Grundfos LCD 108 Installation And Operating Instructions Manual

Typ
Installation And Operating Instructions Manual
LCD 108
Installation and operating instructions
GRUNDFOS INSTRUCTIONS
2
Table of contents
3
LCD 108
English (GB)
Installation and operating instructions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Deutsch (DE)
Montage- und Betriebsanleitung . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27
Magyar (HU)
Telepítési és üzemeltetési utasítás . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50
Nederlands (NL)
Installatie- en bedieningsinstructies . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 73
Polski (PL)
Instrukcja montażu i eksploatacji . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 96
Română (RO)
Instrucţiuni de instalare şi utilizare . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 119
Appendix 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 142
Declaration of conformity 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150
English (GB)
4
English (GB) Installation and operating instructions
Original installation and operating instructions.
CONTENTS
Page
1. Symbols used in this document
2. General
The LCD 108 controller is designed for the control of pumps in
wastewater systems.
Type key:
1. Symbols used in this document
4
2. General
4
2.1 Applications
5
2.2 Variants
5
3. Location and mounting
5
3.1 Location
5
3.2 Mounting of LCD 108 for direct-on-line starting
5
3.3 Mounting of LCD 108 for star-delta starting
6
4. Systems for parallel operation with 3 float switches
7
4.1 Electrical connection
7
4.2 Setting
8
4.3 Control panel
10
4.4 Battery back-up functions
10
4.5 Reset button and ON-OFF-AUTO selector switch
11
5. Systems for parallel operation with 4 float switches
12
5.1 Electrical connection
12
5.2 Setting
12
5.3 Control panel
14
5.4 Battery back-up functions
14
5.5 Reset button and ON-OFF-AUTO selector switch
15
6. Systems for 100 % standby operation
16
6.1 Electrical connection
16
6.2 Setting
16
6.3 Control panel
18
6.4 Battery back-up functions
18
6.5 Reset button and ON-OFF-AUTO selector switch
19
7. System for full-control operation
20
7.1 Electrical connection
20
7.2 Setting
20
7.3 Control panel
22
7.4 Battery back-up functions
22
7.5 Reset button and ON-OFF-AUTO selector switch
23
8. Start-up
24
9. Maintenance
24
10. Technical data
25
11. Fault finding chart
26
12. Disposal
26
Warning
Prior to installation, read these installation and
operating instructions. Installation and operation
must comply with local regulations and accepted
codes of good practice.
Warning
If these safety instructions are not observed,
it may result in personal injury.
Warning
If these instructions are not observed, it may lead
to electric shock with consequent risk of serious
personal injury or death.
Warning
These instructions must be observed for
explosion-proof pumps. We recommend that you
also follow these instructions for standard
pumps.
Caution
If these safety instructions are not observed,
it may result in malfunction or damage to the
equipment.
Note
Notes or instructions that make the job easier
and ensure safe operation.
Example LCD 108 400 3 23 SD
LCD = two-pump controller
108 = type designation
Phase voltage [V]
1 = single-phase
3 = three-phase
Maximum operating current per pump [A]
SD = Star-delta starting
English (GB)
5
2.1 Applications
The LCD 108 enables:
control of two pumps based on signals from float switches,
automatic pump changeover (even distribution of operating
hours on both pumps),
selection of automatic test run during long periods of inactivity
(every 24 hours),
battery back-up in case of mains supply failure (accessory for
certain variants),
starting delay within the range from 0 to 255 sec. (random)
after returning from battery operation to mains operation
(resulting in an even mains load when several pumping
stations are started up at the same time),
selection of automatic alarm resetting,
selection of automatic restarting,
setting of stop delays matching the actual operating
conditions,
indication of liquid level,
alarm indication of:
– inadmissibly high liquid level,
– overload (via motor protection relay),
– overtemperature (via PTC resistance or thermal switch in
motor),
– wrong phase sequence (only certain variants),
– mains supply failure (only certain variants),
– defective float switch.
As standard, the LCD 108 has one alarm output for common
alarm. Certain variants have an additional alarm output for
separate high-level alarm.
Furthermore, the controller incorporates a buzzer (only certain
variants).
2.2 Variants
The actual controller type, voltage variant, etc. are stated in the
type key on the nameplate situated on the side of the controller
cabinet.
The LCD 108 is available for either direct-on-line starting or
star-delta starting.
The LCD 108 can be connected and set to operation/control in
4 different ways, see sections 4. to 7.:
Section 4. Systems for parallel operation with 3 float switches.
(Electrodes can also be used.)
Section 5. Systems for parallel operation with 4 float switches.
(Electrodes can also be used.)
Section 6. Systems for 100 % standby operation.
Section 7. System for full-control operation.
3. Location and mounting
The installation must be carried out by authorized personnel in
accordance with local regulations.
3.1 Location
The LCD 108 can be mounted at ambient temperatures ranging
from -30 °C to +50 °C.
Enclosure class: IP65.
When installed outdoors, the LCD 108 must be placed in a
protective shed or cupboard.
The LCD 108 must not be exposed to direct sunlight.
3.2 Mounting of LCD 108 for direct-on-line starting
Before mounting, remove the transport protectors, if any, from
inside the cabinet.
Mount the LCD 108:
on a plane wall surface,
with the Pg cable entries pointing downwards
(additional Pg cable entries, if required, must be fitted in the
bottom plate of the cabinet),
with four screws through the mounting holes in the back plate
of the cabinet, see fig. 1. The mounting holes must be bored
with a 4 mm bore. Fit the screws into the mounting holes and
tighten securely. Fit the plastic caps supplied with the
controller on the screws (IP65).
Warning
Before starting any work on pumps used to pump
liquids which could be constituted as being
hazardous to health, thorough cleaning/venting
of pumps, pits, etc. must be carried out
according to local regulations.
Before making any connections in the LCD 108 or
work on pumps, pits, etc., it must be ensured that
the electricity supply has been switched off and
that it cannot be accidentally switched on.
Warning
The LCD 108 controller and an EEx barrier, if
required, must not be installed in explosion
hazard areas.
Only float switches approved for use in explosion
hazard areas may be used. The float switches
must be connected via an EEx barrier, e.g.
Grundfos number 96440300.
English (GB)
6
Figure 1 shows the internal construction of the LCD 108 for
direct-on-line starting.
