FCC ID: IYFTTX404B 2.4 GHz Radio System Transmitter

TACJ2404 v2.2 2.4GHz 4-Channel Spread Spectrum Radio INSTRUCTION MANUAL The Tactic TTX404 airplane radio system uses an advanced 2.4GHz spread spectrum technology to prevent unwanted outside interference from interrupting control of the model, ensuring error-free ying and eliminating the need to pull frequency pins before every ight. Tactic 2.4GHz transmitters and receivers are not compatible with other brands of 2.4GHz equipment. For safe operation and best results, its strongly recommended to read this manual in its entirety before use! Also read and understand the instructions included with the model. Damage resulting from misuse or modi cation will void your warranty. FEATURES Trainer Switch LED Power Indicator Power Switch Neck Strap Eyelet Trim Lever Charge Jack Reversing Switches 2.4GHz spread spectrum technology Built-in failsafe & wireless trainer function Includes tiny, lightweight Tactic 6-channel receiver Analog & digital trims with servo reversing Transmitter binds to multiple Tactic 2.4GHz receivers Power status LED & built-in charge jack TTX404 TRANSMITTER (Tx) The TTX404 airplane transmitter is available in either a Mode 2 con guration with throttle on the left and elevator on the right, or Mode 1 con guration with throttle on the right and elevator on the left. Mode 2 radios are most commonly used in the U.S., whereas Mode 1 radios are popular in other countries. Be sure the radio purchased is of the correct mode. Four AA batteries are required to power the Tx (not included). Non-rechargeable 1.5V alkaline, or 1.2V rechargeable nickel-cadmium (NiCd) or nickel-metal hydride

(NiMH) cells, can be used. Do not mix cell types, or old and new cells, etc. See the SERVOS AND ACCESSORIES section on page 16 for optional batteries available at local hobby retailers. To install the batteries, slide the battery door down. Insert the cells as shown in the diagram, making sure to note proper polarity for each cell. Close the battery door. POWER SWITCH, LED, and LOW BATTERY ALARM The red power LED should light when the power switch is moved upwards to the ON position. The 2 Tx should have adequate power for ight when the LED is on constantly. Anytime the LED begins to ash, accompanied by the sounding of an audible tone, the Tx battery voltage has dropped too low and operation of the model should NOT be attempted!

WARNING! Never operate an R/C model with weak Tx batteries!

Reduced operational range and/or possible loss of control of the aircraft could result. Replace weak alkaline batteries, or re-charge NiCd or NiMH batteries before attempting a ight!

If during a ight the Tx LED starts to ash, accompanied by the sounding of audible tones, its a warning that the Tx batteries have become weak and the aircraft should be landed as soon as possible!

