I need to make bootloader with my code.
I discovered a github with bootloaders, but i don't know what to do with it.
My experience in use of arduino is limited by burning the default bootloader for ATmega328p
So, is there any simple way just to replace default arduino bootloader code (blinking diod) to anything else?
Certainly there is. Embedded engineers replace and/or overwrite the bootloaders all the time. Here's an article on the subject but I'll outline the basics.
Select a progamming device. There are numerous devices on the market, from very inexpensive to quite expensive, depending on what else they can do besides program a chip. You can even use another Arduino as a programmer, probably least expensive of all and readily available.
Connect the programmer to the proper programming pins. For your purposes you'll want the ISP/ICSP headers (2x3 header(s)) on the board, or 2x3 connector to an non-Arduino programmer.
Upload your code using the Arduino IDE, a utility such as AVRdude, or even Atmel Studio if you're very ambitious and want complete control.
It's not that hard if you use another Arduino as your programmer and 6 female-female jumper wires as outlined in the article.
Related
Basically I just want to use my Arduino Board's Atmega as a normal Atmega. I want to burn the same code that we burn on Atmega32 controller. As we know that we can program Ardunio board with IDE and there is proper syntax style for coding. I want to make just the use of Atmega32 without the Arduino style coding.
I'm not really sure of your question here, but here are some thoughts:
Arduino is programmed over USB using some code that is programmed into the bootloader. If you want to program without Arduino, you will probably overwrite the bootloader which means that you will need an In System Programmer (ISP) for the board. These are separate USB devices that usually use the SPI connections on the chip to upload the program.
Atmel (now Microchip) has their own line of programmers that work with Atmel Studio but you can find some on ebay that pretend to be Atmel programmers for a fraction of the cost.
Another option is a cheap ISP but using AVRDude to upload your code, rather than Atmel Studio. I have never been a fan of Atmel Studio.
Since you are looking to reuse ATmega32 code ( I think that's what you are saying), don't forget to change the target hardware in Atmel Studio so that the port and address defines are changed to the chip you are using (ATMega328P)
Rod
You don't need to overwrite the bootloader unless size is an issue. There is an arduino plugin for atmel studio also Arduino is AVR so just don't use the Arduino.h styling. Create a project using the arduino setup in minimal and simply write straight AVR C into AVR Studio it will compile either on Arduino's end or on Atmels end. You can even keep the arduino's library code and mix the two styles by pulling in Arduino.h into your studio session. If your asking how to dump a .hex file into arduino you need a ISP programmer and that will kill the bootloader when it's flashed.
Some time ago i tried doing this with my original arduino uno r3. I guess i had to plug the power cables in wrong order(i think it's called reversing polarity) because my arduino stoped working. It turns on (the power diode is on) but i cannot upload any sketch on it. I'm thinking about changing the ATMega chip but, before i do that i want to be certain that it's the chip issue ,not the programmer. I have another arduino uno, and i heard that i can upload sketch with it to another uno. So my idea is, if i do this i will be able to say whether it's the programmer or the chip issue. The only problem is that i don't know how to do this and i wasn't able to find any reasonable tutorials online. Please tell me what to do.
Many Thanks,
Jan
For Anyone with the same problem. Somebody answered my question on another Stack Exchange. It is here. Also this video may be helpful. It sure was to me. Basically you need another arduino, then you need to upload a ArduinoISD sketch(which is built in Arduino IDE) to it, and connect the arduino you want to program to the working arduino(the one with uploaded Arduino ISP sketch) as in this tutorial (there is something said there about the necessity of using a condesator i will update whether it is essential when i try it).
Hi I am curious to know is it possible to write an Arduino program without the Arduino breadboard itself? Can you emulate this some how instead of the hardware?
Found another post on here which was very helpful
There are a whole slew of Arduino simulators out there, many free, and
some paid products as well.
The CodeBlocks Arduino development environment includes a free Arduino simulator, still under development but functional.
Simuino simulates the Arduino Uno and Mega pins - not a pretty-looking realistic simulator, but it works.
