H2M Teststand
Kalibriersoftware Stromwerte
Revision 1:ea5f520dcdc1, committed 2015-11-28
- Comitter:
- Racer01014
- Date:
- Sat Nov 28 13:50:31 2015 +0000
- Parent:
- 0:5e35c180ed4a
- Commit message:
- -
Changed in this revision
| Pruefprogramm_Motorteststand.cpp | Show annotated file Show diff for this revision Revisions of this file |
--- a/Pruefprogramm_Motorteststand.cpp Mon Nov 23 16:09:54 2015 +0000
+++ b/Pruefprogramm_Motorteststand.cpp Sat Nov 28 13:50:31 2015 +0000
@@ -1,23 +1,63 @@
#include "mbed.h"
#include "Matrix.h"
#include "USBSerial.h"
+#include "Ticker.h"
+
+//************************************* DEFINES *****************************************************
+
+#define PI 3.1415926
+#define Gravity 9.81
+
+//***************************************************************************************************
+//Current_Factors ------- Calibrated in A (Ampere)
+
+#define Mot_curr_fac 0.00039021 // Factor for calculation
+#define Mot_curr_off 10034.87 // Offset
+
+#define Bra_curr_fac 0.00028048
+#define Bra_curr_off 49481.61 // Offset
+
+//***************************************************************************************************
+//Voltage_Factors ------- Calibrated in V (Volt)
+
+#define Mot_volt_fac 0.00050860 // Factor for calculation
+#define Mot_volt_off 25.80 // Offset
+
+#define Bra_volt_fac 0.00051015 // Factor for calculation
+#define Bra_volt_off 33.63 // Offset
+
+//***************************************************************************************************
+//DMS_Factors ------- Calibrated in g (Gramm)
+
+#define DMS_fac 0.019467 // Factor for calculation, gives back gramms
+#define DMS_off 1629.33 // Offset
+
+//*******LEVER********
+#define Lever 0.05 // Length of lever
//***************************************************************************************************
//Outputs
DigitalOut Multiplex_select_A (p26);
DigitalOut Multiplex_select_B (p25);
-DigitalOut Myled (LED1);
-
+DigitalOut File(LED1);
//***************************************************************************************************
//Inputs
AnalogIn Messkanal_X (p15);
AnalogIn Messkanal_Y (p16);
-AnalogIn DMS_Kanal (p17);
+AnalogIn Messkanal_DMS (p17);
+
+//***************************************************************************************************
+//Interrupts
-//DigitalIn Start(p22);
+InterruptIn Lichtschranke(p29);
+
+//***************************************************************************************************
+//Ticker
+
+Ticker Puls;
//***************************************************************************************************
//PWM
@@ -25,17 +65,23 @@
PwmOut Motor(p23);
PwmOut Bremse(p21);
-
-
//***************************************************************************************************
//Communication
Serial pc(USBTX, USBRX);
-//USBSerial terminal;
+//***************************************************************************************************
+//File System
+
+LocalFileSystem local("local");
+
+//***************************************************************************************************
