Transcript
CP40 Installation Manual Revision 1.4
Cansec Systems Ltd.
October 2006
This manual is based on the latest information available to Cansec Systems Ltd. At the time of this document being printed. Technical support is available to authorized Cansec dealers by calling 905-820-2404 or via email at
[email protected].
Cansec Systems Ltd. 3105 Unity Drive, Unit #9, Mississauga, Ontario, Canada Tel: (905) 820-2404, Fax:(905) 820-0301, http://www.cansec.com
CP40 Installation Manual
Table Of Contents
Table of Contents 1.
Hardware Overview .......................................................................... 1-1 1.1 1.2 1.3 1.4 1.5 1.6 1.7
Wiegand Formats ................................................................................................. 1-1 Distributed Database............................................................................................ 1-1 Standard On-Board Inputs ................................................................................... 1-1 Standard On-Board Outputs................................................................................. 1-2 Auxiliary Supervised Input / Relay Output Board ............................................... 1-3 Optional Elevator Control.................................................................................... 1-3 PC to CP40 Communications .............................................................................. 1-3 1.7.1 1.7.2 1.7.3
1.8 1.9 1.10
2.
RS-485 (2-Wire) Multi-Drop Communications................................. 1-3 RS-422 (4-Wire) Multi-Drop Communications................................. 1-4 RS-422 (4-Wire) Daisy-Chain Communications............................... 1-4
CP40 Power Supply ............................................................................................. 1-4 CP40 Cabinet ....................................................................................................... 1-4 CP40 Specifications ............................................................................................. 1-6
Installation.......................................................................................... 2-1 2.1 2.2 2.3 2.4
Unpacking ............................................................................................................ 2-1 Mounting the CP40 .............................................................................................. 2-1 Connecting the Cabinet Tamper Switch .............................................................. 2-3 Installing an Input/Output Board (SIOPT-16) ..................................................... 2-3 2.4.1 2.4.2 2.4.3 2.4.4
2.5
Elevator Control Systems..................................................................................... 2-7 2.5.1
2.6 2.7 2.8 2.9
Configuring the Input/Output Board (SIOPT-16).............................. 2-4 Input Point Wiring ............................................................................. 2-4 Output Point Wiring........................................................................... 2-4 Input/Output Board Fire Alarm Release ........................................... 2-6
Elevator Configurations ..................................................................... 2-7
Connecting the Locking Devices ......................................................................... 2-8 Connecting Door Contacts and Exit Buttons ..................................................... 2-11 Connecting Wiegand Compatible Readers ........................................................ 2-13 Connecting the Fire Alarm Release and Reset Inputs........................................ 2-14
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2.10 2.11 2.12 2.13 2.14
Power Supply Inputs/Outputs and Battery Backup............................................ 2-15 Forced Entry, Door Held Open, Alarm Shunt Outputs...................................... 2-17 Comm Fail Output ............................................................................................. 2-18 Lithium Battery for Database and RTC ............................................................. 2-18 Communications ................................................................................................ 2-19 2.14.1 2.14.2
2.15 2.16 2.17 2.18 2.19 2.20 2.21 2.22 2.23
3.
Table Of Contents
RS-422 (4-Wire) Multi-Drop Communications............................... 2-20 RS-485 (2-Wire) Multi-Drop Communications............................... 2-20
Elevator System Settings and Communications Wiring ................................... 2-25 Remote CP40 Trunks Using Dial-Up Modems ................................................. 2-28 Spare On-Board Inputs and Outputs .................................................................. 2-30 Reader and Communication Grounding ............................................................ 2-31 Firmware Status LED......................................................................................... 2-32 Reader Data LEDs ............................................................................................. 2-32 Option Dip Switch (S2) ..................................................................................... 2-33 Upgrading Firmware .......................................................................................... 2-34 Multi-Drop Power Up Procedure....................................................................... 2-34
Troubleshooting ................................................................................ 3-1 3.1 3.2 3.3 3.4 3.5
Daisy-Chain Communication Problems .............................................................. 3-1 Multi-Drop Communication Problems ............................................................... 3-2 Reader Problems ................................................................................................. 3-3 Monitored Input / Relay Output Problems .......................................................... 3-4 Other CP40 Problems ......................................................................................... 3-4
Figures Figure 1: CP40 Cabinet.................................................................................................... 1-5 Figure 2: CP40 Board Layout .......................................................................................... 1-8 Figure 3: Mounting the CP40 Cabinet ............................................................................. 2-2 Figure 4: Cabinet LED Connector ................................................................................... 2-2 Figure 5: Cabinet Tamper ................................................................................................ 2-3 Figure 6: Mounting the Input/Output Board ................................................................... 2-4 Figure 7: Input / Output Board Layout............................................................................. 2-5 Figure 8: Input Point Wiring............................................................................................ 2-5 Figure 9: Output Point Wiring ......................................................................................... 2-6 Figure 10: I/O Board Fire Alarm Release ........................................................................ 2-7 Figure 11: Typical Elevator Configuration ...................................................................... 2-8 ii
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Figure 12: Connecting 12V Magnetic Locks, < 400 ma.................................................. 2-9 Figure 13: Connecting Electric Strikes, >12V or 400 ma................................................ 2-9 Figure 14: Connecting 12V Electric Strikes, < 400ma .................................................. 2-10 Figure 15: Connecting Magnetic Locks, >12V or 400 ma............................................. 2-10 Figure 16: Door Contact Wiring .................................................................................... 2-11 Figure 17: Enabling Door Contact and Exit Button Inputs............................................ 2-12 Figure 18: Exit Button Wiring ....................................................................................... 2-12 Figure 20: Connecting Wiegand Compatible Readers................................................... 2-13 Figure 21: Wiegand Reverse Switch Setting ................................................................. 2-14 Figure 22: Enabling Fire Alarm Release and Reset ....................................................... 2-15 Figure 23: Power and Battery Connections ................................................................... 2-16 Figure 24: Comm Fail Output & Lithium Battery Jumper ............................................ 2-18 Figure 25: Location of Communication Jumpers, Switches, Connectors, LEDs........... 2-19 Figure 26: Hexadecimal Conversions ............................................................................ 2-20 Figure 27: RS-422 Multi-Drop Settings ....................................................................... 2-21 Figure 28: RS-422 Multi-Drop Wiring using CLAUSB................................................ 2-21 Figure 29: RS-485 Multi-Drop Settings ........................................................................ 2-22 Figure 30: RS-485 Multi-Drop Wiring using CLA-50 .................................................. 2-22 Figure 31: RS-485 Multi-Drop Wiring using CLAUSB................................................ 2-23 Figure 32: RS-485 Multi-Drop Wiring using CANLAN............................................... 2-24 Figure 33: Configuring the 16 Floor Elevator Board..................................................... 2-25 Figure 34: CP40 Jumper Settings for 32-64 Floor Elevator Control ............................. 2-26 Figure 35: 32-64 Floor Elevator Controller Layout and Power Inputs .......................... 2-26 Figure 36: CP40 To 32-64 Floor Elevator Controller Communications Wiring ........... 2-27 Figure 37: Remote Dial-Up Configuration and Wiring ................................................. 2-29 Figure 38: Supervised Spare Input Wiring..................................................................... 2-30 Figure 39: Spare Output Wiring..................................................................................... 2-31 Figure 40: Reader & Communication Grounding.......................................................... 2-31 Figure 41: Firmware Status LED ................................................................................... 2-32 Figure 42: Reader Data Leds.......................................................................................... 2-32 Figure 43: Option Dip Switch........................................................................................ 2-33
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1.
