not correspond to the product (e.g. a transmitter update file instead of a receiver update file), the "Product code error" popup window will appear and the update process will not start. Activate the control labeled "Program". Wait for the progress bar to start. Depending on the speed of the computer being used, this may take several seconds. Now switch on the receiver while holding its SET button down. After a few seconds the "Found target device …" message will appear in the status display.
Installation notices Receiver installation Regardless of which Graupner receiver system you use, the procedure is always the same. Please pay attention that the receiver's antennas must be mounted at least 5 cm away from all large metal parts or any wiring that is not directly routed out of the receiver itself. In addition to steel parts, this also includes carbon fiber parts, servos, fuel pumps and all kinds of cables etc.
For your notes 53
Term definitions Control function, control, function input, control channel, mixer, switch, control switch, fixed switch To make use of this mc-16 HoTT manual easier, a number of the terms used repeatedly throughout this manual have been defined below. Control function A "control function" is to be perceived – initially independent of its signal path – as a signal intended to affect a given control function.
this programming child's play. Learn about this by taking advantage of the programming examples beginning on page 268. Logical switches These functions permit two switches, control switches and/or logical switches or any combination of these to be combined with one another to create logical "AND" and "OR" functionality. A total of 8 logical switches, "L1 … L8" can be programmed, see page 138. Fixed switches FXI and FX This type of switch turns a function, e.g.
Physical control, switch and control switch assignments Principle procedure Maximum flexibility is offered by the mc-16 Hott system when it comes to assigning standard equipment operating elements to certain functions.
• The two FX switches switch a function on "FXI" or off "FX " permanently. • All other switches mentioned can have multiple assignments. Pay attention that you do not UNINTENTIONALLY assign reciprocally conflicting functions to a single switch. If necessary, note down the given switch functions. Typical applications: • Shut-off of an on-board glow plug heater upon underrun or overrun of an idle threshold point programmed for the C1 joystick.
Digital trimming Functional description and description of C1 cut-off Digital trim with visible and audible indicators Both joysticks are equipped for digital trimming. By default, turning trim wheels will offset the joystick's neutral position by 4 increments (out of a possible 100 steps per side). This offset is also reported acoustically. A brief press on the trim wheel will reset an existing trim offset back to "0". Any other "zero points" can be specified with the help of the »Trim memory« menu.
For your notes 59
Winged models Convenient support is provided for up to four aileron servos and four flap servos on normal models or, for V tail and flying wing/delta models, up to two aileron/ elevator servos plus four flap servos. The majority of motorized and glider models belong to the tail unit type "normal" and are equipped with one servo each for elevator, rudder and ailerons in addition to a motor throttle or electronic speed controller (or for brake flaps in the case of a glider model).
13 14 T 7 8 9 Receiver power supply free or AIL2 right or aux. function free or AIL2 left or aux. function free or flap2 right or aux. function Receiver power supply free or left flap2 or aux. function free or 2nd Elevator or aux. function Right flap or free or aux. function Receiver power supply Telemetry connection free or aux. function free or aux. function Receiver power supply Flap or left flap Right aileron or aux.
Because of orientation differences for installed servos and their rudder linkages, the actuating direction of some servos may be initially backward. The table below provides remedies.
For your notes 63
Helicopter models The advanced developments incorporated into the transmitter as well as those now in helicopter models and their components like gyros, speed regulators, rotor blades, etc. make it possible to master a helicopter even in 3D acrobatic flight. On the other hand, a beginner needs only a few settings to get started with hovered flight training then, step-bystep, take advantage of mc-16 HoTT features with increasing expertise.
Note: A speed control is also to be connected to receiver output "6" in order to take full advantage of the throttle limiter's convenience and safety features, see text beginning on page 117. See page 181 about this. Telemetry connection free or aux. function free or aux. function Receiver power supply Throttle servo or speed controller free or aux.
Detail program description Loading a new memory location Anyone who has worked through to this part of the manual has certainly already tried out a bit of programming. Nevertheless a detailed description of every menu should not be left out. This section begins with the loading of a "free" memory location, a procedure which would be performed if a new model was being "programmed". Stop watch 0:00h #01 Flight tim 00:00h K78 4.1V 0 0:00.0 0:00.0 V 0 M 0 RX VOLT:0.
selected model type and you can now program your model into this model memory. Changing over to another model type is still possible if you first erase this memory location (»Copy / Erase« menu, page 70). Notes: • If, from the base screen, the currently active model memory is to be erased then immediately after the erase action one of the two model types, "Winged" or "Heli" must be defined. You cannot avoid this selection even if you switch the transmitter off.
only servos attached to receiver outputs 1 … 4 can typically be operated by the two joysticks and that any servos attached to receiver connectors 5 … 16 (max) will remain in their middle positions. A newly initialized helicopter model is also able to more-or-less move servo 6 – depending on the position of the right-side proportional rotary slider, which is the default throttle limiter control.
Model select Call up model 1 … 80 The basic operation of the transmitters keys was explained on pages 28 and 29 and, on the previous double-page, explanations were provided for navigating to the multifunction list and about how to make allocations for a new model memory. At this point we now wish to begin with the "normal" description of individual menu items in the sequence they are arranged in the transmitter.
Copy / Erase Erase or copy model model, copy from or to SD card, copy flight phases, store/cancel changes Use the selection keys of the left or right touch pad to select the »Copy / Erase« menu … Model select Suppress codes Base setup model Ser vo adjustment Control adjust Channel 1 cur ve Model select Suppress codes Base setup model Ser vo adjustment Control adjust Channel 1 cur ve Copy / Erase Suppress models Model type Stick mode Dual Rate / Expo Switch display : 01:23hR16 00:44hR12 00:33hR08 00:2
Copy 01 02 03 04 05 to model: 1234g/080811 Test trim needed Graubele Ultimate Starlet BELL47G free 01:23hR16 00:44hR12 00:33hR08 00:22hR08 After confirming the selected model memory with a tap on the SET key, a confirmation request will appear: 02 Model really Ultimate to be copied? NO 05 free YES A NO response will cancel the process and return the screen to the originating screen.
Importing from SD card Use the selection keys of the left or right touch pad to select the »Import from SD« sub-menu then tap on the SET key. Erase model Please select Copy modell –> Modell RFSD-Kar on/off?te Expor t to mnach => Impor t from von SD-Kar te OFF Copy flight senON kopieren If the message shown above should appear, the transmitter's RF module is still active.
Copy 1 3 5 7 Storing changes permanently Undoing changes These two sub-menus permit programming changes to be backed up immediately or to be undone (restored) to the state when the model was called up or the state of the last backup. to phase: 2 4 => 6 => 8 … a destination must be selected and it must be confirmed too.
Suppress menus Suppression of menus in the multifunction list Use the selection keys of the left or right touch pad to select the »Suppress codes« menu … Model select Suppress codes Base setup model Ser vo adjustment Control adjust Channel 1 cur ve Copy / Erase Suppress models Model type Stick mode Dual Rate / Expo Switch display Model select Suppress codes Base setup model Ser vo adjustment Control adjust Channel 1 cur ve Copy / Erase Suppress models Helicopter type Stick mode Dual Rate / Expo Switch
Suppress models Suppression of model memory locations Use the selection keys of the left or right touch pad to select the »Suppress models« menu … Model select Suppress codes Base setup model Ser vo adjustment Control adjust Channel 1 cur ve Copy / Erase Suppress models Model type Stick mode Dual Rate / Expo Switch display Model select Suppress codes Base setup model Ser vo adjustment Control adjust Channel 1 cur ve Copy / Erase Suppress Models Helicopter type Stick mode Dual Rate / Expo Switch displa
Base setup model Model-specific base settings for winged aircraft models Change to the next screen page with a brief tap on the SET key of the right touch pad. This will open a screen of characters for entry of the model's name. A maximum of 13 characters can be used to specify a model name.
Another tap on the SET key will again deactivate option selection so a change to another line can be affected. Module B A S I C S E T T I N G , M O D E L Graubele Model name Info 1234g/111111 Stick mode 1 bind n/a n/a n/a Module HoTT SEL BD1 BD2 BD3 BD4 The mc-16 transmitter has a HoTT RF module as standard equipment.
B A S I C S E T T I N G , M O D E L Graubele Model name Info 1234g/111111 Stick mode 1 bind bind n/a n/a Module HoTT SEL BD1 BD2 BD3 BD4 Please select RF on/off? ON … with "OFF" … On the other hand, should the LED on the receiver blink red for longer than about 10 seconds, the binding process has failed. In this case the screen will continue to show the status as "n/a". If this should happen, try changing the position of antennas then repeat the entire procedure.
control channels across as many as four receivers. This redistribution is subsequently referred to as "mapping" or "channel mapping" (channel correlation). Select the receiver to be "mapped" with the selection keys of the left or right touch pad then tap briefly on the center SET key of the right touch pad.
then activate the option with a brief tap on the center SET button of the right touch pad. B A S I C S E T T I N G , M Stick mode bind bind Module HoTT Rcv Ch Map R16 R08 RF transmit SET SET O D E L 1 n/a n/a n/a n/a on SEL SET 5. If necessary, use the selection keys of the left or right touch pad to reach the "RF range test" line in the menu then start range test mode with a tap on the center SET key of the right touch pad.
Motor cutoff (Thr. CutOff) Note: This menu line is suppressed if "None" or "None/inv" is selected for the "Motor on C1" line. Depending on the "idle forward or back" choice made in the "Motor on C1" line of the »Model type« menu, this motor "cut off" option can be coupled to a switch for throttling down a speed controller or to move a servo on the carburetor of a motor to the OFF position.
the original value. Auto trim Power-on warning B A S I C S E T T I N G , M O D E L DSC Output PPM10 8 –125% Thr. CutOff +100% Power on warning L1 Auto trim ––– SET SET B A S I C S E T T I N G , M O D E L RF range test 99s DSC Output PPM10 8 Motor Stop +100% –125% Thr.
Auto timer reset B A S I C S E T T I N G , M O D E L Power on warning L1 Auto trim ––– ext. PPM signal normal Auto timer reset yes SET SEL SET The "yes/no" setting made in this line determines whether or not all of the transmitter's timers (except for "Model time" and "Transmitter operating time") are automatically reset to their given starting values when the transmitter is switched on. A simultaneous tap on the or keys of the right touch pad (CLEAR) will reset the display to "yes".
Base setup model Model-specific base settings for helicopter models !"#$%&’()+,–./0123456789:; ? @ACDEFGHIJKLMNOPQRSTUVWXYZ[¥]^_ `abcdefghijklmnopqrstuvwxyz{|}~ Every model can be given a supplementary note of up to 12 characters (maximum) by following the same procedure as already described for creating a "Model name". This info note will appear as a supplement in the »Model select« menu and in the sub-menus of the »Copy / Erase« menu item.
Another tap on the SET key will again deactivate option selection so a change to another line can be affected. Module B A S I C S E T T I N G , M O D E L Starlet Model name Info 1234g/111111 Stick mode 1 bind n/a n/a n/a Module HoTT SEL BD1 BD2 BD3 BD4 The mc-16 transmitter has a HoTT RF module as standard equipment.
completed. Your model-memory to receiver combination is now operationally ready. At this time the screen will now display " bind " (bound) instead of "n/a" (not attached). B A S I C S E T T I N G , M O D E L Starlet Model name Info 1234g/111111 Stick mode 1 bind bind n/a n/a Module HoTT SEL BD1 BD2 BD3 BD4 On the other hand, should the LED on the receiver blink red for longer than about 10 seconds, the binding process has failed. In this case the screen will continue to show the status as "n/a".
as the opportunity to distribute the transmitter's 16 control channels across as many as four receivers. This redistribution is subsequently referred to as "mapping" or "channel mapping" (channel correlation). Select the receiver to be "mapped" with the selection keys of the left or right touch pad then tap briefly on the center SET key of the right touch pad.
Range test The built-in range test reduces transmission power to an extent that a functional test can be carried out even within a distance of less than 100 m. Perform a range test on the Graupner HoTT system according to the following instructions. If necessary, have someone assist you in carrying out the range test. 1. Preferably, the receiver already bound to the transmitter should be installed into the model in its intended position. 2.
