SPEKTRUM AR10360T 10 Channel Telemetry Receiver User Guide
- June 5, 2024
- SPEKTRUM
Table of Contents
- MEANING OF SPECIAL LANGUAGE
- SPECIFICATIONS
- Smart Throttle
- Telemetry
- Installing the AR10360T Receiver
- DEFAULT CHANNEL ASSIGNMENTS
- Failsafe
- AS3X Reaction Test
- AR10360T Receiver — SAFE Setup
- Advanced Tuning
- (AS3X) System Setup
- Other Settings (Forward Programming)
- SAFE (Self Leveling) Flying Tips
- Channel Limitations
- Flight Log
- **Glossary
- Optional Accessories
- Troubleshooting Guide AS3X
- Troubleshooting Guide
- 1-Year Limited Warranty
- WARRANTY SERVICES
- Warranty and Service Contact Information
- FCC Information
- IC Information
- Documents / Resources
AR10360T 10 Channel Telemetry Receiver
User Guide
NOTICE
All instructions, warranties, and other collateral documents are subject to
change at the sole discretion of Horizon Hobby, LLC. For up-to-date product
literature, visit horizonhobby.com or towerhobbies.com and click on the
support or resources tab for this product.
MEANING OF SPECIAL LANGUAGE
The following terms are used throughout the product literature to indicate
various levels of potential harm when operating this product:
WARNING: Procedures, which if not properly followed, create the
probability of property damage, collateral damage, and serious injury OR
create a high probability of superficial injury.
CAUTION: Procedures, which if not properly followed, create the
probability of physical property damage AND a possibility of serious injury.
NOTICE: Procedures, which if not properly followed, create a possibility
of physical property damage AND a little or no possibility of injury. Age
Recommendation: Not for children under 14 years. This is not a toy.
WARNING: Read the ENTIRE instruction manual to become familiar with the
features of the product before operating. Failure to operate the product
correctly can result in damage to the product, and personal property and cause
serious injury. This is a sophisticated hobby product. It must be operated
with caution and common sense and requires some basic mechanical ability.
Failure to operate this Product in a safe and responsible manner could result
in injury or damage to the product or other property. This product is not
intended for use by children without direct adult supervision. Do not attempt
disassembly, use with Incompatible components or augment the product in any
way without the approval of Horizon Hobby, LLC. This manual contains
instructions for safety, operation, and maintenance. It is essential to read
and follow all the instructions and warnings in the manual, prior to assembly,
setup or use, in order to operate correctly and avoid damage or serious
injury.
WARNING AGAINST COUNTERFEIT PRODUCTS.
Always purchase from a Horizon Hobby, LLC authorized dealer to ensure
authentic high-quality Spektrum products. Horizon Hobby, LLC disclaims all
support and warranty with regards to, but not limited to, compatibility and
performance of counterfeit products or products claiming compatibility with
DSM or Spektrum technology.
NOTICE: This product is only intended for use with unmanned, hobby-grade,
remote-controlled vehicles. Horizon Hobby disclaims all liability outside of
the intended purpose and will not provide warranty service related thereto.
AR10360T AS3X and SAFE Telemetry Receiver
The Spektrum™ AR10360T Receiver is full range with telemetry, and is
compatible with all Spektrum™ DSM2 ® and DSMX ® technology transmitters.
Perform the setup for the AR10360T receiver through a compatible Spektrum
Transmitter with forwarding Programming. The Spektrum PC Programmer can be
used for firmware updates.
IMPORTANT: The AR10360T receiver only uses forward programming for the
configuration, do not use the AS3X menu in the main transmitter menu.
WARNING: If equipped, the propeller should not be installed on the motor
during the setup procedure. Only install the propeller once the throttle has
been confirmed to operate correctly and the failsafe has been set. As an
additional safety feature, we recommend the throttle cut is enabled. Throttle
cut should be engaged any time the aircraft is powered on and not in
operation. The motor will not rotate when the throttle cut is in the ON
position.
SPECIFICATIONS
| AR10360T
---|---
Type| DSM2/DSMX 10 CH AS3X Telemetry Receiver
Application| Air
Channels| 10
Receivers| 1
Remote Receiver (not included)| SRXL2 ™ Remote Receiver Optional [SPM9747,
SPM4651T]
Modulation| DSM2/DSMX
Telemetry| Integrated
Bind Method| Bind Button, Bind Plug
Failsafe| Yes
Band| 2.4GHz
Dimensions (LxWxH)| 55 x 30 x 15mm
Weight| 18g
Input Voltage| 3.5–9V
Resolution| 2048
Antenna Length| 155mm and 186mm
Antenna Length| 155mm and 186mm
Smart Throttle
With Smart Technology the normal servo connector delivers the throttle signal
to the ESC, plus the ESC can send telemetry data like voltage and current back
to the receiver. The AR10360T receiver throttle port (Channel 1 port only)
will automatically detect when a Smart compatible ESC is connected. ESCs with
Smart and IC series connectors can also pass along battery data from
compatible Spektrum Smart batteries. Spektrum Avian™ ESCs are compatible with
the AR10360T receiver for Smart Technology features.
For Smart to function you must have a Smart ESC paired with a Smart telemetry
receiver, and a Spektrum DSMX transmitter with telemetry. An update for your
transmitter may be required for Smart features. See
www.spektrumrc.com register and update your
transmitter. If a standard ESC or servo is plugged into the throttle port on
the R10360T receiver, the throttle port will operate normally (PWM signal)
like any conventional RC system.
Telemetry
The AR10360T features full-range telemetry and will provide receiver battery
voltage, flight log data, and variometer and altitude data without any
additional sensors. Additional telemetry devices such as voltage sensors can
be connected to the volt port, and XBus telemetry sensors can be connected
through the XBus connector. Every XBus telemetry device has two XBus ports,
and XBus telemetry sensors can be connected in a daisy chain in any order.
See www.spektrumrc.com for more information about
telemetry accessories.
Installing the AR10360T Receiver
-
Mount the receiver using double-sided servo tape. The receiver may be mounted upright, upside down or on its side, but it should be square with the fuselage in its mounting position. The receiver cannot be mounted at an odd angle.
TIP: For SAFE setups, install the receiver as close to the center of gravity ofthe aircraft as practical. -
Connect the servos to their respective ports on the receiver using the chart below.
CAUTION: Incorrect installation of the receiver could cause a crash. Always perform a control surface check and AS3X control surface response test before flying a new setup, or after any setup changes.
