// Module: 10520c.c // Author: Phil Schubert // Date started: 12/03/99 // Purpose: Models a Continental IO-520-M Engine // Called by: FGSimExec // // Copyright (C) 1999 Philip L. Schubert (philings@ozemail.com.au) // // 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 2 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, write to the Free Software // Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA // 02111-1307, USA. // // Further information about the GNU General Public License can also // be found on the world wide web at http://www.gnu.org. // // FUNCTIONAL DESCRIPTION // ------------------------------------------------------------------------ // Models a Continental IO-520-M engine. This engine is used in Cessna // 210, 310, Beechcraft Bonaza and Baron C55. The equations used below // were determined by a first and second order curve fits using Excel. // The data is from the Cessna Aircraft Corporations Engine and Flight // Computer for C310. Part Number D3500-13 // // ARGUMENTS // ------------------------------------------------------------------------ // // // HISTORY // ------------------------------------------------------------------------ // 12/03/99 PLS Created // 07/03/99 PLS Added Calculation of Density, and Prop_Torque // 07/03/99 PLS Restructered Variables to allow easier implementation // of Classes // 15/03/99 PLS Added Oil Pressure, Oil Temperature and CH Temp // ------------------------------------------------------------------------ // INCLUDES // ------------------------------------------------------------------------ #ifndef _10520D_HXX_ #define _10520D_HXX_ #include #include class FGEngine { private: // Control and environment inputs float IAS; // 0 = Closed, 100 = Fully Open float Throttle_Lever_Pos; // 0 = Full Course 100 = Full Fine float Propeller_Lever_Pos; // 0 = Idle Cut Off 100 = Full Rich float Mixture_Lever_Pos; // Engine Specific Variables used by this program that have limits. // Will be set in a parameter file to be read in to create // and instance for each engine. float Max_Manifold_Pressure; float Max_RPM; float Min_RPM; float Max_Fuel_Flow; float Mag_Derate_Percent; float MaxHP; float Gear_Ratio; // Initialise Engine Variables used by this instance float Percentage_Power; float Manifold_Pressure; // Inches float RPM; float Fuel_Flow; // lbs/hour float Torque; float CHT; float Mixture; float Oil_Pressure; // PSI float Oil_Temp; // Deg C float HP; float RPS; float Torque_Imbalance; float Desired_RPM; // Initialise Propellor Variables used by this instance float FGProp1_Angular_V; float FGProp1_Coef_Drag; float FGProp1_Torque; float FGProp1_Thrust; float FGProp1_RPS; float FGProp1_Coef_Lift; float Alpha1; float FGProp1_Blade_Angle; float FGProp_Fine_Pitch_Stop; // Other internal values float Rho; // Calculate Engine RPM based on Propellor Lever Position float Calc_Engine_RPM (float Position); public: // set initial default values void init(); // update the engine model based on current control positions void update(); inline void set_IAS( float value ) { IAS = value; } inline void set_Throttle_Lever_Pos( float value ) { Throttle_Lever_Pos = value; } inline void set_Propeller_Lever_Pos( float value ) { Propeller_Lever_Pos = value; } inline void set_Mixture_Lever_Pos( float value ) { Mixture_Lever_Pos = value; } // accessors inline float get_RPM() const { return RPM; } inline float get_FGProp1_Thrust() const { return FGProp1_Thrust; } inline float get_Rho() const { return Rho; } }; #endif _10520D_HXX_