Hobbywing Platinum PRO 80A Handleiding
Hobbywing
Radiografisch bestuurbaar speelgoed
Platinum PRO 80A
Lees hieronder de π handleiding in het Nederlandse voor Hobbywing Platinum PRO 80A (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
Motor
Battery
Electronic Speed Controller
01
Warnings
03
Specifications
04
User Guide
02
Features
05
ESC Programming
06
Programmable Items
07
Data Checking
Connections
CA UT IONS
Thank you for purchasing this 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 damages or losses resulting from the use
of the product. We do not assume responsibility for any losses caused by unauthorized
modifications to our product. Besides, we have the right to modify our product design,
appearance, features and usage requirements without notification.
AT T ENT ION
AT T ENT ION
AT T ENT ION
1
ESC/Radio Calibration
2
1Item 2 3 4
2. LiPo Cells
3. Voltage Cutoff Type
4. Cutoff Voltage
5. BEC Voltage
6. Start-up Time
7. Governor Parameter P
8. Governor Parameter I
9. Auto Restart Time
10. Restart Acceleration Time
11. Brake Type
12. Brake Force
13. Timing
14. Motor Rotation
15. Freewheeling
Proportional Reverse
3-6S
Hard Cutoff
2.8V-3.8V (Default 3.0V)
Normal
CCW
Disabled
*Auto Calculation
*Soft Cutoff
Disabled
5V-8VοΌDefault 6VοΌ
4s-25sοΌDefault 15sοΌ
0-9 (Default 4)
0-9 (Default 5)
0s-90sοΌDefault 25sοΌ
1s-3s (Default 1.5s)
*Disabled
0-100% (Default 0%οΌ
0Β°-30Β°οΌDefault 15Β°οΌ
*CW
*Enabled
Programmable Item List of Platinum 60A V4 ESC. (β*β in the form below indicate factory defaults. )
1. Flight Mode Helicopter (Linear Throttle)Fixed-wing * Helicopter
(Elf Governor)
Helicopter
(Store Governor)
USER MANUAL
PLATINUM 120A V4 / 80A V4
Brushless Electronic Speed Controller
1. Flight Mode:
1.1 In βFixed-wingβ mode, the motor will start up when the throttle amount reaches 5% or
above. There is no soft start-up, the motor responds to the throttle increase rapidly.
1.2 In βHelicopter (Linear Throttle)β mode, the motor will start up when the throttle amount
reaches 5% and it will start up in a soft way with the throttle (from 0 to 100%) acceleration
time is fixed to 3.5 seconds . It will accelerate to the RPM corresponds to the specific throttle
amount at the fixed rate.
1.3 In βHelicopter (Elf Governor)β mode, the motor will start up when the throttle amount
reaches 40% or above. And it will complete the speed standardization and enter the
speed-governing operation in the preset start-up time (4~25s). In this mode, the motor will
standardize its speed every time it starts up. Due to different discharge rates/capabilities of
different batteries, the RPM you standardize each time may be a little different.
In consequence, at the same throttle amount, the RPM may be a bit different when using
different batteries, but this wonβt affect the speed-governing effect.
1.4 In βHelicopter (Store Governor)β mode, the motor will start up when the throttle amount
reaches 40% or above. It will also start up in a very soft way. And it will also complete the
speed standardization and enter the speed-governing operation in the preset start-up time.
In this mode, the motor will only standardize its speed the first time when it starts up.
When performing RPM standardization for the first time, we recommend using a
fully-charged battery with good discharge capability. After the RPM standardization, change
another battery to fly your aircraft. At the same throttle amount, the RPM should be the
same as the RPM of the first flight. For consistent control feel, we recommend using this mode.
Turn on the
transmitter and move
the throttle stick to
the top position.
Connect a battery to
the ESC, the motor will
sound β 123β to βͺ
indicate the ESC is
powered on normally.
During the ESC/Radio calibration, please set the throttle curve to NORMAL and ensure the corresponding throttle amounts to the maximum throttle endpoint and the minimum throttle
endpoint on your transmitter are respectively 100% and 0%.
