Sanwa Electronic Instrument Co 90408 6CH 2.4GHz Radio Control Systems User Manual Manual Part 2

Sanwa Electronic Instrument Co Ltd 6CH 2.4GHz Radio Control Systems Manual Part 2

Contents

Manual Part 2

Page 2PackagingThe packaging of your Airtronics TM-160 2.4GHz FHSS-1 radio control system has been specially designed for the safe transportation and storage of the radio control system's components. After unpacking your radio control system, do not discard the packaging materials. Save the packaging materials for future use if you ever need to send your radio control system to us for service, or to store your radio control system if you don't plan on using it for an extended period of time.TaBLE OF cOnTEnTSIntroduction......................................................................................................................................................................... Page 3Additional Receiver Information ................................................................................................................................. Page 3Transmitter Signal Range ............................................................................................................................................ Page 3FCC Compliance Statement ........................................................................................................................................ Page 3Safety and Usage Precautions.......................................................................................................................................... Page 4General Safety .............................................................................................................................................................. Page 42.4GHz Frequency Band Precautions......................................................................................................................... Page 4Transmitter Precautions .............................................................................................................................................. Page 4Receiver Precautions ................................................................................................................................................... Page 5AMA Information........................................................................................................................................................... Page 5Features and Specications.............................................................................................................................................. Page 6General System Features ............................................................................................................................................ Page 6Aircraft-Specic Features............................................................................................................................................ Page 6Helicopter-Specic Features ....................................................................................................................................... Page 6System Specications ................................................................................................................................................. Page 6Features Familiarization .................................................................................................................................................... Page 7Transmitter Features Diagrams................................................................................................................................... Page 7Receiver Features Diagram ......................................................................................................................................... Page 8Features Descriptions.................................................................................................................................................. Page 8Servo Connections....................................................................................................................................................... Page 9Transmitter Alarms....................................................................................................................................................... Page 9Servo Recommendations .......................................................................................................................................... Page 10Optional Items............................................................................................................................................................. Page 10Quick-Start Basic Model Setup ..................................................................................................................................Page 11Tips and Suggestions .................................................................................................................................................Page 11System Connections........................................................................................................................................................ Page 13Transmitter Battery Installation................................................................................................................................. Page 13Airborne System Connections .................................................................................................................................. Page 13Transmitter and Receiver Battery Charging ............................................................................................................ Page 14LCD and Programming Keys........................................................................................................................................... Page 15Programming Keys Overview and Functions .......................................................................................................... Page 15Multi-Function LCD Overview.................................................................................................................................... Page 16System Setup Installation................................................................................................................................................ Page 17Transmitter and Receiver Binding ............................................................................................................................ Page 17Fail Safe Programming .............................................................................................................................................. Page 17Mounting the Receiver ............................................................................................................................................... Page 18Range Checking - Low-Power Mode......................................................................................................................... Page 19Control Stick Length Adjustment.............................................................................................................................. Page 19Flight Modes ..................................................................................................................................................................... Page 20General Information ................................................................................................................................................... Page 20Flight Mode Warning Alarm ....................................................................................................................................... Page 20Aero Model Type Contents .............................................................................................................................................. Page 21Aero Model Type - All Programming............................................................................................................................... Page 22Heli Model Type Contents................................................................................................................................................ Page 51Heli Model Type - All Programming ................................................................................................................................ Page 52Reference .......................................................................................................................................................................... Page 81Troubleshooting Guide .............................................................................................................................................. Page 81Glossary of Terms ...................................................................................................................................................... Page 82Index ............................................................................................................................................................................ Page 85Setup Sheets..................................................................................................................................................................... Page 90Service Information.................................................................................................................................................... Back Cover
Page 3Due  to  differences  in  the  implementation  of  2.4GHz  technology  among  different  manufacturers,  only Airtronics  brand 2.4GHz FHSS-1 aircraft receivers are compatible with your radio control system.inTRODUcTiOnFcc cOMPLiancE STaTEMEnTaDDiTiOnaL REcEivER inFORMaTiOnAdditional Airtronics  2.4GHz FHSS-1 aircraft receivers can be purchased and paired with the TM-160  transmitter  through  the Binding procedure. For  more information about the current receivers available, please visit your local Airtronics dealer or  our website at http://www.airtronics.net.This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the operating instructions, may cause harmful interference to radio communications, however, there is no guarantee that interference will not occur in a particular installation.If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:lReorient or relocate the receiving antenna.lIncrease the separation between the equipment and the receiver.lConnect the equipment into an outlet on a circuit different from that to which the receiver is connected.lConsult the dealer or an experienced technician for help.This device complies with Part 15 of the FCC Rules and with RSS-210 of Industry Canada. Operation is subject to the following two conditions:1) This device may not cause harmful interference, and....2) This device must accept any interference received, including interference that may cause undesired operation.WARNING: Changes or modications made to this equipment not expressly approved by Airtronics may void the FCC authorization to operate this equipment.RF Exposure StatementThe TM-160 transmitter has been tested and meets the FCC RF exposure guidelines when used with the Airtronics accessories supplied or designated for this product, and provided at least 20cm separation between the antenna the user's body is maintained. Use of other accessories may not ensure compliance with FCC RF exposure guidelines. We appreciate your purchase of the Airtronics TM-160 2.4GHz FHSS-1 radio control system. This Operating Manual is intended to acquaint you with the many unique features of your new radio control system. In designing the TM-160 2.4GHz FHSS-1 radio control system, our engineers listened to input from our test-pilots and feedback from our users to design a radio control system that will allow you to extract the maximum performance from your model, while at the same time making the programming process as easy as possible to accomplish.Because the TM-160 2.4GHz FHSS-1 radio control system is advanced and is packed with many features for aircraft and helicopter models, this Operating Manual is quite long. Don't be intimidated! This Operating Manual is laid out in such a way as to make it as easy as possible to nd, understand, and learn to use the features you require. Please read this Operating Manual carefully so that you may obtain maximum success and enjoyment from the operation of your new radio control system. This radio control system has been designed for the utmost in comfort and precise control of your aircraft and helicopter models. We wish you the best of success and fun with your new purchase.An index is provided in the back of this Operating Manual to make it easy to nd the information that you're looking for. Keep this Operating Manual in a safe place with your TM-160 transmitter so that you can use it as a reference book for any questions you might have regarding your radio control system.This is a high-output full-range radio control system that should well exceed the range needed for any model. For safety, the user should perform a range check at the area of operation to ensure that the radio control system has complete control of the model at the farthest reaches of the operational area. A range check can be accomplished using Low-Power Mode. For more information, see page 19.TRanSMiTTER SignaL RangEGENERAL
Page 4SaFETy anD USagE PREcaUTiOnSgEnERaL SaFETylBe certain to read this Operating Manual in its entirety.l'Safety First' for yourself, for others, and for your equipment.lObserve all the rules of the ying site or anywhere you operate your radio control equipment.lIf  at  any  time  during  the  operation  of  your  model  should you  feel  or  observe  erratic  operation  or  abnormality,  end your operation as quickly and safely as possible. DO NOToperate your model again until you are certain the problem has been corrected. TAKE NO CHANCES.lYour model can cause serious damage or injury, so please use caution and courtesy at all times.lDo not expose the radio control system to water or excessive moisture.lPlease waterproof the receiver and servos by placing them in a water-tight radio box when operating model boats.lIf  you  have  little  to  no  experience  operating  models,  we strongly recommend you seek the assistance of experienced modelers or your local hobby shop for guidance.lThe low voltage alarm will sound when the transmitter battery voltage drops to 6.7 volts. If this occurs, stop using the transmitter as soon as possible, then replace or recharge the transmitter batteries.TRanSMiTTER PREcaUTiOnSlTurn the transmitter ON rst, then turn the receiver ON. After using your model, turn the receiver OFF rst, then turn the transmitter OFF. It can be dangerous if you activate the components in reverse order as the servos may start up inadvertently.lBefore use, double-check that the transmitter and receiver batteries have sufcient power and/or are sufciently charged (if using Ni-Cd/Ni-MH batteries).lNever touch the transmitter antenna during use. Doing so may cause loss of transmitter output, making it impossible to control your model.lThe transmitter antenna should be rotated and angled so that the antenna is as  close  to  perpendicular  to  the  ground  as possible  during  use.  After  use,  to  prevent any  chance  of  damaging  the  antenna,  the antenna  should  be  rotated  and  moved  into the horizontal stowed position.lDo not expose the transmitter to excessive heat, moisture, fuel, exhaust residue, etc.lDo not expose the transmitter to excessive heat or direct sunlight. Leaving the transmitter in direct sunlight can damage the LCD.lDo not press the Bind Button during use. The signal is interrupted while the Bind Button is pressed. It may also require a short time to restore the signal after releasing the Bind Button, which can be dangerous.ONOFFKeep AntennaPerpendicularto GroundDo Not Expose to Moistureor Direct Sunlight2.4ghz FREqUEncy BanD PREcaUTiOnSlThe 2.4GHz frequency band may be used by other devices, and other devices in the immediate area may cause interference on the same frequency band. Always before use, conduct a bench test to ensure that the servos operate properly. Also, conduct a range check at the area of operation to ensure that the radio control system has complete control of the model at the farthest reaches of the operational area.lThe response speed of the receiver can be affected if used where multiple 2.4GHz transmitters are being used, therefore, carefully check the area before use. Also, if response seems slow during use, discontinue use as quickly as possible.lIf the 2.4GHz frequency band is saturated (too many transmitters on at once), as a safety precaution, the radio control system may not bind. This ensures that your radio control system does not get hit by interference. Once the frequencies have been cleared, or the saturation level has dropped, your radio control system should be able to bind without any problems.lObserve any applicable laws and regulations in place at your ying site when using the 2.4GHz radio control system.lUnlike frequency bands used with earlier radio control systems, reception with this 2.4GHz radio control system can be adversely affected by large obstructions and concrete or steel structures between your model and the transmitter. Also, wire mesh and similar barriers can adversely affect operation. Keep this mind to ensure the safety of your model.This radio control system operates on the 2.4GHz frequency band. The 2.4GHz connection is determined by the transmitter and receiver pair. Unlike ordinary crystal-based systems, your model can be used without frequency control.
Page 5SaFETy anD USagE PREcaUTiOnSlThe receiver antenna wires consist of two coaxial cables and two reception wires (the thin tip at the end of the coaxial cables). When you mount the receiver antenna wires, do not bend the reception wires. Reception performance decreases if the reception wires are bent.lThe receiver antenna wires are delicate, therefore, handle with care. Do not pull on the receiver antenna wires with force. Do not cut or extend the receiver antenna wires. lThe coaxial cables can be bent into gentle curves, however, do not bend the coaxial cables acutely, or repeatedly bend them, or the antenna cores can be damaged.lWhen installed in an electric-powered model, keep the receiver antenna wires as far away as possible from the motor, battery, and electronic speed control (ESC).lThere is a danger of runaway operation if connectors shake loose during use. Make sure that the receiver, servo(s), and switch harness connectors are securely tted.lThe receiver is susceptible to vibration and moisture. Take appropriate measures to protect against vibration and moisture. The receiver should be wrapped in foam and the foam should be secured around the receiver to hold it in place. The foam should not be secured too tightly or the vibration dampening quality will be reduced. Failure to take appropriate measures could result in damage to the receiver.lWhen installing the receiver, the antenna reception wires (the thin tip at the end of the coaxial cables) should not come into contact with any carbon or metal components (conductive components). Aircraft fuselages and helicopter frames may contain conductive components. If mounting the receiver surrounded by conductive materials (for example, a carbon ber fuselage), mount the receiver so that the antenna reception wires can be extended outside of the model. Reception can be blocked if the antenna reception wires are shielded inside a carbon ber fuselage.lThe manufacturer disclaims  all  responsibility  for  damages  resulting  from  use  of components other than genuine Airtronics components.It is extremely important to install the receiver and route the receiver antenna wires correctly in your model. This will ensure that your model receives control signals no matter what its posture, attitude, or heading. For more information, see page 18.Wrap Receiverin Foam to Protect From Vibration and DamageREcEivER PREcaUTiOnSaMa inFORMaTiOnAcademy of Model Aeronautics5151 East Memorial DriveMuncie, IN 47302Phone (800) 435-9262Fax (765) 741-0057www.modelaircraft.orgThe Academy of Model Aeronautics (AMA) is a national organization representing modelers in the United States. We urge you to examine the benets of membership, including liability protection in the event of certain injuries. The Academy has adopted simple and sane rules which are especially pertinent for radio controlled ight as the Ofcial AMA National Model Aircraft Safety Code, which we have partially reprinted below:lI will not y my model aircraft in sanctioned events, airshows or model ying demonstrations until it has been proven to be airworthy by having been previously, successfully ight tested.lI will not y my model higher than approximately 400 feet within 3 miles of an airport without notifying the airport operator. I will give the right-of-way and avoid ying in the proximity of full-scale aircraft. Where necessary, an observer shall be utilized to supervise ying to avoid having models y in the proximity of full-scale aircraft. Where established, I will abide by the safety rules for the ying site I use, and I will not willfully and deliberately y my models in a careless, reckless and/or dangerous manner.lI will have completed a successful radio equipment ground range check before the rst ight of a new or repaired model.lI will not y my model aircraft in the presence of spectators until I become a qualied yer, unless assisted by an experienced helper.lI will perform my initial turn after takeoff away from the pit or spectator areas, unless beyond my control.GENERAL
Page 6l6-Channel 2.4GHz FHSS-1 Digital Proportional Computer Radio Control System for Aircraft and HelicopterslFull-Range 92224 (RX600) 6-Channel 2.4GHz FHSS-1 Receiverl6 Cell Battery for Lighter Weight and Better Feell10 Model Memory lDirect Model Select (Models 1~3)lEasy-to-Read Multi-Function LCD with Digital Voltage DisplaylUser-Selectable Model Type TemplateslDigital TrimslTrainer System Compatible with SD-5G and SD-10G TransmitterslModel NamingFEaTURES anD SPEciFicaTiOnSgEnERaL SySTEM FEaTURESlModel SelectlAudible Low Voltage AlarmlLow-Power Range Check Mode lProgrammable Fail SafelUser-Selectable Flight ModeslStop Watch and Count Up TimerslData Copy and Data ResetaiRcRaFT-SPEciFic FEaTURESlServo Monitorl3 Flight Modes (FN/F1/F2)lAileron, Elevator, and Rudder Dual RatelAileron, Elevator, and Rudder Exponential lServo ReversinglServo Centering Sub-TrimlEnd Point AdjustmentlThrottle Cutl5-Point Programmable Throttle CurvelAileron DifferentiallFlaperon MixinglFlap to Elevator MixinglDual Elevator Mixing with End Point AdjustmentlAilvator MixinglV-Tail Mixing with End Point AdjustmentlDelta (Elevon) Mixing with End Point Adjustmentl2 Programmable Compensation MixerslCommon or Flight Mode-Specic Trim with Throttle Trim LockhELicOPTER-SPEciFic FEaTURESlServo Monitorl3 Flight Modes (FN/F1/F2)l9 Preprogrammed Swashplate TemplateslAileron, Elevator, and Rudder Dual RatelAileron, Elevator, and Rudder Exponential lServo ReversinglServo Centering Sub-TrimlAdvanced Swashplate AdjustmentlCCPM End Point AdjustmentlEnd Point AdjustmentlThrottle Cutl5-Point Programmable Throttle CurvelThrottle Holdl5-Point Programmable Pitch CurvelRevolution Mixingl2 Remote Gyro Gainsl2 Programmable Compensation MixerslCommon or Flight Mode-Specic Trim with Throttle Trim LockSySTEM SPEciFicaTiOnSTransmitterModel: TM-160Output Power: 100mW Operating Voltage: 6.7v~9.6v Current Drain: 130mA~200mATemperature Range: 32ºF~122ºF (0ºC~50ºC)Pulse Width: 0.9msec~2.1msecWeight with Batteries: 26.45oz (750gr)Frequency/Modulation Type: 2.4GHz/FHSS-1Model Memory: 10ReceiverModel: 92224 (RX600)Frequency/Modulation Type: 2.4GHz/FHSS-1Nominal Input Voltage: 4.8v~6.0vWeight: 0.27oz (7.8gr) with CaseWeight: 0.20oz (5.9gr) without CaseDimensions: 1.64 x 0.85 x 0.47in (41.7 x 21.5 x 12.0mm)Fail Safe Support: Yes (CH 1~CH 4)Connector Type: Universal 'Z'
Page 7FEaTURES FaMiLiaRizaTiOnTRanSMiTTER FEaTURES DiagRaMSUse the diagrams below to familiarize yourself with the basic features of your TM-160 2.4GHz FHSS-1 transmitter. Descriptions of these features can be found on pages 8 and 9.The transmitter antenna is adjustable. It should be adjusted so that when you're holding the transmitter while you're ying, the antenna is orientated as close to perpendicular to the ground as possible at all times. This provides the best signal between the transmitter and the receiver. You should never point the antenna directly at your aircraft, as this results in a weakened signal. For more information, see page 4.GENERAL
Page 8FEaTURES FaMiLiaRizaTiOnUse the diagram below to familiarize yourself with the 92224 (RX600) 6-Channel receiver included with your  TM-160 2.4GHz FHSS-1 radio control system. Descriptions of these features can be found below and on the next page.REcEivER FEaTURES DiagRaM*To utilize this channel and power the receiver at the same time, you must use a Y-Harness (available separately). For more information, see page 13.Aileron/Elevator Control Stick: Controls the Aileron and Elevator axes. The Aileron/Elevator Control Stick length is adjustable to suit your preference. For more information, see page 19.Aileron Trim Switch: Used to control the Aileron axis Right and Left trim.Antenna: Transmits the signal from the transmitter to the receiver in the model. The Antenna should be pivoted into the vertical position during use. When not in use, the Antenna should be collapsed into the horizontal position to prevent damage during handling and transport.Antenna Reception Wires: The portion of each of the receiver antenna wires that actually receives the transmitter signal. The Antenna Reception Wires should never be bent or they could be damaged and limit the range of the receiver.Battery Compartment: Houses the 6 cells that power the transmitter. The transmitter uses 6 cells for lighter weight and better feel, while still providing long usage time and high power output. Bind Button: Used to Bind the transmitter and receiver. Also used to enter Low-Power Range Check mode. Bind LED: Displays the current status of the transmitter and receiver pair. Charging Jack: Used for onboard charging of the Ni-Cd or Ni-MH batteries.Coaxial Cables: The portion of each antenna wire that extends the Antenna Reception Wires. The Coaxial Cables can be bent into gentle curves, however, do not bend the Coaxial Cables acutely, or repeatedly bend them, or the antenna wire's cores can be damaged. For information on mounting the receiver and orientating the receiver antenna wires, see page 18.Elevator Trim Switch: Used to control the Elevator axis Up and Down trim.FEaTURES DEScRiPTiOnSBind ButtonCoaxial CablesAntennaReceptionWiresBind LED= Signal = Positive = Negative(Antenna Wires Not to Scale)The default channel slot assignments shown in the table above will vary based on the Model Type selection options you have programmed in the TYPE menu. For example, in AERO mode with TAIL>2xEL selected in the TYPE menu, Channel Slot 1 will control the Left Elevator and Channel Slot 5 will control the Right Elevator. For more information, see page 25.CHANNEL SLOT AERO CHANNEL ASSIGNMENTChannel Slot 1Channel Slot 2Channel Slot 3Channel Slot 4Channel Slot 5Channel Slot 6/BATT*ElevatorAileronThrottleRudderGearFlapsElevator (Fore/Aft Cyclic)Aileron (Left/Right Cyclic)ThrottleRudder (Tail Rotor)GyroPitch (Collective)HELI CHANNEL ASSIGNMENT
Page 9FEaTURES FaMiLiaRizaTiOnMulti-Function LCD: The heart of the programming and  display features of  the transmitter. All  programming and transmitter display functions are shown on the Multi-Function LCD.Navigation Pad: The Navigation Pad is used in conjunction with the Programming Keys to facilitate transmitter programming. The Navigation Pad allows you to quickly and easily move the Programming Cursor up and down, and right and left. The ENTERkey in the center of the Navigation Pad is used to open the selected menu or programming option.Neck Strap Anchor: Used to attach your neck strap (available separately) to the transmitter.Power Indicator: Indicates that there is power to the transmitter. When the battery voltage drops to 6.7 volts, the audible Low Voltage Alarm will sound. For more information, see the Transmitter Alarms section below.Power Switch: Turns the transmitter ON and OFF.Programming  Keys: The Programming Keys are used to facilitate transmitter programming and select models stored in memory. The four Programming Keys consist of the INC+/M1 (Increase/Model 1) key, the DEC-/M2 (Decrease/Model 2) key, the END/M3 (End/Model 3) key, and the F-MODE (Flight Mode) key.Rudder Trim Switch: Used to control the Rudder axis Right and Left trim.Throttle/Rudder Control Stick: Controls the Throttle and Rudder axes. The Throttle/Rudder Control Stick length is adjustable to suit your preference. For more information, see page 19.Throttle Trim Switch: Used to control the Throttle axis Up and Down trim.Trainer Port: The Trainer Port is where the trainer cable (available separately) is plugged into. An adapter to use the transmitter with a ight simulator can also be plugged into the Trainer Port.RF Output Indicator: Illuminates when the transmitter is turned ON and transmitting a signal. If the RF Output Indicator fails to illuminate, RF output is limited or non-existent. In this case, you should not y. The RF Output Indicator will ash when the transmitter Trainer mode is set to Slave.FEaTURES DEScRiPTiOnS, cOnTinUED....The 92224 (RX600) 6-Channel receiver included with your TM-160 2.4GHz FHSS-1 radio control system uses universal Airtronics 'Z' connectors which are electronically compatible with the servos of other radio control system manufacturers. The connectors are rugged, but should be handled with care.When unplugging the servo connector, it's best not to pull on the servo wire itself. This could result in damage to the servo wire pins in the plastic plug. Always grasp the plastic connector itself.SERvO cOnnEcTORS-  = Negative (Black)+ = Positive (Red)S = Signal (Blue)The TM-160 transmitter is equipped with several safety alarms to warn you of an abnormal transmitter condition.TRanSMiTTER aLaRMSLow Voltage AlarmThe TM-160 transmitter is equipped with a Low Voltage Alarm to warn you when the transmitter batteries need to be replaced or recharged. The Low Voltage Alarm will sound when the transmitter batteries reach 6.7 volts. If the Low Voltage Alarm sounds while you are ying, you should land immediately, then replace or recharge the transmitter batteries. If the Low Voltage Alarm sounds after replacing or recharging the transmitter batteries, there may be a problem with the transmitter. If this occurs, please contact Airtronics Customer Service using the information on the back cover of this Operating Manual.Flight Mode Warning AlarmThe TM-160 transmitter is equipped with a safety feature that will not allow you to use the transmitter if the Flight Mode is not set to FN (Normal) when you turn the transmitter ON. If the Flight Mode is not set to FN when you turn the transmitter ON, the Flight Mode Warning alarm will sound continuously, the RF Output Indicator will ash, and the LCD will read F-MODE NOT 'N' ! To clear the Flight Mode Warning, set the Flight Mode to FN using the Flight Mode Switches (move both Flight Mode switches forward). The LCD will read normally, the Flight Mode Warning alarm will cease, and RF Output Indicator will stop ashing.GENERAL
Page 10FEaTURES FaMiLiaRizaTiOnTRanSMiTTER aLaRMS, cOnTinUED....Trainer Mode Warning AlarmThe  TM-160  transmitter  is  equipped with  a  safety  feature  that will  warn  you  when  the transmitter  is  set  to Trainer>Master or Trainer>Slave when the transmitter is turned ON. If the transmitter is set to Trainer>Master when you turn the transmitter ON, the Trainer Mode Warning alarm will sound continuously, the RF Output Indicator will blink, and the LCD will read TRAINER MODE MASTER ! If the transmitter is set to Trainer>Slave when you turn the transmitter ON, the Trainer Mode Warning alarm will sound continuously, the RF Output Indicator will blink, and the LCD will read TRAINER MODE SLAVE !To clear either of the Trainer Mode Warnings, press any of the Programming Keys or the ENTER key. The LCD will read normally, the Trainer Mode Warning alarm will cease, and the RF Output Indicator will stop ashing (if set to Slave, the RF Output Indicator will continue to ash).Clearing the Trainer Mode Warning does not change the Trainer setting of the transmitter. When the Trainer Mode Warning is cleared, the transmitter will still be in Trainer Mode - either set to Master or set to Slave as indicated on the LCD.Although most  current  brand  servos  will  work with your  TM-160  2.4GHz  FHSS-1radio  control  system,  we  recommend  using Airtronics brand servos. For pricing, availability, and more selection, please visit your local Airtronics dealer or our website at http://www.airtronics.net.SERvO REcOMMEnDaTiOnSBoth analog and digital servos will work with your TM-160 2.4GHz FHSS-1 radio control system. To get the most out of your experience though, we recommend the use of digital servos.Torque: 115oz/in (8.3kg/cm @ 4.8v)144oz/in (10.4kg/cm @ 6.0v)Speed: 0.23 sec/60º @ 4.8v0.18 sec/60º @ 6.0vDimensions:  1.54 x 0.79 x 1.61in   (39.1 x 20.0 x 40.9mm)Weight:  2.36oz (67gr)Torque: 42oz/in (3.0kg/cm @ 4.8v)53oz/in (3.8kg/cm @ 6.0v)Speed: 0.20 sec/60º @ 4.8v0.16 sec/60º @ 6.0vDimensions:  1.54 x 0.79 x 1.42in   (39.1 x 20.0 x 36.0mm)Weight:  1.59oz (45gr)94102Z Standard Bushing94162Z High Torque MG Dual Ball Bearing 94842 Digital Precision Dual Ball BearingTorque: 111oz/in (8.0kg/cm @ 4.8v)132oz/in (9.5kg/cm @ 6.0v)Speed: 0.16 sec/60º @ 4.8v0.13 sec/60º @ 6.0vDimensions:  1.57 x 0.77 x 1.56in   (40.0 x 19.5 x 39.6mm)Weight:  1.62oz (45.8gr)Torque: 18oz/in (1.3kg/cm @ 4.8v)23oz/in (1.7kg/cm @ 6.0v)Speed: 0.12 sec/60º @ 4.8v0.10 sec/60º @ 6.0vDimensions:  0.91 x 0.44 x 0.87in   (23.0 x 11.2 x 22.1mm)Weight:  0.32oz (9gr)94091Z Super Micro Bushing94856 Digital High Speed MG Dual Ball BearingTorque: 125oz/in (9.0kg/cm @ 4.8v)150oz/in (10.8kg/cm @ 6.0v)Speed: 0.14 sec/60º @ 4.8v0.11 sec/60º @ 6.0vDimensions:  1.50 x 0.79 x 1.49in   (38.0 x 20.0 x 37.8mm)Weight:  2.04oz (58.0gr)Torque: 22oz/in (1.6kg/cm @ 4.8v)26oz/in (1.9kg/cm @ 6.0v)Speed: 0.18 sec/60º @ 4.8v0.15 sec/60º @ 6.0vDimensions:  0.91 x 0.35 x 0.90in   (23.0 x 9.0 x 22.8mm)Weight:  0.26oz (7.4gr)94802 Digital Sub-Micro Dual Ball BearingOPTiOnaL iTEMSThe following optional items (available separately) can be used with your TM-160 2.4GHz FHSS-1 radio control system. For pricing and availability, please visit your local Airtronics dealer or our website at http://www.airtronics.net.233819 Hi-Energy 4.8v 2200mAh Ni-MH Square Receiver Battery*233808 Hi-Energy 6.0v 2200mAh Ni-MH Flat Receiver Battery*96750 Stick Tip Extensions99103 Adjustable Neck Strap978411 Aluminum Carry Case97020Z 8" Y-Harness97011Z 12" Servo Extension97107 Trainer Cable96506 Airtronics Baseball Cap978425 Airtronics Folding Field Chair*Not an Airtronics brand product, however, this product is available through most Airtronics dealers. Many more accessories, such as servos, servo extension leads, male and female plugs, receiver battery packs, and more are available through your local Airtronics dealer or our website at http://www.airtronics.net.
