33124.mc-32 HoTT.1.
Table of contents General notices Table of contents ........................................................... 2 Environmental protection notices .................................. 3 Safety notices ................................................................ 4 Safety notices and handling regulations for nickel-metal-hydride rechargeable batteries ............. 8 Foreword...................................................................... 10 Remote control set description .............................
"Phase settings" Winged model ..................................................... 128 Helicopter model ................................................. 132 "Phase assignment" ................................................ 134 "Phase trim" (winged model) .................................... 136 "Non-delayed channels" .......................................... 137 "Timers (general)" .................................................... 138 "Flight phase timers" ............................................
Safety notices Be sure to pay attention! In order to enjoy your modeling hobby for a long time, please read these instructions thoroughly and give particular attention to the safety notices. You should also register yourself at https://www.graupner.de/de/ service/produktregistrierung.aspx right away in order to automatically receive current information per email about your product.
Routing the receiver's antenna The receiver and its antennas must be positioned as far away as possible from drives of any kind. If the model's hull is made of carbon fiber material, the ends of the antennas must extend outside of the hull. The orientation of antennas is not critical. Nevertheless, a vertical (upright) installation of receiver antennas is advantageous. In the case of diversity antennas (two antennas), the second antenna should be oriented at a 90° angle to the first antenna.
Safety notices are always to be followed, this includes mandatory adherence to the length of charging time. Never leave batteries being charged unattended. Never attempt to charge primary batteries (nonrechargeable batteries) because they can explode. All secondary batteries (rechargeable batteries) must be charged before every session.
transmitter and receiver. • Prior to every flight, perform a complete functional test, range test and execute a complete simulated flight in order to exclude the possibility of system faults or problems with the model's programming. • Never program the transmitter or receiver while the model is being operated. Care and maintenance Never clean the housing, antenna, etc. with cleaning agents, gasoline, water or similar means. Use only a dry, soft cloth.
Safety notices and handling instructions for nickel-metal-hydride rechargeable batteries As applicable for all highly technical products, observance of the following safety notices, along with the handling instructions, is essential for a long service life, fault-free operation, and harmless utilization. Safety notices • Individual battery cells and batteries are not toys and must therefore not get into the hands of children. Batteries/cells must be kept out of the reach of children.
supervision. If a suitable quick charger is not available on which the exact charging current can be set, the battery can be charged by standard charging according to the 1/10 C-method, see example above. Whenever possible, transmitter batteries should charged with the 1/10 C method because of the differing charge states of the cells. However, charging current may never be allowed to exceed the maximum permissible rate specified in the given transmitter's instructions.
mc-32 the newest generation of remote control technology HoTT (Hopping Telemetry Transmission) is a synthesis of know-how, engineering and testing done around the world by experienced model pilots. HoTT technology combines 2.4 GHz band transmission/reception with bi-directional communications via a "return channel" integrated into the receiver unit.
Computer System mc-32 12 channel remote control set in 2.4 GHz Graupner HoTT technology (Hopping Telemetry Transmission) The superior functional security of Graupner HoTT technology accomplished with bidirectional communications between transmitter and receiver with integrated telemetry, freely programmable voice output via headset connector, and ultra-fast response times. Programming is simplified by a programming technique implemented with capacitive touch buttons.
Computer System mc-32 12 channel remote control set with 2.
mc-32 HoTT technical data The Order No. 33124 set includes Microcomputer transmitter mc-32 HoTT with builtin NiMH transmitter battery 4NH-2000 RX RTU flat (change reserved), plug-in charger and Graupner bidirectional receiver GR-24 HoTT. Recommended charger units (accessories) Order No.
Operating notices Transmitter power supply The mc-32 HoTT transmitter has a highly capacitive, rechargeable NiMH battery, 4NH-2000 RX RTU (Order no. 2498.4FBEC), as standard equipment. (changes reserved) However, the standard built-in battery is not charged upon delivery of the transmitter. When the transmitter is used, its battery voltage should be monitored by way of the indicators provided in the LCD display.
Battery operation timer at the bottom left of the screen This timer shows the transmitter's cumulative operating time since the transmitter's battery was last charged. This timer is automatically reset to "0:00" when the transmitter is switched on and its battery voltage is significantly higher than when the transmitter was last used, e. g. because the battery was charged. GRAUBELE #01 5.9V 0:00h 0:00 Stop Flt 0:00 «normal » K78 HoTT 0.
Operating notices Receiver power supply A selection of 4 and 5 cell NiMH battery packs having different capacities are available to power the receiver. If digital servos are in use, we recommend a 5 cell battery pack (6 V) to afford adequate battery capacity. If analog and digital servos are used in mixed operation, be sure to pay attention to the given maximum permissible operating voltage. A stabilized, adjustable power supply for the receiver with 1 or 2 receiver batteries can be provided, e. g.
Joystick length adjustment The length of both joysticks can be continuously adjusted to adapt these transmitter controls to the pilot's preference. Hold the lower half of the knurled grip in place then turn the upper section to release its counter-locked threads. Now pull up or push down on the joystick's end to the desired length. When the length is suitable, tighten the counter-locked threads of the upper and lower sections again.
Operating notices Converting joysticks Neutralization Both the left and the right joystick can be configured for neutralized or non-neutralized operation as desired. Open the transmitter housing as previously described. To change the joystick's factory setting, locate the screw shown in the figure below enclosed in a white circle. Notice: The aggregate for the right joystick is a mirror image of the left joystick so the corresponding screw for the right joystick is on the right side just below the middle.
Brake spring and ratchet The outboard screw of the two marked in the next figure adjusts the braking force and the inboard screw adjusts the strength of the ratchet for the respective joystick. Joystick restoring force The joystick's restoring force can also be adjusted to the pilot's preference. The adjustment is located next to the return springs, see markings in the figure below. Spring force for the given direction of motion can be adjusted by turning the respective screw with a Phillips screwdriver.
Transmitter description Transmitter operating elements Attaching the transmitter's neck strap There is an eyelet on the top side of the mc-32 HoTT transmitter (see figure at the right) to which a neck strap can be attached. This anchor point has been chosen because the transmitter is optimally balanced here when it hangs from the strap. Order No. 1121 Neck strap, 20 mm wide Order No.
Transmitter rear side Headset connector The jack centered in the lower portion of the type plate on the back of the transmitter is for connecting conventional earplugs or a headset by way of a 3.5 mm audio plug. (not included in the set) The transmitter's acoustic signals as well as those signals associated with the telemetry menu are output via this connection. These announcements are made in German language by default.
DSC Data storage Direct Servo Control Card slot The acronym "DSC" is a carryover which stands for the original "Direct Servo Control" function. However, in HoTT systems the "direct servo control" function is no longer available via a diagnose cable due to technical reasons. The standard two-pole DSC jack in the mc-32 HoTT transmitter is used as the teacher or pupil jack as well as an interface to flight simulators. To ensure a proper DSC connection, please observe: Make any necessary menu changes.
GRAUBELE #01 5.2V 3:33h 0:00 Stop Flt 0:00 «nor mal » K78 HoTT 5.5V M Notice: If a micro SD card is inserted, be sure to remove it BEFORE taking off the transmitter's backplate. Otherwise there is a risk of damaging the memory card. Data acquisition / storage The storage of data on the SD card is coupled to the flight timer.
Display and keypad optical indication of trim lever positions or, during activation of speed controls CTRL 7 + 8, an alternative display of the current positions of these controls Model type indicator (winged aircraft / helicopter) Model name Memory location 1 … 24 possible warnings, see page 36 Stopwatch in min:s (upward/downward) left touch pad ef cd paging ef simultaneously pressed: Change to the servo display menu right touch pad: ef cd Paging / changing values SET select / confirm ESC = cancel/retu
Operating the "data terminal" Entry keys ESC and SET Display symbols Displayed telemetry symbols the active model memory has not yet "bonded" with a HoTT receiver. More about the "Binding" process, see page 69 or 75.
Shortcuts The following key combinations can be used to directly call up certain menus and options: • CLEAR Brief simultaneous activation of the cd keys or ef on the right touch pad will restore the active entry field's changed parameter value back to its default value. • "Servo screen" Brief simultaneous activation of the ef keys of the left touch pad will cause a jump from the transmitter's base screen or from almost any menu position to the "Servo" menu, see page 230.
Concealed menu columns Some menus have concealed columns to improve legibility. Menus with concealed columns can be recognized by virtue of a triangle pointing to the right in the bottom left corner of the screen. For example, in the menu "Servo settings": S1 S2 S3 S4 S5 0% 0% 0% 0% 0% Rev cent 100% 100% 100% 100% 100% 100% 100% 100% 100% 100% tr v + S1 S2 S3 S4 S5 0% 0% 0% 0% 0% Rev cent 100% 100% 100% 100% 100% 100% 100% 100% 100% 100% tr v + This procedure is analogous for the other menus.
HIDDEN MODE Language selection and display contrast The mc-32 HoTT transmitter's "HIDDEN MODE" can be reached from almost any menu position by pressing and holding the cd arrow keys of the left touch pad and the SET key of the right touch pad for about one second until the screen shown below is displayed. ¿ HIDDEN MODE ¿ 0 CONTRAST DEUTSCH LANGUAGE VOICE DEUTSCH STICK CALI.
packet downloaded from the transmitter's web page (e.g. "voice_gb.vdf") into the folder created by the transmitter. Now take the memory card out of the card reader and re-insert it into the transmitter. Once the memory card is inserted in the transmitter, switch the transmitter on with RF switched off. Please select RF on/off? ON OFF Language change Use the left or right arrow touch key to select the line "VOICE". ¿ HIDDEN MODE ¿ 0 CONTRAST ENGLISH LANGUAGE VOICE DEUTSCH STICK CALI.
+ 0% 0% 0% 0% 0% 0% Otherwise the graph bars show current setting percentages for joystick control functions which are not self-neutralizing – typically for the "K1", throttle/brake or throttle/pitch, control stick. For example, if the throttle/ brake control stick is in its "quarter-throttle" position, the display would appear as shown below.
c d STICK CALIBRATION 0 CONTRAST ENGLISH LANGUAGE VOICE DEUTSCH STICK CALI. 0% Repeat the calibration process for the right limit of the right joystick. The other joystick planes are calibrated analogously. Notice: • Correct any bad calibrations by repeating the respective process. • Within a given joystick plane, each of the three calibration positions can be selected directly with the cd arrow keys of the left or right touch pad.
Telemetry data display As described on page 220 in the context of sub-menu "SENSOR SELECT" for the "Telemetry" menu … RECEIVER RX–S QUA: 100% RX–S STR: 100% RX–dBm: 33dBm TX–dBm: 33dBm L–PACK: 10ms Model select Copy / Erase Suppress models Base setup model Model type Suppress: TOG … the output of sensors attached to the receiver can be processed and activated for graphic presentation on the screen. This data is then appropriately displayed by the graphic indicators described below.
SENSOR 2 (GENERAL + ELECTRIC modules) Vario GPS 0 mm 0.0 s SENSOR 2 0.0V 0°C If attached, this display depicts currently measured voltage and temperature from a "T(EMP)2" temperature/ voltage sensor, Order No. 33612 or 33613 for GeneralEngine (Order No. 33610), General-Air (Order No. 33611) or Electric-Air module (Order No. 33620).
VARIO ELECTRIC AIR MODULE m/1s 0.0 H ALT m/3s 0.0 m/10s 0.0 RXSQ 0 0 L MAX 0m MIN 0m If attached to the receiver, this screen will display the data acquired by a Vario module, Order No. 33601. The displayed items are as follows: Value Explanation ALT current altitude RXSQ Signal strength of the signal received by the receiver in %, see page 209.
appendix or in Internet at www.graupner.de in the web page for the given product. Depending on how this module is equipped with sensors, this screen can permanently display the data shown in the table below. The current voltage of up to two batteries (BAT1 and BAT2), the measurement results of up to two temperature sensors (T1 and T2) and a fill level gage for the fuel tank.
