ROGER B70,1DCHP Control Board Installation Guide

The FW P2.35 is a control unit designed for sliding gates,
operating on a 36Vdc power supply. It provides various functions
for gate automation and control.

Product Usage Instructions:

General Safety Precautions:

Before installing or using the control unit, make sure to read
and understand all safety precautions outlined in the manual.

Installation:

Follow the installation guidelines provided in the manual for a
typical installation setup.

Electrical Connections:

Connect the control unit to the necessary electrical components
following the electrical connection instructions specified in the
manual.

Function Buttons and Display:

Learn about the function buttons and display features to operate
and monitor the control unit effectively.

Switching On or Commissioning:

Follow the steps outlined in the manual to switch on the control
unit and commission it for operation.

Travel Acquisition:

Acquire gate travel information by following the procedure
described in the manual.

Maintenance:

Regular maintenance is essential for the proper functioning of
the control unit. Refer to the maintenance section in the manual
for guidelines.

Disposal:

Properly dispose of the control unit following the recommended
disposal methods provided in the manual.

FAQ:

Q: What should I do if I encounter an alarm or fault
indication?

A: When facing an alarm or fault indication, refer to the
manual’s section on alarms and faults to troubleshoot and resolve
the issue accordingly.

Q: How can I perform a voltage limit test using the control
unit?

A: To test the voltage limiter, follow the instructions in the
manual under the “Voltage Limiter (B72/CL)” section.

“`

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FW P2.35
IS142 Rev.15 30/11/2023
B70/1DCHP
centrale di comando 36Vdc per cancelli scorrevoli
Istruzioni originali
IT – Istruzioni ed avvertenze per l’installatore EN – Instructions and warnings for the installer DE – Anweisungen und Hinweise für den Installateur FR – Instructions et consignes pour l’installateur ES – Instrucciones y advertencias para el instalador PT – Instruções e advertências para o instalado NL – Aanwijzingen en waarschuwingen voor de installateur
PL – .SXYWZPHOFNTXYW_JJSNFIQFNSXYFQFYTWF

INDICE · INDEX · INDEX · INDEXER · ÍNDICE · ÍNDICE · INDEX · INDEKS

ITALIANO

DEUTSCH

1 Avvertenze generali

2 Simbologia

3 Descrizione prodotto

4 Aggiornamenti versione P2.35

5 Caratteristiche tecniche prodotto

6 Descrizione dei collegamenti

6.1 Installazione tipo

6.2 Collegamenti elettrici

7 Comandi e accessori

8 Tasti funzione e display

9 Accensione o messa in servizio

10 Modalità funzionamento display

10.1 Modalità visualizzazione dei parametri

10.2 Modalità visualizzazione di stato comandi e sicurezze 28

10.3 Modalità TEST

10.4 Modalità Stand By

11 Apprendimento della corsa

11.1 Prima di procedere

11.2 Procedura di apprendimento

12 Indice dei parametri

13 Menù parametri

14 Parametri speciali serie HIGH SPEED

15 Parametri speciali serie BG30/1400/R

16 Segnalazione degli ingressi di sicurezza e dei comandi

(modalità TEST)

17 Segnalazione allarmi e anomalie

18 Diagnostica – Modalità INFO

18.1 Modalità B74/BCONNECT

19 Limitatore di tensione (B72/CL)

20 Sblocco meccanico

21 Modalità di recupero posizione

22 Collaudo

23 Messa in funzione

24 Manutenzione

25 Smaltimento

26 Informazioni aggiuntive e contatti

Dichiarazione CE di Conformità

ENGLISH

1 General safety precautions

2 Symbols

3 Product description

4 Updates of version P2.35

5 Technical characteristics of product

6 Description of connections

6.1 Typical installation

6.2 Electrical connections

7 Commands and Accessories

8 Function buttons and display

9 Switching on or commissioning

10 Display function modes

10.1 Parameter display mode

10.2 Command and safety device status display mode 59

10.3 TEST mode

10.4 Standby mode

11 Travel acquisition

11.1 Before starting

11.2 Acquisition procedure:

12 Parameter’s index

13 Parameter menu

14 Special parameters for HIGH SPEED series

15 Special parameters for BG30/1400/R series

16 Safety input and command status (TEST mode)

17 Alarms and faults

5WTHJIZWFQ[JWNHFYNTSX.3+42TIJ

18.1 B74/BCONNECT mode

19 Voltage limiter (B72/CL)

20 Mechanical release

21 Position recovery mode

22 Initial testing

23 Start-up

24 Maintenance

25 Disposal

26 Additional information and contact details

Declaration CE of Conformity

1 Allgemeine Sicherheitshinweise

2 Symbole

3 Produktbeschreibung

4 Aktualisierungen Version P2.35

5 Technische Daten des Produkts

6 Beschreibung der Anschlüsse

6.1 Art der Installation

6.2 Elektrische Anschlüsse

7 Befehle und Zubehör

8 Funktionstasten und Display

9 Einschalten oder Inbetriebnahme

10 Funktion Display

10.1 Parameter-Anzeigemodus

10.2 Anzeigemodus des Status von Befehlen und Sicherheitseinrichtungen 90

10.3 TEST-Modus

10.4 Standby-Modus

11 Einlernen des Torlaufs

11.1 Zunächst

11.2 Einlernverfahren

12 Index der Parameter

13 Menü Parameter

14 Sonderparameter für die Baureihe HIGH SPEED

104

15 Sonderparameter für die Baureihe BG30/1400/R

105

16 Meldung der Sicherheitseingänge und der Befehle (TEST-

Modus)

106

17 Meldung von Alarmen und Störungen

107

18 Diagnostik – Betriebsart Info

109

18.1 B74/BCONNECT-Modus

110

19 Spannungsbegrenzer (B72/CL)

110

20 Mechanische Entriegelung

110

21 Modus zur Korrektur der Position

111

22 Abnahmeprüfung

111

23 Inbetriebnahme

111

24 Wartungsarbeiten

111

25 Entsorgung

112

26 Zusätzliche Informationen und Kontakte

112

Konformitätserklärung

112

FRANÇAIS

1 Consignes générales de sécurité

113

2 Symboles

114

3 Description produit

115

4 Mises à jour version P2.35

115

5 Caractéristiques techniques produit

115

6 Description des raccordements

116

6.1 Installation type

116

6.2 Raccordements électriques

117

7 Commandes et accessoires

118

8 Touches fonction et écran

120

9 Allumage ou mise en service

120

10 Modalités fonctionnement écran

120

2TIFQNYXFKHMFLJIJXUFWFRYWJX

2TIFQNYIFKHMFLJIYFYHTRRFSIJXJYXHZWNYX

10.3 Modalité TEST

122

10.4 Modalité Stand By

122

11 Apprentissage de la course

123

11.1 Avant de procéder

123

11.2 Procédure d’apprentissage

124

.SINHJIJXUFWFRYWJX

2JSZUFWFRYWJX

5FWFRYWJXXUHNFZ]XWNJ-.,-85**)

5FWFRYWJXXUHNFZ]XWNJ’,7

16 Signalisation des entrées de sécurité et des commandes (mod TEST) 137

17 Signalisations alarmes et anomalies

138

18 Diagnostic – Modalité info

140

18.1 Mode B74/BCONNECT

141

19 Limiteur de tension (B72/CL)

141

20 Déblocage mécanique

141

21 Modalités de récupération position

142

22 Test

142

23 Mise en marche

142

24 Entretien

142

25 Élimination

143

26 Informations complémentaires et contacts

143

Déclaration de conformité CE

143

FW P2.35

Dispositivo IP B74/BCONNECT B74/BCONNECT IP device

Collegamento batterie Batteries connection

Connettori di collegamento encoder, SJHTWXFJHTSYFYYTINXGQTHHT Plug for encoder, limit switch and
unlock microswitch connection

Connettore scheda carica batterie o B72/CL
Plug for battery charger or B72/CL

Display a 4 cifre e 6 tasti di programmazione 4 digit display and 6 programming buttons

Collegamento MOTORE

HF[TQN
MOTOR connection (3 wiring cable)
Fusibile 3A Fuse 3A

Ingresso alimentazione (secondario trasformatore)
Power supply unit (transformer’s secondary)

Fusibile 20A Fuse 20A

Connettore ad innesto per radio ricevente Plug-in connector for radio receiver
Microcontrollore CPU

Luce di cortesia Courtesy light

Morsettiere dei comandi e delle sicurezze
Commands and safety terminal blocks

1
6

BATTERY -+
F3 F1
SEC2 SEC1 TRANSFORMER
F2

F3 FUSIBILE
FUSE 3A
M Z YX

F2 FUSIBILE
FUSE T2A
Alimentazione Power supply
A

BATTERY CHARGER

+SC

+LAM

COM

FT2

+24V

FT1

PED

COS2

COS1

COM

ORO

COM COM

LNA

LNB

WIFI
ANT 31 30 29 28 27 26 25 24 23 22 21 LAM COM 24V PED PP CH AP ORO COM
COR SC COM FT2 FT1 CS2 CS1 COM ST COM LNA LNB 10 11 12 13 14 15 16 17 18 19 20

N L

+ –
PROG TEST

ENC FC SB

2
F1 FUSIBILE
FUSE 20A
B74/BCONNECT H93/RX22A/I RICEVITORE RADIO RADIO RECEIVER
7

SC COM FT2 FT1 CS2 CS1 COM ST COM LNA LNB
10 11 12 13 14 15 16 17 18 19 20

Luce di cortesia Courtesy light

230V 100W

blu blue

marrone brown

L FUSIBILE FUSE max 1A

marrone brown

Spia cancello aperto Open gate light 24V 3W
Bordo sensibile 2 Safety edge 2
Bordo sensibile 1 Safety edge 1 STOP

+SC COM FT2 FT1 COS2 COS1 COM ST

COM LNA LNB

COR

31 30 29 28 27 26 25 24 23
LAM COM 24V PED PP CH AP ORO COM

+LAM
COM +24V PED
PP CH AP ORO COM

+ Lampeggiante Flashing light
– 24 max 25W
Apertura parziale Partial opening Passo passo Step by step Chiusura Closing Apertura Opening Orologio Timer

RG58 max 10 m

Antenna

ANT
22 21

COR

SISTEMA DI GESTIONE MANAGEMENT SYSTEM

CHIUSO CLOSED APERTO OPENED

OK
ALLARME ALARM

COLLEGAMENTO CON 1 COPPIA FOTOCELLULE SINCRONIZZATE (MODALITÁ NORMALE, SOLO COPPIA MASTER) CONNECTION WITH 1 SYNCHRONISED PHOTOCELL PAIR (NORMAL MODE, MASTER PAIR ONLY)

ROSSO = libero da jumper

RED = jumper free

TX 1 23

RX 1 23 45

JUMPER DI SINCRONIZZAZIONE (PER MASTER)
SYNCHRONISATION JUMPER (FOR MASTER)
B

SYNC
MASTER

+24 -COM FT1(N.C)

