mirror of https://github.com/ArduPilot/ardupilot
214 lines
6.6 KiB
C++
214 lines
6.6 KiB
C++
// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*-
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#pragma once
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#include "AP_Generator_Backend.h"
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#if AP_GENERATOR_RICHENPOWER_ENABLED
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#include <AP_Common/AP_Common.h>
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#include <stdint.h>
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#include <stdio.h>
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/*
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* Example setup:
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* param set SERIAL2_PROTOCOL 30 # Generator protocol
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* param set SERIAL2_BAUD 9600
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* param set RC9_OPTION 85 # pilot directive for generator
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* param set SERVO8_FUNCTION 42 # autopilot directive to generator
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*/
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class AP_Generator_RichenPower : public AP_Generator_Backend
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{
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public:
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// constructor
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using AP_Generator_Backend::AP_Generator_Backend;
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// init should be called at vehicle startup to get the generator library ready
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void init(void) override;
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// update should be called regularly to update the generator state
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void update(void) override;
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// methods to control the generator state:
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bool stop(void) override;
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bool idle(void) override;
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bool run(void) override;
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// method to send a GENERATOR_STATUS mavlink message
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void send_generator_status(const GCS_MAVLINK &channel) override;
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// prearm checks to ensure generator is good for arming. Note
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// that if the generator has never sent us a message then these
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// automatically pass!
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bool pre_arm_check(char *failmsg, uint8_t failmsg_len) const override;
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// Update front end with voltage, current, and rpm values
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void update_frontend_readings(void);
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// healthy returns true if the generator is not present, or it is
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// present, providing telemetry and not indicating an errors.
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bool healthy() const override;
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private:
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// read - read serial port, return true if a new reading has been found
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bool get_reading();
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AP_HAL::UARTDriver *uart;
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// methods and state to record pilot desired runstate and actual runstate:
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enum class RunState {
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STOP = 17,
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IDLE = 18,
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RUN = 19,
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};
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RunState pilot_desired_runstate = RunState::STOP;
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RunState commanded_runstate = RunState::STOP; // output is based on this
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void set_pilot_desired_runstate(RunState newstate) {
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// gcs().send_text(MAV_SEVERITY_INFO, "RichenPower: Moving to state (%u) from (%u)\n", (unsigned)newstate, (unsigned)runstate);
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pilot_desired_runstate = newstate;
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}
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void update_runstate();
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// boolean so we can emit the RichenPower protocol version once
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bool protocol_information_anounced;
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// reported mode from the generator:
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enum class Mode {
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IDLE = 0,
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RUN = 1,
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CHARGE = 2,
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BALANCE = 3,
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OFF = 4,
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};
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// un-packed data from the generator:
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struct Reading {
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uint32_t runtime; //seconds
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uint32_t seconds_until_maintenance;
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uint16_t errors;
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uint16_t rpm;
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float output_voltage;
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float output_current;
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Mode mode;
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};
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// method and state to write and entry to the onboard log:
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void Log_Write();
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uint32_t last_logged_reading_ms;
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struct Reading last_reading;
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uint32_t last_reading_ms;
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const uint8_t HEADER_MAGIC1 = 0xAA;
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const uint8_t HEADER_MAGIC2 = 0x55;
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const uint8_t FOOTER_MAGIC1 = 0x55;
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const uint8_t FOOTER_MAGIC2 = 0xAA;
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// reported errors from the generator:
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enum class Errors { // bitmask
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MaintenanceRequired = 0,
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StartDisabled = 1,
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Overload = 2,
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LowVoltageOutput = 3,
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LowBatteryVoltage = 4,
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LAST
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};
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const char *error_strings[5] = {
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"MaintenanceRequired",
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"StartDisabled",
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"Overload",
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"LowVoltageOutput",
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"LowBatteryVoltage",
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};
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static_assert(ARRAY_SIZE(error_strings) == (uint8_t)Errors::LAST,
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"have error string for each error");
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// RichenPower data packet format:
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struct PACKED RichenPacket {
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uint8_t headermagic1;
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uint8_t headermagic2;
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uint16_t version;
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uint8_t runtime_minutes;
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uint8_t runtime_seconds;
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uint16_t runtime_hours;
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uint16_t seconds_until_maintenance_high;
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uint16_t seconds_until_maintenance_low;
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uint16_t errors;
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uint16_t rpm;
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uint16_t throttle;
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uint16_t idle_throttle;
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uint16_t output_voltage;
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uint16_t output_current;
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uint16_t dynamo_current;
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uint8_t unknown1;
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uint8_t mode;
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uint8_t unknown6[38]; // "data"?!
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uint16_t checksum;
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uint8_t footermagic1;
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uint8_t footermagic2;
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};
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assert_storage_size<RichenPacket, 70> _assert_storage_size_RichenPacket UNUSED_PRIVATE_MEMBER;
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union RichenUnion {
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uint8_t parse_buffer[70];
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struct RichenPacket packet;
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};
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RichenUnion u;
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// number of bytes currently in the buffer
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uint8_t body_length;
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// move the expected header bytes into &buffer[0], adjusting
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// body_length as appropriate.
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void move_header_in_buffer(uint8_t initial_offset);
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// a simple heat model to avoid the motor moving to run too fast
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// or being stopped before cooldown. The generator itself does
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// not supply temperature via telemetry, so we fake one based on
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// RPM.
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uint32_t last_heat_update_ms;
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float heat;
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void update_heat();
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// returns true if the generator should be allowed to move into
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// the "run" (high-RPM) state:
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bool generator_ok_to_run() const;
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// returns an amount of synthetic heat required for the generator
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// to move into the "run" state:
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static constexpr float heat_required_for_run();
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// approximate run and idle speeds for the generator:
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static const uint16_t RUN_RPM = 15000;
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static const uint16_t IDLE_RPM = 6000;
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static constexpr float heat_environment_loss_factor = 0.005f;
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// powf is not constexpr, so we create a const for it:
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// powf(1.0f-heat_environment_loss_factor, 30)
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static constexpr float heat_environment_loss_30s = 0.860384;
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static constexpr float heat_environment_loss_60s = 0.740261;
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// boolean so we can announce we've stopped the generator due to a
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// crash just once:
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bool vehicle_was_crashed;
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// data and methods to handle time-in-idle-state:
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uint32_t idle_state_start_ms;
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uint32_t time_in_idle_state_ms() const {
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if (idle_state_start_ms == 0) {
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return 0;
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}
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return AP_HAL::millis() - idle_state_start_ms;
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}
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// check if the generator requires maintenance and send a message if it does:
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void check_maintenance_required();
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// if we are emitting warnings about the generator requiring
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// maintenamce, this is the last time we sent the warning:
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uint32_t last_maintenance_warning_ms;
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};
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#endif
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