Hobbywing SkyWalker-20A User Manual

User Manual of Brushless Speed Controller

HW-SM003DUL-20130709

Page 2

Thanks for purchasing our

Electronic Speed Controller (ESC). High power system for RC model is very dangerous, please read

this manual carefully. In that we have no control over the correct use, installation, application, or maintenance of our products,
no liability shall be assumed nor accepted for any damages, losses or costs resulting from the use of the product. Any claims
arising from the operating, failure or malfunctioning etc. will be denied. We assume no liability for personal injury, property
damage or consequential damages resulting from our product or our workmanship. As far as is legally permitted, the obligation
to compensation is limited to the invoice amount of the affected product.

Specifications

˄Note: The Skywalker-6A,12A, 12AE, 30A, 50A, 60A and 80A are only used for RTF applications˅

Size

2S Lipo

3S Lipo

4S Lipo

6S Lipo

Lipo

NiMH

L*W*H

Skywalker-6A

6A

8A

Linear

5V/0.8A

3 servos

2S

5-6 cells

5.5g

32*12*4.5

Skywalker-12A

12A

15A

Linear

5V/1A

3 servos 2 servos

2-3S

5-9 cells

9g

38*18*6

Skywalker-12AE

12A

15A

Linear

5V/2A

5 servos 4 servos

2-3S

5-9 cells

10g

38*18*7

Skywalker-20A

20A

25A

Linear

5V/2A

5 servos 4 servos

2-3S

5-9 cells

19g

42*25*8

Skywalker-30A

30A

40A

Linear

5V/2A

5 servos 4 servos

2-3S

5-9 cells

37g

68*25*8

Skywalker-40A

40A

55A

Linear

5V/3A

5 servos 4 servos

2-3S

5-9 cells

39g

68*25*8

Skywalker-40A-UBEC

40A

55A

Switch

5V/3A

5 servos 5 servos 5 servos

2-4S

5-12 cells

43g

65*25*12

Skywalker-50A-UBEC

50A

65A

Switch

5V/3A

5 servos 5 servos 5 servos

2-4S

5-12 cells

43g

65*25*12

Skywalker-60A-UBEC

60A

80A

Switch

5V/5A

8 servos 8 servos 6 servos 6 servos

2-6S

5-18 cells

63g

77*35*14

Skywalker-60A-OPTO

60A

80A

N/A

N/A

2-6S

5-18 cells

60g

86*38*12

Skywalker-80A-UBEC

80A

100A

Switch

5V/5A

8 servos 8 servos 6 servos 6 servos

2-6S

5-18 cells

82g

86*38*12

Skywalker-80A-OPTO

80A

100A

N/A

N/A

2-6S

5-18 cells

79g

86*38*12

Weight

Battery Cell

Model

Cont.

Current

Burst

Current

(>10s)

BEC

Mode

BEC

Output

BEC Output Capability

Programmable Items (The option written in bold font is the default setting)

1. Brake

Setting

˖Enabled / Disabled

2. Battery

Type

˖Lipo / NiMH

3.

Low Voltage Protection Mode(Cut-Off Mode)

˖ Soft Cut-Off (Gradually reduce the output power) /Cut-Off (Immediately stop the

output power)

4.

Low Voltage Protection Threshold(Cut-Off Threshold)

˖Low / Medium / High

1)

For lithium battery, the battery cell number is calculated automatically. Low / medium / high cutoff voltage for each cell is:
2.85V/3.15V/3.3V. For example: For a 3S Lipo, when

³MHGLXP´ FXWRII threshold is set, the cut-off voltage will be:

3.15*3=9.45V

2)

For NiMH battery, low / medium / high cutoff voltages are 0%/50%/65% of the startup voltage (i.e. the initial voltage of
battery pack), and 0% means the low voltage cut-off function is disabled. For example: For a 6 cells NiMH battery, fully
charged voltage is 1.44*6=8.64V

ZKHQ³Medium´FXW-off threshold is set, the cut-off voltage will be: 8.64*50%=4.32VDŽ

5. Startup

Mode

˖Normal /Soft /Super-Soft (300ms / 1.5s / 3s)

a)

Normal mode is suitable for fixed-wing aircraft. Soft or Super-soft modes are suitable for helicopters. The initial acceleration of
the Soft and Super-Soft modes are slower, it takes 1.5 second for Soft startup or 3 seconds for Super-Soft startup from initial
throttle advance to full throttle. If the throttle is completely closed (throttle stick moved to bottom position) and opened again
(throttle stick moved to top position) within 3 seconds after the first startup, the re-startup will be temporarily changed to normal
mode to get rid of the chance of a crash caused by slow throttle response. This special design is suitable for aerobatic flight
when quick throttle response is needed.

6. Timing

˖Low / Medium / High,( 3.75e/15e/26.25e)

Usually, low timing is suitable for most motors. To get higher speed, High timing value can be chosen.

Begin To Use Your New ESC
IMPORTANT!

Because different transmitter has different throttle range, please calibrate throttle range before flying.

Throttle range setting

(Throttle range should be reset whenever a new transmitter is being used)

Normal startup procedure

Protection Function

1.

