Centurion RSO 5R, RSO 5RE, RSO 5R3P, RSO 5DC, RSO 9 Roller-shutter Operator Installation Manual

Below you will find brief information for RSO RSO5R, RSO RSO5RE, RSO RSO5R3P, RSO RSO5DC and RSO RSO9. These roller-shutter operators are designed to safely automate extremely heavy roller-shutter doors such as entrances to factories and loading bays. Each model is equipped with a heavy-duty electric motor that, coupled with a powerful gearbox, delivers maximum lifting force. A convenient manual override facility comprising a 5m chain ensures that the door can be operated even in the event of a power failure. The RSO5DC model also allows for the integration of radio receivers, meaning that the door can be operated remotely by means of a hand-held transmitter.

PDF

Document

RSO Installation Manual

R o l l e r - s h u t t e r O p e r a t o r

ROLLER-

SHUTTER

OPERATORS

1986

In-house

R & D development team

1990 1995 1999

Centurion Systems today

Manufacture to international quality standard

ISO 9001:2008

100% testing of products

Competent after-sales technical support from 07h00 - 18h00

Monday to Friday

Sales and support throughout

Southern Africa and over

50 countries worldwide

Centurion Systems (Pty) Ltd reserves the right to make changes to the products described in this manual without notice and without obligation of Centurion Systems (Pty) Ltd to notify any persons of any such revisions or changes.

Additionally, Centurion Systems (Pty) Ltd makes no representations or warranties with respect to this manual.

No part of this document may be copied, stored in a retrieval system or transmitted in any form or by any means electronic, mechanical, optical or photographic, without the express prior written consent of Centurion Systems (Pty) Ltd.

Mechanical Setup

Electrical Setup

Commissioning and Handover

IMPORTANT SAFETY INSTRUCTIONS

1. Declaration of conformity

2. Icons used in this booklet

3. General description

4. Specifications

Physical dimensions

Technical specifications

5. Determining shutter weight and profile

Roller-shutters with perforated profiles

Roller-shutters with flat blind steel profiles

6. Product identification

7. Description of terminal functions

Opening the enclosure

Motor controller for RSO5 only

Interface board for RSO5 only

RSO5DC controller

8. Required tools and equipment

9. Preparation of site

General considerations for the installation

10. Cabling requirements

RSO5DC cabling requirements

11. Installation procedure

Retrofit installations

12. Electrical setup

Secure wall pendant

Connect all wiring

RSO5DC connection and wiring

RSO5DC menu navigation map

RSO5DC controller features

RSO5DC diagnostic LEDs

RSO5DC Roller-shutter status LED

RSO5DC LCD display

RSO5DC buzzer feedback

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RSO5DC factory defaults schedule

Power connections

13. Setting the travel limits

The limit switch assembly

RSO5, RSO5R, RSO5RE and RSO5R3P

RSO5DC

RSO9

14. Connecting an external radio receiver

15. Connecting infrared beams

16. RSO5DC wiring diagram for other inputs

17. Manual operation

18. Installation handover

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Mechanical setup

These abbreviated instructions are for the experienced installer who needs a checklist to get a standard installation up and running in the minimum of time.

Detailed installation features and functions are referred to later in this manual.

These abbreviated instructions are for the experienced installer who needs a checklist to get a standard installation up and running in the minimum of time.

Detailed installation features and functions are referred to later in this manual.

Heed necessary site considerations Page 26

Check cabling requirements Page 27

Gather required tools and equipment Page 25

Retrofit installations

Setting the travel limits

Electrical setup

Page 29

Page 58

Page 33

Connect all wiring page 1 page 33

Commissioning and handover

Connecting an external radio receiver and infrared beams

Manual operation

Installation handover

Page 62

Page 66

Page 67 page 2

IMPORTANT

Safety Instructions

ATTENTION

To ensure the safety of people, it is important that you read all the following instructions. Incorrect installation or incorrect use of the product could cause serious harm to people.

The installer, being either professional or DIY, is the last person on the site who can ensure that the operator is safely installed, and that the whole system can be operated safely.

Warnings for the installer

CAREFULLY READ AND FOLLOW ALL INSTRUCTIONS

before beginning to install the product.

The installation of your new Roller-shutter Operator (herein after referred to as ‘RSO’) must be carried out by a technically qualified or licensed person. Attempting to install your new RSO without suitable technical qualification may result in severe personal injury, death and/or property damage

The RSO comprises of various sensitive mechanical and electronic components, and as such it is not suitable for installation in an outdoor environment where it will be exposed to the elements.

Only install the RSO on a properly balanced and aligned, well functioning shutter (or ‘curtain’, as it is more commonly known). An improperly balanced or malfunctioning curtain could cause serious injury. Have a qualified person check and, if required, make repairs to your curtain before installing the RSO. As a general rule, your curtain is deemed to be well balanced and aligned if it:

Requires an equivalent amount of applied force to manually open and close,

Does not rise or fall more than 100mm when stopped at any position between fully open and fully closed positions, and

Does not rub or make contact with any supporting or surrounding structures

Repairs to roller-shutters must only be carried out by technically qualified persons. Attempting to repair the system without suitable technical qualification may result in severe personal injury, death and/or property damage.

page 3

Remove or render inoperative all existing locks and ropes prior to installation of the RSO

The helical coil springs must be properly lubricated between all of the coils with heavy automotive bearing grease.

Failure to adequately lubricate the springs may result in one or more of the following symptoms:

The springs will become rusty over time resulting in extra operating friction between the coils which may cause the

RSO to malfunction

Seasonal temperature changes may cause the rollershutter springs to expand and/or contract. The resultant increase and/or decrease in operating friction may cause the RSO to malfunction. Properly lubricating the springs will help to minimise the effects of seasonal temperature changes in operating friction of your roller-shutter

It is recommended that the manual operation chain is housed within the chain bag included with this kit and positioned in such a way that only authorised users have access to it, so as not to compromise the security of the installation.

Do not connect the RSO to the power source until this manual instructs you to do so or if safe

The RSO must be connected to a properly earthed general purpose 220V (380V for certain models) outlet which has been installed by a qualified electrical contractor

Locate the wall control/pushbutton:

Within site of the curtain and,

At a minimum height of 1.5 meters above the ground so that it remains out of reach of small children and,

Away from all moving parts of the door

Install warning decals in a prominent position next to the wall control button

Never use the RSO unless the curtain is in full view and free from objects such as cars, children and/or adults

Never allow children to operate the RSO

Never operate the RSO when children/persons are under or near the path of the door. Children must be supervised at all times when near the curtain and when the RSO is in use

Never attempt to disengage the RSO to manual operation when there are persons and/or other objects including motor vehicles under or near the path of the curtain

Never attempt to make any repairs or remove covers from the

RSO without first disconnecting the power supply cord from the main power supply

For additional safety we strongly recommend the fitment of safety beams on the RSO models that allow for them, i.e. the

RSO5 and RSO5DC. The addition of safety beams will greatly enhance the operating safety of the RSO and provide additional peace of mind. page 4

In some countries it is mandatory and required by law to fit safety beams

It is the sole responsibility of the owner/installer to fit safety beams in those countries that so require

Removal of the RSO’s protective covers must only be performed by a technically qualified person. Attempting to remove the protective covers or repair the RSO without suitable technical qualification may result in severe personal injury, death and/or property damage

Always ensure that the curtain is fully open before driving into or out of the building

Always ensure that the curtain is fully closed before leaving the driveway

Keep hands and loose clothing clear of the curtain and product at all times

As the RSO is often installed at great heights, ensure that the necessary scaffolding and safety harnesses are employed and that they are stable and secure

NEVER PULL THE MANUAL RELEASE PIN IF A PERSON OR

OBJECT IS DIRECTLY UNDERNEATH THE CURTAIN

Everything not expressly specified in these instructions is not permitted.

ROLLER-SHUTTER MAY MOVE AT ANY TIME!

MOVING SHUTTER DOOR CAN CAUSE SERIOUS INJURY OR DEATH!

KEEP CLEAR! SHUTTER DOOR MAY MOVE AT ANY TIME!

DO NOT ALLOW CHILDREN TO PLAY IN AREA OR OPERATE

THE ROLLER-SHUTTER OPERATOR!

page 5

1. Section left intentionally blank

Please note that this page has been left blank intentionally, and will be updated in the near future page 6

2. Icons used in this manual

This icon indicates tips and other information that could be useful during the installation

This icon denotes variations and other aspects that should be considered during installation

This icon indicates warning, caution or attention! Please take special note of critical aspects that MUST be adhered to in order to prevent injury page 7

3. General description

The CENTURION Industrial RSO range has been designed to safely automate extremely heavy roller-shutter doors such as entrances to factories and loading bays.

There are six models available, each tailor-made to suit individual installation requirements. Each model is equipped with a heavy-duty electric motor that, coupled with a powerful gearbox, delivers maximum lifting force. In addition, a convenient manual override facility comprising a 5m chain ensures that the door can be operated even in the event of a power failure. A three-button wall pendant allows the operator to not only open and close the door but also safely stop it should an emergency situation arise. In addition, the RSO5DC model also allow for the integration of radio receivers, meaning that the door can be operated remotely by means of a hand-held transmitter.

End-of-travel limits are managed by two normally-open limit switches, one for each direction of travel. Therefore there is no need for any unsightly additions to the rollershutter structure.

The following six models are available:

RSO5R

The RSO5R is ideal for sites requiring simple, cost-effective automation of doors weighing up to 500 kilograms. A three-button wall pendant is used to operate the door, with two normally-open pushbuttons for directional operation and one normally-closed pushbutton used to stop the door.

RSO5RE

The RSO5RE is an endurance model ideal for high volume applications. The vastly improved duty cycle and high number of possible daily operations are made possible by a ventilated planetary gearbox.

