static void initialize(u8 bind) { CLOCK_StopTimer(); if (bind) { switch (Model.proto_opts[PROTO_OPTS_FORMAT]) { case FORMAT_V1: PROTOCOL_SetBindState(5000); bind_counter = 1400; // Stay in bind mode for 5s break; case FORMAT_V2: PROTOCOL_SetBindState(5000); bind_counter = 187; // Stay in bind mode for 5s break; case FORMAT_FDV3: PROTOCOL_SetBindState(10000); bind_counter = 2000; // Stay in bind mode for 10s break; } } else { bind_counter = 0; } state = 400; // Used by V2 to send RF channels + ID for 2.65s at startup hopping_frequency_no = 0; fdv3_id_send = 0; CORONA_init(); CORONA_rf_init(); CLOCK_StartTimer(10, corona_cb); }
static void initialize() { CLOCK_StopTimer(); num_channels = Model.num_channels; PrevXferComplete = 1; USB_Enable(1, 1); CLOCK_StartTimer(1000, usbhid_cb); }
static void initialize() { CLOCK_StopTimer(); tx_power = Model.tx_power; DM002_initialize_txid(); DM002_init(); packet_count = 0; hopping_frequency_no = 0; bind_counter = DM002_BIND_COUNT; phase = BIND; CLOCK_StartTimer(DM002_INITIAL_WAIT, dm002_callback); }
static void initialize(int bind) { CLOCK_StopTimer(); frsky_init(); seed = 1; fixed_id = 0x1257; if (bind) { PROTOCOL_SetBindState(0xFFFFFFFF); state = FRSKY_BIND; } else { state = FRSKY_DATA1; } CLOCK_StartTimer(10000, frsky_cb); }
static void initialize() { CLOCK_StopTimer(); tx_power = Model.tx_power; phase = initialize_rx_tx_addr(); telemetry_setup_state = CFLIE_TELEM_SETUP_STATE_INIT; packet_counter = 0; int delay = cflie_init(); dbgprintf("cflie init\n"); if (phase == CFLIE_INIT_SEARCH) { PROTOCOL_SetBindState(0xFFFFFFFF); } CLOCK_StartTimer(delay, cflie_callback); }
static void initialize() { CLOCK_StopTimer(); if (PPMin_Mode()) return; PWM_Initialize(); num_channels = Model.num_channels; if (Model.proto_opts[CENTER_PW] == 0) { Model.proto_opts[CENTER_PW] = 1100; Model.proto_opts[DELTA_PW] = 400; Model.proto_opts[NOTCH_PW] = 400; Model.proto_opts[PERIOD_PW] = 22500; } CLOCK_StartTimer(1000, ppmout_cb); }
void initASSAN(u8 bind) { CLOCK_StopTimer(); initialize_txid(); init(); tx_power = Model.tx_power; hopping_frequency_no = 0; if(bind) { state=BIND0; PROTOCOL_SetBindState(0xffffffff); } else { state=DATA0; PROTOCOL_SetBindState(0); } CLOCK_StartTimer(50000, ASSAN_callback); }
void PROTO_Stubs(int idx) { if (! idx) return; CLOCK_StartTimer(); spi_disable(); spi_set_bidirectional_receive_only_mode(); spi_read(); spi_set_unidirectional_mode(); TELEMETRY_SetUpdated(); TELEMETRY_SetType(); UART_Stop(); rcc_peripheral_disable_clock(); _usleep(); MCU_SerialNumber(); USB_Disable(); PROTO_CS_HI(); PROTO_CS_LO(); MUSIC_Beep(); rand32(); }