division 28 - American Document Solutions Planroom

Transcription

SECTION 280500 - COMMON WORK RESULTS FOR ELECTRONIC SAFETY AND
SECURITY
PART 1- GENERAL
1.1
SUMMARY
A.
Section Includes:
1.
2.
3.
4.
5.
1.2
Electronic safety and security equipment coordination and installation.
Sleeves for raceways and cables.
Sleeve seals.
Grout.
Common electronic safety and security installation requirements.
DEFINITIONS
A.
EPDM: Ethylene-propylene-diene terpolymer rubber.
B.
NBR: Acrylonitrile-butadiene rubber.
1.3
SUBMITTALS
A.
1.4
Product Data: For sleeve seals.
COORDINATION
A.
Coordinate arrangement, mounting, and support of electronic safety and security equipment:
1.
2.
3.
4.
To allow maximum possible headroom unless specific mounting heights that reduce
headroom are indicated.
To provide for ease of disconnecting the equipment with minimum interference to other
installations.
To allow right of way for piping and conduit installed at required slope.
So connecting raceways, cables, wireways, cable trays, and busways will be clear of
obstructions and of the working and access space of other equipment.
B.
Coordinate installation of required supporting devices and set sleeves in cast-in-place concrete,
masonry walls, and other structural components as they are constructed.
C.
Coordinate location of access panels and doors for electronic safety and security items that are
behind finished surfaces or otherwise concealed. Access doors and panels are specified in
Division 08 Section "Access Doors and Frames.",
D.
Coordinate sleeve selection and application with selection and application of fire-stopping
specified in Section "Penetration Fire-stopping".
COMMON WORK RESULTS FOR ELECTRONIC SAFETY AND SECURITY
280500- 1
PART 2 -PRODUCTS
2.1
SLEEVES FOR RACEWAYS AND CABLES
A.
Steel Pipe Sleeves: ASTM A 53/A 53M, Type E, Grade B, Schedule 40, galvanized steel, plain
ends.
B.
Cast-Iron Pipe Sleeves: Cast or fabricated "wall pipe," equivalent to ductile-iron pressure pipe,
with plain ends and integral water-stop, unless otherwise indicated.
C.
Sleeves for Rectangular Openings: Galvanized sheet steel.
1.
Minimum Metal Thickness:
a.
b.
2.2
For sleeve cross-section rectangle perimeter less than 50 inches and no side more
than 16 inches, thickness shall be 0.052 inch.
For sleeve cross-section rectangle perimeter equal to, or greater than, 50 inches and
1 or more sides equal to, or more than, 16 inches, thickness shall be 0.138 inch.
SLEEVE SEALS
A.
Description: Modular sealing device, designed for field assembly, to fill annular space between
sleeve and raceway or cable.
1.
Manufacturers: Subject to compliance with requirements, available manufacturers
offering products that may be incorporated into the Work include, but are not limited to,
the following:
a.
b.
c.
d.
2.
3.
4.
2.3
Advance Products & Systems, fuc.
Calpico, fuc.
Metraflex Co.
Pipeline Seal and fusulator, fuc.
Sealing Elements: EPDM or NBR interlocking links shaped to fit surface of cable or
conduit. fuclude type and number required for material and size of raceway or cable.
Pressure Plates: Carbon steel. fuclude two for each sealing element.
Connecting Bolts and Nuts: Carbon steel with corrosion-resistant coating of length
required to secure pressure plates to sealing elements. fuclude one for each sealing
element.
GROUT
A.
Nonmetallic, Shrinkage-Resistant Grout:
ASTM C 1107, factory-packaged, nonmetallic
aggregate grout, noncorrosive, non-staining, mixed with water to consistency suitable for
application and a 30-minute working time.
280500-2
PART 3 -EXECUTION
3.1
COMMON REQUIREMENTS
INSTALLATION
FOR
ELECTRONIC
SAFETY
AND
SECURITY
A.
Comply with NECA 1.
B.
Measure indicated mounting heights to bottom of unit for suspended items and to center of unit
for wall-mounting items.
C.
Headroom Maintenance: If mounting heights or other location criteria are not indicated,
arrange and install components and equipment to provide maximum possible headroom
consistent with these requirements.
D.
Equipment: Install to facilitate service, maintenance, and repair or replacement of components
of both electronic safety and security equipment and other nearby installations. Connect in such
a way as to facilitate future disconnecting with minimum interference with other items in the
vicinity.
E.
Right of Way: Give to piping systems installed at a required slope.
3.2
SLEEVE INSTALLATION
PENETRATIONS
FOR
ELECTRONIC
SAFETY
AND
SECURITY
A.
Electronic safety and security penetrations occur when raceways, pathways, cables, wireways,
or cable trays penetrate concrete slabs, concrete or masonry walls, or fire-rated floor and wall
assemblies.
B.
Concrete Slabs and Walls: Install sleeves for penetrations unless core-drilled holes or formed
openings are used. Install sleeves during erection of slabs and walls.
C.
Use pipe sleeves unless penetration arrangement requires rectangular sleeved opening.
D.
Fire-Rated Assemblies: Install sleeves for penetrations of fue-rated floor and wall assemblies
unless openings compatible with fire-stop system used are fabricated during construction of
floor or wall.
E.
Cut sleeves to length for mounting flush with both surfaces of walls.
F.
Extend sleeves installed in floors 2 inches above finished floor level.
G.
Size pipe sleeves to provide 114-inch annular clear space between sleeve and raceway or cable,
unless indicated otherwise.
H.
Seal space outside of sleeves with grout for penetrations of concrete and masonry
1.
Promptly pack grout solidly between sleeve and wall so no voids remain. Tool exposed
surfaces smooth; protect grout while curing.
280500-3
I.
Interior Penetrations of Non-Fire-Rated Walls and Floors: Seal annular space between sleeve
and raceway or cable, using joint sealant appropriate for size, depth, and location of joint.
Comply with requirements in Section "Joint Sealants".
J.
Fire-Rated-Assembly Penetrations: Maintain indicated fire rating of walls, partitions, ceilings,
and floors at raceway and cable penetrations. Install sleeves and seal raceway and cable
penetration sleeves with fire-stop materials. Comply with requirements in Section "Penetration
Fire-stopping".
K.
Roof-Penetration Sleeves: Seal penetration of individual raceways and cables with flexible
boot-type flashing units applied in coordination with roofing work.
L.
Aboveground, Exterior-Wall Penetrations: Seal penetrations using cast-iron pipe sleeves and
mechanical sleeve seals. Select sleeve size to allow for l-inch annular clear space between pipe
and sleeve for installing mechanical sleeve seals.
M.
Underground, Exterior-Wall Penetrations: Install cast-iron pipe sleeves. Size sleeves to allow
for l-inch annular clear space between raceway or cable and sleeve for installing mechanical
sleeve seals.
3.3
SLEEVE-SEAL INSTALLATION
A.
Install to seal exterior wall penetrations.
B.
Use type and number of sealing elements recommended by manufacturer for raceway or cable
material and size. Position raceway or cable in center of sleeve. Assemble mechanical sleeve
seals and install in annular space between raceway or cable and sleeve. Tighten bolts against
pressure plates that cause sealing elements to expand and make watertight seal.
FIRESTOPPING
3.4
A.
Apply fire-stopping to penetrations of fire-rated floor and wall assemblies for electronic safety
and security installations to restore original fire-resistance rating of assembly. Fire-stopping
materials and installation requirements are specified in Section "Penetration Fire-stopping".
END OF SECTION 280500
280500-4
SECTION 281300 - ACCESS CONTROL AND SECURITY
PART 1 GENERAL
1.1
SECTION INCLUDES
A.
1.2
RELATED SECTIONS
A.
1.3
1.4
A.
NFPA 70- National Electrical Code.
B.
UL294- Standard for Access Control Systems.
C.
NFPA 72- National Fire Alarm Code.
D.
NFPA 101- Life Safety Code.
REGULATORY REQUIREMENTS
System shall be UL-Listed.
EXISTING SYSTEM DESCRIPTION
A.
1.6
Section 260500 - Basic Electrical Materials and Methods.
REFERENCES
A.
1.5
Security access system, Velocity by Hirsh Electronics, including the following:
1.
Server hardware and software.
2. Application software.
3. Intrusion detection devices.
4.
Security access devices.
5. Access control, relay control, and alarm monitoring controllers.
The existing AMAG access control system and security used by SGF Airport shall be
expanded into this area for gate security and video interface. Entire system is web-based and
shall be connected to existing local area network fiberoptic system located to the northeast of
the Missouri Army National Guard AVCRAD Building.
NEW SYSTEM DESCRIPTION
A.
The AMAG Security Management System expansion shall be a modular and network
capable access control and intrusion detection system. The Security Management System
shall have the ability of handling corporations with multiple remote sites, controlled access
with various reader technologies supported simultaneously, alarm monitoring with text and
graphics based annunciation, Photo Call-Up, Photo ID Badging, DVR and CCTV switcher
control that allows for easy expansion or modification of readers, inputs, and outputs. 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,
ACCESS CONTROL
281300-1
depending upon the facility requirements. Reconfiguration shall be accomplished on-line
through system programming, without hardware changes.
B.
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, activation of remote devices, email of alarm/event, text page of
alarm/event, Threat Level change, and door control.
C.
Access control functions shall include, validation based on time of day, day of week, holiday
scheduling, automatic or manual retrieval of cardholder photographs, and access validation
based on positive verification of card, card/PIN, and PIN.
D.
The AMAG ·System shall interface to the CCTV matrix control system through a serial
software interface, simulating alarm inputs. The CCTV system shall be programmed to
respond to the alarm input, switching the appropriate camera(s) to the appropriate monitor/s
and/or recording devices. All control of camera selection, position, zoom, focus, iris, preposition, etc. shall be controlled by the CCTV system's keyboard/joystick controls or the
Velocity computer keyboard and mouse. Advanced switcher programming shall be
performed through the switcher and associated keyboard or software programming interface.
E.
The AMAG System shall interface to the DVR system through an API software interface.
The DVR system shall be programmed to respond to the alarm inputs through Velocity's
Triggers/Actions Manager. In response to an alarm, the DVR shall record video as
programmed, including: Pre-Alarm, Alarm Duration, Post Alarm, and Frames per second as
defmed for that camera. All control of position, zoom, focus, and iris shall be controlled by
the DVR system's keyboard/joystick controls or the Velocity on-screen PTZ controls. Initial
DVR setup and Advanced programming shall be performed through the DVR's configuration
software programming interface.
F.
Utilizing assigned passwords, it shall be possible to define the levels of system operation for
each individual Operator. Operator Actions range from basic monitoring to full control of the
system databases.
G.
The system programming shall be user-friendly Windows environment (use conventional
"Title Bar", "Menu Bar", "Tool Bar" and "Status Bar") and allow mouse control of key
functions. The programming shall be MENU driven and include on-line "Documentation",
"Help" or "Tutorial" information. The software shall utilize combo boxes for previously
entered system-required data where applicable.
H.
The system shall provide supervised alarm point monitoring. Upon recognition of an alarm,
the system shall be capable of displaying alarm information in text format in a dedicated
Alarm Viewer, real-time status in a Status Viewer, on a graphic floor plan, initiate alarm
recording on a DVR, switching CCTV cameras, email an alarm notification to one or more
people, and send a text page to a cell phone or display pager that are 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 day of week.
I.
The method of communication from remote locations to the central components shall be
transparent to the user.
ACCESS CONTROL
281300-2
1.7
J.
After installation, the OWNER shall be able to perform hardware configuration changes as
desired without the services of the MANUFACTURER.
K.
Equipment repair shall be able to be accomplished on site, by module replacement, utilizing
spare components.
L.
All controller components shall utilize "Distributed-Processing" concepts. The distributed
processing shall include the ability to down-load operating parameters to any field panel,
thus allowing the field panel to provide full operating functions independent of any other
system component.
M.
The system shall be capable of utilizing the existing LAN I WAN connecting the buildings
or a dedicated security Ethernet network for AMAG Controller and AMAG Client
communications. Install AMAG communications interface in each controller to communicate
to the controllers via 10/100 Mbps, 128 bit AES encrypted Ethernet.
N.
The Controllers shall utilize Version 7.4 or later Flash downloadable CCM (Command and
Control Modules) firmware.
0.
Upgrade CCM Firmware in existing controllers as required.
SUBMITTALS
A.
Submit under provisions of Section 01300.
B.
Manufacturer's Data:
1. Submit FOUR (4) copies of:
a.
Product Data Sheets.
b.
Installation Instructions.
2. Authorized Dealer Certificate and Certified Training Certificates of installers who will
be working on this project.
C.
Shop Drawings:
1. Submit three (3) copies and digitally in AutoCAD 2013 or later format on a CD (3
copies), shop drawings, including:
a.
