Xylem IM229 R06 Aquavar SOLO User Manual

9

SWITCH INPUT - for connection of an external switch

or control device used to start and stop the pump. Devices

such as an over-pressure switch, level (float) switch or any

other non-powered switch (time delay, flow, etc.) can be

connected to this input.
The Switch Input terminals have a Jumper Wire installed at

the factory (do not confuse the jumper wire on the Switch

Input with the Transducer Jumper next to the Transducer

Connection Terminals, see Transducer Jumper below).

The Switch Input terminals must be connected (closed) for

the pump to operate. If they are not connected the Switch

Input Status Light (visible inside the enclosure) will be Solid

RED and the Controller Status Light will be Solid GREEN

indicating that the pump-motor is off. Remove the Jumper

Wire when connecting a float or over-pressure switch.

CONSTANT PRESSURE SYSTEM - with an Over-Pressure

Switch:

• Connect two wires from the Load and Lead connections

of a pressure switch to provide over-pressure protection.

In the event the pressure transducer fails, this will prevent

high pressure from damaging piping.

• The over-pressure switch cut-out setting must be a mini-

mum of 10 PSI higher than the system set point pressure.

• Set the over-pressure switch cut-out 5 - 10 PSI lower than

the pressure relief valve (PRV) pop-off pressure. This will

turn the system off before the pressure relief valve opens.

• Ex. On a system with a 50 PSI set point, set the over-pres-

sure switch cut-out at 60 PSI with a typical PRV setting of

75 PSI. In the event the transducer fails at high pressure

the switch will turn the system off before the PRV pops.

• Typical UIB Settings For This Type System:

• For 3AS controllers, 60 or 80 Hertz (depends on pump/

motor)

• For 1AS controllers, Pump Stop – High (switch to low if

control cycles on/off)

• Dry Well - High (switch to low if it trips while pumping

water)

• Low Pressure Cut-Off - On
• Pressure Drop - 5 PSI
• Transducer - Connected
• Transducer Jumper - Bottom Position (Factory Setting)
• Pressure Switch Connected to Switch Input

FLOAT SWITCH OPERATION - Filling a Pond or Tank

(Non-Constant Pressure System):

• Connect two wires from a float (level) switch to fill or

empty a tank, pond, etc. The pump will run when the

level switch contacts close. The maximum switch wire

length tested is 200’. The pump will run at maximum

speed when the float switch is closed.

• Typical UIB Settings For This Type System:

• 60 or 80 Hertz (depends on pump/motor)
• Pump Stop – High
• Dry Well - High (switch to low if it trips while pumping

water)

• Low Pressure Cut-Off - Off
• Pressure Drop - 5 or 20 PSI
• Transducer - Not Connected
• Transducer Jumper - Top Position (Installer Must Move)
• Float Switch Connected to Switch Input

Checking for leaks

Constant pressure systems utilizing small tanks run

whenever there is demand. Even small leaks can prevent

a pump from turning off. To check for leaks, close all

valves, turn power off to the controller, and note the

pressure displayed on the pressure gauge. Tap the gauge

to ensure you get an accurate reading.
Wait ten minutes and check the gauge again tapping to

prevent the needle from sticking. If the pressure dropped

then the system may have a leak*.
*If a system is pressurized after having been un-

pressurized, it will continue to expand for several

minutes. This expansion causes the pressure to drop

and can be misinterpreted as a leak. Allow a system to

stabilize for 10 minutes under pressure before

performing the aforementioned leak test.
A spring check valve placed on the pump side of the

tank and transducer will often improve the ability of the

system to shut down.

Checking Rotation – 3AS _ _ Models Only

This step only applies to controllers whose

model no.’s begin with 3AS. Do not do this

test with 1AS controllers.
Single phase motors having Red, Black & Yellow wires

must always be connected to the RED, BLK and YEL

terminals only. Failure to do so will damage the motor.
For three phase motors, it is possible for the motor to

rotate in the wrong direction. If running backwards,

the pump will work but it will have greatly reduced

performance.
To check rotation, perform the following tests:

Connect an amp probe to one of the power supply

wires. Run the system with several valves open and note

the pressure and amps. Leave the valves open, turn the

power off.

Electrocution Hazard. After turning off

power, wait 5 minutes for hazardous

voltages to discharge before proceeding to swap wires.
Swap red and black motor leads where they connect to

the controller terminal block (NOT L1 and L2).
Turn power back on and let the system pressure

stabilize. Again note the pressure and amps. Whichever

wire position provided the most pressure/flow is the

correct wire position. If there was little difference in the

pressure/flow, then whichever had the lower amp reading

is the correct wire position.
Turn the power off, wait 5 minutes and swap the wires

back if necessary.
Replace the plastic protective covers on the terminal

block.

4. SWITCH INPUT OPTIONS
Optional Switch Input and Switch Input

Status Light

Electrocution Hazard. Opening SWITCH

INPUT does not de-energize controller

or any of its outputs. Always treat wire terminals of this

controller as energized until power supply to the controller

has been removed for 5 minutes.

DANGER

DANGER

4. SWITCH INPUT OPTIONS

WARNING