Hangar 9 33% Pawnee 80cc ARF (3 Boxes) User Manual

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Hangar 9 33% Pawnee 80cc ARF

Center of Gravity

An important part of preparing the aircraft for flight is

properly balancing the model.

CAUTION: Do not inadvertently skip this step!

Before balancing your model, make sure it is fully assembled

and ready for flight. Balance your model with the fuel tank

empty.
The recommended Center of Gravity (CG) location for your

model is 8

1

/

2

-inch to 9-inch (216mm–229mm) located at the

wing root near the fuselage. Measure back from the leading

edge as shown and mark the location of the CG on the top of

the wing with a felt-tipped pen.
With a helper, lift the aircraft with your index finger at the

location marked on the wing. If the nose of your aircraft

hangs low, add weight to the rear of the aircraft. If the tail

hangs low, add weight to the nose of the aircraft. Stick-on

weights are available at your local hobby store and work well

for this purpose.

After the first flights, the CG position can be further adjusted

for your personal preference.

Note

: The receiver battery can be located in multiple

locations in your aircraft. Although the location

shown is for the installation of the recommended

engine, please locate the battery in the fuselage

to achieve the correct Center of Gravity without

adding additional weight to your aircraft.



1. Secure a 24-inch (610mm) servo extension on the

batter pack lead. Wrap the battery in foam and secure its

location using a hook and loop strap.



2. Once the receiver battery has been installed, use six

2mm x 8mm sheet metal screws and a #1 Phillips screwdriver

to secure the cover over the battery compartment.

Control Throws

Setting the control throws for your model does require some

attention to detail. To correctly set the throws, it is highly

suggested to use the following procedure to achieve the

greatest mechanical advantage from your servos:



1. Determine the maximum amount of control surface

throw from the throws listed. Use the high-rate throws to

set the maximum amount of throw, then use your computer

radio for the lower rate listed.



2. Set the Travel Adjust to about 15% under the max.

(On a JR transmitter, that is 135%.) Make sure to set both

directions during this process.



3. Adjust the position of the clevis on the control horn

and position of the ball link on the servo arm to achieve

the high rate throws listed. It is highly recommended not

to change the position on the servo arm unless absolutely

necessary. Use Travel Adjust (ATV) to finalize the throws

(that is why we left a little margin in the percentages).



4. If setting a dual elevator or aileron, match the linkage

locations. Increase or decrease the Travel Adjust (ATV) a

few points as necessary to fine-tune the throws to match

up left and right sides and up and down throws so all is

symmetrical.
This is all necessary to tune the mechanical advantage

as best as possible. When setting up your model, the

mechanical advantage will be less because of the large

throws, and thus, the servo will work harder and wear faster.

Using an insufficient servo for the job, or trying to get too

much throw, will cause something to give; probably the

servo.
There isn’t an exact geometry to the linkage, as it depends

on how much throw each individual modeler requires. The

linkage geometry should always be maximized so the servo

isn’t working any harder than it has to.