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![Diptrace Arduino Libraries Diptrace Arduino Libraries](http://www.thebackshed.com/forum/uploads/vasi/2015-02-06_205028_freejalduino-china.gif)
Check out what Dustin has done so far here. Progress on the KiCad footprints and part libraries.He is using a Molex 105450-0101 USB Type-C that is all SMD. Parker finished up the USB Type-C test board.The BGA Escape article is complete! Read it on our blog.GitHub repository for DipTrace files are located here. Should have an article out next week about it. Stephen is currently working on DipTrace part libraries and templates for DRC and CAM file generation.that board will be made of fiberglass, and I'll be taking care when working with them. I am currently working on a Atmega328-based board that will stay in my car. The upside of working with cheap stuff is that I can experiment more, try new things, and not be worried about the costs. I'll still make some stuff with phenolic PCBs because if I make a mistake, it is cheap enough for me not to worry about the cost of the mistake. Things in the electronics hobby in Brazil are either very expensive or impossible to come by. About FR4, I have never even seem tham available in the usual stores in Brazil. Only recently I started buying fiberglass single and double-sided blank PCBs from DealExtreme, but the problem is that I still have lots of the phenolic blank PCBs. Why the phenolic material: they are a lot cheaper and a lot more available than everything else here in Brasil. Easy to work with, and I work with in 5ft away from a very large window, so I don't get to inhale any of the hazzardous fumes.Ībout the crystal, I wasn't aware of that and your suggestion is very welcome. It alone would have gained you a job at anyplace I worked at.įirst of all, thank you very much for your remarks. too.īe very proud of that board, You DID an EXCELLENT Job. It is very hazardous to burn FR4 laminate But it is very hard to do. FR4 or fiberglass has one drawback and that is that protective gear should be worn while working with which includes cutting or drilling or especially sanding or filing of the pc-board must be done while wearing a mask and goggles, drilling goggles and a painters mask are all the safety equipment required. De-lam's easily and after all that the material is hygroscopic and a health hazard if burned which includes while drilling it. Certainly not for any of it's outstanding physical attributes like poor strength, poor heat resistance. The clock will be most accurate over a long term basis if the temperature of the crystal is controlled and the simplest method is to tie the crystal case to the thermal mass of the PCB.
#DIPTRACE ARDUINO LIBRARIES PC#
One small question first though, Why not put the crystal down close to the pc board and perhaps affix it to the board. I thought I was trying to solder galvanized iron. and I tossed the whole roll, I have Never worked with solder as bad as that. I bought a half pound of the tin stuff, cost me $20+ dollars. I personally think that perhaps I've really used 2 pounds of solder in all the years I've been soldering. Personally I won't use anything but my 60/40 solder.
![Diptrace Arduino Libraries Diptrace Arduino Libraries](https://i.nahraj.to/f/23Am.png)
All your joints are consistent in appearance, properly 'filleted' and of lead solder too. Good level soldering and at the right temperature too. Overall a Very nice board and obviously you've practiced a bit. The video below shows how the shield will be ultimately used : The copper was etched in iron perchlorate for 15 minutes. The PCD was designed using Diptrace, printed on cheap magazine paper using a laser printer and then transfered to the copper plane using an iron in its hottest setting for exacty 2’30". The LCD library is from Adafruit (NewLcdLibrary), and not the stock LCD library.
#DIPTRACE ARDUINO LIBRARIES UPDATE#
In the final project I’ll be using this EEPROM to store settings (like LCD contrast, update interval, etc), while the Atmel 1Mbit EEPROM will be used to store the data being logged. To work with the DS1624, I modified the library from Federico and Riccardo Galli to add a few more options to it and also to enable R/W from/to the DS1624’s built-in EEPROM (256 bytes). I did it this way because other shields may use the Arduino’s pins 2 and 3. Red jumper: enable/disables RW on the EEPROM chip.īlue jumpers: enable/disables the interrupts from the DS1337+ in the Arduino’s INT0 and INT1 pins. The jumpers have the following functions: The purpose of the project was to create a temperature data logger for the server room I run, using Arduino, and at the same time have an interface that was both efficient and ease to use.Įverything runs on the I 2C bus, which is connected to the UNO’s pins A4 and A5. Without the valuable help of users of this forum, this project wouldn’t be completed as fast. I’d like to share with you the completion of my first homemade Arduino shield.
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