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Trace: manual_egk-lw20w00 manual_mcf-lw06davk_davpk

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manual_mcf-lw06davk_davpk [2022/10/13 09:29] – [2.1Technical data] supportadminmanual_mcf-lw06davk_davpk [2025/03/17 09:42] (current) – [2.2 Installation] supportadmin
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   * Do not dismantle or modify in any way.   * Do not dismantle or modify in any way.
-  * The device is not intended to be used as a reference sensor, and enginko Srl will not be held liable for any damage which may result from inaccurate readings.+  * The device is not intended to be used as a reference sensor, and Angel4Future Srl will not be held liable for any damage which may result from inaccurate readings.
   * Avoid mechanical stress   * Avoid mechanical stress
   *  Do not use any detergent or alcohol to clean the device.   *  Do not use any detergent or alcohol to clean the device.
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 MCF-LW06DAVK/DAVPK is a LoRaWAN(r)communication system kit designed to be connected to Davis Vantage Pro2 Weather Station. MCF-LW06DAVK/DAVPK is a LoRaWAN(r)communication system kit designed to be connected to Davis Vantage Pro2 Weather Station.
 The kit is designed to work with these Davis components: The kit is designed to work with these Davis components:
-  * ISS Davis Vantage Pro2 Groweather sensor suite 6820CM [[https://cdn.shopify.com/s/files/1/0515/5992/3873/files/07395-289_UM_6820.pdf|6820CM]] or ISS Davis Vantage Pro2 sensor suite 6820CM [[https://cdn.shopify.com/s/files/1/0515/5992/3873/files/07395-333_IM-6322C-6334.pdf|6322C]]+  * ISS Davis Vantage Pro2 Groweather sensor suite 6820CM [[https://cdn.shopify.com/s/files/1/0515/5992/3873/files/07395-289_UM_6820.pdf|6820CM]] or ISS Davis Vantage Pro2 sensor suite 6322CM [[https://cdn.shopify.com/s/files/1/0515/5992/3873/files/07395-333_IM-6322C-6334.pdf|6322C]]
   * Cabled Weather Envoy(r)6316CEU[[https://cdn.shopify.com/s/files/1/0515/5992/3873/files/07395_281_Envoy_RevJ_web.pdf?v=1648512000|6316CEU]]   * Cabled Weather Envoy(r)6316CEU[[https://cdn.shopify.com/s/files/1/0515/5992/3873/files/07395_281_Envoy_RevJ_web.pdf?v=1648512000|6316CEU]]
   * WeatherLink® Serial-Port Data Logger 6510SER [[https://cdn.shopify.com/s/files/1/0515/5992/3873/files/07395-256_Addendum_6530_6510SER.pdf|6510SER]]   * WeatherLink® Serial-Port Data Logger 6510SER [[https://cdn.shopify.com/s/files/1/0515/5992/3873/files/07395-256_Addendum_6530_6510SER.pdf|6510SER]]
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  - floor current: 500uA;\\  - floor current: 500uA;\\
  - 600mW for a duration of 2 seconds for every LoRaWAN transmission (worst case);\\  - 600mW for a duration of 2 seconds for every LoRaWAN transmission (worst case);\\
- - 800uA as average with 1 message every 15 minutes, SF = 12;+ - 800uA as average with 1 message every 15 minutes, SF = 12;\\
  - PM sensor additional average consumption: 1.8mA (1 measure every 15 minutes).  - PM sensor additional average consumption: 1.8mA (1 measure every 15 minutes).
  
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-==== 2.2 Installation ====+==== 2.2 Installation ==== 
 + 
 +=== 2.2.1 Assembly of the weather station ===
  
