T32MZ-24G Radio Control User Manual-Part 1-Rev.01-190827

Company: Futaba Corporation

FCC ID: AZP-T32MZ-24G

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User Manual-Part 1-Rev.01-190827

Users Manual

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INSTRUCTION MANUAL 1M23Z06801 TABLE OF CONTENTS INTRODUCTION ............................... 4 Support and Service .................................... 4 Application, Export, and Modiication ........... 5 Deinitions of Symbols ................................. 6 Safety Precautions (do not operate without reading) ....................................................... 6 BEFORE USE .................................. 10 Features .................................................... 10 Contents and Technical Speciications ........ 12 Transmitter controls .................................. 13 Cautions on handling antenna .................... 13 LED monitor ............................................... 14 Toggle switch (SA-SH) ................................ 15 Volume (LD, RD) ........................................ 16 Back side switch (SI, SJ) ............................ 16 Slide Lever (LST, LS, RS, RST) ..................... 16 Digital trim (T1-T6) .................................... 17 Touch panel ............................................... 17 HOME/EXIT U.MENU/MON. Button .......... 18 Stick Adjustment ........................................ 19 Battery exchange ....................................... 22 Battery charging ........................................ 24 microSD card ............................................. 25 Back side connector ................................... 26 Receiver R7108SB nomenclature ............... 27 Connector .................................................. 27 Link / Mode Switch ..................................... 27 Extra Voltage Connector ............................. 27 Connection of a receiver battery ................. 28 Connection example ................................... 28 R7108SB CH Mode ...................................... 29 Servo(Option) / Toolbox / Receiver switch 30 Receiver's Antenna Installation ................. 31 Safety precautions when installing receiver and servos ................................................ 32 S.BUS Installation ..................................... 33 S.BUS2 System .......................................... 34 S.BUS device setting.................................. 35 Telemetry System ...................................... 36 BASIC OPERATION ......................... 37 How to turn ON/OFF the transmitter ......... 37 Home screen ............................................. 38 2 TABLE OF CONTENTS Sub-Display ............................................... 39 Link procedue (T32MZ R7108SB) ........... 40 How to change the number of value .......... 41 How to activate the function ...................... 41 How to return to home screen or go back .. 41 Page of each setting screen ....................... 41 Switch selection ........................................ 42 Display of operation status ........................ 42 Home 2 screen .......................................... 43 Panel lock.................................................. 43 Registration of the user's name ................. 44 MODEL BASIC SETTING PROCEDURE .. 45 Airplane/glider basic setting procedure ..... 45 Helicopter basic setting procedure ............. 47 Servos connection by model type .............. 51 FUNCTIONS OF SYSTEM MENU ....... 56 Trainer ....................................................... 57 Display ....................................................... 60 Date and Time ............................................ 61 User Name ................................................. 62 Switch ........................................................ 63 H/W Setting ............................................... 64 Sound Volume ........................................... 66 Player ........................................................ 67 S.BUS Servo .............................................. 68 Information ............................................... 71 Unit System ............................................... 72 Range Check ............................................. 73 FUNCTIONS OF LINKAGE MENU ..... 74 Servo Monitor ............................................. 75 Model Select ............................................... 76 Model Type ................................................. 77 Picture ....................................................... 79 Sound ........................................................ 80 System Type ............................................... 82 System Type selection .................................. 82 Receiver linking ........................................... 82 Dual receiver function .................................. 82 Telemetry function ....................................... 82 D/L Interval ................................................ 82 Battery fail-safe voltage setup ....................... 82 Linking method (T32MZ R7108SB) ......... 83 The example for choosing System Type .......... 84 Function ..................................................... 85 Sub-Trim .................................................... 87 Servo Reverse ............................................ 88 Fail Safe ..................................................... 89 End Point (ATV) .......................................... 90 Throttle Cut (Airplane/helicopter only) ....... 91 Idle Down (Airplane/helicopter only) ......... 92 Swash Ring (Helicopter only) ..................... 93 Swash (Helicopter only) ............................. 94 Timer ......................................................... 96 Dial Monitor ............................................... 98 Function Name ........................................... 99 Telemetry ................................................. 100 Audible telemetry information ..................... 101 Receiver Battery Display ............................. 102 Temperature Display .................................. 103 RPM Display .............................................. 103 Altitude Display ......................................... 104 GPS Display .............................................. 106 Voltage Display .......................................... 108 Current / Voltage / Capacity Display ............. 109 Servo sensor Display .................................. 110 Airspeed Display ........................................ 111 Sensor ..................................................... 112 Sensor Name ............................................ 117 Telemetry Setting ..................................... 118 Warning ................................................... 120 Data Reset ............................................... 121 User Menu ................................................ 122 Condition Hold (Helicopter only) ............... 123 FUNCTIONS OF MODEL MENU ...... 124 Servo Monitor (Linkage Menu ..75) Condition Select ....................................... 125 AFR (D/R) ................................................ 127 Prog. Mixes (Program mixing) .................. 129 Fuel Mixture ............................................. 132 Airplane/Glider Functions ........................ 133 AIL Diferential ......................................... 135 Flap Setting .............................................. 136 AIL to Camber FLP ................................... 137 AIL to Brake FLP ...................................... 138 AIL to RUD ............................................... 139 Airbrake to ELE ......................................... 140 RUD to AIL ............................................... 141 Camber Mix .............................................. 142 ELE to Camber .......................................... 144 Camber FLP to ELE ................................... 145 Butterly ................................................... 146 Trim Mix 1/2 ............................................ 148 Airbrake ................................................... 150 Gyro (Airplane) ........................................ 152 V-tail ........................................................ 153 Ailevator .................................................. 154 Winglet .................................................... 155 Motor ....................................................... 156 RUD to ELE ............................................... 157 Snap Roll .................................................. 158 Multi Engine ............................................. 159 Acceleration ............................................. 160 Helicopter Functions ................................ 161 PIT Curve ................................................. 162 THR Curve ................................................ 165 Acceleration ............................................. 167 Throttle Hold ............................................ 168 Swash Mix ................................................ 169 Throttle Mix ............................................. 170 PIT to Needle ........................................... 171 PIT to RUD ............................................... 172 Gyro ......................................................... 173 Governor .................................................. 174 Throttle Limiter ........................................ 175 COMMON OPERATIONS USED IN FUNCTION SETUP SCREEN ........... 176 Flight conditions ........................................ 176 Fine tuning VR setting ............................... 176 Servo speed .............................................. 177 Curve setting ............................................ 178 Switch selection ......................................... 182 UPDATING ................................... 186 T18MZ T32MZ MODEL DATA CONVERSION ............................... 187 TABLE OF CONTENTS 3 INTRODUCTION Thank you for purchasing a Futaba 32MZ digital proportional R/C system. This system is extremely versatile and may be used by beginners and pros alike. In order for you to make the best use of your system and to ly safely, please read this manual carefully. If you have any dificulties while using your system, please consult the manual, our online Frequently Asked Questions (on the web pages ref-

erenced below), your hobby dealer. Due to unforeseen changes in production procedures, the information contained in this manual is sub-

ject to change without notice. http://www.futabausa.com

(http://www.rc.futaba.co.jp/english) Application, Export, and Modiication 1. This product is only designed for use with radio control models. Use of the product described in this instruction manual is limited to radio control models. 2. Exportation precautions:

(a) When this product is exported, it cannot be used where prohibited by the laws governing radio waves of the destination country.

(b) Use of this product with other than models may be restricted by Export and Trade Control Regula-

tions. 3. Modification, adjustment, and replacement of parts: Futaba is not responsible for unauthorized modiication, adjustment, or replacement of parts on this product. Outside North America Please contact the Futaba importer in your region of the world to assist you with any questions, prob-

lems or service needs. Please recognize that all information in this manual, and all support availabil-

ity, is based upon the systems sold in North America only. Products purchased elsewhere may vary. Always contact your regions support center for assistance. Compliance Information Statement (for U.S.A.) This device complies with part 15 of the FCC Rules. Operation is subject to the following two condi-

tions:

(1) This device may not cause harmful interference, and (2) This device must accept any interference received, including interference that may cause undesired operation.

(3) RF Radiation Exposure Statement (For T32MZ) This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment. This transmitter must not be co-located or operating in conjunction with any other antenna or trans-

mitter. RF Radiation Exposure Statement (For R7108SB) This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environ-

ment. This equipment should be installed and operated with minimum distance 20 cm between the radiator & your body. The responsible party for the compliance of this device is:

Futaba Service Center 2681 Wall Triana Hwy Huntsville, AL 35824, U.S.A. TEL 1-256-461-9399 or E-mail: contactus@futaba.com 4 Introduction CAUTION:

To assure continued FCC compliance:

Any changes or modiications not expressly approved by the grantee of this device could void the us-

ers authority to operate the equipment. Compliance Information Statement (for Canada) This device complies with Industry Canada license-exempt RSS standard (s). Operation is subject to the following two conditions: (1) this device may not cause interference, and (2) this device must ac-

cept any interference, including interference that may cause undesired operation of the device. This equipment complies with IC radiation exposure limits set forth for an uncontrolled environment. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. French: Cet appareil radio est conforme au CNR-247 dIndustrie Canada. Lutilisation de ce disposi-

tifest autorise seulement aux deux conditions suivantes : (1) il ne doit pas produire de brouillage, et

(2) lutilisateur du dispositif doit tre prt accepter tout brouillage radiolectrique reu, mme sice brouillage est susceptible de compromettre le fonctionnement du dispositif. Cet quipement est con-

forme aux limites dexposition aux rayonnements IC tablies pour un environnement non contrl. Cet quipement est conforme aux limites dexposition aux rayonnements IC tablies pour un envi-

ronnement non contrl. Cet metteur ne doit pas tre co-situ ou fonctionner conjointement avec une autre antenne ou metteur. Declaration of Conformity (for EU) Hereby, Futaba Corporation declares that the radio equipment type is in compliance with Directive 2014/53/EU. The full text of the EU declaration of conformity is available at the following internet address:

http://www.rc.futaba.co.jp/english/dl/declarations.html Where to Fly We recommend that you ly at a recognized model airplane lying ield. You can ind model clubs and ields by asking your nearest hobby dealer, or in the US by contacting the Academy of Model Aeronautics. You can also contact the national Academy of Model Aeronautics (AMA), which has more than 2,500 chartered clubs across the country. Through any one of them, instructor training programs and insured newcomer training are available. Contact the AMA at the address or toll-

free phone number below. Academy of Model Aeronautics 5161 East Memorial Drive Muncie, IN 47302 Tele. (800) 435-9262 Fax (765) 289-4248 or via the Internet at http:\\www.modelaircraft.org Always pay particular attention to the lying ields rules, as well as the presence and location of spectators, the wind direction, and any obstacles on the ield. Be very careful lying in areas near power lines, tall buildings, or communication facilities as there may be radio interference in their vicinity. Introduction 5 Precautions Application, Export, and Modiication Precautions. 1. This product is only designed for use with radio control models. Use of the product described in this instruction manual is limited to radio control models. 2. Export precautions:

a) When this product is exported, it cannot be used where prohibited by the laws governing radio waves of the destination country. b) Use of this product with other than models may be restricted by Export and Trade Control Regulations. 3. Modiication, adjustment, and parts replacement:

