm settings . Specify the value of High alarm enabling in Threshold . Define the difference value () between High alarm enabling and High alarm disabling values in Hysteresis . Click Confirm to save the settings. High alarm is enabled when value reaches the high threshold within the increase phase and is disabled when it threshold hysteresis reaches high within the decline phase. is enabled when value Low alarm reaches the low threshold within the decrease phase and is disabled when it reaches low threshold hysteresis within the increase phase. To set the Variation alarm:
It compares at every wake-up the current sensor value against the latest value sent through a LoRaWAN uplink, and if it increased/decreased for more than the given % (range [1-255%]), force an alarm uplink of ALARM type. Select the alarm sampling rate (e.g 15 seconds12 hours) Activate toggle button . Define variation value in (%) . Click Confirm to save the settings. NOTE Please note that alarm periodicity will impact the battery life. Such parameter is taking into account in the battery life calculation and we invite you to refer to battery menu ensure battery life consumption is acceptable for your application. 613-00002 Page 27 of 54 LoRaWAN Pressure Sensors User Manual | English Device Device menu contains the next information :
Serial number Date of manufacture Last calibration Firmware version If you are granted person to access the calibration and firmware update, follow the next steps to calibrate your device:
Click Calibrate your device button to access the calibration tab Enter the Measurement value Click [+] symbol to add the next Measurement value Click Apply to save your changes If you recalibrate your device, you will see the Calibration Reset pop-up window. Click Next to continue and follow the aforementioned instructions If you are granted person to access the firmware update:
Click on the DFU button Confirm Bluetooth Pairing request Wait till the end of update NOTE Internet connectivity is mandatory for DFU. 613-00002 Page 28 of 54 LoRaWAN Pressure Sensors User Manual | English Network Network menu contains data/settings about your LoRaWAN network. You can modify settings by enabling or disabling the options:
Click the Parameters icon Modify the options Scroll down to save and click Apply Settings LoRaWAN Specific Glossary for better LoRaWAN settings understanding:
DevEUI (Extended Unique Identifier) is a 64-bit unique identification key assigned to an end device by the manufacturer. This value is linked to the hardware and it cannot be modified. ADR (Adaptive Data Rate) this is the optimization feature of the LoRaWAN allowing to use an optimize data rate. AppEUI is the unique ID of the Application server. This is the destination of the messages sent by the nodes. This can be change on Network settings. ACK (Automatically Acknowledged) this is the mode that allows to consider a message to be successfully delivered immediately after it is sent. It will consume more battery. TX Retries these are attempts of the device to connect to an AP but with too weak signal. TX Data Rate represents rate at which data packets being transmitted 613-00002 Page 29 of 54 LoRaWAN Pressure Sensors User Manual | English 4.2 Sensalink Web Sensalink Web is an online platform to manage access to user management, device activation and document management. Sensalink Web Tree Login Go to the https://sensalink.cloud Enter your email and password you have created You can download Sensalink Mobile by scanning the QR code to interact directly with the device. 613-00002 Page 30 of 54 LoRaWAN Pressure Sensors User Manual | English Users After successful log-in the first page you will see is user menu, user rights menu and devices. From here, you can manage your users, edit information about your profile and information about other users, affiliated to you. You have also access to Language settings, Your own profile Settings and Logout button from every page of the platform. You may consider creating new Roles prior adding new users. To edit your own profile, click on your username on upper left corner To add a new user, click on Create a new user To edit information about an existing user, click on edit icon on the user table To switch languages, click on the Languages menu on the upper right corner. To logout, click on Logout button on lower left corner. 613-00002 Page 31 of 54 LoRaWAN Pressure Sensors User Manual | English After clicking on your name in the right menu, you can modify information about yourself:
If you add a new user, ensure you have created an attributable role to them in the menu Roles (see the next chapter). The same window you will see while updating information about the existing user. Choose the role in the drop down list . Roles From here, you can manage role with rights of your different admin, with the ability to edit and create new ones easily. 613-00002 Page 32 of 54 LoRaWAN Pressure Sensors User Manual | English To enable or disable role editing, click on (). To create a new role, click on create new role (). To change information about a role, go to the role list and click on the Edit
() button of role you want change information about. Devices From here, you can see and manage all your sensors and find their information, Name, Type, Conformity, Calibration. To filter sensor types, click on the different types (). To select/deselect all or a single sensor, click on (). 613-00002 Page 33 of 54 LoRaWAN Pressure Sensors User Manual | English To view sensor details, click on (). To export details, click on (). To get of all the selected sensors, the APPKEYS click on (), the Conformity click on
() and the Calibration certificate click on (). To have the details of the selected sensor, click on (), on this page you can also get the APPKEY by clicking on (). To get the payload and change location click on (). To see the Conformity, click on () and the Calibration certificate, click on (). 613-00002 Page 34 of 54 LoRaWAN Pressure Sensors User Manual | English 5 LoRawan Payload NOTE The SENSA.iO device uses the class A version of the LoRaWAN communication, following the v1.0.3 specification. All missing information here is assumed to follow the reference document: https://lora-alliance.org/wp-content/uploads/2020/11/lorawan1.0.3.pdf 5.1 LoRaWAN Regional parameters The reference document used is available here : https://lora-alliance.org/wp-
content/uploads/2021/05/RP002-1.0.3-FINAL-1.pdf The SENSA.iO device follows all the regulations described in the above reference. The SENSA.iO device is compliant with the regional parameters for the following regions in the table below, with the following DataRate set adaptations. The LoRaWAN regions not addressed in this table cannot be used by the SENSA.iO device because they are out of the antenna capability range. Region EU863-870 US902-928 AU915-928 AS923 KR920-923 IN865-867 RU864-870 Available DataRate
[SF12/125kHz;SF7/125kHz]
[SF10/125kHz;SF8/500kHz]
[SF12/125kHz;SF8/500kHz]
[SF12/125kHz;SF7/125kHz]
[SF12/125kHz;SF7/125kHz]
[SF12/125kHz;SF7/125kHz]
[SF12/125kHz;SF7/125kHz]
613-00002 Page 35 of 54 LoRaWAN Pressure Sensors User Manual | English 5.2 Data formatting NOTE For LoRaWAN regional limitations reasons, the uplink payload size might be reduced to 11 bytes. This couldhappen for US915 in DR0 (SF10). For the pressure sensor data uplink, this would imply the temperature would be missing. Data Uplink Bit 7 6 5 4 3 2 1 0 8-bit Sensor Type (see table below for sensor type encoding) 3-
bitHwVer sion(1-bit LSB) 7-bit Battery Level (6-bit LSB) 3-bit FwMajorVersion 9-bit DeviceTemp (6-bit LSB) 2-bit Msg Type
(seebelow) 3-bit FwMinorVersion 7-bit Battery Level (1-bit MSB) 3-bit HwVersion
(2-bitMSB) 13-bit DeviceShock (5-bit LSB) 9-bit DeviceTemp (3-bit MSB) 13-bit DeviceShock (8-bit MSB) Reserved Swap Failure Flag Sensor warning Flag Accele ometer Failure Flag Memory Failure Flag Sensor Failure Flag LoRaWAN Failure Flag Secure Failure Flag 32-bit Pressure value (Pa, float LSB) 32-bit Temperature value (K, float LSB) Byte 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 613-00002 Page 36 of 54 LoRaWAN Pressure Sensors User Manual | English In byte 0, the Sensor Type is encoded on 8 bits, and can be one of the following:
0x00: Test (internal) 0x01: Pressure sensor 0x02: Temperature RTD sensor 0x03: Motion sensor 0x04: Temperature TCK sensor 0x05: Gas sensor (ongoing) 0x06: Vibration sensor (ongoing) 0x07: Loadcell sensor (ongoing) 0x08: Differential pressure sensor (ongoing) In byte 1, the Msg Type is encoded on 2 bits, and can be one of the following:
0x00: First 0x01: Periodic 0x02: Alert 0x03: Log Configuration Uplink This payload is triggered by an internal change of the LoRaWAN or alarm settings, or in response of the LoRaWAN or Alarm configuration downlink (see the downlink section below) NOTE Configuration uplinks are only valid for devices with FW version 1.1.2 and above. 613-00002 Page 37 of 54 LoRaWAN Pressure Sensors User Manual | English Alarm configuration uplink (deprecated) NOTE Alarm configuration format has changed in firmware version 1.2.0+. We strongly recommend to upgrade the devices with the latest firmware, and use the extended alarm configuration (see below) formatting. Refer to the alarm dedicated documentation for the data details. Byte 0 1 0xFF 0x05 2 Status Name/Value Description Configuration message token Alarm Configuration message token 0 = OK, when triggering configuration downlink was accepted, >0 otherwise 3-6 High Alarm Threshold Value 32-bit float LSB 7-10 High Alarm Hysteresis Value 32-bit float LSB 11-14 Low Alarm Threshold Value 32-bit float LSB 15-18 Low Alarm Hysteresis Value 32-bit float LSB 19 Active alarms 0x00=No active alarm, 0x01=High alarm active, 0x02=Low alarm active,0x03:High and low alarm active 20-23 High Alarm Threshold Value 32-bit float LSB 24-27 High Alarm Hysteresis Value 32-bit float LSB 28-31 Low Alarm Threshold Value 32-bit float LSB 32-35 Low Alarm Hysteresis Value 36 Active alarms 32-bit float LSB 0x00=No active alarm, 0x01=High alarm active, 0x02=Low alarm active,0x03: High and low alarm active Extended alarm configuration uplink From firmware version 1.2.0 and above. Refer to the alarm dedicated documentation for the data details. Byte Name/Value Description 0 1 2 3-6 7-10 11-14 15-18 19 0xFF 0x07 Status High Alarm ThresholdValue Configuration message token Extended alarm Configuration message token 0 = OK, when triggering configuration downlink was accepted, >0 otherwise 32-bit float LSB High Alarm Hystersis Value Low Alarm ThresholdValue 32-bit float LSB 32-bit float LSB Low Alarm Hystersis Value 32-bit float LSB Parameters Bit0: High alarm threshold active Bit1: Low alarm threshold active Bit2: Variation alarm active Bit3: Reserved Bit7-4: Wakeup period (see below for authorized values) 8-bit integer [1:255]
Page 38 of 54 20 21 Variation alarm value Reserved 613-00002 LoRaWAN Pressure Sensors User Manual | English 22 23-26 27-30 31-34 35-38 39 Reserved High Alarm ThresholdValue 32-bit float LSB High Alarm Hystersis Value 32-bit float LSB Low Alarm ThresholdValue 32-bit float LSB Low Alarm Hystersis Value 32-bit float LSB Parameters Bit0: High alarm threshold active Bit1: Low alarm threshold active Bit2: Variation alarm active Bit3: Reserved Bit7-4: Wakeup period (see below for authorized values) 8-bit integer [1:255]
40 41 42 Variation alarm value Reserved Reserved Allowed wakeup period encodings:
0x0: 15 seconds 0x1: 30 seconds 0x2: 1 minute, default 0x3: 2 minutes 0x4: 5 minutes 0x5: 15 minutes 0x6: 30 minutes 0x7: 1 hour 0x8: 3 hours 0x9: 6 hours 0xA: 12 hours 613-00002 Page 39 of 54 LoRaWAN Pressure Sensors User Manual | English LoRaWAN configuration uplink Below is the structure of the LoRaWAN configuration uplink Byte 0 1 2 3 4 5 6 7-10 11 12 13 Name/Value Description 0xFF 0x06 Status TxDatarate Reserved TxRetries AppPort TxPeriodicity IsTxConfirmed AdrEnable PublicNetworkEnable Configuration message token LoRaWAN configuration message token 0 = OK, when triggering configuration downlink was accepted, >0 otherwise 8-bit unsigned 8-bit unsigned 8-bit unsigned 8-bit unsigned LoRaWAN TX Period (32-bit unsigned LSB) 8-bit unsigned 8-bit unsigned 8-bit unsigned Downlink Downlinks are used to update the device configuration (alarms or LoRaWAN), or to request the data log. NOTE An dummy empty configuration downlink on the respective port (4, 5 or 7) will force the device to send its current alarm/LoRaWAN configuration. LoRaWAN configuration downlink This command updates the LoRaWAN configuration of the device. It must be sent on the AppPort 4 Byte Name/Value Type TxDatarate 8-bit unsigned 0 1 2 3 4-7 8 9 10 Reserved TxRetries AppPort TxPeriodicity IsTxConfirmed AdrEnable 8-bit unsigned 8-bit unsigned LoRaWAN TX Period
(32-bit unsigned LSB) 8-bit unsigned 8-bit unsigned PublicNetworkEnable 8-bit unsigned Valid range Region dependent. See LoRaWAN specifications
[0;5]
[1;254]
>= 60000 ms ( =1 minute)
[0;1]
[0;1]
[0;1]
Default value 0 (DR0) 0 (no retries) 2 900000 (15minutes) 0 (Unconfirmed) 1 (Adaptative DataRate Enabled) 1 (Public Network enabled) 613-00002 Page 40 of 54 LoRaWAN Pressure Sensors User Manual | English Alarm configuration downlink This command updates the LoRaWAN configuration of the device. It must be sent on the AppPort 4 Byte Name/Value TxDatarate Type 8-bit unsigned Valid range Region dependent. See LoRaWAN specifications Default value 0 (DR0) Reserved TxRetries AppPort TxPeriodicity IsTxConfirmed AdrEnable 8-bit unsigned 8-bit unsigned LoRaWAN TX Period
(32-bit unsigned LSB) 8-bit unsigned 8-bit unsigned
[0;5]
[1;254]
>= 60000 ms ( =1 minute)
[0;1]
[0;1]
PublicNetworkEnabl e 8-bit unsigned
[0;1]
0 (no retries) 2 900000 (15minutes) 0 (Unconfirmed) 1 (Adaptative DataRate Enabled) 1 (Public Networkenabled) 0 1 2 3 4-7 8 9 10 Alarm configuration downlink (deprecated) This command updates the LoRaWAN configuration of the device. It must be sent on the AppPort 5 NOTE Alarm configuration format has changed in firmware version 1.2.0+. We strongly recommend to upgrade the devices with the latest firmware, and use the extended alarm configuration (see below) formatting. Byte 0-3 4-7 8-11 Name/Value Description High AlarmThreshold Value 32-bit float LSB High Alarm HystersisValue 32-bit float LSB Low Alarm ThresholdValue 32-bit float LSB 12-15 Low Alarm HystersisValue 32-bit float LSB Active alarms 16 17-20 High AlarmThreshold Value 21-23 High Alarm HystersisValue Low Alarm ThresholdValue 24-27 28-31 Low Alarm HystersisValue Active alarms 32 613-00002 0x00=No active alarm, 0x01=High alarm active, 0x02=Low alarm active, 0x03:High and low alarm active 32-bit float LSB 32-bit float LSB 32-bit float LSB 32-bit float LSB 0x00=No active alarm, 0x01=High alarm active, 0x02=Low alarm active, 0x03:High and low alarm active Page 41 of 54 LoRaWAN Pressure Sensors User Manual | English Extended alarm configuration downlink From firmware version 1.2.0 and above. This command updates the alarm configuration of the device. It must be sent on the AppPort7. Refer to the alarm dedicated documentation for the data details. Description 32-bit float LSB 32-bit float LSB 32-bit float LSB 32-bit float LSB Bit0: High alarm threshold active Bit1: Low alarm threshold active Bit2: Variation alarm active Bit3: Reserved Bit7-4: Wakeup period (see below for authorized values) 8-bit integer [1:255]
32-bit float LSB 32-bit float LSB 32-bit float LSB 32-bit float LSB Bit0: High alarm threshold active Bit1: Low alarm threshold active Bit2: Variation alarm active Bit3: Reserved Bit7-4: Wakeup period (see below for authorized values) 8-bit integer [1:255]
Byte 0-3 4-7 8-11 12-15 16 17 18 19 20-23 24-27 28-31 32-35 36 37 38 39 Name/Value High Alarm Threshold Value High Alarm Hystersis Value Low Alarm Threshold Value Low Alarm Hystersis Value Parameters Variation alarm value Reserved Reserved High Alarm Threshold Value High Alarm Hysteresis Value Low Alarm Threshold Value Low Alarm Hysteresis Value Parameters Variation alarm value Reserved Reserved Allowed wakeup period encodings:
0x0: 15 seconds 0x1: 30 seconds 0x2: 1 minute, default 0x3: 2 minutes 0x4: 5 minutes 0x5: 15 minutes 0x6: 30 minutes 0x7: 1 hour 0x8: 3 hours 0x9: 6 hours 0xA: 12 hours 613-00002 Page 42 of 54 LoRaWAN Pressure Sensors User Manual | English Log request downlink This command triggers the send of a data payload of type LOG. It must be sent on the AppPort 6 with the following payload:
Byte 0 1 2 3 4 5 6 Value 0x52 0x45 0x50 0x4C 0x41 0x59 0x00 Description
'R' ASCII char
'E' ASCII char
'P' ASCII char
'L' ASCII char
'A' ASCII char
'Y' ASCII char NULL terminating ASCII string Log message type description They are sent in response of a log request downlink (see below). It is useful to recover the latest data sent, in case of temporary network failure for instance. It returns the longest LoRaWAN payload possible with the last uplinks contents. The structure is the same as the Data uplink. Only the pattern of the sensor dedicated field differs from regular data uplinks :
It is a list of elements formed as follow:
[(timestamp1, data1), (timestamp2, data2), (timestampn, datan)]
Each timestamp is on 4 bytes (LSB), corresponding to the data sampling time (GPS time, see GPS, UTC, and TAIClocks for details). The data; is the regular sensor dedicated data content (2 floats for pressure sensor, 1 float for temperature sensor,...). NOTE Uplink decoders and Downlink encoders are available in JS in the following repository:
https://bitbucket.org/sightgate/sensaiodecoder/src/main/
613-00002 Page 43 of 54 LoRaWAN Pressure Sensors User Manual | English 6 Spare parts A B C D
. Y T Q
. O N G N W A R D I
. O N T R A P E M A N T R A P
. O N M E T I 8 7 6 5 4 3 1 1 1 1 1 1 1 1 1 1 1 1 1 1 r o 7 0 0 0 0
0 1 6
W L 3 3 0 0 0
0 1 6
D H 8 0 0 0 0
5 1 4
D H D H g n R i r o 1 0 0 0 0
5 1 4
W L t u N r o W i L g n R t u N 6 1 1 0 0
0 1 6 4 0 0 0 0
5 3 4 M K F g n i r
O m m 3 x 2 4 2 2 0 0 0
0 1 6 1 0 0 0 0
8 3 4 4 L x 8
, 0 x 5 M b u G r 2 0 0 0 0
7 1 6 2 0 0 0 0
1 9 9 5 1 0 0 0
0 1 6 1 0 0 0 0
7 1 6 1 0 0 0 0
0 2 4 1 0 0 0 0
1 9 9
7 1 6 r o 4 0 0 0 0
7 1 6
7 1 6 r o 5 1 0 0 0
7 1 6 r o 3 2 0 0 0 5 2 0 0 0
1 9 9 r o 4 0 0 0 0
1 9 9 9 1 0 0 0
1 9 9 r o 3 1 0 0 0 1 2 0 0 0
1 9 9 r o g n i l p u o C b u S g n i s u o H t e k s a G g n i l a e S e g d i r t r a C b u S r e u s s e r P b u S b u S r o P L s s e c o r P s s e c o r P e u s s e r P r r o e g n a F h t i l W P L r e u s s e r P b u S l e n o c n I P L s s e c o r P r e u s s e r P b u S r o 8 7 0 0 0
0 1 6 2 0 0 0 0
6 4 4 e r i l W e b a C e s o H m m 0
. 1 h t i W P L s s e c o r P l e n o c n I e g n a F l l e e t S l s s e n a t S i 7 7 0 0 0
0 1 6 1 0 0 0 0
6 4 4 3 7 0 0 0
0 1 6 4 1 0 0 0
5 1 4 3 7 0 0 0
0 1 6 r o 0 3 0 0 0
5 1 4
5 1 4 r o 1 3 0 0 0 5 1 4 7 4 0 0 0 3 7 0 0 0
0 1 6 2 3 0 0 0
5 1 4 i i m u n m u A l l a v O m m 0
. 1 s s e r P g n i r u t c a f u n a M e t a P l t s u D e t a P y t e a S f l y t e a S f r o s a G
r i i o g n n M e t a P l l e t a P y t e a S f l c o z a H l y n O l
e t a P C C F r
) a e a S U r o f 3 7 0 0 0
0 1 6 8 2 0 0 0
5 1 4 e t a P r l o s n e S 3 7 0 0 0
0 1 6 9 2 0 0 0
5 1 4 l e t a P g a T
) l a n o i t p O
e r u s s e r P h g H O A S N E S I i S S A
E L T I T 2 0 0 0 0
9 9 9 0 1 0 0 0
7 1 6
O N G N W A R D I
O N T R A P D E T O N S S E L N U S E C N A R E L O T
H S I N I F E C A F R U S L A R E N E G S R E T E M I L L I M N I E R A S N O I S N E M D I
D E I F I C E P S E S I W R E H T O S S E L N U I S E I R E S M U D E M 8 6 7 2 O S I
R A E N I L 5 0
R A L U G N A B
V E R D N A S R R U B L L A E V O M E R S E G D E P R A H S K A E R B
K R A M E R D N A Y T R E P O R P R U O S I I G N W A R D S I H T D E W O L L A T O N S I T I
. L A I T N E D I F N O C S I 1 F O 1 T E E H S I D R H T O T W O H S O T R O Y P O C O T N E T T I R W R U O T U O H T I W
, S E I T R A P
. N O I S S I M R E P 3 A I G N W A R D T O N O D E L A C S S T N
E L A C S 1 2 3 4 5 6 7 8 9 0 1 1 1 2 1 3 1 4 1 3 2 1 5 1 1 3 1 4 1 9 8 0 1 2 2 1 1 4 6 t n e m e E l y t e a S f 7 A B C D E F 613-00002 Page 44 of 54 P H _ e r u s s e r P _ O A S N E S _ S S A I
I L A R E T A M
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I G N W A R D D E L L O R T N O C N U 4 3 2 1 LoRaWAN Pressure Sensors User Manual | English 7 Certifications and approvals The purpose of this document is to identify the key information relating to explosion protection that is to be included in the user instructions. This include requirements of EN /
IEC 60079-0:2017 Clause 30.1, EN / IEC 60079-11:2011 Clause 13, and EU directive 2014/34/EU Annex II 1.0.6. 7.1 Equipment marking The following information is on the certificates, and hence is not required if copies of the certificates form part of the user instructions. This product is composed of 3 or 4 marking plates attached to the device using stainless steel wire tag. Marking plates are made of stainless steel 304 with dimension 80mm (L) by 15mm
(W) and laser engraved police Gotham size 2.1mm (5.6pt). Manufacturing Plate:
SENSA.PRES-XXX-X-X-X-X-X-X-X SNS-FRYYMMDDXXXX 1C:A8:52:XX:XX:XX:XX:XX
- Device manufacturer and address
- Device model number (Refer to Section 9 Ordering Number)
- Device serial number
- DevEUI a 64-bit globally-unique Extended Unique Identifier (EUI-64)
- QR code LoRaWAN Device Identification QR Code Full (Refer Standard QR tagging scheme https://lora-alliance.org/resource_hub/tr005-lorawan-device-identification-qr-
codes/
NOTE Serial number indicates country of manufacturing (e.g FR ) and date of manufacturing. 613-00002 Page 45 of 54 LoRaWAN Pressure Sensors User Manual | English Safety Plates (European / UK / International) :
Gas and Dust ATEX plate:
Mining ATEX plate:
- CE mark (EC conformity) + Notify Body 2776
- UK mark (UKCA conformity) + Approved Body 2503
- Approvals ATEX/IECEX marking for hazardous area with temperature class
- Waste Instructions
- Consulting operating instructions
- Warning indication II 1 GD Ex ia IIC T4 Ga Ex ia IIIB T200 135C Da
-40C Tamb +59C I M 1 Ex ia I Ma Or
-40C Tamb +59C If the user instructions are common to both Group 1 and Group II products both marking sets shall be included. IEC 60079-0:2017 ; EN IEC 60079-0:2018 IEC 60079-11:2011 ; EN 60079-11:2012 Do not open when an explosive gas atmosphere is present Use only Saft battery M20 EX SV. 613-00002 Page 46 of 54 LoRaWAN Pressure Sensors User Manual | English Safety / FCC / IC Plates (USA / CANADA) :
- MET logo and file number
- Conformity with country-specific directives
- Waste Instructions
- Consulting operating instructions
- Contains IC for Canada
- Contains FCC for USA NOTE Devices described in this manual should be recycled. They may not be disposed in the municipal waste disposal services according to the Directive 2012/19/EC on waste electronic and electrical equipment (WEEE). Devices can be returned to the supplier within the EC, or to a locally approved disposal service for eco-friendly recycling. Observe the specific regulations valid in your country. Sensor Plate:
- Sensor type
- Sensor range
- Process type
- Calibration certificate
- TEB (Total Band Error)
- Miscellaneous 613-00002 Page 47 of 54 LoRaWAN Pressure Sensors User Manual | English 7.2 Installation, maintenance and repair The instruction shall contain statements reflecting the following:
Instructions on how to safety replace the battery. The device shall be installed in accordance with IEC 60079-14 or EN 60079-14 by a suitably qualified person. The installation of the Sensaio shall ensure that no part of the main body of the enclosure (not including external probes) can exceed the temperature range of -40C Tenc +59C The device shall be installed onto earthed metalwork in a location that would give the non-metallic parts of the enclosure a low risk of the build-up of electrostatic charge, and so as to avoid an ignition hazard due to the impact or friction on the aluminium nut ring. There are no user-replaceable or repairable parts other than the battery by qualified personnel only, and that faults must be rectified by return to the manufacturer. The installation shall ensure that there is a low risk of mechanical danger to the device. 7.3 Specific Conditions of Use i. ii. The installation shall minimize the risk from electrostatic discharge. The user shall minimize an ignition hazard from impact or friction on the aluminum nut ring. iii. The installation shall ensure a low risk of mechanical danger. 7.4 Availability of instructions The operating instructions will be translated into one of the EC community languages as and when requested by the end user country requirements. All sales literature and literature describing the equipment will not contradict the instructions with regard to the safety aspects. Paper copies of the instructions shall be provided with every product placed on the market. 613-00002 Page 48 of 54 LoRaWAN Pressure Sensors User Manual | English 7.5 Regulatory Compliance Statements NOTE Please confirm that an installation region fulfills an applicable standard. Observe the test certification, provisions and laws applicable in your country during connection, assembly and operation. These include, for example:
National Electrical Code (NEC NFPA 70) USA Canadian Electrical Code (CEC) Canada Further provisions for hazardous area application are for example:
EN 60079-0 EN IEC 60079-0 EN 60079-11 CE Conformity:
The applicable directives and applied standards with their revision levels can be found in the EU declaration of conformity on http://www.sensalink.cloud/
The Authorized Representative for this product is:
EGDE TECHNOLOGIES 735 Rue du Lieutenant Parayre 13290 AIX-EN-PROVENCE France This product complies with the following directives:
RE Directive (EU Countries) Electro Magnetic Compatibility (EMC) 2014/30/EU Radio Equipment Directive (RED) 2014/53/EU Low Voltage Directive (DBT) 2014/35/UE ATEX Directive (2014/34/EU) Directive of the European Parliament and of the Council on the harmonization of the laws of the member States relating to equipment and protective systems intended for use in potentially explosive atmospheres. PE directive 2014/68/EU Directive of the European Parliament and of the Council on the harmonization of the laws of the member States relating to Pressure equipment Directive. Reduction of Hazardous Substances (RoHS) (2011/65/EU) Safety: IEC 61010-1:2010 + A1:2016 (Indoor/Outdoor use), Meets Pollution Degree 3 Pollution degree describes the degree to which a solid, liquid, or gas which deteriorates dielectric strength or surface resistivity is adhering. 3 to be found in industrial environment or construction sites. 613-00002 Page 49 of 54 LoRaWAN Pressure Sensors User Manual | English FCC compliances (United States) FCC ID : 2A2T5-SENSA915A FCC Approval 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. Co-located:
This transmitter must not be co-located or operated in conjunction with any other antenna or transmitter. FCC WARNING Changes or modifications not expressly approved by the party responsible for compliance could void the users authority to operate the equipment. NOTE This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be requiered to correct the interference a his own expense. RF Exposure Compliance:
This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment and meets the FCC radio frequency (RF) Exposure Guidelines. This equipment should be installed and operated keeping the radiator at least 20 cm or more away from persons body. ISED compliances (Canada) IC : 29177-SENSA915A This device contains licence-exempt transmitter(s)/receiver(s) that comply with Innovation, Science and Economic Development Canadas licence-exempt RSS(s). Operation is subject to the following two conditions:
(1) This device may not cause interference.
(2) This device must accept any interference, including interference that may cause undesired operation of the device. French :
Lmetteur/rcepteur exempt de licence contenu dans le prsent appareil est conforme aux CNR dInnovation, Sciences et Dveloppement conomique Canada applicables aux appareils radio exempts de licence. Lexploitation est autorise aux deux conditions suivantes :
(1) Lappareil ne doit pas produire de brouillage ;
613-00002 Page 50 of 54 LoRaWAN Pressure Sensors User Manual | English
(2) Lappareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible den compromettre le fonctionnement. RF Exposure Compliance:
This equipment complies with ISED radiation exposure limits set forth for an uncontrolled environment and meets the RSS-102 of the ISED radio frequency (RF) Exposure rules. This equipment should be installed and operated keeping the radiator at least 20 cm or more away from persons body. French :
Cet quipement est conforme aux limites dexposition aux rayonnements nonces pour un environnement non contrl et respects les rgles dexposition aux frquences radiolectriques (RF) CNR-102 de lISDE. Cet quipement doit tre install et utilis en gardant une distance de 20 cm ou plus entre le radiateur et le corps humain. NOTE CAN ICES-003(A) / NMB-003(A) 613-00002 Page 51 of 54 LoRaWAN Pressure Sensors User Manual | English 8 Technical Battery data 3 V lithium manganese dioxide D-size spiral cell Electrical characteristics
(Typical values relative to cells stored up to one year at + 30C max) 12.4 Ah Nominal capacity (at 150 mA, + 20C, 2.0 V cut-off) 3.2 V Open circuit voltage (at + 20C) 3.0 V Nominal voltage (under 1 mA at +
20C) Nominal energy (at 150 mA, + 20C, 2.0 V cut-off) Pulse capacity Recommended maximum continuous discharge Operating conditions Operating temperature range Storage temperatures (Recommended) Physical characteristics Diameter (max)
- 40C / + 72C (- 40F / + 161F)
+ 30C (+ 86F) max 35 Wh up to 8.0 A 3.5 A 34.2 mm (1.35 in) Height for the tabbed version (max) 61.5 mm (2.42 in) Typical weight 115 g Li metal content NOTE approx.3.5g Prior any installation please carefully read the 'Safety information' in Section 1 or for further safety information, scan this code:
613-00002 Page 52 of 54 LoRaWAN Pressure Sensors User Manual | English 9 Ordering number Ordering Details SENSA. XXXX-
XXX-
X-
X-
X-
X-
X-
X-
X Model Pressure sensor PRES PRT 1 2 3 4 5 6 7 8 1 2 3 4 5 6 C Type Piezoresistive Measurement Range 010 bar Abs. only 0145 psi 0100 bar Abs. only 01450 psi 0200 bar Abs. only 02900 psi 0400 bar Abs. only 05800 psi 0600 bar Abs. only 08700 psi 01000 bar Abs. only 014500 psi
-0,50,5bar Rel. only
-7.257.25psi
-130bar Rel. only
-14.5435psi Process connection ISO 228 G1/2 EN ASME NPTM ASME NPTF DIN EN/IEC 19213 DIN EN/IEC 61518 DIN EN/IEC 1923/61518 Flange Other on demand Process Material Stainless Steel 316L Inconel625 Housing Material Aluminium Powder Coated Stainless Steel 316L
(Mandatory for mining) Safety Standard ATEX/IECEX/UKCA (Gas/Dust) S I L H 1 613-00002 Page 53 of 54 LoRaWAN Pressure Sensors User Manual | English HAZLOC NEC / CSA ATEX/IECEX/UKCA (Mining) INMETRO Frequency Plan EU868-870 US902-928 AU915-928 AS923-1 AS923-2 AS923-3 KR920-923 IN865-867 RU864-870 AS923-4 Options Null High Temp (up to 400DegC) Hydrogen 2 3 4 1 2 5 7 8 9 10 11 12 13 N T H 613-00002 Page 54 of 54
1 2 3 4 | User Manual TEMP | Users Manual | 1.81 MiB | May 24 2023 / June 01 2023 |
SENSAIO SENSA.iO Intelligent Connected Intelligent Connected Wireless Sensors Wireless Sensors For Hazardous environments For Hazardous Environments TEMPERATURE SENSOR INSTRUCTION MANUAL
(613-00003) SENSA.TEMP Disclaimer SENSA.iO is a brand of 2022 EDGE TECHNOLOGIES SAS. All Rights Reserved. The trademarks, logos, and service marks (Marks) included herein are the property of EDGE TECHNOLOGIES SAS or of their respective owners. Use of any Mark is not permitted without the prior written consent of EDGE TECHNOLOGIES SAS or of the respective owner. The information in this document is subject to change without notice. EDGE TECHNOLOGIES SAS and/or its representatives cannot be held responsible for any errors or inaccuracies within this document. L A I T N E D I F N O C LoRaWAN Temperature Sensors User Manual | English Revisions Page No. Context All All Section 3 & 5 All Section 5 First Release Second Update Payload decoding, Grounding Third Update LoRaWAN Payload update Version DRAFT Rev.1.1 Rev.1.2 Rev.2 Rev.2.1 Date 01/02/2021 21/07/2021 16/09/2021 11/09/2022 01/03/2023 Further information Additional documentation on SENSA.iO LoRaWAN Temperature is available for download free of charge at https://sensa.io/wireless-temperature-transmiter/ or alternatively, scan this code:
Manufacturer EDGE TECHNOLOGIES SAS 735 Rue du Lieutenant Parayre 13290 AIX-EN-PROVENCE France Tel : +33 (0)4 84 39 08 82 Customer service center https://sensaio.zohodesk.com support@sensa.io 613-00003 Page 1 of 56 LoRaWAN Temperature Sensors User Manual | English Contents 1 Safety information .............................................................................................................. 3 Intended use .............................................................................................................. 4 1.1 1.2 1.3 1.4 Handling of lithium-ion batteries ............................................................................... 4 Transportation ........................................................................................................... 5 Packaging ................................................................................................................... 5 1.5 Warranty provisions ................................................................................................... 5 1.6 1.7 1.8 Storage ....................................................................................................................... 5 Environmental conditions .......................................................................................... 6 Radio Waves ............................................................................................................... 6 2 General Product information ............................................................................................. 7 Product description .................................................................................................... 7 2.1 2.2 Product specifications ................................................................................................ 8 3 Installation of the sensor .................................................................................................. 10 Replacing the battery ............................................................................................... 12 3.1 3.2 3.3 3.4 3.5 3.6 3.7 Sealing procedure .................................................................................................... 15 Operate the device .................................................................................................. 16 Battery life ................................................................................................................ 17 Installation of Temperature Sensor ......................................................................... 18 Grounding ................................................................................................................ 19 Serial Number .......................................................................................................... 20 4 App and Device ................................................................................................................. 21 Sensalink Mobile ...................................................................................................... 21 4.1 4.2 Sensalink Web .......................................................................................................... 30 5 LoRawan Payload .............................................................................................................. 35 LoRaWAN Regional parameters ............................................................................... 35 5.1 5.2 Data formatting ........................................................................................................ 36 6 7 Spare parts ........................................................................................................................ 44 Certifications and approvals ............................................................................................. 47 Equipment marking .................................................................................................. 47 7.1 7.2 7.3 7.4 7.5 Installation, maintenance and repair ....................................................................... 50 Specific Conditions of Use ........................................................................................ 50 Availability of instructions ....................................................................................... 50 Regulatory Compliance Statements ........................................................................ 51 Technical Battery data ...................................................................................................... 54 8 9 Ordering number .............................................................................................................. 55 613-00003 Page 2 of 56 LoRaWAN Temperature Sensors User Manual | English 1 Safety information These instructions are an important part of the product and must be retained for future reference. Installation, commissioning, and maintenance of the product may only be performed by trained specialist personnel who have been authorized by the plant operator accordingly. The specialist personnel must have read and understood the manual and must comply with its instructions. For additional information or if specific problems occur that are not discussed in these instructions, contact the manufacturer. The content of these instructions is neither part of nor an amendment to any previous or existing agreement, promise or legal relationship. Information and symbols on the product must be observed. These may not be removed and must be fully legible at all times. The operating company must strictly observe the applicable national regulations relating to the installation, function testing, repair and maintenance of electrical products. Modification of the product is strictly prohibited. Any repair or modification to this device by customer will cause a malfunction of explosion protect function and hazardous situation and the protection provided by the device may be compromised. If you need to repair or modification, please contact the manufacturer or nearest authorized reseller. Use of personal protective equipment, or other plant standard safety procedures. must be followed. The signal words in these instructions are structured as follows:
DANGER The signal word "DANGER" indicates an imminent danger. Failure to observe this information will result in death or severe injury. WARNING The signal word "WARNING" indicates an imminent danger. Failure to observe this information may result in death or severe injury. CAUTION The signal word "CAUTION" indicates an imminent danger. Failure to observe this information may result in minor or moderate injury. NOTE The signal word "NOTE" indicates useful or important information about the product. The signal word "NOTE" is not a signal word indicating a danger to personnel. The signal word "NOTE" can also refer to material damage. 613-00003 Page 3 of 56 LoRaWAN Temperature Sensors User Manual | English 1.1 Intended use Referring to the User Instructions, name-plate and Technical Information brochures, check that the product is suitable for the intended use/application. To measure the temperature of fluid or gases substances. The device has been designed for use exclusively within the values stated on the sensor plate and within the technical limit values specified on the data sheets. The maximum and minimum operating temperature limits must not be exceeded or undershot in normal and default conditions. The permissible ambient temperature must not be exceeded The housings degree of protection must be observed during operation Prior any installations you must take in consideration:
Flammable materials, substances hazardous to health, extremes of temperature. Explosion risk areas, lack of oxygen (e.g. tanks, pits), dangerous gases, extremes of temperature, hot surfaces, fire hazard (e.g. during welding), excessive noise, moving machinery Ensure the sensors have the correct gaskets regard the temperature and that those were designed accordingly the maximal temperature. Make sure the temperature pipe were shutdown before any attempt to remove the sensors. Allow time for temperature to cooldown after retrieving the probe to avoid the danger of burns and consider whether protective clothing is required. Before starting work ensure that you have suitable tools and / or consumables available. Use only genuine parts from manufacturer or authorized reseller. All work must be carried out or be supervised by a suitably competent person. Installation and operating personnel should be trained in the correct use of the product according to the Installation and Maintenance Instructions. In normal use it is not advised to touch the sensor in the case the pipe is hot or under temperature. If used at the maximum permitted operating conditions the surface temperature of some products may reach hot temperatures. This product has to be dumped regarding the local legislation. The product should be recycled in line with local legislation. Special attention should be paid to the battery, see section 1.2. 1.2 Handling of lithium-ion batteries Lithium batteries do not pose a danger if handled properly. Please note the following points for the proper handling of lithium batteries:
Do not recharge, short circuit, crush, disassemble, heat above +100C / +212F, incinerate, or expose contents to water. Keep batteries in non-conductive (i.e. plastic) trays. Fire, explosion and burn hazard Do not obstruct venting mechanism 613-00003 Page 4 of 56 LoRaWAN Temperature Sensors User Manual | English 1.3 Transportation Transport of lithium batteries is subject to regulations. i.e.:
ADR (European Ground Transportation) IATA (International Air Transport Association) ICAO (International Civil Aviation Organization) and the Regulations concerning the International Carriage of Dangerous Goods by Rail (Intergovernmental Organization for International Carriage by Rail). It is the responsibility of the shipper to ensure that these regulations are followed. 1.4 Packaging Observe the following instructions:
Check the packaging and the delivered items for visible damage. Report any claims for damages immediately to the shipping company. Verify the specification indicated in the marking plate complies with the specifications written on the order sheet. To prevent damage while in transit, leave the device in the original shipping container until it reaches the installation site. WARNING Using damaged or incomplete device may cause risk of explosion in hazardous areas Do not use damaged or incomplete devices 1.5 Warranty provisions Using the device in a manner that does not fall within the scope of its intended use, disregarding this manual, using underqualified personnel, or making unauthorized alterations releases the manufacturer from liability for any resulting damage, the protection provided by the device may be compromised. This renders the manufacturer's warranty null and void. Please read the Quick Start Guide before use. 1.6 Storage When an extended storage period is expected, observed the following instructions:
A location that is not exposed to rain or water A location subject to a minimum of vibration or impact Store the device at +25C (+77F) , dry, clean and well-ventilated area. When storing the device, repack it carefully in original packaging NOTE When storing or shipping, its recommended to unscrew the nut ring to put the instrument in OFF Mode to conserve the battery. For maximum battery life, the storage temperature should not exceed +25C (+77F) 613-00003 Page 5 of 56 LoRaWAN Temperature Sensors User Manual | English 1.7 Environmental conditions Ambient conditions Ambient Temperature Permissible ambient temperature for operation Storage Temperature (recommended) Protection rating Vibration Endurance @ 25C (+77F) Shock Relative humidity IEC 61010-1 Compliance 1.8 Radio Waves For use indoors and outdoors In hazardous areas, observe the maximum permissible ambient temperature corresponding to the temperature class
-40 + 59C (-40 +138F)
+ 25 C (+77F) IP 65/67 in accordance with EN60529 20 g, 52000 Hz, X/Y/Z
>10 million FS cycles 50g/11ms 100g/6ms 0 to 100% (Use in wet locations) Meets Pollution Degree 3 This product is designated as a certification of construction type as a wireless facility from 800MHz, 900 MHz and 2.4GHz bands low-power data communication systems of the Radio Act. Refer to Regulatory parameter Statements for detail. NOTE Available frequency bands vary depending on the country. Due to the designated certification of construction type, users may be subject to legal punishment in case of disassembling or modifying this product. Preventing interference with other wireless stations Industrial, scientific, and medical equipment, as well as local wireless stations (license required) and specific low power wireless stations (license not required) for identifying mobile objects used in factory production lines, use the same frequency band as this product. Check that local wireless stations and specific low-power wireless stations are not being used in the vicinity before using this product. If this product causes radio interference in a local wireless station, stop the emission of radio waves immediately. For details on how to prevent radio interference, contact our service office. 613-00003 Page 6 of 56 LoRaWAN Temperature Sensors User Manual | English 2 General Product information 2.1 Product description SENSA.iO is a wide range of Industrial intelligent connected devices that converts any conventional assets into an intelligent connected machine located in hazardous et remote locations. Fully autonomous, this device is battery-operated transmitting value by radio communication over Bluetooth 5.0 or LoRaWAN (version 1.0.3), an LPWAN technology
(lower power wide area network) to enable long transmission ranges and long battery life. The transmission of the measured temperature values can be carried out in a customer-
specific IIoT infrastructure while performing advanced analytics at edge and alarm threshold triggering. SENSA.iO devices fulfil safety-related requirements of the relevant international standards and regulations for hazardous areas Zone 0/1/2. This device enables accurate temperature measurement for numerous different applications (e.g pipe, wellhead,). How does it work?
