Condair Ax User manual

Air humidification, dehumidification and evaporative cooling

CONDAIR AX

Reverse osmosis system

INSTALLATION AND OPER-

ATING MANUAL

Condair AX reverse osmosis system

01/01/2021

20210101 EN 2101

Proprietary notice

This document and the information contained therein are the property of Condair GmbH. Neither this document

(including extracts thereof), nor the information contained herein shall be reproduced, used, or disclosed to others

without the manufacturer’s written authorisation. Non-compliance with this is punishable by law and will result in

compensation for damages.

Liability

Condair GmbH does not accept any liability due to incorrect installation or operation of the equipment or due to use

of parts/components/equipment that are not authorised by Condair AG.

Thank you for choosing Condair

Installation date (DD/MM/YYYY):

Commissioning date (DD/MM/YYYY):

Site:

Model:

Serial number:

Contents

1 General safety instructions 5

1.1 Explanations of symbols and instructions 5

1.2 Operator obligations 5

1.3 Personnel obligations 6

1.4 Training of personnel 6

1.5 Intended use 6

1.6 Hazards when handling the equipment 6

1.7 Protective devices and safety measures to avert hazards 7

1.7.1 Protective devices 7

1.7.2 Informational safety measures 7

1.8 Safety instructions for maintenance work 8

1.9 Disposal of system parts and operating materials 8

1.10 Unauthorisedmodicationandreplacementparts 8

1.11 Warranty and liability 8

1.12 Safety instructions for storage 9

2 Principles of reverse osmosis systems 10

2.1 Calculation equations 10

2.2 Temperature dependency of the permeate output 10

2.3 Conductivityofrstpermeate 11

3 Transport and storage 12

3.1 Transport to the customer 12

3.2 Storage at the customer’s premises 12

3.1 Transport to the installation site 12

4 Technical data / Product description 13

4.1 Technical data 13

4.2 Application limits 14

4.3 Product description 15

4.3.1 Layout 15

4.3.2 Function 16

5 Installation and assembly 17

5.1 Installation 17

5.1.1 Requirements of the installation site 17

5.1.2 Installation of the system 17

5.2 Water connections 18

5.2.1 Requiredqualicationofassemblypersonnel 18

5.2.2 Establishing the water connections 18

5.3 Electrical connection 19

5.3.1 Requiredqualicationofassemblypersonnel 19

5.3.2 Establishing the electrical connections 19

5.3.3 Connection of external signals from and messages to BMS 19

5.3.4 Cable list 19

5.3.5 Terminal connection table 20

Contents

6 Commissioning and decommissioning 21

6.1 Commissioning 21

6.1.1 Qualicationofcommissioningpersonnel 21

6.1.2 Flushing out the preservative 21

6.1.3 Setting up automatic mode 21

6.1.4 Conguringpermeateoutputandyield 21

6.1.5 Conguringpermeateoutletpressure 22

6.2 Decommissioning 22

6.3 Possible water treatment layout 22

7 Control panel 23

7.1 Control and display elements 23

7.2 User menu 24

7.2.1 Structure and content 24

7.2.2 Entries/changes in the user menu 26

7.3 Scrolling display 27

7.3.1 Uninterrupted operating sequence 27

7.3.2 Interrupted operating sequence 28

7.4 Parameters 30

8 Fault elimination 32

8.1 General information 32

8.1.1 Fault reporting to the manufacturer 32

8.1.2 Fault indication and reset 32

8.2 Fault analysis and elimination 32

8.3 Flushing the concentrate 34

9 Inspection and maintenance 35

9.1 Inspection and maintenance work 35

9.1.1 Safety instructions 35

9.1.2 General information 35

9.2 Logging the operating parameters 36

9.2.1 List of parameters to be logged 36

9.2.2 Operations log for reverse osmosis systems 37

9.3 Maintenance 38

9.3.1 Maintenance plan for reverse osmosis systems 38

10. Appendix 39

10.1 Assembly layout (schematic) 39

10.2 P&I diagram 40

10.3 Dimensions of AX 02 41

10.4 Dimensions of AX 05, 12 and 20 42

10.5 Dimensions of AX 30 and 50 43

Contents

1. General safety instructions

1.1 Explanations of symbols and instructions

This operating manual contains important information on the safe operation of the system.

