ENGLISH
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signal can be received on each of the 4 inputs by suitably configuring the
signal can be received on each of the 4 inputs by suitably configuring the
input (see Setup of auxiliary digital inputs IN1, IN2, IN3, IN4 par 7.6.15).
input (see Setup of auxiliary digital inputs IN1, IN2, IN3, IN4 par 7.6.15).
T1 can be set between 0 and 12 s. The factory setting is 2 s.
T1 can be set between 0 and 12 s. The factory setting is 2 s.
7.6.3 - T2: Delay in switching off
7.6.3 - T2: Delay in switching off
Sets the delay with which the inverter must switch off after switch-off con
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Sets the delay with which the inverter must switch off after switch-off con
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ditions have been reached: plant under pressure and flow rate lower than
ditions have been reached: plant under pressure and flow rate lower than
the minimum flow.
the minimum flow.
T2 can be set between 2 and 120 s. The factory setting is 10 s.
T2 can be set between 2 and 120 s. The factory setting is 10 s.
7.6.4 - GP: Proportional gain coefficient
7.6.4 - GP: Proportional gain coefficient
Generally the proportional term must be increased for systems character
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Generally the proportional term must be increased for systems character
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ised by elasticity (for example with PVC pipes) and lowered in rigid sys
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ised by elasticity (for example with PVC pipes) and lowered in rigid sys
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tems (for example with iron pipes).
tems (for example with iron pipes).
To keep the pressure in the system constant, the inverter performs a type
To keep the pressure in the system constant, the inverter performs a type
PI control on the measured pressure error. Depending on this error the
PI control on the measured pressure error. Depending on this error the
inverter calculates the power to be supplied to the motor. The behaviour
inverter calculates the power to be supplied to the motor. The behaviour
of this control depends on the set GP and GI parameters. To cope with
of this control depends on the set GP and GI parameters. To cope with
the different behaviour of the various types of hydraulic plants where the
the different behaviour of the various types of hydraulic plants where the
system can work, the inverter allows the selection of parameters different
system can work, the inverter allows the selection of parameters different
from those set by the factory. For nearly all plants the factory-set GP and
from those set by the factory. For nearly all plants the factory-set GP and
GI parameters are optimal. However, should any problems occur in ad
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GI parameters are optimal. However, should any problems occur in ad
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justment, these settings may be varied.
justment, these settings may be varied.
7.6.5 - GI: Integral gain coefficient
7.6.5 - GI: Integral gain coefficient
IIn the presence of large falls in pressure due to a sudden increase of the
IIn the presence of large falls in pressure due to a sudden increase of the
flow or a slow response of the system, increase the value of GI. Instead,
flow or a slow response of the system, increase the value of GI. Instead,
if there are swings in pressure around the setpoint value, decrease the
if there are swings in pressure around the setpoint value, decrease the
value of GI.
value of GI.
7.6.6 - RM: Maximum speed
7.6.6 - RM: Maximum speed
ISets a maximum limit on the number of pump revolutions.
ISets a maximum limit on the number of pump revolutions.
7.6.7 - Setting the number of devices and of reserves
7.6.7 - Setting the number of devices and of reserves
IMPORTANT:
To obtain satisfactory pressure adjustments, you gener
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ally have to adjust both GP and GI
7.6.8 - NA: Active devices
7.6.8 - NA: Active devices
Sets the maximum number of devices that participate in pumping.
Sets the maximum number of devices that participate in pumping.
It may have values between 1 and the number of devices present (max 4).
It may have values between 1 and the number of devices present (max 4).
The default value for NA is N, that is the number of devices present in the
The default value for NA is N, that is the number of devices present in the
chain; this means that if devices are added to or removed from the chain,
chain; this means that if devices are added to or removed from the chain,
NA always has the value of the number of devices present, automatically
NA always has the value of the number of devices present, automatically
detected. If a number different from N is set, this fixes the maximum num
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detected. If a number different from N is set, this fixes the maximum num
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ber of devices that can participate in pumping at the number set.
ber of devices that can participate in pumping at the number set.
This parameter is used in cases where there is a limit on the pumps you
This parameter is used in cases where there is a limit on the pumps you
can or want to be able to keep running, and if you want to keep one or
can or want to be able to keep running, and if you want to keep one or
more devices as a reserve (see 7.6.10 IC: Configuration of the reserve and
more devices as a reserve (see 7.6.10 IC: Configuration of the reserve and
other examples below).
other examples below).
On the same menu page you can also see (but not change) the other two
On the same menu page you can also see (but not change) the other two
system parameters linked to this, that is N, the number of devices present,
system parameters linked to this, that is N, the number of devices present,
acquired automatically by the system, and NC, the maximum number of
acquired automatically by the system, and NC, the maximum number of
simultaneous devices.
simultaneous devices.
7.6.9 NC: Simultaneous devices
7.6.9 NC: Simultaneous devices
Sets the maximum number of devices that can work at the same time.
Sets the maximum number of devices that can work at the same time.
It may have values between 1 and NA. The default value of NC is NA, this
It may have values between 1 and NA. The default value of NC is NA, this
means that even if NA increases, NC will have the value NA. If a number
means that even if NA increases, NC will have the value NA. If a number
different from NA is set, this releases you from NA and fixes the maximum
different from NA is set, this releases you from NA and fixes the maximum
number of simultaneous devices at the number set. This parameter is used
number of simultaneous devices at the number set. This parameter is used
in cases where there is a limit on the pumps you can or want to be able
in cases where there is a limit on the pumps you can or want to be able
to keep running (see 7.6.10 IC: Configuration of the reserve and other
to keep running (see 7.6.10 IC: Configuration of the reserve and other
examples below).
examples below).
On the same menu page you can also see (but not change) the other two
On the same menu page you can also see (but not change) the other two
system parameters linked to this, that is N, the number of devices present,
system parameters linked to this, that is N, the number of devices present,
read automatically by the system, and NA, the number of active devices.
read automatically by the system, and NA, the number of active devices.
7.6.10 IC: Configuration of the reserve
7.6.10 IC: Configuration of the reserve
Configures the device as automatic or reserve. If set on auto (default) the
Configures the device as automatic or reserve. If set on auto (default) the
device participates in normal pumping, if configured as reserves, minimum
device participates in normal pumping, if configured as reserves, minimum
starting priority is associated with it, this means that the device with this
starting priority is associated with it, this means that the device with this
setting will always start last. If a number of active devices is set that is one
setting will always start last. If a number of active devices is set that is one
lower than the number of devices present and if one element is set as re
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lower than the number of devices present and if one element is set as re
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Summary of Contents for e.sybox Series
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