Hardware Overview
Hardware Overview Cansec's CP40 Access Control Panel provides a cost-effective means of providing the ultimate in security management. Each CP40 can support up to two Card Readers including two card reader/keypad combinations for high security applications, Touch Access Readers, as well as many other popular Reader technologies such as: WIEGAND
PROXIMITY
BARIUM FERRITE
BAR CODE
BIOMETRIC
RADIO FREQUENCY
INFRARED
The CP40 Access Control Panel is also backwards compatible with Cansec’s CP30 Access Control Panel.
1.1
Wiegand Formats The CP40 supports Cansec’s proprietary Wiegand format as well as any reader technology with a standard 26 bit Wiegand Output as defined by the specifications written by Sensor Engineering Ltd. For support of other custom Wiegand formats, contact Cansec Systems Ltd.
1.2
Distributed Database The CP40 database is downloaded from a PC running Cansec's Windows Based Maestro or DOS & OS/2 Based PassMaster Software packages. The CP40's backed-up memory ensures that the panel will retain all downloaded data in the event of a power or communication failure. CP40's can support up to 65,000 user (card) identification numbers depending on the capacity of the host software. Since all access control decisions are made locally, the response time at the readers is minimal.
1.3
Standard On-Board Inputs Door Contact Inputs (one per reader): This input can be enabled to monitor Supervised, Normally Closed door contact inputs. This input is used to monitor “Forced Entry” and “Door Held Open” alarm states as well as “Door Contact Status”. Optionally, by replacing a firmware chip, this input may be Supervised, requiring a Cansec End-of-Line Resistor pack (Part # EOLRES). The EOL Resistor Pack should be installed as close to the Exit Button device as possible for security reasons. Exit Button Inputs (one per reader): This input requires a momentary closure from a NORMALLY OPEN switch to activate a Request to Exit command, which in turn activates the Lock Output and Alarm Shunt Output. Optionally, by replacing a firmware chip, this input may be Supervised, requiring a Cansec End-of-Line Resistor pack (Part # EOLRES). The EOL Resistor Pack should be installed as close to the Exit Button device as possible for security reasons.
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Cabinet Tamper Input (one per panel): This NORMALLY CLOSED input can be enabled to monitor the CP40 Cabinet Tamper Switch. The Tamper Switch is provided and mounted on each CP40 cabinet. Fire Alarm Release Input (one per panel): This NORMALLY CLOSED input can be enabled to monitor an alarm condition from a Fire Alarm panel so that power to the readers and locks will drop off when a fire alarm station is activated. Fire Alarm Reset Input (one per panel): If this feature is enabled and a Fire Alarm Release has occurred, a momentary closure must be applied to restore power to the reader and lock outputs. If the Fire Alarm Reset is disabled or the input is shunted, power to the readers and locks will be restored when the Fire Alarm Release Input returns to a closed state. Spare Supervised Inputs (two per panel): The CP40 is equipped with two spare supervised inputs that may be used for point monitoring. These inputs require a Cansec End-of-Line Resistor pack (Part # EOLRES). Note: These spare inputs are not available: 1) When the SIOPT-16 Auxiliary I/O Board is installed 2) In a dial-up configuration
1.4
Standard On-Board Outputs Lock Outputs (one per reader): This output provides either a dry contact output, Normally Open or Normally Closed, or 12VDC @ 400 mA max to the locking device for each reader. Since the 12VDC outputs are supplied through on-board relays, Normally Open or Normally Closed connections are available to accommodate electric strikes or magnetic locks. Lock output relays are rated at 8 Amp, 24VDC. Tamper/Forced Entry Outputs (one per reader): This is a dry contact "Form C" relay output that can be activated by any of the following conditions: 1.
The Cabinet Tamper Input is opened. (Both reader “A” and “B” Tamper relays are activated)
2.
A Reader Tamper occurs indicating that the reader has removed or pulled out from its mounted location. This feature requires that a switch be installed and connected at the reader location in the reader back box. (The associated Tamper relay is activated)
3.
A Door Contact Input is opened without access being granted with a card or by providing a momentary closure to the Exit Button Input. (The associated Forced Entry relay is activated)
Door Held Open Outputs (one per reader): This is a dry contact "Form C" relay output that will activate if the door is held open longer than the software programmable time. Alarm Shunt Outputs (one per reader): This is a dry contact "Form C" relay output that will activate when a user is granted access by either using a card or by providing a momentary closure to the Exit Button Input. This output may be used for shunting external alarm points.
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Hardware Overview
5VDC Output (one per panel): This is an auxiliary output of 5VDC @ 300 mA max. Communication Fail Output (one per panel): This is a dry contact "Form C" relay output that will activate when communications to the host PC is lost for greater than 30 seconds. Spare Open Collector Outputs (two per panel): The CP40 is equipped with two spare open collector outputs. Note: These spare outputs are not available for use in the following situations: 1) When the SIOPT-16 Auxiliary I/O Board is installed 2) In a dial-up configuration.
1.5
Auxiliary Supervised Input / Relay Output Board To further enhance the controller's capabilities, an optional SIOPT-16 Input / Output Module may be added to include Supervised Input Point Monitoring and Output Control. This optional board is not required for monitoring door contacts on doors with access control readers installed, as dedicated door contact inputs are available on the CP40 controller. The SIOPT-16 board may be added at any time by installing the module in the same cabinet as the CP40.
1.6
Optional Elevator Control Elevator Control Systems are also available in 16, 32, 48, or 64 Floor configurations. For 16 floor configurations, an additional elevator output module is mounted on top of the CP40 board. When 32 to 64 floor configurations are required, an additional cabinet containing the required elevator output modules is supplied. When a valid card is presented and granted access to any floors, the corresponding Elevator Relay Outputs will turn ON momentarily. These outputs are interfaced with the elevator manufacturers control system that in turn enables the floor buttons. Floors can also be programmed with “Floor Unlock Schedules” to allow free access during the times specified in the schedule.