Warning notices Warning notices BIND N/A OK Please select RF on/off? ON OFF Please select RF transmission "ON" or "OFF". battery needs charging Operating voltage is too low Fail Safe setup t.b.d. Failsafe has not yet been activated MISSING IMPORT DATA OK Throttle too high ! RF MUST BE OFF OK 36 "Bind not available" A receiver has not yet been bound to the currently active model memory. Briefly touching the SET key will cause a direct jump to the appropriate option.
Function fields in the display Position indicator SEL, STO, SYM, ASY, , Depending on the given menu, certain function fields will appear on the bottom display line. Proportional controls, CTRL 7 and 8 As soon as one of the proportional controls (CTRL 7 & 8) in the middle console is turned, a small symbol will appear to the left of the two vertical position indicators. CLR SEL STO SYM ASY A marked function is activated by tapping on the SET key.
Putting the transmitter into operation Preliminary remarks about the mc-32 HoTT transmitter Preliminary remarks Graupner's HoTT system theoretically permits simultaneous operation of more than 200 models. However, because of the interspersed radio-frequency utilization permitted by certification for the 2.4 GHz ISM band, this number is significantly lower in practical application. Nevertheless, in general more models can be operated simultaneously in the 2.
Transmitter firmware updates capable of operating up to 12 servos. In order to achieve the greatest possible flexibility but still preclude unnecessary inadvertent operator errors, control channels 5 … 12 have not been assigned to any controls. This means that servos connected by way of these channels will remain in their middle positions until an operator element has been assigned. Practically all mixers are initially inactive for this same reason.
Now in the "Port select" window, select the COM port connected to the USB interface. The correct port can be recognized by its designation "Silicon Labs CP210x USB to UART Bridge" in the "Device Name" column. In the above example this would be the "COM 3" port. Now call up menu option "Firmware Upgrade" from "Menu" or open the "Controller Menu" and click on "Firmware Upgrade". the desired firmware update file with a ".bin" filename extension from the "Open file" window.
Your notes 41
Receiver initialization Preliminary remarks about the GR-24 receiver Receiver system The mc-32 HoTT remote control set includes a type GR-24, 2.4 GHz bidirectional receiver for connecting up to 12 servos. After switching on this HoTT receiver, should "its" transmitter not be within range or switched off, then the receiver's red LED will illuminate continuously for about 1 s then begin to blink slowly. This indicates the receiver has not (yet) established a link to a Graupner HoTT transmitter.
Receiver firmware updates Please note the following: A receiver RESET will cause ALL receiver settings - except for binding information - to return to their factory settings. Therefore if a RESET is triggered unintentionally, any custom settings that had been present in the receiver before the reset will have to be established again by way of the Telemetry menu. A deliberate RESET is recommended, especially if a receiver is to be "transferred" into another model.
Typically this file can be found in the folder whose name is prefixed with the order number of the receiver to be updated. This folder should contain the ZIP file that was downloaded and unpacked. Its filename should also be prefixed with the order number of the receiver to be updated. For the standard GR-12 receiver included in this set, the folder would be designated "33512_12CH_RX". The filename will appear in the corresponding window.
Both LEDs on the receiver will illuminate during the update process. Upon successful conclusion of the update process, the green LED will extinguish and the red LED will begin to blink. Switch off the receiver, remove the interface cable and repeat the process for any other receivers you have which must be updated. 4. Receiver initialization Following a successful update process you MUST perform a receiver initialization procedure before using the receiver again. This is necessary for reasons of safety.
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.
Receiver system power supply Among other aspects, the safe operation of a model depends on a reliable power supply. In the event that, despite smooth operating rods, fully charged battery, battery leads with adequate cross-section, minimum contact resistances at connectors, etc., the transmitter indicates repeated receiver voltage collapses or is receiver voltage is generally too low; please give attention to the following notices.
for example, NiMH batteries. LiPo batteries are also available in hard plastic casings to protect them from mechanical damage. The comparatively high nominal voltage, 7.4 V, for a 2-cell LiPo pack does not present a problem for either Graupner HoTT receivers nor for those servos, speed controllers, gyros and other devices which have been specifically approved for operation in this – higher – voltage range.
Your notes 49
Term definitions Control function, control, function input, control channel, mixer, switch, control switch, fixed switch To make use of this mc-32 HoTT manual easier, a number of the terms used repeatedly throughout this manual have been defined below. Control function A "control function" is a signal intended to affect a given control action – initially independent of its signal course in the – .
Fixed switches FXI and FX This type of switch turns a function permanently on, e. b. timers (closed fixed switch) or off (open fixed switch) or they can provide a fixed input signal for a control function, e. g. FXI = + 100 % and FX = -100 %. For example, in flight phase programming, these fixed switches can be used to switch a servo or speed controller between two settings.
Physical control, switch and control switch assignments Principle procedure The mc-32 Hott system exhibits maximum flexibility when it comes to assigning standard equipment operating elements to specific functions. Since the assignment of controls and switches is done in the same way, even though different menus may be involved, it is appropriate at this point to explain the fundamental programming technique so that users can concentrate on the particular contents when reading the detailed menu descriptions.
Control/fix sw C1 C2 C3 C4 FX FXi C1i C2i C3i C4i Use the arrow keys in the left or right key pad to select the desired switch then assign it with a brief tap on the center SET key of the right touch pad. Notices: • The two FX switches turn 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.
Digital trim Functional description and description of C1 cut-off 54 Digital trim 1. Winged models C1 trimming has a special cut-off trim function intended especially for combustion motors. This cut-off trim function is configured as follows. First put the motor into a safe idle speed. Now if you push C1 trim in a single motion toward its "Motor cut-off" direction until it is in its furthest travel position then an additional end-position marker will remain in the display.
Your notes 55
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).
Installation notices Servos MUST be connected to the receiver in the sequence illustrated here. Outputs which are not needed are simply left empty. Also be sure to follow the notices on the next pages. Winged aircraft with and without motor, having up to 4 aileron servos and up to 4 flap servos … … and tail plane type "normal" or "2 elevator servos" Free or right flap 2 or aux. function Free or left flap 2 or aux. function Free or 2nd elevator or aux. function Free or right aileron 2 or aux.
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 and then can take advantage of mc-32 HoTT features, step-by-step, with increasing expertise.
Notice for those transitioning from older Graupner systems: In comparison to previous receiver layouts, servo connector 1 (pitch servo) and servo connector 6 (throttle servo) have exchanged places. Servos must be connected to receiver outputs as illustrated at the right in the bottom figure. Outputs which are not used are simply left empty. More details about respective swashplate types can be found on page 86 in the "Basic settings" menu.
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". GRAUBELE #01 5.9V 0:00h Stop Flt K78 M 0:00 0:00 HoTT 0.
the transmitter is switched on again the undesired occupation of the that model memory will have to be erased from another memory location. In contrast, if a non-active memory location is erased, it will subsequently be marked as "999free999" in the "Model select" menu. • After the selected model memory is initialized with the desired model type, the display will switch to the base screen of the freshly occupied model memory. At this time the warning … notice that no failsafe settings have yet been made.
CTRL 6 – . This condition changes for both model types only after the respective assignments have been made in the "Control adjust" menu. On the other hand, if a newly initialized model memory is to be put into operation then it MUST first be appropriately "connected" with one or more receivers before the servos attached to the receiver/s can be operated. More about this can be found in the section "Binding" on page 69 or 75.
Model select Call up model 1 … 24 The basic operation of the transmitters keys was explained on pages 24 and 25 and, on the previous double-page, explanations were provided for navigating to the multifunction list and about how to occupy 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 ¼ model, copy from or to SD card, copy flight phases Select the "Copy / Erase" menu with the cd arrow BASIC SETTINGS, MODEL keys of the left or right touch pad then briefly press the STARLET Mod.name SET button. Stick mode 1 n/a n/a RF BIND Model select OFF RF transmit Copy / Erase SEL Suppress menus Suppress models … to appear. A NO response will cause the process to be Base setup model canceled and a return to the previous screen.
Once selection of the model memory has been confirmed by pressing the SET button, a confirmation request will appear. modell really 01 ULTIMATE ¿¿¿ frei ¿¿¿ 03 to be copied? NO YES A NO response will cancel the process and return the screen to the originating screen. If the f YES response is selected and confirmed by activating the SET button then the selected source model will be copied into the selected model memory destination. Notice: In addition to model data, binding data is also copied by this process.
Import from SD Select the "Import from SD" sub-menu with the cdarrow keys of the left or right touch pad and press the SET button. Erase model Copy model–>model Expor t to SD Impor t from SD Copy flight phase => => => => => impor t to model: 01 GRAUBELE ULTIMATE 02 03 STARLET 04 BELL47G ¿¿¿ free ¿¿¿ 05 by its copy without establishing the bond again. R12 R12 R12 ––– After confirming the selected model memory by pressing the SET button, a confirmation request will appear.
Suppress menus Hide menus in the multifunction Select the "Suppress menus" menu with the cd arrow keys of the left or right touch pad then briefly press the SET button. Model select Copy / Erase Suppress menus Suppress models Base setup model Model type In the menu which then appears, menu items which are no longer needed or those which should not be changed, can be blocked from appearing in th multifunction list.
Base setup model Model-specific base settings for winged aircraft models Before programming specific parameters, there are Select the desired characters with the arrow keys of the some basic settings to be made which effect the left touch pad. Move to select the next character position currently active model memory. by pressing the f arrow key of the right touch pad or its center SET button.
"Binding" multiple receivers per model Multiple receivers per model can be bound if desired, whereby respective mc-32 HoTT programs offer the potential for managing a maximum of two receivers directly and for dividing up the 12 control channels (max) available on these two receivers as desired under menu control. Refer to additional details further down in this section. Binding two receivers is begun by first binding the individual receivers as described below.
BASIC SETTINGS, MODEL Mod.name RF GRAUBELE Stick mode 1 must be RF BIND OFF bind bind Rcv Ch Map OK R12 R08 BD1 BD2 Drop down two lines in the screen and switch off the RF module as described on the page in section "RF module". Afterward, return again to the "RF BIND" line and restart the process to dissolve bond as described on the previous page.
Important notice: By using the mc-32 HoTT transmitter's "Tx. output swap " option the transmitter's 12 control functions can be freely swapped in a similar manner or multiple outputs can be assigned to the same control function. To avoid confusion, it is strongly recommended that only one of these two options is used.
BASIC SETTINGS, MODEL RF BIND bind bind R12 R08 Rcv Ch Map RF transmit OFF RF Range Test 99sec SEL When the range test is activated, the transmitter's output power will be significantly reduced and the blue LED on the antenna's socket will begin to blink. At the same time, the timer display in the transmitter's screen will start counting down and every 5 seconds a two-frequency tone will sound. GRAUBELE #01 TEST 76s 5.2V 2:22h 0:00 Stop Flt 0:00 «nor mal » K78 HoTT 5.5V M 9.
ON position. The speed controller or throttle servo will remain in this cut-off position only until the selected switch is again changed over followed by a one-time throttle servo or speed controller movement beyond the preset threshold with the throttle/brake joystick control. The factory setting for the left column is -100 % for the throttle servo "cut-off" position and a threshold of +150 % servo position setting in the middle column.