DEFAULT CHANNEL ASSIGNMENTS
AR10360T Port Assignments
Bind/Prog/SRXL2= Bind, Aux Device Support, Program
- Throttle (Smart Throttle)
- Aileron
- Elevator
- Rudder
- Gear
- Aux 1
- Aux 2
- Aux 3
- Aux 4
- Aux 5
IMPORTANT: When using Y-harness or servo extensions with Spektrum equipment, do not use reversing harnesses. Using reversing Y-harnesses or servo extensions may cause servos to operate erratically or not function at all.
ANTENNA INSTALLATION
The AR10360T receiver has coaxial-style antennas. We recommend installing the
antennas oriented 90º from each other and as far as possible from metal,
batteries, carbon fiber, or fuel tanks to maximize signal reception
performance.
NOTICE: Do not cut, kink, or modify the antennas. Damage to the coaxial
portion of an antenna will reduce its performance of the antenna. Shortening
or cutting off the 31mm tip will reduce the range.
Transmitter and Receiver Binding
Programming the AR10360T receiver requires a Spektrum ™ DSM2 ® /DSMX ®
compatible transmitter with forwarding Programming.
Binding
The AR10360T receiver must be bound to your transmitter before it will
operate. Binding is the process of teaching the receiver the specific code of
the transmitter so it will only connect to that specific transmitter.
-
Connect up to two optional SRXL2 remote receivers (SPM9747 or SPM4651T) and any telemetry sensors to the main receiver.
-
Push and hold the bind button on the receiver while turning the receiver on. Release the bind button once the orange LED starts to flash continuously, indicating the receiver is in bind mode.
TIP: It is still possible to use a bind plug in the bind port if desired. This can come in handy if the receiver needs to be mounted in a location that is difficult to access, in which case a servo extension may be used for binding. If using a bind plug, remove it after binding to prevent the system from entering bind mode the next time the power is turned on. -
Put your transmitter in bind mode.
-
The binding process is complete when the orange LED on the receiver is solid.
Failsafe
In the unlikely event, the radio link is lost during use, the receiver will
enable the selected failsafe mode. Smart Safe + Hold Last is the default
failsafe mode on the AR10360T. Preset Failsafe and SAFE Failsafe modes are
only available through forwarding Programming.
SmartSafe + Hold Last
If loss of signal occurs, SmartSafe™ technology moves the throttle channel to
the failsafe position (low throttle) set during binding. All other channels
will hold their last position. When the receiver detects the signal from the
transmitter, normal aircraft operation resumes.
Preset Failsafe
With a preset failsafe, you can set the specific control surface positions you
want to use if the signal is lost. When the receiver detects the signal from
the transmitter, normal aircraft operation resumes. Preset failsafe mode is
only available through forwarding Programming.
SAFE Failsafe
SAFE Failsafe mode will work to automatically level your aircraft if the
signal is lost. In the forward programming menu, you can select the bank and
pitch angles the aircraft will attempt to maintain during failsafe. We
recommend setting bank and pitch angles so the aircraft flies a gentle gliding
turn, preventing a flyaway. You must complete First Time SAFE Setup before
this option is available. SAFE Failsafe mode is only available through
forwarding Programming.
Testing Failsafe
Secure the aircraft on the ground and remove the propeller. Test Failsafe
settings by turning the transmitter RF output off and noting how the receiver
drives the control
surfaces.
Receiver Power Only
- The servo ports will not have a control signal if the receiver is turned on when no transmitter signal is present.
- All channels have no output until the receiver has linked to the transmitter.
Initial Setup
- Verify your transmitter is updated to the latest Spektrum AirWare™ software to take advantage of forwarding Programming. See your transmitter manual for updating instructions.
- Install the receiver in your airplane.
- Bind the receiver to your transmitter.
- Complete the airplane setup on your transmitter including wing type, tail type, channel assignments, mixing, sub trim, and travel the same as you would for any other aircraft without AS3X. Verify the center of gravity is correct and test-fly your aircraft.
IMPORTANT: Do not use open mixes for flight control surfaces when setting
up a model with the AR10360T for AS3X and SAFE. Only use wing and tail type
options to configure flight controls, refer to your transmitter manual for
more information about wing and tail type features.
AR10360T Receiver — Basic AS3X Setup
To use AS3X technology with the Spektrum AR10360T Receiver, the receiver needs
to be set up with a compatible Spektrum transmitter.
- Verify the basic setup and trim is accurate before attempting AS3X setup.
Forward Programming Setup: The receiver is directly configured through the Forward Programming menu.
-
Low throttle is required to enter Forward Programming, we recommend enabling a throttle cut and verifying it prevents motor operation.
The transmitter will not allow you to enter the Forward Programming menu unless the throttle is low or the throttle cut is activated. -
In your transmitter’s menu, select: Forward Programming -> Gyro Settings -> First Time Setup The transmitter will prompt you for all setup steps.
IMPORTANT: Before proceeding with setup, read every information screen that appears on your transmitter
Select NEXT at the bottom of each page to continue. -
Follow the on-screen prompts to set the orientation. Select Continue to complete the two-step auto-detection process, or select Set Orientation Manually. Verify the orientation is correct.
-
You can assign any open channel to a switch (trimmer, knob, etc) for gain, and assign that channel for gain. You can assign a switch to a channel from the Forward Programming menu so you don’t have to exit the menu. We recommend using a trimmer, knob, or slider for gain, which will enable you to change the gain value on the fly.
When the setup screens are complete select Apply.
3. AS3X Tuning Basics
- Perform a control surface direction test and AS3X reaction test.
- Test fly the airplane to verify the configuration. In-flight trim changes do not require any further updates. If the airplane needs sub-trim, travel or other setup changes in the transmitter programming, select Forward Programming -> Gyro Settings -> System Settings -> Relearn Servo Settings after making the needed changes.
- The oscillation occurs because the system is overshooting the correction, and will usually occur at higher speeds. If the airplane oscillates, immediately reduce speed and lower the gain value. Take note of which axis the aircraft oscillates around; you can increase or decrease the base gain values of each axis separately within the Forward programming menu after landing.
- Increase the gain values until you find oscillation, and then reduce the gain to the highest setting that will not cause oscillation at any speed. This value will help the airplane track accurately and fly smoothly in wind and turbulence.
AS3X Reaction Test
This test ensures that the AS3X control system is functioning properly.
