Futaba 9CAFsuper, 9CAPsuper, 9CHPsuper, 9CHFsuper, 9CPsuper User Manual

9CAP super / 9CAF super

9CHP super / 9CHF super

9CP super

9 CHANNEL RADIO CONTROL SYSTEM

INSTRUCTION MANUAL

Technical updates and additional programming examples available at: http://www.futaba-rc.com/faq/faq-9c.html

1M23N09617

TABLE OF CONTENTS

INTRODUCTION ........................................................... 3

Additional Technical Help, Support and Service ........ 3

Application, Export and Modification......................... 4

Meaning of Special Markings ..................................... 5

Safety Precautions (do not operate without reading) .. 5

Introduction to the 9C super ........................................ 7

Contents and Technical Specifications ........................ 9

Accessories ................................................................ 10

Transmitter Controls &

Switch Identification/Assignments............................ 11

Charging the Ni-Cd Batteries .................................... 14

Stick Adjustments ...................................................... 15

Adjusting display contrast ......................................... 15

Changing mode.......................................................... 15

CAMPac data conversion (9C to 9C super) .............. 15

Radio Installation & Range Checking ....................... 16

Aircraft Frequencies .................................................. 17

Transmitter Displays and Buttons ............................. 18

Warning and Error Displays ...................................... 19

AIRPLANE (ACRO) FUNCTIONS ............................... 20

Map of Functions....................................................... 21

Quick Guide to Setting up a 4-channel Airplane....... 22

THROTTLE-NEEDLE................................................. 58

THROTTLE DELAY ................................................... 59

Linear, Prog. mixes 1-5 ......................................... 60

Curve, Prog. mixes 6-7 .......................................... 63

GYA gyro mixing (GYRO SENSE) .......................... 65

Other Equipment ....................................................... 66

GLIDER (GLID1FLAP/2FLAP/2FL-C) FUNCTIONS ..... 67

Table of contents........................................................ 67

Getting Started with a Basic 4-CH Glider ................. 68

GLIDER-SPECIFIC BASIC MENU FUNCTIONS ... 70

Model type (PARAMETERS submenu).................... 70

GLIDER-SPECIFIC ADVANCE MENU FUNCTIONS ....... 71

BUTTERFLY ........................................................ 71,76

FLAP-AILE (GLID2FLAP only)................................. 72

AILE-FLAP (GLID2FLAP/2FL-C only) ...................... 72

START OFS (Launch/Start Setup) (GLID1FLAP/2FLAP

only) ...................................................................... 73

SPEED OFS (Minimum Drag Setup) (GLID1FLAP/

2FLAP only) ........................................................... 74

OFFSETS (Additional flight conditions) (GLID2FL-C

only) ...................................................................... 75

Channel 3’s function selection (SW/MODE ).......... 77

ACRO BASIC MENU FUNCTIONS ............................... 25

MODEL Submenu: MODEL SELECT, COPY and NAME 25 PARAMETER Submenu: TYPE, MODUL, ATL, AIL2,

& RESET ..................................................................... 28

Servo REVERSE .......................................................... 31

END POINT ................................................................. 32

Idle Management: IDLE DOWN and THR-CUT ............ 33

Dual/Triple Rates and Exponential (D/R, EXP).......... 35

TIMER Submenu ......................................................... 38

Auxiliary Channel assignments and CH9 reverse (AUX-

CH) ............................................................................. 39

TRAINER ..................................................................... 40

TRIM and SUB-TRIM ................................................... 41

SERVO Display ........................................................... 42

Fail Safe and Battery FailSafe (F/S) .......................... 43

ACRO ADVANCE MENU FUNCTIONS .......................... 44

Wing types ................................................................. 44

FLAPERON .............................................................. 45

FLAP TRIM ............................................................. 46

Aileron Differential (AIL-DIFF) .............................. 47

Using a 5-channel receiver: AIL-2 ......................... 48

ELEVON (see tail types) .......................................... 49

Tail types ................................................................... 49

ELEVON .................................................................. 49

Twin Elevator Servos (AILEVATOR) ....................... 50

V-TAIL ..................................................................... 51

SNAP ROLL ................................................................. 52

Mixes: definitions and types...................................... 54

ELEV-FLAP.............................................................. 55

AIRBRAKE/BUTTERFLY (crow) ............................... 56

Airbrake switch selection (SW SELECT) ................ 56

HELICOPTER (SW…) FUNCTIONS.......................... 78

Table of contents and reference info for helicopters . 78

Getting Started with a Basic Helicopter .................... 79

HELI-SPECIFIC BASIC MENU FUNCTIONS ........ 82

MODEL TYPE (PARAMETERS submenu) ................. 83

SWASH AFR (swashplate surface direction and travel

correction) (not in SWH1) ...................................... 84

SWASH-THR (swash to throttle mixing) (not in

SWH1) .................................................................... 85

Setting up the Normal Flight Condition ................ 86

THR-CUT (specialized settings for helicopter specific

models) .................................................................. 87

HELI-SPECIFIC ADVANCE MENU FUNCTIONS ... 88

THROTTLE HOLD .................................................... 88

THR-CURVE, PIT-CURVE and REVO ......................... 89

Idle-ups .................................................................. 90

Trims/offset ........................................................... 91

Delay ..................................................................... 92

Hovering setups ..................................................... 93

High/low pitch ....................................................... 94

Gyros and governors ............................................. 95

Glossary ....................................................................... 100

Note that in the text of this manual, beginning at this point, any time we are using a feature’s specialized name or abbreviation, as seen on the screen of the 9C super, that name, feature, or abbreviation will be exactly as seen on the radio’s screen, including capitalization and shown in a DIFFERENT TYPE STYLE for clarity. Any time we mention a specific control on the radio itself, such as moving

WITCH A, KNOB VR(B), or the THROTTLE STICK, those

words will be displayed as they are here.

INTRODUCTION

Thank you for purchasing a Futaba® 9C super series digital proportional R/C system. This system is extremely versatile and may be used by beginners and pros alike. In order for you to make the best use of your system and to fly safely, please read this manual carefully. If you have any difficulties while using your system, please consult the manual, our online Frequently Asked Questions (on the web pages referenced below), your hobby dealer, or the Futaba Service Center.

Owner’s Manual and Additional Technical Help

This manual has been carefully written to be as helpful to you, the new owner, as possible. There are many pages of setup procedures and examples. However, it need not be your sole resource of setup guidelines for your 9C super. For example, pages 22-24 include setup instructions for a basic 4-channel airplane. The Frequently Asked Questions web page referenced below includes this type of step-by-step setup instructions for a variety of other model types, including multiengine, complex gear installation, 7-servo aerobatic models, 140 degree CCPM, etc.

