306lrk User Manual

INSTALLATION AND OPERATING  
INSTRUCTIONS  
M A N U A L T R A N S F E R S W I T C H K I T S  
FROM  
TABLE OF CONTENTS  
Tools Needed for Installation  
Safety Symbols Used in this Manual  
About Generators and Transfer Switches  
Key Product Components  
Pre-Planning the Load on Your Generator  
Load Balancing Examples  
Installation Instructions  
Page  
1
1
2
3
4
5
5
Mounting the Transfer Switch  
Connecting the Flexible Conduit  
Grounding the Transfer Switch  
Installing 120 Volt Circuits  
6
6
7
7
8
Installing 240 Volt Circuits  
Completing the Installation  
Installing and Wiring the Power Inlet Box  
Wiring the Power Inlet Box to the Transfer Switch  
Installing an Optional Power Inlet  
Finishing Up  
Operating Instructions  
Product Specifications  
8
9
9
10  
10  
10  
11  
11/2014  
Page 2  
ABOUT GENERATORS AND TRANSFER SWITCHES  
Generators and transfer switches are dependent on one another as a system to power your home in a power outage  
situation. The Reliance Controls transfer switch system is needed because 1) your portable generator is very powerful and  
the power it creates must be safely controlled to protect you and your electric utility provider, 2) even with all of its power,  
your generator probably cannot power all of the electrical circuits and devices in your home without help from a transfer  
switch with load management capabilities, and 3) a transfer switch is required by the National Electrical Code when installing  
a transfer switch to power your home's wiring.  
The Reliance Controls transfer switch is designed to let you control and distribute your generator’s power. It correctly  
distributes the power from your portable generator to your home circuitry through your electrical load center. It also  
eliminates the need for messy cords running to your electrical appliances through open doors and windows. The Reliance  
Controls transfer switch working with your generator takes the worry and inconvenience from power outage situations.  
The Reliance Controls transfer switch distributes the power from your generator through its toggle switches to the  
corresponding selected branch circuits that power the major appliances you choose to operate during a power outage (such  
as your sump pump, refrigerator or furnace). However, because each of these branch circuits may power several other  
electrical devices other than your major appliances, such as the items plugged into wall sockets and permanently installed  
lighting, we recommend that you do a little pre-planning by:  
1. Picking the key electrical appliances you want to power in an emergency  
2. Finding the essential circuit breakers that control these devices  
3. Creating a map of all of the other electrical devices plugged into or wired into these circuits  
A tear-off Home Circuit Mapping Chart on the back of this manual should be completed and posted next to your transfer  
switch to help you in managing the load on your generator. Make sure you note on the chart which electrical devices you will  
not need during a power outage so that these can be turned off prior to starting your generator.  
During a power outage, you can run your generator and transfer switch system in two ways:  
You can set up your transfer switch to run all of its circuits at the same time once you flip the toggles to the GEN position.  
Setting your system up in this way will be discussed in the “Balancing the Load” section later.  
You can also use the load management function of the Reliance Controls transfer switch that allows you to alternate the  
devices you choose to run at any given time. If your generator is running at or near its maximum output, selected circuits  
can be switched off and others can be switched on for brief periods of time. For example, you can run a microwave oven  
for a brief period from the transfer toggle switch that controls your microwave circuit, if you first turn off the transfer switch  
toggle switch that controls your furnace—for that same brief period.  