Base setup model "MODE 2" (throttle left) Motor/Pitch Nick Roll Tail Roll Motor/Pitch Tail Roll Motor/Pitch Motor/Pitch Roll "MODE 4" (throttle left) Tail Nick Nick Motor/Pitch "MODE 3" (throttle right) Nick Roll Motor/Pitch Nick Tail Roll Nick Motor/Pitch Tail Motor/Pitch Nick Basically there are four different ways to assign the four helicopter control functions, roll, nick, tail rotor and throttle/pitch to the two joysticks.
whereby respective mc-32 HoTT programs offer the potential for managing a maximum of two receivers directly and for dividing up the 12 control channels (max) available on these two receivers as desired under menu control. Refer to additional details further down in this section. Binding two receivers is begun by first binding the individual receivers as described below.
BASIC SETTINGS, MODEL Mod.name RF STARLET Stick mode 1 must be RF BIND OFF bind bind Rcv Ch Map OK R12 R08 BD1 BD2 Drop down two lines in the screen and switch off the RF module as described on the page in section "RF module". Afterward, return again to the "RF BIND" line and restart the process to dissolve bond as described on the previous page.
second bound receiver) will begin with 13. RECEIVER CH – BIND2 Out Ch13 In Ch12 Out Ch14 In Ch12 Out Ch15 In Ch12 In Ch12 Out Ch16 After selection of the desired output with the arrow keys of the left and right touch pad, the corresponding input field will be framed. Press the center SET button in the right touch pad The current setting will be displayed in inverse video. Now select the desired input channel with the arrow keys of the right touch pad.
and the blue LED will again illuminate constantly. 6. Move away from the model while manipulating the joysticks during this timespan. If you notice an interruption anytime while still within a distance of about 50 m, try to reproduce this malfunction. 7. If there is a motor in the model, it may be necessary to switch it on to further check noise immunity. 8. Continue moving away from the model until perfect control is no longer possible. 9.
As soon as this line has been selected, the value field in its column directly above STO on the screen's bottom line will be framed. BASIC SETTINGS, MODEL RF Range Test 99sec PPM10 DSC Output Autorotation ––– Auto.C1 Pos. 0% ––– STO Move the C1 joystick into the desired threshold switchover position then press the center SET button in the right touch pad. The current value will be displayed, e. g.: BASIC SETTINGS, MODEL 99sec RF Range Test PPM10 DSC Output ––– Autorotation -55% ––– Auto.C1 Pos.
BASIC SETTINGS, MODEL DSC Output PPM10 Autorotation ––– -55% 9 Auto.C1 Pos. cut off –100% +150% ––– SEL STO Programming To change the preset "cut-off" position of the throttle servo, press the center SET button in the right touch pad. The current setting will be displayed in inverse video. Now use the arrow keys of the left or right touch pad to set a value at which the motor is reliably "off" without a startup of the throttle servo.
Your notes 81
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. "back": Suppress model Base setup model Model type Ser vo adjustment Stick mode. Control adjust Press briefly on the center SET button in the right touch pad.
controlled instead by way of the "Dual mixer" menu, page 194. In this case however, the tail type entry specified here must be "normal". "Delta/fl": Aileron and elevator control is operated by one or two servos per wing half. However, elevator trimming is also affected by selecting the "QR 2WK" option – see below – but only on servos 2 & 3. "2HRSv3+8": 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.
influence any mixer available for "Brake settings" in the "Wing mixers" menu. This free travel ensures that, even if the brake flap control is not quite positioned to its full end of travel, it will still stop all brake settings at "neutral". At the same time, the effective control path is automatically spread to 100 %. 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.
Your notes 85
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. Suppress models Base setup model Helicopter type Ser vo adjustment Stick mode Control adjust Press briefly on the center SET button in the right touch pad.
Swashplate type: 3 Servos (2 Nick) 1 3 2 Swashplate type: 4 Servos (90°) 2 Nick / 2 Roll 2 5 strain for different displacement positions due to travel which deviates from one another. Linearizing will require a bit of familiarization on the part of the pilot because, in order to linearize the entire rotation travel for the servo arm, servo travel can be appropriately reduced for small control movements – similar to a substantial Expo setting – .
The "Pitch min" line is used to adapt the direction of operation for the throttle/pitch control stick to your control preferences. All other helicopter program options which involve throttle and pitch functions, e. g. throttle curve, idle trimming, tail rotor mixer, etc., are dependent on this setting. Press the center SET button in the right touch pad. The operating direction of the throttle/pitch joystick will be displayed in inverse video.
Your notes 89
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. Suppress models Base setup model Model type Ser vo adjustment Stick mode Control adjust Briefly press the center SET button in the right touch pad. S1 S2 S3 S4 S5 0% 0% 0% 0% 0% Rev cent 100% 100% 100% 100% 100% 100% 100% 100% 100% 100% tr v + Begin setting servo parameters in the left column. Basic procedure steps: 1.
Simultaneously pressing the cd or ef keys in the right touch pad (CLEAR) will reset the entry field displayed in inverse video back to its "0 %" value. Servo travel frame. Notice: It may be necessary to first assign a control to a servo attached to one of the 5 ... 12 control channels. If necessary, this is to be done in the "Control adjust" menu, see page 96 or 100.
Joystick setting Setting stick mode 1 through 4 Both joysticks are equipped for digital trimming. With each brief push (one "click") on a joystick it will change its neutral position by one increment. Holding the stick longer will cause trimming to run in the corresponding direction at increasing speed. The current position is shown on the screen and adjustment is also made "audible" by various high frequency tones. This makes finding the mid-point during flight easy, without looking at the screen.
touch pad, the corresponding entry field will be framed. For example: Ch.1 Aile Elev Rudd GL GL GL GL 4 4 4 4 Tr St 0.0s 0.0s 0.0s 0.0s 0.0s 0.0s 0.0s 0.0s time + Briefly press the center SET button in the right touch pad. The current setting will be displayed in inverse video. Now select the desired value, between 1 and 10, with the arrow keys of the right touch pad. For example: Ch.1 Aile Elev Rudd GL GL GL GL 4 4 8 4 Tr St 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. With each brief push (one "click") on a joystick it will change its neutral position by one increment. Holding the stick longer will cause trimming to run in the corresponding direction at increasing speed. The current position is shown on the screen and adjustment is also made "audible" by various high frequency tones. This makes finding the mid-point during flight easy, without looking at the screen.
"GL": The position of the respective trim lever is effective for the given model "globally", i.e. across any flight phases which may be programmed for it, page 126. "PH": The position of the respective trim lever is effective on a phase-specific basis and will be automatically stored upon change of flight phase so that the setting is again available following a return to this flight phase. Simultaneously pressing the cd or ef keys of the right touch pad (CLEAR) will switch the entry back to "GL".
Control adjust Fundamental operating steps for control and switch assignments In contrast to the two joysticks which, when initialized Ser vo adjustment for a new model memory as a "Winged aircraft" model Stick mode type will already be configured to operate the servos Control adjust connected to receiver outputs 1 … 4, these "other" Dual Rate / Expo operating elements initially remain inactive.
Column 2 "typ" Analogous to the "Stick mode" menu already described, this column can be used to select whether other settings are to be made for the given input, e. g. "GL(obal)" or "PH(ase specific)" and vice versa. Input 5 Input 6 Input 7 Input 8 normal GL GL GL GL ––– ––– ––– ––– typ "GL": "PH": 0% 0% 0% 0% offset The given input's settings will be "globally" effective for the respective model memory across any flight phases which may be programmed.
covers travel to both sides of the marked frame. Input 5 Input 6 Input 7 Input 8 Normal +100% +100% +100% +100% +100% +100% +100% +100% To set asymmetric travel, the respective control (proportional rotary control or switch) is to be moved to the side on which the marked frame only includes the value to be changed. +100% +100% +100% +100% +100% +100% +100% +100% –travel+ The value setting is activated by briefly pressing the center SET button in the right touch pad.
Detail program description - Control adjust 99
Control adjust Basic procedure for transmitter control and switch assignment "Helicopter" model type, the two dual axis sticks will – in Ser vo adjustment the absence of further configuration – influence only Stick mode those servos connected to receiver outputs 1 … 4 and Control adjust 6. Unlike these, the "additional" transmitter controls Dual Rate / Expo mentioned above are theoretically inactive at first.
"GL(obal)" or a "PH(ase-specific)" effect, as follows: Input 5 Throt 6 Gyro 7 Input 8 Nor mal GL GL GL GL typ "GL": "PH": ––– ––– ––– ––– 0% 0% 0% 0% offset 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 128 for more information on flight phases.
To configure asymmetric travel, move the affected transmitter control (proportional rotary control or switch) to the side on which you wish to configure it, so the marker frame encloses only the value you want to adjust: Input 5 Throt 6 Gyro 7 Input 8 Normal +100% +100% +100% +100% +100% +100% +100% +100% –travel+ Briefly tap the center SET key on the right touch pad to activate value configuration: The value field is shown highlighted.
"Throt 6" "Gyro 7" Input 5 Throt 6 Gyro 7 Input 8 Normal GL GL GL GL typ ––– ––– ––– ––– 0% 0% 0% 0% offset In the helicopter program, it is also theoretically possible to assign any transmitter control (rotary proportional controls and switches) to individual inputs. However, please note here that some of the inputs available on this menu are already assigned to helicopter-specific functions, and therefore cannot be re-assigned in this way.
Throttle limit function control using either the CTRL 7 or 8 proportional rotary control. "Thr.l 12" As standard, the "Thr.l 12" input is assigned to the CTRL 6 proportional rotary control mounted on the top left of the transmitter. Input 9 Input 10 Input 11 Th.L.
the – digital – C1 trim. You should thus (initially) leave this value at +100%.
marker is located at the end-point (see the partial display screenshot shown below), then you can simply click once to restore the original idle configuration (see also page 54). This switch-off trim functions as an idle trim only in the left half of the throttle limit rotary control's path. That is: only within this range is the marker line set and also stored. Last idle position Current trim position GRAUBELE #01 5.2V 3:33h stop flt Throttle limit control 0:00 0:00 K78 2.4 M RX0.
Throttle limit in conjunction with "Thr AR" on the "Stick mode" menu Input 9 Input 10 Input 11 Th.L. 12 Nor mal 0.0 0.0 0.0 0.0 0.0 0.0 0.0 5.0 – time + Briefly tap the center SET key on the right touch pad or the ESC key on the left touch pad to complete the setup procedure. As already explained on page 94, selecting "Thr AR" in the "Thr." line on the menu … "Stick mode" Thr. Roll Nick Tail (page 94) TA GL GL GL 4 4 4 4 Tr St 0.0s 0.0s 0.0s 0.0s 0.0s 0.0s 0.0s 0.
Dual Rate / Expo Configurable control characteristics for aileron, elevator and rudder Using the arrow keys on the left or right touch pad, page between 0% and 125% of the normal full travel. to the menu option "Dual Rate / Expo" in the multiExpo, on the other hand, enables finer-grained control function list: of the model for values larger than 0% around the center position of the primary control function (aileron, Ser vo adjustment elevator and rudder), without forfeiting full movement Stick mode.
control switches" (page 52): ––– 100% Ail 100%switch HR Move ––– desired SR 100% ––– to ON position DUAL (ext.
If you tap the cd or ef keys on the right touch pad at the same time (CLEAR), this will reset a value changed in the highlighted field back to 0%. 110 Detail program description - Control adjust Servo travel Servo travel Servo travel Stick deflection Stick deflection Stick deflection In each of these examples, the Dual Rate value equals 100%.
––– 100% Ail Ele C3 111% Rud ––– 100% DUAL nor mal SEL Set the Expo values in the same way.