Fig. 1
Figure 2 shows the terminals listed under positions 2 and 3.
Fig. 2
Key to the symbols in figures 1 and 2:
3.3 Mounting of LCD 108 for star-delta starting
Before mounting, remove the transport protectors, if any, from
inside the cabinet.
Mount the LCD 108:
on a plane wall surface,
with the Pg cable entries pointing downwards
(additional Pg cable entries, if required, must be fitted in the
bottom plate of the cabinet),
with four screws through the mounting holes in the back plate
of the cabinet or through the brackets supplied with the
controller, fig. 4. The mounting holes must be bored with a
4 mm bore. Fit the screws into the mounting holes and tighten
securely. Fit the plastic caps supplied with the controller on the
screws (IP65).
Figure 3 shows the internal construction of the LCD 108 for star-
delta starting.
Fig. 3
TM01 4383 0299TM01 4833 2308
Pos. Description
1 Module CU 212.
2
Terminal block for level inputs
(11-12, 21-22, 31-32, 41-42).
3
Terminal block with:
input for the PTC resistance/thermal switch of the
motor (T11-T21, T12-T22),
output for external alarm device for high-level alarm
(H-NC, H-COM, H-NO) (only certain variants),
output for external alarm device for common alarm
(G-NC, G-COM, G-NO).
4
Motor protection relays, pumps 1 and 2 (contacts and
thermal relay fitted).
5 Terminal block for electricity supply.
6
Fuse holders for control circuit fuses (1 to 3 depending
on voltage/current variant).
7 Isolating transformer.
9 Pg cable entries.
10 Earth bar ( PE).
22
12
T21
T11
T22
T12
H-NOH-COM
H-NC
G-NO
G-COM
G-NC
21
11
32
42
31
41
Note
If the distance between the controller and pit
exceeds 20 metres, it is not advisable to use
electrodes as problems with the signal values
sent back to the controller may arise.
In such cases, it is recommended to use float
switches.
Note
Cables of up to 100 metres can be connected
between the controller and the float switches.
TM01 8125 5099
English (GB)
7
Fig. 4
Figure 5 shows the terminals listed under positions 2 and 3.
Fig. 5
Key to the symbols in figures 3 and 5:
4. Systems for parallel operation with 3 float
switches
Description (see also page 142 or 143):
The pumps are controlled by the liquid level in the pit.
When the float switch, pos. 1, registers liquid, the first pump is
started.
When the float switch, pos. 2, registers liquid, the next pump is
started.
When the float switch, pos. 1, does not register any liquid, the
"stop delay" is initiated (can be set). After expiration of the
stop delay, both pumps are stopped.
The pumps operate alternately.
The top float switch, pos. 3, activates the high-level alarm.
4.1 Electrical connection
Parallel operation with 3 float switches, pages 142 or 143.
Fig. 1 on page 142.
The figures show all electrical connections required to connect
the LCD 108 for direct-on-line starting, parallel operation with
3 float switches.
Fig. 2 on page 143.
The figure shows all electrical connections required to connect
the LCD 108 for star-delta starting, parallel operation with 3 float
switches.
The operating voltage and frequency are marked on the controller
nameplate. Make sure that the controller is suitable for the
electricity supply on which it will be used.
All cables/wires must be fitted through the Pg cable entries and
gaskets (IP65).
Maximum back-up fuse is stated on the controller nameplate.
If required according to local regulations, an external mains
switch must be installed.
TM01 8482 0300TM01 6869 2308
Pos. Description
1 Module CU 212.
2
Terminal block for level inputs
(11-12, 21-22, 31-32, 41-42).
3
Terminal block with:
output for external alarm device for high-level alarm
(H-NC, H-COM, H-NO) (only certain variants),
output for external alarm device for common alarm
(G-NC, G-COM, G-NO).
4
Contacts for star-delta starting and motor protection
relays (contacts, thermal relay fitted and timing relay).
5 Terminal block for electricity supply.
6
Fuse holders for control circuit fuses (2 or 3 depending
on voltage variant).
7 Isolating transformer.
8 Terminal block for the connection of pump 1 and 2.
9 Pg cable entries.
10 Earth bar ( PE).
11
Input for the PTC resistance/thermal switch of the motor
(T11-T21, T12-T22).
1211
22
32
42
21
31
41
G-NO
H-NO
G-COM
H-COM
G-NC
H-NC
Note
If the distance between the controller and pit
exceeds 20 metres, it is not advisable to use
electrodes as problems with the signal values
sent back to the controller may arise.
In such cases, it is recommended to use float
switches.
Note
Cables of up to 100 metres can be connected
between the controller and the float switches.
Warning
Before starting any work on pumps used to pump
liquids which could be constituted as being
hazardous to health, thorough cleaning/venting
of pumps, pits, etc. must be carried out
according to local regulations.
Before making any connections in the LCD 108 or
work on pumps, pits, etc., it must be ensured that
the electricity supply has been switched off and
that it cannot be accidentally switched on.
Warning
Before starting work on the system, switch off
the supply voltage and lock the mains switch in
position 0.
Any external voltage connected to the system
must be switched off before work is started.
Warning
The LCD 108 must be connected in accordance
with the rules and standards in force for the
application in question.
English (GB)
8
Single-phase motors must be connected to an external operating
capacitor and in certain cases also to a starting capacitor.
Further details can be found in the installation and operating
instructions for the pump in question.
The float switches must be connected as NO contacts, i.e. brown
and black leads, when float switches, Grundfos product number
96003332 or 96003695, are used.
Key to the symbols in fig. 1 on page 142 and fig. 2 on
page 143:
4.2 Setting
Parallel operation with 3 float switches, pages 142 and 143.
The module CU 212 has a 10-pole DIP switch in the bottom right
corner, see fig. 6.
The DIP switch setting offers the following possibilities:
selection of starting delay and automatic test run (switch 4),
setting of stop delay (switches 5, 6 and 7),
selection of automatic alarm resetting (switch 9),
selection of automatic restarting (switch 10).
Fig. 6
Set the DIP switch as shown in fig. 6.
Each individual switch (1 to 10) of the DIP switch can be set to
position OFF or ON.
Set the switches 1 to 10 as follows:
Switches 1, 2 and 3, application type:
When the DIP switch setting is changed, the controller must
be switched off for at least 1 minute!
