I will try to avoid too much repetition of what has already been posted. Some other ways I have handled ground loops:
1. Capacitive or inductive coupling - this may include AC coupling in *both* the center conductor and shield of a coaxial cable. 2. High isolation power supplies - these may use special transformers which include a large air gap to reduce capacitive coupling. In extreme applications, they can also be implemented using ceramic transducers. A less expensive way is to implement a small high frequency inverter using a torroidal transformer with well separated windings; Tektronix liked to do this and I have a number of older DMMs that use this for isolation of their floating inputs. 3. Some instruments implement isolation internally and use connectors which are isolated from chassis ground. The Tektronix PG506 pulse generator is a good example of this. 10Base-2 used isolated BNC connectors and an isolated power supply. 4. USB is a major and sometimes destructive problem with its shield and signal ground connection between instruments. USB isolated hubs are available and Analog Devices even makes an ASIC for this now. Ethernet is pretty good in this respect. One reason I have always liked RS-232 is that it was relatively easy to isolate. The old MIDI standard uses optical isolation as part of the standard. 5. One trick you can find inside test instrumentation is the use of common mode chokes (current baluns) on transmission lines between modules. The same thing can be done externally. 6. Instrumentation amplifiers can be used in place of transformers for isolation in some cases. Differential inputs can be very handy to prevent ground loops even from single ended sources. 7. One trick I have used at lower frequencies is to use currents instead of voltages (transconductance outputs) with resistive terminations at the endpoint and the coax only grounded at one end. This also works across a ground plain when ground currents would otherwise corrupt precision like maybe if you were driving the control voltage input of an OCXO. 8. Differential oscilloscopes probes are very handy for tracking down ground loops. I really like my Tektronix 7A13 and 7A22 differential amplifiers for this. 9. If you are making a normal single ended measurement with an oscilloscope probe, measure the point where the ground clip is attached; if the signal is not flat, then you have a ground loop. _______________________________________________ time-nuts mailing list -- [email protected] To unsubscribe, go to https://www.febo.com/cgi-bin/mailman/listinfo/time-nuts and follow the instructions there.
