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May 20, 2018 | Author: Malcolm Warner | Category: N/A
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1 Architect and Engineering Specificatin Date: September 2007 Updated: March 20092 Cntents 1 General Name Lcatin and Acc...
Description
Architect and Engineering Specification Date: September 2007 Updated: March 2009
Contents 1
General.................................................................................................................... 4
1.1
Name...............................................................................................................................................................4
1.2
Location and Access to Project ....................................................................................................................4
1.3
Precedence .....................................................................................................................................................4
1.4
Codes and Standards ....................................................................................................................................4
1.5
Summary of Work Included.........................................................................................................................5
1.6
Alternates .......................................................................................................................................................6
1.7
Definitions ......................................................................................................................................................7
1.8
System Description........................................................................................................................................7
1.9
System Capacities........................................................................................................................................10
1.10
Basic System Capabilities ...........................................................................................................................11
1.11
Special System Functions............................................................................................................................23
1.12
Quality Assurance .......................................................................................................................................26
1.13
System Programming..................................................................................................................................27
1.14
Training........................................................................................................................................................27
1.15
System Testing.............................................................................................................................................28
1.16
Bid Response................................................................................................................................................28
1.17
Submittals ....................................................................................................................................................29
1.18
Extended Service Requirements ................................................................................................................29
1.19
Supervision of Work ...................................................................................................................................30
1.20
Project Record Drawings............................................................................................................................31
1.21
Guarantee.....................................................................................................................................................32
2
Products ............................................................................................................... 32
2.1
Front End System........................................................................................................................................32
2.2
Front End Software Specifications ............................................................................................................35
2.3
Front End Software Requirements............................................................................................................36
2.4
Access Control Field Hardware Devices ...................................................................................................38
2.5
Access Control Readers/Keypads ..............................................................................................................51
2.6
Line Drivers and Modems ..........................................................................................................................55
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2.7
Access Control Spares.................................................................................................................................56
2.8
CCTV Control Equipment .........................................................................................................................57
3
Execution .............................................................................................................. 58
3.1
General Installation ....................................................................................................................................58
3.2
Site Management Responsibility................................................................................................................58
3.3
Changes ........................................................................................................................................................59
3.4
System Components ....................................................................................................................................59
3.5
Power Quality and Reliability ....................................................................................................................59
3.6
Wire and Cable............................................................................................................................................59
3.7
Identification and Tagging .........................................................................................................................60
3.8
Transmission Systems .................................................................................................................................60
3.9
Cameras .......................................................................................................................................................60
3.10
Start-Up Responsibility ..............................................................................................................................61
3.11
Preparation for Acceptance (Prior to Final Inspection) ..........................................................................61
3.12
System Acceptance Requirements .............................................................................................................61
3.13
Warranty Service ........................................................................................................................................63
3.14
Spare Parts...................................................................................................................................................64
4 4.1
Addendum ............................................................................................................ 65 NetAXS Series..............................................................................................................................................65
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1
General
The purpose of this document is to specify the Architectural/Engineering and Bid criteria for the design, supply, installation, and commissioning of an integrated Access Control, Alarm Monitoring, Video Badging, and CCTV/DVR Security Management System (ISMS).
1.1 Name [_____________________________________________________]; shall be hereinafter referred to in this document as the Customer and the bid respondents shall be referred to as the Contractor. The term Customer includes direct employees and other appointed Customer agents such as architects or consultants. These agents may be requested by the Customer to represent the Customer in undertaking certain project tasks.
1.2 Location and Access to Project Any access using normal highway routing to the facility is acceptable. Permission for access to this facility may be revoked for any and all persons who violate facility traffic regulations including speed limits, parking restrictions and directions of the responsible security personnel. All of the Contractor’s personnel, operating forces, and delivery personnel shall be made aware of and shall comply at all times with the regulations and the directions of responsible Customer personnel.
1.3 Precedence If any statement in this or any other specification is in conflict with any provision of the General Terms and Conditions to the contract, the provision stated in the General Terms and Conditions shall take precedence. Any questions, which require additional interpretation and guidance, shall be immediately brought to the Customer’s attention. Architectural drawings shall have precedence over other drawings in regard to dimensions and location.
1.4 Codes and Standards Work shall be performed in accordance with the applicable international, federal, state, and local codes or standards current at the commencement of installation. The following list summarizes applicable standards: •
UL 294, UL 1076, ULC.
•
CE.
•
FCC – Part 15, Part 68.
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•
NFPA70, NEC.
•
IEEE, RS170 variable standard.
•
IEEE, NTSC (color camera broadcast).
•
PAL (color camera broadcast, Europe).
•
CCIR (monochrome standard, Europe).
Where more than one code or regulation is applicable, the more stringent shall apply. Cable installation, identification and termination shall be performed in accordance with the Manufacturer’s technical installation guidance, in addition to the applicable codes above. In the absence of the Manufacturer’s recommendations on conductor application, the Contractor shall ensure that the cable selected meets all technical requirements of the equipment to be installed.
1.5 Summary of Work Included Submittals shall be required at bid submission and prior to commencement of installation and training as described in this specification. 1.5.1
Materials
Furnish and install at locations that show the specified equipment to provide a completely operational Integrated Security Management System without additional cost to the Customer. The following list of main items of the installation shall not be considered to be all inclusive: •
Card Readers / Biometrics Readers/ Smart Card Readers / Keypads/Cards.
•
Card access control panels.
•
Alarm monitoring panels.
•
Output relay control panels.
•
Door locks/lock power supplies.
•
Cameras.
•
Lenses (Fixed, Zoom, and Auto Iris).
•
Camera Accessories (Mounts, Enclosures, and Pan/Tilt Motors).
•
Monitors.
•
Video Switches.
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•
Digital Video Servers.
•
Video Motion Detectors.
•
Pan/Tilt and Zoom Controllers.
•
Central Processing Unit (CPU).
•
Modems and all related communications equipment.
•
Printers.
•
All power supplies or transformers.
•
Master desk/Work Station unit.
•
Upright equipment consoles.
•
Client/workstation Computers.
•
Wire for readers/panel communication.
•
Cable/wire for CCTV.
•
Badging printer/badging camera.
•
Paging System interface and equipment.
Provide and install all equipment, components, wire, cable, antennae, and mounting hardware as required to meet manufacturer’s specifications and documented installation procedures. All materials and equipment shall be standard, regularly manufactured equipment. All systems and components shall be thoroughly tested and proven in actual field use. Where possible, all system components shall be from one manufacturer. Whenever components are included from sources other than the manufacturer of the system, the Contractor shall demonstrate and verify that the components are compatible, prior to system acceptance, and shall provide to the Customer that use of such components will not void or impair the system warranty.
1.6 Alternates 1.6.1
No Substitutes
The exact make and model number identified in this specification shall be provided without exception. 1.6.2
Or Equal
An item may be substituted for the specified item provided that in every technical sense, the substituted item provides the same or better capability.
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1.6.3
Or Approved Equal
A substitute for the specified item may be offered for approval by the Customer. The proposed substitution must in every technical sense provide the same or better capability than the specified item. Such requests for approval shall be submitted in accordance with the provisions of Bid Response, Prior Approvals, and must be obtained within the time frames outlined.
1.7 Definitions 1.7.1
Abstract Device (ADV)
A logical representation of a physical device, such as a control panel or door. An ADV is similar to an icon, is placed on a Floor Plan Background, and is associated with a device in the system. The ADV provides a user-friendly interface for monitoring the status and controlling the actions of a physical device without concern for the device’s hardware configuration details. 1.7.2
Server
A server is a dedicated software program or PC that provides all clients (software applications or users) with equal access to the resource without the client having to know where the resource is physically located. In WIN-PAK, a Server such as the Database Server is a software program that provides all clients with access to the database, regardless of what PC the database actually resides on. A Client/Server design distributes system activities across many computers, minimizing bottlenecks and significantly improving system performance.
1.8 System Description The Integrated Security Management System (ISMS) shall be a modular, networked access control system capable of handling large proprietary corporations with multiple remote sites, alarm monitoring, video imaging, badging, paging, guard tour, digital video servers and CCTV switcher control. The system shall allow for easy expansion or modification of inputs, outputs, and remote control stations. The system control at the central computer location shall be under a single software program control, shall provide full integration of all components, and shall be alterable at any time, depending upon the facility requirements. Reconfiguration shall be accomplished online through system programming, without hardware changes. The software program shall be a true 32-bit, 3-tier client/server, ODBC compliant application based on Microsoft tools and standards. The software program shall operate in one of the following environments; Windows 2003 Server, Windows Vista Business, Windows XP Professional SP2, Windows 2000 Professional or Server using Service Pack 4.
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The software program shall consist of multiple servers including, but not limited to, Database Server, Communications Server, and Client Workstation Server. The Servers shall be capable of being installed on one or more PCs across a network providing a distribution of system activities and processes. The system shall support multiple communication servers on a LAN/WAN, to provide distributed networking capabilities, which significantly improve system performance. The database architecture shall be MSDE 2000 as standard with the capability to utilize Microsoft SQL Server 2005; SQL Server 2005 Express Edition or SQL Server 2000. The system shall have the capability to communicate with the control panels via LAN/WAN connections utilizing industry standard communication protocol. The system software shall allow support for multiple accounts allowing separate access to the card database, badge layout, operator access, and reporting. Physical hardware may be filtered by operator level into sites. Sites may reside in multiple accounts. The system shall allow control of common areas between accounts. Access levels and time zones shall be global to allow for easy administration. The global access levels and time zones shall be capable of being used by several accounts. Administrators shall have the ability to move cardholders from one account to another. When moving cardholders in such a manner, access level information shall not be transferred automatically in order to ensure proper security settings are made upon changing the status of the cardholder. The software program shall use Abstract Devices (ADV) for representing hardware devices in the system. The ADVs shall be used in Floor Plans to provide the user interface to control and monitor the system, and shall also be used in the Data Trees to organize, display, and control system information. The system shall support both manual and automatic responses to alarms entering the system. Each alarm shall be capable of initiating a number of different actions, such as camera switching, video pop-up, activation of remote devices, door control, and activation of WAV files. The system shall provide both supervised and non-supervised alarm point monitoring. Upon recognition of an alarm, the system shall be capable of switching and displaying a view from either the CCTV camera or video from the digital video server camera that is associated with the alarm point. The system shall be capable of arming or disarming alarm points both manually and automatically, by time of day, and by day of week. Access control functions shall include validation based on time of day, day of week, holiday scheduling, site code and card number verification, automatic or manual retrieval of cardholder photographs, and access validation based on positive verification of card, card and PIN, card or pin, pin only and Site Code only. Camera functions such as pan/tilt, lens control, limits, and home position shall be supported by the system. Unless specific programming dictates otherwise, an operator shall be able to control these functions for all cameras so equipped. Live video from a CCTV system and/or digital video server shall be able to be displayed on the computer screen. The live video window shall allow the user to change its size and location on the computer screen.
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Video controls (pan, tilt, zoom, camera/monitor selection) shall be able to be sent to the CCTV system and/or digital video server from the live video window. The user shall have the ability to freeze and save a single frame of video from the CCTV system to a file. Alarm events with defined priorities shall be able to pop-up automatically in an Alarm event window for operator attention. The pop-up shall display the name of the event (reader, alarm point, cardholder or system alarm), time, date, site, account, if a card event the card number, type of event and cardholder name. An event counter shall also display the number of times the event was reported to the Alarm event monitor prior to Acknowledgement or Clearing the event. Event instructions shall be made available by double clicking on the event. The event shall also display an icon to indicate that video is available for events so programmed. The Alarm event window shall allow the operator to initiate a physical response to the event as well as a written response. Responses shall include but not be limited to: acknowledge, clear, open a preprogrammed floor plan, energize, de-energize, pulse, time pulse, add comment, retrieve event video, and bring up live video, shunt or un-shunt. Assigned passwords shall be possible to define the levels of system operation for each individual operator. System operation for individual operators shall include, but not be limited to, restricted time periods for login, available accounts and default language selection at login. Operator actions range from no view or control rights to basic monitoring including the ability to block the viewing of card and or personal identification numbers, to full control of the system including programming. The system programming shall be user friendly, and capable of being accomplished by personnel with no prior computer experience. A quick start wizard shall allow the operator to easily program a system including basic time zones, access panels (IP connection, Modem Pools or direct connections to an RS232 port), card activation to a general purpose access area and deactivation date. The software shall utilize drop boxes for all previously entered system-required data. The programming shall be MENU driven and include online “Help” or “Tutorial” information, as well as online data entry examples. The Help shall be available by using the F1 key. When using the F1 help access, the help menu will provide detailed information relative to the operation that the user is performing without the need to key in additional search parameters. An operation Tutorial shall also be provided with the access control software. The contents of the Tutorial shall include, but not be limited to: Floor plan setup and control, Visitor management integration, Digital video integration, and Intrusion integration and operation. After installation, the Customer shall be able to perform hardware configuration changes. These hardware configuration changes shall include, but not be limited to, door open time, door contact shunt time, point and reader names, when and where a cardholder is valid, and the ability to add or modify card databases as desired; For the intrusion system, any function that can be programmed from a physical keypad shall also be available from the system’s virtual keypad, without the services of the Contractor or Manufacturer. Equipment repair shall be able to be accomplished on site, by module replacement, utilizing spare components.
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All control components shall utilize “Distributed-Processing” concepts. The distributed processing shall include the ability to download operating parameters to any field panel, thus allowing the field panel to provide full operating functions independent of the access control system computer.