Typical Generator and Transfer Switch Installations  
Generator Plugged into Outdoor Power Inlet  
Generator Plugged into Outdoor Power Inlet  
Box Wired to Transfer Switch Next to Garage  
Load Center  
Generator Plugged into Interchangeable  
Power Inlet on Transfer Switch with  
20-foot Cord  
Box Wired to Transfer Switch Next to  
Basement Load Center  
(POSSIBLE KIT INSTALLATION)  
(POSSIBLE KIT INSTALLATION)  
(POSSIBLE INSTALLATION WITH  
AVAILABLE RELIANCE ACCESSORIES)  
Page 3  
KEY COMPONENTS OF THE RELIANCE CONTROLS TRANSFER SWITCH AND  
POWER TRANSFER KIT  
A
C
E
B
D
F
Watt Meters  
(select models only)  
Circuit Breaker  
Compartment  
Cover  
GEN  
OFF  
Handle Tie  
LINE  
A
B
C
D
E
F
Circuit Selector Switches  
OFF  
OFF  
OFF  
OFF  
OFF  
OFF  
Power Inlet Filler Plate  
(Indoor Models)  
or  
1
POLE UNIT  
1
POLE UNIT  
1
POLE UNIT  
ISSUE NO  
RT-664  
SWD  
HACR  
TYPE  
SWD  
HACR  
TYPE  
1
POLE UNIT  
SWD  
HACR  
TYPE  
1
POLE UNIT  
1
POLE UNIT  
SWD  
HACR  
TYPE  
SWD  
HACR  
TYPE  
SWD  
HACR  
TYPE  
ISSUE NO  
RT-664  
TYPE THOL  
COPYRIGHT GE  
ISSUE NO  
RT-664  
TYPE THOL  
COPYRIGHT GE  
ISSUE NO  
RT-664  
TYPE THOL  
COPYRIGHT GE  
ISSUE NO  
RT-664  
TYPE THOL  
COPYRIGHT GE  
ISSUE NO  
RT-664  
TYPE THOL  
COPYRIGHT GE  
Circuit Breakers  
TYPE THOL  
COPYRIGHT GE  
15A / 20A / 30A  
15A / 20A  
Power Inlet  
(Outdoor Models)  
Wiring Space  
(for hardwire models)  
Figure 1  
Circuit breakers. Each transfer switch circuit has a 1-inch interchangeable circuit breaker that protects the  
branch circuit when the circuit selector switch is in the GEN position. In the LINE position, each branch circuit  
is protected by the breaker in the load center.  
Circuit selector switches. These switches allow you to select either GEN (generator) or LINE (utility) as the  
power source for the branch circuits that have been wired through the transfer switch. The OFF position is  
generally not used, as a switch in the OFF position removes that branch circuit from both utility and generator  
power.  
Handle ties. Handle ties are used for 240-volt circuits or multi-wire branch circuits. They may be  
removed for 120-volt circuits. See page 8 for instructions on removing and adding handle ties.  
Power inlet. (cord-connected / outdoor models only). The power cord from the generator is plugged into this  
inlet. This is supplied separately for indoor models to encourage the use of a remote connection outdoors  
reducing the likelihood of running the generator indoors which is extremely dangerous (see page 8 for  
installation instructions). If an indoor model is installed outdoors, make sure it is protected from the outdoor  
elements.  
Power inlet filler plate. Models without the power inlet have a filler plate covering the hole in the wiring  
compartment cover. Models with a power inlet installed have a filler plate included in the carton. This can  
replace the power inlet for hard-wire installation.  
Wiring Space. All models include wiring space that can be used to hard-wire the unit to a remote power inlet  
box.  
Analog wattmeters  
generator when the generator is supplying power as follows:  
The left meter measures the load on  
The right meter measures the load on  
A, C, and E  
6-circuit  
B, D and F  
6-circuit  
A, C, E, G and I  
B, D, F, H and J  
10-circuit  
10-circuit  
Note: The watt meters will register only if power is being used from the generator  
Page 4  
PRE-INSTALLATION PLANNING OF THE GENERATOR LOAD  
Before you begin installing your Reliance Controls transfer switch system, you need to create a plan for the appliances you choose  
to run during a power outage. To do this, it’s helpful to first know how your generator produces power. If your generator has four-prong  
twist-lock 20 or 30 Amp output receptacles, and is set-up for home stand-by operation, it likely will produce 120/240 Volt power, or power  
similar to your electrical utility. This type of power generation is useful as it: 1) allows common 120 Volt circuits, such as lights or small  
appliances, to be operated, and 2) allows two 120 Volt circuits to be linked together to operate a 240 Volt device, such as a well pump.  
Because of the way in which larger portable generators are designed, they generate power in two equal halves. A generator which  
has output of 5000 continuous running watts, for example, generates power from two 2500 watt “sides”. In setting up a transfer switch  
to get the most power from your generator, it is desirable to “balance the load” between the two phases of your transfer switch. Devices  
which will consume the most of the generator’s wattage should be divided between the two. Load balancing is shown in Figure 1. For  
example, on the 6-circuit transfer switch shown in Figure 1, consider wiring the breaker controlling the refriderator to toggle switch E,  
the furnace breaker to toggle switch D, the sump pump to switch C and the breaker controlling your television to switch F. You may  
want to reserve switches A and B to be linked with a handle tie and wired to a double pole breaker controlling, for example, a 240 volt  
well pump.  