+24 -COM

JUMPER DI ALLINEAMENTO (PER MASTER) OFF* ALIGNMENT JUMPER (FOR MASTER) OFF*

+LAM
COM +24V
PED PP CH AP ORO COM

31 30 29 28 27 26 25 24 23 LAM COM 24V PED PP CH AP ORO COM

ANT
22 21

SC COM FT2 FT1 CS2 CS1 COM ST COM LNA LNB 10 11 12 13 14 15 16 17 18 19 20

+SC COM FT2
FT1
COS2 COS1 COM ST COM LNA LNB

* Per eseguire la modalità in di allineamento ottico (NOTA: consultare le istruzioni delle fotocellule): * To perform optical alignment mode (NOTE: refer to photocell instructions):

E
TX

RX
JUMPER DI ALLINEAMENTO ON* ALIGNMENT JUMPER ON*

ATTENZIONE2TINHFWJQFUTXN_NTSJIJNOZRUJWINXNSHWTSN__F_NTSJTINFQQNSJFRJSYTXTQFRJSYJVZFSITQJKTYTHJQQZQJ sono NON ALIMENTATE 1F HTSLZWF_NTSJ XHJQYF HTS N OZRUJW [NJSJ RJRTWN__FYF IFQQJ KTYTHJQQZQJ XTQFRJSYJ all’accensione delle fotocellule. Scollegare la morsettiera della centrale che fornisce alimentazione alle fotocellule, oppure togliere completamente la YJSXNTSJFQHTSYWTQQJWINLNYFQJ
XHTQQJLFSITXJUWJXJSYNFSHMJQJGFYYJWNJINGFHPZUJ[JWNHFWJSJQQFKTYTHJQQZQF9=7=HMJNQ1*) WTXXTINFQNRJSYF_NTSJXNFXUJSYT UWTHJIJWJXTQYFSYTTWFFQQNRUTXYF_NTSJIJQQFHTSLZWF_NTSJIJNOZRUJW ATTENTION! Please ensure that the photocell jumpers are only changed with the power to the control panel switched off, including the disconnection of any battery backup. Remove the terminal of the photocell inputs or completely remove the voltage from the INLNYFQ HTSYWTQQJW
HMJHP YMFY YMJ INLNYFQ HTSYWTQQJW NX STY UTJWJI G^ GFHPZU GFYYJWNJX FSI HMJHP YMFY YMJ 9= 7= UMTYTHJQQ WJI power LED is off.
SI RACCOMANDA L’ USO DI fotocellule Serie F4ES – F4S / RECOMMENDED USE for Series F4ES – F4S photocells
9

COLLEGAMENTO CON 2 COPPIE FOTOCELLULE SINCRONIZZATE (MODALITÁ NORMALE, 1 MASTER E 1 SLAVE) CONNECTION WITH 2 SYNCHRONISED PHOTOCELL PAIRS (NORMAL MODE, 1 MASTER AND 1 SLAVE)

ROSSO = libero da jumper RED = jumper free

1 23
FT1

1 23 45

JUMPER DI SINCRONIZZAZIONE (PER MASTER)
SYNCHRONISATION JUMPER (FOR MASTER)
B

SYNC
MASTER

+24 -COM FT1(N.C)

+24 -COM

JUMPER DI ALLINEAMENTO (PER MASTER) OFF* ALIGNMENT JUMPER (FOR MASTER) OFF*

TX
1 23
FT2

RX 1 23 45

JUMPER DI SINCRONIZZAZIONE (PER SLAVE1)
SYNCHRONISATION JUMPER (FOR SLAVE1)
D

+24 -COM FT2(N.C)

-COM

+24

PED PP

31 30 29 28 27 26 25 24 23 LAM COM 24V PED PP CH AP ORO COM

ORO

COM

ANT
22 21

JUMPER DI ALLINEAMENTO (PER SLAVE1) OFF* ALIGNMENT JUMPER (FOR SLAVE1) OFF*

+LAM
COM +24V

+SC COM
FT2 FT1
COS2 COS1 COM ST COM LNA LNB

SC COM FT2 FT1 CS2 CS1 COM ST COM LNA LNB 10 11 12 13 14 15 16 17 18 19 20
E

* Per eseguire la modalità in di allineamento ottico

(NOTA: consultare le istruzioni delle fotocellule):

* To perform optical alignment mode

(NOTE: refer to photocell instructions):

RX
JUMPER DI ALLINEAMENTO ON* ALIGNMENT JUMPER ON*

TEST FOTOCELLULE · PHOTOCELLS TEST ($ )

COLLEGAMENTO CON 1 COPPIA FOTOCELLULE SINCRONIZZATE (MODALITÁ NORMALE, SOLO COPPIA MASTER) CONNECTION WITH 1 SYNCHRONISED PHOTOCELL PAIR (NORMAL MODE, MASTER PAIR ONLY)

ROSSO = libero da jumper RED = jumper free

1 23

1 23 45

JUMPER DI SINCRONIZZAZIONE (PER MASTER)
SYNCHRONISATION JUMPER (FOR MASTER)
B

SYNC
MASTER

+24 -COM FT1(N.C)

+SC -COM

JUMPER DI ALLINEAMENTO (PER MASTER) OFF* ALIGNMENT JUMPER (FOR MASTER) OFF*

+LAM
COM +24V
PED PP CH AP ORO COM

31 30 29 28 27 26 25 24 23 LAM COM 24V PED PP CH AP ORO COM

ANT
22 21

SC COM FT2 FT1 CS2 CS1 COM ST COM LNA LNB 10 11 12 13 14 15 16 17 18 19 20

+SC
COM FT2
FT1
COS2 COS1 COM ST COM LNA LNB

* Per eseguire la modalità in di allineamento ottico (NOTA: consultare le istruzioni delle fotocellule): * To perform optical alignment mode (NOTE: refer to photocell instructions):

E
TX

RX
JUMPER DI ALLINEAMENTO ON* ALIGNMENT JUMPER ON*

TEST FOTOCELLULE · PHOTOCELLS TEST ($ )

COLLEGAMENTO CON 2 COPPIE FOTOCELLULE SINCRONIZZATE (MODALITÁ NORMALE, 1 MASTER E 1 SLAVE) CONNECTION WITH 2 SYNCHRONISED PHOTOCELL PAIRS (NORMAL MODE, 1 MASTER AND 1 SLAVE)

ROSSO = libero da jumper RED = jumper free

1 23
FT1

1 23 45

JUMPER DI SINCRONIZZAZIONE (PER MASTER)
SYNCHRONISATION JUMPER (FOR MASTER)
B

SYNC
MASTER

+24 -COM FT1(N.C)

+SC -COM

JUMPER DI ALLINEAMENTO (PER MASTER) OFF* ALIGNMENT JUMPER (FOR MASTER) OFF*

TX
1 23
FT2

RX 1 23 45

JUMPER DI SINCRONIZZAZIONE (PER SLAVE1)
SYNCHRONISATION JUMPER (FOR SLAVE1)
D

+24 -COM FT2(N.C)

+SC -COM

PED

31 30 29 28 27 26 25 24 23 LAM COM 24V PED PP CH AP ORO COM

ORO

COM

ANT
22 21

JUMPER DI ALLINEAMENTO (PER SLAVE1) OFF* ALIGNMENT JUMPER (FOR SLAVE1) OFF*

+LAM COM
+24V

SC COM FT2 FT1 CS2 CS1 COM ST COM LNA LNB 10 11 12 13 14 15 16 17 18 19 20

+SC COM FT2 FT1
COS2 COS1 COM ST COM LNA LNB

* Per eseguire la modalità in di allineamento ottico

(NOTA: consultare le istruzioni delle fotocellule):

* To perform optical alignment mode

(NOTE: refer to photocell instructions):

RX
JUMPER DI ALLINEAMENTO ON* ALIGNMENT JUMPER ON*

BATTERY SAVING ($ ) BATTERY SAVING + TEST FOTOCELLULE · PHOTOCELLS TEST ($ )

COLLEGAMENTO CON 1 COPPIA FOTOCELLULE SINCRONIZZATE (MODALITÁ NORMALE, SOLO COPPIA MASTER) CONNECTION WITH 1 SYNCHRONISED PHOTOCELL PAIR (NORMAL MODE, MASTER PAIR ONLY)

ROSSO = libero da jumper RED = jumper free

1 23

1 23 45

JUMPER DI SINCRONIZZAZIONE (PER MASTER)
SYNCHRONISATION JUMPER (FOR MASTER)
B

+SC -COM
SYNC +SC -COM FT1(N.C)

JUMPER DI ALLINEAMENTO (PER MASTER) OFF* ALIGNMENT JUMPER (FOR MASTER) OFF*

+LAM COM +24V PED
PP CH AP ORO COM

31 30 29 28 27 26 25 24 23
LAM COM 24V PED PP CH AP ORO COM

ANT
22 21

SC COM FT2 FT1 CS2 CS1 COM ST COM LNA LNB 10 11 12 13 14 15 16 17 18 19 20

+SC COM
FT2
FT1
COS2 COS1 COM ST COM LNA LNB

* Per eseguire la modalità in di allineamento ottico

(NOTA: consultare le istruzioni delle fotocellule):

* To perform optical alignment mode

(NOTE: refer to photocell instructions):

RX
JUMPER DI ALLINEAMENTO ON* ALIGNMENT JUMPER ON*

BATTERY SAVING ($ ) BATTERY SAVING + TEST FOTOCELLULE · PHOTOCELLS TEST ($ )

COLLEGAMENTO CON 2 COPPIE FOTOCELLULE SINCRONIZZATE (MODALITÁ NORMALE, 1 MASTER E 1 SLAVE) CONNECTION WITH 2 SYNCHRONISED PHOTOCELL PAIRS (NORMAL MODE, 1 MASTER AND 1 SLAVE)

ROSSO = libero da jumper RED = jumper free

1 23
FT1

1 23 45

JUMPER DI SINCRONIZZAZIONE (PER MASTER)
SYNCHRONISATION JUMPER (FOR MASTER)
B

SYNC
MASTER

+SC -COM FT1(N.C)

+SC -COM

1 23
FT2

1 23 45

JUMPER DI ALLINEAMENTO (PER MASTER) OFF* ALIGNMENT JUMPER (FOR MASTER) OFF*
C
JUMPER DI SINCRONIZZAZIONE (PER SLAVE1)
SYNCHRONISATION JUMPER (FOR SLAVE1)
D

+SC -COM
+SC -COM FT2(N.C)

+LAM COM +24V PED
PP CH AP ORO COM

31 30 29 28 27 26 25 24 23
LAM COM 24V PED PP CH AP ORO COM

ANT
22 21

JUMPER DI ALLINEAMENTO (PER SLAVE1) OFF* ALIGNMENT JUMPER (FOR SLAVE1) OFF*

SC COM FT2 FT1 CS2 CS1 COM ST COM LNA LNB 10 11 12 13 14 15 16 17 18 19 20

+SC COM
FT2
FT1
COS2 COS1 COM ST COM LNA LNB

* Per eseguire la modalità in di allineamento ottico

(NOTA: consultare le istruzioni delle fotocellule):

* To perform optical alignment mode

(NOTE: refer to photocell instructions):

