CCS C Software and Maintenance Offers
FAQFAQ   FAQForum Help   FAQOfficial CCS Support   SearchSearch  RegisterRegister 

ProfileProfile   Log in to check your private messagesLog in to check your private messages   Log inLog in 

CCS does not monitor this forum on a regular basis.

Please do not post bug reports on this forum. Send them to CCS Technical Support

L3GD20 problem in reading values *** Locked - No progress
Goto page Previous  1, 2, 3  Next
 
Post new topic   This topic is locked: you cannot edit posts or make replies.    CCS Forum Index -> General CCS C Discussion
View previous topic :: View next topic  
Author Message
rajm



Joined: 06 Nov 2012
Posts: 29

View user's profile Send private message

PostPosted: Fri May 03, 2013 3:58 am     Reply with quote

i cant understand about 1st header line (ie)
#include "C:\Users\semerci\Desktop\dddd\lcdddd.h". also tell me whether i can use #include<lcd.c> instead of flex lcd. in the imu.c there is no device address, it contains only register address..
im using PIC18f4550


regards
temtronic



Joined: 01 Jul 2010
Posts: 9245
Location: Greensville,Ontario

View user's profile Send private message

PostPosted: Fri May 03, 2013 5:27 am     Reply with quote

Anyone else totally lost in this thread?

RAJM..

I suggest the following

Start over and keep code simple

1) download PCM programmers' I2C scanner diagnostic' program from the code library.

Install and run . It will tell you if your hardware is OK and that the PIC can 'see' the gyro module.There's no point trying anything until 'scanner' sees the module!

2) code only for 1 of the module functions(say gyroscope).Get it working properly.

3) once that's done, proceed to a 2nd function, again, get it working, confirming #1 still works.

4) now do the 3rd function,which should be a lot easier as the others all work fine!

I use the 4550 and flex_lcd without any problems.You do NOT need any interrupts so get rid any ISR code.The flex_lcd is easier to modify and use.

Query. Is the module designed for 5 volts as that PIC is a 5V product.

hth
jay
vrs



Joined: 30 Apr 2013
Posts: 18

View user's profile Send private message

PostPosted: Fri May 03, 2013 6:07 am     Reply with quote

#include "C:\Users\semerci\Desktop\dddd\lcdddd.h".
it does not matter. instead of "include <PIC16F877A>". Add
I do not have PIC18F4550.
I'm sorry.
copy pasted the code is missing.
add them. imu.c


gyro_ADD_W = 11010110
gyro_ADD_R = 11010111
acce_ADD_W =00110010
acce_ADD_R =00110011
magn_ADD_W =00111100
magn_ADD_R =00111101


You can also use 2x lcd.

printf function 2x16 (etc.) .According to straighten lcd.c.

returns the code value. If you type returns the same value. If you can try your hand with 16F877. I tried it and it worked for me is just a 16F877. but the data is between 0 to 32000. the desired value for the mathematical operation is required.I add the code to the site I can arrange it Exclamation
rajm



Joined: 06 Nov 2012
Posts: 29

View user's profile Send private message

PostPosted: Fri May 03, 2013 11:06 pm     Reply with quote

hi

Code is giving error for me, even though i change header file as #include<18f4550.h>, every error by clicking them it shows error in the same header line. I can't understand for what you using tur and b and b+1 in I2c write function.


regards
vrs



Joined: 30 Apr 2013
Posts: 18

View user's profile Send private message

PostPosted: Sat May 04, 2013 2:17 am     Reply with quote

tur = gyro_add_w ===> 0b11010110
Can you add your code
rajm



Joined: 06 Nov 2012
Posts: 29

View user's profile Send private message

PostPosted: Sat May 04, 2013 3:43 am     Reply with quote

hi
i compiled without error, but i don't know what value should come in lcd. I'm getting 3 values of four digit no, but its getting flickering. I'm not able to see changes in values when i change sensor.

