List of the materials (LoRaWAN Gateways and nodes)

This is a not-exhaustive list of my LoRaWAN structure and board elements

LoRaWAN gateways

LoRaWAN Gateway 1 (solar)

• TTIG Read More
• 3x60W second hand solar panel
• MPTT Regulator (Victron MPTT 75 | 15)
• 12V/110Ah solar battery (Victron)
• 4G/WiFi router (netgear)
• Antenna SIRO GP 868 C

LoRaWAN Gateway 2

• TTOG Read more

LoRaWAN Gateway 3

• Rasoberry Pi3
• IC880a Concentrator
• Antenna: 824-896 MHz, 50Ohm, 2dBi, RF power handling: 50 W

LoRaWAN Gateway 4

• Nebra IP67 weatherproof
• Rasperry Pi3
• IoT Gateway HAT for Raspberry Pi (868MHz/915MHz) (PiSupply)
• Glass fiber LoRa antenna

Read more

4G router

• Rasperry Pi3
• Raspberry Pi 3G/4G & LTE Base HAT
• Quectel EC25 Mini PCIe 4G/LTE Module
• 2 LTE antenna

LoRaWAN Meteo stations

Main board

• PCB Version: Eco-lora-v2.1
• LoRaWAN Library: Arduino-lmic 4.1.1
• LoRaWAN Chip: RFM95, Band ISM, 868Mhz
• Microcontroller: ATSAMD21G18-MF ARM Cortex M0 at 48Mhz, 256K of FLASH, 32K of RAM
• EEPROM: 24LC64-I/SN
• GPIO Port Expander: PCF8574
• Lipo Changer: MCP73831
• 4 analog inputs powered by either 3.3V or a control pin through a MOSFET-P
• 2 I2C connectors
• 1 UART connector
• 1 U.FL connector
• 1 microUSB
• 1 Micro SD card
• 1 debuger/programmer connector
• 1 reset buton
• 1 programable buton
• 1 switch ON/OFF Button
• 4 LEDs

Solar board

• PCB version: Eco-solar-v2
• Solar chip: MCP73871
• 5 analog input or 1-WIRE
• 2 I2C connector
• 1 MicroUSB connector
• 1 UART connector
• 1 18650 battery holder
• 1 Battery input
• 1 DC inout
• solar panel input
• 3 status LEDs (power/charging/done)
• Raspberry connector

Sensors

• Pyranometer: Davis Instrument 8450
• Anenometer: Davis Instrument 6410
• Barometer: Boesch BME280
• Pluviometer
• Solar Panel: 5W

LoRaWAN Irrigation stations (Smart Irrigation)

• PCB Version: fox-board_full_mcp-v3
• LoRaWAN Library: Arduino-lmic 4.1.1
• LoRaWAN Chip: RFM95, Band ISM, 868Mhz
• Microcontroller: ATSAMD21G18-MF ARM Cortex M0 at 48Mhz, 256K of FLASH, 32K of RAM
• EEPROM: 24LC64-I/SN
• GPIO Port Expander: PCF8574
• DS3231 (RTC) with a CR1220 battery holder
• TSL2561 sensor (Luminosity)
• DS18B20
• BM280 (Barometer)
• 3 WATERMARK sensors input
• 3 Timer/Oscillator (LMC555)
• 1-Wire input
• 4 analog inputs powered by either 3.3V or a control pin through a MOSFET-P
• 3 I2C connectors
• 1 I2C inout for an OLED screen
• 1 OLED button
• 1 UART connector
• 1 U.FL connector
• 1 input for watering
• 1 microUSB
• 1 Micro SD card holder
• 1 debuger/programmer connector
• 1 reset buton
• 1 programable buton
• 1 switch ON/OFF Button
• 7 status LEDs
• Lipo Changer: MCP73831
• Solar charger: MCP73871
• Solar panel input
• Battery input

Sensors

• 3 WATERMARK tensiometric sensors

LoRaWAN BUD Stations (Smart Bud)

• PCB Version: Eco-lora-v2.1 (some station have the version Eco-lora-v2.0)
• LoRaWAN Library: Arduino-lmic 4.1.1
• LoRaWAN Chip: RFM95, Band ISM, 868Mhz
• Microcontroller: ATSAMD21G18-MF ARM Cortex M0 at 48Mhz, 256K of FLASH, 32K of RAM
• EEPROM: 24LC64-I/SN
• GPIO Port Expander: PCF8574
• Lipo Changer: MCP73831
• 4 analog inputs powered by either 3.3V or a control pin through a MOSFET-P
• 2 I2C connectors
• 1 UART connector
• 1 U.FL connector
• 1 microUSB
• 1 Micro SD card
• 1 debuger/programmer connector
• 1 reset buton
• 1 programable buton
• 1 switch ON/OFF Button
• 4 LEDs

Sensors

• 4 1-Wire DS18B20 waterproof temperature sensorso the ecosensors wiki!