Posts

Testing SKR 1.3 board with Marlin 2.0.x

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Not that I really need it but given the price I had to buy one of these units just to get a feel of it. At less than $20 it was a steal. And most of what I have seen from the board is to be liked. But, as usual, it took me a large amount of time to get everything working, as a few hurdles prevented me to succeed on the first try.

Luckily, there is a huge Marlin community and getting the software up and running was easy-peasy, once you have Atom/PlaftormIO installed (which I did). So the basic configuration is well covered on the net. The board can be powered either from the DC input (12/24V) or from the USB (jumper-selectable). 
But ... expect trouble if you are powering it from USB and attempt to configure TMC2208 UART mode. It will not work until you power the board with DC too. And it will only work if you have properly configured your firmware and set the right driver solder blob so UART is connected to pin number 4 of the driver carrier board and you have set the proper solder bl…

The art of compiling Meshlab and getting it running

I have been using Meshlab for quite a while as a powerful tool for automating 3D mesh calculations. Newer versions were not always more reliable than older ones, but mine was mostly a command-line usage more than interactive sessions so I got by.

The latest stable release is still 2016.12 and it gets my work done (though some changes were made to the command-line switches that broke some of my scripts). I have been using it on 14.04, 16.04 Ubuntu systems and lately, I wanted to use it on the 18.04 Ubuntu. But for that version, I could not find a pre-compiled binary and the versiĆ³n included with the distribution was Meshlab 1.3.3 that, you guessed it, uses a different set of command-line switches so it was not an option.

Still, there was the choice to install a binary using the snap package system, which comes included in Ubuntu 18.04 and got me a working interactive Meshlab. But the meshlabserver command was nowhere to be found. It seems someone thought it best to rename it to meshlab…

More on wireless uploading

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As usual, even best-laid plans face hardship, so now I can wireless upload g-code files to the USB memory connected to a DDCSV1.1 CNC controller. But, once I factor in not to upload a code line before I have got the remote echo of it, things get really slow. Like ten minutes per megabyte.

Yes, I wanted it to be wireless. I could accept a not so fast upload speed, but 13 Kbps is not ok as we handle files in the 1-10 MByte range usually. A few seconds is ok, but half an hour or more is not.

So I came up with yet another approach that would recycle some old-tech that I discarded years ago: There was a USB dongle that would accept an SD card and it would work as a USB pen driver but with a twist: the unit did also have wifi connectivity. So the users could access the content of the SD card wirelessly as a network disk. That was cool and made totally unnecessary (apparently) my previous work but, there was a catch: The device would work either as a pen drive (as soon as you connect it to a …

Enabling wireless uploading of jobs to a stand-alone CNC controller

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I explained a while ago how I set up a farm of CNC routers. At that time a combination of an Android tablet and an Arduino running Marlin was a good compromise for a DIY system.

Over the years, one thing that was demanded was to have controllers that are a single machine (as the USB cable from the tablet to the Arduino creates problems at times due to machine's vibration).

Several options are available in the marketplace of small and affordable CNC controllers that require no computer and can run jobs off a USB pen drive. No computer or tablet required. One of such a system, running Linux, with a nice display and keyboard, is the Digital Dreams units DDCSV1.1 and above.


I bought one unit a couple of years ago but it was never used, but now I am giving it a try on a test machine, where we want to reach 5000 mm/s^2 accelerations and speeds above 30 meters per minute and the fact that unit could create step pulses at a 500kHz rate really caught my attention. It can do that not becaus…

A simple plan

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One of the things I did not like about a new printer was that the belt that moved the carriage was not laying parallel to the axis of motion (left) but at an angle, as shown in the picture below (right):


Such a belt path is not right as for each inch of motion in the axis a slightly different amount of belt is moved (the hypotenuse of a triangle instead of its long side). Most of the time, the angle is so small the difference is tiny. That is why the arrangement works and printers are printing even though they have this ugly hack.

The problem is worse when the carriage is close to any of the two ends, as then one of the angles is not so small and that creates a bigger error. But the question is: how big the error can be?

Well, it took me a good part of a weekend to figure that out, among other things because wxMaxima does not like to calculate the intersection of two circles easily.

So the first thing I needed was to model the anomalous belt path in a geometric model I could calculate…

Anycubic Chiron 3D printer

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Some of my ongoing projects required a larger 3D printer and I saw a good deal on a printer that had good reviews (except for its weird bed leveling system) so I bought one off Anycubic's Aliexpress shop shipped from Germany. I got in in less than a week and putting it together took me a bit more than one hour.


It is basically two parts, shipped flat, that you place at a square angle to make a Prusa i3 like configuration.


The printer comes with all the tools you need, including the wire cutter to use to remove the zip ties that keep the bed from moving while in transit.


The 400x400 mm bed features glass on top with a special texture that does what it promises: good adhesion while hot and easy release of parts when cold.


These two brackets will reinforce the vertical axis beams fixed to the horizontal extrusions.

Once built, the manual called for a manual or automatic bed leveling. That I did not like as it seems the user has to decide which one is best. Something most may not be r…

Drawing from Inskcape using Bluetooth connection

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Some time ago I developed 4xiDraw, a 2D drawing machine using a single belt, a 3D printable clone of AxiDraw(tm) pen plotter. Instead of the EBB board they used, I opted for an Arduino-based solution, with a CNC shield and regular Pololu-like stepper motor drivers.

Initially, I started using various Inkscape plug-ins that will convert the drawing into a G-code file. Once the G-code was created, I would use the UniversalGcodeSender program to stream it to the drawing machine. That worked ok, both wired and wirelessly (using Bluetooth).

But later, a kind user named Torsten Martinsen migrated the existing AxiDraw plug-in to the 4xiDraw hardware controller. This way, plotting happened right inside Inkscape program without the need to messing with external files or other additional software. Very cool indeed!

I left the project living its own life, with a lot of users creating their own version of it and doing all kinds of interesting hacks, till I received an awkward request from a fellow…