1.9 System Capacities The System shall require one master control file server station. The access control program running on the file server shall restrict the number of operator workstations working in a LAN/WAN based on the access software licensing. Licensing shall be by software activation monitoring concurrent connection and not require the use of hardware keys per workstation. The only restriction will be imposed by the operating system and hardware configuration. Operator workstations shall provide all functionality as available at the server with the exception of database maintenance functions. The system software shall not use a hardware dongle unless required by the system hardware and then only on the PC where the database server resides. No dongles shall be required at any workstations. Overall control of the access control, CCTV/DVR, paging, and alarm monitoring shall be through software control, which provides complete integration of the security components. The file server station shall operate in both a programmed and a manual mode. Capacities in a direct connect configuration per communication server with the PRO-2200 Modular Control System shall be 4,080 readers, 50,000 card holders, 32,640 alarm points, 32,640 relay outputs. Using RS-485 connection to the PRO-2200 allows for drop-line configurations resulting in a maximum of 32,640 readers, 261,120 alarm points, 261,120 relay outputs: For configurations based only on the N1000 the capacities per communication server shall be 31,620 readers, 25,000 card holders, 126,480 alarm points, 189,720 relay outputs: For configurations based only on the NS2+ the capacities per communication server shall be 15,810 readers, 10,000 card holders, 63,240 alarm points, 31,620 relay outputs. Other connections to the communication server: a maximum of 64 CCTV switchers supporting 999 cameras and 99 monitors per switcher; 100 VISTA 128FBP or 100 VISTA 250FBP Capacities in a remote connect configuration per communication server shall be up to 250 remote dial-up sites, 4,000 card readers, 50,000 card holders per site, 32,000 alarm inputs, and 32,000 relay outputs. The system shall be expandable in modular increments to total capacity. The software shall not require installation of any module or any other upgrading to achieve above stated capacities. Unrestricted number of operator workstations and multiple communication servers shall be supported as a standard feature of the WIN-PAK PE access control software. Systems requiring only a single account, single communication server and one or five concurrent workstations shall use WIN-PAK SE with appropriate license. System upgrades shall be accomplished by software key codes and not require installation or reinstallation of any access control software.
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1.10 Basic System Capabilities The following functional capabilities are considered essential for the system described in this specification. The capabilities are to be considered standard, without the need for add-on software or hardware. 1.10.1 General •
All databases will have the ability to Add, Delete, Report, View or Edit information.
•
Provide storage of all system transactions in a retrievable file.
•
Log all events by time and date.
•
Provide capability to store all or selected system transactions to a disk file.
•
Provide ability for Customer to make any system configuration changes such as, but not limited to door open time, door contact shunt time, point and reader names, when and where a cardholder is valid, and the ability to add or modify card databases at any time.
•
Support “Global Anti-pass back”, allowing cardholder to enter/exit any such defined card reader on the same intelligent control panel or RS-485 drop-line consisting of 2 and 4 door controllers.
•
Anti-pass back modes shall include hard (no forgiveness), soft (allows access but generates an alarm event) and timed for all readers on the intelligent controller, on specified reader or card for a definable period of time up to 32,000 seconds.
•
Duress feature where a PIN is used in conjunction with a card read, the numbers of digits are selected at the keypad where the PIN number is a value of one different from the normal PIN.
•
Two card holder rule, where two valid, non-identical “cards” must be used within a 20 second period of time to grant access.
•
Ability to display when a card holder who uses the reader has accessed (opened) the door or if the card was used but the door was not opened.
•
Ability to select appropriate doors to remain locked even though it is programmed by time zone control to be unlocked, until the first valid card read is seen during the door’s time zone at which time the door will remain unlocked for the duration of its defined time period.
•
Latch mode operation where the first card read unlocks the door and the second causes it to lock the door.
•
Provide mode of system operation that stores system commands that were not accepted by the hardware.
•
Provide mode of system operation that requires the operator to enter a response to an event when acknowledging it from the alarm view window.
•
Provide mode of system operation that allows acknowledged alarms to be automatically cleared.
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•
Provide mode of system operation where un-acknowledged events will cause the computer to continuously emit a pulsating beep until all un-acknowledged alarms are acknowledged. A momentary silence feature shall allow the beeping to cease for up to 60 seconds. The silence feature shall also provide a visual count down to when the beeping will begin again.
•
Provide mode of system operation where when an acknowledged, but not cleared event will be reissued requiring acknowledgement when the event changes to an alarm or trouble state.
•
Provide mode of system operation that does not allow the operator to clear an alarm prior to it being restored to normal.
•
Provide ability for manual operator control of system output relays. The manual functions shall include the ability to energize, de-energize, return to time zone, or pulse the output relay. The pulse time shall be a programmable setting.
•
Provide ability for manual operator control of system doors. The manual functions shall include the ability to Lock, Un-Lock, Disable, Card only, Card-Pin only, Pin only, exit only and site code only.
•
Provide ability to automatically display stored “video image” of cardholder, and switch real-time camera from CCTV or digital video server to card reader location for specific card usage.
•
The cardholder “video image” pop-up shall be activated based on a priority level set to the cardholder or reader. Information in the pop-up shall include, but not be limited to the card holder’s primary image a live video pop-up showing the person who initiated the pop-up, entrance name, time, date, cardholder name, and status. User shall be able to display up to 40 note fields. The size of the pop-ups shall be adjustable by the operator.
•
Support multiple card reader technology including:
•
o
Proximity.
o
Wiegand effect.
o
Biometrics.
o
Magnetic stripe.
o
Bar Code.
o
Keypad.
o
Card/keypad (PIN).
o
High-speed long range Vehicle ID.
o
Smart Card.
Provide a means for scheduled automatic backups of any or all database system files. A means to restore these files from a simple menu shall exist.
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•
Provide the ability to address up to 255 serial communication ports per communication server, where each port can be configured for either hardwired or dial-up. When configured for dial-up, any one port can support multiple dial-up locations.
•
Communication from the access control communication server to the remote intelligent control panels shall be selectable. Communication options shall be RS-232 directly to the intelligent control, via RS-485 converter, dial-up, leased line from a defined communication port or by LAN/WAN using an IP address for direct connection to the intelligent controller via network interface card. When using IP addressing it shall be un-acceptable to use a communication port converter device on the communication server side of the transmission. A minimum of 255 such IP connections shall be allowed per communication server.
•
All commands and updates to the panels shall be verified and shall automatically retry if communications have failed.
•
Provide a system scheduler that shall automatically: o
Call remote locations to retrieve history transactions and update panel information, including time and date.
o
Activate or deactivate cards locally or at remote dial-up sites.
o
Initiate a pre-programmed command event/action.
o
Synchronize system to intelligent controller time.
o
Run a pre-defined (template) History report.
o
Run a pre-defined (template) Card Holder report.
o
Card frequency report defined by reader(s), over a defined period of time with disposition options to automatically report or report and de-activate card or change the access level of the card.
o
Frequency shall be defined as Never, Now, Once, Hourly, Daily, Weekly, Once per 2 weeks, and Monthly.
•
Provide drop boxes for all system-required information that the user has previously entered.
•
Provide the ability to initiate an email (via SMTP) or page to a paging system based on a transaction state. A transaction state shall be defined as but not limited to Normal, Alarm, Trouble, Ajar, Trace, Not Found, Anti-Pass back Violation, PIN Violation, Time Zone Violation, Site Code Violation, Door Used, Duress, No Second Card Presented, Trace Card or Expired Card, and System Alarms including, Panel Com, Panel Power Failure, Modem Pool, Guard Tour, and Tamper. Intrusion partition events including but not limited to: Alarm, Alarm Cancel, Aram Away, Arm Stay, Auto Arm, Auto Disarm, Bypass, Disarm, Early Arm,Early Disarm, Fail to Arm, Fail to Disarm, Normal, Not Ready, Part Arm, Quick Arm, Recent Close, Remote Arm, Remote Disar, Unbypass, User Code Added, User Code Deleted, user Code Edited. Intrusion zone events including but not limited to: Alarm, Alarm Restore, Bypass, Fault, Fault Restore, Normal, Trouble, Trouble Restore, Unbypass. Intrusion output events including but not limited to: Alarm, Communication Loss, Normal, Tamper, Tamper Restore. Intrusion panel events
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including but not limited to: Acdcess Denied, Automatic Test, Comm Fail, Comm Restore, Faults, Faults Restore, Line Restore, Line Trouble, Manual Test, Pager Restore, Pager Trouble, AC Restore, AC Trouble, Alarm, Battery Low, Battery Low Restore, Disarm, Normal, Recent Close, Reset, Panic Alarm, Power Up, Program begin, Program Changed, Program End, System Shutdown, System Shutdown Restore, Tamper Alarm, Tamper Restore, Test End, Test Start, Time/Date changed. •
A host grant mode of operation shall exist that requires the host computer to grant accesses to “valid” cards. An alternate host grant mode shall allow the card access information to be downloaded along with unlocking the door for “valid” cards.
1.10.2 Card Database •
Provide a simple card and card holder database import utility. The utility shall be password protected and accessible only to administrators of the access control system. Information that can be imported shall include but not be limited to: First Name, Last Name, card number, activation date, de-activation date, status, up to 40 note fields and photo images. A simple CSV (comma separated value) file shall be used for the importing of data and image file names.
•
Cardholder information shall include unique card number up to 15 digits and optional Personal Identification Number.
•
Allow multiple cards per cardholder.
•
Allow for up to 32 access levels to be assigned to a card, or a single “precision” access level. When using “precision” access levels it shall be possible to create a unique access level per card using an existing access level as a baseline template. This customized card access level shall have both beginning and ending dates.
•
Provide 40 user definable fields.
•
Each card holder note filed shall allow the option to be entered as free form data or structured data. Structured data shall be by use of a template or drop list. The template and drop list shall be created by the operator. The capacity of the template shall allow for up to 65,000 characters.
•
Provide special card options that include, but are not limited to: o
Time zone reference, which defines valid time.
o
Visitor use, which provides a specified activation date and expiration date (spanning years).
o
Trigger control value, which can initiate a predefined procedure at the intelligent control independent from any control function from the system computer.
•
Provide a card “Trace” function. The Trace function shall allow normal access control, but will provide a tracking alarm at the system monitor.
•
Provide ability to store digital images of cardholder or other digital images such as property or family members. Up to 99 such images shall be associated with the cardholder.
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•
Provide ability to store a written signature of the cardholder or other signatures such as family members. Up to 99 such signatures shall be associated with the cardholder.
•
Provide the ability to prioritize specific card usage from 1 to 99 with separate priority options shall included but not be limited to Anti-pass back, Trace, PIN Violation, Normal, Not Found, Expired, Host Grant, Site Code and Time Zone card activities or violations.
•
Allow the user the ability to assign an operator message per card event state and a procedure for the intelligent control shall perform per event state.
•
Allow the user the ability to send an email message, selectable per card event type.
•
Upon editing card information, the updated information shall be sent automatically to the appropriate access control panel, when hardwired, with no other user intervention. If the port is dial-up, the entry will be stored on disk and shall be updated when connection is made to the remote loop. If the scheduler is used, then card updates shall be sent based on scheduling.
•
In a traditional (Wiegand) 5 digit card database, the numbers 0 and 65,535 shall not be valid card numbers as some devices transmit these numbers on an improper read.
•
In a 15-digit card database, the number 0 shall not be a valid card number as some devices transmit this number on an improper read.
•
A card shall have the ability to be allowed to access one or selected accounts up to all available accounts.
1.10.3 Access Levels •
Provide the ability to define specific times of access.
•
Provide the ability to define specific readers for access.
•
Provide a template of a defined access level detail, where changes can be made to the template and saved as a new access level detail.
•
Provide an access control tree structure that allows groupings of entrances. User shall have the ability to group program all entrances on the branch or make specific changes to individual entrances.
1.10.4 Camera Control •
Provide ability to interface to a microprocessor-based matrix video switcher via a system communication port or LAN connection.
•
Provide ability to program descriptions and camera titles for all system cameras.
•
Provide ability to manually switch any camera in the system to any monitor in the system.
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Architect and Engineering Specification WIN-PAK SE / WIN PAK PE
•
Provide ability to automatically switch any camera in the system to any monitor in the system based on any alarm point or system alarm.
•
Provide ability to manually control the pan, tilt, and lens functions (zoom, iris and focus).
•
Provide ability to set and clear the movement limits of the pan and tilt mechanisms so equipped.
•
A “live view” from the CCTV switcher shall be displayed on the system computer. The view shall include pan, tilt, zoom, camera/monitor selection, and the ability to send user programmed information to the video switcher. The ability to change the size and location of the view shall exist. The ability to capture store a single frame of video shall exist.
1.10.5 Digital Video Server •
Provide ability to interface to a network of digital video servers.
•
Provide ability to program descriptions and camera titles for all system cameras.
•
Provide ability to manually access live video from any camera on any defined digital video server.
•
The viewer windows shall allow at least 16 live videos to be displayed at one time.
•
The viewable size of the viewer window shall be adjustable by using the common “click and drag” method. When adjusting height or width, the image shall retain the correct aspect ratio.
•
Provide ability to automatically pop-up any camera in the system based on any alarm point, system alarm or cardholder video image pop-up.
•
Provide ability to manually control the pan, tilt, and lens functions (zoom, iris and focus) of cameras so equipped.
•
A “live view” from the Digital Video Server shall be displayed on the system computer with out the use of any add in video capture card.
•
Live views shall allow for the change in image resolution or aspect ratio to optimize the viewing quality to the native video.
•
The view shall include controls for pan, tilt, zoom and the ability to select a “live” view or a view based on selected time and date.
•
The ability to change the size and location of the view shall exist.
•
The digital video server window shall also supply the ability to select a digital video server, camera, live, from stored video using user defined time and date.
•
A filter option shall allow the operator to define a date, time, transaction type, device(s), card holder, card number, note field, card event type and alarm status. Once filtered all events will be displayed in a listing. The listing shall include on the same event line if the event has an associated video clip. By clicking on the event, the time, date, camera and digital server shall be
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preloaded in the manual selection boxes allowing the operator to simply click on the sorted event and then click on “show” to display the recorded event. •
Supported DVR shall be the RapidEye family and Fusion from Honeywell.
1.10.6 Alarm Monitoring – Alarms Only View •
Report alarm point activity.
•
Provide color for each specific alarm point action of “Alarm”, “Normal” and “Trouble”, conditions.
•
Provide the ability to access the default floor plan graphic for any active alarm point by a right click option.
•
Live video pop-up from the digital video server(s) shall follow the alarm event pop-up. The number of live camera views in the pop-up window shall be no less than 16. The live pop-up window shall allow the user to define the quantity of views from 1 – 16. The ability to adjust the size of the live pop-up window shall exist.
•
Provide ability to bypass alarms in the system.
•
Execute alarm notification in all modes of operation.
•
Provide ability to acknowledge any intrusion alarm, event alarm, system alarm, card, or reader activity based on priority.
•
Provide display of system activity with the higher priorities displayed at the top of the list with identical points stacked with a frequency count of each point’s change of state.
•
Provide a video icon for events that have video associated with it. Right clicking on such an event shall allow the option to retrieve recorded video or view “live”. The stored video clip shall playback by default a minimum of 2 seconds before the actual event without any adjustment.