The Python based Arduino Simulator is another option, that plays well with the official IDE
Virtronics Simulator for Arduino looks promising, but I don't see why I would pay $14.99 for it, when I could buy one or more actual
Arduino clones for that price
Many other Arduino simulators are out there if you search, and new
ones are being announced, even crowdfunded, all the time.
All
I've a Good Command over C++, But I've never done anything anything on device programming. I've some basic understanding on Digital Logic Design. But I am complete Noob in Electronics. Currently I am getting huge interest on microcontroller Programming.
Where To Start ?
I don't think one really needs to have huge amount of knowledge on electronics to run a program on a microcontroller.
I am using Linux. and I've downloaded Keil. never tried to run it through Wine. I've ran it in Windows. But how the code works is not completely clear to me. though I can understand Logic as its written in C. But Its still like a Fog to me.I Just need a Quick Kickstart.
SO is not the best site to ask this kind of question. There's really a large distinction between programming for a PC and programming for an embedded system, other SE sites specialize in physical computing. I got this email from Robert Cartaino on Tuesday:
...Barring any last-minute interest from
[chiphacker.com], we will be launching [electronics.stackexchange.com]
either tomorrow [Wednesday 9/22] or
Thursday.
So, go commit to electronics.stackexchange.com here, and browse chiphacker.com while you wait. Take a look at these questions on Chiphacker:
How to become an embedded software developer?
Steps to learning Arduino Programming
PIC Programming
What are the best beginner project[s] using an arduino
There are a few things you should consider when planning your entry path to embedded systems programming.
What do you want to do?
What do you know how to do?
How fast are you comfortable learning?
I've outlined a few options in the following paragraphs.
You tagged your question linux-device-driver, does this mean that you want to make a custom device to use in Linux? If you meant embedded-linux, then you're into a larger class of microcontrollers. I suggest that you look at the BeagleBoard, also look at this Chiphacker question for some other options. If you want to do embedded linux, and want to build your own board, you'll first need to build up some experience in simpler levels of embedded systems design.
You also tagged your question avr, which is a popular microcontroller class made by Atmel (check out the avrfreaks forum for more info). I started learning embedded systems on the ATmega324p; they really have great documentation, are easy to use, and there are more sites online for the avr than most any other processor.
If you want an easier learning curve, I suggest taking a look at the Arduino environment. It uses Wiring, which is very similar to C/C++, and the Arduino can be enhanced with 'shields', which are modules that can be plugged into the Arduino main board to add functionality. This is your Quick Kickstart.
A good learning path would be to get familiar with the Arduino, then build your own AVR board (possibly a Linux device, like a joystick), then work with an ARM-based development kit, and finally move on to to building your own embedded linux board. You can skip a few steps if you don't mind a steep learning curve, or stop at any point along the way if a given level's capabilities satisfy your needs. You don't necessarily need a "huge amount of knowledge on electronics to run a program on a microcontroller", it's true, but you should understand some basic things like voltage and current before you try to light an LED or connect two devices.
Finally, you said in your question that you've installed the Keil IDE. While this is a fine and rather popular IDE, I'd suggest that you learn using a gcc-based command line toolchain. There are a staggering number of ways in which things that can go wrong when working with embedded systems, and an IDE adds a layer of magic on top of everything that happens. While this can be nice, I'm a strong advocate of minimizing the magic when trying to learn the system. You need to understand the low-level stuff when things don't work automagically. This advice doesn't apply when using the Arduino, which is designed to (and does) make all of the automagical stuff work well.
sparkfun.com has a lot of boards, arduino family and other. I recommend the armmite pro, the lillypad instead of the arduino pro because there is no soldering involved, for either you will need/want the correct usb to serial/power. The mbed2 costs a little more, the blue leds are brutal on the eyes, but easy to use. For none of the above are you required to play in their sandbox, you can use the canned environment, etc but not required.
if it is linux development you are after I recommend the hawkboard.org over the beagleboard.org, to make the beagleboard useable costs about twice as much as the board itself, the hawkboard is usable by only buying something to power it. But you can just learn linux drivers on your desktop/laptop and dont need to mess with embedded necessarily.