-
Assemble the aircraft, bind your transmitter to the receiver, and complete the AS3X First Time Setup in the Forward Programming menu before performing this test.
-
Raise the throttle above 25% to activate AS3X, then lower the throttle. Once the AS3X system is active, control surfaces move in response to aircraft movement. AS3X remains active until the battery is disconnected.
CAUTION: Activate throttle cut to prevent motor operation during this test. -
Move the aircraft as shown and ensure the control surfaces move in the direction indicated in the graphic. If the control surfaces do not respond as shown, do not fly the aircraft.
4. If the control surfaces do not respond as shown, review the receiver mounting orientation.
- In your transmitter’s menu select Forward Programming - > Gyro Settings -> System Setup -> Orientation
- Verify the receiver orientation matches the selected diagram. The image of the airplane is from the top. If your access to the receiver is from the bottom, remember the images on the screen need to match the way the receiver sits in the model when it is upright.
AR10360T Receiver — SAFE Setup
Setting up SAFE Technology on the AR 10360T Receiver takes place in forwarding Programming.
- Complete the AS3X setup and verify operation in flight.
- Forward Programming Setup: To add SAFE flight stabilization the Flight Modes on the receiver need to be configured.
- In your transmitter’s menu select
Forward Programming - > Gyro Settings -> First Time SAFE **Setup
IMPORTANT:** Before proceeding with setup. read every information screen
that will appear on your transmitter screen.
-
Select NEXT at the bottom of each page to continue.
-
Select FM Channel- > Select the channel and switch you want to use for Flight Mode selection. You can select any channel that is not a control surface, throttle or gain. Select Continue.
-
Position the model in a level flight attitude. then select
Level Model and Capture Attitude to teach the receiver the baseline setting. For taildragger aircraft be sure to raise the tail so the fuselage is level.
Assign SAFE to the desired flight modes. You can enable or disable SAFE for each flight mode. Take into account your flight mode switch position, and set the SAFE Mode as desired for the first switch
Envelope (Intermediate) mode does not use self-leveling. The aircraft will fly like a normal AS3X setup. but it will be bank and pitch angle limited.
Self-Leveling/Angle Demand will make the airplane return to level flight when the control stick is centered. -
Set the Angle Limits as desired for the first switch position. These values determine how far the aircraft will be allowed to pitch or bank.
-
Move the Flight Mode switch to the other positions. a setup screen for SAFE Mode and Angle Limits will appear for each mode. Set the SAFE Mode and Angle Limits as desired for every mode.
-
After all the Flight Modes are configured as desired for SAFE Modes and Angle Limits. press
-
Test fly the airplane to verify the configuration.
Tuning SAFE Basics:
-
Perform a control surface direction test. and AS3X reaction test. You can verify which modes have SAFE enabled by performing the AS3X test, starting at the level flight attitude.
AS3X reaction will move the control surfaces in response to rotational and then return to center when the rotation stops.
SAFE (Self Leveling) will cause the control surfaces to stay deflected as long as the aircraft is banked or pitched. -
Test fly the airplane to verify the configuration in every flight mode.
-
If the airplane oscillates. immediately slow it down and reduce the gain. Take note of which flight mode you are in and which axis the aircraft oscillates around. You can increase or decrease the base gain values of each axis separately for each flight mode within the Forward Programming menu after landing.
-
Tune (min values for each axis within each flight mode.
Advanced Tuning
Basic gain tuning can be as simple as using a slider. but to fine-tune the
AS3X system there are many setup and tuning options.
AS3X Gain tuning options
- In your transmitter’s menu select
Forward Programming - > Gyro Settings -> AS3X Settings
- AS3X Gains can be changed for each axis. you can increase the gain values for roll, pitch, and yaw separately to maximize the performance without oscillation. We recommend making small changes on one axis at a time.
- Priority tells the receiver how much to reduce the gain when you move the control stick away from the center. If the Priority is set high (200) the receiver will lower gain to zero with any movement on the control stick. Low priority values will dampen more throughout the control input The default value of 160 provides a well-balanced feel for most pilots.
- If your aircraft is over or under-sensitive to the range of gain available. adjust the Gain Sensitivity. Agile aircraft with extreme control surface deflections or high-speed aircraft should use Moderate sport airplanes should use 2X. Slow and inherently stable aircraft With mild performance should use 4X.
- Test fly your airplane to verify the configuration, land, and make adjustments as necessary.
Flight Mode tuning options within forwarding Programming (in the receiver)
- Flight Modes in forwarding Programming are set up in the receiver and are separate from Flight Modes set up outside of forwarding Programming. You can set base gain values. and enable or inhibit AS3X and SAFE for each Flight Mode.
Select Forward Programming -> Gyro Settings - > F-Mode Setup
-
Series: FM Channel. assign a channel and switch to use for Flight Select any channel that is not a control surface. throttle or gain.
TIP: If you have completed the First Time SAFE Setup. your Flight Modes will already be assigned to a switch. -
Each Flight Mode within forwarding Programming can have AS3X and SAFE enabled or disabled. For all flight modes with SAFE enabled. AS3X should be enabled as well. Take into account your flight mode switch then set the AS3X and SAFE Modes as desired for that switch position.
TIP: If you have not completed the First Time SAFE Setup, you will not see any SAFE-related options on the F-Mode Setup Screens. -
SAFE Flight Modes have an AS3X gain and a SAFE gain for the pitch and roll axis. Both of these values are used for SAFE and may be tuned
-
Enable the Panic function if you want to be able to trigger Panic (bailout) from that flight mode. This setting only defines if Panic is accessible from the selected Flight Mode. Complete Panic Mode Setup under
Forward Programming System Setup SAFE/Panic Mode Setup -
For Modes with SAFE self-leveling/angle demand. you can choose to enable High Thr to Pitch and/or Low Thr to Pitch or not.
-
Move the Flight Mode switch to the other positions: a setup screen will appear for each mode. If Panic is not enabled on a selected mode, you will not be able to trigger Panic when you are in that Flight Mode. Set the SAFE Mode and Angle Limits as desired for every mode.
-
When you add Flight Modes within forwarding Programming. additional tuning options are added in the AS3X Setting menu. Be sure to change through all the flight modes with your assigned switch and verify values for each feature for every flight mode.
Select Forward Programming - > Gyro Settings -> AS3X Settings
- AS3X Gains can be adjusted for each axis and each mode. Change the flight mode switch position when this option is selected and a separate screen will appear for AS3X gains on each flight mode. Adjust the values in each mode and each axis as needed.
