Public Channels for Tag: arduino nano

Channel ID:
80544
Author:

ESP8266-05, Arduino Nano, DS18B20 waterproof sensor + BME280 with WEMOS D1 + DHT22 with ESP8266 (MatrixClock by Wolle / schreibfaul1)

Channel ID:
245481
Author:

...................................."Extraordinary".................................... ............Dwi Fitria Anggun Suci_151903102004........... ................Iqbal Ali Fawazahi_151903102028.............. .................Yuhan Fitria_151903102036....

Channel ID:
149034
Author:

temperatura umidade e pressão no Rio de Janeiro Brasil com arduino Nano, BMP280, DHT22, 18b20 e ESP8266

Channel ID:
62217
Author:

Attic and external Temperature and Humidity situation plus external Pressure. Hosted ion a Raspberry PI. External sensor based on Arduino Nanao, 433 mhx TX, solar powered. Same data sent as IN3AQK call sign on APRS network

Channel ID:
669322
Author:

Outdoor temperature,humidity and atmospheric pressure in Taipei,Taiwan.

Channel ID:
520163
Author:

Living room temperature,humidity and atmospheric pressure in Taipei,Taiwan.

Channel ID:
316996
Author:

Bedroom temperature,humidity and atmospheric pressure in Taipei,Taiwan.

Channel ID:
682509
Author:

greece, 433 mhz wireless meter, greek, aridaia

Channel ID:
1275493
Author:

Tugas Akhir || Usta Sasmita || 02118101 || ATEM SEMARANG

Channel ID:
211041
Author:

ARIDAIA WIRELESS 315MHZ WEATHER STATION

Channel ID:
1094953

Canal utilizado para la demostracion del proyecto "Medidor de Corriente y Potencia no invasivo por IoT".

Channel ID:
1037461

Saules Kolektoriu Valdiklis panaudojant arduino nano , nodemcu 12e, ds118b20, masinini akumuliatoriu, 230V ir 12V siublius, slegio davikli

Channel ID:
348969
Author:

Garden sensor with Attiny85, SI7021, bh1750fvi

Channel ID:
305516
Author:

Read temperature, Humidity and Carbondioxide. Arduino Nano and ESP-01 is used.

Channel ID:
123925
Author:

SRHPE 150 litre Solar Ray Geyser Analysis. 19 direct coupled vacuum tubes 1.8m long x 58mm dia. Panel is facing North East set up at 35º to horizontal on top of flat roof. LDR estimates light intensity by Lux = 500/(Rldr)^1.3


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