UFGS 28 20 00.00 20 Electronic Security System
Contents
1. quality 2 4 17 5 Color Video Monitors a Except as specified herein design video monitors to comply with SMPTE 170M for distribution monitors and 1 Video monitors shall be designed for continuous operation and shall incorporate printed circuit modular construction 2 Monitor design shall provide for easy replacement of printed circuit modules 3 Electronic circuits shall use solid state devices with the exception of the cathode ray tube CRT 4 Each monitor shall be constructed to provide rigid support for electrical systems so that unintentional changes in alignment or microphonic effects will not occur during operation or movement 5 Circuit design shall incorporate safety margins of not less than 25 percent where possible with respect to power dissipation ratings voltage ratings and current carrying capacity 6 Provide monitors LCD s or Plasma Displays with a diagonal viewing angle that nominally measures 380 432 508 1067 1270 mm 15 17 20 42 50 inches 7 Provide adequate safeguards to protect personnel from exposure to high voltage during operation or adjustment 8 Front panel controls shall include a monitor power switch horizontal hold vertical hold height contrast brightness and focus 9 Monitors shall have the following minimum essential requirements resolution for CRT monitors shall not 22 86 centimeter 9 inch monit2. Sensor shall also alarm at velocities faster than 30 mm 0 1 foot per second up to 3000 mm 10 feetper second Sensor maximum detection range shall be a minimum of 10 6 meters 35 feet as indicated Sensor shall not alarm in response to general area thermal variations Dual technology sensors Provide sensor combining passive infrared and microwave sensors designed and manufactured specifically to be mounted in a single enclosure 1 Passive infrared PIR sensor section Sensor shall detect intruder presence by monitoring the level of infrared energy emitted by objects within a protected zone Sensor shall initiate an alarm upon observing increased or fluctuating infrared energy caused by the presence and motion of an intruder whose temperatur is as little as 1 5 degrees C 3 degrees F different from the background temperature Sensor shall be passive in nature no transmitting energy shall be required for detection Sensor shall be sensitive to infrared energy emitted at wavelengths corresponding to human body or other objects at ambient temperatures Sensor detection pattern shall be 3 14 rad 180 degrees for volumetric units unless otherwise indicated Microwave sensor section Sensor shall detect intruder presence by transmitting electromagnetic energy into a protected zone receiving the direct and reflected energy and monitoring the frequency shift between transmitted and received signals I
3. SECTION 28 20 00 00 20 Page 43 10 11 12 13 Maximum User Capability Up to 64 000 individual users may be given access cards or codes and have their access controlled and recorded Access Groups Each system user shall be assignable to a maximum of 4 of 256 possible access groups An access group shall be defined as one or more people who are allowed access to the same areas at the same days and time periods Active Expire Dates Any card user may be configured with activation and expiration dates The card can be assigned to any valid access group and will be activated and expired according to the specified dates Maximum Use Settings Any card user may be configured with maximum number of uses for that card The card can be assigned to any valid access group and will be expired according to the specified number of card uses Door Outputs Each access control reader shall have two dedicated relay outputs Both relays shall provide Normally Open and Normally Closed contacts The first relay shall be used for electric lock control The second shall be software configurable to activate for door forced open door left open too long duress passback violations invalid access attempts and valid unlock conditions Both relays shall be separately programmable for energize times from 1 second to 10 minutes The second relay shall allow a delay time to be specified causing it
4. a b c d 6 IEEE 62 41 Categories unless otherwise indicated on drawings Service entrance sizes lt 600A B3 C1 lt 600A to 1 2 KA C2 gt 1 2KA C3 Distribution or sub panels B2 Electrical Performance Response time lt 5 nanoseconds MCOV 115 percent minimum Shortwave test surge current 6kv 1 2 50usec 3ka 8 20psec 5000 surges Minimum surge current a Service Entrance 410 000 Amps Phase bo Distribution and Sub panels 210 000 Amps Phase Suppression system protected modes shall be L N L G N G for Wye Systems and L L L G for ungrounded Delta Systems Power on indicators and failure detection A lighted panel on the cover shall provide indication that the suppressor is properly activated and shall also indicate mode failure If the suppressor fails an isolated contact shall close In addition an audible alarm shall be provided with manual reset Failure mode SPD s shall be designed to fail shorted Any fuses in series with the SPD s shall not open during a surge event Disconnect Main service suppressors shall be provided with an integral fused disconnect switch or dedicated circuit breaker as shown or required by UL Breakers and suppressors shall have an AIC fault withstand rating egual or greater than the AIC rating of the equipment to which it is connected The length of wiring from the tap at the service conductors to the suppressor being protect