In option RTD (Resistance temperature detector) or Thermocuple Type k sensing probe element is mounted at the extremity at the end of the process connection, 3-three mounting options are available depend on the application:
Thermowell mounted Pipe pressure mounted (up to 1,000bar / 14,500psi) Surface mounted clamp-on using tie-wrap An electronic sensor board process the data, electronic mainboard wake-up at a preset sending interval or interrupt function trigger a wake-up to transmit the measured value to the IIoT platform via a LoRaWAN gateway. The device goes back to deep sleep mode until the next wake-up. An embedded secure element enables end-to-end security with full asymmetric encryption and authentication. In addition, the device status and values can also be queried locally via a mobile device using Bluetooth 5 radio communication and dedicated mobile or VR application available on Android and Apple store. The LoRaWAN network operating frequency depends on the operating region. Device have to be ordered with the right frequency plan to comply with the local regulation. 613-00003 Page 7 of 56 LoRaWAN Temperature Sensors User Manual | English 2.2 Product specifications Measuring Principle Measuring ranges Accuracy Immersion tube Immersion length Mounting Option Ingress Protection Housing option Antenna Bluetooth 5 LoRaWAN 1.0.3
(0.15 + 0.002 t)C 1.5C or 0.4% of reading Resistance Temperature Detector (RTD) Nickel-Alloy Thermocouple (Type K)
-40 C 650 C / -40 F 1200 F PT100 Class A Type K Class 1 6 mm or 5 mm (Fast-response) Min. 100mm - Max. 1000mm / 4in to 40in In-line Spring Loaded (thermowell not included) Surface mounted clamp-on with tie-wraps Pipe pressure mounted (up to 1,000bar / 14,500psi) IP 65/67 in accordance with EN60529 Aluminum powder coated Stainless Steel 316L Reinforced anti-static polymer ESG protected and UV stabilized Android 7.0 or IOS 12 or greater Class Range Baud rate range1 Transmission Adaptative Data rate Spreading factor (SF) / modulation 2 Interference immunity Mode Update rate (Default & adjustable) Frequency plans RF power3 A Up to 10km From 0.3 kbps to 50kbps Downlink/Uplink Yes Refer to section 5.1 Very high OTAA 100 trames/day 800 and 900 bands Max. 14dBm ERP 1.4 kg 1.9 kg 1 The speed with which the data is transmitted. Dependent upon the bandwidth used and the spreading factor. 2 Spreading factors (e.g. graded between 7 ... 12) are automatically assigned according to the ambient conditions between the instrument and the gateway. A higher SF increases the sending time and improves the communication range, though the energy consumption of the instrument rises. 3 Amount of energy transmitted to the antenna for communication. In Europe, the maximum transmission power for the uplink is limited to 25 mW (14 dBm). NOTE Duty cycle is the fraction of time in which an end device can occupy a channel. In Europe there is a duty cycle depending on the selected channel of 0.1 % or 1 % per day. 613-00003 Page 8 of 56 LoRaWAN Temperature Sensors User Manual | English Dimensions 613-00003 Page 9 of 56 LoRaWAN Temperature Sensors User Manual | English 3 Installation of the sensor NOTE Prior any installation please carefully read the 'Safety information' in Section 1. The SENSAIO Sensor includes the following parts:
1 Temperature device 1 Battery SAFT M20 EX SV 1 Quick Start Guide 1 Allen screw M5 NOTE The quick start guide provides a step-by-step description of how to set the device. This can be found in the box delivered with the device. 613-00003 Page 10 of 56 LoRaWAN Temperature Sensors User Manual | English Installation Wall mounting Attach the wall mount to the wall using 2 screws (10 mm (0.39 inch)). Pipe mounting Attach the pipe mount to the pipe using 2 pipe clamps (. 10 mm (0.39 inch)). The pipe mount can be attached to a pipe with a maximum diameter of 63.5 mm (2.5 inch). NOTE The probe must be mounted with sufficient thermal insulation between the process and the main housing of the device such that thermal backflow from the process does not cause the temperature of the enclosure to exceed the maximum specified ambient temperature. This can be achieved, for example, with suitable heat insulation or a neck tube of suitable length. During installation, ensure no obstructions surrounding the antenna radiation patterns. We recommend enough clearance surrounding the device. Position the gateway so that the transmission power of the device is used optimally. For this, the following recommendations should be observed:
Depending on the application, a gateway for indoor or outdoor use should be selected Between the instrument antenna and the gateway, there should be as few barriers as possible (e.g. walls and hills) 613-00003 Page 11 of 56 LoRaWAN Temperature Sensors User Manual | English The radiation characteristics of the antenna must be taken into account when positioning the gateway. If the measuring instruments are located on one level, vertical mounting of the LoRa antenna on the gateway is recommended. The location should ideally be in the middle of the area to be covered. Ensure that the gateway is mounted at a sufficient height and is not covered by anything in the immediate vicinity. NOTE Signal coverage can impact the life of the battery. Make a test survey prior installing the device 3.1 Replacing the battery NOTE Only use SAFT M20 EX SV 3 V battery only (Part# 142187103) with this device. NOTE Only carry out battery replacement procedure in a dry environment NOTE The device can only be powered by the SAFT M20 EX SV battery. The battery can be buy to any SAFT authorized reseller only. https://www.saftbatteries.com/about-us/who-saft/saft-
worldwide CAUTION There is a risk of explosion if the battery is replaced by an incorrect type. The battery must be replaced by qualified personnel only. Procedure 1. Loosen the allen screw on the side of the nut rings with M5 Allen key provided in the box 613-00003 Page 12 of 56 LoRaWAN Temperature Sensors User Manual | English 2. Unscrew the nut ring 3. Remove the antenna cap carefully without dropping the electronic cartridge. 4. Insert the battery inside the electronic cartridge 613-00003 Page 13 of 56 LoRaWAN Temperature Sensors User Manual | English 5. Ensure the sealing gasket is there and not damage 6. Fully tighten the nut ring NOTE Make sure nut ring is completely screw without gap otherwise device will not be power on. The device switches automatically and advertise below for 30s before going to LoRaWAN mode. 7. Screw back the allen screw on the side of the nut ring 8. When battery has been replaced and device is power-on, using Sensalink Mobile, go to status/battery and click on Replace. Please refer to section 4.1 Sensalink Mobile. 613-00003 Page 14 of 56 LoRaWAN Temperature Sensors User Manual | English WARNING Danger for electronic components through electrostatic discharge (ESD) Improper handling of electrical components can destroy or damage them. When the battery compartment is open, e.g. when changing the battery, sufficient ESD protection must be ensured Battery replacement must be performed by trained personnel only Battery has to be replaced only when gas atmosphere is not present. We recommend to use portable gas detector when performing this action. 3.2 Sealing procedure NOTE Sealing gasket should be replaced if any damaged is observed and free of moisture with genuine gasket only. Please contact manufacturer or authorized reseller for order. 613-00003 Page 15 of 56 LoRaWAN Temperature Sensors User Manual | English 3.3 Operate the device ON/OFF mode When device is delivered it is POWER OFF. A 5mm or 1/4-inch clearance will appear between the nut ring and the process connection as illustrate below. See below illustration. To POWER ON the device, simply fully screw the nut ring until there is no more clearance between the nut ring and the process. 5mm or -inch clearance gap NOTE Device will automatically start advertising in BLE mode during 30s after POWER ON NOTE Its mandatory to POWER OFF the device during storage, or transportation. If device if POWER ON it will automatically try to connect to a LoRaWAN gateway and drag battery down unnecessarily. BLE Advertising mode This mode is only active 30s after POWER ON the device. Double tap the antenna cap with your hand firmly as shown in the illustration to wake up the device in BLE advertising mode. The device will advertise for 30s prior switching to LoRaWAN mode. ap 2 x T 613-00003 Page 16 of 56 LoRaWAN Temperature Sensors User Manual | English BLE Beacon mode To active the beacon mode, Beacon mode is always-on mode. Device will keep advertising (1 data per second) and data can be collected using Bluetooth Gateway. This mode is used for data extraction on site or any application requiring live data pulling. Default sampling rate is set to 1 data sample per second. Refer to section 4.1 Sensalink Mobile to active Beacon Mode. NOTE Be aware that beacon mode will drag battery down quickly. (Approximately 90 Days) BLE Beacon and advertising mode are taking into account in the battery life calculation. LoRaWAN mode LoRaWAN mode is the main operating mode with full functionality of the LoRa communication. The LoRaWAN mode is activated automatically when the 30s Bluetooth advertising mode has stopped. LoRaWAN parameters can be modified either using SENSALINK Mobile application or via LoRaWAN downlink. NOTE Device will automatically switch to LoRaWAN mode after 30s BLE advertising mode end. NOTE No data will be send via LoRaWAN mode when BLE Beacon mode or advertising mode is active. 3.4 Battery life The battery life is displayed as a percentage value vue LoRaWAN transmitted or locally by Bluetooth using SENSALINK mobile application. The calculation of the approximate value is based on an internal algorithm measuring each processing time with compensated in temperature to -10Deg, 10DegC, 30DegC and 50DegC. Since the battery life is influenced by many factors, this value is only an approximation. At value below 25% a battery change is recommended. If the battery is completely discharged, no more value is transmitted via the radio interface. Here below an estimated battery life calculation for Sensa.io Temperature device:
Tests conditions SensaIO Sensor Product storage before use: 1 year maximum Measurements have been done on firmware version 1.1 at 0C in May 2021 TEMPERATURE Tests conditions SensaIO Sensor Product storage before use: 1 year maximum Measurements have been done on firmware version 1.1 at 25C in May 2021 TEMPERATURE 613-00003 LoRa TX periodicity 288 LoRa TX per day (every 5) 144 LoRa TX per day (every 10) 96 LoRa TX per day (every 15) 72 LoRa TX per day (every 20) 48 LoRa TX per day (every 30) 32 LoRa TX per day (every 45) 24 LoRa TX per day (every 60) 16 LoRa TX per day (every 90) 12 LoRa TX per day (every 120) LoRa TX periodicity 288 LoRa TX per day (every 5) 144 LoRa TX per day (every 10) 96 LoRa TX per day (every 15) 72 LoRa TX per day (every 20) 48 LoRa TX per day (every 30) 32 LoRa TX per day (every 45) 24 LoRa TX per day (every 60) 16 LoRa TX per day (every 90) 12 LoRa TX per day (every 120) SensaIO lifetime in SF7 8 years and 262 days 9 years and 311 days 10 years and 109 days 10 years and 197 days 10 years and 288 days 10 years and 351 days 11 years and 19 days 11 years and 52 days 11 years and 69 days SensaIO lifetime in SF7 6 years and 352 days 7 years and 245 days 7 years and 343 days 8 years and 29 days 8 years and 83 days 8 years and 119 days 8 years and 138 days 8 years and 157 days 8 years and 167 days SensaIO lifetime in SF12 1 year and 147 days 2 years and 181 days 3 years and 136 days 4 years and 33 days 5 years and 72 days 6 years and 125 days 7 years and 46 days 8 years and 48 days 8 years and 273 days SensaIO lifetime in SF12 1 year and 127 days 2 years and 120 days 3 years and 27 days 3 years and 240 days 4 years and 190 days 5 years and 131 days 5 years and 332 days 6 years and 214 days 6 years and 359 days Disclaimer Due to the internal chemistry of the battery, the autonomy results beyond 7 years should be considered as highly approximate. Disclaimer Due to the internal chemistry of the battery, the autonomy results beyond 7 years should be considered as highly approximate. Page 17 of 56 LoRaWAN Temperature Sensors User Manual | English 3.5 Installation of Temperature Sensor WARNING Ensure the suitability of the temperature measuring instrument and its media resistance within the application through proper choice of materials. Non-observance can result in serious injury and/or damage to property and the environment. CAUTION Damage to the instrument In order to prevent any damage to the instrument, follow below recommendation:
The device must not be subjected to any mechanical loading Make sure the threaded connections are clean and undamaged The device should be installed in such a way that process-related electrostatic charges can be excluded. Ensure the antenna cap is not damaged To avoid electrostatic charge build-up, it must not be rubbed or cleaned with solvents or anti-static cloth. When cleaning the device, make sure that the cleaning agent used does not corrode the housing surface and the gaskets. 613-00003 Page 18 of 56 LoRaWAN Temperature Sensors User Manual | English 3.6 Grounding NOTE Functional grounding terminal This symbol identifies the terminal which is intended for connection to ground to mitigate electromagnetic interference (EMI). Device should be grounded or earthed in accordance with national and local electrical codes. It is necessary to ensure conductivity (Resistance less than 0.2M) between the device and equipment. Grounding impedance equal or less of 5 is recommended. In order to ensure grounding through the process connection while maintaining the seal can be done in several ways. If continuity between the ground terminal and the ground electrode cannot be ensured, use the following cables and a round crimp terminal for M3 grounding terminal with insulation sleeve as per Figure below. NOTE While using Teflon tape properly tighten and measuring the resistance afterwards Insulated Cables for industrial equipment such as;
o 600V polyvinyl chloride insulated wires AWG 14 to 13 (2 to 2.6 mm2) o In each case, it is recommended to ensure that the connection is made by measuring the ground resistance. 613-00003 Page 19 of 56 LoRaWAN Temperature Sensors User Manual | English 3.7 Serial Number The Device EUI and the Device Address are unique numbers to the piece of equipment it is attached to. This cannot be changed and will remain with the product for its lifetime. Software copyright Certain computer programs contained in this product [or device] were developed by EDGE TECHNOLOGIES SAS. Copyright EDGE TECHNOLOGIES SAS. 2022 All Rights Reserved EDGE TECHNOLOGIES SAS grants the legal user of this product (or device) the right to use Sensa.ios firmware solely within the scope of the legitimate operation of the product (or device). No other right is granted under this license. In particular and without prejudice to the generality of the foregoing, Sensa.ios firmware may not be used, sold, licensed, transferred, copied or reproduced in whole or in part or in any manner or form other than as expressly granted here without the prior written consent of EDGE TECHNOLOGIES SAS. 613-00003 Page 20 of 56 LoRaWAN Temperature Sensors User Manual | English 4 App and Device 4.1 Sensalink Mobile Sensa.io device has no display. Though, we are providing free-of-charge a mobile application named Sensalink that will help you to visualize data and configure the device. Sensalink Mobile is available on both App Store and Google Play. NOTE Only user with granted access from your organization administrator can connect to the device using Sensalink Mobile. Please ask your manager to grant you an access that consists of an email and a password. Please use the following QR code to download the last version of Sensalink Mobile. NOTE Only user with granted access and right can connect to the device using Sensalink Mobile. Please ask the administrator of your organization ID to get an access. User creation and user right can be managed using Sensalink Web. Please refer to section 4.2 Sensalink Web. NOTE The version used for Bluetooth 5.0 in that case, it is the users responsibility to have a version of OS and hardware compatible with Bluetooth 5.0. 613-00003 Page 21 of 56 LoRaWAN Temperature Sensors User Manual | English Sensalink Mobile App Tree Before to start:
Make sure the last version of the application is downloaded from the App Store or Google Play of your phone. Turn on Bluetooth and the location features. Launch the SENSALINK Mobile app. NOTE Sensalink is only compatible with Android 7.0 or IOS 12 or greater. NOTE Internet connectivity is mandatory for the first connection of Sensalink with the device in order to activate the warranty. 613-00003 Page 22 of 56 LoRaWAN Temperature Sensors User Manual | English Log-in and first steps:
Enter your Login-Email and password (if you have no login and password, contact the administrator of your organization ID). Click Login Click on Forget your password to reset your password Click on Offline Mode if you have no internet connectivity on your smartphone and want to access your device settings. Please refer to section Off line mode for further information. NOTE The device is activated once you connected to it from the Sensalink application. Ensure you have accepted Bluetooth Pairing request to do it. Off-Line mode:
Offline mode has been developed in order to allow specific user and Sensalink application to access the device settings without needs of internet. Please note user must have the right from Sensalink organization admin. Go to status/device and click Swap Offline , then click Apply Click home to display the list of devices in Offline mode. Click Swap Online on device menu, to put back device to Online Mode. NOTE Internet connection is mandatory on the smartphone to swap online/offline. NOTE Please refer to section 4.2 Sensalink Web User right to grant access on Sensalink Mobile Home menu:
613-00003 Page 23 of 56 LoRaWAN Temperature Sensors User Manual | English If you click on the expanded menu icon in the upper right corner , you open Settings where you can change language or units of measurement . This menu is still available after connection to the device. To log out, just click on the same menu and choose Logout . Connect the device:
After you configure your settings in the application, click side to return to home menu. A list of devices will be refresh automatically. It may take few second before you can find your device on the list. If your device is not shown in the list, ensure the device is power on. Please refer to section 3.3 Operate the device. Check BLE and location (GPS) on your smartphone if active or your smartphone fits with the compatibility. Click on the device name listed to connect. Confirm the Bluetooth Pairing request and Current Location request from the pop-up. When connected to the device, measure page will display live data. If you cannot access the device, it may due to :
The device is too far Your mobile phone is not compatible Your mobile phone is not connected to Internet The device is damaged The battery is too low Someone is already connected to the device Device is in sleep mode. Double tap to wake it up. 613-00003 Page 24 of 56 LoRaWAN Temperature Sensors User Manual | English Measure menu Measure tab is the device interface menu displaying live device data. From here, you have an access to the main information about your device: Value , Process Var , and Graph . Change your device name and add a photo by clicking on the Information tab . Click on the existing device name to change it (). To change your device photo, click on the photo pictogram of the Device Update menu(). NOTE Device information and unit settings will be available on Sensalink web hence if you change, information will be recovered. Status menu Status menu gives you access to the Signal, Shock and Device Temperature data for quality purpose. Battery, Alarms and Device are expanded menus, click on it to get access to settings as described below. To check out estimated battery life, go to Battery If you need to replace the battery, go to Battery and click Replace in order to reset the battery life calculation. Battery life calculation is based on in-house algorithm. 613-00003 Page 25 of 56 LoRaWAN Temperature Sensors User Manual | English NOTE When replacing the battery, strictly follow the safety rules. Consult the section 3.1 Replacing the battery. To set your high and low threshold alarms, go to Alarms . You can enable both Temperature and Resistance Temperature Detector (RTD) alarms and modify the thresholds according to the instructions in the next section Alarms. To calibrate your device or to do the Device Firmware Update, click on Device and follow the instructions in the Device section below. NOTE Device Firmware Update and device Calibration are only available for authorized person. Please contact your Sensalink Organization Admin. Alarms Menu In the alarm menu, you need to toggle on the needed threshold (High or/and Low) or Variation and specify the required value of Threshold, Hysteresis or variation (%). To do this, ensure to consult the following instructions before the custom setting. Sensor threshold is the value when a temperature or temperature sensor reading exceeds or is below the settings. In this case, high threshold is the value when high alarm is enabling during the increase phase and low threshold is the value when low alarm is enabling during the decline phase. Hysteresis is the difference between the values when alarm is activated and deactivated within the high or low threshold. The value decreases till it gets high threshold (alarm enabling) and declines till it gets high threshold hysteresis (alarm disabling). Hysteresis is the difference between these two values that needed to be indicated in the Alarm settings. High alarm is enabled when value reaches the high threshold within the increase phase and disabled when it reaches high threshold hysteresis within the decline phase. Low alarm is enabled when value reaches the low threshold within the decrease phase and disabled when it reaches low threshold hysteresis within the increase phase. 613-00003 Page 26 of 56 LoRaWAN Temperature Sensors User Manual | English To set the High or Low alarm :
Toggle on the High or/and Low alarm settings . Specify the value of High alarm enabling in Threshold . Define the difference value () between High alarm enabling and High alarm disabling values in Hysteresis . Click Confirm to save the settings. High alarm is enabled when value reaches the high threshold within the increase phase and is disabled when it reaches high threshold hysteresis within the decline phase. Low alarm is enabled when value reaches the low threshold within the decrease phase and is disabled when it reaches low threshold hysteresis within the increase phase. To set the Variation alarm:
It compares at every wake-up the current sensor value against the latest value sent through a LoRaWAN uplink, and if it increased/decreased for more than the given % (range [1-255%]), force an alarm uplink of ALARM type. Select the alarm sampling rate (e.g 15 seconds12 hours) Activate toggle button . Define variation value in (%) . Click Confirm to save the settings. NOTE Please note that alarm periodicity will impact the battery life. Such parameter is taking into account in the battery life calculation and we invite you to refer to battery menu ensure battery life consumption is acceptable for your application. 613-00003 Page 27 of 56 LoRaWAN Temperature Sensors User Manual | English Device Device menu contains the next information:
Serial number Date of manufacture Last calibration Firmware version If you are granted person to access the calibration and firmware update, follow the next steps to calibrate your device:
Click Calibrate your device button to access the calibration tab Enter the Measurement value Click Apply to save your changes If you recalibrate your device, you will see the Calibration Reset pop-up window. Click Next to continue and follow the aforementioned instructions If you are granted person to access the firmware update:
Click on the DFU button Confirm Bluetooth Pairing request Wait till the end of update NOTE Internet connectivity is mandatory for DFU. 613-00003 Page 28 of 56 LoRaWAN Temperature Sensors User Manual | English Network Network menu contains data/settings about your LoRaWAN network. You can modify settings by enabling or disabling the options:
Click the Parameters icon Modify the options Scroll down to save and click Apply Settings LoRaWAN Specific Glossary for better LoRaWAN settings understanding:
DevEUI (Extended Unique Identifier) is a 64-bit unique identification key assigned to an end device by the manufacturer. This value is linked to the hardware and it cannot be modified. ADR (Adaptive Data Rate) this is the optimization feature of the LoRaWAN allowing to use an optimize data rate. AppEUI is the unique ID of the Application server. This is the destination of the messages sent by the nodes. This can be change on Network settings. ACK (Automatically Acknowledged) this is the mode that allows to consider a message to be successfully delivered immediately after it is sent. It will consume more battery. TX Retries these are attempts of the device to connect to an AP but with too weak signal. TX Data Rate represents rate at which data packets being transmitted 613-00003 Page 29 of 56 LoRaWAN Temperature Sensors User Manual | English 4.2 Sensalink Web Sensalink Web is an online platform to manage access to user management, device activation and document management. Sensalink Web Tree Login Go to the https://sensalink.cloud Enter your email and password you have created You can download Sensalink Mobile by scanning the QR code to interact directly with the device. 613-00003 Page 30 of 56 LoRaWAN Temperature Sensors User Manual | English Users After successful log-in the first page you will see is user menu, user rights menu and devices. From here, you can manage your users, edit information about your profile and information about other users, affiliated to you. You have also access to Language settings, Your own profile Settings and Logout button from every page of the platform. You may consider creating new Roles prior adding new users. To edit your own profile, click on your username on upper left corner To add a new user, click on Create a new user To edit an existing user, click on edit icon on the user table To switch languages, click on the Languages menu on the upper right corner. To logout, click on Logout button on lower left corner. 613-00003 Page 31 of 56 LoRaWAN Temperature Sensors User Manual | English After clicking on your name in the right menu, you can modify information about yourself:
If you add a new user, ensure you have created an attributable role to them in the menu Roles (see the next chapter). The same window you will see while updating information about the existing user. Choose the role in the drop down list . Roles From here, you can manage role with rights of your different admin, with the ability to edit and create new ones easily. 613-00003 Page 32 of 56 LoRaWAN Temperature Sensors User Manual | English To enable or disable role editing, click on (). To create a new role, click on create new role (). To change information about a role, go to the role list and click on the Edit
() button of role you want change information about. Devices From here, you can see and manage all your sensors and find their information, Name, Type, Conformity, Calibration. To filter sensor types, click on the different types (). To select/deselect all or a single sensor, click on (). 613-00003 Page 33 of 56 LoRaWAN Temperature Sensors User Manual | English To view sensor details, click on (). To export details, click on (). To get of all the selected sensors, the APPKEYS click on (), the Conformity click on
() and the Calibration certificate click on (). To have the details of the selected sensor, click on (), on this page you can also get the APPKEY by clicking on (). To get the payload and change location click on (). To see the Conformity, click on () and the Calibration certificate, click on (). 613-00003 Page 34 of 56 LoRaWAN Temperature Sensors User Manual | English 5 LoRawan Payload NOTE The SENSA.iO device uses the class A version of the LoRaWAN communication, following the v1.0.3 specification. All missing information here is assumed to follow the reference document: https://lora-alliance.org/wp-content/uploads/2020/11/lorawan1.0.3.pdf 5.1 LoRaWAN Regional parameters The reference document used is available here : https://lora-alliance.org/wp-
content/uploads/2021/05/RP002-1.0.3-FINAL-1.pdf The SENSA.iO device follows all the regulations described in the above reference. The SENSA.iO device is compliant with the regional parameters for the following regions in the table below, with the following DataRate set adaptations. The LoRaWAN regions not addressed in this table cannot be used by the SENSA.iO device because they are out of the antenna capability range. Region EU863-870 US902-928 AU915-928 AS923 KR920-923 IN865-867 RU864-870 Available DataRate
[SF12/125kHz;SF7/125kHz]
[SF10/125kHz;SF8/500kHz]
[SF12/125kHz;SF8/500kHz]
[SF12/125kHz;SF7/125kHz]
[SF12/125kHz;SF7/125kHz]
[SF12/125kHz;SF7/125kHz]
[SF12/125kHz;SF7/125kHz]
613-00003 Page 35 of 56 LoRaWAN Temperature Sensors User Manual | English 5.2 Data formatting NOTE For LoRaWAN regional limitations reasons, the uplink payload size might be reduced to 11 bytes. This could happen for US915 in DR0 (SF10). For the temperature sensor data uplink, this would imply the temperature would be missing. Data Uplink Bit 7 6 5 4 3 2 1 0 8-bit Sensor Type (see table below for sensor type encoding) 3-
bitHwVer sion(1-bit LSB) 7-bit Battery Level (6-bit LSB) 3-bit FwMajorVersion 9-bit DeviceTemp (6-bit LSB) 2-bit Msg Type
(seebelow) 3-bit FwMinorVersion 7-bit Battery Level (1-bit MSB) 3-bit HwVersion
(2-bitMSB) 13-bit DeviceShock (5-bit LSB) 9-bit DeviceTemp (3-bit MSB) 13-bit DeviceShock (8-bit MSB) Reserved Swap Failure Flag Sensor warning Flag Accele ometer Failure Flag Memory Failure Flag Sensor Failure Flag LoRaWAN Failure Flag Secure Failure Flag 32-bit Temperature value (K, float LSB) Byte 0 1 2 3 4 5 6 7 8 9 10 613-00003 Page 36 of 56 LoRaWAN Temperature Sensors User Manual | English In byte 0, the Sensor Type is encoded on 8 bits, and can be one of the following:
0x00: Test (internal) 0x01: Temperature sensor 0x02: Temperature RTD sensor 0x03: Motion sensor 0x04: Temperature TCK sensor 0x05: Gas sensor (ongoing) 0x06: Vibration sensor (ongoing) 0x07: Loadcell sensor (ongoing) 0x08: Differential temperature sensor (ongoing) In byte 1, the Msg Type is encoded on 2 bits, and can be one of the following:
0x00: First 0x01: Periodic 0x02: Alert 0x03: Log Configuration Uplink This payload is triggered by an internal change of the LoRaWAN or alarm settings, or in response of the LoRaWAN or Alarm configuration downlink (see the downlink section below) NOTE Configuration uplinks are only valid for devices with FW version 1.1.2 and above. 613-00003 Page 37 of 56 LoRaWAN Temperature Sensors User Manual | English Alarm configuration uplink (deprecated) NOTE Alarm configuration format has changed in firmware version 1.2.0+. We strongly recommend to upgrade the devices with the latest firmware, and use the extended alarm configuration (see below) formatting. Refer to the alarm dedicated documentation for the data details. Byte 0 1 0xFF 0x05 2 Status Name/Value Description Configuration message token Alarm Configuration message token 0 = OK, when triggering configuration downlink was accepted, >0 otherwise 3-6 High Alarm Threshold Value 32-bit float LSB 7-10 High Alarm Hysteresis Value 32-bit float LSB 11-14 Low Alarm Threshold Value 32-bit float LSB 15-18 Low Alarm Hysteresis Value 32-bit float LSB 19 Active alarms 0x00=No active alarm, 0x01=High alarm active, 0x02=Low alarm active,0x03:High and low alarm active Extended alarm configuration uplink From firmware version 1.2.0 and above. Refer to the alarm dedicated documentation for the data details. Byte Name/Value Description 0 1 2 3-6 7-10 11-14 15-18 19 0xFF 0x07 Status High Alarm ThresholdValue Configuration message token Extended alarm Configuration message token 0 = OK, when triggering configuration downlink was accepted, >0 otherwise 32-bit float LSB High Alarm Hystersis Value Low Alarm ThresholdValue 32-bit float LSB 32-bit float LSB Low Alarm Hystersis Value 32-bit float LSB Parameters 20 21 22 Variation alarm value Reserved Reserved Allowed wakeup period encodings:
0x0: 15 seconds 0x1: 30 seconds 613-00003 Bit0: High alarm threshold active Bit1: Low alarm threshold active Bit2: Variation alarm active Bit3: Reserved Bit7-4: Wakeup period (see below for authorized values) 8-bit integer [1:255]
Page 38 of 56 LoRaWAN Temperature Sensors User Manual | English 0x2: 1 minute, default 0x3: 2 minutes 0x4: 5 minutes 0x5: 15 minutes 0x6: 30 minutes 0x7: 1 hour 0x8: 3 hours 0x9: 6 hours 0xA: 12 hours 613-00003 Page 39 of 56 LoRaWAN Temperature Sensors User Manual | English LoRaWAN configuration uplink Below is the structure of the LoRaWAN configuration uplink Byte 0 1 2 3 4 5 6 7-10 11 12 13 Name/Value Description 0xFF 0x06 Status TxDatarate Reserved TxRetries AppPort TxPeriodicity IsTxConfirmed AdrEnable PublicNetworkEnable Configuration message token LoRaWAN configuration message token 0 = OK, when triggering configuration downlink was accepted, >0 otherwise 8-bit unsigned 8-bit unsigned 8-bit unsigned 8-bit unsigned LoRaWAN TX Period (32-bit unsigned LSB) 8-bit unsigned 8-bit unsigned 8-bit unsigned Downlink Downlinks are used to update the device configuration (alarms or LoRaWAN), or to request the data log. NOTE An dummy empty configuration downlink on the respective port (4, 5, 6 or 7) will force the device to send its current alarm/LoRaWAN configuration. LoRaWAN configuration downlink This command updates the LoRaWAN configuration of the device. It must be sent on the AppPort 4 Byte Name/Value Type TxDatarate 8-bit unsigned 0 1 2 3 4-7 8 9 10 Reserved TxRetries AppPort TxPeriodicity IsTxConfirmed AdrEnable 8-bit unsigned 8-bit unsigned LoRaWAN TX Period
(32-bit unsigned LSB) 8-bit unsigned 8-bit unsigned PublicNetworkEnable 8-bit unsigned Valid range Region dependent. See LoRaWAN specifications
[0;5]
[1;254]
>= 60000 ms ( =1 minute)
[0;1]
[0;1]
[0;1]
Default value 0 (DR0) 0 (no retries) 2 900000 (15minutes) 0 (Unconfirmed) 1 (Adaptative DataRate Enabled) 1 (Public Network enabled) 613-00003 Page 40 of 56 LoRaWAN Temperature Sensors User Manual | English Alarm configuration downlink This command updates the LoRaWAN configuration of the device. It must be sent on the AppPort 4 Byte Name/Value TxDatarate Type 8-bit unsigned Valid range Region dependent. See LoRaWAN specifications Default value 0 (DR0) Reserved TxRetries AppPort TxPeriodicity IsTxConfirmed AdrEnable 8-bit unsigned 8-bit unsigned LoRaWAN TX Period
(32-bit unsigned LSB) 8-bit unsigned 8-bit unsigned
[0;5]
[1;254]
>= 60000 ms ( =1 minute)
[0;1]
[0;1]
PublicNetworkEnabl e 8-bit unsigned
[0;1]
0 (no retries) 2 900000 (15minutes) 0 (Unconfirmed) 1 (Adaptative DataRate Enabled) 1 (Public Networkenabled) 0 1 2 3 4-7 8 9 10 Alarm configuration downlink (deprecated) This command updates the LoRaWAN configuration of the device. It must be sent on the AppPort 5 NOTE Alarm configuration format has changed in firmware version 1.2.0+. We strongly recommend to upgrade thedevices with the latest firmware, and use the extended alarm configuration (see below) formating. Byte 0-3 4-7 8-11 Name/Value Description High AlarmThreshold Value 32-bit float LSB High Alarm HystersisValue 32-bit float LSB Low Alarm ThresholdValue 32-bit float LSB 12-15 Low Alarm HystersisValue 32-bit float LSB Active alarms 16 0x00=No active alarm, 0x01=High alarm active, 0x02=Low alarm active, 0x03:High and low alarm active 613-00003 Page 41 of 56 LoRaWAN Temperature Sensors User Manual | English Extended alarm configuration downlink From firmware version 1.2.0 and above. This command updates the alarm configuration of the device. It must be sent on the AppPort7. Refer to the alarm dedicated documentation for the data details. Description 32-bit float LSB 32-bit float LSB 32-bit float LSB 32-bit float LSB Bit0: High alarm threshold active Bit1: Low alarm threshold active Bit2: Variation alarm active Bit3: Reserved Bit7-4: Wakeup period (see below for authorized values) 8-bit integer [1:255]
Byte 0-3 4-7 8-11 12-15 Name/Value High Alarm Threshold Value High Alarm Hystersis Value Low Alarm Threshold Value Low Alarm Hystersis Value Parameters 16 17 18 19 Variation alarm value Reserved Reserved Allowed wakeup period encodings:
0x0: 15 seconds 0x1: 30 seconds 0x2: 1 minute, default 0x3: 2 minutes 0x4: 5 minutes 0x5: 15 minutes 0x6: 30 minutes 0x7: 1 hour 0x8: 3 hours 0x9: 6 hours 0xA: 12 hours 613-00003 Page 42 of 56 LoRaWAN Temperature Sensors User Manual | English Log request downlink This command triggers the send of a data payload of type LOG. It must be sent on the AppPort 6 with the following payload:
Byte 0 1 2 3 4 5 6 Value 0x52 0x45 0x50 0x4C 0x41 0x59 0x00 Description
'R' ASCII char
'E' ASCII char
'P' ASCII char
'L' ASCII char
'A' ASCII char
'Y' ASCII char NULL terminating ASCII string Log message type description They are sent in response of a log request downlink (see below). It is useful to recover the latest data sent, in case of temporary network failure for instance. It returns the longest LoRaWAN payload possible with the last uplinks contents. The structure is the same as the Data uplink. Only the pattern of the sensor dedicated field differs from regular data uplinks :
It is a list of elements formed as follow:
[(timestamp1, data1), (timestamp2, data2), (timestampn, datan)]
Each timestamp is on 4 bytes (LSB), corresponding to the data sampling time (GPS time, see GPS, UTC, and TAIClocks for details). Each data is on 4 bytes (LSB), corresponding to the data sampling temperature (k, 32-bit float LSB) NOTE Uplink decoders and Downlink encoders are available in JS in the following repository:
https://bitbucket.org/sightgate/sensaiodecoder/src/main/
613-00003 Page 43 of 56 LoRaWAN Temperature Sensors User Manual | English 6 Spare parts Pipe Pressure mounted NPT A B C D 1 1 1 1 1 1 1 1 1 1 1 1 1 1 r o 7 0 0 0 0
0 1 6
W L 3 3 0 0 0
0 1 6
D H r o 1 0 0 0 0
5 1 4
W L 8 0 0 0 0
5 1 4
D H D H r o W i L g n R t u N 2 2 0 0 0
0 1 6 1 0 0 0 0
8 3 4 4 L x 4
, 0 x 5 M b u G r 6 1 1 0 0
0 1 6 4 0 0 0 0
5 3 4 m m 3 x 2 4 M K F g n i r
O 2 0 0 0 0
7 1 6 2 0 0 0 0
1 9 9 g n i l p u o C b u S g n i s u o H 5 1 0 0 0
0 1 6 1 0 0 0 0
7 1 6 1 0 0 0 0
0 2 4 t e k s a G g n i l a e S 1 0 0 0 0
1 9 9 e g d i r t r a C b u S 7 2 0 0 0
7 1 6 7 2 0 0 0
1 9 9 7 7 0 0 0
0 1 6 1 0 0 0 0
6 4 4 r r e u t a e p m e T b u S d e t n u o M e p P i s s e c o r P i i m u n m u A l l a v O m m 0
. 1 s s e r P 8 7 0 0 0
0 1 6 2 0 0 0 0
6 4 4 e s o H m m 0 l e e t S l s s e n a t S i
. 1 e r i l W e b a C 3 7 0 0 0
0 1 6 4 1 0 0 0
5 1 4 3 7 0 0 0
0 1 6
5 1 4 r o 0 3 0 0 0
5 1 4 7 4 0 0 0
5 1 4 r o 1 3 0 0 0 l e t a P g n k r a M i i o a s n e S
t s u D e t a P y t e a S f l l e t a P y t e a S f r o s a G y t e a S f r o g n n M i i 3 7 0 0 0
0 1 6 2 3 0 0 0
5 1 4 r o f l y n O l
e t a P C C F r
) a e a S U 3 7 0 0 0
0 1 6 8 2 0 0 0
5 1 4 e t a P r l o s n e S 3 7 0 0 0
0 1 6 9 2 0 0 0
5 1 4
) l a n o i t p O l
e t a P g a T l c o z a H e t a P l 1 2 3 4 5 6 7 8 9 0 1 1 1 2 1 3 1 4 1 2 2 1 1 1 t n e m e E l y t e a S f 8 0 1 4 1 3 1 9 1 4 5 6 7
. Y T Q
. O N G N W A R D I R E B M U N T R A P E M A N T R A P
. O N M E T I 3 8 7 6 5 4 3 2 1 e r u t a r e p m e T d e t n u o M e p P O A S N E S I i S S A
E L T I T 6 0 0 0 0
9 9 9 8 2 0 0 0
7 1 6
O N G N W A R D I
O N T R A P D E T O N S S E L N U S E C N A R E L O T
H S I N I F E C A F R U S L A R E N E G S R E T E M I L L I M N I E R A S N O I S N E M D I
D E I F I C E P S E S I W R E H T O S S E L N U I S E I R E S M U D E M 8 6 7 2 O S I
R A E N I L 5 0
R A L U G N A D N A Y T R E P O R P R U O S I I G N W A R D S I H T D E W O L L A T O N S I T I
. L A I T N E D I F N O C S I I D R H T O T W O H S O T R O Y P O C O T N E T T I R W R U O T U O H T I W
, S E I T R A P
. N O I S S I M R E P 1 F O 1 T E E H S 3 A I G N W A R D T O N O D E L A C S S T N
E L A C S A
V E R D N A S R R U B L L A E V O M E R S E G D E P R A H S K A E R B
K R A M E R I N U O M _ E P P _ O A S N E S _ S S A I E R U T A R E P M E T _ D E T
I L A R E T A M
) g K
S S A M
E M A N E L I F X 2 2 0 2
9 0
1 2
E T A D
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I G N W A R D D E L L O R T N O C N U 4 3 2 1 A B C D E F 613-00003 Page 44 of 56 LoRaWAN Temperature Sensors User Manual | English Thermowell mounted (In-line) 8 7 6 5 4 3 2 1
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V E R D N A S R R U B L L A E V O M E R S E G D E P R A H S K A E R B
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. N O I S S I M R E P 3 A I G N W A R D T O N O D E L A C S S T N
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I G N W A R D D E L L O R T N O C N U 3 3 1 2 1 1 1 0 1 9 4 3 2 1 8 2 4 t n e m e E l y t e a S f 5 6 7 1 A B C D E F 613-00003 Page 45 of 56 LoRaWAN Temperature Sensors User Manual | English Surface mounted by tie-wraps A B C D 1 1 1 1 1 1 1 1 1 1 1 1 1 1 r o 7 0 0 0 0
0 1 6
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I G N W A R D D E L L O R T N O C N U 4 3 2 1 A B C D E F 613-00003 Page 46 of 56 LoRaWAN Temperature Sensors User Manual | English 7 Certifications and approvals The purpose of this document is to identify the key information relating to explosion protection that is to be included in the user instructions. This include requirements of EN /
IEC 60079-0:2017 Clause 30.1, EN / IEC 60079-11:2011 Clause 13, and EU directive 2014/34/EU Annex II 1.0.6. 7.1 Equipment marking The following information is on the certificates, and hence is not required if copies of the certificates form part of the user instructions. This product is composed of 3 or 4 marking plates attached to the device using stainless steel wire tag. Marking plates are made of stainless steel 304 with dimension 80mm (L) by 15mm
(W) and laser engraved police Gotham size 2.1mm (5.6pt). Manufacturing Plate:
SENSA.TEMP-XXX-X-X-X-X-X-X-X SNS-FRYYMMDDXXXX 1C:A8:52:XX:XX:XX:XX:XX
- Device manufacturer and address
- Device model number (Refer to Section 9 Ordering Number)
- Device serial number
- DevEUI a 64-bit globally-unique Extended Unique Identifier (EUI-64)
- QR code LoRaWAN Device Identification QR Code Full (Refer Standard QR tagging scheme https://lora-alliance.org/resource_hub/tr005-lorawan-device-identification-qr-
codes/
NOTE Serial number indicates country of manufacturing (e.g FR ) and date of manufacturing. 613-00003 Page 47 of 56 LoRaWAN Temperature Sensors User Manual | English Safety Plates (European / UK / International) :
Gas and Dust ATEX plate:
Mining ATEX plate:
- CE mark (EC conformity) + Notify Body 2776
- UK mark (UKCA conformity) + Approved Body 2503
- Approvals ATEX/IECEX marking for hazardous area with temperature class
- Waste Instructions
- Consulting operating instructions
- Warning indication II 1 GD Ex ia IIC T4 Ga Ex ia IIIB T200 135C Da
-40C Tamb +59C I M 1 Ex ia I Ma Or
-40C Tamb +59C If the user instructions are common to both Group 1 and Group II products both marking sets shall be included. IEC 60079-0:2017 ; EN IEC 60079-0:2018 IEC 60079-11:2011 ; EN 60079-11:2012 Do not open when an explosive gas atmosphere is present Use only Saft battery M20 EX SV. 613-00003 Page 48 of 56 LoRaWAN Temperature Sensors User Manual | English Safety / FCC / IC Plates (USA / CANADA) :
- MET logo and file number
- Conformity with country-specific directives
- Waste Instructions
- Consulting operating instructions
- Contains IC for Canada
- Contains FCC for USA NOTE Devices described in this manual should be recycled. They may not be disposed in the municipal waste disposal services according to the Directive 2012/19/EC on waste electronic and electrical equipment (WEEE). Devices can be returned to the supplier within the EC, or to a locally approved disposal service for eco-friendly recycling. Observe the specific regulations valid in your country. Sensor Plate:
- Sensor type
- Sensor range
- Process type
- Calibration certificate
- TEB (Total Band Error)
- Miscellaneous 613-00003 Page 49 of 56 LoRaWAN Temperature Sensors User Manual | English 7.2 Installation, maintenance and repair The instruction shall contain statements reflecting the following:
Instructions on how to safety replace the battery. The device shall be installed in accordance with IEC 60079-14 or EN 60079-14 by a suitably qualified person. The installation of the SENSA.iO shall ensure that no part of the main body of the enclosure (not including external probes) can exceed the temperature range of -40C Tenc +59C The device shall be installed onto earthed metalwork in a location that would give the non-metallic parts of the enclosure a low risk of the build-up of electrostatic charge, and so as to avoid an ignition hazard due to the impact or friction on the aluminium nut ring. There are no user-replaceable or repairable parts other than the battery by qualified personnel only, and that faults must be rectified by return to the manufacturer. The installation shall ensure that there is a low risk of mechanical danger to the device. 7.3 Specific Conditions of Use i. ii. The installation shall minimize the risk from electrostatic discharge. The user shall minimize an ignition hazard from impact or friction on the aluminum nut ring. iii. The installation shall ensure a low risk of mechanical danger. 7.4 Availability of instructions The operating instructions will be translated into one of the EC community languages as and when requested by the end user country requirements. All sales literature and literature describing the equipment will not contradict the instructions with regard to the safety aspects. Paper copies of the instructions shall be provided with every product placed on the market. 613-00003 Page 50 of 56 LoRaWAN Temperature Sensors User Manual | English 7.5 Regulatory Compliance Statements NOTE Please confirm that an installation region fulfills an applicable standard. Observe the test certification, provisions and laws applicable in your country during connection, assembly and operation. These include, for example:
National Electrical Code (NEC NFPA 70) USA Canadian Electrical Code (CEC) Canada Further provisions for hazardous area application are for example:
EN 60079-0 EN IEC 60079-0 EN 60079-11 CE Conformity:
The applicable directives and applied standards with their revision levels can be found in the EU declaration of conformity on http://www.sensalink.cloud/
The Authorized Representative for this product is:
EGDE TECHNOLOGIES 735 Rue du Lieutenant Parayre 13290 AIX-EN-PROVENCE France This product complies with the following directives:
RE Directive (EU Countries) Electro Magnetic Compatibility (EMC) 2014/30/EU Radio Equipment Directive (RED) 2014/53/EU Low Voltage Directive (DBT) 2014/35/UE ATEX Directive (2014/34/EU) Directive of the European Parliament and of the Council on the harmonization of the laws of the member States relating to equipment and protective systems intended for use in potentially explosive atmospheres. PE directive 2014/68/EU Directive of the European Parliament and of the Council on the harmonization of the laws of the member States relating to Temperature equipment Directive. Reduction of Hazardous Substances (RoHS) (2011/65/EU) Safety: IEC 61010-1:2010 + A1:2016 (Indoor/Outdoor use), Meets Pollution Degree 3 Pollution degree describes the degree to which a solid, liquid, or gas which deteriorates dielectric strength or surface resistivity is adhering. 3 to be found in industrial environment or construction sites. 613-00003 Page 51 of 56 LoRaWAN Temperature Sensors User Manual | English FCC compliances (United States) FCC ID : 2A2T5-SENSA915A FCC Approval 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. Co-located:
This transmitter must not be co-located or operated in conjunction with any other antenna or transmitter. FCC WARNING Changes or modifications not expressly approved by the party responsible for compliance could void the users authority to operate the equipment. NOTE This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be requiered to correct the interference a his own expense. RF Exposure Compliance:
This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment and meets the FCC radio frequency (RF) Exposure Guidelines. This equipment should be installed and operated keeping the radiator at least 20 cm or more away from persons body. ISED compliances (Canada) IC : 29177-SENSA915A This device contains licence-exempt transmitter(s)/receiver(s) that comply with Innovation, Science and Economic Development Canadas licence-exempt RSS(s). Operation is subject to the following two conditions:
(1) This device may not cause interference.
(2) This device must accept any interference, including interference that may cause undesired operation of the device. French :
Lmetteur/rcepteur exempt de licence contenu dans le prsent appareil est conforme aux CNR dInnovation, Sciences et Dveloppement conomique Canada applicables aux appareils radio exempts de licence. Lexploitation est autorise aux deux conditions suivantes :
(1) Lappareil ne doit pas produire de brouillage ;
613-00003 Page 52 of 56 LoRaWAN Temperature Sensors User Manual | English
(2) Lappareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible den compromettre le fonctionnement. RF Exposure Compliance:
This equipment complies with ISED radiation exposure limits set forth for an uncontrolled environment and meets the RSS-102 of the ISED radio frequency (RF) Exposure rules. This equipment should be installed and operated keeping the radiator at least 20 cm or more away from persons body. French :
Cet quipement est conforme aux limites dexposition aux rayonnements nonces pour un environnement non contrl et respects les rgles dexposition aux frquences radiolectriques (RF) CNR-102 de lISDE. Cet quipement doit tre install et utilis en gardant une distance de 20 cm ou plus entre le radiateur et le corps humain. NOTE CAN ICES-003(A) / NMB-003(A) 613-00003 Page 53 of 56 LoRaWAN Temperature Sensors User Manual | English 8 Technical Battery data 3 V lithium manganese dioxide D-size spiral cell Electrical characteristics
(Typical values relative to cells stored up to one year at + 30C max) 12.4 Ah Nominal capacity (at 150 mA, + 20C, 2.0 V cut-off) 3.2 V Open circuit voltage (at + 20C) Nominal voltage (under 1 mA at + 20C) 3.0 V 35 Wh Nominal energy (at 150 mA, + 20C, 2.0 V cut-
off) Pulse capacity Recommended maximum continuous discharge Operating conditions Operating temperature range Storage temperatures (Recommended) Physical characteristics Diameter (max)
- 40C / + 72C (- 40F / + 161F)
+ 30C (+ 86F) max up to 8.0 A 3.5 A 34.2 mm (1.35 in) Height for the tabbed version (max) 61.5 mm (2.42 in) Typical weight 115 g Li metal content NOTE approx.3.5g Prior any installation please carefully read the 'Safety information' in Section 1 or for further safety information, scan this code:
613-00003 Page 54 of 56 LoRaWAN Temperature Sensors User Manual | English 9 Ordering number Ordering Details SENSA. XXXX-
XXX-
X-
X-
X-
X-
X-
X-
X Model Temperature Sensor TEMP RTD TCK 0 1 2 3 4 Type Resistance Temp. Detector (RTD) Nickel-Alloy Thermocouple (K) Measurement Range
-40 / 100C
-40 / 150C
-40 / 250C
-40 / 450C
-40 / 650C (only Type k) Process Connection Thermowell mounted Spring Loader 1/2 NPT Surface mounted with deported cable 3m (10ft) Pipe pressure mounted with deported cable 3m (10ft) Probe length 150mm (6in) 300mm (12in) Other on demand Housing Material Aluminium Powder Coated Stainless Steel 316L
(Mandatory for Mining) Safety Standard ATEX/IECEx/UKCA
(Gas/Dust) HAZLOC NEC USA /
CSA Canada 613-00003 1 2 3 1 2 C L H 1 2 Page 55 of 56 LoRaWAN Temperature Sensors User Manual | English ATEX/IECEx/UKCA
(Mining) INMETRO Frequency Plan EU 868 US 915 AU915 AS923 AS923-2 AS923-3 KR920 IN865 RU864 AS923-4 Options Null Hydrogen 3 4 1 2 5 7 8 9 10 11 12 13 N H 613-00003 Page 56 of 56
1 2 3 4 | User Manual VALVE | Users Manual | 1.79 MiB | May 24 2023 / June 01 2023 |
SENSAIO SENSA.iO Intelligent Connected Intelligent Connected Wireless Sensors Wireless Sensors For Hazardous environments For Hazardous Environments VALVE POSITION INSTRUCTION MANUAL
(613-00001) SENSA.VALV Disclaimer SENSA.iO is a brand of 2022 EDGE TECHNOLOGIES SAS. All Rights Reserved. The trademarks, logos, and service marks (Marks) included herein are the property of EDGE TECHNOLOGIES SAS or of their respective owners. Use of any Mark is not permitted without the prior written consent of EDGE TECHNOLOGIES SAS or of the respective owner. The information in this document is subject to change without notice. EDGE TECHNOLOGIES SAS and/or its representatives cannot be held responsible for any errors or inaccuracies within this document. L A I T N E D I F N O C LoRaWAN Valve position Sensors User Manual | English Revisions Page No. Context All All Section 3 & 5 All Section 5 First Release Second Update Payload decoding, Grounding Third Update Update LoRaWAN Payload Version DRAFT Rev.1.1 Rev.1.2 Rev.2 Rev.2.1 Date 01/02/2021 21/07/2021 16/09/2021 11/09/2022 01/03/2023 Further information Additional documentation on SENSA.iO LoRaWAN Valve position is available for download free of charge at https://sensa.io/wireless-valve position-transmitter/ or alternatively, scan this code:
Manufacturer EDGE TECHNOLOGIES SAS 735 Rue du Lieutenant Parayre 13290 AIX-EN-PROVENCE France Tel : +33 (0)4 84 39 08 82 Customer service center https://sensaio.zohodesk.com support@sensa.io 613-00001 Page 1 of 49 LoRaWAN Valve position Sensors User Manual | English Contents 1 Safety information .............................................................................................................. 3 Intended use .............................................................................................................. 4 1.1 1.2 1.3 1.4 Handling of lithium-ion batteries ............................................................................... 4 Transportation ........................................................................................................... 5 Packaging ................................................................................................................... 5 1.5 Warranty provisions ................................................................................................... 5 1.6 1.7 1.8 Storage ....................................................................................................................... 5 Environmental conditions .......................................................................................... 6 Radio Waves ............................................................................................................... 6 2 General Product information ............................................................................................. 7 Product description .................................................................................................... 7 2.1 2.2 Product specifications ................................................................................................ 8 3 Installation of the sensor .................................................................................................. 10 Replacing the battery ............................................................................................... 12 3.1 3.2 3.3 3.4 3.5 3.6 3.7 Sealing procedure .................................................................................................... 15 Operate the device .................................................................................................. 16 Battery life ................................................................................................................ 17 Installation of Valve position Sensor ....................................................................... 18 Grounding ................................................................................................................ 19 Serial Number .......................................................................................................... 20 4 App and Device ................................................................................................................. 21 Sensalink Mobile ...................................................................................................... 21 4.1 4.2 Sensalink Web .......................................................................................................... 30 5 LoRawan Payload .............................................................................................................. 35 LoRaWAN Regional parameters ............................................................................... 35 5.1 5.2 Data formatting ........................................................................................................ 36 6 7 Spare parts ........................................................................................................................ 40 Certifications and approvals ............................................................................................. 41 Equipment marking .................................................................................................. 41 7.1 7.2 7.3 7.4 7.5 Installation, maintenance and repair ....................................................................... 44 Specific Conditions of Use ........................................................................................ 44 Availability of instructions ....................................................................................... 44 Regulatory Compliance Statements ........................................................................ 45 Technical Battery data ...................................................................................................... 48 8 9 Ordering number .............................................................................................................. 49 613-00001 Page 2 of 49 LoRaWAN Valve position Sensors User Manual | English 1 Safety information These instructions are an important part of the product and must be retained for future reference. Installation, commissioning, and maintenance of the product may only be performed by trained specialist personnel who have been authorized by the plant operator accordingly. The specialist personnel must have read and understood the manual and must comply with its instructions. For additional information or if specific problems occur that are not discussed in these instructions, contact the manufacturer. The content of these instructions is neither part of nor an amendment to any previous or existing agreement, promise or legal relationship. Information and symbols on the product must be observed. These may not be removed and must be fully legible at all times. The operating company must strictly observe the applicable national regulations relating to the installation, function testing, repair and maintenance of electrical products. Modification of the product is strictly prohibited. Any repair or modification to this device by customer will cause a malfunction of explosion protect function and hazardous situation and the protection provided by the device may be compromised. If you need to repair or modification, please contact the manufacturer or nearest authorized reseller. Use of personal protective equipment, or other plant standard safety procedures. must be followed. The signal words in these instructions are structured as follows:
DANGER The signal word "DANGER" indicates an imminent danger. Failure to observe this information will result in death or severe injury. WARNING The signal word "WARNING" indicates an imminent danger. Failure to observe this information may result in death or severe injury. CAUTION The signal word "CAUTION" indicates an imminent danger. Failure to observe this information may result in minor or moderate injury. NOTE The signal word "NOTE" indicates useful or important information about the product. The signal word "NOTE" is not a signal word indicating a danger to personnel. The signal word "NOTE" can also refer to material damage. 613-00001 Page 3 of 49 LoRaWAN Valve position Sensors User Manual | English 1.1 Intended use Referring to the User Instructions, name-plate and Technical Information brochures, check that the product is suitable for the intended use/application. To measure the valve position of fluid or gases substances. The device has been designed for use exclusively within the values stated on the sensor plate and within the technical limit values specified on the data sheets. The maximum and minimum operating valve position limits must not be exceeded or undershot in normal and default conditions. The permissible ambient temperature must not be exceeded The housings degree of protection must be observed during operation Prior any installations you must take in consideration:
Flammable materials, substances hazardous to health, extremes of temperature. Explosion risk areas, lack of oxygen (e.g. tanks, pits), dangerous gases, extremes of temperature, hot surfaces, fire hazard (e.g. during welding), excessive noise, moving machinery Ensure the sensors have the correct gaskets regard the temperature and that those were designed accordingly the maximal valve position. Make sure the valve position pipe were shutdown before any attempt to remove the sensors. Allow time for temperature to normalize after isolation to avoid the danger of burns and consider whether protective clothing is required. Before starting work ensure that you have suitable tools and / or consumables available. Use only genuine parts from manufacturer or authorized reseller. All work must be carried out or be supervised by a suitably competent person. Installation and operating personnel should be trained in the correct use of the product according to the Installation and Maintenance Instructions. In normal use it is not advised to touch the sensor in the case the pipe is hot or under valve position. If used at the maximum permitted operating conditions the surface temperature of some products may reach hot temperatures. This product has to be dumped regarding the local legislation. The product should be recycled in line with local legislation. Special attention should be paid to the battery, see section 1.2. 1.2 Handling of lithium-ion batteries Lithium batteries do not pose a danger if handled properly. Please note the following points for the proper handling of lithium batteries:
Do not recharge, short circuit, crush, disassemble, heat above +100C / +212F, incinerate, or expose contents to water. Keep batteries in non-conductive (i.e. plastic) trays. Fire, explosion and burn hazard Do not obstruct venting mechanism 613-00001 Page 4 of 49 LoRaWAN Valve position Sensors User Manual | English 1.3 Transportation Transport of lithium batteries is subject to regulations. i.e.:
ADR (European Ground Transportation) IATA (International Air Transport Association) ICAO (International Civil Aviation Organization) and the Regulations concerning the International Carriage of Dangerous Goods by Rail (Intergovernmental Organization for International Carriage by Rail). It is the responsibility of the shipper to ensure that these regulations are followed. 1.4 Packaging Observe the following instructions:
Check the packaging and the delivered items for visible damage. Report any claims for damages immediately to the shipping company. Verify the specification indicated in the marking plate complies with the specifications written on the order sheet. To prevent damage while in transit, leave the device in the original shipping container until it reaches the installation site. WARNING Using damaged or incomplete device may cause risk of explosion in hazardous areas Do not use damaged or incomplete devices 1.5 Warranty provisions Using the device in a manner that does not fall within the scope of its intended use, disregarding this manual, using underqualified personnel, or making unauthorized alterations releases the manufacturer from liability for any resulting damage, the protection provided by the device may be compromised. This renders the manufacturer's warranty null and void. Please read the Quick Start Guide before use. 1.6 Storage When an extended storage period is expected, observed the following instructions:
A location that is not exposed to rain or water A location subject to a minimum of vibration or impact Store the device at +25C (+77F) , dry, clean and well-ventilated area. When storing the device, repack it carefully in original packaging NOTE When storing or shipping, its recommended to unscrew the nut ring to put the instrument in OFF Mode to conserve the battery. For maximum battery life, the storage temperature should not exceed +25C (+77F) 613-00001 Page 5 of 49 LoRaWAN Valve position Sensors User Manual | English 1.7 Environmental conditions Ambient conditions Ambient Temperature Permissible ambient temperature for operation Storage Temperature (recommended) Protection rating Vibration Endurance @ 25C (+77F) Shock Relative humidity IEC 61010-1 Compliance 1.8 Radio Waves For use indoors and outdoors In hazardous areas, observe the maximum permissible ambient temperature corresponding to the temperature class
-40 + 59C (-40 +138F)
+ 25 C (+77F) IP65/67 in accordance with EN60529 20 g, 52000 Hz, X/Y/Z
>10 million FS cycles 50g/11ms 100g/6ms 0 to 100% (Use in wet locations) Meets Pollution Degree 3 This product is designated as a certification of construction type as a wireless facility from 800MHz, 900 MHz and 2.4GHz bands low-power data communication systems of the Radio Act. Refer to Regulatory parameter Statements for detail. NOTE Available frequency bands vary depending on the country. Due to the designated certification of construction type, users may be subject to legal punishment in case of disassembling or modifying this product. Preventing interference with other wireless stations Industrial, scientific, and medical equipment, as well as local wireless stations (license required) and specific low power wireless stations (license not required) for identifying mobile objects used in factory production lines, use the same frequency band as this product. Check that local wireless stations and specific low-power wireless stations are not being used in the vicinity before using this product. If this product causes radio interference in a local wireless station, stop the emission of radio waves immediately. For details on how to prevent radio interference, contact our service office. 613-00001 Page 6 of 49 LoRaWAN Valve position Sensors User Manual | English 2 General Product information 2.1 Product description SENSA.iO is a wide range of Industrial intelligent connected devices that converts any conventional assets into an intelligent connected machine located in hazardous et remote locations. Fully autonomous, this device is battery-operated transmitting value by radio communication over Bluetooth 5.0 or LoRaWAN (version 1.0.3), an LPWAN technology
(lower power wide area network) to enable long transmission ranges and long battery life. The transmission of the measured valve position values can be carried out in a customer-
specific IIoT infrastructure while performing advanced analytics at edge and alarm threshold triggering. SENSA.iO devices fulfil safety-related requirements of the relevant international standards and regulations for hazardous areas Zone 0/1/2. This device enables accurate valve position measurement for numerous different applications (e.g pipeline, wellhead,). How does it work?
