Repository for CDMS code
Dependencies: SimpleDMA mbed-rtos mbed eeprom
Fork of COM_MNG_TMTC_SIMPLE by
Diff: CDMS_HK.h
- Revision:
- 221:2efc13ccbe4c
- Parent:
- 105:5ce0337e7c15
diff -r d2ac4580960d -r 2efc13ccbe4c CDMS_HK.h --- a/CDMS_HK.h Sat Jul 02 14:25:11 2016 +0000 +++ b/CDMS_HK.h Mon Jul 04 07:53:00 2016 +0000 @@ -1,17 +1,24 @@ -//#include "cdms_rtc.h" -#include "pinconfig.h" + void FCTN_CDMS_HK_MAIN(); void FCTN_CDMS_HK(); -//extern uint8_t CDMS_HK_STATUS; -//extern uint8_t Power_level; -//extern uint8_t Att_level; -//extern char CDMS_HK[8]; +void VERIFY_COMRX(); +void VERIFY_RTC(); +void CDMS_HK_SD(); +void HANDLE_HW_FAULTS(); +void HANDLE_HW_FAULT_SD(); +void HANDLE_HW_FAULT_BAE(); +void HANDLE_HW_FAULT_PL(); +void FUNC_CDMS_GPIO_STATUS(); +void minMaxHkData(); +void COLLECT_CDMS_RAM(); Serial hk_cdms(USBTX, USBRX); -AnalogIn TempInput(PIN27); // Input from Current Multiplexer +AnalogIn TempInput(PIN27); // Input from Current Multiplexer AnalogIn CDMS_temp_sensor(PIN53); +AnalogIn COMRX_RSSI_volatge(PIN70); + DigitalOut SelectLinec3 (PIN79); // MSB of Select Lines DigitalOut SelectLinec2 (PIN78); @@ -20,74 +27,118 @@ void FCTN_CDMS_HK_MAIN(void const *args) { -// CDMS_HK_STATUS=(CDMS_HK_STATUS)|(HK_MAIN_STATUS); - FCTN_CDMS_HK; - hk_cdms.printf(" \r\nCDMS HK entered Verify COM RX RSSI >0.4 \r\n"); - - int HK_I2C; - char BAE_HK[74]; - FCTN_I2C_READ(BAE_HK,74); - printf("BAE_HK=%s",BAE_HK); - /*if(HK_I2C==0) - { - if(Power_level!=0) - { - printf("Update Power_level to 0 in Flash"); - } - Att_level=0; - CDMS_HK_STATUS=(CDMS_HK_STATUS)|(HK_BAE_ERR_I2C); - CDMS_HK_STATUS=(CDMS_HK_STATUS)&(~(HK_MAIN_STATUS)); - }**/ - uint8_t CDMS_quant[17]; - // printf("BAE HK is %s",BAE_HK); - for(int i=0;i<16;i++) - { - CDMS_quant[i]= (uint8_t)quant_data.temp_quant[i]; - } - CDMS_quant[16]= (uint8_t)quant_data.CDMS_temp_quant; - uint64_t time=0x00;//replace with rtc function - char tree[61]; - hk_cdms.printf("i am done\r\n"); - uint8_t data[512]; - for(int i=0;i<512;i++) - { - data[i]=0x00; - } - tree[0]=(char)(time>>(56))&(0xFF); - tree[1]=(char)(time>>(48))&(0xFF); - tree[2]=(char)(time>>(40))&(0xFF); - tree[3]=(char)(time>>(32))&(0xFF); - tree[4]=(char)(time>>(24))&(0xFF); - tree[5]=(char)(time>>(16))&(0xFF); - tree[6]=(char)(time>>(8))&(0xFF); - tree[7]=(char)(time)&(0xFF); - for(int i=0;i<73;i++) - { - tree[i+8]=BAE_HK[i]; - } - printf("Hope u r alive \r\n"); - for(int i=0;i<81;i++) - { - data[i]=(uint8_t)tree[i]; - } - for(int