ardupilot/ArduCopterMega/APM_Config_mavlink_hil.h

53 lines
1.7 KiB
C

// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: t -*-
// Hardware in the loop protocol
#define HIL_PROTOCOL HIL_PROTOCOL_MAVLINK
// HIL_MODE SELECTION
//
// Mavlink supports
// 1. HIL_MODE_ATTITUDE : simulated position, airspeed, and attitude
// 2. HIL_MODE_SENSORS: full sensor simulation
#define HIL_MODE HIL_MODE_ATTITUDE
// HIL_PORT SELCTION
//
// PORT 1
// If you would like to run telemetry communications for a groundstation
// while you are running hardware in the loop it is necessary to set
// HIL_PORT to 1. This uses the port that would have been used for the gps
// as the hardware in the loop port. You will have to solder
// headers onto the gps port connection on the apm
// and connect via an ftdi cable.
//
// The baud rate is set to 115200 in this mode.
//
// PORT 3
// If you don't require telemetry communication with a gcs while running
// hardware in the loop you may use the telemetry port as the hardware in
// the loop port. Alternatively, use a telemetry/HIL shim like FGShim
// https://ardupilot-mega.googlecode.com/svn/Tools/trunk/FlightGear
//
// The buad rate is controlled by SERIAL3_BAUD in this mode.
#define HIL_PORT 3
// You can set your gps protocol here for your actual
// hardware and leave it without affecting the hardware
// in the loop simulation
#define GPS_PROTOCOL GPS_PROTOCOL_MTK
// Ground control station comms
#if HIL_PORT != 3
# define GCS_PROTOCOL GCS_PROTOCOL_MAVLINK
# define GCS_PORT 3
#endif
// Sensors
// All sensors are supported in all modes.
// The magnetometer is not used in
// HIL_MODE_ATTITUDE but you may leave it
// enabled if you wish.
#define AIRSPEED_SENSOR ENABLED
#define MAGNETOMETER ENABLED