DIVISION 28
DIVISION 28 – ELECTRONIC SAFETY AND SECURITY
General: Designer shall review General Design Requirements section and apply these to each project.
SECTION 281300 – ACCESS CONTROL SYSTEM
1. SCOPE Of WORK
A. Furnish all labor, materials, equipment, and service necessary to provide a complete expansion of the existing Access Control System (ACS) as shown on the drawings and as specified herein. The Contractor shall supply and install items that meet the specified requirements of the system. The existing SMS Workstation shall utilize the owner’s existing Andover Controls Facilities Management Workstation and network communications. The ACS shall be designed to secure and monitor the designated facilities. The work to be provided, in addition to designing, furnishing and installing the work required to expand the existing ACS, shall include the following:
1. Provide software that meets specified contract requirements.
2. Verification that proposed equipment and devices furnished is adequate for the intended purpose.
3. Perform a layout check to ensure that adequate access is available for construction, installation and maintenance of equipment and devices furnished, however, the Contractor is not responsible for furniture.
4. Perform acceptance tests to show system is properly installed and that it meets the specifications and applicable codes.
5. Integration with the Owner’s existing Andover Controls Facility Management System (FMS)
6. Integration with the Owner's existing Andover Controls Security Management System (SMS).
2. SCOPE OF SYSTEM
A. Basic System Characteristics
1. The SMS shall communicate with the existing native TCP/IP Primary Network Controllers over the Owner’s existing Ethernet TCP/IP enterprise network.
2. The SMS shall be capable of controlling a minimum of 12,000 doors, 57,000 cardholders; monitoring up to 100,000 supervised input points, and activating up to 100,000 output control points.
3. Contractor shall provide the ACS as shown on the drawing and specified herein including but not limited to the following:
1) Integrate ACS to the Owner’s Existing Operators Workstation.
2) Workstation Peripherals.
3) Access Control and Alarm Monitoring Controllers.
4) Utilize the existing Primary Network Controllers.
5) Local Field Controllers.
6) Field Hardware Devices.
7) Software Modules Required for Specification Operation.
2. REFERENCED AND SYSTEM CERTIFICATIONS
A. Design and operation of the ACS shall conform to the following referenced codes, regulations, and standards as applicable:
1. National Electrical Code (NEC)
2. UL 294 Access Control Systems
3. UL 1076 Line Supervision
4. FCC Rules and Regulations
5. Part 15, Radio Frequency Devices
6. National Electrical Manufacturers Association (NEMA)
7. Applicable Federal, State and Local laws, regulations, codes
8. Americans with Disabilities Act (ADA)
3. QUALITY ASSURANCE
A. Manufacturer: Compatible with the existing Andover Controls Facility Management System.
B. Installer: Company specializing in Security/Access Control Systems with a minimum of five years experience.
4. GUARANTEE
A. Period: The Contractor shall warrant all labor, workmanship and materials for a period of one (1) year from the date of final acceptance. Should a failure occur within the first year to the access control system, the Contractor shall provide all labor and materials necessary to restore the system to a complete operating condition, at no cost to the Owner.
5. SYSTEM DESCRIPTION & CAPABILITIES
A. Primary Function: The SMS’s primary function shall be to regulate access through specific doors and gates to secured areas of the Owner’s.
1. The SMS shall allow the configuration of an alarm and display workstation. The workstation and Primary Network Controllers shall be connected via the Owners high-speed IEEE 802.3 Ethernet backbone running TCP/IP protocol. This backbone shall be capable of having up to 256 nodes, i.e. workstations, servers, and Primary Network Controllers connected to it.
2. The Primary Network Controllers shall support multiple communication ports including an RS-485 network from which up to 254 standalone field controllers such as an access controller and alarm monitoring controllers connect.
3. The Alarm Monitoring and Display Workstation shall be able to monitor field hardware devices, such as card readers and field controllers. Administrative tasks such as assigning areas, schedules, report generation, displaying color graphic maps, etc. shall be provided from any Workstation on the network.
B. System Design: The SMS shall be designed to perform a wide variety of features and functions. These system functions should be categorized into three (3) primary "system departments" which shall include:
1. Access Control: The SMS's primary purpose shall be to provide access control. The system shall be able to make access granted or denied decisions, define access privileges, and to set schedules and holiday groups. All inputs and outputs shall be capable of being transmitted globally across all system networks. And through the use of application programming these inputs and outputs shall be capable of being linked at all field panels for purposes of implementing system-wide control strategies. The system shall support features such as area control, anti-passback, dial-up field hardware communications, extended shunt time, and multiple-man rule.
2. Alarm Management: The SMS shall be used for alarm monitoring. A color graphic application shall allow a user to create or import customized color graphic maps of their facility and to attach alarm icons to those maps. Alarms are to be prioritized. A status window shall provide information about the specific alarm including date and time and location of the alarm. The SMS shall allow unique emergency instructions to be specified for each type of alarm. Output control operations shall be available to lock, unlock or pulse control points, or groups of points as a standard feature. A cardholder call-up feature allows the quick search and display of images in the database. A user journal shall be available to log important daily events. A trace function shall be available for users to locate and track activity on specific cardholders or card readers.
3. Cardholder Management and Enrollment: The SMS shall include an employee management system integrated with the access control system. This employee management functionality shall allow the enrollment of cardholders into the database, and import/export of employee data. This functionality shall also allow the user to assign or modify access privileges of a cardholder.
PART 2 - PRODUCTS
1. OPERATIONAL REQUIREMENTS
A. General: The design of the SMS shall include devices and equipment used to monitor and control access to restricted areas, detect and deny unauthorized entries within specific buildings or areas, annunciate alarms and generate reports. Once incorporated with the day-to-day operations of the designated facility, this system shall detect and deter unauthorized entry into restricted areas.
B. Functional Responsibilities: The Owner shall have the responsibility for managing and operating the system, as well as maintaining the graphical representations of the designated facility input into the system's color graphics application. It shall be the responsibility of the Owner to enroll all personnel.
C. Operational Concept: The SMS shall consist of equipment and devices placed at predetermined locations to ensure that only cardholders that are authorized to enter secured areas through certain doors can do so. This shall be accomplished by means of a computer and electronic devices used in conjunction with door locks, card readers, and/or closed circuit television.
1. When an employee is newly hired or is changing job responsibilities, a personnel form shall be available within the SMS application. This employee data screen shall contain at a minimum 114 data entry fields of information. The employee data screen shall allow for multiple pages of user information that can be input upon enrollment. Beyond the 50 fixed fields there shall also be 64 user-definable fields. These fields shall vary in character length as dictated by the system. Data fields shall be assigned as alphanumeric or numeric.
D. System Expansion
1. System shall expand the existing Andover OWS, Primary Network Controllers, Ethernet Connections, and field wiring bus to add Access Control at the designated locations. Systems requiring Gateways or separate programming languages will not be acceptable.
2. FEATURES
A. The SMS system shall combine keyboard and mouse operations with graphical presentations of screen information. Each application shall provide consistent user interfaces across all operations of the system. Practical methods of generating help options, standard terminology, and menus shall be required. All routine information displayed and requiring input shall be in English language prose. No operation shall require the interpretation of machine code or the use of mnemonics.
B. Access Control
1. Access Privileges - All cardholders shall have facility access based on privileges assigned by controlled area, time and date. For example, some badges shall only allow access to the facility on weekdays between 8:00 a.m. and 5:00 p.m., while others allow access on weekends between 1 p.m. to 5 p.m. and so on. These time zones for each day are to be pre-defined by the Owner and shall be able to be modified quickly by authorized employees without vendor intervention. There shall be an unlimited number of user-definable access privileges.
2. Holidays - The Holidays application shall allow the Owner’s System Administrator to create holiday schedules that designate individual days as holidays, or special days to cover vacations, maintenance shutdowns, or other events, indefinitely into the future. Holidays or special days can signal that the system shall operate on a schedule different from the normal schedule. The system shall not limit the number of holiday or special schedules that can be created.
3. Time / Date - The time and date of the system shall be set by the operating system of the client workstation. Dates for Daylight Savings Time shall automatically take effect.
4. Global Data Exchange and Operating Strategies - The SMS shall provide global data exchange and operating strategies. The system shall allow any input point configured in the system (i.e., door tamper, duress, etc.) to permit activation of any control output point such as a relay(s) that opens a door and/or sounds an alarm. The logic shall be developed using an application programming language that shall be capable of incorporating other parameters such as date and time; it shall not be limited by a fixed number of rules, or the simple linking of inputs to outputs. The global operating strategies feature shall provide the ability to drive any system output or outputs from single or multiple inputs, access events, alarms, etc. Each output point shall be controllable by the system and be configurable individually for the following responses:
5. Output relays (and groups) shall be capable of responding to:
a. Input alarms from any field panel or card reader point in the system, or any combination thereof.
b. Access events.
c. Date and time parameters.
d. Commands from a user.
6. Output relays (and groups) shall be capable of:
a. Pulsing for a predetermined duration; duration shall be programmable for each relay individually.
b. "Following" any input point from any field controller, I/O module, or card reader input in the system (on with alarm, off when clear, or as required).
c. Locking On with alarm, requiring user intervention to reset the output relay.
d. The system shall permit output relays to be ordered on, off, pulsed or reset back to a default setting.
