markz
100 TW
My main goal is to find a proper battery pack for a dual setup I want to do. Because I cant afford a big battery pack right away, I want to do it in 2 stages.
I will explain later. There is a lot of thinking out loud, so its a long post. Any help in deciding would be greatly appreciated. Thanks
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Lyen 18fet 65A
http://endless-sphere.com/forums/viewtopic.php?f=31&t=16605
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First off, some basic questions.
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I got a question, to increase discharge rates, do I increase Ah in the pack by paralleling.
So if theres a specific C-Rating (Constant and Peak), I go C-rate(peak) times Ah, gives me Max Discharge Amperage of batteries/battery pack?
Likewise with C-rate constant x Ah = Max Constant Amp Draw?
The formula I was using is (C-Rating) X (AH) = Maximum Constant Amp Draw
If the C-Rating stays the same on battery packages, then all I can do is increase Ah to increase max amperage.
The reason I ask, is because I've been eye'ing the BMS Batteries, which states on their High C Li-Ion, 30A cont. and 60A max.
So by putting 2 in parallel, is the discharge rate then 60Acont. and 120Amax? Or is it dependant on C-rating which they do not give.
All they give is a continuous discharge rate, and a maximum discharge rate. Another set of battery packs are rated as 50A cont. and 100A max.
This then begs the question, if these have BMS's, I put two seperate ones in series.... then the BMS's would still limit the current at 30A/60A or 50A/100A.
Because wouldnt the amperage of the first pack, add to the second? Thus the one of the BMS's would kick in, limiting the current to 30/60 or 50/100 depending on BMS?
If these packs did not have BMS's, then would my "theory" hold true?
-----------
On my MXUS 3000W v2 4504, I want to stay away from the 96V mark for safety reasons primarily and run, in the end, 72V or 84V(mods maybe required on the Lyen 18fet for 84V) with two 36V of the same Ah from BMSB in series for 72V. Or 48V+36V in series of same Ah for 84V.
Will serializing these packs be a problem? This relates back to previous question.
In the end, I want to get the most out of my ebike.
-----------
So as for battery packages, which I want to buy sooner then later;
Their regular shrink wrap packs are 15A cont. and 30A max. Which are dirt cheap, but too low an amperage for me.
Next in line are the "High C-Rate Polymer LiFePO4" which are 30A cont. and 60A max. This set, doesnt have a cell (name/#) attached to it. Just Polymer LiFePO4.
48V these give me 1440W cont. and 2880W max. (Just one 48V pack)
72V these give me 2160W cont. and 4320W max. (36V + 36V)
84V these give me 2520W cont. and 5040W max. (48V + 36V)
96V these give me 2880W cont. and 5760W max. (48V + 48V, but like I said 96V might be a bit too much as far as safety and speed goes, but speed is controlled by CA)
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Specs/Prices for 30A cont. and 60A max. packages...
48V10Ah $259 https://bmsbattery.com/ebike-batter...-pack-battery.html#/voltage_capacity-48v_10ah
36V10Ah $209 both "shrink wrapped this one and the above one" <^Both of these do not come with a charger.
High Rate 48V 10Ah in Case $319 https://bmsbattery.com/ebike-batter...fepo4-alloy-07-case-battery-pack-battery.html
The one above comes with a S180 charger, at 48V is 3A.
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Even with the (84V) its not using the full potential of my MXUS 3000W v2 4504 motor (3kw-6kw) and Lyen Controller 65A. I believe 65A to be the very max. on the Lyen 18 fet controller. I dont think I can go above 65A at all, not even pulse or a short time. Otherwise I have to beef up traces and/or upgrade resistor network for voltage regulator. Maybe even change it in the software, I do not know, I have no clue.
However saying that, these battery packs are well within the specifications of my Lyen 18fet 65A controller. With no mods to do at all.
-----------
I'm not a speed freak, but I do love torque for climbing hills. I could decrease the diameter of the wheel......or.......
So if V=Speed, then is A=torque?
I might have to go and find that thread where John in CR was talking about that. It escapes me now.
-----------
BMSB do sell a battery pack, rated at 50A cont. and 100A max, but its a little more expensive, ~$80 for same Ah rating. This brings into question a concern, if I have the Lyen 18fet rated at 65A, then for this I will have to beef up the trace, shunt, and reprogram it via the software as per Lyens specs. Anyway here are the numbers for 50A/100A.
