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Micropelt MLR003RiEU61-07 User Manual And Device Specification

Heating radiator thermostat, lorawan class a eu868mhz sf7bw125
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Copyright Micropelt
Heating Radiator Thermostat
MLR003RiEU61-07 (EN)
LoRaWAN CLASS A EU868MHz SF7BW125
User Manual and Device Specification
The Micropelt MLR003R product series has been designed for use with heating radiators and M30x1,5
valve thread. Installing the Micropelt MLR003 system is simple and only a matter of hours. Compared to
conventional systems, the Micropelt MLR003 product allows significant cost savings on labour and
material cost for wiring, network infrastructure, and building structural changes. LoRaWAN allows
control of radiators over long distances, even inside buildings.
For inquiries please visit us at:
Customer Service Portal
Email: info@micropelt.com  Telephone +49 761 59026190

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Summary of Contents for Micropelt MLR003RiEU61-07

  • Page 1 The Micropelt MLR003R product series has been designed for use with heating radiators and M30x1,5 valve thread. Installing the Micropelt MLR003 system is simple and only a matter of hours. Compared to conventional systems, the Micropelt MLR003 product allows significant cost savings on labour and material cost for wiring, network infrastructure, and building structural changes.

  • Page 2: Table Of Contents

    MLR003RiEU61-07 Communication Profile ................... 20 7.1 MLR003RiEU61-07 FPORT 0x00 MAC Commands .................. 23 7.2 MLR003RiEU61-07 FPORT 0x01 UPLINK: Device to Controller / Network Server......... 24 7.3 MLR003RiEU61-07 FPORT 0x01 DOWNLINK: Controller / Network Server to Device......28 7.4 MLR003RiEU61-07 FPORT 0x02 Version ....................31 7.5 MLR003RiEU61-07 FPORT 0x03 Motor Travel Distance .................
  • Page 3 MLR003RiEU61-07 Battery Charging ...................... 64 15.1 Flowchart instructions..........................64 15.2 Video instruction............................. 65 MLR003RiEU61-07 Performance Data....................66 MLR003RiEU61-07 Dimensions and valve connection ................68 MLR003RiEU61-07 CE Conformity ......................69 MLR003RiEU61-07 Labels ........................70 19.1 Product Label ............................70 MLR003RiEU61-07 Accessories....................... 72 20.1 MLR-KEY Magnetic switch........................

  • Page 4: Mlr003Rieu61-07 Revision History

    Copyright Micropelt 1 MLR003RiEU61-07 Revision History REV. Description of Revision Beschreibung der Revised Date Überarbeitung REV1.0 Document describes the first Das Dokument beschreibt     release of MLR003. die erste Version von MLR003. Most recent changes are against the general-purpose platform Die letzte Änderung...
  • Page 5 • Extend Uplink payload to • Erweiterung der Uplink- Becky 2022-01-24 include User Mode and User Payload um User Mode Value und User Value • Extend motor Reference Run • Erweiterung der Motor- travel distance Referenzfahrt-Distanz MLR003RiEU61-07 Revision History– 5...
  • Page 6 Uplink auf bis zu alle 30 Minuten REV1.8 ESD protection for transport ESD-Schutz für den Bala 2023-03-27 Transport   Changed the trigger condition for Geänderte Bala 2023-03-27 Radio Failure in “Operating Auslösebedingung für Modes” Funkausfall in "Betriebsmodi" MLR003RiEU61-07 Revision History– 6...
  • Page 7 Forced Heating: Activate at 2.2V Erzwungene Heizung: Becky 2023-10-19 rather than 2.0V. Aktivierung bei 2,2 V anstelle von 2,0 V. Flow & Ambient temperature estimation: round rather than Durchfluss und truncate. Umgebungstemperatur abschätzen: Runden statt abschneiden. MLR003RiEU61-07 Revision History– 7...
  • Page 8 Benutzer-Modus: FPORT 8: Temperature Estimation Frostschutz und Erzwungene Flow Temperature Offset Heizung werden gemeldet FPORT 9: External Temperature FPORT 4: Unnötige Rejoin Sensor Expiry entfernt FPORT 8: Einstellung der Temperaturabschätzung FPORT 9: Ablauf des externen Temperatursensors MLR003RiEU61-07 Revision History– 8...
  • Page 9 Der gewichtete gleitende 2024 Temperature and Ambient Durchschnitt für die temperature estimate is Schätzung der calculated based on the weighted Vorlauftemperatur und der flow moving average Umgebungstemperatur wird auf der Grundlage des gewichteten gleitenden Durchschnitts des Vorlaufs berechnet. MLR003RiEU61-07 Revision History– 9...