-=== 2.2.1 Assembly of the weather station === 
 Setup the weather station following DAVIS INSTRUMENTS Instructions: Setup the weather station following DAVIS INSTRUMENTS Instructions:
 +
   * Sensor suite [[https://cdn.shopify.com/s/files/1/0515/5992/3873/files/07395-333_IM-6322C-6334.pdf|6820CM]] or [[https://cdn.shopify.com/s/files/1/0515/5992/3873/files/07395-289_UM_6820.pdf|6322CM]]   * Sensor suite [[https://cdn.shopify.com/s/files/1/0515/5992/3873/files/07395-333_IM-6322C-6334.pdf|6820CM]] or [[https://cdn.shopify.com/s/files/1/0515/5992/3873/files/07395-289_UM_6820.pdf|6322CM]]
   * Solar box [[https://cdn.shopify.com/s/files/1/0515/5992/3873/files/07395-326_IM_06612_06614.pdf|6612]]   * Solar box [[https://cdn.shopify.com/s/files/1/0515/5992/3873/files/07395-326_IM_06612_06614.pdf|6612]]
-  * Cabled Weather Envoy(r)6316CEU[[https://cdn.shopify.com/s/files/1/0515/5992/3873/files/07395_281_Envoy_RevJ_web.pdf?v=1648512000f|6316CEU]]+  * Cabled Weather Envoy®6316CEU[[https://cdn.shopify.com/s/files/1/0515/5992/3873/files/07395_281_Envoy_RevJ_web.pdf?v=1648512000f|6316CEU]]
   * WeatherLink® Serial-Port Data Logger 6510SER [[https://cdn.shopify.com/s/files/1/0515/5992/3873/files/6510_SS.pdf|6510SER]]   * WeatherLink® Serial-Port Data Logger 6510SER [[https://cdn.shopify.com/s/files/1/0515/5992/3873/files/6510_SS.pdf|6510SER]]
   * Tripod (if present) [[https://cdn.shopify.com/s/files/1/0515/5992/3873/files/07395-299_IM_07716.pdf|7716A]]   * Tripod (if present) [[https://cdn.shopify.com/s/files/1/0515/5992/3873/files/07395-299_IM_07716.pdf|7716A]]
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 __**Important notes (not exhaustive - please refer to Davis documents for full notes):**__ __**Important notes (not exhaustive - please refer to Davis documents for full notes):**__
-  * enginko LoRaWAN(r) interface (MCF-LW06DAV or MCF-LW06DAVP) must be the last device to be powered on.+ 
 +  * enginko LoRaWAN® interface (MCF-LW06DAV or MCF-LW06DAVP) __must be the last device to be powered on.__
   * On the rain collector, remove the plastic tie that holds the tipping spoon in place during shipping.   * On the rain collector, remove the plastic tie that holds the tipping spoon in place during shipping.
-  * Install the sensor suite (UV sensor, solar radiation sensor, rain collector) as level as possible to ensure accurate measurements. +  * Install the sensor suite (UV sensor, solar radiation sensor, rain collector) as level as possible to ensure accurate measurements.
   * In the Northern Hemisphere, the solar panel should face south for maximum sun exposure, and the anemometer arm should point north for proper wind direction calibration.   * In the Northern Hemisphere, the solar panel should face south for maximum sun exposure, and the anemometer arm should point north for proper wind direction calibration.
   * In the Southern Hemisphere, the solar panel should face north for maximum sun exposure.   * In the Southern Hemisphere, the solar panel should face north for maximum sun exposure.
 +  * __Check the battery voltage before installing the weather station in the final place. If less than 6.3V recharge it.__
 +=== 2.2.2 LoRaWAN interface ===
  
- 
- 
-=== 2.2.2  LoRaWAN interface      ===  
 On the DW-6612 solar panel box proceed as follow (see below image): On the DW-6612 solar panel box proceed as follow (see below image):
  
-{{ :wiki:manual_MCF-LWWS0X:connection.jpg?600 |}}+{{  :wiki:manual_mcf-lwws0x:connection.jpg?600  }} 
   - Remove the 6316CEU by sliding down-up and pull.   - Remove the 6316CEU by sliding down-up and pull.
   - Insert provided 4xAA size batteries on the 6316CEU.   - Insert provided 4xAA size batteries on the 6316CEU.
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   - Fasten the 6316CEU to the box   - Fasten the 6316CEU to the box
   - Connect the red wire terminal “B” to the positive terminal of the battery “C”.   - Connect the red wire terminal “B” to the positive terminal of the battery “C”.
-  - Connect the white connector to the LoRaWAN(r) interface "D":+  - Connect the white connectors to the LoRaWAN® interface:
  
-{{ :wiki:manual_mcf-lwws0x:power.jpg?600 |}}+{{  :wiki:manual_mcf-lwws0x:power1.jpg?600  }}
  
 +=== 2.2.3 Antenna ===
  
- 
-=== 2.2.3  Antenna       ===  
 Mount the provided antenna on the pole using fasteners. On the DW-6612 solar panel box, connect the antenna connector to the MCF-LW06DAV device (Davis station to LoRaWAN™ interface) as shown below by entering the box using the gasket on the bottom side’s hole: Mount the provided antenna on the pole using fasteners. On the DW-6612 solar panel box, connect the antenna connector to the MCF-LW06DAV device (Davis station to LoRaWAN™ interface) as shown below by entering the box using the gasket on the bottom side’s hole:
  
