mirror of https://github.com/ArduPilot/ardupilot
374 lines
18 KiB
C++
374 lines
18 KiB
C++
/*
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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/*
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This driver supports communicating with Torqeedo motors that implement the "TQ Bus" protocol
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which includes the Ultralight, Cruise 2.0 R, Cruise 4.0 R, Travel 503, Travel 1003 and Cruise 10kW
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The autopilot should be connected either to the battery's tiller connector or directly to the motor
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as described on the ArduPilot wiki. https://ardupilot.org/rover/docs/common-torqeedo.html
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TQ Bus is a serial protocol over RS-485 meaning that a serial to RS-485 converter is required.
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Tiller connection: Autopilot <-> Battery (master) <-> Motor
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Motor connection: Autopilot (master) <-> Motor
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Communication between the components is always initiated by the master with replies sent within 25ms
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Example "Remote (0x01)" reply message to allow tiller to control motor speed
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Byte Field Definition Example Value Comments
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---------------------------------------------------------------------------------
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byte 0 Header 0xAC
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byte 1 TargetAddress 0x00 see MsgAddress enum
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byte 2 Message ID 0x00 only master populates this. replies have this set to zero
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byte 3 Flags 0x05 bit0=pin present, bit2=motor speed valid
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byte 4 Status 0x00 0x20 if byte3=4, 0x0 is byte3=5
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byte 5 Motor Speed MSB ---- Motor Speed MSB (-1000 to +1000)
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byte 6 Motor Speed LSB ---- Motor Speed LSB (-1000 to +1000)
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byte 7 CRC-Maxim ---- CRC-Maxim value
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byte 8 Footer 0xAD
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More details of the TQ Bus protocol are available from Torqeedo after signing an NDA.
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*/
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#pragma once
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#include <AP_HAL/AP_HAL.h>
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#ifndef HAL_TORQEEDO_ENABLED
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#define HAL_TORQEEDO_ENABLED !HAL_MINIMIZE_FEATURES && (BOARD_FLASH_SIZE > 1024) && !defined(HAL_BUILD_AP_PERIPH)
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#endif
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#if HAL_TORQEEDO_ENABLED
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#include <AP_ESC_Telem/AP_ESC_Telem_Backend.h>
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#include <AP_Param/AP_Param.h>
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#define TORQEEDO_MESSAGE_LEN_MAX 35 // messages are no more than 35 bytes
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class AP_Torqeedo : public AP_ESC_Telem_Backend {
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public:
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AP_Torqeedo();
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CLASS_NO_COPY(AP_Torqeedo);
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static AP_Torqeedo* get_singleton();
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// initialise driver
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void init();
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// consume incoming messages from motor, reply with latest motor speed
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// runs in background thread
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void thread_main();
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// returns true if communicating with the motor
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bool healthy();
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// run pre-arm check. returns false on failure and fills in failure_msg
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// any failure_msg returned will not include a prefix
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bool pre_arm_checks(char *failure_msg, uint8_t failure_msg_len);
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// report changes in error codes to user
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void report_error_codes();
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// clear motor errors
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void clear_motor_error() { _motor_clear_error = true; }
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// get latest battery status info. returns true on success and populates arguments
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bool get_batt_info(float &voltage, float ¤t_amps, float &temp_C, uint8_t &pct_remaining) const WARN_IF_UNUSED;
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bool get_batt_capacity_Ah(uint16_t &_hours) const;
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static const struct AP_Param::GroupInfo var_info[];
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private:
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// message addresses
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enum class MsgAddress : uint8_t {
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BUS_MASTER = 0x00,
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REMOTE1 = 0x14,
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DISPLAY = 0x20,
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MOTOR = 0x30,
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BATTERY = 0x80
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};
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// Remote specific message ids
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enum class RemoteMsgId : uint8_t {
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INFO = 0x00,
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REMOTE = 0x01,
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SETUP = 0x02
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};
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// Display specific message ids
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enum class DisplayMsgId : uint8_t {
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INFO = 0x00,
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SYSTEM_STATE = 0x41,
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SYSTEM_SETUP = 0x42
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};
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// Motor specific message ids
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enum class MotorMsgId : uint8_t {
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INFO = 0x00,
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STATUS = 0x01,
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PARAM = 0x03,
