KELCO F60 Mk2 Installation & Programming Manual

KELCO F60 Mk2

DIGITAL PUMP CONTROLLER

INSTALLATION & PROGRAMMING

MANUAL

KELCO Engineering Pty Ltd

Sydney Australia
www.kelco.com.au

Version 010319

2

IMPORTANT: READ THIS FIRST

DO NOT EXPOSE THE F60 Mk2 TO VIBRATION. INSTALL ONLY IN

PIPEWORK THAT DOES NOT VIBRATE. Vibration will damage the

electronics within the F60 and will void your product warranty.

This F60 pump controller has been fully tested and calibrated. It is set to
mode 1 and it has its start-up and run-on timers both set to 5 seconds. All
other functions are turned off. On start up the F60 will run the pump using
its start-up timer . If it fi nds fl ow in the pipe system it will continue to run the
pump. If fl ow stops the pump will continue to run for 5 seconds, held on by
the F60’s run-on timer. If fl ow fails to return, the pump will be shut down
after the run-on period. Pressing and releasing the (R) button on the F60
will repeat this basic process.

THE BUTTONS

The F60 is controlled and confi gured using 4 onboard buttons.

(R) Reset button. Stops the pump(s) and restarts the F60 when released.
(˄) Up arrow button. For increasing program settings.
(˅) Down arrow button. For decreasing program settings.
(P) Programming button. For stepping through the menu and entering

settings into memory.

THE LIGHTS

The F60 includes 4 multicolour lights to indicate activity.
Flow: This light is GREEN when the F60 detects fl ow

and RED when no
fl ow is detected.
Pump: This light is GREEN when a pump is running and RED when the
pump is stopped.

T

imer: This light may be GREEN or RED when a timer or special function

is running.
Remote:

This light is BLUE when remote input No. 1 is closed and off

when the remote is open.

The light is RED when remote input No. 2 is

closed and of

f when the remote is open. This light is PURPLE when both

remote inputs 1 & 2 are closed.

3

LCD SCREEN BACKLIGHT

The LCD backlight can be turned on or off.
To turn the light off press and hold down the (˅) button. Press and release
the (R) button. Release the (˅) button. Repeat to turn the light on. The
light remembers the state it was last left in if power is turned off. The light
can be left permanently on or off as required.

TEMPERATURE

The F60 monitors its internal temperature when running. Pressing the
(˅) button while the controller is powered up displays the current internal
temperature of the F60.

PRESS (and release) THE (P) BUTTON

When the F60 is powered up, pressing the (P) button, holding it down
for 1 second and releasing it takes you to the top of the menu. Pressing
and releasing the (P) button loads whatever the screen is displaying into
the F60’s memory. The memory is non-volatile and settings are retained
when power is off. You can exit the menu at any time by pressing and
releasing the (R) button. Any settings you have made up to that point will
be retained. There is no need to step all the way through the menu when
making a change to a setting.

INSTALLING THE F60

1) Do not install the F60 in a fully exposed outdoor location. The F60
is weatherproof, however, to ensure a long reliable life from it we
recommend it be protected from direct exposure to the sun and rain.
A skull cap is provided with the F60 and we recommend it be used to
protect the F60 when direct observation of the LCD screen is not
required.

2) Do not expose the F60 to freezing. If the pipework in which the F60
is installed freezes, the pressure sensor in the controller may fail. If
the F60 is to be used in areas where low temperatures will be
encountered, always lag the pipework for several metres either side
of the F60. Also lag the base of the F60 to prevent the unit and any
adjacent pipework from freezing.

3) Do not use this controller in hot water applications. The F60 is not
designed to be used in water hotter than 60ºC.

4

4) Never expose the F60 to static or dynamic pressures greater than
20 Bars, 290 psi.

5) Do not install the F60 in a section of pipe that is subject to vibration.
Vibration will cause premature failure of the electronic components
within the F60.

6) Never install the F60 in the suction pipe of the pump or in any
location where it may be subject to partial vacuum conditions.

5

LOCATION

The F60 should be installed in a straight section of pipe preferably with
5 diameters of straight pipe either side of the paddle. The F60 can be
installed in a suitable pipe socket, tapping saddle or pipe tee. The F60
should be installed in the discharge pipework of the pumping system,
either before or after the system’s air cell. If the system does include an
air cell a decision must be made as to which side of the air cell to locate
the F60. The fundamental way the system operates will depend on this
decision. The F60 should not be installed in the suction pipe of a pump as
it requires positive pressure to operate properly. The F60 can be installed
in either horizontal or vertical pipe. If it is installed in vertical pipe the fl ow
should preferably be in an upward direction. Do not install the F60 on the
underside of horizontal pipework.

WARNING: Never install the F60 in the suction pipe of the pump or

in any location where it may be subject to partial vacuum conditions.

6

Controller

Discharge

Controller installed before the air cell

BEFORE THE AIR CELL

If the F60 is installed before the air cell in the system it will only start the
pump on pressure since the initial fl ow will be supplied from the air cell.
The only change in state the controller will see will be the falling pressure.
Choose this arrangement if you want to keep pump starts to a minimum
and you are prepared to accept the delay in starting associated with the
slow pressure fall from the air cell.

7

AFTER THE AIR CELL

If you install the F60 in the pipework after the air cell it will start the pump
each time fl ow pushes its paddle forward or each time pressure falls to
whatever pressure you have set the controller to start at. Choose this
arrangement if you want the system to deliver a steady pressure and to
start each time fl ow is sensed.

Discharge

Controller

Controller installed after the air cell

8

INSTALLATION

The F60 pump controller is supplied as two separate assemblies, the
paddle assembly and the electrical housing. The paddle assembly should

be installed in the pipework fi rst.

9

10

TRIMMING THE PADDLE

The paddle of the F60 can be cut down to suit the specifi c pipe size and
intended application. Cut the paddle using a hacksaw or tin snips so it
clears the sides of the pipe socket and protrudes approximately half to two
thirds of the way across the pipe when the controller is screwed into the
pipework. If the fl ow rate will only ever be fairly low, the paddle should be
cut longer, perhaps until it only clears the bottom of the pipe by 3 to 5mm.
If you are unsure as to what length the paddle should be, a paddle trimming
calculator is available at.

http://www.kelco.com.au/paddle-trimming-calculator-2

If you know what the expected fl ow rate is the calculator allows you to enter
your pipe diameter and paddle dimensions. It will then determine if the
selected paddle dimensions are adequate for the application. Spare
paddles to suit the F60 are available from Kelco or from your distributor.

To fi t the paddle assembly into the pipework, apply Tefl on tape or thread
sealing compound to the thread and use a suitable spanner and the
spanner fl ats provided on the paddle assembly (directly above the process
connection thread). Under no circumstances should the electrical housing
be twisted or used to screw the paddle assembly into the pipework, or to
align the controller with the axis of the pipework. To do so will irreparably
damage the controller and void its warranty. When correctly installed there
should be a minimum 4mm gap between the top of the pipe socket and the
top of the thread on the F60. Never apply water pressure to the F60 unless
the electrical head is fi tted and the M4 locking screw is in place and fully
tightened. The F60 can be installed in either vertical or horizontal pipe.
When installed in vertical pipework fl ow should preferably be in an upward
direction past the controller’s paddle. The F60 has a 1” BSP process
connection. A matching female threaded socket, pipe saddle or pipe tee
must be provided to fi t the controller into pipework.

ATTACHING THE ELECTRICAL HOUSING

Once the paddle assembly has been installed, fi t the electrical housing
onto the spigot on top of the paddle assembly. Take care that the sealing
O-ring is on the top stem of the paddle assembly is in location and in good

11

order. There is a fl at keying face on the cylindrical body of the paddle
assembly that keys the electrical housing onto the paddle assembly and
aligns it correctly . It is critical that the keying fl at is on the downstream side
and at 90 degrees to the axis of the pipework. To secure the electrical
housing onto the paddle assembly, an Allen head cap screw is supplied.
The controller must be square to the axis of the pipework with the direction
of fl ow arrow pointing in the direction of fl ow.

With the electrical housing located on the spigot and in position, press
down with the fl at of your hand on the top face of the electrical enclosure.
While pressing down, screw the 4mm Allen screw fully through the housing
using the 3mm Allen Key (supplied). Tighten the screw and then release
your hand from the top of the housing.

DETACHING THE ELECTRICAL HOUSING

WARNING: Always switch off the power and fully de-pressurise the

pipe system before attempting to remove the electrical housing.

