HVX HVX Drive For Xylem High Efficiency Motor Control Instruction Manual

HVX HVX Drive For Xylem High Efficiency Motor Control

Product Information

Specifications

• Product: HVX, HVX+ Drive for Xylem high-efficiency motor control
• Firmware Version: 01.00.00

Product Description

The product is a drive for controlling high-efficiency motors installed on Xylem pump units.

Part Names

1. Radio equipment approval sticker
2. Drive
3. Drive display
4. Data plate
5. Power supply and signal cable inlets
6. Connection to the motor
7. Drive warning sticker

Data Plate

1. Model
2. Input operating limits
3. Identification code
4. Output operating limits
5. Serial number
6. Room temperature range

Product Usage Instructions

Installation

Precautions

• Before starting, make sure that the safety instructions shown in Introduction and Safety have been fully read and understood.
• DANGER: Installation and all the electrical connections must be completed by a technician possessing the technical-professional requirements outlined in the current regulations.
• WARNING: Always wear personal protective equipment.
• WARNING: Always use suitable working tools.
• WARNING: When selecting the place of installation and connecting the unit to the electric power supplies, strictly comply with current regulations.

Electrical Measures

• DANGER: Electrical hazard. Before starting work, check that the electric power supply is disconnected and locked out, to avoid unintentional restart of the unit, the control panel, and the auxiliary control circuit.

FAQ

Q: What is the purpose of this manual?
A: The purpose of this manual is to provide installation, operation, and programming instructions for the HVX, HVX+ Drive for Xylem high-efficiency motor control.

Q: Who should use this unit?
A: This unit should be used only by qualified users who are able to recognize the risks and avoid hazards during installation, use, and maintenance of the unit.

Q: How should I dispose of the packaging and product?
A: Please comply with the current regulations on sorted waste disposal for the proper disposal of packaging and the product.

Installation, Operation and Programming Manual
HVX, HVX+
Drive for Xylem high-efficiency motor control
Firmware Version: 01.00.00

HVX, HVX+ ­ Installation, Operation and Programming Manual

Introduction and Safety

en – Original Instructions

1.1 Introduction
Purpose of this manual
This manual provides information on how to do the following in the correct manner: · Installation · Operation · Programming.
Supplementary instructions
The instructions and warnings of this manual apply to the standard unit as described in the sale documentation. Special version pumps may be supplied with supplementary instruction manuals. For situations not considered in the manual or in the commercial documentation, contact Xylem or the Authorised Distributor.

1.2 Hazard levels and safety symbols

Before using the unit, the user must read, understand and comply with the indications of the danger warnings in order to avoid the following risks: · Injuries and health hazards · Damage to the product · Unit malfunction.

Hazard levels

Hazard level

DANGER:

Indication
It identifies a dangerous situation which, if not avoided, causes serious injury, or even death.

WARNING:

It identifies a dangerous situation which, if not avoided, may cause serious injury, or even death.

ATTENTION:

It identifies a dangerous situation which, if not avoided, may cause small or medium level injuries.

NOTE:

It identifies a situation which, if not avoided, may cause damage to property but not to people.

Complementary symbols Symbol

Description Electrical hazard

Hot surface hazard

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1.3 User safety
Strictly comply with current health and safety regulations. Qualified personnel
This unit must be used only by qualified users. Qualified users are people able to recognise the risks and avoid hazards during installation, use and maintenance of the unit.
1.4 Protection of the environment
Disposal of packaging and product Comply with the current regulations on sorted waste disposal.

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HVX, HVX+ ­ Installation, Operation and Programming Manual

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2 Product Description
The product is a drive for controlling high-efficiency motors installed on Xylem pump units.
2.1 Part names

1. Radio equipment approval sticker 2. Drive 3. Drive display 4. Data plate 5. Power supply and signal cable inlets 6. Connection to the motor 7. Drive warning sticker
2.2 Data plate

1. Model 2. Input operating limits 3. Identification code 4. Output operating limits 5. Serial number 6. Room temperature range

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2.3 Drive warning sticker
2.4 Radio equipment approval sticker
1. United States of America 2. Canada 3. Other countries

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HVX, HVX+ ­ Installation, Operation and Programming Manual

Installation

en – Original Instructions

3.1 Precautions
General precautions
Before starting, make sure that the safety instructions shown in Introduction and Safety on page 5 have been fully read and understood.
DANGER: Installation and all the electrical connections must be completed by a technician possessing the technical-professional requirements outlined in the current regulations.

WARNING: Always wear personal protective equipment.

WARNING: Always use suitable working tools.

WARNING: When selecting the place of installation and connecting the unit to the electric power supplies, strictly comply with current regulations.
Electrical measures
DANGER: Electrical hazard Before starting work, check that the electric power supply is disconnected and locked out, to avoid unintentional restart of the unit, the control panel and the auxiliary control circuit.

Ground

NOTE: The mains voltage and frequency must match the values indicated on the drive data plate.
DANGER: Electrical hazard Always connect the external protection conductor (ground) to the ground terminal before attempting to make any other electrical connections.

DANGER: Electrical hazard Connect all the electrical accessories of the unit to the ground.

DANGER: Electrical hazard
Check that the external protection conductor (ground) is longer than the phase conductors. In case of accidental disconnection of the unit from the phase conductors, the protection conductor must be the last one to detach itself from the terminal.

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DANGER: Electrical hazard Install suitable systems for protection against indirect contact, in order to prevent lethal electric shocks.

3.2 Guidelines for electrical connection
1. Check that the electrical leads are protected against: · High temperature · Vibrations · Collisions · Liquids.
2. Check that the power supply line is provided with: · A short circuit protection device of appropriate size · A mains disconnection device with contact opening distance ensuring complete disconnection for overvoltage III category conditions.
3.3 Guidelines for the control panel

NOTE: The control panel must match the ratings on the unit data plate.

3.3.1 Fuses and/or automatic switches

· An electronically activated drive function ensures motor overload protection. The overload protection function calculates the increment level in order to activate the timing of the trigger function (motor stop). The higher the input current, the faster the response. The function provides Class 20 protection for the motor.
· The drive must be equipped with overcurrent and short-circuit protection to prevent the overheating of the power supply cables. Line fuses or automatic switches must be installed to ensure this protection. Fuses and automatic switches must be provided by the installer as part of the installation.
· Use the recommended fuses and/or automatic switches on the power supply side as protection in the event of drive component failure (first failure). The use of the recommended fuses and automatic switches ensures that possible damage to the drive is limited to the inside of the same. For other types of protection, ensure that the passing energy is equal to or less than that of the recommended models.
· The fuses shown in the table are suitable for use on a circuit capable of releasing 5000 Arms (symmetrical), maximum 480 V. With the indicated fuses, the short-circuit current rating (SCCR) for the drive is 5000 Arms.
The figure shows the recommended fuses and switches.

HVX, HVX+ model
B C D B C D

Xylem motor model

Three-phase power supply voltage, Vac

EXM…/3….B.. EXM…/3….C.. EXM…/3….D.. EXM…/4….B.. EXM…/4….C.. EXM…/4….D..

200 – 240 380 – 480

Non-UL UL fuses, type T, manufacturer and model

fuses, type Bussmann Edison gG, A

Littelfuse FerrazShawmut

16

JJN-15 TJN (15) JLLN 15 A3T15

30

JJN-30 TJN (30) JLLN 30 A3T30

63

JJN-60 TJN (60) JLLN 60 A3T60

16

JJS-15 TJS (15) JLLS 15 A6T15

30

JJS-30 TJS (30) JLLS 30 A6T30

63

JJS-60 TJS (60) JLLS 60 A6T60

MCB S203 model ABB Switches
C16 C32 C63 C16 C32 C63

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HVX, HVX+ ­ Installation, Operation and Programming Manual

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3.3.2 Residual current devices, RCD (GFCI)
When using ground fault circuit breakers, GFCI, or residual current devices, RCD, also known as automatic earth leakage circuit breakers, ELCD, check that: · They are suitable sized for the system configuration and environment of use · They have a starting delay to prevent faults caused by transient ground currents · They can detect alternate or direct current, they are marked with the symbols shown in the
figure.
NOTE: When using an automatic earth leakage switch or a ground fault switch, make sure to consider the total earth leakage current of all the electric devices of the system.
3.4 Guidelines for the drive
3.4.1 Assembly

1. Motor 2. Drive 3. Fastening screw 4. Seal

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1. Lubricate the seal with alcohol. 2. Move the drive close to the motor. 3. Tighten the screws with a Torx spanner.
Tightening torque: · Size B and C: 6 Nm (55 lbf·in) ± 15% · Size D: 8 Nm (70 lbf·in) ± 15%.
3.4.2 Power supply connection

1. Drive 2. Terminals 3. Screws of the cover 4. Phase conductors 5. Cable Gland 6. Power supply cord 7. Protection conductor (ground) 8. Cover 9. Additional ground connection
1. Remove the cover and observe the wiring diagrams inside. 2. Insert the power cable in the cable gland. 3. Tightly connect the conductors, making sure that the protection one is longer than the
phase ones. For size D only, tighten the terminal screws with a Pozidriv screwdriver. Tightening torque: 4 Nm (35 lbf·in). 4. Tighten the cable gland. 5. Fit the cover and tighten the screws. Tightening torque: 3 Nm (27 lbf·in) ± 15%.

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HVX, HVX+ ­ Installation, Operation and Programming Manual

3.4.3 Auxiliary connections
HVX+

en – Original Instructions

Position number 1 2 3 4 5 6 7 8 9 10
11 12
13 14 15 16 17 18

Name

Description

Default setting

Analogue input 1 Power supply +24 VDC, max. 60 mA (total, terminals 1 + 5)

Configurable analogue input 1

Electronic GND

Reserved

For internal use, do not connect

Analogue input 2 Power supply +24 VDC, max. 60 mA (total, terminals 1 + 5)

Configurable analogue input 2

Electronic GND

External Start/Stop Digital start/stop input, internal pull-up +24 VDC, contact current 6 mA

Electronic GND

External Lack of Low water level digital input, internal pull-up +24 VDC, contact current 6

Water

mA

Electronic GND

Digital Input 3

Configurable digital input 3, internal pull-up +24 VDC, contact current 6 mA

Electronic GND

Analogue output Configurable analogue output

Electronic GND

Analogue input 3 Power supply +24 VDC, max. 60 mA (total, terminals 16 and 19)

Configurable analogue input 3

Electronic GND

Pressure sensor 1
Not selected
–
Emergency start at maximum speed Motor Speed Not selected

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Position number 19 20 21 22
23 24
25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45

Name

Description

Default setting

Analogue input 4
Digital Input 4
Digital Input 5
10 VDC power supply Communication Bus 1
Communication Bus 2
Communication Bus 1
Communication Bus 2
Relay 1
Relay 2

Power supply +24 VDC, max. 60 mA (total, terminals 16 and 19) Configurable analogue input 4 Electronic GND Configurable digital input 4, internal pull-up +24 VDC, contact current 6 mA Electronic GND Configurable digital input 5, internal pull-up +24 VDC, contact current 6 mA Electronic GND Power supply +10 VDC, max. 3 mA Electronic GND RS485 port 1: RS485-1B N (-) RS485 port 1: RS485-1A P (+) RS485 port 1: RS485-COM RS485 port 2: RS485-2B N (-) RS485 port 2: RS485-2A P (+) RS485 port 2: RS485-COM RS485 port 1: RS485-1B N (-) RS485 port 1: RS485-1A P (+) RS485 port 1: RS485-COM RS485 port 2: RS485-2B N (-) RS485 port 2: RS485-2A P (+) RS485 port 2: RS485-COM Configurable relay 1: normally open Configurable relay 1: normally closed Configurable relay 1: common contact Configurable relay 2: normally open Configurable relay 2: normally closed Configurable relay 2: common contact

Not selected Not selected Not selected Multipump Modbus Multipump Modbus Error Reporting Motor start

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HVX

en – Original Instructions

Position number 1 2 3 4 5 6 7 8 9 10
11 12
13 14 15 28 29 30 31 32 33

Name

Description

Default setting

Analogue input 1 Power supply +24 VDC, max. 60 mA (total, terminals 1 + 5)

Configurable analogue input 1

Electronic GND

Reserved

For internal use, do not connect

Analogue input 2 Power supply +24 VDC, max. 60 mA (total, terminals 1 + 5)

Configurable analogue input 2

Electronic GND

External Start/Stop Digital start/stop input, internal pull-up +24 VDC, contact current 6 mA

Electronic GND

External Lack of Low water level digital input, internal pull-up +24 VDC, contact current 6

Water

mA

Electronic GND

Digital Input 3

Configurable digital input 3, internal pull-up +24 VDC, contact current 6 mA

Electronic GND

Analogue output Configurable analogue output

Electronic GND

Communication RS485 port 1: RS485-1B N (-)

Bus 1

RS485 port 1: RS485-1A P (+)

RS485 port 1: RS485-COM

Communication RS485 port 2: RS485-2B N (-)

Bus 2

RS485 port 2: RS485-2A P (+)

RS485 port 2: RS485-COM

Pressure sensor 1
Not selected
–
Emergency start at maximum speed Motor Speed Multipump
Modbus

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Position number 34 35 36 37 38 39 40 41 42 43 44 45

Name

Description

Communication Bus 1
Communication Bus 2
Relay 1
Relay 2

RS485 port 1: RS485-1B N (-) RS485 port 1: RS485-1A P (+) RS485 port 1: RS485-COM RS485 port 2: RS485-2B N (-) RS485 port 2: RS485-2A P (+) RS485 port 2: RS485-COM Configurable relay 1: normally open Configurable relay 1: normally closed Configurable relay 1: common contact Configurable relay 2: normally open Configurable relay 2: normally closed Configurable relay 2: common contact

Default setting Multipump Modbus Error Reporting Motor start

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HVX, HVX+ ­ Installation, Operation and Programming Manual

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4 Control
Introduction
DANGER: Electrical hazard If the drive display is damaged, contact Xylem or the Authorised Distributor.
WARNING: Hot surface hazard Only touch the drive display buttons. Pay attention to the high temperature released by the unit.
Depending on model, please observe the instructions in the paragraphs HVX+ drive display on page 17 or HVX drive display on page 20.
4.1 HVX+ drive display

Position number 1 2 3
4

Name Display ON/OFF button
UP and DOWN arrow keys
RIGHT and LEFT arrow keys

Function
· Start and stop the unit · Reset the errors by pressing for 5 seconds. · Move vertically between menu options · Perform a manual switch-over on a multi-pump system by pressing the DOWN arrow
(extended pressure) · Rotate the display 180° by simultaneously pressing ENTER and the UP arrow (extended
pressure). · Move horizontally to navigate home screens and menus · Lock and unlock the display by simultaneously pressing the RIGHT and LEFT arrows
(extended pressure).