  • Page 10: Mlr003Rieu61-07 Intended Use

    Copyright Micropelt 2 MLR003RiEU61-07 Intended Use The Micropelt MLR003R product series has been designed for use with controlling water-filled heating radiators. Any other use – including control of floor heating systems – is not permitted and can result in malfunctions or damage. It is important to comply with the safety notice included in these operating instructions.

  • Page 11: Mlr003Rieu61-07 Safety

    When operating the device in a workplace environment, be sure to observe the workplace regulations that may apply. In case of questions, please contact: Micropelt - a brand of EH4 GmbH. Email: info@micropelt.com. Telephone +49 761 59026190 MLR003RiEU61-07 Safety– 11...

  • Page 12: Mlr003Rieu61-07 General Description

    This document defines the properties of Micropelt’s maintenance free, intelligent thermostatic head MLR003. Installing the Micropelt MLR003 system is simple and only a matter of hours. Compared to conventional systems, the Micropelt MLR003 product allows significant cost savings on labour and material cost for wiring, network infrastructure, and building structural changes.
  • Page 13 Safety Mode and Safety Value as specified by the user, and sends Join Requests every hour until it rejoins a gateway. The actuator generates the required electrical energy for operation by means of a built-in thermoelectric generator (TEG) and therefore operates maintenance-free. MLR003RiEU61-07 General Description– 13...

  • Page 14: Mlr003Rieu61-07 Operating Instructions

    Copyright Micropelt 5 MLR003RiEU61-07 Operating Instructions 5.1 User Interface functionality The unit has no user-accessible buttons to avoid manipulation of the device in public environments. Installers rely on a pen-shaped magnet to perform tasks related to the installation. 5.2 Setting up a Gateway...

  • Page 15: Pairing The Device With A Room Controller Or Gateway

    Briefly tap the pen magnet on the micr°pelt logo on the product’s cover The radio establishes a link to the gateway upon successful completion, a double-beep sounds The motor performs a reference run upon successful completion, a triple-beep sounds The unit is now active MLR003RiEU61-07 Operating Instructions– 15...

  • Page 16: Reset (From Normal Operation Only)

    5.7 No Reset from Mounting Position 5.8 Removal from the Valve Unscrew the ring nut from the valve and RESET the device. It will move to mounting position and switch OFF. MLR003RiEU61-07 Operating Instructions– 16...

  • Page 17: Mlr003Rieu61-07 Operating Modes

    Copyright Micropelt 6 MLR003RiEU61-07 Operating Modes   Installatio Standard Idle state Radio Forced Freeze n cycle failure heating Protection operation Comments   Valve target Phases Uplinks not Valve opens Valve opens between received by to 50% to 95% monitoring, (or remains...
  • Page 18 12 every seconds hours 2 minutes Internal If User If User If Safety temperatu Mode is Mode is Mode is Setpoint Setpoint Setpoint controller Ambient Ambient Ambient Temperatur Temperatur Temperatur e: active e: active e: active MLR003RiEU61-07 Operating Modes– 18...
  • Page 19 Copyright Micropelt Default Setpoint Setpoint Setpoint upon Ambient Ambient Ambient activation Temperatur Temperatur Temperatur and no e 19°C e 19°C e 19°C downlinks RCI 10 minutes MLR003RiEU61-07 Operating Modes– 19...