Due to unforeseen changes in production procedures, the information contained in this manual is subject to change without notice.

Support and Service: It is recommended to have your Futaba equipment serviced annually during your hobby’s “off season” to ensure safe operation.

IN NORTH AMERICA

Please feel free to contact the Futaba Service Center for assistance in operation, use and programming. Please be sure to regularly visit the 9C super Frequently Asked Questions web site at www.futaba-rc.com\faq\faq-9c.html. This page includes extensive programming, use, set up and safety information on the 9C super radio system and is updated regularly. Any technical updates and US manual corrections will be available on this web page. If you do not find the answers to your questions there, please see the end of our F.A.Q. area for information on contacting us via email for the most rapid and convenient response.

Don’t have Internet access? Internet access is available at no charge at most public libraries, schools, and other public resources. We find internet support to be a fabulous reference for many modelers as items can be printed and saved for future reference, and can be accessed at any hour of the day, night, weekend or holiday. If you do not wish to access the internet for information, however, don’t worry. Our support teams are available Monday through Friday 8-5 Central time to assist you.

FOR SERVICE ONLY:

Futaba Service Center

3002 N. Apollo Drive, Suite 1

Champaign, IL 61822

Phone: 217-398-0007

www.hobbyservices.com

OUTSIDE NORTH AMERICA

Please contact your Futaba importer in your region of the world to assist you with any questions, problems or service needs.

Please recognize that all information in this manual, and all support availability, is based upon the systems sold in North America only. Products purchased elsewhere may vary. Always contact your region’s support center for assistance.

(PROGRAMMING AND USER QUESTIONS)

Please start here for answers to most questions:

www.futaba-rc.com\faq\faq-9c.html

PHONE: 217-398-8970 option 4

FOR SUPPORT :

FACSIMILE: 217-398-7721

Application, Export, and Modification

1. This product may be used for model airplane or surface (boat, car, robot) use, if on the correct frequency. It is not intended for use in any application other than the control of models for hobby and recreational purposes. The product is subject to regulations of the Ministry of Radio/Telecommunications and is restricted under Japanese law to such purposes.

2. Exportation precautions: (a) When this product is exported from the country of manufacture, its use is to be approved by the laws governing the country of destination which govern devices that emit radio frequencies. If this product is then re-exported to other countries, it may be subject to restrictions on such export. Prior approval of the appropriate government authorities may be required. If you have purchased this product from an exporter outside your country, and not the authorized Futaba distributor in your country, please contact the seller immediately to determine if such export regulations have been met.

(b) Use of this product with other than models may be restricted by Export and Trade Control Regulations, and an application for export approval must be submitted. In the US, use of 72MHz (aircraft only), 75MHz (ground models only) and 27MHz (both) frequency bands are strictly regulated by the FCC. This equipment must not be utilized to operate equipment other than radio controlled models. Similarly, other frequencies (except 50MHz, for HAM operators) must not be used to operate models.

3. Modification, adjustment, and replacement of parts: Futaba is not responsible for unauthorized modification, adjustment, and replacement of parts on this product. Any such changes may void the warranty.

The Following Statement Applies to the Receiver (for U.S.A.)

This device complies with part 15 of the FCC rules. 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 undesirable operation.

The RBRC™ SEAL on the nickel-cadmium battery contained in Futaba products indicates that Futaba Corporation of America is voluntarily participating in an industry-wide program to collect and recycle these batteries at the end of their useful lives, when taken out of service within the United States. The RBRC™ program provides a convenient alternative to placing used nickel-cadmium batteries into the trash or municipal waste system, which is illegal in some areas.

(for USA)

You may contact your local recycling center for information on where to return the spent battery. Please call 1-800-8BATTERY for information on Ni-Cd battery recycling in your area. Futaba Corporation of America’s involvement in this program is part of its commitment to protecting our environment and conserving natural resources.

NOTE: Our instruction manuals encourage our customers to return spent batteries to a local recycling center in order to keep a healthy environment.

RBRC is a trademark of the Rechargeable Battery Recycling Corporation.

Meaning of Special Markings

Pay special attention to safety where indicated by the following marks:

DANGER - Procedures which may lead to dangerous conditions and cause death/serious injury if not carried out properly.

WARNING - Procedures which may lead to a dangerous condition or cause death or serious injury to the user if not

carried out properly, or procedures where the probability of superficial injury or physical damage is high.

CAUTION - Procedures where the possibility of serious injury to the user is small, but there is a danger of injury, or physical damage, if not carried out properly.

= Prohibited = Mandatory

Warning: Always keep electrical components away from small children.

FLYING SAFETY

To ensure the safety of yourself and others, please observe the following precautions:

Have regular maintenance performed. Although your 9C super protects the model memories with non-volatile EEPROM memory (which does not require periodic replacement) and not a battery, it still should have regular checkups for wear and tear. We recommend sending your system to the Futaba Service Center annually during your nonflying-season for a complete checkup and service.

Ni-Cd Battery

Charge the batteries! (See Charging the Ni-Cd batteries, p. 14, for details.) Always recharge the transmitter and

receiver batteries for at least 8 hours before each flying session. A low battery will soon die, causing loss of control and a crash. When you begin your flying session, reset your 9C super’s built-in timer, and during the session pay attention to the duration of usage.

Stop flying long before your batteries become low on charge. Do not rely on your radio’s low battery warning systems, intended only as a precaution, to tell you when to recharge. Always check your transmitter and receiver batteries prior to each flight.

Where to Fly

We recommend that you fly at a recognized model airplane flying field. You can find model clubs and fields by asking your nearest hobby dealer, or in the US by contacting the Academy of Model Aeronautics.

You can also contact the national Academy of Model Aeronautics (AMA), which has more than 2,500 chartered clubs across the country. Through any one of them, instructor training programs and insured newcomer training are available. Contact the AMA at the address or toll-free phone number below.

Academy of Model Aeronautics

5151 East Memorial Drive

Muncie, IN 47302-9252

Tele. (800) 435-9262

Fax (765) 741-0057

or via the Internet at http:\\www.modelaircraft.org

Always pay particular attention to the flying field’s rules, as well as the presence and location of spectators, the wind direction, and any obstacles on the field. Be very careful flying in areas near power lines, tall buildings, or communication facilities as there may be radio interference in their vicinity.

