Appendix Before use Warning and advisory symbols and their meaning Appendix..................................................................... 220 Declaration of conformity............................................ 226 Graupner Service Centre........................................... 227 Warranty certificate..................................................... 227 We are glad that you have chosen a Graupner mz-18 HoTT or mz-24 HoTT 2.4 GHz remote control system.
Safety instructions Please follow the instructions. To extend your enjoyment of your model, carefully read this entire manual and pay special attention to the safety instructions. You should also register now under https:// www.graupner.de/en/service/product_registration.aspx to automatically receive latest product information by e-mail. If you are a beginner on remote-controlled model airplanes, ships our cars, contact an experienced model pilot for their advice.
diversity antennas (two antennas), the active end of the second antenna should be at a 90° angle from the end of the first antenna, and the distance between the active ends should ideally be more than 125 mm. Installing the servos Always install the servos with the provided rubber vibration damper as shown in the "Installation instructions" on page 34. This is the only way to protect them somewhat from excessive vibration.
the rudder are noticeably slower. Replace damaged batteries in a timely manner. Always follow the manufacturers charging instructions. Do not charge the batteries without monitoring them. Never attempt to charge dry batteries. An acute explosion hazard exists. All batteries must be charged before each use. To prevent short-circuits, first plug the banana plugs of the charging cable into the charger (make sure the poles are correct).
for products or accessories by other manufacturers that have not been approved, and is incapable of evaluating every single third-party product to determine if it can be used safely. Disclaimer/damages This manual is exclusively for information purposes and is subject to change without prior notification. Graupner|SJ GmbH assumes no responsibility or liability for mistakes or ambiguities that may be found in this manual.
Safety instructions and handling guidelines for nickel metal hydride rechargeable batteries As is the case with all high-quality products, the following safety instructions and handling guidelines must be observed to ensure long, trouble-free and safe use. • • NOTE: • • • • • • • • • • 8 Batteries as well as individual cells are not toys and must be kept from children. They must therefore be stored out of the reach of children.
grams unnecessarily shorten the life of batteries and are only suitable for checking the battery quality or restoring old cells. It is likewise not recommendable to charge and discharge a battery before a single use unless you want to check the battery's quality. Instructions on the mz-18 HoTT remote control set Order No. S1005 The respective Transmitter set is equipped with a four-cell NiMH transmitter battery (subject to change). After reaching the factory default undervoltage limit of 4.
Safety instructions and handling guidelines for lithium-ion and lithium polymer rechargeable batteries As is the case with all high-quality products, the following safety instructions and handling guidelines must be observed to ensure long, trouble-free and safe use of lithium-ion and polymer batteries. Lithium-ion/lithium polymer batteries require special treatment. This is true when charging, discharging, storing and all other types of handling.
• Make sure to observe the charging and discharging instructions. Storage Lithium lithium-ion/lithium polymer cells should be stored charged with 10-20% of their capacity. If the cell voltage falls below 3 V, the lithium-ion/lithium polymer cells must be recharged to 10-20% of the full capacity. Otherwise, the battery will die during storage and become useless.
Disposal of used single-use and rechargeable batteries According to the Germany Battery Directive, consumers are bound by law to return all used single-use and disposable batteries. They may not be disposed of in household garbage. Old single-use and rechargeable batteries can be dropped off without reimbursement at municipal collection sites, at our sales outlets and wherever single-use or rechargeable batteries of the relevant type are sold.
Computer systems for the mz-18 and mz-24 series two remote control sets with a 2.4 GHz Graupner HoTT system (hopping telemetry transmission) Common features mz-18 remote control set, order No. S1005 mz-24 remote control set, order No. S1006 • • Delivered items mz-18 HoTT transmitter, order No. S1005.en, with installed flat NiMH transmitter battery 4NH-2000 RX RTU (subject to modification), plug-in charger (5.6 V/200 mA), bidirectional Graupner receiver GR12L HoTT (order No.
Technical data mz-18 and mz-24 HoTT transmitters GR-12L HoTT receiver Frequency band Operating voltage 2.4 … 2.4835 GHz order No. S1012 3.6 … 8.4 V* Modulation FHSS Power consumption Approximately 70 mA Transmitting power 100 mW EIRP Frequency band 2.4 … 2.4835 GHz Control functions mz-18 HoTT: 9 functions of which 4 can be trimmed mz-24 HoTT 12 functions of which 4 can be trimmed Modulation FHSS Antenna 1 x approx. 145 mm long, approx. 115 mm encapsulated and approx.
General operating instructions mz-18 and mz-24 HoTT transmitters Transmitter power supply Note: The mz-18 HoTT transmitter comes standard with a rechargeable NiMH battery with 2000 mAh capacity, and the mz-24 HoTT transmitter comes standard with a 1s2p lithium-ion battery with 4000 mAh capacity (subject to modification). • The standard battery installed in the transmitter is uncharged upon delivery. The transmitter battery voltage should be monitored in the LCD display during operation.
Charging using automatic chargers To fast charge the transmitter battery, Graupner automatic chargers can be used. The following table offers a selection.
General charging instructions Adjusting the control sticks • • Both the left and right control sticks can optionally be set from neutralizing to non-neutralizing and vice versa. The resetting force on the control sticks can be set to the pilot's preferences. The related adjusting system is on the back of the transmitter in the battery compartment, under the rubber covers, and under the side grips attached with double-sided adhesive tape (see the marks in the following picture).
Transmitter description Front side Control elements on the mz-24 HoTT transmitter proportional dial DV2 Rotatable and foldable antenna proportional dial DV3 proportional dial DV4 proportional dial DV1 Switch SW 6 Switch SW 8 Switch SW 5 Switch SW 7 Switch SW 1 Switch SW 4 Switch SW 2 Switch SW 3 INC/DEC buttons DT2 INC/DEC buttons DT1 Right control stick Left control stick Eyelet for carrying strap Trim Trim ON/OFF switch Alternative selection buttons ESC button 18 Alternative adjusting
Button lock Access to adjustments can be blocked in the basic transmitter display by simultaneously pressing the ESC and ENT buttons for about one second.
Display Graphic display of the position of the standard, left INC/DEC button DT 1 with a numeric position and direction display that only comes with the mz-24 HoTT transmitter. Graphic display of the position of the proportional dials DV 1 (mz-18 HoTT) and DV 2 (mz-24 HoTT) with a numeric position and direction display. Graphic display of the position of the standard, right INC/DEC button DT 2 with a numeric position and direction display that only comes with the mz-24 HoTT transmitter.
Operating the displays The display is basically operated by touching the desired field with a finger or the provided stylus: 000% 000% 4.2V 000 000 mz 0:01:23 M 1 000 000 000:00.0 identified with"B", "F", and "S", special selection menus open on the bottom right from which you can switch to other submenus.
Warnings Depending on the context, different warning windows appear in the display for the mz-18 HoTT transmitter and the mz-24 HoTT transmitter. These can be divided into two groups: Warning display These smaller windows primarily appear after the transmitter is switched on and indicate certain operating states. In the following illustration, for instance, the red dot after "CH1-POS" indicates that the CH1 control stick, or as of firmware version V 1.
If acoustic warnings sound and the normal transmitter display is covered by this display, take note of the message in red. For example because the transmitter's supply voltage has reached the warning threshold set in the submenu "Etc.Set" of the system menu, page 202: BACK CLR AUTO LOAD ON TX VOLT 03 3.5V RX VOLT 00 3.7V STRENGTH 00 000% STRENGTH ALARM ESC CUR. 00 000.0A ESC VOLT 00 00.0V ON At the same time, the display contrast is reduced to 05 to save power.
Backside of the transmitter DSC socket (The figure shows the mz-24 HoTT transmitter.) The abbreviation "DSC" is from the initial letters of the original function, "direct servo control". With the HoTT system, "direct servo control" using a diagnostic cable is not possible for technical reasons. The standard two-pin DSC socket on the back of the mz-18 HoTT and mz-24 HoTT transmitters functions as a trainer or pupil socket as well as an interface for flight simulators or other external devices.
only be used if you protect yourself from electrostatic discharge while operating the simulator by wearing a commercially available grounding armband. Graupner therefore strongly recommends only using wireless simulators.
Card slot micro-SD and micro-SDHC The card slot for micro-SD and micro-SDHC memory cards is found right of center under the back cover of the mz-18 HoTT mz-24 HoTT transmitters: In addition to the micro-SD memory cards that come standard, all conventional micro-SD memory cards with up to 2 GB and micro-SDHC cards with up to 32 GB memory can be used. The manufacturer recommends using memory cards with a maximum of 4 GB since this capacity is normally sufficient.
mini-USB connector Located under the rear cover of the mz-18 HoTT and mz-24 HoTT transmitters, there is a connector socket for software updates as well as the date and time setting from a desktop or laptop with one of the Windows operating systems (XP, Vista, 7 or 8): The USB cable that comes with the set is plugged into this socket. The procedure for obtaining software updates through a computer is described in the software package instructions.
Starting up the transmitter Introductory remarks on the mz-18 HoTT and mz-24 HoTT transmitters Theoretically, the Graupner-HoTT system allows more than 200 models or remote-control systems to be operated at the same time. This number will be significantly less in practice since permits are required for combined remote operation within the 2.4 GHz ISM band. Generally however, more models can be operated at the same time within the 2.
the currently active model memory is not linked to any receiver. Important instructions: • • • • The transmitter which comes with the set comes with the correct operating settings for most countries in Europe. However in this context, please also note the instructions on page 76. Using connectors 1 … 9, a maximum of 9 servos can be operated with the mz-18 HoTT transmitter together with the GR-24 receiver which comes with the set and is already linked to the first model memory.
Updating the transmitter software Restoring the transmitter software Program: "Restore" Firmware updates for the mz-18 HoTT and mz-24 HoTT transmitters can be obtained via the mini-USB connector on the back of both transmitters using a computer operating on Windows XP, Vista, 7 or 8.
Personal notes S1006_mz-24.3.en.indd 31 31 17.12.
Starting up the receiver Preliminary remarks The mz-18 HoTT and mz-24 HoTT remote control sets each come with a GR-24 bidirectional 2.4 GHz receiver which can be connected to a maximum of 12 servos, as well as a bidirectional GR-12L HoTT receiver. Using connectors 1 … 9, a maximum of 9 servos can be operated with the mz-18 HoTT transmitter together with the GR-24 HoTT receiver which comes with the set and is already linked to the first model memory.
You can then start a binding procedure for the transmitter and receiver. If a linked receiver is reset and the associated model memory is active in the switched-on transmitter, the LED shines green continuously for about 2-3 seconds to indicate that your transmitter/receiver system is ready to use. Please note the following: Resetting resets all of the settings in the receiver to the factory settings with the exception of the binding information.
Installation instructions Installing the receiver Whatever Graupner receiver system you use, the procedure is the same. Note that the receiver antennas must remain at least 5 cm from all large metal parts or wires that do not come directly from the receiver. In addition to steel parts, this includes carbon fiber parts, servos, fuel pumps, every kind of cable, etc. It is preferable to install the receiver away from all other installed parts at an easily accessible location in the model.