To allow easy access to the controller ’s paddle, the electrical housing of
the F60 can be detached from the paddle assembly

. Removing the electrical
housing allows access to the paddle without the need to disconnect wiring.
To remove the electrical assembly undo and completely remove the M4
Allen head locking screw. Once the locking screw is removed, lift the
electrical housing straight off, do not twist it when doing this. Once the
electrical housing has been removed, the paddle assembly can be
unscrewed from the pipework using the spanner fl ats on the body of the
paddle housing. Simply reverse this procedure to refi t the electrical housing
to the controller, taking care to ensure the O-ring on the top of the paddle
assembly is in place and is clean and in good condition.

SENSITIVITY ADJUSTMENT

Under the end of the electrical housing on the F60 is a red hexagonal dust
cap. If you remove this dust cap you gain access to an adjustment screw
that allows the paddle preload to be reduced. As supplied the sensitivity
adjustment screw is wound fully in. In this position, the paddle is at its least
sensitive. In this position, it takes a substantial force from the moving
water to move the paddle. If you wind the sensitivity adjustment screw

12

anti-clockwise (outward) the force against the paddle that resists fl ow will
be reduced. The paddle will become increasingly more sensitive and will
respond to progressively lower fl ows the further out you wind the adjusting
screw . The total adjustment range is 10 turns of the screw. If you wind the
adjustment screw out beyond 10 turns there will not be enough residual
force to return the paddle to the off position when fl ow stops.

The range of sensitivity adjustment will also be affected by the orientation
of the controller . In horizontal pipework with the F60 mounted vertically the
useable range of adjustment is approximately 8 turns. In vertical pipework
with the F60 installed horizontally the full 10 turn range can be utilised.

DUAL PUMP CONTROL Mode 5

The F60 is capable of controlling 2 pumps simultaneously. The pumps can
be of any required size and can be confi gured as a duty and standby set or
as a dual alternating set. The starting and stopping pressures for both
pumps can be set independently of each other in any required confi guration
within the overall pressure limits of the F60. The F60 detects fl ow at one
location in the pipework. This will normally dictate the location of the F60
in the overall system. For example, when used alone the F60 would
normally be mounted in the systems common discharge manifold. When
set up this way the F60 will not offer loss of fl ow protection to the individual
pumps, only to the overall system. A far better arrangement is to monitor

fl ow from each pump independently. To give each pump individual loss of
fl ow protection the F60 should be installed in the discharge pipe of one

pump and a basic fl ow switch installed in the discharge pipe of the second
pump.

Dual fl ow sensing can then be implemented by connecting the remote
mounted fl ow switch into the remote input terminal No1 of the F60. When
confi gured this way, The F60 can monitor fl ow at the two locations
simultaneously . Loss of fl ow from either or both pumps will shut the pumps
down if fl ow is lost.

13

TYPICAL DUAL PUMP SET

A typical dual pump set is depicted in the accompanying sketch. The F60
and the F21 paddle fl ow switch are installed in the discharge pipes from
the pumps prior to their entry into the common discharge manifold.

The remote fl ow switch can be a paddle switch, as illustrated, or an in line
fl ow switch. It must have normally open voltage free contacts.

14

All electrical work associated with the F60 must be
carried out by qualifi ed electrical personnel and all
electrical work must conform to AS/NZ standards and
to local wiring rules.

WARNING

ELECTRICAL INSTALLATION

INTRODUCTION

When used with its HD terminal link in place, the F60 can directly control
single-phase pump motors to 2.4kW via Relay 1. No interposing contactor
is required for such applications. The F60 can also be used to control 3
phase pump motors of any size via an appropriate interposing contactor.

WARNING: The contactor control circuit must never exceed 240V

AC.
Never connect the F60 and contactor coil directly across 2 phases of
the supply.

The F60 requires a stable 220V to 240V AC 50 supply when operated from
the mains. It can also be operated from an 18 to 24V

AC or DC supply by
utilising the low voltage active terminal FELV and neutral terminal N (see
the included wiring diagrams). When operated from a low voltage DC
supply the terminals FELV and neutral N are not polarity sensitive. Pay
attention to cable sizes and ensure cables are adequate for the specifi c
pump motor load. This is particularly important where long cable runs are
to be used in the installation. If the voltage drop associated with the starting
of the pump motor is excessive the F60 may repeatedly reset and not
operate properly.

15

THE HD (Heavy Duty) TERMINAL

The F60 pump controller contains a solid-state switch (HD Heavy Duty
drive) that can be used to protect the contacts of Relay 1 by eliminating the
destructive arcing caused by the starting and stopping of motors. The
solid-state switch is accessible from the HD terminal on the terminal block.
We recommend the HD drive be used whenever the controller is used to
directly control a single phase motor. The HD drive should not be used
when the F60 is connected to a contactor , external timer , low wattage relay
or to any other external device where voltage free contacts are required. It
is strictly intended for the direct control of highly inductive AC motor loads.
The HD terminal and the controller’s built in relays must never be directly
connected to a DC motor under any circumstances.

When the HD terminal is linked to the normally open terminal of Relay 1,
the HD drive in effect parallels a 42 Amp solid state switch across the
relay’s normally open contacts. This increases the momentary current
carrying capacity of the relay’s contacts to well over 60 Amps. The solid­state HD drive is only activated for a brief period when the motor starts and
stops. It effectively handles the high inrush current associated with the
motor starting, and it provides a current path for the destructive back EMF
associated with the motor stopping.

To use the HD drive, place a heavy link wire between the HD terminal
and the Normally Open terminal of Relay 1.

WARNING

The HD terminal must be left unused or only ever linked to Relay 1
Normally Open. It must never be used for any other purpose and it
must never be connected to any external device. Under no circumstances
connect the HD terminal to the terminals of Relay 2. The HD terminal
must be regarded as live at all times and at full mains potential.

16

Rubber Plug

Backing Washer

M20 Gland Nut

Plug unused cable glands
using the rubber plugs
(supplied). Fully tighten
the gland nut to seal the
unused cable port.

Crimp the ears of the
strain relief ring onto the
cable and pull the cable
back into the slots in the
gland housing.

Cable 7mm to 9mm diameter

Controller Housing

Rubber Grommet

Backing Washer

4mm

BROWNOUT OR BLACKOUT

If a blackout or brownout occurs the F60 will not retain any memory of
where in its run or stop cycle it may have been, it will simply shut down the
pump. When power resumes, the F60 will reboot, restart the pump and run
any timer settings from the beginning. A manual reboot can be done at any
time by pressing and releasing the F60’s reset button.

CABLES

The F60 has 3 X M20 cable glands. As supplied, the cable glands are
blanked off with rubber plugs. To use the glands fi rst remove one of the
rubber plugs and assemble the (supplied) cable gland bush and backing
washer into the cable port. The cable glands can accept cable from 7 to
9mm diameter. See sketch for assembling the cable gland components.

The F60 is supplied with a set of steel crimp rings. The crimp rings are to
provide strain relief for the controller’s cables. To use the crimps, place
one on the cable approximately 3 to 4mm below the end of the cables outer
sheathing. Crimp the two ears of the ring fl at using bull nosed pliers. Pull
the cable back through the cable gland until the crimp ring’s ears are fully
located into the slots in the cable gland housing. Always leave unused
cable glands sealed off using the (supplied) rubber plugs.

17

VOLTAGE LIMITS ON TERMINALS A & N

Maximum Supply Voltage 260VAC 50/60Hz
Minimum Supply Voltage 110VAC 50/60Hz

VOLTAGE LIMITS ON TERMINALS FELV & N

Maximum Supply Voltage 25VAC 50/60Hz or 25VDC
Minimum Supply Voltage 18VAC 50/60Hz or 18VDC

CONTACT RATINGS FOR RELAYS 1 & 2

16A at 250VAC Resistive Load PF > 0.9
16A at 30VDC Resistive Load PF > 0.9
50mA at 5VDC Minimum Load

SUPPLY VOLTAGE LIMITS

RELAYS

The F60 houses 2 relays. Relay 1 has S.P.D.T contacts. Relay 2 has
S.P.S.T normally open contacts. Relay 1 is normally regarded

as the

pump control relay and relay 2 is normally regarded as the alarm relay.
When operating the F60 as a dual pump controller, relay 2 is used to
control the second pump.

With the HD terminal linked to the NO terminal of Relay 1, the F60
can directly control a single phase motor up to 2.4kW

. Without the
HD terminal link in place, relays 1 & 2 are limited to directly
controlling a motor to 0.75kW. Both relays can control motors of

any required size via interposing contactors.

