computer radio control system EN CZECH REPUBLIC DS-12 2.4GHz & 900MHz NG Dual Band System FW 5.
computer radio control system EN
computer radio control system EN 1. Introduction ........................................................................................... 09 4.3.3 Control Stick Tension Adjustment ..................................... 17 1.1 DS-12 ................................................................................................ 09 4.3.4 Ratchet Tension Adjustment .............................................. 18 1.2 Activation method for software modules of JETI model ......... 09 4.3.
computer radio control system EN 6. Transmitter Powering ON/OFF .......................................................... 28 8.2 Installation ....................................................................................... 42 6.1 Transmitter, Powering-ON ........................................................... 28 8.3 Binding .............................................................................................. 42 6.2 Transmitter Turning-OFF ..........................................
computer radio control system 9.1.1 Model Selection ..................................................................... 54 EN 9.2.7 Ailevator Function ............................................................... 76 9.1.2 New Model .............................................................................. 55 9.2.8 V-Tail Mix ................................................................................. 77 9.1.3 Basic configuration- AIRPLANE ......................................... 56 9.2.
computer radio control system 9.3.10 Voice Commands ........................................................... 100 EN 9.6.1 Configuration ..................................................................... 118 9.4 Timers/Sensors .............................................................................. 103 9.6.2 Servo & Range Test ............................................................. 121 9.4.1 Timer ......................................................................................
computer radio control system EN 10.3 Sounds, Alarms & Acoustic Updates ....................................... 131 12.5 Delta/Elevon Mix .......................................................................... 138 10.4 System Backup ............................................................................ 132 12.6 Spoilers to Elevator Mix ............................................................. 138 10.5 PC Joystick ............................................................................
computer radio control system 8 EN
computer radio control system 1 Introduction 1.2 Activation method for software modules of JETI model 1.1 DS-12 1. Make sure you have the most current firmware version in your transmitter. The DS-12 transmitter was developed and produced with the cooperation of professional engineers and world champion pilots. The design goals were maximum utility, durability, and reliablity of their mechanical parts along with simple handling. The straightforward case shape makes servicing easy.
computer radio control system the relevant amount. After payment, a unique nontransferable file named “Activation.bin” will be generated. It will then be sent to your e-mail. 6. Connect the DS-14 to your computer and enable USB mode. 7. Copy the “Activation.bin” file to the transmitter SD card into the root folder. The contents of the transmitter SD card can then look like this: 8. Disconnect the transmitter from the computer (Do not forget to confirm the safe hardware removal).
computer radio control system integrated cover in the DS-12 case for protection against mechanical damage. Large Memory – Internal SD card for storing models, sounds, and telemetry data. USB Connector – convenient connection to your PC. Fast firmware & sound upgrades, telemetry data downloads. Fast Navigation – 3D wheel-style interface combined with function keys allow for speedy navigation within the DS-12 menu. Digital Trims – fully programmable trims and a revolutionary automatic trimming function.
computer radio control system 1.4 Manual Navigation 1.5 Technical Support If you feel uncertain about how to set up particular transmitter functions, do not hesitate to take advantage of our technical support: To make navigation faster, the DS-12 transmitter Instruction Manual has been divided into 5 basic groups: 1. Web Site Either the JETI model (manufacturer) or your local distributor’s web sites offer a wide range of support for the DS-12 transmitters.
EN computer radio control system 1.6 DS-12 Package Contents 2 System Specifications 1. JETI DS-12 Transmitter, 2. Wall Power Supply, 3. USB PC Cable, 4. Installation Key Set (HEX 1,5; TORX 10), 5. Cleaning Cloth, Instruction Manuals, Basic technical parameter RF module 900MHz (863-870 MHz - EU) (902-928 MHz - EU) 1 Plastic Resolution of sticks 4096 Internal memory, SD cart 8 GB 1 Number of antennas 3 5 Weight [kg] Dimensions [mm] 4 l RF modul 2.
computer radio control system EN This help mode is available in FW min. v5.00. We recommend update your transmitter by Jeti Studio. 3 Help mode It is possible to call up the help mode for each item where a "question mark" icon appears in the upper right corner of the screen (1). If you see this icon, you can press the "menu" button briefly to call up the help mode for the current item you have highlighted in the respective transmitter menu (1). 1 2 2. 14 2.
computer radio control system 4 Description of Transmitter DS-12 4.1 Control Identification DS-12 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 10 2 7 19 6 18 24 1 16 3 3 10 9 8 25 17. 18. 19. 20. 21. 22. 23. 24. 25. 22 20 21 11 2.
computer radio control system EN 4.2 Assembly Identification 26. 27. 28. 29. 30. Battery Connector Transmitter Battery Pack PPM Output Connector Left Gimbal Assembly Right Gimbal Assembly 29 31. Micro SD Card 32. 2.4GHz Antennas 33. 900 MHz Antenna 28 31 27 2. 32 33 30 26 16 2.
computer radio control system Warning: If you have installed optional sticks with switch or button ends; make sure that while adjusting the stick length you observe the wires that pass through the stick shaft and through the gimbal opening in order to prevent damaging the connecting cables. The safest method is to remove the small set-screw from the side of the stick housing to allow the switch or knob internals to remain stationary while you rotate the stick housing for height adjustment. (4.3.7) 4.
EN computer radio control system 2. 2. For ratchet tension adjustment use the machine screw “A”. Turn slowly (counter-clockwise) until you achieve the desired ratchet tension. For smooth tension adjustment, use the machine screw “B”. Turn slowly (clockwise) until you achieve the desired smooth tension. Use indicated machine adjustment screws to change the desired spring tension. By turning the screw countercloc kwise, you will loosen spring tension.
EN computer radio control system 4.3.5 Throttle stick travel adjustment 4.3.6 Changing the transmitter mode The throttle stick travel is adjustable to suit your flying style. The transmitter is equiped with universal multimode gimbals. Both gimbals are identical and can be adjusted mechanically for modes 15. After mechanical adjustment it is necessary to set a specific transmitter mode in the menu System – Configuration – Stick mode 1-4.
computer radio control system EN B. Setting the multi-mode gimbal into the mode with locking the middle position - elevator 5 E D 2 1 3 A C B 1. Loosen the screw A. 2. Slightly lift the lever B. 3. Turn the lock C in the direction of the arrow and arrest the lever B in the upper position. 4. Move the lever C in the direction of the arrow to release the lever B. 5. Tighten the screw A. 6. Loosen the screws E and D in a position so that tension is removed from the stick. 2. 20 2.