RSO5R3P

This is a powerful three-phase, 380V operator capable of delivering greater starting thrust than single-phase operators, and also boasts an increased duty cycle.

RSO5DC

The RSO5DC incorporates an intelligent logic controller complete with user-friendly LCD interface for easy setup. In addition, two 7Ah batteries provide reliable battery backup, ensuring that the RSO5DC remains in operation even in the event of a lengthy power outage. The controller also makes provision for the connection of ancillary items such as infrared safety beams, proximity readers and keypads.

RSO9

The RSO9 is a heavy duty model utilising a 380V, three-phase power supply enabling it to lift very heavy roller-shutter doors weighing up to 900 kilograms.

page 8

4. Specifications

Physical dimensions

RSO5R and

RSO5R3P

RSO5DC RSO5DC RSO9

260mm 260mm 165mm 345mm

FIGURE 1. OVERALL DIMENSIONS

Technical specifications

RSO5R RSO5R3P RSO5RE RSO5DC

Supply voltage

220V - 240V

AC 50Hz

380V AC 3Ø

50Hz

Power

Motor speed

Current

Sprocket

Chain

Length

Net weight

Gross weight

Packing dimensions

Door speed

Door weight

360W

1780rpm

3.5A 1Ø

Temperature protector

Output shaft rotation

Gear ratio

95°C

53rpm

34:1

Material of gear box

Aluminium

5/8 inches

540mm

12.7kg

13.5kg

540mm x 260mm x 200mm

360W

1780rpm

2A 3Ø

70°C

35rpm

55:1

Aluminium

5/8 inches

540mm

12.8kg

13.5kg

570mm x 265mm x 210mm

140mm per second

10%

100mm per second

10%

500kg 500kg

220V - 240V

AC 50Hz

220V - 240V

AC 50Hz

375W

1780rpm

125°C

28rpm

64:1

Cast-iron

5/8 inches

530mm

20.2kg

21kg

665mm x 260mm x 200mm

74mm per second

10%

500kg

220W

1440rpm

4.6A 1Ø

70°C

50rpm

55:1

Aluminium

5/8 inches

410mm

9.64kg

10.4kg

570mm x 265mm x 210mm

140mm per second

10%

500kg

RSO9

380V AC

3Ø 50Hz

550W

1780rpm

2.2A 3Ø

115°C

17 rpm

105:1

Aluminium

10T

1 inch

600mm

22.1kg

23.0kg

600mm x 345mm x 285mm

45mm per second

10%

900kg page 9

5. Determining shutter weight and profile

Roller-shutters with perforated profiles

Profile A

Description Size of interlocking sections

Steel profile consisting of galvanised steel sheets

105mm

Thickness

0.5mm

Profile B

FIGURE 2. PROFILE A

Weight per square metre

4.5kg

Description

Steel profile consisting of galvanised steel sheets with high-density micro-perforations of

4mm diameter

Size of interlocking sections

105mm

Thickness

0.5mm

0.7mm

FIGURE 3. PROFILE B

Weight per square metre

5.5kg

7.7kg

page 10

Profile C

FIGURE 4. PROFILE C

Description Size of interlocking sections

Thickness Weight per square metre

Steel profile consisting of galvanised steel sheet with high-density micro-perforations of 2.5mm diameter

105mm 0.7mm

7.7kg

Roller-shutters with flat blind steel profiles

Profile D

Description

Steel profile consisting of galvanised steel sheets

FIGURE 5. PROFILE D

Size of interlocking sections

Thickness Weight per square metre

77mm 0.5mm

6.6kg

page 11

Profile E

Description

Steel profile consisting of galvanised steel sheets

105mm 0.7mm

FIGURE 6. PROFILE E

Size of interlocking sections

Thickness Weight per square metre

0.5mm

6kg

8.4kg

0.8mm

9.6kg

page 12

6. Product identification

1. Relay/PCB housing

2. Manual override pin

3. Power cable

4. Limit switch housing

5. Limit switch drive

FIGURE 7. PRODUCT IDENTIFICATION RSO5, RSO5R and RSO5R3P

6. Manual operation chain

7. Drive sprocket

8. Mounting Slot

9. Tensioning bolt page 13

1. Relay/PCB housing

2. Manual override pin

3. Power cable

4. Capacitor

5. Limit switch housing

6. Limit switch drive

FIGURE 8. PRODUCT IDENTIFICATION RSO5R and RSO5R3P

7. Manual operation chain

8. Ventilation slots

9. Drive sprocket

10. Mounting Slot

11. Tensioning bolt page 14

1. Cable junction enclosure

2. Limit switch housing

3. Limit switch drive

4. Manual operation chain

FIGURE 9. PRODUCT IDENTIFICATION RSO5DC

5. Controller box

6. Drive sprocket

7. Mounting slot

8. Tensioning bolt page 15

1. Terminal housing

2. Manual override pin

3. Power cable

4. Limit switch housing

5. Mounting slots

FIGURE 10. PRODUCT IDENTIFICATION FOR RSO9

6. Hand chain

7. Drive sprocket

8. Limit switch drive

9. Tensioning bolt page 16

7. Description of terminal functions

Opening the enclosure

Screwdriver

Screw

To access the motor electronics, open the relay/PCB housing by loosening the four screws holding it in place

Relay/PCB housing

FIGURE 11

Relay/PCB housing

Screw

Screw driver

FIGURE 12

page 17

Motor controller for RSO5 only

9 8 7

Symbol

1. FUSE

2. TR1

3. TR2

4. TEMP-FS

5. ALARM

6. CAP

7. MOTOR

8. BRAKE

9. POWER

FUSE

TR1

TR2

CAP

MOTOR

BRAKE

TEMP-FS

POWER

ALARM

FIGURE 13. AC-L5-B MOTOR CONTROLLER BOARD

Function

Motor fuse 5A

AC Output

AC 12V input

Thermal cut-out terminal

Not used

Capacitor terminal

Motor cable terminal

Internal disc break terminal

AC power terminal

Motor fuse (5A F/B)

Provides 220V AC to PCB transformer

12V AC input from the transformer

Capacitor Terminal. The motor capacitor is connected to this threepin connector

Motor output. Connects to the motor wires.

This output provides power to the operator’s internal disc break

The motor’s temperature cut-out switch is connected to this terminal and will activate in the event of over-temperature

The 220V -240V AC main power supply is connected to this terminal

Not used page 18

Interface board for RSO5 only

FIGURE 14. AC-L5-A MOTOR CONTROLLER

Symbol

10. LIMIT S/W

11. DIR

12. AUTOCLOSE

Function

Limit Switch terminal

Motor Drive direction switch

Automatic closing time adjustment

13. REV

14. AUTO

Infrared Beams Mode selection pins

Dead man control

15. ONE-KEY/FOUR-KEY Not used

16. LEARNING PB Not used

17. TEST Single button operation

18. G↑STOP↓ I/O terminal

TEST

GND

Onboard door operation button. This button acts as a trigger. From the fully closed position, pressing the button once will cause the door to start opening, pressing it a second time will stop the door and a third button press will cause the door to start closing

Ground, common or 12V negative termination point

Operates in a similar fashion to the onboard test button. A pulse on this input will, from the fully closed position, cause the door to start opening. A second pulse will stop the door and a third pulse will cause the door to reverse direction and start closing

Safety edge input. If a pressure sensor has been fitted to the shutter’s leading edge it must be connected between this input and

GND. If an obstruction is encountered, the shutter will behave in exactly the same fashion as when the beam input in activated.

(see on the next page). page 19

12V

DIR

REV ON/OFF

This is a normally-open, potential-free contact which will upon closing of the contact (i.e. the beams being broken) cause the curtain to react in one of the following ways: If the REV jumper pins closest to the AUTO jumper have been bridged, the door will stop immediately once the beams have been blocked, regardless of the direction of travel. If the REV pins furthest from the AUTO jumper are bridged and the beam interrupted, the controller will react by emitting a series of beeps and then cause the curtain to re-open for

5 seconds. Should the beam be interrupted again the curtain will stop immediately. If the beams are interrupted while the door is opening the door will stop. If none of the REV pins are bridged and the beam is interrupted while the door is closing, the controller will react by emitting a series of beeps and then cause the curtain to reopen all the way to the open limit. Should the beams stay interrupted the curtain will run in the opening direction for 5 seconds and then stop. If the beams are interrupted again while the door is opening the door will stop.

This terminal provides +12V DC supply for auxiliary equipment such as a radio receiver, photo cells, etc. Maximum 300mA

Closing Input. Momentarily connecting this input to GND will cause the door to travel in the closing direction

Stop Input. Momentarily connecting this input to GND will cause the door to stop moving immediately

Opening Input. Momentarily connecting this input to GND will cause the door to travel in the opening direction

Motor drive direction selection. Confirm the motor direction by using the OPEN, STOP and CLOSE buttons. If the drive direction is incorrect (i.e. the OPEN button closes the door or vice versa), move the switch marked DIR to change the drive direction. Use the controller buttons again to confirm

Configures the way in which the curtain will react upon the beam being broken (if beams are connected). If the REV jumper pins closest to the AUTO jumper have been bridged, the door will stop immediately once the beams have been blocked, regardless of the direction of travel. If the REV pins furthest from the AUTO jumper are bridged and the beam interrupted, the controller will react by emitting a series of beeps and then cause the curtain to re-open for

5 seconds. Should the beam be interrupted again the curtain will stop immediately. If the beams are interrupted while the door is opening the door will stop. If none of the REV pins are bridged and the beam is interrupted while the door is closing, the controller will react by emitting a series of beeps and then cause the curtain to reopen all the way to the open limit. Should the beams stay interrupted the curtain will run in the opening direction for 5 seconds and then stop. If the beams are interrupted while the door is opening the door will stop. page 20

AUTO

AUTOCLOSE

Enabling the Auto functionality allows the user full control over the curtain’s closing cycle; in other words, an opening cycle can still be initiated by pressing the Up button only once, but the curtain will only close if the Down button is pressed and held. Releasing the

Down button will cause the curtain to stop immediately:

Automatic closing switches. These dipswitches set the time for which the door must remain open before Autoclosing. The Autoclose timer will start counting down upon the door reaching the fully open position. Autoclose time can be set for 5 seconds to 65 seconds, by configuring the dipswitches as follows:

Dipswitch in ON position

Dipswitch in OFF position

1 2 3

DIP 2

Off

FIGURE 15. AUTOCLOSE JUMPERS

Setting

OFF

5 seconds

20 seconds

25 seconds

40 seconds

45 seconds

60 seconds

65 seconds

DIP 1

Off

Infrared safety beams must be installed if Autoclose is to be used

DIP 3

Off

On page 21

RSO5DC Controller

24V +

24V -

Motor

Aux IO

Com

Status

FIGURE 16. RSO5DC CONTROLLER

Positive battery connection.

