H2M Teststand
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Multiplexer-Test
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Multiplexer-Test
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H2M Teststand
Multiplexer_read.cpp
- Committer:
- O_Shovah
- Date:
- 2015-11-05
- Revision:
- 11:e8386e95c56c
- Parent:
- 7:97edeef32c45
File content as of revision 11:e8386e95c56c:
#include "mbed.h"
//***************************************************************************************************
//Outputs
DigitalOut Multiplex_select_0 (p25);
DigitalOut Multiplex_select_1 (p26);
DigitalOut Myled (LED1);
//DigitalOut timetest_0 (p30);
//DigitalOut timetest_1 (p29);
//BusOut unused(p18);
//***************************************************************************************************
//Inputs
AnalogIn Messkanal_0 (p15);
AnalogIn Messkanal_1 (p16);
AnalogIn DMS_Kanal (p17);
//***************************************************************************************************
//Communication
Serial pc(USBTX, USBRX);
volatile float Motorspannung, Bremsenspannung , Motorstrom, Aux, Bremsenstrom, Temperatur_1, Temperatur_2, Temperatur_3, DMS_Out, DMS_Skalierung;
//***************************************************************************************************
//read sensors via multiplexer
void interr_read_sensors()
{
int Messwert_0 = 0, Messwert_1 = 0;
Multiplex_select_0 = 0, Multiplex_select_1 = 0;
//Selection of Multiplexer states
for (int i=0; i<=4; i++) {
//while(i<=4) {
Multiplex_select_0 = i&0x01;
Multiplex_select_1 = (i>>1)&0x01;
wait(0.001);
Messwert_0 = Messkanal_0.read_u16();
Messwert_1 = Messkanal_1.read_u16();
switch(i) {
case 0: {
Multiplex_select_0 = 0;
Multiplex_select_1 = 0;
wait(0.001);
Temperatur_1 = Messwert_0 ;
Motorspannung = Messwert_1; //* 0.000515 - 0.05 ; Gute Näherung von 2- ~23V. Dannach zu niedrig.Z-Diode
break;
}
case 1: {
Multiplex_select_0 = 1;
Multiplex_select_1 = 0;
wait(0.001);
Temperatur_2 = Messwert_0 ;
Motorstrom = Messwert_1; //* 0.000396 - 4.15;
break;
}
case 2: {
Multiplex_select_0 = 0;
Multiplex_select_1 = 1;
wait(0.001);
Temperatur_3 = Messwert_0;
Bremsenspannung = Messwert_1; //* 0.000515 - 0.05;Gute Näherung von 2- ~23V. Dannach zu niedrig.Z-Diode
break;
}
case 3: {
Multiplex_select_0 = 1;
Multiplex_select_1 = 1;
wait(0.001);
Aux = Messwert_0; // 1629;
Bremsenstrom = Messwert_1; //* 0.00032 - 15.8;
break;
}
}
}
}
//***************************************************************************************************
// MAIN:
int main(void)
{
DMS_Skalierung = 1;
while(true) {
interr_read_sensors();
DMS_Out = DMS_Kanal.read_u16()*DMS_Skalierung;
pc.printf(" [Temperatur1, Motorspannung]; 0 %5.2f deg; 1 %5.2f V;", Temperatur_1, Motorspannung);
pc.printf(" [Temperatur2, Motorstrom]; 0 %5.2f deg; 1 %5.2f A;", Temperatur_2, Motorstrom);
pc.printf(" [Temperatur3, Bremsenspannung]; 0 %5.2f deg; 1 %5.2f V;", Temperatur_3, Bremsenspannung);
pc.printf(" [Aux, Bremsenstrom]; 0 %5.2f ; 1 %5.2f ;", Aux, Bremsenstrom);
pc.printf(" [DMS-Kanal]; 0 %5.2f ;", DMS_Out);
pc.printf(" \r\n\r\n");
wait(1);
}
}