Operation Manual

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Instructions

Seite 33

ENGLISH

The transmitter switches itself off automatically

at around 6.3 V!



TIP !

When you reach the alarm threshold that you prefer

(first audible alarm), set the threshold to 6.5 V. The

transmitter will then only emit an alarm when the bat-

tery falls to the minimum threshold. That tells you how

long you have to land your model. Don’t forget to set

“your” threshold again afterwards.

13.1.4. Parameter „Battery charge“

global effect

Is set to 0 mAh if the battery voltage drops below

6.5 V.

This parameter allows correction of the charge meas-

ured by the battery management system (Î 8.1.).

13.1.5. Parameter „Contrast“

global effect

Range –8 to 8

Default setting 0

This parameter enables you to adjust the contrast of the

screen to suit the prevailing temperature conditions.

13.1.6. Parameter „ Check throttle “

I affects active model only

Guards against the power system starting up

accidentally when you switch on the model!

Check thr ON

Electric-powered models may burst into life at full throt-

tle when you switch on unless the throttle control on

the transmitter is at the idle position.

With Check THROTTLE = ON the software checks two

conditions when you switch on the transmitter:

1. Is Throttle-Cut switched off?

2. Is the THROTTLE control at idle?

Only if the answer to both is yes does the transmitter

start working (transmitting an RF signal). If you now

switch the model on, you can immediately operate the

throttle (Throttle-Cut OFF) and the motor will not start

accidentally (throttle control at idle).

13.1.7. Parameter “Check RF”

global effect

only possible with synthesizer RF module

Safety query when transmitter is switched on!

Check RF ON

Changing channels with synthesizer RF modules is rela-

tively simple, so the ROYALevo provides an additional

security query which can be activated.

With Check RF = ON the transmitter asks you whether

you really want to start transmitting on the set channel;

this it does every time you switch on. You must confirm

this by pressing a button (or by switching the transmit-

ter off again).

13.2. Sub-menu “Define mixer”

Defined mixers are globally available

The ROYALevo provides 14 freely definable mixers.

From this “mixer pool”, which you create over a period

of time to suit your applications and models, you can

use up to 5 different mixers in one model as often as

you like.

Note for helicopter pilots

These freely definable mixers are only available

for fixed-wing models. The system provides a

set of ready-made mixers for model helicopters

which cannot be changed.

Note: Predefined mixers

Mixers 1-5 are already set up as standard, but they can

be changed at any time to suit your personal require-

ments. However, please note that we cannot guarantee

that the template will work 100% correctly if you chan-

ge the standard mixers and subsequently create a new

model using a model template (Î 12.3.) which includes

the assigned “standard mixers”.

If you attempt to change one of these “standard mixers”

the following on-screen note appears:

13.2.1. How the freely definable mixers work

The basic principle of the ROYALevo’s freely definable

mixers is based on the proven method of working em-

ployed by the MULTIPLEX PROFI mc 3000 and 4000

series of radio control systems. A simple method of

explaining this is as follows:

We always start from the “control functions” or the ser-

vo movements. Example: aileron servo on a glider (pre-

defined mixer: AILERON+). When do we want this servo

to move?

1. When the “aileron” control is operated

(primary function)

2. When the “spoiler” function is operated

(ailerons up as landing aid)

3. When the “flap” control is operated

(up/down movement of the ailerons to trim the

wing section for thermal or speed flying)

4. When the “elevator” control is operated

(up/down movement of the ailerons to amplify the

elevator response when flying “square” aerobatic

manoeuvres => snap-flap)