AILERON (CH1) Controls the moveable surfaces at the end of both main wings to rotate the airplane about the roll axis (an imaginary line which extends from the airplanes nose to the tail). Since every airplane is different, the aileron reversing switch must be set so that moving the aileron stick to the right will cause the airplanes right aileron to de ect up, thus causing the right wing to drop and the airplane will bank to the right. Moving the aileron stick to the left will cause the airplanes left wing to drop and the airplane will bank to the left. This is one important method for turning the aircraft. ELEVATOR (CH2) Controls the moveable horizontal surfaces on the airplanes tail to rotate the airplane about the pitch axis (an imaginary line extending through the center of both main wings, from one wing tip to the other wing tip). Position the elevator reversing switch so that pulling the elevator stick back (towards you) will cause the elevators to de ect up, thus causing the nose of the airplane to rise. Pushing the elevator stick forwards (away from you) will cause the nose of the airplane to drop. When using the ailerons to bank the airplanes wings, pulling the elevator stick back will help the aircraft maintain altitude and turn the aircraft more quickly. THROTTLE (CH3) Controls the speed (R.P.M.) at which the engine or electric motor operates. With the throttle reversing switch in the NOR position, pulling the throttle stick back will cause the engines speed to decrease. Pushing the throttle stick forward will cause the engines speed to increase. RUDDER (CH4) Controls the sideways movement of the airplanes tail and will rotate the airplane about the yaw axis (an imaginary line from the top of the airplanes fuselage to the bottom of the fuselage, located near the center-point of the fuselage). Position the rudder reversing switch so that moving the rudder stick to the right causes the rudder to de ect to the right, thus causing the nose of the airplane to point to the right. Moving the rudder stick to the left will cause the nose of the airplane to turn 3 left. When using the rudder in conjunction with the ailerons, the airplanes nose can point into a turn (instead of pointing up and skidding through the turn), allowing the airplane to perform tighter, more coordinated turns. TRIMS A trim lever is included for each of the main controls, located adjacent to the respective stick. The aileron, elevator, and rudder trim levers are digital in function, and always rest at center position. Brie y de ecting the lever to either direction away from center will cause the respective servo output to nely rotate to one direction, and will be accompanied by an audible tone. Pressing and holding the trim lever will cause the servo output to move repeatedly. During a ight, when the main sticks are released and spring back to center position, the aircraft should ideally not veer in any direction. If the aircraft does veer in a particular direction, click the respective trim lever until the aircraft maintains a straight attitude on its own. The throttle trim lever is analog in function, and can move mechanically up or down and rest at any point in the range. Moving the throttle trim lever slightly up or down will nely adjust the engine or motor at low speeds. For safety reasons, its a good idea to use throttle trim when controlling the engine/motor at very low speed while on the ground. For aircraft with glow engines, the precise position of the trim lever is helpful when determining the engines preferred idle point. The throttle trim lever is not active when the main throttle stick is above the center point. REVERSING SWITCHES Four reversing switches are built into the Tx, one for each control. Each switch can reverse the rotational direction of the servo that is connected to the respective channel. This is often a much easier method for changing the direction of a servos movement as opposed to altering the mechanical connections between the models surface and the servo. Refer to the models instructions for speci c details. ADJUSTABLE STICKS The length of both gimbal sticks can be adjusted as desired. Loosen the set screw inside the center of the stick with a 2mm hex wrench. Rotate the stick end counter-clockwise to lengthen the stick, or clockwise to shorten the stick. Once the desired stick length is found, tighten the set screw with the hex wrench. 4 CHARGE JACK WARNING!! Do NOT attempt to recharge alkaline batteries! The charge jack should ONLY be used if rechargeable cells are used in the transmitter. The TTX404 includes a built-in charge jack for convenient recharging of NiCd or NiMH batteries, and is compatible with charge leads designed for Futaba brand transmitters. (HCAP0101) This jack is NOT compatible with charge leads for Hitec, Airtronics, JR or Spektrum radios. The dimensions for compatible charge plugs are as shown in the picture below. To use the charge jack with optional rechargeable batteries, rst remove the sticker that covers the charge jack on the side of the Tx making sure not to allow any object to be inserted inside the jack itself. Next, insert the cells inside the Txs battery compartment noting proper polarity. Make sure the transmitters power switch is in the OFF position. Connect a compatible charge lead to the jack and follow the instructions included with the charger for charging of NiCd or NiMH batteries that are rated at 4.8V. Tactics optional TACP1000 rechargeable battery and wall charger kit includes eight AA size rechargeable NiMH cells and 110V AC wall charger, which is compatible with this Tx and can be found at local retailers. Make sure to follow the instructions included with the charge kit. WARNING!! Its not recommended to charge batteries at greater than 1 amp through this charge jack. Fast charging of NiCd and NiMH batteries should ONLY be done with chargers that are speci cally designed to include the peak-detection function which can automatically stop charge when full charge is detected. Misuse, improper charging, or over-charging of rechargeable cells can result in damage to the cells that could include cell rupture, explosion, or re!!

5 TRAINER FUNCTION The TTX404 Tx includes a built-in wireless trainer function no trainer cable required! This trainer system connects a teachers Tactic Tx to a students Tactic Tx by wireless connection. Tactics wireless trainer function is not compatible with trainer systems in any other brand radios. IMPORTANT! Before attempting to y the airplane, its very important to make sure all reversing switches and trim lever adjustments on the students Tx match the settings on the teachers Tx! Otherwise, the airplane could suddenly veer off in an unwanted manner when the teachers trainer switch is pressed. Proper matching of the student and teachers Tx settings should ensure that no unexpected movements occur when the trainer switch is pressed. This is especially true of the throttle control!

1. The Tx that was used to setup the controls on the aircraft must be used by the TEACHER. 2. The student must use a separate Tactic Tx with wireless trainer function. 3. Place the teacher and students transmitters within 1 meter of each other, and make sure the throttle stick for each Tx is set to idle. 4. Turn ON the power switch for the Tx being held by the student. 5. Pull and hold the trainer switch on the teachers Tx, and then turn ON the teachers Tx power switch. 6. The LED on the teachers Tx will ash 3 times to indicate it has become bound with the students Tx. 7. The teacher can then release his trainer switch. 8. Once both transmitters are bound together, power can be applied to the receiver to prepare for ight. When the training session has ended, with the model on the ground and all power removed from the model, place both transmitters within 1 meter of each other and simply turn the power switch for both transmitters to the OFF position. This will terminate the wireless link between both transmitters. If additional training will be performed again, return to step 1 above to re-establish the wireless link between the teacher and students transmitters. ELEVON & V-TAIL MIXING FUNCTIONS The TTX404 includes elevon and V-tail mixing functions, which can be turned on or off. Elevon control consists of a mixture between the elevator and aileron channels, and is useful for certain types of aircraft (such as a ying wing). V-tail control consists of a mixture between the elevator and rudder channels and is useful for aircraft which have a V-tail. The default setting for all mixing will be off. To change the mix setting:

6 1. With the Tx power switch off, move the right stick to the bottom-right corner, and the left stick to the bottom-left corner. 2. While holding the sticks in these positions, turn the Tx power switch ON. 3. The LED should ash, and if accompanied by two audible tones the V-tail mixing function will now be turned ON. If you do not wish to again change this setting, proceed to the next section. V-Tail Mixing ch2 ch4 ch2 ch4 ch2 ch4 Left Rudder Right Rudder Up Elevator 4. To cancel V-tail mixing and activate elevon mixing, turn off the transmitter and repeat the above procedure. When the ashing LED is accompanied by three audible tones the elevon mixing will be active. Elevon Mixing Aileron Function Elevator Function 5. To cancel all mixes, repeat this procedure again. When the ashing LED is accompanied by a single audible tone, all mixes will be off. Each time the mix setting is changed, be sure to check that all controls move in the proper direction for the model. It may be necessary to change the setting of the aileron, elevator, or rudder reversing switch to achieve the proper throw directions for the model. If the elevator and aileron functions or the rudder and elevator functions appear reversed at the control surfaces, it may be necessary to swap the channel 1 and 2 servo plug positions for the elevon mix or the channel 2 and 4 servo plug positions for the V-tail mix. 7 TR624 RECEIVER & FLIGHT EQUIPMENT INSTALLATION (if applicable) RECEIVER (Rx) Mount the receiver as speci ed in the models instructions. Its important to keep the Rx as far away from the engine/motor, servos, and ESC and other electronic items as possible. To prevent the Rx from becoming damaged, it might be acceptable to mount it inside certain models using Velcro. In certain cases, wrapping the Rx with foam rubber can help to prevent damage from occurring due to vibration, but foam rubber can prevent adequate air ow from passing over the receiver in warm environments which might not be recommended. Additional Tactic TR624 receivers can be purchased from your local retailer (part number TACL0624) to work with this TTX404 transmitter. SERVOS Center the trims on the Tx. Mount the servos inside the model, and connect the linkages to the servo using an appropriate length servo arm. Screw Rubber Grommet Brass Eyelet Servo Tray Servo Servo Servo All servos should be mounted as shown in the models instructions. Use rubber grommets, screws and brass eyelets supplied (where applicable) when mounting your servos (see above). Do NOT over-tighten the mounting screws, as the servos should be able to move slightly to compensate for engine vibration. Use a servo horn long enough to accommodate the entire range of movement for that particular control. When mounting the servos, make sure the pushrods are not too loose or bind in any way. Pushrods should be capable of operating the full range of the servo. This can be tested by moving the Tx sticks to maximum positions several times while observing the movement of the control services. If a servo is binding or 8 sticks in ight, it should be re-adjusted so as not to drain excessive current from the battery and thus shorten ight time. Rudder Servo

(Ch4) Throttle Servo or ESC

(Ch3) Elevator Servo

(Ch2) Aileron Servo

(Ch1) Receiver Switch Harness To Rx Battery To Charger Connect the servos to the Rx as shown. Route the wires so they do not interfere with any moving parts. Move the Tx trims to nely adjust the servos center point as needed to match the installation. See the SERVOS AND ACCESSORIES section on page 16 for a full list of optional servos. ELECTRONIC SPEED CONTROL (ESC) If the model is electric powered, an optional ESC will be necessary to control speed of the electric motor and to divert power to the receiver and servos. Connect the receiver plug on the ESC to the slot marked CH3 (throttle) on the receiver. Center the transmitters throttle trim and follow the ESC instructions for proper operation and connection of the power battery. GLOW ENGINES If the model is powered by a glow engine, a switch harness and 4-cell battery