Futaba is not responsible for unauthorized modiication, adjustment, or replacement of parts on this product. No part of this manual may be reproduced in any form without prior permission. The contents of this manual are subject to change without prior notice. The contents of this manual should be complete, but if there are any unclear or missing parts please contact a Futaba is not responsible for the use of this product by the customer. Company and product names in this manual are trademarks or registered trademarks of the respective company. Futaba Service Center. For safe use Please observe the following precautions to ensure safe use of this product at all times. Meaning of Special Markings:

The parts of this manual indicated by the following marks require special attention from the standpoint of safety. DANGER - Procedures which may lead to dangerous conditions and cause death/serious injury if not carried out properly. WARNING - Procedures which may lead to a dangerous condition or cause death or serious injury to the user if not carried out properly, or procedures where the probability of supericial injury or physical damage is high. CAUTION - Procedures where the possibility of serious injury to the user is small, but there is a danger of injury, or physical damage, if not carried out properly.

= Prohibited

= Mandatory WARNING: Always keep electrical components away from small children. Flying Precautions WARNING Never grasp the transmitter antenna while ying. The transmitter output may drop drastically. Always make sure that all transmitter stick movements operate all servos properly in the model prior to flight. Also, make sure that all switches, etc. function properly as well. If there are any diiculties, do not use the system until all inputs are functioning properly. Never y in range check mode. In the dedicated range test range check mode, the transmitter output range is reduced and may cause a crash. While operating, never touch the transmitter with, or bring the transmitter near, another trans-

mitter, a cellphone, or other wireless devices. Doing so may cause erroneous operation. Do not point the antenna directly toward the aircraft during ight. 6 Introduction The antenna is directional and the transmitter output is weakest. (The strength of the radio waves is great-

est from the sides of the antenna.) Never fly on a rainy day, when the wind is strong, or at night. Water could lead to failure or improper functionality and poor control of the aircraft which could lead to a crash. Never turn the power switch off during flight or while the engine or motor is running. Operation will become impossible and the aircraft will crash. Even if the power switch is turned on, op-

eration will not begin until transmitter and receiver internal processing is complete. Do not start the engine or motor while wearing the neck strap. The neck strap may become entangled with the ro-

tating propeller, rotor, etc. and cause a serious injury. Do not y when you are physically impaired as it could pose a safety hazard to yourself or others. Do not y at the following places:

Near another radio control lying ield. Near or above people. Near homes, schools, airports, stations, hospitals or other places where people congregate. Near high voltage lines, high structures, or communi-

cation facilities. When setting the transmitter on the ground during ight preparations, do not stand it upright. The transmitter may tip over, the sticks may move and the propeller or rotor may rotate unexpectedly and cause injury. Do not touch the engine, motor, or ESC during and immediately after use. These items may become hot during use. For safety, y so that the aircraft is visible at all times. Flying behind buildings or other large structures will not only cause you to lose sight of the aircraft, but al-

so degrade the RF link performance and cause loss of control. From the standpoint of safety, always set the fail safe function. In particular, normally set the throttle channel to idle. For a helicopter, set the throttle channel to maintain a hover. When ying, always return the transmitter set-

Low battery capacity will cause loss of control and a crash. Always check operation of each control surface and perform a range test before each ying ses-

sion. Also, when using the trainer function, check the operation of both the teacher and student transmitter. Even one incorrect transmitter setting or aircraft ab-

normality can cause a crash. Before turning on the transmitter:

1. Always move the transmitter throttle stick position to the minimum (idle) position. 2. Turn on the transmitter irst and then the receiver. When turning off the transmitter's power switch after the engine or motor has stopped

(state in which it will not rotate again):

1. Turn o the receiver power switch. 2. Then turn o the transmitter power switch. If the power switch is turned on/o in the opposite order, the propeller may rotate unexpectedly and cause a serious injury. Also always observe the above order when setting the fail safe function. When adjusting the transmitter, stop the engine except when necessary. In the case of a motor, disconnect the wiring that allows it to con-

tinue operation. When doing so, please exercise extreme caution. Ensure that the aircraft is se-

cured and that it will not come into contact with anything or anyone. Ensure that the motor will not rotate prior to making any adjustments. Unexpected high speed rotation of the engine may cause a serious injury. up screen to the Home screen. Erroneous input during light is extremely dangerous. Always check the remaining capacity of the transmitter and receiver batteries before each y-

ing session prior to ight. Battery and Charger Handling Precautions

*If you ignore the following safety precautions, it may cause a fire, ignition, over heating, explosion, the leakage of electrolyte luid or getting an electric shock. DANGER Do not recharge a battery that is damaged, de-

teriorated, leaking electrolyte, or wet. Do not use the charger in applications other than as intended. Do not allow the charger or battery to become wet. Do not use the charger when it or your hands are wet. Do not use the charger in humid places. Do not heat or short-circuit the battery. Do not solder, repair, deform, modify, or disas-

semble the battery and/or battery charger. Do not drop the battery into a fire or bring it near a ire or store them in a hot area. Do not charge and store the battery in direct sunlight or other hot places. Do not charge the battery if it is covered with any object as it may become very hot. Do not apply excessive mechanical stress to it. Do not use chargers other than those recom-

mended by Futaba. Do not use the battery in a combustible envi-

ronment. The combustibles may could ignite ignite and cause an explosion or ire. Introduction 7 Charging the battery past the specified value may cause a ire, combustion, rupture, or liquid leakage. When quick charging, do not charge the battery above 1C. Do not charge the battery while riding in a vehicle. Vibration will prevent normal charging. Insert the power cord plug firmly into the receptacle up to its base. Always use the charger with the specified power supply voltage. Use the special charger by connecting it to a proper power outlet. WARNING Do not touch the charger and battery for any length of time during charging. Doing so may result in burns. Do not use a charger or battery that has been damaged. Do not touch any of the internal components of the charger. Doing so may cause electric shock or a burn. If any abnormalities such as smoke or discolor-

ation are noted with either the charger or the bat-

tery, remove the battery from the transmitter or charger and disconnect the power cord plug and do not use the charger. Continued use may cause ire, combustion, genera-

tion of heat, or rupture. Do not subject the batteries to impact. Doing so may cause ire, combustion, generation of heat, rupture, or liquid leakage. CAUTION Do not use the battery with devices other than the corresponding transmitter. Do not place heavy objects on top of the bat-

tery or charger. Also, do not place the battery or charger in any location where it may fall. Doing so may cause damage or injury. Do not store or use the battery and charger where it is dusty or humid. Insert the power cord plug into the receptacle only after eliminating the dust. After the transmitter has been used for a long time, the battery may become hot. Immediately remove it from the transmitter. 8 Introduction If the battery liquid should get in your eyes, do not rub your eyes, but immediately wash them with tap water or other clean water and get treat-

ed by a doctor. The liquid can cause blindness. Keep the battery out of reach of children. Always charge the battery before each flying session. If the battery goes dead during light, the aircraft will crash. Charge the battery with the dedicated charger supplied with the set. Use and store the battery and battery charger in a secure location away from children. Not doing so may cause electric shock or injury. If the battery leaks liquid or generates an ab-

normal odor, immediately move it to a safe place for disposal. Not doing so may cause combustion. If the battery liquid gets on your skin or cloth-

ing, immediately ush the area with tap water or other clean water. Consult a doctor. The liquid can cause skin damage. After the speciied charging time has elapsed, end charging and disconnect the charger from the receptacle. When recycling or disposing of the battery, iso-

late the terminals by covering them with tape. Short circuit of the terminals may cause combustion, generation of heat or rupture. Not doing so may cause a burn. Do not charge the battery in extreme tempera-

tures. Doing so will degrade the battery performance. An ambient temperature of 10 to 30 (50 to 86 ) is ideal for charging. Unplug the charger when not in use. Do not bend or pull the cord unreasonably and do not place heavy objects on the cord. The power cord may be damaged and cause com-

bustion, generation of heat, or electric shock. microSD Card (Commercial Product) Handling Precautions WARNING Never disassemble or modify the microSD card.