The Residential Wattage Requirements Table below shows sample wattages used by typical household appliances and can help  
you plan the set up of your transfer switch. Use the running watts of your appliances rather than starting watts when dividing them  
between the two halves of the transfer switch. Check your appliances for actual wattage requirements if possible.  
Your Reliance Controls transfer switch also allows you to manage the load on your generator manually by switching appliances  
on and off as you need them, so the capacity of either half of your generator is not exceeded. However, if you prefer not to manage your  
transfer switch loads manually, leave a buffer equal to the largest start-up wattage requirement of all of the appliances you are going to  
run continually when doing your calculation. This buffer, along with the peak wattage of your generator, will allow for the periodic motor  
start-up of any one large appliance, such as your refrigerator. If your transfer switch is equipped with watt meters, you can visually  
monitor the amount of wattage being used by the appliances your generator is powering at any time.  
Examples of load balancing calculations are shown on the worksheets on page 5. Use these to create your own plan.  
10-Circuit  
Phase 1 = A,C,E,G,I  
Phase 2 = B,D,F,H,J  
6-Circuit  
Phase 1 = A,C,E  
Phase 2 = B,D,F  
TYPICAL RESIDENTIAL WATTAGE REQUIREMENTS  
Additional  
Running  
Wattage  
Start-Up  
Wattage  
Furnace  
(875 Watts)  
Appliance  
Sump Pump  
(1,050 Watts)  
Refrigerator  
(800 Watts)  
Furnace (1/3 HP)  
Furnace (1/2 HP)  
Window Air Conditioner  
6000 BTU  
700  
875  
1,400  
2,100  
Well Pump  
(1000 Watts)  
Television  
(200 Watts)  
1,200  
1,700  
750  
1,000  
800  
2,100  
2,900  
1,400  
2,350  
1,300  
2,150  
2,300  
12,000 BTU  
Well Pump (1/3 HP)  
Well Pump (1/2 HP)  
Sump Pump (1/3 HP)  
Sump Pump (1/2 HP)  
Refrigerator  
1,050  
800  
Garage Door Opener (1/4 HP)  
Garage Door Opener (1/3 HP)  
Home Security System  
Lights  
550  
750  
200  
On Bulb  
200  
1,100  
1,400  
0
On Bulb  
Stereo  
0
TV/VCR  
200  
0
Computer  
200  
0
Microwave  
Coffee Maker  
Toaster  
Electric Fan  
Check oven  
1,750  
1,300  
200  
Check Oven  
0
0
0
Clothes Washer  
Clothes Dryer (Gas)  
Dishwasher (Cool Dry)  
Dishwasher (Hot Dry)  
Vacuum Cleaner  
Hair Dryer  
1,150  
700  
700  
2,300  
1,800  
1,400  
1,400  
0
1,450  
1,000  
Check Dryer  
1,200  
800  
Check Dryer  
0
Iron  
Circular Saw  
2,000  
Figure 1  
Page 5  
Load Balancing Example #1  
Circuit Breaker Connections:  
Generator:  
Transfer Switch Model:  
Six (6) 120 Volt Single Pole Circuit Breakers  
5,500 Running Watts, 6,200 Peak Watts  
6-Circuits  
Side One  
Side Two  
Appliance  
Additional  
Start-Up  
Watts  
Appliance  
Running  
Watts  
Additional  
Start-Up  
Watts  
Toggle Main Appliance  
Running  
Watts  
Toggle  
Switch  
Main Appliance  
Hooked Up  
Switch  
Hooked Up  
A
Refrigerator  
Sump Pump  
Indoor Lighting  
800  
800  
300  
2,300  
1,300  
0
Furnace  
700  
600  
500  
1,400  
0
0
B
D
F
TV, VCR, Computer  
C
Security, Lighting  
E
Total Running Watts Side One: 1,900  
Total Running Watts Side Two:  
1,800  
Total Side One and Side Two Running Watts  
Highest Additional Start-Up Wattage of all of the Appliances (Refrigerator)  
Total Watts of Load  
3,700  
2,300  
6,000  
6,200  
Peak Wattage Rating of Your Generator  
You’re OK!  