+//Variablen
-volatile float Motorspannung, Bremsenspannung , Motorstrom, An_In_0, Bremsenstrom, Temperatur_0, Temperatur_1, Temperatur_2, DMS_Out, DMS_Skalierung;
+volatile float rps_old, rps, time_passed, Motorspannung, Bremsenspannung , Motorstrom, An_In_0, Bremsenstrom, Temperatur_0, Temperatur_1, Temperatur_2, DMS_Out;
+volatile float P_Mech[2000], P_Elec[2000], PE, PM, eta;
+float counter = 0;
//***************************************************************************************************
@@ -46,26 +92,28 @@
Multiplex_select_A = 0;
Multiplex_select_B = 0;
- wait_ms(1);
+ wait_us(1);
An_In_0 = Messkanal_X.read_u16();
- Motorspannung = Messkanal_Y.read_u16(); //* 0.000515 - 0.05 ; Gute Näherung von 2- ~23V. Dannach zu niedrig.Z-Diode
-
+ Motorspannung = (Messkanal_Y.read_u16()-Mot_volt_off) * Mot_volt_fac;
+
Multiplex_select_A = 1;
- wait_ms(1);
+ wait_us(1);
Temperatur_0 = Messkanal_X.read_u16();
- Motorstrom = Messkanal_Y.read_u16(); //* 0.000396 - 4.15;
-
+ Motorstrom = (Messkanal_Y.read_u16() - Mot_curr_off) * Mot_curr_fac;
+
Multiplex_select_A = 0;
Multiplex_select_B = 1;
- wait_ms(1);
+ wait_us(1);
Temperatur_1 = Messkanal_X.read_u16();
- Bremsenspannung = Messkanal_Y.read_u16(); //* 0.000515 - 0.05;Gute Näherung von 2- ~23V. Dannach zu niedrig.Z-Diode
-
+ Bremsenspannung = (Messkanal_Y.read_u16() - Bra_volt_off) * Bra_curr_fac;
+
Multiplex_select_A = 1;
- wait_ms(1);
- Temperatur_2 = Messkanal_X.read_u16(); // 1629;
- Bremsenstrom = Messkanal_Y.read_u16(); //* 0.00032 - 15.8;
-
+ wait_us(1);
+ Temperatur_2 = Messkanal_X.read_u16();
+ Bremsenstrom = (Messkanal_Y.read_u16() - Bra_curr_off) * Bra_curr_fac;
+
+ DMS_Out = (Messkanal_DMS.read_u16() - DMS_off) * DMS_fac;
+
}
//***************************************************************************************************
@@ -75,84 +123,141 @@
{
int Temp_max;
read_sensors();
-
+
if( (Temperatur_0 < Temp_max) && (Temperatur_1 < Temp_max) && (Temperatur_2 < Temp_max))
return(0);
else
return(1);
-
}
-
+
//***************************************************************************************************
//Checkup @ Start
int checkup()
{
- return(1);
-}
+ return(1);
+}
+//***************************************************************************************************
+//Increase Counter to get rpm
+
+void rpm_counter()
+{
+ counter++;
+}
//***************************************************************************************************
//send values
void send_data(void)
{
-// pc.printf(" [Temperatur1, Motorspannung]; 0 %5.2f deg; 1 %5.2f V;", Temperatur_0, Motorspannung);
-// pc.printf(" [Temperatur2, Motorstrom]; 0 %5.2f deg; 1 %5.2f A;", Temperatur_1, Motorstrom);
-// pc.printf(" [Temperatur3, Bremsenspannung]; 0 %5.2f deg; 1 %5.2f V;", Temperatur_2, Bremsenspannung);
-// pc.printf(" [Aux, Bremsenstrom]; 0 %5.2f ; 1 %5.2f ;", An_In_0, Bremsenstrom);
-// pc.printf(" [DMS-Kanal]; 0 %5.2f ;", DMS_Out);
- pc.printf(" [Motorstrom, Bremsenstrom]; 0 %5.2f ; 1 %5.2f ;", Motorstrom, Bremsenstrom);
+ /*
+ pc.printf(" [Temperatur1, Motorspannung]; 0 %5.2f deg; 1 %5.2f V;", Temperatur_0, Motorspannung);