•Switch 4, starting delay and automatic test run (only in the
case of battery back-up):
When the DIP switch setting is changed, the controller must
be switched off for at least 1 minute!
Caution
If the PTC resistance/thermal switch of the motor
is connected, the factory-fitted short-circuit
jumper must be removed (terminals T11-T21,
T12-T22). For correct installation of PTC resistor/
thermal switch, see the installation and operating
instructions of the pump.
Warning
Float switches placed in an explosion hazard
area must be connected via an EEx barrier, e.g.
Grundfos number 96440300.
The EEx barrier must not be installed in the
explosion hazard area.
Equipment used in explosion hazard areas must
in each individual case have been approved for
this particular application. Furthermore, the
cables into the explosion hazard area must be
laid in accordance with local regulations.
Note
Float switches of the same type as Grundfos
product number 96003332 or 96003695, i.e.
float switches with gold-plated contacts suitable
for low voltages and currents (40 V / 100 mA),
must be used. All EEx-approved float switches
are also suitable.
Pos. Description
Terminal
number
1
Float switch for start of the first pump/
common stop.
11-12
2 Float switch for start of the next pump. 21-22
3 Float switch for high-level alarm. 31-32
Caution
During the setting of the DIP switch, the
controller must always be dead for at least
1 minute to achieve the correct configuration
during start-up after change of the DIP switch
setting.
TM016870 2308
Note
The DIP switch must not be set to other switch
combinations than those described in this
section.
This setting determines the actual application type
(parallel operation with 3 float switches, pages 142 and
143).
At this setting, the start-up is delayed within the range
from 0 to 255 sec. (random) after the electricity supply
has been switched on when the liquid level is
sufficiently high.
Automatic test run carried out every 24 hours.
After the electricity has been switched on, the pump will
start immediately when the liquid level is sufficiently
high.
No automatic test run.
English (GB)
9
Switches 5, 6 and 7, stop delay:
When the DIP switch setting is changed, the controller must
be switched off for at least 1 minute!
•Switch 8:
When the DIP switch setting is changed, the controller must
be switched off for at least 1 minute!
•Switch 9, automatic alarm resetting:
When the DIP switch setting is changed, the controller must
be switched off for at least 1 minute!
•Switch 10, automatic restarting:
When the DIP switch setting is changed, the controller must
be switched off for at least 1 minute!
AC/DC selector:
The AC/DC selector switch for electrodes and/or float switches is
placed as shown in fig. 7.
Fig. 7
The stop delay is the time from the stop signal is given until the
pump is stopped.
It must be ensured that the pump is not running dry.
0 sec. 60 sec.
15 sec. 90 sec.
30 sec. 120 sec.
45 sec. 180 sec.
Switch 8 has no function in connection with the actual
application (parallel operation with 3 float switches,
pages 142 and 143), but this setting must be
maintained!
This setting ensures automatic resetting of alarm
signals to external alarm devices and the built-in
buzzer. However, an alarm signal will only be reset if
the cause of the fault no longer exists.
At this setting, the alarm signal must be reset manually
by means of the reset button (the reset button is
described in section 4.5).
This setting enables automatic restarting after the PTC
resistance/thermal switch of the motor has cut out the
pump. Restarting will not be carried out until the motor
has cooled to normal temperature.
When the pumps connected are used in explosion
hazard areas, switch 10 must not be in this
position!
At this setting, the pump must be restarted manually after
the PTC resistance/thermal switch of the motor has cut
out the pump. To restart the pump, push the
ON-OFF-AUTO selector switch into position OFF for a
short period (the ON-OFF-AUTO selector switch is
described in section 4.5).
When the pumps connected are used in explosion
hazard areas, switch 10 must be in this position!
TM02 5747 3902
Operation with electrodes and
float switches:
Selector switch in position AC:
It is possible to connect 3
electrodes (1 as reference
electrode) and 2 float switches.
The controller transmits a 13 to
18 VAC signal.
Operation with float switches:
Selector switch in position AC:
It is possible to connect 4 float
switches.
The controller transmits a 13 to
18 VAC signal.
Operation with float switches:
Selector switch in position DC:
It is possible to connect 4 float
switches.
Cables of up to 100 metres can be
connected between the controller
and the float switches.
The controller transmits a 12 VDC
signal.
Note
If the distance between the controller and pit
exceeds 20 metres, it is not advisable to use
electrodes as problems with the signal values
sent back to the controller may arise.
In such cases, it is recommended to use float
switches.
AC 1 2
13-18 VAC
0 V
AC
DC
G3 4
AC 1 2
13-18 VAC
0 V
AC
DC
G3 4
AC 1 2
12 VDC
0 V
AC
DC
G3 4
English (GB)
10
4.3 Control panel
Parallel operation with 3 float switches, pages 142 and 143.
Figure 8 shows the control panel of the CU 212 module.
Fig. 8
Key to the symbols in fig. 8:
4.4 Battery back-up functions
Parallel operation with 3 float switches, pages 142 and 143.
If a back-up battery for CU 212 (accessory for certain variants) is
installed, the following functions will be carried out if the normal
electricity supply to the LCD 108 fails (see also the illustrations
below):
The common alarm is active, the red indicator light is on -
cannot be reset!
If the external alarm device for common alarm is supplied from
an external power source, this device will be active - cannot be
reset by means of the reset button!
The built-in buzzer (only certain variants) is activated - can be
reset by means of the reset button!
If the liquid level in the pit rises above the level for high-level
alarm, the top orange indicator light will be flashing and the
second orange indicator light from the top will be permanently
on.
If the starting delay function and automatic test run were
selected (switch 4 of the DIP switch), the start-up will be
delayed after the electricity supply has been switched on when
the liquid level is sufficiently high, see section 4.2.
The table below shows the situations which may occur if the
normal electricity supply to the LCD 108 fails and a back-up
battery is connected:
= the indicator light is off.
= the indicator light is on.
= the indicator light is flashing.
TM01 6397 3902
Pos. Description
1
Green indicator light for pump 1 and 2, indicating
starting delay (flashing) and pump operation
(permanently on).
2
Red indicator light for pump 1 and 2, indicating pump
fault.
Flashing: Fault in PTC resistor/thermal switch
On: Fault in motor-protective circuit breaker.
3
Red indicator light, indicating wrong phase sequence
(only certain variants and three-phase pumps only).