Page 11qUick-STaRT BaSic MODEL SETUPThe information in this section describes the basic steps that you can use to quickly setup a new model. Regardless of the model you are fying, using the basic functions of the TM-160transmitter for most applications is easy and will get your model setup quickly. It's a simple ve-step process.1) Bind the Receiver to the Transmitter and Install the Receiver:lAfter connecting your airborne components and installing fully-charged transmitter and receiver batteries, turn the transmitter ON.lHold down the Bind Button on the receiver. While holding down the Bind Button on the receiver, turn the receiver ON. lRelease the Bind Button on the receiver. The Bind LED will slowly ash.lPress the transmitter Bind Button. The receiver's Bind LED will ash rapidly, then the receiver's Bind LED will turn solid blue indicating the system is paired.lInstall the receiver in your model, making sure that the two receiver antenna wires are mounted 90º to each other.lRotate the transmitter antenna so that it is positioned at a 45º angle toward you.2) Choose a Model Type:l Navigate to the TYPE menu, then press the INC+/M1 or DEC-/M2 keys to select the Model Type that matches yourmodel, either AERO (Aircraft) or HELI (Helicopter).3) Make Model Type Selection Options:lScroll down to choose the various options related to the Model Type you've chosen.AERO -  Select what type of  wing (Normal  or Delta), the type of tail (Normal, V-Tail,  or Dual Elevator servos), and the number of aileron servos in your wing (1 or 2).HELI - Select what type of swashplate your model features, either Normal, or a CCPM swashplate. If choosing a CCPM swashplate option, make sure that the CCPM swashplate type matches your model exactly. lAfter making your selections, press the ENTER key, then the INC+/M1 key. The pre-programmed model template will be loaded into the transmitter.4) Name Your Model:lNavigate to the MODEL NAME menu and input a name for your model. This will allow you to easily choose this model again for later use. The Model Name will be displayed on the Display screen so that you know which model is currently in use.5) Plug In Servos and Setup Control Surfaces:lNavigate to the SX MONITOR menu and use the information displayed on the Servo Monitor to plug your servos into the correct channel slots in the receiver based on the Model Type selection options you chose previously.lNavigate to the REVERSE, CENTER, EPA, and D/R & EXPO menus to adjust direction of servo travel (REVERSE), servo centering sub-trim (CENTER), desired servo travel in both directions (EPA), and if desired, the Dual Rate and Exponential (D/R & EXPO) percentage values.Many of the Tips and Suggestions on the following pages can be found throughout this Operating Manual, however, we have listed what we feel are the more important ones in this section for your convenience. TiPS anD SUggESTiOnSFEaTURES FaMiLiaRizaTiOnThe information in this section is general in nature. For more in-depth instructions about the individual steps outlined below, please make sure to read the pertinent sections of this Operating Manual.lWhen you see in the lower right corner of a page, this indicates that the current section is continued at the top of the next page.lThe receiver’s nominal input voltage is 4.8 volts to 6.0 volts. If your receiver battery's nominal voltage rating is greater than 6.0 volts, you must use a voltage regulator plugged between the switch harness and the receiver battery to drop your battery's voltage to 6.0 volts.GENERAL
Page 12FEaTURES FaMiLiaRizaTiOnTiPS anD SUggESTiOnS, cOnTinUED....lAn after-market peak-detection charger, cycler, or fast charger should NOT be used to charge Ni-Cd or Ni-MH rechargeable batteries through the transmitter. The circuitry within the transmitter can interfere with the peak-detection charger's normal operation, resulting in over-charging and damaging the batteries, and possibly the transmitter itself. In addition, a fast charger can damage the transmitter's circuitry. These chargers can be used, but ONLY if the batteries are charged outside of the transmitter.lUp to 6 servos can be plugged into the receiver separately. To utilize the Channel 6/BATT slot along with the receiver battery, you must plug a Y-Harness into the channel slot, then plug the servo into one side of the Y-Harness and the battery switch harness into the other side of the Y-Harness.lIt is extremely important that the receiver antenna wires be mounted as described. This will ensure that your model receives control signals no matter what its posture, altitude, or heading.lThe radio control system is range checked using the Low-Power Mode function. Do not attempt to y with the transmitter in Low-Power Mode. You will be unable to control your model once it is a certain distance away from you.lThe TM-160 transmitter features a Type function which allows you to quickly set up the transmitter's low-level mixing based on the type of model you're ying. Common templates for AERO (Aircraft) and HELI (Helictopter) model types are provided. For example, if your model features two aileron servos and dual elevator servos, choosing these options will automatically change the transmitter's programming to accommodate this setup. This takes the guess-work out of setting up more complex models.lThe TM-160 transmitter features an audible Flight Mode Warning alarm. If you turn your TM-160transmitter ON and it beeps, the transmitter is more than likely in Flight Mode F1 or Flight Mode F2. Putting the transmitter in Flight Mode FN (Normal), will silence the Flight Mode Warning alarm.lIn the default conguration, the Model Select List contains 5 AERO model types and 5 HELI model types. The Model Type for any of the 10 models in the Model Select List can be changed using the Type menu.lThe Direct Model Select function allows you to select one of three of your most-used models from memory without going through the Model Select menu. This makes it much quicker and easier to load the programming for your three favorite models.lPressing both the INC+/M1 and DEC-/M2 keys together will Reset the highlighted programming selection to the Factory Default Setting. lWhen the Display screen is displayed, pressing the INC+/M1 key will Start and Stop the Timer. Pressing the INC+/M1 and DEC-/M2 keys together will Reset the Timer.lUnless otherwise noted, all programming changes take effect immediately. lAn audible  double-tone  is heard when  the  trim switches reach  the  center position. This allows you  to  know when the  trim switches reach the center position without the need to look at the Trim Indicators on the Display screen.lThe TM-160 transmitter features Digital Trim Memory. Any amount of control surface trim that you set during fight using the trim switches is automatically stored in memory for that specic channel and for that specic model. The Digital Trim values for each model will automatically be loaded when the transmitter is turned ON.lThere is always one Flight Mode Active at all times. In the default conguration, Flight Mode FN (Normal) is Active.lThe F-MODE key is used to facilitate programming the individual Flight Modes only and does not turn the Flight Modes ON or OFF. Flight Modes are turned ON and OFF using the two Flight Mode switches.lPrior to takeoff, check the position of the Dual Rate switch to ensure that it is in the position you want.lUse the Servo Monitor to determine which receiver channel slots to plug your servos into. The channels displayed on the Servo Monitor will vary based on the Model Type selection options chosen in the TYPE menu. For example, if you chose TAIL>2xELand AILE>2 in the TYPE menu, LE (Left Elevator), RE (Right Elevator), LA (Left Aileron), and RA (Right Aileron) will be displayed along with the corresponding receiver channel slot numbers.lMany menu  functions  feature Common or Separate  choices.  When set to COMMON the function settings will be the same regardless of which Flight Mode the transmitter is operating in. When set to SEPARATE, you can program different function settings separately for each Flight Mode.lWhen setting up a CCPM swashplate helicopter, you may want to use the CP-EPA function instead of the standard EPAfunction. The CCPM End Point Adjustment function allows you to adjust servo travel in each direction for the elevator, aileron, and pitch servos independently. Unlike the standard End Point Adjustment function, which affects all the cyclic servos, CCPM End Point Adjustment allows you to adjust each cyclic servo independently without any affect on the other cyclic servos. This allows you to also quickly and easily level the swashplate.
Page 13SySTEM cOnnEcTiOnSUse the diagram below to familiarize yourself with how to connect the switch harness, servos (available separately), and receiver battery (available separately) to your 92224 (RX600) 6-Channel receiver.A receiver battery is not included. The receiver can be powered by a 4.8 volt (4 cell) or a 6.0 volt (5 cell) Ni-Cd or Ni-MH battery of desired capacity. The receiver can also be powered by a 2 cell Li-Fe/A123 or a 2 cell Li-Po battery of desired capacity as long as you use a voltage regulator. See WARNING below.WARNING The receiver’s nominal input voltage is 4.8 volts to 6.0 volts. If your receiver battery's nominal voltage rating is greater than 6.0 volts, you must use a voltage regulator plugged between the switch harness and the receiver battery to drop your battery's voltage to 6.0 volts. If you do not use a voltage regulator, damage to the receiver could result. We recommend a switching type regulator and it must be able to handle the amperage demands of the servos used in your model.If you decide to power the receiver using a 2 cell Li-Fe/A123 battery or a 2 cell Li-Po battery, please observe the following:lUse ONLY a 2 cell Li-Fe or Li-Po battery of desired capacity with a voltageregulator. You MUST use a voltage regulator.lWhen changing the plug on your battery to be compatible with the switch harness, please observe correct polarity. Connecting with reverse polarity could damage the switch harness and/or the receiver. See plug polarity diagram above.lObserve all safety precautions provided with your battery before use, during use, and during the charging process.WARNING The nominal voltage rating of a 2 cell Li-Fe/A123 battery or a 2 cell Li-Po battery is greater than 6.0 volts. Because of the higher voltage, you MUST use a voltage regulator plugged between the switch harness and the receiver battery to drop the battery voltage to 6.0 volts. If you do not use a voltage regulator, damage to the receiver could result.-  = Negative (Black)+ = Positive (Red)TRanSMiTTER BaTTERy inSTaLLaTiOn1)  Remove the battery cover on the back of the transmitter by pushing down rmly on the tab in the top of the battery cover and pulling the battery cover out.2) Install six 'AA' batteries into the battery tray, making sure that the polarity is correct. The direction that each battery should be installed is molded into the battery tray (+ Positive and - Negative).3) Set the bottom of the battery cover back onto the transmitter and push it rmly until it 'clicks' closed. aiRBORnE SySTEM cOnnEcTiOnSUsing an Li-Fe/A123 or Li-Po Receiver BatteryIf necessary, the receiver battery can be plugged into any of the channel slots and still power the receiver without causing damage. **To utilize this channel and power the receiver at the same time, you must use a Y-Harness (available separately).The receiver channel slots that you plug your servos into will vary based on the TYPE menu options you choose. After making TYPE menu option selections, use the Servo Monitor to determine which receiver channel slots to plug your servos into. GENERAL
Page 14SySTEM cOnnEcTiOnSTRanSMiTTER anD REcEivER BaTTERy chaRgingThe TM-160 transmitter features a Charging Jack, which can be used with the Airtronics 95034 110v AC Transmitter and Receiver Dual Charger to recharge the batteries without removing them from the transmitter. In addition, this charger can also be used to recharge a 4.8v (4 cell) or 6.0v (5 cell) rechargeable Ni-Cd or Ni-MH receiver battery pack at the same time. We recommend one of the following receiver battery packs:Hi-Energy 4.8v 2200mAh Ni-MH Rechargeable Flat Battery Pack for Receiver (1 PC.)Hi-Energy 6.0v 2200mAh Ni-MH Rechargeable Flat Battery Pack for Receiver (1 PC.)Warnings About Charging the Transmitter and Receiver BatteriesThe TM-160 transmitter features a Charging Jack located on the right side of the transmitter, allowing you to recharge the Ni-Cd or Ni-MH rechargeable batteries without removing them from the transmitter. Use ONLY the recommended optional Airtronics 95034 110v AC Transmitter and Receiver Dual Charger or damage to the transmitter and/or batteries could result.WARNING Do NOT attempt to recharge Alkaline batteries. Do NOT attempt to charge any type of batteries other than those recommended and use ONLY the recommended charger. Do not use the Charging Jack with any other after-market fast charger or Peak-Detection charger or the transmitter could be damaged.Charging the Transmitter and Receiver Batteries 1) Plug the Airtronics 95034 110V AC Transmitter and Receiver Dual Charger into a 110v AC wall socket.2) Plug the round connector from the charger into the Charging Jack in the transmitter and plug the female connector from the charger into the switch harness charge plug. The charger LEDs will illuminate red, indicating that the charger is charging.3) Both transmitter and receiver charger outputs are 150mAh, therefore, it will take approximately 15 hours to recharge fully-discharged 2200mAh batteries (2200/150=14.6). Charge time will vary depending on the mAh capacity of the batteries you're charging. For example, 1200mAh batteries would require an 8 hour charge (1200/150=8).lAlways follow the charging procedures described below to ensure the safe and correct use of the rechargeable batteries and charger.lBefore charging the batteries, double-check that both the transmitter and the receiver are turned OFF.lOvercharging reduces the life of the batteries and can result in overheating and bursting. This may cause personal injury and/or property damage.lDo not plug the recommended charger into anything other than an AC 110v power outlet. Plugging the charger into anything other than AC 110v outlet may result in smoking, sparks, or re.lDo not throw the batteries or abuse them in any manner.  Do not dispose of the batteries in the re or allow them to overheat.lDo not short-circuit the battery terminals with wire or any other object.WARNING  If you're using a Li-Fe or Li-Po receiver battery, do NOT attempt to charge either of these types of batteries with the optional Airtronics 95034 110v AC Transmitter and Receiver Dual Charger. You MUST use a charger that is specically designed to charge Li-Fe or Li-Po batteries.Depending on the region in which your purchase your TM-160 2.4GHz FHSS-1 radio control system, rechargeable transmitter batteries and an overnight charger may or may not be included. If these items are NOT included, we recommend using the following:Hi-Energy 1200mAh Ni-MH 'AA' Rechargeable Batteries (4-Pack) for Transmitter (2 PCS.)Airtronics 95034 110v AC Transmitter and Receiver Dual Charger (1 PC.)WARNING An after-market peak-detection charger, cycler, or fast charger should NOT be used to charge Ni-Cd or Ni-MH rechargeable batteries through the transmitter. The circuitry within the transmitter can interfere with the peak-detection charger's normal operation, resulting in over-charging and damaging the batteries, and possibly the transmitter itself. In addition, a fast charger can damage the transmitter's circuitry. These chargers can be used, but ONLY if the batteries are charged outside of the transmitter. Instead of using Alkaline batteries to power the transmitter, you can use rechargeable Ni-Cd or Ni-MH batteries. This will provide longer usage time and reduced cost in the long run, since you won't need to continuously purchase new Alkaline batteries.
Page 15The TM-160 transmitter features four Programming Keys, a Navigation Pad and an ENTER key, all used in conjunction to facilitate transmitter programming. This section summarizes the functions of these features in addition to detailing the main areas of the Multi-Function LCD.PROgRaMMing kEyS OvERviEw anD FUncTiOnSIncreases Programming Values and is used to select  Model  1,  using  the  Direct  Model  Select function.Decreases Programming Values and is used to select Model 2, using the Direct Model Select function.END/M3(End/Model 3)Returns to the previous menu. Press several times to return to the Display screen. Is also used to select Model 3, using the Direct Model Select function.F-MODE(Flight Mode Select)Cycles through the three Flight Modes during programming. Does NOT switch between Flight Modes during use.INC+/M1(Increase/Model 1)DEC-/M2(Decrease/Model 2)INC+/M1DEC-/M2END/M3F-MODELcD anD PROgRaMMing kEySINC+/M1 DEC-/M2+Rest Default ShortcutPressing both keys at the same time within a Programming Menu resets the Programming Value to the Default value.PROGRAMMING KEY NAME FUNCTIONMoving around the LCD and programming the transmitter is accomplished using the Navigation Pad, the ENTER key, and the four Programming Keys positioned on the right half of the transmitter.Navigation Pad Moves the Programming Cursor Up 5, Down 6, Right 4, and Left 3.ENTER Key Opens the selected menu or programming option. Advances the cursor in the Model Name menu.GENERAL
Page 16LcD anD PROgRaMMing kEySMULTi-FUncTiOn LcD OvERviEwUse the diagram below to familiarize yourself with the layout and different indicators that make up the Multi-Function LCD.Model NumberModel Type IconRudder TrimElevator TrimTrainer Status IndicatorModel Name TimerActive Flight ModeVoltage IndicatorThrottle TrimAileron TrimBattery Capacity IndicatorActive Flight Mode: Displays the Flight Mode number that is currently Active. Aileron Trim: Displays the current position of the Aileron trim switch*.Battery Capacity Indicator: Indicates the current remaining usable capacity of the transmitter batteries.Count Up Timer Indicator: Displayed when the Count Up Timer is chosen.Elevator Trim: Displays the current position of the Elevator trim switch*.Model Name: Displays the Name of the currently selected Model.Model Number: Displays the Number of the currently selected Model.Model Type Icon: Displays the current Active Model Type loaded into memory, either AERO (Aircraft icon) or HELI (Helicopter icon).Rudder Trim: Displays the current position of the Rudder trim switch*.Timer: Displays the Stop Watch Timer or the Count Up Timer.Throttle Trim: Displays the current position of the Throttle trim switch*.Trainer Status Indicator: Displays when the transmitter Trainer function is Active. If the transmitter is in Master mode, MS will be displayed. If the transmitter is in Slave mode, SL will be displayed.Voltage Indicator: Displays the current voltage of the transmitter batteries. When the voltage reaches 6.7 volts, the Low Voltage Alarm will sound.Count Up Timer Indicator*An audible tone will sound each time a trim switch is pressed. When the trim reaches the center, an audible double-tone will sound. This allows you to know when the trim is centered without needing to look down at the transmitter during ight.THIS SPACE INTENTIONALLY LEFT BLANK
Page 17SySTEM SETUP anD inSTaLLaTiOnTRanSMiTTER anD REcEivER BinDingThe Binding function allows you to Bind the transmitter and receiver pair. When new, it is necessary to pair the transmitter and receiver to prevent interference from transmitters operated by other users. This operation is referred to as 'binding'. Once the binding process is complete, the setting is remembered even when the transmitter and receiver are turned OFF. Therefore, this procedure usually only needs to be done once.Under some circumstances, the receiver may not operate after turning the transmitter and receiver ON. If this occurs, perform the binding process again.Before beginning the binding process, connect the switch harness, servos, and the receiver battery to your 92224 (RX600) 6-Channel receiver, using the diagram on page 13. Make sure that both the transmitter and the receiver are turned OFF.When the binding procedure is successful, the Bind LED on the receiver will stay solid blue when both the transmitter and receiver are turned ON. If the Bind LED on the receiver is ashing rapidly or not ON at all, the transmitter and receiver are not paired. In this case, turn both the transmitter and receiver OFF, then repeat the binding procedure.1) Ensure that the throttle control stick is in the LOW position (pulled all the way back).2) Turn the transmitter ON. The Bind LED on the transmitter will illuminate solid green.Use the tip of a pencil or a 1.5mm hex wrench to press the Bind Button on the receiver.3) While holding down the Bind Button on the receiver, turn the receiver ON. The Bind LED on the receiver will ash slowly. After ~2 seconds release the Bind Button. The Bind LED on the receiver will continue to ash slowly.4) Quickly press the Bind Button on the transmitter. The Bind LED on the receiver will ash rapidly for ~3 seconds, go out momentarily, then illuminate solid blue, indicating the Binding process is complete.FaiL SaFE PROgRaMMingThe Fail Safe function automatically sets the servos to a predetermined position in the event that the signal between the transmitter and the receiver is interrupted, whether due to signal degradation or to a low transmitter battery. For example, the Fail Safe function can be set so that the throttle returns to idle, the elevator moves slightly up, and the ailerons move slightly right or left to result in a shallow downward decent of your aircraft.The Fail Safe function is available on channels 1 through 4 only. We suggest programming the Fail Safe function prior to mounting the receiver into your aircraft if you will be unable to access the receiver's Bind Button after mounting.Setting Fail Safe Positions1) Turn the transmitter ON, then turn the receiver ON. Move the transmitter control sticks to verify correct servo movement.2) Move the transmitter control sticks to the desired Fail Safe positions. While holding the transmitter control sticks in those positions (generally throttle at idle and a minimal amount of elevator and/or aileron), press and HOLD the Bind Button on the receiver. After ~2 seconds, the Bind LED will begin to ash slowly. Continue holding the Bind Button until the Bind LED begins to ash rapidly (~2 more seconds). Once the Bind LED begins to ash rapidly, release the Bind Button.3) Turn the transmitter OFF to test the Fail Safe operation. The servos should move to the positions that you set in step 2.The Fail Safe settings will be erased if you re-bind the transmitter and receiver pair. If you bind the same transmitter and receiver pair you MUST repeat these procedures to setup the Fail Safe function again.IMPORTANT If you don't program the Fail Safe function, if the signal between the transmitter and receiver is lost, the servos will stay in the last position they were in when the signal was lost. However, the servos will be free to move under load. They will NOT be locked in the last position they were in.Clearing Fail Safe Settings1) To clear the currently programmed Fail Safe settings, re-bind the transmitter and receiver pair.GENERAL
Page 18SySTEM SETUP anD inSTaLLaTiOnWhen mounting the receiver into your model, it's important to mount the receiver exactly as described. In addition, the receiver should be wrapped in foam rubber to protect it from vibration. Failure to mount the receiver antenna wires as described can result in poor reception, or in some cases, complete loss of reception.We recommend that you bind the transmitter and receiver, and program the Fail Safe function, prior to mounting the receiver into your model, otherwise, it may be difcult or impossible to access the Bind Button on the receiver.The receiver should be mounted securely in your model and the receiver antenna wires installed per the diagram below. The two receiver antenna wires should be mounted to a wood or plastic non-conductive part of your model and angled so that the antenna reception wires (thin, silver-colored antenna tips) are positioned 90º apart.WARNING It is extremely important that the receiver antenna wires be mounted as described. This will ensure that your model receives control signals no matter what its posture, attitude, or heading.lThe receiver antenna wires consists of two coaxial cables and two reception wires (the thin tip at the end of the coaxial cables). When you mount the receiver antenna wires, do not bend the reception wires. Reception performance decreases if the reception wires are bent.lThe receiver antenna wires are delicate, therefore, handle with care. Do not pull on the receiver  antenna wires with force. Do not cut or extend the receiver  antenna wires. lThe coaxial cables (the thicker portion of the receiver  antenna wires) can be bent into gentle curves, however, do not bend the coaxial cables acutely, or repeatedly bend them, or the antenna cores can be damaged.lWhen installed in an electric-powered model, keep the receiver antenna wires as far away from the motor, battery, and electronic speed control (ESC) as possible.lWhen installing the receiver, the antenna reception wires (the thin tip at the end of the coaxial cables) should not come into contact with any carbon or metal components (conductive components). Aircraft fuselages may contain conductive components. If mounting the receiver surrounded by conductive materials (for example, a carbon ber fuselage), mount the receiver so that the antenna reception wires can be extended outside of the model. Reception can be blocked if the antenna reception wires are shielded inside a carbon ber fuselage.Tape can be used to secure the antenna reception wires to your model. Alternatively, cut two short pieces of plastic tube and slide one antenna reception wire into each piece of tube, then tape or glue the tube to your model. The tubes will protect the antenna reception wires from damage.If mounting inside a carbon fiber fuselage, the antenna reception wires must be run outside of the model as described in the notation below.MOUnTing ThE REcEivERThe  Coaxial  cables  can be  mounted  parallel  to each other, but under no circumstances  should  the antenna  reception  wires  be mounted parallel to each other.Reception WireCoaxial CableCoaxial CablesReception WireReceptionWireReception WirePlastic TubeOR OR
Page 19SySTEM SETUP anD inSTaLLaTiOnRangE chEcking - LOw-POwER MODEWhen lengthening the control sticks, we strongly suggest that you leave at least four threads inside the top half of each control stick. This will ensure that the control sticks maintain optimum mechanical security. If you thread the control sticks out too far, the control sticks might come loose during use.cOnTROL STick LEngTh aDjUSTMEnTThe length of the control sticks can be adjusted to best suit the way you hold them. In general, pilots who place their thumbs on top of the control sticks prefer the control sticks to be shorter, and pilots who grasp the control sticks prefer the control sticks to be longer. In the default conguration, the control sticks are adjusted as short as possible.Activating Low-Power Mode1) Press  and  HOLD  the  Bind  Button  on  the  transmitter,  then  turn  the transmitter ON. The Bind LED will ash.2) Continue to HOLD the Bind Button for approximately 5 seconds. After approximately 5 seconds, the Bind LED will ash rapidly, then go out.3) Release the Bind Button and the Bind LED should begin to ash again. The transmitter is now in Low-Power Mode and you can begin the Range Check process.IMPORTANT The radio control system should be Range Checked prior to the day's rst ight and prior to the rst ight after a hard landing or after a repair. This will ensure that the transmitter and receiver are communicating properly prior to ight. This ensures the safety of your aircraft, yourself, and the people around you.Low-Power ModeNormal ModePOWER MODE TRANSMITTER STATUSBind LED FlashingBind LED SolidThe Low-Power Mode function lowers the transmitter's RF output level to check radio signal reception (Range Check). Use this function to check radio signal reception on the ground, prior to ight.Range Checking1) Turn the receiver in your aircraft ON.2) With the transmitter in Low-Power Mode (Bind LED ashing), walk approximately 30 paces from your aircraft (approximately 90 feet) and, with the help of another person, check to make sure that the servos move without any problems. If there is a problem with servo movement, try moving to a different position while still maintaining the same distance from your aircraft, then check servo movement again. If there is still a problem, DO NOT FLY. Check to make sure that all receiver, servos, switch, and onboard battery connections are correct and secure. Check to ensure that the receiver antenna wires are correctly mounted as described previously.3) When satised that the system is operating correctly, turn the transmitter OFF, then back ON to resume use in Normal Mode.WARNING Do not attempt to y with the transmitter in Low-Power Mode. You will be unable to control your aircraft once it is a certain distance away from you. Always verify that the Bind LED is solid prior to ight.The transmitter will revert  to Normal Mode  after approximately  3 minutes. If  you haven't  completed your Range  Check within that time, turn the transmitter OFF, then repeat steps 1 through 3 to re-enter Low-Power Mode.If after checking all airborne system components and verifying correct antenna wire mounting, your radio control system still fails the Range Check, DO NOT FLY. Please contact Airtronics Customer Service using the information on the back cover of this Operating Manual.Adjusting Control Stick Length1)  While holding the base of the control stick, turn the top half of the control stick counter-clockwise to loosen it.2)  To lengthen the control stick, turn the top half of the control stick counter-clockwise. To shorten the control stick, turn the top half of the control stick clockwise.3)  Once your are satised with the length of the control stick, thread the bottom half of the control stick up and tighten it gently against the top half of the control stick.GENERAL
Page 20FLighT MODESThe TM-160 transmitter model programming is based around Flight Modes. Each Model Type (AERO and HELI) feature three independently programmable Flight Modes. Flight Mode FN (Normal), Flight Mode F1, and Flight Mode F2. Within these Flight Modes is where the core of the model programming takes place. Features such as Dual Rate, Exponential, Throttle Curve, Pitch Curve, Mixing, Compensation Mixing, and much more can be individually programmed to each of the three Flight Modes. Each Flight Mode is controlled by a switch so that they can be turned ON and OFF during ight.Flight Modes allow you to change the ying characteristics of your model with the ip of a switch. For example, if you y helicopters, you can have one Flight Mode for normal ying and a second Flight Mode for aerobatic ying. Flip the Flight Mode switch from FN (Normal) to F1 and your helicopter is now programmed with all of your 'Aerobatic' Flight Mode programming. With three programmable Flight Modes available for each Model Type, the combinations of model programming is highly-congurable.FLighT MODE waRning aLaRMThe TM-160 transmitter is equipped with a safety feature that will not allow you to use the transmitter if the Flight Mode is not set to FN (Normal) when you turn the transmitter ON. If the Flight Mode is not set to FN when you turn the transmitter ON, the Flight Mode Warning alarm will sound continuously, the RF Output Indicator will ash, and the LCD will read F-MODE NOT 'N' ! To clear the Flight Mode Warning, set the Flight Mode to FN using the Flight Mode Switches (move both Flight Mode switches forward). The LCD will read normally, the Flight Mode Warning alarm will cease, and RF Output Indicator will stop ashing.There are three Flight Modes that can be individually programmed for each Model Type. The currently Active Flight Mode (FN, F1, or F2) is displayed in the upper right corner of the Display screen.There is always one Flight Mode active at all times and will vary based on the positions of the two Flight Mode switches. When both Flight Mode switches are pushed away from you (OFF), Flight Mode FN (Normal) will be Active.gEnERaL inFORMaTiOnThe F-MODE key is used to facilitate programming the individual Flight Modes only and does not turn the Flight Modes ON or OFF or switch between Flight Modes during use.It's important to note that higher numbered Flight Modes override lower numbered Flight Modes. For example, if you have Flight Mode F1 and Flight Mode F2 Active at the same time (both Flight Mode switches pulled toward you), Flight Mode F2 will override Flight Mode F1.Common or Separate Flight ModesMany Flight Mode programming options can be agged either COMMON or SEPARATE. Options agged as Common are common across all Flight Modes. Options agged as Separate can be programmed separately for each Flight Mode from the same Programming Menu.Flight  Modes  are  turned  ON  and  OFF  using  the  two  Flight Mode switches, as described below:Flight Mode FN (Normal) - Both Flight Mode switches pushed forward (OFF).Flight  Mode  F1 -  Flight Mode  F1  Switch  pulled toward  you (ON) and Flight Mode F2 switch pushed away from you (OFF).Flight Mode F2 - Flight Mode F2 switch pulled toward you (ON).Flight Mode F1SwitchFlight Mode F2Switch
Page 21aERO MODEL TyPE cOnTEnTSGeneral Information ......................................................................................................................................................... Page 22AERO Model Type Menu Flow Chart .............................................................................................................................. Page 22AERO Model Type Transmitter Layout........................................................................................................................... Page 23MODEL SELE (Model Select)........................................................................................................................................... Page 23MODEL NAME (Model Naming)....................................................................................................................................... Page 24TYPE (Model Type) ........................................................................................................................................................... Page 25TRAINER (Trainer System) .............................................................................................................................................. Page 26STOP WATCH (Stop Watch and Count Up Timer).......................................................................................................... Page 28DATA COPY (Model Programming Data Copy) .............................................................................................................. Page 29DATA RESET (Model Programming Data Reset) ........................................................................................................... Page 29REVERSE (Servo Reversing)........................................................................................................................................... Page 30CENTER (Servo Centering Sub-Trim)............................................................................................................................. Page 31EPA (End Point Adjustment)............................................................................................................................................ Page 32TH-CUT (Throttle Cut) ...................................................................................................................................................... Page 33D/R & EXP (Dual Rate and Exponential)......................................................................................................................... Page 34TRIM (Digital Trim)............................................................................................................................................................ Page 36TH-CURVE (Throttle Curve)............................................................................................................................................. Page 37AI-DIFF (Aileron Differential) ........................................................................................................................................... Page 39FLAPERON (Flaperon Mixing)......................................................................................................................................... Page 40FL>EL (Flap to Elevator Mixing)...................................................................................................................................... Page 41DUAL EL (Dual Elevator Mixing End Point Adjustment)............................................................................................... Page 42AILVATOR (Ailvator/Taileron Mixing).............................................................................................................................. Page 44V-TAIL (V-Tail Mixing End Point Adjustment)................................................................................................................. Page 45DELTA (Delta Mixing End Point Adjustment) ................................................................................................................. Page 46C-MIX1 (Compensation Mixing 1).................................................................................................................................... Page 47C-MIX2 (Compensation Mixing 2).................................................................................................................................... Page 47SX MONITOR (Servo Monitor) ......................................................................................................................................... Page 50AERO MODEL TYPE
Page 22aERO MODEL TyPEaERO MODEL TyPE PROgRaMMing MEnU FLOw chaRTUse this Flow Chart to familiarize yourself with the AERO Model Type Programming Menu structure. Descriptions regarding all AERO Model Type functions and programming are found on pages 23 through 50.04.TRAINER03.TYPE02.MODEL NAME01.MODEL SELE05.STOP WATCH06.DATA COPY07.DATA RESET08.REVERSE09.CENTER10.EPA11.TH-CUT12.D/R & EXP13.TRIM14.TH-CURVE15.AI-DIFF16.FLAPERON17.FL>EL18.DUAL EL19.AILVATOR20.V-TAIL21.DELTA22.C-MIX1666666666666666666666AERO HELI6623.C-MIX224.SX MONITOR66To access the AERO Model Type Programming Menus, turn the transmitter ON. From the Display screen, press the ENTER key to display the Programming Menus, then press the Navigation Pad 56to scroll to the desired Programming Menu. Press the ENTER key to access the desired Programming Menu.From within  any  Programming  Menu,  press  the END/M3  key continuously to  return  to  the  Display  screen. Unless  otherwise noted, all programming changes take effect immediately.If the Display screen is not displayed when you turn the transmitter ON, continuously press the END/M3 key until the Display screen is displayed.gEnERaL inFORMaTiOnINH MASTER66SLAVE6NOR REV66MIN SEC661/106D/R [1] - D/R [2] EXP [1] - EXP [2]66COMMON SEPARATE66HOLD POINT66RATE6MASTER SLAVE66RATE HIGH / RATE LOW6OFFSET6MASTER SLAVE66RATE HIGH / RATE LOW6OFFSET6ELEVATOR (DOWN) ELEVATOR (UP)66AILERON (LEFT)6AILERON (RIGHT)6ELEVATOR (DOWN) ELEVATOR (UP)66RUDDER (LEFT)6RUDDER (RIGHT)6Some Programming Menus cannot be accessed unless certain Model Type selection options are chosen rst. For example, you cannot access the AI-DIFF menu unless you have chosen AILE>2 in the TYPE menu.TH-TRIM LOCK (F1)6
Page 23aERO MODEL TyPEThe diagram below shows the transmitter control stick and switch layout in the AERO Model Type conguration.IMPORTANT Since each of the three Flight Modes can be programmed separately, before making programming changes, verify that you are in the Flight Mode you want to make programming changes to. To avoid confusion, we suggest leaving both Flight Mode switches pushed away from you (OFF) and use the F-MODE key from within the programming menus to choose which Flight Mode you would like to make programming changes to.aERO MODEL TyPE TRanSMiTTER LayOUT01.MODEL SELE (MODEL SELEcT)The Model Select function allows you to load the Programming Data for the particular model you wish to y. The MODEL SELECTmenu displays the currently selected model, along with a list of available models that can be selected. The specic Model Type (AERO or HELI) is displayed for each of the models. The TM-160 can store Programming Data for up to 10 different models.Selecting a Model1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight MODEL SELE, then press the ENTER key to display the MODEL SELECT menu. The currently selected model in the Model Select List will be highlighted.When any switch is moved into the Up or Forward position (pushed away from you), this is considered the OFF position. When moved into the Down position or Back position (pulled toward you), this is considered the ON position.AERO MODEL TYPE
Page 24aERO MODEL TyPEIn the default conguration, the Model Select List contains 5 AERO Model Types and 5 HELI Model Types. The Model Type for any of the 10 models in the Model Select List can be changed using the TYPE menu. For more Information, see page 25.Using the Direct Model Select FunctionThe Direct Model Select function allows you to select one of rst three models from memory without going through the MODELSELECT menu. This makes it much quicker and easier to load the Programming Data for your three most-used models.Before ying, verify that the Model Name displayed at the top of the Display screen is the actual model that you'll be ying.1) Turn the transmitter OFF.2) Press and HOLD the programming key of the model you wish to setup or y, then turn the transmitter ON. The Model Name will be displayed at the top of the Display screen.INC+/M1 selects Model 1, DEC-/M2 selects Model 2, and END/M3 selects Model 3.02.MODEL naME (MODEL naMing)The Model Naming function allows you to name each of the 10 individual models. This makes it easy to keep track of multiple models. The Model Name can consist of up to 8 letters, numbers, or symbols. Choose from capital letters, lower case letters, numbers, and various symbols.Entering a Model Name1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight MODEL NAME, then press the ENTER key to display the MODEL NAME menu. The cursor will default to the left side of the top row of letters and an underscore will appear under the rst character in the name.A model must be selected before a Model Name can be entered or modied. In the default conguration, M01:SANWA-1 is selected. To enter a Model Name for another model, that model must rst be selected using the MODEL SELECT menu or the Direct Model Select function. For more information, see the 01.MODEL SELECT section on page 23.When you press the ENTER key to select a model, the Programming Data for that model will be loaded immediately.Selecting a Model, Continued....3) Press the Navigation Pad 56 to highlight the model you would like to select, then press the ENTER key to select the highlighted model. That model will be displayed above the Model Select List.3) Press the Navigation Pad 5634 to highlight a character, then press the ENTER key to select the highlighted character. That character will be displayed and the underscore will move to the next space.4) Repeat step 3 to enter the rest of the characters. Up to eight characters can be entered. The name of your model will be displayed on the top of the Display screen.Press the Navigation Pad 56 repeatedly to scroll up and down the list of characters. In addition, press the INC+/M1 and DEC-/M2 keys to move the underscore left and right respectively.
