FCC ID: LCGFWR3XXEL FWR30

BA01991F/00/EN/06.21 71541116 2021-09-15 Products Solutions Services Operating Instructions Micropilot FWR30 Free space radar Battery-operated level sensor for monitoring remote and mobile applications Micropilot FWR30 A0023555 Make sure the document is stored in a safe place such that it is always available when working on or with the device. To avoid danger to individuals or the facility, read the "Basic safety instructions" section carefully, as well as all other safety instructions in the document that are specific to working procedures. The manufacturer reserves the right to modify technical data without prior notice. Your Endress+Hauser sales organization will supply you with current information and updates to this manual. 2 Endress+Hauser Order code:Ext. ord. cd.:Ser. no.:www.endress.com/deviceviewerEndress+HauserOperations AppXXXXXXXXXXXXXXXXX-XXXXXXXXX.XXXX.XXSerial number1.3.2. Micropilot FWR30 Table of contents 11 Maintenance . 22 11.1 Maintenance tasks . 22 Repair . 23 12 12.1 Return . 23 12.2 Disposal . 23 13 Accessories . 24 13.1 Device-specific accessories . 24 Technical data . 25 14 14.1 Input . 25 14.2 Output . 26 14.3 Environment . 27 14.4 Process . 28 14.5 Accessories . 28 Index . 29 Table of contents 1 1.1 1.2 1.3 About this document . 4 Document function . 4 Symbols . 4 Documentation . 5 Basic safety instructions . 6 2 Requirements for the personnel . 6 2.1 2.2 Designated use . 6 2.3 Workplace safety . 6 Operational safety . 6 2.4 Product safety . 7 2.5 IT security . 7 2.6 Product description . 8 Product design . 8 Incoming acceptance and product identification . 9 Incoming acceptance . 9 Product identification . 9 Storage and transport . 9 Mounting . 10 5 5.1 Mounting the measuring device . 10 Post-mounting check . 13 5.2 Electrical connection . 14 Supply voltage . 14 Operation options . 15 Overview of operation options . 15 Commissioning . 17 Preparatory steps . 17 Function check . 17 Configuration management . 17 Operation . 18 Initiating the measurement . 18 Reading measured values . 18 Displaying the measured value history . 18 Use cases . 18 Diagnostics and troubleshooting . 20 10 10.1 Diagnostic information via LED . 20 10.2 List of diagnostic events . 21 3 3.1 4 4.1 4.2 4.3 6 6.1 7 7.1 8 8.1 8.2 8.3 9 9.1 9.2 9.3 9.4 Endress+Hauser 3 About this document Micropilot FWR30 1 About this document 1.1 Document function These Operating Instructions contain all the information that is required in various phases of the life cycle of the device: from product identification, incoming acceptance and storage, to mounting, connection, operation and commissioning through to troubleshooting, maintenance and disposal. 1.2 Symbols 1.2.1 Safety symbols This symbol alerts you to a dangerous situation. Failure to avoid this situation will result in serious or fatal injury. This symbol alerts you to a dangerous situation. Failure to avoid this situation can result in serious or fatal injury. This symbol alerts you to a dangerous situation. Failure to avoid this situation can result in minor or medium injury. This symbol contains information on procedures and other facts which do not result in personal injury. 1.2.2 Symbols for certain types of information Procedures, processes or actions that are permitted. Permitted:

Forbidden:

Procedures, processes or actions that are forbidden. 4 Endress+Hauser DANGERWARNINGCAUTIONNOTICE Micropilot FWR30 About this document Additional information:

Series of steps:

, 1.2.3 Symbols in graphics Item numbers: 1, 2, 3 ... Views: A, B, C, ... 1.3 Documentation All available documents can be downloaded using:

the serial number of the device (see cover page for description) or the data matrix code of the device (see cover page for description) or the "Download" area of the website www.endress.com 1.3.1 Supplementary device-dependent documentation Additional documents are supplied depending on the device version ordered: Always comply strictly with the instructions in the supplementary documentation. The supplementary documentation is an integral part of the device documentation. Endress+Hauser 5 1.2.3. Basic safety instructions Micropilot FWR30 2 Basic safety instructions 2.1 Requirements for the personnel The personnel for installation, commissioning, diagnostics and maintenance must fulfill the following requirements:

Trained, qualified specialists must have a relevant qualification for this specific function and task Are authorized by the plant owner/operator Are familiar with federal/national regulations Before beginning work, the specialist staff must have read and understood the instructions in the Operating Instructions and supplementary documentation as well as in the certificates (depending on the application) Follow instructions and comply with conditions The operating personnel must fulfill the following requirements:

Being instructed and authorized according to the requirements of the task by the facility's owner-operator Following the instructions in these Operating Instructions 2.2 Designated use The Micropilot FWR30 is a battery-operated level sensor with cellular radio transmission. Application:

Independent radar sensor for remote monitoring of levels. 2.2.1 Incorrect use The manufacturer is not liable for damage caused by improper or non-designated use. Clarification of borderline cases:

For special fluids and fluids for cleaning, Endress+Hauser is glad to provide assistance in verifying the resistance of fluid-wetted materials, but does not accept any warranty or liability. 2.3 Workplace safety For work on and with the device:

Wear the required personal protective equipment according to federal/national regulations. 2.4 Operational safety Risk of injury!

Operate the device only if it is in proper technical condition, free from errors and faults. The operator is responsible for the interference-free operation of the device. Modifications to the device Unauthorized modifications to the device are not permitted and can lead to unforeseeable dangers:

If, despite this, modifications are required, consult with Endress+Hauser. Repair To ensure continued operational safety and reliability:

Carry out repairs on the device only if they are expressly permitted. 6 Endress+Hauser Micropilot FWR30 Basic safety instructions Observe federal/national regulations pertaining to the repair of an electrical device. Use original spare parts and accessories from Endress+Hauser only. Hazardous area To avoid danger to individuals or the facility when the device is used in the approval-

related area (e.g. explosion protection, pressure vessel safety):

Check the nameplate to verify if the device ordered can be put to its intended use in the Observe the specifications in the separate supplementary documentation that is an approval-related area. integral part of these instructions. 2.4.1 Safety notice for the device battery LCAUTION Risk of fire or burns if the device battery is handled incorrectly!