*Read the instruction manual supplied with the microSD card for details. Do not use the microSD card where it may be exposed to water, chemicals, oil, or other uids. Doing so may cause a ire or electric shock by short circuiting. Do not bend, drop, scratch or place heavy ob-

jects on the microSD card. If smoke or an abnormal odor emanates from the card, immediately turn o the transmitter power. CAUTION Since the microSD card is an electronic device, be careful of static electricity. Static electricity may cause erroneous operation or other trouble. Do not use the microSD card near radio and television sets, audio equipment, motors and other equipment that generates noise. Doing so may cause erroneous operation. Do not store the microSD card in the following places:

Where the humidity is high Where the temperature dierence is severe Where it is very dusty Where the card will be exposed to shock and vibration Storage and Disposal Precautions WARNING Keep wireless equipment, batteries, aircraft, etc. away from children. CAUTION Do not store wireless devices in the following places:

Where it is extremely hot (40 [104 ] or higher) or cold (-10 [14 ] or lower) Where the equipment will be exposed to direct sunlight Where the humidity is high Where vibration is prevalent Where it is very dusty Where the device may be exposed to steam and heat Other Precautions CAUTION Do not directly expose plastic parts to fuel, oil, exhaust gas, etc. If left in such an environment, the plastic may be dam-

aged. Since the metal parts of the case may corrode, always keep them clean. Join the Academy of Model Aeronautics. The Academy of Model Aeronautics (AMA) provides Near speakers and other magnetic devices Do not insert foreign matter into the transmit-

ter card slot. Doing so may cause erroneous operation. Do not expose the card to shock and vibration and do not remove the card from the card slot while data is being written or read. The data may be damaged or lost. Recorded data T h e d a t a r e c o r d e d o n t h e m i c r o S D c a r d c a n n o t b e c o m p e n s a t e d r e g a r d l e s s o f t h e contents or cause of the trouble or obstruction. Futaba does not perform data restoration or recovery work. When the device will not be used for a long time, remove the batteries from the transmitter and aircraft and store them in a dry place where the temperature is between 0 and 30 [32 and 86 ]. Leaving batteries inside your model and radio when they are not being used for long periods will result in battery deterioration, liquid leakage and other dam-

age. guidelines and liability protection should the need arise. Always use genuine Futaba products such as transmitter, receiver, servo, ESC, battery, etc. Futaba is not responsible for damage sustained by combination with parts other than Futaba Genuine Parts. Use the parts speciied in the instruction man-

ual and catalog. Introduction 9 BEFORE USE FEATURES FASSTest system The T32MZ transmitter adopted the bidirectional communication system "FASSTest". Data from the receiver can be checked in your transmitter. FASSTest is a maximum 18 channels (linear 16 channels +

switch 2 channels) 2.4 GHz dedicated system. Channel expansion (multiprop function) The multiprop function can be used by using the separately sold multiprop decoder MPDX-1. The multiprop function is a function that divides one channel into eight channels and extends the number of channels. Up to 2 MPDX-1s can be used, and up to 32 channels can be expanded as follows. Linear channel 14 channels (2 channels are used by multi-prop function) ON/OFF channel 2 channels Multiprop channels 16 channels Multiprop channels have the following differences from normal linear channels. The resolution of the multiprop channel is lower than that of the linear channel. Operating multiple multiprop channels simultaneously may reduce the operation response of the multiprop channel. Multiprop channels can not use the mixing function. S.BUS2 system By using the S.BUS2 system multiple servos, gyros and telemetry sensors are easily installed with a minimum amount of cables. Windows Embedded Compact 7 T32MZ utilizes the world famous Microsoft Windows Embedded Compact 7, which offers outstanding dependability and valuable resources. Color LCD Main display T32MZ has a HVGA (640x240 pixels) full color backlight LCD touchscreen. The screen is manufactured of a translective construction which enables both indoor and outdoor visibility. Color LCD Sub display T32MZ has a color LCD sub-display. It will be possible to know telemetry information separately from the main display. The sub display uses a relective LCD with good visibility even outdoors. 10 Before Use Music Play T32MZ can playback WMA (Windows Media Audio) iles on a microSD-Card. You can enjoy music by the internal speaker or stereo headphones from the earphone jack. A switch can be assigned to start/stop your music. Voice Recording You can record your own voice using the internal microphone and then play back commands assigned to certain switches. Recording time is 3 seconds maximum and 24 voice iles can be stored. Secure Data (microSD) Model data, music iles, voice iles and picture iles can be stored on optional microSD card. The microSD card is also used when updating the software/features of the T32MZ. High capacity lithium polymer battery (6600 mAh) The high capacity Lithium Polymer battery gives you extended light time. Editing The touch panel and Two enter keys allows you to edit your model in the manner that is easiest for you. Functions The internal dual processors operate the many 32MZ functions and optimize the response time. Most of the mixing functions are operated by curves which give you very precise settings. Stick Each axis is supported by dual ball bearings. And the magnetic detection type noncontact potentiometers was newly equipped. This allows for iner and more precise operation. Also, the throttle stick is an external screw adjustment, you can choose ratchet or spring self neutral. Replaceable switches You can replace 4 of the toggle switches on the right and left shoulder, with optional switches (two position, three position, and momentary etc.). Vibration function Low voltage and other alarms are generated by a vibration motor. Alarms or vibrations to be used can be selected by the owner. R7108SB The system comes with the R7108SB S.BUS2 Dual Antenna Diversity receiver featuring bi-directional communication. Before Use 11 Contents and Technical Speciications

(Speciications and ratings are subject to change without notice.) Your 32MZ (packaged with an S.BUS receiver) includes the following components:

T32MZ Transmitter R7108SB Receiver LT1F6600B Lithium-polymer battery & AC adapter Switch harness Tool Box (includes special jig for adjustment) Neck strap Transmitter case The set contents depend on the type of set. Transmitter T32MZ Operating system: 2-stick, 18 channels, FASSTest/FASST/S-FHSS/T-FHSS system Frequency band: 2.4 GHz RF power output : 50 mW EIRP Power supply: 3.8 V LT1F6600B Lithium-polymer battery Receiver R7108SB

(FASSTest, S.BUS2, Diversity) Receiving system: FASSTest system Frequency band: 2.4 GHz RF power output: 25 mW EIRP Power requirement: 6.6 V LiFe battery Current drain: 75 mA Size: 24.9x47.3x14.3 mm Weight: 12.0 g Note: The T32MZ battery does not arrive plugged into the transmitter connector housing. Please connect the battery connector before use. 12 Before Use Transmitter controls Switch SJ Switch SI Back side Antenna Volume LD Sub-Display Carrying Handle Volume RD Switch Block

(SA, SB, SE, SF) Speaker Slide Lever

(LS, LST) Stick

(J3)

(J4) HOME/EXIT Button Digital Trim Power Switch Hook Main-Display (Touch Panel) Battery cover Cautions on handling antenna WARNING Do not touch the antenna during operation.

*There is the danger of erroneous operation causing a crash. Do not carry the transmitter by the antenna.

*There is the danger that the antenna wire will break and operation will become impossible. Do not pull the antenna forcefully.

*There is the danger that the antenna wire will break and operation will become impossible. Switch Block

(SC, SD, SG, SH) Slide Lever

(RST, RS) Stick

(J2)

(J1) U.MENU/MON. Button Digital Trim LED monitor Before Use 13 Rotating antenna The antenna can be rotated 90 degrees and angles 90 degrees. Forcing the antenna further than this can damage it. The antenna is not removable. Angle adjustment of the antenna The antenna rotation and angle can be adjusted. The antenna features weak radio waves in the forward direction and strong radio waves in the sideways directions. Adjust the antenna angle to match your lying style. Low power High power High power 1 2 3

*Rotate irst Stand up1 5 Storage 5 1

*Stand up next 4 5 LED monitor The status of the transmitter is displayed by changing the MONITOR section LED.

(LED Display) FASSTest mode Light Blue light FASST mode Green light S-FHSS/T-FHSS mode yellow-green light RF-OFF Violet light Starting Red light Trainer Student Blue light 14 Before Use SF SE SH SG SA SB SC SD Toggle switch 8 switches can be assigned to each function.

: 3 positions; Alternate; Short lever SA

: 3 positions; Alternate; Long lever SB

: 3 positions; Alternate; Long lever SC

: 3 positions; Alternate; Short lever SD

: 3 positions; Alternate; Short lever SE

: 2 positions; Alternate; Long lever SF SG : 3 positions; Alternate; Short lever SH

*You can choose the Switch and the On/Off position in the Switch Selection menu of your mix.

: 2 positions; Momentary; Long lever

*Self retum 2 positions 3 positions Alternate Momentary When you change switches (SE, SF, SG, SH):

Remove from this point To relocate switches;

1. Make sure your transmitter is off, and remove the side rubber cover. 2. Use the driver to turn the screw counter-clockwise on the switch block and detach the block. Remove the screw holding the switch block. Pull the switch block remove. 3. Disconnect the connectors of switches you want to 5. To re-attach, use the face nuts to attach switches from other positions or optional switches to the switch block. 6. Connect your connectors. 7. Insert the switch block so reconnect the connectors that it its correctly into the body of the transmitter and use the driver to tighten the screws. change. 4. Use the attached jig (inside stylus) to turn the face nuts counterclockwise, this will detach the switches. Before Use 15 Volume Volume LD and RD:

Two volumes can be assigned to each function.

*It will beep when the lever is set to the center.

*You can check the position on the dial-monitor screen in the linkage menu. LD RD Back side switch Switch SI, SJ:

You can choose switches and the ON/OFF-direction in the setting screen of the each functions. SJ SI Slide Lever LST (Left), RST (Right):

Outside levers LS (Left), RS (Right):

Inside levers: Each lever has two ends, one at the front and the other at the back of the transmitter.

*It will beep when the lever is set to the center.

*You can check the lever position on the dial-monitor screen in the linkage menu.

*You can select a slide lever and set the movement direction on the setting screen of mixing functions. 16 Before Use RST RS LS LST Digital trim This transmitter is equipped with digital trims. Each time you press a trim button, the trim position moves one step. If you continue pressing it, the trim position starts to move faster. In addition, when the trim position returns to the center, the tone will change. You can always monitor trim positions graphics on the screen. To change the trim rate, you must activate this through the function menu, within the linkage menu. Touch the trim button and you will access another screen which enables you to change the trim percentages. Note: The trim positions you have set will be stored in the non-volatile memory and will remain there. T6 T5 T3 T2 T4 T1 Touch Panel Touch panel and HOME/EXIT & U.MENU/MON. button are used for entering data. Touch panel operation Touch softly the Touch Panel with the stylus pen or your fingertips. Touch the panel with your finger or the attached stylus pen, which is also used as a toolbox, to enter data. HOME/EXIT U.MENU/MON. Touch Panel

*Plastic ilm is attached to the touch panel. Please be careful so that you don't scratch the touch panel with anything hard such as a metal object. Don't push the touch panel with excessive force or drop anything on the panel.

*Although you may ind some air bubbles under the plastic panel due to environmental changes such as temperature, it is not a defect and will cause no problems.

*Color LED is made from many pixels. Some pixels hold lighting. Moreover, some pixels go out. And a screen may licker. Such condition is the characteristics of color LED. It is not failure. DANGER The T32MZ's touch screen is very sensitive. To avoid accidentally activating it during a light, it is suggested that it be locked. Due to the touch screen's sensitivity, allowing it to be touched during flight by a neck strap hook, servo extension, or even your hand could be dangerous. Please use the touch panel lock for added safety during light. Before Use 17 HOME/EXIT & U.MENU/MON. Button HOME/EXIT U.MENU/MON. HOME/EXIT Press Press and hold Return to the previous Return to the home screen screen Press Press and hold U.MENU/MON. To user menu display To servo monitor display HOME/EXIT & U.MENU/MON. Simultaneous pressing Panel lock/Lock release 18 Before Use Stick Adjustment Adjustment of the lever length You can adjust the length of stick levers, if you like. It is recommended to adjust the length of the sticks in line with your hand size. Lever head A Lever head B

[How to adjust the Stick length.]

