সাজিদের পাতা

Copy HTML:

If you like this then please subscribe to the RSS Feed.

This tutorial shows you how to create circuits in Proteus Isis, simulate them and then create PCB with Proteus.

Proteus is software for microprocessor simulation, schematic capture, and printed circuit board (PCB) design. It is developed by Labcenter Electronics.
The Proteus Design Suite inludes:
* ISIS -- A schematic capture tool with the possibility to simulate programmable ICs like Microchip PIC, Atmel AVR (ATmega8, ATmega32, or ATtiny2313) etc.
*ARES -- for PCB layouts.

The URL for Proteus is http://www.labcenter.co.uk/

Unfortunately, there are few / no good tutorials for Proteus out there, and therefore I took the trouble of making one myself. The tutorial has 3 parts. First part demonstrates Drawing circuits in Proteus Isis. Second part shows how to simulate circuits in Proteus ISIS, and how to export to ARES for making PCB layout. The third video shows Routing and how to print masks for PCB making.

বুকমার্ক

Close Bookmark and Share This Page

Copy HTML:

If you like this then please subscribe to the RSS Feed.

http://www.esnips.com/web/USBASP/

এই মাস্ক গুলো থমাস ফিচ্যাল এর বানানো ইউ এস বি প্রোগ্রামার এর জন্য আমি বানিয়েছি। (http://www.fischl.de/usbasp/)

I used series resistors with MOSI MISO SCK and RST lines. They are used for protection of the ATmega8 of the programmer. They can be replaced with short circuits like the original design.In my design, the resistors probably causes some rise time issue, so the programmer will not work unless the slow sck jumper is shorted out. And power is not drawn from the USB port, and taken from the external circuit. Reversing polarity of Vcc and GND will certainly cause the programmer to die. I included a Zener Diode in my design to limit the reverse polarity voltage, but don’t know how effective it would be. I’ll try to make another design with 5 wire-output, that draws power from USB port.

বুকমার্ক

Close Bookmark and Share This Page

Copy HTML:

If you like this then please subscribe to the RSS Feed.

Finally I could get my USB programmer to work with windows vista. Firstly, I stripped of the breadboard from all previous connections, and reconnected the circuit. This ofcourse proved fatal to two of my microcontrollers, as I accidentally connected +12V to Vcc rail, instead of the input to the 7805 IC. I connected the programmer to PC, and it said unknown device. I knew I connected the D+ and D- wires from USB port wrong. The final bread board looks like this:

So I swapped them and replugged the USB. This time the device was recognised as usbasp, and windows vista asked for driver. I supplied the libusb driver given with the fischel’s package (http://www.fischl.de/usbasp/). Windows said something about device compatibiliy. I chose to ignore, and the device installed successfully.

Now I opened command prompt and typed avrdude -c usbasp -p t2313

Command prompt returned error: could not find USB device “USBasp” with vid=0x16c0 pid=0x5dc

I tried to search the forums. They suggested to use 2007 build of winavr, I tried that (replaced avrdude.exe in the C:\winavr\bin directory with the 2007 version). Some of them also suggested to use an older version of libusb. So I did that too. After spending an hour, I did some thing I should have done a long time ago. I clicked on the orb (start), typed ‘cmd’, so Vista start menu searched cmd.exe. I right clicked on it and selected “Run as Administrator”. Now when I typed

C:\Windows\system32>avrdude -c usbasp -p t2313

found 8 busses

avrdude: AVR device initialized and ready to accept instructions

Reading | ################################################## | 100% 0.02s

avrdude: Device signature = 0x1e910a

avrdude: safemode: Fuses OK

avrdude done. Thank you.

Wow, the device actually worked!! I tried several times and it was working. I started the AVR8-Burn-O-Mat and changed some settings.

Burn O Mat seems to work fine too. Just too bad it doesn’t have the buffer of ponyprog, and the hex display. It is just great otherwist, and has a lot better fusebit editor.

