/* 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. You should have received a copy of the GNU General Public License along with this program. If not, see . */ /* Simulator for the RichenPower Hybrid generators ./Tools/autotest/sim_vehicle.py --gdb --debug -v ArduCopter -A --uartF=sim:richenpower --speedup=1 --console param set SERIAL5_PROTOCOL 30 param set SERIAL5_BAUD 9600 param set SIM_RICH_ENABLE 1 param set SERVO8_FUNCTION 42 param fetch param set SIM_RICH_CTRL 8 param set RC9_OPTION 85 param set GEN_TYPE 3 reboot graph SERVO_OUTPUT_RAW.servo8_raw graph RC_CHANNELS.chan9_raw module load generator arm throttle (denied because generator not running) ./Tools/autotest/autotest.py --gdb --debug build.ArduCopter fly.ArduCopter.RichenPower */ #pragma once #include #include "SITL_Input.h" #include "SIM_SerialDevice.h" namespace SITL { class RichenPower : public SerialDevice { public: RichenPower(); // update state void update(const struct sitl_input &input); static const AP_Param::GroupInfo var_info[]; private: // this is what the generator supplies when running full-tilt but // with no load const float base_supply_voltage = 50.0f; const float max_current = 50.0f; const uint32_t original_seconds_until_maintenance = 20*60; // 20 minutes // They have been... we know that the voltage drops to mid 46v // typically if gennie stops // So we set batt fs high 46s // Gennie keeps batts charged to 49v + typically class SIM *_sitl; uint32_t last_sent_ms; void update_control_pin(const struct sitl_input &input); void update_send(); enum class State { STOP = 21, IDLE = 22, RUN = 23, STOPPING = 24, // idle cool-down period }; State _state = State::STOP; void set_run_state(State newstate); AP_Int8 _enabled; // enable richenpower sim AP_Int8 _ctrl_pin; float _current_rpm; uint32_t _runtime_ms; uint32_t _last_runtime_ms; float _current_current; uint32_t last_rpm_update_ms; // packet to send: struct PACKED RichenPacket { uint8_t magic1; uint8_t magic2; uint8_t version_minor; uint8_t version_major; uint8_t runtime_minutes; uint8_t runtime_seconds; uint16_t runtime_hours; uint32_t seconds_until_maintenance; uint16_t errors; uint16_t rpm; uint16_t throttle; uint16_t idle_throttle; uint16_t output_voltage; uint16_t output_current; uint16_t dynamo_current; uint8_t unknown1; uint8_t mode; uint8_t unknown6[38]; // "data"?! uint16_t checksum; uint8_t footermagic1; uint8_t footermagic2; }; assert_storage_size _assert_storage_size_RichenPacket; union RichenUnion { uint8_t parse_buffer[70]; uint16_t checksum_buffer[35]; struct RichenPacket packet; void update_checksum(); }; RichenUnion u; // time we were asked to stop; uint32_t stop_start_ms; }; }