EN computer radio control system 4.4.1 Switch Removal Procedure 4.4 Swappable and Assignable Switches 1. One of the most important features of a JETI transmitter is the switch function assignment flexibility. The exact type of switch can be set in „menu->advanced->properties->sticks-switches->setup”. There are many switches available to suit different needs. See your Jeti retailer for switch availability. 2. Switch off the transmitter and remove the 7 screws that secure the radio back cover.
computer radio control system 4. Disconnect the flat flexible cable from its connector on the main board. The flat flexible cables that link the main printed circuit board with the switches are oriented as shown in the picture (4a). The wire is always color coded on one side of both ends (4b). The markings must be oriented as shown below.
computer radio control system EN 4.6 Transmitter Battery Pack 4.5 Digital Trims Transmitter gimbals are used for controlling the basic flight functions like throttle, roll(aileron), pitch(elevator), and yaw(rudder). Immediately under the transmitter gimbal sticks you can see four push-buttons which are the programmable, digital trim buttons. The DS-12 transmitter is powered by a Li-Ion type battery pack and comes equipped with its own built-in advanced battery management and charging circuit.
EN computer radio control system 4.6.2 Battery Replacement 4.7 PPM Input/Output Connector Should you decide to replace the transmitter battery, please follow these steps: 1. Switch off the transmitter and remove the 7 screws that secure the radio back cover. Next, remove the radio back cover. 2. Disconnect the transmitter battery connector. 3. Loosen the battery fastening strap and remove the battery. The PPM output is accessible via connector labeled "B“.
EN computer radio control system 4.8 Handling 4.9 Change SD Card The DS-12 is equipped with a handle for practical manipulation as shown in the picture. Disconnect the battery plug . To open the SD card holder, use a fingernail to push the metal frame to the right and then lift it carefully . The micro SD card can now be removed . For installation, proceed in the reverse order . The transmitter 2.4GHz antenna locations are shown in the picture below.
computer radio control system • 5 RF Transmitter Modules In order to achieve the highest transmission quality and reliability of the DS-12 transmitters, we have decided to equip the radio with two independent transmitter modules (DUPLEX 2.4GHz and 900MHz NG). The transmitter modules have separate antennas. From the point of transmission they are fully independent from each other. The RF modules of the transmitter can operate in following modes: • • • 2.
EN computer radio control system Recommended connection for Rsat900 NG as a backup receiver with a Central Box • Always connect the RSat2 or R3/RSW as the primary receiver in the “RX1” slot of the Central Box. Connecting the RSat 900 NG directly to a Primary receiver : • The RSat900 receiver is plugged into the “Sat1” slot of the primary receiver. • The RSat900 NG receiver is set to PPM output and the primary receivers “Sat1” slot is set to PPM input.
computer radio control system 6 Transmitter Powering ON/OFF 6.2 Transmitter Turning-OFF The transmitter is switched-off by pressing the "Power“ main button. Before complete power-down is achieved you will be asked for additional confirmation. In case of an emergency, a fast turn-off can be achieved by simultaneously pressing and holding the "Power“ and "esc“ buttons. NEVER use this alternative during normal working conditions. 6.
computer radio control system 7 Initial switching-on 7.1 Main display Turn the transmitter on by pressing and holding the „Power“ button for a couple of seconds and then press the "F5 (Yes)" button to confirm, see chapter 6.1. The display shows the Main screen and displays the currently loaded model aircraft. The main screen displays basic information about operation of your transmitter, such as the battery level, time, flight mode, etc.
computer radio control system The lower bar is found at the bottom of the main display. The lower bar shows: EN 7.2 Navigation in the Menu 7.2.1 Navigation 1. 1 Advice: Also, If you push this button while turning the 3D Control Selector to edit values, the values can be changed faster. With the menu button pressed, 10 more values are changed per turn. 2 3 4 2. 5 1. Tools - fast transmitter setup: Color profile, Telemetry, Volume, Backlight duration, brightness 2.
EN computer radio control system 7.2.
computer radio control system 7.3 Model Set-up Guide Warning: For safety reasons we recommend first removing the propeller. In this section we will guide you, step by step, through the process of creating a new model airplane and helicopter. Each step of the guide will be complete with associated transmitter menu photos. If you follow the step by step guide you should become familiar with how to create a model profile.
computer radio control system 5. Select your wing type. Because this example has 2 aileron servos, select „Wing type“ 0FLP/2WING. Do not change any other setup items like tail assembly, number of motors, number of spoilers or number of landing gear servos. Continue by pushing the „F5(Next)“ button. 8. The screen will now display a request which asks if you really want to create and activate the new model. Confirm with the "F5(Yes)“ button. 9.
computer radio control system a. From the main screen, push the „menu“ button. Select „Fine tuning“ and push the „3D button“. 7.3.2 Helicopter Let’s create a simple model helicopter. In this example, the helicopter is controlled by a swash plate with three servos at 120° orientation and the motor has no governor. Servo assignment for the receiver channels: 1. Throttle 2. Elevator (Swash 1F) 3. Collective (Swash 2L) 4. Aileron (Swash 3R) 5. Rudder (Yaw) 6. Gyro(Gyro sens.) b.
computer radio control system EN 5. Select the helicopter swash plate type"3 servos (def 120°)“. Change the second menu item "Position of front servo“ to "Rear“ – the swash plate servo orientation will be turned 180°. Confirm the change by pressing the "F5(Next)” button. button. When you create a new helicopter model, you are required to define the swash plate configuration for the model. 1. Switch on the transmitter. In the main display push the key "menu“.
computer radio control system EN In the "Fine tuning -> Flight modes“ menu you will setup these advanced model control functions for your helicopter: Collective pitch curve, see: Fine tuning -> Flight Modes->Function Curves Throttle curve, see: Fine tuning -> Flight Modes->Function Curves Dual rates, see: Fine tuning -> Dual Rate/Expo Autorotation, see: Fine tuning -> Flight Modes Gyro/Governor see: Fine tuning -> Gyro/Governor For convenience, a quick link to all of these function settings has been made
computer radio control system Servo assignment to receiver channels: 1. Throttle 2. Roll (ailerons) 3. Pitch (elevator) 4. Yaw (rudder) 5. Mode (multicopter mode channel) 2. Select the item „New model“ and push the „3D button“. 3. Enter the name of your model and press „F5(OK)“ (Note: you must enter a model name to proceed.) Then select the model type „X-Copter“. Confirm by pushing the „F5(Next)“ button.