Dual Rate / Expo Configurable control characteristics for roll, pitch-axis, tail rotor Using the arrow keys on the left or right touch pad, page functions of arbitrary complexity. to the menu option "Dual Rate / Expo" in the multiThe control travels for each switch position can be set to function list: between 0% and 125% of the normal full travel. Expo, on the other hand, enables finer-grained control Ser vo adjustment of the model for values larger than 0% around the center Stick mode.
highlighted field separately for each of the two switch positions: Roll 3 111% Nick ––– 100% Tail ––– 100% DUAL nor mal SEL Roll ––– 100% 100%switch Nick Move ––– desired SR 100% ––– to ON position DUAL (ext.
If you tap the cd or ef keys on the right touch pad (CLEAR) at the same time, this will reset a value changed in the highlighted field back to 0%. 114 Detail program description - Control adjust Servo travel Servo travel Servo travel Stick deflection Stick deflection Stick deflection In each of these examples, the Dual Rate value equals 100%.
Roll ––– 100% Nick C3 111% Tail ––– 100% DUAL nor mal SEL Set the Expo values in the same way.
Channel 1 curve Control characteristics for throttle/spoiler joystick Using the arrow keys on the left or right touch pad, page along the path of joystick travel. While the on-screen to the menu option "Channel 1 curve" in the multigraph considerably simplifies the process of setting and function list: adjusting the reference points, we recommend that you set fewer reference points to begin with.
the right touch pad (CLEAR) and then delete the value. Complete the operation by briefly tapping the center key ESC on the left touch pad. Changing reference point values Move the joystick into the range of the reference point that is to be changed: "L" (low), 1 … 4 or "H" (high). The number and current curve value of this point are displayed. Activate the value field by briefly tapping the center SET key on the right touch pad.
Smoothing the Channel 1 curve In the example below, sample reference points have been set: Reference point 1 to 0% Reference point 2 to +25% Reference point 3 to -75% as described in the last section. C1 Cur ve Cur ve off –50% Input 0% Output Point 1 0% Normal This "jagged" curve profile can be smoothed automatically simply by pressing a button. First – assuming a situation is configured as presented above – tap the center ESC button on the left touch pad to deactivate the value field.
Channel 1 curve Control characteristics for throttle/collective pitch stick Using the arrow keys on the left or right touch pad, page along the path of joystick travel. While the on-screen to the menu option "Channel 1 curve" in the multigraph considerably simplifies the process of setting and function list: adjusting the reference points, we recommend that you set fewer reference points to begin with.
Deleting reference points To delete one of the reference points (1 to max. 4), use the joystick to move the vertical line into the vicinity of the reference point in question. As soon as the reference point number and its associated value is shown on the "Point" line (see screen image above), you can activate the value field on the "Point" line to highlight it by simultaneously tapping the cd or ef keys on the right touch pad (CLEAR) and then delete the value.
does not refer to the repositioned point, however: instead, it signifies that a further point can be set at the current control position. • 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 Channel 1 curve In the example below, sample reference points have been set: Reference point 1 to 0% Reference point 2 to +25% Reference point 3 to -75% as described in the last section.
Switch display Displaying switch positions Using the arrow keys on the left or right touch pad, page to the menu option "Switch display" in the multifunction list: Channel 1 cur ve Switch display Control switch Phase settings Phase assignment Phase trim Tap the center SET key on the right touch pad to open the menu shown below: Switch 1 2 3 4 5 6 7 8 9 Control Switch C1 C2 C3 C4 This feature is used to check the functions and give an overview of SW switches 1 … 9 and the programmable control switches.
Control switches Programming the control switches Using the arrow keys on the left or right touch pad, page to the menu option "Control switch" in the multifunction list: Channel 1 cur ve Switch display Control switch Phase settings Phase assignment Phase trim Tap the center SET key on the right touch pad to open the menu shown below: CONTROL SWITCH 0% ––– C1 Gb1 C2 Gb1 0% ––– ––– C3 0% C4 0% ––– STO SEL With many functions, it makes sense not to trigger their actuation by using one of the normal switches,
CONTROL SWITCH 0% ––– C1 Ct6 C2 0% ––– ––– C3 0% C4 0% ––– STO SEL Resetting a control switch back to "free" To reset a control switch back to "free", make sure the display is as below … CONTROL SWITCH Gb1 desired –75% ––– G1 Move Gb1 +75% G2 control ––– adj. ––– C3 0% C4 0% ––– STO SEL … and then press the cd or ef keys on the right touch pad (CLEAR) briefly to erase the transmitter control assignment.
• FIf a control switch – e. g. "C1" – has multiple assignments, you should bear in mind that the switching direction set here applies to all C3 switches. • The switch state can also be inverted by reversing the control on the "Control adjust" menu. Combining a control switch with one of the SW 1 … 9 switches The control switch can be overridden by a further switch, so that e. g.
How do I program a flight phase? 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. takeoff, approach, hover, auto-rotate, etc.). With mc-32 HoTT, you can access such presets automatically using switches or control switches.
Detail program description - Control adjust 127
Phase settings Setting up flight phases Using the arrow keys on the left or right touch pad, page to the menu option "Phase settings" in the multifunction list: Control switch Phase settings Phase assignment Phase trim Non-delayed chan Timers (general) Tap the center SET key on the right touch pad to open this menu. Within one model memory, the mc-32 HoTT lets you program up to 7 discrete groups of settings for various conditions met during the flight.
changes of phase, however, although it can be stopped during any flight phase via the center ESC key on the left touch pad. While you can obviously record lap times using "Lap" and a switch (SW), the two timers "Time1" and "Time2" have the following meaning: Time1 Only the times are measured at which the switch or control switch assigned in the "Lap timer/ timer" line of the "Fl. phase timers" menu (see page 142) is "closed". The frequency at which the switch is activated is shown on the basic display.
Using the arrow key f on the left or right touch pad, move the marker frame over the "ph. Tim." column – and "Motor" column, if applicable – to the right. Pha1 Pha2 Pha3 Pha4 Pha5 Nor mal + Launch + Dist. – – Name ¾ 0.1s 0.1s 0.1s 0.1s 0.1s Sw.time Briefly tap the center SET key on the right touch pad to highlight the value field. You can then select switch times between 0 and 9.9 s in this field. Example: Pha1 Pha2 Pha3 Pha4 Pha5 Nor mal + Launch + Dist. – – Name ¾ 4.0s 3.0s 2.0s 0.1s 0.1s Sw.
Detail program description - Control adjust 131
Phase settings Setting up flight phases Using the arrow keys on the left or right touch pad, page to the menu option "Phase settings" in the multifunction list: Control switch Phase settings Phase assignment Non-delayed chan Timers (general) Fl. phase timers Tap the center SET key on the right touch pad to open the menu shown below: Auto Pha1 Pha2 Pha3 Pha4 ¾ Autorot – – – – Name ph.Tim.
page 142) is "closed". The frequency at which the switch is activated is shown on the basic display. This counter field is highlighted as soon as the switch for the "Time1" timer is "opened", i. e. the timer is stopped: STARLET #01 «Speed » 5.2V 2:22h 0:00 Stop Flt 0:00 00 Lap 0:00.0 K78 M 5.5V If required, you can then use the arrow keys to access and read the times at which switches were made. Application: Measurement of (e. g.
Phase assignment Setting up flight phases Using the arrow keys on the left or right touch pad, page to the menu option "Phase assignment" in the multifunction list: Control switch Phase settings Phase assignment Phase trim Non-delayed chan Timers (general) Control switch Phase settings Phase assignment Non-delayed chan Timers (general) Fl. phase timers Tap the center SET key on the right touch pad to open the menu shown below: PHASE ASSIGNMENT combi prior.
Use the arrow keys on the left or right touch pad to move the marker frame down and to the right and then briefly tap the center SET key on the right touch pad: PHASE ASSIGNMENT combi prior. C D E F A B 6 7 2 1 Nor mal 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 Using the arrow keys on the left or right touch pad, page to the menu option "Phase trim" in the multi-function list: Control switch Phase settings Phase assignment Phase trim Non-delayed chan Timers (general) Tap the center SET key on the right touch pad to open the menu shown below: ¿ Normal normal 0% ELEV Depending on the settings made on the "Aile/flaps" line from the "Model type" menu (page 82) and on the "Phase settings" menu, this menu makes availab
Non-delayed channels Channel-dependent delays to switching Using the arrow keys on the left or right touch pad, page to the menu option "Phase trim" in the multi-function list: Control switch Phase settings Phase assignment Phase trim Non-delayed chan Timers (general) Use the arrow keys on the left or right touch pad to move the "z" onto the corresponding channel and then briefly tap the center SET key on the right touch pad. The switch icon changes from "normal" to "non-delay" and vice versa.
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 5.9V 0:00h 0:00 0:00 Stop Flt K78 M HoTT 0.0V A further, flight-phase specific timer can also be configured, depending on your settings in the two menus "Fl. phase timers" (page 142) and "Phase settings" (pages 128 and 132).
"Stop (watch)" or "Motor (runtime)" Both of these two timer variants can be started and stopped using any of the available switches. The timer defined as "Stopwatch" or "Motor runtime" sums the "ON" times continually, so that once your aircraft has landed, you can read off the sum of all switch "ON" times since the timer was last reset.
Switching between "forwards" and "backwards" Timer runs forwards (stopwatch function) Following switch assignment, if the stopwatch shown on the basic display is started with the initial value of "0:00", then it will run forwards for max. 180 min and 59 s and then restart from 0:00. Timer runs backwards (countdown function) In the – left – minutes field, select a start time between 0 and 180 min … Model time Batt.
• If you change timer functionality, these changes are made active by pausing the timer(s) and then tapping the cd or ef keys on the right touch pad at the same time (CLEAR) to reset them. • Remember that the timer switches also remain active during programming. • On the basic display, simultaneously tapping the cd or ef keys on the right touch pad at the same time (CLEAR) will reset the previously stopped timer to its programmed initial value – see the "Alarm" timer section.
Fl. phase timers Selecting and setting The discussion of the "Phase settings" menu on page 134 has already described how timers can be assigned to a flight phase. The same section has also described the properties of "Time1" and "Time2". This section now proceeds to describe "Clk 1, 2 and 3", plus the "lap counter/timetable" timer. The additional, flight phase-specific timer selected is displayed on the basic display underneath the "center" timer, as shown below: GRAUBELE #01 «Speed » 5.
Alarm timer 0s 0:00 Timer1 0s Timer2 0:00 0s Timer3 0:00 Lap time/tim tab Lap Display SEL SEL ––– ––– ––– ––– ––– The input field in the "Alarm" column is activated by tapping the center SET key on the right touch pad. In this field, use the arrow 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.
• If you should forget to switch off the lap counter in a phase which is now not currently active, simply press the center ESC button on the left touch pad. To swap between the basic display and the "Lap Display" … 01 02 03 04 05 06 07 00:00.0 01:23.4 08 00:00.0 02:34.5 09 00:00.0 03:45.6 10 00:00.0 04:56.7 11 00:00.0 05:67.8 12 SEL 00:00.0 06:78.
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" – i. e. also "after" transmitter control options such as e. g.
Wing mixers Calibrating the wing flap system Within the menu tree of the menu … Fl. phase timers Wing mixers Free mixers MIX active/phase MIX-only channel Dual mixer … the sub-menus and options available depend entirely on the number of aileron and flap servos set up on the "Model type" menu (page 82) … M O D E L T Y P E Motor at C1 None Nor mal Tail type Aile/flaps 2AIL Brake Off +100% In 1 SEL … which means that the only settings listed are the ones that can actually be configured.
connected to outputs 9 and 10 – assuming that corresponding flaps have been specified on the "Aile/flaps" line on the "Model type" menu. This transmitter control indirectly 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. To be able to provide more fine-grained control of flap positions, however, you should reduce travel to about 25% on the "Input 6" line of the "Control adjust" menu.