When this technique is evaluated during competitions, the motor must be switched off for autorotation. On the other hand, for training mode it is advantageous to keep the motor at idle for autorotation. The Autorotation switch causes a switchover to the autorotation flight phase in which control of "throttle" and "pitch" are separate and all mixers which have an effect on the throttle servo are switched off.
A speed controller or throttle servo will only take on this preset position when a certain servo position or threshold is underrun and a switch is activated. This is done by setting the desired servo position (threshold value) into the middle column field, directly over the column label STO, then selecting the appropriate ON/OFF switch function in the right column. • If the percentage value specified for the middle column is greater than the current servo position, i.e.
Marking B A S I C S E T T I N G , M O D E L ––– Autorotation 0% Autorot. C1-Pos. ––– –125% Thr. CutOff +100% 8 Marker key ––– SET SET SEL STO When activated, the "Marker key" will place a marker in the "Pitch" curve, as well as in the "Channel 1 Throttle" and "Channel 1 Tail rotor" mixer curves of the »Helicopter mixer« menu, to mark the current pitch joystick position of the pitch joystick and it takes on the form of a vertical dashed line.
Notes: • Be sure that during the switch assignment, the joysticks for aileron, elevator and rudder are in their neutral positions as otherwise their offsets from neutral will be adopted right away in trim memory as the trim value. • Since EVERY activation of the Auto trim switch has a cumulative effect, after concluding an "auto trim" flight, the assigned auto trim switch should be deactivated for reasons of safety.
For your notes 93
Model type Establishing winged aircraft model type This "Model type" menu is used to establish the type of model to be programmed. This also activates all characteristic mixers, coupling functions, etc. in preparation for subsequent programming of the specified model type. Model select Suppress codes Base setup model Ser vo adjustment Control adjust Channel 1 cur ve "Thr. min.
"2ELSv3+8": per wing half. However, elevator trimming is also affected by selecting the "2AIL 2FL" option – see below – but only on servos 2 & 3. This option is intended for models with two elevator servos. The servo connected to output 8 will operate in parallel with servo 3 to actuate elevators. Elevator trim affects both servos. Note on "2ELSv3+8": One control, which assigns input 8 by way of the »Control adjust« menu, is then disconnected from servo "8" by software for reasons of safety i.e.
M O D E L L T Y PE Motor on C1 None Normal Tail type Aileron/camber flaps 1 AIL Brake Offset +90% Input 1 SEL Tip: Preferably, the servo intended for operating any airbrake flaps that may be on the model should be connected to the receiver output operated by the brake input channel, e.g. connect airbrake servo onto (free) receiver output 8 if input 8 has been chosen for the "brake", etc. A second airbrake servo is most conveniently operated by way of a free mixer.
For your notes 97
Helicopter type Establishing helicopter model type This "Model type" menu is used to establish the type of model to be programmed. This also activates all characteristic mixers, coupling functions, etc. in preparation for subsequent programming of the specified model type.
Swashplate type: 3 Servos (2 Roll) 2 3 1 Swashplate type: 3 Servos (140°) 2 3 1 Swashplate type: 3 Servos (2 Nick) 1 3 2 Swashplate type: 4 Servos (90°) 2 Nick / 2 Roll Swashplate linearizion After selecting the »Linearis. swashpl.« line with the selection keys of the left or right touch pad, the entry field will be framed. H E LT Y P E Swashplate type Linearis. swashpl. Rotor direction Pitch min.
Pitch min After selecting the »Pitch min.« (pitch minimum) line with the selection keys of the left or right touch pad, the entry field will be framed. H E LT Y P E Swashplate type Linearis. swashpl. Rotor direction Pitch min. 1 Ser vo no right rear SEL The »Pitch min.« line is used to adapt the actuation direction of the throttle/pitch joystick to personal control preferences. All other helicopter program options which involve throttle and pitch functions, e.g.
A default value of -70 % control travel is provided. A simultaneous tap on the or keys of the right touch pad (CLEAR) will reset a changed value back to the default value.
Servo adjustment Servo direction, midpoint, travel and limit This menu is used to set the direction, neutralization, travel and limit parameters for a given selected servo exclusively.
Servo Servo Servo Servo Servo 1 2 3 4 5 Rev 0% 0% 0% 0% 0% cent. 100% 100% 100% 100% 100% 100% 100% 100% 100% 100% – travel + 150% 150% 150% 150% 150% 150% 150% 150% 150% 150% – limit + This column is used to set servo travel symmetrically or asymmetrically for each side. The setting range is 0 … 150 % of normal servo travel. The values set are based on the settings that have been made for the "midpoint" column. To create a symmetric travel path, i.e.
Joystick setting Setting stick mode 1 through 4 Both joysticks are equipped for digital trimming. When turning trim wheels, every "click" will shift the joystick's neutral position by a certain value. The current position is shown on the screen and the adjustment is also made "audible" with acoustic tones. This makes finding the mid-point during flight easy, without looking at the screen. If the mid-point is overrun, a brief motion pause will be inserted.
Channel 1 Aileron Elevator Rudder global global Phase global Trim 4 4 4 4 Tr. step 0.0s 0.0s 0.0s 0.0s 0.0s 0.0s 0.0s 0.0s – time + Briefly tap the center SET key of the right touch pad. The current setting will be displayed in inverse video. Now select the desired value, between 1 and 10, with the selection keys of the right touch pad. For example: Channel 1 Aileron Elevator Rudder global global Phase global Trim 4 4 8 4 Tr. step 0.0s 0.0s 0.0s 0.0s 0.0s 0.0s 0.0s 0.
Joystick setting Setting stick mode 1 through 4 Both joysticks are equipped for digital trimming. When turning trim wheels, every "click" will shift the joystick's neutral position by a certain value. The current position is shown on the screen and the adjustment is also made "audible" with acoustic tones. This makes finding the mid-point during flight easy, without looking at the screen. If the mid-point is overrun, a brief motion pause will be inserted.
Pitch/thr Roll Pitch ax Tail rot. Thr trim global global Phase Trim 4 4 4 4 Tr. step 0.0s 0.0s 0.0s 0.0s 0.0s 0.0s 0.0s 0.0s – time + "Global": Pitch/thr Roll Pitch ax Tail rot. Thr trim global global Phase Trim 4 4 4 4 Tr. step 0.0s 0.0s 0.0s 0.0s 0.0s 0.0s 0.0s 0.0s – time + The position of the respective trim wheel is effective "globally" for all flightphases programmed for the given model, page 140.
Control adjust Basic procedure for transmitter control and switch assignment Use the selection keys on the left or right touch pad to scroll to the »Control adjust« option in the multifunction menu: Model select Suppress codes Base setup model Ser vo adjustment Control adjust Channel 1 cur ve Copy / Erase Suppress models Model type Stick mode Dual Rate / Expo Switch display Tap briefly on the center SET key of the right touch pad to open this menu option: GL I5 GL I6 I7 GL GL I8 Normal TYP fr fr fr fr SE
"GL": "PH": The settings for the input in question affect all flight phases programmed (if any) and thus act "globally" on the model memory in question. The settings for this input take effect per flight phase and must therefore be configured separately for each flight phase. Note: See page 140 for more information about flight phases. Column 3, "Transmitter control/switch assignment" Select an input, 5 through 16, with the selection keys of the left or right touch pad.
GL I5 GL I6 I7 GL GL I8 Nor mal TYP --- 7 fr --fr --fr --- 0% 0% 0% 0% +100% +100% +100% +100% +100% +100% +100% +100% Offset – travel + 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 –time+ Now put the 3-way switch back into its middle position.
GL I5 GL I6 I7 GL GL I8 Normal TYP 8 fr fr fr 7 ------- 0% 0% 0% 0% +100% +88% +100% +100% +100% +100% +100% +100% Offset – travel + 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 –time+ Another brief tap on the center SET key of the right touch pad will complete the entry. Negative and positive parameter values are possible in order to appropriately adapt the control's direction or effect.
Control adjust Basic procedure for transmitter control and switch assignment Use the selection keys on the left or right touch pad to scroll to the »Control adjust« option in the multifunction menu: Copy / Erase Suppress models Helicopter type Stick mode Dual Rate / Expo Switch display Model select Suppress codes Base setup model Ser vo adjustment Control adjust Channel 1 cur ve TYP SEL 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.
Column 2, "typ" Similar to the previously described »Stick mode« menu, this column can be used to define whether further settings for the given input are to have a "GL(obal)" or a "PH(ase-specific)" effect. Do this by using the selection keys of the left or right touch pad to select the desired input 5 through 16 in the column labeled "TYP". GL I5 Thr6 GL Gyr7 GL GL E8 Normal TYP "GL": "PH": fr fr fr fr SEL --------- 0% 0% 0% 0% +100% +100% +100% +100% +100% +100% +100% +100% Offset – travel + 0.0 0.
The display will then present the switch number together with a symbol indicating the given switch direction. At the same time, the column label in the footer line will change from SEL into another switch symbol. GL I5 Thr6 GL Gyr7 GL GL I8 Normal TYP --- 7 fr --fr --fr --- 0% 0% 0% 0% +100% +100% +100% +100% +100% +100% +100% +100% Offset – travel + 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 –time+ Now put the 3-way switch back into its middle position.
Thr6 GL I5 Thr6 GL Gyr7 GL GL I8 Normal TYP 8 fr fr fr 7 ------- 0% 0% 0% 0% +100% +88% +100% +100% +100% +100% +100% +100% Offset – travel + 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 –time+ Another brief tap on the center SET key of the right touch pad will complete the entry. Negative and positive parameter values are possible in order to appropriately adapt the control's direction or effect.
"Gyr7" GL I5 Thr6 GL Gyr7 GL GL I8 Normal TYP 8 fr fr fr 7 ------- 0% 0% 0% 0% +111% +88% +100% +100% +100% +100% +100% +100% Offset – travel + 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 –time+ Most of the latest gyro systems not only feature infinitely variable proportional gyro gain setting, but also offer a choice of two separate types of gain mode on the transmitter.
Throttle limit function "Tl16" The proportional slider SD1, mounted on the right side of the transmitter, is assigned by default to input "Tl16". I13 GL fr I14 GL fr I15 GL fr Tl16 GL Lv1 Normal TYP SET --------- 0% 0% 0% 0% +100% +100% +100% +100% +100% +100% +100% +100% Offset – travel + 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.
Channel 1 CURVE Note: In contrast, when the throttle limiter is closed, the position of the throttle/collective pitch stick is meaningless. It can therefore remain at the maximum collective pitch position so that, when adjusting carburetor linkages, the throttle limiter alone can be used to switch between full throttle (throttle limiter open) and "Motor OFF" (throttle limiter closed). Now, with the throttle limiter closed, adjust the carburetor linkages so that the carburetor is (just) completely closed.
Throttle limit in combination with "Thr AR" in the »Stick mode« menu Time delay for the throttle limiter To safely prevent the carburetor from opening too rapidly, assign the throttle limiter input "Tl16" to a time delay that takes effect only in the direction of full throttle. This applies especially if the throttle limiter is controlled by a switch rather than, as preset, with the right-side proportional rotary slider.
Dual Rate / Expo Configurable control characteristics for aileron, elevator and rudder Use the selection keys of the left or right touch pad to scroll to the »Dual Rate / Expo« menu option in the Multi-function menu: Model select Suppress codes Base setup model Ser vo adjustment Control adjust Channel 1 cur ve Copy / Erase Suppress models Model type Stick mode Dual Rate / Expo Switch display Open this menu option with a tap on the center SET key of the right touch pad.
Once the value field has been activated with a brief tap on the SET key of the right touch pad, use the selection keys of the left or right touch pad to move into the Dual-Rate value column labeled SEL at the Aileron 0% 3 88% ––– 0% Elevator ––– 100% ––– 0% Rudder ––– 100% ––– EXPO DUAL Normal SEL SEL At the same time, the Dual-Rate curve will be presented in the graph.
At the same time, the Expo curve will be presented in the graph. A simultaneous tap on the or keys of the right touch pad (CLEAR) will reset a changed entry field value displayed in inverse video back to "0 %". Servo travel Servo travel Servo travel Stick deflection Stick deflection Stick deflection In each of these examples, the Dual Rate value equals 100 %.
