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180 US$

for 10 classes
Clase

Codificación con Arduino, parte 3: uso de actuadores electrónicos en proyectos de ingeniería

Completado por 28 alumnos
Edades 13-17
Clase grupal
Agregue emoción a sus proyectos robóticos o electrónicos mientras aprende a cablear y codificar varios actuadores como parlantes, motores, servos y LCD en este curso de 10 lecciones mediante el uso de TinkerCad o componentes reales.
Puntuación media:
4.9
Número de reseñas:
(139 opiniones)

Videoconferencias en vivo
2 x por semana, 5 semanas
1-10 alumnos por clase
55 min

Qué está incluido

10 reuniones en vivo
9 horas 10 minutos horas presenciales

Experiencia de clase

Nivel de inglés: desconocido
Nivel Intermediate
This class will teach how to use Arduino coding to control actuators, such as LCDs, motors and servos.  Students will learn how about actuators, how to hook them up to the Arduino, and how to use Arduino libraries to control them.

NOTE:
This class will meet twice a week for five weeks or once a week for 10 weeks .  Sunday classes meet once a week.

During class, students will first be introduced to the concepts through PowerPoint slides, and then guided through the lesson for how to connect the components and how to write the code.  Students will either use Arduino components that they have at home, or they will use a simulation program, called TinkerCad, to follow along.

IMPORTANT:
Before students take this class, they should have basic knowledge of the Arduino microcontroller, and know the basic format of Arduino coding and be familiar with how to use a breadboard. It is best if they already participated in my first two courses: Arduino Coding Part 1: LEDs, Circuits and Breadboards and Arduino Coding Part 2: Reading and Using Sensors.  

IMPORTANT:  If you are using an actual Arduino, you will need to have access to a computer with a USB port, not just a chromebook or tablet because the Arduino IDE does NOT work on those devices.

Please see the Learning Goals below for a list of topics covered in this class.

Metas de aprendizaje

Class 1: What are actuators?
-	Definition
-	Examples of actuators (motors, servos, LEDs, Displays)
-	Digital actuators (LED, speaker, relay)
-	Actuators that use digital pins but need libraries (servo)
-	Uploading Libraries
-	Actuators with shields or motor drivers
-	Using PWM pins for controlling motors

Class 2: Active vs passive buzzer
-	Using tone command
-	Pitch library
-	Using arrays

Class 3: Servos
-	180 vs Continous servos
-	How to control 180 servo, sweep, knob
-	-How to control continuous servo

Class 4: Stepper Motor and Motor Driver
-	How to count steps  (make a clock)
-	Control stepper motor with a rotary encoder

Class 5: : LCD
-	Library
-	How to connect the LCD
-	How to write to the LCD
-	Read sensors and write value on the LCD

Class 6:  LED array

Class 7: 7- segment LED

Class 8: 1-digit LED 

Class 9: DC Motors
-	Using transistor
-	H-bridge and breadboard power supply

Class 10: Additional devices /Overview of other actuators/ small project 
-	Radio signals
-	Bluetooth
-	GPS
-	Description of Final Project

Otros detalles

Requisitos previos
Students should have taken my Parts 1 and 2 classes or know the following: How to use an Arduino to read sensors and turn on LEDs, how to use breadboards, how to add libraries, understand "if," "while", "switch," and "for" commands.
Lista de útiles escolares
Students need to either have an account with www.autocad.com to use the free TinkerCad circuit simulator or download the free Arduino IDE from www.arduino.cc to use with the Arduino components. TinkerCad does NOT have many of the devices we will be using.


You can buy the components separately, but it would be more expensive than buying a kit that has all the parts you need and more. Either of these kits would be more than sufficient for this class.  There are larger kits with more components, but they are not necessary for this class.


Recommended Devices/kits if you are purchasing components separately:
     Arduino Uno (or clone) with USB cable
     solderless breadboard
     3 different color LEDs
     3 1000-ohm resistors
     3 220-ohm resistors
     1-3 pushbuttons
     1-3 potentiometers
     1 servo motor
     1 ultrasonic sensor
     1 passive piezo buzzer
     1 stepper motor and motor driver
     1 DC motor
     1 active buzzer
     1 passive buzzer
     1 LCD, preferably with backpack (https://www.amazon.com/Qunqi-Serial-Backlight-Arduino-MEGA2560/dp/B01E4YUT3K/ref=pd_rhf_se_p_img_2?_encoding=UTF8&psc=1&refRID=82F2F1N5PA4D76EEHV6H)
     1 LED array
     1 7-segment LED (1 digit)
     1 - 4- digit LED
     1 micro servo 
     1 continuous servo (optional)
     Many male-male jumper wires of different colors
     Many male-female jumper wires of different colors


