Update:
I sent a message to Golden Motor Support about the EZKontroller's support for the 10KW BLDC motor. The thread is below. I'm not sure why I'd need anything close to 800 amps of phase current since the 48v motor only appears to support 400 amps max.
Message to Support:Hi there,
I have a 48v 10KW BLDC motor. I have two questions:
1. If I wanted to use the 48v EZkontrol, would the EZkontrol B481000 model be the correct choice?
2. Is there any disadvantage to using this controller over the VEC500?
Response:Thanks for reaching out. Here are the answers to your two questions:
1) Yes, the EZkontrol B481000 is rated for 10kw motors. It has a max phase current of 1000 Amps.
If you don't need that much power, you could move down one level to the EZ-B48800 which has a max phase current of 800 Amps.
2) One feature of the EZkontrol controller that could be counted as a disadvantage depending on your setup is that it is programmed using a mobile app instead of with a USB cable.
This wouldn't be a disadvantage, but programming is only supported on the android mobile app at the moment, and not the iOS mobile app.
In the description of this product page there is a lot of additional information about the controller. We also made the purchase options simpler.
https://goldenmotor.bike/product/ezkontrol-48-volt-universal-bldc-controller/Follow up response:I just wanted to send an update on this ticket.
Programming the EZKontrol is possible with iOS, we are planning to make a video for it soon to show how to program the controller. So, Android and iOS programming is supported via Bluetooth, but it is not possible to program with a computer.
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I took Bikemad's advice and bought a water-cooled heat sink for the VEC500 controller because it was cheaper than buying the EZKontroller. My theory was that the firmware would step up the amperage to the motor incrementally so long as it was operating below it's temperature threshold since this is how it worked when it overheated. Unfortunately, after running it for 20 minutes that's not what happened.
When I reached 200 amps previously, I had the stock prop on the Ray Electric Outboard lower unit. On this test run and some others before it, I was using a much larger and higher pitch 14x18 three blade prop. It has much more bite and I was hoping it would propel the boat at the same speed at a lower motor RPM in an effort to pick up some efficiency since the motor has so much torque. Since it hasn't worked, I'm going to try putting the old prop back on to see if it makes any difference. I can't imaging why a larger prop would prevent the max amp draw by the controller/motor, but we'll see. If that doesn't work, I'm out of ideas as to what's limiting the amp draw. I highly doubt it's the batteries because I'm running three 48v LiFePO4 120Ah batteries in parallel each capable of putting out 120 amps of continuous current meaning the bank can put out 360 amps of continuous current. Even if they were cold I would think they'd be able to at least put out 200 amps especially since I was able to pull 200 amps earlier this year when it was the same temperature or cooler. Nevertheless, I'll report back in the summer if I don't learn anything before then.
