introduction_to_the_internet_of_things
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| Both sides previous revisionPrevious revisionNext revision | Previous revisionNext revisionBoth sides next revision | ||
| introduction_to_the_internet_of_things [2018/07/12 00:01] – sdh7 | introduction_to_the_internet_of_things [2018/07/12 00:04] – sdh7 | ||
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| Line 34: | Line 34: | ||
| * ESP8266 Wifi-enabled microcontroller | * ESP8266 Wifi-enabled microcontroller | ||
| * BME280 sensor array | * BME280 sensor array | ||
| - | * AD1117 | + | * AMS1117 |
| * CH34x-based programmer for the ESP8266 | * CH34x-based programmer for the ESP8266 | ||
| Line 47: | Line 47: | ||
| < | < | ||
| #define CAYENNE_PRINT Serial | #define CAYENNE_PRINT Serial | ||
| + | #define CLASS_BME280 1 //enable BME280 board hack | ||
| #include < | #include < | ||
| Line 114: | Line 115: | ||
| **Power considerations** | **Power considerations** | ||
| - | The kit does not come with a power source. The regulator board requires at least 4.5V (and at most 15V!) to adequately supply 3.3V to the ESP8266 and BME280 boards. A 9V battery or 6V AA case should work. You should be able to power via USB with the serial board as well- just run wires from 3.3v & ground to the appropriate ESP8266 pins. | + | The kit does not come with a power source. The regulator board requires at least 4.5V (and at most 15V!) to adequately supply 3.3V to the ESP8266 and BME280 boards. A 9V battery or 6V AA case should work. You should be able to power via USB with the serial board as well- just run wires from 3.3v & ground to the appropriate ESP8266 pins and leave out the AMS1117. |
introduction_to_the_internet_of_things.txt · Last modified: 2018/08/22 15:09 by sdh7