computer radio control system 10. Bind transmitter with the receiver, see chapter 8.3 Receiver>Binding. Once your transmitter has been bound with the receiver and you have re-applied power to the receiver, the last setup phase is the tuning of your flight controller channels, see chapter 7.3.5 Setup of receiver outputs. Set the correct subtrims and endpoints, so that the flight controller unit recognizes the channels as valid. 6.
computer radio control system Before creating a model, make sure that you have setup the correct transmitter mode in "Main menu -> System -> Configuration -> MODE 1-4“. The basic, standardized, assignment of transmitter inputs to flight controls are based upon this selection. First it is necessary to create a model in the transmitter and then bind the DS12 transmitter with the receiver which will control the given model, see chapter 8.3: “Receiver->Binding”. 4.
computer radio control system (spring-loaded switch). After you create all of your desired functions, press the„F5(Next)“ button to confirm. Once your transmitter has been bound with a receiver and has been connected to its power supply, the last step consists of tuning the servo output functions, see chapter 7.3.5: Setup of receiver outputs. To complete this model we just need to configure a free mixer from the throttle function to the motor sound module.
computer radio control system EN their full travel. You should use the dual rate function to set your model’s useable control throws. 7.3.5 setup of Receiver Outputs Go to the "Model->Servo Setup“ menu. Use the "F2“ and "F3“ buttons to brows through the receiver outputs (channels). You can scrol through the following servo adjustment items for each channel: „Servo reversing“ – reverses the servo throw direction. Move the stick for your selected channel and observe the direction of the servo movement.
computer radio control system 8 Receiver 5. A1/A2 - receiver antennas. The antennas should be installed so that the wires form a 90° angle relative to each other. 8.1 Description 5 4 8.2 Installation 3 Whenever possible, you should wrap the receiver in foam and place it as far as possible from sources of interference (servos, electric motors). Arrange the receiver antennas so that their active ends forem a 90° angle and try to put them as far as possible away from each other.
computer radio control system 8.3.2 Alternative pairing procedure through the transmitter menu EN 8.4 Range Test The range test will verify that the transmitter and receiver are functioning properly. Before the first flight of each flying session or if have any doubts about the transmitter or receiver function, you should always check the range. During the range test the transmitter’s output power is decreased to 10%.
computer radio control system EN Each receiver channel can be configured to one of the modes described above. We recommend that you setup "fail safe“ positions for every output, which enables your model to stay in a stable condition. For instance, the elevator and rudder in neutral positions, electric motor switched-off, gas engine idling, spoilers extended. Configuration Method of the receiver failsafe function. 1. Bind receiver with transmitter. See chapter: 8.3 Binding.
computer radio control system EN In the picture above, two receivers have been detected and are recognized. When you press the rotary button, you are able to configure them in detail. Here is the example how to use the Device Explorer to configure an "R9 EX"receiver: First, the transmitter downloads all settings from the receiver. After that operation is completed you should be able to see the basic configuration of the receiver as shown in the picture a).
computer radio control system - Reset to factory defaults... – After confirmation, the receiver's configuration will be restored to its factory settings. Note: Before a device can be recognized, a special predefined configuration scheme must be present on the SD card in the /Devices folder. If the scheme doesn't match or doesn't exist, an error message "Unknown device" is displayed.
computer radio control system - PPM/UDI Mode - determines processing and additional logic applied to the PPM and UDI protocols. - Direct - signals received from the transmitter are not further on processed in the receiver, they are generated without any change at the output of the receiver in form of PPM/digital signals. If a signal loss occurs, no PPM/digital data will be generated by the receiver.
computer radio control system EN The page Receiver Outputs (picture e)) allows you to redirect your transmitter’s channels to any output of the receiver. For convenience the transmitter’s channel numbers are displayed together with the appropriate function names, making it easier to adjust. In addition, you can also set the servo group for each channel. For more information please refer to your receiver manual.
computer radio control system EN On the main screen of the Central Box settings scroll down to display the maximum telemetry values (Telemetry Min/Max). Here you will find a choice to assign a switch to the command for deleting measured minimums and maximums (Clear Min/Max switch). Pushing the "3D” button on this item you are moved to the list of active commands where this command is already listed and is inversely highlighted with a cursor. 1. The list of active commands. 2.
EN computer radio control system Note: Variant of the RC Switch This text describes receiver properties introduced in DS12 V3.0 and receivers version 3.25. Earlier versions of the firmware might offer different properties, or the described configuration might be entirely inaccessible. Receiver software is updated through a PC with the aid of the JETI USBa adapter. For more details refer to the USBa adapter manual. Power In Power Out RC Switch RC Power Switch Central Box Max Bec 2Dplus SBEC 40, etc.
computer radio control system 3. 51 EN 3.
EN computer radio control system 9 Main menu 5. The numbers on the left side of the display shows the sequence of the menu items. You reach the basic menu from the main display by pressing the „menu“ key. 1. The main menu is divided into a basic and a user section. In the basic menu, the menu items are divided into sub-menus. • Model • Heli Tuning (only for model helis) • • • • • 5 6 1 Fine Tuning Advanced Properties Timers/sensors Applications 2 System 6 7 8 9 6.
computer radio control system - calibration of controls - logging telemetry - USB connection - switching off All the work with the SD card therefore takes place in read-only mode. 9.0.
computer radio control system "Model checking“ function, which compares the series number of the receiver in the model profile with the series number of the receiver with which it is starting to communicate. If the two series numbers do not match, the transmitter displays a warning that a different receiver has been detected for the model. In this situation, you the user will decide whether to: 9.
computer radio control system 5. Choice of model sequence The sequence of models can be changed by using the "F1“ button to move the selected model one position downwards or by using the "F2“ button to move the model one position upwards. The transmitter allows storing of many models in the memory. 3. Copying a model The complete setup information of a model can be copied and used to create a new model with the same programming.
computer radio control system efficient by populating the menus with many of the popular options for each type of model. The possible choices are: Aero, Heli, X-Copter and General. Once your model is stored it is not possible to change that model’s type. Once your model’s name is entered and the type is selected, press the "F5(Next)“ button to go to the next menu assistant step: "Basic Properties“. The software will only allow this step if both the model name and type have been set up. 1 2 1.
computer radio control system Type 0FLAP.|1AIL 0FLAP.|2AIL 1FLAP.|2AIL 2FLAP.|2AIL 2FLAP.|4AIL 4FLAP.|2AIL 4FLAP.|4AIL EN 5. Number of Landing Gear Servos in the model You can select up to 4 landing gear servos. You can then assign the control of each landing gear servo to a different receiver channel if needed. 6. Use gyro (1 - 3) It is possible to create up to three independent functions for controlling gyro gain.
