Xylem ECOCIRC XL, XLplus Electronic drive User Manual

o ConstT, for heating applications, using

external temp. sensor

In this application the pump is installed in the flow
pipe, and utilizes the external temp. sensor
According to what described in par. 6.1.1, the
necessary correspondent settings are:

- 0x0030 - Temperature Control Mode = 2
- 0x0031

– Absolute Temperature Setpoint =

desired value in the range [20°C ÷ 110°C]

- 0x0033

– Temperature Probe = 1

- 0x0034

– Temperature Slope = 1

o ConstT, in cooling applications, using internal

temp. sensor

In this application the pump is installed in the
return pipe, and utilizes the internal temp. sensor
According to what described in par. 6.1.1, the
necessary correspondent settings are:

- 0x0030 - Temperature Control Mode = 2
- 0x0031

– Absolute Temperature Setpoint =

desired value in the range [-10°C ÷ 19°C]

- 0x0033

– Temperature Probe = 0

- 0x0034

– Temperature Slope = 0

o ConstT, in cooling applications, using external

temp. sensor

In this application the pump is installed in the flow
pipe, and utilizes the external temp. sensor
According to what described in par. 6.1.1, the
necessary correspondent settings are:

- 0x0030 - Temperature Control Mode = 2
- 0x0031

– Absolute Temperature Setpoint =

desired value in the range [-10°C ÷ 19°C]

- 0x0033

– Temperature Probe = 1

- 0x0034

– Temperature Slope = 0

6.1.2.2

Constant Differential Temperature
[Const

ΔT]

This control mode keeps the differential temperature of
the pumped liquid constant, changing the flow rate to
maintain the user-settable set-point
In this case, it’s unnecessary to discriminate between
heating

and

cooling

application,

because

the

differential temperature is considered as absolute
value.
According to what described in par. 6.1.1, the
necessary correspondent settings are:

- 0x0030 - Temperature Control Mode = 2
- 0x0032

– Differential Temperature Setpoint =

desired value

- 0x0033

– Temperature Probe = 2

6.1.2.3

Constant pressure depending on water
temperature [Const

ΔP/T]

In this control mode the drive alters the differential
pressure set-point the pump has to maintain,
depending on the measured fluid temperature, as
depicted in

Figure 3

Figure 3

Referring to

Figure 3



Tmin = 20



C



Tmax = Absolute Temperature Setpoint (par.
0x0031)



Hsmin = 30% of Hsmax



Hsmax = Constant pressure set-point (settable
via User Interface, see par. 4.3.3.1)

The Const

ΔP/T control mode can be evidently

deployed in the subsequent possible application

o Const

ΔP/T, positive relation P/T, using internal

temp. sensor

According to what described in par. 6.1.1, the
necessary correspondent settings are:

- 0x0030 - Temperature Control Mode = 1
- 0x0031

– Absolute Temperature Setpoint =

desired value

- 0x0033

– Temperature Probe = 0

- 0x0034

– Temperature Slope = 0

- Control Mode = Constant Pressure (settable

via User Interface)

- Constant Pressure Setpoint = desired value

o Const

ΔP/T, negative relation P/T, using internal

temp. sensor

According to what described in par. 6.1.1, the
necessary correspondent settings are:

- 0x0030 - Temperature Control Mode = 1
- 0x0031

– Absolute Temperature Setpoint =

desired value

- 0x0033

– Temperature Probe = 0

- 0x0034

– Temperature Slope = 1

- Control Mode = Constant Pressure (settable

via User Interface)

- Constant Pressure Setpoint = desired value

o Const

ΔP/T, positive relation P/T, using external

temp. sensor

According to what described in par. 6.1.1, the
necessary correspondent settings are:

- 0x0030 - Temperature Control Mode = 1
- 0x0031

– Absolute Temperature Setpoint =

desired value

- 0x0033

– Temperature Probe = 1

- 0x0034

– Temperature Slope = 0

- Control Mode = Constant Pressure (settable

via User Interface)

- Constant Pressure Setpoint = desired value