Layout of equipment on supplied AutoCAD drawings.
b.
Security Console elevation drawings.
c.
Field Controller equipment location wall layouts, including size
requirements.
d.
Detailed wiring diagrams of Field Controllers, Door Details, and headend devices.
e.
Load calculations of all security equipment for proper sizing of electrical
provided by the customer and standby emergency generator circuits.
D.
As-Built Drawings:
1. Update Shop Drawings to create final As-Built Drawings. Submit 3 copies and
digitally in AutoCAD 14 or later format on a CD (3 copies).
E.
Operation Data: Include three (3) copies of the software Administrator and Operator
Manuals.
ACCESS CONTROL
281300- 3
F.
1.8
1.9
Maintenance Data: Include maintenance and repair procedures.
QUALITY ASSURANCE
A.
Manufacturer: The access control system shall be from a single-source manufacturer that
specializes in intrusion detection and access control systems with a minimum of 5 years
experience.
B.
Installer: Company specializing in intrusion detection and access control systems with a
minimum of three years experience on systems of similar size and scope. Technicians
working on project must have been certified on the hardware and software used for this
project.
DELIVERY, STORAGE, AND HANDLING
A.
Owner will provide, on-site, a secure, dry, locked storage area for all equipment delivered
under this scope of work.
B.
Store products in manufacturer's unopened packaging until ready for installation.
C.
Store and dispose of solvent-based materials, and materials used with solvent-based
materials, in accordance with requirements of local authorities having jurisdiction.
1.10 PROJECT CONDITIONS
A.
Maintain environmental conditions (temperature, humidity, and ventilation) within limits
recommended by manufacturer for optimum results. Do not install products under
environmental conditions outside manufacturer's absolute limits.
1.11 WARRANTY AND SERVICE AGREEMENT
A.
All equipment, materials, and labor shall be guaranteed for a period of 24 months from the
date of final acceptance by the Owner.
B.
Provide any software maintenance updates or upgrades at no additional cost to the Owner for
this period.
C.
Perform two (2) scheduled preventative maintenance site visits per year during the warranty
period.
D.
Response Times Normal business hours shall be 7 AM to 5 PM Monday through Friday.
Calls for service before noon shall be responded to on-site before the end of the day. Calls
after noon shall be responded to on-site by noon the following business day.
E.
Provide extra costs for time outside of normal business hours if the Owner requires
emergency service.
F.
Submit an all-inclusive Annual Maintenance Agreement cost for years 3 and 4, including
two (2) preventative maintenance sites visits per year.
ACCESS CONTROL
281300-4
G.
Submit normal and after hours labor costs and typical costs for equipment for items not
covered under the Warranty, like: Acts of God, vandalism, misuse.
1.12 EXTRAMATERIALS
A.
Provide one (1) each of the following Hirsch Electronics components to serve as system
spares:
1. SNIB2- Secure Network Interface Board (as required).
2. MRIB- MATCH Reader Interface Board (as required).
3. DS47L (as required)
4. DS47L-SPX (as required)
5. Card Reader (as required)
PART 2 PRODUCTS
2.1
2.2
MANUFACTURERS
A.
Acceptable Manufacturer: C&C Group Vendor/Contractor, Schnieder Electric Controls
(AMAG Technology)
B.
Substitutions: Not permitted.
BASIC CENTRAL SYSTEM COMPONENTS
A.
Security Management System: AMAG Technology, Security Management System
B.
Central Processing Unit Computer Specifications:
1. The software shall operate on a Dell or equal personal computer. The requirements for
the computer, rated to the size of the system, are as follows:
C.
Central Processing Unit (CPU):
1. The computer CPU shall be type Pentium 4, 2GHz/533MHz or greater.
D.
Random Access Memory (RAM):
1. The computer shall have a minimum of 1GB RAM for the Server (plus 40MB per
active client) and 512 MB RAM for Clients and Single User Workstation running on
Windows XP Professional SP2 or Windows Vista (1GB recommended).
E.
Disk Drives:
1. The computer shall have a 40 GB IDE, SATA or SCSI hard disk drive minimum, a
3.5" floppy disk drive, and CD-ROM (CD-R on the Server recommended).
F.
Monitor:
1. The computer shall have a 17" Flat Panel Monitor, XGA color.
G.
Mouse:
1. 2 button bus type
H.
Keyboard:
ACCESS CONTROL
281300- 5
1.
The computer shall have a standard 10 1-keyboard layout and IBM-compatible.
I.
Modem:
1. The modem shall be a 56K internal modem with PCAnywhere 12 Remote Control
Software for the server computer. The owner will provide a dedicated voice-grade
phone line at the Head-End Server location.
J.
Serial Ports:
1. Provide 2 serial ports.
K.
Parallel Ports:
1. Provide 1 parallel port.
L.
Ethernet Port:
1. Provide 1 10/100/1000 CatS Ethernet port (onboard or separate card)
M.
Sound Card and Speakers:
1. 1. Provide audio output (onboard or separate sound card) and speakers.
N.
Operating System:
1. Existing at Airport Control Building
0.
Database:
P.
Printers: (as required for each workstation)
1. None
Q.
UPS:
1.
None
R.
Tape Drive- Internal on Server:
S.
Tape Drive Software
1.
Existing at Airport Control Building
T.
Communications Interface To Field Controllers Supported:
1. RS-232.
2.
RS-485.
3.
TCP/IP.
4.
Dial Up.
U.
Control Panel Specifications:
1.
The control panel shall incorporate microprocessor-based, digital technology, using
high speed processing for maximum reliability.
V.
Distributed Intelligence:
1. The system shall use distributed intelligence architecture, with controllers operating
independently of one another.
ACCESS CONTROL
281300-6
2.
2.3
Regionalized functions for all controllers connected to an XBox communications loop
shall include: Use Count, Absentee Limit, Temporary Days, Passback, and
Input/Output linking and shall not require the host to be online for processing and
control.
W.
Stand Alone Operation:
1. All database information required for stand-alone operation shall be stored at the
control panel level. All decision-making shall be performed at the control panel,
eliminating the need for degraded mode operation.
2. Proprietary software programs and control logic information used to coordinate and
drive system hardware shall be stored in Flash Downloadable Read Only Memory.
X.
XML Writer Application:
1. The system shall support as standard sending any or all event and alarm transaction
events out of a selected port in a standard XML format.
2. A Time Zone may be defmed to limit when this data is exported.
3. Multiple XML Writers may be defined and run concurrently for different applications.
Y.
MS Message Queue Application:
1. The system shall support as standard sending any or all event and alarm transaction
events in a standard XML format to a Microsoft Message Queue.
2. A Time Zone may be defmed to limit when this data is sent to the queue.
3. Multiple MS Message Queues may be defmed and run concurrently for different
applications.
SYSTEM CONFIGURATION
A
The head-end shall support one (1) Server Computer that may optionally be used as a full
functioning Client. The system shall support unlimited remote Client computers will full
system functionality. The unlimited client capability will be inherent to the software and will
not require additional licensing by the manufacturer.
B.
The server software shall support Cold Redundant, Warm Redundant, Hot Redundant, and
Clustered server environments.
C.
During installation, support for a split SQL Server Database server and
Application/Communications server shall be available.
D.
Host Computer to Controller Communication Protocols:
1. Communications between the computer and the controller shall be accomplished by
Scramble*Net Communications and shall be encrypted using a 64-bit cipher
feedback method (HES -Hirsch Encryption Standard). The encryption shall be full
time and not require any programming or key setting to operate.
2. The system shall utilize RS232 up to 50' for hardwired applications.
3. The system shall utilize RS485 up to 4000' (4-wire hardwired). Longer distances are
allowed with a communications multiplexer I amplifier (Hirsch Model
NET*MUX4), if applicable.
4. The system shall utilize TCP/IP for communicating over dedicated or shared Ethernet
networks. For 101100 Ethernet communications to the controller, install SNIB2 128
Bit AES Encrypted communications interface board in each controller.
ACCESS CONTROL
281300- 7
5.
E.
F.
G.
2.4
All of the communications protocols shall be supported simultaneously on the system.
Host Computer to Controller Communication Transmission Methods/Hardware:
1.
Coinmunications between the computer and the controller shall be able to use any or
all of the following methods:
a.
Hardwired.
b.
Leased line modem.
c.
Fiber Optic.
d.
Microwave.
e.
IlF.
f.
Ethernet 10/100.
g.
Dial-Up modem.
Maximum System Wide Capacities:
1. The following shall be the maximum system wide capacities. These capacities will be
inherent to the software and do not require additional licensing by the manufacturer.
The actual number shall be dependent upon the mix of controllers that make up the
system:
a.
Doors: Unlimited.
b.
Supervised Alarm Inputs: Unlimited.
c.
Control Relays: Unlimited.
d.
Controllers: Unlimited.
e.
Users: Unlimited.
SYSTEM SOFTWARE
A.
B.
C.
D.
Existing, no changes required
Workstation Customization:
1. Each Operator may customize the Graphical User Interface display location and size
of the software components. After Logging Off and then Logging In again, the User
Interface will display the software components exactly as the Operator left them
when they Logged Off.
2. Alarm Viewer will bring the "Alarm Viewer Window" forward on new alarm(s) while
you are in other Velocity windows.
Door Groups:
1. Door Groups shall allow the user to establish groups of readers, each with its own
unique Time Zone, at a facility for the purpose of granting or denying access to
Credentials. Door Groups are assigned to Credential Templates, and people being
added to the system take on the Door Group of the Credential Template selected
during the enrollment process. A new Door Group may be defined when adding a
·Credential or Credential Template without having to exit and re-enter the Credential
function for that Person.
2.
The Door Group application shall allow the user to view any existing Door Group
listed in the dialog box. A user, with proper authority, shall be able to modify, add,
or delete a Door Group from the System Software.
3. More than one Door Group may be added to a Credential as long as there is no
overlap of a controller in a door group already added to the Credential.
4. Door Groups may be combined into Master Door Groups, which can then be added to
a Credential.
Function Groups:
ACCESS CONTROL
281300-8
1.
E.
Credentials can be assigned to perform a single User Function, like Momentary
Access, or multiple functions like Momentary Access in one controller and Control
Trigger Function in a relay controller for Elevator Access. When multiple User
Functions are required by a Person, a Function Group may be defined and associated
with one or more credentials. The Function Group requires a ScramblePad keypad to
be used, where the Person's base Credential PIN number is entered, followed by an*
(Asterisk), followed by a one or two digit Extension digit, which defines which User
Function will be issued for which Control Zone. This allows for a single person to
perform multiple User Functions like: Unlock Door, Relock Door, Change Threat
Level, Mask Alarm Inputs, Lock Down Doors.
Credential Templates:
1. A Credential Template can be used when adding Credentials to people. The Credential
will take on the properties of the Credential Template selected. This will minimize
the number of keystrokes and time required to add a Credential to a person. The
Credential Template properties include: Credential Name; Badge Template;
Activation and Expiration Date and Time; ID Format; Card Type; Code Length;
Duress Digit; Credential Function and Category; Door Group, Multiple Door
Groups, or Function Group; Threat Authority; 2 Person Rule options; Use Count,
Day Limit, and Absentee Limits; Apply Credential Management Globally; Tag,
Alert, Disable Credential; Issue Number; Status; Executive Override for Passback;
Special Needs Access Extension.
Credential Templates may be linked, whereby any User Credentials that are added
with a Linked Credential Template can be group edited by editing the definition of the
Linlced Credential Template. A User's credential may be unlinked and customized or
it can be linked to another Credential Template.
F.
Command Sets:
1. A Command Set defmes an action or actions to be sent to a controller or controllers.
Command Sets can include: Unlock and Relock a Door; Lock Down and Release a
Lock Down on one or more doors; make the rest of today a Holiday; Mask all
Interior Alarm Points; change the facility Threat Level; Forgive All Passback. Once
defmed, a Command Set can be executed from the Command Set Window, or from a
Graphic Floor plan ICON, if defmed. There shall be an unlimited number of
Command Sets available to be defined. Command sets shall be defmed with pick
lists and shall be restrictable by Operator Group and Workstation.
G.
Status Viewer:
1. There shall be a Status Viewer which displays in a spreadsheets type format, the realtime status of all or selected Doors, Readers, Inputs, Relays, Expansion Inputs,
Expansion Relays, and Controllers. Devices may be grouped in to "Status Groups",
which are selectable from a drop down list. Devices may have selected information
displayed. The available list includes the following:
a.
Name and Address.
b.
Status.
c.
Alarm and Acknowledged Status.
d.
Masking Status.
e.
Line Module Input Status and Type.
f.
Relay Status.
g.
Detailed relay status
ACCESS CONTROL
281300- 9
h.