This operating manual, in particular the chapter “Safety instructions” must be observed by all

persons working on the system. This applies to the installation company as well as to the system

operator. Moreover, the special rules and guidelines for accident prevention that apply to the

location of use must also be followed.

In this operating manual, the following symbols are used to indicate hazards for persons and to

ensure proper handling of the equipment:

1.2 Operator obligations

The operator undertakes to only allow persons to work on the system

 who are familiar with the fundamental regulations on occupational safety and accident pre-

vention and have been instructed in the handling of the system,

 who have read and understood the chapter on safety and the warnings in this operating

manual and who have acknowledged this with their signature and

 whose safe working practices are checked at regular intervals.

The manufacturer/supplier is not liable for any damage resulting from improper use.

DANGER!

This symbol indicates an imminent danger to the life and health of persons. Failure to observe

these instructions results in severe adverse health effects, including life threatening injuries.

WARNING!

This symbol indicates a possible imminent danger to the life and health of persons. Failure to

observe these instructions may result in severe adverse health effects, including life threaten-

ing injuries

CAUTION!

This symbol indicates a possible hazardous situation. Failure to observe these instructions

may result in minor injuries or damage to property.

NOTE

This symbol provides important information on how to handle the equipment correctly. Failure

to observe these instructions can lead to faults in the system or problems in the surrounding

environment.

General safety instructions

1.3 Personnel obligations

All persons who are commissioned to work on the system or who carry out such work inde-

pendently undertake the following before commencing work:

 To read the chapter on safety and the warnings in this operating manual and to acknowl-

edge with their signature that they have understood them.

 To observe the fundamental regulations on occupational safety and accident prevention.

When operating the system, the safety instructions must be strictly observed.

1.4 Training of personnel

Only trained and instructed personnel must work on the system.

 The responsibilities of the personnel for assembly, commissioning, operation, set-up,

maintenance and repair must be clearly defined.

 Personnel to be trained must only work on the system under the supervision of an

experienced person.

1.5 Intended use

The system must only be used for the desalination of drinking water, well water or surface

water that is free of particles and metallic ions. The limitations stated in the technical data

regarding chemical analysis of the feed water, pressure, temperature and flow rate apply.

Intended use also includes

 compliance with all the instructions in the operating manual

 and adherence to the inspection and maintenance intervals.

Any other usage or usage beyond this is considered contrary to the intended purpose.

Non-intended use includes use as a

 lter

 pressure booster

 water distributor.

1.6 Hazards when handling the equipment

 The system has been designed and manufactured in accordance with the latest technology and

recognised safety regulations.

 The system must be set up in a way that the operating and control elements are easily accessi-

bleatalltimes.Theoor,ceilingandwallsmustbelevelandclean.

Nevertheless, its use may cause danger to the life or health of the user or third parties or damage

to the equipment or other property. The system may only be used for its intended purpose (see 1.5)

and in a perfectly safe condition.

The following residual hazards exist:

Water damage

 Topreventoodingduetoleakage,theinstallationsitemustbeequippedwithaoordrainand/

or a leakage monitor with corresponding alarm.

Electrocution

 Ensurethatworkontheelectricalsupplyisonlycarriedoutbyaqualiedelectrician.

General safety instructions

 Check the electrical equipment of the installation regularly. Remove loose connections and

scorched cables immediately.

 The switch cabinet must be kept locked at all times. Access is only allowed to authorised person-

nel.

 Ifworkonlivepartsisrequired,asecondpersonmustbecalledinwhocanswitcho󰀨themain

switch if necessary.

 Do not touch electrical components with wet hands.

 Disconnect the system from the power supply before working on electrical system parts.

Mechanical/Hydraulic Energy

 Some parts of the system are under overpressure of up to 25 bar.

 De-pressurise the system before carrying out any repair or maintenance work!

Hygiene critical applications

 There is a risk of microbial contamination of system components if the system has not been ade-

quately preserved. The information on preservation must be observed.

 Faultsthatmaya󰀨ectsafetymustbeeliminatedimmediately.Thisisdonebytheoperatororacompa-

ny commissioned by the operator.