Receiver power supply depends on the model type. Refer to the connector assignments on pages 40 and 41. In addition, consult the safety instructions on pages 4 … 12. To prevent uncontrolled movements of the servos connected to the receiver system, during startup first switch on the transmitter and then the receiver. When turning off the model, first switch off the receiver and then the transmitter. When programming the transmitter, make sure that an electric motor cannot accidentally start.
000% RX 000% 4.2V TX RX 05.2V 000 0:01:23 M 1 000 mz 000 000:00.0 000:00.0 000 NORMAL MODEL NAME 1 BATT TIME 00: 01: 23 000 000 If the voltage falls below the warning threshold (normally 3.8 V) which can be adjusted in the "RX SERVO TEST" display of the "SETTING & DATA VIEW" of the "Telemetry" menu, starting on page 124, a visual and acoustic low-voltage warnings are generated. The battery level should be checked regularly.
Definition of terms Control, function input, control channel, mixer, switch, control switch To make it easier to use the mz-18/24 HoTT manual, we offer a few definitions of terms that appear repeatedly in the manual. Control function A control function is understood as the signal for a specific control function independent of the signal within the transmitter. With airplanes, the control signals would be throttle, rudde, aileron or elevator; with helicopters, these would be pitch, roll, nick or yaw.
Control, switch and control switch assignment Basic procedure In many places in the program, you can actuate a control function with a freely selectable control (ST1 … 4, DV1 … max. D4, DT1 and DT2, SL1 and SL2), switch (S1 … 8), or switch between settings by a switch (S1 … 8) or control switch (see below). In both cases, multiple assignments are possible. (The distinction between a control and switch is explained in the section "Definition of terms" on page 37.
In this display, you can determine the switch position in which the selected switch is "ON" by touching the corresponding button, for example: BACK Control switch assignment Graubele BACK ON CON.ST POS SW 1 OFF BACK Graubele OFF SW 6 OFF Select the desired switching direction as above.
Receiver assignment Fixed-wing models Installation instructions The servos must be connected to the receiver in the indicated sequence. Outputs that are not required are simply not assigned. Please note following for the mz-18 HoTT transmitter: By default, the 9-channel mz-18 HoTT transmitter can only control outputs 1 to 9. Any servos that are connected to outputs 10 to 12 remain in their neutral position with this transmitter. Follow the instructions on the subsequent pages.
Helicopter models Advice to pilots switching from some older Graupner systems: In comparison to the receiver configuration of some older transmitters, servo connector 1 (pitch servo) and servo connector 6 (throttle servo) have been switched. The servos must be connected to the receiver outputs as depicted on the right. Outputs that are not required are simply not assigned. More details on the swashplate type may be found on page 48 in the menu "Model selection".
Program description Whoever has worked his way through this manual up to this point will have probably tried out some form of programming. Nonetheless, an attempt will be made to describe each menu in detail. As already mentioned in section "Operating the displays" on page 21, you can touch one of the three gear icons at the bottom right of the basic display identified with "B", "F" and "S" … 000% "B" (green base menu) Touch the gear icon labelled "B" with a finger or the provided stylus.
Idle LOW "Idle setting"* 148 Prog.MIX "programmable mixer" 100 Snap roll "Snap role setting"* 149 AILE diff "AILE differentiation"* 150 Flap MIX "AILE and FLAP mix"* 152 Flap Sett "Flap setting"* 156 Airbrake "Airbrake settings"* Butterfly Trainer V-tail "V-tail"* 166 Telemetry * THR.HOLD 190 Swash "Swashplate mixer" 192 S.Limit " Swashplate limiter" 193 S.MIX "Heli mixer" 194 MP3 THR.MIX "Throttle mixer" 196 Prog.
Model selection Edit model memories 1 … 30 Switch on the transmitter, and then in the basic display of the transmitter, touch the value field M x on the left in the display with a finger or the provided stylus to directly display the submenu "Model Sel", or alternately touch the gear icon labelled "B" to open the same menu from the base menu: 000% 000% RX 000 mz 0:01:23 M 1 000 000 Motor BACK 02 MODEL NAME 2 NEW NEW 000:00.0 03 MODEL NAME 3 IMP.M 04 MODEL NAME 4 EXP.M 000:00.
BACK MODEL NAME 1 NEXT (create new model) BACK MODEL NAME 1 NEXT 01 MODEL NAME 1 SEL Note: 01 MODEL NAME 1 SEL 02 MODEL NAME 2 NEW • 02 MODEL NAME 2 Select NEW 03 04 MODEL NAMEWIZ. 3 MAN. MODEL NAME 4 05 Touch MODEL NAME 5 RES 06 MODEL NAME 6 CPY 03 MODEL NAME 3 IMP.M 04 MODEL NAME 4 EXP.
All other characters can be entered in the same manner. A maximum of 15 characters can be entered for a model name. By touching DE [DELETE] in the bottom row of red buttons, the last character is deleted. To delete all of the entered characters at once, touch CL [CLEAR].
• "Tail type" …, in which you can specify the type of your tail: M/TYPE W/TYPE Entering the basic settings of a new model with an wizzard P/TYPE NORMAL ACRO 2AILE ELEC T/TYPE AIRPLANE NOR V 2ELE NORMAL V-TAIL 2ELEVATOR Finish your entry by selecting … • "Propulsion type" ELE.
As previously described with reference to manual model programming, basic programming is started by entering a model name when programming a model with an wizzard. Current Model Name A B C D E F Current Model Name MODEL NAME 2 G H I J K L MODEL NAME 2 • New Model Name M N O P Q R U V W X "Model name" WIZ.
• • • • • • "1SERVO NOR" You are using a flybar system, or the swashplate is tilted by a roll and elevator servo. A separate servo is used for the pitch control. (Since helicopter models with only one pitch servo that have three swashplate servos for pitch, elevation and roll also operate without a mix of functions in the transmitter as is usually the case with flybar systems, the menu item "SWASH MIX, page 192, normally does not appear on the multifunction menu.
• "REV/SLOW" (servo reverse/delay) NOR 1. 0.0s 7. NOR 0.0s 7. NOR 0.0s 1. NOR 0.0s 7. NOR 0.0s 2. NOR 0.0s 8. REV 0.0s 2. NOR 0.0s 8. REV 0.0s NOR 0.0s 9. NOR 0.0s INC 3. NOR 0.0s 9. NOR 0.0s INC NOR 0.0s 10. NOR 0.0s RES 4. NOR 0.0s 10. NOR 0.0s RES 0.0s RES 5. NOR 0.0s 11. NOR 0.0s DEC 5. NOR 0.0s 11. NOR 0.0s DEC 0.0s DEC 6. NOR 0.0s 12. NOR 0.0s 6. NOR 0.0s 12. NOR 0.0s 8. NOR 0.0s 0.0s 9. NOR 0.0s 4. NOR 0.
• "E.P.A" (servo travel/limit) WIZ. WIZ. E.P.A CH 1. 150% 100% 100% 150% WIZ. E.P.A CH 1. 150% 100% 100% 150% CH 2. 150% 100% 100% 150% NORMAL D/R EXP CH AILE NEXT CH 2. 150% 100% 100% 150% NEXT CH 3. 150% 100% 100% 150% INC D/R Touch +100% +100% INC CH 3. 150% 100% 100% 150% INC CH 4. 150% 100% 100% 150% RES EXP 000% RES CH 4. 150% 100% 100% 150% RES CH 5. 150% 100% 100% 150% DEC CTL NULL CH 5.
on page 38. 2. Display "Control path setting" CH5 … 9 or CH5 … 12 The above-described classic dual rate/expo function now has a non-switchable dual rate function or control path setting for the control functions 5 … 9 of the mz-18 HoTT transmitter and 5 … 12 of the mz-24 HoTT transmitter. As shown in the above illustration, repeatedly touch the button with a finger or the provided stylus in the "CH" line until "CH5-9“ or "CH5-12" appears: NORMAL WIZ.
WIZ. Pitch min. example: NORMAL Pit.CRV REAR WIZ. TRIM Warning OFF Curve ST OFF X-axis IN –100% Y-axis ENT POINT Touch NO with a finger or the provided stylus to terminate the procedure. Touch YES to confirm the procedure which changes the direction of travel of the pitch control stick. WIZ. TRIM OFF Curve IN –100% INC OUT –100% POINT ST OFF L X-axis –100% DEC Y-axis ENT "Pitch curve" setting Note: • • In the graphic of the display, the curve characteristics are shown directly.
WIZ. Pitch min. FORWARD TRIM Curve OFF IN 000% OUT 000% POINT 2 ST ON INC 000% X-axis Y-axis Touch DEC ENT • WIZ. NORMAL Pit.CRV Pitch min. FORWARD TRIM Curve OFF IN 000% OUT 000% POINT ST ON ? X-axis INC 000% DEC Y-axis ENT Changing the support point value • X-axis button (X-axis) Activate this function by touching the button at the bottom edge of the display with a finger or the provided stylus.
finger or the provided stylus: WIZ. CTL MIXER NONE NONE L 1 NONE NONE L 1 NONE NONE L 1 NONE NONE L 1 NONE NONE L 1 NONE NONE L 1 POINT Q.LINK INC RES DEC "CTL" column: In in the first column of the menu with the heading "Control", select a control that appears suitable for this purpose from the controls offered by your mz-18 HoTT or mz-24 HoTT transmitter.
WIZ. CTL MIXER SL1 THR.CRV L 1 NONE NONE L 1 NONE NONE L 1 NONE NONE L 1 NONE NONE L 1 NONE NONE L 1 POINT Q.LINK INC RES DEC You may change the current value in the blue (active) value field by touching the INC or DEC buttons at the right edge of the display the desired number of times, for example: WIZ. CTL MIXER SL1 THR.CRV 3 NONE NONE L 1 NONE NONE L 1 NONE NONE L 1 NONE NONE L 1 NONE NONE L 1 POINT Q.LINK 1 INC RES DEC 56 WIZ. CTL MIXER WIZ.
• "Thr.CRV" The throttle curve can be specified by up to 7 points, the so-called support points, along the entire control stick travel depending on the Quick Link: WIZ. NORMAL Thr.CRV TRIM THR.Limit +100% OFF Curve IN INC –100% OUT –100% POINT ST OFF L 000% DEC X-axis Y-axis ENT The support points are set, changed and deleted in the same manner as explained in the previous section, "Pitch curve", starting on page 175.
WIZ. NORMAL GYRO WIZ. landing. Therefore, as described in detail in the section "THR.
IMP.M M/TYPE SWASH Heli HELICOPTER 3S ELEC 3SERVO 140 ELE.POWER (import from SD card) Once a memory card is in an operational transmitter, a blue memory card icon appears at the top right of the basic display: P/TYPE 000% 000% RX 4.2V TX RX 00.0V 000 ENT mz 0:01:23 …, which you can leave to go to the base menu by touching the ENT button at the right bottom with a finger or the provided stylus: BACK BASE FUNCTION SYSTEM M 1 000 Motor Servo Model Type TX ctl CH Set E.P.
BACK EXP.M SD card data 01 Graubele NEXT 02 Soarmaster NEW 03 Extra 330 IMP.M 04 Bell 47G EXP.M 05 06 QUELLE 02 Please Ziel 02 wait!! J N RES MODEL NAME 1 000% CPY … while the selected model is imported into the selected mode memory.