Emulators are a good start. Qemu is good stuff, emulates a number of processors, great for emulating virtual linux systems, learning linux driver development, etc. But getting visibility into what the (virtual/emulated) processor is doing is not the goal. I find it useful to have visibility. gdb includes a few emulators as well. mame is loaded with them, but like qemu designed for fast emulation and not for education. visual boy advance is good. Emulation is never perfect, so eventually you want to run on hardware, but emulators and compiler tools are free and you can learn quite a bit before you have to buy hardware. There is a considerable amount you cannot learn from an emulator though, loading your programs into flash/ram, debugging using jtag or other interfaces. i2c, spi, etc.
I want to be able to build my own small electronic device that just has a few buttons, and stores each keypress inside a memory.
I am a pretty experienced programmer but I have no idea where to start regarding hardware, or what to search for on google.
Please give me any info that can help me out.
Arduino boards are inexpensive and the platform is wildly popular. I buy stuff like that from sparkfun.com in the developer area down the left side of the page. At sparkfun you will also find many other similar eval boards from various vendors. I like the lillypad over the arduino pro mini only because it has the programming pins already soldered. You will want the ftdi usb serial board thing for power and programming. I am a fan of the armmite pro, which is arm based. the mbed2 is real easy when you plug it in it shows up like a thumb drive, you copy your .bin file to it and press the button and it loads the program and runs it. The blue leds give me migraines but that was solved by replacing with green leds. I have a number of the header style olimex boards, good stuff, have never used the ones with displays and buttons though. Going to other sites the ez430 msp430 is a good starting platform but no buttons which you are interested in using, the stellaris cortex-m3 based family is good I would skip the 811 board and go for maybe the 1978 or something in that range, the 811 is too easy to brick.
Most of the ones mentioned above (not the olimex boards) have sandboxes for you to play in safely (turn key development environments), but at the same time you are not locked into those environments, you can do your own thing if you like, use different toolchains, flash programmers, etc. I personally would avoid the lpcxpresso for that reason, painfully tied to both windows and their sandbox.
the sam7-h256 for example, an olimex board, is powered by the usb, and a program called sam-ba is used to load your programs into the chip. That particular board does not have buttons but boards in that family are also programmed the same way. basically one usb cable for power and programming. And like the AVR (arduino and avr butterfly are based on the avr micro) the at91sam7s is an atmel part. Atmel seems to have that edge over competitors for better documentation and support. At least my belief is that contributes to the popularity of the avr (the avrfreaks website existed before the avr butterfly and the arduino), and it certainly makes me like their arm based products.
short answer, start with http://www.sparkfun.com along the left side click on Development Tools, and there are many solutions. You want to find something like the arduino, armmite pro, mbed, that either standalone or with a ftdi based usb thing you both power the board, and have an interface for programming. There should be links on the page to websites with development tools, compilers, etc, and tools for actually doing the loading of the program on the board. I recommend trying the arm, avr, and msp430 micros, as well as different vendors (many different arm based solutions with their own pros and cons for example).
The arduino platform is a cheap and easy option.
search for arduino and netduino
What language do you program in?
Arduino uses a C like language.
Netduino uses C#.
You can get a NXT kit (yes, LEGO) and use RobotC.
I can only advice how I started:
Get a bread board and some ATMel microcontrollers (ATMega16 is perfect for beginners).
You can either buy an STK500 or you use the In-System-Programming feature, and ask someone that can build you a programmer (I recommend USBasp). When you use Linux, use AVRdude and the gccavr toolchain. Under windows, you can use the WinAVR studio.
And buy some components, like resistors, capacitors, probably a quartz crystal to make simple circuits.
That's how I started anyway.
Arduino is based on Atmel AVR, so the same Arduino or STK500 board can be programmed with AVR Studio + WinAVR combination, which is nice if you already have experience in GCC. For all additional info and tutorials take a look at http://www.avrfreaks.net