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PRT-CTRL-SE

Protege System Controller

Reference Manual

Summary of content (343 pages)

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PRT-CTRL-SE Protege System Controller Reference Manual
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The specifications and descriptions of products and services contained in this document were correct at the time of printing. Integrated Control Technology Limited reserves the right to change specifications or withdraw products without notice. No part of this document may be reproduced, photocopied, or transmitted in any form or by any means (electronic or mechanical), for any purpose, without the express written permission of Integrated Control Technology Limited.
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Contents Protege System ________________________________________________________________ 9 Introduction __________________________________________________________________________ 9 System Controller _____________________________________________________________________ 9 Features _____________________________________________________________________________ 9 Protege System Management Suite ______________________________________________________ 9 Protege Modules _______________________________________________
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Hex Review __________________________________________________________________________ 50 Statistics ____________________________________________________________________________ 50 Modules _____________________________________________________________________ 52 LCD Keypad _________________________________________________________________________ 52 Zone Expander _______________________________________________________________________ 59 PGM Expander ____________________________________________________________
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Clipsal C-Bus Automation ____________________________________________________________ 179 Intercom High Level Interface _________________________________________________________ 181 GSM Modem Reporting Service _______________________________________________________ 186 Report IP Service ____________________________________________________________________ 187 Link Me (IO)_________________________________________________________________________ 192 VizIP DVR IP Alarm Integration ______________________________
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Output Compare ____________________________________________________________________ 248 General Programming ________________________________________________________ 250 Automation _________________________________________________________________________ 250 Panel Configuration __________________________________________________________________ 253 System Controller Restart ____________________________________________________________ 260 System Controller Restart in Bios Mode ________________________________
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SIA Level 2 Standard Trouble Zones ___________________________________________________ 299 DVAC Surgard Zone _________________________________________________________________ 303 DVAC Surgard Trouble Zones _________________________________________________________ 306 Reporting Codes _____________________________________________________________ 310 Area Reporting Codes _______________________________________________________________ 310 Custom Reporting Codes__________________________________________________
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Hexadecimal Data Entry ______________________________________________________________ 335 List Data Entry ______________________________________________________________________ 335 Option Select Entry __________________________________________________________________ 336 PGM and PGM Group Entry __________________________________________________________ 336 Zone Entry__________________________________________________________________________ 337 Conversion ____________________________________________________
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Protege System Introduction This manual provides detailed references and programming examples to obtain optimal performance from your Protege System and the Protege System Management Suite. It covers the management of users, access levels, event reporting, and apartment complex and condominium systems. i This manual requires that the operator has an intermediate working knowledge of the Microsoft Windows operating system. Details of basic Windows functionality are beyond the scope of this document.
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Protege Modules The Protege System can be expanded to accommodate large numbers of modules using the encrypted RS-485 network. Modules that are currently available are listed below. Visit the Integrated Control Technology website (http://www.incontrol.co.nz) for the latest Protege module and product information.
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Menu Tree Menu Reference General operation and programming of the Protege Access and Alarm Management Controller requires the use of the menus on the keypad. The menu tree provides a reference guide to the menu options and the shortcuts to access them. A copy of the following pages and the options section can be used for a quick reference manual ideal for on site programming and maintenance.
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2. Trouble Zones 3. Zone Type 3. PGMs 4. Areas 5. Access 6. 7. 8. 9. 1. Door 2. Door Types Groups 1. PGM Group 2. Keypad Group Reporting 1. Services 2. Phone No Advanced 1. Network 2. Testing 3. Profiles 4. Functions General 1. Automation 2. Panel 3. Restart *Main Menu* 5. View 5. View 1. Alarm Memory 2. Trouble View 3. Bypass List 4. Door View 5. Elevator Floor 6. Automation *Main Menu* 6. Time 6. Time 12 1. Change Time 2. Schedules 3. Holiday 4.
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*Main Menu* 7. Bypass 7. Bypass 1. Zone 2. Trouble Zone *Main Menu* 8. System 8. System 1. Answer Call 2. Call Remote 3. Test Report Main Menu Chart The Protege menu structure can also be shown as a menu chart with the sub menus under each of the main menu items. The chart is split in to the main menu and the installer menu. i Some menu options are not available to certain users.
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Installer Menu Chart The Protege installer menu is available to the installer or any user who has the appropriate menu option programmed for their group. i 14 The installer by default has access to the installer menu group. This can be programmed easily through menu groups. Multiple Installers can be programmed in the system.
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Area Control Area control allows you to arm/disarm areas/partitions in the Protege system. The area control provides access to group and 24HR arming options per area/partition. Area Status Display The area status display is a scrollable display showing the status of all the areas that the currently logged in user has access to. The screen only shows a single area at a time. Accessing the area status screen allows you to control that area for arming and disarming.
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Shortcut Keys: [MENU, 1] Change Area Display: [Ï] and [Ð] The area control functions allow the user to perform the following actions on the selected area. y y y y y y y y Disarming (see page 18) Regular Arming (see page 16) Force Arming (see page 17) Stay Arming (see page 17) 24HR Enabling (see page 18) 24HR Disabling (see page 19) Area Group Arming (see page 19) Area Group Disarming (see page 20) Area Security The area status display does not show all areas to all users.
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Force Arming Force arming allows you to quickly arm your system even though zones are open. The open zones are then ignored by the system while the arming process takes place. If an open zone closes after the area is armed, the zone is no longer ignored by the system and the area will generate an alarm if the zone is opened again. The area can only be force armed if its status is "disarmed" and if it the open zones have the Force Arming option turned on.
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Disarming The area can be disarmed if it is armed in any of the possible arming states explained in the previous sections. For information on disarming an area using a card access reader or other special function refer to the Protege Programming Manual. y Access the area status display screen as explained in section Area Status Display (see page 15). Using the scroll keys [Ï Ð] select the area that you want to disarm. From the Area Status screen, press the [DISARM] key to disarm the selected area.
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24HR Disabling The Protege System continually checks zones and trouble zones for a tamper condition regardless of the armed status of the area. The 24Hr processing monitors trouble zones as well as tamper and shorts on zones within the selected area. This allows the tamper zones to generate an alarm even if the area is disarmed. To disable the 24Hr processing of an area, you must have access to the area and the user must have the option to access the 24Hr Processing enabled.
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Area Group Disarming Area group processing allows you to arm or disarm a group of areas rather than one area at a time. The area group controlled is the area group assigned to the keypad used to access the system. To disarm the area group the user must be able to access ALL the areas in the area group. The user must have the access area group option enabled to access the area group function. y Access the area status display screen as explained in section Area Status Display (see page 15).
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y Press [MENU, 7] to access the bypass menu. Accessing the bypass menu allows you to bypass zones and trouble zones. Refer to the section Bypassing Zones (see page 279) for more information. System Trouble When arming the system, if a general, system or access trouble is present, the keypad momentarily displays a trouble message and returns to the Area Status screen.
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Users To access the user programming menu, login using the valid master code and then select [MENU, 2]. You will then have a menu of user functions that you can program in the Protege System. Users have access levels that are assigned to them for the purpose of controlling what the user or group of users have access to within the Protege System. Access levels will have Schedules, Door Groups, Area Groups and Menu Groups assigned. This method of assignment allows flexible method of user control.
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User Programming To access the user programming login using a valid master code and then select [MENU, 2, 1]. The screen displays "Select user to modify" as shown in the following example. Select user to modify: UN00001 Every time you press the Enter key, the next screen appears. The different screens are described in the following sub-sections. Programming the users in the Protege allow you to configure how user will interact with the system and the options each user will have.
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Access Level Assignment The access level determines what rights this user will have in the Protege system. For more information on the programming of the access level refer to the Access Level Programming section (see page 39). Each user can be assigned four different access levels, when a user requests a certain action the Protege system checks each of the access levels in order until it finds one that has rights to perform the requested action.
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Access Level 1 End Date Setting the access level end date will disable the access level for this user at 23:59 on this date. is also set the access level will be disabled at that time on this date. If a end time UN00001 Axs1 End date: --/--/---Use the numerical keys to enter a valid date and then press [ENTER] to program the date. If you do not program a time in the following section the access level will expire at midnight on the date that is programmed.
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User Expiry Date Setting an expiry date for the user will prevent the user from gaining access to the system past the date that is set. Use this feature to program cards for temporary employees, trade people or contractors. This feature can also be used for membership processing to prevent access once the membership period has expired. UN00001 Expiry date: --/--/---Use the numerical keys to enter a valid date and then press [ENTER] to program the date.
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User Card Number When user requires control of card reader and access functions in the Protege System they must be programmed with a card number. Type the family or facility code in the previous entry and the card number of the access control card that will be given to the user in the card number entry below then press [ENTER]. UN00001 Card no: 4294967295 The card number when blank or deleted is shown as the maximum card number of 4294967295 and to default or clear the card number press the [DISARM] key.
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User Language Each User can be programmed with a default language that will be loaded by the System Controller when they log into a keypad. UN00001 Language None If no language is selected the default panel language will be displayed. User Miscellaneous Options Options that relate to general functions of the user can be set using option entry. UN00001 Misc [1-34----] To modify options, use the follow the settings as explained in section Entering Data Options (see page 336).
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Option 5 - Automatic Primary Area Disarm y y When enabled and the user logs in to the keypad, the primary area associated with the keypad automatically disarms. The keypad's primary area must belong to the user's disarm area group. This feature does not automatically cancel the arming process of an area that was previously started. Disabled the keypad will not perform any action when the user logs in.
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Option 5 - Reserved y Reserved do not modify. Option 6 - Loiter Mode User y When enabled the user has access to any loiter area for a limited amount of time. If the loiter time has elapsed and the user did not exit the area, then the user cannot exit the area until a master user resets the user's loiter time. For this option to work the Loiter Mode option must be turned on for each area that requires this function. A loiter time and a loiter area must also be programmed.
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Menu Group Name If the selected menu group has a name associated (some menu groups do not have a name associated with them) the name programming screen will be shown. MG001 Name All Menus To scroll menu groups by name use the [Ð] and [Ï] keys. To modify or enter a new name for the selected menu group use the keypad as explained in section Entering Text and Names (see page 333) and press [ENTER].
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For a menu group to also allow access to the programming of door groups, area groups, menu groups and access levels the user sub menu option must also be enabled. y Disabled the menu group will not allow access to the user programming menu. Option 3 - Event Review Menu y y Enabled the menu group will allow a user access to the event review menu [MENU, 3]. Disabled the menu group will not allow access to the event review menu.
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y y This option will not operate unless the menu group also has the installer option enabled in the main menu options. Disabled the menu group will not allow access to the advanced sub menus. Option 2 - Time Sub Menu y y Enabled the menu group will allow a user access to the time sub menus that allow configuration of schedules and daylight saving settings. The menu group must also have the main time menu option enabled. Disabled the menu group will not allow access to the user programming menu.
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Option 1 - User Sub Menu y Enabled the menu group will allow a user access to the user sub menus under the user menu [MENU, 2]. This option will not operate unless the menu group also has the user menu option enabled in the main menu options. Disabled the menu group will not allow access to the user sub menus. y Option 2 - Installer Menu Group y Enabled the menu group when assigned to a user and that user logs in to a keypad the Installer Login Trouble Zone will be opened.
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Area Groups To access the area group programming login using a valid master code and then select [MENU, 2, 3]. The screen displays "Area Group to modify" as shown in the following example. Area group to modify: AG001 Every time you press the Enter key, the next screen appears. The different screens are described in the following sub-sections. Programming the area groups in the Protege System allow you to configure how a user will interact with the areas in the system and what areas they are able to access.
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Use the [1] and [3] keys to scroll the secondary area group selection and press [ENTER] to select the area group displayed. For more information about the list control data entry refer to the section List Control Data Entry (see page 335). Programming a secondary area group that uses the current area group being edited will perform no function. Area Group Assignment Blocks 1 to 32 The area group assignment blocks assign an area to the group that is being programmed.
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Selecting a Door Group to Modify Each door group is assigned a unique door group number from 001 to 250. Door Group to modify: DG001 Type the appropriate 3-digit door group number or use the [Ð] and [Ï] keys to scroll the available door groups. When the desired door group appears on the screen, press [ENTER] to program the selected door group. The maximum number of door groups that can be programmed is limited by your system's memory and configured profile.
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Door Group Assignment Blocks 1 to 32 The door group assignment blocks assign a door to the group that is being programmed. Each block is 8 doors and the number of door blocks that can be programmed depends on the number of doors that the system is configured to manage. For example if there are 64 doors there will be 8 blocks of 8 doors. Block 1 option 1 will refer to Door 001 and Block 8 Option 8 will refer to Door 064.
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Door Group Door Schedules Each door within the door group can be assigned a schedule which will define when the door is valid. A screen will be shown below that will prompt for the door to modify in the door group. DG001 Door to modify: DR001 Type the appropriate 3-digit door number or use the [Ð] and [Ï] keys to scroll the available doors in the door group. When the desired door number appears on the screen, press [ENTER] to program the selected door.
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Access Level Name If the selected access level has a name associated (some access levels do not have a name associated with them) the name programming screen will be shown. AL001 Name Master To scroll access levels by name use the [Ð] and [Ï] keys. To modify or enter a new name for the selected access level use the keypad as explained in section Entering Text and Names (see page 333) and press [ENTER].
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Area Disarming Group A user that is assigned an area disarming group will also be able to arm and disarm the areas that belong to this group. AL001 Disarm Grp None Use the [1] and [3] keys to scroll the area group assigned to the disarm group option and press [ENTER] to select the area group displayed. For more information about the list control data entry refer to the section List Control Data Entry (see page 335). i The area disarming group will allow arming and disarming of all areas within the group.
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Elevator Floor Group An elevator floor group is assigned to an access level to allow a user to access floors within the elevator cars that are assigned. AL001 Floor Grp All Floors Use the [1] and [3] keys to scroll the elevator floor group selection and press [ENTER] to select the elevator floor group displayed. For more information about the list control data entry refer to the section List Control Data Entry (see page 335).
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Activation PGM or PGM Group You can assign a PGM or PGM group to activate whenever a user performs a valid action from an LCD Keypad or when a user is granted access after presenting their access control card to a reader in the system. The assigned PGM or PGM group only activates if the action performed by the user is permitted by the assigned access level. AL001 Select pgm: --000:00 To modify the PGM or PGM Group, use the settings as explained in section Entering PGM and PGM Groups (see page 336).
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into the area None y The final screen will display the reset options so that this user can be reset to a known state and gain access. A user can be reset if they have entered or exited an area without presenting their card generating an anti-passback violation. Press [1] to reset user. Elevator Groups To access the elevator group programming login using a valid master code and then select [MENU, 2, 7]. The screen displays "Elevator Grp to modify" as shown in the following example.
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Operating Schedule The operating schedule for the elevator group determines when the elevator group is valid and if it will use a secondary elevator group if the schedule is not valid. A schedule is a series of times and days that can be programmed to prevent the operating of functions based on a 7 day week and 24 hour clock. For more information on the programming of the schedule refer to the Schedule Programming section (see page 272).