Start up failure protection: If the motor fails to start within 2 seconds of throttle application, the ESC will cut-off the output power. In this
case, the throttle stick MUST be moved to the bottom again to restart the motor. (Such a situation happens in the following cases: The
connection between ESC and motor is not reliable, the propeller or the motor is blocked, the gearbox is damaged, etc.)

2.

Over-heat protection: When the temperature of the ESC is over about 110 Celsius degrees, the ESC will reduce the output power.

3.

Throttle signal loss protection: The ESC will reduce the output power if throttle signal is lost for 1 second, further loss for 2 seconds
will cause the output to be cut-off completely.

Trouble Shooting

Trouble

Possible Reason

Action

After power on, motor does not work, no
sound is emitted

The connection between battery
pack and ESC is not correct

Check the power connection.
Replace the connector.

After power on, motor does not work,
such an alert tone is emitted:
³beep-beep-, beep-beep-,beep-beep-´
(Every

³beep-beep-´ has a time interval

of about 1 second)

Input voltage is abnormal, too high
or too low.

Check the voltage of battery pack

After power on, motor does not work,
such an alert tone is emitted:
³beep-, beep-, beep- ´(Every ³beep-´ has
a time interval of about 2 seconds)

Throttle signal is irregular

Check the receiver and transmitter
Check the cable of throttle channel

After power on, motor does not work,
such an alert tone is emitted:
³beep-, beep-, beep-´ (Every ³beep-´ has
a time interval of about 0.25 second)

The throttle stick is not in the

bottom (lowest) position

Move the throttle stick to bottom position

After power on, motor does not work, a
special tone

³

´ is emitted after 2

beep tone (beep-beep-)

Direction of the throttle channel is
reversed, so the ESC has entered
the program mode

Set the direction of throttle channel correctly

The motor runs in the opposite direction

The connection between ESC and
the motor need to be changed.

Swap any two wire connections between ESC and
motor

Program the ESC with your transmitter (4 Steps)

Note:

Please make sure the throttle curve is set to 0 when the

throttle stick is at bottom position and 100% for the top position.
1. Enter program mode
2. Select

programmable

items

3. Set

item

¶s value (Programmable value)

4. Exit program mode

1. Enter

program

mode

1)

Switch on transmitter, move throttle stick to top
position, connect the battery pack to ESC

2) Wait for 2 seconds, the motor should emit

special

WRQHOLNH³EHHp-beep-´

3)

Wait for another 5 seconds, special tone like
³

´ should be emitted, which means

program mode is entered

4. Exit program mode

There are 2 ways to exit
program mode:
1.

In step 3, after special

WRQH ³

´ please

move throttle stick to
the bottom position
within 2 seconds.

2.

In step 2, after tone
³EHHp-----beep-----´(th
at is: The item #8),
move throttle stick to
bottom within 3
seconds.

3. Set item value (Programmable value)
You will hear several tones in loop. Set the value matching to a tone by moving throttle stick
to top when you hear the tone, then a

VSHFLDOWRQH³

´ emits, means the value is set

and saved. (Keeping the throttle stick at top, you will go back to Step 2 and you can select
other items; or moving the stick to bottom within 2 seconds will exit program mode directly)

Tones

Items

³EHHp-´

1 short tone

³beep-beep-´
2 short tones

³beep-beep-beep´ 

3 short tones

Brake

Off On

Battery type

Lipo

NiMH

Cutoff mode

Soft-Cut Cut-Off

Cutoff threshold

Low Medium High

Start mode

Normal Soft

Super

soft

Timing

Low Medium High

2. Select programmable items
After entering program mode, you will hear 8 tones in a loop with
the following sequence. If you move the throttle stick to bottom
within 3 seconds after one kind of tones, this item will be selected.
1.

³EHHp´

brake (1 short tone)

2.

³EHHp-beep-´

battery type (2 short tone)

3.

³EHHp-beep-beep-´ cutoff mode (3 short tone)

4.

³EHHp-beep-beep-beep-´ cutoff threshold (4 short tone)

5.

³EHHp-----´

startup mode (1 long tone)

6.

³EHHp-----beep-´ timing (1 long 1 short)

7.

³EHHp-----beep-beep-´ set all to default (1 long 2 short)

8.

³EHHp-----beep-----´ e xi t ( 2 l o ng t o ne )

Note

ORQJ³EHHp-----´ VKRUW³EHHp-´

Move throttle stick
to bottom position
and then switch
on transmitter.

Connect battery pack
to ESC, special tone
like

³

123

´ means

power supply is OK

When self-test is
finished, a long
³beep-----´ tone
should be emitted

Move throttle stick
upwards to go flying

Several

³beep-´ tones

should be emitted to
present the amount of
lithium battery cells

Switch on the
t r a n s m i t t e r,
move throttle
s t i c k t o t h e
t op pos it io n

Connect battery
pack to the
ESC, and wait
for about 2
seconds

The

³Beep-Beep-´ tone

should be emitted,
means the top point of
throttle range has been
confirmed

Move throttle stick to the
bottom position, several
³beep-´ tones should be
emitted to present the
amount of battery cells

A long

³Beep-´ tone should

be emitted, means the
lowest point of throttle
range has been correctly
confirmed