Setup Manual for Propeller H60A series Propeller type: Serial No.: Date of sale: Stamp, Signature:
Table of Contents 1 Description... 4 2 Requirements... 4 3 Preparations... 4 4 Data Output... 4 5 Functions Check before Flight... 8 6 Flight Test... 11 7 Parameter Setup... 13 H60A Setupl Manual page 2 / 15
List of Revisions edition (date) chapter description name 22.08.2018 all first edition RKS H60A Setupl Manual page 3 / 15
1 Description This manual describes methods and tools to setup the correct Propeller-Parameters into the propeller controller. 2 Requirements - All information in the pilot's manual is required for the following contents. - All information in the installation manual is required for the following contents. - Installation on the aircraft is completed in compliance with all requirements of the installation manual. - The pilot performing the attitude and testing on the ground and in the air must be adequately qualified for this activity. A flight experience of at least 500 flight hours and routine behavior in special cases is required. - An instrument for manual operation of the propeller via Bluetooth is ready to operate and can also be safely operated in flight. The software manual in the applicable and current version has been noted. - A clipboard to complete the flight test protocol is available and can be safely described in flight. - In order to make the scope of the manual is not too large, only the propeller-specific content is described below. All activities resulting from normal pilot behavior are not listed further. 3 Preparations The aircraft should be reliably secured against rolling during the longer phase of the run. 4 Data Output Detailed Display The display of the propeller data is renewed every 2 seconds. The following values are displayed in the detailed display: - Perf: Performance n: number of computations per second max: factor of the computing speed UpTime: Time since last boot of the controller - Gen: generator U: Internal voltage H60A Setupl Manual page 4 / 15
n: engine speed Duty: value for the precision of the speed measurement Err: string only in case of error - I2c: pressure sensor v: airspeed p: pressure difference static / dynamic T: controller temperature - Reg: control mode CNST: Automatic-Mode active MAN: Manual-Mode active SPED: Constant-Speed-Mode active Target: current target / control speed Pitch: current propeller pitch position with values from 0 to 2400 Thrust: inactive calculation value of the internal thrust calculation - SPI: motor controller U: supply voltage (min 12V, max 45V) Pos: current stepper motor position Status: Motor status of the motor (RUN, STOP, Stall) NoReplyErr: string only in case of error (miscellaneous) - Info: Information V: version number of the software (currently V1.00c) Seconds: Operating hours counter in minutes Dbg: debug error output for software improvement P : Parameter output, going through the next one every 2 seconds Parameter number and their value H60A Setupl Manual page 5 / 15
1 Software HM10 Bluetooth Serial Pro Console detailed Short Display In normal flight operations, the many more internal, for the pilot not so relevant information disturb. The controller therefore always starts with the short display version. The following values are output in the short display: - Meas: Measurements Engine speed in rpm Airspeed in km / h - Reg Regulation Rule mode (SPED, MAN, CNST) Target / control speed Target propeller pitch in% from 0-100% of the adjustment path - SPI: Motor controller current propeller pitch in% from 0-100% of the adjustment path String only in case of error (diverse) H60A Setupl Manual page 6 / 15
2 Software HM10 Bluetooth Serial Pro Console short H60A Setupl Manual page 7 / 15
3 Software HM10 Bluetooth Serial Pro 5 Functions Check before Flight Propeller-Instrument Start the engine and check that the connection between the propeller and the propeller instrument is working properly. Call of the detailed data output Check if the factory set parameters are correct. The values of the parameters are displayed continuously at the end of the last line of the detailed data output. H60A Setupl Manual page 8 / 15
