Quote:
Originally Posted by Thomas Porfert
I don't know if we've run the numbers on these yet, but I'm guessing they are ~400-450 watts continuous, and ~800-900 watts surge. Looking at the specs on a Neu 1509, it is rated at 500 continuous and 1000 surge. So I doubt a shorter and smaller diameter motor can handle more power. Pat may have some data to back this up, as I am just assuming based on the 1509 specs.
Thomas Porfert
Castle Tech Support
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When you guys say "~400-450 watts continuous", what does that mean?
a) You can run them with enough load so that they are putting out 400-450 watts for "X" minutes [fill in "X"]
b) You can run them with enough load so that they are putting out 400-450 watts until you dump the typical 5000-6000 mAHr 2S LiPo battery that fits in a 1/10th scale RC car at which point the motor is almost toasted
c) If you had a 6 ounce miniature nuclear reactor that fit in an RC car and put out 8.4V at 65 amps and would run 2 years between refueling, you could run it at the max load of the reactor (figuring 85% efficiency on the motor), stopping only to lubricate the bearings if/when needed, until the reactor needed refueling 2 years from the date you started the test (anyone remember the IB Infineon PDF sheet (joke) from a few years ago?)
d) [you fill in this alternative]
I'm just trying to get a feel for how long "continuous" is supposed to mean and under what conditions of temperature and cooling/heat sinking.
Also, how long can it run at the "surge" rating?