FAAC A1400 AIR RDT, A1400 AIR RD User Manual

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Page 1

A1400 AIR RDT

EN 16005:2012

Page 2

ENGLISH

Translation of the original instructions

third parties nor copied in any other way, in any format and with any means, be it electronic, mechanical or by photocopying, without prior

FAAC S.p.A. Soc. Unipersonale Via Calari, 10 - 40069 Zola Predosa BOLOGNA - ITALY Tel. +39 051 61724 - Fax +39 051 758518 www.faac.it - www.faacgroup.com

written authorisation by FAAC SpA. All names and trademarks mentioned are the property of their respec-

tive manufacturers. Customers may make copies exclusively for their own use. This manual was published in 2014.

A1400 AIR RDT 2 532119 04 - Rev. C

Page 3

Direttive di riferimento:

Reference Directives:

2006/42/CE

Technical Report of Compliance

Fabbricante:

Manufacturer

FFAAAACCSS.

..AA.

Document No. TUV255076_TRoC A1400AIRRD_01

Via Calari, 10 – 40069 Zola Predosa (BO) Italy

Prodotto:

Product

AA11440000AAIIRRRRD

Documenti esaminati:

Evaluated Documents



Fascicolo tecnico



Istruzioni per l’uso



Disegni, note di calcolo, relazioni tecniche

Norme armonizzate di riferimento:

Reference harmonized standards



EN ISO 12100:2010



EN ISO 13849-1:2008 PL:”d” Cat:3 (Escape Route Functionality)



EN 16005:2012

Il prodotto non è contemplato dall’Allegato IV della Direttiva 2006/42/CE. La documentazione relativa al prodotto è stata verificata su base volontaria e risulta essere conforme ai requisiti applicabili nel caso non siano presenti NC nel presente Profile Validation (vedi § CONSIDERAZIONI FINALI).

The product is not referred to in Annex IV of 2006/42/CE Directive. The product documents was tested on a voluntary basis and complies with the EHSRs required if they are not present in this Profile Validation CONSIDERATIONS).

NC (see § FINAL

ENGLISH

Translation of the original instructions

Bologna, Febbraio 2015

_______________________

dott. ing. ir. Michele Rinieri

Ispettore incaricato - TÜV Italia S.r.l.

A1400 AIR RDT 3 532119 04 - Rev. C

TÜV Italia S.r.l. - TÜV SÜD Group

via G. Carducci, 125 pal 23

20099 Sesto S. Giovanni (MI)- Italy

T. +39 02 24130 1 F. +39 02 24130 0399

Web: www.tuv.it

– @-mail: tuv.is@tuv.it

Page 4

ENGLISH

EC DECLARATION OF CONFORMITY OF A MACHINE

(2006/42/CE ANN.II P.1, LETT. A)

Manufacturer and person authorised to compile the technical file

Company name: FAAC SpA

Address: Via Calari, 10 - 40069 Zola Predosa BOLOGNA - ITALY

hereby declares that the following machine:

Description: Linear sliding door with 1 or 2 leaves

Model: A1400 AIR RDT CS

complies with the following applicable EU legislations:

Machinery Directive 2006/42/EC (including all applicable amendments) EMC Directive 2004/108/EC

Directive ROHS 2 2011/65/EU and that the technical file has been compiled in compliance with part A of Annex VII. Furthermore, the following harmonised standards have been applied:

EN 16005:2012

EN ISO 12100:2010

EN 61000-6-2:2005

EN 61000-6-3:2007

EN 60335-1:2013

EN 13849-1:2008 PL ”d” CAT. 3

EN 13849-2:2008

Bologna, 01-01-2015 CEO

A. Marcellan

Translation of the original instructions

EC DECLARATION OF CONFORMITY

The Manufacturer

Company name: FAAC SpA

Address: Via Calari, 10 - 40069 Zola Predosa BOLOGNA - ITALY

hereby declares that the following products:

Description: Automation for linear sliding door with 1 or 2 leaves

Model: A1400 AIR RDT KIT; A1400 AIR RDT PA

comply with the following applicable EU legislations:

EMC Directive 2004/108/EC

Directive ROHS 2 2011/65/EU

Furthermore, the following harmonised standards have been applied:

EN 16005:2012

EN 61000-6-2:2005

EN 61000-6-3:2007

Bologna, 01-01-2015 CEO

A. Marcellan

A1400 AIR RDT 4 532119 04 - Rev. C

Page 5

DECLARATION OF INCORPORATION OF PARTLY COMPLETED MACHINERY

(2006/42/CE ANN.II P.1, LETT. B)

Manufacturer and person authorised to prepare the relevant technical documentation

Company name: FAAC SpA

Address: Via Calari, 10 - 40069 Zola Predosa BOLOGNA - ITALY

hereby declares that for the partly completed machinery:

Description: Linear sliding door with 1 or 2 leaves

Model: A1400 AIR RDT KIT

the essential requirements of the Machinery Directive 2006/42/EC (including all applicable amendments) applied and met are:

RESS 1.1.2, 1.1.3, 1.1.4, 1.1.5, 1.1.6, 1.2.1, 1.2.3, 1.3.4, 1.5.1, 1.5.11, 1.5.13, 1.6.3, 1.7.1, 1.7.1.2, 1.7.4

and that the relevant technical documentation has been compiled in compliance with part B of Annex VII. Furthermore, the following harmonised standards have been applied:

EN 16005:2012

EN ISO 12100:2010

EN 60335-1:2013

EN 60335-2-103:2011

EN 13849-1:2008

EN 13849-2:2008 It is also declared that the partly completed machinery identified above may not be commissioned until the final machine - into which it will be incorporated - has

been declared to conform to the provisions of the above mentioned Machine Directive 2006/42/EC.

Bologna, 01-01-2015 CEO

A. Marcellan

DECLARATION OF INCORPORATION OF PARTLY COMPLETED MACHINERY

(2006/42/CE ANN.II P.1, LETT. B)

Manufacturer and person authorised to prepare the relevant technical documentation

Company name: FAAC SpA

Address: Via Calari, 10 - 40069 Zola Predosa BOLOGNA - ITALY

hereby declares that for the partly completed machinery:

Description: Linear sliding door with 1 or 2 leaves

Model: A1400 AIR RDT PA

the essential requirements of the Machinery Directive 2006/42/EC (including all applicable amendments) applied and met are:

RESS 1.1.2, 1.1.3, 1.1.5, 1.1.6, 1.2.1, 1.2.3, 1.2.6, 1.3.1, 1.3.2, 1.3.3, 1.3.4, 1.4.1, 1.4.2.1, 1.5.1, 1.5.2, 1.5.4, 1.5.11, 1.5.13, 1.6.1,

1.6.3, 1.6.4, 1.6.5, 1.7.1, 1.7.1.2, 1.7.4 and that the relevant technical documentation has been compiled in compliance with part B of Annex VII. Furthermore, the following harmonised standards have been applied:

EN 16005:2012 EN ISO 12100:2010 EN 60335-1:2013 EN 60335-2-103:2011 EN 13849-1:2008 EN 13849-2:2008

It is also declared that the partly completed machinery identified above may not be commissioned until the final machine - into which it will be incorporated - has been declared to conform to the provisions of the above mentioned Machine Directive 2006/42/EC.

Bologna, 01-01-2015 CEO

A. Marcellan

ENGLISH

Translation of the original instructions

A1400 AIR RDT 5 532119 04 - Rev. C

Page 6

CONTENTS

EC Declaration of conformity of a machine ................... 4

EC Declaration of conformity ................................... 4

Declaration of incorporation of partly completed machinery 5 Declaration of incorporation of partly completed machinery 5

1. INTRODUCTION TO THE INSTRUCTIONS MANUAL ......... 9

1.1 Safety recommendations ........................................ 9

Safety of the installer/maintenance technician .............. 9

Workp lace safet y ................................................ 9

Operator safety ..................................................9

1.2 Meaning of the symbols used ..................................10

2. AUTOMATION A1400 AIR RDT ................................ 12

2.1 Intended use .....................................................12

Limitations for use ..............................................12

2.2 Unauthorised use ................................................12

ENGLISH

2.3 Identification plate ..............................................13

2.4 Technical specifications .........................................14

2.5 Composition of the supply .....................................15

Installation stages according to type of supply ............. 15

Components of the automation ..............................16

3. REQUIRED INSPECTIONS AND ARRANGEMENTS ......... 18

3.1 Preliminary inspections .........................................18

3.2 Arrangement of electrical cables ..............................18

4. TRANSPORT AND RECEPTION OF THE CONSIGNMENT .. 19

Handle packages................................................19

Unpack and Handle.............................................19

5. CUT THE PROFILES .............................................. 20

Translation of the original instructions

6. ASSEMBLE THE HEAD SECTION .............................. 21

6.1 Preliminary for self-supporting head section (if any) ........21

6.2 Assemble the components .....................................22

Mechanical stops ...............................................22

Electronics module and telescopic profile Rod ..............23

Safety cables and spacers ......................................23

Motor_1 ..........................................................23

Auxiliar y_moto r .................................................

Motor release monitor XB LOCK ...............................24

Internal release ..................................................24

Motor block operation test XB LOCK .......................24

Cover drilling .................................................... 25

Closed door monitor sensor ...................................25

Emergency battery kit .........................................25

7. ASSEMBLE THE FRAME A1400 AIR RDT CS ................. 26

7.1 Entry door with Profiles TK50 ...................................26

Preliminary operations ......................................... 26

Assembling the frame ..........................................26

Fastening the fixed leaves .....................................27

Mounting mobile leaves .......................................27

Glazing installation .............................................27

Assembly of the head section to the upper profile ......... 27

7.2 Entry door with profiles TK20 ..................................27

Preliminary operations ......................................... 27

Assembling the frame ..........................................28

Mounting MOBILE LEAVES ....................................28

Assembly of the head section to the upper profile .........28

A1400 AIR RDT 6 532119 04 - Rev. C

8. INSTALL THE HEAD SECTION .................................. 29

8.1 Preliminary operations ..........................................29

8.2 Wall fastening ....................................................29

8.3 Self-supporting automation fastening ........................30

8.4 Mount the transom ..............................................31

9. INSTALL LEAVES ................................................. 32

9.1 Mount the lower shoes .........................................32

Shoe with bracket TK50 ........................................32

Swivel shoe TK50 ...............................................32

Shoe with bracket TK20 ........................................32

9.2 Mount profiles on the leaves ...................................33

9.3 Mount the lower brush strip ....................................33

Glass leaves ......................................................33

9.4 Install leaves ......................................................33

9.5 PREPARING THE EXTERNAL CARRIAGES .......................34

9.6 Telescopic profile assembly .....................................35

9.7 plate on telescopic profile ......................................36

9.8 PREPARING EXTERNAL CARRIAGES ............................36

9.9 Steel cable fixing ................................................38

9.10 Adjust leaves and carriages ...................................39

Height of the leaves ............................................39

Depth of the leaves .............................................39

Counter wheel ..................................................39

10. INSTALL GLASS LEAVES ...................................... 40

10.1 Mount the sweepers ...........................................42

11. ASSEMBLE THE BELT, CASING AND ACCESSORIES ...... 43

11.1 Mount the belt .................................................43

Adjust the belt. ..................................................44

11.2 Belt tensioning .................................................45

11.3 Adjust the mechanical stops ..................................46

Stops on opening ...............................................46

Double leaf closing stops ......................................46

Single leaf closing stops........................................46

11.4 Mount the side profiles ........................................47

11.5 Install the casing brackets .....................................47

11.6 Fit the closing cover ............................................48

11.7 Mount motor block XB LOCK ..................................49

11.8 Adjust Motor block XB LOCK ..................................49

11.9 Align Motor block ..............................................50

11.10 Mount motor block XM LOCK ...............................50

11.11 Mount the cable gland guides ..............................50

12. ELECTRONIC INSTALLATION ................................. 51

12.1 Electronics module .............................................51

Electronic board E1400 RD .....................................51

12.2 Terminal boards and connectors .............................53

J1 J2 J3 J4 - Safety detectors ...................................53

J5 - Internal motion detector ..................................

J6 - External motion detector ................................. 53

J7 - Emergency: remote opening .............................53

J8 - SDK EVO .....................................................53

J9 - Button photocells XFA .....................................53

J10 - Main power supply 36V - 4A .............................53

J11 - Motor_1 ....................................................53

J12 - Motor_1 Encoder ..........................................53

J13 - Motor block and monitoring (OPTIONALS) ............54

J14 - Emergency battery .......................................54

Page 7

J17 - USB Port ....................................................54

CS CF

J18 - NOT used ..................................................54

J21 - Configurable inputs ......................................54

J22 - Configurable outputs ....................................54

J23 J24 J25 - Optional modules ...............................54

12.3 Motors and encoders ..........................................55

12.4 Motor block XB LOCK and monitoring (OPTIONAL) ........55

12.5 Motor block XM LOCK and monitoring (OPTIONAL) .......56

12.6 EXIT detector XDT3 and entry detector XDT1 ..............57

12.7 EXIT and ENTRY detectors XDT3 ..............................58

12.8 Detectors XBFA for safety on opening for configurations

12.5/12.6 ...............................................................59

12.9 2 exit detectors XDT3 and 2 entry detectors XDT1 .........60

12.10 Detectors XBFA for safety on opening for configuration

12.8 .....................................................................61

12.11 J9 - Button photocells XFA ...................................62

12.12 J7 - Emergency: remote opening ...........................62

J22 - Configurable outputs ....................................62

13. COMMISSIONING .............................................. 63

Preliminary checks prior to commissioning .................63

13.1 System power supply and SETUP .............................63

Checks following SETUP .......................................63

Saving the Configuration ......................................63

13.2 Basic / advanced programming ..............................64

14. SYSTEM FUNCTIONALITY/CONFIGURATIONS ........... 68

14.1 Operating mode ...............................................68

14.2 Inputs configuration ..........................................69

14.3 Configuration of J22 outputs .................................71

14.4 Obstacle detection .............................................71

14.5 Anti-intrusion and PULL&GO .................................71

14.6 Function Energy Saving ......................................72

How to activate theEnergy Saving ............................72

14.7 Function Low Energy in closing -

How to set Low Energy on closure ............................72

15. DIAGNOSTICS AND PROCEDURES .......................... 73

15.1 Acoustic signal..................................................73

15.2 System diagnostics: alerts, errors .............................73

15.3 Solution of problems or outages .............................76

16. OPERATIONS ON THE BOARD ............................... 77

16.1 Setup ............................................................77

How to perform setup from board ...........................77

16.2 RESET ............................................................77

When is Reset necessary .......................................77

How to perform RESET from board ...........................77

16.3 Restoring factory status .......................................77

When is Restore necessary ....................................77

How to perform restore ........................................77

16.4 Update (UPLOAD) ..............................................78

16.5 Download .......................................................78

17. LKEVO ............................................................ 80

17.2 selection MENU ................................................80

18. SDK EVO ......................................................... 84

18.1 Assembly and testing ..........................................84

18.2 Switching on and use ..........................................84

18.3 Home page .....................................................85

A1400 AIR RDT 7 532119 04 - Rev. C

CS CF ..................72

18.4 Reset - Block/Release SDKEVO ................................85

18.5 PASSWORD ......................................................85

18.6 selection MENU ................................................86

18.7 Function MENU .................................................87

Menu 1 language ...............................................90

Menu 2 Programming ..........................................90

Menu 3 ERRORS .................................................93

Menu 4 INDICATIONS ...........................................93

Menu 5 CYCLE COUNTER .......................................94

Menu 6 DATE / TIME ............................................94

Menu 7 TIMER ...................................................94

E x te rn al p ro gr am me rs L K EV OS DK E VO nd 9 5 95

Menu 8 PASSWORD .............................................95

Menu 9 INFO ....................................................96

19. MAINTENANCE ................................................. 97

19.1 Calculation estimate of cycles performed ...................97

Routine maintenance ..........................................97

Periodic replacements .........................................97

19.2 Maintenance technician safety ...............................98

19.3 Replacements ..................................................98

19.4 Cleaning ....................................................... 100

19.5 Functional checks ............................................ 100

20. WASTE DISPOSAL .............................................100

21. ANNEXES .......................................................101

21.1 Installation diagrams ........................................ 102

A1400 AIR RDT with TK20 2 mobile leaves and fixed leaf 102

A1400 AIR RDT with TK20 2 mobile leaves ................. 103

A1400 AIR RDT with tk20 4 mobile leaves ................ 10 4

A1400 AIR RDT with tk20 4 mobile leaves and 2 fixed leaves 105

Position of components on support profile ............... 106

A1400 AIR RDTRight Opening Single Leaf .................. 106

A1400 AIR RDT Left Opening Single Leaf ................... 107

A140 AIR Telescopic Single Leaf Right and Left Opening 108

A1400 AIR RDT Double Leaf .................................. 109

A140 AIR Telescopic Double Leaf ........................... 110

21.2 selection MENU .............................................. 113

21.3 selection MENU .............................................. 115

ENGLISH

Translation of the original instructions

Page 8

INDEX OF TABLES

1 Symbols: notes and warnings on the instructions .................. 10

2 Symbols: work equipment (type and size) ......................... 10

3 Symbols: safety recommendations (EN ISO 7010) .................. 11

4 Symbols: signs on the product .................................... 11

5 Symbols: Personal Protective Equipment .......................... 11

6 Symbols: signs on the packaging ................................. 11

7 Technical specifications .......................................... 14

8 Profile cutting measurements .................................... 20

9 Belt tensioning (measurements in mm) ........................... 45

10 LED on the board ................................................ 52

11 BASIC programming fw version 1.6 or higher ...................... 65

12 ADVANCED programming fw version 1.6 or higher ................. 65

13 Setting max speed in Low Energy ................................. 72

14 Statuses of the automation ...................................... 73

15 Errors ........................................................... 74

16 Alerts .......................................................... 75

ENGLISH

17 AUX Errors ...................................................... 75

18 Guide to outage solution ......................................... 76

19 Updating functions (UPLOAD) from USB ........................... 78

20 Download Functions on USB ..................................... 78

21 Firmware and programming file names ........................... 78

22 BOOTLOADER Errors ............................................. 79

23 Errors ........................................................... 82

Translation of the original instructions

24 Alerts .......................................................... 83

25 Firmware Version ............................................... 83

26 FUNCTION Menu ................................................ 88

27 Maintenance and replacement programme ....................... 97

28 Automation weights ........................................... 101

29 Positions of components on the head section .................... 101

A1400 AIR RDT 8 532119 04 - Rev. C

Page 9

1. INTRODUCTION TO THE INSTRUCTIONS MANUAL

The instructions manual provides the correct procedures and requirements to be complied with for installation and operation of the system in safe conditions.

Carefully read and comply with all the instructions before starting

any activity on the product. Keep these instructions for future reference.

Unless otherwise specified, the measurements provided in the



instructions are in mm.

In writing the instructions manual, due account was taken of the results of the risk assessment conducted by the manufacturer on the entire life cycle of the automation in order to implement effective risk reduction.

The following stages of the life cycle of the automation were considered:

- Consignment reception/handling

- Assembly and installation

- Setting up and commissioning

- Operation

- Maintenance / addressing any failures

- Disposal at the end of the product’s life.

The sources of risk arising from installation and use of the automation were taken into account:

- Risks for the installer/maintenance technician (technical personnel)

- Risks for the automation’s operator

- Risks for the product’s integrity (damage)

1.1 SAFETY RECOMMENDATIONS

The installer/maintenance technician is responsible for the installation/testing of the system and for filling in the system’s Register.

SAFETY OF THE INSTALLER/MAINTENANCE TECHNICIAN

Installation must be performed in compliance with Standards cur-

rently in force. The installer’s safety is connected to environmental and operative conditions that reduce the risks of accidents and severe damage to a minimum.

It should be remarked that most accidents occurring in the workplace are caused by failure to comply with and monitor the most basic and fundamental safety and prevention rules.

The installer/maintenance technician must prove or declare to possess the technical-professional proficiency to perform installation, testing and maintenance activities according to the requirements of these instructions. He or she is bound to read and comply with the instructions manual.

Incorrect installation and/or incorrect use of the product might cause serious harm to people.

Perform installation and other activities adhering to the sequences provided in the instructions manual.

Always comply with all the requirements contained in the instructions and warning tables at the beginning of the paragraphs.

Do not modify the components of the automation system in any way. Only the installer and/or maintenance technician is authorised to

open the automation casing.

FAAC disclaims any liability involving the automation’s safety and



proper operation in the event non-original components are used FAAC. For the supplyA1400 AIR RDT CS, FAAC a System Register form is

provided.

WORKPLACE SAFETY

The installer/maintenance technician must be in good psycho-

physical conditions, aware of and responsible about the hazards that may be engendered when using a machine.

The installation activity requires special work conditions. Furthermore, the suitable precautions must be taken to prevent risks of injury to persons or damage.

It is recommended to always comply with the safety recommendations.

Cordon off the work site and prevent access to the area. The work area must be kept tidy and must not be left unattended. Do not wear clothes or accessories - such as ties or bracelets - that

might get caught in moving parts. Always wear the personal protective equipment recommended for

the type of activity to be carried out. Use work instruments in good conditions. The required level of workplace lighting must be equal to at least

200 lux. Use the transport and lifting equipment recommended in the instruc-

tions manual. Use safety-compliant portable ladders of adequate size, fitted with

anti-slip devices at the top and bottom, equipped with retainer hooks.

OPERATOR SAFETY

The operator in charge of using the automation is responsible for

running the system. He or she is bound to read and comply with the instructions manual. He/she must be in good psycho-physical conditions, aware of and

responsible about the hazards that may be engendered when using a machine.

The required level of ambient lighting must be equal to at least 200 lux.

The operator in charge of using the automation must prevent use of the control devices to anyone who is not explicitly authorised and instructed by them. He/she must not allow access to the control devices to persons under age or with reduced psycho-physical abilities, unless under supervision by an adult responsible for their safety.

Do not use the system in case of malfunctioning. In no event shall the operator be authorised to perform any procedure

inside the automation housing or on installed components. The operator is not allowed to perform any type of procedure on the

motorisation or on other system components. In the event of malfunctioning, the operator must abstain from any

attempt to repair or intervene directly. He/she must request intervention by the INSTALLER/MAINTENANCE TECHNICIAN.

The operator must have the system’s maintenance be carried out according to the instructions provided in this manual.

The installer/maintenance technician must provide the operator



with all the information required to operate the system and for emergency situations.

The installer/maintenance technician must supply the system’s Register to the owner.

ENGLISH

Translation of the original instructions

A1400 AIR RDT 9 532119 04 - Rev. C

Page 10

1.2 MEANING OF THE SYMBOLS USED

Perform the operations and steps described in compliance with safety

regulations and the instructions provided so as to prevent the risks indicated by the symbols in the following tables.

1 Symbols: notes and warnings on the instructions

CAUTION It indicates the risk of personal injury or damage to parts. The described

operation/step must be carried out in compliance with the instructions provided and with safety regulations. WARNING ELECTROCUTION HAZARD

Indicates risk of electrocution. The described operation/step must be

carried out in compliance with the instructions provided and with safety regulations.

WARNING Details and specifications to be followed with the utmost attention, in



ENGLISH

Translation of the original instructions

order to ensure correct operation of the system.

PAGE REFERENCE It refers to the page indicated by the number for details or clarifications.



PICTURE REFERENCE It refers to the picture indicated by the number.



TABLE REFERENCE It refers to the table indicated by the number.



CAUTION The batteries and electronic components must not be disposed of with

household waste but delivered to authorised disposal and recycling centres.

2 Symbols: work equipment (type and size)

HEX WRENCH of the specified size (6, 8...)

6-8...

ALLEN KEY with ROUND HEAD of the specified size (6, 8...)

6-8...

FLAT-HEAD SCREWDRIVER of the specified size (6, 8...)

6-8...

CROSS-HEAD SCREWDRIVER of the specified size (6, 8...)

6-8...

METAL DRILL BITS of the specified size (6, 8...)

6-8...

MASONRY DRILL BITS of the specified size (6, 8...)

6-8...

LEVEL

COUNTERSINK with specified angle (45°...)

45°...

THREADING TAP with specified thread (M6, M8...)

M6-M8...