+ pc.printf(" [Temperatur2, Motorstrom]; 0 %5.2f deg; 1 %5.2f A;", Temperatur_1, Motorstrom);
+ pc.printf(" [Temperatur3, Bremsenspannung]; 0 %5.2f deg; 1 %5.2f V;", Temperatur_2, Bremsenspannung);
+ pc.printf(" [Aux, Bremsenstrom]; 0 %5.2f ; 1 %5.2f ;", An_In_0, Bremsenstrom);
+ pc.printf(" [DMS-Kanal]; 0 %5.2f ;", DMS_Out);
+ pc.printf(" [Temp_1, Temp_2]; %5.2f deg; %5.2f deg;", Temperatur_0, Temperatur_1);
+ pc.printf(" [Temp_3, Analog_0; %5.2f deg; %5.2f deg;", Temperatur_2, An_In_0);
+ */
+ pc.printf(" [Motorstrom, Motorspannung]; %5.2f A ; %5.2f A ;", Motorstrom, Motorspannung);
+ pc.printf(" [Bremsenstrom, Bremsenspannung]; %5.2f V ; %5.2f V ;", Bremsenstrom, Bremsenspannung);
+ pc.printf(" [Kraft]; %5.2f ;", DMS_Out);
+ pc.printf(" [rps]; %5.2f ;", rps);
+ pc.printf(" [P_Mech, P_Elec]; %5.2f W ; %5.2f W ;", PM, PE );
+ pc.printf(" [rpm]; %5.2f ;", rps*60);
+ pc.printf(" [eta]; %5.2f ;", eta);
pc.printf(" \r\n\r\n");
- wait_ms(50);
+// wait_ms(5);
}
-
+
+//***************************************************************************************************
+//calc rpm
+
+void calc_rps()
+{
+ rps = counter/5;
+ counter=0;
+ rps_old = rps;
+}
+
//***************************************************************************************************
// MAIN:
-
-
-
int main(void)
{
//********************* VARIABLEN *****************************
-
- DMS_Skalierung = 1;
- Motor.period_us(200);
+
+
+ bool lock = 0;
+//
+ time_passed=0;
+ Motor.period_us(200);
Bremse.period_us(200);
-
-
+ Motor.pulsewidth_us(100);
+ Bremse.pulsewidth_us(193);
// Matrix Values(1,4);
-
+ File=0;
+ Lichtschranke.fall(&rpm_counter); // Call function rpm_counter
+ Puls.attach(&calc_rps, 1.0);
+ wait(3);
+ //FILE *fp = fopen("/local/Values.txt", "w");
+ // fprintf(fp, "Motorstrom [A], Motorspannung [V], Bremsenstrom [A], Bremsenspannung [V], Kraft [g], Umdrehungen [1/s] \r\n");
//************************ MAIN ********************************
-
-while(true)
- {
- Motor.pulsewidth_us(0);
- Bremse.pulsewidth_us(0);
- read_sensors();
- send_data();
-
- DMS_Out = DMS_Kanal.read_u16()*DMS_Skalierung;
-
- //safety();
+
+ while(1) {
- Myled=!Myled;
- wait_ms(500);
-
+
+ for (int i = 0; i<2000; i++) {
+ read_sensors();
+ P_Elec[i] = Motorstrom * Motorspannung;
+ P_Mech[i] = ((DMS_Out / 1000) * Lever * Gravity * 2 * PI * rps);
+ }
+
+ for (int i = 0; i<2000; i++) {
+ PE = P_Elec[i] + PE;
+ PM = P_Mech[i] + PM;
+ }
+ PE = PE / 2000;
+ PM = PM / 2000;
+ eta = PM / PE;
+ send_data();
+
+ /*
+ wait_ms(500);
+
+ if(((rps - rps_old) < 1) && lock) {
+ lock = 0;
+ File = 1;
+ fprintf(fp, "\r\n");
+
+ for (int b=0; b<1000; b++) {
+ read_sensors();
+ File = !File;
+ fprintf(fp, "%5.2f; %5.2f; ", Motorstrom, Motorspannung);
+ fprintf(fp, "%5.2f; %5.2f; ", Bremsenstrom, Bremsenspannung);
+ fprintf(fp, "%5.2f; %5.2f; ", DMS_Out, rps);
+ fprintf(fp, "\r\n");
+ File = !File;
+ }
+ fclose(fp);
+ File = 0;
+ Motor.pulsewidth_us(200);
+
+ }
+ */
+
+
//********************* Messprozedur ****************************
//*********************
-
-
-
-}
-
+ }
+
}
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