- Priority screens will also appear for each flight adjust the values as desired.
- Heading screens will appear for each flight more and are defaulted to You can increase this value to make the aircraft hold its attitude when the control input is neutral. Heading gain on the yaw axis is generally not recommended because it will require the pilot to steer the aircraft through any heading changes.
- Fixed/Adjustable Gain will let you use fixed values or adjust the gain from the assigned Gain channel. Each Flight Mode has a separate screen with a separate set of values so each axis can be set to Fixed or Adjustable in each Flight Mode.
- Capture Gyro Gains lets you easily set your base gain setting. If you are using a slider, knob or trimmer to adjust gain when test flying, you can set the value you arrive at as the base gain setting in the flight modes using this function. Select this option from the AS3X Settings menu. verify flight mode. verify the slider, knob or trimmer is in the desired position, and select Capture Gyro Gains to set the values for the chosen Flight Mode.
Adding Flight Modes outside of forwarding Programming (in the transmitter)
Flight Modes outside of forwarding programming are set up in the main
transmitter menu and are separate tram Flight Modes set up within forwarding
programming. Flight Modes in the transmitter tie together transmitter-based
features like dual rates and expo. selected channels and positions, trim, and
voice/sound features.
-
Select Model Setup - > Flight Mode Setup
Assign a switch for the flight mode selection. See your transmitter manual for more information about setting up Flight Modes on your transmitter. -
Select Model Setup - > Channel Assign\
Link the functions by assigning the Flight Mode channel. Select the same Flight Mode channel you picked within forwarding programming, set the switch to Flight Mode -
Select Model Setup – Digital Switch Setup
Match the Flight Mode functions. Select Flight Mode in the switch selection, a set of values appears for each flight mode.
Set Flight Mode 1 to 100%. Flight Mode 2 to 0%. and Flight Mode 3 to -100%. -
Select Forward Programming - > Gyro Settings -> F-Mode Setup Verify the flight modes change as expected when moving the Flight Mode
-
(Only applies to transmitters with trimmer switches. DX9 and higher) If you wish to be able to run a trimmer for gain independence for each flight Select Model Setup - > Trim Setup
Select F-Mode for the trimmer that is assigned to gain.
SAFE Setting menu.
The First Time SAFE Setup should be sufficient to fly your airplane,
but to fine-tune the SAFE system there are many setup and tuning options.
Select Forward Programming - > Gyro Settings -> SAFE Settings ->
- SAFE Gains can be fine-tuned for each axis within each Flight Mode.
- Angle Limits can be changed for each flight mode
- Fixed/ Adjustable Gain operates the same as this feature in AS3X but applies to SAFE gain. You can assign a separate SAFE gain channel for roll and pitch if you have enough free channels. Use a different gain channel for SAFE gain than what you have assigned for AS3X. It is possible to have up to five different channels assigned for fine-tuning gain. AS3X roll, pitch, and yaw. and SAFE roll and pitch. If you are limited by channels. make your gain changes within forwarding Programming.
- Capture Gyro Gains operates the same as this feature but applies to SAFE operation
(AS3X) System Setup
32ioL. Forward Programming – Gyro Settings – System Settings –
- Relearn Servo Settings can be accessed if any changes are made to the model configuration c side of forwarding Programming. If any changes are made to servo reversing. travel, sub-trim. wing type or tail type, you can execute this function instead of restoring factory defaults and redoing the entire setup.
- Orientation can be changed from this menu if the receiver mounting is
- Gain Channel enables you to change the channel you are using to manage gain.
- SAFE/Panic Mode Setup
-
Panic
Select a channel to trigger Panic mode. Chose any channel that is not used for a control surface. throttle. flight modes. or gain. We recommend assigning the momentary I button for Panic.
Delay will cause a two-second delay when exiting panic mode
Panic Flight Mode selects a Flight Mode to pull the gain values from for Panic operation: select a Flight Mode that is setup with SAFE
Roll and Pitch values on this page represent angle limits while in Panic mode. -
Throttle To Pitch
Low Thr to Pitch Threshold determines the trigger point below which the airplane will descend nose down at the chosen angle.
High Thr to Pitch Threshold determines the trigger point above which the airplane climbs at the chosen angle. -
Attitude Trim allows you to redo the Capture Level Flight Attitude. and/ or manually fine-tune the values based on flight testing.
-
SAFE Failsafe Flight Mode allows you to select a flight mode (with SAFE configured) to act as a failsafe Making this selection enables SAFE Failsafe.
-
Failsafe Angles determine the attitude the aircraft will maintain in the event of a Set pitch and bank angles to hold the aircraft in a gentle gliding tum, preventing a flyaway.
Utilities - > Copy Flight Mode Settings
Select a Source and Target Flight Mode to transfer all Flight Mode settings
from one Flight Mode to another. All settings in the Target Flight Mode will
be overwritten.
Other Settings (Forward Programming)
System Setup
Select Forward Programming Other Settings ->
-
Select Fat[safe –
> Select each channel and assign it to Preset or Hold When you select a different channel for Output. a new group of settings appears.
Capture Fal! safe Positions ->Hold the control sticks in the desired failsafe positions and select Apply. Channel selections must be individually set in forwarding Programming to apply the preset positions or each channel will default to Hold Last. The value captured will be reflected in the position shown for each channel. -
initiate Receiver Bind Mode
Gives you the option of putting the receiver into Bind Mode from this menu.
Factory Reset
Select this option to put the receiver back to factory defaults. All settings will be wiped with this selection. -
Restore From Backup
Select this option to re-instate the model file saved into backup. -
Save to Backup
The AR10360T can store a second model setup file for backup. Use this option if you want to store the settings you have while you test setup changes.
SAFE (Self Leveling) Flying Tips
When flying in SAFE Self Leveling/Angle Demand mode, the aircraft will return
to level flight any time the aileron and elevator controls are at neutral.
Applying aileron or elevator control will cause the airplane to the bank,
climb or dive. The amount the stick is moved will determine the attitude the
airplane flies. Holding full control will push the aircraft to the pre-
determined bank and roll limits, but it will not go past those angles.
When flying with Self Leveling/Angle Demand, it is normal to hold the control
stick deflected with moderate to full aileron input when flying through a
turn. To fly smoothly with Self Leveling/Angle Demand, avoid making frequent
control changes and don’t attempt to correct for minor deviations. Holding
deliberate control inputs will command the aircraft to fly at a specific
angle, and the model will make all corrections to maintain that flight
attitude.