  • Page 20: Mlr003Rieu61-07 Communication Profile

    Copyright Micropelt 7 MLR003RiEU61-07 Communication Profile FPort Number Type of operation Payload length Description Comments 0x00 MAC Commands 8 Bytes Defined by LoRaWAN 0x01 • Valve Downlink: • Actuator position % operation 6 Bytes mode mode with Uplink: • Temperature...
  • Page 21 View Temperature Source currently in use 0x0a External Downlink: Send the Room Only Temperature 1 Byte Temperature from supported in an external the MLR003R/ Uplink: temperature Radiator None sensor to the product line. device MLR003RiEU61-07 Communication Profile– 21...
  • Page 22 None • Instruct 0x0F On/Off Downlink: Device to 1 Byte stay ON even Uplink: if 6-week 1 Byte Reference Run finds that device is Unmounted • Instruct a Recalibration • Instruct a device to switch OFF MLR003RiEU61-07 Communication Profile– 22...

  • Page 23: Mlr003Rieu61-07 Fport 0X00 Mac Commands

    Copyright Micropelt 7.1 MLR003RiEU61-07 FPORT 0x00 MAC Commands DOWNLINK BYTE BIT RANGE SIZE OFFSE ABBREVIATION DETAILS DB0.7…0.0 DevStatusReq Requests the battery level of the device 0x06 = Device Status Request Response is communicated in field “opts” (not in an FPORT 0x00 Uplink)

  • Page 24: Mlr003Rieu61-07 Fport 0X01 Uplink: Device To Controller / Network Server

    Copyright Micropelt 7.2 MLR003RiEU61-07 FPORT 0x01 UPLINK: Device to Controller / Network Server BYTE BIT RANGE SIZE OFFSET ABBREVIATION DETAILS DB0.7…0.0 Current Valve Position % 0x00 … 0x64 / 0 … 100% Res = 1% DB1.7…1.0 FSRV Flow Sensor RAW Value °C 0x00 …...
  • Page 25 Res = 10µA DB8.7…7.0 Average Current Generated 0x00 … 0xFF / 0 … 2550µA Res = 10µA DB9.7 Operating Condition 0 = Device is in Normal Operation and is Active 1 = Device is in Mounting Position and MLR003RiEU61-07 Communication Profile– 25...
  • Page 26 Valve Position % 0b001 RESERVED 0b010 SP Ambient Temperature °C 0b011 Detecting Opening Point 0b100 Slow Harvesting 0b101 Temperature Drop Detected, and device is responding with instructed Action 0b110 Freeze Protect is active 0b111 Forced Heating is active MLR003RiEU61-07 Communication Profile– 26...
  • Page 27 MAX FLOW TEMP: 0x00 … 0x84 / 0 … 33°C Res = 0.25°C DB11.7… UTMP Used Temperature °C 11.0 Ambient Temperature used in temperature control calculation 0x00 … 0xFF / 0 … 63.75°C Res = 0.25°C MLR003RiEU61-07 Communication Profile– 27...

  • Page 28: Mlr003Rieu61-07 Fport 0X01 Downlink: Controller / Network Server To Device

    Copyright Micropelt 7.3 MLR003RiEU61-07 FPORT 0x01 DOWNLINK: Controller / Network Server to Device BYTE BIT RANGE SIZE OFFSET ABBREVIATION DETAILS DB0.7…0.0 Set Point Value according to User Mode VALVE %: 0x00 … 0x64 / 0 … 100% Res = 1% AMB TEMP: 0x00 …...
  • Page 29 Valve Position % 0b01 RESERVED 0b10 SP Ambient Temperature °C 0b11 RESERVED DB3.1…3.0 Safety Mode 0b00 = Default = SP Ambient Temperature 0b00 SP Ambient Temperature °C 0b01 RESERVED 0b10 Valve Position % 0b11 RESERVED 5  DB4.7…4.0 RESERVED MLR003RiEU61-07 Communication Profile– 29...
  • Page 30 Copyright Micropelt DB5.7 Do Reference Run now Default = 0 1 = Reference Run now DB5.6…5.0 RESERVED MLR003RiEU61-07 Communication Profile– 30...

  • Page 31: Mlr003Rieu61-07 Fport 0X02 Version

    Copyright Micropelt 7.4 MLR003RiEU61-07 FPORT 0x02 Version DOWNLINK BYTE BIT RANGE SIZE OFFSET ABBREVIATION DETAILS Requests a 0x02 Uplink containing the device version details UPLINK BYTE BIT RANGE SIZE OFFSET ABBREVIATION DETAILS DB0.7…0.4 REV Minor value DB0.3…0.0 REV Major value DB1.7…1.4...

  • Page 32: Mlr003Rieu61-07 Fport 0X03 Motor Travel Distance

    Copyright Micropelt 7.5 MLR003RiEU61-07 FPORT 0x03 Motor Travel Distance DOWNLINK BYTE BIT RANGE SIZE OFFSET ABBREVIATION DETAILS DB0.7…0.4 RESERVED DB0.3…0.0 Motor Operating Range 0b0000 2.56048mm 0b0001 RESERVED 0b0010 RESERVED 0b0011 0.624mm 0b0100 0.832mm 0b0101 1.040mm 0b0110 1.248mm 0b0111 1.456mm 0b1000 1.664mm...
  • Page 33 Copyright Micropelt 0b1111 RESERVED To receive an Uplink without changing any settings, send an empty Downlink. UPLINK Same as Downlink, confirming settings. MLR003RiEU61-07 Communication Profile– 33...

  • Page 34: Mlr003Rieu61-07 Fport 0X04 Lora Data Rate

    Copyright Micropelt 7.6 MLR003RiEU61-07 FPORT 0x04 LoRa Data Rate DOWNLINK BYTE BIT RANGE SIZE OFFSET ABBREVIATION DETAILS DB0.7…0.1 RESERVED DB0.0 Data Rate 0b00 SF7BW125 0b01 SF8BW125 UPLINK Same as Downlink, confirming settings. MLR003RiEU61-07 Communication Profile– 34...

  • Page 35: Mlr003Rieu61-07 Fport 0X05 Opening Point Detection And Slow Harvesting

    Copyright Micropelt 7.7 MLR003RiEU61-07 FPORT 0x05 Opening Point Detection and Slow Harvesting DOWNLINK BYTE BIT RANGE SIZE OFFSET ABBREVIATION DETAILS DB0.7…0.5 RESERVED DB0.4 Opening Point Reset 1 = Reset Opening Point: Device will set Opening Point Percent to Not Found.
  • Page 36 BIT RANGE SIZE OFFSET ABBREVIATION DETAILS DB0.7 Opening Point Percent has been found Not Found Found DB0.6…0.0 Opening Point Percent 0x00 … 0x64 / 0 … 100% Res = 1% DB1.7…1.3 RESERVED DB1.2…1.0 Slow Harvesting Status MLR003RiEU61-07 Communication Profile– 36...
  • Page 37 0b011 Cannot detect Opening Point 0b100 Not Slow Harvesting because battery is high 0b101 Not Slow Harvesting because Slow Harvesting was attempted but generated insufficient current 0b110 Detecting Opening Point 0b111 Slow Harvesting MLR003RiEU61-07 Communication Profile– 37...