1. Hold the lever head "B" and turn the lever head "A"

counter-clockwise, the lock will be released. 2. Adjust the stick lever to the desired length by turning lever head A. 3. Securely lock the stick lever by holding lever head A and turning lever head B counterclockwise. Adjustment of the stick lever angle You can make ine adjustments to the angle of a stick lever either inwards or outwards from the center stick position. Screw Use the attached 1.5 mm hexagonal wrench (inside stylus) to turn the screw clockwise to adjust the stick outwards, or counter-clockwise to tilt it inward. Note: Be careful not to turn the screw too far counterclockwise as it could fall out. Before Use 19 Adjustment of Stick Lever Tension You can adjust the tension of stick-levers. The rubber cover in the back is removed irst. Retaining Force (J2)

(Mode 1/3) Stick Tension (J3)

(Mode 1/3) Retaining Force (J3)

(Mode 2/4) Stick Tension

(J4) Stick Tension

(J1) Stick Tension (J2)

(Mode 2/4) J3 J2 J4 J1

[Adjustment of tension]

Adjustment of Throttle Stick (Ratchet System) You can choose either airplane ratchet system or helicopter-touch. 1. Open the dust protection cap on the back of the transmitter that is covering the hole for throttle stick adjustment. 2. Use the attached 1.5 mm hexagonal wrench (inside stylus) to turn the adjustment screw and set it as you prefer. Turning the screw clockwise increases the tension. For airplanes: Adjust the screw on the left. For helicopters: Adjust the screw on the right. In changing the setting from airplane to helicopter

(or heli to airplane);

1. Turn the screw counter-clockwise until the throttle stick moves freely, and turn the screw clockwise to adjust it to the tension you prefer. 20 Before Use For airplanes:

Adjust the screw on the left. For helicopters:

Adjust the screw on the right.

*In the Mode 1/3, arrangement of a screw is opposite.

*This transmitter has two ratchet plates, one for airplane and the other one for helicopter. If you tighten both screws, you won't be able to achieve the adjustment that you need because of the overlap of those two adjustments.

*If you want to change the setting from airplane to helicopter

(or from helicopter to airplane), turn the ratchet screw clockwise until the throttle stick moves freely. Then turn the screw for the helicopter until you get the tension you like. Release of spring tension The spring tension can be released by tightening the screw in the igure below. e.g. Stick mode 2 Stick mode 1 Loosen this screw and add spring tension. Back side Tighten this screw to release the spring tension. Loosen the screws for both of them. For helicopters: Adjust the For airplanes: Adjust the screw screw on the left. on the right. Next change the function Change the function of Elevator-Throttle. Linkage Menu Function SWAP Before Use 21 Battery exchange Note: Detaching the battery while the power is on can cause data you have recently edited to be lost. 1. Open the battery cover by sliding as shown in the igure. 2. Pull out the Battery removal clip and slide out the battery. Battery removal clip Slide it to the position where the battery can be held by the internal battery holder. Battery holder The battery holder can not be removed from the transmitter. 3. Remove the battery from the battery holder. Battery removal clip Battery Battery connector 22 Before Use Battery 4. Connect the battery wiring as shown in the igure. Attention to the direction 5. Slide and install the battery cover. Close the battery cover so that the wiring is not pinched. Be sure to attach a battery cover. WARNING Be careful to not drop the battery. Never take out the battery from the T32MZ transmitter while the LED monitor is blinking.

* Internal settings and memories can be destroyed.

* Do not use the transmitter if a Backup Error warning oc-

curs. Send it to the Futaba Service Center to be checked. Don't pull battery wiring.

*When it short-circuits, there is danger of explosion ignition. Note: The T32MZ battery does not arrive plugged into the transmitter connector housing. Please connect the battery connector before use. Before Use 23 Battery Charging 1. Turn off the transmitter power. 2 . C o n n e c t t h e p o w e r p l u g o f t h e A C adapter to an AC outlet.

*Don't connect AC plug to the T32MZ without connecting with an AC outlet. 3. Open the back lid of the transmitter and insert the plug of the AC adapter into the CHG port. 4. The charging monitor of the transmitter lights red.

*In the case LCD screen will come on for several seconds and then go off. It may take several seconds for charging to start after the AC adapter is connected. 5. When the battery is fully charged the charg monitor will light off. Remove the charge plug and AC adaptor.

* A f t e r u s i n g t h e A C a d a p t e r a l w a y s disconnect the power cord from the AC outlet.

* T h e t i m e t o c h a r g e a c o m p l e t e l y discharged battery pack is approximately 4 hours. However, the actual charging time may vary depending on temperature and state of the battery.

*If the battery is improperly installed or is faulty, the charging monitor will not light and the battery will not charge. DANGER The LT1F6600B lithium-polymer battery is for the T32MZ transmitter only. Do not use it with other devices. Always use the included AC adapter to charge the battery. The charging circuit is built into the T32MZ. WARNING The transmitter battery cannot be charged with the receiver charger. Conversely the receiver battery cannot be charged with the transmitter charger. Charging monitor RED OFF Charging Full charge Connect the AC adapter Connect AC rst. Choose the conversion connector according to your AC socket. Up side 24 Before Use microSD Card (sold separately) The microSD card can store various files, such as model data, music, sound files and pictures. Any microSD card on the market can be used with the T32MZ. The card is locked when it is pushed in all the way in. To remove the card, push in on the card again, it will pop up allowing you to remove it. Model data of the microSD card is used for storage. Direct flight is not possible with microSD card model data. Copy to T32MZ and use it. WARNING Be sure to turn off the power to the transmitter before inserting or removing the microSD card. As the microSD card is a precision device, do not use excessive force when inserting. If model data generated by a new software version transmitter is copied to an old software version transmitter, the transmitter may operate erroneously. Copy the model data after updating the copy destination transmitter to the new software version. Read data from a PC Saving music and image files edited by a PC into the microSD card, you can use those files on your T32MZ transmitter. Equipment for reading and writing microSD cards are available at most electronics stores. Stored data The life of the microSD card is limited due to the use of flash memory. If you have a problem saving or reading data such as picture data after a long period of use you may need to purchase a new microSD card.

*We are not responsible for, and cannot compensate for any failure to the data stored in the memory card for any reason. Be sure to keep a backup of your models and data in your microSD card.

*No need for backup battery; T32MZ transmitters and microSD cards are using nonvolatile memory devices so that the data stored in those will not be destroyed even without a backup battery. The clock for the transmitter depends on the Lithium battery. Before Use 25 Trainer S.I/F S.BUS CHG Charger PHONE Audio plug CRSF Connector for trainer function (TRAINER) When you use trainer function, connect the optional trainer cable between the transmitters for teacher and student.

*You can set the trainer function on the Trainer Function screen in the system menu S.BUS connector (S.I/F) When setting an S.BUS servo or telemetry sensor, connect here. Audio plug (PHONE) Connecting a stereo headphone to this plug, you can enjoy music iles stored in the microSD card. Connector for battery charger (CHG) You cannot use the charger that was included with the transmitter, without using the AC adapter that comes with this. DANGER Do not connect any other chargers. The charger for the receiver battery cannot be used for the transmitter. CRSF Protocol for TBS The T32MZ has been made compatible with the CRSF (TBS) protocol.

*Bidirectional communication function of CRSF is not supported. WARNING Futaba is not responsible for damage sustained by combination with parts other than Futaba Genuine equipment. 26 Before Use Receiver nomenclature Before using the receiver, be sure to read the precautions listed in the following pages. Receiver R7108SB Channels 1 6 Channel 7 / Battery Channel 8 or S.BUS or S.BUS2 equipment S.BUS2 : Telemetry sensor Link/Mode Switch Link/Mode Connector

"1 through 6":outputs for the channels 1 through 6

"7/B": outputs of 7 channels and power.

"8/SB": outputs of 8 channels or S.BUS port.

[S.BUS Sevo S.BUS Gyro ]

"S.BUS2": outputs of S.BUS2 port.

[Telemetry Sensor ]

Use the small plastic screw driver that was included with your receiver. The Link/Mode Switch is also used for the CH mode selection.

(The button is not used to link the transmitter and receiver together. )

*When using nine or more channels, use an S.BUS function or use a second R7108SB and link both to your transmitter. Extra Voltage Connector Use this connector when using a voltage telemetry device to send the battery voltage (DC 0 ~ 70 V) from the receiver to the transmitter. Please use an option is External voltage input cable. Wire in an extra connector to you drive batteries that mates with the extra voltage connector. DANGER Don't touch wiring.

* There is a danger of receiving an electric shock. Do not short-circuit the battery terminals.

* A short circuit across the battery terminals may cause abnormal heating, ire and burns. Please double check your polarity (+ and -) when hooking up your connectors.