5 seconds later, the
motor will beep two
short beeps to indicate
the maximum throttle
endpoint is accepted.
Move the throttle stick to the
bottom position within 3 seconds
after you hear those two beeps,
the minimum throttle position
will be accepted 1 second later.
The Motor will beep
βNumberβ beeps to
indicate the number
of LiPo Cells you
have plugged in.
The motor will beep a
long beep to indicate
the calibration is
complete.
β’ Read through the manuals of all power devices and aircraft and ensure the power configuration is
rational before using this unit.
β’ Ensure all wires and connections are well insulated before connecting the ESC to related devices,
as short circuit will damage your ESC.
β’ Ensure all devices are well connected, in order to prevent poor connections that may cause your
aircraft to lose control or other unpredictable issues like damage to the device.
β’ Please use a soldering iron with the power of at least 60W to solder all input/output wires and
connectors.
β’ Never get the motor locked up during high-speed rotation, otherwise the ESC may get destroyed
and may also get your motor damaged. (Note: move the throttle stick to the bottom position or
disconnect the battery immediately if the motor really gets locked up.)
β’ Never use this unit in the extremely hot weather or continue to use it when it gets really hot.
Because high temperature will activate the ESC thermal protection or even damage your ESC.
β’ Always disconnect and remove batteries after use, as the ESC will continue to consume current if it`s
still connected to batteries. Long-time contact will cause batteries to completely discharge and result
in damage to batteries or/and ESC. This will not be covered under warranty.
β’ High performance microprocessor for excellent motor speed-governing and super soft start-up.
β’ Microprocessor powered by independent DC regulator has better anti-interference performance, which greatly reduces the risk of losing control.
β’ DEO (Driving Efficiency Optimization) Technology adopted greatly improves throttle response & driving efficiency, reduces ESC temperature.
β’ New switch-mode BEC with adjustable output voltage ranges from 5V to 8V and continuous/peak current of 10A/25A.
β’ BEC is separated from other circuits of the ESC, it will keep its normal output when the MOSFET board of the ESC is burnt.
β’ Multiple flight modes: Fixed-wing, Helicopter (Linear Throttle), Helicopter (Elf Governor) , Helicopter (Store Governor).
β’ New governor program with adjustable governor parameter P/I brings excellent speed-governing effect, guarantees the stability of the propellerβs revs when the load changes dramatically.
β’ Data logging records the standardized RPM, minimum voltage and maximum temperature of the flight.
β’ "Restart in auto rotation" can manually interrupt the auto rotation and quickly restart the motor to avoid crashes caused by incorrect operations.
β’ Independent output port for RPM (that is: motor speed) signals.
β’ Separate programming port for ESC programming or parameter setting.
β’ WIFI module (sold separately) for programming the ESC wirelessly with your smart phone (IOS or Android).
β’ Online data checking, ESC programming, firmware upgrade (Multifunction LCD program box or WIFI Express is needed) supported.
β’ Multiple protections like start-up protection, ESC thermal protection, capacitor thermal protection, over-current protection, overload protection, and throttle signal loss protection.
Model
Applications
Input Voltage
Cont./Peak Current (10s)
BEC Output
Throttle Signal/BEC Output/RPM Signal Transmission Wires
Size / Weight
Separate Programming Port
Platinum 80A V4
3-6S LiPo
Switch-mode, 5-8V Adjustable (Step: 0.1V), 10A/25A Cont./Peak
White Throttle Signal Wire/Red & Black BEC Output Wires/Yellow RPM Signal Transmission Wire
For connecting LCD program box/WIFI module or fan
450-500 Class Helicopters(Propeller: 380-470mm)
80A/100A
84.29x38.2x20.4mm / 96.5g
500-550 Class Helicopters(Propeller: 470-575mm)
120A/150A
84.29x38.2x20.4mm / 106.5g
Platinum 120A V4
Programming
Press the βOKβ button to connect the program box to your ESC. βThe current
firmware versionβ will show up after the program box is successfully
connected to your ESC.