48V these give me 2400W cont. - 4800W max, so much more improvement over the 30A/60A numbers.
72V these give me 3600W cont. - 7200W max, this seems to be the sweet spot I think for the MXUS 3000W v2.
84V these give me 4200W cont. - 8400W max. <--Overpowered, may need to change the resistor network to avoid damage to the voltage regulator on my Lyen 18fet Controller as per Lyens specs.
48V 15Ah 40252S cells $459(Below)
https://bmsbattery.com/ebike-batter...-pack-battery.html#/discharge_current-50_100a
48V 12Ah 38140 cells $381(Below)
https://bmsbattery.com/ebike-batter...-pack-battery.html#/discharge_current-50_100a
48V 10Ah 38120 cells $323(Below)
https://bmsbattery.com/ebike-batter...-pack-battery.html#/discharge_current-50_100a
48V 20Ah 38120 $575(Below)
https://bmsbattery.com/ebike-batter...2-cells-2p16s-ebike-battery-pack-battery.html
Then there is the 38120 and 40152S LiFePO4 cells to decide on as well. I really have no clue the difference between the two.
It doesnt specifically say that the battery pack has a BMS, but by this statement
Can I assume that it must have a BMS?
-----------
2 Stage explanation. To begin my serializing of 2 packs. I thought I might buy a lower wattage 36V-48V controller from BMS Battery or Aliexpress, to use on my MXUS 3000W v2 4504 motor, until I have enough money to buy a second 36V or 48V pack to make it 72V or 84V, I do not want 96V. But 72V is ideal for my Lyen 18fet. All I can afford right now is one battery pack either a 36V or a 48V battery pack in the 10-15Ah range. And I really do want to get riding again. I think ideally I start off buying the 48V in the 10 or 15Ah range, and 50A/100A, along with a 48V controller, which I can use later on for a more suitable, tamer setup. Perhaps a 1000W or 1500W Leaf or Geared. I had in my sights the bbs02 as a secondary ebike setup, but I think its too little power, the 1500W $800 motor someone sells as a bottom bracket motor looks awesome, but waaaay too much $. But thats later on, I think I have to kind of think ahead as to what I want next to save money in the end. And I think a 48V first pack is good for a wider range of higher powered (more so then average) motors. This gets me thinking, again, The 96V setup with two 48V 10Ah are looking more appealling, because I could for a 2nd more tamer ebike, have a 20Ah 48V setup for longer rides. Decisions decisions decisions. 96V kind of scares me a little for the mxus. I will keep pondering.
-----------
https://bmsbattery.com/ebike-kit/72...imulation-sine-wave-controller-ebike-kit.html
I was thinking this one, because I can use it at 36V and 48V. But everyone they sell is a simulation, which PAS is needed so I dont know if I can disable it and everything will work fine. Or I just go and buy a 48V controller from Greentime off Aliexpress. 1000W or 1500W. Then later on, I can use that controller for a more modest motor, like I was saying.
-----------
Plan A - Buy a either a 48V 1000W(20A) or more suitably a 1500W(30A) controller, hooked up to my MXUS 3000W v2 4504, with my CA3-DP, and the 48V10Ah 50A/100A battery pack, which I can limit the wattage by the CA3-DP.
Then when I want a more tamer ebike, buy a suitable motor, use the 48V 1500W 30A Controller, a 48V 10Ah pack. One ebike is for speed, offroad. 2nd ebike for cruising.
THEN LATER, for a 84V pack.....48V + 36V in series......I'd stick with the same discharge rates......
36V12Ah 38140 50A/100A $296 (Below)
https://bmsbattery.com/ebike-batter...-pack-battery.html#/discharge_current-50_100a
36V10Ah 38120 50A/100A $251 (Below)
https://bmsbattery.com/ebike-batter...tery-12-cells-ebike-battery-pack-battery.html
36V20Ah 38120 50A/100A $440 (Below)
https://bmsbattery.com/ebike-batter...-pack-battery.html#/discharge_current-50_100a
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36V10Ah High C-Rate Polymer LiFePO4 30A/60A $209 No charger
https://bmsbattery.com/ebike-batter...battery-heat-shrink-battery-pack-battery.html
36V10Ah High C-Rate 07 Case 30A/60A $244 No charger
https://bmsbattery.com/ebike-batter...hout-charger-battery.html#/ac_voltage-90v132v
-----------
I will explain later. There is a lot of thinking out loud, so its a long post. Any help in deciding would be greatly appreciated. Thanks
-----------
Lyen 18fet 65A
http://endless-sphere.com/forums/viewtopic.php?f=31&t=16605
-----------
First off, some basic questions.
