Exemplos de Timer4Init em C++ (Cpp)

Linguagem de programação: C++ (Cpp)

Método / Função: Timer4Init

Exemplos em hotexamples.com: 2

Timer4Init em C++ (Cpp) - 2 exemplos encontrados. Esses são os exemplos do mundo real mais bem avaliados de Timer4Init em C++ (Cpp) extraídos de projetos de código aberto. Você pode avaliar os exemplos para nos ajudar a melhorar a qualidade deles.

Exemplo n.º 1

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Arquivo: servo.c Projeto: mrugala/pm

void initServos() { Timer4Init(20000); Timer3Init(20000); Timer12Init(20000); PWM12Ch1Init(AngleToDuty(0.0, HD_1501MG)); // servo przy podstawie (obrót wokó³ osi pionowej) PWM12Ch2Init(AngleToDuty(0.0, HD_1501MG)); // servo przy podstawie (obrót wokó³ osi poziomej) PWM3Ch1Init(AngleToDuty(90.0, HD_1201MG)); // serwo na przegubie 3 PWM3Ch2Init(AngleToDuty(0.0, HD_1201MG)); // servo na przegubie 4 PWM3Ch3Init(AngleToDuty(0.0, HS_645MG)); // servo na przegubie 5 (oœ wzd³u¿ ogniwa) PWM4Ch1Init(AngleToDuty(0.0, HS_485HB)); // servo na przegubie 6 PWM4Ch2Init(AngleToDuty(45.0, HS_55)); // chwytak 1 PWM4Ch3Init(AngleToDuty(-45.0, HS_55)); // chwytak 2 }

Exemplo n.º 2

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Arquivo: HilNode.c Projeto: FrauBluher/Autoboat

void HilNodeInit(void) { // Set a unique node ID for this node. nodeId = CAN_NODE_HIL; // And configure the Peripheral Pin Select pins: PPSUnLock; // To enable ECAN1 pins: TX on 7, RX on 4 PPSOutput(OUT_FN_PPS_C1TX, OUT_PIN_PPS_RP7); PPSInput(PPS_C1RX, PPS_RP4); // To enable UART1 pins: TX on 11, RX on 13 PPSOutput(OUT_FN_PPS_U1TX, OUT_PIN_PPS_RP11); PPSInput(PPS_U1RX, PPS_RP13); // Configure SPI1 so that: // * (input) SPI1.SDI = B8 PPSInput(PPS_SDI1, PPS_RP10); // * SPI1.SCK is output on B9 PPSOutput(OUT_FN_PPS_SCK1, OUT_PIN_PPS_RP9); // * (output) SPI1.SDO = B10 PPSOutput(OUT_FN_PPS_SDO1, OUT_PIN_PPS_RP8); PPSLock; // Enable pin A4, the amber LED on the CAN node, as an output. We'll blink this at 1Hz. It'll // stay lit when in HIL mode with it turning off whenever packets are received. _TRISA4 = 0; // Initialize communications for HIL. HilInit(); // Set Timer4 to be a 4Hz timer. Used for blinking the amber status LED. Timer4Init(HilNodeBlink, 39062); // Set up Timer2 for a 100Hz timer. This triggers CAN message transmission at the same frequency // that the sensors actually do onboard the boat. Timer2Init(HilNodeTimer100Hz, 1562); // Initialize ECAN1 Ecan1Init(); // Set a schedule for outgoing CAN messages // Transmit the rudder angle at 10Hz if (!AddMessageRepeating(&sched, SCHED_ID_RUDDER_ANGLE, 10)) { FATAL_ERROR(); } // Transmit the rudder status at 10Hz if (!AddMessageRepeating(&sched, SCHED_ID_RUDDER_LIMITS, 10)) { FATAL_ERROR(); } // Transmit the throttle status at 100Hz if (!AddMessageRepeating(&sched, SCHED_ID_THROTTLE_STATUS, 10)) { FATAL_ERROR(); } // Transmit the RC status at 2Hz if (!AddMessageRepeating(&sched, SCHED_ID_RC_STATUS, 2)) { FATAL_ERROR(); } // Transmit latitude/longitude at 5Hz if (!AddMessageRepeating(&sched, SCHED_ID_LAT_LON, 5)) { FATAL_ERROR(); } // Transmit heading & speed at 5Hz if (!AddMessageRepeating(&sched, SCHED_ID_COG_SOG, 5)) { FATAL_ERROR(); } // Transmit heading & speed at 5Hz if (!AddMessageRepeating(&sched, SCHED_ID_GPS_FIX, 5)) { FATAL_ERROR(); } }