AIRTRONICS RX-472 Kullanıcı Kılavuzu

Alıcı AIRTRONICS RX-472 için çevrimiçi göz atın veya pdf Kullanıcı Kılavuzu indirin. AIRTRONICS RX-472 2 sayfaları. W/sanwa synchronized link 2.4ghz fh4t super response receiver

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RX - 472

2.4GHz FH4T Super Response Receiver User's Guide

The RX-472 2.4GHz FH4T Super Response 4-channel receiver with Sanwa Synchronized Link (SSL) features an extremely low latency time and

high frame rate, which makes you feel more connected to your model than ever. Combined with Airtronics or Sanwa Super Response SRG digital

servos, the RX-472 will give you reaction speeds like never experienced before! This new receiver, when used with an Airtronics M12 or Sanwa

EXZES-Z transmitter and the Sanwa Super Vortex ZERO ESC or other SSL compatible ESC, allows you to change many ESC programming mode

options directly from the transmitter using the transmitter's CODE AUX function. This saves you the time and hassle of not needing to stop and make

adjustments manually through the ESC. You can make these adjustments on the fly. In addition, telemetry data such as speed or RPM, ESC temperature,

motor temperature (if supported), and battery voltage can be read directly from the Super Vortex ZERO ESC and displayed on the transmitter.

IMPORTANT: This receiver is not compatible with Airtronics or Sanwa FH2 surface transmitters or aircraft transmitters. SSL function only available

when used with an M12 or EXZES-Z transmitter and Super Vortex ZERO ESC or other SSL compatible ESC. Super Response (SSR) feature only

available when used with an Airtronics or Sanwa FH4T transmitter in SSR Mode with Airtronics or Sanwa Super Response SRG digital servos.

Telemetry requires telemetry capable transmitter (M12, EXZES-Z, MT-4) AND Super Vortex ZERO ESC or other SSL compatible ESC. If not using

the Super Vortex ZERO ESC, the RX-472 can send telemetry data for the voltage of the receiver battery pack only.

2.4GHz frequency band precautions

• This receiver operates on the 2.4GHz frequency band. The 2.4GHz connection is determined by the transmitter and receiver pair. Unlike

ordinary crystal-based systems, your model can be used without frequency control.

• Due to differences in the implementation of 2.4GHz technology among different manufacturers, this receiver is not compatible with any other

transmitter brands.

• The 2.4GHz frequency band may be used by other devices, or other devices in the immediate area may cause interference on the same

frequency band. Always before use, conduct a bench test to ensure that the servos operate properly. Also, conduct checks with the transmitter

as distant as possible from your model.

• The response speed of the receiver can be affected if used where multiple 2.4GHz transmitters are being used, therefore, carefully check the

area before use. Also, if response seems slow during use, stop your model immediately and discontinue use.

• If the 2.4GHz frequency band is saturated (too many transmitters on at once), as a safety precaution, the transmitter and receiver may not bind.

This ensures that your radio control system does not get hit by interference. Once the frequencies have been cleared, or the saturation level

has dropped, your transmitter and receiver should be able to bind without any problems.

receiver precautions

• If you're using analog servos, DO NOT use SHR or SSR Servo Modes for that channel, otherwise the servos and/or receiver can be damaged.

• Do not plug any device other that an SSL compatible device or a switch harness w/receiver battery into the BATT/SSL port.

• The antenna consists of a coaxial cable and a reception wire (the thin tip at the end of the coaxial cable). When you

mount the antenna, do not bend the reception wire. Reception performance decreases if the reception wire is bent. The

coaxial cable can be bent into gentle curves, however, do not bend the coaxial cable acutely, or repeatedly bend it, or

the antenna core can be damaged.

• The antenna should be installed into a vertical plastic tube per your particular model's assembly instructions. See diagram.

Keep the antenna as far away from the motor, battery and ESC as possible. The antenna should not come into contact

with any carbon or metal chassis components.

• The receiver is susceptible to vibration, shock and moisture. Take appropriate measures to protect against vibration and

moisture. We suggest wrapping the receiver in shock-absorbing foam when installing it into your model.

• The antenna is delicate, therefore, handle it with care. Do not pull on the antenna with force. Do not cut the coaxial cable or the antenna reception

wire. Do not alter the length of either the coaxial cable or the antenna reception wire.

• There is a danger of runaway operation if connectors loosen during use. Make sure that all connectors are securely fitted.

receiver specifications, led condition indicator and connections

IMPORTANT: The receiver's Nominal Input Voltage is 3.7 to 7.4 volts. A 2 cell LiPo or LiFe battery pack can be used to power the receiver

without the use of a voltage regulator. In addition, this allows you to take advantage of the higher torque and speed provided by using 7.4 volt

servos. Only use a 2 cell LiPo or LiFe battery pack if your servos are rated to handle the higher voltage!

• We suggest binding the transmitter and receiver and making all receiver connections to check for correct operation prior to mounting the

receiver in your model. See the Binding the Transmitter and Receiver section on the reverse side.

• After binding the transmitter and receiver, choose the desired Servo Mode and program the Fail Safe function.

Specifications:

• Frequency: 2.4GHz FH3/FH4T Selectable Via Transmitter

• Nominal Input Voltage: 3.7 to 7.4 Volts

• Weight: 0.23oz (6.6g)

• Dimensions: 1.18 x 0.91 x 0.55in (30.0 x 23.3 x 14.0mm)

• Battery Fail Safe Limit: 3.5 to 5.0 Volts (FH3) / 3.5 to 7.4 Volts (FH4T)

Bind LED Condition Indicator:

The Bind LED on the receiver can be used to determine receiver condition at a glance. The

Bind LED will alert you to various receiver conditions, as described below:

LED

Blue

Blue Flash Slow/Blue Flash Fast

Red & Blue Flashing

Red

w/Sanwa Synchronized Link

Condition

Receiving RF Signal

Binding Operation

Receiver Battery Fail Safe Activates

No RF Signal After Receiver Battery Fail Safe Activates

Coaxial Cable

Bind Button

* If using the Sanwa Super Vortex ZERO or other

SSL compatible ESC, plug the ESC into the

BATT/SSL slot, otherwise SSL features and

telemetry data will not be available. All other

ESC's should be plugged into the CH 2 - ESC slot.

Antenna

Reception Wire

Coaxial Cable

Antenna Tube

Bind LED

BATT/SSL*

CH 4 - Auxiliary 2

CH 3 - Auxiliary 1

CH 2 - ESC

CH 1 - Steering

= Signal

= Positive

= Negative

Antenna Reception Wire