* If + and - of wiring are mistaken, it will damage, ignite and Connector insertion Firmly insert the connector in the direction shown in the igure. Insert the S.BUS2 by turning it 90 degrees. WARNING S.BUS2 connectors Don't connect an S.BUS servo/gyro to BUS2 connector. LED Monitor explode. This monitor is used to check the CH mode of the receiver. Dont connection to Extra Voltage before turning on a receiver power supply. Before Use 27 Connection of a receiver battery WARNING Please make sure that you use a battery that can deliver enough capacity for the number and kind of servos used. Dry batteries cannot be used. A battery is connectable also with which port. Switch Battery 3.7 7.4 V When all ports are used. Y-harness Switch Servo Battery 3.7 7.4 V Connection example S.BUS PWM CH Mode Mode B to 8/SB port B S 8 0 1 7 R HUB Switch B S 8 0 1 7 R S.BUS servos Channel 1 -18 Battery Battery Conventional servos Channel 1 -7 28 Before Use Channel Modes The R7108SB is capable of changing its channel allocations as described in the table below. This is especially important when using the receiver in a dual receiver mode. seconds. to blinking red with green, Link/Mode button is released. 1 Turn on the receiver. [Transmitter is always OFF]

2 Press and hold the Link/Mode button for 5 seconds to 10 3 When the LED of the receiver changes from blinking red 4 The LED should now blink red two times in the patterns 5 Each press of the Link/Mode button advances the 6 When you reach the mode that you wish to operate in, press and hold the Link/Mode button for more than 2 seconds. When LED blinks in green with red, it is the completion of a mode change, Link/Mode button is released. described in the chart below. receiver to the next mode. 7 Please cycle the receiver power off and back on again after changing the Channel mode. R7108SB CH Mode table Channel Mode A 1 8CH Mode B 1 7CH Mode C 9 16CH Mode D 9 15CH Output connector 1 2 3 4 5 6 7/B 8/SB Red LED blink 1 2 3 4 5 6 7 8 1 time 1 2 3 4 5 6 7 S.BUS 2 times Default 9 10 11 12 13 14 15 16 9 10 11 12 13 14 15 S.BUS 3 times 4 times LED Indication Status No signal reception Receiving signals Waiting for link No signal reception Receiving signals Receiving signals but ID is unmatched Waiting for link

(EEPROM, etc.) Unrecoverable error System FASSTest FASST FASSTest FASST Start 2second Blink1second LED Red Solid Green Solid later Red Red Solid Green Solid Green Blink Red Blink Alternate blink DANGER Receiver Do not insert either a switch or battery in this manner. described by the chart below. Systems (FASSTest FASST) change method 1 Turn on the receiver. [Transmitter is always OFF]

2 Press and hold the Link/Mode button for 10 seconds to 15 seconds. 3 When the LED begins to blink green the button may be released. 4 The LED should now be blinking green in one of the patterns

(Default : FASSTest ) 5 Each press of the Link/Mode button advances the receiver to the 6 When you reach the system that you wish to operate in, press and hold the Link/Mode button for more than 2 seconds. When the LED blinks green and red, the system change is complete. Release the Link/Mode button. next system. 7 Please cycle the receiver power off and back on again after changing the system. R7108SB System table Green LED System FASSTest FASST Multi-ch Normal mode blink 1 time 2 times 3 times 4 times 5 times

*FASST mode cannot use telemetry functions. FASST 7ch Normal mode FASST 7ch High-speed mode FASST Multi-ch High-speed mode Default Before Use 29 Servo (Option)ToolboxReceiver Switch Receiver Switch ESW-1J Servo (Option) Purchase servos appropriate for their intended use.

*Analog servos may not be used when operating in the FASSTest 12CH mode. When operating in the FASSTest12CH mode use digital servos, this includes all brushless and S.BUS servos. Toolbox Rubber Cap Tool for removing decoration nuts Hex. Wrench (1.5mm and 2.5mm) A special toolbox is included with your T32MZ. This allows you to make all of the mechanical adjustments that may be needed. Hexagonal wrench (1.5 mm and 2.5 mm) These wrenches are for adjustment of sticks and replacement of the switches. Tool for removing switch nuts. This is used when changing or replacing switches. Stylus pen A rubber cap is attached to the stylus pen/toolbox. You may use this stylus with rubber cap when operating the touch panel. The stylus allows more precise operation than fingers without fear of damaging the panels surface. You may use this tool as a stylus pen. 30 Before Use ESW-1J connects a Futaba receiver to a battery and is turned on and off in an FET circuit. Compared to using a mechanical switch, it allows more current to be sent with less loss. Use the mounting plate from the receiver on/

off switch as a template for the cutout and screw holes. Mount the switch on the side of the fuselage opposite the engine exhaust, and where it wont be inadvertently turned on or off during handling or storage. Be certain the switch moves without restriction and snaps from ON to OFF, and that the cutout allows full motion of the switch in both directions. Attachment Attached screw Switch cover Less than 5 mm of mounting plate Switch WARNING When the model is not being used, always remove or disconnect the battery. When the switch is off, a slight amount of current still flows. Unless the switch and battery are disconnected, the battery will be damaged from excessive discharge. Always make sure that the switch harness is irmly attached to the fuselage of the model. There is the danger of loss of control and crashing if the connector is disconnected by vibration and shock. Do not charge the receiver battery through the switch harness. Disconnect the receiver battery and charge to the manufactures instructions. There is no charge connector in this switch. Never reverse the battery polarity. Reverse connection will immediately destroy the receiver, servo, etc. Ensure that the unit is mounted in an area that will eliminate exposure to fuel, water and vibration. As with any electronic components, proper precautions are urged to prolong the life and increase the performance of the ESW-1J. Allow a slight amount of slack in the cables and fasten them at a suitable location to prevent any damage from vibration during ight. Never solder the ESW-1J or attempt to repair, deform, modify or disassemble them. Do not use the ESW-1J with anything other than an R/C model. Receiver's Antenna Installation The R7108SB has two antennas. In order to maximize signal reception and promote safe modeling Futaba has adopted a diversity antenna system. This allows the receiver to obtain RF signals on both antennas and ly problem-free.

*Must be kept as straight as possible. Antenna Sleeve Coaxial cable To obtain the best results of the diversity function, please refer to the following instructions:

1. The two antennas must be kept as straight as possible. Otherwise it will reduce the effective range. Do not bend the antenna part Fix the sleeve to the model Gently bend the coaxial cable part. 90 Antenna installation Coaxial cable Sleeve Antenna part Antenna R7108SB Receiver 2. The two antennas should be placed at 90 degrees to each other. This is not a critical igure, but the most important thing is to keep the antennas away from each other as much as possible. Larger models can have large metal objects that can attenuate the RF signal. In this case the antennas should be placed at both sides of the model. Then the best RF signal condition is obtained at any lying attitude. 3. The antennas must be kept away from conductive materials, such as metal, carbon and fuel tank by at least a half inch. The coaxial part of the antennas does not need to follow these guidelines, but do not bend it in a tight radius. 4. Keep the antennas away from the motor, ESC, and other noise sources as much as possible. Antenna If the frame is metal or carbon, provide antenna-frame clearance.

*The two antennas should be placed at 90 degrees to each other.

*The Illustration demonstrates how the antenna should be placed.

*Receiver Vibration and Waterprooing: The receiver contains precision electronic parts. Be sure to avoid vibration, shock, and temperature extremes. For protection, wrap the receiver in foam rubber or other vibration-absorbing materials. It is also a good idea to waterproof the receiver by placing it in a plastic bag and securing the open end of the bag with a rubber band before wrapping it with foam rubber. If you accidentally get moisture or fuel inside the receiver, you may experience intermittent operation or a crash. If in doubt, return the receiver to our service center for repair. Before Use 31 Safety precautions when you install receiver and servos Mounting the Servo Wood screw Rubber grommet Brass eyelet Servo mount 2.3-2.6mm nut washer Rubber grommet Brass eyelet Servo mount 2.3-2.6mm screw

(Airplane/Glider)

(Helicopter) Servo lead wires To prevent the servo lead cable from being broken by vibration during flight, provide a little slack in the cable and fasten it at suitable points. Periodically check the cable during daily maintenance. WARNING Connecting connectors Be sure to insert the connector until it stops at the deepest point. How to protect the receiver from vibration and water Wrap the receiver with something soft such as foam rubber to avoid vibration. If there is a chance of it getting wet, put the receiver in a waterproof bag or balloon to avoid water. Receiver's antenna Never cut the receiver's antenna. Do not bind the receiver's antenna with the cables for servos. Locate the receiver's antenna as far as possible from metals or carbon fiber components such as frames, cables, etc.

*Cutting or binding the receiver's antenna will reduce the ra-

dio reception sensitivity and range, and may cause a crash. Margin in the lead wire. Fasten about 5-10 cm from the servo outlet so that the lead wire is neat. Servo throw Mounting the power switch When mounting a power switch to an airframe, make a rectangular hole that is a little larger than the total stroke of the switch so that you can turn the switch ON/OFF without binding. Avoid mounting the switch where it can be covered by engine oil and dust. In general, it is recommended to mount the power switch on the side of the fuselage that is opposite the mufler. Adjust your system so that pushrods will not bind or sag when operating the servos to the full extent.

*If excessive force is continuously applied to a servo, the servo could be damaged due to force on the gear train and/

or power consumption causing rapid battery drain. Mounting servos Use a vibration-proof rubber (such as rubber grommet) under a servo when mounting the servo on a servo mount. And be sure that the servo cases do not touch directly to the metal parts such as servo mount.

*If the servo case contacts the airframe directly, vibration will travel to and possibly damage the servo. 32 Before Use S.BUS Installation This set uses the S.BUS system. The wiring is as simpliied and clean mounting as possible, even with models that use a large number of servos. In addition, the wings can be quickly installed to the fuselage without any erroneous wiring by the use of only one simple wire, even when there are a large number of servos used. When using S.BUS, special settings and mixes in your transmitter may be unnecessary. The S.BUS servos and S.BUS gyros memorize the number of channels themselves. (Settable with the T32MZ) The S.BUS system and conventional system (receiver conventional CH used) can be mixed. S.BUSGlider usage example HUB ( Optional ) Receiver: R7108SB Servo: S3173SVi9(Optional ) i-Connector ( Optional ) S.BUS Aerobatic plane usage example Throttle servo: BLS173SV ( Optional ) Battery: FR2F1800 ( Optional ) Receiver: R7108SB Aileron servo: BLS174SV2 ( Optional ) HUB3 ( Optional ) Rudder Servo: BLS175SV1 ( Optional ) Elevator servo: BLS173SV2 ( Optional ) Before Use 33 S.BUS2 System When using the S.BUS2 port, an impressive array of telemetry sensors may be utilized. Receiver port S.BUS S.BUS2 S.BUS2 TABLE S.BUS Servo S.BUS Gyro S.BUS2 Servo S.BUS2 Gyro Don't connect S.BUS Servo, S.BUS Gyro to S.BUS2 connector. S.BUS servos and gyros and S.BUS2 servos and gyros must be used in the correct receiver ports. Please refer to the instruction manual to make sure you connect to the correct one. Telemetry sensor CH Mode is set to ModeB [D]. S.BUS Port

(8/SB) S.BUS2 Port Hub Hub Hub Hub Mixed connection Connection is possible Connection is impossible S.BUS Servo S.BUS2 Servo S.BUS2 servo S.BUS servo Telemetry Sensors of S.BUS and S.BUS2 is possible. S.BUS2 gyro Connection is possible Telemetry sensor Connection is impossible S.BUS2 GYRO Servo 34 Before Use S.BUS device setting S.BUS servos or a telemetry sensor can be connected directly to the T32MZ. Channel setting and other data can be entered for the S.BUS servos or sensors. 1. Connect the S.BUS device as shown in the igure. 2. Turn on the transmitter power. 3. Call the setup screen. Servo: System Menu S.BUS Servo Sensor: Linkage Menu Sensor 4. Perform setting in accordance with each screen. 5. This sets the channel and other data for each S.BUS servo, or telemetry device to be used with the S.BUS device or receiver. T32MZ Parameter settings It is not necessary to carry out multiple battery connections like a T18MZ. S.BUS device

(S.BUS Servo)

(Telemetry sensor) When separate power supply used When a large number of servos are used or when high current servos are used, the servos can be driven using a 3-way hub and receiver battery. Before Use 35 Telemetry System The R7108SB receiver features bi-directional communication with a FASSTest Futaba transmitter using the S.BUS2 port. Using the S.BUS2 port an impressive array of telemetry sensors may be utilized. It also includes both standard PWM output ports and S.BUS output ports.