(Battery terminal normally indicated as + or RED)

Negative battery connection.

(Battery terminal normally indicated as - or BLACK)

Motor output – Connects to the Blue or Black motor wire

Motor output – Connects to the Orange or Red motor wire

The Aux IO terminal provides an open collector output which can be used for alarm or auto function purposes. If the collision alarm output or the

IRB alarm output has been configured to Aux IO, then the negative of the alarm device must be connected to this terminal. The positive of the alarm device must be connected to the Aux 12V Out terminal. Similarly, if Aux IO is autoactivated via a ChronoGuard auto function time period, the device being switched (typically a 12V relay) must be powered from the Aux 12V Out terminal, and have its negative switched by Aux IO. If the Aux IO has not been selected as either an alarm indicator output or auto activated output, the Aux IO terminal will behave as a Com termination point. All trigger signals, etc., have their return path to one of the Com terminals.

The common termination point. All trigger signals, etc. have their return path to one of the Com terminals.

External shutter status indicator.(A low current output signal.) An output terminal which provides a low current, drive (approx. 4,5V DC,

20mA) to a LED which can be used to indicate the shutter status remotely.

If more than three LEDs are required it is necessary to fit the CP78 MULTI

LED driver card page 22

Mtr Lck

FRX

This terminal connects to the RSO5DC’s internal solenoid brake. The brake releases whenever the operator receives a trigger signal, and acts as a safety mechanism in the event that the shutter’s counterbalance springs fail, engaging and keeping the shutter stationary to prevent it from free-falling (refer to Interface Relay Board in Figure 35)

Free-exit input. (A normally-open potential-free input). Momentarily connecting this input to COM will cause a shutter which is closed, or closing, to open or re-open. If the shutter is open, or opening, the signal has no effect other than to reset the Autoclose timer (if selected). Freeexit (FRX) never initiates a closing cycle. The only way to close a shutter if only the FRX input is used, is to activate the Autoclose feature on the controller.

Com

Ped

The common termination point. All trigger signals, etc. have their return path to one of the Com terminals.

Pedestrian opening input. (A normally-open potential-free input).

Momentarily connecting this input to COM will cause the shutter to open to the Pedestrian open position. For more information refer to the Pedestrian feature.

Trg Trigger input. (A normally-open potential-free input) Momentarily connecting this input to COM will cause the shutter to open or close depending on the operating mode selected. For more information see the

Autoclose feature and Modes of Operation.

Lck/Stp

Holiday Lockout or gate stop input. (A normally-closed potential-free input). For as long as a connection between this input and COM is maintained the controller will behave normally. But, when this connection to COM is broken all inputs are inhibited, and if the shutter is moving it will stop.

If the Lck function is not required a link must be fitted between

Lck and Com

Safety Open Opening beam safety input. (A normally-closed potential-free input).

As long as a connection between this input and Safe Common is maintained the controller will behave normally. When this connection is broken it will prevent the gate from opening if it is stationary, and will stop and close the gate if it is opening. This input has no effect if the gate is closing.

When setting up the controller for the first time or after a full reset back to factory defaults has been performed, the system will electronically override the Safety Inputs and allow the system to function without the links. However if safeties are connected to either or both inputs, thereafter there must be a normally-closed circuit maintained for the system to operate correctly. I.e. if beams are fitted and then removed, the circuit which is affected must be replaced with a wire link to create the normally-closed circuit. page 23

Safety Close. Closing edge safety input. CLOSING edge safety input. (A normallyclosed potential-free input). For as long as a connection between this input and COM is maintained the controller will behave normally. When this connection is broken it will prevent the shutter from closing if it is stationary, and will stop and reverse the shutter if it is closing. This input has no effect if the shutter is opening

If the Saf CLO function is not required a link must be fitted between Safe CLO and COM for the controller to operate normally.)

Aux 12V Out Auxiliary power connection. Auxiliary power connection. Provides a

+12V DC supply for auxiliary equipment such as a radio receiver, photo cells etc, It is linked directly to the battery positive via a 3A resettable fuse.

Safe Com

Used for switching the power supply to the safety beams. If automatic beam testing is required, the negative power supply connection of the beam transmitters and receivers must be wired to this point.

Light/light Pillar light connection. These two terminals provide a normally-open potential-free contact which is generally used to switch on a pillar light

(courtesy light). This contact is fuse protected – refer to page 51 for fuse specifications.

page 24

8. Required tools and equipment

Welding equipment

Spanner 17mm; 13mm

Spirit level

Circlip pliers

Allen key set

Long-nosed pliers

Angle grinder and cutting discs

Electric drilling equipment

Masonry bits for mounting wall pendant

Steel bits

Phillips screwdriver

Marking pen/chalk

Extension cord

G-Clamps

Depending on the height at which the RSO is to be installed, scaffolding and safety harnesses may be needed

Gear puller for removing old sprocket page 25

9. Preparation of site

General considerations for the installation

Gather all necessary tools and assemble any scaffolding and safety equipment that may be required to safely gain access to the area where the RSO is to be installed

Ensure that the door is properly balanced by manually opening it halfway. It should ideally remain in this position and should not move of its own volition for more than about 100mm of travel in either direction

Fully open the door to be automated and ensure that it is securely locked in place.

This is imperative since the door could free-fall which could lead to personal injury or even death

Minimum clearance

Operator Minimum A dimensions

RSO5R

RSO5R3P

590mm

RSO5

RSO5DC

RSO9

620mm

460mm

650mm

FIGURE 17.

The A dimension refers to the minimum amount of space needed to install each operator, i.e. the distance from the side of the shutter box to the first obstruction (eg. a pillar)

If these minimum clearance requirements are not met, i.e. there is limited space available for mounting the operator facing outwards, it is possible to reverse the mounting plate so that the operator faces the opposite direction as shown in

Figure 18.

FIGURE 18.

page 26

10. Cabling requirements

Mains power supply

RSO rollershutter operator

External radio receiver

Shutter box

Curtain

Infrared safety beams

Keypad

Wall switch

Keypad

Manual operation chain

FIGURE 19. CABLING REQUIREMENTS

2. Cable for wall switch (supplied).

4. Radio receiver cable (3 core 0.5mm multi-stranded).

380V AC 3Ø for three phase models page 27

RSO5DC cabling requirements

Mains power supply

RSO roller shutteroperator

External radio receiver

Keypad

2 Wall switch

Controller wall box

Manual operation chain

Shutter box

Curtain

Infrared safety beams

Keypad

FIGURE 20. CABLING REQUIREMENTS FOR RSO5DC

1. 220V - 240V AC mains cable (3 core LNE 1.5mm SWA).

2. Cable for wall switch (supplied).

3. Optional but recommended infrared safety beams (3 core 0.5mm multi-stranded).

5. Optional keypad (3 core 0.5mm multi-stranded).

380V AC 3Ø for three phase models page 28

11. Installation procedure

Retrofit installations

The following installation procedure applies to roller-shutter doors that have already been installed, and must now be automated:

1. Using a G-clamp, secure the curtain in the fully OPEN position.

It is recommended that the installation is performed while the curtain is open, as the helical coil springs are under the least amount of tension in this position. Working on a roller-shutter while the springs are fully tensioned holds significant safety risks as the shutter could come loose with great force at any moment, resulting in personal injury or even death

2. Remove the chain wheel by loosening the bolt holding it in place; this is commonly a

M8 bolt but can be any size.

3. After removing the chain wheel, unhook the manual operation chain from the drive

4. Remove the old sprocket. The sprocket is commonly held in place by a circlip but, as the sprocket often sits quite tightly on the shaft, it is at times necessary to make use of a gear puller in order to remove it.

Driveshaft

Smoothened surface

FIGURE 21

Mounting options

There are 2 RSO mounting options, Option A and Option B as shown in the illustration below. Option B is usually used when the minimum clearance requirements are not met, i.e. there is limited space available for mounting the operator facing outwards.

Mounting option A

page 29

Mounting option B

FIGURE 22

Mounting the plate Option A

Mounting plate

7. Tack-weld the flanges of the mounting plate onto those of the brace bracket as shown in Figure 23, giving special consideration to available space and the direction that the operator will face.

The mounting plate can be adjusted left and right, parallel to the shutter box along the mounting flanges to ensure that the plate wheel and the operator's sprocket are properly aligned.

Flange

Brace bracket

Flange

FIGURE 23

FIGURE 24

Mounting the plate Option B

8. Reverse the mounting plate so that the operator faces the opposite direction

Tack-weld the flanges of the mounting plate onto those of the brace bracket as shown in Figure 25, leaving enough space between the mounting plate and the shutter box for the drive chain to run through .

The mounting plate can be adjusted left and right, parallel to the shutter box along the mounting flanges to ensure that the plate wheel and the operator's sprocket are properly aligned.