BACK Graubele NEXT 01 Graubele SEL 02 Soarmaster NEW 03 MODEL NAME 3 04 MODEL NAME 4 05 MODEL NAME 5 06 MODEL NAME 6 IMP.M 01 02 Graubele Graubele Soarmaster Graubele IMP.M Soarmaster EXP.M MODEL NAME 3 IMP.M 05 MODEL NAME 5 RES MODEL NAME 4 EXP.M 06 MODEL NAME 6 CPY 06 MODEL NAME 6 CPY … while the selected model is being exported to the SD card.
BACK Graubele NEXT 01 Graubele SEL 02 Soarmaster NEW CPY (copy model model) In the "Model Sel" menu described here … BACK Graubele NEXT 03 MODEL NAME 3 IMP.M 04 MODEL NAME 4 EXP.M 02 05 MODEL NAME 5 RES 03 06 MODEL NAME 6 CPY 04 MODEL NAME 4 05 MODEL NAME 5 RES 06 MODEL NAME 6 CPY SPEICHER Please INIT.? wait!! N J … while the selected model is being initialized.
BACK 01 Graubele NEXT Graubele SEL 02 MODEL NAME 2 NEW 03 MODEL NAME 3 IMP.M 04 MODEL NAME 4 05 MODEL NAME 5 06 MODEL NAME 6 SOURCE 01 Touch EXP.M TARGET 02 RES YES CPY NO Note: When copying a model memory, the binding data are also copied along with the model data. For this reason, the receiving system associated with the original model memory can be operated with the copy of the model memory in the same transmitter without reestablishing the binding.
Model Type Change the model type Touch the icon for the model type in the basic transmitter display with a finger or the provided stylus to directly display the submenu "Model Type", or alternately touch the gear icon labelled "B" to open the same menu from the base menu: 000% RX 4.1V TX 000 000 mz 0:01:23 M 1 000 000 ACRO 000:00.0 NORMAL Graubele BATT TIME 00: 01: 23 000 000 In the latter case, the display switches to the green base menu.
… by touching the new wing type with a finger or the provided stylus. Use the same procedure for all of the selectable fields. 1S 2S 3S-R 1SERVO NOR 2SERVO 180 3S 120(Roll) 3S 3S-N 4S 3SERVO 140 3S 120(Nick) 4SERVO 90 Note: In contrast to the display of the 12-channel mz-24 HoTT transmitter, only "1A" to a max. "2A2F" are offered in the display of the 9-channel mz-18 HoTT transmitter. … etc.
E.P.A End Point Adjustmen In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "B": 000% RX 000% 4.1V TX RX 00.0V 000 000:00.0 000 mz 0:01:23 M 1 000 000 000:00.0 Touch NORMAL Graubele BATT TIME 00: 01: 23 000 000 The display switches to the green base menu. Touch the menu item "E.P.A" with a finger or the provided stylus.
2 3 NORMAL Graubele BACK 1 4 5 6 7 8 9 10 11 12 VIEW 000% 000% 000% –061% –100% +100% 000% 000% 000% 000% +100% +061% To go to the "base menu", leave the "Servo display" by touching the BACK button at the top left: Important: In contrast to the "CH Set" menu, all the settings of this menu refer to the relevant servo independent of where the control signal for the servo comes from , i.e., either directly from the control element or from mix functions.
Reverse/Slow Setting the servo rotational direction and delay In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "B": 000% Note: • 000% RX 4.1V TX RX 00.0V 000 000 mz 0:01:23 M 1 000 000:00.0 • 000:00.0 000 Touch NORMAL Graubele BATT TIME 00: 01: 23 000 000 The display switches to the green base menu. Touch the menu item "Rev/Slow" with a finger or the provided stylus. BACK Model Sel BASE Model Type FUNCTION E.P.
• Setting a transmitter-side symmetrical delay depending on the Quick Link Important: In contrast to the left column, numbers CH1 … CH9 for the mz-18 HoTT transmitter and CH1 … CH12 for the mz-24 HoTT transmitter refer to the control-side control channels.. NOTE Set a symmetrical delay for the transmitterside control signal with buttons with the standard labelling 0.0s .
Sub-Trim Setting the neutral position of servos In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "B": 000% RX 000% 4.1V TX RX 00.0V 000 000 mz 0:01:23 M 1 000 000 Note that if the neutral position is adjusted strongly, servo travel on one side may be restricted since the total travel is limited to ±150% for electronic and mechanical reasons. 000:00.0 BACK 000:00.
Personal notes S1006_mz-24.3.en.indd 71 71 17.12.
Motor (electric motor) Throttle Cut (gas engine) Switchable throttle cut or motor limiter Note: This menu is hidden when selecting a model configuration "NO POWER" in the basic settings of the "Model Sel" or "Model type" menu. In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "B": 000% RX 000% 4.1V TX RX 00.0V 000 000 mz 0:01:23 M 1 000 000 000:00.0 000:00.
Set a value with INC or DEC on the right to the outside at which the motor runs comfortably at your desired idle speed or is for example definitely "off": Graubele BACK ACT NORMAL INH S CTL ON RES –123% DEC With a gas motor, make sure that the throttle servo does not mechanically overtravel.
Transmitter control Transmitter settings In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "B": 000% 000% RX 4.1V TX RX 00.0V 000 000:00.0 000 mz 0:01:23 M 1 000 000 000:00.0 Touch NORMAL Graubele Bind ON/OFF To establish a telemetry connection to the transmitter, Graupner HoTT receivers must be "trained" to communicated exclusively with one specific model (memory) of a Graupner HoTT transmitter.
BACK RX1 RX2 BIND ON/OFF OFF OFF TX OUT SET SET SET RF ON/OFF RANGE TEST DSC OUTPUT BACK Touch OFF RF TYPE OFF 99sek NORMAL PPM10 Graubele RX1 RX2 BIND ON/OFF CHK OFF TX OUT SET SET SET RF ON/OFF OFF RF TYPE RANGE TEST OFF 99sek DSC OUTPUT NORMAL PPM10 Binding is complete once (within a period of approximately 10 seconds) the flashing red receiver LED shines green continuously. Your model memory/receiver combination is now operable.
BACK Graubele NORMAL SERVO 7 OUT7 1 OUT1 CH CH 2 OUT2 CH 8 OUT8 CH 3 OUT3 CH 9 OUT9 INC CH 4 OUT4 CH 10 OUT10 RES CH 5 OUT5 CH 11 OUT11 DEC CH 6 OUT6 CH 12 OUT12 STO CH Examples: Repeatedly touch INC or DEC with a finger or the provided stylus to select the desired input channel or transmitter output (see page 96), for example: BACK CH CH CH CH 1 OUT1 2 OUT2 3 OUT3 4 OUT4 Graubele CH CH CH CH NORMAL • • SERVO On a large model, you want to control each aileron flap usi
The previous France mode can nonetheless still be used, including outside of France, for example to use the upper frequency range of the 2.4 GHz band that this left available for transmitting pictures from an onboard camera. In this case, however, make sure that the antenna(s) of the video broadcast system in the model is/are attached at least 3 m from the active ends of the antennas for the RC receiver system.
NOTE: leave this menu and return to the base menu. Never start a range test on the transmitter during normal model operation! DSC OUTPUT To set the modulation of your transmitter at the DNC output, touch the button with the current setting in the "DSC Output" line (repeatedly if necessary) until the desired modulation appears.
Personal notes S1006_mz-24.3.en.indd 79 79 17.12.
Timers Setting TIMER 1 and TIMER 2 as well as the date and time The basic transmitter display comes with four timers (see the display below). Next to the green transmitter operating time and the model time on the left side of the display, there is an upper and lower timer on the right side of the display.
The color of the field switches from red to blue: BACK BACK Graubele TIMER1 TIMER1 000 T.RES UP 59 : 00 NEXT : 00 INC T.RES UP MODE ALARM START SW NULL RES START SW NULL Touch NULL RESET SW RESET SW NULL DEC LAP SW LAP SW NULL MODE ALARM BACK BACK TIMER1 MODE Graubele TIMER1 T.
BACK Date and time Graubele No LAPTIME No LAPTIME 1 2 3 4 5 6 7 8 9 10 04: 32. 1 04: 31. 2 04: 33. 5 04: 31. 9 04: 32. 8 00: 00. 0 00: 00. 0 00: 00. 0 00: 00. 0 00: 00. 0 11 12 13 14 15 16 17 18 19 20 00: 00. 0 00: 00. 0 00: 00. 0 00: 00. 0 00: 00. 0 00: 00. 0 00: 00. 0 00: 00. 0 00: 00. 0 00: 00. 0 PREV NEXT BACK Graubele No LAPTIME 1 2 3 4 5 6 7 8 9 10 00: 00. 0 00: 00. 0 00: 00. 0 00: 00. 0 00: 00. 0 00: 00. 0 00: 00. 0 00: 00. 0 00: 00. 0 00: 00. 0 11 12 13 14 15 16 17 18 19 20 00: 00.
Note: As of firmware version V 1.023, the date and time can also be updated with the aid of "Firmware_Upgrade_grStudio V4.x". BACK SET BACK SET DATE TIME DATE 2014 / 09 / 22 15 : 55 : 15 TIME "BATT TIME" and "MODEL TIME" lines To monitor the transmitter battery, use the operating time meter to record the overall total operating time of the transmitter from the last recognized increase in transmitter supply voltage. A switch cannot be assigned. The timer is automatically reset to "0.
Fail Safe What to do in case of a malfunction In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "B": 000% RX 000% 4.1V TX RX 00.0V 000 000 mz 0:01:23 M 1 000 000 000:00.0 When a receiver is delivered, all outputs are set to "hold" by default. This default can be individually changed for all receiver outputs with the assistance of the menu discussed here as well as the "Telemetry" menu, page 118. BACK 000:00.
BACK BACK Graubele CH MODE SET CH 1. F/S -111% CH 2. Touch the BACK button at the top left of the display to leave this menu and return to the base menu. Graubele CH MODE SET NEXT CH 1. F/S -111% NEXT BACK HOLD STO1 CH 2. HOLD STO1 CH MODE SET CH 3. HOLD STO2 CH 3. HOLD STO2 CH 1. F/S -111% CH 4. F/S CH 4. F/S Touch CH 2. HOLD STO1 SET CH 3. HOLD STO2 Delay 000% 0.25s SET Use same procedure to save additional fail safe positions.
Trim settings Trim settings In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "B": 000% RX 000% 4.1V TX RX 00.0V 000 000 mz 0:01:23 M 1 000 000 000:00.0 000:00.0 Touch exception of trim the throttle/brake control stick, also generally termed control function "THR" (channel 1)). T:CO (common) or T:SE (single) is specified at the top right of the submenu "Channel set", page 92, of the base menu. CH1 trim is generally set to "common", i.e.
Note: The numbering of the trim controls T1 … T4 refers exclusively to the assignment of control channels 1 … 4. Whether a specific name relates to a trim control of the left and right control stick depends on the selected stick mode, see page 200. "POS." line (trim position) The current trim positions are shown in the "POS" column. (The trim range is about ±30 % of the entire control path.
