i am currently studying 3rd year CSE and have little to no background in electronics but i have suddenly taken an interest in robotics
i just started using arduino and its exciting. i got a bit of understanding of to code it (i know c and java). unfortunately i am lost when it comes to interfacing it with anything else other than arduino software. my teacher gave me a project to do as a begineer.
MY QUESTION: i was told to send a number (or sequence of numbers) to the arduino board. the board should blink the pin 13 LED (i know how to do this part) when it receives a number. then it should divide the number by two and send the result back to computer. here the computer must use "processing tool" to graph the number.
1. any help/hints are appreciated.
2. any idea on what this "processing tool" is actually called? all i was told was it was a software to graph numbers.
3. how to take output from arduino into another program as input?
thanks in advance
The processing tool is literally called Processing. It is a Java-based programmatic screen-drawing system that is very easy to use. Take a look at it here.
Processing is much like Arduino in that it has the setup(), loop() architecture and is similar in syntax.
To get data from the Arduino to Processing, you will need to send serial data to the PC.
Related
I currently have firmware that can reach an average deep sleep current of ~130uA. I can reach this level reproducibly on one of the boards I have.
successful deep sleep
Trouble is, when I try to clone this chip onto other chips using the nRF Programmer (Connect) app, I get extremely high power consumption, average of ~20mA at all times, seems the device doesn't reach deep sleep properly. Tried this on several other boards, so I don't believe it's simply a problem of something shorting. Strangely, the application just runs fine, the current is just several times normal for the same functionality.
unsuccessful deep sleep
Does anyone have any ideas on how I can truly clone the flash of one device, onto another? Clearly the "save as file" on nRF Connect isn't doing this. Erasing all and reuploading, starting from a blank chip and writing,
FYI I'm using the nRF52840 module by Raytac (MDBT50Q), implemented on a custom board. This board SHOULD be capable of going down to ~33uA, which I have observed in the past with this very board. By some combination of erasing all, reprogramming, setting the 3.3V logic level(nrfjprog --memwr 0x10001304 --val 5), etc,
For posterity, I did actually find the solution! For anyone else in a similar boat to me, the winning command is:
nrfjprog.exe --readcode --readuicr --readram [filename.hex]
Apparently, the --readram was the winning flag, as without it the sketch simply doesn't run at the same current consumption for whatever reason. But now, I can reproducibly image and transfer identical firmware, which was what I was after.
I'm somewhat stuck with a prob: I have a measuring-transducer Profibus-DP Master-device here that reads probe-values (eg. temperature) and I need to get those values into a Pi or Arduino. The Device is able to do Profibus-DP, PA and Hart.
I am right that there is no finished library and hardware for that? I've found industrial grade ICs like this and opensource stuff that quickly got lawsuited and a shield for RS-485. But even that shield wouldn't help me to actually communicate, right? I still would need to figure out all the protocoll-basics, timing and stuff?
curious if a Arduino could be configured to read and serial print raw binary bits from a proprietary serial encoder used on machine tools and robots... if so, might have a lot of other possible uses.
I made up a 120 volt servo drive for manually moving big fanuc machine/robot servos, handy during rebuilding/service to be able to move a axis without a control...but the older drives read 4 gray code channels kinda like a set of halls for brushless commutation...on the serial versions, same drive could move the motor if I could decipher the commutation bits and output graycode to the drive... a tiny Arduino looks like a ideal little thing to try doing this.
Scoped out the signals long ago, kinda know where the bits are, but need to be able to actually print them out thru 90 degrees of shaft rotation to find the 12 steps for commutation required by the drive.
Arduino is new to me, but in the past few days have been quite impressed with its abilities.
If anyone can suggest a way for Arduino to read a repeating 77 bit data stream at ~100K baud, I'm all ears... I think a 'serial snoop tool' with easily changed baud rates(including non-standard) and 'word length', then serial print out could be really handy. to prevent overflow in my case, could only do the serial print every X milliseconds, and I could just rotate slow enough to get a decent sample.
