Go Down

Topic: Fun with Arduino - a Series of Introductory Videos (Read 37742 times) previous topic - next topic

RudyB


The delay() statement that we used so far for our timing stalls the Arduino. This leads to a complete lack of feedback when we change the cycle time while the cycle is running. Luckily there is a solution: we can use the Arduino internal clock, which counts milliseconds from the moment the Arduino is started. We can read the clock using the millis() statement and we can decide if it is time for action.

Fun with Arduino 13 Timer with millis(), no delay(), Multitasking


Rudysmodelrailway = Youtube channel on Model Railway, Traincontroller, Arduino and more.

RudyB


Now that we know how to get rid of the delay(0 and use millis() in stead (video 13) we can finalize our Automatic Day Night Light Cycle unit to have direct on screen feedback of cycle time adjustment by the user and to have the cycle stop, and the lights turn off, immediately when the switch is set to 'off'.

Our unit has quite nice specifications:
- Configurable timing, via keyboard or via analog input with on screen display
-  An option to randomize the times to give it some 'livelyness'
- On screen display of the on/off, day/night state and the cycles times


Fun with Arduino 14 Day Night Cycle with millis(), no Delay, Direct Feedback


Rudysmodelrailway = Youtube channel on Model Railway, Traincontroller, Arduino and more.

RudyB


We used analogRead() to read the voltage on our potentiometer. The Arduino also has the opposite instruction: analogWrite(). This name is somewhat misleading. Unlike with an analog input, where a 10 bit A/D converter is used, the Arduino does not have a D/A converter on board.

The analogWrite() function uses a technique called Pulse Width Modulation. A digital output switches between HIGH and LOW in a fast pace, whereby the HIGH percentage is proportional to the analog value we wish to send out. If a device that receives the signal is too slow to follow the switching frequency, the result is it 'sees' the average of the on/off times. This also holds for light ... even though LEDs are fast enough to follow the switch frequency, our human eyes + brain are not and we see an average brightness.


Fun with Arduino 15 LED Dimmer, analogWrite(), Pulse Width Modulation


Rudysmodelrailway = Youtube channel on Model Railway, Traincontroller, Arduino and more.

RudyB

Fun with Arduino 16 LED Dimming with Fade, analogWrite(), millis()

Now that we know how to dim LEDs with analoWrite(), we can go a step further and change the dimming over time to create a gradual fade in or out. This is a nice effect for instance for LED strips mounted under kitchen cabinets, or for LED strip overhead lighting on a model railway layout to simulate a gradual change from night to day. And also for the red/green transition of railway signals along the track a fade gives just that little extra eye candy.

Fun with Arduino 16 LED Dimming with Fade, analogWrite(), millis()


Rudysmodelrailway = Youtube channel on Model Railway, Traincontroller, Arduino and more.

RudyB


We're at the start of a new Arduino project: an automatic railway crossing.

The system comprises several parts: train detection (optical), blinking lights ('blink' with a twist), a moving beam (servo motor).

We'll look into a way of specifying these kinds of systems as well as a way to translate the specifications into code, with a stepwise approach that does not put too much strain on our grey cells.


Fun with Arduino 17 Railway Crossing, State Transition Diagram, switch()


Rudysmodelrailway = Youtube channel on Model Railway, Traincontroller, Arduino and more.

RudyB


In part 2 of the railway crossing project we are going to connect the servo motor that operates the gate and control it with the Arduino. With the example in the video, the gate beam is mounted directly on the servo. On a layout, the servo motor will probably be mounted under the board, and a metal rod pulls / pushes the beam up and down, through a hole. No matter how it is mounted ... we need to find the correct servo angles. We will write some code with which we can fine tune the servo to find the angles to be used in the code later on. 


Fun with Arduino 18 Railway Crossing, Servo Motor to Operate the Gate


Rudysmodelrailway = Youtube channel on Model Railway, Traincontroller, Arduino and more.

RudyB


There are several ways to do train detection, like sensing rail current, or a magnet under the train that triggers reed switches along the track, or with an optical sensor. The latter is used in this video, only because I had some TRCT5000's lying around and they were easy to setup for a demo. As soon as we have them working, we have some fun with them by making a train speed measurement device.


Fun with Arduino 19 Railway Crossing Train Detection with Optical Sensor



Rudysmodelrailway = Youtube channel on Model Railway, Traincontroller, Arduino and more.

RudyB


We have seen the separate ingredients for a level crossing in the previous three videos: blinking LEDs, servo to operate the gate, sensors to detect the train ... it is time to put it all together now into one piece of software. We'll use the State Transition Diagram as our starting point and build up the software in 5 easy to follow steps.


Fun with Arduino 20 Railway Crossing Putting it all Together

Railway Crossing UK version



Rudysmodelrailway = Youtube channel on Model Railway, Traincontroller, Arduino and more.

RudyB


A police car, fire fighter car or an ambulance with flashing lights can liven up any model railway laout. The challenge that we set ourselves is not to have to write different code any time we want another flashing pattern. We want to hav one and the same code and we only want to configure the number of stepd, number of LEDs and the flashing step sequence. Can we manage that? Yes of course we can ...


Fun with Arduino 22 Step Sequencer for LEDs



Rudysmodelrailway = Youtube channel on Model Railway, Traincontroller, Arduino and more.

RudyB


Neopixels, or addressable LEDs, are color LEDs with a built in chip that takes care of the one wire data communication and of the Pulse Width Modulation for the built in RGB(+W) LEDs. The LEDs are connected via just 3 wires, GND, 5V, Data. The Data line is connected to an Arduino output and we can control the color and brightness of multiple LEDs, via just one output. Wonderful to use in say a village with multiple houses on our model railway layout. The wiring is super simple and the lights in every house switch independently and can each have their own color an brightnes ... just like real.


Link to Fun with Arduino 23 Neopixel Addressable LED, WS2812, struct{...}


Rudysmodelrailway = Youtube channel on Model Railway, Traincontroller, Arduino and more.

RudyB


In video 23 we made a step sequencer for addressable LEDs (Neopixel). The beauty of it is that a LED on/off sequence is created in a visual way by editing a series of '1's and '0's: 1,1,1,0,0,0,1,1,0,0,1,0,1,1,0,0. The drawback being that the color of every LED is fixed and also the interval time is fixed. The sequencer in this video has full flexibility, every action step has its own timing and LED color / brightness.


Link to Fun with Arduino 24 Neopixel Sequencer with Flexible Timing and Colors



Rudysmodelrailway = Youtube channel on Model Railway, Traincontroller, Arduino and more.

RudyB


A rotary encoder is a digital device, approximately the size of an analog potentiometer. When rotated, it generates 2 pulse signals from which we can deduct the number of rotation steps and the direction of rotation. It also has a push button on board. When connected to the Arduino we can read out the encoder and change the value of a variable. The variable can be used for anything we like: control the brightness of a LED(strep), control the angle of a servo motor, and more.

In this video we build the software to read out the encoder and switch and control the brightness of a LED (via PWM). In the next video we are going to beuild a servo tune application based on it.


Fun with Arduino 25 Rotary Encoder with Switch


Rudysmodelrailway = Youtube channel on Model Railway, Traincontroller, Arduino and more.

RudyB


In the previous video we wrote code to read out the pulses and the switch of a rotary encoder. We are now going to use this to tune a servo motor.

With every mechanical construction where a servo is used to move something (garage doors, a gate beam, a turnout), the minimum and maximum servo angles need to be found for the construction to operate like we want it to. In this video we are going to build a 'servo tuner' to find those angles.

Fun with Arduino 26 Tune a Servo with a Rotary Encoder


Rudysmodelrailway = Youtube channel on Model Railway, Traincontroller, Arduino and more.

RudyB


The Servo Tuner that we built in the previous video can be enhanced with two features:
1: Recognition of slow or fast rotation of the rotary encoder, to be able to increment the motor with small steps or with larger steps.
2: Recognition of short or long press of the button, to be able to move to the min/max angles or to the midpoint of the servo.
In this video we will have a look how we can add these functions.

On the blog there's also code available to operate the Servo Tuner with a wire or with push buttons, in case you don't have a rotary encoder available.

Fun with Arduino 27 Rotary Encoder Slow / Fast Recognition


Rudysmodelrailway = Youtube channel on Model Railway, Traincontroller, Arduino and more.

RudyB


When writing more code than just a few lines, it might be worthwhile to invest a little bit of time to to start using a more capable editor than the one integrated in the Arduino IDE. There are several free editors around that have a wealth of features that make code editing more efficient and more pleasurable.

Link to Fun with Arduino 28 Use an External Editor like Notepad++


Rudysmodelrailway = Youtube channel on Model Railway, Traincontroller, Arduino and more.

Go Up