Load Balancing Example #2  
Circuit Breaker Connections:  
Four (4) 120 Volt Single Pole Circuit Breakers and One (1)  
240 Volt Double-Pole Circuit Breaker (Toggles A & B Together)  
5,500 Running Watts, 6,200 Peak Watts  
6-Circuits  
Generator:  
Transfer Switch Model:  
Side One  
Side Two  
Appliance  
Additional  
Start-Up  
Watts  
Appliance  
Running  
Watts  
Additional  
Start-Up  
Watts  
Toggle  
Switch  
Main Appliance  
Hooked Up  
Running  
Watts  
Toggle  
Switch  
Main Appliance  
Hooked Up  
A
Refrigerator  
800  
600  
500  
2,300  
0
1,175  
Furnace  
700  
800  
500  
1,400  
1,300  
1,175  
B
D
E
TV, VCR, Computer  
Sump Pump  
C
Well Pump  
WellPump  
E
Total Running Watts Side One:  
1,900  
Total Running Watts Side Two:  
2,000  
Total Side One and Side Two Running Watts  
Highest Additional Start-Up Wattage of all of the Appliances (Refrigerator)  
Total Watts of Load  
3,900  
2,300  
6,200  
6,200  
Peak Wattage Rating of Your Generator  
You're OK Again!  
Page 6  
INSTALLATION INSTRUCTIONS  
A. Mounting the Transfer Switch  
Mount on wall  
with anchors  
1. Position the transfer switch so that its bottom center is about  
18 inches from the bottom center of your load center. The  
end of the flexible conduit whip should be lined up with a 3/4"  
knockout hole on the bottom of your load center (Figure 2).  
2. Mark the position of the holes on the four external feet with a  
pencil.  
3. Anchor the transfer switch to the wall with four appropriate  
A
C
E
B
D
F
anchors (with a flange of at least 3/8").  
A
B
C
D
E
F
OFF  
A
OFF  
A
OFF  
A
OFF  
A
OFF  
OFF  
A
SWD  
HACR  
TYPE  
1
P
O
L
E
U
N
I
T
SWD  
HACR  
TYPE  
1
P
O
L
E
U
N
I
T
1
P
O
L
E
U
N
I
T
1
P
O
L
E
U
N
I
T
1
P
O
L
E
U
N
I
T
SWD  
1
POLE UNIT  
HACR ISSUE NO  
ISSUE NO  
RT-664  
ISSUE NO  
RT-664  
SWD  
HACR  
TYPE  
SWD  
HACR  
TYPE  
ISSUE NO  
RT-664  
SWD  
HACR  
TYPE  
ISSUE NO  
RT-664  
ISSUE NO  
RT-664  
TYPE  
R
T
-
6
6
4
TYPE THOL  
COPYRIGHT GE  
TYPE THOL  
COPYRIGHT GE  
TYPE THOL  
COPYRIGHT GE  
T
Y
P
E
T
H
O
L
TYPE THOL  
COPYRIGHT GE  
TYPE THOL  
COPYRIGHT GE  
C
O
P
Y
R
I
G
H
T
G
E
15A  
/
20A  
/
30A  
15A  
/
20A  
NOTE: Do not attempt to bend the flexible  
conduit whip beyond its structural capabilities.  
Figure 2  
B. Connecting the Flexible Conduit Whip to  
Your Load Center  
approx. 18”  
1. Set up battery-powered lighting to clearly illuminate  
your work area.  
2. Turn off the main utility breaker (Figure 3).  
Even with the main power  
DANGER  
switch turned off, the wires  
on the utility side of the main  
breaker are still live and  
contact with them can cause  
serious injury or death.  
3. Remove the cover of your load center. Keep in mind that the  
wires on the utility side of the main breaker are still live and if  
contacted could cause serious injury or death. If available,  
use a non-contact voltage detector to insure that the power is  
off on the non-utility side of the main breaker.  
4. Remove the appropriate knockout hole in the bottom of your  
load center with a screwdriver and hammer. (See step A-1  
above.)  
5. Insert all of the wires extending from the end of the flexible  
conduit whip through the knockout hole. Snap the conduit  
connector attached to the whip into the knockout hole.  
Figure 3  
Page 7  
C. Connecting the Neutral and Ground Wire  
1. Find the white wire (Neutral) and the green wire (ground)  
among the wires from the transfer switch that you have  
inserted into the load center.  
2. Strip approximately 5/8” from the end of the white wire.  
Locate the neutral bar and partially unscrew a terminal  
screw on the bar. Insert the stripped end of the wire into  
the side of the bar under the screw and retighten the screw.  