-----------
I got a question, to increase discharge rates, do I increase Ah in the pack by paralleling.
So if theres a specific C-Rating (Constant and Peak), I go C-rate(peak) times Ah, gives me Max Discharge Amperage of batteries/battery pack?
Likewise with C-rate constant x Ah = Max Constant Amp Draw?
The formula I was using is (C-Rating) X (AH) = Maximum Constant Amp Draw
If the C-Rating stays the same on battery packages, then all I can do is increase Ah to increase max amperage.
The reason I ask, is because I've been eye'ing the BMS Batteries, which states on their High C Li-Ion, 30A cont. and 60A max.
So by putting 2 in parallel, is the discharge rate then 60Acont. and 120Amax? Or is it dependant on C-rating which they do not give.
All they give is a continuous discharge rate, and a maximum discharge rate. Another set of battery packs are rated as 50A cont. and 100A max.
This then begs the question, if these have BMS's, I put two seperate ones in series.... then the BMS's would still limit the current at 30A/60A or 50A/100A.
Because wouldnt the amperage of the first pack, add to the second? Thus the one of the BMS's would kick in, limiting the current to 30/60 or 50/100 depending on BMS?
If these packs did not have BMS's, then would my "theory" hold true?
-----------
On my MXUS 3000W v2 4504, I want to stay away from the 96V mark for safety reasons primarily and run, in the end, 72V or 84V(mods maybe required on the Lyen 18fet for 84V) with two 36V of the same Ah from BMSB in series for 72V. Or 48V+36V in series of same Ah for 84V.
Will serializing these packs be a problem? This relates back to previous question.
In the end, I want to get the most out of my ebike.
-----------
So as for battery packages, which I want to buy sooner then later;
Their regular shrink wrap packs are 15A cont. and 30A max. Which are dirt cheap, but too low an amperage for me.
Next in line are the "High C-Rate Polymer LiFePO4" which are 30A cont. and 60A max. This set, doesnt have a cell (name/#) attached to it. Just Polymer LiFePO4.
48V these give me 1440W cont. and 2880W max. (Just one 48V pack)
72V these give me 2160W cont. and 4320W max. (36V + 36V)
84V these give me 2520W cont. and 5040W max. (48V + 36V)
96V these give me 2880W cont. and 5760W max. (48V + 48V, but like I said 96V might be a bit too much as far as safety and speed goes, but speed is controlled by CA)
-----------
Specs/Prices for 30A cont. and 60A max. packages...
48V10Ah $259 https://bmsbattery.com/ebike-batter...-pack-battery.html#/voltage_capacity-48v_10ah
36V10Ah $209 both "shrink wrapped this one and the above one" <^Both of these do not come with a charger.
High Rate 48V 10Ah in Case $319 https://bmsbattery.com/ebike-batter...fepo4-alloy-07-case-battery-pack-battery.html
The one above comes with a S180 charger, at 48V is 3A.
-----------
Even with the (84V) its not using the full potential of my MXUS 3000W v2 4504 motor (3kw-6kw) and Lyen Controller 65A. I believe 65A to be the very max. on the Lyen 18 fet controller. I dont think I can go above 65A at all, not even pulse or a short time. Otherwise I have to beef up traces and/or upgrade resistor network for voltage regulator. Maybe even change it in the software, I do not know, I have no clue.
However saying that, these battery packs are well within the specifications of my Lyen 18fet 65A controller. With no mods to do at all.
-----------
I'm not a speed freak, but I do love torque for climbing hills. I could decrease the diameter of the wheel......or.......
So if V=Speed, then is A=torque?
I might have to go and find that thread where John in CR was talking about that. It escapes me now.
-----------
BMSB do sell a battery pack, rated at 50A cont. and 100A max, but its a little more expensive, ~$80 for same Ah rating. This brings into question a concern, if I have the Lyen 18fet rated at 65A, then for this I will have to beef up the trace, shunt, and reprogram it via the software as per Lyens specs. Anyway here are the numbers for 50A/100A.
