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This article reviews the most popular serial ports on the market. By learning how to connect these ports, you can build cool electronic projects with things like LED lights, buzzers, servos and more!To review several specific brands of serial ports for my own personal use, I created a spreadsheet listing all of them with relevant information. I hope this helps someone out there looking to connect an Arduino with something unusual. Oh by the way... if you do make any cool projects with it let me know!I thought it would be fun to write about the most widely used types of serial connections. These are explained in terms of pin numbering and commonly-used features that help give context for what is being discussed here. The serial port – or RS-232 – is used for networking and connecting with devices. The serial port is a common way we connect to computers and other devices, and can be found on any computer that supports Windows XP and later. "Serial ports" are rather different than the USB or PS/2 ports you might find on your keyboard, but they use the same electrical standard, so the same cables work for both. Here's a picture of a serial port: This article provides information on many of the most commonly-used types of serial connections used by hobbyists and professionals every day. I recently came across this article on my favorite forum on Arduino boards. It's really cool and very helpful and if you're thinking about building any sort of Arduino project it's something to read! Here is an article that explains how to connect Arduino to your computer with a USB-serial adapter. It also includes information on the software required, as well as a link to download the necessary program. This article uses an example of connecting a temperature and humidity sensor for controlling your outdoor environment with your Arduino board. This article explains how to connect Arduino to a serial port on Windows XP and is also linked below: This article illustrates the use of Doxygen and CMake in creating Doxygen documentation for an embedded system. Hypothetically, the system in question is an Arduino. The article describes the process of creating the documentation including how to use Doxygen to parse C++ documentation comments in order to create documentation for serial port communication, interrupt service routines, and definitions for global variables. This article provides information on various ways to connect your Arduino board with your computer. These include USB, external power supply, and serial communications (RS-232). This article explains how you can get started using serial communication with your Arduino board without knowing too much about it. Some nice code is provided for doing this! This site contains a number of tutorials on using different types of serial ports with your Arduino Nano. With the Arduino Mega 2560, you can use the built-in USB-to-serial converter (CDC) to connect to your workstation or to an external device. You can program, debug, and monitor the microcontroller on your computer without having any other additional hardware. This article explains about connecting Arduino Nano with a bluetooth module for communicating data being generated from the sensor used. The project consists of a simple circuit made with a photoresistor and a transistor that allows you to connect it to a Bluetooth module, which will send the information it receives wirelessly to a computer or mobile phone. cfa1e77820
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