7. Shunt Time: A Shunt Time feature shall be provided to allow users to program, at the door level, a length of time to hold a door open without creating an alarm condition at the monitoring workstation. The shunt time feature shall be usable by any cardholder with an active badge and appropriate access rights. Valid open times shall range from 0-9999 seconds. If the door fails to close prior to the expiration of the shunt period, a "door held open" alarm shall occur at the system's monitoring workstation. If the door is closed prior to the expiration of the shunt period, the door position switch shall become active immediately, allowing a “door forced open” alarm to be annunciated in the event of an intrusion.
8. Manual Control: A user shall have the ability to easily dictate manual control of all output points connected to the system via color graphic maps. Control points are defined as any door strike or any other relay output point of a Local Field Controller and I/O module. The System Administrator shall have the option to group these outputs to simplify common output command procedures.
9. All system outputs shall display upon command from the user in a list window or graphic map. The list and commands shall be operational without interfering with alarm monitoring operations. If an output is ordered to a setting, and is also on time zone control, the last command shall always override.
10. All manual control commands shall record into the activity log for viewing by any user given proper privileges to do so.
11. Manual control for doors, or any relay output, shall allow the user to disable the door/output (to not accept any cards), unlock the door/output (leaving the door strike unlocked), pulse the door/output open or reset the door/output to a pre-defined default setting.
12. Arm-Disarm: The user shall have the ability to determine the current status (armed or disarmed) as well as the current state (alarm/normal/fault) of an input point from an input list view at any time.
13. The user shall have a “Status” item in the list view. Both the current status and state shall be reflected by the color of the respective columns in the list view.
3. FIELD HARDWARE DEVICES
A. Overview: The SMS shall be equipped with the field hardware required to receive alarms, administer all access granted/denied decisions, provide interface capability to third-party systems, and implement global operation strategies. Depending upon the configuration, the SMS field hardware shall be able to include any or all of the following features:
1. Real Time Clock (RTC): A battery backed RTC shall provide the following information: time-of-day, day, month, year, and day-of-week. In normal operation, the system clock will be based on the frequency of the AC power. The system shall automatically correct for daylight savings time and leap years. The system shall provide means to synchronize the time between all controllers and workstations on the network.
2. Automatic Restart After Power Failure: Upon restoration of power, all controllers shall automatically and without human intervention: update all monitored functions; resume operation based on current, synchronized time and status, and implement special start-up strategies as required.
3. Approval Listings: As a minimum, all controllers shall be listed to comply with UL Standards 294 and 1076, FCC, and CE.
4. Indicator Lamps: As a minimum, all controllers shall have LED indication of Power Status, CPU/Activity status, Comm status and Error status.
B. Primary Network Controllers: Extend the existing Primary Network Controllers (PNC) to provide overall system coordination, accept control programs, perform automated control functions and security management and perform all necessary mathematical functions. It shall also be possible to permit multi-user operation from workstations and laptop service tools connected either locally or globally.
1. The PNC communication will be based around the Owner's existing Ethernet network at 10/100 MBPS. A separate, dedicated, security network is not needed and thus not acceptable. The PNC shall be a native TCP/IP device and shall not require use of terminal servers or other devices to allow direct Ethernet connectivity. Use of PC’s that serve as Ethernet gateways to the field controllers shall also not be acceptable.
2. PNC's shall be microprocessor-based, multi-tasking, multi-user, and use real-time, digital control processors. Each control panel shall consist of modular hardware including power supply, CPU board, and input/output modules. A sufficient number of PNC's shall be supplied to fully meet the requirements of this specification and the drawings and riser diagram.
3. All PNC's on the Ethernet TCP/IP LAN/WAN shall be capable, out-of-the box, to be set up as a Web Server. The PNC shall have the ability to store HTML code and “serve” pages to a browser. Any computer on the network running any operating system capable of running a standard Internet browser shall allow the user to access real-time data from the PNC's via a standard Internet browser (Netscape / MS-IE) utilizing a TCP/IP Ethernet connection. Graphics and text-based pages shall be constructed using standard HTML code. The interface shall allow the user to choose any of the standard text or graphics-based HTML editors for page creation. It shall also allow the user to generate custom graphical pages and forms. The WEB interface shall be capable of password security, including validation of the requesting PC’s IP address. The WEB interface shall allow the sharing of data or information between any controller, or process or network interface (BACnet, LON and TCP/IP) that the SMS has knowledge of, regardless of where the point is connected on the SMS network or where it is acquired from. The SMS WEB server shall have the ability to acquire any necessary graphics using standard pathing syntax within the HTML code mounted within the SMS WEB server. External WEB server hardware and software are not acceptable.
4. The PNC shall be equipped with an application-programming environment to allow users to create custom applications. All application programs are to be developed using an easy-to-use plain English oriented programming language inclusive of a complete set of Boolean logical expressions. Use of high level programming languages such as C or C++, or system manufacturer defined “canned” application programs will not be permitted. Application programs shall be used to enhance the functionality of the SMS by permitting custom control strategies and third-party user interfaces to be implemented. All programs shall be self-documenting by allowing the users to place comments anywhere within the body of the program. All global data shall be capable of being referenced at any PNC or Local Field Controller and used in application specific programs to control an output, or multiple outputs at that controller. Use of simple matrices to allow linking of inputs to outputs to meet this intent is not acceptable.
5. Memory: A minimum of 4MB of RAM shall be provided for Ethernet-based PNC's.
6. Communication Ports: Each Ethernet based PNC shall provide a powerful multi-user solution for network communications and information management across a high speed Ethernet based network at 10/100/1000 MBPS. The PNC may be supplied to operate on Ethernet using the TCP/IP protocol or over standard dial-up modem.
a. Backbone based controllers shall provide communication to both the high speed Ethernet LAN and the Secondary Level Field bus. For Ethernet based Controllers, connections shall be available for 10Base-T, 10Base-2 and 10Base-FL media.
b. As a minimum, the PNC shall have built-in network communication error checking to the International Standard CRC16. Typical communication media shall be 10Base-T (unshielded twisted pair) cable; the SMS vendor shall provide converters for duplex fiber optic transmission, particularly for external cable runs.
c. This PNC shall provide four programmable RS-232/RS-485 ports for the Secondary Field Bus or printers, modems, terminals, and third-party software interfaces. A LON communications bus shall also exist for a family of application oriented I/O modules. The I/O bus shall permit LON communications using RS-485 or FTT-10.
7. Networking: Each PNC shall be able to exchange information with other PNC’s over the high speed LAN. The network structure shall be transparent such that each controller may store and reference all global variables available in the network for use in the PNC’s calculations or programs. Each PNC shall also have access to any of the readers, card records, inputs, outputs, and calculated variables contained in Field controllers that are connected to it through its local field bus.
8. Power Supply: PNC's shall operate from 100 to 240 VAC 50/60 Hz power. Line voltage below the operating range of the system shall be considered outages. The controller shall contain over voltage surge protection, and require no additional AC power signal conditioning.
9. Battery Back-up: The PNC battery backup UPS circuit with built-in battery charger shall provide automatic battery backup UPS power in event of AC line failure. Each PNC shall have a programmable battery back-up providing a choice of shutdown options, at least 72 hours of battery backup to maintain all volatile memory and real-time clock. Alternatively, this battery shall provide for full UPS operation for a minimum of 60 minutes.
C. Secondary Network Controllers
1. Local Field Controllers: Local Field Controllers (LFC) shall provide intelligent, stand-alone control of the facility. They shall contain their own internal RAM memory and continue to operate all local control functions even in the event of a Primary Network Controller processor failure. In addition, the LFC's shall be able to communicate to other controllers on its Field Bus even in the event of PNC failure. The LFC's shall maintain data integrity during a power failure through UPS or battery backed RAM.
2. LFC shall have the following:
a. Integrated testing and diagnostics for self-testing.
b. Suitable interfaces and appropriate universal inputs and outputs for the connection of mechanical or electrical plant equipment.
c. Manual override facilities on all universal outputs for testing and commissioning purposes.
d. Unique software address point on the network that does not require the manual setting of DIP or DIL switches.
e. The provision of a service port facility to permit local access to be established as well as global networking data interrogation facilities.
3. These LFC's shall have facilities for local override, control and monitoring via either a built-in LCD keypad and display, or a remote wall/room mounted LCD keypad and display. The override displays shall be freely programmable, to display or allow adjustment of any parameter within the total system, and not just the associated field processor points.
4. The LFC's shall cover the following range of types:
a. Access Control
b. Intrusion Detection
5. The LFC shall be equipped with an application-programming environment to permit users to create custom applications. All application programs developed utilize an easy-to-use plain English oriented language. Use of high-level programming languages such as C or C++, or system manufacturer-defined “canned” application programs shall not be permitted. Application programs shall be used to enhance the functionality of the SMS by permitting custom control strategies and third-party user interfaces to be implemented. All programs shall be self-documenting by allowing the users to place comments anywhere within the body of the program. All global data shall be capable of being referenced at any Local Field or PNC and used in application specific programs to control an output, or multiple outputs at that controller. Use of simple matrices to allow linking of inputs to outputs to meet this intent is not acceptable.