Mixer functions The individual options on the "Wing mixers" menu option are discussed below, separately for single-, dualand multi-flap models. Before we start, a number of remarks on the differentials for ailerons and flaps: Aile. diff. or Diff. (Aileron differential) WING MIXERS Brake settings 0% Aile.diff. 0% ––– AI RU 0% 0% ––– EL AI Nor mal AI AiI-tr Diff. fl.
Diff. (camber-changing flap differential) AI Ail-tr Diff. fl.pos Normal 0% 0% 0% 0% FLAP AI Ail-tr Diff. fl.pos Nor mal 0% 0% 0% 0% FLAP2 In the "cAId" line on the multi-flap menu, you can set the extent to which the flaps act as ailerons and follow the aileron joystick; the value is entered as a percentage. The flaps differential – to be set on the line "Diff." (two lines below) – works in a similar way to the aileron differential, i.e.
direction of deflection as appropriate. Optionally, this mixer can be activated and deactivated by using one of the switches that do not reset themselves (SW 2 … 8) or a control switch. This means you can then also control the model using only the ailerons or rudder, as required. Typically, this mixer is set so that the rudder is deflected to the same side as the upward-oriented aileron, and you will find that setting a value of around 50% is usually highly appropriate.
Here, you can set the degree to which the rudder follows commands acting on ailerons. This is used in particular in connection with aileron differential to suppress adverse yaw and thus make it easier to fly "clean" curves. You can of course still issue separate commands to the rudder. The adjustment range of ± 150% lets you set the direction of deflection as appropriate.
Model type: "2AIL" If you have entered "2AIL" for the "Aile/flaps" line on the "Model type" menu (page 82), then the "Wing mixers menu" on your transmitter will match the following screen image: WING MIXERS Brake settings 0% Aile.diff.
popular with slope flyers, where ailerons alone are often used for turning the model. 0% (normal) 50% (differential) 100% (split) If you tap the cd or ef keys on the right touch pad (CLEAR) at the same time, this will reset values changed in the active (highlighted) field back to 0%. Note: Negative values are not usually necessary if channels are assigned properly. Aileron ¼ rudder WING MIXERS Brake settings 0% Aile.diff.
Model type: "2/4AIL 1/2/4FL" If you have entered "2AIL 1FL" for the "Aile/flaps" line on the "Model type" menu (page 82), then the "Wing mixers menu" on your transmitter will match the following screen image: WING MIXERS Multi-flap menu Brake settings 0% Aile.diff.
AI Ail-tr Diff. fl.pos FL EL FL Nor mal +100% +100% 0% 0% 0% 0% 0% 0% AILE … are shown, and – one "step" to the right – all options for the flap pair as well: AI Ail-tr Diff. fl.pos FL EL FL Normal 0% 0% 0% 0% +100% +100% 0% 0% FLAP Moving one further column to the right, however – to the "FLAP2" column – is not possible.
AI Ail-tr Diff. fl.pos FL EL FL Normal +100% +100% 0% 0% 0% 0% 0% 0% type" menu (see page 82), then the abbreviations "AI", "AI2", "FL" and "FL2" refer to the following flaps: AI left AI2 left FL left FL2 left FL2 right FL right AI2 right AI right AI Ail-tr Diff. fl.pos FL EL FL Normal FLAP AILE … are shown, and – one "step" to the right – all options for the second aileron pair … AI Ail-tr Diff. fl.
AI Ail-tr Diff. fl.pos FL EL FL Normal +100% +100% 0% 0% 0% 0% 0% 0% AILE Accordingly, you must first specify your desired elevator control on the "EL ¼ FL" line. Take care to ensure that up/down activation occurs in the right sequence. Note: The "Brake settings" sub-menu (see next double page) is also suitable for setting up the butterfly (crow) function with delta and flying wing models.
AI Ail-tr Diff. fl.pos Normal regardless of the direction of rotation of the aileron and flap servos. If you tap the cd or ef keys on the right touch pad (CLEAR) at the same time, this will reset values changed in the active (highlighted) field back to the default value (see screen image). +100% +100% 0% 0% AILE fl.pos 0% 0% 0% 0% AI Ail-tr Diff. fl.pos Normal (wing flap position) AI Ail-tr Diff. fl.
on the "Control adjust" menu. However, you can 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 260. EL ¼ FL (Elevator ¼ flaps) To provide support for the elevator for tights turns and aerobatics, this mixer can be used to make the flap function follow controls sent to the elevator.
• "AILE" column When braking the model as it comes in to land, neither of the two aileron flaps should ever be deflected more than half of the possible travel upwards, to ensure that enough travel is available to control the model along its longitudinal axis (aileron function). AI FL FL2 FL2 FL AI • "FLAP" (and "FLAP2") column As the model is braked on the landing approach, both pairs of flaps can be set to deflect by different amounts, e. g.
1 3 5 7 9 11 +100 % 0% 0% 0% +100% 0% + 2 4 6 8 10 12 + 0% 0% 0% 0% 0% 0% 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 (see page 193). In either case, however, the airbrake travels must then be fine-tuned on the "Servo adjustment" menu (see page 90). D.red. (Differential reduction) BRAKE SETTINGS Crow 0% 0% 0% D.
In each case, you should test the setting selected at the appropriate altitude and re-adjust as required. As you do, however, ensure that your model does not slow down excessively with the braking system extended! Otherwise, you run the risk that, after the braking system is retracted, e. g. to extend a landing approach that was too short, for example, your model pancakes or even stalls. Aileron ¼ rudder Aileron differential (Only for "2AIL 1FL".
Detail program description - Control adjust 163
Helicopter mixers Flight phase-specific setting of collective pitch, throttle and tail rotor On this menu … the auto-rotation phase – the typical helicopter mixing and coupling functions shown in the screen-shot Fl. phase timers above are available for setting up the model helicopter. Helicopter mixer These functions are described in the first part of this Free mixers comprehensive chapter.
Pitch Cur ve off Input Output Point ? Nor mal 0% 0% 0% Unlike the "Channel 1 curve" menu, however, this display relates only to the control curve of the pitch servos: the "Channel 1 curve", on the other hand, affects all servos controlled via the throttle/collective pitch stick.
Pitch Cur ve off Input –50% –12% Output –12% Point 1 Normal … and/or a further point at +50%: Pitch Cur ve off Input +50% +88% Output +88% Point 3 Normal To do so, use the joystick to move to the corresponding area. As soon as a "?" appears in the frame on the "Point" line, the respective point can be set by pressing the arrow keys on the right touch pad.
Smoothing the collective pitch curve In the example below, sample reference points have been set … Reference point 1 to +50% Reference point 2 to +75% Reference point 3 to -50% … as described in the last section. Pitch Cur ve off Input +50% –50% Output –50% Point 3 Normal This "jagged" curve profile can be smoothed automatically simply by pressing a button. First – assuming a situation is configured as presented above – tap the center ESC button on the left touch pad to deactivate the value field.
Detail program description - Control adjust program offers a much more flexible approach to finetuning and optimizing increases to system rotational speed below the hover point than the "idle-up" approach taken by older mc radio control units. Ensure that the throttle limiter is closed before you start the carburetor motor, i. e. so that the carburetor can be adjusted within the idle range only by using the idle trim. Ensure that you follow the safety instructions on page 177 at all times.
control turned fully to the left; the motor will be idling and respond only to C1 trim. This option permits you to start and also stop the motor from within any flight phase. Once the motor has started, turn the throttle limiter slowly in the direction of the opposite end-point, so you can once again activate the throttle servo fully using the throttle/collective pitch stick. To stop the throttle limiter limiting the throttle servo at its top endpoint, you should access the "Th.L.
present and set – are erased. Following this, the reference points "L" (input = -100%) and "H" (input = +100%) are then each set to the same value, for example: C1 Throttle Cur ve off –100% Input +30% Output +30% Point L Normal The value to be set depends both on the speed governor used and on the target motor speed that is desired, and can, of course, be varied according to the flight phase.
Tail rotor ¼ throttle Pitch C1 Throttle Tail C1 Throttle Tail Roll Throttle Nor mal rotor deflection. Set the mixer value so that there is no fall-off in system rotational speed. Roll ¼ Throttle and Nick ¼ Throttle 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.
Nick Throttle Tail Nick Gyro suppress Swash rotation Swash limiter Normal 0% 0% 0% 0° OFF SEL Important: in normal situations, this function should not be used if your model is fitted with a modern gyro system. In this context, ensure that you comply with the instructions on adjusting your gyro: if not, you risk making adjustments that render your heli impossible to fly. This menu has nonetheless been retained in order to cater to a full range of requirements and flying habits.
Range of transmitter control 7 Exemple: +80 % Í Gyro gain Î control limits. Here too, for purposes of illustration, we plot gyro gain values in relation to tail rotor deflection for various parameter values of gyro suppression. centre right left Stick deflection tail rotor Adjusting the gyro sensor To achieve the maximum possible level of stabilization for the helicopter with the gyro along the vertical axis, observe the following: • The controls should have as little friction and "play" as possible.
that the deflections for roll and/or pitch-axis exploit the maximum travel mechanically possible, e. g. for 3D helis, then the total tilt applied to the swashplate if full roll and pitch-axis commands are applied simultaneously will be considerably greater (141% in numerical terms). The swashplate mechanism may then strike its endstops and in the worst case the ball-links could even be disengaged. The mc-32 HoTT transmitter contains a configurable software function for limiting the total swashplate travel, i.
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. For some special cases, however, e. g. for "3D" flight, you may wish to program hover points that deviate from this standard. For example: one point for normal flight attitude above the center and one point for inverted flight attitude below the center.
+100% OUTPUT a) Rotational speed is too high Remedy: Decrease the carburetor opening by reducing the value of point "1" on the graph page of the "C1 ¼ throttle". -100% 1 3 4 5 b) Rotational speed is too low Remedy: Decrease the blade angle of attack pitch by reducing the value of point "1" on the "Pitch" graph page.
hovers below the mid-point, correct this by reducing the angle of attack appropriately. You may also find that it is necessary to correct the carburetor opening for the hover point (point "1") at "C1 ¼ throttle". This diagram shows only the change to the hover point, i. e. collective pitch minimum and maximum are both left at -100% or +100%.
Helicopter mixers Auto-rotation settings 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. Accordingly, switchover TO the autorotation phase takes place immediately.
value on this line so that a glow motor is held at a safe idle during the auto-rotation phase without the clutch engaging; electric drive systems should be set safely to "Off". Note: You may wish to make use of the "Motor Stop" option on the "Base setup model" menu as an alternative "Emergency STOP" function. Depending on the friction and running resistance of the gearbox, the fuselage may still yaw slightly, however.
General notes on freely programmable mixers The previous pages have described a wealth of readyto-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 145. The following section presents you with information relating to "free mixers".
Free mixers to the menu option … Fl. phase timers Wing mixers Free mixers MIX active/phase MIX-only channel Dual mixer Fl. phase timers Helicopter mixer Free mixers MIX active/phase MIX-only channel Dual mixer … on the multi-function list. Briefly tap the center SET key on the right touch pad to open this menu option.
8. Define the mixer ratios on the second screen page. 9. Return to the first page by using the center ESC key on the left touch pad. "fr" After selecting a mixer line and then tapping the center SET key on the right touch pad to highlight the value field, use the arrow keys on the right touch pad to select one of the control functions: 1 … 12 or S.
Forward Only effective if C1 stick is forward Back Only effective if C1 stick is back … or on the "Pitch" line of the "Stick mode" menu for helicopter models: a) WITHOUT series switching: 6 6 4,8 V Linear, over full trim lever travel Example: Two mixers (MIX 6 ¼ 7 and 7 ¼ 8): C 577 None 7 8 ?? ?? ?? to Best.-Nr.