5. SECTION 28 20 00 00 20 Page 33 Pe dbil Error and Throughput Rates Rates shall be portal to portal performance averages obtained when processing individuals one at a time When serial verification techniques or multiple attempts are required to satisfy error performance requirements features shall not reduce capability to meet throughput requirements A Type I error denies access to an authorized enrolled individual A Type II error grants access to an unauthorized individual Subsystem Type I and Type II error rates shall be both less than 0 1 percent At the error rates subsystem access throughput rate shall be minimum of 12 individuals per minute through one card reader and keypad access control device ZA SL 92 Access Control Subsystem Central Processing Provide serial management and control of subsystem Provide a microprocessor control device designed to monitor and control units and up to 32 card reader and keypad access control devices Central processor shall interrogate and receive responses from each ACU within 100 milliseconds Failure to respond to an interrogation shall cause an alarm Provide a printer with a minimum print rate of 30 characters per second to produce hard copy of subsystem events Provide the central processor with an TIA 232 interface port to communicate with the printer Provide an operator interface to control system operating functions Provide the central processor w
6. SECTION 28 20 00 00 20 Page 63 System shall be designed to utilize the capabilities of multitasking operation with many processes running at the same time without interference with each other and with higher priority tasks taking precedence over lower priority tasks The ESS software shall support responses to alarms entering the system Each alarm shall be capable of initiating one or more of the following actions sending alarm commands to a CCTV system interface triggering DVR event recording activating output devices playing PC audio files controlling doors and displaying floor plan graphical maps associated with the alarm device The system shall provide mode of system operation that reguires operator acknowledgment of any alarm The ESS software shall be capable of but not limited to the following programming and functionality a Daylight Savings Time Adjustment There shall be a software configurable user defined adjustment for Daylight Savings Time The ACU s and PCU s shall not need to be connected to the ESS in order for the adjustment to occur b Operator Privileges An unlimited number of system operators shall be supported each with a unique login and password combination Operators shall be assigned privileges based on the loops commands or programming features that are available to each individual operator c Alarm Priorities Each alarm device shall have the
7. 1 WHA OB WD b CCTV Oe OI AHnNUOBWNE YS Four hours on site training sessions System operating procedures System configuration orientation Alarm acknowledgment Alarm response logging Graphics functionality Items unique to the ACS and IDS interfaces with other systems one day 8 Operator Training shall include Two one day 8 on site training sessions Training shall include Operating procedures System configuration Video call up Camera and monitor control Graphics functionality Basic device terminology and troubleshooting 82323 Follow up Training a One two hour training session each month for two months after initial training b Follow up training shall begin one month after initial training c Training shall include testing for system competence 3 3 4 Training Operating and Maintenance Personnel Furnish instruction for operating staff in system operation and operator troubleshooting and preventive maintenance procedures Instruction shall consist of 3 man days 8 hours per day and shall be held during normal duty hours Commence instruction after system is fully operational and complete instruction prior to system acceptance and turnover to the Government Furnish maintenance instruction for Government maintenance personnel in adjustment
8. SS fails to respond hall cause a line be individually data ESS alarm that overall 52 annunciation time reliability and Ps is not degraded Provide RF transmitters receivers or transceivers in sufficient quantities to meet specified requirements RF link transmissions shall be on one or more of the frequencies within the specified band as required to meet specified reguirements and shall neither interfere with other ESS components nor any facility electronic components Provide transmitters which are in accordance with applicable requirements of 47 CFR 15 Message types and content shall be identical to those transmitted by other portions of the ESS data communications subsystem ESS alarms sent by RF link shall not fail to be transmitted by the RF link due to event occurrence during off air periods RF link shall provide message transmission priority in the following order a Intrusion alarms b Tamper alarms c Access denial alarms d Other alarms on a first in first out basis including loss of communication signal fail safe low battery and power loss Provide omnidirectional coaxial half wave dipole antennas for alarm transmitters and transceivers with a driving point impedance to match transmission output Antennas and antenna mounts shall be corrosion resistant and designed to withstand wind velocities of 160 km h 100 mph and physical damage caused by vandali
9. 2 4 18 4 ESS Monitor Display Software ESS disp Diff data shal a Monitor display software shall provide for text and graphics map lays that include zone and device status integrated into the display erent colors shall be used for the various components and real time Colors shall be uniform on all displays The following color coding l be followed FLASHING RED to alert an operator that a zone has gone into an alarm or that primary power has failed RED to alert an operator that a zone is in alarm and that the alarm has been acknowledged YELLOW to advise an operator that a zone is in access SECTION 28 20 00 00 20 Page 69 T d GR EN to indicate that a zone is secure or that power is on 2 4 18 5 Graphical Map Software ESS graphical map software shall show the graphic and visual data of all subsystem devices A 19 21 30 42 color graphic CRT LCD flat screen or plasma display shall be used with messages displayed in the English language Graphical maps shall be provided showing a layout of all the protected facilities Zones corresponding to those monitored by the ESS shall be highlighted on the graphical maps Status of each zone shall be displayed using graphical icons as required within each designated zone Graphical maps shall have the capability of be linked together using a layered tree structure For example a top level map might be a top view of the site and i
