Why even bother making a comparison between the two Firmware when one has such a glaring problem like constantly forgetting its Machine Settings? 🤨 By the time I'd be needing a 4-6Axis Machine the costs for a proper Controller not running a Firmware pulling such a stunt should be a non-issue! 😑
An esp32 alone would multiplex the entire thing over a single wire faster than the arduino can do in parallel. Plus has wifi and bluetooth and is probably actually cheaper too.
Talking about toys while (mostly) showing _real_ CNCs. Open-loop steppers are a joke; here, CNC = Computer Numerically _Commanded_ because they run totally _blind_ . "Controlled" is when you have feedback to verify that the axes are following the commands.
arduino grbl and g2core are both pretty much abandonware. sorry to say but this video is irrelevant. also, why not mention linuxcnc, grblesp32, grblhal??
What is the alternative option for GRBL?
Why even bother making a comparison between the two Firmware when one has such a glaring problem like constantly forgetting its Machine Settings? 🤨
By the time I'd be needing a 4-6Axis Machine the costs for a proper Controller not running a Firmware pulling such a stunt should be a non-issue! 😑
An esp32 alone would multiplex the entire thing over a single wire faster than the arduino can do in parallel. Plus has wifi and bluetooth and is probably actually cheaper too.
This video is a joke
Talking about toys while (mostly) showing _real_ CNCs.
Open-loop steppers are a joke; here, CNC = Computer Numerically _Commanded_ because they run totally _blind_ . "Controlled" is when you have feedback to verify that the axes are following the commands.
arduino grbl and g2core are both pretty much abandonware. sorry to say but this video is irrelevant. also, why not mention linuxcnc, grblesp32, grblhal??