RX
JUMPER DI ALLINEAMENTO ON* ALIGNMENT JUMPER ON*

11
L1 L2 PR1 PR2
15

12
Nero/Black (26 Vac) Blu/Blue (19 Vac) 16

BG30 High Speed
13
21 22 23 24 25 26 27 28 29

rosso red nero black

MOTOR
XYZ
Grigio Grey
+LAM
COM +24V
PED PP CH AP ORO COM

Cavo motore Motor cable

B72/BRAKE2

ENC

FC SB

COM NC NC COM

ENC

FC SB

B
FINECORSA MECCANICO MECHANICAL LIMIT SWITCH

C FINECORSA MAGNETICO MAGNETIC LIMIT SWITCH
18

Limitatore di tensione B72/CL – Voltage limiter B72/CL
16a

M ZY X

BATTERY -+
F3 F1
SEC2 SEC1 TRANSFORMER

BATTERY CHARGER

+SC

ENC FC SB

+ –
PROG TEST
WIFI ANT

ORO

PED

+24V

COM

+LAM

COR 8 9 10 11 12 13 14 15 16 17 18

COM

FT2

FT1

COS2

COS1

COM

COM COM

LNA LNB

SOLO PER HIGH SPEED E REVERSIBILE
ONLY FOR HIGH SPEED AND REVERSIBLE
vedere capitolo / see chapter 19

Scheda carica batteria B71/BCHP – B71/BCHP battery charger

BATTERY -+

BATTERY CHARGER B71/BCHP – HW02 *
(*) SOLO PER HIGH SPEED E REVERSIBILE ONLY FOR HIGH SPEED AND REVERSIBLE

16b

RED BLACK

M ZY X

BATTERY -+
F3 F1
SEC2 SEC1 TRANSFORMER

BATTERY CHARGER

+SC

ENC FC SB

+ –
PROG TEST
WIFI ANT

ORO

PED

+24V

COM

+LAM

COR 8 9 10 11 12 13 14 15 16 17 18

COM

FT2

FT1

COS2

COS1

COM

COM COM

LNA

LNB

RED BLACK

F3
FUSE T10A
5×20

2 x 12V 4,5Ah

AGM Battery ONLY
19

1 General safety precautions
WARNING: IMPORTANT SAFETY INSTRUCTIONS THESE INSTRUCTIONS MUST BE FOLLOWED TO GUARANTEE THE SAFETY OF THE PERSONS
PRESERVE THESE INSTRUCTIONS
9MNXNSXYFQQFYNTSRFSZFQNXNSYJSIJIKTWVZFQNJIUJWXTSSJQTSQ^ Failure to observe the information included in this manual may result in personal in serious personal injury or damage to the equipment. ROGER TECHNOLOGY cannot be held responsible for any damage or injury due to improper use or any use other
than the intended usage indicated in this manual. 9MJNSXYFQQFYNTSJQJHYWNHFQHTSSJHYNTSXFSIFIOZXYRJSYXRZXYGJUJWKTWRJIG^VZFQNJIUJWXTSSJQNSFHHTWIFSHJNYM best practices and in compliance with applicable regulations. Read the instructions carefully before installing the product. Incorrect installation may pose risks. Before installing the product, make sure it is in perfect condition: In case of doubts, do not use the product and refer J]HQZXN[JQ^YTUWTKJXXNTSFQQ^VZFQNJIUJWXTSSJQ )TSTYNSXYFQQYMJUWTIZHYNSJ]UQTXN[JJS[NWTSRJSYFSIFYRTXUMJWJNSFRRFGQJLFXTW[FUTZWXHTSXYNYZYJXJWNTZX danger for safety. ‘JKTWJNSXYFQQNSLYMJRTYTWRFPJFQQXYWZHYZWFQRTINHFYNTSXWJQFYJIYTYMJXFKJY^UWJHFZYNTSXFSIYTYMJUWTYJHYNTSTW segregation of areas involving crushing, shearing, dragging risks or any other risks. <&73.3,HMJHPYMFYYMJJ]NXYNSLXYWZHYZWJKZQQXYMJWJVZNWJIWJXNXYFSHJFSIXYFGNQNY^XUJHNHFYNTSX 74,*7 9*(-3414,> NX STY QNFGQJ KTW KFNQZWJ YT TGXJW[J YMJ LTTI UWFHYNHJX NS YMJ HTSXYWZHYNTS TK ]YZWJX YT GJ motorised or for deformations that may occur during use. The safety devices (photocells, sensing edges, emergency stops, etc.) must be installed taking into consideration the following: the regulations and directives in force, the good practices criteria, the installation environment, the operating logic of the system and the forces generated by the motorised door or gate. The safety devices must protect any areas where there is crushing, shearing, dragging or any other danger in general generated by the motorised door or gate; the installer is advised to check that the moving wings do not have sharp edges or anything that may pose shearing and/or dragging risks. *SXZWJ YMFY JSYWFURJSY GJYJJS YMJ LZNIJI UFWY FSI XZWWTZSINSL ]JI UFWYX IZJ YT YMJ TUJSNSL RT[JRJSY TK YMJ guided part is avoided. If it is deemed necessary based on the risk analysis, install sensing edges on the mobile part. It should be noted that, as provided by the UNI EN 12635 standard, all requirements of the EN 12604 and EN 12453 XYFSIFWIXRZXYGJKZQQQJIFSINKSJHJXXFW^FQXTHMJHPJI 9MJ *ZWTUJFS XYFSIFWIX *3 FSI *3 IJSJ YMJ RNSNRZR XFKJY^ WJVZNWJRJSYX KTW YMJ TUJWFYNTS TK automatic doors and gates. In particular, these standards require the use of force limiting and safety devices (sensing ground plates, photocell barriers, hold-to-run operation, etc.) intended to detect persons or objects in the operating area and prevent collisions in all circumstances. The installer is required to measure impact forces and select on the control unit the appropriate speed and torque [FQZJXYTJSXZWJYMFYYMJITTWTWLFYJWJRFNSXNYMNSYMJQNRNYXIJSJIG^YMJXYFSIFWIX*3FSI*3 ROGER TECHNOLOGY cannot be held responsible for any damage or injury caused by the installation of incompatible components which compromise the safety and correct operation of the device. If the hold-to-run function is active, the installer will have the obligation to check the maximum stop distance or the alternative use of the rubber deformable edge, the closing speed or the gate and in general all aspects indicated by YMJFUUQNHFGQJWJLZQFYNTSX2TWJT[JWUQJFXJSTYYMFYNKYMJHTRRFSIRJFSXNX]JINYRZXYGJQTHFYJINSFUTXNYNTS guaranteeing the automation system control and operation and the command type and the use type must comply with the UNI EN 12453 standard, prospectus 1 (with the following restrictions: type A or B command or type 1 or 2 use). In case of hold-to-run operation, remove any potential persons away from the range of action of the automation system’s moving parts; the direct commands must be installed at a minimum height of 1.5 m and must not be accessible to the public; moreover, unless the device is key operated, they must be located with a direct view to the motorised part and far from the moving parts. &UUQ^YMJXNLSXNSINHFYJIG^YMJWJLZQFYNTSXNSKTWHJKTWYMJNIJSYNHFYNTSTKYMJIFSLJWTZXFWJFX *FHMNSXYFQQJIIJ[NHJRZXYMF[JF[NXNGQJNSINHFYNTSTKYMJRTYTWNXJIITTWTWLFYJNIJSYNHFYNTSIFYFNSFHHTWIFSHJ with the EN 13241-1:2001 standard or subsequent revisions.
A switch or an omnipolar cut-off switch with a contact opening of at least 3 mm must be installed on the mains power line; put the cut-off switch in OFF position and disconnect any buffer batteries before performing any cleaning or maintenance operations. Ensure that an adequate residual current circuit breaker with a 0.03 A threshold and a suitable overcurrent cut-out are installed upstream the electrical installation in accordance with best practices and in compliance with applicable legislation. When requested, connect the automation to an effective earthing system that complies with current safety standards. The electronic parts must be handled using anti-static conductive wrist straps with grounding wire.
51

Only use original spare parts when repairing or replacing products. The installer must provide the user with complete instruction for using the motorised door or gate in automatic, manual and emergency modes, and must hand the operating instructions to the user of the installation upon completion. Keep away from hinges and moving parts. Keep out of the area of action of the motorised door or gate while it is moving. Never try to stop the motorised door or gate while it is moving as this may be dangerous. The motorised door or gate may be used by children aged 8 and above, by persons with diminished physical, sensory or mental capacity and by persons without the necessary experience and knowledge provided that they are supervised or have received adequate instruction on using the device safely and to ensure that they understand the dangers involved in its operation. Children must be supervised at all times to ensure that they do not play with the device and that they keep out of the area of action of the motorised door or gate. Keep remote controls and any other control devices out of the reach of children to prevent the risk of the motorised door or gate being operated unintentionally. Failure to observe these instructions may lead to danger. &S^WJUFNWTWYJHMSNHFQNSYJW[JSYNTSXRZXYGJUJWKTWRJIG^VZFQNJIUJWXTSSJQ 9MJHQJFSNSLFSIRFNSYJSFSHJTUJWFYNTSXRZXYGJUJWKTWRJIJ]HQZXN[JQ^G^VZFQNJIUJWXTSSJQ In the event of a fault or malfunction of the product, turn the main power switch off and have the installation serviced G^VZFQNJIUJWXTSSJQFSIWJKWFNSKWTRFYYJRUYNSLYTWJUFNWTWUJWKTWRFS^INWJHYNSYJW[JSYNTS^TZWXJQK The packaging materials (plastic, polystyrene, etc.) should not be discarded in the environment or left within reach of children, as they are a potential source of danger. Dispose of and recycle the packaging items according to the provisions of the laws in force. These instructions must be kept and must be made available to any other persons authorised to use the installation.
2 Symbols
The symbols and their meaning in the manual or on the product label are indicated below. Generic danger Important safety information. Indicates operations and situations in which the personnel involved must pay close attention. Dangerous voltage risk Indicates operations and situations in which the personnel involved must pay close attention to dangerous voltages. Useful information Indicates useful information for the installation.
Refer to the Installation and use instructions Indicates the obligation to refer to the manual or original document, which must be available for future use and must not be damaged in any way.
Protective earth connection point.
Indicates the admissible temperature range.
Alternating current (AC) Direct current (DC)
Symbol for the product disposal according to the WEEE directive.
52

3 Product description
The B70/1DCHP 36 V digital control unit uses a high resolution encoder for the sensored power control of ROGER sliding gate leaf automation systems.
Ensure that the parameter A1 is set correctly. If this parameter is not set correctly, the automation system may not function properly. ROGER TECHNOLOGY cannot be held responsible for any damage or injury due to improper use or any use other than the intended usage indicated in this manual. <J WJHTRRJSI ZXNSL TSQ^ 74,*7 9*(-3414,> FHHJXXTWNJX FSI HTSYWTQ FSI XFKJY^ IJ[NHJX 8UJHNHFQQ^ J recommend installing F4ES or F4S series photocells.
For further information, refer to the installation manual of the BG30 automation system
4 Updates of version P2.35
1. Added management of a new high-speed motor model ($). 2. Fine-tuned the stroke programming procedure. 3. Optimised the management of the parameters when they are changed by B74/BCONNECT. 4. Improved the management criterion for battery operation; adjusted the battery voltage thresholds (par.) combined with the use of
‘5’=
5 Technical characteristics of product

MAINS POWER VOLTAGE MAXIMUM MAINS POWER ABSORPTION INRUSH POWER
FUSES
CONNECTABLE MOTORS MOTOR POWER SUPPLY MOTOR TYPE MOTOR CONTROL TYPE RATED MOTOR POWER MAXIMUM MOTOR POWER MAXIMUM POWER, FLASHING LIGHT FLASHING LIGHT DUTY CYCLE MAXIMUM POWER GATE OPEN LIGHT POWER MAXIMUM ACCESSORY CURRENT ABSORPTION