ROUND SAW

GLASS SUCTION CUPS

PALLET FORKS

TOOL with TORQUE ADJUSTMENT It indicates that a tool with torque adjustment is required where necessary

for safety reasons. TIGHTENING TORQUE VALUE The pictures specify the tool and the tightening torque in Nm. E.g.:

HEX WRENCH 6 set at 2.5 Nm

2.5 Nm

2.5

A1400 AIR RDT 10 532119 04 - Rev. C

Page 11

3 Symbols: safety recommendations (EN ISO 7010)

GENERIC HAZARD It indicates the risk of personal injury or damage to parts.

ELECTROCUTION HAZARD It indicates the risk of electrocution due to the presence of live parts.

RISK OF CRUSHING AND MUSCULOSKELETAL DISORDERS It indicates the risk of crushing and musculo-skeletal disorders due to

lifting heavy parts.

BURNING OR SCALDING HAZARD It indicates the risk of burning or scalding due to the presence of parts

at high temperature.

CRUSHING HAZARD It indicates the risk of crushing hands/feet due to the presence of heavy

parts.

5 Symbols: Personal Protective Equipment

Personal protective equipment to be worn for protection from any risks (e.g. crushing, cutting, shearing, etc.):

Obligation to wear head protection helmet.

Obligation to wear safety footwear.

Obligation to wear mask/goggles to protect the eyes from the risk of fragments due to the use of drill or welder.

Obligation to wear work gloves.

Obligation to wear ear protectors.

ENGLISH

RISK OF CRUSHING HANDS It indicates the risk of crushing hands due to the presence of moving parts.

CUTTING/AMPUTATION/PIERCING HAZARD It indicates the risk of cutting due to the presence of sharp parts or using

pointed tools (drill).

SHEARING HAZARD It indicates the risk of shearing due to moving parts.

RISK OF IMPACT/CRUSHING It indicates the risk of impact or crushing due to moving parts.

FALLING OBJECTS HAZARD It indicates the risk of impact due to falling objects.

SPENT BATTERIES HAZARD It indicates a risk for the environment and health arising from spent bat-

teries due to possible leakage of the liquid content.

COLLISION WITH FORKLIFT TRUCKS HAZARD It indicates a risk of collision/impact with forklift trucks.

Obligation to wear overalls. Do not wear clothes or accessories - such as ties or bracelets - that might get caught in moving parts.

6 Symbols: signs on the packaging

Important warnings for the safety of people and integrity of the load:

Handle with care. Presence of fragile parts.

Store away from water and humidity.

PROHIBITION to stack items.

Maximum number of stackable items, e.g.: 2.

Wear work gloves.

Wear safety footwear.

Use pallet trucks.

Use forklift trucks.

Translation of the original instructions

4 Symbols: signs on the product

Obligation to read the instructions

Kg ___

A1400 AIR RDT 11 532119 04 - Rev. C

20 kg is the MAX weight that 1 person can lift.

WEIGHT of the load.

Page 12

2. AUTOMATION A1400 AIR RDT

230V~

external

ENGLISH

1 Monitored detector for internal opening and safe closing (XDT3) included in the supply 2 Monitored detector for external opening and safe closing (XV1/XDT1) optional accessory 3 SDK EVO 4 Key switch to lock theSDK EVO optional accessory 5 Emergency/Key/OPEN control buttons optional accessories 6 Power supply 230V~ 7 Internal monitored detectors for safe opening (XBFA) optional accessory

Translation of the original instructions

2.1 INTENDED USE

Systems FAAC series A1400 AIR RDT make it possible to operate automatically, manage and control operation of sliding one- or two-leaf doors, with linear horizontal motion.

The automations of series A1400 AIR RDT are designed to install automated entry doors exclusively for pedestrian traffic.

They are suitable for installing emergency exits compliant with standard EN 16005:2012.

They are suitable for indoor installation, for applications meeting the features detailed in 7.

No other use outside the ones set out above is allowed by the

manufacturer.

FAAC disclaims all liability deriving from misuse or use other than that for which the automation is intended.

LIMITATIONS FOR USE

Do not use the automation in the presence of the following conditions:

- direct exposure to weathering

- exposure to direct water jets of any type or extent

- outside the technical limitations set out. Specifically, it is forbid- den to connect to sources of energy other than those set out.

internal

2.2 UNAUTHORISED USE

It is forbidden to:

- use the automation for uses other than THE INTENDED USE;

- use the automation for installing smoke and/or fire protection doors (fire doors);

- install integral anti-panic breakout systems (APN) on doors series A1400 AIR RDT;

- use the automation with mobile and fixed guards tampered with or removed;

- use the automation in premises under risk of explosion and/or fire: the presence of flammable gases or fumes is a severe danger for safety (the product is not certified pursuant to the 94/9/EC ATEX directive);

- integrate other systems and/or commercial equipment not intended;

- use other systems and/or commercial equipment for uses not authorised by the respective manufacturers;

- use commercial devices for purposes other than those set out by the respective manufacturers.

optional accessory

1

A1400 AIR RDT 12 532119 04 - Rev. C

Page 13

1050400000

0114

0001



2.3 IDENTIFICATION PLATE

The identification plate 2-1 is located on the support profile.

In case of supplyA1400 AIR RDT KIT, the identification plate must



be applied in a visible position, under the installer’s responsibility

2-1.

IDENTIFICATION NUMBER



example:

1050400000

Sale code

0114

0001

Progressive no. of the month of production

Month and year of production (mm/ yy)

ENGLISH

Product name

Translation of the original instructions

2

A1400 AIR RDT 13 532119 04 - Rev. C

Page 14

2.4 TECHNICAL SPECIFICATIONS

7 Technical specifications

MODEL A1400 AIR RDT single leaf A1400 AIR RDT double leaf

Length * [mm] from 1750 to 4600 from 2200 to 6100 Depth * [mm] 234 234 Total depth with self-supporting beam * [mm] 289 289 Height * [mm] 100 100 Weight** [kg] MIN. 25 - MAX 43 MIN. 31 - MAX. 55 No. of leaves 2 4 MAX weight of one leaf *** The weight depends on the leaf dimensions:

L [m] Pmax [Kg] ≤ 1.4 110+110

1.6 90+90

1.7 75+75

1.8 65+65

2.0 60+60

ENGLISH

2.2 63+63

2.4 70+70

2.6 80+80

2.8 90+90

3.0 110+110 Passage opening (Vp) [mm] from 1100 to 3000 from 1400 to 3000 Beam length [mm] Vp x 1.5 +100 Vp x 1.5 +100 Maximum framed leaf thickness [mm] 65 65 Power supply voltage 230 V~ (+6% -10% ) 50 Hz 230 V~(+6% -10% ) 50 Hz MAX Absorbed power [W] 140 140 Use frequency 100 % 100 % Main motor (with encoder) powered at 36V powered at 36V Auxiliary motor (without encoder) powered at 36V powered at 36V Max. accessories load 1A, 24V (excluding SDK EVO) 1A, 24V (excluding SDK EVO) Time/date backup battery Lithium CR2032 3V Lithium CR2032 3V Motion backup battery NiMh 24V 1800mAh NiMh 24V 1800mAh Traction by toothed belt by toothed belt

Translation of the original instructions

Opening/closing speed adjustment (empty) [cm/s] 10... 75 20... 150 Partial opening adjustment 5%... 95% of total opening 5%... 95% of total opening Pause time adjustment [s] 0... 30 0... 30 Night pause time adjustment [s] 0... 240 0... 240 Anti-crushing device in opening/closing in opening/closing Protection sensors monitoring (EN 16005:2012) can be bypassed can be bypassed Function Energy Saving can be enabled can be enabled Drive Low Energy can be enabled can be enabled Operating ambient temperature [°C] -20... +55 -20... +55 Automation protection degree IP 23 (internal use) IP 23 (internal use)

* The dimensions and weight of the automation are specified excluding carriage and leaf overall dimensions, which are customisable ** For the specifications of weights in relation to automation length, see 28. *** The leaf weight is variable non proportional to L leaf dimension. This is connected to the opening speed which must remain constant regardless of leaf weight and size,

with reference to standard EN 16005:2012.

The weight is independent of leaf dimensions:

60+60+60+60 [Kg]

A1400 AIR RDT 14 532119 04 - Rev. C

Page 15

2.5 COMPOSITION OF THE SUPPLY

Automations FAAC of the A1400 AIR RDT series may be purchased with the following supply methods:

- Automation in kit: A1400 AIR RDT KIT

- Assembled automation: A1400 AIR RDT PA

- Complete entry door: A1400 AIR RDT CS

INSTALLATION STAGES ACCORDING TO TYPE OF SUPPLY

During installation, it is recommended to comply with the order of

the sections set out based on the type of purchased supply.

A1400 AIR RDT KIT

Sequence of installation phases (dedicated sections in the instructions manual)

- Required inspections and arrangements (§ 3)

- Installation of the door wall frame (§ 8) with FAAC - TK50 or TK20 profiles

- Installation of the head section (§ 8)

- Installation of the leaves (§ 9) - for glass Leaves (§ 10)

- Electronic installation (§ 12)

- Commissioning (§ 13)

* supplied with the required measurement and with pre-assembled automation components.

A. Package with automation components to be assembled on the

support profile FAAC

B. Package with profiles FAAC purchased in 4.30 m or 6.10 m length

rods

Sequence of installation phases (dedicated sections in the instructions manual)

- Required inspections and arrangements (§ 3)

- Cutting the profiles (§ 5)

- Installation of the head section: assembly of the components on the support profile (use exclusively profiles FAAC) (§ 6)

- Installation of the head section (§ 8)

- Installation of the leaves (§ 9) - for glass Leaves (§ 10)

- Electronic installation (§ 12)

- Commissioning (§ 13)

A1400 AIR RDT PA

C. Automation assembled on head section FAAC*

Sequence of installation phases (dedicated sections in the instructions manual)

- Required inspections and arrangements (§ 3)

- Installation of the head section (§ 8)

- Installation of the leaves (§ 9) - for glass Leaves (§ 10)

- Electronic installation (§ 12)

- Commissioning (§ 13)

A1400 AIR RDT CS

ENGLISH

Translation of the original instructions

C. Automation assembled on head section FAAC* D. Leaves FAAC (with TK20 or TK50 profiles) E. Package with TK20 or TK50 profiles to install the door wall frame

FAA C

A1400 AIR RDT 15 532119 04 - Rev. C

Page 16

COMPONENTS OF THE AUTOMATION

Supporting profile

It lets you adequately fasten the automation along a load-bearing metal or masonry wall.

Self-supporting profile KIT - OPTIONAL

ENGLISH

Motor_1 - with encoder

Auxiliary_Motor - with pulley adjustment

Leaf Support/Sliding Carriages - (2 for each leaf )

To fasten the head section to the side walls. In cases where there is no load bearing wall to fasten the supporting profile, or if the wall is not smooth.

The kit includes:

- Self-Supporting Profile to be assembled to the supporting profile to obtain a self-supporting head section.

- 2 Sides to fasten the head section to the side walls.

- Transom Profiles to lock any transom panel installed above the

Translation of the original instructions

self-supporting profile.

CLOSING front CASING PROFILE (H100)

Aluminium profile for front head section closure.

Electronic module rod

Accessory for installation of the electronics module.

Plates with screws

Accessories for installation of components.

Transmission Belt

It is obligatory to use the belt FAAC for A1400 AIR RDT

Control electronics module

J14

J10

MAIN

J11

J12

DL2

DL11

J22

RESET/SETUP

0.0

J17

J18

E-

J23J24

E+ E

G CH CL G

V G 01 02 02

J25

V G

T G

G R2

V RX TX G

USB

V G

T1 G

ERR

BAT1

BAT2

SIC_OP

J13

SIC_CL

V G

EMERG

J21

OPEN

Electronic board E1400 RD and Power supply unit.

Emergency battery - COMPULSORY installation

It allows the automation to operate in case of mains power failure.

E1 G E2

II+ I

V G T

G S4

V G T G S1

V G

A1400 AIR RDT 16 532119 04 - Rev. C

Page 17

Motor block and Internal release - OPTIONAL

It acts directly on Motor_1 mechanically locking it to maintain leaf position.

Supplied with internal release device which allows emergency opening to be performed in case of need.

Ready for installing external release.

Monitoring - OPTIONAL

The magnetic monitoring sensor detects door status: closed/not closed. It is fitted with connector for connecting a relay (e.g. to connect an alarm system).

The monitoring micro switch on the motor block detects any malfunction. It is ready to remotely activate a light or sound warning.

Motor block XM LOCK - OPTIONAL

TK20 - Sliding shoes with bracket - OPTIONAL

For fastening to fixed leaf (supplied in a PAIR).

Lower guide profile - OPTIONAL

To adapt the lower leaf profile to the sliding shoe. Supplied in 3.0 m long rods.

Upper profile for connecting the leaf - (1 for each leaf) - OPTIONAL

Accessory to adapt the upper leaf profile to the carriage connections. Supplied in 3.0 m long rods.

Brush strip for lower guide profile (H19 or H25) - OPTIONAL

Completes the floor guide system.

ENGLISH

It acts directly on Motor_1 mechanically locking it to maintain leaf position.

SDK EVO - OPTIONAL

Programming and function selector device with display.

LKEVO - OPTIONAL

Programming and function selector device without display.

Glass leaf lower shoes - OPTIONAL

For glass leaf sliding.

Glass leaf gripper - OPTIONAL

TK50 - Sliding shoes with bracket - OPTIONAL

For fastening to wall or fixed leaf (supplied in a PAIR).

TK50 - Swivel sliding shoes - OPTIONAL

For fastening to the floor (supplied in a PAIR).

A1400 AIR RDT 17 532119 04 - Rev. C

Translation of the original instructions

Page 18

3. REQUIRED INSPECTIONS AND ARRANGEMENTS

external

230V~

230V~6230V~

ENGLISH

1 Monitored detector for internal opening and safe closing (XDT3) included in the supply 2 Monitored detector for external opening and safe closing (XV1/XDT1) optional accessory

3 SDK EVO 4 Key switch to lock theSDK EVO optional accessory

5 Emergency/Key/OPEN control buttons optional accessories 6 Power supply 230V~

7 Internal monitored detectors for safe opening (XBFA) optional accessory

3.1 PRELIMINARY INSPECTIONS

Translation of the original instructions

Prior to installation, check soundness of the load bearing masonry

structure and door. Perform any required work to assure:

- solidity, stability and absence of any risk of detachment or collapse of the masonry structure, fixed door frame and automation

- level flooring, without any friction/hindrance to smooth leaf sliding

- absence of sharp edges (cutting hazard)

- absence of protruding parts (hooking/entrainment hazard)

internal

3.2 ARRANGEMENT OF ELECTRICAL CABLES

Before performing any operation on the system, disconnect the

power supply. The electrical system must be compliant with the regulations in force

in the Country of installation (EN 60335-1...) The power mains of the automation system must be fitted with a

multi-pole power switch with a switch-contact gap of at least 3 mm. It is advisable to use a 6A circuit breaker with a multi-pole power switch.

Ensure there is a residual current device with a 0.03 A threshold upstream of the system.

Ensure the earthing system is constructed in a workmanlike manner and connect the structure’s metal parts to it.

Arrange the electrical cables for connecting accessories and the electrical power supply 3.

Protect cables by means of suitable ducting.

Place control accessories within the automation’s visual range. These

devices must always be accessible, even with the door open. Comply with the following heights from the ground:

- control accessories = minimum 150 cm

- emergency buttons = max 120 cm

optional accessory

3

A1400 AIR RDT 18 532119 04 - Rev. C

Page 19

4. TRANSPORT AND RECEPTION OF THE CONSIGNMENT

HANDLE PACKAGES

Always comply with instructions on the package.

The NET WEIGHT is indicated on the package.



PALLETISED SUPPLY

RISKS

PERSONAL PROTECTIVE EQUIPMENT

REQUIRED TOOLS

SINGLE PACKAGE

UNPACK AND HANDLE

RISKS

PERSONAL PROTECTIVE EQUIPMENT

REQUIRED TOOLS

For manual lifting, arrange for an adequate number of people for the weight of the leaf: 1 person every 20 kg to be lifted.

1. Open and remove all packaging elements.

2. Ensure all components requested in the supply are present and

intact (§ 2.5 - 16).

In the event of non-conforming supply, proceed as set out in the



General sale conditions included in the Sale catalogue, which can be viewed on the website www.faacgroup.com.

The unpackaged goods must be handled manually.

Should transport be required, the products must be suitably packaged.

Discard the packaging after use in the appropriate containers in compliance with waste disposal regulations.

The packaging materials (plastic, polystyrene, etc.) must not be left within reach of children as they are potential sources of danger.

ENGLISH

Translation of the original instructions

RISKS

PERSONAL PROTECTIVE EQUIPMENT

REQUIRED TOOLS

For manual lifting, arrange for 1 person every 20 kg to be lifted.

A1400 AIR RDT 19 532119 04 - Rev. C

Page 20

5. CUT THE PROFILES

In case of A1400 AIR RDT KIT supply, the profiles must be cut to the



indicated measure. This operation is performed in the shop. After cutting, assemble the components to the support profile.

Handling instructions: 19.

RISKS

PERSONAL PROTECTIVE EQUIPMENT

REQUIRED TOOLS

ENGLISH

Translation of the original instructions

Use a circular or linear saw cutting machine with blade suitable for cutting metals.

It is forbidden to use a hand saw. Only use equipment in good conditions and fitted with all the

required safety devices. Always comply with the instructions provided by the equipment's

manufacturer. Cutting operations may only be performed by personnel authorised

to use the equipment.

Perform the cuts to the measures set out in 8.

8 Profile cutting measurements

Profile to be cut Cutting measurement [mm]

- Support profile

- Head section cover

- Self-supporting profile (OPTIONAL)

Lt = Vp x 1.5+ 100

The head section length (Lt) must be calculated based on the measurement of the passage opening (Vp). 100 mm is the measurement of the overlap between leaves (50 + 50). If the overlap is different, the Lt measurement

varies accordingly. The passage opening measurement (Vp) taken on the installation must already be known when placing the order

since the profiles can be supplied in 6100 mm-long rods.

- Leaf connection profile (OPTIONAL)

- Lower guide profile (OPTIONAL)

50 50

A1400 AIR RDT 20 532119 04 - Rev. C

The leaf width measurement (La) depends on the passage opening measurement (Vp), on the number of leaves and the planned overlap.

4

Page 21

6. ASSEMBLE THE HEAD SECTION

In case of A1400 AIR RDT KIT supply, the components must be fitted



onto the support profile. This operation is performed in the shop. The assembled head section is then moved to the installation site.

Handling instructions at 19.

RISKS

PERSONAL PROTECTIVE EQUIPMENT

REQUIRED TOOLS

Ø 18 mm

6-8-10-13 5

A torque wrench must be used to achieve the specified fastening

torques (Nm).

For manual lifting, arrange for an adequate number of people for the weight of the leaf: 1 person every 20 kg to be lifted.

6.1 PRELIMINARY FOR SELFSUPPORTING HEAD SECTION (if any)

ONLY in cases where the head section is to be fastened to the side



walls, the self-supporting head section must be prepared: the support profile, self-supporting profile and the side brackets are

assembled before assembling the automation components.

1. Fasten the support profile to the self-supporting profile 5-:

- start fastening at a vertical slot at one end and a horizontal slot at the other end.

Check the horizontal with a spirit level.



- proceed with the other fastenings at a 200 mm distance; alternate vertical and horizontal slots.

2. Fasten the side brackets at the ends:

- position the plates in the suitable housings and fasten the 2 side brackets at the ends of the supporting profile and self-supporting profile 5-.

ENGLISH

Translation of the original instructions

200 200

30 30

37,5

A1400 AIR RDT 21 532119 04 - Rev. C

117

use the screws and the plates supplied



5

Page 22

6.2 ASSEMBLE THE COMPONENTS

Adhere to the correct positioning set out in the relevant diagram:

106/107/109.

MECHANICAL STOPS

SINGLE LEAF: 4 mechanical stops are required. Place them at the two

ends of the profile to begin with. DOUBLE LEAF: 8 mechanical stops are required. Place 4 of them at the

two ends of the profile and 4 in the middle to begin with.

1. Insert the mechanical stops from the side or front 6-.

2. Check correct position resting on the profile - 6- and temporarily fasten each mechanical stop 6-.

After assembling the leaves, the stops’ positions must be adjusted.



ENGLISH

Translation of the original instructions





6

A1400 AIR RDT 22 532119 04 - Rev. C

Page 23

ELECTRONICS MODULE AND TELESCOPIC PROFILE ROD

1. Insert into the side of the profile the mounting rod of the electronics module 7-.

2. Fasten the electronics module with the 2 screws on the mounting rod 7- 8-.

3. Insert the rod into the side to fasten the telescopic profile 7-.

Caution: the electronics module bar and the bar for telescopic profile

must always be installed before installing the head section.

The electronics module may be fastened even if the suitable bar is not



present. In such an event 2 plates with screws may be used.

7

J14

J10

MAIN

J11

J12

2 2

SAFETY CABLES AND SPACERS

1. Insert the largest end of each cable in the support profile 9-.

2. Insert 2 vibration damper spacers 9- on the edge of the profile. In case of profiles longer than 3 m, add a spacer in the middle 9-.

MOTOR_1

1. Mount crescents on motor 1 10-.

2. Insert the motor in the side of the support profile.

3. Fasten by means of the 3 plates with screws 10-.

AUXILIARY_MOTOR

1. Mount crescents on auxiliary motor 11-.

2. Insert the motor in the side.

3. Fasten by means of the 5 plates with screws 11-.

RESET/SETUP

J17

DL2

0.0

DL11

J22

J18

E1 G E2

I-

E-

J23J24

I+

E+

G CH CL G

V G 01 02 02

J25

USB ERR BAT1 BAT2 SIC_OP SIC_CL EMERG OPEN

V G

G R2

V RX TX G

V G

T1 G

I2 I1

J13

V G

J21

ENGLISH

8

Translation of the original instructions

9

10

11

A1400 AIR RDT 23 532119 04 - Rev. C

Page 24

MOTOR RELEASE MONITOR XB LOCK

OPTIONAL ACCESSORY) Install the micro switch on the motor block 12.

INTERNAL RELEASE

The knob must be unscrewed and removed to open the automation



casing after mounting the internal release.

1. Screw the adjustment, with the relevant locking nut 13-.

2. Extract about 20 cm steel cable from the sheath. Insert the cable in the adjustment screw and run it into the release device 13-.

3. Tighten the screw 13- to lock the steel cable.

4. Move the black cable sheath against the adjustment screw and screw the adjustment screw fully into the bracket.

5. Insert two plates into the profile 14- and fit the release knob into the side bracket.

6. Lock the knob: pull it and turn it by 90° 13. The knob must maintain this position.

ENGLISH

7. Run the cable with sheath into the suitable cable ducts up to the motor block. Avoid bending the sheath too tightly.

8. Move the cable with sheath close to part  in 15and remove the excess sheath.

9. Run the cable into the guide 15- so the sheath is in contact. Insert the cable in the clamp .

10. Pull the block  all the way, compressing the springs. Tighten the clamp screw  to lock the steel cable.

11. Cut the excess steel cable.

MOTOR BLOCK OPERATION TEST XB LOCK

The motor must be unhindered: motor block not inserted in the motor shaft coupling.

- To adjust cable tension, act on the adjustment screw 13-.

- Unlock the knob by turning it 90° and ensure the release is working.

- Pull the knob to ensure the door opening micro switch is activated

15-).

Translation of the original instructions

If installation of the external release is required, use suitable key but-



tons. Insert the release cable in the suitable housing in the motor block.

12

13





14

A1400 AIR RDT 24 532119 04 - Rev. C

15

Page 25

75501500 2015

COVER DRILLING

diameter 18 mm hole on the

Make a

diameter 18 mm hole on the lengthwise marking on the

cover 16-. The hole must be centred with respect to the release knob.

CLOSED DOOR MONITOR SENSOR

OPTIONAL ACCESSORY)

Assemble the magnet on the carriage closest to the closing stop.



1. Screw the magnet 17- on the carriage (use the threaded

hole normally used to attach the belt).

2. Assemble the sensor to the bracket with the suitable plastic nuts

17-.