1.
j.
k.
H.
Controller Threat Level status
Revision Number.
Enabled Status.
Controller Alarm Relay, Tamper, and Battery Status.
Alarm Viewer:
1. The Alarm Viewer shall have 4 panes: Alarm, Acknowledged Alarms, Instructions,
and Comments. At the bottom of the Main Console display are counters to indicate
Active Alarms, Acknowledged Alarms, and OffNotmal Conditions. Double clicking
the Counter will launch the Alarm Viewer. The Alarm Viewer may also be manually
launched, or automatically in the event of a new alarm occurrence. Alarm Viewer
properties that may be configured include:
a.
Require Acknowledgement Before Clearing.
b.
Auto Acknowledge on RTN (Return to Normal).
c.
Require Entry ofNote on Acknowledgement.
d.
Force New Note on Multiple Acknowledgements.
e.
Require Entry of Note on Clear.
f.
Force New Note on Multiple Clear.
g.
Restore Alarm Viewer on New Alarm.
h.
Specify the number of Cached Alarms to Load at Launch of Alarm
Viewer.
2. Foreground, Background, Alarm, and Secure colors may be changed. In addition, the
Columns of data viewed in the Alarm and Acknowledged windows may be selected
and the sequence in which they will appear. The available columns include:
a.
ICON.
b.
DVR Video.
c.
Count.
d.
Controller Time.
e.
Host Time.
f.
Description.
g.
Address.
h.
Level.
AlarmiD.
i.
j.
Acknowledge Time and Acknowledged By (available for the
Acknowledged Pane).
3.
Tool bar ICONS shall include:
a.
Acknowledge Selected.
b.
Clear Selected.
c.
Acknowledge All.
d.
Clear All.
e.
AddNote.
4. Right Clicking an Alarm Event shall display a list of available options, including:
a.
Acknowledge.
b.
Clear.
c.
Acknowledge All.
d.
Clear All.
e.
Record Note.
f.
Go To Graphic.
g.
Display User Photo.
h.
Replay W A V file.
i.
DVR Alarm Video: Show Viewer and Get Recorded Alarm Video.
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281300- 10
I.
Event Viewer:
1. The Event Viewer can display all or Filtered Transactions. Custom filers may be
defmed and selected, or Standard selections can be made for main categories of
Event types. Column width, order, selection, and scrolling direction are user
definable, as well as text and background color.
2. The number of cached events to load when launched, up to 10,000, may be defmed.
The Operator shall be able to scroll back in time to view events no longer seen on the
screen, without the need for running a report.
J.
Create Defect Report
1. There shall be a wizard to create a system defect report to aid in reporting issues to
factory technical services personnel.
K.
Customization Manager:
1. There shall be a Customization Manager that allows the Operator to defme an
alternate language or change the English name or label for each element of the
software.
2. Audio W AV files may be defined for playback when a particular Alarm Type is
active.
3. Priority Levels may be defmed (1-99) for each Alarm Type.
4. Operator Instructions per Alarm Type shall be user defmable.
5. Individual Alarm Points may be customized on an individual point level, where each
alarm point can have a unique priority, wav file, and operator response instructions.
6. Alarm points that are customized can have an assigned "escalation" where if an
operator doesn't respond in a user defmed period of time, the alarm event can be
escalated to another Operator with the selected Role.
L.
Report Manager:
1. The Report Manager shall allow the Operator to select from a number of pre-defined
Reports. Custom Reports can be created outside the software, and added to a Custom
folder, making the Custom Reports available from within the Report Manager
application.
2. Once a Report is selected, the default Criteria and Sorting options may be used, or
custom Criteria and Sorting options may be selected. The report criteria can be
optionally displayed on the top of the report.
3. Once the report is run, it may be viewed, printed, or saved in various standard file
formats.
M.
CCTV Interface:
1.
System Software shall allow the ability to define, view, monitor, and control the
CCTV Matrix Control System. Simulated Alarms can be sent to the switcher, as well
as Tours, Presets, select a specific camera, Grab and Store a CCTV image, and
pan/tilt/zoom/iris controls for the selected camera. In addition, one or more Triggers
and Actions can be defined for each camera.
N.
DVR Interface:
1. The DVR interface configuration allows a qualified Operator to add a new DVR to
Velocity. Properties defmed when adding a DVR include:
a.
DVRName.
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281300- 11
b.
c.
2.
3.
4.
5.
6.
7.
8.
9.
DVR Description.
DVR Vendor (American Dynamics: DV8000, DV16000, Intellex IP, and
Ultra; and Integral Technologies DVX series currently supported).
d.
DVRI.P.
e.
I.P Port (Control).
f.
I.P. Port (Live Video).
g.
DVR Server Name.
h.
Port (Listen).
i.
Time Zone.
j.
DVR Enabled.
From the DVR Interface Configuration, the Operator shall be able to Search and
Retrieve video from one or more cameras for a specified period of time. In addition,
the Event Viewer History enables a qualified Operator to track and report events that
are specific to the DVR subsystem history logs. These logs include:
a.
Active Alarms by Date.
b.
Active Alarms by Date with Comments.
c.
Alarm Log by Date.
d.
Alarm Log by Date with Comments.
e.
All Events Log by Category.
f.
All Events Log by Date.
The DVR interface shall allow a qualified Operator to:
a.
View Cameras.
b.
Generate a Host Alarm.
c.
Stop a Host Alarm.
d.
Get Alarm List from DVR.
e.
Search and Retrieve Recorded Video.
f.
Play Local Video.
g.
Time Synchronization.
h.
Diagnostics.
i.
View DVR Properties.
When Viewing cameras, the Operator may select Small, Medium, or Large display
size, and select for viewing 1, 4, 9, or 16 cameras to display in the View Window.
Cameras may be selected then dragged to the window the Operator wishes to view
the camera in. If the camera has Pan!Tilt/Zoom/F ocus/Iris control, the Operator can
open the control functions and operate the on-screen controls for the selected camera.
An Operator shall be able to define Triggers and Actions that allows Alarms and
Events in Velocity to cause Alarm recording in the DVR through an API interface. A
camera preset can be defmed as well as a View Group to automatically display on
alarm.
In Graphics, DVR Cameras and DVR recorder ICONS can be placed on floor plans
and used to view the associated video from the selected camera.
Video can be exported from a DVR and store it on the Velocity PC, then transfer the
video to other media like CD-R and CD-RW.
There shall be a Velocity Video Explorer application that lets a qualified Operator to
view multiple cameras from multiple DVRs in a single window. Cameras can be
displayed in 1, 4, 9, or 16 display views and these views can be saved as View
Groups for fast and easy selection by the Operator.
Alarms can be sent from the DVR to Velocity. Alarms include: Motion and Video
Loss. When used with MATE Behavior Watch advanced analytics, these alarms can
be displayed in Velocity
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281300- 12
0.
Console Preferences:
1. The Console Preferences shall define specific settings or devices for use with
Velocity. These shall include: Show Splash Screen on Startup; Access and Enable
Customized Values for Components in Customization Manager; Use 24-Hour Time
Format; Automatically start Velocity when computer starts; PIN and Code reuse
options; Display Credential template and time to display; SQL Server and Network
Connections settings; Alarm Options for Stacking, Make Note requirements, repeat
Multimedia until Acknowledged, and Alarm Queuing options; Report, Badging, and
Alarm/Event Printer properties; CCTV Properties.
P.
Controller Properties:
1. Controller Properties shall define all General settings for the Controller. These setting
will include: Name, Type, Address, Local Time Zone, Enabled Status, Firmware
Revision Number and Date, Expansion Option Boards Installed and available
Hardware. All additional Controller Setup Options can be defmed here and are
detailed in the Firmware Features section below.
Q.
Controller Device Properties:
1. The Controller Device Properties shall define all connected field devices, including:
Doors, Readers, Inputs, Relays, Expansion Inputs, and Expansion Relays. Device
names and all operating parameters shall be definable if operation other than the
included defaults is required.
R.
Graphics:
1. The Graphics application shall allow the Operator to add, delete or modify graphic
floor plans and add indicator ICONs to graphic floor plans that represent Controllers,
input/output points, readers, or cameras located in the facility. Formats for Graphics
supported include: jpg; bmp; dxf; wmf; emf.
2. There shall be two Modes, Live and Design. The Live mode shall be used for real
time monitoring. In addition, right clicking an ICON presents the Operator with a list
of available Access or Control Functions that can be issued to the device. The Design
mode allows the Operator to Defme which Graphics are to be used, place ICONs on
the Graphics, and defme properties for each ICON.
3. There shall be a Pan and Zoom Viewer that provides a key plan that can be panned
and scrolled by moving the red box, which indicates the current viewing area.
4. There shall be a Directory of available Graphics to easily select the desired Graphic to
display.
5. The Graphics application shall display the real-time state and condition of Alarm
Points and Doors. The Door ICONs shall change from a closed door ICON to an
Open door ICON, representing that the door is open. When the door is closed, a
closed ICON will appear again. The Alarm ICONs shall change from a closed
contact ICON to an Open contact ICON, representing that the alarm device is active.
When the Alarm Device is restored to its normal condition, a closed contact ICON
will appear again. The ICON will also display the Device Name and Alarm
Condition that caused it to go into an Alarm condition. The Color of the ICON will
also change based on whether it is in alarm or secure.
6. User defmable ICONs can be created and used. Link ICONs can added to quickly link
to other graphics. Command Set ICONs can be used to issue a Command Set with a
single mouse click
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281300- 13
7.
Custom Links shall be available to provide additional functionality. These links
include:
a.
AXIS Camera Link- This link shall enable the Operator to launch an
AXIS IP camera from any graphics page. A dedicated viewer window will open
for each camera link by double clicking the link.
b.
Quick Link- This link shall enable an Operator to launch an HTML
page from any graphics page. A dedicated window will display the defined
HTML page when the link is double clicked.
S.
Badge and Graphics Designer:
1. The Badge and Graphics Designer shall allow the Operator to create and customize an
unlimited number of Badge Templates that may be assigned to a Person in the
Enrollment Manager and create Backdrops to be used in the Graphics module.
2. An Object Toolbar shall be available for selecting Objects to appear on the Badge
Template or Backdrop, including: Bit Map Logos, Photos, Fixed Text, and Database
Fields. Each Object shall have a Properties box where the specific Properties of that
Object are defmed, including: File, database field, Font Color, Font Style, Font Size.
T.
Enrollment Manager:
1. The Enrollment Manager application shall maintain information related to a Person,
and Credentials assigned to that person. Multiple Credentials per person shall be
supported. New people can be added with the assistance of a Person Template to
automatically enter User Defmed field data and select Person Groups for this person.
2.
The Personal Information pane shall include the General, 10 Additional Tabs, and a
Person Group tab. The system shall be capable of defming 999 user defmable fields
and place them on any of the 10 Tabs. The captions of the Tabs are customizable and
can be restricted by Operator. There shall be an "Additional Images" tab that can be
used to store additional photos of the person, photos of relatives, and/ or photos of
Assets assigned to the person. These field names can be either a "Text Box",
"Dropdown" where the Operator can enter text, or select from a Dropdown List, a
"Dropdown List" where selecting from the List is required, Date, Number, Unique
number, Auto-unique, Auto-sequential, unique text, and the Dropdown and
Dropdown Lists can sort in Ascending or Descending order. Fields can be made
"Required", where the Person's record cannot be saved unless data is entered in that
field. Field captions can have their color changed. A Photo field shall be available
for acquiring a live video image, acquire an image from a TWAIN device, or
acquiring a photo from an existing file. A Record Last Updated field shall be
available, as well as Preview and Print a Badge. A signature field shall also be
available.
3.
A Person can be placed in one or more Person Groups. An Operator's Role/s
determines which Users an Operator can view.
Once a person is added, one or more Credentials may be added to that Person.
Credentials may be added using a Credential Template, or directly without a
Credential Template. The Credential will take on the properties of the Credential
Template if used. There shall be a Card Enrollment Station used for entering card
data into the system. PIN Numbers can either be randomly selected, or
Operator/User selected. Multiple card formats shall be supported, including: multiple
bit length Wiegand, ABA (magnetic stripe), and custom. Each credential can have
assigned one or multiple Door Groups, Master Door Groups, or Function Groups for
4.
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281300- 14
access and control authorization. If a new Door Group is required and not currently
defmed, the Operator can create a new one from within the credential management
application. Additional credential properties that may be assigned include:
a.
Badge Template.
b.
Card Data.
c.
Hot Stamp Card Number.
d.
Activation Date/Time.
e.
Expiration Date/Time.
f.
PIN Length.
g.
PIN Number.
h.
Duress Digit.
i.
Day/Use/Absentee Limits.
j.
2 Person Rule.
k.