(Figure 4)  
Figure 4  
3. Locate the ground bar. (It should be labeled.) Connect the  
green wire to the ground bar in the same way as in step  
#2. In service entrance load centers, the ground bar and  
neutral bar are frequently the same; if so, the ground and  
neutral wires can be connected to either.  
WARNING  
When Installing 120 Volt Circuits  
The transfer switch circuits with 20 Amp breakers must be connected only to  
branch circuits with 20 Amp breakers in the load center. Do not connect transfer  
switch circuits to any branch circuits greater than 20 Amps, except circuits A & B  
which may be connected to 30 Amp circuits.  
NOTE: The transfer switch circuits with 15 Amp breakers can be connected to  
branch circuits with either 15 or 20 Amp breakers in the load center.  
D. Installing 120 Volt Circuits  
This section provides instructions for connecting the wires  
from your transfer switch to the circuit breakers in your load  
center which control your appliances.  
You should refer to the load planning you did previously to  
insure that side #1 and side #2 of the transfer switch are  
balanced. Wire the circuits, starting with toggle Switch C.  
If a selected circuit is part of a multi-wire branch circuit, insure the  
other branch circuit that shares the neutral is also connected to the  
transfer switch. The two circuits must be connected to opposing legs  
(phases) of the generator power and a handle tie must be installed on  
the switch handles so that both legs are transferred at the same time.  
Failure to properly install a multi-wire branch  
circuit could result in overloading the neutral wire.  
WARNING  
If you will not be installing any 240 Volt or multi-wire circuits,  
remove the factory-installed handle tie(s) on the unit (See  
Page 8)  
Lets assume that, according to your load balancing plan, you  
will use Switch C to supply power to the Furnace (Figure 5)  
1. Turn off the refrigerator circuit breaker. Disconnect the wire  
that is attached to the circuit breaker.  
2. Find the black and red wires from the transfer switch  
marked C.  
3. Cut the red wire at a length convenient for it to reach to the  
refrigerator circuit breaker. Strip 5/8” from the end of the  
wire. Connect the red wire to the refrigerator circuit breaker  
and retighten the screw on the breaker.  
4. Cut the black wire from the transfer switch to a length  
This completes the connection of Switch C for your refrigerator.  
Label Switch A as “REFRIGERATOR” on the identification pad on  
top of the transfer switch.  
convenient for attaching it to the wire you removed from the  
refrigerator circuit breaker in #1. Strip 5/8” from the end of  
the wire.  
5. Insert both wires—the one removed from the refrigerator  
6. Repeat Steps 1 through 5 for each of the remaining switches  
circuit breaker and the black wire for Switch A—into a  
yellow wire connecter. Tighten the connection and push  
the connected wires back into the wiring compartment of  
the load center.  
on your transfer switch according to your load balancing plan,  
taking into account the following:  
See the next section for installing 240-Volt Circuits  
Remember to “Balance the Load”, dividing appliances  
with higher wattages between each phase of the  
transfer switch.  
Page 8  
E. Installing 240 Volt Circuits  
When Installing 240 Volt Circuits  
WARNING  
Reliance Controls 6-Circuit Transfer switch (In Kit) is shipped from  
the factory with one installed handle tie on two adjacent circuits.  
The transfer switch circuits with 20 Amp breakers must be con-  
nected only to branch circuits with 20 Amp breakers in the load  
center. Do not connect transfer switch circuits to any branch cir-  
cuits greater than 20 Amps.  
NOTE: The transfer switch circuits with 15 Amp breakers can be  
connected to branch circuits with either 15 or 20 Amp breakers  
in the load center.  
Let’s assume that, according to your set-up plan, Switches A & B  
on the 6-Circuit transfer switch will be used to supply power to your  
well pump, a 240 Volt appliance. (Figure 6)  
1. Find the two red and the two black wires marked A & B.  
2. Turn off the double pole breaker for the well pump in the load  
center.  
3. Disconnect the two installed wires on the double pole breaker.  
4. Cut the two red wires from Switches A & B at a length  
convenient for them to reach to the double pole breaker. Strip  
5/8” from the end of each red wire. Connect both red wires to  
the double pole circuit breaker in place of the wires you just  
removed from that breaker. It doesn’t matter in what order.  
5. Cut the black wires marked A & B to a length convenient to  
reach to the wires you removed from the double pole breaker in  
#3. Strip 5/8” from the end of each wire.  