3. Insert a threaded plate with screw in the support profile housing

and fasten the bracket 17-.

After installing the door the position must be checked to ensure sensor



and magnet are aligned when the door is closed.

EMERGENCY BATTERY KIT

1. Insert two plates in the support profile as shown in 18.

2. Fasten the battery support on the support profile with 2 screws and washers (provided).

Check the label on the emergency battery with date and logo through

the window on battery support plate .18-.

16

ENGLISH

Translation of the original instructions

17

IDENTIFICATION NUMBER example:

75501500 2015

Sale code

year of manufacture (yyyy)

A1400 AIR RDT 25 532119 04 - Rev. C

18

Page 26

7. ASSEMBLE THE FRAME A1400 AIR RDT CS

RISKS

PERSONAL PROTECTIVE EQUIPMENT

REQUIRED TOOLS

Ø 8 mm

ENGLISH

A torque wrench must be used to achieve the specified fastening

torques (Nm). When ordering the door frame take into account that opening safety

clearances must be kept as set forth by the standard EN 16005:2012 since no opening protection detectors are admissible for the door A1400 AIR RDT.

For manual lifting, arrange for an adequate number of people for the weight of the leaf: 1 person every 20 kg to be lifted.

glass shims

7.1 ENTRY DOOR WITH PROFILES TK50

PRELIMINARY OPERATIONS

1. Check soundness of the installation opening (Masonry, Structural Metal Work etc.).

2. Take the measurements of the opening.

The door frame must be fastened to the structure with suitable screws

Translation of the original instructions

(dowels, self tapping screws etc.).

3. Measure the door frame and compare them with the opening measurements.

4. Check floor levelness with a spirit level.

Ensure there are no hydraulic coils or electrical conduits under the

floor at the planned drill points.

ASSEMBLING THE FRAME

The supply includes:

- upper head section with reinforcement counter-plate for A1400 AIR RDT

- 2 mobile leaves assembled with or without glazing

- 2 fixed side leaves without glazing to be assembled with upper head section

- fixed leaves glass beading

- frame assembly screws kit

1. Mount the upper balancing profile on the opening (STD solution)



20

2. Fasten with appropriate screws with minimum 500 mm pitch.

3. Assemble the entry door parts consisting of the 2 open leaves on the top and assemble it with the head section connection profile the detail by means of the U bolt 20 to the profile using the supplied screw kit.

4. Lift the assembled entry door.

5. Place the entry door in the opening and insert it into the top balancing profile.

6. Check levelness with a spirit level.

7. Fasten the side balancing profiles with appropriate screws at the grub screws 21-.



. Join the head section

19

20

, in

A1400 AIR RDT 26 532119 04 - Rev. C

Page 27

8. Check verticality with a spirit level.

9. Adjust the distance between leaf profile and balancing profile with the grub screws on the profile 21-. This adjustment corrects any flaws on the wall surface.

10. Check proper vertical and horizontal alignment.

11. Fasten the fixed leaf sides as in 21-.

Should it be necessary to cut the balancing profile, attention must

be paid to the alignment of holes, which have variable pitch. It is recommended to mark the references for the cut starting from the top.

FASTENING THE FIXED LEAVES

Fixed leaves may be:

- with low skirting

- with high skirting

Fasten the fixed leaf to the floor and plug the leaf 22- with suitable screws and dowels.

- Use adequate wall bits and dowels with screws.

Ensure there are no hydraulic coils or electrical conduits under the

floor at the planned drill points.

MOUNTING MOBILE LEAVES

Mount the leaves as described § 9 32.

GLAZING INSTALLATION

1. Place the 3 shims in the lower part of the profile 22-.

2. Place the glazing on the shims. 23

Handle the glazing adhering to the safety warnings in the Safety

chapter.

3. Secure the glass with the blocks supplied 23-.

4. Insert the beading along the entire length of the perimeter.

The beading must be inserted with the spline side towards the inside

of the profile 23

ASSEMBLY OF THE HEAD SECTION TO THE UPPER PROFILE

Mount the assembled head section onto the upper profile by means of suitable attachments.

After mounting the head section, perform all procedures to secure the leaf to the carriages as set out in the chapters concerning kit assembly.

Refer to chapter § 8 also for all adjustment procedures.





7.2 ENTRY DOOR WITH PROFILES TK20

PRELIMINARY OPERATIONS

1. Check soundness of the installation opening (Masonry, Structural Metal Work, etc.).

2. Take the measurements of the opening.

The frame must be fastened to the structure with suitable attach-

ments. Ensure there are no hydraulic coils or electrical conduits under the

floor at the planned drill points.

3. Measure the door frame and compare them with the opening measurements.

4. Check floor levelness with a spirit level.

ENGLISH

21

22

Translation of the original instructions

23

A1400 AIR RDT 27 532119 04 - Rev. C

Page 28

ASSEMBLING THE FRAME

The supply includes:

- 4 leaves (2 fixed leaves and 2 mobile leaves with installed glazing).

- side and upper balancing profiles

- alignment profile

- fixed leaf beading

- floor shoe

1. Mount the upper balancing profile 24-.

2. Mount the side balancing profiles 24-.

3. Mount the floor profile 24-.

4. Insert the fixed leaf by tilting it and inserting it into the top profile

  

25

5. Place horizontally then fasten the leaf.

6. Mount the upper labyrinth 25-.

MOUNTING MOBILE LEAVES

Mount the leaves as described § 9 32.

ENGLISH

ASSEMBLY OF THE HEAD SECTION TO THE UPPER PROFILE

Mount the assembled head section onto the upper profile by means of suitable attachments.

After mounting the head section, perform all procedures to secure the leaf to the carriages as set out in the chapters concerning kit assembly.

Refer to chapter § 8 29 also for all adjustment procedures.

Translation of the original instructions

Automation side view

24

fixed leaf

mobile leaf

25

A1400 AIR RDT 28 532119 04 - Rev. C

Page 29

8. INSTALL THE HEAD SECTION

RISKS

PERSONAL PROTECTIVE EQUIPMENT

REQUIRED TOOLS

8-10-13

Ø 8 mm

For manual lifting, arrange for 1 person every 20 kg to be lifted.

8.1 PRELIMINARY OPERATIONS

1. To be able to perform fastenings, the casing and electronics module must be temporarily disassembled and the components must be moved as they are a hindrance.

To make subsequent replacing easier, mark components’ positions.



- With the automation on the ground, extract the safety cables and remove the casing.

- Loosen the screws of the electronics module and remove it.

- Loosen the screws of the components that are a hindrance (e.g. motors) and slide them along the profile.

2. Establish the fastening height of the support profile:

- for leaves with 2.5 m standard height frame consider overall dimensions of 104 to 107

The minimum distance between the upper section of the support

profile and the ceiling must be 80 mm 26. Check the horizontal with a spirit level.

3. Continue according to the intended type of installation:

- WALL FASTENING 29.

- SELFSUPPORTING FASTENING with OPTIONAL ACCESSORY PROFILE 30 - if provided for specific needs.

8.2 WALL FASTENING

The supporting wall must be adequate for the weight of the entry

door (automation with leaves). It is recommended to use dowels with adequate screws and tightening torque.

1. Lift the support profile to the established fastening height.

2. Mark the drilling points on the wall.

Check the horizontal with a spirit level.

3. Drill the holes on the wall.

- Use suitable drill bits for the wall material.

4. Lift the support profile. Start fastening at a vertical slot at one end and a horizontal slot at the other end.

Check the horizontal with a spirit level.

5. Fasten in the middle then proceed with the remaining attachments alternating vertical and horizontal slots at a distance of 200 mm 26.

Upon completing head section installation, reposition the compo-



nents you have moved and reassemble the electronics module in the correct position.

Finally, fit again the safety cables and the casing.

ENGLISH

Translation of the original instructions

Screws and dowels not supplied.



200

37,5

A1400 AIR RDT 29 532119 04 - Rev. C

200

ceiling

26

Page 30

8.3 SELFSUPPORTING AUTOMATION FASTENING

IF ANY)

The side supporting walls must be adequate for the weight of the

entry door (automation with leaves). It is recommended to use dowels with adequate screws and tightening torque.

The automation in the self-supporting version (if provided) has sup-



porting profile assembled on the self-supporting profile and side brackets 21.

1. Lift the automation to the established fastening height and mark on the wall the drilling points at the 4 slots of each side bracket.

Check the horizontal with a spirit level.

2. Drill the holes on the side walls.

- Use suitable drill bits for the material 27.

3. Lift the automation and fasten it to the side walls:

ENGLISH

- Use 4 appropriate dowels at the 4 slots on each of the two side

brackets 28.

Check the horizontal with a spirit level.

4. If the length of the profile exceeds 3000 mm, tie rods must be fitted to the wall or ceiling, depending on the situation, in intermediate position to prevent bending of the head section’s middle.

Use steel tie rods suitable to withstand a 600 kg load (the contact

surface of the cable with the self-supporting profile must be at least

70 mm

)* 29.

5. The number of tie rods required depends on the length of the profile:

- from 3000 to 4000 mm a central fastening is required.

- from 4000 to 6100 mm two intermediate fastening points are required.

It is nevertheless recommended to fit a tie rod in central position also



Translation of the original instructions

for lengths less than 3000 mm.

27

Screws and dowels not supplied.



Tie rod not supplied.



* minimum 70 mm

A1400 AIR RDT 30 532119 04 - Rev. C

28

29

Page 31

8.4 MOUNT THE TRANSOM

OPTIONAL)

The optional transom is provided in the event of self-supporting



head section.

1. Insert the transom leaf in the opening of the self-supporting

profile 30.

2. Keep the leaf lifted to insert the profiles at a regular distance 31.

3. Lower the leaf onto the profiles 32.

4. Fasten a central tie rod (not provided) 33.

Use steel tie rods suitable to withstand a 600 kg load (the contact

surface of the cable with the self-supporting profile must be at least

)* 29.

70 mm

The number of required tie rods depends on profile length: arrange



one tie rod every 2500 mm.

ENGLISH

30

Translation of the original instructions

31 32

Tie rod not supplied.



* minimum 70 mm

A1400 AIR RDT 31 532119 04 - Rev. C

33

Page 32

9. INSTALL LEAVES

RISKS

PERSONAL PROTECTIVE EQUIPMENT

REQUIRED TOOLS

For manual lifting, arrange for 1 person every 20 kg to be lifted.

ENGLISH

9.1 MOUNT THE LOWER SHOES

SHOE WITH BRACKET TK50

For wall or fixed leaf fastening 34.

- use suitable screws (not provided).

SWIVEL SHOE TK50

For fastening to the floor 35.

- use suitable screws (not provided).

SHOE WITH BRACKET TK20

For fastening to the fixed leaf 36.

- use suitable screws (not provided).

Check leaf verticality.

When the leaf is open or closed, the shoe must be fully inside the

Translation of the original instructions

lower leaf profile. The distance between shoe and lower profile must be 4mm (ref.

34-35-36).

35

A1400 AIR RDT 32 532119 04 - Rev. C

1 3

34

36

Page 33

9.2 MOUNT PROFILES ON THE LEAVES

Before installing the leaves, ensure there is no cutting or dragging

hazard. Check leaf verticality. Remove any protrusions and/or sharp edges on the frame and leaves.

1. Position and fasten the attachment profile on the top of the leaf

37.

Use suitable screws for the weight of the leaf with adequate tighten-

ing torque.

2. Position and fasten the lower guide profile on the bottom of the

leaf 38.

9.3 MOUNT THE LOWER BRUSH STRIP

(OPTIONAL ACCESSORY)

1. Cut the brush strip to the same length as the leaf.

2. Insert the brush strip in the suitable housing of the lower guide

profile 38-.

GLASS LEAVES

For installation of glass leaves see the dedicated section: § 10 



40.

9.4 INSTALL LEAVES

Install each leaf as described below.

- Adhere to the dimensions set out in diagrams 104 to 108 and :

- 108 - 106 for RIGHT single leaf automations

- 109- 107 for LEFT single leaf automations

- 110 - 109 for DOUBLE leaf automations

For manual lifting, arrange for 1 person every 20 kg to be lifted.

Adjust the counter wheel 52 39.

Screws not supplied.



37

ENGLISH

38

Translation of the original instructions

A1400 AIR RDT 33 532119 04 - Rev. C

Page 34

9.5 PREPARING THE EXTERNAL CARRIAGES

Assemble the wheels for the steel cable on the external carriages.

1. The wheel in 39- is fixed using the screw on the threaded

hole of the carriage.

2. The second wheel is fixed on the long carriage using the screw

and nut on the slot 39-.

ENGLISH

3. After mounting the steel cable on the 2 wheels 40-, the 2

steel cable sections must be blocked under the plates as shown

Translation of the original instructions

in 40- and locked with the 4 screws supplied. The plates must be positioned in the top part of the carriage unit, as shown in

4. Use lugs to close the 2 ends of the steel cable 40.

5. Adjust steel cable tension with the slot so that the two branches are parallel.

6. After that lock in position with the screw resting on the wheel shaft 40-.







A1400 AIR RDT 34 532119 04 - Rev. C

39

40

Page 35

next fit the external carriage unit in the side 41.

9.6 TELESCOPIC PROFILE ASSEMBLY

Three 2-metre rods are used to assemble the telescopic profile, which will be aligned and cut to measure matching the head section length Lt.

1. Insert the 3 rods in the profile from the 200mm side 42- . The end part will be 50mm 42-

2. After that correctly position the rods, set the telescopic profile abutting with the main profile and fix it with the hex screws with washer 42-

 .

 .

250



200

41

ENGLISH

Translation of the original instructions





A1400 AIR RDT 35 532119 04 - Rev. C

42

Page 36

9.7 PLATE ON TELESCOPIC PROFILE

1. Open the external leaves completely until they come in contact

with the external mechanical stops 75- .

2. Refer to tables A or B for single right or left leaf 110or double leaf 112, to drill the 5 mm diameter holes on the outside of the telescopic profile, as shown in 43- to secure the plate of the steel cable.

3. Use the reference line on the telescopic profile and relevant adhesive template to keep aligned the 2 holes of plate 43-.

4. After that fix the plates with the screws supplied 43-.

ENGLISH





Translation of the original instructions

9.8 PREPARING EXTERNAL CARRIAGES

1. Assemble the supports and bracket 44-.

2. Mount the belt connection unit 44-.







43







A1400 AIR RDT 36 532119 04 - Rev. C

44

Page 37

3. Assemble the carriages on the leaf support 45-.

4. Fit the bracket to secure the steel cable of the external carriages

45-.







ENGLISH

Mount the assembled leaf carriage unit on the profile 46- .





45

Translation of the original instructions

46



47

A1400 AIR RDT 37 532119 04 - Rev. C

Page 38

9.9 STEEL CABLE FIXING

1. Close the internal leaves of the door 48- .

2. Make sure that between the external and internal leaves there is

a 25mm overlap 48-.

3. In this condition use the brackets to lock the steel cable of the

external carriages 48-.

4. Secure the cable under the brackets using the supplied screws 48-.

ENGLISH



Translation of the original instructions







48

A140 AIR T DX

A140 AIR T SX

49

A1400 AIR RDT 38 532119 04 - Rev. C

Page 39

9.10 ADJUST LEAVES AND CARRIAGES

Act on the carriages to adjust height and depth of the leaves. Adjust the counter wheel to prevent the carriage coming off the

sliding guide.

HEIGHT OF THE LEAVES

The carriages allow leaf height to be adjusted by ± 7.5 mm.



1. Partially loosen the two screws 50-.

2. To lift the leaf turn screw  clockwise. To lower the leaf turn screw



anti-clockwise.

3. Tighten the two screws 50-.

DEPTH OF THE LEAVES

1. Loosen the 2 screws 51-.

2. Move the leaf on the two slots at the base of the carriages as desired.

3. Tighten the 2 screws 51-.

After the adjustments check the vertical and horizontal positions of

the leaf with a spirit level.

COUNTER WHEEL

1. Loosen the screw 52-.

2. Adjust height by sliding the wheel support in the diagonal slot 52-.

- The wheel must be drawn close to the top profile 52-. It

is recommended to place a 0.5 mm shim between wheel and profile. Remove the shim upon completing adjustment.

3. Tighten the screw 52-.

Manually move the leaves to ensure the counter wheel runs freely

along the entire stroke. Ensure there are no friction points with the surface of the support profile.





50

ENGLISH



51





52

A1400 AIR RDT 39 532119 04 - Rev. C

Translation of the original instructions

Page 40

10. INSTALL GLASS LEAVES

10-11 mm.

Insert

RISKS

PERSONAL PROTECTIVE EQUIPMENT

REQUIRED TOOLS

Ensure the beading is in its housing.

8. Assemble the gripper as follows: insert in the 2 plates  elements  and .

9. Screw the 2 grub screws 53-.



10.

must be aligned with the fixing holes on the carriage 54-

11. Insert 2 galvanised countersunk head screws in the holes 53-.

The glass must be fully inserted until it touches the clamps on its

upper profile. If the grip of the clamp on the glass is not correct, the glass might fall. The two clamp profiles must be aligned.



Ø 5-6.5 mm

ENGLISH

1. The glass must be drilled as shown 53-.

2. Insert a bush in each hole of the glass 53-.

3. Make 2 holes on the profiles of the gripper

4. Cut 2 pieces of glass beading with the length equal to L.

5. Drill holes in the beadings in correspondence to the holes in the

glass 53-.

Insert the 2 beadings in the profiles 53-.

7. Clean the glass, insert the gripper.

Translation of the original instructions

 

   



A1400 AIR RDT 40 532119 04 - Rev. C

45° M6 8 6-8

For manual lifting, arrange for 1 person every 20 kg to be lifted.

Comply with the glass thickness =

10 mm

6 mm

8 mm

Ø 8.5 mm bush Ø internal 6 mm Ø external 8 mm Ø 6.5 mm with 45° flaring Ø 5.0 mm with M6 tapping Ø 7.0 mm 2 x M8

2 x M6 x 25 UNI 5933

10-11 mm.

53--

L/3L/3 L/3

3 4

1 1

3 4

Ø 7 mm



Adjust the position of the two plates on the leaf.

- Adhere to the dimensions set out in diagrams 104 or 105

and :

- 108 - 106 for RIGHT single leaf automations

- 109- 107 for LEFT single leaf automations

- 110 - 109 for DOUBLE leaf automations

For manual lifting, arrange for 1 person every 20 kg to be lifted.

2.5



53

Page 41

Adjust the counter wheel 52 39.

Use suitable glazing suction cups.

12. Insert the closing profile at the ends 54-.

Check leaf verticality.

When the leaf is open or closed, the shoe must be fully inside the lower leaf profile.

Distance between glass and lower shoe must be 4mm 54-.

ENGLISH

Translation of the original instructions

A1400 AIR RDT 41 532119 04 - Rev. C

54

Page 42

10.1 MOUNT THE SWEEPERS

For double leaf automations: 55. For single leaf automations: 55.

ENGLISH

Translation of the original instructions

Double leaf

Transit space Transit space

Left opening single leaf

Transit space

Right opening single leaf

Transit space

A1400 AIR RDT 42 532119 04 - Rev. C

Transit space

55

Page 43

11. ASSEMBLE THE BELT, CASING AND ACCESSORIES

RISKS

PERSONAL PROTECTIVE EQUIPMENT

REQUIRED TOOLS

8 6

Do not place your hands between: pulley and belt or between sliding guide and carriage wheels.

2 3

11.1 MOUNT THE BELT

close the leaves at the centre line (closing point in case of single leaf) Move the leaves by hand and ensure the movement is smooth and

friction-less along the stroke.

1. Insert one end of the belt around the pulley of Motor_1. Fasten the two ends with fittings 56(1) and screws 56(2).

2. Position the assembled fitting with the belt on the carriage. Comply with 56 positioning and fasten with screws 56-.

3. Position the belt also on the pulley of the second motor.

Double leaf

It is obligatory to use the FAAC belt for A1400 AIR RDT

The middle slot of the belt fitting must be left empty 56-.

In case of double leaf, the belt joint must be fastened on the lower



fitting (on the left leaf). The position of the belt fitting determines the opening direction.

ENGLISH

Translation of the original instructions

Passage opening

Single leaf - LH opening

A1400 AIR RDT 43 532119 04 - Rev. C

Passage opening

Single leaf - RH opening

Passage opening

56

Page 44

ADJUST THE BELT.

upper section of the belt.

Perform some manual opening and closing movements: the belt must

remain in its housing against the pulley. When the belt is installed, operate the leaves with care to prevent

crushing your fingers between the carriage wheels and the sliding guide and between the pulley and belt.

SINGLE LEAF WITH LH OPENING / DOUBLE LEAF

1. Connect the belt fitting to the carriage.

2. Apply a 1kg weight in the centre of the

3. Adjust belt tensioning until obtaining the measurement of arrow

f corresponding to the instructions in 9.

4. In case of double leaf: after adjustment, mount the second upper belt fitting and connect it to the carriage.

ENGLISH

upper section of the belt.

Single leaf - LH opening

Translation of the original instructions

Double leaf

SINGLE LEAF WITH RH OPENING

1. Connect the belt fitting to the carriage.

2. Apply a 1 kg weight in the centre of the belts lower section.

3. Adjust belt tensioning until obtaining the measurement of arrow f corresponding to the instructions in 9.

1 kg

Single leaf - RH opening

1 kg

A1400 AIR RDT 44 532119 04 - Rev. C

Page 45

11.2 BELT TENSIONING

1. Manually move the second motor to tension the belt.

2. Fasten the bracket with the 2 screws 57

3. Loosen the 3 screws 57

4. Loosen the nut 57-.

5. Hang a 1 kg weight in the centre of the lower section of the belt.

6. Measure the arrow f and adjust the screw 57 nal wrench until obtaining the measurement specified in the table.

7. After adjustment, tighten the 3 screws 57

8. Tighten the nut 57-.

9. Perform some cycles and ensure the belt remains in its housing flush with the pulley on the main motor and on the second motor.

Caution - ensure the belt remains flush with the pulleys on the main

motor and second motor.

10. In the event the belt is not flush with the pulleys, loosen the 3 screws 57 slot 57

11. After adjustment, tighten the 3 screws 57-.

12. Perform some cycles again and ensure the belt remains flush with the pulley of both motors.

- and perform plate rotation clockwise using the

- .

Close the door and ensure:

- the closing point between the two leaves matches with the centre line of the support profile.

- complete opening and closing is possible. In case of deviation, check the position and correct connection of

the belt fittings.

When the belt is new tensioning adjustment must be repeated after

the first 100 cycles.

-.

-

- with hexago-

-.

ENGLISH

3 4

57

Translation of the original instructions

9 Belt tensioning (measurements in mm)

RH single leaf

Pulley centre distance (I)

1290 2740 20 1390 2940 22 1490 3140 23 1590 3340 25 1690 3540 26 1790 3740 28 1890 3940 29 1990 4140 31 2090 4340 33 2190 4540 34 2390 4940 37 2590 5340 40 2790 5740 44 2990 6140 47 3190 6540 50

A1400 AIR RDT 45 532119 04 - Rev. C

Belt length f

LH single leaf Centre distance pulleys (I)

1290 2740 20 1390 2940 22 1490 3140 23 1590 3340 25 1690 3540 26 1790 3740 28 1890 3940 29 1990 4140 31 2090 4340 33 2190 4540 34 2390 4940 37 2590 5340 40 2790 5740 44 2990 6140 47 3190 6540 50

Length belt

Double leaf Centre distance pulleys (I)

1950 4060 30 2095 4350 33 2205 4570 34 2310 4790 36 2420 5000 38 2530 5220 39 2640 5440 41 2860 5900 45 3120 6420 49 3380 6940 53 3640 7460 57 3900 7980 61 4160 8500 65 4420 9020 69 4680 9540 73 4940 10060 77 5200 10580 81

Length belt

Page 46

11.3 ADJUST THE MECHANICAL STOPS

The adjustment of the mechanical stops is indispensable for correct

operation of the automation. The carriages must come into contact with the mechanical stops

positioned at stroke end in opening and closing.

