TECOM TS1066 Programming Manual
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TECOM TS1066 Programming Manual

Network access controller
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TS1066 Network Access
Controller Programming
Manual
P/N MAPROG-TS1066 • REV 1.6 • ISS 16AUG19

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  • Page 1 TS1066 Network Access Controller Programming Manual P/N MAPROG-TS1066 • REV 1.6 • ISS 16AUG19...
  • Page 2 Copyright © 2019 UTC Fire & Security Australia Pty Ltd. All rights reserved. Trademarks and The Challenger name and logo are trademarks of patents UTC Fire & Security Australia Pty Ltd. Other trade names used in this document may be trademarks or registered trademarks of the manufacturers or vendors of the respective products.

  • Page 3: Table Of Contents

    Status and control ................. 88 Configuring door schedules ............93 Configuring door overrides ............95 Appendix A: Reference materials ..........98 Using time and attendance readers ..........98 Macro events ................99 Nac Door Defaults ............... 104 TS1066 Network Access Controller Programming Manual...
  • Page 4 APPENDIX B: Enclosure Access Restrictions ....... 106 TS1066 Network Access Controller Programming Manual...

  • Page 5: Important Information

    ACMA compliance. Notice! This is a Class B product. In a domestic environment this product may cause radio interference in which case the user may be required to take adequate measures. TS1066 Network Access Controller Programming Manual...

  • Page 7: Product Overview

    About this manual This manual is intended for use only by trained Challenger installation and configuration technicians. The manual introduces the TS1066 Network Access Controller (NAC) and covers all aspects of programming the NAC. Related documentation The TS1066 Network Access Controller Installation Manual provides instructions on installing the Network Access Controller.
  • Page 8  8 sub-time zones per time zone  100 holidays  Up to 128 bit card data  Two local RS-485 buses supporting the following protocols:  Tecom  OSDP v2  SALLIS by SALTO Systems  Aperio  Remote flash firmware upgradeable ...

  • Page 9: Operating Modes

    Note: For access restrictions to the interior of the enclosure, refer to APPENDIX B: Enclosure Access Restrictions. The major features are described in the following sections. Operating modes The Network Access Controller can operate in three different ways depending on your current system and access requirements: ...
  • Page 10 IP Direct mode IP Direct mode allows software to communicate with the NAC directly via IP rather than through a Challenger panel. The IP connection allows for high-speed download of users and other configuration data to the NAC. The NAC provides access control functionality but does not provide alarm control functionality.
  • Page 11 IP Extended mode IP Extended mode allows software to communicate with the NAC directly via IP rather than through a ChallengerPlus panel (like IP Direct mode), while retaining the alarm control and reporting functionality of a NAC in Classic mode. Figure 2: IP Extended mode In this mode, management software downloads users, door groups, etc.
  • Page 12 Classic mode Classic mode can be used for direct upgrade of a V8 Four-Door Controller with minimal programming changes. In addition to access control, the NAC provides alarm control functionality in conjunction with a ChallengerPlus panel. The NAC is polled as a DGP on one of the ChallengerPlus system LANs. Figure 3: Classic mode In this mode, management software downloads configuration (users, door groups, etc.) to the ChallengerPlus panel.

  • Page 13: Doors

    Multiple modes Warning: It is possible to configure a NAC to operate in one mode and still connect to it via one of the other modes. Programming commands will always be accepted and processed by the NAC. This may cause conflicted or incorrect programming in the NAC.

  • Page 14: Lock Types

    ChallengerPlus Address Polled as 4 Doors 8 Doors Mode Mode LAN 2 DGP 17 81 to 84 81-88 LAN 2 DGP 18 85 to 88 85-92 LAN 2 DGP 19 89 to 92 89-96 LAN 2 DGP 20 93 to 96 93-100 LAN 2 DGP 21...

  • Page 15: Interlocking Doors

     – Unlocks the door. Lock relay 1  – Reserved for future use. Lock relay 2 The door’s lock type, and inputs and relays are programmed in CTPlus on the Hardware tab for the door. See the “Programming hardware options” section on page 61 for instructions.
  • Page 16 When programming a door on the NAC, there are two ways to specify an interlock door: either another door on the same NAC, or a door on a separate controller. The NAC has simplified configuration of interlocking doors on the same controller.

  • Page 17: Alarm Control

    When external interlocking option is enabled on NAC, a special interlocking timer (3sec if only external interlocking is enabled) is started when a user credential is presented. Any repeated attempt to gain access by providing a user credential while the timer is running and the remaining time is greater than 100ms will cause Access Denied Void and 7 error beeps.

  • Page 18: Bus Formats

    77 for instructions. Bus formats There are two RS-485 buses on the Network Access Controller. Each bus can have up to 16 RAS devices. Each bus can support readers other than Tecom readers. Each bus supports the following protocols: ...
  • Page 19 OSDP The Network Access Controller supports OSDP version 2. Note: OSDP has a fixed baud rate of 9600 baud. OSDP reader addresses If the OSDP reader has DIP switches, refer to the manual for the reader to configure the reader’s address using the DIP switches. If the reader does not have DIP switches, then the reader’s address must be configured using a configuration card.

  • Page 20: Flexible Device Locations

    Address Ordering code SEC9X-CRD-B-12 SEC9X-CRD-B-13 SEC9X-CRD-B-14 SEC9X-CRD-B-15 Aperio The Aperio protocol is for future use. Note: Aperio has a fixed baud rate of 19200 baud. SALLIS The SALLIS protocol is for future use. Note: SALLIS has a fixed baud rate of 38400 baud. Flexible device locations With the Network Access Controller, there is flexibility in how devices such as inputs, relays and readers can be physically wired up to the NAC and how they...
  • Page 21 NAC and on RASs or DGPs attached to its local buses, using a single door’s attributes (inputs, relays, and readers). In this example, both local buses use the Tecom protocol. A single door can have two door inputs, an egress input, two lock relays, a DOTL relay, a forced door relay, a warning relay, and up to six assigned readers.
  • Page 22 Door 1 device Location Address Device Figure reference Lock relay 2 DOTL relay Onboard Forced door relay Onboard Warning relay Assigned reader 1 Assigned reader 2 Assigned reader 3 Assigned reader 4 Assigned reader 5 Assigned reader 6 Figure 4: Device locations example...

  • Page 23: Input And Relay Mapping

    Input and relay mapping Note: Input and relay mapping does not apply to the NAC in IP Direct mode. If the Network Access Controller is attached to a ChallengerPlus panel, then the NAC can present up to 32 inputs for the ChallengerPlus to respond to and up to 16 relays for the ChallengerPlus to activate, without complex use of macros or other programming.
  • Page 24 Since the NAC can have flexible device locations, any physical input must be programmed using the scheme described in the “Flexible device locations” section on page 18. Shunted pass through operation When the door is shunting, and the input goes unsealed, the input will not pass through, i.e.
  • Page 25 Note: The input and relay mappings are specific to each NAC. Additional NACs require additional mappings of inputs and relays. The mapped input and relay numbers are indexes into the ChallengerPlus panel’s device numbering scheme, which depends on the NAC’s address (set via its DIP switches) and which ChallengerPlus system LAN it is attached to.

  • Page 26: Overriding Door State

    Overriding door state In addition to being able to define an override time zone for a door, there are additional methods for overriding a door’s default state. These methods are:  (see the “Door schedules” section below). Door schedules  (see the “Door overrides”...
  • Page 27 The possible door actions, which can be configured to execute at the start time or the end time, are:  Unlock  Lock  Disable  Enable Door schedules are programmed in CTPlus on the Door schedule form. See the “Configuring door schedules”...
  • Page 28 Authorised PIN/card users can open the door as normal. An unlock command issued from management software will unlock the door and cancel the start action. An open door or timed open door command issued from management software will perform the function but will not cancel the start action. Cancelling a start action A start action that is running can be cancelled by overriding its operation from management software.

  • Page 29: Random Lockout Time

    Random lockout time When the “Door random bit” event triggers on a Network Access Controller door (which can occur if the door’s Random event % setting is non-zero), then there is a new setting which locks out the door for a specified amount of time, called Random % lockout time.

  • Page 30: Recommended Programming Sequence

    Recommended programming sequence The following is a suggested programming sequence for a Network Access Controller: Note: For access restrictions to the interior of the enclosure, refer to APPENDIX B: Enclosure Access Restrictions 1. Set the NAC’s DIP switches if the NAC will be connected to a ChallengerPlus panel.