computer radio control system Swash Plate Type Enter the type of swash plate your helicopter is using. Refer to your helicopter’s manual if necessary. Swash plate angle The "Angle“ item is only accessible in the "3 servos (default 120°)“ swash plate type. The angle formed by swash plate points 1 - 2 and 1 – 3 can be configured by the user in 1° increments. This allows you to fine tune your swash plate configuration as needed.
computer radio control system Note: EN Editing an item "Value" affects the diameter of the displayed circle, ie. size of the maximum allowed deflection. The setting is global for the whole model. If you activate the additional function of the gyro in the active model, after leaving the Basic Properties menu it is necessary to carry out the control assignment (Functions Assignment) and then select the appropriate output channel (Servo Assignment).
computer radio control system 9.1.7 Basic Configuration-GENERAL Model / Wallpapers You can display two types of model images. A smaller model image and a larger model image on all screens where the telemetry values are displayed (Menu - Timers / S e n s o rs - telemetry display). Background image. The background image is always visible (behind the telemetry values). The transparency of the image can also be set, where the full visibility is specified.
computer radio control system 1 4 2 3 5 6 of these items, you will enter the menu: "Select control input“, see chapter 9.7. The assignments can easily be verified by the graphic found beside the control element description in the " Trim “ section, which shows the actual setup of the assigned control element. The trim functions for the gimbal sticks P1-P4 are automatically assigned to the quad push-buttons located below the gimbals. It is not necessary to assign them manually. 4.
computer radio control system 1. Assignment of Transmitter Output Functions to Receiver Channels Select the required receiver channel and press the "3D button“. Now you can choose which function you want assigned to the selected receiver channel. With the "F5(Next)“ button you will enter the next step of the assistant which creates and stores the model into transmitter memory. a) The assistant asks you to confirm the creation of the model by displaying the question "Create and select a model?“.
computer radio control system EN 9.1.11 Servo Setup This menu is for the additional tuning of output functions of the transmitter->receiver channels->servos. The assignment of a transmitter output function to a receiver channel is shown in the upper part of the menu (first item below the menu description). 3. Center (Subtrim)With this item you can adjust the servo neutral position of the selected receiver channel.
computer radio control system 6. Servo Reversing Use this item to reverse the direction of a servo’s travel. 7. Delay of positive/negative This item allows you to delay the servo channel‘s travel time between both end points. This can be defined for the positive and for the negative value (each travel direction). For instance, the opening of a landing gear can be slower than when it retracts. EN point is located in -25%.
computer radio control system Note: Advice: Setting the display of the telemetry data on the top menu bar of the screen is saved as a part of the model configuration and iti s isplayed again when the transmitter is switched on. Alternatively, it is possible to adjust the displayed data in the "Timers / Sensors - > Ma in Screen” menu. It is possible to select any simple numerical value, except GPS coordinates. 3.
computer radio control system Up to 10 different flight modes (depends on activated transmitter equipment) are available for every single model. Each one of these flight modes can be named differently for instant recognition. Only one of the flight modes can be active at any given time. With a little practice you will discover that creating your flight modes in logical order can prevent confusion in a critical situation.
computer radio control system 3. Flight Mode Delays Advice: If no flight mode is required, do not change the pre-set The time delay function can help smooth the transition from one flight control state to another. Sudden changes in the positions of your control surfaces can negatively affect performance or even create a critical situation. The Time delay can help you avoid this situation. configuration.
computer radio control system Name of the current flight mode. 5 EN 7. Deleting a Flight Mode To delete a flight mode: a) Highlight the desired flight mode and press the “F4 (Opt.)” button to see the options menu. b) Scroll and select the “Delete flight mode” option and press the “F5 (OK)” button to make the final confirmation. The initial flight mode is set as a default and can not be deleted. 8. Flight Mode Reset All of the flight modes can be reset to basic settings at the same time.
computer radio control system transmitter does not remember the value of trim after shutdown. After loading the model, the trim value is always 0%. In combination with the logical switches this option is suitable for a sequential switching between flight modes or playing sound sequences.3-Position momentary switch emulation –the up/down positions are active only as long as you hold the corresponding trim button. Default value is otherwise 0%.
computer radio control system • Centered mode – by default, the trim affects only the servo center, the endpoints remain untouched. • Linear – shifts the whole servo travel, including endpoints. • Thro-Low – affects the servo low endpoint and the entire curve, except for the high endpoint. • Thr-L50% – affects the servo low endpoint and curve below 50%. This does not affect the curve above 50%. • Thro-High – affects the servo high endpoint and the entire curve, except for the low endpoint. 4.
computer radio control system Warning: The Autotrim feature, when active, always influences the model functions currently assigned to the particular trim buttons (except for throttle function which is never affected by this feature). The Autotrim function does not take effect on the auxiliary incremental trims. Please be very careful if you assign trim buttons to any function that is not controlled by a spring centered stick. It is advised to disable the Autotrim completely in such a case.
EN computer radio control system 2. Trim Travel Global or Separate Setting The servo trim position for each function output can be set either collectively for all flight modes by selecting the “G-(global)” or individually for each separate flight mode by selecting “S(Separate)”.
computer radio control system EN higher number increases travel, a lower number decreases travel. Expo rate is defined by percentage of the function curve (d). Zero rate represents linear function. As expo rate increases linear travel changes to exponential “curve” travel. Exponential and Dual rate settings combined with flight modes create virtually unlimited customizability. 1.