Do not charge or open the battery, expose it to fire or heat it above 100 C (212 F). Only replace the battery with a ER34615 battery (lithium-thionyl chloride primary battery, size D). The use of any other battery can present a fire or explosion hazard. Dispose of the used battery immediately as per national regulations. Keep used batteries out of the reach of children. Do not open used batteries or expose them to fire. Replacement battery For use in North America: The replacement battery must have CSA/UL approval. 2.5 Product safety This measuring device is designed in accordance with good engineering practice to meet state-of-the-art safety requirements, has been tested, and left the factory in a condition in which it is safe to operate. It meets general safety standards and legal requirements. It also complies with the EC directives listed in the device-specific EC Declaration of Conformity. Endress+Hauser confirms this by affixing the CE mark to the device. 2.6 IT security We only provide a warranty if the device is installed and used as described in the Operating Instructions. The device is equipped with security mechanisms to protect it against any inadvertent changes to the device settings. IT security measures in line with operators' security standards and designed to provide additional protection for the device and device data transfer must be implemented by the operators themselves. Endress+Hauser 7 Product description Micropilot FWR30 3 Product description 3.1 Product design The Micropilot FWR30 is powered by an internal battery. The IP66/68 housing contains a sensor. The sensor measures the level. The device reports the level to the Endress+Hauser cloud via a cellular radio connection. The values can be accessed via the Netilion Value, Netilion Inventory or SupplyCare Hosting digital applications. 8 Endress+Hauser Micropilot FWR30 Incoming acceptance and product identification 4 Incoming acceptance and product identification 4.1 Incoming acceptance A0041102 4.2 Product identification 4.2.1 Manufacturer address Endress+Hauser SE+Co. KG Hauptstrae 1 79689 Maulburg, Germany Place of manufacture: See nameplate. 4.3 Storage and transport 4.3.1 Storage temperature 20 to +60 C (4 to +140 F) Battery discharge is at its lowest if the battery is stored at temperatures from 0 to +30 C (+32 to +86 F). Endress+Hauser 9 DELIVERYNOTE Mounting Micropilot FWR30 5 Mounting 5.1 Mounting the measuring device 5.1.1 Mounting location The device can be mounted indoors or outdoors. Mounting on metal vessels and silos with threaded adapter 1 Silo with threaded adapter A0045526 Threaded adapter G 1" (process pressure max. 4 bar abs. (58 psi)) MNPT 1" (process pressure max. 4 bar abs. (58 psi)) Mounting instructions Mount the measuring device in a horizontal position so that it is parallel to the tank ceiling Otherwise, undesired reflections from the surroundings can cause interference signals The radar antenna should never be covered by metal objects Do not mount any objects which may cause interference, such as tank internal fittings, grids or agitators, below or in the direct vicinity of the radar (see the graphic below) A0045540 10 Endress+Hauser Micropilot FWR30 Mounting Maximum nozzle height and distance to wall Measuring distance

[mm]

Radiation width 1)

[mm]

A0046856 Diameter D

[mm]

40 50 80 100 150 1) The beam angle is 8. Hmax

[mm]

230 300 520 660 500 1000 2000 5000 1020 10000 Mounting on vertical pipes 70 140 280 699 1399 2 Mounting with mounting bracket pipe/IBC A0040689 Mounting on non-conductive plastic IBC tanks with tubular cage or mesh frame Mounting with "mounting bracket pipe/IBC". The mounting bracket pipe/IBC is also suitable for IBC tanks with mesh. Mounting instructions Mount the measuring device in a horizontal position so that it is parallel to the tank ceiling Otherwise, undesired reflections from the surroundings can cause interference signals The radar antenna should never be covered by metal objects If mounting outdoors, do not mount on a depression of the IBC tank Water can collect and interfere with the measurement. The measuring device may not stand in water. Do not mount any objects which may cause interference, such as tank internal fittings, grids or agitators, below or in the direct vicinity of the radar (see the graphic below) Endress+Hauser 11 HDmax Mounting Micropilot FWR30 Blocking distance No signals are analyzed within the blocking distance (BD) For this reason, the blocking distance can be used to suppress interference signals (e.g. from condensate) near the antenna Factory setting: automatic The blocking distance (BD) can be defined in the cloud or set automatically The setting is made in the blocking distance parameter The following formula is used for the automatic setting:

Empty tank - full tank - 100 mm (3.94 in) = blocking distance (min. 0 mm) Mounting on ceilings or walls A0043048 A0041499 A0040688 A Mounting on the ceiling B Mounting on the wall Individual installation The measuring device can also be installed without using the two mounting brackets. An individual bracket can be attached to the underside using the screw thread. Both mounting kits available include the same base plate, which makes other custom installations 12 Endress+Hauser BD8AB Micropilot FWR30 Mounting possible. If the radar antenna is covered by metal objects, the measuring signal will be distorted. Unit of measurement mm (in) A0041312 5.2 Post-mounting check Is the device undamaged (visual inspection)?

Does the device meet the measuring point specifications?

Ambient temperature Measuring range Process temperature Are the measuring point identification and labeling correct (visual inspection)?

Check that all screws are firmly seated. Is the device properly secured?

Endress+Hauser 13 M432.5 (1.28)42 (1.65)42 (1.65) Electrical connection Micropilot FWR30 6 Electrical connection 6.1 Supply voltage Replaceable battery, standard size, lithium (D), 3.6 V, 19 Ah (included in the delivery) Designation in accordance with IEC: ER34615 (primary battery lithium thionyl chloride);

product recommendation: Tadiran SL-2880 (Europe), Tadiran TL-4930 (outside Europe) The measuring device determines the battery charge state automatically. The LED flashes red every 10 seconds if the battery charge state is low or critical. In addition to the recommended battery types Tadiran SL-2880 (Europe), Tadiran TL-4930 (outside Europe), it is also possible to use the battery type Tadiran SL-2870 (Europe) or Tadiran TL-5930 (outside Europe). The indicated battery lives can differ in this case, however. 6.1.1 Safety notice for the device battery LCAUTION Risk of fire or burns if the device battery is handled incorrectly!

Do not charge or open the battery, expose it to fire or heat it above 100 C (212 F). Only replace the battery with a ER34615 battery (lithium-thionyl chloride primary battery, size D). The use of any other battery can present a fire or explosion hazard. Dispose of the used battery immediately as per national regulations. Keep used batteries out of the reach of children. Do not open used batteries or expose them to fire. Replacement battery For use in North America: The replacement battery must have CSA/UL approval. 6.1.2 Battery life Measuring interval 8 h Transmission interval 8 h: battery life > 8 years Measuring interval 6 h Transmission interval 12 h: battery life > 10 years Measuring interval 1 h Transmission interval 24 h: battery life > 10 years Transmission interval 4 h: battery life > 5 years Transmission interval 1 h: battery life approx. 500 days Measuring interval 1 min Transmission interval 1 h: battery life approx. 400 days Transmission interval 15 min: battery life approx. 140 days Transmission interval < 1 h: cannot be set for GPS operation Calculation only applies to Tadiran SL-2880 battery (Europe), Tadiran TL-4930 battery (outside Europe), at approx. +25 C (+77 F) A strong cellular radio signal is required The actual battery life can vary greatly and depends on a number of factors including the network provider, temperature or humidity High transmission rates reduce the battery life Transmission intervals < 1 h have a considerable impact on the battery life Calculation applies to operation without GPS. If GPS localization is performed in free field conditions during each transmission, the battery life is halved. 14 Endress+Hauser Micropilot FWR30 Operation options 7 Operation options 7.1 Overview of operation options 7.1.1 Operation via activation button on device The blue activation button is locked while an action is being performed and until the action has been completed. Activating the measuring device - measure and transmit 1. Press the blue activation button briefly (>2 seconds) until the LED is lit green. 2. The LED flashes green during transmission. 3. The LED is lit green continuously (for 10 seconds) if transmission is successful. 4. The LED flashes red or is lit red (for 10 seconds) if transmission fails. See Section 10.1.3 Deactivating the measuring device measure, transmit and switch off 1. Press the blue activation button for longer (>7 seconds) until the LED is lit red. 2. The LED flashes green during transmission. 3. The LED flashes green, yellow and red alternately if transmission is successful. The measuring device is now deactivated. This status is then displayed in the digital application. 4. The LED flashes red or is lit red (for 10 seconds) if transmission fails. Endress+Hauser 15 Operation options Micropilot FWR30 5. The LED then flashes green, yellow and red alternately to indicate the deactivation of the measuring device. Here, the deactivation status is not displayed in the digital application because transmission did not take place. To subsequently activate the measuring device, press the blue activation button again (see Step 1). The measuring device can also be deactivated via the cloud. 7.1.2 Operation via cloud and app The measuring device is operated via:

Netilion Value / Netilion Inventory: https://netilion.endress.com SupplyCare Hosting: https://portal.endress.com 16 Endress+Hauser Micropilot FWR30 Commissioning 8 Commissioning 8.1 Preparatory steps The device can be commissioned with the following digital applications:

Netilion Value: https://Netilion.endress.com/app/value Netilion Inventory: https://Netilion.endress.com/app/inventory SupplyCare Hosting: https://portal.endress.com SupplyCare Hosting is commissioned by Endress+Hauser Service staff. Commissioning is completed by pressing the blue activation button on the measuring device. 8.2 Function check Perform the function check:

Press the blue activation button 3 times. The LED flashes red and green alternately 6 times. 8.3 Configuration management All parameters can be accessed via Netilion Value, Netilion Inventory oder SupplyCare Hosting. If a parameter is changed in the cloud, the change becomes active with the next transmission. Endress+Hauser 17 Operation Micropilot FWR30 9 Operation 9.1 Initiating the measurement The measuring and transmission interval is configured using Endress+Hauser Cloud Services. The measuring device can be activated by the following events:

if the next measuring interval is reached (time-based) if the activation button is pressed (user-activated) 9.2 Reading measured values The measured values can be read via the services offered. or in the Technical Information of SupplyCare Hosting Additional functions of Endress+Hauser services available at https://netilion.endress.com 9.3 Displaying the measured value history The measured value history can be read via the services offered. Additional functions of Endress+Hauser services available at https://netilion.endress.com or in the Technical Information of SupplyCare Hosting 9.4 Use cases 9.4.1 Status transmission If the measuring device has not yet been commissioned and the user presses the activation button, a status transmission is activated nonetheless. The measuring device updates the status values The measuring device synchronizes the time if necessary The measuring device transmits all status values to the cloud The following status values are transmitted to the cloud:

Activation status Battery status Position Signal quality of connectivity Current event (event ID) 9.4.2 Performing a manual measurement 1. Press the activation button 2. The measurement is performed 3. Measured values are transmitted to the cloud. 9.4.3 Automatic transmission of measured values When the transmission interval is reached:

18 Endress+Hauser Micropilot FWR30 Operation The measuring device synchronizes the configuration from the cloud The measuring device transmits all of the saved measured values and status values to If the device does not have any reception, up to 100 measured values are saved in the device and transmitted during the next connection. the cloud such as Level Position Ambient temperature 9.4.4 Firmware update Update via cloud A firmware update can be performed via the cloud. The next time the measuring device is connected to the cloud, the firmware is transmitted to the device. After it has been checked by the measuring device, the firmware is updated. Once it has been updated successfully, the measuring device sends a message to the cloud. The LED flashes orange during the firmware update. 9.4.5 Deactivating the measuring device There are two possible ways to deactivate the measuring device:

Deactivation is initiated via the cloud The next time the measuring device is connected to the cloud, the status values are transmitted and the deactivation is indicated in the cloud. Deactivation by pressing and holding the blue activation button until the red LED is lit 9.4.6 Activating the measuring device after deactivation To activate the device after deactivation, the device must first be reactivated with its settings in the cloud. Then the blue activation button on the device must be pressed until the LED shows a green light. Endress+Hauser 19 Diagnostics and troubleshooting Micropilot FWR30 10 Diagnostics and troubleshooting 10.1 Diagnostic information via LED 10.1.1 The LED flashes red every 10 seconds Reason: Battery charge state is low or critical Solution: Replace the battery 10.1.2 The LED flashes red for 10 seconds Reason: Cloud transmission error:

No SIM card or card blocked No network service Data connection to provider has failed Solution:

Check whether the SIM card is correctly inserted and enabled Check whether the network service is available Notify the Service Department 10.1.3 The LED is lit red continuously for 10 seconds Reason: Cloud transmission error. Energy is low or hardware error which cannot be Solution: Wait for 1 hour and then commission the device again (initiate cloud communicated to the cloud. transmission). 10.1.4 LED flashing orange Reason: Firmware or certificate being updated Solution: Wait until the update is finished 20 Endress+Hauser Micropilot FWR30 Diagnostics and troubleshooting 10.2 List of diagnostic events Diagnostic number: F270 Short text: Main electronics defective Remedial measures:

Contact the Service Department Replace device Diagnostic number: F331 Short text: Firmware update failed Remedial measures:

Repeat firmware update Diagnostic number: F400 Short text: Communication error Remedial measures:

Check connection and repeat Diagnostic number: F430 Short text: Configuration incorrect Remedial measures:

Reconfigure in the cloud Contact the Service Department Diagnostic number: F465 Short text: SIM card is defective Remedial measures:

Check the SIM card Diagnostic number: S825 Short text: Operating temperature Remedial measures:

Check the ambient temperature Check the process temperature Diagnostic number: C890 Short text: Battery weak Remedial measures:

Prepare to replace the battery Diagnostic number: M891 Short text: Empty battery Remedial measures:

Replace the battery Diagnostic number: F909 Short text: Request overload Remedial measures:

Wait > 15 minutes between the data requests Contact the Service Department Diagnostic number: S911 Short text: Device location invalid or unknown Remedial measures:

Contact the Service Department Diagnostic number: S914 Short text: Device location inaccurate Remedial measures:

Check if device is in free field. Move device outside of buildings Diagnostic number: S941 Short text: Lost echo Remedial measures:

Check sensitivity settings Endress+Hauser 21 Maintenance Micropilot FWR30 11 Maintenance 11.1 Maintenance tasks 11.1.1 Replacing the battery Environmental protection and measures Note the following before, during and after battery replacement:

Replace the battery in a dry place. Do not move the seal when replacing the battery. After replacement, dispose of the old battery in an environmentally friendly manner.

"Disposal" section. A0040732 Replacing the battery 1. Loosen all 4 screws. 2. Replace the battery. 3. Tighten the screws with 1.2 Nm (0.89 lbf ft). 4. Press the activation button. Status transmission is triggered. The device is operational again. If the energy accumulator was completely empty and the battery is replaced, it can take up to 15 minutes until a measured value is sent again. The blue button must be pressed once 15 minutes have elapsed. Battery type:

Standard size, lithium (D), 3.6 V, 19 Ah Specification according to IEC:

ER34615 (primary lithium-thionyl chloride battery) Product recommendation:

In addition to the recommended battery types Tadiran SL-2880 (Europe), Tadiran TL-4930 (outside Europe), it is also possible to use the battery type Tadiran SL-2870 (Europe) or Tadiran TL-5930 (outside Europe) Replacement battery For use in North America: The replacement battery must have CSA/UL approval. 22 Endress+Hauser Micropilot FWR30 Repair Repair 12 Repairs are not possible. 12.1 Return 12.2 Disposal The requirements for safe device return can vary depending on the device type and national legislation. 1. Refer to the website for more information:

http://www.endress.com/support/return-material 2. Return the device if the wrong device was ordered or delivered. As required by the Directive 2012/19/EU on waste electrical and electronic equipment

(WEEE), Endress+Hauser products are marked with the depicted symbol in order to minimize the disposal of WEEE as unsorted municipal waste. Such products may not be disposed of as unsorted municipal waste and can be returned to Endress+Hauser for disposal under the conditions stipulated in the General Terms and Conditions or as individually agreed by Endress+Hauser. 12.2.1 Battery disposal In some countries, the end user is legally obliged to return used batteries. The end user can return old batteries to Endress+Hauser free of charge. In accordance with German law regulating the use of batteries (BattG 17 Para Number 3), this symbol is used to denote electronic assemblies that must not be disposed of as municipal waste. Endress+Hauser 23 Accessories Micropilot FWR30 13 Accessories 13.1 Device-specific accessories Mounting bracket pipe / IBC: part number 71447849 Mounting bracket wall / ceiling: part number 71447853 G 1" adapter: part number 71488949 MNPT 1" adapter: part number 71488957 24 Endress+Hauser Micropilot FWR30 Technical data 14 Technical data 14.1 Input 14.1.1 Measured variable Measured process variables Level: 0 to 15 m (0 to 49 ft) 10 mm (0.39 in) Ambient temperature: 20 to +60 C (4 to +140 F) with an accuracy of 2 C (4 F) Position: Angle of device to the horizontal Range: 0 to 180 The position angle can only be measured if the sensor does not move GPS:

20 m (66 ft) in free field conditions 14.1.2 Measuring range Maximum measuring range 0 to 15 m (0 to 49 ft) A0043030 3 Calibration parameter Empty calibration (= zero) Full calibration (= span) E F D Measured distance L R BD Blocking distance Level (L = E - D) Reference point Medium Information on the nameplate:

Dev.Rev.1 (Device Revision): liquid applications Dev.Rev.2 (Device Revision): liquid and solid applications Endress+Hauser 25 RBD100%0%DLFE Technical data Micropilot FWR30 Usable measuring range for solid applications The usable measuring range depends on the reflection properties of the medium, the installation position and possible interference reflections. Measurement of the following media with absorbing gas phase For example:

Ammonia (pure - 100%) Acetone Methylene chloride Methyl ethyl ketone Propylene oxide VCM (vinyl chloride monomer) To measure absorbing gases, either use a guided radar, measuring devices with another measuring frequency or another measuring principle. If measurements must be performed in one of these media, please contact Endress

+Hauser. 14.1.3 Operating frequency 80 GHz The operating frequency is for measurement purposes only and is not used for communication. 14.1.4 Blocking distance A0041499 No signals are analyzed within the blocking distance (BD) For this reason, the blocking distance can be used to suppress interference signals (e.g. from condensate) near the antenna Factory setting: automatic The blocking distance (BD) can be defined in the cloud or set automatically The setting is made in the blocking distance parameter The following formula is used for the automatic setting:

Empty tank - full tank - 100 mm (3.94 in) = blocking distance (min. 0 mm) 14.1.5 Sensitivity The sensitivity of the sensor can be configured using a "sensitivity parameter" (high, medium, low). 14.2 Output 14.2.1 Output signal Cellular radio LTE-M, NB-IoT and 2G 26 Endress+Hauser BD8 Micropilot FWR30 Technical data Order code for 030 option A: cellular radio + SIM card (NB-IoT/LTE-M/ 2G) 2G GPRS/EDGE GSM850, E-GSM900, DCS1800, PCS1900 4G LTE-M1 (LTE Cat-M1) LTE-FDD: B2/B3/B4/B5/B8/ /B20/B26 LTE-TDD: B39 4G LTE-NB1 (NB-IoT) LTE-FDD: B2/B3/B8/B20 Order code for 030 option B: GPS + SIM card + cellular radio EU (NB-IoT, LTE-M, 2G) optimized for Europe, Asia, Africa 2G GPRS/EDGE GSM850, E-GSM900, DCS1800, PCS1900 4G LTE-M1 (LTE Cat-M1) LTE-FDD: B1/B2/B3/B4/B5/B8/B20/B26 LTE-TDD:B39 4G LTE-NB1 (NB-IoT) LTE-FDD: B3/B5/B8/B20 Order code for 030 option C: GPS + SIM card +cellular radio US (NB-IoT, LTE-M, 2G) optimized for America, Australia, New Zealand 2G GPRS/EDGE GSM850, DCS1800, PCS1900 4G LTE-M1 (LTE Cat-M1) LTE-FDD: B2/B3/B4/B5/B12/B13/B20/B28 LTE-TDD: B39 4G LTE-NB1 (NB-IoT) LTE-FDD: B2/B4/B12/B13/B28 The cellular radio signal is selected automatically by the device. The selection depends on availability. The priority is 4G (LTE-M1 or LTE-NB1). If neither of the two cellular radio signals is available, the 2G (GPRS or EDGE) cellular radio signal is selected. The priorities are: LTE-M 2G NB-IoT Transmission interval The transmission interval can be set between 15 minutes and 24 hours. The battery life depends on the transmission interval. In the event of a poor network connection, select a transmission interval > 1 hour If GPS is set, the transmission interval is limited to 1 hour 14.2.2 Protocol-specific data The FWR30 uses:

internet protocol TCP/IP and the secure transport layer TLS (v1.2) application layer protocol HTTPS 14.3 Environment 14.3.1 Ambient temperature 20 to +60 C (4 to +140 F) 14.3.2 Storage temperature 20 to +60 C (4 to +140 F) 14.3.3 Humidity 0 to 95%

14.3.4 Climate class DIN EN 60068-2-38/IEC 68-2-38: Test Z/AD Battery discharge is at its lowest if the battery is stored at temperatures from 0 to +30 C (+32 to +86 F). 14.3.5 Operating altitude according to DIN EN 61010-1 Ed. 3 Up to 2 000 m (6 600 ft) above sea level. Endress+Hauser 27 Technical data Micropilot FWR30 14.3.6 Degree of protection IP66, IP68, NEMA Type 4X/6P 14.3.7 Vibration and shock resistance In accordance with DIN EN 60068-2-27 / IEC 60068-2-27: 18 ms, 30g, half-sine 14.3.8 Electromagnetic compatibility In accordance with IEC/EN 61326-1 Measurement directly through the tank (electrically non-conductive tank walls). No contact is made with the process medium. Measurement in the tank with a G1" threaded adapter: process pressure max. Measurement in the tank with an MNPT1" threaded adapter: process pressure max. 14.4 Process 4 bar abs. (58 psi). 4 bar abs. (58 psi). 14.5 Accessories 14.5.1 Device-specific accessories Mounting bracket pipe / IBC: part number 71447849 Mounting bracket wall / ceiling: part number 71447853 G 1" adapter: part number 71488949 MNPT 1" adapter: part number 71488957 28 Endress+Hauser Index Micropilot FWR30 Index C CE mark . 7 D Declaration of Conformity . 7 Designated use . 6 Device documentation Supplementary documentation . 5 Disposal . 23 Document Function . 4 Document function . 4 O Operational safety . 6 P Product safety . 7 R Repair concept . 23 Requirements concerning the staff . 6 Return . 23 U Use of the measuring device see Designated use Using measuring devices Borderline cases . 6 Incorrect use . 6 W Workplace safety . 6 Endress+Hauser 29