10. Provide software in modules to meet application requirements of this section Software shall include the operating system OS be complete off the shelf modifiable for specific ESS application specified herein and be a product of and supported by the ESS central processor manufacturer OS executive shall accomplish in real time the scheduling and sequencing of programs for execution Each program shall be assigned a priority level Provide priority levels in sufficient number to provide total functional operation as specified Software shall be menu driven Menu reconfiguration and other actions which could in any way compromise the security and integrity of the ESS shall be password controlled A minimum of eight password levels shall be provided Software provided shall be documented in a user s manual which shall be approved by the Government prior to system implementation 2 4 12 Test Points Test points controls and other adjustments inside enclosures shall be readily visible and accessible with minimum disassembly of equipment Test points and other maintenance controls shall not be readily accessible to operator personnel 213 Component Enclosures Consoles annunciator housings power supply enclosures sensor control and terminal cabinets control units wiring gutters and other component housings collectively referred to as enclosures shall be formed and assembled to be sturdy and rigid Zi
11. Double strand 15 1 2 gage barbed wir nit shall Sensor zone control u monitor up to Provide relay outputs Input power requireme Gate units manufacturer s recom protection for th nt to interface alarm outputs with the overall nts shall be 120 208 volts ac EE each fence portal sensor manufacturer Sensors shall perfor Magnetic Switches BMS BMS elements must be be jumpered within a Jat mounted protected perimeter In addition on the gate corrosion resistant me ends mechanically to conductors within the Jumpered conductors a Barrier protection sensors mounted on Divide the facility barrier perimeter 100 meter four of the barrier and shall be as specified in the paragrap Taut Wire Sensors Sensors Laser Range finder Sen tal system m shall be suitable for by climbing at the nds ng Ly 392 N 88 pou shall be the minimum acceptable 10 zones E E SS Provide in accordance with specific fence sensor mendations to ensure continuous fence sensor zone Provide gate unit for When gate units are not provided by the fence provide separately zoned BMS gate sensors m as specified in paragraph entitled Balanced for a double gate since both electrical connection shall flexible armored cord constructed from Each end of the armored cord shall terminate in a junction box or other enclosu
12. LATCH T or COUNTER type The S automatically control Each output relay shall be softwar e configurable IMEOUT SCHEDULED TIMEOUT RETRIGGE CHEDULED type shall allow a time sc its activation and de activation T LATCH IMEOUT IMEOUT RETRIGGERABLE LIMIT and COUNTER configured to activate Additionally a time s output shall actively based on the condition of I O grou chedule shall be specified to confi monitor the I O groups anually controlling a he SCC The SCC opera urn ON and turn OFF a utput name and time t hall not be permissib Remote Reset Command reset manually or by c a reset type as specif Remote Output control The operator shall have the capab ny output point by issuing a simple tor shall have the ability to ENABL ny output in this manner based on t hat it was performed manual contro le in DIA DCID 6 9 applications m t t type A FOLLOWS type output shall not be capable of being turned OFF or O o s Any ACU shall have the capability ommand issued from the AACS This ied by the user The remote reset c RABLE LIMIT hedule to he FOLLOWS types shall be ps gure when the ility of command from E DISABLE he output N This activity shall cause an entry to be logged displaying the l of outputs of being reset command shall have the option of simulating the ACU reset settings
13. operation and maintenance of each system SECTION 28 20 00 00 20 Page 75 equipment Attendance at equipment manufacturer s recommended maintenance training schools may be substituted for this training Costs associated with such schooling less travel and per diem shall be borne by the Contractor Complete maintenance instruction prior to system acceptance and turnover to the Government Ra 4 FIELD APPLIED PAINTING Paint electrical equipment as required to match finish of adjacent surfaces or to meet the indicated or specified safety criteria Painting shall be as specified in Section 09 90 00 PAINTS AND COATINGS ays NAMEPLATE MOUNTING Provide number location and letter designation of nameplates as indicated Fasten nameplates to the device with a minimum of two sheet metal screws or two rivets End of Section SECTION 28 20 00 00 20 Page 76
