o.start() # setting the scale o.setScale(0.05) # Set scale by trial and error. # Set the width of the oscilloscope to fit the ipython notebook. o.setWidth(100) # In[33]: # unhold the oscilloscope to start the recording. o.unhold() # Initial State print(b.state()) # Triggering the counter sequentially 2^4 times for i in range(1, 2 ** 4): b.trigger() print(b.state()) # Display the oscilloscope - Implicitly the o.hold() will be called first # to stop the recording. o.display()
# 2 Astable # 3 Bistable out = Connector(0) # MODE 3 m = Multivibrator(0, mode=3) m.start() m.setOutput(out) o = Oscilloscope((m.A, 'OUT')) o.start() o.setScale(0.05) o.unhold() time.sleep(0.1) m.trigger() print(m.A()) time.sleep(0.5) m.trigger() print(m.A()) time.sleep(1) m.trigger() print(m.A()) time.sleep(2) m.trigger() print(m.A()) o.display() o.kill()