Aileron ––– 100% ––– 0% 0% Elevator G3 111% ––– 0% Rudder ––– 100% ––– EXPO DUAL Normal SEL SEL The vertical dashed line shows the current elevator joystick position. Set the Expo values as necessary in the same manner.
Dual Rate / Expo Configurable control characteristics for roll, pitch-axis, tail rotor Use the selection keys of the left or right touch pad to scroll to the »Dual Rate / Expo« menu option in the Multi-function menu: Model select Suppress codes Base setup model Ser vo adjustment Control adjust Channel 1 cur ve Copy / Erase Suppress models Helicopter type Stick mode Dual Rate / Expo Switch display Open this menu option with a tap on the center SET key of the right touch pad.
Once the value field has been activated with a brief tap on the SET key of the right touch pad, use the selection keys of the left or right touch pad to move into the Dual-Rate value column labeled SEL at the Roll 0% 3 88% ––– 0% Pitch ax ––– 100% ––– 0% Tail rot ––– 100% ––– EXPO DUAL Normal SEL SEL At the same time, the Dual-Rate curve will be presented in the graph.
At the same time, the Expo curve will be presented in the graph. A simultaneous tap on the or keys of the right touch pad (CLEAR) will reset a changed entry field value displayed in inverse video back to "0 %". Servo travel Servo travel Servo travel Stick deflection Stick deflection Stick deflection In each of these examples, the Dual Rate value equals 100 %.
Roll Nick Tail ––– 100% ––– 0% 0% C3 111% ––– ––– 100% ––– 0% EXPO DUAL Normal SEL SEL The vertical dashed line shows the current pitch axis joystick position. Set the Expo values as necessary in the same manner.
Channel 1 curve Control characteristics for throttle/spoiler joystick 0% 0% 0% O Input Curve Output ? off Point U T P U T Channel 1 C U R V E 100 Open this menu option with a tap on the center SET key of the right touch pad. – + Since the carburetor response or the effect of the airbrakes or spoilers is often non-linear, you can make compensatory adjustments to these in this menu.
U T P U T – + A tap on the center ESC key of the left touch pad will also terminate this function. Trim x-axis function This function is activated by tapping the left () or right () selection key of the right touch pad with an active (i.e. inverse video) value field. You can then use the selection keys on the right touch pad to reposition the active point horizontally or vertically as you wish.
Do this – from a situation as illustrated – with a brief tap on the selection key of the left touch pad. This will cause a switchover from "(Curve) off" to "(Curve) on" (or vice versa). 100 C U RV E –50% 0% 0% 2 1 O Input Curve Output 1 on Point Normal U T P U T Channel 1 – 3 + Note: The curves shown here are for demonstration purposes only and are not at all representative of real throttle or airbrake curves.
Channel 1 curve Control characteristics for throttle/collective pitch stick Pitchstick 0% 0% 0% O Input Curve Output ? off Point U T P U T Channel 1 C U R V E 100 Open this menu option with a tap on the center SET key of the right touch pad. – + Since the carburetor response or the effect of collective pitch is often non-linear, you can make compensatory adjustments to these in this menu.
1 U T P U T 1 O Channel 1 C U R V E Trim point Input +50% Curve Output –75% 1 0% off Point Normal 100 Trim point function Alternatively, jumping through set reference points can be done with the selection keys of the left touch pad in either ascending or descending order, whereby the number of the jump's destination reference point in the graph will be marked with the point's number, 1 … max. 6, in inverse video.
Do this – from a situation as illustrated – with a brief tap on the selection key of the left touch pad. This will cause a switchover from "(Curve) off" to "(Curve) on" (or vice versa). 100 C U RV E –50% 0% 0% 2 1 O Input Curve Output 1 on Point Normal U T P U T Channel 1 – 3 + Note: The curves shown here are for demonstration purposes only and are not at all representative of real throttle curves. For real-world application examples, see the programming examples on pages 274 and 313.
Switch display Displaying switch positions Use the selection keys on the left or right touch pad to scroll to the »Switch display« option in the multifunction menu: Model select Suppress codes Base setup model Ser vo adjustment Control adjust Channel 1 cur ve Copy / Erase Suppress models Model type Stick mode Dual Rate / Expo Switch display Model select Suppress codes Base setup model Ser vo adjustment Control adjust Channel 1 cur ve Copy / Erase Suppress models Helicopter type Stick mode Dual Rate / Exp
Control switches Programming the control switches Use the selection keys on the left or right touch pad to scroll to the »Control switch« option in the multifunction menu: Suppress codes Base setup model Ser vo adjustment Control adjust Channel 1 cur ve Control switch Suppress models Model type Stick mode Dual Rate / Expo Switch display Logical switch Suppress codes Base setup model Ser vo adjustment Control adjust Channel 1 cur ve Control switch Suppress models Helicopter type Stick mode Dual Rate / Exp
C1 C2 C3 C4 C O N T RO L S W I T C Lever1 0% free 0% 0% free free 0% SEL SEL STO H ––– ––– ––– ––– C1 C2 C3 C4 Resetting a control switch back to "free" To reset a control switch back to "free", make sure the display is as below … C1 C2 C3 C4 C O N T RO L S W I T C H Lever1 Move desired 0% ––– free control adj. ––– 0% ––– 0% free free 0% ––– SEL SEL STO C1 C2 C3 C4 … then, with a brief simultaneous tap on the or keys of the right touch pad (CLEAR), the entry for a control will be erased.
• The switch state can also be inverted by reversing the control in the »Control adjust« menu. Combining a control switch with a switch The control switch can be overridden by a further switch, so that e.g. in certain flight situations the function to be triggered can be activated independently of the control position and thus the position of the control switch. Change to the value field in the 5th column, the column above the rightmost switch symbol.
Logical switches Programming logical switches Use the selection keys on the left or right touch pad to scroll to the »Control switch« option in the multifunction menu: Suppress codes Base setup model Ser vo adjustment Control adjust Channel 1 cur ve Control switch Suppress models Model type Stick mode Dual Rate / Expo Switch display Logical switch Suppress codes Base setup model Ser vo adjustment Control adjust Channel 1 cur ve Control switch Suppress models Helicopter type Stick mode Dual Rate / Expo Sw
Moewünschten Schalter Control/Logic/fix switch L1i L2i L3i C8i Position to C7i die EIN L8i L1 L5i Schalter: L6i L7iSET) (erw. L4i L2 A brief tap on the center SET key of the right touch pad will adopt the selected switch into the menu. Model time Batt. time Top : Stop watch Centr : Flight time 12:34h 1:23h 0s 0:00 0s 0:00 Timer Timer ––– L3I L3I Alarm Remark about inverted switches: Selection of an inverted switch for a switch assignment, e.
How is a flight phase programmed? The concept of flight phase programming General information on flight phase programming During a flight, you will often want to apply different settings – e.g. flap or trim settings for a fixed-wing aircraft or collective pitch and throttle servo settings for a helicopter – at particular times in the flight (e.g. take-off, approach, hover, auto-rotate, etc.). With mc16 HoTT, you can access such presets automatically using switches or control switches.
How is a flight phase programmed? 141
Phase settings Setting up flight phases Use the selection keys of the left or right touch pad to scroll to the »Phase settings« menu option in the multi-function menu: Base setup model Ser vo adjustment Control adjust Channel 1 cur ve Control switch Phase settings Model type Stick mode Dual Rate / Expo Switch display Logical switch Phase assignment Within one model memory, the mc-16 HoTT lets you program up to 8 discrete groups of settings for various conditions met during the flight.
basic display. This counter field is highlighted as soon as the switch for the "Time1" timer is "opened", i.e. the timer is stopped: Graubele #01 Stop watch 0:00h Flight tim H-J Sandbrunner Lap 0:00h 4.1V 0 0 00 0:00.0 0:00.0 0.0s K78 Normal V RX VOLT:4.9V M 0 0 When necessary, the selection keys can be used to access and read the sequence of switching times. Application: Measurement of e.g. motor switch-on times, if the same switch also actuates the motor.
Example: Phase Phase Phase Phase Phase 1 Normal 2 Launch 3 Dist. 4 5 Name yes yes yes yes yes Timer Motor 0.1s 0.1s 1.1s 0.1s 0.1s Sw. time – – – – The switchover time from any other phase to Phase 1 «normal» will take 2.2 s. The time for a switchover from, for example, Phase 1 to Phase 3, is set to 1.1 s and the time for a switchover from Phase 1 or 3 to Phase 2 "Launch" is 1.5 s. Such asymmetric transition times can be useful when, e.g.
For your notes 145
Phase settings Setting up flight phases Use the selection keys of the left or right touch pad to scroll to the »Phase settings« menu option in the multi-function menu: Base setup model Ser vo adjustment Control adjust Channel 1 cur ve Control switch Phase settings Helicopter type Stick mode Dual Rate / Expo Switch display Logical switch Phase assignment Symbol Open this menu option with a tap on the center SET key of the right touch pad. Autorot Autorot Phase 1 Phase 2 Phase 3 Phase 4 Name Fl.ph.Tim.
Starlet #02 Stop watch 0:00h Flight tim H-J Sandbrunner Lap 0:00h 4.1V 0 0 00 0:00.0 0:00.0 0.0s K78 Normal V RX VOLT:4.9V M 0 0 When necessary, the selection keys can be used to access and read the sequence of switching times. Application: Measurement of (e.g.) flight phases with increased motor speed, if the same switch is used to actuate flight phase switching. Time2 This timer stores both the "off" and the "on" periods for the associated switch, i.e.
Phase assignment Setting up flight phases Use the selection keys of the left or right touch pad to scroll to the »Phase assignment« menu option in the multi-function menu: Base setup model Ser vo adjustment Control adjust Channel 1 cur ve Control switch Phase settings Model type Stick mode Dual Rate / Expo Switch display Logical switch Phase assignment Base setup model Ser vo adjustment Control adjust Channel 1 cur ve Control switch Phase settings Helicopter type Stick mode Dual Rate / Expo Switch displa
P H A S E A S S I G N M E N T prior B A 2 C 6 combi D E 7 F 1Normal Now close one (or more, as required) of the switches that you have assigned, and assign one of the flight phase names from the list you selected beforehand on the »Phase settings« menu to this switch position or combination.
Phase trim Flap settings specific to flight phases Use the selection keys of the left or right touch pad to scroll to the »Phase trim« menu option in the multifunction menu: Ser vo adjustment Control adjust Channel 1 cur ve Control switch Phase settings Phase trim Stick mode Dual Rate / Expo Switch display Logical switch Phase assignment Non-delayed chan Open this menu option with a tap on the center SET key of the right touch pad. Normal 0% »Phase assignment« menu, determines the line that is chosen.
Non-delayed channels Channel-dependent delays to switching Use the selection keys of the left or right touch pad to scroll to the »Phase trim« menu option in the multifunction menu: Ser vo adjustment Control adjust Channel 1 cur ve Control switch Phase settings Phase trim Stick mode Dual Rate / Expo Switch display Logical switch Phase assignment Non-delayed chan Use the selection keys of the left or right touch pad to move the " " onto the corresponding channel then briefly tap the center SET key of the r
Timers (general) Timers on the basic display The default transmitter display shows a total of three timers. These are: the transmitter operating time on the left of the display, plus a "Top" and a "Centr" timer on the right of the display: Graubele #01 Stop watch 0:00h Flight tim H-J Sandbrunner Runde 0:00h 4.1V 0 0 0:00.0 0:00.0 00 K78 Normal V RX VOLT:4.
"Flight tim" This timer is especially for measuring flight time: it can be started with an assigned switch and stopped (once the switch has been re-opened) on the basic display with a tap on the center ESC key of the left touch pad. Once in a stopped state, it can be reset to its starting value with a simultaneous tap on the or keys of the right touch pad at the same time (CLEAR).