বুকমার্ক

Close Bookmark and Share This Page

Copy HTML:

If you like this then please subscribe to the RSS Feed.

http://sajiduc.blogspot.com/2008/04/beginners-microcontroller-programming.html

Ok, before I startered this project, I tried to construct the USBasp and USBtiny, and was not successful with bread board. I am planning to make a better version of the USBasp in PCB, but at the moment I tried to make a really small SI Prog. It will be so small that the entire veroboard will fit into a standard serial port connector casing. I just bought one from Patuatuli:

To fit the veroboard into the small casing, you can maximum fit a 6×6 hole veroboard piece into it, by properly polishing the sides, the central piece could be two hole longer. As the header is inserted into the box, the backside of the header blocks the first row. With only five holes, I thought, at first it would be impossible to fit my circuit (http://sajiduc.blogspot.com/2008/04/beginners-microcontroller-programming.html) here.

Then it occured to me, if I used the extra holes in the middle row to connect the densedly connected ground line, and use the ends of resistors to get connection from the MOSI, SCK, and RESET lines, it will be possible to accomodate the circuit in the header box. And so, here it is, I present you the smallest possible (with non-SMT components) SI Prog. It supports most popular microcontrollers like ATmega16, ATmega32, ATmega8, ATtiny2313, but you probably already know that from my third blog. Circuit diagram is available there:

বুকমার্ক

Close Bookmark and Share This Page

Copy HTML:

If you like this then please subscribe to the RSS Feed.

I’ll give you the circuit description and codes later.

বুকমার্ক

Close Bookmark and Share This Page

Copy HTML:

If you like this then please subscribe to the RSS Feed.

We are now working on a project that requires external crystal. I borrowed a microcontroller from my friend today. We were using external crystal for our project, and I thought that was no big deal. I brought the microcontroller home, and tried to program it. Ponyprog said it is an unknown device. I was quite anguished and thought that it the microcontroller was fried. Suddenly just for curisity, I plugged in a 12MHz crystal. And wow, ponyprog started working again!

Moral (!!!!) : When you have programmed fusebits for external crystals, you MUST use one to program the microcontroller.

বুকমার্ক

Close Bookmark and Share This Page

Copy HTML:

If you like this then please subscribe to the RSS Feed.

Update: My Programmer is working now. Read Here.

My laptop does not have serial port. And ponyprog, up until now, have not provided support for any USB programmers. Today, I constructed my first USB programmer on a breadboard. I had a old USB extenstion cable which was out of order as the header was slack due to wear. I cut of that part and soldered breadboard wires.

My first goal was to make a ponyprog compatible programmer that emulates parallel port. I started with: USB2LPT

Afterwards, I realized that the emulation makes programming too slow. Thus I had to move to a dedicated programmer. But I really like a GUI for inputting, especially the fusebits. AVRdude is a command prompt based programmer. A wrong fusebit setting can lock the microcontroller irrepairable by a Serial Programmer.

Then I found AVR8 Burn-O-Mat: GUI for avrdude . The interface is even better than pony prog for fuses. It actually has small comments beside fusebits. AVRdude even supports my simplified SIProg. So I proceeded to make the famous USB ASP (http://www.fischl.de/usbasp/) I forgot to connect the ICP and INT0 at first, and kept getting “Unknown USB device”. I reflashed 4 times. Finally the programmer was operational and the driver was installed successfully.

I’ll give details of my schematics later. Here is a picture of the circuit.

Update: My Programmer is working now. Read Here.

বুকমার্ক

Close Bookmark and Share This Page

Copy HTML:

If you like this then please subscribe to the RSS Feed.

(A Continuation from (Really) Beginners Microcontroller Guide (Part-I) Compiling the first program)

(alpha version. Very unstable, still editing)

Writing program to Microcontroller

We will be using ponyprog from lancos. Although it is possible to program directly from winavr, I like the interface of the program very much.

Construct the simplified SI Prog. You’ll need:
1. A serial port DB9 Female Connector,
2. 5V1 Zener Diodes x3
3. Resistors: 15K, 10k, 4k7 x 3
4. Bread board wires

Connect the circuit on veroboard. To see how it looks go to my blog http://sajiduc.blogspot.com/2008/04/beginners-microcontroller-programming.html

To connect the programmer always consult the datasheet of the microcontroller. Connect the Mosi, MISO, SCK, Reset lines of the programmer to the corresponding pins of microcontroller, and connect GND to 0V. Connect the serial connector to the serial port of your mother board. Please do not use a usb-serial converter, and connect only to true serial port.

Goto http://www.lancos.com/prog.html and download ponyprog from there. Install ponyprog, and open ponyprog from startmenu.

