FINAL ACS TO BE USED FOR TESTING. COMMISSIONING, ACS MAIN, DATA ACQ ALL DONE.
Dependencies: FreescaleIAP mbed-rtos mbed
Fork of ACS_FULL_Flowchart_BAE by
Diff: main.cpp
- Revision:
- 13:fb7facaf308b
- Parent:
- 12:af1d7e18b868
- Child:
- 14:a9588f443f1a
--- a/main.cpp Wed Apr 13 18:34:28 2016 +0000 +++ b/main.cpp Wed Apr 13 21:48:21 2016 +0000 @@ -6,8 +6,8 @@ #include "BCN.h" #include "TCTM.h" -#define tm_len 134 -#define tc_len 135 +#define tm_len 135 +#define tc_len 11 #define batt_heat_low 20 //***************************************************** flags *************************************************************// @@ -85,7 +85,7 @@ int write_ack = 1; int read_ack = 1; char telecommand[tc_len]; -char* telemetry; +extern uint8_t telemetry[135]; bool pf1check = 0; bool pf2check = 0; @@ -120,15 +120,20 @@ InterruptIn ir6(PIN80);//Beacon- Switch OC bar InterruptIn ir7(PIN42);//Charger IC - Fault Bar -DigitalOut TRXY_SW_EN(PIN71); //TR XY Switch -DigitalOut DRV_Z_SLP(PIN88); //Sleep pin of driver z +//DigitalOut TRXY_SW_EN(PIN71); //TR XY Switch +//DigitalOut DRV_Z_SLP(PIN88); //Sleep pin of driver z +//DigitalOut TRZ_SW(PIN40); //TR Z Switch +//DigitalOut CDMS_RESET(PIN7); // CDMS RESET +//DigitalOut BCN_SW(PIN14); //Beacon switch +//DigitalOut DRV_XY_SLP(PIN82); + + +DigitalOut TRXY_SW(PIN71); //TR XY Switch +DigitalOut DRV_Z_EN(PIN88); //Sleep pin of driver z DigitalOut TRZ_SW(PIN40); //TR Z Switch DigitalOut CDMS_RESET(PIN7); // CDMS RESET DigitalOut BCN_SW(PIN14); //Beacon switch -DigitalOut DRV_XY_SLP(PIN82); - - - +DigitalOut DRV_XY_EN(PIN82); /*****************************************************************Threads USed***********************************************************************************/ @@ -174,8 +179,8 @@ if(iterP1 >= 3) { ATS2_SW_ENABLE = 1; // turn off ats2 permanently - ACS_DATA_ACQ_ENABLE == 0; - ACS_STATE == 2 ; // check ACS_STATE = ACS_ZAXIS_MOMENT_ONLY + ACS_DATA_ACQ_ENABLE = 0; + ACS_STATE = 2 ; // check ACS_STATE = ACS_ZAXIS_MOMENT_ONLY } else { @@ -188,11 +193,11 @@ { if(iterI1 >= 3) { - TRXY_SW_EN = 0; // turn off TRXY permanently + TRXY_SW = 0; // turn off TRXY permanently } else { - TRXY_SW_EN = 1; //switch on TRXY + TRXY_SW = 1; //switch on TRXY iterI1++; } } @@ -201,7 +206,7 @@ if(iterI2 >= 3) { TRZ_SW = 0; // turn off TRZ permanently - ACS_STATE == 2 ; // check ACS_STATE = ACS_ZAXIS_MOMENT_ONLY + ACS_STATE = 2 ; // check ACS_STATE = ACS_ZAXIS_MOMENT_ONLY } else { @@ -227,7 +232,7 @@ if(ACS_DATA_ACQ_ENABLE == 1)// check if ACS_DATA_ACQ_ENABLE = 1? { - FLAG(); + //FLAG(); FCTN_ATS_DATA_ACQ(); //the angular velocity is stored in the first 3 values and magnetic field values in next 3 pc.printf("gyro values\n\r"); //printing the angular velocity and magnetic field values for(int i=0; i<3; i++) @@ -433,12 +438,15 @@ //FCTN_APPEND_HKDATA(); // pc.printf("\n\r here"); write_ack=slave.write(BAE_chardata,74); + if(write_ack==0) + irpt_2_mstr = 0; } else if(data_send_flag == 