•
Viewable alarms shall include but not be limited to access control related events such as Door Normal, Door Alarm, Door Trouble, Door Ajar; Card events such as Trace, Not Found, AntiPass back Violation, PIN Violation, Time Zone Violation, Site Code Violation, Door Used, Duress, No Second Card Presented, Trace Card or Expired Card, and System Alarms including, Panel Com, Panel Power Failure, Modem Pool, Guard Tour, and Tamper. Intrusion partition events including but not limited to: Alarm, Alarm Cancel, Aram Away, Arm Stay, Auto Arm, Auto Disarm, Bypass, Disarm, Early Arm,Early Disarm, Fail to Arm, Fail to Disarm, Normal, Not Ready, Part Arm, Quick Arm, Recent Close, Remote Arm, Remote Disar, Unbypass, User Code Added, User Code Deleted, user Code Edited. Intrusion zone events including but not limited to: Alarm, Alarm Restore, Bypass, Fault, Fault Restore, Normal, Trouble, Trouble Restore, Unbypass. Intrusion output events including but not limited to: Alarm, Communication Loss, Normal, Tamper, Tamper Restore. Intrusion panel events including but not limited to: Acdcess Denied, Automatic Test, Comm Fail, Comm Restore, Faults, Faults Restore, Line Restore, Line Trouble, Manual Test, Pager Restore, Pager Trouble, AC Restore, AC Trouble, Alarm, Battery Low, Battery Low Restore, Disarm, Normal, Recent Close, Reset, Panic Alarm,
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Power Up, Program begin, Program Changed, Program End, System Shutdown, System Shutdown Restore, Tamper Alarm, Tamper Restore, Test End, Test Start, Time/Date changed. •
Provide ability for the operator to acknowledge and clear alarms from display. Prior to acknowledgment, the user shall be allowed to enter a response per alarm. The system shall offer a means to require acknowledgement of an alarm before it can be cleared.
•
Provide a display of the most current transactions in real time.
•
Provide the ability for dynamic alarm monitoring of alarm points in real time on the system computer’s video display terminal.
•
Provide an alarm view filter that is structured as a tree allowing the operator to select individual devices or groups of devices to be viewed.
•
Provide a “System” alarm upon a loop integrity violation.
•
Provide a “Panel Not Responding” alarm if communication to a panel is lost.
•
Provide real time printing of alarms as they occur by line printing with a dot matrix printer or provide printing of alarms, one page at a time, using typical Windows page printing.
1.10.7 Alarm Monitoring/System Control – Tree View •
Provide the ability for dynamic alarm monitoring of alarm points in real time on the system computer’s video display terminal.
•
Provide color and icon shapes for each specific alarm point action of “Alarm”, “Normal”, “Trouble”, and “Shunted”.
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Access control panels in the alarm tree, like alarm points, shall also indicate if they are in the buffered mode of operation as well as any “system” related alarm such as “Tamper” or “Primary Power Loss” or Loss of communication.
•
Devices connected to the communication server shall provide additional popup information as to the communication port or IP connection the device is programmed for.
•
Provide a means to launch a Virtual keypad from an intrusion panel partition to monitor the physical keypad remotely and to administer programming changes via the Virtual keypad.
•
The control tree shall be created by the user and allow for manual of control of all system devices. By right clicking on a device in the tree the operator is able to initiate the appropriate action from a pick list. Actions shall include but not be limited to: Acknowledge All Alarms, Clear All Alarms, Send Time & Date, Send Camera Titles, Camera to Monitor Switch, Control Camera P/T/Z, Focus, Iris, Live Video, Retrieve Video from Clip, Run Command File, Lock, Unlock, Shunt, Unshunt, Pulse, Timed Pulse, Restore to Time Zone (Door Mode), Override Online Door Mode, Initialize, Cancel Initialization, Buffer, Unbuffer, Connect Remote and Disconnect Remote from remote site. For partitions monitored by the intrusion panel the control shall include but not be limited to arm away, arm stay, disarm, refresh and provide a virtual
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keypad for the partition. For zones monitored by the intrusion panel the control shall include but not be limited to bypass, unbypass and refresh. Intrusion panel output control shall included activate, deactivate and refresh. 1.10.8 Operator Database •
The software shall allow the assignment of operator levels to define the system components that each operator has access to view, operate, change or delete.
•
The ability to view, edit or delete cardholder sensitive information such as note fields, card number and PIN shall be definable by field per operator.
•
Define the accounts that the operator has access to.
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Provide the ability to log operator actions in the history files.
•
Provide default language to be used based on operator’s login.
•
Provide specified time periods that the operator can log in.
1.10.9 Panel •
Provide ability to program Action Messages and assign an alarm event priority. A specific action message may be displayed for each alarm, system alarm (communication, ground fault, power, panel reset, low voltage, panel tamper), card, or reader usage state. States shall include but not be limited to: Incorrect Password, Panel Configuration Error, Panel Remote Dial-up Failed, Panel Remote Dial-up Successful, Poll Response Alarm, Poll Response Normal, Primary Power Failure, Primary Power Normal, Tamper Switch Alarm, Tamper Switch Normal, Unsupported Panel Version, Anti-Pass back Violation, Anti-Pass back Violation Door Not Used, Anti-Pass back Violation Door Used, Card Not Found, Door Normal, Door Alarm, Door Trouble, Door Ajar, Door Locked, Door Unlocked, Duress Request Denied, Duress Request Door not Used, Duress Request Door Used, Forced Open, Free Egress Door Not Used, Free Egress Door not Verified, Free Egress Door Used, Host Grant Card Downloaded, Host Grant Door Unlocked, Invalid Format, Invalid Format Reverse Read, Invalid Pin, Invalid Site Code, Invalid Time zone, Issue Code, Never Allowed at this Door, No Second Card Presented, Site Code Verified Door Not Used, Site Code Verified Door Used Trace Card, Valid Card Door Not Used, Valid Card Door Used. Intrusion partition events including but not limited to: Alarm, Alarm Cancel, Aram Away, Arm Stay, Auto Arm, Auto Disarm, Bypass, Disarm, Early Arm,Early Disarm, Fail to Arm, Fail to Disarm, Normal, Not Ready, Part Arm, Quick Arm, Recent Close, Remote Arm, Remote Disar, Unbypass, User Code Added, User Code Deleted, user Code Edited. Intrusion zone events including but not limited to: Alarm, Alarm Restore, Bypass, Fault, Fault Restore, Normal, Trouble, Trouble Restore, Unbypass. Intrusion output events including but not limited to: Alarm, Communication Loss, Normal, Tamper, Tamper Restore. Intrusion panel events including but not limited to: Acdcess Denied, Automatic Test, Comm Fail, Comm Restore, Faults, Faults Restore, Line Restore, Line Trouble, Manual Test, Pager Restore, Pager Trouble, AC Restore, AC Trouble, Alarm, Battery Low, Battery Low Restore, Disarm, Normal, Recent Close, Reset, Panic Alarm, Power Up, Program begin, Program Changed, Program End, System Shutdown,
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System Shutdown Restore, Tamper Alarm, Tamper Restore, Test End, Test Start, Time/Date changed. •
Provide ability to program descriptions, shunt times, and momentary shunt times for all system alarm points.
•
Provide ability to program descriptions, pulse times, and energize times for all system output relays used for door control and other auxiliary functions.
•
Provide ability to program descriptions for all system card readers.
•
Monitor both supervised and non-supervised alarm points with the ability to select by point which point shall be supervised and define if the point is a normally closed or normally open point contact.
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Provide ability to interlock any alarm point condition to an output relay.
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Provide ability to interlock any alarm point condition to another alarm point.
•
Provide ability to interlock any alarm point to switch a camera to a system monitor.
•
Provide ability to program alarms and associate incoming alarms with related outputs.
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Provide a programmable “delay” setting up to 255 seconds for all system alarm points. The system shall not report the alarm condition until the delay setting has expired.
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Allow for up to 8 different site codes to be used in the system.
•
Support up to 16 readers per Intelligent Control Module.
1.10.10
Reports
•
Provide reporting capability for printing of selected system transactions from the disk files by specific time and date selection, range from time and date to time and date, or from start time to end time each day of the selected date range.
•
Provide feature to generate a history report for an alarm point(s) state. An alarm point state shall be defined as Normal, Alarm, Trouble, or Ajar.
•
Provide feature to generate a history report of system alarms. A system alarm state shall be defined by panel and include any of the following information: communication, ground fault, power, panel reset, low voltage, panel tamper, and loop communication.
•
Provide feature to generate a history report for a card(s) state. A card state shall be defined as Normal, Trace, Not Found, Anti-Pass back Violation, PIN Violation, Time Zone Violation, Site Code Violation, or Expired card. Additional search criteria shall include cardholders that meet up to at least 3-note field restriction and filter the report with defined reader location(s).
•
Provide feature to generate a history report for system operator(s) activities. The report shall include time, date, operator name the device associated with the action and the type of action
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performed by the operator. Activities shall include but not limited to: acknowledged and cleared transactions, camera control, door mode, door and relay control such as unlock, lock; door and input control such as shunt, unshunt; login, logout, panel initialization, panel buffer and panel unbuffer. •
Provide complete database reporting of all data programmed into the system data files.
•
Provide a means to define how long a card holder has been in a defined area. This report shall allow the time to be accumulated representing an attendance report. The definable filters shall include time/date range, reader(s) definition, card number, card holder and note field. The output of the report shall allow sort options to include First Name, Last Name, Event Time, and Card Number. The sorted data shall be selectable as Alpha or Numeric sorting and Ascending or Descending.
•
Provide feature to generate a report based on the frequency of usage of a card. The report shall allow the operator to define a time/date period, a minimum and maximum usage limit, a means to define which reader or readers should be used to filter the report and the ability to further define the type of card to be reported on based on note field selections. This report shall also provide a disposition function. The cards meeting the filtering criteria shall be acted upon based on the disposition setting. Disposition settings shall include but not be limited to: Report only, Deactivate the card or Re-assign to a specified an access level. This report shall be available in the event scheduler. When defining when to run the report an option to select the number of previous days to run the report against shall be provided. As an example a scheduled weekly report for the last 14 days could generate allowing for an overlap of time if desired.
•
Provide a means to create report templates. Report templates shall include, but not be limited to, History and Card Holder information. The templates shall be able to be assigned to a scheduler to run automatically per the scheduler settings.
1.10.11
Tracking/Muster Report
•
A tracking feature shall allow the system operator to identify an area and the person(s) in that area.
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Areas shall be defined by readers representing an IN or OUT read status.
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Defined areas shall provide an automatic update of how many cardholders are in the area.
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An area defined as an exit shall remove the person from the tracking area.
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A view displaying all card holders in a defined tracking or muster area shall have the ability to be sorted in columns where by clicking on the column the data in the column shall be sorted. At a minimum, the columns can be sorted by: Card Number, Status, Card Holder, Reader, and Time/Date.
•
A Muster area shall be defined by a reader(s) used to “muster” individuals in the event of an emergency.
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Reports can be generated for the defined muster or tracking area.
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•
Reports can be generated for all muster or tracking areas in the system.
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Reports can be sorted on time and date, card number, card holder name or matching note field. When sorted on notefield, a page break between fields shall allow the report to be easily handled for departmental uses.
•
Tracking areas can include “nested” areas. Nesting allows for various reports from a large area to smaller areas within the large area.
•
A Tracking and Muster area screen shall be continually updated with the most recent card activity, therefore minimizing the time required generating a report.
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A history priming feature shall load history activities for the defined amount of hours when the software is started. This priming feature shall be implemented in the event that the system computer is offline when a muster call is initiated, thereby allowing the implementation of the tracking and muster features of the software. The history priming time shall be operator selectable in 1-hour increments up to 99 hours.
1.10.12
Time Zones
•
Time zone definitions shall include Starting time, Ending time, Days of the week, and Holiday override.
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Time shall be definable in either AM/PM or 24-hour (military) time.
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Minimum time zones that can be assigned to a panel shall be 63.
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Maximum time zones that can be defined in a system shall be unlimited.
•
Holidays shall be definable in two different time zones allowing different time schedule to be programmed for each holiday type.
1.10.13
Floor Plan Graphic
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Provide the ability to import floor plan graphics stored in a WMF format.
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Provide the ability to associate all ADV's (access, intrusion and video) to floor plan graphics allowing the user to control and monitor the system.
•
Provide the ability to link floor plan graphics together in a hierarchy fashion.
•
Allow multiple floor plan views to be displayed simultaneously.
1.10.14 •
Remote Locations
Provide capability to place remote control panels in an offline mode. In the offline mode, the remote control panels shall retain all panel history events. The amount of historical events shall be limited to the panels’ buffer capacity.
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•
Provide capability to place remote control panels in an offline mode where the remote panel will automatically call to the communications computer to report system alarms or upload buffered events.
•
Ability to manage at least 250 remote locations.
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Provide a user-definable schedule that will automatically add cards to any number of sites.
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Provide system time schedules that the computer will use to automatically start uploading or downloading information to the remote sites. Information to be sent to the panel shall include, but not be limited to, card database changes, time, date, and buffer condition. Information received from the panel shall include all buffered events. While connected to the remote site, the system software shall poll, verify, and report any loss of panel communication. If a site’s communication time is longer than expected, the system will automatically adjust the time schedule to allow all selected sites to be updated.
•
Attaching a site to an auto-dial schedule will allow the system to automatically dial the remote site at a predetermined time. The auto-dial schedule is programmed with the ability to dial Once, Now, Hourly, Daily, Weekly, Two Weeks, Monthly, or Never to the remote site.
•
Provide the ability for the operator to program when the next scheduled update will occur, based on time and date.
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Communication to remote dial-up sites shall be accomplished through the use of password protection. The remote site provides the system with a site ID; the system responds with the appropriate password. No commands or transactions occur until the communication link is verified.
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The System shall be able to receive or send information to remote access control panels on demand.
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The ability to configure how many redial attempts from the remote location shall be definable from 1 to 5.
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The ability to pause between redial attempts shall be programmable from 1 to 120 seconds.
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The ability to pause before disconnecting shall be programmable from 1 to 30 seconds.
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Communication rates shall be 38.4k baud.
1.11 Special System Functions The manufacturer of the system shall provide in the system software the following unique applications as standard:
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1.11.1 Guard Tour •
Guard Tour shall allow the operator to program a series of guard check points that must be activated to accomplish the task of a Guard Tour.
•
The check point shall be either reader points or alarm contact points or a mixture.
•
The Guard Tour can be timed sequential allowing travel time between points with +/- tolerance. This type of tour shall allow alarms to be generated for early, missed or late events.
•
The Guard Tour can be un-sequenced with no time parameters.
•
The Guard Tour shall be started by two methods, Manual or Scheduled by the access control system scheduler.