If you must fly away from a club field, be sure there are no other modelers flying within a three-to-five-mile range, or you may lose control of your aircraft or cause someone else to lose control.

At the flying field

Before flying, be sure that the frequency you intend to fly with is not in use, and secure any frequency control device (pin, tag, etc.) for that frequency before turning on your transmitter. It is never possible to fly two or more models on the same frequency at the same time. Even though there are different types of modulation (AM, FM,

PCM), only one model may be flown on a single frequency at any one time.

To prevent possible damage to your radio gear, turn the power switches on and off in the proper sequence:

1. Pull throttle stick to idle position, or otherwise disarm your motor/engine.

2. Turn on the transmitter power and allow your transmitter to reach its home screen.

3. Confirm the proper model memory has been selected.

4. Fully extend the transmitter antenna.

5. Turn on your receiver power.

6. Test all controls. If a servo operates abnormally, don’t attempt to fly until you determine the cause of the problem.

(For PCM systems only: Test to ensure that the FailSafe settings are correct by waiting at least 2 minutes after adjusting then, turning the transmitter off and confirming the proper surface/throttle movements. Turn the transmitter back on.)

7. Start your engine.

8. Complete a full range check (see p. 17).

9. After flying, bring your throttle stick to idle position, engage any kill switches or otherwise disarm your motor/engine.

10. Turn off receiver power.

11. Turn off transmitter power.

If you do not turn on your system in this order, you may damage your servos or control surfaces, flood your engine, or in the case of electric-powered or gasoline-powered models, the engine may unexpectedly turn on and cause a severe injury.

While you are getting ready to fly, if you place your transmitter on the ground, be sure that the wind won’t tip it over. If it is knocked over, the throttle stick may be accidentally moved, causing the engine to speed up. Also,

damage to your transmitter may occur.

Before taxiing, be sure to extend the transmitter antenna to its full length.

A collapsed antenna will reduce your flying range and cause a loss of control. It is a good idea to avoid pointing the transmitter antenna directly at the model, since the signal is weakest in that direction.

Don’t fly in the rain! Water or moisture may enter the transmitter through the antenna or stick openings and cause erratic operation or loss of control. If you must fly in wet weather during a contest, be sure to cover your transmitter with a plastic bag or waterproof barrier. Never fly if lightning is expected.

A QUICK INTRODUCTION TO THE 9C super SYSTEM

Note that in the text of this manual, beginning at this point, any time we are using a feature’s specialized name or abbreviation as seen on the screen of the 9C super, that name, feature, or abbreviation will be exactly as seen on the radio’s screen, including capitalization and shown in a DIFFERENT TYPE STYLE for clarity. Any time we mention a specific control on the radio itself, such as moving S

WITCH A, KNOB VR(B), or the THROTTLE STICK, those words will be

displayed as they are here.

TRANSMITTER:

• Large graphic liquid-crystal display panel with 4 buttons and an easy set up turn-and-press Dial for quick, easy setup.

•All transmitters include all 3 aircraft types with specialized programming for each, including:

• Airplane (ACRO)

• V-tail

• ELEVON

• AIRBRAKE

• Twin Aileron Servos (FLAPERON and AIL-DIFF)

• Twin Elevator Servos (AILEVATOR)

• Snap Roll (4 separate directions available)

• Gyro Mixing

• Helicopter (6 swashplate types, including CCPM, see page 82)(HELI)

• 3 Idle Ups

• Revo. Mixing

• Delay

• Throttle and Pitch Curves per Condition

• Gyro Mixing including Separate Settings per Condition

• Governor Mixing

• Sailplane/Glider (3 wing types)(GLID)

• V-tail

• ELEVON

• START OFFSET

• Twin Ailerons (FLAPERON and AIL-DIFF)

• Crow (BUTTERFLY)

• SPEED OFFSET

• 4 Flight Conditions (NORM/ OFFSET-1/2/3)(GLID2FL-C only)

• BASIC menu for quick, easy set up of less complex models.

• ADVANCE menu for more complex, unique setups.

• Four electronic T

RIM LEVERS for rapid yet precise trim adjustment - no remembering to “store trims” between models and

no more “bumped trims” during transport.

• IDLE- DOWN (ACRO) and THR-CUT (ACRO/HELI) (engine shut off) setups to allow precise engine control for taxi and

landings.

• 12 complete model memories with 6 more per optional CAMPac.

• New stick design with improved feel, adjustable length and tension.

• Triple rates available by setting dual rates to 3-position switches.

• Eight S

WITCHES, 3 DIALS and 2 SLIDERS; completely assignable in most applications.

• Trainer system includes the “functional” (FUNC) setting, which allows the student to use the 9C super’s mixing, helicop-

ter, and other programming functions even with a 4-channel buddy box. (Optional trainer cord required.)

• Transmits in both FM (PPM) and PCM by selecting modulation/cycling transmitter. Requires receiver of proper modula-

tion.

• Permanent memory storage via EEPROM with no backup battery to service or have fail.

• 9CA super transmitter features airplane friendly switch layout, with the trainer switch at the left hand (Mode 2), and a

notched throttle to minimize throttle changes with rudder input. Defaults to ACRO MODEL TYPE.

• 9CH super transmitter features helicopter-friendly switch layout, with idle-up and throttle hold switches at the left hand,

and a smooth, ratchet-less (unsprung) throttle for perfect hovering. Defaults to HELI(SW1) MODEL TYPE.

• Change transmitter mode from mode 2 to modes 1, 3, or 4. (See P. 15)

MODULE: TP72-FM

• Module may be easily removed and a module on a different channel (or even band) reinserted to change the frequency on which the 9C super transmits.

• Module transmits both FM (PPM) and PCM. No need for a second module.

• All transmission circuitry is included in the module, so no retuning is needed when changing channels or even bands.

• Frequency band is changed by inserting a module on the proper band, including for international or ground model use.

• In North America it is against FCC regulation to change the crystal within the transmitter module to a different channel. All such transmitter crystal changes must be performed by a certified radio technician. Failure to properly tune a system to its new channel may result in decreased range and may also result in interference to other types of frequency users on adjoining channels. Doing so also voids your AMA insurance.

• The FSS synthesized module for the 9Z family of radios is NOT compatible with the 9Csuper.

• Radio system beeps and RF

LIGHT goes out to indicate module is not installed and radio is not transmitting.

• Non-Futaba brand modules are not FCC certified for use with this radio and therefore are against FCC regulation to use. Doing so also voids your AMA insurance.