Mounting plate

Flange

Brace bracket

Flange

FIGURE 25

FIGURE 26

page 30

Mounting the sprocket

8. Insert the taper bush into the plate wheel as shown in Figure 27 and use the two grub screws to secure the bush in place.

If at any stage the taper bush must be removed, remove both of the grub screws and insert one of them into the previously unused slot, and tighten

Allen key

Bush

Plate wheel

Square key

M17 Mounting bolt

9. Fit the sprocket supplied with the RSO kit onto the door’s driveshaft and insert the square key(not supplied) into the slot as shown in Figure 28.

Ensure that you purchase the correct taper bush size. Both

30mm and 35mm taper bushes are available

Drive shaft

Base plate

Mounting the RSO unit

Grub screws

FIGURE 27

FIGURE 28

9. Loosen the fastening bolts on the RSO unit mounting base. Insert the unit onto the 4 x M17 mounting bolts on the base plate. Adjust and align accordingly before fastening the M17 nuts.

page 31

FIGURE 29

Changing manual release orientation

Always ensure that the hand chain hangs vertically. If the operator cannot be mounted in a way that facilitates this, the chain housing can be swivelled as illustrated from figure 30, 31 and 32.

Hand chain

10. Loosen the three bolts by a single turn only.

Bolts

FIGURE 30

Hand chain

11. Swivel the chain housing to the required location.

Make sure there is no gap between the gearbox housing and the chain gousing before you tighten the bolts

12. Tighten the bolts making sure that there is no gap between the gearbox housing and the chain gousing.

Bolts

Chain housing

FIGURE 31

Gearbox housing

Gap

Bolts

Chain housing

FIGURE 32a

Gearbox housing

Chain housing

Hand chain

FIGURE 32b

page 32

13. The motor can now be fitted onto the four mounting bolts. Do not tighten the nuts yet, as the motor must still be positioned in such a way that it tensions the drive chain. Ensure that the motor’s output pinion is directly in line with the sprocket as misalignment may result in the chain being pulled from the sprocket once the door is set in motion. Additional washers may be fitted onto the mounting bolts and the motor slightly raised from the plate in order to align the pinion with the sprocket.

RSO motor

Tensioning bolts

Mounting bolt

Sprockets

FIGURE 33

Remove the safety clip from the drive chain and break the chain as shown in Figure 34, before connecting it to the pinion

Chain link

Drive chain

Safety clip

FIGURE 34

Drive chain

14. Connect one end of the drive chain to the pinion and use the manual operation chain to feed it.

15. Use a pair of long-nosed pliers to join the two ends of the chain, remembering to fit the safety clip.

Sprockets

Manual operation chain

FIGURE 35

page 33

Sprocket size and speed

RSO Model

RSO5

RSO5DC

RSO5R

RSO5R3P0V1

RSO5E

RSO9 SB-90

Direction

FORWARD

REVERSE

FORWARD

REVERSE

FORWARD

REVERSE

FORWARD

REVERSE

FORWARD

REVERSE

FORWARD

REVERSE

Reading 1

29.8

30.1

29.8

28.3

29.7

29.9

15.2

13.9

14.0

Reading 2

30.2

28.8

30.2

28.4

29.7

29.9

15.2

14.0

Reading 3

29.9

28.4

29.8

29.7

29.9

15.2

14.0

Average

29.96

29.93

29.96

28.36

29.73

29.7

29.9

15.2

13.96

14.0

page 34

12. Electrical setup

Secure wall pendant

Mount the Three-Button Wall Switch in such a way and at such a height that it can be comfortably operated. An optional, lockable enclosure can be purchased from Centurion

Systems for added security and to prevent unauthorised and unsafe use of the operator.

Separate the two halves of the Wall Switch Enclosure by loosening the two fixing screws on the face

Secure the posterior (back) half to the wall using the most appropriate means, be it rawlbolts, sleeve anchors, etc.

Fit the anterior (front) of the enclosure assembly to the back plate and secure using the two fixing screws provided

Connect all wiring

Connect all cables as required according to the wiring diagram shown in Figure 34

SMARTGUARD keypad

12V -

12V +

COM

IRB Transmitter

12V/24V -

IRB Receiver

12V/24V -

2V/24V +

COM

12V/24V +

External radio receiver

12V -

12V +

COM

page 35

FIGURE 36. RSO5 WIRING DIAGRAM

RSO5DC connections and wiring

1. Secure the control box to the wall using the most appropriate means.

Be sure to position the wall box so as not to cause any hazards during and after the installation:

Preferably mount the wall box:

Out of direct sunlight

At a comfortable working height

2. Crimp the supplied bullet lugs onto the 0.5mm² white, yellow and green wires.

3. Route the three wires through one of the compression glands supplied and then through the knock-out at the bottom of the wall box.

4. Connect the wires from the operator to the wires from the controller in the following configuration:

Green – green

Yellow – yellow

White – white

N/O - Limit Switch 1

COM

N/O - Limit Switch 2

page 36

COM

N/O

N/C

Limit

Switch 1

N/O

N/C

COM

Limit Switch 2

FIGURE 37

4. Connect the two black motor wires to either one of the Motor terminals on the controller (the Motor terminals are not polarity-sensitive).

5. Connect the two red motor wires to the remaining Motor terminal.

From the motor

FIGURE 38

6. Now connect either of the Operators two 0.5mm² orange wires to the relay card's normally-open (NO) terminal. The relay card is also housed within the wall box enclosure.

Jumper position

Multi-function

Relay Board

FIGURE 39

page 37

7. Connect the other orange wire by crimping it into the female blade connector (supplied) and then connecting it to the positive (+) battery terminal via the male 3-way blade expander as shown in Figure 40

Orange wire from the motor

Female blade connector

8. Heeding the necessary safety precautions, connect the 220 – 240V

AC mains supply to the wall box isolator. To access the wiring terminals of the isolator, unscrew the two Philips screws and connect the Live and

Neutral wires.

Phillips screw

Battery

FIGURE 40

220-240V

AC Mains

Isolator

Phillips screw

FIGURE 41

9. Fasten the 220V earth cable onto the earth stud in the wall box enclosure as shown in Figure 42

Earth

FIGURE 42

page 38

10. Connect the two batteries to the controller as shown in Figure 43.

Battery 1

RSO5DC menu navigation map

1. Setting limits 1.1. Setup wizard

Battery 2

FIGURE 43

2. Safety

2.1. Collision force

2.2. Collision count

2.3. Alarm output

2.4. LCK as ESTOP

2.5 External gate status indication

2.1.1. Opening collision force

2.1.2. Closing collision force

2.5.1. Indicator output

2.5.2. Closed indication

2.5.3 Part close indication

2.5.4 Closing indication

2.5.5. Part open indication

2.5.6. Opening indication

2.5.7. Open indication

2.5.8 Pedestrian indication

2.5.9 Unknown indication

3. Autoclose

3.1. Autoclose status

3.2. Autoclose timer

3.3. Autoclose override

3.4. Autoclose advanced options

3.4.1. Autoclose fully open

3.4.2. Autoclose partly open

3.4.3. Autoclose partly closed page 39

4. Modes of Operation

4.1. Operating mode 4.1.1. Standard Mode

4.1.2. Condominium Mode

4.1.3. Reversing Mode

4.1.4. PLC

4.1.5. Deadman Control Mode

5. Run profile

5.1. Positive close

5.2. Pre-open delay

5.3. Pre-close delay

5.4 Opening speed

5.5. Closing speed

5.6. Ramp-up distance

5.7. Ramp-down distance

5.8. TRG stop distance

5.9. IRB stop distance

5.10. Crawl distance

5.11. Torque limit

5.12. PWM minimum

5.1.1. Positive Close Mode status

5.1.2. Positive Close Mode force

6. Infrared beams

6.1. PIRAC control

6.1.1. PIRAC status

6.1.2. Stop on open 6.1.2.1. Stop on open status

6.2. IR beam test 6.2.1. Status

6.2.2. Test beam

6.3. IRBO=IRBC on closing

6.4. IR beam alarms

6.4.1. Ambush alarm

6.4.2. Break-in alarm status

6.4.3. Alarm output

6.4.1.1. Ambush alarm status

6.4.1.2. Broken IRB time

7. Pedestrian

7.1. Pedestrian open position

7.2. Pedestrian Autoclose time

7.3. Pedestrian pre-open delay

7.4. Pedestrian pre-close delay page 40

8. Courtesy light

8.1. Courtesy light timer

8.2. Light profile

8.2.1. Courtesy light

8.2.2. Pre-flash A

8.2.3. Pre-flash B

8.2.4. Pre-flash C

9. ChronoGuard

9.1. Time and date

9.2. Time periods 9.2.1. Add time period

9.2.2. Delete time period

9.2.3. Edit/review time periods

9.2.1.1. Auto function

9.2.1.2. Time-bar. function

9.3. Exclusions 9.3.1. Add exclusion

9.4. Delete all time periods and exclusions

9.3.2. Delete exclusion

9.3.3. Edit/review exclusions

9.3.1.1. Auto function

9.3.1.2. Time-bar function

10. General settings

10.1. Operating standard

10.2. Reset options

10.2.1. Factory defaults

10.2.2. Delete all remotes

10.2.3. Delete all time periods and exlusions

10.3. Diagnostic screen status

10.2.4. Reset all

10.4. Test button disabled status

10.5. Backup EEPROM

10.6. Restore EEPROM page 41

11. Remote controls

Press button of valid transmitter

(if menu locked)

11.1. Add remotes

11.2. Delete remotes 11.2.1. Delete remote by ID

11.2.2. Delete remote button

11.2.3. Delete remote by button

11.2.4. Delete not present

11.3. Edit remote button

11.4. Autolearn

11.2.5. Delete all remotes

11.5. Lock Tx menu

11.6. Onboard receiver enable/disable

RSO5DC Controller features

Menu 2 - Safety (collision force)

Collision force

If the shutter is obstructed, the internal collision circuitry will activate. The response of the system to a collision will vary, depending on the profile

(operating standard, e.g. ZA,) selected. Responses can vary from the shutter stopping, to the shutter reversing. The collision force can be set from minimum to maximum in five discrete steps

A sixth step will disable collision sensing entirely, allowing maximum force to be achieved. Under this condition, the motor will continue running until it stalls, at which point a collision will be detected

This level should only be used if additional safety measures are taken.