MAXIMUM PUMP MOTOR LOAD FOR RELAY 1

10A at 240VAC 2.4kW Inductive Motor Load

IMPORTANT: When directly controlling a pump motor through relay 1,

always link the HD terminal to relay 1 Normally Open terminal and make
sure the maximum switched motor current never exceeds 10

Amps. On a

pump motor P1 must not exceed 2.4kW.

18

POWERING THE F60

The power required to drive the F60 depends on the supply, AC or DC and
on temperature. The table below gives the maximum power required from
various supplies at 25°C. As temperature increases the power requirement
will reduce. For example, at 30°C the power requirement will be
approximately 3% less than the values given in the table. The measurements
expressed in the table represent the maximum required power with both

relays 1 and 2 closed and the LCD backlight and all indicator lights on.

POWER REQUIRED TO DRIVE THE STANDARD F60

24VDC Supply to FELV & N Maximum 68mA 1.63Watts
24VAC 50/60Hz Supply to the

FELV & N Terminals

Maximum 108mA 2.34Watts

220VAC 50Hz Supply to A & N Maximum 87mA 2.00Watts
240VAC 50Hz Supply to A & N Maximum 94mA 2.54Watts

POWER REQUIRED TO DRIVE THE 12VDC F60-12

With Both Relays Closed Maximum 68mA 0.81Watts
With One Relay Closed Maximum 52mA 0.62Watts
Quiescent State (relays open) Maximum 25mA 0.30Watts

19

REMOTE INPUTS

WARNING: The low voltage source available at the FELV terminal is

non-isolated and must be regarded as operating at full mains potential
whenever the F60 is powered from the mains. FEL V means Functional
Extra Low Voltage and refers to a non-isolated extra low voltage
source.

The F60 has two remote inputs.marked RMT1 and RMT2. Remote input 1
can be confi

gured to operate in various ways in the program such as start
and stop for connection to tank level switches or for connection to a remote
fl ow switch in dual pump mode. Remote input 2 has a fi xed function, it
replicates the main reset button on the F60. A normally open remote reset
switch can be used to reboot the F60 by connecting it to RMT2.

An external switch with voltage free contacts such as a tank level switch or
a set of external relay contacts can be used to control the F60. The supply
to the external switch must be taken from the FELV terminal on the F60
when the controller is powered from the mains or from a 24VAC source.
The F60 must always be powered from the same source as the supply to
external switch. The supply to the remote switch on the F60-12 (low voltage
DC model) must be taken from the supply positive terminal. In all cases
the external switch return wire must be connected to the correct remote
input terminal on the F60. The supply to the external switch will range from
12 to 24 VDC or from 20 to 35V AC depending on the supply voltage.

WARNING: Never connect an external power source of any kind to

the F60’

s remote input terminals.

The remote switch can be installed some distance from the F60. The
maximum distance is limited by cable resistance and capacitance.

The
total cable resistance must not exceed 5K Ohms with the remote switch
closed. The total capacitance of the cable must not exceed 25nF with the
remote switch open. Wires to the remote switch should be run separately
from power carrying cables. Do not run the remote switch wires in a conduit
that also contains power cables. Capacitive coupling between the adjacent
cables may cause false triggering of the F60’s remote inputs. For cable
runs longer than 150 metres we suggest using 2 separate wires to reduce

20

capacitive coupling between the adjacent wires. When set up this way
cable resistance becomes the limiting factor for distance. The table below
sets out the resistance of typical copper wire of various diameters.

Note that the cable resistance refers to the total resistance out to the
remote switch and back, as measured at the controller across the 2 remote
connection wires with the external remote switch closed.

EXAMPLE

A water tank is located 2000 metres from the F60. Two separate wires
each 0.2mm^2 are run to the remote tank (total wire length is 4000 meters).
The resistance as measured across the 2 wires back at the F60 (with the
tank level switch closed) is 382 Ohms. This is well under the 5,000 Ohm
limit. The remote input to the F60 will operate properly provide the wires
are separated by suffi cient distance that the capacitance between them is
less than 25nF. Capacitance should be measured between the wires when
the remote switch is open and it must be less than 25nF.

Cable Size Square mm Resistance in Ohms per 1000

Metres

0.2 95.30

0.5 36.20

0.75 24.13

1.0 18.10

1.5 12.10

Note: Use table as a guide only

, cable resistance may vary depending on

the wire standard and construction.

21

WIRING DIAGRAMS

CONNECTIONS FOR A SINGLE PHASE PUMP

PLUG AND LEAD WIRING

All electrical wiring associated with

this controller must be carried our by

a qualified electrician

Optional voltage free

external input

Earth Link

Remote switches with

NO or NC voltage free contacts

This link wire must be used whenever

the controller is directly controlling a single

phase pump motor, as shown. Do NOT use the

HD link in 3 phase or single phase control circuit

applications

Active

Pump Motor 1

110 ~ 240VAC 50/60Hz Pump Motor 2.4kW

Max. when the HD terminal is linked

Neutral

Supply

110 ~ 240VAC 50/60Hz.

Audible or Visual Alarm

22

Remote switches with

NO or NC voltage free contacts

This link wire must be used whenever

the controller is directly controlling a single

phase pump motor, as shown. Do NOT use the

HD link in 3 phase or single phase control circuit

applications

Pump Motor 2

Single Phase 110 ~ 240VAC Motor

0,75kW Max. when controlled directly

through relay 2, as shown.

Active

Pump Motor 1

110 ~ 240VAC 50/60Hz Pump Motor 2.4kW

Max. when the HD terminal is linked

Neutral

Supply

110 ~ 240VAC 50/60Hz.

DUAL SINGLE PHASE PUMPS & 2 REMOTE INPUTS

LOW VOLTAGE SUPPLY

Negative

Positive

Supply

18 to 24 Volts AC or DC

23

BASIC 3 PHASE PUMP CONTROL

3 Phase Pump Motor

N

L3

L2

L1

Contactor

WARNING

Contactor coil rating must not

exceed 240VAC

DUAL 3 PHASE PUMP CONTROL

3 Phase Pump Motor 1

N

L3

L2

L1

3 Phase Pump Motor 2

WARNING

Contactor coil rating must not

exceed 240VAC

Contactor 1

Contactor 2

24

DUAL 3 PHASE PUMPS WITH DUAL FLOW SENSING

In the diagram above, the F60 would normally be installed in the discharge
pipe of pump 1. The remote fl ow switch would normally be installed in the
discharge pipe of pump 2. The remote fl ow switch can be a paddle style
switch such as the Kelco F21 as depicted or an in line style fl ow switch
such as a Kelco C25-B. The remote fl ow switch must have voltage free
normally open contacts.

3 Phase Pump Motor 1

N

L3

L2

L1

3 Phase Pump Motor 2

WARNING

Contactor coil rating must not

exceed 240VAC

Contactor 1

Contactor 2

Remote Mounted

Kelco F21

Flow Switch

LV to F21
Common

R to F21

Nornally Open

25

Remote switch

with NO or NC

voltage free contacts

Three Phase Pump Motor

Alarm

16A 240V Maximum

resitive load

N

L3

L2

L1

Contactor

WARNING

Contactor coil rating must not

exceed 240VAC

3 PHASE CONTROL WITH ALARM & REMOTE INPUT

26

THE 12VDC F60-12 PUMP CONTROLLER

A low voltage DC version of the F60 is available for battery operation and
for use in solar pumping systems. Functionally the F60-12 model is the
same as the mains voltage model except for the terminal block markings.

On the 12VDC model the active and neutral terminals are replaced by a
positive + and negative – terminal. Supply voltage across the positive and
negative terminals must never exceed 24VDC or the fl ow switch will be
damaged. The supply terminals are reverse polarity protected, however,
the F60-12 will simply not operate unless the supply polarity is correct.

F60-12 REMOTE INPUTS

If a remote switch is connected to the 12V DC F60, the supply to the remote
switch must be taken from the positive terminal on the F60. The remote
switch and its circuit will then operate at 12VDC.

12VDC F60-12 CONTROLLING A SINGLE PHASE PUMP

Remote switch with

NO or NC voltage free contacts

IMPORTANT

Remote input must be sourced

from the supply positive terminal

This link wire must be used whenever

the controller is directly controlling a single

phase pump motor, as shown. Do NOT use the

HD link in 3 phase or single phase control circuit

applications

Positive

Pump Motor

120 ~ 240VAC 50/60Hz Pump Motor 2.4kW

Max. when the HD terminal is linked

Negative

Supply 11 - 24VDC

Supply Active

Supply Neutral

Supply: 120 ~ 240VAC 50/60Hz

Alternate Positive

14 ~ 40VDC

27

PROGRAMMING THE F60 Mk2

For a description of the functions of the buttons and lights,
please read pages 2 and 3 of this manual before proceeding.