1.7
PC to CP40 Communications Note: RS-485 (2-Wire) Multi-Drop Communications recommended for new installations. The CP40 controller can be configured to communicate in either (2) two wire RS-485 or (4) wire RS-422 protocols with up to (16) sixteen controllers on each communications trunk. The number of communication trunks supported depends on the software package being used. If only one panel is required, RS-232 (3) wire communications may be used. See Section 2.15 for communication wiring.
1.7.1 RS-485 (2-Wire) Multi-Drop Communications Panel addresses are set on the panel using a 16 position rotary switch. This configuration should be used for new installations.
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1.7.2 RS-422 (4-Wire) Multi-Drop Communications Panel addresses are set on the CP40 panel using a 16 position rotary switch. This configuration is supported for backwards compatibility with CP30 RS-422 Multi-Drop installations.
1.7.3 RS-422 (4-Wire) Daisy-Chain Communications Panel addresses determined by the order in which the panels are connected. This configuration is supported for backwards compatibility with CP30 RS-422 Daisy-Chain installations.
1.8
CP40 Power Supply Either an AC or DC power source can power the CP40. AC Input: DC Input: Battery Backup: Battery Charger: Battery Test: Auto Shutdown:
1.9
Requires a 16VAC/40VA or 75VA Transformer (use 75VA if using I/O Board) Requires a 12VDC/3A Power Supply When using an AC power source, connect a 12VDC lead acid battery to the CP40. On-board current limited battery charger Battery test runs twice a day to ensure battery reliability CP40 will shutdown when power is below a set limit to prevent erratic behaviour and possible data corruption
CP40 Cabinet The CP40 Cabinet is equipped with a factory installed Keylock and Tamper Switch. There are two power indicator LEDs are mounted on the cabinet to indicate the presence of 12VDC and 5VDC. Total maximum weight of cabinet is 18.5 Lbs / 8.4 Kg.
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Figure 1: CP40 Cabinet
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1.10 CP40 Specifications Power Requirements: ............................................... 16VAC, 40VA, 60HZ or a 12VDC / 3A power supply Power Dissipation: ................................................................... 18 Watts - AC Supply, 8 Watts - DC Supply Current Draw: CP40 (no readers/locks) .........................................................................400 mA Maximum CP40 (with I/O or Elevator board) .........................................................600 mA Maximum Locking Devices (each lock) ............. 400 ma. Maximum when powering from lock output Other readers ............................................................ Consult Manufacturers Specifications Temperature Range: Operating ........................................................................................................ 0° to +70° C Storage ...................................................................................................... - 40° to +70° C Operating Relative Humidity (non-condensing): .................................................................... 20% to 80% Storage Relative Humidity (non-condensing): ........................................................................ 20% to 80% CP40 Cabinet Dimensions: ................................................................. 13 1/8"(W) x 19 3/8"(H) x 3 5/8"(D) Total Max. Weight of CP40 Unit: .................................................................................. 18.5 Lbs./...8.4 Kg. 32-64 Floor Elevator Control Cabinet Dimensions: ........................................ 24" (W) x 24" (H) x 9" (D) Total Max. Weight of 32-64 Floor Elevator Control Unit: ................................. approx. 70 Lbs./31.8 Kg. Battery Backup: Battery ................................................................. Optional, use 12VDC Lead Acid Battery Battery Charger .......................Current Limited, allows 2.5Amps for CP40 and all devices Battery Test ........................... Runs twice a day for one minute to ensure battery reliability Fuses: Main 12V Supply ..................................................................................................... 3 AMP Auxiliary 5V Supply .............................................................................................. 1/2 AMP Battery Circuit .......................................................................................................... 3 AMP Reader "A", 12VDC Lock Output and Reader Supply ............................................ 1 AMP Reader "B” 12VDC Lock Output and Reader Supply ............................................. 1 AMP Output Relays: Lock (2 per Panel) .................................. jumper selectable for 12VDC out or dry contact ............................................................................. SPDT 8A @ 24VDC Communication Fail ........................................................................... SPDT 2A @ 28VDC Alarm Shunt, Door Held Open, Forced Entry (2 each Per Panel), I/O Board (Output) ........................................................................... SPDT 2A @ 28VDC Door Contact Inputs (2 per Panel): ............................................. Supervised, normally closed door contact (Optionally supervised, Cansec end-of-line resistor pack required)
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Hardware Overview
Exit Button Inputs (2 per panel): ....... Powered circuits (5V), normally open, momentary closure required (Optionally supervised, Cansec end-of-line resistor pack required) Communication Cable Requirements: RS-232 Cable: ............................... 3 Conductors Stranded, Overall Shield, 18 to 22 AWG RS-232 Cable Lengths: ................................................................ (22 AWG.) 150 Ft. Max. (20 AWG.) 200 Ft. Max. (18 AWG.) 250 Ft. Max. RS-485 Multi-Drop Cable: .......................... 1 Twisted Pair, Stranded, Shielded, 22 AWG RS-422 Multi-Drop Cable: .............2 Twisted Pair, Stranded, Individual Shield, 22 AWG RS-485/422 Multi-Drop Configuration: ....................... Total Trunk Length 2000 Ft. Max. Cansec Manufactured Reader Cable Requirements: AKP-200 Keypad Interface to CP40: 3 Twisted Pair, Stranded, Ind. Shielded, 22 AWG AKP-200 Keypad Interface Cable Length: .................................................. 2,000 Ft. Max. Note: When using AKP200 Keypads or interface, you must configure the ......................... Wiegand Output Readers: ................ 4 to 7 Conductor, Stranded, Overall shield, 20 AWG Wiegand Output Reader Cable Length: ......................................................... 500 Ft. Max. Note: The number of conductors for Wiegand compatible readers depends on the reader and installation requirements. At a minimum, four conductors are required for power and data. For LED control on Dual-Line LED readers, two (2) additional conductors are required, whereas one (1) additional conductor is required for Single-Line LED Readers. Another conductor may also be required for Sonalert control by the CP40 for annunciation of Forced Entry and Door Held Open alarms as well as other audible indicators used for Access Granted & Access Denied conditions......................................... Other Wiegand Compatible Readers: .................... Same cable requirements as Cansec Wiegand Readers Cotag Readers and Controllers: 090-2 RH and 280-2 Readers to 5311: . 3 Twisted Pair, Stranded, Ind. Shielded, 22 AWG ................................................................. Up to 200 meters 090-2 RH and 280-2 Readers to CP40: .........................1 Pair, 22 AWG (for LED control) 5311 to CP40: ......................................... 4 Conductor, Stranded, Overall shield, 20 AWG 5311 to 270 Loop Coupler: ................... 2 Twisted Pair, Stranded, Ind. Shielded, 22 AWG 5280 to CP40: ........................................ 7 Conductor, Stranded, Overall shield, 20 AWG 5470 to CP40: ......................................... 6 Conductor, Stranded, Overall shield, 20 AWG 5470 to Door Contact: ............................................................................... 1 Pair, 22 AWG Loop Wire: ................................................................................single core, 16 or 18 AWG Input/Output Point Wiring: .......................................................... 22 AWG wire to a maximum of 2,000 ft.