D. Access Controllers
1. Description: Access controllers shall provide standalone operation of up to eight doors on a standard controller. Each controller shall store the personnel records for up to 78,000 card (or PIN) holders. In addition, each access controller contains inputs for monitoring door contacts, motion detectors and other supervised security input devices. Control programs shall be stored in battery-backed RAM. Each controller shall have the intelligence to perform all access control strategies, without communication to other controllers, for control functions not requiring data from other controllers.
a. Each controller shall be able to have its program edited and/or modified either locally through a laptop service tool or through a Workstation connected to a Primary Network Controller. Each access controller shall complete its internal scan in less than one second. Each scan shall consist of updating of readers and keypads, supervised inputs, importing of data from other controllers, performing mathematical calculations and sequencing appropriate outputs for local control of doors, elevators, and other related devices. The maximum time for door opening from the proper presentation of a card shall be less than 1 second.
2. Memory: Local Access Controllers shall have a minimum of 256 Kb RAM, 512 Kb ROM, and 1 Mb EEPROM.
3. Communication Ports: Access Controllers shall provide communication to the field bus. In addition, a port shall be provided for connection to a laptop service tool to support local programming and parameter changes. It shall be possible from this port to access and program any controller on the field bus, any Primary Network Controller on the high speed LAN, or any Field Controller on a different field bus.
4. Input/Output:
a. Inputs
1) The input section of the access controllers shall provide up to eight card reader channels and eight keypad channels. In addition, up to 32 supervised inputs on the controller shall be used for request-to-exit devices, door status devices, and general digital monitoring.
2) The card reader inputs shall accept Wiegand or ABA style readers including swipe, proximity, magnetic stripe (Track 2), and biometrics. Swipe readers shall be powered directly from the controller. Proximity readers shall have an external 12 VDC source.
3) Each supervised input circuit shall be able to distinguish among normal operation, a short, open circuit, or a fault. Inputs shall be able to utilize double resistor-based supervised circuits.
4) A normally open momentary switch shall be used for external tamper detection. The on-board switch shall detect whenever the cabinet of the access controller has been opened. A rear tamper switch shall also be provided to detect removal of the cabinet from the wall.
b. Outputs
1) Output types shall be digital for control of doors. Each Controller shall provide up to eight door outputs and one auxiliary output for ON/OFF control of annunciators, lights, etc. Outputs shall be available with built-in override switches.
2) The digital outputs shall be rated for 24 VAC/DC operation at 5 amps minimum. Each output shall have a corresponding LED for visual indication of its state.
3) A board-mounted switch shall be provided for each output allowing local overrides. The position of the switch shall be detectable in software and available for alarm annunciation. If override switches are not provided on board, external switches shall be provided and wired to include feedback and alarming of the switch position, and shall be mounted in a locked enclosure.
5. Networking: Each Local Field Controller shall be able to exchange information between other Field Controllers and Primary Network Controllers during each field bus scan. The network structure shall be transparent such that each Field Controller may store and reference any global variables available in the network for use in the local controller’s calculations or programs. Each Field Controller shall be capable of storing and referencing global variables. This peer-to-peer capability shall permit full entry/egress operation across any controllers on the network.
6. Power Supply: The LFC shall have a built-in, selectable power supply of 120/240 VAC 60/50 Hz, with a tolerance of +/- 20%.
7. Battery Backup: Each access controller shall have at least 72 hours of battery backup to maintain all volatile memory. Provide UPS for full operation for a minimum of 2.5 hours, expandable by use of additional batteries.
8. Packaging: The standard housing for the access controllers shall be a minimum of NEMA 1 rated enclosure. The enclosure shall include a ruggedized key lock to prevent unauthorized access, external power indication, and rear tamper switch.
E. Field Hardware Power Supplies: Power Supplies for field hardware shall be compatible with the SMS equipment installed. Power supplies shall be regulated, linear and isolated versions for the field panels and other equipment. Each version shall be available in UPS with battery back-up and non-UPS models. All power supplies shall be housed in tampered, locked enclosures.
4. CREDENTIALS
A. General: The SMS shall utilize card products designed specifically for security applications.
B. SMS Proximity Cards: Proximity shall be an access control/identification technology that utilizes radio frequency (RF) circuits in microchip form. The microchips are encoded and transmit the encoded information when activated.
C. The SMS shall be provided with the following proximity card design:
1. The Proximity Card shall be used with any of the listed proximity card readers. It shall be a polycarbonate-based card.
2. The Proximity Card shall be capable of allowing for direct printing of one surface using a dye-sublimation/resin thermal transfer printing process.
3. SMS PVC Card: The SMS Contractor shall provide a credit card size (3.370” x 2.125” OD), or approved equal PVC (PVH or PVCH) card. The PVC cards shall be printed by placing them in the dye-sublimation/resin thermal transfer printer. Traditional paper media inserts shall not be acceptable. PVC shall allow a full-frontal print surface without edges and bar code printable. It shall be difficult to alter, durable, consistent in shape and size, and flexible in design.
D. Specific Card Features: The identification card shall meet Owner’s requirements to incorporate multiple use and/or security features into one common credential. The following custom features shall be included:
1. Card shall be credit card size, 3.370” x 2.125” OD in a Portrait/Landscape format.
2. Integral photo identification and logo.
3. Compatible with Owner’s existing printing system.
E. Design Make: HID IsoProx II.
5. PROXIMITY READERS
A. Standard proximity readers: Provide readers as specified below:
1. Reader shall be equipped with a choice of mounting accessory kits for either glass and mullion mounting or surface mounting.
2. The reader shall contain an LED and a beeper that can be controlled individually by the host system.
3. On reader power-up, an internal self-test routine shall check and verify the setup configuration, determine the internal or external control of the LED and beeper, and initialize the reader operation.
4. The reader shall be sealed in a weatherized polycarbonate enclosure designed to withstand harsh environments and provide a degree of vandal resistance for reliable performance anywhere.
5. The reader shall interface with all existing Wiegand protocol access control systems. Reader output shall be in Wiegand format.
6. The reader shall include a tamper switch to provide electronic notification of reader tampering.
7. The reader shall recognize over 137 billion unique codes.
B. Design Makes:
1. “Point”: HID ProxPoint Plus
2. “Mini”: HID MiniProx
3. “Square”: HID ProxPro
4. “Vandal”: Similar to Radionics K2002 (Semi-Flush Stainless Steel)
5. “Mini-Vandal”: Farpointe Data, Inc. – Pyramid Series P-400 Gibraltar (HID compatible).
6. ELECTRIC DOOR STRIKE
A. Fail Secure Operation: Electrical activation shall react strike jaw, releasing latch-bolt so door can be opened without operating the latch itself.
B. When the door strike is in the located position, it shall be possible to gain access to the building through use of mechanical key lock, and exit the building by operating the interior side door hardware.
C. Rated for use with conventional mortise latch locks, cylindrical locks, unit locks and mortise panic exit devices.
D. Heavy-Duty stainless steel construction; durable 2,000,000 cycles; 1500 lbs. Holding strength; 70 lbs. Impact strength.
E. Exterior locations shall be UL listed burglary resistant.
F. UL listed for fire doors and frames: A label for single doors; B label for double doors.
G. Strikes shall meet or exceed the requirements of ANSI 156.5, Grade 1, 1992.
H. Custom color and finish as selected by Architect.
I. Capable of being continuously energized with silent operation.
J. 24 volt DC with remote mounted individually enclosed step-down transformer with in-line fusing.
K. Verify electric strike is compatible with existing door frame and hardware prior to pricing.
L. Acceptable Manufacturers:
1. Von Duprin
2. Adams Rite
3. Folger Adams
4. HES
PART 3 - EXECUTION
1. Contractor Responsibilities
a. Installation of the security management system shall be performed by the Electrical Contractor. However, all installation shall be under the personal supervision of the SMS Contractor. The SMS Contractor shall certify all work is proper and complete. The design, scheduling, coordination, programming, training, and warranty requirements for the project shall be performed by the SMS Contractor.
1. Cleanup
a. At the completion of the work, all equipment pertinent to this section shall be checked and thoroughly cleaned, and all other areas shall be cleaned around equipment provided under this section. Clean the exposed surfaces of hangers and other exposed metal of grease, plaster, or other foreign materials.
2. Wiring, Conduit And Cable
a. ALL wiring (high voltage, 50 volts and greater) and conduit is to be installed in accordance with local and national electrical codes and Division 16 (Electrical division) specification.
b. All security control cable less than 50 volts shall to be considered low voltage.
c. All low voltage cable is to be run in conduit in any non-accessible concealed space and up to 10 ft. above floor level within mechanical rooms. Wiring above 10 ft or within accessible areas (ceilings, crawl spaces) may be run exposed with proper support with bridle rings. Wiring shall be run parallel and perpendicular to building lines in a neat and workmanlike manner and bundled with nylon tie wraps.
d. Conduit sleeves shall be run through any concrete or block walls for low voltage cable to be run through such walls.
e. All low voltage cable shall be run separate from high voltage cable. All microprocessor communications cable shall be run separate from any low or high voltage cable.
f. Any cable running in plenum rated areas shall be plenum rated cable.
g. Coaxial cable shall conform to RG62 or RG59 rating. Provide plenum rated coaxial cable when running in return air plenums.
h. Fiber optic cable shall include the following sizes; 50/125, 62.5/125 or 100/140.
i. Only glass fiber is acceptable, no plastic will be allowed.
j. Fiber optic cable shall only be installed and terminated by an experienced contractor.
k. Wires shall be installed a minimum of three (3) inches from hot water, steam, or condensate piping.
l. A true earth ground shall be available in the building. Ground shall be run from the source electrical panel ground to each controller.
m. Metallic surface raceway may be used in finished areas on non-accessible masonry walls AS APPROVED BY OWNER AND/OR ARCHITECT/ENGINEER. All surface raceway in finished areas shall be color matched to the existing finish within the limitations of standard manufacturers colors.
