ATV12H075M2 Crouzet USA, ATV12H075M2 Datasheet - Page 37

ATV12H075M2

Manufacturer Part Number

ATV12H075M2

Description

11R1089

Manufacturer

Crouzet USA

Datasheets

1.ATV12H075M2.pdf (1 pages)

2.ATV12H037F1.pdf (40 pages)

Specifications of ATV12H075M2

No. Of Phases

Single

Power Rating

0.75kW

Output Voltage Max

230V

Frequency Range

0.5 To 400Hz

Output Current

4.2A

Supply Voltage Max

230V

Rohs Compliant

Yes

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Functions

Single variable mode

Single variable mode with auxiliary pump

HSP

Introduction:

page 8

FOF

Variable pump frequency (Hz)

FOn

Single variable mode with auxiliary pump: hysteresis

(continued)

Specifications:

page 10

Installation flow rate

Altivar

variable speed drives

The main objective here is to control a complete pumping installation using a single

Altivar

The Altivar 12 has 11 functions designed for water pumping applications:

b Control in single variable mode

b Control in single variable mode with auxiliary pump

b Underload detection

b Overload detection

b Sleep

b Wake-up

b PID feedback supervision

b No-load operation detection

b Quick start

b Automatic restart on underload and overload faults

b PID reference adjustment range for the end user

Control in single variable mode

The system is operated using a single variable speed pump (

A PID regulator controls the variable speed pump.

A pressure sensor provides the “PID feedback” information required for system

feedback.

Control in single variable mode with auxiliary pump

The system is operated using a fixed speed pump, called the auxiliary pump, and a

variable speed pump, which is unable to provide the full flow range required on its

own (

The auxiliary pump's starting and stopping are controlled by logic output LO+

according to the PID regulator output (variable pump frequency reference) with a

hysteresis effect as shown in the diagram below (

Auxiliary pump starting (

If the variable pump control frequency exceeds the threshold (FOn) for longer than a

time period (tON), the auxiliary pump is put into operation (1). The variable pump

reference decreases linearly until it reaches the threshold (FOF).

In order to reduce the effect of overpressure caused by starting of the auxiliary

pump, the deceleration time of the variable pump (rOn) must be set to the time that

the auxiliary pump takes to reach its nominal speed.

Auxiliary pump stopping (

Conversely, if the variable pump control frequency falls below the threshold (FOF)

for a period (tOF), the auxiliary pump is stopped (2) and the variable pump reference

increases linearly until it reaches the threshold (FOn). The acceleration time (rOF)

is set to the stopping time of the auxiliary pump in order to minimize the effect of

underpressure.

FOF

FOn: Starting frequency of the auxiliary pump

FOF: Stopping frequency of the auxiliary pump

References:

page 14

Variable pump frequency (Hz)

FOn

Auxiliary pump start

Pump-specific application functions

Auxiliary pump starting

Auxiliary pump stopping

Frequency range corresponding to the auxiliary pump flow rate

12 drive by ensuring constant pressure in the system whatever the flow rate.

tOn

rOn

)

Dimensions:

page 18

)

FOF

Auxiliary pump stop

Variable pump frequency (Hz)

FOn

tOF

Connections:

page 22

rOF

ATV12H075M2 Crouzet USA, ATV12H075M2 Datasheet - Page 37

ATV12H075M2

Specifications of ATV12H075M2

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