VECTOR2 Installation Manual TM LINEAR SWING GATE OPERATORS
Company Profile 1986 In-house R&D development team 100% testing of products 1990 1995 1999 Centurion Systems Today Manufacture to international quality standard ISO 9001:2008 After-sales technical support from 07h00 - 18h00 Monday to Friday Sales and technical support to 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
Contents Mechanical Setup Electrical Setup Commissioning and Handover page 1 page 2 page 2 IMPORTANT SAFETY INSTRUCTIONS page 3 1. Declaration of Conformity page 5 2. General Description Lightning Protection page 6 page 7 3. Icons Used in this Manual page 7 4. Specifications Physical Dimensions Technical Specifications Control Card Power Supply Power Supply, Control Box and Control Card Assembly 2 Allowable Gate Mass page page page page page page page 8 8 9 10 10 10 11 5.
13. Electrical Setup Secure Control Box to Wall Connecting all Wiring Setting the Limits page page page page 37 37 37 38 14. Wiring Diagram for Closing Safety Beams page 40 15. Wiring Diagram for Opening Safety Beams page 41 16. Wiring Diagram for External Radio Receiver and Loop Detector page 42 17. Wiring Diagram for Other Inputs page 43 18. Wiring Diagram for Master Motor (MTRM) page 44 19. Wiring Diagram for Slave Motor (MTRS) page 45 20.
Mechanical Setup These quick steps 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.
Electrical Setup 8 Connect all wiring Run setup routine Page 40 Commissioning and Handover 10 Commission system Page 62 Carry out professional handover to client Page 74 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.
Make sure that an earth leakage circuit breaker with a threshold of 30mA is fitted upstream of the system Never short-circuit the battery and do not try to recharge the batteries with power supply units other than that supplied with the product, or by CENTURION Make sure that the earthing system is correctly constructed, and that all metal parts of the system are suitably earthed Safety devices must be fitted to the installation to guard against mechanical movement risks such as crushing, dragging a
1.
2. General Description The VECTOR2 operator has been designed to safely and cost-effectively automate a wide variety of swing gates, from single light-domestic swing gates to heavy industrial double swing gates. The fail-safe and fully redundant Position and Collision Detection system has been designed and tested to set the standard in safety of operation and to provide an unparalleled level of reliability and durability in operation.
Lightning Protection The VECTOR2 electronic controller utilises the same proven surge protection philosophy that is used in all CENTURION products. While this does not guarantee that the unit will not be damaged in the event of a lightning strike or power surge, it greatly reduces the likelihood of such damage occurring. The earth return for the surge protection is provided via the mains power supply earth.
4. Specifications Physical Dimensions Model V400 1400mm extended 400mm stroke 1000mm retracted m 0m 95mm 10 All dimensions shown in millimeters FIGURE 1. V400 OVERALL DIMENSIONS Model V500 1600mm extended 1100mm retracted 500mm stroke m 0m 95mm 10 All dimensions shown in millimeters FIGURE 2.
Technical Specifications VECTOR2 400 Input voltage Motor voltage Motor power supply Battery charger Domestic Light-industrial Current consumption (mains) Current consumption (motor at rated load) Operator push force - maximum Operator stroke Piston extension/retraction speed Typical gate opening time Manual override Maximum number of operations per day Duty cycle - mains present Operations in standby with 7Ah battery Half day Full day Collision sensing Controller solenoid output rating Operating temperature
Control Card Maximum motor current per channel 15A (fused) Maximum input voltage 14.
Allowable Gate Mass Maximum allowable gate mass for the V400 operator: Gate swing Up to 1.5 metres angle Up to 2 metres Up to 3 Up to 3.5 Up to 4 Up to 2.
5. Product Identification 6 1 2 7 8 3 4 9 5 10 11 12 FIGURE 3A. PRODUCT IDENTIFICATION 1. Wall bracket (standard) 7. Gate bracket pin 2. Wall bracket pin 8. Gate bracket 3. VECTOR2 gate operator (complete assembly) 9. Stainless steel cap screw M6 x 25 10. Origin body 4. 12mm snap ring 11. Stainless steel M6 nut 5. Gate warning decal 12. 14mm snap ring 6. Gate operator keys Keys are specific to each operator - key number must be recorded 1 2 3 5 6 7 4 FIGURE 3B.
