pradeep shekhar
/
Beacon_BAE_intergration_test_3
General testings
Fork of BEACON_CODE_NEW by
Revision 0:e0a901172445, committed 2015-11-01
- Comitter:
- shekhar
- Date:
- Sun Nov 01 08:31:17 2015 +0000
- Child:
- 1:e4b70669ae61
- Commit message:
- integrated with GS
Changed in this revision
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/BCN.cpp Sun Nov 01 08:31:17 2015 +0000 @@ -0,0 +1,391 @@ +#include "BCN.h" +//Check the pin names +//Takes max 4.3 sec in void FCTN_BCN_TX_MAIN() (temp.calc. + long_beacon + short_beacon) + +Serial pc(USBTX, USBRX); //tx,rx +SPI spi(D11, D12, D13); // mosi, miso, sclk +DigitalOut cs(D10); //slave select or chip select +Timer t_i; +Timeout rf_sl_timeout; +Ticker loop; + +//GLOBAL VARIABLES +uint8_t BCN_INIT_STATUS = 0; +uint8_t BCN_TX_MAIN_STATUS = 0; +uint8_t BCN_TX_STATUS = 0; +uint8_t BCN_TX_EN = 1; //hardcoding for now //check where is this variable toggled?? +uint8_t BCN_FEN = 0; //hardcoding for now //write this value to flash +uint8_t BCN_STANDBY = 0; //hardcoding for now //check where is this variable toggled?? +uint8_t BCN_TS_BUFFER = 0; // For Temperature + +void FCTN_BCN_INIT() +{ + pc.printf("FCTN_BCN_INIT\n"); + BCN_INIT_STATUS = 1; + if(BCN_FEN == 0) + rf_sl_timeout.attach(&FCTN_BCN_FEN, 30); + Init_BEACON_HW(); + BCN_INIT_STATUS = 0; +} +void FCTN_BCN_FEN() +{ + pc.printf("FCTN_FEN\n"); + BCN_FEN = 1;//write this value to flash +} +void FCTN_BCN_TX_MAIN() +{ + pc.printf("FCTN_BCN_TX_MAIN\n"); + t_i.start(); + int begin = t_i.read_us(); + BCN_TX_MAIN_STATUS = 1; + + if(BCN_FEN == 1) + { + if(BCN_TX_EN == 1) + { + //Measure and store BCN temperature in BCN_TS_BUFFER + BCN_TS_BUFFER = check_Temperature(); + pc.printf("\n\ntemperature = %d\n\n",BCN_TS_BUFFER); + //Get BCN_HK data from BCN HW(SPI) //Store BCN_HK data in BCN_HK_BUFFER + if(BCN_STANDBY == 1 ) + { + Set_BCN_TX_STATUS(BCN_TX_STANDBY); + BCN_TX_MAIN_STATUS = 0; + + // break; + } + else + { + //transmit short beacon and long beacon + SHORT_BCN_TX(); + //LONG_BCN_TX(); + + if(Check_ACK_RECEIVED() == 1) + { + Set_BCN_TX_STATUS(BCN_TX_SUCCESS); + BCN_TX_MAIN_STATUS = 0; + } + else + { + Set_BCN_TX_STATUS(BCN_TX_FAILURE); + BCN_TX_MAIN_STATUS = 0; + + } + } + } + else + { + Set_BCN_TX_STATUS(BCN_TX_DISABLED); + BCN_TX_MAIN_STATUS = 0; + } + } + else + { + Set_BCN_TX_STATUS(BCN_RF_SILENCE); //Window of RF Silence: None of the Txs should be on. + BCN_TX_MAIN_STATUS = 0; + } + t_i.stop(); + int end = t_i.read_us(); + pc.printf("The time required for FCTN_BCN_TX_MAIN is %d useconds\r\n", end-begin); + +} + +void Set_BCN_TX_STATUS(uint8_t STATUS) +{ + BCN_TX_STATUS = STATUS; +} + +uint8_t check_Temperature() +{ + uint8_t temperature; + writereg(RF22_REG_0F_ADC_CONFIGURATION,0x00); + writereg(RF22_REG_12_Temperature_Sensor_Calibration,0x20); + writereg(RF22_REG_0F_ADC_CONFIGURATION,0x80); + wait(0.1); + temperature = readreg(RF22_REG_11_ADC_Value); + temperature = (float)temperature*0.5 - 64; + return temperature; +} + +void SHORT_BCN_TX() +{ + writereg(RF22_REG_6E_TX_DATA_RATE,0x01); + writereg(RF22_REG_6F_TX_DATA_RATE,0x50);//160bps + writereg(RF22_REG_3E_PACKET_LENGTH,SHORT_TX_DATA); //short packet length + wait(0.02); + + uint32_t timeout_count = 10e5; + //extract values from short_beacon[] + + struct Short_beacon + { + uint8_t Voltage[1]; + uint8_t AngularSpeed[2]; + uint8_t SubsystemStatus[1]; + uint8_t Temp[3]; + uint8_t ErrorFlag[1]; + }Shortbeacon = { {0x88}, {0x99, 0xAA} , {0xAA},{0xAA,0xDD,0xEE}, {0x00} }; + + //filling hk data + //uint8_t short_beacon[] = { 0xAB, 0x8A, 0xE2, 0xBB, 0xB8, 0xA2, 0x8E,Shortbeacon.Voltage[0],Shortbeacon.AngularSpeed[0], Shortbeacon.AngularSpeed[1],Shortbeacon.SubsystemStatus[0],Shortbeacon.Temp[0],Shortbeacon.Temp[1],Shortbeacon.Temp[2],Shortbeacon.ErrorFlag[0]}; + uint8_t short_beacon[] = { 0x11, 0x22, 0x33, 0x44, 0x55, 0x66, 0x77,Shortbeacon.Voltage[0],Shortbeacon.AngularSpeed[0], Shortbeacon.AngularSpeed[1],Shortbeacon.SubsystemStatus[0],Shortbeacon.Temp[0],Shortbeacon.Temp[1],Shortbeacon.Temp[2],Shortbeacon.ErrorFlag[0]}; + + clearTxBuf(); + //writing data first time + int byte = 0; + cs = 0; + spi.write(0xFF); + + for (int byte_counter = 0; byte_counter <15 ; byte_counter++) + { + for(int j = 3; j >= 0 ; j--) + { + if((short_beacon[byte_counter] & (uint8_t) pow(2.0,(j*2+1)))!= pow(2.0,(j*2+1))) + { + byte=0x00; + } + else + { + byte=0xF0; + } + if((short_beacon[byte_counter] & (uint8_t) pow(2.0,j*2))!= pow(2.0,j*2)) + { + byte=byte | 0x00; + } + else + { + byte=byte | 0x0F; + } + spi.write(byte); + } + } + + cs = 1; + + //Set to Tx mode + writereg(RF22_REG_07_OPERATING_MODE1,0x08);//* + wait(0.1); + //Check for fifoThresh + while(timeout_count--)if((readreg(RF22_REG_03_INTERRUPT_STATUS1) & 0x20) == 0x20)break; + timeout_count=10e5; + + //Check for packet_sent + while(timeout_count--)if((readreg(RF22_REG_03_INTERRUPT_STATUS1) & 0x04) == 0x04)break; + + //pc.printf("Short packet sent\r\n"); + + writereg(RF22_REG_07_OPERATING_MODE1,0x00); //standby mode + +} +void LONG_BCN_TX() +{ + writereg(RF22_REG_6E_TX_DATA_RATE,0x04); + writereg(RF22_REG_6F_TX_DATA_RATE,0xEA);//600 bps + writereg(RF22_REG_3E_PACKET_LENGTH,LONG_TX_DATA); //long packet length + wait(0.02); + uint32_t