Thanks Dave for choosing this topic. Safety for both the operator and the test-equipment is extremely important and differential probes are designed to ensure safety as well as enabling measurements where the signal ground is floating from earth or on balanced circuits.
Using an isolation transformer is filled with danger on normal oscilloscopes unless the operator is very careful and fully understands the measurement environment. Personally I'd never recommend it. If you float the scope from ground then the exposed metal BNC's on the unused channel(s) and EXT-Trigger input all rise to whatever voltage you've connected to the ground lead on the passive scope-probe. Plus you can't work on more than one signal if the other signals' grounds are at different absolute potentials relative to earth. If you do, the ground plane in the scope's front-end will have to carry the full short-circuit current caused by the potential difference in the two external signal grounds. I've seen the result and it was catastrophic. It was on a scope that was used on delta configured 3-phase. The operator used 100:1 passive probes for "safety." ... There's no attenuation in the ground wire of a scope probe as this company found to its cost. I also have actually seen in my travels a large company servicing UPS units using an oscilloscope powered by a mains lead with the Earth pin removed. Even worse, this power cord was actually carrying a recent test tag to say it was safe!!
Another point in favour of differential probes is that buying a couple of differential probes and a normal oscilloscope is VERY MUCH cheaper than paying for an isolated channel oscilloscope.
FYI... especially for Aussie's on the forum.... Sapphire, as Dave said, is the OEM for the probe reviewed. TRIO Test & Measurement is the Sapphire distributor for Australia. We keep the SI-9001 (700V) and the beefier SI-9002 (1400V) and a range of other Sapphire differential probes in stock. Sapphire is the OEM for more big-name scope companies than just the LeCroy branded version reviewed. We have seen them branded with Yokogawa and Agilent too.
The other lower cost probe Dave pointed out at the end of the teardown is the Pintek DP-25. It is a good value product. The reason we carry both brands (Sapphire & Pintek) is to offer a choice in price/performance. The main difference is that Sapphire costs a little more but it also has a higher voltage CAT rating at 1000V CAT-III or 2500V CAT-II. Pintek has a lower CAT- rating at 600V CAT-II and a lower price to match. Pintek is also the OEM for some of the big-guys too. Sapphire is a more sturdy construction and lower noise.
Be careful with blaming all the noise on the probe though. If you are using the probes on lower level signals and with lower probe attenuation settings, those unshielded input leads do make good antennae in the presence of interference sources and the probe's high input impedance is great for turning those small induced currents into significant noise voltages. It's perhaps also a good idea when using this type of probe having 25 MHz bandwidth, to use the 20 MHz bandwidth-limiter found on most scopes unless you really need the full 25 MHz of the probe.
If any one wants more info on these probes then check-out our website. Our pricing for the Pintek probe Dave showed (at 23:55 in the teardown) is similar to the eBay price shown and mentioned by Dave.
Pintek DP-25 http://www.triotest.com.au/shop/search?controller=search&orderby=position&orderway=desc&search_query=pintek+dp-25&submit_search=Search Sapphire SI-900x http://www.triotest.com.au/shop/search?controller=search&orderby=position&orderway=desc&search_query=sapphire+si-900&submit_search=Search For the upper end of the Sapphire differential probe range check out this one:
http://www.triotest.com.au/shop/oscilloscope-differential-probes/1539-sapphire-instruments-si-9010a-differential-probe-70mhz-7kv.html Up to 70MHz and up to 7000V differential... but not at the same time
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