4 Red indicator light, indicating common alarm.
5
ON-OFF-AUTO selector switch for pump 1, three
positions, see section 4.5.
6
ON-OFF-AUTO selector switch for pump 2, three
positions, see section 4.5.
7
Reset button, push-button for manual resetting of alarm
signals to external alarm devices and the built-in buzzer
(only certain variants), see section 4.5.
8
Orange indicator light, which is activated by the float
switch for start of the first pump/common stop.
9
Orange indicator light, which is activated by the float
switch for start of the next pump.
10
and
11
Two orange indicator lights, which are activated by the
float switch for high-level alarm. In case of high-level
alarm, the top indicator light is flashing and the other is
permanently on.
12
Green indicator light, indicating that the electricity
supply has been switched on.
CU 212
21
1
2
1234
7
56
12
11
9
8
10
Mains supply failure:
The common alarm is active.
The red indicator light is on.
The green indicator light (electricity
supply switched on) is off.
Mains supply failure and high-level alarm:
The common alarm is active.
The red indicator light is on.
The top orange indicator light is
flashing.
The second orange indicator light from
the top is on.
The green indicator light (electricity
supply switched on) is off.
1
CU 212
2
CU 212
2
1
English (GB)
11
4.5 Reset button and ON-OFF-AUTO selector switch
Parallel operation with 3 float switches, pages 142 and 143.
The reset button is a push-button for manual resetting of alarm signals to external alarm devices and the built-in
buzzer (i.e. not for resetting of the alarm memory as this is reset by means of the ON-OFF-AUTO selector switch,
see position OFF ( )).
Even if the fault condition still exists, the external alarm devices and the built-in buzzer will be reset when the reset
button is pressed.
The ON-OFF-AUTO selector switch for each pump has three different positions:
ON ( ), top position:
The pump will start when the selector switch is pushed into this position (unless the motor protection relay has cut
out the pump).
If the PTC resistance/thermal switch of the motor registers overtemperature, the pump will not be switched off.
Note: It is the user’s responsibility to decide how long the pump is to run with this fault indication. Over a long
period, the pump will be damaged!
In explosion hazard areas, switch 10 of the DIP switch must be set as stated in section 4.2. Consequently, the
pump cannot be started when the PTC resistance/thermal switch of the motor registers overtemperature.
OFF ( ), middle position:
•The pump cannot start when the selector switch has been set to this position.
The alarm memory is reset by pushing the selector switch into position OFF ( ). The alarm memory is the light
indication of a fault condition which has disappeared. If a fault condition still exists when the selector switch is
pushed into position ON ( ) or AUTO ( ), the alarm indication will be repeated immediately.
AUTO ( ), bottom position:
The pump is controlled by the input signals from the float switches and the pump according to the selected DIP
switch setting.
Alarm signals will automatically be reset. Switch 9 of the DIP switch can, however, be set to manual resetting
which is carried out by means of the reset button, see section 4.2.
The pump will restart automatically when a given fault condition disappears. However, this is dependent on the
setting of switch 10 of the DIP switch, see section 4.2.
When the pump starts automatically after a fault condition which has disappeared, the indicator light will continue
to show the fault condition (alarm memory) and the indication can only be removed by resetting the alarm memory,
see position OFF ( ).
21
English (GB)
12
5. Systems for parallel operation with 4 float
switches
Description (see also page 144 or 145):
The pumps are controlled by the liquid level in the pit.
The float switch, pos. 2, starts the first pump.
The float switch, pos. 3, starts the next pump.
The float switch, pos. 1, stops both pumps after expiration of
the "stop delay" (can be set).
The pumps operate alternately.
The top float switch, pos. 4, activates the high-level alarm.
5.1 Electrical connection
Parallel operation with 4 float switches, pages 144 and 145.
Fig. 3 on page 144.
The figures show all electrical connections required to connect
the LCD 108 for direct-on-line starting, parallel operation with
4 float switches.
Fig. 4 on page 145.
The figure shows all electrical connections required to connect
the LCD 108 for star-delta starting, parallel operation with 4 float
switches.
The operating voltage and frequency are marked on the controller
nameplate. Make sure that the controller is suitable for the
electricity supply on which it will be used.
All cables/wires must be fitted through the Pg cable entries and
gaskets (IP65).
Maximum back-up fuse is stated on the controller nameplate.
If required according to local regulations, an external mains
switch must be installed.
Single-phase motors must be connected to an external operating
capacitor and in certain cases also to a starting capacitor.
Further details can be found in the installation and operating
instructions for the pump in question.
The float switches must be connected as NO contacts, i.e. brown
and black leads, when float switches, Grundfos product number
96003332 or 96003695, are used.
Key to the symbols in fig. 3 on page 144 and fig. 4 on
page 145:
5.2 Setting
Parallel operation with 4 float switches, pages 144 and 145.
The module CU 212 has a 10-pole DIP switch in the bottom right
corner, see fig. 9.
The DIP switch setting offers the following possibilities:
selection of starting delay and automatic test run (switch 4),
setting of stop delay (switches 5, 6 and 7),
selection of automatic alarm resetting (switch 9),
selection of automatic restarting (switch 10).
Fig. 9
Set the DIP switch as shown in fig. 9.
Each individual switch (1 to 10) of the DIP switch can be set to
position OFF or ON.
Warning
Before starting any work on pumps used to pump
liquids which could be constituted as being
hazardous to health, thorough cleaning/venting
of pumps, pits, etc. must be carried out
according to local regulations.
Before making any connections in the LCD 108 or
work on pumps, pits, etc., it must be ensured that
the electricity supply has been switched off and
that it cannot be accidentally switched on.
Warning
Before starting work on the system, switch off
the supply voltage and lock the mains switch in
position 0.
Any external voltage connected to the system
must be switched off before work is started.
Warning
The LCD 108 must be connected in accordance
with the rules and standards in force for the
application in question.
Caution
If the PTC resistance/thermal switch of the motor
is connected, the factory-fitted short-circuit
jumper must be removed (terminals T11-T21,
T12-T22). For correct installation of PTC resistor/
thermal switch, see the installation and operating
instructions of the pump.
Warning
Float switches placed in an explosion hazard
area must be connected via an EEx barrier, e.g.
Grundfos number 96440300.
The EEx barrier must not be installed in the
explosion hazard area.