EN computer radio control system 9.2.5 Programmable Function Curves (*depends on equipment) Function curves define the relationship between the actual position of your stick/switch/knob and the position of the servo. This screen displays the menu of all assigned functions (a), graphic interfaces (b), and programmable time delays (c). All adjustments can be visually inspected right away in the servo monitor page by pressing the “F2 (Servo)” button.
computer radio control system Standard Constant 3-Point, x>0, x<0, |x| 5-Point 7-Point 9-Point +Pos, - neg, +-Symmetrical EN By pressing the “3D Control” button you can switch between the individual curve points. Pressing the “Esc” function will return you to the previous control point. On the left side of the graphic interface you will see the percentage representation of your selected control point’s position.
computer radio control system EN The travel range for each servo can be set. Scroll and highlight either the “Up” or “Down” menu line with “3D Control” button. Press the "3D Control“ button to access and edit the settings for each servo. If the servos need to be adjusted independantly, use the “F1 (Sym.)” button to unlock the servo travel for adjusting the individual values in the selected menu line. 3. Tuning of Aileron Differential You can now assign a proportional control and the adjustment rate.
computer radio control system EN 9.2.8 V-Tail Mix If your model is equipped with a V-Tail, The two basic tail functions (rudder and elevator) are mixed to control the tail of the airplane. The V-Tail mix has to be activated by choosing the “V-Tail 2H” tail setting. Unless you have previously chosen a different percentage for one of the tail mixes, the initial settings for “V-Tail” function are 50% of the rudder and elevator travels. 1.
computer radio control system 9.2.9 Delta/Elevon Mix each servo. If the servos need to be adjusted independantly, use the “F1 (Sym.)” button to unlock the servo travel for adjusting the individual values in the selected menu line. The Delta/Elevon Mix uses two servos for the control of both the elevator and aileron functions. This mix is most commonly used for Delta type aircraft. The elevon mix has to be activated by choosing the “None – Elevon/Delta” tail setting.
computer radio control system movement of the control surfaces during the change. Increasing the number on the positive side “+” slows the deployment while increasing the number on the negative side “-” slows return of the surfaces to their original positions. EN differential. Positive values increase the upper travel of the aileron servos, negative values increase the lower travel of the aileron servos. 3.
computer radio control system EN 1. Copying a Free Mix Highlight an existing free mix and use the “F1 (Copy)” button to create a copy of the existing mix. 2. Creating a Free Mix Use the “F2 (Add)” button to create a new free mix. The Primary channel called “Master/From” specifies the input function, while the channel that reacts to the Master is called the “Slave/To” channel. The last variable on the screen is the “Master Value” which represents the percentage of the slave channel’s mix/travel.
computer radio control system d) Free Mix Deployment Delay The time delay function can help smooth the transition from one state to another. Values adjusted in the “Source” item will slow down full mix deployment when the mix is ON (switched ON or always ON) and the master channel changes its value. In this item, when you add a delay to only one side (- or +), the mix deployment will be slow in one direction only (-100% to 100%) or (100% to - 100%).
computer radio control system be influenced by the aileron differential settings. If this option is deactivated, the output of the mix is transmitted directly to the servo without any modifications. Uncheck this option if you want to use aileron differential fine tuning without affecting throws of the mixes applied on ailerons. (Slave).
computer radio control system EN In the Gyro settings menu it is possible to edit up to three main values for each gyro function in all flight modes separately according to the position of the main control/switch. Moving the switch to the selected position causes an automatic update of the depicted values in the appropriate line.
computer radio control system have three different settings (Position 1, Position 2, Position 3) for the governor sensitivity. You can always assign this function to a different transmitter control element (knob, slider, switch) in the „Model, >Function Assignment“ menu. The governor settings can be set collectively for all flight modes by selecting the “G-(globe)” symbol or you can allow individual governor settings in each separate flight mode by sellecting the “S-Separate” symbol.
EN computer radio control system 9.3 Advanced Properties Advanced programming menu for DS-12. Separate switches for ever y direction. The priority goes from up/right direction (highest) and continues until down/left (lowest). 1. Master mode – the stunt itself is done by activating a master switch (Sa in this case). The other switches are taking care of the direction of the stunt. 2. Single mode – the stunt is done immediately after any direction switch is activated.
EN computer radio control system 1. Auto-Trim Function Auto-Trim function can be activated using any assigned switch, knob or stick. Once this function has been activated you can trim your model using transmitter gimbals. The direction and speed of the trim adjustment is determined by stick movement. Larger stick movements equal a faster trim response. When the Auto-Trim function is active, the transmitter gimbals do not change their standard response. The transmitter is still in normal operation mode. 4.
computer radio control system 1. Switch & Stick Type The first menu line item lists the control’s number and the second item lists the type of control element. Using the “F2” and “F3” function buttons you can scroll through channels, with the “F5 (Ok)” button you can exit the menu screen. By default, the switch types are always automatically detected, however, it is also possible to overwrite any of the auto-detected switch types with a user-defined type.
EN computer radio control system 9.3.3 Wireless Modes/Trainer a The transmitter RF module can operate in one of three modes. For a detailed explanation. (see section 5) The wireless RF setting is programmed to the memory of individual models (receivers). While programming a selected model you will need to configure the RF module settings. The only exception for the system is the “Trainer” mode.
computer radio control system “Instructor” Mode f) g) a b c d f e g a) b) c) d) e) 4. Mode Selection. Assigned trainer function switch, when the switch is activated, control of the model is transferred to the student. Connect the PPM signal from the "Student" transmitter to the DS-12 PPM input (Jack). Channel function assignment. Some or all of the functions can be controlled by student. Instructor/Student control authority values. This setting limits the amount of control for the student.
EN computer radio control system Trainer Mode with two JETI DS/DC Radios 1. Make sure that the instructor’s transmitter is bound to the aircraft in the “Default” wireless mode and that all flying surfaces are functioning properly. 2. Change the instructor’s transmitter (DS/DC-14/16/24) wireless mode to “Teacher” and authorize the secondary TX module to bind with the student’s transmitter. 3.
computer radio control system Pairing the transmitter with receivers in Double Path mode 1. Make sure that receivers are set in Normal mode, not in Clone mode. 2. Note down which receiver is the first and which is the second because of later easier identification. Keep the receivers switched off. 3. Switch on the transmitter with created model, in "Advanced properties - Wireless modes/Trainer” menu item select "Double Path mode”. 4. Plug the BIND PLUG interconnection into EXT output of the first receiver.
computer radio control system Using the 900 MHz NG Backup (*depends on equipment) The backup Tx module can be enabled in all wireless modes to allow better link redundancy and safety. Just check the Enable 900MHz Backup. You can bind the 900MHz NG receiver in the same way as standard Duplex receivers. 1. Insert bind plug to the 900MHz NG receiver 2. Turn on the receiver. 3. Highlight and press the„Pair backup Tx module“ option. 4. If the receiver is found, a sound notification will be played.
computer radio control system 9.3.4 Logical Switches (*depends on equipment) If you want to have single or multiple transmitter functions which are controlled based upon the condition of other control conditions, then setting up a logical switch is the way to go. Each logical switch is defined by a logical expression. The logical expression contains a logical function and the relationship of the other conditions which must exist for the logical function to be activated.