Param.No Param.value Shortcut unit description 01 03906 1:1 Gear reduction factor as a multiple of 3906 08877 1:2,27 Reduction ratio Rotax 912UL 09483 1:2,43 Reduction ratio Rotax 912ULS 09943 1:2,54 Reduction ratio 915UL 02 00000 00001 00002 00003 fix Propeller geometry options Factory pre-set Don t change 03 00001 CNST Constant speed mode; (Engine rotational speed) 00002 SPED Automatic mode with flight phase detection 00003 MAN Manual mode for pitch fixing 04 05300 rpm Speed setting for Constant Speed mode 05 05800 rpm Speed specification for flight phase start 06 05400 rpm Speed specification for flight phase climb 07 04800 rpm Speed specification for flight phase cruise 08 00100 km/h Transition speed takeoff <-> climb 09 00200 km/h Transition speed climb -> cruising flight 10 00160 km/h Transition speed cruise -> climb If values deviate from the desired values, they must be changed according to the specifications in the H60A Software Manual. Note the set parameters in the Propeller Flight Test Protocol. If the parameters do not require correction, the pre-flight check can be continued. H60A Setupl Manual page 9 / 15
Set of a significant, slightly increased stall speed by throttle position Check that engine speed shown on the display the Propeller-Instrument shows the same value as on the aircraft instrument. Propeller mechanics Calling the Manual-Mode and setting the maximum propeller pitch. * observe how the propeller pitch increases and remains at the stop. This can be recognized by a sinking engine speed and a more vibrating propeller run. Calling the Manual-Mode and setting the minimum propeller angle. * observe how the propeller pitch is reducing and remains at the stop. This can be seen from an increasing engine speed and smother propeller run. This standard test is used to check whether the propeller mechanism is free even under engine load. If this is not the case, the testing must be stopped and the cause can be found according to the installation manual. Propeller Electronics Calling the Constant-Speed-Mode and setting a lower engine speed than the current one. * observe how the propeller pitch increases and remains at the stop. This can be recognized by a sinking engine speed and a restless propeller run. Calling the Constant-Speed Mode Setting and setting a higher speed than the previous one. * observe how the propeller pitch is reduced and remains at the stop. This can be seen from an increasing engine speed and quieter propeller run. This standard test is used to check if the propeller electronics also regulate properly. If this is not the case, the testing must be stopped and the cause can be found according to the installation manual. Load-Test Adjusting the highest possible level of engine speed by throttle position at which the aircraft still stops safely. Calling the Manual-Mode and setting the maximum propeller angle. * observe how the propeller pitch increases and remains at the stop. This can be recognized by a sinking engine speed and a restless propeller run. Calling the Manual-Mode and setting the minimum propeller angle. * observe how the propeller pitch is reducing and remains at the stop. This can be seen from an increasing engine speed and quieter propeller run. This load test is used to check whether the propeller mechanism is free even under high engine load. H60A Setupl Manual page 10 / 15
If this is not the case, the testing must be stopped and the cause must be found according to the Installation-Manual. 6 Flight Test Takeoff Run Calling the Automatic-Mode. For takeoff the throttle position is set to maximum. Should the engine remain in overspeed for more than 3 seconds, the full throttle position may only be activated slowly. * Note the maximum engine speed in the Flight Test Protocol. Takeoff-Climbing In the course of takeoff, the aircraft accelerates after takeoff until a safe airspeed is achieved. This safe airspeed is listed in the Propeller Parameter List as the Transition speed takeoff <-> climb. Properly operating propeller control will switch from maximum short-term engine speed to maximum continuous engine speed upon reaching this speed. H60A Setupl Manual page 11 / 15