6. Connect one of the wires you removed from the double pole  
breaker in #3 with one of the black wires (either A & B) with a  
yellow wire connector. Similarly, connect the other wire you  
removed with the remaining black wire with a wire connector.  
F. Completing the Installation of the  
Transfer Switch  
When you have wired all of the circuits from the transfer switch into  
your load center and have properly installed the green and white  
wires to ground the unit, you have finished the installation.  
Just a few more steps to wrap things up.  
1. Replace the cover of the load center.  
2. If you have not already done so, fill in the chart on the top of the  
transfer switch to identify your emergency circuits and the  
toggle switches they correspond to.  
3. Do not turn the main and individual circuit breakers in your load  
center back on until you have installed all other transfer switch  
components in Sections G, H and I which follow.  
Removing handle tie(s). If there are no 240-volt or multi-wire circuits in the transfer switch installation, handle-ties on the  
switches are not needed. To remove a handle tie, place the handle-tied switches in a position opposite of the other  
switches. Rotate the cylindrical spacer between the switches upward repeatedly until the threaded shaft is exposed on the  
right switch. Grab the threaded shaft and continue to rotate the spacer upward until the spacer is free, being carefully not  
to drop the spacer when it becomes free. Remove the shaft from the switch. If the shaft is not exposed after several  
revolution of the spacer, insert a small slot screwdriver in the hole in the right switch and continue rotating the spacer  
upward while the screw driver prevents the shaft from rotating.  
Adding handle ties. If additional ties are needed to accommodate additional 240-volt or multi-wire circuits, they can be  
added to adjacent pairs of switches.  
Page 9  
G. Installing and Wiring the Outdoor Power  
Inlet Box (included in kit)  
H. Wiring the Power Inlet Box to the  
Transfer Switch  
Since you will be operating your generator outdoors in a location  
remote from your electrical load center, it is recommended that you  
install an outdoor power inlet box on an exterior wall of your house.  
Because it is hardwired directly to your transfer switch, the power  
inlet box gives you the flexibility to locate your generator just about  
anywhere.  
All Reliance Controls transfer switches are designed to allow  
hardwiring between the outdoor power inlet box and the transfer  
switch’s internal wiring compartment. This installation is the most  
efficient, eliminates the need for longer generator power cords  
running through your home to your transfer switch and eliminates  
the need for an additional junction box.  
Reliance Controls Power Inlet Boxes are UL listed and can be used  
with the following generator and building wire sizes:  
To hardwire your transfer switch to the building wire from the power  
inlet box (Figure 9):  
Generator Size  
Up to 7500 Watts  
Power Inlet Box  
PB30 (In kit)  
Building Wire (100' or less)  
10 gauge  
1. Remove the front bottom wiring compartment cover plate of the  
transfer switch by unscrewing the two screws securing the plate  
and then pulling out on the bottom of the plate. Once the plate  
is removed, the wire leads necessary to connect the incoming  
building wire can be easily accessed.  
To install a Reliance Power Inlet Box (Figure 8):  
1. Loosen the screw at the bottom front of the box and lift off the  
cover.  
2. Punch out the knockout hole on the side of the transfer switch  
wiring compartment.  
2. Choose which knockout hole on the box is most convenient to  
where you will be running the building wire into your house.  
Remove the knockout with a screwdriver and hammer.  
3. Using approved wiring methods, place a cable or conduit  
connector (check electrical codes) in the knockout hole, and pull  
enough building wire into the inside of the wiring compartment  
to provide sufficient working length. Tighten the connector.  
3. Plan to run enough building wire (check electrical codes for the  
need for conduit) to reach your transfer switch, allowing extra  
length for ease of wiring at the transfer switch end.  
4. Complete the wiring by pushing the wires back into the unit,  
4. Using approved wiring methods, place a cable or conduit  
putting the wiring compartment cover back in place and  
replacing the screws that hold the cover plate.  
connector (check codes) in the inlet box knockout hole and run  
enough building wire into the box to allow easy wiring. Tighten  
the connector.  
5. Mount the back plate of the power inlet box where it will be  
convenient. Use the three holes in the plate.  
6. Strip 5/8” from each building wire lead. Loosen the green  
grounding screw on the inside of the box and insert the stripped  
end of the building wire ground under one side of the grounding  
screw and retighten.  