Equipment used in explosion hazard areas must
in each individual case have been approved for
this particular application. Furthermore, the
cables into the explosion hazard area must be
laid in accordance with local regulations.
Note
Float switches of the same type as Grundfos
product number 96003332 or 96003695, i.e. float
switches with gold-plated contacts suitable for
low voltages and currents (40 V / 100 mA), must
be used. All EEx-approved float switches are also
suitable.
Pos. Description
Terminal
number
1 Float switch for common stop. 11-12
2 Float switch for start of the first pump. 21-22
3 Float switch for start of the next pump. 31-32
4 Float switch for high-level alarm. 41-42
Caution
The controller must be off circuit to ensure the
correct configuration during start-up after
change of the DIP switch setting.
TM04 2341 2308
English (GB)
13
Set the switches 1 to 10 as follows:
Switches 1, 2 and 3, application type:
When the DIP switch setting is changed, the controller must
be switched off for at least 1 minute!
•Switch 4, starting delay and automatic test run (only in the
case of battery back-up):
When the DIP switch setting is changed, the controller must
be switched off for at least 1 minute!
Switches 5, 6 and 7, stop delay:
When the DIP switch setting is changed, the controller must
be switched off for at least 1 minute!
•Switch 8:
When the DIP switch setting is changed, the controller must
be switched off for at least 1 minute!
•Switch 9, automatic alarm resetting:
When the DIP switch setting is changed, the controller must
be switched off for at least 1 minute!
•Switch 10, automatic restarting:
When the DIP switch setting is changed, the controller must
be switched off for at least 1 minute!
AC/DC selector:
The AC/DC selector switch for electrodes and/or float switches is
placed as shown in fig. 10.
Fig. 10
Note
The DIP switch must not be set to other switch
combinations than those described in this
section.
This setting determines the actual application type
(parallel operation with 4 float switches, pages 144 and
145).
At this setting, the start-up is delayed within the range
from 0 to 255 sec. (random) after the electricity supply
has been switched on when the liquid level is
sufficiently high.
Automatic test run carried out every 24 hours.
After the electricity has been switched on, the pump will
start immediately when the liquid level is sufficiently
high.
No automatic test run.
The stop delay is the time from the stop signal is given until the
pump is stopped.
It must be ensured that the pump is not running dry.
0 sec. 60 sec.
15 sec. 90 sec.
30 sec. 120 sec.
45 sec. 180 sec.
Switch 8 has no function in connection with the actual
application (parallel operation with 4 float switches,
pages 144 and 145), but this setting must be
maintained!
This setting ensures automatic resetting of alarm
signals to external alarm devices and the built-in
buzzer. However, an alarm signal will only be reset if
the cause of the fault no longer exists.
At this setting, the alarm signal must be reset manually
by means of the reset button (the reset button is
described in section 5.5).
This setting enables automatic restarting after the PTC
resistance/thermal switch of the motor has cut out the
pump. Restarting will not be carried out until the motor
has cooled to normal temperature.
When the pumps connected are used in explosion
hazard areas, switch 10 must not be in this
position!
At this setting, the pump must be restarted manually after
the PTC resistance/thermal switch of the motor has cut
out the pump. To restart the pump, push the
ON-OFF-AUTO selector switch into position OFF for a
short period (the ON-OFF-AUTO selector switch is
described in section 5.5).
When the pumps connected are used in explosion
hazard areas, switch 10 must be in this position!
TM02 5747 3902
Operation with electrodes and
float switches:
Selector switch in position AC:
It is possible to connect 3
electrodes (1 as reference
electrode) and 2 float switches.
The controller transmits a 13 to
18 VAC signal.
Operation with float switches:
Selector switch in position AC:
It is possible to connect 4 float
switches.
The controller transmits a 13 to
18 VAC signal.
Operation with float switches:
Selector switch in position DC:
It is possible to connect 4 float
switches.
Cables of up to 100 metres can be
connected between the controller
and the float switches.
The controller transmits a 12 VDC
signal.
Note
If the distance between the controller and pit
exceeds 20 metres, it is not advisable to use
electrodes as problems with the signal values
sent back to the controller may arise.
In such cases, it is recommended to use float
switches.
AC 1 2
13-18 VAC
0 V
AC
DC
G3 4
AC 1 2
13-18 VAC
0 V
AC
DC
G3 4
AC 1 2
12 VDC
0 V
AC
DC
G3 4
English (GB)
14
5.3 Control panel
Parallel operation with 4 float switches, pages 144 and 145.
Figure 11 shows the control panel of the CU 212 module.
Fig. 11
Key to the symbols in fig. 11:
5.4 Battery back-up functions
Parallel operation with 4 float switches, pages 144 and 145.
If a back-up battery for CU 212 (accessory for certain variants) is
installed, the following functions will be carried out if the normal
electricity supply to the LCD 108 fails (see also the illustrations
below):
The common alarm is active, the red indicator light is on -
cannot be reset!
If the external alarm device for common alarm is supplied from
an external power source, this device will be active - cannot be
reset by means of the reset button!
The built-in buzzer (only certain variants) is activated - can be
reset by means of the reset button!
If the liquid level in the pit rises above the level for high-level
alarm, the top orange indicator light will be flashing and the
second orange indicator light from the top will be permanently
on.
If the starting delay function and automatic test run were
selected (switch 4 of the DIP switch), the start-up will be
delayed after the electricity supply has been switched on when
the liquid level is sufficiently high, see section 5.2.
The table below shows the situations which may occur if the
normal electricity supply to the LCD 108 fails and a back-up
battery is connected:
= the indicator light is off.
= the indicator light is on.
= the indicator light is flashing.
TM01 6397 3902
Pos. Description
1
Green indicator light for pump 1 and 2, indicating
starting delay (flashing) and pump operation
(permanently on).
2
Red indicator light for pump 1 and 2.
Flashing: Fault in PTC resistor/thermal switch
On: Fault in motor-protective circuit breaker.
3
Red indicator light, indicating wrong phase sequence
(only certain variants and three-phase pumps only).
4 Red indicator light, indicating common alarm.
5
ON-OFF-AUTO selector switch for pump 1, three
positions, see section 5.5.
6
ON-OFF-AUTO selector switch for pump 2, three
positions, see section 5.5.
7
Reset button, push-button for manual resetting of alarm
signals to external alarm devices and the built-in buzzer
(only certain variants), see section 5.5.