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Figure 2: CP40 Board Layout
OPTION DIP SWITCH
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Installation
Installation This section provides complete installation instructions for installing and configuring CP40 Access Control Panels in RS-485 Multi-Drop, RS-422 Multi-Drop, and RS-422 Daisy-Chain configurations. Both RS-422 methods would primarily be used to “add-on” to existing CP30 installations.
2.1
Unpacking The CP40 enclosure will contain a cardboard cutout that holds the CP40 circuit board securely for shipping. An auxiliary board and a power supply may also be secured in the cutout if ordered. Also, a plastic bag containing all screws and connectors will be attached to the cutout.
CAUTION:
2.2
BEFORE REMOVING CIRCUIT BOARDS FROM THEIR ANTI-STATIC BAGS, ALWAYS TOUCH AN EARTH GROUND TO REMOVE THE ELECTROSTATIC CHARGE FROM YOUR BODY. IT IS HIGHLY RECOMMENDED THAT WHEN HANDLING ANY CIRCUIT BOARDS CONTAINING CMOS DEVICES, STATIC STRAPS SHOULD BE WORN AND CONNECTED PROPERLY TO EARTH GROUND.
Mounting the CP40 The CP40 should be mounted in a secured area with consideration given to the maximum cable lengths to the readers and for communications.
1.
Drill two holes corresponding to the top two mounting holes as shown in Figure 3.
2.
Insert #8 screws half way into the holes. Use anchors if necessary.
3.
Hang the CP40 cabinet on the two screws, and then tighten them.
4.
Drill the bottom two holes and secure the cabinet with two screws.
5.
After ensuring that you are properly grounded, remove the CP40 circuit board from the anti-static bag. Align the mounting holes on the CP40 with the mounting studs on the cabinet and fasten with the screws provided.
6.
Plug the cabinet LED connector into JP40 as shown in Figure 4.
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Installation Figure 3: Mounting the CP40 Cabinet
Figure 4: Cabinet LED Connector
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2.3
Installation
Connecting the Cabinet Tamper Switch Each CP40 cabinet is equipped with a tamper switch located at the top right corner of the cabinet. Cut the wire loop connected to the switch and connect the two ends to the Cabinet Tamper Input as shown in Figure 5. This is a Normally Closed input and must be enabled as shown.
Figure 5: Cabinet Tamper
2.4
Installing an Input/Output Board (SIOPT-16) 1.
Remove the Input/Output board from the anti-static bag. With the power to the CP40 disconnected, connect the I/O board ribbon cable and power cable as shown in Figure 6.
2.
Snap the supplied plastic stand-offs into the mounting holes on the CP40. Then align the mounting holes on the Input/Output board and push down to snap the board into place.
3.
Enable the I/O board via the CP40 Option Dip Switch. See Section 2.24 for location of Option Dip Switch.
Note: For changes to the Option Dip Switch to take effect, a RESET must be performed by either pressing the RESET switch or by powering up the unit.
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Figure 6: Mounting the Input/Output board
2.4.1 Configuring the Input/Output Board (SIOPT-16) The SIOPT-16 points can be configured via jumpers as either Supervised Inputs or dry contact relay Outputs. The supervised Inputs require that a Cansec end-of-line resistor pack be connected with a NORMALLY CLOSED contact at the end of the line. See Figure 7 for the board layout and jumper settings. See sections 2.4.2 and 2.4.3 for point wiring.
2.4.2 Input Point Wiring All Input points must use Cansec end-of-line resistor pack as shown in Figure 8.
2.4.3 Output Point Wiring Output points are dry contact relay outputs that may be configured as NORMALLY OPEN or NORMALLY CLOSED. To operate any device in which has an inductive load (coil) that is powered from a DC source, you must install a 1N4001 or 1N4002 series diode (or equivalent) in parallel across the coil terminals as shown in Figure 9. Output relays are rated at: 2A, 30VDC. Note:
If you do not connect a diode as described, you will have erratic operation and will eventually damage the unit. Switching of 110VAC is not recommended for safety reasons. Another relay should be used to isolate the AC from the unit.
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Figure 7: Input/Output Board Layout (Fire Alarm Input not UL or ULC Rated)
Figure 8: Input Point Wiring
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Figure 9: Output Point Wiring
2.4.4 Input/Output Board Fire Alarm Release (I/O Board Fire Alarm Release not UL or ULC listed)
The 12VDC relay power on the I/O board can be controlled in conjunction with the CP40 or can be controlled solely through the SIOPT-16 Fire Alarm Release Input, JP6. To control the I/O Board’s Fire Alarm Release through the CP40's Fire Alarm Release Input, set the jumper on the CP40 labeled “I/O FAR” (JP56) to “ON”. This jumper is located to the left of the “Reader B” fuse (see Figure 10). Keep the Fire Alarm Release on the I/O Board (JP6) shorted. When the Fire Alarm Release is “opened” on the CP40, the 12VDC will be removed from the I/O board and the output states will change to the opposite of their normally open or closed jumper settings. To control the I/O Board’s Fire Alarm Release Separately from the CP40's Fire Alarm Release, set the jumper on the CP40 labeled “I/O FAR” (JP56) to “OFF”. This jumper is located to the left of the “Reader B” fuse (see Figure 10). Keep the Fire Alarm Release on the I/O Board (JP6) closed or control the Normally Closed Input (JP6) from another device. When JP6 on the I/O Board is “opened”, the 12VDC will be removed from the I/O board and the output states will change to the opposite of their normally open or closed jumper settings.
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Figure 10: I/O Board Fire Alarm Release (I/O Board Fire Alarm Release not UL or ULC listed)
2.5
Elevator Control Systems Elevator Control Systems are available in 16, 32, 48, and 64 floor configurations. One (1) Elevator Control System is required for each elevator cab with one (1) reader port available for use inside the elevator. Dry contact relay outputs are provided from the Elevator System to interface with the elevator manufacturers system. The second reader port on the CP40 (Reader “B”) may only be used as a “Lobby Call-Down Reader” that will activate its lock output when used by a cardholder with access to at least one (1) floor. The lock output can then be used to initiate a call-down to the elevator manufacturer’s system. Programming and transactions are not available for “Reader B” on an elevator configuration.