timeout_count=10e5; + + //get long_beacon array + + uint8_t Long_beacon[75]; + for(int i = 0;i<75;) + { + Long_beacon[i++] = 0xAA; + } + + + + + //setModeIdle(); + clearTxBuf(); + //writing data first time + cs = 0; + spi.write(0xFF); + for(int i=0; i<60;i++) + { + spi.write(Long_beacon[i]); + } + cs = 1; + + //Set to Tx mode + writereg(RF22_REG_07_OPERATING_MODE1,0x08);//* + wait(0.1); + + //Check for fifoThresh + while(timeout_count--)if((readreg(RF22_REG_03_INTERRUPT_STATUS1) & 0x20) == 0x20)break; + timeout_count=10e5; + + cs = 0; + spi.write(0xFF); + for(int i=60; i<75;i++) + { + spi.write(Long_beacon[i]); + } + cs = 1; + wait(0.1); + //Check for fifoThresh + while(timeout_count--)if((readreg(RF22_REG_03_INTERRUPT_STATUS1) & 0x20) == 0x20)break; + timeout_count=10e5; + + //Check for packetsent interrupt + while(timeout_count--)if((readreg(RF22_REG_03_INTERRUPT_STATUS1) & 0x04) == 0x04)break; + + //pc.printf("Long packet sent\r\n"); + + writereg(RF22_REG_07_OPERATING_MODE1,0x00); //standby mode +} +void reset_rfm() +{ + FCTN_BCN_INIT(); +} +void writereg(uint8_t reg,uint8_t val) +{ + uint8_t count = 0; + for(;;count++) + { + int read_val =0; cs = 0;spi.write(reg | 0x80);spi.write(val);cs = 1; + if(reg != 0x7 && reg != 0x58 && reg != 0xF) + { + read_val = readreg(reg); + if (read_val == val) + { + break; + } + else if(count == 5) + { + reset_rfm(), printf("reg = 0x%X\n",reg);break; + } + } + else + break; + } +} +uint8_t readreg(uint8_t reg) +{ + uint8_t val;cs = 0;spi.write(reg & ~0x80);val = spi.write(0);cs = 1;return val; +} +void clearTxBuf() +{ + writereg(RF22_REG_08_OPERATING_MODE2,0x01); + writereg(RF22_REG_08_OPERATING_MODE2,0x00); +} +uint8_t setFrequency(double centre,float afcPullInRange) +{ + uint8_t fbsel = 0x40; + uint8_t afclimiter; + if (centre >= 480.0) { + centre /= 2; + fbsel |= 0x20; + afclimiter = afcPullInRange * 1000000.0 / 1250.0; + } else { + if (afcPullInRange < 0.0 || afcPullInRange > 0.159375) + return false; + afclimiter = afcPullInRange * 1000000.0 / 625.0; + } + centre /= 10.0; + double integerPart = floor(centre); + double fractionalPart = centre - integerPart; + + uint8_t fb = (uint8_t)integerPart - 24; // Range 0 to 23 + fbsel |= fb; + uint16_t fc = fractionalPart * 64000; + writereg(RF22_REG_73_FREQUENCY_OFFSET1, 0); // REVISIT + writereg(RF22_REG_74_FREQUENCY_OFFSET2, 0); + writereg(RF22_REG_75_FREQUENCY_BAND_SELECT, fbsel); + writereg(RF22_REG_76_NOMINAL_CARRIER_FREQUENCY1, fc >> 8); + writereg(RF22_REG_77_NOMINAL_CARRIER_FREQUENCY0, fc & 0xff); + //writereg(RF22_REG_2A_AFC_LIMITER, afclimiter); + return 0; +} + + +void