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TI01499F/00/EN/08.21 71542465 2021-09-28 Products Solutions Services Technical Information Micropilot FWR30 Free space radar Battery-operated level sensor for monitoring remote and mobile applications Application Ingress protection: IP66/IP68, NEMA Type 4X/6P Maximum measuring range: 15 m (49 ft) Ambient temperature: 20 to +60 C (4 to +140 F) Connectivity: LTE-M, NB-IoT, 2G Accuracy: 10 mm (0.39 in) Your benefits Transparency - easy monitoring of liquids and bulk solids Flexible and secure integration into cloud platforms, such as Netilion or SupplyCare Hosting Easy commissioning and flexible installation Reliable 80 GHz radar sensor Localization of device using GNSS/GPS technology Micropilot FWR30 Table of contents Document information . 3 Symbols . 3 Function and system design . 3 Measuring principle . 3 Industry Canada . 16 Compliance with the Japanese Radio Law and the Japanese Telecommunication Business Law . 16 Radiofrequency radiation exposure information . 16 Radio approval . 16 External standards and guidelines . 16 Ordering information . 17 Accessories . 17 Device-specific accessories . 17 Documentation . 17 Supplementary device-dependent documentation . 17 Input . 3 Measured variable . 3 Measuring range . 3 4 Operating frequency . Blocking distance . 4 Sensitivity . 5 Output . 5 Output signal . 5 Protocol-specific data . 5 Power supply . 5 Supply voltage . 5 Performance characteristics . 6 Reference operating conditions . 6 Maximum measured error . 6 Influence of ambient temperature . 6 Installation . 7 Mounting location . 7 Mounting kit . 9 Beam angle . 11 Environment . 11 Ambient temperature . 11 Storage temperature . 11 Humidity . 11 Climate class . 11 Operating altitude according to DIN EN 61010-1 Ed. 3 . 11 Degree of protection . 11 Vibration and shock resistance . 11 Electromagnetic compatibility . 11 Process . 11 Mechanical construction . 12 Dimensions . 12 Weight . 13 13 Materials . Human interface . 14 Operating concept . 14 Certificates and approvals . 14 CE mark . 14 RoHS . 14 EN 302729-1/2 radio standard . 14 FCC . 15 2 Endress+Hauser Micropilot FWR30 Document information Symbols Safety symbols This symbol alerts you to a dangerous situation. Failure to avoid this situation will result in serious or fatal injury. This symbol alerts you to a dangerous situation. Failure to avoid this situation can result in serious or fatal injury. This symbol alerts you to a dangerous situation. Failure to avoid this situation can result in minor or medium injury. This symbol contains information on procedures and other facts which do not result in personal injury. Symbols for certain types of information Procedures, processes or actions that are permitted. Procedures, processes or actions that are forbidden. Permitted:

Forbidden:

Additional information:

Series of steps:

, Symbols in graphics Item numbers: 1, 2, 3 ... Views: A, B, C, ... Function and system design Measuring principle The Micropilot is a "downward-looking" measuring system, operating based on the time-of-flight method (ToF). It measures the distance from the reference point to the product surface. Radar pulses are emitted by an antenna, reflected off the product surface and received again by the radar system. Input Measured variable Measured process variables Level: 0 to 15 m (0 to 49 ft) 10 mm (0.39 in) Ambient temperature: 20 to +60 C (4 to +140 F) with an accuracy of 2 C (4 F) Position: Angle of device to the horizontal Range: 0 to 180 The position angle can only be measured if the sensor does not move GPS:

20 m (66 ft) in free field conditions Measuring range Maximum measuring range 0 to 15 m (0 to 49 ft) Endress+Hauser 3 DANGERWARNINGCAUTIONNOTICE1.2.3. Micropilot FWR30 A0043030 1 Calibration parameter Empty calibration (= zero) Full calibration (= span) E F D Measured distance L R BD Blocking distance Level (L = E - D) Reference point Medium Information on the nameplate:

Dev.Rev.1 (Device Revision): liquid applications Dev.Rev.2 (Device Revision): liquid and solid applications Usable measuring range for solid applications The usable measuring range depends on the reflection properties of the medium, the installation position and possible interference reflections. Measurement of the following media with absorbing gas phase For example:

Ammonia (pure - 100%) Acetone Methylene chloride Methyl ethyl ketone Propylene oxide VCM (vinyl chloride monomer) To measure absorbing gases, either use a guided radar, measuring devices with another measuring frequency or another measuring principle. If measurements must be performed in one of these media, please contact Endress+Hauser. The operating frequency is for measurement purposes only and is not used for communication. Operating frequency 80 GHz Blocking distance 4 A0041499 Endress+Hauser RBD100%0%DLFEBD8 Micropilot FWR30 No signals are analyzed within the blocking distance (BD) For this reason, the blocking distance can be used to suppress interference signals (e.g. from condensate) near the antenna Factory setting: automatic The blocking distance (BD) can be defined in the cloud or set automatically The setting is made in the blocking distance parameter The following formula is used for the automatic setting:

Empty tank - full tank - 100 mm (3.94 in) = blocking distance (min. 0 mm) Sensitivity The sensitivity of the sensor can be configured using a "sensitivity parameter" (high, medium, low). Output Output signal Cellular radio LTE-M, NB-IoT and 2G Order code for 030 option A: cellular radio + SIM card (NB-IoT/LTE-M/ 2G) 2G GPRS/EDGE GSM850, E-GSM900, DCS1800, PCS1900 4G LTE-M1 (LTE Cat-M1) LTE-FDD: B2/B3/B4/B5/B8/ /B20/B26 LTE-TDD: B39 4G LTE-NB1 (NB-IoT) LTE-FDD: B2/B3/B8/B20 Order code for 030 option B: GPS + SIM card + cellular radio EU (NB-IoT, LTE-M, 2G) optimized for Europe, Asia, Africa 2G GPRS/EDGE GSM850, E-GSM900, DCS1800, PCS1900 4G LTE-M1 (LTE Cat-M1) LTE-FDD: B1/B2/B3/B4/B5/B8/B20/B26 LTE-TDD:B39 4G LTE-NB1 (NB-IoT) LTE-FDD: B3/B5/B8/B20 Order code for 030 option C: GPS + SIM card +cellular radio US (NB-IoT, LTE-M, 2G) optimized for America, Australia, New Zealand 2G GPRS/EDGE GSM850, DCS1800, PCS1900 4G LTE-M1 (LTE Cat-M1) LTE-FDD: B2/B3/B4/B5/B12/B13/B20/B28 LTE-TDD: B39 4G LTE-NB1 (NB-IoT) LTE-FDD: B2/B4/B12/B13/B28 The cellular radio signal is selected automatically by the device. The selection depends on availability. The priority is 4G (LTE-M1 or LTE-NB1). If neither of the two cellular radio signals is available, the 2G (GPRS or EDGE) cellular radio signal is selected. The priorities are: LTE-M 2G NB-IoT Transmission interval The transmission interval can be set between 15 minutes and 24 hours. The battery life depends on the transmission interval. In the event of a poor network connection, select a transmission interval > 1 hour If GPS is set, the transmission interval is limited to 1 hour Protocol-specific data The FWR30 uses:

internet protocol TCP/IP and the secure transport layer TLS (v1.2) application layer protocol HTTPS Power supply Supply voltage Replaceable battery, standard size, lithium (D), 3.6 V, 19 Ah (included in the delivery) Designation in accordance with IEC: ER34615 (primary battery lithium thionyl chloride); product recommendation: Tadiran SL-2880 (Europe), Tadiran TL-4930 (outside Europe) The measuring device determines the battery charge state automatically. The LED flashes red every 10 seconds if the battery charge state is low or critical. In addition to the recommended battery types Tadiran SL-2880 (Europe), Tadiran TL-4930

(outside Europe), it is also possible to use the battery type Tadiran SL-2870 (Europe) or Tadiran TL-5930 (outside Europe). The indicated battery lives can differ in this case, however. Endress+Hauser 5 Micropilot FWR30 Safety notice for the device battery LCAUTION Risk of fire or burns if the device battery is handled incorrectly!