2.5.1 Elevator Configurations If you are installing a 16 Floor Elevator Control System, the Elevator Control Board (SIOPT-16) must be installed directly on top of the CP40 as per Figure 6 on page 2-4. If you are installing either a 32, 48, or 64 Floor System, the Elevator Control Systems are comprised of two (2) units. In this case the Elevator Boards (SIOPT-16) are connected to an Interface board mounted in the 2nd cabinet. The Interface board communicates to an RS-422 (4 wire) communications port on the CP40 in the 1st cabinet. See Section 2.15 for communication wiring. The Elevator Outputs should be configured as NORMALLY OPEN (See Figure 7, page 2-5). To disable access control and activate all floor selection buttons in the elevator cab on Fire Alarm: 16 Floor Configuration: See section 2.4.4 32-64 Floor Configuration: connect JP6 (See Figure 7 on page 2-5) on each Elevator Control Board (SIOPT-16) to the normally closed output of the Fire Alarm panel. When connecting the Fire Alarm Release Inputs in parallel to the Fire Alarm Panel’s output, maintain polarity on JP6 of each SIOPT-16 board.
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Figure 11: Typical Elevator Configuration
Travel Cable: For Wiegand readers, use 5 to 7 conductor, #18 AWG, overall shield (max. 500 ft.) Contact elevator manufacturer for installation of Travel Cable.
2.6
Connecting the Locking Devices This output provides either a dry contact relay output, Normally Open or Normally Closed, or 12VDC @ 400 mA maximum to the locking device for each reader. Since the 12VDC outputs are supplied through on-board relays, Normally Open or Normally Closed connections are available to accommodate electric strikes or magnetic locks. Lock output relays are rated at 8 Amp, 24VDC. See the following figures for configuration and wiring. Note:
You must consult the local fire authorities before connecting any card readers or locking devices to fire exit doors.
LED Indicators: Each Lock Output has an LED indicator (located next to the Lock Output terminal) that turns ON to provide a visual indication that the lock output is activated. Reader “A”: LED7, Reader “B”: LED15
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Figure 12: Connecting 12V Magnetic Locks, < 400 mA
Figure 13: Connecting Electric Strikes, >12V or 400 mA
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Figure 14: Connecting 12V Electric Strikes, <400 mA
Figure 15: Connecting Magnetic Locks, >12V or 400 mA
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2.7
Installation
Connecting Door Contacts and Exit Buttons Door Contacts: To monitor Forced Entry or Door-Held-Open alarm conditions, connect NORMALLY CLOSED door contacts to the door contact inputs. Door Contact inputs must be “Enabled” via jumpers JP23 (Reader “A”) and JP52 (Reader “B”) as shown (see Figure 17) to monitor alarm conditions. Exit Buttons:
To activate a “Request-to-Exit” command that in turn activates the Lock Output and Alarm Shunt Output, connect a NORMALLY OPEN MOMENTARY switch to each exit button input. You must also enable exit button operation on each door by turning ON switch positions 2 (Reader “A”) and 5 (Reader “B”) on switch S5 (see Figure 17). If an exit button input is held in a closed state, only one “Request-to-Exit” command will be initiated. This “one-shot” approach is implemented to prevent vandals from keeping the Exit Button closed, therefore maintaining an unlocked state on the door.
Note:
It is important to note that both the Door Contact and Exit Button Inputs are 12V pull-down circuits. Only connect dry contact devices to these inputs. Failure to do so may cause erratic operation and possibly damage the CP40.
Figure 16: Door Contact Wiring
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Figure 17: Enabling Door Contact and Exit Button Inputs
Figure 18: Exit Button Wiring
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2.8
Installation
Connecting Wiegand Compatible Readers Wiring applies to all Wiegand compatible readers with a standard 26 bit or Cansec 37 bit format. Connect and configure the readers as shown in Figure 20. For support of other custom Wiegand formats, contact Cansec Systems Ltd. Note: The number of conductors for Wiegand compatible readers depends on the reader and installation requirements. At a minimum, four conductors are required for power and data. For LED control on DualLine LED readers, two (2) additional conductors are required, whereas one (1) additional conductor is required for Single-Line LED Readers. Another conductor may also be required for Sonalert control by the CP40 for annunciation of Forced Entry and Door Held Open alarms as well as other audible indicators used for Access Granted & Access Denied conditions. Warning: The jumper settings for reader power are set to 12V by default. Check the documentation that came with the reader before connecting to the CP40. Connecting a 5V reader to 12V will damage the unit. All Cansec manufactured readers will operate at 12V.
Figure 20: Connecting Wiegand Compatible Readers
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Connecting Wiegand Compatible Readers (contd.) When connecting certain types of Wiegand compatible readers, it may be necessary to read the data in reverse. For example, the Sensor Wiegand Reader (Insert Version) reads the card data when removing the card that then transmits the data in reverse to the host controller. In this case or with other readers that transmit in a reverse direction, switch S5 must be set as shown in Figure 21.
Figure 21: Wiegand Reverse Switch Setting
2.9
Connecting the Fire Alarm Release and Reset Inputs (Fire Alarm Release and Reset not UL or ULC listed) Fire Alarm Release Input:
Connect a normally closed dry contact output from a Fire Alarm Panel so that power to the lock outputs will drop off in the event of a fire. To ENABLE the Fire Alarm Release, move JP62 to pins 2-3 as shown in Figure 22.
Fire Alarm Reset Input:
When JP63 is ENABLED (Pins 2-3) and a Fire Alarm Release has occurred, a momentary closure must be applied to the Fire Alarm Reset Input to restore power to the lock outputs. When JP63 is DISABLED (Pins 1-2) and a Fire Alarm Release has occurred, power to the lock outputs will be returned once the Fire Alarm Release Input is closed. See Figure 22.
Control of I/O Board:
When JP56 is set to ON; the CP40 will control the I/O Board Fire Alarm Release circuit. When JP56 is set to OFF, the I/O Board Fire Alarm Release circuit is independently controlled via its own Fire Release input. For CP40 control, the Fire Input on the I/O board must be shorted.
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Figure 22: Enabling Fire Alarm Release and Reset (Fire Alarm Release and Reset not UL or ULC listed)
2.10 Power Supply Inputs/Outputs and Battery Backup Power Supply Inputs: The CP40 may be powered from either an AC or DC power source (not both). AC Supply: Use a 16V, 40VA transformer connected to JP59. DC Supply: Use a 12V, 3A supply connected to JP60 (Cansec PS123A Supply recommended) Battery Charger: You may connect a 12V lead acid re-chargeable battery to the battery terminals provided. Note: Only the AC input will charge the battery. If the DC input is used, the battery circuit does not function, thus you will have to connect the battery to the DC supply (if battery backup is desired). Caution: Watch polarity when connecting the battery to the CP40. Battery Test: A battery test is performed at 10:00 am and 6:00 pm. During these times, the CP40 will run from battery power for one (1) minute. If during this time the battery level drops below a preset value, a message will be transmitted to the host PC (not supported in PassMaster and some versions of Maestro) host software may) If you are connecting a battery to the CP40 (“To Battery” connectors), set JP46 to ON to enable battery testing. If a battery is not connected to the CP40, set JP46 to OFF to disable battery testing, otherwise the test will fail. See Figure 23 for location of JP46.