4. Complete the entry with a tap on the center SET key. 5. A simultaneous tap on the or keys of the right touch pad (CLEAR) will reset any setting made back to "0" or "00". 6. Following a switch back to the basic display (by tapping the center ESC key of the left touch pad as many times as required), make sure the stopwatch is stopped then simultaneously tap on the or keys of the right touch pad (CLEAR) to switchover the stopwatch to the "timer" function.
For your notes 155
Fl. phase timers Selecting and setting A description of how timers are assigned to a flight phase has already been provided in the text for the »Phase settings« menu, page 142 and 146. The same section has also described the properties of "Time1" and "Time2". This section now proceeds to describe "Timer 1, 2 and 3" and the "lap counter/time table" timer variants.
The input field in the "Alarm" column is activated with a tap on the center SET key of the right touch pad. In this field, use the selection keys on the left or right touch pad to define a time between 5 and 90 seconds (in 5-second increments) before zero is reached: at this point an audible signal will be emitted, which eliminates the need for you to check the screen continually during the flight.
Lap Display Timer 1 Timer 2 Timer 3 Lap time/Tim tab Lap display 0:00 0:00 0:00 0s 0s 0s Timer Alarm ––– ––– ––– ––– ––– … and use the switch assigned. You assign this switch as described in the section "Assigning transmitter controls, switches and control switches" (page 56). 158 Detail program description - Fl.
What is a mixer? Basic functionality With many models, a mix of the model's functions is often desirable, i.e. coupling aileron to rudder or coupling two servos together, in cases where rudder control surfaces with the same functionality are to be controlled together using a single servo. In all cases, the signal flow at the "output" of the control function on the transmitter control-side "branches" – , this also means: "downstream" of transmitter control options such as e.g.
Wing mixers Calibrating the wing flap system Within the menu tree of the menu … Channel 1 cur ve Control switch Phase settings Phase trim Timers (general) Wing mixers »Phase assignment«, page 148 menus, and these flight phases have been given names, the flight phase names will appear along the bottom display edge, e.g. «Normal». Switch display Logical switch Phase assignment Non-delayed chan Fl.
controls the flap position of the ailerons via the percentage value entered in the "Ail" (and "Ail2") column on the "FLAP" line of the multi-flap menu. However, in order to improve control sensitivity for flap settings, travel should be reduced to about 25 % in "Input 6" line of the »Control adjust« menu.
termed "adverse yaw". This effect is naturally greater on the comparably long aerofoils possessed by model gliders, compared to e.g. powered aircraft models, which generally have relatively short moment arms. For the former, it must normally be compensated for by making a simultaneous rudder deflection in the opposite direction. However, this rudder deflection also generates drag and therefore further degrades flight characteristics.
W I N G M I X E R S Brake settings Aileron 2 4 rudder 0% ––– tap on the center SET key of the right touch pad: 100 Elevator Input Curve Output L off Point Normal –100% 0% 0% U T P U T Brake O Model type: "1AIL" If you have entered "1AIL" for the "Aileron/camber flaps" line on the »Model type« menu (page 94), then the "Wing mixers menu" on your transmitter will match the following screen image: – + From the first line on this display screen, you can switch to the sub-menu with a brief tap on
Brake Elevator 100 ––– 0% ––– 0% ––– Brake settings Note: The "Brake settings" menu is switched "off" if: "Motor on C1 forward / back" in the »Model type« menu (page 94) AND the "Motor" column of the »Phase settings« menu, (page 142) are set to "yes" for the currently active flight phase. Switch the flight phase if required: B R A K E Crow Elevat.
the elevator joystick to its center position, so that the marker frame surrounds both value fields. To configure asymmetric values, move the joystick to the corresponding side. Values in the range -150 % to +150 % are possible, so as to adjust the function to the direction of servo rotation or direction of flap deflection. A simultaneous tap on the or keys of the right touch pad (CLEAR) will reset a changed value in a given active (inverse video) field back to 0 %.
100 Elevator –100% 0% 0% 0% (normal) O Input Curve Output L off Point Normal U T P U T Brake – + 50% (differential) If required, i.e. if you have the feeling that you will need to set pitch trim compensation when the airbrakes are extended, you can program an appropriate automatic mixer affecting the elevator at this point. For detailed instructions on setting a curve mixer, please refer to the »Channel 1 curve« menu option text beginning page 128.
Values in the range -150 % to +150 % are possible, so as to adjust the function to the direction of servo rotation or direction of aileron deflection. A simultaneous tap on the or keys of the right touch pad (CLEAR) will reset a changed value in a given active (inverse video) field back to 0 %. The "usual" values for this mixer are in the low twodigit range.
Model type: "2AIL 2FL" If servos have been connected to the receiver as described on page 61 and selected accordingly in the »Model type« menu, page 94, then the abbreviations "AILE" and "FLAP" refer to the following flaps: AI left FL left FL right AI right Since the options available on the wing mixer menu and its sub-menus vary according to the number of flap servos specified on the »Model type« menu, page 94, the list contains only those set-up options available for the given model.
+100% 0% 0% AI +100% +100% 0% +100% Ail-tr 0% 0% 0% 0% Diff. 0% 0% Fl.
AiI-tr. (suppressed by "2AIL 1FL") Al Ail-tr Diff. Fl.pos FL Normal (aileron trim) 0% 0% +100% 0% +100% 0% 0% 0% 0% 0% 0% 0% +100% 0% 0% +100% +100% 0% +100% +100% 0% 0% 0% FLAP FL2 AILE In this line, you specify the percentage rate with which aileron trim is to affect "AILE", "FLAP" and – if present – "FLAP2". The available range of values is -150 % to +150 %, relative to the adjustment range of the trim wheel.
assign a transmitter control or switch to this input at any time – also in a flight phase-dependent way – thus enabling different flap settings within a flight phase; see also example 2 on page 292. El Fl (elevator flap) To provide support for the elevator for tight turns and aerobatics, this mixer can be used to make the flap function follow controls sent to the elevator.
Note: The Offset, i.e. the activation direction, is also set in the »Model type« menu, pager 94. This offset should be set to about +90 % of stick travel (if the C1 joystick is used, this is generally located at the forward position of the stick). To extend the flaps, the stick must therefore be moved back towards the pilot. The remaining joystick travel of around 10 % then has no effect, although it is not "lost", since the control travel is automatically expanded back to 100 %.
You can assure yourself that this works as stated by accessing the »Servo display« menu, accessible from almost any menu level with a brief simultaneous tap on the keys on the left touch pad (see page 262): 1 3 5 7 9 11 13 15 +100 0 0 0 +100 0 0 0 0 0 0 0 0 0 0 0 2 4 6 8 10 12 14 16 If this relatively simply variant should prove impossible for whichever reasons, then the alternative is a solution with two free mixers – and potentially involving the »Mix only channel« menu, page 205.
100 Elevator P U T Brake Aileron 2 4 rudder U T +100% –25% –25% O Input Curve Output off Point H Normal A simultaneous tap on the or keys of the right touch pad (CLEAR) will reset a changed value in a given active (inverse video) field back to 0 %. – + The selected setting should certainly be tried out in sufficient altitude and, if necessary, readjusted.
For your notes 175
Helicopter mixer Flight phase-specific setting of collective pitch, throttle and tail rotor In this menu … Control adjust Channel 1 cur ve Control switch Phase settings Non-delayed chan Fl. phase timers Dual Rate / Expo Switch display Logical switches Phase assignment Timers (general) Helicopter mixer … all of the flight phase-specific helicopter mixers are described, with the exception of the mixers for autorotation flight (discussed from page 190 onward.
Setting reference points Move the joystick. If the display shows a framed question mark, then you can set the next reference point with a tap on the center SET key of the right touch pad. Simultaneously, the "?" is replaced by its number and the value field to the right of the reference point number is highlighted: "H" is irrelevant since these reference points are continuously renumbered automatically from left to right as they are entered.
Trim point function Alternatively, a jump up or down to reference points already set, L, 1 … max. 6 and H, can be accomplished by using the selection keys on the left touch pad. The selection keys on the right touch pad can then be used to change the reference point jumped to as described above, entirely independently of the control position.
3 Control travel Channel 1 Control travel Notice about marker keys: If marker keys have been set in the »Basic settings, model« menu, page 91, touching a key while in this graph will set a dashed vertical line to show the position of the C1 joystick at the time the key was pressed. Notes: • If the joystick does not coincide with the exact reference point, please note that the percentage value on the "Output" line always relates to the current joystick position.
180 Detail program description - Helicopter mixer approach taken by older mc remote control systems. Ensure that the throttle limiter is closed before starting a motor with carburetor, i.e. so that the carburetor can be adjusted within the idle range only with trim. Ensure that you follow the safety instructions on page 189 at all times. If the throttle is set too high when switching on the transmitter, you will receive audible and visible warnings! #02 0:00.0 0:00.
Throttle +50% +50% +50% O Input Curve Output off Point ? Normal U T P U T Channel 1 100 Once the motor has started, push the throttle limiter s l o w l y in the direction of the opposite end-point to put actuation of the throttle servo fully under the control of the throttle/collective pitch joystick once again.
– + The default approach here is to preset a torque compensation curve with a linear mixer ratio of a uniform 0 %, as is required for a gyro sensor working in "heading lock mode" – see the screen image above. Important notice: In this context, ensure that you comply with the instructions on adjusting your gyro: if not, you risk making adjustments that render your helicopter impossible to fly.
Roll Throttle and Pitch axis Throttle Tail rotor throttle Pitch Channel 1 Channel 1 Tail rot. Roll Throttle Tail rot. Throttle Throttle Normal 0% 0% SEL While the tail rotor normally compensates for the effect of main rotor torque on the fuselage, it is also used to control the helicopter around the vertical axis. Increasing tail rotor thrust requires a corresponding adjustment to motor power, however, to avoid a falloff in system rotational speed.
Accordingly, if the transmitter control is at the neutral point, and gyro suppression is set to 100 %, the gyro gain is reduced to zero as the tail rotor 184 Detail program description - Helicopter mixer "current control position minus gyro suppression value".
vertical axis, observe the following: • The controls should have as little friction and "play" as possible. • There should be no "spring" in the control linkage. • Use a strong and comparably fast servo.
Swashplate limiter Tail rot. Nick Gyro suppression Gyro offset Swashplate rotation Swashplate limiter Normal 0% 0% 0% 0° off SEL This function works like a circular mechanical surround acting upon the stick which controls the swashplate, restricting the normally square stick travel to a circular range. In fact, if the helicopter is set up in such a way that the deflections for roll and/ or pitch-axis exploit the maximum travel mechanically possible, e.g.
Fine-tuning the throttle and collective pitch curve Practical approach Note: The hover point should normally be set to the center position of the throttle / collective pitch stick. In special cases, e.g. for "3D" flight, deviating hover points can also be programmed. For example, one point for normal flight attitude above the center and one point for inverted flight attitude below the center.
1. The model does not lift off until the collective pitch stick is above the center point. +100% 1 3 4 5 2 3 4 5 Remedy: Decrease the blade angle of attack pitch by reducing the value of point "1" on the graph page for "Pitch". +100% Hover point the collective pitch stick to its end-point. Compared to the hover configuration, motor speed should remain unchanged.
This diagram shows only the change to the hover point, i. e. collective pitch minimum and maximum are both left at -100 % or +100 %. OUTPUT +100% -100% 1 2 3 4 5 Control travel Modify these settings until they really result in a constant rotational speed over the full control range between hovering and climbing flight.
Helicopter mixers Auto-rotation setting Auto-rotation permits both full-size and model helicopters to land safely in a crisis, e. g. if the motor should fail. Moreover, if the tail rotor should fail, cutting the motor and landing using auto-rotation is also the only possible way to avoid a high-speed, uncontrollable rotation around the vertical axis and a resulting catastrophic crash – which is why a switchover TO the auto-rotation phase takes place immediately.
function. Tail rotor AR In normal flight, the tail rotor is set so that it compensates for motor torque while the model is hovering. It therefore generates some a certain amount of thrust even in its normal position. The level of thrust is then varied by the tail rotor control system, and also by the various mixers which provide all manner of torque compensation, while the tail rotor trim is also used to compensate for varying weather conditions, fluctuations in system rotational speed and other influences.