When flying with Self Leveling/Angle Demand, you have the option to enable
throttle to pitch angle demand. Throttle to pitch will make throttle dictate
climb angle. Full throttle will cause the aircraft to pitch up and climb
slightly. Mid throttle will keep the airplane flying level. Low throttle will
cause the airplane to descend slightly nose-down.
Return the elevator and aileron controls to neutral before switching from Self
Leveling/Angle Demand mode to AS3X mode. If you do not neutralize controls
when switching into AS3X mode, the control inputs used for Self Leveling/
Angle Demand mode will be excessive for AS3X mode and the aircraft will react
immediately.
Differences between Self Leveling/Angle Demand and AS3X modes
This section is generally accurate but does not take into account flight
speed, battery charge status, and other limiting factors.
| SAFE Beginner| SAFE Intermediate
---|---|---
Control stick
is neutralized| Aircraft will self level Aircraft| Aircraft will continue to
fly at its present attitude
Holding a small amount of control| Aircraft will bank or pitch to a moderate
angle and maintain the attitude| Aircraft will continue to pitch or roll
slowly and stop at the predetermined bank angle limits
Holding full
control| Aircraft will bank or pitch to the predetermined hits and maintain
the attitude| Aircraft will continue to roll or pitch rapidly and stop at the
predetermined bank angle limits
Throttle 1 TH (Optional: ” ‘ to Pitch)| Full throttle: Climb
Mid throttle: Level flight Low throttle: Descend nose-down| The throttle will
not affect flight response
| Aircraft will continue to fly at their present attitude
Control stick neutralized
– Holding a small amount of
control| Aircraft will continue to pitch or roll slowly
Holding full control
Throttle (Optional: TH to Pitch)| Aircraft will continue to roll or pitch
rapidly Throttle will not affect flight response
Channel Limitations
The AR10360T can use up to seven extra channels for AS3X and SAFE functions; one for Flight Mode selection, one for Panic Mode, and up to five for Gain. You may use any channel up to 20 that is not a control surface or throttle for these functions, and you do not need to use channels 5-10, keeping those channels and ports on the receiver open for normal servo operation. However, you may run into channel limitations depending on the number of channels on your transmitter and the number of channels you use on the receiver.
TIP: If you are experiencing limitations because of channel count, here are a few options:
- You can operate the AR10360T without a channel assigned to Flight Mode, but you will only have access to AS3X options, not
- You can set up one self-leveling mode to serve as Panic Mode so you don’t need to dedicate a separate channel for Panic
- You can operate the AR10360T without a gain channel assigned, and just use fixed gain values throughout the configuration. To do this, first assign flight mode to a channel, then change all gain values to fixed for flight mode 1, then you can unassign the flight mode channel and it will remain in fixed.
Flight Log
Flight Log data can help you optimize the control link for your aircraft. Flight Log data is displayed on telemetry capable Spektrum transmitters.
Using the Right Log
A – Fades on the main receiver
B – Fades on the remote receiver
L – Fades on the remote receiver
R – Not available on AR10360T
F – Frame losses
H – Holds
Fades
Represents the loss of one bit of information on one receiver. Fades are
used to evaluate the performance of each individual receiver. If a fade value
is showing higher than the others, inspect or reposition the antenna to
optimize the RF link.
Frame Loss
A-frame loss occurs when one complete data packet is missed. A single frame
loss does not represent a loss of control, but frame losses should be
monitored. In the air it’s normal to experience as many as 100 frame losses
per minute of flight. On the ground, the number of frame losses will be higher
because the signal is hampered by the dirt and moisture.
Hold
A hold occurs when 45 consecutive frame losses occur. This takes about one
second, and in this event, the receiver moves the channel outputs to the
failsafe settings. If a hold ever occurs, it’s important to re-evaluate the
system and check every component. If your system displays a hold, diagnose the
cause and resolve the issue before flying again.
It is normal to see a hold logged if you power OFF your transmitter and back
ON.
IMPORTANT: The Spektrum Flight Log (SPM9540) is not compatible with the
AR10360T receiver.
Range Testing
Before each flying session, and especially with a new model, it’s important
to perform a range check. All Spektrum aircraft transmitters incorporate a
range testing system, which reduces the output power to allow a range check.
- With the model resting on the ground, stand approximately 100 feet (30 meters) away from the
- Face the model with the transmitter in your normal flying position and put your transmitter into a range test
- You should have total control of the model in range test mode at 100 feet.
- If you have control issues, review the flight log data to help reposition your antenna(s), and repeat the range
- If control issues persist, call Horizon Product Support for further assistance.
Advanced Range Testing
The standard range testing procedure is recommended for most sports
aircraft. For sophisticated aircraft that contain significant amounts of
conductive materials (e.g. turbine powered jets, scale aircraft with metalized
finishes, aircraft with carbon fuselages, etc.), the following advanced range
check will confirm that all receivers in the system are operating optimally as
installed. This advanced range check allows the RF performance of each
receiver to be evaluated independently. A telemetry-equipped Spektrum
Transmitter is required for the advanced range test.
- Stand approximately 100 feet away from the model.
- Face the model with the transmitter in your normal flying position and put your transmitter into a range test
- Have a helper position the model in various orientations (nose up, nose down, nose toward the transmitter, nose away from the transmitter, etc.).
- Observe the telemetry on your transmitter. Note any orientations that cause higher fades or frame loss values. Perform this step for at least one
- Reposition any remote receivers showing higher fades as necessary.
- Retest to verify satisfactory results.
- Repeat as necessary.
After one minute, advanced testing should yield: H – 0 holds
F – Fewer than 10 frame losses
A, B, L – Fades will typically be fewer than 100. Its important to
compare the relative fades. If a particular receiver has a significantly
higher number of fades (2 to 3X) then the test should be redone. If the same
results occur, move the offending receiver to a different location.
TIP: Use the fade values for A to investigate the telemetry link
performance.
Receiver Power System Requirements
Some of the power system components that affect the power supply to the
receiver include:
- Receiver battery pack (number of cells, capacity, cell type, state of charge).
- The ESC’s capability to deliver adequate voltage to the receiver when the servos demand high current
- The switch harness, battery leads, servo leads, regulators etc.