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Automatic Shutdown: When a battery is connected to the CP40 and a power failure occurs, the CP40 will automatically shutdown when the battery voltage drops below 7.5V. This feature prevents data corruption from occurring on the CP40 due to low voltage. 5VDC Auxiliary Output: JP58 provides 5VDC @ 300 mA maximum. 12VDC AKP100/200 Keypad Output: JP5 provides 12VDC for connecting the Cansec AKP100/200 series keypads.
Figure 23: Power and Battery Connections
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2.11 Forced Entry, Door Held Open, Alarm Shunt Outputs Each reader port on the CP40 is equipped with three relay outputs for Forced Entry, Door Held Open, and Alarm Shunt. Each relay provides a dry contact, SPDT 2A @ 28VDC maximum. Door contacts must be connected to the CP40 door contact input(s) and enabled to monitor for “forced entry” and “door held open” alarm conditions. An LED is located near each output on the CP40. Tamper/Forced Entry Output: Forced Entry:
If the door contact is forced open without either a valid “Access Granted” or Exit Button transaction, a Forced Entry Alarm occurs and this output will be activated. A message will also be transmitted to the host if the panel is on-line.
Tamper:
A reader tamper alarm can be created if pin 1 and pin 8 are shorted together. Connect a NORMALLY OPEN switch in the back box of the reader that shorts out pins 1 and 8 on the reader port. If someone pulls the reader from the wall, the switch will close and activate this output.
Door Held Open Output:
If a cardholder is granted access by either card or exit button usage and the door is held open longer than the Door Held Open time programmed from the host PC, a Door Held Open Alarm occurs and this output will be activated. A message will also be transmitted to the host if the panel is on-line.
Alarm Shunt Output:
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This output will activate when a user is granted access by using a card or exit button. This output may be used to bypass external alarm points.
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2.12 Comm Fail Output JP21 is a dry contact relay output that will activate when communications to the CP40 is lost. The main function of this output is to provide a means of local annunciation. See Figure 24 for location of JP21.
2.13 Lithium Battery for Database and RTC JP25 controls the attachment of power from the on-board lithium battery to the database and real time clock circuitry. The jumper is set to “OFF” by default for shipping and storage and should be set to “ON” after installation to maintain the integrity of the database and real time clock. See Figure 24 for location of JP25.
Figure 24: Comm Fail Output & Lithium Battery Jumper
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2.14 Communications Note: RS-485 (2-Wire) Multi-Drop Communications recommended for new installations. The CP40 can be configured to communicate in either (2) two wire RS-485 or (4) wire RS-422 protocols with up to (16) sixteen controllers on each communications trunk. The number of communication trunks supported depends on the software package being used. See Section 2.15.1 to 2.15.3 for the various communication configurations and wiring diagrams. See Figure 25 for location of communication connectors, indicators, jumpers, and switches.
Figure 25: Location of Communication Jumpers, Switches, Connectors, LEDs
Communication LEDs: These are bi-coloured LEDs that will flash between RED and GREEN when communications are active on the corresponding port. RED indicates that the panel is receiving while GREEN indicates the panel is transmitting.
Address Switch:
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CH1 LED:
This LED will indicate communications on CH1. This port is only used for Daisy-Chain communications (CP30 mode only), or to 32-64 floor elevator controllers, or to Cansec’s AKP series keypads.
CH2 LED:
This LED will indicate communications on CH2 that is used on all configurations.
The 16 position rotary switch (see Figure 25) is used to set the address when the panel is configured for multi-drop operation. The switch is labeled in Hexadecimal (0 to F); where 1=Panel# 1 and 0=Panel #16 (see Figure 26).
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Figure 26: Hexadecimal Conversions Switch Position (Hexadecimal) 1 2 3 4 5 6 7 8
2.14.1
Panel Number 1 2 3 4 5 6 7 8
Switch Position (Hexadecimal) 9 A B C D E F 0
Panel Number 9 10 11 12 13 14 15 16
RS-422 (4-Wire) Multi-Drop Communications
The 16 position rotary switch, S1, determines panel addresses. This configuration is supported for backwards compatibility with existing 4-Wire Multi-Drop installations. See Figures 27 and 28 for wiring, jumper, and switch settings. If you are installing a new system, you should use the RS-485 (2-Wire) Multi-Drop configuration. See Section 2.15.3 and Figures 29, 30, and 31.
2.14.2
RS-485 (2-Wire) Multi-Drop Communications
The 16 position rotary switch, S1, determines panel addresses. This configuration should be used for new installations. See Figures 29, 30, and 31 for wiring, jumper, and switch settings.
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Figure 27: RS-422 Multi-Drop Settings
Figure 28: RS-422 Multi-Drop Settings Using CLAUSB
OPEN THE METAL CASE OF THE CLAUSB AND SET JUMPERS AS SHOWN
RS-422
TO USB PORT (CABLE SUPPLIED)
SHIELD
USB 6 5 4 3 2 1 DIPSWITCH SETTINGS
PWR RxD TxD
ON
CP30 JP19 OR CP40 JP2
TO OTHER PANELS
1 2 3 4
SW
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Serial
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Figure 29: RS-485 Multi-Drop Settings
Figure 30: RS-485 Multi-Drop Wiring Using CLA-50
12V POWER SUPPLY (SUPPLIED)
GND B A
SHIELD
CP30 JP19 OR CP40 JP2
TO OTHER PANELS
PC SERIAL PORT DB9 (CABLE SUPPLIED)
RS-485
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Figure 31: RS-485 Multi-Drop Wiring Using CLAUSB
RS-485
TO USB PORT (CABLE SUPPLIED)
SHIELD
USB 6 5 4 3 2 1 DIPSWITCH SETTINGS
PWR RxD TxD
ON
CP30 JP19 OR CP40 JP2
TO OTHER PANELS
1 2 3 4
SW
Serial
FOR RS-485 COMMUNICATIONS, DO
NOT CHANGE THE JUMPER SETTINGS INSIDE THE CLAUSB. USE FACTORY
DEFAULT (SHOWN RIGHT). VERIFY THESE JUMPERS SETTINGS FOR TROUBLESHOOTING PURPOSES ONLY.
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Figure 32: RS-485 Multi-Drop Wiring Using CANLAN
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2.15 Elevator System Settings and Communications Wiring 16 Floor elevator control systems can be implemented on any configuration, i.e. RS-422 Daisy-Chain, RS-422 Multi-Drop, or RS-485 Multi-Drop. However, 32-64 Floor systems can only be connected in an RS-422 Multi-Drop configuration. 16 Floor systems are comprised of a CP40 controller with an Elevator (I/O) board mounted on top of the CP40 while 32-64 Floor systems are comprised of a CP40 and a 2nd cabinet with two to four Elevator boards connected to an elevator interface board (see Figure 34). The elevator interface board communicates to the CP40 via RS-422. For all elevator systems, configure the Elevator (I/O) boards as shown in Figure 32. See Figures 33-35 for settings and wiring for 32-64 Floor systems. Note: See Section 2.4.4 for information on controlling the Fire Alarm Release on the Elevator (I/O) board. Note: Firmware programmed with the elevator feature must be installed in the CP40.
