PicoScope 7 Software
Available on Windows, Mac and Linux
Hey, that's good news! If you are not able to get plots that look sensible based on the circuit you're measuring, there are a couple of ways to debug:garya wrote:Yes, that fixes the problem It runs and gets a plot.
I just have to get a sensible one.
Gary,garya wrote:Yes, that's good with RC
Only niggle is 20000000 Hz faults, can get around 18999999
Fatal error: Failed to start channel data capture: 14
but not with all 9s. And at those high values, 50 samples starts to fault at end with
too long to download data - or some such fault.
Thank you for your feedback, Klaus. I would like to learn more to try to help resolve this.klauss wrote:Dear Aaron,
Thanks for your software! It's really great!
I am using it to measure resonance frequency of special piezo scanners.
Unfortunately due to the automatic input / output range and the short sinus bursts I get weird results: Could you please make a option for
- output range automatic / fixed to .....
- input range automatic / fixed to .....
- adjustable sample length ...
Best regards,
Klaus
Guido,gvaglia wrote:Dear Hexamer,
I am trying using your software with a 3203D-MSO PicoScope but I am getting the following error
Status: 3203DMSO S/N: CO837/079 successfully initialized.
FRA execution error: Error in function boost::math::round(double): Value 1.#INF can not be represented in the target integer type.
Fatal error: Failed to setup stimulus signal: 46
Error: Failed to disable signal generator.
I am using windows 10 64bit.
Regards
Guido
Guido,gvaglia wrote:Dear Hexamer,
I am trying using your software with a 3203D-MSO PicoScope but I am getting the following error
Status: 3203DMSO S/N: CO837/079 successfully initialized.
FRA execution error: Error in function boost::math::round(double): Value 1.#INF can not be represented in the target integer type.
Fatal error: Failed to setup stimulus signal: 46
Error: Failed to disable signal generator.
I am using windows 10 64bit.
Regards
Guido
Hi Mitch!ibdami21 wrote:Hi Aaron,
Nice concept here for the bode plot analyser. I've got a 5442B and have tried this out just now with a simple RC network of a 1uF cap and 6.8k resistor to form a high pass filter. For me, using Windows 10 with this I don't get good data but a flat line in the graph. Exported to excel I get this:
Frequency Log(Hz) Gain (dB) Phase (deg)
3.000003307 -nan(ind) 0
3.49999747 -nan(ind) 0
3.999999262 -nan(ind) 0
4.301030269 -nan(ind) 0
One other note is this scope I don't need to use the AC adapter for channels A+B+ the wave generator to work. I was at first stumped why it wouldn't find a device until reading on the forums you check for the DC adapter.
Hopefully this is something easy I can address as this would come in handy.
Thanks!
-Mitch
I tried to replicate this with a 6.8k resistor and two 0.47 uF caps in parallel. The results I get don't match yours, but did remind me of something. While you should get a relatively flat response in that region, if everything were working properly, due to noise and measurement error it should be virtually impossible for you to get exact 0 values. Here's what I get:ibdami21 wrote:Hi Aaron,
Nice concept here for the bode plot analyser. I've got a 5442B and have tried this out just now with a simple RC network of a 1uF cap and 6.8k resistor to form a high pass filter. For me, using Windows 10 with this I don't get good data but a flat line in the graph. Exported to excel I get this:
Frequency Log(Hz) Gain (dB) Phase (deg)
3.000003307 -nan(ind) 0
3.49999747 -nan(ind) 0
3.999999262 -nan(ind) 0
4.301030269 -nan(ind) 0
One other note is this scope I don't need to use the AC adapter for channels A+B+ the wave generator to work. I was at first stumped why it wouldn't find a device until reading on the forums you check for the DC adapter.
Hopefully this is something easy I can address as this would come in handy.
Thanks!
-Mitch