Custom programming options -- advanced, Minimum brake, Drag brake – Novak Havoc Pro Set-Up (55-1745P-1 Rev.4) User Manual

Page 2: Minimum drive, Timing level, Timing set point, Dead band, Throttle curve, Brake curve, Brake frequency

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havoc pro sc software flow chart

CUSTOM programmiNG options -- advanced

w w w . t e a m n o v a k . c o m

The Havoc Pro SC ESC features over

a dozen parameters that can be

customized to fine-tune the ESC’s

feel & response to your liking.
The flow chart below and the

adjustment steps to the right

describe the different parameters

and how they effect the ESC.
One-Touch Programming must be

completed before customization of

parameters, as all ESC parameters

are defaulted back to the factory

settings whenever the One-Touch

Programming is performed.

DEFAULT SETTINGS FOR

THE ESC PARAMETERS ARE

LISTED IN BOLD IN THE

TABLES TO THE RIGHT

TO CHANGE PARAMETER SETTINGS:

1. CONNECT THE ESC TO A

CHARGED BATTERY PACK,

RECIEVER, AND MOTOR’S

SENSOR HARNESS

2. SLIDE THE ESC’s ON/OFF

SWITCH TO ‘ON’ POSITION

3. WITH ESC AT NEUTRAL, PRESS

& HOLD SET BUTTON

Release ESC’s SET button once LEDs

are lit for the desired setting.

To skip a parameter, continue

to press & hold SET button until

desired parameter is reached.

4. SELECT PARAMETER VALUE

LED flashes to indicate active

setting (refer to tables at right).

Quick press & release SET button

to select desired setting.

5. PRESS & HOLD SET BUTTON

TO STORE NEW SELECTION

When SET button is pressed and

held for about 1 second,

the

new selection is stored in ESC’s

memory—Status LEDs will scroll across

to indicate ESC is exiting programming

& ESC returns to neutral.

There is no time constraint during

selection of custom parameters.

THROTTLE and

brake CURVES

The Havoc Pro SC features both

linear and exponential throttle &

brake curves. The ‘Expo’ curves

provide a more controllable bottom

end response.

minimum brake

#1 MINIMUM BRAKE SETTINGS

(1 of 10)

BLUE LED

Amount of braking applied with the first pulse of transmitter throttle information sent.
>> Increasing this setting starts the braking at a stronger/higher

level. This is useful to compensate for heavier vehicles to minimize the

amount of trigger throw required before effective braking is applied.
Note: Blue LED will be ON when ESC is at neutral if this setting is above 0%.

Setting

(# of flashes)

9 10

Minimum Brake (%):

9 12 15 18 21 24 30

drag brake

#2 DRAG BRAKE SETTINGS

(1 of 10)

BLUE & YELLOW LEDs

Amount of braking being applied while transmitter is at neutral. AKA ‘coast’ brakes.
>> Increasing this setting makes the motor slow down more without

pushing the transmitter’s trigger into the brake/reverse direction.
Note: Yellow LED will be ON when ESC is at neutral if this setting is above 0%.

Setting

(# of flashes)

9 10

Drag Brake (%):

9 12 15 18 21 24 30

minimum drive

#3 MINIMUM DRIVE SETTINGS

(1 of 10)

YELLOW LED

Amount of forward drive applied with first pulse of transmitter throttle information sent.
>> Increasing this setting starts the forward drive at a stronger/higher

level. This is useful to compensate for heavier vehicles to minimize the

amount of trigger throw required before effective drive is applied.

Setting

(# of flashes)

9 10

Minimum Drive (%):

8 10 12 15

TIMING level

#4 TIMING LEVEL SETTINGS

(1 of 8)

GREEN-RED-WHITE LEDs

The maximum degrees of Dynamic Timing Advance applied to the motor.
>> Increasing this setting will increase the maximum amount of electronic

motor timing that is applied to the motor throughout the throttle band.

Setting

(# of flashes)

Timing Level

(degrees):

20 25 30 32 35 37

Setting #1 disables all timing to meet ROAR’s Sportsman Class racing specs.

WARNING: DO NOT FREE-REV MOTOR TO CHECK TIMING SETTINGS

*Timing Levels 6-8 produce excessive heating & must be used with caution.

Physical motor timing should be set to 30° (“N” on older Ballistic motors)

Note: Do NOT use Timing Advance with 3.5-5.5 turn 540-Size motors.

TIMING SET POINT

#5 TIMING SET POINT

(1 of 8)

YELLOW-GREEN-RED-WHITE LEDs

The RPM trip point at which Dynamic Timing Advance is applied.
>> Increasing this setting will decrease the RPM at which the electronic

motor timing advancement comes on.

Setting

(# of flashes)

Timing Set Pt

(x1000 RPM)

19.5 14.0 12.7 9.1 6.5 5.5 4.5 4.0

Motor Output

Trigger Position

100%

Linear

Expo

100%

dead band

#6 DEAD BAND SETTINGS

(1 of 5)

BLUE & GREEN LEDs

The space between Minimum Brake and Minimum Drive, with Neutral in the middle.
>> Increasing this setting increases the amount of ‘free play’, or distance

your transmitter’s trigger must move before actual forward drive or

braking begins. This is useful for transmitters whose triggers do not

center accurately or have worn trigger pots.