1.7 Protective devices and safety measures to avert hazards

1.7.1 Protective devices

 Beforeswitchingonthesystem,allprotectivedevicesmustbeproperlyttedandinworkingorder.

 Protectivedevicesmayonlyberemovedafterthemachinehasbeenswitchedo󰀨andsecured

against being switched on again.

 The required personal protective equipment for the operating personnel must be provided by the

operator and used by the operating personnel when working on the system.

 All protective devices in place must be checked regularly by the operator or a company commis-

sioned by the operator.

1.7.2 Informational safety measures

 The operating manual must be kept at the system’s place of use at all times.

 In addition to the operating manual, the generally applicable and local regulations for accident pre-

vention and environmental protection must be made available and observed.

 All safety and danger notices on the system as well as the labelling of the operating and control

elements must be kept in legible condition.

General safety instructions

1.8 Safety instructions for maintenance work

 The operator must ensure that all maintenance, inspection, and assembly work is carried out

byauthorised,qualiedtechnicianswhohavesu󰀩cientlyinformedthemselvesbystudyingthe

operating manual in detail.

 Beforecarryingoutanyrepairormaintenancework,thesystemmustbeswitchedo󰀨and

secured against being accidentally put into operation. The procedures for shutting down the

system described in section “Commissioning and decommissioning” must always be observed.

 Before starting work on electrical equipment of the installation, the relevant section must be

checked to ensure that it is de-energised. In addition, the system must be secured against being

switched on again.

 Suitable protective clothing appropriate to the hazard must be worn during the work.

 Immediatelyaftercompletionofthework,allsafetyandprotectivedevicesmustberettedorput

into operation.

 Before recommissioning the machine, the points listed in the section “Commissioning and de-

commissioning” must be followed.

1.9 Disposal of system parts and operating materials

The system parts must be disposed of, if necessary separately, in accordance with local regulations.

1.10 Unauthorisedmodicationandreplacementparts

 Modicationoforchangestothesystemareonlypermittedafterconsultationwiththemanufac-

turer.

 Thesameappliestoanyprogrammodicationsmadetothecontroller.

 Original replacement parts and manufacturer-authorised accessories are important for your safe-

ty.

 If other parts are used, the warranty becomes null and void and no liability is accepted for the

resulting consequences.

1.11 Warranty and liability

This product complies with the latest technology and has been designed, manufactured and subse-

quently subjected to quality control in accordance with the applicable codes of practice.

Should there nevertheless be cause for complaint, any claims for compensation against the manu-

facturer of this product shall be governed by the manufacturer’s general terms and conditions of sale

and delivery.

Warranty and liability claims for personal injury and damage to property are excluded if they are

attributable to one or more of the following causes:

 Non-intended use of the system

 Improper installation, commissioning, operation or maintenance of the system

 Operatingtheequipmentwithdefectivesafetydevicesorimproperlyttedornon-functioning

safety and protective devices.

 Failure to observe the instructions in the operating manual with regard to transport, storage, as-

sembly, commissioning, operation (continuous keeping of the operations log!), and maintenance

of the system.

 Unauthorised, unapproved structural changes to the installation

 Unauthorisedmodicationofthecontrolparameters

 Inadequate monitoring of system components that are subject to wear and tear

 Repairs carried out improperly

Emergencies caused by external forces or acts of God.

General safety instructions

1.12 Safety instructions for storage

CAUTION!

The reverse osmosis system is protected by a preservative against microbial contamination and

against risk of frost down to -10°C. At room temperature (< 25°C), this preservative must be purged

and replaced within 6 months at the latest.

At higher temperatures, the protection period is correspondingly shorter (3 months at 30°C). If the

system has been out of operation for more than 30 days (the maximum permissible period), more

preservative must be added to the system to prevent microbial contamination. In any case, the instal-

lation must be protected against direct sunlight during transport, storage and operation.

