Hobbywing XeRun XR8 PRO G3 Handleiding
Hobbywing
Radiografisch bestuurbaar speelgoed
XeRun XR8 PRO G3
Lees hieronder de π handleiding in het Nederlandse voor Hobbywing XeRun XR8 PRO G3 (2 pagina's) in de categorie Radiografisch bestuurbaar speelgoed. Deze handleiding was nuttig voor 19 personen en werd door 2 gebruikers gemiddeld met 4.5 sterren beoordeeld
Pagina 1/2
Thank you for purchasing this HOBBYWING product! This is a powerful
brushless system. 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 and strictly abide by the
specified operating procedures. We shall not be liable for any liability
arising from the use of this product, including but not limited to
reimbursement for incidental or indirect losses. Meanwhile, we do not
assume any responsibility caused by unauthorized modification of the
product. We have the right to change the product design, appearance,
performance and use requirements without notice.
Progammable Items
3
β’ Please connect all parts properly. Poor connection or short circuit will damage the device and you would not control the vehicle normally.
β’ Please check power devices and instructions to ensure the matching of power is reasonable.
β’ The external temperature of the ESC cannot exceed 90 . High temperature will destroy the ESC and the motor. Open the overheat protection function of the ESC.β/194β
β’ Please remember to disconnect the battery and the ESC. If not, the ESC will consume electric energy and the battery will be completely discharged which will lead to the
Motor Type
Applications
LiPo Cells
BEC Output
Cooling Fan
Size/Weight
Programming Method
Sensored / Sensorless Brushless Motors
1/8 Off-road,On-road Racing & 1/10 Short course truck,Monster truck
2-4S Lipo
6V/7.4V Adjustable, Continuous Current: 6A(Switch-mode)
Powered by built-in BEC
54.8(L) x 36.8(W) x 38.8(H)mm / 102.8g
Multifunction LCD G2 Program Box, OTA Programmer
Motor Limit With 3S Lipo: KV 4000 3660 Size motorβ€
With 4S Lipo: KV 3000 4268 Size motorβ€
02
Warnings
03
Features
04
Specifications
05
Connections
CA UT IONS
AT T ENT ION
When first use the ESC or the transmitter changes βTRIMβ tune, D/R,EPA and other parameters, the throttle range is need to reset. We strongly recommend to open the fail safe function of
the transmitter, set the no signal protection of throttle channel(βF/Sβ to close the output or set the protection value to the throttle neutral position. Thus the motor can stop running if the οΌ
receiver cannot receive the signal of the transmitter. The calibrating steps of throttle is as follows:
06
ESC Setup
Set the throttle range
1
01
Disclaimer
Please connect the wire correctly according to the instructions and drawing:
1. Motor Wiring:
There is difference between connection of sensored brushless motor and sensorless brushless motor. Please according to the
following wiring method:
A. Connect sensored brushless motor:
There is strict wiring order from the ESC to the motor, the three A/B/C ESC wires must connect to the three A/B/C motor
wires correspondingly, otherwise, it may damage the ESC. Next, connect the ESC sensor port and the motor sensor port
with the stock 6-pin sensor cable. If you donβt plug the sensor cable in, your ESC will still work in sensorless mode even if
youβre using a sensored motor.
Note: If the forward and backward is reverse after installing the motor, please modify βno. 1Jβ parameters βMotor Rotationβ to change the direction.
If the 1K parameter item "Phase-AC Swap" is set to "Enabled", then the # A of the esc needs to be connected to the # C of the motor.
B. Sensorless Motor Wiring:
Users do not need to be worried in r egards to the connectivity with the A/B/C(ESC and motor) as ther e is no polarity. You may find it necessary to swap two wir es if the motor runs in reverse.
2. Receiver Wiring:
Insert the throttle control flat cable of ESC into the throttle channel (i.e. THROTTLE channel) of the receiver. Since the red line in the flat cable outputs BEC voltage to the receiver and
steering servo. Please do not supply additional power to the receiver, otherwise the electric adjustment may be damaged. If additional power is required, disconnect the red
wire on the throttle plug from the ESC.