General notes on freely programmable mixers The previous pages have described a wealth of ready-to-use built-in coupling functions, in the context of the two menus »Wing mixers« and »Helicopter mixers«. The fundamental significance of mixers and the principle by which they work are described on page 159. The following section provides information about the so-called "free mixers".
Free mixers Freely-programmable linear and curve mixers Using the selection keys on the left or right touch pad, page to the menu option … Channel 1 cur ve Control switch Phase settings Phase trim Timers (general) Wing mixers Switch display Logical switch Phase assignment Non-delayed chan Fl. phase timers Free mixers Channel 1 cur ve Control switch Phase settings Non-delayed chan Fl.
1 Throttle/collective pitch stick 2 Roll stick 3 Pitch-axis stick 4 Tail rotor stick Note: If you select any of the control functions 5 … 16 for fixed-wing models or 5, 7 … 16 for helicopter models, do not forget to assign a transmitter control for each of these in the »Control adjust« menu! "S" as switch channel Selecting "S" (switch channel) in the fr column has the effect of passing a constant input signal to the mixer input, e.g.
TL (throttle limit) only effective at minimum position of the assigned throttle limit control (the right side proportional rotary control as standard) Switching mixers in series As already explained on page 192, you can also switch mixers in series: Where mixers are switched in "sequence", the "input signal" of a control channel already on its way to the servo "branches off" and is directed to a further channel.
of the mixer programmed on the same channel. Thus, with linear mixers LinearMIX 1 … 8 or curve mixers CurveMIX 9 … 12, 8-point control curves can be defined for any transmitter control in a manner analogous to that described in the »Channel 1 curve« menu and these can also be used in flight phase switching if needed. This method of "linking" is not only also switchable but can even be subject to a delay by assigning an appropriate delay in the "– time +" column of the »Control adjust« menu.
»Control adjust« menu GL I5 GL I6 I7 GL GL I8 Normal Typ S11 fr fr fr SEL --------- 0% 0% 0% 0% +100% +100% +100% +100% +100% +100% +100% +100% offset – travel + 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 –time+ Note: Note that if two flap servos have been selected, any transmitter control assigned to input 7 will be decoupled in the software in order to avoid errors in operating the flaps.
Notes: • By selecting SET with the selection key of the left or right touch pad followed by a tap on the center SET key of the right touch pad … Linear MIX 1 6 EL Mix input Offset –75% 0% 0% SYM ASY STO SET • … the offset value can be set manually or adjusted in 1 % increments with the selection keys on the left or right touch pad.
Programming details The control curve is defined by up to 8 points, known as "reference points". In the default software configuration, 2 reference points are already defined, namely only the two end-points, "L" and "H"; see the next screen image. The following section applies to "any" mixer to which we wish to assign a non-linear curve characteristic. The examples shown in the following section are merely illustrative, however, and they do not represent real-life mixer curves.
200 Detail program description - Free mixers Curve MIX 9 8 10 Trim offset Input 0% Curve Output –25% 1 –25% off Point Normal 100 – 1 + 100 U T P U T O – + You can also exit this function by tapping the center ESC key of the left touch pad. U T Curve MIX 9 8 10 Trim X-axis Input 0% Curve Output +67% ? +50% off Point Normal 100 Trim x-axis function This function is activated by tapping the left () or right () selection key of the right touch pad with an active (i.e.
• Please note that the percentage value on the "Output" line always relates to the current joystick position and not to the position of the point. Smoothing the curve 10 100 8 1 P U T Curve MIX 9 U T +50% –75% –75% 2 O Input Curve Output 3 off Point 3 – + This "angular" curve profile created in the example can be smoothed automatically simply by pressing a button. Do this – from a situation as illustrated – with a brief tap on the selection key of the left touch pad.
via servo 1. If you also assign a switch to this mixer, then you will be able to switch this mixer on and off as you please. 3. The final example applies to model helicopters: In the helicopter program, if you wish affect pitch trim with a proportional control, e.g. one of the slider controls in the middle of the console, then assign one of these controls to this function in the »Control adjust« menu; for example the "I9" input.
For your notes 203
MIX active/phase Selecting mixers for flight phases Using the selection keys on the left or right touch pad, page to the menu option … Control switch Phase settings Phase trim Timers (general) Wing mixers MIX active/phase Logical switch Phase assignment Non-delayed chan Fl. phase timers Free mixers MIX only channel Channel 1 cur ve Control switch Phase settings Non-delayed chan Fl.
MIX-only channel Separating control functions from control channels for all flight phases Using the selection keys on the left or right touch pad, page to the menu option … Control switch Phase settings Phase trim Timers (general) Wing mixers MIX active/phase Control switch Phase settings Non-delayed chan Fl. phase timers Free mixers MIX-only channel Logical switch Phase assignment Non-delayed chan Fl.
Dual mixers Same-sense/opposite-sense mixing of two control channels 4,8 V C 577 Best.-Nr. 4101 Servo 4,8 V C 577 Rudder stick … on the multi-function menu. Briefly tap the center SET key of the right touch pad to open this menu option. D UA L Mixer Mixer Mixer Mixer 1 2 3 4 M I X E R ?? ?? ?? ?? ?? ?? ?? ?? 0% 0% 0% 0% Diff.
D UA L Mixer Mixer Mixer Mixer 1 2 3 4 M IX E R RU 8 ?? ?? ?? ?? ?? ?? +75% 0% 0% 0% Diff. When a rudder command is given, the second servo connected to output 8 follows suit. (With this type of programming, differential travel can be configured for the rudders.) In this case, too, trim from the rudder stick affects both servos.
Swashplate mixer Fail-safe Collective pitch, roll, pitch-axis mixer Fault condition setpoints Using the selection keys on the left or right touch pad, page to the menu option … Phase settings Non-delayed chan Fl. phase timers Free Mixers MIX-only channel Swashplate mixer Phase assignment Timers (general) Helicopter mixer MIX active/phase Dual mixer Fail-safe adjust … on the multi-function menu.
with the last received correct signal, temporarily stored in the receiver. This feature is configured by the settings as described below. This feature also suppresses brief interference caused by e.g. local drops in field strength, which otherwise result in the familiar "glitches". In this case, the red LED lights up on the receiver.
Teacher/pupil Connecting two transmitters for trainer mode with a trainer lead The mc-16 HoTT transmitter is equipped standard – as viewed from the front, under the left front flap – with a DSC socket. This is not only usable for connecting flight simulators – as described on page 22 – but also to integrate the transmitter into a cable-coupled teacher/pupil system.
T R A IN E R / Te a c h e r P T 1 SW: 2 9 3 4 5 6 7 8 9 10 11 12 n/a BIND: Note: The switch assignment just described also determines the transmitter used to issue the teacher and pupil functions, respectively. For this reason, a pupil transmitter must NEVER be assigned a switch on this menu. The header line therefore also switches from "Teacher / Pupil" to "Teacher / Teach" once a switch has been assigned. The model to be controlled by the pupil must be programmed completely – i.e.
dual axis sticks (1 … 4), access the »Control adjust« menu in the pupil transmitter and assign those inputs which correspond to enabled function inputs 5 … 12 as shown in the »Teacher/pupil« menu of the teacher transmitter. Afterwards, assign the operating elements appropriately. Important: • If you should forget to assign a transmitter control on the pupil side, then the affected servo or servos will remain in the center position when the transfer is made to the pupil transmitter.
Trainer mode with the mc-16 HoTT transmitter Due to the continuous improvements made to the product range, please consult our website at www.graupner.de for the latest information Pupil transmitter mc-16 HoTT Teacher transmitter mc-16 HoTT S M Teacher/pupil cable, order no. 4179.1 Teacher/pupil cable, order no. 4179.1 Teacher/pupil cable, order no. 3290.8 Teacher transmitter with DSC socket mx-12 HoTT, mx-16 HoTT, mx-20 HoTT and mc-16 HoTT Teacher transmitter with teacher module, order no. 3290.
Wireless HoTT system Wireless operation of the mc-16 HoTT trainer mode system is also possible. To do so, the teacher transmitter must be "connected" to a pupil transmitter as described below. Prior to this, however, the training model's receiver must be bound to the PUPIL transmitter. This configuration is possible between transmitters which have the "BIND:" option in the »Teacher/pupil« menu. Preparing for training mode Teacher transmitter The training model must be programmed completely, i.e.
Teacher transmitter Up to twelve function inputs (see "Term definitions" on page 54) of the teacher transmitter "T" can be individually or in any combination transferred to the pupil transmitter "P". The lower display line, designated with "T", therefore indicates the function inputs with which control functions 1 … 4 (joystick functions for fixed-wing and helicopter models) are permanently connected as well as inputs 5 … 12, which can be freely assigned in the »Control adjust« menu.
As soon as this process is complete, both screens will show "ON" instead of the flashing "BINDING": T R A I N E R / s t u d e n t P T these persons could reduce the connection range of the return channel used by the two transmitters. In this operating mode, the basic display of the teacher transmitter is as shown below … #01 1 2 SW: ––– 3 4 5 6 7 8 9 10 11 12 on BIND: Graubele Stop watch 0:24h Flight tim RFC–Teacher 1:23h K78 3.
Please select Trainer link? ACT INH … and this selection is confirmed by tapping the center SET key of the right touch pad, then the existing teacher connection is restored. The same approach is used if the transmitter is configured as a pupil transmitter.
Tx. output swap Swapping the outputs on the transmitter Using the selection keys on the left or right touch pad, page to the menu option »Tx. output swap« Tx. output swap on the multi-function menu: Phase trim Timers (general) Wing mixers MIX active/phase Dual mixer Teacher / pupil Non-delayed chan Fl. phase timers Free mixers MIX-only channel Fail-safe adjust Tx. output swap Non-delayed chan Fl.
For your notes 219
Profi-trim Flaps and aileron trimming The mc-16 HoTT transmitter has an integrated software function for direct trimming of all flaps and ailerons. Using the selection keys on the left or right touch pad, page to the »Profi-trim« menu option in the multifunction menu … Timers (general) Wing mixers MIX active/phase Dual mixer Teacher / pupil Profi trim Fl. phase timers Free Mixer MIX-only channel Fail-safe adjust Tx.
Control Trim ctl sw on/off P R O T R I M AI AI FL act off act free free free ––– SET SET SET FL off free SET The second line of this menu is for selecting transmitter control assignments which appear advantageous from the many controls available on the transmitter. To assign a transmitter control, use the selection keys to navigate to the desired column then tap briefly on the center SET key of the right touch pad …: Trim ctl sw on/off P R O T R I M AI Move QRdesired WK actN control AUS adj.
Profi trim Pitch, throttle, tail-rotor, and C1 curve trimming The mc-16 HoTT transmitter's software has an integrated function for additional trimming of 8-point curves; in Heli programs »Channel 1 curve« page 131, and »Helicopter mixer« page 176. These are intended for "Pitch" curves "Channel 1 Throttle" and "Channel 1 Tail. rot.". This feature, named »Profitrimm« because of its functional similarity to the Profi-Trim module for the mc-24 but only available on that transmitter as a retrofit option.
"Point" column The lines of the column "Mixer" were used to select one or mixers. Now, in the "Point" column, the reference points to be trimmed will be set. To do this, use the selection keys on the left or right touch pad to move to the desired value field.
Trim memory Storing the current trim position Use the selection keys on the left or right touch pad to scroll to the menu option »Trim memory« menu option in the multi-function menu: Timers (general) Wing mixers MIX active/phase Dual mixer Teacher / pupil Profi trim Fl. phase timers Free Mixer MIX-only channel Fail-safe adjust Tx.
Erasing stored trim positions Use the selection keys on the left or right touch pad to move to the line where a trim value is to be erased from trim memory, e.g.: T R I M Channel 1 Aileron Elevator Rudder Normal M E M O RY 0% +5% 0% –7% Trim Pos. 0% 0% +3% 0% SET Now briefly tap on the center SET key of the right touch pad to activate the value field. T R I M M E M O RY Channel 1 0% Aileron Please+5% press trim +3% Elevator –7% Rudder Normal Trim Pos.