• TP75FM modules may also be used with the 9C super for ground use modules such as robotics, rocketry, trains, cars, and boats.

RECEIVER: R138/R148/R149

• The R138 or R148 FM 8-channel or the R138 PCM 8-channel or R149 PCM 9-channel receiver included with your system is a high-sensitivity narrow-band dual-conversion receiver.

• Note that your 9C super transmitter is capable of transmission on both PPM (FM) and PCM with just a simple programming change and just turning the transmitter off and back on. (See p. 30.)

• Any Futaba narrow band FM receiver (all produced after 1991) on the correct frequency band and frequency may be used with the 9C super.

• Any Futaba PCM 1024 receiver on the right frequency band and frequency may be used with the 9C super (all 1024 receivers say PCM1024; receivers which say PCM but not 1024 are 512 resolution and not compatible).

NEVER attempt to change a receiver’s band by simply changing crystal (IE removing a 72MHz crystal and inserting a 75MHz crystal). A receiver that has a crystal installed from a different frequency band without retuning will not receive properly and will have dramatically decreased range.

• In North America the receiver included with this system may have its frequency changed by simply changing the crystal as long as it remains in the same half the band. A low band receiver between channels 11 and 35 may be changed to any other channel between 11 and 35 without requiring any tuning. A high band receiver between channels 36 and 60 may similarly be changed. Receivers being changed from a high band channel to a low band or vice versa require proper tuning and service by the Futaba Service Center.

SERVOS

• Please see technical specifications page for specifics on the servos included with your system.

• The included receiver is compatible with all J-plug Futaba servos, including retract, winch, and digital servos.

CONTENTS AND TECHNICAL SPECIFICATIONS

(Specifications and ratings are subject to change without notice.)

Your 9CAP super or 9CHP super (packaged with a 8 or 9-channel PCM receiver), 9CAF super or 9CHF super (packaged with an 8-channel FM receiver) system includes the following components:

• 9C super Transmitter, including RF module (TP)

• R138DF, R148DF, R138DP, or R149DP Receiver

• Servos, S3151, S9252, S3001 or S9001, with mounting hardware and servo arm assortment

• Switch harness

• Aileron extension cord

• 110V wall charger (North America)

• Frequency Flag

The set contents depend on the type of set.

Transmitter band may only be changed by changing the module. Contact Futaba Service Center regarding adjustability of receiver band. Band cannot be changed by simply changing crystals.

Transmitter T9C super

Operating system: 2-stick, 9 channels, PCM1024 system Transmitting frequency: 29, 35, 36, 40, 41, 50, 72 or 75 MHz bands Modulation: FM/PPM or PCM, switchable Power supply: 9.6V NT8S700B Ni-Cd battery Current drain: 280 mA

Receiver R149DP (PCM Dual conversion)

Receiving frequency: 29, 35, 36, 40, 41, 50, or 72 MHz bands Intermediate freq.: 10.7 MHz & 455 kHz Power requirement: 4.8 - 6.0V Ni-Cd battery Current drain: 14 mA Size: 1.28 x 2.17 x 0.82 in. (32.6 x 55.0 x 20.8 mm) Weight: 1.22 oz. (34.5 g) Channels: 9

Receiver R138DP (PCM Dual conversion)

Receiving frequency: 75 MHz bands Intermediate freq.: 10.7 MHz & 455 kHz Power requirement: 4.8 - 6.0V Ni-Cd battery Current drain: 27 mA Size: 2.56 x 1.42 x 0.85 in. (65 x 36 x 21.5 mm) Weight: 1.42 oz. (40.3 g) Channels: 8

Receiver R148DF (FM Dual conversion)

Receiving frequency: 50 or 72 MHz bands Intermediate freq.: 10.7MHz & 455 kHz Power requirement: 4.8 - 6.0V Ni-Cd battery Current drain: 14 mA Size: 1.0 x 2.2 x 0.9 in. (25.4 x 55.8 x 22.9 mm) Weight: 1.1 oz. (31.2 g) Channels: 8

Receiver R138DF (FM Dual conversion)

Receiving frequency: 35 or 40 MHz bands Intermediate freq.: 10.7MHz & 455 kHz Power requirement: 4.8 - 6.0V Ni-Cd battery Current drain: 20 mA Size: 2.56 x 1.42 x 0.85 in. (65 x 36 x 21.5 mm) Weight: 1.42 oz. (40.3 g) Channels: 8

Servo S9252 (Digital servo)

Control system: Pulse width control, 1.52 ms neutral Power requirement: 4.8 V (from receiver) Output torque: 91.7 oz.-in. (6.6 kg-cm) at 4.8V Operating speed: 0.14 sec/60 at 4.8V Size: 1.57 x 0.79 x 1.44 in. (40 x 20 x 36.6 mm) Weight: 1.76 oz. (50 g)

Servo S3151 (Standard, Digital servo)

Control system: Pulse width control, 1.52 ms neutral Power requirement: 4.8 V (from receiver) Output torque: 43.1 oz.-in. (3.1 kg-cm) at 4.8V Operating speed: 0.21 sec/60 at 4.8V Size: 1.59 x 0.79 x 1.42 in. (40.5 x 20 x 36.1 mm) Weight: 1.48 oz. (42 g)

Servo S9001 (Coreless motor)

Control system: Pulse width control, 1.52 ms neutral Power requirement: 4.8 - 6.0V (from receiver) Output torque: 54.2 oz.-in. (3.9 kg-cm) at 4.8V Operating speed: 0.22 sec/60 at 4.8V Size: 1.59 x 0.78 x 1.41 in. (40.4 x 19.8 x 36 mm) Weight: 1.69 oz. (48 g)

Servo S3001 (Standard, ball-bearing)

Control system: Pulse width control, 1.52 ms neutral Power requirement: 4.8 - 6.0V (from receiver) Output torque: 41.7 oz.-in. (3.0 kg-cm) Operating speed: 0.22 sec/60 Size: 1.59 x 0.78 x 1.41 in. (40.4 x 19.8 x 36 mm) Weight: 1.59 oz. (45.1g)

The following additional accessories are available from your dealer. Refer to a Futaba catalog for more information:

• CAMPac Memory module - the optional DP-16K CAMPac increases your model storage capability (to 18 models from

12) and allows you to transfer programs to another 9C super transmitter. Note that data cannot be transferred to/from any other model of transmitter (i.e. 8U, 9Z, etc).