1.11.2 ID Badging System/Video Image System •
Allow any card data fields to be assigned to a badge.
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Allow a stored cardholder image to be associated to any background. Each cardholder shall have any one of the background layouts associated to it.
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Provide the ability to create temporary or permanent badges.
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Badges shall be printed without the need to assign an access level or access control card number. Numbers and access levels may be assigned after the print process.
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Provide image export capability. Image shall be exported utilizing the cardholder’s name as the file name in .jpg format.
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Provide unlimited custom badge layouts (only limited by the hard disk capacity).
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Provide 24-bit (16.7 Million) color palette for background design or foreground text.
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Provide ability to implement all fonts supported by Windows.
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Provide import capabilities of background information by video camera or via BMP, JPG, or TGA files.
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Provide import capabilities of video images from compatible BMP, JPG, PCX, or TGA file formats.
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Provide for multiple bitmap images to be imported onto the badge layout.
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Provide video capture capability from a compatible TWAIN device.
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Provide video capture capability from a DirectX device.
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Provide video capture capability from a compatible video capture device, such as a highresolution color camera.
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Provide badges in horizontal or vertical format.
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•
Provide capability for printout of cardholder badge by video or standard printers supported by Windows.
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Provide ability for multiple card enrollment/badging stations on networked system.
•
Allow text fields up to 255 characters per field.
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Allow merging of data field from card database to text field.
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Allow a field to be defined for bar code usage merging data from the card database.
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Allow up to 99 different photos of the cardholder to appear on the same badge.
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Provide line, rectangle, rounded rectangle, and ellipses to be created on the backdrop with provisions for line thickness and color.
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Provide signature capture or import capability for up to 99 signatures that can be previewed in the cardholders badge or printed on the cardholder’s card.
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Provide the capability to have a front and back layout selected for a cardholder and the ability to print the card in one step (requires suitable printer) without the need to reinsert the card.
•
Provide the capability to encode a magnetic stripe with information from any of the card data fields to include, but not be limited to: First Name, Last Name, Card Number, Activation date, Expiration Date or any data from the card holders note field.
•
Information shall be encoded on track 1, 2, or 3 (requires suitable printer) without the need to reinsert the card. With suitable printer each track shall be encoded with ABA, IATA, or TTS format.
1.11.3 Networking •
Provide networking capabilities (LAN or WAN) as allowed by the computer’s operating system license.
•
The access control software shall support two networking methods. By default, Domain controlled networks shall be the standard configuration providing secure networking communications. The ability to work on less secure peer-to-peer (Workgroup) networks shall be allowed for lower security installations. The functionality shall be one or the other and not run in both modes at the same time.
•
Provide the ability for a network system to support concurrent users up to the license limit, i.e., one station adding cards and making badges, another station monitoring alarms, yet another running data base reports, another controlling door openings and alarm shunting, and so on.
•
The workstation shall have the same UI (user interface) functionality as the Server, except the workstation shall not be able to perform database maintenance functions.
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1.11.4 Visitor Management •
Integration with LobbyWorks visitor management system shall be provided as an option.
•
The access control system shall provide the ability to identify cards, card holders and access levels that can be used by the visitor management systems.
•
When a Visit is registered by LobbyWorks, the information regarding Assigned Card, Access Area, Host & Visitor company information is passed on to the access control system.
•
The Access card assigned to visitor in LobbyWorks is assigned to the respective cardholder in the access system. The card’s Access level is updated as assigned in LobbyWorks and made active.
•
When the Visit ends or on Close of Visit, the visitor (cardholder) is deleted in the access control system. The Card is made Inactive and Expiration date is set to that day.
1.12 Quality Assurance 1.12.1 Manufacturer Qualifications All system components shall be furnished by manufacturers of established reputation and experience who shall have produced currently operating Integrated Security Management Systems which include access control, alarm monitoring, CCTV video switching, paging, and video badging. Manufacturer shall be able to refer to similar installations rendering satisfactory service. 1.12.2 Bidder Qualifications At the time of bid, the bidder shall have manufactured, supplied, or installed other systems of similar size, complexity, and general operation as the system described in this specification. The bidder shall furnish in writing to the Customer proof of compliance with manufacturer’s system installation certification program. •
Hold all legally required state contractor’s licenses necessary to accomplish the installation and activation of the described system at the facilities indicated. Contractor shall submit copies of licenses to the Customer prior to the start of work.
•
Have a local office staffed with factory trained technicians, fully capable of engineering, supervising installation, system start-up, providing the Customer training, and servicing of both hardware and software for systems of similar complexity and function as the system described in this specification.
•
Indicate complete and total compliance with the provisions of this specification by letter, signed by an officer of the corporation, or a principal if other ownership currently exists. This letter shall also clearly identify any exceptions to specification requirements.
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1.13 System Programming 1.13.1 Database The Contractor shall assist the Customer in setting up the system database requirements and formats. Forms to be utilized in collecting and entering all data shall be provided to the Customer by the Contractor. Written instructions on the use of all forms shall be included. Examples of the sequence of completion for all related forms shall be provided. The Customer shall be responsible for the actual data collection and entry to ensure a complete understanding of the system and its contents. 1.13.2 Programming The Contractor shall initially configure the system in accordance with the design shown in the drawings. All the access control requirements, alarm point definitions, camera/monitor, alarm point call up and in/out relationships, individual component descriptions, and any other programmable parameters required shall be as shown in the appropriate drawings and schedules. The Customer shall perform any additional programming with the assistance of the Contractor.
1.14 Training The Contractor shall supply personnel to create a cadre of key Customer employees in the operation and maintenance of the installed system. A training program shall be designed to provide a comprehensive understanding and basic level of competence with the system. It shall be sufficiently detailed to allow Customer personnel to operate the system independent of any outside assistance. The training plan shall include detailed session outlines and related reference materials. The Customer personnel shall be able to utilize these materials in the subsequent training of their co-workers. Training time shall not be less than a total of forty (40) hours, and shall consist of: •
Three periods: eight (8) hours during a 4:00 PM to 12:00 AM period, eight (8) hours during a 12:00 PM to 8:00 AM period and eight (8) hours during normal day shift periods for system operators. Specific schedules shall be established at the convenience of the Customer.
•
Eight (8) hours of system training shall be provided to Customer supervisory personnel so that they are familiar with system operation.
•
Eight (8) hours of system maintenance familiarization training shall be provided to Customer telecommunications personnel.
The specified training schedule shall be coordinated with the Customer and will follow the training outline submitted by the Contractor as part of the submittal process.
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1.15 System Testing The Contractor shall demonstrate the functionality of the system upon completion of installation, and shall document the result of all tests and provide these results to the Customer.
1.16 Bid Response 1.16.1 Bidder’s Responsibility It shall be the Contractor’s responsibility to verify actual conditions. The Contractor shall walk the site, review the specifications and drawings, and advise the Customer in writing of any conditions, which may adversely affect the work, prior to the bid date. Dynamic site conditions are such that the drawings are accurate as of the date of production; however, Contractor must identify any changes that may affect the bid response. If no exceptions are presented, the Contractor shall become responsible for any changes to the work required as a consequence of such pre-existing conditions. The Contractor shall confirm the availability of the proper power source for each piece of specified equipment, through site visits and drawings as necessary. Where proper power does not exist, the Contractor shall provide same, using equipment and methods authorized by the Customer. The Bid Response must fulfill the intent of the drawings and specifications to the satisfaction of the Customer to be acceptable. 1.16.2 Prior Approvals Any substitution proposed by the Contractor for catalog numbers and specified brands or trade names, followed by the designation “or approved equal”, shall be approved subject to the following provisions: •
All substitutions must be approved by the Customer in writing. For this purpose, the Contractor shall submit to the Customer no later than twenty-one (21) calendar days prior to bid opening date, a typewritten list containing a description of each proposed substitute item or material. The Customer may change submittal period if the schedule permits such a change.
•
Sufficient data, drawings, samples, literature, or other detailed information that shall demonstrate to the Customer that the proposed substitute is equal in quality, appearance, and functionality to the material specified shall be supplied.
•
Fourteen (14) days prior to the bid opening date an addendum shall be issued listing manufacturers’ products, which have been approved for substitution. After that date, no substitutions shall be permitted. Such approval shall not relieve the Contractor from complying with the requirements of the drawings and specifications.
•
The Contractor shall be responsible, at the Contractor’s sole expense, for any changes resulting from the Contractor’s proposed substitutions which affect other parts of the Contractor’s own work or the work of others.
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•
Failure of the Contractor to submit proposed substitutions for approval in the manner described above and within the time prescribed shall be sufficient cause for disapproval by the Customer of any substitutions otherwise proposed.
1.17 Submittals Requirements at bid submission: At bid submission, submit three (3) copies of the following: •
Block diagrams of the proposed systems.
•
A materials list with names of manufacturers, model numbers, and technical information on all equipment proposed. Product technical information sheets for each principal component in the proposed system. Include wire/cable specifications and wire/cable marking material.
•
A statement listing every technical and operational parameter wherein the submitted equipment varies from that which was originally specified. If the submitted fails to list a particular variance and his submittal is accepted, but is subsequently deemed to be unsatisfactory because of the unlisted variance, the submitter must replace or modify such equipment at once and without cost to the Customer.
•
A complete operations manual for the system products being supplied. All exceptions to this manual that shall be provided as a result of special requirements of this specification shall be identified on an attached document.
1.18 Extended Service Requirements 1.18.1 Requirements after acceptance of bid As soon as possible, after award of contract, submit for approval two (2) copies and one (1) sepia of each of the following: 1.18.1.1 Wiring Diagrams Provide complete point-to-point wiring diagrams for all systems and subsystems. Show all components in the communications path from the central control through all intervening system components, including terminal boards to the individual end devices and antennae pairs. Document dedicated leased lines and associated equipment required to complete a transmission path. The intent of this requirement is to provide a document that will permit end-to-end tracing of the system wire and cabling. Where conductors are grouped into a cable for long site runs, a single line properly identified shall be shown. Where these cables fan out for termination, individual wire termination and markings shall be shown. 1.18.1.2 Operating Sequences Provide a complete written description of the sequence of operation of the system.
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1.18.1.3 Equipment Locations Provide drawings that show the elevations for every building that indicate exact locations of all equipment in the system, both new and existing. 1.18.1.4 Shop Detail Drawings These drawings shall indicate the accurate locations of all equipment associated with each system in respect to architectural and structural conditions. Drawings of components, equipment layouts, and other small size areas shall be dimensioned to the common scale of ½” or 1” per foot. Drawings of larger areas shall be dimensioned to the common scale of ¼” or 1/8” per foot. Drawings shall include explicit notes on the termination of all conductors and shields for each location. Architectural backgrounds shall be in accordance with the latest architectural drawings and shall be complete with elevations, sections, and details as required depicting the installation. If, upon preliminary submittal of drawings, there are corrections to be made, they shall be made to the drawings and resubmitted for approval without extra cost to the Customer. These drawings shall be approved prior to starting work. The decision of the Customer’s representative shall be final on all items. These drawings and changes, at completion of the job, shall become a part of the Contract Documents. 1.18.1.5 Markings Submit for approval wire marking, panel label, zone label, antenna, terminal strip numbering, and terminal strip identification styles and typical text as outlined in Identification and Tagging of this specification. 1.18.1.6 Test Procedure A written document detailing the test procedure of the system shall be supplied. This procedure shall include all tests required by the equipment manufacturer and by this specification. Copies of the test format shall be submitted which shall comply with the requirements stated in System Acceptance Requirements. The decision of the Customer’s representative shall be final on all items. The test procedure shall become a part of the Contract Documents. 1.18.1.7 Training Plan Submit the plan to be followed in training key employees in the operation and maintenance of the installed system, as previously described.
1.19 Supervision of Work The Contractor shall personally, or through an authorized and competent representative, constantly supervise the work from beginning to completion and shall, within reason, keep the same workmen and foreman on the project throughout the duration.
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1.19.1 Site Project Manager •
The Contractor shall provide a Site Project Manager to interface with all appropriate subcontractors during the installation of the system.
•
The Site Project Manager shall maintain continuing coordination with the Customer Project Coordinator, keeping him abreast of progress and informed on any problems that may develop. This is absolutely essential so that interference with daily facility operations is held to the minimum.
1.19.2 Plan of Operations and Project Schedule Before beginning work, the Contractor shall submit a complete plan and schedule of proposed operations for approval. The schedules of all subcontractors, transportation, storage, and all other matters affecting the work shall be accounted for on the project schedule. The schedule shall be updated with any revisions and presented to the Customer on a weekly basis.
1.20 Project Record Drawings Project Record Drawings include all bid drawings and all submittals. The Contractor shall obtain, pay for, and keep up-to-date and available to the Customer or its representative complete blue line prints of the project clearly annotated with “as-built” data as the work is performed. This data shall include the following: •
Routing of signal wire and cables, including the designations assigned to each wire/cable and antenna placements.
•
Accurate location of all equipment installed under the specifications.
•
Complete equipment list for each functional area.
•
These drawings shall become part of the requirements for progress payments.
Upon completion of this project, the information shown on these drawings shall be transferred to a complete set of full size, reproducible, front-reading mylars at no additional cost to the Customer. Any Customer backgrounds required shall be obtained at Contractor’s sole expense. These shall constitute the As-Built Drawings that shall be submitted in accordance with the provisions of System Acceptance Requirements.
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1.21 Guarantee 1.21.1 Manufacturer Sign Off All equipment and systems shall be guaranteed by the Contractor for a period of two (2) years commencing with the filing date of the Notice of Completion, provided the system has been inspected and signed off by the Manufacturer. The guarantee shall cover all costs for Warranty Service, including parts, labor, prompt field service, pick-up, transportation, and delivery. The guarantee does not apply to printers, cameras, or monitors. The contract for service shall cover the period starting with the first expected activation of each system for installation and test and shall continue for an initial period of two years. A partial-year extension shall be acquired to cover the period to the end of the two-year guarantee and shall be handled such that a smooth transition to a Customer maintenance agreement can be achieved with no lapse in coverage. 1.21.2 Contractor Sign Off The Contractor shall guarantee all equipment and systems for a period of two (2) years commencing with the invoice date from the Manufacturer (badging printers, monitors, and communication devices excluded).