(4.8V) will be necessary to power the receiver and servos. See the SERVOS AND ACCESSORIES section for suggested options. ON/OFF SWITCH HARNESS AND BATTERIES Many ESCs include a built-in ON/OFF power switch. Glow powered airplanes require a separate battery to power the receiver and servos, and using a separate switch harness is convenient for turning on and off power to the receiver. A switch harness and 4-cell battery holder is included with the TTX404 radio system. Refer to the models instructions for the optimum location to mount the battery, Rx, and switch harness for optimum weight distribution in the model. Locate the switch well away from the propeller and the exhausts from a glow engine. Cut a hole in the side of the fuselage large enough to allow the switchs lever to move freely and fully from end-

to-end. If the switch harness includes mounting screws, be sure not to cut the hole so long that it would prevent the mounting screws from being installed rmly. 9 One switch harness lead connects to the receivers BAT socket, another connects to the battery, and the third lead is for convenient recharging of the battery through the switch harness. Charging of the rechargeable battery through the switch harness can only be accomplished when the switch is in the OFF position. Use of AA NiCd or NiMH rechargeable cells is recommended. Do not use alkaline cells for powering the receiver and servos. See the SERVOS AND ACCESSORIES section on page 16 for a full list of optional batteries and chargers. IMPORTANT! Always make sure that power is applied to the transmitter BEFORE applying power to the receiver and servos, and that the throttle stick is at minimum (idle) position. Failure to do so could result in the model becoming uncontrollable and cause a safety hazard. BIND THE RECEIVER TO THE TRANSMITTER For proper operation its necessary to bind the Tx and Rx together electronically. This ensures sole communication between the two, and prevents other transmitters from being able to control the receiver. 1. Turn on the Tx. 2. Apply power to the Rx. 3. If the Rx LED ashes once and then stays on, the Rx is already bound to the Tx and you can skip to the next section. Otherwise, insert a small diameter screwdriver through the hole marked BIND and press the pushbutton until the Rx LED glows red and then turns off after about one second. 4. Release the BIND button. 5. If the binding is successful, the Rx LED will ash once and then remain ON. 6. Test for proper Tx /Rx functionality in the next section. If the radio doesnt appear to have become properly binded, repeat steps 1 6 above. FAILSAFE FUNCTION The included TR624 receiver has a failsafe feature which engages in the event that the radio signal from the transmitter somehow becomes interrupted. This safety feature causes the servos to automatically move either to a certain position, or hold their last position so to prevent the model from moving in an erratic manner. Channels 1, 2, and 4 will enter a hold mode, whereby the servos will lock in their last recognized position. The servo connected to channel 3, normally being the throttle control, will move to a pre-set position. The factory default failsafe position for channel 3 is to move to 0%

full throttle. Motor/prop movement should stop if the receiver loses signal from the transmitter. The throttle servos failsafe position can be manually re-set to any other position if desired, as follows:

10 IMPORTANT NOTE: Before manually resetting the failsafe, make sure the servo reversing switches are in the correct position for the application. 1. Apply power to the Tx and Rx. 2a. If using an ESC, do NOT arm the ESC. Do NOT attempt to adjust the throttles failsafe position if the ESC is armed. 2b. If using a gas or glow powered engine, do NOT attempt to adjust the throttles failsafe position while the engine is operating. 3. Move the Tx throttle stick to the desired position for the throttle control to move if the Rx goes to failsafe. 4. Press and hold the Bind button on the receiver, and the Rxs LED should blink twice. Release the Bind button, and the receivers LED should turn on (stop ashing). The Tx and Rx should now be bound, with the throttle failsafe in the new position as set above. NOTE: If youre using an ESC which has a signal loss feature, the pre-set failsafe position is irrelevant as the signal loss feature will cease the throttle operation if the signal is lost. SYSTEM CHECK AND OPERATION WARNING! During all pre- ight preparations with the aircraft on the ground, make sure the throttle stick remains at the minimum position and do not stand the Tx upright on the ground. Carefully lay the Tx on its back on the ground to prevent it from falling over and possibly dislodging the throttle stick from the low position which would create a safety hazard. Make sure all devices are properly mounted inside the model, and all wiring connections are solid to prevent them from easily becoming dislodged during normal ight. Its best to check the system with the propeller removed from the aircraft. 1. Once all connections are made, check the general operation of the radio and all other components before attempting a ight. 2. Move the Tx throttle stick to the minimum (idle) position. 3. Turn on the Tx, and then the Rx. 4. Make sure all controls are operating in the proper direction. If any servo is turning in the wrong direction, change the position of the reversing switch for that particular channel. 5. With both sticks at center position, move the trim levers for the aileron, elevator, and rudder channels so each respective control surface is perfectly aligned with the main surface. For example: When the aileron trim lever is in the center position, its best that the trailing edge of the aileron is aligned with the trailing edge of the wing itself (not above or below the wings trailing edge). 6. Make sure that movements of the throttle stick result in an equal adjustment of the throttle in the model. Depending on whether the airplane is electric or glow powered:

11 a. Electric: con rm that when the throttle stick is at maximum position the electronic speed control gives the appropriate indications (LED and/or audible indicators) for full forward ight. And, when the throttle stick is at minimum position the electronic speed control gives the appropriate indications for off or no motor rotation. b. Glow: con rm that when the throttle stick is at maximum position the mechanical linkage to the engine allows the engine to be at full throttle. And, when the throttle stick is at minimum position and the throttle trim lever is moved to minimum position, the engine stops completely. 7. Perform a range check. The range is the safe operating distance from the Tx to the Rx, and should be as far as you can clearly see the model. With the assistance of another person, place the aircraft on the ground and walk 100 feet (30m) away from the model. With the Tx pointed directly at the model, operate the transmitters controls, and ensure the movement of all surfaces is according to the movement of the transmitter. 8. Anytime power is to be removed from the radio system, its important to shut down power in the aircraft rst. Otherwise, the aircraft could become out of control and cause a safety hazard! Move the throttle stick and throttle trim lever to minimum position to stop the glow engine or shut down the ESC. Once the propeller has stopped rotating, shut off the ON/OFF power switch in the model, and disconnect the power battery from the ESC in electric airplanes. Then turn off the power switch in the Tx. FLYING THE AIRCRAFT 1. Once all setup procedures have been con rmed, and power has been removed from the model and transmitter, re-attach the propeller to the model. IMPORTANT: Be very careful to stay clear from moving propellers!!

2. Make sure the glow engine fuel tank has an adequate amount of fuel, or power batteries for electric airplanes are fully charged. 3. Move the Tx throttle stick to the minimum position, then turn on the Tx power switch. Turn on the power switch in the model or connect the ight battery. 4. During the rst ight, it might be necessary to re-trim the aileron, elevator, and rudder channels to allow the airplane to sustain smooth, even ight. If further adjustments are required on the ground, make sure to turn off the engine or ESC/motor before making such adjustments. 5. When the ight is completed, remove power from the system as described before. Shut down power to the electronic speed control or glow engine rst, then the receiver, and nally the transmitter. 12 SAFETY GUIDE The Academy of Model Aeronautics (AMA) has established an Of cial Safety Code. Model ying MUST be in accordance with this Code in order for AMA Liability Protection to apply. All questions relating to the AMA Safety Code, liability insurance program, and other of cial AMA information can be attained from the AMA:

Academy of Model Aeronautics 5161 East Memorial Drive Muncie, Indiana 47302

(765) 287-1256 Business

(765) 289-4248 Fax

(800) 435-9262 Membership Services http://www.modelaircraft.org http://www.modelaircraft.org/ les/Memanual.PDF The AMAs Of cial 2009 Safety Code includes the following regarding the use of model aircraft:

2009 OFFICIAL ACADEMY OF MODEL AERONAUTICS NATIONAL MODEL AIRCRAFT SAFETY CODE GENERAL 1. A model aircraft shall be defined as a non-human-carrying device capable of sustained flight in the atmosphere. It shall not exceed limitations established in this code and is intended to be used exclusively for recreational or competition activity. Effective January 1, 2006 2. The maximum takeoff weight of a model aircraft, including fuel, is 55 pounds, except for those own under the AMA Experimental Aircraft Rules. 3. I will abide by this Safety Code and all rules established for the ying site I use. I will not willfully y my model aircraft in a reckless and/or dangerous manner. 4. I will not y my model aircraft in sanctioned events, air shows, or model demonstrations until it has been proven airworthy. 5. I will not y my model aircraft higher than approximately 400 feet above ground level, when within three (3) miles of an airport without notifying the airport operator. I will yield the right-of-way and avoid ying in the proximity of full-scale aircraft, utilizing a spotter when appropriate. 6. I will not y my model aircraft unless it is identi ed with my name and address, or AMA number, inside or af xed to the outside of the model aircraft. This does not apply to model aircraft own indoors. 7. I will not operate model aircraft with metal-blade propellers or with gaseous boosts (other than air), nor will I operate model aircraft with fuels containing tetranitromethane or hydrazine. 13 8. I will not operate model aircraft carrying pyrotechnic devices which explode or burn, or any device, which propels a projectile of any kind. Exceptions include Free Flight fuses or devices that burn producing smoke and are securely attached to the model aircraft during ight. Rocket motors up to a G-series size may be used, provided they remain rmly attached to the model aircraft during ight. Model rockets may be own in accordance with the National Model Rocketry Safety Code; however, they may not be launched from model aircraft. Of cially designated AMA Air Show Teams (AST) are authorized to use devices and practices as de ned within the Air Show Advisory Committee Document. 9. I will not operate my model aircraft while under the in uence of alcohol or within eight (8) hours of having consumed alcohol. 10. I will not operate my model aircraft while using any drug which could adversely affect my ability to safely control my model aircraft. 11. Children under six (6) years old are only allowed on a flight line or in a flight area as a pilot or while under flight instruction. 12. When and where required by rule, helmets must be properly worn and fastened. They must be OSHA, DOT, ANSI, SNELL or NOCSAE approved or comply with comparable standards. RADIO CONTROL 1. All model ying shall be conducted in a manner to avoid over ight of unprotected people. 2. I will have completed a successful radio equipment ground-range check before the rst ight of a new or repaired model aircraft. 3. I will not y my model aircraft in the presence of spectators until I become a pro cient ier, unless I am assisted by an experienced pilot. 4. At all ying sites a safety line or lines must be established, in front of which all ying takes place. Only personnel associated with ying the model aircraft are allowed at or in front of the safety line. In the case of air shows or demonstrations a straight safety line must be established. An area away from the safety line must be maintained for spectators. Intentional ying behind the safety line is prohibited. 5. I will operate my model aircraft using only radio-control frequencies currently allowed by the Federal Communications Commission (FCC). Only individuals properly licensed by the FCC are authorized to operate equipment on Amateur Band frequencies. 6. I will not knowingly operate my model aircraft within three (3) miles of any preexisting ying site without a frequency-management agreement. A frequency-management agreement may be an allocation of frequencies for each site, a day-use agreement between sites, or testing which determines that no interference exists. A frequency-management agreement may exist between two or more AMA chartered clubs, AMA clubs and individual AMA members, or 14 individual AMA members. Frequency-management agreements, including an interference test report if the agreement indicates no interference exists, will be signed by all parties and copies provided to AMA Headquarters. 7. With the exception of events own under of cial AMA rules, excluding takeoff and landing, no powered model may be own outdoors closer than 25 feet to any individual, except for the pilot and the pilots helper(s) located at the ight line. 8. Under no circumstances may a pilot or other person touch a model aircraft in ight while it is still under power, except to divert it from striking an individual. 9. Radio-controlled night ying is limited to low-performance model aircraft (less than 100 mph). The model aircraft must be equipped with a lighting system which clearly de nes the aircrafts attitude and direction at all times. 10. The operator of a radio-controlled model aircraft shall control it during the entire ight, maintaining visual contact without enhancement other than by corrective lenses that are prescribed for the pilot. No model aircraft shall be equipped with devices which allow it to be own to a selected location which is beyond the visual range of the pilot. FREE FLIGHT 1. I will not launch my model aircraft unless I am at least 100 feet downwind of spectators and automobile parking. 2. I will not y my model aircraft unless the launch area is clear of all individuals except my mechanic, of cials, and other iers. 3. I will use an effective device to extinguish any fuse on the model aircraft after the fuse has completed its function. SERVOS AND ACCESSORIES CS-12 High Speed Micro CS-60 Standard CS-64 Standard High Torque 2BB CS-70MG Super Torque 2BB CS126 Digital Std 2BB CS140 Digital Std High Speed 2BB MG CS150 Digital Std High Torque 2BB MG CS160 Digital Std High Torque/Speed 2BB MG CS170 Digital Std Ultra Torque 2BB Titanium Gear SERVOS HCAM0110 HCAM0149 HCAM0165 HCAM0191 HCAM0300 HCAM0304 HCAM0308 HCAM0312 HCAM0316 GPMM1200 ES40 Pico GPMM1210 ES50 Nano GPMM1220 ES80 Micro GPMM1230 ES100 Standard 15 Quick Field Charger MkII Fuji AA Alkaline Batteries (4) Sanyo N-700AAC 1.2V AA NiCd Cell Tactic NiMH Conv. Kit 8 AA NiMHs, 110V Charger BATTERIES AND CHARGERS GPMM3155 Triton EQ AC/DC Charger, Balancer HCAM6301 HydriMax Ultra 4.8V 750 Flat Rx AAA NiMH HCAM6308 HydriMax Ultra 4.8V 1600 Flat Rx 2/3A NiMH HCAP0290 FUGP7300 SANP1100 TACP1000 ELECTRONIC SPEED CONTROLS GPMM1800 Silver Series SS-8 Brushless 8 Amp ESC GPMM1810 Silver Series SS-12 Brushless 12A ESC GPMM1820 Silver Series SS-25 Brushless 25A ESC GPMM1830 Silver Series SS-35 Brushless 35 AMP ESC SUPM1020 SuperTigre 20A Brushless ESC SUPM1030 SuperTigre 30A Brushless ESC ACCESSORIES HCAM2500 TACL0624 TACM2000 TACM2001 TACM2020 TACM4420 Y-Harness Futaba J Tactic TR624 6-Channel 2.4GHz Receiver Switch Harness with Futaba J Plugs, No Charge Lead Switch Harness with Charge Lead, Futaba J Plugs 4 Cell AA Battery Holder with Futaba J Plug Tactic TTX404 Battery Door SPECIFICATIONS TTX404 4-Channel Transmitter Channels Frequencies Modulation Input power Output power Power indicators Reversing switches Trims Antenna Charge jack Trainer function Optional mixes 4 2.403 2.480GHz FHSS spread spectrum Four AA alkaline, NiCd, or NiMH cells (3.8 8.0V, not included)

