It's for one of these types of BLI. This is the one I'm using for li-ion.
http://www.batteryspace.com/fuelgaug...tterypack.aspx.
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It's for one of these types of BLI. This is the one I'm using for li-ion.
http://www.batteryspace.com/fuelgaug...tterypack.aspx.
That's a nice find Sunrider.:cool::mrgreen:;)
okay. so it is for the power outputs or for the PLI/BLI? im confused. took a pic but my internet was down last night :mad: will post later today.
DJ... think of it simply as such:
* The little battery PCB... is a "driver" of sorts
* The cells are protected by this driver
* The order goes: Batteries --> PCB --> EVERYTHING ELSE
It is (literally) the driver board that is the "gatekeeper" between OTHER components and the Li-Ion cells for power. Everything else should go through the "gatekeeper" (PCB) to get to the cells.
The PCB prevents/suppresses ALL kinds of disasters:
~ Over-voltage
~ Over-drain
~ Short-circuit
~ Bad/reversed polarity
...those kinds of things. We should BE so lucky if that kind of thing was set up on other cell types. I'm not kidding--they avoid fire... explosions... and generally killing battery packs. Good stuff.
Wiring is not hard once you understand them. It's simply "input + and -" and "output + and -". :) The COMMON is for allowing a "~7.2v" setup or simply sticking with "~3.6v" setup.
Also... some PCBs can handle only ONE type of setup (i.e. only 7.2v or only 3.6v)... while others support up to ~14.4v. And to get crazier... SOME allow for larger attempts upon how much "juice" (amps) you can drain. Others... only allow a certain, lower amount.
They... ARE... DRIVERS. :)
I think I will just use protected li-ion cells.
nova star. thanks for the info but i allready new this information. ;) kal has taught me alot.
as for the two wires it was indeed for a PLI. because i took needle nose pliers and pulled it off the board because it was getting in the way. beneath it said LED. but yeah got it all soldered up and ready to go. still doing other wiring but as of i am pretty sure my wiring is sound. cant be sure till i fire it up though. soon... first test fire... soon. ;)
Yer welcome! :D
<--goes back to celebrating V-day w/ fiancee', heheh
bow chicka wow wow;)
I'd still love to see a diagram for these setups with a recharge port.
I'm was planning on doing a 7.4v 1800mah setup for my new saber with (4) 3.7v 900mah li-ions.
I understand how they should be setup in parrellel and series to dbl - dbl them, but it seems each battery has to be connected to the pcb by itself. Would I have to use 2 of these pcbs together and then how the heck would I wire that with a recharge port.... ahhhhhhh!... everytime I seem to answer one problem 3 more tend to arise, ever feel like that?
OK as I am writeing this I looked something up and it reads as so from the TCSS link to the data sheet for the 7.4v pcb Tim sells
1、B+: Connected to the second battery’s positive terminal
2、BM/COM: Connected to the first battery’s positive terminal
3、B-: Connected to the first battery’s negative terminal
4、P+: Connected to the battery’s output or the charger’s positive terminal/ positive on the recharge port?
5、P-: Connected to the battery’s output or the charger’s negative terminal
/negative on the recharge port?
Would you still use a 7.4v li-ion charger?
From what I gather here this will work for only 2 batteries correct? I'm screwed trying to do a 4 battery setup like this and I have to go back to the drawing board, or use two huge 3.6v 2600mah ones, which is something I really really don't want to do.
If I have to I have to, I wish them new nanobatteries would come out already!
P.S. is there a pcb for the setup i want to do? If so what should I google?