Page 25aERO MODEL TyPEDeleting a Character1) Press the INC+/M1 or DEC-/M2 keys to move the underscore under the character you want to erase.2) Press the Navigation Pad 5634 to highlight the Erase Bracket , then press the ENTER key to erase the underscored character.Deleting a Model Name1) Press the INC+/M1 and DEC-/M2 keys at the same time to move the underscore under the rst character.2) Press the Navigation Pad 5634 to highlight the Erase Bracket , then press the ENTER key repeatedly to erase the entire Model Name.03.TyPE (MODEL TyPE)The Model Type function allows you to quickly set up the transmitter's low-level mixing based on the type of model you're ying. Common templates for AERO and HELI Model Types are provided. For example, if your aircraft features two aileron servos and dual elevator servos, choosing these options will automatically change the transmitter's programming to accommodate this setup. This takes the guess-work out of setting up more complex models.WARNING The Model Type function is used when setting up a new model and should be done prior to making any programming changes to your model. When Model Type selection options are changed for the currently selected model, all Programming Data for that model will be reset.Individual Model Type selection options can be reset to the default setting by pressing the INC+/M1 and DEC-/M2 keys at the same time.2) Press the Navigation Pad 56 to highlight TYPE, then press the ENTER key  to  display  the  TYPE  menu.  The  cursor  will  default  to >AERO or >HELI depending on the particular model you've selected. 3) If  the  current  Model  Type  is  >HELI,  press  the  INC+/M1  or  DEC-/M2 keys to change the selection option to >AERO.Changing the Model Type1) From the Display screen, press the ENTER key to display the Programming Menus.02.MODEL naME (MODEL naMing), cOnTinUED....Making AERO Model Type Selection OptionsChoose AERO Model Type selection options that suit the aircraft that you're setting up. For example, if your aircraft is a ying wing  and  is  controlled by  elevons,  choose  WING>DELTA. If  your  aircraft  features separate  aileron  servos and  split  elevator halves that use one elevator servo on each elevator half, choose AILERON>2 and TAIL>2xEL, and so on.Receiver channel slot assignments will change based on the selection options chosen. To verify which receiver channel slots to plug your servos into, navigate to the SX MONITOR menu after saving your Model Type selection options. For more information, see page 50. Depending on the Model Type selection options chosen, not all channel functions will be available for use. 1) From within the TYPE menu, verify that >AERO is displayed. If >HELI is displayed, change the Model Type to AERO by following the steps in the Changing the Model Type section above.SELECTION DEFAULT OPTIONWING (Type)TAIL (Type)AILERON (Servos)NORMALNORMAL1DELTA* (Elevons)V-TAIL or 2xEL**2AERO*Delta mixing is sometimes referred to as Elevon mixing. **If you require both servos to move the same direction, you will need to Reverse one of the channels.AERO MODEL TYPE
Page 26aERO MODEL TyPESome selection options are dependent on other selection options and may not be able to be changed.If you want to go back and change the settings or if you don't want to create the new settings for any reason, press the DEC-/M2 or END/M3 keys.Saving Model Type Selection Options1) After  making  your  choices,  press  the  ENTER  key.  CREATE  NEW DATA? will be displayed and INC+ will ash in the Programming Window.2) Press the INC+/M1 key to  Create  New  Data. After ~10 seconds, the new Programming Data will be loaded into the transmitter as indicated by the progress bar, and COMPLETE!! will be displayed in the Programming Window. Press any key to return to the TYPE menu.04.TRainER (TRainER SySTEM)The TM-160 transmitter features a Trainer System that allows you to connect two TM-160 transmitters to one another, or connect one TM-160 transmitter to one SD-5G transmitter or to one SD-10G transmitter, for the purpose of training a new pilot or for training a more experienced pilot on a new model.During use, one transmitter acts as the Master (Instructor) and the other transmitter acts as the Slave (Student). The Instructor controls the Student's model as long as the Trainer switch is released. For example, once the Instructor maneuvers the model to a safe altitude, the Instructor pulls and holds the Trainer switch to give control of the model to the Student. The Student will have control of the model as long as the Instructor holds the Trainer switch. Once the Trainer switch is released, the Instructor will have control of the model once again. If at any time the Instructor feels that the Student is in a situation that endangers the model, the Instructor releases the Trainer switch and control of the model returns instantly to the Instructor.Making AERO Model Type Selection Options, Continued....2) Press the Navigation Pad 56 to highlight the AERO Model Type selection option you wish to change, for example, AILE>1.3) Press the INC+/M1 or DEC-/M2 keys to change the selection option. When a Model Type selection option is changed, ENTER will ash in the Programming Window.IMPORTANT INFORMATION ABOUT THE TRAINER SYSTEMlThe Trainer System is currently compatible ONLY with another TM-160transmitter or an SD-5G or SD-10G transmitter and you MUST use the Airtronics 97107 Trainer Cable. See your local Airtronics dealer for more information and availability.lDuring use, both the Master transmitter and the Slave transmitter should be turned ON. If using an SD-10G transmitter as the Slave transmitter, to save battery power only the transmitter LCD needs to be turned ON, using the DISPLAY key.lBoth transmitters must be programmed identically for the Trainer System to function properly. For example, Servo Reversing, Servo End Point Adjustments, etc. must be identical.lThe Instructor transmitter Trainer System function must be set to MASTER and the Student transmitter Trainer System function must be set to SLAVE.If using the Trainer System with an Airtronics SD-5G transmitter or an SD-10G transmitter, please refer to those transmitter's Operating Manuals for more information on the correct setup and use of those transmitter's Trainer functions.Connecting the Master and Slave Transmitters1) Turn both transmitters OFF.2) Plug one end of the Airtronics 97107 Trainer Cable (available separately) into the back of one TM-160 transmitter, then plug the other end of the Trainer Cable into the back of the second TM-160 transmitter or an SD-5G or SD-10G transmitter.4) Repeat steps 2 and 3 to change the options for any of the other AERO Model Type selection options you wish to change.
Page 27aERO MODEL TyPE04.TRainER (TRainER SySTEM), cOnTinUED....Activating the Trainer Function - Master (Instructor) Transmitter1) Turn the Master  (Instructor) transmitter ON. From  the  Display screen, press  the  ENTER key to  display  the Programming Menus.Activating the Trainer Function - Slave (Student) Transmitter1) Turn  the  Slave  (Student)  transmitter  ON.  From  the  Display  screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight TRAINER, then press the ENTER key to display the TRAINER menu. The cursor will default to >INH.Using the Trainer Function1) The Trainer Cable should be connected between the two transmitters and the Trainer function on both transmitters should be Activated as described previously. Both the Master (Instructor's) transmitter and the Slave (Student's) transmitter should be turned ON. If using an SD-10G transmitter as the Slave transmitter, to save battery power only the transmitter LCD needs to be turned ON, using the DISPLAY key.2) Turn the receiver ON in the model you're using for training and verify that the Instructor's transmitter controls the model's control surfaces correctly.3) Activate the Trainer function by pulling and HOLDING the Trainer switch on the Instructor's transmitter continuously and verify that the Student's transmitter controls the model's control surfaces correctly.4) When the Trainer switch is released, the Instructor will have full control over the model. When the Trainer switch is pulled toward you and held continuously, the Student has control over the model. As soon as the Trainer switch is released, the Instructor will have full control over the model once again.2) Press the Navigation Pad 56 to highlight TRAINER, then press the ENTER key to display the TRAINER menu. The cursor will default to >INH.3) Press  the  INC+/M1  key  to  change  the  current  transmitter's  Trainer mode to MASTER. >MASTER will be displayed.will be displayed on the Display screen, indicating that the transmitter is operating in MASTER mode.will be displayed on the Display screen, indicating that the transmitter is operating in SLAVE mode.3) Press  the  INC+/M1  key  to  change  the  current  transmitter's  Trainer mode to SLAVE. >SLAVE will be displayed.AERO MODEL TYPE
Page 28aERO MODEL TyPE05.STOP waTch (STOP waTch anD cOUnT UP TiMER)The Stop Watch function is used to either count down from a programmed Start time (Count Down mode) or to count up from zero if no Start time is programmed (Count Up mode). In Count Down mode, an audible tone will sound in 1 second intervals when the Stop Watch reaches 10 seconds from zero. When zero is reached, a long audible tone will sound and the Stop Watch will begin to count up. In Count Up mode, an audible tone will sound at 1 minute intervals to remind you that the count down time (zero) has been surpassed. The Stop Watch function has a number different uses, but one of the more popular uses is to use it as a fuel usage indicator to remind you to land within an allotted amount of time to ensure that your model doesn't run out of fuel. Setting the Stop Watch1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight STOP WATCH, then press the  ENTER  key  to  display  the  STOP WATCH  menu. The  cursor  will default to MIN>00.The Stop Watch is displayed in Minutes, Seconds, and 1/10 Seconds. 00' (Minutes) 00" (Seconds) 00 (1/10 Seconds).Using the Stop Watch1) Press the END/M3 key two times to return to the Display screen. The Start time that you programmed will be displayed.Using the Count Up TimerThe Stop Watch function can also be used as a Count Up timer when the Stop Watch is set to 00'00"00. When the Count Up timer runs, UP will be displayed on the Display screen and an audible tone will sound at 1 minute intervals.1) Set the Stop Watch Start time to 00'00"00 as described in the Setting the Stop Watch section above.2) To Start the Count Up timer, press the INC+/M1 key. To Stop the Count Up timer, press the INC+/M1 key a second time. To Reset the Count Up timer to 00'00"00, press the INC+/M1 and DEC-/M2 keys at the same time.2) To Start the Stop Watch, press the INC+/M1 key. To Stop the Stop Watch, press the DEC-/M2 key a second time. To Reset the Stop Watch to the programmed Start time, press the INC+/M1 and DEC-/M2 keys at the same time.3) The Minute, Second, and 1/10 Second times can be set independently. Press the Navigation Pad 56 to highlight the time interval you would like to  program,  then press the  INC+/M1  or DEC-/M2 keys to  set  the desired Start time.MIN setting range is 0 to 59', SEC setting range is 0 to 59" and 1/10 setting range is 0 to 90. The default setting for each is 0.
Page 29aERO MODEL TyPE06.DaTa cOPy (MODEL PROgRaMMing DaTa cOPy)The Data Copy function allows you to copy the Programming Data from one model to another model. This is convenient if you have similar Model Types. For example, if you have two models that are similar, you can copy the Programming Data from the rst model to the second model to use as a base to start ne-tuning the programming for the second model.Copying Model Programming Data1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight DATA COPY, then press the ENTER key to display the DATA COPY menu. The cursor will default to the currently selected model, for example >01:SANWA-01 <AERO>.3) With the cursor adjacent to the top model number, press the INC+/M1 or DEC-/M2 keys to select the model you would like to copy Programming Data FROM. ENTER will ash in the Programming Window.4) Press the Navigation Pad 6to move the cursor to the bottom model number, then press the INC+/M1 or DEC-/M2 keys to select the model you would like to copy Programming Data TO. ENTER will continue to ash in the Programming Window.It's not possible to copy Programming Data from one model to the same model. If you attempt this, ENTER will not be displayed.5) Press the ENTER key. DATA COPY OK? will be displayed and INC+ will ash in the Programming Window.6) Press the INC+/M1 key to Copy the model Programming Data. After ~10 seconds, the Programming Data will be copied as indicated by the progress bar, and COMPLETE!! will be displayed in the Programming Window. Press any key to return to the DATA COPY menu.All model-specic Programming Data, including the Model Name will be copied to the selected model.If you want to go back and change models or you don't want to copy the Programming Data for any reason, press the DEC-/M2 or END/M3 keys.07.DaTa RESET (MODEL PROgRaMMing DaTa RESET)The Data Reset function allows you to Reset model-specic Programming Data for any model back to the factory default settings. As described previously, individual programming settings can be Reset to the factory default settings by pressing the INC+/M1 and DEC-/M2 keys at the same time, however, this is time consuming if you want to change all of the selected model's programming settings back to default. Using the Data Reset function makes doing this much quicker and more accurate, since nothing will be missed.AERO MODEL TYPE
Page 3007.DaTa RESET (MODEL PROgRaMMing DaTa RESET), cOnTinUED....Although Model Type selection options are model-specic, the Data Reset function does NOT Reset them. This is useful if you have two similar models, but different programming needs for each. For example, if you have two similar aircraft that use the same Model Type selection options (e.g., TAIL>2xEL and AILE>2) but different Programming Data (e.g., Servo Reversing, End Point Adjustments, etc), you can copy the rst model's Programming Data, using the Data Copy function, then use the Data Reset function to Reset all of the Programming Data except Model Type selection options. This saves time by not needing to re-program Model Type selection options.Resetting Model Programming Data1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the  Navigation Pad 56 to highlight  DATA RESET, then press the ENTER key to display the DATA RESET menu. The cursor will default  to  the  currently  selected  model,  for  example  >01:SANWA-01 <AERO> and ENTER will flash in the Programming Window.3) Press the INC+/M1 or DEC-/M2 keys to select the model you would like to Reset the Programming Data for. ENTER will continue to ash in the Programming Window.4) Press the ENTER key. DATA RESET OK? will be displayed and INC+ will ash.5) Press the INC+/M1 key to Reset the Programming Data for the selected model. After ~10 seconds, the Programming Data will be Reset as indicated  by  the  progress  bar,  and  COMPLETE!! will be displayed in the Programming Window. Press any key to return to the DATA RESETmenu.If you want to go back and change the model or you don't want to Reset the Programming Data for any reason, press the DEC-/M2 or END/M3 keys.aERO MODEL TyPE08.REvERSE (SERvO REvERSing)The Servo Reversing function electronically switches the direction of servo travel. For example, if you pull the elevator control stick back for Up elevator, but the elevator moves Down, you can use the Servo Reversing function to switch the direction of servo travel to make the elevator move Up.Changing Servo Reversing Adjustment Values1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight REVERSE, then press the ENTER key to display the REVERSE menu. The cursor will default to 1EL>NOR.The channel numbers will differ based on the Model Type selection options you chose previously in the TYPE menu. For example, if you chose AILE>2, channel 2 will be displayed as LA (Left Aileron) and channel 5 will be displayed as RA (Right Aileron).
