However, you can still measure frequencies up to almost Nyquist/2, i.e. +3.3V: Approximately 200mA, but this subtracts from the available current on the +5V line.ħ) What is the maximum frequency that I can measure with the XScope? 5V: Approximately 50mA, but this subtracts from the available current on the +5V line. +5V: Will be the same as the power source minus 60mA. This is the maximum current on each voltage: The XScope can also power external devices. Old hardware 1.4 and 1.5 cannot do USB firmware upgrades. ![]() A UART to USB cable is required for hardware 1.4 and 1.5.ĥ) Can I connect the XScope to the computer using the USB for firmware updates? Yes, you can use the XScopes PC Interface. Do not connect a 5V power supply and the USB at the same time.Ĥ) Can I connect the XScope to the computer to control the oscilloscope and get the data? Alternatively, the device can be powered by connecting a 5V power supply on the 5V pin. The device can be powered thru the micro USB port. (The AWG uses the DMA, so it doesn't need any CPU intervention). Yes, the waveform generator runs on the background. C Compiler, included in the WinAVR package: WinAVR at sourceforgeĢ) Can the waveform generator and the oscilloscope run simultaneously?.Integrated Development Environment: Atmel Studio 6.1) What tools do I need to develop my own programs on the XScope?īesides the power supply, you need an external programmer, such as the AVR ISP 2, or a debugger, such as the AVR JTAGICE mkII or the AVR ONE!.
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