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Airam Rojas Zerpa
Airam Rojas Zerpa

AR-Oscilloscope: A User-Friendly and Intuitive Oscilloscope Software with Touchscreen Capabilities


How to Download AR-Oscilloscope: A Wireless Oscilloscope App for Android




If you are looking for a convenient and affordable way to perform electric measurements, you might want to try AR-Oscilloscope, a wireless oscilloscope app that works on any Android device. In this article, we will show you what AR-Oscilloscope is, why you need it, how to download and install it on your Android device, and how to use it to perform basic and advanced oscilloscope functions.


What is AR-Oscilloscope and Why You Need It




AR-Oscilloscope is a Bluetooth oscilloscope that works with any Android device




AR-Oscilloscope is an app that turns your Android device into a wireless oscilloscope. An oscilloscope is a device that measures the voltage of an electrical signal over time and displays it as a waveform on a screen. Oscilloscopes are useful for testing, debugging, and analyzing electrical circuits and signals.




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AR-Oscilloscope uses Bluetooth technology to communicate with a small oscilloscope module that you can connect to your circuit. The module sends the signal data to your Android device via Bluetooth, where the app displays it as a waveform. This means that there are no wires between your device and the module, which makes it safer and more portable.


AR-Oscilloscope has many features and benefits for electric measurements




AR-Oscilloscope is not just a simple oscilloscope app. It has many features and benefits that make it a powerful tool for electric measurements. Some of these features and benefits are:


  • It can measure direct voltage, alternating voltage, direct current, alternating current, time, time delay, phase, phase difference, frequency, and more.



  • It can display up to four channels of waveforms simultaneously in different colors.



  • It can use cursors to measure the time interval or voltage difference between two points on the waveform.



  • It can use math channels to perform calculations on the waveforms, such as addition, subtraction, multiplication, division, square root, exponentiation, logarithm, trigonometry, etc.



  • It can use protocol decoders to analyze digital signals such as SPI, I2C, UART, 1-Wire, IR NEC, etc.



  • It can use FFT (Fast Fourier Transform. ) to perform spectral analysis on the waveforms and display the frequency spectrum.



  • It can save the waveform data as CSV files or images for later use or sharing.



  • It can work with any Android device that supports Bluetooth 4.0 or higher, such as smartphones, tablets, smartwatches, etc.



  • It is easy to use, with a user-friendly interface and intuitive touchscreen gestures and buttons.



  • It is affordable, with a low-cost oscilloscope module and a free app.



With AR-Oscilloscope, you can perform electric measurements anytime and anywhere, without the need for bulky and expensive equipment.


How to Download and Install AR-Oscilloscope on Your Android Device




You can download AR-Oscilloscope from Google Play Store or from the official website




The first step to use AR-Oscilloscope is to download and install the app on your Android device. There are two ways to do this:


  • You can download AR-Oscilloscope from Google Play Store by searching for "AR-Oscilloscope" or by scanning the QR code below. This is the easiest and fastest way to get the app on your device.



  • You can download AR-Oscilloscope from the official website by visiting . This is the alternative way to get the app if you cannot access Google Play Store or if you want to get the latest version of the app.



After downloading the app, you need to install it on your device by following the instructions on the screen. The installation process should not take more than a few minutes.


How to download ar-oscilloscope for Android


Download ar-oscilloscope for Windows 10


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Download ar-oscilloscope software for Linux


Download ar-oscilloscope Bluetooth Android Oscilloscope


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Download ar-oscilloscope Logic Analyzer


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Download ar-oscilloscope Portable Oscilloscope


Download ar-oscilloscope Handled Oscilloscope


Download ar-oscilloscope Demo Mode


Download ar-oscilloscope Protocol Decoders


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Download ar-oscilloscope User's Guide


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Download ar-oscilloscope Video Tutorial


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Download ar-oscilloscope Reviews and Ratings


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You need to enable Bluetooth on your device and pair it with the oscilloscope module




The next step to use AR-Oscilloscope is to enable Bluetooth on your device and pair it with the oscilloscope module. The oscilloscope module is a small device that you can buy from or from other online stores. The module has two BNC connectors for attaching probes and a micro USB port for charging. The module also has a power switch, a status LED, and a Bluetooth button.


To pair your device with the module, you need to do the following:


  • Turn on the power switch of the module and wait for the status LED to blink blue.



  • Turn on Bluetooth on your device and scan for nearby devices.



  • Select "AR-Oscilloscope" from the list of devices and enter "1234" as the pairing code if prompted.



  • Wait for the pairing process to complete and for the status LED to turn solid blue.



Once your device is paired with the module, you are ready to launch the app and start using it.


You can launch the app and start using it to view live waveforms, make measurements, and save data




The final step to use AR-Oscilloscope is to launch the app and start using it. When you open the app, you will see a main screen that shows the live waveforms of the signals measured by the module. You can also see some buttons and icons that allow you to control the app and access its features.


To view live waveforms, you need to do the following:


  • Connect probes to the BNC connectors of the module and attach them to your circuit or signal source.



  • Select the channel that you want to view by tapping on its icon at the bottom of the screen. You can select up to four channels at a time.



  • Adjust the time/div and volts/div settings by swiping left or right on their icons at the top of the screen. You can also use pinch gestures to zoom in or out on the waveform.



  • Adjust the trigger settings by tapping on its icon at the top right corner of the screen. You can select the trigger source, type, level, slope, mode, etc.



To make measurements, you need to do the following:


  • Tap on the measurement icon at the top left corner of the screen. You will see a list of measurement options that you can choose from.



  • Select one or more measurement options that you want to display on the screen. You can also tap on the measurement value to copy it to the clipboard.



  • Select the cursor icon at the top left corner of the screen. You will see two vertical lines that you can drag on the waveform to measure the time interval or voltage difference between them. You can also tap on the cursor value to copy it to the clipboard.



  • Select the math icon at the top left corner of the screen. You will see a list of math options that you can choose from. You can select one or more math options to create a new channel that shows the result of the calculation on the waveform. You can also tap on the math value to copy it to the clipboard.



  • Select the decode icon at the top left corner of the screen. You will see a list of protocol options that you can choose from. You can select one or more protocol options to decode a digital signal and display its data on the waveform. You can also tap on the decode value to copy it to the clipboard.



  • Select the FFT icon at the top left corner of the screen. You will see a new screen that shows the frequency spectrum of the signal. You can adjust the FFT settings by tapping on their icons at the top of the screen. You can also use pinch gestures to zoom in or out on the spectrum.



To save data, you need to do the following:


  • Tap on the menu icon at the top right corner of the screen. You will see a list of menu options that you can choose from.



  • Select "Save Data" to save the waveform data as a CSV file. You can choose a name and a location for the file.



  • Select "Save Image" to save the waveform image as a PNG file. You can choose a name and a location for the file.



  • Select "Share Data" or "Share Image" to share the waveform data or image with other apps or contacts.



How to Use AR-Oscilloscope to Perform Basic Oscilloscope Functions




In this section, we will show you how to use AR-Oscilloscope to perform some basic oscilloscope functions, such as measuring voltage, frequency, and duty cycle. We will use an example circuit that consists of a 9V battery, a 1kΩ resistor, and an LED. The circuit diagram is shown below:



To perform these functions, you need to do the following:


  • Connect probes to CH1 and CH2 of the module and attach them to points A and B of the circuit, as shown in the diagram.



Launch AR-Oscilloscope and select CH1 and CH


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