Hobbywing XRotor 15A Handleiding
Hobbywing
Radiografisch bestuurbaar speelgoed
XRotor 15A
Lees hieronder de 📖 handleiding in het Nederlandse voor Hobbywing XRotor 15A (1 pagina's) in de categorie Radiografisch bestuurbaar speelgoed. Deze handleiding was nuttig voor 37 personen en werd door 2 gebruikers gemiddeld met 4.5 sterren beoordeeld
Pagina 1/1
CA UT IONS
AT T ENT ION
02
Specifications
03
User Guide
04
05
Normal Start-up Process and Protections
Trouble shooting
Model Con. Current
15A
Peak Current (10s)
20A
BEC
No
LiPo
2-4S
Programmable item
(Not Accessible in “One Shot” Mode)
Timing (Medium/High)
Weight
10.5g
Size
47x17x8.3 mm
Applications (For reference)
250/300 Class (Multi-rotors)
XRotor 15A
Motor Wiring
1
Throttle Range Calibration
2
ESC Programming
3
Connect the receiver to the battery, ensure
the transmitter and receiver are well
bound, and then turn on the ESC.
After the motor emits two short
“Beep-beep”, move the throttle stick
to the bottom position in 3 seconds.
Throttle Calibration
completed
This is an extremely powerful brushless motor
system. We strongly recommend removing your
propellers for your own safety and the safety of
those around you before performing calibration
and programming functions with this system.
IMPORT ANT
Turn on the transmitter,
move the throttle stick
to the top position.
• For 250 or 300 class multi-rotors, we recommend using 1806 size or 2204 size motors and 5 inch or 6 inch propellers. (Because bigger propellers or motors may cause the ESCs to get burnt because
of overload, so users need to take the risk themselves if they persist in using propellers or motors beyond our recommendation.).
• Users cannot change the signal-receiving mode during the powering up process and the flight. If necessary, they need to change the mode on the flight controller (on the condition that the flight
controller has the “One Shot” signal-receiving mode), after that, disconnect the battery and then re-connect the pack, then the ESC will complete the mode change (the ESC will automatically
re-detect the type of the input throttle signals and then execute the corresponding signal-receiving mode).
IMPORT ANT
Connect the receiver to the
battery and ensure the transmitter
and receiver are well bound, and
then power on the ESC.
The motor will
beep different
tones circularly.
“Beep-beep-”Throttle Calibration “Beep-beep-beep-” Intermediate ;
Timing; “Beep-beep-beep-beep-” High Timing; If the throttle stick is
moved to the bottom position 3 seconds after you hear the
corresponding beeps, then the programming of that item is complete.
Turn on the
transmitter, and then
move the throttle stick
to the top position.
Programming
is completed;
and the ESC is
ready to go.
Generally speaking, intermediate timing is applicable to most motors and it brings higher efficiency but less heat to the motors and speed controllers. High timing can increase the RPM of the
motor, but it also increases the motor temperature. Please perform a test flight on the ground and ensure everything is functioning properly first, then fly your aircraft into the sky.
Start-up Protection: The ESC will shut down the motor if it fails to start the motor normally within 2 seconds by increasing the throttle value. In this case, you need to move the transmitter throttle stick back to the
bottom position and restart the motor. (Possible causes of this problem: poor connection/ disconnection between the ESC and motor wires, propellers are blocked, etc.)
Over-load Protection: The ESC will cut off the power/output when the load suddenly increases to a very high value. Normal operation will not resume until the throttle stick is moved back to the neutral position.
The ESC will automatically attempt to restart when the motor and the ESC are out of sync.
Throttle Signal Loss Protection: When the ESC detects loss of signal for over 0.25 second, it will cut off the output immediately to avoid an even greater loss which may be caused by the continuous high-speed
rotation of propellers or rotor blades. The ESC will resume the corresponding output after normal signals are received.
IMPORT ANT
Throttle Calibration & ESC Programming
• After it’s connected to the flight system, the ESC will automatically detect the input throttle signals every time it’s powered on and then execute the corresponding signal-receiving mode.