2
Products
The quantities of components shall be determined and installed by the Contractor based on the requirement to provide a fully operational Integrated Security Management System (ISMS), as per the intent of the specification, and as shown on the drawings and recommended by the Manufacturer. Communication between components co-located shall be via coaxial cable, CAT 5 or shielded twisted pairs. The system shall operate under Windows 2003 Server, Windows Vista Business, Windows 2000 Server SP4, Windows 2000 Professional SP4 or Windows XP SP2. Communication between satellite stations and the master file server station shall be in accordance with conventional Windows 2003, Windows XP LAN/WAN operation.
2.1 Front End System The master file server station, stand-alone stations, and workstations shall utilize compatible desktop (full-size) or Server computers (PCs). The requirements for the PC shall be scaled according to system application requirements. •
Standard PC configuration shall be used for systems with 1-100 readers, 1-25,000 cardholders, and 2 communication ports. The standard PC configuration shall be used for stand-alone system,
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workstations, or server. The PC system for WIN-PAK PE shall be the Honeywell Access Systems WPPFS202 (ten user OS license) or WPPAC202 (five user OS license) and for general purpose workstations WPPWS201 and for badging workstations the WPPW235. The PC system for WINPAK SE shall be the Honeywell Access Systems PCA202 (single user OS license) or PCFS202 (five user OS license) and for general purpose workstations PCWS201 and for badging workstations the PCWS235. •
2.1.1
For performance PC system configurations that require high availability, the manufacturer shall be consulted for appropriate custom PC system configuration. Computer Specifications
2.1.1.1 Standard PC Specification •
CPU shall be a 2.8 Ghz or faster Pentium 4.
•
RAM shall be 1GB or more.
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Hard disk shall be a 80 GB 7200 RPM or larger.
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3.5” floppy disk and DVD +/- RW drive.
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Monitor shall be 17” 1024 x 768 or larger.
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2 button mouse.
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Standard 101-keyboard layout and IBM-compatible keyboard.
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Backup to either Tape or Optical disk.
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2 Serial communication ports or Ethernet port.
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1 Parallel port (2 Parallel ports for badging) or 1 USB (3 USB ports for badging)
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Windows 2003 Server, Windows Vista Business, Windows XP SP2, Windows 2000 Server SP4 or Windows 2000 Professional SP4.
2.1.1.2 Performance PC Specification: •
CPU shall be a minimum quantity of two Xenon 2.2 GHz.
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RAM shall be a minimum of 4GB.
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Hard Disk shall be a RAID 5 configuration using drives that are a minimum of 36 GB Ultra 320 15k RPM SCSI.
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3.5” floppy disk and DVD +/- RW drive.
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Monitor shall be 19” 1280 x 1024.
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2 button mouse.
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•
Standard 101-keyboard layout and IBM-compatible keyboard.
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DLT Tape backup equaling the RAID capacity.
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10/100 Network interface card (NIC).
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2 Serial communication ports or Ethernet can be used.
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Windows 2003 Server or Windows 2000 Server SP4.
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Appropriate user licenses for the software used on the server.
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Microsoft SQL Server 2005.
2.1.2
Communication Ports and Loops
The computer shall have two serial communication ports. If additional ports are required, they shall be provided by installing additional compatible multi-port cards. Instead of communication ports a LAN/WAN solution is acceptable using standard 10/100/1000 Ethernet connections. System communication ports shall be expandable up to a maximum of 255 ports. Port expansion cards shall be the NTEXPDI4, NTEXPDI8, NTEXPDI16, NTEXPDI32, and NTEXPDI64. Each communication port shall support one of the following configurations. Local direct connect loop or multiple remote loops via modem. A local RS485 multi-drop communication loop shall support up to: Eight PRO-2200 intelligent controllers, 128 readers or 1024 output relays or monitor up to 1024 alarm points; Thirty-one, N-1000-IV control panels, 124 readers, 496 alarm points and up to 744 output relays; Thirty-one, NS2+ control panels, 62 readers, 248 alarm points and up to 124 output relays. Each port can support intrusion panels as a single per port: VISTA 128FBP, VISTA 250FBP (via 4100SM), Galaxy Ethernet E080 firmware version 2.01 or later, Galaxy Classic panel firmware version 4.50 or later, Galaxy G3 panel firmware version 5.04 or later. Remote configuration shall be supported. Up to 250 dial-up (access only) or networked (access or intrusion) remote locations per communication server may be defined. Each remote location shall support one PRO-2200 intelligent controller, 16 readers or 128 output relays or monitor up to 128 alarm points; Thirty-one, N-1000-IV control panels, 124 readers, 496 alarm points and up to 744 output relays; Thirtyone, NS2+ control panels, 62 readers, 248 alarm points and up to 124 output relays. Each port can support intrusion panels as a single per port: VISTA 128FBP, VISTA 250FBP (via 4100SM), Galaxy Ethernet E080 firmware version 2.01 or later, Galaxy Classic panel firmware version 4.50 or later, Galaxy G3 panel firmware version 5.04 or later. 2.1.3
Video Image/ID Badging System
The Video Image/ID Badging System shall include a personal computer running the WIN-PAK SE/ WINPAK PE badging software, camera, SVGA monitor, Video/Badge Printer, and Signature Capture Pad (optional) as listed below:
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2.1.3.1 Camera A camera shall be required for badging cardholders. The camera shall be the PBCAM14 and tripod PBTRI-POD. 2.1.3.2 Camera Lighting Kit One camera lighting kit shall be required for each camera. The camera lighting kit shall be the PBLK3. 2.1.3.3 Badge Printer A badge printer shall be required for producing cardholder badges. The badge printer shall be the M9006749. 2.1.3.4 Signature Capture Pad An optional signature capture pad shall be available for capturing cardholder signatures for inclusion on the badge. The signature pad shall be the LWVMSSIG. 2.1.4
Alarm & Report Printer
For page printing of alarms and reports, any printer that can be installed in the Windows 2003 Server, Windows Vista Business, Windows XP, Windows 2000 operating system shall be used. For single line printing, the PB-PRINTER dot matrix printer and cable, CBL-1, shall be used. 2.1.5
Digital Video Server
Digital Video Server that is to be integrated into the access control software shall be the Fusion, Rapid Eye Multi, Rapid Eye LT, or Access DVPro. The integration shall be transparent to the operator and connection between the access control software and the remote digital video servers shall be via LAN or WAN.
2.2 Front End Software Specifications The System software shall be Honeywell Access Systems WIN-PAK PE for unrestricted number of operator workstations and up to 50 accounts. The System software shall be Honeywell Access Systems WIN-PAK SE for 1 to 5 operator workstations and a single account. 2.2.1
Databases
The software shall provide edit, add, delete, search, sort, and print options for records in selected databases.
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2.2.2
Printer Output
The software shall direct user-selected activity to the Windows supported printer. 2.2.3
Monitor Display
The software shall display all system activity on a color monitor in real time, except for remote locations configured as dial-up. The software shall allow a WAV file to be played upon all alarm conditions. The software shall provide an acknowledge function for all incoming alarm messages that are defined for alarm acknowledgment. 2.2.4
Disk Storage
The software shall store user-selected activity on the hard disk. Report options shall recall selected history information from the hard disk. The user may request report information based on selected cardholders, specific areas and/or specific times. The software shall allow archiving by defined dates. 2.2.5
English Descriptions
The software shall support descriptive names for all database entries. The card database shall include name, number, PIN, access level, status, activation, and expiration date or limited usage and 40 userdefined fields.
2.3 Front End Software Requirements 2.3.1
Password Protection
The software shall provide multi-level password protection, with user-defined operator name/password combinations. Name/password log-on shall restrict operators to selected areas of the program. The software shall allow the assignment of operator levels to define the system components that each operator has access to view, operate, change or delete. 2.3.2
Action Messages
The software shall allow recall of user created text messages upon any condition. 2.3.3
Graphics
The software shall allow recall of user created screen graphics, upon alarm/trouble/normal conditions. These graphics shall allow the user to go from a general area to a specific area in various layers or stages and shall allow the user to monitor and control system devices from floor plans.
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2.3.4
Manual Panel Control
The software shall allow manual control of selected inputs, outputs and groups of outputs. Manual panel control shall include pulse, timed pulse, and energize/de-energize or return to time zone options for output points and shunt/unshunt or return to time zone options for input points. For entrances and readers manual control shall include but be limited to Lock, Un-Lock, Disable, Card only, Card-Pin only, Pin only, exit only and site code only. For partitions monitored by the intrusion panel the control shall include but not be limited to arm away, arm stay, disarm, refresh and provide a virtual keypad for the partition. For zones monitored by the intrusion panel the control shall include but not be limited to bypass, unbypass and refresh. Intrusion panel output control shall included activate, deactivate and refresh. 2.3.5
CCTV System Control
•
The software shall provide complete control of all CCTV System functions from the computer keyboard.
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The software shall support a CCTV system with up to 99 monitors and 999 cameras per CCTV switcher.
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The software shall support individual camera/monitor connections, pan and tilt camera control functions and focus, zoom, and iris control motorized lens control functions.
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Supported CCTV microprocessor-based switchers shall include, but not be limited to: American Dynamics, Burle, Dedicated Micros, Geutebruck, Javelin, Vicon, Panasonic, Pelco, Max Pro, Max Com, and Video Blox.
•
The software shall activate selected camera/monitor combinations upon input point, system alarm, or card activity.
•
Software for the CCTV system shall allow the highest level operators to change the operating parameters of the system. The software features shall include the following capabilities: o
Edit camera title information, consisting of camera number and alphanumeric identification.
o
Any camera/monitor combination can be programmed to an alarm or card reader.
o
Program home positions for a pan and tilt camera.
Enunciate local alarms and allow the operator to acknowledge these alarms at the local or remote control locations. 2.3.6 •
Video Imaging/ID Badging The Video Image/ID Badging software shall be Honeywell Access Systems WIN-PAK PE or WIN-PAK SE.
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•
The Video Image/ID Badging software shall store cardholder images on hard disk. Stored images shall be displayed upon request.
•
Custom card backgrounds shall be displayed upon request.
2.4 Access Control Field Hardware Devices 2.4.1
PRO2200
The security management system shall be equipped with access control field hardware required to receive alarms and administer all access granted/denied decisions. All field hardware shall meet UL requirements. The system shall include the following components: 2.4.1.1 Intelligent Controller (PRO22IC) A PRO22IC shall link the security management system software to all other field hardware components (card reader modules and input and output control modules). The PRO22IC shall provide full distributed processing of access control and alarm monitoring operations. Access levels, hardware configurations, and programmed alarm outputs assigned at the administration workstation shall be downloaded to the PRO22IC, which shall store the information and function using its high-speed, local 32-bit microprocessor. All access granted/denied decisions shall be made at the PRO22IC to provide fast responses to card reader transactions. 2.4.1.1.1 Networking of PRO22IC The system shall include a network interface module (PRO22EN). The module shall be 10 Mbps Ethernet based and capable of residing on a local area network (LAN) or wide area network (WAN) without connectivity to a PC serial port. PRO22ICs with the network interface module shall be able to communicate with the database server through industry standard switches and routers. 2.4.1.1.2 Offline Operation In the event that the PRO22IC loses communication with system software, it shall continue to function normally (stand-alone). While in this offline state, the PRO22IC shall make access granted/denied decisions and maintain a log of the events that occur. Events shall be stored in local memory and uploaded to the system software after communications are restored. 2.4.1.1.3 Features The PRO22IC shall contain the following features: 2.4.1.1.3.1 Communications The following communication formats shall be supported:
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•
RS-232 at a speed of 38.4 Kbps.
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RS-485 at a speed of 38.4 Kbps.
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Ethernet at 10Mbps (10BASE-T, RJ45)
2.4.1.1.3.2 Memory •
Real time program updates, and overall host communications shall utilize flash memory.
•
Can be configured for up to 50,000 cardholders and 35,000 event buffer. (5,000 cardholders if 32-access level feature is enabled).
2.4.1.1.3.3 Additional ports Shall be provided for connecting card readers and data gathering panels via RS-485 multi-drop wiring configuration. Two (2) ports shall be available with up to 8 total boards connected in any combination. 2.4.1.1.3.4 Devices Up to 8 devices consisting of reader interface modules, input modules, and output modules shall be supported. The devices shall be connected in any combination. 2.4.1.1.3.5 Processor The PRO22IC shall contain a 32-bit processor. 2.4.1.1.3.6 Light emitting diodes (LED) Light emitting diodes (LED) shall indicate status of components and communication links. 2.4.1.1.3.7 Readers The PRO22IC shall support the following: •
Up to eight card formats and facility codes.
•
Multiple card technologies.
•
Biometric interface support.
•
Integration with other manufacturers’ card readers.
•
Issue code support shall be provided for both magnetic and Wiegand card readers.
•
Up to five-digit PIN codes.
2.4.1.1.3.8 Electrical Power
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Primary input power shall be 12VDC+15%@ 350 mA with an operating range of 10 VDC to 16VDC. The PRO22IC shall be equipped with an uninterruptible power supply (UPS) and backup battery. 2.4.1.2 Single Reader Module (PRO22R1) The PRO22R1 shall provide an interface between the PRO22IC and the card readers. The PRO22R1 shall operate with any card reader that produces a standard Wiegand (Data 1/Data 0) or Clock and Data communication output. The following requirements shall also apply: •
The card reader may be up to 500 feet from the PRO22R1.
•
Up to 8 PRO22R1s shall be connected to each PRO22IC.
•
Up to eight (8) unique card formats shall be supported.
•
The PRO22R1 shall support an integrated card reader/keypad.
•
The PRO22R1 shall support three access modes upon loss of communication with the PRO22IC.
•
These modes shall be:
•
o
Locked.
o
Unlocked.
o
Facility code.
Input power shall be 12VDC+15%@ 175 mA with an operating range of 10 VDC to 14VDC
2.4.1.3 Dual Reader Module (PRO22R2) The PRO22R2 shall provide an interface between the PRO22IC and the card readers. The PRO22R2 shall operate with any card reader that produces a standard Wiegand (Data 1/Data 0) or Clock and Data communication output. A single PRO22IC shall be able to multi-drop up to eight (8) PRO22R2s. The following requirements shall also apply: •
Each PRO22R2 shall support two card readers, each of which may be up to 500 feet from the PRO22R2.
•
Up to 8 PRO22R2s shall be connected to each PRO22IC.
•
Each PRO22R2 shall include Three (3) relay inputs and two (2) relay outputs per reader. Two (2) additional inputs and two (2) additional outputs shall be available when the module is mounted flat.
•
Up to eight (8) unique card formats shall be supported.
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The PRO22R2 shall support an integrated card reader/keypad.
