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Current at 20kV DC would be 0.1mA and dissipation 2W
And then put everything in a 1" sealed PVC pipe filled with olive oil with a tip at one end and the cable to the scope and the alligator ground clip at the other end
Registered Member #1064
Joined: Tue Oct 16 2007, 05:04PM
Location:
Posts: 42
Get a resistor that you don't have to put in oil, or use resistors in series. The oil expands and if there's not an air space, the PVC pipe is likely to burst. There may be considerable oil expansion. (From bitter experience) Calibration at 60 hertz can be checked using a signal generator and oscilloscope and voltmeter. It is probably advisable to place capacitors across all resistors in the divider. If capacitors are not used and there are high voltage transients, the end resistor will fail then the next resistor and so on.
Registered Member #3806
Joined: Sat Apr 02 2011, 09:20PM
Location: France
Posts: 259
Carl Pugh wrote ... The oil expands and if there's not an air space, the PVC pipe is likely to burst. There may be considerable oil expansion. (From bitter experience)
Good to know that !
I thought I'd use oil for insulation, but maybe I don't need it, or I can use something else ? It's not gonna heat a lot as I use a 12W resistor for a max dissipation of 2W
And I just thought, maybe the coaxial impedance doesn't really matters for such low frequency as 50Hz, still would like confirmation about this
Registered Member #30
Joined: Fri Feb 03 2006, 10:52AM
Location: Glasgow, Scotland
Posts: 6706
There is no such thing as a simple HV scope probe.
Coax has a capacitance of about 100pF per meter. The higher the impedance, the lower the capacitance. 75 ohm is the highest easily available. 92 ohm exists, but I've not seen it stocked.
So, if you use 2 meters of coax, your probe will be a low-pass RC filter with a time constant of 250k*200pF = 3.18kHz.
The usual solution is to introduce a small capacitance in parallel with the high voltage resistor. In this case, we need 200pF * (250k/200M) = 0.25pF.
Things now get complicated really fast, because the resistor would typically have at least 0.25pF capacitance between its ends already! But it also has capacitance to ground and to each end distributed along its length. The resulting frequency response can have a practically infinite number of poles, needing a complex compensation network. Tektronix's P6015 probe is a great example of this school of thought.
The brute force solution is to put a large capacitor across the 250k resistor, so you can put a bigger capacitor across the 200M resistor to swamp the stray capacitances. EasternVoltage designed a successful HV probe like this.
Another solution is to use a pure capacitive divider. Resistors have stray capacitance, but capacitors don't necessarily have stray resistance, so you can get a flat response to high frequencies without compensation. Jennings make some beautiful vacuum capacitor HV probes. They can't measure DC, but for many applications that isn't a problem.
Registered Member #3806
Joined: Sat Apr 02 2011, 09:20PM
Location: France
Posts: 259
Cool, so on an electrical point of view it seems ok
Thanks, I'll try that when I receive the resisitors and let you know how it goes...
My last doubt is about dielectric filling of the probe, I could use olive oil and leave some air to allow oil expansion ? Or use something solid like parafin ? Any better suggestion ?
Registered Member #3700
Joined: Sat Feb 19 2011, 12:59PM
Location:
Posts: 107
Hi Phil !
Your thread make me think about the influence of the cable capacitance, mainly when you are using to test hv at 60Hz or lower frequencies.
It is clear that the cable capacitance presents a capacitive reactance to the 60Hz. And this reactance produce a " load" to the voltage that is going to the meter/oscilocope.
The question is find out HOW MUCH is this load,
The cable capacitance of 200pF running at 60Hz will give a reactance of :
Xc = 1/2*pi*F*C
Xc = 1/(2*pi*60 *200* 10^12)
Xc = 1.33 *10^7
Xc= 13,5megohm.
The capacitive reactance in parallel with the 250Kohm resistor (0.25Mohm)
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Questions about a simple HV scope probe (20kV - DC and AC 50Hz)