  • Page 31: Dip Switches

    If the Network Access Controller will be connected to a ChallengerPlus (i.e. the NAC will operate in IP Extended or Classic mode), then set the NAC’s address using the DIP switches on the NAC. Refer to the TS1066 Network Access Controller Installation Manual for instructions.
  • Page 32 2. On the Definition tab, enable the panel connection by ticking the Enable check box. 3. Set the Panel type to be TS1066 - Network Access Controller. 4. Set the Time zone and Card format fields as required. 5. Click the Save button in the toolbar to save the NAC panel record.
  • Page 33 5. On the Definition tab, enable the panel connection by ticking the Enable check box. 6. Set the Panel type to be TS1066 - Network Access Controller. 7. Set the Time zone and Card format fields as required. 8. Click the Save button in the toolbar to save the NAC panel record.
  • Page 34 Panel field to select the ChallengerPlus panel. 7. On the Setup tab, tick the Poll DGP check box. 8. Set the DGP model to be TS1066 - Network Access Controller. 9. Set the NAC mode to be IP Extended 4-door.
  • Page 35 Panel field to select the ChallengerPlus panel. 7. On the Setup tab, tick the Poll DGP check box. 8. Set the DGP model to be TS1066 – Network Access Controller. 9. Set the NAC mode to be Classic 4-door.
  • Page 36 See Status and control section for more details depending on the operating mode of NAC.

  • Page 37: Uploading Default Configuration

    Uploading default configuration It is important to upload the default values from the Network Access Controller into the CTPlus database. The method for uploading depends on the operating mode of the NAC. Uploading in IP Direct or IP Extended mode Use one of the following methods to upload the default configuration into CTPlus in IP Direct or IP Extended mode: ...

  • Page 38: Upgrading Firmware

    Enter the required door numbers in the From fields, and click the button to start the upload. Upgrading firmware Firmware on the Network Access Controller is upgradeable in all operating modes. It is highly recommended that the installer upgrade to the most recent firmware version upon installation.
  • Page 39 5. Select the required firmware file from the list under the Released tab. 6. Check the release notes section related to this version before upgrading. 7. Click Program button to upgrade NAC to your desired version. If you are unable to upgrade the firmware using the above method in case the panel is non-responsive please follow the instructions below as an alternative.

  • Page 40: Programming Ip Communications

    8. Selection form pops up. And then choose the firmware file to be programmed. If no file is available for selection, ensure you are online and click on Administrator ->Sync firmware from the Navigation bar in CTPlus. Once the Sync is complete, try this step again. 9.
  • Page 41 3. On the Ethernet tab, set up the Ethernet settings for the NAC (i.e. address Subnet mask). Ensure that the Enable Ethernet check box is ticked. 4. Click the Save button in the toolbar to save the Comm device record. Configuring communications path Configure an IP communications path on the NAC for management software.
  • Page 42 3. On the Main tab, tick the Enable check box to enable the path. 4. Configure any other settings required, such as Account code Computer password. 5. On the Comm Paths form, click the Config Wizard button in the toolbar to set the IP address and Send/Receive port of the management software computer.
  • Page 43 5. On the Communication tab, configure the Ethernet communications settings as required. Set the Type to UDP/IP. Set the IP address to the configured for the NAC’s onboard communications device. Set address Port to the Send port/Receive port configured for the communications path.