After the annoying neigh sound, click ok. Pony prog will say

Click ok again

Now do the bus timing calibration:

Afterwards, it is important. Click Setup>Interface Setup. Select Serial radio button. From drop down select SI Prog API / SI Prog IO. Select the COM port in which the programmer is connected. It is COM1 if you have only one serial port, but for multiple ports, you have to select the appropriate one. Please note that 90% cases, the SIProg does not work because of not proper configuration in this dialog. So if the SI Prog does not work, try to change the COM port, or switch between SI Prog API and IO

Select the appropriate device name

Now to test if the programmer is working, Click Command>Read All. From my experience 70% cases, people don’t get a smooth read operation at the first try. See below for common problems

If every thing is ok, (Which actually did in my first experimental SIProg) Then reading will start.

Now click File>Open, and open the testprog.hex file generated by the compiler.

Now select write all

And then the write will be successful!

Then play with your microcontroller circuit:

Ofcource the write may not be successful.
This might be due to
1. Circuit connection error (Check if you have connected power to micr
ocontroller, check if the breadboard connections are loose, if the programmer are connected to the proper pins, if the programmer is soldered properly.)

2. Check if the BC547 transistor is working by testing if 0.7 V drop occus between Emitter and Base.

3. Check if your serial port is working and you are not using a USB-serial converter

4. Play around with the interface setup (in ponyprog) to find another suitable setting for you. (Try SIprog API, SIProg IO, Check if you have selected correct serial port)

5. This is very common for me:- the microcontroller is dead!!!!

Well, no 5 can result from 2 cases, a) a heart attack of the microcontroller (Fry out, like connecting Vcc of microcontroller to ground and ground to Vcc, microcontroller, at 90% cases just fry) b) Accidental programming of the fusebits of the microcontroller can result the SPI interface to be locked out. This can be overcome by a universal programmer. If you happen to have access to one, ask some one clear the lock bits.

6. You forgot to select the right device (I also sometimes forget to do that)

বুকমার্ক

Close Bookmark and Share This Page

Copy HTML:

If you like this then please subscribe to the RSS Feed.

Cont.. (Really) Beginners Microcontroller Guide (Part-II) Configuring Ponyprog properly and writing program to uC

(alpha version. Very unstable, still editing)

This is actually a beginners microcontroller guide. Just in alpha version. Please suggest necessary improvements.

This tutorial will show you how to:

1. Write and compile your first program in WinAVR environment

2. Construct necessary hardware for the program execution

3. Load the program into Microcontroller using the Simplified SI Prog

The tutorial assumes that you have some knowledge of C/C++ programming. If you are looking for a good book to start AVR series C Programming for Microcontrollers Featuring ATMEL’s AVR Butterfly and the free WinAVR Compiler is a great option.

Compiling the program

My program is quite simple. It will input from a port of a microcontroller checking if the pins are high or low. If the pin is high, the output will flash, other wise, the output will remain low.

Now to compile the code, we need the free winavr compiler. Download it from http://winavr.sourceforge.net/download.html

Install WinAVR.

Now go to Start>Programs>WinAVR>Programmer’s Notepad (XP) or Orb>All Programs>WinAVR>Programmer’s Notepad (Vista)

The main window pops up:

Select the coding scheme to C/C++ to better visualize the programming

Now type / copy paste the program:

#include <avr/io.h>

int main (void) {char c;int delay=10000;int i=0;DDRC = 0xFF;DDRD = 0x00;while (1) {c = PIND;PORTC = c;while (++i < delay);PORTC = 0x00;while (--i > 0);}}

Save the program firstprog.c

Now in order to compile the program using winavr, we need a MAKEFILE. The WinAVR comes with a make file creator called “Mfile[WinAVR]“. Go to it by using start menu.

In the MFile Edit window, you have only two menu: File and Makefile. Click on Makefile, and change MCU Type to ATmega8,

Change main program name to firstprog.c

Now Click File>Save As, and provide filename MAKEFILE with no extensions, in the same directory where you created the firstprog.c

Now go back to programmers notepad, and select, Tools>[WinAVR] Make All

If there is no typo or other problems, the output window (Viewed by pressing F8) will show like this.

Congratulations, you have successfully compiled your first program. (Well, hopefully )

Your compiled files are in the folder:

বুকমার্ক

Close Bookmark and Share This Page

Copy HTML:

If you like this then please subscribe to the RSS Feed.