yes i would appreciate help with the cap dump unit ! ideally a schematic for sale that i can build. or a physical unit thats affordable. well done !! this stuff does take alotta work to figure out properly !
Very interesting at 1:40 the feature to prevent over-charging. That's awesome actually since safety is a primary concern. Would a schematic also be available? When the PCB's become available for sale, do you have a K-Energy type shop or should we contact you via email? Also would it be possible to share the source of the cost effective dc-dc converter? Thank you for contributing to the community sir.
I'm working on my e-store product line. This circuit will be one. The schematic isn't very complicated or necessary for repairs since all major components will be easily replaceable with screw terminals and sockets. The micro controller sketch will be included so experimenters can tweak the trigger timing. 98% of everything I buy is from Amazon, so if you see something in my video, look there you might even find a better version suited your your needs. Thanks for coming back bro!
@@redesign3dpI never left sir. I just stopped asking questions for a while, as I realise the amount of work involved keeps you busy. I watch all your videos, there's some really innovative stuff on your channel and very essential to pulse systems. Your videos are all saved into a special youtube playlist folder called "Pulse Reconaissance League" corny I know but there's 3 channel's videos in there. REDESIGN3DP, K-Energy's and another guy called 3D Printing F.M. I'm actively clearing a space at home for electronics project relating to the work you, K and the other guy does. I even dug out my 3d printer and cleaned it up because your work inspires me. When I started following you guys I hadn't a clue, but even things like the explanation paper you send along with the PWM module that explains what everything does regarding pulse motors has increased my understanding in this subject. So keep up the good work and know that your Subscribers are here to stay. Thank you sir for the reply.😀
@@redesign3dp I have a 24 Volt (two 12V) in series batteries that I need to recharge each at 12Volt naturally 1 at at time with a quick switchup. the only thing I could think of was maybe an Arduino R3 switching the charge real quick.
Thats a project in the works. I will use a micro arduino (samd21 xaio) to control a gear motor to actuate heavy duty relays. It will incorporate stop switches.
Also you could charge capacitors in parallel and discharge them in series as a capacitor converter. Though if you had a pulse motor a mechanical switch could discharge capacitors or batteries in series then parallel for high current and voltage.
See what I'm planning on doing is buying a wind turbine 800w output, taking the blades off and connecting that shaft to my pulse motor. so my pulse motor does what wind would normally do spin, i doubt my next motor will be over 12watts input, for the 800watt out, how isnt that overunity? If its 12v out and designed to keep a12v battery charged surely it'll run forever until it burn out
Sorry about that, it was a follow up to an earlier video that should have been tagged at the end. But you basically explained it. Capacitors or condensers can charge up fairly fast then discharge quickly with nice amps. Subscribe if your interested, I was just showing that I converted the breadboard version to perf board, the next stage is a pcb.
This is great and I think fit an application I wanting to try. Between you and K Energy y’all put out some awesome stuff
Thanks, this is K inspired for sure!
Great job and very happy to see you working on your inventions
Super cool bro !
Thanks Mr K
yes i would appreciate help with the cap dump unit ! ideally a schematic for sale that i can build. or a physical unit thats affordable. well done !! this stuff does take alotta work to figure out properly !
I'm going to make everything reasonably affordable, this will be among other cool one of a kind products.
Thanks for sharing
Yes sir
Very interesting at 1:40 the feature to prevent over-charging. That's awesome actually since safety is a primary concern. Would a schematic also be available? When the PCB's become available for sale, do you have a K-Energy type shop or should we contact you via email? Also would it be possible to share the source of the cost effective dc-dc converter? Thank you for contributing to the community sir.
I'm working on my e-store product line. This circuit will be one. The schematic isn't very complicated or necessary for repairs since all major components will be easily replaceable with screw terminals and sockets. The micro controller sketch will be included so experimenters can tweak the trigger timing. 98% of everything I buy is from Amazon, so if you see something in my video, look there you might even find a better version suited your your needs. Thanks for coming back bro!
@@redesign3dpI never left sir. I just stopped asking questions for a while, as I realise the amount of work involved keeps you busy. I watch all your videos, there's some really innovative stuff on your channel and very essential to pulse systems. Your videos are all saved into a special youtube playlist folder called "Pulse Reconaissance League" corny I know but there's 3 channel's videos in there. REDESIGN3DP, K-Energy's and another guy called 3D Printing F.M. I'm actively clearing a space at home for electronics project relating to the work you, K and the other guy does. I even dug out my 3d printer and cleaned it up because your work inspires me. When I started following you guys I hadn't a clue, but even things like the explanation paper you send along with the PWM module that explains what everything does regarding pulse motors has increased my understanding in this subject. So keep up the good work and know that your Subscribers are here to stay. Thank you sir for the reply.😀
I appreciate your kind words. You wouldn't believe the venom some people throw my way.
@@redesign3dp I believe Tesla had the same problem. Too bad they didn't realise he was sharing a treasure.
Yeah. With all our intelligence, ignorance is humanitys curse.
Excellent, I'm wondering if this could help in an application I'm working on...
I'm sure it could. The cap dump and the battery voltage is settable with 1w zener diodes. So this will fit many applications.
@@redesign3dp I have a 24 Volt (two 12V) in series batteries that I need to recharge each at 12Volt naturally 1 at at time with a quick switchup. the only thing I could think of was maybe an Arduino R3 switching the charge real quick.
Thats a project in the works. I will use a micro arduino (samd21 xaio) to control a gear motor to actuate heavy duty relays. It will incorporate stop switches.
Looking forward to buying your creation bro ! You deserve the reward
Thanks man, it more about me funding my larger ambitious ideas.
What if you made a pulsed dc motor with capacitor burst discharges.
Also you could charge capacitors in parallel and discharge them in series as a capacitor converter. Though if you had a pulse motor a mechanical switch could discharge capacitors or batteries in series then parallel for high current and voltage.
On the to do list for sure.
See what I'm planning on doing is
buying a wind turbine 800w output,
taking the blades off and
connecting that shaft to my pulse motor.
so my pulse motor does what wind would normally do spin, i doubt my next motor will be over 12watts input, for the 800watt out,
how isnt that overunity? If its 12v out and designed to keep a12v battery charged surely it'll run forever until it burn out
If you want PCB’s made, send me a schematic. I will gladly make you a PCB for a small fee. Looks pretty cool, keep up the good work!
Thanks, but I've been using easyEDA and sending my Gerber files to JLPCB. They comeback supercool.
See dude it doesn't make sense you put out more watts than you put in. Well I guess for a shorter time? U explained nothing about the circuit really.
Sorry about that, it was a follow up to an earlier video that should have been tagged at the end. But you basically explained it. Capacitors or condensers can charge up fairly fast then discharge quickly with nice amps. Subscribe if your interested, I was just showing that I converted the breadboard version to perf board, the next stage is a pcb.