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•
•
The PRO22R2 shall support three access modes upon loss of communication with the PRO22IC. These modes shall be: o
Locked.
o
Unlocked.
o
Facility code.
Input power shall be 12VDC+15%@ 175 mA with an operating range of 10 VDC to 14VDC.
2.4.1.4 Input Module (PRO22IN) The PRO22IN shall monitor all system alarm inputs. The following requirements shall apply: •
The PRO22IN shall provide up to sixteen (16) supervised alarm inputs to monitor and report fault conditions, (open, short, ground, or circuit fault) alarm conditions, power faults, and tampers. Upon alarm activation, the associated alarm condition shall be reported to the PRO22IC and subsequently to the system alarm monitoring workstation.
•
Light emitting diodes (LED) shall indicate the status of the sixteen (16) alarm zones, cabinet tamper, and power fault.
•
The input modules shall operate independently and in conjunction with the output modules (PRO22OUT), which shall send an output signal to a corresponding output device upon alarm activation. Upon alarm activation, the PRO22IN shall activate any or all alarm outputs within the PRO22OUT. The PRO22OUT shall provide sixteen (16) Form C outputs rated at 2A @ 30VDC. Upon receipt of an alarm input from the PRO22IN, the PRO22OUT shall transmit an activating signal to a corresponding output device.
•
Up to eight (8) PRO22INs shall be connected to an available PRO22IC via RS-485 cabling.
•
Diagnostic light emitting diodes (LED) shall indicate PRO22IC communication, input zone scanning, and PRO22IN heartbeat.
•
The PRO22IN shall contain the following features:
•
o
Alarm contact status scanning at up to 180 times per second for each zone.
o
Eight configuration DIP switches to assign unit addresses and communications speed.
o
A low power CMOS microprocessor.
o
Filtered data for noise rejection to prevent false alarms.
o
Two form-C, 2A @ 30VDC contacts for load switching.
o
Two dedicated inputs for tamper and power status.
o
Individual shunt times (ADA requirement).
Input power shall be 12VDC+15%@ 350 mA with an operating range of 10 VDC to 16VDC.
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2.4.1.5 Output Module (PRO22OUT) The PRO22OUT shall incorporate sixteen (16) output relays that are capable of controlling a corresponding output device upon any input activation or on command from the system. Output relays shall be capable of responding to: •
Input alarms from within the same PRO22IC.
•
Commands from a system operator.
•
Time zone control commands for automatic operation.
Output relays shall be capable of: •
Pulsing for a predetermined duration, which shall be programmable for each relay individually.
•
Following any input point from a PRO22IN attached to the same PRO22IC (on with alarm, off when clear, or as required).
•
Responding on command from the system operator to pulse, command on, command off, or reset to normal state.
•
Each PRO22OUT shall provide 16 form-C relays rated at 2A @ 30VDC. The PRO22OUT shall control the relays via digital communication. Upon receipt of an input from the PRO22IN or command from the system operator, the PRO22IN will transmit an activating signal to the corresponding relay.
•
Input power shall be 12VDC+15%@ 350 mA with an operating range of 10 VDC to 16VDC.
2.4.1.6 Card Readers/Keypads System card reader/keypad specifications shall meet one or more of options shown below in the ACCESS CONTROL READERS/KEYPADS section. 2.4.2
N-1000 Series
The security management system shall be equipped with access control field hardware required to receive alarms and administer all access granted/denied decisions. All field hardware shall meet UL requirements. The control panel shall be the Honeywell Access Systems N-1000-III for two card readers or N-1000-IV for four card readers. The control panel power supply shall be the Honeywell Access Systems X-4. The control panel shall incorporate microprocessor-based, digital technology, using high speed processing for maximum reliability.
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The system shall use distributed intelligence architecture, with control panels operating independently of one another. All database information shall be stored at the control panel level. All decision-making shall be performed at the control panel, eliminating degraded mode operation. Proprietary software programs and control logic information used to coordinate and drive system hardware shall be stored in Read Only Memory (PROM). The control panel shall be PROM and programmable RAM field upgradeable. The system shall be flexible and modular in design, allowing easy expansion. The control panel shall have UL 294, ULC and CE listings and approvals. 2.4.2.1 Enclosure The control panel enclosure shall have hinge cover with key lock. A control panel input point shall monitor an enclosure tamper switch. 2.4.2.1.1 Mechanical Height: 14 inches (355mm) Width: 16 inches (406mm) Depth: 4 inches (101mm) Weight: 21 lb. (9.5kg) 2.4.2.1.2 Power Requirements 16.5VAC 50 VA or +12 VDC @ 2 Amps 2.4.2.2 Control Panel Configuration The control panel shall operate on a RS-485 multi-drop configuration operating at 19.2K. The RS-485 multi-drop communication configuration shall be standard. The control panel shall operate in local and remote configurations and can be mixed with NS2P’s on the same RS-485 drop-line. The RS-485 multi-drop total distance shall be 4,000 feet with a maximum of thirty-one NS2P, N-1000-III or N-1000-IV control panels, without the use of modems or line drivers. If installation requires distances
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greater than listed above, a line driver or modem shall be used, as stated in PART 2, LINE DRIVERS AND MODEMS. For maximum reliability, each control panel shall support a maximum of four readers or keypads. The distance between card readers and the control panel shall be up to 500 feet wired. 2.4.2.3 Control Panel Requirements 2.4.2.3.1 Input Points A control panel supporting card readers shall provide a minimum of 16 supervised input points. System alarms shall not consume any of basic 16 supervised points. System alarms shall include, but not be limited to, communication, primary power, tamper, ground fault, 5 volt short and panel reset. A control panel supporting keypads shall provide a minimum of sixteen supervised input points. The control panel shall support non-supervised and supervised inputs via end-of-line resistors. Both non-supervised and supervised inputs shall report alarm, normal and trouble conditions. Both nonsupervised and supervised input points shall be normally opened or closed point selectable. Supervised inputs shall provide a tighter range of supervision than non-supervised. 2.4.2.3.2 Output Points The control panel shall provide a minimum of four (4) double-pole, double-throw (DPDT) form C relays, rated for 12 VDC @ 4 Amp resistive (2 Amp inductive) and 24 VDC at 4 Amp resistive (2 Amp inductive). The control panel shall be available with a total of 8 on-board relays. The control panel shall allow expansion to a total of 24 relays via two relay expansion boards. 2.4.2.3.3 Battery Back-up The control panel shall provide a 12 VDC back-up battery for up to three hour operation upon loss of AC power. The control panel shall provide a super capacitor to retain database information for up to 7 days upon loss of power. 2.4.2.3.4 Suppression The control panel shall have provisions for relay suppresser kits for each relay used, to protect the control panel from collapsing electrical fields. The control panel suppresser kit shall be the Honeywell Access Systems S-4. 2.4.2.3.5 Card Readers/Keypads
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The control panel shall support card readers using Magnetic Stripe, Barcode, Wiegand, proximity and biometrics technologies. The control panel shall support a 12-button numeric keypad. 2.4.2.4 Control Panel Features 2.4.2.4.1 Card/Keycode Capacity The control panel shall store up to 5,000 cards/key codes, expandable to 25,000 with memory upgrade. 2.4.2.4.2 Buffer Capability The control panel shall support a buffered mode of operation. When operating in the buffered mode, the control panel shall store all transactions in memory, rather than transmitting them through the communication loop. The control panel shall transmit the buffered (stored) information upon request. The control panel shall buffer 10,200 transactions and 6,600 with a memory upgrade (memory upgrade adds to cards for a default total of 25,000 card numbers). 2.4.2.4.3 Format Commands The control panel shall store up to eight format (software) commands, allowing use of cards with various bit structures and encoding schemes. 2.4.2.4.4 Site Codes The control panel shall store up to eight site codes for card use. 2.4.2.4.5 Limited Use/Visitor Status Cards The control panel shall support the use of Limited Use and Visitor Status cards. Limited Use cards shall be valid from 1-254 times, after which they will expire. Visitor Status cards shall be valid from 1-254 days, after which they will expire. 2.4.2.4.6 Cards (digits) The control panel shall be capable of recognizing card numbers up to 16 digits in lieu of the standard Wiegand card formats. 2.4.2.4.7 Local Anti-Passback The control panel in the system shall support an anti-passback mode, where cardholders are required to follow a proper in/out sequence. A selectable mode of operation to allow for anti-passback forgiveness to occur at midnight shall exist. When selected, at midnight all in/out status of the card is set to a learn mode so the next use of the card will set the in/out anti-passback rules till the next time forgiveness is applied.
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2.4.2.4.8 Global Anti-Passback Supported as a system function, Global Anti-Passback allows the panels on the same drop-line, so enabled, to provide other panels so enabled, the status of in/out card reads for the sake of creating an antipassback zone using more than one control panel. This mode of system operation shall not rely on the system computer to control in/out status. 2.4.2.4.9 Personal Identification Numbers (PINs) The control panel shall support the use of card readers in conjunction with keypads, in which users are required to enter a PIN, followed by a card, to gain access. 2.4.2.4.10 Time Zones The control panel shall store up to 63 time zones: •
Each time zone shall include a start time, end time, day of week specification and holiday specification.
•
Time zones may be assigned to cards via access levels to define when the card is allowed access.
•
Time zones may be assigned to input points, to define when the input points are shunted (deactivated).
•
Time zones may be assigned to output points (relays), to define when the output points are energized, for timed control of doors or devices.
2.4.2.4.11 Input Points The user shall have the ability to assign shunt times to input points, from 1-63 seconds, minutes, or hours. The user shall have the ability to assign debounce times to input points, from 1-255 seconds. 2.4.2.4.12 Output Points The user shall have the ability to assign pulse times to output points, from 1-63 seconds, minutes, or hours. 2.4.2.4.13 Interlocking The user shall have the ability to interlock selected input and output points, in any combination. An interlocked input or output point shall take action based upon a change of state from another input or output point. 2.4.2.4.14 Groups/Elevator Control The control panel shall store up to 32 relay group definitions. Each group may be controlled with the same options available for individual relays.
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2.4.2.4.15 Holidays The control panel shall recognize up to 32 days as holidays, for override of normal system operation. 2.4.2.4.16 Card Reader/Keypad Specifications System card reader/keypad specifications shall meet one or more of the options shown below in the ACCESS CONTROL READERS/KEYPADS section. 2.4.3
NS2+
The security management system shall be equipped with access control field hardware required to receive alarms and administer all access granted/denied decisions. All field hardware shall meet UL requirements. The two reader control panel shall be the Honeywell Access Systems NS2P. The control panel power supply shall be the Honeywell Access Systems X-4. The control panel shall incorporate 32-bit microprocessor-based, digital technology, using high speed processing for maximum reliability. The system shall use distributed intelligence architecture, with control panels operating independently of one another. All database information shall be stored at the control panel level. All decision-making shall be performed at the control panel, eliminating degraded mode operation. Proprietary software programs and control logic information used to coordinate and drive system hardware shall be stored in Flash memory. The system shall be flexible and modular in design, allowing easy expansion. The control panel shall have UL 294, ULC and CE listings and approvals. 2.4.3.1 Enclosure The control panel enclosure shall have hinge cover with key lock. A control panel input point shall monitor an enclosure tamper switch. 2.4.3.1.1 Mechanical Height: 14.6 inches (370mm) Width: 12.6 inches (320mm)
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Depth: 3.5 inches (89mm) Weight: 5.51 lb. (2.5kg) 2.4.3.1.2 Power Requirements 16.5VAC 50 VA or +24 VDC @ 1.25 Amps 2.4.3.2 Control Panel Configuration The control panel shall operate on a RS-232 communication port at 57600 baud or RS-485 multi-drop configuration. The RS-232 and RS-485 multi-drop communication configurations shall be standard. Optional daughter board shall supply onboard Ethernet connectivity. The control panel shall operate in local and remote configurations and can be mixed with N-1000-III and or N-1000-IV on the same RS-485 drop-line. The distance between the control panel and the computer on the RS-232 communication port shall be up to 50 feet with a single panel. The RS-485 multi-drop total distance shall be 4,000 feet with a maximum of thirty-one NS2P, N-1000-III or N-1000-IV control panels, without the use of modems or line drivers. If installation requires distances greater than listed above, a line driver or modem shall be used, as stated in PART 2, LINE DRIVERS AND MODEMS. For maximum reliability, each control panel shall support a maximum of two readers or keypads. The distance between card readers and the control panel shall be up to 500 feet wired. 2.4.3.3 Control Panel Requirements 2.4.3.3.1 Input Points A control panel supporting card readers shall provide a minimum of 8 supervised input points. System alarms shall not consume more than 2 of the 8 alarm points. System alarms shall include, but not be limited to, communication, primary power, tamper and panel reset. The control panel shall support non-supervised and supervised inputs via end-of-line resistors. Both non-supervised and supervised inputs shall report alarm, normal and trouble conditions. Both nonsupervised and supervised input points shall be normally opened or closed point selectable. Supervised inputs shall provide a tighter range of supervision than non-supervised. 2.4.3.3.2 Output Points
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The control panel shall provide a minimum of four (4) single-pole, double-throw (SPDT) form C relays, rated for 28 VDC @ 12 Amp resistive (6 Amp inductive). The control panel shall be available with a total of 4 on-board relays. 2.4.3.3.3 Battery Back-up The control panel shall provide a 12 VDC back-up battery for up to three hour operation upon loss of AC power. The control panel shall provide a super capacitor to retain database information for up to 7 days upon loss of power. 2.4.3.3.4 Suppression The control panel shall have provisions for relay suppresser kits for each relay used, to protect the control panel from collapsing electrical fields. The control panel suppresser kit shall be the Honeywell Access Systems S-4. 2.4.3.3.5 Card Readers/Keypads The control panel shall support card readers using Magnetic Stripe, Barcode, Wiegand, proximity, reader/pin pad and biometrics technologies. 2.4.3.4 Control Panel Features 2.4.3.4.1 Card/Keycode Capacity The control panel shall store up to 10,000 cards/key codes. 2.4.3.4.2 Buffer Capability The control panel shall support a buffered mode of operation. When operating in the buffered mode, the control panel shall store all transactions in memory. The control panel shall transmit the buffered (stored) information upon request. The control panel shall buffer 100,000 transactions. 2.4.3.4.3 Format Commands The control panel shall store up to eight format (software) commands, allowing use of cards with various bit structures and encoding schemes. 2.4.3.4.4 Site Codes The control panel shall store up to eight site codes for card use. 2.4.3.4.5 Local Anti-Passback
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The control panel in the system shall support an anti-passback mode, where cardholders are required to follow a proper in/out sequence. A selectable mode of operation to allow for anti-passback forgiveness to occur at midnight shall exist. When selected, at midnight all in/out status of the card is set to a learn mode so the next use of the card will set the in/out anti-passback rules till the next time forgiveness is applied. Supported modes shall include reader definable as hard or soft anti-passback. Soft anti-passback being defined where access is still granted should an in/out sequence be broken, but is reported as an antipassback violation. Hard anti-passback being defined where access is not granted should an in/out sequence be broken and is reported as an anti-passback violation. 2.4.3.4.6 Global Anti-Passback Supported as a system function, Global Anti-Passback allows the panels on the same drop-line, so enabled, to provide other panels so enabled, the status of in/out card reads for the sake of creating an antipassback zone using more than one control panel. This mode of system operation shall not rely on the system computer to control in/out status. 2.4.3.4.7 Personal Identification Numbers (PINs) The control panel shall support the use of card readers in conjunction with keypads, in which users are required to enter a PIN, followed by a card, to gain access. Card and PIN or PIN only modes of operation shall be time zone controlled per “reader”. 2.4.3.4.8 Time Zones The control panel shall store up to 63 time zones. •
Each time zone shall include a start time, end time, day of week specification and holiday specification.