  • Page 44: Programming The Nac

    Programming the NAC The Network Access Controller is programmed via the DGPs form. Click the DGPs button on the Panel programming ribbon tab to open the DGPs form. A NAC in IP Direct mode will have an automatically generated DGP record. It will have DGP number 16.
  • Page 45  Input/Relay mapping tab – allows you to program input and relay mapping on the NAC. See the “Programming input and relay mapping” section on page 79. Note: The Input/Relay mapping tab does not appear if the NAC is in IP Direct mode, since input and relay mapping does not apply in that IP Direct mode.
  • Page 46 DGP model This field and shows the DGP model. For a NAC, the field will always show TS1066 - Network Access Controller. NAC mode This field shows the operating mode of the NAC. The field can be one of the following: ...
  • Page 47 Programming general controller options The NAC’s general controller options can be programmed on the NAC options tab of the DGPs form. Each field is explained in the following sections. Relay controllers Enter a value in the range 1 to 8 in order to use TS0841 or TS0842 clocked relay expansion cards.
  • Page 48 Note: DGP number 16 on Bus 1 is the NAC itself. Each bus can have devices other than Tecom devices. Each bus supports the OSDP (Open Supervised Device Protocol), SALLIS (by SALTO Systems), and Aperio protocols. Each bus can use one protocol at a time, but the two buses can use different protocols.
  • Page 49 Bus baud rate If the Bus format is not set to Tecom, the baud rate on the bus can be configured to be one of the following:  4800 baud  9600 baud  19200 baud  38400 baud  57600 baud ...
  • Page 50 The system will behave as if the user’s PIN was entered (for example, to open a door), and it will initiate a duress alarm. The duress alarm can be reset (cancelled) by entering the normal PIN. Select the duress mode from the following options: ...
  • Page 51 The Assigned RAS tab shows a list of assigned RASs. Click the Assign button to open the Assigned RAS dialog to assign a RAS to the NAC. Click the Edit button to open the Assigned RAS dialog to edit the settings of the selected assigned RAS in the RAS list.
  • Page 52 See the “Bus options” section on page 45. Model If the Bus format field is set to Tecom, then the RAS model can be selected from the following:  CA1110 – 2 line no reader  CA1111 – 4 line no reader ...
  • Page 53 The Assigned DGP tab shows a list of assigned DGPs. Click the Assign button to open the Assigned DGP dialog to assign a DGP to the NAC. Click the Edit button to open the Assigned DGP dialog to edit the settings of the selected assigned DGP in the DGP list.
  • Page 54 Description Enter an optional description for the DGP. DGP type Select the type of DGP:  TS0820 - Challenger V8 DGP  TS1020 - Challenger10 DGP  TS1061 - Dual Wiegand interface  Default setting. Choose the model if it is in the list above provided otherwise the system cant auto detect.
  • Page 55 The following figure shows the DGP alarm control level dialog: Alarm control level no Each door can have up to six alarm control levels. Alarm control levels can be assigned to the door’s IN and OUT readers separately. Enter a number for the alarm control level, and, optionally, a name to identify the alarm control level.
  • Page 56 Force arming When a user with the appropriate alarm group arms an area, the check for unsealed inputs is ignored. If there are unsealed inputs when the arming procedure is started, the system still arms (the unsealed inputs might cause an alarm).
  • Page 57 When ticked, the user category activates when a user with the appropriate alarm group enters their PIN or badges their card. Areas An alarm control level can only control the functions of areas that are assigned to it. An alarm control level can be linked to multiple areas. For each area, the alarm control level can control the area’s permissions for arming, disarming, alarm reset, and for timing.
  • Page 58 Regions Note: Regions does not apply to the NAC in IP Direct mode. If the NAC is connected to a ChallengerPlus panel, it can support Regions functionality, such as high security user verification. The following figure shows the Regions tab of the DGPs form: Figure 5 DGP Regions...
  • Page 59 Figure 6 DGP NAC regions Setup Region number: Select the region by clicking the Browse button, or type the region number directly into the field. Low limit: Minimum number of the people that represent the region. High limit: Maximum number of people that represent the region. Below low limit relay: Physical address of the relay when the number of people in the region is less than the low limit.

  • Page 60: Programming Holidays

    Minimum HSU in region: Minimum number of HSUs allowed in the region. Maximum HSU in region: Maximum number of HSUs allowed in the region. Below minimum HSU relay: Physical address of the relay when the number of HSUs in the region is less than minimum limit. Maximum HSU relay: Physical address of the relay when the number of HSUs in the region is more than maximum limit.

  • Page 61: Programming Time Zones

    6. Click the Save button in the toolbar to save the holiday record. Refer to the ChallengerPlus Programming Manual for more information on holidays. Refer to the CTPlus Operators Manual or CTPlus online help for more information on the Holidays form. Programming time zones Time zones can be used in the Network Access Controller for the following: ...

