The third and final video in a mini-series looking into the basics of isolated voltage measurement. This time moving on from optical transmission to look at magnetic, making use of hall effect sensors. Starting with an open loop system before attempting a closed loop, compensated system inspired by industry leader LEM's ubiquitous compensated current sensors. Finally we test a commercial LEM LV25-P voltage transducer to see how our attempts stack up against a £100 industry standard device.
What happens when:
0:00 Introduction
0:28 Hall effect sensors
2:05 Creating a strong magnetic field
7:53 Input side circuit (open loop)
10:24 Linearity (open loop)
10:54 Frequency response (open loop)
11:14 Compensated/closed loop topology
15:05 Full circuit (closed loop)
19:11 Linearity (closed loop)
19:36 Frequency response (closed loop)
20:38 Distortion at high frequencies
21:39 Flaws with this circuit
22:10 The LEM LV25-P voltage transducer
23:29 Test circuit for the LV25-P
24:56 Wow looking good!
25:32 Linearity (LV25-P)
26:03 Frequency response (LV25-P)
26:45 Series summary- linearity
27:18 Series summary- Frequency response
29:08 Conclusion
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