Init_BEACON_HW() +{ + wait(0.1); + cs=1; // chip must be deselected + wait(0.1); + spi.format(8,0); + spi.frequency(10000000); //10MHz SCLK + + //should either have a flag for invalid SPI or discard this for actual case or add reset + if (readreg(RF22_REG_00_DEVICE_TYPE) == 0x08) + pc.printf("spi connection valid\r\n"); + else + {pc.printf("error in spi connection\r\n"); + reset_rfm(); + } + + writereg(RF22_REG_07_OPERATING_MODE1,0x80); //sw_reset + wait(0.1); //takes time to reset + + clearTxBuf(); + + writereg(RF22_REG_07_OPERATING_MODE1,0x00); //standby mode + + //txfifoalmostempty + writereg(RF22_REG_7D_TX_FIFO_CONTROL2,30); + + //Packet-engine registers + writereg(RF22_REG_30_DATA_ACCESS_CONTROL,0x00); + + writereg(RF22_REG_33_HEADER_CONTROL2,0x08); + writereg(RF22_REG_34_PREAMBLE_LENGTH,0x00); + + writereg(RF22_REG_0B_GPIO_CONFIGURATION0,0x15); // TX state + writereg(RF22_REG_0C_GPIO_CONFIGURATION1,0x12); // RX state + + setFrequency(435.0,0.05); + + if((readreg(RF22_REG_02_DEVICE_STATUS)& 0x08)!= 0x00) + { + pc.printf("frequency not set properly\r\n"); + reset_rfm(); + } + + //set Modem Configuration + //writereg(RF22_REG_1C_IF_FILTER_BANDWIDTH,0xdf); + //writereg(RF22_REG_1F_CLOCK_RECOVERY_GEARSHIFT_OVERRIDE,0x03); + //writereg(RF22_REG_20_CLOCK_RECOVERY_OVERSAMPLING_RATE,0x39); + //writereg(RF22_REG_21_CLOCK_RECOVERY_OFFSET2,0x20); + //writereg(RF22_REG_22_CLOCK_RECOVERY_OFFSET1,0x68); //updated 20 to 25 reg values from excel sheet for 1.2 Khz freq. deviation,fsk + //writereg(RF22_REG_23_CLOCK_RECOVERY_OFFSET0,0xdc); + //writereg(RF22_REG_24_CLOCK_RECOVERY_TIMING_LOOP_GAIN1,0x00); + //writereg(RF22_REG_25_CLOCK_RECOVERY_TIMING_LOOP_GAIN0,0x6B); + //writereg(RF22_REG_2C_OOK_COUNTER_VALUE_1,0x2C); + //writereg(RF22_REG_2D_OOK_COUNTER_VALUE_2,0x11); //not required for fsk (OOK counter value) + //writereg(RF22_REG_2E_SLICER_PEAK_HOLD,0x2A); //?? + writereg(RF22_REG_58,0x80); + //writereg(RF22_REG_69_AGC_OVERRIDE1,0x60); + + //Data rate set later + + writereg(RF22_REG_70_MODULATION_CONTROL1,0x20); + writereg(RF22_REG_71_MODULATION_CONTROL2,0x21);//ook = 0x21 + + //set tx power + writereg(RF22_REG_6D_TX_POWER,0x07); //20dbm + + //TX_packet_length written later +} +bool Check_ACK_RECEIVED() +{ + if((readreg(RF22_REG_03_INTERRUPT_STATUS1) & 0x04) == 0x04) + { + printf("Packet sent: ACK received\r\n"); + return 1; + } + else + { + pc.printf("Packet not sent\r\n"); + return 0; + } +} +int main() +{ + FCTN_BCN_INIT(); + + loop.attach(&FCTN_BCN_TX_MAIN, 10.0);//in actual case its 30.0 + + while(1); + +} \ No newline at end of file
