Tag archives for Flowcode for Arduino
What is new in Flowcode v6 Flowcode is one of the World’s most advanced graphical programming languages for microcontrollers. Flowcode software allows you to develop complex electronic and electromechanical systems with ease by just dragging and dropping icons on to a flowchart to create programs. The graphical programming tool allows even those with little experience to develop complex ...
Arduino is the open source electronics prototyping platform. It has become popular in the world of hobbyists, students, artists, programmers and professionals. Arduino was born as an easy tool for fast prototyping, aimed at students without a background in electronics and programming. With Flowcode for Arduino, the advantages are even greater. Flowcode is one of the World’s most advanced graphical programming languages for microcontrollers. It allows you to create complex microcontroller applications with advanced peripheral interfacing which make it easy to connect wide range of devices such as switches, LCD displays, analogue sensors, SD cards, Real time clocks, RS232/RS485, GPS, GSM, Bluetooth and so on by just dragging and dropping icons onto a flowchart.
A Light Emitting Diode (LED) is a semiconductor light source, when forward biased, it emits light. LEDs are used mainly to indicate the status of electronic circuits, for example to indicate that power is on or off but nowadays they are used in many applications including lighting and beam detection. All of us start learn a new programming from Hello World. In microcontroller fields the Hello World example is usually blinking an led, in this article we will learn how easy to blink an LED with Arduino using Flowcode for Arduino.
The ESP8266 is a wonder WiFi module that can literally give any microcontroller access to WiFi network and thus enabling countless Internet of Things (IoT) and Home Automation applications at a fraction of cost compared to the alternative options. It's easy to use, it's popular, it has stormed the world of makers in recent years since 2014, you can now build your own cool electronic application that communicates to the internet and can be accessed from anywhere in the world
An automatic temperature control system has the ability to monitor and control the temperature of a specified space without human intervention. This project uses an Arduino UNO to automatically control the temperature of an area. This area could be a small plant, a house or any place or device that require a controlled temperature like an incubator (egg) for example. The desired temperature setting is entered using a keypad. The temperature of the area is measured using an analog temperature sensor. The Arduino reads the temperature continuously and compares it with the desired value. If the desired value is higher than the measured value, then the heater is turned ON to heat the area. If on the other hand the measured value is higher than the desired value, then the fan is switched ON to cool off the area until the required temperature is reached. If the temperature reaches a certain critical value 40⁰C or higher, the buzzer will sound continuously and an LED will blink until the temperature deceases below 40⁰C. An LCD display shows the measured temperature continuously. This project can be used as a base for Final Year Project For Engineering Students