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Position number 5 6 7
8
9

Name SEND button Unit LED on Unit status LED
Connection status LED
Multifunction button

Function
· Advancing through the menu levels · Confirm the selection of a parameter · Confirm the value of a parameter.
Indicate that the unit is powered.
Indicate: · Motor not powered (off) · Alarm active and motor stopped (yellow) · Unit error and motor stopped (red) · Motor started (green) · Alarm active and motor started (yellow alternating green).
Indicate: · BMS communication disabled (off) · BMS communication active (green) · Wireless communication with mobile device established (fixed blue) · Wireless communication with mobile device being established (flashing blue) · Wireless communication and BMS communication active (blue alternating green).
· Access the parameter menu or additional functions according to the screen on the display.
· Enable the unit to a mobile device (extended pressure)

4.1.1 Graphic display

Position number
1

Name Header bar

2

Main screen

3

Lower bar

Description
It shows static information and messages relating to the operating conditions, such as: · Alarms · Errors · Multi-pump operation.
It shows the main information and allows the operating parameters to be changed. There are up to 5 screens, which can be navigated by pressing the RIGHT and LEFT arrow keys.
The symbol next to an entry indicates an editable parameter.
Show: · On the left, the essential operating information, such as the actual adjustment value
and the speed percentage at which the unit is operating · On the right, the buttons available for interaction in the main screen.

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HVX, HVX+ ­ Installation, Operation and Programming Manual

4.1.2 Parameter menu, HVX+

en – Original Instructions

Position number
1
2

Name
Header bar Parameter list

3

Lower bar

Description
It shows the parameter path at menu and submenu level.
Show: · The index, · The name, · The preview of the value of the parameters for the current menu level. To advance a level or change the value, press SEND or the RIGHT arrow key.
Show: · On the left, the essential operating information, such as the actual adjustment value
and the speed percentage at which the unit is operating · On the right, the buttons available for interaction in the main screen.

The menu is split into 3 levels: · Main · Submenu · Parameters.

To display or change a parameter: 1. Press the function button in the main screen. 2. Enter the password using the arrow keys. 3. Press SEND.
Note: after 10 minutes of inactivity, the password must be re-entered. 4. Press the RIGHT arrow key or SEND to advance between levels, or the LEFT arrow key to
return.

4.1.3 Unit start using the HVX+ drive display
1. Check the connection between the START/STOP and GND inputs on the terminal board. 2. Press ON/OFF to start the unit.
Note: if parameter 1.0.45 Autostart is configured to “Yes”, it will not be necessary to press ON/OFF again at the next start. 3. With the unit in operation, the working setpoint can be changed by switching to the second screen.

4.1.4 Operating mode change, HVX+
The unit parameters are set at the factory and the unit is ready for use. To change parameters and advanced features, access the configuration menu. 1. Press the multi-function button. 2. Enter the password using the arrow keys. 3. Press SEND. 4. Navigate through the menus to locate the parameter or function to be changed.

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4.1.5 Error reset, HVX+
In the event of an error, the unit automatically makes several attempts to reset itself, where permitted: if the attempts are unsuccessful, the unit stops and the display shows the error code. To eliminate the error: 1. Open the first main screen by pressing SEND. 2. Read the description of the error in the screen. 3. Identify the cause and follow the troubleshooting instructions 4. Reset the error by pressing and holding down ON/OFF for 3 seconds: the unit returns to
the status before the error.
4.2 HVX drive display

Position number 1
2
3 4

Name

Function

Menu indicator
Seven-segment display Speed bar Multi-pump communication indicator

Indicate: · Navigation through the menu items (steady light) · The display of a parameter value (flashing light).

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Position number 5 6 7
8
9 10 11
12
13

Name

Function

Unit of measure indicator ON/OFF button UP and DOWN arrow keys
RIGHT and LEFT arrow keys
SEND button
Unit LED on Unit status LED
Connection status LED
Wireless technology communication button

· Start and stop the unit · Reset the errors by pressing for 5 seconds.
· Quickly change the setpoint in the main display · Navigate through the submenus and change the parameter displayed in the parameter
menu · Perform a manual switch-over on a multi-pump system by pressing the DOWN arrow
(extended pressure) · Rotate the display 180° by simultaneously pressing ENTER and the UP arrow (extended
pressure).
· Show speed and pressure in alternation in the main display · Navigate the parameter menu levels · LEFT arrow only, confirm the changed value · Lock and unlock the display by simultaneously pressing the RIGHT and LEFT arrows
(extended pressure). · RIGHT arrow only, navigate through the active error codes, if more than one are present
· Advancing through the menu levels · Confirm the value of a parameter · Enter the parameter configuration menu (extended pressure).
Indicate that the unit is powered.
Indicate: · Motor not powered (off) · Alarm active and motor stopped (yellow) · Unit error and motor stopped (red) · Motor started (green) · Alarm active and motor started (yellow alternating green).
Indicate: · BMS communication disabled (off) · BMS communication active (green) · Wireless communication with mobile device established (fixed blue) · Wireless communication with mobile device being established (flashing blue) · Wireless communication and BMS communication active (blue alternating green).
Connect the unit to a mobile device.

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4.2.1 Main visualization

Glyph

Name OFF
STOP

Description
Unit stopped with ON/OFF button or BMS. Note: lower priority in relation to STOP.
START/STOP and GND digital inputs open.

Start request Alarm Error

Request to start the unit with the ON/OFF button. It remains active for a few seconds, then the following appears: · Unit in operation, or · Alarm, or · Error.
Alarm code of the unit in alarm status, in alternation with the main display. The unit status LED can be: · Yellow= motor stopped · Yellow in alternation with green = motor started.
Error code of the unit in error status.

Unit in operation Unit in operation and selected unit of measure display: · Speed, 10xRPM · Pressure in bar or psi.
Display blocked Display locked by the operator and button operation inhibited.

4.2.2 Parameter menu, HVX

The menu is split into 3 levels: · Main · Submenu · Parameters.

To display or change a parameter: 1. Press the SEND button (extended pressure). 2. Enter the password using the arrow keys. 3. Press SEND.
Note: after 10 minutes of inactivity, the password must be re-entered. 4. Press the UP and DOWN arrow keys to navigate through the menus. 5. Press SEND or the RIGHT arrow to go to the menu sub-levels until the parameter value is
found. 6. Press the UP and DOWN arrow keys to increase or decrease the parameter value. 7. Press SEND or the LEFT arrow key to confirm.
Note: after 5 seconds of inactivity, the parameter returns to the previously set value.

Glyph

Name

Notes

Main menu

· Menus numbered from 1 to 9. · Menu indicator: fixed light.

Submenu

· Submenus numbered from 1 to 9. · Menu indicator: fixed light.

Parameter

Navigation in the parameter level. · Parameters numbered from 0 to 99. · Submenus numbered from 1 to 9. · Menu indicator: fixed light.

Parameter value Parameter value modification. · Menu indicator: light flashing. · Parameter value while editing: flashing.

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HVX, HVX+ ­ Installation, Operation and Programming Manual

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4.2.3 Unit start using the HVX drive display
1. Check the connection between the START/STOP and GND inputs on the terminal board. 2. Press ON/OFF to start the unit.
Note: if parameter 1.0.45 Autostart is configured to “Yes”, it will not be necessary to press ON/OFF again at the next start. 3. With the unit in operation, the control setpoint can be changed with immediate effect using the UP and DOWN arrow keys.
4.2.4 Operating mode change, HVX
The unit parameters are set at the factory and the unit is ready for use. To change parameters and advanced features, access the configuration parameters.

1. Press the SEND button (extended pressure). 2. Enter the password using the arrow keys. 3. Press SEND. 4. Select the parameter to be changed in the M01 menu.
   4.2.5 Error reset, HVX
   In the event of an error, the unit automatically makes several attempts to reset itself, where permitted: if the attempts are unsuccessful, the unit stops and the display shows the error code. To eliminate the error: 1. Identify the cause and follow the troubleshooting instructions 2. Reset the error by pressing and holding down ON/OFF for 3 seconds: the unit returns to
   the status before the error.
   4.3 Xylem X App
   Introduction
   Available for mobile devices with wireless technology operating system. Use the App to: · Check the status of the unit · Configure parameters · Interact with the unit and obtain data during installation and maintenance · Generate a work report · Contact the assistance service.
   Download the App and connect the mobile device with the unit
   1. Download the Xylem X App to the mobile device from App Store 1 or Google Play 2 by scanning the QR code:

1 Compatible with iOS® operating systems with version 15.0 and above 2 Compatible with Android operating systems with version 10.0 and above

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en – Original Instructions 2. Complete the registration.
3. On the drive display, press the wireless communication button. 4. Add the unit to the user profile.
5. When the connection has been established, the connection light turns blue steady: it is now possible to control the unit using the mobile device.

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HVX, HVX+ ­ Installation, Operation and Programming Manual

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5 Programming

Firmware version

The firmware version can be displayed through parameter P03.4.19.

Symbols used

Symbol (G)
(X+) (X) (A) (R)

Description Global. The change of this parameter in one unit of a multi-pump system is transmitted to all other units. If the symbol is not present, the parameter is only applied to the unit in which it is displayed. Only available on HVX+. Only available on HVX. Only available on HVX when using the Xylem X app. Read only. The parameter cannot be changed. If the symbol is not present, the parameter can be changed.

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5.1 M01, home menu

Frequently used parameters or their aliases.

5.1.1 S01.0 application

Parameter Type P01.0.01 (X+) P01.0.05 (G)

Name Language System Type

Description See parameter P09.0.01. See parameter P04.0.01.

P01.0.06 (G) P01.0.10 (G) P01.0.11 P01.0.15 (G)

Control Mode System Configuration Multipump Address Start Value

See parameter P04.0.02. See parameter P06.0.01. See parameter P06.0.03. See parameter P04.0.05.

P01.0.20 (G)

Lack Of Water Delay

See parameter P04.3.11.

P01.0.31 (G)

Pressure – Minimum Threshold See parameter P04.3.01.

P01.0.32 (G) (X+)
P01.0.33 (G) (X+)
P01.0.34 (G) (X+)
P01.0.40 (G)

Flow – Minimum Threshold See parameter P04.3.02.

Temperature – Minimum Threshold

See parameter P04.3.03.

Level – Minimum Threshold See parameter P04.3.04.

Minimum Threshold Delay See parameter P04.3.10.

P01.0.45 (G) P01.0.46
P01.0.50 (X+) P01.0.51 (X+)

Auto Start On/Off Set
Date Hour

See parameter P04.0.06. Select the ON (On) or OFF ( ) Off status of the pump unit. Corresponds to the action on the ON/OFF button. See parameter P09.0.11. See parameter P09.0.12.

Value
Default = English
Default = depending on the pump unit model
Default = constant pressure
Default = single pump unit
Min = 1
Min = 0% Max = 100% Default = 100%
Min = 1 s Max = 100 s Default = 1 s
Min = P01.1.11 Max = P01.1.12 Default = P01.1.11 (disabled)
Min = P01.1.21 Max = P01.1.22 Default = P01.1.21 (disabled)
Min = P01.1.31 Max = P01.1.32 Default = P01.1.31 (disabled)
Min = P01.1.41 Max = P01.1.42 Default = P01.1.41 (disabled)
Min = 1 s Max = 100 s Default = 1 s
Default = yes
Default = Off
–
–

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HVX, HVX+ ­ Installation, Operation and Programming Manual

5.1.2 S01.1 sensors

Parameter Type P01.1.00

Name Measuring Unit Selection

P01.1.01

Actuator – Zero Value

Description See parameter P04.0.09.
See parameter P05.0.01.

P01.1.02

Actuator – Full Scale

See parameter P05.0.02.

P01.1.11 (G)

Pressure – Zero Value

See parameter P05.0.11.

P01.1.12 (G)

Pressure – Full Scale

See parameter P05.0.12.

P01.1.21 (G) (X+)
P01.1.22 (G) (X+)
P01.1.31 (G) (X+)
P01.1.32 (G) (X+)
P01.1.41 (G) (X+)
P01.1.42 (G) (X+)

Flow – Zero Value

See parameter P05.0.21.

Flow – Full Scale

See parameter P05.0.22.

Temperature – Zero Value

See parameter P05.0.31.

Temperature – Full Scale

See parameter P05.0.32.

Level – Zero Value

See parameter P05.0.41.

Level – Full Scale

See parameter P05.0.42.

en – Original Instructions
Value
Default = International System units
Min = 0 rpm Max = 9999 rpm Default = 0 rpm
Min = 0 rpm Max = 9999 rpm Default = 3600 rpm
Min = -5 bar Max = 10 bar Default = 0 bar
Min = 0 bar Max = 100 bar Default = depending on the pump unit model Min = 0 m3/h Max = 9999 m3/h Default = 0 m3/h Min = 0 m3/h Max = 9999 m3/h Default = 100 m3/h
Min = -100 °C Max = 9999 °C Default = 0 °C
Min = -100 °C Max = 9999 °C Default = 100 °C
Min = -999 m Max = 9999 m Default = 0 m
Min = -999 m Max = 9999 m Default = 10 m

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5.1.3 S01.2 setpoint

Parameter Type P01.2.01 (G)

Name Speed Setpoint 1

Description See parameter P04.1.01.

P01.2.02 (G)

Speed Setpoint 2

See parameter P04.1.02.

P01.2.03 (G) (X+)
P01.2.04 (G) (X+)
P01.2.11 (G)

Speed Setpoint 3 Speed Setpoint 4 Pressure Setpoint 1

See parameter P04.1.03. See parameter P04.1.04. See parameter P04.1.11.

P01.2.12 (G)

Pressure Setpoint 2

See parameter P04.1.12.

P01.2.13 (G) (X+)
P01.2.14 (G) (X+)
P01.2.21 (G) (X+)
P01.2.22 (G) (X+)
P01.2.23 (G) (X+)
P01.2.24 (G) (X+)
P01.2.31 (G) (X+)
P01.2.32 (G) (X+)
P01.2.33 (G) (X+)
P01.2.34 (G) (X+)

Pressure Setpoint 3

See parameter P04.1.13.

Pressure Setpoint 4

See parameter P04.1.14.

Flow Setpoint 1

See parameter P04.1.21.

Flow Setpoint 2

See parameter P04.1.22.

Flow Setpoint 3

See parameter P04.1.23.

Flow Setpoint 4

See parameter P04.1.24.

Temperature Setpoint 1

See parameter P04.1.31.

Temperature Setpoint 2

See parameter P04.1.32.

Temperature Setpoint 3

See parameter P04.1.33.

Temperature Setpoint 4

See parameter P04.1.34.