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/BCN.h Sun Nov 01 08:31:17 2015 +0000 @@ -0,0 +1,127 @@ +#include "mbed.h" + +//STATES +#define BCN_RF_SILENCE 0 +#define BCN_TX_DISABLED 1 +#define BCN_TX_STANDBY 2 +#define BCN_TX_FAILURE 3 +#define BCN_TX_SUCCESS 4 + +//Size of tx data +#define SHORT_TX_DATA 60 //in bytes +#define LONG_TX_DATA 75 //in bytes + +//#define RF_SILENCE_TIME 35*60 +#define RF_SILENCE_TIME 5 //changed for testing + +//FUNCTION PROTOTYPING +void FCTN_BCN_INIT(); +void FCTN_BCN_FEN(); +void FCTN_BCN_TX_MAIN(); +void Set_BCN_TX_STATUS(uint8_t); +uint8_t check_Temperature(); +void SHORT_BCN_TX(); +void LONG_BCN_TX(); +void Init_BEACON_HW(); +void writereg(uint8_t,uint8_t); +uint8_t readreg(uint8_t); +void clearTxBuf(); +uint8_t setFrequency(double,float); +bool Check_ACK_RECEIVED(); +void reset_rfm(); + +#define RF22_MAX_MESSAGE_LEN 255 + +//These values we set for FIFO thresholds +#define RF22_TXFFAEM_THRESHOLD 40 + +//Registers +#define RF22_REG_00_DEVICE_TYPE 0x00 +#define RF22_REG_02_DEVICE_STATUS 0x02 +#define RF22_REG_03_INTERRUPT_STATUS1 0x03 +#define RF22_REG_04_INTERRUPT_STATUS2 0x04 +#define RF22_REG_07_OPERATING_MODE1 0x07 +#define RF22_REG_08_OPERATING_MODE2 0x08 +#define RF22_REG_09_OSCILLATOR_LOAD_CAPACITANCE 0x09 +#define RF22_REG_0B_GPIO_CONFIGURATION0 0x0b +#define RF22_REG_0C_GPIO_CONFIGURATION1 0x0c +#define RF22_REG_0D_GPIO_CONFIGURATION2 0x0d +#define RF22_REG_0F_ADC_CONFIGURATION 0x0f +#define RF22_REG_11_ADC_Value 0x11 +#define RF22_REG_12_Temperature_Sensor_Calibration 0x12 +#define RF22_REG_1C_IF_FILTER_BANDWIDTH 0x1c +#define RF22_REG_1F_CLOCK_RECOVERY_GEARSHIFT_OVERRIDE 0x1f +#define RF22_REG_20_CLOCK_RECOVERY_OVERSAMPLING_RATE 0x20 +#define RF22_REG_21_CLOCK_RECOVERY_OFFSET2 0x21 +#define RF22_REG_22_CLOCK_RECOVERY_OFFSET1 0x22 +#define RF22_REG_23_CLOCK_RECOVERY_OFFSET0 0x23 +#define RF22_REG_24_CLOCK_RECOVERY_TIMING_LOOP_GAIN1 0x24 +#define RF22_REG_25_CLOCK_RECOVERY_TIMING_LOOP_GAIN0 0x25 +#define RF22_REG_26_RSSI 0x26 +#define RF22_REG_27_RSSI_THRESHOLD 0x27 +#define RF22_REG_28_ANTENNA_DIVERSITY1 0x28 +#define RF22_REG_29_ANTENNA_DIVERSITY2 0x29 +#define RF22_REG_2A_AFC_LIMITER 0x2a +#define RF22_REG_2B_AFC_CORRECTION_READ 0x2b +#define RF22_REG_2C_OOK_COUNTER_VALUE_1 0x2c +#define RF22_REG_2D_OOK_COUNTER_VALUE_2 0x2d +#define RF22_REG_2E_SLICER_PEAK_HOLD 0x2e +#define RF22_REG_30_DATA_ACCESS_CONTROL 0x30 +#define RF22_REG_31_EZMAC_STATUS 0x31 +#define RF22_REG_32_HEADER_CONTROL1 0x32 +#define RF22_REG_33_HEADER_CONTROL2 0x33 +#define RF22_REG_34_PREAMBLE_LENGTH 0x34 +#define RF22_REG_35_PREAMBLE_DETECTION_CONTROL1 0x35 +#define