Installation manual

FuelMaster

Installation Manual



valves and one SUBMERSIBLE STARTER. If the dispenser had two SUBMERSIBLE

STARTERs, there would be individual wires from the DCRA to each starter. A wire would be run

from 1B to hose 1 SUBMERSIBLE STARTER, and another wire from 2B to hose 2

SUBMERSIBLE STARTER.

This application may also be used to control a dual hose dispenser with two suction pump

motors (no internal solenoid valves) and a solenoid controlled anti-siphon valve which must be

activated when either motor is turned on. In Figure 4-11, this would be illustrated by substituting

suction pump motors where the solenoid valves are, and a solenoid controlled anti-siphon valve

where the SUBMERSIBLE STARTER is shown.

Perform the following:

1) Inside the dispenser junction box, locate the RESET COMPLETE wire feeding the solenoid

valve for hose 1, and the SUBMERSIBLE STARTER. The wire to the solenoid valve is most

likely an orange wire. The wire to the starter is most likely a red wire. These wires will be

wire-nutted to an AC input to the solenoid valve and starter, respectively. There should be

power present on both wires when the dispenser pump handle is turned on, and power

should be removed when the pump handle is turned off.

2) Remove dispenser power at the circuit breaker panel.

3) Run three wires from the FMU to the dispenser junction box.

4) In the FMU, connect one wire to LN1, the second to LD1, and the third to 1B on the terminal

strip on the DCRA.

5) Run a jumper wire from LD1 to 1A on the terminal strip on the DCRA.

6) In the dispenser, disconnect the RESET COMPLETE wirew found in step 1) from the

solenoid valve and starter.

7) Connect the wire running from LN1 to the orange RESET COMPLETE wire.

8) Connect the wire running from LD1 to the VALVE HOT wire.

9) Connect the wire running from 1B to the L1 contact of the SUBMERSIBLE STARTER.

10) Repeat steps 1 through 9, as required, for all additional hoses. For the wiring diagram

shown in Figure 4-11, with one starter, run a jumper wire from 1B to 2B. This will provide

for an output to the starter when an input is received on 2A.

g. Two-Stage Valve Control. See Figure 4-12. Two-stage valve control is a control method for

separately controlling the fast and slow stages of a two-stage valve. Two-stage valve control is

used 1) to ensure preset quantities or costs are not exceeded, and 2) to reduce shutdown

pressure at the end of the transaction in systems with high flow rates.

Control is accomplished by turning on both the fast and slow valves at the same time, then

turning off the fast valve and ending the transaction with the slow valve. This significantly

reduces the flow rate and allows for the transaction to end without overrunning the preset

amount, and without a high pressure shock to the mechanical pumping components.

258