The AR10360T has a minimum operational voltage of 3.5 volts; it is highly
recommended the power system be tested per the guidelines below.
Recommended Power System Test Guidelines
We recommend performing the following tests on any new setup to verify
power system performance:
- View the receiver voltage during this test on your transmitter’s telemetry screen.
- 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 loaded.
How QuickConnect”‘ Technology Works
- When the receiver voltage drops below 3.5 volts, the system ceases to
- When power is restored, the receiver immediately attempts to
- If the transmitter was left on, the system reconnects typically in about 4/100 of a
QuickConnect allows you to fly safely through most short-duration power
interruptions; however, to prevent a crash, correct the root cause of these
interruptions before the next flight.
NOTICE: If a brownout occurs in flight, determine the brownout cause and
correct it.
**Glossary
**
AS3X – Stabilization technology that dampens wind and turbulence.
Designed to support advanced flyers, AS3X does not include self-leveling
technology.
SAFE Envelope – (Intermediate Mode) Stabilization technology that
uses AS3X to deliver normal flight performance, but with the limited bank and
pitch angles to prevent the airplane from getting into extreme attitudes.
SAFE Self Level/Angle Demand – Stabilization technology that will
make the airplane return to level flight when the control stick is centered.
Panic Mode – Sometimes called bailout mode, Panic is a SAFE
stabilization mode that can return an airplane to level flight from any
attitude. It is usually assigned to a momentary button.
Right Modes in Receiver – Determine what stabilization modes the
aircraft operates in. All the associated stabilization features to tune the
flight stabilization can be adjusted per Flight Mode in the receiver (Base
Gain, Priority, Heading, etc).
Flight Modes in Transmitter – Manage rates, expo, voice/sound output,
and other transmitter-based configurations.
Heading – An optional feature of AS3X, heading will make the airplane
try to hold its attitude when the control is relaxed. This is not a self-
leveling feature, it only makes the aircraft track accurately.
Gain – Tells the stabilization system the level of damping it should
provide.
SRXL2 – A Bi-Directional data communication protocol that enables
digital devices to communicate over a single signal wire.
Forward Programming – Programming directly on the receiver from the
transmitter. The receiver has all screens, menus and settings in its internal
memory. The receiver is using the telemetry link to the transmitter for the
interface, the screen and buttons.
Throttle Cut – Disables throttle function.
Oscillation – Sometimes called a wag, this is a back and forth
movement similar to a vibration that may appear like a wobble. It may occur
around any axis, roll, pitch or yaw. It is most likely to occur on one axis,
not all three.
Overshoot – When the stability system makes corrections it is a
balancing act, if the response is too strong the system will go past where it
should stop, this is called an overshoot.
Angle Limits – Only available in SAFE modes, these values define the
limits for the bank and pitch angles.
High TH to Pitch – This setting defines the angle the airplane will
climb at when the throttle is raised above half. This is only available in
Self Leveling modes.
Low TH to Pitch – This setting defines the angle the airplane will
descend at when the throttle is lowered below half. This is only available in
Self Leveling modes.
Brownout – If the receiver power supply drops below 3.5volts, the
receiver will not have sufficient power for operation and the resulting loss
of control is call a brownout. A brownout results from an inadequate power
supply to the receiver, it is a failure outside of the receiver.
Optional Accessories
| Optional Accessories
---|---
SPEVA3065| USB Programming Cable
SPIV9747| SRXL2 DSMX Remote Receiver
SPIV4651T| SRXL2 DSMX Remote Receiver
| Telemetry Sensors and Accessories
SPIVA9574| Aircraft Telemetry Airspeed Indicator
SPIVA9571| DSIVR/DSMX Telemetry Temperature Sensor
SPIVA9587| Aircraft Telemetry GPS Sensor
SPIVA9604| Aircraft Telemetry Receiver Battery Energy Sensor
SPIVA9605| Aircraft Telemetry Flight Pack Batt Energy Sensor
SPIVA9551| 12″ Aircraft Telemetry Extension
SPIVA9552| 24″ Aircraft Telemetry Extension
“For use with electric power system batteries that are separate from the receiver battery(s).
Troubleshooting Guide AS3X
Problem | Possible Cause | Solution |
---|---|---|
Oscillation | Damaged propeller or spinner | Replace propellereller or spinner |
Imbalanced propellereller | Balance the propellereller | |
Motor vibration | Replace parts or correctly align propellereller or other |
parts and tighten fasteners as needed
Loose receiver| Align and secure receiver in the fuselage
Loose aircraft controls| Tighten or otherwise secure parts (servo, arm,
linkage, horn and control surface)
Worn parts| Replace worn parts (especially propellereller, spinner, or servo)
Irregular servo movement| Replace servo and/or servo extension(s)
Gain too high| Reduce Gain
Travel or Rates reduced causing reduced servo resolution| Move pushrod in on
servo horn, or move pushrod out on control horn, and increase travel and/or
rates. Use the full servo travel to achieve the desired throw.
Inconsistent flight performance| Trim changes after initial setup| If you
adjust trim more than
8 clicks, select Relearn Servo Settings in the Forward Programming menu after
landing
Changes to Sub-Trim after initial setup| If you need to trim the aircraft
during test flights, select Releam Servo Settings in the Forward Programming
menu after landing
The aircraft was not kept immobile for 5 seconds after battery connection|
With the throttle stick in the lowest position. Disconnect the battery, then
reconnects the battery and keep the aircraft still for 5 seconds.
Incorrect response to the AS3X Control Direction Test| Incorrect direction
settings in the receiver can cause a crash| DO NOT fly. Correct the direction
settings, then fly.
Troubleshooting Guide
Problem | Possible Cause | Solution |
---|---|---|
Aircraft will not respond to throttle but responds to other controls | Throttle | |
not at idle and/or throttle trim too high | Reset controls with throttle stick |
and throttle trim at the lowest setting
Throttle servo travel is lower than 100%| Make sure throttle servo travel is
100% or greater
The throttle channel is reversed| (With battery disconnected from aircraft)
Reverse throttle channel on the transmitter
Motor disconnected from ESC| Make sure the motor is connected to the ESC
Aircraft will not Bind (during binding) to the transmitter| Transmitter too
near aircraft during the binding process| Move powered transmitter a few feet
from aircraft, dis-
connect and reconnect flight battery to aircraft
The aircraft or transmitter is too close to
a large metal object, wireless source, or another transmitter| Move aircraft
and transmit-ter to another location and attempt binding again
The bind plug is not installed correctly in the bind port| Install bind plugin
bind port and bind the aircraft to the transmitter
Flight battery/ transmitter battery charge is too low| Replace/recharge
batteries
Bind button not held long enough during the bind process| Power off and repeat
the bind process
| .