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Block # Opt 1 Opt 2 Opt 3 Opt 4 Opt 5 Opt 6 Opt 7 Opt 8 5 Elevator 033 Elevator 034 Elevator 035 Elevator 036 Elevator 037 Elevator 038 Elevator 039 Elevator 040 6 Elevator 041 Elevator 042 Elevator 043 Elevator 044 Elevator 045 Elevator 046 Elevator 047 Elevator 048 7 Elevator 049 Elevator 050 Elevator 051 Elevator 052 Elevator 053 Elevator 054 Elevator 055 Elevator 056 8 Elevator 057 Elevator 058 Elevator 059 Elevator 060 Elevator 061 Elevator 062 Elevator 063 E
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Floor Group Name If the selected floor group has a name associated (some floor groups do not have a name associated with them) the name programming screen will be shown. FG001 Name All Floors To scroll floor groups by name use the [Ð] and [Ï] keys. To modify or enter a new name for the selected floor group use the keypad as explained in section Entering Text and Names (see page 333) and press [ENTER].
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Block # Opt 1 Opt 2 Opt 3 Opt 4 Opt 5 Opt 6 Opt 7 Opt 8 1 Floor 001 Floor 002 Floor 003 Floor 004 Floor 005 Floor 006 Floor 007 Floor 008 2 Floor 009 Floor 010 Floor 011 Floor 012 Floor 013 Floor 014 Floor 015 Floor 016 3 Floor 017 Floor 018 Floor 019 Floor 020 Floor 021 Floor 022 Floor 023 Floor 024 4 Floor 025 Floor 026 Floor 027 Floor 028 Floor 029 Floor 030 Floor 031 Floor 032 5 Floor 033 Floor 034 Floor 035 Floor 036 Floor 037 Floor 038 Floor 039 Flo
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Events To access the event review menu, login using a valid code that is allowed event menu access and then select [MENU, 3]. You can then select the event review function that you want to perform on your Protege System. The event menu contains three menu items. Event Review To access the event review screen select [MENU, 3, 1]. The screen will show the latest event that has occurred on the system at the time you selected the event review menu item. *Event Menu* 1.
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Hex Review To access the hex event review screen select [MENU, 3, 2]. The Hex Review screen will show the event information in a machine readable hexadecimal format. This information is primarily used for the verification of third party, OEM and external software that is used to access the Protege System event structure. For more information on event codes, event formats and the meaning of the data structures refer to appendix Event Code and Formats. *Event Menu* 2.
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y Pressing the [Ï] key will move you to the next display that will show the storage buffer end memory address. Storage Buffer End 49132AC6 y Pressing the [Ï] key once more will move to memory address pointed to by the current head pointer setting. Current Pointer Head 4632AC16 y Pressing the [Ï] key once more will move to memory address pointed to by the current tail pointer setting.
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Modules To access the module programming login using a valid installer code and then select [MENU, 4, 1]. You will then have a menu of modules that you can program in the Protege System. Modules are an important part of the system and are used to connect the system to Users (LCD Keypad Expander), Zones (Zone Expander), Card Reading Devices (Reader Expander) and Programmable Outputs (PGM Expander).
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Selecting a Keypad to Modify Each keypad is assigned a unique address from 001 to 250. Programming the address of the LCD Keypad Module (PRT-KLCD) is covered in the installation instructions included with your PRT-KLCD LCD Keypad Module. LCD Keypad to modify: KP001 Type the appropriate 3-digit LCD Keypad address or use the [Ð] and [Ï] keys. When the desired address appears on the screen, press [ENTER] to program the selected LCD Keypad.
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Module Polling Time The polling time defines how often the LCD Keypad checks in with the Protege System Controller. If a LCD Keypad fails to check in, it triggers its associated communications failure trouble zone (KPxxx:08) and the trouble zone for a general module communications failure. To enter a polling time (008 to 250 seconds), use the keypad as explained in section Entering Decimal Numbers (see page 333) and press [ENTER]. By default the LCD Keypad polling time is set to 250 seconds.
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Keypad Control Door The keypad control door configured will be is used by the keypad when the door control option is enabled. This allows a door to be unlocked (similar to a request to exit) by pressing and holding the [FUNCTION] key for two seconds. KP001 Ctrl Door None Use the [1] and [3] keys to scroll the door selection. For more information about the list control data entry refer to the section List Control Data Entry (see page 335).
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Keypad Module Options Options that relate to the keypad module can be set using option entry. KP001 Module [1-34----] To modify options, use the keypad as explained in section Entering Data Options (see page 336). Option 1 - Beep on Key Press y y Enabled the keypad will NOT beep when a key is pressed. Disabled the keypad will generate a beep tone each time a key is pressed.
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Option 4 - Trouble Display y y Enabled the keypad will lockout any user activity for the programmed lockout time if three invalid PIN numbers are entered. This option will have no affect if the lockout time is programmed to 0 seconds. Disabled the keypad will perform no action on an invalid PIN. Option 5 - Bypassed Zone Display y y When enabled the keypad will display the message zone(s) bypassed when a zone has been bypassed in the system or primary area depending on the setting of option 7.
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Option 4 - Area Group Access y y Enabled the keypad will allow the area group access screen to be accessed by pressing the [Î] key when the user is logged in and at the area display screen. Disabled the keypad will not allow access to the area groups screen. Option 5 - Unlock Assigned Door Offline y y Enabled the keypad will allow the [FUNCTION] key to be pressed and held generating an unlock request for the assigned door.
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Option 3 - Event Review Menu y y Enabled the keypad will allow access to the Event Review Menu if no user is logged in and a user press's the [MENU] key. Disabled the keypad will not allow access to the Event Review Menu offline. Option 4 - Keypad Information Menu y y Enabled the keypad will allow access to the Keypad Information Menu if no user is logged in and a user press's the [MENU] key. It is recommended to leave this option enabled.
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The display above represents the following information for the selected keypad: 92-A8-90-C2 Serial Number of the registered keypad at this address. [9F] The current polling timeout value. V 1.04 Software version of the registered keypad. 1833 Software build number. R The expander is registered ('*' will indicate no expander registered) O ('*' will indicate the expander is offline) To view the IP address of the module press the [Ï] key from this view. RS-485 LAN "---.---.---.
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Option 2 - Bell Over Current Requires Acknowledge y Enabled the bell over current condition will remain until the trouble condition is acknowledged in the system controller at which point all bells (if more than one bell has a problem) will be cleared and reset. i y When installing a system to conform to UL or ULC requirements this option must be enabled. When the option is disabled and a bell over current condition occurs the bell output will be turned off.
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Displaying Selected 16 PGM Expander Information It is possible to show the current 16 PGM Expander registration and information details (registration, online and version) from the 16 PGM expander selection display. 16 PGM Exp to modify: PX001 Type the appropriate 3-digit 16 PGM Expander address or use the [Ð] and [Ï] keys. When the desired address appears on the screen, press the [ARM] key to display information on the selected 16 PGM Expander.
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PGM Expander Module Options Options that relate to the PGM expander module can be set using option entry. PX001 Module [--------] To modify options, use the keypad as explained in section Entering Data Options (see page 336). Option 1 - High Current Charging y Enabled the high current charging option will set 700mA charging in the power supply system. For PGM expanders that do not have a power supply this option performs no function.
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Displaying Selected 2 Reader Expander Information It is possible to show the current 2 Reader Expander registration and information details (registration, online and version) from the 2 Reader Expander selection display. 2 Reader Exp to modify: RD001 Type the appropriate 3-digit 2 Reader Expander address or use the [Ð] and [Ï] keys. When the desired address appears on the screen, press the [ARM] key to display information on the selected 2 Reader Expander.
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Module Polling Time The polling time defines how often the Reader Expander module checks in with the Protege System Controller. If a Reader Expander fails to check in, it triggers its associated communication failure (RDxxx:16) trouble zone and the trouble zone for a general module communications failure. To enter a polling time (008 to 250 seconds), use the keypad as explained in section Entering Decimal Numbers (see page 333) and press [ENTER].
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Reader Port 1 Mode The reader mode setting determines what function the reader attached to port one will perform. RD001 R1 Mode Access Use the [1] and [3] keys to scroll the reader mode settings. For more information about the list control data entry refer to the section List Control Data Entry (see page 335). Operating Mode Operation Access The reader expander port is used to control access through doors. You must configure the door that is controlled by this reader expander.
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Reader Port 1 Reading Format The reading format is used to inform the reader expander what type of card readers are connected to the reader port one. The reader expander supports nearly all publicly available protocols and some special protocols. Any 26 or 37 bit card reader that conforms to the standard format specification will work on the PRT-RDI2 Reader Expander. RD001 Format 26 Bit Use the [1] and [3] keys to scroll the available card reader format settings.
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Format Description Kantech 39 Bit A Kantech Systems of Canada format that uses 39 bits of information with a 8 bit facility code and 24 bit card number. Setec 37 Bit A Setec Card Reader format that is similar to the 37 Bit format however overall parity is used in place of the individual 4 parity bits. Motorola ABA T2 Motorola Indala produced card readers that were capable of outputting a multiple format.
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Format Description Auto Wiegand Automatically selects the best available Wiegand format from the formats to decode the card. Auto Magnetic Automatically selects the best available Magnetic Card format from the formats to decode the card data. 36 Bit (IEI) A standard 36 Bit Output format that is compatible with the IEI keypads, this allows wiegand data to be received from the keypad as a card number. This format can also be used with compatible card reading devices.
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Reader Port 1 Reader Type The reader type informs the reader expander which location of the door the reader is installed that is connected to the reader expander port one. The reader expander uses this information to pass the correct direction of travel to the door control functions. For an access door this should be set to ENTRY reader.
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i When a Wiegand 26 Bit or 36 Bit Keypad is used PIN numbers that are prefixed with a 0 can not be used and a maximum pin number of 65533 can be used for 26 Bit and 999999 for 36 Bit. This is a limitation of the 26 Bit and 36 Bit Format and not the Reader Expander. To utilize the full 8 digit capacity for the PIN number of a user and allow prefixed PIN numbers select a PIN device that supports the ARK-501 or Bit Buffered Outputs.
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Option 1 - Reader On Unlock and Door Open y Enabled the reader expander will send card information to the system controller when a door is unlocked or opened. This option is set by default and should be left set if the door controls areas or time and attendance events are required from the reader port Disabled the reader performs no action when a card is presented and the door is unlocked or open.
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Reader Port 1 Miscellaneous Options Options that relate to the miscellaneous reader functions. RD001 R1 Misc [--------] To modify options, use the keypad as explained in section Entering Data Options (see page 336). Option 1 - Disarm Area y Enabled the reader process will disarm the area designated by the reader type (ENTRY or EXIT) and the door configuration programmed (If it has an area on the inside or outside assigned).
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Reader Port 1 Extra Options Options that relate to the extra reader functions. RD001 R1 Extra [--------] To modify options, use the keypad as explained in section Entering Data Options (see page 336). Option 1 - Entry Blocked Beam Input y y Enabled the reader expander will process the sense input for beam control. Beam control allows the reader expander to control a automatic gate that must have it's contacts held open in the even the pathway is blocked.
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Reader Port 1 Process Options Options that relate to the extra reader functions. RD001 R1 Process [--------] To modify options, use the keypad as explained in section Entering Data Options (see page 336). Option 1 – Convert Force to Door Open y y Enabled the reader expander will process door forced open events as door open events. Disabled the reader will process forced door events as normal.
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Reader Port 1 Function PGM You can assign a PGM or PGM group that is used by the multiple badge options. RD001 R1 Func pgm: --000:00 To modify the PGM or PGM Group, use the settings as explained in section Entering PGM and PGM Groups (see page 336). Reader Port 2 Mode The reader mode setting determines what function the reader attached to port two will perform. RD001 R2 Mode Access Use the [1] and [3] keys to scroll the reader mode settings.
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Reader Port 2 Elevator Car The reader elevator car is used when the reader port 2 mode of operation is configured for Elevator Control mode. When configuring the elevator control mode you must also configure the elevator number for the reader expander that the floor control relays are located on, this is typically the same reader expander that the card reader is connected to. For information on programming the elevator car refer to the Elevator Programming Section (see page 141).
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Arming Mode Operation ENTRY Reader The reader is located on the outside of the door and is used to enter in to the area that is being protected by the door. This is the default setting and should be set for all general access doors (single reader) EXIT Reader The reader is located on the inside of the door and is used to exit out of the area that is being protected by the door. If the reader expander is configured for multiplex reader mode the multiplexed reader is ALWAYS the EXIT reader.
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Mode Operation None No action will be taken by the system for arming an area associated with the door. Arm on 2 Reads Two successive reads from the same user will result in the inside or outside area (depending on the card reader type configuration) starting the arming process. Arm on Card Read and Zone Input 8 Pressing and holding Zone Input 8 (RDXXX:08) while presenting a card will begin arming.
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Option 5 - Request To Exit (REX) Enabled y y Enabled the reader expander will generate request to exit events from the REX input on the reader expander. Disabled the keypad will not generate any REX events. Option 6 - Request To Enter (REN) Enabled y Enabled the reader expander will generate request to enter events from the REN input on the reader expander.
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Option 5 - Swap LED Lock Display y y Enabled the LED display associated with the lock status will follow lock output one. Use this option when a reader expander is used in an ENTRY and EXIT configuration and only one lock output is controlling the door. Disabled the lock and LED display is processed normally. Option 6 - Activate Access Level PGM y Enabled the reader expander will activate the PGM assigned to the users access level that gained access to the door or reader.
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Option 6 - Request To Exit Operates Always y y Enabled the reader will always allow a request to exit event EVEN if the door is forced open. This will not restart the forced door or the door alarm operation. Disabled REX input will operate only when the door is closed. Option 7 - Recycle Door Open Too Long Timer On Request To Exit Operation y y Enabled the reader will extend the door open time when the REX is received.
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Option 1 – Invert Floor Relays y y Enabled the reader expander will invert all the relays on the PX16's connected that are used for elevator control. Disabled the reader will not invert the relays. Option 2 – Control on Comm Fail y y Enabled the PX16 used for elevator control will control the state of the relays when they go offline. Option 3 determines the state the relays will go into. Disabled the PX16 used for elevator control will not change the state of the relays when they go offline..
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Analog Expander To access the Analog Expander module programming, login using a valid installer code and then select [MENU, 4, 1, 5]. The screen displays "Analog exp to modify" as shown in the following example. Analog Exp to modify: AE001 Every time you press the Enter key, the next screen appears. The different screens are described in the following sub-sections.
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To view the IP address of the module press the [Ï] key from this view. RS-485 LAN "---.---.---.---" will be displayed. If the module is connected over the To list all offline or online modules refer to the Module Network Functions (see page 201). Special functions are provided to update and update reset a module individually by using a shortcut key directly from the keypad selection screen.
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Analog Expander Channel 1 Options The channel one options configures the first channel on the Analog Expander. Please not that the settings may not relate to the particular device connected. Some options relate to the PRT-DAC4 Analog Output Expander and others to PRT-ADC4 Analog Input Expander. i The channel options require a module init or module init with reboot to take affect with the exception of the Log Channel Data Option 7, which is a controller based configuration setting.
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Analog Channel 1 Update Time When the analog input expander is used the channel will generate analog information that is stored in the variable associated with the analog expander. The data can be programmed to be sent in various incremental values. As many elements that are monitored by sensors operate slowly we recommend using the longest times possible. This also reduces the risk of disturbances due to interference as the input is averaged over the period of time being sampled.
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Zone Inputs To access the zone programming, login using the valid installer code and then select [MENU, 4, 2, 1] for zone programming, [MENU, 4, 2, 2] for trouble zone programming and [MENU, 4, 2, 3] for zone type programming. The Zones menu enables you to set up and program all the zones in your system. i Zones and trouble zones can only be programmed when the areas they are assigned to and the area's 24hr processing are disarmed/disabled, refer to Arm and Disarm Operations.