RESTORING FACTORY DEFAULTS (Purging the Settings)

Provided the F60 is unlocked, you can restore its default factory settings
at any time by pressing and holding down the (P) button and pressing and
then releasing the (R) button. Once the (R) button has been released,
release the (P) button. The screen then displays SETTINGS CLEARED

PRESS P Doing this removes any settings you may have entered and

restores the controller to its default state.

LOCKING & UNLOCKING THE F60

The F60 is supplied by the factory in an unlocked state and can be
programmed using its buttons. To prevent unauthorised personnel from
altering its settings, the programming button (P) can be locked.

LOCKING THE F60

To activate the lock, press and hold down the (˄) and (˅) buttons and then

press and release the (R) button. Continue to hold the (˄) and (˅) buttons
down until the screen displays LOCKED. (takes about 2 seconds) release
the (˄) and (˅) buttons.

The F60 is now locked. When locked, pressing

the (P) button will not allow access to the F60’

s menu, instead a message

PROGRAM LOCKED PRESS RESET is displayed on the screen.

UNLOCKING THE F60

To unlock the F60 repeat the above procedure, press and hold down the

(˄) and (˅) buttons and then press and release the (R) button. Continue

to hold the (˄) and (˅) buttons down until the screen displays UNLOCKED.

(takes about 2 seconds) release the (˄) and (˅) buttons.

28

GETTING STARTED

1) Use the least number of functions possible. Do not program in functions

you do not specifi cally require, as to do so will make the system’s operation
unnecessarily complicated and may introduce unpredictable interactions
between the various functions.

2) When changing modes always start by purging the previous settings, to
restore factory defaults, before proceeding. This ensues no confl icts occur
between previously set functions and new functions.

3) Set realistic and sensible values into the various functions. For example,
do not set a pump to stop at a lower pressure than it is set to start at.
Always set the controller’s starting and stopping pressure differential to as
wide a difference as possible.

With the F60 powered up, Press the (P) button. Hold it down for 1
second and then release it.

KELCO www.kelco.com.au This is the fi

rst screen in the menu

Press and release (P) again.

PUMP CONTROLLER MODEL F60 Mk2 Displays the model number

Press and release (P) again.

VERSION 000000. The version number must match the version number

on the cover of this book.

Press and release (P) again.

SELECT PRESSURE UNITS: kPa. Press and release the (˅) button to

change kPa to psi. Press the (˄) button to change back to kPa.
Press and release (P) again to lock in your selection

SELECTING A SUITABLE OPERATING MODE

Selecting a suitable operating mode is critical to the use of the F60. The
mode you choose will depend on exactly what the pump system is required
to do and how you want it controlled. Step through the modes by pressing
the (˅) (˄) buttons. Highlight the mode you want to use and press and
release (P) to lock it into the F60’s memory and to advance to the next
screen.

29

Mode 1 Timer Control

In mode 1 the F60 operates on fl ow only. Mode 1 provides you with a

set of basic timers that includes a start-up timer to allow the pump to initially
start regardless of lack of fl ow and a run-on timer to ignore short term
interruptions to fl ow . The controller’s pressure sensor is used to display the
system’s line pressure on its LCD screen during normal operation. Mode

1 is commonly used in transfer pumping applications where loss of
fl

ow is the main concern. It is also suitable for use in solar pumping

applications.

Mode 2 Flow Control

Mode 2 is pressure start fl ow stop. In mode 2 the F60 will start the pump

each time the pressure falls below a set level or each time its paddle is
pushed into the on position by fl ow. It will then run the pump entirely on
fl ow. Once started, the F60 runs the pump while ever fl ow is present. The
pump is only shut down when fl ow stops. Mode 2 is commonly used for

conventional and solar powered transfer and tank fi lling applications.

Mode 3 Pressure Control

Mode 3 will start and stop the pump based on pressure. A high-

pressure cut-out point and low pressure cut-in point are programmed into
the F60, thereafter the pump is run within these pressure limits. If the pump
runs dry it will be shut down based on a combination of loss of fl ow and a
low pressure. Mode 3 is commonly used to control pressure systems

and to provide dry run protection to any system it is used in.

Mode 4 Pump Guard

Mode 4 monitors fl ow and pressure and shuts the pump down if any

of the monitored conditions move outside preset limits. The pump will
be shut down if it runs dry, if fl ow is lost or if the system pressure rises
above or falls below precise set points. One of the main applications

for the pump guard is for protecting helical rotor pumps. It also
fi nds application as a system guard in centrifugal pump and transfer
pumping systems.

30

Mode 5 Dual Pump Control

Mode 5 confi gures the F60 to control 2 independent pumps. The 2

pumps can be set to operate as a duty and standby set or as a dual
alternating pump set. It can also be set up as a duty and line boosting or
jockey pump set. Typical applications include line jacking systems,

duty and standby pump sets and dual alternating pump sets.

OPTIONAL FUNCTIONS

Each mode includes optional functions enabling the F60 to be confi gured
to suit a specifi c application. A description of the functions follows. Some
options are mode specifi c and do not operate in all modes. The relevant

modes for each function are indicated by number in the functions
heading.

PRE-START DELAY TIMER Modes 1 2 3 4 5

The pre-start delay timer delays the starting of the pump for a settable
period. It can be used to sequence or stage the starting of multiple pumps
in sequential or cascaded transfer pumping systems. Starting pumps
sequentially rather than all at once in such systems greatly reduces the
current draw on the power supply and ensures each pump spins up to
full speed before the following pump starts. The delay can be set from
zero to 64800 seconds (18 hours) in one second increments. The count
increments up in 60 second steps and down in 1 second steps. If you elect
to use the pre-start delay timer you are presented with 2 options. DELAY

THE START AT POWER UP YES

Delay period applies to the initial start and if selected, to the remote input
closing. DELAY THE START AT POWER UP OFF Does not delay the
pump starting on reset or power up but works in conjunction with the remote
input, RMT1, to delay the start when the remote closes.

USE REMOTE INPUT NUMBER 1 Modes 1 2 3 4 5

A remote switch with voltage free normally open contacts can be connected
to the remote input terminals No 1 on the F60 and confi

gured in various
ways. Use the (˅) and (˄) buttons to highlight a suitable selection.

USE REMOTE 1 FOR START ONLY Suitable for connecting to a remote

pressure switch or relay contacts.

31

USE REMOTE 1 FOR START & STOP Select this option if you are using

a remote high and low level tank level switch.

LOCAL FLOW OFF - USE REMOTE FLOW (In mode 5 only) This option

disables the F60’

s fl ow sensing paddle. It allows a remotely mounted fl ow
switch to monitor fl ow using the F60’s remote input terminal. The F60 can
then monitor pressure at a convenient location in the pipework and monitor
fl ow at a separate and perhaps less convenient location in the same
system.

USE DUAL FLOW SENSING (In mode 5 only) Enabling this option means

a second fl

ow switch with normally open contacts can be connected to the
F60’s remote input terminal. The F60 then uses both its own paddle and
the remote fl ow switch to monitor fl ow at 2 locations in the pipework
simultaneously, for example, in the discharge pipes of both pumps in a
dual pump system.

USE REMOTE 2 FOR REBOOTING Modes 1 2 3 4 5

A remote switch with voltage free normally open contacts can be connected
to the remote input terminal No 2, RMT2. Closing this switch causes the
F60 to stop whatever it is doing and reboot. In effect it acts in the same
way as pressing the red reset button on the F60. If the remote button is
held closed the screen on the F60 displays RELEASE THE RESET

BUTT

ON The F60 will remain frozen until the remote switch opens. It will

then reboot the F60.

USE ALARM RELAY Modes 1 2 3 4

The F60 includes 2 output relays. Relay one is normally used for pump
control. Relay 2 can be used as an alarm relay or to control a second
pump. If you select yes to this question you are presented with the fi rst
option in a list of ways the alarm relay can be confi gured. Use the (˅) and
(˄) buttons to step through the list. Press and release the (P) button once
you have highlighted the option you want to use.

CLOSED IF ANY FAULT DEVELOPS Closes relay 2 if the F60 detects a

problem.

CLOSED ONLY IF FLOW STOPS Relay 2 closes each time fl ow

stops.

CLOSED WHENEVER PUMP IS OFF Relay 2 is closed while the pump is

of

f, provided the F60 is powered.