48V these give me 2400W cont. - 4800W max, so much more improvement over the 30A/60A numbers.
72V these give me 3600W cont. - 7200W max, this seems to be the sweet spot I think for the MXUS 3000W v2.
84V these give me 4200W cont. - 8400W max. <--Overpowered, may need to change the resistor network to avoid damage to the voltage regulator on my Lyen 18fet Controller as per Lyens specs.
48V 15Ah 40252S cells $459(Below)
https://bmsbattery.com/ebike-batter...-pack-battery.html#/discharge_current-50_100a
48V 12Ah 38140 cells $381(Below)
https://bmsbattery.com/ebike-batter...-pack-battery.html#/discharge_current-50_100a
48V 10Ah 38120 cells $323(Below)
https://bmsbattery.com/ebike-batter...-pack-battery.html#/discharge_current-50_100a
48V 20Ah 38120 $575(Below)
https://bmsbattery.com/ebike-batter...2-cells-2p16s-ebike-battery-pack-battery.html
Then there is the 38120 and 40152S LiFePO4 cells to decide on as well. I really have no clue the difference between the two.
It doesnt specifically say that the battery pack has a BMS, but by this statement
Can I assume that it must have a BMS?
-----------
2 Stage explanation. To begin my serializing of 2 packs. I thought I might buy a lower wattage 36V-48V controller from BMS Battery or Aliexpress, to use on my MXUS 3000W v2 4504 motor, until I have enough money to buy a second 36V or 48V pack to make it 72V or 84V, I do not want 96V. But 72V is ideal for my Lyen 18fet. All I can afford right now is one battery pack either a 36V or a 48V battery pack in the 10-15Ah range. And I really do want to get riding again. I think ideally I start off buying the 48V in the 10 or 15Ah range, and 50A/100A, along with a 48V controller, which I can use later on for a more suitable, tamer setup. Perhaps a 1000W or 1500W Leaf or Geared. I had in my sights the bbs02 as a secondary ebike setup, but I think its too little power, the 1500W $800 motor someone sells as a bottom bracket motor looks awesome, but waaaay too much $. But thats later on, I think I have to kind of think ahead as to what I want next to save money in the end. And I think a 48V first pack is good for a wider range of higher powered (more so then average) motors. This gets me thinking, again, The 96V setup with two 48V 10Ah are looking more appealling, because I could for a 2nd more tamer ebike, have a 20Ah 48V setup for longer rides. Decisions decisions decisions. 96V kind of scares me a little for the mxus. I will keep pondering.
-----------
https://bmsbattery.com/ebike-kit/72...imulation-sine-wave-controller-ebike-kit.html
I was thinking this one, because I can use it at 36V and 48V. But everyone they sell is a simulation, which PAS is needed so I dont know if I can disable it and everything will work fine. Or I just go and buy a 48V controller from Greentime off Aliexpress. 1000W or 1500W. Then later on, I can use that controller for a more modest motor, like I was saying.
-----------
Plan A - Buy a either a 48V 1000W(20A) or more suitably a 1500W(30A) controller, hooked up to my MXUS 3000W v2 4504, with my CA3-DP, and the 48V10Ah 50A/100A battery pack, which I can limit the wattage by the CA3-DP.
Then when I want a more tamer ebike, buy a suitable motor, use the 48V 1500W 30A Controller, a 48V 10Ah pack. One ebike is for speed, offroad. 2nd ebike for cruising.
THEN LATER, for a 84V pack.....48V + 36V in series......I'd stick with the same discharge rates......
36V12Ah 38140 50A/100A $296 (Below)
https://bmsbattery.com/ebike-batter...-pack-battery.html#/discharge_current-50_100a
36V10Ah 38120 50A/100A $251 (Below)
https://bmsbattery.com/ebike-batter...tery-12-cells-ebike-battery-pack-battery.html
36V20Ah 38120 50A/100A $440 (Below)
https://bmsbattery.com/ebike-batter...-pack-battery.html#/discharge_current-50_100a
-----------
36V10Ah High C-Rate Polymer LiFePO4 30A/60A $209 No charger
https://bmsbattery.com/ebike-batter...battery-heat-shrink-battery-pack-battery.html
36V10Ah High C-Rate 07 Case 30A/60A $244 No charger
https://bmsbattery.com/ebike-batter...hout-charger-battery.html#/ac_voltage-90v132v
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