Recommended Kit that contains all the parts:

https://www.amazon.com/EL-KIT-001-Project-Complete-Starter-Tutorial/dp/B01CZTLHGE/ref=asc_df_B01CZTLHGE/?tag=hyprod-20&linkCode=df0&hvadid=241907595991&hvpos=&hvnetw=g&hvrand=8544331822937541734&hvpone=&hvptwo=&hvqmt=&hvdev=c&hvdvcmdl=&hvlocint=&hvlocphy=9015321&hvtargid=pla-464156272733&psc=1

This will make the LCD easier to work with:
https://www.amazon.com/Qunqi-Serial-Backlight-Arduino-MEGA2560/dp/B01E4YUT3K/ref=pd_rhf_se_p_img_2?_encoding=UTF8&psc=1&refRID=82F2F1N5PA4D76EEHV6H

Individual parts if you don't have the large kit:
Here are some items that you will need for this class:

8x8 LED matrix:    https://www.amazon.com/Organizer-MAX7219-Display-Single-Chip-Control/dp/B07VM6HXN5/ref=sr_1_3?crid=YQ12DPYJV6VV&dchild=1&keywords=8x8+led+matrix+arduino&qid=1632697197&sprefix=8x8+arduino+mat%2Caps%2C199&sr=8-3

7 segment display:  https://www.amazon.com/microtivity-7-segment-Display-Common-Cathode/dp/B004S95VJE/ref=sr_1_9?dchild=1&keywords=arduino+7+1+digit+segment+display&qid=1632697304&sr=8-9


 4 digit display    https://www.amazon.com/HiLetgo-Digital-Segment-Display-Arduino/dp/B01DKISMXK/ref=sr_1_2_sspa?crid=3IUD9L2USXBRF&dchild=1&keywords=arduino+7+segment+display&qid=1632697250&sprefix=arduino+7+seg%2Caps%2C200&sr=8-2-spons&psc=1&spLa=ZW5jcnlwdGVkUXVhbGlmaWVyPUEyVDkxVFdGWVQwMk8xJmVuY3J5cHRlZElkPUEwMzc5MjkwN09GREFLQVJYWldZJmVuY3J5cHRlZEFkSWQ9QTA1NTY1MTcyNklTTjZOV0o5MzZEJndpZGdldE5hbWU9c3BfYXRmJmFjdGlvbj1jbGlja1JlZGlyZWN0JmRvTm90TG9nQ2xpY2s9dHJ1ZQ==

Optional but fun:  Neopixels:  https://www.amazon.com/Adafruit-NeoPixel-Ring-Integrated-Drivers/dp/B00KBXT9I0/ref=sr_1_2?dchild=1&keywords=neopixel+ring+adafruit&qid=1632697401&sr=8-2
https://www.amazon.com/Adafruit-NeoPixel-Ring-Integrated-Drivers/dp/B00KBXT9I0/ref=sr_1_2?dchild=1&keywords=neopixel+ring+adafruit&qid=1632697401&sr=8-2
Recursos externos
Además del aula de Outschool, esta clase utiliza:
Fuentes
tinkercad.com arduino.cc

Conoce al profesor

Se unió el August, 2020
4.9
139reseñas
Perfil
Experiencia y certificaciones del docente
Ohio Certificado de Docencia en Educación Secundaria
Maestría en Ciencia desde Case Western Reserve University
Licenciatura en Ciencia desde Stern College for Women Yeshiva University
My classes will teach you coding skills needed to program an Arduino microcontroller. In these classes you will learn about the Arduino and how to write code that allows it to read input from sensors and send output to actuators.  You will be guided through the wiring and coding for each type of sensor and actuator so that you will eventually be able to create your own inventions.

I have been a private school middle and high school science teacher for over 30 years. During that time, I taught classes in chemistry, engineering, earth science, life science, chemistry, forensic science, biology, and health.  I enjoy teaching through hands-on experimentation and I believe that students learn best when they are activity engaged in the learning process.

I am an amateur photographer and love to photograph my grandchildren, my dog, and wildlife. I enjoy creating scrapbooks from my photos. I also enjoy tinkering with my Arduino and 3D printer to create inventions of my own.

Reseñas

Elene Feigenbaum sugiere esta clase a continuación...
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