When you start to talk about biometrics in electronics, heart-rate is usually the first thing to come up. And why not? I think it is often the thing we are most aware of changing when we get excited, nervous, are being active, or very calm. There are several ways of sensing heart rate that dont require lots of heavy equipment and electrodes taped to you. A lot of work has been done on wrist worn IR based sensing, but it tends to be error prone, especially with movement. Currently, the best available method at a reasonable price seems to come from the company Polar. And, what makes it better is that Sparkfun in conjunction with danjuliodesigns, created a microcontroller compatible receiver for the polar monitors. So let’s take a look at using the Polar Heart Rate Monitor Interface and getting it running with your arduino.
The annoying thing about all of this is that you do need to wear a sensor on your body to get this going. I picked up this guy off amazon and had pretty good results most of the time.
This transmitter band is a reusable electrode that wirelessly transmits to a receiver. A note when you are testing, the band will only transmit when it is on person, or you have semi-wet thumbs pressed into the sensor plates. Also because it is an electrode, it wants a good connection with your skin… meaning sweat. They sell electrode gel you can use with it for a better connection when the skin is dry, but I never tried it. In the humid summer nights I was testing this in, I never really had an issue.
Hooking It Up
Ok… so this board is capable of a ton of stuff. But we are just looking today at using this with the Arduino, and the simplest way is to get this guy running in I2C mode because it will allow us to get the heart rate from it easily into our Arduino.
I2C is a 2-wire serial connection, so you just need to connect the SDA (Data) and SCL (Clock) lines to your Arduino for communication. On your Arduino (everything but the mega) SDA is on analog pin 4, and SCL is on analog pin 5. On an Arduino Mega, SDA is digital 20, and SCL is digital 21.
The board doesn’t come setup for I2C by default, so we need to make a few changes. There are two solder-jumpers on the board that need to be changed to make this happen. The first is SJ1 just to the right of the 5V pin. Remove the solder from there using solder wick or a solder sucker so that the two parts are not connected. (like in the illustration). Next look at the row of pads at the top of the board labeled OP0 – OP7. We need to solder OP0 so the two pads are connected (See the illustration).
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