STOPS ON OPENING

1. Loosen the 2 grub screws 58- to release the mechanical stop.

2. Completely open the leaf 59-.

3. Bring the mechanical stop pad and carriage into contact 59-.

4. Tighten the 2 grub screws to lock the mechanical stop 58-.

DOUBLE LEAF CLOSING STOPS

In double leaf automations, the leaves must close at the head sec-

tion centre line.

1. Move the leaves in the closed door position.

ENGLISH

2. For each leaf, ensure the carriage is in full contact with the closing stop pad.

Should adjustment be required:

3. Bring the mechanical stop pad and carriage into contact 59-.

4. Tighten the 2 grub screws to lock the mechanical stop 58-.

SINGLE LEAF CLOSING STOPS

With closed door the carriage must be in full contact with the mechanical stop.

1. Loosen the 2 grub screws to release the mechanical stop 58-.

2. Close the leaf.

3. Bring the mechanical stop pad and carriage into contact 59-.

4. Tighten the 2 grub screws to lock the mechanical stop 59-.

Translation of the original instructions

58

59

A1400 AIR RDT 46 532119 04 - Rev. C

60

Page 47

11.4 MOUNT THE SIDE PROFILES

The side covers are a necessary element to assure stiffness and resist-

ance of the overall telescopic profile structure. These features cannot be assured in the event of omitted assembly.

1. Arrange 3 plates on the support profile 61-.

2. Apply the sides to the ends of the support profile.

3. Fasten each side profile with the 3 screws provided 61-.



11.5 INSTALL THE CASING BRACKETS

1. Mount the 3 brackets and fasten them with the screws provided 62-.





ENGLISH

Translation of the original instructions

61

62

A1400 AIR RDT 47 532119 04 - Rev. C

Page 48



11.6 FIT THE CLOSING COVER

On the profile there must be:

- the safety cables 63-

- the spacers 63-

- the side profiles 61- and the cover fastening brackets 63

1. Place the cover on the profile 62.

2. Lock the open cover 63- (lift it, then push it into the profile).

3. Fasten safety cables to the casing 63- and close the casing.

The safety cables must be correctly installed to protect from the risk

of accidental casing fall. Slightly push on the casing to insert the blocks onto the brackets

63-.

The markings on the casing allow it to be adapted to varying leaf



ENGLISH

Translation of the original instructions

thickness. The breaking points 63- make it possible to eliminate the profile section in excess.

















A1400 AIR RDT 48 532119 04 - Rev. C

63

Page 49

11.7 MOUNT MOTOR BLOCK XB LOCK

clearance between the coupling of the motor shaft and the motor block by moving the motor block lever

64



; block the previously

loosened screws.

1. Install the motor block by engaging the retainer hook  in the slot  of the motor block 64.

2. Close the leaves.

3. Manually push lever 65- towards the motor shaft. Check correct coupling.

4. Move the motor block lever to check clearance between the motor shaft and motor block coupling 65-. Otherwise adjust as described below. 65-.

To disassemble the motor block:

act carefully on the motor retainer to avoid breaking it, leverage with a slotted screwdriver between retainer hook and motor block 64-.

11.8 ADJUST MOTOR BLOCK XB LOCK

1. Loosen the two screws 65- which connect the belt fitting to

the movement carriage (on both carriages in case of double leaf).

2. Slightly move the belt fitting horizontally until achieving between the coupling of the motor shaft and the motor block by moving the motor block lever loosened screws.

64--



; block the previously

clearance

ENGLISH

Translation of the original instructions

64



65

A1400 AIR RDT 49 532119 04 - Rev. C

Page 50

11.9 ALIGN MOTOR BLOCK

The motor block must be aligned with the motor.

1. Apply an adhesive strip at the top of the profile 66-.

2. Insert the adjustment screw on the motor block bracket with the

head up in contact with strip 66-.

3. Adjust with nut and lock nut 66-.

11.10 MOUNT MOTOR BLOCK XM LOCK

1. Install the motor block by engaging the retainer hook  in the slot



of the motor block 67.

2. check correct engagement of the motor block 67-.

3. At the end of the check tighten screw 67-.

ENGLISH

Translation of the original instructions

11.11 MOUNT THE CABLE GLAND GUIDES

The guides prevent interference between cables and moving parts.

Install guides for running electrical cables inside the support profile 67- and ).

66

67

68

A1400 AIR RDT 50 532119 04 - Rev. C

Page 51

12. ELECTRONIC INSTALLATION

RISKS

PERSONAL PROTECTIVE EQUIPMENT

REQUIRED TOOLS

2.5

12.1 ELECTRONICS MODULE

ALWAYS DISCONNECT THE POWER supply before working on the

board. Power on only after completing all connections and preliminary checks to commissioning (63).

Fuse F1 Fuse F2

J14

J10

MAIN

J11

J12

RESET/SETUP

DL2

0.0

J17

DL11

J22

J18

E1 G E2

I-

V G 01 02 02

G R2 R1 T2

T1 G

J13

E-

I+

E+

G CH CL G

V G

V G T

V RX TX G

V I4

V G

I2 I1

V G

J21

POWER SUPPLY UNITELECTRONIC BOARD E1400 RD

J23J24

J25

USB ERR BAT1 BAT2 SIC_OP SIC_CL EMERG OPEN

Switching power supply unit 230V~ +6% -10%

Fuses

self-protected from overloads

F1 battery protection 8 A T (delayed) F2 accessory protection 2 A F (quick) F3 power supply unit primary protection 2.5 A T (delayed)

A spare fuse is provided (in the extractable support)



Fuse F3 (extractable support)

Mains power supply input

(230V~ +6% -10%)

69

ELECTRONIC BOARD E1400 RD

J14

J10

MAIN

J11

J12

AUXILIARY MOTOR BOARD

NEVER remove this cover

SW1

SETUP RESET

RESET/SETUP

SW3

Display Clock battery: lithium 3V CR2032

DL2

0.0

SW2

J17

J25

SW4

USB

ERR BAT1 BAT2 SIC_OP SIC_CL EMERG OPEN

DL11

J23J24

J22

V G 01 02 02

G R2 R1 T2

T1 G

J13

J18

E1 G E2

I-

E-

I+

E+

G CH CL G

V RX TX G V

I4 I3 G I2 I1 G V

J21

V G

V G T

V G

V G T

V G

V G J2

Buttons SW1 SETUP / RESET

SW2 “

” (scrolls programming values)

SW3 “+” (scrolls programming values) SW4 “F” (programming: scrolls functions/confirms values)

A1400 AIR RDT 51 532119 04 - Rev. C

70

ENGLISH

Translation of the original instructions

Page 52

DL2

RESET/SETUP

DL2

0.0

DL3

DL6

J17

DL8

DL10

J25

DL4

USB ERR

DL5

BAT1 BAT2

DL7

SIC_OP SIC_CL

DL9

EMERG OPEN

J14

J10

DL1

MAIN

J11

J12

10 LED on the board

Name Description Statuses

ENGLISH

DL1 main

(BLUE) MAIN: main power supply unit input * main power supply ON main power supply OFF

DL2

(BLUE) +5V: board power supply * present absent

(GREEN) USB: storage device device present * device absent

DL3 DL4

RED

ERR: Error/Alert in progress

error * no error/alert

indication

flat battery * battery charged

DL5

RED BATT1: battery status

battery use flat battery with no mains power supply

battery charger at rest

DL6

(GREEN) BATT2: battery charger activity

DL7

RED SIC_OP: safety on opening

DL8

RED SIC_CL: safety on closing

Translation of the original instructions

DL9

(GREEN) EMERG: emergency

(GREEN) OPEN: open button input active (Open impulse) * input not active

DL10

(BLUE)

DL11

VACC: accessories power supply (+ 24V ) * present absent

battery charger working

input active (sensors busy) * input not active (sensors not busy)

input active (door opened in emergency)

DL11

J22

J18

E1 G E2

I-

J23J24

V G 01 02 02

G R2 R1 T2

T1 G

J13

E-

I+

E+

G CH CL G

V RX TX G V

I4 I3 G I2 I1 G V

J21

V G

V G T

V G

V G T

V G

V G J2

71

battery charger not working due to mains power down or fault

* input not active

LED statuses:

on flashing * = standby condition

off in sleep:off with blinking every 5 s

A1400 AIR RDT 52 532119 04 - Rev. C

Page 53

12.2 TERMINAL BOARDS AND CONNECTORS

RESET/SETUP

J17

DL2

0.0

J17

J24

J25

USB ERR BAT1 BAT2 SIC_OP SIC_CL EMERG OPEN

DL11

J23J24

J23

J13

J7  EMERGENCY: REMOTE OPENING

J7 E2 Emergency command 2

G GND Accessories power supply negative and Common contacts

E1 G E2

E1 Emergency command 1

J8  SDK EVO

G GND Accessories power supply negative and Common contacts

TX Data transmission

RX Data reception

V RX TX G

accessories power supply

+24V

J9  BUTTON PHOTOCELLS XFA

R2 2nd pair receiver connection

G GND Receiver negative

R1 1st pair receiver connection

G R2 R1

T2 2nd pair transmitter connection

G GND Transmitter negative

T1 G

T1 1st pair transmitter connection

J10  MAIN POWER SUPPLY 36V  4A

+36V

J10

J22

J14

J10

MAIN

J11

J12

IMPORTANT The maximum total load of accessories connected to board



V (+24V

) must not exceed 1 A.(except SDK-EVO)

J1 J2 J3 J4  SAFETY DETECTORS

T G

S1 V G

T G

S2 V G

T G

S3 V G

T TEST Power supply negative for test

G GND Power supply negative and Common contacts

Configurable safety input (programming)

S2 S3 S4

IMPORTANT: Use monitored safety devices compliant with



standards EN 16005:2012

G GND Power supply negative and Common contacts

+24V

(power supply)

J5  INTERNAL MOTION DETECTOR

I- Input - internal detector in current XDT3

I-

I+ Input + internal detector in current XDT3

I+

I Internal detector input NC/NO contact or Frequency

G GND Accessories power supply negative and Common contacts

V G

accessories power supply

+24V

T G

S4 V G

Switching power supply unit connection

J6  EXTERNAL MOTION DETECTOR

E- Input - external detector in current XDT3

E+ Input + external detector in current XDT3

EE+

E External detector input NC/NO contact or Frequency

G GND Accessories power supply negative and Common contacts

V G

accessories power supply

+24V

J11  MOTOR_1

J11

M1 Motor connection

J12  MOTOR_1 ENCODER

J12

A1400 AIR RDT 53 532119 04 - Rev. C

M1 Motor encoder connection

J18

J22

V G 01 02 02

G R2 R1 T2

T1 G

J21

J13

J18

G CH CL G

V RX TX G V

I4 I3 G I2 I1 G V

J21

E1 G E2

I-

E-

I+

E+

V G

V G T

V G

V G T

V G

V G J2

72

ENGLISH

Translation of the original instructions

Page 54

J13  MOTOR BLOCK AND MONITORING OPTIONALS

J13

Connection of motor block with monitoring (OPTIONALS)

J23 J24 J25  OPTIONAL MODULES

J23

J14  EMERGENCY BATTERY

Installation of the battery is obligatory since it is an essential safety

component.

IMPORTANT: charge the battery before starting up the system.



In this stage, if the battery is flat operation is prevented: only SETUP may be performed.

When the battery is flat, only setup may be performed; upon comple-

ENGLISH

Translation of the original instructions

tion the door remains open and error10 is displayed. The board maintains battery charge, but does not charge batteries

when flat. To check charge status see LEDs DL5 and DL6 (52).

J14

Emergency battery connection

J17  USB PORT

J17

Connection of the USB memory device

J18  NOT USED

J21  CONFIGURABLE INPUTS

J21

V I4 I3 G I2 I1 G V

J22  CONFIGURABLE OUTPUTS

J22

V G 01 02 02

+24V

I4 Input4 configurable (programming)

I3 Input3 configurable (programming)

G GND Accessories power supply negative and Common contacts

I2 Input2 configurable (programming)

I1 Input1 configurable (programming)

G GND Accessories power supply negative and Common contacts

+24V

O2 Output2 NC/NO configurable relay output (programming)

O1 Output1 configurable (programming)

G GND Accessories power supply negative and Common contacts

+24V

accessories power supply

J25

J24

Module connection G-COM / WI-COM / Net-COM

A1400 AIR RDT 54 532119 04 - Rev. C

Page 55

MAIN

J10

J14

J11

J12

DL11

J13

V G

I+

I-

V G

E+

E-

V G

V RX TX G

E1 G E2

T1 G

G R2

V G 01 02 02

J22

J21

J18

G CH CL G

12.3 MOTORS AND ENCODERS

EL EL EL

1. Connect motor M1 to connector J11.

2. Connect the encoder cable of motor M1 to connector J12.

3. Extend the RED and BLACK cables of the AUX_Motor (use the extension cable and connector supplied).

4. Connect the AUX_Motor to the connector on the auxiliary board 73-.

AUX_MOTOR DRIVING DIRECTION



In case of incorrect connection, the board goes into error 28: the entry direction of the connector must be inverted.

J11

J12

12.4 MOTOR BLOCK XB LOCK AND

MONITORING OPTIONAL

ALWAYS DISCONNECT the power supply and disconnect the emergency

battery before inserting or disabling the motor block, in order not to damage the device.

1. Connect the motor release monitor (IF INSTALLED) on the release terminal block 74-C.

2. Connect the motor block to the control board by means of the wired connector 74-.

3. Program motor block operation ( (

SU) (IF INSTALLED).

EL= 00 (motor block not present )

EL= 11 (block inser ted in NIGHT-TIME mode ) EL= 22 (block inser ted in NIGHT-TIME and OPEN mode)

SU= YY (monitoring enabled - I F INSTALLED)

In the event of malfunctioning of the motor block the system signals



ERROR 26 on the display and on SDK EVO. With SDK EVO the motor block operation may be programmed with

several options. In the event of mains power failure, if the battery runs out the block

remains on.

EL) and enable monitoring

red

Connection

black

AUX MOTOR

73

ENGLISH

2 1

green

pink

yellow

white

brown

Motor block monitoring

(IF INSTALLED)

B Motor block microswitch

A Motor block

Translation of the original instructions

   

A1400 AIR RDT 55 532119 04 - Rev. C

J13

74

Page 56

12.5 MOTOR BLOCK XM LOCK AND

EL EL EL

DL11

J13

V G

I+

I-

V G

E+

E-

V G

V RX TX G

E1 G E2

T1 G

G R2

V G 01 02 02

J22

J21

J18

G CH CL G

MONITORING OPTIONAL

ALWAYS DISCONNECT the power supply and disconnect the emergency

battery before inserting or disabling the motor block, in order not to damage the device.

1. Connect the motor release monitor (IF INSTALLED) on the release

terminal block 75-C.

2. Connect the motor block to the control board by means of the

wired connector 75-.

3. Program motor block operation (

EL= nono (motor block not present )

EL=33 (block inser ted in NIGHT-TIME mode ) EL=44 (block inser ted in NIGHT-TIME and OPEN mode)

ENGLISH

Translation of the original instructions

SU= YY (monitoring enabled )

In the event of malfunctioning of the motor block the system signals



ERROR 26 on the display and on SDK EVO. With SDK EVO the motor block operation may be programmed with

several options. In the event of mains power failure, if the battery runs out the motor

block XM LOCK is disconnected.

EL) and enable monitoring SUSU.

1 green

2 pink

4 white

5 brown

J13

Motor block monitor

Motor block











A1400 AIR RDT 56 532119 04 - Rev. C

J13

75

Page 57

12.6 EXIT DETECTOR XDT3 AND ENTRY DETECTOR XV1XDT1

External contact NO

(internal)

(DEFAULT CONFIGURATION)

ATTENTION: IT IS OBLIGATORY TO INSTALL PROTECTIVE BARRIERS IN

THE MOVEMENT AREAS IN THE EVENT CONTACT WITH PERSONS IS NOT ALLOWED.

Use the XV1-XDT1 entry detector for opening and safety on closure on entry, in compliance with EN 16005:2012 and DIN18650.

T G

Use the exit detector XDT3 for opening and safety on closure, including emergency exits, in compliance with EN 16005:2012 and DIN18650.

DEFAULT PROGRAMMING OF DETECTOR XDT3

Radar Output Configuration: Current

S3 V G

EE+

E V G

T G

S4 V G

II+

I V G

outside of

door

red green pink

grey blue

brown

white black yellow black +

XDT3

(internal)

test output

safety

power supply

XDT3 interno

opening outputs emergency

T G

S3 V G

EE+

E V G

outside of

door

blue brown pink

grey red

green

yellow

white

red green pink

grey blue

brown

yellow white

XV1-XDT1

(external)

XV1 esterno

XDT1 esterno

entry

test output

safety

power supply

opening entry

test output

safety

power supply

opening entry

ENGLISH

Translation of the original instructions

inside of door

exit - escape route

76

It is recommended not to activate the “narrow pavement” function

which combines radar and infrared detection for opening.

G CH CL G

V RX TX G V

I4 I3 G I2 I1 G V

J18

E1 G E2

I-

E-

I+

E+

V G

V G T

V G

V G T

V G

V G J2

J22

J18

DL11

J22

J23

V G 01 02 02

G R2 R1 T2

T1 G

J21

J13

A1400 AIR RDT 57 532119 04 - Rev. C

J21

DEFAULT PROGRAMMING ON BOARD E1400 RD

From Board from SDK EVO

I/E Sensors

Id=YY

Ed= 44

P4= CcCc

4F= YY

P3= CcCc

3F= YY

I Function = Internal Current E Function = S1-S4 safeties S4 Function = Closing Safety S4 Test = Enabled S4 NO/NC = NC S3 Function = Closing Safety S3 Test = Enabled S3 NO/NC = NC

inside of door

External contact NO

exit - escape route

77

Page 58

12.7 EXIT AND ENTRY DETECTORS XDT3

External

(int

rnal)

ATTENTION: IT IS OBLIGATORY TO INSTALL PROTECTIVE BARRIERS IN

THE MOVEMENT AREAS IN THE EVENT CONTACT WITH PERSONS IS NOT ALLOWED.

Use the exit detector XDT3 for opening and safety on closure, in compliance with EN 16005:2012 and DIN18650.

Use the entry detector XDT3 for opening and safety on closure, in compliance with EN 16005:2012 and DIN18650.

DEFAULT PROGRAMMING OF DETECTOR XDT3

ENGLISH

Translation of the original instructions

outside of

T G

S4 V G

II+

I V G

door

red green pink

grey blue

brown

XDT3 interno

white black yellow black +

XDT3

(internal)

test output

safety

power supply

opening outputs emergency

Radar Output Configuration: Current

T G

S3 V G

red green pink

grey

blue brown

EE+

white/black yellow/black +

V G

outside of

door

XDT3

(external)

test output

safety

power supply

XDT3 esterno

opening outputs emergency

entry

inside of door

exit - escape route

inside of door

exit - escape route

78

It is recommended not to activate the “narrow pavement” function

which combines radar and infrared detection for opening.

J23

J13

J23

DL11

J22

V G 01 02 02

G R2 R1 T2

T1 G

J13

J18

J21

G CH CL G

V RX TX G V

I4 I3 G I2 I1 G V

J18

E1 G E2

I-

E-

I+

E+

V G

V G T

V G

V G T

V G

V G J2

A1400 AIR RDT 58 532119 04 - Rev. C

DEFAULT PROGRAMMING ON BOARD E1400 RD

Programming from board or SDK EVO:

From Board from SDK EVO

I/E Sensors

Id=YY

Ed= 22

P4= CcCc

4F= YY

P3= CcCc

3F= YY

I Function = Internal Current E Function =

External Current (Not DEFAULT)

Safeties S1-S4 S4 Function = Closing Safety S4 Test = Enabled S4 NO/NC = NC S3 Function = Closing Safety S3 Test = Enabled S3 NO/NC = NC

79

Page 59

12.8 DETECTORS XBFA FOR SAFETY ON OPENING FOR CONFIGURATIONS 12.5/12.6

ATTENTION: IT IS OBLIGATORY TO INSTALL PROTECTIVE BARRIERS IN

THE MOVEMENT AREAS IN THE EVENT CONTACT WITH PERSONS IS NOT ALLOWED.

Use detectors XBFA for safety on opening, including emergency exits, in compliance with EN 16005:2012 and DIN18650.

T G

S1 V G

blue brown pink

grey

red

green

test output

safety

power supply

XBFA

T G

S2 V G

blue brown pink

grey red

green

test output

safety

power supply

XBFA

outside of

XBFA

door

XBFA

inside of door

exit - escape route

80

PROGRAM THE BOARD E1400 RD

Programming from board or SDK EVO:

From Board from SDK EVO

S1-S4 safeties

P1= OcOc

1F= YY

P2= OcOc

2F= YY

Attention: The safeties on Opening protect only above the PO per-

centage set (partial opening). The STOP or LOW ENERGY mode can be selected. With PO partial opening higher than 80%, operation of the safeties has no effect.

S1 Function = Safety on Opening S1 Test = Enabled S1 NO/NC = NC S2 Function = Safety on Opening S2 Test = Enabled S2 NO/NC = NC

J22

J18

DL11

J22

J23

V G 01 02 02

G R2 R1 T2

T1 G

J21

J13

J18

G CH CL G

V RX TX G V

I4 I3 G I2 I1 G V

J21

EE+ E

V G T

S3 V G T

S2 V G

E1 G E2 II+

V G T

V G

ENGLISH

Translation of the original instructions

A1400 AIR RDT 59 532119 04 - Rev. C

Page 60

12.9 2 EXIT DETECTORS XDT3 AND 2 ENTRY DETECTORS XDT1

(int

ernals)

(ext

ernal)

Use 2 exit detectors XDT3 for opening and safety on closure and 2 entry detectors 1 for opening and safety on closure, in compliance with EN 16005:2012 and DIN18650.

DEFAULT PROGRAMMING OF DETECTOR XDT3

Radar Output Configuration: Current

ENGLISH

T G

S4 V G

II+

I V G

white black yellow black +

XDT3 no.1

red green pink

grey

blue brown

XDT3 no.2

T G

S1 V G

EE+

E V G

outside of

door

ATTENTION: IT IS OBLIGATORY TO INSTALL PROTECTIVE BARRIERS IN THE MOVEMENT AREAS IN THE EVENT CONTACT WITH PERSONS IS NOT ALLOWED.

J23

J13

XDT1

(external)

J23

DL11

J22

V G 01 02 02

G R2 R1 T2

T1 G

J13

J18

J21

G CH CL G

V RX TX G V

I4 I3 G I2 I1 G V

J18

E1 G E2

I-

E-

I+

E+

V G

V G T

V G

V G T

V G

V G J2

Translation of the original instructions

T G

S3 V G

J21

V I4 I3 G I2 I1 G V

red green pink

grey blue

brown

yellow

white

XDT1 n.1 XDT1 n.2

T G

S2 V G

J21

V I4 I3 G I2 I1 G V

outside of

door

XDT3

(internals)

inside of door

exit - escape route

inside of door

exit - escape route

81

PROGRAM THE BOARD E1400 RD

Programming from board or SDK EVO: XDT3

From Board SDK EVO

I/E Sensors

Id=YY

Ed=33

I Function = Internal Current E Function = Internal Current

S1-S4 safeties

P4= CcCc

4F= YY

P1= CcCc

1F= YY

S4 Function = Closing Safety S4 Test = Enabled S4 NO/NC = NC S1 Function = Closing Safety S1 Test = Enabled S1 NO/NC = NC

Programming from board or SDK EVO: XDT1

From Board SDK EVO

Input I3

P3= CcCc

3F= YY

P2= CcCc

2F= YY

I3 = Open external I3 = NO S1-S4 safeties S4 Function = Closing Safety S4 Test = Enabled S4 NO/NC = NC S1 Function = Closing Safety S1 Test = Enabled S1 NO/NC = NC

A1400 AIR RDT 60 532119 04 - Rev. C

82

Page 61

------

12.10 DETECTORS XBFA FOR SAFETY ON OPENING FOR CONFIGURATION 12.8

ATTENTION: IT IS OBLIGATORY TO INSTALL PROTECTIVE BARRIERS IN

THE MOVEMENT AREAS IN THE EVENT CONTACT WITH PERSONS IS NOT ALLOWED.