8
Orange indicator light, which is activated by the float
switch for common stop.
9
Orange indicator light, which is activated by the float
switch for start of the first pump.
10
Orange indicator light, which is activated by the float
switch for start of the next pump.
11
Orange indicator light, which is activated by the float
switch for high-level alarm. In case of high-level alarm,
the indicator light is flashing.
12
Green indicator light, indicating that the electricity
supply has been switched on.
CU 212
21
1
2
1234
7
56
12
11
9
8
10
Mains supply failure:
The common alarm is active.
The red indicator light is on.
The green indicator light (electricity
supply switched on) is off.
Mains supply failure and high-level alarm:
The common alarm is active.
The red indicator light is on.
The top orange indicator light is
flashing.
The second orange indicator light from
the top is on.
The green indicator light (electricity
supply switched on) is off.
1
CU 212
2
CU 212
2
1
English (GB)
15
5.5 Reset button and ON-OFF-AUTO selector switch
Parallel operation with 4 float switches, pages 144 and 145.
The reset button is a push-button for manual resetting of alarm signals to external alarm devices and the built-in
buzzer (i.e. not for resetting of the alarm memory as this is reset by means of the ON-OFF-AUTO selector switch,
see position OFF ( )).
Even if the fault condition still exists, the external alarm devices and the built-in buzzer will be reset when the reset
button is pressed.
The ON-OFF-AUTO selector switch for each pump has three different positions:
ON ( ), top position:
The pump will start when the selector switch is pushed into this position (unless the motor protection relay has cut
out the pump).
If the PTC resistance/thermal switch of the motor registers overtemperature, the pump will not be switched off.
Note: It is the user’s responsibility to decide how long the pump is to run with this fault indication. Over a long
period, the pump will be damaged!
In explosion hazard areas, switch 10 of the DIP switch must be set as stated in section 5.2. Consequently,
the pump cannot be started when the PTC resistance/thermal switch of the motor registers overtemperature.
OFF ( ), middle position:
•The pump cannot start when the selector switch has been set to this position.
The alarm memory is reset by pushing the selector switch into position OFF ( ). The alarm memory is the light
indication of a fault condition which has disappeared. If a fault condition still exists when the selector switch is
pushed into position ON ( ) or AUTO ( ), the alarm indication will be repeated immediately.
AUTO ( ), bottom position:
The pump is controlled by the input signals from the float switches and the pump according to the selected DIP
switch setting.
Alarm signals will automatically be reset. Switch 9 of the DIP switch can, however, be set to manual resetting
which is carried out by means of the reset button, see section 5.2.
The pump will restart automatically when a given fault condition disappears. However, this is dependent on the
setting of switch 10 of the DIP switch, see section 5.2.
When the pump starts automatically after a fault condition which has disappeared, the indicator light will continue
to show the fault condition (alarm memory) and the indication can only be removed by resetting the alarm memory,
see position OFF ( ).
21
English (GB)
16
6. Systems for 100 % standby operation
Description (see also page 146 or 147):
The pumps are controlled by the liquid level in the pit.
The float switch, pos. 2, starts the first pump.
The float switch, pos. 4, starts the next pump.
The float switch, pos. 1, stops both pumps after expiration of
the "stop delay" (can be set).
The pumps operate alternately.
The float switch, pos. 3, activates the high-level alarm.
6.1 Electrical connection
100 % standby operation, pages 146 and 147.
Fig. 5 on page 146.
The figures show all electrical connections required to connect
the LCD 108 for direct-on-line starting, 100 % standby operation.
Fig. 6 on page 147.
The figure shows all electrical connections required to connect
the LCD 108 for star-delta starting, 100 % standby operation.
The operating voltage and frequency are marked on the controller
nameplate. Make sure that the controller is suitable for the
electricity supply on which it will be used.
All cables/wires must be fitted through the Pg cable entries and
gaskets (IP65).
Maximum back-up fuse is stated on the controller nameplate.
If required according to local regulations, an external mains
switch must be installed.
Single-phase motors must be connected to an external operating
capacitor and in certain cases also to a starting capacitor.
Further details can be found in the installation and operating
instructions for the pump in question.
The float switches must be connected as NO contacts, i.e. brown
and black leads, when float switches, Grundfos product number
96003332 or 96003695, are used.
Key to the symbols in fig. 5 on page 146 and fig. 6 on
page 147:
6.2 Setting
100 % standby operation, pages 146 and 147.
The module CU 212 has a 10-pole DIP switch in the bottom right
corner, see fig. 12.
The DIP switch setting offers the following possibilities:
selection of starting delay and automatic test run (switch 4),
setting of stop delay (switches 5, 6 and 7),
selection of automatic alarm resetting (switch 9),
selection of automatic restarting (switch 10).
Fig. 12
Set the DIP switch as shown in fig. 12.
Each individual switch (1 to 10) of the DIP switch can be set to
position OFF or ON.
Warning
Before starting any work on pumps used to pump
liquids which could be constituted as being
hazardous to health, thorough cleaning/venting
of pumps, pits, etc. must be carried out
according to local regulations.
Before making any connections in the LCD 108 or
work on pumps, pits, etc., it must be ensured that
the electricity supply has been switched off and
that it cannot be accidentally switched on.
Warning
Before starting work on the system, switch off
the supply voltage and lock the mains switch in
position 0.
Any external voltage connected to the system
must be switched off before work is started.
Warning
The LCD 108 must be connected in accordance
with the rules and standards in force for the
application in question.
Caution
If the PTC resistance/thermal switch of the motor
is connected, the factory-fitted short-circuit
jumper must be removed (terminals T11-T21,
T12-T22). For correct installation of PTC resistor/
thermal switch, see the installation and operating
instructions of the pump.
Warning
Float switches placed in an explosion hazard
area must be connected via an EEx barrier, e.g.
Grundfos number 96440300.
The EEx barrier must not be installed in the
explosion hazard area.
Equipment used in explosion hazard areas must
in each individual case have been approved for
this particular application. Furthermore, the
cables into the explosion hazard area must be
laid in accordance with local regulations.
Note
Float switches of the same type as Grundfos
product number 96003332 or 96003695, i.e. float
switches with gold-plated contacts suitable for
low voltages and currents (40 V / 100 mA), must
be used. All EEx-approved float switches are also
suitable.