't') { - write_ack=slave.write(telemetry,tm_len); + write_ack=slave.write((char*)telemetry,tm_len); data_send_flag = 'h'; - irpt_2_mstr = 0; + if(write_ack==0) + irpt_2_mstr = 0; } } else if( slave.receive()==3 || slave.receive()==2) // slave read @@ -449,8 +457,8 @@ pc.printf("\n\r Executing Telecommand \n"); // FCTN_TC_DECODE((uint8_t*) telecommand); - uint8_t* temp = FCTN_BAE_TM_TC((uint8_t*) telecommand); - telemetry = (char*)temp; + FCTN_BAE_TM_TC((uint8_t*) telecommand); + //telemetry = (char*)temp; FCTN_TM(); t_tc.stop(); @@ -493,16 +501,16 @@ void ir2clear() { actual_data.faultIr_status |= 0x02; - TRXY_SW_EN = 0; // Switch off TR XY + TRXY_SW = 0; // Switch off TR XY if1check = 1; } void ir3clear() { actual_data.faultIr_status |= 0x04; - DRV_Z_SLP = 0; + DRV_Z_EN = 0; wait_us(1); - DRV_Z_SLP = 1; + DRV_Z_EN = 1; } @@ -560,9 +568,9 @@ if (pf3==0) { actual_data.faultPoll_status |=0x04 ; - DRV_XY_SLP = 0; + DRV_XY_EN = 0; wait_us(1); - DRV_XY_SLP = 1; + DRV_XY_EN = 1; } else actual_data.faultPoll_status &= 0xFB; @@ -614,12 +622,12 @@ } if(schedcount%1==0) { - F_ACS(); + //F_ACS(); } if(schedcount%2==0) { - F_EPS(); + // F_EPS(); } if(schedcount%3==0) { @@ -741,17 +749,23 @@ { printf("\n\r Initialising BAE "); //..........intial status....// - ACS_STATE = '4'; + ACS_STATE = 4; ACS_ATS_ENABLE = 1; ACS_DATA_ACQ_ENABLE = 1; EPS_BATTERY_HEAT_ENABLE = 1; + actual_data.power_mode=3; //............intializing pins................// ATS1_SW_ENABLE = 0; ATS2_SW_ENABLE = 1; + + DRV_XY_EN = 1; + DRV_Z_EN = 1; + TRZ_SW = 1; + TRXY_SW = 1; //............................// FCTN_ACS_INIT(); - FCTN_EPS_INIT(); + // FCTN_EPS_INIT(); FCTN_BCN_INIT(); @@ -761,7 +775,7 @@ int main() { pc.printf("\n\r BAE Activated. Testing Version 1.1 \n"); - + CDMS_RESET = 1; /* if (BCN_FEN == 0) //dummy implementation { pc.printf("\n\r RF silence "); @@ -773,8 +787,10 @@ //ACS_INIT_STATUS = 0; //ACS_DATA_ACQ_STATUS = 0; + + - FLAG(); + //FLAG(); FCTN_BAE_INIT(); @@ -789,18 +805,18 @@ irpt_4m_mstr.enable_irq(); irpt_4m_mstr.rise(&FCTN_I2C_ISR); // ir1.fall(&ir1clear); //Battery Gauge - Alert Bar Signal - ir2.fall(&ir2clear); //TRXY Driver TR switch Fault - ir3.fall(&ir3clear); //TRZ Driver Fault Bar - ir4.fall(&ir4clear); //TRZ Driver TR switch Fault - ir5.fall(&ir5clear); //CDMS - Switch Fault - ir6.fall(&ir6clear); //Beacon- Switch OC bar - ir7.fall(&ir7clear); //Charger IC - Fault Bar + //ir2.fall(&ir2clear); //TRXY Driver TR switch Fault + //ir3.fall(&ir3clear); //TRZ Driver Fault Bar + //ir4.fall(&ir4clear); //TRZ Driver TR switch Fault + //ir5.fall(&ir5clear); //CDMS - Switch Fault + //ir6.fall(&ir6clear); //Beacon- Switch OC bar + //ir7.fall(&ir7clear); //Charger IC - Fault Bar RtosTimer t_sc_timer(T_SC,osTimerPeriodic); // Initiating the scheduler thread t_sc_timer.start(10000); t_start.start(); pc.printf("\n\rStarted scheduler %f\n\r",t_start.read()); - ATS1_SW_ENABLE = 0; // att sens2 switch is enabled + //FCTN_BAE_INIT(); while(1); //required to prevent main from terminating }