Kindly change my first code which i posted for gyro sensor, in that I'm getting only -1 as fixed without changing even i change my sensor.

regards
vrs



Joined: 30 Apr 2013
Posts: 18

View user's profile Send private message

PostPosted: Sat May 04, 2013 7:55 am     Reply with quote

your code
add forum
rajm



Joined: 06 Nov 2012
Posts: 29

View user's profile Send private message

PostPosted: Sun May 05, 2013 10:12 pm     Reply with quote

hi
I have used same code as you posted by deleting some printf statement.
Code:

#include <18f4550.h>
#fuses NOWDT,HS
//#fuses HS,MCLR,NOWDT,NOPROTECT,NOLVP,USBDIV,PLL5,CPUDIV1,VREGEN
#use delay(clock=4000000)
#use i2c(Master,sda=PIN_B0,scl=PIN_B1)
#define LCD_ENABLE_PIN PIN_C2
#define LCD_RS_PIN PIN_C0
#define LCD_RW_PIN PIN_C1
#define DATA_PORT  PORTD
#include<lcd.c>
// #include <imu.C>

#define L3G_DEVICE_AUTO 0
#define L3G4200D_DEVICE 1
#define L3GD20_DEVICE   2

// SA0 states

#define L3G_SA0_LOW  0
#define L3G_SA0_HIGH 1
#define L3G_SA0_AUTO 2

// register addresses
#define gyro_ADD_W  0b11010110
#define gyro_ADD_R  0b11010111

#define L3G_WHO_AM_I      0x0F

#define L3G_CTRL_REG1     0x20
#define L3G_CTRL_REG2     0x21
#define L3G_CTRL_REG3     0x22
#define L3G_CTRL_REG4     0x23
#define L3G_CTRL_REG5     0x24
#define L3G_REFERENCE     0x25
#define L3G_OUT_TEMP      0x26
#define L3G_STATUS_REG    0x27

#define L3G_OUT_X_L       0x28
#define L3G_OUT_X_H       0x29
#define L3G_OUT_Y_L       0x2A
#define L3G_OUT_Y_H       0x2B
#define L3G_OUT_Z_L       0x2C
#define L3G_OUT_Z_H       0x2D

#define L3G_FIFO_CTRL_REG 0x2E
#define L3G_FIFO_SRC_REG  0x2F

#define L3G_INT1_CFG      0x30
#define L3G_INT1_SRC      0x31
#define L3G_INT1_THS_XH   0x32
#define L3G_INT1_THS_XL   0x33
#define L3G_INT1_THS_YH   0x34
#define L3G_INT1_THS_YL   0x35
#define L3G_INT1_THS_ZH   0x36
#define L3G_INT1_THS_ZL   0x37
#define L3G_INT1_DURATION 0x38


#define LSM303DLH_DEVICE   0
#define LSM303DLM_DEVICE   1
#define LSM303DLHC_DEVICE  2
#define LSM303_DEVICE_AUTO 3

// SA0_A states

#define LSM303_SA0_A_LOW  0
#define LSM303_SA0_A_HIGH 1
#define LSM303_SA0_A_AUTO 2


// register addresses

#define acce_ADD_W 0b00110010
#define acce_ADD_R 0b00110011

#define LSM303_CTRL_REG1_A       0x20
#define LSM303_CTRL_REG2_A       0x21
#define LSM303_CTRL_REG3_A       0x22
#define LSM303_CTRL_REG4_A       0x23
#define LSM303_CTRL_REG5_A       0x24
#define LSM303_CTRL_REG6_A       0x25 
#define LSM303_REFERENCE_A       0x26
#define LSM303_STATUS_REG_A      0x27

#define LSM303_OUT_X_L_A         0x28
#define LSM303_OUT_X_H_A         0x29
#define LSM303_OUT_Y_L_A         0x2A
#define LSM303_OUT_Y_H_A         0x2B
#define LSM303_OUT_Z_L_A         0x2C
#define LSM303_OUT_Z_H_A         0x2D
#define LSM303_FIFO_CTRL_REG_A   0x2E
#define LSM303_FIFO_SRC_REG_A    0x2F