Threat Authority.
1.
Tag.
m.
Alert.
n.
Disable.
0.
Passback Executive Override.
p.
Special Needs Access.
Issue Number.
q.
Devices may be configured to allow for scanning and automatic field data entry from
a Business Card scanner, Drivers License Scanner, Passport Scanner, and PN Smart
Card Reader. Fields can be mapped to allow for proper placement of the scanned data
in the correct field.
There shall be the ability in the credential management program to provide Print and
Issue control for badging, where the maximum number of times a badge can be issued
and printed can be set, as well the current count listed. The reason for a badge reissue
shall be logged for auditing purposes.
5.
Once a Person is selected from the List, the Credential Status and information is
displayed for the assigned Credentials. The information includes: IDF, ID, Function,
Description, Status, Expires On, Last Access, Last Door, Tag, and Alert. An
Operator may right click on a Credential, and will be presented with the following
options: Tag, Alert, Disable, Forgive Passback, Override Code Tamper, Reset Limit
Count, Force Download, Unassign, Delete, and Properties.
6.
The bottom of the Enrollment Manager window shall display counters for: People,
Assigned Credentials, Unassigned Credentials, and Guest Credentials.
7.
Multiple User search options shall be available, including: "Find Person" query search
builder; form based quick search, and Quick Find.
8.
There shall be the capability to group edit multiple User's user defmed fields and
Person Groups.
U.
Download Monitor:
1. The system shall display the status of all data downloads to the field controllers.
V.
Switch Operator:
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281300- 15
1.
2.5
There shall be the capability to change Operators without the need for the current
Operator to Log Off the computer. The new Operator's Velocity permissions are
then used during the session to control access to Velocity functionality.
W.
Velocity Data Import/Export:
1. There shall be the capability to Import user related data into the database. This data
can be in either a text file, Comma Separated Value format, or XML format. The
imported data can be mapped to any of the user definable fields available within the
Velocity Enrollment Manager. In addition, aUser' s photo, signature, and credential
info, including PIN, card number, hot stamp card number, and the Credential and
Person Templates to use when importing are available for importing.
2. There shall be the capability to Export user related data from the Velocity database.
This exported data can be formatted in a text file, Comma Separated Value, or XML
format. This data can be selected from any of the fields available in the Velocity
Enrollment Manager.
X.
Add-Ins: The following "Add-Ins" are available to be added to Velocity by an authorized
Operator.
1. Velocity Remote Desktop -The Operator shall be able to launch a terminal services
session from within the Velocity shell.
2. Launchpad- The Operator shall be able to launch standard Windows applications
within Velocity.
Y.
Software Developers Kit (SDK): The Security Management Application shall support an
SDK to allow for external third party applications to interact with the Enrollment Manager
Application. It shall also provide for external event and alarm monitoring and control back
into the application in an XML format.
1. API- There shall be available as an option, an Application Programming Interface to
allow third party applications to manage Users and Credentials in the Security
Management application, including add, edit, and delete functions.
2. XML There shall be available as an option, an XML interface to allow for the
Security Management application to receive commands in an XML format, as
defmed by the SDK, to perform commands like: List Alarms, Acknowledge Alarms,
Unlock Doors, issue Command Sets, and others, and to provide command responses
in an XML format.
3. The Vendor shall have available a Professional Services Group to assist and/or
provide solutions using the SDK.
HARD'WARE REQUIREMENTS
A.
Controllers:
1. There shall be three primary types of controllers:
a.
Access control (2 Door [Model M2150 2DBC], and 8 door- [AMAG
Model 8-door controller].
b.
Alarm monitoring 16 supervised inputs - , expandable to 32 inputs.
c.
Relay control (8-32 relay with the addition ofREB8 relay expansion
boards and (64 relay-).
B.
Each controller shall have the following common features.
1. Controller Board: The controller board shall be microprocessor based, incorporating
Flash ROM (firmware) downloadable from the Host Computer, RAM (User
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281300- 16
2.
3.
4.
5.
6.
7.
8.
Information, System Setups, Event Transaction Buffer) and a Clock/Calendar. The
ROM shall be modularly upgradeable in the field for enhancements to system
features. All powered connections to the controller board shall be protected by fuses.
All wiring connections to the controller board shall be to "Phoenix" type screw
terminals. Each door connection shall consist of terminals for two readers, one 10
Amp rated Form C dry output relay for lock control, and one input for monitoring a
status switch, a request-to-exit device, and a tamper switch. There shall be status
indicator lights for active relays, as well as diagnostic indicator lights to aid in
system troubleshooting. There shall be dedicated alarm output relay/s for external
reporting of the following conditions: Alarm; Duress; Tamper; and Trouble.
Enclosure: The controller enclosure shall be a NEMA style metal cabinet designed for
surface mounting. It shall have a tampered, removable hinged door with a high
security key lock. It shall have conduit knockouts to allow from 1/2" to 1" EMT
conduit to be used for wire entry into the cabinet.
Internal Power Supply: The controller shall have an internal power supply that will
accept 50 Hz/ 200-240 VAC, or 60 Hz/100- 120 VAC. The primary side of the
power supply shall be protected with a fuse. The power supply shall provide 28 VDC
power to the controller board, internal battery charger, selected card readers, and
reader interface boards.
Standby Battery: The controller shall have an internal standby battery that is capable
of running the system during AC power interruptions. It shall be recharged by a
charging circuit incorporated into the controller board.
Expansion Options: A maximum of five (5) expansion boards can be installed in each
controller, with the exception of four (4) in the Model M64N and none in the Model
lN. A SNIB (SCRAMBLE*NET Interface Board) is included with each controller
with the "N" designation in the part number and takes up one of the available
expansion slots. A SNIB2 is included with each controller with the "N2" designation
in the part number.
Alarm Inputs: The controller shall be capable of accepting up to 32 additional
supervised alarm inputs, in increments of eight (8). The sensitivity of the line
supervision shall be 2% AA Standard. The alarm expansion boards shall be mounted
in the controller cabinet and connect to the controller board via an expansion bus
cable. This option shall be limited to 16 additional supervised alarm inputs for the 16
zone alarm input controller (Model Ml6N) and none for the Model MlN. The alarm
expansion board shall be Hirsch Model AEB8.
Relay Output: The two (2) access control (Model M2N and Model M8N) and one (1)
alarm monitoring (Model Ml6N) controllers shall be capable of accepting up to 32
additional Form C, 2 Amp rated relay outputs in increments of 8. The 1 - 32 relay
controller (Model MSPN-8R) shall accept up to a maximum of24 additional Form
C, 2 Amp rated relay outputs in increments of 8. The 1 - 64 relay controller (Model
M64N) and the Model MlN shall not accept any additional relay outputs. These
outputs shall be used for control applications other than standard door access, such as
elevator floor control, local door annunciators, HVAC interface, etc. The relay
expansion boards shall be mounted in the controller cabinet and connect to the
controller board via an expansion bus cable. The relay expansion board shall be
ModelREB8.
CODE/Buffer: The controller shall be capable of expanding the CODE database up to
a maximum of 132,000 Users with the addition of a memory expansion board. The
board shall be mounted in the controller cabinet and connect to the controller board
via an expansion bus cable. The CODE/Buffer ewxpansion board shall be Hirsch
Model MEB\CB64 (64,000 Users) or the MEB\CB128 (128,000 Users). Both
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281300- 17
Expansion Boards shall expand the Buffer capacity as well as the Code record
capacity. The Model M1N shall not accept any CODE/Buffer Expansion board.
9. Event Transaction Buffer: The controller shall be capable of expanding the event
transaction buffer up to a maximum of20,000 events and 2,000 alarms with the
addition of a memory expansion board. The board shall be mounted in the controller
cabinet and connect to the controller board via an expansion bus cable. The event
transaction buffer expansion board shall be Hirsch Model MEB\BE. The Model
MlN shall not accept a Buffer Expansion board.
10. Intelligent Reader Interface: The control panels shall utilize an intelligent reader
interface (Hirsch MRIA or MRIB) to communicate with card readers of various
types. The interface shall be microprocessor based and allow data formats including
ABA magnetic stripe, Wiegand (26 to 55 bit), Proximity, Bar Code, Touch Memory,
RF and Biometric. The interface shall utilize a digitizing algorithm, which will
convert the card data to a unique number, thus, eliminating the need for facility
codes. A single interface shall support both entrance and exit readers with keypads
associated with each door. The interface shall be U.L. Listed to U.L.294. The reader
interface shall be included as standard in all Scramble Pads.
2.6
CONTROLLER FIRMWARE
A.
General Features:
1. The software for the controller shall reside in Flash ROM (firmware) and be located
on a plug removable module on the controller board to facilitate easy field
upgradeability of the features. All of the necessary software for a fully functional
System is located in the controller. The controller firmware shall include the
following general features at a minimum and be fully supported by the VELOCITY
head-end.
a.
3- 15 digit keypad Code's.
b.
Duress digit for keypad Code's.
c.
150 Time Zones for access restriction and automatic event control.
d.
128 Access Zones for access management.
e.
256 Control Zones for alarm and relay management.
f.
366 programmable holidays this year, 366 days next year. Each Holiday
may be assigned to 1 - 4 Holiday Schedules.
g.
Automatic daylight savings time clock adjustment.
h.
27 different functions for Code's and cards, e.g. access, unlock, re-lock,
alarm mask, relay control.
1.
Add user records.
j.
Tag users for annunciation at host computer.
k
4,000 Users.
1.
1500 event, 1500 alarm transaction buffer.
B.
Access Control Features;
1. The controller shall include the following access control features at a minimum:
a.
Restrict access by: time of day; day of week; door; holiday.
b.
Momentary Access of door up to 8100 seconds.
c.
Extended Access for User Definable Momentary Access duration
(requires ScramblePad). ScramblePad will display time remaining on the
minute, and annunciate at the defined "Warning Time".
d.
Special Needs Time Extension to provide additional time for Momentary
Access and Door Open Too Long for selected people.
ACCESS CONTROL
281300- 18
e.
f.
g.
h.
1.
J.
k.
1.
m.
n.
o.
2.7
Unlock/Re-lock of door by CODE, card or Time Zone.
Door status monitoring shall allow for: door forced monitoring; dooropen-too-long monitoring; door-open-too-long while door is unlocked; auto-relock of door when opened or closed.
Request-to-exit masks alarm and/or unlocks door.
2 person requirement by door. A user can be defined as Normal, NB
Rule A, NB Rule B, Executive Override. Can be disabled by Time Zone.
63 Passback Zones. Can be disabled by Time Zone. A User can
designated with Passback Executive Override.
Use Count limits on users
Absentee Rule limits on users.
Temporary Day limits on users.
Occupancy Counting I Minimum & Maximum limits per Passback Zone.
Deadman CODE I Timer.
Threat Levels- 99 Levels may be defined. Based on the Level in effect
for the facility, selected readers may be disabled, dual readers in Card/Code
Only During Time Zone can require dual, and selected User's Credentials can
be disabled.
C.
Alarm Management Features:
1. The controller shall include the following alarm management features at a minimum:
a.
Momentarily mask alarm by CODE and/or card.
b.
Mask/unmask alarm by CODE and/or card or by Time Zone.
c.
Alarm device supervised while masked.
d.
Tamper switch on alarm device monitored while masked.
e.
Tamper Input may be configured to operate as a "Latch Monitor" with
the appropriate door lock hardware.
f.
Entry/Exit delay per alarm input.
g.
Alarm input triggers relays.
D.
Relay Control Features:
1. The controller shall include the following relay control features at a minimum:
a.
CODE and/or card, input, or other relay triggers relays.
b.
Trigger relay/s by time zone.
c.
Relay may be normally de-energized or energized.
d.
Disable relay/s during time zone.
e.
Clear relay at end of time zone.
CARDREADERS
A.
Readers:
1. The controllers shall accept all of the following reader technologies concurrently:
Scrambling Keypad; Mag Stripe; Wiegand; Proximity; Smart Card; Bar Code;
Biometrics- Retinal Scan, Hand Geometry, Fingerprint; Radio Frequency. The
readers can be used for access control, alarm management, and/or relay control and
shall be capable of being used alone (keypad only, card only) or a scrambling keypad
and any other reader technology may be combined to operate as a dual technology
reader where two valid IDs (PIN and card) are required.
B.
ScramblePad:
ACCESS CONTROL
281300- 19
1.