3. Installation
a. Installation of the SMS shall include the appropriate equipment and shall be performed by a factory-trained Contractor Installer. The installation shall be completed to meet the requirements of this specification and the project drawings. The installation shall include the following:
1) Site planning and system configuration of field hardware and SMS.
2) Complete hardware setup of all system Workstations and peripherals.
3) Complete configuration of all system Workstations, peripherals and installation of field hardware.
4) Setup of specific network software configuration requirements.
5) Complete system diagnostics verification.
6) Complete system operation verification.
7) Problem reporting and tracking.
8) Project specific installation log.
9) Completion of specific customer acceptance test plans.
10) Formal turnover of the specific project installation documentation to Maintenance Service Organization.
4. Electric Door Strike
a. Remove existing latch hardware. Modify existing door frame.
b. Provide electric door strike.
c. Provide branch circuiting inside door frame.
d. Coordinate with other trades.
e. Verify compatibility with existing door frame and hardware prior to pricing.
5. Field Quality Control
a. General: Quality control services include inspections, tests, and related actions. Inspection and testing services are required to verify compliance with the requirements specified or indicated.
b. Quality Assurance
1) Source Limitations: To the fullest extent possible, provide products of the same kind, from a single source, and from the same manufacturer.
2) Descriptive Specification Requirements: Where specifications describe a product of assembly, listing exact characteristics required, with or without use of a brand or trade name, provide a product or assembly that provides the characteristics or otherwise complies with contract requirements.
3) Performance Specification Requirements: Where specifications require compliance with performance requirements, provide products that comply with these requirements, and are recommended by the manufacturer for the application indicated. General overall performance of a product is implied where the product is specified for a specific application.
c. Installation of Products
1) Comply with manufacturer’s instructions and recommendations for installation of product in the applications indicated. Anchor products securely in place, accurately located and aligned with other work.
2) The Contractor is responsible to remedy defects due to faulty workmanship and materials that appear within one year from the date of acceptance in accordance with the General Conditions, unless Specifications specify a different duration.
3) All system access controllers’ locations shall be approved by the engineer and RCSD security group representative. In general all controllers shall be located with the associated net controller which in turn shall be located in the nearest electrical or communications room. No controllers shall be located above ceilings or in inaccessible areas.
6. System Acceptance Test
a. Phased Testing: A phased acceptance test and performance demonstration program shall be developed and documented by the SMS Contractor. These requirements shall apply to all system components and software, including, but not limited to all system computers, field panels, card reader devices, CCTV cameras and equipment and interface capability. The SMS Contractor shall perform the tests and document the results under the supervision and witnessing of the SMS Systems Engineer. Operational scenarios shall be developed and used by the Contractor to simulate the actual use of the system in the normal environment of the Owner’s facility. The SMS Systems Engineer reserves the right to modify the Contractor’s plan or develop new operational test and evaluation procedures to effectively document system operations.
7. System Documentation
a. Complete documentation shall be provided with the system. The documentation shall completely describe all operations, each program, data sets and the hardware and peripherals. All updates, addendum and adjustments to the documentation shall be provided at no additional charge, in the same quantities as originally required. Each Division shall define the initial quantities.
1) System Administrator Manual - Overview and step by step guide and instructions detailing all System Administrator responsibility and authority.
2) User Manual - Step by step guide and instructions detailing all system user functions and responsibilities.
3) Alarm Monitoring Manual - Step by step guide and instructions detailing all alarm monitoring system user functions and responsibilities.
4) Technical Maintenance Manual - Shall be a comprehensive and detailed document providing all maintenance action, system testing schedules, troubleshooting flowcharts, functional system layout and block diagrams and schematic diagrams of all system wiring.
8. System Training
a. Proposal shall include pricing to receive system training on-site by a representative of the SMS manufacturer. Training shall take place before the system is operational. A detailed description of the training material shall be included in the submittal package. All training courses shall enable the attendees to be capable of all normal system operations within their respective positions.
b. System Administrators shall receive a course detailing the system functions and operations. Course shall offer configuration training on all aspects of the system including data import-export, reports, cardholder management, system workstations, peripherals and field hardware.
c. Alarm Monitoring Users shall receive a course detailing the operation of all aspects of alarm monitoring functions, reports, error messages, alarm handling, output relay control and general overview of field hardware.
SECTION 281301 – AUDIO ENTRY SYSTEM
PART – GENERAL
1. Work Included:
a. Provide all labor, materials, tools, and equipment required for the complete installation of work called for in the Contract Documents.
2. Description of Work:
a. This section includes minimum requirements for the following:
1) Entry Control Equipment
3. Quality Assurance:
a. All Equipment shall be installed in a neat and workmanlike manner. All methods of construction that are not specifically described or indicated in the contract documents shall be subject to the control and approval of the Owner's Representative. Equipment and materials shall be of the quality and manufacture indicated. The equipment specified is based upon the acceptable manufacturers listed. Where "approved equal" is stated, equipment shall be equivalent in every way to that of the equipment specified and subject to approval.
4. Submittals:
a. Provide product data for the following:
1) Entry control equipment
2) Provide riser diagrams showing all equipment and cabling.
PART 2 – PRODUCTS
1. Entry Control Equipment:
a. Door Intercom Station shall be a flush mount Vandal-proof doorplate with weatherproof callback speaker and call button.
1) Make: Valcom: V-1073.
b. Door Strike Folger Adams 310-2.
c. Entry control master control panel.
1) Provides an interface between the Door intercom station, the door strike and the telephone system.
2) Door unlock control / intercom capability for up to 4 doors.
3) Activation of the Intercom call button shall activate a ring signal on a Loop start C.O. trunk interface on the telephone system. Telephone users programmed for allowed answer can answer intercom calls, talk hands free through the door intercom station and if desired enter a programmable user code to activate the door strike.
4) Make: Valcom: V-2904.
PART 3 – EXECUTION
1. Entry Control System:
a. Install all Entry control equipment in locations shown on plans. Andover card access and proximity cards shall be utilized. Keypad based access control is no longer used. Valcom intercoms are the standard to be used.
b. Provide all wiring as recommended by the manufacturer. Provide plenum rated cable. Provide surface metal raceway for all exposed wiring in existing finished areas.
c. Install power supply and provide all wiring to power supply and door hardware provided by others for the main entrance door on the first floor near the main office.
d. Provide all required programming at unit and at telephone system PBX switches.
1. Training:
a. Provide 2 hours training to the Owner on operation and programming of all equipment.
2. Warranty:
a. Provide 1 year parts and labor warranty.
SECTION 281600 – INTRUSION DETECTION SYSTEM
PART 1 - GENERAL
1. Work Included:
a. Provide all labor, materials, tools, and equipment required for the complete installation of work called for in the Contract Documents.
9. Description of Work:
a. This section includes minimum requirements for the following:
1) Intrusion detection control panel.
2) Zone Expansion Modules
3) Relay/Power modules
4) key pad.
5) Motion sensors.
6) Door/window contacts.
7) Plenum rated cable.
10. Scope:
b. Contractor shall:
1) Provide all equipment including security system components, wire, back boxes telephone jacks, terminal strips, raceway and cable supports.
2) Contractor shall install all back boxes, peripheral devices, raceway, wire, power and supports.
3) Mount all PC boards.
4) Provide cable markers as shown on the plans.
5) Contractor shall provide all terminations at keypads, door contacts, low temperature devices, alarm sirens and motion detectors.
6) Provide 1 year warranty on all installed wire.
7) Provide 1 set of reproducible record drawings for each building.
c. RCSD shall:
1) Provide all final terminations at the main panel, zone expansion modules and relay output modules.
2) Provide technical support regarding the installation of peripheral devices.
3) Program, turn on, trouble shoot and test the system.
4) Provide staff training.
5) Provide system warranty for components and report wiring warranty issues to the installing contractor.
d. Contractor shall provide at bid time an itemized list of all security system components listed by building for review by RCSD.
11. Quality Assurance:
e. All Intrusion Detection system devices shall be installed in a neat and workmanlike manner. All methods of construction that are not specifically described or indicated in the Contract Documents shall be subject to the control and approval of the Owner’s Representative. Equipment and materials shall be of the quality and manufacture indicated. The equipment specified is based upon the acceptable manufacturers listed. Where “approved equal” is stated, equipment shall be equivalent in every way to that of the equipment specified and subject to approval.
12. Submittals:
f. Provide product data including equipment specification cut sheet and typical wiring diagram for the following:
1) Intrusion Detection Control Panel.
2) Key pad.
3) Motion sensors.
4) Door/Intrusion contacts.
PART 2 - PRODUCTS
1. Intrusion Detection System Control Panel:
a. System Description:
1) The system shall include a control panel with telephone line monitor, 600 event memory logger, real time clock, calendar, test timer, battery charger, battery, diagnostics display time/event based scheduling system and surge suppression..
2) Programmable to separate points into a minimum of 8 independent areas.
3) Capable of reporting alarm and trouble conditions to a UL listed central station via dial-up telephone line.
4) Detection loops and power supplies shall be electrically supervised.
5) The control panel shall be programmable locally or remotely, via the system keypad or a P.C.