7. On the bottom of the inlet plug, insert the white wire into the  
hole marked “W” and tighten the screw on the side of the plug.  
Do the same with the red wire into the hole marked “X” and the  
black wire into the hole marked “Y”.  
8. Replace the cover of the power inlet box and tighten  
the screw.  
Figure 8  
Figure 9  
Page 10  
I. Installing an Optional Power Inlet on your  
Transfer Switch (not necessary in kit  
installation)  
J. Finishing Up  
According to your individual installation requirements, after you  
have completed all the steps necessary in Sections G through I,  
complete the system installation by doing the following:  
Although such an installation is not necessary with the Power  
Transfer Kit, your Reliance Controls transfer switch is unique in that  
it allows the installation of an accessory power inlet which allows  
you to plug your generator directly into your transfer switch using a  
longer power cord. This may be convenient under certain  
circumstances and is explained here.  
1. Turn on all of the circuit breakers in your load center.  
2. Turn on the main breaker.  
3. Position all switches on the transfer switch to the LINE position.  
4. IMPORTANT! In order to insure that all wiring connections  
have been properly completed and that your system functions  
properly under generator power, it is important to test each  
circuit before turning on any devices or appliances connected to  
that circuit. Correct voltage output can and should be checked  
with a voltage meter at any convenient electrical outlet on each  
branch circuit that is wired through the transfer switch. This  
should be done under generator power with the appropriate  
circuit breaker switch in the “GEN” position.  
To install a power inlet on your transfer switch (Figures 10A-10C):  
1. Purchase Reliance Flanged Power Inlet model number L1420F  
for a 20 Amp inlet to accommodate 20 Amp power cords and  
small generators up to 5000 watts, or L1430F for a 30 Amp inlet  
to accommodate 30 Amp power cords and generators up to  
7500 watts. If you choose to, you may also use the 30 Amp  
power Inlet from the Reliance PB30 Power Inlet Box (supplied  
with the kit).  
OPERATING INSTRUCTIONS  
Do not operate your generator in an  
enclosed area.  
WARNING  
2. Remove the plastic Reliance logo panel located on the right side  
of the wiring compartment cover to reveal the hole for the power  
inlet. One screw holds this plate on the bottom.  
You want your generator to be ready when you need it – so, it is  
important to perform the following steps once a month:  
3. Remove the entire wiring compartment plate by removing the  
Start and run generator power through your transfer switch circuits.  
Keep your fuel tank filled with fresh fuel.  
other bottom screw and pulling out on the bottom of the plate.  
4. If your transfer switch has wattmeters, make sure that the black  
With your Reliance Controls transfer switch installed, it is not necessary  
to turn off any of your load center breakers when starting your generator,  
even when utility power is fully functional. This is because the double  
throw break-before-make action of the transfer switch prevents feeding  
generator power to the utility and, conversely, prevents feeding utility  
power back to your generator.  
wire from the transfer switch is threaded through the transformer  
ring connected to the left wattmeter, and the red wire from the  
transfer switch is threaded through the transformer ring  
connected to the right wattmeter.  
5. Insert the power inlet into the hole in the wiring compartment  
plate and fasten it with the two smaller screws included with the  
inlet. Do not refasten the longer bottom screw at this time.  
A.Transferring from Utility Power to Generator  
Power in an Emergency  
6. On the underside of the inlet, insert the white wire into the hole  
marked “W” and tighten the screw on the side of the plug. Do  
the same with the red wire into the hole marked “X”, the black  
wire into the hole marked “Y” and the green wire into the hole  
marked “G”.  
1. Make sure that all switches on the Reliance Controls transfer switch  
are in the LINE position.  
2. Plug the male end of your power cord into the generator. NOTE: If  
your generator has only 20 Amp 125/250 V output receptacles,  
replace the 30 Amp male end of the power cord with the 20 Amp  
male plug end supplied in the kit. See installation instructions with the  
20 Amp plug.  
7. Replace the wiring compartment panel with the two screws you  
removed in steps #2 and #3, inserting the longer screw through  
the bottom of the flanged inlet plug.  
3. Plug the female end of your power cord into either the outdoor power  
inlet box or directly into the transfer switch, depending on how you  
installed your system.  
4. Start your generator outdoors and let it warm to a point where it is  
running evenly.  
5. Turn the toggle switches on your Reliance transfer switch to the GEN  
position one at a time.  