General safety instructions

Feed water output = permeate output + concentrate output

Yield [%] = (permeate output [l/h])

(feed water output [l/h])

Concentrate output [l/h] = 100 * (permeate output [l/h])

(yield [%]) - permeate output [l/h]

Desalination rate [%] = 100 * [1- “permeate” conductivity

“Feed water” conductivity]

Salt passage [%] = 100 - desalination rate [%]

2. Principles of reverse osmosis systems

2.1 Calculation equations

The permeate output, the concentrate output and the permeate conductivity are determined by read-

ing the corresponding measuring equipment on the system. If no indicating instruments (e.g. variable

areaowmeter)arepresent,thepermeateoutputandtheconcentrateoutputaredeterminedby

manual volumetric measurement.

2.2 Temperature dependency of the permeate output

The permeate output of the system depends on the feed water temperature.

 Thenominaloutputindicatedonthenameplatereferstothedesigntemperatureof15°Cspeciedin

the technical data.

The actual output at a given feed water temperature must be calculated using a correction factor

from the following table.

The respective temperature-related permeate output is calculated according to the following calcula-

tion equation:

Permeate output [l/h] at temperature T [°C] = nominal output * correction factor

Principles of reverse osmosis systems

CAUTION!

If the system is operated at a feed water temperature higher than the design temperature, the maxi-

mumpermeateoutputspeciedonthenameplateandinthetechnicaldatamustnotbeexceeded!

Temperature T in °C Information Correction factor

+10

If the actual permeate output

exceeds the maximum permissi-

ble permeate output, it must be

reduced by lowering the working

pressure!

1.30

+9 1.28

+8 1.25

+7 1.21

+6 1.18

+5 1.15

+4 1.12

+3 1.09

+2 1.06

+1 1.03

Design temperature Nominal output=100% 1.00

-1

If the actual permeate output is

below the maximum permissible

permeate output, it might be

increased by raising the working

pressure!

0.96

-2 0.92

-3 0.88

-4 0.84

-5 0.80

-6 0.77

-7 0.74

-8 0.70

-10 0.67

2.3 Conductivityofrstpermeate

NOTE

After switching on the RO system, permeate with high conductivity is produced for a short time.

Therefore, when designing the peripheral system components, it must be ensured that the RO sys-

tem has a minimum running time of 30 minutes per switching operation.

Principles of reverse osmosis systems

3. Transport and storage

3.1 Transport to the customer

 The transport weight corresponds to the tare weight and can be found in the technical data.

 However,thesystemmaybedamagedbyextremefrost.Theunitsarelledwithapreservative/

antifreeze mixture prior to delivery.

  Thefrostprotectionise󰀨ectivedownto-10°C.

3.2 Storage at the customer’s premises

 The maximum storage period of the system in its original packaging is 3 months at 20°C. After

that,thepreservativemustbeushedoutand,iflongerstorageisdesired,replaced.

 Thesystemmaybedamagedbyextremefrost.Theunitsarelledwithapreservative/antifreeze

mixture prior to delivery.

  Thefrostprotectionise󰀨ectivedownto-10°C.

3.1 Transport to the installation site

 Use a suitable lifting vehicle to carefully transport the unit to its intended location.

 Take note of any centre of gravity information on the packages.

CAUTION!

Duringtransport,allunitsmustbesecuredagainstslippingandfallingover!Tippingfromaxed

position is not permitted! If parts of the equipment protrude from the base area of the pallet, then

such protruding parts must not be damaged when further parts/equipment are loaded.

Transport and storage

4. Technical data / Product description

4.1 Technical data

Type AX 02 05 12 20 30 50

Recommended quality of the feed

water Softwater0˚dH

Ratings 1)

Permeate output at 3 bar l/h 20 50 120 200 300 500

Permeate output at 1 bar l/h 25 75 150 250 350 600

Yield when taking in

- Soft water % 40 50 70 70 75 75

- Hard water % 35–40

Desalination rate % 96 / 98

Intake pressure (min./max.) bar 2 / 6

Ambient and operating tem-

perature ˚C 5 / 30

Working pressure bar 10

Airborne noise emitted dB

(A) < 70

Hydraulic connection

Feed water DN R ½” IG DN 20

Permeate DN R 3/8” IG DN 15

Concentrate (drain water) mm R ½” IG d16 (hose sleeve)