32

CLOSED WHENEVER PUMP IS ON Relay 2 is closed while the pump is

on, provided the F60 is powered.

CLOSED DURING PRE-START DELAY Relay 2 can be used to run

peripheral equipment such as a mixer prior to the pump starting. Relay 2
opens when the pre-start timer times out and turns of

f the peripheral
equipment.

CLOSED ON ANTI-CYCLING F AUL T If you select the anti-cycling feature

from the menu and the pump shuts down because the number of starts per
hour has been exceeded, relay 2 will close its contacts.

CLOSED IF PUMP RUNS DRY Dry-run is identifi

ed as no fl ow and low
pressure. This option only provides a dry run alarm in modes that monitor
both fl ow and pressure.

CLOSED IF PIPE BURSTS This option only operates if you have elected

to use burst pipe detection.

START ADDITIONAL EQUIPMENT This option only appears in the menu

if you previously elected to use pre-start delay timer

. This option works in
conjunction with the pre-start delay timer to allow control of staged
equipment such as a generator set powering a pump.

START-UP TIMER Modes 1 2 3 4 5

The start-up timer operates when the F60 is fi rst turned on. Its purpose is
to ignore any initial lack of fl ow and to allow time for the pump to start and
for fl ow to be detected. The timer is auto self-terminating and terminates
its run as soon as fl ow is detected. The start-up timer is factory set to 5
seconds. It can be set between 1 second and 900 seconds using the (˅)
and (˄) buttons.

RUN-ON TIMER Modes 1 2 3 4 5

The F60 includes a run-on timer that can be set to ignore minor interruptions
to fl ow . Once triggered, the run-on timer tries to keep the pump running for
whatever time you have set it to, regardless of lack of fl ow. The run-on
timer is auto self-terminating and terminates its run as soon as fl ow is
detected. The run-on timer is factory set to 5 seconds. It can be set
between 1 second and 900 seconds using the (˅) and (˄) buttons.

PRESSURE TIMER Mode 4

In mode 4 the pressure timer is a single shot timer that only runs once each

33

time the F60 boots up and starts the pump. Its purpose is to allow time for
the system pressure to rise to above whatever low pressure trip point you
may have set. The pressure timer can be set to any time from zero to 900
seconds. The pressure timer is self-terminating. It monitors system
pressure and terminates its run as soon as pressure above your low­pressure trip point is detected. The F60 is supplied with the pressure timer
pre-set to 5 seconds.

DELAYED RESTART Modes 1 2 3 5

Once stopped, the F60 can be prevented from restarting the pump for a
settable period. If you set this option to yes, each time the pump stops,
due to fl ow stopping or pressure rising above your set point, the F60
controller will prevent the pump from restarting for the set period. The delay
time can be set from 1 minute to 99 hours 59 minutes in steps of 1 minute.
A typical application is in tank fi lling. Tank fi lls, fl oat valve closes, F60
detects fl ow stopping and shuts the pump down. Delayed restart then
prevents the pump from restarting for a set period. If you select yes to this
function and enter a suitable delay, the question that follows asks: -

At the end of the delay the pump will only restart under conditions it would
normally start under. For example, in modes 2 or 3 it will only start when
pressure falls to below the normal set starting pressure. If the remote input
options are set to start only and the remote switch closes, it will override
the delayed restart and instantly start the pump, provided the system
pressure allows starting at the time the remote switch closes.

BURST PIPE DETECTOR Modes 1 2 3

If a pressure system bursts its discharge pipe the pressure will fall and the
pump will start at its low-pressure setting. The pump will then run
continuously until the water source is depleted. The burst pipe detector is
a timer that runs for a settable period each time the pump runs. The timer
resets each time the pump stops. The timer can be set from zero to 99
hours 59 minutes in steps of 1 minute. In a typical application, the burst
pipe detector would be set to a time that was marginally longer than the
longest time the pump would ordinarily run. Each time the pump switches
on the burst pipe detector begins to count down. In normal circumstances
the pump will shut down in less than the burst pipe detector’s set time.

34

This resets the burst pipe detector’s timer back to its original setting. If,
however, the pump continues to run, due perhaps to a burst pipe, it will
eventually reach the set point. The pump will then be instantly shut down
preserving whatever source water remains, or at least reducing the
discharge fl ow by an amount equal to the pump’s capacity. The F60 will
then display “burst pipe detected” on its LCD screen.

CYCLIC RUNNING Modes 1 2 4

The F60 can be programmed to run and stop a pump for set periods of
time. Both the running and stopping times can be set to any value you
choose from 1 minute to 99 hours 59 minutes in increments of 1 minute.
The run and stop timers are independent of each other

. If a set running
and stopping time are programmed in then the F60 will run the pump for
whatever time it is set to and then stop for the time set on its stop timer. If
the stop time is left set at zero, the F60 will behave as a one-shot batch
controller. On pressing the reset button or switching the pump on, the
pump will run for the set period and then shut down. It will not then restart
until you again press the reset button or reset the power to the unit. In
cyclic running the F60 monitors the elapsed time and displays the remaining
time on its LCD screen in hours and minutes.

Cyclic running allows low yield bores to be pumped to their maximum
capacity. A bore pump running under cyclic control can be set to pump the
bore down to a low level, stop and wait for the standing water level to
recover and then repeat the process endlessly all the while protecting it if
it runs dry. For transfer pumping applications, cyclic running can be used
to automatically top up remote tanks without the need for fl oat valves or
level control at the tank. It can also be used for one-shot tank fi lling. Press
the reset button and pump a set number of hours or minutes of water to a
tank, and then stop until the reset button is again pressed.

ANTI-CYCLING Modes 1 2 3

Electric motors are often limited in the number of times they can be safely
started in any one hour. This is particularly important in the operation of
submersible bore pumps. When a motor starts there is an initial inrush of
current that produces heat in the coils and iron rotor of the motor. If the
frequency of starts is excessive the accumulation of heat within the motor
can cause severe damage and eventual failure of the motor. Submersible

35

bore pump motors are particularly prone to damage from excessive cycling
(starting and stopping).

MAXIMUM STARTS PER HOUR

The anti-cycling option built into the F60 allows the user to set the maximum
number of times the pump can be safely started in any one hour period. If
you select yes to using anti-cycling the screen that follows will ask you to
enter the maximum number of times the pump can be started in any one
hour

. The number of starts can be set from 1 start per hour to 1800 starts
per hour . Please contact your pump supplier to obtain the correct fi gure for
your specifi c pump. In operation, the anti-cycling system monitors both
time and the number of starts and compares the two. If the starts per hour
rate is exceeded for a settable number of consecutive times in any one
hour period the pump will be automatically shut down and the F60 will
display a message indicating the starts per hour rate was exceeded.

NUMBER OF STARTS IN SEQUENCE

After setting the required number of starts per hour and pressing (P) you
are asked how many starts in a row you are prepared to accept.

The
default setting is 5 starts. This can be adjusted between 2 and 50 starts.
Assuming you accept the default of 5 sequential starts then as a simple
example of the way the anti-cycling system works, if starts per hour rate is
set to 360 (one start every 10 seconds maximum) and the pump started 4
times in a row at less than 10 seconds between each start and then did not
start again for 12 seconds the anti-cycling shutdown will not be invoked. If,
however , the pump were to start 5 times in a row with less than 10 seconds
between the starts the anti-cycling system would be invoked and the pump
would be shut down. In a conventional pressure system, the anti-cycling
function can be used to protect the pump from damage in the event of the
system’s air cell losing its air charge. If air is lost from a system’s air cell
due to a ruptured diaphragm or leaking air valve, the pump will hunt on and
off rapidly. Such rapid cycling will cause the pump to overheat very quickly .
Anti-cycling can also be used in conjunction with burst pipe detection.
Burst pipe detection is an effective guard against a burst pipe. Anti-cycling
is effective at detecting a split pipe situation that causes a pump to cycle on

and off.

36

SET A LOW TRIP PRESSURE POINT Modes 2 3 5

The low trip pressure allows you to set a pressure trip point that can be
used to shut a pump down if it is operating at an unusually low pressure.
The low trip pressure is a pressure point that will sit below the normal cut
in pressure. In normal operation, it will have no effect on the pump. If a
situation develops where there is suffi cient fl ow to keep the pump running
but the actual line pressure is lower than would be expected in normal
operation, the low-pressure trip can be used to shut the pump down. Such
situations may develop when a pump is running on the snore or due to a
split pipe. If you elect to use the low trip pressure function then the question
that follows asks you to enter a suitable pressure trip point. In most
applications, this will be a pressure that is well below your intended normal
starting pressure.