EN computer radio control system 3. Emulating a 3-Position Switch You can use the logic function “Multi” to allow the logic switch to act as a 3-position switch. The “Multi” logic function can combine the output from two 2-position switches to create a logic switch with three output conditions. • The AND condition: The resulting value of the switch is calculated as minimum value from both controls.
computer radio control system EN 9.3.5 Sounds on Event (Sound Assignments) You can combine more controls using logical conditions: You can assign an audio file to be played based on any transmitter condition. This means that any music file stored in the transmitter can be assigned to any switch, stick, knob, logical switch, alarm or any other special function. Since you can also upload music files the the DS-12, you can fully customize how your transmitter communicates with you.
computer radio control system 2. To add control points, you should move the timeline (edit “Time” column) so that it reaches the desired time. Then press the "F3 Add” button. The newly created control point will be highlighted and you can change its value (edit the “Value” column). Generally said, the point located closest to the timeline is highlighted and made editable. 3. You cannot move the control points in a time domain but you are able to delete any point by pressing „F4 Delete” button. 4.
computer radio control system Within this menu, you can edit following parameters: Filtering – This increases smoothness of the movement for each axis separately. You can set values in range from 0 to 10. Zero value means no filtering and gives fast reactions. The higher the b) filtering setting, the movement becomes slower and smoother. Sensitivity – This influences the gain of the inertial unit for each axis separately.
EN computer radio control system 9.3.8 Telemetry Controls After you have finished setting the inertial unit itself, you can assign the resulting variables to any function using a standard input dialog (picture c) ). To see the variables of the inertial unit, you have to press the "F2 Gsens.” button. The axes GX, GY, GZ correspond to the graph shown in the picture a) ). The last parameters are called Shake L/R and represent a motion gesture.
computer radio control system Examples for the possible use of telemetry controls • If the model speed is less than X m/s, flaps will be raised automatically. • If the current is larger than X amperes, the motor run timer starts. • If the motor temperature is higher than 80 °C, the maximum throttle will be limited by the mix. • If the on-state of the limit switch is detected, the sequencer automatically starts. (ex. after opening the landing gear doors, the main gear will be deployed).
EN computer radio control system You can create up to 15 different voice commands (plus a keyphrase) that are shared between all models. For each model separately it is possible to specify which commands are active. You can use the voice commands as a standard control device in the Input selection dialogue, for example to activate voice telemetry announcements, play audio files or to switch auxiliary model functions.
computer radio control system Voice recognition modes learning process. 1. Locate the Voice Commands menu, choose the Keyword mode. 2. Open the Keyword settings dialogue. Here assign the Push-ToTalk switch. Choosing the switch is important even in the Keyword mode since the switch will mark the beginning and the end of speech phrase. We recommend using a spring loaded switch for this purpose. 3. Push the switch and pronounce the command.
computer radio control system EN By pressing the "F2" Graph button you can view the sound frequency analysis which is helpful in case you need to find possible sources of noise that degrade the sound quality. The "F3” Delete button clears the highlighted voice command so you will need to train it again before use. The "F4” Edit button redirects you to the command training dialogue. Limitations • The voice recognition offers the best performance in quiet environments without many disturbances.
computer radio control system 1. Model Time/Reset Timers at Power Up By pressing the "F1" button you can choose which timers will be reset after turning on the TX or after selecting the model. By default, all timers with specified Short Reset option are cleared. In addition, it is possible to have all timers cleared or none. This option is model specific. The model time runs incrementally during flight (after pressing "F4" Start button on main screen or after starting any timer).
computer radio control system 1. Editing a New Timer a. Timer Name When you add or change the timer name, the name is automatically displayed in that timer’s box on the main desktop. b. Initial Timer Value This is where you can set the starting value for the timer. You can set a negative or positve value for this starting point. c. Target Timer Value Here is where you can set the target value for the timer. This can be set as a positive value or a negative value.
computer radio control system EN 9.4.2 Alarms If you use the JETI telemetry system, in this menu you can set your alarm thresholds and choose which sound is played in the alarm condition. The transmitter supports both first generation Duplex and Duplex EX alarms. EX Alarms Duplex EX sensors generate their alarms directly to the transmitter. The corresponding Duplex EX sensor must first be connected to a Duplex EX receiver and the receiver must be bound to the transmitter.
computer radio control system 1. Creating an Alarm Use the „F2(Add)“ button to add an alarm. Then, in the „Sensor“ item, select the sensor whose alarm limit you want to set. 2. Enable an Alarm Using the „3D button“, select „Enabled“ and press to enable the alarm and display the alarm parameters. 3. Parameter Values „Condition“ defines the condition which must be met in order to trigger the alarm. The value „X“ will vary with the sensor being used. 4.
EN computer radio control system 9.4.3 Vario • Range (minimum, center and maximum). Here you can define the full range of the sensor which will be indicated by the Vario system. (*depends on equipment) Located in: „Menu->Timers/Sensors/Vario”. There are two types of acoustic signalling. The first one is controlled directly by the sensor's alarm. This is mainly useful if a non-EX MVARIO is installed inside the model. It is possible to assign a switch that enables or disables the sound.
computer radio control system allows you to determine whether you want to hear the time of a current lap which is already running or hear the time of the previous lap which has ended recently. way to add a variable to the Repeat queue or to remove a variable from the Repeat queue. By selecting the Trigger option, the specified variable is added into the Trigger queue, so that every time the Trigger switch is activated, the items in the Trigger queue are expressed by synthesized voice. 2.
computer radio control system It is possible to store service information of the transmitter, alarms, and position of up to 4 controls (as markers) on your SD card. Then the data is a part of logged flight telemetry. In the menu "Timers/sensors -> Sensors/Logging” setup go to the item Transmitter status info and push the 3D button. In the menu it is possible to select whether the text information about the alarms and other general data about the transmitter state will be stored (by default it is disabled).
computer radio control system EN 9.4.6 Displayed Telemetry Distance: Metres (m), kilometres (km), feet (ft.), yards (yd.), miles (mi.). Speed: Metres per second (m/s), kilometres per hour (km/h), feet per second (ft/s), miles per hour (mph) and knots (kt.). Volume: Mililitres (ml), litres (l), hectolitres (hl), fluid ounces (fl.oz), gallons (gal) This menu lists all of the user information blocks which are displayed on the desktop.