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CONFIG = 0x04,
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DRIVE = 0x82
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};
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enum class ParseState {
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WAITING_FOR_HEADER = 0,
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WAITING_FOR_FOOTER,
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};
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// TYPE parameter values
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enum class ConnectionType : uint8_t {
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TYPE_DISABLED = 0,
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TYPE_TILLER = 1,
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TYPE_MOTOR = 2
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};
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// OPTIONS parameter values
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enum options {
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LOG = 1<<0,
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DEBUG_TO_GCS = 1<<1,
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};
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// initialise serial port and gpio pins (run from background thread)
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// returns true on success
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bool init_internals();
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// returns true if the driver is enabled
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bool enabled() const;
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// process a single byte received on serial port
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// return true if a complete message has been received (the message will be held in _received_buff)
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bool parse_byte(uint8_t b);
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// process message held in _received_buff
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void parse_message();
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// returns true if it is safe to send a message
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bool safe_to_send() const { return ((_send_delay_us == 0) && (_reply_wait_start_ms == 0)); }
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// set pin to enable sending a message
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void send_start();
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// check for timeout after sending a message and unset pin if required
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void check_for_send_end();
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// calculate delay required to allow message to be completely sent
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uint32_t calc_send_delay_us(uint8_t num_bytes);
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// record msgid of message to wait for and set timer for reply timeout handling
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void set_expected_reply_msgid(uint8_t msg_id);
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// check for timeout waiting for reply
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void check_for_reply_timeout();
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// mark reply received. should be called whenever a message is received regardless of whether we are actually waiting for a reply
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void set_reply_received();
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// send a message to the motor with the specified message contents
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// msg_contents should not include the header, footer or CRC
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// returns true on success
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bool send_message(const uint8_t msg_contents[], uint8_t num_bytes);
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// add a byte to a message buffer including adding the escape character (0xAE) if necessary
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// this should only be used when adding the contents to the buffer, not the header and footer
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// num_bytes is updated to the next free byte
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bool add_byte_to_message(uint8_t byte_to_add, uint8_t msg_buff[], uint8_t msg_buff_size, uint8_t &num_bytes) const;
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// send a motor speed command as a value from -1000 to +1000
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// value is taken directly from SRV_Channel
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void send_motor_speed_cmd();
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// send request to motor to reply with a particular message
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// msg_id can be INFO, STATUS or PARAM
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void send_motor_msg_request(MotorMsgId msg_id);
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// calculate the limited motor speed that is sent to the motors
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// desired_motor_speed argument and returned value are in the range -1000 to 1000
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int16_t calc_motor_speed_limited(int16_t desired_motor_speed);
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int16_t get_motor_speed_limited() const { return (int16_t)_motor_speed_limited; }
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// log TRQD message which holds high level status and latest desired motors peed
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// force_logging should be true to immediately write log bypassing timing check to avoid spamming
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void log_TRQD(bool force_logging);
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// send ESC telemetry
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void update_esc_telem(float rpm, float voltage, float current_amps, float esc_tempC, float motor_tempC);
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// parameters
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AP_Enum<ConnectionType> _type; // connector type used (0:disabled, 1:tiller connector, 2: motor connector)
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AP_Int8 _pin_onoff; // Pin number connected to Torqeedo's on/off pin. -1 to disable turning motor on/off from autopilot
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AP_Int8 _pin_de; // Pin number connected to RS485 to Serial converter's DE pin. -1 to disable sending commands to motor
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AP_Int16 _options; // options bitmask
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AP_Int8 _motor_power; // motor power (0 ~ 100). only applied when using motor connection
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AP_Float _slew_time; // slew rate specified as the minimum number of seconds required to increase the throttle from 0 to 100%. A value of zero disables the limit
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AP_Float _dir_delay; // direction change delay. output will remain at zero for this many seconds when transitioning between forward and backwards rotation
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// members
