// ********************************************************************************** // Automatic Transmit Power Control class derived from RFM69 library. // Discussion and details in this forum post: https://lowpowerlab.com/forum/index.php/topic,688.0.html // ********************************************************************************** // Copyright Thomas Studwell (2014,2015) // Adjustments by Felix Rusu, LowPowerLab.com // Copyright LowPowerLab LLC 2018, https://www.LowPowerLab.com/contact // ********************************************************************************** // License // ********************************************************************************** // This program is free software; you can redistribute it // and/or modify it under the terms of the GNU General // Public License as published by the Free Software // Foundation; either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will // be useful, but WITHOUT ANY WARRANTY; without even the // implied warranty of MERCHANTABILITY or FITNESS FOR A // PARTICULAR PURPOSE. See the GNU General Public // License for more details. // // Licence can be viewed at // http://www.gnu.org/licenses/gpl-3.0.txt // // Please maintain this license information along with authorship // and copyright notices in any redistribution of this code // ********************************************************************************** #ifndef RFM69_ATC_h #define RFM69_ATC_h #include "RFM69.h" #define RFM69_CTL_RESERVE1 0x20 class RFM69_ATC: public RFM69 { public: static volatile uint8_t ACK_RSSI_REQUESTED; // new flag in CTL byte to request RSSI with ACK (could potentially be merged with ACK_REQUESTED) RFM69_ATC(uint8_t slaveSelectPin=RF69_SPI_CS, uint8_t interruptPin=RF69_IRQ_PIN, bool isRFM69HW=false, uint8_t interruptNum=0, SPIClass *spi=nullptr) : RFM69(slaveSelectPin, interruptPin, isRFM69HW, spi) { } bool initialize(uint8_t freqBand, uint16_t ID, uint8_t networkID=1); void sendACK(const void* buffer = "", uint8_t bufferSize=0); //void setHighPower(bool onOFF=true, uint8_t PA_ctl=0x60); //have to call it after initialize for RFM69HW //void setPowerLevel(uint8_t level); // reduce/increase transmit power level bool sendWithRetry(uint16_t toAddress, const void* buffer, uint8_t bufferSize, uint8_t retries=2, uint8_t retryWaitTime=RFM69_ACK_TIMEOUT); void enableAutoPower(int16_t targetRSSI=-90); // TWS: New method to enable/disable auto Power control void setMode(uint8_t mode); // TWS: moved from protected to try to build block()/unblock() wrapper int16_t getAckRSSI(void); // TWS: New method to retrieve the ack'd RSSI (if any) uint8_t setLNA(uint8_t newReg); // TWS: function to control LNA reg for power testing purposes int16_t _targetRSSI; // if non-zero then this is the desired end point RSSI for our transmission uint8_t _transmitLevel; // saved powerLevel in case we do auto power adjustment, this value gets dithered uint8_t _transmitLevelStep; // saved powerLevel in case we do auto power adjustment, this value gets dithered protected: void interruptHook(uint8_t CTLbyte); void sendFrame(uint16_t toAddress, const void* buffer, uint8_t size, bool requestACK=false, bool sendACK=false); // Need this one to match the RFM69 prototype. void sendFrame(uint16_t toAddress, const void* buffer, uint8_t size, bool requestACK, bool sendACK, bool sendRSSI, int16_t lastRSSI); void receiveBegin(); //void setHighPowerRegs(bool onOff); int16_t _ackRSSI; // this contains the RSSI our destination Ack'd back to us (if we enabledAutoPower) //bool _powerBoost; // this controls whether we need to turn on the highpower regs based on the setPowerLevel input uint8_t _PA_Reg; // saved and derived PA control bits so we don't have to spend time reading back from SPI port }; #endif