It is funny, the amount of denial and confusion in this thread (some of it is his fault).
He did NOT run this at 750V, he put the meter in the 750 RANGE, as I explained in the beginning. He selected this range because that is the range required to check household voltages. These tests were specifically designed to test something in more real world conditions. They test a very low energy, high voltage spike (such as encountered by an inductive kick back into the high impedance of a meter, etc.) followed by a single cycle of 120V AC (I think with 2 ohm impedance). These are conditions that people, not just tool hobbyists or electronics hobbyists, could encounter in their every day use. Not common that it happens all of the time but certainly common enough to be the most common mode of failure. This is type of scenario the standards organizations worry about when they rate meter safety.
Dumb question, but who puts 750 volts through a volt meter?
120v? Yeah.
240v? Yeah.
440v? Occasionally.
But 750?
He didn't put 750V through it, he set it to the
750V range, he could have explained it better.
That was a torture test . . . more like . . . . DESTRUCTION . . . "test" . . .
. . . . and . . . Yeah, 750v will do some damage.
I sure didn't see anywhere in that video where . . .
. . .. the YouTube tester subjected his Fluke to 750v to see if it would blow up ??
Question for normal Joe is whether in NORMAL situation, would the cheapie HF multimeter give an accurate enough reading to be helpful. For free, it can't hurt to throw in your mobile electrical repair box.
He didn't test at 750V, the range was 750V. Check his other videos, he actually tests multiple Flukes. The Fluke 101 he tested survived up to 12kV

, 2ohm source impedance, 50uS FWHM. Interestingly, his worst performing Fluke was the 87V which its suspected to be a one off failure because the rest of the Flukes performed WAY WAY better.
Looks like the test was contrived to get the result that he wanted.
Not at all, if you want to know the background. He designed this tester to work through a variety of ranges and voltages to test the meters robustness. He tested dozens of meters this way, not just the HF one.
None of the other meters failed like this. ALL of the rest at least kept the explosion within the case of the meter. The tests are SIGNIFICANTLY less stringent than those required by Underwriters Labs. This scenario is certainly within the realm of possibility for most meters to encounter and this meter failed HORRIBLY. If he was trying to contrive a result, he would have tested this meter and this meter only. As I mentioned above, he tested a Fluke 101 (a $50 meter from China) all the way up to 12kV, 2 ohm source impedance, 50us FWHM before it failed. This performance is just about the worst out of ANY of the meters he tested PERIOD.
EDIT:
Here is the list of meters he has tested so far (taken from his results spreadsheet):
Amprobe: AM-510, AM-530
BK Precision: 2703C, 2705B
Brymen: BM869S
Cen-Tech: 98025, P37772, P98674
CircuitTest: DMR-6550
Extech: EX430, MN16A
Fluke: 17B+, 101, 107, 87V (will soon be testing the Fluke 115)
Gardner Bender: GDT-311
HoldPeak: HP-760H
Innova: 3320
Klein: MM500, MM2000
Mastech: MS8264, MS8229
RadioSahack: 2200087
Sears: DM-301
SouthWire: 12070T
TekPower: TP40, TP2844R
Uni-T: UT61D, UT61E, UT90A, UT139C
UTL: UTLDM 2