However, CAMPac which saved the data of the conventional 9C transmitter is convertible for the data of this 9C super transmitter. See p.15 for the conversion method.

Insertion of a CAMPac containing data of a different transmitter type (ex: 9Z) will result in a complete CAMPac data reset and loss of all data.

• NT8S Transmitter battery pack - the (700mAh) transmitter Ni-Cd battery pack may be easily exchanged with a fresh one to provide enough capacity for extended flying sessions.

• Trainer cord - the optional training cord may be used to help a beginning pilot learn to fly easily by placing the instructor on a separate transmitter. Note that the 9C super transmitter may be connected to another 9C super system, as well as to many other models of Futaba transmitters. The 9C super transmitter uses the newer rectangular type cord plug. Both new-to-new and new-to-round plug style trainer cords are available.

• FTA8 Neckstrap - a neckstrap may be connected to your T9C super system to make it easier to handle and improve your flying precision, since your hands won’t need to support the transmitter’s weight.

• Y-harnesses, servo extensions, etc - Genuine Futaba extensions and Y-harnesses, including a heavy-duty version with heavier wire, are available to aid in your larger model and other installations.

• 5-cell (6.0V) receiver battery packs - All Futaba airborne equipment (except that which is specifically labeled otherwise) is designed to work with 4.8V (Ni-Cd 4 cells) or 6.0V (Ni-Cd 5 cells or alkaline 4 cells). Using a 6.0V pack increases the current flow to the servos, which accelerates their rate of response and their torque. However, because of this faster current draw, a 5-cell battery pack of the same mAh rating will last approximately 3/4 the time of a 4-cell pack.

• R309DPS - Synthesized receiver which can be changed to any 72MHz frequency with the turn of 2 dials, no tuning needed.

• Gyros - a variety of genuine Futaba gyros are available for your aircraft or helicopter needs. See p.65 for aircraft or p. 95 for helicopter gyro information.

• Governor (GV1) - for helicopter use. Automatically adjusts throttle servo position to maintain a constant head speed regardless of blade pitch, load, weather, etc. See p. 97 for details.

• DSC Cord - allows setup and testing without transmitting. Requires DSC compatible receiver (R149DP or R309DPS) and DSC cord. With Transmitter and Receiver off, plug cord into trainer port then, into receiver battery slot. All programing and setup may be done in this manner without transmitting.

• TP72FM modules - additional modules on other frequencies within the 50MHz (licensed operators only) and 72 Mhz bands may be purchased to utilize your transmitter with receivers on other frequencies. Additionally, the TK and TJ75MHz modules may be used with the 9C super. (See p.8)

• Receivers - various models of receivers may be purchased for use in other models. (See p. 8.)

TRANSMITTER CONTROLS - AIRPLANE

CAMPac or Dust Cap

VR(B)

VR(A)

CH8 Knob

Flap Trim Control

This controls CH6, and if flaperon mixing is activated controls the flap.

SW(B)

Rudder Dual Rate Switch

SW(A)

Elevator Dual Rate

Switch

SW(F)

Snap Roll or

Trainer Switch

SW(E)

Landing Gear

Switch

/CH5

VR(D)

Rudder

/Throttle

Stick

Antenna

Be careful not to bend your antenna when you collapse or extend it.

Antenna must be fully extended when flying.

Carrying Handle

VR(C)

Spoiler/CH7 Control

This knob is disabled if aileron differential is activated.

SW(C)

Elevator - Flap Mixing or Airbrake Mixing Switch

SW(D)

Aileron Dual Rate Switch

SW(H)

SW(G)

VR(E)

Elevator

/Aileron

Stick

Power

LED*

Throttle

Trim Lever

LED**

Elevator Trim Lever

Aileron Trim Lever

Rudder

Trim Lever

Edit Keys

Hook

(for optional neckstrap)

Edit keys

LCD Panel

Dial

Power Switch

(Up position: ON)

This figure shows the default switch assignments for a 9CA super Mode 2 system as supplied by the factory.

You can change many of the switch positions or functions by selecting a new position within

the setting menu for the function you wish to move. (Example: move aileron dual rates to switch C

to create triple rates. See p. 35 for details.)

* Power LED blinks to indicate if any mix switches are activated.

** RF LED is blue when the transmission link is solid and the radio is transmitting properly.

TRANSMITTER CONTROLS - HELI

CAMPac or Dust Cap

VR(A)

Hovering - Pitch Knob

SW(B)

Rudder Dual Rate Switch

SW(A)

Elevator Dual Rate

Switch

SW(F)

Idle-up 3 Switch

SW(E)

Idle-up 1&2

Switch

VR(D)

Throttle/Collective

Pitch & Rudder Stick

VR(B)

CH8 Knob

Antenna

Be careful not to bend your antenna when you collapse or extend it.

Antenna must be fully extended when flying.

Carrying Handle

VR(C)

Hovering - Throttle Knob

SW(C)

CH 7/Governor Switch

SW(D)

Aileron Dual Rate Switch

SW(H)

SW(G)

Trainer Switch

Throttle - Hold Switch

VR(E)

Elevator

/Aileron

Stick

Power

LED*

Throttle/Collective

Trim Lever

Rudder

Trim Lever

Edit Keys

Hook

(for optional neckstrap)

Power Switch

(Up position: ON)

Edit keys

LCD Panel

LED**

Elevator Trim Lever

Aileron Trim Lever

Dial

This figure shows the default switch assignments for a 9CH super Mode 2 system as supplied by the factory.

You can change many of the switch positions or functions by selecting a new position within

the setting menu for the function you wish to move. (Example: move aileron dual rates to switch C

to create triple rates. See p. 35 for details.)

* Power LED blinks to indicate if any mix switches are activated.

** RF LED is blue when the transmission link is solid and the radio is transmitting properly.

To remove, press the tabs together and gently pull rearwards. To install, line up the connector pins with the socket in the rear of the module and gently snap into position.

RF module

Trainer function /DSC function connector

Charging jack

Ni-Cd battery pack

PUSH

Battery connector location

NOTE: If you need to remove or replace the transmitter battery, do not pull on its wires to remove it. Instead, gently pull on the connector's plastic housing where it plugs into the transmitter.

Battery cover

SWITCH ASSIGNMENT TABLE

• The factory default functions activated by the switches and knobs for a 9CA Mode 2 transmitter are shown below.

• Most 9C super functions may be reassigned to non-default positions quickly and easily.