Page 31aERO MODEL TyPEChanging Servo Reversing Adjustment Values, Continued....3) Press the  Navigation  Pad  5634 to highlight the  channel  that  you would like to change the Servo Reversing adjustment value for.4) Press the INC+/M1 or DEC-/M2 keys to change the REV adjustment value to set the desired direction of servo travel.REVERSE setting range is NOR/REV. The default setting is NOR.5) Repeat steps 3 and 4 to set the desired direction of servo travel for the desired remaining channels.09.cEnTER (SERvO cEnTERing SUB-TRiM)The Servo Centering function allows you to ne-tune the Center (Neutral) position of each servo. It's not unusual that when you install the servo horn onto your servo that the servo horn is not perfectly centered. The Servo Centering function allows you to center the servo horn perfectly.1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad  56 to  highlight  CENTER,  then  press  the ENTER key to display the CENTER menu. The cursor will default to 1EL>0%.The channel numbers will differ based on the Model Type selection options you chose previously in the TYPE menu. For example, if you chose AILE>2, channel 2 will be displayed as LA (Left Aileron) and channel 5 will be displayed as RA (Right Aileron).Centering the Trim Switches and Servo Horns1) Before changing the Servo Centering percentage values you must rst adjust each of the four trim switches so that the control surface trims are centered as displayed on the Display screen. In addition, an audible double-tone is heard when the trim switches reach the center position. The TM-160 transmitter features Digital Trim Memory. Any amount of trim that you set during fight using the trim switches is automatically  stored  in  memory  for  that  specic  channel  and  model,  and  for  that  specic  Flight  Mode  (if Enabled). The Trim percentage values for each model will automatically be loaded when the transmitter is turned ON and your model is selected. For more information, see page 36.2) Install the servo horn onto the servo, making sure that the servo horn is as close to being centered as possible. In some cases you can get the servo arm closer to being centered by rotating the servo arm 180º and reinstalling it.IMPORTANT It is always recommended to install the servo horns as close to being centered as possible, prior to changing the Servo Centering percentage values. After you change the Servo Centering percentage values to center the servo horns, only then should you manually adjust the control linkages to center the control surfaces.TH TrimRU TrimEL TrimAI TrimChanging Servo Centering Percentage ValuesAERO MODEL TYPE
Page 32aERO MODEL TyPEChanging Servo Centering Percentage Values, Continued....3) Press the  Navigation  Pad  5634 to highlight the  channel  that  you would like to change the Servo Centering percentage value for.4) Press the INC+/M1 or DEC-/M2 keys to change the Servo Centering percentage value to center the servo horn.5) Repeat steps 3 and 4 to center the servo horns for the desired remaining channels.CENTER setting range is -150% to 150%. The default setting is 0%. Increase or decrease the Servo Centering percentage values to center the servo horns.WARNING We don't recommend using a Servo Centering percentage value outside the range of approximately -40% to 40%. Using a percentage value outside of this range can result in limited maximum servo travel. Zeroing Out TrimAlthough trim switch settings are automatically stored in memory for each individual model, some users may wish to always keep their trim switch settings at zero (centered) for all models. For example, after test-ying your model, if you have had to add trim to make your model y straight and level, you can use the Servo Centering function to add that amount of trim back into the servo(s), then move the trim switches back to center. This ensures that your trim switches are always centered.1) After ying your model, check your model's control surfaces to see how much trim was necessary to achieve straight and level ight.2) From within the CENTER menu, highlight the channel you need to add Centering trim to.3) Recenter the trim switch, then change the Servo Centering percentage value until the control surface is in the same position it was prior to recentering the trim switch. Double-check the control throws to ensure the End Points haven't changed.In the default conguration, the same trim settings are stored across all Flight Modes. This option can be changed to allow you to store different trim settings for each individual Flight Mode. For more information, see page 36.10.EPa (EnD POinT aDjUSTMEnT)The End Point Adjustment function allows you to adjust servo travel in each direction. This makes it possible to balance control surface throw in both directions and set the maximum desired control throw. For example, if you want your elevator to move Up and Down two inches in each direction, but the elevator moves Down more than two inches, decrease the End Point Adjustment in the Down direction, so that the elevator moves Up and Down the same amount. Another example is with ailerons. If your aircraft rolls faster to the right than to the left, increase the End Point Adjustment in the Left direction until the aircraft rolls the same speed in both directions.The End Point Adjustment function is designed to balance the control throw on both sides of servo travel and can be overridden by other settings, such as Dual Rate. For example, if you have your End Point Adjustment percentage value set to 100%, and you set your Dual Rate percentage value to 150%, the servo will travel more than 100% when Dual Rate is ON.1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight EPA, then press the ENTER key to display the EPA menu. The cursor will default to 1EL>U100% or 1EL>D100% depending on the last position of the elevator control stick.The channel numbers will differ based on the Model Type selection options you chose previously in the TYPE menu. For example, if you chose AILE>2, channel 2 will be displayed as LA (Left Aileron) and channel 5 will be displayed as RA (Right Aileron).Changing End Point Adjustment Percentage Values
Page 33aERO MODEL TyPEChanging Servo End Point Percentage Values, Continued....In front of each End Point Adjustment percentage value is a specic icon. To set the End Point Adjustment percentage value for the desired direction of servo travel, the control stick or switch must be moved in the direction of servo travel you want to change the End Point Adjustment percentage value for. For example, if you want to change the End Point Adjustment percentage value for Down elevator, push the elevator control stick forward, then release it. 'D' will be displayed in front of the Elevator End Point Adjustment percentage value.3) Press the  Navigation  Pad  5634 to highlight the  channel  that  you would like to change the End Point Adjustment percentage value for.4) Press the INC+/M1 or DEC-/M2 keys to change the End Point Adjust-ment percentage value.EPA setting range for the primary ight controls is 0% to 150%. The default setting is 100%. EPA setting range for Flaps is -150% to 150%. Increasing the End Point Adjustment percentage value increases servo travel and decreasing the End Point Adjustment percentage value decreases servo travel.Although the End Point Adjustment function is used to balance and adjust maximum control surface deection, we suggest adjusting the control linkages rst to try to achieve as close to the desired control surface deection as possible, then use the End Point Adjustment function to make nal adjustments.To increase control surface deection, you can either move the pushrod further out on the servo arm or move the pushrod closer to the control surface. To decrease control surface deection, you can either move the pushrod closer to the center of the servo arm or move the pushrod further away from the control surface.11.Th-cUT (ThROTTLE cUT)The Throttle Cut function allows you to set a specic position that the throttle servo will move to when you press the Throttle Cut button. The Throttle Cut function is primarily used to shut down your engine after ight. You are able to adjust the Throttle Cut percentage value to ensure that when you press the Throttle Cut button to shut down your engine, the carburetor will close completely, yet not bind.Changing the Throttle Cut Percentage Value1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press  the  Navigation  Pad  56 to  highlight  TH-CUT,  then  press  the ENTER  key  to  display  the  TH-CUT menu.  The  cursor  will  default  to >-100%.Before using the Throttle Cut function, make sure that the idle stop screw on your carburetor (if featured) is adjusted to allow the carburetor barrel to close completely.When the Throttle Cut function is Activated, throttle control will be disabled.There are several different methods that can be used to set up your throttle control linkage and the Throttle Cut function. To prevent any chance of causing your throttle control linkage to bind, possibly resulting in damage to your throttle servo when you use the Throttle Cut function, we rst suggest adjusting the Throttle Low End Point Adjustment percentage value so that when the throttle control stick is pulled all the way back the carburetor barrel closes completely without binding. Next, increase the throttle trim (using the throttle trim switch) to adjust your engine's idle. Now change the Throttle Cut percentage value to close the carburetor barrel without binding when you press the Throttle Cut button.5) Repeat steps 3 and 4 to change the End Point Adjustment percentage values for the desired remaining channels.AERO MODEL TYPE
Page 34aERO MODEL TyPETH-CUT setting  range  is  -150%  to  0%.  The  default  setting  is  -100%. Decreasing the Throttle Cut percentage value will increase throttle servo travel when the Throttle Cut button is pressed.Changing the Throttle Cut Percentage Value, Continued....3) Press the INC+/M1 or DEC-/M2 keys to set the position you would like the throttle servo to move to when you press the Throttle Cut button.12.D/R & EXP (DUaL RaTE anD EXPOnEnTiaL)The TM-160 transmitter features one Dual Rate switch that controls Dual Rate for the elevator, aileron, and rudder channels at the same time. In addition, the Dual Rate percentage value for each channel can be programmed independently. The Exponential function is linked directly to the Dual Rate switch, allowing you to program Exponential for each of the two Dual Rate positions separately. For greater exibility, both Dual Rate and Exponential can be programmed either the same for all Flight Modes or separately for each of the three Flight Modes.Current ChannelDual Rate Switch Position Transmitter F-MODEProgramming F-MODETransmitter F-MODE refers to the Flight Mode that the transmitter is currently operating in. Programming F-MODE refers to the Flight Mode that you would like to change the programming for.Choosing the Flight Mode - Common or SeparateWhen set to COMMON, the Dual Rate and Exponential percentage values you program will be the same regardless of which Flight Mode the transmitter is operating in. You cannot program Dual Rate and Exponential percentage values separately for each Flight Mode. When set to SEPARATE, you can program Dual Rate and Exponential percentage values separately for each Flight Mode. This allows for greater exibility.1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight D/R & EXP, then press the ENTER key to display the D/R & EXP menu. The cursor will default to D/R>100%.3) Press the Navigation Pad 5to move the cursor to F-MODE>COMMON.4) Press the INC+/M1 or DEC-/M2 keys to choose either SEPARATE OR COMMON.5) If you choose SEPARATE, press the F-MODE key to choose the F-MODE number you would like to program the Dual Rate and Exponential functions for. Choose from FN, F1 or F2.(Typically 1=Maximum Control Throw and 2=Reduced Control Throw)
Page 35aERO MODEL TyPEDual Rate is a percentage of End Point Adjustment. For example, if you set the Dual Rate 1 percentage value to 100%, the control surfaces will travel the same amount as dened by your End Point Adjustment programming, and if you set the Dual Rate 2 percentage value to 50%, the control surfaces will travel half that amount when Dual Rate 2 is Activated. Prior to takeoff, check the position of the Dual Rate switch to ensure that it is in the position you want.Dual Rate OverviewThe Dual Rate function allows you to change the control authority of the control surfaces by changing the amount of servo travel. For example, if you are ying an aerobatic aircraft that requires a lot of control throw for aerobatics, but that same amount of control throw makes the aircraft difcult to control during normal ight, you can use the Dual Rate function to lower the control throw for normal ight with just the ip of the Dual Rate switch. Two Dual Rate settings are available for the Elevator, Aileron, and Rudder channels, and different Dual Rate settings can be programmed separately for each of the three Flight Modes.Changing the Dual Rate Percentage ValuesTwo different Dual Rate settings can be programmed to the Dual Rate switch. We recommend that Dual Rate 1 be set to the maximum control surface throw you desire, then set Dual Rate 2 to a different value that is less than maximum. For example, set the Dual Rate 1 percentage value to 100% and the Dual Rate 2 percentage value to 75%.WARNING Keep in  mind  that  it's possible to set the  Dual  Rate  percentage value higher than  the  End  Point Adjustment percentage value. For example, with the End Point Adjustment percentage value set to 100% and the Dual Rate percentage value set to 150% the servo will move more than 100% when Dual Rate is turned ON. We strongly recommend that you set the Dual Rate 1 percentage value to no more than 100%. This will prevent any chance of exceeding your End Point Adjustment and overdriving your control linkage.Choosing the Channel1) Press the Navigation Pad 34 to highlight the channel you would like to make Dual Rate percentage value changes to. Choose either <EL>, <AI>, or <RU>.Dual Rate can be set for EL (Elevator), AI (Aileron), and RU (Rudder).D/R setting range is 0% to 150%. The default setting is 100%. Increasing the Dual Rate percentage value increases servo travel and decreasing the Dual Rate percentage value decreases servo travel.1) Move the Dual Rate switch to the position you would like to set a Dual Rate percentage value for, either 1 or 2. 2) Press the INC+/M1 or DEC-/M2 keys to set the desired Dual Rate percentage value for the channel you chose previously.Exponential OverviewThe Exponential function allows you to vary the amount of servo travel in relation to the movement of the elevator, aileron, and rudder control sticks near the neutral positions to change the way the control surfaces react to control stick movement. Increasing the Exponential value will soften the control feel around neutral and decreasing the Exponential value will heighten the control feel around neutral. For example, using a positive Exponential percentage value allows for smoother control by lessening the amount of servo travel in relation to the amount of control stick movement. Using a negative Exponential percentage value may result in more 'twitchy' control response because the amount of servo travel will be increased in relation to the amount of control stick movement. The Exponential function is linked directly to the Dual Rate switch. This allows you to program Exponential for each of the two Dual Rate positions separately.Exponential does not change the total amount of servo travel at maximum control stick deection. Exponential affects the ratio between servo travel and control stick movement at less than maximum control stick deection.12.D/R & EXP (DUaL RaTE anD EXPOnEnTiaL), cOnTinUED....AERO MODEL TYPE
Page 36aERO MODEL TyPEChoosing the Channel1) Press the Navigation Pad 34 to highlight the channel you would like to make Exponential percentage value changes to. Choose either <EL>, <AI>, or <RU>.Exponential can be set for EL (Elevator), AI (Aileron), and RU (Rudder).Changing the Exponential Percentage ValuesThe Exponential function is linked directly to the Dual Rate switch. This allows you to program Exponential for each of the two Dual Rate positions separately. For example, with the Dual Rate switch in position 1 (maximum travel), you can set the Exponential percentage value to 30% to soften the control feel around neutral and with the Dual Rate switch in position 2 (reduced travel) you can set Exponential percentage value to 0%. When the Exponential percentage value is set to 0%, the ratio between servo travel and control stick movement will be Linear throughout the entire range of deection.WARNING If you have not used Exponential functions in the past, we suggest that you start with a small percentage of Exponential (approximately 10%~20%) until you get used to the feel of how Exponential affects the control feel of your model. You will find that Exponential is most useful where strong control response is desired at extreme control stick positions, but softer control response to small control stick movements is desired in order to make very accurate small corrections to the flight path.1) Press the Navigation Pad 6 to move the cursor to EXP>0%.2) Move the Dual Rate switch to the position you would like to set an Exponential percentage value for, either 1 or 2. 3) Press  the  INC+/M1  or  DEC-/M2  keys  to  set  the  desired  Exponential percentage value for the channel you chose previously.EXP setting range is -100% to 100%. The default setting is 0% (Linear). Increasing the Exponential percentage value softens the control feel around neutral. Decreasing the Exponential percentage value heightens the control feel around neutral.13.TRiM (DigiTaL TRiM)The TM-160 transmitter features Digital Trim Memory. Any amount of control surface trim that you set during fight using the trim switches is automatically stored in memory for that specic channel and for that specic model. The Digital Trim values for each model will automatically be loaded when the transmitter is turned ON. The Trim function allows you to choose whether you want trim changes saved the same across all three Flight Modes or if you want trim changes saved separately for each of the three Flight Modes. In addition, an option to lock the throttle trim in Flight Mode F1 is also available. This feature is convenient when ying aerobatics with a custom Throttle Curve in Flight Mode F1, because if accidentally hit, the throttle trim could change your Throttle Curve and cause unintended consequences.An audible double-tone is heard when the trim switches reach the center position. This allows you to know when the trim switches reach the center position without the need to look at the Trim Indicators on the Display screen.Choosing the Trim Flight Mode Option1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight TRIM, then press the ENTER key to display the TRIM menu. The cursor will default to F-MODE>COMMON.12.D/R & EXP (DUaL RaTE anD EXPOnEnTiaL), cOnTinUED....
Page 37aERO MODEL TyPEWARNING When the Trim Flight Mode option is set to Separate or SEPARATE TH-TRIM LOCK (F1), Digital Trim values are stored in the specic Flight Mode you're using when you change the trim using the trim switches. For example, you could have 10 'clicks' of Up elevator trim in Flight Mode FN (Normal) and 5 'clicks' of Up elevator trim in Flight Mode F1. Be cautious of this when switching between Flight Modes during ight. In addition, if SEPARATE TH-TRIM LOCK (F1) is chosen, throttle trim will NOT be adjustable when in Flight Mode F1.Choosing the Trim Flight Mode Option, Continued....3) Press the INC+/M1 or DEC-/M2 keys to choose the desired Trim Flight Mode  option,  either COMMON,  SEPARATE  or  SEPARATE TH-TRIM LOCK (F1).TRIM setting range is COMMON, SEPARATE, or SEPARATE TH-TRIM LOCK (F1). The default setting is COMMON.14.Th-cURvE (ThROTTLE cURvE)The Throttle Curve function allows you to vary the amount of throttle servo travel in relation to the movement of the throttle control stick at different points throughout the entire range of deection. Five custom-programmable Points ensure a precise Throttle Curve to suit any situation. For example, many glow and gas engines are very non-Linear, meaning that when the throttle control stick is at half, the engine is not at half power. In addition, many times the difference between three-quarter power and full power is almost indistinguishable.  Using the Throttle Curve function, you can change the way the engine reacts to power based on the position of the throttle control stick. For example, you can change the Throttle Curve so that three-quarter stick feels like three-quarter throttle.For greater exibility, the Throttle Curve function can be programmed either the same for all Flight Modes or separately for each of the three Flight Modes. A graph with Input and Output indicators help with programming visualization.Transmitter F-MODE refers to the Flight Mode that the transmitter is currently operating in. Programming F-MODE refers to the Flight Mode that you would like to change the programming for.Transmitter F-MODEProgramming F-MODEStick InputFunction Output150%100%100%150%0%Point PositionsAs you change the Point values and Rate percentage values, you can use the graph and Input and Output indicators to visualize the ratio between control stick movement and servo travel throughout the entire deection range. Choosing the Flight Mode - Common or Separate1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight TH-CURVE, then press the ENTER key to display the TH-CURVE menu. The cursor will default to POINT>1.AERO MODEL TYPE
Page 38aERO MODEL TyPEChoosing the Flight Mode - Common or Separate, Continued....3) Press the Navigation Pad 5 to move the cursor to F-MODE>COM.4) Press the INC+/M1 or DEC-/M2 keys to choose either SEP OR COM (SEParate or COMmon).5) If you choose SEPARATE, press the F-MODE key to choose the F-MODE number you would like to program the Throttle Curve function for. Choose from FN, F1 or F2.Changing the Throttle Curve Point Values and the Rate Percentage ValuesFive different Points with varying Rate percentage values can be programmed onto the Throttle Curve. Each Point will be displayed on the graph to give you a visual interpretation of the position of the Point on the Throttle Curve. The Point that is currently selected will ash.WARNING Keep in mind that it's possible to set the Rate percentage values higher or lower than the throttle End Point Adjustment percentage values. For example, with the throttle High End Point Adjustment percentage value set to 100% and POINT>5 Rate percentage value set to 150% the servo will move 150%. We strongly recommend that you set the Throttle Curve Point Rate percentage values no higher than your throttle End Point Adjustment percentage values unless specically necessary for your particular setup. This will prevent any chance of overdriving your control linkage.1) Press the Navigation Pad 6 to highlight POINT>1.2) Press the INC+/M1 or DEC-/M2 keys to choose which Point you would like to set a Rate percentage value for.POINT setting range is 1 through 5. Point 1 is at the low end of the Throttle Curve and Point 5 is at the high end of the Throttle Curve. Point 3 is a the center of the Throttle Curve.RATE setting range for each Point is -150% to 150%.3) Press the Navigation Pad 6 to highlight RATE>.4) Press the INC+/M1 or DEC-/M2 keys to set the desired Rate percentage value for the Point you chose previously, then repeat the previous procedures to change the desired remaining Point and Rate percentage values.In the default conguration the Throttle Curve is Linear. For example, when you move the throttle control stick from 0% to 100%, the throttle servo will travel from 0% to 100%, too. As long as the line on the graph remains straight, the Throttle Curve will be Linear. When a Point Rate percentage value is changed, the line on the graph curves (displaying the Throttle Curve) and throttle servo travel will vary in relation to throttle control stick movement.100%The tables below describe the default Point and Rate values.12-100%-50%POINT DEFAULT RATE340%50%POINT DEFAULT RATE5POINT DEFAULT RATE
Page 39aERO MODEL TyPE15.ai-DiFF (aiLEROn DiFFEREnTiaL)The Aileron Differential function allows you change the ratio of the Up to Down movement of each aileron. For example, many aircraft exhibit a yaw tendency when the ailerons are used. Although this can affect any aircraft, it's noticed mostly on high-wing aircraft and aerobatic aircraft. The Aileron Differential function can be used to eliminate the yaw tendency by adding more movement to the upward moving aileron than the downward moving aileron. For example, if your aircraft tends not to stay in a straight line during rolls, you can adjust the Aileron Differential to make the aircraft roll more axially and therefore in a straight line.For greater exibility, the Aileron Differential function can be programmed either the same for all Flight Modes or separately for each of the three Flight Modes.Programming F-MODETransmitter F-MODETransmitter F-MODE refers to the Flight Mode that the transmitter is currently operating in. Programming F-MODE refers to the Flight Mode that you would like to change the programming for.IMPORTANT To be able to access the AI-DIFF menu and program the Aileron Differential function, your aircraft must feature two separate aileron servos and you must choose the AILE>2 Model Type selection option in the TYPE menu.Choosing the Flight Mode - Common or Separate1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight AI-DIFF, then press the ENTER key to display the AI-DIFF menu. The cursor will default to LA-L>100%.3) Press the Navigation Pad 5to move the cursor to F-MODE>COMMON.4) Press the INC+/M1 or DEC-/M2 keys to choose either SEPARATE or COMMON.5) If you choose SEPARATE, press the F-MODE key to choose the F-MODE number you would like to program the Aileron Differential function for. Choose from FN, F1 or F2.Changing the Aileron Differential Percentage ValuesAileron Differential is achieved by reducing the amount of DOWN movement in the required aileron.Aileron Differential is a percentage of the control throw differential between the ailerons. For example, if you set the LA-R (Left Aileron-Right) percentage value to 90%, the Left Aileron will move Down less than what the Right Aileron moves Up.IMPORTANT Prior to setting the Aileron Differential percentage values, you should use the End Point Adjustment function to ensure that each aileron is moving UP and DOWN the same amount.UP = MoreMovementDOWN = LessMovementDiagram of DifferentialAERO MODEL TYPE
Page 40aERO MODEL TyPEChanging the Aileron Differential Percentage Values, Continued....1) Press  the  Navigation  Pad  56 to  highlight  the  desired  aileron  travel direction you would like to change the Aileron Differential percentage value for. For example, if you need the Right Aileron to move Up more than the Left Aileron moves Down (per the previous diagram), you would decrease the LA-R>100% (Left Aileron-Right) percentage value.   2) Press the INC+/M1 or DEC-/M2 keys to set the desired Aileron Differential percentage value.AI-DIFF setting range is 0% to 100%. The default setting is 100%. Decreasing the Aileron Differential percentage value will decrease the movement for that specic aileron and direction of travel. The Aileron Differential percentage value is a percentage of End Point Adjustment.3) Repeat the previous procedures to set the desired remaining Aileron Differential percentage values. Press the Navigation Pad 6 to scroll to the RA-L and RA-R options.16.FLaPEROn (FLaPEROn MiXing)The Flaperon Mixing function mixes aps and ailerons, allowing you to use the ailerons as aps if your model does not feature separate aps. During use, both ailerons move down at the same time to provide the function of aps, while still providing aileron roll control. Both ailerons can also be programmed to move up at the same time (spoilerons) to rapidly decrease lift. On some aircraft, moving both ailerons up slightly can induce greater speeds and also aid in trimming.For greater exibility, the Flaperon Mixing function can be programmed either the same for all Flight Modes or separately for each of the three Flight Modes.Programming F-MODETransmitter F-MODETransmitter F-MODE refers to the Flight Mode that the transmitter is currently operating in. Programming F-MODE refers to the Flight Mode that you would like to change the programming for.IMPORTANT To be able to access the FLAPERON menu and program the Flaperon Mixing function, your aircraft must feature two separate aileron servos and you must choose the AILE>2 Model Type selection option in the TYPE menu.The Flaperons are controlled by the Flap switch, just as if your model featured separate aps. In most cases, you will want to set the Flap channel End Point Adjustment percentage values prior to adjusting the Flaperon4Left Aileron and Flaperon4Right Aileron percentage values.Choosing the Flight Mode - Common or Separate1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight FLAPERON, then press the ENTER key to display the FLAPERON menu. The cursor will default to FL4LA>0%.Flaperons - Both ailerons downSpoilerons - Both ailerons up
Page 41aERO MODEL TyPEChoosing the Flight Mode - Common or Separate, Continued....3) Press the Navigation Pad 5to move the cursor to F-MODE>COMMON.4) Press the INC+/M1 or DEC-/M2 keys to choose either SEPARATE or COMMON.5) If you choose SEPARATE, press the F-MODE key to choose the F-MODE number  you  would  like  to  program  the  Flaperon  Mixing  function  for. Choose from FN, F1 or F2.IMPORTANT Adjusting the Flaperon4Left Aileron and Flaperon4Right Aileron percentage values changes the percentage of Flaperon travel in relation to the Flap channel End Point Adjustment percentage value. For example, if the Flap Switch '1' End Point Adjustment percentage value is set to 100% and the Flaperons move down 2", changing the Flaperon4Left Aileron and Flaperon4Right Aileron percentage values to 50% will cause the Flaperons to move down 1". In addition, changing the Flaperon4Left Aileron and Flaperon4Right Aileron percentage values to -50% will cause the Flaperons to move up 1" (Spoilerons). Changing Flaperon Mixing Percentage ValuesFLAPERON setting range is -100% to 100%. The default setting is 0% (OFF). When the percentage value is increased from 0% to 100%, Flaperon travel will increase in one direction. When the percentage value is decreased from 0% to -100%, Flaperon travel will increase in the opposite direction.1) Press the Navigation Pad 6to highlight FL4LA>0%, then press the INC+/M1 or DEC-/M2 keys to change the Flaperon4Left Aileron Mixing percentage value.2) Press the Navigation Pad 6to highlight FL4RA>0%, then press the INC+/M1 or DEC-/M2 keys to change the Flaperon4Right Aileron Mixing percentage value.17.FL4EL (FLaP TO ELEvaTOR MiXing)The Flap to Elevator Mixing function allows you to mix a percentage of elevator control with ap control. When you move the aps up and down, the elevator will move up and down. The Flap to Elevator Mixing function is typically used to reduce the ballooning tendency that most aircraft exhibit when the aps are lowered. The amount and the direction that the elevator moves with ap control is adjusted by changing the Flap to Elevator mixing percentage value either positive or negative.For greater exibility, the Flap to Elevator Mixing function can be programmed either the same for all Flight Modes or separately for each of the three Flight Modes.In the majority of cases, you will want to program the Flap to Elevator Mixing function to move the elevator down enough to minimize ballooning when the aps are lowered.Programming F-MODETransmitter F-MODETransmitter F-MODE refers to the Flight Mode that the transmitter is currently operating in. Programming F-MODE refers to the Flight Mode that you would like to change the programming for.AERO MODEL TYPE
Page 42aERO MODEL TyPEChoosing the Flight Mode - Common or Separate1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight FL4EL, then press the ENTER key to display the FL4EL menu. The cursor will default to FL4EL>0%.The channel options displayed will differ based on the Model Type selection options you chose previously. For example, if you chose TAIL>2xEL in the TYPE menu, FL4LE (Left Elevator) and FL4RE (Right Elevator) percentage values can be changed separately.3) Press the Navigation Pad 5to move the cursor to F-MODE>COMMON.4) Press the INC+/M1 or DEC-/M2 keys to choose either SEPARATE or COMMON.17.FL4EL (FLaP TO ELEvaTOR MiXing), cOnTinUED....Changing Flap to Elevator Mixing Percentage ValuesFL4EL setting range is -100% to 100%. The default setting is 0% (OFF). When the percentage value is increased from 0% to 100%, elevator travel will increase in one direction in relation to flap travel. When the percentage value is decreased from 0% to -100%, elevator travel will increase in the opposite direction in relation to ap travel.The  Flap4Elevator  Mixing  percentage  value  is  a  ratio  of  elevator travel to ap travel. For example, when the Flap4Elevator Mixing percentage value is set to 10%, the elevator will travel 1/10th the amount that the aps travel. This mix is Linear.1) Press the Navigation Pad  6to highlight FL4EL>0%, then press the INC+/M1 or DEC-/M2 keys to change the Flap4Elevator Mixing percentage value.18.DUaL EL (DUaL ELEvaTOR MiXing EnD POinT aDjUSTMEnT)The Dual Elevator Mixing End Point Adjustment function allows you to adjust the servo travel of each elevator servo independently while the Dual Elevator Mixing option is Active. In some cases, when you use two separate elevator servos, minor differences in control linkage geometry can result in one elevator half deecting more in one or both directions than the other elevator half. The Dual Elevator Mixing End Point Adjustment function allows you to reduce the control deection of one or both elevator halves in either direction to ensure that both elevator halves deect exactly the same amount.For greater exibility, the Dual Elevator Mixing End Point Adjustment function can be programmed either the same for all Flight Modes or separately for each of the three Flight Modes.5) If you choose SEPARATE, press the F-MODE key to choose the F-MODE number you would like to program the Flap to Elevator Mixing function for. Choose from FN, F1 or F2.IMPORTANT Depending on the specic orientation of your elevator control linkages, in order for the Dual Elevator Mixing function to work as intended, one of the elevator servos may need to be reversed (using the NOR/REV setting in the REVERSE menu), so that both control surfaces move Up and Down together using the elevator control stick.
Page 43aERO MODEL TyPEProgramming F-MODETransmitter F-MODETransmitter F-MODE refers to the Flight Mode that the transmitter is currently operating in. Programming F-MODE refers to the Flight Mode that you would like to change the programming for.18.DUaL EL (DUaL ELEvaTOR MiXing EnD POinT aDjUSTMEnT), cOnTinUED....IMPORTANT To be able to access the DUAL EL menu and program the Dual Elevator End PointAdjustment function, your aircraft must feature two separate elevator servos and you must choose the TAIL>2xEL Model Type selection option in the TYPE menu.Choosing the Flight Mode - Common or Separate1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the  Navigation  Pad  56 to  highlight  DUAL EL,  then  press  the ENTER key  to  display the DUAL EL menu. The cursor  will  default to LE-D>80%.3) Press the Navigation Pad 5to move the cursor to F-MODE>COMMON.4) Press the INC+/M1 or DEC-/M2 keys to choose either SEPARATE or COMMON.5) If you choose SEPARATE, press the F-MODE key to choose the F-MODE number you would like to program the Dual Elevator Mixing End Point Adjustment function for. Choose from FN, F1 or F2.Changing Dual Elevator Mixing End Point Adjustment Percentage ValuesBoth the Up and Down, and the Right and Left elevator percentage values can be changed separately. Prior to changing the Dual Elevator Mixing End Point Adjustment percentage values, you should adjust the elevator End Point Adjustment percentage values in the EPA menu to achieve the desired maximum amount of control deection in both directions. You can then lower the required Dual Elevator Mixing End Point Adjustment percentage values to equalize the control deection of both elevator halves in both directions.1) Press the Navigation Pad 56 to highlight the desired elevator servo and direction of travel you would like to change the Dual Elevator Mixing End  Point Adjustment  percentage  value  for.  For  example,  if  the  Left elevator half  moves Up more than  the Right elevator half  moves Up, you would decrease the LE-U>80% (Left Elevator-Up) percentage value. 2) Press the INC+/M1 or DEC-/M2 keys to set the desired Dual Elevator Mixing End Point Adjustment percentage value.DUAL EL setting range is 100% to 0%. The default setting is 80%. Decreasing the Dual Elevator Mixing End Point Adjustment percentage value will decrease the movement for that specic elevator half and direction of travel.AERO MODEL TYPE
Page 44aERO MODEL TyPE19.aiLvaTOR (aiLvaTOR/TaiLEROn MiXing)The Ailvator Mixing function mixes ailerons and elevator, allowing you to have both roll control and pitch control on the elevator, separate from the ailerons. When Activated, not only will the two elevator halves move up and down together, but each elevator half can move up and down independently like ailerons. This function is commonly referred to as tailerons (or stabilators), and is normally found on aircraft that feature full-ying stabilizers.For greater exibility, the Ailvator Mixing function can be programmed either the same for all Flight Modes or separately for each of the three Flight Modes.Transmitter F-MODE refers to the Flight Mode that the transmitter is currently operating in. Programming F-MODE refers to the Flight Mode that you would like to change the programming for.IMPORTANT To be able to access the AILVATOR menu and program the Ailvator Mixing function, your aircraft must feature two separate elevator servos and you must choose the TAIL>2xEL Model Type selection option in the TYPE menu. In addition, depending on the specic orientation of your elevator control linkages, in order for the Ailvator Mixing function to work as intended, one of the elevator servos may need to be reversed (using the NOR/REV setting in the REVERSE menu), so that both control surfaces move Up and Down together using the elevator control stick.Programming F-MODETransmitter F-MODEChoosing the Flight Mode - Common or Separate1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight AILVATOR, then press the ENTER key to display the AILVATOR menu. The cursor will default to AI4LE>0%.3) Press the Navigation Pad 5to move the cursor to F-MODE>COMMON.4) Press the INC+/M1 or DEC-/M2 keys to choose either SEPARATE or COMMON.5) If you choose SEPARATE, press the F-MODE key to choose the F-MODE number  you  would  like  to  program  the  Ailvator  Mixing  function  for. Choose from FN, F1 or F2.Changing Ailvator Mixing Percentage Values1) Press the Navigation  Pad  6to  highlight AI4LE>0%,  then  press the INC+/M1 or DEC-/M2 keys to change the Aileron4Left Elevator Mixing percentage value.2) Press the  Navigation Pad 6to highlight AI4RE>0%, then  press the INC+/M1 or DEC-/M2 keys to change the Aileron4Right Elevator Mixing percentage value.