3. Battery Wiring:
Please make sure that the (+) pole of the ESC is connected to the (+) of the battery, and the (-) pole is connected to the (-). If connect reversely, the ESC cannot start up. (Add the picture of
connecting battery here.)
4. External Capacitor Module (also called Cappack )Wiring (Optional):
Generally, for 1/8 Buggy and 1/10 vehicles, there is no need for external capacitor pack; But for 1/8 on-road racing, due to the high load current, it is necessary to solder the standard
capacitor pack to the input end of the esc (which can be soldered together with the input wires to the gold plug of the esc), as shown in the figure above.
Warning! Make sure that the red/positive (+) of the capacitor pack is connected to the red/positive (+) of the esc, and the black/negative (-) is connected to the black /
negative (-). Do not connect them incorrectly, otherwise the capacitor pack will be damaged.
Warning! This is an extremely powerful system. For your safety and the safety of those around you, we strongly recommend removing the pinion gear attached to the motor
before calibrating and setting this system. It is also advisable to keep the wheels in the air when you turn on the ESC.
1) Illustration of power on/off: Short press the ON/OFF key to turn on the ESC in the off state, and long press the ON/OFF key to turn off the ESC.
2) Beep illustration when turn on the ESC: When turn on ESC under normal conditions (i.e. it is started without pressing the SET key), the motor will emit several Beeps to indicate the LiPo
cells. For example, βBeep, Beep, Beepβ means 3S, βBeep, Beep, Beep, Beepβ means 4S.
Power on/oξ and Beep illustration
2
1. Turn on the transmitter, ensure all parameters (D/R, EPA, ATL) on the throttle channel are at
default (100%). For transmitter without LCD, please turn the knob to the maximum, and the
throttle βTRIMβ to 0. (If the transmitter without LCD, turn the knob to the middle point). You
don't need to do this step if the transmitter's settings are default!
2. Start by turning on the transmitter with the ESC turned off but connected to a battery. Holding
theβSETβ button then press the βON/OFFβ button, the RED LED on the ESC starts to flash (The
motor beeps at the same time), and then release the βSETβ button immediately.
Note: Beeps from the motor may be low sometimes, and you can check the LED status instead.
Hold the
SET button.
Press the
ON/OFF button Release the SET
button once the
LED flashes.
3γSet the neutral point, the full throttle endpoint and the full brake endpoint.
β’ Leave transmitter at the neutral position, press the βSETβ button, the RED LED dies out and the GREEN LED flashes 1 time and the motor beeps 1 time to accept the neutral position.
β’ Pull the throttle trigger to the full throttle position, press the βSETβ button, the GREEN LED blinks 2 times and the motor beeps 2 times to accept the full throttle endpoint.
β’ Push the throttle trigger to the full brake position, press the βSETβ button, the GREEN LED blinks 3 times and the motor beeps 3 times to accept the full brake endpoint.
Note:
β’ The end position of forward: Pull the trigger to the maximum throttle position if it is pistol-style transmitter. Push the throttle to the top if it is board-style transmitter.
β’ The end position of backward: Push the trigger to the maximum brake position if it is pistol-style transmitter. Pull the throttle to the bottom if it is board-style transmitter.
4γThe motor can be started 3 seconds after the ESC/Radio calibration is complete.
Move the throttle trigger to the neutral
position and press the SET button.
The Green LED flashes
once and motor emits
βBeepβ tone.
Move the throttle trigger to the end position
of forward and press the SET button.
Move the throttle trigger to the end position
of backward and press the SET button.
The Green LED flashes
twice and motor emits
βBeep-Beepβ
tone.
The Green LED flashes
three times and motor
emits βBeep-Beep-
Beepβ tone.
08
Trouble Shooting
In order to make one firmware applicable to all different racing conditions, there are 3 groups of preset modes in the ESC. Users are able to change the settings of the modes provided and
match suitable gear ratio. Plug-and -screw. Users can change the settings as per the control feel, track, and rename the setting mode. For example, the name can be changed from β1/8
Off-Roadβ to βNC2020-1900β to indicate the NC2020 uses 1900KV. This can be saved for future reference as well.