  • Page 62: Programming Doors

    Depending on the anti-passback settings (see the “Anti-passback options” section on page 74), the system may:  Deny access and report an anti-passback violation.  Allow access and report an anti-passback violation. Separate programming fields are provided for each door’s IN reader and OUT readers.
  • Page 63 Figure 7 Door / Lift creation wizard The wizard has the following fields: Panel Click the Browse button on the right of the field to select the panel to add a door or lift to. Access type Whether to add a Door or Lift to the panel. Controller type Select the type pf the controller that the door or lift will be added as part of: Panel...
  • Page 64 IP Direct mode are numbered in the range to 1 to 18. If the Controller type is V8 Door/Lift Controller, then four doors or lifts will be added starting from the number in this field. Result The field shows the results of adding the door or lift controller and its doors or lifts.
  • Page 65 Lock relay 1 Specify the relay to be activated to unlock the door. Program the relay using the scheme described in the “Flexible device locations” section on page 18. Lock relay 2 This relay is reserved for future use. Door input 1 Specify the input used to indicate if the door is open or closed.
  • Page 66 Egress functionality is programmed on the door’s Shunt/Egress/Passback tab. See the “Egress options” on page 76. Interlock options For more information on door interlocking, see the “Interlocking doors” on page Interlock doors Tick the door numbers on the same NAC that will be prevented from being accessed at the same time as the door being programmed.
  • Page 67 The following figure shows the Readers tab of the Doors/Lifts form: The Readers tab shows a list of assigned readers for the door. Click the Assign button to open the Door reader dialog to assign a reader to the door. Click the Edit button to open the Door reader dialog to edit the settings of the...
  • Page 68 Door reader dialog – Setup tab The following figure shows the Setup tab of the Door reader dialog: Reader no Specify a reader number from 1 to 6. Enter an optional description next to the reader number. Door side Select the door side, which may be one of the following: ...
  • Page 69 Format Select the card format for the reader from the following options:  Tecom 27 bit – For range of Tecom proximity readers supplied by UTC Fire & Security.  Wiegand 26 bit – For standard 26-bit Wiegand format readers. Has a 16- bit card number (0-65534) and an 8-bit site code (0-255).
  • Page 70 The following figure shows the LED mapping tab of the Door reader dialog: In each LED area field, enter an area number or click the Browse button next to the field to select an area. Note: In IP Extended mode, the NAC is programmed via the USB/IP connection. Thus CTPlus does not have information about which areas are programmed on the ChallengerPlus panel that the NAC is connected to.
  • Page 71 The following figure shows the Access tab of the Doors/Lifts form: Door type Door type field is for future use. Currently, the door type is set as Door and cannot be changed. Multi badge time Note: Multi badge time can be set per door on the NAC (it was set via the Mode time field for V8 Four-Door Controllers).
  • Page 72 Access time Program the amount of time for the door to unlock when a user enters a valid card or PIN at the door reader. The user is then able to open the unlocked door during the access time. Enter a number and specify Sec for seconds or Min for minutes. Long access time Program the amount of time for the door to unlock when a user, with the “Long Access”...
  • Page 73 Pre lock time Once the door open input (Door input 1) has been sealed, the NAC waits for the pre-lock time to expire before locking the door. If the door open input unseals during the pre-lock time, the door is deemed open and the pre-lock timer is cancelled.
  • Page 74 Low security TZ The low security time zone controls the times when the door can be opened with either a card or a PIN if the door is configured to require card and PIN. Only a valid card or PIN code is needed to open the door when the time zone is valid. Enter a time zone number or click the Browse button to select a time zone.
  • Page 75 Inhibit off-site users Select this option to prevent users who are currently recorded as being off-site (i.e. in region 0) from unlocking this door via any of the IN readers. See the “Programming regions” section on page 58 for more information about regions.
  • Page 76 When selected, the override time zone takes cannot unlock the door for the programmed times unless a user has entered. Disable duress When selected, the system’s keypad duress functionality cannot be used at this door. Time & attendance reader When selected, the reader can be used as a time and attendance reader. See the “Using time and attendance readers”...
  • Page 77 Note: The behaviour contrasts with a door on a V8 Four-Door Controller, which only reports unsecured when the door’s relay is active. Allow OUT reader access when TZ invalid If selected, OUT readers will allow access even if a user’s door group has an invalid time zone.
  • Page 78 unsealed) longer than the programmed Shunt time Ext. shunt time, if applicable).  Auto shunting & DOTL – If the areas assigned to the door are in access (disarmed), shunting of the door will commence when the Door input 1 unsealed.
  • Page 79 Note: To clear an anti-passback violation, the card must be used at another appropriate reader to change the region number that the user is recorded against. Alternatively, anti-passback can be cleared for specific user(s) using the Reset anti-passback button on the toolbar of the Users form. See the CTPlus Operators Manual or CTPlus online help for more information.
  • Page 80 Select the region by clicking the Browse button, or type the region number directly into the field. Note: The door must be opened for this to be effective. Egress options The egress options define the operation of the egress button (exit button). There are two options for setting up an egress button: ...
  • Page 81 Egress OUT disabled when secure Note: This option does not apply to the NAC in IP Direct mode. This check box controls the ability to use the egress button on any OUT reader to open the door if any of the areas assigned to the door (via an access control level) are secure, i.e.
  • Page 82 IN alarm control This field determines whether the door’s IN readers can be used to control the alarm system (arm/disarm) and if so, the way in which it can be controlled:  No Alarm control – It is not possible to arm/disarm via the reader. ...