• Basic control assignments of channels 5-9 are quickly adjustable in AUX-CH (see p. 39). For example, the channel 5 servo, which defaults to SWITCH E for retract use, can easily be unassigned (NULL) to allow for easy use as a second rudder servo in a mix, or to a slider or dial for bomb door or other control.

• Note that most functions need to be activated in the programming to operate.

• 9CA Mode 1, 9CH, and 9CP transmitter functions are similar but reverse certain switch commands. Always check that you have the desired switch assignment for each function during set up.

Switch/Knob

Airplane (ACRO) Sailplane/Glider (GLID) Helicopter (HELI)

A or H Tx.

WITCH A elevator dual rate elevator dual rate

elevator dual rate

down = butterfly on

WITCH B rudder dual rate rudder dual rate rudder dual rate WITCH C up = ELE-FLP on

center/down = IDLE-DOWN

up = ELE-FLP on center/down = IDLE-DOWN

governor/ch 7

down = AIRBRAKE on

WITCH D aileron dual rate aileron dual rate aileron dual rate WITCH E OR G* landing gear/ch 5 GLID1FLAP = gear throttle hold

WITCH F OR H* snap roll/trainer trainer trainer/THR-CUT

WITCH G OR E* none back = SPEED OFFSET

idle-up 1 and 2

fwd = START OFFSET GLID2FL-C: OFFSET 1/2

WITCH H OR F* none GLID2FL-C: OFFSET 3 idle-up3/ch 5/gyro

NOB A flap/ch 6

(flap trim if FLAPERON on)

GLID1FLP: flap (flap trim if FLAPERON on)

HOVERING PITCH

GLID2FLAP: camber (flap trim if FL-AIL off)

KNOB B ch 8 ch 8 ch 8

NOB C spoiler/ch 7

(disabled if AIL-DIFF on)

NOB D none GLID1FLAP: ch 5 none

LIDER E none none none

*On the 9CA Mode 2 transmitters, the TOP LEFT SWITCHES are spring-loaded and 2-position; on the 9CA Mode 1, 9CH, and 9CP, those switches are on the right side. For consistency, the switch position’s designation remains the same (upper left is F, etc), but the functions are moved to match the switch type.

spoiler/ch 7 (disabled if AIL-DIF on)

HOVERING THROTTLE

RECEIVER AND SERVO CONNECTIONS

Receiver Output and

Aircraft (ACRO) Glider (GLID1FLAP/GLID2FLAP/GLID2FL-C)

Helicopter (HELI)

Channel

1 ailerons/right aileron

/combined right flap & aileron

aileron (cyclic roll) 2 elevator elevator (cyclic pitch) 3 throttle throttle 4 rudder rudder

1,3

5 spare/landing gear/left aileron

2,3

aileron

right flap (GLD2FLAP/GLID2FL-C)

/combined left flap and

6 spare/ flap(s)/combined left flap and aileron 7 spare/left aileron 8 spare/second elevator servo

/mixture control spare

spare/gyro

pitch (collective pitch)

spare/governor

9 spare spare

Aileron Differential mode (AIL-DIFF). (See p. 47).

Flaperon mode. (See p. 45).

Using Second Aileron option, second aileron servo output is sent to channels 5 and 6 to allow use of a 5-channel receiver.

( AIL-2) (See p. 48)

AILEVATOR (dual elevator) mode. (See p. 50).

CHARGING THE Ni-Cd BATTERIES Charging Your System’s Batteries

1. Connect the transmitter charging jack and airborne Ni-Cd batteries to the transmitter and receiver connectors of the charger.

2. Plug the charger into a wall socket.

3. Check that the charger LED lights.

The initial charge, and any charge after a complete discharge,

Charger

should be at least 18 hours to ensure full charge. The batteries should be left on charge for about 15 hours when recharging the standard NR-4J, NR4F1500 and NT8S700B Ni-Cd batteries.

TX: Transmitter charging indicato

RX: Receiver charging indicator

To transmitter charging jack

We recommend charging the batteries with the charger supplied with your system. Note that the use of a fast charger may

damage the batteries by overheating and dramatically reduce their lifetime.

Receiver Ni-Cd battery

You should fully discharge your system’s Ni-Cd batteries periodically to prevent a condition called memory.

For example, if you only make two flights each session, or you regularly use only a small amount of the batteries capacity, thememory effect can reduce the actual capacity even if the battery is fully charged. You can cycle your batteries with a commercial cycling unit*, or by leaving the system on and exercising the servos by moving the transmitter sticks until the transmitter shuts itself off. Cycling should be done every four to eight weeks, even during the winter or periods of long storage. Keep track of the batteries capacity during cycling; if there is a noticeable change, you may need to replace the batteries.

*Note that the 9C super transmitter system has electronic protection from overcharging and reverse polarity via a poli-switch. It does NOT have a diode in the charge circuit and may be discharged/peak charged with the battery in the transmitter.

DO NOT attempt to charge your 8-cell transmitter pack on the 4-cell receiver plug of the wall charger!

Adjusting the length of the non-slip control sticks

Stick tip ALocking piece B

comfortable to hold and operate. To lengthen or shorten your transmitter’s sticks, first unlock the stick tip by holding locking piece B and turning stick tip A counterclockwise. Next, move the locking piece B up or down (to lengthen or shorten). When the length feels comfortable, lock the position by turning locking piece B counterclockwise.

Stick lever tension adjustment

You may change the length of the control sticks to make your transmitter more

Aileron

Elevator

Stick Stick

Mode 2 transmitter with rear cover removed.

Rudde

You may adjust the tension of your sticks to provide the feel that you prefer for flying. To adjust your springs, you’ll have to remove the rear case of the transmitter. First, remove the battery cover on the rear of the transmitter. Next, unplug the battery wire, and remove the battery and RF module from the transmitter. While you are removing the RF module, pay attention to the location of the pins that plug into the back of the module. Next, using a screwdriver, remove the four screws that hold the transmitter’s rear cover in position, and put them in a safe place. Gently ease off the transmitter’s rear cover. Now you’ll see the view shown in the figure above.

Using a small Phillips screwdriver, rotate the adjusting screw for each stick for the desired spring tension. The tension increases when the adjusting screw is turned clockwise.

When you are satisfied with the spring tensions, reattach the transmitter's rear cover. Check that the upper printed circuit board is on its locating pins, then very carefully reinstall the rear cover being mindful to guide the RF module connector pins through the slot in the case. When the cover is properly in place, reinstall and tighten the four screws. Reinstall the battery, cover and module.