Value
Min = P04.2.31 Max = P04.2.32 Default = 2000 rpm
Min = P04.2.31 Max = P04.2.32 Default = 2000 rpm
Min = P04.2.31 Max = P04.2.32 Default = 2000 rpm
Min = P04.2.31 Max = P04.2.31 Default = 2000 rpm
Min = P01.1.11 Max = P01.1.12 Default = 3,5 bar
Min = P01.1.11 Max = P01.1.12 Default = 3,5 bar
Min = P01.1.11 Max = P01.1.12 Default = 3,5 bar
Min = P01.1.11 Max = P01.1.12 Default = 3,5 bar
Min = P01.1.21 Max = P01.1.22 Default = 0 m3/h
Min = P01.1.21 Max = P01.1.22 Default = 0 m3/h
Min = P01.1.21 Max = P01.1.22 Default = 0 m3/h
Min = P01.1.21 Max = P01.1.22 Default = 0 m3/h
Min = P01.1.31 Max = P01.1.32 Default = 25°C
Min = P01.1.31 Max = P01.1.32 Default = 25°C
Min = P01.1.31 Max = P01.1.32 Default = 25°C
Min = P01.1.31 Max = P01.1.32 Default = 25°C

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HVX, HVX+ ­ Installation, Operation and Programming Manual

Parameter Type P01.2.41 (G)
(X+)
P01.2.42 (G) (X+)
P01.2.43 (G) (X+)
P01.2.44 (G) (X+)

Name Level Setpoint 1
Level Setpoint 2
Level Setpoint 3
Level Setpoint 4

5.1.4 S01.4 Jog mode

Parameter Type P01.4.01

Name Jog Speed

P01.4.02 (G)

Min. speed

5.1.5 S01.5 safety

Parameter Type P01.5.10

Name Password Entry

P01.5.11 P01.5.12

Logout Set Password

Description See parameter P04.1.41.
See parameter P04.1.42.
See parameter P04.1.43.
See parameter P04.1.44.

en – Original Instructions
Value
Min = P01.1.41 Max = P01.1.42 Default = 0 m
Min = P01.1.41 Max = P01.1.42 Default = 0 m
Min = P01.1.41 Max = P01.1.42 Default = 0 m
Min = P01.1.41 Max = P01.1.42 Default = 0 m

Description
Select the speed for Jog mode. It is used to run the pump unit at a specific speed, to prime the pump unit and to determine the minimum speed.
See parameter P04.2.31

Value
Min = 0 Max = P04.2.32 Default = 0
Min = 0 Max = P04.2.32 Default = depending on the pump unit model

Description See parameter P09.4.01
See parameter P09.4.02 See parameter P09.4.03

Value Min = 0 Max = 999
Min = 0 Max = 999 Default = 66

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5.2 M02, Error Log
Shows the errors stored in the log, in chronological order: Error 1 is the last recorded. Each log entry includes a counter indicating how many times the same error code has been logged. If a new error generated has the same code as the last error recorded, the counter is increased by 1; if, however, the error code is different, a new record is created.

5.2.1 S02.0 errors

Parameter Type

Name

Description

Value

P02.0.01 (R)

Error 1 (Most Recent)

–

(G)

P02.0.02 (R)

Error 2

–

(G)

P02.0.03 (R)

Error 3

–

(G)

P02.0.04 (R)

Error 4

–

(G)

P02.0.05 (R)

Error 5

–

(G)

P02.0.06 (R)

Error 6

–

(G)

P02.0.07 (R)

Error 7

–

(G)

P02.0.08 (R)

Error 8

–

(G)

P02.0.09 (R)

Error 9

–

(G)

P02.0.10 (R)

Error 10

–

(G)

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5.3 M03, pump unit information
It groups the parameters useful for application, pump unit and drive diagnostics.

5.3.1 S03.0 measured values

Parameter Type P03.0.01 (R) P03.0.02 (R) P03.0.03 (R) P03.0.04 (R) P03.0.10 (R)

Name Current pressure Actual Flow Current liquid temperature Actual Level Effective Required Value

P03.0.20 (R) (G)
P03.0.30 (R) (G)

Required Value Pump status

Description

Value

Current measured pressure value.

–

Current measured flow value.

–

Current measured liquid temperature value

–

Current value of the liquid level.

–

Current requested effective value. It’s the result of proportional or quadratic pressure control, head losses compensation and offset function.

Current requested value It’s the current setpoint, before the calculation of proportional or quadratic pressure control, head losses compensation or offset function.

Displays the current status of the unit.

–

0-Off (Off): the unit is set to stand still (OFF).

1-Run (run): the unit is running (the motor is rotating).

2-Alarm, unit stopped (ALS): the unit is not running because the

START/STOP contact is open and an alarm is active.

3-Alarm, unit running (ALr): the unit is running (the motor is

rotating) and an alarm is active.

4-Alarm, unit in on (ALn): the unit is not running but is ready to

start (ON) and an alarm is active.

5-Alarm, unit in off (ALO): the unit is set to stand still (OFF) and an

alarm is active.

6-Error (Err): the unit is not running because an error is active.

7-Stop (Stp): the unit is not running because the START/STOP

contact is open.

8-On (On): the unit is not running but is ready to start (ON).

5.3.2 S03.1 counters

Parameter Type
P03.1.01 (R) (G) (A)
P03.1.02 (R) (G) (A)
P03.1.05 (R) (G) (A)

Name Unit Powered Time
Operating time
Energy Counter

Description

Value

Displays the total time elapsed from the electrically powered pump unit.

Displays the total time the motor has spent running.

–

Displays the total energy used by the pump unit.

–

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5.3.3 S03.2 motor

Parameter Type
P03.2.01 (R) (G)
P03.2.02 (R) (G)
P03.2.05 (R) (G)
P03.2.06 (R) (G)
P03.2.07 (R) (G)
P03.2.08 (R) (G)
P03.2.09 (R) (G)
P03.2.20 (R) (G)
P03.2.21 (R) (G)
P03.2.22 (R) (G)

Name Motor Speed Motor Speed % Motor current Motor load Motor Voltage Grid Voltage DC Bus Voltage Power Module Temperature Inverter Temperature Motor PTC

Description

Value

Displays the actual motor speed in rpm.

–

Displays the actual motor speed in percentage.

–

Displays the actual motor input current.

–

Displays the actual motor electric power input.

–

Displays the actual voltage provided to the motor.

–

Displays the actual voltage provided by the power grid.

–

Displays the actual DC bus voltage.

–

Displays the actual temperature of the power module responsible for the current supplied to the motor.

Displays the actual temperature of the air inside the drive,

–

measured on the electronic board.

Displays the actual motor PTC reading, if present.

–

5.3.4 S03.3 status of inputs/outputs

Parameter Type P03.3.01 (R)
(A)
P03.3.11 (R)

Name Digital I/O Status
Analogue Input 1 Value

Description

Value

Displays the status of the digital inputs and outputs, in the following order: DI5 DI4 DI3 LOW START REL2 REL1
/STOP 0/1 0/1 0/1 0/1 0/1 0/1 0/1 The status of each digital I/O is represented by: · 0 if contact is open (relay de-energised) · 1 if the contact is closed (relay energised).

Displays the raw value of the analogue input 1.

–

P03.3.12 (R)

Analogue Input 2 Value

Displays the raw value of the analogue input 2.

–

P03.3.13 (R)

Analogue Input 3 Value

Displays the raw value of the analogue input 3.

–

(X+)

P03.3.14 (R)

Analogue Input 4 Value

Displays the raw value of the analogue input 4.

–

(X+)

P03.3.20 (R)

Analogue Output Value

Displays the value of the analogue output.

–

P03.3.30 (R)

Flow Sensor Value

Displays the value measured by the pump unit flow sensor, if present. –

P03.3.31 (R)

Temperature Sensor Value Displays the value measured by the pump unit temperature sensor, if present.

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HVX, HVX+ ­ Installation, Operation and Programming Manual

5.3.5 S03.4 Product information

Parameter Type
P03.4.01 (R) (A)

Name Unit Part Number

Description Product code (PN) of the complete pump unit.

P03.4.02 (R) (A)

Unit Production Date

Production date (PD) of the complete pump unit.

P03.4.03 (R) (A)

Unit Serial Number

Serial number (SN) of the complete pump unit.

P03.4.05 (R) (A)
P03.4.06 (R) (A)
P03.4.10 (R) (G) (A)
P03.4.11 (R) (G) (A)
P03.4.12 (R) (G) (A)
P03.4.13 (R) (G) (A)
P03.4.14 (R) (A)

Drive Production Date Drive Serial Number Hmi Firmware Version

Drive production date (PD). Drive serial number (SN). Firmware version of the user interface board.

Hmi-Bt Firmware Version

Version of the wireless communication board firmware.

Power Card Firmware Version Firmware version of the power board.

Control Card Firmware Version Firmware version of the control board.

Map File Version

Version of the map file.

P03.4.15 (R) (A)

Default File Version

Version of the default file.

P03.4.16 (R) (A)

Parameter File Version

Version of the parameter file.

P03.4.17 (R) (X+)

Language File Version

Version of the language file.

P03.4.19 (R)

Firmware Version

Device firmware cumulative version.

en – Original Instructions
Value –

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5.4 M04, pump unit configuration
It groups the parameters to configure the pump unit for the desired application.

5.4.1 S04.0 configuration
Parameter Type Name P04.0.01 (G) System Type P04.0.02 (G) Control Mode
P04.0.03 (G) Regulation Mode P04.0.05 (G) Start Value

Description

Value

Select the type of system.

Default = depending

0-Pressurisation (PrS): for open-circuit systems, e.g. systems for supplying water to on the pump unit

the upper floors of a building, filling or emptying a reservoir, irrigation, etc.

model

Select the control mode for the pump unit.

Default = constant

0-Actuator (ACT): the unit works as a constant-speed actuator, varying the motor pressure

speed according to an external speed signal or to one or more programmed speeds.

It can only be used for one unit in single operation.

1-Constant pressure (CP): the unit maintains constant pressure regardless of flow

variation. The pressure feedback is read through a sensor connected to an analogue

input or through fieldbus.

2-Proportional Pressure (PP): the unit increases the pressure setpoint (actual

required value) in a linear manner in proportion to the flow. The flow can be

approximated using the motor speed or measured using a flow sensor connected to

an analogue input or through fieldbus. The pressure feedback is read through a

sensor connected to an analogue input or through fieldbus.

(X+) 3-Proportional Quadratic Pressure: the unit increases the pressure setpoint

(actual required value) in a quadratic manner in proportion to the flow. The flow can

be approximated using the motor speed or measured using a flow sensor connected

to an analogue input or through fieldbus. The pressure feedback is read through a

sensor connected to an analogue input or through fieldbus.

(X+) 4-Constant flow: the unit varies the motor speed to keep a constant flow. The

flow feedback is read through a sensor connected to an analogue input or through

fieldbus.

(X+) 5-Constant temperature: the unit varies the motor speed to keep a constant

temperature. The temperature feedback is read through a sensor connected to an

analogue input or through fieldbus.

(X+) 6-Constant Level: the unit varies the motor speed to maintain a constant level,

for example of a tank or well. The level feedback is read through a sensor connected

to an analogue input or through fieldbus.

Select the adjustment mode. 0-Normal (Nor): the motor speed increases when the measured value is below the setpoint. 1-Inverse (Inu): the motor speed increases when the measured value is above the setpoint.

Default =Normal

Select the start value after the stop of the system due to the setpoint having been Min = 0%

reached, as a percentage of the setpoint.

Max = 100%

In a pressure boosting system, if the setpoint is reached and there is no more liquid Default = 100%

demand, it stops. The pump unit restarts when the pressure drops below the Start

Value. For example, if the setpoint is set to 10 bar, the start value set to 90% will start

the pump unit at 9 bar.

Caution: if the value is set too low, for example below the suction pressure, the pump

unit will not start. If set to 100%, the function is disabled.

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Parameter Type Name

Description

Value

P04.0.06 (G) Auto Start

Select the status of the pump unit when restarting after an electric power supply Default = yes failure. 0-Yes: when the electric power supply returns, the system returns to the status it was in before the disconnection. 1-No: when the electric power supply returns, the system is set to OFF.

P04.0.07 (G) Configuration of minimum Select the behaviour of the pump unit when the setpoint and minimum speed are Default = Zero speed

speed

reached.

In actuator control mode, this parameter selects the behaviour of the pump unit

when the speed setpoint is lower than the minimum speed.

0-Minimum speed (Nin): the pump unit continues at minimum speed.

1-Null velocity (0): the pump unit reaches speed 0 and stops.

P04.0.09

Measuring Unit Selection Select the measuring unit set used by the unit.

Default = International System units

P04.0.11

(G) Pressure Measuring Unit Select the measuring unit for the pressure. (X+)

Default = bar

P04.0.12

(G) Flow Measuring Unit (X+)

Select the measuring unit for the flow.

Default = m3/h

P04.0.13

(G) Temperature Measuring Select the measuring unit for the temperature. (X+) Unit

Default = °C

P04.0.14

(G) Level Measuring Unit (X+)

Select the measuring unit for the level.

Default = m

P04.0.21

Setpoint 1 Selection

Select the reference origin for setpoint 1. 0-Analogue(AnA): the setpoint reference is provided through one of the analogue inputs. 1-Parameter (PAr): the setpoint reference is provided through one of the dedicated parameters.

Default = Parameter

P04.0.22

Setpoint 2 Selection

Select the reference origin for setpoint 2. 0-Off (): the setpoint is not used. 1-Analogue (AnA): the setpoint reference is provided through one of the analogue inputs. 2-Parameter (PAr): the setpoint reference is provided through one of the dedicated parameters.

Default = Parameter

P04.0.23 (X+) Setpoint 3 Selection

Select the reference origin for setpoint 3.

Default = Parameter

0-Off: The setpoint is not used.

1-Analogue: the setpoint reference is provided through one of the analogue inputs.

2-Parameter: the setpoint reference is provided through one of the dedicated

parameters.

P04.0.24 (X+) Setpoint 4 Selection

Select the reference origin for setpoint 4.

Default = Parameter

0-Off: the setpoint is not used.

1-Analogue: the setpoint reference is provided through one of the analogue inputs.

2-Parameter: the setpoint reference is provided through one of the dedicated

parameters.

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5.4.2 S04.1 setpoint

Parameter Type P04.1.01 (G)

Name Speed – Set. 1

P04.1.02 (G)

Speed – Set. 2

P04.1.03 (G) (X+)
P04.1.04 (G) (X+)
P04.1.11 (G)

Speed – Set. 3 Speed – Set. 4 Pressure – Set. 1

P04.1.12 (G)

Pressure – Set. 2

P04.1.13 (G) (X+)
P04.1.14 (G) (X+)
P04.1.21 (G) (X+)
P04.1.22 (G) (X+)
P04.1.23 (G) (X+)
P04.1.24 (G) (X+)
P04.1.31 (G) (X+)
P04.1.32 (G) (X+)
P04.1.33 (G) (X+)
P04.1.34 (G) (X+)

Pressure – Set. 3 Pressure – Set. 4 Flow – Set. 1 Flow – Set. 2 Flow – Set. 3 Flow – Set. 4 Temperature – Set. 1 Temperature – Set. 2 Temperature – Set. 3 Temperature – Set. 4

Description Select the value for Setpoint 1 in Actuator control mode.
Select the value for Setpoint 2 in Actuator control mode.
Select the value for Setpoint 3 in Actuator control mode.
Select the value for Setpoint 4 in Actuator control mode.
Select the value for Setpoint 1 in one of the Pressure control modes. Select the value for Setpoint 2 in one of the Pressure control modes. Select the value for Setpoint 3 in one of the Pressure control modes. Select the value for Setpoint 4 in one of the Pressure control modes. Select the value for Setpoint 1 in Constant Flow control mode.
Select the value for Setpoint 2 in Constant Flow control mode.
Select the value for Setpoint 3 in Constant Flow control mode.
Select the value for Setpoint 4 in Constant Flow control mode.
Select the value for Setpoint 1 in Constant Temperature control mode. Select the value for Setpoint 2 in Constant Temperature control mode. Select the value for Setpoint 3 in Constant Temperature control mode. Select the value for Setpoint 4 in Constant Temperature control mode.

