8
the current setpoint time. This
parameter is the minimum
time a setpoint condition must
be continually met for the
required action to take place
(for example, starting a pump).
It is set in seconds from 0 to
31. Use the procedure in steps
3 and 4 above to make any
changes and go to the next
parameter.
10. The display should say PUMP
UP/PUMP DN XX where XX
is the current setting. This
parameter determines the
overall pump mode of the
controller. If you have a lift
station then set it to DN. Use
the procedure in steps 3 and
4 above to make any changes
and go to the next parameter.
11. The display should say
BACKUP TIME XXXS
where XXX is the current float
backup time. This parameter
is the time period after the high
float comes out of the water
that the pumps will remain on.
To disable the float backup
system set this to 000. It is set
in seconds from 0 to 255. Use
the procedure in steps 3 and
4 above to make any changes
and go to the next parameter.
12. The display should say START
TEST XXXS where XXX
is the current start test delay
time. This parameter is the
maximum time delay between
a pump being called and the
confirming pump run signal
(on the AUX/DIS input). To
disable the fail to start test
set this to 000. It is set in
seconds from 0 to 63. Use
the procedure in steps 3 and
4 above to make any changes
and go to the next parameter.
13. The display should say SEAL
XXX YYY. This parameter is
used to set up the mode of the
seal fail inputs. Use the UP
and DOWN buttons to select
between the options available.
The options are:
SEAL NORM AUTO R – In
this mode the seal fail input
is set to cause a failure if the
resistance to ground is less
than 2000 ohms and the alarm
will auto reset if the alarm
condition clears.
SEAL NORM LATCH – In
this mode the seal fail input
is set to cause a failure if the
resistance to ground is less
than 2000 ohms and the alarm
will latch up and must be
cleared by the MUTE/RESET
button.
SEAL INVR AUTO R – In
this mode the seal fail input
is set to cause a failure if the
resistance to ground is greater
than 2000 ohms and the alarm
will auto reset if the alarm
condition clears.
SEAL INVR LATCH – In
this mode the seal fail input
is set to cause a failure if the
resistance to ground is greater
than 2000 ohms and the alarm
will latch up and must be
cleared by the MUTE/RESET
button.
Use the procedure in steps
3 and 4 above to make any
changes and go to the next
parameter.
14. The display should say TEMP
XXX YYY. This parameter is
used to set up the mode of the
temperature fail inputs. Use
the UP and DOWN buttons
to select between the options
available. The options are:
TEMP NORM AUTO R –
In this mode the temp fail
input is set to cause a failure
if not shorted to ground and
the alarm will auto reset if the
alarm condition clears.
TEMP NORM LATCH –
In this mode the temp fail
input is set to cause a failure
if not shorted to ground and
the alarm will latch up and
must be cleared by the MUTE/
RESET button.
TEMP INVR AUTO R –
In this mode the temp fail
input is set to cause a failure
if shorted to ground and the
alarm will auto reset if the
alarm condition clears.
TEMP INVR LATCH – In
this mode the temp fail input is
set to cause a failure if shorted
to ground and the alarm will
latch up and must be cleared
by the MUTE/RESET button.
Use the procedure in steps
3 and 4 above to make any
changes and go to the next
parameter.
15. The display should say AUX
R XXX. This parameter is
used to set up the function of
the auxiliary relay output. Use
the UP and DOWN buttons
to select between the options
available. The options are:
HORN – The aux relay is for
an audible alarm (horn).
SEAL – The aux relay will
close if there is a seal fail
condition on any pump.
TEMP – The aux relay will
close if there is a temperature
fail condition on any pump.
SEAL TEMP – The aux relay
will close if there is a seal fail
or a temperature fail condition
on any pump.
Use the procedure in steps
3 and 4 above to make any
changes and go to the next
parameter.