EN computer radio control system „Tx Battery“ - Transmitter Battery Status „User Name“ - User name. • Charge/Discharge current rate • Actual Tx battery voltage • Consumed capacity of Tx battery This value increases when the „JETIbox“ - JETIBOX emulation screen Press the ESC button to see and operate standard JETIbox controls. The JETIbox emulator can also show data from both Tx modules and receivers. You can set a specific JETIbox window by selecting one of JB 1 or JB 2.
computer radio control system „Telemetry“ - Displays selected, connected telemetry sensor information. The user blocks can be either standard or double size. Double sized blocks obviously use up more of the desktop. In return, some of them display more data while others display the same data in a larger font. Custom blocks can be linked to flight modes.
computer radio control system 4. How the User Blocks are Displayed The right end of the first line in the "Displayed Telemetry“ menu displays a symbol to indicate if the list of user blocks is displayed for all flight modes or just the current flight mode. If the "G (Global symbol)“ is displayed then the all of the listed user blocks are displayed in all of the flight modes. This means that when you change flight modes, your desktop display will not change.
computer radio control system to find the latest record. After the a p p ro p r i a te f i l e h a s b e e n selected, you will be redirected back to the screen a). There you can select up to three variables that will be displayed in the graph. By pressing the "F3 Del." button while browsing the log directory you are able to delete any log file and even directory. After pressing the button "F4", resulting graph is displayed. The X axis presents time domain, starting always at zero seconds.
computer radio control system EN • "F5" 1/2/3 button toggles between the variables that have been selected on the screen a). Audio files are supported in *.mp3 and *.wav format. Pilot Voice Caller The Audio Player application offers a possibility to play audio files sequentially. This feature is useful if you practice an aerobatic routine - the transmitter will always tell you the name of the next figure. You can also use this feature just as a background music trigger.
computer radio control system EN 9.5.5 Image Slideshow • Short press of the “Play previous” seeks to the beginning of the current audio file. Any subsequent press of this switch starts playback of the previous audio file in the sequence. • Long press of any of the switches leads to resetting of the sequence and playing the first audio file. • Check the “Continue playback” option if you wish the transmitter to continue playback through the whole folder. You can run a presentation of several images.
computer radio control system EN 9.5.7 User Applications In this menu you can see the list of user applications that are enabled and running for the current model. The user applications should be located on SD card in the /Apps folder. Basically, these are scripts written in Lua programming language that can be run directly inside the transmitter. Up to 10 applications can be run simultaneously.
EN computer radio control system 9.6.1 Configuration 9.6 System Basic transmitter settings - Use this menu to configure the system functions of your transmitter. All of the settings in this menu are global and do not change when you switch between models. 1 2 3 4 5 6 7 8 9 10 11 13 12 14 15 16 1. Language Setting Use this menu to select the transmitter’s language setting. All of the transmitter’s text and sounds will be changed based upon your selection.
computer radio control system 2. User Name Enter the user name that you want to appear in the User block on the desktop. 3. Stick Mode The transmitter supports Modes 1-4. To change the stick mode you can either use the "3D button“ to highlight and select the line item or simply press the "F3“ button. Either will take you into the Stick Mode menu. Use the "F1-F4“ buttons to make your selection and then press the "F5(Ok)“ button to confirm. The mode change will only be effective for new models.
computer radio control system PPM Output Connector): - Off – the connector output (pin No. 4) will not generate any kind of signal. - PPM Positive – the connector output (pin No. 4) will generate standard eight-channel PPM signal with positive pulses. - PPM Negative – the connector output (pin No. 4) will generate inverted eight-channel PPM signal with negative pulses (0V level). - EX Data Stream – the connector output (pin No. 4) will generate a digital data stream containing EX telemetry.
computer radio control system 3. Starting the Servo Test Press the “F3 (Start)” button to start the test for your selected servo outputs. Once started, the servo test will continue to run even if you exit the menu. You must stop the servo test before you can change any of the test settings (speed, output channel). 4. Stopping the Servo Test Press the „F4 (Stop)“ button to stop the servo test. 5.
computer radio control system EN 3. Switch Status Display Press the "F3“ button to show the "View Inputs (2/2)“ screen. This screen shows the type and currently detected position of the transmitter’s switches. Use the "3D control“ to select and edit any of the displayed switches. The "Sk“ and "Sl“ switch positions are reserved for the switches that can be mounted into the ends of your transmitter sticks. 1. Calibration of Proportional Controls Press the "F1 (Calib)“ button.
computer radio control system EN -Low TX Voltage - Optional file with a warning at low transmitter voltage. You can also set an adjustable voltage level which says when the alarm will be activated. -Low Signal - An optional file with a warning at low signal level. The file is played when the signal level of both antennas falls below a number specified in the parameter "Value". - Low Signal: Q – If the signal quality drops below the percent value, the assigned audio file will be played.
computer radio control system • Playback Volume – volume of played WAV files (Alarms, Audio Player and Sound on Event). 9.6.8 Limitations In Copying Models Between Transmitters When copying models from one transmitter to another one, it is necessary to bear in mind that the transmitters may not have the same software equipment. Thus it is possible that the configuration of the activated modules may not correspond. In this case it is necessary to check individual features of the model.
computer radio control system EN Note: Leaving the menu disables the connection. 9.6.10 Info This menu displays information about your DS-12-24 such as: product name, firmware version, available memory, etc. Press the "F5 (Ok)“ button to exit this menu. 4. 125 4.
computer radio control system 9.7 Throttle Lock 9.8 Select Input control Throttle lock is an important safety feature incorporated in your DS12-24 transmitter. This feature effectively "locks" the throttle channel output leaving it at the last output value so that if your motor is stopped, it cannot start accidentally. To activate/deactivate the throttle lock go to the "Main Menu“ and then press the "F1 (lock/unlock)“ button.
computer radio control system 3. Reversing Press the „F3 (Rev)“ button to change the control device activation direction. This will not reverse the output direction of your function. It will simply reverse the direction of the control device (stick, switch,knob). 4. Removing the Switch Assignment Press the "F4 (Clr)“ button to clear (remove) the selected control device from your function.
computer radio control system • • • • • • EN signal should be present on the pin No. 1. To prevent any damage, you need to use the 3V logic level and protective elements on the input.Throughout the model settings you can assign any of the PPM channels to any function of the transmitter. The PPM input is not linked with the trainer system in any way and works separately. It is possible to use the PPM input in cooperation with head-tracking systems etc.
computer radio control system EN Preview of the individual screens of the dialogue for selecting control input 4. 129 4.