07
Explanation for LED status
1. During the Start-up Process
β’ The red light flashes quickly while the motor beeps: the esc has not detect the neutral of the throttle. (the neutral of the throttle does not match the transmitter)
β’ The GREEN LED flashes βNβ times indicating the number of LiPo cells you have connected to the ESC.
2. In Operation
β’ The throttle triggle is at the neutral:
1) In the normal mode(Non blinky mode),the RED LED turns on soild.
2) In the blinky mode(Non RPM limit mode), the boost timing and turbo timing are 0, the RED LED will blink.
β’ Forward: The RED LED dies out and the GREEN LED blinks when your vehicle runs forward. The GREEN LED turns solid when pulling the throttle trigger to the full (100%) throttle endpoint.
β’ Brake: The RED LED dies out and the GREEN LED blinks when you brake your vehicle. The GREEN LED turns solid when pushing the throttle trigger to the full brake endpoint and setting
the βMax. Brake Forceβ to 100%.
β’ Backward: The RED LED dies out, the GREEN LED blinks when you reverse your vehicle. The GREEN LED turns solid when pushing the throttle trigger to the full brake endpoint and setting
the βreverse forceβ to 100%.
3. When Some Protection is Activated
β’ The RED LED flashes a short, single flash and repeats β β indicating the low voltage cutoff protection is activated.β, β, β
β’ The GREEN LED flashes a short, single flash and repeats β β indicating the ESC thermal protection is activated.β, β, β
β’ The GREEN LED flashes a short, double flash and repeats β β indicating the motor thermal protection is activated.ββ ββ ββ, ,
β’ The GREEN LEDS flash a short, single flash and repeats β β indicating that the load of ESC is heavy, the Over-Current protection is activated.βββ βββ βββ, ,
β’ The GREEN LEDS flash a short, single flash and repeats β β indicating that the temperature of ESC and capacitor is too high, the thermal protection βββββοΌβββββοΌβββββ
of capacitor is activated.
Preset Modes for Different Racing:
Here is the method of setting parameters of ESC:
Note! This ESC has a separate programming port. Please donβt connect the throttle control cable to the program box or OTA programmer, otherwise it does not work.
1) LCD G2 programming box set the parameters: (Please refer to the instructions of LCD G2 programming box for detailes)
This ESC allows LCD G2 programming box to set parameters or LCD G2 programming box connecting to the computer to set parameters (Use HOBBYWING USB LINK software). Before
programming, you need to connect your ESC and the LCD G2 program box via a cable with two JR male connectors and turn on the ESC; the boot screen will show up on the LCD. Press any
button on the program box to initiate the communication between your ESC and the program box. Seconds later, the current profile name will be displayed,followed by the first parameter
item. You can adjust the setting via βITEMβ & βVALUEβ buttons, and press the βOK (R/P)β button to save new settings to your ESC.
2) Use OTA Programmer to set parameters (Please refer to instructions of OTA Programmer for details)
This ESC supports the use of OTA Bluetooth module, that is, plug the programming wire of OTA Programmer to the
programming port. Then use mobile phone to install HOBBYWING HW LINK App to set parameters.
3) Data Logging:
1) The ESC is able to record the Maximum Temperature of ESC and Motor, Minimum Battery Voltage, Maximum Motor RPM and Maximum
Current in running. It automatically saves the recorded data to the designated area when you turn off the ESC after a run. You can check
those data via a multifunction LCD G2 program box. Users need to switch on the ESC after the esc is connected with the program box.
Long Press the βOK(R/P)β button on any βitemβ page, then press the βITEMβ button, the following 5 item pages will be displayed:
Mode ESC Temperature Motor Temperature Min Voltage Max RPM Max Currentβ β β β β
2) The ESC running data is read through the OTA Bluetooth module.
After connecting the OTA Bluetooth module to the esc and establishing communication, you can view not only the five extreme value data recorded above, but also the real-time
running data and historical record data (graph) in the [Data Log] menu in HW link app.
Programming:
5
Here is the method of restore factory reset:
1) Restore the default values with a multifunction LCD G2 program box
After connecting the program box to the ESC, continue to press the βITEMβ button on the program box until you see the βRESTORE DEFAULTβ item, and press βOK (R/P)β to factory reset your ESC.