*Telemetry is available only in the FASSTest 18CH/T-FHSS mode. (FASSTest 12CH mode displays only Receiver battery voltage and Extra battery voltage.)

*The telemetry function requires the corresponding receiver.

*Each receiver has it own unique guid (globally unique identifier) or ID code for the transmitter to remember and recognize when in use. Telemetry sensor (sold separately) Your aircraft's data can be checked in the transmitter by connecting various telemetry sensors to the S.BUS2 connector of the receiver. Power battery voltage is displayed at the transmitter. T32MZ i S g n a l I n f o Info voltage Receiver Battery voltage is displayed at the transmitter. Switch Info HUB Temperature Sensor Slot 1 RPM Sensor Altitude Sensor Voltage Sensor GPS Sensor Airspeed Sensor

***Sensor Slot 2 Slot 3 5 Slot 6 7 Slot 8 15 Slot 16 Slot 17 Slot 31 Info Info HUB HUB S.BUS2 Connector I n f o HUB Slot No. Servos are classified by channel, but sensors are classified by slot. Since the initial slot number of the T32MZ is preset at each sensor, the sensors can be used as is by connecting them. There are 1~31 slots. 36 Before Use BASIC OPERATION How to turn ON/OFF the power of the transmitter WindowsEmbedded Compact 7 is installed as a built-in operating system in the T32MZ transmitter. Compared to the conventional system, the T32MZ takes extra time for internal processing when it is turned on/off. The center switch is pushed. When turning on the power of the transmitter 1. Place the throttle stick below 1/3 closed. 2. Turn on the power switch.

*After initialization of the transmitter is complete, the LED monitor turns Purple.

*If your throttle stick is not at 1/3 closed or fully closed, a warning will sound. If you move the throttle to 1/3 closed or fully closed, the warning will stop and will become a "Transmit ?" screen.

*If you push the button "NO", then the transmitter will not emit radio waves.

*If you push the button "Yes", then the transmitter will emit radio waves.

*If a battery is removed and it re-connects, please switch on a power supply, after 3 seconds or more pass. Start-up time;

The time required to initialize the internal circuit of the transmitter varies between the previous time you turned the power off and then restarted the transmitter. There are two start up modes for your transmitter, see below:

Cold start;

If you turn on the transmitter more than four hours after you last turned it off, the mode is Cold start. Cold start is normal for the irst initial power up of the day. It will take about 30 seconds to be ready for use, as it takes time to initialize the internal circuit of the transmitter. Hot start;

If you turn on the transmitter less than four hours after you last turned it off, the mode is Hot start. Since initialization has been partly completed, the transmitter will be ready to use in several seconds. Since initialization has been partly completed, the transmitter will be ready to use in several seconds. Hot start takes place usually at a second light or later light in the day. WARNING Once you turn on the power, never shut off the power switch until the power becomes stable (or until the irst screen shows up). If you turn off the power switch while the transmitter is going through the initialization process, the data could be damaged. Note: The start-up time may be a little bit slower when the microSD card is installed compared to when the card is not. How to stop the transmitter Turn off the power switch of the transmitter. The internal circuit of the transmitter starts the shut down process including saving the set-up data. Push and hold the center switch. Once you turn off the power, never operate the power switch until the power shutdown process is fully completed. If you turn on the power switch again while the transmitter is still in the process of power shutdown, the data could be damaged. How to reset software If the screen freezes for some reason and you cannot edit, the transmitter power supply is not fully off even if you turn OFF the power switch. You will need to remove the battery and reinsert it again. In this case, the power restarts in Cold mode. Even though the screen freezes, all the other functions for radio control operation remain operative. Basic Operation 37 Home screen This is the Home screen and descriptions of it's menus. Use your inger or included stylus pen to operate the touch screen. Timer User's name If one of two timer displays is pushed, you will enter the Timer screen of a Linkage menu. Push this area to enter the User's Name Setting screen. In the button mode of a timer set, it can also be made a start/stop. A push on reset will reset a time. Menu Button System menu Linkage menu System Selection FASSTest18CH FASSTest12CH FASST MULTI FASST 7CH S-FHSS T-FHSS System timer/Reset This shows the total accumulated time used for the transmitter. This can be reset.

(Hour):(Minute):(Second) Push this area to reset the timer. Voltage of Rx/Ext battery Information from the receiver is displayed when using a bidirectional system. FASSTest/T-FHSS Only. Home2 A timer and Telemetry data change to Home2 screen by which it was indicated by expansion. RF Indicator

"ON AIR" or "RF OFF"

Digital trim (T1 to T6) Push this area to enter the Dial Monitor screen.

*Please note that the screens in this manual may differ slightly from the actual transmitter. Condition The condition name that is currently used is displayed here. Push this area to enter the Condition Select screen. Battery Indicator When the remaining battery reaches 10%, the alarm will beep. Land your aircraft immediately. Menu Button Model menu Model Name The model name that is currently used is displayed here. Push this area to enter the Model Select screen. Clock This shows the today's date and the current time. Push this area for the Date & Time Setting screen. WARNING Be sure to conirm the model name before lying your aircraft. Check the remaining battery as often as possible and try to charge the battery regularly. If the battery alarm sounds and its warning symbol is displayed, land your aircraft immediately. 38 Basic Operation Sub-Display The sub-display can display timer or telemetry data.

(The sub display is not a touch panel. The setting operation is performed on the main display.) Telemetry receiving status Receiver Voltage Extra Voltage Transmitter Voltage Timer 1 Timer 2 How to display telemetry information Press [Home 2] from the home screen Main-display Press [Select]

ON OFF The telemetry data selected on the [Home 2] setting screen is displayed. Timer Telemetry Sub- display Basic Operation 39 Link procedue (T32MZ R7108SB) Each transmitter has an individually assigned, unique ID code. In order to start operation, the receiver must be linked with the ID code of the transmitter to which it is being paired. Once the link is made, the ID code is stored in the receiver and no further linking is necessary unless the receiver is to be used with another transmitter. When you purchase additional R7108SB receivers, this procedure is necessary; otherwise the receiver will not work. Linking method (T32MZ R7108SB) 1. Bring the receiver to be linked to within 50 cm of the transmitter. Link mode Within 50 cm 2. Transmitter in link mode. HOME Screen 3. The transmitter emits a chime sound and enters the link mode. 4. The receiver power is immediately turned on. About 2 seconds after the power is turned on the receiver enters the linking state.

(Receiver linking time is about 1 second). 40 Basic Operation Rx ON 5. If linking is successful, the receiver LED changes from red to green, the link mode ends, and the receiver ID code is displayed. 6. If linking fails, an error message is displayed. Bring the transmitter closer to the receiver and repeat the procedure above from step 2.

* Do not perform the linking operation when the drive motor is connected or the engine is running.

* When you use two receivers, please be sure to setup a "primary" and "secondary" in the "dual"

mode.

* S i n c e t w o s e t s o f r e c e i v e r s c a n n o t b e individually recognized without using a "primary"

and "secondary" setup, it is impossible to receive telemetry data correctly.

* You must link one receiver at a time. If both power supplies to the receivers are switched on simultaneously, data is received incorrectly by the transmitter.

* A telemetry function cannot be used for the 2nd receiver.

* You cannot link three sets of receivers.

* Link is required when a system type is changed.

* Link is required when a new model is made from a model selection. WARNING Do not perform the linking operation when the drive motor is connected and the engine was started. Inadvertent rotation of the motor or acceleration of the engine is extremely dangerous. Once the link operation is complete, please check that your receiver can be operated with the linked transmitter. Check operation sufficiently before flying after linking. If the same receiver is sending in the vicinity, there is the danger that the transmitter may be linked with that receiver. CAUTION Always turn on the transmitter power after linking is complete. When pairing with the transmitter, be sure that a previously linked transmitter is not transmitting Model ID FASSTest, T-FHSS For the sake of safety, this function does not operate the receiver if the model data of the model program settings that does not match the aircraft is used by mistake. Conventional system Rx 1 Operation 1:

Model 1 Model 2 Model 3 Select Model 2 Operation Operation Rx 2 Rx 3 Model ID Not Operation Operation 1:

Model 1 Model 2 Model 3 Select Model 2 Not Operation Rx 1 Rx 2 Rx 3 It works with dierent model data. There is a risk of ying with dierent model data !

