Owon Oscilloscope Software Download !FREE!

Hoping you can help me out with a problem we are having with USB connection to an OWON oscilloscope. I'm an undergraduate student with about three months experience in LabVIEW so I could easily be misunderstanding something (tho obviously I don't think I am).

What does com3 look like if you look at it in Windows Device Manager? It has a yellow exclamation mark on it in MAX. That makes me think that device manager will show a problem as well. Perhaps the drivers for the oscilloscope didn't fully install properly. Just enough that when you plugged in the USB cable, it got mapped as a broken virtual com port 3.

Owon Oscilloscope Software Download

Download 🔥 https://cinurl.com/2y5z7I 🔥

Sorry for wasting everyone's time. After following the instructions in the video, my oscilloscope works -.-. The video is in Chinese and made on windows xp so i followed a separate installation guide from the manufacturer (there wasn't one in my downloaded folder like you have). Apparently the separate installation guide only gets you so far. Again, I should have caught this myself but thank you all for your time, it is much appreciated.

The owon website claims that labview supports the owon oscilloscope I have. But the SCPI documentation provided does not give any information on how to connect the oscilloscope to labview. Plus there is no documentation that is clear or that works to be able to connect the oscilloscope to labview.

I have not made any progress since I have got the oscilloscope. I downloaded the driver no problem the day I got the oscilloscope. There are no owon drivers on the Ni website or in the software or anything. Owon claims that their oscilloscope is supported by labview on their website where point of sale is located. There is no other driver to be downloaded that works. Yet labview still can not see my oscilloscope. To labview, the owon oscilloscope is nothing more than a ghost that does not exist. Hence I am asking what I do now.

Initially I believed perhaps I had the wrong driver software since the oscilloscope is not showing up, but since I have not been able to find any other driver for months, the driver I initially downloaded is the only option.

Using labview is required for the class I am in. Since I have no experience with labview, and it is up to the individual students to figure it out on there own, and there is no documentation to show how to get to oscilloscope to communicate with the computer, of course it will be difficult for someone like me to figure out. Plus all of the other students are using different communication methods, I am on my own and can not ask my fellow pears how they did it since they are using different equipment.

The colorful LCD panel with a resolution of 640 480 allows an excellent readability of the wave, especially in regards to high data volumes or many waves covered reciprocally. If you intend to use the oscilloscope professionally, wel recommend the PDS6062T or the PDS7102T because of their much better LCD (TFT-LCD instead of a STN-LCD).

The picture to the left below shows the inside of the OWON HDS272S and the picture to the right below is from the Hantek 2D72. From these pictures you can see that the general layout of these two oscilloscope are quite similar.

In the picture to the left below, you can see the shielded input sections for the oscilloscope and the picture to the right is a closeup of the area near the USB port. Here a bodged-on capacitor can be seen (the green one on the right), it is soldered directly on top of a couple of SMD capacitors on the board.

From the picture to the right below, you can see that the FPGA is responsible for processing the signal from the oscilloscope inputs via the MXT2088 ADC. Interestingly, the MXT2088 is rated as a dual-channel 100MSa/s ADC whereas the input channel digitization rate is specified as 250MSa/s for single channel operation and 125MSa/s for dual channel operations. Presumably this ADC has been overclocked with the design to accommodate the 25% increase in data rate.

The picture to the left below is a close-up of the ADC/FPGA section. Note the trace length matching on the OWON PCB, this is noticeably absent in the Hantek design which you can see to the right. This could have contributed to the poor stability in the oscilloscope performance as we have seen in the review of the Hantek 2D72.

The Owon PDS5022T is a Portable digital oscilloscope for electronics applications such as circuit testing, electrical enginerring and education. The PDS5022T has a bandwith of 25 MHz and an 8 inch color TFT LCD display.

Comprehensive Functionality: Benefit from 7 essential measurement functions in a single instrument - oscilloscope, waveform generator, multimeter, FFT spectrum analyzer, frequency counter, protocol analysis, and amplitude-frequency curve analysis.

Up next was OwonOszi [3], which is for my exact model of oscilloscope. However, it is written in pascal, and appears to be for Windows only? On the plus side, it was last updated 12 days ago, so it seems pretty current. Albiet, in my situation, not really useful at the moment. It also lacks documentation, and seems to be a tool to look at saved files from the HDS242, rather than a means to measure, control, or live capture data, so I skipped it for now. 17dc91bb1f