Trim memory Storing the current trim position Use the selection keys on the left or right touch pad to scroll to the menu option »Trim memory« menu option in the multi-function menu: Fl. phase timers Free mixer MIX-only channel Swashplate mixer Teacher / pupil Profi trim Helicopter mixer MIX active/phase Dual mixer Fail-safe adjust Tx. output swap Trim memor y Briefly tap the center SET key of the right touch pad to open this menu option: T R I M Pitch/thr Roll Pitch ax. Tail rot.
T R I M Pitch/thr Roll Roll ax. Tail rot. Normal M E M O RY 0% +5% 0% -7% Trim Pos. 0% 0% +3% 0% SET Another brief tap on the center SET key of the right touch pad or the center ESC key of the left touch pad will finish the procedure. Now, if desired, change the flight phase and repeat the procedure. Perform the same procedure for the other control functions, as necessary. press trim" will appear briefly.
Telemetry Read-in and settings for telemetry data The receiver's settings, as well as optional telemetry sensor settings, can be called up and programmed in real-time by way of the »Telemetry« menu. Communication with the transmitter is accomplished over the return channel built into the HoTT receiver. As many as four sensors can be attached, if necessary via V or Y adapter cables, to receivers with current firmware of types: GR-12S HoTT (order no. 33505), GR-12 HoTT (order no. 33506), GR-16 (order no.
SETTINGS/DISPLAYS Telemetry The menus gathered under the heading »Telemetry« can be called up from the mc-16 HoTT transmitter's basic display with a tap of about one second duration on the center ESC key of the left touch pad.
L.R-VOLT Lowest operating voltage of the receiver since it was last turned on, in volts model. Normally, however, the acoustic range warning (peep tone interval 1 s) is triggered before this value is reached in order to guarantee safe operation. SENSOR1 Indicates values of optional telemetric sensor 1, in volts and °C SENSOR2 Indicates values of optional telemetric sensor 2, in volts and °C Signal strength (S-STR) The signal strength (S-STR) is displayed in %.
page.
In addition, there are the relatively elaborate methods of the of the individual adjustment using the options "MODE", "F.S.Pos." and "DELAY". The description of these variants begins with the "MODE" option further below. Value Explanation Possible settings OUTPUT CH Output channel (servo connection of the receiver) 1 … depending on receiver INPUT CH Input channel (channel coming from the transmitter) 1 … 16 % MODE Fail-Safe mode HOLD FAIL SAFE OFF F.S.POS.
the "F.S.POS." line. This is done by first activating the value field (inverse representation) with a tap on the SET key of the right touch pad then using the selection keys of the right touch pad to choose the servo position. The adjustment takes place in 10-µs increments. Factory setting: 1500 µs (servo center). Important notice: The function "F.S.POS.
TELEMETRY RX FAIL SAFE OUTPUT CH: 04 BIND. 1 TELEMETRI RCV INPUT CH: 04 SETTING & DATAVIEW MODE : FAI-SAFE SENSORF.S.POS. SELECT : 1500μsec DELAY : 0.75sec RF STATUS FAIL VIEW SAFE ALL: NO VOICE POSITION TRIGGER : 1670μsec This is also the case, for example, if this is mapped with INPUT CH 01: TELEMETRY RX FAIL SAFE OUTPUT CH: 04 BIND. 1 TELEMETRI RCV INPUT CH: 01 SETTING & DATAVIEW MODE : FAI-SAFE SENSORF.S.POS. SELECT : 1420μsec DELAY : 0.
OUTPUT CH 3: Right horizontal/vertical If the servo's direction of rotation is incorrect, please observe the notices on page 62. RX CURVE (EXPO) TELEMETRY RX CURVE CURVE1 CH : 02 TELEMETRI RCV TYPE : B SETTING & DATAVIEW CURVE2 CH : 03 TYPE : B SENSOR SELECT CURVE3 CH : 04 RF STATUS VIEW TYPE : B VOICE TRIGGER BIND.
for either "SERVO" or "SENSOR". This switchover is accomplished by moving the with the selection key of the left or right touch pad until the " " symbol is at the left margin of the bottom line then tapping on the center SET key of the right touch pad. TELEMETRY RX CURVE CURVE1 CH : 02 BIND. 1 TELEMETRI RCV TYPE : A SETTING & DATAVIEW CURVE2 CH : 03 TYPE : A SENSOR SELECT CURVE3 CH : 04 RF STATUS VIEW TYPE : B FUNCTION:SERVO VOICE 5CH TRIGGER RX SERVO TEST TELEMETRY RX SERVO TEST ALL–MAX BIND.
shown as "normal" again: TELEMETRY RX SERVO TEST ALL–MAX BIND. 1 TELEMETRI RCV : 2000μsec ALL–MIN : 1000μsec SETTING & DATAVIEW TEST : START VOLT : 3.8V SENSORALARM SELECT ALARM TEMP+: 70°C RF STATUS ALARMVIEW TEMP–:–10°C OUT TYPE:ONCE VOICE CH TRIGGER To stop the servo test, reactivate the entry field as described above, select STOP and confirm this selection with the SET key of the right touch pad. ALARM VOLT (receiver undervoltage warning) The receiver voltage is monitored through ALARM VOLT.
TELEMETRY RX SERVO TEST VOLT.E ALL–MAX BIND. 1 TELEMETRI RCV : 2000μsec ALL–MIN : 1000μsec SETTING & DATAVIEW TEST : START VOLT : 3.8V SENSORALARM SELECT ALARM TEMP+: 70°C RF STATUS ALARMVIEW TEMP–:–10°C OUT TYPE:SUMO 12 VOICE CH TRIGGER … after confirmation of "SUMO" with a brief tap on the center SET key of the right touch pad, the active field changes to the right for channel selection.
programming, such as fail-safe settings, disconnect the three-pole satellite connection between the two receivers and switch on only the relevant receiver. It may be necessary to also change the connection sequence. Setting/displaying sensors If, in addition to a "receiver", at least one sensor is selected in the »Telemetry« menu's »SENSOR SELECT« sub-menu (described below) then its settings can be read in and changed on the previously described receiver screens.
SENSOR SELECT Selecting sensors After selection of the desired menu line with the selection keys of the left or right touch pad … TELEMETRY VOLT.E BIND. 1 TELEMETRY RCV SETTING & DATAVIEW SENSOR SELECT RF STATUS VIEW VOICE TRIGGER … and a subsequent tap on the center SET key of the right touch pad, the selected sub-menu will open. SENSOR SELECT RECEIVER GENERAL MODULE ELECTRIC AIR.
RF STATUS VIEW After selection of the desired menu line with the selection keys of the left or right touch pad … TELEMETRY VOLT.E BIND. 1 TELEMETRY RCV SETTING & DATAVIEW SENSOR SELECT RF STATUS VIEW VOICE TRIGGER … and a subsequent tap on the center SET key of the right touch pad will open the selected sub-menu. This provides a visualization of the quality of the connection of transmitter and receiver: E100% S 95% SL 22 P 10 RL 41 4.8RS 4.8RM this.
VOICE TRIGGER After selection of the desired menu line with the selection keys of the left or right touch pad … TELEMETRY VOLT.E BIND. 1 TELEMETRY RCV SETTING & DATAVIEW SENSOR SELECT RF STATUS VIEW VOICE TRIGGER and a subsequent tap on the center SET key of the right touch pad will open the selected sub-menu.
SENSOR This line only appears if a sensor was first activated in the »SENSOR SELECT« sub-menu. For example, if the »VARIO« sensor is selected then the selections for the "VARIO" line will be opened … VOLT: MODELTIME: BATTERYTIME: TIMER(GE.)TOP: TIMER(GE.
Channel sequencer Programming the motion sequences of up to 3 servos Use the selection keys on the left or right touch pad to scroll to the »Channel sequence« menu option in the multi-function menu: Wing mixers MIX active/phase Dual mixer Teacher / pupil Profi trim Telemetr y Free mixers MIX-only channel Fail-safe adjust Tx. output swap Trim memor y Channel sequence Free mixers MIX-only channel Swashplate mixer Teacher / pupil Profi trim Telemetr y MIX active/phase Dual mixer Fail-safe adjust Tx.
by a "1" and the value "0.0s" will appear in the field above "TIME". Channel sequencer 10 11 12 0 STEP Channel sequencer TIME 0% POS ––– Use one of the selection keys of the right touch pad, as necessary, to shift the marker frame to the right from the column "TIME" to the value field above the column labeled "POS" then, after a tap on the center SET key of the right touch pad, alter this value within a range of ±100 % until the servo is in the desired initial position.
Multi-channel Channel multiplier for special functions • • • The settings made in the "POS" value field replace the otherwise "conventional" transmitter control signal. Therefore it is necessary, before programming such a sequence, to check in the »Servo display« menu to make sure none of the channels planned for the sequence are actuated by any other transmitter operating element. If this were to be the case, it could lead to unpredictable excursions in the motion sequence.
MIX active/phase Dual mixer Teacher / pupil Profi trim Telemetr y Multichannel MIX-only channel Swashplate mixer Teacher / pupil Profi trim Telemetr y Multichannel MIX-only channel Fail-safe adjust Tx. output swap Trim memor y Channel sequence Ring limiter Dual mixer Fail-safe adjust Tx. output swap Trim memor y Channel sequence Ring limiter … then open this menu option with a brief tap on the center SET key of the right touch pad.
After completing the activation of transmitter control assignment by tapping the center SET key of the right touch pad , the message shown below will appear in the display: Input Input Input Input 1 2 3 4 M U fr fr fr fr SEL LT I C H 2 0% +100% +100% ––– ––– 0% +100% +100% Move desired control 0% adj.
Before first time operation of the NAUTIC modules make the above described settings. 7 (output: 5 ... 8) Light module Order No. 2381 6 (output: 5 ... 8) RX Best.-Nr. 4142.N 8 (output: 5 ... 8) 1/4 K NAUTIC (Receiver power supply to the „B + -“ marked terminals) Multi-PropMini-Decoder S4 S3 S2 S1 Soundswitch Order No. 2382 5 (output 5 ... 8) Connection notes for the Nautic-Expert switching module, order no. 4159 As many as 16 switched functions can be controlled per switching module.
Ring Limiter Control of Voith Schneider propellers in model ships Scroll with the selection keys on the left or right touch pad to the menu option »Ring limiter« in the multifunction menu: MIX active/phase Dual mixer Teacher / pupil Profi trim Telemetr y Multichannel MIX-only channel Fail-safe adjust Tx. output swap Trim memor y Channel sequence Ring limiter MIX-only channel Swashplate mixer Teacher / pupil Profi trim Telemetr y Multichannel Dual mixer Fail-safe adjust Tx.
Column, "Output" The three ring limiters are pre-assigned to receiver outputs 3/4, 9/10 and 11/12 by default, whereby the outputs in column "X" are for the forward/reverse function and the outputs in column "Y" are for the left/ right function. However, this preset combination of receiver outputs can be replaced as necessary by any other combination at any time.
In practice, the setting is made by changing the given value until the respective servos in the model just reach the point where they no longer move. A tap on the or keys of the right touch pad at the same time (CLEAR) will reset the changed value in the active value field back to its "100 %" default value.
For your notes 253
MP3 player Replay program for MP3 files, such as music files Scroll with the selection keys on the left or right touch pad to the menu option »Ring limiter« in the multifunction menu: Dual mixer Teacher / pupil Profi trim Telemetr y Multichannel Mp3 player Fail-safe adjust Tx. output swap Trim memor y Channel sequence Ring limiter Basic settings Swashplate mixer Teacher / pupil Profi trim Telemetr y Multichannel Mp3 player Fail-safe adjust Tx.
A M P 3 - P L AY E R sing, sing.mp3 ESC 15 VOLUME A 6:54/12:21 128kbps ESC 02/04 ALBUM 01/02 TRACK 15 VOLUME Use the selection keys of the right touch pad to select the desired album number (from 1 to a maximum of 10) in this value field. Briefly tap the center SET key of the right touch pad to confirm the selection.
Basic settings Basic transmitter settings Use the selection keys on the left or right touch pad to scroll to the »Basic settings« menu option in the multi-function menu: Dual mixer Teacher / pupil Profi trim Telemetr y Multichannel Mp3 player Fail-safe adjust Tx. output swap Trim memor y Channel sequence Ring limiter Basic settings Swashplate mixer Teacher / pupil Profi trim Telemetr y Multichannel Mp3 player Fail-safe adjust Tx.