Model 2 only works with Model 2 data. There is no risk of ying with dierent model data. Link is required when a new model is made from a model selection. Add new model data 1:

Model 1 Model 2 Model 3 Model 1 Model 2 Model 3 Model 1 Model 2 Model 3 Model 1 Receiver Model 2 Receiver Model 3 Receiver Link Link Link Select a model in Model Select. Link with a receiver that matches the model. In the system types (FASSTest, T-FHSS) compatible with the model ID function, a unique ID number (model ID) is set to each model data. Linking with a receiver stores the model ID of the model data in that receiver. The receiver operates only when it receives radio waves transmitted using model data that matches the stored model ID. As a result, the receiver does not operate even if model data of an unintended setting is used by mistake, so it is possible to prevent a malfunction due to a model selection mistake. If you want to use different model data from the model data that you have been using, link again. Model ID feature is enabled only if the system type is FASSTest or T-FHSS. Please note that model ID function can not be used on other systems. For safety reasons, model ID function can not be disabled. Model data that can be stored in internal memory is up to 250 models. Model ID is automatically set when copying or adding model data. When using R3004SB When using the R3004SB, set Receiver in the system type screen T-FHSS mode setting to [R3004SB]. When using other T-FHSS compatible receivers, set "Receiver" to [Normal]. R3004SB receiver does not support model ID function. Change to "R3004SB"

Basic Operation 41 How to change the number of value When the button indicating the value of each function is pressed, the value setting button appears at the right end of the screen. Press the value Value setting button appears Many increase Slightly increase Reset Slightly decrease Many decrease How to activate the function When the INH button is pressed, the function turns ON or OFF and the function is enabled. INH indicates that the function is disabled. INH Inhibit ON OFF How to return to home screen or go back one step When you press the HOME/EXIT button from each screen (other than the home screen), you will return to the previous screen. You can return to the HOME screen by push and hold the HOME/EXIT button. PushReturn to the previous screen Push and HoldReturn to the HOME screen Page of each setting screen It is a notation when there are several pages of functions. Bottom of screen It is 1 page. It is 2 pages. 42 Basic Operation Show pages Six pages example To previous page To next page Switch selection Select the switch to operate the function. Press the switch Switch select screen appears Press the desired switch Press the ON Pos. Select the switch position Display of operation status A message is displayed for 5 seconds when the switch (stick, knob, slide lever) that operates the function is operated. A message is displayed when the function is turned ON/OFF. It is displayed for 5 seconds from the time of operation. Basic Operation 43 Home2 screen If [Home2] is pushed, it will become the display to which the timer and the telemetry data were expanded. Return to home screen Timer If one of two timer displays is pushed, you will enter the Timer screen of a Linkage menu. Panel lock Three telemetry data screens can be displayed. If three either is pushed, it will move to a telemetry screen. Three displays can be changed on a telemetry screen. Temporarily activating this function makes it impossible to change data by mistakenly touching keys during light. Please perform a touch-panel lock for safety. Touch screen in [System Menu] [Display] other than the following has an automatic setup. Start-up lock: It becomes a panel lock at the time of the power supply ON. Automatic lock: It synchronizes with Backlight decrease time and becomes a panel lock. HOME/EXIT U.MENU/MON. Lock by simultaneous pressing If the touch panel is touched while locked, this display appears and touch panel operation can not be performed. HOME/EXIT U.MENU/MON. Unlock by simultaneous pressing DANGER The T32MZ touch screen is very sensitive. To avoid accidentally activating it during a light, it is suggested that it be locked. Due to the touch screen's sensitivity, allowing it to be touched during light by a neck strap hook, servo extension, or even your hand could be dangerous. Please use the touch panel lock for added safety during light. 44 Basic Operation Registration of the user's name T32MZ transmitter can register user's name. How to register user's name 1. Turn on the power of the transmitter. 2. Push the area of the user's name shown on the home screen or the "user's name" in the system menu. Then the User's Name Set screen will pop up. 3. Push the user's name. Then the keyboard will pop up. You can use up to 32 characters as a user's name. Use the keyboard on the screen to enter user's name. Return key Space key 4. Push "Return" key to return to the previous screen after entering the user's name.

(If you want to protect the user's name) If you don't want anybody else to change your user's name, set your ID in the following way.

*Please be aware that you will not able to change user's name if you forget your password. 1. Make sure that the security mode is "User's name", and then push the User ID button. 2. Enter your password, using keyboard on the screen. You will need to enter your password for changing the user's name, the next time you turn on the power.

*Even if you enter the same character, your password will be identiied differently depending on whether you are using "Transform" mode or "Direct" mode for inputting. Basic Operation 45 MODEL BASIC SETTING PROCEDURE Airplane/glider basic setting procedure 1. Model addition and call Default settings assign one model to the T32MZ transmitter. To add new models or select previously setup models, use the Model Select function in the Linkage Menu. When a new model is added, relink with the receiver used in that model. A I R P L A N E This is convenient when calling a model after its name has been registered. The currently selected model name is displayed at the top of the screen. Before lying and before changing any settings, always conirm the model name. When a new model is added, the model type select screen/

system type/receiver link automatically appears. Please be aware that the transmitter will stop transmitting when you change the model. G L I D E R 2. Model type selection Select the model type matched to the fuselage with the Model Type select function of the Linkage Menu. For an airplane, select the model type from among the 3 types: airplane, glider, and motor glider. When the wing type select screen is displayed and the wing type is selected when selecting the model type, the tail type select screen is displayed. Select the tail type matched to the fuselage. There are 13 wing types and 3 tail types for airplane, glider, and motor glider. 46 Model Basic Setting Procedure 3. Airplane linkage Link the ailerons, elevators, throttle, rudder, etc. in accordance with the model's instruction manual. For a description of the connection method, see the receiver and servos connection. Note: The channel assignment of the T32MZ is different from that of our existing systems. Note that even for the same "airplane model", when the wing type and tail type are different, the channel assignment has been optimized and may be different. (The channel assigned to each function can be checked in the Function menu of the Linkage Menu.) When the direction of the linkage is reversed, adjust the direction with the Servo Reverse function in the Linkage Menu. Connect the throttle linkage so the carburetor is open at full trim and full open so that the throttle can be cut. Adjust the neutral position and rudder angle with the linkage, and fine tune them with the Sub Trim and End Point functions (rudder angle adjustment). To protect the linkage, a limit position can also be set with the End Point function. The End Point function can adjust the amount of up/down and left/right movement, limit, and servo speed of each channel. E N A L P R I A R E D I L G 4. Throttle cut setting(In case of engine model) 7. Airbrake Throttle cut can be performed with one touch by a switch This function is used when an air brake is necessary when without changing the throttle trim position. taking off or diving, etc. Set throttle cut with the Throttle Cut function of the Linkage Menu. After activating the throttle cut function and selecting the switch, adjust the throttle position so that the carburetor becomes full close. For safety, the throttle cut function operates the throttle stick in the slow position. The preset elevators and laps (camber lap, brake lap) offset amount can be activated by a switch. The offset amount of the aileron, elevator, and lap servos can be adjusted as needed. Also the speed of the aileron, elevator, and flap servos can be adjusted. (IN side/OUT side) A delay can be set for each condition, and a cut switch which will turn OFF the delay can be chosen. Trim amounts can be ine-tuned by setting a VR. You can also set the auto mode, which will link Airbrake to a stick, switch, or dial. A separate stick switch or dial can also be set as the ON/OFF switch. 5. Idle down setting(In case of engine model) The idling speed can be lowered with one touch by a switch without changing the throttle trim position. Perform this setting with the Idle Down function of the Linkage Menu. After activating the Idle Down function and selecting the switch, adjust the idle down speed. For safety, the idle down function acts only when the throttle stick is in the slow position.

*While the Throttle Cut function is in operation, the Idle Down function does not work. 6. AFR (D/R) AFR function is used to adjust the throw and operation curve of the stick, lever, and switch functions for each light condition. This is normally used after End Point (ATV) has defined the maximum throw directions (End Point acts on all flight condition settings). When mixing is applied from one channel to another channel, both channels can be adjusted at the same time by adjusting the operation rate through the AFR function. 8. Addition of light conditions The transmitter can install up to eight light conditions per model. You can assign all switches including sticks, switches, trim levers and trim switches as flight-condition selection switches. You can also add delayed mixing to these functions in order to avoid sudden changes. Moreover, you can set priority order for light conditions when you set more than one condition. In addition, you can copy conditions and/or change names of conditions. This command may also be used to deine what switches and/or controls are used to activate each flight condition. The Condition Select function automatically allocates the condition 1 for each model type. Condition 1 is the default condition, also referred to as normal, and is the only one active when a new model type is deined. This condition is always ON, and remains ON until other conditions are activated by switches. The Condition Delay can be programmed for each channel. The Condition Delay is used to change the servo throw smoothly when switching conditions.

*When a new condition is added, "Condition1" data is automatically copied.

*Select the condition switch and set the new condition data with the switch in the ON position. However, if the group mode (Gr.) was selected in advance, the same data will be input to all new conditions. Select the single mode (Sngl) and adjust the condition you want to change. Model Basic Setting Procedure 47 Helicopter basic setting procedure 1. Model addition and call Default settings assign one model to the T32MZ transmitter. To add new models or select previously setup models, use the Model Select function in the Linkage Menu. When a new model is added, relink with the receiver used in that model. This is convenient when calling a model after registering the model names in advance. The currently selected model is displayed at the top of the screen. Before lying and before changing any settings, always conirm the model name. Please be aware that the transmitter will stop transmitting when you change the model. When a new model is added, the model type select screen/

system mode/receiver link automatically appears. Please be aware that the transmitter will stop transmitting when you change the model.. 3. Flight condition addition The transmitter can install up to eight light conditions per model. You can assign all switches including sticks, switches, trim levers and trim switches as flight-condition selection switches. You can also add delayed mixing to these functions in order to avoid sudden changes. Moreover, you can set priority order for light conditions when you set more than one condition. In addition, you can copy conditions and/or change names of conditions. This command may also be used to deine what switches and/or controls are used to activate each flight condition. The Condition Select function automatically allocates the default Condition 0 (Normal) for each model type. Condition 0 (Normal) is the only one active when a new model type is defined. This condition is always ON, and remains ON until other conditions are activated by switches. The Condition Delay can be programmed for each channel. The Condition Delay is used to change the servo throw smoothly when switching conditions. H E L I C O P T E R 2. Model type and swash type selection When a separate model type is already selected, select helicopter with the Model Type function of the Linkage Menu, and then select the swash type matched to the helicopter.

(General light condition setting example) Normal: (Use initial setting conditions/operate when switch OFF) Use from engine starting to hovering. Idle up 1: (Switch setting example: Operate at SW-E center) Use in stall turn, loop, and other maneuvers. Idle up 2: (Switch setting example: Operate at SW-E forward side) Use in rolls. Throttle hold: (Switch setting example: Operate at SW-G forward side) Use in auto rotation. The priority is throttle hold/idle up 2/idle up 1/normal. Throttle hold has the highest priority. Add other conditions, as required. 48 Model Basic Setting Procedure 4. Helicopter linkage Connect the throttle rudder, ailerons, elevators, pitch, and other rudder linkages in accordance with the kit instruction manual. For a description of the connection method, see

"Receiver and servos connection".