Do not charge or open the battery, expose it to fire or heat it above 100 C (212 F). Only replace the battery with a ER34615 battery (lithium-thionyl chloride primary battery, size D). The use of any other battery can present a fire or explosion hazard. Dispose of the used battery immediately as per national regulations. Keep used batteries out of the reach of children. Do not open used batteries or expose them to fire. Replacement battery For use in North America: The replacement battery must have CSA/UL approval. Battery life Measuring interval 8 h Transmission interval 8 h: battery life > 8 years Measuring interval 6 h Transmission interval 12 h: battery life > 10 years Measuring interval 1 h Transmission interval 24 h: battery life > 10 years Transmission interval 4 h: battery life > 5 years Transmission interval 1 h: battery life approx. 500 days Measuring interval 1 min Transmission interval 1 h: battery life approx. 400 days Transmission interval 15 min: battery life approx. 140 days Transmission interval < 1 h: cannot be set for GPS operation Calculation only applies to Tadiran SL-2880 battery (Europe), Tadiran TL-4930 battery

(outside Europe), at approx. +25 C (+77 F) A strong cellular radio signal is required The actual battery life can vary greatly and depends on a number of factors including the network provider, temperature or humidity High transmission rates reduce the battery life Transmission intervals < 1 h have a considerable impact on the battery life Calculation applies to operation without GPS. If GPS localization is performed in free field conditions during each transmission, the battery life is halved. Reference operating conditions Performance characteristics Temperature = +24 C (+75 F) 5 C (9 F) Pressure = 960 mbar abs. (14 psia) 100 mbar (1.45 psi) Humidity = 60 % 15 %

Reflector: metal plate with a diameter 1 m (40 in) No major interference reflections inside the signal beam Maximum measured error Accuracy: 10 mm (0.39 in) within the entire measuring range If the setting is Medium type = Solid , the devices are optimized for solids applications when delivered from the factory. The additional reference condition for accuracy is the setting Medium type = Liquid. Influence of ambient temperature Temperature coefficient: 4 mm (0.16 in) per 10 K 6 Endress+Hauser Micropilot FWR30 Installation Mounting location The device can be mounted indoors or outdoors. Mounting on metal vessels and silos with threaded adapter 2 Silo with threaded adapter Threaded adapter G 1" (process pressure max. 4 bar abs. (58 psi)) MNPT 1" (process pressure max. 4 bar abs. (58 psi)) Mounting instructions Mount the measuring device in a horizontal position so that it is parallel to the tank ceiling Otherwise, undesired reflections from the surroundings can cause interference signals The radar antenna should never be covered by metal objects Do not mount any objects which may cause interference, such as tank internal fittings, grids or agitators, below or in the direct vicinity of the radar (see the graphic below) Maximum nozzle height and distance to wall Endress+Hauser A0045526 A0045540 A0046856 7 HDmax Micropilot FWR30 Measuring distance

[mm]

Radiation width 1)

[mm]

Diameter D

[mm]

40 50 80 100 150 1) The beam angle is 8. Hmax

[mm]

230 300 520 660 500 1000 2000 5000 1020 10000 Mounting on vertical pipes 70 140 280 699 1399 3 Mounting with mounting bracket pipe/IBC A0040689 Mounting on non-conductive plastic IBC tanks with tubular cage or mesh frame Mounting with "mounting bracket pipe/IBC". The mounting bracket pipe/IBC is also suitable for IBC tanks with mesh. Mounting instructions Mount the measuring device in a horizontal position so that it is parallel to the tank ceiling Otherwise, undesired reflections from the surroundings can cause interference signals The radar antenna should never be covered by metal objects If mounting outdoors, do not mount on a depression of the IBC tank Water can collect and interfere with the measurement. The measuring device may not stand in water. Do not mount any objects which may cause interference, such as tank internal fittings, grids or agitators, below or in the direct vicinity of the radar (see the graphic below) A0043048 8 Endress+Hauser Micropilot FWR30 Mounting on ceilings or walls Mounting kit Pipe/IBC mounting kit Unit of measurement mm (in) Mounting bracket IBC/pipe Endress+Hauser A Mounting on the ceiling B Mounting on the wall Individual installation The measuring device can also be installed without using the two mounting brackets. An individual bracket can be attached to the underside using the screw thread. Both mounting kits available include the same base plate, which makes other custom installations possible. If the radar antenna is covered by metal objects, the measuring signal will be distorted. A0040688 A0041312 A0040718 9 ABM432.5 (1.28)42 (1.65)42 (1.65)12 Micropilot FWR30 The IBC base holder (2) is attached to the adapter plate (1). The base holder (2) can be mounted on struts with a diameter of 15 to 30 mm (0.59 to 1.18 in) and on square pipes. IBC mesh-frame adapter The IBC mesh-frame adapter (3) is attached to the IBC base holder (2). Mounting the FWR30 on the adapter plate 1. 2. The hooks (4) and spring (5) are used to fix the FWR30 in the adapter plate. The spring (5) is used to release the FWR30 from the adapter plate. Wall/ceiling mounting kit Mounting bracket A0040719 A0040715 10 A0040720 Endress+Hauser 234512 Micropilot FWR30 The mounting bracket (2) is attached to the adapter plate (1). Mounting the FWR30 on the adapter plate Beam angle 1. 2. 8 The hooks (4) and spring (5) are used to fix the FWR30 in the adapter plate. The spring (5) is used to release the FWR30 from the adapter plate. A0040715 Environment Ambient temperature 20 to +60 C (4 to +140 F) Storage temperature 20 to +60 C (4 to +140 F) Humidity 0 to 95%

Climate class DIN EN 60068-2-38/IEC 68-2-38: Test Z/AD Operating altitude according to DIN EN 61010-1 Ed. 3 Up to 2 000 m (6 600 ft) above sea level. Degree of protection IP66, IP68, NEMA Type 4X/6P Battery discharge is at its lowest if the battery is stored at temperatures from 0 to +30 C (+32 to +86 F). In accordance with DIN EN 60068-2-27 / IEC 60068-2-27: 18 ms, 30g, half-sine Vibration and shock resistance Electromagnetic compatibility In accordance with IEC/EN 61326-1 Process Measurement directly through the tank (electrically non-conductive tank walls). No contact is made with the process medium. Measurement in the tank with a G1" threaded adapter: process pressure max. 4 bar abs. (58 psi). Measurement in the tank with an MNPT1" threaded adapter: process pressure max. 4 bar abs. (58 psi). Endress+Hauser 11 45 Micropilot FWR30 Mechanical construction For the dimensions, see the Product Configurator: www.endress.com Search for product click "Configuration" to the right of the product image after configuration click "CAD"

The following dimensions are rounded values. For this reason, they may deviate slightly from the dimensions given on www.endress.com. Dimensions Housing Unit of measurement mm (in) Accessories Mounting bracket pipe/IBC Unit of measurement mm (in) A0040969 A0040971 12 Endress+Hauser 120 (4.72)120 (4.72)5.5 (0.22)48 (1.89)M432.5 (1.28)42 (1.65)42 (1.65)138.4 (5.45)170 (6.69)218.5 (8.6)33 (1.3)146.8 (5.78)182.6 (7.19)258.5 (10.2) Micropilot FWR30 Mounting bracket wall/ceiling Unit of measurement mm (in) Adapter Weight Housing Unit of measurement mm (in) G 1" adapter, process seal: EPTM A B MNPT 1" adapter Weight with original battery: 0.5 kg (1.1 lb) Weight without battery: 0.4 kg (0.88 lb) Accessories Mounting bracket pipe/IBC: 860 g (30.33 oz) Mounting bracket wall/ceiling: 450 g (15.87 oz) G 1" adapter: 300 g (10.581 oz) MNPT 1" adapter: 300 g (10.581 oz) Materials Housing Plastic PBT/PC Seal: TPE Radar antenna Plastic PBT/PC A0040970 A0045480 Endress+Hauser 13 138.4 (5.45)170 (6.69)146.8 (5.78)33 (1.3)222.6 (8.76)182.6 (7.19)5570 (2.76)25 (0.98)52 (2.05)AB Micropilot FWR30 Accessories Mounting bracket pipe/IBC: AISI316 L (1.4404) Mounting bracket universal: AISI316 L (1.4404) G 1" adapter: AISI316 L (1.4404) MNPT 1" adapter: AISI316 L (1.4404) Process seal: EPTM Human interface Operating concept Straightforward operation without wiring Configuration via cloud using Web application Connection status displayed via LED Certificates and approvals The certificates and approvals currently available can be accessed via the Product Configurator. FCC is not yet available for the GPS version. Canada CNR-Gen is not yet available for the GPS version. Radiofrequency radiation exposure information is not yet available for the GPS version. The measuring system meets the legal requirements of the applicable EU Directives. These are listed in the corresponding EU Declaration of Conformity along with the standards applied. The manufacturer confirms successful testing of the device by affixing to it the CE mark. The measuring system meets the substance restrictions of the Directive on the Restriction of the Use of Certain Hazardous Substances 2011/65/EU (RoHS 2) and the Delegated Directive (EU) 2015/863