Connect the LCD
program box and a
battery to your ESC
as shown above.
Press the βOKβ button to connect the program
box to your ESC. βThe current firmware
versionβ will show up after the program box is
successfully connected to your ESC.
Press the βR/Pβ
button to browse all
running information
relates to the ESC.
1. you can only check the standardized RPM in βHeli Store Governorβ mode, the
record wonβt disappear after you turn off the ESC.
2. The recorded revs are electric revs. If the electric RPM is R, the actual rev of the
main blades =R Γ· Motor Poles Γ· 2 Γ· Gear Ratio Γ Throttle Amount (%).
Press the βITEMβ button to browse programmable items, and press the
βVALUEβ button to change parameter value(s).
After changing parameter value(s), press the βOKβ button to save those new
values to your ESC.
Press the βITEMβ button to browse other programmable items or exit
the programming.
Disconnect the ESC and battery, unplug the programming cable from the
ESC and LCD program box.
Connect the LCD program box and a battery to your ESC as shown above.
The default throttle range of this ESC is from
1100Β΅s to 1940Β΅s, you need to re-calibrate the
throttle range when the first time you use this ESC
or after you change the transmitter.
β RPM Signal Wire(Yellow): plug it into the RMP input channel on the flybarless system. (This wire can be used for providing RMP signal input when using
external device for speed-governing.
β‘ BEC Output Cable (Red/Brown): plug it into the battery channel or any unoccupied channel on the receiver. (For better BEC powering, we recommend
plugging this cable into the battery channel or any unoccupied channel on flybarless if itβs permitted.
β’Throttle Signal Cable (White/Red/Black): plug it into the TH throttle on the receiver or the corresponding channel on the flybarless system like the RX B
channel on the VBAR system. About which channel you should plug it in, it depends on your receiver and flybarless system. The White wire is for transmitting
throttle signals, the Red & Black wires are the BEC output wire and ground wire.
AT T ENT I ON
After adjusting parameters, you need to power your ESC off and then on. Otherwise, those new
parameters wonβt take effect.
AT T ENT ION
Program Your ESC with a WIFI Express: For detailed information, please refer to the user manual of WIFI Express.
The ESC will record the standardized RPM, minimum voltage, maximum current and maximum temperatures of the flight but wonβt save these data, so you need to keep the ESC on if you want to check the
information of the flight.
08
Normal Start-up Process
Turn on the transmitter, and then move
the throttle stick to the bottom position.
After connected to a battery, the ESC will emit
ββͺ123β indicating itβs normally powered on.
The motor will emit several beeps to
indicate the number of LiPo cells.
The motor emits a long beep
indicating the ESC is ready to go.
09
Explanations for Warning Tones
1. Input voltage is abnormal:
The ESC will measure the input voltage the moment when itβs powered on. The motor will keep beeping βBB, BB, BBβ (the interval between two BBs is 1 second) when the input voltage is beyond the normal range.
The warning tone wonβt stop until the voltage turns normal.
2. Throttle signal loss protection is activated:
The motor will beep βB-, B-, B-β (the interval between two B-s is 2 seconds) when the ESC doesnβt detect any throttle signal.
3. Throttle stick is not at the bottom position:
The motor will beep βB-B-B-B-B-β when the throttle stick is not moved to the bottom position.
4. Throttle range is too narrow:
The motor will beep βB-B-B-B-B-β when the throttle range you set is too narrow (when designing this ESC, it requires that the entire throttle range you set cannot be less than 50% of the whole throttle range
available on the transmitter.) The warning tone indicates the throttle range you set is void and you need to set it again.
10
Explanations for Multiple Protections
1. Start-up Protection:
The ESC will monitor the motor speed during the start-up process. When the speed stops increasing or the speed increase is not stable, the ESC will take it as a start-up failure. At that time, if the throttle amount is
less than 15%, the ESC will automatically try to restart up; if it is larger than 15%, you need to move the throttle stick to back the bottom position and then restart up the ESC. (Possible causes of this problem: poor
connection/ disconnection between the ESC and motor wires, propellers are blocked, etc.)