M1 M2 M3 M4 M5 P ty 6 ?? ?? ?? ?? fr 11 ?? ?? ?? ?? to Depending on the mixer value configured, a mixer can, as shown in the example above, route the signal from a flap control present (e.g.) on input 6 to control channel 11, while also applying the FLAP trim value set on the "Phase trim" menu (page 136) for the respective flight phase. Other special features of free mixers Mixer input = mixer output If you set up a mixer whose input is the same as its output, e.g.
• Use the option available to you at any time of switching to the "Servo display" efmenu (see page 230). This menu is reached from almost any menu option on the transmitter's basic display by briefly tapping the keys on the left touch pad at the same time. This menu gives you the opportunity to check the effects of all of your settings on a single screen.
the value zero over the entire stick travel; accordingly, the elevator will not yet follow the movement of the flaps. First, the … Offset (mixer neutral point) … should be defined. To do so, use the arrow key d on the left or right touch pad to move to the line under "Offset": 6 L.MIX 1 Mix input 0% 0% Offset 0% STO SET EL The dotted vertical line in the middle of the diagram indicates the position of the mixer neutral point ("Offset"), i.e.
6 L.MIX 1 Mix input +20% +20% Offset –100% STO SET EL If you were now to reset the offset currently set at -100% back as far as 0% of control travel – by selecting the SET field with the arrow key f on the left or right touch pad, activating the value field and then tapping the two arrow keys cd or ef on the right touch pad (CLEAR), then you will receive the following screen: 6 L.
C.MIX 9 Cur ve off Input –45% 0% Output 0% Point ? normal 8 10 When you now briefly tap the center SET key on the right touch pad, the "?" is replaced by a point number and the value field to the right is activated: C.MIX 9 Cur ve off Input –45% 0% Output 0% Point 1 8 10 Using the arrow keys on the right touch pad you can now change the point value within the range of ±125%, e. g.: C.
C.MIX 9 Kur Trimveoffset Input +35% –30% Output –30% Point 2 normal C.MIX 9 Kur Trimveoffset Input +35% –80% Output –80% Point 2 normal 8 8 10 10 You can also exit from this function by tapping the center ESC key on the left touch pad. Trim x-axis function This function is activated by tapping the left (e) or right (f) arrow key on the right touch pad with an active (i.e. highlighted) value field.
… to the mixer configuration page. On this page, use the arrow key d on the left or right touch pad to select the line under "Offset" and then tap the center SET key on the right touch pad. Depending on the travel adjustment selected on the "Control adjust" menu and the switch position, the offset value jumps to +X% or -X%, e. g.: S L.
Detail program description - Control adjust 191
MIX active/phase Selecting mixers for flight phases Using the arrow keys on the left or right touch pad, page to the menu option … Fl. phase timers Wing mixers Free mixers MIX active/phase MIX-only channel Dual mixer Fl. phase timers Helicopter mixer Free mixers MIX active/phase MIX-only channel Dual mixer … on the multi-function list. Briefly tap the center SET key on the right touch pad to open this menu option.
MIX-only channel Separating control functions from control channels for all flight phases Using the arrow keys on the left or right touch pad, page adjust " menu. to the menu option … Conversely, a joystick, transmitter control (CTRL 6 … 10) or switch (SW 1 … 3, 8 and 9) "robbed" of its servo Fl. phase timer in this way can of course be used anywhere else as a Wing mixers transmitter control – even in a flight phase-specific way.
Dual mixers 4,8 V Servo C 577 Best.-Nr. 4101 Left rudder / elevator Servo C 577 4,8 V Right rudder / elevato Best.-Nr. 4101 r de er dd r Ru vato Ele 4 Control channels (receiver outputs) Ru Ele dder vat or r Control function inputs 3 V-tail mixer 4 Rudder stick Fl.
affects both servos. If the rudders are also required to deflect outwards when the airbrakes are activated, then you should assign the C1 stick (transmitter control 1) to input 8 on the "Control adjust" menu. Finally, move to the "Offset" column and adjust the offset value until both rudders return to the neutral position. You may also need to "play" a little with the offset and travel adjustment settings. Tip: You can use the "Servoanzeige" menu to check all of the settings made in this way.
Swashplate mixer Collective pitch, roll, pitch-axis mixer Using the arrow keys on the left or right touch pad, page to the menu option … Helicopter mixer Free mixers MIX active/phase MIX-only channel Dual mixer Swaschplate mixer … on the multi-function list.
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 Teacher-pupil settings Using the arrow keys on the left or right touch pad, page to the menu option "Teacher/pupil" on the multi-function list: Up to twelve control functions of the teacher transmitter "Teach" can be transferred to the pupil transmitter Dual mixer "Pupil", either individually or in any combination.
the model memories of the mc-32 HoTT teacher transmitter. The HoTT receiver of the model in question must also be "bound" to the teacher transmitter, since the latter ultimately controls the model, even in pupil mode. ALWAYS ENSURE YOU SWITCH ON THE mc-32 HoTT teacher transmitter FIRST BEFORE PLUGGING THE CONNECTION CABLE INTO THIS UNIT. If you do not, the RF module will not be enabled.
Important notices: • Check that the model aircraft is operational and check that all functions issue the correct commands BEFORE setting up trainer mode. • The ends of the trainer lead, usually marked as either "S" or "M", terminate in a three-pole TRS jack. Do not insert these jacks into a DSC system socket, as it is not suitable for this application. The DSC socket is exclusively designed for a trainer lead with 2-pole TRS jacks.
Trainer mode with the mc-32 transmitter Due to the continuous improvements made to the product range, please consult our website at www.graupner.de for the latest information Teacher transmitter mc-32 HoTT TT Pupil transmitter mc-32 HoTT Trainer lead order no. 4179.1 Trainer lead order no. 3290.8 Trainer lead order no. 3290.7 Trainer lead order no. 4179.1 M Teacher transmitter with DSC socket mx-12 HoTT, mx-16 HoTT, mc-32 HoTT Teacher transmitter with teacher module order no. 3290.2, 3290.19, 3290.
Wireless HoTT system The mc-32 HoTT trainer mode system can also be operated wirelessly. 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 that have the "BIND:" option available on the "Teacher/pupil" menu. Preparing for training mode Teacher transmitter The training model must be programmed completely – i. e.
Teacher transmitter Up to twelve control functions of the teacher transmitter "Teach" can be transferred to the pupil transmitter "Pupil", either individually or in any combination. The lower display line, named "Teach", therefore refers to the transmitter controls permanently connected to inputs 1 … 4 (dual axis stick functions for fixed-wing and heli model) and the CTRL 6 to 10 controls that are assigned or can be assigned to inputs 5 … 12 (optionally flight phase-specific) on the "Control adjust" menu.
show "ON" instead of the flashing "BINDING": TRAINER /Pupil – Pupil ÄTeach SW: 9 7 8 9 10 11 12 BIND: ON TRAINER /Teach Pupil ÄTeach SW: 9 7 8 9 10 11 12 BIND: ON You can return to the basic display on both screens and start the training session after carefully checking all of the relevant functions. If neither transmitter or only one transmitter displays "ON", this means the binding process has failed: try changing the positions of both transmitters and then repeat the entire procedure.
If, on the other hand, you use the arrow keys on the left or right touch pad to select "ACT" … Please selcet trainer link? ACT INH … and confirm this selection by tapping the center SET key on 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 arrow keys on the left or right touch pad, page to the menu option "Tx. output swap" on the multifunction list: Dual mixer Fail-safe adjust Teacher / Pupil Tx. output swap Telemetr y Basic settings Swashplate mixer Fail-safe adjust Teacher / Pupil Tx. output swap Telemetr y Basic settings Briefly tap the center SET key on the right touch pad to open this menu option. Tx.
Detail program description - Control adjust 207
Telemetry The transmitter and receiver data as well as the data for optional telemetric sensors (see Appendix) can be viewed and programmed in the "Telemetry" menu. The receiver data is transmitted to the transmitter through the return channel integrated in the HoTT receiver. One telemetry sensor can be connected through the telemetry input to each of the receivers GR-12S HoTT (Order No. 33505), GR-12 HoTT (Order. No. 33506), GR-16 (Order. No. 33508) and GR-24 HoTT (Order. No. 33512).
SETTINGS/DISPLAYS Telemetry The menus comprised under the heading "Telemetry" can be called up from the default display of the transmitter mc-32 HoTT by pressing the central ESC key of the left touch pad for approx. one second. The same menus can, like other menus of the transmitter, also be opened in the multifunction list by pressing the central SETkey on the right touch pad: Dual mixer Fail-safe adjust Teacher / pupil Tx.
L.R-VOLT Lowest operating voltage of the receiver since it was last turned on, in volts SENSOR1 Indicates the values of the optional telemetric sensor 1 in volts and °C SENSOR2 Indicates the values of the optional telemetric sensor 2 in volts and °C Signal quality (S-QUA) The signal quality (S-QUA) is sent "live" over the return channel of the receiver to the transmitter and indicates the signal strength in %.
RX SERVO the channel set here. RX SERVO OUTPUT CH: REVERSE : CENTER : TRIM : LIMIT– : LIMIT+ : PERIOD : 01 OFF 1500sec –000sec 150% 150% 20msec Before any programming on this display page, observance of the notices on page 208 is mandatory.
model may become uncontrollable and "tear" across the flight field completely out of control, putting the pilot and spectators at risk. Therefore, it would obviously be beneficial to program the the function "Motor off" at the very least, in order to prevent such risks. If necessary, seek the advice of an experienced pilot in order to fine a "logical" setting for your model.
on the channel set in the OUTPUT CH line. The factory setting for all servos is "HOLD". For each selected OUTPUT CH (servo connection of the receiver) you can choose between: • FAI(L) SAFE With this selection, in the event of a failure the corresponding servo moves to the position shown in the "POSITION" line for the remainder of the failure until the "Delay time" set in the "DELAY" line has lapsed.
Therefore, the servo connections 6, 7 and 8 of a receiver are mapped with one another, whereby the OUTPUT CH (servo connections) 06, 07 and 08 are assigned as INPUT CH of the same respective control channel "04"... RX FAIL SAFE OUTPUT CH: 06 INPUT CH: 04 MODE : OFF F.S.POS. : 1670sec DELAY : 0.75sec FAIL SAFE ALL: NO POSITION : 1670sec RX FAIL SAFE OUTPUT CH: 07 INPUT CH: 04 MODE : OFF F.S.POS. : 1230sec DELAY : 0.
RX WING MIXER TAIL TYPE (tail unit type) The following model types are also available in the "Tail" line of the "Model type" menu, page 82 and should, preferentially, be pre-set there. In this case, always leave the TAIL TYPE set to NORMAL.
RX CURVE CURVE1 CH TYPE CURVE2 CH TYPE CURVE3 CH TYPE RX SERVO TEST : : : : : : 02 A 05 A 04 B Otherwise, the left and right ailerons have different control characteristics. With the RX CURVE function you can manage the control characteristics for up to three servos: • CURVE 1, 2 or 3 CH Select the desired control channel (INPUT CH) of the first servo. The following setting in TYPE only pertains to the channel selected here.
By pressing the central SET key of the right touch pad, you now start the test run. The input field is shown as "normal" again: RX SERVO TEST ALL–MAX : 2000sec ALL–MIN : 1000sec TEST : START ALARM VOLT : 3.8V ALARM TEMP+: 70°C ALARM TEMP–:–10°C CH OUT TYPE:ONCE To stop the servo test, reactivate the input 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.
