Hitec OPTIC_6 Bedienungsanleitung


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Acro / Glider
Heli
Three in One
FM/QPCM
Made in the Philippines
English Manual
Futaba is a registered trademark of the Futaba Corporation.
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Multiplex is a registered trademark of the Multiplex corporation.
SYSTEM INSTRUCTION MANUAL
Introduction to the Optic SystemTable of Contents
Congratulations! You now own a Hitec Optic, an extremely
versatile radio control system that may be effectively used by
both beginning and master pilots. The transmitter may be
programmed for aircraft/gliders or helicopters, all with special
mixing functions, so it can accommodate many model
configurations. You can store programming for eight different
models in this powerful system! The transmitter will remember
all of your settings for each of your different models forever -
no backup battery is ever needed. With programmable shift, it
can be used with all PPM/FM receiver models, even those
from other brands! The system pushbuttons allow rapid data
input into the easy-to-read LCD display. With its electronic
digital trims, you'll never lose your trim positions again,
because they stay at the same place you left them for every
model stored in memory! You can select the on-off switches
for many functions, and you can even assign the throttle to an
on-off switch, great for electrics! Standard programming
features include servo reversing for all channels, subtrims, end
point adjust on all channels, dual rates (with choice of switch),
and exponential. Pre-programmed functions and programmable
mixers allow you to use the system for any type of model you
can imagine. For those learning to fly, the transmitter has
"buddy-box" capability, so that you may connect a second
Hitec transmitter with an optional trainer cord part #58310 for
training by an instructor pilot.
R
1. Standard Version, Item #158721. Includes four
HS-325HB ball bearing servos, 8 channel Supreme
receiver, 600 mAH airborne battery, standard switch
harness, and overnight wall charger.
2. Airplane Spectra Version, Item # 158722. Includes
Transmitter and Spectra frequency synthesizer
module and overnight wall charger.
3. QPCM Version, Item # 158724. Includes four
HS-325HB ball-bearing servos, 7-channel QPCM
receiver, 600 mAH receiver battery, switch harness,
and overnight wall charger.
These versions come with the following accessories:
- 12" (30 cm) servo extension cord
- Frequency number flag
- Hardware and mounting package for all the servos
- Flight preserver" closed-cell foam wrap to protect
the receiver from shock and vibration.
- Warranty card
- Manual
4. Spectra QPCM Transmitter Version, Item # 158725.
Optic transmitter with Spectra Synthesizer Module,
7-channel QPCM receiver and overnight wall charger.
This product is to be used for sport and recreational
flying of radio-control models only. Hitec is not
responsible for the results of use of this product by the
customer or for any alteration of this product, including
modification or incorporation into other devices by third
parties. Modification will void any warranty and is done
at owner's risk.If you have any difficulties, please consult
this manual, your hobby dealer, or Hitec (contact
information is provided in the rear of this manual). Note
the information contained in this manual is subject to
change without notice due to possible changes in
manufacturing procedures, system software
programming, or updates. "Hitec" is a registered
trademark of the Hitec RCD, Inc.Disclaimer: This
information specific to North American versions of the
Optic.
This manual has been carefully written from scratch to
be as helpful to you, the new owner, as possible - it is
not just a translation! There are many pages of setup
procedures, examples, explanations, and trimming
instructions. In order for you to make the best use of
your system and to fly safely, please read this manual
carefully. If you don't have time to read it thoroughly, at
least spend some time browsing through it so that you
can see all the features this fine system has to offer and
remember them for future use.
About this manual
Optic System Options:
Helicopter features include five-point pitch and throttle curves,
high and low revolution mixing, throttle cut, throttle hold, gyro
settings, and rudder throttle mixing. You may select a
conventional swashplate, or if you have a more complex
chopper, mixing is provided for the 120 type of three-servo
swashplates. Two programmable mixers are also provided for
making your own custom functions or for custom
compensations. Of course, the Optic helicopter menus have
the four helicopter flight mode settings found in other radios
costing hundreds of dollars more.
There are two aircraft menu's to choose from:
Aircraft/Glider preprogrammed mixing features include
flaperon (dual aileron servos), flap trim, camber control,
landing mixing, aileron differential, ailevator (dual elevator
servos), V-tail, elevon (for flying-wing models), landing settings,
throttle-cut, throttle control select, aileron rudder mixing,
elevator flap mixing, and crow mixing. Two programmable
mixers are also provided for making your own custom functions.
The second aileron may be set to plug into channel 5, so you
can use the system with ultralight five-channel receivers
without any problems!
