// COUNTRY AND PROJECT SPECIFIC DEFINITIONS FOR LMIC STACK // COUNTRY SETTINGS // --> please check with you local regulations for ISM band frequency use! // // CFG_eu868 EU 863-870 MHz // CFG_us915 US 902-928 MHz // CFG_au921 Australia 915-928 MHz // CFG_as923 Asia 923 MHz // CFG_in866 India 865-867 MHz #define CFG_eu868 1 //#define CFG_us915 1 //#define CFG_in866 1 //#define CFG_au921 1 //#define CFG_as923 1 //#define LMIC_COUNTRY_CODE LMIC_COUNTRY_CODE_JP /* for as923-JP */ // LMIC LORAWAN STACK SETTINGS // --> adapt to your device only if necessary //#define LMIC_USE_INTERRUPTS 1 //time sync via LoRaWAN network, is not yet supported by TTN (LoRaWAN spec v1.0.3) //#define LMIC_ENABLE_DeviceTimeReq 1 // 16 μs per tick // LMIC requires ticks to be 15.5μs - 100 μs long #define US_PER_OSTICK_EXPONENT 4 #define US_PER_OSTICK (1 << US_PER_OSTICK_EXPONENT) #define OSTICKS_PER_SEC (1000000 / US_PER_OSTICK) // This tells LMIC to make the receive windows bigger, in case your clock is // faster or slower. This causes the transceiver to be earlier switched on, // so consuming more power. You may sharpen (reduce) this value if you are // limited on battery. // ATTN: VALUES > 7 WILL CAUSE RECEPTION AND JOIN PROBLEMS WITH HIGH SF RATES #define CLOCK_ERROR_PROCENTAGE 5 // Set this to 1 to enable some basic debug output (using printf) about // RF settings used during transmission and reception. Set to 2 to // enable more verbose output. Make sure that printf is actually // configured (e.g. on AVR it is not by default), otherwise using it can // cause crashing. #define LMIC_DEBUG_LEVEL 0 // Enable this to allow using printf() to print to the given serial port // (or any other Print object). This can be easy for debugging. The // current implementation only works on AVR, though. //#define LMIC_PRINTF_TO Serial // Any runtime assertion failures are printed to this serial port (or // any other Print object). If this is unset, any failures just silently // halt execution. #define LMIC_FAILURE_TO Serial // Uncomment this to disable all code related to joining //#define DISABLE_JOIN // Uncomment this to disable all code related to ping #define DISABLE_PING // Uncomment this to disable all code related to beacon tracking. // Requires ping to be disabled too #define DISABLE_BEACONS // Uncomment these to disable the corresponding MAC commands. // Class A //#define DISABLE_MCMD_DCAP_REQ // duty cycle cap //#define DISABLE_MCMD_DN2P_SET // 2nd DN window param //#define DISABLE_MCMD_SNCH_REQ // set new channel // Class B //#define DISABLE_MCMD_PING_SET // set ping freq, automatically disabled by // DISABLE_PING #define DISABLE_MCMD_BCNI_ANS // next beacon start, automatical // disabled by DISABLE_BEACON // In LoRaWAN, a gateway applies I/Q inversion on TX, and nodes do the // same on RX. This ensures that gateways can talk to nodes and vice // versa, but gateways will not hear other gateways and nodes will not // hear other nodes. By uncommenting this macro, this inversion is // disabled and this node can hear other nodes. If two nodes both have // this macro set, they can talk to each other (but they can no longer // hear gateways). This should probably only be used when debugging // and/or when talking to the radio directly (e.g. like in the "raw" // example). //#define DISABLE_INVERT_IQ_ON_RX // This allows choosing between multiple included AES implementations. // Make sure exactly one of these is uncommented. // // This selects the original AES implementation included LMIC. This // implementation is optimized for speed on 32-bit processors using // fairly big lookup tables, but it takes up big amounts of flash on the // AVR architecture. //#define USE_ORIGINAL_AES // // This selects the AES implementation written by Ideetroon for their // own LoRaWAN library. It also uses lookup tables, but smaller // byte-oriented ones, making it use a lot less flash space (but it is // also about twice as slow as the original). // #define USE_IDEETRON_AES // #define USE_MBEDTLS_AES