BG30/1603 BG30/1604

BG30/2203 BG30/2204

BG30/1003/HS BG30/1004/HS

BG30/1404/R

BG30/1504/HS

BG30/1804/HS

BG30/803/HS BG30/804/HS

230 V~ ± 10% 50 Hz (115 V~ ±10% 50/60 Hz) (1)

180 W 190 W 200 W

190 W

240 W

230 W

220 W

390 W 470 W 590 W

540 W

650 W

F1 = 20A (ATO257) motor power circuit protection F2 = T2A (ATO257) primary transformer protection F3 = 3A(5×20 mm) accessories power supply protection

36V~, with self-protected inverter

sinusoidal drive brushless (ROGER BRUSHLESS)

XJSXTWJIJQITWNJSYJIHTSYWTQ
+4(

85 W

100 W 140 W

120 W

160 W

350 W 420 W 530 W

480 W

590 W

650 W
160 W 590 W

620 W
140 W 560 W

25 W

50% 100 W 230 V~ – 40 W 24 V~ / 3 W (24 V )

(potential free contact)

20 W (24 V )

OPERATING TEMPERATURE

-20°C +55°C

SOUND PRESSURE DURING USE

<70 dB (A)

PRODUCT DIMENSIONS

dimensions in mm 200x90x45 Weight: 0,244 kg

(1) BG30/1603/115 – BG30/1604/115 – BG30/2203/115 – BG30/2204/115 – BG30/1003/HS/115 BG30/1004/HS/115 – BG30/1504/HS/115- BG30/1804/HS/115 – BG30/803/HS/115 – BG30/804/HS/115

The total of the absorption values of all the accessories connected must not exceed the maximum power values shown in the table. The values are guaranteed with original ROGER TECHNOLOGY accessories ONLY. The use of non-original accessories may lead to malfunctioning. ROGER TECHNOLOGY declines all responsibility for incorrect or non-conforming installations. All the connections are protected by fuses (refer to the table). The courtesy light requires an external fuse.

6 Description of connections
To access the control connection terminal board, remove the motor cover as shown in LZWJ: Figure 2-3-4-5 shows connection diagrams for connecting mains voltage to the motor control unit.
6.1 Typical installation

5 4

2 3

7 8

It is the installer’s responsibility to verify the adequacy of the cables in relation to the devices used in the installation and their technical characteristics.

1 Power supply

2 Photocell – Receiver F4ES/F4S

3 Photocell – Transmitter F4ES/F4S

LED Flashing light R92/LED24 – FIFTHY/24 Power supply 24V

5 Antenna

Key selector R85/60

Key pad H85/TTD – H85/TDS 6 (connecting to H85/DEC – H85/DEC2)

H85/DEC – H85/DEC2 (connecting to control unit)

Gate open indicator Power supply 24V 3W max

Courtesy light (Potential free contact) Power supply 230V~ (100 W max)

Recommended cable H07RN-F 3×1,5 mm2 double insulated cable Cable 4×0,5 mm2 (max 20 m) Cable 2×0,5 mm2 (max 20 m) Cable 2×1 mm2 (max 10 m) Cable 50 Ohm RG58 (max 10 m) Cable 3×0,5 mm2 (max 20 m) Cable 2×0,5 mm2 (max 30 m) Cable 3×0,5 mm2 (max 20 m) The number of conductors increases when using more than one output contact on H85/DEC – H85/DEC2 Cable 2×0,5 mm2 (max 20 m)
Cable 2×1 mm2 (max 20 m)

SUGGESTIONS: with existing installations, we recommend checking the cross section of the cables and that the cables themselves are in good condition.

FUSE FUSE EN

6.2 Electrical connections

A switch or an omnipolar cut-off switch with a contact opening of at least 3 mm must be installed on the mains power

line; put the cut-off switch in OFF position and disconnect any buffer batteries before performing any cleaning or

maintenance operations.

Ensure that an adequate residual current circuit breaker with a 0.03 A threshold and a suitable overcurrent cut-out

are installed upstream the electrical installation in accordance with best practices and in compliance with applicable

legislation.

For power supply, use a H07RN-F 3G1.5 type electric cable and connect it to the terminals L (brown), N (blue),

(yellow/green), located inside the control panel box.

8YWNUYMJNSXZQFYNTSKWTRYMJJSIXTKYMJUTJWHFGQJNWJXMNHMNQQGJHTSSJHYJIYTYMJYJWRNSFQ
XJJWJK&L

and secure the cable with the cable retainer.

Measure the voltage on the primary mains power connection with a tester.

TRANSFORMER

For the Brushless automation system to function correctly, the mains power voltage must be:

– 230V~ ±10% for the B70/1DCHP control unit.

– 115V~ ±10% for the B70/1DCHP/115 control unit.

220÷230

.K YMJ IJYJHYJI [FQZJ ITJX STY HTRUQ^ NYM YMJ FGT[J XUJHNJI [FQZJX TW NX STY XYFGQJ YMJ

FZYTRFYNTSX^XYJRRF^349TUJWFYJJKHNJSYQ^

-COM

Connections to the electrical distribution network and to any other low-voltage conductors in the external section to the electrical panel must be on an independent path and separate from the connections to the command and safety devices (SELV = Safety Extra Low Voltage). Make sure that the mains power conductors and the accessory wires (24 V) are separated. The cables must be double insulated, strip them near the relevant connection terminals and lock them with clamps (not supplied).
DESCRIPTION Mains power supply 230V~ ±10% (115V~ ±10%) connection. Fuse 5×20 T2A.

NL
SEC2 SEC1
X-Y-Z
XY Z M
BATTERY

Secondary transformer input for 26V~ motor power (SEC1) and for 19 V power to logical control and peripheral devices (SEC2). N.B.: Ready wired in factory by ROGER TECHNOLOGY.
Connection to ROGER brushless motor. Connecting B72/BRAKE/2 HTSYWTQQJWKTW’,-NLM8UJJI[JWXNTSX
XJJL
N.B.: Ready wired in factory by ROGER TECHNOLOGY.
Warning! If the motor wires become disconnected from the terminal board, after reconnecting correctly, the travel must be acquired again as described in chapter 11. Connection to B71/BCHP GFYYJW^PNY
XJJL
See instructions for B71/BCHP for further information.

7 Commands and Accessories

If not installed, safety devices with NC contacts must be jumpered at the COM terminals, or disabled by modifying the parameters , , , , and . KEY:
N.A. (Normally Open). N.C. (Normally Closed).

CONTACT 8

DESCRIPTION 9(COR) Output (potential free contact) for connecting courtesy light. 230V~ 100 W – 24V~/dc 40 W.
NOTE: Provide a protective fuse.

8 10(+SC)

9(COR) Error alert contact only, for:
· Unlocked gate / battery supply error (low battery);
· ,FYJHTRUQJYJQ^TUJSLFYJHTRUQJYJQ^HQTXJI
L The COR output operating mode is managed by parameter . The voltage level of the battery can be set via parameter .

11(COM)

Connection for gate open indicator lamp. 24V 3 W. The function of the indicator lamp is determined by parameter $.

10(+SC)
12(FT2)
13(FT1)
14(COS2) 15(COS1) 17(ST) 22 24(ORO) 56

11(COM) Photocell test connection and/or battery saving.
9MJUTJWKJJIKTWYMJUMTYTHJQQYWFSXRNYYJWX
9=RF^GJHTSSJHYJIYT10(+SC). Set the parameter $ to enable the test function. Each time a command is received, the control unit switches the photocells off and on to check that the contact changes state correctly. Power feeds for all external devices may be connected to reduce battery consumption (if batteries are used). Set $ or $ . WARNING! If contact 10(+SC) is used for the photocell test function or battery saving function, a gate open indicator lamp cannot be connected.

30(COM) Input (NC) for connecting photocells FT2
L
The photocells FT2 FWJHTSLZWJIG^IJKFZQYNYMYMJKTQQTNSLXJYYNSLX . Photocell FT2 disabled when gate is opening. . Photocell FT2 disabled when gate is closing. . The gate opens when an open command is received if photocell FT2 is obstructed. If the photocells are not installed, jumper the terminals 30(COM) – 12(FT2) or set the parameters and . WARNING! Use F4ES or F4S series photocells.

30(COM) Input (NC) for connecting photocells FT1
L
The photocells FT1 FWJHTSLZWJIG^IJKFZQYNYMYMJKTQQTNSLXJYYNSLX . Photocell triggers only during gate closure. Photocell is ignored during gate opening. . Movement is reversed if the photocell is triggered during gate closure. . The gate opens when an open command is received if photocell FT1 is obstructed. If the photocells are not installed, jumper the terminals 30(COM) – 13(FT1) or set the parameters and . WARNING! Use F4ES or F4S series photocells.

16(COM) Input (NC or 8 kOhm) for connecting sensing edge COS2.
9MJXJSXNSLJILJNXHTSLZWJIG^IJKFZQYNYMYMJKTQQTNSLXJYYNSLX . The sensing edge COS2 (NC contact) is disabled. If the sensing edge is not installed, jumper the terminals 14(COS2) – 16(COM) or set the parameter .

16(COM) Input (NC or 8 kOhm) for connecting sensing edge COS1.
9MJXJSXNSLJILJNXHTSLZWJIG^IJKFZQYNYMYMJKTQQTNSLXJYYNSLX . The sensing edge COS1 (NC contact) is disabled. If the sensing edge is not installed, jumper the terminals 15(COS1) – 16(COM) or set the parameter .

16(COM)

STOP command input (NC). The current manoeuvre is arrested if the safety contact opens.

N.B.: the controller is supplied with this contact already jumpered by ROGER TECHNOLOGY.

21(ANT)

Antenna connector for slot-in radio receiver board. Use RG58 if an external antenna is used; maximum recommended length: 10 m.

N.B.: do not make joints in cable.

23(COM) Clock timer contact input (N.O.).
When the clock function is active, the gate opens and remains open. At the end of the programmed time set with the external device (clock), the gate closes. The function of this command is determined by parameter .

CONTACT 25(AP)
26(CH)

DESCRIPTION

23(COM)

Open control signal input (N.O.). IMPORTANT: persistent activation of the opening command prevents automatic reclosure; the auto-

matic reclosure time count is resumed when the opening command is released.

23(COM) Close command input (N.O.).

27(PP)

23(COM)

Step by step mode command input (N.O.). The function of the control is determined by parameter $.

28(PED)

23(COM)

Partial open control signal input (N.O.). Set by default to 50% of completely open position.

29(+24V) 31(LAM) ENC

30(COM)

Power feed for external devices. See technical characteristics. Connecting B72/BRAKE/2 power unit for BG30 High Speed versions.

30(COM)

(TSSJHYNTSKTWFXMNSLQNLMY (24V – duty cycle 50%). 9MJ XJYYNSLX KTW YMJ UWJRFSTJZ[WJ FXMNSL FWSNSL XNLSFQ RF^ GJ XJQJHYJI NYM UFWFRJYJW $,

MNQJYMJFXMNSLRTIJNXXJYNYMUFWFRJYJW.