6) The control panel shall annunciate alarm and trouble messages in English on the display.
7) Shall be capable of executing diagnostics and testing functions locally or remotely.
8) The control panel shall be capable of activating a minimum of 209 output relays.
9) Shall be capable of controlling relays and automatically executing system functions based on a time/event scheduling program. The following functions may be executed.
a) Arm / Disarm a specific area.
b) Bypass / Un-bypass a point.
c) Activate / Deactivate a relay.
d) Send a test report.
e) Adjust system clock for daylight savings time.
b. System Features/Capabilities
1) Minimum of 16 zones. Each of the zones shall be capable of supporting “group zoning”. Group zoning refers to the combining of sensors into a separately identifiable and separately annunicated area.
2) Programming zone Functionality: Each point in the system shall provide for the following type of response in the system.
a) Always on (24 hour response)
b) On when the system is Master Armed
c) Only on when the system is Perimeter Armed
d) Displays / Does Not Display at the keypad when the point is activated.
e) Provides / Does Not Provide entry warning tone
f) Sounds / Does Not Sound audible alarm indication.
g) The Point is bypassable / not bypassable
h) Alarm Verification with programmable verification time.
i) Summary Relay activation by Point.
3) The control panel shall support 8 independent partitions. Each of the eight partitions shall have custom text associated with the armed state, disarmed state and point off normal state. Additionally, the control panel shall be capable of assigning up to eight partition identifiers to the areas depending on the distribution of areas per zone.
4) Any partition shall be configurable to allow arming by specific users when a programmable number of devices are faulted or bypassed.
5) Partitions shall be independently controlled by their corresponding keypad. Each keypad can be designated to control a specific Partition, or group of partitions, or all partitions in the system.
6) Independent control or relay functions by partition shall be possible through programming assignments.
7) System shall be capable of supporting a minimum of sixteen keypads.
8) System shall support up to 128 different passcodes. Each passcode shall be variable from four to six digits. Passcodes shall be enabled or disabled by partition(s) and shall be assigned one of ten different authority levels to carry out functions such as the activation of relays from the keypad.
9) Testing, Diagnostic, and Programming Facilities: automatic test reports and remote system access for diagnostics, programming, and log (Logger) uploads shall also be supported via a remote central station computer.
10) The system shall be capable of logging up to 600 events indicating time, date, type of event, account number, zone number, user ID, point text, and primary/secondary telephone number called for each event. Logs shall be viewed locally at the keypad or remotely via a computer. The control panel shall also support the printing of these events on up to three local printers.
c. The control panel shall support a telephone line for the transmission of consecutive events. The control panel shall have the capability of communicating with up to two different central stations.
d. The control panel shall have two different output tones, steady, pulsed.
e. The Control Panel shall provide a “user-friendly” interface for programming/customizing the system. These system features shall have restrictions based on 10 individually programmable levels of passcode authority which can be assigned to system users. The user’s passcode shall have the capability of being assigned a different authority level in each of the eight zones. User programmable/activated functions include:
1) Arming the system.
2) Disarming the system.
3) Viewing system status.
4) Implementation functions.
5) Testing the system.
6) Change system parameters.
7) Extend the closing time of system.
8) Transmitting special alerts and activating audible and visible signals.
9) Editing of time/event based scheduling program from the keypad.
f. Electrical Requirements:
1) System requires a 120vac receptacle for a plug in transformer.
2) When the primary power source fails, the system can be configured to report an “AC Fail” message to a central station. The transmission delay of this message is programmable from one to 90 seconds.
3) Secondary power (standby battery): The Contractor shall provide adequate battery power to operate the system for 4 hours , and then sound all alarms for five minutes.
4) Provide plenum rated wiring as recommended by the manufacturer.
g. Materials:
1) System Hardware Description:
a) The Intrusion Detection System shall be provided with the following components. Additional accessories shall be provided based on the quantities and features required for the application.
1) Enclosure.
2) Lock and key.
3) Faceplate shield.
4) Power transformer.
2) Design Make: DSC 4020 Version 3.5 or higher with T-Link Connection, or approved equal.
2. Zone Expansion Modules:
a. Provide 8 or 16 zone expansion modules as shown on the building riser diagram.
b. Units provide 8 or 16 programmable zones tamper input and auxiliary power for motion detectors.
c. Power and communications provided via the 4 wire com bus. Provide DSC 4204 power supply.
d. Provide main panel size back box and terminal strip (8 or 16 position) for motion detector power.
e. Design Make: DSC PC4108 and PC4116.
3. Relay Output Modules:
a. Provide relay output modules for computer lab horn control and additional power where shown on the building riser diagrams.
b. Unit provides 4 programmable form C relay contacts.
c. Provide main panel size backbox and 120Vac receptacle for plug in transformer.
d. Design make DSC PC4204
4. Keypads:
a. Digital user interface station to arming, disarming, and control of up to eight zones in the system.
b. 16 character English language display.
c. Real time clock display.
d. Can be used for adding, deleting, or changing passwords.
e. Suitable for flush mounting in wall.
f. Design Make: DSC LCD-4501
5. Motion Sensors:
a. Type A – Long range wall mounted area motion sensor:
1) 120’ x 10’ viewing pattern.
2) Suitable for wall mounting. Provide swivel mounting bracket as required.
3) Passive infrared sensing technology.
4) Multi level signal processing and temperature compensation.
5) One “Form A” contact for output to Intrusion Detection Control Panel.
6) 5 year manufacturer warranty.
7) Design Make: DSC Bravo 3
b. Type B - Wall mounted area motion sensor:
1) 40’ x 40’ viewing pattern.
2) Suitable for wall mounting. Provide swivel mounting bracket as required.
3) Passive infrared sensing technology.
4) Multi level signal processing and temperature compensation.
5) One “Form A” contact for output to Intrusion Detection Control Panel.
6) 5 year manufacturer warranty.
7) Design Make: DSC Bravo 2
c. Type C - Ceiling mounted, round distribution:
1) 360( x 60’ diameter viewing pattern.
2) Suitable for use in spaces with 8-18’ ceilings.
3) Passive infrared motion sensing technology.
4) Multi level signal processing and temperature compensation.
5) 5 year manufacturer warranty.
6) One “Form A” contact for output to Intrusion Detection Control Panel.
7) Design Make: DSC Bravo 5
d. Type D:
1) Same as type B with curtain lens.
2) Design Make: DSC Bravo 2
6. Low Temperature Sensor:
a. 40-90 degree temperature range
b. Provides closure if temperature is lower than the set point.
c. Set to 50 degrees.
d. Provide label Low temperature alarm.
e. Mount the unit as high as possible to prevent vandalism.
f. Design make Honeywell T87F3855
7. Door Contacts:
a. Button type magnetic contact:
1) 1” diameter magnetic door contacts. Magnet installs in door, contact installs in door frame.
2) Provide single pole, double throw contact with 1’ long #22 AWG leads brought out.
3) Maximum ½” gap.
4) Provide contact that will not affect the fire integrity of U.L. listed fire rated doors.
5) Design Make: Sentrol Catalog #1076 with 1921 magnet.
b. Surface mount magnetic contact:
1) Nominal 2” long x ½” wide x ½” deep.
2) Magnet installs surface mounted on door. Contact installs surface mounted on door frame.
3) Provide single pole, double throw contact with 1’ long, #22 AWG leads brought out.
4) Maximum 1” gap.
5) Design Make: Sentrol Catalog #1084 with 1080T magnet.
c. Alarm siren (interior):
1) 12 VDC electronic horn.
2) Steady and pulsed tones.
3) 90 dBA output.
4) Suitable for flush mounting in a single gang outlet box.
5) Design Make: Gentex 503s
PART 3 - EXECUTION
1. Intrusion Detection Control System:
a. Installation:
1) Install all equipment and materials in accordance with the recommendations of the manufacturer.
2) Review AHERA plans, on file at the design group, before starting any work in buildings. Notify RCSD inspector before disturbing any asbestos containing materials.
3) Install all cabling with one of the following methods:
a) In ring run supported 4’ on center in accessible ceilings, and crawl spaces.
b) In areas noted on the drawings where exposed cabling is allowed it should be supported in ring run 4’ on center. Use cable ties to attach cable bundle to ring run for a neat appearance.
c) In E.M.T. conduit in mechanical areas.
d) In metallic surface raceway in finished areas only where unable to conceal or fish walls.
2. Motion Sensors:
a. Install motion sensors in locations shown on plans.
b. Make adjustments to aiming of motion sensors to optimize viewing pattern.
c. Provide ceiling mounting bracket and flush single gang back box for ceiling mounted devices.
d. Provide conduit or surface metal raceway from the accessible ceiling space to the motion sensor.
3. Magnetic Door Contacts:
a. Install magnetic contacts in locations shown on plans.
b. Provide conduit or surface metal raceway from the accessible ceiling space to the door contact. Install conduit concealed wherever possible.
4. Commissioning and Training:
a. BY RCSD
5. Record Documents:
a. Provide one (1) set Reproducible documents detailing the following information:
1) Locations and zone address for all devices.
2) Wiring pathways and wire counts for the entire system.
b. RCSD will provide (1) one set of vellum background plans for record document purposes.
c. Provide 2 bound manuals containing:
1) 1 copy of record as built drawings.
2) Submittal package
d. Record drawings shall be completed and turned over to RCSD prior to system commissioning to assist in any troubleshooting.