* This should be observed and noted in the Propeller Flight Test Protocol. * A more optimal value for the Transition speed takeoff <-> climb according to the flight behavior is also to be noted in Flight Test Protocol. Climbing The propeller controls the propeller to the maximum continuous engine speed above the safe climb speed until the cruising speed is reached, unless the throttle position is retracted beforehand. * This should be observed and noted in the Propeller Flight Test Protocol. Cruise Upon reaching the preset Transitional speed climb -> cruise, the propeller controls the maximum speed to the preset cruise engine speed. If the actual airspeed, e.g. is reduced by the influence of thermals, the controller switches again at a slower speed back into the flight phase climb. This can be found in the parameters as Transition speed cruising -> climb * This should be observed and noted in the Propeller Flight Test Protocol. * A more optimal value for the Transition speed cruise -> climb according to the flight behavior is also to be noted in Flight Test Protocol. * A more optimal value for the Cruising engine speed according to the flight behavior is also to be noted in Flight Test Protocol. Fast Flight In order to perform a high-speed flight at a higher engine speed, it is necessary to switch to the Constant-Speed-Mode, which differs from the automatic operation of the propeller (Automatic-Mode). The pilot activates it by entering the command on the propeller instrument. Warning After manually activating the Constant-Speed-Mode with the set engine speed accordingly, neither the flight speed nor the flight phase detection is taken into account for the speed specification. To return to the Automatic-Mode, it must be activated again by entering from pilot. Decent If the throttle position is retracted so far that the propeller can not maintain the control value even at the lowest gradient, the engine speed drops accordingly. The propeller analyses the actual airspeed and propeller speed and regulates an pitch that produces little air drag to avoid unnecessarily obstructing the gliding flight. This also prevents an overspeed in case of sudden increase in power. * This should be observed and noted in Flight Test Protocol. This feature is not active in Constant-Speed-Mode. H60A Setupl Manual page 12 / 15
Landing The propeller recognizes at the low airspeed that a landing approach exists (flight phase landing approach) and regulates a flat propeller pitch to quickly come to high speed in case of sudden increase in power. A possible overspeed is tolerated in favor of increased safety through faster response. * This should be observed and noted in Flight Test Protocol. * A more optimal value according to the flight behavior for the already described Transition speed takeoff <-> climb is also to be noted under the aspect of the landing approach. Attention In the Constant-Speed-Mode and in the Automatic-Mode, sudden overspeed conditions are possible for a short time, especially at high speeds. Therefore, the power should be increased only slowly so that the maximum speed of the engine or propeller is not exceeded. The scheme must be given the time to readjust. 7 Parameter Setup The parameters must be well balanced considering the flight characteristics and the intended method of use of the aircraft. Helpful for the discussion are the impressions of the test flight and the notes. Attached a sample of a Propeller Flight Test Protocol. After final decision for correct Parameter Setup the parameter need to be set as described in H60A Software Manual. H60A Setupl Manual page 13 / 15
Param. No Param. value Para Value set Shortcut unit Description 01 03906 1:1 Gear reduction factor as a multiple of 3906 08877 1:2,27 Reduction ratio Rotax 912UL 09483 1:2,43 Reduction ratio Rotax 912ULS 09943 1:2,54 Reduction ratio 915UL 03 00001 CNST Constant speed mode; (Engine rotational speed) 00002 SPED Automatic mode with flight phase detection 00003 MAN Manual mode for pitch fixing 04 05300 rpm Speed setting for Constant Speed mode 05 05800 rpm Speed specification for flight phase start 06 05400 rpm Speed specification for flight phase climb 07 04800 rpm Speed specification for flight phase cruise 08 00100 km/h Transition speed start <-> climb 09 00200 km/h Transition speed climb -> cruising flight 10 00160 km/h Transition speed cruise -> climb H60A Setupl Manual page 14 / 15
Aircraft Type Propeller Type Location Date Executive Pilot Flight phase Takeoff-Run Observation Comment maximum static engine speed rpm Overspeed Yes / no Flight phase Takeoff-Climb Transition speed Start <-> Steigflug ok / is / should Flight phase Climb Transition speed Takeoff <-> Climb ok / Ist / soll Flight phase Cruise Transition speed Cruise -> Climb ok / is / should Cruising engine speed is rpm should rpm Flight phase Fast-Flight maximum engine speed respected Ja / nein maximum engine speed Maximum airspeed achieved rpm km/h Flight phase Landing approach Transition speed Takeoff <-> Climb ok / is / should H60A Setupl Manual page 15 / 15