Step, Connect input harness, Motor prep – Novak GTX Programmable Racing ESC 7th Profile Customizing Sheet (IM-1780-2) User Manual

The GTX speed control is epuipped with the industry standard

connector on a user-replaceable combination power switch/input

harness--

the 3-pin connector on the end of this harness works with

all the major radio brands new receivers. However, some very old

receivers must have the wiring sequence inside the plastic 3-pin

connector housing changed.

This is an important step, because the

receiver electronics may be damaged if the sequence is not correct.

JR • Hitec • Futaba • New KO • Airtronics Z

JR, Hitec, Futaba, new KO, & Airtronics Z receivers do not need input

harness re-wiring.

Airtronics Z receivers have blue plastic cases & new

KO cases have tabs on the input harness openings as in

Figure 1.

• Plug the 3-pin connector end of the input harness into the receiver

with the

BLACK wire toward the outside edge of receiver case.

• Plug the 5-pin end of the power switch/input harness onto 5-pin

header on the side of the GTX’s case with the

WHITE wire toward

the ‘S’ (signal) marking by the corner of the ESC’s case.

Old-style KO • Old-style Sanwa/Airtronics

If your receiver is an older KO or Sanwa/Airtronics, you must change

the sequence of the ESC’s input harness wires.

Old Sanwa/Airtronics cases are black in color & Old KO cases do not

have the tab openings, as in

Figure 2 above.

• Using a small standard/flat blade screwdriver,

remove the red and

black wires from the plastic 3-pin connector housing at the receiver

end of the input harness as in

Figure 3 below.

•

Interchange the red and black wires in the plastic 3-pin connector

housing at the receiver end of the input harness.

• Insert modified 3-pin end of the harness into the receiver with the

RED wire toward the outside edge of receiver case.

FIGURE 3

With a small standard screwdriver, gently lift plastic prong until

wire and metal socket easily slide out of plastic housing.

The GTX is supplied with both a long and short length input signal

pigtail to allow you to get a custom looking install without all the

extra signal wire that needs to be bundled up in the vehicle.
To change the input signal pigtail, follow above instructions for

removal of old pigtail. Select proper wiring sequence as described

above, then insert the new pigtail, and you’re done.

using a receiver battery pack

changing input harness pigtail length

changing wiring sequence

@

receiver end

FIGURE 1

FIGURE 2

New KO (with tabs)

Old KO (no tabs)

tabs

no tabs

black

red

red

white

black

white

Power Capacitor

taped or tie-wrapped to chassis

One-Touch/“SET”

programming button

Keep receiver & antenna as

far from motor, servo, battery,

& power wires as possible.

User-replaceable

combination

power switch

&

input harness

Black power wire

(battery negative)

Trail excess wire off

top of antenna mast

Red power wire

(battery &

motor positive)

Blue power wire

(motor negative)

Three

0.1µF (50V)

ceramic

capacitors

(–)

(+)

(–)

(+)

4 to 7 cell

battery pack

P2

P3

step

1

–

connect input harness

If using an external receiver battery pack with the GTX:
1. Plug an external 5 cell (1.2VDC/cell) receiver battery pack into

the battery slot of the receiver.

2. Leave the GTX’s ON/OFF switch in the OFF position, and use

receiver battery pack’s ON/OFF switch to turn the system power

on and off––Do not use the GTX’s switch.

step

2

–

MOtor prep

1. MOTOR CAPACITORS

Electric motors generate RF noise that causes interference. The

included 0.1µF (50V) non-polarized, ceramic capacitors must be

used on all motors to reduce motor noise & prevent ESC damage.

Note: Some motors come with capacitors built-in. If your motor

only has two capacitors, you need to install a capacitor between

the positive & negative motor tabs––If you experience radio inter-

ference when using only built-in capacitors, install external ones.

Solder 0.1µF (50V) capacitors between:

• POSITIVE (+) motor tab & NEGATIVE (–) motor tab.
• POSITIVE (+) motor tab & GROUND tab*.
• NEGATIVE (–) motor tab & GROUND tab*.

*If motor has no ground tab (below), solder the capacitors to motor can.