Digital Trim 1 or 2 BACK Independent from the above, you can assign the INC/ DEC buttons "DT1" and "DT2" only installed in the mz-24 HoTT transmitter in the lines "Digital Trim 1" and "Digital Trim 2" to any desired control channel, see "Definition of terms" on page 37, as the control. Touch the button in the line of the desired control, such as "Digital Trim 1": BACK NORMAL Graubele T1 T2 T3 T4 S VIEW STEP 04 02 04 04 INC POS.
Personal notes S1006_mz-24.3.en.indd 89 89 17.12.
Servo Display of servo positions and servo test function In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "B": 000% RX 000% 4.1V TX RX 00.0V 000 000 mz 0:01:23 M 1 000 000 000:00.0 000:00.0 Touch NORMAL Graubele BATT TIME 00: 01: 23 000 000 Servo monitor The display switches to the green base menu.
Servo test Note: 1 2 3 NORMAL Graubele BACK 4 5 6 7 8 9 10 11 12 Only start a servo test in a model memory created for this purpose without any mixer. Otherwise, unforeseeable servo deflections +0.5s INC RES will occur.
Channel Set Control and switch assignment In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "B": 000% RX 000% 4.1V TX RX 00.0V 000 000 mz 0:01:23 M 1 000 000:00.0 000:00.0 Touch 000 NORMAL Graubele BATT TIME 00: 01: 23 000 000 The display switches to the green base menu. Use a finger or the provided stylus to touch the "CH Set" menu item: BACK Model Sel BASE Model Type FUNCTION E.P.
Control assignment BACK Graubele SERVO BACK Graubele 1. Throttle ST 1 7. Aux 2 NONE 1. Throttle ST 1 7. Aux 2 NONE 2. Aileron 1 ST 2 8. Aux 3 NONE 2. Aileron 1 ST 2 8. Aux 3 NONE SERVO 3. Elevator ST 3 9. Aux 4 NONE 3. Elevator ST 3 10. Aux 5 NONE 4. Rudder ST 4 NONE 11. Aux 6 NONE 5. Aileron 2 NONE 9. Aux 4 NO 10. Aux 5 CLR 11. Aux 6 NONE ST 4 SL 1 12. Aux 7 NONE 6. Aux 1 SL 1 12.
Gas limit function With helicopter models, input 9 is assigned to proportional dial DV1 with the mz-18 HoTT transmitter, and input 12 is assigned to the proportional dial DV1 with the mz-24 HoTT transmitter: BACK Starlet T:CO SERVO 1. PITCH ST 1 7. Gyro NONE 2. Roll 1 ST 2 8. Governor NONE 9. Aux 2 DV 1 3. Pitch-axis1 ST 3 4. Tail rotor NONE 6. Throttle NONE BACK Starlet T:CO SERVO 1. PITCH ST 1 7. Gyro NONE 2. Roll 1 ST 2 8. Governor NONE 9. Aux 2 NONE ST 4 10.
Basic idle settings First turn the gas limiter (the proportional dial DV1 on the front left or top left of the transmitter) clockwise all the way. Move the throttle/pitch control stick to the maximum pitch position and, in the submenu … "THR.CRV" (starting on page 181) … of the function menu, make sure that the standard gas curve is active.
Output swap Changing the outputs in the transmitter In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "B": 000% RX 000% 4.1V TX RX 00.0V 000 000 mz 0:01:23 M 1 000 000:00.0 000:00.0 000 Touch NORMAL Graubele BATT TIME 00: 01: 23 000 000 The display switches to the green base menu. Touch the menu item "Out.Swap" with a finger or the provided stylus.
Common function menus Note: By using the receiver-side channel assignment function called channel mapping which is integrated in the "Telemetry" menu of the mz-18 HoTT and mz-24 HoTT transmitters, the maximum 9 or 12 control channels of these transmitters can be distributed as desired within one receiver as well as to several receivers. In addition, several receiver outputs can be assigned the same control function, for example to control each aileron with two servos instead of just one, etc.
What is a mixer? Basic functions In many models, it is frequently desirable to mix functions within the model, for example to couple ailerons and rudders, or to couple two servos when you want two rudders with the same function to be controlled by a single servo. In all these cases, the signal flow at the output of the transmitter-side control function branches at a point at which the influences of all transmitter options such as "dual rate / expo", "channel set", "throttle curve", etc.
General information about programmable mixers This manual has described numerous preprogrammed coupling functions. The basic meaning of mixers and their functions are explained on the page to the left. The following offers information on "programmable mixers".
Prog.MIX freely programmable linear and curve mixers In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "F": 000% RX BACK 4.1V RX 00.0V 000 000 mz 0:01:23 M 1 000 000:00.0 000:00.0 Touch 000 NORMAL NORMAL MST 1. INH NONE >> 2. INH NONE >> NONE 3. INH NONE >> NONE 4. INH NONE >> NONE 5. INH NONE >> NONE 000% TX Graubele ACT SLV S NONE 000 The display switches to the blue function menu.
Select one of the control functions 1 … 9 or 1 … 12, see "Definition of terms" on page 37, with a finger or the provided stylus, for example: BACK NORMAL Graubele S NONE >> NONE CH1 CH2 CH3 CH4 CLR CH5 CH6 CH7 CH8 Touch CH9 CH10 CH11 CH12 BACK CH1 >> CH1 NORMAL >> S NONE CH1 CH2 CH3 CH4 CH5 CH6 CH7 CH8 CH9 CH10 CH11 CH12 Note: Do not forget to assign a control to any selected control functions 5 … 12 for fixed-wing models, or 5, 7 … 12 for helicopter models in the "Channe
BACK Graubele NORMAL ACT MST 1. INH CH1 >> 2. INH NONE >> NONE 3. INH NONE >> NONE 4. INH NONE >> NONE 5. INH NONE >> SLV SET CH3 >> S NEXT NONE To activate or deactivate a mixer set up as described above, touch the value field of the mixer to be activated or deactivated in the "ACT" column, for example: 1. 2. 3. 4. 5.
Setting linear mixers 1 … 5 Mixing levels To set one of linear mixers 1 … 5, use a finger or the provided stylus to touch the button in the "SET" column in the line of the mixer to be set, for example, … above and below the mixer neutral point proceeding from its momentary position. To set the mixing level under the neutral point, touch the value field on the right next to "A" with a finger or the provided stylus: BACK ACT MST 1. ON CH1 >> 2. ON CH6 >> ON 3.
BACK CH1 Graubele NORMAL S >> CH3 CH1 ACT A ON BACK OFFSET X 000% OFFSET Y 000% NORMAL A CTL ON INC OFFSET X +030% RES DEC OFFSET Y 000% DEC S Touch The color of the field switches from red to blue: BACK CH1 Graubele NORMAL S >> CH3 CTL ON A ON +050% B +125% INC OFFSET X +030% RES OFFSET Y 000% DEC 000% DEC Use the DEC button to move the mixer characteristic curve downward the aforementioned 50%: BACK CH1 Graubele NORMAL S >> CH3 ACT A ON BACK CH1 Graubele A
After you have finished making your settings, touch the BACK button at the top left of the display to return to the mixer selection: Setting curve mixers 6 … 8 BACK These three curve mixers make it possible to define extremely nonlinear mixer curves with up to five freely positionable points between the two endpoints "L" (low = -100% control travel) and "H" (high = +100% control travel) along the control travel. Programming details The control curve is defined by up to 7 points, so-called support points.
BACK CH8 BACK CTL ON ON IN –085% OUT 000% POINT 1 000% X-axis Y-axis ST ON INC NORMAL Graubele Touch DEC ENT S >> CH10 ACT CTL ON IN –085% OUT 000% ST ON ON INC 1 000% DEC X-axis Y-axis ENT POINT Changing the support point value • Touch the X-axis button to deactivate the function. Note: • If you move the red point horizontally away from the current control position, the point soon becomes green and a "?" appears in the POINT line.
Trainer Connection between two transmitters with a DSC cable In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "F": 000% RX BACK 000% 4.1V TX RX 00.0V 000 000 mz 0:01:23 M 1 000 000:00.0 000:00.0 Touch 000 CH 1. TEACH CH 7. TEACH CH 2. TEACH PUPIL, for example: BACK CTL 000 000 The display switches to the blue function menu. Use a finger or the provided stylus to touch the "Trainer" menu item: BACK BASE FUNCTION SYSTEM Q.
be connected to a TEACH transmitter, the transmitter immediately reacts with acoustical alarms to switches connected during the switch assignment. At the same time, a warning message flashes every second at the top left in the transmitter's main display (see the figure at the end of the section, "Wireless HoTT system"). Open the switch that has just been assigned.
Important: • • If you forget to assign a control in the PUPIL transmitter, the relevant servo(s) remain in middle position after transferring control functions to the PUPIL transmitter. Independent of the type of RF link of the TEACH transmitter to the model, the PUPIL transmitter should always be operated in normal PPM mode. Trainer mode Both transmitters are connected to each other using an appropriate cable (see the overview on the next page).
Connecting scheme mz-18 and mz-24 HoTT PUPIL transmitters mz-18 and mz-24 HoTT TEACH transmitters M Trainer cable order No. 4179.1 S Trainer cable order No. 4179.1 Trainer cable order No. 3290.8 TEACH transmitter with DSC socket TEACH transmitter with TEACH module Order No. 3290.2, 3290.19, 3290.
Wireless HoTT system The trainer system of the mz-18 HoTT and mz-24 HoTT transmitter can also be operated remotely. As described below, the TEACH transmitter is bound to a PUPIL transmitter. This configuration is possible between two transmitters that are available in the "Trainer" menu using the "BIND" option (see the figures in this section).
2 Aileron or roll 3 Elevator or elevation 4 Rudder or tail rotor Use a finger or the provided stylus to touch the control function inputs 1 to max. 12 to be transferred to the PUPIL, for example: BACK SERVO Graubele CH 1. PUPIL CH 7. TEACH CH 2. PUPIL CH 8. TEACH NULL CH 3. PUPIL CH 9. TEACH BIND CH 4. PUPIL CH 10. TEACH OFF CTL CH 5. TEACH CH 11. TEACH TYPE CH 6. TEACH CH 12. TEACH CH 2. TEACH CH 3. TEACH CH 9. TEACH BIND Note: CH 4. TEACH CH 10.
During this mode, the basic display of the TEACH transmitter can have the following appearance … 000% RX 000% 4.1V TX RX 05.2V 000 000 mz 0:01:23 M 1 000 000 000:00.0 000:00.0 NORMAL Graubele BATT TIME 00: 01: 23 000 000 … and the PUPIL transmitter has the following appearance: 000% 000% 4.2V 000 000 mz 0:01:23 M 1 000 000 000:00.0 000:00.
Telemetry Settings and displays Receiver settings and the displays and settings of the connected telemetry sensors can be retrieved and programmed in real time in the "Telemetry" menu. The connection to the receiver is maintained by the feedback channel integrated in the HoTT receivers. Up to four sensors can be connected by a V or Y cable at the telemetry connectors of the receivers GR-12S HoTT (order No. 33505), GR-12 HoTT (order No. 33506), GR-16 (order No. 33508), GR-24 HoTT (order No.