(E.g.: Infrared beams, sensitive edge etc.) Collision force can be set independently per direction of travel.

Collision count

A counter monitors the number of collisions that the shutter experiences before it reaches the fully closed position. If the value exceeds the value set in the multiple collision counter the controller shuts down until the next valid trigger is received. As indication, the status LED will flash four times every two seconds. The multiple collision fault indication will continue to flash indefinitely or until a valid trigger has been received

Alarm output

After the preset collision count has been reached, an alarm is activated. The system can be configured to operate one of the following outputs provided on the controller: page 42

Onboard buzzer – emits a continuous tone

Pillar / Courtesy light contact (potential-free normally-open contact, fuse protected – 5A)

Safety beam common (this is an open collector drive, max current draw

3A, not fuse protected)

Status LED output (operate up to three LEDs in parallel or interface with multi-LED driver card, Cp78)

LCK as ESTOP

Allows the LCK (Holiday Lockout) input to be configured as an emergency stop input

Menu 3 - Autoclose

Autoclose status

The Autoclose feature when turned on, has the function of automatically closing the shutter after a preset Autoclose time. The Autoclose feature is automatically turned on when the controller is set for Condominium Mode of

Operation.

Autoclose time

The Autoclose time can be set anywhere from 1 to 255 seconds.

Autoclose override

It is possible for the user to temporarily turn off Autoclose when the Mode of

Operation is Standard or Reversing. To activate Autoclose override, the

TRG input must be activated and maintained for a period longer than the time set for the Autoclose Override Time, after which the input can be cleared; ie press and hold the button of the remote that operates the roller-shutter

The shutter response will be to start opening on the first TRG trigger, and then to stop as soon as the Autoclose Override feature is activated. On clearing of the TRG input, the shutter will continue opening until fully open.

The Autoclose feature is now off and the shutter will remain open indefinitely

The next signal received on TRG will clear the Autoclose Override feature, close the shutter, and set the Autoclose feature back to normal

Autoclose advanced options

The conditions under which the shutter will Autoclose can be set within the

Advanced Autoclose options menu:

Autoclose on open - automatically close the shutter if it has reached the fully open position

Autoclose on partly open - automatically close the shutter if it is stopped while opening, but before reaching the fully opened position

Autoclose on partly closed - automatically close the shutter if it is stopped while closing, but before reaching the fully closed position

More than one advanced option can be selected page 43

Menu 4 - Modes of Operation

It is possible to select the following Modes of Operation: Standard,

Condominium, Reversing, PLC and Deadman control Mode. All modes are triggered by closing a normally-open contact between the TRG input terminal and the COM terminal

Standard mode

When stationary, a trigger impulse on TRG will cause the shutter to either open or close. On a moving gate, a trigger impulse on TRG will stop the shutter. A third impulse on TRG will cause the shutter to reverse its direction of travel, i.e. the action is Start - Stop - Reverse

Condominium mode

A trigger impulse on TRG will under all conditions open the shutter. If it were closing, it will stop and reverse to open. In this Mode of Operation, the only way to close the shutter is with the Autoclose feature which is automatically activated when Condominium mode is selected

Reversing mode

A trigger impulse on TRG will reverse the direction of a moving shutter. If it were closing, it will stop and immediately begin opening. If it were opening, it will stop and immediately begin closing.

PLC Mode

A trigger impulse on FRX (N/O) will cause the shutter to open. A trigger impulse on the TRG (N/O) will cause the shutter to close

A trigger impulse on the LCK/STP (N/C) will cause the shutter to stop

Deadman Control Mode (DMC)

A permanent trigger on FRX (N/O) will cause the shutter to open. Removing the trigger will cause the shutter to stop

A permanent trigger on TRG (N/O) will cause the shutter to close Removing the trigger will cause the shutter to stop

A permanent trigger on LCK/STP (N/C) will stop a moving shutter, and

Menu 5 - Run profile

Positive Close Mode (PCM) (not recommended for roller-shutters)

Setting Positive Close Mode to ON will allow the curtain to drive up hard to an endstop without causing the collision circuitry to operate. This feature operates only during the last few millimeters of shutter travel in closing mode

PCM push force

The amount of force applied by the motor when in PCM can be set as a percentage of full motor force

Pre-open delay

Allows a delay between a valid trigger signal being received and the shutter commencing movement in the opening direction. A warning light can be set to activate during this delay. (Refer to Pre-flash modes of the feature PILLAR

LIGHT, for more details) page 44

Pre-close delay

Allows a delay between a valid trigger signal being received and the shutter commencing movement in the closing direction. The delay will also occur if the shutter is set to close automatically. A warning light can be set to activate during this delay. (Refer to Pre-flash modes of the feature PILLAR LIGHT, for more details)

Opening speed

Sets the opening speed as a percentage of the maximum shutter speed. This can be set from 22-100%. Selecting max will move the shutter at maximum possible speed

Closing speed

Sets the closing speed as a percentage of the maximum shutter speed. This can be set from 22-100%. Selecting max will move the shutter at maximum possible speed

Ramp-up distance

Sets the ramp-up distance as a percentage of travel of the shutter when an endpoint is reached. This can be set from 2% to 30% in 1% steps

Ramp-down distance

Sets the ramp-down distance as a percentage of travel of the shutter when stopping. This can be set from 2% to 30% in 1% steps.

TRG stop distance

Sets the distance over which a moving shutter will stop after a TRG input is received, as a percentage of total shutter travel. This can be set from 1% to

10% in steps of 1%

IRB Stop Distance

Sets the distance over which a moving gate will stop after an Infrared Safety

Beam is broken, as a percentage of total shutter travel. This can be set from

1% to 10% in steps of 1%

Crawl Distance

Sets the final crawl distance as a percentage of travel of the shutter when reaching an endpoint. This can be set from 5% to 30% in steps of 1%

Torque Limit

Sets the maximum torque delivered by the motor. The maximum setting is a value of 10 and the minimum is 4. This is useful in cases where limited push force is required

PWM Minimum

Sets the minimum speed at which the shutter will be allowed to crawl, both during the limit setup procedure and during normal operation before reaching an endpoint. The maximum setting is a value of 90% of maximum speed and the minimum is 5%. It is highly recommended that the PWM Minimum be set to maximum during limit setup, as configuring it to a lower value will result in the procedure taking unnecessarily long page 45

Menu 6 - IR beams

PIRAC

Passive-Infrared Autoclose causes the shutter to automatically close as soon as a vehicle has passed through the closing beams. This security feature ensures that the shutter stays open for the minimum amount of time possible

If the AUTOCLOSE feature has been enabled when the shutter is triggered to open, but nothing moves through / breaks the closing beam, the shutter will open fully and stay open for the period of time determined by the AUTOCLOSE timer. However, if at any stage, while the shutter is opening or standing open waiting to close, the beams are broken, the shutter will close immediately

IR Beam Test

Automatically tests the safety beams before each shutter cycle. (eg as required by CE and UL325).

In order for this feature to work, the power supply negative of the beam transmitter must be wired to the SAF COM terminal of the controller

IRBO=IRBC

Configures the opening beam to act as a closing beam while the shutter is closing page 46

IR beam alarms

While the gate is fully closed, this feature allows the following alarms:

Ambush alarm

Activates an alarm if either the opening or closing beams have been continuously interrupted for a predefined time. The alarm will remain activated while the beams are interrupted.

For example, if a would-be intruder covers the beams so that when the gate is opened, the gate will stay open, the system will detect this beam override taking place and set off an alarm.

IR beam broken time

The time that the beams must be interrupted before the alarm is activated.

Intruder blocks beam

Adjustable beam broken time

Alarm

FIGURE 44

Break-in alarm

Activates an alarm if the closing beam on the outside of the property is interrupted. The alarm remains activated while the beams are broken, and for a period of 30 seconds thereafter.

This time is fixed.

If this alarm is used, it is recommended that TWO parallel closing beams are used to reduce the chance of false triggering.

Alarm

Intruder breaks beam while loitering at gate

FIGURE 45

page 47

Alarm output

The system can be configured to operate one of the following outputs provided on the controller:

Onboard buzzer – emits a continuous tone.

Pillar / Courtesy light contact (potential-free normally-open contact, fuse protected – 3A).

Safety beam common (this is an open collector drive, max current draw

3A, not fuse protected).

Status LED output (operate up to three LEDs in parallel or interface with multi LED driver card, CP78).

Menu 7 - Pedestrian opening

This feature is associated with the PED input on the controller. When activating this input, the system will open the shutter to the pedestrian open position, and then automatically close after the pedestrian Autoclose time lapses. The shutter will open only after the adjustable pre-opening delay time.

If the connection to COM is maintained then the shutter will remain open, and when the connection is broken, it will close after the PEDESTRIAN Autoclose time.

Pedestrian open position

Sets the maximum distance that the shutter will open for pedestrians as a percentage of the total shutter travel..

Pedestrian Autoclose time

Sets the Autoclose time in seconds after a pedestrian opening.

Pedestrian pre-open delay

Sets the time delay between the pedestrian input being activated, and the shutter actually opening. While this feature can be used with roller-shutters, it is mostly a safety feature associated with sliding and swing gate motors where pedestrians have to reach through the gate in order to activate the pedestrian input. A warning light would typically be active during this delay. This delay can be set from zero seconds to four minutes in one second steps.