Value
Min = P04.2.31 Max = P04.2.32 Default = 2000 rpm
Min = P04.2.31 Max = P04.2.32 Default = 2000 rpm
Min = P04.2.31 Max = P04.2.32 Default = 2000 rpm
Min = P04.2.31 Max = P04.2.31 Default = 2000 rpm
Min = P01.1.11 Max = P01.1.12 Default = 3,5 bar
Min = P01.1.11 Max = P01.1.12 Default = 3,5 bar
Min = P01.1.11 Max = P01.1.12 Default = 3,5 bar
Min = P01.1.11 Max = P01.1.12 Default = 3,5 bar
Min = P01.1.21 Max = P01.1.22 Default = 0 m3/h
Min = P01.1.21 Max = P01.1.22 Default = 0 m3/h
Min = P01.1.21 Max = P01.1.22 Default = 0 m3/h
Min = P01.1.21 Max = P01.1.22 Default = 0 m3/h
Min = P01.1.31 Max = P01.1.32 Default = 25°C
Min = P01.1.31 Max = P01.1.32 Default = 25°C
Min = P01.1.31 Max = P01.1.32 Default = 25°C
Min = P01.1.31 Max = P01.1.32 Default = 25°C

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HVX, HVX+ ­ Installation, Operation and Programming Manual

Parameter Type P04.1.41 (G)
(X+)
P04.1.42 (G) (X+)
P04.1.43 (G) (X+)
P04.1.44 (G) (X+)
P04.1.60 (G)

Name Level – Set. 1 Level – Set. 2 Level – Set. 3 Level – Set. 4 Limit setpoint saving

en – Original Instructions

Description

Value

Select the value for Setpoint 1 in Constant Level control mode.

Min = P01.1.41 Max = P01.1.42 Default = 0 m

Select the value for Setpoint 2 in Constant Level control mode.

Min = P01.1.41 Max = P01.1.42 Default = 0 m

Select the value for Setpoint 3 in Constant Level control mode.

Min = P01.1.41 Max = P01.1.42 Default = 0 m

Select the value for Setpoint 4 in Constant Level control mode.

Min = P01.1.41 Max = P01.1.42 Default = 0 m

Select Yes to limit how often the Setpoint is saved in

Default = No

memory, in order to prolong its life. Useful in applications

where a BMS control device continuously varies the value.

0-No: the unit limits the saving of the setpoint in the

memory.

1-Yes: the setpoint is saved in the memory each time it is

changed.

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5.4.3 S04.2 adjustment

Parameter Type P04.2.01 (G)

Name Window

P04.2.02 (G)

Hysteresis

P04.2.06 (G) P04.2.07 (G)

Lift Speed Linear Lift Amount

P04.2.08 (G) (X+)

Quadratic Lift Amount

P04.2.11 (G)

Ramp 1

P04.2.12 (G)

Ramp 2

P04.2.13 (G) P04.2.14 (G)

Ramp 3 Ramp 4

Description

Value

Select the adjustment window. This parameter defines a band around the setpoint as a percentage of the setpoint itself. When the measured value is outside the window, the system uses ramps 1 and 2. When inside, it uses ramps 3 and 4.

Min = 0% Max = 100% Default = 10%

Select the adjustment hysteresis band.

Min = 0%

This parameter defines a band, around the setpoint, as a

Max = 100%

percentage of the adjustment window. The limits of the hysteresis Default = 80%

band define where the system changes between acceleration and

deceleration ramps.

Select the speed value at which the setpoint value starts to increase, if a lift amount is set.

Min = o rpm Max = P04.2.32 Default = P04.2.31

Select the linear setpoint increment value at maximum speed, as Min = 0% a percentage of the setpoint itself, to compensate for friction Max = 200% losses. The increment is linear, starting from 0% when the motor Default = 0% is at Increment Speed, up to the Linear Increment Value when the motor is at maximum speed.

Select the quadratic setpoint increment value at maximum speed Min = 0% as a percentage of the setpoint itself to compensate for friction Max = 9999% losses. The increment is quadratic, starting from 0% when the Default = 50% motor is at Increment Speed, up to Linear Increment Value when the motor is at maximum speed

Select the fast acceleration ramp time. This ramp is used when the motor speed is above the Minimum speed and the measured value is outside the range defined by the adjustment window.

Min = 1 s Max = 999 s Default = 5 s (P 5.5 kW) 10 s (5.5 P 11 kW) 15 s (P > 11 kW)

Select the fast deceleration ramp time. This ramp is used when the motor speed is above the Minimum speed and the measured value is outside the range defined by the adjustment window.

Min = 1 s Max = 999 s Default = 5 s (P 5.5 kW) 10 s (5.5 P 11 kW) 15 s (P > 11 kW)

Select the slow acceleration ramp time. This ramp is used when the measured value is within the adjustment window.

Min = 1 s Max = 999 s Default = 85 s

Select the slow deceleration ramp time. This ramp is used when the measured value is within the adjustment window.

Min = 1 s Max = 999 s Default = 85 s

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HVX, HVX+ ­ Installation, Operation and Programming Manual

Parameter Type P04.2.15 (G) P04.2.16 (G) P04.2.31 (G) P04.2.32 (G) P04.2.35 (G)

en – Original Instructions

Name Acceleration ramp minimum speed
Deceleration ramp minimum speed
Min. speed
Max RPM set
Min Speed Time

Description Select the acceleration ramp time below minimum speed. This ramp is used when the motor speed is below the Minimum Speed.
Select the deceleration ramp time below the minimum speed. This ramp is used when the motor speed is below the Minimum Speed.
Select the minimum speed.
Select the maximum speed.
Select the time the motor spends at minimum speed before coming to a complete stop. This parameter is only active if the parameter Minimum Speed Configuration is set to Zero Speed.

Value
Min = 1 s Max = 25 s Default = 2 s (P 5.5 kW) 4 s (P > 5.5 kW)
Min = 1 s Max = 25 s Default = 2 s (P 5.5 kW) 4 s (P > 5.5 kW)
Min = 0 Max = depending on the pump unit model Default = depending on the pump unit model
Min = min Speed Max = depending on the pump unit model Default = depending on the pump unit model
Min = 0 s Max = 100 s Default = 0 s

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5.4.4 S04.3 thresholds

Parameter Type P04.3.00 (G)
P04.3.01 (G)
P04.3.02 (G) (X+)
P04.3.03 (G) (X+)
P04.3.04 (G) (X+)
P04.3.10 (G)
P04.3.11 (G)

Name

Description

Value

Automatic Error Reset

Select the type of error reset.

Default = yes

0-Yes: the unit will automatically reset the error, if possible, up to

a maximum of 5 times in 1 hour.

1-No: in the event of an error, the unit will remain stationary,

waiting for a user-controlled error reset.

Pressure – Minimum Threshold Select the minimum threshold limit for pressure control: if the Min = P01.1.11

value is not reached within the Minimum threshold delay, then Max = P01.1.12

the unit stops giving the error “E22 Minimum threshold”.

Default = P01.1.11 (disabled)

Flow – Minimum Threshold

Select the minimum threshold limit for flow control: if the value is Min = P01.1.21

not reached within the Minimum threshold delay, then the unit Max = P01.1.22

stops giving the error “E22 Minimum threshold”.

Default = P01.1.21 (disabled)

Temperature – Minimum Threshold

Select the minimum threshold limit for temperature control: if the Min = P01.1.31

value is not reached within the Minimum threshold delay, then Max = P01.1.32

the unit stops giving the error “E22 Minimum threshold”.

Default = P01.1.31 (disabled)

Level – Minimum Threshold

Select the minimum threshold limit for level control: if the value Min = P01.1.41

is not reached within the Minimum threshold delay, then the unit Max = P01.1.42

stops giving the error “E22 Minimum threshold”.

Default = P01.1.41 (disabled)

Minimum Threshold Delay

Select the minimum threshold protection time delay. This delay is the time given to the pump unit to reach the minimum threshold value: if not reached, the unit stops giving the “E22 Minimum threshold” error.

Min = 1 s Max = 100 s Default = 1 s

Lack Of Water Delay

Select the water shortage protection time delay (LOW). This delay is the time that passes between the opening of the LOW contact and the actual activation of error “E21 Lack of water (LOW)”.

Min = 1 s Max = 100 s Default = 1 s

5.4.5 S04.4 self-test

Parameter Type P04.4.01 (G)

Name Test Run Speed

P04.4.02 (G)

Test Run Timeout

P04.4.03 (G) P04.4.05

Test Run Time Test Run Command

Description Select the motor speed for the test run.
Select the time that must elapse for the self-test to start. The pump unit must have been stationary for the time set in this parameter for the self-test to start. To enable the self-test, the START/STOP terminals must be closed. Select the duration time of the test run.
Select ON to manually start the test run.

Value Min = 0 rpm Max = P04.2.32 Default = P04.2.31 Min = 0 h Max = 255 h Default = 100 h
Min = 0 s Max = 180 s Default = 5 s

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5.4.6 S04.6 pipe filling

Check the filling of the hydraulic system when not pressurised, to avoid water hammer. When enabled, this function starts if the measured pressure is below the Pipe Filling Threshold and one of the following cases occurs: · The unit is switched on · The start/stop contact switches from open to closed · The unit is set to ON · An error is reset. When the function is active, the unit runs at the minimum speed for the pipe filling stabilisation time and the pressure is monitored: · If during the stabilisation time the pressure is constant, the speed is increased by the pipe
filling speed increase value and the pressure is monitored again for another stabilisation time, etc.
· If the pressure is not constant, the speed is not increased · If the pipe filling threshold is reached during the pipe filling time, the unit switches to the
set standard control. The pipe-filling function parameter allows to disable the function or select the status of the unit if the pipe-filling threshold is not reached within the pipe-filling time.

Parameter Type P04.6.01 (G)
P04.6.03 (G) P04.6.05 (G) P04.6.06 (G) P04.6.10 (G)
P04.6.15 (G)

Name Pipe Filling Function
Pipe Filling Threshold Pipe Filling Time No. of pipe filling pumps Pipe filling stabilisation time
Pipe filling speed increase

Description

Value

Disable the function or select the unit status if the pipe-filling Default = Disabled threshold is not reached within the pipe-filling time. 0-Disabled (DIS): the function is disabled. 1-Alarm (ALA): the failure of the function generates alarm “A29 Pipe Filling” and the unit continues the procedure. As long as the function is active, the minimum pressure threshold is disabled.

Select the pressure the system has to reach to exit the pipe filling Min = 0 bar

function.

Max = P04.1.11

Default = P04.1.11 – 1.5 bar

Select the maximum time given to the pipe filling function to reach the Pipe filling threshold.

Min = 0 s Max = 999 s Default = 180 s

Select the number of pump units that will run simultaneously during the Pipe filling function.

Min = 1 Max = P06.0.02 Default = 1

Select the time given to the unit to check whether the measured Min = 1 s pressure is constant. The pressure is considered constant if its Max = P04.6.05 value is within the window calculated on the setpoint, centred on Default = 5 s the pressure measured at the beginning of the current stabilisation time.

Select the amount of speed, in percentage of the maximum Min = 5%

speed, that the unit will add to the current speed if the measured Max = 100%

pressure is stable for the pipe filling steady time.

Default = 10%

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5.5 M05, I/O settings
It groups the parameters for configuring digital and analogue inputs and outputs.

5.5.1 S05.0 measuring intervals

Parameter Type P05.0.00

Name Actual Value Source

P05.0.01 P05.0.02 P05.0.11 (G) P05.0.12 (G)

Actuator – Zero Value Actuator – Full Scale Pressure – Zero Value Pressure – Full Scale

P05.0.21 (G) (X+)
P05.0.22 (G) (X+)
P05.0.31 (G) (X+)
P05.0.32 (G) (X+)

Flow – Zero Value Flow – Full Scale Temperature – Zero Value Temperature – Full Scale

Description

Value

Select the input type for the controlled value.

Default = Auto AI

0-AI Auto (AUT): the current value is automatically taken from the

analogue input set to the same size as the control mode.

1-AI Differential (dIf): the actual value is the absolute value

resulting from the difference of 2 analogue inputs set to the same

size as the control mode.

2-AI Auto – Minor (LOU): the current value is taken from the lowest

of the analogue inputs set to the same size as the control mode.

3-AI Auto – Major (KIG): the current value is taken from the

highest of the analogue inputs set to the same size as the control

mode.

4-Selection DI ( ): dI . N the analogue value is selected through the

digital input status set to “sensor selection 1/2”.

Select the zero value of the regulation feedback sensor when the Min = 0 rpm

system is set to Actuator control mode.

Max = 9999 rpm

Default = 0 rpm

Select the full range of the regulation feedback sensor when the Min = 0 rpm

system is set to Actuator control mode.

Max = 9999 rpm

Default = 3600 rpm

Select the zero value of the regulation feedback sensor when the Min = -5 bar

system is set to one of the Pressure control modes.

Max = 10 bar

Default = 0 bar

Select the full range of the regulation feedback sensor when the system is set to one of the Pressure control modes.

Min = 0 bar Max = 100 bar Default = depending on the pump unit model

Select the zero value of the regulation feedback sensor when the Min = 0 m3/h

system is set to Constant Flow control mode.

Max = 9999 m3/h

Default = 0 m3/h

Select the full range of the regulation feedback sensor when the Min = 0 m3/h

system is set to Constant Flow control mode.

Max = 9999 m3/h

Default = 100 m3/h

Select the zero value of the regulation feedback sensor when the Min = -100°C

system is set to Constant Temperature control mode.

Max = 9999°C

Default = 0°C

Select the full range of the regulation feedback sensor when the Min = -100°C

system is set to Constant Temperature control mode.

Max = 9999°C

Default = 100°C

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Parameter Type P05.0.41 (G)
(X+)
P05.0.42 (G) (X+)

Name Level – Zero Value
Level – Full Scale

5.5.2 S05.1 analogue inputs

Parameter Type P05.1.01

Name Analogue Input 1 Function

P05.1.02 P05.1.11

Analog Input 1 Type Analogue Input 2 Function

P05.1.12

Analog Input 2 Type

en – Original Instructions

Description

Value

Select the zero value of the regulation feedback sensor when the Min = -999 m

system is set to Constant Level control mode.

Max = 9999 m

Default = 0 m

Select the full range of the regulation feedback sensor when the Min = -999 m

system is set to Constant Level control mode.

Max = 9999 m

Default = 10 m

Description

Value

Select the function of analogue input 1.

Default = Pressure

0-Off (Off): the analogue input is disabled

1-Pressure (PrE): a pressure sensor is connected to the analogue

input.

(X+) 2-Flow: a flow sensor is connected to the analogue input.

(X+) 3-Temperature: a temperature sensor is connected to the

analogue input.

(X+) 4-Level: a level sensor is connected to the analogue input.

5-Setpoint (SET): a setpoint reference is connected to the

analogue input.

Select the type of analogue input connected to analogue input 1. Default = 4 to 20 mA 0-0 to 20 mA ( ). 0.20 1-4 to 20 mA ( ). 4.20 2-0 to 10 V ( ). 0.10 3-2 to 10 V ( ). 2.10

Select the function of analogue input 2.

Default = Off

0-Off (Off): the analogue input is disabled.