Connector for connecting to encoder installed on motor. WARNING! Always disconnect from electrical power before disconnecting or connecting the encoder cable. N.B.: Ready wired in factory by ROGER TECHNOLOGY.

Connector (N.C. contacts) for connecting mechanical limit switch (see LZWJ – detail B) or mag-

netic limit switch (see LZWJ – detail C). The gate stops when the limit switch is activated.

Adjust the limit switches so that, once triggered, the gate stops slightly before it reaches the me-

chanical stop. IMPORTANT: repeat the travel acquisition procedure after each adjustment to the

limit switches.

N.B.: Ready wired in factory by ROGER TECHNOLOGY.

SB
RECEIVER CARD
BATTERY CHARGER B71/BCHP BATTERY KIT 2x12V 4,5 Ah Only AGM type Version HW 02: adds voltage limiter, only for High Speed and Reversible versions

Connector (N.C.) for connecting release contact. If the motor release handle is opened, the gate stops and no command signals are accepted. Once the release handle is closed again and the key turned to the close position, if the gate is in an intermediate position, the control unit initiates the position recovery procedure (see chapter 20). N.B.: Ready wired in factory by ROGER TECHNOLOGY.
Connector for plug-in radio receiver board. The control unit has two radio remote control functions by default: · 57XYJURTIJHTRRFSI
RTINFGQJNYMUFWFRJYJW · 57UFWYNFQTUJSNSLHTRRFSI
RTINFGQJNYMUFWFRJYJW The programming buttons PR1 and PR2FWJFQXTFHHJXXNGQJNYMYMJHT[JWHQTXJI
XJJLZWJ
Connector for slot-in battery charger board. In the event of a mains power loss, the controller unit is powered by the batteries. When battery power is used, the message E$WW NX XMTS TS YMJ INXUQF^ FSI YMJ FXMNSL QNLMY FXMJX GWNJ^ at intervals until mains power is restored or until the battery voltage drops below the minimum permissible limit. In this case, EW/2 (Battery Low) is shown on the display and the controller unit accepts no commands. If mains power is lost while the gate is moving, the gate stops and then automatically resumes the interrupted manoeuvre after 2 seconds. To reduce battery consumption, the positive power feed wire of the photocell transmitters may be connected to terminal SC
XJJL8JY$ or $ .SYMNXHTSLZWFYNTSYMJHTSYWTQQJW unit disconnects power from the accessory devices when the gate is completely open or completely closed. WARNING! the batteries must always be connected to the electronic controller unit in order to charge. Periodically (at least every 6 months), check that the battery is in good working order.

For more information, refer to the installation manual for the B71/BCHP battery charger.

WIFI

In the B70/1DCHP control units for High Speed and Reversible motors, the B72/CL voltage limiter device is added (by Roger Technology). In case you need the battery charger, for High Speed motors it must have version HW 02, as it integrates this limiter. Connector for B74/BCONNECT WiFi IP device.

This IP device allows, using any internet browser, the complete management of the control panel both in proximity (point-to-point connection) and via cloud (remote connection).

8 Function buttons and display

BUTTON DESCRIPTION

UP S Next parameter

DOWN

DOWN T Previous parameter

Increase value of parameter by 1

–

Decrease value of parameter by 1

PROG TEST

Travel acquisition Activate TEST mode

· Press the UP S and/or DOWN T buttons to view the parameter you intend to modify. · :XJYMJFSIGZYYTSXYTRTINK^YMJ[FQZJTKYMJUFWFRJYJW9MJ[FQZJXYFWYXYTFXM · Press and hold the + or – button to scroll quickly through values, to modify the parameter more quickly. · To save the new value, wait a few seconds or move onto another parameter with the UP S or DOWN T button. The
INXUQF^FXMJXWFUNIQ^YTNSINHFYJYMFYYMJSJ[FQZJMFXGJJSXF[JI · 5FWFRJYJWXHFSTSQ^GJRTINJIMNQJYMJRTYTWNXSTYWZSSNSL5FWFRJYJWXHFSGJ[NJJIFYFS^YNRJ
9 Switching on or commissioning

Power the control unit. 9MJWRFWJ[JWXNTSTKYMJHTSYWTQZSNYNXINXUQF^JIGWNJ^ Version installed P2.35.

Immediately afterwards: · For a control unit mounted on an automation (or supplied with an automation): the display shows the control and
safety status mode (chapter 7) · For a control unit purchased as a spare part: the display shows “G$W$” and requests initial programming of the
stroke (chapter 11) In both cases, the execution of stroke programming is mandatory in order to store on the control unit: · the parameters required for motor control · the stroke length ATTENTION! Failure to carry out stroke programming can lead to serious malfunctions.

10 Display function modes

10.1 Parameter display mode

PARAMETER

PARAMETER VALUE

See chapter 12 for detailed descriptions of the parameters. 58

FA FC
EN

10.2 Command and safety device status display mode

COMMAND STATUS

SAFETY DEVICE STATUS

PED

FT1

FT2

COS1

ORO

COS2

POWER

SB STOP

COMMAND STATUS: The command status indicators on the display are normally OFF. They ILLUMINATE when a command is received (e.g.: when a step mode command is received, the segment PP illuminates).

SEGMENT AP PP CH PED ORO

COMMAND open step-by-step mode close partial opening clock

SAFETY DEVICE STATUS:
The safety device status indicators ON the display. If an indicator is OFF, the relative device is in alarm state or is not connected. 9MJFSNSINHFYTWNX+1&8-.3,YMJWJQFYN[JIJ[NHJMFXGJJSINXFGQJINYMFXUJHNHUFWFRJYJW

SEGMENT FT1 FT2 COS1 COS2 FA FC SB

SAFETY FT1 photocells FT2 photocells COS1 sensing edge COS2 sensing edge gate open limit switch gate closed limit switch release handle open

10.3 TEST mode
9MJ9*89RTIJNXZXJIYTYJXYFHYN[FYNTSTKYMJHTRRFSIXFSIXFKJY^IJ[NHJXNYM[NXZFQHTSWRFYNTS To activate the mode, press the TEST button with the automatic door system at rest. If the gate is moving, pressing TEST stops the gate. Pressing the button again enables TEST mode. .KYMJFXMNSLQNLMYFSIYMJLFYJTUJSNSINHFYTWQFRUNQQZRNSFYJKTWTSJXJHTSIJFHMYNRJFHTSYWTQNXZXJITWFXFKJY^ device is activated.
The command signal status is shown on the left hand side of the display for 5 seconds, ONLY when the respective command signal is active (AP, CH, PP, PE, OR). For example, if the gate open command is activated, the letters AP appear on the display.

The status of the safety devices/inputs is shown on the right hand side of the display. The number of the terminal relative to the safety device in FQFWRXYFYJFXMJX When the gate is completely open or completely closed, )$ or )& is shown on the display to indicate that the gate has reached the gate open limit switch )$ or gate closed limit switch )&.

6E(Sb)

IH ID I&

Example: STOP contact in alarm state.
No safety device in alarm state and no limit switch activated.
Release handle or lock open.
STOP contact (N.C.) open. If there is no STOP switch, jumper the contact. Sensing edge contact COS1 (N.C.) is open. Check connection. If sensing edge is not installed, disable with . Sensing edge contact COS2 (N.C.) is open. Check connection. If sensing edge is not installed, disable with . Photocell contact FT1 (N.C.) is open. Check connection. If photocell is not installed, disable with . Photocell contact FT2 (N.C.) is open. Check connection. If photocell is not installed, disable with . Both limit switches in error state. Check connections and settings of limit switches. If gate is open, gate open limit switch is detected. If gate is closed, gate closed limit switch is detected.

NOTA: If one or more contacts are open, the gate will not open or close. This does not apply for the limit switch signal state, however, which is shown on the display but does not prevent normal operation of the gate. .KRTWJYMFSTSJXFKJY^IJ[NHJNXNSFQFWRXYFYJTSHJYMJUWTGQJRWJQFYN[JYTYMJWXYIJ[NHJNXWJXTQ[JIYMJFQFWRKTW the next device is displayed. Any further alarm states are also displayed with the same logic. Press the TEST button again to exit test mode. After 10 seconds with no user input, the display returns to command and safety device state display mode.
10.4 Standby mode

This mode is activated after 30 minutes with no user input. The POWER LED FXMJXXQTQ^ Press UP S, DOWN T, + , – to reactivate the control unit.

NOTE: If a safety password (only if active) is unlocked, to adjust the

parameter settings, the password is automatically reactivated in Stand By

POWER

mode.

11 Travel acquisition
For the system to function correctly, the gate travel must be acquired by the control.

11.1 Before starting

1. Select the automation system model installed with the parameter $. KEY: HIGH SPEED Motor REVERSIBLE Motor

SELECTION

MODEL

D D

BG30/1600 BG30/2200

MOTOR TYPE

–

up to 1600 kg

–

up to 2200 kg

CONFIGURATIONS

D BG30/1000/HS

up to 1000 kg

see chapter 14 “Special Parameters for High Speed Motor”

D BG30/1400/R

up to 1400 kg

see chapter 15 “Special Parameters for Reversible Motor”

D BG30/1800/HS

up to 1800 kg

see chapter 14 “Special Parameters for High Speed Motor”

D BG30/1500/HS

up to 1500 kg

see chapter 14 “Special Parameters for High Speed Motor”

D BG30/804/HS

up to 800 kg

see chapter 14 “Special Parameters for High Speed Motor”

2. Select the position of the motor relative to the gate with the parameter . The default setting for this parameter is

with the motor installed on the right hand side of the gate (seen from interior side).

OPENING ON THE LEFT

OPENING ON THE RIGHT

3. Adjust the (mechanical or magnetic) limit switches so that, once triggered, the gate stops slightly before it reaches the mechanical stop.

CLOSING LIMIT SWITCH

OPENING LIMIT SWITCH

4. Check that the operator present function is not enabled ($ ).
OPEN STOP CLOSE
5. Move the gate into the closed position.

6. Press TEST (see TEST mode in chapter 10) and check the command signal and safety device states. If any safety devices are not installed, jumper the relative contact or disable the device from the relative parameter (, , , , and ). 61

TEST

17
No

SEE CHAPTER 16 and 17

1 click

TEST 1 click

da ta

fC
11.2 Acquisition procedure:

TEST

PROG Until …

No
1 click

AP P-

Press and hold on

Yes TEST

ACQUISITION

PROCEDURE

CHAP. 11.2
1 click

ACQUISITION PROCEDURE CHAP. 11.2

PROG
AP P-
x4 s

PH A5

Wait …

FO TO AU to
(if FT are connected or enabled)

Yes

AU to

OPENING

OPEN

CLOSING CLOSE

· Press and hold PROG for 4 seconds. $3 3 is shown on the display. · Open the release handle. The message 3+ $6 appears on the display after a few seconds. The controller unit
launches a calibration procedure. The operating parameters of the motor are determined during calibration. · If the motor calibration procedure is successful, the message 3+ $FXMJXTSYMJINXUQF^ · Close the release handle. The acquisition procedure now starts. · )2W2 is shown on the display (only if parameters , , , are not disabled). Keep away from the photocell
beam within 5 s, to prevent interrupting the procedure. · $XWR is shown on the display and the gate starts opening at low speed. · 9MJLFYJXYTUXGWNJ^MJSNYWJFHMJXYMJLFYJTUJSQNRNYXNYHM$XWRFXMJXTSYMJINXUQF^ · The gate closes until it reaches the gate closed limit switch. If the acquisition procedure is completed successfully, the display enters the command and safety device state display mode.