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AP_HAL::UARTDriver *_uart; // serial port to communicate with motor
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bool _initialised; // true once driver has been initialised
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bool _send_motor_speed; // true if motor speed should be sent at next opportunity
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int16_t _motor_speed_desired; // desired motor speed (set from within update method)
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uint32_t _last_send_motor_ms; // system time (in millis) last motor speed command was sent (used for health reporting)
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bool _motor_clear_error; // true if the motor error should be cleared (sent in "Drive" message)
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uint32_t _send_start_us; // system time (in micros) when last message started being sent (used for timing to unset DE pin)
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uint32_t _send_delay_us; // delay (in micros) to allow bytes to be sent after which pin can be unset. 0 if not delaying
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// motor speed limit variables
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float _motor_speed_limited; // limited desired motor speed. this value is actually sent to the motor
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uint32_t _motor_speed_limited_ms; // system time that _motor_speed_limited was last updated
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int8_t _dir_limit; // acceptable directions for output to motor (+1 = positive OK, -1 = negative OK, 0 = either positive or negative OK)
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uint32_t _motor_speed_zero_ms; // system time that _motor_speed_limited reached zero. 0 if currently not zero
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// health reporting
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HAL_Semaphore _last_healthy_sem;// semaphore protecting reading and updating of _last_send_motor_ms and _last_received_ms
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uint32_t _last_log_TRQD_ms; // system time (in millis) that TRQD was last logged
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// message parsing members
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ParseState _parse_state; // current state of parsing
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bool _parse_escape_received; // true if the escape character has been received so we must XOR the next byte
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uint32_t _parse_error_count; // total number of parsing errors (for reporting)
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uint32_t _parse_success_count; // number of messages successfully parsed (for reporting)
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uint8_t _received_buff[TORQEEDO_MESSAGE_LEN_MAX]; // characters received
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uint8_t _received_buff_len; // number of characters received
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uint32_t _last_received_ms; // system time (in millis) that a message was successfully parsed (for health reporting)
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// reply message handling
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uint8_t _reply_msgid; // replies expected msgid (reply often does not specify the msgid so we must record it)
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uint32_t _reply_wait_start_ms; // system time that we started waiting for a reply message
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// Display system state flags
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typedef union PACKED {
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struct {
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uint8_t set_throttle_stop : 1; // 0, warning that user must set throttle to stop before motor can run
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uint8_t setup_allowed : 1; // 1, remote is allowed to enter setup mode
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uint8_t in_charge : 1; // 2, master is in charging state
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uint8_t in_setup : 1; // 3, master is in setup state
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uint8_t bank_available : 1; // 4
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uint8_t no_menu : 1; // 5
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uint8_t menu_off : 1; // 6
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uint8_t reserved7 : 1; // 7, unused
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uint8_t temp_warning : 1; // 8, motor or battery temp warning
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uint8_t batt_charge_valid : 1; // 9, battery charge valid
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uint8_t batt_nearly_empty : 1; // 10, battery nearly empty
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uint8_t batt_charging : 1; // 11, battery charging
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uint8_t gps_searching : 1; // 12, gps searching for satellites
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uint8_t gps_speed_valid : 1; // 13, gps speed is valid
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uint8_t range_miles_valid : 1; // 14, range (in miles) is valid
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uint8_t range_minutes_valid : 1; // 15, range (in minutes) is valid
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};
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uint16_t value;
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} DisplaySystemStateFlags;
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// Display system state
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struct DisplaySystemState {
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DisplaySystemStateFlags flags; // flags, see above for individual bit definitions
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uint8_t master_state; // deprecated
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uint8_t master_error_code; // error code (0=no error)
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float motor_voltage; // motor voltage in volts
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float motor_current; // motor current in amps
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uint16_t motor_power; // motor power in watts
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int16_t motor_rpm; // motor speed in rpm
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uint8_t motor_pcb_temp; // motor pcb temp in C
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uint8_t motor_stator_temp; // motor stator temp in C
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uint8_t batt_charge_pct; // battery state of charge (0 to 100%)
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float batt_voltage; // battery voltage in volts
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float batt_current; // battery current in amps
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uint16_t gps_speed; // gps speed in knots * 100
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uint16_t range_miles; // range in nautical miles * 10
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uint16_t range_minutes; // range in minutes (at current speed and current draw)
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uint8_t temp_sw; // master PCB temp in C (close to motor power switches)