Figure 33: Configuring the 16 Floor Elevator Board
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Figure 34: CP40 Jumper Setting (RS-485 Multi-Drop) for 32 Floor Elevator Control
Figure 35: 32-64 Floor Elevator Controller Layout and Power inputs
+
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Figure 36: CP40 (RS-485) to 32-64 Floor Elevator Controller (RS-422) Communications Wiring
,
K
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2.16 Remote CP40 Trunks Using Dial-Up Modems This configuration is used for communication over a standard telephone line and is only supported in a Daisy-Chain configuration. Contact Cansec Systems for an approved modem manufacturer and model. Note: At the time of this document being printed, the dial-up configuration of the CP40 running in CP40 mode was not final, however dial-back from the CP40 to the host will be supported. Future revisions of this manual will contain configuration and wiring information. See Figure 36 for configuration and wiring. Note: After all connections are made and the configuration is set, the modems should be powered ON. Then reset the CP40 to initialize the modem and for switch setting changes to take effect. Dial up the remote CP40 from the host to establish communication.
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Figure 37: Remote Dial-up Configuration and Wiring
CANSEC MODEMS (PART# CA-CANMODEM)
CUSTOM CANSEC MODEM CABLE (PART# CA-SOMOCAB)
12V POWER SUPPLY (SUPPLIED)
CLA50
9
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2.17 Spare On-Board Inputs and Outputs The CP40 is equipped with two (2) on-board Supervised Inputs and two (2) open collector Outputs that may be used if an auxiliary I/O board is not installed and if the CP40 is not being used in a remote dial-up configuration. These points will be “mapped” as points one to four when the CP40 is configured (at the host) with a 16 Point Input/Output board. You must configure points 1 and 2 as Inputs and points 3 and 4 as Outputs. For Example:
IN1 (JP44) on CP40 must be programmed as an Input on Point 1 at the host. IN2 (JP45) on CP40, must be programmed as an Input on Point 2 at the host. OUT1 (JP54) on CP40 must be programmed as an Output on Point 3 at the host. OUT2 (JP55) on CP40 must be programmed as an Output on Point 4 at the host.
See Figures 37 and 38 for the location and wiring of these Inputs and Outputs. Note: The two spare Outputs are open-collector type and may sink a maximum of 30 VDC @ 250 mA.
Figure 38: Supervised Spare Input Wiring
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Figure 39: Spare Output Wiring
2.18 Reader and Communication Grounding Communication Wiring: The shield of the communication wiring should be connected to each CP40/CP30 on the communications line. The shields should also be connected together at each panel so that there is a common reference point that will eventually be connected to the PC’s earth ground. Do not connect the CP30/40 signal ground to earth ground at each panel as this will result in a ground loop that may cause erratic operation. Reader Wiring: Do not connect the shield at the reader end to ground. At the panel end, terminate the reader shields to the panel ground (PIN 8 of reader port). CAUTION: When using DC power supplies, make sure that the negative of the supply is not connected to the cabinet’s earth ground as this may result in a ground loop.
Figure 40: Reader & Communication Grounding
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2.19 Firmware Status LED The FS LED provides a visual indication that the CP40 processor is running and is the first indication that the board is functioning properly. This LED should normally be flashing ON/OFF in one-second intervals.
Figure 41: Firmware Status LED
2.20 Reader Data LEDs The CP40 has a Reader Data LED for each of the two reader ports. These LEDs provide an indication that card data has been read. The LEDs are normally RED and will turn GREEN for approximately one second once data is read. These LEDs will also provide indication of bad card reads but this information was not available at the time of this document being printed.
Figure 42: Reader Data LEDs
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2.21 Option Dip Switch (S2) The following describes the functions of the Option Dip Switch. Note: The Reset Switch must be pressed in order for the functions to take effect once a switch setting has been changed. SWITCH / LABEL
FUNCTION
1- I/O
ON: When SIOPT-16 board is installed OFF: When there is no SIOPT-16 board installed. In the OFF position, the four spare onboard points are functional if programmed from the host (PassMaster or Maestro). Note: Elevator firmware is required for elevator configurations. This switch has no function when elevator firmware is installed.
2- MASTER
ON: Bypasses End of Line Resistors (CA-EOLRES). OFF: Disables this feature.
3- MODEM
ON: Reserved for future use. Turn OFF OFF: Disables this feature.
4- MULTI / DAISY
ON: Enables DAISY-CHAIN communications OFF: Enables MULTI-DROP communications
5- CLR
ON: Then press RESET switch to erase the CP40's database and return panel to virgin state. The CP40 Firmware Status LED will flash rapidly when initialization is complete. To return the panel to normal operating mode, turn switch to OFF and press reset. OFF: Normal operation
6- DIAG
ON: Then press RESET to cycle all outputs ON/OFF in one second intervals, including I/O board outputs and spare on-board outputs. Note: Unplug comm. connectors first. OFF: Then press RESET to turn OFF diagnostics.
Figure 43: Option Dip Switch
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2.22 Upgrading Firmware To install or upgrade firmware, do the following: 1. 2. 3.
Unplug the communications connector. Power OFF the CP40 and install or replace the firmware. Apply power and perform the power up procedure described in either Section 2.26 (Daisy-Chain) or Section 2.27 (Multi-Drop).
2.23 Multi-Drop Power Up Procedure New Installations: After all CP40's have been installed and the wiring is complete, perform the following procedure one panel at a time. It is recommended that you connect the first panel, establish stable communications, and then connect the next panel and so on. This is a systematic approach to commissioning the system and makes it easier to troubleshoot if you are experiencing communication problems. 1.
With power OFF, verify communication wiring and jumper settings as per Section 2.14.1, Figures 27 and 28 for RS-422 Multi-Drop, and Section 2.14.2, Figures 29, 30, and 31 for RS-485 MultiDrop.
2.
Set “Lock Power” Jumpers as per Section 2.6.
3.
Enable Door Contact Monitoring & Exit Buttons as per Section 2.7 and Figure17.
4.
Set Reader Type Jumpers and Switches as per Section 2.8 (Wiegand).
5.
Set Lithium Battery Jumper to “ON” as per Section 2.13 and Figure 24.
6.
Unplug the communications connector, apply power to the panel and clear the panel memory by turning ON switch position 5 of the Option Dip Switch and pressing RESET. The CP40 Firmware Status LED will flash rapidly when initialization is complete. Turn switch position 5 back to OFF and press reset. If the readers are connected, the Reader LEDs should be flashing between RED and GREEN indicating that the panel is in virgin mode.
7.