1-Pressure (PrE): a pressure sensor is connected to the analogue

input.

(X+) 2-Flow: a flow sensor is connected to the analogue input.

(X+) 3-Temperature: a temperature sensor is connected to the

analogue input.

(X+) 4-Level: a level sensor is connected to the analogue input.

5-Setpoint (SET): a setpoint reference is connected to the

analogue input.

Select the type of analogue input connected to analogue input 2. Default = 4 to 20 mA 0-0 to 20 mA ( ). 0.20 1-4 to 20 mA ( ). 4.20 2-0 to 10 V ( ). 0.10 3-2 to 10 V ( ). 2.10

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Parameter Type P05.1.21 (X+)

Name Analogue Input 3 Function

P05.1.22 (X+)

Analog Input 3 Type

P05.1.31 (X+)

Analogue Input 4 Function

P05.1.32 (X+)

Analog Input 4 Type

P05.1.40 (X+)

Sensor Curve

P05.1.50

Analogue Actuator Type

Description

Value

Select the function of analogue input 3.

Default = Off

0-Off: the analogue input is disabled.

1-Pressure: a pressure sensor is connected to the analogue input.

2-Flow: a flow sensor is connected to the analogue input.

3-Temperature: a temperature sensor is connected to the

analogue input.

4-Level: a level sensor is connected to the analogue input.

5-Setpoint: a setpoint reference is connected to the analogue

input.

Select the type of analogue input connected to analogue input 3. Default = 4 to 20 mA 0-0 to 20 mA. 1-4 to 20 mA. 2-0 to 10 V. 3-2 to 10 V.

Select the function of analogue input 4.

Default = Off

0-Off: the analogue input is disabled

1-Pressure: a pressure sensor is connected to the analogue input

2-Flow: a flow sensor is connected to the analogue input

3-Temperature: a temperature sensor is connected to the

analogue input

4-Level: a level sensor is connected to the analogue input

5-Setpoint: a setpoint reference is connected to the analogue

input

Select the type of analogue input connected to analogue input 4. Default = 4 to 20 mA 0-0 to 20 mA 1-4 to 20 mA 2-0 to 10 V 3-2 to 10 V

Select the mathematical function (curve) that determines the Default = Linear current value based on the sensor signal, when set as flow sensor. 0-Linear: suitable for flow sensors with signal linearly proportional to the measured flow. With this selection, all analogue inputs set by flow will be considered linear. 1-Quadratic: suitable for flow measurement through calibrated bore and differential pressure sensor or 2 pressure sensors, where the sensor signal is quadratically proportional to the flow. With this selection, all analogue inputs set by flow will be considered quadratic.

Select profile type for actuator mode, when referenced through analogue input. 0-Hydrovar HVL (KUL): the profile is the same as that used in the Hydrovar HVL; see the dedicated diagram. 1-Manual (NAn): the profile can be adjusted through the configuration parameters.

Default = Hydrovar HVL

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5.5.3 S05.2 digital inputs

Parameter P05.2.03

Type Name
Digital Input 3 Function

P05.2.04

(X+) Digital Input 4 Function

P05.2.05

(X+) Digital Input 5 Function

Description

Value

Select digital input function 3.

Default = Run Only

0-Disabled (DI5): function not used.

1-Setpoint selection ( ): SE.S the digital input is used to select the current Setpoint.

2-Sensor selection 1/2 ( ): S12 . the digital input is used to switch between Analogue

Input 1 and Analogue Input 2.

3-Minimum speed (NIn): closing the DI forces the motor to run at minimum speed.

4-Maximum speed (NAK): closing the DI forces the motor to run at maximum speed.

5-Solo Run ( ): Sr . n closing the DI forces the motor to run at maximum speed,

bypassing most errors. Caution: the motor will run even if the pump unit is set to Off

or if the Start/Stop or LOW contacts are open.

6-Error Reset (rES): closing the DI resets the error condition.

7-External error (EEC): opening the DI activates error “E16 External DI error”.

8-External Alarm (EAC): opening the DI activates alarm “A16 External DI alarm”.

Select digital input function 4.

Default = Disabled

0-Disabled: function not used.

1-Setpoint selection: the digital input is used to select the current setpoint.

2-Sensor selection 1/2: the digital input is used to switch between Analogue Input 1

and Analogue Input 2.

3-Minimum speed: closing the DI forces the motor to run at minimum speed.

4-Maximum speed: closing the DI forces the motor to run at maximum speed.

5-Run only: closing the DI forces the motor to run at maximum speed bypassing most

errors. Caution: the motor will run even if the pump unit is set to Off or if the

Start/Stop or LOW contacts are open.

6-Error Reset: closing the DI resets the error condition.

7-External error: opening the DI activates error “E16 External DI error”

8-External alarm: opening the DI activates alarm “A16 External DI alarm”.

Select digital input function 5.

Default = Disabled

0-Disabled: function not used.

1-Setpoint selection: the digital input is used to select the current setpoint.

2-Sensor selection 1/2: the digital input is used to switch between Analogue Input 1

and Analogue Input 2.

3-Minimum speed: closing the DI forces the motor to run at minimum speed.

4-Maximum speed: closing the DI forces the motor to run at maximum speed.

5-Run only: closing the DI forces the motor to run at maximum speed bypassing most

errors. CAUTION: the motor will run even if the pump unit is set to Off or if the

Start/Stop or LOW contacts are open.

6-Error Reset: closing the DI resets the error condition.

7-External error: opening the DI activates error “E16 External DI error”.

8-External alarm: opening the DI activates alarm “A16 External DI alarm”.

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5.5.4 S05.3 analogue output

Parameter Type P05.3.01

Name Analogue Output Function

P05.3.02

Analogue Output Type

Description

Value

Select the analogue output function.

Default = Motor speed

0-Current value (UAL): the analogue output replicates the current

measured value.

1-Actual value required (Eff): the analogue output replicates the

actual requested value.

2-Motor speed (Spd): the analogue output replicates the current

motor speed.

3-Motor power (Pur): the analogue output replicates the current

motor power input.

4-Motor current (Cur): the analogue output replicates the actual

motor input current.

5-Value AN1 (An1): the analogue output replicates the value read

at analogue input 1.

6-Value AN2 (An2): the analogue output replicates the value read

at analogue input 2.

(X+) 7-Value AN3: the analogue output replicates the value read

at analogue input 3.

(X+) 8-Value AN4: the analogue output replicates the value read

at analogue input 4.

(X+) 9-Temperature: the analogue output replicates the current

measured liquid temperature.

(X+) 10-Estimated flow: the analogue output replicates the

current estimated flow value.

(X+) 11-Flow: the analogue output replicates the current

measured flow.

Select the signal type for the analogue output. 0-0 to 20 mA ( ). 0.20 1-4 to 20 mA ( ). 4.20 2-0 to 10 V ( ). 0.10 3-2 to 10 V ( ). 2.10

Default = 4 to 20 mA

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5.5.5 S05.4 digital outputs

Parameter Type P05.4.01

Name Relay 1 Function

P05.4.02

Relay 2 Function

en – Original Instructions

Description

Value

Select the Relay 1 function.

Default = Error

0-Off (Off): the relay is disabled.

1-Power supply (PUr): the relay is active when the unit is powered

from the mains.

2-Run (rUN): the relay is active when the motor is running.

3-Motor heating (NHE): the relay is active when the motor heating

function is active.

4-Error (Err): the relay is active when no error is active.

5-Alarm or error (ALA): the relay is active when no alarm or error is

active.

6-On (On): the relay is active when the unit is in the On status

(stopped but ready to run).

7-Reset error (rES): the relay is active when the Automatic error

reset parameter is set to “Yes” and the maximum number of

automatic resets has been reached.

Select the Relay 2 function.

Default = Run

0-Off (Off): the relay is disabled.

1-Power supply (PUr): the relay is active when the unit is powered

from the mains.

2-Run (rUN): the relay is active when the motor is running.

3-Motor heating (NHE): the relay is active when the motor heating

function is active.

4-Error (Err): the relay is active when no error is active.

5-Alarm or error (ALA): the relay is active when no alarm or error is

active.

6-On (On): the relay is active when the unit is in the On status

(stopped but ready to run).

7-Reset error (rES): the relay is active when the Automatic error

reset parameter is set to “Yes” and the maximum number of

automatic resets has been reached.

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5.5.6 S05.8 calibrations

Parameter Type P05.8.01 P05.8.02 P05.8.11 P05.8.12 P05.8.21 (X+) P05.8.22 (X+) P05.8.31 (X+) P05.8.32 (X+)

Name Offset AI 1 Gain AI 1 Offset AI 2 Gain AI 2 Offset AI 3 Gain AI 3 Offset AI 4 Gain AI 4

Description

Value

Select the offset value at zero value of analogue input 1.

–

Select the gain of analogue input 1.

–

Select the offset value at zero value of analogue input 2.

–

Select the gain of analogue input 2.

–

Select the offset value at zero value of analogue input 3.

–

Select the gain of analogue input 3.

–

Select the offset value at zero value of analogue input 4.

–

Select the gain of analogue input 4.

–

5.6 M06, multi-pump
It groups the parameters to configure a multi-pump system.

5.6.1 S06.0 measuring intervals

Parameter Type P06.0.01 (G)

Name System Configuration

P06.0.02 (G)

Max Units

P06.0.03
P06.0.04 (A) P06.0.05

Multipump Address
Multipump Map Multipump Priority

Description

Value

Select the system configuration.

Default = single pump unit

0-Single Pump unit (SnG): the unit is set to run alone, without

interaction with other units.

1- Serial Cascade (NSE): in this configuration, several units

operate together, connected through the RS485 interface. Only

the last unit started varies its speed, while the units already

running run at full speed.

2-Synchronous Cascade (NSY): in this configuration, several units

operate together, connected through the RS485 interface. All

running units operate at the same variable speed.

Select the maximum number of units that operate simultaneously Min = 0

in a multi-pump system.

Max = 8 (X+), 4 (X)

Default = 6 (X+),

3 (X)

Select the address of the pump unit in a multi-pump system. Each unit has a unique address, with a value from 1 to 8.

Min = 1 Max = 8 (X+), 4 (X) Default = 1

Displays the map of the connected units in the multi-pump

–

system.

Displays the unit priority in the multi-pump system.

–

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5.6.2 S06.1 adjustment

Parameter Type P06.1.11 (G)

Name Pressure – Inc. value

P06.1.12 (G)

Pressure – Dec. value

P06.1.21 (G) (X+)
P06.1.22 (G) (X+)
P06.1.31 (G) (X+)
P06.1.32 (G) (X+)
P06.1.41 (G) (X+)
P06.1.42 (G) (X+)
P06.1.61 (G)

Flow – Inc. value Flow – Dec. value Temperature – Inc. value Temperature – Dec. value Level – Inc. value Level – Dec. value Multipump Enable Speed

P06.1.71 (G)

Synchronous Limit

en – Original Instructions

Description

Value

Select the increment value in the multi-pump system. This value, in conjunction with the actual decrease value, will be used to calculate the effective required value in a multi-pump system.

Min = 0 bar Max = P05.0.12 Default = 0,35 bar

Select the decrease value in the multi-pump system. This value, in conjunction with the actual increase value, will be used to calculate the effective required value in a multi-pump system.

Min = 0 bar Max = P05.0.12 Default = 0,15 bar

Select the increment value in the multi-pump system. This value, in conjunction with the actual decrease value, will be used to calculate the effective required value in a multi-pump system.

Min = 0 m3/h Max = P05.0.22 Default = 1,5 m3/h

Select the decrease value in the multi-pump system. This value, in conjunction with the actual increase value, will be used to calculate the effective required value in a multi-pump system.

Min = 0 m3/h Max = P05.0.22 Default = 1,5 m3/h

Select the increment value in the multi-pump system. This value, in conjunction with the actual decrease value, will be used to calculate the effective required value in a multi-pump system.

Min = 0 °C Max = P05.0.32 Default = 1,5 °C

Select the decrease value in the multi-pump system. This value, in conjunction with the actual increase value, will be used to calculate the effective required value in a multi-pump system.

Min = 0 °C Max = P05.0.32 Default = 1,5 °C

Select the increment value in the multi-pump system. This value, in conjunction with the actual decrease value, will be used to calculate the effective required value in a multi-pump system.

Min = 0 m Max = P05.0.42 Default = 0,15 m

Select the decrease value in the multi-pump system. This value, in conjunction with the actual increase value, will be used to calculate the effective required value in a multi-pump system.

Min = 0 m Max = P05.0.42 Default = 0,15 m

Select the enabling speed for subsequent pump units.

Min = P04.2.31

The next pump unit starts when the following conditions are true: Max = P04.2.32

– the motor speed is equal to or higher than the multi-pump Default = depending on the

enable speed – the current value falls below Setpoint – Decrement pump unit model

value

Select the speed limit for synchronous cascade mode. The pump unit with priority P2 switches off when its speed falls below this value.

Min = P04.2.31 Max = P04.2.32 Default = depending on the pump unit model

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en – Original Instructions

Parameter Type P06.1.72 (G)
P06.1.81 (G)

Name Synchronous Window
Automatic Switchover Interval

Description

Value

Select the speed window for synchronous cascade mode. The pump unit with priority P3 will shut off when its speed goes below synchronous limit + synchronous window, the pump unit with priority P4 will shut off when its speed goes below synchronous limit + 2 x synchronous window, and so on.

Min = 0 rpm Max = P04.2.32 Default = 150 rpm

Select the time interval for automatic switching: enables an Min = 0 h

automatic priority switching between the master pump unit and Max = 250 h

the other pump units.

Default = 24 h

At the end of this time interval, the next pump unit becomes the

master and the timer starts again; this allows the working hours to

be distributed evenly among the pump units. The automatic

switching interval is only active if the master pump unit never

comes to a stop.

5.7 M07, inverter

5.7.1 S07.0 switching frequency settings

Parameter Type P07.0.01
P07.0.02

Name Maximum Switching Freq.
Min Switching Frequency

Description

Value

Select the maximum switching frequency of the inverter modulation. Range: 2 to 16 KHz

Min = 2 kHz Max = 16 kHz Default = 16 kHz (P 5.5 kW) 10 kHz (5.5 P 11 kW) 8 kHz (P > 11 kW)

Select the minimum switching frequency. In case of overheating, Min = 2 kHz

the unit will automatically decrease the switching frequency down Max = 16 kHz

to this value.

Default = 2 kHz

5.7.2 S07.1 speed skip function

Parameter Type P07.1.01 (G)

Name Skip Speed Center

P07.1.02 (G)

Skip Speed Range

Description Select the center of the speed band that will be avoided by the motor.
Select the range of the speed band that will be avoided by the motor.

Value
Min = 0 rpm Max = P04.2.32 Default = 0 rpm (disabled)
Min = 0 rpm Max = 300 rpm Default = 0 rpm

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5.7.3 S07.2 motor overheating

Parameter Type P07.2.01 (G)

Name Motor heating function

P07.2.02 P07.2.03 (G)

Motor heating current Motor heating temperature

en – Original Instructions

Description

Value

Select the activation of the motor heating function. A stream of Default = Off warm air is injected into the motor to prevent condensation or ice formation. The injected stream does not cause the motor to turn. 0-Off (Off): the function is disabled 1-On (On): the function is enabled and activates when the motor is stopped and the inverter temperature falls below the motor heating temperature (P07.2.03). 2-Always active ( ): A.On the function is always active when the motor is stopped, regardless of the inverter temperature

Select the amount of current, in percentage of the maximum Min = 0 %

current, that will flow through the motor when the motor heating Max = 100 %

function is running.