  • Page 38: Mlr003Rieu61-07 Fport 0X06 Temperature Drop Detection

    Copyright Micropelt 7.8 MLR003RiEU61-07 FPORT 0x06 Temperature Drop Detection Device will only check for a Temperature Drop and respond to the Detection of a Temperature Drop when the Radio Communication Interval is 5 minutes or 10 minutes The temperature drop measurement to detect >=1,5°C on the ambient raw sensor is done only in intervals of 10minutes.
  • Page 39 0% for 60 minutes and then resume normal operation DB0.5 Upon Resumption of Normal Operation, device will: not Beep Beep DB0.4 Temperature Drop Period Activation of Temperature Drop Action after at least: one temperature drop MLR003RiEU61-07 Communication Profile– 39...
  • Page 40 Copyright Micropelt two consecutive temperature drops DB0.3…0.1 RESERVED DB0.0 A Temperature Drop has been Detected No Detection Detection Ambient RAW value dropped by >= 1.5°C during the last 10 minutes MLR003RiEU61-07 Communication Profile– 40...

  • Page 41: Mlr003Rieu61-07 Fport 0X07 Pid Temperature Controller

    Copyright Micropelt 7.9 MLR003RiEU61-07 FPORT 0x07 PID Temperature Controller DOWNLINK BYTE BIT RANGE SIZE OFFSET ABBREVIATION DETAILS DB0.7…0.0 P Coefficient 0 … 255 Default = 0x0A = 10 Resolution = 1 DB1.7…1.0 I Coefficient 0 … 5.12 Default = 0x4B = 1.5 Resolution = 0.02...
  • Page 42 Copyright Micropelt DB6.7…6.0 Offset Percent Percentage Offset to be added to PID Output Default = 0x00 = 0% To receive an Uplink without changing any settings, send an empty Downlink. UPLINK Same as Downlink, confirming settings. MLR003RiEU61-07 Communication Profile– 42...

  • Page 43: Mlr003Rieu61-07 Fport 0X08 Temperature Estimation

    Copyright Micropelt 7.10 MLR003RiEU61-07 FPORT 0x08 Temperature Estimation DOWNLINK BYTE BIT RANGE SIZE OFFSET ABBREVIATION DETAILS DB0.7…0.0 FADD Flow Raw Value Offset With 2’s complement Default = 0x00 = 0.00°C Resolution = 0.25°C 0x00 0.00 0x01 0.25 0x02 0.50 …...
  • Page 44 Copyright Micropelt MLR003RiEU61-07 Communication Profile– 44...

  • Page 45: Mlr003Rieu61-07 Fport 0X09 External Temperature Sensor

    Copyright Micropelt 7.11 MLR003RiEU61-07 FPORT 0x09 External Temperature Sensor DOWNLINK BYTE BIT RANGE SIZE OFFSET ABBREVIATION DETAILS DB0.7…0.0 External Temperature Sensor expiry.     If a Room Temperature is sent by Downlink, continue using it until:     a new Room Temperature is sent by  ...
  • Page 46 Copyright Micropelt DB1.7 Source of Room Temperature value used for Temperature Control 0x00 Device is using internal temperature estimation algorithm 0x01 Device is using most recently provided external temperature sensor value DB1.6…1.0 RESERVED MLR003RiEU61-07 Communication Profile– 46...

  • Page 47: Mlr003Rieu61-07 Fport 0X0A External Temperature

    Copyright Micropelt 7.12 MLR003RiEU61-07 FPORT 0x0a External Temperature DOWNLINK BYTE BIT RANGE SIZE OFFSET ABBREVIATION DETAILS DB0.7…0.0 Room Temperature °C 0x00 … 0xA0 / 0 … 40°C Res = 0.25°C UPLINK No Uplink, device responds on Port 0x01. MLR003RiEU61-07 Communication Profile– 47...

  • Page 48: Mlr003Rieu61-07 Fport 0X0B Beep

    Copyright Micropelt 7.13 MLR003RiEU61-07 FPORT 0x0b Beep DOWNLINK BYTE BIT RANGE SIZE OFFSET ABBREVIATION DETAILS DB0.7…0.0 BEEP Instruct device to beep n times 0x00 … 0xFF / 0 … 255 UPLINK No Uplink, device responds on Port 0x01. MLR003RiEU61-07 Communication Profile– 48...

