/* RadioLib STM32WLx Blocking Transmit Example This example transmits packets using STM32WL MCU with integrated (SX126x) LoRa radio. Each packet contains up to 256 bytes of data, in the form of: - Arduino String - null-terminated char array (C-string) - arbitrary binary data (byte array) This example assumes Nucleo WL55JC1 is used. For other Nucleo boards or standalone STM32WL, some configuration such as TCXO voltage and RF switch control may have to be adjusted. Using blocking transmit is not recommended, as it will lead to inefficient use of processor time! Instead, interrupt transmit is recommended. For default module settings, see the wiki page https://github.com/jgromes/RadioLib/wiki/Default-configuration#sx126x---lora-modem For full API reference, see the GitHub Pages https://jgromes.github.io/RadioLib/ */ // include the library #include // no need to configure pins, signals are routed to the radio internally STM32WLx radio = new STM32WLx_Module(); // set RF switch configuration for Nucleo WL55JC1 // NOTE: other boards may be different! // Some boards may not have either LP or HP. // For those, do not set the LP/HP entry in the table. static const uint32_t rfswitch_pins[] = {PC3, PC4, PC5}; static const Module::RfSwitchMode_t rfswitch_table[] = { {STM32WLx::MODE_IDLE, {LOW, LOW, LOW}}, {STM32WLx::MODE_RX, {HIGH, HIGH, LOW}}, {STM32WLx::MODE_TX_LP, {HIGH, HIGH, HIGH}}, {STM32WLx::MODE_TX_HP, {HIGH, LOW, HIGH}}, END_OF_MODE_TABLE, }; void setup() { Serial.begin(9600); // set RF switch control configuration // this has to be done prior to calling begin() radio.setRfSwitchTable(rfswitch_pins, rfswitch_table); // initialize STM32WL with default settings, except frequency Serial.print(F("[STM32WL] Initializing ... ")); int state = radio.begin(868.0); if (state == RADIOLIB_ERR_NONE) { Serial.println(F("success!")); } else { Serial.print(F("failed, code ")); Serial.println(state); while (true); } // set appropriate TCXO voltage for Nucleo WL55JC1 state = radio.setTCXO(1.7); if (state == RADIOLIB_ERR_NONE) { Serial.println(F("success!")); } else { Serial.print(F("failed, code ")); Serial.println(state); while (true); } } // counter to keep track of transmitted packets int count = 0; void loop() { Serial.print(F("[STM32WL] Transmitting packet ... ")); // you can transmit C-string or Arduino string up to // 256 characters long String str = "Hello World! #" + String(count++); int state = radio.transmit(str); // you can also transmit byte array up to 256 bytes long /* byte byteArr[] = {0x01, 0x23, 0x45, 0x56, 0x78, 0xAB, 0xCD, 0xEF}; int state = radio.transmit(byteArr, 8); */ if (state == RADIOLIB_ERR_NONE) { // the packet was successfully transmitted Serial.println(F("success!")); // print measured data rate Serial.print(F("[STM32WL] Datarate:\t")); Serial.print(radio.getDataRate()); Serial.println(F(" bps")); } else if (state == RADIOLIB_ERR_PACKET_TOO_LONG) { // the supplied packet was longer than 256 bytes Serial.println(F("too long!")); } else if (state == RADIOLIB_ERR_TX_TIMEOUT) { // timeout occured while transmitting packet Serial.println(F("timeout!")); } else { // some other error occurred Serial.print(F("failed, code ")); Serial.println(state); } // wait for a second before transmitting again delay(1000); }