(RoHS 3). CE mark RoHS EN 302729-1/2 radio standard The devices comply with the LPR (Level Probing Radar) radio standard EN 302729-1/2 and are approved for unrestricted use inside and outside of closed vessels in countries of the EU and EFTA. As a prerequisite, the countries in question must have already implemented this standard. The following countries are those that have currently implemented the standard:

Belgium, Bulgaria, Germany, Denmark, Estonia, France, Greece, UK, Ireland, Iceland, Italy, Liechtenstein, Lithuania, Latvia, Malta, The Netherlands, Norway, Austria, Poland, Portugal, Romania, Sweden, Switzerland, Slovakia, Spain, Czech Republic and Cyprus. Implementation is still underway in all of the countries not listed. Please note the following for operation of the devices outside of closed vessels:

1. 2. 3. 4. The device must be mounted in accordance with the instructions in the "Installation" section. Installation must be carried out by properly trained, expert staff. The device antenna must be installed in a fixed location pointing vertically downwards. The installation site must be located at a distance of 4 km from the astronomy stations listed below or otherwise approval must be provided by the relevant authority. If the device is installed at a distance of 4 to 40 km from one of the listed stations, it must not be installed at a height of more than 15 m (49 ft) above the ground. Astronomy stations Country Germany Finland Effelsberg Metshovi Tuorla Name of the station Latitude Longitude 5031'32" North 0653'00" East 6013'04" North 2423'37" East 6024'56" North 2426'31" East 14 Endress+Hauser Micropilot FWR30 Country France Name of the station Latitude Longitude Plateau de Bure 4438'01" North 0554'26" East Floirac 4450'10" North 0031'37" West Great Britain Cambridge 5209'59" North 0002'20" East Damhall Jodrell Bank Knockin Pickmere Medicina Noto Sardinia Dmitrov Kalyazin Pushchino Onsala Bleien Yebes Robledo Penc Italy Poland Russia Sweden Switzerland Spain Hungary Fort Skala Krakow 5003'18" North 1949'36" East Zelenchukskaya 4349'53" North 4135'32" East 5309'22" North 0232'03" West 5314'10" North 0218'26" West 5247'24" North 0259'45" West 5317'18" North 0226'38" West 4431'14" North 1138'49" East 3652'34" North 1459'21" East 3929'50" North 0914'40" East 5626'00" North 3727'00" East 5713'22" North 3754'01" East 5449'00" North 3740'00" East 5723'45" North 1155'35" East 4720'26" North 0806'44" East 4031'27" North 0305'22" West 4025'38" North 0414'57" West 4747'22" North 1916'53" East As a general rule, the requirements outlined in EN 302729-1/2 must be observed. FCC Order code 030, option A, mobile radio + SIM card (NB-IoT/LTE-M/ 2G):

FCC ID: LCGFWR3XWEL includes transmitter module FCC ID:XMR201707BG96 Order code 030, option B, GPS + SIM card + mobile radio EU (NB-IoT, LTE-M, 2G) Order code 030, option C, GPS + SIM card + mobile radio US (NB-IoT, LTE-M, 2G) Is not FCC-certified FCC ID: LCGFWR3XXEL This device complies with Part 15 of the FCC rules. Operation is subject to the following two conditions: (1) This device must not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.

[Any] changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. The devices are compliant with the FCC Code of Federal Regulations, CFR 47, Part 15, Sections 15.205, 15.207, 15.209. In addition, the devices are compliant with Section 15.256 . For these LPR (Level Probe Radar) applications the devices must be professionally installed in a downward operating position. In addition, the devices must not be mounted in a zone of 4 km around RAS stations and within a radius of 40 km around RAS stations. The maximum operating height of devices is 15 m (49 ft) above ground. The GNSS receiver is compliant with the FCC Code of Federal Regulations, CFR 47, Part 15, Sections 15.107, 15.109. Endress+Hauser 15 Industry Canada Order code 030, option A, mobile radio + SIM card (NB-IoT/LTE-M/ 2G):

Model FWR30 IC ID: 2519A-WEL includes transmitter module IC ID: 10224A-201709BG96 Order code 030, option B, GPS + SIM card + mobile radio EU (NB-IoT, LTE-M, 2G) Micropilot FWR30 Order code 030, option C, GPS + SIM card + mobile radio US (NB-IoT, LTE-M, 2G) Is not IC-certified Model FWR30-C IC ID: 2519A-XEL Canada CNR-Gen Section 7.1.3 This device complies with Industry Canada licence-exempt RSS standard(s). Operation is subject to the following two conditions: (1) This device must not cause harmful interference, and (2) this device must accept any interference, including interference that may cause undesired operation of the device. Le prsent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est autorise aux deux conditions suivantes: (1) l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible d'en compromettre le fonctionnement.

[Any] changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. Includes transmitter module IC ID: 10224A-201709BG96 The installation of the LPR/TLPR device shall be done by trained installers, in strict compliance with the manufacturers instructions. The use of this device is on a no-interference, no-protection basis. That is, the user shall accept operations of high-powered radar in the same frequency band, which may interfere with or damage this device. However, devices found to interfere with primary licensing operations will be required to be removed at the users expense. This device shall be installed and operated in a completely enclosed container to prevent RF emissions, which can otherwise interfere with aeronautical navigation. The installer/user of this device shall ensure that it is at least 10 km from the Dominion Astrophysical Radio Observatory (DRAO) near Penticton, British Columbia. The coordinates of the DRAO are latitude 491915 N and longitude 1193712 W. For devices not meeting this 10 km separation (e.g., those in the Okanagan Valley, British Columbia,) the installer/user must coordinate with, and obtain the written concurrence of, the Director of the DRAO before the equipment can be installed or operated. The Director of the DRAO may be contacted at 250-497-2300 (tel.) or 250-497-2355 (fax). (Alternatively, the Manager, Regulatory Standards Industry Canada, may be contacted.) The model FWR30 fulfills the requirements for use as LPR (Level Probe Radar). The measuring device is approved according to the Japanese Radio Law () and the Japanese Telecommunication Business Law (). The measuring device may not be modified

(otherwise the assigned designation number is invalid). This equipment complies with FCC and IC radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance of 20 cm between the radiator and your body. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. Cet quipement est conforme aux limites d'exposition aux rayonnements IC tablies pour un environnement non contrl. Cet quipement doit tre install et utilis avec un minimum de 20 cm de distance entre la source de rayonnement et votre corps. Ce transmetteur ne doit pas etre place au meme endroit ou utilise simultanement avec un autre transmetteur ou antenne. Compliance with the Japanese Radio Law and the Japanese Telecommunication Business Law Radiofrequency radiation exposure information Radio approval Order code for 030 option A: mobile radio: RED conformity and FCC/IC approval Order code for 030 option B: mobile radio and GPS: RED conformity Order code for 030 option C: mobile radio and GPS: FCC/IC approval External standards and guidelines EN 61010-1 EN 61326-1 EMC 16 Endress+Hauser Micropilot FWR30 Ordering information Detailed ordering information is available for your nearest sales organization www.addresses.endress.com or in the Product Configurator under www.endress.com :