  • Page 49: Mlr003Rieu61-07 Fport 0X0F On/Off

    Copyright Micropelt 7.14 MLR003RiEU61-07 FPORT 0x0f On/Off DOWNLINK BYTE BIT RANGE SIZE OFFSET ABBREVIATION DETAILS DB0.7 Device will stay on regardless of 6-week Reference Run results Default = 1 0 = If a 6-week Reference Run fails, device will switch off...
  • Page 50 Port 1 CAL bit 0 & OFF bit 0 Port 1 CAL bit 0 & OFF bit 0 followed by until next successful Recalibration (6-weekly or Downlink) Port 1 CAL bit 1 & OFF bit 0 MLR003RiEU61-07 Communication Profile– 50...
  • Page 51 Port 0x0F acknowledgement Port 1 CAL bit 1 & OFF bit 0 Port 1 CAL bit 0 & OFF bit 0 Port 0x0F Downlink OFF Port 1 CAL bit 1 & OFF bit 1 Device switches off MLR003RiEU61-07 Communication Profile– 51...

  • Page 52: Mlr003Rieu61-07 Power Consumption

    Copyright Micropelt 8 MLR003RiEU61-07 Power Consumption Function Power consumption Battery runtime w/o active harvesting average current draw @ 500mAh Mounting position 2.2 µA 25.9 years Radio communication every 10 min. 10 µA 5.7 years No motor = unheated room Radio communication every 10 min.

  • Page 53: Mlr003Rieu61-07 Power Management

    Copyright Micropelt 9 MLR003RiEU61-07 Power Management 9.1 Energy Harvesting The actuator generates the electrical energy for required for operation (motor, sensors, radio communication) by means of a built-in thermoelectric generator (TEG) and therefore operates maintenance-free. The TEG harvests energy from the temperature difference between the heating flow temperature and the ambient temperature (usually room temperature), which it accumulates in the internal storage.
  • Page 54 Copyright Micropelt 1 Exemplary values for ACC, ACG and computed energy balance. MLR003RiEU61-07 Power Management– 54...

  • Page 55: Energy Storage

    Energy storage typical voltage values Voltage [V] LTO Fully charged – for charge stop (bq25505 and USB) Fully charged – for indicator bit Normal operation 2.4 typical (2.2 … 2.8) Energy storage bit set when below  2.3 MLR003RiEU61-07 Power Management– 55...
  • Page 56 Microcontroller power-up (under hardware-control) when above 2.37 Battery spec HTC1450 (capacity / charge stop / discharge stop) >500mAh / 2.8V / 1.5V 3 Illustration of battery discharge curves from different starting point and ES bit activation MLR003RiEU61-07 Power Management– 56...

  • Page 57: Mlr003Rieu61-07 Temperature Control Loop

    Copyright Micropelt 10 MLR003RiEU61-07 Temperature Control Loop It is recommended to use an external temperature sensor to measure the room temperature, and to send the room temperature to the MLR003 device in FPORT 0x01. In the following situations, the device will estimate the room temperature: •...

  • Page 58: Mlr003Rieu61-07 Freeze Protection

    Copyright Micropelt 11 MLR003RiEU61-07 Freeze Protection If the pipe flow temperature drops to 6°C, then the pipe is at risk of freezing and becoming damaged. In order to avoid possible freeze damage, the actuator opens the valve to 95% or maintains the current position if it is already more than 95%.

  • Page 59: Mlr003Rieu61-07 Forced Heating

    Copyright Micropelt 12 MLR003RiEU61-07 Forced Heating If the actuator storage voltage level discharges to < 2.2V, then the device can no longer maintain normal operation. In order to avoid possible freeze damage, the actuator takes a protective position in heating mode.

  • Page 60: Mlr003Rieu61-07 Opening Point Detection

    Copyright Micropelt 13 MLR003RiEU61-07 Opening Point Detection The Opening Point is the minimum Valve % at which water can flow through the valve. Detection of the Opening Point can enable the device to significantly reduce the flow of hot water through the valve without actually closing the valve to 0%.
  • Page 61 Copyright Micropelt MLR003RiEU61-07 Opening Point Detection – 61...
  • Page 62 Copyright Micropelt MLR003RiEU61-07 Opening Point Detection– 62...