SECTION 282300 – HIGH DEFINITION IP VIDEO SURVEILLANCE
PART 1 - GENERAL
1. Scope
A. Provide all labor, materials, equipment, engineering and service necessary to provide a complete and operating IP CCTV Camera System as shown on the drawings and described herein.
B. The system shall allow enterprise scalable Ethernet network based recording, viewing, and management anywhere on the district high speed LAN/WAN. The existing analog camera system will remain in parallel operation for now and will be phased out in future capital projects or replaced by RCSD Security. All new hardware and software designed for this project shall be scalable on an enterprise level to support remote viewing and management from a remote single location on the districts LAN.
C. Provide local Network Video Recorder (NVR) at the school to record new IP cameras as specified in this section. Provide low-profile PC Computer on wall mount shelf in Main Office new NVR viewing software, connect video display on PC to 26” LCD monitor on wall mount bracket. Provide UPS unit and cabinet accessories as called for in this section and the drawings.
D. Where existing exist provide analog CCTV camera migration equipment where indicated on the drawings and specified in this section. These network video encoders shall allow owner ability to view and record existing analog NTSC cameras on the NVR platform.
E. The system supplier (Sub-Contractor) to the prime Electrical Contractor shall have an assigned project manager attend all bi-weekly construction meetings with the prime Electrical Contractor for the duration of the project.
F. Submit Genetec manufacturer letter or registration form stating system supplier (Sub-Contractor) is an authorized integrator of the Genetec Omnicast product.
G. Submit System installer technical staff name(s) certified and manufacturer trained on the Genetec Omnicast product.
2. System Description
A. The network video recorder allows the recording, live viewing, and playback of recorded video without the need for offline storage to digital tape. NVR performs all viewing, playback, and video storage functions simultaneously.
B. NVR recorders are rack-mountable servers equipped with IP video compression, storage, and viewing software. Video is displayed on a standard monitor, and configuration is performed through a standard mouse and keyboard interface.
C. NVR is configured with control software and can record video continuously, only during alarm events, or only while activity is present. Each camera can record in different modes and on different schedules, or they can be configured the same.
D. Control software allows for search and retrieval of video. User-defined parameters allow searches based on the time and date the video was captured, whether alarm or motion events occurred, and which camera captured the video. The software also permits full video storage management, hardware control, alarm configuration, and export of video and individual frames.
E. System shall have the ability to use remote viewing software with the ability of viewing live or recorded video over standard network or modem connections. This software shall be available at no cost to the user and shall be downloadable using standard internet connections.
F. Video Surveillance at the Buildings
1. CCTV Camera and Enclosure systems types are identified on the drawings. Refer to this section of the specifications for system descriptions.
2. Generally Surveillance cameras will be located at selected entrance doors, corridors and rooms inside the building as indicated on the plans. Engineer shall meet with design group and school staff to identify camera locations and field of view
3. Surveillance cameras will be located on the building exteriors to monitor selected parking lots, entrances and secluded areas. Engineer shall meet with design group and school staff to identify camera locations and field of view
4. PAN-TILT-ZOOM cameras shall be controlled via RS-422 cable from the NVR headend or any remote Ethernet workstation with the NVR monitoring and control software.
5. Cameras will be field selectable for activation on motion within the cameras viewing range or to be permanently on.
6. All cameras that are activated shall be recording digital video to the server. The server will automatically back up all video to tape on a daily basis. The system will be programmed to automatically delete the video images when drive space is low.
7. The owner will be able to view camera output on monitors in the Main Office of each school and any networked PC running the client software.
8. The output to the monitors may be configured for full or split screen or for random scan of all cameras. In the case where a camera is set to record on motion it will automatically go to full screen on a selected monitor(s).
9. The video will be viewable in mpeg format from any PC equipped with the client software.
3. Quality Assurance
A. Manufacturer: Manufacturers shall have been in business for a minimum of five years and must guarantee that spare parts will be carried for a minimum of 5 years.
B. The installer must be a company specializing in CCTV Systems with a minimum of five years experience. The installer must have personnel authorized by the system manufacturers. The installer may be a sub contractor to the electrical contractor.
C. If the installer is a sub-contractor, the wiring and physical equipment installation may be done by the electrical contractor, under the supervision of the qualified sub-contractor. All system programming, configuration, testing and commissioning must be done by the qualified installer’s manufacturer certified personnel.
4. SEQUENCE OF OPERATION
A. Resolution Settings:
1. Indoor Cameras – Set to record at 4CIF/sec.
2. Outdoor Cameras – Set to record at 2Mb/sec.
B. Bandwidth Settings:
1. Compression Standard – H.264
C. Recording Settings:
1. Record on motion
2. Record camera stream setting at 10 frames per. second (fps)
D. View Settings:
1. View camera stream setting 5 frames per. second (fps)
E. Server Setup Standards:
1. Contractor to install Operating System
2. Contractor to install latest Microsoft updates and patches
3. Contractor to install SQL Server 2008 Express
4. Server will be joined to domain by RCSD MIS
5. Add local building user group account access from existing Genetec Active Directory Integration
6. Server Name: S0xxSEC-yy (xx = Building #; yy = Server #)
7. IP Address provided by RCSD MIS
F. Camera Setup Standards:
1. IP Address by provided by RCSD Plant Security
2. Camera Standard: 10.xx.27.zz (xx = Building #; zz = Camera 1, 2, 3….)
3. Subnet Mask: 255.255.255.0
4. Gateway: 10.xx.27.254 (xx = Building #)
PART 2 - PRODUCTS
Network Video Recorder Server Hardware
B Dual Intel® Xeon® E5620 2.4Ghz, 12M Cache, Turbo, HT Processors
C 4GB 1333MHz RAM
D Shall include four (4) 1TB 7.2K RPM Near Line SAS 3.5" Hot Plug Hard Drives
E Dual port 10/100/1000 TX NIC
F iDRAC6 Enterprise embedded remote management capability
G 4-USB ports, VGA video output
H RAID 5 for PERC 6/i Controller
I Internal 16X DVD+/-RW SATA, Roxio Creator, CyberlinkPower DVD™
J Accepts 2 PCIe and 2 PCIe cards
K ATI RADEON( 8500/9000 or 9500, NVIDIA( GeForce 3 or 4, Matrox Parhelia(
L Provide with Microsoft Windows 2008 OS R2, DirectX 9.0 or better, latest SP
M Rack mount chassis with rails
N Redundant, 570W power supplies
O Design Make: Dell Poweredge R710 or Approved Equal
Network Video Recorder Software
Q The network video recorder software shall provide a high-quality recorder capable of recording video and audio data streams over TCP/IP networks utilizing an Ethernet interface. The network video recorder shall receive compressed data streams generated by IP cameras. The system shall index the data streams and transfer the data to internal hard or external disk storage. The NVR shall provide an HTML-based graphical user interface (GUI) capable of being viewed in a web browser and accessed for programming, playback, and backup of recorded video.
R Supports both centralized and distributed storage architectures. Multi-stream technology for independence of storage and live display settings
S Virtual matrix configurable display.
T Capable of IP audio transfer and storage.
U Provide with PTZ protocol interface where analog PTZ cameras are indicated to be interfaced to NVR system. NVR software shall be compatible with all industry standard PTZ protocols.
V Compression and input/output requirements:
W Simultaneously uses multiple video compressions including H.264, MPEG4, and MJPEG.
X Bandwidth managed from 8 Kbits/s to 20 Mbits/s per camera
Y Up to 60 fps per camera
Z Resolution from 160x120 to 3 megapixel
AA IP and analog camera support thru use of supported encoders
AB IP multicast transmission
AC Includes licensing for (20) IP cameras.
AD Password protected viewer settings.
AE Feature to assure IP video stream routes from remote viewing at any network connected NVR directly to the client. Video traffic shall not flow from a selected NVR thru a remote secondary NVR to a client at a third site.
AF Configuration shall allow each camera to be uniquely assigned to any NRV on the connected network.
AG Includes Active Directory integration to allow existing active directory users access to the NVR.
AH Allows virtual masking of video images to trigger events based upon motion and pixel changes.
AI Allows object detection and removal alarm triggers.
AJ Integrated digital signature that uniquely identifies each video frame.
AK Design Make: Genetec Omnicast Pro
26” LCD Monitor
AM Flat panel 26" color TFT active matrix WSYGA LCD display
AN Resolution up to 1366 x 768
AO 2440:1 contrast ratio
AP 160-degree horizontal and vertical viewing angle, anti-glare surface
AQ Analog RGB video input: 75 ohms (0.7/1.0 Vp-p), HD-15 jack
AR 2 Composite Video Input
AS VGA Computer input
AT Three-year limited warranty on parts, labor and backlight
AU Provide with 120V power cord and 6 foot composite video cable.