RX SERVO TEST ALL–MAX : 2000sec ALL–MIN : 1000sec TEST : START ALARM VOLT : 3.8V ALARM TEMP+: 70°C ALARM TEMP–:–10°C CH OUTPUT TYPE:SUMO A HoTT receiver configured as SUMO permanently generates a so-called sum signal from the control signals of all of its control channels and provides this by default to the accompanying GR-24 receiver at servo connection 8. On receivers whose display shows "SUMO" at the top right, an additional two-digit number appears ...
remains controllable when the SUMO satellite receiver no longer receives a signal. Telemetry data, such as the voltage of the onboard electricity supply, on the other hand, is only sent to the transmitter by the satellite receiver configured as SUMO. Therefore, telemetry sensors are to be connected to the satellite receiver (SUMO). Each receiver should be connected with its own supply line from the common voltage supply.
SENSOR SELECT After selection of the desired menu line with the arrow keys cd of the left or right touch pad… TELEMETRY TEL.RCV rcv ch1 SETTING & DATA VIEW SENSOR SELECT RF STATUS VIEW VOICE TRIGGER … and then pressing the central SET key of the right touch pad, the selected submenu opens: SENSOR SELECT RECEIVER GENERAL MODULE ELECTRIC AIR.
RF STATUS VIEW After selection of the desired menu line with the arrow keys cd of the left or right touch pad … TELEMETRY TEL.RCV rcv ch1 SETTING & DATA VIEW SENSOR SELECT RF STATUS VIEW VOICE TRIGGER … and then pressing the central SET key of the right touch pad, the selected submenu opens. This provides a visualization of the quality of the connection of transmitter and receiver: R100% S 90% SD 40 E 10 RD 51 4.8VC 4.8VM 0123456789ABCDE Top row: Reception power of the channels 1 ... 75 of the 2.
VOICE TRIGGER After selection of the desired menu line with the arrow keys cd of the left or right touch pad … TELEMETRY TEL.
the "SENSOR SELECT" submenu: TX VOLT: MODEL TIME: BATTERIETIME: TIMER(GE.
General settings Basic transmitter settings Using the arrow keys of the left or right touch pad, scroll to the "Basic Settings" menu item of the multifunction menu: Telemetr y Basic settings Ser vo display Ser vo test Code lock info display By briefly pressing the central SET key of the right touch pad, this menu item opens: BASIC SETTINGS Own Stick mode 1 PPM10 DSC Output back Pitch min Contrast 0 unlim. Display light yes Power-on beep Ni-MH Batterie type 4.7V Batterie war ning Power on war n.
Helicopter model stick mode BASIC SETTINGS Own H- J S a n d b r u n n e r 1 Stick mode PPM10 DSC Output Pitch min back SEL “MODE 1” (Throttle at right stick) “MODE 2” (Throttle at left stick) left aileron left rudder left aileron left rudder left rudder left aileron left rudder left aileron roll tail rotor tail rotor right rudder idle pitch axis throttle pitch axis throttle tail rotor throttle roll tail rotor roll Motor/Pitch tail rotor elev.
"rear": minimum rear pitch setting, the pitch joystick (C1) points towards the pilot. Simultaneously pressing the keys cd or ef of the right touch pad (CLEAR) switches to "rear" Notice: The stick mode of the C1 joystick in the winged model program for "Throttle min front/rear" can be individual changed in the "Model type" menu. Contrast In order to guarantee the optimal visibility of the display of the mc-32 HoTT in any weather and at any temperature, you can adjust its contrast: GRAUBELE #01 5.
Make sure that you do not enter a value which is too low, so that you still have sufficient time to safely land your model in the event of a battery warning. Simultaneously pressing the arrow keys cd or ef of the right touch pad (CLEAR) switches back to the factory default values 4.7 or 3.4 V in the inverse field. Touch sensitivity BASIC SETTINGS Batterie type Ni-MH 4.7V Batterie war ning Power on war n. unlim 2 Touch Sense SEL Power-on warning BASIC SETTINGS yes Power-on beep Ni-MH Batterie type 4.
Detail program description - Control adjust
Detail program description - Control adjust 229
Servo display Display of the servo position Scroll to the menu item "Servo display" of the multifunction menu using the arrow keys of the left or right touch pad: Telemetr y Basic settings Ser vo display Ser vo test Code lock info display By briefly pressing the central SET key of the right touch pad, you open this menu item.
Servo test Function test of Servo 1 … 8 Scroll with the arrow keys of the left or right touch pad to the menu item "Servo test" of the multifunction menu: Telemetr y Basic settings Ser vo display Ser vo test Code lock info display By briefly pressing the central SET key of the right touch pad, this menu item opens: SERVO time of 0.5 s. To change the cycle time, select the time input field with the arrow keys of the left or right touch pad.
Code lock Locking of the multifunction list Scroll with the arrow keys of the left or right touch pad to the menu item ... Telemetr y Basic settings Ser vo display Ser vo test Code lock info display … of the multifunction menu.
CODE LOCK D e s ir e d ( n ew) Memorise s e c rsecret e t nu mb e r ¾¾¾¾¾ none ¾¾¾¾¾ (123_) 1 2 3 4 SET lock, you should, if applicable, remove this menu from the multifunction list with "Suppress menus" so that unauthorized persons cannot enter a secret code "on the sly". Now leave the menu by briefly pressing the central ESC key of the left touch pad. Leaving the menu without input of a secret code You would like to leave the menu opened out of curiosity or by accident and have not pressed any other key.
Info display Transmitter ID, date, time and memory card With the arrow keys of the left or right touch pad, scroll to the menu item ... Telemetr y Basic settings Ser vo display Ser vo test Code lock info display … of the multifunction menu. Briefly pressing the central SET key of the right touch pad opens this menu: ABCDEF12 RFID 1.234 firmware ver.
Time SD card RFID ABCDEF12 firmware ver. 1.234 2011/08/01(Mo ) date 11:22:33s time 0MB SD-Card If necessary, select this line with the arrow keys of the left or right touch pad and the minute field, if applicable. After activation of the respective value field by pressing the central SET key of the right touch pad, the hour or minute can be adjusted with the arrow keys of the right touch pad. Pressing the central SET key of the right touch pad again completes the respective entry.
mc-32 HoTT programming Preparatory measures based on the example of a winged model Programming models in an mc-32 HoTT … … is easier than it may appear at first! The basic requirement for "clean" programming, however, and this applies not only to the mc-32 HoTT, but basically to all programmable transmitters, is the 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 respectiv
whatever the case may be, you should consider a logical assignment of the control mechanisms before you begin with the model programming.
Initial steps for the programming of a new model Example: Winged model with two ailerons and – initially – without motor propulsion In the scope of the initial commissioning of a new transmitter, in the selection menu … "General settings" (page 224) BASIC SETTINGS Own H- J S a n d b r u n n e r Stick mode 1 PPM10 DSC Output back Pitch min Contrast 0 unlim. Display light yes Power-on beep Ni-MH Batterie type 4.7V Batterie war ning Power on war n.
• If the battery voltage is too low, you cannot switch models for safety reasons. A corresponding message appears in the display: not possible now voltage too low Once this first hurdle is cleared, the connection of the receiver built into the model to this model memory can be made in the menu … ""Basic model settings" (page 68 … 73) . For this purpose, switch to the line "RF bind": BASIC SETTINGS, MODEL GRAUBELE Mod.
"Aile/flaps": 1 or 2 AIL servos and 0, 1, 2 or 4 FL servos Since we want to actuate the brake system of the "Brake settings" submenu under the "Wing mixers" menu with the C1 joystick, we will leave the setting to the outer right in the "Brake off" set to "Input 1". With the "Offset value" to the left of this, you should only place the mixer neutral point at the point where the brake system is retracted or inactive.
menu … "Joystick setting" is not only interesting for pilots of models with motors. (page92) Ch.1 Aile Elev Rudd GL GL GL GL 4 4 4 4 Tr St 0.0s 0.0s 0.0s 0.0s with only two servos in the wings, the Multi-flap menu beginning on page 157 is not shown. WING MIXERS Brake settings 0% Aile.diff. AI 0% ––– RU EL 0% 0% ––– AI nor mal 0.0s 0.0s 0.0s 0.
EL Brake Cur ve on Input –19% Output –6% Point 1 –7% Normal After exiting the "Brake settings", the "Aileron differentiation" can be set: This serves to eliminate the negative torque. The downward deflected aileron normally generates a higher level of resistance during the flight than when deflected upward the same distance, whereby the model is pulled to the "wrong" side.
"Fail safe" menu (page 196) FAIL SAFE Pos hold 1 2 3 4 5 6 DELAY : 0.25s STO … because "doing nothing" is the worst thing which can be done for a winged model. In the transmitter's home position, "Hold" is specified and "Hold" means that the receiver continuously sends the last correctly recognized control impulse to the servos in the model.
Integration of an electric drive into the model programming Input Input Input Input 5 6 7 8 GL GL GL GL ––– ––– ––– ––– typ 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).
Input Input Input Input 5 6 7 8 GL ––– GL ––– GL ––– GL Ct7 typ 0% 0% 0% 0% offset Since the drive should usually be available depending on the current flight phase, if applicable, you should leave the standard default "GL" in the "Type" column – as already mentioned earlier in this section.
setting" and "Phase assignment" menus, the settings described above must be made in the same manner for each active flight phase. Otherwise, you may wonder why the drive motor begins running at half power after a phase change, but does not react to movements or the switch … Example 3 Use of a two-stage switch SW 2, 3 or 8 This variant realizes a purely ON/OFF function.
Control E-motor and crow alternatingly 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.
Pha1 Pha2 Pha3 Pha4 Pha5 Nor mal – Landing – Strecke – – Name ¾ Clk 1 ph.Tim. 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 142. Now move the marking frame over the "Ph.Tim" column to the "Motor" column to the right.
line "Aile.diff." With the "Elevat curve" mixer the normally occurring "Upward tilting" of the model on the raising of the 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.
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. For this purpose, program the menus "Model type", "Phase setting" and "Phase assignment" in the same manner as described under Example 4.
Detail program description - Control adjust 251
Timer confirmation with control or switch Examples 4 and 5 of the preceding pages If you have decided to continue with the model programming on described on the previous pages for Example 4, page 247 or 5, page 250 or you intend to use the C1 joystick (throttle/brake joystick) for the power regulation completely independently of this example programming, you can use a control switch for the automatic starting and stopping of the timer.
point at the selected position by briefly pressing the central SET key of the right touch pad. The switch status is shown to the right of the control number: CONTROL SWITCH ––– C1 Ct6 –85% C2 0% ––– ––– C3 0% C4 0% ––– STO SEL Notice: 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. Ct1 used in the example here should be "closed" in the "full throttle" direction and "open" below the switching point.
Servos running in parallel 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 at C1 None 2ELSv3+8 Tail type Aile/flaps 1AIL Brake Off +100% In 1 SEL Then carry out the fine-tuning of the travel of the two servos "as accustomed" 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.
Use of flight phases Up to seven different flight phases (flight statuses) can be programmed with settings independent of one another within one of the model memories. Each of these flight phases can be called with a switch or a switch combination. This makes it possible to switch between different settings for the various flight statuses, such as "Normal", "Thermal", "Speed", "Distance", etc., simply and conveniently. However, with the flight phase programming you can also make slight modifications, e. g.
to enable a "smooth" transition of the various servo 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 "¾". 2. Step In order to actually be able to switch between the individual flight phases, the assignment of one or multiple switches is necessary.
Here, select the menu item "Copy flight phase" with the arrow keys and then briefly press the central SET key of the right touch pad. In the appearing window, "Copy from phase", "1 Normal" is selected ... Copy from phase: 2 Ther mal 1 Normal 4 Launch 3 Speed => 6 5 => 7 … and then briefly press the central SET key of the right touch pad, whereby the display switches to "Copy to phase". Now the target is selected (initially "2 Thermal") and confirmed by pressing the central SET key of the right touch pad again.