Page 45aERO MODEL TyPEAILVATOR setting range is -100% to 100%. The default setting is 0% (OFF). Adjusting the Ailvator Mixing percentage values will change the ratio of elevator roll travel to elevator pitch travel. For example, when the Aileron4Left Elevator and the Aileron4Right Elevator percentage values are both set to 50%, the elevator roll travel will be half the amount of the elevator pitch travel at any given control stick position. This mix is Linear.Setting one Ailvator Mixing percentage value opposite of the other Ailvator Mixing percentage value will cause both elevator servos to move together when the elevator/aileron control stick is moved in both the up and down, and the right and left directions.Changing Ailvator Mixing Percentage Values, Continued....20.v-TaiL (v-TaiL MiXing EnD POinT aDjUSTMEnT)The V-Tail Mixing End Point Adjustment function allows you to adjust the servo travel of the elevator and rudder servos independently while the V-Tail Mixing option is Active. In some cases, minor differences in the control linkage geometry can result in unequal control deection. The V-Tail Mixing End Point Adjustment function allows you to equalize control deection, and in addition, allows you the ability to change the control deection amount of each servo in both directions. This allows greater exibility in making control surface adjustments versus using the elevator and rudder channel End Point Adjustments in the EPA menu.IMPORTANT To be able to access the V-TAIL menu and program the V-Tail Mixing End Point Adjustment function, you must choose the TAIL>V-TAIL Model Type selection option in the TYPE menu. In addition, depending on the specic orientation of your control linkages, in order for the V-Tail Mixing function to work as intended, one of the servos may need to be reversed (using the NOR/REV setting in the REVERSE menu) so that both control surfaces move Up and Down together using the elevator control stick.2) Press  the  Navigation  Pad  56 to  highlight  V-TAIL,  then  press  the ENTER key to display the V-TAIL menu. The cursor will default to EL(DOWN) EL>80%.Changing V-Tail Mixing End Point Adjustment Percentage Values - Elevator Up and DownPrior to changing the V-Tail Mixing End Point Adjustment percentage values, you should rst adjust the elevator and rudder channel End Point Adjustment percentage values in the EPA menu to achieve the desired maximum amount of control deection in all four directions (elevator Up and Down, and rudder Right and Left), then use the V-Tail Mixing End Point Adjustment function to ne-tune the servo travel of each servo independently.3) Press the Navigation Pad 5634 to highlight the desired servo (EL or RU) and direction of travel (DOWN or UP) you would like to change the V-Tail Mixing End Point Adjustment percentage value for. For example, if the Rudder servo moves Up more than the Elevator servo moves Up when you move the elevator control stick, you would decrease the EL(UP) RU>80% percentage value.4) Press the INC+/M1  or DEC-/M2 keys to set the desired V-Tail Mixing End Point Adjustment percentage value.V-TAIL EL (DOWN) and EL (UP) setting range is 100% to 0%. The default setting is 80%. Decreasing the V-Tail Mixing End Point Adjustment percentage value will decrease the movement for that specic servo and direction of travel. Increasing the V-Tail Mixing End Point Adjustment percentage value will increase the movement for that specic servo and direction of travel.1) From the Display screen, press the ENTER key to display the Programming Menus.5) Repeat the previous procedures to set the desired remaining V-Tail Elevator Mixing End Point Adjustment percentage values.AERO MODEL TYPE
Page 46aERO MODEL TyPE21.DELTa (DELTa MiXing EnD POinT aDjUSTMEnT)Changing V-Tail Mixing End Point Adjustment Percentage Values - Rudder Right and Left1) Press the  Navigation  Pad  6to  scroll down to display  V-TAIL RU (L) and RU (R).2) Press the Navigation Pad 5634 to highlight the desired servo (EL or RU) and direction of travel (L or R) you would like to change the V-Tail Mixing End Point Adjustment percentage value for. For example, if the Elevator servo moves Right more than the Rudder servo moves Right when you move the rudder control stick, you would decrease the RU (R) EL>80% percentage value.   3) Press the INC+/M1 or DEC-/M2 keys to set the desired V-Tail Mixing End Point Adjustment percentage value.V-TAIL RU (L) and RU (R) setting range is 100% to 0%. The default setting is 80%. Decreasing the V-Tail Mixing End Point Adjustment percentage value will decrease the movement for that specic servo and direction of travel. Increasing the V-Tail Mixing End Point Adjustment percentage value will increase the movement for that specic servo and direction of travel.20.v-TaiL (v-TaiL MiXing EnD POinT aDjUSTMEnT), cOnTinUED....The Delta Mixing End Point Adjustment function allows you to adjust the servo travel of the elevator and aileron servos independently while the Delta Mixing option is Active. In some cases, minor differences in the control linkage geometry can result in unequal control deection. The Delta Mixing End Point Adjustment function allows you to equalize control deection, and in addition, allows you the ability to change the control deection amount of each servo in both directions. This allows greater exibility in making control surface adjustments versus using the elevator and aileron channel End Point Adjustments in the EPA menu.IMPORTANT To be able to access the DELTA menu and program the Delta Mixing End Point Adjustment function, you must choose the WING>DELTA Model Type selection option in the TYPE menu. In addition, depending on the specic orientation of your control linkages, in order for the Delta Mixing function to work as intended, one of the servos may need to be reversed (using the NOR/REV setting in the REVERSE menu) so that both control surfaces move Up and Down together using the elevator control stick.Changing Delta Mixing End Point Adjustment Percentage Values - Elevator Up and DownPrior to changing the Delta Mixing End Point Adjustment percentage values, you should rst adjust the elevator and aileron channel End Point Adjustment percentage values in the EPA menu to achieve the desired maximum amount of control deection in all four directions (elevator Up and Down, and Aileron Right and Left), then use the Delta Mixing End Point Adjustment function to ne-tune the servo travel of each servo independently.1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press  the  Navigation  Pad  56 to  highlight  DELTA,  then  press  the ENTER key to display the DELTA menu. The cursor will default to EL(DOWN) EL>80%.4) Repeat the previous procedures to set the desired remaining V-Tail Rudder Mixing End Point Adjustment percentage values.
Page 47aERO MODEL TyPE3) Press the Navigation Pad 5634 to highlight the desired servo (ELor AI) and direction of travel (DOWN or UP) you would like to change the Delta Mixing End Point Adjustment percentage value for. For example, if the Elevator servo moves Up more than the Aileron servo moves Up when you move the elevator control stick, you would decrease the EL(UP) EL>80% percentage value.4) Press the INC+/M1  or DEC-/M2 keys to set the desired V-Tail Mixing End Point Adjustment percentage value.DELTA EL (DOWN) and EL (UP) setting range is 100% to 0%. The default setting is 80%. Decreasing the Delta Mixing End Point Adjustment percentage value will decrease the movement for that specic servo and direction of travel. Increasing the Delta Mixing End Point Adjustment percentage value will increase the movement for that specic servo and direction of travel.Changing Delta Mixing End Point Adjustment Percentage Values - Elevator Up and Down, Continued....Changing Delta Mixing End Point Adjustment Percentage Values - Aileron Right and Left1) Press the Navigation Pad 6to scroll down to display DELTA AI (L) and AI (R).2) Press the Navigation Pad 5634 to highlight the desired servo (ELor AI) and direction of travel (L or R) you would like to change the Delta Mixing End Point Adjustment percentage value for. For example, if the Elevator servo moves Right more than the Aileron servo moves Right when you move the aileron control stick, you would decrease the RU (R) EL>80% percentage value.   3) Press the INC+/M1 or  DEC-/M2 keys to set the desired Delta  Mixing End Point Adjustment percentage value.DELTA AI (L) and AI (R) setting range is 100% to 0%. The default setting is 80%. Decreasing the Delta Mixing End Point Adjustment percentage value will decrease the movement for that specic servo and direction of travel. Increasing the Delta Mixing End Point Adjustment percentage value will increase the movement for that specic servo and direction of travel.22. & 23.c-MiX1 anD c-MiX2 (cOMPEnSaTiOn MiXing)The Compensation Mixing function is used to create your own custom mix if one of the pre-programmed mixes is not suitable. For example, you can create a custom mix that mixes aperons and spoilerons to elevator, so that when you move the elevator up and down, both ailerons will move up and down, providing near-instantaneous extreme pitch changes while still enabling aileron roll control. Another example would be to mix aileron to rudder, so that when you move the ailerons right and left, the rudder will move right and left, resulting in a coordinated turn. Like with pre-programmed mixes, Compensation Mixes are composed of a Master channel and a Slave channel. Any of the available six channels can be programmed as a Master or a Slave. The same channel can even be programmed as both a Master and a Slave. For example, if you want to program throttle Dual Rate, you can set both the Master and the Slave to throttle, then adjust the High and Low Rate percentage values to provide the amount of travel you want when the Compensation Mixing function is Activated. In addition to programming the High and Low Rate percentage values, the Slave channel Offset percentage value can be changed to move the neutral point of the Slave channel servo when the Compensation Mixing function is Activated.For greater exibility, both Compensation Mixing functions can be programmed either the same for all Flight Modes or sepa-rately for each of the three Flight Modes.AERO MODEL TYPE
Page 48Two Compensation Mixing functions are available, however, only one Compensation Mixing function can be Active at one time. If  F-MODE  is  set  to  COMMON, both Compensation  Mixing  functions  will  controlled  by the Compensation  Mixing switch and Compensation Mixer 2 will always override Compensation Mixer 1. If F-MODE is set to SEPARATE, you can control one Compensation Mixing function using the Compensation Mixing switch and control the second Compensation Mixing function (programmed to a different Flight Mode) using a Flight Mode switch, however, keep in mind that higher numbered Flight Modes will always override lower numbered Flight Modes.aERO MODEL TyPE22. & 23.c-MiX1 anD c-MiX2 (cOMPEnSaTiOn MiXing), cOnTinUED....Transmitter F-MODE refers to the Flight Mode that the transmitter is currently operating in. Programming F-MODE refers to the Flight Mode that you would like to change the programming for.Programming F-MODETransmitter F-MODEChoosing the Flight Mode - Common or Separate1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight either C-MIX1 or  C-MIX2, then press the ENTER key to display the C-MIX1 or C-MIX2 menu. The cursor will default to MASTER>EL.3) Press the Navigation Pad 5to move the cursor to F-MODE>COMMON.4) Press the INC+/M1 or DEC-/M2 keys to choose either SEPARATE or COMMON.5) If you choose SEPARATE, press the F-MODE key to choose the F-MODE number you would like to program the Compensation Mixing function for. Choose from FN, F1 or F2.Choosing the Master ChannelThe Master channel is the channel that controls the Slave channel. For example, if you set the Master channel to EL (Elevator), when you move the elevator control stick, the Slave channel that's mixed to the elevator channel will move.1) Press the Navigation Pad 6to highlight MASTER>EL, then press the INC+/M1 or DEC-/M2 keys to change the desired Master channel.MASTER setting range is EL (Elevator), AI (Aileron), TH (Throttle), RU (Rudder), GE (Gear), and FL (Flap). The default setting is EL (Elevator).In all cases, the Master channel always controls the Slave channel.
Page 49aERO MODEL TyPE22. & 23.c-MiX1 anD c-MiX2 (cOMPEnSaTiOn MiXing), cOnTinUED....Choosing the Slave ChannelThe Slave channel is the channel that is controlled by the Master channel. For example, if you set the Master channel to EL(Elevator) and the Slave channel to AI (Aileron), when you move the elevator control stick, the ailerons will move.1) Press  the  Navigation  Pad  6to  highlight  SLAVE>EL,  then  press  the INC+/M1 or DEC-/M2 keys to change the desired Slave channel.SLAVE  setting  range  is  EL (Elevator), AI  (Aileron),  TH  (Throttle),  RU (Rudder), GE (Gear), and FL (Flap). The default setting is EL (Elevator).Changing the Rate High and Rate Low Percentage ValuesBy changing the Rate High and Rate Low percentage values, you can program which direction the Slave channel servo travels in relation to the Master channel servo, and program how far the Slave channel servo travels relative to how far the Master channel servo travels.1) Press the Navigation Pad 6 to highlight RATE Hi>0%.2) Press the INC+/M1 or DEC-/M2 keys to change the Rate High Percentage value.RATE Hi and RATE Lo setting ranges are -150% to 150%. The default settings are 0%. Increasing or decreasing the Rate High and Rate Low percentage values will change the direction that the Slave channel servo travels and the amount that it travels relative to the Master channel servo.The Rate High and Rate Low percentage values are a ratio of Slave channel servo travel to Master channel servo travel. For example, if the Rate High percentage value is set to 10%, the Slave channel servo will travel 1/10th the amount in one direction that the Master channel servo travels. This mix is Linear.3) Press the Navigation Pad 6 to highlight RATE Lo>0%.4) Press the INC+/M1 or DEC-/M2 keys to change the Rate Low Percentage value.WARNING When a Compensation Mixer is Activated, you still have separate control over the Slaved channel, however, depending on the Rate High and Rate Low percentage values, the Slave channel End Point Adjustment could be exceeded. Be cautious to prevent any chance of overdriving your control linkage when the Compensation Mixing function is used.IMPORTANT When the Throttle channel is programmed as the Master channel, the Slave channel servo will not begin to move relative to the position of the throttle control stick until the throttle control stick reaches half throttle and above. Once the throttle control stick reaches half throttle, the Slave channel servo will begin to move. If you require the Slave channel servo to move from Low throttle to High throttle, program the Compensation Mixer as shown in this example: MASTER>TH, SLAVE>RU, Rate Hi>25%, RATE Lo>25%, OFFSET>-25%.AERO MODEL TYPE
Page 5024.SX MOniTOR (SERvO MOniTOR)The Servo Monitor displays the output levels of each of the 6 channels in bar graph form, allowing you to monitor servo operation in a virtual manner. This is helpful to see servo movement when the control sticks and switches are moved, and it allows you to visualize what is occurring with servo movements when you apply different mixing values. The Servo Monitor also indicates which channel slots in the receiver to plug your servos into (1 EL, 2AI, 3TH, 4RU, 5GE, and 6FL).The channels displayed on the Servo Monitor will vary based on the Model Type selection options chosen in the TYPE menu. For example, if you chose TAIL>2xEL and AILE>2 in the TYPE menu, LE (Left Elevator), RE (Right Elevator), LA(Left Aileron), and RA (Right Aileron) will be displayed along with the corresponding receiver channel slot numbers.aERO MODEL TyPECompensation Mixing Sample - Mixing Elevator to Flaperons/SpoileronsThe sample below describes how to mix elevator to aperons using Compensation Mixer 1 and control it using the Compensation Mixing switch. This mix is common for use in 3D aerobatic aircraft where you want both ailerons to move up and down with the elevator, yet still maintain full roll control. In order to use this mix, your aircraft must feature two separate aileron servos and you must choose AILE>2 in the TYPE menu.1) From within the FLAPERON menu, set the desired FL4LA> and FL4RA> percentage values. We suggest adjusting the percentage values to achieve the maximum desired aperon control throw when the Flap switch is Activated.In this example, the Master channel is the Elevator channel and the Slave channel is the Flap channel. The RATE Hi and RATE Lo percentage values dene how far Up and Down the both ailerons will move together, and is a percentage of the FL4LA and FL4RApercentage values you previously programmed in the FLAPERON menu. To Activate this mix, Activate Compensation Mixer 1 by pulling the Compensation Mixer switch down. It's not necessary to use the Flap control switch when using this mix.1) Press the Navigation Pad 6 to highlight OFFSET>0%.2) Press the INC+/M1 or DEC-/M2 keys to change the Offset Percentage value.OFFSET setting range is -100% to 100%. The default setting is 0%. Increasing the Offset percentage value will shift the neutral position of the Slave servo in one direction and decreasing the Offset percentage value will shift the neutral position of the Slave servo in the opposite direction.MASTER>ELSLAVE>FLRATE Hi>50%RATE Lo>50%OFFSET>0%The positive and negative values shown in the example may vary based on the NOR/REV status of your aileron and elevator servos. You may need to change the percentage values to suit.2) Program the Compensation Mixer 1 options from the within the C-MIX1 menu, as shown at right.Using the Servo Monitor1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight SX MONITOR, then press the ENTER key to display the Servo Monitor.3) Moving the control sticks and channel switches will display the position and movement of each of the servos.Changing the Offset Percentage ValueThe Offset percentage value changes the neutral position of the Slave channel servo when the Compensation Mixing function is Activated. For example, when an Offset percentage value is programmed, the Slave channel servo neutral position and its two End Point positions will 'shift' the programmed amount.
Page 51hELi MODEL TyPE cOnTEnTSGeneral Information ......................................................................................................................................................... Page 52HELI Model Type Menu Flow Chart................................................................................................................................. Page 52HELI Model Type Transmitter Layout ............................................................................................................................. Page 53MODEL SELE (Model Select)........................................................................................................................................... Page 53MODEL NAME (Model Naming)....................................................................................................................................... Page 54TYPE (Model Type) ........................................................................................................................................................... Page 55TRAINER (Trainer System) .............................................................................................................................................. Page 57STOP WATCH (Stop Watch and Count Up Timer).......................................................................................................... Page 58DATA COPY (Model Programming Data Copy) .............................................................................................................. Page 59DATA RESET (Model Programming Data Reset) ........................................................................................................... Page 60REVERSE (Servo Reversing)........................................................................................................................................... Page 61CENTER (Servo Centering Sub-Trim)............................................................................................................................. Page 61EPA (End Point Adjustment)............................................................................................................................................ Page 63CP-EPA (CCPM End Point Adjustment).......................................................................................................................... Page 64SWASH (Swashplate Setup) ............................................................................................................................................ Page 64TH-CUT (Throttle Cut) ...................................................................................................................................................... Page 65D/R & EXP (Dual Rate and Exponential)......................................................................................................................... Page 66TRIM (Digital Trim)............................................................................................................................................................ Page 69TH-CURVE (Throttle Curve)............................................................................................................................................. Page 69PI-CURVE (Pitch Curve)................................................................................................................................................... Page 72REVO-MIX (Revolution Mixing) ....................................................................................................................................... Page 74GYRO (Remote Gyro Control) ......................................................................................................................................... Page 75C-MIX1 (Compensation Mixing 1).................................................................................................................................... Page 77C-MIX2 (Compensation Mixing 2).................................................................................................................................... Page 77SX MONITOR (Servo Monitor) ......................................................................................................................................... Page 80HELI MODEL TYPE
Page 52hELi MODEL TyPEhELi MODEL TyPE PROgRaMMing MEnU FLOw chaRTUse this Flow Chart to familiarize yourself with the HELI Model Type Programming Menu structure. Descriptions regarding all HELI  Model Type functions  and programming are found on  pages 53 through 80.04.TRAINER03.TYPE02.MODEL NAME01.MODEL SELE05.STOP WATCH06.DATA COPY07.DATA RESET08.REVERSE09.CENTER10.EPA6666666666HELI AERO66To access the HELI Model Type Programming Menus, turn the transmitter ON. A helicopter icon will be shown on the Display screen. From the Display screen, press the ENTER key to display the Programming Menus, then press the Navigation Pad 56to scroll to the desired Programming Menu. Press the ENTER key to access the desired Programming Menu.gEnERaL inFORMaTiOnFrom within any Programming Menu, press the END/M3 key continuously to return to the Display screen. If the Display screen is not displayed when you turn the transmitter ON, continuously press the END/M3 key until the Display screen is displayed.If a helicopter icon is not shown on the Display screen, use the Model Select function to select a HELI model. For more information, see page 53.INH MASTER66SLAVE6NOR REV66MIN SEC661/10611.CP-EPA12.SWASH6613.TH-CUT14.D/R & EXP15.TRIM16.TH-CURVE17.PI-CURVE18.REVO-MIX19.GYRO20.C-MIX121.C-MIX222.SX MONITOR666666666D/R [1] - D/R [2] EXP [1] - EXP [2]66COMMON SEPARATE66HOLD POINT66POINT RATE66HIGH LOW66GYRO [1] GYRO [2]66MASTER SLAVE66RATE HIGH / RATE LOW6OFFSET6MASTER SLAVE66RATE HIGH / RATE LOW6OFFSET6TH-TRIM LOCK (F1)6Unless otherwise noted, all programming changes take effect immediately.
Page 53hELi MODEL TyPEThe diagram below shows the transmitter control stick and switch layout in the HELI Model Type conguration.IMPORTANT Since each of the three Flight Modes can be programmed separately, before making programming changes, verify that you are in the Flight Mode you want to make programming changes to. To avoid confusion, we suggest leaving both Flight Mode switches pushed away from you (OFF) and use the F-MODE key from within the programming menus to choose which Flight Mode you would like to make programming changes to.hELi MODEL TyPE TRanSMiTTER LayOUTWhen any switch is moved into the Up or Forward position (pushed away from you), this is considered the OFF position. When moved into the Down or Back position (pulled toward you), this is considered the ON position.01.MODEL SELE (MODEL SELEcT)The Model Select function allows you to load the Programming Data for the particular model you wish to y. The MODEL SELECTmenu displays the currently selected model, along with a list of available models that can be selected. The specic Model Type (AERO or HELI) is displayed for each of the models. The TM-160 can store Programming Data for up to 10 different models.Selecting a Model1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight MODEL SELE, then press the ENTER key to display the MODEL SELECT menu. The currently selected model in the Model Select List will be highlighted.
Page 54hELi MODEL TyPEIn the default conguration, the Model Select List contains 5 AERO Model Types and 5 HELI Model Types. The Model Type for any of the 10 models in the Model Select List can be changed using the TYPE menu. For more Information, see page 55.When you press the ENTER key to select a model, the Programming Data for that model will be loaded immediately.Selecting a Model, Continued....3) Press the Navigation Pad 56 to highlight the model you would like to select, then press the ENTER key to select the highlighted model. That model will be displayed above the Model Select List.Using the Direct Model Select FunctionThe Direct Model Select function allows you to select one of rst three models from memory without going through the MODELSELECT menu. This makes it much quicker and easier to load the Programming Data for your three most-used models.Before ying, verify that the Model Name displayed at the top of the Display screen is the actual model that you'll be ying.1) Turn the transmitter OFF.2) Press and HOLD the programming key of the model you wish to setup or y, then turn the transmitter ON. The Model Name will be displayed at the top of the Display screen.INC+/M1 selects Model 1, DEC-/M2 selects Model 2, and END/M3 selects Model 3.02.MODEL naME (MODEL naMing)The Model Naming function allows you to name each of the 10 individual models. This makes it easy to keep track of multiple models. The Model Name can consist of up to 8 letters, numbers, or symbols. Choose from capital letters, lower case letters, numbers, and various symbols.Entering a Model Name1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight MODEL NAME, then press the ENTER key to display the MODEL NAME menu. The cursor will default to the left side of the top row of letters and an underscore will appear under the rst character in the name.A model must be selected before a Model Name can be entered or modied. In the default conguration, M01:SANWA-1 is selected. To enter a Model Name for another model, that model must rst be selected using the MODEL SELECT menu or the Direct Model Select function. For more information, see the 01.MODEL SELECT section on page 53.Press the Navigation Pad 56 repeatedly to scroll up and down the list of characters. In addition, press the INC+/M1 and DEC-/M2 keys to move the underscore left and right respectively.3) Press the Navigation Pad 5634 to highlight a character, then press the ENTER key to select the highlighted character. That character will be displayed and the underscore will move to the next space.4) Repeat step 3 to enter the rest of the characters. Up to eight characters can be entered. The name of your model will be displayed on the top of the Display screen.
Page 55hELi MODEL TyPEDeleting a Character1) Press the INC+/M1 or DEC-/M2 keys to move the underscore under the character you want to erase.2) Press the Navigation Pad 5634 to highlight the Erase Bracket  , then press the ENTER key to erase the underscored character.Deleting a Model Name1) Press the INC+/M1 and DEC-/M2 keys at the same time to move the underscore under the rst character.2) Press the Navigation Pad 5634 to highlight the Erase Bracket , then press the ENTER key repeatedly to erase the entire Model Name.02.MODEL naME (MODEL naMing), cOnTinUED....03.TyPE (MODEL TyPE)The Model Type function allows you to quickly set up the transmitter's low-level mixing based on the type of model you're ying. Common templates for HELI and AERO Model Types are provided. For example, if your model features CP3F swashplate mixing,  choosing  the  CP3F  option will  automatically  change  the  transmitter's programming  to  accommodate  this setup. This takes the guess-work out of setting up your model.WARNING The Model Type function is used when setting up a new model and should be done prior to making any programming changes to your model. When Model Type selection options are changed for the currently selected model, all programming (including custom programming) for that model will be reset.2) Press the Navigation Pad 56 to highlight TYPE, then press the ENTER key to display the TYPE menu. The cursor will default to >HELI or >AERO depending on the particular model you've selected. 3) If the current Model Type is >AERO, press the INC+/M1 or DEC-/M2 keys to change the selection option to >HELI.Changing the Model Type1) From the Display screen, press the ENTER key to display the Programming Menus.Making HELI Swashplate Type Selection OptionsChoose the HELI Swashplate Type that suits your helicopter. There are three basic Swashplate Types available:Normal - In this conguration the swashplate does not control pitch. It only controls right, left, fore, and aft cyclic. Usually the servos are installed 90º apart but do not mix with collective to control pitch. This conguration is generally used for xed-pitch helicopters or helicopters that have a completely separate control system to control collective pitch.3-Point CCPM - In this conguration the cyclic and collective controls are mixed. The servos that control the swashplate are installed either 120º or 140º apart, depending on the conguration.4-Point CCPM - In this conguration the cyclic and collective controls are mixed. The servos that control the swashplate are installed 90º apart.Receiver channel slot assignments will change based on the Swashplate Type selection options chosen. To verify which receiver channel slots to plug your servos into, navigate to the SX MONITOR menu after saving your Swashplate Type selection options. For more information, see page 80.1) From within the TYPE menu, verify that >HELI is displayed. If >AERO is displayed, change the Model Type to HELI by following the steps in the Changing the Model Type section above.HELI MODEL TYPE
Page 56hELi MODEL TyPEMaking HELI Swashplate Type Selection Options, Continued....2) Press the Navigation Pad 6to highlight SWASH>NORMAL.3) Press the INC+/M1 or DEC-/M2 keys to change the Swashplate Type selection option. When a Swashplate Type selection option is changed, ENTER will ash in the Programming Window.WARNING There are a number of different Swashplate Type selection options available. Make sure that the Swashplate Type selection option you choose matches exactly the Swashplate Type used by your helicopter. Refer to your helicopter's Operating Manual for more information.The following Swashplate Type selection options are available. The diagrams display the swashplate geometry, the number of servos used, and the specic placement of those servos. 120º, 90º, and 1:1* refers to the physical relationship and geometry of the servo placements on the swashplate.> NORMAL: Non-CCPM > CP3F 120º with 3 Servos > CP3B 120º with 3 Servos> CP3L 120º with 3 Servos > CP3R 120º with 3 Servos> CP3FS 1:1* with 3 Servos (2 Offset) > CP3BS 1:1* with 3 Servos (2 Offset)> CP4F 90º with 3 Servos> CP4B 90º with 3 Servos*1:1 is sometimes referred to as 140º.If you want to go back and change the settings or if you don't want to create the new settings for any reason, press the DEC-/M2 or END/M3 keys.Saving Model Type Selection Options1) After  making  your  choices,  press  the  ENTER  key.  CREATE  NEW DATA? will be displayed and INC+ will ash in the Programming Window.2) Press the INC+/M1 key to Create New Data. After ~10 seconds, the new Programming Data will be loaded into the transmitter as indicated by the progress bar, and COMPLETE!! will be displayed in the Programming Window. Press any key to return to the TYPE menu.
