Fl ying – Top Flite TOPA0700 User Manual

and higher torque ser

v

os are strongly encour

aged

fo

r larger aircr

aft.

The use of one ser

v

o

f

or each

aileron and one f

or each ele

v

ator half is strongly

recommended.

Use of dual ser

v

os is also

recommended f

o

r larger aircr

aft.

On-board batter

ies shall be 1000 mAh up to 20 lbs

.,

1200 mAh to 30 lbs

., 1800 mAh to 40 lbs

.

and 2000

mAh o

ver 40 lbs

.

flying w

eight.

The n

umber and siz

e of

ser
vo

s,

siz

e and loads on control surf

aces

, and added

features should be considered as an increase to these

minim

ums

.Batter

ies should be ab

le to sustain po

w

er to

the onboard r

adio components f

o

r a minim

u

m of one

hour total flying time bef

ore recharging.

Both redundant and f

ail-saf

e batter

y systems

are recommended.

The use of anti-glitch de

vices f

or long leads

are recommended.

There is no maxim

um engine displacement limit, as

it is the position of this body that an under

po
w

ered

aircr

aft presents a g

reater danger than an

o

v

er
po
w

ered aircr

aft.

Ho
w

e

v

e

r, the selection of

engine siz

e relativ

e to airfr

ame strength and po

w

e

r

loading mandates good discretionar

y judgment b

y

the designer and b

uilder

.

Current AMA maxim

ums

for engine displacement are 6.0 cu.

in.
for tw

o-strok

e

and 9.6 cu.

in.

for f

our-strok

e engines

.

These

maxim

ums apply only to AMA Sanctions concer

ning

competition e

v

ents (such as 511, 512, 515 and 520)

and, as such, the maxim

ums apply

.

All IMAA (non

competition) e

v

ents should be sanctioned as Class

“C”

e

v

ents

, in which these engine siz

e maxim

ums do

not apply

.

Gener

ally

, it is recommended that no attempt should

be made to fly a r

adio controlled model aircr

aft with

a gasoline engine in which the model aircr

aft w

eight

w

ould e

xceed tw

elv
e (12) pounds (under

po
w

ered)

per cubic inch of engine displacement, or be less

than fiv

e (5) pounds (o

v

e

rp

o

w

ered) per cubic inch of

engine displacement.

Example:

Using a 3 cu.

in.

engine

, a model w

ould lik

ely be under

po
w

ered at an

aircr

aft w

eight g

reater than 36 pounds

.

W
ith the

same engine

, an aircr

aft w

eighing less than 15

pounds w

ould lik

ely be o

v

er

po
w

ered.

Ser

v

o

ar
ms and wheels should be r

ated hea

vy duty

.

Glass-filled ser

v

o

ar

ms and control hor

ns are

highly recommended.

Control surf

aces linkages are listed in order

of pref

erence:

1.
Cab

le system (pull-pull).

A tiller bar is highly

recommended along with necessar

y br

acing.

2.
Arro

w Shaft, fiberglass or alumin

um, 1/4" or 5/16"

[6 or 8mm] O

.D

.

br

acing e

v

er

y six (6) to ten (10)

inches is highly recommended.

3.
T

ube-in-tube (n

yrod).

Br
acing e

v

er

y f
e

w inches is

highly recommended.

Inner tube should be totally

enclosed in outer tube

.

4.
Hardw

ood do

w

el, 3/8" O

.D

.

br

acing e

v

er

y six (6)

to ten (10) inches is highly recommended.

Hinges should be r

ated hea

vy duty and

man

uf

actured f

or Giant Scale use pr

imar

ily

.

Homemade and or

iginal design hinges are

acceptab

le if deter

mined to be adequate f

or the

intended use

.

Cle

vis (steel, e

xcluding hea

vy-duty ball links) and

attachment hardw

are should be hea

vy duty 4-40

threaded rod type

.2

-56 threaded siz

e

rod is acceptab

le

fo

r some applications (e

.g.
throttle).

Cle

vis is to ha

ve

loc
k n
uts and slee

ve

or spr

ing k

eepers

.

Propeller tips should be painted or colored in a

visib

le and contr

asting manner so as to increase the

visibility of the propeller tip arc.

FL
YING

The

T

op Flite Giant P-51D Mustang ARF is a g

reat-

flying model that flies smoothly and predictab

ly

.

The

Mustang does not, ho

w

e

v

e

r, possess the self-

reco

v

e

ry

char

acter

istics of a pr

imar

y R/C tr

ainer and

should be flo

wn only b

y

e

xper

ienced R/C pilots

.

Fuel Mixture Adjustments

A fully co

wled engine ma

y r

un at a higher

temper

ature than an un-co

wled engine

.

F

or this

reason, the fuel mixture should be r

ichened so the

engine r

uns at about 200 r

p

m belo

w peak speed.

By

running the engine slightly r

ich, y

ou will help pre

v

ent

dead-stic

k landings caused b

y

o

v

erheating.

CA
UTION

(THIS APPLIES

T

O

ALL

R/C

AIRPLANES):

If

, while flying, y

ou notice an alar

ming

or un

usual sound such as a lo

w-pitched

“b

uzz,

”

this

ma
y indicate control surf

ace

flutter

.

Flutter occurs

when a control surf

ace (such as an aileron or

ele
vator) or a flying surf

ace (such as a wing or stab)

rapidly vibr

ates up and do

wn (thus causing the

noise).

In e

xtreme cases

, if not detected

immediately

, flutter can actually cause the control

surf

ace to detach or the flying surf

ace to f

ail, thus

causing loss of control f

ollo

w

ed b

y

an impending

cr

ash.

The best thing to do when flutter is detected is

to slo

w the model

immediatel

y

b

y

reducing po

w

e

r,

then land as soon as saf

ely possib

le

.

Identify which

surf

ace fluttered (so the prob

lem ma

y be resolv

ed)

b

y

chec

king all the ser

vo

g

rommets f

o

r deter

ior
ation

or signs of vibr

ation.

Mak

e cer

tain all pushrod

linkages are secure and free of pla

y.

If it fluttered

once

, under similar circumstances it will probab

ly

flutter again unless the prob

lem is fix

ed.

Some things

which can cause flutter are;

Excessiv

e hinge gap;

Not mounting control hor

ns solidly;

P

oor fit of cle

vis

pin in hor

n;
Side-pla

y of wire pushrods caused b

y

large bends;

Excessiv

e free pla

y in ser

vo

gears;

Insecure ser

vo

mounting;

and one of the most

pre
valent causes of flutter

;

Flying an o

ver-po

w

e

red

model at e

xcessiv

e speeds

.

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