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Selecting a Zone to Modify Each zone is assigned a unique identification that uses the Protege Notation. Select zone to modify: CP001:01 Type the appropriate module type, module address and zone number or use the [Ð] and [Ï] keys to scroll the available zones. When the desired zone number appears on the screen, press [ENTER] to program the selected zone number.
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However, the zone can still be force armed if the Force Arming option is turned on. In order to avoid this, and to insure that the zone is not ignored when force arming, the Zone Force Arming option should be turned off. y Disabled the zone can be latch bypassed. Option 5 - Zone State Inverted y Enabled the zone the will operated in an inverted mode. By default all zones are normally closed, setting this option will change the zone to normally open.
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Option 4 - Zone Uses 6K8 and 2K2 EOL Resistors y y Enabled the zone will use the 2 EOL resistor wiring configuration with a 6K8 and 2K2 resistor. For this option to operate you MUST also have option 3 enabled. Disabled the zone will use the default EOL resistors if enabled. Option 5 - Zone Uses 10K and 10K EOL Resistors y y Enabled the zone will use the 2 EOL resistor wiring configuration with a 10K and 10K resistor. For this option to operate you MUST also have option 3 enabled.
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Zone Type First Area Assignment When a zone is assigned to an area the zone must be programmed with the type of zone (Delay, 24HR etc). The Protege System has twelve predefined zone types as well as user definable zone types. CP001:01 Type 1 None Use the [1] and [3] keys to scroll the available zone types that can be assigned to the zone. For more information about the list control data entry refer to the section List Control Data Entry (see page 335).
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Zone Fourth Area Assignment The zone must be assigned to an area for it to perform any function in the system and a zone can be assigned in up to 4 different areas. A zone can perform a different function in each area. For example a zone can be a delay zone in one area and an instant zone in another. CP001:01 Area 4 None Use the [1] and [3] keys to scroll the available areas that can be assigned to the zone.
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Zone Alarm Zone Speed This determines how long a zone must be open for before an alarm event will be generated. This can be set from 0 seconds up to 1 hour. If the Alarm Zone Speed is set at 0 seconds, the Restore Zone Speed can not be set below 100ms. CP001:01 Alarm 500 msec Use the [1] and [3] keys to scroll the available areas that can be assigned to the zone. For more information about the list control data entry refer to the section List Control Data Entry (see page 335).
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Selecting a Trouble Zone to Modify Each trouble zone is assigned a unique identification that uses the Protege Notation. Trouble zone to modify: CP001:01 Type the appropriate module type, module address and trouble zone number or use the [Ð] and [Ï] keys to scroll the available trouble zones. When the desired trouble zone number appears on the screen, press [ENTER] to program the selected trouble zone number.
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Trouble Zone Trouble Group The high level of flexibility that is provided with the Protege System allows the definition of the trouble type and group that is generated by a trouble zone. Troubles are grouped by a trouble group and then a trouble type within the group. When the trouble zone generates an alarm it will also generate the appropriate trouble condition that is configured.
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System Trouble Group Type Description Module Tamper A module in the system has been tampered. Module Loss A module has failed to communicate with the system controller. Module Security A module has attempted to register with the system controller however the system controller is secured. Hardware Fault The system controller can not communicate with an accessory interface board or a device that is connected to the system controller has a hardware failure.
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Trouble Zone Type First Area Assignment When a trouble zone is assigned to an area the zone must be programmed with the type of trouble zone (Trouble Silent, Trouble Bell etc). CP001:01 Type 1 Trouble Silent Use the [1] and [3] keys to scroll the available zone types that can be assigned to the trouble zone. For more information about the list control data entry refer to the section List Control Data Entry (see page 335).
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Trouble Zone Fourth Area Assignment The trouble zone must be assigned to an area for it to perform any function in the system. By default ALL trouble zones are assigned to the predefined trouble area which is the last programmable area in the system. A trouble zone can be assigned in up to 4 different areas. A trouble zone can perform a different function in each area. CP001:01 Area 4 None Use the [1] and [3] keys to scroll the available areas that can be assigned to the trouble zone.
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Secondary Zone Type A secondary zone type can be selected that will be used when the schedule of the zone type that is programmed is not valid. The schedule of the secondary zone type must be valid or set to none. ZT001 Secondary None Use the [1] and [3] keys to scroll the secondary zone type selection and press [ENTER] to select the zone type displayed. For more information about the list control data entry refer to the section List Control Data Entry (see page 335).
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Zone Type Alarm Options Alarm options for the zone type configure the operation of the zone type when an alarm, restore and tamper are generated. ZT001 Alarm [12345---] To modify options, use the keypad as explained in section Entering Data Options (see page 336). Option 1 - Process Alarms y y Enabled the zone type will process alarms from the zone that it is assigned. Disabled the zone type will perform no function on an alarm being generated.
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Zone Type Report Options Reporting options for the zone type configure the operation of the zone type when reporting to a communication service and includes options for various other zone type options. ZT001 Report [--------] To modify options, use the keypad as explained in section Entering Data Options (see page 336). Option 1 - Report Alarm y y Enabled the zone type will generate a reportable alarm message. Disabled the zone type does not generate a reportable alarm message.
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Zone Type Miscellaneous Options Miscellaneous options for the zone type configure options for various functions. ZT001 Misc [1-3-----] To modify options, use the keypad as explained in section Entering Data Options (see page 336). Option 1 - Generate Siren Bell Output y y Enabled the zone type will activate the siren bell output programmed for the area. Disabled the zone type will not generate a bell output.
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Zone Type PGM Options PGM options for the zone type configure options for various functions that control the PGM's programmed in a zone type. ZT001 Pgm Ctrl [--------] To modify options, use the keypad as explained in section Entering Data Options (see page 336). Option 1 - Activate Bypass PGM y y Enabled the zone type will activate bypass PGM for the area if a zone is bypassed. Disabled the zone type will not activate the bypass PGM.
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Zone Type Automation Options Automation options for the zone type configure options for various functions that relate to the control of automation control settings. The options to control the 24Hr bell are also located in the Automation options. ZT001 Auto Ctrl [--------] To modify options, use the keypad as explained in section Entering Data Options (see page 336).
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Zone Extra Options Additional options for setting up the Zone Type. ZT001 Extra [--------] To modify options, use the keypad as explained in section Entering Data Options (see page 336). Option 1 - Always Log Zone Event y y Enabled, if the 'Log to Event Buffer' option in the Zone options is deselected, then over-ride this and log the Event anyway.
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Option 6 – Toggle Zone Control PGM On Restore y y Enabled the zone control PGM will be toggled when the zone goes in to alarm. You can use this option to activate a PGM on alarm and deactivate on the next alarm. This is ideal for lighting control and automation applications. Disabled the zone type takes no action on the zone control PGM.
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PGM Outputs PGM's are programmable outputs that can change state (ON or OFF) when a specific event occurs in the system. For example, a PGM can be programmed to activate an LED or beeper. To access the PGM programming menu, login using a valid installer code that is allowed PGM programming access and then select [MENU, 4, 3]. The PGM's Menu enables you to set up and program all the PGM's in your system. This includes setting an activation time and special options for each PGM within the Protege System.
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Activation Schedule The activation schedule is programmed to activate the PGM at a certain time of the day or to activate the PGM between certain hours. The schedule will be checked at the start and end times and if the start is valid the PGM will be activated, if the end time of the schedule is valid the PGM will be deactivated. If a PGM is controlled by an operator, user or other function during this activation time and is deactivated it will remain in the deactivated state.
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Option 5 - Inverted Operation y y Enabled the PGM will operate inverted. Deactivation will result in the PGM being activated and activation will result in the PGM being deactivated. Disabled the PGM will operate normally. Option 6 - Activate On Module Power Up and Reset y When enabled the PGM will activate when the module powers up, this will be overridden by the current state that is held in the controller.
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Area An installation may contain any number of areas or partitions depending on the configuration and size of the system needed. Areas can contain zones and trouble zones that protect the area. Zones can be assigned to as many as four areas and perform a different function in each area individually of the other area's status. Any area may also contain no zones and be used to control lighting, car parking, user loiter functions, automatic teller machines, banking and money trail control.
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Area Entry Delay Time Setting an entry delay time for the area allows users that have entered a secured point to have time to disarm the area before the area generates an alarm. Only zones that have a zone type assigned with an entry delay option set will start the entry delay timer for the area. AR001 Entry time: 060 secs To enter a entry delay time (000 to 250), use the keypad as explained in section Entering Decimal Numbers (see page 333) and press [ENTER].
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Re-Arm Delay Setting the re-arm delay will result in the area automatically re-arming after the re-arm timer has elapsed. This should be programmed for area's used to monitor and control system functions that should not be disarmed. This is also used to control vault and automatic teller machines when using the banking area functions to prevent an area from being disarmed for longer than a the time programmed.
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Code Delay Time The code delay time is used in conjunction with the Automatic Teller Machine control and banking control functions. Setting a code delay time will cause the area to wait for a code for the delay by the programmed time. AR001 Code dly time: 000 secs To enter a code delay time (000 to 250 seconds), use the keypad as explained in section Entering Decimal Numbers (see page 333) and press [ENTER].
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Area Interlock Group Assignment An area interlock group can be assigned to an area to prevent it from being armed or disarmed depending on the status of all area's within the assigned interlock group. AR001 Interlock None Use the [1] and [3] keys to scroll the area group selection and press [ENTER] to select the area group displayed. For more information about the list control data entry refer to the section List Control Data Entry (see page 335).
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Bell PGM Pulse ON Time The bell/siren pulse on time is used to make the PGM output pulse on and off when activated. The value entered here must be greater than 0 and is in increments of 100ms. For example setting 10 will pulse the unit on for 1 second and then off for the programmed time set in the pulse off section. AR001 Bell time: 000 on To modify the pulse on time (000 to 255 100ms Increments), use the keypad as explained in section Entering Decimal Numbers (see page 333) and press [ENTER].
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Entry Delay PGM Pulse OFF Time The entry delay PGM pulse off time is used to make the PGM output pulse on and off when activated. The value entered here must be greater than 0 and is in increments of 100ms. For example setting 10 will pulse the unit off for 1 second and then on for the programmed time set in the pulse on section.
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Armed PGM or PGM Group You can assign a PGM or PGM group to activate whenever the area completes the arming cycle. The armed PGM or PGM Group will be deactivated when the area completes the disarming cycle. Use this to drive local indicators on keypads, card readers and relays for signaling that the system is armed. AR001 Armed pgm: --000:00 To modify the Armed PGM or PGM Group, use the settings as explained in section Entering PGM and PGM Groups (see page 336).
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Disarmed PGM Pulse ON Time The disarmed PGM pulse on time is used to make the PGM output pulse on and off when activated. The value entered here must be greater than 0 and is in increments of 100ms. For example setting 10 will pulse the unit on for 1 second and then off for the programmed time set in the pulse off section. AR001 Disarmed time: 000 on To modify the pulse on time (000 to 255 100ms Increments), use the keypad as explained in section Entering Decimal Numbers (see page 333) and press [ENTER].
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Bypass PGM Pulse OFF Time The bypass PGM pulse off time is used to make the PGM output pulse on and off when activated. The value entered here must be greater than 0 and is in increments of 100ms. For example setting 10 will pulse the unit off for 1 second and then on for the programmed time set in the pulse on section. AR001 Bypass time: 000 off To modify the pulse on time (000 to 255 100ms Increments), use the keypad as explained in section Entering Decimal Numbers (see page 333) and press [ENTER].
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Memory PGM or PGM Group You can assign a PGM or PGM group to activate whenever the area has an alarm and the PGM or PGM group will remain activated. The memory PGM or PGM Group will be deactivated when the area completes the disarming cycle. Use this to drive local indicators on keypads, card readers and relays for signaling that the system has had an alarm activation.
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Count PGM Pulse ON Time The count PGM pulse on time is used to make the PGM output pulse on and off when activated. The value entered here must be greater than 0 and is in increments of 100ms. For example setting 10 will pulse the unit on for 1 second and then off for the programmed time set in the pulse off section. AR001 Count time: 000 on To modify the pulse on time (000 to 255 100ms Increments), use the keypad as explained in section Entering Decimal Numbers (see page 333) and press [ENTER].
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Defer PGM Pulse OFF Time The defer PGM pulse off time is used to make the PGM output pulse on and off when activated. The value entered here must be greater than 0 and is in increments of 100ms. For example setting 10 will pulse the unit off for 1 second and then on for the programmed time set in the pulse on section. AR001 Defer arm time: 000 off To modify the pulse on time (000 to 255 100ms Increments), use the keypad as explained in section Entering Decimal Numbers (see page 333) and press [ENTER].
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Normal Operating Schedule The normal operating schedule defines the times when the area should be armed and disarmed. This is used to generate the Early/Late to Arm and Disarm Events (see Special Options (see page 127) to enable these events). AR001 Normal Sch None Period 1 of the schedule defines the time period when the area can be disarmed (Option 5 of the Special Options must be enabled for these events to be generated).
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Use this option when multiple areas are assigned the same child area that needs to be controlled with a specific disarming and arming order. This effectively allows an OR and AND operation to be done on the child area. y Disabled the child area, if option 3 is enabled, will be armed when the parent (this) area arms. Option 5 - Disarm Child Area y y Enabled the child area will only be disarmed when the parent (this) area disarms.
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Option 5 - User Counting y y Enabled the users that access this area will be counted using the area counting function. Disabled the area will not perform any counting. Option 6 - Arm On Count Reaching 0 y y Enabled the area will arm when the count in the area reaches the terminal 0 count. Disabled the area will not perform any function on the count reaching 0.
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y Disabled the area will arm regardless of the count value. Option 8 - Validate Schedule Each Minute y y Enabled the area will verify that the programmed schedule has not changed or the area has not be disarmed when it should be armed. This will occur every one minute period. Disabled the area does not check the schedule each minute.
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Area Squawk Options The squawk options determine if the Bell PGM is activated with one short squawk when the system is armed and two short squawks when the system is disarmed. AR001 Special [--------] To modify options, use the keypad as explained in section Entering Data Options (see page 336). Option 1 – Bell Squawk Arm Start y y Enabled the area will squawk the Bell PGM when the arming process starts. Disabled the area will not squawk.
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Access Control To access the access programming menu, login using a valid code that has access to the access programming menu and then select [MENU, 5]. The Access menu enables you to set up and program all the doors in your system. This includes setting areas outside and inside the door as well as special options for each door. To allow certain users access to a door the users access level must have a door group assigned. To create or modify door groups refer to the door group programming section.
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Door Name If the selected door has a name associated (some doors do not have a name associated with them) the name programming screen will be shown. DR001 Name *Door 001 To scroll doors by name use the [Ð] and [Ï] keys. To modify or enter a new name for the selected door use the keypad as explained in section Entering Text and Names (see page 333) and press [ENTER]. By default the door name will be prefixed by an '*' this indicates that the name is an editable name in the system.
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Inside Area The inside area defines which area is on the inside of this door. This is used to prevent a user from gaining access to a door when the area is armed and they can not disarm it as well as automatically disarming the area when the door is accessed. Using the door and area control integrates the two systems and is an ideal solution to false alarm prevention. DR001 Inside None Use the [1] and [3] keys to scroll the inside area selection and press [ENTER] to select the inside area displayed.