TRIP PRESSURE TIMER

The trip pressure timer allows you to set a time that the pressure can be
below the previously set trip pressure and not cause the pump to shut
down.

The range of adjustment is 0 to 900 seconds in one second
increments. If the system pressure falls to below the low trip pressure, the
trip pressure timer will actuate automatically and will display : -

LOW PRESSURE DETECTED.

The pump will continue to run and the F60 will monitor the pressure. If the
pressure rises to above the low trip pressure setting, the controller will
return to normal operation. If the pressure remains below the low trip
pressure point when the trip pressure timer times out, the pump will be shut
down and the F60 screen will display PRESSURE TOO LOW .

LOW PRESSURE TRIP Mode 4

Mode 4 asks you to enter a low trip pressure. The low trip pressure is the
lowest pressure you want the system to operate at. If the pressure falls
below this point the pressure dip timer is invoked and at the end of its run,
given pressure has not recovered, the pump will be shut down. The range
of adjustment is 0 to 2000 kPa or 0 to 290 psi.

PRESSURE DIP TIMER Mode 4

In mode 4 the pressure dip timer allows the pump to continue running for a
set period while the pressure is lower than the trip pressure. The dip timer

37

is factory set to 5 seconds. This can be adjusted between 0 and 900
seconds using the (˅) or (˄) button. If the dip timer is set to 0 the pump will
be shut down the instant pressure falls to below the low trip pressure.

HIGH PRESSURE TRIP Mode 4

Mode 4 asks you to enter a high-pressure trip point. The high-pressure trip
point is the highest pressure you want the system to operate at. If the
pressure exceeds this point, the pump will be instantly shut down and the
F60 will display PRESSURE 2 HIGH. In addition, the screen displays the
time the pump ran for in minutes.

START PRESSURE Modes 2 3

Allows you to enter a starting pressure for the pump. The range of
adjustment is 0 to 2000 kPa or 0 to 290 psi. The pump will normally start
when the pressure falls to the starting pressure.

STOP PRESSURE Mode 3

The stopping pressure can be any value from 0 to 2000 kPa or 0 to 290 psi.
When the pump is running and the pressure rises for any reason, the pump
stops at whatever pressure you set as the stopping pressure. The stopping

pressure must be set higher than the starting pressure and the
starting pressure must be set higher than the low trip pressure (if
used). Failure to set the pressures correctly generates an on-screen
error message.

HIGH PRESSURE RUN-ON Mode 3

If you set high pressure run-on to “YES” (ON) the question that follows
asks you to enter a time limit that the pump can operate above the normal
stop pressure. When operating a high volume centrifugal pump that
exhibits a relatively small pressure change across a wide range of fl ow (a
fl at Q-H curve) the high pressure run-on can prevent the pump from cycling
by establishing a high pressure zone rather than a fi xed stopping pressure.
Within the defi ned pressure zone and for a limited time the pump can be
allowed to continue to run thus preventing it from cycling on and off on a
low draw off.

38

WARNING: Never apply this function to a helical rotor pump or to any

positive displacement pump. Helical rotor pumps and PD pumps in
general may be damaged by the application of this function.

T

ake great care in using the high pressure run-on and its associated
settings. Always set the high pressure limit to a pressure that is well
below the pumps shut off head. Keep the high pressure run-on time
to a minimum to avoid overheating the pump due to recirculation.

HIGH PRESSURE RUN-ON (Time)

If you previously set high pressure run-on to YES, the question that follows
asks you to set a run-on time.

The time can be set from 0 to 900 seconds
in one second increments. The time you set will be the maximum time the
pump can operate for above its normal stop pressure. The high pressure
run-on timer is self terminating and terminates its run if pressure drops
below the normal stop pressure.

HIGH PRESSURE LIMIT

The high pressure limit is the absolute highest pressure the system can
operate at. It must be set to a pressure higher than the previously set stop
pressure.

The available range is 0 to 2000kPa or 0 to 290 psi. If the high
pressure limit is set to a pressure less than the normal stop pressure an
error message is invoked advising you to check the pressures.

On a rising pressure the F60 will start the high pressure run-on timer as
soon as it detects pressure higher than the normal stop pressure. The high
pressure run-on timer will run for whatever you set it to and expect pressure
to fall back below the normal stop pressure before it times out. It the high
pressure run-on timer times out, it shuts the pump down and reverts to a
normal waiting state. The pump will not then start until pressure falls to
below the set starting pressure. Given pressure falls to below the set stop
pressure before the high pressure run-on timer times out, the pump may
stop or continue to run, dependent on fl ow. It the pump stops it will wait for
pressure to fall to the set starting pressure.

In effect the high pressure run-on and its associated pressure settings
create a shut down pressure zone rather than a single shut down point.
The pump can continue to operate in this zone for a period of time using

39

the high pressure run-on timer.
As pressure rises fl ow reduces and in some situations the fl ow may have

reduced to a point where the F60’s paddle can no longer detect fl ow. In
such situations the pump may be running, held on by the (fl ow based) run-
on timer. If the normal shutoff pressure is reached while running on the
run-on timer , the F60 simply switches over to running on the high pressure
run-on timer . If the pressure then falls to below the normal shutoff pressure,
the F60 will continue to run the pump provided there is suffi cient fl ow to
actuate the paddle. If there is less fl ow that can be detected by the paddle,
the F60 shuts the pump down and waits until pressure falls to below the
normal starting pressure. This fl ow detection process ensures the pump
can’t operate against a shutoff head for longer than the time set on the high
pressure run-on timer.

ALTERNATE THE PUMPS Mode 5

Pumps 1 and 2 can be set to start alternately. If you elect to use this
function the screen that follows asks you to set the frequency of alternation.
The range of alternations is 2 to 240. Setting a high number means pump
2 will start less frequently. Set to a high number, this function is useful in
duty standby applications to ensure the least used pump does not seize
from lack of use. ALTERNATE THE PUMPS EVERY 000 STARTS Use
the (˅) (˄) buttons to set the required alternation frequency

. When running,
the F60 displays which of the 2 pumps is running and counts down the
alternations.

SET THE PRESSURE PUMP ONE Mode 5

In mode 5, set the starting and stopping pressure for pump 1. Pump 1
refers to the pump controlled by relay 1 in the F60.

The start pressure for pump 1 must be set higher than the low-

pressure trip point (if used) and must also be lower than the stop
pressure for pump 1.

ST

ART PRESSURE 1 Set the starting pressure for pump 1 in the range 0

to 2000 kPa or 0 to 290 psi.

STOP PRESSURE 1 Set the stopping pressure for pump 1 in the range 0

to 2000 kPa or 0 to 290 psi.

40

SET THE PRESSURE PUMP TWO Mode 5

In mode 5, set the starting and stopping pressure for pump 2. Pump 2
refers to the pump controlled by relay 2 in the F60. The start pressure for

pump 2 must be set higher than the low-pressure trip point (if used)
and must also be lower than the stop pressure for pump 2.

ST

ART PRESSURE 2 Set the starting pressure for pump 2 in the range 0

to 2000 kPa or 0 to 290 psi.

STOP PRESSURE 2 Set the stopping pressure for pump 2 in the range 0

to 2000 kPa or 0 to 290 psi.
Pumps 1 and 2 can be set to turn on and of

f anywhere within the overall
pressure range and can overlap each other in terms of their individual
starting and stopping pressures. Individually, each pump must be set to
stop at a higher pressure than it is set to start at.

TURN ON FLOW DETECTION Mode 5

In mode 5 fl ow detection can be applied to the pumps individually or to both
pumps or it can be left turned off. This function allows the F60 to be installed
at various locations in the dual pipe system and to monitor fl ow at the
specifi c location or in 2 locations simultaneously. If you elect to use fl ow
detection and press (P) you are presented with 4 options. Press the (˅) or
(˄) buttons to highlight a specifi c option then press (P) to lock your selection
into memory.

DETECT FLOW FROM PUMP 1 Monitors fl

ow from pump 1, ignores
fl ow from pump 2

DETECT FLOW FROM PUMP 2 Monitors fl

ow from pump 2, ignores
fl ow from pump 1

DETECT FLOW FROM BOTH PUMPS Monitors fl

ow from both pumps
at one point in the pipework, for example, in the common discharge pipe.

