Sanwa ExzesX Operating instructions

Brand: Sanwa

Model: ExzesX

Category: Remote controlled toys

Type: Operating instructions

Page 1

Page 2

Packaging

The packaging of your Sanwa EXZES X 2.4GHz FHSS-3 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 return your radio control system 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 cOnTEnTS

Introduction ...................................................................................................................................................................................................... Page 3

Safety ......................................................................................................................................................................................................... Page 3

FCC Compliance Statement ..................................................................................................................................................................... Page 3

Usage Precautions .......................................................................................................................................................................................... Page 4

2.4GHz Frequency Band Precautions ..................................................................................................................................................... Page 4

Transmitter Precautions........................................................................................................................................................................... Page 4

Receiver Precautions ............................................................................................................................................................................... Page 4

Features and Specications ........................................................................................................................................................................... Page 5

System Features ....................................................................................................................................................................................... Page 5

System Specications .............................................................................................................................................................................. Page 5

Servo Recommendations ......................................................................................................................................................................... Page 5

Features Familiarization ................................................................................................................................................................................. Page 6

Transmitter Features Diagrams ............................................................................................................................................................... Page 6

Receiver Features Diagram ..................................................................................................................................................................... Page 7

Servo Connectors ..................................................................................................................................................................................... Page 7

Optional Items ........................................................................................................................................................................................... Page 7

Features Descriptions .............................................................................................................................................................................. Page 8

TX and RX Options and Connections ............................................................................................................................................................ Page 9

Gimbal Angle Adjustment ........................................................................................................................................................................ Page 9

Control Stick Length and Angle Adjustment.......................................................................................................................................... Page 9

Control Stick Spring Tension Adjustment .............................................................................................................................................. Page 9

Transmitter Battery Installation ............................................................................................................................................................. Page 10

Receiver Connections and Mounting ................................................................................................................................................... Page 10

Transmitter and Receiver Battery Options ............................................................................................................................................Page 11

Using Li-Po or Li-Fe Batteries ................................................................................................................................................................Page 11

LCD and Programming Keys ........................................................................................................................................................................ Page 12

Multi-Function LCD Overview and Programming Key Functions ...................................................................................................... Page 12

Function Pages .............................................................................................................................................................................................. Page 13

Menu Flow Chart ............................................................................................................................................................................................ Page 14

Transmitter and Receiver Binding ............................................................................................................................................................... Page 15

Function Page F1 ........................................................................................................................................................................................... Page 16

Steering Dual Rate .................................................................................................................................................................................. Page 16

End Point Adjustment ............................................................................................................................................................................ Page 17

Exponential ............................................................................................................................................................................................. Page 20

Adjustable Rate Control ......................................................................................................................................................................... Page 22

Servo Speed ............................................................................................................................................................................................ Page 24

Anti-Lock Braking ................................................................................................................................................................................... Page 26

Traction Control ...................................................................................................................................................................................... Page 27

Model Select, Model Naming, and Model Copy/Clear ......................................................................................................................... Page 30

Function Page F2 ........................................................................................................................................................................................... Page 32

Servo Sub-Trim ....................................................................................................................................................................................... Page 32

Track Timers ............................................................................................................................................................................................ Page 33

Servo Reversing ..................................................................................................................................................................................... Page 36

Starting Position ..................................................................................................................................................................................... Page 37

Throttle Hold ........................................................................................................................................................................................... Page 38

Brake Mixing ........................................................................................................................................................................................... Page 39

Compensation Mixing ............................................................................................................................................................................ Page 41

Servo Monitor .......................................................................................................................................................................................... Page 44

Function Page 3 ............................................................................................................................................................................................. Page 45

Transmitter Setup ................................................................................................................................................................................... Page 45

Audio Signal Sound ................................................................................................................................................................................ Page 47

Key Assignments .................................................................................................................................................................................... Page 49

User Naming ............................................................................................................................................................................................ Page 52

Fail Safe ................................................................................................................................................................................................... Page 53

Variable Rate Adjustment....................................................................................................................................................................... Page 55

Custom Menu .......................................................................................................................................................................................... Page 57

Battery Menu ........................................................................................................................................................................................... Page 58

Troubleshooting Guide ................................................................................................................................................................................. Page 59

Glossary of Terms ......................................................................................................................................................................................... Page 60

Index ............................................................................................................................................................................................................... Page 63

Notes............................................................................................................................................................................................................... Page 66

Page 3

inTRODUcTiOn

We appreciate your purchase of the Sanwa EXZES X 2.4GHz FHSS-3 radio control system. This Operating Manual is intended

to acquaint you with the many unique features of your state of the art radio control system. Please read this operating manual

carefully so that you may obtain maximum success and enjoyment from the operation of your new radio control system.

The EXZES X 2.4GHz FHSS-3 radio control system has been designed for the utmost in comfort and precise control of all types

of model cars and boats. We wish you the best of success and fun with your new purchase.

Additional 2.4GHz receivers can be purchased and paired with the EXZES X 2.4GHz FHSS-3 transmitter through the

Binding procedure. Please note that due to differences in the implementation of 2.4GHz technology among different

manufacturers, only Sanwa or Airtronics brand 2.4GHz FHSS-2 and FHSS-3 receivers are compatible with your radio control

system. See your local Sanwa or Airtronics dealer for more information.

Fcc cOMPLiancE STaTEMEnT

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:

Reorient or relocate the receiving antenna.

Increase the separation between the equipment and the receiver.

Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.

Consult 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.

 Changes or modications made to this equipment not expressly approved by Sanwa or Airtronics may void the FCC

authorization to operate this equipment.

RF Exposure Statement

This transmitter has been tested and meets the FCC RF exposure guidelines when used with the Sanwa or 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.

Be certain to read this Operating Manual in its entirety.

'Safety First' for yourself, for others, and for your equipment.

Observe all the rules of the eld, track, or lake where you

operate your radio control equipment.

If 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 NOT

operate your model again until you are certain the problem

has been corrected. TAKE NO CHANCES.

Your model can cause serious damage or injury, so please

use caution and courtesy at all times.