  • Page 83: Programming Input And Relay Mapping

    The RAS on the system LAN that is selected for arm control must also have the “Toggle keyboard control” option enabled. See the ChallengerPlus Programming Manual for information on the “Toggle keyboard control” option. Enter a RAS number or click the Browse button to select a RAS.
  • Page 84 The Network Access Controller’s input and relay mappings can be programmed on the Input/Relay mapping tab of the DGPs form. Click the DGPs button on the Panel programming ribbon tab to open the DGPs form. Programming input mapping Input mapping shows a list of input mappings.
  • Page 85 Input no Enter a number in the range 1 to 32. The mapped input number is an index into the ChallengerPlus input numbering scheme. Thus, for the NAC with address 1 on the ChallengerPlus panel’s LAN1, mapped input numbers 1 to 32 correspond to ChallengerPlus input numbers 17 to 48.
  • Page 86 Click the button to open the Relay mapping dialog to add a new relay mapping. Click the Edit button to open the Relay mapping dialog to edit the selected relay mapping in the Relay mapping list. Click the Remove button to remove the selected relay mapping from the Relay mapping list.

  • Page 87: Programming Macro Logic

    Programming mapped inputs To program a mapped ChallengerPlus input, do the following in CTPlus: 1. Click the Inputs button on the Panel programming ribbon tab to open the Inputs form. 2. On the Inputs form, click the button in the toolbar to add a new input record.
  • Page 88 equations combining the macro inputs (macro events) and timed or latched output conditions. Up to 48 macros can be defined for the Network Access Controller. Macro events are used as the macro logic program’s inputs. Up to four macro inputs may be included in the logic equation. Each macro input in the logic equation can be programmed as an AND or an OR function and may be inverted to formulate NAND and NOR equations.
  • Page 89  On delay (1-255) seconds – Activates after the programmed time period unless the result of the logic equation is no longer valid.  On delay (1-255) minutes – Activates after the programmed time period unless the result of the logic equation is no longer valid. ...

  • Page 90: Programming User Information

    Programming user information Programming door groups Note: Typically, door groups will be configured using TecomC4. The following information is for using CTPlus to program door groups if required. A NAC in Classic mode inherits the door groups of the ChallengerPlus it is connected to, so is limited to 255 door groups.
  • Page 91 To add a new user to a NAC, follow these steps: 1. Click the Users button on the User access ribbon tab to open the Users form. 2. On the Users form, click the button in the toolbar to add a new user record.

  • Page 92: Management Via Ctplus

    Management via CTPlus Note: Typically, management of a NAC will be done using TecomC4. The following information is for using CTPlus to manage a NAC if required. CTPlus can be used to manage the Network Access Controller:  The status of the NAC can be viewed in the device tree in the Status and control window.
  • Page 93 Direct mode In IP Direct mode, the NAC appears as a distinct NAC panel connection. For example: The NAC also appears as a DGP under the DGP category (DGP number 16) of the NAC panel connection. The NAC’s assigned RASs and DGPs appear as sub-devices under the NAC’s DGP node.
  • Page 94 The NAC also appears as a DGP under the DGP category (DGP number 16) of the NAC panel connection. The NAC’s assigned RASs and DGPs appear as sub-devices under the NAC’s DGP node. The NAC’s doors appear as doors under the Door category of the NAC panel connection.
  • Page 95 Classic mode In Classic mode, the NAC appears under the DGP category under the ChallengerPlus panel that it is connected to. For example: The NAC’s assigned RASs and DGPs appear as sub-devices under the NAC. The NAC’s doors appear as doors under the Door category of the ChallengerPlus panel.
  • Page 96 DGP/RAS status Icon Colour Tamper/fuse fail Flashing grey/red Commands The Status and Control window allows the operator to execute remote commands on the NAC and its devices via context menus. If you right-click on the NAC, the following options appear in the context menu: ...