A state-of-the-art IMU (Inertial Measurement Unit) sensing element composed of accelerometer and Gyroscope is mounted at the end of the process connection, an electronic sensor board process the data, electronic mainboard wake-up at a preset sending interval or interrupt function trigger a wake-up to transmit the measured value to the IIoT platform via a LoRaWAN gateway. The device goes back to deep sleep mode until the next wake-up. An embedded secure element enables end-to-end security with full asymmetric encryption and authentication. In addition, the device status and values can also be queried locally via a mobile device using Bluetooth 5 radio communication and dedicated mobile application available on Android and IOs store free-of-charge. The LoRaWAN network operating frequency depends on the operating region. Device have to be ordered with the right frequency plan to comply with the local regulation. 613-00001 Page 7 of 49 LoRaWAN Valve position Sensors User Manual | English 2.2 Product specifications Antenna Bluetooth 5 LoRaWAN 1.0.3 Inertial Measurement Unit 0-100%
3 degree Measuring Principle Measuring ranges Accuracy Embedded Software Sensor fusion algorism 0.5 (0.05% of FS) max Long term stability IP 65/67 in accordance with EN60529 Ingress Protection Stainless Steel 316L Wetted Part Aluminum powder coated Housing option Stainless Steel 316L Reinforced anti-static polymer ESG protected and UV stabilized Android 7.0 or IOS 12 or greater Class Range Baud rate range1 Transmission Adaptative Data rate Spreading factor (SF) / modulation 2 Interference immunity Mode Update rate (Default & adjustable) Frequency plans RF power3 A Up to 10km From 0.3 kbps to 50kbps Downlink/Uplink Yes Refer to section 5.1 Very high OTAA 100 trames/day 800 and 900 bands Max. 14dBm ERP 1.05 kg 1.6 kg 1 The speed with which the data is transmitted. Dependent upon the bandwidth used and the spreading factor. 2 Spreading factors (e.g. graded between 7 ... 12) are automatically assigned according to the ambient conditions between the instrument and the gateway. A higher SF increases the sending time and improves the communication range, though the energy consumption of the instrument rises. 3 Amount of energy transmitted to the antenna for communication. In Europe, the maximum transmission power for the uplink is limited to 25 mW (14 dBm). NOTE Duty cycle is the fraction of time in which an end device can occupy a channel. In Europe there is a duty cycle depending on the selected channel of 0.1 % or 1 % per day. 613-00001 Page 8 of 49 LoRaWAN Valve position Sensors User Manual | English Dimensions 613-00001 Page 9 of 49 LoRaWAN Valve position Sensors User Manual | English 3 Installation of the sensor NOTE Prior any installation please carefully read the 'Safety information' in Section 1. The SENSAIO Sensor includes the following parts:
1 Valve position device 1 Battery SAFT M20 EX SV 1 Quick Start Guide 1 Allen screw M5 1 Set mounting bracket NOTE The quick start guide provides a step-by-step description of how to set the device. This can be found in the box delivered with the device. 613-00001 Page 10 of 49 LoRaWAN Valve position Sensors User Manual | English Installation Mount the bracket on the handwheel of the valve (fig.1), (fig.2), Fig. 1. Horizontal mounting Fig. 2. Vertical mounting During installation, ensure no obstructions surrounding the antenna radiation patterns. We recommend enough clearance surrounding the device. Position the gateway so that the transmission power of the device is used optimally. For this, the following recommendations should be observed:
Depending on the application, a gateway for indoor or outdoor use should be selected Between the instrument antenna and the gateway, there should be as few barriers as possible (e.g. walls and hills) The radiation characteristics of the antenna must be taken into account when positioning the gateway. If the measuring instruments are located on one level, vertical mounting of the LoRa antenna on the gateway is recommended. 613-00001 Page 11 of 49 LoRaWAN Valve position Sensors User Manual | English The location should ideally be in the middle of the area to be covered. Ensure that the gateway is mounted at a sufficient height and is not covered by anything in the immediate vicinity. NOTE Signal coverage can impact the life of the battery. Make a test survey prior installing the device 3.1 Replacing the battery NOTE Only use SAFT M20 EX SV 3 V battery only (Part# 142187103) with this device. NOTE Only carry out battery replacement procedure in a dry environment NOTE The device can only be powered by the SAFT M20 EX SV battery. The battery can be buy to any SAFT authorized reseller only. https://www.saftbatteries.com/about-us/who-saft/saft-
worldwide CAUTION There is a risk of explosion if the battery is replaced by an incorrect type. The battery must be replaced by qualified personnel only. Procedure 1. Loosen the allen screw on the side of the nut rings with M5 Allen key provided in the box 613-00001 Page 12 of 49 LoRaWAN Valve position Sensors User Manual | English 2. Unscrew the nut ring 3. Remove the antenna cap carefully without dropping the electronic cartridge. 4. Insert the battery inside the electronic cartridge 613-00001 Page 13 of 49 LoRaWAN Valve position Sensors User Manual | English 5. Ensure the sealing gasket is there and not damage 6. Fully tighten the nut ring NOTE Make sure nut ring is completely screw without gap otherwise device will not be power on. The device switches automatically and advertise below for 30s before going to LoRaWAN mode. 7. Screw back the allen screw on the side of the nut ring 8. When battery has been replaced and device is power-on, using Sensalink Mobile, go to status/battery and click on Replace. Please refer to section 4.1 Sensalink Mobile. 613-00001 Page 14 of 49 LoRaWAN Valve position Sensors User Manual | English WARNING Danger for electronic components through electrostatic discharge (ESD) Improper handling of electrical components can destroy or damage them. When the battery compartment is open, e.g. when changing the battery, sufficient ESD protection must be ensured Battery replacement must be performed by trained personnel only Battery has to be replaced only when gas atmosphere is not present. We recommend to use portable gas detector when performing this action. 3.2 Sealing procedure NOTE Sealing gasket should be replaced if any damaged is observed and free of moisture with genuine gasket only. Please contact manufacturer or authorized reseller for order. 613-00001 Page 15 of 49 LoRaWAN Valve position Sensors User Manual | English 3.3 Operate the device ON/OFF mode When device is delivered it is POWER OFF. A 5mm or 1/4-inch clearance will appear between the nut ring and the process connection as illustrate below. See below illustration. To POWER ON the device, simply fully screw the nut ring until there is no more clearance between the nut ring and the process. 5mm or -inch clearance gap NOTE Device will automatically start advertising in BLE mode during 30s after POWER ON NOTE Its mandatory to POWER OFF the device during storage, or transportation. If device if POWER ON it will automatically try to connect to a LoRaWAN gateway and drag battery down unnecessarily. BLE Advertising mode This mode is only active 30s after POWER ON the device. Double tap the antenna cap with your hand firmly as shown in the illustration to wake up the device in BLE advertising mode. The device will advertise for 30s prior switching to LoRaWAN mode. 613-00001 Page 16 of 49 LoRaWAN Valve position Sensors User Manual | English BLE Beacon mode To active the beacon mode, Beacon mode is always-on mode. Device will keep advertising (1 data per second) and data can be collected using Bluetooth Gateway. This mode is used for data extraction on site or any application requiring live data pulling. Default sampling rate is set to 1 data sample per second. Refer to section 4.1 Sensalink Mobile to active Beacon Mode. NOTE Be aware that beacon mode will drag battery down quickly. (Approximately 90 Days) BLE Beacon and advertising mode are taking into account in the battery life calculation. LoRaWAN mode LoRaWAN mode is the main operating mode with full functionality of the LoRa communication. The LoRaWAN mode is activated automatically when the 30s Bluetooth advertising mode has stopped. LoRaWAN parameters can be modified either using SENSALINK Mobile application or via LoRaWAN downlink. NOTE Device will automatically switch to LoRaWAN mode after 30s BLE advertising mode end. NOTE No data will be send via LoRaWAN mode when BLE Beacon mode or advertising mode is active. 3.4 Battery life The battery life is displayed as a percentage value vue LoRaWAN transmitted or locally by Bluetooth using SENSALINK mobile application. The calculation of the approximate value is based on an internal algorithm measuring each processing time with compensated in temperature to -10Deg, 10DegC, 30DegC and 50DegC. Since the battery life is influenced by many factors, this value is only an approximation. At value below 25% a battery change is recommended. If the battery is completely discharged, no more value is transmitted via the radio interface. Here below an estimated battery life calculation for Sensa.io Valve position device:
Tests conditions SensaIO Sensor Product storage before use: 1 year maximum Measurements have been done on firmware version 1.1 at 0C in May 2021 VALVE POSITION Tests conditions SensaIO Sensor Product storage before use: 1 year maximum Measurements have been done on firmware version 1.1 at 25C in May 2021 VALVE POSITION LoRa TX periodicity 288 LoRa TX per day (every 5) 144 LoRa TX per day (every 10) 96 LoRa TX per day (every 15) 72 LoRa TX per day (every 20) 48 LoRa TX per day (every 30) 32 LoRa TX per day (every 45) 24 LoRa TX per day (every 60) 16 LoRa TX per day (every 90) 12 LoRa TX per day (every 120) LoRa TX periodicity 288 LoRa TX per day (every 5) 144 LoRa TX per day (every 10) 96 LoRa TX per day (every 15) 72 LoRa TX per day (every 20) 48 LoRa TX per day (every 30) 32 LoRa TX per day (every 45) 24 LoRa TX per day (every 60) 16 LoRa TX per day (every 90) 12 LoRa TX per day (every 120) SensaIO lifetime in SF7 8 years and 262 days 9 years and 311 days 10 years and 109 days 10 years and 197 days 10 years and 288 days 10 years and 351 days 11 years and 19 days 11 years and 52 days 11 years and 69 days SensaIO lifetime in SF7 6 years and 352 days 7 years and 245 days 7 years and 343 days 8 years and 29 days 8 years and 83 days 8 years and 119 days 8 years and 138 days 8 years and 157 days 8 years and 167 days SensaIO lifetime in SF12 1 year and 147 days 2 years and 181 days 3 years and 136 days 4 years and 33 days 5 years and 72 days 6 years and 125 days 7 years and 46 days 8 years and 48 days 8 years and 273 days SensaIO lifetime in SF12 1 year and 127 days 2 years and 120 days 3 years and 27 days 3 years and 240 days 4 years and 190 days 5 years and 131 days 5 years and 332 days 6 years and 214 days 6 years and 359 days 613-00001 Disclaimer Due to the internal chemistry of the battery, the autonomy results beyond 7 years should be considered as highly approximate. Disclaimer Due to the internal chemistry of the battery, the autonomy results beyond 7 years should be considered as highly approximate. Page 17 of 49 LoRaWAN Valve position Sensors User Manual | English 3.5 Installation of Valve position Sensor WARNING Ensure the suitability of the valve position measuring instrument and its media resistance within the application through proper choice of materials. Non-observance can result in serious injury and/or damage to property and the environment. CAUTION Damage to the instrument In order to prevent any damage to the instrument, follow below recommendation:
The device must not be subjected to any mechanical loading Make sure the threaded connections are clean and undamaged The device should be installed in such a way that process-related electrostatic charges can be excluded. Ensure the antenna cap is not damaged To avoid electrostatic charge build-up, it must not be rubbed or cleaned with solvents or anti-static cloth. When cleaning the device, make sure that the cleaning agent used does not corrode the housing surface and the gaskets. 613-00001 Page 18 of 49 LoRaWAN Valve position Sensors User Manual | English 3.6 Grounding NOTE Functional grounding terminal This symbol identifies the terminal which is intended for connection to ground to mitigate electromagnetic interference (EMI). Device should be grounded or earthed in accordance with national and local electrical codes. It is necessary to ensure conductivity (Resistance less than 0.2M) between the device and equipment. Grounding impedance equal or less of 5 is recommended. In order to ensure grounding through the process connection while maintaining the seal can be done in several ways. If continuity between the ground terminal and the ground electrode cannot be ensured, use the following cables and a round crimp terminal for M4/M3 grounding terminal with insulation sleeve as per Figure below. NOTE While using Teflon tape properly tighten and measuring the resistance afterwards Insulated Cables for industrial equipment such as;
o 600V polyvinyl chloride insulated wires AWG 14 to 13 (2 to 2.6 mm2) o In each case, it is recommended to ensure that the connection is made by measuring the ground resistance. 613-00001 Page 19 of 49 LoRaWAN Valve position Sensors User Manual | English 3.7 Serial Number The Device EUI and the Device Address are unique numbers to the piece of equipment it is attached to. This cannot be changed and will remain with the product for its lifetime. Software copyright Certain computer programs contained in this product [or device] were developed by EDGE TECHNOLOGIES SAS. Copyright EDGE TECHNOLOGIES SAS. 2022 All Rights Reserved EDGE TECHNOLOGIES SAS grants the legal user of this product (or device) the right to use Sensa.ios firmware solely within the scope of the legitimate operation of the product (or device). No other right is granted under this license. In particular and without prejudice to the generality of the foregoing, Sensa.ios firmware may not be used, sold, licensed, transferred, copied or reproduced in whole or in part or in any manner or form other than as expressly granted here without the prior written consent of EDGE TECHNOLOGIES SAS. 613-00001 Page 20 of 49 LoRaWAN Valve position Sensors User Manual | English 4 App and Device 4.1 Sensalink Mobile Sensa.io device has no display. Though, we are providing free-of-charge a mobile application named Sensalink that will help you to visualize data and configure the device. Sensalink Mobile is available on both App Store and Google Play. NOTE Only user with granted access from your organization administrator can connect to the device using Sensalink Mobile. Please ask your manager to grant you an access that consists of an email and a password. Please use the following QR code to download the last version of Sensalink Mobile. NOTE Only user with granted access and right can connect to the device using Sensalink Mobile. Please ask the administrator of your organization ID to get an access. User creation and user right can be managed using Sensalink Web. Please refer to section 4.2 Sensalink Web. NOTE The version used for Bluetooth 5.0 in that case, it is the users responsibility to have a version of OS and hardware compatible with Bluetooth 5.0. 613-00001 Page 21 of 49 LoRaWAN Valve position Sensors User Manual | English Sensalink Mobile App Tree Before to start:
Make sure the last version of the application is downloaded from the App Store or Google Play of your phone. Turn on Bluetooth and the location features. Launch the SENSALINK Mobile app. NOTE Sensalink is only compatible with Android 7.0 or IOS 12 or greater. NOTE Internet connectivity is mandatory for the first connection of Sensalink with the device in order to activate the warranty. 613-00001 Page 22 of 49 LoRaWAN Valve position Sensors User Manual | English Log-in and first steps:
Enter your Login-Email and password (if you have no login and password, contact the administrator of your organization ID). Click Login Click on Forget your password to reset your password Click on Offline Mode if you have no internet connectivity on your smartphone and want to access your device settings. Please refer to section Off line mode for further information. NOTE The device is activated once you connected to it from the Sensalink application. Ensure you have accepted Bluetooth Pairing request to do it. Off-Line mode:
Offline mode has been developed in order to allow specific user and sensalink application to access the device settings without needs of internet. Please note user must have the right from Sensalink organization admin. Go to status/device and click Swap Offline , then click Apply Click home to display the list of devices in Offline mode. Click Swap Online on device menu, to put back device to Online Mode. NOTE Internet connection is mandatory on the smartphone to swap online/offline. NOTE Please refer to section 4.2 Sensalink Web User right to grant acces on Sensalink Mobile Home menu:
613-00001 Page 23 of 49 LoRaWAN Valve position Sensors User Manual | English If you click on the expanded menu icon in the upper right corner , you open Settings where you can change language or units of measurement . This menu is still available after connection to the device. To log out, just click on the same menu and choose Logout . Connect the device:
After you configure your settings in the application, click side to return to home menu. A list of devices will be refresh automatically. It may take few second before you can find your device on the list. If your device is not shown in the list, ensure the device is power on. Please refer to section 3.3 Operate the device. Check BLE and location (GPS) on your smartphone if active or your smartphone fits with the compatibility. Click on the device name listed to connect. Confirm the Bluetooth Pairing request and Current Location request from the pop-up. When connected to the device, measure page will display live data. If you cannot access the device, it may due to :
The device is too far Your mobile phone is not compatible Your mobile phone is not connected to Internet The device is damaged The battery is too low Someone is already connected to the device Device is in sleep mode. Double tap to wake it up. 613-00001 Page 24 of 49 LoRaWAN Valve position Sensors User Manual | English Measure menu Measure tab is the device interface menu displaying live device data. From here, you have an access to the main information about your device: Value , Process Var and Graph . by on clicking Change your device name and add a photo the Information tab . Click on the existing device name to change it
(). To change your device photo, click on the photo pictogram of the Device Update menu(). NOTE Device information and unit settings will be available on Sensalink web hence if you change, information will be recovered. Status menu Status menu gives you access to the Signal, Shock and Device Temperature data for quality purpose. Battery, and Device are expanded menus, click on it to get access to settings as described below. To check out estimated battery life, go to Battery If you need to replace the battery, go to Battery and click Replace in order to reset the battery life calculation. Battery life calculation is based on in-house algorithm. Page 25 of 49 613-00001 LoRaWAN Valve position Sensors User Manual | English NOTE When replacing the battery, strictly follow the safety rules. Consult the section 3.1 Replacing the battery. Device Device menu contains the next information:
Serial number Date of manufacture Last calibration Firmware version To calibrate your device or to do the Device Firmware Update, click on Device and follow the instructions in the Device section below. NOTE Device Firmware Update and device Calibration are only available for authorized person. Please contact your Sensalink Organization Admin. NOTE Valve position device do not have alarm menu. The device will automatically wake-up when valve is moving then will send LoRaWAN information. When device is asleep LoRaWAN wake will happens very 24hrs. If you are granted person to access the calibration and firmware update, follow the next steps to calibrate your device:
Click Calibrate your device button to access the calibration tab Take the device in your hand. Calibrate the Accelerometer according to the animated guide keeping the device in your hand. If the Calibration indicator is green, you can go to the next stage of calibration (5) Calibrate the Magnetometer 6 keeping your device in your hand and following the animated instruction. Do till the device indicator becomes green same as with Accelerometer. 613-00001 Page 26 of 49 LoRaWAN Valve position Sensors User Manual | English Calibrate the Gyroscope 7 using the targeting valve. To do this, follow the instructions of the next stage of calibration till all the circles will be ticked (8). Click Apply 9 to save your changes If you recalibrate your device, you will see the Calibration Reset pop-up window. Click Next 10 to continue and follow the aforementioned instructions 613-00001 Page 27 of 49 LoRaWAN Valve position Sensors User Manual | English If you are granted person to access the firmware update:
Click on the DFU button Confirm Bluetooth Pairing request Wait till the end of update NOTE Please note that alarm periodicity will impact the battery life. Such parameter is taking into account in the battery life calculation and we invite you to refer to battery menu ensure battery life consumption is acceptable for your application. NOTE Internet connectivity is mandatory for DFU. 613-00001 Page 28 of 49 LoRaWAN Valve position Sensors User Manual | English Network Network menu contains data/settings about your LoRaWAN network. You can modify settings by enabling or disabling the options:
Click the Parameters icon Modify the options Scroll down to save and click Apply Settings LoRaWAN Specific Glossary for better LoRaWAN settings understanding:
DevEUI (Extended Unique Identifier) is a 64-bit unique identification key assigned to an end device by the manufacturer. This value is linked to the hardware and it cannot be modified. ADR (Adaptive Data Rate) this is the optimization feature of the LoRaWAN allowing to use an optimize data rate. AppEUI is the unique ID of the Application server. This is the destination of the messages sent by the nodes. This can be change on Network settings. ACK (Automatically Acknowledged) this is the mode that allows to consider a message to be successfully delivered immediately after it is sent. It will consume more battery. TX Retries these are attempts of the device to connect to an AP but with too weak signal. TX Data Rate represents rate at which data packets being transmitted 613-00001 Page 29 of 49 LoRaWAN Valve position Sensors User Manual | English 4.2 Sensalink Web Sensalink Web is an online platform to manage access to user management, device activation and document management. Sensalink Web Tree Login Go to the https://sensalink.cloud Enter your email and password you have created You can download Sensalink Mobile by scanning the QR code to interact directly with the device. 613-00001 Page 30 of 49 LoRaWAN Valve position Sensors User Manual | English Users After successful log-in the first page you will see is user menu, user rights menu and devices. From here, you can manage your users, edit information about your profile and information about other users, affiliated to you. You have also access to Language settings, Your own profile Settings and Logout button from every page of the platform. You may consider creating new Roles prior adding new users. To edit your own profile, click on your username on upper left corner To add a new user, click on Create a new user To edit an existing user, click on edit icon on the user table To switch languages, click on the Languages menu on the upper right corner. To logout, click on Logout button on lower left corner. 613-00001 Page 31 of 49 LoRaWAN Valve position Sensors User Manual | English After clicking on your name in the right menu, you can modify information about yourself:
If you add a new user, ensure you have created an attributable role to them in the menu Roles (see the next chapter). The same window you will see while updating information about the existing user. Choose the role in the drop down list . Roles From here, you can manage role with rights of your different admin, with the ability to edit and create new ones easily. 613-00001 Page 32 of 49 LoRaWAN Valve position Sensors User Manual | English To enable or disable role editing, click on (). To create a new role, click on create new role (). To change information about a role, go to the role list and click on the Edit
() button of role you want change information about. Devices From here, you can see and manage all your sensors and find their information, Name, Type, Conformity, Calibration. To filter sensor types, click on the different types (). To select/deselect all or a single sensor, click on (). 613-00001 Page 33 of 49 LoRaWAN Valve position Sensors User Manual | English To view sensor details, click on (). To export details, click on (). To get of all the selected sensors, the APPKEYS click on (), the Conformity click on
() and the Calibration certificate click on (). To have the details of the selected sensor, click on (), on this page you can also get the APPKEY by clicking on (). To get the payload and change location click on (). To see the Conformity, click on () and the Calibration certificate, click on (). 613-00001 Page 34 of 49 LoRaWAN Valve position Sensors User Manual | English 5 LoRawan Payload NOTE The SENSA.iO device uses the class A version of the LoRaWAN communication, following the v1.0.3 specification. All missing information here is assumed to follow the reference document: https://lora-alliance.org/wp-content/uploads/2020/11/lorawan1.0.3.pdf 5.1 LoRaWAN Regional parameters The reference document used is available here : https://lora-alliance.org/wp-
content/uploads/2021/05/RP002-1.0.3-FINAL-1.pdf The SENSA.iO device follows all the regulations described in the above reference. The SENSA.iO device is compliant with the regional parameters for the following regions in the table below, with the following DataRate set adaptations. The LoRaWAN regions not addressed in this table cannot be used by the SENSA.iO device because they are out of the antenna capability range. Region EU863-870 US902-928 AU915-928 AS923 KR920-923 IN865-867 RU864-870 Available DataRate
[SF12/125kHz;SF7/125kHz]
[SF10/125kHz;SF8/500kHz]
[SF12/125kHz;SF8/500kHz]
[SF12/125kHz;SF7/125kHz]
[SF12/125kHz;SF7/125kHz]
[SF12/125kHz;SF7/125kHz]
[SF12/125kHz;SF7/125kHz]
613-00001 Page 35 of 49 LoRaWAN Valve position Sensors User Manual | English 5.2 Data formatting NOTE For LoRaWAN regional limitations reasons, the uplink payload size might be reduced to 11 bytes. This could happen for US915 in DR0 (SF10). For the valve position sensor data uplink, this would imply the temperature would be missing. Data Uplink Bit 7 6 5 4 3 2 1 0 8-bit Sensor Type (see table below for sensor type encoding) 3-
bitHwVer sion(1-bit LSB) 7-bit Battery Level (6-bit LSB) 3-bit FwMajorVersion 9-bit DeviceTemp (6-bit LSB) 2-bit Msg Type
(seebelow) 3-bit FwMinorVersion 7-bit Battery Level (1-bit MSB) 3-bit HwVersion
(2-bitMSB) 13-bit DeviceShock (5-bit LSB) 9-bit DeviceTemp (3-bit MSB) 13-bit DeviceShock (8-bit MSB) Reserved Swap Failure Flag Sensor warning Flag Accele ometer Failure Flag Memory Failure Flag Sensor Failure Flag LoRaWAN Failure Flag Secure Failure Flag 8-bit Valve opening percentage ([0:100] %, unsigned integer) 8-bit Valve opening time (s, unsigned integer) Byte 0 1 2 3 4 5 6 7 8 In byte 0, the Sensor Type is encoded on 8 bits, and can be one of the following:
0x00: Test (internal) 0x01: Valve position sensor 0x02: Temperature RTD sensor 0x03: Motion sensor 0x04: Temperature TCK sensor 0x05: Gas sensor (ongoing) 0x06: Vibration sensor (ongoing) 0x07: Loadcell sensor (ongoing) 0x08: Differential valve position sensor (ongoing) In byte 1, the Msg Type is encoded on 2 bits, and can be one of the following:
0x00: Frist 0x01: Periodic 0x02: Alert 0x03: Log 613-00001 Page 36 of 49 LoRaWAN Valve position Sensors User Manual | English Configuration Uplink This payload is triggered by an internal change of the LoRaWAN configuration via BLE, or in response of the LoRaWAN downlink config. NOTE Configuration uplinks are only valid for devices with FW version 1.1.2 and above. LoRaWAN configuration uplink Below is the structure of the LoRaWAN configuration uplink Byte 0 1 2 3 4 5 6 7-10 11 12 13 Name/Value Description 0xFF 0x06 Status TxDatarate Reserved TxRetries AppPort TxPeriodicity IsTxConfirmed AdrEnable PublicNetworkEnable Configuration message token LoRaWAN configuration message token 0 = OK, when triggering configuration downlink was accepted, >0 otherwise 8-bit unsigned 8-bit unsigned 8-bit unsigned 8-bit unsigned LoRaWAN TX Period (32-bit unsigned LSB) 8-bit unsigned 8-bit unsigned 8-bit unsigned 613-00001 Page 37 of 49 LoRaWAN Valve position Sensors User Manual | English Downlink Downlinks are used to update the device LoRaWAN configuration, or to request the data log. NOTE An dummy empty configuration downlink on the respective port (4 or 6) will force the device to send its current LoRaWAN configuration (4) and Data log (6). LoRaWAN configuration downlink This command updates the LoRaWAN configuration of the device. It must be sent on the AppPort 4 Byte Name/Value Type TxDatarate 8-bit unsigned 0 1 2 3 4-7 8 9 10 Reserved TxRetries AppPort TxPeriodicity IsTxConfirmed AdrEnable 8-bit unsigned 8-bit unsigned LoRaWAN TX Period
(32-bit unsigned LSB) 8-bit unsigned 8-bit unsigned PublicNetworkEnable 8-bit unsigned Valid range Region dependent. See LoRaWAN specifications Default value 0 (DR0)
[0;5]
[1;254]
>= 60000 ms
(=1 minute) 0 (no retries) 2 900000 ms
(15minutes)
[0;1]
[0;1]
[0;1]
0 (Unconfirmed) 1 (Adaptative DataRate Enabled) 1 (Public Network enabled) Log request downlink This command triggers the send of a data payload of type LOG. It must be sent on the AppPort 6 with the following payload:
Byte 0 1 2 3 4 5 6 Value 0x52 0x45 0x50 0x4C 0x41 0x59 0x00 Description
'R' ASCII char
'E' ASCII char
'P' ASCII char
'L' ASCII char
'A' ASCII char
'Y' ASCII char NULL terminating ASCII string Log message type description They are sent in response of a log request downlink (see below). It is useful to recover the latest data sent, in case of temporary network failure for instance. It returns the longest LoRaWAN payload possible with the last uplinks contents. The structure is the same as the 613-00001 Page 38 of 49 LoRaWAN Valve position Sensors User Manual | English Data uplink. Only the pattern of the sensor dedicated field differs from regular data uplinks :
It is a list of elements formed as follow:
[(timestamp1, data1), (timestamp2, data2), (timestampn, datan)]
Each timestamp is on 4 bytes (LSB), corresponding to the data sampling time (GPS time, see GPS, UTC, and TAIClocks for details). Each data is on 1 bytes, corresponding to the data sampling valve position (8-bit Valve opening percentage ([0:100] %, unsigned integer) NOTE Uplink decoders and Downlink encoders are available in JS in the following repository:
https://bitbucket.org/sightgate/sensaiodecoder/src/main/
613-00001 Page 39 of 49 LoRaWAN Valve position Sensors User Manual | English 6 Spare parts A B C D
. Y T Q
. O N G N W A R D I
. O N T R A P E M A N T R A P
. O N M E T I 8 7 6 5 4 3 1 1 1 1 1 1 1 1 1 1 1 1 1 1 r o 7 0 0 0 0
0 1 6
W L 3 3 0 0 0
0 1 6
D H r o 1 0 0 0 0
5 1 4
W L 8 0 0 0 0
5 1 4
D H t u N r D H g n R i o W i L g n R t u N 6 1 1 0 0
0 1 6 4 0 0 0 0
5 3 4 M m 3 x 2 4 M K F g n i r
O 2 2 0 0 0
0 1 6 1 0 0 0 0
8 3 4 4 L x 8
, 0 x 5 M b u G r 2 0 0 0 0
7 1 6 2 0 0 0 0
1 9 9 g n i l p u o C b u S g n i s u o H 5 1 0 0 0
0 1 6 1 0 0 0 0
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I G N W A R D D E L L O R T N O C N U 4 3 2 1 A B C D E F 613-00001 Page 40 of 49 LoRaWAN Valve position Sensors User Manual | English 7 Certifications and approvals The purpose of this document is to identify the key information relating to explosion protection that is to be included in the user instructions. This include requirements of EN /
IEC 60079-0:2017 Clause 30.1, EN / IEC 60079-11:2011 Clause 13, and EU directive 2014/34/EU Annex II 1.0.6. 7.1 Equipment marking The following information is on the certificates, and hence is not required if copies of the certificates form part of the user instructions. This product is composed of 3 or 4 marking plates attached to the device using stainless steel wire tag. Marking plates are made of stainless steel 304 with dimension 80mm (L) by 15mm
(W) and laser engraved police Gotham size 2.1mm (5.6pt). Manufacturing Plate:
SENSA.VALV-XXX-X-X-X-X-X-X-X SNS-FRYYMMDDXXXX 1C:A8:52:XX:XX:XX:XX:XX
- Device manufacturer and address
- Device model number (Refer to Section 9 Ordering Number)
- Device serial number
- DevEUI a 64-bit globally-unique Extended Unique Identifier (EUI-64)
- QR code LoRaWAN Device Identification QR Code Full (Refer Standard QR tagging scheme https://lora-alliance.org/resource_hub/tr005-lorawan-device-identification-qr-
codes/
NOTE Serial number indicates country of manufacturing (e.g FR ) and date of manufacturing. 613-00001 Page 41 of 49 LoRaWAN Valve position Sensors User Manual | English Safety Plates (European / UK / International) :
Gas and Dust ATEX plate:
Mining ATEX plate:
- CE mark (EC conformity) + Notify Body 2776
- UK mark (UKCA conformity) + Approved Body 2503
- Approvals ATEX/IECEX marking for hazardous area with temperature class
- Waste Instructions
- Consulting operating instructions
- Warning indication II 1 GD Ex ia IIC T4 Ga Ex ia IIIB T200 135C Da
-40C Tamb +59C I M 1 Ex ia I Ma Or
-40C Tamb +59C If the user instructions are common to both Group 1 and Group II products both marking sets shall be included. IEC 60079-0:2017 ; EN IEC 60079-0:2018 IEC 60079-11:2011 ; EN 60079-11:2012 Do not open when an explosive gas atmosphere is present Use only Saft battery M20 EX SV. 613-00001 Page 42 of 49 LoRaWAN Valve position Sensors User Manual | English Safety / FCC / IC Plates (USA / CANADA) :
- MET logo and file number
- Conformity with country-specific directives
- Waste Instructions
- Consulting operating instructions
- Contains IC for Canada
- Contains FCC for USA NOTE Devices described in this manual should be recycled. They may not be disposed in the municipal waste disposal services according to the Directive 2012/19/EC on waste electronic and electrical equipment (WEEE). Devices can be returned to the supplier within the EC, or to a locally approved disposal service for eco-friendly recycling. Observe the specific regulations valid in your country. Sensor Plate:
- Sensor type
- Sensor range
- Process type
- Calibration certificate
- TEB (Total Band Error)
- Miscellaneous 613-00001 Page 43 of 49 LoRaWAN Valve position Sensors User Manual | English 7.2 Installation, maintenance and repair The instruction shall contain statements reflecting the following:
Instructions on how to safety replace the battery. The device shall be installed in accordance with IEC 60079-14 or EN 60079-14 by a suitably qualified person. The installation of the Sensaio shall ensure that no part of the main body of the enclosure (not including external probes) can exceed the temperature range of -40C Tenc +59C The device shall be installed onto earthed metalwork in a location that would give the non-metallic parts of the enclosure a low risk of the build-up of electrostatic charge, and so as to avoid an ignition hazard due to the impact or friction on the aluminium nut ring. There are no user-replaceable or repairable parts other than the battery by qualified personnel only, and that faults must be rectified by return to the manufacturer. The installation shall ensure that there is a low risk of mechanical danger to the device. 7.3 Specific Conditions of Use i. ii. The installation shall minimize the risk from electrostatic discharge. The user shall minimize an ignition hazard from impact or friction on the aluminum nut ring. iii. The installation shall ensure a low risk of mechanical danger. 7.4 Availability of instructions The operating instructions will be translated into one of the EC community languages as and when requested by the end user country requirements. All sales literature and literature describing the equipment will not contradict the instructions with regard to the safety aspects. Paper copies of the instructions shall be provided with every product placed on the market. 613-00001 Page 44 of 49 LoRaWAN Valve position Sensors User Manual | English 7.5 Regulatory Compliance Statements NOTE Please confirm that an installation region fulfills an applicable standard. Observe the test certification, provisions and laws applicable in your country during connection, assembly and operation. These include, for example:
National Electrical Code (NEC NFPA 70) USA Canadian Electrical Code (CEC) Canada Further provisions for hazardous area application are for example:
EN 60079-0 EN IEC 60079-0 EN 60079-11 CE Conformity:
The applicable directives and applied standards with their revision levels can be found in the EU declaration of conformity on http://www.sensalink.cloud/
The Authorized Representative for this product is:
EGDE TECHNOLOGIES 735 Rue du Lieutenant Parayre 13290 AIX-EN-PROVENCE France This product complies with the following directives:
RE Directive (EU Countries) Electro Magnetic Compatibility (EMC) 2014/30/EU Radio Equipment Directive (RED) 2014/53/EU Low Voltage Directive (DBT) 2014/35/UE ATEX Directive (2014/34/EU) Directive of the European Parliament and of the Council on the harmonization of the laws of the member States relating to equipment and protective systems intended for use in potentially explosive atmospheres. PE directive 2014/68/EU Directive of the European Parliament and of the Council on the harmonization of the laws of the member States relating to Valve position equipment Directive. Reduction of Hazardous Substances (RoHS) (2011/65/EU) Safety: IEC 61010-1:2010 + A1:2016 (Indoor/Outdoor use), Meets Pollution Degree 3 Pollution degree describes the degree to which a solid, liquid, or gas which deteriorates dielectric strength or surface resistivity is adhering. 3 to be found in industrial environment or construction sites. 613-00001 Page 45 of 49 LoRaWAN Valve position Sensors User Manual | English FCC compliances (United States) FCC ID : 2A2T5-SENSA915A FCC Approval 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. Co-located:
This transmitter must not be co-located or operated in conjunction with any other antenna or transmitter. FCC WARNING Changes or modifications not expressly approved by the party responsible for compliance could void the users authority to operate the equipment. NOTE This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be requiered to correct the interference a his own expense. RF Exposure Compliance:
This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment and meets the FCC radio frequency (RF) Exposure Guidelines. This equipment should be installed and operated keeping the radiator at least 20 cm or more away from persons body. ISED compliances (Canada) IC : 29177-SENSA915A This device contains licence-exempt transmitter(s)/receiver(s) that comply with Innovation, Science and Economic Development Canadas licence-exempt RSS(s). Operation is subject to the following two conditions:
(1) This device may not cause interference.
(2) This device must accept any interference, including interference that may cause undesired operation of the device. French :
Lmetteur/rcepteur exempt de licence contenu dans le prsent appareil est conforme aux CNR dInnovation, Sciences et Dveloppement conomique Canada applicables aux appareils radio exempts de licence. Lexploitation est autorise aux deux conditions suivantes :
(1) Lappareil ne doit pas produire de brouillage ;
613-00001 Page 46 of 49 LoRaWAN Valve position Sensors User Manual | English
(2) Lappareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible den compromettre le fonctionnement. RF Exposure Compliance:
This equipment complies with ISED radiation exposure limits set forth for an uncontrolled environment and meets the RSS-102 of the ISED radio frequency (RF) Exposure rules. This equipment should be installed and operated keeping the radiator at least 20 cm or more away from persons body. French :
Cet quipement est conforme aux limites dexposition aux rayonnements nonces pour un environnement non contrl et respects les rgles dexposition aux frquences radiolectriques (RF) CNR-102 de lISDE. Cet quipement doit tre install et utilis en gardant une distance de 20 cm ou plus entre le radiateur et le corps humain. NOTE CAN ICES-003(A) / NMB-003(A) 613-00001 Page 47 of 49 LoRaWAN Valve position Sensors User Manual | English 8 Technical Battery data 3 V lithium manganese dioxide D-size spiral cell Electrical characteristics
(Typical values relative to cells stored up to one year at + 30C max) 12.4 Ah Nominal capacity (at 150 mA, + 20C, 2.0 V cut-off) 3.2 V Open circuit voltage (at + 20C) 3.0 V Nominal voltage (under 1 mA at +
20C) Nominal energy (at 150 mA, + 20C, 2.0 V cut-off) Pulse capacity Recommended maximum continuous discharge Operating conditions Operating temperature range Storage temperatures (Recommended) Physical characteristics Diameter (max)
- 40C / + 72C (- 40F / + 161F)
+ 30C (+ 86F) max 35 Wh up to 8.0 A 3.5 A 34.2 mm (1.35 in) Height for the tabbed version (max) 61.5 mm (2.42 in) Typical weight 115 g Li metal content NOTE approx.3.5g Prior any installation please carefully read the 'Safety information' in Section 1 or for further safety information, scan this code:
613-00001 Page 48 of 49 LoRaWAN Valve position Sensors User Manual | English 9 Ordering number Ordering Details SENSA. XXXX-
XXX-
X-
X-
X-
X-
X-
X-
X Model Valve Position sensor VALV Type Inertial Measurment IMU Measurement Range Max range 0-100%
Process connection M10 Female Mounting option Mounting support Housing Material Aluminium Powder Coated Stainless Steel 316L
(Mandatory for Mining) Safety Standard ATEX/IECEX/UKCA
(Gas/Dust HAZLOC NEC USA /
CSA Canada ATEX/IECEX/UKCA
(Mining) INMETRO Frequency Plan EU 868 US 915 AU915 AS923 AS923-2 AS923-3 KR920 IN865 RU864 AS923-4 Options Null 613-00001 1 1 1 L H 1 2 3 4 1 2 5 7 8 9 10 11 12 13 N Page 49 of 49
1 2 3 4 | Label Location | ID Label/Location Info | 385.94 KiB | May 24 2023 / June 01 2023 |
Model: SENSAiO Doc. No.: FCCIC-SENSA915A Date: 11 April, 2023 Label Location PNM: SENSAiO HVIN : SENSA915A 4/4 Model: SENSAiO Doc. No.: FCCIC-SENSA915A Date: 11 April, 2023 1. Label location Sub Cartridge module Location Figure3. Label location FCC ID :2A2T5-SENSA915A IC : 29177-SENSA915A 4/4 Model: SENSAiO Doc. No.: FCCIC-SENSA915A Date: 11 April, 2023 2. HMN marking Location TEMP Product Labeling 4/4 Model: SENSAiO 3. HMN marking Location PRESS Doc. No.: FCCIC-SENSA915A Date: 11 April, 2023 Product Labeling 4/4
1 2 3 4 | Label Sample | ID Label/Location Info | 568.88 KiB | June 01 2023 |
Model: SENSAIO Doc. No.: FCCIC-SENSA915A Date: 8 Mar, 2023 Label Sample PMN: SENSAiO HVIN : SENSA915A 1/4 Doc. No.: FCCIC-SENSA915A Model: SENSAIO Date: 8 Mar, 2023 1. Label design Sub Cartridge module 185200 00-4 COEF
Ko}
SENSA.IO =
Ey Figure1. Label design 2. Label photo Sub Cartridge module Rs le) NIAH Figure2. Label photo FCC ID :2A2T5-SENSA915A IC : 29177-SENSA915A 2/4 Model: SENSAIO Doc. No.: FCCIC-SENSA915A Date: 8 Mar, 2023 3. HMN marking design (SENSA.PRES):
O SENSA.IO *":
MODEL : SENSA.PRES DEVEUI:
EDGE TECHNOLOGIES 735 RUE DU LIEUTENANT PARAYRE 13290 AIX-EN-PROVENCE FRANCE Cl |, Div 1GP. A,B, C,D T4/ CLI, Zone 0, AEx ia lIC T4 Ga CL Il, Div 1 GPF, G T135C / Cl. Il Zone 20, AEx ia IIIB T135C Da Contains FCC ID : 2A2T5-SENSA915A, WARNING: For safe installation and use, read and adhere to all safety warnings bie in the instruction manual. O 15326 A CL. |, Div.1GP. A, B, C, D T4 / Ex ia IIC T4 Ga / Ex ia IIIB T135C Da Contains IC : 29177-SENSA9I15A WARNING: For safe installation and use, read and adhere to all safety warnings in the instruction manual. Avertissement: Pour une installation et une ut in sires, lisez et respectez tous les avertissements de scurit figurant dans le manuel d'instructions. 3/4 Model: SENSAIO 4. Doc. No.: FCCIC-SENSA915A Date: 8 Mar, 2023 HMN marking design (SENSA.TEMP):
O SENSA.IO *":
MODEL : |SENSA.TEMP. DEVEUI:
EDGE TECHNOLOGIES 735 RUE DU LIEUTENANT PARAYRE 13290 AIX-EN-PROVENCE FRANCE Cl |, Div 1GP. A,B, C,D T4/ CLI, Zone 0, AEx ia lIC T4 Ga CL Il, Div 1 GPF, G T135C / Cl. Il Zone 20, AEx ia IIIB T135C Da Contains FCC ID : 2A2T5-SENSA915A, WARNING: For safe installation and use, read and adhere to all safety warnings bie in the instruction manual. O 15326 A CL. |, Div.1GP. A, B, C, D T4 / Ex ia IIC T4 Ga / Ex ia IIIB T135C Da Contains IC : 29177-SENSA9I15A WARNING: For safe installation and use, read and adhere to all safety warnings in the instruction manual. Avertissement: Pour une installation et une ut in sires, lisez et respectez tous les avertissements de scurit figurant dans le manuel d'instructions. 4/4
1 2 3 4 | Agent Letter | Cover Letter(s) | 465.81 KiB | May 24 2023 / June 01 2023 |
Zoho Sign Document ID: 292CDBFE-CUPI1DMFTHON3UXKQHT2Q_TWNXYV8D_KX2M7JA6C45K Aix-en-Provence, on December 18th, 2022 An: TIMCO Engineering Inc. 849 N.W. State Road 45 P.O. Box 370 Newberry, Florida 32669 Authority to Act as Agent On our behalf, I appoint M. Olivier HEYER from Emitech Montpellier 145 rue du Massacan 34741 VENDARGUES CEDEX FRANCE, to act as our agent in the preparaon of this applicaon for equipment cercaon. I cerfy that submied documents properly describe the device or system for which equipment cercaon is sought. I also cerfy that each unit manufactured, imported or marketed, as dened in the Federal Communicaons Commissions regulaons will have axed to it a label idencal to that submied for approval with this applicaon. For instances where our authorized agent signs the applicaon for cercaon on our behalf, I acknowledge that all responsibility for complying with the terms and condions for cercaon, as specied by TIMCO Engineering Inc., sll resides with EDGE TECHNOLOGIES, 735 Rue du Lieutenant Parayre, 13290 Aix-En-Provence. This authorizaon is valid unl further wrien noce from EDGE TECHNOLOGIES.