Adjusting Display Contrast:

To adjust the display contrast, from tha home menu press and hold the End button. Turn the dial while still holding the End button:

clockwise to brighten counterclockwise to darken the display

Let go off the dial and the button.

Changing Modes:

Hold down the Mode and End buttons while turning on the Transmitter. The screen reads "STK-MODE". Change this to the correct mode. Note that this will NOT change the throttle and elevator rachets, etc. Those are mechanical changes that must be done by a service center. [Note] While changing modes, the transmitter transmits in PPM mode even if the set-up mode is PCM mode.

CAMPac data conversion (9C to 9C super):

Hold down the Mode and End buttons while turning on the Transmitter. Select "T9C-Pac > UPDATE" by Cursol button. Then press the Dial for 1 second for starting the data conversion. Note that the converted CAMPac cannot be used with a conventional 9C transmitter. [Note] While data conversion, the transmitter transmits in PPM mode even if the set-up mode is PCM mode.

RADIO INSTALLATION

While you are installing the battery, receiver, switch harness and servos into your model’s fuselage, please pay attention to the following guidelines:

Wood screw

Use the supplied rubber grommets when you mount each servo. Be sure not to over-tighten the screws. If any portion of the servo case directly contacts the fuselage

Rubber grommet

Brass eyelet

Servo moun or rail

or the servo rails, the rubber grommets will not dampen the vibration, which can cause mechanical wear and servo failure.

Servo Throw

Once you have installed the servos, operate each one over its full travel and check that the pushrod and output arms do not bind or collide with each other, even at extreme trim settings. Check to see that each control linkage

does not require undue force to move (if you hear a servo buzzing when there is no transmitter control motion, most likely there is too much friction in the control or pushrod). Even though the servo will tolerate loads, any unnecessary load applied to the servo arm will drain the battery pack quickly.

Switch Harness Installation

When you are ready to install the switch harness, remove the switch cover and use it as a template to cut screw holes and a rectangular hole slightly larger than the full stroke of the switch. Choose a switch location on the opposite side of the fuselage from the engine exhaust pipe, and pick a location where it can’t be inadvertently turned on or off during handling or storage. Install the switch so it moves without restriction and snaps from ON to OFF and vice versa.

Receiver Antenna

It is normal for the receiver antenna to be longer than the fuselage. DO NOT cut or fold it back on itself — cutting or folding changes the electrical length of the antenna and may reduce range. Secure the antenna to the top of the vertical fin, and let the excess wire length trail behind. You may run the antenna inside of a non-metallic housing within the fuselage, but range may suffer if the antenna is located near metal or carbon fiber pushrods or cables. Be sure to perform a range check before flying.

Receiver Notes

When you insert servo, switch or battery connectors into the receiver, note that each plastic housing has an alignment tab. Be sure the alignment tab is oriented properly before inserting the connector. To remove a connector from the receiver, pull on the connector housing rather than the wires.

If your aileron servo (or others) are too far away to plug into the receiver, use an aileron extension cord to extend the length of the servo lead. Additional Futaba extension cords of varying lengths are available from your hobby dealer.

Always use an extension of the proper length. Avoid plugging multiple extensions together to attain your desired length. If distance is greater than 18” or multiple or high current draw servos are being used, use Futaba Heavy-Duty servo extensions.

Receiver Vibration and Waterproofing

The receiver contains precision electronic parts. Be sure to avoid vibration, shock, and temperature extremes. For protection, wrap the receiver in foam rubber or other vibration-absorbing materials. It is also a good idea to waterproof the receiver by placing it in a plastic bag and securing the open end of the bag with a rubber band before wrapping it with foam rubber. If you accidentally get moisture or fuel inside the receiver, you may experience intermittent operation or a crash. If in doubt, send the receiver for service.

Range Testing Your R/C System

Please note that different systems demonstrate different range checks and the same system will range check differently in different conditions. Also, the receiver antenna's installation affects the range test -- exiting the top of the model is ideal. This is a brief explanation of range test. For more in-depth specifics on receiver antenna mounting, additional checks if unsatisfactory rage is demonstrated, range checking with gasoline powered engines, etc, please see our F.A.Q. page at www.futaba-rc.com.

• Leave the transmitter's antenna retracted and be sure both batteries are fully charged.

• Position the aircraft away from wires, other transmitters, etc.

Test one - engine/motor off, minimum of 100 ft. range

• Have a friend view the model but not hold it, engine off. (People conduct signals, too!)

• Walk away from the model, working all controls constantly. Stop when the servos jitter significantly (a jitter here and there is normal), control movement stops (PCM), or you lose control altogether.

• Measure the distance. If greater than 100 feet, great! Proceed to Test 2. Less than 100 feet of range check means you need more information to determine if your system is safe to fly. Please see our web site or call support for additional tests to perform before flying your system.

• Repeat with friend holding the model. Note any differences.

Test two - engine/motor on

• Repeat the test with the model's engine running and with someone holding the model. If a decrease of more than 10% is noted, research and resolve the cause of interference prior to flying your model.

What your fully operational system demonstrates is the normal range for your system in those conditions. Before every flying session, it is critical that you perform a range check. It is also required by the AMA Safety Code. If you notice a significant decrease in range with fully charged batteries, do not attempt to fly.

Aircraft (fixed wing and helicopter) Frequencies

The following frequencies and channel numbers may be used for flying aircraft in the United States:

72 MHz band Ch. MHz Ch. MHz

11 72.010 36 72.510 12 72.030 37 72.530 13 72.050 38 72.550 14 72.070 39 72.570 15 72.090 40 72.590

50 MHz Band Ch. MHz Ch. MHz

00 50.800 01 50.820 02 50.840 03 50.860 04 50.880 05 50.900 06 50.920 07 50.940 08 50.960 09 50.980

(Amateur Radio Operator “HAM” license required)

16 72.110 41 72.610 17 72.130 42 72.630 18 72.150 43 72.650

Installing your frequency number flag:

19 72.170 44 72.670 20 72.190 45 72.690 21 72.210 46 72.710 22 72.230 47 72.730 23 72.250 48 72.750 24 72.270 49 72.770 25 72.290 50 72.790 26 72.310 51 72.810 27 72.330 52 72.830

It is very important that you display your transmitting channel number at all times. To install your flag, peel off the chan-

nel number’s backing sheet, and carefully stick the numbers to both sides of the number holder. Now you can snap the number holder onto the lower portion of the antenna as shown in the figure — use the clip that fits more snugly on your antenna. You may wish to cut off the other, unused clip on the other side of the flag.