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Pre-Alarm Time The pre-alarm time is programmed to allow the door to be left open for a certain period before it will generate a pre-alarm condition. When the pre-alarm condition is reached this will typically activate a PGM on the PRT-RDI2 that is controlling the door. DR001 Pre-Alarm time: 030 secs To modify the pre-alarm time (000 to 255 Seconds), use the keypad as explained in section Entering Decimal Numbers (see page 333) and press [ENTER].
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Pre Alarm PGM Pulse OFF Time The pre alarm PGM pulse off time is used to make the PGM output pulse on and off when activated. The value entered here must be greater than 0 and is in increments of 100ms. For example setting 10 will pulse the unit off for 1 second and then on for the programmed time set in the pulse on section.
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Forced Open PGM or PGM Group You can assign a PGM or PGM group that will activate when the door is forced open without any access. Use this feature to activate a local PGM at the door indicating it has been forced. To generate an alarm on a forced door use the forced door trouble zone and assign this to an area so that a report can be sent to a monitoring station or locally control computer.
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Option 2 - Door Open Event When On Schedule y y Enabled the door will not log a door opened event when it is unlocked on schedule. This will prevent the door from filling the event buffer with events that are not needed. Disabled the door will generate a door open and close. Option 3 - Generate Door Pre-Alarm Event y y Enabled the door will generate a pre-alarm event when the pre-alarm timer for the door is reached. Disabled no pre-alarm event will be generated.
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Option 4 - Prevent Unlock By Schedule If Inside Area Armed y y Enabled the door will not unlock when the schedule is valid if the inside area is armed. Use this option with the late open option to prevent false alarms by entry of personal before an area is disarmed. This option only operates if the option 1 and 2 are not enabled. To prevent unlocking and locking based on schedule and area status set option 6 and 7 to the required values. Disabled the door will unlock normally on schedule.
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Option 4 – Deny Entry if Inside Area Armed y y Enabled the door will deny any entry if the inside area is armed. Disabled the inside area will not affect the access decision. Option 5 – Deny Exit if Outside Area Armed y y Enabled the door will prevent any exit if the outside area is armed. Disabled the outside area will not affect the access decision.
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Door Type Each door type is assigned a unique door type address. There are four default door types that will cover nearly all the configurable options. To access door type programming, login using a valid code that has access to the door type programming menu and then select [MENU, 5, 2]. The screen will then prompt you to "Select a door type to modify" requesting that you enter a door type number. Type the appropriate 3-digit door type number or use the [Ð] and [Ï] keys to scroll the available door types.
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Use the [1] and [3] keys to scroll the schedule selection and press [ENTER] to select the schedule displayed. For more information about the list control data entry refer to the section List Control Data Entry (see page 335). If a schedule is selected and no secondary door type is programmed all doors that are assigned this door type will not function when the schedule becomes invalid.
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Anti Pass Back Exit Operation Mode The reader anti pass back operation mode determines how an exit reader controls the ability for a user to pass back their card or details for another person to gain access while they are already inside a protected area. The Protege System use's global anti pass back per controller. Selecting soft pass back will allow the user to exit however it will log an error in the buffer that a pass back violation has occurred.
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Elevator Each elevator is assigned a unique elevator address. Elevators are used for the control of access by users or to monitor and control floors in a multi story high rise buildings. Elevator to modify: EL001 To access elevator programming, login using a valid code that has access to the elevator programming menu and then select [MENU, 4, 5, 3]. The screen will then prompt you to "Select a Elevator to modify" requesting that you enter a elevator number.
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Option 2, 3, 4, 5, 6, 7 and 8 - Reserved y Reserved do not modify Reader Expander The reader expander selection programs the elevator to send the activation of floor information and floor selection to the reader expander programmed. You must also set the port number in the next screen to the appropriate port driving this elevator. EL001 Reader None Use the [1] and [3] keys to scroll the reader expanders that are available and press [ENTER] to select the expander displayed.
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Floor Operation Schedule The floor operation schedule can be assigned to each floor allowing the floor to unlock at the programmed times within the schedule. A schedule is valid when the time of day falls between any start and end time provided the day of the week is selected and holidays are not affecting the schedule. For more information on the programming of the schedule refer to the Schedule Programming section (see page 272).
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Floor Each floor is assigned a unique floor number in the Protege System. Each elevator can have a maximum of 128 floors. Floors are given a name that is used when generating events and reporting information. Floor to modify: FL001 To access elevator programming, login using a valid code that has access to the floor programming menu and then select [MENU, 4, 5, 3]. The screen will then prompt you to "Select a Floor to modify" requesting that you enter a floor number.
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Group Groups of objects allow you to control multiple objects in the Protege System. Groups include PGM and Keypad Groups. To go to the groups sub menu select [MENU, 4, 6]. You can then select from the PGM Group or Keypad Group menu or scroll the menu using the [Ï] and [Ð] keys. PGM Group To access the PGM group programming login using a valid installer code and then select [MENU, 4, 6, 2]. The screen displays "PGM Group to modify" as shown in the following example.
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PGM Number 2 In PGM Group Each PGM group can be assigned up to 8 PGM's program the item number 2 of 8 in this location. PG001 Item [2] pgm: --000:00 To modify the PGM item 2 entry, use the settings as explained in section Entering PGM and PGM Groups (see page 336). You can not program a PGM group that will reference a PGM group in the PGM item settings. PGM Number 3 In PGM Group Each PGM group can be assigned up to 8 PGM's program the item number 3 of 8 in this location.
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PGM Number 8 In PGM Group Each PGM group can be assigned up to 8 PGM's program the item number 8 of 8 in this location. PG001 Item [8] pgm: --000:00 To modify the PGM item 8 entry, use the settings as explained in section Entering PGM and PGM Groups (see page 336). You can not program a PGM group that will reference a PGM group in the PGM item settings. Keypad Group To access the keypad group programming login using a valid installer code and then select [MENU, 4, 6, 2].
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Secondary Keypad Group A secondary keypad group can be selected that will be used when the schedule of the keypad group that is being programmed is not valid. The schedule of the secondary area group must be valid or set to none. KG001 Secondary None Use the [1] and [3] keys to scroll the secondary keypad group selection and press [ENTER] to select the keypad group displayed. For more information about the list control data entry refer to the section List Control Data Entry (see page 335).
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Reporting The reporting of messages and control of communication services is done from within the reporting menu. The reporting menu allows the programming of services for communication to central station monitoring systems, offsite ModBUS communication receivers, local computer monitoring using the PRT-SMGT Protege System Management Suite and dial up communication. To go to the reporting menu select [MENU, 4, 7].
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Controlling Services (Starting and Stopping) For a service to start performing the function that it is programmed for you must start the service. This is achieved by using the [1] key to start a service and the [2] key to stop a service. If the service is running when you selected it to program a message will be displayed to indicate the service is locked and can only be viewed.
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Service Type Function ModBUS (Remote) The ModBUS remote protocol communicates with a remote Protege System using intelligent on-demand reporting for large scale, wide area monitoring using a standard SCADA package while adding the ability to protect and control access to the remote outstation. Monitor Phone Monitors the onboard modem for incoming upload/download connections, performs line fault monitoring and pc callback functions.
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Contact ID Client Code The contact ID client code is used to identify the system to the remote monitoring company when a report is generated. The client code will accept hexadecimal numbers however this will be dependent on the ability of the receiver and should be verified before configuration. SV001 Client code: 0000 Type the appropriate 4 digit client code, after each digit you must press [Í] and [Î] to move to the next digit.
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Backup Phone Number The backup phone number will be dialed by the contact ID service if a connection with the central station can not be made on either the primary or secondary phone number. This will be dialled after the total number of attempts is reached on the primary and secondary numbers. The backup number will be dialled for the configured number of dialing attempts programmed for the service.
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Events Options The events options allow you to filter the type of events that this contact ID service will send to the monitoring station. SV001 Events [123456--] To modify options, use the keypad as explained in section Entering Data Options (see page 336). Option 1 - Report Opens y y Enabled the service will report opens (Disarming) for the areas that are part of the area group assigned. An area group of none will mean ALL areas will be sent using this service. Disabled the dialer will not report opens.
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i y When using a service in Back Up mode the service should be programmed with the same area group and account code as the service it is backing up. In some cases it may be desirable to program a different account code for the back up service. Consult with your Monitoring Station Operator to ensure you correctly configure the back up service. Disabled the dialer will operate as a normal service and report alarms as programmed.
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Dialing Attempts The dialing attempts determine how many times the dialer will attempt to dial a number before failure. This setting will be overridden by the modem configuration dependent on the country of installation. For UL and ULC installations this value can not be set above 8 and will be internally restricted if a value is programmed above this value. The dialing attempts operates in conjunction with the dialing delay setting.
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Off Hook PGM The off hook PGM is activated when the service takes the telephone line and is deactivated when the service completes communication. This PGM setting can be used with remote exchange systems that require ground start communication connections. SV001 Off Hook pgm: --000:00 To modify the off hook PGM, use the settings as explained in section Entering PGM and PGM Groups (see page 336).
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Option 1 - Telephone Line Monitoring y Enabled the service monitor the telephone line for a disconnection or out of tolerance loop value. The TLM failure will open the phone line trouble zone, for a list of trouble zones refer to the Trouble Zone section (see page 94). Only telephone line 1 (T1 and R1) can be monitored for telephone line or loop failures. y Disabled the service will not monitor the telephone line.
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Carrier Delay Time The carrier delay time is used when the service is performing a dial out to a remote computer or system. The carrier delay time determines how long the service will wait for a carrier and connection to be made with the remote system. The time set should include in call progression and rings to answer time for the remote system and any variance in these times.
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Service Mode 1 The service mode determines how this service operates with the system controller. By default a service is set to start with the operating system. Setting a service to "Start With The Operating System" (Start With O/S) allows the service to operate automatically, if the system controller is reset or restarts the service will automatically restart with the operating system. Manual control of the service can be set by using the Manual option for the service mode.
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Reporting Options The Reporting Options contain the advanced features of the Protege SMGT Service. These are used to set up 'offline' reporting of events back to the Protege Management Suite using a TCP/IP connection. SV001 Report Opt [-2------] To modify options, use the keypad as explained in section Entering Data Options (see page 336).
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Server IP Address The Server IP Address is the IP address of the Protege System Management Suite that the Controller reports events to when the server is not connected. SV001 Server IP 000.000.000.000 To modify the IP address use the keypad as explained in section Entering Decimal Numbers (see page 333). Press [ENTER] to save the Octet that is being entered and move to the next Octet or the next screen once all four have been completed.
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Poll Time The poll time configures the number of seconds between each poll event when the service is configured to send poll events. SV001 Poll time: 090 secs To modify the poll time (000 to 255), use the keypad as explained in section Entering Decimal Numbers (see page 333) and press [ENTER]. Encryption All events sent back to the Protege System Management Suite when the controller is not connected are encrypted. This parameter defines the type of encryption that is used.
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Communications Port Number The communications interface port defines which serial port the controller will use for communication when sending the serial printer output. SV001 Port Ext Port 1 Use the [1] and [3] keys to scroll the communication ports and press [ENTER] to select the operating mode displayed. For more information about the list control data entry refer to the section List Control Data Entry (see page 335).
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SIA Level 2 Reporting Service To program the SIA level 2 reporting service ensure that the service that has been selected and is halted. Press the [ENTER] key until the display shows the service type selection screen. The SIA service comprises of 3 levels. The transmission of the information uses a line speed of 300 BAUD and requires a tonal acknowledge.
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Phone Number One The primary phone number will be dialed by the SIA service when it first is initiated to report an event. The sequence of telephone number dialing is limited by the number of dialing attempts and the method of dialing that is configured (alternate or sequential). SV001 Phone 1 None Use the [1] and [3] keys to scroll the available phone numbers and press [ENTER] to select the phone number displayed. To program a phone number select [MENU, 4, 7, 2].
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Option 3 - Reserved y Reserved do not modify Option 4 - Switch To Second Phone Line On Failure y y Enabled the dialer will switch the secondary phone line over and use this to dial if the first phone line fails or fails to communicate. Disabled the dialer will use the first phone line. Option 5 - PABX Phone Number Requires Pause y y Enabled the dialer will insert a pause of 2.5 seconds after the PABX telephone number is dialed.
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Option 7 and 8 - Reserved y Reserved do not modify Data Options The data options are currently reserved and should not be modified from their default settings. SV001 Data [--------] To modify options, use the keypad as explained in section Entering Data Options (see page 336). Option 1, 2, 3, 4, 5, 6, 7 and 8 - Reserved y Reserved do not modify Miscellaneous Options The miscellaneous options allow you to program special functions and features for the SIA reporting format.
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Option 5 - Hexadecimal User Identification Codes y y Enabled the SIA service will send the user identifier using hexadecimal format. When this option is enabled option 6 will not have any affect on the data being sent as hexadecimal codes are always sent using 4 digits only. Disabled the SIA service will send decimal zone identification numbers. Option 6 - 5 Digit User Code y y Enabled the SIA service will send the user identifier point using a five digit number.
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Report Count The report count if set to a value other than 000 will restrict the service from sending more than the programmed number of reports to the monitoring station. When using multiple reporting paths that potentially can report the same event to 2 or more locations the report count should be programmed with an acceptable limit (Between 8 and 16 is recommended).
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Report OK PGM The report ok PGM is activated when the service completes the reporting and the messages have been successfully acknowledge. The PGM is activated when the service returns a reporting complete result OK message. The PGM is not deactivated and should be programmed with a time. Connect to an external audible device to signal that the report was completed. Using this feature with the shorten exit delay for an area allows an end user to verify the communication path on arming of the protected area.
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Communications Port Number The communications interface port defines which serial port the controller will use for communication with the DVACS F1 and F2 subset units. Select the communication port that will be plugged in to the unit. SV001 Port Ext Port 1 Use the [1] and [3] keys to scroll the communication ports and press [ENTER] to select the operating mode displayed. For more information about the list control data entry refer to the section List Control Data Entry (see page 335).
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Events Options The events options allow you to filter the type of events that this DVAC service will send to the monitoring station. SV001 Events [123456--] To modify options, use the keypad as explained in section Entering Data Options (see page 336). Option 1 - Report Opens y y Enabled the service will report opens (Disarming) for the areas that are part of the area group assigned. An area group of none will mean ALL areas will be sent using this service. Disabled the dialer will not report opens.
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y Disabled the service will not log communication events. Option 2 - Log DVAC Messages y y Enabled the service will log messages that are sent from the DVAC's network and store these in the event log. Once again this will result in a large number of events being saved. Disabled the service will not log DVAC messages. Option 3 - Respond All Call Command A y y Enabled the service will send an event if it has one ready when the DVAC's host requests an All Call A command.
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Reporting Table With the size of the Protege system the maximum reporting points available in the DVAC service format is easily exceeded, to allow flexibility a reporting table has been created to allow information to be sent using pre-defined zone numbers or values. There are 2 predefined configurations for the reporting tables.
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Service Mode The service mode determines how this service operates with the system controller. By default a service is set to start with the operating system. Setting a service to "Start With The Operating System" (Start With O/S) allows the service to operate automatically, if the system controller is reset or restarts. Manual control of the service can be set by using the Manual option for the service mode.