2) Restore the default values with a OTA Programmer (Use HW Link mobile phone App)
Connect OTA Programmer to the ESC, enter into , click βresetβ to factory reset your ESC.γParametersγ
Factory reset
6
Preset modes
4
1A: Running Mode
Option 1: Forward with Brake
Racing mode. It has only forward and brake functions.
Option 2: Forward/ Reverse with Brake
This option is known to be the βtrainingβmode with βForward/Reverse with Brakeβ function. The vehicle only brakes on the first time you push the throttle trigger to the reverse/brake zone.If
the motor stops when the throttle trigger return to the neutral zone and then re-push the trigger to reverse zone, the vehicle will reverse, if the motor does not completely stop, then your
vehicle wonβt reverse but still brake, you need to return the throttle trigger to the neutral zone and push it to reverse zone again. This method is for preventing vehicle from being accidentally
reversed.
Option 3: Forward and Reverse
This mode is often used by special vehicles. The vehicle will reverse immediately when you push the throttle triggle to the reverse zone.
1B: Max. Reverse Force:
The reverse force of the value will determine its speed. For the safety of your vehicle, we recommend using a low amount.
1C: Lipo Cells:
Auto Calculation is the default setting. If Lipo batteries are often used with the same cell count,we would recommend setting the Lipo cells manually to avoid the incorrect βCalculationβ(For
example,the esc may take a not fully charged 3S Lipo as a fully 2S Lipo) ,which may cause the low-voltage cutoff protection to not function ideally.
1D: Cutoff Voltage:
The ESC will monitor the battery voltage all the time, once the voltage is lower than the threshold value, the ESC will reduce the power to 50% instantly and cutoff the power output in 40
seconds. When enters into voltage protection, the RED LED will single flash that repeats ( β¦β¦.). Please set the βCutoff Voltageβ to βDisabledβ or customized protection threshold β, β, β, β
value if you are using NiMH batteries.
Option 1: Disabled
The ESC does not cut the power off due to low voltage. We do not recommend using this option when you use any LiPo battery as you will irreversibly damage the product. It is suggested to
set to βDisabledβ(But the battery would be damaged due to overcharged)
Option 2: Auto
The ESC calculates the corresponding cutoff voltage as per the number of LiPo cells it detects and the β3.5V/cellβ rule. For example, if the ESC detects a 4S, the cutoff voltage protection
threshold value is 3.5x4=14.0V.
Option 3: Customized
The customized cutoff threshold is a voltage for the whole battery pack (adjustable from 5.0V to 13.6V). Please calculate the value as per the number of LiPo cells you are using. For example,
when you use a 4S and you want the cutoff voltage for each cell is 3.0V, you will need to set this item to 12VοΌ3.0*4οΌ
1E: ESC Thermal Protection:
The output from the ESC will be cut off with the value you have preset. The GREEN LED flashes ( ) when the ESC temperature reaches to the preset value. The output will not resume β, β, β
until the ESC temperature gets down.
Warning! Please do not disable this function unless youβre in a competition. Otherwise the high temperature may damage your ESC and even your motor.
1F: Motor Thermal Protection:
The GREEN LED flashes ( ) when the motor temperature reaches to the preset value. The output will not resume until the motor temperature gets down.ββ ββ ββ, ,
Warning! Please do not disable this function unless youβre in a competition. Otherwise the high temperature may damage your motor and even your ESC. For non-Hobbywing
motor, the ESC may get this protection activated too early/late because of the different temperature sensor inside the motor. In this case, please disable this function and
monitor the motor temperature manually.
1G: BEC Voltage:
It supports 6.0V/7.4V adjustable. 6.0V is applicable to common servo. If use high-voltage servo, set to higher voltage according to voltage marking of servo.
Note: 1. Do not set the BEC voltage above the maximum operating voltage of the servo, as this may damage the servo or even the ESC.
2. Due to the characteristics of the BEC circuit, there is a voltage difference between the BEC output voltage and the input voltage,when the BEC voltage is set to 7.4V
and 2S Lipo is used,the BEC cannot stably output 7.4V (will decrease as the battery voltage decreases) .Therefore,it is recommended to use 7.4V BEC when matching
with 3S Lipo and above.