Pedestrian pre-close delay

Sets the time delay between the pedestrian Autoclose timer expiring, and the shutter actually closing. A warning light would typically be active during this delay.

The warning light is any light wired to the courtesy (pillar) light contacts, as described in Menu 8, which follows.

page 48

Menu 8 - Courtesy (pillar) light

This feature is associated with the LIGHT connections on the controller.

The pillar light circuit has multiple functions:

It operates as a courtesy light and switches on for a timed period every time the shutter is activated.

It can also be turned on for the same timed period by momentarily connecting the AUX input to COM.(eg activating a pushbutton connected to these terminals)

Via the same pushbutton connected across AUX and COM, it can also be turned ON permanently by application of an impulse longer than 3 seconds.

The fact that the pillar light is ON permanently is indicated by the STATUS LED flashing once every second. A short impulse thereafter will switch the lights off.

The roller-shutter will not open when using the Aux trigger input.

When the PED input is triggered the courtesy light flashes for an adjustable

(1 to 255 seconds) pre-flash time before opening to the pedestrian opening.

Courtesy light time

The time that the courtesy light will remain activated can be set from 4 seconds to 10 minutes.

Light profile

The courtesy light can be selected to operate according to one of the following:

Courtesy light

If pre-flashing Mode A, B or C is selected, the courtesy light circuit will activate for the selected pre-opening and pre-closing delay. The manner of activation is dependent on the pre-flashing mode selected.

Mode A will turn on the courtesy light only while the motor is running

Mode B will flash the courtesy light during the pre-opening delay, as well as while the shutter is running

Mode C will turn on the courtesy light during the pre-opening delay, as well as while the shutter is running. In these pre-flashing modes, the timed courtesy light functionality is not available.

Menu 9 - ChronoGuard (Time periods)

ChronoGuard (a world first)is a powerful feature which has been added to the new generation CENTURION controllers. An integral Real Time Clock (RTC) is used to provide time-based functionality, including the automatic activation or time-barring of specific controller inputs, and the time-barring of specified remote control buttons used together with the onboard CENTURION codehopping receiver.

The RTC will keep time for a minimum of one hour without any power

Time-periods page 49

Time Periods

A Time-period is defined by a start and end date and time. Up to 100 Timeperiods can be defined. A Time-period can be a once off event, or can be set to repeat on a weekly or annual basis. The weekly repeat can be chosen to occur on every day of the week, weekdays only, weekends only, or any specific day.

The minimum duration of a Time-period is one minute. Once off Time-periods have the highest precedence, followed by annual and then weekly. When appropriate, a “Tp” icon will appear on the display to indicate that a

Time-period is active.

Auto-activations (Auto function)

The following controller inputs can be set to activate automatically during a

Time-period:

Free-exit (FRX)

Pedestrian opening (Ped)

Holiday Lockout (Lck)

Closing beam (IRBC)

Courtesy light control (Aux)

During the relevant Time-period, the selected input will be activated. Where appropriate, the diagnostic LED of the relevant input will illuminate.

Time-barring

Time-barring of inputs is divided into physical inputs and RF inputs (inputs mapped to a CENTURION code-hopping transmitter button)

The following physical inputs can be Time-barred (prevented from operating) during a Time-period:

Trigger (Trg)

Pedestrian opening (Ped)

Free-exit (FRX)

Holiday Lock (Lck)

Courtesy light control (Aux)

The following physical outputs can be Time-barred (prevented from operating) during a Time-period:

Courtesy (pillar) light relay (Light)

The following RF inputs can be Time-barred (prevented from operating) during a Time-period:

Trigger (Trg)

Pedestrian opening (Ped)

Free-exit (FRX)

Holiday Lock (Lck)

Courtesy light control (Aux) page 50

Time-barring of a CENTURION code-hopping transmitter is specified at the time of coding the transmitter into the system. Once an RF input is defined as time-barred, any Time-barred transmitter associated with that input will be time-barred during the relevant Time-period. If a physical or RF input is currently Time-barred, any attempt to activate it will be acknowledged by a short beep of the onboard buzzer. The input, however, will not activate.

Exclusions

Exclusions are used to prevent scheduled Time-periods from occurring at specific times (eg: public holidays). While Time-barring can be used to achieve a similar end, exclusions can also be used to exclude Time-barring itself. Each exclusion consumes one Time-period. Exclusions have the highest precedence, followed by Time-barring and then auto-activations (auto function).

Menu 10 - General features

Operating Standard

Regional operating standards can be set. Applying this setting will automatically configure the controller settings to conform to the specific region's standard - e.g. UL325 or CE.

Reset options

The controller settings can be reset through the reset options menu. Various reset options are available:

Factory Defaults – Depending on the operating standard / profile chosen all these settings will be restored. No other settings such as remote controls, limit switch settings will be affected.

Delete All Remotes - Delete all the remotes stored in the system, no settings affected.

Reset All – Clears the system completely as per an off the production line unit.

Diagnostic screen

Allow a diagnostic screen to be displayed. Can be useful when troubleshooting, but requires some technical knowledge.

Round test button

Allows the round test button on the controller to be disabled, in cases where higher security is required.

page 51

Menu 11 - Remote controls

The controller is capable of learning up to 500 CENTURION code-hopping remote controls / transmitters. Each transmitter can have up to four buttons. Each transmitter learned into the system is assigned a unique transmitter ID.

It is possible to artificially increase the number of buttons of a multibutton transmitter by using a two button combination

One of the buttons is used as a shift button to allow the other buttons to be used again in combination with this button. In other words the user will press and hold the shift button, before pressing one of the other buttons to create a new button

The shift button cannot be used as a button on its own, it must always be used in combination with the other buttons

Benefits of the shift button system:

Use of the shift button system allows a three button transmitter to gain an extra button and operate four functions and likewise a four button transmitter gains two extra buttons and can operate six functions

Another benefit of using the shift button system is that it requires

both hands to operate the two button combination. This prevents the user from accidentally enabling sensitive functions such as Holiday Lockout on the controller

Each transmitter learned into the system is assigned a unique transmitter ID.

Press valid button

If the remote controls menu has been locked as discussed later, only by pressing a button of a transmitter learned into the system, can the remote

controls menu be accessed.

Add remote

Any button can be set to control the trigger, pedestrian, free-exit, Holiday

Lockout or courtesy light inputs. When adding transmitters it is recommended that a record be kept of the ID number allocated by the system to each respective transmitter and the person to whom the transmitter is given. This is necessary should selective deletion be required at a later stage.

Delete remote

Transmitters can be edited at any stage according to one of the following:

Delete Remote ID - Each transmitter can be deleted individually according to its unique ID. To facilitate this, a record of the ID and the person to whom the

ID has been assigned must have been made at the time of learning the transmitter into the system.

Delete Remote Button -

The operation of a button on a particular transmitter can be cleared i.e. it allows for instance Holiday Lockout set on one remote to be cleared without affecting the other operations that the transmitter performs. page 52

Delete remote by button

Use this procedure to remove the transmitter from the system. All button functionality will be removed. The transmitter is required for this operation.

Delete-Not-Present

Allows for transmitters that have not been used within a selectable time period to be removed from the system. The Time-period can be set from one hour to seven days, in one hour increments.

Delete all remotes

Clears the entire memory. All transmitters will be removed.

Edit remote button

Change the function of one button to another.

Autolearn

Allows a Time-period to be set, during which any specific button will be learned to a specific function when it is pressed. The function will also be activated when the button is pressed. After the Time-period has expired Autolearn is disabled, and no further buttons will be learned.

Tx menu locked

Allows the “Remote Controls” menu to be locked, preventing the unauthorized addition of new transmitters to the system. Once enabled, the “Remote

Controls” menu can only be accessed by pressing a valid transmitter button

Onboard receiver

The onboard CENTURION code-hopping receiver can be disabled in the unlikely event that it causes interference with an existing external receiver

Fuse protection

Type Rating Item

Main controller

Motor circuit

Light circuit

Auxiliary supply

Charger

Mains input

Not user serviceable

Automotive fuse ATO (25 x 7mm) 30A

5 x 20mm

Electronic limit

5 x 20mm

3A fast blow

300mA

3A fast blow* page 53

RSO5DC Diagnostic LEDs

The RSO5DC controller has a series of diagnostic LEDs which indicate the state of the inputs. Normally-open inputs are indicated by a RED LED, and normally-closed inputs by a GREEN LED. An illuminated RED LED indicates that the signal is present (e.g.: intercom button pressed), while an illuminated GREEN LED indicates that the signal is absent (e.g.: IRB not broken).

Safety close - green

On when the closing beam is not activated

Safety open - green

On when the opening beam is not activated

Lck/Stp - green

On when the Lck/Stp input is not activated

Trg - red

On when the trigger signal is present

Ped - red

On when the pedestrian signal is present

FRX - red

On when a free-exit signal is present

Aux - red

On when an auxiliary signal is present

FIGURE 46

Status- red

This LED indicates the state of the shutter as per the table below:

RSO5DC Roller-shutter status LED

Off

Continuous slow flash

Continuous fast flash

1 flash every 2 seconds

2 flashes every 2 seconds

3 flashes every 3 seconds

4 flashes every 2 seconds

Shutter is closed

Shutter is partially / fully open

Shutter is opening

Shutter is closing

Pillar light override is activated

No mains is present

Battery voltage is low

Multiple collisions have occurred page 54

RSO5DC LCD display

The LCD display shows useful information regarding the status of the system.

2 3 4 5

A OFF L 0:00

CLOSED

FIGURE 47

1. Battery icon

Indicates the state of charge of the battery.

Four solid bars = full capacity

Two solid bars = 50% capacity

No solid bars, with the icon flashing = battery empty

2. Mains icon

Displays the presence/absence of mains voltage:

Plug solid = mains present and battery charging

Plug hollow and flashing = No mains present and battery not charging

3. Autoclose information

Displays the state of the Autoclose function

Displays off if Autoclose is not selected

OVR if Autoclose is overridden, and the remaining Autoclose time if Autoclose is active

POVR indicates that the PIRAC option is overriden

4. Pillar light information

Displays the remaining light time if Courtesy Light Mode is selected

Pre-flashing mode is displayed if pre-flash is selected

LIT will be indicated if the pillar light has been turned on permanently

5. Onboard receiver information

Displays the current input being activated by the onboard receiver.

6. Status information

Displays useful information regarding the status of the shutter.

page 55

RSO5DC Buzzer feedback

A warning buzzer will sound (where applicable) as per the table below:

Inhibitor name

Break-in alarm

Ambush alarm

Battery low

Multiple collision

Auxiliary overload

Holiday Lockout

Emergency stop

Time-barring

No limits set

Mains failure

Beams broken

(any)

Beams failure

Fuse blown

Motor disconnected

Bridge damaged

Shutter stalled

Priority

Number of beeps

Continuous tone for 30 seconds

Continuous tone until IRBs are cleared

3 beeps periodically for 30 seconds

Periodic until condition is cleared by user

(500/500ms)

5 beeps periodically for 30 seconds

1 beep periodically for 30 seconds

1 beep periodically for 5 seconds

3 short beeps for

5 seconds

2 beeps periodically for 30 seconds

1 beep periodically for 30 seconds

5 beeps periodically for 30 seconds

4 beeps periodically for 10 seconds

Fault type

Alarm

Power system fault

Collision

Hardware

User

Lost

Power system fault

User

Hardware

Collision

Gate continues to operate

N/A

Yes

Shutter will close fully and then shut down for two minutes

User can correct error

N/A

Yes

Yes page 56

RSO5DC factory defaults schedule

South African standard profile - ZA

Parameter Description

Unit Minimum

Menu 1 - not applicable

Menu 2

Opening collision force

Closing collision force

Collision count

Alarm output

LCK as ESTOP

Level

Collisions

B, CL, SC, LED

Yes or No

Default

Menu 3

Autoclose status

Autoclose timer

Autoclose override time

Autoclose from fully open

Autoclose from partly open

Autoclose from partly closed

Menu 4

Modes of Operation

On/Off mm:ss mm:ss

On/Off

S, C, R, P, D

Menu 5

PCM status

PCM force

Pre-open delay time

Pre-close delay time

Opening speed

Closing speed

Ramp-up distance

Ramp-down distance

TRG stop distance

IRB stop distance

Crawl distance

Torque limit

Menu 6

PIRAC control

Stop on open

Stopping distance

IR beam test

Test beam

IRBO=IRBC

Not advisable for roller-shutters

On/Off

% mm:ss mm:ss

% Travel

On/Off

IRBC/IRBO/both

On/Off

00m:00s

10%

00m:00s

22%

100%

Off

00m:15s

00m:03s

Off

30%

00m:00s

Max

10%

15A

Off

IRBC

Off

Maximum

Max

255

04m:00s

100%

01m:05s

Max

30%

11%

10%

30%

15A

5% page 57

Parameter Description

Menu 6 (continued)

Ambush alarm

Ambush time

Break-in alarm

Alarm output

Menu 7

PED opening

PED Autoclose

PED pre-open delay

PED pre-close delay

Unit

On/Off hh:mm

On/Off

B, CL, SC, LED

% mm:ss mm:ss mm:ss

Minimum

00h:01m

0.05m

00m:00s

Default

Off

00h:01m

Off

00m:05s

00m:02s

00m:00s

Maximum

04h:00m see note*

04m:25s

04m:00s

Menu 8

Light timer

Light profile

Menu 9 - not applicable

h:mm:ss

CL, PFA, PFB, PFC

0h:00m:04s 0h:02m:00s

9h:59m:59 s

Menu 10

Operating Standard

Factory defaults

Delete all remotes

Reset All

Menu 11

Delete-Not-Present

Autolearn

Tx Menu lock

Onboard receiver

Z,C,U

Yes/No

On/Off

Off

*Limited by door opening length

Legend

Onboard buzzer

Condominium mode

CL Courtesy light

D Deadman Control Mode

IRBC Closing safety beams

IRBO Opening safety beams

LED Status LED

P PLC mode

PFA

PFB

PFC

Pre-flashing mode A

Pre-flashing mode B

Pre-flashing mode C

Reversing Mode

Standard Mode

SC Safety common

Tx Transmitter page 58

Power connections

RSO5, RSO5R and RSO5RE variants must be connected to a 220V AC and RSO9 and RSO5R3P to a 380V AC mains supply via the power supply cables provided with the kit. The cables are connected to the respective power supply units during the assembly process; however, should any of the connections come loose, the diagrams below illustrate the terminals to which they should be connected in each case

Ensure that all electrical power to the operator is disconnected before attempting to conduct any work on the power supply of the operator.

All work should be carried out by a suitably qualified technician

RSO5R

Power connection terminals

RSO5/RSO5R3P/RSO5RE

Power connection terminals

RSO9

page 59

Power connection terminals

FIGURE 48. POWER CONNECTIONS

13. Setting the Travel Limits

The limit switch assembly

In order for the door to stop in the desired open and closed positions, the strikers must be adjusted to activate the corresponding limit switches for each position.

Opening limit striker Striker shaft

RSO5R, RSO5R3P

RSO5RE and RSO5DC

Closing limit switch

Cam fastener

Closing limit striker

Opening limit switch

Backup limit Down limit

RSO5

Up limit Safety edge off

Opening limit striker Closing limit striker

RSO9

Opening limit switch Striker shaft

page 60

Closing limit switch

FIGURE 49

RSO5, RSO5R, RSO5RE and RSO5R3P

The RSO5 provides a total of four limit micro-switches. In addition to the open and closed switches, provision has also been made for a Safety Edge Off switch as well as a Backup Limit (for the open position) switch. The Safety Edge Off switch will be triggered first when the shutter is travelling towards its closing limit, and serves to disable the sensitive edge fitted to the leading edge of the shutter (if installed). This is done to ensure that the collision circuitry does not activate and cause the shutter to re-open once it has reached the fully closed position.

The Backup Limit switch serves as a failsafe should the open limit switch malfunction, and will stop the shutter in the open position.

To set the limits:

Make use of a small flat screwdriver to open the limit switch housing

Use a Phillips screwdriver to loosen the two cam fasteners. .

Using the hand chain, manually hoist the shutter until it is in the desired open position.

Turn the opening striker by hand along the shaft until it is activating the corresponding micro-switch for the open position.

Now use the hand chain to hoist the shutter until it is in the desired closed position.

Turn the appropriate striker until it is activating the micro-switch for the closed position.

Use the wall pendant to test the operation in both the opening and closing directions as well as to stop the motor. Ensure that the fasteners are tightened and that the strikers travel the desired distances for opening and closing before activating the limit switches. Upon triggering the motor, an audible beep will indicate that one of the limit switches is currently being activated.

It is advisable that the open limit is set slightly short from the fully open position to allow space for the safety limit to be activated.

RSO5DC

Section 12 provides the full menu of features that can be set up on the system. An explanation of each feature is provided in Section 12, Controller features

When setting up the D10/D10 Turbo system via the LCD display, all the steps that have to be followed are clearly provided via the display. It is only necessary to note the following:

To get into setup mode, press the enter ( ) b utton for two seconds and follow the instructions provided from there

The buttons provided on the controller for navigating the system are not marked because at each step during the setup, the function given to each button is provided on the display page 61

FIGURE 50

When not in setup mode, i.e. normal mode, the ( ) button is used as a test button for operating the system

The triangular up or down ( ) buttons are used to scroll through the diagnostic screens

For each feature a factory default setting has been programmed into the controller.

Referred to as an operating standard or profile, these defaults have been determined to suit the requirements of the specific region where the installation is being carried out. It is only necessary to change a feature where the default does not suit the installation. When selecting any feature in the menu, details of the current setting stored in the controller are displayed

Refer to Section 12 for the Schedule of factory defaults for each feature

If at any stage you wish to abort the limit setup procedure, simply disconnect one of the battery leads.

To set the limits:

Make use of a small flat screwdriver to open the limit switch housing

Use a Phillips screwdriver to loosen the two cam fasteners.

Turn both strikers by hand until they are more or less in the centre of the striker shaft.

Using the hand chain, move the door to the desired open or closed position.

Turning the corresponding striker by hand, move it until the micro-switch is activated. (click can be heard)

Using the hand chain, move the door to the opposite position.

Again using the hand chain move the door off the micro-switch so that neither of the micro-switches are being activated. Enter Setup Mode by pressing and holding the centre ellipse button for a period of two seconds.

page 62

Ensure that the cams are not activating either the open or the closed microswitch before attempting to set the limits! If it is, first move the cams away from the switches by using the hand chain.

Using the hand chain move the door off the micro-switch so that neither of the micro-switches are being activated. Enter Setup Mode by pressing and holding the centre ellipse button for a period of two seconds.

Using the directional arrows, scroll to Menu 5: Run Profile and enter the menu by momentarily pressing the centre button.

Now scroll to PWM Minimum and confirm the selection by momentarily pressing the centre button.

Use the directional arrows to configure the PWM Minimum to a value of 90. Again, confirm the selection by pressing the centre button.

Press the round button twice until it shows 'Run Profile' and scroll to Menu 1:

Setting Limits. Enter the menu by pressing the centre button.

You will now be guided through the limit setup procedure by an intuitive Setup

Wizard. Carefully read each prompt on the display and confirm using the centre button.

Certain prompts are related to CENTURION sliding gate operators and might not be applicable

The operator will complete four cycles in total; two to establish the position of the opening and closing limits, and two to confirm the positions.