i=81;i<98;i++) - { - data[i]=CDMS_quant[i]; - } - for(int i=0;i<512;i++) - { - printf("%d",data[i]); - } - //uint8_t fsc=FCTN_SD_MNGR(0x3); - //printf("FSC where SD is written is %d\r\n",fsc); - //int a=SD_WRITE(data,0x00000012,0x3); - //printf("Result of writing is %d \r\n",a); - //BCN long frame ??? - //CDMS_HK_STATUS=(CDMS_HK_STATUS)&(~(HK_MAIN_STATUS)); - hk_cdms.printf("CDMS executed succesfully\r\n"); -} + + unsigned char CDMS_HK_FRAME[134] = {0}; + char BAE_HK[128] = {0}; + uint8_t convoluted_CDMS_HK[270]; + uint8_t interleave_CDMS_HK[288]; + uint8_t CDMS_HEALTH_FINAL[512] = {0}; + uint8_t convoluted_BAE_HK[270]; + uint8_t interleave_BAE_HK[288]; + uint8_t BAE_HEALTH_FINAL[512] = {0}; + unsigned char BAE_HK_FRAME[134] = {0}; + + CDMS_HK_MAIN_STATUS = 0x01; + CDMS_HK_MAIN_COUNTER++; + + FCTN_CDMS_HK(); + RSSI_volatge = COMRX_RSSI_volatge.read() * 3.3; + VERIFY_COMRX(); + VERIFY_RTC(); + HANDLE_HW_FAULTS(); + FUNC_CDMS_GPIO_STATUS(); //yet to be done + + uint8_t CDMS_quant[19]; + for(int i=0; i<16; i++) { + CDMS_quant[i]= (uint8_t)quant_data.temp_quant[i]; + } + CDMS_quant[16]= (uint8_t)RSSI_volatge; + CDMS_quant[17]= (uint8_t)quant_data.CDMS_temp_quant; + minMaxHkData(); + + uint64_t time = FCTN_CDMS_RD_RTC(); //Reading Time from RTC + time = time>>7; + uint32_t HK_time = (uint32_t)time; + for(int i = 0; i<4; i++) + CDMS_HEALTH_DATA[i] = HK_time >> i; + + // Here: Have to FIT flash data. + for(int i = 0; i<19; i++) //Collecting Data from Temp sensors + CDMS_HEALTH_DATA[i+24] = CDMS_quant[i]; + + COLLECT_CDMS_RAM(); //Reading RAM parameters + + CDMS_HEALTH_DATA[126] = GPIO_STATUS; //Reading GPIO Pins + CDMS_HEALTH_DATA[127] = GPIO_STATUS >> 8; + + FCTN_SD_MNGR(); //Adding FSC & TMID to TM frame + CDMS_HK_FRAME[0] = 0x20; + CDMS_HK_FRAME[1] = FSC_CURRENT[4]+1; + CDMS_HK_FRAME[2] = (FSC_CURRENT[4]+1) >> 8; + CDMS_HK_FRAME[3] = (FSC_CURRENT[4]+1) >> 16; + + for(int i = 0; i<128; i++) /*Adding actual CDMS Health data to TM frame*/ + CDMS_HK_FRAME[4+i] = CDMS_HEALTH_DATA[i]; + + uint16_t crc = crc16_gen(CDMS_HK_FRAME,132); /*Adding CRC to TM frame*/ + CDMS_HK_FRAME[133] = crc; + CDMS_HK_FRAME[132] = crc >> 8; + + Convolution CDMS_HEALTH; + Convolution BAE_HEALTH; + CDMS_HEALTH.convolutionEncode(CDMS_HK_FRAME , convoluted_CDMS_HK); + CDMS_HEALTH.convolutionEncode(CDMS_HK_FRAME + 67, convoluted_CDMS_HK + 135); + interleave(convoluted_CDMS_HK , interleave_CDMS_HK); + interleave(convoluted_CDMS_HK +135, interleave_CDMS_HK + 144); + for(int i=0; i<288; i++) + CDMS_HEALTH_FINAL[i] = interleave_CDMS_HK[i]; + + SD_WRITE(CDMS_HEALTH_FINAL,FSC_CURRENT[4]+1,4); + hk_cdms.printf("CDMS hk succesfully completed\r\n"); + /*---------------------------------- BAE HK --------------------------------------------*/ + + + BAE_HK_I2C = FCTN_I2C_READ(BAE_HK,134); + if(BAE_HK_I2C == 0) { + TIME_LATEST_I2C_BAE = FCTN_CDMS_RD_RTC() >> 7; + hk_cdms.printf("Bae hk data received"); + } else { + for(int i = 0; i<128; i++) + BAE_HK[i] = 0; + } + for(int i = 0; i<4; i++) + BAE_HK[i] = HK_time >> i; + BAE_HK_FRAME[0] = 0x28; + BAE_HK_FRAME[1] = FSC_CURRENT[5]+1; + BAE_HK_FRAME[2] = (FSC_CURRENT[5]+1) >> 8; + BAE_HK_FRAME[3] = (FSC_CURRENT[5]+1) >> 16; + for(int i = 0; i<128; i++) /*Adding actual CDMS Health data to TM frame*/ + BAE_HK_FRAME[4+i] = BAE_HK[i]; + crc = crc16_gen(BAE_HK_FRAME,132); /*Adding CRC to TM frame*/ + BAE_HK_FRAME[133] = crc; + BAE_HK_FRAME[132] = crc >> 8; + BAE_HEALTH.convolutionEncode(BAE_HK_FRAME , convoluted_BAE_HK); + BAE_HEALTH.convolutionEncode(BAE_HK_FRAME + 67, convoluted_BAE_HK + 135); + interleave(convoluted_BAE_HK , interleave_BAE_HK); + interleave(convoluted_BAE_HK +135, interleave_BAE_HK + 144); + for(int i=0; i<288; i++) + BAE_HEALTH_FINAL[i] = interleave_BAE_HK[i]; + SD_WRITE(BAE_HEALTH_FINAL,FSC_CURRENT[5]+1,5); + hk_cdms.printf("BAE hk succesfully completed\r\n"); + + /*----------------------------------Beacon message--------------------------------------*/ + unsigned char SC_HK_LBM_0[135]; + SC_HK_LBM_0[0] = 0; // Sending long beacon msg as telecommand with Packet sequence count 0x00 + // Add HK bits + + // Add SC bits + crc = crc16_gen(SC_HK_LBM_0,133); + SC_HK_LBM_0[132] = crc; + SC_HK_LBM_0[133] = crc >> 8; + FCTN_I2C_WRITE((char *)SC_HK_LBM_0,135); +} int quantiz(float start,float step,float x) { @@ -97,53 +148,41 @@ return y; } - - -void saveMin(char x,char y){ - if(y<x){ - x=y; - } - +char saveMin(char x,char y) +{ + return (y<x)?y:x; } -void saveMax(char x,char y){ - if (y>x) - { - x=y; - } + +char saveMax(char x,char y) +{ + return (y>x)?y:x; } -void minMaxHkData(){ - - - - if(firstCount==true){ - for (int i = 0; i < 16; ++i){ - min_max_data.temp_min[i] = quant_data.temp_quant[i]; - min_max_data.temp_max[i] = quant_data.temp_quant[i]; + +void minMaxHkData() +{ + if(firstCount==true) { + for (int i = 0; i < 