Electrical connection V/

Hz 230/50

Power consumption kW 0.18 0.55

Dimensions W x H x D

System without membrane

vessel mm

600 x

395 x

300

800 x 461 x 360 1215 x 461 x 360

Membrane vessel, Ø x

height mm 270 x

580 405 x 650 620 x 1410

Membrane vessel, content l 24 60 150

1) Ratings apply at

Water temperature 15°C

Total salt content, max. 1000 mg/l

Daily operating time, max. 23 h

Ambient temperature 5 - 30°C

Technical data / Product description

Parameter Unit Limit value

Free chlorine * mg/l < 0.1

Total iron, zinc, manganese ** mg/l 0.2

Silicate *** mg/l 25

Silt density index **** - 3

pH value (operation) ***** - 3.6–9.5

pH value (cleaning) - 2.0–12.0

The feed water must also be free of substances harmful to the membrane, such as:

 Oxidants (e.g. free chlorine, ozone, hydrogen peroxide)

 Surface-active substances (especially cationic)

 Natural organic matter (NOM)

During “softening” pre-treatment, the soft water quality should be monitored. When using antiscalant

for hardness stabilisation (while at the same time stabilising e.g. iron, manganese and silicate), the

specialspecicationsforthesystemoperationmustbeobserved.Ifnecessary,correctthepHvalue

and/or reduce the permeate yield accordingly. When using hard water, it is to be expected that the

membrane will wear out more quickly than when using softened water (“softening” pre-treatment).

* Free chlorine (oxidants) attack the plastic membrane, especially in the presence of metallic ions.

This attack is irreversible and leads to a reduction in salt retention and an increase in permeate

conductance. Therefore, the feed water of the RO system should contain as little free chlorine as

possible.

** Iron/manganese/zinc can be present in undissolved or dissolved form. Undissolved iron/manga-

nese/zincshouldberemovedbyltration.Dissolvediron/manganese/zinccanbeoxidisedandthen

lteredoutorstabilisedwithanantiscalant,forexample.Complexiron/manganese/zincdepositson

themembranesaredi󰀩culttoremovebychemicalcleaning.

 ***Silicatecanleavesoliddepositsonthemembranethataredi󰀩culttoremove.Themaximumsili-

cate concentration in the RO concentrate should not exceed 100 mg/l when using soft water, there-

fore only 25 mg/l are permissible, taking into account the concentration in the feed water.

**** the silt density index is a sum parameter. It provides information about the probability of depos-

itsofnelydispersedsuspendedandcolloidalsubstancesonthemembranes.Forvalues>3,the

pre-treatment must be improved accordingly.

 *****ThepHvaluesignicantlyinuencesthesolubilityofmanywaterconstituents,especiallycar-

bonates and silicates. If necessary, it must be changed to achieve a desired high permeate yield or

higher permeate quality.

4.2 Application limits

The membranes are wear parts in the longer term. Their service life depends on the feed water qual-

ity and the operating conditions. In order to achieve a projected membrane service life of 3 years,

the reverse osmosis systems should be operated with softened water or with hard water according

to the system type, in each case in the same quality as drinking water according to the German

DrinkingWaterOrdinanceandaccordingtothefollowingadditionalspecication:

Technical data / Product description

4.3 Product description

4.3.1 Layout

The following P&I diagram shows the structure of an AX reverse osmosis system:

MSR point list Actuators

PI 1 Local display of pump pressure and

working pressure 1Shut-o󰀨valveforfeedwater,manu-

ally actuated

PI 2 Local display of permeate pressure 2 Flowcontroloriceforpermeateor

shut-o󰀨valve,manuallyactuated

PS 1 Pressure switch for checking the wa-

ter inlet pressure in the intake line 3Sampling valve for untreated water,

manually actuated

PS 2 Pressure switch to signal pressure in

permeate K 1 Solenoid valve on intake

QI 1 Conductivity probe with optional tem-

perature sensor 4 Concentrate screen, factory setting

QS 1 Hardness monitor (optional) 5 Sampling valve for permeate, manu-

ally actuated

US 1 Local process control 6 Flowcontrolorice,factorystandard

orowcontrolvalve(optional)

Hydraulic system components

F-01 Protectivecartridgelter5µm-10“ M-01 Membrane module

P-01 High-pressure pump D-01 Membrane pressure vessel

Technical data / Product description

12 2

PS PI

F-01

K1 PS

36P-01 M-01

MPI

D-01

Supply limit

Permeate

Feed

water

Supply limit

4.3.2 Function

The RO feed water reaches the HP pump via a residual hardness monitor (optional accessory, only

whenusingsoftenedwater)andaprotectivecartridgelter(gradeofltration5µm).Thispumpcon-

veys the water at high pressure (level depends on the size of the system and the desired permeate

pressure) through the semi-permeable membranes.