USE DUAL FLOW SENSING Select this option if you have a fl ow

switch
connected to the F60’s remote input and intend using the F60’s paddle and
the remote fl ow switch to monitor fl ow at 2 locations simultaneously. The
F60’s paddle will monitor fl ow from the pump controlled by relay 1 (Pump

1). The remote fl ow switch will monitor fl ow from the pump controlled by
relay 2 (Pump 2). The F60 must be mounted in the discharge pipe of pump

1. The remote fl ow switch can be mounted in either the suction or discharge
pipework of pump 2. The remote fl ow switch must have normally open
voltage free contacts.

41

HOW FLOW DETECTION WORKS

Flow detection works with the run-on timer and shuts the pump(s) down at
the end of the run-on time if fl ow has failed to recover. If you alternate the
pumps, if fl ow is lost and pressure is above the starting pressure of the
currently running pump, the pump will be shut down and the F60 will revert
to a waiting state displaying WAITING TO START. It will then remain in
this state until pressure falls to below the pump’

s set starting pressure.
Once the pressure has fallen to below the starting pressure the alternate
pump will start and expect to fi nd fl ow before the start-up timer times out.
At the end of the run-on time, if pressure is below the set starting pressure
of the applicable pump, the pump will be shut down and the F60 will display

PUMP RAN DRY. It will not then restart unless reset is pressed.

If you elect not to alternate the pumps, then if loss of fl

ow is detected the
pump that lost fl ow will be shut down after the run-on timer times out. The
system will not revert to a waiting state, instead it will continue to operate
using the remaining pump only. The pump that lost fl ow will only resume
normal operation if the system pressure falls to below its set starting
pressure. This process applies if you use individual fl ow sensing or dual
fl ow sensing.

In non-alternating mode, if, at the end of the run-on time the system
pressure is lower than the set starting pressure of both pumps, the F60 will
identify a dry run situation and shut the running pump down and display

PUMP RAN DRY. It will not then restart either pump unless reset is

pressed.

AUTO RESTART IF RUN DRY Modes 2 3 4

The F60 will identify a dry run situation as a loss of both pressure and fl ow.
If the pump shuts down because it has run dry, it can be set to try to restart
using the auto restart function after a settable delay. The range of the
delay is 1 minute to 99 hours 59 minutes in one minute increments.

SINGLE RESTART ON A FAULT YES.

Select this option if you want the pump to try to restart one time only. If it
fails to restart after the single attempt, or subsequently shuts down on dry
run, it reverts to a permanent alarm condition. In this situation, the alarm
can be cancelled by pressing and releasing the (R) button.

42

REPEATED RESTARTS ON A FAULT YES.

Select this option if you want the pump to repeatedly try to restart after the
delay period.

LEAK DETECTOR Mode 3

The F60 includes a tool to analyse suspected leakage in a pressurised
pumping system. To use the leak detector, open all valves feeding into the
pipe system to be tested. Close all valves at the far ends of the pipework
so the pipe system can be pressurised. Press the reset button on the F60,
this will zero the leak detector screen and run the pump until the system is
fully pressurised. Leave the system unattended for at least an hour. On
returning to the system, the controller’s LCD screen will be displaying the
number of times the pump started and the total run time in hours minutes
and seconds since the time the leak detector was zeroed. If the leak
detector screen displays no starts and no run time, then no leak has
occurred from the system in the interim period. If the screen displays a
number of starts and a total run time, a leak has occurred and the magnitude
of the leak can be assessed by considering the total run time displayed and
the capacity of the specifi c pump. The leak detector can be used in any
pressurised pumping system.

ACCEPT SETTINGS Modes 1 2 3 4 5

This is the end of the menu. Select yes to confi rm all your previous settings
or use the (˅) (˄) buttons to select no to return to the top of the menu. If
you accept yes and press (P) you are then asked to press the reset button
to start the pump. The F60 will start the pump and attempt to run the
system using the settings you have programmed in. If the settings you
have initially made prove unsatisfactory then simply pressing and holding
down the (P) button for about 1 second and then releasing it will shut the
pump down and take you to the top of the menu where you can step through
the settings and make appropriate changes.

43

If the F60 Pump Controller is used in a manner
not specifi ed by the manufacturer the pump
protection provided by the controller may be
impaired or negated. In addition, all warranties
stated or implied may be rendered invalid.

Warranty and Limitation of Liability

Thank you for purchasing Kelco Engineering Pty Ltd, (ABN 200 002 834 844) (“Kelco”)
products (Kelco Products). This document sets out the terms and conditions of the prod­uct warranty and Limitation of Liability for Kelco Products. It is an important document.
Please keep it with your proof of purchase documents in a safe place for future reference
should you need to lodge a claim.

This Warranty and Limitation of Liability (or any more recent version in effect when you purchase a Kelco
Product) (“Warranty”) applies to all Kelco Products regardless of where you purchased the Kelco Products.

When you place an order, you are deemed to agree to the Warranty, unless otherwise agreed in writing with
Kelco.

Kelco is located at 9/9 Powells Road, Brookvale, NSW 2100, AUSTRALIA and may be contacted by calling 61

2 99056425 or emailing: sales@kelco.com.au

1. Defi nition

The following terms used herein are defi

ned as follows:

(1) Australian Consumer Law or ACL: Schedule 2 to the Competition and Consumer Act 2010 (Cth).
(2) Brochures and Technical data sheets: Kelco brochures, including, without limitation, sales brochures and
technical data sheets, whether or not provided electronically.
(3) Customer Application: Any application of Kelco Products or component parts by a you including, but not
limited to, embedding and/or using Kelco Products in your parts/components, electronic substrates, devices,
equipment and /or systems manufactured by customers.
(4) Non- Excludable Guarantee: a Consumer Guarantee applicable to these Warranty Terms under
the Australian Consumer Law or New Zealand Consumer Guarantee Act 1993.
(5) Fitness: (a) fi tness for a particular purpose, (b) performance, (c) compliance with laws and regulations and
(d) conformity to standards of a Kelco Product.
(6) Kelco Products: fl ow switches, level switches and fl oat switches, related products and electronic/
mechanical components under the Kelco brand.
(7) ‘you’ or “customer” means the purchaser of the Kelco Products not having purchased the Kelco Products

for re-sale, and ‘your’ has a corresponding meaning.
(8) Usage Conditions: Usage conditions, rating, performance, operating environment, handling instructions,
warnings, restrictions on use, etc. of Kelco Products described in the Brochures and technical data sheets.

2. Descriptions

You are deemed to accept the following terms and conditions regarding the descriptions provided of Kelco
Products in the Brochures and technical data sheets when you adopt or use a Kelco Product or component
thereof.

(1) Rated values and performance values are based on average performance established from batch
production runs and Kelco does NOT

warrant any rated values and performance values for multiple composite
conditions.
(2) Reference data is provided for your reference only. Kelco does NOT warrant that Kelco Products work
properly at all times or continuously as provided in the reference data.
(3) Application examples ( if any) are provided for your reference only. Kelco does NOT warrant
the Fitness of Kelco Products under such applications.
(4) Kelco may discontinue the production of Kelco Products or change their specifi cations for the purpose of
improving such products or for other reasons entirely at its own discretion and is under no obligation to notify
you of any such change.

3. Precautions

You are deemed to accept the following terms and conditions when you purchase Kelco Products:

(1)

You will use Kelco Products in compliance with Usage Conditions including rating and performance.
(2) You will confi rm Fitness and use your own judgment to determine the appropriateness of using of Kelco
Products in a Customer Application. Kelco products are unlike conventional fl ow and level switches and
pump controllers in that they can be applied to virtually any fl uid or pumping system in any manner defi ned
by an original equipment manufacturer, a wholesaler or end user or their agents. The knowledge and
experience of such parties is outside the control of Kelco, and their having relevant knowledge and experience
is critical to the successful application and operation of the Kelco Products. Kelco does NOT warrant
the Fitness of Kelco Products in a Customer Application.
(3) You will confi rm that Kelco Products are properly wired and installed for their intended use in your overall
system. In the case of Kelco pump controllers, the fl exibility of their operating system means it requires an
extensive knowledge of pumps and their characteristics and the intended overall goal of the system in order
to select the correct functions and settings. Failure to understand the ramifi cations of incorrect settings may
result in a system that fails to perform to your expectations and or may even damage the pump or system
itself. It is therefore critical that correct settings are used to achieve a stable and reliable overall system and
to provide any such system with appropriate pressure and or fl ow protection the pump controller is intended to
provide. Kelco does NOT warrant Kelco Products against defective installation, incorrect programming,

incorrect wiring or electrical overload in any form.