3 1 4 2 FIGURE 3C. WALL ADAPTOR KIT 1. 2. VECTOR2 Wall Adaptor Kit packing leaflet M10 hexagon nuts 3. 4. Wall adaptor plate M10 x 20 countersunk screw FIGURE 3D. HIGH-SECURITY KIT 1. 2. VECTOR2 High-security Kit packing leaflet 3. Padlocks 1. 2. 3. VECTOR2 securing plate (short) VECTOR2 Mechano Kit packing leaflet M10 x 35 bolt Wall bracket (high-security) FIGURE 3E. MECHANO KIT 4. 5. M10 x 35 bolt VECTOR2 securing plate (long) FIGURE 3F. GATE ADAPTOR KIT 1. 2.
6. Required Tools and Equipment Screwdrivers 6mm Phillips 3.5mm Flat Hammer Pliers Electric drilling machine Spanners 17mm 15mm preferably socket set Crimping tool and Pin lugs G-clamps x2 Connector block Hole saw 20mm Angle grinder Allen key 5mm Pin punch 6mm Measuring tape Masonry bits 12mm 10mm for wall mount brackets 6.5mm/10.
7.
Wall (minimum) Gate opening 110° Operator Wall (minimum) V400 V500 Gate opening 110° Pillar (maximum) 150mm 150mm Pillar (maximum) 145mm 210mm FIGURE 6 Tables are based on gates shorter than 2.5 For gates 2.5 metres to 3.0 metres long, 20mm For gates 3.0 metres to 3.5 metres long, 40mm For gates 3.5 metres to 4.
Pillar High-security Kit This mounting works well for heavy gates shorter than about two metres in single household domestic applications. Alternatively it should be considered for use on pillars of low or unknown strength. Wall adaptor (high-security) Works well FIGURE 8 Standard bracket This mounting method is typically used on light- to medium-weight domestic gates that are about 1.5 metres long, and that are mounted on pillars of average strength.
Pillar Welding Applications: Lighter gates Domestic Wall adaptor (high- security) Welding machine Works well FIGURE 12 Pillar Sleeve anchors Applications: Lighter gates Domestic Wall adaptor (high- security) Sleeve anchor Okay FIGURE 13 Pillar RAWL bolts Applications: Very light Domestic Wall adaptor (high- security) Rawl bolt Not recommended FIGURE 14 Page 18
Strength of the Gate and Gate Bracket The Gate Adaptor Kit both strengthens the connection to the gate, and also allows for more flexibility when mounting the bracket to the gate: Welding Gate Adaptor Kit Applications: Light-industrial Heavy gates Frequent use Gate Gate adaptor Welding machine Gate bracket Best FIGURE 15 Throughbolts Through-bolts Gate Adaptor Kit Applications: Light-industrial Heavy gates Frequent use Gate Gate adaptor Gate bracket Very good FIGURE 16 Welding Applic
Mechano Kit Installation Options This kit is useful when fitting VECTOR2 to existing installations, and also makes adjustments easier when doing new installations. FIGURE 19. INSTALLATION WHEN THE PILLAR IS WIDE FIGURE 20. INSTALLATION WHEN THE PILLAR IS ON AN IRREGULAR SURFACE FIGURE 21. INSTALLATION ON A PALISADE FENCE FIGURE 22.
High-Security Kit Installation Options FIGURE 23. INSTALLATION WHEN THE PILLAR IS WIDE FIGURE 24. INSTALLATION WHEN THE PILLAR IS ON AN IRREGULAR SURFACE FIGURE 25. INSTALLATION ON A PALISADE FENCE FIGURE 26.
8. Cabling Requirements Control Box Mains isolator switch To dwelling FIGURE 27. CABLING REQUIREMENTS Legend 1. 90V /220V - 240V AC mains cable via mains isolator switch (3 core LNE 0,5mm²) , or low-voltage 16V AC battery charger supply (2 core 1,5mm²). 2. Intercom cable (n1 + 6 core) to house. 3. Master motor (MTR M) or Slave motor (MTR S) cable (minimum, 2 core 2mm2 + 4 core 0,5mm² multi-stranded) see note . 4. Optional radio receiver cable (3 core 0,5mm2 multi-stranded, optional) . 5.
9.
10. Operator Installation Closed 1. Determine the gate opening angle and direction of operator (inward or outward). 120° 60° 110° 100°90° Ope n Alternatively the swing angle can be determined more accurately with the process detailed on page 35. 80° 70° Estimate swing angle FIGURE 28. ESTIMATE SWING ANGLE 85mm Gate Bracket Take care to make sure the operator is mounted level. Minimum 125mm The gate bracket must fit to a sturdy point on the gate. Consider using the optional Gate Adaptor Kit.
OR Operator must not foul against bracket Cut the bracket Take care to shorten the wall bracket to prevent interference with the operator. Use Mechano kit FIGURE 31. BRACKET POSITION Wall 4. Secure the bracket to the wall with the most appropriate means. Mounting bolt Wall adaptor (Standard) It is critical that the wall bracket is securely mounted. See page 15 for site considerations. FIGURE 32 Determine the Gate Bracket Position Gate bracket Pin Start with the operator fully retracted.
Pin VECTOR2 unit Wall adaptor (standard) 6. Fit the motor end of the operator to the wall bracket. FIGURE 34 7. Open the gate fully and temporarily clamp the gate bracket to the gate. The gate bracket must fit to a sturdy point on the gate. G-clamp Consider using the optional Gate Adaptor Kit. See page 13. FIGURE 35 8. Unlock the operator and swing the gate into the closed position. 9.
If it becomes obvious that the operator does not have enough stroke, reduce either the A or B distances by moving the wall bracket. A and B are illustrated in Figure 30 in page 24. Gate Welding Be sure not to make the A and B values less than allowed for in the installation tables on page 30 and 31. FIGURE 37 In general: Large B distances give good security and good closing push force Small A and small B will increase the speed Fasten Gate Bracket to Gate 10.
12. Fit the operator, additional security gate bracket pins and snap rings. Pin As additional security to the snap ring, fit a padlock and the optional padlock shield. Wall adaptor (standard) VECTOR2 operator Padlock OR FIGURE 40 Adjust Origin Clamp 13. Unlock the operator and open the gate to the desired fully open position. 14. Slide the origin clamp along the actuator tube, right up to the operator. Secure in place with an Allen key and tighten properly. Open Origin marker FIGURE 41 15.
Inward Swing Gate Setup Gate open Gat eo pen Gate closed FIGURE 43 For gates opening 90° or less as A and B are shown. For best security (but slower operation) install with large B value. For fast operation (but less security) install with small A and small B values. FIGURE 44. OPENING 90° OR LESS Ensure that the gate does not exceed the gate mass specifications on page 11. For gates opening more than 90° as A and B are shown. FIGURE 45.
For V400 (400mm operator) 1400mm extended 1000mm retracted FIGURE 46 Recommended positions (Only for a 2.5 metre gate or shorter) Gate swing angle A Value Gate opening angle 0° B Value 90° or less 160 200 100° 120 180 110° 120 130 120° 110 110 120° 60° 110° 100° 90° 80° 70° FIGURE 47 Alternative positions A and B must each be greater A+B should Up to 1.5 Up to 2 Up to 2.5 Up to 3 Up to 3.
For V500 (500mm operator) 1600mm extended 1100mm retracted FIGURE 48 0° Recommended positions (Only for a 2.5 metre gate or shorter) Gate swing angle A Value Gate opening angle B Value 90° or less 205 250 100° 165 215 110° 144 180 120° 115 150 120° 60° 110° 100° 90° 80° 70° FIGURE 49 Alternative positions A and B must each be greater A+B should Up to 1.5 Up to 2 Up to 2.5 Up to 3 Up to 3.
Outward Swing Gate Setup For gates opening 90° or less as A and B are as shown. B For best security (but slower operation) install with large B value For fast operation (but less security) install with small A and small B values Make up bracket to suit A FIGURE 50. OPENING 90° OR LESS Ensure that the gate does not exceed the gate mass specifications on page 11. For gates opening more than 90° as A and B are shown.
For V400 (400mm operator) outward 1400mm extended 1000mm retracted FIGURE 53 Recommended positions (Only for a 2.5 metre gate or shorter) Gate swing angle A Value Gate opening angle 0° B Value 90° or less 173 191 100° 145 160 110° 120 130 120° 106 114 120° 60° 110° 100° 90° 80° 70° FIGURE 54 Alternative positions A and B must each be greater A+B should Up to 1.5 Up to 2 Up to 2.5 Up to 3 Up to 3.
For V500 (500mm operator) outward 1600mm extended 1100mm retracted FIGURE 55 Gate opening angle 0° Recommended positions (Only for a 2.5 metre gate or shorter) Gate swing angle A Value B Value 90° or less 222 246 100° 185 205 110° 155 170 120° 128 139 120° 60° 110° 100° 90° 80° 70° FIGURE 56 Alternative positions A and B must each be greater A+B should Up to 1.5 Up to 2 Up to 2.5 Up to 3 Up to 3.