  • Page 63: Mlr003Rieu61-07 Slow Harvesting

    Copyright Micropelt 14 MLR003RiEU61-07 Slow Harvesting Slow Harvesting adjusts the radiator valve such that: • the valve is sufficiently open to enable hot water to flow from the hot water connecting pipe to the valve • the valve is sufficiently closed to ensure that hot water consumption does not increase, and the radiator and...

  • Page 64: Mlr003Rieu61-07 Battery Charging

    Copyright Micropelt 15 MLR003RiEU61-07 Battery Charging For the LoRaWAN MLR Series • 15.1 Flowchart instructions • 15.2 Video instruction 15.1 Flowchart instructions MLR003RiEU61-07 Battery Charging– 64...

  • Page 65: Video Instruction

    Copyright Micropelt 15.2 Video instruction MLR003RiEU61-07 Battery Charging– 65...

  • Page 66: Mlr003Rieu61-07 Performance Data

    Copyright Micropelt 16 MLR003RiEU61-07 Performance Data Parameter Value Ambient operating temperature range 0 to 40°C, max 70% rH Flow pipe temperature 75°C max Transportation & storage temperature range -20 to +45°C, max 70% rH Dimensions (LWH) 83 x 60 x 64 mm...
  • Page 67 Radio Communication Interval during Installation Cycle 10 seconds for 5 minutes Radio Communication attempt Interval (after join 3 * 10 seconds failure or 90 minutes of continuous communication Then 2 minutes failure) Then 60 minutes Default Flow Sensor Offset +0°C MLR003RiEU61-07 Performance Data– 67...

  • Page 68: Mlr003Rieu61-07 Dimensions And Valve Connection

    Copyright Micropelt 17 MLR003RiEU61-07 Dimensions and valve connection The Micropelt series of products is designed to mount onto an M30 x 1.5mm valve thread. Adapters are available for a majority of non-M30 x 1.5mm valve bodies. MLR003RiEU61-07 Dimensions and valve connection– 68...

  • Page 69: Mlr003Rieu61-07 Ce Conformity

    Copyright Micropelt 18 MLR003RiEU61-07 CE Conformity MLR003RiEU61-07 CE Conformity– 69...

  • Page 70: Mlr003Rieu61-07 Labels

    Copyright Micropelt 19 MLR003RiEU61-07 Labels 19.1 Product Label What Where Product type On Label REVn.n On Label Date of production On Label Hardware version On Label Firmware version On Label LoRaWAN frequency On Label Device EUI (16 digits) On Label...
  • Page 71 Copyright Micropelt Application Key (32 digits) In Spreadsheet (Secret) Country of Origin On Label Address On Label Micropelt Logo On Label MLR003RiEU61-07 Labels– 71...

  • Page 72: Mlr003Rieu61-07 Accessories

    Copyright Micropelt 20 MLR003RiEU61-07 Accessories 20.1 MLR-KEY Magnetic switch 4 Pen-shaped magnet required for activating and deactivating the device MLR003RiEU61-07 Accessories– 72...

  • Page 73: Mlr003Rieu61-07 Disposal Instructions

    Copyright Micropelt 21 MLR003RiEU61-07 Disposal Instructions Genereller Hinweis zur Entsorgung: General information on disposal: Die EH4 ist unter der WEEE REG Nummer The EH4 is registered under the WEEE REG DE90689057 registriert. number DE90689057. Die WEEE-Nummer ist eine Herstellernummer, die...
  • Page 74 Bei allen Fragen zu Entsorgung erreichen Sie uns If you have any questions about disposal, please unter: contact us at: E-Mail recycling@micropelt.com E-Mail recycling@micropelt.com Telefon +49 761 590 26 190 Phone 49 761 590 26 190 MLR003RiEU61-07 Disposal Instructions– 74...

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