AV Provide with adjustable flat wall mounting bracket
AW Design Make: Vizio VA26L or Approved Equal
Network IP Video Encoder
AY Allows (4) analog BNC input NTSC cameras to be output on a Ethernet network MPEG-4 or motion JPEG stream
AZ Shall be compatible with network decoder
BA 4CIF, 30 fps video handling on all inputs
BB Includes 120V power supply
BC Provide manufacturer compatible software for viewing of streaming MPEG-4 or motion JPEG stream connected cameras on remote PC Computer on building LAN
BD Password security, HTTPS encryption, IP address filtering, IEEE 802.1X
BE Design Make: Axis 241C Network Video Encoder or Approved Equal
Network IP Video Decoder
BG Converts Ethernet network MPEG-4 or motion JPEG stream to a NTSC analog video output
BH Shall be compatible with network encoder
BI Includes 120V power supply
BJ Design Make: Axis 292 Network Video Decoder or Approved Equal
Type 1 – Indoor Fixed Network IP Camera and Enclosure
BL High resolution Color 1/3“ CCD, CMOS imager
BM Up to 2.1 Megapixel Resolution (1920 x 1080)
BN Up to 30 Images per Second (ips) at 1920 x 1080
BO Megapixel lens, varifocal, 2.8~12.0 mm
BP Auto Back Focus
BQ Security Access Password protected
BR H.264 and MJPEG Compression Capability
BS Color and Day/Night Models
BT Color (33 ms) 0.50 Lux
BU Color SENS (500 ms) 0.12 Lux
BV Mono (33 ms) 0.25 Lux
BW Mono SENS (500 ms) 0.03 Lux
BX Video Setup Jack
BY Sensitivity Down to 0.05 lux
BZ Power over Ethernet (IEEE 802.3af) or 24 VAC
CA Up to 2 Simultaneous Video Streams
CB Internal HTML web server for configuration and viewing capable
CC Service Connector External 3-connector, 2.5 mm provides NTSC/PAL video output
CD Lexan half-dome enclosure system, Opaque black, clear window, zero light loss, For Use in Hard Ceiling, Suspended Ceiling or Pendant Applications, The versatile fixed camera mount allows for 360-degree horizontal Positioning and 30-degree downward. In-ceiling or pendant mount kit available.
CE Design Make: Pelco Sarix IXE20DN w/ DF8 enclosure or Approved Equal
Type 2 – Outdoor Fixed Network IP Camera and Enclosure
CG High resolution Color 1/3“ CCD, CMOS imager
CH Up to 2.1 Megapixel Resolution (1920 x 1080)
CI Up to 30 Images per Second (ips) at 1920 x 1080
CJ Megapixel lens, varifocal, 2.8~12.0 mm
CK Auto Back Focus
CL Security Access Password protected
CM H.264 and MJPEG Compression Capability
CN Color and Day/Night Models
CO Color (33 ms) 0.50 Lux
CP Color SENS (500 ms) 0.12 Lux
CQ Mono (33 ms) 0.25 Lux
CR Mono SENS (500 ms) 0.03 Lux
CS Video Setup Jack
CT Sensitivity Down to 0.05 lux
CU Power over Ethernet (IEEE 802.3af) or 24 VAC
CV Up to 2 Simultaneous Video Streams
CW Internal HTML web server for configuration and viewing capable
CX Service Connector External 3-connector, 2.5 mm provides NTSC/PAL video output
CY Die-cast aluminum outdoor front looking surface mount enclosure, sun shroud, lexan lens, Meets IP66 and NEMA Type 4X Standards, Tamper-Proof Hardware, 24VAC power input for internal 11watt heater with 24VAC camera power output. Provide with required bracket for wall or pole mount
CZ Design Make: Pelco Sarix IXE20DN w/ Pelco EH3512 outdoor enclosure or Approved Equal
Multiple Camera Power Supply
DB Power supply shall accommodate up to 8 Cameras.
DC Internal 120 VAC 60 Hz primary, 24/28 VAC secondary transformer with screw type output connectors.
DD Output rated at 120 VA with up to (8) individual 3 amp 24 volt circuit breaker protected outputs.
DE NEMA 1 steel enclosure, dimensions 11”L x 17”W x 4.5”D, 20 lbs.
DF Design Make: Pelco MCS16-20B
Video Cabling
DH Refer to Horizontal and Backbone Communication Cabling for 100 Ohm UTP cable (Category 6 cable) and termination requirements.
Coax to UTP Transceiver (Video Balun)
DJ Provide impedance matching balun capable of extending NTSC video up to 2000 feet over cat. 5 UTP cable
DK Allows PTZ signals and video to be transmitted over cat. 5 cable
DL BNC coaxial to RJ-45 cat. 5 UTP interface
DM Design Make: VideoEase 500022 or Approved Equal
PC Computer
DO The PC Computer shall meet the following minimum hardware specifications:
DP Intel( Pentium IV Xeon( with 1.88 GHz minimum processor speed Memory – 2GB DDR2
DQ Tower Chassis
DR 160GB SATA, 7200 RPM Hard Drive
DS 10/100/1000 TX NIC
DT 2-USB ports
DU 8 USB 2.0 ports, 2 front & 5 back and 1 internal
DV VGA output
DW Internal 16X DVD+/-RW SATA, Roxio Creator, CyberlinkPower DVD™
DX 2 full height PCI, 1 PCIe
DY ATI RADEON( 8500/9000 or 9500, NVIDIA( GeForce 3 or 4, Matrox Parhelia(
DZ Provide with 12-pack of blank 4.7GB DVD-R media.
EA Provide with Microsoft Windows 7 Proffessional OS, DirectX 9.0 or better
EB Design Make: Dell Optiplex 740 Mini-Tower or Approved Equal
UPS Unit
ED Rack mountable with required rail mounting hardware.
EE System Design:
EF Line interactive design equipped with a bi-directional converter, battery, voltage boost system and transfer relay.
EG System converter must be continuously energized to trickle charge the battery.
EH Upon power outage, the battery must feed through the converter to the load.
EI Battery:
EJ Sealed, reduced maintenance, lead acid type, capable of operating at full load for a minimum of 2 hours.
EK All input and output power shall be 120V. Unit shall have the following I/O connectors:
EL Outputs: (4) NEMA 5-15R
EM Input: 8 ft. cord with NEMA 5-15P
EN Shutdown Software:
EO Manufacturer’s standard shutdown software that will perform an orderly shutdown of the switch upon loss of utility power.
EP Time between loss of utility power and shutdown must be user adjustable.
EQ USB Communications Interface
ER Physical Specifications:
ES 1U Rack Mount Chassis
ET Meets UL 1449 filtering and surge-suppression requirements.
EU Weight: 48 lbs.
EV 750VA / 480 Watt Output
EW Design Make: APC SUA750RM1U or Approved Equal
Wall Mounted Equipment Cabinet
EY Wall mountable, 26” depth, 36” high, steel construction
EZ Front Plexiglas window.
FA Front and rear hinged doors.
FB Front door and rear locks both keyed alike with key #CH751.
FC 19” rails tapped EIA-310-D
FD Provide with accessory 6-outlet rack mount power strip
FE Provide with accessory equipment shelf for PC Computer
FF Design Make: Hubbell HSQ3626 or Approved Equal
1 PART 3 - EXECUTION
General Installation
3 Prior to installing any equipment the contractor shall walk the buildings with the engineer and District personnel to determine acceptable pathways, installation methods and final locations of equipment. Installation methods that are not approved will be subject to removal and reinstallation at no additional cost to the owner.
4 Installation of the digital CCTV system shall include the appropriate equipment and shall be performed by a factory-trained Installer. The installation shall be completed to meet the requirements of this specification and the project drawings. The installation shall include the following:
5 Site planning and system configuration of field hardware.
6 Complete hardware setup of all system Workstations and peripherals.
7 Setup of specific network software configuration requirements.
8 Complete system diagnostics verification.
9 Complete system operation verification.
10 Comply with manufacturer’s instructions and recommendations for installation of product in the applications indicated. Anchor products securely in place, accurately located and aligned with other work.
11 The Contractor is responsible to remedy defects due to faulty workmanship and materials that appear within one year from the date of acceptance in accordance with the General Conditions, unless Specifications specify a different duration.
Network Video Server/Recorder
13 Install the NVR in existing building dual post server cabinet. Coordinate operating system installation and anti-virus installation and IP addressing with owners IP Department. Configure server and install latest service packs. Install NVR software per. manufacturer requirements.
14 Connect all CCTV cameras video cables to the video acquisition unit. Completely replace all cable or terminations for cameras with poor quality video images.
15 Provide typed sticky back label wrapped around each cable identifying the camera location and type. Example “Two Story Vestibule - Wall Mount Camera”.
16 Provide cat. 6 cable for RS-422 control communication from the NVR accessory to each PTZ camera. Provide terminations and jacks per. manufacturer recommendation.
17 Provide all software required for a complete video monitoring and archiving system over the owner’s Ethernet LAN. Configure the monitoring software on client workstations with a desktop icon for each CCTV camera.
18 The Contractor and system vendor’s qualified representative shall meet with the owner as many times as necessary to finalize system programming. The installer shall review the owner’s security plans and policies and make programming decisions based on that plan. The owner shall choose the camera flip or multiple images display settings on the remote LCD Monitor.
19 Provide installation and setup of remote viewing software for (1) owner furnished workstations connected to the owners LAN. Verify all cameras can be connected to and viewed and all PTZ controls function properly.
20 The installer shall make changes to the initial system programming for up to 30 days after the initial installation at no additional cost.
CCTV Power Supplies
22 Provide all 24VAC power supplies as called for on the riser diagram. Rework branch circuiting in panels between breakers as required such that all power supplies and the NVR are located on the same phase A, B, or C.
23 Provide a minimum size of 12-awg THHN conductors for 24Vac wiring to cameras from power supply. Provide larger wiring as recommended by manufacturer based on voltage drop if required.