Do not expose the radio control system to water or excessive

moisture.

Please waterproof the receiver and servos by placing them

in a water-tight radio box when operating R/C model boats.

If you have little to no experience operating R/C models, we

strongly recommend you seek the assistance of experienced

modelers or your local hobby shop for guidance.

The 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 recharge

the transmitter battery.

SaFETY

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.

This is a high-output full-range radio control system that should well exceed the range needed for any surface model. For

safety, the user should perform a range test at the area of operation to ensure that the radio control system has complete

control of the model a the farthest reaches of the operational area. Rather than operating the model, we recommend that the user

enlist the help of a fellow modeler to walk the model to the farthest reaches of the track (or for boats, to walk the shore line well in

excess of the operational distance of the boat), then test for proper operation.



Page 4

USagE PREcaUTiOnS

TRanSMiTTER PREcaUTiOnS

In addition to the Safety and FCC Compliance sections on the previous page, please observe the following precautions when

installing and using your Sanwa EXZES X 2.4GHz FHSS-3 radio control system.

The receiver antenna consists of a coaxial cable and a reception wire (the thin tip at the end of the coaxial cable). When you

mount the receiver antenna, do not bend the reception wire. Reception performance decreases if the reception wire is bent.

The antenna wire is delicate, therefore, handle with care. Do not pull on the antenna wire with force. Do not cut or extend the

antenna wire.

The coaxial cable (the thicker portion or the antenna) can be bent into gentle curves, however, do not

bend the coaxial cable acutely, or repeatedly bend it, or the antenna core can be damaged.

The antenna wire should be installed into a vertical plastic tube per your particular model's assembly instructions. Keep the

receiver antenna as far away from the motor, battery, and ESC as possible.

There is a danger of runaway operation if connectors shake loose during use. Make sure that the receiver,

servo(s), and switch connectors are securely tted.

The receiver is susceptible to vibration, shock, and moisture. Take appropriate measures to protect against

vibration and moisture. Failure to take appropriate measures could result in runaway operation or damage to

the receiver. We suggest wrapping the receiver in shock-absorbing foam when installing it into your model.

When installing the receiver, avoid contact with any carbon or metal chassis components.

Contact between metal parts mounted on a model can result in electrical noise, which can adversely effect

receiver performance and possibly result in runaway operation or damage to your model.

With electric-powered models, be sure to t the motor with a noise suppression capacitor. Without a noise suppression

capacitor, excessive electrical noise generation can cause runaway operation and/or result in damage to your model.

Use rubber anti-vibration absorbers with servos. Direct transmission of engine vibration to servos can cause servo failure and

possibly result in runaway operation with damage to your model.

Turn 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.

Before use, double-check that the transmitter and receiver batteries have sufcient

power and/or are sufciently charged.

Never touch the transmitter antenna during use. Doing so may cause loss of transmitter output, making it

impossible to control your model.

The 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.

Do not expose the transmitter to excessive heat, moisture, fuel, exhaust

residue, etc. Do not expose the transmitter to excessive heat or direct sunlight.

Leaving the transmitter in direct sunlight can damage the LCD.

Do 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.

If the outer case becomes dirty, it can be cleaned with a soft dry cloth. If the outer case becomes soiled, it can be cleaned with

a damp cloth and liquid detergent. Do not use any solvents to clean the outer case. Solvents will damage the nish.

REcEivER PREcaUTiOnS

2.4gHz FREqUEncY BanD PREcaUTiOnS

The 2.4GHz frequency band may be used by other devices, or 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

checks with the transmitter as distant as possible from your model.

The response speed of the receiver can be affected if used where multiple 2.4GHz radio controllers are being used, therefore,

carefully check the area before use. Also, if response seems slow during use, stop your model immediately and discontinue use.

If the 2.4GHz frequency band is saturated (too many radio controllers 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.

Antenna Tube

Coaxial Cable

Antenna

Reception Wire

Page 5

FEaTURES anD SPEciFicaTiOnS

SYSTEM FEaTURES

SYSTEM SPEciFicaTiOnS

Transmitter

Model: EXZES X

Output Power: 100mW

Operating Voltage: 6.5v ~ 11.0v

Power Supply: 6 Cell 'AA' Alkaline/Ni-Cd/Ni-MH

Weight: 781g (with 'AA' Alkaline Batteries)

Frequency/Modulation Type: 2.4GHz/FHSS-3

Receiver

Model: RX-451 (92744)

Frequency/Modulation Type: 2.4GHz/FHSS-3

Nominal Input Voltage: 4.8v ~ 7.4v

Weight: 0.3oz (8.5gr)

Dimensions: 1.43 x 0.94 x 0.59in (36.5 x 24.0 x 15.0mm)

Fail Safe Limit: 3.8v Default / 3.5v ~ 5.0v Adjustable

Torque: 225oz/in (16.2kg/cm @ 6.0v)

285oz/in (20.5kg/cm @ 7.4v)

Speed: 0.12 sec/60º @ 6.0v

0.10 sec/60º @ 7.4v

Dimensions: 1.59 x 0.83 x 1.50in

(40.5 x 21.0 x 38mm)

Weight: 2.22oz (63gr)

Torque: 50oz/in (3.6kg/cm @ 4.8v)

61oz/in (4.4kg/cm @ 6.0v)

Speed: 0.17 sec/60º @ 4.8v

0.14 sec/60º @ 6.0v

Dimensions: 1.54 x 0.79 x 1.42in

(39.1 x 20.0 x 36.0mm)

Weight: 1.55oz (43.9gr)



Torque: 361oz/in (26.0kg/cm @ 4.8v)

423oz/in (30.5kg/cm @ 6.0v)

Speed: 0.19 sec/60º @ 4.8v

0.15 sec/60º @ 6.0v

Dimensions: 1.60 x 0.83 x 1.50in

(40.6 x 21.1 x 38.1mm)

Weight: 2.33oz (66gr)



Both analog and digital servos will work with your EXZES X 2.4GHz FHSS-3 radio control system. To get the most out of

your experience, we recommend the use of digital servos. If using digital servos, we recommend using SHR (Super High

Response) Mode. SHR Mode will increase the digital servo's response time, even above the manufacturer's stated specication.

