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Xscope protolab board9/14/2023 It has two channels and a waveform generator, which is more than enough for folks to run a basic electronics lab at home. It can’t be a replacement for a decent oscilloscope, but it’s surely a boon for tinkerers on a budget. “I’ve been using the Xprotolab Plain for the last two years for my everyday basic hobby projects. He also shared his experience with the tool. His test gear with Xprotolab Plain at its core is shown in the figure below. Manoj Patnaik, a Senior Consultant at TERI - The Energy and Resources Institute, New Delhi - took yet another approach, which he shared with me. This can help trim down the noise on analog signals. What might be preferable would be to modify the module to use a coaxial cable terminated with a pair of standard BNC connectors. There is also a noise aspect to connecting via the 0.1-in. If you require a 5-V logic interface, you will need an add-on voltage translator chip (like the SN74LVC245A from Texas Instruments) to increase the input’s tolerance. Also, the logic level that the module works with is only 3.3 V. For one, the interface software is not ultimately stable. I was slightly disquieted with a few things. Looks nice to me! I also confirmed the accuracy of the display by comparing it with measurements by my more traditional (and expensive) benchtop GWInstek DSO (digital sampling oscilloscope). The image below is a random snap of the resulting display on a Windows 7 (圆4) laptop. I want to be able to monitor those signals as output power varies. These signals are at the same frequency and pulse-width reference but with certain phase shift between them. At the power project’s heart is an “Arduino Uno” microcontroller configured to render two “interleaved PWM” outputs. In my case, I currently have the Xprotolab Plain hooked up to a rather “dirty” prototype of a power electronics project. Once you are satisfied with your setup, remove the jumper wire and connect the scope’s inputs to the signals in your circuit from which you want to capture data. The next step is to connect the module’s AWG pin to CH1 through a jumper wire and observe the PC’s screen. When the application starts, it will try to connect automatically. After that, power up the module by connecting it to the PC’s USB interface. For MS Windows, first download and install the interface software (XScope) and device driver (WinUSB). To begin using the “scope,” you will need software. For experimental purposes, the module can be mounted on a breadboard after the solder work, with a bunch of standard male-to-male jumper wires as the test probes. The headers are relatively easy to solder by hand. The Xprotolab Plain comes with a pair of male-headers. Its technical performance specifications include:Ī complete feature list, user manual, interface software, technical support forum, and more are available on the manufacturer’s product page. The module uses a USB interface to connect to a computer for control and data display, running under Windows, Linux, MacOS, and Android.
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