11. Determine Gate Swing Angle Use this procedure to accurately determine the gate opening angle: Step 1 1. Close the gate and measure a distance of one metre from the centreline of the gate hinge. 2. Make a mark on the ground. FIGURE 57 Step 2 3. Open the gate and measure along the gate a distance of one metre from the centreline of the gate hinge. 4. Make a mark on the ground. 5. Measure the distance on the ground between the two marks (Z). 6.
12. Allowable Wind Load Wind speeds for which operator will still operate the gate (for V400 or V500 operators) For a 25% covered gate: (palisades, etc.) x 1.8 metre high Value of A or B dimension once installed Gate lengths: Up to 2.5 Up to 3 metres metres Up to 1.5 metres Up to 2 metres Up to 3.
13. Electrical Setup 1. Always check that the circuit breaker in the electrical panel is in the OFF position, and that all high-voltage circuits (more than 42.4V) are completely isolated from the mains supply before doing any work. 2. Ensure that all low-voltage systems (less than 42.4V) are suitably protected from damage, by disconnecting all sources of power such as chargers and batteries before doing any work. 3.
cable fatigue, or excessive tension on the cable, may cause the actuators to behave erratically or to stop operating altogether 4. Check that the charger and battery are connected to the controller. Ensure that the battery polarity is correct. 5. Switch on the mains supply (via isolator). Charger Battery 6. Ensure that both the controller and charger are effectively earthed for improved lightning protection. FIGURE 62 Setting the Limits 7. Check that the origin has been correctly set (see page 25).
Select the ‘Limits’ menu by pressing the enter button ( ). Follow the onscreen instructions to complete the setup procedure. When prompted to select the operator, always ensure that 'VECTOR' is selected.
14. Wiring Diagram for Closing Safety Beams Closing Safety Beams 12V/24V - 12V/24V + IRB Receiver COM NC NO 12V/24V + IRB Tx 12V/24V - FIGURE 66.
15. Wiring Diagram for Opening Safety Beams Opening Safety Beams 12V/24V - 12V/24V + IRB Receiver COM NC NO 12V/24V + IRB Tx 12V/24V - FIGURE 67.
16. Wiring Diagram for External Radio Receiver and Loop Detector Loop Loop and loop detector Loop detector 12V + 12V COM NC NO External radio receiver 12V + 12V COM NC NO Remote control circuitry Refer to diagram only if external receiver is being used and not the onboard receiver; disable onboard receiver - Menu 11 FIGURE 68.
17. Wiring Diagram for Other Inputs Solenoid or strike lock Holiday Lockout keyswitch/keypad (normally-closed) Pedestrian keyswitch/keypad (normally-open) Pillar Light pushbutton (normally-open) A U X Status LED FIGURE 69.
18. Wiring Diagram for Master Motor (MTRM) Thin purple Master Motor (MTR M) Thin blue / orange Thin red / grey Thin black Thick blue Thick black FIGURE 70.
19. Wiring Diagram for Slave Motor (MTRS) Thin purple Slave Motor (MTR S) Thin blue / orange Thin red / grey Thin black Thick blue Thick black FIGURE 71.
20. Charger and Pillar Light Connections Auxiliary supply 90V /220V E -240V AC N Mains in L Pillar Light LNE Protection fuse on mains input to charger (rating: 250mA slow blow) Neutral Live FIGURE 72.
21. Solar Panel Wiring + - Panel + - Battery + - Load 12V 0 - 30A regulator Solar panel + - Battery FIGURE 73.
22. Setting up Additional Features Figure 69 provides the full menu of features that can be set up on the system. An explanation of each feature is provided in the section ‘Controller Features’. When setting up the VECTOR2 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: 1. To get into Setup Mode, press the ( instructions provided from there. ) button for three seconds and follow the 2.
23. Menu Navigation Map 1. Setting limits 2. Safety 2.1. MTRM Collision Force 2.2. MTRS Collision Force 1.1. Setup wizard 2.1.1. MTRM Opening Collision Force 2.1.2. MTRM Closing Collision Force 2.2.1. MTRS Opening Collision Force 2.2.2. MTRS Closing Collision Force 2.3. Collision Count 3. 3.1. 3.2. 3.3. 3.4. Autoclose Autoclose Status Autoclose Timer Autoclose Override Autoclose Advanced options 4. Modes of Operation 4.1. Operating Mode 5. Run profile 5.1. Positive Close 3.4.1.
