We’ve seen how switches can be used to turn stuff on and off, now let’s take a look at how a switch in different locations can turn the same thing on or off. A lot like a doorbell with a button at the front door and a button at the back door.
We’ve seen how we can use the really to control the buzzer, now let’s use the relay as a buzzer! In this experiment we’ll see how to connect the relay to work as a buzzer. However, be careful the relay isn’t really designed to work like this for very long, but it’s okay for a short demonstration.
Seeing electricity turn things on and off is a lot of fun, but we also need to have methods to see what’s going on in the circuit. What good is an alarm clock with numbers? Or a clock with no hands? In this experiment we’ll see how to use the learning lab’s meter to tell us what a circuit is doing.
Wow, now it’s time to really get deeper into electronics and use our first IC in a circuit. IC stands for integrated circuit and the one we’ll be using is a legend in the electronics community. We are going to use a 555 timer to build an LED flasher!
Ready to make some noise? We are going to build a “black box” test circuit using the 555 timer. A black box is a circuit that’s there when you need it, and in this one we will build it to produce a tone for us when we need it. Trust me, this one is a lot of fun.
Wow, we’ve had a lot of fun making strange sounds from the black box. Now, let’s try something a little different. In this experiment we’ll setup three push button switches to generate tones for us, with each switch giving us a different tone.
The black box test circuit has been a lot of fun, and this next experiment is going to be a noisy one, too! In this experiment we’ll setup our black box test circuit to generate either a rising tone or a falling tone using two capacitors and two push button swtiches.
Time for some more keyboard action with the “black box”, in this experiment we’ll create a keyboard that will allow us to control the tone frequency of our black box. This experiment is neat since you can use the keyboard to generate up to nine different tones.
Transistors are powerful electronic components that help us control a circuit. You can think of a transistor as an electronic switch. And, in this experiment we’ll see how a NPN (negative, positive, negative) transistor works and how to use them.
Did you know a transistor can be only partially on? Well, in this experiment we take a look at turning a NPN transistor only partially on to light an LED. We’ll be using a potentiometer to control the transistor and be able to adjust when the transistor is off, to partially on, to full on.
Electronic devices can either use a little bit of power or a whole lot of power. Think of your microwave, it uses a lot of power, but a lamp only uses a little bit of power. We use relays to allow low power circuits to control more powerful circuits. And, in this experiment we’ll use a NPN transistor to turn on the relay, which in turn will operate the buzzer.
Time to make more noise! In this experiment we are going to use two transistors to make an oscillator. An oscillator is a circuit that generates a frequency, a pulse of signals, and we’ll use the oscillator to drive the speaker. You’ll be able to hear the pulse our oscillator generates as a tone from the speaker.
Resistors are a very important part of electronics, in fact without them we wouldn’t even have electronics. Resistors help us control the flow of current through a circuit and protect components from being damaged. This video talks about what resistors are, how to read them, and how to use them.
When you wire up a circuit, it may not work right away. But don’t worry, even experience engineers face this problem, sometimes we don’t get it right the first time either! This video covers some basic steps you can take to track down problems and fix them.
Let’s take a look at a new electronic component, the Power MOSFET. Now, we don’t have to call them “MOSFET” all the time, we can just call them “FET” and most people do. A FET is a lot like a transistor, but works a bit differently and in this experiment we’ll take a look at a FET and learn about them and how to use them.
Let’s take a moment and get a better understanding of the analog ICs included with your project learning lab. In this video we’ll take a look at those different ICs and get a better understanding of what they are, what they do, and how to use them.
Now it’s time to listen in on some ants! Yes, I said ants! In this experiment we’ll be using two Operational Amplifiers, Op Amp for short, to build a super sensitive audio amplifier. This amplifier is so sensitive it can pick up very low sounds and amplify them so we can hear what’s going on.
Well, maybe not. The LED is nice and all, but it doesn’t really give us a good feeling for the strength of the signal. So, let’s change the circuit to use the meter instead. This will give us a better visual indicator of the signal strength and also allow us to assign a value to a sound picked up by the amplifier.
We’ve had a lot of fun making a lot of different circuits, now let’s step it up a notch and build a percussion instrument synthesizer. This circuit will build on what we’ve learned so far and use a lot of different parts to create a synthesizer that will generate a plucked string or drum sound. Are you ready to make some more noise? I am!
A comparators is a form of an Op AMP that can either be on or off. This may not sound useful, but you can do things with comparators that are very useful. To demonstrate this, let’s take a look at comparators, what they are, and how to use them. In this experiment we’ll get use a comparator to control two different LEDs, and when the comparator is off, one LED will glow and when the comparator is on the other LED will glow.
Oh, this one is about LED bargraphs, and you know I love LEDs. In this experiment we are going to build an LED bargraph and then use that bargraph to measure how much light is hitting the photoresistor. In essence, we are going to build an LED bargraph light meter!
Let’s have some more fun with the photoresistor and build a buzzer that has two modes. The first will be the buzzer triggering off of light and the second will be the buzzer triggering off of darkness. This circuit is exactly how a laser eye alarm works and we can try this by setting the circuit up to trigger when someone walks through a door! I’m not waiting, I’m doing this one now!
Did you like the bargraph experiment? Well, in this one we are going to build a bigger and better bargraph. In this experiment we’ll build a 8 segment LED bargraph that has a sensitivity adjustment. You know me and LEDs, so let’s get wiring!
Did you know that VCO stand for Voltage Controller Oscillator? Well, in this experiment we are going to build one using a 555 timer, a few capacitors, and a potentiometer. We’ll then send the signal from the VCO to the speaker and make some neat tones!
Timers are really neat, and we’ve already seen a few in action. Now, let’s build one that operate the buzzer and an LED and can run both for up to 100 seconds. We’ll be using a 555 timer, several capacitors, a potentiometer, and a few switches as well. Sound like fun to me!
We’ve created a lot of circuits together and now it’s time to start looking at a new part, the 4046 is a Phased-Locked Loop IC that contains both analog and digital circuitry inside. Well be using the 4046 to help generate the siren sound for this circuit. We’ll also be using the 555 timer and all the potentiometers in the kit. So let’s get started and build us a siren!
If you enjoyed these experiments, then you’re in for a real treat, because there’s a lot MORE experiments in Lesson 4: Digital Logic!
Since the mid 1980’s, digital electronics have slowly become an ever increasing part of our lives. And now, you’d be hard pressed to find any device that doesn’t use digital electronics. Digital electronics are in the TV you watch, your computer, your phone, your car, the appliances in your kitchen, and so much more. So, to help understand how digital works, we’ll be exploring digital electronics in this series of videos.
We are going to cover a lot of ground in workbook 2 beginning with learning about the basics of digital electronics. This will include learning what a bit is, what a high and a low are, basic digital gates, among other topics.
Click here to view the next set of experiments in Electronics.