• Users can calibrate the throttle range and change the timing advance in “Regular” signal-receiving mode but cannot do either in “One Shot” signal-receiving mode.
• In “Regular” signal-receiving mode, users need to calibrate the throttle range when they start to use a new XRotor brushless ESC or another transmitter.
• Users can change the timing advance when some abnormality occurs in ESC driving the disc-type motor or need the motor to reach a higher RPM. (Note: Medium/Intermediate Timing is the default setting.)
Turn on the transmitter and move the
throttle stick to the bottom position. The motor will emit a long “beep —“1 second after the system is connected to the battery indicating the ESC is armed and the multi-rotor is ready to go.
Trouble
The ESC was unable
to start the motor.
The ESC was unable
to start the motor.
The ESC was unable
to start the motor.
Warning Tone
“Beep beep beep…”
(The motor beeps rapidly)
“Beep, beep, beep......”
(Time interval is 2 second)
“Beep beep beep…”
(The motor beeps rapidly)
Possible Cause
The throttle stick is not at the bottom position.
No output signal from the throttle channel on
the receiver.
The entire throttle range is too narrow
(It’s requested that the entire throttle range cannot
narrower than 3 lines when designing an ESC.)
Solution
Move the throttle stick to the bottom position or recalibrate the throttle range.
Check if the transmitter and receiver are well bound;
Check if the throttle wire has been properly plugged into the throttle channel on the receiver.
Refer to the transmitter vendor instructions and adjust the entire range of the throttle channel
or re-calibrate the throttle range.
USER MANUAL
Multi-Rotor
XRotor 15A
Brushless Electronic Speed Controller
UBEC
Motor
Receiver
Battery
Electronic Speed Controller
• Special core program for multi-rotor controllers meets various functional requirements against multi-rotors.
• Specially optimized software for excellent compatibility with disc-type motors.
• DEO (Driving Efficiency Optimization) technology significantly reduces the ESC temperature,
improves the throttle response, and strengthens the stability and flexibility of multi-rotors. This ESC
is quite suitable for QAVs. (The motors slow down rapidly, especially when reducing the throttle amount.)
• Compatible with “Regular” signal-receiving mode (that is the ESC can receive regular throttle
signals range from 1100µs to1940µs) and “One Shot” signal-receiving mode (that is the ESC can
receive fixed throttle signals range from 125µs to250µs).
• The twisted-pair design of the throttle signal cable effectively reduces the crosstalk produced in
signal transmission and makes flight more stable.
• In “Regular” signal-receiving mode, the ESC is compatible with various flight-controllers and
supports a signal frequency of up to 500Hz.
Features
01
20161227
Thank you for purchasing this HOBBYWING product! Brushless power systems can be
very dangerous. Any improper use may cause personal injury and damage to the
product and related devices. We strongly recommend reading through this user
manual before use. Because we have no control over the use, installation, or
maintenance of this product, no liability may be assumed for any damage or losses
resulting from the use of the product. We do not assume responsibility for any losses
caused by unauthorized modifications to our product.
We, HOBBYWING, are only responsible for our product cost and nothing else as
result of using our product.
Product specificaties
Merk: | Hobbywing |
Categorie: | Radiografisch bestuurbaar speelgoed |
Model: | XRotor 15A |
Kleur van het product: | Black, Green |
Gewicht: | 10.5 g |
Breedte: | 47 mm |
Diepte: | 17 mm |
Hoogte: | 8.3 mm |
Correct gebruik: | Quadcopter |
Merkcompatibiliteit: | Hobbywing |
Compatibiliteit: | 250/300 Class Multirotors |
Type product: | Snelheidsregelaar |
Batterijtechnologie: | Lithium-Polymeer (LiPo) |
Stroom (max.): | 20 A |
AWG draad omvang: | 20 |
Aansluiting type: | 2mm |
Heb je hulp nodig?