#define LSM303_INT1_CFG_A        0x30
#define LSM303_INT1_SRC_A        0x31
#define LSM303_INT1_THS_A        0x32
#define LSM303_INT1_DURATION_A   0x33
#define LSM303_INT2_CFG_A        0x34
#define LSM303_INT2_SRC_A        0x35
#define LSM303_INT2_THS_A        0x36
#define LSM303_INT2_DURATION_A   0x37
#define LSM303_CLICK_CFG_A       0x38
#define LSM303_CLICK_SRC_A       0x39
#define LSM303_CLICK_THS_A       0x3A
#define LSM303_TIME_LIMIT_A      0x3B
#define LSM303_TIME_LATENCY_A    0x3C
#define LSM303_TIME_WINDOW_A     0x3D


#define magn_ADD_W 0b00111100
#define magn_ADD_R 0b00111101


#define LSM303_CRA_REG_M         0x00
#define LSM303_CRB_REG_M         0x01
#define LSM303_MR_REG_M          0x02

#define LSM303_OUT_X_H_M         0x03
#define LSM303_OUT_X_L_M         0x04
#define LSM303_OUT_Y_H_M         0x05
#define LSM303_OUT_Y_L_M         0x06
#define LSM303_OUT_Z_H_M         0x07
#define LSM303_OUT_Z_L_M         0x08
#define LSM303_SR_REG_M          0x09
#define LSM303_IRA_REG_M         0x0A
#define LSM303_IRB_REG_M         0x0B
#define LSM303_IRC_REG_M         0x0C
#define LSM303_TEMP_OUT_H_M      0x31
#define LSM303_TEMP_OUT_L_M      0x32

int8 num=0, sensH=0,sensL=0;
signed long sens=0;

void writeRegister(int8 reg,int8 value,int addr)
 {
    i2c_start();
    i2c_write(addr);     
    i2c_write(reg);     
    i2c_write(value);         
    i2c_stop();

 }

void init_gyro()
{   
writeRegister(L3G_CTRL_REG1,0b11101111,gyro_ADD_W);
writeRegister(L3G_CTRL_REG2,0b00000000,gyro_ADD_W);       
writeRegister(L3G_CTRL_REG4,0b0010000,gyro_ADD_W);

}

void init_acce()
{
writeRegister(LSM303_CTRL_REG1_A,0x47,acce_ADD_W);   
writeRegister(LSM303_CTRL_REG4_A,0b00101000,acce_ADD_W);
}

void init_magn()
{
writeRegister(LSM303_SR_REG_M, 0b00000001,magn_ADD_W);
writeRegister(LSM303_IRA_REG_M,0b01001000,magn_ADD_W);
writeRegister(LSM303_IRB_REG_M,0b00110100,magn_ADD_W);
writeRegister(LSM303_IRC_REG_M,0b00110011,magn_ADD_W);
writeRegister(LSM303_CRA_REG_M,0b10010000,magn_ADD_W);
writeRegister(LSM303_CRB_REG_M,0b10000000,magn_ADD_W);
writeRegister(LSM303_MR_REG_M, 0b00000000,magn_ADD_W);


}

int a;

void display(int adresR,int adresW)            //adresR=device Read adres,adresW =device write adres
{
int i;
int b=0;
char c;
a=1;
   for ( i=40;i<46;i+=2)                       //40=0x28  xHbit, 42=0x2b yHbit, 44=0x2d zHbit
   {
    b=i;                                       //b=hbit, b+1=lbit. acce,gyro xHbit=0x28 xLbit=029
      if (adresR==magn_ADD_R)
      {
         num=2;
         b=i-37;                               //magnetometer xLbit=3 xHbit=4,yLbit=5 yHbit=6,zHbit=7,zHbit=8
         c="m";
      }
         i2c_start();
      i2c_write(adresW);
      i2c_write(b);
      i2c_start();
      i2c_write(adresR);
      sensH=i2c_read(),i2c_read(0);
      i2c_stop();                                    //sensH=device x or y or z hbit
         i2c_start();
      i2c_write(adresW);
      i2c_write(b+1);
      i2c_start();
      i2c_write(adresR);
      sensL=i2c_read(),i2c_read(0);
      i2c_stop();                                     //sensL=device x or y or z Lbit
     
         sens=make16(sensH,sensL);                   //sens =long variable
      if (adresR==acce_ADD_R)
      {
         num=3;                              //lcd line
               sens=sens>>4;                        //Accelerometer: one 12-bit reading (left-justified) per axis
         c="a";
      }
      if (adresR==gyro_ADD_R)
      {
      c="g";
         num=4;
   