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Device Address When the unit is connected to a ModBUS communication network it must have a device address programmed. The device address is typically provided by the automation company or defined by the SCADA system that is being connected to. The address is programmed in Hexadecimal and can not be 0x00 or 0xFF. SV001 Device address: 01 Type the appropriate 2 digit device address, after each digit you must press [Í] and [Î] to move to the next digit.
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Fail To Poll Time The fail to poll time allows a timer to be triggered on each successful poll from the ModBUS Master. When this timer expires the Fail To Poll PGM output will also be activated. SV001 Poll fail time: 120 secs To modify the poll fail time (000 to 255, a setting of 000 will result in the default of 120 seconds being used), use the keypad as explained in section Entering Decimal Numbers (see page 333) and press [ENTER].
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Clipsal C-Bus Automation To program the Clipsal C-Bus home automation service ensure that the service that has been selected is halted. Press the [ENTER] key until the display shows the service type selection screen. To operate the Clipsal C-Bus service you must connect a serial communications port using the PRT-COMM to a C-Bus PCI (Personal Computer Interface) which allows a high level communication to be transported.
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Communications Port Parity The communications port parity defines the parity configuration for the communication with the C-Bus PCI. This will default to No Parity however this can be adjusted to suit the C-Bus PCI configuration. SV001 Parity No Parity Use the [1] and [3] keys to scroll the communication parity options and press [ENTER] to select the parity displayed. For more information about the list control data entry refer to the section List Control Data Entry (see page 335).
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PCI Fail Time The PCI fail time allows a timer to be triggered on each successful request from the C-Bus Clipsal PCI Interface. When this timer expires the system will perform a check to see if the PCI is still present and then activate the fail PGM output if a response is not received.
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Intercom Type The Intercom Type selects the intercom that will be connected to the Serial Communications Interface. SV001 Intercom Siedle Use the [1] and [3] keys to scroll the different intercom types and press [ENTER] to select the intercom displayed. For more information about the list control data entry refer to the section List Control Data Entry (see page 335). Validation Mode Function Siedle Select when connecting the Siedle range of intercoms.
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Communications Port Number The communications interface port defines which serial port the controller will use for communication with the intercom that has been configured. Select the communication port that will be plugged in to the intercoms communication interface or RS232 connection. SV001 Port Ext Port 1 Use the [1] and [3] keys to scroll the communication ports and press [ENTER] to select the operating mode displayed.
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Intercom 1 Address The intercom 1 address defines the address received by first intercom slot, up to 4 intercoms can be decoded simultaneously. In some instances certain intercoms are not able to unlock a elevator floor. By configuring the intercom address only the intercoms that are to be used for elevator access are able to be decoded.
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Elevator Group The elevator group that is assigned to this service will be sent the floor group that is programmed in the user access level settings. The elevator group settings in a user are ignored as they may have more elevators available which are not be controlled by the intercom system. In the case where a bank of 3 elevators are being controlled the elevator group would have the 3 elevators selected in the elevator group.
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Intercom Valid Data PGM The Intercom Valid data output is activated when a packet is decoded correctly. This output will activate regardless of the user being checked and is used to signal a "valid decode" has occurred. The PGM is not deactivated and should have a time set in its PGM programming properties to turn off. SV001 Valid pgm: --000:00 To modify the Valid Data PGM, use the settings as explained in section Entering PGM and PGM Groups (see page 336).
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Communications Port Speed The communications port speed defines the baud rate at which the GSM Modem operates. The default value is 9600 bits per second and we recommend that this is not changed. If the speed or configuration is different adjust this setting to suit the type of modem that is connected however the majority of modems will default to 9600. If you are not sure about the connection speed verify the modem operation using a terminal program such as (Terraterm or Hyperterminal).
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Service Mode The service mode determines how this service operates with the system controller. By default a service is set to start with the operating system. Setting a service to "Start With The Operating System" (Start With O/S) allows the service to operate automatically, if the system controller is reset or restarts. Manual control of the service can be set by using the Manual option for the service mode.
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Account Number The account number for the Report IP Service can be up to 8 digits. An account code with leading zeros will be truncated to send the minimum number of digits, for example the account code 004311 will be sent as 4311. Where there are more digits set in the account code than the format that is selected can send the account number will be truncated.
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Secondary Port The Secondary port configures the reporting service with the remote port number to communicate on for the secondary IP. By using this information in connection with the secondary IP a specific route can be set for this connection. SV001 Primary port: 09647 To modify the port configuration use the keypad as explained in section Entering Decimal Numbers (see page 333) and Press [ENTER] to save the modified data.
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Events Options The events options allow you to filter the type of events that this Report IP service will send to the monitoring station. SV001 Events [123456--] To modify options, use the keypad as explained in section Entering Data Options (see page 336). Option 1 - Report Opens y y Enabled the service will report opens (Disarming) for the areas that are part of the area group assigned. An area group of none will mean ALL areas will be sent using this service. Disabled the dialer will not report opens.
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Option 2 - Log Poll Accept Events y y Enabled the service will log and event when the polling has been accepted by the remote host receiver. Disabled the service will not log polling messages. Option 3 – Log Communications Retry y y Enabled the service will log a communications retry that occurs because of a network failure or loss of service. Disabled the service will not log communications retries.
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Primary IP Address The primary IP address is the IP of the Protege System Controller that is being linked with. SV001 Pri IP 000.000.000.000 To modify the IP address use the keypad as explained in section Entering Decimal Numbers (see page 333). Press [ENTER] to save the Octet that is being entered and move to the next Octet or the next screen once all four have been completed. Primary Port The primary port configures the TCP/IP port the two System Controllers will communicate over.
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PGM Mapping Count The PGM Mapping count defines the number of PGM's that are mapped between the 2 controllers. can extend past modules, refer to the PGM addressing to work out the addressing of PGMs. This count SV001 PGM Link count: 008 Edit the polling time to a value of 10 to 255 seconds, any number below 10 will disable the polling being sent to the controller. Use the keypad as explained in section Entering Decimal Numbers (see page 333) and press [ENTER].
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Service Mode The service mode determines how this service operates with the system controller. By default a service is set to start with the operating system. Setting a service to "Start With The Operating System" (Start With O/S) allows the service to operate automatically, if the system controller is reset or restarts. Manual control of the service can be set by using the Manual option for the service mode.
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Device ID Enter the Device ID for the BACnet service. SV005 Device 04444 To modify the device ID use the keypad as explained in section Entering Decimal Numbers (see page 333) and press [ENTER] to save the modified data. Start PGM This is the first PGM in a range of PGMs to which the BACnet binary values are mapped. SV005 Start PGM no: 00000 To modify the start PGM number use the keypad as explained in section Entering Decimal Numbers (see page 333) and press [ENTER] to save the modified data.
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Telephone Number Name If the selected telephone number has a name associated (some telephone numbers do not have a name associated with them) the name programming screen will be shown. PN001 Name *Phone No 001 To scroll telephone numbers by name use the [Ð] and [Ï] keys. To modify or enter a new name for the selected telephone number use the keypad as explained in section Entering Text and Names (see page 333) and press [ENTER].
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Sequential Dialing Attempts Sequential dialing is used by default and results in the reporting phone numbers programmed in the service being dialed sequentially. In the following example, a service is programmed with a two telephone numbers (Phone 1 and Phone 2) and a backup telephone number. The number of dialing attempts is set to 8 and the Use Alternate Dialing Method option is disabled.
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Dial Attempt Number Phone Number Dialed Result 5 Phone Number 1 Fail 6 Phone Number 1 Fail 7 Phone Number 1 Fail 8 Phone Number 1 Fail (Trouble Zone CP001:06 Opened, Failure To Communicate) 1 Back Up Phone Number Fail 2 Back Up Phone Number Fail 3 Back Up Phone Number Fail 4 Back Up Phone Number Fail 5 Back Up Phone Number Fail 6 Back Up Phone Number Fail 7 Back Up Phone Number Fail 8 Back Up Phone Number Fail (Trouble Zone CP001:06 Opened, Failure To Communicate) 1 P
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Dial Attempt Number Phone Number Dialed Result 2 Phone Number 1 Fail 2 Back Up Phone Number Fail 3 Phone Number 1 Fail 3 Back Up Phone Number Fail 4 Phone Number 1 Fail 4 Back Up Phone Number Fail 5 Phone Number 1 Success (Report OK) Success After 2nd Dialing Attempt With Phone Number 2 In the following example, the Controller was able to communicate with the central station only after phone number 2 was dialed for the second time.
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Advanced The advanced menu contains special functions, tests and allows control of objects in the Protege system. The control of every PGM, Door and Zone is possible to allow for immediate diagnostic and testing to be completed. Network functions including, updating, reset, offline, online and network protect are performed in the advanced section. To go to the advanced menu select [MENU, 4, 8]. You can then select from the menu items presented or scroll the menu using the [Ï] and [Ð] keys.
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Network Online Module View Viewing modules that are online is performed by using the online module view function in the advanced network section. To enter the module online view function select [MENU, 4, 8, 1, 2] the follow display explains the screen information. y Select the offline network menu item. The display will show that the system is scanning all modules to see if any have gone offline. Checking online modules....
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Init and reboot started.... If the screen displays a message that the update process could not start this is because another network function has taken priority. When this is completed try to perform the update again. Each module will be programmed with the configuration information and then reset so that the information is loaded in to the module. The keypad that is currently being used will eventually be reset and the display will inform the user that this is taking place.
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y Pressing the [Ð] key will display the next statistics screen showing the acknowledge failure and lost packet errors. *Net Stats* A:00002 L:00003 A = Acknowledge errors occur when the module that a communication command was sent to did not acknowledge. These errors occur in normally operating systems. L = Lost packet errors occur when the system loses a packet it tries to send to a module because the module is not connected or the communication to the module has been lost.
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Un-Secure Net started... If the screen displays a message that the network security process could not be disabled this will be due to a network update process being operational. What for the update process to complete and then request the network security disable again. Cancel Module Update In some cases it may be required to cancel an update of the modules. This can be done using the cancel module update option.
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Zone Status Display When the zone is selected the name of the zone will be displayed on the top line and the state of the zone will be shown on the bottom line. Warehouse PIR is TAMPERED Use the [Ð] and [Ï] keys to scroll the available zones while in the view screen or press the [Í] to return to the zone selection. Pressing the [ARM] key will toggle the display between the name and the zone identification. Each zone is assigned a unique identification that uses the Protege Notation.
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Controlling PGM Outputs To access the PGM output viewing and control menu login using a valid installer code and then select [MENU, 4, 8, 2, 1, 3]. The screen displays "Select PGM to view" as shown in the following example. Select PGM to view: CP001:01 Type the appropriate module type, module address and PGM number or use the [Ð] and [Ï] keys to scroll the available PGM's. When the desired PGM number appears on the screen, press [ENTER] to view and control the selected PGM number.
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Door Control and Status Display Each door will display the status of the door inputs that are controlling the door and the state of the lock output that is controlled by the door configuration.
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Use the [1] and [3] keys to scroll the available profiles. When the desired profile is displayed on the screen, press [ENTER] to load the selected profile. For more information about the list control data entry refer to the section List Control Data Entry (see page 335). To view a profiles size and structures select [MENU, 4, 8, 3, 2].
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Controlling Functions (Starting and Stopping) For a function to start performing the actions that it is programmed for you must start the function. This is achieved by selecting the Start or Stop function by right-clicking the particular function. Functions cannot be programmed if they are running and a message warning the user that the function can be viewed only. To edit the function you must stop the function and then proceed with programming.
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Function Type Description Value Compare A direct comparison between two data registers with programmable hysteresis and activate time as well has a high and low PGM output. Ideal for the control of lighting circuits based on daylight sensor inputs Ripple PGM Ripples on and ripples off up to 8 PGM outputs from an enable PGM. Ideal for staging on large current devices and multiple lighting circuits. Door Control Can be used to lock and unlock a door or door group based on the status of a input.
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y Follow and Test The output follows the programmed input one state and will retest the input state continually. Input One Output ON ON OFF OFF Test Action - If the output state is changed externally or is part of another programmable function the programmable function will only restore the output state after 30 seconds has elapsed. This time is only used if the programmable function was NOT responsible for the change in state.
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The OR follow and test action will perform a logical OR operation on Input One and Input Two with the output changing according to the logic operation. The logic output will use the test function to restore the output to the logic state if it is changed by an external operation.
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OFF ON ON ON ON OFF Input One PGM / Memory Register Input one selects the input source to the logic process that is being configured. All logic control functions use at least one input source. Input one must be programmed with a valid input source, if an input source is selected that is not valid when the function is started an error will be generated and the function suspended. An input source can be a PGM (Programmable Output) or a Memory Register.
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Area Action The action determines what action is performed on the area or area group that is programmed as a result of the Input PGM. For key switch arming or simple arming of an area from a zone input use the area control options in the zone type configuration. Refer to the Zone Type Programming (see page 99).
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y Not Pulse Off The not pulse off action will disarm the area only when the input one has transitioned from an ON to an OFF state. The area will not be modified further from this state and will not be modified if it is turned ON by another function. Input One Area Control DISARM Input One PGM Input one selects the input source to the area control process that is being configured. All area control functions use at least one input source.
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RTHP Control Function The RTHP (Roof Top Heat Pump / Roof Top Heat Pack) programmable function allows the direct control of multiple stage Roof Top Heat Pumps used for large retail or commercial space temperature control. There is a substantial number of configuration screens for the RTHP unit and a working knowledge of Air Conditioning and Temperature Set Point configuration is essential in setting up the correct operation of the programmable function.
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Fire PGM The fire control PGM is monitored NOT controlled by the function and when the fire PGM has been activated, typically by an external fire alarm input, the RTHP will gracefully shut down the air conditioning system and halt operation until the fire alarm has been cleared. This PGM could be the PGM used to deactivate smoke dampers and other related equipment in the HVAC control system.
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Cooling Stage 4 PGM The cool 1 PGM is activated when the RTHP has a requirement for cooling and the cooling stage demand value has been exceeded for the fourth stage. The cooling 4 PGM will typically be used to control the fourth stage of the cooling system. FN001 Cool 4 pgm: --000:00 To modify the cool 1 PGM, use the settings as explained in section Entering PGM and PGM Groups (see page 336).
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Dehumidification Stage 1 PGM The dehumidification stage 1 PGM is activated when the RTHP has a requirement for dehumidification. The dehumidification process will typically open the first stage of the hot gas reheat valves located in the RTHP unit. FN001 Dehumid 1 pgm: --000:00 To modify the dehumidification stage 1 PGM, use the settings as explained in section Entering PGM and PGM Groups (see page 336).
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Register Offset Register Function 4 Cooling Hysteresis Setting The cooling hysteresis value is subtracted from the cooling set point to allow the plant to drive slightly below the set point. This allows specific heating and cooling tuning. Setting a value of 0 is not recommended as it can cause oscillations between the dead band and cooling modes.
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Register Offset Register Function 15 Integral Term The integral term is the result of a calculation using the integral gain and the integral error to obtain a value that can be used to add with the Plant Error to ensure that the heating and cooling set points are meet with the maximum amount of efficiency. 16 Output Error The output error is the absolute output error at the current point and can be used as a guide when tuning the RTHP.
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Register Offset Register Function 4 RTHP Deadband Process The deadband process is where the RTHP will wait for a condition that is outside the set points for heating, cooling or dehumidification. 5 On Call For Space Heating The space temperature is below the heating set point and the function to start the heating process is active. This will activate the stages required to bring the temperature up to the heating set point.
