Connect pin 1 to the GPIO pin for ground (labelled GND on the AdaFruit connector). Connect pin 2 to the AdaFruit connector's GPIO pin 4 (labelled #4). Place the 4.7k resistor between the temperature sensor's pins 2 and 3. Place your finger against the sensor after turning on the Pi.
The temperature sensor outputs a value that is 9 to 12 bits long and can be read and translated. However, this is only doable (so far) on GPIO pin 4. (pin 7). However, you can connect numerous sensors in a series (because it is based on the 1-Wire protocol).
Connect the Pi Pico to the computer. Using a USB cord, connect the Pi Pico to a computer.
Launch Thonny or any other IDE. Create your code, save it as Tempinbuilt.py, and run it.
Produce.
Sensors are another sort of input that the Raspberry Pi may accept.
Learner's Ratings
5
Overall Rating
100%
0%
0%
0%
0%
Reviews
H
Hardik Patel
5
I just learnt this course and many of my concepts are clear now about Raspberry Pi
P
Prabhat Yadav
5
Superb and amazing 😍🤩 enjoyable experience.
R
RAVAN RATHORE
5
good
H
Hemant Ramphul
5
Wow.. Thank you very much.. your explanation is so easy to understand, simple and straight forward.
R
Roshan Channe
5
you are the best...!!!
R
Rahul Singh
5
I like this course
A
Akash Rawat
5
Thank you for amazing lectures and discussions! I learned a lot and benefited from your course!
Thank you!
L
Lambodar Waghmare
5
hello.. first of all thank you so much to learn vern ... im robotics engineering student ... i was learn complete IOT ARDUINO from learnvern and made a lots of project ... now thanks for rasbp tutori
Share a personalized message with your friends.