16; ++i) { + min_max_data.temp_min[i] = quant_data.temp_quant[i]; + min_max_data.temp_max[i] = quant_data.temp_quant[i]; } min_max_data.CDMS_temp_min=quant_data.CDMS_temp_quant; min_max_data.CDMS_temp_max=quant_data.CDMS_temp_quant; - - + } else { + for (int i = 0; i < 16; ++i) { + min_max_data.temp_min[i] = saveMin(min_max_data.temp_min[i],quant_data.temp_quant[i]); + min_max_data.temp_max[i] = saveMax(min_max_data.temp_max[i],quant_data.temp_quant[i]); + } + + min_max_data.CDMS_temp_min = saveMin(min_max_data.CDMS_temp_min,quant_data.CDMS_temp_quant); + min_max_data.CDMS_temp_max = saveMax(min_max_data.CDMS_temp_max,quant_data.CDMS_temp_quant); } - else { - for (int i = 0; i < 16; ++i) - { - saveMin(min_max_data.temp_min[i],quant_data.temp_quant[i]); - saveMax(min_max_data.temp_max[i],quant_data.temp_quant[i]); - } - - saveMin(min_max_data.CDMS_temp_min,quant_data.CDMS_temp_quant); - saveMax(min_max_data.CDMS_temp_max,quant_data.CDMS_temp_quant); - - - } firstCount=false; } void FCTN_CDMS_HK() { - + int Iteration=0; SelectLinec0=0; @@ -151,7 +190,7 @@ SelectLinec2=0; SelectLinec3=0; - for(Iteration=0; Iteration<16; Iteration++){ + for(Iteration=0; Iteration<16; Iteration++) { actual_data.temp_actual[Iteration]=TempInput.read(); @@ -161,43 +200,234 @@ if(Iteration%4==3) SelectLinec2=!(SelectLinec2); if(Iteration%8==7) - SelectLinec3=!(SelectLinec3); + SelectLinec3=!(SelectLinec3); } -actual_data.CDMS_temp_actual=(-90.7*3.3*CDMS_temp_sensor.read())+190.1543; - - for(Iteration=0;Iteration<16;Iteration++){ + actual_data.CDMS_temp_actual=(-90.7*3.3*CDMS_temp_sensor.read())+190.1543; - if(Iteration<14){ + for(Iteration=0; Iteration<16; Iteration++) { + + if(Iteration<14) { actual_data.temp_actual[Iteration]=actual_data.temp_actual[Iteration]*3.3; - int resistance; - + int resistance; + resistance=24000*actual_data.temp_actual[Iteration]/(3.3-actual_data.temp_actual[Iteration]); - if(actual_data.temp_actual[Iteration]>1.47) - { + if(actual_data.temp_actual[Iteration]>1.47) { actual_data.temp_actual[Iteration]=3694/log(24.032242*resistance); - } - else{ - + } else { + actual_data.temp_actual[Iteration]=3365.4/log(7.60573*resistance); } - } - else + } else actual_data.temp_actual[Iteration]=(-90.7*3.3*actual_data.temp_actual[Iteration])+190.1543; } - for(Iteration=0;Iteration<16;Iteration++){ + for(Iteration=0; Iteration<16; Iteration++) { - if(Iteration<14){ + if(Iteration<14) { quant_data.temp_quant[Iteration]=quantiz(tstart_thermistor,tstep_thermistor,actual_data.temp_actual[Iteration]); - } - else + } else quant_data.temp_quant[Iteration]=quantiz(tstart,tstep,actual_data.temp_actual[Iteration]); } quant_data.CDMS_temp_quant=quantiz(tstart,tstep,actual_data.CDMS_temp_actual); minMaxHkData(); +} + +void FUNC_CDMS_GPIO_STATUS() //Polls the status of Input GPIO PINS +{ + //V_A_PGOOD //TRZ EN + GPIO_STATUS=(V_A_PGOOD)?(GPIO_STATUS)||((uint16_t)(0x1<<15)):(GPIO_STATUS)&(~((uint16_t)(0x1<<15))); + //V_B_PGOOD_1 //3V3BPGOOD //$ + GPIO_STATUS=(V_B_PGOOD_1)?(GPIO_STATUS)||((uint16_t)(0x1<<14)):(GPIO_STATUS)&(~((uint16_t)(0x1<<14))); + //V_B_PGOOD_2 //3V3BEN //$ + GPIO_STATUS=(V_B_PGOOD_2)?(GPIO_STATUS)||((uint16_t)(0x1<<13)):(GPIO_STATUS)&(~((uint16_t)(0x1<<13))); + //V_C_PGOOD //3V3CPGOOD //$ + GPIO_STATUS=(V_C_PGOOD)?(GPIO_STATUS)||((uint16_t)(0x1<<12)):(GPIO_STATUS)&(~((uint16_t)(0x1<<12))); + //COMRX_OC_FAULT //$ + GPIO_STATUS=(COMRX_OC_FAULT)?(GPIO_STATUS)||((uint16_t)(0x1<<11)):(GPIO_STATUS)&(~((uint16_t)(0x1<<11))); + // COMTX_OC_FAULT //$ + GPIO_STATUS=(COMTX_OC_FAULT)?(GPIO_STATUS)||((uint16_t)(0x1<<10)):(GPIO_STATUS)&(~((uint16_t)(0x1<<10))); + //BAE_OC_FAULT //$ + GPIO_STATUS=(BAE_OC_FAULT)?(GPIO_STATUS)||((uint16_t)(0x1<<9)):(GPIO_STATUS)&(~((uint16_t)(0x1<<9))); + //PL_GPIO_1_STATUS //$ + GPIO_STATUS=(PL_GPIO_1_STATUS)?(GPIO_STATUS)||((uint16_t)(0x1<<8)):(GPIO_STATUS)&(~((uint16_t)(0x1<<8))); + //PL_GPIO_2_STATUS //$ + GPIO_STATUS=(PL_GPIO_2_STATUS)?(GPIO_STATUS)||((uint16_t)(0x1<<7)):(GPIO_STATUS)&(~((uint16_t)(0x1<<7))); + //PL_GPIO_3_STATUS //$ + GPIO_STATUS=(PL_GPIO_3_STATUS)?(GPIO_STATUS)||((uint16_t)(0x1<<6)):(GPIO_STATUS)&(~((uint16_t)(0x1<<6))); + //PL_BEE_SW_OC_FAULT //to be verified + GPIO_STATUS=(PL_BEE_SW_OC_FAULT)?(GPIO_STATUS)||((uint16_t)(0x1<<5)):(GPIO_STATUS)&(~((uint16_t)(0x1<<5))); + //PL_EPS_LATCH_SW_OC_FAULT // to be verified + GPIO_STATUS=(PL_EPS_LATCH_SW_OC_FAULT)?(GPIO_STATUS)||((uint16_t)(0x1<<4)):(GPIO_STATUS)&(~((uint16_t)(0x1<<4))); + +} + +void VERIFY_COMRX() +{ + //COMRX_OC_FAULT //$ + if(PIN68==0 && RSSI_volatge > 0.4) { + COMRX_STATUS = COMRX_ALIVE; + } else { + RESET_COMRX(); + COMRX_RESET_COUNTER++; + if(PIN68==0 && RSSI_volatge > 0.4) + COMRX_STATUS = COMRX_ALIVE; + else + COMRX_STATUS = COMRX_DEAD; + } +} + +void VERIFY_RTC() +{ + + if(RTC_STATUS == 0x00) { + SPI_mutex.lock(); + gCS_RTC=1; + gCS_RTC=0; + spi.write(0x0F); + if(spi.write(0x00) & 0x04 == 0x04) { + RTC_STATUS = 