Sunday, December 27, 2015

Makevention 2015


Makevention went really well! I was able to show everything I have been working on, although I didn't have time to finish everything. I made a poster board explaining some concepts related to calculators like RPN, BCD, and CORDIC on the left side with information about my RPN Scientific Calculator on the right. I also had a print out of how my external RAM preprocessor works. A few of the people who came by my table were programmers and understood the solution.

On the table itself I had different calculators and projects laid out in roughly chronological order. The first was an MK-61 RPN calculator I added to my collection over 10 years ago. Of course I didn't make it but I wanted to show an example of an RPN calculator and what inspired me to first make calculators. When I first got the calculator out to test it, it didn't show anything on the screen and I was afraid it was broken. I took it completely apart and looked for burst capacitors. I also brushed off the battery contacts since they didn't look very clean. When I turned it on, it still didn't show anything but when I pressed a number it showed up! It seems the calculator just doesn't display anything when first turned on, instead of the zero I was expecting. Somehow I had forgotten that in the 10 years its been since I last used it.

The Casio Algebra FX 2.0 was included to show the RPN stack program I wrote for it in 2002 or so. That program was designed to make the calculator function more like the HP-48GX I had at the time which I admired so much. First, I had to buy a calculator to replace the Algebra FX 2.0+ I sold in college. Loading the program onto the calculator took quite a while to figure out! In 2002 I used a serial cable, which I think was an SB-87, to load programs without any trouble. Nowadays I don't have a serial port, so I bought an FA-124 USB cable. It turns out that this cable doesn't work on Windows 7. I also couldn't get it to work correctly under Windows XP running in an emulator. Next I tried a lot of different third-party software and finally got the program to load using FlashCOM 1.4v and an FTDI cable. For the link port I bought a 2.5mm plug that I could easily wire to the FTDI cable. After that, the program I loaded kept crashing and I thought the transfer was corrupt. After more fiddling I got Turbo C up and running in an emulator and compiled the program source myself, which produced a fairly stable program that was good enough for exhibiting, although it did crash a couple times during Makevention. Someday I would like to fix the program up and make it more stable.

The next thing I showed was a launchpad hooked up to a breadboard with a button and blinking LED to show how easy it is to get started with electronics. The next step was my binary LED calculator. I soldered a coin battery holder on to the board. After that I showed the RPN Scientific Calculator and explained that it was not too difficult to move to this stage after I managed to finish the binary LED calculator. The Programmable RPN Scientific Calculator was next. I printed temporary a colored keypad on poster paper which I taped to it, but it did not work very well. Unexpectedly, the calculator showed random keypresses when I put my hand near it. All the keys were in the same column on the keyboard, which makes me thing there is a bad connection in that row of the key matrix.

Next I showed the Improved 6502 Virtual Trainer up and running on my laptop, along with the first 6502 Virtual Trainer. I also showed what I had accomplished with the 6502 graphing calculator. So far, I have most of the hardware for it installed but I am having problems keeping the buffer chips for driving the LCD at the appropriate voltage level. Maybe the pins joining the sections of the calculator together aren't making a good connection. In any case, I showed the calculator taken apart into its sections. I also showed the Logic Tool I have been using to debug the graphing calculator and the EEPROM programmer I built. The last thing I showed was the TI-86 I bought to hook up to an ESP8266. My plan was to relay text from the calculator over WiFi to a computer running Matlab or similar software to allow the calculator to solve more complex equations. I still haven't gotten the ESP8266 voltage levels to work right, but I want to finish this project when I have time.

All in all it was a great day and I really enjoyed showing the public all the things I have been working
on.

Friday, December 25, 2015

Summer Hackathon: Conclusion

The Summer Hackathon I started on in May came to an end in August when I displayed a lot of what I had been working on at Makevention. I finished some projects and abandoned some others. Here is the outcome of the projects I set out to work on.