RF22_REG_36_SYNC_WORD3 0x36 +#define RF22_REG_37_SYNC_WORD2 0x37 +#define RF22_REG_38_SYNC_WORD1 0x38 +#define RF22_REG_39_SYNC_WORD0 0x39 +#define RF22_REG_3A_TRANSMIT_HEADER3 0x3a +#define RF22_REG_3B_TRANSMIT_HEADER2 0x3b +#define RF22_REG_3C_TRANSMIT_HEADER1 0x3c +#define RF22_REG_3D_TRANSMIT_HEADER0 0x3d +#define RF22_REG_3E_PACKET_LENGTH 0x3e +#define RF22_REG_3F_CHECK_HEADER3 0x3f +#define RF22_REG_40_CHECK_HEADER2 0x40 +#define RF22_REG_41_CHECK_HEADER1 0x41 +#define RF22_REG_42_CHECK_HEADER0 0x42 +#define RF22_REG_43_HEADER_ENABLE3 0x43 +#define RF22_REG_44_HEADER_ENABLE2 0x44 +#define RF22_REG_45_HEADER_ENABLE1 0x45 +#define RF22_REG_46_HEADER_ENABLE0 0x46 +#define RF22_REG_47_RECEIVED_HEADER3 0x47 +#define RF22_REG_48_RECEIVED_HEADER2 0x48 +#define RF22_REG_49_RECEIVED_HEADER1 0x49 +#define RF22_REG_4A_RECEIVED_HEADER0 0x4a +#define RF22_REG_4B_RECEIVED_PACKET_LENGTH 0x4b +#define RF22_REG_58 0x58 +#define RF22_REG_60_CHANNEL_FILTER_COEFFICIENT_ADDRESS 0x60 +#define RF22_REG_61_CHANNEL_FILTER_COEFFICIENT_VALUE 0x61 +#define RF22_REG_62_CRYSTAL_OSCILLATOR_POR_CONTROL 0x62 +#define RF22_REG_63_RC_OSCILLATOR_COARSE_CALIBRATION 0x63 +#define RF22_REG_64_RC_OSCILLATOR_FINE_CALIBRATION 0x64 +#define RF22_REG_65_LDO_CONTROL_OVERRIDE 0x65 +#define RF22_REG_66_LDO_LEVEL_SETTINGS 0x66 +#define RF22_REG_67_DELTA_SIGMA_ADC_TUNING1 0x67 +#define RF22_REG_68_DELTA_SIGMA_ADC_TUNING2 0x68 +#define RF22_REG_69_AGC_OVERRIDE1 0x69 +#define RF22_REG_6A_AGC_OVERRIDE2 0x6a +#define RF22_REG_6B_GFSK_FIR_FILTER_COEFFICIENT_ADDRESS 0x6b +#define RF22_REG_6C_GFSK_FIR_FILTER_COEFFICIENT_VALUE 0x6c +#define RF22_REG_6D_TX_POWER 0x6d +#define RF22_REG_6E_TX_DATA_RATE 0x6e +#define RF22_REG_6F_TX_DATA_RATE 0x6f +#define RF22_REG_70_MODULATION_CONTROL1 0x70 +#define RF22_REG_71_MODULATION_CONTROL2 0x71 +#define RF22_REG_72_FREQUENCY_DEVIATION 0x72 +#define RF22_REG_73_FREQUENCY_OFFSET1 0x73 +#define RF22_REG_74_FREQUENCY_OFFSET2 0x74 +#define RF22_REG_75_FREQUENCY_BAND_SELECT 0x75 +#define RF22_REG_76_NOMINAL_CARRIER_FREQUENCY1 0x76 +#define RF22_REG_77_NOMINAL_CARRIER_FREQUENCY0 0x77 +#define RF22_REG_79_FREQUENCY_HOPPING_CHANNEL_SELECT 0x79 +#define RF22_REG_7A_FREQUENCY_HOPPING_STEP_SIZE 0x7a +#define RF22_REG_7C_TX_FIFO_CONTROL1 0x7c +#define RF22_REG_7D_TX_FIFO_CONTROL2 0x7d +#define RF22_REG_7E_RX_FIFO_CONTROL 0x7e +#define RF22_REG_7F_FIFO_ACCESS 0x7f \ No newline at end of file
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/mbed.bld Sun Nov 01 08:31:17 2015 +0000 @@ -0,0 +1,1 @@ +http://mbed.org/users/mbed_official/code/mbed/builds/34e6b704fe68 \ No newline at end of file