Click Corporate Select the country Click Products 1. 2. 3. 4. 5. Open the product page Select the product using the filters and search field The Configuration button to the right of the product image opens the Product Configurator. Product Configurator - the tool for individual product configuration Up-to-the-minute configuration data Depending on the device: Direct input of measuring point-specific information such as measuring range or operating language Automatic verification of exclusion criteria Automatic creation of the order code and its breakdown in PDF or Excel output format Ability to order directly in the Endress+Hauser Online Shop Accessories Device-specific accessories Mounting bracket pipe / IBC: part number 71447849 Mounting bracket wall / ceiling: part number 71447853 G 1" adapter: part number 71488949 MNPT 1" adapter: part number 71488957 Documentation For an overview of the scope of the associated Technical Documentation, refer to the following:

W@M Device Viewer (www.endress.com/deviceviewer): Enter the serial number from the Endress+Hauser Operations App: Enter the serial number from the nameplate or scan the nameplate matrix code on the nameplate Supplementary device-

dependent documentation Additional documents are supplied depending on the device version ordered: Always comply strictly with the instructions in the supplementary documentation. The supplementary documentation is an integral part of the device documentation. Endress+Hauser 17

*71542465*

71542465 www.addresses.endress.com

1 2 3 4 1 Micropilot Order code:

Ser. no.:

Ext. ord. cd.:

5 6338P87C98A 9 10 LTE-M1/NB1/EGPRS IMEI xxxxxxxxxxxxxxx Ta: -20...+60C FW: 01.00.01 Dev.Rev.: 2 ex works 19 20 21 50 IP68 / 66 Type 4X / 6P Encl. 26 US FCC ID LCGFWR3XXEL C MODEL FWR30-C IC:2519A-XEL 29 33 if modification X =

see sep. label Date: 2021-08 38 Field no. Contents Comment 1 5 Made in Germany, 79689 Maulburg, Hauptstr. 1 Assembled in USA. Greenwood. In. Order code Depending on production plant Ident.-no. = individual no for same devices 9 - 33 optional markings not relevant to CSA approval Lettering/Beschriftung:

Wiping resistant according to/wischfest nach DIN EN 61010-1 part/Abschnitt 5.3 Refer to protection notice ISO 16016 Classification Title G K

. o C

H b m G r e s u a H

s s e r d n E y n a m r e G l g r u b u a M 9 8 6 9 7

D Nameplate cCSAus (CA) General Purpose Micropilot FWR30 Material

Scale 1:1 Notif. no. Tolerance

Designed Drawing chng. Number of changes Welding contr. 31.08.2021 FRONTB 31.08.2021

FRONTB

Approval contr. 18.09.2021 StuderM Status Released No. of document Pressure contr.

Released 18.09.2021 StuderM 961005534 Weight kg Volume SAP material no. Version Doc. part A 000 Format cm Sheet DIN A4 1/1 A B C D E F 5 0 4 4 1 O S I 5 3 1 0 1 O S I 5 1 0 8 O S I I G N C N A R E L O T L A N O S N E M D S P G

I I I S N O T A C D N I I I G N W A R D S P G

1 0 1 1 O S I 2 0 3 1 O S I E R U T X E T E C A F R U S F O N O T A C D N I I I

S P G I G N C N A R E L O T L A C R T E M O E G S P G

I S L A T N E M A D N U F

S P G 5 1 7 3 1 O S I I E P A H S D E N F E D N U F O S E G D E

Endress+Hauser People for Process Automation Endress+HauserSE+Co. KG Hauptstrasse 1 79689 Maulburg Germany Federal Communication Commission Equipment Authorization Devision, Application Processing Branch 7435 Oakland Mills Road Columbia, MD 21048 Certification and Engineering Bureau Innovation, Science and Economic Development Canada 3701CarlingAve.Bldg.94 Ottawa, On K2H 8S2 Declaration about Re- use of older test report To Whom It May Concern:

Product/Model: LCGFWR3XXEL 1C: 2519A-XEL We hereby declare that, concerning its functionality and performance of the level probing radar, the product with FCC ID LCGFWR3XXEL (1C: 2519A-XEL) uses the same Hardware and Software as the product with FCC ID LCGFWR3XWEL (1C: 2519A-WEL). No modifications (redesign, component replacements, pcb redesign) have been made relating this part of the system. We declare in our sole of responsibility that measurements in report no. TR-50511-74558-02 dated 2020-02-13 issued for the product with FCC ID LCGFWR3XWEL (1C: 2519A-WEL) remains applicable in full also for the product with FCC ID LCGFWR3XXEL (1C: 2519A-XEL). If you have any questions, feel free to contact us at the address shown below Sincerely U. ^-(f ^^^-

Endress+HauserSE+Co. KG Mr.RalfReimelt Group Leader R&D Hauptstrasse 1 79689 Maulburg Germany 1/1

LONG-TERM CONFIDENTIALITY REQUEST for Certification Service in the USA Federal Communication Commission Equipment Authorization Division, Application Processing Branch 7435 Oakland Mills Road Columbia, MD 21048 TO WHOM IT MAY CONCERN Pursuant to Paragraphs 0.457 and 0.459 of the Commission's Rules (47 C.F.R.) and Section 552(b)(4) of the Freedom of Information Act, we request Long-Term Confidentiality for the following product:

Grantee Code Equipment Product Code Check yow GC here. dick Grantee Search. FCC ID:

LCG FWR3XXEL For the product stated above, we request Long-Term Confidentiality for exhibits which contain Block Diagram, Operational Description, Parts List/Tune Up Info, Schematics, SDR Software/Security Info. The above exhibits contain our trade secrets and proprietary infonnation that could be of benefit to our competitors. This information will not be publicly available. If you have any questions, please feel free to contact us at the address shown below. Sincerely, Company Name:

Endress+Hauser SE+Co. KG Phone:

+49762228 1890 Hauptstrasse 1 Fax:

+4976222881212 Company Address:

79689 Maulburg E-mail:

ralf.reimelt@endress.com Germany Contact Name:

RalfReimelt Signature: i.A. (?c(^&u^(^ Signature Date:

Oc<- A. <?o-^4 Document Version 1.1 2020-10-30

SHORT-TERM CONFIDENTIALITY REQUEST for Certification Service in the USA Federal Communication Commission Equipment Authorization Division, Application Processing Branch 7435 Oakland Mills Road Columbia, MD 21048 TO WHOM IT MAY CONCERN Pursuant to Paragraphs 0.457 and 0.459 of the Commissions Rules (47 C.F.R.) and Section 552(b)(4) of the Freedom of Information Act, we request Short-Term Confidentiality for the following product:

FCCID:| = LCG|/FWR3XXEL For the product stated above, we request Short-Term Confidentiality for exhibits which contain External Photos, Internal Photos, Test Setup Photos, User Manual. We request Short-Term Confidentiality on the basis of ensuring that business sensitive information remains confidential until the actual marketing of our new device which is planned for: 01.03.2022 We are aware that the Short-Term Confidentiality must be released when the product is marketed. If you have any questions, please feel free to contact us at the address shown below. Sincerely, Company Name:

Endress+Hauser SE+Co. KG +49 7622 28 1890 Hauptstrasse 1 +49 7622 28 81212 Company Address: 79689 Maulburg ralf.reimelt@endress.com Germany Contact Name:

Ralf Reimelt Signature Signature: Date:

Document Version 1.1 2020-10-30