Besides simulating a basic Android OS, LDPlayer also contains many features that will bring your Android gaming to the next level on PC. Trusted by millions of people from different countries, LDPlayer offers multiple languages including Korean, Portuguese, Thai, etc to make it more user-friendly. LDPlayer is a free Android emulator that enables you to play most Android games on PC with keyboard and mouse. zip: How to install APKs Bundle (Split APKs) SmartScope Oscilloscope Download for PC Windows 10/8/7 – Method 2: Note: You need to download and install application in accordance with the following instructions: The download link information we are listed below: you just need to download the apk file or xapk of the application to your computer and then install it to run. In case your computer has installed Emulators such as LDPlayer, Bluestacks. ($100), so we still need to figure how far we can make things open.Tutorials install SmartScope Oscilloscope Download for PC Windows 10/8/7 – Method 1: While monodevelop is free, Xamarin is not, andĪlso to deploy to any iDevice you need to pay the yearly Apple developer fee This allows us to build high-performant visualization code for all the Job of making it possible to recompile the same source also for OSX and iOS, so Question is: check out monodevelop, which is an open-source developmentĮnvironment for Windows, Linux and Android. Graphical performance (MonoGame gives access to the hardware graphicalĪccelerator) on Windows, Linux and Android. We're using Mono and MonoGame to achieve awesome The second part is the visualization shell built around this functionality,Īs this is platform-specific. ThisĬomes in C, so it can be used as shared library for any project you would like Largest part, which is dealing with all functionality of the SmartScope. The result when you sample a 20MHz square wave (blue) using a 10MHz bandwidth scope, See as example, where the red curve would be Your sine and especially digital signal would be visualized completely wrong. Now, in case the analog bandwidth would be lower (say, 10MHz), then Signal you can visualize comfortable is a 20MHz sine, or a 10MHz digital Sampling speed is 100MS/s, then you should consider that the highest-freq Our 100MS/s SmartScope, the result will look, well, crap. Now you're correct that when you sample a 50MHz sine using Consider it to be the maximum frequency until which the front-end can Words: in case you first apply a 1MHz sine, and afterwards a 50MHz sine of sameĪmplitude, then your 50MHz sine will be shown at half the amplitude of the 1MHz Represents the 3dB point (or 50%-point) of our analog front ends. Regarding the analog bandwidth of 50MHz: this figure Looking at the specifications of commercial oscilloscopes, claiming 50MHz bandwidth based on a sampling frequency of 100MS/s seems too aggressive and misleading to say the least. Will it be possible to generate a video signal like a normal video pattern generator? In the future when there's an upgrade of the firmware for the FPGA or PIC, will this require external programmers (pickit and xilink cable) or this can be done via usb?Ĭan this be used for other projects besides Raspberry Pi and Arduino?Ĭould be possible to synchronize more than 2 smartscopes? for example to have 6, 8, 10. Will the same feature be provided to the logic analyzer? In your video you showed an analog signal and how responsive it is. How would one change the 'mode' of the device from an oscilloscope to a logic-analyzer? Is it through a 'switch' on the UI only? What is the interface for the waveform generator? I imagine it's programmed from the software, but how many bits of resolution and what kind of control do we have over it? Can you set trigger level and rising/falling edges? Can you trigger the analogue inputs off one of the digital inputs? And do you still get 200fps with a trigger condition set?
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