      }
         Lcd_gotoxy(num+8, 1);
       printf(lcd_putc,"\%c",c);
      Lcd_gotoxy(1, 1);
       printf(lcd_putc,"satirlar=");                              //lcd 2x16 for num=1 or 2
         Lcd_gotoxy(a, num); printf(lcd_putc,"\%Ld",sens);
         a=a+6;                                                          //lcd row

   }
}


void main()
{
   set_tris_c(0xFE);
   set_tris_D(0x00);
   
   lcd_init();
   printf(lcd_putc, "\f");
   lcd_gotoxy(1, 1);       
   printf(lcd_putc, "minimu9 v2");   
   
   init_gyro();
   init_acce();
   init_magn();
   lcd_init();
   
   
   while(1)
   {
   display(gyro_ADD_R,gyro_ADD_W);                    // gyro
   display(acce_ADD_R,acce_ADD_W);                    // accelometer
   init_magn();                                       //to update
   display(magn_ADD_R,magn_ADD_W);                    //compas
   delay_ms(100);
   printf(lcd_putc"\f");
   }
                             
}   

Kindly help me, all the value getting changed and it not steady, its always flickering. Also help me to understand for loop.

regards
vrs



Joined: 30 Apr 2013
Posts: 18

View user's profile Send private message

PostPosted: Mon May 06, 2013 2:35 am     Reply with quote

for ( i=40;i<46;i+=2)
b=i ====> 40===> 0x28 ===> (acceXlow LSM303_OUT_X_L_A 0x28)or(gyroXlow L3G_OUT_X_L 0x28)
b+1 ====> 41===> 0x29 ===> (acceXlow LSM303_OUT_X_L_A 0x29 )or(gyroXlow L3G_OUT_X_L 0x29 )

variable c = m(magnetometer) or a(accelometer) or g(gyroscope)
variable a = lcd coloumn
variable num = lcd line (my lcd has 4 line)(your lcd has 2 line) num = max 2 or Lcd_gotoxy(a, 1); Lcd_gotoxy([coloumn, line);



you can delete(
num=2; and num=3; and num=4;
Lcd_gotoxy(num+8, 1);
printf(lcd_putc,"\%c",c);
Lcd_gotoxy(1, 1);
printf(lcd_putc,"satirlar=");)

add
Lcd_gotoxy(a, 1); printf(lcd_putc,"\%Ld",sens);


cast gyro
display(gyro_ADD_R,gyro_ADD_W);
/* display(acce_ADD_R,acce_ADD_W);
init_magn();
display(magn_ADD_R,magn_ADD_W);
*/





I'm sorry if I'm rude wrote.
I do not know English. I am writing the message using Google Translate.


Last edited by vrs on Mon May 06, 2013 3:59 am; edited 1 time in total
vrs



Joined: 30 Apr 2013
Posts: 18

View user's profile Send private message

PostPosted: Mon May 06, 2013 3:02 am     Reply with quote

//cast gyro
sensH=0,sensL=0;
signed long sens=0;

void writeRegister(int8 reg,int8 value,int addr)
{
i2c_start();
i2c_write(addr);
i2c_write(reg);
i2c_write(value);
i2c_stop();

}

void init_gyro()
{
writeRegister(L3G_CTRL_REG1,0b11101111,gyro_ADD_W);
writeRegister(L3G_CTRL_REG2,0b00000000,gyro_ADD_W);
writeRegister(L3G_CTRL_REG4,0b0010000,gyro_ADD_W);

