help please it is urgent

[erendogan83]

hello dear friends

I am amateur friend of you about pic programming.

I am making a pic circuit about temperature measuring and writing to LCD screen using pic 16f877a.

Compiler reporting no error but my interrupt not working correctly.

Here is proteus scheme of my circuit:
http://i.hizliresim.com/7Am5LN.jpg

and my code is below.

I hope you experts give an advise to this amateur.

love u all thanks

[gjs_rsdi]

First, please read:
https://www.ccsinfo.com/forum/viewtopic.php?t=47549
Better you build the circuit on a prototyping board and make first a led to blink from a pin via a 560 ohm resistor at 1 second as the first stage of the program.
A few remarks regarding the hardware, regarding the software have people with much better knowledge than me to answer except why you need sophisticated calculations for the analog reading as 10 mV is 1 degree Celsius?

* You are stating that you want to measure temperature and display it on the LCD
* What the transistor supposed to do? Why driving it with a 200 ohm resistor and not let's say 4.7K ?
* How you are intending to program the PIC?
If ICSP, better drive the LCD from other ports and not B6 (PGC) and B7 (PGD).
* You will need MCLR pin also for programming with ICSP
* You have a power connection named VDD and one +VS. What is the supply to the PIC? 5V will be the best for the 16F877A

Best wishes
Joe

[erendogan83]

I love you man

I read your link before I posted my problem

but my problem not about proteus

problem is my interrupt not working neither in proteus nor in real circuit

I am wondering is it because of my codes or am I asking too much current from ports?

I will make changes you ask me to do

[Ttelmah]

if (sicaklik>30)

Now sicaklik is declared as a 'float' value (ugh).
This comparison will take about 565uSec to do (actually more, since the '30', will first have to be converted to a float). Now your interrupt triggers every 1024 instructions (Fosc/(4*256*4)), so every 1024uSec. So straight away over half your processor time is being used by the interrupt. Think again. This should be done using an integer....

Float is _slow_. Until you realise just how slow, you will have problems.

Then the comparison is unlikely to work. The sicaklik value is being calculated and changed outside the interrupt. The interrupt may well receive it when it is half way through being calculated....

Then the interrupt declaration wants to be the line before the function. So:

[gjs_rsdi]

LM35
http://www.ti.com/lit/ds/symlink/lm35.pdf
From the data sheet, the LM35 range is -55 to +150 degree Celsius
Starts at 0V (-55 degree), every degree is 10mV, 2050mV at +150
If the analog Vref+ is 5V (the VDD) at ADC=10 you will have 4.89mV/bit,
at ADC=8 will be 19.61mV/bit
Fastest is to make a table for bit/degree, but some work to do
You can make also the +Vref to a value that will give you mV/bit without fractions.

Best wishes
Joe

[erendogan83]

thank you big chief for your help

yes it is LM35

I used float type because heat is analog wave

but now I see that it slows my cpu after I add interrupt to my code

I hope it works fine this time

I will add my thanks to you and gjs_rsdi

[erendogan83]

Hello guys,

It is me again and still not working.

My pin_d1 shouldn't give output while condition not satisfied
but don't know why I always getting output from that pin.

Here is my code below:

[gjs_rsdi]

I don't have the 877 so can't test it in the real life but I copy your program and run it with MPLAB v8.92
This part:

[erendogan83]

Dear Joe,

can you copy paste of your full code pls?

I dont know why not happening

can it be reason we disabling interrupt in while loop?

and we not using TIMER_0 interrupt in while loop either

[erendogan83]

good news good news good news

guys it is working

but it interrupts at 5 celcius

my condition is

if(temp>30)

I dont understand why

any comments?

[gjs_rsdi]

[gjs_rsdi]

My calculations:
If your +Vref is VDD and the LM35 gets also VDD (5V) the ADC reading will be 0 to 2050mV for - 55 to 150 degree
At 150 degree 10*205=2050mV, ADC reading 419 (from 1023)
voltaj=(sensor*39)/8; 419*39/8=2042
At 30 degree 10*85=850mV, ADC reading 173 (from 1023)
voltaj=(sensor*39)/8; 173*39/8=843
At – 51 degree 10*4=40mV, ADC reading 8 (from 1023)
voltaj=(sensor*39)/8; 8*39/8=39; already above the 30 in your program
By the way, I don't think you need sensor to voltaj and the voltaj to temp.
Make directly sensor to temp
The best in my opinion is to make a table, otherwise you will need complex mathematics

Best wishes
Joe

[erendogan83]

bro I am having some difficulties about understanding your calculations (my brain mostly works slow)

we have -55 to +150 temp range total makes 205

and 10 bit A/D converter so 2^10 = 1024

so 1 degree change in weather equals 1023/205 = 5 bit

now I see why my circuit interrupts at 6 degree

because I typed if(temp>30)

30/5 = 6 degree

am I right?

[Ttelmah]

The sensor does not have a -55 degree range, unless you use a -ve bias resistor so it can give outputs below 0v. The ADC cannot read below 0v anyway.

The sensor output is simple. +10mV/C. That is all.

At +20C, it gives 200mV out.

Without an external bias it can't actually output below 20mV, so gives 2C minimum.

With a 5v supply on the PIC ADC (honestly, using this you are not going to get better than perhaps a 1C repeatable resolution anyway, because of noise and inaccuracy in this voltage.... - so displaying to 0.1C, is actually pointless).

[temtronic]

Mr. T is 100% right about the LM35, as I've used the *F version (LM34) for decades in my remote energy control systems. The LM34 is a bit better(no pun intended) but these days the World 'thinks' *C. 21*C = 210mv for LM35 but 698mv for the LM34. The larger sensor voltage is less susceptable to noise. It's easy for the PIC to convert *F to *C for display purposes. However for 'control' use, just use the ADC 8 bit data in integer format NEVER use Floating Points !
To get better than +-1*, I used an opamp unity buffer with 3 pole R-C filters in the PSU for it, as well as the LM34 output to the buffer. That allowed for solid, stable readings over 100' of CAT5 ( twisted pair cable). 8 bit data is more than sufficent for any 'human' related temperature control projects.

Jay