For more information see page 47.



Torque: 124oz/in (8.9kg/cm @ 4.8v)

151oz/in (10.9kg/cm @ 6.0v)

Speed: 0.17 sec/60º @ 4.8v

0.13 sec/60º @ 6.0v

Dimensions: 1.54 x 0.78 x 1.50in

(39.0 x 20.0 x 37.4mm)

Weight: 1.93oz (56gr)



Although most current brand servos will work with your EXZES X 2.4GHz FHSS-3 radio control system, we recommend using

Sanwa or Airtronics brand servos. For pricing, availability, and more selection, please visit your local Sanwa or Airtronics dealer

or our website at http://www.sanwa-denshi.co.jp or http://www.airtronics.net.

SERvO REcOMMEnDaTiOnS

2.4GHz FHSS-3 Transmitter and Receiver

High-Power FHSS-3 Technology

2- or 4-Channel Mode Selectable

6 Cell Dry Cell Battery Holder

Large Backlit Multi-Function LCD

Adjustable Gimbal Angle

Adjustable Control Stick Length

Adjustable Control Stick Tension

Assignable Digital Trim Switches

Key-Lock Switch

Multi-Function LCD-Only Switch

Simple Three-Page Programming

Timer Vibration

Battery Voltage Monitor

User Naming

White or Blue Multi-Function LCD

Servo Monitor

Exponential Tweak

Two Compensation Mixes

Brake Mixing

Throttle Hold

Starting Position

Servo Reversing

Lap, Interval and Down Timers

Servo Sub-Trim

30 Model Memory

Model Copy

Model Naming

Model Select

Assignable Push-Button Switches

Audio Sound Level Adjustment

Anti-Lock Braking

Adjustable Servo Speed

ARC Steering and Throttle

Expo Steering and Throttle

End Point Adjustment

Dual Rate Steering

Programmable Dial Knob

Variable Rate Adjustment

Traction Control

Low Voltage Alarm

Key Tone Mute

Receiver Battery Voltage Fail Safe



Page 6

FEaTURES FaMiLiaRizaTiOn

Antenna

Programming Keys

Handle

TRanSMiTTER FEaTURES DiagRaMS

FROnT

TOP

Multi-Function LCD

Power Indicator

Throttle

Control Stick

Use the diagrams below to familiarize yourself with the basic features of your Sanwa EXZES X 2.4GHz FHSS-3 transmitter.

Descriptions of these features can be found on page 8.

The transmitter antenna is adjustable. It should be adjusted so that when you're holding the transmitter during use, 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 model, as this results in a weakened signal.

Steering

Control Stick

Display Key

Key Lock Switch

Power Switch

Neck Strap Anchor

Trim Switch

(Trm1)

Trim Switch

(Trm2)

Push-Button

Switch (Sw1)

Push-Button

Switch (Sw2)

Push-Button

Switch (Sw3)

Trim Switch

(Trm3)

Trim Switch

(Trm4)

Trim Switch

(Trm5)

Dial Knob

Spring Tension

Adjuster

Gimbal Angle

Adjustment

Indicator

Charging Jack

Page 7

FEaTURES FaMiLiaRizaTiOn

Back

DSC Port

TRanSMiTTER FEaTURES DiagRaMS, cOnTinUED....

Trim Switch

(Trm5)

Trim Switch

(Trm4)

Charging Jack

Battery

Compartment

Use the diagram at right to familiarize yourself with

the RX-451 4-Channel receiver included with your

EXZES X 2.4GHz FHSS-3 radio control system.

Descriptions of these features can be found on the

next page.

REcEivER FEaTURES DiagRaM

Bind Button

Bind LED

Coaxial Cable

Antenna

Reception Wire

Batt/DSC

Auxiliary 2 CH 4

Auxiliary 1 CH 3

Throttle CH 2

Steering CH 1

= Signal = Positive = Negative

The RX-451 4-Channel receiver included with your EXZES X 2.4GHz FHSS-3 radio control system uses universal '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)

OPTiOnaL iTEMS

The following optional items (available separately) can be used with your EXZES X 2.4GHz FHSS-3 radio control system.

For pricing and availability, please visit your local Sanwa or Airtronics dealer or our website at http://www.sanwa-denshi.co.jp or

http://www.airtronics.net.

99103 Adjustable Neck Strap

92451 Sanwa RX-451R SSR FHSS-3 Receiver

*For use only with Ni-Cd or Ni-MH Transmitter Batteries. For more information, see page 11.

95035 6 Cell AC Transmitter Charger*



Page 8

FEaTURES FaMiLiaRizaTiOn

 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.

 The portion of the antenna that receives the transmitter signal. The Antenna Reception Wire should

never be bent or it could be damaged and limit the range of the receiver.

 Houses the 6 'AA' Alkaline batteries 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. The transmitter can also be powered using

optional Ni-Cd or Ni-MH cells (available separately). For more information, see page 11.

 Used in the process of Binding the transmitter and receiver.

 Used for onboard charging of the optional Ni-Cd or Ni-MH batteries using he optional Sanwa 95035 AC Transmitter

Charger available separately. For more information, see page 11.

 The portion of the antenna that extends the Antenna Reception Wire. The Coaxial Cable can be bent into gentle

curves, however, do not bend the Coaxial Cable acutely, or repeatedly bend it, or the antenna core can be damaged. The Coaxial

Cable should be installed through a nylon tube (antenna tube) in the vertical position for the best reception.

 A rotary knob that can rotate 360º. The Dial Knob is programmable and will perform a different function depending on

what function is assigned to it. For example, the Dial Knob can be used to scroll through programming menu selections or a trim

function or even an auxiliary channel can be assigned to it.

 Activates the transmitter's Multi-Function LCD without actually turning the transmitter ON. This allows you to check

and/or change programming settings without actually turning ON the transmitter. To turn the Multi-Function LCD ON using the

Display Key, push and hold the Display Key forward for ~ 1 second. To turn the Multi-Function LCD OFF, push and release

the Display Key quickly.