J22

J18

DL11

J22

J23

CONNECT

Use the XBFA detectors for safety on opening in compliance with EN 16005:2012 and DIN18650.

J23

J13

V G 01 02 02

G R2 R1 T2

T1 G

J21

J13

G CH CL G

V RX TX G V

I4 I3 G I2 I1 G V

J21

J18

E1 G E2

I-

E-

I+

E+

V G

V G T

V G

V G T

V G

V G J2

ENGLISH

J21

V I4 I3 G I2 I1 G V

J22

V G 01 02 02

outside of

door

XBFA

pink

grey

pink

blue

brown

red green

XBFA n.1 XBFA n.2

J21

V I4 I3 G I2 I1 G V

J22

V G 01 02 02

XBFA

inside of door

exit - escape route

83

PROGRAM THE BOARD E1400 RD

Programming can be done only with SDK EVO.

From Board SDK EVO

------

Inputs O1-O2 O1 Function = TEST O1 NO/NC = NO

------

INPUTS I1-I4 I2 = Safety on opening I2 NO/NC = NC I2 TEST =Enabled

I4 = Safety on opening I4 NO/NC = NC I4 TEST =Enabled

Attention: The safeties on Opening protect only above the PO per-

centage set (partial opening). The STOP or LOW ENERGY mode can be selected. With PO partial opening higher than 80%, operation of the safeties has no effect.

Translation of the original instructions

A1400 AIR RDT 61 532119 04 - Rev. C

Page 62

TX2

RX2

TX1

RX1

T1 G

G R2

12.11 J9  BUTTON PHOTOCELLS XFA

The photocells are not admitted as safety devices in European Com-

munity countries where the EN 16005:2012 standard is in force. Specifically, photocells are considered as auxiliary devices, complementary to safety.

In extra-European countries where the EN 16005:2012 standard is



not in force, it is possible to continue using traditional photocells and sensors.

Button photocells are constantly monitored by the door’s control electronic board, which controls correct operation at each movement.

Connect the photocells and enable them in programming ( 84 or 85.

NO PHOTOCELL - If no button photocells are used, leave J9 connector

ENGLISH



inputs free and program the function The number of photocells may be programmed by SDK EVO.

bP = nono.

12.12 J7  EMERGENCY: REMOTE OPENING

The EMERGENCY control has priority over any other input, in any



operating condition and mode, except MANUAL operation.

activation of the EMERGENCY command with busy safety on opening



is executed up to the PO % set at the max. speed. The remaining space is executed in LOW ENERGY mode.

The emergency causes the door to OPEN, and it remains open as long as the control is kept active.

1. Connect a NO or NC type double contact button

2. Enable input for the type of contact (

With SDK EVO, emergency operation may be programmed with



several options.

Translation of the original instructions

E1 = nOnO (NO input)

E1 G E2

1 button

E1 = nCnC (NC input)

E1 G E2

2 buttons

E1).

1 pair of button photocells

bP = 11

+ R2 GND

G R2

+ R1

+ T2

bP)

GND

T1 G

+ T1

TX - transmitter grey and blue (grey sheath) RX - receiver black and blue (black sheath)

2 pairs of button photocells

bP = 22

+ RX2

GND + RX1 + TX2

GND + TX1

CABLE colour

blue

black

grey

RX1

TX1

black

grey

blue

84

blackblack

blueblue

black

grey

85

E1 G E2

1 button

J22  CONFIGURABLE OUTPUTS

J22

O2 Output2 configurable relay output (programming)

O1 Output1 configurable (programming)

G GND Accessories power supply negative and Common contacts

V G 01 02 02

+24V

With SDK EVO, O1 and O2 operation on J22 may be programmed



with several options.

O1 and O2 specifications:

- O1 Open Collector output with Max load 100mA to be connected between 01 and V.

- O2 relay contact with Max load 2A to be connected between O2 and O2.

A1400 AIR RDT 62 532119 04 - Rev. C

E1 G E2

2 buttons

accessories power supply

86

J22

NO/NC Relay Contact

+24V

V G 01 02 02

87

Page 63

13. COMMISSIONING

0.0

RESET/SETUP

DL2

L0...L1...

...

RISKS

PERSONAL PROTECTIVE EQUIPMENT

REQUIRED TOOLS

PRELIMINARY CHECKS PRIOR TO COMMISSIONING

Before commissioning the system, regular and friction-less door

movement must be ascertained. Manually check the leaves slide smoothly, with mains power supply,

emergency battery and motors disconnected. If battery charge is insufficient, automation operation is prevented;

the door remains OPEN (ERROR status 10) until the emergency battery charging cycle is completed. Only SETUP may be performed in any case despite the battery being down.

It is recommended to charge the emergency batteries before commissioning, to avoid waiting time for the charging cycle after performing SETUP.

The battery must be charged exclusively by using the electronics module for A1400 AIR RDT

13.1 SYSTEM POWER SUPPLY AND SETUP

1. Close the leaves or partially open them with mains and battery power supply disconnected.

2. Connect the 2 motors and M1 motor encoder.

3. Connect the 230 V~ mains power supply.

The board turns on. The display reads in sequence:

bo (Bootloader)

- FW version (2 digits separated by a point)

L0 blinking = system requires setup

The door performs a SLOW OPENING and remains OPEN in error ( on the display).

If the door CLOSES instead of opening, it is necessary to immediately

disconnect power supply, invert connections of Auxiliary_motor then power back on.

If the door does NOT move, it is necessary to immediately disconnect power supply, check motor connections then restore power supply.

4. Connect the battery.

5. Enter programming and perform the required modifications ( 11 and 12).

IMPORTANT TO PROGRAM:

- number of leaves

- partial opening adjustment

- Both E1-E2 Emergencies are not active

- configuration of safety detectors

The setup CANNOT be performed in NIGHT-TIME and MANUAL func-



tion.

Id, EdEd

6. Command SETUP

L0...L1...L2L2

5 s



SW1

SETUP/RESET

The door performs SETUP and the ongoing phases are displayed:

L0... L1L1... L2L2.

Upon completing SETUP, the display shows automation status (see 14).

During SETUP the safety detectors are ignored. To prevent any

hindrance to motion, keep at a distance and prevent anyone from going near the system.

CHECKS FOLLOWING SETUP

Check correct operation of the following:

- safety detectors inputs (S1-S4)

- devices connected to inputs (I1-I4)

- emergency (E1-E2)

- configurable outputs (O1-O2)

- any connected control devices.

SAVING THE CONFIGURATION

At the end of functional tests, download the full configuration of the system.

Use the DOWNLOAD procedure shown on (78).

...

ENGLISH

Translation of the original instructions

A1400 AIR RDT 63 532119 04 - Rev. C

Page 64

13.2 BASIC / ADVANCED PROGRAMMING

0.0

RESET/SETUP

DL2

0.0

RESET/SETUP

DL2

St Y no

0.0

RESET/SETUP

DL2

J25

0.0

RESET/SETUP

DL2

0.0

RESET/SETUP

DL2

0.0

RESET/SETUP

DL2

St Y no

0.0

RESET/SETUP

DL2

0.0

RESET/SETUP

DL2

0.0

RESET/SETUP

DL2

BASIC programming (see 11)

1. Press F until the first basic function is displayed.

3 s



The function code remains displayed as long as it is pressed



2. Release F. The default value is displayed (or other programmed one)

ENGLISH

Advanced Programming (see 12)

1. Press and hold F and + as well, until the first advanced function is displayed.

The function code remains displayed as long as it is pressed



2. Release F and +. The default value is displayed (or other programmed one)

3. Use buttons + or - to modify the value of a function

4. Press F to confirm the displayed value. Move to the next function. The modified value becomes effective immediately. Proceed in the same way for all functions. The last ( programming.

5. In

St select YY or nono with buttons +/

Y = save new programming

no = does NOT save new programming

(example)

Translation of the original instructions

6. Press F to confirm and close. Go back to automation status (

14).

St) closes

Programming time expiration



Programming is interrupted after 10 minutes of inactivity on buttons +, must be performed again.

Power failure during programming

If power supply fails while programming is ongoing, UNSAVED modifications must be performed again.

Immediately exit programming

During programming, press simultaneously F and

until programming exit is activated: function

3. Use buttons + or - to modify the value of a function

4. Press F to confirm the displayed value. Move to the next function. The modified value becomes effective immediately. Proceed in the same way for all functions. The last ( programming.

5. In

St select YY or nono with buttons +/

Y = save new programming

no = does NOT save new programming

(example)

6. Press F to confirm and close. Go back to automation status (14).

St) closes

, F. The display goes back to automation status and UNSAVED modifications

St.

A1400 AIR RDT 64 532119 04 - Rev. C

Page 65

11 BASIC programming fw version 1.6 or higher

Y no

1 2

no Y

0 0 58

4.0

1.2

0.1

3.0

1.0

no Y

1 2 3 4 5

no nO nC

Y no

00 01 02 03 04 05 06 07 08 09 10 11 12 13 LO-L 2

no Co Cc Oo Oc

PI Y no

BASIC Function Default

DEFAULT configuration

It displays whether the board is configured to factory settings (default).

Y = the board is configured in default no = at least one value has been modified with respect

to default If you wish to reload all default settings, set

LEAF NUMBER

1 = 1 leaf 2 = 2 leaves

If the function is modified, SETUP must be performed.



PARTIAL OPEN

Set the opening percentage in Partial operating mode

no= 100% opening

Adjustable from 20% to 95% (MAX) of complete opening Step = 5%

The minimum width prescribed by the cur-



rent legislation on escape routes must be respected when adjusting this percentage.

PAUSE TIME

This allows you to adjust the pause time of the fully open door. Adjustable from Step = 1 s



Energy Saving

no = not enabled Y = enabled

NIGHT PAUSE TIME

In night-time mode, if opening is done with the Key command, the door remains open for the time set with this function.

Adjustable from from from

minutes.tens of seconds: e.g.

CLOSING SPEED

Adjustable from

OPENING SPEED

Adjustable from

CLOSING FORCE

Adjustable from

PUSH TIME on OBSTACLE

Adjustable from Step = 0.1 s

0 to 3030 s.

The pause time is only active in automatic operation mode.

0 s to 44 minutes (MAX). 0 to 5858 s, step = 2 s; time displayed in seconds. 58 s to

4.0 minutes, step = 10 s; time displayed in

1.2 = 1 minute and 20 seconds.

1 (minimum) to 1010 (MAX).

0.1 s to

3.0 s.

1.0

BASIC Function Default

INTERNAL DETECTOR INPUT

no = internal detector not enabled Y = internal detector in current

EXTERNAL DETECTOR INPUT

no = external detector not enabled

1 = external detector with contact in frequency 2 = external detector in current 3 = internal detector in current 4 = external detector with N.O. contact 5 = external detector with NC contact

OPEN EMERGENCY CONFIGURATION

no = not enabled nO = input with NO contact nC = input with NC contact

EXIT PROGRAMMING

It lets you exit programming, and decide whether to save or not the modifications made.

Y = save (only if there are NO configuration errors) no = do not save

Press F to confirm. After exit, the display shows automation status:

00 CLOSED 01 OPENING 02 OPEN 03 In PAUSE 04 in NIGHT-TIME PAUSE 05 CLOSING 06 OPEN in EMERGENCY 07 in MANUAL mode 08 in NIGHT-TIME mode 09 OPENING with AUX Motor 10 System TEST in progress 11 STANDBY 12 Safety TEST in progress 13 OPEN in ERROR LO-L2 PHASES LO, L1, L2 SET-UP IN PROGRESS

12 ADVANCED programming fw version 1.6 or higher

ADVANCED Function Default

SAFETY INPUT CONFIGURATION S1

no = no device Co = safety on closure with NO contact Cc = safety on closure with NC contact Oo = safety on opening with NO contact Oc = safety on opening with NC contact

SAFETY INPUT TEST S1

Not displayed if

Y = test enabled no = test not enabled

PI = nono

(*)

ENGLISH

Translation of the original instructions

A1400 AIR RDT 65 532119 04 - Rev. C

Page 66

ADVANCED Function Default

no Co Cc Oo Oc

P2 Y no

no Co Cc Oo Oc

P3 Y no

no Co Cc Oo Oc

P4 Y no

1 2

no 1 2

0 1 2 3 4 5 6

PF 7 16 17

1 2 3 4

no 1 2 3 4

EL no Y

SAFETY INPUT CONFIGURATION S2

no = no device Co = safety on closure with NO contact Cc = safety on closure with NC contact Oo = safety on opening with NO contact Oc = safety on opening with NC contact

SAFETY INPUT TEST S2

ENGLISH

Translation of the original instructions

Not displayed if

Y = test enabled no = test not enabled

SAFETY INPUT CONFIGURATION S3

no = no device Co = safety on closure with NO contact Cc = safety on closure with NC contact Oo = safety on opening with NO contact Oc = safety on opening with NC contact

SAFETY INPUT TEST S3

Not displayed if

Y = test enabled no = test not enabled

SAFETY INPUT CONFIGURATION S4

no = no device Co = safety on closure with NO contact Cc = safety on closure with NC contact Oo = safety on opening with NO contact Oc = safety on opening with NC contact

SAFETY INPUT TEST S4

Not displayed if

Y = test enabled no = test not enabled

OPERATION OF SAFETIES ON OPENING

1 = STOP 2 = LOW ENERGY (motion slowed down)

BUTTON PHOTOCELLS (OPTIONAL)

no = no photocell 1 = 1 pair of photocells 2 = 2 pairs of photocells

P2 = nono

P3 = nono

P4 = nono

On the escape route doors the safeties on



opening are considered only beyond the PO % (partial opening) set. Any activations before this point WILL NOT be considered.

(*)

ADVANCED Function Default

INPUT I1 CONFIGURATION

(**)

NO input

(

**) Programmable as NC with SDK EVO

0 = input not enabled 1 = Always Open 2 = OPEN external 3 = EXIT ONLY OPENING 4 = OPEN Automatic 5 = OPEN Semi-automatic 6 = PHARMACY OPENING

(only works in night-time mode paired with

7 = Key (opening in NIGHT-TIME mode) 16= NIGHT-TIME mode** 17= MANUAL mode **

(** )The choice of this configuration automatically implies the same operation on I2 input.

Note : For specific functions of the inputs see § 14.2

PHARMACY OPENING

Only displayed if = Adjustable from 5% to 95% (MAX) of complete opening Step = 5%

NIGHT-TIME BATTERY KIT

Operation of the battery in NIGHT-TIME mode with power outage.

1 = immediately perform OPENING motion 2 = immediately perform CLOSING motion 3 = with flat battery last OPENING motion 4 = with flat battery last CLOSING motion

MOTOR BLOCK_1 (OPTIONAL) 74rif .C

no = not enabled 1 = motor block XB LOCK closed in NIGHT-TIME mode 2 = motor block XB LOCK closed in NIGHT-TIME mode and OPEN 3 = motor block XM LOCK closed in NIGHT-TIME mode 4 = motor block XM LOCK closed in NIGHT-TIME and OPEN

MONITORING on MOTOR BLOCK XB LOCK / XM LOCK

Not displayed if

no = not enabled Y = enabled

NIGHT-TIME MODE DELAY

When night-time mode is set, the internal detector remains active for the time set with this function to allow one opening only. The internal detector is disabled immediately after opening and in any case upon expiry of the set delay.

Adjustable from Step = 1 s

CI = 66

The input configured as Pharmacy functions



in NIGHT-TIME mode; the other operating modes are equivalent to an input configured as AUTOMATIC OPEN

EL = nono

0 to 6060 s

)

A1400 AIR RDT 66 532119 04 - Rev. C

Page 67

ADVANCED Function Default

00 01 02 03 04 05

06 07 08 09

10 11 12

Y no

CONFIGURABLE OUTPUT OUT2 (J22)

(**)

NO Output

(

**) Programmable as NC with SDK EVO

00 = not enabled 01 = GONG 02 = BOARD ERROR/FAULT 03 = BATTERY Operation 04 = EMERGENCY active 05 = TEST on the configured safety devices

on inputs I1, I2, I3, I4.

06 = door NOT CLOSED 07 = door OPEN 08 = door in motion 09 = light (activated for 60 s) (activation time can be

changed with SDK EVO)

10 = INTRUSION in progress 11= At least one Safety in Closing On 12= At least one Safety in Closing On

or one Safety in Opening On

Inputs status

The display segments correspond, each one has an input and indicating whether it is active or not:

1 = S1 input

2 = S2 input

3 = manual release input

4 = S3 input

5 = Emergency 1 input

6 = S4 input

7 = I input

8 = I1 input

9 = I2 input

10 = FSW input

11 = I3 input

12 = I4 input

13 = Emergency 2 input

14 = E input

648

ADVANCED Function Default

EXIT PROGRAMMING

It lets you exit programming, and decide whether to save or not the modifications made.

Y = save (only if there are NO configuration errors) no = do not save

Press F to confirm. After exit, the display shows automation status.

ENGLISH

Translation of the original instructions

Segments 3 and 7 switch on for the BI-STABLE



motor block, whilst only segment 3 switch on for the MONOSTABLE motor block

(*)

value

EP:

programming with SDK EVO offers a wider number of options compared to the board. The board does not display the values it does not have and shows them all as EP (External Program). Programming with the board lets you overwrite values EP, choosing an available value with +/

A1400 AIR RDT 67 532119 04 - Rev. C

Page 68

14. SYSTEM FUNCTIONALITY/CONFIGURATIONS

14.1 OPERATING MODE

The following operating modes may be activated from SDK EVO : Selection is carried out by pressing the keys on the fixed part of the

programmer; the function is identified by the corresponding symbol switching on.

- NIGHT

The door closes and motor block is activated (if present). The internal and external radar are disabled.

The Key control causes opening and closing again after the nighttime pause time.

- MANUAL

The sliding leaves are free and may be manually operated.

The door does NOT operate as an escape route in NIGHT-TIME and



ENGLISH

Translation of the original instructions

MANUAL modes.

- AUTOMATIC

The door opens (partially or totally) then closes again after the set pause time (default 2 sec.).



Pause time adjustment from 0 to 30 sec.

Function Door Status Internal Sensor External Sensor KEY Emergency

MANUAL

-------- no effect no effect no effect no effect

TOTALLY OPEN

100%

AUTOMATIC TWO-DIRECTIONAL TOTAL





100%



AUTOMATIC TWO-DIRECTIONAL PARTIAL







AUTOMATIC ONE-DIRECTIONAL TOTAL (EXIT ONLY)



100%



AUTOMATIC ONE-DIRECTIONAL PARTIAL (EXIT ONLY)





OPEN no effect no effect no effect no effect

OPEN pause counting restarts pause counting restarts pause counting restarts no effect

CLOSED

OPENING PARTIAL

CLOSED

total opening and closure again after pause time

pause counting restarts pause counting restarts pause counting restarts total opening

partial opening and closure again after pause time

OPEN pause counting restarts no effect pause counting restarts total opening

CLOSED

OPENING PARTIAL

CLOSED

total opening and closure again after pause time

pause counting restarts no effect pause counting restarts total opening

partial opening and closure again after pause time

NIGHT

CLOSED no effect no effect

PARTIAL NIGHT-TIME

PARTIAL OPENING

CLOSED no effect no effect

OPEN PARTIAL

no effect no effect no effect no effect

- DOOR OPEN

The door opens and remains open.



- TWO-DIRECTION AUTOMATIC

Pedestrian transit occurs in both directions; the internal and external radars are enabled.





- ONE-DIRECTION AUTOMATIC

Pedestrian transit occurs in one direction only; the external radar is disabled.

- TOTAL OPENING

100%

The door opens fully.

- PARTIAL OPEN

The door performs reduced openings (default 20%). Adjustment from 20% to 95% of total opening with 5% step.

total opening and closure again after pause time

partial opening and closure again after pause time

no effect

total opening and closure again after pause time

partial opening and closure again after pause time

total opening and closure again after pause time

partial opening and closure again after pause time

total opening and closure again after night pause time

partial opening and closure again after night pause time

total opening

A1400 AIR RDT 68 532119 04 - Rev. C

Page 69

14.2 INPUTS CONFIGURATION

FUNCTION ALWAYS OPEN / AUTOMATIC input

EXIT ONLY / TWO-DIRECTIONAL FUNCTION input

Inputs refers to managing connection with safety devices in closure and opening and opening actuation devices, safety devices and other types.

DISABLED input

the input is NOT considered in this mode.

FUNCTION ALWAYS OPEN / AUTOMATIC input

- this type of input may only be activated on I1, I2, I3 and I4 inputs as NO or NC contact.

- With contact active this input overrides an OPEN operating mode.

- With contact not active this input overrides an AUTOMATIC operating mode.

- in an input configured in this mode with SDK EVO and LKEVO, the functions can be modified, except ALWAYS OPEN / AUTOMATIC.

EXTERNAL OPEN input

- manages 3 types of input :

1. NO or NC CONTACT (can be selected for I1, I2, I3 and I4 inputs and E terminal)

2. IN CURRENT (can be selected only for E- and E+ terminals)

3. IN FREQUENCY (can be selected only for E terminal)

- With active contact of an input configured in this way the leaves must open and remain in the open status for as long as the input is active.

- With inactive contact the pause time elapses and the leaves close again.

- the ENERGY SAVING mode can be activated on this input.

- the TOTAL or PARTIAL function can be selected on this input.

- this input is NOT considered in NIGHT-TIME or EXIT ONLY modes.

- activation of this input lights up the OPEN green LED on the board.

EXIT ONLY / TWO-DIRECTIONAL FUNCTION input

- this type of input can only be activated on I1, I2, I3 and I4 inputs as NO or NC contact.

- With contact active this input overrides an EXIT ONLY operating mode.

- With contact not active this input overrides a TWO-DIRECTIONAL operating mode.

- in an input configured in this way with SDK EVO and LKEVO, the functions can be modified, except EXIT ONLY / TWO-DIRECTIONAL.

AUTOMATIC OPEN input

- this type of input can only be activated on I1, I2, I3 and I4 termi- nals as NO or NC contact.

- With active contact of an input configured in this way the leaves must open and remain in the open status for as long as the input is active.

- With inactive contact the pause time elapses and the leaves close again.

- the ENERGY SAVING mode CANNOT be activated on this input.

- the TOTAL or PARTIAL function can be selected on this input.

- this input is NOT considered in NIGHT-TIME mode

- activation of this input lights up the OPEN green LED on the board.

SEMI-AUTOMATIC OPEN input

- this type of input can only be activated on I1, I2, I3 and I4 termi- nals as NO or NC contact.

- With active contact of an input configured in this way the leaves must open and remain in the open status.

- the ENERGY SAVING mode CANNOT be activated on this input.

- the TOTAL or PARTIAL function can be selected on this input.

- this input is NOT considered in NIGHT-TIME mode

- activation of this input lights up the OPEN green LED on the board.

PHARMACY OPEN input

- this type of input may only be activated on I1, I2, I3 and I4 inputs

A1400 AIR RDT 69 532119 04 - Rev. C

as NO or NC contact.

- With active contact of an input configured in this way operation is as follows.

1. In normal operation it is AUTOMATIC OPEN function

2. In NIGHT-TIME function the leaves open in the percentage selected and after the pause time the leaves close again.

- activation of this input lights up the OPEN green LED on the

board.

KEY input

- this type of input can only be activated on I1, I2, I3 and I4 termi-

nals as NO or NC contact.

- in NIGHT-TIME mode the input is active and has the same function

as AUTOMATIC OPEN.

- With active contact of an input configured in this way during

NIGHT-TIME function the leaves must open and remain in open status for as long as the input is active. Upon deactivation the night-time pause time elapses and the leaves close again.

- With active contact of an input configured in this way during

normal operation the leaves must open and remain in open status for as long as the input is active. Upon deactivation the pause time elapses and the leaves close again.

- the ENERGY SAVING mode CANNOT be activated on this input.

- activation of this input lights up the OPEN green LED on the

board.

CLOSURE SAFETY input

- this type of input can only be activated on I1, I2, I3, I4, S1, S2, S3

and S4 inputs as NO or NC contact.

- with activation of an input configured in this mode we have the

following functions:

1. during a closing motion the leaves are inverted.

2. with the leaves open closure is prevented

3. the time selected is reapplied if in a pause status

- if selected on the input, a TEST procedure is run before a closing

motion.