0x00; + RESET_RTC(); + RTC_FAULTCOUNT++; + } + gCS_RTC=1; + SPI_mutex.unlock(); + } +} + +void HANDLE_HW_FAULTS() +{ + HANDLE_HW_FAULT_SD(); + HANDLE_HW_FAULT_BAE(); + HANDLE_HW_FAULT_PL(); +} + +void HANDLE_HW_FAULT_SD() +{ + if(SD_STATUS != DEVICE_DISABLED) { + if(SD_STATUS == DEVICE_OC_FAULT) + SD_SW_EN_DS = 0; //powering on SD + + if(SD_OC_FAULT == 0) { + SD_SW_EN_DS = 1; //switching off SD card + + SD_FAULTCOUNT++; + SD_STATUS = (SD_FAULTCOUNT == 3) ? DEVICE_DISABLED :DEVICE_OC_FAULT; + } else { + SD_STATUS = DEVICE_POWERED; + SD_FAULTCOUNT = 0; + } + } +} + +void HANDLE_HW_FAULT_BAE() +{ + if(BAE_STATUS != DEVICE_DISABLED) { + if(BAE_STATUS == DEVICE_OC_FAULT) + BAE_SW_EN_DS = 0; //Power ON BAE + + if(BAE_OC_FAULT == 0) { // If OC Fault + BAE_SW_EN_DS = 1; //Switch OFF BAE + BAE_FAULTCOUNT++; + BAE_STATUS = (BAE_FAULTCOUNT == 3)?DEVICE_DISABLED:DEVICE_OC_FAULT; + } else { + BAE_STATUS = DEVICE_POWERED; + BAE_FAULTCOUNT = 0; + } + } +} + +void HANDLE_HW_FAULT_PL() +{ + if(PL_STATUS != DEVICE_DISABLED) { + if(PL_STATUS == DEVICE_OC_FAULT) + PL_SW_EN_DS = 0; //Power ON PL + + if(PL_BEE_SW_OC_FAULT == 0) { // if OC Fault + PL_SW_EN_DS = 1; // switching OFF PL + PL_FAULTCOUNT++; + PL_STATUS = (PL_FAULTCOUNT == 3)?DEVICE_DISABLED:DEVICE_OC_FAULT; + } else { + if(PL_STATUS == DEVICE_OC_FAULT) + PL_SW_EN_DS = 0; //Switching OFF PL + PL_STATUS = DEVICE_ENABLED; + PL_FAULTCOUNT = 0; + } + } +} + +void COLLECT_CDMS_RAM() +{ + /*--------------------Current FSC's---------------------*/ + for(int i=0; i<4; i++) + CDMS_HEALTH_DATA[i+43] = FSC_LAST[5] >> (i*8); + for(int i=0; i<4; i++) + CDMS_HEALTH_DATA[i+47] = FSC_CURRENT[5] >> (i*8); + for(int i=0; i<4; i++) + CDMS_HEALTH_DATA[i+51] = FSC_LAST[4] >> (i*8); + for(int i=0; i<4; i++) + CDMS_HEALTH_DATA[i+55] = FSC_CURRENT[4] >> (i*8); + for(int i=0; i<4; i++) + CDMS_HEALTH_DATA[i+59] = FSC_LAST[3] >> (i*8); + for(int i=0; i<4; i++) + CDMS_HEALTH_DATA[i+63] = FSC_CURRENT[3] >> (i*8); + for(int i=0; i<4; i++) + CDMS_HEALTH_DATA[i+67] = FSC_LAST[2] >> (i*8); + for(int i=0; i<4; i++) + CDMS_HEALTH_DATA[i+71] = FSC_CURRENT[2] >> (i*8); + for(int i=0; i<4; i++) + CDMS_HEALTH_DATA[i+75] = FSC_LAST[1] >> (i*8); + for(int i=0; i<4; i++) + CDMS_HEALTH_DATA[i+79] = FSC_CURRENT[1] >> (i*8); + /*---------------------Latest Time----------------------*/ + for(int i=0; i<4; i++) + CDMS_HEALTH_DATA[i+83] = TIME_LATEST_SPI_SPEED >> (i*8); + for(int i=0; i<4; i++) + CDMS_HEALTH_DATA[i+87] = TIME_LATEST_SD_RD >> (i*8); + for(int i=0; i<4; i++) + CDMS_HEALTH_DATA[i+91] = TIME_LATEST_SD_WR >> (i*8); + for(int i=0; i<4; i++) + CDMS_HEALTH_DATA[i+95] = TIME_LATEST_I2C_SPEED >> (i*8); + for(int i=0; i<4; i++) + CDMS_HEALTH_DATA[i+99] = TIME_LATEST_I2C_BAE >> (i*8); + for(int i=0; i<4; i++) + CDMS_HEALTH_DATA[i+103] = TIME_LATEST_RTC >> (i*8); + for(int i=0; i<2; i++) + CDMS_HEALTH_DATA[i+107] = COMRX_RESET_COUNTER >> (i*8); + for(int i=0; i<2; i++) + CDMS_HEALTH_DATA[i+107] = PL_RCV_SC_DATA_COUNTER >> (i*8); + for(int i=0; i<2; i++) + CDMS_HEALTH_DATA[i+111] = PL_MAIN_COUNTER >> (i*8); + for(int i=0; i<2; i++) + CDMS_HEALTH_DATA[i+113] = CDMS_HK_MAIN_COUNTER >> (i*8); + for(int i=0; i<2; i++) + CDMS_HEALTH_DATA[i+115] = CDMS_I2C_ERR_BAE_COUNTER >> (i*8); + for(int i=0; i<2; i++) + CDMS_HEALTH_DATA[i+117] = CDMS_I2C_ERR_SPEED_COUNTER >> (i*8); + CDMS_HEALTH_DATA[120] = CDMS_HEALTH_DATA[120] | CDMS_STANDBY_PL << 7; + CDMS_HEALTH_DATA[120] = CDMS_HEALTH_DATA[120] | ((CDMS_INIT_STATUS << 6) & 0x40); + CDMS_HEALTH_DATA[120] = CDMS_HEALTH_DATA[120] | ((CDMS_HK_MAIN_STATUS << 5) & 0x20); + CDMS_HEALTH_DATA[120] = CDMS_HEALTH_DATA[120] | ((CDMS_HK_STATUS << 3) & 0x18); + CDMS_HEALTH_DATA[120] = CDMS_HEALTH_DATA[120] | ((COMRX_STATUS << 2) & 0x04); + CDMS_HEALTH_DATA[120] = CDMS_HEALTH_DATA[120] | ((CDMS_RTC_BL << 1) & 0x02); + CDMS_HEALTH_DATA[120] = CDMS_HEALTH_DATA[120] & 0xFE; + + CDMS_HEALTH_DATA[121] = CDMS_HEALTH_DATA[121] | PL_RCV_SC_DATA_STATUS << 7; + CDMS_HEALTH_DATA[121] = CDMS_HEALTH_DATA[121] | ((COM_SESSION << 6) & 0x40); + CDMS_HEALTH_DATA[121] = CDMS_HEALTH_DATA[121] | ((COM_RX << 5) & 0x20); + CDMS_HEALTH_DATA[121] = CDMS_HEALTH_DATA[121] | ((RF_SW_STATUS << 4) & 0x10); + CDMS_HEALTH_DATA[121] = CDMS_HEALTH_DATA[121] | ((COM_TX << 3) & 0x08); + CDMS_HEALTH_DATA[121] = CDMS_HEALTH_DATA[121] | ((COM_TX_STATUS << 2) & 0x04); + CDMS_HEALTH_DATA[121] = CDMS_HEALTH_DATA[121] | ((COM_MNG_TMTC << 1) & 0x02); + CDMS_HEALTH_DATA[121] = CDMS_HEALTH_DATA[121] | (CDMS_STANDBY_HK & 0x01); + + CDMS_HEALTH_DATA[122] = CDMS_HEALTH_DATA[122] | PL_INIT_STATUS << 7; + CDMS_HEALTH_DATA[122] = CDMS_HEALTH_DATA[122] | ((PL_MAIN_STATUS << 6) & 0x40); + CDMS_HEALTH_DATA[122] = CDMS_HEALTH_DATA[122] | ((PL_LOW_POWER << 5) & 0x20); + CDMS_HEALTH_DATA[122] = CDMS_HEALTH_DATA[122] | ((PL_STATE << 3) & 0x18); + CDMS_HEALTH_DATA[122] = CDMS_HEALTH_DATA[122] | (PL_STATUS & 0x07); } \ No newline at end of file