2. ESC Thermal Protection:
The ESC will gradually reduce the output but wonβt cut it off completely when the ESC temperature goes above 110 . For ensuring the motor can still get some power and wonβt cause crashes, so the maximum ξ
reduction is about 50% of the full power. The ESC will gradually resume its maximum power after the temperature lowers down. In addition, the ESC temperature cannot exceed 70 when itβs powered on. Otherwise, β
it cannot be started up. (Here we are describing the ESCβs reaction in soft cutoff mode, while if in hard cutoff mode; it will immediately cut off the power.)
3. Capacitor Thermal Protection:
The ESC will activate this protection when the operating temperature of capacitors goes over 130 . It protects capacitors in the same way as the ESC thermal protection does to the ESC .ξ
4. 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.
5. Overload Protection:
The ESC will cut off the power/output or automatically restart itself when the load suddenly increases to a very high value. (Possible cause to sudden load increase is that propellers are blocked.)
6. Over-current ProtectionοΌ
The ESC will cut off the power when the current gets close to the short circuit current (of 300A). This protection may be activated by the burnt motor or some others.
Program Your ESC with a Multifunction LCD Program Box
About RPM Standardization & Others
I. The motor will enter the soft start-up when user switches the throttle amount from 0 to 40% or above (50% throttle is recommended). The pitch of main blades should be 0 degree during the soft start-up process,
the RPM standardization completes when the soft start-up ends, and the ESC makes the motor enter the speed-governing state. In βHelicopter (Store Governor)β mode, if user wants to re-standardize the speed, p1-he
needs to set the flight mode to βHelicopter (Elf Governor)β and save this mode first, and then reset the flight mode back to βHelicopter (Store Governor)β, then the ESC will re-standardize the motor speed when
the motor rotates for the first time after the ESC is powered off and then on again.
II. For ensuring the speed-governing effect, we recommend setting the throttle amount to 85% or below in both speed-governing modes (Helicopter (Store Governor) & Helicopter (Elf Governor)), so there will be
sufficient compensating room to maintain the consistency of the RPM. We recommend replacing the motor or adjusting the gear ratio if the expected RPM still cannot be reached when the throttle amount exceeds
85%. (Note: You need to re-standardize the RPM after replacing the motor, blades, body frame or adjusting the gear ratio.)
III. In βHelicopter (Store Governor)β mode, if you fly your aircraft with another pack that has poor discharge capability after the RPM standardization (with a pack which has good discharge capability), the pack has
poor discharge capability will get damaged.
IV. In βHelicopter (Store Governor)β mode, different battery packs can bring the same stable RPM only if they have the same cell count. This wonβt change even when you change the battery pack. However, battery
packs with different cell count donβt have the same effect. For instance, in βHelicopter (Store Governor)β mode, you can not use a 4S to calibrate the motor RPM and then use a 6S to drive the motor, hoping it can
run at the same RPM.
V. User can decide the control feel via adjusting Governor Parameter P/I. In βHelicopter (Store Governor) or Helicopter (Elf Governor)β mode, connect your ESC to a smart phone or PC, then you can check the throttle
vs speed chart.
2. LiPo Cells:
The ESC will automatically calculate the number of LiPo cells you have plugged in as per the β3.7V/Cellβ rule if βAuto Calc.β is selected. Or user can set this item manually.
3. Voltage Cutoff Type:
The ESC will gradually reduce the output to 50% of the full power in 3 seconds after the voltage cutoff protection is activated, if soft mode is selected. . It will immediately cut off all the output when hard mode is selected.
4. Cutoff Voltage:
2.8V-3.8V (custom), 3.0V (default).
5. BEC Voltage:
5-8V (adjustable), 0.1V (step), 6V (default).
6. Start-up Time:
4-25s (adjustable), 1s (step), 15s (default). (Note: It only functions in Helicopter (Store Governor) and Helicopter (Elf Governor))
7. Governor Parameter P:
Control the ESC maintaining the stability of the current motor speed.