EN computer radio control system 9.9 Trim Menu 9.10 How Transmitter Output Functions are Processed This menu displays the current trim settings. You can access this menu from the desktop by either pushing the "3D control“ or by simply pushing one of the trim buttons. In this menu, you can press the "F1 (Back)“ button to exit or push the "F5 (Auto)“ button to activate the Automatic Trim feature.
computer radio control system 10 Transmitter to PC Connection 10.2 Update firmware The JETI Duplex line of transmitters are equipped with a mini USB port. The Transmitters also come with a standard USB to mini USB cable which is used to connect your transmitter to a PC. The JETI Duplex system is fully compatible with Microsoft Windows XP and higher versions of Windows OS. After connection and confirmation your transmitter will be identified by the PC as another memory drive.
computer radio control system 10.4 System Backup EN 10.7 Copying models between the transmitters Data backup is as easy as the standard backup you can perform on your PC. You can save all your data onto a PC hard drive or CD. The saved data will, of course, reflect your last transmitter configuration and model settings. The data recovery is as easy as copying your backed up files back to the transmitter. This backup can be done automatically via Jeti Studio.
computer radio control system 11 Battery Safety Handling Rules 11.2 General Safety Rules 11.1 Transmitter Battery Pack 1. Any repair, installation, or upgrade must be performed with caution and common sense. These will require some basic mechanical skills. 1. The Installed battery pack must be charged from an AC voltage source using only the included wall battery charger. The included adapters work with local utility services, each country might be supplied with a different type of charger.
computer radio control system EN direction of movement for your flight surfaces. 5. Set motor/engine kill switch and test the power train. 10. Do not point the transmitter antenna directly towards your model or a human body. The radiation pattern from the antenna will be shielded and provide poor connection to your model. 11. Never repair, re-install, or exchange the internal memory SD card for other type. 12. Avoid extreme temperatures as they can cause damage to the sensitive internal SD card. 13.
computer radio control system EN radioélectrique à l'intention des autres utilisateurs, il faut choisir le type d'antenne et son gain de sorte que la puissance isotroperayonnée équivalente (p.i.r.e.) ne dépasse pas l'intensité nécessaire à l'établissement d'une communication satisfaisante. THIS DEVICE COMPLIES WITH PART 15 OF THE FCC RULES.
EN computer radio control system 12 Model Menu – Airplane/Sailplane 12.2 Aileron Differential Aileron Differential is available with wing configurations of 2 ailerons servos or more. You can find the Aileron Differential menu in “Fine Tuning, >Aileron Differential”. 12.1 Butterfly Mix (Crow Mix) Butterfly/Crow mixing is available with wing configurations of 2 aileron servos or more. You can find the Butterfly menu in “Fine Tuning, >Butterfly”. a a b b c c d e f a. b. c. a.
EN computer radio control system 12.3 Ailevator 12.4 V-Tail Mix The ailevator function uses two servos for the elevator channel. Both sides can be programmed to be controlled independently. If you have this selected as your model’s tail type, you can find the Ailevator menu in “Fine Tuning, >Ailevator”. The V-Tail mix function uses two tail servos to control both the elevator function and the rudder function. See chapter 9.2.
EN computer radio control system 12.5 Delta/Elevon Mix 12.6 Spoilers to Elevator Mix The Delta/Elevon Mix uses two servos for the control of both the elevator and aileron functions. This mix is most commonly used for Delta type aircraft. If you have this selected as your model’s tail type, you can find the Delta/Elevon menu in „Fine Tuning, >Delta/Elevon“. For models equipped with spoilers, the elevator is often used to compensate for any pitching tendencies generated when the spoilers are deployed.
EN computer radio control system 4. When you press the “F4 (Curve)” button you go directly to curve function menu screen. 12.7 Ailerons to Rudder Mix One of the most commonly used mixes for sailplanes, this mix function will allow you to mix rudder function with your ailerons to help your model have more coordinated turns. You can use one of the free mixers to set up this mixing function. 5. From the curve type options select the“x>0” type.
EN computer radio control system 12.8 Rudder to Ailerons Mix a c One of the most commonly used mixes for 3D planes, this mix helps to improve your control in knife-edge flight and while performing other 3D aerobatics. You can use one of the free mixers to set up this mixing function. b d a. b. c. d. 1. From inside the „Fine Tuning, >Free mixes“ menu, press the „F2 (Add)“ button to create a new mix.
EN computer radio control system 12.9 Butterfly (Crow) Mix 3. To edit the mix simply highlight the mix and press the “F4 (Edit)” button to go into the selected mix’s advanced menu. a c The basic configuration of the butterfly mix (also known as crow) is created by using ailerons, flaps, and elevator flying surfaces. The Butterfly/Crow mix is helpful for maintaining speed during fast descents and for creating controlled drag for spot landings.
EN computer radio control system 12.10 Rudder to Elevator Mix 3. To edit the mix simply highlight the mix and press the “F4 (Edit)” button to go into the selected mix’s advanced menu. Another one of the most commonly used mixes for 3D planes, this mix helps to improve your control in knife-edge flight particularly to help with any coupling issues. You can use one of the free mixes to set up this mixing function. a c 1.
EN computer radio control system 12.11 Aileron to Flap Mix 3. To edit the mix simply highlight the mix and press the “F4 (Edit)” button to go into the selected mix’s advanced menu. This is also one of the more commonly used mixes for sailplanes. Mixing flaps with your ailerons will increase you model’s aileron response. You can use one of the free mixes to set up this mixing function. a c d 1. From inside the „Fine Tuning, >Free mixes“ menu, press the „F2 (Add)“ button to create a new mix. e a. b.
EN computer radio control system 12.12 Aileron to Flap Mix (Brake Variation) 12.13 Elevator to Flap Mix This mix variation is used if your model is equipped with 4 flaps and you want only the inner flaps (the set closest to the fuselage) to move with the ailerons while leaving the outer flaps to be used only for braking. Except for the last step below, you will create this mix exactly as described above. (See 12.
EN computer radio control system 12.14 Flaps Mix – Camber Control 3. To edit the mix simply highlight the mix and press the “F4 (Edit)” button to go into the selected mix’s advanced menu. a c This is another popular sailplane mix. This mix allows you to effectively change the airfoil of your model‘s wing by combining the flaps and ailerons to lower the trailing edge (under camber) of the wing. This helps to lower your flight speeds during landings or while soaring.
computer radio control system 12.15 Throttle Cut (Kill Switch) 12.16 Throttle Idle This safety feature is mainly for models using glow or gasoline engines as their main source of power. Electric models can also highly benefit from this safety feature. The Throttle Cut function can be activated using any assigned switch, knob or stick. By editing the “Output Value” item, the throttle output will move to the user defined (completely off) throttle position once the assigned switch is activated.
computer radio control system EN
computer radio control system EN
computer radio control system EN
computer radio control system EN
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