A Clark
/
RF_ID_Final
Log Test Code. Round 2
Fork of RF_ID by
Diff: AntennaLog.cpp
- Revision:
- 3:9b47638100af
- Child:
- 4:5513c0e9fa1a
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/AntennaLog.cpp Tue Apr 08 21:01:31 2014 +0000 @@ -0,0 +1,85 @@ +#include "mbed.h" +#define PI 3.1415 +#include "C12832.h" + +LocalFileSystem local("local"); // Create the local filesystem under the name "local" + +C12832 lcd(p5, p7, p6, p8, p11); + +Timer t; + +AnalogIn ain_v1(p19); // Input voltage from antenna + + // Global variables declared + float v1, m, b, p_in, Pt, Gt, Gr, Pr, f, c, r; + float lv_r[250], lv_v1[250]; + int k; + +int main() +{ + + // Open logging file + FILE *fp = fopen("/local/mBedOutp.m", "w"); + + //logging setup + for(k=0;k<250;k++) + { + lv_r[k] = 0.0; + lv_v1[k] = 0.0; + } + k = 0; + + t.start(); + while(k<250) + { + // Voltage to Power calculations + v1 = ain_v1*3.33; // ain_v1; // Comes from antenna (Can adjust manually for now) (3.3 is for scaling voltage properly... ask Feemster why this is necessary. + b = 2.095; // (volts) Direct function generator measurement + m = .0316; // volts/dBm (Calculated at 2000 MHz and 0 and -40 dBm) + p_in = (v1-b)/m; // Derived from v = m*p+b (linear relationship of voltage and power) + + // Range equation Terms + Pt = .0398; //(watts or 1mW or 0 dBm) Power Transmitted. This is ~16 dBm (.0398 watts) for an iphone 5 + Gt = 1; // Unitless (1 for FG) Shouldn't both of these gains be 'directive' gains, not power gains + Gr = .007; // (.007) (7 mW) How do we get this? 7 milliwatt? + Pr = pow(10, ((p_in-30)/10)); // (watts) + + // Free Space Loss Terms + f = 2400000000; // (Hz) This will be constant for a phone... but what to put for the FG + c = 300000000; // m/s + + r = (c*(sqrt(Pt*Gt*Gr)/Pr))/(4*PI*f); + + printf("\rRange (meters) = %.3f\n\r",r); + //printf("Power (watts) = %.3f\n\r",Pr); + printf("Voltage into mBed = %.4f\n\r",v1); + //printf("%.4f\n\r",v1); + + lcd.cls(); + lcd.locate(0,3); + lcd.printf("Voltage (volts) = %.4f",v1); + + lcd.locate(0,15); + lcd.printf("Range (meters) = %.4f",r); + + //LOG stuff + if(k<250) + { lv_r[k] = r; + lv_v1[k] = v1; + k++; + } + + } // End of while======================================================= + + if(1) + { + + for(k=0;k<250;k++) + { fprintf(fp,"lv.r(%d,1) = %.3f;\n",k+1,lv_r[k]); + fprintf(fp,"lv.v1(%d,1) = %.4f;\n",k+1,lv_v1[k]); + } + + }// End of IF loop + + fclose(fp); +} // End of main loop======================================================= \ No newline at end of file