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November 12th, 2009, 19:20
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#16 | ||
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vision impaired
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November 12th, 2009, 19:30
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#17 | |
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November 12th, 2009, 19:38
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#18 | ||
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vision impaired
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All effects of changing the gauge of the wiring is minimal in an AEG. Never a bad thing if you can increase the gauge but almost never necessary.
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November 12th, 2009, 19:56
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#19 |
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here is a size comparrison of the 7.4v battery to a playing card, how ever these are only 800mah batteries, I may recommend not going with parkzone for this reason. I am pretty sure you can get higher capacity ones.
Also you will need a special charger for lipos as well, they run anywhere from $30 for a cheap in car one to what ever you want to spend. Make sure it has a balancer! Edit: yes that is a wow Game card :P Silea Dawnwalker to be exact lol Edit: and if you do not understand why a 7.4v lipo performs like a 9.6v here is the answer. Its all about discharge baby. So what does the “C” rating on a lipo mean? For starters, the ‘C” in “C Rating” stands for capacity. To break it down to its simplest terms, the “C” rating is the maximum safe continuous discharge rate of a pack. If you see 10C on your battery, it means it can be discharged at 10 times that pack’s capacity. “Capacity” refers to the milliamp-hour rating of the battery, which will be listed as a number followed by mAh (2000mAh, for example). Here’s the easy way to find your battery’s discharge rate – just multiply the number from the “C” rating by the pack’s capacity. Keep in mind that 1000 milliamps equals one amp. Here’s an example, using an 11.1V – 2000mAh – 10C: 2000 milliamps = 2 amps, 2 Amps x 10 = 20 amps continuous discharge. This means that you can safely draw up to 20 amps continuously from that 11.1V – 2000mAh – 10C without doing damage to your battery. What does the "C" mean in 10C, 20C etc ? We use the designation 10C etc to mean how much a cell or pack can discharge in amps. C always equals the capacity of a cell or pack. For example. Let use a PQ31003S pack rated for 12C. In this case C=3100mah. the number before the "C" is the multiplier. so 12 x 3100 = 37200mah. to get amps we simply divide by 1000. 37200/1000 = 37.2 amps. 1000mah = 1amp. So for the above pack (PQ31003S) rated @ 12c we now know the max discharge rating is 37.2 amps. Another example: a 20C 1800mah 3S pack.=2 0What is its max rating? 20 x 1800 = 36000. 36000mah = 36000/1000 = 36amps. So the 1800 3s pack @ 20c has a max rating of 36amps. So when ever you see a C rating take the number before the letter "C" and multiply the packs capacity by it. That is it. To get amps from your new number simply divide it by 1000mah. So this battery has a 10c continuous and a 15cburst *which is what will get your motor cranking off the start* 10cX800mah= 8 amps of discharge! I do not think how ever we have an airsoft motor that would draw that much with out frying. Last edited by Dart; November 12th, 2009 at 20:53.. |
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November 13th, 2009, 00:55
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#20 |
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Not Eye Safe, Pretty Boy Maximus on the field take his picture!
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Wouldn't heavier gage wire, without a mosfet, actually increase the damage being done to your trigger contacts? Seeing as there's more current going through...
Anyway isn't it higher voltage that does all the damage? To make your gun LiPo ready depends on the gun. You can just keep your stock internals if your getting a 7.4v LiPo. My 7.4v 1600mah 20C LiPo has 20gage wire on it (so that adds alot of resistance unfortunately for me), but it puts out 930rpm on my M4 whereas my 9.6v 1500mah NIMH puts out 1000rpm |
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November 13th, 2009, 00:56
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#21 | ||
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vision impaired
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November 13th, 2009, 11:53
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#22 | ||
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GBB Whisperer
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Current is pulled, it's not pushed. VOLTAGE is pulled. Quote:
Upgrading to a larger gauge is for safety, as well as a performance boost if your load requires it. The other issue to consider, is that if your motor is actually drawing enough current to require fat ass wires, then there is something wrong with your system. A properly built AEG gearbox should never require more than 25A in a spike. Part of your thought process is correct, though. If your motor is in fact pulling a lot of current, then yes, heavy electrical arcing across the trigger contacts will burn holes in it. Voltage does damage by forcing the mechanical components to move at an extremely fast repetitive rate. If any part of the system is imbalanced (ie not enough torque or too weak of a spring), then that's when parts start to fail. |
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November 13th, 2009, 12:43
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#23 |
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Just get a li-po with a low discharge rate. Look for the "C" rating, the higher it is, the more amps the battery can give your motor. The lower it is, the less amps it will be able to provide, at the same voltage. Voltage is not the only thing to look at...
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November 13th, 2009, 17:46
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#24 |
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the C raiting is the capibilty to discharge at that rate... not the actual discharge rate. If you over discharge a lipo battery you can have bad results.
Also remember C is Xmah so you could technacly have a lower C raiting with a higher MAH and actually be higher on your discharge rate. |
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November 13th, 2009, 18:44
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#25 |
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Not Eye Safe, Pretty Boy Maximus on the field take his picture!
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And if you get a systema magnum, be sure to tune it up before using a LiPo, they're really bad for spikes and drawing current.
High quality wire is important too, I rewired my M4 from the stock G&P 14 gauge wire to high quality 18 gauge and I ended up with less resistance. |
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