- With non active contact of the input immediately closes the

leaves again if the ENERGY SAVING function is active, otherwise the leaves close again after total or partial opening.

- activation of this input lights up the SIC_CL red LED on the board.

OPENING SAFETY input

- this type of input can only be activated on I1, I2, I3, I4, S1, S2, S3

and S4 terminals as NO or NC contact.

- On the escape route doors the safeties on opening are considered

only beyond the PO % (partial opening) set. Any activations before this point ARE NOT taken into consideration. Once the PO % has been exceeded, different behaviours can be had depending on what has been programmed:

1. with OPENING SAFETY in STOP the motion is stopped (status

11) and this status remains until the safeties on opening are not disengaged.

2. with OPENING SAFETY in LOW ENERGY the motion proceeds slowly until fully opened.

- during an EMERGENCY in OPENING motion, activation of an input

thus configured, with the leaves above the PO %, the motion proceeds slowly until fully opened.

- during an EMERGENCY in OPENING motion in NIGHT-TIME func-

tion, activation of an input thus configured, with the leaves above the PO %, the motion proceeds slowly until fully opened.

- if, on the input thus configured, a TEST procedure is run before

an opening motion.

- In NIGHT-TIME function activation of an input configured in this

mode during opening stops the motion. If this operation is not completed due to active safeties in opening, it will wait until it can be completed, but if this cannot happen because the nighttime pause time set is exceeded, the leaves return to the closed position.

- activation of this input lights up the SIC_OP red LED on the board.

ENGLISH

Translation of the original instructions

Page 70

INTERNAL OPEN input

PARTIAL / TOTAL FUNCTION input

NIGHT-TIME FUNCTION input

MANUAL FUNCTION input

TIMER input

- manages 3 types of input of this kind:

- NO or NC CONTACT (can be selected for I1, I2, I3,I4, I and E ter- minals)

- IN CURRENT (can be selected only for E- and E+ or I- and I+ terminals)

- IN FREQUENCY (can be selected only for E and I terminals)

- With active contact of an input configured in this way the leaves must open and remain in the open status for as long as the input is active.

- With inactive contact the pause time elapses and the leaves close again.

- the ENERGY SAVING mode can be activated on this input.

- the TOTAL or PARTIAL function can be selected on this input.

- this function is NOT activated in NIGHT-TIME mode except the interval of time for switching to NIGHT-TIME FUNCTION.

- activation of this input lights up the OPEN green LED on the board.

ENGLISH

OPENING EMERGENCY WITHOUT MEMORY AND WITH MEMORY input

- manages this type of input E1 E2 inputs as NO or NC contact.

- once the E1 input has been configured, also E2 input is automati- cally configured in the same way.

- in the event in which the 2 E1 and E2 inputs take on different levels, ERROR 17 activates.

- With active contact of this input, the leaves open and remain open for as long as the input is active

- With inactive contact the pause time elapses and the leaves close again.

- the input configured as EMERGENCY in OPENING acts differ- ently depending on whether is it programmed with or without memory :

1. without memory, input deactivated the leaves close again.

2. with memory, input still deactivated the leaves remain open until the RESET command is given.

- opening is always TOTAL.

Translation of the original instructions

- this function is active in NIGHT-TIME function.

- this function is NOT active in MANUAL function.

- activation of this input lights up the EMERG green LED on the board.

PARTIAL / TOTAL FUNCTION input

- this type of input can only be activated on I1, I2, I3 and I4 termi- nals as NO or NC contact.

- With contact active this input overrides a PARTIAL operating mode.

- With contact inactive this input overrides a TOTAL operating mode.

- in an input configured in this way with SDK EVO and LKEVO, the functions can be modified, except PARTIAL / TOTAL.

NIGHT-TIME FUNCTION input

- this type of input can only be activated on I1 and I2 or I3 and I4 inputs as NO or NC contact.

- once the I1 input has been configured, also I2 input is automati- cally configured in the same way.

- once the I3 input has been configured, also I4 input is automati- cally configured in the same way.88

- in the event in which the 2 inputs take on different levels, ERROR 17 is triggered.

- With active contact of both inputs configured in this way over- rides a MANUAL operating mode.

- With inactive contact of both inputs configured in this way the NIGHT-TIME mode is exited.

- in an input configured in this way with SDK EVO and LKEVO the functions can be modified, except NIGHT-TIME.

MANUAL FUNCTION input

- this type of input can only be activated on I1 and I2 or I3 and I4 inputs as NO or NC contact.

- once the I1 input has been configured, also I2 input is automati- cally configured in the same way.

- once the I3 input has been configured, also I4 input is automati- cally configured in the same way. 88

- in the event in which the 2 inputs take on different levels, ERROR 17 activates.

- With active contact of both inputs configured in this way over- rides a MANUAL operating mode if the contact is maintained. (It CANNOT be modified with SDKEVO).

- With inactive contact of both inputs configured in this way the MANUAL mode is exited.

- in an input configured in this way with SDK EVO and LKEVO the functions can be modified, except MANUAL.

TIMER input

- With active contact the TIMER functionality is activated.

- With inactive contact the TIMER functionality is disabled.

A1400 AIR RDT 70 532119 04 - Rev. C

Page 71

14.3 CONFIGURATION OF J22 OUTPUTS

C1=16 CI=17 NO

O1 and O2 specifications: O1 Open Collector output with Max load 100mA to be connected

between 01 and V. (Can be configured from SDK EVO) O2 relay contact with Max load 2A to be connected between O2

and O2. (Can be configured from board and SDK EVO) The OUT1 and OUT2 output signals may be configured as listed below:

Output configured as DISABLED

- keeps the output always off.

Output configured as GONG

- on and off at 1 sec. intervals when the closing safety devices are busy.

Output configured as ERROR

- the output is on when there is any active error.

Output configured as BATTERY

- the output is on when operation is with battery i.e. there has been a power outage.

Output configured as ACTIVE EMERGENCY

- the output is on when an emergency is on.

Output configured as TEST

- the output is on to command test execution (FAIL SAFE) on inputs I1- I4 configured as closing safety and on which the TEST option has been activated before a closing motion.

Output configured as DOOR NOT CLOSED

- the output is on when the door is in NOT CLOSED status.

Output configured as DOOR OPEN

- the output is on when the door is in open status.

Output configured as DOOR IN MOTION

- the output is on when the door is moving (opening or closing).

Output configured as LIGHT

- the output is on for a programmable time in NIGHT-TIME opera- tion from leaf opening.

Output configured as INTRUSION

- the output is on when an intrusion is in progress (i.e. when the encoder detects an unexpected movement of the door from the closed position over 1 cm.)

Output configured as Safety in Closing.

- activates the output when at least one Safety in Closing is On.

Output configured as Safety in Closing or Safety in Opening

- activates the output when at least one Safety in Closing or Safety in Opening is On.

the output is on depending on how it has been programmed:

- normally open means the output contact closes when the output is on

- normally closed means that the output contact opens when the output is on.

14.4 OBSTACLE DETECTION

Obstacle in closing (default 2)

Any acknowledgement of an obstacle in CLOSING determines inversion of the leaves and increase in the number count of consecutive obstacles in closing. The force and time parameters with which the motor forces on the obstacle can be selected.

Error 24 is generated when the programmed number of obstacles in CLOSING is reached.

The number of consecutive obstacles in closing is reset to zero:

- with RESET command

- upon reaching the CLOSED position

Obstacle in closing (default 1)

Any acknowledgement of an obstacle in OPENING determines a stop of the motion and after 10 s a new attempt of opening. Error 24 and then error 31 are generated when the programmed number of obstacles in OPENING is reached.

The number of consecutive obstacles in opening is reset to zero:

- with RESET command

- upon reaching the OPEN position

- An obstacle detected during opening in NIGHT-TIME function stops the leaves and after the night-time pause time set they close again.

(safeties in closing and inputs not active)

14.5 ANTIINTRUSION AND PULL&GO

The anti-intrusion is active when the door is manually moved from the CLOSED position.

It is hindered during an attempt to open to return to the closed position and signal 63 is activated.

The anti-intrusion is NOT active in NIGHT-TIME function with battery operation.

The PULL&GO is active when the door is manually moved from the CLOSED position to facilitate opening via activation of the motor.

The anti-intrusion is NOT active in PULL&GO function.

ENGLISH

Translation of the original instructions

J21

V I4 I3 G I2 I1 G V

C1=16 or CI=17 NO (NO input)

(programmable from board or from SDK EVO )

A1400 AIR RDT 71 532119 04 - Rev. C

J21

V I4 I3 G I2 I1 G V

CI = nCnC

(NC input) (programmable only

from SDK EVO )

88

Page 72

14.6 FUNCTION ENERGY SAVING

7 5 4 3 2 1

The function Energy Saving lets you decrease opening/closing times and restrict “false openings” by recognising the pedestrian’s direction (approaching, leaving, passing sideways).

It entails an opening movement from external or internal radar and when the radars are no longer engaged and the presence sensors do not detect any presence, it immediately inverts.

Obligatory requirements

Energy Saving requires: use of the one-direction radar detectors inside and outside The operating mode must be AUTOMATIC.

To ensure maximum safety adhere to the detector’s operating

instructions.

HOW TO ACTIVATE THEENERGY SAVING

In basic programming:

- set

ES = YY.

ENGLISH

Translation of the original instructions

The parameter may be selected from board or SDK EVO.



14.7 FUNCTION LOW ENERGY IN CLOSING 

Low Energy mode is implemented by restricting the kinetic energy of the leaf and forces.

The standard EN 16005:2012 in force in European Community countries sets the Low Energy mode operation option as an alternative to using monitored devices.

WARNING: the Low Energy operation mode is not allowed if most

users are elderly, sick, disabled or children. For this type of user door contact with the user is NOT allowed. Use

monitored detectors, or special mechanical protections.

HOW TO SET LOW ENERGY ON CLOSURE

In basic programming:

- set

CS complying with MAX closing speed values set in 13

depending on leaf weight.

CF complying with the value 11 of maximum closing force.

- set

- set from SDK EVO acceleration in closing = 1 (“Closing - Accelera-

tion 91

- set from SDK EVO the number of obstacles in closing = 0 (“Consecu-

tive obstacles” 92).

For details refer to standard EN 16005:2012.



It is possible to use SDK EVO.

13 Setting max speed in Low Energy

Leaf weight [kg]

from 40 to 50

from 60 to 110

from 120 to 240

It is also necessary to set

MAX admissible closing speed (

7 5 4 3 2 1

CF to the value 11.

CS)

A1400 AIR RDT 72 532119 04 - Rev. C

Page 73

15. DIAGNOSTICS AND PROCEDURES

00 01 02 03 04 05 06 07 08 09 10 11 12 13

L0-L 2

0.0

RESET/SETUP

DL2

15.1 ACOUSTIC SIGNAL

When the time set for the maintenance to be performed elapses, the control board beeps at each closure indicating a maintenance request:



The maintenance request is set by default upon reaching the MAX



number of cycles: 1 000 000. With SDK EVO it is possible to:

- modify the number of cycles for maintenance request

- enter a maintenance request date (optional).

The acoustic signal is DISABLED in NIGHT-TIME mode and in case of

BATTERY operation.

15.2 SYSTEM DIAGNOSTICS: ALERTS, ERRORS

The display reads

- automation STATUSES 14.

- ERRORS identified by the RED LED DL4 STEADY on interrupt auto- mation operation. If several errors are present at the same time, each error is signalled after resolving the previous one. See 15.

- ALERTS of conditions/phase in progress, identified by the RED LED DL4 blinking are described in 16.

To check active ERROR/ALERT code, press simultaneously + and



Al + alert code

Er + error code

DL4

14 Statuses of the automation

Status of the automation

00 01 02 03 04 05 06 07 08 09 10 11 12 13

L0-L2

(*)

Status

closure. To restore operation, remove the cause and perform a RESET.

CLOSED

in OPENING

OPEN

in PAUSE

in NIGHT-TIME PAUSE

in CLOSING

OPEN in EMERGENCY

in MANUAL mode

in NIGHT-TIME mode

Opening with Auxiliary_motor

System TEST in progress

STAND-BY

Safety TEST in progress

OPEN in ERROR (Press simultaneously + and - to display the active

(*)

ERROR) PHASES L0, L1, L2 of SETUP in progress (flashing)

13 is caused by an error which stops the door in open status and prevents

ENGLISH

Translation of the original instructions

A1400 AIR RDT 73 532119 04 - Rev. C

Page 74

1 2 3 4 5 6 7 8 9

12 13 14 15 16 17 18

19 20

22 23

24 25

26 27 28 29 30

31 39

15 Errors

Error Required action (perform RESET after the intervention)

Board failure Perform RESET. If the problem persists replace the control board.

Board E2prom fault Perform RESET. If the problem persists replace the control board.

Motor_1 Driver failure Perform RESET. If the problem persists replace the control board.

Faulty accessories power supply Perform RESET. If the problem persists replace the control board.

micro-controller error

Motor_1 power supply voltage fault Perform RESET. If the problem persists replace the control board.

Motor_1 faulty Replace Motor_1.

Opening failed with AUX_Motor Perform RESET. If the problem persists replace the control board.

Mains power supply (V main) absent* The door performs opening with battery power supply and remains open in error (safety

ENGLISH

Battery down or NOT connected* If the battery is down or disconnected, the door performs opening and remains open in error.

S1 test failed

S2 test failed

S3 test failed

S4 test failed

Data in setup memory not present or corrupted Perform SETUP.

Encoder failure Replace Motor_1.

Inputs failure Perform RESET. If the problem persists replace the control board.

Firmware (FW) not compatible During the update stage, an incorrect FW has been detected. Check and update again the

Translation of the original instructions

High mechanical friction Check the leaves slide smoothly with power supply, battery and motors disconnected. Remove

Inputs configured as safety devices test failed Check input connection and programming.

Opening speed low

Corrupted data Perform board programming again, or upload programming files saved on USB memory

Power supply unit fault Replace power supply unit

Consecutive obstacles in closing Check for and remove the obstacle in closing. If the error persists with no obstacle check the

AUX_Motor faulty Replace Auxiliary_Motor.

Motor block fault Replace motor block

Motor_1 rotation error Check belt connection to the leaves.

AUX_Motor rotation error Check auxiliary_motor connection

_AUX board fault Replace the control board.

Serious error

(with continuous buzzer) Consecutive obstacles in opening Check for and remove the obstacle in opening.

Board data being deleted Restore procedure executed.

* When the condition is restored, this error disappears without requiring a RESET.

A1400 AIR RDT 74 532119 04 - Rev. C



Update FW. The file on USB storage device is required (78)

condition) Wait for the mains power supply to be restored If the error persists despite mains power supply being on, replace the power supply unit.

Check battery status and connection. If the battery is completely drained, the charging cycle requires several hours. Perform reset.

Check that:

- connection of the safety device.

- operation of the safety device.

- input programming

control board FW. The file on USB storage device is required (78).

any friction. Check the counter wheel.

Modify speed programming: SDK EVO also allows the acceleration and deceleration ramps and slow down space to be

modified in opening. A SETUP must then be performed.

stick (78).

level of force in closing.

It is impossible to open with both motors. Set manual mode and manually open the leaves. Request the installer's servicing.

P1-P2P2-P3P3-P4P4.

OS function.

Page 75

16 Alerts

41 42 43 44 45 46

47 48 49 50 51 52

53 54 55 56

57 58 59 60

61 62

63 64

65 66 67

68 69

70 80

200

Indication Intervention required

Date and time loss Reset time and date with SDK EVO.

Clock battery flat or absent In case of mains power supply failure, replace the battery to avoid losing the time.

System test System test in progress

Emergency active signal that an emergency is active

Timer active the TIMER is in activated state

Timer Function in progress A TIMER function is running with operating mode other than

Last motion run with battery The board has run the last motion programmed.

Night-time mode operation Night-time mode operation.

Manual mode operation Manual mode operation

Partial mode operation Partial mode operation

Obstacle in closure detected The door opens again. Check for an obstacle in closing

Obstacle in opening detected After 5 sec. the door attempts another opening.

Number of maintenance cycles corrupted on E2prom Replace the control board and perform maintenance on the system.

Fault on Motor_1 block driver Perform RESET. Check the motor block

Operation in pharmacy mode in progress PHARMACY opening is in progress.

Battery operation the indication remains as long as the automation operates on battery with mains power

Searching for strike on opening the indication remains as long as the stage is ongoing

Searching for strike on closing the indication remains as long as the stage is ongoing

Motor block Anomaly (only with Monitoring Kit) Perform RESET. If the problem persists replace the motor block.

Maintenance requested

(with acoustic signal at 4 s intervals).

Fault SDK EVO o LKEVO Check it is the correct device and check the connections SDK EVO or LKEVO.

Faulty battery charger Perform RESET. If the problem persists replace the control board.

Intrusion in progress An attempt to manually open the leaves is in progress

Last opening too slow, not compliant with EN16005

SETUP in progress SETUP is in progress.

The AUX board is moving the leaves Opening with AUX board is in progress.

Battery saving Power supply to the accessories of the board (Excluding SDK EVO or LKEVO) has been discon-

Alarm on Test Check detector operation. If the problem persists, replace the detector.

Door open the door is open for semi-automatic OPEN function.

Low batteries level batteries charging

Programming other than standard Alert not displayed by the board.

* When the condition is restored, this error disappears without requiring a RESET.

Total Two-directional Automatic)

Check for an obstacle in opening.

supply down.

3 sHave scheduled maintenance performed and reset the relevant cycle counter with SDK EVO.

Update FW (see procedure 78).If the problem persists, replace SDK EVO or LKEVO.

after 10 openings with this alert active, the system goes into error

nected to save and avoid quick discharge of the battery.

In this condition the leaves move at a slower speed.

ENGLISH

Translation of the original instructions

17 AUX Errors

AUX Errors Intervention required

UC Failure (Corrupted FW or Corrupted RAM) Carr y out board reset; if the error persists replace the board.

200

A1400 AIR RDT 75 532119 04 - Rev. C

Page 76

AUX Errors Intervention required

201 202 203 204 205 206 216 217 218 219 220 221 222

Faulty AUX Motor Check motor wiring. Carry out board reset; if the error persists replace the AUX motor

201

High mechanical friction Manually check smooth sliding of the leaves along the entire space acquired during setup

202

AUX Motor Driver Carry out board reset; if the error persists replace the board

203

Firmware (FW) not compatible Incompatible firmware downloaded

204

Motor Rotation Check AUX Motor wiring

205

Encoder Fault Check encoder wiring

206

Communication problems between the 2 boards Carry out board reset; if the error persists replace the board

216

Incorrect Opening Position Carry out board reset; if the error persists replace the board

217

Obstacle Check for any obstacles

218

Incorrect ID Replace the board

219

ENGLISH

Translation of the original instructions

VMain Carry out board reset; if the error persists replace the board

220

Timeout Carry out board reset; if the error persists replace the board

221

Test VMain Replace the board

222

15.3 SOLUTION OF PROBLEMS OR OUTAGES

Below is a guide for any situation not included in system diagnostics (alerts/errors).

18Guide to outage solution

CONDITION SUGGESTION

SDK EVO off - there is no mains voltage and the board is operating on battery with NIGHT-TIME operative function and energy saving

All LEDs are off - ensure fuse 5x20 T2.5A inside the power supply unit has not tripped

POWER LED off 24V LED

the door DOES NOT CLOSE - the safeties in closing are busy

The door DOES NOT OPEN - ensure MANUAL operative function has not been selected

The door CLOSES instead of OPENING and VICE VERSA The door only moves for short stretches - check correct insertion of the connector of the encoder

The door performs movements at very low speed

The door accelerates or slows down suddenly during an acceleration in opening and/ or closing. The door does not perform SETUP - door set in NIGHT-TIME function

A1400 AIR RDT 76 532119 04 - Rev. C

condition

- board connection is disrupted: check connection cables and wiring between SDK EVO and board

- the board is not working correctly: replace the board

- check correct insertion of J1 connector on the board

- check connection with power supply unit

- the board is not working correctly: replace the board

- there is no mains voltage and the board is working on battery

- if there is mains voltage, see point B

- ensure DOOR OPEN operative function has not been selected

- ensure MANUAL operative function has not been selected

- check motor connection

- check presence of motor power supply voltage

- ensure NIGHT-TIME operative function has not been selected

- check motor connection

- ensure the motor block is not blocked

- check presence of motor power supply voltage

- check the belt fitting on the board and perform a SETUP

- check encoder integrity

- check integrity of flat encoder connection cable

- ensure the selected speed levels are as desired

- ensure the selected slowing down spaces are as desired

- modify on the display values

- door set in MANUAL function

- active internal or external release

- active emergency entry

- motor or encoder not connected, not powered or faulty

CF and tFtF.

Page 77

16. OPERATIONS ON THE BOARD

0.0

RESET/SETUP

DL2

L0...L1...

...

0.0

RESET/SETUP

DL2

16.1 SETUP

The SETUP consists of a series of movements.

WHEN IS SETUP NECESSARY

- upon first commissioning the automation  63 or after replacing the board

- when the display reads error

- following any travel variation

- when leaf number (LN) is modified

- after a reset to factory settings

SETUP CANNOT be performed in conditions of:

- Emergency active

- MANUAL mode

- NIGHT-TIME mode

- Power outage.

In this case the board remains in hindrance is removed.

HOW TO PERFORM SETUP FROM BOARD

- To perform SETUP from board press button SW1 for 5 s.

5 s



SW1

SETUP/RESET

SETUP is interrupted ( occurs during execution:

- activation of an emergency command

- setting NIGHT-TIME or MANUAL mode

- activation of an error during motion.

- Activation of the safety devices does not prevent SETUP execu- tion.

To perform SETUP with SDK EVO refer to 92.



L0 status until the cause for the

L0...L1...L2L2

L0 status) if one of the following conditions

...

16.2 RESET

Reset is an initialising procedure of board operation. In the operating mode for escape routes an opening motion at reduced speed is expected, during which the following is checked:

- battery charge level

- correct operation of the AUX motor.

The door automatically performs a TEST every time that:

- it exits the NIGHTTIME function

- it exits the MANUAL function

WHEN IS RESET NECESSARY

After automation lock due to:

- board in error condition with request to RESET

HOW TO PERFORM RESET FROM BOARD

- Press the RESET button SW1 for 1 s and release it.

1 s



SW1

SETUP/RESET

To perform RESET with SDK EVO see 69.



16.3 RESTORING FACTORY STATUS

RESTORE brings all board parameters back to factory status.

The procedure is irreversible and involves:

- loss of data acquired from SETUP (need to perform SETUP again)

- loss of programming (resetting default values)

- relevant cycle counters are reset to zero

- loss of passwords (“0000” is reset)

WHEN IS RESTORE NECESSARY

When you wish to cancel all settings made on the board.

HOW TO PERFORM RESTORE

1. Disconnect mains power supply and disconnect the emergency battery

2. restore power supply to the board

3. within the first 4 s after switching on (while the display shows the FW version) press simultaneously for about 5 s the buttons +

5 s



4. the display shows

5. release the buttons

6. the display shows automation status.

After restoring factory status perform SETUP.

ENGLISH

Translation of the original instructions

A1400 AIR RDT 77 532119 04 - Rev. C

Page 78

16.4 UPDATE UPLOAD

y no

UC Ut

The USB memory files are copied on the board.

The update files may be downloaded from the website:



www.faacgroup.com The USB device must be formatted with FAT or FAT 32 file system. The

NTFS format is not recognised by the control board. The required files, with names exactly defined in 21 must be

directly available on the USB memory (not inside folders, nor zipped). Use a USB with maximum 500mA absorption.

1. When switched on the board is in Bootloader mode for a few seconds which is viewed on the display with

2. insert the USB memory device in the J17 connector

3. the USB device is detected and the display shows the letters

4. press and release the button tions (19)

5. to perform the displayed function, press simultaneously + – for

ENGLISH

at least 3 s; update starts: LED blinks on the board. Upon completing the operation, the display will show:

y = if successfully completed no = in the event of errors (RED LED DL4 on the board on).

To display the error code, simultaneously press the 2 buttons + and –.