< 0.1W LED, with low voltage alarm Slide switches all channels Analog for throttle, digital for aileron, elevator, rudder Built-in non-removable Built-in (Futaba compatible, for use with optional NiCd or NiMH cells) Wireless

(compatible with Tactic brand transmitters only) Elevon, V-Tail 16 Tactic TR624 Receiver Channels Frequencies Modulation Input power Failsafe Dimensions Weight 6 2.403 2.480GHz FHSS spread spectrum Four AA alkaline, NiCd or NiMH cells (4.0 6.0V, not included) Programmable throttle, all other channels maintain last recognized positions 1.77 0.98 0.5" (45 25 13mm) 0.28 oz (8g) OTHER ITEMS INCLUDED On/off switch harness with built-in charge lead 4 cell AA battery holder for receiver Neck strap IMPORTANT WARNINGS AND PRECAUTIONS NEVER allow water or moisture to make contact with the electronic components inside the transmitter, receiver, servos, switch harness, etc.! This could lead to failure or improper functionality of components and poor control of aircraft which could pose a safety hazard. NEVER operate R/C model aircraft near power lines, radio or cell phone towers, roads or automobiles, buildings, or pedestrians. Be very careful in locations where many R/C aircraft are being used simultaneously. NEVER operate R/C equipment if you are physically impaired as it could pose a safety hazard to yourself or others in the area. NEVER allow small children to operate/control model R/C equipment without the supervision of an adult. NEVER allow the transmitters throttle stick to accidentally be moved away from the off or minimum position while the models engine/motor is moving. ALWAYS range check the radio system before use. ALWAYS make sure that all transmitter stick movements operate all servos properly in the model. Check the proper operation of control surfaces before and after starting the engine/motor. ALWAYS make sure the transmitter antenna is unfolded entirely so that its pointing upright to ensure max. range and control of the aircraft. Do not store your radio equipment in extremely hot or cold locations, in direct sunlight, or in locations with high humidity. Store R/C equipment in cool and dry locations. Do not allow chemicals to come in contact with any parts of the radio system. Substances such as glow fuel, gasoline, CA glue, etc. could permanently damage plastic parts of the radio system. 17 If NiCd batteries were installed in the transmitter, remove the batteries before placing the radio in long-term storage. TROUBLESHOOTING RANGE IS SHORT Interference check Rx installation and servo connections. Low Tx or Rx battery replace the batteries or recharge if applicable. Rx may need to be located to a different position in the model for better reception. Crash damage send the radio to Hobby Services for repair. RUN TIME IS SHORT Low Tx or Rx batteries replace or recharge the batteries. Obstructed servo linkages causing excess battery drain free the linkages / pushrods. Tx POWER SWITCH ON BUT SERVOS DO NOT FUNCTION Tx or Rx batteries are low replace or recharge the batteries. Rx switch is in the off position turn on the ESC or switch harness. Switch harness or ESC is connected incorrectly check all connections and the ESC instruction manual. Rx is not binded to the Tx properly perform binding process again. Check Tx or Rx battery polarity. INTERFERENCE OR SERVOS GLITCHING Out of range operate the model more closely to the transmitter. Outside radio interference from pagers, strong industrial or other commercial transmitters in the area - check your local R/C club regarding local operation. Rx located too closely to engine, motor, or servos or other moving mechanical parts which might be creating unwanted electrical noise relocate the Rx inside the model or relocate the ESC. CONTROL SURFACE MOVES IN THE WRONG DIRECTION Reverse the position of the reversing switch for the appropriate channel. ONLY ONE SERVO GLITCHES Servo is bad replace the servo or send to Hobby Services for repair. FAILSAFE NOT WORKING CORRECTLY Receiver is not properly binded to the transmitter bind the Rx to the Tx and re-