5.2 Leaf delay 2.1.1. Leaf Delay Status 2.2.1. Leaf Delay Value 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 6. IR Beams 6.1.PIRAC control 6.2.IR beam test 6.3.IRBO=IRBC on closing 6.4.IR beam Alarms 6.1.1. PIRAC status 6.1.2. Stop on open 6.1.2.1. Stop on open status 6.1.2.2. Stopping distance 6.2.1. Status 6.2.2. Test beam 6.4.1.
9. 9.1. 9.2. Courtesy Light Courtesy Light timer Light Profile 10. General settings 10.1. Operator 10.2. Operating Profile 9.2.1. 9.2.2. 9.2.3. 9.2.4. Courtesy Pre-flash Pre-flash Pre-flash 10.1.1. 10.1.2. 10.1.3. 10.2.1. 10.2.2. 10.2.3. Light A B C VECTOR VERT-X VANTAGE ZA CE UL325 10.3. Reset Options 10.3.1. Factory Default 10.3.2. Delete all remotes 10.3.3. Reset all 10.4. Diagnostic screen 10.4.1. 10.4.2. 10.5.1. 10.5.2. 10.5. Round test button 11.
24. Controller Features Menu 2 - Safety (Collision Force) 1. Collision Force If the gate is obstructed, the internal collision circuitry will activate. The response of the system to a collision will vary, depending on the Profile selected (Operating Standard, e.g. ZA). Responses can vary from the gate stopping, to the gate 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.
4.1. Autoclose on open - automatically close the gate if it has reached the fully open position 4.2. Autoclose on partly open - automatically close the gate if it is stopped while opening, but before reaching the fully opened position. 4.3. Autoclose on partly closed - automatically close the gate if it is stopped while closing, but before reaching the fully closed position. More than one advanced option can be selected.
3. Short Stop PCM applied to one gate is ideal for securely locking two gates to each other without having to fit endstops. Typically, a 'mechanical' lip is fitted to one gate which will push up against the other gate and via PCM keep pushing until the gates are mechanically locked. To ensure that the gates do not close past their desired end point, the Slave Gate against which the Master gate with the mechanical lip pushes, can be preset to stop slightly short of its closed position.
9. Pre-close Delay Allows a delay between a valid trigger signal being received and the gate commencing movement in the closing direction. The delay will also occur if the gate 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). This setting applies to both operators. 10.Opening Speed Sets the maximum piston opening speed in millimeters per second. This setting applies to both operators. 11.
Two independent normally-closed inputs are provided for Opening and Closing Safety Beams. An interrupted closing beam will prevent the gates from closing and stop and reverse the gates back to the open position if already opening. Vice-versa for an opening beam. Additional beam functionality is provided: 1. PIRAC Autoclose Outside Closing Beam The Passive-Infrared Autoclose feature allows the gate to close automatically, as soon as a vehicle or pedestrian has passed through the closing beam.
3. IR Beam Test (only compatible with i5 Safety Beams; not compatible with wireless Safety Beams). Automatically tests the Safety Beams before each gate cycle. (E.g. as required by CE.) In order for this feature to work, the power supply negative of the beam transmitter must be wired to the Safe Com terminal of the controller. 4. IRBO=IRBC Configures the opening beam to act as a closing beam while the gates are closing.
D.
Menu 8 - Gate Lock A solenoid strike lock or magnetic lock can be connected to the control card, allowing the gate to be locked when closed, open or both. 1. Lock enable status Turns the lock functionality on or off. 2. Lock type Allows selection of either a solenoid strike lock, or a magnetic lock. A solenoid strike unlocks when power is applied, while a magnetic lock unlocks when power is removed. 3.
1. Courtesy Light time The time that the Courtesy Light will remain activated can be set from four seconds to ten hours in one second increments. 2. Light profile The Courtesy Light can be selected to operate according to one of the following: A. Courtesy Light as explained earlier B.
Menu 11 - Remote Controls The controller is capable of learning up to 64 CENTURION code-hopping remote controls. Each remote control can have up to four buttons. Each remote control learned into the system is assigned a unique remote control ID. It is possible to artificially increase the number of buttons of a multibutton remote control 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.
B. Delete Remote Button The operation of a button of a particular remote control can be cleared. For example, it allows the Holiday Lockout function set on one remote button of a remote control to be cleared, without affecting the other operations that the same remote control performs. The remote control is required for this operation. C. Delete Remote by Button Use this procedure to remove the remote control from the system. All button functionality will be removed.
25.