Pre-setting a value Use the selection keys on the left or right touch pad to move the marker frame to the desired value field in the column above the left SEL at the display's lower edge then briefly tap the center SET key of the right touch pad. The desired volume for the selected group can be specified in increments between 0 and 10 in the value field now displayed in inverse video by using the selection keys of the left or right touch pad.
Helicopter model stick mode GENERAL BASIC SETTINGS fr ––– H-J7Sandbrunner Voice volume fr ––– 7 Vario volume H-J Sandbrunner Owners name 1 Pre-set stick mode SEL “MODE 1” (Throttle at right stick) “MODE 2” (Throttle at left stick) left aileron left rudder left rudder left aileron idle left rudder left rudder left aileron elev. up 258 Detail program description - Basic settings roll tail rotor tail rotor right rudder idle elev. down right aileron right rudder right aileron elev.
In a manner similar to "Pre-set stick mode, in this »General basic settings« menu the selection made for the "Pre-set DSC Output" line will determine which of the four possible modulation types will be adopted as the default variant for a newly initialized model memory.
#01 Graubele 0:00h Stop watch Flight tim 0:00.0 0:00.0 H-J Sandbrunner 0:00h K78 4.1V 0 V 0 M 0 RX VOLT:4.9V 0 Simultaneously tapping the or selection keys of the right touch pad (CLEAR) will reset the inverse video field back to "0". Display light This line determines how long the transmitter display's backlight illumination is to remain on after switching the transmitter on or after the last activation of a transmitter operating element.
A simultaneous tap on the or selection keys of the right touch pad (CLEAR) will reset the field shown in inverse video back to "2". Region !"#$%&’()+,–./0123456789:; ? @ACDEFGHIJKLMNOPQRSTUVWXYZ[¥]^_ `abcdefghijklmnopqrstuvwxyz{|}~ GENERAL BASIC SETTINGS Battery warning 3.60V Stick warning unlim 2 Touch sense Region EURO SEL ¢ÇüéâäàåçêëèïîìÄÅÉæÆôöòûùÖÜ Own phase name The region is needed for compliance with various regulations (FCC, ETSI, IC etc.).
Servo display Display of the servo position Use the selection keys on the left or right touch pad to scroll to the menu option »Servo display« menu option in the multi-function menu: Teacher / pupil Profi trim Telemetr y Multichannel Mp3 player Ser vo display Tx. output swap Trim memor y Channel sequence Ring limiter Basic settings Ser vo test Briefly tap the center SET key of the right touch pad to open this menu option.
Servo test Function test of Servo 1 … 16 Use the selection keys on the left or right touch pad to scroll to the menu option »Servo test« menu option in the multi-function menu: Teacher / pupil Profi trim Telemetr y Multichannel Mp3 player Ser vo display Tx.
Entry lockout Locking the multifunction menu Use the selection keys of the left or right touch pad to scroll to menu option … Profi trim Telemetr y Multichannel Mp3 player Ser vo display Code lock Trim memor y Channel sequence Ring limiter Basic settings Ser vo test Info display 1 … in the multi-function menu.
C O D E L O C K Memorise access none Bitte Geheimzaccess code: 1 23 3 (_ ) Tip: If you generally want to dispense with a programming lock, that option should be removed from the multifunction menu by way of »Suppress menus«. This will prevent unauthorized persons from entering a secret code "on the sly". SET 4 Now exit the menu with a brief tap on the ESC key of the left touch pad.
Info display Transmitter ID, date, time and memory card Use the selection keys of the left or right touch pad to scroll to menu option … Profi trim Telemetr y Multichannel Mp3 player Ser vo display Code lock Trim memor y Channel sequence Ring limiter Basic settings Ser vo test Info display … in the multi-function list. A brief tap on the center SET key of the right touch pad will open this menu: RFID Firmware Version date time SD-CARD available ABCDEF12 1.
Time RFID Firmware Version date time SD-CARD SD card ABCDEF12 1.234 2011/11/11(Fr ) 11:22:33s 1943MB If necessary, select this line with the selection keys of the left or right touch pad and, as applicable, the minute field. After activation of the respective value field by a tap on the center SET key of the right touch pad, the hour or minute can be adjusted with the selection keys of the right touch pad. Another tap on the center SET key of the right touch pad will close the given entry.
mc-16 HoTT programming Preparatory measures based on the example of a winged model Programming models in an mc-16 HoTT … … is easier than it may appear at first! The primary prerequisite for "clean" programming, and this applies not only to the mc-16 HoTT but is also a principle for all programmable transmitters, is a mechanically correct installation of all remote control components in the model! Therefore, it should be ensured no later than on connection of the linkages that the servos are in their respec
»Model type« (beginning on page 94) M O D E L L T Y PE Motor on C1 None Normal Tail type Aileron/camber flaps 1 AIL Brake Offset +100% Input 1 SEL … you should determine whether you would like the minimum throttle position in the "front" or "rear", because "none (motor)" is entered by the program in the creation of a model memory as a basic principle.
Initial steps for the programming of a new model Example: Winged model with two ailerons and – initially – without motor propulsion In the context of initial commissioning a new transmitter, in the selection menu … »General basic settings« (page 256) GENERAL BASIC SETTINGS Voice volume fr ––– 7 Vario volume fr ––– 7 Touch-beeps vol.
Select model type ( free model memor y ) Since the objective is to work with a winged model in this section, the symbol for a winged model is to be confirmed with a tap on the center SET key of the right touch pad. The display switches back to the base screen. Notes: • Of course, you can also use the predefined default "winged model" supplied with the receiver as model memory 01 for the programming of your first model.
M O D E L L T Y PE Motor on C1 None Normal Tail type Aileron/camber flaps 1 AIL Brake Offset +100% Input 1 SEL Tail type: "normal", "V-tail", "Delt/fl.wing" or "2 Sv EL 3+8" Aileron/camber flaps: 1, 2 or 4 AI servos and 0, 1, 2 or 4 FL servos Since we want to actuate the brake system of the "Brake settings" sub-menu under the »Wing mixers« menu with the C1 joystick, we will leave the outer right setting in the "Brake Offset" line with "Input 1".
The values entered in this position act as a quasi "limiter", whereby the setting is actually for which point of travel the respective servo may not exceed, so that it does not start up mechanically and thus unnecessarily draw current. In this case it is the end of available mechanical play on the servo, rudder and/or steering which is decisive for the value to be set.
0% 100 Elevator U T Brake WK2 AILE WK After this statement about mutual dependencies, back to the topic: If the ailerons are to be elevated for braking, an appropriate value is entered into the "Crow" line after activating the "AILE" column's value field. In addition, a value should always be entered in the line below it, "Diff.Reduct" (differentiation reduction), which corresponds to the value you entered or would like to enter on the first page of the »Wing mixers« menu in the line "Aile.diff.
This is similar for the option … »Fail Safe« (page 128) 0% 0% 0% – FA I L S A F E Pos hold 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 DELAY : 0.25s STO O Input Curve Output ? off Point U T P U T Channel 1 C U R V E 100 »Channel 1 curve« (page 208) + With this option, one or multiple points of the control curve of the throttle/brake joystick can be influenced in such a way that a pleasant or even purposeful behavior is guaranteed. An example of this would be the "dead" travel of spoilers.
Integration of an electric drive into the model programming An electric drive can be controlled in different ways: The simplest method to integrate one such drive into the model programming is with the use of a throttle/ brake joystick (C1). However, since this is already specified for the brake system in the course of the model programming described above, either the switchable solution described beginning on page 279 or even the use of an alternative control is possible.
GL I5 GL I6 I7 GL GL I8 Normal Typ fr fr fr Cn2 --------- SEL 0% 0% 0% 0% +100% +100% +100% +100% +100% +100% +100% +100% offset – travel + 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.
The setting of the appropriate control travel for the motor control (speed control) is made in the "- Travel +" column. If the motor should up gently with the use of a motor control (speed control), an appropriate delay time can be set – as described in Example 1 – in the "- time +" column: GL I5 GL I6 I7 GL GL I8 Normal Typ fr --fr --fr ----- 2 0% 0% 0% 0% +100% +100% +100% +100% +100% +100% +100% +100% offset – travel + 0.0 0.0 0.0 0.0 0.0 0.0 0.0 1.
Control E-motor and crow alternately with C1 joystick Example 4 Before we discuss the programming of this fourth example or turn the to the expansion of the previously described basic programming, a few words should be said about the position of the throttle/brake joystick with "Motor OFF" or "Brake OFF". Normally the C1 control joystick is moved forward for the throttle control and backward for the extension of the brake.
Phase Phase Phase Phase Phase 1 Normal 2 Landing 3 4 5 Name Clk1 yes yes yes yes yes Timer Motor 0.1s 0.1s 0.1s 0.1s 0.1s Sw.time – – – – Then the timer is controlled through a corresponding control switch to be defined on the C1 joystick. As soon as you switch to the "Landing" flight phase, this flight phase timer is automatically stopped and hidden in the base screen. More about this can be found on page 156. Now move the marker frame over the "Ph.Tim" column to the "Motor" column to the right.
ailerons can be automatically suppressed. The suitable correction values for the respective value must be tested out through flight. Set this mixer so that the flight speed of the model does not change too much with the brake system extended in comparison with the "normal" flight speed. Otherwise, there is the risk, among other things, that the model plunges when the brake system is retracted, e.g. for the extension of a landing approach which is too short.
C1 joystick switchable between E-motor and spoiler Example 5 If, contrary to the assumptions of the preceding Example 4, the model has additional spoilers or only spoilers, they can be incorporated into the control of the model by means of the following programming. Do this by programming the menus »Model type«, »Phase settings« and »Phase assignment« in the same manner as described under Example 4.
For your notes 283
Timer confirmation with control or switch Examples 4 and 5 of the preceding pages If model programming is to be continued for Example 4, page 279 or Example 5, page 282 as described on previous pages or, completely independent of this example programming, the C1 joystick (throttle/brake joystick) is to be used for power regulation, then a control switch can be used to automatically start and stop the stopwatch.
set the switch-point at the selected position with a brief tap on the center SET key of the right touch pad. The switch status is shown to the right of the control number: C1 C2 C3 C4 C O N T RO L S W I T C Slide2 –85% free 0% 0% free free 0% SEL SEL STO H ––– ––– ––– ––– C1 C2 C3 C4 Note: Now place the switching point; but do not put it at the limit position of the control, because safe switching is not assured when doing so.
Parallel operating servos A second servo running in parallel is often required, such as when brake flaps or spoilers installed in the wings or the left and right elevator or a double fin should be actuated by a servo or a large rudder flap should be simultaneously controlled by two servos due to high throw forces. In principle, this task could also be solved by connecting the servos together on the model side using V-cable.
M O D E L T Y P E Motor on C1 none 2 EL Sv 3+8 Tail type Aileron/camber flaps 1 QR Brake Offset +100% Input 1 SEL Then do the fine-tuning for travel of the two servos "in the now familiar manner" in the »Servo adjustment« menu. Two rudders We want to switch two rudders "in parallel". The second rudder is located at the free receiver output 8.
Using flight phases Up to 8 different flight phases (flight conditions) can be programmed with settings independent of one another within each the model memory. Each of these flight phases can be called with a switch or a switch combination. This makes it possible to program different settings for various flight states, such as «Normal», «Thermal», «Speed», «Distance», etc., then make in-flight changeovers in a most convenient manner.
positions. Thus, an increased stress of the model under certain circumstances with a "hard" change of rudder or flap positions, for example, is prevented The "Status" column shows you the currently active flight phase with an asterisk "". nd 2 Step In order to actually be able to switch between the individual flight phases, the assignment of one or multiple switches is necessary. Either one of the two three-way switches is ideally suited for switching between up to three flight phases.
Here, select the "Copy flight phase" menu item with the selection keys then briefly tap the center SET key of the right touch pad. In the window which now appears, "Copy from phase", "1 Normal" is selected … Copy 1 normal 3 Speed 5 7 from phase: 2 Thermal 4 Launch => 6 => 8 … and a subsequent brief tap on the center SET key of the right touch pad will change the display to "Copy to phase".