Water largely freed from salts passes through the membranes and forms the permeate (desired

product). The retained salts are continuously discharged with the concentrate (drain water to the

sewer).

An integrated controller monitors and controls all important functions of the RO system during per-

meate production and during downtimes.

It controls the HP pump and records the permeate conductivity, furthermore it monitors the inlet

pressure and the residual hardness of the feed water (if an optional residual hardness monitor is

present),aswellasthepermeatepressure.Alloperating,shut-down,ushingandfaultstatusesare

shown in plain text on the display, and faults are signalled by a red LED. A fault message can be

sent to the BMS via the alarm relay.

Technical data / Product description

5. Installation and assembly

5.1 Installation

5.1.1 Requirements of the installation site

 Thespacerequiredfortheunitisderivedfromthedimensionsspeciedinthetechnicaldata.In

addition, there should be 0.8 m of space in front of the unit to allow access for operation and 1.0 m

of space to the side for maintenance.

 Theplaceofinstallationmustcomplywiththeambientconditionsasspeciedinthetechnicaldata.

 Theinstallationsurfacemustbelevelandhorizontalandhavesu󰀩cientload-bearingcapacity.

 The room must be well ventilated and frost-proof.

 Onsite,thenecessaryelectricalconnections,asspeciedinthetechnicaldata,mustbeavailable

at a maximum distance of 1 m from the unit.

 Thefeedwaterconnectionmustbeprovidedwithashut-o󰀨device.

 Depending on the size of the system, a control air connection must be present.

 The connection for the disposal of rinse water and concentrates must be installed and usable in the

required cross-section.

5.1.2 Installation of the system

 Unpack the system

 Check that the delivery is complete and has not been damaged in transit.

 Carefully transport the unit to the intended site using a suitable lifting device.

 Install the unit on an installation surface in accordance with the requirements above.

WARNING!

Topreventoodingduetoleakage,theinstallationsitemustbeequippedwithaoordrainand/ora

leakage monitor with corresponding alarm.

NOTE

Any deviations or damage must be reported to the supplier immediately!

Installation and assembly

5.2 Water connections

5.2.1 Requiredqualicationofassemblypersonnel

5.2.2 Establishing the water connections

Feed water

 Remove the sealing disk from the screw connector in the feed water inlet and keep it.

 Connectthefeedwatertothefeedwaterconnectionthroughashut-o󰀨valve.

Permeate

 Remove the sealing disks from the screw connector in the permeate outlet and keep them.

 Connectthepermeateoutletlinetothepermeateinletoftheconsumer(e.g.thehumidier).

Concentrate

 Remove the sealing disk from the screw connector in the concentrate outlet and keep it.

 Routetheconcentrateoutletlineinafree-owingdroptothefreewaterdrainalongtheshortest

possiblepath.Drainwatermustbeabletoowoutwithoutanybackwaterforming.

The following applies only to systems without a membrane pressure vessel:

WARNING!

When the system is not in operation, the back pressure must not exceed 0.3 bar. The cross-sec-

tion of the on-site permeate line to the consumer must not be larger by more than one rated width

than the permeate outlet.

Ifthebackpressureis>0.3barandthereisariskofpermeateowingback,anon-returnvalve

must be installed in the permeate line.

Noshut-o󰀨devicewithoutapressurereliefdevicemaybeinstalledinthepermeateline.

NOTE

The water connection must only be carried out by trained specialist personnel. General directives

(DIN, DVGW, SVGW, ÖKGW) and local installation regulations must be observed when installing

the system.

NOTE

All plumbing connections must be connected while not under pressure. Do not crush or kink

hoses; connect hose connections securely. Concentrate and drain lines must be routed to the free

waterdrainwithadrop.Sealingdiscsarenotpresentinsystemswithangeconnections.