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uint8_t temp_rp; // master PCB temp in C (close to reverse voltage protection)
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uint32_t last_update_ms; // system time that system state was last updated
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} _display_system_state;
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// Display system setup
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struct DisplaySystemSetup {
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uint8_t flags; // 0 : battery config valid, all other bits unused
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uint8_t motor_type; // motor type (0 or 3:Unknown, 1:Ultralight, 2:Cruise2, 4:Cruise4, 5:Travel503, 6:Travel1003, 7:Cruise10kW)
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uint16_t motor_sw_version; // motor software version
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uint16_t batt_capacity; // battery capacity in amp hours
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uint8_t batt_charge_pct; // battery state of charge (0 to 100%)
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uint8_t batt_type; // battery type (0:lead acid, 1:Lithium)
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uint16_t master_sw_version; // master software version
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} _display_system_setup;
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// Motor status
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struct MotorStatus {
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union PACKED {
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struct {
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uint8_t temp_limit_motor : 1; // 0, motor speed limited due to motor temp
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uint8_t temp_limit_pcb : 1; // 1, motor speed limited tue to PCB temp
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uint8_t emergency_stop : 1; // 2, motor in emergency stop (must be cleared by master)
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uint8_t running : 1; // 3, motor running
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uint8_t power_limit : 1; // 4, motor power limited
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uint8_t low_voltage_limit : 1; // 5, motor speed limited because of low voltage
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uint8_t tilt : 1; // 6, motor is tilted
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uint8_t reserved7 : 1; // 7, unused (always zero)
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} status_flags;
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uint8_t status_flags_value;
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};
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union PACKED {
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struct {
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uint8_t overcurrent : 1; // 0, motor stopped because of overcurrent
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uint8_t blocked : 1; // 1, motor stopped because it is blocked
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uint8_t overvoltage_static : 1; // 2, motor stopped because voltage too high
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uint8_t undervoltage_static : 1; // 3, motor stopped because voltage too low
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uint8_t overvoltage_current : 1; // 4, motor stopped because voltage spiked high
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uint8_t undervoltage_current: 1; // 5, motor stopped because voltage spiked low
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uint8_t overtemp_motor : 1; // 6, motor stopped because stator temp too high
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uint8_t overtemp_pcb : 1; // 7, motor stopped because pcb temp too high
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uint8_t timeout_rs485 : 1; // 8, motor stopped because Drive message not received for too long
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uint8_t temp_sensor_error : 1; // 9, motor temp sensor is defective (motor will not stop)
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uint8_t tilt : 1; // 10, motor stopped because it was tilted
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uint8_t unused11to15 : 5; // 11 ~ 15 (always zero)
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} error_flags;
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uint16_t error_flags_value;
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};
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} _motor_status;
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uint32_t _last_send_motor_status_request_ms; // system time (in milliseconds) that last motor status request was sent
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// Motor params
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struct MotorParam {
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int16_t rpm; // motor rpm
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uint16_t power; // motor power consumption in Watts
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float voltage; // motor voltage in volts
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float current; // motor current in amps
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float pcb_temp; // pcb temp in C
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float stator_temp; // stator temp in C
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uint32_t last_update_ms;// system time that above values were updated
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} _motor_param;
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uint32_t _last_send_motor_param_request_ms; // system time (in milliseconds) that last motor param request was sent
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// error reporting
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DisplaySystemStateFlags _display_system_state_flags_prev; // backup of display system state flags
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uint8_t _display_system_state_master_error_code_prev; // backup of display system state master_error_code
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uint32_t _last_error_report_ms; // system time that flag changes were last reported (used to prevent spamming user)
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MotorStatus _motor_status_prev; // backup of motor status
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static AP_Torqeedo *_singleton;
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// returns a human-readable string corresponding the the passed-in
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// master error code (see page 93 of https://media.torqeedo.com/downloads/manuals/torqeedo-Travel-manual-DE-EN.pdf)
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// If no conversion is available then nullptr is returned
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const char *map_master_error_code_to_string(uint8_t code) const;
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};
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namespace AP {
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AP_Torqeedo *torqeedo();
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};
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#endif // HAL_TORQEEDO_ENABLED
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