User Manual

ManualsBrandsOrange ManualsHobbyOrangeRx R614XN DSM2/DSMX Compatible Nano Indoor DIY Receiver with cPPM & PWM

ROTE UND ORANGE LED-ANZEIGEN

Während des Bindevorgangs:

Orange LED blinkt schnell. Nach dem Empfang des Bindesignals blinkt der Sender einige Sekunden lang langsam und wird dann fest, wenn

die Verbindung korrekt ist.

Im normalen Betrieb

In Anwesenheit des Sendersignals: Orange LED leuchtet. Wenn das Sendesignal verloren ist, leuchtet die orange LED.

Rote LED blinkt Anzahl der Haltevorgänge ( bis zu 256) - Signalverluste mit mehr als 1 Sekunde, wenn der Empfänger ein fehlersicheres

Ereignis auslösen musste . Die LED blinkt die Anzahl der Haltevorgänge und pausiert dann (z. B. Blitz, Blitz, Blitz, Pause, Blitz, Blitz, Blitz,

Pause zeigt die seit dem letzten Einschalten des Empfängers aufgetretenen Haltepunkte an). Beachten Sie, dass Holds auf Null

zurückgesetzt werden, wenn der Empfänger ausgeschaltet wird. Während der ersten Flüge eines neuen Flugzeugs wird empfohlen, die rote

LED-Halteanzeige zu überprüfen. Wenn es blinkt, ist es wichtig, die Installation zu optimieren (Antennen verschieben oder neu positionieren),

bis kein Halt mehr auftritt. Bei späteren Flügen kann die LED Hold Indicator verwendet werden, um die RF-Link-Leistung zu bestätigen.

RANGE-TESTS

Vor jedem Flug und vor allem bei einem neuen Modell ist es wichtig , eine Reichweitenprüfung durchzuführen. Bitte verwenden Sie die

Anweisungen Ihres Senders, um einen Reichweitentest durchzuführe

*Hinweis:

1) Dies ist kein Spektrum DSM2 / X-Produkt, noch ist es eine Kopie eines Spektrum DSM2

/ X-Produkts. Die Marke Spektrum und DSM2 / X ist eine Marke von Horizon Hobbies USA.

2) Dies ist kein Underground Black Market gefälschtes Spektrum Produkt. Orange Rx Qualität ist garantiert.

3) Akzeptiert von der MAAA in Australien, siehe MAAA MOP58 für Beratung

ORANGERX R614XN DIY NANO RECEIVER

USER MANUAL

FEATURES:

• Compatible with DSM2/DSMX 1024/2048 aircraft radio and module systems

• 6 channel cPPM output allowing for single line connection with compatible devices

• 6 channel PWM output allowing to connect up to 6 servos

• Ultra fast brownout recovery and programmed fail safe mode

• Wide input voltage: 3.7~9.6V

• Size: 11.7x11.7x3mm,

• Weight: 0.5g

Current consumption: 35mA

RECEIVER INSTALLATION

The

R614XN

For optimum RF link performance it’s important that the antenna is in location

that allows for the best possible signal reception when the aircraft is in all possible attitudes and

positions. Please place receiver in the most open place available in your aircraft.

Keep in mind that the signal can be blocked with large objects – carbon fiber fames, metal parts, motors, battery etc.

Also keep it far from your video transmitter if you use it. It is recommended to use frequency other than 2.4GHz for your video equipment in

case not to interfere with the control signal from your radio.

BINDING PROCEDURE

1. Shorten cPPM and GND pins with twizzle or piece of wire.

2. Apply power to the receiver. It can be from 3.7 to 9.6 volts DC. Please refer to picture on the side of the receiver for the correct pinout

(GND, VCC, cPPM)

3. You will see the orange LED rapidly blinking. That means the receiver is in Bind mode.

4. Follow the procedures of your specific transmitter to enter Bind Mode, the system will connect within a few seconds. Once connected,

the orange LED on the receiver will blink several times and go solid indicating the system is connected.

5. Remove the twizzles/wire from the BIND pin on the receiver before you power off the transmitter.

After you’ve set up your model, it’s important to rebind the system so the true low throttle and neutral control surface positions are set.

NOTICE:

Remove the shorting to prevent the system from entering bind mode the next time the power is turned on.

SMART FAILSAFE FEATURE

The

R614XN

features advanced failsafe. Advanced FailSafe is ideal for most types of aircraft. With advanced FailSafe, when signal is lost for the

short time (less than 1 second) all channels will hold last command. If the signal loss occurs for more than 1 second all channels go to

predefined position according to transmitters sticks and switches` positions remembered during binding procedure. That is why it is important to

set a throttle channel at zero and other channels (switches and sticks) to your preferable hold position during binding procedure.

When the signal is regained, the system immediately regains control.

When the receiver only is turned on (no transmitter signal is present), the throttle channel has no output, to avoid operating or arming the

electronic speed control. All other channels are driven to their preset failsafe positions set during binding.

FAST BROWNOUT RECOVERY FEATURE

Sometimes a short power loss happens in the flight. It can happen if your BEC is not powerful enough and servos consume high current or

receiver pack is weak or discharged. It causes a short voltage drop. The event when receiver suddenly loses power in the flight is called a

brownout. When power comes back it takes time for the receiver to reconnect to transmitter. During this time (up to 1 second, depends on the

environment conditions) some analog servos may coast to their extremes even though no signal is present. This may lead to crash due to

unexpected servo moves. To avoid this a new feature Fast Brownout Recovery is introduced. With this feature analog servos will have only a

minor glitch during the recovery time.