24 Provide typed sticky back label on each single camera power supply and above each circuit breaker on multiple camera power supplies identifying the camera location and type. Example “Two Story Vestibule - Wall Mount Camera”.
Cameras
26 The final aiming, focusing and lens selection of cameras shall be done by the system vendor’s qualified representative in conjunction with the engineer.
27 Aim and focus cameras initially and test the system. Re-aim and focus the cameras as necessary to the owner’s satisfaction.
28 Coordinate all final camera locations in interior and exterior locations prior to rough-in with the owner.
29 Field verify required mounting brackets for exterior cameras. The exact mounting hardware will be determined by the required field of view.
Wiring, Raceways and Cable
31 Provide a category 6 patch cable from new NVR to the data outlet on the building LAN in the same room.
32 All power wiring shall be installed in raceway and is to be installed in accordance with Local and National Electrical Codes.
33 All video wiring within accessible unfinished areas (ceilings, mechanical spaces, and crawl spaces) may be run exposed with proper support with bridle rings. Bridle rings shall be installed a minimum of 4 ft on center.
34 Wiring shall be run parallel and perpendicular to building lines in a neat and workmanlike manner and bundled with nylon tie wraps.
35 Provide conduit sleeves, with applicable fire-proofing through any concrete or block walls for low voltage cable routing.
36 All low voltage cable shall be run in separate raceways from public address or 120V or higher branch circuiting.
37 All exposed wiring shall be installed a minimum of three (3) inches from hot water, steam, or condensate piping.
38 Raceways feeding video and 24VAC cabling to exterior cameras shall be concealed inside of buildings.
PC Computer
40 Install PC computer in wall mount equipment cabinet
41 Connect to UPS unit in server cabinet to NVR.
42 Install viewing software on PC Computer.
43 Install software to allow viewing of H.264 or MJPEG cameras in designated location(s).
44 Connect VGA output to wall mount LCD Monitor
45 Provide Cat. 6 data drop with building LAN connection.
System Acceptance Test
47 Provide demonstration, in the presents of the owners representatives, showing the complete operation of entire system functionality.
48 Make all changes required from the punch list generated during initial testing/demonstration. Schedule a second acceptance test/ demonstration with the District. If additional testing is required after the second test/ demonstration, the contractor will reimburse the district and their representatives for their time at a rate of 2 times their expenditure for their actions.
49 Upon final completion of the punch list as determined by the District, the entire systems and associated equipment furnished by the contractor will be subjected to a thirty (30) consecutive day operational test to determine the reliability of the equipment. If the results of this operational test are acceptable to the district the warranty period will begin.
50 If any part of the system fails during the (30) thirty consecutive days, the contractor will resolve the problems and start the test again beginning with day one. The contractor will be given two (2) opportunities to successfully complete the 30 consecutive day operational testing period.
51 The performance of the entire system will not be less than 100% during the operational 30 consecutive day test period. 100% performance is defined as no trouble reports attributed to the system or contractor’s actions during the acceptance period. The district may add other requirements to the Standard of Performance, as it deems necessary.
52 The system will not be accepted for operational use and final payment will not be authorized until the district determines that the entire system is deemed acceptable.
53 In the event that the entire system (including any special or optional features ordered and installed) have not achieved the Standard of Performance within the two 30 (thirty) day periods, the District may terminate the tests, at its option, and require the contractor to provide a complete system replacement of its choice at no additional cost to the district.
54 In this case the reference to “system” or “entire system” means all equipment at all buildings are complete and fully functional. Final acceptance will not be done one building at a time.
System Documentation
56 Complete documentation shall be provided with the system. The documentation shall completely describe all operations, each program, data sets and the hardware and peripherals. All updates, addendum and adjustments to the documentation shall be provided at no additional charge, in the same quantities as originally required.
57 System Administrator Manual - Overview and step by step guide and instructions detailing all System Administrator responsibility and authority.
58 User Manual - Step by step guide and instructions detailing all system user functions and responsibilities.
59 Technical Maintenance Manual - Shall be a comprehensive and detailed document providing all maintenance action, system testing schedules, troubleshooting flowcharts, functional system layout and block diagrams and schematic diagrams of all system wiring.
Warranty
61 The Contractor shall warrant all labor, workmanship and materials for a period of one (1) year from the date of final acceptance. Should a failure occur within the first year to the access control system, the Contractor shall provide all labor and materials necessary to restore the system to a complete operating condition, at no cost to the Owner.
62 The contractor shall affix a card with their Company name and phone number to the NVR.
SECTION 283100 - FIRE ALARM SYSTEM, ZONE ADDRESSABLE
1. Suggested Consultant Procedures:
a. The design consultant shall follow an Integrated phased replacement approach to replacement of devices and panels throughout the district as part of ongoing CIP projects. The consultant shall work with the system vendor, RCSD design group staff and RCSD Fire Alarm/Security group to maximize the replacement of old, damaged, dirty and obsolete fire alarm devices and panels with CIP project areas of work. All detectors located in areas of CIP project renovations shall be replaced as part of the CIP project.
b. The design consultant specifications shall indicate that any work on fire alarm system shall be done by or under the direction of qualified Manufacturer's Representative, School District Representative. Also shall be done under the written procedure set by the District or Manufacturer's Representative.
c. The design consultant specifications shall indicate that the Manufacturer's Representative shall attend preconstruction meeting between inspector and EC and fire alarm vendor, building custodian to review fire alarm system construction procedures. (Representative to provide written procedure with phone numbers).
d. The design consultant shall have a review meeting with RCSD Fire Alarm/Security Group to review scope, impact and other potential design issues. This meeting should be held before final documents are out to bid.
e. The design consultants are to provide specification requirements that require the Electrical Contractor to provide as-built drawings showing all wiring routing, revised riser diagram, calculations and connection points for all fire alarm work.
f. The design consultants are to hire the appropriate fire alarm system vendor to conduct a system pretest and signal load test before final construction documents are bid. The cost for this service will be reimbursable expense back to the district through the consultant(s).
2. Complete System Replacement:
a. FACP shall be point addressable microprocessor based, modular construction with integral LCD display and printer. System sized to receive a minimum of alarm and control points as needed by building with at least 25% additional spare points. Simplex Network 4100U.
b. System shall be converted if zone addressable if adding to existing hardwired system. Replace FACP with Simplex Network 4100U. Smoke detectors are to be per below.
3. Emergency Power: Provide battery back-up. Minimum 60 hours or 4 hours if system is connected to emergency generator. Integral battery charger.
4. Ventilation Fan Shutdown: Provide shutdown for all unit ventilators and air distribution systems over 1,000 cfm and as required by SED guidelines. Provide with reset switch and drill bypass function. Simplex 2088 Series.
5. Smoke Detectors: Shall be point addressable if entire building is replaced. Shall operate on photo-obscuration principle and be provided with auxiliary contacts as required for smoke damper, elevator recall and smoke hatch operation. Smoke head shall be detachable from 4-wire supervised base. Bosch D285 with D292 base. Provide spare smoke detector heads in the amount of 10% of the quantity of active heads provided as part of project. Turn over to Owner and obtain receipt.
6. Duct Type Smoke Detector: Shall operate on ionization principal, provide with remote indicating light and key test switch. Simplex 2098 Series.
7. Thermal Sensors: Rate of rise type 135oF. Simplex 4098 Series.1.
8. Bells: 24 volts DC, 10 in. diameter rated 90 db at 10 ft.
9. Horns: 24 volts DC, grille type rated 104 db at 10 ft.
10. Visual Strobe: 24 volt DC Xenon flasher. Minimum 75 candela ADA compliant. Clear lexan lens with clear, UL listed lexan vandal guard. Flash rate minimum 1 Hz, maximum 3 Hz. Simplex 4900 Series.
11. Remote Annunciator: LCD type with indication of all alarm, supervisory and trouble conditions. Alarm silence and reset button. Simplex 4603 Series.
12. Magnetic Door Holders: 115 volt rated, aluminum construction minimum 25 lb. holding force.
13. Municipal Tie-In: Radio master box; coordinate with Rochester Fire Department and School District Maintenance Department.
14. Manual Pullstation Single Action Key Reset: Simplex 2099 Series. Provide with tamperproof clear lexan protective shield with horn and batteries to produce 85 db minimum at 10 feet when shield is raised. Simplex 2099-9815.
15. Fire Alarm Systems shall remain active in construction areas throughout project. Minimal shutdowns only as required to perform work on the system shall be acceptable. Clean all affected smoke detector heads daily as required throughout project to avoid nuisance activation.
16. Color codes:
| | |Positive |Negative |
|a. |Power Loop: |Orange |Yellow |
|b. |Smoke detector initiation loops |Blue |Red |
|c. |Heat detector and manual station initiation loops |Black |Violet |
|d. |Bell/Horn and visual notification loops |Brown |Grey |
All fire alarm wiring shall be supervised and installed in raceways
................
................
In order to avoid copyright disputes, this page is only a partial summary.
To fulfill the demand for quickly locating and searching documents.
It is intelligent file search solution for home and business.
Related searches
- 28 states with medical marijuana
- matthew 28 19 20 message
- matthew 28 19 message bible
- sermons on matthew 28 19
- matthew 28 18 20 sermon
- matthew 28 19 kjv
- matthew 28 bible
- printable 28 day expiration calendar 2019
- 28 day calendar for medication 2019
- 28 day vial expiration chart 2020
- 28 day medication expiration chart
- 28 day expiration calendar