Telemetry The menus that fall under the generic term of "Telemetry" can be accessed from the blue function menu of the mz-18 HoTT and mz-24 HoTT transmitters. Use a finger or the provided stylus to touch the "Telemetry" menu item: BASE BACK FUNCTION SYSTEM Q.Link D/R,EXP Wing MIX THR.CRV Prog.
SETTING & DATA VIEW On the first page of the display with the header … RX DATAVIEW L PACK TIME Shows the longest time in milliseconds in which data packages were lost when transmitting from the transmitter to receiver R-VOLT Current operating voltage of the receiver L.
L PACK TIME (data packages) This indicates the longest period in milliseconds in which data packages are lost when transmitted from the transmitter to receiver. In practice, this is the longest period in which the remote control system enters fail safe mode. R-VOLT (receiver operating voltage) Always keep an eye on the receiver's operating voltage. If it is too low, do not operate or start your model. The receiver low-voltage warning can be set in the submenu "RX SERVO TEST" under "ALARM VOLT" between 3.
Now move the corresponding control, control stick and/ or trim lever into the desired position, and save the current control position by touching the SET button. This position is saved as the new neutral position. The displayed new value depends on the current position of the control influencing this control channel, and if applicable the position of the trim when you touched to the SET button.
receivers is recommendable for large models, for example to avoid long servo cables. In this case, remember that only the receivers selected in the "RECEIVER SELECT" line can be addressed by the "Telemetry" menu. The 9 or 12 control channels (INPUT CH) of the mz-18 HoTT and mz-24 HoTT transmitters can be correspondingly administered by assigning the servo connector of the receiver selected in the OUTPUT CH line to the INPUT CH of another control channel by "channel mapping".
FAIL SAFE ALL (global fail safe setting) This submenu allows you to easily determine the fail safe positions of servos by pressing a button similar to the "Fail Safe" submenu, described on page 84: Touch the SET button at the bottom right of the display with a finger or the provided stylus to switch to the "FAIL SAFE ALL" line and activate the value field. "NO" is displayed in red: Set the parameter with the INC or DEC button to "SAVE".
BACK RX FREE MIXER Graubele RX FAIL SAFE <> RECV OUTPUT CH: 04 GENE >INPUT CH: 01 MODE : FAI SAFE ELEC F.S.POS : 1500µsec VARIO DELAY : 0:25sec FAIL SAFE ALL: NO GPS POSITION : 1500µsec ESC BACK DEC INC ENT SET ESC In this case, servo connector 04 reacts according to the fail safe settings of CH 01. The reaction time or delay set in the "DELAY" line contrastingly applies uniformly to all channels set to "FAI(L) SAFE".
This assignment is only relevant when you have not specified "V-TAIL" or "2ELEVATOR" for your tail type, or "2AILE" or "2/4AILE 2/4FLAP" for your flaps in the transmitter. Otherwise, the control function 3 (elevator) is split to control channels 3 + 8 in the transmitter, and control functions 2 (aileron) is split to control channels 2 + 5 for the left and right aileron. In these two cases, the corresponding control channels (INPUT CH) of the receiver would be channels 03 + 08 and 02 + 05.
manner. C: EXP = +100 % and D/R = 70% The servo reacts weakly to control stick movement around the neutral position. The curve becomes steeper as the rudder deflection increases. Note: The control characteristics that are programmed here affect the mapped receiver outputs.
Value Explanation CH OUTPUT TYPE Channel sequence or type of aggregate symbol Possible settings ONCE, SAME, SUMI, SUMO and SUMD ALL-MAX (servo travel on the "+" side) In this line, set the maximum servo travel on the plus side of the control travel for the servo test. 2000 μs corresponds to a full deflection on the "+" side of the servo travel, and 1500 μs corresponds to the neutral position. Make sure that the servos do not strike anything during the test routine.
CH OUTPUT TYPE (connection type) In this line, select the type of servo control or alternately the signal type of the aggregate signal output: • ONCE BACK Graubele RX SERVO TEST < ALL-MAX : 2000µsec ALL-MIN : 1200µsec TEST : STOP ALARM VOLT : 3:8V ALARM TEMP+: 55°C ALARM TEMP–:–10°C >CH OUT TYPE:ONCE RECV ESC GENE DEC ELEC INC VARIO ENT GPS SET ESC The servo connectors of the receiver are actuated sequentially. Recommended for analogue servos.
nozzles, carbon fiber material, etc. may weaken the reception depending on the flight direction is which can restrict the range. The most important control function should therefore be associated with the main receiver programmed as SUMI so that, in case of a malfunction, the model can still be controlled if the SUMO satellite receiver no longer receives a good signal.
Finally, switch the active field to channel selection by touching the SET button at the bottom right. With the selection, you determine the highest transmitter channels within the SUMD signal. BACK Graubele RX SERVO TEST < RECV ALL-MAX : 2000µsec GENE ALL-MIN : 1200µsec TEST : STOP ELEC ALARM VOLT : 3:8V VARIO ALARM TEMP+: 55°C ALARM TEMP–:–10°C GPS >CH OUT TYPE:SUMDHD12 ESC DEC INC ENT SET ESC Note: Normally, a value greater than "12" is not required by potentially connectable devices.
SENSOR Display of RF status Display of active/inactive sensors BACK Graubele RX1 RX SELECT Touch the corresponding button with a finger or the provided stylus … BACK Graubele SETTING & DATA VIEW >> SENSOR >> RX SELECT RF STATUS VIEW >> SETTING & DATA VIEW >> VOICE TRIGGER Touch SENSOR >> RF STATUS VIEW >> >> With transmitters of the type mz-18 HoTT and mz-24 HoTT, any sensors that are connected to the receiver are automatically recognized and activated when the power supply is switche
Personal note S1006_mz-24.3.en.indd 129 129 17.12.
VOICE TRIGGER Touch the corresponding button with a finger or the provided stylus … BACK Graubele SETTING & DATA VIEW Touch >> VOICE TRIGGER >> … to open the selected submenu.
Airplane function menu BACK Sensors Graubele TX VOLT TIMER 2 MODEL TIME CURR. TIME The displays for selecting sensor-specific voice triggers should only be opened when the sensors connected to the receivers are recognized when the receiver is switched on. Three corresponding voice triggers are selected as described above. BATT TIME Note: TIMER 1 The selection made here is independent of the "VARIO" voice triggers.
Q.Link Setting up Quick Links In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "F": 000% RX 000% 4.1V TX RX 00.0V 000 000 mz 0:01:23 M 1 000 000:00.0 000:00.0 Touch 000 NORMAL Graubele BATT TIME 00: 01: 23 000 000 Assigning or leaving the Q.Link name "NORMAL" for "Q.Link1" could therefore be recommendable. The names themselves do not have any technical relevance to the program and only serve to visually identify the Q.
Graubele BACK SLOW CTRL Q.LINK • NEXT 1. NORMAL 0.0s 2. START 0.0s 3. Graubele BACK NEW NEXT SLOW CTRL Q.LINK COPY NAM 1. NORMAL CPY 2. Q.LINK 2 DEL 3. START 0.0s Q.LINK NULL2 START Q.LINK 2 YES NO 4. Q.LINK 3 INC 4. Q.LINK 3 5. Q.LINK 4 DEC 5. Q.LINK 4 NULL CPY button (copy) A blue, and therefore active, adjusted Q.Link can be copied to any another Q.
BACK Graubele SLOW CTRL Q.LINK NEW 1. NORMAL 2. START 0.0s NULL CPY Touch NULL DEL NAM 0.0s 0.0s 3. SPEED 4. Q.LINK 3 INC 5. Q.LINK 4 DEC The color of the field switches from red to blue: BACK Graubele NEXT SLOW CTRL Q.LINK Wing Mix menu. The switchover between Q.Link-dependent mixers then also proceeds smoothly. NEXT • "CTRL" column (control/switch) In the previously described columns "Q.Link" and "DELAY", you assigned names to Q.LINK1 … Q.
Personal notes S1006_mz-24.3.en.indd 135 135 17.12.
D/R,EXP The control characteristic for the aileron, elevator and rudder as well as control functions 5 … 9 or 5 … 12 In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "F": 000% RX 000% 4.1V TX RX 00.0V 000 000 mz 0:01:23 M 1 000 000:00.0 000:00.0 Touch 000 NORMAL Graubele BATT TIME 00: 01: 23 000 000 The display switches to the blue function menu. Touch the menu item "D/R,EXP" with a finger or the provided stylus. BACK Q.Link Prog.
BACK Graubele NORMAL CH CH5-12 CH5 +100% +100% CH9 +100% +100% S CH6 +100% +100% CH10 +100% +100% INC CH7 +100% +100% CH11 +100% +100% RES CH8 +100% +100% CH12 +100% +100% DEC D/R – BACK D/R – D/R + Graubele CH NORMAL BACK Graubele CH NORMAL BACK S EXP 000% CLR CH5-12 CTL 000% 000% CH9 000% 000% CH10 000% INC CH7 000% CH11 000% RES 000% CH12 000% DEC SYM OFF If desired, a control switch as well, for example: BACK OFFSET CH Note: In contrast to the display o
Exponential function BACK To program the exponential function, touch the left value field in the EXP line with a finger or the provided stylus to set an exponential value to the minus side of the control travel, and/or on the right to set an exponential value on the plus side of the control travel, for example: CH Touch D/R +100% +100% INC 000% RES CTL CH NORMAL S ELEV D/R +100% +100% INC 000% RES EXP 000% CTL ST 3 DEC SYM OFF Set the desired value with the INC or DEC button at the rig
BACK Graubele NORMAL CH CH5-12 S CH5 +100% +100% CH9 +100% +100% CH6 +100% +100% CH10 +100% +100% INC CH7 +100% +100% CH11 +100% +100% RES CH8 +100% +100% CH12 +100% +100% DEC D/R – D/R + D/R – D/R + Set the desired value with the INC or DEC button at the right edge. The adjustment range is ±125%.
Wing Mix Adjusting mixers In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "F": 000% RX 000% 4.1V TX RX 00.0V 000 000 mz 0:01:23 M 1 000 000:00.0 000:00.0 Touch 000 NORMAL Graubele 000 000 The display switches to the blue function menu. Use a finger or the provided stylus to touch the "Wing Mix" menu item: Q.Link • • BASE D/R,EXP Prog.MIX Aile diff Butterfly Trainer FUNCTION Wing MIX Touch SYSTEM THR.
BACK Graubele NORMAL S RUDD >> AILE A (RATE) +050% B +050% INC RES BACK NORMAL Graubele S The corresponding setting menu opens: BACK Graubele MIX.TYPE ACT SET CTL RUDD >> AILE INH >> ON AILE >> RUDD INH >> ON A INH >> ON +100% RUDD >> ELEV NORMAL S AILE >> RUDD (RATE) B +100% INC RES DEC DEC Touch the RES button to reset a changed value in the blue (and hence active) field to the default.