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Register Offset Register Function 17 Fault Condition A fault condition has activated that has caused the RTHP to shut down. This condition is typical of a smoke damper closing or other mechanical input that will result in the RTHP shutting down. Fire Condition 18 A fire alarm condition has been activated that has caused the RTHP to shut down. Space Temperature Register The space temperature register is the register that is updated by an analogue module input channel connected to a temperature sensor.
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Economiser Damper Register The Base data register is used as the first register in the list of registers used to configure, program and control the RTHP. The only registers that are not included in the base registers are ones that must link to an analog input or analog output for external sensors (Temp, Humidity or Dampers). A base data register setting MUST be set.
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Fault PGM The fault control PGM is set when a fault condition has occurred and the Floor Temping is to shutdown. This allows the Floor Temping to shutdown in the shortest possible time without causing any damage to the system. In the case of a fire shutdown the system must have a fire PGM programmed. FN001 Fault pgm: --000:00 To modify the fault PGM, use the settings as explained in section Entering PGM and PGM Groups (see page 336).
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Manual Forward PGM The manual forward PGM is monitored by the floor temping function and if it is activated the function will operate in forward mode regardless of the floor temperature setting. FN001 Man Fwd pgm: --000:00 To modify the Manual Forward PGM, use the settings as explained in section Entering PGM and PGM Groups (see page 336).
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Base Data Register Offset Register Offset Register Function 0 Tempering Set Point The tempering set point determines the temperature that the floor tempering will operate at. This value is compared with the floor temperature input to determine if cooling or heating is required and the direction of the fan.
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Register Offset Register Function 7 Manual Cooling Reverse The manual reverse (cooling) override PGM is active and the floor tempering is operating in Manual Cooling mode. RTHP Shutting Down 8 The floor tempering is completing an orderly shutdown of the currently activated outputs and the fan control signal. Fault Condition 9 A fault condition has activated that has caused the floor tempering to shut down.
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Value Compare Function The compare value function allows the comparison of an input value with predefined values in data registers. This allows the activation of a low and high PGM output when the comparison is over the set point and the hysterisis time.
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Low PGM The Low PGM output will activate when the input data register (usually an input from an analog register) is below the set point minus the hysterisis value and has been for the duration of the hysterisis time. The low PGM will turn off if the input value is above the set point value. FN001 Low pgm: --000:00 To modify the low PGM, use the settings as explained in section Entering PGM and PGM Groups (see page 336).
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Base Register Configuration Register 00100 Input Set Point = 1200 Register 00101 Input Hysterisis = 100 Register 00102 Input Hysterisis Time = 20 Given the above settings and assuming that the data value for the input comparison is set to 0 when the programmable function is started after 20 seconds the low PGM (if it is set) will be activated. When the data value rises and exceeds the 1200 set point for longer than 20 seconds (Hysterisis Time) the low value will be deactivated.
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Function Mode The function mode determines how this function operates with the system controller. By default a function is set to normal operation. Normal operation will mean the function is started if it was running when the system restarts or is completely powered down (AC Failure and Battery Failure). The Run Once mode of operation will allow the function to run once and then wait to be stopped and started by the user or operator.
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Stage 1 PGM The first PGM in the 8 PGM outputs that can be programmed for the ripple control function. FN001 Stage 1 pgm: --000:00 To modify the Stage 1 PGM, use the settings as explained in section Entering PGM and PGM Groups (see page 336). Stage 2 PGM The second PGM in the 8 PGM outputs that can be programmed for the ripple control function. FN001 Stage 2 pgm: --000:00 To modify the Stage 2 PGM, use the settings as explained in section Entering PGM and PGM Groups (see page 336).
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Stage 7 PGM The seventh PGM in the 8 PGM outputs that can be programmed for the ripple control function. FN001 Stage 7 pgm: --000:00 To modify the Stage 7 PGM, use the settings as explained in section Entering PGM and PGM Groups (see page 336). Stage 8 PGM The eigth PGM in the 8 PGM outputs that can be programmed for the ripple control function. FN001 Stage 8 pgm: --000:00 To modify the Stage 8 PGM, use the settings as explained in section Entering PGM and PGM Groups (see page 336).
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The door status follows the programmed input one state and will retest the input state every 30 second interval and change the door state accordingly. Input One Door ON UNLOCKED OFF LOCKED Test Action - If the door state is changed externally or is part of another programmable function the programmable function will only restore the output state after 30 seconds has elapsed. This time is only used if the programmable function was NOT responsible for the change in state.
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Input One PGM Input one selects the input source to the door control process that is being configured. All door control functions use at least one input source. Input one must be programmed with a valid input source, if an input source is selected that is not valid when the function is started an error will be generated and the function suspended. An input source can be a PGM (Programmable Output).
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Door Mode Description Menu Latched The door will be latched in the unlocked state and will remain unlocked until controlled from: A LCD Keypad Protege System Management Suite Scheduled Action Area Status A Programmable function. Fire Control The door will be latched in the fire control unlock state and will remain unlocked until controlled from: A LCD Keypad Protege System Management Suite A Programmable function that is programmed to deactivate the fire alarm control.
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Rex Zone Input The Request to Exit (REX) Input is connected to the Virtual Door's REX Zone. When this zone is closed the Lock PGM is activated and the door can be opened for the Max Open time when no alarms being generated. This zone should be configured as a digital zone, therefore disable the "EOL Resistor on zone input" option. a Normally Closed REX button is used the zone should inverted option should be set for the zone to ensure pushing the button will generate the REX event.
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Virtual Door Unlock Time The unlock time determines how long the lock that controls the virtual door will remain unlocked for when a user access's the door. FN001 Unlock time: 005 secs To modify the unlock time (000 to 255 Seconds), use the keypad as explained in section Entering Decimal Numbers (see page 333) and press [ENTER]. Setting a 000 value will result in the door not unlocking when a users access's the door.
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Option 3 – Alarm on Door Forced y y The Alarm PGM will be activated when the door is forced open. The Alarm PGM is not activated. Option 4 – Pulse Forced Door Alarm y y The Alarm PGM will be activated with a pulse time on and off. The Alarm PGM will be turned on normally. Option 5 – Log Left Open Zone Event y y Enabled the zone events when the door is left open. Disables the zone events from being generated. Option 6 – Log Forced Zone Event y y Enabled the zone events when the door is forced open.
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Control PGM The Control PGM's state will be followed by the Control Zone. FN001 Control pgm: CP001:01 Halted To modify the Control PGM or PGM Group, use the settings as explained in section Entering PGM and PGM Groups (see page 336). Miscellaneous Options These options are for the function. FN001 Misc [1--------] Halted Option 1 – Log Zone Events y y Enable Zone events when the zone changes state. Disable any Zone Events.
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Elevator Action The action determines what action is performed on the elevator group that is programmed as a result of the Input PGM. An action MUST be selected for the programmable function to operate correctly. FN001 Action None Use the [1] and [3] keys to scroll the action types until you reach the required action that you want to be performed and then press [ENTER] to proceed to the next programmable option for the elevator control function.
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UNLOCKED y Not Pulse Off The not pulse off action will unlock the floor group only when the input one has transitioned from an ON to an OFF state. The output will not be modified further from this state and will not be modified if it is turned ON by another function. Input One Output LOCKED Input One PGM Input one selects the input source to the elevator control process that is being configured.
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Elevator Control Mode The control mode selects how the floor group will be controlled. This allows a door to be unlocked for the token time, unlock latched or unlocked in the fire alarm mode. FN001 Door Mode Menu Timed Use the [1] and [3] keys to scroll the door control mode until you reach the setting that you want to use and then press [ENTER] to proceed to the next programmable option for the door control function.
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Miscellaneous Options These options are for the function. FN001 Misc [1--------] Halted Option 1 – Increment on Zone Open y y Enable the counter will increment when the zone opens (alarm). Disable. Option 2 – Increment on Zone Close y y Enable the counter will increment when the zone closes (seal). Disable. Option 3 – Log Counter Events y y Enable the function will log an event for every increment. Disable.
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Overflow Register Enter the Register that will be incremented when the Counter register overflows. FN001 Overflow reg: 00101 Reset PGM The counter and overflow registers are set to zero when this PGM activates. When this occurs and event is logged with the total before the reset occurs. The counter cannon be reset by a PGM group. FN001 Reset pgm: --000:00 To modify the input PGM, use the settings as explained in section Entering PGM and PGM Groups (see page 336).
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Output Register Select a register to which the output will be written. FN001 Output reg: 65535 To modify the Output register (00000 to 65535), use the keypad as explained in section Entering Decimal Numbers (see page 333) and press [ENTER]. Update Time Select an Update time. This is the number of seconds between the update of the output register.
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To modify the Input register (00001 to 65535), use the keypad as explained in section Entering Decimal Numbers (see page 333) and press [ENTER]. Output Register This is the register to which the output is directed. It would typically be assigned to a physical analogue output module. FN001 Output reg: 00001 To modify the Output register (00001 to 65535), use the keypad as explained in section Entering Decimal Numbers (see page 333) and press [ENTER].
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General Programming The general programming menu contains programmable options for the automation PGM's and the panel configuration options. The restart menu [MENU, 4, 9, 3] allows the system controller to be restarted. i A panel restart is required for the TCP/IP address change to take affect once programmed in the panel configuration menu. The panel will remain operational on the previously assigned IP address until it is restarted. To go to the general menu select [MENU, 4, 9].
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Automation Name If the selected automation entry has a name associated (some automation entries may not have a name associated with them) the name programming screen will be shown. AT001 Name *Automation 001 To scroll automation entries by name use the [Ð] and [Ï] keys. To modify or enter a new name for the selected automation item use the keypad as explained in section Entering Text and Names (see page 333) and press [ENTER].
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To modify the C-Bus Group Address enter a value (000 to 255), use the keypad as explained in section Entering Decimal Numbers (see page 333) and press [ENTER]. Automation Options Automation options include inverted display and C-Bus automation options. For C-Bus to operate correctly a Protege PRT-COMM and Clipsal C-Bus PCI interface is required and the C-Bus service must be configured and started.
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Panel Configuration The panel configuration allows hardware settings to be programmed in to the system controller that affect the way it operates and functions. To access the panel configuration programming login using a valid installer code and then select [MENU, 4, 9, 2]. The screen displays the first entry to modify as there is only one panel no record selection is required. The first item that is programmable is the AC Failure time as shown in the following example.
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Default LCD Text Line One The default LCD text for line one is shown on all PRT-KLCD keypads when they are first connected to the system. This text should be changed to the name of the building, installation or owners details. To view the information on setting the time, date or other variable text see the formatting character information in the following section.
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Character Function A Show the AM/PM symbol in uppercase. Example PM. a Show the AM/PM symbol in lowercase. Example pm. D Show the day of the month. Example 9 or 18 a leading space is used for all numbers below 10. V Show the month in an abbreviated 3 characters. Example Jan or Nov. v Show the month in 2 character format. Example 4 or 12 a leading space is used for all numbers below 10. s Show the month in 2 character format. Example 04 or 12 a leading zero is used for all numbers below 10.
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Panel IP Address The system controller has a built in TCP/IP Ethernet Device and it must be programmed with a valid TCP/IP Address to allow the software to connect. By default the IP address is set to 192.168.1.2. Programming a IP address requires knowledge of the network and subnet that the system controller will be connected to. ALWAYS consult the network or system administrator before programming these values. IP Address 192.168.001.
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Host Verify ID The host verify ID is used as a security key in combination with the panel upload ID for communication with the Protege System Management Suite. The upload and host ID keys prevent the remote connection of a Protege System Management Suite other than that which has the same 32 bit keys. Host verify ID: 00000000 To modify the host verify id, use the keypad as explained in section Entering Hexadecimal Numbers (see page 335) and press [ENTER].
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Option 7 - Log Operating System Assertion Events y y Enabled the system controller will log operating system assertion events that occur. An assertion event is generating when the system controller gets a value, command or performs a function that results in a condition that is not deemed normal. Disabled the system controller will not log operating system assertion events.
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Anti-pass back Reset Schedule If the 'reset anti-passback status on schedule' option has been selected (misc option 5) then all users will have their anti-passback status reset when the specified schedule becomes valid. AntiPass Rst Sch *Schedule 001 Use the [1] and [3] keys to scroll the schedule selection and press [ENTER] to select the schedule displayed. For more information about the list control data entry refer to the section List Control Data Entry (see page 335).
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Modem Country Selection The onboard modem must be configured for the region that the System Controller is being installed in to ensure proper operation. Modem Country NZ/Aus Use the [1] and [3] keys to scroll the modem country selection until reach the required country and press [ENTER] to proceed. For more information about list control data entry refer to the section List Control Data Entry (see page 335).
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Custom Reader Format The Protege System Controller and Protege Reader Expansion Modules can support custom Wiegand Card Reader formats for the times when the format required is not one of the many available preset formats. One custom format can be added per controller and used by any reader expander in the system. Interface Type To access the custom reader format programming login using a valid installer code and then select [MENU, 4, 9, 5].
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Card Number Start The card number start defines the index where the facility code data starts in the data transmitted. starts at zero. The count CF001 Card Start bits: 009 To modify this parameter (000 to 255), use the keypad as explained in section Entering Decimal Numbers (see page 333) and press [ENTER]. Card Number End The card number end defines the index where the facility code data end in the data transmitted. starts at zero.
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Parity End Block 1 to 4 The parity start defines where the location of the parity block ends in the received data. zero. If there is no parity set this value to 255. The count starts at CF001 Par1 End bit: 012 To modify this parameter (000 to 255), use the keypad as explained in section Entering Decimal Numbers (see page 333) and press [ENTER]. Parity Type Block 1 to 4 The parity type defines the method of calculating the parity for the block. This is either Even or Odd Parity.
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Auto-addressing The SE firmware does not directly support Auto-addressing. The Auto-addressable modules can, however, be used with the SE system by manually assigning their addresses. This is achieved by creating a table which contains a list of module serial numbers alongside the addresses to assign. When an Auto-addressable module is plugged in and attempts to register, the system will check it's type and serial number against this table and, if found, will assign the address that has been specified.
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The second setting to edit is the serial number. Enter the serial number using the numeric keypad. Pressing the [2] or [3] keys repeatedly will allow the entry of digits A to F of a hexadecimal value. For more information about hexadecimal data entry refer to the section Hexadecimal Data Entry (see page 335). ZX001 Address 005 The third setting to edit is the address which is to be assigned.
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View The view and control menu allows a keypad user to view the state of bypassed zones, alarm memory, current trouble conditions, control doors, control automation points and control elevator floors. To access the view and control functions, login using a valid code that is allowed view menu access and then select [MENU, 5]. Use the up and down arrows to scroll the menu items or select the menu item directly using the short cut keys.
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Had ALARM on Warehouse PIR in Area Warehouse Press [ENTER] to acknowledge. Press [] to show next item. Press [MENU] to exit view mode. has a battery Pressing the [Ð] key will display the next zone that is stored in memory. To acknowledge memory the user must also have the acknowledge option set in their menu group or in the user configuration. System Trouble View System troubles can be viewed by selecting [MENU, 5, 2], trouble conditions are generated by the activation of a trouble zone.
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Bypassed Zone(s) View To view all bypassed zones in the system select [MENU, 5, 3], the system will run a check and verify each zone in the system. The display will show the first zone that is bypassed and the user can then press the DOWN key to continue searching. y Select the bypass zone view menu [MENU, 5, 3]. The display will show the checking zone(s) for bypass message while it is scanning all zones in the system for a bypass condition. Checking zone(s) for bypass...