 Using the Sanwa 97033Z DSC cable (available separately), the Direct Servo Control Port

allows you to check your model's linkage and make necessary programming changes during a race or a situation when radio

transmission is prohibited. When connected between the receiver and the transmitter, the receiver is turned ON and the Display

Switch is utilized to complete programming. No signal is actually transmitted between the transmitter and receiver. Since the

inception of 2.4GHz technology, the use of a DSC cable is basically obsolete.

 Indicates the current position of the throttle or steering gimbals. The white hash mark on

the inside of the gimbal bevel is used to position the gimbals at the desired angle. The gimbal angles can be adjusted to suit your

preference. For more information, see page 9.

 The Handle provides a comfortable way to carry your transmitter. It also provides a comfortable angle to program the

transmitter when the transmitter is laid at on its back on a at surface.

 Allows you to lock the Programming Keys so that no changes can inadvertently be made.

 The heart of the programming and display features of the transmitter. All programming and transmitter

display functions are shown on the Multi-Function LCD.

 Used to attach your neck strap (available separately) to the transmitter.

 Illuminates when the transmitter is turned ON and transmitting a signal.

 The Programming Keys are used to facilitate transmitter programming.

 The transmitter features three separate Push-Button Switches in different locations (Sw1, Sw2, and

Sw3). Each Push-Button Switch is programmable and will perform a different function depending on what function is assigned to

it. For example, Sw1 can be used to operate a reverse servo in a gas- or glow-powered model, and Sw3 can be used to toggle

Anti-Lock Braking ON and OFF.

 Adjusts the spring tension of the throttle or steering control sticks. The spring tension can be adjusted

to suit your preference. For more information, see page 9.

 Controls the steering function of your model. The Steering Control Stick length and gimbal angle are

adjustable to suit your preference. For more information, see page 9.

 Controls the Throttle and Brake (if equipped) functions of your model. The Throttle Control Stick length

and gimbal angle are adjustable to suit your preference. For more information, see page 9.

 The transmitter features ve separate Trim Control Switches in different locations (Trm1, Trm2, Trm3,

Trm4, and Trm5). Each Trim Control Switch is programmable and will perform a different function depending on what function is

assigned to it. For example, Trm1 and Trm2 are used to adjust the center-trim of the steering and throttle servos, and Trm4 and

Trm5 are used to adjust dual rate and steering EPA.

FEaTURES DEScRiPTiOnS

Page 9

Do not attempt to adjust the gimbal angles beyond the limits indicated by the Gimbal Angle Adjustment Indicators or

damage to the transmitter may result.

Tx anD Rx OPTiOnS anD cOnnEcTiOnS

The angle of the throttle and steering gimbals can each be adjusted to suit your preference. This allows for the most comfortable

feel during use.

3) When satised with the adjustment, gently tighten the four mounting screws (A) to lock the gimbal in place.

To adjust the gimbal angles, follow the steps below:

1) Using a 2mm hex wrench, loosen the four mounting screws (A) around the perimeter

of the gimbal you would like to adjust.

2) After loosening the four mounting screws, carefully twist the gimbal clockwise or

counter-clockwise (B) to suit your preference.

Each gimbal features a Gimbal Angle Adjustment Indicator to aid with alignment.

giMBaL angLE aDjUSTMEnT

The length of the control sticks can be adjusted to best suit the way you hold them. In general, drivers who place their thumbs on

top of the control sticks prefer the control sticks to be shorter, and drivers who grasp the control sticks prefer the control sticks to

be longer. In addition, the angle of the top of the control sticks can be changed to suit your preference. This allows for the most

comfortable feel during use.

cOnTROL STick LEngTH anD angLE aDjUSTMEnT

To adjust the length of the control sticks and the control stick angles, follow the steps

below:

1) Using a 1.5mm hex wrench, loosen the grub screw (A) in the top of the control stick

you would like to adjust.

2) After loosening the grub screw, thread the top of the control stick counter-clockwise

to lengthen the control stick or turn the top of the control stick clockwise to shorten

the clockwise.

3) When satised with the adjustment, rmly tighten the grub screw (A) while holding the top of the control stick in place.

When lengthening the control sticks, we strongly suggest that you leave at least four threads inside the top 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.

The spring tension of the control sticks can be adjusted to suit your preference. Some drivers prefer a rmer feel and some

drivers prefer a softer feel.

cOnTROL STick SPRing TEnSiOn aDjUSTMEnT

To adjust the spring tension of the control sticks, follow the steps below:

1) Using a 1.5mm hex wrench, turn the grub screw (A) in the gimbal base clockwise

to increase the spring tension or turn the grub screw counter-clockwise to lessen

the spring tension.

In the default conguration, the spring tension is preset to a soft feel.

In the default conguration, the control sticks are adjusted to the lowest position.



Page 10

Tx anD Rx OPTiOnS anD cOnnEcTiOnS

TRanSMiTTER BaTTERY inSTaLLaTiOn

1) Remove the battery cover on the back of the transmitter by pushing down rmly on the two tabs in the top of the battery cover

and pulling the battery cover out.

2) Install six fresh 'AA' Alkaline batteries into the battery holder, 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.

If you prefer to use individual rechargeable Ni-Cd or Ni-MH cells, or a 2 cell Li-Po, or a 2 cell Li-Fe battery pack, please

see the Transmitter and Receiver Battery Options section on the next page.

REcEivER cOnnEcTiOnS anD MOUnTing

We suggest Binding the transmitter and receiver, and setting the Throttle Fail Safe position, prior to mounting your receiver in

your model.

The receiver should be mounted as far away from any electrical components as possible.

Route the receiver antenna up through a plastic tube so that it is in the vertical position.

To protect the receiver from vibration and other damage, we recommend wrapping the receiver in shock absorbing foam when

installing it in your model.

WARNING The receiver is NOT equipped with BEC circuitry. DO NOT use a receiver battery with a nominal voltage greater

than 7.4 volts to power the receiver. When using an ESC, it should feature a BEC circuit that lowers the voltage to the receiver

to between 4.8 volts and 7.4 volts.