Page 57hELi MODEL TyPE04.TRainER (TRainER SySTEM)The TM-160 transmitter features a Trainer System that allows you to connect two TM-160 transmitters to one another or connect one TM-160 transmitter to one SD-5G transmitter or to one SD-10G transmitter for the purpose of training a new pilot or for training a more experienced pilot on a new model. During use, one transmitter acts as the Master (Instructor) and the other transmitter acts as the Slave (Student). The Instructor controls the Student's model as long as the Trainer switch is released. For example, once the Instructor maneuvers the model to a safe altitude, the Instructor pulls and holds the Trainer switch to give control of the model to the Student. The Student will have control of the model as long as the Instructor holds the Trainer switch. Once the Trainer switch is released, the Instructor will have control of the model once again. If at any time the Instructor feels that the Student is in a situation that endangers the model, the Instructor releases the Trainer switch and control of the model returns instantly to the Instructor.IMPORTANT INFORMATION ABOUT THE TRAINER SYSTEMlThe Trainer System is currently compatible ONLY with another TM-160 transmitter or an SD-5G or SD-10G transmitter and you MUST use the Airtronics 97107 Trainer Cable. See your local Airtronics dealer for more information and availability.lDuring use, both the Master transmitter and the Slave transmitter should be turned ON. If using an SD-10G transmitter as the Slave transmitter, to save battery power only the transmitter LCD needs to be turned ON, using the DISPLAY key.lBoth transmitters must be programmed identically for the Trainer System to function properly. For example, Servo Reversing, End Point Adjustments, etc. must be identical. In addition, the Instructor transmitter Trainer System function must be set to MASTER and the Student transmitter Trainer System function must be set to SLAVE.If using the Trainer System with an Airtronics SD-5G transmitter or an SD-10G transmitter, please refer to those transmitter's Operating Manuals for more information on the correct setup and use of those transmitter's Trainer functions.Connecting the Master and Slave Transmitters1) Turn both transmitters OFF.2) Plug one end of the Airtronics 97107 Trainer Cable (available separately) into the back of one TM-160 transmitter, then plug the other end of the Trainer Cable into the back of the second TM-160 transmitter or an SD-5G or SD-10G transmitter.Activating the Trainer Function - Master (Instructor) Transmitter1) Turn the Master (Instructor) transmitter ON. From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight TRAINER, then press the ENTER key to display the TRAINER menu. The cursor will default to >INH.3) Press  the  INC+/M1  key  to  change  the  current  transmitter's  Trainer mode to MASTER. >MASTER will be displayed.will be displayed on the Display screen, indicating that the transmitter is operating in MASTER mode.Activating the Trainer Function - Slave (Student) Transmitter1) Turn  the  Slave  (Student)  transmitter  ON.  From  the  Display  screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight TRAINER, then press the ENTER key to display the TRAINER menu. The cursor will default to >INH.HELI MODEL TYPE
Page 58hELi MODEL TyPEUsing the Trainer Function1) The Trainer Cable should be connected between the two transmitters and the Trainer function on both transmitters should be Activated as described previously. Both the Master (Instructor's) transmitter and the Slave (Student's) transmitter should be turned ON.will be displayed on the Display screen, indicating that the transmitter is operating in SLAVE mode.Activating the Trainer Function - Slave (Student) Transmitter, Continued....3) Press  the  INC+/M1  key  to  change  the  current  transmitter's  Trainer mode to SLAVE. >SLAVE will be displayed.05.STOP waTch (STOP waTch anD cOUnT UP TiMER)The Stop Watch function is used to either count down from a programmed Start time (Count Down mode) or to count up from zero if no Start time is programmed (Count Up mode). In Count Down mode, an audible tone will sound in 1 second intervals when the Stop Watch reaches 10 seconds from zero. When zero is reached, a long audible tone will sound and the Stop Watch will begin to count up. In Count Up mode, an audible tone will sound at 1 minute intervals to remind you that the count down time (zero) has been surpassed.The Stop Watch function has a number different uses, but one of the more popular uses is to use it as a fuel usage indicator to remind you to land within an allotted amount of time to ensure that your model doesn't run out of fuel. Setting the Stop Watch1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight STOP WATCH, then press the  ENTER  key  to  display  the  STOP WATCH  menu.  The  cursor  will default to MIN>00.2) Turn the receiver ON in the model you're using for training and verify that the Instructor's transmitter controls the model's control surfaces correctly.3) Activate the Trainer function by pulling and HOLDING the Trainer switch on the Instructor's transmitter continuously and verify that the Student's transmitter controls the model's control surfaces correctly.4) When the Trainer switch is released, the Instructor will have full control over the model. When the Trainer switch is pulled forward and held continuously, the Student has control over the model. As soon as the Trainer switch is released, the Instructor will have full control over the model once again.If using an SD-10G transmitter as the Slave transmitter, to save battery power only the transmitter LCD needs to be turned ON, using the DISPLAY key.3) The Minute, Second, and 1/10 Second times can be set independently. Press the Navigation Pad 56 to highlight the time interval you would like to  program,  then press the  INC+/M1  or DEC-/M2 keys to  set  the desired Start time.MIN setting range is 0 to 59', SEC setting range is 0 to 59" and 1/10 setting range is 0 to 90. The default setting for each is 0.
Page 59hELi MODEL TyPEThe Stop Watch is displayed in Minutes, Seconds, and 1/10 Seconds. 00' (Minutes) 00" (Seconds) 00 (1/10 Seconds).Using the Stop Watch1) Press the END/M3 key two times to return to the Display screen. The Start time that you programmed will be displayed.Using the Count Up TimerThe Stop Watch function can also be used as a Count Up timer when the Stop Watch is set to 00'00"00. When the Count Up timer runs, UP will be displayed on the Display screen and an audible tone will sound at 1 minute intervals.1) Set the Stop Watch Start time to 00'00"00 as described in the Setting the Stop Watch section above.2) To Start the Count Up timer, press the INC+/M1 key. To Stop the Count Up timer, press the INC+/M1 key a second time. To Reset the Count Up timer to 00'00"00, press the INC+/M1 and DEC-/M2 keys at the same time.2) To Start the Stop Watch, press the INC+/M1 key. To Stop the Stop Watch, press the DEC-/M2 key a second time. To Reset the Stop Watch to the programmed Start time, press the INC+/M1 and DEC-/M2 keys at the same time.05.STOP waTch (STOP waTch anD cOUnT UP TiMER), cOnTinUED....06.DaTa cOPy (MODEL PROgRaMMing DaTa cOPy)The Data Copy function allows you to copy the Programming Data from one model to another model. This is convenient if you have similar Model Types. For example, if you have two models that are similar, you can copy the Programming Data from the rst model to the second model to use as a base to start ne-tuning the programming for the second model.Copying Model Programming Data1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight DATA COPY, then press the ENTER key to display the DATA COPY menu. The cursor will default to the currently selected model, for example >06:SANWA-06 <HELI>.3) With the cursor adjacent to the top model number, press the INC+/M1 or DEC-/M2 keys to select the model you would like to copy Programming Data FROM. ENTER will ash in the Programming Window.HELI MODEL TYPE
Page 60hELi MODEL TyPECopying Model Programming Data, Continued....4) Press the Navigation Pad 6to move the cursor to the bottom model number, then press the INC+/M1 or DEC-/M2 keys to select the model you would like to copy Programming Data TO. ENTER will continue to ash in the Programming Window.It's not possible to copy Programming Data from one model to the same model. If you attempt this, ENTER will not ash.5) Press the ENTER key. DATA COPY OK? will be displayed and INC+ will ash in the Programming Window.6) Press the INC+/M1 key to Copy the model Programming Data. After ~10 seconds, the Programming Data will be copied as indicated by the progress bar, and COMPLETE!! will be displayed in the Programming Window. Press any key to return to the DATA COPY menu.All model-specic Programming Data, including the Model Name will be copied to the selected model.If you want to go back and change models or you don't want to copy the Programming Data for any reason, press the DEC-/M2 or END/M3 keys.07.DaTa RESET (MODEL PROgRaMMing DaTa RESET)The Data Reset function allows you to Reset model-specic Programming Data for any model back to the factory default settings. As described previously, individual programming settings can be Reset to the factory default settings by pressing the INC+/M1 and DEC-/M2 keys at the same time, however, this is time consuming if you want to change all of the selected model's programming settings back to default. Using the Data Reset function makes doing this much quicker and more accurate, since nothing will be missed.Although Model Type selection options are model-specic, the Data Reset function does NOT Reset them. This is useful if you have two similar models, but different programming needs for each. For example, if you have two similar models that use the same Swashplate Type (e.g., CP3FS) but different Programming Data (e.g., Dual Rates, End Point Adjustments, etc), you can copy the rst model's Programming Data, using the Data Copy function, then use the Data Reset function to Reset all of the Programming Data except Model Type selection options. This saves time by not needing to re-program Swashplate Type options.Resetting Model Programming Data1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the  Navigation Pad 56 to highlight  DATA RESET, then press the ENTER key to display the DATA RESET menu. The cursor will default  to  the  currently  selected  model,  for  example  >06:SANWA-06 <HELI> and ENTER will flash in the Programming Window.3) Press the INC+/M1 or DEC-/M2 keys to select the model you would like to Reset the Programming Data for. ENTER will continue to ash in the Programming Window.
Page 61hELi MODEL TyPEResetting Model Programming Data, Continued....4) Press the ENTER key. DATA RESET OK? will be displayed and INC+ will ash.5) Press the INC+/M1 key to Reset the Programming Data for the se-lected model. After ~10 seconds, the Programming Data will be Reset as indicated by the progress bar, and COMPLETE!! will be displayed in the Programming Window. Press any key to return to the DATA RESETmenu.If you want to go back and change the model or you don't want to Reset the Programming Data for any reason, press the DEC-/M2 or END/M3 keys.08.REvERSE (SERvO REvERSing)The Servo Reversing function electronically switches the direction of servo travel. For example, if you push the throttle control stick forward to increase pitch, but pitch decreases, you can use the Servo Reversing function to switch the direction of servo travel to increase pitch when the throttle control stick is moved forward.Changing Servo Reversing Adjustment Values1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight REVERSE, then press the ENTER key to display the REVERSE menu. The cursor will default to 1EL>NOR.3) Press the  Navigation  Pad  5634 to highlight the  channel  that  you would like to change the Servo Reversing adjustment value for.4) Press the INC+/M1 or DEC-/M2 keys to change the REV adjustment value to set the desired direction of servo travel.REVERSE setting range is NOR/REV. The default setting is NOR.5) Repeat steps 3 and 4 to set the desired direction of servo travel for the desired remaining channels.09.cEnTER (SERvO cEnTERing SUB-TRiM)The Servo Centering function allows you to ne-tune the Center (Neutral) position of each servo. It's not unusual that when you install the servo horn onto your servo that the servo horn is not perfectly centered. The Servo Centering function allows you to center the servo horn perfectly.Centering the Trim Switches and Servo Horns1) Before changing the Servo Centering percentage values you must rst adjust each of the four trim switches so that the control surface trims are centered as displayed on the Display screen. In addition, an audible double-tone is heard when the trim switches reach the center position. TH TrimRU TrimEL TrimAI TrimHELI MODEL TYPE
Page 62hELi MODEL TyPEChanging Servo Centering Percentage Values1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad  56 to  highlight  CENTER,  then  press  the ENTER key to display the CENTER menu. The cursor will default to 1EL>0%.The TM-160 transmitter features Digital Trim Memory. Any amount of trim that you set during fight using the trim switches is automatically  stored  in  memory  for  that  specic  channel  and  model,  and  for  that  specic  Flight  Mode  (if Enabled). The Trim percentage values for each model will automatically be loaded when the transmitter is turned ON and your model is selected. For more information, see page 69.Centering the Trim Switches and Servo Horns, Continued....2) Install the servo horn onto the servo, making sure that the servo horn is as close to being centered as possible. In some cases you can get the servo arm closer to being centered by rotating the servo arm 180º and reinstalling it.IMPORTANT It is always recommended to install the servo horns as close to being centered as possible, prior to changing the Servo  Centering percentage values. After you change  the Servo Centering  percentage  values  to  center  the  servo  horns,  only  then  should  you  manually  adjust the control linkages to center the control surfaces. When setting up your control linkages, it's recommended that the servo arms and the control surfaces should be centered, and the control linkages should be as close to perpendicular to the servo arms as possible. 3) Press the  Navigation  Pad  5634 to highlight the  channel  that  you would like to change the Servo Centering percentage value for.4) Press the INC+/M1 or DEC-/M2 keys to change the Servo Centering percentage value to center the servo horn.5) Repeat steps 3 and 4 to center the servo horns for the desired remaining channels.CENTER setting range is -150% to 150%. The default setting is 0%. Increase or decrease the Servo Centering Percentage Values to center the servo horns.WARNING We don't recommend using a Servo Centering percentage value outside the range of approximately -40% to 40%. Using a percentage value outside of this range can result in limited maximum servo travel. Zeroing Out TrimAlthough trim switch settings are automatically stored in memory for each individual model, some users may wish to always keep their trim switch settings at zero (centered) for all models. For example, after test-ying your model, if you have had to add trim to make your model y straight and level, you can use the Servo Centering function to add that amount of trim back into the servo(s), then move the trim switches back to center. This ensures that your trim switches are always centered.1) After ying your model, check  your model's control surfaces to see how much trim was necessary to achieve straight and level ight.2) From within the CENTER menu, highlight the channel you need to add Centering trim to.3) Recenter the trim switch, then change the Servo Centering percentage value until the control surface is in the same position it was prior to recentering the trim switch. Double-check the control throws to ensure the End Points haven't changed.In the default conguration, the same trim settings are stored across all Flight Modes. This option can be changed to allow you to store different trim settings for each individual Flight Mode. For more information, see page 69.
Page 63hELi MODEL TyPE10.EPa (EnD POinT aDjUSTMEnT)The End Point Adjustment function allows you to adjust servo travel in each direction. This makes it possible to balance control throw in both directions and set the maximum desired control throw. For example, if you want the elevator axis to move Up and Down 4 degrees in each direction, but the elevator axis moves Down more than 4 degrees, decrease the End Point Adjustment in the Down direction, so that the elevator axis moves Up and Down the same amount. In addition, the End Point Adjustment function can be used to adjust the desired maximum control throw. For example, if your throttle binds when the throttle control stick is at full, you can decrease the throttle End Point Adjustment to lower the control throw.The End Point Adjustment function can be overridden by other settings, such as Dual Rate. For example, if you have your End Point Adjustment percentage value set to 100%, and you set your Dual Rate percentage value to 150%, the servo will travel more than 100% when Dual Rate is ON.Changing End Point Adjustment Percentage Values 1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight EPA, then press the ENTER key to display the EPA menu. The cursor will default to 1EL>U100% or 1EL>D100% depending on the last position of the elevator control stick.In front of each End Point Adjustment percentage value is a specic icon. To set the End Point Adjustment percentage value for the desired direction of servo travel, the control stick must be moved in the direction of servo travel you want to change the End Point Adjustment percentage value for. For example, if you want to change the End Point Adjustment percentage value for Down elevator, push the elevator control stick forward, then release it. 'D' will be displayed in front of the Elevator End Point Adjustment percentage value.3) Press the  Navigation  Pad  5634 to highlight the  channel  that  you would like to change the End Point Adjustment percentage value for.4) Press the INC+/M1 or DEC-/M2 keys to change the End Point Adjustment percentage value.EPA setting range is 0% to 150%. The default setting is 100%. Increasing the End Point Adjustment percentage value increases servo travel and decreasing the End Point Adjustment percentage value decreases servo travel.Although the End Point Adjustment function is used to balance and adjust maximum control deection, we suggest adjusting the control linkages rst to try to achieve as close to the desired control deection as possible, then use the End Point Adjustment function to make nal adjustments.To increase control surface deection, you can either move the pushrod further out on the servo arm or move the pushrod closer to the control linkage. To decrease control surface deection, you can either move the pushrod closer to the center of the servo arm or move the pushrod further away from the control linkage.5) Repeat steps 3 and 4 to change the End Point Adjustment percentage values for the desired remaining channels.When changing End Point Adjustment percentage values, changing the End Point Adjustment percentage value on one channel, for example, pitch, affects all the cyclic servos (due to CCPM). If you need to make End Point Adjustments to individual servos without affecting the other cyclic servos, use the CCPM End Point Adjustment function described on the next page.The End Point Adjustment percentage value for the Gyro channel cannot be changed in the EPA menu. To change Gyro Gain percentage values, see the Remote Gyro Gain Control section on page 75.HELI MODEL TYPE
Page 64hELi MODEL TyPE11.cP-EPa (ccPM EnD POinT aDjUSTMEnT)The CCPM End Point Adjustment function allows you to adjust servo travel in each direction for the elevator, aileron, and pitch servos independently. Unlike the standard End Point Adjustment function, which affects all the cyclic servos, CCPM End Point Adjustment allows you to adjust each cyclic servo independently without any affect on the other cyclic servos. For example, you can change the End Point Adjustment on the pitch servo without affecting the End Point Adjustment of the elevator or the aileron servos. This allows for the utmost control is setting up your swashplate for the most accurate movement and allows you to quickly and easily level the swashplate.Changing CCPM End Point Adjustment Percentage Values 1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press  the  Navigation  Pad  56 to  highlight  CP-EPA,  then  press  the ENTER key to display the CP-EPA menu. The cursor will default to 1EL H>100%.IMPORTANT In front of each CP-EPA percentage value is an 'H' or 'L' icon (High or Low, respectively). Making adjustments to the 'H' percentage value affects the High side of control stick travel and making adjustments to the 'L' percentage value affects the Low side of control stick travel.3) Press the Navigation Pad 5634 to highlight the channel and direction that you would like to change the CCPM End Point Adjustment percentage value for.4) Press the INC+/M1 or DEC-/M2 keys to change the CCPM End Point Adjustment percentage value.CP-EPA setting range is 0% to 150%. The default setting is 100%. Increasing the CCPM End Point Adjustment percentage value increases servo travel and decreasing the CCPM End Point Adjustment percentage value decreases servo travel.5) Repeat steps 3 and 4 to change the CCPM End Point Adjustment percentage values for the desired remaining channels.12.SwaSh (SwaShPLaTE SETUP)The Swashplate Setup function allows you to control a number of different functions related to the swashplate. Using the Swashplate Setup function, you are able to reverse individual elevator, aileron, and pitch functions.For example, even if you select the correct Swashplate Type for your particular helicopter there may be a situation where instead of the swashplate rising for positive collective it may be necessary for the swashplate to fall for positive collective. Instead of 'fooling' the swashplate by selecting the opposite Swashplate Type and swapping the aileron and pitch channels in the receiver, then adjusting the servo reversing, the Swashplate Setup function allows you simply reverse the pitch function by changing the PI (Pitch) adjustment value opposite to what is displayed (e.g., change 100 to -100) to change the direction of travel for the pitch function. In addition, the Swashplate Setup function also allows you to control the overall throw of the elevator, aileron, and pitch functions by increasing or decreasing the percentage values.The Swashplate Setup function also allows you to mix elevator, aileron, and pitch functions together without the need to use a separate mixer. For example, if you do a loop and the helicopter wants to roll out in one direction or another, you can change the Mixing adjustment values of the Elevator Master to the Aileron Slave at either the low or the high collective stick to trim out this tendency.IMPORTANT To be able to access the CP-EPA menu and program the CCPM End Point Adjustment function, you must choose a CCPM swashplate setup in the TYPE menu.
Page 65hELi MODEL TyPE12.SwaSh (SwaShPLaTE SETUP), cOnTinUED....IMPORTANT To be able to access the  SWASH menu and program the  Swashplate Setup  function, you must choose a CCPM swashplate setup in the TYPE menu.The SWASH menu consists of a row of MASTER functions along the top and a column of SLAVE functions along the left side. In all cases, the MASTER function controls the SLAVE function. For example, if you want to increase the servo travel of the aileron channel when the throttle control stick is moved forward, increase the PI MASTER/AI SLAVE adjustment value.If you want to change the rotation of servo travel for a channel, for example, the pitch channel, highlight PI MASTER/PI SLAVE and change the adjustment value to the opposite of the current adjustment value (e.g., 100 to -100).SLAVE FunctionsAdjustmentValuesMASTER FunctionsDepending on your model's specic setup, it may be necessary to decrease the adjustment values to keep from over-driving the servos.The SWASH menu displays the default adjustment values for the Swashplate Type chosen in the TYPE menu. The currently selected Swashplate Type is displayed.Changing Swashplate Setup Adjustment Values 1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press  the  Navigation  Pad  56 to  highlight  SWASH,  then  press  the ENTER key to display the SWASH menu. The cursor will default to 1> and the adjustment value displayed will vary based on the Swashplate Type currently selected.3) Press  the  Navigation  Pad  3456 to  highlight  the  adjustment  value you would like to change, then press the INC+/M1 or DEC-/M2 keys to change the adjustment value.4) Adjust the desired remaining SWASH menu adjustment values using the same techniques.SWASH menu setting range is -150 to 150. The default adjustment value varies based on Swashplate Type currently selected. To display the default adjustment values, highlight a specic adjustment value and press the INC+/M1 and DEC-/M2 keys at the same time.13.Th-cUT (ThROTTLE cUT)The Throttle Cut function allows you to set a specic position that the throttle servo will move to. The Throttle Cut function is primarily used in glow- or gas-powered helicopters to shut down your engine after ight. You are able to adjust the Throttle Cut percentage value to ensure that when you press the Throttle Cut button to shut down your engine, the carburetor will close completely, yet not bind.Before using the Throttle Cut function, make sure that the idle stop screw on your carburetor (if featured) is adjusted to allow the carburetor barrel to close completely.HELI MODEL TYPE
Page 66hELi MODEL TyPE14.D/R & EXP (DUaL RaTE anD EXPOnEnTiaL)The TM-160 transmitter features one Dual Rate switch that controls Dual Rate for the elevator, aileron, and rudder channels at the same time. In addition, the Dual Rate percentage value for each channel can be programmed independently. The Exponential function is linked directly to the Dual Rate switch, allowing you to program Exponential for each of the two Dual Rate positions separately. For greater exibility, both Dual Rate and Exponential can be programmed either the same for all Flight Modes or separately for each of the three Flight Modes.Current ChannelTransmitter F-MODEProgramming F-MODETransmitter F-MODE refers to the Flight Mode that the transmitter is currently operating in. Programming F-MODE refers to the Flight Mode that you would like to change the programming for.Choosing the Flight Mode - Common or SeparateWhen set to COMMON, the Dual Rate and Exponential percentage values you program will be the same regardless of which Flight Mode the transmitter is operating in. You cannot program Dual Rate and Exponential percentage values separately for each Flight Mode. When set to SEPARATE, you can program Dual Rate and Exponential percentage values separately for each Flight Mode. This allows for greater exibility.13.Th-cUT (ThROTTLE cUT), cOnTinUED....Changing the Throttle Cut Percentage Value1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press  the  Navigation  Pad  56 to  highlight  TH-CUT,  then  press  the ENTER  key  to  display  the  TH-CUT menu.  The  cursor  will  default  to >-100%.When the Throttle Cut function is Activated, throttle control will be disabled.There are several different methods that can be used to set up your throttle control linkage and the Throttle Cut function. To prevent any chance of causing your throttle control linkage to bind, possibly resulting in damage to your throttle servo when you use the Throttle Cut function, we rst suggest adjusting the Throttle Low End Point Adjustment percentage value so that when the throttle control stick is pulled all the way back the carburetor barrel closes completely without binding. Next, increase the throttle trim (using the throttle trim switch) to adjust your engine's idle. Now change the Throttle Cut percentage value to close the carburetor barrel without binding when you press the Throttle Cut button.TH-CUT setting  range  is  -150%  to  0%.  The  default  setting  is  -100%. Decreasing the Throttle Cut percentage value will increase throttle servo travel when the Throttle Cut button is pressed.3) Press the INC+/M1 or DEC-/M2 keys to set the position you would like the throttle servo to move to when you press the Throttle Cut button.Dual Rate Switch Position (Typically 1=Maximum Control Throw and 2=Reduced Control Throw)
Page 67hELi MODEL TyPEDual Rate is a percentage of End Point Adjustment. For example, if you set the Dual Rate 1 percentage value to 100%, the control surfaces will travel the same amount as dened by your End Point Adjustment programming, and if you set the Dual Rate 2 percentage value to 50%, the control surfaces will travel half that amount when Dual Rate 2 is Activated. Prior to takeoff, check the position of the Dual Rate switch to ensure that it is in the position you want.Dual Rate OverviewThe Dual Rate function allows you to change the control authority of the control surfaces by changing the amount of servo travel. For example, if you are ying an aerobatic helicopter that requires a lot of control throw for aerobatics, but that same amount of control throw makes the helicopter difcult to control during normal ight, you can use the Dual Rate function to lower the control throw for normal ight with just the ip of the Dual Rate switch. Two Dual Rate settings are available for the Elevator, Aileron, and Rudder channels, and different Dual Rate settings can be programmed separately for each of the three Flight Modes.Choosing the Channel1) Press the Navigation Pad 34 to highlight the channel you would like to make Dual Rate percentage value changes to. Choose either <EL>, <AI>, or <RU>.Dual Rate can be set for EL (Elevator), AI (Aileron), and RU (Rudder).2) Press the Navigation Pad 56 to highlight D/R & EXP, then press the ENTER key to display the D/R & EXP menu. The cursor will default to D/R>100%.3) Press the Navigation Pad 5to move the cursor to F-MODE>COMMON.4) Press the INC+/M1 or DEC-/M2 keys to choose either SEPARATE OR COMMON.5) If you choose SEPARATE, press the F-MODE key to choose the F-MODE number you would like to program the Dual Rate and Exponential functions for. Choose from FN, F1 or F2.Choosing the Flight Mode - Common or Separate, Continued....1) From the Display screen, press the ENTER key to display the Programming Menus.Changing the Dual Rate Percentage ValuesTwo different Dual Rate settings can be programmed to the Dual Rate switch. We recommend that Dual Rate 1 be set to the maximum control surface throw you desire, then set Dual Rate 2 to a different value that is less than maximum. For example, set the Dual Rate 1 percentage value to 100% and the Dual Rate 2 percentage value to 75%.WARNING Keep in  mind  that  it's possible to set the  Dual  Rate  percentage value higher than  the  End  Point Adjustment percentage value. For example, with the End Point Adjustment percentage value set to 100% and the Dual Rate percentage value set to 150% the servo will move more than 100% when Dual Rate is turned ON. We strongly recommend that you set the Dual Rate 1 percentage value to no more than 100%. This will prevent any chance of exceeding your End Point Adjustment and overdriving your control linkage.HELI MODEL TYPE
Page 68hELi MODEL TyPEChoosing the Channel1) Press the Navigation Pad 34 to highlight the channel you would like to make Exponential percentage value changes to. Choose either <EL>, <AI>, or <RU>.Exponential can be set for EL (Elevator), AI (Aileron), and RU (Rudder).Changing the Exponential Percentage ValuesThe Exponential function is linked directly to the Dual Rate switch. This allows you to program Exponential for each of the two Dual Rate positions separately. For example, with the Dual Rate switch in position 1 (maximum travel), you can set the Exponential percentage value to 30% to soften the control feel around neutral and with the Dual Rate switch in position 2 (reduced travel) you can set Exponential percentage value to 0%. When the Exponential percentage value is set to 0%, the ratio between servo travel and control stick movement will be Linear throughout the entire range of deection.WARNING If you have not used Exponential functions in the past, we suggest that you start with a small percentage of Exponential (approximately 10%~20%) until you get used to the feel of how Exponential affects the control feel of your model. You will nd that Exponential is most useful where strong control response is desired at extreme control stick positions, but softer control response to small control stick movements is desired in order to make very accurate small corrections to the ight path.1) Press the Navigation Pad 6 to move the cursor to EXP>0%.2) Move the Dual Rate switch to the position you would like to set an Exponential percentage value for, either 1 or 2, then press the INC+/M1 or DEC-/M2 keys to set the desired Exponential percentage value for the channel you chose previously.EXP setting range is -100% to 100%. The default setting is 0% (Linear). Increasing  the  Exponential  percentage  value  softens  the  control  feel around neutral. Decreasing the Exponential percentage value heightens the control feel around neutral.D/R setting range is 0% to 150%. The default setting is 100%. Increasing the Dual Rate percentage value increases servo travel and decreasing the Dual Rate percentage value decreases servo travel.Changing the Dual Rate Percentage Values, Continued....1) Move the Dual Rate switch to the position you would like to set a Dual Rate percentage value for, either 1 or 2. 2) Press the INC+/M1 or DEC-/M2 keys to set the desired Dual Rate percentage value for the channel you chose previously.Exponential OverviewThe Exponential function allows you to vary the amount of servo travel in relation to the movement of the elevator, aileron, and rudder control sticks near the neutral positions to change the way the control surfaces react to control stick movement. Increasing the Exponential value will soften the control feel around neutral and decreasing the Exponential value will heighten the control feel around neutral. For example, using a positive Exponential percentage value allows for smoother control by lessening the amount of servo travel in relation to the amount of control stick movement. Using a negative Exponential percentage value may result in more 'twitchy' control response because the amount of servo travel will be increased in relation to the amount of control stick movement. The Exponential function is linked directly to the Dual Rate switch. This allows you to program Exponential for each of the two Dual Rate positions separately.Exponential does not change the total amount of servo travel at maximum control stick deection. Exponential affects the ratio between servo travel and control stick movement at less than maximum control stick deection.