Introduction to the Optic System - Page 3Table of Contents - Page 2
Introduction to the Optic System 3
About this manual 3
Optic System Options: 3
Flying Safety 4
Airplane Frequencies 5
Radio Installation Notes 5
Notes on Servos
5
Mounting
5
Servo Throw
5
Switch Harness Installation
5
Receiver Notes
5
Antenna
5
Connectors
6
Using The Aileron Extension
6
Vibration and Waterproofing
6
Charging the Optic Ni-Cd Batteries 6
Operating With A Trainer Cord 6
Other Adjustments 7
Adjustable length control sticks
7
Stick lever tension adjustment
7
Changing the Optic transmitter's mode
7
Factory Repair Service 8
Optic Controls and Switch Assignments 8
Transmitter Input Buttons 9
Receiver - Servo Connection List 9
Transmitter Displays & Messages 9
Warning Displays
11
Model Setup Functions 11
M.SEL - Model Select
11
COPY - Copy Model
11
ACGL, HELI - Model Type Select
12
Swashplate Type Selection
12
Model Name 13
Transmit Shift - SFT.N, SFT.P
13
Modulation - PPM, QPCM
14
TIME -Timer Function Setup
14
REST - Data Reset
15
AIRCRAFT & GLIDER (ACGL) MENU FUNCTIONS 15
Simple Transmitter Setup -
Aerobatic Airplane (ACGL Menu) 16
Simple Transmitter Setup - Electric Airplane,
5-Channel Receiver (ACGL Menu) 22
Optic Aircraft Controls and Switch Assignments 26
Airplane Model Function Descriptions 27
EPA - End Point Adjust
27
D/R - Dual Rates
27
EXP - Exponential
28
STRM - Subtrim Settings
28
REV - Servo Reversing
29
T.CUT - Throttle Cut (Engine Kill) Function
29
STCK - Throttle Location
29
FLPT - Flap Travel Function
30
FLPN - Flaperon Mixing
30
ADIF - Aileron Differential
31
CAMB - Camber Control
32
LAND - Landing Function
33
ELVN - Elevon Mixing
34
VTAL - V-Tail Mixing
35
A->R - Aileron Rudder Mixing
36
E->F - Elevator Flap Mixing
36
CROW - Crow Mixing (Airbrakes)
37
PMX1, PMX2 - Programmable Mixes 1 and 2
38
S/W SEL - Switch Selection For Auxiliary Functions
39
AILV - Ailevator Function
39
FAIL - Failsafe Function
41
Aircraft Flight Trimming Chart 41
Optic Helicopter (HELI) Programming 44
Optic Helicopter Controls and Switch Assignments 45
Helicopter Setup Instructions 46
Menu Descriptions - Helicopter 49
Helicopter Flight Conditions
49
R->T - Rudder Throttle Mixing
50
GYRO - Gyro settings
51
HOLD - Throttle Hold
51
THCV - Throttle Curve
52
PTCV - Pitch Curve
53
S/W SEL - Switch Selection For Auxiliary Functions
53
RVMX - Revolution mixing
54
SWAH - Swashplate adjust (120
°
swash only)
54
Hovering Throttle Adjustment Lever (Pilot Control)
55
Hovering Pitch Adjustment Lever (Pilot Control)
55
Helicopter Flight Trimming Chart 56
Adjusting Hovering Pitch and Hovering Throttle
56
GLOSSARY 57
ACGL Model Data Recording Sheet 58
HELI Model Data Recording Sheet 59
Airplane Frequencies
Radio Installation Notes
Flying Safety
To ensure your own safety and the safety of others, please
observe the following precautions:
Charge the Batteries!
Be sure to recharge the batteries before each flying session.
A battery low in charge will soon die, causing loss of control
and a crash. Plug in the charger that comes in this system
and hook up the transmitter and airborne batteries the day
before a planned flying session. Be sure the charger is not
turned off by the room's light on-off switch!
When you begin your flying session, reset the transmitter's
timer to keep track of how long the system's been used, and
monitor the transmitter's voltage display. Quit flying when your
transmitter battery level reaches 9.4 volts.
Be careful when you use a field charger on your batteries.
A fast-charger may overcharge the batteries, causing
overheating and a premature failure. Never charge your
transmitter or receiver battery at a rate higher than 2 amps.
Flying field
We recommend that you fly at a recognized model airplane
flying field. You can find model clubs and fields by asking the
nearest hobby dealer, or contacting the Academy of Model
Aeronautics. Always pay particular attention to the flying
field's rules, as well as the presence and location of spectators,
the wind direction, and any obstacles on the field. Be very
careful flying in areas near power lines, tall buildings, or
communication facilities as there may be radio interference in
their vicinity. If you must fly at a site that is not a club field, be
sure there are no other modelers flying within a two-mile range,
or you may lose control of your aircraft.
Once you arrive at the flying field...
Before flying, be sure that the frequency you intend to fly with
is not in use, and secure any frequency control device (pin, tag,
etc.) for that frequency before turning on your transmitter.
Never believe that it's possible to fly two or more models on the
same frequency at the same time. Even though there are
different types of modulation (AM, PPM or FM, and PCM), only
one model may be flown on a single frequency.