Transmitter too near aircraft during the connecting process| Move powered
transmitter a few feet from aircraft, dis-
connect and reconnect flight battery to aircraft
---|---|---
Aircra will not connect (after binding) to the transmitter
Aircraft or transmitter is too close to a large metal object, wireless source,
or another transmitter| Move aircraft and transmit-ter to another location and
attempt connecting again
Bind plug left installed in bind port| Rebind the transmitter to the aircraft
and remove the bind plug before cycling power
Aircraft are bound to different model memory.| Select correct model memory on
the transmitter
Flight battery/Transmitter battery charge is too low| Replace/recharge
batteries
The transmitter may have been bound to a
different aircraft using different DSM protocol| Rebind aircraft to the
transmitter
The control surface does not move| The control surface, control horn, linkage,
or servo damage| Replace or repair damaged parts and adjust controls
Wire damaged or connections lose| Perform a check of wires and connections,
connect or replace as needed
The transmitter is not bound correctly or the incorrect model was selected|
Rebind or select the correct airplanes in the transmitter
Flight battery charge is low| Fully recharge flight battery
BEC (Battery Elimination Circuit) of the ESC is damaged| Replace ESC
1-Year Limited Warranty
What this Warranty Covers —l-horizon Hobby, LLC, (Horizon) warrants to
the original purchaser that the product purchased (the “Product–) will be free
from defects in materials and workmanship for a period of 1 year from the date
of purchase.
What is Not Covered —This warranty is not transferable and does not cover
(i) cosmetic damage. (ii) damage due to acts of God, accident, misuse, abuse.
negligence. commercial use, or due to improper use, installation, operation or
maintenance, (iii) modification of or to any part of the Product, (Iv)
attempted service by anyone other than a Horizon Hobby authorized service
center, (v) Product not purchased from an authorized Horizon dealer, (vi)
Product not compliant with applicable technical regulations, or (vii) use that
violates any applicable laws, rules, or regulations.
OTHER THAN THE EXPRESS WARRANTY ABOVE. HORIZON MAKES NO OTHER WARRANTY OR
REPRESENTATION AND HEREBY DISCLAIMS ANY AND ALL IMPLIED WARRANTIES. INCLUDING.
WITHOUT LIMITATION. THE IMPLIED WARRANTIES
OF NON-INFRINGEMENT, MERCHANTABILITY, AND FITNESS FOR A PARTICULAR PURPOSE.
THE PURCHASER ACKNOWLEDGES THAT THEY ALONE HAVE DETERMINED THAT THE PRODUCT
WILL SUITABLY MEET THE REQUIREMENTS OF THE PURCHASER’S INTENDED USE.
Purchaser’s Remedy —Horizon’s sole obligation and purchaser’s sole and
exclusive remedy shall be that Horizon will, at its option, either (i)
service, or 0 replace, any Product determined by Horizon to be defective.
Horizon reserves the right to inspect any and all Product(s) involved in a
warranty claim. Service or replacement decisions are at the sole discretion of
Horizon. Proof of purchase is required for all warranty claims. SERVICE OR
REPLACEMENT AS PROVIDED UNDER THIS WARRANTY IS THE PURCHASER’S SOLE AND
EXCLUSIVE REMEDY.
Limitation of Liability— HORIZON SHALL NOT BE LIABLE FOR SPECIAL,
INDIRECT, INCIDENTAL, OR CONSEQUENTIAL DAMAGES, LOSS OF PROFITS OR PRODUCTION
OR COMMERCIAL LOSS IN ANY WAY, REGARDLESS OF WHETHER SUCH CLAIM IS BASED IN
CONTRACT, WARRANTY, TORT. NEGLIGENCE, STRICT LIABILITY, OR ANY OTHER THEORY OF
UABIUTY, EVEN IF HORIZON HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.
Further, in no event, shall the liability of Horizon exceed the individual
price of the Product on which liability is asserted. As Horizon has no control
over use, setup. final assembly, modification or misuse, no liability shall be
assumed nor accepted for any resulting damage or injury. By the act of use
setup or assembly, the user accepts all resulting liability. If you as the
purchaser or user are not prepared to accept the liability associated with the
use of the Product, the purchaser is advised to retum the Product immediately
in new and unused condition to the place of purchase.
Law —These terms are governed by Illinois law (without regard to conflict
of law principles). This warranty gives you specific legal rights, and you may
also have other rights which vary from state to state. Horizon reserves the
right to change or modify this warranty at any time without notice.
WARRANTY SERVICES
Questions, Assistance, and Services—Your local hobby store and/or place of
purchase cannot provide warranty support or service. Once assembly, setup or
use of the Product has been started, you must contact your local distributor
or Horizon directly. This will enable Horizon to better answer your questions
and service you in the event that you may need any assistance. For questions
or assistance, please visit our website at
www.horizonhobby.com, submit a Product Support
Inquiry, or call the toll free telephone number referenced in the Warranty and
Service Contact Information section to speak with a Product Support
representative.
Inspection or Services —If this Product needs to be inspected or serviced
and is compliant in the country you live and use the Product in, please use
the Horizon
The online Service Request submission process is found on our website or call
Horizon to obtain a Return Merchandise Authorization (RMA) number. Pack the
Product securely using a shipping carton. Please note that original boxes may
be included, but are not designed to withstand the rigors of shipping without
additional protection. Ship via a carrier that provides tracking and insurance
for lost or damaged parcels, as Horizon is not responsible for merchandise
until it arrives and is accepted at our facility.
An Online Service Request is available at www. horizon
hobby.component/ service-center render-
service-center. If you do not have internet access, please contact Horizon
Product Support to obtain an RMA number along with instructions for submitting
your product for service. When calling Horizon, you will be asked to provide
your complete name, street address, email address, and phone number where you
can be reached during business hours. When sending products into Horizon,
please include your RMA number, a list of the included items, and a brief
summary of the problem. A copy of your original sales receipt must be included
for warranty consideration. Be sure your name, address, and RMA number are
clearly written on the outside of the shipping carton.
NOTICE: Do not ship LiPo batteries to Horizon. If you have any issues
with a LiPo battery, please contact the appropriate Horizon Product Support
office.
