/// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*- /* 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 . */ /* simple internal combustion engine simulator class */ #include "SIM_ICEngine.h" #include using namespace SITL; /* update engine state, returning power output from 0 to 1 */ float ICEngine::update(const Aircraft::sitl_input &input) { bool have_ignition = ignition_servo>=0; bool have_choke = choke_servo>=0; bool have_starter = starter_servo>=0; float throttle_demand = (input.servos[throttle_servo]-1000) * 0.001f; state.ignition = have_ignition?input.servos[ignition_servo]>1700:true; state.choke = have_choke?input.servos[choke_servo]>1700:false; state.starter = have_starter?input.servos[starter_servo]>1700:false; uint64_t now = AP_HAL::micros64(); float dt = (now - last_update_us) * 1.0e-6f; float max_change = slew_rate * 0.01f * dt; if (!have_starter) { // always on last_output = throttle_demand; return last_output; } if (state.value != last_state.value) { printf("choke:%u starter:%u ignition:%u\n", (unsigned)state.choke, (unsigned)state.starter, (unsigned)state.ignition); } if (have_ignition && !state.ignition) { // engine is off if (!state.starter) { goto engine_off; } // give 10% when on starter alone without ignition last_update_us = now; throttle_demand = 0.1; goto output; } if (have_choke && state.choke && now - start_time_us > 1000*1000UL) { // engine is choked, only run for 1s goto engine_off; } if (last_output <= 0 && !state.starter) { // not started goto engine_off; } if (start_time_us == 0 && state.starter) { if (throttle_demand > 0.2) { printf("too much throttle to start: %.2f\n", throttle_demand); } else { // start the motor if (start_time_us == 0) { printf("Engine started\n"); } start_time_us = now; } } if (start_time_us != 0 && state.starter) { uint32_t starter_time_us = (now - start_time_us); if (starter_time_us > 3000*1000UL && !overheat) { overheat = true; printf("Starter overheat\n"); } } else { overheat = false; } output: if (start_time_us != 0 && throttle_demand < 0.01) { // even idling it gives some thrust throttle_demand = 0.01; } last_output = constrain_float(throttle_demand, last_output-max_change, last_output+max_change); last_output = constrain_float(last_output, 0, 1); last_update_us = now; last_state = state; return last_output; engine_off: if (start_time_us != 0) { printf("Engine stopped\n"); } last_update_us = AP_HAL::micros64(); start_time_us = 0; last_output = 0; last_state = state; start_time_us = 0; return 0; }