Als je hulp nodig hebt met Hobbywing XRotor 15A stel dan hieronder een vraag en andere gebruikers zullen je antwoorden
Handleiding Radiografisch bestuurbaar speelgoed Hobbywing
6 November 2024
5 November 2024
24 September 2024
24 September 2024
24 September 2024
24 September 2024
24 September 2024
24 September 2024
24 September 2024
24 September 2024
Handleiding Radiografisch bestuurbaar speelgoed
- Radiografisch bestuurbaar speelgoed Absima
- Radiografisch bestuurbaar speelgoed ACME
- Radiografisch bestuurbaar speelgoed Amewi
- Radiografisch bestuurbaar speelgoed Blade
- Radiografisch bestuurbaar speelgoed DJI
- Radiografisch bestuurbaar speelgoed Futaba
- Radiografisch bestuurbaar speelgoed Graupner
- Radiografisch bestuurbaar speelgoed Little Tikes
- Radiografisch bestuurbaar speelgoed MJX
- Radiografisch bestuurbaar speelgoed Multiplex
- Radiografisch bestuurbaar speelgoed Parrot
- Radiografisch bestuurbaar speelgoed Proline
- Radiografisch bestuurbaar speelgoed Reely
- Radiografisch bestuurbaar speelgoed Revell
- Radiografisch bestuurbaar speelgoed Robbe
- Radiografisch bestuurbaar speelgoed SAB
- Radiografisch bestuurbaar speelgoed Sharper Image
- Radiografisch bestuurbaar speelgoed Spektrum
- Radiografisch bestuurbaar speelgoed TacTic
- Radiografisch bestuurbaar speelgoed Tamiya
- Radiografisch bestuurbaar speelgoed Velleman
- Radiografisch bestuurbaar speelgoed WLtoys
- Radiografisch bestuurbaar speelgoed JR
- Radiografisch bestuurbaar speelgoed Overmax
- Radiografisch bestuurbaar speelgoed Chicco
- Radiografisch bestuurbaar speelgoed Carrera
- Radiografisch bestuurbaar speelgoed Biltema
- Radiografisch bestuurbaar speelgoed Lenoxx
- Radiografisch bestuurbaar speelgoed Carson
- Radiografisch bestuurbaar speelgoed Ninco
- Radiografisch bestuurbaar speelgoed Traxxas
- Radiografisch bestuurbaar speelgoed ARRMA
- Radiografisch bestuurbaar speelgoed Spin Master
- Radiografisch bestuurbaar speelgoed ParkZone
- Radiografisch bestuurbaar speelgoed JETI
- Radiografisch bestuurbaar speelgoed SkyRC
- Radiografisch bestuurbaar speelgoed LRP
- Radiografisch bestuurbaar speelgoed Ripmax
- Radiografisch bestuurbaar speelgoed Maverick
- Radiografisch bestuurbaar speelgoed Axial
- Radiografisch bestuurbaar speelgoed Hangar 9
- Radiografisch bestuurbaar speelgoed FMS
- Radiografisch bestuurbaar speelgoed E-flite
- Radiografisch bestuurbaar speelgoed Flyzone
- Radiografisch bestuurbaar speelgoed Losi
- Radiografisch bestuurbaar speelgoed XciteRC
- Radiografisch bestuurbaar speelgoed FrSky
- Radiografisch bestuurbaar speelgoed Force Engine
- Radiografisch bestuurbaar speelgoed Vaterra
- Radiografisch bestuurbaar speelgoed Jada
- Radiografisch bestuurbaar speelgoed HPI Racing
- Radiografisch bestuurbaar speelgoed Kyosho
- Radiografisch bestuurbaar speelgoed PowerBox Systems
- Radiografisch bestuurbaar speelgoed Hobby Zone
- Radiografisch bestuurbaar speelgoed RC4WD
- Radiografisch bestuurbaar speelgoed Sky Rider
- Radiografisch bestuurbaar speelgoed DF-Models
- Radiografisch bestuurbaar speelgoed ROCHOBBY
Nieuwste handleidingen voor Radiografisch bestuurbaar speelgoed
11 December 2024
11 December 2024
11 December 2024
1 December 2024
26 November 2024
26 November 2024
26 November 2024
26 November 2024
25 November 2024
16 November 2024