Default = 50 %

Select the temperature below which the motor-heating function is Min = -5°C

active. This parameter is only active if the Motor heating function Max = 30°C

(7.2.01) parameter is set to On.

Default = 0°C

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5.8 M08, communication

5.8.1 S08.0 ports

Parameter Type P08.0.01

Name Com 1 Function

P08.0.02

Com 2 Function

5.8.2 S08.1 Modbus RTU

Parameter Type P08.1.01

Name Modbus RTU Address

P08.1.02

Modbus RTU Baudrate

P08.1.08

Modbus RTU Format

5.8.3 S08.2 Bacnet MS/TP

Parameter Type P08.2.01

Name Bacnet MS/TP Mac Address

P08.2.02

Bacnet MS/TP Baudrate

P08.2.03
P08.2.04 P08.2.05

Bacnet MS/TP Format
Bacnet MS/TP Device Id Bacnet MS/TP Max Master

Description
Select the function of the communication port 1 (RS 485.1). 0-Disabled (dIS): the communication port is not active 1-Modbus RTU (NOd): the selected protocol is Modbus RTU slave 2-BACnet MS/TP (BAC): the selected protocol is BACnet MS/TP 3-Multi-pump (NP): the selected protocol is hydrovar X multipump
Select the function of the communication port 2 (RS 485.2). 0-Disabled (dIS): the communication port is not active 1-Modbus RTU (NOd): the selected protocol is Modbus RTU slave 2-BACnet MS/TP (BAC): the selected protocol is BACnet MS/TP

Value Default = Multi-pump
Default = Modbus RTU

Description

Value

Select the unit address in the Modbus RTU network.

Min = 0 Max = 127 Default = 1

Select the unit network baudrate in order to match the baudrate Min = 1200 bps

of the Modbus RTU master.

Max = 115200 bps

Default = 115200 bps

Select the unit network format in order to match the format of the Default = 8N1 Modbus RTU master.

Description

Value

Select the unit address in the RS-485 network.

Min = 0 Max = P08.2.05 Default = 1

Select the unit network baudrate in order to match the baudrate Min = 1200 bps

of the other BACnet MS/TP devices in the network.

Max = 115000 bps

Default = 38400 bps

Select the unit network format in order to match the format of the Default = 8N1 other BACnet MS/TP devices in the network.

Select the BACnet MS/TP device ID.

Default = 84003

Select the BACnet MS/TP maximum number of masters.

Min = 0 Max = 127 Default = 127

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5.8.4 S08.3 Enable Wireless Communication

Parameter Type P08.3.01

Name
Enable Wireless Communication

Description
Select activation of the unit’s wireless communication. 0-Off (Off): Wireless communication is disabled and the unit cannot connect to a mobile device 1-On (On): Wireless communication is enabled and a mobile device with the X app running can connect to the unit

Value Default = On

5.9 M09, general

5.9.1 S09.0 localisation

Parameter Type P09.0.01 (X+) P09.0.11 (X+) P09.0.12 (X+)

Name Language Date Hour

Description Select the display language. Select the unit calendar date. Set the unit clock.

Value Default = English –

5.9.2 S09.1 display

Parameter Type P09.1.01

Name Display Energy Saving

P09.1.02 P09.1.10

Energy Saving Time Display Orientation

Description

Value

Select the activation of the display power-saving function.

Default = On (X+)

0-Off (Off): the unit keeps the display always on

Off (X)

1-On (On): the unit switches the display off when the power saving

interval expires

Select the time in minutes that must pass from the last keyboard Min = 1 min

action before the display dims.

Max = 999 min

Default = 10 min

Select the orientation of the display. 0-Hours 6 (6): the orientation of the display is suitable for a horizontal pump unit 1-Hours 12 (12): the orientation of the display is suitable for a vertical pump unit

Default = depending on the pump unit model

HVX, HVX+ ­ Installation, Operation and Programming Manual

53

en – Original Instructions
6 Modbus RTU
6.1 Communication
The unit uses the RS485 serial interface, which defines: · The connection pins · The wiring · The signal levels · The transmission baud rates · The parity check. Controllers communicate with a master-client solution, where only the master can initiate a transfer, or polling. The other devices (client) respond by providing the master with the requested data, or by terminating the action requested in the query.
6.2 Transmission
Function not supported.
6.3 Data Protection
Standard Modbus serial networks use two types of error checks: · The parity check (even or odd), which can be applied optionally to each character · The frame check (LRC or CRC), applied to the entire message. Both the parity check and the frame check are generated in the master device and applied to the message content before transmission. The client device checks each character and the entire message frame during reception.
6.4 Protocol transmission modes
The data managed by the unit can be accessed considering the Modbus virtual memory, consisting of Holding Registers for all values. When setting the parameters of the S08.0 Ports menu, the Modbus RTU protocol transmission mode is available. The serial port communication parameters: · P08.0.01 Address · P08.0.02 Baud rate · P08.0.08 Format must be selected according to the network configuration.
NOTE: The mode and serial parameters must be the same for all devices in the Modbus network.
When setting P08.0.08 Format parameter, the following modes are available: · 8N1 1 start bit, 8 data bits, 1 stop bit, no parity · 8N2 1 start bit, 8 data bits, 2 stop bits, no parity · 8E1 1 start bit, 8 data bits, 1 stop bit, even parity · 8O1 1 start bit, 8 data bits, 1 stop bit, odd parity. The default configuration of the serial port is: · P08.0.01 Address=1 · P08.0.02 Baud rate=115200 · P08.0.08 Format=8N1.

54

HVX, HVX+ ­ Installation, Operation and Programming Manual

en – Original Instructions

6.5 Supported function codes
The Modbus protocol function codes implemented in the unit are: · Read Holding Registers (hex code 0x03), to read both Holding Registers representing
Parameters and Information · Write Multiple Registers (hex code 0x10), to write Holding Registers representing the
Parameters.

6.5.1 Example 1

0x03 Read Holding Registers – READ COMMAND reads the binary content of holding registers in the client. Note: Modbus registers are addressed from zero, for example, a Holding Register indexed as 0xBBA must be addressed as 0XBB9.

Example: Current Pressure Reading

Query
Client address Function Starting address High Starting address Low Number of points High Number of points Low CRC Error Check-High CRC Error Check-Low

0x01 0x03 Read Holding Register 0x0B 0xB9 => 3001 DEC => Modbus address of current pressure (FLOAT32) 0x00 0x02 Reading of two registers as FLOAt32 0x17 0xCA CRC-Checksum generated

Response
Client address Function Byte count Data High Data Low Data High Data Low CRC Error Check-High CRC Error Check–Low

0x01 0x03 0x04 0x40 0xA0 0x00 0x00 0xEF => 0x40A00000 HEX = 5.2f FLOAT32 => Actual value = 5.2 bar 0xD1 CRC-Checksum generated

HVX, HVX+ ­ Installation, Operation and Programming Manual

55

en – Original Instructions

6.5.2 Example 2

0x10 Write Multiple Registers – WRITE COMMAND writes values in a block of contiguous registers. Note: Modbus registers are addressed from zero, e.g. a Holding Register indexed as 0x1074 must be addressed as 0x1073.

Example: set Ramp 1 and Ramp 2 to 25 s, Ramp 3 and Ramp 4 to 100 s.

Query
Client address Function Starting address High Starting address Low Registers Quantity High Registers Quantity Low Byte Count Reg Value High Reg Value Low Reg Value High Reg Value Low Reg Value High Reg Value Low Reg Value High Reg Value Low CRC Error Check-High CRC Error Check-Low

0x01 0x10 Write Multiple Registers 0x10 0x74 => 4211 DEC => the first register is Ramp 1 0x00 0x04 a total of 4 registers (Ramp 1 to Ramp 4) to be written 0x08 2 * Quantity of Registers 0x00 0x19 => 19 HEX = 25 DEC => set ramp 1 to 25 sec 0x00 0x19 => 19 HEX = 25 DEC => set ramp 2 to 25 sec 0x00 0x64 => 64 HEX = 100 DEC => set ramp 3 to 100 sec 0x00 0x64 => 64 HEX = 100 DEC => set ramp 4 to 100 sec 0xED 0x6D CRC-Checksum generated

Response
Client address Function Starting address High Starting address Low Registers Quantity High Registers Quantity Low CRC Error Check-High CRC Error Check-Low

0x01 0x10 0x00 0xCA 0x00 0x04 a total of 4 registers (Ramp 1 to Ramp 4) written 0xF4 0xE1 CRC-Checksum generated

56

HVX, HVX+ ­ Installation, Operation and Programming Manual

en – Original Instructions
6.6 Connections and data management, Modbus RTU
For detailed information on the installation, wiring and configuration of the unit, please refer to the Additional Installation, Operation and Maintenance Instructions manual. · When Modbus RTU communication between the drive and an external device is active, the
drive display connection status light comes on. · Set parameter P04.1.60 Limit Setpoint Saving to Yes to write to the volatile memory area
and extend the life of the non-volatile EEPROM memory.
NOTE: Do not connect terminal (C) of the control board to different voltage potentials or PE.
Connect a single pump unit to an external device
1. Remove the cover of the drive and observe the wiring diagrams inside. 2. Connect terminals 31 (B), 32 (A) and 33 (C) to the external device, for example PLC, BMS,
etc.

Connecting a multi-pump system to an external device
Multi-pump mode allows the connection of two or three motor drives in Multi- Master MultiPump configuration. · Each unit of the booster set has its own unique Modbus address and provides a complete
list of registers to the external device · Parameter P08.1.01 Address must be set to a unique value on each unit of the booster set.
Parameter P08.1.01 Address consists of the unit identification number in the Modbus network. · Terminals 31 (B), 32 (A) and 33 (C) are used by default for communication with an external control device (e.g. PLC, BMS, etc.). · To facilitate cascade connections of RS485 port signals, the terminals for each port are replicated on two connector rows. · RS485.2 port signals are replicated on both terminal combination 31-31-33 and terminal combination 37-38-39.

HVX, HVX+ ­ Installation, Operation and Programming Manual

57

en – Original Instructions
As the drive is also connected in a multi-pump system, special care must be taken in case an external device (through Modbus protocol) requests to read and write drive parameters. In particular: · In a multi-pump system, in response to a “Read Registers” request on the Modbus, each
unit only returns its own parameters to the external device, and not those of the other connected drives in the booster set. · In a multi-pump system, “Write Registers” requests on the Modbus must be sent from the external device to all the connected units, even if the parameters to be written are “Global” (for the booster set).

58

HVX, HVX+ ­ Installation, Operation and Programming Manual

6.7 List of registers

Address [Dec] 0
1 2001 2002 2004 2006 2008 2010 2011 2013 2015 2017 2019 2021 2023 2025 2027 2029 2031 2033 2035 2037 2039 2040 2042 2044 2046 2048 2049 2051 2053 2055 2057 2059 2061 2063 2065 2067 2069 2071 2073 2075 2077 2078 2080 2082 2084 2086 2087 2089 2091

Menu ID Name

–
P02.0.01 P02.0.02 P02.0.03 –

Start/Stop: 0-Stop 1-Start Error Reset Command Error 1 (Most Recent) Error 1 – Date Error 1 – Time Error 1 – End Date Error 1 – End time Log: Error Counter Log: Error 1 Bitfield Log: Error 2 Bitfield Log: Alarm 1 Bitfield Log: System Status Log: Error code Log: Flow Rate Log: Head Log: Power Module Temperature Log: Motor Current Log: Motor Voltage Log: Inverter Temperature Log: Motor load Log: DC Bus Voltage Log: Grid Voltage Error 2 Error 2 – Date Error 2 – Time Error 2 – End Date Error 2 – End time Log: Error Counter Log: Error 1 Bitfield Log: Error 2 Bitfield Log: Alarm 1 Bitfield Log: System Status Log: Error code Log: Flow Rate Log: Head Log: Power Module Temperature Log: Motor Current Log: Motor Voltage Log: Inverter Temperature Log: Motor load Log: DC Bus Voltage Log: Grid Voltage Error 3 Error 3 – Date Error 3 – Time Error 3 – End Date Error 3 – End time Log: Error Counter Log: Error 1 Bitfield Log: Error 2 Bitfield Log: Alarm 1 Bitfield

Properties Type Unit

R/W

ENUM –

R/W

ENUM –

R

UINT16 –

R

UINT32 –

R

UINT32 –

R

UINT32 –

R

UINT32 –

R

UINT16 –

R

UINT32 –

R

UINT32 –

R

UINT32 –

R

UINT32 –

R

UINT32 –

R

FLOAT32 P04.0.12 – Flow Unit

R

FLOAT32 P04.0.11 – Pressure Unit

R

FLOAT32 P04.0.13 – Temperature Unit

R

FLOAT32 A

R

FLOAT32 V

R

FLOAT32 P04.0.13 – Temperature Unit

R

FLOAT32 –

R

FLOAT32 V

R

FLOAT32 V

R

UINT16 –

R

UINT32 –

R

UINT32 –

R

UINT32 –

R

UINT32 –

R

UINT16 –

R

UINT32 –

R

UINT32 –

R

UINT32 –

R

UINT32 –

R

UINT32 –

R

FLOAT32 P04.0.12 – Flow Unit

R

FLOAT32 P04.0.11 – Pressure Unit

R

FLOAT32 P04.0.13 – Temperature Unit

R

FLOAT32 A

R

FLOAT32 V

R

FLOAT32 P04.0.13 – Temperature Unit

R

FLOAT32 –

R

FLOAT32 V

R

FLOAT32 V

R

UINT16 –

R

UINT32 –

R

UINT32 –

R

UINT32 –

R

UINT32 –

R

UINT16 –

R

UINT32 –

R

UINT32 –

R

UINT32 –

HVX, HVX+ ­ Installation, Operation and Programming Manual

en – Original Instructions

Min

Max

0

1

0

1

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

–

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–

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–

–

–

–

–

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–

–

–

–

–

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–

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–

–

–

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–

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–

–

–

–

–

–

–

–

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–

–

–

–

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59

en – Original Instructions

2093 –

Log: System Status

2095 –

Log: Error code

2097 –

Log: Flow Rate

2099 –

Log: Head

2101 –

Log: Power Module Temperature

2103 –

Log: Motor Current

2105 –

Log: Motor Voltage

2107 –

Log: Inverter Temperature

2109 –

Log: Motor load

2111 –

Log: DC Bus Voltage

2113 –

Log: Grid Voltage

2115 P02.0.04 Error 4

2116 –

Error 4 – Date

2118 –

Error 4 – Time

2120 –

Error 4 – End Date

2122 –

Error 4 – End time

2124 –

Log: Error Counter

2125 –

Log: Error 1 Bitfield

2127 –

Log: Error 2 Bitfield

2129 –

Log: Alarm 1 Bitfield

2131 –

Log: System Status

2133 –

Log: Error code

2135 –

Log: Flow Rate

2137 –

Log: Head

2139 –

Log: Power Module Temperature

2141 –

Log: Motor Current

2143 –

Log: Motor Voltage

2145 –

Log: Inverter Temperature

2147 –

Log: Motor load

2149 –

Log: DC Bus Voltage

2151 –

Log: Grid Voltage

2153 P02.0.05 Error 5

2154 –

Error 5 – Date

2156 –

Error 5 – Time

2158 –

Error 5 – End Date

2160 –

Error 5 – End time

2162 –

Log: Error Counter

2163 –

Log: Error 1 Bitfield

2165 –

Log: Error 2 Bitfield

2167 –

Log: Alarm 1 Bitfield

2169 –

Log: System Status

2171 –

Log: Error code

2173 –

Log: Flow Rate

2175 –

Log: Head

2177 –

Log: Power Module Temperature

2179 –

Log: Motor Current

2181 –

Log: Motor Voltage

2183 –

Log: Inverter Temperature

2185 –

Log: Motor load

2187 –

Log: DC Bus Voltage

2189 –

Log: Grid Voltage

2191 P02.0.06 Error 6

2192 –

Error 6 – Date

2194 –

Error 6 – Time

2196 –

Error 6 – End Date

2198 –

Error 6 – End time

60

R

UINT32 –

–

–

R

UINT32 –

–

–

R

FLOAT32 P04.0.12 – Flow Unit

–

–

R

FLOAT32 P04.0.11 – Pressure Unit

–

–

R

FLOAT32 P04.0.13 – Temperature Unit –

–

R

FLOAT32 A

–

–

R

FLOAT32 V

–

–

R

FLOAT32 P04.0.13 – Temperature Unit –

–

R

FLOAT32 –

–

–

R

FLOAT32 V

–

–

R

FLOAT32 V

–

–

R

UINT16 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT16 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