*The channel assignment of the T32MZ is different from that of our existing systems. (The channel assigned to each function can be checked at the function menu of the Linkage Menu.) Swash plate correction (Except H-1 mode) Operation of the swash plate near the hovering point can be corrected by swash AFR function correction mixing. Use this when pitch, aileron, and elevator operation causes the swash plate to deviate from the normal direction. When the direction of the linkage is reversed, use the Reverse function of the Linkage Menu. Also use the swash AFR function in any swash set up other than the H-1 mode.

(Call the SwashSwash details screen.) Pitch slow side and high side linkage correction is also possible. Adjust so that pitch operation causes the swash plate to move up and down in the horizontal state. 5. Throttle curve setting This function adjusts the pitch operation curve in relation to the movement of the throttle stick for each condition. Adjust the direction of operation of the gyro. (Gyro side function) Connect the throttle linkage so it is fully closed with the trim setting all the way down. Adjust the neutral position and rudder angle at the linkage side and fine tune with the Sub-Trim function and End Point function (rudder angle adjustment). To protect the linkage, a limit position can also be set with the End Point function.

(17 points curve) The pitch curve can be freely selected from linear operation curve to smooth curve, and adjusted to match the curve you want by means of the T32MZs powerful Curve Edit Function

(Six types of curves can be selected). Up to 17 points can be set for linear or curve types. However, when using the 3 points or 5 points speciied to create a curve, a simple and smooth curve can be created by selecting the curve type and reducing the number of input points to 3 or 5, and then entering the speciied value at the corresponding points that you created.

Call the throttle curve of each condition with the condition select switch. Normal curve adjustment Normal curve uses Normal (Linear) type and creates a basic pitch curve centered near hovering. This curve is adjusted together with the Throttle Curve

(Normal) so that the engine speed is constant and up/down control is easiest. Idle up curve adjustment The high side pitch curve sets the maximum pitch regardless of the engine load. The low side pitch curve creates a curve matched for aerobatics

(loop, roll, 3D, etc.). Note: When the curve type is changed, the data is reset. Throttle hold curve adjustment The throttle hold curve is used when performing auto rotation dives. Model Basic Setting Procedure 49 R E T P O C I L E H Conirm that the rate of the slowest position (0%) of the stick is 0% (initial setting). Be sure that when set to high side 100%, the curve of any condition does not exceed 100%. Example of pitch curve setting:

1. Call the pitch curve of each condition with the condition select switch.

*Pitch curve graph display can be switched to pitch angle direct reading display. A. Pitch curve (Normal) Make the pitch at hovering approximately +5~6. Set the pitch at hovering with the stick position at the 50% point as the standard.

*Stability at hovering may be connected to the throttle curve. Adjustment is easy by using the hovering throttle function and hovering pitch function together. B. Pitch curve (Idle up 1) The idle up 1 pitch curve function creates a curve matched to airborne light. Set to -7~+12 as standard. C. Pitch curve (Idle up 2) The high side pitch setting is less than idle up 1. The standard is +8. D. Pitch curve (Hold) At auto rotation, use the maximum pitch at both the high and low sides.

[Pitch angle setting example]

Throttle hold: -7~+12 6. Throttle hold setting Call the Throttle Hold function from the Model Menu and switch to the throttle hold condition with the condition select switch. Note: At initial setting, the setting mode is the group mode. Since this function is not used at other conditions, switch to the single mode before setting. Setting to the state which activates the function The throttle hold function allows setting for throttle cut and switching of the function ixed at the idle position by switch for training. Either one or both functions can be performed. Hold position setting 50 Model Basic Setting Procedure H E L I C O P T E R This function sets the servo operation position at throttle hold. (Throttle cut and idle positions) Other settings When you want to link operation with stick manipulation, the Auto mode can be set. When you want to adjust the servo speed, adjust

[Speed]. 7. Pitch to RUD mixing setting Use this function when you want to suppress the torque generated by the changes in the pitch and speed of the main rotor during pitch operation. Adjust it so that the nose does not swing in the rudder direction. However, when using a heading hold gyro like those shown below, do not use Pitch to RUD mixing. Note: When using a Futaba GY series gyro, or other heading hold gyro, this Pitch to RUD mixing should not be used. The reaction torque is corrected at the gyro side. When operating the gyro in the AVCS mode, the mixed signal will cause neutral deviation symptoms and the gyro will not operate normally. Call the Pitch to RUD mixing function from the Model Menu, and set the curve for each condition. (At initial setting, this function is in the "INH" state. To use it, set it to the "ON"

state.)

(17 points curve) Curve setting of up to 17 points is possible. However, in the following setting example, a simple curve can be adjusted by using the [Linear] curve type. Note: At initial setting, the setting mode is the group mode. In this mode, the same contents are set at in all conditions. When you want to set the selected condition only, switch to the single mode.

Call the mixing curve of each condition with the condition select switch. 1. A curve setting example is shown below. A. Pitch to RUD mixing curve (Normal) Use the hovering system and set this curve to match take off and landing and vertical climb at a constant speed.

*For this curve, use the initial setting [Linear] curve type and adjust the left and right rates in the

[Separate] mode. B. Pitch to RUD mixing (Idle up 1) Use this curve in stall turn, loop, and adjust it so the fuselage is facing straight ahead when heading into the wind.

*For this curve, [Linear] curve type can be used and the entire curve can be lowered with the

[Offset] button. C. Pitch to RUD mixing (Hold) This function is set so that the fuselage is facing straight ahead during straight line auto rotation. The pitch of the tail rotor becomes nearly 0.

*For this curve, [Linear] curve type can be used and the entire curve can be lowered with the

[Offset] button. Other settings The mixing rise characteristic of pitch operation can be adjusted. An acceleration (ACLR) function, which temporarily increases and decreases the mixing amount, can be set. 8. Swash Mix corrects aileron, elevator and pitch interaction The swash mix function is used to correct the swash plate in the aileron (roll) direction and elevator (cyclic pitch) corresponding to each operation of each condition. 9. Throttle mixing setting RPM loss caused by swash operation of aileron or elevator can be corrected with the Throttle Mix function in the Model Menu. The effects of clockwise and counterclockwise torque applied when pirouetting can also be corrected. 10. Gyro sensitivity and mode switching The gyro sensitivity and mode switching function is dedicated to gyro mixing for each model used, and can be set for each condition. Normal condition (hovering): Gyro sensitivity maximum Idle up 1/Idle up 2/Throttle hold: Gyro sensitivity minimum However, at auto rotation of a tail-driven helicopter, this function may not have any affect at high gyro sensitivity. 11. Throttle cut setting Throttle cut provides an easy way to stop the engine, by lipping a switch with the throttle stick at idle. The action is not functional at high throttle to avoid accidental dead sticks. The switchs location and direction must be chosen, as it defaults to NULL.

*With throttle stick at idle, adjust the cut position until the engine consistently shuts off, but throttle linkage is not binding. When finished, touch the Throttle Cut button to exit. R E T P O C I L E H 12. Other special mixings Pitch to Needle mixing This mixing is used with engines with a construction which allows needle control during light (fuel-air mixture adjustment). A needle curve can be set. The needle servo rise characteristics at throttle stick acceleration/deceleration operation can be adjusted. (Acceleration function) Fuel mixture function This mixing is used in needle adjustment of engines which use a fuel mixture control carburetor. Governor mixing This mixing is dedicated governor mixing when a governor is used. Up to 3 rates (speeds) can be switched for each condition. Model Basic Setting Procedure 51 Servos connection by model type The T32MZ transmitter channels are automatically assigned for optimal combination according to the type selected with the Model Type function of the Linkage Menu. The channel assignment (initial setting) for each model type is shown below. Connect the receiver and servos to match the type used.

*The set channels can be checked at the Function screen of the Linkage Menu. The channel assignments can also be changed. For more information, read the description of the Function menu. A I R P L A N E G L I D E R Airplane/glider/motor glider Airplane and V tail RX CH Airplane 1AIL Glider EP 2AIL Glider EP Airplane 2AIL+1FLAP 2AIL+2FLAP Airplane Glider EP Airplane Glider EP 1 Aileron Aileron Aileron Aileron Aileron Aileron Aileron Aileron Aileron Aileron Aileron Aileron 2 Elevator Elevator Elevator Elevator Elevator Elevator Elevator Elevator Elevator Elevator Elevator Elevator 3 Throttle Motor AUX7 Throttle Motor AUX7 Throttle Motor AUX7 Throttle Motor AUX7 4 Rudder Rudder Rudder Rudder Rudder Rudder Rudder Rudder Rudder Rudder Rudder Rudder 5 Gear AUX6 AUX6 Gear AUX6 AUX6 Gear AUX6 AUX6 Aileron2 Aileron2 Aileron2 6 Airbrake Airbrake Airbrake Aileron2 Aileron2 Aileron2 Aileron2 Aileron2 Aileron2 Flap Flap Flap 7 8 9 10 11 12 13 14 15 16 AUX5 AUX5 AUX5 AUX5 AUX5 AUX5 Flap Flap Flap Flap2 Flap2 Flap2 AUX4 AUX4 AUX4 AUX4 AUX4 AUX4 AUX5 AUX5 AUX5 Gear AUX6 AUX6 AUX3 AUX3 AUX3 AUX3 AUX3 AUX3 AUX4 AUX4 AUX4 AUX5 AUX5 AUX5 AUX2 AUX2 AUX2 AUX2 AUX2 AUX2 AUX3 AUX3 AUX3 AUX4 AUX4 AUX4 AUX1 AUX1 AUX1 AUX1 AUX1 AUX1 AUX2 AUX2 AUX2 AUX3 AUX3 AUX3 AUX1 AUX1 AUX1 AUX1 AUX1 AUX1 AUX1 AUX1 AUX1 AUX2 AUX2 AUX2 AUX1 AUX1 AUX1 AUX1 AUX1 AUX1 AUX1 AUX1 AUX1 AUX1 AUX1 AUX1 AUX1 AUX1 AUX1 AUX1 AUX1 AUX1 AUX1 AUX1 AUX1 AUX1 AUX1 AUX1 Butterly Butterly AUX1 Butterly Butterly AUX1 Butterly Butterly AUX1 Camber Camber Camber Camber Camber Camber Camber Camber Camber AUX1 AUX1 AUX1 AUX1 AUX1 AUX1 DG1 DG2 SW SW SW SW SW SW SW SW SW SW SW SW SW SW SW SW SW SW SW SW SW SW SW SW s y s t e m C H o f e a c h T h e o u t p u t S