2.8
The controller shall be capable of using scrambling keypad readers. The keypad shall
incorporate the following features: Scrambling display of numbers 0 - 9 (numbers
appear in different location every time it is used); +/- 4 degree horizontal and+/- 26
degree vertical viewing restriction; accept 3 - 15 digit CODEs simultaneously; be
disabled for 1 minute and report CODE Tamper violation (guessing CODEs); be
disabled and report Physical Tamper violation (attempt to remove keypad from
mounting box); silent CODE duress; status LEDs for reporting granted, denied, and
overridden transactions, AC Fail, Programming Mode active, responses to Status
Request of Alarm Inputs and Relay Outputs; weather resistant; supervised by
controller; and built-in diagnostics. The ScramblePad shall include the MATCH
Reader Interface functionality for connection of up to two (2) card readers. The
scrambling keypad shall be the Hirsch ScramblePad Model DS47L.
C.
Mag Stripe Card Readers:
1. The controller shall be capable of using standard ABA/ISO high and low energy track
2 cards and readers. The reader shall have a wide throat to accept laminated photo ID
cards. For indoor and outdoor use, the mag stripe reader requires the addition of a
MRIB (MATCH Reader Interface Board) or a MRIA (MATCH Reader Interface
Assembly).
D.
Wiegand Card Readers:
1. The controller shall be capable of using standard Wiegand readers and cards with 2655 Bit standard Wiegand data formats. The readers can be swipe, insert, turnstile, or
key.
E.
Proximity Card Readers:
1. The controller shall be capable of using proximity readers that output a standard 26-55
Bit Wiegand data format. The readers can have a short or long read range and be
unidirectional or bi-directional.
F.
Bar Code Reader:
1. The controller shall be capable of using Bar Code readers and cards with standard
Wiegand data format output. The reader shall be swipe, black, weather resistant, and
capable of reading multiple symbologies, including concealed bar codes.
G.
Miscellaneous Readers:
1. The controller shall be capable of using any reader technology that outputs a standard
ABA/ISO data format or a standard 26-55 Bit Wiegand data format. Readers that
meet this requirement include: Radio Frequency; Biometrics -Hand Geometry,
Retinal Scan, Finger Print, Voice Recognition; Smart Card, including Mifare,
DESFire, and FIPS-201 compliant readers.
MISCELLANEOUS
A.
1.
2.
Enclosures:
The control panel shall be housed in a UL-listed cabinet suitable for surface or semi-flush
mounting. The cabinet and front shall be corrosion protected, given a rust-resistant prime
coat, and manufacturer's standard finish.
The back box and door shall be constructed of 0.060 steel with provisions for electrical
conduit connections into the sides and top.
ACCESS CONTROL
281300-20
3.
4.
B.
The door shall provide a key lock and shall include a glass or other transparent opening for
viewing of all indicators. For convenience, the door may be site configured for either right
or left hand hinging.
Equal by Hoffman with hinges and lockable cam-lock
Power Supply:
1.
2.
3.
4.
A high tech off-line switching power supply shall be available for the fire alarm control
panel or network node and provide 6.0 amps of available power for the control panel and
peripheral devices.
Provisions will be made to allow the audio-visual power to be increased as required by adding modular expansion audio-visual power supplies.
Positive-Temperature-Coefficient (PTC) thermistors, circuit breakers, or other over-current
protection shall be provided on all power outputs. The power supply shall provide an integral battery charger for use with batteries up to 55 AH or may be used with an external battery and charger system. Battery arrangement may be configured in the field.
The power supply shall continuously monitor all field wires for earth ground conditions,
and shall have the following LED indicators:
Ground Fault LED
AC Power Fail LED
NAC on LED (4)
5.
6.
7.
C.
The main power supply shall operate on 120 VAC, 60Hz, and shall provide all necessary
power for the remote access control panel.
The main power supply shall provide a battery charger using dual-rate charging techniques
for fast battery recharge and be capable of charging batteries up to 200 AH.
All circuits shall be power-limited, per UL864 requirements.
Auxiliary Field Power Supply- Addressable
1.
2.
5.
6.
7.
The auxiliary addressable power supply is a remote 24 VDC power supply used to power
Notification Devices and field devices that require regulated 24VDC power. The power
supply shall also include and charge backup batteries.
The addressable power supply for the access control system shall provide up a minimum of
6.0 amps of 24 volt DC regulated power for peripheral detector power or 5 amps of 24 volt
DC general power. The power supply shall have an additional .5 amp of 24 VDC auxiliary
power for use within the same cabinet as the power supply. It shall include an integral
charger designed to charge 7.0 - 25.0 amp hour batteries.
The addressable power supply shall operate on 120 or 240 VAC, 50/60Hz.
The interface to the power supply from the Fire Alarm Control Panel (F ACP) shall be via
the Signaling Line Circuit (SLC) or other multiplexed means Power supplies that do not
use an intelligent interface are not suitable substitutes. The required wiring from the FACP
to the addressable power supply shall be a single unshielded twisted pair wire. Data on the
SLC shall be transmitted between 24 VDC, 5 VDC and 0 VDC at approximately 3.33k
baud.
The addressable power supply shall supervise for battery charging failure, AC power loss,
power brownout, battery failure, NAC loss, and optional ground fault detection. In the
event of a trouble condition, the addressable power supply shall report the incident and the
applicable address to the access control panel via the SLC.
ACCESS CONTROL
281300- 21
8.
9.
10.
2.9
The addressable power supply shall have an AC Power Loss Delay option. If this option is
utilized and the addressable power supply experiences an AC power loss, reporting of the
incident to the access control panel will be delayed. A delay time of eight or sixteen hours
shall be Dip-switch selected.
The addressable power supply shall have an option for Canadian Trouble Reporting and
this option shall be Dip-switch selectable.
The addressable power supply mounts in either the access control backbox or it's own dedicated surface mounted backbox with cover.
SYSTEM COMPONENTS
A.
Projected Beam Detectors
1.
2.
3.
4.
5.
6.
7.
8.
The projected beam type shall be a 4-wire 24 VDC device.
The detector shall be listed to UL 268 and shall consist of a separate transmitter and receiver capable of being powered separately or together.
The detector shall operate in either a short range (30'- 100') or long range (100'- 330')
mode.
The temperature range of the device shall be -22 degrees F to 131 degrees F.
The detector shall feature a bank of four alignment LEDs on both the receiver and the
transmitter ,that are used to ensure proper alignment of unit without special tools.
Beam detectors shall feature automatic gain control which will compensate for gradual signal deterioration from dirt accumulation on lenses.
The unit shall be both post, ceiling and wall mountable.
The detector shall have the ability to be tested using calibrated test filters or magnet activated remote test station.
PART 3 -EXECUTION
3.1
EXAMINATION
A.
Examine pathway elements intended for cables. Check raceways, cable trays, and other
elements for compliance with space allocations, installation tolerances, hazards to cable
installation, and other conditions affecting installation.
B.
Examine roughing-in for LAN and control cable conduit systems to PCs, Controllers, card
readers, and other cable-connected devices to verify actual locations of conduit and back boxes
before device installation.
C.
Proceed with installation only after unsatisfactory conditions have been corrected.
3.2
PREPARATION
A.
Comply with recommendations in SIA CP -01.
B.
Comply with EINTIA-606, "Administration
Infrastructure of Commercial Buildings."
ACCESS CONTROL
Standard
for
the
Telecommunications
281300-22
C.
Obtain detailed Project planning forms from manufacturer of access-control system; develop
custom forms to suit Project. Fill in all data available from Project plans and specifications and
publish as Project planning documents for review and approval.
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
D.
3.3
Record setup data for control station and workstations.
For each Location, record setup of Controller features and access requirements.
Propose start and stop times for time zones and holidays, and match up access levels for
doors.
Set up groups, facility codes, linking, and list inputs and outputs for each Controller.
Assign action message names and compose messages.
Set up alarms. Establish interlocks between alarms, intruder detection, and video
surveillance features.
Prepare and install alarm graphic maps.
Develop user-defmed fields.
Develop screen layout formats.
Propose setups for guard tours and key control.
Discuss badge layout options; design badges.
Complete system diagnostics and operation verification.
Prepare a specific plan for system testing, startup, and demonstration.
Develop acceptance test concept and, on approval, develop specifics of the test.
Develop cable and asset management system details; input data from construction
documents. Include system schematics and Visio Technical Drawings.
In meetings with Architect and Owner, present Project planning documents and review, adjust,
and prepare final setup documents. Use final documents to set up system software.
CABLING
A.
Comply with NECA 1, "Good Workmanship in Electrical Contracting."
B.
Install cables and wiring according to requirements in Division 28 Section "Conductors and
Cables for Electronic Safety and Security."
C.
Wiring Method: Install wiring in raceway and cable tray except within consoles, cabinets,
desks, and counters. Conceal raceway and wiring except in unfinished spaces.
D.
Wiring Method: Install wiring in raceway and cable tray except within consoles, cabinets,
desks, and counters and except in accessible ceiling spaces and in gypsum board partitions
Use NRTL-listed plenum cable in
where unenclosed wiring method may be used.
environmental air spaces, including plenum ceilings. Conceal raceway and cables except in
unfinished spaces.
E.
Install LAN cables using techniques, practices, and methods that are consistent with
Category 5E rating of components and that ensure Category 5E performance of completed and
linked signal paths, end to end.
F.
Install cables without damaging conductors, shield, or jacket.
G.
Boxes and enclosures containing security system components or cabling, and which are easily
accessible to employees or to the public, shall be provided with a lock Boxes above ceiling
ACCESS CONTROL
281300-23
level in occupied areas of the building shall not be considered to be accessible. Junction boxes
and small device enclosures below ceiling level and easily accessible to employees or the public
shall be covered with a suitable cover plate and secured with tamperproof screws.
H.
3.4
Install end-of-line resistors at the field device location and not at the Controller or panel
location.
CABLE APPLICATION
A.
Comply with EWTIA-569, "Commercial Building Standard for Telecommunications Pathways
and Spaces."
B.
Cable application requirements are 1lllillillum requirements and shall be exceeded if
recommended or required by manufacturer of system hardware.
c.
RS-232 Cabling: Install at a maximum distance of 50 feet (15m).
D.
RS-485 Cabling: Install at a maximum distance of 4000 feet (1220 m).
E.
Card Readers and Keypads:
1.
2.
3.
4.
Install number of conductor pairs recommended by manufacturer for the functions
specified.
Unless manufacturer recommends larger conductors, install No. 22 AWG wire if
maximum distance from Controller to the reader is 250 feet (75 m), and install
No. 20 AWG wire if maximum distance is 500 feet (150m).
For greater distances, install "extender" or "repeater" modules recommended by
manufacturer of the Controller.
Install minimum No. 18 AWG shielded cable to readers and keypads that draw 50 rnA or
more.
F.
Install minimum No. 16 AWG cable from Controller to electrically powered locks. Do not
exceed [250 feet (75 m)]
G.
Install minimum No. 18 AWG ac power wire from transformer to Controller, with a maximum
distance of [25 feet (8 m)]
3.5
GROUNDING
A.
Comply with Division 26 Section "Grounding and Bonding for Electrical Systems."
B.
Comply with IEEE 1100, "Power and Grounding Sensitive Electronic Equipment."
C.
Ground cable shields, drain conductors, and equipment to eliminate shock hazard and to
minimize ground loops, common-mode returns, noise pickup, cross talk, and other impairments.
D.
Bond shields and drain conductors to ground at only one point in each circuit.
E.
Signal Ground:
ACCESS CONTROL
281300-24
1.
2.
3.
3.6
INSTALLATION
A.
Push Buttons: Where multiple push buttons are housed within a single switch enclosure, they
shall be stacked vertically with each push-button switch labeled with 1/4-inch- (6.4-mm-) high
text and symbols as required. Push-button switches shall be connected to the Controller
associated with the portal to which they are applied, and shall operate the appropriate electric
strike, electric bolt, or other facility release device.
B.
Install card, fob, and biometric readers.
3.7
IDENTIFICATION
A.
In addition to requirements in this Article, comply with applicable requirements in Division 26
Section "Identification for Electrical Systems" and with TIA/EIA-606.
B.
Using cable and asset management software specified in Part 2, develop Cable Administration
Drawings for system identification, testing, and management. Use unique, alphanumeric
designation for each cable, and label cable and jacks, connectors, and terminals to which it
connects with same designation. Use logical and systematic designations for facility's
architectural arrangement.
c.
Label each terminal strip and screw terminal in each cabinet, rack, or panel.
1.
2.
D.
3.8
All wiring conductors connected to terminal strips shall be individually numbered, and
each cable or wiring group being extended from a panel or cabinet to a building-mounted
device shall be identified with the name and number of the particular device as shown.
Each wire connected to building-mounted devices is not required to be numbered at the
device if the color of the wire is consistent with the associated wire connected and
numbered within the panel or cabinet.
At completion, cable and asset management software shall reflect as-built conditions.
SYSTEM SOFTWARE
A.
I
Terminal: Locate in each equipment room and wiring closet; isolate from power system
and equipment grounding.