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The display will show the door lock states listed below.
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Viewing Automation Status Viewing the automation status is identical to viewing the automation status in the offline menu when the keypad has offline automation status enabled. Login using a valid code and then select [MENU, 5, 6]. The screen displays "Automation to view" as shown in the following example. Automation to view: AT001 Type the appropriate automation number or use the [Ð] and [Ï] keys to scroll the available automation points that are available.
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Time The time menu allows a keypad user to program and configure time related settings. You are able to set the time, date and day of week, configure schedules that allow operation at certain times of the day (Scheduled Times or Time Zones), Program Holidays and configure daylight savings operation. To access the menu, login using a valid code that is allowed time menu access and then select [MENU, 6].
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Setting the Day Of The Week The system controller uses the day of the week (Monday to Sunday) to correctly perform scheduling and process time related events within the system. Day of week Monday Use the [1] and [3] keys to scroll the days of the week selection and press [ENTER] to program the day of week shown. For more information about the list control data entry refer to the section List Control Data Entry (see page 335).
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Schedule Name If the selected schedule entry has a name associated (some schedule entries may not have a name associated with them) the name programming screen will be shown. SC001 Name *Schedule 001 To scroll schedule entries by name use the [Ð] and [Ï] keys. To modify or enter a new name for the selected schedule item use the keypad as explained in section Entering Text and Names (see page 333) and press [ENTER].
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Period One End Time To use the period one program an ending time for the first period. SC001 End P1 Time: --:-To modify the period one start time use the keypad as explained in the section Entering Time and Date Values (see page 334) and press [ENTER]. Period One Days Of Week Program the days of the week that period one is valid on using the option entry function. Each option select value selects the appropriate day of the week.
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Period One Holiday Group There are eight holiday groups that can be assigned to a schedule. A holiday when active will have a holiday group(s) associated with it. If the period does not have any holiday group settings then it will not function on the day that the holiday is valid. The process is an and process, that is if any of the holiday group options are valid and any of the period holiday group settings are in common with the programmed value the schedule will operate.
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Holidays To access holiday programming, login using a valid code that has access to the holiday programming menu and then select [MENU, 6, 3]. The screen will then prompt you to "Select a holiday to modify" requesting that you enter a holiday number. Type the appropriate 3-digit holiday number or use the [Ð] and [Ï] keys to scroll the available holidays. When the desired holiday number appears on the screen, press [ENTER] to program the selected holiday.
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Holiday Group Mask There are eight holiday groups that can be assigned to a holiday. These form a mask used by the schedules. If a holiday is valid and a schedule has the same group set for the holiday group option then the schedule will function normally on that day. HL001 Hol Mask [--------] To modify options, use the keypad as explained in section Entering Data Options (see page 336). Option 1 - Holiday Group One y y Enabled the holiday will belong to group 1.
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Daylight Savings Start Day The start day selects the day of the month that daylight savings will start on. Daylight savings is programmed to start on a day and end on a day for each time zone. D/S Starts on None Use the [1] and [3] keys to scroll the starting day until you reach the required selection and press [ENTER] to proceed to the next daylight savings screen. For more information about the list control data entry refer to the section List Control Data Entry (see page 335).
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Bypass To access the bypass menu, login using a valid code that is allowed bypass menu access and then select [MENU, 7]. You can then browse the bypass menu and select the bypass that you want to perform on your Protege System. Bypass Menu The bypass menu consists of 2 entries that can be scrolled to using the [Ð] and [Ï] arrow or selected directly using the shortcut keys shown in the figure below.
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CP001:01 T-Zone is not BYPASSED y If a normal bypass is required press the [1] key the trouble zone will then toggle state and the display will show the bypassed message below. CP001:01 T-Zone is BYPASSED y Pressing the [2] key will remove the bypass and pressing the [3] key will bypass the trouble zone in a latched state requiring that the bypass is removed manually before it will operate again.
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System To access the event review log, login using a valid code that is allowed event menu access and then select [MENU, 3]. You can then select the event review function that you want to perform on your Protege System. System Menu The system menu consists of 3 entries that can be scrolled to using the [Ð] and [Ï] arrow or selected directly using the shortcut keys shown in the figure below.
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Reporting Tables Reporting tables are used to map a specific zone range to a reporting point number to allow the Protege to report the higher zone numbers used within the system over protocols that are limited in the point capacity such as Contact ID. A reporting table is also provided for the SIA protocol to correctly display the number of a zone or trouble zone that is reported.
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Keypad Zones The keypad will report zones from 1 to 4 on the first 6 modules, all modules above address KP006 will be reported using the default code of 999.
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Zone Number Contact ID Code Reporting Point Number ZX002:01 130 (Burglary) 057 | | | | | | || ZX004:16 130 (Burglary) 104 ZX005:01 130 (Burglary) 999 | | | ZX250:16 | | | 130 (Burglary) || 999 In the above table a reporting code of 999 indicates that the zone is outside the maximum zones that can be reported for the module type.
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Contact ID Standard Trouble Zones The following tables show the reporting codes for the trouble zones when the Contact ID Standard Table is used (Table 000, Default). Control Panel Trouble Zones The control panel will report all trouble zones from 1 to 64 using any of the available table configurations.
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In the above table a reporting code of 999 indicates that the zone is outside the maximum zones that can be reported in some cases the zone number will reflect the module address that the zone was activated from to aid in service. Keypad Zones The keypad will report trouble zones from 1 to 8 on the first 6 modules, all modules above address KP006 will be reported using the default code of 999.
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Zone Number Contact ID Code Reporting Point Number ZX001:10 140 (General Alarm) 622 ZX001:11 140 (General Alarm) 623 ZX001:12 140 (General Alarm) 624 ZX001:13 140 (General Alarm) 625 ZX001:14 140 (General Alarm) 626 ZX001:15 140 (General Alarm) 627 ZX001:16 143 (Module Offline) 628 ZX002:01 145 (Module Tamper) 629 | | | | | | || ZX004:16 143 (Module Offline) 676 ZX005:01 145 (Module Tamper) 999 | | | ZX250:16 | | | 143 (Module Offline) || 999 In the above tab
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Zone Number | | Contact ID Code | | | Reporting Point Number | || RD016:16 143 (Module Offline) 932 RD017:01 145 (Module Tamper) 999 | | | | RD250:16 | | || 143 (Module Offline) 999 In the above table a reporting code of 999 indicates that the trouble zone is outside the maximum trouble zones that can be reported for the module type.
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Zone Number Contact ID Code Reporting Point Number AE001:05 140 (General Alarm) 969 AE001:06 140 (General Alarm) 970 AE001:07 140 (General Alarm) 971 AE001:08 143 (Module Offline) 972 AE002:01 145 (Module Tamper) 973 | | | | | | || AE002:08 143 (Module Offline) 980 AE003:01 145 (Module Tamper) 999 | | | AE250:16 | | | 143 (Module Offline) || 999 In the above table a reporting code of 999 indicates that the trouble zone is outside the maximum trouble zones that can be
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In the above table a reporting code of 999 indicates that the zone is outside the maximum zones that can be reported in some cases the zone number will reflect the module address that the zone was activated from to aid in service. Keypad Zones The keypad will report zones from 1 to 4 on the first 2 modules, all modules above address KP002 will be reported using the default code of 999.
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Zone Number Contact ID Code Reporting Point Number ZX001:14 130 (Burglary) 038 ZX001:15 130 (Burglary) 039 ZX001:16 130 (Burglary) 040 ZX002:01 130 (Burglary) 041 | | | | | | || ZX020:16 130 (Burglary) 344 ZX021:01 130 (Burglary) 999 | | | ZX250:16 | | | 130 (Burglary) || 999 In the above table a reporting code of 999 indicates that the zone is outside the maximum zones that can be reported for the module type.
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Analog Input/Output Expander The Analog Input and Output Expanders will not report any zones as no physical connection is provided on the Analog Input and Output expanders. Trouble zones will be reported. Contact ID Large Trouble Zones The following tables show the reporting codes for the trouble zones when the Contact ID Large Table is used (Table 001). Control Panel Trouble Zones The control panel will report all trouble zones from 1 to 64 using any of the available table configurations.
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Zone Number Contact ID Code Reporting Point Number CP001:28 415 (Service 4 Stopped) 528 CP001:29 140 (General Alarm) 529 | | | | CP001:64 | | | | | || 140 (General Alarm) 564 In the above table a reporting code of 999 indicates that the zone is outside the maximum zones that can be reported in some cases the zone number will reflect the module address that the zone was activated from to aid in service.
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Zone Number Contact ID Code Reporting Point Number ZX001:05 321 (Siren/Bell 1 Tamper) 585 ZX001:06 322 (Siren/Bell 2 Tamper) 586 ZX001:07 312 (Siren/Bell 1 Over Current) 587 ZX001:08 312 (Siren/Bell 2 Over Current) 588 ZX001:09 140 (General Alarm) 589 ZX001:10 140 (General Alarm) 590 ZX001:11 140 (General Alarm) 591 ZX001:12 140 (General Alarm) 592 ZX001:13 140 (General Alarm) 593 ZX001:14 140 (General Alarm) 594 ZX001:15 140 (General Alarm) 595 ZX001:16 143 (Module Offl
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Zone Number Contact ID Code Reporting Point Number RD001:13 145 (Reader 2 Tamper) 913 RD001:14 461 (Door 1 Access Attempts) 914 RD001:15 461 (Door 2 Access Attempts) 915 RD001:16 143 (Module Offline) 916 RD002:01 145 (Module Tamper) 917 | | | | | | || RD002:16 143 (Module Offline) 932 RD003:01 145 (Module Tamper) 999 | | | | RD250:16 | | || 143 (Module Offline) 999 In the above table a reporting code of 999 indicates that the trouble zone is outside the maximum troub
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Analog Input/Output Expander The Analog expander will report trouble zones from 1 to 8 on the first 2 modules, all modules above address AE002 will be reported using the default code of 999.
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Zone Number Alarm Code Restore Code Reporting Point Number CP001:10 BA BR 0010 CP001:11 BA BR 0011 CP001:12 BA BR 0012 CP001:13 BA BR 0013 CP001:14 BA BR 0014 CP001:15 BA BR 0015 CP001:16 BA BR 0016 Keypad Zones The keypad will report zones from 1 to 4 on the first 128 modules, all modules above address KP128 will be reported using the default code of 9999.
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Zone Number Alarm Code Restore Code Reporting Point Number ZX001:09 BA BR 0537 ZX001:10 BA BR 0538 ZX001:11 BA BR 0539 ZX001:12 BA BR 0540 ZX001:13 BA BR 0541 ZX001:14 BA BR 0542 ZX001:15 BA BR 0543 ZX001:16 BA BR 0544 ZX002:01 BA BR 0545 | | ZX032:16 BA BR 1040 ZX033:01 BA BR 9999 | | BA BR | | | | | | ZX250:16 | | | | 9999 2 Reader Expander The 2 reader expander will report zones from 1 to 8 on the first 64 modules, all modules above addres
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Analog Input/Output Expander The Analog Input and Output Expanders will not report any zones as no physical connection is provided on the Analog Input and Output expanders. Trouble zones will be reported. SIA Level 2 Standard Trouble Zones The following tables show the reporting codes for the trouble zones when the SIA Level 2 Standard Table is used (Table 000, Default).
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Zone Number Alarm Code Restore Code CP001:28 YC YK 28 Service 1 Fault 5028 CP001:29 YC YK 29 Service 2 Fault 5029 CP001:30 YC YK 30 Service 3 Fault 5030 CP001:31 YC YK 31 Service 4 Fault 5031 CP001:32 UA UH | | UA UH | | | CP001:64 Reporting Point Number 5032 | | 5064 Keypad Trouble Zones The keypad will report trouble zones from 1 to 8 on the first 128 modules, all modules above address KP128 will be reported using the default code of 9999.
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Zone Number Alarm Code Restore Code ZX001:03 YT YR 03 Batt 6091 ZX001:04 YP YQ 04 Aux 6092 ZX001:05 YP YQ 05 Network 6093 ZX001:06 YA YH 06 PGM 3 Cut 6094 ZX001:07 YA YH 07 PGM 4 Cut 6095 ZX001:08 YA YH 08 PGM 3 OC 6096 ZX001:09 YA YH 09 PGM 4 OC 6097 ZX001:10 UA UH 10 Spare 6098 ZX001:11 UA UH 11 Spare 6099 ZX001:12 UA UH 12 Spare 6100 ZX001:13 UA UH 13 Spare 6101 ZX001:14 UA UH 14 Spare 6102 ZX001:15 UA UH 15 Spare 6103 ZX001:16 EM EN
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Zone Number Alarm Code Restore Code RD001:10 UT UJ 10 R1 Voltage 6610 RD001:11 UT UJ 11 R2 Voltage 6611 RD001:12 TT TJ 12 R1 Tamper 6612 RD001:13 TT TJ 13 R2 Tamper 6613 RD001:14 JA UJ 14 D1 Attempts 6614 RD001:15 JA UJ 15 D2 Attempts 6615 RD001:16 EM EN 16 Communication 6616 RD002:01 AT AR 02 AC 6617 | | RD064:16 EM EN RD065:01 UA UH | | UA UH | | | | | | RD250:16 Reporting Point Number | 16 Communication | 7624 9999 | | 9999 In the above
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Analog Input/Output Expander Trouble Zones The Analog Input and Output Expanders will report trouble zones from 1 to 8 on the first 32 modules, all modules above address AE032 will be reported using the default code of 9999.
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Zone Number Alarm Code Restore Code Reporting Point Number CP001:08 09 (BA) 89 (BR) 0008 CP001:09 09 (BA) 89 (BR) 0009 CP001:10 09 (BA) 89 (BR) 0010 CP001:11 09 (BA) 89 (BR) 0011 CP001:12 09 (BA) 89 (BR) 0012 CP001:13 09 (BA) 89 (BR) 0013 CP001:14 09 (BA) 89 (BR) 0014 CP001:15 09 (BA) 89 (BR) 0015 CP001:16 09 (BA) 89 (BR) 0016 Keypad Zones The keypad will report zones from 1 to 4 on the first 6 modules, all modules above address KP006 will be reported using the defaul
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Zone Number Alarm Code Restore Code Reporting Point Number ZX001:07 09 (BA) 89 (BR) 0047 ZX001:08 09 (BA) 89 (BR) 0048 ZX001:09 09 (BA) 89 (BR) 0049 ZX001:10 09 (BA) 89 (BR) 0050 ZX001:11 09 (BA) 89 (BR) 0051 ZX001:12 09 (BA) 89 (BR) 0052 ZX001:13 09 (BA) 89 (BR) 0053 ZX001:14 09 (BA) 89 (BR) 0054 ZX001:15 09 (BA) 89 (BR) 0055 ZX001:16 09 (BA) 89 (BR) 0056 ZX002:01 09 (BA) 89 (BR) 0057 | | | | | | | ZX010:16 09 (BA) 89 (BR) 0200 ZX011:01 09 (BA) 8
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16 PGM Output Expander The 16 PGM Output expander will not report any zones as no physical connection is provided on the 16 PGM output expander. Trouble zones will be reported. DVAC Surgard Trouble Zones The following tables show the reporting codes for the trouble zones when the DVAC reporting service is used. Control Panel Trouble Zones The control panel will report all trouble zones from 1 to 64 using any of the available table configurations.