South African Standard Profile - ZA (continued) Parameter Description Unit Minimum Default Maximum PED Open Distance % (Fully Open) 10 30 100 PED Autoclose Time Seconds 0 5 240 PED Pre-Open Delay Time Seconds 0 2 240 PED Pre-Close Delay Time Seconds 0 0 240 Gate Lock Enabled Gate Lock Type Yes/No No Magnetic/Striker Striker Gate Lock Pre-Release Time Seconds 0.1 0.024.0 24.0 Gate Lock Release Time Seconds 0.1 1.0 24.
CE Standard Profile Parameter Description Unit Minimum Default Autoclose Enabled Yes/No No Autoclose From Fully Open Yes/No Yes Autoclose From Partly Open Yes/No Yes Autoclose From Partly Closed Autoclose Time Autoclose Override Time Mode Of Operation Yes/No Maximum No Minutes/seconds 00:00 00:15 04:00 Seconds 2 3 15 S, R, C Standard Motor M Opening Force Level 1 3 Max (6) Motor M Closing Force Level 1 3 Max (6) Motor S Opening Force Level 1 3 Max (6) Motor S Closin
CE Standard Profile (continued) Parameter Description Unit Minimum Default Maximum PED Open Distance % (Fully Open) 10 50 100 PED Autoclose Time Seconds 0 5 240 PED Pre-Open Delay Time Seconds 0 2 240 PED Pre-Close Delay Time Seconds 0 0 240 Gate Lock Enabled Gate Lock Type Gate Lock Pre-Release Time Gate Lock Release Time Gate Lock Location Yes/No No Magnetic/Striker Maglock Seconds 0.0 Seconds 0.
UL325 Standard Profile Parameter Description Unit Minimum Default Autoclose Enabled Yes/No No Autoclose From Fully Open Yes/No Yes Autoclose From Partly Open Yes/No Yes Autoclose From Partly Closed Autoclose Time Autoclose Override Time Mode Of Operation Yes/No Maximum No Minutes/seconds 00:00 00:15 04:00 Seconds 2 3 15 S, R, C Standard Motor M Opening Force Level 1 3 Max (6) Motor M Closing Force Level 1 3 Max (6) Motor S Opening Force Level 1 3 Max (6) Motor S Clo
UL325 Standard Profile (continued) Parameter Description Unit Minimum Default Maximum PED Open Distance % (Fully Open) 10 50 100 PED Autoclose Time Seconds 0 5 240 PED Pre-Open Delay Time Seconds 0 2 240 PED Pre-Close Delay Time Seconds 0 0 240 Gate Lock Enabled Gate Lock Type Yes/No No Magnetic/Striker Maglock Gate Lock Pre-Release Time Seconds 0.0 0.0 24.0 Gate Lock Release Time Seconds 0.1 1.0 24.
26. Description of Terminal Functions S Sens1 Slave Motor (MTR S). Connects to the thin PURPLE wire of the Slave Motor. S Sens2 Slave Motor (MTR S). Connects to the thin BLUE or ORANGE wire of the Slave Motor. M Sens1 Master Motor (MTR M). Connects to the thin PURPLE wire of the Master Motor. M Sens2 Master Motor (MTR M). Connects to the thin BLUE or ORANGE wire of the Master Motor. Sens + Operator sensor power connection.
TRG Trigger input. (A normally-open potential-free input.) Momentarily connecting this input to Com will cause the gate to open or close depending on the operating mode selected. For more information see the Autoclose feature and Modes of Operation. PED Pedestrian Opening input. (A normally-open potential-free input.) Momentarily connecting this input to Com will cause one gate to open to the Pedestrian open position. For more information refer to the Pedestrian feature. FRX Free-exit input.
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 46 for fuse specifications. Batt + Positive battery connection. (Battery terminal normally indicated as + or RED) Batt - Negative battery connection. (Battery terminal normally indicated as - or BLACK) MTR M+ Master Motor power connection.
27. Diagnostics Diagnostic LEDs The controller is fitted with diagnostic lights (LEDs) that assist with the setup and maintenance of the gate.
LCD Display The LCD display shows useful information regarding the status of the system. FIGURE 84. CONTROLLER SCREEN 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.
Buzzer Feedback The VECTOR2 controller is equipped with an onboard buzzer which is used for various features and functions on the controller.
28. 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 AN AUTOMATED GATE! 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.
Notes
Notes
facebook.com/CenturionSystems YouTube.com/CenturionSystems 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) 0.07.A.0012_19052014 www.CentSys.
