Wasn't quite what I was expecting. No circuit diagram or schematic of what the change is suppose to achieve. But I was hoping for one controller - unmodified and one controller modified and the two run under identical circumstances to SHOW what the change achieves. Interesting concept though, I will have to search for videos that does this modification but with tests and results.
Dude please explain more in the description or in the videos. To me it looked like you removed the load transistors model them to process solar charge and put identical transistors back on the load or are they different and just happen to be the same size. How to then reprogram the board to allow override. Those are 75A each Trying to learn wtf you're doing but would help if you gave more info. So theybuse the same board for different models I figure. It reminded me of the perpetual energy videos for some reason. I'll keep watching though.
I have the same chargers myself. Different brand but really the same thing. The one problem I have eith all of them is that they discharge the battery more than they can charge when using panels smaller than 20W in the winter.
Put blocking diode in the positive wire of the solar panel to prevent the current from the battery to return to the panel. Cheers!!! Hope my comment is not too late .
P75NF75 ( Transistor breakdown ) Type of Transistor: MOSFET Type of Control Channel: N -Channel Maximum Power Dissipation (Pd): 300 W Maximum Drain-Source Voltage |Vds|: 75 V Maximum Gate-Source Voltage |Vgs|: 20 V Maximum Gate-Threshold Voltage |Vgs(th)|: 4 V Maximum Drain Current |Id|: 80 A Maximum Junction Temperature (Tj): 175 °C Total Gate Charge (Qg): 117 nC Rise Time (tr): 100 nS Drain-Source Capacitance (Cd): 730 pF Maximum Drain-Source On-State Resistance (Rds): 0.011 Ohm NOTE: It's still PWM and can only do so much. If the backing plate is NOT Metal you'll get tons heat build up. I assume you can safely go over the basic wattage tolerances. example 12v 120 watt ( 10 amp ) PV to under 12v 240 watt ( 20 amp ) solar PV.
no controlador pwm azuzinho de 10 ah,adicionei mais dois Mosfet zj70n78 ao circuito dele melhorou um pouco numa placa solar de 150 watts pra carregar 3 baterias automotiva de 60 ah e uma de 48 ah em paralelo somando a amperagem pra manter um sistema off grid em 12 v.
Hellow how are u good sir. The reason I m contracting u like I m newbie and would love to learn . I recently bought a new 20amp digimark inverter which is I made a mistake of try to use it with low battery and it blolew out one of the in
It blew on of this MOSFET transistors and I don't know where to get the replace and can I simple fit any type of MOSFET and how do I know which ones are mine between Ptype and Ntype
Hope you figured it out . 200 ah. Potentially 100ah if there acid.. hope you have more than one scc. If you have the panels you could be using the excess during the day and still be charged up for the night ..
You do NOT melt the solder with the iron. You heat the parts where they meet until they are hot enough to melt the solder. I saw at least two cold solder joints that WILL cause problems in the future. Good soldering is important if you want the device to last.
My solar pannel gives 19-20 volt to the controller and using 12v lead acid battery...but there is 16.8v output from load during day time. I need only 12-13v how to reduce voltage from my charge controller...plz reply😢
use dc to dc step down buck converter,, put in scc wire going to scc, scc-buck converter-scc, then adjust the voltage output of buck converter module into the volts you want
Wasn't quite what I was expecting.
No circuit diagram or schematic of what the change is suppose to achieve. But I was hoping for one controller - unmodified and one controller modified and the two run under identical circumstances to SHOW what the change achieves. Interesting concept though, I will have to search for videos that does this modification but with tests and results.
Dude please explain more in the description or in the videos. To me it looked like you removed the load transistors model them to process solar charge and put identical transistors back on the load or are they different and just happen to be the same size. How to then reprogram the board to allow override. Those are 75A each
Trying to learn wtf you're doing but would help if you gave more info. So theybuse the same board for different models I figure. It reminded me of the perpetual energy videos for some reason. I'll keep watching though.
Exellence video, Thanks for sharing and wishing all and thanks so much sir for this knowledge
Lots of detail- you must be an expert! Thanks for sharing and wishing all the very best! Peace! 😸😸🙏🙏👍👍
What mosfet did you use for the lamp? IRF4110?
As a layman, I ask what will be better than getting 2 new mosfets?
So !!! what has change from the original compared to your upgrades?
