FRICK
®
QUANTUM
™
LX/HD RETROFIT
INSTALLATION INSTRUCTIONS
090.040-I (MAR 2012)
Page 8
are common to a circuit. EMI cannot travel easily through
transformers and therefore can be isolated from selected
circuits. Use a control power transformer of the proper VA
rating, usually provided in the compressor drive motor starter,
to isolate the electronic control panel from other equipment
in the plant that generate EMI. See Figure 1.
GROUNDING
Grounding is the most important factor for successful opera-
tion and is typically the most overlooked. The NEC states that
control equipment may be grounded by using the rigid conduit
as a conductor. This worked for the earlier relay systems, but
it is in no way acceptable for electronic control equipment.
Conduit is made of steel and is a poor conductor relative
to an insulated stranded copper wire. Electronic equipment
reacts to very small currents and must have a proper ground
in order to operate properly; therefore, stranded copper
grounds are required for proper operation.
For proper operation, the control power ground circuit must
be a single continuous circuit of the proper sized insulated
stranded conductor, from the electronic control panel to the
plant supply transformer (Figure 2). Driving a ground stake
at the electronic control may also cause additional problems
since other equipment in the plant on the same circuits may
ground themselves to the ground stake causing large ground
flow at the electronic control panel. Also, running multiple
ground conductors into the electronic control panel from
various locations can create multiple potentials resulting in
ground loop currents. A single ground wire (10 AWG or 8
AWG) from the electronic control panel, that is bonded to the
control power neutral at the secondary side of the control
power transformer in the starter and then to the 3-phase
ground point, will yield the best results.
Figure 2
NOTE: Structural grounding can also result in multiple
ground potentials and is also a relatively poor conductor.
Therefore, this is not an acceptable method for proper
operation of electronic equipment.
There must be a ground for the three-phase power wiring.
This must be sized in accordance to the NEC and any local
codes relative to the highest rated circuit overload protection
provided in the circuit. The manufacturer may require a larger
ground conductor than what is required by the NEC for proper
steering of EMI from sensitive circuits. This conductor must
also be insulated to avoid inadvertent contact at multiple
points to ground, which could create Ground Loops. In many
installations that are having electronic control problems,
this essential wire is usually missing, is not insulated, or
improperly sized.
NEC size ratings are for safety purposes and not necessarily
for adequate relaying of noise (EMI) to earth ground to avoid
possible interference with sensitive equipment. Therefore
sizing this conductor 1 – 2 sizes larger than required by code
will provide better transfer of this noise.
Johnson Controls-Frick
®
requires that the ground conductor
meet the following::
• Stranded Copper
• Insulated
• One size larger than NEC requirements for conventional
starters
• Two sizes larger than NEC requirements for VFD starters
• Conduit must be grounded at each end
• This circuit must be complete from the motor to the starter
continuing in a seamless manner back to the plant supply
transformer (power source).
For Direct Coupled, Package Mounted Starters, the ground
between the motor and the starter may need to be made
externally (Figure 3). The connection on the starter end
must be on the starter side of the vibration isolators. Be
certain the connection is metal to metal. Paint may need
to be removed to ensure a proper conductive circuit.
The use of counter-sunk star washers at the point of
connection at each end will maximize metal to metal contact.
Figure 3
VFD Applications
The primary ground conductor that accompanies the three-
phase supply must be stranded copper, insulated and two
sizes larger than the minimum required by the NEC or any
other applicable codes. This is necessary due to the increased
generation of EMI which is a characteristic of a VFD output
to the motor when compared to a conventional starter.
For VFD applications, isolation of the control power, analog
devices, and communications ground from the 3-phase
ground within the starter and the electronic control panel may
be necessary. This is due to the higher noise (RFI/EMI) levels