1H: Smart Fan:
The fan of this esc has intelligent running function.If this item is set to "Enabled", the fan will not run when the internal temperature of the esc is below 50 ,and will start running β/122β
when the internal temperature is above 50 . If this item is set to "Disabled", the fan will continue to run regardless of temperature.β/122β
1I: Sensor Mode:
Option 1: Full Sensored
If use XERUN 4268/74-G2/G3 motor, it can set to full sensor mode. The power system will work in the βsensoredβ mode at all times. The efficiency and drivability of this mode is at the highest.
And Boost Turbo timing can be used and get erupting power.γ
Option 2: Sensored/Sensorless Hybrid
This is universal driving mode of current 1:8 power system. The ESC operates the motor in sensored mode during the low-speed start-up process, followed by switching to operating the motor
in the βsensorlessβ mode when the RPM is increased.
1J: Motor Rotation:
With the motor shaft faces you (the rear end of the motor is away from you), increase the throttle input, the motor (shaft) will rotate in the CCW/CW direction if the βMotor Rotation/Directionβ
set to βCCW/CWβ. Generally, the vehicle runs forward when the motor (shaft) rotates in the CCW direction. However, some vehicles only run forward when the motor rotates in the CW direction
due to the different chassis design. In that case, you only need to set the βMotor Rotation/Directionβ to βCWβ.
1K: Phase-AC Swap:
If the A/C wire of ESC connect to A/C wire of motor with crossed way (A wire of ESC connects to C wire of motor, C wire of ESC connects to A wire), set this item as Enable.
Warning! When #A/#B/#C wire of ESC connect to #A/#B/#C wire of motor correspondingly, do not Set to Enable. Otherwise it will damage the ESC and motor.
2A: Throttle Rate Control:
This item is used to control the throttle response. It can be adjustable from 1 to 30 (step: 1), the lower the throttle rate, the more the limit will be on the throttle response. A suitable rate can
help driver to control his vehicle properly during the starting-up process. Generally, you can set it to a high value to have a quick throttle response if you are proficient at throttle control.
2B: Throttle Curve:
The throttle curve parameter reconciles the position of the throttle trigger (in throttle zone) and the actual ESC throttle output. It is linear by default and we can change it to non-linear via
adjusting the throttle curve. For example, if adjust it to +EXP, the throttle output at the early stage will be higher (than the output when the curve is linear); if it is adjusted to βEXP, the throttle
output at the early stage will be lower (than the output when the curve is linear.
2C: Neutral Range:
As not all transmitters have the same stability at βneutral positionβ, please adjust this parameter as per your preference. You can adjust to a bigger value when this happens.
2D: Initial Throttle Force:
It also called as minimum throttle force. You can set it according to wheel tire and traction. If the ground is slippery, please set a small throttle force.
2E: Coast:
The RPM of the motor will be lowered gradually when throttle is reduced. The vehicle will not reduce speed abruptly when the throttle is reduced to return to the neutral position. The bigger
the value, the more the βCOASTβ will be felt. Example, COAST of 0 deactivates, and a COAST of 15% would be the maximum amount of COAST.
The advantages of COAST:
When a vehicle has a larger final drive ratio, the tendency of having a βdragβ feel is higher. The βCOASTβ technology is to allow the car to roll (coast) even when the final drive ratio is high.
The Coast function brings better and smoother control feeling to racers. Some drivers will refer to this to the traditional brushed motors.
Note : The βCoastβ will be void (even if you set it to any value besides 0) if the above βdrag brakeβ is not β0%β.
2F: PWM Drive Frequency:
The acceleration will be more aggressive at the initial stage when the drive frequency is low; a higher drive frequency is smoother but this will create more heat to the ESC. If set this item to
βCustomizedβ, then the PWM frequency can be adjusted to a variable value (which ranges from 2K to 32K) at any 0-100% throttle input, Please choose the frequencies as per the actual test
results of your vehicles.
2G: Softening Value:
It allows users to fine-tune the bottom end, change the driving feel, and maximize the driving efficiency at different track conditions. The higher the βSoftening Valueβ, the milder the bottom
end. In Modified class, drivers often feel the power of the bottom end is too aggressive. Little throttle input usually brings too much power to the car and make it hard to control at the corners,
so HOBBYWING creates this softening function to solve the issue.
2H: Softening Range:
It's the range to which βSoftening Valueβ starts and ends. For example, 0% to 30% will be generated when the user pre-programs the βSoftening Rangeβ at a value of 30%.
2I: RPM Limit:
It is used to set the max. RPM value of the motor. Set corresponding values according to the motor and competition rules.
3A: Drag Brake Force:
It is the braking power produced when releasing from full speed to neutral position. This is to simulate the slight braking effect of a neutral brushed motor while coasting.
3B: Max. Brake Force:
This ESC provides proportional braking function; the braking effect is decided by the position of the throttle trigger. It sets the percentage of available braking power when full brake is
applied. Large amount will shorten the braking time but it may damage your pinion and spur.
3C: Brake Rate Control
Itβs adjustable from 1 to 20 (step: 1), the lower the brake rate, the more limit on the brake response. A suitable rate can aid the driver to brake his vehicle correctly. Generally, you can set
it to a high value to have a quick brake response.
3D: Brake Control
Option 1: Traditional
In this mode, just like traditional braking method we currently use, due to its braking force being affected by the motor speed, can cause the braking not being linear/smooth.
Option 2: Disc Brake
This is an innovative braking method from HOBBYWING, the braking force is not affected by the motor speed, with better braking linearity and stronger braking force.
3E: ABS Force
This parameter is used to set the brake force when the speed is relatively low,the higher the value,the greater the brake force.Setting this value appropriately according to the traction is
beneficial for preventing wheel lockup and sliding,and it will help to control the vehicle when entering the corner.
Note: This parameter only takes effect when the "Brake Control" is set to "Disc Brake".
3F: Disc Brake Curvature
This parameter is used to set the braking curve in disc brake mode. The higher the curvature, the greater the braking force in the front section;
The smaller the curvature, the smaller the braking force in the front section. It can be set according to personal control habits.
Note: This parameter only takes effect when the "Brake Control" is set to "Disc Brake".
3G: Brake Frequency
The brake force will be larger if the frequency is low; you will get a smoother brake force when the value is higher, please choose the frequencies
as per the actual test results of your vehicles.
Note: This parameter only takes effect when the "Brake Control" is set to "Traditional".
4A: Boost Timing:
It is effective within the whole throttle range; it directly affects the car speed on straightaway and winding course. The ESC adjusts the timing
dynamically as per the throttle amount in the operation. The Boost Timing is not constant but variable.
5A: Turbo Timing:
This item is adjustable from 0 degree to 48 degrees, the corresponding turbo timing (you set) will initiate at full throttle. Itβs usually activated
on long straightaway and makes the motor unleash its maximum potential.
5B: Turbo Delay:
When βTURBO DELAYβ is set to βINSTANTβ, the Turbo T iming will be activated right after the throttle trigger is moved to the full throttle position. When other value(s) is applied, you will
need to hold the throttle trigger at the full throttle position (as you set) till the Turbo Timing initiates.
5C: Turbo Increase Rate (deg / 0.1sec):
This item is used to define the βspeedβ at which Turbo T iming is released when the trigger condition is met. For example, β6 degs / 0.1secβ refers to the Turbo Timing of 6 degrees that
will be released in 0.1 second. Both the acceleration and heat is higher when the βTurbo increase rateβ is of a larger value.
5D: Turbo Decrease Rate (deg/0.1sec):
After the Turbo T iming is activated and the trigger condition turns to not be met (i.e. vehicle slows down at the end of the straightaway and gets into a corner, full throttle turns to partial
throttle, the trigger condition for Turbo Timing turns to be not met), if you disable all the Turbo Timing in a moment, an obvious slow-down like braking will be felt and cause the control
of vehicle to become bad. If the ESC can disable the Turbo Timing at some βspeedβ, the slow-down will be linear and the control will be improved.