BACK Graubele NORMAL S AILE >> RUDD A (RATE) +050% B +050% INC RES BACK NORMAL Graubele S The corresponding setting menu opens: BACK Graubele MIX.TYPE ACT SET CTL RUDD >> AILE ON >> SW6 AILE >> RUDD ON >> SW8 A INH >> ON +100% RUDD >> ELEV NORMAL S RUDD >> ELEV (RATE) B +100% INC RES DEC DEC Touch the RES button to reset a changed value in the blue (and hence active) field to the default.
BACK Graubele NORMAL S RUDD >> ELEV BACK A (RATE) +050% B +050% INC RES NORMAL Graubele ACT SET CTL RUDD >> AILE ON >> SW6 AILE >> RUDD ON >> SW8 INH >> ON MIX.TYPE RUDD >> ELEV S DEC Touch the RES button to reset a changed value in the blue (and hence active) field to the default. Note: After you have finished making your settings, touch the BACK button at the top left of the display to return to the menu selection.
THR.CRV Setting the control characteristic of the Throttle/brake control stick Note: This menu is hidden when selecting a model with "NO POWER" in the basic settings of the "Model Sel" or "Model type" menu. In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "F": 000% RX 000% 4.1V TX RX 00.0V 000 000 mz 0:01:23 M 1 000 000:00.0 000:00.0 Touch 000 NORMAL Graubele BATT TIME 00: 01: 23 000 000 The display switches to the blue function menu.
BACK NORMAL Graubele CURVE OFF IN –100% vertical green line between the two endpoints "L" and "H" in the graphic. The momentary control stick position is also displayed numerically in the line "IN" (-100 % to +100 %). The intersection of this line with the curve is identified as "OUT" and can be varied at the support points between -125% and +125%. The control signal which is changed in this way then affects all of the following mixing and coupling functions.
Deleting a support point In order to delete the set support points 1 to 5, move the vertical green line with the control stick next to the relevant support point.
BACK NORMAL Graubele CURVE ON IN –030% S INC OUT +035% POINT ST ON 2 X-axis +067% DEC Y-axis ENT Important note: The curves shown here are only for demonstration purposes and do not represent actual throttle curves. After you have finished making your settings, touch the BACK button at the top left of the display to return to the menu selection. BACK BASE FUNCTION SYSTEM Model Sel Model Type E.P.A Rev/Slow Sub-Trim Motor TX ctl Timer Fail Safe Trim Step Servo CH Set Out.
Idle LOW Setting a stable idle Note: This menu is hidden depending on the basic settings of the "Model Sel" or "Model type" menu. In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "F": 000% RX 000% 000 000 mz 0:01:23 M 1 000 000 000:00.0 000:00.
Snap roll Automated programming Note: This menu is hidden depending on the basic settings of the "Model Sel" or "Model type" menu. In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "F": 000% RX 000% 000 000 mz 0:01:23 M 1 000 000 000:00.0 000:00.0 Touch NORMAL Graubele BATT TIME 00: 01: 23 000 000 The display switches to the blue function menu. Use a finger or the provided stylus to touch the "Snap roll" menu item: BASE FUNCTION SYSTEM Q.
Aile differentiation Setting the aileron differentiation Note: This menu is hidden when you select "1AILE" or "1AILE 1FLAP" in the "Model Sel" or "Model type" menu. In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "F": 000% RX 000% 4.1V TX RX 00.0V 000 000 mz 0:01:23 M 1 000 rudder deflection. This rudder deflection also generates additional resistance and impairs flight.
To change a value, touch the corresponding value field with a finger or the provided stylus, for example: BACK Graubele NORMAL AILE1 AILE3 AILE4 AILE2 Touch S INC RATE A 100% 100% 100% 100% RES RATE B 100% 100% 100% 100% DEC The color of the field switches from red to blue: BACK Graubele NORMAL S AILE1 AILE3 AILE4 AILE2 INC RATE A 100% 100% 100% 100% RES RATE B 100% 100% 100% 100% DEC Touch the RES button to reset a changed value in the blue (and hence active) field to t
Flap mixer Adjustment of the flap mixer • Note: This menu is hidden when you only select "1AILE" or "2AILE" in the "Model Sel" or "Model type" menu. In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "F": 000% RX BACK 000% 4.1V TX RX 00.0V 000 000 mz 0:01:23 M 1 000 FLAP-TYPE 000:00.
BACK Graubele NORMAL S Touch FLAP1 FLAP3 FLAP4 FLAP2 INC RATE A +100% 000% 000% +100% RES RATE B +100% 000% 000% +100% DEC OFFSET 000% 000% 000% 000% • "Offset" line In this line, set the Q.Link-specific positions for all of the flaps in the respective model. This allows you to set the positions that the individual flaps are to assume for each Q.Link.
flap servos. Since all values are set separately, the aileron deflections of the flaps can also be different. Adapt the individual values as described above, for example: BACK Graubele THERMAL CTL AILE >> FLAP A symmetrical or an asymmetrical effect can be defined for each flap pair. Values of ±125% are possible.
BACK FLAP-TYPE Graubele ACT SPEED SET S CTL >> FLAP AILE >> FLAP INH >> ON ELEV >> FLAP INH >> ON FLAP >> ELEV INH >> ON After you have finished making your settings, touch the BACK button at the top left of the display to return to the menu selection: BACK BASE FUNCTION SYSTEM Q.Link D/R,EXP Wing MIX THR.CRV Prog.MIX Aile diff Flap MIX Flap sett Butterfly Trainer V-Tail Telemetry Airplane model function menu - Flap MIX S1006_mz-24.3.en.indd 155 155 17.12.
Flap Sett Adjusting the effect of the flap servo Note: This menu is hidden when you only select "1AILE" in the "Model Sel" or "Model type" menu. In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "F": 000% RX 000% BACK ACT NORMAL CTL S ON NEXT 000 000 mz 0:01:23 M 1 000 000:00.0 000:00.0 Touch 000 000 The display switches to the blue function menu.
… the control element assigned to the input 6 in the submenu "CH set" is switched to the Quick Link trim function described below in this section. However, a proportionate influence of the values set in the submenu "D/R,EXP" of the function menu is retained. In the displays described below, you specify the effect of the control elements assigned to channel 6 in the menu "CH set", page 92, in the form of a Quick Link trim on the positions of the ailerons, flaps,and possibly the elevators.
After you have finished making your settings, touch the BACK button at the top left of the display to return to the menu selection: 158 BACK BASE FUNCTION SYSTEM Q.Link D/R,EXP Wing MIX THR.CRV Prog.MIX Aile diff Flap MIX Flap sett Butterfly Trainer V-Tail Telemetry Airplane model function menu - Flap Sett S1006_mz-24.3.en.indd 158 17.12.
Personal notes S1006_mz-24.3.en.indd 159 159 17.12.
Airbrake Adjusting the braking system of airplanes Note: BACK This menu is hidden when you only select "1AILE" in the "Model Sel" or "Model type" menu. ACT 000% 000 mz 0:01:23 M 1 000 000 000:00.0 AILE2 INC RATE 000% 000% RES BACK ACT Touch Graubele INH NORMAL CTL RATE 000% 000 The display switches to the blue function menu. Use a finger or the provided stylus to touch the "Airbrake" menu item: D/R,EXP Snap roll Telemetry Wing MIX Aile diff THR.
BACK ACT Graubele ON LANDING CTL S BACK SW8 ACT Graubele ON LANDING CTL SW8 NEXT NEXT AILE1 AILE2 INC FLAP1 FLAP3 FLAP4 FLAP2 RATE 000% 000% RES RATE –034% –045% –045% –034% BACK ACT Graubele ON LANDING CTL S SW8 AILE2 RATE +023% 000% BACK Graubele LANDING After you have finished making your settings, touch the BACK button at the top left of the display to return to the menu selection: BACK BASE FUNCTION SYSTEM RES To prevent the sudden deflection of (brake) flaps adjuste
Butterfly Adjusting the braking system of gliders Note: This menu is hidden depending on the basic settings of the "Model Sel" or "Model type" menu. In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "F": 000% RX INH NORMAL CTL S ON NEXT AILE1 AILE2 INC RATE 000% 000% RES DEC 4.1V 000 000 mz 0:01:23 M 1 000 000:00.0 000:00.
corresponding description is provided beforehand.
BACK ACT Graubele INH LANDING CTL S BACK ON ACT Graubele ON LANDING CTL NEXT LANDING CTL S SW5 NEXT NEXT INC AILE1 AILE2 INC AILE1 AILE2 INC RATE 000% 000% RES RATE 000% 000% RES RATE +023% 000% RES Option ACT (active) Within the value field for this column, specify whether this function is generally blocked ( INH ) or ON .
that is too short), will crash or fall. Tips for visualizing the braking effect: Spread the flaps and, from the front, look at the surface from above and below. The greater the projected surface of the protruding rudder, the greater the braking effect. needed. The method for adjusting the curve of this 7-point curve mixer follows the same principles as those used for the curve mixer described on page 144 with reference to the "THR.CRV" menu.
V-Tail Adjusting the actuation of a V-tail Note: This menu only appears when a V-Tail has been selected in the basic settings of the "Model Sel" or "Model type" menu. In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "F": 000% RX NORMAL Graubele ELEV A S BACK INC A A B +100% +100% +100% +100% RES 000 000 mz M 1 000 000:00.0 000:00.
Airplane function menu Helicopter model function menu Personal notes S1006_mz-24.3.en.indd 167 167 17.12.
Q.Link Setting up Quick Links In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "F": 000% RX 000% 4.2V TX RX 00.0V 000 000 mz 0:01:23 M 2 000 000 000:00.0 000:00.0 Touch NORMAL Starlet BATT TIME 00: 01: 23 000 000 The display switches to the blue function menu. Touch the menu item "Q.Link" with a finger or the provided stylus: BACK Q.Link Touch THR.HOLD BASE D/R,EXP Swash FUNCTION PIT.CRV S.Limit THR.CRV S.
BACK SLOW CTRL Q.LINK • NEXT Starlet 1. NORMAL 2. Hold 3. HOVER 4. 5. NEW CPY 2. DEL 3. HOVER Idle-up2 INC 4. Idle-up2 Idle-up3 DEC 5. Idle-up3 NULL BACK NEXT Starlet SLOW CTRL Q.LINK 1. NORMAL 2. Hold NEW NAM 0.0s CPY HOVER 0.0s NULL DEL 4. Idle-up2 Touch 5. Idle-up3 DEC INC After you touch the CPY button, a window appears and asks you the reason for copying: BACK SLOW CTRL Q.LINK 1. 2. COPY NORMAL SOURCE HoldHOVER 0.0s TARGET BACK Idle-up2 1.
BACK Q.LINK SLOW CTRL NORMAL 0.0s 2. Hold 0.0s NULL CPY Touch NULL DEL NAM 3. HOVER 4. Idle-up2 INC 5. Idle-up3 DEC The color of the field switches from red to blue: BACK NEXT Starlet Q.LINK SLOW CTRL NEW 1. NORMAL 0.0s 2. Hold 0.0s NULL CPY 3. HOVER 0.0s NULL DEL 4. Idle-up2 INC 5. Idle-up3 DEC NAM Set the desired value with the INC or DEC button at the bottom right. In the blue and hence active value field, you can select switchover times from 0 to 9.
