According to Fluke, your AC current via jaw accuracy is 2% +/-5 digits between 10 and 100 Hz. AC current via the flex cable starts at 3.5% at the center of the loop, and rises to 5% at the edge. You left out the 3% starting point on the page above.
2% is pretty typical for a split CT. Closed loop CTs can be had in "revenue grade" at 0.3% accuracy and better, but closed loops are inconvenient for test purposes.
What's a chepo DC amp clamp, and how have you corroborated your findings?
“A man with one watch always knows what time it is. A man with two watches is never sure.”
As part of a PM operation I perform at work, I clamp meter series strings of batteries to watch DC charging current. A contractor performing the maintenance uses his own meter, and I will clamp mine at the same time to be certain things are good. They NEVER agree on the inrush current (the typical difference is in the neighborhood of 25%). To be fair, the meters seem to sample at different rates and the current is not static, and they usually come to within 10% of agreement after the current settles, but I have little faith on what amounts to not much more than a number on a display.
For the record, my contractor uses a Fluke 378 with the same 2% accuracy specs as the 381 above, but in the past he's also had a Klein (I'm not a fan). I'm using an Amprobe ACDC-52NAV, with a stated accuracy of +/-1.5%, and what appears to be a faster sampling rate (I always see higher peak readings).