When you are ready to fly your model, position the throttle stick
or switch to its low speed position, or do whatever is necessary
to command your motor NOT to run. Then, you may turn on
the transmitter power followed by the receiver power. Use the
LOCK function to prevent accidental throttle commands. When
you have finished flying, begin by turning off the receiver power,
then turn off the transmitter power. If you do not follow these
procedures, you may damage your servos or control surfaces,
flood your motor, or in the case of electric-powered models, the
motor may unexpectedly turn on and cause a severe injury.
Before starting the engine, fully retract the transmitter antenna,
power up the transmitter and receiver, and check to be sure
that the servos follow the movement of the sticks. If a servo
operates abnormally, don't attempt to fly until you determine
the cause of the problem. Finally, before starting the engine,
be sure to check that the transmitter model memory is
correct for the chosen model.While you're getting ready to fly,
if you place your transmitter on the ground, be sure that the
wind won't tip it over. If it is knocked over, the throttle stick
may accidentally get moved causing the engine to race
unexpectedly, causing damage or injury to anyone nearby.
Before taxiing, be sure to extend the transmitter antenna to its
full length. A collapsed antenna will reduce your flying range
and may cause a loss of control. It is a good idea to avoid
pointing the transmitter antenna directly at the model at all
times, since the signal is weakest in that direction.
Finally, don't fly in the rain! Water or moisture may enter the
transmitter through the antenna or stick openings and cause
erratic operation or loss of control. If you must fly in wet
weather during a contest, be sure to protect your transmitter
with a plastic bag or waterproof barrier.
The following frequencies and channel numbers may be used
for flying aircraft in the U.S. (this information specific to North
American versions of the Optic):
While you are installing the battery, receiver, and servos into
your model's fuselage, please pay attention to the following
guidelines:
Mounting
When you mount each servo, use the supplied rubber
grommets and insert an eyelet up through the bottom. Be sure
not to over tighten the screws. If any portion of the servo case
directly contacts the fuselage or the servo rails, the rubber
grommets will not be able to attenuate vibration, which can
lead to mechanical wear and servo failure.
Servo Throw
Once you have installed the servos, operate each one over its
full travel and check that the pushrod and output arms do not
bind or collide with each other, even at extreme trim settings.
Check to see that each control linkage does not require undue
force to move (if you hear a servo buzzing when there is no
transmitter control motion, most likely there is too much friction
in the control or pushrod). Even though the servo will tolerate
loads like this, they will drain the battery pack much more rapidly.
Switch Harness Installation
When you are ready to install the switch harness, remove the
switch cover and use it as a template to cut screw holes and a
rectangular hole slightly larger than the full stroke of the switch.
Choose a switch location on the opposite side of the fuselage
from the engine exhaust, and choose a location where it can't
be inadvertently turned on or off during handling or storage.
Install the switch so that it moves without restriction and "snaps"
from ON to OFF and vice versa.
DO NOT cut or coil the receiver antenna wire. It is normal for
the receiver antenna to be longer than the fuselage. DO NOT
cut it or fold it back on itself - cutting or folding changes the
electrical length of the antenna and may reduce range.
Secure the antenna to the top of the vertical fin or the tail boom,
and let the excess length trail behind the aircraft (be sure it
cannot tangle with the tail rotor on a helicopter).
You may run the antenna inside of a non-metallic housing
within the fuselage (a plastic outer pushrod housing works well
for this), but range may suffer if the antenna is located near
metal pushrods or cables. Be sure to perform a range check
before flying. With the antenna collapsed, you should be able
to walk 20 - 30 paces from the model without losing control or
seeing "jitter" in the servos. The range check should be done
with the motor running and the model should be securely
restrained in case of loss of control.
It is very important to display your transmitters channel number
at all times. To install your frequency flag device on your
transmitters antenna, slide the appropriate paper numbers into
the slots and slip the device onto the transmitters antenna.
11 72.010
12 72.030
13 72.050
14 72.070
15 72.090
16 72.110
17 72.130
18 72.150
19 72.170
20 72.190
21 72.210
22 72.230
23 72.250
24 72.270
25 72.290
26 72.310
27 72.330
28 72.350
29 72.370
30 72.390
31 72.410
32 72.430
33 72.450
34 72.470
35 72.490
36 72.510
37 72.530
38 72.550
39 72.570
40 72.590
41 72.610
42 72.630
43 72.650
44 72.670
45 72.690
46 72.710
47 72.730
48 72.750
49 72.770
50 72.790
51 72.810
52 72.830
53 72.850
54 72.870
55 72.890
56 72.910
57 72.930
58 72.950
59 72.970
60 72.990
Ch.No. MHz Ch.No. MHz Ch.No. MHz Ch.No. MHz
72 MHz band
Notes on Servos
Receiver Notes
Airplane Frequencies, Radio Installation Notes - Page 5Flying Safety - Page 4


Produktspezifikationen

Marke: Hitec
Kategorie: Funksteuerung
Modell: OPTIC_6

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