[Nom, Date et SIGNATURE]
SAS au capital de 60 000 SIRET 85214374200017 APE 7112B TVA FR21852143742 735 Rue du lieutenant Parayre 13290 Aix-en-Provence Tel. 04 42 61 66 00 E-mail: info@edgetech.fr url : www.edgetech.fr
1 2 3 4 | Attestation Statement part 2.911(d)(7) | Attestation Statements | 93.38 KiB | May 24 2023 / June 01 2023 |
EDGE TECHNOLOGIES 735 AVENUE DU LIEUTENANT PARAYRE 13290 AIX EN PROVENCE FRANCE Aix-en-Provence, on February 23rd, 2023 Federal Communications Commission Authorization and Evaluation Division 7435 Oakland Mills Road Columbia, MD 21046 USA FCC ID: 2A2T5-SENSA915A Subject: US Agent - Attestation Statements Part 2.911(d)(7) Filing Applicant: EDGE TECHNOLOGIES SAS Service Type: Original Application Modular Approval Type: Limited Modular Host Marketing Name: SENSA.VALV EDGE TECHNOLOGIES certifies, that as of February 23rd, 2023, we have designated FCC US Agent, LLC to accept service of process on our behalf for FCC ID: 2A2T5-SENSA915A. EDGE TECHNOLOGIES, accepts to maintain an agent of service of process in the United States for no less than one year after either the grantee has permanently terminated all marketing and importation of the applicable equipment within the U.S., or the conclusion of any Commission-related administrative or judicial proceeding involving the equipment, whichever is later. FCC US Agent, LLC, accepts as of the date of the filing of this application, the obligation of being the designated agent for the purpose of accepting service of process on behalf of EDGE TECHNOLOGIES for FCC ID: 2A2T5-SENSA915A. Designated U.S. Agent Information:
Company Name: FCC US Agent, LLC FRN: 0033402884 Address: 3722 Illinois Avenue, Saint Charles, IL, 60174, USA Contact Person: Tim Payne Phone: 708-571-3148 Email: Support@FCCUSAgent.com Sincerely, Company EDGE TECHNOLOGIES SAS Company Representative Thomas GUILLET Designated Agent Representative: Tim PAYNE Designated Agent: FCC US AGENT, LLC
1 2 3 4 | Attstn Stmt part 2.911(d)(5)(i) | Attestation Statements | 308.32 KiB | May 24 2023 / June 01 2023 |
Aix-en-Provence, on January 24th, 2022 Federal Communications Commission Authorization and Evaluation Division 7435 Oakland Mills Road Columbia, MD 21046 USA Subject: Attestation Statements Part 2.911(d)(5)(i) Filing Applicant: EDGE TECHNOLOGIES SAS FCC ID: 2A2T5-SENSA915A EDGE TECHNOLOGIES SAS (the applicant) certifies that the equipment for which authorization is sought is not covered equipment prohibited from receiving an equipment authorization pursuant to section 2.903 of the FCC rules. Sincerely, Thomas GUILLET
1 2 3 4 | Attstn Stmt part 2.911(d)(5)(ii) | Attestation Statements | 300.73 KiB | May 24 2023 / June 01 2023 |
Aix-en-Provence, on January 24th, 2022 Federal Communications Commission Authorization and Evaluation Division 7435 Oakland Mills Road Columbia, MD 21046 USA Subject: Attestation Statements Part 2.911(d)(5)(ii) Filing Applicant: EDGE TECHNOLOGIES SAS FCC ID: 2A2T5-SENSA915A EDGE TECHNOLOGIES SAS (the applicant) certifies that, as of the date of the filing of the application, the applicant is not identified on the Covered List as an entity producing covered equipment. Sincerely, Thomas GUILLET
1 2 3 4 | C2PC Letter | Cover Letter(s) | 632.08 KiB | June 01 2023 |
Aix-en-Provence, on May 22th, 2023 Subject: C2PC - Differences between HMN SENSA.VALV and SENSA.PRES/SENSA.TEMP Applicant: EDGE TECHNOLOGIES SAS Product (PMN): SENSAiO Model (HVIN): SENSA915A Host (HMN) : Original: SENSA.VALV - News: SENSA.PRES & SENSA.TEMP FCC ID: 2A2T5-SENSA915A IC ID: 29177-SENSA915A To Whom It May Concern:
Here is a description of differences between HMN SENSA.VALV and SENS.PRES/SENSA.TEMP. SENSAiO products are wireless transmitters with data measurement capability. It is composed of 2 elements :
- Electronic cartridge with radio chipset and embedded antenna which is strictly identical to SENSA.VALV described in initial FCC and ISED certification
- Deported sensor boards for process measurement : Pressure board for SENSA.PRES and Temperature board for SENSA.TEMP RF chipset and antenna are part of Electronic cartridge which is common to SENSA.VALV, SENSA.PRES and SENSA.TEMP. Differences are sensor boards and dedicated process connection mechanical part that allows to measure different physical phenomenon like :
Valve position for SENSA.VALV with IC IMU Pressure for SENSA.PRES with IC piezoresistive pressure sensor Temperature for SENSA.TEMP with RTD or TCK temperature probe Behavior of these 3 HMN are identical :
1. Cartridge wakes up periodically 2. Cartridge initiates measure on sensorboard 3. Sensorboard transmits measured data to Cartridge 4. Cartridge transmits data in RF (LoRa or BLE) 5. Cartridge goes to sleep state SAS au capital de 60 000 SIRET 85214374200017 APE 7112B TVA FR21852143742 735 Rue du lieutenant Parayre 13290 Aix-en-Provence Tel. 04 42 61 66 00 E-mail: info@edgetech.fr url : www.edgetech.fr Compliance for RF exposure requirement is demonstrated in test report. RF reports differences explanation :
RF Reports shows differences between HMN SENSA.VALV and SENSA.PRESS/SENSA.TEMP, under regulatory limits. Edge Technology confirms that neither antenna PCB design, RF passives values or gain setting have been changed and VALV, PRES and TEMP cartridges are manufactured with identical bill of materials. 1% and 10% precision RF passives deviations and mechanical differences between HMN SENSA.VALV and SENSA.PRES/SENSA.TEMP causes these gain disparities. Cartridge tested with HMN SENSA.VALV have been selected among ten other cartridges in order to have a maximum gain setup. SENSA.PRES and SENSA.TEMP cartridges have not been selected so their gains can only be lower. If you have any queries, please do not hesitate to contact us. Regards, Thomas GUILLET SAS au capital de 60 000 SIRET 85214374200017 APE 7112B TVA FR21852143742 735 Rue du lieutenant Parayre 13290 Aix-en-Provence Tel. 04 42 61 66 00 E-mail: info@edgetech.fr url : www.edgetech.fr
1 2 3 4 | Confidentiality Request Letter | Cover Letter(s) | 463.13 KiB | May 24 2023 / June 01 2023 |
Zoho Sign Document ID: 292CDBFE-T4JYEQST-ZZZOOKU89MIXDTFCGQYDTLKI7T0CJ_5OBM Federal Communicaons Commission Authorizaon and Evaluaon Division Subject: Condenality Request regarding applicaon for cercaon of FCC ID: 2A2T5-SENSA915A Aix-en-Provence, on December 18th, 2022 Applicant: EDGE TECHNOLOGIES SAS Product: SENSAiO Model: SENSA915A To Whom It May Concern:
Pursuant to Secons 0.457 and 0.459 of the Commissions Rules, we hereby request condenal treatment of informaon accompanying this applicaon as outlined below:
Exhibit Type Block Diagram Schemacs Operaonal Descripon Parts List File Name SENSA915A BlkDia.pdf SENSA915A Schem.pdf SENSA915A Opdes.pdf SENSA915A PartsLst.pdf The above materials contain trade secrets and proprietary informaon not customarily released to the public. The public disclosure of these materials may be harmful to the applicant and provide unjused benets to its competors. The applicant understands that pursuant to Secon 0.457 of the Rules, disclosure of this applicaon and all accompanying documentaon will not be made before the date of the Grant for this applicaon. If you have any queries, please do not hesitate to contact us. Regards,
[Nom, Date et SIGNATURE]
SAS au capital de 60 000 SIRET 85214374200017 APE 7112B TVA FR21852143742 735 Rue du lieutenant Parayre 13290 Aix-en-Provence Tel. 04 42 61 66 00 E-mail: info@edgetech.fr url : www.edgetech.fr
1 2 3 4 | Cover Letter | Cover Letter(s) | 374.68 KiB | May 24 2023 / June 01 2023 |
Aix-en-Provence, on February 24th, 2022 Subject: RADIO Certification of SENSAiO Applicant: EDGE TECHNOLOGIES SAS Product (PMN): SENSAiO Model (HVIN): SENSA915A Host (HMN) : SENSA.PRES and SENSA.TEMP FCC ID: 2A2T5-SENSA915A IC ID: 29177-SENSA915A To Whom It May Concern:
We would like to submit the above product for Certification concerning FCC and ISED rules for a Class 2 Permissive Change in limited modular approval. Please review all required documents enclosed. This application is a wireless transmitter with data measurement capability. It is composed of 2 elements:
- Electronic cartridge with radio chipset and embedded antenna which is the subject of modular approval certification
- Deported sensor board for process measurement and a housing incorporating the radio and these sensor board (Host with pressure sensor - SENSA.PRES or with temperature sensor - SENSA.TEMP Compliance for RF exposure requirement is demonstrated in test report. If you have any queries, please do not hesitate to contact us. Regards, Thomas GUILLET SAS au capital de 60 000 SIRET 85214374200017 APE 7112B TVA FR21852143742 735 Rue du lieutenant Parayre 13290 Aix-en-Provence Tel. 04 42 61 66 00 E-mail: info@edgetech.fr url : www.edgetech.fr
1 2 3 4 | Modular Approval Letter | Cover Letter(s) | 293.35 KiB | May 24 2023 / June 01 2023 |
Zoho Sign Document ID: 292CDBFE-XGNUC2SNLCGDEFQWBYZNC2HDEAVBYXCKW8WYGCBYKQG Subject.: Acknowledgment of FCC Modular approval requirements FCC ID : 2A2T5-SENSA915A To Whom It May Concern:
LoRaWAN Valve Positioning Sensor an intelligent industrial wireless sensor for remote monitoring in hazardous environments. No Yes Yes Yes Yes Yes Modular Approval Requirement
(i) The radio elements of the modular transmitter must have their own shielding. The physical crystal and tuning capacitors may be located external to the shielded radio elements.
(ii) The modular transmitter must have buffered modulation/data inputs (if such inputs are provided) to ensure that the module will comply with part 15 requirements under conditions of excessive data rates or over-
modulation.
(iii) The modular transmitter must have its own power supply regulation.
(iv) The modular transmitter must comply with the antenna and transmission system requirements of 15.203, 15.204(b) and 15.204(c). The antenna must either be permanently attached or employ a unique antenna coupler (at all connections between the module and the antenna, including the cable). The professional installation provision of 15.203 is not applicable to modules but can apply to limited modular approvals under paragraph (b) of this section.
(v) The modular transmitter must be tested in a stand-alone configuration
(vi) The modular transmitter must be equipped with either a permanently affixed label or must be capable of electronically displaying its FCC identification number.
(vii) The modular transmitter must comply with any specific rules or operating requirements that ordinarily apply to a complete transmitter and the manufacturer must provide adequate instructions along with the module to explain any such requirements. A copy of these instructions must be included in the application for equipment authorization.
(viii) The modular transmitter must comply with any applicable RF exposure requirements in its final configuration.
(v) The modular transmitter is always tested on a mainboard in a specific EDGE TECHNOLOGIES configuration (into a host device) Yes Yes Yes No SAS au capital de 60 000 SIRET 85214374200017 APE 7112B TVA FR21852143742 735 Rue du lieutenant Parayre 13290 Aix-en-Provence Tel. 04 42 61 66 00 E-mail: info@edgetech.fr url : www.edgetech.fr
1 2 3 4 | PAG Attestation Letter | Attestation Statements | 655.17 KiB | February 10 2023 / February 28 2023 |
Aix-en-Provence, on January 15th, 2023 Subject: Pre-Approval Guidance of SENSAiO Applicant: EDGE TECHNOLOGIES SAS Product (PMN): SENSAiO Model (HVIN): SENSA915A Host (HMN) : SENSA.VALV FCC ID: 2A2T5-SENSA915A IC ID: 29177-SENSA915A To whom it may concern:
The SENSAiO product is an electronic device consisting of two electronic modules with a force feedback system and a push-in coupling system for mechanical and electrical coupling, supporting a mother electronic assembly called the
"electronic cartridge" with a removable D-Cell battery and a suitable integrated antenna. The electronics cartridge can only be connected to the SENSAiO base sensor module with dedicated daughter connectors with interlocking mechanism. Due to the patented interlocking design, it is impossible to access the electronics without modifying the module. This module is only intended for and can only be incorporated into SENSA.XXXX type products manufactured by EDGE TECHNOLOGIES, which will be subject to Class 2 permissive change procedures for future models (e.g. SENSA.PRES and SENSA.TEMP). This module cannot be sold separately. Please refer to user instruction for further information. If you have any questions, please do not hesitate to contact us. Regards, Thomas GUILLET SAS au capital de 60 000 SIRET 85214374200017 APE 7112B TVA FR21852143742 735 Rue du lieutenant Parayre 13290 Aix-en-Provence Tel. 04 42 61 66 00 E-mail: info@edgetech.fr url : www.edgetech.fr
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2023-06-01 | 902.3 ~ 914.9 | DSS - Part 15 Spread Spectrum Transmitter | Class II Permissive Change |
2 | 2402 ~ 2480 | DTS - Digital Transmission System | Class II permissive change or modification of presently authorized equipment | |
3 | 2023-02-28 | 902.3 ~ 914.9 | DSS - Part 15 Spread Spectrum Transmitter | Original Equipment |
4 | 2402 ~ 2480 | DTS - Digital Transmission System |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 2 3 4 | Effective |
2023-06-01
|
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1 2 3 4 |
2023-02-28
|
|||||
1 2 3 4 | Applicant's complete, legal business name |
EDGE TECHNOLOGIES
|
||||
1 2 3 4 | FCC Registration Number (FRN) |
0030881403
|
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1 2 3 4 | Physical Address |
735 Rue du Lieutenant Parayre
|
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1 2 3 4 |
Aix-En-Provence, N/A
|
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1 2 3 4 |
Aix-En-Provence, N/A 13290
|
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1 2 3 4 |
France
|
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app s | TCB Information | |||||
1 2 3 4 | TCB Application Email Address |
c******@timcoengr.com
|
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1 2 3 4 |
t******@timcoengr.com
|
|||||
1 2 3 4 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
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app s | FCC ID | |||||
1 2 3 4 | Grantee Code |
2A2T5
|
||||
1 2 3 4 | Equipment Product Code |
SENSA915A
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 2 3 4 | Name |
T**** G****
|
||||
1 2 3 4 | Title |
CEO
|
||||
1 2 3 4 | Telephone Number |
+3360********
|
||||
1 2 3 4 | Fax Number |
+3360********
|
||||
1 2 3 4 |
t******@edgetech.fr
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 2 3 4 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 2 3 4 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 2 3 4 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 2 3 4 | Equipment Class | DSS - Part 15 Spread Spectrum Transmitter | ||||
1 2 3 4 | DTS - Digital Transmission System | |||||
1 2 3 4 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Wireless transmitter with data measurement capability | ||||
1 2 3 4 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 2 3 4 | Yes | |||||
1 2 3 4 | Modular Equipment Type | Limited Single Modular Approval | ||||
1 2 3 4 | Purpose / Application is for | Class II Permissive Change | ||||
1 2 3 4 | Class II permissive change or modification of presently authorized equipment | |||||
1 2 3 4 | Original Equipment | |||||
1 2 3 4 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | Yes | ||||
1 2 3 4 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 2 3 4 | Grant Comments | Output power listed is conducted. Limited Single Modular Approval for mobile RF Exposure condition. This module is limited to integration into Edge Technologies SENSA sensor devices. These sensors must be installed to meet the RF exposure compliance separation distance of 20 cm, and any additional testing and authorization process as required. Co-location of this module with other transmitters that operate simultaneously are required to be evaluated using the FCC multi-transmitter procedures. The grantee must provide end-users with installation and operating instructions for satisfying FCC multi-transmitter product guidelines. Class II Permissive Change: Enables integration into SENSA.IO, models SENSA.TEMP and SENSA.hk-o. | ||||
1 2 3 4 | Output power listed is conducted. Limited Single Modular Approval for mobile RF Exposure condition. This module is limited to integration into Edge Technologies SENSA sensor devices. These sensors must be installed to meet the RF exposure compliance separation distance of 20 cm, and any additional testing and authorization process as required. Co-location of this module with other transmitters that operate simultaneously are required to be evaluated using the FCC multi-transmitter procedures. The grantee must provide end-users with installation and operating instructions for satisfying FCC multi-transmitter product guidelines. | |||||
1 2 3 4 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 2 3 4 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 2 3 4 | Firm Name |
EMITECH Montpellier
|
||||
1 2 3 4 | Name |
O****** H********
|
||||
1 2 3 4 | Telephone Number |
33-4-********
|
||||
1 2 3 4 | Fax Number |
33-4-********
|
||||
1 2 3 4 |
o******@emitech-group.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 902.30000000 | 914.90000000 | 0.0109000 | ||||||||||||||||||||||||||||||||||||
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
2 | 1 | 15C | 2402.00000000 | 2480.00000000 | 0.0001000 | ||||||||||||||||||||||||||||||||||||
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
3 | 1 | 15C | 902.30000000 | 914.90000000 | 0.0109000 | ||||||||||||||||||||||||||||||||||||
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
4 | 1 | 15C | 2402.00000000 | 2480.00000000 | 0.0001000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC