Electronics All-in-One For Dummies. Doug Lowe
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Название: Electronics All-in-One For Dummies

Автор: Doug Lowe

Издательство: John Wiley & Sons Limited

Жанр: Отраслевые издания

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isbn: 9781119822134

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СКАЧАТЬ Your Project Designing Your Circuit Prototyping Your Circuit on a Solderless Breadboard Constructing Your Circuit on a Printed Circuit Board (PCB) Finding an Enclosure for Your Circuit

      7  Chapter 7: The Secrets of Successful Soldering Understanding How Solder Works Procuring What You Need to Solder Preparing to Solder Soldering a Solid Solder Joint Checking Your Work Desoldering

      8  Chapter 8: Measuring Circuits with a Multimeter Looking at Multimeters What a Multimeter Measures Using Your Multimeter

      9  Chapter 9: Catching Waves with an Oscilloscope Understanding Oscilloscopes Examining Waveforms Calibrating an Oscilloscope Displaying Signals

      Welcome to Electronics

      IN THIS CHAPTER

      Bullet Understanding electricity

      Bullet Defining the difference between electrical and electronic circuits

      Bullet Perusing the most common uses for electronics

      Bullet Looking at a typical electronic circuit board

      I thought it would be fun to start this book with a story, so please bear with me. In January of 1880, Thomas Edison filed a patent for a new type of device that created light by passing an electric current through a carbon-coated filament contained in a sealed glass tube. In other words, Edison invented the light bulb. (Students of history will tell you that Edison didn’t really invent the light bulb; he just improved on previous ideas. But that’s not the point of the story.)

      Edison’s light bulb patent was approved, but he still had a lot of work to do before he could begin manufacturing a commercially viable light bulb. The biggest problem with his design was that the lamps dimmed the more you used them. This was because when the carbon-coated filament inside the bulb got hot, it shed little particles of carbon, which stuck to the inside of the glass. These particles resulted in a black coating on the inside of the bulb, which obstructed the light.

      Edison and his team of engineers tried desperately to discover a way to prevent this shedding of carbon. One day, someone on his team noticed that the black carbon came off of just one end of the filament, not both ends. The team thought that maybe some type of electric charge was coming out of the filament. To test this theory, they introduced a third wire into the lamp to see if it could catch some of this electric charge.

      When Edison patented his device in 1883, he had no idea what it would lead to. Now, nearly 140 years later, it’s hard to imagine a world without electronics. Electronic devices are everywhere. There are more television sets in the United States than there are people. No one uses film to take pictures anymore; cameras have become electronic devices. And you rarely see a teenager anymore without headphones in their ears.

      Without electronics, life would be very different.

      Have you ever wondered what makes these electronic devices tick? In this chapter, I lay some important groundwork that will help the rest of this book make sense. I examine the bits and pieces that make up the most common types of electronic devices, and take a look at the basic concept that underlies all of electronics: electricity.

      I promise I won’t bore you too much with tedious or complicated physics concepts, but I must warn you from the start: In order to learn how electronics works at a level that will let you begin to design and build your own electronic devices, you need to have at least a basic idea of what electricity is. Not just what it does, but what it actually is. So put on your thinking cap and get started.

      Before you can understand even the simplest concepts of electronics, you must first understand what electricity is. After all, the whole purpose of electronics is to get electricity to do useful and interesting things.

      The concept of electricity is both familiar and mysterious. We all know what electricity is or at least have a rough idea based on practical experience. In particular, consider these points:

       We are very familiar with the electricity that flows through wires like water flows through a pipe. That electricity comes from power plants that burn coal, catch the wind, absorb sunlight, or harness nuclear reactions. It travels from the power plants to our houses in big cables hung high in the air or buried in the ground. Once it gets to our houses, it travels through wires through the walls until it gets to electrical outlets. From there, we plug in power cords to get the electricity into the electrical devices we depend on every day, such as ovens and toasters and vacuum cleaners.

       We know, because the electric company bills us for it every month, that electricity isn’t free. If we don’t pay the bill, the electric company turns off our electricity. Thus, we know that electricity is valuable.

       We know that electricity can be stored in batteries, which contain a limited amount of electricity that can be used up. When the batteries die, all their electricity is gone.

       We know that some kinds of batteries, like the ones in our cellphones, are rechargeable, СКАЧАТЬ