Installation and assembly

DANGER!

The electrical installation must be carried out by an electrician in compliance with the installation

guidelinesoftheVDE,utilitysuppliers,factorystandards,etc.accordingtothevalidcountry-specic

regulations.

DANGER!

Before connecting the system to the power supply, make sure that the corresponding on-site main

switchisswitchedo󰀨.

NOTE

When using a 3-phase AC supply, check the direction of rotation of the HP pump for clockwise rota-

tion.

5.3 Electrical connection

5.2.1 Requiredqualicationofassemblypersonnel

5.3.2 Establishing the electrical connections



 The internal system components are already pre-wired with the controller on delivery.

 Thepowersupplytothesystemmustbeestablished,checkedandfusedaccordingtothespeci-

cations in the electrical wiring diagram.

 For systems supplied with a mains cable/plug, a CEE AC power point fused in accordance with the

system power requirements (see “Technical data”) must be installed within reach of the length of

the mains cable.

 For systems that require a 3-phase AC supply, the power supply to the system must be provided by

the customer.

5.3.3 Connection of external signals from and messages to BMS

Connect

 the permeate container level or the permeate outlet pressure switch

 the forced stop of the residual hardness monitor

 the centralised alarm according to the electrical wiring diagram.

From controller To signal/actuator Cable type Alternative

Power supply line Mains supply NYM-J 3 x 1.5 H05VV-F3 G1.5

Main output High-pressure pump NYSLYO 3 x 1 H05VV-F3 G1

Universal output 1 Inlet valve NYSLYO 4 x 1 H05VV-F3 G1

Universal output 2 Alarm output or concentrate

valve (optional) NYSLYO 4 x 1 H05VV-F3 G1

Switching input 3 Pressure switch LIYCY 2 x 0.5

Switching input 2 Forced stop (residual hardness

monitor) LIYCY 2 x 0.5

Switching input 1 Permeate level or pressure

switch LIYCY 2 x 0.5

Temperature sensor/

conductivity sensor

Conductivity probe with/without

temperature sensor

System cable max.

length 0.5 m

5.3.4 Cable list

It is recommended to use the following cable types:

Installation and assembly

5.3.5 Terminal connection table

No. Name Use Allocation Specication

Terminalsinfrontoftherelays,loweredgeofthecircuitboard:5mmgrid,forsolid/nely

stranded conductors up to 1.5 mm²

T1 Supply, feed

(Power IN) Supply

230V, 50...60Hz, 6,3 ATT2 L

T3 PE

T4 Main output

(Main Out1) High-pressure pump

PE Normally open relay

output, wet, via 6.3 AT

fuse

T5 N

T6 L (NO contact)

T7 Universal output 2

(Uni Out 2) Inlet valve

PE Normally open relay

output, wet, via 6.3 AT

fuse

T8 N

T9 L (NO contact)

T10

Universal output 2

(Uni Out 2)

Alarm output (stand-

ard) or concentrate

ushvalve

NC (normally

closed contact) Relay changeover con-

tact, dry (not fused!)

T11 R (Root)

T12 NO (normally

open)

Terminalsonthesideedgeofthecircuitboard:2.5mmgrid,forsolid/nelystrandedcon-

ductors up to 0.5 mm²

T16

No function

All board spaces are

not allocated with

terminals!

T17

T18

T19

T20

T21

T22 Auxiliary supply Not required! Uv (+5V DC) At 100 Ohm

T23

Switching input 3 Pressure switch of

the RO feed

IN For external dry nor-

mally open / normally

closed contact

T24 GND

T25

Switching input 2 Forced stop

IN For external dry nor-

mally open / normally

closed contact

T26 GND

T27

Switching input 1 Tank level

IN For external dry nor-

mally open / normally

closed contact

T28 GND

T29 Temperature sensor

(Temp)

Temperature sensor

(if present)

IN (wire Ws) KTY81-210 required

T30 GND (wire Br)

T31 Conductivity sensor

(LF)

Conductivity sensor

(screen, if present —

do not use)

IN Conductivity sensor

K=0.2

T32 GND

T33

Installation and assembly

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