6. Remove the USB memory device.

F to scroll through available func-

-- blinks on the display and the USB

16.5 DOWNLOAD

The board files are copied on the USB memory

The USB device must be formatted with FAT or FAT 32 file system. The



NTFS format is not recognised by the control board.

1. When switched on the board is in Bootloader mode for a few seconds which is viewed on the display with

2. insert the USB memory device in the J17 connector

3. The USB device is detected and the display shows the letters

4. press and release the button tions (20)

5. to execute the displayed function, simultaneously press + – for at least 3 s until the display shows

6. release the buttons and use the + – buttons to select one of the

two file saving methods:

Or (overwrite) = the board file will be saved in USB memory

overwriting any file already present with the same name

Ad (add) = the board file is saved in USB memory in addition to

any file already present

7. Press F to save the file in the root of the USB memory

8. Upon completing the operation, the display will show:

y = if the operation has been completed successfully no = in the event of errors (RED LED DL4 on the board on).

To display the error code, simultaneously press the 2 buttons + and –.



9. Remove the USB memory device.

F to scroll through available func-

Or or AdAd

(*)

19 Updating functions (UPLOAD) from USB

Translation of the original instructions

Board firmware update E1400 RD (including AUX board FW).

required file: 1400RD.hex

Firmware update SDK EVO and LKEVOincluding translations of messages

displayed by the device. to update the SDK EVO two files are required on the USB device: SDKEVO.hex SDKEVO_L.bin to update the LKEVO one file is required on the USB device: LKEVO.hex E1400 RD board CONFIGURATION UPLOAD.

required file: 1400RD.prg E1400 RD board TIMER CONFIGURATION UPLOAD.

required file: 1400RD.tmr

Should the board remain in the



performed

A1400 AIR RDT 78 532119 04 - Rev. C

bo status, an UPLOAD must be

20 Download Functions on USB

Board E1400 RD CONFIGURATION Download onto USB memory.

the file is copied: 1400RD.prg

TIMER CONFIGURATION Download

This function lets you save the E1400 RD board TIMER configuration on USB memory.

the file is copied: 1400RD.tmr LOG DATA Download

This function lets you save the E1400 RD board LOG data on USB memory. the file is copied: 1400RD.log

(

*) If the USB memory root already has a file with the same name

and the

Ad mode was selected, an incremental number is added

to the new file name. E.g.: if a file 1400RD01.prg already exists the file 1400RD02.prg is saved and so on.

21 Firmware and programming file names

1400RD.hex board firmware 1400RD.prg board programming 1400RD.tmr Timer programming SDKEVO.hex firmware SDK EVO SDKEVO_L.bin language update on SDK EVO LKEVO.hex firmware LKEVO

(*)

Page 79

22 BOOTLOADER Errors

81 82 83 84 85 86 87 88 89 90 91 96 97 98 99

Error Intervention required

Update files not present in the USB stick

File writing error

SDK EVO not present or not correct

AUX board not present or not correct

AUX board firmware update error

Firmware update error SDK EVO

Board firmware update error E1400 RD

File reading error

file data error

file password error

board E2PROM fault

board micro-controller fault

USB stick error

SDK EVO signals error

AUX board signals error

ENGLISH

Translation of the original instructions

A1400 AIR RDT 79 532119 04 - Rev. C

Page 80

17. LKEVO













17.1 ASSEMBLY AND TESTING

1. To disassemble the parts LKEVO it is required to leverage points 90-

with a slotted screwdriver.

2. Break off the cable run insert.

3. Mark points on the wall 90- and fasten the support with adequate

screws.

BEFORE CONNECTING THE DEVICE, disconnect the power supply and the

emergency battery of the automation.

4. Connect to board E1400 RD 90-

5. Connection must be carried out with 4- twisted pairs cable

CAT.5 4x2xAWG24

tance is 50 m.

6. Assemble the parts LKEVO with a slight pressure on points 90-.



U/UTP

with section 0.5mm 90-. Maximum dis-

ENGLISH









Translation of the original instructions



* It is obligatory to perform a connection on LKEVO on terminals G

and K with key command to block function keys. With NC contact the keypad is blocked 90-.

TOTAL TWO-DIREC TION AUTOMATIC

DOOR OPENED

AUTOMATIC TOTAL ONE-DIRECTIONAL

AUTOMATIC PARTIAL

TWO-DIRECTIONAL

NIGHT



MANUAL

17.2 SELECTION MENU

1. To access the selection menu of the operation mode, press the corresponding function button.

2. The following functions may be set with the selection buttons:

- TOTAL TWO-DIRECTION AUTOMATIC

- DOOR OPENED

- TOTAL ONE-DIRECTION

- AUTOMATICPARTIAL TWO-DIREC TION AUTOMATIC

- NIGHT

- MANUAL

3. The LED switches on to identify the active function.

4. To switch to another function press the key corresponding to the new function

If the configured inputs are used to override an operating mode,



the LKEVO might have blocked function keys.

V RX

E1400 RD

V RX TX G



U/UTP CAT.5

4x2xAWG24



TX GG

TX RX G K G V

LKEVO

89

A1400 AIR RDT 80 532119 04 - Rev. C

90

Page 81

5. In the event LKEVOis connected to a board A1400 AIR RDT in which an unintended function is programmed, a different function is overridden

as indicated:

- from AUTOMATIC ONLY PARTIAL ENTRY

- from AUTOMATIC ONLY PARTIAL EXIT

switches to PARTIAL TWO-DIRECTION AUTOMATIC

- from AUTOMATIC ONLY TOTAL ENTRY

switches to TOTAL TWO-DIRECTION AUTOMATIC

- from PARTIAL NIGHT-TIME

switches to TOTAL NIGHT-TIME

- PARTIAL MANUAL

switches to TOTAL MANUAL

ERRORS The ERRORS are displayed with a code of blinking LEDs alternating to the operating mode in progress.

To see the type of ERRORS 23.

6. Other 2-key combinations may be used for other special functions.

LOCK / UNLOCK

 + 

5 sec.

17.3 SPECIAL FUNCTIONS

RESET: Reset clears errors in the memory.

Activation takes place by pressing simultaneously for 5 sec. keys



. The LEDs corresponding to the keys switch on then off.

LOCK/ UNLOCK: The lock blocks and releases the keys of LKEVO

Activation takes place by pressing simultaneously for 5 sec. keys



. The LOCK/ UNLOCK mode change is displayed by switching on for 300msec then switching off the LEDs corresponding to keys.

WARNINGS: The warnings are displayed by pressing and holding the keys

 and .

The LEDs corresponding to WARNINGS blink for as long as the keys are held. To see the type of WARNING see 24.

FIRMWARE VERSION: the firmware version of board E1400 is displayed by pressing and holding

 and .

keys To see the FIRMWARE version see 25.

 and

 and

ENGLISH

RESET

WARNINGS

FIRMWARE VERSION

 + 

 + 

continuous

 + 

continuous

Translation of the original instructions

A1400 AIR RDT 81 532119 04 - Rev. C

Page 82

23 Errors



1 2 3

4 5 6 7 8 9 10

11 12 13 14 15

16 17 18

19 20 21 22 23 24 25 26 27 28 29

Errors

1 2 3

4 5 6

ENGLISH

7 8 9 10

11 12 13 14 15

Translation of the original instructions

16 17 18

19 20 21 22 23 24 25 26 27 28 29



Board failure

Board E2prom fault

Motor driver failure

Power supply fault

accessories micro-controller error

Motor power supply voltage fault

Faulty motor

AUX board fault

Mains voltage down

Battery flat

S1 test failed

S2 test failed

S3 test failed

S4 test failed

Data in setup memory not present or corrupted Encoder failure

Inputs fault

Firmware (FW) not compatible

High mechanical friction

Inputs configured as safety devices

test failed Motion too slow

Corrupted data

Switching power supply unit fault

Consecutive obstacles in closing

AUX Motor fault

Motor block fault

Motor rotation error

AUX motor rotation error

_AUX board fault











A1400 AIR RDT 82 532119 04 - Rev. C

Page 83

Errors









30 31







44 51 52 54 56 59 6O 65 68













Serious error

Consecutive obstacles in opening

24 Alerts













Alerts

Emergency active

Obstacle in closure detected

Obstacle in opening detected

Motor block absorption fault

Battery operation

Anomaly Motor block (only with

monitoring KIT)

Maintenance requested

SETUP in progress

Safety device test failed

25 Firmware Version

Firmware Version

FW 1.0

FW 1.1

FW 1.2













ENGLISH

Translation of the original instructions

FW 1.3

FW 2.0

FW 2.1

FW 2.2

FW 2.3

A1400 AIR RDT 83 532119 04 - Rev. C

Page 84

18. SDK EVO

18.1 ASSEMBLY AND TESTING

1. Disassemble parts 91 (the 2 screws must be loosened 91-).

2. Break off the cable run insert 91-.

3. Mark points on the wall 91- and fasten the support with

adequate screws.

BEFORE CONNECTING THE DEVICE, disconnect the power supply and

the emergency battery of the automation.

* It is possible to perform an optional connection on SDK EVO on



terminals G and K with key command. 91-. The following functions may be selected from SDK EVO: Block or Without operator Password. Refer to paragraph “SDK EVO key” 92.

4. Connect to board E1400 RD 91-.

5. Connec tion must be carried out with 4- twisted pairs cable U/UTP CAT.5

4x2xAWG24

ENGLISH

50 m.

6. Assemble parts (the 2 screws must be tightened 91-).

7. fasten with screw 91- and insert the screw cover 91-).

with section 0.5mm 91-

18.2 SWITCHING ON AND USE

1. Power the electronic board E1400 RD.

2. The device launches the program and displays:

SDKEVO

Translation of the original instructions



then:

. Maximum distance is

system data and current statuses

A1400 AIR RDT THUR 20/03/14

AUTO TWODIR TOTAL

14:30

icons in Home Page

92

BOOTLOADER

3. The device is ready for use when the HOME PAGE is displayed:

4. Operation modes of the automation can be selected and set with

the buttons under the activation icons (Home Page 93).

A1400 AIR RDT 84 532119 04 - Rev. C

0.0

bootloader version

V RX

E1400 RD

V RX TX G



U/UTP CAT.5



4x2xAWG24

TX GG

V RX TX G G K

SDK EVO

91

Page 85

18.3 HOME PAGE

5”

↑ ↓

↑

↓



The 4 buttons under the display activate the command represented by the icon above them 93.

18.4 RESET  BLOCK/RELEASE SDKEVO

On the HOME PAGE, Block/Release SDK EVO or Reset the board by pressing the indicated 2 buttons simultaneously for 5 s:

5”

timer active

current indications

HOME PAGE

- name of the door

- day and date

- operating mode

- time

SDK EVO blocked

RESET

5”

18.5 PASSWORD

To perform some commands the 4-digit PASSWORD must be entered.

- select the first digits with buttons

- confirm via the OK button and it moves on to the next digit

- Once the 4 digits are completed, the password is recognised by the device as OPERATOR or INSTALLER.

The factory-set password is: 0000



ENTER PASSWORD

****

ESC

leave and go back to

the HOME PAGE

- In case of UNRECOGNISED PASSWORD:

- the command is not executed

- the display shows “INCORRECT PASSWORD”

- press OK to go back to the HOME PAGE.

INCORRECT PASSWORD

ESC OK

PASSWORD

select figure

confirm the figure

A1400 AIR RDT THUR 20/03/14

AUTO BIDIR TOTAL

14:30

set NIGHTTIME mode

Functions accessible with PASSWORD

OPERATOR

INSTALLER

* Some functions are reserved to the installer

set MANUAL mode go to FUNCTION menu

PASSWORD

0000

ESC OK

 

go to SELECTION menu

Factory Password

 *



ENGLISH

Translation of the original instructions

93

A1400 AIR RDT 85 532119 04 - Rev. C

Page 86

18.6 SELECTION MENU

1. To access the selection menu of the operation mode, press the

corresponding button in HOME PAGE 94.

2. With selection buttons 95 you can set:

- the Automatic or Door open operation

- Two-directional or Exit only mode

- Total or Partial Opening option

3. With the OK button you can go back to the HOME PAGE (the displayed selections are confirmed).

Automatic or Door open operation

Automatic = opening via detector Open door = closure is inhibited

Direction of travel

Two-directional = the detectors are enabled for entry and exit

Exit only = the detector is only

ENGLISH

enabled for exit

Automatic



Two-directional

 

Door open

Exit only



HOME PAGE

A1400 AIR RDT THUR 20/03/14

AUTO BIDIR TOTAL

14:30

94

Opening percentage

100% = Total opening % = Partial opening (percentage

that can be modified by the program)

example - automatic operation, only for exit, with partial Opening:





example - door open with total opening:

Total opening

100%

Translation of the original instructions

Icons of current selections

operation in for example: automatic/twodirectional/with total opening

operation selection:

Automatic/Door Open



Partial opening

OPERATING MODE

 

AUTO BIDIR TOTAL

selection:

Two-directional/Exit only

100%

selection:

Total/Partial Opening

Menu title

Summary of current selections

OK - go back to HOME PAGE (confirm the current selections)

95

A1400 AIR RDT 86 532119 04 - Rev. C

Page 87

↑

↓

↑

↓

18.7 FUNCTION MENU

↑

1. To access the function menu, press the corresponding button in HOME PAGE 96.

2. The password is requested: enter OPERATOR or INSTALLER password.

3. The display shows functions (4 at a time) 97.

4. Scroll available functions with the buttons underneath the selection arrows

- 1 LANGUAGE

- 2 PROGRAMMING

- 3 ERRORS

- 4 ALERTS

- 5 CYCLES COUNT

- 6 DATE/TIME

- 7 TIMER

- 8 PASSWORD

- 9 INFO

5. Press OK to enter the selected function (highlighted with the symbol >) and proceed in the same way to set it.

6. Press ESC to go back to the HOME PAGE.

- All function screens appear as in the example of 98.

and ↓. The list is:

In 26 the list of menus with indication of pages dedicated to



individual functions.

HOME PAGE

A1400 AIR RDT THUR 20/03/14

AUTO BIDIR TOTAL

14:30

MENU’

- > 1 LANGUAGE

- 2 PROGRAMMING

- 3 ERRORS

- 4 ALERTS

96

ENGLISH

ESC

leave without saving and go back to previous menu (ESC)

ESC

leave and go back to MENU

A1400 AIR RDT 87 532119 04 - Rev. C

select items in list (UP/DOWN)

title:

XXXXX

- > 1 XX...

- 2 XX...

- 3 XX...

- 4 XX...

select items in list

enter the selected function/ confirm and go back to previous menu (OK)

confirm selected item and go back to MENU

97

98

Translation of the original instructions

Page 88

26 FUNCTION Menu

ENGLISH

Translation of the original instructions

LANGUAGE

PROGRAMMING

ERRORS

WARNINGS

CYCLE COUNTER

DATE / TIME

TIMER

PASSWORD

INFO

ERRORS

1 ERRORS

2 AUX ERRORS



01 BOARD FAULT

02.....................31

39 DELETION

OF DATA IN PRO-

GRESS

LANGUAGE

PROGRAMMING

ITALIANO

ENGLISH

FRANÇAIS

DEUTSCH

ESPANOL

NEDERLANDS

INPUTS / OUTPUTS

MOTION

TIMING

ENERGY SAVING

BATTERY KIT

MOTOR LOCK KIT

INSTALLATION

LOG

MISCELLANEUS

CYCLE COUNTER

DATE/TIME

TIMER

PASSWORD



CYCLES NUMBER

MAINTENANCE

CYCLES RESET

SET TIME

SET DATE

DAYLIGHT SAV TIME

TIMER STATE

MONDAY

TUESDAY/FRIDAY

SUNDAY

MON-SUN

MON-FRI

JOLLY

JOLLY SLOTS

TECHNICIAN PSW

OPERATOR PSW

E1400 RD BOOT

ERRORS

1 ERRORS

2 AUX ERRORS

A1400 AIR RDT 88 532119 04 - Rev. C

200 UC FAILURE

201...................221

222 TEST VMAIN

WARNINGS

41 TIME LOSS

OK OK

42.....................79

80 NON STANDARD

PROGRAM.

INFO

VER.xx

E1400 RD APP

VER.xx

AUX APP

VER.xx

SDK EVO APP

VER.xx

Page 89

PROGRAMMING

INPUTS / OUTPUTS

INPUTS I1- I4

MOTOR LOCK KIT

TYPE

MOTION

TIMING

Energy Saving

BATTERY KIT

MOTOR LOCK KIT

INSTALLATION

LOG

MISCELLANEUS

OUTPUTS O1/O2

SAFETIES S1- S4

SENSORS I / E

EMERGENCIES E1- E2

XFA PHOTOCELLS

OPENINGMOTION

CLOSING

PAUSE TIMETIMING

NIGHT PAUSE TIME

NIGHT SENSOR

DELAY

DISABLEDENERGY SAVING

ENABLED

INSTALLATION

MISCELLANEUS

SURVEILLANCE KIT

BATTERY OPERATION

OTHER BOARD DATA

CONFIG. DEFAULT

BOARD'S DISPLAY

FUNCTION

LEAF NUMBER

START SETUP

INPUTS STATUS

DOOR STATUS

PARTIAL OPEN

AUX TEST TIME

ENGLISH

Translation of the original instructions

FUNC. SAF

FUNCTIONBATTERY KIT

LAST MOVEMENT

OPENING

INTRUSION

PARTIAL PHARMACY

NIGHT-TIME FUNCTION

SDK EVO KEY

LAST MOV.

NIGHT

CONSECUTIVE

OBSTACLES

TEST ERROR

LOG

A1400 AIR RDT 89 532119 04 - Rev. C

NOT AVAILABLE

Page 90

MENU 1 LANGUAGE

--16 Night-time

--17 Manual

--0 Disabled

--1 Open total

-- 2 Open external

-- 3 Exit only

--4 = Open automatic

-- 5 = Open semi-automatic

--6 Pharmacy

--7 Key

--8 Closure safety

--9 Open internal

--12 Timer

--13 Partial

--14 Opening safety

Default: ITALIANO

ITALIANO

ENGLISH

FRANÇAIS

DEUTSCH

ESPANOL

NEDERLANDS

INPUTS / OUTPUTS

LANGUAGE

ENGLISH

MENU 2 PROGRAMMING

The menu is only accessible if the INSTALLER password has been



entered. If a different password has been inserted, it is indicated: MENU

RESERVED FOR INSTALLERS.

The list is:

- 1 INPUTS / OUTPUTS

- 2 MOTION

- 3 TIMING

- 4 ENERGY SAVING

- 5 BATTERY KIT

- 6 MOTOR BLOCK KIT

- 7 INSTALLATION

Translation of the original instructions

- 8 SUNDRIES

- 9 LOG

■

INPUTS / OUTPUTS

PROGRAMMING

1 Inputs I1- I4

1. Select an input. The complete list with relevant default is:

- I1 OPEN AUTOMATIC / NO

- I2 OPEN EXTERNAL / NO

- I3 KEY / NO

- I4 OPEN SEMI-AUTOMATIC / NO

2. Select function:

0 Disabled 1 Open total 2 Open external 3 Exit only 4 = Open automatic 5 = Open semi-automatic 6 Pharmacy 7 Key 8 Closure safety 9 Open internal 12 Timer 13 Partial 14 Opening safety

16 Night-time

17 Manual

3. If the input has not been disabled, select the logic:

- Normally open (NO)

- Normally closed (NC)

4. If an input with CLOSURE SAFETY function has been selected, set the TEST:

- Enabled

- Disabled (Default)

5. Repeat the procedure for the other inputs.

2 Outputs O1 / O2

1. Select an output. The complete list with relevant default is:

- O1 Gong

- O2 Door not closed

2. Select function:

- 0 Disabled

- 1 Gong

- 2 Error

- 3 Battery

- 4 Emergency active

- 5 Test (for I1,I2,I3 and I4)

- 6 Door not closed

- 7 Door open

- 8 Door in motion

- 9 Light*

- 10 Intrusion active

(

) If this function is selected, set the time:

- from 1s to 255s (Default 60s)

3. If the output has not been disabled, select the logic:

- Normally open (NO)

- Normally closed (NC)

4. Repeat the procedure for the other output.

3 Safety devices S1-S4

1. Select a SAFETY input. The complete list with relevant default is:

- S1 DISABLED

- S2 DISABLED

- S3 CLOSING SAFETY / TEST ENABLED / NC

- S4 CLOSING SAFETY / TEST ENABLED / NC

2. Select function:

- Disabled

- Closing safety

- Opening safety

3. If the input has not been disabled, set the TEST:

- Enabled

- Disabled

4. If the input has not been disabled, select the logic:

- Normally open (NO)

- Normally closed (NC)

5. Repeat the procedure for the other inputs.

4 Sensors I / E

1. Select a sensor. The complete list with relevant default is:

- SENSOR I Internal current

- SENSOR E External contact NO

2. Select the function for Sensor I (Internal Sensor):

- Internal current

- Internal frequency

- Disabled

3. Select the function for Sensor E (External Sensor):

- Disabled

A1400 AIR RDT 90 532119 04 - Rev. C

Page 91

- External n.c. CONTACT

- External no CONTACT

- Internal current

- Internal frequency

- External current

- External frequency

5 Emergencies E1 / E2

1. Select input E1. The complete list with relevant default is:

- E1 Opening /NO

- E2 Opening /NO

Input E2 is non modifiable and performs the function set for E1.



2. Select function:

- Opening with memory

- Opening

- Disabled

3. If the input is enabled, select the logic:

- Normally open (NO)

- Normally closed (NC)

6 XFA Photocells

XFA Photocell inputs are disabled by default.

1. Select:

- Disabled

- 1 pair

- 2 pairs

■

2 MOTION

PROGRAMMING

Opening

Choose and modify the parameter. The complete list with relevant default and range of values is:

- 1 SPEED 10 (from 1 to 10)

- 2 SLOWDOWN 1 cm (from 0 to 200)

SLOWDOWN SPEED 1 (1-3)

- 3 FORCE 10 (non modifiable)

- 4 FORCE TIME 3.0s (cannot be modified)

- 5 ACCELERATION 10 (from 1 to 10)

- 6 DECELERATION 10 (from 1 to 10)

Closing

Choose and modify the parameter. The complete list with relevant default and range of values is:

- 1 SPEED 3 (from 1 to 10)

- 2 SLOWDOWN 1 cm (from 0 to 2(00)

SLOWDOWN SPEED 1 (1-3)

- 3 FORCE 6 (from 1 to 10)

- 4 FORCE TIME 1.0s (from 0.1 to 3.0)

- 5 ACCELERATION 6 (from 1 to 10)

- 6 DECELERATION 6 (from 1 to 10)

- 7 INVERSION(*) 5 (from 1 to 5 )



■

3 TIMING

PROGRAMMING

Choose and modify the parameter. The complete list with relevant default and range of values is:

- 1 PAUSE TIME 2s (0-30)

- 2 NIGHT PAUSE TIME 10s (0-240)

A1400 AIR RDT 91 532119 04 - Rev. C

* the INVERSION parameter determines the inversion speed of the leaf in the closing stage with 5 level setting from 1 (slow) to 5 ( fast).

MOTION

TIMING

- 3 NIGHT SENSOR DELAY 10s (0-240)

■

4 ENERGY SAVING

PROGRAMMING

The Energy Saving is disabled by default. Available options are:

- ENABLED

- DISABLED

■

5 BATTERY KIT

PROGRAMMING

Defines the automation’s behaviour with emergency battery, in case of mains power outage. The options with relevant default are as follows:

- 1 FUNCTION (Immediately last mov.)

- 2 LAST MOVEMENT (Opening)

- 3 NIGHT-TIME FUNCTION (Up to the last motion) (Default)

Selectable: Now last motion

- 4 NIGHT-TIME LAST MOTION (Closure) (Default)

Selectable: Opening

These settings are non modifiable.



If the door is in NIGHT-TIME, battery operation is not active.

■

6 MOTOR BLOCK KIT

PROGRAMMING

Defines motor block behaviour (OPTIONAL accessory). The options with relevant default are as follows:

- 1 TYPE

- 2 FUNCTION (Disabled)

- 3 MONITORING KIT (Disabled)

- 4 BATTERY OPERATION (NIGHT-TIME)

1 TYPE

Defines the type of motor block:

- XB LOCK

- XM LOCK

2 FUNCTION

Defines operating methods in which motor block is activated;

- Disabled

- Night

- Night-time + Open

3 MONITORING KIT

Enables/disables monitoring on motor block;

- ENABLED

- DISABLED

If the monitoring kit (OPTIONAL accessory) is not installed, disable.