Amazing Content and Great Work
.... Would love to see more.... ❤️🥰😊❤️
Could you find a way to turn on/off a 100a solid state relay with this controller?
How is change? How Mofet you use?
I have the same chargers myself. Different brand but really the same thing. The one problem I have eith all of them is that they discharge the battery more than they can charge when using panels smaller than 20W in the winter.
Put blocking diode in the positive wire of the solar panel to prevent the current from the battery to return to the panel. Cheers!!! Hope my comment is not too late .
Berbagi yang bagus, tutorial electric yang hebat.. 🙏🙏
Yeah Sir quite impressive for humanity
Fantastic job.
Have a wonderful weekend! ♥
I hope you can afford a microphone for the next video, might give you a thumbs up & subscribe then.
P75NF75 ( Transistor breakdown )
Type of Transistor: MOSFET
Type of Control Channel: N -Channel
Maximum Power Dissipation (Pd): 300 W
Maximum Drain-Source Voltage |Vds|: 75 V
Maximum Gate-Source Voltage |Vgs|: 20 V
Maximum Gate-Threshold Voltage |Vgs(th)|: 4 V
Maximum Drain Current |Id|: 80 A
Maximum Junction Temperature (Tj): 175 °C
Total Gate Charge (Qg): 117 nC
Rise Time (tr): 100 nS
Drain-Source Capacitance (Cd): 730 pF
Maximum Drain-Source On-State Resistance (Rds): 0.011 Ohm
NOTE: It's still PWM and can only do so much. If the backing plate is NOT Metal you'll get tons heat build up. I assume you can safely go over the basic wattage tolerances. example 12v 120 watt ( 10 amp ) PV to under 12v 240 watt ( 20 amp ) solar PV.
Thanks so much sir for this knowledge impacted
Awesome job friend!
Sukriya
Can I replace P75NF75 MOSFET for all the moseft in this type of charger controller.
.
no controlador pwm azuzinho de 10 ah,adicionei mais dois Mosfet zj70n78 ao circuito dele melhorou um pouco numa placa solar de 150 watts pra carregar 3 baterias automotiva de 60 ah e uma de 48 ah em paralelo somando a amperagem pra manter um sistema off grid em 12 v.
Just awesome 👏
Nice video, keep it up, thanks :)
Great work
Yes ❤
P75NF75 ic ki amp baranor jonno bro 🫡
Hellow how are u good sir. The reason I m contracting u like I m newbie and would love to learn . I recently bought a new 20amp digimark inverter which is I made a mistake of try to use it with low battery and it blolew out one of the in
It blew on of this MOSFET transistors and I don't know where to get the replace and can I simple fit any type of MOSFET and how do I know which ones are mine between Ptype and Ntype
@@dickymoloi doesn’t it say on the mosfet datasheer? Diagram?
I need to know i have a 12v 200ah battery wth this blue control is it fine to use with this.
Hope you figured it out . 200 ah. Potentially 100ah if there acid.. hope you have more than one scc. If you have the panels you could be using the excess during the day and still be charged up for the night ..
@@byondlight😊
Good job 💞💞
Good idea !
👍👍
hatchet job
how much more power will this make it?
.
Je un problème de tension au niveau de Panaux Soleil le Panaux à 45v le régulateur et de 24v
You do NOT melt the solder with the iron. You heat the parts where they meet until they are hot enough to melt the solder. I saw at least two cold solder joints that WILL cause problems in the future. Good soldering is important if you want the device to last.
Watching this "soldering" was triggering me like crazy, it's like "No, no, no, not like that !!!" 😡😡
MOSFET number kya hai
How to modify it to higher voltage so I can run from 85V panel?
My solar pannel gives 19-20 volt to the controller and using 12v lead acid battery...but there is 16.8v output from load during day time.
I need only 12-13v how to reduce voltage from my charge controller...plz reply😢
use dc to dc step down buck converter,, put in scc wire going to scc, scc-buck converter-scc, then adjust the voltage output of buck converter module into the volts you want
@@Justine21279 thank you for your idea I will try it, but I have modified my controller using voltage regulator IC LM78012..and it's working 👍 great 💯
good
Mera cntroler amp drop karta h
😅😅😂😂
load of rubbish and guessing
USELESS VIDEO, No information, just opening and closing, 😮😮😮