EEPROM Computer
Progress:
Abandoned
As I mentioned in the last update, a 4-bit version of this kind of computer has already been made by someone else. In the future I may make a 32-bit version, but for the time being I am done working on this.

8-bit Homebrew Computer
Progress:
20%
For this project, I designed a lot of the opcodes and most of how I want the computer to work. The chips I want to use don't seem to be simulated anywhere, so I will have to breadboard everything to test it out. So far I have one chip working just to test how it works.

Brainfuck Microcontroller
Progress:
55%
Apart from a few counters and status LEDs on a breadboard, I started soldering some boards with double row headers to hold everything. 

Juggalo Robot
Progress:
70%
During the summer I didn't make much real progress on this project. I spent most of my time working on projects for Makevention instead.

ESP8266
Progress:
50%
I got an ESP8266 up and running. At first I had problems with the power supply but the chip seems to run alright with those problems solved. It also lists and connects to networks. Next, I need to connect to a server and transfer data, which will be used for a calculator project.

Wireless Breadboard
Progress:
Failed
This project was a failure. First of all I made a mistake with the spacing of the headers and it wouldn't fit the breadboard I was using. When I was working with it later I broke the entire header in half. The project wouldn't work anyway because the breadboard drops so much voltage. Unless I can find a breadboard that is much better, I don't intend to work on this project. 

ATF1508 CPLD
Progress:
Done
After a lot of trouble and replacing a bricked chip, I eventually found a way to reliably program this chip. I also soldered a board to use for testing. This should be everything I need for the project I will use it in. 

BASIC Interpreter
Progress:
30%
I also didn't make any progress on this project either. It would have been used with the Wireless Breadboard project if I had finished it. I will keep it for a later project I might need BASIC for.

LCD Programming
Progress:
50%
I got an LCD working for the 6502 Graphing Calculator project, as well as a VFD (technically not an LCD) for the Improved RPN Calculator. I did not get the LCD on the STM32F429 Discovery board working because I didn't need it for the Improved 6502 Trainer. I also haven't gotten the monochrome 5.5 inch LCD that requires -27v working yet. It will probably be easier to get a color LCD of that size instead.

Improved 6502 Trainer
Progress:
Done
I finished just about everything I wanted to for this project. It is much faster than the first 6502 Trainer. I will use it to develop for the 6502 Graphing Calculator.

Improved RPN Calculator
Progress:
95%
I finished almost everything for this project except a permanent keypad. I also renamed the project "Programmable RPN Calculator." The keystroke programming can repeat keystrokes, but it can't do any testing or branching. I will add those features eventually, but not in this version of the hardware. I shrank the size of numbers from 255 bytes down to 140. This lets me store all the temporary registers used during calculations on the chip, which makes calculations about five times faster. When I make a keypad I will be finished.

Thursday, December 24, 2015

RPN Scientific Calculator on Hackaday

In August my RPN Scientific Calculator was featured on Hackaday in Hacklet 70 - Calculator Projects. It was really great to see my project on Hackaday! There was also a small scientific calculator running a 6502 emulator, a KIM-1 replica with a calculator form factor, and a project called CalcHack that adds functionality to TI graphing calculators. CalcHack is an awesome idea and one thing it adds is a 2.4GHz radio. One of my ideas for Makevention was adding an ESP8266 to the inside of a TI-86, but this solution is much better! Hackaday also created a page for calculator projects where I added my RPN Scientific Calculator, Improved RPN Scientific Calculator, and 6502 Graphing Calculator.

Wednesday, December 23, 2015

Progress Update

The past few months I have not had enough time to update this blog because I had so much to do in school this semester. My laptop also stopped working properly and I haven't had time to fix it, so I have not done anything with my projects. The only thing I have done related to programming is a few problems on Project Euler, which I recommend to anyone who enjoys programming. In August, a lot of things happened leading up to Makevention. Now that I have some time during the holidays, I am going to try to catch up on some posts. Hopefully I will have more time this semester to work on projects.