If the following error messages are shown on the display, repeat the acquisition procedure: · QR3+: calibration procedure failed. · $33(: acquisition error. Press the TEST button to clear the error, and check the safety device in alarm state. · $33/: travel length error. Press the TEST button to clear the error, and check that gate is completely closed.

ATTENTION: if the acquisition procedure was successful BUT the space between the leaf (stopped at the limit switch) and the mechanical stop is not as desired, move the limit switch and REPEAT THE ACQUISITION PROCEDURE. Ensure that AT LEAST 3 centimetres remain between the leaf stop and the mechanical stop.

For more information, see chapter 17 “Alarms and faults”.

12 Parameter’s index

PARAM.
$ $ $ $ $ $ $ $

FACTORY VALUE

DESCRIPTION

see chap. 13 Selecting automation system model

Automatic closure after pause time (from gate completely open)

Automatic gate closing after mains power outage

Selecting step mode control function (PP)

5WJFXMNSL

Condominium function for partial open command (PED)

Enabling operator present function

Gate open indicator / photocell test function and “battery saving”

Setting deceleration during opening (and closing for BG30/1600 – BG30/2200)

Setting deceleration during closing (High Speed and Reversible Motors only) Setting gate open limit switch constant speed approach distance Setting gate closed limit switch constant speed approach distance Partial opening adjustment (%) Adjusting automatic closing time after partial opening Type of signaling provided by COR output Setting automatic closing time Enabling of management for opening with automatic re-closure exclusion

Setting reverse time after activation of sensing edge or obstacle detection (crush

prevention)

Setting motor torque

Setting obstacle impact force sensitivity

Setting start acceleration during opening (and closing for BG30/1600 BG30/2200)

Setting start acceleration during closing (High Speed and Reversible Motors only) Enabling maximum torque boost at start of manoeuvre Setting motor torque during position recovery Setting opening speed (and closing for BG30/1600 – BG30/2200)

Setting closing speed (High Speed and Reversible Motors only) Setting end of manoeuvre constant approach speed

Setting number of automatic closure attempts after activation of sensing edge or

obstacle detection (crush protection)

Setting photocell mode during gate opening (FT1)

Setting photocell mode during gate closing (FT1)

Photocell (FT1) mode with gate closed

Setting photocell mode during gate opening (FT2)

Setting photocell mode during gate closing (FT2)

PAGE
65 65 65 65 65 66 66 66 66 66 66 66 66 66 66 67 67
67
67 67
67
67
67 68 68 68 68
68
68 68 68 69 69
63

PARAM.
Q Q Q Q Q Q Q R R R K K G G 3 3 3 3 &3

FACTORY VALUE

DESCRIPTION Photocell (FT2) mode with gate closed Enable close command 6 s after activation of photocell (FT1-FT2) Setting motor stop distance Maximum stroke length selection Selecting installation position of motor relative to gate (seen from interior side) (TSLZWNSLXJSXNSLJILJ(48 (TSLZWNSLXJSXNSLJILJ(48 (TSLZWNSLWFINTHMFSSJQ
57 (TSLZWNSLWFINTHMFSSJQ
57 (TSLZWNSLFXMNSLQNLMYKWJVZJSH^ Selecting courtesy light mode (QTHPHTSYFHYHTSLZWFYNTS Enable safeguarded gate closure/opening Setting safeguarded closure/opening activation time Selection of the battery operation management Selection of the battery operation limitations Selection of the battery type and consumption reduction Restoring factory default values HW version Year of manufacture Week of manufacture
Serial number
FW version
View manoeuvre counter
View manoeuvre hour counter
View control unit days on counter
Password
Changing password

PAGE
69 69 69 69 69 69 70 70 70 70 70 70 70 71 71 71 71 71 72 72 72 72 72 72 72 72 72 72 72 72 72 72 72 72 72 72 72

13 Parameter menu

PARAMETER

PARAMETER VALUE

Selecting automation system model
WARNING! If this parameter is not set correctly, the automation system may not function properly. N.B.: in the event of a reset to restore the default parameters, this parameter must be set again manually.

BG30/1600 – IRREVERSIBLE motor for gate leaves up to 1600 Kg.

BG30/2200 – IRREVERSIBLE motor for gate leaves up to 2200 Kg.

BG30/1000/HS – High Speed IRREVERSIBLE motor for gate leaves up to 1000 kg (see chapter 14 “Special Parameters for High Speed Motor”).

BG30/1400/R – REVERSIBLE motor for gate leaves up to 1400 kg (see chapter 15 “Special Parameters for REVERSIBLE Motor”).

BG30/1800/HS – High Speed IRREVERSIBLE motor for gate leaves up to 1800 kg (see chapter 14 “Special Parameters for High Speed Motor”).

BG30/1500/HS – High Speed IRREVERSIBLE motor for gate leaves up to 1500 kg (see chapter 14 “Special Parameters for High Speed Motor”).

BG30/804/HS – High Speed IRREVERSIBLE motor for gate leaves up to 800 kg (see chapter 14 “Special Parameters for High Speed Motor”).

$ Automatic closure after pause time (from gate completely open)

Disabled.

From 1 to 15 of gate closure attempts after photocell is triggered. Once the number of attempts set is reached, the gate remains open.

9MJLFYJYWNJXYTHQTXJNSIJSNYJQ^

$ Automatic gate closing after mains power outage Disabled. The gate does not close automatically when mains power is restored.
Enabled. If the gate is NOT completely open, when mains power is restored, the gate closes after a 5 second warning
XNLSFQQJINYMYMJFXMNSLQNLMY
NSIJUJSIJSYQ^TKYMJ[FQZJXJYNYMYMJUFWFRJYJW$). The gate closes in “position
recovery” mode (see chapter 20).

$ Selecting step mode control function (PP) Open-stop-close-stop-open-stop-close…
Condominium function: the gate opens and closes after the set automatic closing time. The automatic closing timer restarts if a new step mode command is received.
Step mode commands are ignored while the gate is opening. This allows the gate to open completely and prevents the
gate from closing when not required. If automatic closing is disabled ($ ), the condominium function automatically attempts a closing manoeuvre $ . Condominium function: the gate opens and closes after the set automatic closing time. The automatic closing timer does NOT restart if a new step mode command is received.
Step mode commands are ignored while the gate is opening. This allows the gate to open completely and prevents the
gate from closing when not required. If automatic closing is disabled ($ ), the condominium function automatically attempts a closing manoeuvre $ .
Open-close-open-close. Open-close-stop-open.

D 5WJFXMNSL )NXFGQJI9MJFXMNSLQNLMYNXFHYN[FYJIIZWNSLTUJSNSLFSIHQTXNSLRFSTJZ[WJX
Flashing warning signal for 1 to 10 seconds prior to every manoeuvre. XJHTSIFXMNSLFWSNSLXNLSFQUWNTWYTHQTXNSLRFSTJZ[WJ

D Condominium function for partial open command (PED) Disabled. The gate opens partially in step mode: open-stop-close-stop-open… Enabled. Partial commands are ignored during gate opening.

D Enabling operator present function Disabled.

Enabled. The open (AP) or close (CH) button must be pressed continuously to operate the gate. The gate stops when the button is released.

D Gate open indicator / photocell test function and “battery saving”

The indicator is off when the gate is closed, and steadily lit during manoeuvres and when the gate is open.

9MJNSINHFYTWFXMJXXQTQ^IZWNSLTUJSNSLRFSTJZ[WJXFSINXQNYXYJFINQ^MJSYMJLFYJNXHTRUQJYJQ^TUJS.YFXMJX quickly during closing manoeuvres.

If the gate is stopped in an intermediate position, the lamp extinguishes twice every 15 seconds.

Set if the output SCNXZXJIKTWYMJUMTYTHJQQYJXY8JJL

Set to if the output SCNXZXJIKTWYMJGFYYJW^XF[NSLKZSHYNTS8JJL When the gate is completely open or closed, the controller unit deactivates any accessories connected to terminal SC

to reduce battery consumption.

Set to if the output SCNXZXJIKTWYMJGFYYJW^XF[NSLKZSHYNTSFSIUMTYTHJQQYJXYKZSHYNTS8JJL

Setting deceleration during opening and closing See chapters 14 and 15
= the gate decelerates near the limit switch … = the gate decelerates long before the limit switch.

Setting gate open limit switch constant speed approach distance
N.B.: the manoeuvre speed is set with parameter . After decelerating, the gate completes the distance to the limit switch at constant speed.

Setting gate closed limit switch constant speed approach distance
N.B.: the manoeuvre speed is set with parameter . After decelerating, the gate completes the distance to the limit switch at constant speed.

= last 3 cm; = last 6 cm; … = last 120 cm. Approximate example: 100 cm distance = value .

Partial opening adjustment (%)
N.B.: This parameter is set to 50% (half of total gate travel) by default.
From 10% to 99% of total gate travel.

Adjusting automatic closing time after partial opening
9MJHTZSYITSXYFWYXMJSYMJUJIJXYWNFSTUJSNSLNXWJFHMJIFXIJSJINSUFWFLWFUM. Pause time settable from 00 to 90 s. Pause time settable from 2 to 9 min.

Type of signaling provided by COR output

STANDARD operation managed by parameter

Contact closed if the control unit is working properly. Contact open if central locked in alarm.

Contact closed if the control unit is powered by the mains or charged battery.
Open contact due to a fault: control unit powered by low battery (voltage level set by par. ) or with error alert EW/2
(the control unit no longer accept commands).

Closed contact if none of the fault related situations 1 and 2 occurs. Open contact if at least one of the fault related situations 1 and 2 occurs

Closed contact if the gate is not completely open. Open contact if the gate is completely open.

Closed contact if the gate is not completely closed. Open contact if the gate is completely closed.

Setting automatic closing time
The timer starts from the gate open state and continues for the set time. Once the set time is reached, the gate closes automatically. The timer count restarts if a photocell is triggered.

Pause time settable from 00 to 90 s.

Pause time settable from 2 to 9 min.

Enabling of management for opening with automatic re-closure exclusion
If enabled, the exclusion of automatic re-closure only applies for the command selected via the parameter. For example: if you set , automatic re-closure is excluded following an AP command, but it is activated following a PP or PED command. NOTE: The command has open-stop-close or close-stop-open sequence activation function.
Disabled.

An AP (opening) command activates the opening manoeuvre. When the gate is fully open, automatic reclosure is excluded. A subsequent AP (open) command activates the closing operation.

A PP (step-by-step) command activates the opening manoeuvre. When the gate is fully open, automatic reclosure is excluded. A subsequent PP (step-by-step) command activates the closing operation.

A PED (partial opening) command activates the partial opening operation. Automatic reclosure is excluded. A subsequent PED (partial opening) command activates the closing operation.

Setting reverse time after activation of sensing edge or obstacle detection (crush prevention)
This sets the reverse manoeuvre time after activation of the sensing edge or the obstacle detection system. The gate comes to a stop after reversal dues to activation of the sensing edge or obstacle detection system at the end of manoeuvre deceleration speed. As a result, the effective reversal manoeuvre time is slightly longer than the set time.

From 0 to 60 s.

