Arduino Masterclass Part 2: Build an LED weather station using arduino

Arduino Masterclass Part 2 (1)

Project-specific parts

You’ll need the standard parts (Arduino board breadboard wires pliers and so on) along with these extras:

  • DHT11 temperature/humidity sensor
  • 7 x 330-ohm/0.5W metal film resistors
  • 3 x 4.7k-ohm/0.5W metal film resistors
  • 2 x BC337 NPN transistors
  • 2 x LTS543R or FND500 common cathode seven-segment displays

Arduino Masterclass Part 2 (1)

They shouldn’t cost you more than $15 all up and you can get everything bar the DHT11 from Jaycar Electronics.

In Part 2 of our Arduino masterclass we’re cracking on to build a weather station that measures temperature in degrees Celsius and relative humidity as a percentage. We’ll introduce new components and theory and put the lot into practice.


Seven-segment displays

LEDs on their own are great indicators but to display quantitative information we need something more and that’s where seven-segment displays come in. These are blocks with seven LEDs arranged into a figure eight each individually controllable. As we described last previously LEDs have two connections: an anode (A) and a cathode (K). When current flows from anode to cathode the LED lights up. However to reduce the display pin count from 14 to 10 most displays have either all of their anodes or cathodes joined together to a single pin – they’re known as common anode or common cathode displays.

We’ll be using the LTS543R common cathode type – they’re a garden variety display and the most complicated part of using them is knowing the pin layout. Here’s how you do it: hold the display in front of you with the decimal point LED at the bottom-right. The bottom-left pin at the back is pin 1 counting right to pin 5 and the top-right pin is pin 6 counting left to pin 10.


Driving seven-segment displays

To drive a seven-segment display you need seven data lines from an Arduino to control the seven LEDs. If you add a second display you’ll need another seven data lines. A third is another seven. So you can see the control pin count can skyrocket if we keep using this system.

Our weather station uses two displays and while the Arduino Uno R3 has 14 outputs to play with we’re going to do it with just nine using a technique known as multiplexing. Put simply it’s a way of being able to send data to different devices over the one set of control lines (data bus) using a time-share system. A simple analogy is driving your car: you (probably) don’t have your own dedicated roads you use the same roads as everyone else. If you think of it in the time domain you’re time-sharing a road for the time you’re on it. What we’re doing is similar – we’re multiplexing 14 LEDs’ worth of data over a seven-bit data bus using a similar time-share method.

Arduino Masterclass Part 22 (1)


We’re going to need another two control lines to make it work. This is also a good time to introduce you to another new component: the transistor. Your average Ivy Bridge-class Core i5 processor has 1.4 billion of these things and we need just two. Transistors are clever little devices that can amplify a signal and act like controllable switches. In every case a transistor lets you control a larger current with a smaller one. If you follow the circuit diagram we’re using them as switches connected to the common cathode pin of each display.


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