  • Page 97: Configuring Door Schedules

    If you right-click on a DGP (including the NAC’s own DGP node), the following options appear in the context menu:  – isolates the DGP. Isolate  – de-isolates the DGP. De-isolate  – starts a timed battery test. Battery test ...
  • Page 98 To configure a door schedule in CTPlus, click the Door schedule button on the Operation ribbon tab to open the Door schedule form: On the Door schedule form, click the button in the toolbar to add a new door schedule record. Enter a description for the door schedule in the Record description field.

  • Page 99: Configuring Door Overrides

    Active on days Tick the days of the week (and/or holidays) that the door schedule will be active on during the active period. Start time Enter the start time for the start action. Every hour Tick the Every hour check box if the Start action is to repeat every hour.
  • Page 100 To configure a door override in CTPlus, click the Door override button on the Operation ribbon tab to open the Door override form: Each door on a NAC has a door override record. The Record description field contains the name of the door. When finished configuring the door override, click the Save button in the...
  • Page 101 Days Tick the check boxes to indicate the days of the week (SMTWTFS) that the sub- time zone is valid. Holiday types Tick the check boxes to indicate that the sub-time zone is valid on holidays of particular types. Holidays may have up to eight defined holiday types. A sub-time zone is invalid on any defined holiday unless the holiday’s type Note: is included in the sub-time zone.

  • Page 102: Appendix A: Reference Materials

    Appendix A: Reference materials Using time and attendance readers There are two types of readers that may be used for time and attendance functionality (clocking on and off):  There can be up to 32 RASs (readers or keypads) on the NAC’s buses designated as time and attendance readers (see the “Time &...

  • Page 103: Macro Events

    Method 2 (LCD keypad only): Clock Off To clock off, first press * to toggle the state so that Clock Off is displayed, then key in the user PIN and press Enter. 8:59 03/02/18 Clock Off Using Wiegand readers for time and attendance Wiegand readers attached to DGPs on the NAC’s buses, the functionality is determined by whether the reader is an IN reader or an OUT reader.
  • Page 104 Name Description Input Output Dual Custody access is required at the “OUT” reader ** Door dual custody outside Door enabled Door is enabled Door fire override Secondary override is active Door forced Door Contact is unsealed with no valid door command Door interlock Interlock input(s) are unsealed * Door interlock...
  • Page 105 Table 9: Other macro event descriptions Name Description Input Output Operating Modes ** Area access Area in access (99 events, 1 per Classic & area) Extended Mode ** Area alarm Input(s) in alarm in area (99 events, Classic & 1 per area) Extended Mode Controller DGP offline DGP on Intelligent Controller sub-...
  • Page 106 Table 9: Door macro event flag programming Name Input- I Output -O Both – I/O DOOR OPEN DOOR UNLOCKED DOOR LOCK DOOR OVERRIDE DOOR OVERRIDE INHIBIT DOOR DISABLED DOOR ENABLED # DOOR READER DISABLED DOOR READER ENABLED DOOR DUAL CUSTODY INSIDE DOOR DUAL CUSTODY OUTSIDE...
  • Page 107 Name Input- I Output -O Both – I/O DOOR ACCESS GRANTED 1ST BADGED DOOR ACCESS GRANTED 2ND BADGED DOOR ACCESS GRANTED 3RD BADGED DOOR FIRE OVERRIDE DOOR SECURE Table 10 Macro Event Range AREA NUMBER EVENTs These events can only be used as input conditions to a door macro not as an output activation of an door macro *Area 4091...

  • Page 108: Nac Door Defaults

    Nac Door Defaults Table 12 Access and Shunt/Egress/Passback Defaults FUNCTION DEFAULTS Door Type Door Access Time 5 sec Dual custody time 8 sec Pre lock time 2 sec Random event % Access TAB Override TZ Multi badge time 5 sec Long access time 15 sec Card to PIN time...
  • Page 109 Table 14: CTPlus programming sequence Step Classic IP Direct IP Extended   DIP switches    Default the NAC   Connect to ChallengerPlus   Connect to CTPlus   Set up IP communications    Upload defaults ...
  • Page 110 APPENDIX B: Enclosure Access Restrictions According to the requirements of AS/NZS 60950-1, the interior of the enclosure presents hazards to general users and thus physical access restrictions MUST be instituted ensure safety. To comply with the restrictions:  Access to the interior of the Enclosure should be limited to suitably trained and qualified installation and maintenance technicians.

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