Once the procedure is complete, the Wizard will prompt you as to whether the shutter is open. If it is, simply confirm using the centre button. If, however, the shutter is in the closed position, toggle the display to NO and confirm with the centre button.

The RSO5DC is now ready for use.

Some fine adjustment of the strikers might be required. This can be done after completing the limit setup.

RSO9

While the procedure for setting the end-of-travel limits on the RSO9 is more or less the same as with other RSO variants, there are subtle differences when it comes to securing the limit strikers.

To set the limits:

Make us of a flat screwdriver to open the limit switch housing.

Ensure that the strikers can be rotated freely by hand; if they cannot, pull the securing studs towards you and away from the operator, and slide them to the opposite end of the vertical slot.

Using the hand chain, manually hoist the shutter until it is in the desired open position.

page 63

Turn the opening striker by hand along the shaft until it is activating the corresponding micro-switch for the open position.

Now use the hand chain to hoist the shutter until it is in the desired closed position.

Turn the appropriate striker until it is activating the micro-switch for the closed position.

Once you are satisfied that the curtain travels the correct distance in both the opening and closing directions, secure the strikers again by pulling the securing studs towards you and then to the opposite end of the vertical slot, ensuring that the strikers cannot be moved by hand.

14. Connecting an external radio receiver

Connecting an external radio receiver

It is possible to connect an external receiver to the controller by making use of one of the four inputs provided. Incorporating a radio receiver will enable users to operate the door remotely.

Each input has the following operation associated with it:

For Standard Mode of Operation, connect the receiver’s normallyopen output to this terminal. Pressing the remote button once (from the fully closed position) will cause the door to start opening.

Pressing the button a second time will cause the door to stop immediately, and a third button press will cause the door to move in the opposite direction, i.e. start closing

Connecting the receiver’s normally-open output to this terminal will allow for a Close Only Mode of Operation. In other words, each button press will move the door in the closing direction only

Connecting the receiver’s normally-open output to this input will cause the door to stop immediately

Connecting the receiver’s normally-open output to this terminal will allow for an Open Only or Free-exit Mode of Operation. Pressing the remote button will only initiate an opening cycle

In addition to these four inputs, +12V as well as ground are provided on the controller. Refer to Figure 40 for a visual representation of the connections

Using a multi-channel receiver provides the user with the ability to activate the open, close and stop functions using three different buttons on the transmitter.

External receivers can only be connected to the RSO5 and RSO5DC models.

page 64

15. Connecting infrared beams

Infrared safety beams can be fitted and is recommended for enhanced safety. The

RSO5 controller* offers a normally-open input which will, upon closing of the contact

(i.e. the beams being broken), cause the door to stop immediately or to reverse direction, depending on whether the REV pins have been bridged on the controller.

The installation of IR beams is considered critical as it helps prevent crushing

Infrared safety beams are connected to the controller as follows:

*Infrared beams can only be connected to the RSO5 and RSO5DC models

IRB Transmitter IRB Receiver

IRB Transmitter

FIGURE 45. INFRARED BEAMS WIRING DIAGRAM FOR RSO5

IRB Receiver

FIGURE 51. CLOSING INFRARED BEAMS WIRING DIAGRAM FOR RSO5DC

page 65

IRB Transmitter IRB Receiver

FIGURE 52. OPENING INFRARED BEAMS WIRING DIAGRAM FOR RSO5DC

page 66

16. RSO5DC Wiring diagram for other inputs

Holiday lockout keyswitch/keypad

(normally-

CLOSED)

CENTURION

Intercom pushbutton

(normally-

OPEN)

Pedestrian

keyswitch/keypad

(normally-OPEN)

Pillar light pushbutton

(normally-OPEN)

CENTURION

Status

LED

FIGURE 53

page 67

17. Manual operation

The CENTURION Industrial RSO offers two different modes of Manual Operation, namely complete disengagement of the gearbox – by overriding the mechanical braking mechanism - and chain-driven manual operation. A five metre chain has been provided with the system to allow for manual operation even from a floor-level.

Manual

Override pin

Hand chain

To completely disengage the gearbox, simply pull the manual override pin towards you, as indicated in Figures 54,

55 and 56. This will cause the operator's gearbox to be overridden and the door can then be operated by hand

If the door is completely or partially open, ensure that there are no people, pets or other obstructions directly underneath the door as disengaging the gearbox will release the door and possibly cause it to close at great speed, and could potentially cause serious injury or even death

For chain-driven manual operation, the gearbox must be engaged and the chain hoisted in the desired direction of travel

FIGURE 54. RSO5R, RSO5R3P AND RSO5RE

MANUAL OVERRIDE

Manual

Override pin

Hand chain

FIGURE 55. RSO5 and RSO5DC

MANUAL OVERRIDE

page 68

Manual

Override pin

Hand chain

FIGURE 56. RSO9 MANUAL OVERRIDE

18. Installation handover

Once the installation has been successfully completed and tested, it is important for the installer to explain the operation and safety requirements of the system.

NEVER ASSUME THE USER KNOWS HOW TO SAFELY OPERATE THE RSO!

Even if the user has used one before, it does not mean he knows how to SAFELY operate it. Make sure that the user fully understands the following safety requirements before finally handing over the site. Ensure that the end user has all the safety and user instructions included with the product

The following needs to be understood by the user:

How to operate the manual release mechanism. (Show them how by

demonstration)

All the features and benefits of the operator, i.e. safety beams, etc.

All the safety considerations associated with operating an RSO. The user should be able to pass this knowledge on to all other users of the automated system and must be made aware of this responsibility

Do not activate the RSO operator unless you can see it and can determine that its area of travel is clear of people, pets, or other obstructions

NO ONE MAY CROSS THE PATH OF A MOVING ROLLER-

SHUTTER. Always keep people and objects away from the entrance

NEVER LET CHILDREN OPERATE OR PLAY WITH THE RSO operator

CONTROLS, and do not allow children or pets near the entrance

Be careful with moving parts and avoid close proximity to areas where fingers or hands could be pinched

Secure all easily accessed RSO operator controls in order to prevent unauthorized use of the roller-shutter

Keep the automated RSO system properly maintained, and ensure that all working areas are free of debris and other objects that could affect the RSO operation and safety

On a monthly basis, check the safety devices for correct operation

All repair and service work to this product must be done by a suitably qualified person

This product was designed and built strictly for the use indicated in this documentation. Any other use, not expressly indicated here, could compromise the good condition/operation of the product and/or be a source of danger!

CENTURION SYSTEMS (Pty) Ltd does not accept any liability caused by improper use, of the product, or for use other than that for which the automated system was designed.

page 69

Notes

facebook.com/CenturionSystems

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@askCenturion

Subscribe to the newsletter: www.CentSys.com/Subscribe

Sharecall 0860-CENTURION (0860 236 887)

Head Office: +27 11 699 2400

Sharecall Technical Support 0861 003 123 or

+27 11 699 2481 from 07h00 to 18h00 (GMT+2)

(Sharecall numbers applicable when dialed from within South Africa only)

DOC1315D0102-10022016

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Key features

Heavy-duty electric motor
Powerful gearbox
Manual override facility
Three-button wall pendant
Radio receiver integration (RSO5DC)
Limit switches
Safety features

Frequently asked questions

The CENTURION RSO range includes models RSO 5R, RSO 5RE, RSO 5R3P, RSO 5DC, and RSO 9. Each model is tailored to suit specific installation needs.

The RSO 5R, RSO 5RE, and RSO 5R3P models can handle up to 500 kilograms, while the RSO 5DC can also manage 500 kilograms. The RSO 9 model has a higher capacity, handling up to 900 kilograms.

The RSO roller shutter operators include safety features like a manual override facility, three-button wall pendant for emergency stops, and the option for integrating radio receivers and infrared safety beams. The RSO 5DC model also incorporates a collision protection system and automatic beam testing.

RSO Installation Manual

ROLLER-

SHUTTER

OPERATORS

Sales and support throughout

Southern Africa and over

50 countries worldwide

Contents

Mechanical setup

Electrical setup

Commissioning and handover

IMPORTANT

Safety Instructions

ATTENTION

Warnings for the installer

1. Section left intentionally blank

2. Icons used in this manual

3. General description

4. Specifications

Physical dimensions

Technical specifications

5. Determining shutter weight and profile

Roller-shutters with perforated profiles

Profile A

Profile B

Profile C

Roller-shutters with flat blind steel profiles

Profile D

Profile E

6. Product identification

7. Description of terminal functions

Opening the enclosure

Motor controller for RSO5 only

Interface board for RSO5 only

RSO5DC Controller

8. Required tools and equipment

9. Preparation of site

General considerations for the installation

Minimum clearance

10. Cabling requirements

RSO5DC cabling requirements

11. Installation procedure

Retrofit installations

Mounting options

Mounting the plate Option A

Mounting the plate Option B

Mounting the sprocket

Mounting the RSO unit

Changing manual release orientation

Sprocket size and speed

12. Electrical setup

Secure wall pendant

Connect all wiring

RSO5DC connections and wiring

RSO5DC menu navigation map

RSO5DC Controller features

Menu 2 - Safety (collision force)

Menu 3 - Autoclose

Menu 4 - Modes of Operation

Menu 5 - Run profile

Menu 6 - IR beams

Menu 7 - Pedestrian opening

Menu 8 - Courtesy (pillar) light

Menu 9 - ChronoGuard (Time periods)

Menu 10 - General features

Menu 11 - Remote controls

RSO5DC Diagnostic LEDs

RSO5DC Roller-shutter status LED

RSO5DC LCD display

CLOSED

RSO5DC Buzzer feedback

RSO5DC factory defaults schedule

South African standard profile - ZA

Power connections

13. Setting the Travel Limits

The limit switch assembly

14. Connecting an external radio receiver

Connecting an external radio receiver

15. Connecting infrared beams

16. RSO5DC Wiring diagram for other inputs