-{{ :wiki:manual_mcf-lwws0x:ant.jpg |}}+{{  :wiki:manual_mcf-lwws0x:ant.jpg  }}
  
- +=== 2.2.4 PM sensor (if present) ===
-=== 2.2.4  PM sensor (if present)      === +
  
 Mount the solar shield with the PM sensor on the pole (at the back of the DW-6612 solar panel box) following the enclosed instruction: Mount the solar shield with the PM sensor on the pole (at the back of the DW-6612 solar panel box) following the enclosed instruction:
-  + 
-{{ :wiki:manual_mcf-lw12terpm:pole.jpg?600 |}}+{{  :wiki:manual_mcf-lw12terpm:pole.jpg?600  }}
  
 On the Davis 6612 solar panel box, connect the cable to the MCF-LW06DAVP device (Davis station to LoRaWAN™ interface) as shown below by entering the box using the gasket on the bottom side’s hole: On the Davis 6612 solar panel box, connect the cable to the MCF-LW06DAVP device (Davis station to LoRaWAN™ interface) as shown below by entering the box using the gasket on the bottom side’s hole:
  
-{{ :wiki:manual_mcf-lwws0x:pm1.jpg?600 |}} +{{  :wiki:manual_mcf-lwws0x:pm1.jpg?600  }} 
-\\ +
  
 ==== 2.3 Configuration ==== ==== 2.3 Configuration ====
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-enginko provides, upon free registration,  user manuals, javascript examples, downlink generator, uplink decoder, firmware updates and different tools :+Angel4Future  provides free user manuals, javascript examples, downlink generator, uplink decoder, firmware updates and different tools :
  
  
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 {{ :wiki:manual_mcf-lw12co2e:activation1_0.jpg?400 |}} {{ :wiki:manual_mcf-lw12co2e:activation1_0.jpg?400 |}}
  
-The device exits factory activated with **NONE** mode.+The device exits factory activated with **OTAA ENGINKO** mode.
 On request devices can be shipped aleady activated. On request devices can be shipped aleady activated.
  
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-To bring back the sensor to factory default and reset the passwords, a reset code must be requested to enginko (please provide the DevEUI of the sensor when you ask for that code).+To bring back the sensor to factory default and reset the passwords, a reset code must be requested to Angel4Future  (please provide the DevEUI of the sensor when you ask for that code).
  
 ===== 7 Configuration file =====  ===== 7 Configuration file =====
  
-WIth LoRaWEB is possible to configure the device using an XML file, instead to manually adjust the parameters (for details about the file format please ask to enginko). This is very useful especially in +WIth LoRaWEB is possible to configure the device using an XML file, instead to manually adjust the parameters (for details about the file format please ask to Angel4Future ). This is very useful especially in 
 case of multiple devices configuration. case of multiple devices configuration.
  
-With "Save" button an XML file with the actual configuration of the sensor will be generated. This is useful to store or clone the configuration, or to send it to enginko's support if needed.+With "Save" button an XML file with the actual configuration of the sensor will be generated. This is useful to store or clone the configuration, or to send it to Angel4Future 's support if needed.
  
  
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-For details on files format please ask to enginko.+For details on files format please ask to Angel4Future .
  
 ===== 8 Payload ===== ===== 8 Payload =====
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 ===== 12 Declaration of conformity ===== ===== 12 Declaration of conformity =====
  
-Hereby, enginko Srl declares that MCF-LW06DAVK/DAVPK complies with the essential requirements and other relevant provisions of Directive  2014/53/EU.+Declarations of conformity are available from Angel4Future by sending a request email to sensor@enginko.com.
  
  
 ===== 13 Contacts ===== ===== 13 Contacts =====
  
-**enginko Srl** \\  +**Angel4Future S.r.l.** \\  
-Via Roma 3  I-28060 Sozzago (NO) \\  +Via San Sabino 21 70042 MOLA DI BARI (BA, ITALY \\  
-T  :    +39 0321 15 93 088 \\  +T  :    +39 080 532 1796 \\  
  
-E  :    info@enginko.com  \\  +E  :    info@angel4future.com  \\ 
-PEC: enginkosrl@legalmail.it \\ +
 W:     enginko.com \\  W:     enginko.com \\ 
  
Last modified: 2023/05/29 07:33