Bus: Mount on wall of main equipment room with standoff insulators.
Backbone Cable: Extend from signal ground bus to signal ground terminal in each
equipment room and wiring closet.
3.9
Develop, install, and test software and databases for the complete and proper operation of
systems involved. Assign software license to Owner.
FIELD QUALITY CONTROL
A.
Manufacturer's Field Service:
Engage a factory-authorized service representative to
inspect, test, and adjust field-assembled components and equipment installation, including
connections, and to assist in field testing. Report results in writing.
ACCESS CONTROL
281300- 25
B.
Testing Agency: C&C to be the qualified testing and inspecting agency to perform field tests
and inspections and prepare test reports:
C.
Perform the following field tests and inspections and prepare test reports:
1.
2.
3.
D.
3.10
A.
Remove and replace malfunctioning devices and circuits and retest as specified above.
STARTUP SERVICE
Engage a factory-authorized service representative to supervise and assist with startup service.
Complete installation and startup checks according to approved procedures that were developed
in " Preparation" Article and with manufacturer's written instructions.
1.
3.11
A.
3.12
LAN Cable Procedures: Inspect for physical damage and test each conductor signal path
for continuity and shorts. Use Class 2, bidirectional, Category 5 tester. Test for faulty
connectors, splices, and terminations. Test according to TIA/EIA-568-1, "Commercial
Building Telecommunications Cabling Standards -Part 1 General Requirements." Link
performance for UTP cables must comply with minimum criteria in TIA/EIA-568-B.
Test each circuit and component of each system. Tests shall include, but are not limited
to, measurements of power supply output under maximum load, signal loop resistance,
and leakage to ground where applicable. System components with battery backup shall
be operated on battery power for a period of not less than 10 percent of the calculated
battery operating time. Provide special equipment and software if testing requires special
or dedicated equipment.
Operational Test: After installation of cables and connectors, demonstrate product
capability and compliance with requirements. Test each signal path for end-to-end
performance from each end of all pairs installed. Remove temporary connections when
tests have been satisfactorily completed.
Enroll and prepare badges and access cards for Owner's operators, management, and
security personnel.
PROTECTION
Maintain strict security during the installation of equipment and software. Rooms housing the
control station, and workstations that have been powered up shall be locked and secured, with
an activated burglar alarm and access-control system reporting to a Central Station complying
with UL 1610, "Central-Station Burglar-Alarm Units,!' during periods when a qualified operator
in the employ of Contractor is not present.
DEMONSTRATION
A.
Engage a factory-authorized service representative to train Owner's maintenance personnel to
adjust, operate, and maintain security access system.
Refer to Division 01 Section
"Demonstration and Training"
B.
Develop separate training modules for the following:
ACCESS CONTROL
281300-26
1.
2.
3.
4.
5.
Computer system administration personnel to manage and repair the LAN and databases
and to update and maintain software.
Operators who prepare and input credentials to man the control station and workstations
and to enroll personnel.
Security personnel.
Hardware maintenance personnel.
Corporate management.
ACCESS CONTROL
281300- 27
THIS PAGE INTENTIONALLY LEFT BLANK
SECTION 282300 -VIDEO SURVEILLANCE
PART 1 - GENERAL
1.1
RELATED DOCUMENTS
A.
1.2
Drawings and general provisions of the Contract, including General and Supplementary
Conditions and Division 01 Specification Sections, apply to this Section.
SUMMARY
A.
This Section includes video surveillance system consisting of cameras, data transmission
wiring, and a control station with its associated equipment.
B.
Video surveillance system shall be integrated with monitoring and control system specified in
Division 28 Section " Access Control and Security" that specifies systems integration.
1.3
DEFINITIONS
A.
AGC: Automatic gain control.
B.
B/W: Black and white.
c.
CCD: Charge-coupled device.
D.
MPEG: Moving picture experts group.
E.
NTSC: National Television System Committee.
F.
UPS: Uninterruptible power supply.
1.4
SUBMITTALS
A.
Product Data: For each type of product indicated, including dimensions and data on features,
performance, electrical characteristics, ratings, and finishes.
B.
Shop Drawings: Detail assemblies of standard components that are custom assembled for
specific application on this Project.
1.
2.
3.
4.
Functional Block Diagram: Show single-line interconnections between components for
signal transmission and control. Show cable types and sizes.
Dimensioned plan and elevations of equipment racks, control panels, and consoles.
Show access and workspace requirements.
UPS: Sizing calculations.
Wiring Diagrams: Power, signal, and control wiring, and grounding.
VIDEO SURVEILLANCE
282300- 1
C.
Equipment List: Include every piece of equipment by model number, manufacturer, serial
number, location, and date of original installation. Add pretesting record of each piece of
equipment, listing name of person testing, date of test, set points of adjustments, name and
description of the view of preset positions, description of alarms, and description of unit output
responses to an alarm.
D.
Manufacturer Seismic Qualification Certification: Submit certification that cameras, camerasupporting equipment, accessories, and components will withstand seismic forces defmed in
Division 26 Section "Vibration and Seismic Controls for Electrical Systems." Include the
following:
1.
Basis for Certification: Indicate whether withstand certification is based on actual test of
assembled components or on calculation.
a.
b.
2.
3.
The term "withstand" means "the unit will remain in place without separation of
any parts from the device when subjected to the seismic forces specified."
The term "withstand" means "the unit will remain in place without separation of
any parts from the device when subjected to the seismic forces specified and the
unit will be fully operational after the seismic event."
Dimensioned Outline Drawings of Equipment Unit: Identify center of gravity and locate
and describe mounting and anchorage provisions.
Detailed description of equipment anchorage devices on which the certification is based
and their installation requirements.
E.
Field quality-control test reports.
F.
Operation and Maintenance Data: For cameras, power supplies, infrared illuminators, monitors,
videotape recorders, digital video recorders, video switches, and control-station components to
include in emergency, operation, and maintenance manuals. In addition to items specified in
Division 01 Section "Operation and Maintenance Data" include the following:
1.
G.
1.5
Lists of spare parts and replacement components recommended to be stored at the site for
ready access.
Warranty: Special warranty specified in this Section.
QUALITY ASSURANCE
A.
Electrical Components, Devices, and Accessories: Listed and labeled as defined in NFPA 70,
Article 100, by a testing agency acceptable to authorities having jurisdiction, and marked for
intended use.
B.
Comply with NECA 1.
c.
Comply with NFPA 70.
D.
Electronic data exchange between video surveillance system with an access control system shall
comply with SIA TVAC.
VIDEO SURVEILLANCE
282300-2
1.6
PROJECT CONDITIONS
A.
Environmental Conditions: Capable of withstanding the following environmental conditions
without mechanical or electrical damage or degradation of operating capability:
1.
2.
3.
4.
5.
6.
7.
Control Station: Existing environment
Interior, Controlled Environment: System components, except central-station control
unit, installed in temperature-controlled interior environments shall be rated for
continuous operation in ambient temperatures of 50 to 95 deg F dry bulb and 20 to 70
percent relative humidity, noncondensing. NEMA 250, Type 1 enclosures.
Interior, Uncontrolled Environment: System components installed in non-temperaturecontrolled interior environments shall be rated for continuous operation in ambient
temperatures of [0 to 122 deg F (minus 18 to plus 50 deg C)] dry bulb and 20 to 90
percent relative humidity, noncondensing. NEMA 250, Type 4 enclosures.
Exterior Environment: System components installed in locations exposed to weather
shall be rated for continuous operation in ambient temperatures of minus 30 to plus 122
deg F (minus 34 to plus 50 deg C) dry bulb and 20 to 90 percent relative humidity,
condensing. Rate for continuous operation when exposed to rain as specified in
NEMA 250, winds up to 85 mph (137 km!h)[ and snow cover up to 24 inches (610 mm)
thick]. NEMA 250, Type [3R] enclosures.
Hazardous Environment: System components located in areas where fire or explosion
hazards may exist because of flammable gases or vapors, flammable liquids, combustible
dust, or ignitable fibers shall be rated, listed, and installed according to NFPA 70.
Corrosive Environment: System components subjected to corrosive fumes, vapors, and
wind-driven salt spray in coastal zones. NEMA 250, Type [4X] enclosures.
Security Environment: Camera housing for use in high-risk areas where surveillance
equipment may be subject to physical violence.
WARRANTY
1.7
A.
Special Warranty: Manufacturer's standard form in which manufacturer agrees to repair or
replace components of cameras, equipment related to camera operation, and control-station
equipment that fail in materials or workmanship within specified warranty period.
1.
Warranty Period: [Three] years from date of Substantial Completion.
PART 2 -PRODUCTS
2.1
MANUFACTURERS
A.
In other Part 2 articles where titles below introduce lists, the following requirements apply to
product selection:
1.
2.
Available Manufacturers: Subject to compliance with requirements, manufacturers
offering products that may be incorporated into the Work include, but are not limited to,
manufacturers specified.
Manufacturers: Subject to compliance with requirements, provide products by one of the
manufacturers specified.
VIDEO SURVEILLANCE
282300-3
2.2
SYSTEM REQUIREMENTS
A.
2.3
Video signal format shall be fully digital and IP based on cameras.
MANUFACTURERS
A.
Manufacturers:
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
American Dynamics
ADEMCO Video; Pittway Corporation.
AXIS
Crest Electronics, Inc.
GE
Hirsch
Panasonic Security Systems Group.
Pelco.
Philips Communication, Security & Imaging; Philips Electronics N.V.
Pixera Corporation.
Safety Vision.
Samsung Opto-Electronics America, Inc.
SANYO Fisher Company; SANYO North America Corporation.
Toshiba Security Products.
Tyco Security
CAMERA HOUSING (INDOOR)
2.4
A.
The camera housing must be a fully enclosed, low-profile design to allow for inconspicuous
camera placement and excellent protection.
B.
The camera housing must allow for easy access to the camera and lens installed in the housing.
The maximum camera/lens combination length must be no less than 231 mm (9.10 inches), and
the maximum width must be no less than 76.2 mm (3.38 inches) including connectors.
C.
The camera housing shall be an all metal construction, enabling the housing to be used in
plenum-rated ceilings.
D.
The back box must be constructed of 1.2 mm (18 gauge) steel, and the lower housing must be
constructed of 1.5 mm (16 gauge) steel.
E.
Four Y2 inch electrical knockouts must be provided for cable entry.
F.
The viewing window must be constructed of 6.35 mm (0.25 inch) thick Lexan.
G.
The housing will have a beige, baked-enamel texture fmish.
H.
The camera housing will feature tamper resistant locking screws to provide an additional level
of security.
I.
Optional 2 x 2 drop ceiling mounts and drop ceiling rail kits must be available for the housing if
required.
VIDEO SURVEILLANCE
282300-4
J.
2.5
The camera housing shall be an American Dynamics AD 1301 or AD 1303 or equivalent.
CAMERA HOUSING (OUTDOOR, FIXED ZOOM)
A.
The camera housing must provide a unique 180° opening cover to provide full and easy access
to the camera and lens for trouble-free installation and servicing.
B.
The maximum camera/lens combination length must be no less than 304.8 mm (12.0 in),
including connectors.
C.
The housing must have a camera platform that can be secured in any position along the full
length of the housing. This platform shall be constructed of a rigid non-conductive material to
help eliminate common grounding problems.
D.
The camera housing must be constructed of a high-impact Magnum® 941 Polymer with a 4.8
mm (.19 in) Lexan® viewing window.
E.
The camera housing will protect against water and dust intrusion and meet a minimum of IP63
and NEMA-3R ratings. An optional sunshield must be available to protect the entire top half of
the housing from solar radiation.
F.
The housing must offer an optional thermostatically controlled pad heater and automatically
regulate its output to provide heat in the housing and maintain a clear viewing window. The
heater shall operate with either 24 V AC or 24 VDC supply voltages.
G.
The housing must offer an optional thermostatically regulated 24 V AC blower.
H.
Two weatherproof glands must be provided on the bottom of the housing for cable entry.
I.
The camera housing must have a light gray epoxy finish.
J.
The housing must be secured from unauthorized entries by the use of tamper resistant screws.
K.
Optional wall or ceiling mounts must be available for the camera housing. The mounts must
have a weight load capacity of no less than 9.1 Kg (20 lbs.), and have a light gray finish to
match the camera housing. The mounts shall be suitable for indoor or outdoor applications.
L.
The camera housing shall be an American Dynamics AD 1314 Series or equivalent
2.6
OUTDOOR DOME HOUSING (PTZ)
A.
The outdoor dome housing will protect against water and dust intrusion and meet a minimum of
NEMA-4 and IP66 ratings.
B.
