Ic: Reserve Configuration; Et: Exchange Time - DAB PWM 203 Mode D'emploi

6.6.8.3

IC: Reserve configuration

This configures the inverter as automatic or reserve. If set to auto (default) the inverter participates in the normal pumping process; if
configured as reserve, it is assigned with minimum start-up priority, i.e. this inverter will be the last to start up. If the number of active
inverters setting is lower of one unit than the number of inverters present and one element is set as reserve, this means that in
normal operating conditions the reserve inverter does not participate in normal pumping operations; otherwise if there is a fault on
one of the active inverters, (power supply failure, safety device trip etc.) the reserve inverter is started up.
The reserve configuration status can be checked as follows: in the SM page, the upper section of the icon is coloured; in the AD and
main pages, the communication icon representing the inverter address is displayed with the number on a coloured background.
There may be more than one inverter configured as reserve in a pumping system.
Inverters configured as reserve, even though not part of the normal pumping process, are still kept efficient by means of the anti-
stagnant algorithm. The anti-stagnant algorithm envisages, once every 23 hours, the exchange of start-up priority, to ensure that
each inverter accumulates at least one minute of continuous flow. This algorithm aims at avoiding deterioration of the water in the
impeller and to maintain efficiency of moving parts; it is useful for all inverters and in particular for the inverters configured as
reserve, which do not operate in normal conditions.
6.6.8.3.1 Examples of configuration for multi-inverter systems
Example 1:
A pump set comprising 2 inverters (N=2 detected automatically) of which 1 is set as active (NA=1), one simultaneous (NC=1 or
NC=NA provided that NA=1) and one as reserve (IC=reserve on one of the two inverters).
The effect is as follows: the inverter not configured as reserve starts up and runs alone (even if it cannot withstand the hydraulic load
and the pressure is too low). In the event of a fault, the reserve inverter is started up.
Example 2:
A pump set comprising 2 inverters (N=2 detected automatically) of which all inverters are active and simultaneous (default setting
NA=N and NC=NA) and one as reserve (IC=reserve on one of the two inverters).
The effect is as follows: the inverter not configured as reserve always starts up first; if the pressure reached is too low, the second
inverter, configured as reserve, also starts up. In this way, the use of one inverter in particular is preserved (the inverter configured
as reserve), but is always available as a support when necessary in the event of increased hydraulic loads.
Example 3:
A pump set comprising 6 inverters (N=6 detected automatically) of which 4 are set as active (NA=4), 3 simultaneous (NC=3) and 2
as reserve (IC=reserve on two inverters).
The effect is as follows: a maximum of 3 inverters start up simultaneously. Operation of the 3 inverters enabled for simultaneous
mode is implemented in rotation between the 4 inverters to remain within the maximum operating time of each ET. In the event of a
fault on one of the active inverters, no reserve unit is started up as no more than three inverters can be started up at a time (NC=3)
and there are still three active inverters present. The first reserve unit intervenes only when one of the remaining three has a fault;
the second reserve is started up when another of the three (including the first reserve) has a fault.
6.6.9

ET: Exchange time

This sets the maximum continuous operating time of an inverter within a group. It is only applicable on pump sets with
interconnected inverters (link). The time can be set to between 10 s and 9 hours, or to 0; the factory setting is 2 hours.
When the time ET of an inverter has elapsed, the system starting order is re-assigned so that the "expired" inverter is set to minimum
priority. This strategy aims at reducing use of the inverter that has already been in operation, and to balance operating times of the
various units in the group. Despite assignment as the last unit in the starting order, if the hydraulic load requires intervention of this
specific inverter, it is started up to guarantee adequate system pressure.
The starting priority is re-assigned in two conditions, according to the time ET:
1) Exchange during pumping process: when the pump is active continuously through to exceeding the maximum absolute
pumping time.
2) Exchange on standby: when the pump is on standby but 50% of the time ET has been exceeded.
If ET is set to 0, exchange occurs on standby. Each time a pump in the group stops, a different pump will be activated on restart.
If the parameter ET (maximum working time) is set to 0, exchange occurs on each restart, regardless of the effective
working time of the pump.
ENGLISH
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