}


int a;

void display(int adresR,int adresW)
{
int i;
a=0;
for ( i=40;i<46;i+=2)
{

i2c_start(); //high adres read
i2c_write(adresW);
i2c_write(i);
i2c_start();
i2c_write(adresR);
sensH=i2c_read(),i2c_read(0);
i2c_stop();
i2c_start(); //low adres read
i2c_write(adresW);
i2c_write(i+1);
i2c_start();
i2c_write(adresR);
sensL=i2c_read(),i2c_read(0);
i2c_stop();
sens=make16(sensH,sensL); //high + low adress
if (sens>=0)
{Lcd_gotoxy(a+1, 2); printf(lcd_putc,"\%Ld",sens);}
else{Lcd_gotoxy(a, 2); printf(lcd_putc,"\%Ld",sens);}


a=a+6; //lcd coloumn

}
}


void main()
{
set_tris_c(0xFE);
set_tris_D(0x00);

lcd_init();
printf(lcd_putc, "\f");
lcd_gotoxy(1, 1);
printf(lcd_putc, "minimu9 v2");
init_gyro();



while(1)
{
display(gyro_ADD_R,gyro_ADD_W); // gyro
delay_ms(100);
printf(lcd_putc"\f");
lcd_gotoxy(1, 1);
printf(lcd_putc, " X Y Z");

}

}
rajm



Joined: 06 Nov 2012
Posts: 29

View user's profile Send private message

PostPosted: Mon May 06, 2013 4:17 am     Reply with quote

hi

I have tried another code which you posted in the thread minIMu9v2 problem for all three sensor, it shows value with light flickering and i can able to see the changes in the value as i change the sensor. Kindly say what is the difference between two code. the code in the link http://www.ccsinfo.com/forum/viewtopic.php?t=50012&highlight=minimu9
displays result for three axis as separate for 3 sensor, but in the latest code it shows only 3 values with 4 digit.
Kindly suggest which code to use.

regards
vrs



Joined: 30 Apr 2013
Posts: 18

View user's profile Send private message

PostPosted: Mon May 06, 2013 9:20 am     Reply with quote

hi

last code for just gyro. and for 2 line lcd.

is as follows screenshot.
Code:


line 1      X     Y     Z 
line 2    32000_32000_32000
 
rajm



Joined: 06 Nov 2012
Posts: 29

View user's profile Send private message

PostPosted: Tue May 07, 2013 9:50 pm     Reply with quote

hi
The gyro code which you posted shows result with lot of flickering and changes without changing the sensor. What to do for this?

regards
vrs



Joined: 30 Apr 2013
Posts: 18

View user's profile Send private message

PostPosted: Wed May 08, 2013 12:03 am     Reply with quote

I do not know English. so I did not understand some of its.

https://github.com/pololu/MinIMU-9-Arduino-AHRS/blob/master/MinIMU9AHRS/MinIMU9AHRS.ino

https://github.com/pololu/MinIMU-9-Arduino-AHRS/blob/master/MinIMU9AHRS/I2C.ino

https://github.com/pololu/MinIMU-9-Arduino-AHRS/blob/master/MinIMU9AHRS/DCM.ino
vrs



Joined: 30 Apr 2013
Posts: 18

View user's profile Send private message

PostPosted: Wed May 08, 2013 12:25 am     Reply with quote

http://forum.pololu.com/viewforum.php?f=6&start=50

http://forum.pololu.com/viewtopic.php?f=3&t=5998
http://forum.pololu.com/viewtopic.php?f=6&t=6058
Display posts from previous:   
Post new topic   This topic is locked: you cannot edit posts or make replies.    CCS Forum Index -> General CCS C Discussion All times are GMT - 6 Hours
Goto page Previous  1, 2, 3  Next
Page 2 of 3

 
Jump to:  
You cannot post new topics in this forum
You cannot reply to topics in this forum
You cannot edit your posts in this forum
You cannot delete your posts in this forum
You cannot vote in polls in this forum


Powered by phpBB © 2001, 2005 phpBB Group