Page 69hELi MODEL TyPE16.Th-cURvE (ThROTTLE cURvE)The Throttle Curve function allows you to vary the amount of throttle servo travel in relation to the movement of the throttle control stick at different points throughout the entire range of deection. Five custom-programmable Points ensure a precise Throttle Curve to suit any situation. For example, if you are doing 3D ying, you can adjust the Throttle Curve so that you have maximum power and rotor head speed at both the low throttle control stick position and the high throttle control stick position when you have full negative and positive collective pitch for aerobatics, but reduced power when the throttle control stick is near the center, so that the rotor head will not overspeed with reduced collective.Included within the Throttle Curve function is the Throttle Hold function. The Throttle Hold function allows you to set a specic position that the throttle servo will Hold and not respond to the throttle control stick. This function is typically used to Hold the throttle at idle or low speed, while still allowing you full pitch control. This is ideal for practicing auto-rotations and is also a good safety feature on electric helicopters, because when Activated, the rotor head will not spin up if you accidentally bump the throttle control stick up.For greater exibility, the Throttle Curve and Throttle Hold functions can be programmed either the same for all Flight Modes or separately for each of the three Flight Modes. A graph with Input and Output indicators help with programming visualization.WARNING When the Trim Flight Mode option is set to Separate or SEPARATE TH-TRIM LOCK (F1), Digital Trim values are stored in the specic Flight Mode you're using when you change the trim using the trim switches. For example, you could have 10 'clicks' of Up elevator trim in Flight Mode FN (Normal) and 5 'clicks' of Up elevator trim in Flight Mode F1. Be cautious of this when switching between Flight Modes during ight.If SEPARATE TH-TRIM LOCK (F1) is chosen, throttle trim will NOT be adjustable when in Flight Mode F1.3) Press the INC+/M1 or DEC-/M2 keys to choose the desired Trim Flight Mode  option,  either COMMON,  SEPARATE  or  SEPARATE TH-TRIM LOCK (F1).TRIM setting range is COMMON, SEPARATE, or SEPARATE TH-TRIM LOCK (F1). The default setting is COMMON.15.TRiM (DigiTaL TRiM)The TM-160 transmitter features Digital Trim Memory. Any amount of control surface trim that you set during fight using the trim switches is automatically stored in memory for that specic channel and for that specic model. The Digital Trim values for each model will automatically be loaded when the transmitter is turned ON. The Trim function allows you to choose whether you want trim changes saved the same across all three Flight Modes or if you want trim changes saved separately for each of the three Flight Modes. In addition, an option to lock the throttle trim in Flight Mode F1 is also available. This feature is convenient when ying aerobatics in Flight Mode F1, because if accidentally hit, the throttle trim could change your Throttle Curve and cause unintended consequences.An audible double-tone is heard when the trim switches reach the center position. This allows you to know when the trim switches reach the center position without the need to look at the Trim Indicators on the Display screen.Choosing the Trim Flight Mode Option1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight TRIM, then press the ENTER key to display the TRIM menu. The cursor will default to F-MODE>COMMON.HELI MODEL TYPE
Page 70Choosing the Flight Mode - Common or Separate1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight TH-CURVE, then press the ENTER key to display the TH-CURVE menu. The cursor will default to HOLD>INH.3) Press the Navigation Pad 5 to move the cursor to F-MODE>COM.4) Press the INC+/M1 or DEC-/M2 keys to choose either SEP OR COM (SEParate or COMmon).5) If you choose SEPARATE, press the F-MODE key to choose the F-MODE number you would like to program the Throttle Curve function for. Choose from FN, F1 or F2.hELi MODEL TyPEChanging the Throttle Curve Point Values and the Rate Percentage ValuesFive different Points with varying Rate percentage values can be programmed onto the Throttle Curve. Each Point will be displayed on the graph to give you a visual interpretation of the position of the Point on the Throttle Curve. The Point that is currently selected will ash.WARNING Keep in mind that it's possible to set the Rate percentage values higher or lower than the throttle End Point Adjustment percentage values. For example, with the throttle High End Point Adjustment percentage value set to 100% and POINT>5 Rate percentage value set to 150% the servo will move 150%.We strongly recommend that you set the Throttle Curve Point Rate percentage values no higher than your throttle End Point Adjustment percentage values unless specically necessary for your particular setup. This will prevent any chance of overdriving your control linkage.Transmitter F-MODE refers to the Flight Mode that the transmitter is currently operating in. Programming F-MODE refers to the Flight Mode that you would like to change the programming for.Transmitter F-MODEProgramming F-MODEStick InputFunction Output150%100%100%150%0%Point PositionsAs you change the Point values and Rate percentage values, you can use the graph and Input and Output indicators to visualize the ratio between control stick movement and servo travel throughout the entire deection range. 16.Th-cURvE (ThROTTLE cURvE), cOnTinUED....
Page 71hELi MODEL TyPE1) Press the Navigation Pad 56 to highlight HOLD>INH, then press the INC+/M1 or DEC-/M2 keys to change the INH/ACT setting to ACT.HOLD setting range is INH/ACT. The default setting is INH. When Activated, the Throttle Hold function will be Active for that Flight Mode.When you Activate the Throttle Hold function, you will not be able to program the Throttle Curve Function. In addition, when the Throttle Hold function is Activated, the throttle control stick will control Pitch only and the Throttle trim switch will be Inhibited.RATE setting range for each Point is -150% to 150%.3) Press the Navigation Pad 6 to highlight RATE>.4) Press the INC+/M1 or DEC-/M2 keys to set the desired Rate percentage value for the Point you chose previously, then repeat the previous procedures to change the desired remaining Point and Rate percentage values.Activating the Throttle Hold Function and Changing the Rate Percentage ValueWARNING Keep in mind that it's possible to set the Throttle Hold percentage value lower than the throttle End Point Adjustment percentage value. For example, with the throttle End Point Adjustment percentage value set to -100% and the Throttle Hold percentage value set to -150% the servo will move -150% when the Throttle Hold is Activated. We strongly recommend that you set the Throttle Hold Rate percentage value no higher than your throttle End Point Adjustment percentage values unless specically necessary for your particular setup. This will prevent any chance of overdriving your control linkage.1) Press the Navigation Pad 6 to highlight POINT>1.2) Press the INC+/M1 or DEC-/M2 keys to choose which Point you would like to set a Rate percentage value for.POINT setting range is 1 through 5. Point 1 is at the low end of the Throttle Curve and Point 5 is at the high end of the Throttle Curve. Point 3 is a the center of the Throttle Curve.In the default conguration the Throttle Curve is Linear. For example, when you move the throttle control stick from 0% to 100%, the throttle servo will travel from 0% to 100%, too. As long as the line on the graph remains straight, the Throttle Curve will be Linear. When a Point Rate percentage value is changed, the line on the graph curves (displaying the Throttle Curve) and throttle servo travel will vary in relation to throttle control stick movement.100%The tables below describe the default Point and Rate values.12-100%-50%POINT DEFAULT RATE340%50%POINT DEFAULT RATE5POINT DEFAULT RATEChanging the Throttle Curve Point Values and the Rate Percentage Values, Continued....HELI MODEL TYPE
Page 72hELi MODEL TyPE17.Pi-cURvE (PiTch cURvE)The Pitch Curve function allows you to vary the amount of pitch travel in relation to the movement of the throttle control stick at different points throughout the entire range of deection. Five custom-programmable Points ensure a precise Pitch Curve to suit any situation. For example, if you are doing 3D ying, you may want a Linear Pitch Curve with maximum negative pitch when the throttle control stick is at low, maximum positive pitch when the throttle control stick is at high, and 0 degrees of pitch when the throttle control stick is centered. Alternatively, for a more docile ying helicopter, you may want minimum negative pitch when the throttle control stick is all the way back and gradually increase pitch in small increments as the throttle control stick moves from low to high, to produce a smooth transition from low to high throttle.For greater exibility, the Pitch Curve function can be programmed either the same for all Flight Modes or separately for each of the three Flight Modes. A graph with Input and Output indicators help with programming visualization.Transmitter F-MODE refers to the Flight Mode that the transmitter is currently operating in. Programming F-MODE refers to the Flight Mode that you would like to change the programming for.Transmitter F-MODEProgramming F-MODEStick InputFunction Output150%100%100%150%0%Point PositionsAs you change the Point values and Rate percentage values, you can use the graph and Input and Output indicators to visualize the ratio between control stick movement and servo travel throughout the entire deection range. Choosing the Flight Mode - Common or Separate1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight PI-CURVE, then press the ENTER key to display the PI-CURVE menu. The cursor will default to POINT>1.1) Press the Navigation Pad 6 to highlight RATE>-100%.2) Press the INC+/M1 or DEC-/M2 keys to set the position you would like the throttle servo to Hold at.HOLD setting range is -150% to 0%. The default setting is -100%. Increasing the Throttle Hold percentage value will increase the position at which the throttle servo will Hold at and decreasing the Throttle Hold percentage value will decrease the position at which the throttle servo will Hold at.Activating the Throttle Hold Function and Changing the Rate Percentage Value, Continued....
Page 73hELi MODEL TyPEChanging the Pitch Curve Point Values and the Rate Percentage ValuesFive different Points with varying Rate percentage values can be programmed onto the Pitch Curve. Each Point will be displayed on the graph to give you a visual interpretation of the position of the Point on the Pitch Curve. The Point that is currently selected will ash.WARNING Keep in mind that it's possible to set the Rate percentage values higher or lower than the pitch End Point Adjustment percentage values. For example, with the pitch High End Point Adjustment percentage value set to 100% and POINT>5 Rate percentage value set to 150% the collective servos will move 150%. We strongly recommend that you set the pitch Curve Point Rate percentage values no higher than your pitch End Point Adjustment percentage values unless specically necessary for your particular setup. This will prevent any chance of overdriving your control linkages.1) Press the Navigation Pad 6 to highlight POINT>1.2) Press the INC+/M1 or DEC-/M2 keys to choose which Point you would like to set a Rate percentage value for.POINT setting range is 1 through 5. Point 1 is at the low end of the Pitch Curve and Point 5 is at the high end of the Pitch Curve. Point 3 is a the center of the Pitch Curve.In the default conguration the Pitch Curve is Linear. For example, when you move the throttle control stick from 0% to 100%, the elevator, aileron, and pitch servos will travel from 0% to 100%, too. As long as the line on the graph remains straight, the Pitch Curve will be Linear. When a Point Rate percentage value is changed, the line on the graph curves (displaying the Pitch Curve) and throttle servo travel will vary in relation to throttle control stick movement.100%The tables below describe the default Point and Rate values.12-100%-50%POINT DEFAULT RATE340%50%POINT DEFAULT RATE5POINT DEFAULT RATERATE setting range for each Point is -150% to 150%.3) Press the Navigation Pad 6 to highlight RATE>.4) Press the INC+/M1 or DEC-/M2 keys to set the desired Rate percentage value for the Point you chose previously, then repeat the previous procedures to change the desired remaining Point and Rate percentage values.Choosing the Flight Mode - Common or Separate, Continued....3) Press the Navigation Pad 5 to move the cursor to F-MODE>COM.4) Press the INC+/M1 or DEC-/M2 keys to choose either SEP OR COM (SEParate or COMmon).5) If you choose SEPARATE, press the F-MODE key to choose the F-MODE number you would like to program the Pitch Curve function for. Choose from FN, F1 or F2.HELI MODEL TYPE
Page 74hELi MODEL TyPE18.REvO-MiX (REvOLUTiOn MiXing)The Revolution Mixing function mixes rudder and collective pitch controls, which makes the helicopter more stable when collective pitch is increased. For example, when you increase collective pitch, as the rotor head speed and pitch increase, the torque that it creates can cause the tail of the helicopter to pivot. Adding Revolution mixing helps prevent this from occurring, which makes the helicopter more stable in the yaw axis. The amount and the direction that the rudder moves with collective pitch control is adjusted by changing the High side and Low side percentage values.The Revolution Mixing function can be programmed for both the High and Low throttle sides independently.For greater exibility, the Revolution Mixing function can be programmed either the same for all Flight Modes or separately for each of the three Flight Modes.Transmitter F-MODE refers to the Flight Mode that the transmitter is currently operating in. Programming F-MODE refers to the Flight Mode that you would like to change the programming for.Programming F-MODETransmitter F-MODEIMPORTANT We DO NOT recommend using the Revolution Mixing function with a Heading Hold mode or AVCS mode gyro. The Revolution Mixing function should only be used with a Rate mode gyro or in the event that no gyro is used.IMPORTANT The Revolution Mixing function is not Activated directly by a switch. It is designed for use in a specic Flight Mode (or Flight Modes). For example, you may have programmed your gyro for Heading Hold mode in Flight Mode FN (Normal) and Rate mode in Flight Mode F1. In this case, you might program Revolution mixing only in Flight Mode F1.Choosing the Flight Mode - Common or Separate1) From the Display screen, press the ENTER key to display the Programming Menus. 2) Press the Navigation Pad 56 to highlight REVO-MIX, then press the ENTER key to display the REVO-MIX menu. The cursor will default to H>0%.3) Press the Navigation Pad 5 to move the cursor to F-MODE>COM.4) Press the INC+/M1 or DEC-/M2 keys to choose either SEPARATE or COMMON.5) If you choose SEPARATE, press the F-MODE key to choose the F-MODE number you would like to program the Revolution Mixing function for. Choose from FN, F1 or F2.The Revolution Mixing function is typically used in conjunction with a gyro running in Rate mode only or if no gyro is used.
Page 75hELi MODEL TyPEChanging the Revolution Mixing Function High Side Percentage ValueChanging  the  High  side  percentage  value  affects  the  Revolution  Mixing function from half throttle stick to full throttle stick only. It has no effect on the Low throttle side.1) Press the Navigation Pad 6 to highlight H>0%.2) Press the INC+/M1 or DEC-/M2 keys to choose the desired High throttle side percentage value.REVO-MIX H setting range is -150% to 150%. The default value is 0% (OFF). Using a positive or negative percentage value will determine the direction the rudder travels when collective pitch is increased. This mix is Linear.Changing the Revolution Mixing Function Low Side Percentage ValueChanging  the  Low  side  percentage  value  affects  the  Revolution  Mixing function from low throttle stick to half throttle stick only. It has no effect on the High throttle side.1) Press the Navigation Pad 6 to highlight L>0%.2) Press the INC+/M1 or DEC-/M2 keys to choose the desired Low throttle side percentage value.REVO-MIX L setting range is -150% to 150%. The default value is 0% (OFF). Using a positive or negative percentage value will determine the direction the rudder travels when collective pitch is increased. This mix is Linear.19.gyRO (REMOTE gyRO gain cOnTROL)The Remote Gyro Gain Control function allows you to control Heading Hold mode gain and Rate mode gain remotely. Two separate Remote Gyro Gain Control function settings can be programmed and one can be selected at any time using the two-position Gyro switch. For example, you might want 100% gain for aerobatic ight, but then switch to 75% gain for sport ying. In essence, when you assign a Remote Gyro Gain Control percentage value to each of the two Remote Gyro Gain Control function settings, you effectively have dual rates for your gyro, just like you have dual rates for your elevator, aileron, and rudder control surfaces. Depending on the Remote Gyro Gain Control function percentage values, you can adjust the gain in either Heading Hold mode or Rate mode. In addition, you can program a Heading Hold gain percentage value and a Rate gain percentage value separately, then switch between the two to aid in setting up your gyro.For greater exibility, the Remote Gyro Gain Control function can be programmed either the same for all Flight Modes or sepa-rately for each of the three Flight Modes.Transmitter F-MODE refers to the Flight Mode that the transmitter is currently operating in. Programming F-MODE refers to the Flight Mode that you would like to change the programming for.Programming F-MODETransmitter F-MODEIMPORTANT In order to use this feature, your gyro must support Remote Gain. For more information, and before using this function, please refer to your gyro's Operating Guide to familiarize yourself with its setup and use.Current Gyro Switch SelectionHELI MODEL TYPE
Page 76hELi MODEL TyPEChoosing the Flight Mode - Common or Separate1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight GYRO, then press the ENTER key to display the GYRO menu. The cursor will default to 1>100%.3) Press the Navigation Pad 5to move the cursor to F-MODE>COMMON.4) Press the INC+/M1 or DEC-/M2 keys to choose either SEPARATE or COMMON.5) If you choose SEPARATE, press the F-MODE key to choose the F-MODE  number  you  would  like  to  program  the  Remote  Gyro  Gain Control function for. Choose from FN, F1 or F2.Changing the Gyro Percentage ValuesThe Gyro percentage values determine both the amount of gain and the gyro operating mode - either Heading Hold mode or Rate mode. In general, positive values will result in your gyro operating in Heading Hold mode and negative values will result in your gyro operating in Rate mode. The amount of gain is determined by the percentage value.IMPORTANT Whether you use positive or negative Gyro percentage values to program your gyro in either Heading Hold mode or Rate mode will be determined by the NOR/REV settings of the gyro channel in the REVERSE menu. For example, if the gyro channel is set to NOR (Normal) in the REVERSE menu, positive Gyro percentage values may result in your gyro operating in Heading Hold mode, but if the gyro channel is set to REV (Reverse) in the REVERSE menu, positive Gyro percentage values may result in your gyro operating in Rate mode. You will need to test your gyro to ensure that it's operating in the desired mode based on the percentage values, then adjust the percentage values accordingly to achieve the desired amount of gain.You can program two different Remote Gyro Gain Control functions and control them using the Gyro switch. When programming Gyro percentage values, the 1> percentage value is controlled by the Gyro 1 switch position and the 2> percentage value is controlled by the Gyro 2 switch position.1) Press the Navigation Pad 6 to highlight 1>100%.2) Press the INC+/M1 or DEC-/M2 keys to choose the desired Gyro 1 percentage value.19.gyRO (REMOTE gyRO gain cOnTROL), cOnTinUED....3) Press the Navigation Pad 6 to highlight 2>100%.4) Press the INC+/M1 or DEC-/M2 keys to choose the desired Gyro 2 percentage value.
Page 77hELi MODEL TyPEGYRO 1  and GYRO 2  setting range is  -150% to 150%. The  default settings are 100%. Decreasing the GYRO percentage values decreases gyro gain and increasing the GYRO percentage values increases gyro gain. See the  IMPORTANT note on the previous page regarding the use of positive and negative Gyro percentage values and how they may change your gyro operating mode.When the either the Gyro 1 or Gyro 2 percentage values are set to 0%, the gyro will be in 'pass-through' mode (e.g., OFF) for that selected Gyro function only.Changing the Gyro Percentage Values, Continued....20. & 21.c-MiX1 anD c-MiX2 (cOMPEnSaTiOn MiXing)The Compensation Mixing function is used to create your own custom mix if one of the pre-programmed mixes is not suitable. For example, you can create a custom mix that mixes elevator to throttle or that mixes rudder to throttle. Elevator to throttle mixing is typically used during 3D ying to provide a momentary burst of throttle under hard cyclic load. Rudder to throttle mixing is typically used to reduce the tendency of the helicopter to slightly rise and fall as you pirouette.Because any of the six channels can be programmed as a Master or a Slave, you are able to program custom mixes for just about any situation required. Compensation Mixes are composed of a Master channel and a Slave channel. Any of the available six channels can be programmed as a Master or a Slave. The same channel can even be programmed as both a Master and a Slave. In addition to programming the High and Low Rate percentage values, the Slave channel Offset percentage value can be changed to move the neutral point of the Slave channel servo when the Compensation Mixing function is Activated.For greater exibility, both Compensation Mixing functions can be programmed either the same for all Flight Modes or separately for each of the three Flight Modes.Transmitter F-MODE refers to the Flight Mode that the transmitter is currently operating in. Programming F-MODE refers to the Flight Mode that you would like to change the programming for.Programming F-MODETransmitter F-MODEIn all cases, the Master channel always controls the Slave channel.Choosing the Flight Mode - Common or Separate1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight either C-MIX1 or  C-MIX2, then press the ENTER key to display the C-MIX1 or C-MIX2 menu. The cursor will default to MASTER>EL.3) Press the Navigation Pad 5to move the cursor to F-MODE>COMMON.4) Press the INC+/M1 or DEC-/M2 keys to choose either SEPARATE or COMMON.5) If you choose SEPARATE, press the F-MODE key to choose the F-MODE number you would like to program the Compensation Mixing function for. Choose from FN, F1 or F2.HELI MODEL TYPE
Page 78hELi MODEL TyPEChoosing the Flight Mode - Common or Separate, Continued....Two Compensation Mixing functions are available, however, only one Compensation Mixing function can be Active at one time. If  F-MODE  is  set  to  COMMON, both Compensation  Mixing  functions  will  controlled  by the Compensation  Mixing switch and Compensation Mixer 2 will always override Compensation Mixer 1. If F-MODE is set to SEPARATE, you can control one Compensation Mixing function using the Compensation Mixing switch and control the second Compensation Mixing function (programmed to a different Flight Mode) using a Flight Mode switch, however, keep in mind that higher numbered Flight Modes will always override lower numbered Flight Modes.Choosing the Master ChannelThe  Master  channel  is  the  channel  that  controls  the  Slave  channel.  For example, if you set the Master channel to EL (Elevator), when you move the elevator  control  stick,  the  Slave  channel that's mixed  to  the  elevator channel will move. 1) Press the Navigation Pad 6to highlight MASTER>EL, then press the INC+/M1 or DEC-/M2 keys to change the desired Master channel.MASTER setting range is EL (Elevator), AI (Aileron), TH (Throttle), RU (Rudder), GY (Gyro), and PI (Pitch). The default setting is EL (Elevator).Choosing the Slave ChannelThe Slave channel is the channel that is controlled by the Master channel. For example, if you set the Master channel to EL (Elevator) and the Slave channel to AI (Aileron), when you move the elevator control stick, the aileron servo will move. 1) Press  the  Navigation  Pad  6to  highlight  SLAVE>EL,  then  press  the INC+/M1 or DEC-/M2 keys to change the desired Slave channel.SLAVE setting range is EL (Elevator), AI (Aileron), TH (Throttle), RU (Rudder), GY (Gyro), and PI (Pitch). The default setting is EL (Elevator).Changing the Rate High and Rate Low Percentage ValuesBy changing the Rate High and Rate Low percentage values, you can program which direction the Slave channel servo travels in relation to the Master channel servo, and program how far the Slave channel servo travels relative to how far the Master channel servo travels.The Rate High and Rate Low percentage values are a ratio of Slave channel servo travel to Master channel servo travel. For example, if the Rate High percentage value is set to 10%, the Slave channel servo will travel 1/10th the amount in one direction that the Master channel servo travels. This mix is Linear.WARNING When a Compensation Mixer is Activated, you still have separate control over the Slaved channel, however, depending on the Rate High and Rate Low percentage values, the Slave channel End Point Adjustment could be exceeded. Be cautious to prevent any chance of overdriving your control linkage when the Compensation Mixing function is used.1) Press the Navigation Pad 6 to highlight RATE Hi>0%.2) Press the INC+/M1 or DEC-/M2 keys to change the Rate High Percentage value.
Page 79hELi MODEL TyPERATE Hi and RATE Lo setting ranges are -150% to 150%. The default settings are 0%. Increasing or decreasing the Rate High and Rate Low percentage values will change the direction that the Slave channel servo travels and the amount that it travels relative to the Master channel servo.3) Press the Navigation Pad 6 to highlight RATE Lo>0%.4) Press the INC+/M1 or DEC-/M2 keys to change the Rate Low Percentage value.Changing the Rate High and Rate Low Percentage Values, Continued....Changing the Offset Percentage ValueThe Offset percentage value changes the neutral position of the Slave channel servo when the Compensation Mixing function is Activated. For example, when an Offset percentage value is programmed, the Slave channel servo neutral position and its two End Point positions will 'shift' the programmed amount.1) Press the Navigation Pad 6 to highlight OFFSET>0%.2) Press the INC+/M1 or DEC-/M2 keys to change the Offset Percentage value.OFFSET setting range is -100% to 100%. The default setting is 0%. Increasing the Offset percentage value will shift the neutral position of the Slave servo in one direction and decreasing the Offset percentage value will shift the neutral position of the Slave servo in the opposite direction.Compensation Mixing Sample - Mixing Rudder to ThrottleThe sample below describes how to mix rudder to throttle using Compensation Mixer 1 controlled by the Compensation Mixing switch. This mix is typically used to reduce the tendency of the helicopter to slightly rise and fall as you pirouette. For example, when you command a pirouette to the left, the helicopter will rise slightly and will require you to reduce throttle, and when you command a pirouette to the right, the helicopter will fall slightly and will require you to increase throttle.In this example, the Master channel is the Rudder channel and the Slave channel is the Throttle channel. The RATE Hi and RATE Lo percentage values dene how far Up and Down the throttle will move when the rudder is moved, and is a percentage of the amount the rudder is moved. To Activate this mix, Activate Compensation Mixer 1 by pulling the Compensation Mixer switch down.IMPORTANT When the Throttle channel is programmed as the Master channel, the Slave channel servo will not begin to move relative to the position of the throttle control stick until the throttle control stick reaches half throttle and above. Once the throttle control stick reaches half travel and above, the Slave channel servo will begin to move. If you require the Slave channel servo to move from Low throttle to High throttle, program the Compensation Mixer as shown in this example: MASTER>TH, SLAVE>RU, Rate Hi>25%, RATE Lo>25%, OFFSET>-25%.MASTER>RUSLAVE>THRATE Hi>10%RATE Lo>10%OFFSET>0%The positive and negative values shown in the example may vary based on the NOR/REV status of your aileron and elevator servos. You may need to change the percentage values to suit.1) Set up your swashplate, servo reversing, and control throws as desired. 2) Program the Compensation Mixer 1 options from the within the C-MIX1 menu, as shown at left.HELI MODEL TYPE
Page 80hELi MODEL TyPE22.SX MOniTOR (SERvO MOniTOR)The Servo Monitor displays the output levels of each of the 6 channels in bar graph form, allowing you to monitor servo operation in a virtual manner. This is helpful to see servo movement when the control sticks and switches are moved, and it allows you to visualize what is occurring with servo movements when you apply different mixing values. The Servo Monitor also indicates which channel slots in the receiver to plug your servos into (1 EL, 2AI, 3TH, 4RU, 5GY, and 6FL).Using the Servo Monitor1) From the Display screen, press the ENTER key to display the Programming Menus.2) Press the Navigation Pad 56 to highlight SX MONITOR, then press the ENTER key to display the Servo Monitor.3) Moving the control sticks and channel switches will display the position and movement of each of the servos.THIS SPACE INTENTIONALLY LEFT BLANK
Page 81Batteries not installed correctlyDamage caused by using incorrect charger or reverse polarityLow transmitter battery voltageToo much time elapsed after pressing receiver Bind ButtonAttempting to bind incompatible receiverUsing ESC with BECLow transmitter battery voltageTransmitter not in Flight Mode FN when turned ONTransmitter Trainer function set to MASTER when turned ONTransmitter Trainer function set to SLAVE when turned ONControl linkages bindingLow receiver battery voltageLow transmitter or receiver battery voltageReceiver antennas not mounted correctly in your model or are damagedTransmitter antenna not angled to optimum positionTransmitter in Low-Power Range Check modeIncorrect Servo Reversing settingServo horn not installed correctlyTrim switch not centeredServo not centeredToo much servo travelTransmitter Trainer function set to SLAVETransmitter in Low-Power modeTransmitter Trainer function set to SLAVEREFEREncEThis troubleshooting guide has been provided to help you diagnose and solve most problems that you may encounter with your TM-160 2.4GHz FHSS-1 radio control system. Most problems encountered can be solved by following the problem-cause-solution sections.PROBLEM caUSE SOLUTiOnTransmitter does not turn ONTransmitter will not bind to receiverAudible alarm beeps continuouslyServo movement is slowInadequate transmitting rangeServo(s) move the wrong directionServo horn(s) not centeredControl linkage(s) bindRF Output Indicator ashesTransmitter Bind LED ashesTransmitter Bind LED goes outReinstall batteries. Observe correct polarityContact Airtronics Customer ServiceReplace or recharge transmitter batteriesQuickly press the transmitter Bind Button after releasing the receiver Bind ButtonTransmitter compatible only with Airtronics 2.4GHz FHSS-1 aircraft receiversDisconnect ESC and use standard receiver battery for Binding procedure, then reconnect ESC after bindingReplace or recharge transmitter batteriesPlace transmitter in Flight Mode FN before turning ONPress any key to Inhibit alarm or use TRAINER menu to Inhibit Trainer function.Press any key to Inhibit alarm or use TRAINER menu to Inhibit Trainer function.Adjust control linkages to operate smoothlyRecharge receiver batteryReplace or recharge transmitter and receiver batteriesMount receiver antennas  as  recommended or replace antennasAdjust transmitter antenna so that it's angled to the optimum position during useChange transmitter to Normal modeChange Servo Reversing setting assigned to the channel affected in REVERSE menuTurn servo horn 180º and reinstallCenter trim switchUse CENTER menu to center servo hornAdjust EPA to reduce servo travelThis is normalComplete Range Check in Low-Power mode, then turn transmitter OFF, then back ON to enter Normal modeThis is normalIf you cannot solve the problem using this troubleshooting guide, please contact Airtronics Customer Service using the information on the back cover of this Operating Manual.TROUBLEShOOTing gUiDEREFERENCE
Page 82REFEREncEAttempting to copy Programming Data to the same model number Transmitter left in direct sunlight for too longTrim set to SEPARATE in TRIM menuToo much control throwNo Exponential programmedLow transmitter or receiver battery voltageReceiver antennas not mounted correctly in your model or are damagedAircraft sitting in tall grass (usually sailplanes only)PROBLEM caUSE SOLUTiOnCannot copy Programming Data LCD appears dark or hard to readTrim changeswhen switching between Flight ModesControls too sensitiveRange check failsCopy Programming Data to a different model number Place transmitter in shade until LCD clears up. Do not place transmitter in direct sunlight for long periods of timeThis is normal when Trim is set to SEPARATE, otherwise, set Trim to COMMONTurn Dual Rate switch ON to lower control throwProgram positive Exponential percentage valueReplace or recharge transmitter and receiver batteriesMount receiver antennas  as  recommended or replace antennasLift model out of grass for range checkTROUBLEShOOTing gUiDE, cOnTinUED....gLOSSaRy OF TERMSActivate: To turn ON a particular function. Aileron/Elevator Control Stick: Controls the Aileron and Elevator axes. The Aileron/Elevator Control Stick length is adjustable to suit your preference.Aileron Trim Switch: Used to control the Aileron axis Right and Left trim.Ailvator: Ailvator mixes ailerons and elevator, allowing you to have both roll control and pitch control on the elevator, separate from the ailerons. When Activated, not only will the two elevator halves move up and down together, but each elevator half can move up and down independently like ailerons. This function is commonly referred to as tailerons or stabilators.Antenna: Transmits the signal from the transmitter to the receiver in the model. The Antenna should be pivoted into the vertical position during use. When not in use, the Antenna should be collapsed into the horizontal position to prevent damage during handling and transport. Antenna Reception Wires: The portion of each of the receiver antenna wires that actually receives the transmitter signal. The Antenna Reception Wires should never be bent or they could be damaged and limit the range of the receiver.Battery Compartment: Houses the 6 cells that power the transmitter. The transmitter uses 6 cells for lighter weight and better feel, while still providing long usage time and high power output.Binding: The act of pairing the transmitter and receiver to prevent interference from transmitters operated by other users. The transmitter and receiver must be paired so that the two can 'talk' to each other. Once the Binding process is complete, the setting is remembered even when the transmitter and receiver are turned OFF.Bind Button: Used to Bind the transmitter and receiver. Also used to enter Low-Power Range Check mode. Bind LED: Displays the current status of the transmitter and receiver pair. CCPM: Collective, Cyclic, Pitch Mixing. CCPM is software-controlled mixing that allows control of the collective, cyclic and pitch using three (and sometimes four) servos. This allows lower mechanical complexity and greater control precision. In this conguration the cyclic and collective controls are mixed.CCPM Servo End Point Adjustment: The CCPM End Point Adjustment function allows you to adjust servo travel in each direction for the elevator, aileron, and pitch servos independently. Unlike standard End Point Adjustment, which affects all the cyclic servos, CCPM End Point Adjustment allows you to adjust each cyclic servo independently without any affect on the other cyclic servos.Charging Jack: Used for onboard charging of the Ni-Cd or Ni-MH transmitter batteries.