Pos. Description
Terminal
number
1 Float switch for common stop. 11-12
2 Float switch for start of the first pump. 21-22
3 Float switch for high-level alarm. 31-32
4 Float switch for start of the next pump. 41-42
Caution
The controller must be off circuit to ensure the
correct configuration during start-up after
change of the DIP switch setting.
TM04 2340 2308
English (GB)
17
Set the switches 1 to 10 as follows:
Switches 1, 2 and 3, application type:
When the DIP switch setting is changed, the controller must
be switched off for at least 1 minute!
•Switch 4, starting delay and automatic test run (only in the
case of battery back-up):
When the DIP switch setting is changed, the controller must
be switched off for at least 1 minute!
Switches 5, 6 and 7, stop delay:
When the DIP switch setting is changed, the controller must
be switched off for at least 1 minute!
•Switch 8:
When the DIP switch setting is changed, the controller must
be switched off for at least 1 minute!
•Switch 9, automatic alarm resetting:
When the DIP switch setting is changed, the controller must
be switched off for at least 1 minute!
•Switch 10, automatic restarting:
When the DIP switch setting is changed, the controller must
be switched off for at least 1 minute!
AC/DC selector:
The AC/DC selector switch for electrodes and/or float switches is
placed as shown in fig. 13.
Fig. 13
Note
The DIP switch must not be set to other switch
combinations than those described in this
section.
This setting determines the actual application type
(100 % standby operation, pages 146 and 147).
At this setting, the start-up is delayed within the range
from 0 to 255 sec. (random) after the electricity supply
has been switched on when the liquid level is
sufficiently high.
Automatic test run carried out every 24 hours.
After the electricity has been switched on, the pump will
start immediately when the liquid level is sufficiently
high.
No automatic test run.
The stop delay is the time from the stop signal is given until the
pump is stopped.
It must be ensured that the pump is not running dry.
0 sec. 60 sec.
15 sec. 90 sec.
30 sec. 120 sec.
45 sec. 180 sec.
Switch 8 has no function in connection with the actual
application (100 % standby operation, pages 146 and
147), but this setting must be maintained!
This setting ensures automatic resetting of alarm
signals to external alarm devices and the built-in
buzzer. However, an alarm signal will only be reset if
the cause of the fault no longer exists.
At this setting, the alarm signal must be reset manually
by means of the reset button (the reset button is
described in section 6.5).
This setting enables automatic restarting after the PTC
resistance/thermal switch of the motor has cut out the
pump. Restarting will not be carried out until the motor
has cooled to normal temperature.
When the pumps connected are used in explosion
hazard areas, switch 10 must not be in this
position!
At this setting, the pump must be restarted manually after
the PTC resistance/thermal switch of the motor has cut
out the pump. To restart the pump, push the
ON-OFF-AUTO selector switch into position OFF for a
short period (the ON-OFF-AUTO selector switch is
described in section 6.5).
When the pumps connected are used in explosion
hazard areas, switch 10 must be in this position!
TM02 5747 3902
Operation with electrodes and
float switches:
Selector switch in position AC:
It is possible to connect
3 electrodes (1 as reference
electrode) and 2 float switches.
The controller transmits a 13 to
18 VAC signal.
Operation with float switches:
Selector switch in position AC:
It is possible to connect 4 float
switches.
The controller transmits a 13 to
18 VAC signal.
Operation with float switches:
Selector switch in position DC:
It is possible to connect 4 float
switches.
Cables of up to 100 metres can be
connected between the controller
and the float switches.
The controller transmits a 12 VDC
signal.
Note
If the distance between the controller and pit
exceeds 20 metres, it is not advisable to use
electrodes as problems with the signal values
sent back to the controller may arise.
In such cases, it is recommended to use float
switches.
AC 1 2
13-18 VAC
0 V
AC
DC
G3 4
AC 1 2
13-18 VAC
0 V
AC
DC
G3 4
AC 1 2
12 VDC
0 V
AC
DC
G3 4
English (GB)
18
6.3 Control panel
100 % standby operation, pages 146 and 147.
Figure 14 shows the control panel of the CU 212 module.
Fig. 14
Key to the symbols in fig. 14:
6.4 Battery back-up functions
100 % standby operation, pages 146 and 147.
If a back-up battery for CU 212 (accessory for certain variants) is
installed, the following functions will be carried out if the normal
electricity supply to the LCD 108 fails (see also the illustrations
below):
The common alarm is active, the red indicator light is on -
cannot be reset!
If the external alarm device for common alarm is supplied from
an external power source, this device will be active - cannot be
reset by means of the reset button!
The built-in buzzer (only certain variants) is activated - can be
reset by means of the reset button!
If the liquid level in the pit rises above the level for high-level
alarm, the second orange indicator light from the top will be
flashing. If the liquid level is higher than the level for start of
the next pump, the top orange indicator light will be
permanently on.
If the starting delay function and automatic test run were
selected (switch 4 of the DIP switch), the start-up will be
delayed after the electricity supply has been switched on when
the liquid level is sufficiently high, see section 6.2.
The table below shows the situations which may occur if the
normal electricity supply to the LCD 108 fails and a back-up
battery is connected:
= the indicator light is off.
= the indicator light is on.
= the indicator light is flashing.
TM01 6397 3902
Pos. Description
1
Green indicator light for pump 1 and 2, indicating
starting delay (flashing) and pump operation
(permanently on).
2
Red indicator light for pump 1 and 2.
Flashing: Fault in PTC resistor/thermal switch
On: Fault in motor-protective circuit breaker.
3
Red indicator light, indicating wrong phase sequence
(only certain variants and three-phase pumps only).
4 Red indicator light, indicating common alarm.
5
ON-OFF-AUTO selector switch for pump 1, three
positions, see section 6.5.
6
ON-OFF-AUTO selector switch for pump 2, three
positions, see section 6.5.
7
Reset button, push-button for manual resetting of alarm
signals to external alarm devices and the built-in buzzer
(only certain variants), see section 6.5.
8
Orange indicator light, which is activated by the float
switch for common stop.
9
Orange indicator light, which is activated by the float
switch for start of the first pump.
10
Orange indicator light, which is activated by the float
switch for high-level alarm. In case of high-level alarm,
the indicator light is flashing.
11
Orange indicator light, which is activated by the float
switch for start of the next pump.
12
Green indicator light, indicating that the electricity
supply has been switched on.