Setting motor torque

Increasing or decreasing the value of the parameter increases or decreases motor torque and, as a result, adjusts

obstacle detection sensitivity. Use values below ONLY for particularly lightweight installations not exposed to severe weather conditions (strong

winds or very cold temperatures).

= -35%; = -25%; 03= -16%; = -8% (reduced motor torque = increased sensitivity). = default motor torque setting.

= +8%; = +16%; = +25%; = +35% (increased motor torque = reduced sensitivity).

Setting obstacle impact force sensitivity
If the reaction time to obstacle impact force is too long, reduce the value of the parameter. If the impact force exerted on obstacles is too high, reduce the value of parameter .

Low motor torque: = minimum obstacle impact force … = maximum obstacle impact force

N.B.: only use these settings if the medium motor torque values are not suitable for the installation.

Medium motor torque. Recommended setting for adjusting force settings correctly. = minimum obstacle impact force … = maximum obstacle impact force.

70% of maximum motor torque, 1 s of reaction time. Sensing edge is compulsory.

80% of maximum motor torque, 2 s of reaction time. Sensing edge is compulsory.

Maximum motor torque, 3 s of reaction time. Sensing edge is compulsory.

Maximum motor torque, 5 s of reaction time. Sensing edge is compulsory.

Setting start acceleration during opening and closing

See chapters 14 and 15

= the gate accelerates rapidly at start of manoeuvre … = the gate accelerates slowly and progressively at start of manoeuvre.

Enabling maximum torque boost at start of manoeuvre
If this parameter is enabled, each time the motor starts a manoeuvre, maximum torque is produced for a maximum of 5 seconds, or for the time necessary for the gate to open by approximately 65 cm. N.B: in the case of High Speed and Reversible motors, a motor boost mode is implemented for 2 seconds after each gate start, regardless of the setting of parameter .
Disabled.

Enabled at start of opening manoeuvre only (including position recovery). The motor starting current function is only enabled for closing manoeuvres if the gate position is known and the gate is over to 2 metres from the completely

closed position.

Enabled for all starts (including position recovery).

Setting motor torque during position recovery
Adjust motor torque with parameter if, during position recovery, the values set with parameters and are insuf-
HNJSYYTFQQTYMJLFYJYTHTRUQJYJYMJRFSTJZ[WJ If position recovery is not completed, normal gate operation will not be resumed.

The response of the obstacle detection system depends solely on the values set for parameters and .

The response of the obstacle detection system depends on the values set for parameters and and on the maximum current value stored during travel acquisition.

The response of the obstacle detection system is a 70% reduction in maximum torque for a period of 1 s.

The response of the obstacle detection system is a 80% reduction in maximum torque for a period of 2 s.

The response of the obstacle detection system is a 100% reduction in maximum torque for a period of 3 s.

The response of the obstacle detection system is a 100% reduction in maximum torque for a period of 5 s.

Setting opening and closing speed
N.B.: YMJXUJJIXJYYNSLWFSLJKTWYMJXUJHNHRTYTWNSXYFQQJINXFZYTRFYNHFQQ^XZGIN[NIJINSYTJVZFQXJLRJSYX
See chapters 14 and 15

= 6 m/min … = maximum speed.

Setting end of manoeuvre constant approach speed
Once deceleration is complete, the gate continues to the limit switch at constant speed. The distance is set with the parameters and .

= 2 m/min; = 2,5 m/min; = 3 m/min; = 3,5 m/min; = 4 m/min.

Setting number of automatic closure attempts after activation of sensing edge or obstacle detection (crush protection)
No automatic closure attempts.

From 1 to 3 automatic closure attempts. We recommend setting a value equal to or lower than the value set for parameter $.

Automatic closure is only performed if the gate is completely open.

Setting photocell mode during gate opening (FT1) DISABLED. Photocell is not active or not installed.

STOP. The gate stops and remains stationary until the next command is received.

IMMEDIATE REVERSE. The gate reverses immediately if the photocell is activated during gate opening.

TEMPORARY STOP. The gate stops as long as the photocell is obstructed. The gate resumed opening when the photocell is cleared.

DELAYED REVERSE. The gate stops if the photocell is obstructed. The gate closes when the photocell is cleared.

Setting photocell mode during gate closing (FT1) DISABLED. Photocell is not active or not installed.

STOP. The gate stops and remains stationary until the next command is received.

IMMEDIATE REVERSE. The gate reverses immediately if the photocell is activated during gate closure.

TEMPORARY STOP. The gate stops as long as the photocell is obstructed. The gate resumed closing when the photocell is cleared.

DELAYED REVERSE. The gate stops if the photocell is obstructed. The gate opens when the photocell is cleared.

Photocell (FT1) mode with gate closed This parameter is not visible if $ , $ or $ is set. If the photocell is obstructed, the gate cannot open. The gate opens when an open command is received, even if the photocell is obstructed. The photocell sends the gate open command when obstructed.

Setting photocell mode during gate opening (FT2)

DISABLED. Photocell is not active or not installed.

STOP. The gate stops and remains stationary until the next command is received.

IMMEDIATE REVERSE. The gate reverses immediately if the photocell is activated during gate opening.

TEMPORARY STOP. The gate stops as long as the photocell is obstructed. The gate resumed opening when the photocell is cleared.

DELAYED REVERSE. The gate stops if the photocell is obstructed. The gate closes when the photocell is cleared.

Setting photocell mode during gate closing (FT2)

DISABLED. Photocell is not active or not installed.

STOP. The gate stops and remains stationary until the next command is received.

IMMEDIATE REVERSE. The gate reverses immediately if the photocell is activated during gate closure.

TEMPORARY STOP. The gate stops as long as the photocell is obstructed. The gate resumed closing when the photocell is cleared.

DELAYED REVERSE. The gate stops if the photocell is obstructed. The gate opens when the photocell is cleared.

Photocell (FT2) mode with gate closed
This parameter is not visible if $ , $ or $ is set.
If the photocell is obstructed, the gate cannot open. The gate opens when an open command is received, even if the photocell is obstructed. The photocell sends the gate open command when obstructed.

Enable close command 6 s after activation of photocell (FT1-FT2)
N.B.: This parameter is not visible if $ or $ is set. NOTE: in the case of photocells being blanked during opening, the 6 secs. count starts when the wings are completely open.

Disabled.

Enabled. When the photocell barrier FT1 is crossed, a close command is sent 6 seconds later.

Enabled. When the photocell barrier FT2 is crossed, a close command is sent 6 seconds later.

Setting motor stop distance = faster deceleration/shorter stop distance … = slower deceleration/longer stop distance.

Maximum stroke length selection
349*+TWHJWYNJIFUUQNHFYNTSXTSXYFSIFWILFYJINRJSXNTSXTKQJXXYMFSRJYWJXZXJYMJ[FQZJ Maximum length 20 metres Maximum length 25 metres

Selecting installation position of motor relative to gate (seen from interior side)
NB: YMJUTXNYNTSIFYFWJVZJXYRJXXFLJIFYFFUUJFWXTSYMJINXUQF^MJSJ[JWYMNXUFWFRJYJWNXRTINJI5WJXXYMJ PROG key until $33 appears on the display, then repeat the acquisition procedure (see chapter 11.2). N.B.: in the event of a reset to restore the default parameters, this parameter must be set again manually.

Motor installed on left.

Motor installed on right.

(TSLZWNSLXJSXNSLJILJ COS1 Sensing edge NOT INSTALLED.

NC contact (normally closed). The gate reverses only when opening.

Contact with 8k2 resistor. The gate reverses only when opening.

NC contact (normally closed). The gate always reverses.

Contact with 8k2 resistor. The gate always reverses.

Management of two 8k2 sensitive edges connected in parallel (total resistance 4k1). The gate reverses only when opening.

Management of two 8k2 sensitive edges connected in parallel (total resistance 4k1). The gate always reverses.

(TSLZWNSLXJSXNSLJILJ COS2 Sensing edge NOT INSTALLED. NC contact (normally closed). The gate reverses only when closing. Contact with 8k2 resistor. The gate reverses only when closing. NC contact (normally closed). The gate always reverses. Contact with 8k2 resistor. The gate always reverses. Management of two 8k2 sensitive edges connected in parallel (total resistance 4k1). The gate reverses only when opening. Management of two 8k2 sensitive edges connected in parallel (total resistance 4k1). The gate always reverses

(TSLZWNSLWFINTHMFSSJQ
57 N.B.: With ROGER TECHNOLOGY plug-in radio receiver board. (TSLZWNSLWFINTHMFSSJQ
57N.B.: With ROGER TECHNOLOGY plug-in radio receiver board.
STEP MODE.

PARTIAL OPENING

OPENING

CLOSING.

STOP.

Courtesy light. The output COR is managed from the remote control. The light remains lit as long as the remote control is active. The parameter is ignored.

Courtesy light in step mode (PP). The output COR is managed from the remote control. The remote control turns the courtesy light on and off. The parameter is ignored.

89*524)*NYMHTSWRFYNTSKTWXFKJY^(1)

5&79.&145*3.3,NYMHTSWRFYNTSKTWXFKJY^(1)

45*3.3,NYMHTSWRFYNTSKTWXFKJY^(1)

(148:7*NYMHTSWRFYNTSKTWXFKJY^(1)

(1) 9TUWJ[JSYLFYJRFSTJZ[WJXHFZXJIG^FHHNIJSYFQQ^UWJXXNSLFWJRTYJHTSYWTQGZYYTSHTSWRFYNTSNXWJVZNWJIYT enable the command. Example: parameters and set: · 5WJXXNSLYMJ(-&GZYYTSTSYMJWJRTYJHTSYWTQXJQJHYXYMJXYJURTIJKZSHYNTSMNHMRZXYGJHTSWRJINYMNS
seconds by pressing CHB on the remote control. Press CHB to activate partial opening.

(TSLZWNSLFXMNSLQNLMYKWJVZJSH^ 9MJKWJVZJSH^NXXJYJQJHYWTSNHFQQ^KWTRYMJFXMNSLQNLMYZSNY

8QTFXM

1NLMYFXMJXXQTQ^MJSLFYJTUJSXWFUNIQ^MJSLFYJHQTXJX

Selecting courtesy light mode Disabled. 5:18*9MJHTZWYJX^QNLMYNQQZRNSFYJXGWNJ^FYYMJXYFWYTKJFHMRFSTJZ[WJ ACTIVE. The light remains lit for the entire duration of the manoeuvre.
From 3 to 90 s. The light remains lit for the time period set after the manoeuvre is completed. From 2 to 9 minutes. The light remains lit for the time period set after the manoeuvre is completed.

(QTHPHTSYFHYHTSLZWFYNTS
When the clock function is active, the gate opens and remains open. At the end of the programmed time set with the external device (clock), the gate closes.

When the clock function is active, the gate opens and remains open. Any command signal received is ignored.

When the clock function is active, the gate opens and remains open. Any command signal received is accepted. When the gate returns to the completely open position, the clock function is reactivated.

Enable safeguarded gate closure/opening
Enabling this parameter ensures that the gate is not left open due to an incorrect and/or accidental command. This function is NOT enabled if: · the gate receives a STOP command; · the sensitive edge intervenes, detecting an obstacle in the same direction in which the function is enabled. If instead the
sensitive edge detects an obstacle during the movement opposite to the one guaranteed, the function remains active. · the number of closure attempts set by parameter $ has been reached; · the acquired position is lost (perform position recovery, see chapter 21).