(4) When using Kelco Products, you will make sure to (i) maintain a margin of safety in relation to the
published rated and performance values, (ii) design to minimize risks to any Customer Application in
case of failure of any Kelco Products, such as introducing redundancy i.e. critical systems should include
double redundancy of all controls, (iii) adopt system-wide safety measures to notify risks to users such
as independent backup protection. Such backup may consist of a simple or complex independent alarm
system to alert an operator to any issue with the system, and (iv) conduct regular maintenance on Kelco
Products and the Customer Application.
(5) It will be your sole responsibility as user to determine and use adequate measures and checkpoints to
satisfy your particular requirements for (i) data input and output, (ii) maintaining a means for reconstruction of
lost data, (iv) preventing Kelco Products installed thereon from being infected with computer viruses and (v)
protecting Kelco Products from unauthorized access. Kelco shall not be responsible and/or liable for any

loss, damage, or expenses directly or indirectly resulting from any third-party software or hardware
not contained in the product as originally confi gured by the manufacturer, the infection of Kelco
products, or any computer equipment, computer programs, networks, databases or other proprietary
material connected thereto, by service attack, computer viruses, other technologically harmful
material and/or unauthorized access.

(6) Kelco Products are designed and manufactured as general-purpose products for use in general industrial

products. They are not intended to be used in the applications described in subsection 3...(5)(a), (b), and (c).
If you are using Kelco Products in the applications described below, Kelco does not provide any warranty

for such Kelco Products, except for specifi c applications where Kelco has specifi ed that it intends to
provide a warranty or by separate written agreement between the customer and Kelco.

a. Applications with stringent safety requirements and applications that could cause physical injury to a

person or result in loss of life.

b. Applications under severe conditions or in severe environment, including but not limited to outdoor

equipment, equipment exposed to chemical contamination, equipment exposed to electromagnetic
interference and equipment exposed to vibration and shocks.

c. Applications under conditions or environments not described in any of the Brochures and Technical

data sheets.

d. Kelco Products are not intended for use in Hydrocarbons other than Dieseline.

4. Warranty

Kelco warrants that Kelco Products will perform in accordance with the specifi cations set out in the Technical
data sheets, subject to and in accordance with the following:

(1) Warranty period: The Warranty shall apply for 12 months from the date of original purchase of Kelco
Products by the customer. .
(2) Sole Remedy: Unless required to do otherwise as a result of statutory guarantees applicable
under ACL, Kelco will provide, at its own discretion, either of the following two services as the sole remedy for
a malfunctioning Kelco Product:
Repair of the malfunctioning Kelco Product(s) or components by Kelco or Kelco authorised dealer at no charge
to the customer, or

a. Replacement of the malfunctioning Kelco Product(s) or components by Kelco or Kelco authorised

dealer with the same number of replacement/alternative products or components at no charge to the
customer.

(3) Exceptions: This Warranty of Kelco Products does not apply if the cause of the malfunction falls under any
of the following:

a. Usage in a manner other than the original intended use for the Kelco Products or component there-

of.
b. Usage other than as described in the Usage Conditions.
c. Usage that is not in accordance with Section 2 (Descriptions) and Section 3 (Precautions) above.
d. Modifi cation or repair made to the Kelco Products by persons other than Kelco.
e. Causes which could not have been foreseen with the level of science and technology at the time of

shipping from Kelco.
f. Replacement or repair of any (1) consumables (including cables, paddles and circuit boards), or (2)

lost parts or accessories.
g. Service of any product whilst it is outside Australia.
h.

Causes originating from other than Kelco or Kelco Products (including force majeure such as but not

limited to natural disasters)
i. Causes from any environmental factors. Such factors may include but are not limited to water or

chemical ingress, fi re damage, lightning damage, mechanical damage, sun damage or degradation,

failure due to over-heating, freezing or vibration. Failure due to customers over tightening threads or

(4) If you intend to make a claim under this Warranty you must contact Kelco to register your claim by
telephone on (02)99056425 and provide the following details to enable Kelco to assess the claim: (i) proof
of purchase; (ii) evidence of the particulars of the claim that gives rise to the application of the Warranty ;
(iii) confi rmation that the cause of the malfunction was not an Exception set out above; and (iv) your phone
number, email and address details.

You must provide or make the Kelco product available to Kelco for evaluation. If you are required to return the
product to Kelco for repair replacement or evaluation, Kelco will provide delivery details and a return goods
authorisation number to you. The Kelco Products will be at the owner’s risk whilst in transit to and from Kelco,
unless transported by Kelco or its authorised representatives.

The Kelco Product presented for repair may be replaced by refurbished products of the same type
rather than being repaired. Refurbished parts may be used to repair the product.

T

o the extent permitted by law replacement of the product or a part does not extend or restart the Warranty

Term.

Kelco may seek reimbursement of any costs incurred by them when the Kelco product is found to be
in good working order.

5. Non-excludable Statutory Guarantees

(1) The W

arranty is given by Kelco in addition to other rights and remedies which you may be entitled to under

by law, nothing contained in this agreement excludes, restricts or modifi es any condition, guarantee, warranty
or other obligation which is applicable to or is conferred on Kelco pursuant to law where to exclude, restrict
or modify any such condition, warranty or other obligation is unlawful. (2) Australia: To the extent that you
are a consumer for the purposes of the ACL, Kelco Products come with guarantees that cannot be excluded
under the ACL. You are entitled to a replacement or refund for a major failure and compensation for any other
reasonably foreseeable loss or damage. You are also entitled to have the goods repaired or replaced if the
goods fail to be of acceptable quality and the failure does not amount to a major failure. “Acceptable Quality”
and “major failure” have the meaning they have in the ACL. (3) New Zealand: For Kelco Products provided
by Kelco in New Zealand, the Kelco Products come with a guarantee by Kelco pursuant to the provisions of
the Consumer Guarantees Act, section 345(1)(i) of the Contract and Commercial Law Act 2017 and the Fair
Trading Act. Where the Kelco Product was purchased in New Zealand for commercial purposes the Consumer
Guarantee Act does not apply.

6. Disclaimer and Limitation of Liability

TO THE EXTENT PERMITTED BY APPLICABLE LAW:
(1) SELLER MAKES NO W

ARRANTY, EXPRESS OR IMPLIED, OTHER THAN AS STATED IN SECTION
4 ABOVE AND SELLER DISCLAIMS AND EXCLUDES ANY WARRANTY OF ANY OTHER KIND. (2) THE
SOLE AND EXCLUSIVE REMEDY FOR MALFUNCTIONING KELCO PRODUCTS SHALL BE AS SET
FORTH IN SECTION 4. ABOVE. (3) KELCO AND THE DISTRIBUTORS OF KELCO PRODUCTS ARE NOT
LIABLE FOR ANY DAMAGES WHICH MAY ARISE FROM OR BE RELATED TO KELCO PRODUCTS.

7. Confi dentiality: You accept that if you make a Warranty claim, Kelco and its agents may exchange
information in relation to you to enable Kelco to meet its obligations under this Warranty.

8. Export/ Import Controls

Customers of Kelco Products shall comply with all applicable laws and regulations of Australia and/or other

a. fi ttings. Failure due to power supply fl uctuations, surges, spikes, brown outs. or AC supplies that do

not provide a pure sine wave output.

Designed and Manufactured in Australia by

KELCO Engineering Pty Ltd

A.B.N. 20 002 834 844
Head Offi ce and Factory: 9/9 Powells Road Brookvale 2100 Australia
Postal Address: PO Box 7485 Warringah Mall NSW 2100
Phone: +61 2 99056425 Fax: +61 2 99056420 Email: sales@kelco.com.au
Web: www.kelco.com.au

All rights reserved copyright Kelco Engineering Pty Ltd © 2019.

relevant countries with regard to security export/import control, when exporting/importing Kelco Products and/
or technical documents or providing such products and/or documents to a non-resident of Australia. At its
discretion Kelco may not provide customers with Kelco Products and/or technical documents should they fail

PLEASE NOTE: Kelco Engineering Pty Ltd reserves the right to change
the specification of this product without notice. Users will use their own
judgment to determine the appropriateness of using of Kelco Products in
an application, any safety measures required and that the product is
properly installed for that application . To the extent permitted by law Kelco
Engineering Pty Ltd disclaims and excludes all and any liability for the use
of this product in any particular application or for defective installation. The
Kelco F60 Mk2 is warranted against malfunction by a 12 month return to
base manufacturer’s warranty. Full details of our warranty and limitation
of liability can be found in this document or downloaded from: http://www.
kelco.com.au/warranty.