4 BATTERY OPERATION

Defines battery operation of the motor block:

- STANDARD: the operation selected is maintained even with

battery.

- NIGHT-TIME: motor block active only in NIGHT-TIME mode.

- ALWAYS OPEN: motor block always OPEN

ENERGY SAVING

BATTERY KIT

MOTOR LOCK KIT

ENGLISH

Translation of the original instructions

Page 92

■

7 INSTALLATION

PROGRAMMING

1 Number of leaves

Set the number of leaves of the system:

- 1 LEAF (Default)

- 2 LEAVES

2 Start SETUP

This command requires confirmation to perform SETUP.

Comply with the procedure on 63.

3 INPUT status

The display shows active inputs. In the example safety sensor S2 is on:

INSTALLATION

INPUT STATUS

IN4

IN3

IN2

IN1

ENGLISH

4 DOOR status

The display shows what status the door is in:

Translation of the original instructions

5 Other board data

The display reads:

1 Default Configuration

To reset all parameters to default settings press the OK button and confirm.

S1 INT SM

- CLOSED

- in OPENING

- OPENED

- in PAUSE

- in NIGHTTIME PAUSE

- in CLOSING

- EMERGENCY

- MANUAL MODE

- NIGHTTIME MODE

- AUX OPENING (opening with auxiliary_Motor)

- BOARD TEST

- STOP AND ERROR

- SECURITIES TEST

- ERROR

- SERIOUS ERROR

- SETUP IN PROGRESS

- V_MAIN (input voltage to board in Volt)

- V_BATT (battery voltage in Volt)

- V_ACC (accessory voltage in Volt)

- I_MOT (current absorbed by the motor in Ampère)

- POS (leaf position in cm)

■

8 SUNDRIES

PROGRAMMING

- ACTIVE (default configuration is present)

- NO (default configuration has been modified)

EXT

FSW1

MISCELLANEUS

FSW2

2 Partial opening

Defines the opening percentage in PARTIAL OPENING mode. The default and interval of settings is:

- PARTIAL OPENING 100% (20-100)

3 AUX test time

Defines frequency (in hours) of the test on the Auxiliary_motor. The default and interval of settings is:

- AUX TEST TIME 24 H (2-24)

4 Board Display

Enables/disables programming from the board. The options with relevant default are as follows:

blocked (Default)

- Not

- Blocked

5 Safety Opening Function

Defines the safety in opening function

- STOP

- LOW ENERGY (slow speed motion) (Default)

6 Intrusion

Defines door behaviour in case of attempt to open manually. The options

with relevant default are as follows:

- DISABLED does not actuate the motor (Default)

- KEEP CLOSED counter: the motor is actuated in closing

- PULL & GO the motor is actuated in opening

( NOT active with battery operation) 7 Partial Chemist’s Shop

It defines the opening percentage with the pharmacy control (only active in NIGHT-TIME Mode). The default and interval of settings is:

- PARTIAL PHARMACY 20 % (1-95)

8 SDK EVO key

Defines function of key switch connected to SDK EVO (OPTIONAL accessory):

- BLOCK (Default):

With NO (Normally Open) key switch, SDK EVO it works normally. Password is required.

With NC (Normally Closed) key switch,SDK EVO it is blocked.

- WITHOUT USER PSW:

With NO (Normally Open) key switch, SDK EVO it works without password.

With NC (Normally Closed) key switch,SDK EVO it works normally. Password is required.

9 Consecutive obstacles

Defines the number of consecutive obstacles after which the door is blocked in error. Choose and modify the parameter:

- CLOSING

from 0 to 3 (number of obstacles - default: 2)

- OPENING

from 1 to 3 (number of obstacles - default: 1)

The block due to obstacles in opening cannot be DISABLED.



A1400 AIR RDT 92 532119 04 - Rev. C

Page 93

10 Test Error

Enables/disables movement at slower speed in the event of TEST ERROR on safety devices.

- ENABLED

- DISABLED (Default)

■

9 LOG

PROGRAMMING

LOG

ERRORS

1 ERRORS

2 AUX ERRORS

200 UC FAILURE

201...................221

MENU NOT AVAILABLE

MENU 3 ERRORS

ERRORS

01 BOARD FAULT

222 TEST VMAIN

The display shows current errors:

- 200 UC Failure (Corrupted FW or Corrupted RAM)

- 201 Aux Mot Fault

- 202 High Friction

- 203 Aux Mot Driver

02.....................31

- 204 FW Not Compatible

- 205 Motor Rotation

39 OBST. CONS.

OPENING

The display shows current errors:

- 1 Board Failure

- 2 Board E2PROM fault

- 3 Motor_1 driver failure

- 4 VACC anomaly

- 5 Micro-controller error

- 6 VMOT anomaly

- 7 MOT1 motor fault

- 8 AUX motor opening failed

- 9 Mains power supply V main absent

- 10 Battery down or not connected

- 206 Encoder Fault

- 216 Communication

(Communication problem between the 2 boards)

- 217 Incorrect Opening Position

- 218 Obstacle

- 219 Incorrect ID

- 220 Vmain

- 221 Timeout

- 222 Test Vmain

MENU 4 INDICATIONS

WARNINGS

41 TIME LOSS

- 11 S1 test failed

- 12 S2 test failed

42.....................79

- 13 S3 test failed

- 14 S4 test failed

- 15 Data in setup memory not present or corrupted

- 16 Encoder fault

- 17 Inputs fault

- 18 FW not compatible

- 19 High mechanical friction

- 20 Input configured as safety devices test failed

- 21 Low speed opening.

- 22 Corrupted data

- 23 Power supply unit fault

- 24 Consecutive obstacles in closing

- 25 AUX_Motor faulty

- 26 Motor block fault

- 27 Motor_1 rotation error

- 28 AUX_Motor rotation error

- 29 AUX+Motor board fault

- 30 Serious error

- 31 Consecutive obstacles in opening

- 39 Board data being deleted

The display shows current alerts:

- 41 Date and time loss

- 42 Clock battery flat or absent

- 44 Emergency active

- 45 TIMER active (indicated with T in HOME PAGE)

- 46 Timer function in progress

- 47 Last motion run with battery

- 48 Night-time mode operation

- 49 Manual mode operation

- 50 Partial mode operation

- 51 Obstacle in closing

- 52 Obstacle in opening

- 53 Number of maintenance cycles corrupted on E2prom

- 54 Motor block fault

- 55 Pharmacy mode operation

- 56 Battery operation

- 57 Searching for strike on opening

80 NON STANDARD

PROGRAM.

- 58 Searching for strike on closing

- 59 Motor block anomaly (only with monitoring KIT)

- 60 Requested maintenance

- 61 SDK EVO anomaly

- 62 Faulty battery charger

A1400 AIR RDT 93 532119 04 - Rev. C

ENGLISH

Translation of the original instructions

Page 94

- 63 Intrusion in progress

- 64 Last opening too slow, not compliant with EN16005

- 65 SETUP in progress

- 66 The AUX board is moving the leaves

- 67 Battery saving

- 68 Alarm on Test

- 69 Door open

- 70 Battery charge level

- 80 Programming other than standard

MENU 5 CYCLE COUNTER

CYCLES COUNT

ENGLISH

■

1 Number of cycles

CYCLES NUMBER

MAINTENANCE

CYCLES RESET

The display shows the number of cycles performed:

- ABSOLUTE counter not resettable

- RELATIVE counter resettable (with CYCLE RESET)

■

2 Maintenance

To set the deadlines for maintenance request:

- DATE (default: disabled) 00/00/00

- minimum number of cycles: 1000; maximum 1000000 (default)

Entering a date is optional.



■

3 RESET CYCLES

It resets RELATIVE cycle counter to zero. This command requires

Translation of the original instructions

confirmation

The ABSOLUTE cycle counter cannot be reset to zero.



MENU 6 DATE / TIME

DATE/TIME

■

SET TIME

SET DATE

DAYLIGHT SAV TIME

Set time in HH:mm.

■

SET DATE

Set date in dd/mm/yy.

■

EUROPEAN DAYLIGHT SAVING TIME

European daylight saving time is enabled by default. Available options are:

- Enabled

- Disabled

MENU 7 TIMER

TIMER

TIMER STATE

MONDAY

TUESDAY./.FRIDAY

SUNDAY

MON-SUN

MON-FRI

JOLLY SLOTS

JOLLY

When TIMER is on:

- the HOME PAGE displays alert T 93

- the door operating mode is set automatically based on pro- grammed time SLOT

- the timer must be disabled to manually change the operating mode activated by it

Programming requires:

- setting time SLOT for each day of the week or by groups of days. There are up to 6 time SLOT for each day

- assign an operation mode to each time SLOT

- set any JOLLY

■

1 Timer status

Enables/disables timer function:

- ENABLED

- DISABLED (Default)

When the TIMER is disabled programming is stored.

■

2Monday... 8 Sunday

To program days of the week:

1. Select the day.

2. Select the time SLOT.

MONDAY

- > SLOT1

- SLOT2

- SLOT3

- SLOT4

ESC ↑ ↓ OK

3. Assign an operating mode to the time SLOT:

- No Function (0)

- Auto Twodir Total (1)

- Auto Out Total (2)

- Auto Twodir Partial (3)

- Auto Out Partial (4)

- Open Total (5)

- Open Partial (6)

A1400 AIR RDT 94 532119 04 - Rev. C

Page 95

4. Set time SLOT start and end time.

SLOT 1

START 00:00 END 00:00

ESC ↑ ↓ OK

5. Proceed in the same way for the other desired time SLOT.

6. In Auto Twodir Total mode, an example:

- SLOT 1 08:00-08:59 Open Total

- SLOT 2 09:00-09:59 Open Partial

- SLOT 3 11:00-11:59 Auto Out Total

- SLOT 4 12:00-12:01 Auto Out Partial

- SLOT 5 17:59-16:30 Auto Twodir Partial

- SLOT 6 22:00-23:59 Auto Twodir Total

■

9 Mon-Sun; 10 Mon-Fri

To quickly program groups of days of the week with the same time SLOT:

1. Select the group of days (from Mon-Sun or from Mon-Fri).

2. Select the time SLOT.

3. Set time SLOT start and end time.

4. Assign the operating mode to the time SLOT. Repeat stages from 2 to 4 for any other time SLOT.

5. Apply programming to the group of days by selecting APPLY.

Confirm APPLY to apply the time SLOT to the set group days, any pre-



existing programming on individual days is overwritten.

■

11 JOLLY (WILD CARD)

To PROGRAM TIMER operation in JOLLY (WILD CARD) intervals (one or more days that require different programming):

1. Select the JOLLY (WILD CARD) time SLOT.

- > SLOT1

- SLOT2

- SLOT3

- SLOT4

ESC ↑ ↓ OK

2. Assign an operating mode to the time SLOT:

- No Function (0)

- Auto Twodir Total (1)

- Auto Out Total (2)

- Auto Twodir Partial (3)

- Auto Out Partial (4)

- Open Total (5)

- Open Partial (6)

3. Set time SLOT start and end time

START 01:00 END 23:00

ESC ↑ ↓ OK

4. Proceed in the same way for the other desired JOLLY (WILD CARD) time SLOT.

JOLLY

SLOT 1

■

12 JOLLY (WILD CARD) Intervals

To apply JOLLY (WILD CARD) programming to individual days or intervals of days:

1. Enable an interval (max 6 JOLLY (WILD CARD) intervals).

2. Define the interval’s beginning and end date.

3. In Auto Twodir Total mode, a JOLLY (WILD CARD) example:

- SLOT 1 07:00-09:59 Auto Out Partial

- SLOT 2 10:00-10:01 Auto Out Total

- SLOT 3 10:30-11:00 Open Total

- SLOT 4 15:00-23:59 Open Partial

- SLOT 5 03:00-07:00 Auto Twodir Total

- SLOT 6 09:00-12:00 Auto Out Total

- Interval 1 25/12/2014 - 25/12/2014

- Interval 2 30/12/2014 - 31/12/2014

- Interval 3 01/01/2015 - 06/01/2015

- Interval 4 28/02/2015 - 01/03/2015

- Interval 5 30/04/2015 - 03/05/2015

- Interval 6 07/05/2015 - 09/06/2015

Should you wish to set an individual day, the interval beginning and



end date coincide. The interval must refer to the year (e.g. the period from 25 December

to 6 January requires creating two intervals: one from 25/12 to 31/12 and the other from 01/01 to 06/01).

The TIMER makes it possible to override functions by means of time



SLOT from 0 to 6. The functions set from TIMER CANNOT be overwritten by configured Inputs , SDK EVO or LKEVO.

TIMER active and with no time SLOT corresponds to function 0.



Exiting a time SLOT overrides function 1 modifiable by devices with lower priority.

The priority order is as follows:



MANUAL EMERGENCY TIMER Configured INPUTS

External programmers LKEVOand SDK EVO

MENU 8 PASSWORD

PASSWORD



■

INSTALLER PASSWORD

1. Enter the new PASSWORD and press OK.

2. The new PSW must be repeated and confirmed with OK:



TECHNICIAN PSW

OPERATOR PSW

The Operator may ONLY edit the Operator password. The installer may edit both passwords.

The personnel allowed to use the password to select the automation’s operating modes must maintain password knowledge confidential.

If the PSW has not been repeated correctly, the display continues requesting the new password and the confirmation.

ENGLISH

Translation of the original instructions

A1400 AIR RDT 95 532119 04 - Rev. C

Page 96

ENTER INSTAL PSW AGAIN

****

ESC ↑ ↓ OK

3. When the PSW has been repeated correctly, the display shows:

CHANGE INSTAL PSW

NEW PSW ENTERED

ENGLISH

■

OPERATOR PASSWORD

Proceed as with the INSTALLER PASSWORD menu.

MENU 9 INFO

E1400 RD BOOT

INFO

VER.xx

E1400 RD APP

VER.xx

AUX APP

VER.xx

Translation of the original instructions

The display shows the firmware versions of the control board and installed devices.

SDK EVO APP

VER.xx

A1400 AIR RDT 96 532119 04 - Rev. C

Page 97

19. MAINTENANCE

19.1 CALCULATION ESTIMATE OF CYCLES PERFORMED

In the event of board fault E1400 RD with subsequent cycle counter

To maintain operating safety and efficiency conditions and reduce

faults and disservice, routine maintenance and periodic replacements set out in 27 must be carried out.

ROUTINE MAINTENANCE must be performed every 6 months.

Frequency of replacements is indicated based on number of opera-



tion cycles for components subject to wear; in years for components subject to deterioration.

The buzzer alerts to the need to perform replacements.



All maintenance operations must exclusively be performed by

technical-professional personnel. Only the installer/maintenance technician is authorised to open the

casing to access the automation housing.

27 Maintenance and replacement programme

ROUTINE MAINTENANCE

OPERATION Check automation fastening to the wall check the suppor t profile is solidly secured to the wall

Check fastening of Motor_1 and auxiliary Motor check screws securing the motors on the support profile

Check on carriages check screws securing to the leaf

Check mechanical stops check position of mechanical stops and fixing screws

Belt tensioning check check belt tensioning

Cleaning clean: Sliding Guide; Lower Guide Shoe; Carriages

in case of installation with self-supporting Head Section: check screws securing the support profile to the self-supporting profile and the screws

of side wall fixings

check and adjust the counter wheels of carriages and leaf depth and height screws

loss with error code 53, it is necessary to perform an estimate of the number of cycles performed until then since the last servicing.

R1 = number of days elapsed since the last motor replacement (see SYSTEM REGISTER)

R2 = number of hours of operation per day R3 = door cycle time (opening time + pause + closing time)

The installer must take on responsibility for indicating parameters

R1, R2 and R3

Calculate:

R4 = R1 * R2 *3600

Calculate the ESTIMATED NUMBER OF CYCLES:

R4 / R3

After that from SDK EVO enter in menu 5 Cycle counter, section Maintenance 94, the calculated value of cycles.

2130

23

33 34

46

44

100

ENGLISH

Translation of the original instructions

Functional system check perform required checks and procedures to ensure integrity of the load bearing structure

PERIODIC REPLACEMENTS

22 23

PART/COMPONENT FREQUENCY

Motor_1 and AUX Motor 1 000 000 --

Motor_1 and AUX Motor vibration damper rubber pads 2 000 000

Motor_1 and AUX Motor crescents 2 000 000

Lower guide shoe 2 000 000 --

Carriages 2 000 000 --

Belt 1 000 000 5

Mechanical stops 2 000 000 5

Safety fall arrest cables -- 5

Emergency battery -- 1

A1400 AIR RDT 97 532119 04 - Rev. C

and leaf frames perform functional checks

Operation cycles Time (years)

18

100

Page 98



19.2 MAINTENANCE TECHNICIAN SAFETY

RISKS

Perform steps 1, 2, 11, 12, 13, 18 of the sequence for 2 million cycles.

Belt replacement

Only perform steps 1 and 9 of the sequence for 2 million cycles.

PERSONAL PROTECTIVE EQUIPMENT

REQUIRED TOOLS

2.5

ENGLISH

Translation of the original instructions

19.3 REPLACEMENTS

Per 2 million cycles

1. Remove the belt after loosening it from the leaf fittings.

2. Extract each motor from its support after removing the screws

99---.

3. Loosen the screws 100- of each carriage and lower the leaves

to the ground with screw .

4. Release the leaves from the carriages by removing screws

100-.

5. Temporarily store the leaves away, using all precautions to prevent risks of fall.

6. Loosen screw 100- and lower the counter wheel to remove each carriage.

7. Remove the mechanical stops.

8. Remove the lower guide shoe.

9. Assemble the new shoe 32.

10. Assemble the new vibration damper rubber pads on the support

11. Assemble the new motors on their support.

12. Tighten the screws 99---.

13. Assemble the new mechanical stops 22.

14. Assemble the new carriages on the leaves 33.

15. Install and adjust the leaves 3339.

16. Mount and adjust the new belt 4344.

17. Adjust the new mechanical stops 46.

For 1 million cycles

A1400 AIR RDT 98 532119 04 - Rev. C

Before any maintenance operation, disconnect the mains power

supply and disconnect the emergency battery.

The installer/maintenance technician is bound to comply with the

safety instructions and recommendations provided in this manual. Signal maintenance work in progress and prevent access to the area. Do not leave the work site unattended. The work area must be kept tidy and clear upon completing main-

tenance. Do not proceed with modifications or repairs of any motorisation

component. The repairs must exclusively be performed by an Authorised Repair

Centre.

The warranty shall be forfeited in the event of tampering with



components. For replacements, use only FAAC original spare parts.

The batteries and electronic components must not be disposed of with household waste but delivered to authorised disposal and recycling centres.

Replacement of mechanical stops

Only perform steps 7 and 19 of the sequence for 2 million cycles.

Replacement of safety cables

1. Remove the safety cables from the casing.

2. Assemble the new cables 23and 48.

Comply with the tightening se-

quence --.



Motor_1

AUX Motor

3 2

1 1

1 2 3

2,5

100

99

Page 99



Emergency battery replacement

Before proceeding, disconnect mains power supply.

If battery charge is insufficient, automation operation is prevented;



the door remains OPEN (ERROR status) until the emergency battery charging cycle is completed. Only SETUP may be performed in any case despite the battery being down.

It is recommended to charge the emergency batteries before commissioning, to avoid waiting time for the charging cycle after performing SETUP.

The battery must be charged exclusively by using the electronics module for A1400 AIR RDT

1. Disconnect the battery from the board E1400 RD.

2. Loosen the 2 screws with washer the battery.

101- and disassemble

3. Mount the new battery 101-.

4. Connect the battery to the board E1400 RD.

Electronic board replacement

Before proceeding, disconnect the mains power supply and disconnect

the emergency battery.

The block including the main and auxiliary board must be replaced.

NEVER intervene on the components of the board!

It is recommended to Download the data to USB memory for the next



update (Upload) of the new board 78.

1. Remove all connections.

2. Remove the screw 102- and the screw with washer 102-.

3. Remove the board from the support.

4. Insert the new board in the fastening housings 102-.

5. Fasten with the screw  and screw  with washer .

The washer 102- assures board earthing.

6. Restore all connections.

7. Program the new board.

If the programming files previously saved on USB memory stick are



available, make the update (Upload) 78.

8. Perform SETUP 63.

Replacing the fuses

Before proceeding, disconnect the mains power supply and disconnect

the emergency battery.

1. Remove the fuse F1 by pressing and turning anti-clockwise. Remove fuses F2 and F3 by gently using a screwdriver as a lever.

2. Assemble the new fuse.

Only use the indicated fuses 103.



J14

J10

MAIN

J11

J12

RESET/SETUP

J17

DL2

0.0



101

ENGLISH

DL11

J22

J18

E1 G E2

I-

E-

J23J24

I+

E+

G CH CL G

V G 01 02 02

J25

USB ERR BAT1 BAT2 SIC_OP SIC_CL EMERG OPEN

V G

G R2

V RX TX G

V G

T1 G

I2 I1

J13

V G

J21

1 1

Translation of the original instructions

102

F2 F3F1

J14

J10

MAIN

J11

J12

RESET/SETUP

DL2

DL11

J22

J18

E1 G E2

I-

E-

J23J24

I+

E+

G CH CL G

V G 01 02 02

J25

0.0

USB ERR BAT1

J17

BAT2 SIC_OP SIC_CL EMERG OPEN

V G

G R2

V RX TX G

V G

T1 G

I2 I1

J13

V G

J21

F1 8 A T (delayed)

F2 2 A F (quick)

F3 2.5 A T (delayed)

103

A1400 AIR RDT 99 532119 04 - Rev. C

Page 100

19.4 CLEANING

Before any maintenance operation, disconnect the mains power

supply and disconnect the emergency battery.

Before starting to clean, wait for the components subject to overheat-

ing to cool down. DO NOT use detergents on optical devices and electronic displays

(e.g. photocell lenses). Do not moisten parts. In particular, do not moisten electrical connec-

tions and components in any way. NEVER use direct water and compressed air jets neither for cleaning

nor drying. Ensure all components are dry after cleaning.

Use clean soft cloths to remove dust. Moisten the cloth to remove dirt. Dry parts with clean, dry and soft cloths.

For parts that are hard to reach, use brushes with soft bristles.

ENGLISH

Cleaning products for plastic material parts

With the exception of optical devices and electronic displays, water and neutral detergent solutions are allowed (in the concentration indicated by the manufacturer). Use detergents at ambient temperature (max. 30°C).

DO NOT use alkaline, acid or base solutions, benzene, acetic acid, solvents of any kind: these products may damage the surfaces of materials.

Cleaning products of steel or aluminium parts

Water and neutral detergent solutions are allowed (in the concentration indicated on the detergent packaging). 95% methylated spirit diluted at 50%. In case of oily dirt, use 70% solutions of isopropyl alcohol.

DO NOT use solutions of acetic acid, acid or base solutions, ethyl alcohol.

Translation of the original instructions

19.5 FUNCTIONAL CHECKS

Connect power supply and emergency battery only after tidying up

the area. In case of failures or malfunctioning, please refer to 73 and

76.

Command some movements to check correct operation:

- movements correctly executed, according to logics and settings

- regular and smooth leaf movement

- end of run slowing down correctly executed

- drawing to the stops on opening and closing without any shocks

- regular operation of motor block on Motor_1 (if present)

- efficiency of emergency battery: disconnect mains power supply and ensure the door opens and is locked open (safety condition)

- efficiency of safety detectors (the radar field must be free and adequately sized with respect to passage flow)

- operation of EMERGENCY button (if present) and any other ac- cessories installed.

20. WASTE DISPOSAL

After taking down the automation, dispose of it in compliance with the material disposal regulations in force.

The constructive components must not be disposed of with household

waste but delivered to authorised disposal and recycling centres.

A1400 AIR RDT 100 532119 04 - Rev. C

FAAC A1400 AIR RDT, A1400 AIR RD User Manual

Specifications and Main Features

Frequently Asked Questions

User Manual