I have (so far) used two different ESC ICs: LAN9252 and Ax58100. Both work, I can't really see a difference. The Ax58100 has a leg spacing of 0.4 mm, 0.5 mm for the LAN9252, if that matters. On paper the Ax58100 has more builtin functionality like stepper motor drivers, but the documentation is lacking. Or my understanding of the documentation is lacking. The LAN9252 is the true and tested IC of the two. If you don't know, go for the LAN9252.

I learned most of what I know about EtherCAT through a number of Youtube Videos I made. There are accompanying git branches. For example, for video 8 you can check out the Video8 branch to get the software tree in the state at the video. More info on the videos, which are now more of historical interest, but also a bit of learning by following this link

EaserCAT 2000 - a testbench for ESC+MCU, SOES, stepper generator, linuxcnc

This was the first card that got used in Linuxcnc. Follow link here I think I got it working pretty well in the end. There was, and still is, an issue with synchronization between the linuxcnc servo-loop and the ESC DC loop. I don't remember the status of it anymore, it was some time ago I worked with it. The main thing was that it lacked optocouplers and isolation for the external signals.

EaserCAT 3000 - All in one board with Ax58100

This card is an evolution of the EaserCAT 2000 and was intended to be used in my plasma cutter. It features four stepper driver outputs, input for a THCAD arc voltage card, an encoder, an analog output (for spindle +- 10V), eight digital inputs, four digital outputs, plus some 12 I/O for any possible extension. The IOs are isolated from the MCU.

However, I couldn't get this card to work, almost at all. The Ax58100 didn't even load the eeprom. Struggling with the documentation for the Ax58100, which formed my negative opinion about that, I gave up and let it sit for over half a year. It was first when someone came and asked questions around it I had another look. I built a new board, and it all started to work. At time of writing it all seems to work. Link here

EaserCAT 4000 - THCAD reader

Faced with the problems with the EaserCAT 3000 board, and still wanting to use EtherCAT in my upcoming plasma cutter, I made this board whos single purpose is to read the PWM frequency from Mesa's THCAD board.
The THCAD board reads the voltage between the plasma torch and the workpiece which is around 100V. Highly isolated, and with a voltage to frequency converter it delivers a differential pwm signal. The frequency of this signal can be related to the voltage.
That's what is needed for linuxcnc torch height control.\

In the tests on the bench this can read at least up to 200 kHz, but its's better to be below 100 kHz. The THCAD has a frequency divider one can set to make the frequency range nicely match this. It seems to work fine so far. Implementation is with interrupts.
A better option would have been to use TIM2's PWM_INPUT function, which can work with several MHz frequency. I tried the PWM_INPUT method a lot but couldn't get it to work. The current method still works, though. If time and interests are in phase with the moon, I might look at PWM_INPUT again. Link here

EaserCAT 5000 - Digital IO without MCU

A card, just doing Digital Input and Digital Output. The intentions are to read limit switches and some other switches around the plasma torch. And to switch on the plasma torch.

It's a single LAN9252, configured for local IO. Optocouplers are attached to IO pins for isolation. At point of writing it has not been run yet. Still waiting for parts. Link here

License

Don't violate the original licenses. No warranties. Use it any way you like.
Remember: It is a hobby project, not a product.

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