Set your model on a stand so the wheels are off the ground before turning on your radio control system or connecting

your motor for the rst time.

Use the diagram below to make the connections to the RX-451 4-Channel receiver.

The RX-451 receiver's Nominal Input Voltage is 4.8v ~ 7.4v. This means that a 2 cell Li-Po or 2 cell Li-Fe battery can safely

be used to power the receiver without the use of a voltage regulator

WARNING If you are using a 7.4 volt receiver battery, you MUST also use 7.4 volt-rated servos. Using 6.0 volt servos with a

7.4 volt receiver battery can result in damage to your servos and will not be covered under warranty.

1) Install four fresh 'AA' Alkaline batteries into the battery holder, making sure that the polarity is correct. The direction that each

battery should be installed is molded into the battery holder (+ Positive and - Negative).

Page 11

USing Li-PO OR Li-FE BaTTERiES

Use  a 2 Cell Li-Po or Li-Fe battery pack of desired capacity. 

or the transmitter and/or receiver will be damaged.

Do NOT charge your battery through the transmitter using the Charging Jack. The battery  be removed from the

transmitter for charging or the transmitter could be damaged.

Use a charger specically designed to charge Li-Po or Li-Fe batteries.

When changing the connector on your battery to match the battery power plug in the transmitter (or

on the receiver switch harness), please observe correct polarity. Connecting with reverse polarity

will damage the transmitter and/or receiver.

Observe all safety precautions provided with your Li-Po or Li-Fe battery before and during use, and during the charging process.

Damage to the transmitter and/or receiver caused by improper use, wrong battery type, or reverse polarity will not be covered

under warranty.

- = Negative (Black)

+ = Positive (Red)

Tx anD Rx OPTiOnS anD cOnnEcTiOnS

TRanSMiTTER anD REcEivER BaTTERY OPTiOnS

Instead of using Alkaline batteries to power the transmitter and receiver, you can use individual rechargeable Ni-Cd or Ni-MH

batteries, or you can use a 2 cell Li-Po, or a 2 cell Li-Fe battery pack. Either option will provide longer usage time and reduced

cost in the long run, since you won't need to continuously purchase new Alkaline batteries.

The EXZES X 2.4GHz FHSS-3 transmitter features a Charging Jack, which can be used with the optional Sanwa 95035 AC

Transmitter Charger to recharge Ni-Cd or Ni-MH the batteries without removing them from the transmitter. For more information on

the use and charging of Li-Po and Li-Fe battery packs, see the Using Li-Po or Li-Fe Batteries section below.

1) Install optional 1200mAh or greater Ni-MH rechargeable batteries (available separately) into the transmitter, following the

steps in the Transmitter Battery Installation section on the previous page.



WARNING Do NOT attempt to recharge Alkaline batteries. Do not use the Charging Jack with a fast charger or Peak-Detection

charger or the transmitter could be damaged.

WARNING Use  the recommended optional Sanwa 95035 AC Transmitter Charger or damage to the transmitter could

result. An after-market peak-detection charger and/or cycler 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. A peak-detetction charger

can be used, but ONLY if the batteries are charged outside of the transmitter.

1) Plug the Sanwa 95035 AC Transmitter Charger into a 110v ~ 240v AC power outlet.

2) Plug the round connector from the charger into the Charging Jack in the transmitter. The charger LED will illuminate red,

indicating that the charger is charging. When the charging process completes, the charger LED will turn green.

3) The charger output is 150mAh, therefore, it will take approximately 8 hours to recharge fully-discharged 1200mAh

batteries (1200/150=8). Charge time will vary depending on the mAh capacity of the batteries you're charging. For example,

2200mAh batteries would require a 15 hour charge (2200/150=14.6).

Before charging the batteries, double-check that the transmitter is turned OFF.

Overcharging reduces the life of the batteries and can result in overheating and bursting. This may cause personal injury

and/or property damage.

Do not plug the recommended charger into anything other than a 110v ~ 240v AC power outlet. Plugging the charger into

anything other than a 110v ~ 240v AC power outlet may result in smoking, sparks, or re.

Do not throw the batteries or abuse them in any manner. Do not dispose of the batteries in the re or allow it to overheat.

Do not short-circuit the battery terminals with wire or any other object.

This section describes recharging only optional Ni-Cd or Ni-MH transmitter batteries using he Sanwa 95035 AC Transmitter

Charger. If you use Ni-Cd or Ni-MH batteries for the receiver, or a Ni-Cd, Ni-MH, Li-Po, or Li-Fe receiver battery pack, you

will need to use a different type of charger. For more information and charger recommendations, visit your local hobby retailer.



Page 12

LcD anD PROgRaMMing kEYS

The EXZES X 2.4GHz FHSS-3 transmitter features six Programming Keys that are used to facilitate transmitter programming.

The six Programming Keys consist of two Function Keys (Right and Left), one INC/+ (Increase) Key, one DEC/- (Decrease) Key,

one Scroll Key, and one ENTER Key. This section summarizes the functions of each of the six Programming Keys in addition to

describing the main areas of the Multi-Function LCD.

  

MULTi-FUncTiOn LcD OvERviEw anD PROgRaMMing kEY FUncTiOnS

Model Number

Menu Function

Programming

Window

Help Display

Information Window

Function Page

Moves the Menu Function cursor left (backward) to the

previous menu function. In addition, turning the Dial Knob

counter-clockwise will move the Menu Function cursor left.

Moves the Menu Function cursor right (forward) to the next

menu function. In addition, turning the Dial Knob clockwise

will move the Menu Function cursor right.

Function Page Select

Key Sequence

Pressing both Function keys at the same time will scroll

through the Function Pages in order. The rst Menu

Function will be highlighted on each page.

Moves the Cursor backward in the Programming Window.

Also used in the Help Display Area and to display the

Information Window and the Servo Monitor.

Enter Key

Moves the Cursor forward in the Programming Window.

Also used in the Help Display Area.

INC/+ Key

Increases number values in the Programming Window.

Also scrolls up a Selection List.

DEC/- Key

Decreases number values in the Programming Window.

Also scrolls down a Selection List.