D/R,EXP The control characteristic for roll, elevation and tail as well as control functions 5 … 9 or 5 … 12 In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "F": 000% RX 000% 4.2V TX RX 00.0V 000 000 mz 0:01:23 M 2 000 000 000:00.0 000:00.0 Touch NORMAL Starlet BATT TIME 00: 01: 23 000 000 The display switches to the blue function menu. Touch the menu item "D/R,EXP" with a finger or the provided stylus. BACK Q.
BACK Starlet NORMAL CH CH5-12 CH5 +100% +100% CH9 +100% +100% S CH6 +100% +100% CH10 +100% +100% INC CH7 +100% +100% CH11 +100% +100% RES CH8 +100% +100% CH12 +100% +100% DEC D/R – BACK D/R – D/R + Starlet CH NORMAL BACK Starlet CH NORMAL BACK EXP 000% CLR CH5-12 CTL 000% S 000% CH9 000% 000% CH10 000% INC CH7 000% CH11 000% RES 000% CH12 000% DEC SYM OFF If desired, a control switch as well, for example: BACK OFFSET Starlet CH NORMAL In contrast to the di
Exponential function BACK To program the exponential function, touch the left value field in the EXP line with a finger or the provided stylus to set an exponential value to the minus side of the control travel, and/or on the right to set an exponential value on the plus side of the control travel, for example: CH INC 000% RES S RUDD Select D/R +100% +100% INC 000% RES EXP 000% CTL ST 4 DEC SYM OFF Set the desired value with the INC or DEC button at the right edge.
BACK Starlet NORMAL CH CH5-12 S CH5 +100% +100% CH9 +100% +100% CH6 +100% +100% CH10 +100% +100% INC CH7 +100% +100% CH11 +100% +100% RES CH8 +100% +100% CH12 +100% +100% DEC D/R – D/R + D/R – Starlet NORMAL CH CH5-12 CH6 +100% +100% CH10 +100% +100% CH7 +100% +100% CH11 +100% +100% RES CH8 +069% +123% CH12 +100% +100% DEC D/R – INC D/R + Touch the RES button to reset a changed value in the blue (and hence active) field to the default.
Pitch curve Quick-Link-specific setting of the pitch control curve In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "F": 000% RX 000% BACK Pitch min. 4.2V TX RX 00.0V 000 000 mz 0:01:23 M 2 000 000 NORMAL Starlet S TRIM REAR CURVE OFF IN –100% 000:00.0 INC OUT –100% 000:00.
With the control element (gas/pitch control stick), a vertical green line is moved synchronously in the graph between the two endpoints "L" and "H". The momentary control stick position is also displayed numerically in the line "IN" (-100 % to +100 %). The intersection of this line with the curve is identified as "OUT" and can be varied at the support points between -125% and +125%. The control signal which is changed in this way then affects all of the following mixing and coupling functions.
BACK NORMAL Starlet Pitch min. FORWARD CURVE OFF IN –036% OUT 000% POINT 2 ST ON BACK X-axis NORMAL Starlet Pitch min. FORWARD INC S BACK CURVE OFF IN –036% INC OUT +027% 000% DEC Y-axis ENT POINT ST ON 2 X-axis +027% DEC Y-axis ENT Notes: Note: • Remember that the percentages in the "IN" and "OUT" line always refer to the momentary position of the control stick and not to the position of the point.
BACK CTL NORMAL Starlet MIXER Then press the desired control such as the right proportional rotary control SL1: SERVO POINT Q.LINK NONE NONE L 1 NONE NONE L 1 NONE NONE L 1 NONE NONE L 1 NONE NONE L 1 NONE NONE L 1 BACK INC RES DEC Basic operating steps • CTL column In in the first column of the menu with the heading "Control", select a control that appears suitable for this purpose from the controls offered by your mz-18 HoTT or mz-24 HoTT transmitter.
Autorotation setting BACK NORMAL Starlet CTL MIXER SL1 THR.CRV 3 1 NONE NONE L 1 NONE NONE L 1 NONE NONE L 1 NONE NONE L 1 NONE NONE L 1 SERVO POINT Q.LINK INC RES DEC Touch the RES button to reset a changed value in a blue (active) value field to the default value. Note: The associated controller does not have any effect if an undefined point is selected (in the basic version of the relevant curve mixers, only the points "L" and "H" are set). • Q.
The pitch control stick is not necessarily in the bottom position during autorotation. Typically, it is between hovering position and the bottom stop so that the longitudinal inclination can be corrected using the elevation control. You can shorten the approach by carefully pulling back on the elevation control and sensitively reducing the pitch, or extending the approach by pushing the elevation control forward and carefully increasing the pitch. After making your settings, leave this menu and go to "PIT.
Throttle curve Quick-Link-specific setting of the throttle curve In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "F": 000% RX 000% 4.2V TX RX 00.0V 000 000 mz 0:01:23 M 2 000 000 000:00.0 000:00.0 Touch NORMAL Starlet 000 000 The display switches to the blue function menu. Use a finger or the provided stylus to touch the menu item "THR.CRV": BASE FUNCTION Q.Link D/R,EXP PIT.CRV THR.HOLD Swash S.Limit Prog.
Example throttle curves for different Quick Links: Output 0% 2 3 4 Control travel Hover 5 CH5 1 2 3 4 Control travel Aerobatics 1 5 2 3 4 Control travel 3D 5 References to using the throttle limit function: In any case, you should use the throttle limit function ("Channel set", page 94). The throttle servo is normally completely separate from the throttle curve at the left stop of the (throttle limit) proportional dial DV1, the motor is idling and only reacts to CH1 trim.
The throttle and collective pitch control are always activated by separate servos which, however, are always activated together by the throttle/pitch control stick (except in the autorotation Quick Link). The helicopter program automatically couples the servos. The trim lever for control function 1 in principle only acts on the throttle servo of the mz-18 HoTT and mz-24 HoTT transmitter programs. The coordination of throttle and pitch, i.e.
Solution: Increase the value of point "1" in the THR.CRV display. +100% OUTPUT a) The rotary speed is too low Solution: Increase the pitch angle of the rotor blades by increasing the value of point "1" in the PIT.CRV display. 3 4 Control travel 5 Hover point -100% 1 2 3 4 Control travel 5 2. The model lifts off before the pitch control stick reaches center position: Solution: Reduce the carburettor opening by reducing the value of point "1" in the THR.CRV display.
The cost of repairing a clutch, transmission or at the motor are negligible in comparison to the injury and damage that can arise from the rotor blades of a model helicopter flying around uncontrollably. Make sure that no one else is within the hazard zone of the helicopter. 60-70°. In the graph of the "Pitch" display, move the vertical line to point "L" with the pitch control stick, and correspondingly change its value.
Gyro/governor Settings for the gyro and governor In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "F": 000% RX 000% "Gyro suppression" line BACK Starlet NORMAL S 4.2V TX RX 00.0V 000 000 mz 0:01:23 M 2 000 000 000:00.0 000:00.0 Touch NORMAL Gyro Suppression 000% Gyro Gain 000% INC Governor ACT INH RES Governor RATE 050% DEC Starlet BATT TIME 00: 01: 23 000 000 The display switches to the blue function menu.
gyro suppression value". Range of transmitter control 7 Exemple: +50 % Gyro gain Accordingly: at 0% gyro suppression, gyro gain is constant for tail rotor control stick movement; at 50% suppression, gyro gain is reduced to half if the assigned control is moved to the +50% position (as shown here); and only at >150% suppression is gain reduced to zero with the control at this position, well before full tail rotor deflection.
gyro gain can also be smoothly varied with a control in the "Gyro" line in the "Channel set" menu, page 92. "Governor ACT" line BACK NORMAL Starlet Gyro Suppression 000% Gyro Gain 000% S INC Governor ACT INH RES Governor RATE 050% DEC "Governor RATE" line After you have activated the option "Governor ACT" by switching to ON in the previous line, you can set the rotor speed to be maintained by your governor in this line by changing the percentage. The adjustment range is 0 to 100%.
Personal note S1006_mz-24.3.en.indd 189 189 17.12.
THR.HOLD Throttle HOLD position In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "F": 000% RX 000% 4.2V TX RX 00.0V 000 000 mz 0:01:23 M 2 000 000 000:00.0 000:00.0 Touch Therefore, set the value during the training phase in this display so that the gas motor can be kept idling during the autorotation phase without the clutch engaging, and so any electric drive is definitely off. Note: With the "Thr.
BACK S Starlet ACT ON INC CTL SW3 RES –100% DEC SET In the blue (active) value field, touch the INC or DEC buttons at the right edge of the display, move the red arrow relative to the green arrow, for example: BACK S Starlet ACT ON INC CTL SW3 RES SET –111% DEC Touch the RES button to reset a changed value in a blue (active) value field to the default value.
Swashplate mixer Pitch, roll and elevation mixer Note: This menu is hidden when selecting "1 (swashplate) servo" in the basic settings of the "Model selection" or "Model type" menu. In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "F": 000% RX 000% 4.2V TX RX 00.0V 000 000 mz 0:01:23 M 2 000 000 000:00.0 option is therefore no longer available to you from the multi-function list.
Swashplate limiter Adjustable limitation and rotation of deflection In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "F": 000% RX 000% 4.2V TX RX 00.0V 000 000 mz 0:01:23 M 2 000 000 … of a control stick to a maximum of one circular area provided that the limiter is switched ON in the "ACT" line: BACK Swash rotation 000:00.0 000:00.0 Touch NORMAL Starlet BATT TIME 00: 01: 23 000 000 The display switches to the blue function menu.
Swash mixer Flight-phase-dependent setting of pitch, roll and elevation In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "F": 000% RX BACK 000% 4.2V TX RX 00.0V 000 000 mz 0:01:23 M 2 000 000 000:00.0 000:00.0 • 000 000 The display switches to the blue function menu. Touch the menu item "S.MIX" with your finger or the provided stylus: FUNCTION SYSTEM Q.Link D/R,EXP PIT.CRV THR.CRV Gyr/Gover THR.HOLD Swash S.Limit S.MIX THR.
BACK AILE >> Starlet NORMAL Important note: S A (RATE) B 000% –012% EXP 000% 000% INC RES BACK DEC MIX.TYPE Use the same procedure for the value on the opposite side of the control travel, for example: BACK AILE >> Starlet NORMAL (RATE) EXP INC RES 000% 000% DEC Touch the RES button to reset a changed value in a blue (active) value field to the default value.
Throttle mixer Flight-phase-dependent settings of throttle tracking with roll, elevation and tail In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "F": 000% RX 000% where the carburettor is about halfway open that require significantly higher motor output. • 4.2V TX RX 00.0V 000 000 mz 0:01:23 M 2 000 000 000:00.0 000:00.0 Touch NORMAL Starlet BACK BATT TIME 00: 01: 23 000 000 The display switches to the blue function menu.
BACK AILE >> Starlet NORMAL S BACK AILE THRO A (RATE) AILE >> Starlet NORMAL (RATE) BACK A (RATE) B NORMAL Starlet MIX.TYPE S ACT SET CTL SW7 AILE >> THRO ON >> ELEV >> THRO INH >> ON RES RES RUDD >> THRO INH >> ON DEC DEC –021% Important note: The mixer values portrayed here are for demonstration purposes only and do not represent real values.