•
Time zones may be assigned to cards via access levels to define when the cards allow access.
•
Time zones may be assigned to input points, to define when the input points are shunted (deactivated).
•
Time zones may be assigned to output points (relays), to define when the output points are energized, for timed control of doors or devices.
2.4.3.4.9 Input Points The user shall have the ability to assign shunt times to input points, from 1-63 seconds, minutes, or hours. The user shall have the ability to assign debounce times to input points, from 1-255 seconds. 2.4.3.4.10 Output Points The user shall have the ability to assign pulse times to output points, from 1-63 seconds, minutes, or hours. Output points shall also have the ability to report in change of state status in the same way an alarm point would. This provides added awareness of door operation in critical installations.
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2.4.3.4.11 Interlocking The user shall have the ability to interlock selected input and output points, in any combination. An interlocked input or output point shall take action based upon a change of state from another input or output point. 2.4.3.4.12 Holidays The control panel shall recognize up to 32 days as holidays, for override of normal system operation. Holidays shall be definable in two different holiday types thus allowing for different operational time definitions for each holiday type. 2.4.3.4.13 Card Reader/Keypad Specifications System card reader/keypad specifications shall meet one or more of the options shown below in the ACCESS CONTROL READERS/KEYPADS section.
2.5 Access Control Readers/Keypads 2.5.1
Proximity Readers
The system shall support the use of a proximity card reader. The card reader shall have a read range of up to 4 inches. The reader shall be able to be mounted with its sides against metal door or window frames. The reader shall be powered by +12VDC regulated power. The card shall use thirty-four (34) bits and have a label indicating the encoded number. The reader shall meet the following specifications: •
The card reader shall be the Honeywell Access Systems OP30HONE
•
The card shall be the Honeywell Access Systems PX-4-H or for photo ID production the PVC-H4.
2.5.1.1 Mechanical Height: 5.71 inches (14.5cm) Width: 1.69 inches (4.3cm) Depth: .79 inches (2.0cm) 2.5.1.2 Electrical Voltage: +12 VDC nominal voltage (5-16 volts) Current: Less than 100 mA
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2.5.1.3 Environmental Outdoor Operating Temperature: -25 to 145° F (-31 to 63° C). 2.5.2
Magnetic Stripe Card Readers/Card
The system shall support use of a magnetic stripe reader. The reader shall recognize multiple encoding schemes. Reader electronics shall be encapsulated for environmental security. The reader shall be powered by +12 or +5 VDC, supplied by the control panel. The card shall include a hot stamp indicating the encoded number. The reader shall meet the following specifications: •
The card reader shall be the Honeywell Access Systems NR-5
•
The card shall be the Honeywell Access Systems NC-2.
•
Magnetic stripe card encoding density: 75 to 210 BPI
2.5.2.1 Mechanical Height: 1.5 inches (38.1mm) Length: 4.5 inches (114.3mm) Depth: 1.8 inches (45.72mm) Weight: 12 ounces 2.5.2.2 Electrical Voltage: +5VDC, plus or minus 10% (regulated) Current: Less than 50 mA Data Output: Standard Wiegand Data timing LED: Bipolar, host controlled 2.5.2.3 Environmental Operating temperature: -30 to +70° C 2.5.2.4 MTBF Card Passes – Greater than 1,000,000 card passes Electronic – Greater than 750,000 hours
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2.5.3
Wiegand Card Readers
The system shall support the use of a Wiegand card swipe reader. Reader electronics shall be encapsulated for environmental security. The reader shall be powered by +5VDC, supplied by the control panel. The card shall use twenty-six (26) bits and have a hot stamp number equivalent to the encoded number. The reader shall meet the following specifications: •
The card reader shall be the Honeywell Access Systems CR-1.
•
The card shall be the Honeywell Access Systems SC-2
2.5.3.1 Mechanical Height: 2.3 inches (58.8mm) Width: 5.3 inches (135.4mm) Depth: 1.7 inches (43.4mm) 2.5.4
Barcode Readers
The communication shall be Wiegand format with standard five-wire interface. The reader shall read all common barcode symbols such as Code 39, Interleaved 2 of 5, UPC/EAN, and Codabar. In addition, the reader shall decode Code 93, Code 11, Code 128, and MSI. The reader shall be auto discriminating, read in both directions, and compatible with most masking films. The reader housing shall be aluminum alloy with a polyester powder coat. The reader must be capable of reading visible as well as discreet/secure “invisible” barcode labels. Labels must be available as stick-on Mylar coated stock. Labels may also be generated from software such as “Quickdraw”, “Labelmaster”, etc. The reader and emulator must draw its power from the panel, requiring no external power supply. The panel will require no additional programming to accept the barcode data. •
The barcode reader shall be the Honeywell Access Systems BR-7.
2.5.4.1 Mechanical 6” Long by 1.75” Wide by 2” deep Reader location up to 500 ft. from the control panel Reader Head: Composition Cast Aluminum, sealed unit Size: 5” Long by 1.75” Wide by 1.5” High Weight: 12 oz.
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2.5.4.2 Electrical Emulator Power: Panel Reader Power: +5 VDC @ 30 mA 2.5.4.3 Environment Operating Temperature: -22°F to 158°F (-30°C to 70°C) Operating Humidity: 90% non-condensing 2.5.5
Keypads (Keypad only)
The system shall support the use of a 5-wire Wiegand output keypad. The keypad shall be of piezoelectric construction with LEDs for visual acknowledgment of a valid code. The keypad shall incorporate an audio tone generator to acknowledge each input entry. Keypad electronics shall be encapsulated for environmental security. The keypad shall receive power from the control panel. •
The keypad shall be the Honeywell Access Systems KP-11.
2.5.5.1 Mechanical Height: 5.125 inches (130mm) Width: 3.375 inches (85.7mm) Depth: 0.5 inches (12.7mm) 2.5.5.2 Electrical Emulator Power: Panel Reader Power: +5 or 12 VDC @ 20 mA 2.5.5.3 Environment Operating Temperature: -40°F to 160°F (-40°C to 70°C) Operating Humidity: 100% 2.5.6
Keypads (Card and PIN for N-1000)
The system shall support the use of an 11-wire, 2-of-7 matrix keypad. The keypad shall be of piezoelectric construction with LEDs for visual acknowledgment of a valid code. The keypad shall
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incorporate an audio tone generator to acknowledge each input entry. Keypad electronics shall be encapsulated for environmental security. The keypad shall receive power from the control panel. •
The keypad shall be the Honeywell Access Systems KP-10.
2.5.6.1 Mechanical Height: 5.125 inches (130mm) Width: 3.375 inches (85.7mm) Depth: 0.5 inches (12.7mm) 2.5.6.2 Electrical Emulator Power: Panel Reader Power: +5 or 12 VDC @ 20 mA 2.5.6.3 Environment Operating Temperature: -40°F to 160°F (-40°C to 70°C) Operating Humidity: 100%
2.6 Line Drivers and Modems The communications interface from system PC to control panels shall be RS-232C to RS-485.The converter shall be the Honeywell Access Systems N-485-PCI-2. The N-485-PCI-2 shall provide an RS-485 interface to the N1000 and an RS-232C interface to a Personal Computer. Printers, and peripheral security devices connected with RS-232 shall not be more than 50 feet away, without using the appropriate modems. Beyond this distance a short-haul or leased-line modem shall be used for transmission over a pair of voice grade quality (3002) telephone lines or dedicated cable or RS485 multi-drop applications shall not run more than 4000 feet or connect more than 31control panels. A panel in a remote communication 485 multi-drop configuration connected to a N-485-HUB-2 converter shall have the ability to interface to a standard, telephone line with Hayes (or Hayes compatible) autoanswer/auto-dial modems using the Honeywell Access Systems M56-K. 2.6.1
Mechanical
Height: 2 inches (51mm)
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Width: 3.875 inches (98mm) Depth: 5.5 inches (140mm) 2.6.2
Power Requirements
+9VDC @ 300mA.
2.7 Access Control Spares Provide one (1) each of the following Honeywell Access Systems components to serve as system spares: 2.7.1
PRO2200 Series
•
PRO22IC Intelligent Controller.
•
PRO22IN Input Module.
•
PRO22OUT Output Module.
•
PRO22R2 Two Reader Module.
•
PRO22CBEN1 Ethernet Module.
•
PRO22CVT1 RS-232 to RS-485 Converter.
•
PRO22DCC Daisy Chain Cable.
•
PRO22BAT1 Operational Backup Battery.
•
PRO22E1PS Power Supply for PRO22ENC1.
•
PRO22E3PS Power Supply for PRO22ENC3.
•
PRO22M4 Memory Expansion.
•
Card Reader.
•
Auto Dial Modem (M-56K or installed equivalent).
•
S-4 Suppresser kit.
2.7.2
N-1000
Provide one (1) each of the following Honeywell Access Systems components to serve as system spares: •
N-1000-IV or N-1000-III control panel
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•
N-485-PCI-2 (485 multi-drop line local)
•
N-485-HUB-2 (485 multi-drop line remote dial-up system)
•
Card Reader
•
Auto dial Modem (M56-K or installed equivalent)
•
S-4 Suppresser kit
•
X-4 Transformer
2.7.3
NS2+
Provide one (1) each of the following Honeywell Access Systems components to serve as system spares: •
NS2P control panel
•
N-485-PCI-2 (485 multi-drop line local)
•
N-485-HUB-2 (485 multi-drop line remote dial-up system)
•
Card Reader
•
Auto dial Modem (M56-K or installed equivalent)
•
S-4 Suppresser kit
•
X-4 Transformer
•
BAT-3
2.8 CCTV Control Equipment 2.8.1
CCTV/Communication Interface Module
CCTV System must have the ability to monitor, control, and perform manual and automated capabilities. The system must have the ability to interface with, but not be limited to, the following vendors’ equipment: •
American Dynamics.
•
Dedicated Micros.
•
Geutebruck.
•
Javelin.
•
Burle.
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•
Vicon.
•
Panasonic.
•
Pelco.
•
MaxPro.
•
MaxCom.
•
Video Blox.
The Contractor shall provide and install the CCTV equipment as part of the Access Control System.
3
Execution
3.1 General Installation Install, make fully operational, and test the access control system as indicated both on the drawings and in this specification. Where information is not available from the Customer upon request, the worst case condition must be assumed for bidding purposes to ensure a complete, functional system. Where appropriate, interfaces with the Customer’s Telecommunications System shall be coordinated with the Customer’s Representative. All necessary back-boxes, pull-boxes, connectors, supports, conduit, cable, and wire shall be furnished and installed to provide a complete and reliable system. Exact location of all boxes, conduit, and wiring runs shall be presented to the Customer for approval in advance of any installation. Install conduit, cable, and wire parallel and square with building lines, including raised floor areas. Conduit fill shall not exceed forty (40) percent. All equipment shall be rack-mounted with sufficient clearance to meet all applicable codes and facilitate observation and testing. All equipment shall be securely fastened with appropriate fittings to ensure positive grounding and be free of ground loops throughout the entire system. Units shall be installed parallel and square to building lines. All wires shall be gathered and fastened to create an orderly installation. Seismic bracing shall be installed on appropriate equipment and antennas where local codes require such installation.
3.2 Site Management Responsibility The Contractor shall provide an on-site Project Manager as defined in Supervision of Work.
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3.3 Changes Before proceeding with changes or claims for extras, the Contractor shall provide written notice, secure prior written approval from the Customer, and substantiate actual cost of each change or claim. The cost of each change shall be based upon the unit price list and cost breakdowns provided with the bid response.
3.4 System Components If required by the Customer, prior to the delivery to the site for actual installation, all devices or requested subsystems shall be assembled in the Contractor’s shop and shall be fully tested and demonstrated to the Customer. The Customer representative shall sign off each component. The Contractor shall record all serial numbers and provide a copy to the Customer. Rack-mount central components in the order, as recommended by the manufacturer.
3.5 Power Quality and Reliability Where required, provide 120 VAC, 60 Hz power from nearest electrical panel, through a junction box, to the system device. Test for ground loops that may result from use of different power sources for various components. Determine the availability of backup power for critical central system control components and provide UPS power if required. For the system PC(s), the UPS shall be sized to support the PC, monitor and attached peripherals, including modems, printers, and speakers in the event of a building power supply failure of up to 10 minutes. In coordination with the Customer, the Contractor shall identify key camera locations, which shall be provided backup power.
3.6 Wire and Cable After installation, and before termination, all wiring and cabling shall be checked and tested to ensure there are no grounds, opens, or shorts on any conductors or shields. A V.O.M. shall be utilized to accomplish these tests and a reading of greater than 20 Megohms shall be required to successfully complete the test. Visually inspect wire and cable for faulty insulation prior to installation. Protect cable ends at all times with acceptable end caps except during actual termination. At no time shall coaxial cable be subjected to any bend less than a six (6) inch radius. Fiber optic cable shall not be subjected to any bend of less than an eight (8) inch radius.
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Fiber optic cable shall be provided with guides and tie-downs on termination boards so that when terminated to the transmitter or receiver, each individual fiber shall be protected from inadvertent movement or impact that would exceed design tolerances and potentially damage the fiber. Protect wire and cable from kinks. Provide grommets and strain relief material where necessary, to avoid abrasion of wire and excess tension on wire and cable.