W I N G M I X E R S Brake settings Aileron differential +33% Aileron 2 4 rudder +55% Elevator 3 5 aileron 0% Normal ––– 0% ––– … and enter the raised height of aileron brakes for individual flight phases in the "Crow" line. With "D.red" (differentiation reduction), you should enter the value previously set in the aileron differentiation line in order to suppress it again while breaking. In the "Elevat curve" sub-menu, enter a correction value for the elevator, see page 150.
Example 2 … FL EL RU FL AI The following example is based on the assumption that you have already mechanically pre-adjusted the model and you have already ensured the correct deflection of all rudders or checked this again in the scope of this programming and made adjustments, if applicable, through servo switching at the receiver and/or through the »Servo adjustment« menu.
GL I6 GL I7 I8 GL GL I9 Normal Typ fr fr fr --- ------10 0% 0% 0% 0% +100% +100% +100% +100% +100% +100% +100% +100% offset – travel + 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 –time+ With a simultaneous tap on the keys of the left touch pad, the setting can be checked in the »Servo display«. Since the C1 control should actuate Servo 8 simultaneously with Servo 1, establish this link by way of the »Control adjust« menu. For this reason, also switch to the line before and assign "Control 1" to Input 8.
The mixing direction is to be selected so that all flaps are deflected downward with the elevator pulled up and deflected upward with the elevator pushed down (= hydroplane). The mix proportion is normally in the low double-digit range. Now, within the »Wing mixers« menu, switch to the "Brake settings" … B R A K E S E T T I N G S Crow +66% +22% Diff. reduct. +33% +33% Elevat.
»Phase assignment« (page 148) … and assign the previously defined flight phases to appropriate switches with which a selection from among three phases is possible. Since there is no particular priority here, assign for example switch "C" in the display to one of the two end settings of one of the two 3-way switches.
Now we will program the required settings in the flight phase "Thermal" as an example. In order to vary camber flap positions in the «Thermal» phase, it is merely necessary to switch over to the menu … »Control adjust« (page 108) … then change Input 6 – as described beginning on page 108 – from "GL(obal)" to "PH(ase)" and finally assign it to an operating element. To do this, first use the selection keys to switch into the "Typ" column for "I6" and change this setting from "GL" to "PH".
A simultaneous tap on the or key combination of the right touch pad (CLEAR) will reset changed values back to their standard default values. Note: Due to the improved lift distribution, the degree of mix ratios should be set so that the camber flaps are slightly "lower" than the ailerons. With a simultaneous tap on the keys of the left touch pad, the reaction of the AI and FL servos can be checked in the »Servo display« by actuation of the selected camber flap control.
Eight-flap wing The standard features of the mc-16 HoTT support convenient control of up to 8 servos for aileron/ camber flap functions. In the following we will consider a model without motor drive and without spoilers in the wings.
+88% +77% +55% AI +100% +88% +77% +100% Ail-tr. +55% 0% 0% 0% Diff. 0% –12% FL.pos –5% –7% –9% FL 0 0%+100+100%+100+100%+100+100% 0 0%+100+100%+100+100%+100+100% FL EL FLAP Thermal AILE AILE2 FL2 Note: Whether positive or negative values must be set in the "FL.pos" line depends on the installation of the servos, among other things.
Brake settings Note: The "Brake settings" menu is switched "off" if: "Motor on C1 forward / back" in the »Model type« menu, page 94, AND the "Motor" column of the »Phase settings« menu, page 142, are set to "yes" for the currently active flight phase. Change the flight phase, if applicable.
right Delta and flying wing models differ significantly from a "normal" flight model due to their unique characteristic shape and geometry. The differences in the servo arrangement, on the other hand, are more subtle. For example, with "classic" delta/flying wing models, only two rudders are normally provided. They are responsible for both "transverse" and "height/ depth", like the side rudder/elevator function on a V-tail unit.
»Wing mixers« (beginning page 160) … are, if need be, advantageous with the "Aileron Rudder" mixers and are "played' with a great deal of "feel" for flying behavior with minor differentiation values. W I N G M I X E R S Brake settings Aileron differential 0% Aileron 2 4 rudder 0% Elevator 3 5 aileron 0% Normal ––– 0% ––– Due to the specific idiosyncrasies of this model type, additional settings lead to moments which cannot be compensated.
WK2 WK2 You can ignore all other settings in this menu. Note: The "Brake settings" menu is switched "off" if: "Motor on C1 forward / back" in the »Model type« menu (page 94) AND the "Motor" column of the »Phase settings« menu, (page 142) are set to "yes" for the currently active flight phase. Change the flight phase, if applicable. Similarly, a modern, tapered flying wing air craft can also be operated.
10 11 12 13 14 T 7 8 9 F3A models are a part of the group of motor-driven winged models. They are powered by a combustion or electric motor. Models with electric motors can be used in both the electric acrobatic class F5A and are also competitive in the international model acrobatic class F3A.
0.0s 0.0s 0.0s 0.0s 0.0s 0.0s 0.0s 0.0s – time + It may also be necessary to assign appropriate operating elements and inputs for other model features, e.g. retractable landing gear, fuel-mix, etc. Make these assignments with the … »Control adjust« (page 108) … menu where a specific input can be assigned to an operating element, for example, the landing gear can be assigned to an ON/OFF switch on Input 6 and the fuel-mix can be assigned to one of the proportional sliders in the middle console, e.g.
-50 % of control travel then briefly tap on the center SET key of the right touch pad. • In order to attain the curve shape shown, raise this point with the selection keys to approx. 0 % in the inverse video value field in the "Point" line. • Finally, round the characteristic curve by moving the marker frame left, select with a brief tap on the center SET key of the right touch pad then change the value from "Off" to "On" with the selection keys.
Vertical ascent and descent Some models have a tendency to deviate from the ideal line in vertical ascents and descents. In order to compensate for this, it is necessary to have a center position of the elevator dependent on the throttle joystick position. If, for example, the model begins to hold off on its own in the vertical descent with a throttled motor, some elevator must be mixed in at this throttle position. For this purpose, program a free mixer "C1 Elev".
Helicopter models With this programming example, you must have already covered the description of the individual menus and you must be familiar with the use of the transmitter. In addition, the helicopter's mechanical construction should correspond exactly to the corresponding manual. The electronic capabilities of the transmitter should by no means be used to straighten out rough mechanical imprecision.
the symbol with a brief tap on the center SET key of the right touch pad: !"#$%&’()+,–./0123456789:; ? @ACDEFGHIJKLMNOPQRSTUVWXYZ[¥]^_ `abcdefghijklmnopqrstuvwxyz{|}~ ¢ÇüéâäàåçêëèïîìÄÅÉæÆôöòûùÖÜ Owners name H-J Sandb The pre-set for "Stick mode" can be selected according to the criteria described on page 258. The same applies to the pre-sets for "Modulation" and "DSC Output". The pre-set for "Pitch min" is a matter of personal control habits.
»Basic settings, model« (page 84 … 92) ... To this end, switch to the line "Module". BASIC SETTINGS, MODEL Starlet Model name Info 2345g/090911 Stick mode 1 n/a n/a n/a n/a Module HoTT SEL BD1 BD2 BD3 BD4 Note: After confirmation of the model selection in the base screen, if you confirm the message appearing in the screen for a few seconds … BIND. N/A OK … with a tap on the SET key of the right touch pad, this line will be accessed automatically.
H E LT Y P E Swashplate type Linearis. swashpl. Rotor direction Pitch min. 1 Ser vo no right rear SEL 13 14 T 7 8 9 10 11 12 15 16 S Both "Expo throttle lim." as well as "Thr. limit warning", in bottom line of this display, are currently of no interest. By now, the servos should be plugged into the receiver in the intended sequence: SUMO / SUMI-connection free or aux. function free or aux. function Receiver power supply free or aux. function free or aux. function free or aux.
offset – travel + 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 –time+ … where input "Tl16" is assigned and all other inputs are "fr(ee)" by default. This "Tl16" input serves as the throttle limiter. Its effect is exclusively on output "6", where the throttle servo is connected. The throttle limiter is assigned by default to the right-side proportional rotary control. Once again, as a reminder: • With the user of the "throttle limiter" function, you do not have to program a flight phase "throttle preselection".
U T P U T – – + 1 + 1 – + 100 U T P U T – + Channel 1 Throttle P 0% +15% +15% U T Input Curve Output off Point L Normal O U T –100% –75% –75% 1 Now carry out the same setting as before in the normal phase. Only at point "H“ – at maximum pitch – is it possible to increase pitch angle by about 2°. In doing so, you will have somewhat more of an angle to catch the model later on (1).
If you switch from this graphic to the autorotation phase for testing purposes, the following appears instead of the accustomed representation: Throttle off Adjustment notice for electric helicopters: Since the motor must also be shut off for electrically powered helicopters in case of an emergency, this setting is adopted without change. The line "Thr. setting AR" is important. Enter the value to the right, depending on servo direction, to either approximately +125 % or -125 %.
In the process, however, always observe the adjustment instructions accompanying your gyro sensor, because your helicopter will not be able to fly otherwise! To conclude this initial programming, a few words should be mentioned about the menu … (page 131) 0% 0% 0% O Input Curve Output ? off Point U T P U T Channel 1 C U R V E 100 »Channel 1 curve« – If you want to fly at different speeds and with different trimming, you activate the so-called "flight phases", which can be called with assigned s
P H A S E A S S I G N M E N T prior. B A C 6 combi D E 7 P H A S E A S S I G N M E N T prior. B A 2 F C 6 combi D E 7 P H A S E A S S I G N M E N T Prior. B A 2 F Now use the selection keys to select the desired flight phase for this – for example "2 Hover" … P H A S E A S S I G N M E N T prior. B A 2 C 6 combi D E 7 F 2 Hover prior. B A C 6 Kombination Autorot D E F 7 1 Normal As a reminder: The autorotation phase has absolute precedence.
program, the trim positions of roll, nick and tail rotor joystick can also be selected for storage on a flightphase dependent basis, see »Stick mode« menu, page 106: Starlet #02 Stop watch 0:00h Flight tim the change. Bear in mind that it is not the quantity of functions used that distinguishes good pilots, but what they can do in terms of flying with relatively little. 0:00.0 0:00.0 H-J Sandbrunner 0:00h 4.1V 0 K78 Normal RX VOLT:4.
FCC Information Graupner mc-16 HoTT #33016 FCC ID: ZKZ-MC-16 FCC Statement 1. This device complies with Part 15C of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference. (2) This device must accept any interference received, including interference that may cause un desired operation. 2. Changes or modifi cations not expressly approved by the party responsible for compliance could void the user‘s authority to operate the equipment.
mc-16 HoTT - No. 33016 GR-16 Dual HoTT - No. 33516 2 Geräteklasse: V1.7.1 Graupner GmbH & Co. KG Henriettenstraße 94-96 D-73230 Kirchheim/Teck Germany Tel: 07021/722-0 Fax: 07021/722-188 EMail: info@graupner.
Warranty Certificate Servicestellen / Service / Service après-vente Graupner Zentralservice Graupner GmbH & Co. KG Henriettenstrasse 94 - 96 D-73230 Kirchheim Service hotline (+49) 0 18 05 47 28 76* Monday … Friday 9:30 - 11:30 & 13:00 - 15:00 Belgie/Belgique/Nederland Jan van Mouwerik Slot de Houvelaan 30 NL 3155 Maasland VT (+31) 10 59 13 59 4 Luxembourg Kit Flammang 129, route d’Arlon L 8009 Strassen (+35) 23 12 23 2 Ceská Republika Slovenská Republika RC Service Z.
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H O P P I N G . T E L E M E T R Y . T R A N S M I S S I O N GRAUPNER GMBH & CO. KG POSTFACH 1242 D-73220 KIRCHHEIM/TECK GERMANY http://www.graupner.de Changes and delivery options reserved. Available only through dealerships. A directory of suppliers will be provided. No liability is accepted for print errors. Printed in Germany PN.