is this guy for real. someone introduce this fellow to some literature on series configuration and parallel. the bigger the wire = Increasein current flow {when} ran parallel.
My battery is 9.6V 11.7Ah LiFePo4. It is 27 cell battery. What setting should i use please. I keep getting low voltage or high voltage. What setting should i charge it at? What should my mAh and V be on my charger? Please help.
The old original Y cable was connecting the batteries in series, this results in a total Voltage that is twice as large as the voltage that either of the single batteries could provide. By doubling the voltage across the same load, we generate a higher current flowing through the load causing the load to work faster or possibly heat up and be destroyed. The second cable connected the batteries parallel to each other so that the voltage at the load remains the same. The primary effect of using the new cable to connect the batteries in parallel is that the total CAPACITY or available stored energy is then doubled to equal to sum of the two individual battery capacities. , or how much energy is stored within the battery, is increased by summing the individual capacities of the batteries together. This means the device will run at the proper voltage thus generating an appropriate current through the resistance of the load and will last twice as long as one battery would last.
Let's me help you out friend ohms law says that you can't increase the amps (current) with out increasing the voltage because it is directly proportional to voltage.
@@shemarismith1247 law2181 is wrong, doubling the batteries does both increase the amp hours and (total possible) power you can draw at once... obviously since it's drawing 50% from each battery. the guy in the video was only interested in amp hours, as is... everybody. I don't know what kind of current you would have to pull from it before it melted from too many amps 😩
the amps where not even metered to show an increase. You can't just guess that's what happens because voltage remains the same.
is this guy for real. someone introduce this fellow to some literature on series configuration and parallel. the bigger the wire = Increasein current flow {when} ran parallel.
Normally just put my tongue on it
My battery is 9.6V 11.7Ah LiFePo4. It is 27 cell battery. What setting should i use please. I keep getting low voltage or high voltage. What setting should i charge it at? What should my mAh and V be on my charger? Please help.
Hello.....is there any device that could increase the amperage without increasing voltage in DC circuit?.....thanks
hello what do your cord connection namns? i need to search on internet buy one adapter to meto so i can connect 2 batteries in 1
Hi Jez do you have a link for the batteries please? I’d like to do the same to run my ft290r
Joel hi Joel I got them from hobby king I’ll do a video on the batteries and what cables I use
So... Just between you and me. 1300mah charges at 1.3amps, what amps can you really "safely" charge them at?
when i charge my 5000mah batteries i charge them at 4200 and it seems to be ok ive had no problems as yet
Parallel the cable plus add a with a value of 4700uf to 10,000uf capacitor will add better current smoothing..
Wayne Wayne I’ll look into that thanks for watching
so does one cable connect in series while the other connects in parallel or am i dumb?
Brertt your not dumb I got the wrong cable it would of increased Volts not Amps
The old original Y cable was connecting the batteries in series, this results in a total Voltage that is twice as large as the voltage that either of the single batteries could provide. By doubling the voltage across the same load, we generate a higher current flowing through the load causing the load to work faster or possibly heat up and be destroyed. The second cable connected the batteries parallel to each other so that the voltage at the load remains the same. The primary effect of using the new cable to connect the batteries in parallel is that the total CAPACITY or available stored energy is then doubled to equal to sum of the two individual battery capacities. , or how much energy is stored within the battery, is increased by summing the individual capacities of the batteries together. This means the device will run at the proper voltage thus generating an appropriate current through the resistance of the load and will last twice as long as one battery would last.
You have more cord connections than sense.
Let's me help you out friend ohms law says that you can't increase the amps (current) with out increasing the voltage because it is directly proportional to voltage.
THANK S DES CREAN BELFAST IRELAND
desmond crean thanks des and thanks for watching
This is... This is... One has to be polite, and stop here... No comment further... But it is not a smart thing you got here buddy...
You are doubling the amp hours not the amps. Amp hours is the capacity where as amp is the discharge rate.
law2181 so how yu increase it
Shemari Smith increase what?
True
@@shemarismith1247 law2181 is wrong, doubling the batteries does both increase the amp hours and (total possible) power you can draw at once... obviously since it's drawing 50% from each battery. the guy in the video was only interested in amp hours, as is... everybody. I don't know what kind of current you would have to pull from it before it melted from too many amps 😩
Brilliant.. K9PAL
thanks and thank you for watching