INC/+ and DEC/-

Key Sequence (Reset)

Pressing both INC/+ and DEC/- keys at the same time will

Reset the current selection to the Factory Default Setting.

Scroll Key

Function Key

Page 13

Pressing the key switches quickly between

the Information Screen and the Servo Monitor

Screen as shown in the Help/Display area.

FUncTiOn PagES

The functions of the EXZES X 2.4GHz FHSS-3 transmitter span three pages, F1 to F3. Pressing the and Function keys at the

same time displays each of the three Function Pages in succession - F1, F2, F3...F1, etc. Pressing either the or Function

keys separately scrolls through the individual functions assigned to the currently highlighted menu on the Function Page you're

currently viewing. For example, press the Right Function key to highlight the EPA menu in Function Page 1. The EPA menu will

be highlighted and there will be brackets around [ST] in the Programming Window. Pressing the Right Function key again will

move the selection brackets to [TH] and so on until the EXP menu is highlighted.

The LCD backlighting will turn on when any Programming Key is pressed. If no Programming Key is pressed, the LCD

backlighting will turn off after 10 seconds to conserve battery power. To change this setting, see page 46 for more information.

Function Menu F1 consists of the following individual functions:

Steering Dual Rate

End Point Adjustment

Exponential

Adjustable Rate Control

Servo Speed

Anti-Lock Braking

Traction Control

Model Select, Model Naming, and Model Copy/Clear

Function Menu F2 consists of the following individual functions:

Servo Sub-Trim

Track Timers

Servo Reversing

Starting Position

Throttle Hold

Brake Mixing

Compensation Mixing

Servo Monitor

Function Menu F3 consists of the following individual functions:

Transmitter Setup

Audio Signal Sound

Switch and Trim Assignment

User Naming

Fail-Safe Setup

Variable Rate Adjustment

Custom Menu Setup

Battery Display

The Information Window described below is provided on the right side of the screen. This makes it possible to determine, at a

glance, the current status of various functions from any menu screen.

Active Menu

Programming Area

Help Display Area

Timer

Information

Switch Status

Battery

Remaining

Battery

Voltage

Encoding Type

Number of

Channels

Steering Trim

Throttle Trim

Trim Switch

Display

Trim Switch Display

Active Selection

Programming Options



Page 14

MEnU FLOw cHaRT

The Menu Flow Chart shows the different menus that are available for programming your EXZES X 2.4GHz FHSS-3 transmitter.

The default setting when the transmitter is turned ON the very rst time is the F3 Function Page BATT menu. When the transmitter

is subsequently turned ON, the last screen displayed when the transmitter was turned OFF will be displayed.













































































































































































































































   



























































The following Menus are the result of pushing the Right Function key.



EPA 3CH .......................................................................................................................... Channel 3 or Auxiliary Channel 1

EPA 4CH .................................................................................... Channel 4 or Auxiliary Channel 2 (Note: Brake Side Only)

BR...................................................................................................................................................................... Brake Side

FWD................................................................................................................................................... Servo Forward Travel

RTN...................................................................................................................................... Servo Return to Neutral Travel

SUB-T 3CH .............................................................................................................................. Only Available in 4CH Mode

SUB-T 4CH .............................................................................................................................. Only Available in 4CH Mode

REV 3CH.......................................................................................................................... Channel 3 or Auxiliary Channel 1

REV 4CH.......................................................................................................................... Channel 4 or Auxiliary Channel 2

TH-HLD............................................................................................................ Intended for Gas- or Glow-Powered Models

BR-MIX ......................................................................Only Available in 4CH Mode and Brake Mixing (BR-MIX) is Activated

[

]

FUncTiOn PagE 1

[

]

FUncTiOn PagE 2

[

]

FUncTiOn PagE 3

Page 15

TRanSMiTTER anD REcEivER BinDing

The 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 radio controllers 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 procedure, connect your servos and battery to the receiver, using the diagram on page 10.

Make sure that both the receiver and the transmitter are turned OFF.

The EXZES X 2.4GHz FHSS-3 radio control system uses FHSS-3 technology, however, the transmitter is compatible with

both FHSS-3 and FHSS-2 Sanwa or Airtronics 2.4GHz surface receivers. To bind the transmitter to an FHSS-2 2.4GHz

receiver (available separately), the transmitter Modulation Type must rst be changed to FH2. For more information, see page 46.

1) Turn the transmitter ON, then press the two Function keys at the same

time until Function Menu F3 is displayed. If necessary, press the Right

Function key or the Left Function key until the SET-UP menu is highlighted.

2) With the SET-UP menu highlighted, press the Right Function key to

select [BIND] in the Programming Window. SET BIND BUTTON will be

displayed in the Programming Window.

3) Press the key. SEND BIND COMMAND will be displayed in the

Programming Window.

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, the transmitter and receiver are not paired. In

this case, turn both the transmitter and receiver OFF, then repeat the Binding procedure.

5) After ~ 2 seconds release the Bind Button. The Bind LED on the

receiver will continue to ash slowly. Quickly press the ENTER key on

the transmitter. SENDING will be displayed in the Programming Window,

the Bind LED on the receiver will ash rapidly, then the Bind LED on the

receiver will turn solid indicating the binding process is complete.

After releasing the Bind Button, you must press the ENTER key quickly (within a couple of seconds). If you take too much

time, you will need to restart the Binding procedure.

4) While holding down the Bind Button on the receiver, turn the receiver

ON. The Bind LED on the receiver will ash slowly.

Use the tip of a pencil or a 1.5mm hex wrench to reach the Bind Button on the receiver.



Page 16

The Steering Dual Rate function is used to change the amount of steering servo travel

compared to the amount of physical movement of the steering control stick. For

example, by increasing the Steering Dual Rate, you can make the steering servo travel

more which might prevent your model from pushing during turns. If your model

oversteers during turns, you can reduce the amount of Steering Dual Rate.

FUncTiOn PagE F1



5) After the Steering Dual Rate percentage value has been set, adjust the left and right End Points using the End Point

Adjustment function. For information, see the next page.