Page 83REFEREncEgLOSSaRy OF TERMS, cOnTinUED....Coaxial Cables: The portion of each receiver antenna wire that extends the Antenna Reception Wires. The Coaxial Cables can be bent into gentle curves, however, do not bend the Coaxial Cables acutely, or repeatedly bend them, or the antenna wire's cores can be damaged.Compensation Mixing: Allows you to mix two channels together, then apply that mixing to the channels themselves. Useful if you need to program a mix that is not already pre-programmed.Delta Mixing: Delta mixing, more commonly referred to as Elevon mixing, combines the use of aileron and elevator from two separate control surfaces to provide both roll and pitch control.Differential: The Differential function allows you change the ratio of the Up to Down movement of each aileron. The Aileron Differential function can be used to eliminate aircraft yaw tendency by adding more movement to the upward moving aileron than the downward moving aileron.Digital Trim Memory: Allows the transmitter to store trim values in its memory. The amount of control surface trim that you set during ight using the trim switches is automatically stored in memory for that specic channel and for that specic model. The trim values for each model will automatically be loaded when the transmitter is turned ON.Direct Model Select: Direct Model Select allows you to select one of three of your most-used models from memory without going through the Model Select menu.Dual Rate: The Dual Rate function allows you to change the control authority of the control surfaces by changing the amount of servo travel. You can use Dual Rate to lower the control throw with just the ip of the Dual Rate switch.Elevator Trim Switch: Used to control the Elevator axis Up and Down trim.End Point Adjustment: The End Point Adjustment function allows you to adjust servo travel in each direction. This makes it possible to balance control surface throw in both directions. For example, if you want your elevator to move Up and Down two inches in each direction, but the elevator moves Down more than two inches, decrease the End Point Adjustment in the Down direction, so that the elevator moves Up and Down the same amount.Exponential: The Exponential function allows you to vary the amount of servo travel in relation to the movement of the elevator, aileron, and rudder control sticks near the neutral positions to change the way the control surfaces react to control stick movement. Increasing the Exponential value will soften the control feel around neutral and decreasing the Exponential value will heighten the control feel around neutral.Fail Safe: The Fail Safe function automatically sets the servos to a predetermined position in the event that the signal between the transmitter and the receiver is interrupted, whether due to signal degradation or to a low transmitter battery.FH1 Modulation: Frequency Hopping 1st generation FHSS technology. FHSS: Frequency Hopping Spread Spectrum. FHSS is a modulation type which transmits data across the entire frequency spectrum by transmitting data on different channels at an extremely fast interval.Flaperons: Flaperons is a mix of aps and ailerons, allowing you to use the ailerons as aps if your model does not feature separate aps. When Activated, both ailerons are moved down at the same time to provide the function of aps, while still providing aileron roll control.Flight Modes: Flight Modes allow you to change the ying characteristics of your model with the ip of a switch. For example, you can have one Flight Mode for normal ying and a second Flight Mode for aerobatic ying. Flip the Flight Mode switch from Flight Mode FN (Normal) to Flight Mode F1 and your model is now programmed with all of your 'Aerobatic' Flight Mode programming. With three programmable Flight Modes available for each Model Type, the combinations of model programming is highly-congurable.Flight Mode Key: Allows you to cycle through the three different Flight Modes during programming.Gyro: A Gyro is an electronic device, that coupled with a high-speed servo linked to the tail rotor control arm, is used to stabilize a helicopter's yaw axis.Inhibit: To deactivate or turn OFF a particular function.Landing Gear Switch: Used to control the operation of the Landing Gear channel. This channel is a non-proportional channel, and is ideal for controlling the retractable landing gear or any other non-proportional control function on your model.Low-Power  Mode: The  Low-Power  Mode  function  lowers  the  transmitter's  RF  output  level  to  check  radio  signal  reception (Range Check). Use this function to check radio signal reception on the ground, prior to ight.REFERENCE
Page 84gLOSSaRy OF TERMS, cOnTinUED....Model Name: The Model Name function allows you to name each of your individual models. This makes it easy to keep track of multiple models. The Model Name can consist of up to 8 letters, numbers, or symbols. Choose from capital letters, lower case letters, numbers, and various symbols.Model Select: The Model Select function allows you to load the programming for the particular model you wish to y. The Programming Data for all of your models is accessed through the Model Select menu.Multi-Function LCD: The heart of the programming and  display features of  the transmitter. All  programming and transmitter display functions are shown on the Multi-Function LCD.Navigation Pad: The Navigation Pad is used in conjunction with the Programming Keys to facilitate transmitter programming. The Navigation Pad allows you to quickly and easily move the Programming Cursor up and down, and right and left. The ENTERkey in the center of the Navigation Pad is used to open the selected menu or programming option.Neck Strap Anchor: Used to attach your neck strap (available separately) to the transmitter.Ni-MH: Short for Nickel Metal Hydride, a Ni-MH battery typically has about two to three times the capacity of an equivalently sized Ni-Cd (Nickel Cadmium) battery, therefore, they are ideal for use to power both the transmitter and the receiver.Offset: The Offset function allows you to shift and hold the neutral position of the Slave servo within a Compensation Mix.Operating Voltage: The safe voltage that the transmitter or receiver can operate within. Exceeding the minimum operating voltage can result in loss of power to the device(s). Exceeding the maximum operating voltage can result in damage to the devices(s).Output  Power: The power (in Milliwatts) that your transmitter transmits a signal. Output power is dened by government guidelines and differs by region.Pitch Curve: The Pitch Curve function allows you to vary the amount of pitch travel in relation to the movement of the throttle control stick at different points throughout the entire range of deection.Power Indicator: Indicates that there is power to the transmitter. When the battery voltage drops to 6.7 volts, the audible Low Voltage Alarm will sound.Power Switch: Turns the transmitter ON and OFF.Programming  Keys: The Programming Keys are used to facilitate transmitter programming and select models stored in memory. The four Programming Keys consist of the INC+/M1 (Increase/Model 1) key, the DEC-/M2 (Decrease/Model 2) key, the END/M3 (End/Model 3) key, and the F-MODE (Flight Mode) key.RF Output Indicator: Illuminates when the transmitter is turned ON and transmitting a signal. If the RF Output Indicator fails to illuminate, RF output is limited or non-existent. In this case, you should not y. The RF Output Indicator will ash when the transmitter Trainer mode is set to Slave.Rudder Trim Switch: Used to control the Rudder axis Right and Left trim.Servo Centering Sub-Trim: The Servo Centering Sub-Trim function allows you to ne-tune the Center (Neutral) position of each servo. It's not unusual that when you install the servo horn onto your servo that the servo horn is not perfectly centered. The Servo Centering Sub-Trim function allows you to center the servo horn perfectly.Servo Monitor: The Servo Monitor displays the output levels of each of the 6 channels in bar graph form, allowing you to monitor servo operation in a virtual manner. This is helpful to see servo movement when the control sticks and switches are moved, and it allows you to visualize what is occurring with servo movements when you apply different mixing values. The Servo Monitor also indicates which channel slots in the receiver to plug your servos intoServo Reversing: Electronically switches the direction of servo travel. For example, if you move the elevator control stick forward, and the elevator moves up, you can use the Servo Reversing function to make the elevator move down.Spoilerons: Spoilerons is a mix of spoilers and ailerons, allowing you to use the ailerons as spoilers if your model does not feature separate spoilers. When Activated, both ailerons are moved up at the same time to provide the function of spoilers, while still providing aileron roll control.Stopwatch Timer: The Stop Watch timer is used to either count down from a programmed Start time (Count Down mode) or to count up from zero if no Start time is programmed (Count Up mode). In Count Down mode, an audible tone will sound in 1 second intervals when the Stop Watch reaches 10 seconds from zero. When zero is reached, a long audible tone will sound and the Stop Watch will begin to count up. In Count Up mode, an audible tone will sound at 1 minute intervals to remind you that the count down time (zero) has been surpassed. One of its more popular uses is to use it as a fuel usage indicator to remind you to land within an allotted amount of time to ensure that your model doesn't run out of fuel.Swashplate: The swashplate changes the pilot's linear cyclic (and often collective) control inputs into rotary blade pitch angle changes in the main rotor. It is the position of the swashplate that determines which direction the rotor disk will move in.REFEREncE
Page 85Temperature Range: The range in temperature of the outside air that the transmitter can safely and reliably operate in.Throttle/Rudder Control Stick: Controls the Throttle and Rudder axes. The Throttle/Rudder Control Stick length is adjustable to suit your preference. Throttle Cut: The Throttle Cut function allows you to set a specic position that the throttle servo will move to. The Throttle Cut function is primarily used to shut down your engine after ight.Throttle Hold: The Throttle Hold function allows you to set a specic position that the throttle servo will Hold and not respond to the throttle control stick. This function is typically used when ying helicopters to Hold the throttle at idle or low speed, while still allowing you full pitch control. This is ideal for practicing auto-rotations and is also a good safety feature on electric helicopters, because when Activated, the rotor head will not spin up if you accidentally bump the throttle control stick up.Throttle Trim Switch: Used to control the Throttle axis Up and Down trim.Trainer Port: The Trainer Port is where the trainer cable (available separately) is plugged into. An adapter to use the transmitter with a ight simulator can also be plugged into the Trainer Port.Trainer System: Provides a way of training pilots to y. During use, one transmitter acts as the Master (Instructor) and the other transmitter acts as the Slave (Student). The Instructor controls the Student's model as long as the Trainer Switch is released. Once the Instructor maneuvers the model to a safe altitude, the Instructor holds the Trainer Switch and the Student has control of the model. The Student will have control of the model as long as the Instructor holds the Trainer Switch. Once the Trainer Switch is released, the Instructor will have control of the model once again. If at any time the Instructor feels that the Student is in a situation that endangers the model, the Instructor releases the Trainer Switch and control of the model returns instantly to the Instructor.Trim Switch: Used to control the center trim of the channel that the Trim Switch is adjacent to.Type (Model Type): The Type function allows you to quickly set up the transmitter's low-level mixing based on the type of model you're ying. Common templates for AERO (Aircraft) and HELI (Helicopters) are provided. This takes the guess-work out of setting up more complex models.V-Tail Mixing: V-Tail mixing combines the use of elevator and rudder to provide pitch and yaw control. V-Tail mixing is commonly found on gliders and sailplanes that don't feature a separate vertical n and horizontal stabilizer.Z-Connector: The type of servo and battery connector used by Airtronics. The Z-Connector is a universal connector which is electronically compatible with the airborne components of other radio control system manufacturers.gLOSSaRy OF TERMS, cOnTinUED....REFEREncEinDEXSymbols2.4GHz Frequency Band, Precautions  4AActive Flight Mode, Diagram of  16Aero Model Type, General Information  22Aero Model Type, Programming Menu Flow Chart  22Aero Model Type, Transmitter Layout  23Aileron Control Stick, Diagram of  7Aileron/Elevator Control Stick, Denition of  8, 82Aileron Differential, Denition of. See DifferentialAileron Differential, Programming  39Aileron Trim Switch, Denition of  8, 82Aileron Trim Switch, Diagram of  7Ailvator, Denition of  82Ailvator Mixing, Programming  44Airborne System Connections, Overview  13Alarms, Flight Mode Warning  9Alarms, Low Voltage  9Alarms, Trainer Mode Warning  10Analog Servos, Using and Recommendations  10Antenna Reception Wires, Receiver - Denition of  8, 82Antenna Reception Wires, Receiver - Diagram of  13Antenna Reception Wires, Receiver - Mounting  18Antenna, Transmitter - Denition of  8, 82Antenna, Transmitter - Diagram of  7Antenna, Transmitter - Orientation of  4, 7BBasic Model Setup  11Battery, Receiver - Charging  14REFERENCE
Page 86REFEREncEBBattery, Receiver - Connection  13Battery, Receiver - Options  10Battery, Receiver - Using a Li-Po Battery  13Batteries, Transmitter - Charging  14Batteries, Transmitter - Installing  13Battery Compartment, Denition of  8, 82Battery Compartment, Diagram of  7Battery Capacity Indicator, Denition of  16Battery Capacity Indicator, Diagram of  16Bind Button, Denition of  8, 82Bind Button, Receiver - Diagram of  8Bind Button, Transmitter - Diagram of  7Binding. See Transmitter and Receiver BindingBinding, Denition of  82Bind LED, Denition of  8, 82Bind LED, Receiver - Diagram of  8Bind LED, Transmitter - Diagram of  7CCCPM, Denition of  82CCPM End Point Adjustment, Denition of  82CCPM End Point Adjustment, Programming  64Centering. See Servo Centering Sub-TrimCharging Jack, Denition of  8, 82Charging Jack, Diagram of  7Coaxial Cables, Denition of  8, 83Coaxial Cables, Diagram of  8Coaxial Cables, Mounting  18Compensation Mixing, Denition of  83Compensation Mixing, Programming - Aero Model Type  47Compensation Mixing, Programming - Heli  Model Type  77Compensation Mixing Switch, Diagram of  7, 23, 53Connector Type. See Servo ConnectorsControl Sticks, Adjusting Length  19Count Up Timer, Using - Aero Model Type  28Count Up Timer, Using - Heli Model Type  59Current Drain, Transmitter - Specication  6DData Copy, Using - Aero Model Type  29Data Copy, Using - Heli Model Type  59Data Reset, Using - Aero Model Type  29Data Reset, Using - Heli Model Type  60DEC-/M2 Key, Overview  15Delta Mixing, Denition of  83Delta Mixing End Point Adjustment Programming  46Differential, Denition of  83Differential, Programming. See Aileron DifferentialDigital Servos, Using and Recommendations  10Digital Trim Memory, Denition of  83Digital Trim, Programming - Aero Model Type  36Digital Trim, Programming - Heli Model Type  69Dimensions, Receiver - Specication  6Direct Model Select, Denition of  83Direct Model Select Keys, Overview  15Direct Model Select, Using - Aero Model Type  24Direct Model Select, Using - Heli Model Type  54Dual Elevator Mixing End Point Adjustment, Programming  42Dual Rate, Denition of  83Dual Rate Switch, Diagram of  23, 53Dual Rate, Overview - Aero Model Type  35Dual Rate, Overview - Heli Model Type  67Dual Rate, Programming - Aero Model Type  35Dual Rate, Programming - Heli Model Type  67Dual Rate, Using - Aero Model Type  34Dual Rate, Using - Heli Model Type  66EElevator Control Stick, Diagram of  7Elevator Trim Switch, Denition of  8, 83Elevator Trim Switch, Diagram of  7Elevon Mixing. See Delta MixingEnd/M3 Key, Overview  15inDEX, cOnTinUED....
Page 87REFEREncEinDEX, cOnTinUED....EEnd Point Adjustment, Denition of  83End Point Adjustment, Programming - Aero Model Type  32End Point Adjustment, Programming - Heli Model Type  63Enter Key, Overview  15Exponential, Denition of  83Exponential, Overview - Aero Model Type  35Exponential, Programming - Aero Model Type  36Exponential, Using - Aero Model Type 34Exponential, Using - Heli Model Type  66Exponential, Overview - Heli Model Type  68Exponential, Programming - Heli Model Type  68FFail Safe, Denition of  83Fail Safe, Programming  17FCC Compliance Statement  3Features, General System  6Features, Aircraft Specic  6Features, Helicopter Specic  6FH1 Modulation, Denition of  83FHSS, Denition of  83Flaperon Mixing, Programming  40Flaperons, Denition of  83Flap to Elevator Mixing, Programming  41Flight Modes, Denition of  83Flight Modes, Overview 15Flight Modes, Using  15Flight Mode Display. See Active Flight ModeFlight Mode Key, Denition of  83F-MODE (Flight Mode) Key, Overview  15Flight Mode Switches, Diagram of  23, 53Flight Mode Warning Alarm  9, 20GGyro, Denition of  83Gyro. See Remote Gyro GainH Heli Model Type, Programming Menu Flow Chart  52IInhibit, Denition of  83Input Voltage, Receiver - Specication  6INC+/M1 Key, Overview  15LLanding Gear Switch, Denition of  83Landing Gear Switch, Diagram of  23LCD. See Multi-Function LCDLithium Polymer (Li-Po) Battery, Using with Receiver  13Low-Power Mode, Denition of  83Low-Power Mode, Using  19Low Voltage Alarm  9MMixing, Ailvator. See Ailvator Mixing, ProgrammingMixing, CCPM Swashplate Options  55, 56Mixing, Delta. See Delta Mixing End Point Adjustment, ProgrammingMixing, Dual Elevator. See Dual Elevator Mixing End Point Adjustment, ProgrammingMixing, Elevator to Flaperon/Spoileron - Compensation Mixing Example  50Mixing, Flap to Elevator. See Flap to Elevator Mixing, ProgrammingMixing, Flaperon. See Flaperon Mixing, ProgrammingMixing, Revolution. See Revolution Mixing, ProgrammingMixing, Rudder to Throttle - Heli Model Type Compensation Mixing Example  79Mixing, V-Tail. See V-Tail Mixing, ProgrammingModel Name, Denition of  84Model Name, Display Overview  16Model Name, Entering - Aero Model Type  24Model Name, Entering - Heli Model Type  54Model Name, Deleting a Character - Aero Model Type  25Model  Name, Deleting a Character - Heli Model Type  55Model Name, Deleting - Aero Model Type  25Model Name, Deleting - Heli Model Type  25Model Number, Display Overview  16REFERENCE
Page 88inDEX, cOnTinUED....MModel Select, Denition of  84Model Select, Using - Aero Model Type  23Model Select, Using - Heli Model Type  53Model Select. See Direct Model SelectModel Type, Changing - Aero Model Type  25Model Type, Changing - Heli Model Type  55Model Type, Options - Aero Model Type  25Model Type, Options - Heli Model Type  56Model Type, Saving - Aero Model Type  26Model Type, Saving - Heli Model Type  56Model Type Icon, Display Overview  16Multi-Function LCD, Denition of  9, 24Multi-Function LCD, Diagram of  7Multi-Function LCD, Overview  16NNavigation Pad, Denition of  84Navigation Pad, Diagram of  7Navigation Pad, Overview  15Neck Strap Anchor, Denition of  9, 84Neck Strap Anchor, Diagram of  7Ni-MH (Nickel-Metal Hydride), Denition of  84Nominal Input Voltage, Receiver - Specication  6OOffset, Denition of  84Offset, Programming. See Compensation Mixing, ProgrammingOperating Voltage, Denition of  84Operating Voltage, Receiver. See Nominal Input Voltage, Receiver - SpecicationOperating Voltage, Transmitter - Specication  6Optional Items  10Output Power, Denition of  84Output Power, Transmitter - Specication  6PPackaging  2Peak-Detection Charger, Warning Using with Transmitter  14Pitch Curve, Denition of  84Pitch Curve, Programming - Heli Model Type  72Power Indicator, Denition of  9, 84Power Indicator, Diagram of  7Power Supply, Transmitter  6Power Switch, Denition of  9, 84Power Switch, Diagram of  7Precautions, 2.4GHz Frequency Band. See 2.4GHz Frequency Band, PrecautionsPrecautions, Receiver. See Receiver, PrecautionsPrecautions, Transmitter. See Transmitter, PrecautionsProgramming Keys, Denition of  9, 84Programming Keys, Diagram of  7Programming Keys, Overview  15Programming Menus Flow Chart, Aero Model Type  22Programming Menus Flow Chart, Heli Model Type  52Pulse Width, Transmitter - Specication  6RRange Checking. See Low-Power Mode, UsingReceiver, Additional Receiver Information  3Receiver, Airborne System Connections  13Receiver, Antenna Reception Wires. See Antenna Reception WiresReceiver Battery, Options  10, 14Receiver, Binding. See Transmitter and Receiver BindingReceiver, Features  8Receiver, Nominal Input Voltage - Specication  6Receiver, Using a Li-Fe/A123 or Li-Po Battery  13Receiver, Mounting  18Receiver, Precautions  5Revolution Mixing, Programming - Heli Model Type  74RF Output Indicator, Denition of  84RF Output Indicator, Diagram of  7Rudder Control Stick, Diagram of  7Rudder Trim Switch, Denition of  9, 84Rudder Trim Switch, Diagram of  7REFEREncE
Page 89inDEX, cOnTinUED....SSafety, General  4Servo Centering Sub-Trim, Denition of  84Servo Centering Sub-Trim, Programming - Aero Model Type  31Servo Centering Sub-Trim, Zeroing out Trim - Aero Model Type  32Servo Connectors, Overview  9Servo Monitor, Denition of  84Servo Monitor, Using - Aero Model Type  50Servo Monitor, Using - Heli Model Type  80Servo Recommendations  10Servo Reversing, Denition of  84Servo Reversing, Programming - Aero Model Type  30Servo Reversing, Programming - Heli Model Type  61Specications, System  6Spoilerons, Denition of  84Stopwatch Timer, Denition of  84Stopwatch Timer, Setting - Aero Model Type  28Stopwatch Timer, Setting - Aero Model Type  58Stopwatch Timer, Using - Aero Model Type  28Stopwatch Timer, Using - Aero Model Type  59Swashplate, Denition of  84Swashplate, Setup  64Swashplate, Type Selection Options  55, 56TTemperature Range, Denition of  85Temperature Range, Transmitter - Specication  6Throttle Control Stick, Diagram of  7Throttle/Rudder Control Stick, Denition of  9, 85Throttle Curve, Programming - Aero Model Type  37Throttle Curve, Programming - Heli Model Type  69Throttle Cut, Denition of  85Throttle Cut, Programming - Aero Model Type  33Throttle Cut, Programming - Heli Model Type  51Throttle Hold, Denition of  85Throttle Hold, Activating and Programming - Heli Model Type  71Throttle Trim Lock, Programming - Aero Model Type  37Throttle Trim Lock, Programming - Heli Model Type  69Throttle Trim Switch, Diagram of  7Throttle Trim Switch, Denition of  9, 85Timers. See Stopwatch TimerTimers. See Count Up TimerTips and Suggestions  11, 12Trainer Mode Warning Alarm  10Trainer Port, Diagram of  7Trainer Port, Denition of  9, 85Trainer Cable, Optional Recommendation  10Trainer Status Indicator, Display Overview  16Trainer System, Activating - Aero Model Type  27Trainer System, Activating - Heli Model Type  57Trainer System, Denition of  85Trainer System, Connections - Aero Model Type  26Trainer System, Connections - Heli Model Type  57Trainer System, Using - Aero Model Type  27Trainer System, Using - Heli Model Type  58Transmitter and Receiver Binding  17Transmitter Batteries, Installing  13Transmitter Batteries, Charging  14Transmitter, Low Voltage Alarm  9Transmitter, Precautions  4Trim. See Digital Trim MemoryTroubleshooting  81, 82Type. See Model TypeVVoltage Indicator, Denition of  16Voltage Indicator, Display Overview  16Voltage Regulator, Using with Receiver  13V-Tail Mixing, Denition of  85V-Tail Mixing End Point Adjustment, Programming  45ZZ-Connector. See Servo ConnectorsZ-Connector, Denition of  85REFEREncEREFERENCE
Page 90SETUP ShEETSaERO SETUP ShEETUse this Aero Setup Sheet to help you keep track of each of your model's Programming Data. Before lling out this Setup Sheet for the rst time, make several copies of it to use with multiple models.
Page 91SETUP ShEETSSETUP SHEETShELi SETUP ShEETUse this Heli Setup Sheet to help you keep track of each of your model's Programming Data. Before lling out this Setup Sheet for the rst time, make several copies of it to use with multiple models.
Page 92Airtronics is Distributed Exclusively in North America by:Global Hobby Distributors18480 Bandilier CircleFountain Valley, CA 92708Telephone: (714) 963-0329Fax: (714) 964-6236Email: service@airtronics.nethttp://globalservices.globalhobby.comhttp://www.airtronics.netFeatures and Specications are Subject to Change Without Notice.All contents © 2010 Airtronics, Inc.All Rights Reserved. Revision 1-06.14.2010The manufacturer disclaims all responsibility for damages resulting from use of componentsother than those included with or designated for use with this product.

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