Negative (–) motor tab

0.1µF Capacitors

Schottky diode

Positive (+) motor tab

Ground / motor can

Extra 0.1µF capacitors are available in Novak kit #5620.

2. INSTALLING OPTIONAL SCHOTTKY DIODE

The GTX has a built-in 36A Schottky diode and does not require

an external one under most conditions. The external Schottky

will optimize the ESC’s braking and motor performance in

applications with heavy or repeated braking (lap after lap), or

when using very low-turn modified motors.

• If using a Schottky diode with axial leads like shown in the

photo above

(older Novak style--35V/8A minimum)

, solder the lead

CLOSEST to the silver stripe on the body of the Schottky diode

to the

POSITIVE (+) motor tab. Solder the lead OPPOSITE the

silver stripe on the body to the NEGATIVE (–) motor tab.

• If using the Novak Racing Schottky Motor Module

(this is the best

perfoming Schottky diode available)

, solder the

red wire from the

module to the

POSITIVE (+) motor tab. Solder the black wire

from the Schottky module to the

NEGATIVE (–) motor tab.

If Schottky diode is installed backwards it will be destroyed. Replace

only with Schottky diodes with a minimum rating of 35 volts/8 amps.

Racing Schottky Motor Modules are available in Novak kit #5636.

step

3

–

wiring speed control, motor, & battery

The GTX is an extremely powerful ESC, capable of very efficient delivery

of battery power to your vehicle’s motor, and thus requires very good

connections between the battery, ESC, & motor to obtain the best

performance. A common cause of perfomance problems & ESC failures

is poor solder joints--If you have any doubts about your soldering skill,

we suggest seeking assistance at your hobby shop or track.

select a mounting location

:

• Keep the ESC and its power wires away from other electronics

in the vehicle, especially the receiver & antenna.

• Do not bundle receiver/signal wires with other wires--messy

installations account for nearly all radio interference (glitching)

problems. A clean looking install almost always works better.

• Route ESC wires to clear any moving parts in the vehicle.

• Airflow through the ESC’s heat sink is a huge performance plus.

Like a real car, cooling is everything--if you can mount the ESC

where it will see some air flow, it will run cooler; and that means

that the ESC will be even more efficient (and make you faster!).

Once you’ve decided where to put the GTX, it’s time for some wiring.

The GTX uses a 3-wire system where the battery & motor share the

same red wire. The recommended wiring method is direct soldering

for a system with the least amount of resistance. Installations can also

use battery/motor connectors & will be discussed at the end of this section.

1. PREP & SOLDER SPEED CONTROL’S RED WIRE

Depending on your vehicle’s configuration, there are two main ways that

you can make the red wire connections--making a “Y”

(or “T”)

out of the

red wire to go to the motor & battery, or a single wire set-up where the red

wire goes to the battery and then continues on to the motor

(or vice versa)

.

using the single wire method

:

a. Position the GTX where it will be mounted, strip a 1/4-3/8” section

of insulation from the mid-section of its red wire where you will

solder it to positive

(+)

of the motor or battery

(component that is in

the middle)

. Tin the exposed section of wire with solder.

b. Solder the exposed section of wire to positive

(+)

tab of the motor

or the positive

(+)

end of the battery pack

[see Figure 5: Set-Up Photo]

.

c. Cut the GTX’s red wire

(after the first connection)

to the proper length

so it will reach the final component

(battery positive or motor positive)

and strip 1/8-1/4” of insulation off the end. Twist & tin the wire.

d. Solder the tinned end of the GTX’s red wire to the final

component--battery positive

(+)

or positive

(+)

tab of the motor.

using the “y” method

:

(Figure 6)

a. Strip a 1/4-3/8” section of insulation from the mid-section of the

GTX’s red wire where you want to split and go to the motor &

battery. Tin the exposed section of wire with solder.

b. Strip a 1/4” of insulation off the one end of the extra piece of red

wire that came with the GTX. Twist & tin the wire.

c. Slide the supplied piece of heat shrink tubing over the red wire

coming from the GTX, and slide it all the way to the ESC.