Warning! Boost Timing & Turbo Timing can effectively improve the motor efficiency; they are usually used in competitions. Please take some time to read this manual and
then set these two items carefully, monitor the ESC & motor temperatures when you have a trial run and then adjust the Timing and FDR accordingly as aggressive Timings
and FDR may cause your ESC or motor to be burnt.
Note: Only when paired with the Hobbywing matching motor (such as XERUN 4268 G3), Boost and Turbo can achieve a maximum 48 degree effect.
Disc Brake Curvature=0
Disc Brake CurvatureοΌ0
Disc Brake CurvatureοΌ0
Throttle
Disc
Brake
Force
Diagram of Disc Brake Curvature
2E Coast 0%-15% (Adjust Step 1%)
Parameters
Type ID Item
For/RevFor/Rev/Brake
General SettingThrottle ControlBrake ControlTiming
1A Running Mode For/Brake
4 Cells2 Cells 3 Cells1C LiPo Cells Auto Calculate
75%50%1B Reverse Force 25% 100%
CustomizedAuto (3.5V/Cell)1D Cutoff Voltage Disabled
3%-10% (Adjust Step 1%)2C Neutral Range
2F PWM Drive Frequency
1G BEC Voltage 7.4V6.0V
2A Throttle Rate Control 1-30 (Adjust Step 1)
2D Initial Throttle Force 1%-15% (Adjust Step 1%)
2G Softening Value 0-30Β° (Adjust Step 1Β°)
3A Drag Brake 0%-100% (Adjust Step 1%)
3C Brake Rate Control 1-20 (Adjust Step 1)
3B Max. Brake Force 0%-100% (Adjust Step 1%)
4A Boost Timing 0-48Β° (Adjust Step 1Β°)
5A Turbo Timing 0-48Β° (Adjust Step 1Β°)
3D Brake Control
Enabled1E ESC Thermal Protection Disabled
Enabled1F Motor Thermal Protection Disabled
Sensored/Sensorless Hybrid1I Sensor Mode Full Sensored
EnabledPhase-AC Swap Disabled
Customized
2B Throttle Curve Linear
0%-20% (Adjust Step 1%)3E ABS Force
Disc BrakeTraditional
1K-16K (Adjust Step 1K)0.5K
1K
2K-32K (Adjust Step 1K)
3F Disc Brake Curvature
3G Brake Frequency
-10-10 (Adjust Step 1)
2I RPM Limit Unlimited 10000RPM-88000RPM (Adjust Step 1000RPM)
20%10%2H Softening Range 0% 25% 30% 35% 40% 45% 55%50% 60% 65% 70% 75%
0.1s0.05s
3deg/0.1s 6deg/0.1s 9deg/0.1s 12deg/0.1s 15deg/0.1s 18deg/0.1s 21deg/0.1s 24deg/0.1s 27deg/0.1s 30deg/0.1s
5B Turbo Delay Instant 0.15s 0.2s 0.25s 0.35s0.3s 0.4s 0.45s 0.5s 0.6s 0.7s 0.8s 0.9s 1.0s
5C Turbo Increase Rate (deg/0.1sec) Instant
Instant3deg/0.1s 6deg/0.1s 9deg/0.1s 12deg/0.1s 15deg/0.1s 18deg/0.1s 21deg/0.1s 24deg/0.1s 27deg/0.1s 30deg/0.1s5D Turbo Decrease Rate (deg/0.1sec)
1H Smart Fan EnabledDisabled
CW1J Motor Rotation CCW
Mode #
1
2
3
Modes/Profiles
Zero Timing
1/8 Off-Road
1/8 On-Road
Applications
Applicable for various STOCK Racing that the ESC must use Zero Timing (Blinky Mode)
Applicable for 1/8 Off-Road / Truck Racing
Applicable 1/8 On-Road Racing
Troubles SolutionsPossible Causes
1. The battery voltage was not output to the ESC.
2. The ESC switch was damaged.
3. The positive and negative pole of the ESC is
connected reversely.
The battery voltage is not within the normal range.
1. If the red light flashes rapidly and the motor beeps
synchronously, it indicates that the esc has not detected
the neutral of the throttle
2. If the red light remains on, it means that the esc has not
detected any throttle signal.