8. Governor Parameter I:
Control the dynamic response. To be specific, control the supplement extent when the actual motor speed is below expectation. If you choose a very big value, then the supplement may be too much. If select a very
small value, then the supplement may not sufficient.
9. Auto Restart Time:
the ESC will cut off its output when the throttle amount is between 25% and 40%. If you increase the throttle amount to above 40% within preset time period (0-90s), the motor will rapidly start up and accelerate
to the speed (in the programmed Restart Acceleration Time) corresponds to the specific throttle amount, complete the shutdown and restart up . If you move the throttle stick to over 40% beyond the preset time
period, the ESC will enter the soft start-up process. (Note: This function wonβt effect unless the throttle amount is over 25% and it only effects in βHelicopter (Store Governor) and Helicopter (Elf Governor)β mode.)
10. Restart Acceleration Time:
1-3s (adjustable), 0.5s (step), 1.5s (default). This item controls the time the motor will cost to restart and accelerate to the full speed. (This function only effects in βHelicopter Governor Elf/Storeβ mode)
11. Brake Type:
11.1 when the throttle range on the transmitter is between 20% and 100%, the corresponding ESC throttle output is between 0% and 100%.When the throttle range on the transmitter is Proportional Brake:
between 20% and 0%, the corresponding brake force is between 0 and 100%.
11.2 after selecting this option, the RPM signal wire will turn into a reverse signal wire (the signal range is in line with the throttle range). After setting a channel on the transmitter, when the reverse signal Reverse:
length is above 20% signal length, the Reverse mode will be activated. The reverse signal length must be below 20% signal length when the ESC is powered on for the first time. When the reverse signal length
is below 20% signal length, 0-100% throttle corresponds to βCWβ; when the reverse signal length is above 20% signal length, the motor will stop spinning CW (and then spin CCW); at this time, 0-100%
throttle corresponds to βCCWβ. Any signal loss will activate the throttle signal loss protection, no matter it happens to the RPM signal wire or the throttle signal cable during the flight.
12. Brake Force:
0-100% (adjustable), 1% (step), 0 (default). (Note: this function only effects in βNormal Brakeβ mode.)
13. Timing:
0-30Β° (adjustable), 1Β° (step), 15Β° (default).
14. Motor Rotation:
CW/CCW. User can adjust this item via a multifunction LCD program box.
15. DEO (Freewheel):
User can decide this function βEnabledβ or βDisabledβ in βFixed Wingβ mode or in βHelicopter (Linear Throttle)β mode. This item has been preset to βEnabledβ and cannot be adjusted in βHelicopter (Store
Governor) and Helicopter (Elf Governor)β mode. This function can brings better throttle linearity.
Electronic Speed Controller
Motor
Battery
Product specificaties
Merk: | Hobbywing |
Categorie: | Radiografisch bestuurbaar speelgoed |
Model: | Platinum PRO 80A |
Kleur van het product: | Zwart |
Gewicht: | 97 g |
Breedte: | 84.3 mm |
Diepte: | 38.2 mm |
Hoogte: | 20.4 mm |
Soort: | Radio-Controlled (RC) Model Parts |
Correct gebruik: | Helikopter |
Merkcompatibiliteit: | Hobbywing |
Contact geleider materiaal: | Goud |
Maximale continue stroom: | 80 A |
Type product: | ESC |
Batterijtechnologie: | Lithium-Polymeer (LiPo) |
Type motor: | Borstelloze motor |
Stroom (max.): | 100 A |
AWG draad omvang: | 12 |
Aansluiting type: | 4mm |
Batterij elaminatorcircuit (BEC) continue stroom: | 10 A |
Batterij elaminatorcircuit (BEC) uitgangsstroom: | 5 V, 8 V |
Draadlengte: | 150 mm |
Heb je hulp nodig?
Als je hulp nodig hebt met Hobbywing Platinum PRO 80A 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