3.7 Identification and Tagging All cables, wires, wiring forms, antennas, terminal blocks, and terminals shall be identified by labels, tags, or other permanent markings. The markings shall clearly indicate the function, source, and destination of all cabling, wiring and terminals. All cables and wires shall be identified, utilizing heatshrunk, pre-printed, wire markers. All terminal points shall be appropriately labeled.
3.8 Transmission Systems For any transmission system other than simple coax, test the signal path with an oscilloscope and a burst generator for a 4.2 MHz bandwidth with a minimum 80% of signal amplitude at 4.2 MHz received signal. If problems arise with discontinuities or reflections in the line, test with appropriate time domain reflectometry equipment. Where Fiber Optics is applicable, all products must be tested as part of the WIN-PAK PRO system. For reference, Fiber Options, Inc. is specified.
3.9 Cameras Test each camera and all associated line transmission devices and cables for a crisp video signal, utilizing an oscilloscope. This test must be performed and signed off for each device in the system prior to setting the vertical interval switching for each camera. Adjust all new cameras for vertical interval switching. Adjust the V phase of each camera so that all video switches take place without roll, and so that the VCRs that record sequenced alarms roll only on initial kick-up to real time, but not on sequenced picture if multiple alarms are present. Attach all pole-mounted cameras to a stable platform, taking into account any external factors, i.e., wind, that may affect the transmitted picture.
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3.10 Start-Up Responsibility The Contractor shall properly ground each piece of electronic equipment prior to applying power. Properly ground all shielded wire shields to the appropriate earth ground at the hub end only, not at the remote or device end. The Contractor shall initiate system operation. Competent start-up personnel shall be provided by the Contractor on each consecutive working day until the system is fully functional and ready to start the acceptance test phase. If, in the Customer’s judgment, the Contractor is not demonstrating progress in solving any technical problems, the Contractor shall supply Manufacturer’s factory technical representation and diagnostic equipment at no cost to the Customer, until resolution of those defined problems. Where appropriate, the Contractor shall bring the System online in its basic state. It is the responsibility of the Customer to provide the specific database information that will provide full, integrated system operation.
3.11 Preparation for Acceptance (Prior to Final Inspection) Temporary facilities and utilities shall be properly disconnected, removed, and disposed of off-site. All systems, equipment, and devices shall be in full and proper adjustment and operation, and properly labeled and identified. All materials shall be neat, clean, and unmarred and parts securely attached. All broken work, including glass, raised flooring and supports, ceiling tiles and supports, walls, doors, etc. shall be replaced or properly repaired, and debris cleaned up and discarded. All extra materials as specified shall be delivered and stored at the premises as directed. Test reports of each system and each system component, and As-Built project drawings shall be complete and available for inspection and delivery as directed by the Customer.
3.12 System Acceptance Requirements Before final acceptance of work, the Contractor shall perform and/or deliver each of the following in the order stated. 3.12.1 Systems Operation and Maintenance Manuals The Contractor shall deliver six (6) composite “Systems Operation and Maintenance” manuals in threering binders, sized to hold the material below, plus 50% excess. Each manual shall contain, but not be limited to:
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•
A Statement of Guarantee including date of termination and the name and phone number of the person to be called in the event of equipment failure.
•
A set of operational procedures for the overall system that includes all required Customer activities and that allows for Customer operation of all system capabilities. This procedure shall fully address all Customer established system operating objectives.
•
Individual factory issued manuals, containing all technical information on each piece of equipment installed. In the event such manuals cannot be obtained from a manufacturer, it shall be the responsibility of the Contractor to compile and include them. Advertising brochures or operational instructions shall not be used in lieu of the required technical manuals and information. All manuals shall be printed to ensure their permanence. No “blue line” type of reproduction is acceptable.
3.12.2 System Testing 3.12.2.1 Format The Contractor shall perform all tests submitted in the “Test Procedure” section of Extended Service Requirements. 3.12.2.2 Execution Activate all alarm or other output devices that are in the system for proper operation, including supervisory and trouble circuit tests. 3.12.2.3 Report A checkout report for each piece of equipment shall be prepared by the Contractor and submitted to the Customer, one copy of which shall be registered with the equipment manufacturers. This report shall include a complete listing of every device, the date it was tested and by whom, and the results and date tested (if failure occurred during any previous tests). The final test reports shall indicate that every device tested successfully. Submit two typed copies of the test reports on 8 ½” x 11” papers, in a neatly bound folder to the Customer for approval. Failure to comply with this will result in a delay of final testing and acceptance. 3.12.3 As-Built Drawings After completion of all the tests listed above, and prior to the Final Acceptance Test, the Contractor shall submit the complete As-Built drawings as identified in Project Record Drawings. These drawings shall include: •
As-Built conduit layout diagrams, including wire and cable tag designations.
•
Complete As-Built wiring diagrams, including complete terminal strip layout and identification, and wire termination and tagging for all conductors.
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•
Locations for all major equipment components installed under this specification.
3.12.4 Final Acceptance Test •
After the testing report and as-built drawings have been approved by the Customer’s representative, the completed system shall be tested in the presence of the Customer’s representative.
•
Acceptance of the system shall require a demonstration of the stability of the system. This shall be adequately demonstrated if the system operates for a ninety (90) day period with a 99% system on-line reliability. Should major equipment failure occur, the Contractor shall replace component(s) and begin another ninety (90) day test period. This test shall not start until the Customer has obtained beneficial use of the system. If the requirements provided in the paragraph above are not completed within six (6) months after beginning the tests described therein, the Contractor shall replace the System with another one from approved Manufacturer, and the process shall be repeated until final acceptance of the System and its equipment by the Customer.
•
Once the final test is complete, each purchased spare component must be inserted into the System and the System tested in potentially affected areas again to insure complete functionality. The original removed parts will become the System spares.
3.12.5 Notice of Completion When the Final Acceptance Test described above has been satisfactorily completed, the Customer shall issue a Letter of Completion to the Contractor indicating the date of such completion. The Notice of Completion shall be recorded by the Contractor upon receipt of the Customer completion letter. This date of record shall be the start of the two (2) year guarantee period.
3.13 Warranty Service The Contractor shall employ a factory-trained service organization within 100 miles of the job site. This organization shall have a minimum of five (5) years’ experience in servicing integrated Access Control, Alarm Monitoring, CCTV, and Video Badging Systems and equipment. Fully qualified repair and maintenance personnel shall be available on a twenty-four (24) hour a day basis, three hundred and sixty-five (365) days a year, with four (4) hour maximum response time for service. Normal service shall be defined as minor repairs and/or adjustments. Service of this nature shall be provided at no cost to the Customer during normal business hours, which are between 8:00 AM and 5:00 PM, Monday through Friday. For service calls requested by phone before 11:00 AM on a weekday, service shall occur on a same-day basis. Emergency service shall be required for emergencies defined as critical equipment not being functional, and shall be furnished at no cost to the Customer. Emergency service shall respond within a four (4) hour
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period, twenty-four (24) hours per day, three hundred and sixty-five (365) days a year. A list of critical equipment shall be developed and coordinated by the Customer and the Contractor.
3.14 Spare Parts A list of access control system spare parts is included in Access Control Spares of this specification. The cost of these spares shall be included in the base system contract. Based on the Contractor’s and the manufacturer’s experience with the equipment’s performance history, the Contractor shall submit a final spares list for all functions for this system. This list shall be based on a philosophy of maintaining a central system operation with a simple remove/replace capability. The final spares list shall be developed as a result of a joint Customer/Contractor review of the recommended list during the installation phase. Submit this final recommended spares list for approval prior to system completion, so that these spares are available upon activation.
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4
Addendum
This addendum reflects additions to section 2.4 Access Control Field Hardware Devices. The new device is not “natively” supported in WIN-PAK, but the most common features are supported in a similar manor as the N-1000 Series mentioned in section 2.4.2. The NetAXS panel can be programmed from within WIN-PAK as an N-1000-IV-X panel with minor interlocking changes.
4.1 NetAXS Series The security management system shall be equipped with access control field hardware required to receive alarms and administer all access granted/denied decisions. All field hardware shall meet UL requirements. The control panel shall be the Honeywell Access Systems NX4S1. The control panel power supply shall be the Honeywell Access Systems X-4. The control panel shall incorporate microprocessor-based, digital technology, using high speed processing for maximum reliability. The system shall use distributed intelligence architecture, with control panels operating independently of one another. All database information shall be stored at the control panel level. All decision-making shall be performed at the control panel, eliminating degraded mode operation. Proprietary software programs and control logic information used to coordinate and drive system hardware shall be stored in FLASH Memory. The control panel shall be FLASH upgradeable. The system shall be flexible and modular in design, allowing easy expansion. The control panel shall have UL 294, ULC and CE listings and approvals. 4.1.1
Enclosure
The control panel enclosure shall have hinge cover with key lock. A control panel input point shall monitor an enclosure tamper switch. 4.1.1.1 Mechanical Height: 18 inches (457.2mm)
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Width: 14.5 inches (368.3mm) Depth: 4.4 inches (111.8mm) Weight: 22.1 lb. (10 Kg) 4.1.1.2 Power Requirements 16.5VAC 50 VA or +24 VDC @ 1.5 Amps 4.1.2
Control Panel Configuration
The control panel shall provide multiple communication options to the host software: Ethernet, RS-232 communication port at 57600 baud or RS-485 multi-drop configuration. The Ethernet, RS-232 and RS-485 multi-drop communication configurations shall be standard. The control panel shall operate in local and remote configurations and can be mixed with N-1000-III, N1000-IV or NS2P control panels on the same RS-485 drop-line. The RS-485 multi-drop total distance shall be 4,000 feet with a maximum of thirty-one NetAXS, NS2P, N-1000-III or N-1000-IV control panels, without the use of modems or line drivers. If installation requires distances greater than listed above, a line driver or modem shall be used, as stated in PART 2, LINE DRIVERS AND MODEMS. For maximum reliability, each control panel shall support a maximum of four readers or keypads. The distance between card readers and the control panel shall be up to 500 feet wired. 4.1.3
Control Panel Requirements
4.1.3.1 Input Points A control panel supporting card readers shall provide a minimum of 14 supervised input points. System alarms shall not consume more than two of the 16 supervised points. System alarms shall include, but not be limited to, communication, primary power, tamper and panel reset.
The control panel shall support non-supervised and supervised inputs via end-of-line resistors. Both non-supervised and supervised inputs shall report alarm, normal and trouble conditions. Both nonsupervised and supervised input points shall be normally opened or closed point selectable. Supervised inputs shall provide a tighter range of supervision than non-supervised.
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4.1.3.2 Output Points The control panel shall provide a minimum of eight (8) single-pole, double-throw (SPDT) form C relays, rated for 28 VDC @ 10 Amp resistive (5 Amp inductive). The control panel shall allow expansion to a minimum of 24 relays via a relay expansion board. 4.1.3.3 Battery Back-up The control panel shall provide a 12 VDC back-up battery for up to three-hour operation upon loss of AC power. The control panel shall provide a super capacitor to power the real-time clock for up to one week. The control panel shall continuously save database and event information in non-volatile FLASH memory. 4.1.3.4 Suppression The control panel shall have provisions for relay suppresser kits for each relay used, to protect the control panel from collapsing electrical fields. The control panel suppresser kit shall be the Honeywell Access Systems S-4. 4.1.3.5 Card Readers/Keypads The control panel shall support card readers using Magnetic Stripe, Barcode, Wiegand, proximity, reader/pin pad and biometrics technologies. 4.1.4
Control Panel Features
4.1.4.1 Card/Keycode Capacity The control panel shall store up to 10,000 cards/key codes. 4.1.4.2 Buffer Capability The control panel shall support a buffered mode of operation. When operating in the buffered mode, the control panel shall store all transactions in memory, rather than transmitting them through the communication loop. The control panel shall transmit the buffered (stored) information upon request. The control panel shall buffer 25,000 transactions. 4.1.4.3 Format Commands The control panel shall store up to eight format (software) commands, allowing use of cards with various bit structures and encoding schemes. 4.1.4.4 Site Codes The control panel shall store up to eight site codes for card use.
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4.1.4.5 Limited Use/Visitor Status Cards The control panel shall support the use of Visitor Status cards. Visitor Status cards shall be valid until the defined expiration date. 4.1.4.6 Cards (digits) The control panel shall be capable of recognizing card numbers up to 16 digits in lieu of the standard Wiegand card formats. 4.1.4.7 Local Anti-Passback The control panel in the system shall support an anti-passback mode, where cardholders are required to follow a proper in/out sequence. A selectable mode of operation to allow for anti-passback forgiveness to occur at midnight shall exist. When selected, at midnight all in/out status of the card is set to a learn mode so the next use of the card will set the in/out anti-passback rules until the next time forgiveness is applied. 4.1.4.8 Global Anti-Passback Supported as a system function, Global Anti-Passback allows the panels on the same drop-line, so enabled, to provide other panels so enabled, the status of in/out card reads for the sake of creating an antipassback zone using more than one control panel. This mode of system operation shall not rely on the system computer to control in/out status. 4.1.4.9 Personal Identification Numbers (PINs) The control panel shall support the use of card readers in conjunction with keypads, in which users are required to enter a PIN, followed by a card, to gain access. 4.1.4.10 Time Zones The control panel shall store up to 63 time zones: •
Each time zone shall include a start time, end time, day of week specification and holiday specification.
•
Time zones may be assigned to cards via access levels to define when the card is allowed access.
•
Time zones may be assigned to input points, to define when the input points are shunted (deactivated).
•
Time zones may be assigned to output points (relays), to define when the output points are energized, for timed control of doors or devices.
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4.1.4.11 Input Points The user shall have the ability to assign shunt times to input points, from 1-63 seconds, minutes, or hours. The user shall have the ability to assign debounce times to input points, from 1-255 seconds. 4.1.4.12 Output Points The user shall have the ability to assign pulse times to output points, from 1-63 seconds, minutes, or hours. 4.1.4.13 Interlocking The user shall have the ability to interlock selected input and output points, in any combination. An interlocked input or output point shall take action based upon a change of state from another input or output point. 4.1.4.14 Groups/Elevator Control The control panel shall store up to 32 relay group definitions. Each group may be controlled with the same options available for individual relays. 4.1.4.15 Holidays The control panel shall recognize up to 32 days as holidays, for override of normal system operation. 4.1.4.16 Card Reader/Keypad Specifications System card reader/keypad specifications shall meet one or more of the options shown below in the ACCESS CONTROL READERS/KEYPADS section.
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