PIT>>RUDD Autorotation setting Flight-phase-dependent static torque compensation In the basic transmitter display, use a finger or the provided stylus to touch the gear icon labelled "F": 000% RX 000% 4.2V TX RX 00.0V 000 000:00.0 000 mz 0:01:23 M 2 000 000:00.0 Touch 000 NORMAL Starlet BATT TIME 00: 01: 23 000 000 The display switches to the blue function menu. Use a finger or the provided stylus to touch the menu item "PIT>>RUDD": BACK Q.Link BASE D/R,EXP FUNCTION PIT.
Helicopter model function menu System menu Personal notes S1006_mz-24.3.en.indd 199 199 17.12.
Stick mode Model-specific basic settings 000 FUNCTION SYSTEM throttle tail rotor roll throttle left aileron left rudder pitch axis AILE tail rotor tail rotor roll throttle tail rotor throttle pitch axis roll pitch axis throttle tail rotor roll roll Motor/Pitch THRO Touch the BACK button at top left to return to the system menu: BACK BASE FUNCTION SYSTEM ST mode Warning Etc. Set Display Stick Cali MP3 pitch axis … to the two control sticks.
Warning Transmitter-wide warning settings In the basic transmitter display, use your finger or the provided stylus to touch the gear icon labelled "S": 000% RX Graubele 4.1V 000 000 mz 0:01:23 M 1 000 000:00.0 000:00.0 Touch 000 NORMAL Graubele BATT TIME 00: 01: 23 000 000 The display switches to the purple main menu. Touch the menu item "WARNING" with your finger or the provided stylus.
Etc.Set Various transmitter-wide settings In the basic transmitter display, use your finger or the provided stylus to touch the gear icon labelled "S": 000% RX 000% 4.1V TX RX 00.0V 000 000 mz 0:01:23 M 1 000 Note: Firmware version V 1.023 expands the available setting options by adding the line "Vario Volume". 000:00.0 Battery type 000:00.0 In the first line, inform the transmitter whether the power supply is a four-cell NiMH battery or a 1s lithium battery.
BACK 000% Graubele Lith. Batt warning 3.6V INC 0:01:23 Power on Melody ON RES M 1 Speaker Volume Touch DEC 03 000 03 Vario Volume 000 000:00.0 Touch 000:00.0 NORMAL Lith. Batt warning 3.6V INC Power on Melody ON RES Speaker Volume 03 DEC You can switch on and off the power on and power off melody of the transmitter in this line.
Speaker Volume Vario Volume In this line, you can individually adjust the volume of the acoustic signals and voice triggers of the transmitter. Repeatedly touch the field in the line "Speaker Volume" with a finger or the provided stylus: In this – last – line, you can individually adjust the volume of the Vario announcements of the transmitter as described at the left under "Vario Volume": BACK BACK Graubele Graubele Battery type Lith. Batt warning 3.
Display Transmitter-wide display settings In the basic transmitter display, use your finger or the provided stylus to touch the gear icon labelled "S": 000% RX 000% 4.1V TX RX 00.0V 000 000 mz 0:01:23 M 1 000 000:00.0 000:00.0 Touch 000 NORMAL Graubele 000 000 The display switches to the purple main menu. Touch the menu item "DISPLAY" with your finger or the provided stylus.
BACK BACK Graubele Contrast 20 Contrast 20 BACK Backlight off 30s Backlight off 30s Contrast 20 Touch sense 1 INC Touch sense 1 INC Backlight off 30s Logo color DEFAULT RES Logo color DEFAULT RES Touch sense Glaring sun OFF DEC Glaring sun OFF DEC Logo color RFID AAAAA876 RFID Touch the RES button to reset a changed value back to the default OFF .
Glaring sun 000% RX To maintain the legibility of the mz-18 HoTT and mz-24 HoTT transmitter displays even in bright surroundings or sunlight, you can set the default to "high contrast".
Stick calibration Calibration of the neutral position of the two control sticks In the basic transmitter display, use your finger or the provided stylus to touch the gear icon labelled "S": 000% RX BACK 1 000% 2 3 NORMAL Graubele 4 5 6 7 8 9 10 11 12 BACK VIEW 2 3 NORMAL Graubele 4 5 6 7 8 9 10 11 12 VIEW 4.1V TX RX 00.0V 000 000 mz 0:01:23 M 1 000 000:00.0 000:00.
stick is not self-neutralizing. Before touching the SET button on the right, the right control stick should be moved away from the pilot toward the center until 000% is displayed: BACK Move the right control stick to the left, front corner without exerting pressure at the limit. If the transmitter is incorrectly adjusted, the results can have the following appearance: BACK Graubele << RIGHT >> << RIGHT >> VERTI. SET VERTI. 000% +102% HORIZ. HORIZ.
MP3 Player Program for playing MP3 files such as music files Note: 000% 000% RX This menu is only available with the mz-24 HoTT transmitter. RX 00.0V 000 M 1 The MP3 menu can now be accessed not only from the system menu, as described in the following, but also directly by tapping the MP3 icon in the basic display: 000% RX 000% 4.1V TX RX 00.0V 000 0:01:23 M 1 000 mz 000 000:00.0 000 000:00.0 000:00.0 Touch the large red triangle to start playing the first MP3 file of album 1.
BACK A Note: A ALBUM TITLE 01/04 01/23 Any activated voice triggers are displayed in the MP3 file that is playing. Track01 00: 18 + Album one will automatically play back until you stop it by touching the stop button … BACK A To reduce the volume, touch the gray dot with the "-" at the bottom left of the display with a finger or the provided stylus.
• The number of titles of the selected album displayed on the right is calculated from the number of MP3 files per directory. Control panels You can jump forward to a title by touching the right selection button and jump back a title by touching the left button similar to corresponding buttons on MP3 players or other players. Touch the field to cycle through the following three options: The selected album is played in a continuous loop until you either stop it or turn off the transmitter.
Telemetry data display The display of the mz-18 HoTT and mz-24 HoTT transmitters is used for operating the transmitter and to graphically display telemetry data. You can switch between modes by touching the "T" icon at the bottom right of the basic display with a finger or the provided stylus: 000% VOLT 5.2V 0 40.0 4.1V TX RX 00.0V 000 000 mz 0:01:23 M 1 000 000:00.0 000:00.0 Touch 000 NORMAL BACK NEXT R - 52dB 3.0 0 6.0 L-VOLT 3.5V - 58dB T 3.0 Q 100% S 075% L 0020ms VOLT 5.
Receiver BACK NEXT R - 58dB T 3.0 VOLT 5.2V 0 40.0 -20 TEMP +26°C 0 6.0 Q 70 L-VOLT 3.
In the right top half of the display, the current cell voltages are displayed of a lithium polymer battery with up to six cells, as well as the level of a fuel tank measured by a sensor connected to the module. The abbreviations have the following meanings: Value Explanation 1-BAT-2 BATT 1 to the left, and BATT 2 to the right QUA Signal quality expressed as percentage FUEL Fuel level/tank display ml accumulated consumption in ml ELECTRIC AIR MODULE BACK QUA 100 RPM 000000 NEXT m/s -000.
QUA Signal quality expressed as percentage 1-BAT-2 BATT 1 and BATT 2 1-TEMP-2 Temperature of sensors 1 and 2 BAT-1/ BAT-2 Cell voltage of each cell 1 … 7 of battery 1 and each cell 1 … 7 of battery 2 GPS ESC BACK m/s DIST 0000m 0 0000m 300 CAPACITY 00000mAh 30.0 70 cur-VOLT-min cur-TEMP-max 60000 m/3s 100 QUA 100 BACK NEXT E 000°00 0000 00.0V 00.0V 0 -20 -020°C -020°C 000km/h QUA 100 270.0 270.0 m/3s m/s 270.0 m/10s -270.0 -270.0 -000.5 +000.1 000.
Cur-AMPMax Left value: Momentary current Right value: maximum current since the device has been switched on 000 Position in angular degrees relative to the starting location calculated by the GPS system Messages from the microcopter sensor are displayed in the bottom line in the above display. Microcopter display BACK NEXT VOLT 00.0V ALT TIME 00:00 DIR mAh 0000 CUR. 0000m 000 000.
Programming example Sequencer 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, your model must be completely programmed in the transmitter. The following will therefore only present how to integrate a sequencer in the programming of a model with a common landing gear servo and two flap servos for separately actuating the cover for the landing struts and wheels.
And another curve mixture for the smaller wheel cover flaps that are to be closed after the landing gear extends: BACK CH9 NORMAL DOORSEQ F S REV/DEL (page 68) … of the base menu, and set the desired time for the auxiliary channel CH9 controlling the sequencer function, such as 6 seconds: >> CH8 BACK ACT 1. ON CTL ON NOR DOORSEQ F 0.0s NORMAL 7. NOR 0.0s S 2. NOR 0.0s 8. NOR 0.0s OUT –100% 3. NOR 0.0s 9. NOR 6.0s POINT 4. NOR 0.0s RES 5. NOR 0.0s DEC .6 NOR 0.
Appendix PRX (power for receiver) Order No. 4136 Graupner HoTT GPS/Vario module Order No. 33600 Graupner HoTT Vario module Order No. 33601 Highly developed, stabilized receiver power supply with intelligent power management. The unit offers a stabilized and adjustable receiver power supply to further enhance the reliability of the power supply. Appropriate for different receiver batteries for uncomplicated and wide-ranging use.
Graupner HoTT 2.4 General Engine Module Order No. 33610 Graupner HoTT 2.4 General Air Module Order No. 33611 Graupner HoTT 2.4 Electric Air Module Order No. 33620 General sensor for Graupner HoTT receivers and models with gas 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.
Graupner HoTT RPM magnetic sensor Order No. 33616 Graupner HoTT Vario module Order No. 33700 Graupner HoTT USB interface Order No. 7168.6 For connecting to the General Engine (order No. 33610), General Air (order No. 33611) or Electric Air module (order No. 33620). Select the number of blades in the module's telemetry menu. Wide-ranging functions combined into one device make the SMART BOX your future smart companion.
Personal notes S1006_mz-24.3.en.indd 223 223 17.12.
224 Personal notes S1006_mz-24.3.en.indd 224 17.12.
Personal notes S1006_mz-24.3.en.indd 225 225 17.12.
226 S1006_mz-24.3.en.indd 226 mz-18 HoTT / mz-24 Hott / GR-12L HoTT / GR-24 HoTT S1005 / S1006 / S1012 / 33512 2 Graupner|SJ GmbH Henriettenstrasse 96 D-73230 Kirchheim/Teck Artikelnummer: Geräteklasse: Firmenanschrift: Energy related products directive (ErP) 93/42/EEC 6. Ökodesign-Richtlinie Ausstellungsdatum / Date of issue Position Unterschrift / Signature 10.12.2014 Geschäftsführer / Managing Director Zu 7: EN 60950-1:2006 + A11:2009 + A1:2010 + A12:2011 EN 62479:2010 Zu 5: EN 300 328 V1.