The rotation direction of this car frame is different from
mainstream
1. Some soldering between the motor and the ESC
was not good.
2. The ESC was damaged (some MOSFETS were burnt).
1. The receiver was influenced.
2. The ESC entered the LVC protection.
3. The ESC entered the thermal shutdown protection.
1.Check whether there is poor welding of power input gate and reweld it.
2. Replace the switch.
3.Reconnect as per right poles.
Check the battery voltage.
1. Move the throttle trigger to the neutral point and re-calibrate the
throttle range.
2. Check whether the throttle wire and the channel is plugged correctly,
and whether the transmitter is turned on.
Set the rotation direction of the motor to βCWβ direction.
1. Check all welding points and reweld if necessary.
2. Contact the dealer for repair.
1. Check all devices and try to find out all possible causes, and check the
transmitterβs battery voltage.
2. The RED LED keeps flashing indicating the LVC protection is activated,
please replace your pack.
3. The GREEN LED keeps flashing indicating the thermal protection is
activated, please let your ESC cool down before using it again.
1. Recalibrate the throttle neutral position.
2. Set the βRunning Modeβ to βFwd/Rev with Brk β.
3. Contact the distributor for repair or other customer service.
Connect the LCD G2 program box with the correct interface
The motor cannot start and emit Bi-Bi-, Bi-Bi-,
with the green LED flashing (the interval between
the Bi-Bi- and Bi-Bi- is 1 seconds)
Power on and inspect LiPo(Green LED flashes N
times). The motor does not rotate.
The LED isnβt on and the motor cannot start.
The fan doesnβt work.
The motor suddenly stopped or significantly
reduced the output in operation.
The motor stuttered but couldnβt start.
The vehicle could run forward (and brake),
but could not reverse.
Connect LCD G2 program box, display
βCONNECTING ESCβ all the time.
The vehicle ran backward when you pulled the
throttle trigger towards you.
1. The throttle neutral position on your transmitter
was actually in the braking zone.
2. Set the βRunning Modeβ improperly.
3. The ESC was damaged.
The programming port of ESC is used incorrectly.
1. Check whether the throttle cable is correctly connected to the receiver.
2. If the servo works normally,you can connect the throttle cable of esc to
the steering channel to have a test, or change the transmitter/receiver
system for test directly.
The throttle travel setting (calibration)
could not be completed. The ESC did not receive the correct throttle signal.
XERUN XR8 PRO G3
USER MANUAL
Brushless Electronic Speed Controller
47mm
22mm
2 x M3, 2mm max thread depth
Mounting Hole Template
B
A
C
Motor
Sensor wire
Electronic Speed Controller
Receiver
Switch
Battery
External Capacitor Module
(also called Cappack) Wiring
β’ Built-in 3 common profiles, suitable for all 1/8 Racing, select and use instantly. (e.g. Zero timing-Blinky mode, 1/8 Off-Road Racing, 1/8 On-Road Racing mode).
β’ There are 32 built-in adjustable parameters to set various power requirements. The parameters can be imported and exported, which is convenient for drivers to communicate with and learn
from each other.
β’ Support the firmware upgrade of the ESC (The multi-function LCD G2 programming box or OTA Programmer is needed to purchase). You can enjoy the latest functions.
β’ Built-in switch mode BEC with a maximum output of 12A and 6V/7.4V adjustable for usage with servos & other devices require different voltages.
β’ The built-in reverse connection protection circuit of the ESC avoid the damage to the ESC due to reverse connection.
β’ Data logging function to view various running data on the HW LINK app using the OTA Bluetooth module.
External
Programming Port
for Connecting LCD
program box or OTA
Programmer.
20230815 HW-SMA534DUL02-A2
Note: The PWM Drive Frequency, Brake Control, Brake Frequency, Boost Timing, Turbo Timing and relevant items are not programmable (that's item 2F, 3D, 3G and items from 4A to 5D are not
programmable) when Sensor Mode (Item 1I) is set to "Sensored/Sensorless Hybrid".
Product specificaties
Merk: | Hobbywing |
Categorie: | Radiografisch bestuurbaar speelgoed |
Model: | XeRun XR8 PRO G3 |
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