This is a forked version of PulseSensor Playground for ESP32 and M5Stack.
This Playground is a collection of code for the most popular uses of PulseSensor and Arduino. - Use this code to get started quickly, or do advanced stuff. 👍 - Playground code is already written-out and commented! 🤘 - Switch between projects right in the Arduino IDE (software). 💻 - Contritube your project's code back to the GitHub hive-mind. 🐝
Buy Verified "PulseSensor.com"
Connecting the Harware
- Prepare the sensor, with the Kit parts.
- See the recommended wiring for your specific project
Loading the Playground
Steps For Loading the Playground in Arduino
An Arduino Library is a collection of code and examples on a specific topic or device. For example, our PulseSensor Playground Library is a collection of code and projects made just for your PulseSensor and Arduino.
(NOTE If you do not have Arduino, you can download it here)
To install the PulseSensor Playground Library, in Arduino, to go
Sketch > Include Library > Manage Library...
In the Library Manager: Search for and Select
Install or update to the lastest version.
More Info On Libraries in General
Playground Project Descriptions:
Tinker and Experiment with Popular Projects 👩🏽💻👩🏻🔬
The "Getting Started" Project:
Plug your sensor in for the first time! Blink an LED with your pulse, live.
Focus-in on the code that calculates a user's HeartRate Beats Per Minute, "BPM".
See the best practises to get the best signal.
Make A Sound to a live Heartbeat:
Transform the heartbeat into a live "beep" with a speaker.
Move a Motor to a live Heartbeat:
Make a servo motor pulse to your live heartbeat.
Connect Two (or more) Pulse Sensors:
Use 2 or more Pulse Sensors on one Arduino.
Get detailed visualization of the heart's pulse and behavior. Send the PulseSensor data into Processing!
Pulse Transit Time:
Use two Pulse Sensors on different parts of your body to measure Pulse Transit Time!
Troubleshooting / Issues / Function Guide
The Functions Guide
We put together a HANDY GUIDE to the function-ality of our library. Check it out if you want to dive into the inner workings!
Troubleshooting Your Signal:
If you're having trouble seeing a heartbeat, make sure that you are using 'Goldilocks' pressure on the Pulse Sensor: Not too hard, not too soft. Squeezing the Pulse Sensor too hard against your skin will make the heartbeat go away, and not enough pressure will cause too much noise to creep in!
Ugh, Where's the Beat ?
If you are seeing way too many Beats Per Minute, or you are getting lots of noise, try adjusting the Threshold setting. The Threshold variable tells Arduino when to find a pulse that is legit. Adjust this number (noted below with arrows) up for less sensitivity and down for more sensitivity. In the StarterProject you can find the Threshold variable as shown in the pic below:
In the other examples, the
THRESHOLD is defined at the top of the code.
Give and Get Feedback
The Issues Tab will get you the quickest answers to common techinal questions.