The housing must include an outer sunshade and an inner aluminum housing with thermostat,
to
heater, and fans to ensure protection and safe operation of the dome in temperatures of -40
50 °C (-40 °F to 122 °F) with a humidity range of 0-95% (non-condensing). The housing shall
be constructed of reinforced fiberglass high impact polycarbonate material along with a UV
stabilized sun shade trim ring and top cover.
oc
VIDEO SURVEILLANCE
282300- 5
C.
The housing must prevent the buildup of ice on the exterior bubble and be able to melt ice that
has formed on the bubble during a power outage or other event within one hour of power being
restored. The heater must be controllable via auxiliary outputs to aid in the clearing of moisture
accumulation. The heater must be of a modular design, easily removable for servicing.
D.
The housing shall operate in sustained winds of up to 240 kph (150 mph) when properly
mounted and installed (wall, pendant, comer, pole, and over-the-roof mount with guidewires).
E.
The housing and bubble shall have an Effective Projected Area (EPA) of approximately 125
square inches.
F.
The entire dome and housing will operate from a Class 2 power source requiring no more than
80 VA of power. The dome and housing shall be tolerant of 24 V AC supply voltages from 20
V AC to 36 V AC at 50/60Hz and be installed in accordance with Class 2 requirements.
G.
The housing must include an integral twist-lock I/0 board to facilitate quick connect/disconnect
of the dome from the housing. The housing shall incorporate "Euro-style" terminal screw
connectors for ease of connection, and internal LEDs to verify proper power and
communication status. The housing must provide four alarm inputs for use as alarm contacts
and a Form C output rated at 30 volts AC or DC, 1 amp. The housing must provide for lightning
and surge protection of the video, power, and communication lines.
H.
The housing must offer a choice of either a clear bubble with no light loss or a tinted bubble
with a light loss of /1.0 or less. The bubble must be sealed with a gasket and secured with
tamperproof screws. The appropriate security screwdriver bit must be provided with the
housing.
I.
The housing shall be an American Dynamics RHODUL Series Outdoor Housing or equivalent.
2.7
REINFORCED DOME CAMERAS
A.
Manufacturers:
1.
AXIS
B.
Camera: Designed for high-abuse locations, with a weathertight surface mounting, impactresistance polycarbonate dome, and heavy-gage, 6061 T6 aluminum body.
1.
2.
3.
4.
5.
6.
7.
8.
Suitable for exterior environment, rated for continuous operation in ambient temperatures
of minus 40 to plus 122 deg F (minus 40 to plus 50 deg C) dry bulb and up to 85 percent
relative humidity.
Pickup Device: CCD interline transfer, 290,000 [510(H) by 492(V)] pixels.
Horizontal Resolution: 350 lines.
Signal-to-Noise Ratio: Not less than 46 dB.
With AGC and automatic bacldight compensation.
Sensitivity: Camera shall provide usable images in low-light conditions, delivering an
image at a scene illumination of 6 lux at £'2.0.
Scanning Synchronization: Determined by external synch over the coaxial cable.
Camera shall revert to internally generated synchronization on loss of external synch
signal.
White Balance: Auto-tracing white balance.
VIDEO SURVEILLANCE
282300-6
2.8
IP SPEEDDOME CAMERA
A.
Manufacturers:
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
American Dynamics
AXIS
GE
Hirsch
Pelco.
Tyco Security
B.
The® IP SpeedDome Camera (hereafter referred to as IP Dome) operates across an IP network,
e.g. the Internet, a LAN or WAN. The video output from the camera is compressed and sent
across the network using IP transport mechanisms. PTZ camera control outputs from IPconnected controllers will be passed to the dome control electronics, allowing complete
functionality as existing domes at a remote location connected by any kind of IP network. A
built-in web server provides web pages to configure the domes and streams the video using a
customer-selected set of protocols with a standardized transport stream. This will also support
other metadata and audio as required. Emails and movie clips (avi) may be sent across the
network in response to alarms. The IP Dome can operate as a standalone camera on a network
however it is intended to be integrated into sophisticated security solutions.
C.
The IP Dome is a Network Video Transmitter compatible with the ONVIF network interface
specifications 2.0, 1.02, and 1.01 and can interface with Network Video Clients supporting one
ofthese versions ofONVIF. This ONVIF support includes:
• Networking and System
• Security
Cil
Users
• Video streaming for H.264, MJPEG, and MPEG4
• Audio streaming
• PTZ Control, presets, continuous, absolute and relative movement
• Firmware upgrade loading
• Eventing and image settings and device IO are not included
D.
The IP Dome is available in four models:
• 35XPAL
E.
•
35XNTSC
•
22XPAL
•
22XNTSC
The IP Dome can be used with proprietary Network Video Recording (NVR) devices (e.g. the
VideoEdge NVR, Intellex IP) or any ONVIF compliant NVR. The system supports ACC when
VIDEO SURVEILLANCE
282300 -7
using Intellex Direct Protocol and MJPEG, MPEG4, and H.264 when usmg Real Time
streaming Protocol (RTSP).
F.
The IP Dome fully interoperates with the American Dynamics illustra Connect tool which
provides discovery, configuration, firmware upgrade and diagnostics using ONVIF and WS
Discovery protocols.
G.
The IP Dome shall be available in outdoor pendant, indoor housing, Indoor hard Ceiling, and
with a base adaptor. Options shall include with or without a bubble, where the bubble is clear or
smoked.
H.
IP Dome camera choices shall be available with either 420x total zoom (35x optical zoom with
12x digital magnifier) or 242x total zoom (22x optical zoom with llx digital magnifier) and
PAL or NTSC format.
I.
The IP Dome shall support up to four codecs including H.264, MPEG4, MJPEG, and ACC
(Active Content Compression).
J.
The IP Dome shall support up to 32 privacy zones, 96 preset positions with user-defmed titles
and 16 preset sequences, 16 programmable patterns, and 1 scan area.
K.
Website security shall be handled via passwords and three access rights established during
enrollment. The ONVIF interface security uses WS-Security Username Token and user
management as per the ONVIF specification.
L.
The following configurations and controls shall be accessible via the web:
41
Live video and camera controls, as well as configuration of video, presets, patterns,
scans/sequences, privacy zones, audio and camera settings.
•
Configuration of the PTZ functionality overlay settings, areas within the field of view,
alarms, sequences, scheduled tasks, video settings and audio.
•
Networking configuration of camera date and time, TCP/IP, user rights, SMTP, FTP,
firewall, general maintenance and advanced settings.
M.
All connections to the IP Dome shall be via connectors outside the housings. No installer
connections shall be necessary inside the housings.
N.
Connections shall be:
41
For 12 VDC Power 2 positions 3.5mm Euro style Connectorln-line RJ45 coupler for
Ethernet and Power over Ethernet
VIDEO SURVEILLANCE
282300- 8
-e
8 POSITION ALARM CONNECTOR (4 INPUT, 1 OUTPUT)
e
8 POSITION AV CONNECTOR (VIDEO OUTPUT, MICROPHONE INPUT AND
AUDIO OUT (INTENDED FOR POWERED SPEAKER)
0.
The VideoEdge IP Dome shall support Ethernet 100/100 Base-T via a RJ45 connection with
support for HTTP, TCP/IP, RTP, RTSP and DHCP client protocols.
P.
The IP Dome shall support live video via the web pages using Internet Explorer 6 or higher or
proprietary client software. The IP Dome shall support bandwidth throttling between 30Kbps
and 4Mbps configured through the client interface.
Q.
The IP Dome shall support one channel of analog video at 30 IPS for NTSC and 25 IPS for
PAL.
R.
The IP Dome shall support event input by 4 TTL Level (3.3Vmax) active low and one relay
2FC contact arrangement with initial isolation resistance of 1,000 Mohms @ 500 VDC. The
relay contact ration is 30 VDC, 1 A, or 125 V AC, 0.3 A.
S.
The IP Dome shall operate from 12 V de or Power over Ethernet 12.95 W max. Class 0.
T.
The pan mechanism must incorporate a sealed precision slip ring to provide 360° of continuous
pan rotation. The tilt mechanism must provide for 110° of travel. Precise manual panning and
tilting must be achievable through a combination of variable-speed operator control (speed
ranges) and automatic adjustment of these speed ranges dependent upon zoom factor. Manual
pan and tilt speeds must range from 0.25° to 100° per second. Preset pan speeds must range
from 1° to 360° per second, and preset tilt operating speeds must be from 1° to 220° per second.
Pan and tilt speeds will be automatically adjusted by the zoom factor to allow the user the same
e~se of control, regardless of the field of view. High-speed, DC direct-drive motors must be
used to maintain high torque through the entire operating range. These motors must use pulsewidth modulation and encoder feedback to control the acceleration, speed, and deceleration of
the motors to ensure smooth, precise, accurate, and fluid movement. The design shall use DC
direct-drive motors and no belt to ensure long-term, reliable operation.
a.
The 35x series shall include additional camera features including Electronic Image
Stabilization, Wide, Dynamic Range (WDR) and True Day/Night.
VIDEO SURVEILLANCE
282300- 9
2.9
POWER SUPPLIES
A.
Power Supplies: Low-voltage power supplies matched for voltage and current requirements of
cameras and accessories, type as recommended by camera, infrared illuminator, and lens
manufacturer.
1.
2.10
A.
Enclosure: NEMA 250, Type [1]
CAMERA-SUPPORTING EQUIPMENT
Manufacturers:
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
18.
19.
20.
21.
22.
23.
A & S Security Products, Inc.
AXIS
Crest Electronics, Inc.
ElbexLirnited.
ELMO.
EverFocus Electronics Corp.
GENWAC, Inc.; a division ofWatec Co. Ltd.
Ikegami Electronics (USA) Inc.
Kalatel Inc.; an Interlogix company.
Merit Li-Lin Ent. Co., Ltd.
Pelco.
Sensormatic Electronics Corporation.
Telpix Inc.
Ultrak, Inc.
V eltek International, Inc.
Vicon Industries, Inc.
Video Mount Products.
Videolarm.
Visiontech.
B.
Minimum Load Rating: Rated for load in excess of the total weight supported times a minimum
safety factor of two.·
C.
Pan Units: Motorized automatic-scanning units arranged to provide remote-controlled manual
and automatic camera panning action and equipped with matching mounting brackets.
1.
2.
D.
Scanning Operation: Silent, smooth, and positive.
Stops: Adjustable without disassembly, to limit the scanning arc.
Pan-and-Tilt Units: Motorized units arranged to provide remote-controlled aiming of cameras
with smooth and silent operation and equipped with matching mounting brackets.
1.
2.
Panning Rotation: 0 to 355 degrees, with adjustable stops.
Tilt Movement: 90 degrees, plus or minus 5 degrees, with adjustable stops.
VIDEO SURVEILLANCE
282300- 10
3.
4.
5.
6.
Speed: 12 degrees per second in both horizontal and vertical planes.
Wiring: Factory prewired for camera and zoom lens functions and pan-and-tilt power
and control.
Built-in encoders or potentiometers for position feedback[, and thermostat-controlled
heater].
Pan-and-tilt unit shall be available with preset positioning capability to recall the position
of a specific scene.
E.
Mounting Brackets for Fixed Cameras: Type matched to items supported and mounting
conditions. Include manual pan-and-tilt adjustment.
F.
Protective Housings for Fixed and Movable Cameras:
Steel[ or 6061 T6 aluminum]
enclosures with internal camera mounting and connecting provisions that are matched to
camera/lens combination and mounting and installing arrangement of camera to be housed.
1.
2.
3.
4.
5.
6.
7.
8.
9.
2.11
A.
Tamper switch on access cover sounds an alarm signal when unit is opened or partially
disassembled. Central-control unit shall identify tamper alarms and indicate location in
alarm display. Tamper switches and central-control unit are specified in Division 28
Section "Intrusion Detection."
Camera Viewing Window: [Lexan] window, aligned with camera lens.
Duplex Receptacle: Internally mounted.
Alignment Provisions: Camera mounting shall provide for field aiming of camera and
permit removal and reinstallation of camera lens without disturbing camera alignment.
Built-in thermostat-activated [heater] [and] [blower] units. Units shall be automatically
controlled so the environmental limits of the camera equipment are not exceeded.
With sun shield that does not interfere with normal airflow around the housing.
Mounting bracket and hardware for wall or ceiling mounting of the housing. Bracket
shall be of same material as the housing; mounting hardware shall be stainless steel.
Finish: Housing and mounting bracket shall be factory finished using manufacturer's
standard finishing process suitable for the environment.
Enclosure Rating: NEMA 250, Type 3R
MATRIX SWITCHER I FOLLOWER I ACCESSORIES
SwitcherIF ollower
1.
The switcher/follower must be capable of simultaneously providing a relay closure
corresponding to a video switch performed by the matrix switcher/controller system. The
switcher/follower shall provide 32 addressable Form-A relays, which can be grouped in
series or in two independent groups of 16. The switcher/follower shall ensure that no two
relays within a group are closed at the same time.