B
A
If you have a Reliance transfer switch with wattmeters, you can monitor  
the wattage load on your generator.  
B.Transferring back to Utility Power When the  
Power Is Restored  
Figure 10  
1. Move all switches on the Reliance Controls transfer switch back to  
the LINE position.  
2. Turn off your generator.  
3. Unplug your power cord and store it.  
C
Page 11  
TRANSFER SWITCH PRODUCT SPECIFICATIONS  
PARTS LIST FOR ALL PRO/TRAN 2 TRANSFER SWITCH KITS  
206AK  
306CRK  
A306C (6-Circuit Transfer Switch)  
PB30 (30A Power Inlet Box)  
A306C (6-Circuit Transfer Switch)  
PC2025 (20A 25-Foot Power Cord)  
PC3010 (30A 10-Foot Power Cord)  
206CGK  
A306C (6-Circuit Transfer Switch)  
PB20 (20A Power Inlet Box)  
PC2010 (20A 10-Foot Power Cord)  
310CRK  
A310C (10-Circuit Transfer Switch)  
PB30 (30A Power Inlet Box)  
PC3010 (30A 10-Foot Power Cord)  
306AK  
A306C (6-Circuit Transfer Switch)  
PC3025 (30A 25-Foot Power Cord)  
308CHK  
A308C (8-Circuit Transfer Switch)  
PB30 (30A Power Inlet Box)  
PC3025 (30A 25-Foot Power Cord)  
306CDK  
A306C (6-Circuit Transfer Switch)  
PB30 (30A Power Inlet Box)  
PC3020 (30A 20-Foot Power Cord)  
310AK  
A310C (10-Circuit Transfer Switch)  
PC3025 (30A 25-Foot Power Cord)  
L1430F (30A Flanged Inlet)  
306CDKN  
A306C (6-Circuit Transfer Switch)  
PBN30 (30A Plastic Power Inlet Box)  
PC3020 (30A 20-Foot Power)  
310CDK  
A310C (10-Circuit Transfer Switch)  
PB30 (30A Power Inlet Box)  
PC3020 (30A 20-Foot Power Cord)  
306CGK  
A306C (6-Circuit Transfer Switch)  
PB30 (30A Power Inlet Box)  
PC3010 (30A 10-Foot Power Cord)  
310CDKN  
A310C (10-Circuit Transfer Switch)  
PBN30 (30A Plastic Power Inlet Box)  
PC3020 (30A 20-Foot Power Cord)  
306CHK  
A306C (6-Circuit Transfer Switch)  
PBN30 (30A Plastic Power Inlet Box)  
PC3025 (30A 25-Foot Power Cord)  
L1420P (20A Male Plug)  
Additional products are available through your local distributor.  
Call Reliance Controls at (800) 634-6155 to locate the distributor nearest you.  
Five Year Limited Warranty  
Reliance Controls Corporation (“Reliance”) warrants this Protran® Manual Transfer Switch (“Switch”) to be  
free from failure to perform as intended due to defects in materials and workmanship for a period of five (5) years from  
date of manufacture, provided the Switch has been installed and used in accordance with manufacturer’s  
instructions and has not been subjected to misuse, alteration, accident, or repair not performed by Reliance. If,  
within such warranty period, the original purchaser gives written notice to Reliance at the address shown below and  
the Switch has been proven to Reliance’s reasonable satisfaction to be defective, then Reliance at its sole option  
shall either: (i) supply a replacement component(s) for the defective component(s) or (ii) repair or replace the Switch.  
Reliance’s obligation is strictly limited to said repair or replacement of the Switch, and Reliance shall not be liable  
for any incidental, special or consequential damages. The cost of labor to remove or install a replacement  
component or Switch is not included in this warranty. The foregoing warranty is exclusive and in lieu of all  
other expressed or implied warranties, if any, including but not limited to implied warranties of merchantability and  
fitness for a particular purpose. Reliance strongly recommends that the purchaser seek the advice of a licensed  
electrician to determine the suitability of this product, and for its proper installation in accordance with all  
applicable state and local building codes. This warranty gives you specific legal rights, and you may have other rights  
which vary from state to state.  
Reliance Controls Corporation 2001  
Young Court  
Racine, WI 53404  
Warranty registration can be completed online at www.reliancecontrols.com  
To do so simply mouse over the "Customer Support" tab, then select "Warranty Details and Registration".  
Reliance Controls Customer Service: (800) 439-5745  

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