maybe you should explain a bit its function when you do those test welds .. how is the weld started? (at first i thought the light cable would have a return wire and the handle has a pushbutton switch activated when you push handle down .. but ig seems to have a sensor in the welding wire (measurecresustance, starfvtimer and 1 sec later .. fire to the wire is that start timer setable??
Uh, you missed some aspects I certainly wonder about: Are the supply cables copper or aluminum? Why do the copper probes keep sticking to the tabs? My welders don't do that. What experimentation did you do on the variables, such as pulse width, pulse separation etc.? I would NEVER use a set of supply cables without full insulation! Why do you accept this janky plastic cable wrap instead of real insulation? That cable could short itself or other equipment (batteries, other wires, etc) due to the uninsulated wires. The idea you would not immediately comment on the wires being uninsulated is a big clue to you perhaps being paid by the company to show off their device. You've lost my subscription.
1) flexible tip wires are from copper. 2)They sticking because of high currents settings Which spot-welder you have? and battery setup? 3)About insulation... when I saw them I also wondered why they would do it that way , i said don't make fast conclusions before trying it, there exist two spiral insulations, one is white and the other is clear from inside, so you cannot short your wires, i tried to short them without results, the reason for this kind insulation is the flexibility of movement , you cannot feel that if you don't try it... also this is not big deal, if someone didn't feel safe with that he can put heat-shrink or cloth tape. 4) I never wasn't paid for my Reviews, i am asking for free samples only for honest review. i have more than 4 spot-welders in my lab, they are really trash front of this super-cap spot-welder. Instead to stuck on wire insulation you must think about the benefits of this technology compared to Li-po batteries, 1) Safety 2) life of the device. 3) It is always ready 4) Mobility of the device and most important instant output... You can have all this with batteries? If you ask me.. i don't recommend spot-welding with batteries, there is not exist batteries for shorting.
@@EVCustomsa resistor or even better a light bulb in series plus a bunch of caps should be enough .. I also could think about a few cap banks switchable to somehow have a control over the welding strength (plus a variable PSU or some different voltage lipo packs) ... so one can go very easy when you can homebrew such a device
maybe you should explain a bit its function when you do those test welds
.. how is the weld started? (at first i thought the light cable would have a return wire and the handle has a pushbutton switch activated when you push handle down .. but ig seems to have a sensor in the welding wire (measurecresustance, starfvtimer and 1 sec later .. fire to the wire
is that start timer setable??
Throughout the whole video you are using too much power on the machine. All those welds on nickel were weak because of too much power.
Hi friend... they are pure nickel strip's, they need much more power from plated ones..
Uh, you missed some aspects I certainly wonder about:
Are the supply cables copper or aluminum?
Why do the copper probes keep sticking to the tabs? My welders don't do that.
What experimentation did you do on the variables, such as pulse width, pulse separation etc.?
I would NEVER use a set of supply cables without full insulation! Why do you accept this janky plastic cable wrap instead of real insulation? That cable could short itself or other equipment (batteries, other wires, etc) due to the uninsulated wires.
The idea you would not immediately comment on the wires being uninsulated is a big clue to you perhaps being paid by the company to show off their device.
You've lost my subscription.
1) flexible tip wires are from copper.
2)They sticking because of high currents settings
Which spot-welder you have? and battery setup?
3)About insulation... when I saw them I also wondered why they would do it that way , i said don't make fast conclusions before trying it, there exist two spiral insulations, one is white and the other is clear from inside, so you cannot short your wires, i tried to short them without results, the reason for this kind insulation is the flexibility of movement , you cannot feel that if you don't try it... also this is not big deal, if someone didn't feel safe with that he can put heat-shrink or cloth tape.
4) I never wasn't paid for my Reviews, i am asking for free samples only for honest review.
i have more than 4 spot-welders in my lab, they are really trash front of this super-cap spot-welder.
Instead to stuck on wire insulation you must think about the benefits of this technology compared to Li-po batteries,
1) Safety
2) life of the device.
3) It is always ready
4) Mobility of the device
and most important instant output...
You can have all this with batteries?
If you ask me.. i don't recommend spot-welding with batteries, there is not exist batteries for shorting.
@@EVCustomsa resistor or even better a light bulb in series plus a bunch of caps should be enough .. I also could think about a few cap banks switchable to somehow have a control over the welding strength (plus a variable PSU or some different voltage lipo packs) ... so one can go very easy when you can homebrew such a device