1) Set the steering trim to '0' using the Trm1 switch. You can see when the trim reaches '0' by

viewing either of the two trim displays (ST) and/or (TRM-S) in the Information Window.

Steering Trim

Display

4) Press the Function key to highlight the D-RATE menu. DUAL-RATE will

be Active in the Programming Window. As you move the steering control

stick right and left, you can visualize on the bar graph how much the

steering servo is moving. To adjust the Dual Rate percentage value, press

the INC/+ or DEC/- keys to increase or decrease the amount of steering

servo movement to the desired amount.

Pressing both the INC/+ and DEC/- keys at the same time will set the

Dual Rate percentage value to the default setting.

Trm4

Switch

D-RATE setting range is between 0% and 150%. The default setting is 100%.

The Trm4 switch can be used to change the Dual Rate

setting without accessing the Programming Menu. Pull the

trim switch right to increase Dual Rate and push the trim switch left

to decrease Dual Rate.

The D-RATE setting can be assigned to any

desired trim switch using the Key Assign

function. For more information, see page 50.

D-RaTE (STEERing DUaL RaTE)

3) Move the steering control stick right and left to full. Adjust the Dual Rate percentage

value to decrease or increase the amount of steering to reach the steering stops

without binding. For more information, see step 4 below.

WARNING The Steering Dual Rate percentage value should not be increased

to the point where your steering linkage and servo bind when the steering control

stick is moved all the way to the right or left. Binding will cause the steering servo

to 'buzz', resulting in a quicker loss of battery power and damage to the servo.

2) Attach the steering linkage to the servo horn per your model's assembly manual, then install the servo horn onto the steering

servo, making sure it's as close to being centered as possible. Use the Servo Sub-Trim function to center the servo arm

exactly, then mechanically adjust both wheels to point straight ahead. For more information, see page 32.

Trm1

Steering

Page 17

FUncTiOn PagE F1



The End Point Adjustment function is used to adjust the desired amount of servo travel

in both the right and left directions independently. The End Point Adjustment function

can be set for the Steering channel, Throttle channel, Auxiliary channel, and Brake

channel (4CH Mode).

In the default conguration (FH3 Modulation), the transmitter is set to 4CH Mode. If you are using FH2 Modulation with an

FHSS-2 receiver, the default conguration is 2CH Mode. For information on enabling 4CH Mode when using an FHSS-2

receiver, see page 47.



Your model’s turning radius can differ from left to right because of variations in linkage, suspension balance, tire diameter, or

weight distribution. In such cases, Left Steering servo travel and Right Steering servo travel are adjustable using the End Point

Adjustment function.

Before making Steering End Point Adjustments, you must make sure that the servo horn is centered. Install the servo horn

onto the steering servo, making sure it's as close to being centered as possible, then us the Servo Sub-Trim function to

center the servo arm exactly. For more information, see page 32.

EPA ST setting range is between 0% and 150% in either direction. The default setting is 100%.

Setting the Dual Rate and Steering End Point Adjustment percentage values excessively high may cause a dead point on

the servo, resulting in improper operation or servo failure. 



Your model's carburetor may not open completely, or it may open too much and cause the throttle servo to bind. If you're using an

Electronic Speed Control (ESC), the ESC may not command full power, or the brake may not engage adequately. In such cases,

Throttle High servo travel and Throttle Brake servo travel are adjustable using the End Point Adjustment function.

EPA TH setting range is between 0% and 140% in the H (throttle Side) position and anywhere between 0% and 160% in the B

(throttle Brake) position. The default setting is 100% in both directions.

1) Press the Function key to move the cursor to [TH] in the EPA Programming

Window.

2) To adjust the throttle High side, push the throttle control stick forward.

The cursor will move next to 100%H. Press the INC/+ or DEC/- keys to

increase or decrease the amount of servo travel. To adjust the throttle

Brake side, pull the throttle control stick back. The cursor will move next

to 100%B. Press the INC/+ or DEC/- keys to increase or decrease the

amount of servo travel.

1) Press the Function key to highlight the EPA menu. [ST] will be Active in the

Programming Window and the cursor will default to 100%L.

2) To set Right Steering EPA, move the steering control stick to the right.

The cursor will move next to 100%R. Press the INC/+ or DEC/- keys to

increase or decrease the amount of servo travel in the Right direction. To

set Left Steering EPA, move the steering control stick to the left. The cursor

will move next to 100%L. Press the INC/+ or DEC/- keys to increase or

decrease the amount of servo travel in the Left direction.

EPa (EnD POinT aDjUSTMEnT)

TH-B EPA POINT

Neutral

4CH

If you're using an ESC, the throttle High and throttle

Brake End Point Adjustment percentage values

are both generally set to 100%, although the throttle High

side may need to be increased to achieve full power.

4CH-B EPA POINT



Page 18

FUncTiOn PagE F1

In order to set any functions for Auxiliary Channel 3, you must rst change the channel setting from 2CH to 4CH. In the default

conguration (FH3 Modulation), the transmitter is set to 4CH Mode. If you are using FH2 Modulation with an FHSS-2 receiver,

the default conguration is 2CH Mode. For information on enabling 4CH Mode when using an FHSS-2 receiver, see page 47.

Auxiliary Channel 3 must rst be assigned to a Trim switch or the Dial Knob. For more information, see page 50.

2) Press the Function key to move the cursor to [3CH] in the EPA Programming

Window.

3) To adjust the High side, turn the Dial Knob clockwise. The cursor will

move next to 100%H. Press the INC/+ or DEC/- keys to increase or

decrease the amount of servo travel. To adjust the Low side, turn the Dial

Knob counter-clockwise. The cursor will move next to 100%L. Press the

INC/+ or DEC/- keys to increase or decrease the amount of servo travel.

EPA 3CH setting range is between 0% and 150% in either direction. The default setting is 100%.

2) Press the Function key to move the cursor to [3CH] in the EPA

Programming Window. The cursor will default next to 100%B. Press the

INC/+ or DEC/- keys to increase or decrease the amount of servo travel.

EPA 3CH-B setting range is between 0% and 160% in the Brake direction.