Warranty Requirements—For Warranty consideration, you must
include your original sales receipt verifying the proof-of-purchase date.
Provided warranty conditions have been met, your Product will be serviced or
replaced free of charge. Service or replacement decisions are at the sole
discretion of Horizon.
Non-Warranty Service—Should your service not be covered by warranty,
service will be completed and payment will be required without notification or
estimate of the expense unless the expense exceeds 50% of the retail purchase
cost. By submitting the item for service you are agreeing to payment of the
service without notification. Service estimates are available upon request.
You must include this request with your item submitted for service. Non-
warranty service estimates will be billed a minimum of Y2 hour of labor. In
addition, you will be billed for return freight. Horizon accepts money orders
and cashier’s checks, as well as Visa, MasterCard, American Express, and
Discover cards. By submitting any item to Horizon for service, you are
agreeing to Horizon’s Terms and Conditions found on our website
http://www.horizonhobby.com/content/service-center render-service-center.
ATTENTION: Horizon service is limited to Product compliant in the country
of use and ownership. If received, a non-compliant Product will not be
serviced. Further, the sender will be responsible for arranging the return
shipment of the un-serviced Product, through a carrier of the sender’s choice
and at the sender’s expense. Horizon will hold non-compliant Products for a
period of 60 days from notification, after which it will be discarded.
Warranty and Service Contact Information
Country of Purchase| Horizon Hobby| Contact Information|
Address
---|---|---|---
The United States of
America| Horizon Service Center (Repairs and Repair Requests)| service center
horizonhobby.com/RequestForm/| 2904
Research Rd 61822 USA
Horizon Product Support
(Product Technical Assistance)| Champaign, Illinois,
productsupport@horizonhobby.com.
877-504-0233
Sales| websales@horizonhobby.com
800-338-4639
EU| Horizon Technischer Service
Sales: Horizon Hobby GmbH|
service@horizonhobby.eu
+49 (0) 4121 2655 100| Hanskarnpring 9 D 22885
Barsbattel, Germany
FCC Information
CONTAINS FCC ID: BRWSPMAR10360T Supplier’s Declaration of Conformity
Spektrum AR10360T Telemetry Receiver (SPMAR10360T)
This device complies with part 15 of the FCC Rules. Operation is subject to
the following two conditions: (1) This device may not cause harmful
interference, and (2) this device must accept any interference received,
including interference that may cause undesired operation.
CAUTION: changes or modifications not expressly approved by the party
responsible for compliance could void the user’s authority to operate the
equipment.
NOTE: This equipment has been tested and found to comply with the limits
for a Class B digital device, pursuant to part 15 of the FCC Rules. These
limits are designed to provide reasonable protection against harmful
interference in a residential installation. This equipment generates, uses and
can radiate radio frequency energy and, if not installed and used in
accordance with the instructions, may cause harmful interference to radio
communications. However, there is no guarantee that interference will not
occur in a particular installation. If this equipment does cause harmful
interference to radio or television reception, which can be determined by
turning the equipment off and on, the user is encouraged to try to correct the
interference by one or more of the following measures:
- Reorient or relocate the receiving antenna.
- Increase the separation between the equipment and receiver.
- Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
- Consult the dealer or an experienced radio/TV technician for help.
Horizon Hobby, LLC 2904 Research Rd., Champaign, IL 61822
Email: compliance@horizonhobby.com
Web: HorizonHobby.com
IC Information
CONTAINS IC: 6157A-SPMAR10360T
CAN ICES-3 (B)/NMB-3(B)
This device contains license-exempt transmitter(s)/receivers(s) that comply
with Innovation, Science, and Economic Development Canada’s license-exempt
RSS(s). Operation is subject to the following 2 conditions:
This device may not cause interference.
This device must accept any interference, including interference that may
cause undesired operation of the device.
Compliance Information for the European Union
EU Compliance Statement:
Spektrum AR10360T Telemetry Receiver (SPMAR10360T)
Hereby, Horizon Hobby, LLC declares that the device is in compliance with the
following: EU Radio Equipment Directive
2014/53/EU; RoHS 2 Directive 2011/65/EU; RoHS 3 Directive – Amending
2011/65/EU Annex II 2015/863.
The full text of the EU declaration of conformity is available at the
following internet address: https://www.horizonhobby.com/content/support-
rendercompliance.
Wireless Frequency Range and Wireless Output Power:
2404 – 2476 MHz 19.12dBm
EU Manufacturer of Record:
Horizon Hobby, LLC 2904 Research Road
Champaign, IL 61822 USA
EU Importer of Record:
Horizon Hobby, GmbH
Hanskampring 9
22885 Barsbüttel Germany
WEEE NOTICE:
This appliance is labeled in accordance with European Directive 2012/19/EU
concerning waste of electrical and electronic equipment (WEEE). This label
indicates that this product should not be disposed of with household waste. It
should be deposited at an appropriate facility to enable recovery and
recycling.
https://www.horizonhobby.com/product/SPMAR10360T.html
© 2021 Horizon Hobby, LLC.
DSM, DSM2, DSMX, SAFE, AS3X, Spektrum Airware, SRXL2, SmartSafe, Hangar 9 and
the Horizon
Hobby logos are trademarks or registered trademarks of Horizon Hobby, LLC.
The Spektrum trademark is used with the permission of Bachmann Industries,
Inc.
All other trademarks, service marks, and logos are the property of their
respective owners.
US 7,391,320. US 9,056,667. US 9,753,457. US 9,930,567. US 10,078,329. US
10,419,970.
US 10,849,013.
59648.2
Updated 09/21
SPMAR10360T
Documents / Resources
|
SPEKTRUM AR10360T 10 Channel Telemetry
Receiver
[pdf] User Guide
AR10360T 10 Channel Telemetry Receiver, AR10360T, 10 Channel Telemetry
Receiver
---|---
References
- RC Airplanes and Helicopters, RC Cars and Trucks, RC Boats, RC Radios | Horizon Hobby
- Spektrum RC Transmitters and RC Electronics | Spektrum
- RC Cars, RC Trucks, RC Airplanes, Model Trains, and Slot Cars at Tower Hobbies
- Spektrum RC Transmitters and RC Electronics | Spektrum
- RC Airplanes and Helicopters, RC Cars and Trucks, RC Boats, RC Radios | Horizon Hobby
Read User Manual Online (PDF format)
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