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Zone Number Alarm Code Restore Code Reporting Point Number CP001:29 34 (UA) B4 (UJ) 0529 | | | CP001:64 | 34 (UA) | B4 (UJ) | | 0564 Keypad Zones The keypad will report trouble zones from 1 to 8 on the first 128 modules, all modules above address KP006 will be reported using the default code of 9999.
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Zone Number Alarm Code Restore Code Reporting Point Number ZX001:09 34 (UA) B4 (UJ) 0621 ZX001:10 34 (UA) B4 (UJ) 0622 ZX001:11 34 (UA) B4 (UJ) 0623 ZX001:12 34 (UA) B4 (UJ) 0624 ZX001:13 34 (UA) B4 (UJ) 0625 ZX001:14 34 (UA) B4 (UJ) 0626 ZX001:15 34 (UA) B4 (UJ) 0627 ZX001:16 38 (UT) B8 (UJ) 0628 ZX002:01 37 (UT) B7 (UJ) 0629 | | | | | | | ZX010:16 38 (UT) B8 (UJ) 0772 ZX011:01 37 (UT) B7 (UJ) 0999 | | | ZX250:16 | | 38 (UT) B8 (UJ) | | 0999
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Zone Number Alarm Code Restore Code Reporting Point Number RD002:01 37 (UT) B7 (UJ) 0789 | | | | | | | RD002:16 38 (UT) B8 (UJ) 0804 RD003:01 37 (UT) B7 (UJ) 0999 | | RD250:16 | | 38 (UT) | B8 (UJ) | | 0999 In the above table a reporting code of 0999 indicates that the trouble zone is outside the maximum trouble zones that can be reported for the module type.
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Reporting Codes Custom reporting codes are assigned to zone types to override the default reporting code used for a specific alarm event. The following lists detail the reporting code used for each zone and trouble zone. In some cases a reporting code may also be transmitted as the actual numerical value that is programmed (ModBUS Remote) in which case the physical mapping will be done in the receiving system application.
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XYZ 3 Digit Event Code composed using the digits 0-9 and B-F. GG Group or Partition (Area) number composed using two hex digits 0-9 and B-F. Use 00 to indicate that no specific group or partition information is applicable. CCC Zone Number (Event Reports) or User Number for (Open / Close Reports) composed using the digits 0-9 and B-F. Use 000 to indicate that no specific zone or user information applies. S Sum of all digits + S such that a MOD 15 will result in a 0.
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There are various options that can be selected to change the method in which the system will report the message. The size of the account code, zones and user numbers can be changed to allow more flexible configurations however it is not recommended to change from the standard configuration. DVAC (Surgard) The DVAC reporting format is a hard line communication format used in North America over the Bell Telecom network.
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Trouble Zone Maps Following is a list of all the trouble zones assigned to each of the Protege System modules. Trouble zones are used to monitor the status of the Protege System and are linked to communication failures, power supply conditions and enclosure tamper inputs.
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Zone Number Description Type Group CP001:25 Service 1 Stopped Hardware Fault System CP001:26 Service 2 Stopped Hardware Fault System CP001:27 Service 3 Stopped Hardware Fault System CP001:28 Service 4 Stopped Hardware Fault System CP001:29 Reserved * * | | * * | || | CP001:64 | | Reserved In the above table a '*' indicates that the trouble zone will not generate a system trouble as by default it is not assigned a trouble type or group.
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Zone Number Description Type Group ZXxxx:08 Bell 2 Over Current Bell/PGM Fault General ZXxxx:09 Reserved * * ZXxxx:10 Reserved * * ZXxxx:11 Reserved * * ZXxxx:12 Reserved * * ZXxxx:13 Reserved * * ZXxxx:14 Reserved * * ZXxxx:15 Reserved * * ZXxxx:16 Module Offline Module Offline System In the above table a '*' indicates that the trouble zone will not generate a system trouble as by default it is not assigned a trouble type or group.
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Zone Number Description Type Group RDxxx:05 Lock Failure Power Fault General RDxxx:06 Door 1 Forced Forced Door Access RDxxx:07 Door 2 Forced Forced Door Access RDxxx:08 Door 1 Left Open Left Open Access RDxxx:09 Door 2 Left Open Left Open Access RDxxx:10 Reader 1 Voltage Power Fault General RDxxx:11 Reader 2 Voltage Power Fault General RDxxx:12 Reader 1 Tamper System Tamper System RDxxx:13 Reader 2 Tamper System Tamper System RDxxx:14 Door 1 Lockout Attempts Acces
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Profiles Profiles are used to divide up the available memory in to regions that can be used for specific applications. For example an access control configuration may require more users than a burglary configuration and this is how the various profiles are designed. There are seven profiles that are predefined and one that can be configured manually. By default manual configuration is disabled.
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Description Number User Names 2000 Area Names 32 Access Level Names 128 Zone Type Names 64 Zone Input Names 752 Home Names 16 Door Names 16 Door Type Names 8 Area Group Names 64 Menu Group Names 16 Keypad Group Names 8 Phone No Names 8 Schedule Names 64 Door Group Names 16 Floor Group Names 32 PGM Names 250 Floor Names 128 Elevator Names 8 Elevator Floor Groups 32 Elevator Cars 8 Elevator Floor 1024 Programmable Function 64 Elevator Car Groups 8 Elevator Car G
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Description Number Zone Inputs 720 Trouble Zone Inputs 1408 PGM Outputs 772 PGM Groups 128 Area Groups 32 Menu Groups 16 Door Groups 248 Keypad Groups 16 Areas 32 Access Levels 248 Zone Types 128 Doors 128 Door Types 8 Services 8 Phone Numbers 16 Schedules 248 Holidays 32 Daylight Saving Adjustment Settings 1 Automation Points 32 Panel Configuration Information 1 Users 10000 Events 4000 User Names 2000 Area Names 32 Access Level Names 248 Zone Type Names
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Description Number PGM Names 16 Floor Names 128 Elevator Names 8 Elevator Floor Groups 32 Elevator Cars 8 Elevator Floor 1024 Programmable Function 64 Elevator Car Groups 8 Elevator Car Group Names 8 Analog Expander 8 Variable 248 Bit Variable 248 Elevator System Profile The elevator system profile is built to have a larger number of elevator cars for an access control system that involves a large amount of elevator security, ideally suited to high rise apartment and office buildin
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Description Number Schedules 248 Holidays 32 Daylight Saving Adjustment Settings 1 Automation Points 32 Panel Configuration Information 1 Users 2000 Events 2000 User Names 2000 Area Names 64 Access Level Names 248 Zone Type Names 32 Zone Input Names 368 Home Names 16 Door Names 16 Door Type Names 8 Area Group Names 64 Menu Group Names 16 Keypad Group Names 8 Phone No Names 8 Schedule Names 32 Door Group Names 16 Floor Group Names 128 PGM Names 16 Floor Names
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School Profile The school profile is built to have a larger number of zone expansion devices for the significant increase in burglary requirements for education facilities.
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Description Number Area Group Names 64 Menu Group Names 16 Keypad Group Names 8 Phone No Names 8 Schedule Names 32 Door Group Names 16 Floor Group Names 16 PGM Names 16 Floor Names 0 Elevator Names 16 Elevator Floor Groups 16 Elevator Cars 8 Elevator Floor 1024 Programmable Function 32 Elevator Car Groups 8 Elevator Car Group Names 8 Analog Expander 8 Variable 248 Bit Variable 248 Storage Profile The storage profile is built to have a larger number of zone expansion d
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Description Number Areas 128 Access Levels 248 Zone Types 248 Doors 16 Door Types 8 Services 4 Phone Numbers 8 Schedules 64 Holidays 32 Daylight Saving Adjustment Settings 1 Automation Points 16 Panel Configuration Information 1 Users 500 Events 4000 User Names 500 Area Names 128 Access Level Names 248 Zone Type Names 248 Zone Input Names 1136 Home Names 16 Door Names 16 Door Type Names 8 Area Group Names 248 Menu Group Names 16 Keypad Group Names 8 Phone
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Description Number Elevator Car Group Names 8 Analog Expander 8 Variable 248 Bit Variable 248 Automation Profile The automation profile has a large number of automation points that are used in the system to allow control of large automation functionality in a building or residence. This also allows the assignment of certain automation functions for the control of external actions within programmable functions.
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Description Number Area Names 64 Access Level Names 64 Zone Type Names 16 Zone Input Names 528 Home Names 16 Door Names 4 Door Type Names 4 Area Group Names 248 Menu Group Names 16 Keypad Group Names 4 Phone No Names 8 Schedule Names 32 Door Group Names 4 Floor Group Names 4 PGM Names 16 Floor Names 0 Elevator Names 0 Elevator Floor Groups 0 Elevator Cars 8 Elevator Floor 1024 Programmable Function 128 Elevator Car Groups 8 Elevator Car Group Names 8 Analog Ex
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Description Number Trouble Zone Inputs 2224 PGM Outputs 1108 PGM Groups 128 Area Groups 248 Menu Groups 16 Door Groups 16 Keypad Groups 8 Areas 248 Access Levels 16 Zone Types 16 Doors 4 Door Types 4 Services 4 Phone Numbers 8 Schedules 32 Holidays 8 Daylight Saving Adjustment Settings 1 Automation Points 8 Panel Configuration Information 1 Users 2000 Events 2000 User Names 2000 Area Names 248 Access Level Names 16 Zone Type Names 16 Zone Input Names 1104
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Description Number Floor Names 0 Elevator Names 0 Elevator Floor Groups 0 Elevator Cars 0 Elevator Floor 0 Programmable Function 0 Elevator Car Groups 0 Elevator Car Group Names 0 Analog Expander 8 Variable 248 Bit Variable 248 328 PRT-CTRL-SE Protege System Controller Reference Manual | PRT-CTRL-SE
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Data Register Definitions Memory registers are locations of memory that can be used to store information, calculate information or provide links to the analog values from the PRT-ADC4 and PRT-DAC4 analog control modules. Memory registers can be used as part of programmable functions to perform actions and calculations and are access either in a Boolean Mode (Bits) or Data Mode (Word Value). A memory register can refer to a decimal value from 0-65,535.
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Object Notation When selecting an address for a module or an object (Zone, Trouble Zone or PGM) on a module the address is entered using the Module Type, Module Address and optionally the number of the object. This is referred to as the Protege Object Notation. This notation allows fast and efficient access to any programmable or controllable object within the Protege System.
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System Type Description ZX Zone Expander PX PGM Expander RD Reader Expander ZN Zone Input TZ Trouble Zone PM PGM Output AG Area Group MG Menu Group DG Door Group KG Keypad Group AR Area AL Access Level ZT Zone Type DR Door DT Door Type SV Service PH Phone Number SC Schedule HL Holiday DL Daylight Savings AT Automation PL Panel Configuration EV Event FG Floor Group EL Elevator EF Elevator Floor FN Programmable Function EG Elevator Group AE Analog Exp
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System Type Description ZNT Zone Name ATT Automation Name DRT Door Name DTT Door Type Name AGT Area Group Name MGT Menu Group Name KGT Keypad Group Name PHT Phone Number Name SCT Schedule Name DGT Door Group Name FGT Floor Group Name PMT Panel Name FLT Floor Name ELT Elevator Name 332 PRT-CTRL-SE Protege System Controller Reference Manual | PRT-CTRL-SE
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Data Entry When programming the Protege System using the LCD Keypad the information is entered using predefined methods, these include List Entry (a list of predefined values or values looked up from another record), Decimal Entry, PGM and PGM Group, Protege Notation and Module Notation. Each of these entry methods use predefined keys and functions as outlined in the following sections. Decimal Data Entry Decimal numbers are entered using the 0-9 keys.
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Programming the name or text value is completed using the numerical keys on the keypad in the same manner that you select a name or store a name using a mobile telephone keypad. Entering text data is done by pressing keys multiple times to show the character required. The display will change as the key is pressed. Using the character key map shown, to enter the name John, the [5] key is pressed once, move the cursor one location to the right with the [Î] key.
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Test report time: 02:00 The cursor will be located on the first digit of the hour field. Press the [1] key to program the first digit followed by the [5], [3] and [0]. The display will now show 15:30 on the screen as below. Test report time: 15:30 The new value will be programmed when the [ENTER] key is pressed or another navigation key is pressed moving screens. Hexadecimal Data Entry Hexadecimal entry is required in only a few key locations however it is an important part of the data entry process.
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List entries are scrolled using the [1] and [3] keys. Pressing the [1] key will move the display up the list and pressing the [3] key will move down the list. In our example we want to select the 4th schedule for the access level is programmed as *Schedule 004. AL001 Schedule Working Hours The list entry does not have a cursor as the display shows a fixed value from a static table or internal record.
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AR001 Disarmed pgm: K-000:00 Pressing the [7] key once will show the 'P' on the screen, move the cursor to the right using the [Î] key. AR001 Disarmed pgm: KP000:00 Complete the entry by pressing [0], [0], [1] then the PGM output number by pressing [0] and [3] for the green LED. To enter a PGM group complete the same procedures as above however use the PG for the prefix in the module type, the screen will change to only have 3 digits allowing the PGM group to be entered.
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Conversion When programming the Protege System it is required in some instances that a value be converted from Hexadecimal. ASCII or Decimal for entry in to a specific field. The following tables allow a quick look up of the conversion and associated values. Hexadecimal Conversion In some cases it is required that you convert a hexadecimal character in to a decimal character. The following table can be used to convert between the base 16 (Hexadecimal) and base 10 (Decimal) number systems.
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DEC HEX DEC HEX DEC HEX DEC HEX 028 1C 092 5C 156 9C 220 DC 029 1D 093 5D 157 9D 221 DD 030 1E 094 5E 158 9E 222 DE 031 1F 095 5F 159 9F 223 DF 032 20 096 60 160 A0 224 E0 033 21 097 61 161 A1 225 E1 034 22 098 62 162 A2 226 E2 035 23 099 63 163 A3 227 E3 036 24 100 64 164 A4 228 E4 037 25 101 65 165 A5 229 E5 038 26 102 66 166 A6 230 E6 039 27 103 67 167 A7 231 E7 040 28 104 68 168 A8 232 E8 041
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ASCII Conversion In some cases it is required that you convert a ASCII (American Standard Character for Information Interchange) character in to a decimal or hexadecimal character. The following table can be used to convert between the ASCII character and the equivalent hexadecimal or decimal value.
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ASCII DEC HEX ASCII DEC HEX ! 033 21 a 97 61 " 034 22 b 98 62 # 035 23 c 99 63 $ 036 24 d 100 64 % 037 25 e 101 65 & 038 26 f 102 66 ' 039 27 g 103 67 ( 040 28 h 104 68 ) 041 29 i 105 69 * 042 2A j 106 6A + 043 2B k 107 6B , 044 2C l 108 6C - 045 2D m 109 6D .
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Contact Integrated Control Technology welcomes all feedback. Please visit our website (http://www.incontrol.co.nz) or use the contact information below. Integrated Control Technology P.O. Box 302-340 North Harbour Post Centre Auckland New Zealand 11 Canaveral Drive Albany North Shore City 0632 Auckland New Zealand Phone: +64-9-476-7124 Fax: +64-9-476-7128 Email: sales@incontrol.co.nz or support@incontrol.co.nz Web: www.incontrol.co.
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