FLOAT32 P04.0.12 – Flow Unit

–

–

R

FLOAT32 P04.0.11 – Pressure Unit

–

–

R

FLOAT32 P04.0.13 – Temperature Unit –

–

R

FLOAT32 A

–

–

R

FLOAT32 V

–

–

R

FLOAT32 P04.0.13 – Temperature Unit –

–

R

FLOAT32 –

–

–

R

FLOAT32 V

–

–

R

FLOAT32 V

–

–

R

UINT16 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT16 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

FLOAT32 P04.0.12 – Flow Unit

–

–

R

FLOAT32 P04.0.11 – Pressure Unit

–

–

R

FLOAT32 P04.0.13 – Temperature Unit –

–

R

FLOAT32 A

–

–

R

FLOAT32 V

–

–

R

FLOAT32 P04.0.13 – Temperature Unit –

–

R

FLOAT32 –

–

–

R

FLOAT32 V

–

–

R

FLOAT32 V

–

–

R

UINT16 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

HVX, HVX+ ­ Installation, Operation and Programming Manual

2200 –

Log: Error Counter

2201 –

Log: Error 1 Bitfield

2203 –

Log: Error 2 Bitfield

2205 –

Log: Alarm 1 Bitfield

2207 –

Log: System Status

2209 –

Log: Error code

2211 –

Log: Flow Rate

2213 –

Log: Head

2215 –

Log: Power Module Temperature

2217 –

Log: Motor Current

2219 –

Log: Motor Voltage

2221 –

Log: Inverter Temperature

2223 –

Log: Motor Power

2225 –

Log: DC Bus Voltage

2227 –

Log: Grid Voltage

2229 P02.0.07 Error 7

2230 –

Error 7 – Date

2232 –

Error 7 – Time

2234 –

Error 7 – End Date

2236 –

Error 7 – End time

2238 –

Log: Error Counter

2239 –

Log: Error 1 Bitfield

2241 –

Log: Error 2 Bitfield

2243 –

Log: Alarm 1 Bitfield

2245 –

Log: System Status

2247 –

Log: Error code

2249 –

Log: Flow Rate

2251 –

Log: Head

2253 –

Log: Power Module Temperature

2255 –

Log: Motor Current

2257 –

Log: Motor Voltage

2259 –

Log: Inverter Temperature

2261 –

Log: Motor Power

2263 –

Log: DC Bus Voltage

2265 –

Log: Grid Voltage

2267 P02.0.08 Error 8

2268 –

Error 8 – Date

2270 –

Error 8 – Time

2272 –

Error 8 – End Date

2274 –

Error 8 – End time

2276 –

Log: Error Counter

2277 –

Log: Error 1 Bitfield

2279 –

Log: Error 2 Bitfield

2281 –

Log: Alarm 1 Bitfield

2283 –

Log: System Status

2285 –

Log: Error code

2287 –

Log: Flow Rate

2289 –

Log: Head

2291 –

Log: Power Module Temperature

2293 –

Log: Motor Current

2295 –

Log: Motor Voltage

2297 –

Log: Inverter Temperature

2299 –

Log: Motor Power

2301 –

Log: DC Bus Voltage

2303 –

Log: Grid Voltage

2305 P02.0.09 Error 9

en – Original Instructions

R

UINT16 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

FLOAT32 P04.0.12 – Flow Unit

–

–

R

FLOAT32 P04.0.11 – Pressure Unit

–

–

R

FLOAT32 P04.0.13 – Temperature Unit –

–

R

FLOAT32 A

–

–

R

FLOAT32 V

–

–

R

FLOAT32 P04.0.13 – Temperature Unit –

–

R

FLOAT32 –

–

–

R

FLOAT32 V

–

–

R

FLOAT32 V

–

–

R

UINT16 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT16 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

FLOAT32 P04.0.12 – Flow Unit

–

–

R

FLOAT32 P04.0.11 – Pressure Unit

–

–

R

FLOAT32 P04.0.13 – Temperature Unit –

–

R

FLOAT32 A

–

–

R

FLOAT32 V

–

–

R

FLOAT32 P04.0.13 – Temperature Unit –

–

R

FLOAT32 –

–

–

R

FLOAT32 V

–

–

R

FLOAT32 V

–

–

R

UINT16 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT16 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

FLOAT32 P04.0.12 – Flow Unit

–

–

R

FLOAT32 P04.0.11 – Pressure Unit

–

–

R

FLOAT32 P04.0.13 – Temperature Unit –

–

R

FLOAT32 A

–

–

R

FLOAT32 V

–

–

R

FLOAT32 P04.0.13 – Temperature Unit –

–

R

FLOAT32 –

–

–

R

FLOAT32 V

–

–

R

FLOAT32 V

–

–

R

UINT16 –

–

–

HVX, HVX+ ­ Installation, Operation and Programming Manual

61

en – Original Instructions

2306 –

Error 9 – Date

2308 –

Error 9 – Time

2310 –

Error 9 – End Date

2312 –

Error 9 – End time

2314 –

Log: Error Counter

2315 –

Log: Error 1 Bitfield

2317 –

Log: Error 2 Bitfield

2319 –

Log: Alarm 1 Bitfield

2321 –

Log: System Status

2323 –

Log: Error code

2325 –

Log: Flow Rate

2327 –

Log: Head

2329 –

Log: Power Module Temperature

2331 –

Log: Motor Current

2333 –

Log: Motor Voltage

2335 –

Log: Inverter Temperature

2337 –

Log: Motor Power

2339 –

Log: DC Bus Voltage

2341 –

Log: Grid Voltage

2343 P02.0.10 Error 10

2344 –

Error 10 – Date

2346 –

Error 10 – Time

2348 –

Error 10 – End Date

2350 –

Error 10 – End time

2352 –

Log: Error Counter

2353 –

Log: Error 1 Bitfield

2355 –

Log: Error 2 Bitfield

2357 –

Log: Alarm 1 Bitfield

2359 –

Log: System Status

2361 –

Log: Error code

2363 –

Log: Flow Rate

2365 –

Log: Head

2367 –

Log: Power Module Temperature

2369 –

Log: Motor Current

2371 –

Log: Motor Voltage

2373 –

Log: Inverter Temperature

2375 –

Log: Motor Power

2377 –

Log: DC Bus Voltage

2379 –

Log: Grid Voltage

2381 –

Total Error Counter

2382 –

Total Alarms Counter

2383 –

Error 1 Bitfield:

0-IGBT Overtemperature

1-IGBT Internal Overtemperature

2-IGBT Overcurrent

3-Motor Overcurrent

4-Overvoltage DC-Bus

5-Undervoltage DC-Bus

6-Motor Startup Error

7-Generic Firmware Error

8-Ext-Flash Error

9-Ext-Eeprom Error

10-Motor Overtemperature

11-I2T Error

12-PowerClassRestrict

13-Inverter Overtemperature

14-*Reserved

62

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT16 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

FLOAT32 P04.0.12 – Flow Unit

–

–

R

FLOAT32 P04.0.11 – Pressure Unit

–

–

R

FLOAT32 P04.0.13 – Temperature Unit –

–

R

FLOAT32 A

–

–

R

FLOAT32 V

–

–

R

FLOAT32 P04.0.13 – Temperature Unit –

–

R

FLOAT32 –

–

–

R

FLOAT32 V

–

–

R

FLOAT32 V

–

–

R

UINT16 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT16 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

FLOAT32 P04.0.12 – Flow Unit

–

–

R

FLOAT32 P04.0.11 – Pressure Unit

–

–

R

FLOAT32 P04.0.13 – Temperature Unit –

–

R

FLOAT32 A

–

–

R

FLOAT32 V

–

–

R

FLOAT32 P04.0.13 – Temperature Unit –

–

R

FLOAT32 –

–

–

R

FLOAT32 V

–

–

R

FLOAT32 V

–

–

R

UINT16 –

–

–

R

UINT16 –

–

–

R

UINT32 –

–

–

HVX, HVX+ ­ Installation, Operation and Programming Manual

15-Motor Connection

16-*Reserved

17-External Error

18-Sensor1 Error

19-Sensor2 Error

20-Sensor3 Error

21-Sensor4 Error

22-Setpoint 1 Error

23-Setpoint 2 Error

24-Setpoint 3 Error

25-Setpoint 4 Error

26-*Reserved

27-Multipump Bus Timeout

28-Internal Communication MOC

29-AOC Hardware Error

30-*Reserved

31-*Reserved

2385 –

Error2 BitField:

R

0-*Reserved

1-Ground Leakage

2-*Reserved

3-Grid Overvoltage

4-Power Failure

5-Minimum Threshold

6-Lack of Water

7-*Reserved

8-Missing Configuration files

9-Grid Undervoltage

10-Wrong Feedback Configuration

11÷31-*Reserved

2387 –

Alarm1 Bitfield:

R

0-Generic Firmware Alarm

1-Extenal Alarm

2-*Reserved

3-MultiPump Comm. Lost

4-MultiPump Address Conflict

5-MultiPump Incompatibility

6-Internal Communication MOC

7-Wrong Feedback Cfg

8-Wrong Setpoint Cfg

9-FieldBus Comm Lost

10-Pipe Filling Alarm

11-IGBT temperature derating

12-Internal Communication UI-AOC

13-AI1 Alarm

14-AI2 Alarm

15-AI3 Alarm

16-AI4 Alarm

17-Internal Communication UI-BLE

18-Factory Files not in Ext-Flash

3001 P03.0.01 Current pressure

R

3003 P03.0.02 Actual Flow

R

3005 P03.0.03 Current Fluid Temp.

R

[X+]

3007 P03.0.04 Actual Level

R

[X+]

3009 P03.0.10 Effective Value Required

R

3011 P03.0.20 Required Value

R

en – Original Instructions

UINT32 –

–

–

UINT32 –

–

–

FLOAT32 P04.0.11 – Pressure Unit

–

–

FLOAT32 P04.0.12 – Flow Unit

–

–

FLOAT32 P04.0.13 – Temperature Unit –

–

FLOAT32 P04.0.14 – Level Unit

–

–

FLOAT32 FLOAT32 –

–

–

–

–

HVX, HVX+ ­ Installation, Operation and Programming Manual

63

en – Original Instructions
3013 P03.0.30 Pump status 3101 P03.1.01 Unit Powered Time 3103 P03.1.02 Operating time 3105 P03.1.05 Energy Counter 3201 P03.2.01 Motor Speed 3202 P03.2.02 Motor Speed % 3204 P03.2.05 Motor Current 3206 P03.2.06 Motor Power 3208 P03.2.07 Motor Voltage 3210 P03.2.08 Grid Voltage 3211 P03.2.09 DC Bus Voltage 3220 P03.2.20 Power Module Temperature 3222 P03.2.21 Inverter Temperature 3224 P03.2.22 Motor Ptc 3301 P03.3.01 Digital I/O Status 3302 P03.3.11 Analogue Input 1 Value 3304 P03.3.12 Analogue Input 2 Value 3306 P03.3.13 Analogue Input 3 Value
[X+] 3308 P03.3.14 Analogue Input 4 Value
[X+] 3310 P03.3.20 Analogue Output Value
3401 P03.4.01 Unit Part Number 3402 P03.4.01 Unit Part Number 3403 P03.4.01 Unit Part Number 3404 P03.4.01 Unit Part Number 3405 P03.4.01 Unit Part Number 3406 P03.4.01 Unit Part Number 3407 P03.4.01 Unit Part Number 3408 P03.4.01 Unit Part Number 3409 P03.4.02 Unit Production Date 3411 P03.4.03 Unit Serial Number 3412 P03.4.03 Unit Serial Number 3413 P03.4.03 Unit Serial Number 3414 P03.4.03 Unit Serial Number 3415 P03.4.03 Unit Serial Number 3416 P03.4.03 Unit Serial Number 3417 P03.4.03 Unit Serial Number 3418 P03.4.03 Unit Serial Number 3419 P03.4.05 Drive Production Date 3421 P03.4.06 Drive Serial Number 3422 P03.4.06 Drive Serial Number 3423 P03.4.06 Drive Serial Number 3424 P03.4.06 Drive Serial Number 3425 P03.4.06 Drive Serial Number 3426 P03.4.06 Drive Serial Number 3427 P03.4.06 Drive Serial Number 3428 P03.4.06 Drive Serial Number 3429 P03.4.10 Hmi Firmware Version 3431 P03.4.11 Hmi-Bt Firmware Version 3433 P03.4.12 Power Card Firmware Version 3435 P03.4.13 Control Card Firmware Version 3437 P03.4.14 Map File Version 3439 P03.4.15 Default File Version 3441 P03.4.16 Parameter File Version
64