The default setting is 100%.

Trm5

Switch



With the BRAKE function Inhibited, Auxiliary Channel 3 can be used for functions such as remote needle valve control, transmission

reverse, the Dig function on your rock crawler, and much more.

The EPA-B setting can be assigned to any

desired trim switch using the Key Assign

function. For more information, see page 50.

3) Test-run your model to set the throttle Brake adjustment using

the Trm5 switch. The Trm5 switch can be used to change the

EPA-B setting without accessing the Programming Menu. Push

the trim switch right to decrease the Brake EPA and pull the trim

switch left to increase the Brake EPA. This is convenient if you

need to change the Brake EPA setting while driving.

1) Make sure that 4CH is selected in the SET-UP menu and that 3CH-BRAKE is set to INH in the BR-MIX menu. For more

information, see pages 46 and 40.



When using Auxiliary Channel 3 as an additional BRAKE channel, the End Point Adjustment can be set separately from the

Auxiliary Channel 4 BRAKE channel. In this conguration, the 3CH BRAKE is Activated using the throttle Brake function.

1) Make sure that 4CH Mode is selected in the SET-UP menu and that 3CH-BRAKE is set to ACT in the BR-MIX menu. For

more information, see pages 46 and 40.

3CH-B EPA POINT

Neutral

3CH

TH-B EPA POINT

Page 19

FUncTiOn PagE F1

The EPA-B setting can be assigned to any desired trim switch using the Key Assign function. For more information,

see page 50.



Auxiliary Channel 4 is used exclusively for braking purposes and is always Active. When using Auxiliary Channel 4 as an

additional BRAKE channel, its End Point Adjustment can be adjusted separately from the Auxiliary Channel 3 BRAKE End Point

Adjustment to provide maximum tuning options when using two separate Brake servos.

The bar graph is useful when setting the Brake End Point Adjustments on more than two channels. The graph indicates the

center position of two End Point Adjustment percentage values, either TH-B and 4CH-B when the 3CH-BRAKE is Inhibited

in the BR-MIX menu or 3CH-B and 4CH-B when the 3CH-BRAKE is Active in the BR-MIX menu. Use it as a guide for nding a

good brake balance.

THIS SPACE INTENTIONALLY LEFT BLANK

In order to set any functions for Auxiliary Channel 4, you must rst change the channel setting from 2CH to 4CH. In the default

conguration (FH3 Modulation), the transmitter is set to 4CH Mode. If you are using FH2 Modulation with an FHSS-2 receiver,

the default conguration is 2CH Mode. For information on enabling 4CH Mode when using an FHSS-2 receiver, see page 47.

1) Make sure that 4CH is selected in the SET-UP menu. For more information, see page 46.

4CH-B EPA POINT

Neutral

TH/3CH

3CH/4CH

TH-B or 3CH-B EPA POINT

2) Press the Function key to move the cursor to [4CH] in the EPA Programming

Window. The cursor will default next to 100%B. Press the INC/+ or DEC/-

keys to increase or decrease the amount of servo travel.

EPA 4CH-B setting range is between 0% and 160% in the Brake direction. The default setting is 100%.

3) Test-run your model to set the Brake adjustment using the Trm5

switch. The Trm5 switch can be used to change the EPA-B

setting without accessing the Programming Menu. Push the

trim switch right to decrease the Brake EPA and pull the trim

switch left to increase the Brake EPA. This is convenient if you

need to change the Brake EPA setting while driving.

Trm5

Switch

When 3CH-BRAKE is set to ACT in the BR-MIX menu, the ENTER key switches the bar graph display between the TH-3CH

balance and the 3CH-4CH balance. When 3CH-BRAKE is set to INH, the bar graph shows only the TH-4CH balance.



Page 20

FUncTiOn PagE F1



The Exponential function allows you to vary the amount of servo travel in relation to the

movement of the steering and control sticks near the neutral positions to change the

way the steering, throttle, and brake react to control movement. Increasing the

Exponential percentage value will soften the control feel around neutral and decreasing

the Exponential percentage value will heighten the control feel around neutral. Using

a lower negative value allows for smoother control. Using a higher positive value may result in more 'twitchy' control response.



Steering Exponential can be variably adjusted from Mild through Linear to Quick to allow you to set the most effective steering

response for your model. Generally, if your model over-steers, reduce the Exponential percentage value, and if your model

under-steers, increase the Exponential percentage value.

EXP-ST setting range is between -100% (Mild) to 100% (Quick). The default setting is 0% (Linear).



Use the TWEAK setting when you want to ne-tune the left and right steering balance. This allows you to move and pinpoint the

neutral position of the Exponential function independently anywhere between the Steering End Points, not just the center. This

ensures that Exponential is balanced for both the right and left sides.

EXP ST TWEAK setting range is between -20 to 20. The default setting is 0.

1) Press the ENTER key to move the cursor to the TWEAK setting.

2) To adjust left-hand steering, move the steering control stick to the left.

The cursor will point to the left. Press the INC/+ or DEC/- keys to adjust

the parameter. To adjust the right-side steering, move the steering control

stick to the right. The cursor will point to the right and press the INC/+ or

DEC/- keys to adjust the parameter.

1) Press the Function key to highlight the EXP menu. [ST] will be Active in

the Programming Window and the cursor will default above TWEAK.

2) Press the INC/+ or DEC/- keys to set the desired Exponential percentage

value.

Changes to the steering Exponential affect both right and left steering equally.

ExP (ExPOnEnTiaL)

Mild

(-1% to -100%)

Quick

(1% to 100%)

Quick

(1% to 100%)

Mild

(-1% to -100%)

Amount of steering operation on the

'L' side (amount of throttle operation

on the 'H' side).

Amount of steering operation on the

'R' side (amount of throttle operation

on the 'B' side).

Linear

(0%)

Linear

(0%)

Neutral

Position

Amount of servo operation

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Sanwa ExzesX Operating instructions

Brand: Sanwa

Model: ExzesX

Category: Remote controlled toys

Type: Operating instructions

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Sanwa ExzesX Operating instructions

Sanwa ExzesX Operating instructions

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