try. Contact Hobby Services for further details. WIRELESS TRAINING FUNCTION NOT BINDING Check to see that another Tactic 2.4GHz system is not on in your area. The teachers and students transmitters were not powered in the proper sequence. Carefully follow the instructions on page 3 for proper binding and operation for training. RECHARGEABLE BATTERIES WONT ACCEPT CHARGE THROUGH THE TRANSMITTER Check the charger for proper setup and operation. Make sure the charge plug is 18 inserted fully into the charge jack. Make sure the transmitters power switch is in the OFF position. Make sure the cells are inserted inside the battery compartment in the proper direction. FCC STATEMENT 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.

(2) This device must accept any interference received, including interference that may cause undesired operation. FCC Rf Radiated Exposure Statement: The equipment complies with FCC Rf radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with a minimum distance of 20 centimeters between the radiator and your body. Note: The manufacturer is not responsible for any radio or TV interference caused by unauthorized modi cations to this equipment. Any changes or modi cations not expressly approved by the party responsible for compliance could void the users authority to operate the equipment. FCC ID: IYFTTX404B CE COMPLIANCE INFORMATION FOR THE EUROPEAN UNION Instructions for Disposal of Waste Equipment by Private Users in the European Union:

This symbol on the product or its packaging indicates this product must not be disposed of with other household waste. Instead, it is the users responsibility to dispose of their waste equipment by handing it over to a designated collection point for the recycling of waste electrical and electronic equipment. The separate collection and recycling of your waste equipment at the time of disposal will help to conserve natural resources and ensure that it is recycled in a manner that protects human health and the environment. For more information about where you can drop off your waste equipment for recycling, please contact your local city of ce, your household waste disposal service or location where you purchased the product. Declaration of Conformity:

Equipment class: 1 Tactic TTX404 transmitter and Tactic TR624 receiver:

The objects of the declaration described here are in conformity with the requirements of the speci cations listed below, following the provisions of the European 2006/95/

EC Low Voltage Directive:

Product: Tactic TTX404 2.4GHz 4-Channel Tx Rx Item number: TACJ2404 19 Safety EN 60950-1:2006 The objects of the declaration described here are in conformity with the requirements of the speci cations listed below, following the provisions of the European R&TTE directive 1995/5/EC:

ETSI EN 300 328 V1.7.1 ETSI EN 301 489-1 V1.8.1, 301 489-17 V1.3.2 Tactic c/o Hobbico, Inc. 2904 Research Road Champaign, IL USA 61826 Technical requirements for radio equipment General EMC requirements for radio equipment CE COMPLIANCE INFORMATION FOR THE EUROPEAN UNION The associated regulatory agencies of the following countries recognize the noted certifications for this product as authorized for sale and use. UK EE RO NL DE LV SI LU DK LT AT MT BG PL IT CY SE CZ ES GR FI SK PT HU IE 1-YEAR LIMITED WARRANTY * U.S.A. & Canada Tactic warrants this product to be free from defects in materials and workmanship for a period of one (1) year from the date of purchase. During that period, Tactic will, at its option, repair or replace without service charge any product deemed defective due to those causes. You will be required to provide proof of purchase (invoice or receipt). This warranty does not cover damage caused by abuse, misuse, alteration or accident. If there is damage stemming from these causes within the stated warranty period, Tactic will, at its option, repair or replace it for a service charge not greater than 50% of its then current retail list price. Be sure to include your daytime telephone number in case we need to contact you about your repair. This warranty gives you speci c rights. You may have other rights, which vary from state to state. For service on your Tactic product, send it post paid and insured to:

HOBBY SERVICES 3002 N. Apollo Dr., Suite 1 Champaign, IL 61822 Ph: (217) 398-0007

(9:00am 5:00pm CST, MF) E-mail: hobbyservices@hobbico.com This product is suitable only for people of 14 years and older. This is not a toy!

WARNING: CHOKING HAZARD - May contain small parts. Keep away from children under 3 years. Please retain packaging for future reference. No part of this manual may be reproduced in any form without prior permission. The contents of this manual are subject to change without prior notice. Tactic is not responsible for the use of this product. 20