Set the “Option Dip Switch” as per Section 2.21.
8.
Set the rotary “Panel Address Switch” as follows, then press the RESET button: Switch Position (Hexadecimal) 1 2 3 4 5 6 7 8
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Panel Number 1 2 3 4 5 6 7 8
Switch Position (Hexadecimal) 9 A B C D E F 0
Panel Number 9 10 11 12 13 14 15 16
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9.
Plug in the communications connectors and attempt to establish communications from the PassMaster or Maestro host PC. At this point, the panel should report a “SYSTEM INITIALIZATION” message.
10.
To check communications in PassMaster, press the CTRL & F3 keys simultaneously to display the Communication Statistics screen. In Maestro, select Communications from the View menu. Periodically monitor the “Timeouts” counter. A good reference is 5,000 polls without Timeouts. If you are experiencing unacceptable or no communications problems, please refer to the Troubleshooting section.
11.
Follow the above procedure for each panel in the trunk.
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3.
Troubleshooting
3.1
Multi-Drop Communication Problems
Trouble Shooting
SYMPTOM: NO COMMUNICATION TO ANY PANELS 1.
Check the Communications Statistics in the host software. Check that the POLLS count is incrementing for each panel programmed. If the panel is not being polled, you must program the panel into the system.
2.
Check that the COMM port being used on the PC is assigned to the trunk. Please note that when you assign or change a COMM port assignment, you must quit and re-start Maestro to re-initialize the COMM ports. Now perform a “Restore Communications” command from the host. A “SYSTEM INITIALIZATION” message should be received from each panel.
3.
If you are still unable to establish communications, check the RS-232 wiring to the CLA50/CLAUSB and jumper settings on the panels. To check the RS-232 wiring at the CLA50/CLAUSB, disconnect the RS-232 communications connector and measure the voltage from GND (pin 5 on the 5 pin connector) to pins 1 and 2 (of the connector). Pin 1 should measure 0V while pin 2 should measure -5 to -12VDC. If wrong, correct the wiring and perform a “Restore Communications” command from the host.
4.
Make sure that the address on the panels has been set as per section 2.27. If two panels are set with the same address, conflicts will occur and cause communication problems.
SYMPTOM: NO COMMUNICATIONS TO SOME PANELS IN THE TRUNK 1.
Double-check the RS-422/485 wiring and jumper settings on these panels.
2.
Make sure that the address on the panels has been set as per section 2.27. If two panels are set with the same address, conflicts will occur and cause communication problems.
3.
Perform steps 6 to 10 as described is Section 2.27 (Multi-Drop Power Up Procedure).
4.
If all of the above fails to restore communications, the panel(s) may have been accidentally damaged during installation. If the panel seems to be functioning (example: exit button functions, re-initializes, resets etc.), the RS-422 or 485 communication IC's may be damaged. Making sure the power is removed first, you may try changing the RS-422 communication IC's (3486 &3487, located near the communication jumpers) or RS-485 IC located under the communication jumpers. Power up the panel and perform a “Restore Communications” command from the host.
5.
If all attempts to restore communications fail, contact Cansec Systems technical support.
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3.2
Trouble Shooting
Reader Problems SYMPTOM: NO READ, NO AUDIBLE, NO LED 1.
Measure the voltage input at the reader. Make sure the polarity is correct and that the voltage meets the minimum requirements as per the reader manufacturer. Wiegand readers require from 5 to 12VDC. Consult other reader manufacturer documentation for voltage requirements. If the voltage is not present, check fuses on the CP40.
2.
If the voltage is correct, confirm the wiring and make sure the reader jumpers/switches are set as per sections 2.8 (Magsrtipe Readers) or 2.9 (Wiegand Readers).
3.
If the voltage, wiring, and jumpers are all correct, try connecting the reader on a short cable at the CP30. If the reader functions properly, there could be a problem with the cable such as a short.
SYMPTOM: READER ALWAYS IN TAMPER ALARM (CANSEC READERS ONLY) 1.
If both readers show Tamper, most likely the cabinet tamper input is open. Short the input by closing the switch or disabling (see section 2.8).
SYMPTOM: WIEGAND READER TRANSMITS "ILLEGAL SYSTEM CODE" MESSAGE 1.
Check the wiring of the D1 and D0 signals as they may be reversed.
2.
If the problem still persists, check the Wiegand Forward/Reverse switch settings as per Section 2.9. For most readers, the switches should be set to "Forward" with the exception of HID (formerly Sensor) Wiegand Insert readers.
3.
If the problem persists, perform a download to initialize the CP40 with the software embedded system code.
4.
If the problem is intermittent, make sure the shield of the reader is connected to pin 8 of the reader port. Also ensure that the data lines (D1 & D0) are not twisted together in a twisted pair.
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Trouble Shooting
Monitored Input/Relay Output Problems SYMPTOM: INPUTS/OUTPUTS NOT RESPONDING
3.4
1.
Check that the CP40 has Inputs and Outputs defined under Panels under the SETUP menu and that the panel has been downloaded since being installed.
2.
Make sure that the Option Dip Switch has the I/O Option Enabled. Note: Only Enable the I/O option when using the SIOPT-16 Auxiliary I/O Board.
3.
Try a Maintained command on one of the outputs and see if a message from the CP40 is returned to the Host. If the CP40 is returning the correct message, check the corresponding LED for that output on the I/O board. If it is ON and the output is not operating as desired, check the jumpers for that output as per Figure 7.
4.
If inputs are not responding, check the jumper settings as per Figure 7. To check the wiring of the point, remove the connector from the I/O board and measure the resistance of the point. If the point is secure, the resistance should measure approximately 26Kohms. When the point is open, the resistance should measure approximately 105Kohm. Other values indicate a wiring problem or a defective EOL Resistor Pack.
Other CP40 Problems SYMPTOM: NOT REPORTING THE DOOR CONTACT OPENING (FORCED ENTRY, DOOR HELD OPEN ETC.) 1.
Check the Door Contact jumper settings as per section 2.7, they should be set as OPEN. If the door contact status is still not being displayed on the PC, check the AUDIT file to see if the status is actually being reported but not being displayed. Consult the Maestro or PassMaster Software Manual for reporting options
. SYMPTOM: INTERMITTENT LOCK UPS 1.
Intermittent lock up problems are commonly caused by Back EMF (electromagnetic force) due to the collapsing field of an inductive load such as a coil. Usually this is a locking device connected to the lock output or a relay output on the I/O board. Resetting the controller usually clears this type of lock up problem temporarily. Make sure that a 1N4001 or 1N4002 series diode is installed across the coil (at the coil) as shown in Figures 9 and 13. If the problem persists the diode may not be adequate. Isolate the device with a Lock Relay Adapter or another relay and diode combination.
2.
If the problem persists, check the power requirements of all the devices being powered from the power source. These devices may be overloading the supply and causing the AC input.
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