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Hello and welcome to this new lesson, unless you are going to see this ESB version one, do it board,

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as you can see.

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SB 30 two.

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This little bald support Wi-Fi connection, so you can easily connected to the internet without any

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external modules.

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And in this lesson, I'm going to tell you everything you need to know about this board and why you

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can use it instead of using Arduino and the capabilities that it has now that do it.

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Yes, P32 Kit version one is one of the development board created by Do It to evaluate the SB 32 module.

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It is based on the SB 32 microcontroller that boasts Wi-Fi, Bluetooth, Ethernet and low power support.

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All in a single chip, as you can see, it's very small chip.

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Now, regarding the mapping of this ball, you can see from here that we have a reset button on the

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left side and on the right side, we have a mute button.

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This is the USB port, as you can see for the CO2 connection with your computer.

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It's very similar to the one used in mobile phones, so you can use a mobile data cable.

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Now these are the input output bins, and here on the left and right, we have the ground and power

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pins.

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As you can see here, we have 3.3 volt ground and a lid.

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And here we have the N and the ground.

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Then we have the general purpose input output bins.

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We will explain that in diagram and more details and the coming lessons.

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But as you can see, this is what the I see all of that board has.

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And you can see that it has a lot of assembly elements.

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That's why it's very small and pin number two general purpose input output PIN number two has a lid

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at fashion director.

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So you can see here that we have two LEDs one for power and the other one for PIN number two or general

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purpose input output pin number two.

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Why you should use this board It's very similar to Arduino.

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We will program it using the very same software that we use to program Arduino, and this will make

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your life away much easier.

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It has built in Wi-Fi, so you don't have to attach anything you can directly connected to the internet.

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That's why it's used in Internet of Things projects.

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Um, it's widely available and it has a lot of libraries and support online.

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Now let's talk about this board priorities regarding the main proposals of this board.

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It has, but I think, voltage of 3.3 volt.

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The input voltage can be between seven and 12 volt for optimal performance, but it can also work with

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a five volt from your USB-C port.

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It has digital input output bins, twenty five digital output bands, and it also has analog input bins

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that about analog signals up to six, and it has analog output bins up to two digital converters.

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It supports USB.

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I i square c and you asked its flash memory is very large four megabytes.

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The USB is about five hundred twenty kilobytes and the clock speed is 240 megahertz.

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It also has Wi-Fi and Bluetooth built and integrated, so you don't have to do anything.

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And the power to that board is supplied via the onboard USB Micro, which is here.

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As you can see, this is the main power supply for the board or directly via the V10 bin.

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We have we have been here.

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I think that you can't see it in this bin can be used to supply power.

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The power source is lifted automatically.

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You don't have to switch between them using that software now.

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The device can operate on an external supply of six to 20 volts.

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If you are using more than 12 volt, the voltage regulator may overheat.

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As you can see here, we have a regulator on board.

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And in that case, that might damage the device, so the recommended voltage is seven to 12.

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You might risk and use it on power supply above 12 volt, but I think that you should stick with a seven

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to 12 volt notice.

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Now you can or not, now you can program it using Arduino IV's software, and we are going to explain

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how you can make your Arduino software.

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Recognize this ESB have it on board and program it using the very same coding methodology used in Arduino.

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We have explained everything in the device and this course, and I'm sure that you would enjoy playing

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around with the sport.

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Now what I really like about this board and what makes this board away much better than Arduino is the

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Wi-Fi connectivity.

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This is why this is an IoT or Internet of Things board.

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If you are working on a project and you want to, let's say, connected online and control and go page.

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This is the board that you can use.

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It's very cheap and it's very effective in doing that.

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And if you are looking.

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To replace your other you, then this the this is the war that you must bless your arguing with because

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it has a lot of properties out of print and and it runs out of the box.

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You don't have, let's say, complex programming.

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You can program it using the very same Arduino code.

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Now let me show you how you can connect it, as you can see this report.

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And usually you'll have to stick your ball your ISP here on your big board and start taking glass from

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here.

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Two blades or batons or any other thing.

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Now, if you want to connect it to the power supply, you have to bring a mobile USB cable.

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I have one bite here, as you can see.

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This is a USB cable, not USB-C.

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No, than all my type.

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So all you have to do is simply bring the sport and stick.

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As you can see, you have to stick it the right way.

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That's it.

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This is how you can simply connect your board to your power supply now and the next person, you are

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going to explain that been out in more detail.

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But as you can see, we have Deep Ben's deep means digital pin, the pins that has our ex-ante, our

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fourth year communication and background on board pins of.

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Sean, as you can see, this is about battle.

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This is the reset or enable button down here.

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The board doesn't have anything.

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You can buy the board and sometimes they don't attach these breakout hit ups.

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You have to push them along or you have to push them on your own and solve them here on these two.

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And here we have two and two four holes to stick the ball using screws.

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That's it.

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It's very similar to arguing a when it comes to the pens and how to interact and deal with them.

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But it has a lot of power, much more functionality.

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This is why I recommend using it and the Wi-Fi functionality is straightforward.

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You can simply open up Arduino examples and open Wi-Fi example and start programming this ball.

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But again, you have to download the software library that is compatible with this port and attach it

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to Arduino.

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All of these things are explained in the course, so you don't have to worry about anything.

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This is the world that we are going to use.

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You can use any other sport.

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Same things apply for all of the ports.

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Just a little bit different when it comes to the print out and main characteristics like, let's say,

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the crystal and the Sibiu speed, the RAM, the amount of available memory, the amount of available

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pins.

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Other than that, I think that this board is the future of Internet of Things and everyone is now using

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it.

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So it's a trending thing, and I think that you should learn it now.

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In the coming lessons, we are going to also explain how to control separated bins, digital pins,

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analog pins and how this board has internal touch sensors.

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So you learn also how to use the internal touch sensors.

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You will learn how to control servo motors, how to speed up your arm signals and other stuff.

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Stay tuned.

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Thanks for watching.

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This is Ashraf from educational engineering team.