Installation guide
CT-3400 TW Installation Guide P.25
Remember, there is no polarity on a relay’s coil. This means that you may apply positive from the
battery to either terminal 85 OR 86, and then Ground the OTHER terminal to activate the relay. In
other words, you may use either a positive or negative trigger to energize the relay.
Keep in mind, when the relay is energized, if the positive OR the ground connection on the coil is
broken, the arm switches the connection between 30 back from 87 to 87a.
Quenching Diodes:
It was said earlier that you energize a relay by applying positive from the battery to either 85 OR 86
and grounding the other terminal. This is not absolutely true, some relays are “polarized” if they
have a quenching/ suppression diode (A diode installed between the coil terminals 85 and 86,
could be internal or external). To activate the coil on this type of relay, make sure that the +12 Volts
trigger is on the same terminal of the relay as the Anode (+ or non striped side) side of the
quenching/suppression diode, and that the Negative trigger is on the same terminal of the relay as
the cathode (- or striped side) of the quenching/ suppression diode.
When a relay’s coil is energized, a magnetic field is created and energy is stored in the coil. When
power is removed from the coil, the magnetic field collapses. This causes a Reverse Voltage to be
generated and can sometimes reach 200 volts. A quenching diode absorbs this reverse voltage
spike.
A closer look at a relay:
Now that you know what the main inscriptions are on the relay, take a look on the side, and you will
see another inscriptions: i.e. (12 VDV, 40/ 30 A)
12 VDC: This indicates the coil voltage rating. For an Automotive relay, it's usually 12 Volts DC.
40/ 30 A: This indicates the current carrying capability of the contacts 30, 87, & 87A.
40: Indicates that the normally closed circuit (30 and 87a) can safely handle a maximum of 40
amps of current.
30: indicates that the normally open circuit (30 and 87) can safely handle a maximum of 30 amps
of current.
Examples:
The following examples demonstrate some of the most common uses for relays.
isolation, inversion, interruption, strengthening current, and for powering multiple wires from one
source SAFELY.
Powering multiple wires from one source safely:
Example: Powering a second Ignition
Problem: You need to power Multiple Ignition wires to remote start the vehicle, but your module
only has one Ignition output available.
Solution: You will need to add a second ignition relay to power the second ignition wire. (Jumping
Ignition 1 to Ignition 2 is NEVER recommended. Always use a relay. The vehicle circuits are
Isolated for a reason, the wiring of the remote star module should reflect this.)
The relay connections: