DEFINITIONS
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%*/
-#define ID_PROPELLER "$Id$"
+#define ID_PROPELLER "$Id: FGPropeller.h,v 1.16 2010/04/09 12:44:06 jberndt Exp $"
/*%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
FORWARD DECLARATIONS
<maxpitch> {number} </maxpitch>
<minrpm> {number} </minrpm>
<maxrpm> {number} </maxrpm>
+ <constspeed> {number} </constspeed>
<reversepitch> {number} </reversepitch>
<sense> {1 | -1} </sense>
<p_factor> {number} </p_factor>
</tableData>
</table>
+ <table name="CT_MACH" type="internal">
+ <tableData>
+ {numbers}
+ </tableData>
+ </table>
+
+ <table name="CP_MACH" type="internal">
+ <tableData>
+ {numbers}
+ </tableData>
+ </table>
+
+
</propeller>
@endcode
\<maxpitch> - Maximum blade pitch angle.
\<minrpm> - Minimum rpm target for constant speed propeller.
\<maxrpm> - Maximum rpm target for constant speed propeller.
+ \<constspeed> - 1 = constant speed mode, 0 = manual pitch mode.
\<reversepitch> - Blade pitch angle for reverse.
\<sense> - Direction of rotation (1=clockwise as viewed from cockpit,
-1=anti-clockwise as viewed from cockpit).
</pre>
Two tables are needed. One for coefficient of thrust (Ct) and one for
- coefficient of power (Cp).
+ coefficient of power (Cp).
+
+ Two tables are optional. They apply a factor to Ct and Cp based on the
+ helical tip Mach.
<br>
Several references were helpful, here:<ul>
<li>Various NACA Technical Notes and Reports</li>
</ul>
@author Jon S. Berndt
- @version $Id$
+ @version $Id: FGPropeller.h,v 1.16 2010/04/09 12:44:06 jberndt Exp $
@see FGEngine
@see FGThruster
*/
/// Sets the P-Factor constant
void SetPFactor(double pf) {P_Factor = pf;}
+ /// Sets propeller into constant speed mode, or manual pitch mode
+ void SetConstantSpeed(int mode) {ConstantSpeed = mode;}
+
/// Sets coefficient of thrust multiplier
void SetCtFactor(double ctf) {CtFactor = ctf;}
/// Retrieves propeller power table
FGTable* GetCPowerTable(void) const { return cPower; }
+ /// Retrieves propeller thrust Mach effects factor
+ FGTable* GetCtMachTable(void) const { return CtMach; }
+ /// Retrieves propeller power Mach effects factor
+ FGTable* GetCpMachTable(void) const { return CpMach; }
+
/// Retrieves the Torque in foot-pounds (Don't you love the English system?)
double GetTorque(void) { return vTorque(eX); }
void SetFeather (bool f) { Feathered = f; }
bool GetFeather (void) { return Feathered; }
double GetThrustCoefficient(void) const {return ThrustCoeff;}
+ double GetHelicalTipMach(void) const {return HelicalTipMach;}
+ int GetConstantSpeed(void) const {return ConstantSpeed;}
+ void SetInducedVelocity(double Vi) {Vinduced = Vi;}
+ double GetInducedVelocity(void) const {return Vinduced;}
private:
int numBlades;
double ExcessTorque;
double D4;
double D5;
+ double HelicalTipMach;
+ double Vinduced;
FGColumnVector3 vTorque;
FGTable *cThrust;
FGTable *cPower;
+ FGTable *CtMach;
+ FGTable *CpMach;
double CtFactor;
double CpFactor;
+ int ConstantSpeed;
void Debug(int from);
double ReversePitch; // Pitch, when fully reversed
- bool Reversed; // true, when propeller is reversed
+ bool Reversed; // true, when propeller is reversed
double Reverse_coef; // 0 - 1 defines AdvancePitch (0=MIN_PITCH 1=REVERSE_PITCH)
bool Feathered; // true, if feather command
};