BRAKE SETTINGS Crow +30% 0% 0% D.red +33% 0% 0% Elevat cur ve Nor mal WK2 AILE WK … and enter how wide the ailerons should be raised 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" submenu, enter a correction value for the elevator, see page 162.
Use of flight phases Example 2 … Glider with four flap wings, two large flaps and tow coupling AI FL EL RU FL AI The following example is based on the assumption that you have already mechanically preadjusted 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 setting" menu.
curve" menu has as little effect on this input as brake offset set to less than 100 %, which you can check very easily in the "Servo display" menu.
mixers" menu ... BRAKE SETTINGS Crow +44% +66% 0% D.red +77% +55% 0% Elevat cur ve QR WK WK2 Notice: The "Brake settings" menu is switched "off" if "yes" is entered for the currently active flight phase in the "Model type" menu, page 82, "Motor to C1 front/rear" and in the "Motor" column of the "Phase setting" menu, page 128. If applicable, switch to the flight phase Crow D.red Further above we designated the C1 joystick for the brake flap control.
PHASE ASSIGNMENT combi prior C D E F A B 6 7 2 1 Nor mal After the switch assignment is complete, use the arrow keys to switch to the bottom right and activate the assignment of phase names by briefly pressing the central SET key of the right touch pad. Now close "SW 7" by moving the selected three-stage switch upward. Assign the name "<2 Thermal>" to this switch position and leave the name "<1 Normal>" in the "OFF position" of this switch.
changing flaps (6 + 7) are moved continuously with a mixer proportion to be set in the "Wing mixers menu. Input 5 Input 6 Input 7 Input 8 Normal ––– Ct7 ––– ––– 0% 0% 0% 0% offset If you assign the still free second three-stage switch to Input 6 instead, you can call three different FL positions of the ailerons (AIL) and camber changing flaps (FL) as well as three elevator positions (Elev) in the "Thermal" flight phase, see the following page.
of mixture specified for the example compensates directly for the FL-pos. setting, whereas … • … in the other limit position, AIL and FL reach the maximum downward offset prescribed by the mixer percentage.
Control of temporal processes using time delay and curve mixers A useful, but less known capability of the mc-32 HoTT software is the ability to activate nearly any servo movements with a maximum duration of 9.9 seconds using a switch. The programming for this should be shown on the basis of some examples in the following. Additional applications can certainly be found once you become familiar with these capabilities.
… triggered by the same switch, but with a delayed startup of the drive motor connected to Output 10: C.MIX10 Cur ve on –100% Input –100% Output Point L –100% nor mal 9 10 Input 9 Input10 Input11 Input12 9.9 0.0 0.0 0.0 9.9 0.0 0.0 0.
Eight-flap wing By standard the mc-32 HoTT supports the comfortable control of up to eight servos for the aileron/ camber changing flap functions. In the following we will consider a model without motor drive and without spoilers in the wings.
… if necessary. In doing so, the basic programming of the eight-flap wing is completed. Camber changing flap positioning and flight changes First program two or more flight phases in the "Phase setting" and "Phase assignment" menus. On this occasion, also change the standard default "Global" to "Phase" in the "Joystick setting", page 92 for the effect of the digital trimming, if applicable, on your individual requirements. An example of flight phase programming can be found on page 256.
Input 5 +25% +25% Input 6 +25% +25% Input 7 +100% +100% Input 8 +100% +100% Thermal – travel + Input 9 +100% +100% Input10 +100% +100% Input11 +25% +25% Input12 +100% +100% Thermal – travel + Notice: With the use of a switch, set the respective "Deviation" of the offset point symmetrically or asymmetrically in the "- Travel +" column.
11 + 12 extend upward and the camber changing flap pairs "FL" (6 + 7) and "FL2" (9 + 10) extend downward, whereas the elevator is trimmed in parallel to this, see page 162. In order for the brake system to react to the C1 joystick as desired, however, the mixer neutral point (offset) of the brake system must be adjusted accordingly. This takes place in the menu … "Model type" (page 82) After selection of the line "Brake Off.
Delta and flying wing models Of course, the general comments regarding the installation and the adjustment of the RC system to a model at the beginning of the wing model programming on page 236 also applies for delta and flying wing models! Similarly, the comments for test flying and finetuning the settings to the programming of flight phases also apply. Free or aux. function or right flap 2 / elevat Free or aux. function or left flap 2 / elevato Free or aux. function Free or aux.
Delta/flying wing of the type: "2 AIL 1 / 2 / 4 FL" M O D E L T Y PE Motor at C1 None Delta/fl Tail type Aile/flaps 2AIL4FL Brake Off +100% In 1 SEL With delta/flying wing constructions with more than two flaps, more moments can be compensated for. For example , the "lifting" moment caused by the raising of the ailerons (= elevator effect) can be compensated for with camber changing flaps lowered correspondingly wide ( = hydroplane effect).
In order to now achieve this with the mc-32 Hott, switch to the "Brake settings" of the … "Wing mixers" menu (beginning on page 146) … and enter the values for the ailerons to be raised and the "flaps" to be lowered in the "Crow" line so that the occurring moments compensate one another and the altitude of the model remains stable.
"Only mix channel" (page 193) ...
F3A model 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. for the carburetor can – if necessary – be provided. You normally use one of the two proportional rotary controls on the transmitter, which actuates one of the unassigned auxiliary channels. Free or aux. function Free or aux.
After test-flying and trimming of the model, we recommend reducing the trim travel for the elevator and ailerons The model has significantly less of a reaction to a movement of the trim lever. "Overtrimming" can be avoided, because with full trim travel, under certain circumstances, the movement by just one trimming step can have too strong of an effect: Therefore, the model which previously pulled slightly to the left, hangs somewhat to the right after the trimming. For this purpose, switch to the menu ...
Basic procedure: • Move the C1 joystick and, along with it, the vertical line in the graphic display toward idle to -50 % control travel and briefly press the central SET key of the right touch pad. • In order to attain the curve shape shown, raise this point with the arrow keys to approx. 0 % in the inverse value field of the "Point" line.
Asymmetric setting. The appropriate values must be tested in flight. Relatively small mixer values are usually sufficient in this case, the range lies below 10 %, but can vary from model to model. With the use of curve mixers, the mix ratios can be adapted even more precisely to the corresponding throw of the rudder. Again, no values are indicated for this, because this would be model-specific.
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.
change these in the adopted defaults "Stick mode", "DSC output" and "Pitch front/rear" as well as within the respective model memory location. The setting the "Contrast" line determines the legibility of the display under poor light conditions and the setting in the "Display light" line determines how long the display lighting remains illuminated after the transmitter is switched on or after the last key actuation.
… BASIC SETTINGS, MODEL Mod.name Stick mode 1 bind RF BIND n/a n/a Rcv Ch Map R12 BD1 BD2 … which is comprised of the characters available for selection on the second screen of the "Mod. Name" line: BASIC SETTINGS, MODEL ON RF transmit 99sec RF Range Test PPM10 DSC Output Autorotation 8I The selected switch should be in a location on the transmitter which is easily within reach – without releasing a joystick – e. g. above the pitch joystick. !"#$%&’() +,–.
"Swashplate mixer" (page 196) "Joystick setting" SWASH MIXER Pitch +61% +61% Roll Nick +61% Thr. Roll Nick Tail SEL ... If the swashplate mixer should not follow the joystick movements properly, first change the mixing directions from "+" to "-" before you change the servo directions in the menu ... "Servo adjustment" S1 S2 S3 S4 S5 0% 0% 0% 0% 0% Rev cent (page 90) 100% 100% 100% 100% 100% 100% 100% 100% 100% 100% tr v + ...
Then switch to the "Travel" column with the arrow keys f of the left or right touch pad and increase the now inversely highlighted value from +100 % to +125 % with a fully opened throttle limiter after briefly pressing the central SET key of the right touch pad: Input 9 Input10 Input 11 Th.L.12 normal +100% +100% +100% +100% +100% +100% +100% +125% – travel + In doing so, it is assured that the throttle limiter releases the entire throttle travel with the pitch joystick later during flight.
Pitch Cur ve off Input +100% Output +50% Point H +50% normal Notice: A rotor adjustment gauge, such as the Graupner adjustment gauge, Order No. 61 is very useful in reading the angle. Now move the pitch joystick toward the pitch minimum position until its limit position. Depending on the ability of the pilot, adjust the value of point "L" so that the blade angle of approach is 0 to -4 °.
Pitch Thr setting AR Tailoffset AR Gyro suppress Swash rotation Swash limiter Autorot –90% 0% 0% 0° OFF The line "Thr. setting AR" is important. Enter the value to the right depending on the servo direction to either approximately +125 % or -125 %. Pitch Thr setting AR Tailoffset AR Gyro suppress Swash rotation Swash limiter Autorot –125% 0% 0% 0° OFF SEL In doing so, the motor is safely switched off in the autorotation phase (in case of emergency).
"Channel 1 curve" (page 119) C1 Cur ve Cur ve off Input 0% Output 0% Point ? 0% normal This function is a type of "convenient exponential curve" for the throttle/pitch joystick and the mixer functions connected to it. If ever, this curve should only be applied "cautiously" at the very end, when all adjustments have been made. It should never be used for the throttle/pitch adjustment! The overlappings result in "nasty" effects.
The assignment of the switch takes place in the menu … "Phase assignment" (page 134) Under "C" and "D" assign the three-stage switches SW 4 + 5, for example: PHASE ASSIGNMENT combi prior C D E F A B 4 5 2 1 Nor mal Now you must assign the corresponding flight phase from the "Phase setting" menu to the respective switch position. Since you have already assigned names, the name of the phase "1 Normal" appears to the right in the display.
Enhancement recommendation: Rotational speed regulator At some point in time you may want to install a rotational speed regulator in the helicopter, such as mc-Heli-Control, in order to be able to fly with speeds automatically kept at a constant. In the process, it is logical to couple the individual rotational speeds with the flight phases so that further additional adjustments are possible.
Appendix PRX (Power for Receiver) Order No. 4136 GPS/Vario module Graupner HoTT Order No. 33600 Vario moduleGraupner HoTT Order No. 33601 Highly developed, stabilized receiver current supply with intelligent power management. The unit ensures a stabilized and adjustable current supply of the receiver in order to increase the reliability of the current supply even further. Suitable for various receiver batteries in order to guarantee an uncomplicated and wide range of application.
General Engine-Module Graupner HoTT Order No. 33610 General Air-Module Graupner HoTT Order No. 33611 Electric Air-Module Graupner HoTT Order No. 33620 General sensor for Graupner HoTT receivers and models with combustion or electric motor: • 2x temperature and voltage measurements with warning thresholds for min. and max. voltage and min. and max. temperature • Single cell measurement with warning thresholds for min. voltage • Voltage, current and capacity measurement with warning thresholds for min.
RPM Magnet Sensor Graupner HoTT Order No. 33616 Graupner HoTT Smart-Box Order No. 33700 Graupner HoTT USB interface Order No. 7168.6 RPM Optical Sensor Graupner HoTT Order No. 33615 Wide-ranging functions combined into one device make the SMART BOX your future smart companion. Whether it comes to displaying real-time telemetry data or settings are made on your HoTT system, 8 x 21 characters on a large display enable easy use.
FCC Information Graupner mc-32 HoTT #33124 FCC ID: ZKZ-MC-32 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.
Declaration of Conformity mx-12 HoTT - No. 33112, mx-16 HoTT - No. 33116, mx-20 HoTT - No. 33124, GR-12 HoTT - No. 33506, GR-16 HoTT - No. 33508, GR-24 HoTT - No. 33512 2 Geräteklasse: V1.7.
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