28 72.350 53 72.850 29 72.370 54 72.870 30 72.390 55 72.890 31 72.410 56 72.910 32 72.430 57 72.930 33 72.450 58 72.950 34 72.470 59 72.970 35 72.490 60 72.990

TRANSMITTER DISPLAYS & BUTTONS

When you first turn on your transmitter, a confirmation double beep sounds, and the screen shown below appears. Before flying, or even starting the engine, be sure that the model type and name appearing on the display matches the model that you are about to fly! If you are in the wrong model memory, servos may be reversed, and travels and trims will be wrong, leading to an immediate crash.

Edit buttons and Start-up Screen (appears when system is first turned on):

MIX: Mixer Alert Pac: CAMPac display (9Csuper data)

Model number

and name

Throttle/Elevator trim

display

Mode

key

End

key

Timers

Rudder trim

display

T9C: CAMPac display (9C data)

Modulation indicator

(PCM shown)

Battery voltage

Aileron trim

display

keys

Elevator/Throttle trim

display

Total timer display <TIMER>

Shows the cumulated ON time. (hours:minutes)

Up/down timer display <S1.S2>

(minutes:seconds)

Model timer display <S3>

Shows the cumulated ON time for each model.(hours:minutes)

Resetting timers:

Select the desired timer with Select key. The timer display flashes. To reset the timer, press Dial for one second.

DialSelect

ODE/PAGE BUTTON: (key)

Press and hold M BASIC and ADVANCE menus. HELI only: Press M

ND BUTTON: (key)

Press E

ELECT/CURSOR BUTTONS: (key)

ND BUTTON to return to previous screen. Closes functions back to menus, closes menus to start-up screen.

Press S

ODE BUTTON for one second to open programming menus. Press MODE BUTTON to switch between

ODE BUTTON to scroll between conditions in certain functions.

ELECT/CURSOR BUTTONS to scroll through and select the option to edit within a function.

ELECT/CURSOR BUTTONS to page up/page down within BASIC or ADVANCE menu.

Turn Dial:

Turn D

IAL clockwise or counterclockwise to quickly scroll through functions within each menu.

IAL clockwise or counterclockwise to scroll through choices within an option of a function (for example, to

select which switch controls dual/triple rates).

Press Dial:

Press D

IAL to select the actual function you wish to edit from the menu.

IAL and hold one second to confirm major decisions, such as the decision to: select a different model from

memory, copy one model memory over another, trim reset, store channel position in FailSafe, change model type, reset entire model. System will ask if you are sure. Press D

IAL again to accept change.

WARNING & ERROR DISPLAYS

An alarm or error indication may appear on the display of your transmitter for several reasons, including when the transmitter power switch is turned on, when the battery voltage is low, and several others. Each display has a unique sound associated with it, as described below.

MODEL SELECTION ERROR: Warning sound: 5 beeps (repeated 3 times) The MODEL SELECTION warning is displayed when the transmitter attempts to load a model memory from a memory module (optional CAMPac) that is not currently plugged into the transmitter. When this occurs, model No. 01 is automatically loaded.

Do not fly until the proper model is loaded into memory! Reinsert the memory module, and recall the desired setup using the model select function.

LOW BATTERY ERROR: Warning sound: Continuous beep until transmitter is powered off. The LOW BATTERY warning is displayed when the transmitter battery voltage drops below 8.5V.

Land your model as soon as possible before loss of control due to a dead battery.

MIXER ALERT WARNING: Warning sound: 5 Beeps (repeated until problem resolved or overridden)

The MIXER ALERT warning is displayed to alert you whenever you turn on the transmitter with any of the mixing switches active. This warning will disappear when the offending switch or control is deactivated. Switches for which warnings will be issued at power-up are listed below:

ACRO:Throttle cut, idle-down, snap roll, airbrake GLID:Butterfly, Start and Speed mixing HELI:Throttle cut, throttle hold, idle-up

If turning a switch OFF does not stop the mixing warning: When the warning does not stop even when the mixing switch indicated by the warning display on the screen is turned off, the functions described previously probably use the same switch and the OFF direction setting is reversed. In short, one of the mixings described above is not in the OFF state. In this case, reset the warning display by pressing both S

ELECT BUTTONS simultaneously. Then change one of the switch settings

of the mixings duplicated at one switch.

BACKUP ERROR: War ning sound: 4 beeps (repeated continuously) The BACKUP ERROR warning occurs when the transmitter memory is lost for any reason. If this occurs, all of the data will be reset when the power is turned on again. [Note] At this warning display, the transmitter transmits in PPM mode even if the set-up mode is PCM mode.

Do not fly when this message is displayed — all programming has been erased and is not available. Return your transmitter to Futaba for service.

MEMORY MODULE INITIALIZE DISPLAY

This warning appears when an (optional) CAMPac memory module is used in the transmitter for the first time. When the

ODE BUTTON is pressed, initialization of the module begins, after which the memory module can be used. Once the

module is initialized, the display will not appear again.

The 9C super CANNOT convert data from other radio types (ie. 8U, 9Z). Installation of a CAMPac with data from another radio type will result in reinitialization of the CAMPac and loss of all data.

RF MODULE WARNING: Warning sound: A single long beep. The single beep lets you know that the RF module has been removed from the transmitter, or is not being read properly. The green RF light also goes out.

AIRCRAFT (ACRO) MENU FUNCTIONS

Please note that all BASIC menu functions are the same for airplanes (ACRO), sailplanes (GLID1FLAP/2FLAP/2FL-C), and helicopters (HELISWH1/SWH2/SWH4/SR-3/SN-3/SR-3s). The glider BASIC menu does not include IDLE-DOWN or THR-CUT; the helicopter BASIC menu includes additional features (swashplate adjustment and throttle/pitch curves and revo for Normal flight mode) that are discussed in the Helicopter section.

Map of ACRO BASIC functions ....................................... 21

Quick Guide to Setting up a 4-channel Airplane....... 22

ACRO BASIC MENU FUNCTIONS ............................... 25

MODEL Submenu: MODEL SELECT, COPY and NAME .25 PARAMETER Submenu: TYPE, MODUL, ATL, AIL2,

& RESET ..................................................................... 28

Servo REVERSE .......................................................... 31

END POINT ................................................................. 32

Idle Management: IDLE DOWN and THR-CUT ............ 33

Dual/Triple Rates and Exponential (D/R,EXP)........... 35

TIMER Submenu ......................................................... 38

Auxiliary Channel assignments and

CH9 reverse (AUX-CH) ............................................... 39