d. Solder the tinned end of the extra piece of red wire to the tinned

section along the GTX’s red wire & shrink the tubing over the solder

joint with a heat gun

(a lighter or match also works well)

.

e. Cut one end of the GTX’s red wire

(after the ”Y”)

to the proper

length so it will reach the positive

(+)

tab of the motor and strip

1/8-1/4” of insulation off the end. Twist & tin the wire.

f. Solder this end of the GTX’s red wire to the positive

(+)

motor tab.

g. Cut the other end of the GTX’s red wire

to the proper length so it

will reach battery pack positive

(+)

and strip 1/8-1/4” of insulation

off the end. Twist & tin the wire.

h. Solder this end of the GTX’s red wire to battery positive

(+)

.

2. PREP & SOLDER GTX’S BLUE & BLACK WIRES

a. Cut the end of the GTX’s blue wire

to the proper length so it

will reach the negative

(–)

tab of the motor and strip 1/8-1/4” of

insulation off the end. Twist & tin the wire.

b. Solder the end of the GTX’s blue wire to motor negative

(–)

.

c. Cut the end of the GTX’s black wire

to the proper length so it will

reach battery pack negative

(–)

and strip 1/8-1/4” of insulation

off the end. Twist & tin the wire.

d. Solder the end of the GTX’s black wire to battery negative

(–)

of

a charged 4 to 7 cell pack.

TIP: Twisting BLUE & RED wires once or twice around each other as they

go to the motor helps reduce RF noise emitted from power wires.

using battery & motor connectors

Battery & motor connectors can be used for making your connections,

however they will never have as low of resistance as a good solder joint.

If you are going to use connectors for your battery and/or motor, we

suggest the Dean’s Ultra Connectors--do not use crimp on types.
When using battery and motor connectors, please note the following:

• If you have any doubts about your soldering skills, seek assistance

from your hobby shop or track, or see our website for tips.

• Use connectors that cannot be plugged in backwards--reverse

voltage will damage the GTX and void the warranty.

• Use a female connector on battery packs to avoid shorting.
• If using connectors for both battery & motor leads, use a male

connector on the GTX’s battery lead and a female on the GTX’s

motor lead to prevent cross connection

(also voids warranty)

.

For additional information on connector usage, visit our website.

replacing power wires @ solder tabs

When replacing the battery or motor power wires at the GTX’s solder

tabs, it’s important to not overheat PCB

(printed ciruit board)

with the

soldering iron by applying prolonged or excessive heating.
• Remove wires from the tab by first removing GTX from vehicle to

access solder joints on the bottom of the tabs. Use a soldering iron

to apply heat to the wire’s solder joint while gently pulling on the

wire to remove it from the hole in the PC Board.

• Replace the wires by stripping 1/8-1/4” of insulation from the end

of the new wire. Tightly twist the wire strands and lightly tin with

solder. Insert the wire end into the proper hole in the PC Board

(if

there is still solder in the hole you can melt it with the iron while pushing the
wire through the hole)

. Apply heat to the section of wire that is sticking

through the tab’s hole, and add solder to the tip of the soldering

iron and to the wire.

Add just enough solder to form a clean &

continuous joint from the plated area of the solder tab up onto the

wire. Use side cutters to trim excess wire above tab

(about 1/16”)

.

FIGURE 4

FIGURE 5: SET-UP PHOTO

(in-line ’single wire method’ of red wire shown)

continued –>

status LEDs

why you want the power capictor

The GTX comes with the best available power Capacitor that drops ESC operating temperatures

by 10-15°F (remember, cooler means your GTX will be more efficient & faster) and dissipates noise &

voltage spikes from the ESC’s high switching speed that makes the GTX so smooth.
You MUST use Novak Power Capacitors--other capacitors with similar ratings don’t provide the

same protection. We’ve done extensive research to find capacitors with the very best quality factors.

Green

Amber

Blue

Red

SET

button

Fig.7: ST

A

TUS LEDs

FIGURE 6: ‘Y’ METHOD OF WIRING

Power Capacitor

taped to chassis

‘Y’ in red wire

heat shrink all

exposed wiring

ON/OFF switch

screwed to chassis

insulate

exposed

wiring &

leads