I'd use a logic analyser with the ability to decode serial streams - it's a much more versatile tool in the end. There are many of them - I've used the Saleae Logic, and an Open Bench Logic Sniffer to good effect in the past.
But I'm sure an Arduino could do it.
Well I've looked and looked and just cant find data on the max current of the 5 v output (or even a suggested reasonable max)
They all mention 50 mA for the 3.3v output.
Looking at the chip it's a smaller board than the Arduino Uno so I don't want to pop it.
I assume someone will know the max current that the regulator on this board can handle and surmise what the 5v current out could be? Thanks in advance!
EDIT: The regulator / board 5v pin out, not chip related.
EDIT: Assuming supply is from the 12v power adapter.
The schematic shows a NCP1117ST50T3G. The datasheet shows 1500mA (typical).
Note that you may not actually be able to draw that at the higher end of the input voltage range since the Arduino may not provide sufficient heatsinking, needed since the regulator will shut down if it gets too hot (and the regulator will melt down if it doesn't shut down).
Also note that the traces on the board may not be designed to allow that much current to flow safely, and you could end up damaging the board itself regardless.
I'm going on record that you can put any amperage as input as long as the voltage in within range. So, if you have a 5V 200A high power input you are still fine. Now, If you have a short, you're cooked. But a properly designed circuit will draw what it needs and nothing more.
Hyperbole. I know absolutely nothing about this topic. I'm hoping a lot of people will call me names and one of those will correct me with a correct electrical engineering based answer. Either my view is correct or it isn't.
I am doing a class project involving an Arduino Uno and a Picaxe 14m2.
I am in the middle of attempting to code a program for the Arduino Uno that will allow me to send and output value to the input on the Picaxe.
So in layman's, this is what I wish to achieve:
I want the Arduino to check a sensor, and if the sensor returns a specific value. (- I know this part, but not the next.) I then want the Arduino to send a value (HIGH, or 1 .. something like that) as an output to one of the Picaxe input pins. I then need the Picaxe to notice a value has been sent, and then do something else.
Any help would be appreciated.
Thanks.
If you are looking for that, you may want to specify what kind of PICAXE you have.
Since there is a difference in the types of these chips.
After that you may wanna look over the datasheet of the PICAXE so that you can find the instructions set and the type of program memory you have, "EEPROM....".
After that:
List your Is/Os, inputs and outputs.
Set your source code editor.
Write the source code and burn it to the PICAXE program
memory.(C, Assembly...)
Write your Arduino code, setting the Is/Os and telling the
Arduino how to deal with the signals in and out.(C language)
Make a circuit diagram for the hardware you are going to connect
between both chips.
Don't forget to see the loading effects on both the Arduino and
the PICAXE, because you don't want to burn your project hardware
after all.
Test your project and note that you will have to troubleshoot
both software and hardware whenever a problem occurs.
I suggest that you use the Oscilloscope to test the signals going in or coming out of both circuits + the sensor's signal.
For any extra thing you need the PICAXE to do, use If statements, because they are not so technical to implement and they are easy to write and troubleshoot.
For your scheme, you are actually making the Arduino give instructions to the PICAXE through a variable signal coming from a sensor.
^send me feedback and I will help more.
You will probably want to look into using UART (aka Serial) or i2c communication.
Serial communication should work with any PICAXE and Arduino, While i2c Will only work if you are using the X2 Series PICAXE Chips. i2c's main advantage is when using multiple slave devices (plus the master device, i.e. more than just 2 devices total) in which you can use the same two wires for up to around 128 devices. Serial (UART) communication is simpler, and only needs one wire (plus a common ground) to send data one way, it is what i'll show for the rest of this answer
Here is the manual entry for serial input for the PICAXE, and Here's the entry for serial output from the Arduino. The code you will need given your question will be something like the following:
For the arduino:
void setup(){
Serial.begin(9600);
}
void loop(){
if (conditionMet){ //whatever the condition is in your code
int bytesSent = Serial.write(“HIGH”); //send the string “HIGH"
}
}
and for the PICAXE:
main:
serin 6, T9600, ("HIGH") 'uses qualifier to look for exact message "HIGH"
'do whatever when criteria met
goto main