Elevon/ delta mixing, Receiver power system requirements – Spektrum SPMR55001 DX5e Manual User Manual

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SPEKTRUM DX5e • RADIO USER’S GUIDE

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ELEVON/ DELTA MIXING

The DX5e offers an Elevon mix. Elevon (also called delta

wing) mixing combines the function of ailerons with the

function of the elevator to allow precise control of both roll

and pitch for delta wing aircraft. To activate the Elevon mix,

move the mix switch to the on (up) position.

AILE Servo Port

(Left Aileron)

ELEV Servo Port

(Right Aileron)

Delta Wing Type Connection

• ELEV servo port (right aileron)
• AILE servo port (left aileron)

Note: If proper servo direction cannot be achieved

with the servo reversing switches, swap the servo input

leads from AILE to ELEV or vice versa.

RECEIVER POWER SYSTEM

REQUIREMENTS

With all radio installations, it is vital the onboard power

system provides adequate power without interruption to the

receiver even when the system is fully loaded (servos at

maximum flight loads). This becomes especially critical with

giant-scale models that utilize multiple high-torque/ high-

current servos. Inadequate power systems that are unable

to provide the necessary minimum voltage to the receiver

during flight loads have become the number-one cause of

in-flight failures. Some of the power system components

that affect the ability to properly deliver adequate power

include: the selected receiver battery pack (number of cells,

capacity, cell type, state of charge), switch harness, battery

leads, regulator (if used) and, unless it’s a regulator, power

bus (if used).

While a Spektrum receiver’s minimum operational voltage is

3.5 volts, it is highly recommended the system

be tested per the guidelines below to a minimum acceptable

voltage of 4.8 volts during ground testing. This

will provide head room to compensate for battery

discharging or if the actual flight loads are greater than the

ground test loads.

RECOMMENDED POWER SYSTEM

GUIDELINES

1. When setting up large or complex aircraft with multiple

high-torque servos, it’s highly recommended that a

current and voltmeter (Hangar 9 HAN172) be used. Plug

the voltmeter in an open channel port in the receiver

and, with the system on, load the control surfaces

(apply pressure with your hand) while monitoring the

voltage at the receiver. The voltage should remain above

4.8 volts even when all servos are heavily loaded.

2. With the current meter in line with the receiver battery

lead, load the control surfaces (apply pressure

with your hand) while monitoring the current. The

maximum continuous recommended current for a

single heavy-duty servo/battery lead is three amps

while short-duration current spikes of up to five amps

are acceptable. Consequently, if your system draws

more than three amps continuous or five amps for short

durations, a single battery pack with a single switch

harness plugged into the receiver for power will be

inadequate. It will be necessary to use multiple packs

with multiple switches and multiple leads plugged into

the receiver.