R

ENUM –

–

–

R

UINT32 h

–

–

R

UINT32 h

–

–

R

FLOAT32 P04.0.16 – Energy Unit

–

–

R

UINT16 rpm

–

–

R

FLOAT32 %

–

–

R

FLOAT32 A

–

–

R

FLOAT32 P04.0.15 – Power Unit

–

–

R

FLOAT32 V

–

–

R

UINT16 V

–

–

R

UINT16 V

–

–

R

FLOAT32 P04.0.13 – Temperature Unit –

–

R

FLOAT32 P04.0.13 – Temperature Unit –

–

R

FLOAT32 –

–

–

R

UINT16 –

–

–

R

FLOAT32 P05.1.02 – Type AI 1

–

–

R

FLOAT32 P05.1.12 – Type AI 2

–

–

R

FLOAT32 P05.1.22 – Type AI 3

–

–

R

FLOAT32 P05.1.32 – Type AI 1

–

–

R

FLOAT32 P05.3.02 – Analogue Output –

–

Type

R

UINT16 –

–

–

R

UINT16 –

–

–

R

UINT16 –

–

–

R

UINT16 –

–

–

R

UINT16 –

–

–

R

UINT16 –

–

–

R

UINT16 –

–

–

R

UINT16 –

–

–

R

UINT32 –

–

–

R

UINT16 –

–

–

R

UINT16 –

–

–

R

UINT16 –

–

–

R

UINT16 –

–

–

R

UINT16 –

–

–

R

UINT16 –

–

–

R

UINT16 –

–

–

R

UINT16 –

–

–

R

UINT32 –

–

–

R

UINT16 –

–

–

R

UINT16 –

–

–

R

UINT16 –

–

–

R

UINT16 –

–

–

R

UINT16 –

–

–

R

UINT16 –

–

–

R

UINT16 –

–

–

R

UINT16 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

R

UINT32 –

–

–

HVX, HVX+ ­ Installation, Operation and Programming Manual

3443 P03.4.17 Language File Version

[X+]

3445 P03.4.19 Firmware Version

3447 –

Type of Drive

4001 P04.0.01 System Type

4002 P04.0.02 Control Mode

4003 P04.0.03 Regulation Mode

[X+]

4004 P04.0.05 Start Value

4005 P04.0.06 Auto Start

4006 P04.0.07 Configuration of minimum speed

4007 P04.0.09 Measuring Unit Selection

4008 P04.0.11 Pressure Measuring Unit

4009 P04.0.12 Flow Measuring Unit

[X+]

4010 P04.0.13 Temperature Measuring Unit

[X+]

4011 P04.0.14 Level Measuring Unit

[X+]

4012 P04.0.15 Power Measuring Unit

[X+]

4013 P04.0.16 Energy Measuring Unit

[X+]

4014 P04.0.17 Specific Energy Meas. Unit

[X+]

4021 P04.0.21 Setpoint 1 Selection

4022 P04.0.22 Setpoint 2 Selection

4023 P04.0.23 Setpoint 3 Selection

[X+]

4024 P04.0.24 Setpoint 4 Selection

[X+]

4101 P04.1.01 Speed Setpoint 1

R

UINT32 –

R

UINT32 –

R

ENUM –

R/W

ENUM –

R/W

ENUM –

R/W

ENUM –

R/W

UINT16 %

R/W

ENUM –

R/W

ENUM –

R/W

ENUM –

R/W

ENUM –

R/W

ENUM –

R/W

ENUM –

R/W

ENUM –

R/W

ENUM –

R/W

ENUM –

R/W

ENUM –

R/W

ENUM –

R/W

ENUM –

R/W

ENUM –

R/W

ENUM –

R/W

UINT16 rpm

4102 P04.1.02 Speed Setpoint 2

R/W

UINT16 rpm

4103 P04.1.03 Speed Setpoint 3 [X+] 4104 P04.1.04 Speed Setpoint 4 [X+] 4111 P04.1.11 Pressure-Setpoint 1

R/W

UINT16 rpm

R/W

UINT16 rpm

R/W

FLOAT32 P04.0.11 – Pressure Unit

4113 P04.1.12 Pressure-Setpoint 2

R/W

FLOAT32 P04.0.11 – Pressure Unit

4115 P04.1.13 Pressure-Setpoint 3 [X+] 4117 P04.1.14 Pressure-Setpoint 4 [X+] 4121 P04.1.21 Flow Setpoint 1 [X+]

R/W

FLOAT32 P04.0.11 – Pressure Unit

R/W

FLOAT32 P04.0.11 – Pressure Unit

R/W

FLOAT32 P04.0.12 – Flow Unit

HVX, HVX+ ­ Installation, Operation and Programming Manual

en – Original Instructions

–

–

–

–

–

–

0

0

0

7

0

1

0

100

0

1

0

1

0

1

0

8

0

4

0

2

0

3

0

3

0

5

0

4

0

1

0

2

0

2

0

2

P04.2.31 Minimum Speed P04.2.31 Minimum Speed P04.2.31 Minimum Speed P04.2.31 Minimum Speed P05.0.11 Pressure – Zero Value P05.0.11 Pressure – Zero Value P05.0.11 Pressure – Zero Value P05.0.11 Pressure – Zero Value P05.0.21 Flow – Zero Value

P04.2.32 Maximum Speed P04.2.32 Maximum Speed P04.2.32 Maximum Speed P04.2.32 Maximum Speed P05.0.12 Pressure – Full Scale P05.0.12 Pressure – Full Scale P05.0.12 Pressure – Full Scale P05.0.12 Pressure – Full Scale P05.0.22 Flow – Full Scale

65

en – Original Instructions
4123 P04.1.22 Flow Setpoint 2 [X+] 4125 P04.1.23 Flow Setpoint 3 [X+] 4127 P04.1.24 Flow Setpoint 4 [X+] 4131 P04.1.31 Temperature-Setp. 1 [X+] 4133 P04.1.32 Temperature-Setp. 2 [X+] 4135 P04.1.33 Temperature-Setp. 3 [X+] 4137 P04.1.34 Temperature-Setp. 4 [X+] 4141 P04.1.41 Level Setpoint 1 [X+] 4143 P04.1.42 Level Setpoint 2 [X+] 4145 P04.1.43 Level Setpoint 3 [X+] 4147 P04.1.44 Level Setpoint 4 [X+] 4155 P04.1.60 Limit setpoint saving 4201 P04.2.01 Window 4202 P04.2.02 Hysteresis 4203 P04.2.06 Lift Speed
4204 P04.2.07 Linear Lift Amount 4205 P04.2.08 Quadrat. Incr. Val.
[X+] 4211 P04.2.11 Ramp 1 4212 P04.2.12 Ramp 2 4213 P04.2.13 Ramp 3 4214 P04.2.14 Ramp 4 4215 P04.2.15 Ramp Speed Min Acceleration 4217 P04.2.16 Ramp Speed Min Deceleration 4231 P04.2.31 Min. speed 4232 P04.2.32 Max RPM set 4233 P04.2.35 Min Speed Time 4300 P04.3.00 Automatic Error Reset 4301 P04.3.01 Pressure – Minimum Threshold
4303 P04.3.02 Flow – Minimum Threshold [X+] 66

R/W

FLOAT32 P04.0.12 – Flow Unit

P05.0.21 – P05.0.22 –

Flow – Zero Flow – Full

Value

Scale

R/W

FLOAT32 P04.0.12 – Flow Unit

P05.0.21 – P05.0.22 –

Flow – Zero Flow – Full

Value

Scale

R/W

FLOAT32 P04.0.12 – Flow Unit

P05.0.21 – P05.0.22 –

Flow – Zero Flow – Full

Value

Scale

R/W

FLOAT32 P04.0.13 – Temperature Unit P05.0.31 – P05.0.32 –

Temperature – Temperature –

Zero Value Full Scale

R/W

FLOAT32 P04.0.13 – Temperature Unit P05.0.31 – P05.0.32 –

Temperature – Temperature –

Zero Value Full Scale

R/W

FLOAT32 P04.0.13 – Temperature Unit P05.0.31 – P05.0.32 –

Temperature – Temperature –

Zero Value Full Scale

R/W

FLOAT32 P04.0.13 – Temperature Unit P05.0.31 – P05.0.32 –

Temperature – Temperature –

Zero Value Full Scale

R/W

FLOAT32 P04.0.14 – Level Unit

P05.0.41 – P05.0.42 –

Level – Zero Level – Full

Value

Scale

R/W

FLOAT32 P04.0.14 – Level Unit

P05.0.41 – P05.0.42 –

Level – Zero Level – Full

Value

Scale

R/W

FLOAT32 P04.0.14 – Level Unit

P05.0.41 – P05.0.42 –

Level – Zero Level – Full

Value

Scale

R/W

FLOAT32 P04.0.14 – Level Unit

P05.0.41 – P05.0.42 –

Level – Zero Level – Full

Value

Scale

R/W

ENUM –

0

1

R/W

UINT16 %

1

100

R/W

UINT16 %

1

100

R/W

UINT16 rpm

P04.2.31 – P04.2.32 –

Minimum Maximum

Speed

Speed

R/W

UINT16 %

0

200

R/W

UINT16 %

0

999

R/W

UINT16 s

R/W

UINT16 s

R/W

UINT16 s

R/W

UINT16 s

R/W

FLOAT32 s

R/W

FLOAT32 s

R/W

UINT16 rpm

R/W

UINT16 rpm

R/W

UINT16 s

R/W

ENUM –

R/W

FLOAT32 P04.0.11 – Pressure Unit

R/W

FLOAT32 P04.0.12 – Flow Unit

1 1 1 1 0.1 0.1 0 2000 0 0 P05.0.11 Pressure – Zero Value P05.0.21 Flow – Zero Value

250 250 999 999 25 25 2000 4100 100 1 P05.0.12 Pressure – Full Scale P05.0.22 Flow – Full Scale

HVX, HVX+ ­ Installation, Operation and Programming Manual

4305 P04.3.03 Temperature – Minimum Threshold [X+] 4307 P04.3.04 Level – Minimum Threshold [X+] 4310 P04.3.10 Minimum Threshold Delay 4311 P04.3.11 Lack Of Water Delay 4401 P04.4.01 Test Run Speed
4402 P04.4.02 Test Run Timeout 4403 P04.4.03 Test Run Time 4404 P04.4.05 Test Run Command 4601 P04.6.01 Pipe Filling Function 4602 P04.6.03 Pipe Filling Threshold
4604 P04.6.05 Pipe Filling Time 4605 P04.6.06 Max Pipe Filling Pumps
4606 P04.6.10 Pipe Filling Steady Time
4607 P04.6.15 Pipe Filling Speed Step 5000 P05.0.00 Actual Value Source 5001 P05.0.01 Actuator – Zero Value 5002 P05.0.02 Actuator – Full Scale 5003 P05.0.11 Pressure – Zero Value 5005 P05.0.12 Pressure – Full Scale 5007 P05.0.21 Flow – Zero Value
[X+] 5009 P05.0.22 Flow – Full Scale
[X+] 5011 P05.0.31 Temperature – Zero Value
[X+] 5013 P05.0.32 Temperature – Full Scale
[X+] 5015 P05.0.41 Level – Zero Value
[X+] 5017 P05.0.42 Level – Full Scale
[X+] 5101 P05.1.01 Analogue Input 1 Function 5102 P05.1.02 Analog Input 1 Type 5103 P05.1.11 Analogue Input 2 Function 5104 P05.1.12 Analog Input 2 Type 5105 P05.1.21 Analogue Input 3 Function
[X+] 5106 P05.1.22 Analog Input 3 Type
[X+] 5107 P05.1.31 Analogue Input 4 Function
[X+] 5108 P05.1.32 Analog Input 1 Type
[X+] 5109 P05.1.40 Sensor Curve
[X+] 5110 P05.1.50 Analogue Actuator Type

en – Original Instructions

R/W

FLOAT32 P04.0.13 – Temperature Unit P05.0.31 – P05.0.32 –

Temperature – Temperature –

Zero Value Full Scale

R/W

FLOAT32 P04.0.14 – Level Unit

P05.0.41 – P05.0.42 –

Level – Zero Level – Full

Value

Scale

R/W

UINT16 s

1

100

R/W

UINT16 s

1

100

R/W

UINT16 rpm

0

P04.2.32 –

Maximum

Speed

R/W

UINT16 h

0

255

R/W

UINT16 s

0

180

R/W

ENUM –

0

1

R/W

ENUM –

0

1

R/W

FLOAT32 P04.0.11 – Pressure Unit

P05.0.11 – P05.0.12 –

Pressure – Zero Pressure – Full

Value

Scale

R/W

UINT16 s

0

999

R/W

UINT16 –

1

P06.0.02 –

Max. unit

R/W

UINT16 s

1

P04.6.05 –

Pipe Filling

Time

R/W

UINT16 %

5

100

R/W

ENUM –

0

5

R/W

UINT16 rpm

0

9999

R/W

UINT16 rpm

0

9999

R/W

FLOAT32 P04.0.11 – Pressure Unit

-5

10

R/W

FLOAT32 P04.0.11 – Pressure Unit

0

100

R/W

FLOAT32 P04.0.12 – Flow Unit

0

9999

R/W

FLOAT32 P04.0.12 – Flow Unit

0

9999

R/W

FLOAT32 P04.0.13 – Temperature Unit -100

9999

R/W

FLOAT32 P04.0.13 – Temperature Unit -100

9999

R/W

FLOAT32 P04.0.14 – Level Unit

-999

9999

R/W

FLOAT32 P04.0.14 – Level Unit

-999

9999

R/W

ENUM –

R/W

ENUM –

R/W

ENUM –

R/W

ENUM –

R/W

ENUM –

0

5

0

3

0

5

0

3

0

5

R/W

ENUM –

0

3

R/W

ENUM –

0

5

R/W

ENUM –

0

3

R/W

ENUM –

0

1

R/W

ENUM –

0

1

HVX, HVX+ ­ Installation, Operation and Programming Manual

67

en – Original Instructions
5203 P05.2.03 Digital Input 3 Function 5204 P05.2.04 Digital Input 4 Function
[X+] 5205 P05.2.05 Digital Input 5 Function
[X+] 5301 P05.3.01 Analogue Output Function 5302 P05.3.02 Analogue Output Type 5401 P05.4.01 Relay 1 Function 5402 P05.4.02 Relay 2 Function 5801 P05.8.01 Analogue Input 1 Offset 5803 P05.8.02 Analogue Input 1 Gain 5805 P05.8.11 Analogue Input 2 Offset 5807 P05.8.12 Analogue Input 2 Gain 5809 P05.8.21 Analogue Input 3 Offset
[X+] 5811 P05.8.22 Analogue Input 3 Gain
[X+] 5813 P05.8.31 Analogue Input 4 Offset
[X+] 5815 P05.8.32 Analogue Input 4 Gain
[X+] 6001 P06.0.01 System Configuration 6002 P06.0.02 Max Units 6003 P06.0.03 Multipump Address 6004 P06.0.04 Multipump Map 6005 P06.0.05 Multipump Priority 6111 P06.1.11 Pressure – Inc. value
6113 P06.1.12 Pressure – Dec. value
6115 P06.1.21 Flow – Inc. value [X+] 6117 P06.1.22 Flow – Dec. value [X+] 6119 P06.1.31 Temperature – Inc. value [X+] 6121 P06.1.32 Temperature – Dec. value [X+] 6123 P06.1.41 Level – Inc. value [X+] 6125 P06.1.42 Level – Dec. value [X+] 6129 P06.1.61 Multipump Enable Speed
6130 P06.1.71 Synchronous Limit 6131 P06.1.72 Synchronous Window
68

R/W

ENUM –

R/W

ENUM –

0

8

0

8

R/W

ENUM –

0

8

R/W

ENUM –

R/W

ENUM –

R/W

ENUM –

R/W

ENUM –

R/W

FLOAT32 –

R/W

FLOAT32 –

R/W

FLOAT32 –

R/W

FLOAT32 –

R/W

FLOAT32 –

0

12

0

3

0

7

0

7

-10

10

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