Disabled. The parameter is not displayed.

Enabled. After a period of time set with parameter YMJHTSYWTQZSNYXNLSFQXFXJHTSIFWSNSLNYMYMJFXMNSLQNLMYWJLFWI-

less of the parameter $, and then closes the gate.

Enabled.

If the gate is closed as a result of a step mode command, after a period of time set with parameter , the control unit

XNLSFQXFXJHTSIFWSNSLNYMYMJFXMNSLQNLMY
WJLFWIQJXXTKYMJUFWFRJYJW$), and then the gate closes. If the gate is stopped by the obstacle detection system during a closure manoeuvre, the gate closes after a period of

time set with parameter .

If the gate is stopped by the obstacle detection system during an opening manoeuvre, the gate closes after a period of

time set with parameter .

Setting safeguarded closure/opening activation time
N.B.: this parameter is not visible if the value of parameter = .
Wait time settable from 2 to 90 s.
Wait time settable from 2 to 9 min.

Selection of the battery operation management
Setting a value different than a battery voltage level check is activated. The desired operation type can be selected via parameter and an error alert can be activated through the COR output via parameter .
The control unit always accepts commands until the battery is completely exhausted. When the battery voltage drops to the minimum allowed, the message EW/2 appears on the display (20V with B71/BCHP battery charger; 23.7V with B71/ 5’=J]YJWSFQGFYYJW^HMFWLJW9MJHTSYWTQZSNYSTQTSLJWFHHJUYXHTRRFSIX
The command becomes active when the battery voltage drops to the minimum threshold (22V for battery 2x12V ; 36.4V for battery 3x12V )
The command becomes active when the battery voltage drops to the medium threshold (23V for battery 2x12V ; 36.8V for battery 3x12V )
The command becomes active when the battery voltage drops to the maximum threshold (24V for battery 2x12V ; 37.2V for battery 3x12V )

Selecting the battery operation limitations
N.B.: the parameter is visible only if par. is different than

There is no limitation for the commands when the battery voltage drops under the selected threshold. An error alert may be activated via the COR output (if parameters and are adequately set).

When the battery voltage drops under the threshold selected with par. , the control unit accepts only opening
commands and does not perform closing.

When the battery voltage drops under the threshold selected with par. , after a 5 s pre-flashing, the control unit
automatically opens the barrier’s boom and accepts only a closing command.

It accepts only closing commands even if the ORO input is active and if the parameter is .

When the battery voltage drops to the threshold selected with par. the control unit, after a prelamping of 5s,
automatically closes the gate and accepts only one opening command.

Selection of the battery type and consumption reduction
NOTE: An INCORRECT setting of this parameter, when there is no mains voltage, blocks the functions and the display shows the message EW/2 (if set to or and the battery is 2x12V ) or an error alert E RG.

Battery 24V (2x12V ) with B71/BCHP. Acceleration/deceleration/speed reduction enabled, to increase the battery life.

Battery 36V (3x12V NYMJ]YJWSFQGFYYJW^HMFWLJW’5’=&HHJQJWFYNTSIJHJQJWFYNTSXUJJIWJIZHYNTSJSFGQJI
to increase the battery life.
Battery 36V (3x12V NYM J]YJWSFQ GFYYJW^ HMFWLJW ‘5’= 3T UJWKTWRFSHJ WJIZHYNTS RF]NRZR GFYYJW^
consumption.

Restoring factory default values
NOTE This procedure is only possible is NO data protection password is set.

Warning! Restoring default settings cancels all settings made previously

except for parameter $, , , : after restore, check that all parameters

are suitable for the installation.
P2

x4 s

· Press and hold the PLUS + and MINUS – button until the unit switches on.

· The display flashes after 4 s U(V.

· The default factory settings have now been restored.

Note:NYNXUTXXNGQJYTWJXJYYMJUFWFRJYJWXNSFXJHTSIF^MJSYMJHTSYWTQZSNYNXXNYHMJITSGJKTWJYMJWRFWJ version appears on the display, press and hold down the S (UP ARROW) and T (DOWN ARROW) buttons for 4s.

Q Q Q Q Q Q
Q

.IJSYNHFYNTSSZRGJW
9MJNIJSYNHFYNTSSZRGJWHTSXNXYXTKYMJ[FQZJXTKYMJUFWFRJYJWXKWTRQ to Q. N.B.: The values shown in the table are indicative only. HW version. Year of manufacture. Week of manufacture.
Example: Serial number.
FW version.

R R R

View manoeuvre counter
The number consists of the values of the parameters from R to R multiplied by 100. N.B.: The values shown in the table are indicative only. Manoeuvres performed. Example: x100 = 1.234.500 manoeuvres.

K K

View manoeuvre hour counter
The number consists of the values of the parameters from K to K. N.B.: The values shown in the table are indicative only. Manoeuvre hours. Example: = 123 hours.

G G

View control unit days on counter
The number consists of the values of the parameters from G to G. N.B.: The values shown in the table are indicative only. Days with unit switched on. Example: = 123 days.

3 3 3 3

Password
Setting a password prevents unauthorised persons from accessing the settings. With password protection active (&3=UFWFRJYJWXRF^GJ[NJJIGZYYMJ[FQZJX(&3349GJRTINJI Only a single password is used to control access to the gate automation system. WARNING: Contact the Technical Support Service if you lose your password. Password activation procedure: · Enter the desired values for parameters 3, 3, 3 and 3. · Use the UP S and/or DOWN T buttons to view the parameter &3. · Press and hold the + and – buttons for 4 seconds. · 9MJINXUQF^FXMJXYTHTSWRYMFYYMJUFXXTWIMFXGJJSXF[JI · Switch the control unit off and on again. Check that password protection is activated (&3=).

Temporary unlock procedure: · Enter the password. · Check that &3=.

Password cancellation procedure: · Enter the password (&3=). · Save the values 3, 3, 3, 3 = · Use the UP S and/or DOWN T buttons to view the parameter &3. · Press and hold the + and – buttons for 4 seconds. · 9MJINXUQF^FXMJXYTHTSWRYMFYYMJUFXXTWIMFXGJJSHFSHJQQJI
YMJ[FQZJX3 , 3 , 3 and 3
indicate that no password is set). · Switch the control unit off and on again.

&3 Changing password Protection deactivated. Protection activated.

14 Special parameters for HIGH SPEED series

The BG30/HS series (High Speed) is a family of digital brushless high speed sliding motor units for sliding gates weighing up to 800 kg, 1000 kg, 1500 kg or 1800 kg and dedicated exclusively to residential applications. High Speed technology makes it possible for the automation system to operate 100% faster than a conventional system, and allows independent management of speed, acceleration, deceleration and the safety devices used in the system.

Note: As the mechanics of the gate is unknown, to guarantee the maximum safety of the installation, we recommended to use sensitive edges.

The additional parameters for enabling High Speed technology are indicated as follows.

D D D D

Selecting automation system model
9MNXUFWFRJYJWNXKFHYTW^HTSLZWJIG^74,*79*(-3414,> WARNING! 9MJUFWFRJYJWNXFQWJFI^HTSLZWJIG^IJKFZQYYTJSFGQJZXJTKYMJTKRTYTWNSMNLMXUJJIRTIJ.KYMNX UFWFRJYJWNXRTINJIFQQYMJXUJHNHRTYTWKZSHYNTSXWJQFYN[JYTMNLMXUJJIRTIJNQQSTQTSLJWGJF[FNQFGQJ The automation system will no longer function effectively and it will not be possible to diagnose faults. N.B.: in the event of a reset to restore the default parameters, this parameter must be set again manually.

BG30/1600 – IRREVERSIBLE motor for gate leaves up to 1600 kg.

BG30/2200 – IRREVERSIBLE motor for gate leaves up to 2200 kg.

BG30/1000/HS – High Speed IRREVERSIBLE motor for gate leaves up to 1000 kg.

BG30/1400/R – REVERSIBLE motor for gate leaves up to 1400 kg.

BG30/1800/HS – High Speed IRREVERSIBLE motor for gate leaves up to 1800 kg.

BG30/1500/HS – High Speed IRREVERSIBLE motor for gate leaves up to 1500 kg.

BG30/804/HS – High Speed IRREVERSIBLE motor for gate leaves up to 800 kg.

Setting deceleration during opening Setting deceleration during closing
= the gate decelerates near the limit switch … = the gate decelerates long before the limit switch.

Setting start acceleration during opening Setting start acceleration during closing

= the gate accelerates rapidly at start of manoeuvre … = the gate accelerates slowly and progressively at start of manoeuvre.

Setting opening speed
N.B.: YMJXUJJIXJYYNSLWFSLJKTWYMJXUJHNHRTYTWNSXYFQQJINXFZYTRFYNHFQQ^XZGIN[NIJINSYTJVZFQXJLRJSYX

Setting closure speed
N.B.: YMJXUJJIXJYYNSLWFSLJKTWYMJXUJHNHRTYTWNSXYFQQJINXFZYTRFYNHFQQ^XZGIN[NIJINSYTJVZFQXJLRJSYX

= 6 m/min … = maximum speed.

N.B.: to set the constant speed deceleration space, see parameters and on Chapter 13.

15 Special parameters for BG30/1400/R series

The BG30/R series (REVERSIBLE) is a family of digital brushless motor units for sliding gates weighing up
to 1400 kg and dedicated exclusively to residential and industrial applications.
REVERSIBLE technology makes it possible to open and close the gate without releasing the motor even in
the event of power failure. When the gate is moved manually, in the absence of supply voltage, the rotation of the motor provides power to the control unit the display lights up and the message ‘6(/)’ appears. WARNING!
handle the gate by hand with moderation.
The control unit allows independent management of speed, acceleration, deceleration and the safety devices used in
the system. )ZWNSLSTWRFQTUJWFYNTS
NSHQZINSLTUJWFYNTSZSIJWGFYYJW^UTJWYMJHTSYWTQZSNYFUUQNJXFXZKHNJSYGWFPNSLKTWHJYT impede manual movement of the gate.
As a result, prolonged operation may drain the battery when operating under battery power. .KYMJGWFPNSLKTWHJFUUQNJINXSTYXZKHNJSYYTNRUJIJRFSZFQRT[JRJSYTKYMJLFYJFSIFLFYJRT[JRJSYTKRTWJYMFS 3 cm is detected, the control unit initiates a position recovery procedure (see chapter 21). NOTE: Even though it is a REVERSIBLE unit, the motor is equipped with a lock release system.

The additional parameters for enabling REVERSIBLE technology are indicated as follows.

Selecting automation system model
9MNXUFWFRJYJWNXKFHYTW^HTSLZWJIG^74,*79*(-3414,> WARNING! 9MJUFWFRJYJWNXFQWJFI^HTSLZWJIG^IJKFZQYYTJSFGQJZXJTKYMJTKRTYTW7*;*78.’1*RTIJ.KYMNX UFWFRJYJWNXRTINJIFQQYMJXUJHNHRTYTWKZSHYNTSXWJQFYN[JYT7*;*78.’1*RTIJNQQSTQTSLJWGJF[FNQFGQJ The automation system will no longer function effectively and it will not be possible to diagnose faults. N.B.: in the event of a reset to restore the default parameters, this parameter must be set again manually.