CU 212
21
1
2
1234
7
56
12
11
9
8
10
Mains supply failure:
The common alarm is active.
The red indicator light is on.
The green indicator light (electricity
supply switched on) is off.
Mains supply failure and high-level alarm:
The common alarm is active.
The red indicator light is on.
The top orange indicator light is on.
The second orange indicator light from
the top is flashing.
The green indicator light (electricity
supply switched on) is off.
1
CU 212
2
CU 212
2
1
English (GB)
19
6.5 Reset button and ON-OFF-AUTO selector switch
100 % standby operation, pages 146 and 147.
The reset button is a push-button for manual resetting of alarm signals to external alarm devices and the built-in
buzzer (i.e. not for resetting of the alarm memory as this is reset by means of the ON-OFF-AUTO selector switch,
see position OFF ( )).
Even if the fault condition still exists, the external alarm devices and the built-in buzzer will be reset when the reset
button is pressed.
The ON-OFF-AUTO selector switch for each pump has three different positions:
ON ( ), top position:
The pump will start when the selector switch is pushed into this position (unless the motor protection relay has cut
out the pump).
If the PTC resistance/thermal switch of the motor registers overtemperature, the pump will not be switched off.
Note: It is the user’s responsibility to decide how long the pump is to run with this fault indication. Over a long
period, the pump will be damaged!
In explosion hazard areas, switch 10 of the DIP switch must be set as stated in section 6.2. Consequently, the
pump cannot be started when the PTC resistance/thermal switch of the motor registers overtemperature.
OFF ( ), middle position:
•The pump cannot start when the selector switch has been set to this position.
The alarm memory is reset by pushing the selector switch into position OFF ( ). The alarm memory is the light
indication of a fault condition which has disappeared. If a fault condition still exists when the selector switch is
pushed into position ON ( ) or AUTO ( ), the alarm indication will be repeated immediately.
AUTO ( ), bottom position:
The pump is controlled by the input signals from the float switches and the pump according to the selected DIP
switch setting.
Alarm signals will automatically be reset. Switch 9 of the DIP switch can, however, be set to manual resetting
which is carried out by means of the reset button, see section 6.2.
The pump will restart automatically when a given fault condition disappears. However, this is dependent on the
setting of switch 10 of the DIP switch, see section 6.2.
When the pump starts automatically after a fault condition which has disappeared, the indicator light will continue
to show the fault condition (alarm memory) and the indication can only be removed by resetting the alarm memory,
see position OFF ( ).
21
English (GB)
20
7. System for full-control operation
Description (see also page 148 or 149):
The pumps are controlled by the liquid level in the pit.
The float switch, pos. 3, starts the first pump.
The float switch, pos. 4, starts the next pump.
The float switch, pos. 2, stops the last pump but one and the
float switch, pos. 1, stops the last pump. It is possible to set a
"stop delay" which delays the stop of the pumps.
The pumps operate alternately.
7.1 Electrical connection
Full-control operation, pages 148 and 149.
Fig. 7 on page 148.
The figures show all electrical connections required to connect
the LCD 108 for direct-on-line starting, full-control operation.
Fig. 8 on page 149.
The figure shows all electrical connections required to connect
the LCD 108 for star-delta starting, full-control operation.
The operating voltage and frequency are marked on the controller
nameplate. Make sure that the controller is suitable for the
electricity supply on which it will be used.
All cables/wires must be fitted through the Pg cable entries and
gaskets (IP65).
Maximum back-up fuse is stated on the controller nameplate.
If required according to local regulations, an external mains
switch must be installed.
Single-phase motors must be connected to an external operating
capacitor and in certain cases also to a starting capacitor.
Further details can be found in the installation and operating
instructions for the pump in question.
The float switches must be connected as NO contacts, i.e. brown
and black leads, when float switches, Grundfos product number
96003332 or 96003695, are used.
Key to the symbols in fig. 7 on page 148 and fig. 8 on
page 149:
7.2 Setting
Full-control operation, pages 148 and 149.
The module CU 212 has a 10-pole DIP switch in the bottom right
corner, see fig. 15.
The DIP switch setting offers the following possibilities:
selection of starting delay and automatic test run (switch 4),
setting of stop delay (switches 5, 6 and 7),
selection of automatic alarm resetting (switch 9),
selection of automatic restarting (switch 10).
Fig. 15
Set the DIP switch as shown in fig. 15.
Each individual switch (1 to 10) of the DIP switch can be set to
position OFF or ON.
Warning
Before starting any work on pumps used to pump
liquids which could be constituted as being
hazardous to health, thorough cleaning/venting
of pumps, pits, etc. must be carried out
according to local regulations.
Before making any connections in the LCD 108 or
work on pumps, pits, etc., it must be ensured that
the electricity supply has been switched off and
that it cannot be accidentally switched on.
Warning
Before starting work on the system, switch off
the supply voltage and lock the mains switch in
position 0.
Any external voltage connected to the system
must be switched off before work is started.
Warning
The LCD 108 must be connected in accordance
with the rules and standards in force for the
application in question.
Caution
If the PTC resistance/thermal switch of the motor
is connected, the factory-fitted short-circuit
jumper must be removed (terminals T11-T21,
T12-T22). For correct installation of PTC resistor/
thermal switch, see the installation and operating
instructions of the pump.
Warning
Float switches placed in an explosion hazard
area must be connected via an EEx barrier, e.g.
Grundfos number 96440300.
The EEx barrier must not be installed in the
explosion hazard area.
Equipment used in explosion hazard areas must
in each individual case have been approved for
this particular application. Furthermore, the
cables into the explosion hazard area must be
laid in accordance with local regulations.
Note
Float switches of the same type as Grundfos
product number 96003332 or 96003695, i.e. float
switches with gold-plated contacts suitable for
low voltages and currents (40 V / 100 mA), must
be used. All EEx-approved float switches are also
suitable.
Pos. Description
Terminal
number
1 Float switch for stop of the last pump. 11-12
2
Float switch for stop of the last pump but
one.
21-22
3 Float switch for start of the first pump. 31-32
4 Float switch for start of the next pump. 41-42
Caution
The controller must be off circuit to ensure the
correct configuration during start-up after
change of the DIP switch setting.
TM04 2342 2308
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Grundfos LCD 108 Installation And Operating Instructions Manual

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Installation And Operating Instructions Manual

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