2.
The switcher/follower must provide a means for setting one of up to 128 video outputs on
the system to "follow." The range of each relay group shall be selective in increments of
16 for up to 1024. Access to internal switches or jumpers shall not be required to
accomplish these.
3.
The switcher/follower shall provide a common set of input and output connections for
each relay group. The common input connections shall be used to connect a user-supplied
voltage, ground, and other unique input device, such as audio microphones or for
cascading from another group or switcher/follower. The common output connections
shall be used to cascade to an additional group or switcher/follower. Relay outputs shall
be used to connect to a signal responding device, such as a speaker for audio applications
VIDEO SURVEILLANCE
282300- 11
4.
5.
6.
or an indicator light or LED. For ease of connection, all connectors shall be removable
"euro-style" screw-terminal strips.
The input to the code distributor shall be provided by any one of a variety of matrix
switcher/controller systems and be either a 125 kbps high-speed data or an AD
Manchester control code output. For ease-of-connection, a looping pair of BNC
connectors shall be provided for the high-speed data line and a removable "euro-style"
terminal strip for the AD Manchester control code line.
The unit shall be of a universal mount design providing provisions for rack mounting in
standard 19-inch EIA racks or mounting to a wall, ceiling or other surface. For ease of
installation and troubleshooting, visual indicators are required for confmnation of power
and control code.
The switcher/follower shall be an American Dynamics AD2031 (120 VAC), ADS2031X
(230 VAC) or equivalent
B.
Code Distributor
1.
The code distributor must be capable of receiving from the matrix switcher/controller or
suitable control code source, Manchester control code with American Dynamics protocol
which provides video switching and camera site control data for a block of camera sites.
The code distributor must provide a terminal for receiving the Manchester control code.
The code distributor shall provide 64 buffered Manchester control code outputs. The
Manchester control code shall be transmitted over an 18AWG, shielded-twisted pair of
wires at an impedance of 120 ohms. Based on Belden 8760 or equivalent cable, the
maximum distance from the code output to the last receiver/dome shall be 1525 Meters
(5000 feet). The maximum amount of receivers/domes that can be "daisy-chained" within
the 1525 Meters (5000 feet) shall be three.
2.
The code distributor shall be provided with a wall transformer for converting the supply
voltage to 12 VAC.
3.
For ease of installation and troubleshooting, a visual LED indicator is required for
confirmation of Manchester control code.
4.
The code distributor shall be an American Dynamics AD1691 series or equivalent from
below.
C.
Manufacturers:
1.
AMAG I AXIS
2.
TYCO
3.
4.
Pelco.
5.
6.
7.
8.
D.
Code Distributor (for Domes)
1.
The code distributor shall provide a minimum of 16 RS-422 outputs, configured in
groups of four. Each group must be independent of one another and provide a means for
setting blocks of address ranges without accessing internal switches or jumpers. Each
group shall provide all of the camera site information, including pan, tilt, focus, iris,
zoom and auxiliary information, for up to 99 camera sites and conform to American
Dynamics RS-422 protocol.
2.
Each output must be capable of transmitting and receiving over two, 22 gauge shielded
twisted pairs (STP) of conductors up to 10 domes in a daisy-chain configuration. The
VIDEO SURVEILLANCE
282300- 12
3.
4.
5.
6.
7.
8.
E.
Pan-Tilt-Zoom Controls: Arranged for multiple-camera control, with switches to select camera
to be controlled.
1.
2.
3.
F.
total distance from the code distributor to the last dome in a daisy-chain shall be at least
1000 meters (3280 feet). In addition, each group must be capable of connection to full
·
duplex RS-422 fiber optic transceivers.
The input to the code distributor shall be provided by any one of a variety of matrix
switcher/controller systems and be either a 125 kbps high-speed data or an AD
The code distributor shall provide quick-connect screw terminals and diagnostic LEDs
facilitate efficient installation and service. The LEDs shall provide visual indicators for
confirmation of power, alarm, and control code status. The code distributor shall be
capable of mounting to the front or rear of equipment racks, or flat on a wall or horizontal
surface.
The code distributor shall be capable of receiving up to four alarms from each remote
dome. Receipt of such, shall be from the same two shielded twisted pairs that are utilized
for transmitting and receiving camera site information. No additional cabling from the
domes shall be required. The code distributor shall be capable of transmitting the dome
alarm information in simple ASCII format with a 1200, 2400, 4800, or 9600-baud
selective baud rate to a matrix switcher/controller system via an RS-232 output. The code
distributor shall provide Form C relay outputs and an Alarm LED that activate when an
alarm input is active on any dome connected via the respective code distributor.
An RS-232 input shall also be provided for cascading multiple code distributors and/or
alarm interface units. For ease-of-connection, a pair of 8-pin modular RJ-45 connectors
and associated cables shall be provided. The RS-232 output shall be compatible with
three wire, 18 AWG, shielded-wire for a distance of up to 300 meters (1000 feet).
The code distributor shall be capable of storing up to 16 presets for suitably equipped
SpeedDome Ultra or SpeedDome Optima programmable camera domes.
The code distributor shall be an American Dynamics AD2083-02B (120 V AC),
ADS2083-02B-1 (230 VAC) or equivalent
Pan-and-Tilt Control: Joystick type.
Zoom Control: Momentary-contact, "in-out" push button.
Automatic-Scan Control: A push button for each camera with pan capability places that
camera in automatic-scanning mode.
Alarm Responder
1.
The alarm responder must be capable of simultaneously providing a relay output
associated with a matrix switcher/controller system's video output that is currently
displaying an alarmed video input. The alarm responder shall provide 32 addressable
Form-A relays, which can be grouped in series or in two independent groups of 16.
The alarm responder must provide a means for setting one of up to 128 video outputs on
2.
the system to "follow" for each group. The range of each relay group shall be selective in
increments of 16 for up to 128. Access to internal switches or jumpers shall not be
required to accomplish these.
3.
The alarm responder shall provide a common set of input and output connections for each
relay group. The common input connections shall be used to connect a user-supplied
voltage, ground, and other unique input device or for cascading from another group or
alarm responder. The common output connections shall be used to cascade to an
VIDEO SURVEILLANCE
282300- 13
4.
5.
6.
2.12
additional group or alarm responder. Relay outputs shall be used to connect to a signal
responding device, such as an indicator light or LED. For ease of connection, all
connectors shall be removable "euro-style" screw-terminal strips.
The input to the alarm responder shall be provided by any one of a variety of matrix
switcher/controller systems and be either a 12.5 kbps high-speed data or an AD
The unit shall be of a universal mount design providing provisions for rack mounting in
standard 19-inch EIA racks or mounting to a wall, ceiling, or other surface. For ease of
installation and troubleshooting, visual indicators are required for confirmation of power
and control code.
The alarm responder shall be an American Dynamics AD2032 (120 VAC), ADS2032X
(230 VAC) or equivalent
SIGNAL TRANSMISSION COMPONENTS
A.
Cable: Category 6 wiring, see spec section 271500.
B.
Video Surveillance Coaxial Cable Connectors: BNC type, 75 ohms.
construction, consisting of a crimp-type center tit, sleeve, and main body.
Of three-piece
PART 3- EXECUTION
3.1
WIRING
A.
Wiring Method: Install cables in raceways except in accessible indoor ceiling spaces and as
otherwise indicated. Conceal raceways and wiring except in unfinished spaces.
B.
Wiring Method:
possible.
C.
Wiring within Enclosures: Bundle, lace, and train conductors to terminal points with no excess
and without exceeding manufacturer's limitations on bending radii. Provide and use lacing bars
and distribution spools.
D.
Splices, Taps, and Terminations: For power and control wiring, use numbered terminal strips in
junction, pull, and outlet boxes; terminal cabinets; and equipment enclosures. Tighten electrical
connectors and terminals according to manufacturer's published torque-tightening values. If
manufacturer's torque values are not indicated, use those specified in UL 486A and UL 486B.
E.
Grounding:
Provide independent-signal circuit grounding recommended in writing by
manufacturer.
3.2
Install cables concealed in accessible ceilings, walls, and floors where
VIDEO SURVEILLANCE SYSTEM INSTALLATION
A.
Install cameras and infrared illuminators level and plumb.
VIDEO SURVEILLANCE
282300- 14
B.
Install cameras with 84-inch- (2134-mm-) minimum clear space below cameras and their
mountings. Change type of mounting to achieve required clearance.
C.
Set pan unit and pan-and-tilt unit stops to suit final camera position and to obtain the field of
view required for camera. Connect all controls and alarms, and adjust.
D.
Install power supplies and other auxiliary components at control stations, unless otherwise
indicated.
E.
Install tamper switches on components indicated to receive tamper switches, arranged to detect
unauthorized entry into system component enclosures, and mounted in self-protected,
inconspicuous positions.
F.
Avoid ground loops by making ground connections at only the control station.
1.
G.
3.3
For 12- and 24-V de cameras, connect the coaxial cable shields only at the monitor end.
Identify system components, wiring, cabling, and terminals according to Division 26 Section
"Identification of Electrical Systems."
FIELD QUALITY CONTROL
A.
Manufacturer's Field Service: Engage a factory-authorized service representative to inspect
field-assembled components and equipment installation and supervise pretesting, testing, and
adjusting of video surveillance equipment.
B.
Inspection: Verify that units and controls are properly installed, connected, and labeled, and
that interconnecting wires and terminals are identified.
C.
Pretesting: Align and adjust system and pretest components, wiring, and functions to verify that
they comply with specified requirements. Conduct tests at varying lighting levels, including
day and night scenes as applicable. Prepare video surveillance equipment for acceptance and
operational testing as follows:
1.
2.
3.
4.
5.
6.
7.
8.
Prepare equipment list described in Part 1 "Submittals" Article.
Verify operation of auto-iris lenses.
Set back-focus of fixed focal length lenses. At focus set to infinity, simulate nighttime
lighting conditions by using a dark glass filter of a density that produces a clear image.
Adjust until image is in focus with and without the filter.
Set back-focus of zoom lenses. At focus set to infinity, simulate nighttime lighting
conditions by using a dark glass filter of a density that produces a clear image.
Additionally, set zoom to full wide angle and aim camera at an object 50 to 75 feet (17 to
23 m) away. Adjust until image is in focus from full wide angle to full telephoto, with
the filter in place.
Set and name all preset positions; consult Owner's personnel.
Set sensitivity of motion detection.
Connect and verify responses to alarms.
Verify operation of control-station equipment.
VIDEO SURVEILLANCE
282300- 15
D.
Test Schedule: Schedule tests after pretesting has been successfully completed and system has
been in normal functional operation for at least 14 days. Provide a minimum of 10 days' notice
of test schedule.
E.
Operational Tests: Perform operational system tests to verify that system complies with
Specifications. Include all modes of system operation. Test equipment for proper operation in
all functional modes.
F.
Remove and replace malfunctioning items and retest as specified above.
G.
Record test results for each piece of equipment.
H.
Retest: Correct deficiencies identified by tests and observations and retest until specified
requirements are met.
3.4
ADJUSTING
A.
Occupancy Adjustments: When requested within 12 months of date of Substantial Completion,
provide on-site assistance in adjusting system to suit actual occupied conditions and to optimize
performance of the installed equipment. Tasks shall include, but are not limited to, the
following:
1.
2.
3.
4.
5.
3.5
Check cable connections.
Check proper operation of cameras and lenses. Verify operation of auto-iris lenses and
adjust back-focus as needed.
Adjust all preset positions; consult Owner's personnel.
Recommend changes to cameras, lenses, and associated equipment to improve Owner'
·
utilization of video surveillance system.
Provide a written report of adjustments and recommendations.
CLEANING
A.
Clean installed items using methods and materials recommended in writing by manufacturer.
B.
Clean video surveillance system components, including camera-housing windows, lenses, and
monitor screens.
3.6
DEMONSTRATION
A.
Engage a factory-authorized service representative to train Owner's maintenance personnel to
adjust, operate, and maintain video surveillance equipment.
1.
2.
3.
Train Owner's maintenance personnel on procedures and schedules for troubleshooting,
servicing, and maintaining equipment.
Demonstrate methods of determining optimum alignment and adjustment of components
and settings for system controls.
Review equipment list and data in maintenance manuals. Refer to Division 01 Section
"Operation and Maintenance Data"
VIDEO SURVEILLANCE
282300 -16
4.
Conduct a minimum of [3] hours' training as specified in instructions to Owner's
employees in Division 01 Section "Demonstration and Training"
VIDEO SURVEILLANCE
282300- 17
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division 28 - American Document Solutions Planroom

Transcription

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