struct version_struct { uint16_t hw_major; uint8_t hw_minor; uint8_t sw_major; uint8_t sw_minor; }; #define PORT_PULSE_1 3 #define PORT_PULSE_2 4 #define SPI_NO_OP_1 0x01 #define SPI_NO_OP_2 0x02 #define SPI_START_TX 0x04 #define SPI_TRANSMIT 0x08 #define SPI_HIGH_HEX 0x10 #define SPI_TO_FROM_UART 0x20 #define SPI_NEW_CTRL_MSG 0x40 #define SPI_END_OF_TX 0x00 #define SPI_END_OF_MESSAGE '.' #define SPI_FORWARD_TO_UART_PORT 'u' #define SPI_FORWARD_TO_CTRL_PORT 'l' // 'l'ocal port struct event_struct { uint16_t wdt; uint16_t brown_out; }; struct sensor_struct { uint32_t counter; uint16_t meterconst; }; # define WATT 1000000000 # define SECOND 665 // 666Hz - 1 #define STATE_PULSE 0x01 #define STATE_SKIP 0x02 #define STATE_POWER_LOCK 0x04 #define STATE_POWER_CALC 0x08 #define STATE_POWER 0x10 struct state_struct { uint8_t flags; uint32_t nano; uint32_t nano_start; uint32_t nano_end; uint8_t pulse_count; uint8_t pulse_count_final; uint32_t power; uint32_t timestamp; }; struct time_struct { uint8_t skip; uint32_t ms; }; /* * This macro performs a 16x16 -> 32 unsigned MAC in 37 cycles with operands and results in memory * based on http://www2.ife.ee.ethz.ch/~roggend/publications/wear/DSPMic_v1.1.pdf par 3.4 and table 31. */ #define MacU16X16to32(uint_32Acc, uint_16In1, uint_16In2) \ asm volatile ( \ "clr r2 \n\t" \ "mul %B2, %B1 \n\t" \ "movw r4, r0 \n\t" \ "mul %A2, %A1 \n\t" \ "add %A0, r0 \n\t" \ "adc %B0, r1 \n\t" \ "adc %C0, r4 \n\t" \ "adc %D0, r5 \n\t" \ "mul %B2, %A1 \n\t" \ "add %B0, r0 \n\t" \ "adc %C0, r1 \n\t" \ "adc %D0, r2 \n\t" \ "mul %A2, %B1 \n\t" \ "add %B0, r0 \n\t" \ "adc %C0, r1 \n\t" \ "adc %D0, r2 \n\t" \ "clr r1 \n\t" \ : \ "+r" (uint_32Acc) \ : \ "a" (uint_16In1), \ "a" (uint_16In2) \ : \ "r2", "r4", "r5" \ ) void register_pulse(volatile struct sensor_struct *psensor, volatile struct state_struct *pstate); void setup_led(void); void disable_led(void); void setup_datastructs(void); void setup_pulse_input(void); void setup_adc(void); void setup_timer1(void); void setup_analog_comparator(void); void calculate_power(volatile struct state_struct *pstate);