A simple but very effective scope. Up to 6 channels of 32 bit float data at 1 kHz.
Dependents: HIDScope TEST Project5-Motorcontrol EMG_HIDScope_Gr6 ... more
The HID Scope comes in handy for debugging purposes. You can easily specify which values you want to monitor, whether it are Analog inputs, filtering floats or boolean states.
This step by step instruction will guide you through the process and it will be easy to adjust this setup to your needs.
The newest MBED library has some issues with USB devices. For the time being, select MBED library revision 119.
Using the HIDScope on your MBED
If there is no project you currently working on, create one first. Now simply import the HIDScope library into your project by clicking on 'Import Library' on the homepage of this library.
Include the HIDScope library in your header
include the HIDScope library
#include "HIDScope.h"
And define the HIDScope beneath your #include-s, outside of any function. The only parameter that it takes is the number of channels you would like to use. In this case we will use one channel.
define the scope
HIDScope scope(1);
Now set the data and send it over USB! This example reads and sends at 100hz the value of the analog in.
The simple way, send data at 100hz
#include "mbed.h" #include "HIDScope.h" // Define the HIDScope and Ticker object HIDScope scope(1); Ticker scopeTimer; // Read the analog input AnalogIn a0(p2); // The data read and send function void scopeSend() { scope.set(0,a0.read()); scope.send(); } int main() { // Attach the data read and send function at 100 Hz scopeTimer.attach_us(&scopeSend, 1e4); while(1) { } }
If you have a control-loop running at 10kHz you certainly wouldn't want to transfer the data at 10kHz (that isn't even possible using this device). You could SET the data in the 10kHz loop and SEND the data in a 50hz loop. See the following example using 2 channels:
The better way, separate send and control loop
#include "mbed.h" #include "HIDScope.h" // Define the HIDScope and Ticker objects HIDScope scope(2); Ticker scopeTimer; Ticker controllerTimer; // Two analog inputs to read from AnalogIn a0(p2); AnalogIn a1(p3); void controlAndMeasure() { // Do some control // ** control code here ** // Store values in the scope scope.set(0,a0.read()); scope.set(1,a1.read()); } int main() { // Attach the HIDScope::send method from the scope object to the timer at 50Hz scopeTimer.attach_us(&scope, &HIDScope::send, 2e4); // Attach the controlAndMeasure method to the controller timer at 1kHz controllerTimer.attach_us(&controlAndMeasure, 1e3); while(1) { } }
Upload it and you are ready to go!
Using the HID Scope software
The software is written in Python and currently compatible with Windows. A deprecated NodeJS version exists that is compatible with OSX and Unix but it is not supported anymore.
Quick Start
- Download the precompiled application
- Extract the ZIP-archive
- Run
server.exe
- Open the scope in your browser (http://localhost:18082/)
Alternative: Run from source
Alternatively the program can be run from source - Download Python 2.7 - Clone the repo - Run python server.py
Changes
Revision | Date | Who | Commit message |
---|---|---|---|
7:d23c6edecc49 | 2017-07-30 | tomlankhorst | Update dependencies |
6:188304906687 | 2016-10-06 | tomlankhorst | Added MBED library check |
5:80d551456856 | 2016-10-06 | tomlankhorst | USBDevice 1 revision back |
4:eade4ec5282b | 2016-09-22 | tomlankhorst | Updated USBDevice lib to most recent version |
3:5020a2c0934b | 2015-05-20 | tomlankhorst | Updated USBDevice dependency |
2:9c9226db4fb1 | 2015-05-20 | tomlankhorst | Updated documentation |
1:e44574634162 | 2014-09-08 | tomlankhorst | Updated documentation |
0:79e3f3072f3b | 2014-09-08 | tomlankhorst | Initial version (v0.1) |