Setting

(# of flashes)

Dead Band (%):

THROTTLE CURVE

#7 THROTTLE CURVE SELECTION

(1 of 2)

GREEN & WHITE LEDs

How the ESC’s throttle (or forward drive) responds to the transmitter’s trigger input.
>> Changing this setting changes how the throttle responds to your

transmitter’s trigger movement. The ‘Expo’ curve gives a less responsive,

or more forgiving low-end acceleration.

Setting

(# of flashes)

Throttle Curve:

Linear

Expo

BRAKE CURVE

#8 BRAKE CURVE SELECTION

(1 of 2)

RED & WHITE LEDs

How the ESC’s brakes respond to the transmitter’s trigger input.
>> Changing this setting changes how the brakes respond to your

transmitter’s trigger movement. The ‘Expo’ curve gives a less responsive,

or more forgiving low-end braking.

Setting

(# of flashes)

Brake Curve:

Linear

Expo

BRAKE FREQUENCY

#9 BRAKE FREQUENCY SELECTION

(1 of 10)

RED LED

How the ESC’s braking response feels with respect to the transmitter’s trigger input.
>> Increasing the Brake Frequency makes the brake response feel

smoother and more controlable.

Setting

(# of flashes)

Brake Freq. (KHz):

1.67 2 2.25 2.5 3 3.5 4.5 5.75 10 13.7

Note: Brake/Drive Frequency is not adjustable with Expo Brake/Drive Curves.

BRAKE END POINT

#10 BRAKE END PT. SELECTION

(1 of 10)

YELLOW-RED-WHITE LEDs

The percentage of the ESC’s braking power that can be attained as well as the

transmitter trigger throw required to reach that power.
>> Decreasing this setting reduces the maximum braking power and the

usable distance of the transmitter’s brake trigger throw. The ‘Linear’ or

‘Expo’ brake curves will be cut off at this point, and you will get that

percentage/level of braking for the rest of the transmitter’s trigger throw.

Setting

(# of flashes)

Brake End Pt. (%):

10 20 30 40 50 60 70 80 90 100

Note: At high timing settings, use 100% (setting 10) Brake End Point.

DRIVE FREQUENCY

#11 DRIVE FREQUENCY SELECTION

(1 of 10)

GREEN LED

How the ESC’s throttle response feels with respect to the transmitter’s trigger input.
>> Increasing the Drive Frequency makes the throttle response feel

smoother and more controllable.

Setting

(# of flashes)

Drive Freq.

(KHz)

32 27 24 22 21 16 13 10

reverse

#12 REVERSE SELECTION

(1 of 2)

YELLOW-GREEN-RED LEDs

>> Changing this setting activates or deactivates the speed control’s

motor reversing functionality. When OFF, the ESC has forward and

brakes only. When ON, the ESC has forward with brakes, then reverse

with a second push of trigger after braking to a slow speed.

Setting

(# of flashes)

Reverse:

OFF

motor rotation

#13 MOTOR ROTATION SELECTION

(1 of 2) BLUE-GREEN-RED LEDs

>> Changing this setting changes the rotational direction of the motor’s

output/pinion shaft. Counter-clockwise rotation is standard in most

remote control vehicles. For optimal motor performance, use counter-

clockwise rotation instead of reversing the transmitter’s throttle

channel throw. Advanced timing is not available in clockwise rotation.

Setting

(# of flashes)

Rotation Direction:

CCW

voltage cut-off

#14 VOLTAGE CUT-OFF SELECTION

(1 of 3)

YELLOW & RED LEDs

>> Changing this setting enables or disables the speed control’s

built-in Smart Stop cut-off circuitry, and also sets the voltage cut-off

point based on what type of batteries are being used in the vehicle’s

main battery pack.

DO NOT USE LiPo/LiFe BATTERIES WITH VOLTAGE CUT-OFF TURNED OFF

Setting

(# of flashes)

Voltage Cut-Off Type:

OFF

(NiMH/NiCd)

LiPo

LiFe

hall sensor test

#15 MOTOR SENSOR TEST

BLUE-YELLOW-RED LEDs

>> This is a diagnostic feature that allows you to easily check the

functionality of your brushless motor’s hall effect sensors & sensor

harness and its connections at the speed control and motor. Once

activated, slowly rotate the motor’s output/pinion shaft and the

appropriate LED will light up if a signal is received for its sensor in

the motor. Refer to ‘MOTOR HALL SENSOR TEST’ section.

Motor Hall Sensor

LED Color:

BLUE

YELLOW

RED

restoring factory defaults

Every time that the One-Touch Programming is

performed, the speed control will automatically

revert back to the factory default settings.

Note: ESC Parameter values are subject to change due to ongoing development. Refer to our web site for updated values and more information on ESC parameters.

@NEUTRAL

RED LED on solid

MIN. BRAKE

BLUE

DRAG BRAKE

BLUE & YELLOW

DEAD BAND

BLUE & GREEN

MIN. DRIVE

YELLOW

press & hold SET button

continue holding ESC’

s SET button to skip steps here

TIMING LEVEL

GREEN-RED-WHITE

TIMING SET PT.

YELLOW-GREEN-RED-WHITE

THROTTLE CURVE

GREEN & WHITE

VOLTAGE CUT-OFF

YELLOW & RED

BRAKE CURVE

RED & WHITE

MOTOR ROTATION

BLUE-GREEN-RED

BRAKE FREQ.

RED

BRAKE END PT.

YELLOW-RED-WHITE

DRIVE FREQ.

GREEN

REVERSE

YELLOW-GREEN-RED

HALL SENSOR TEST

BLUE-YELLOW-RED

@NEUTRAL

RED LED on solid

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