14. 21 2 3 4 2 Other System Success Considerations kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkxkxkk NOTE Select the most restrictive choice s based upon the degree of annunciation granularity required kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk kkkkkkkkkkkkkkkkkkkkkkkkxkxkk a False alarm An alarm which does not result from a valid intrusion by personnel vehicles other moving objects or nuisances but rather as a result of an internally generated sensor or other system component noise The false alarm rate shall not exceed one per 30 days for each sensor zone b Nuisance alarm May result from sources external to the system which provide sensor stimuli similar to those of personnel vehicles or moving objects such as wildlife and natural phenomena Nuisance alarm rate is a function of sensor adjustment and shall not exceed a rate of one alarm per 7 days for each sensor zone for the initial 90 days after acceptance by the Government Nuisance alarm rate shall not exceed a rate of one alarm per 30 days for each sensor zone thereafter c Reliability and Availability Reliability for ESS shall be based upon reliabilities of equipment used Reliability requirements shall be as contained in equipment specifications and when equipment is combined in particular configuration shall provide a system level mean time between failure MTBF that is consistent with both
15. 4 hours of power uninterruptible power supply UPS a UPS Backup power required for uninterrupted operation of the ESS until a diesel engine generator set can assume the full load shall be provided by an uninterruptible power supply UPS The UPS shall consist of a rectifier battery and support racks a static inverter static switch transfer and a manual bypass switch The UPS shall have a continuous output to supply the maximum load requirements of the ESS Size battery to sustain the UPS at full rated load for 4 hours for 15 minutes until diesel engine generator set can assume the load b Batteries Provide further backup by dedicated batteries in remotely located system elements such as individual sensors or control units When radio frequency RF operation is required batteries shall be an integral part of dispersed system elements Batteries shall be capable of operation in any position and shall be protected against venting caustic chemicals or fumes within an equipment cabinet Batteries shall be capable of continuous operation for up to 4 hours without recharge or replacement 4 SYSTEM PERFORMANCI CH REQUIREMENTS Design system components to operate as described herein within the context of the overall system performance previously described Perceived inconsistencies between the following component performance specifications and overall syst
16. 4 18 Security Command Center SCC The Security Command Center shall integrate all sub systems and communications from and provide operator control interface to ESS Major components shall be as follows a ESS Software b Digital Receiver c Monitoring Display Software 4 18 1 ESS Software The ESS software shall utilize a single database for the integration of all sub systems The integration shall be provided under one operating environment The System shall archive all events in a database stored either on a local hard drive or a networked database server The software shall support configuration and simultaneous monitoring of all sub systems The software shall allow the configuration of networked PC workstations The PC workstations and file server shall be connected via a TCP IP network Administrative tasks such as configuration monitoring schedules report generation and graphic map display shall be provided from any PC workstation on the network All system programming data shall reside on the single database and shall be instantly accessible to every PC Workstation connected to the network The system shall utilize a non proprietary SQL based ODBC compliant database managed by Sybase Adaptive Server Anywhere Microsoft SQL Server or Oracle The ESS shall utilize a preemptive multi tasking operating system Microsoft Windows 2000 2003 or Windows XP Professional environment The
17. ESS is completely installed integrated and operational and the burn in testing completed the NAVFAC and NAVFAC Engineer will conduct a final acceptance test of th ntire system at a mutually acceptable time g During the final acceptance test no adjustments repairs or modifications to the system shall be conducted without the permission of the NAVFAC h During the course of the final acceptance test by the NAVFAC and NAVFAC Engineer the Contractor shall be responsible for demonstrating that without exception the completed and integrated ESS complies with the SECTION 28 20 00 00 20 Page 73 contract requirements Physical and functional requirements of the project shall be demonstrated and shown This demonstration will begin by comparing as built drawings conditions of the ESS to requirements outlined in this Section item by item Following the Section compliance review ESS and SCCd equipment will be evaluated i The functionality of the various interfaces between systems will be tested j The installation of all field devices will be inspected This field inspection will weigh heavily on the general neatness and quality of installation complete functionality of each device and compliance with mounting back box and conduit requirements k All equipment shall be on and fully operational during any and all testing procedures Provide personnel equipment and supplies necessary to perform al
18. Horizontally Opposed Mirror Optic PIRs into one single all weather detector The sensor is to be used in extreme outdoor conditions to provide the maximum amount of coverage in a horizontal plane It shall come mounted in an industrial grade housing with a pan tilt swivel bracket that provides swivel within 100 degrees of range and tilt within 10 degrees The swivel bracket shall allow for calibration into 1 degree segments for adjustment to any environment The sensor shall be able to provid ither wide angle or long range detection by change of optical mirrors Wide angel coverag shall detect intrusion out to 15 meters 49 feet and long range coverage out to 40 meters 130 feet The sensor shall allow adjustment masks for wildlife immunity for animals up to 10 20 30 45 kilogram 22 44 66 99 pounds 2 4 14 4 Duress Alarms UL 636 a Hardwire duress alarms Provide at points within the protected area as indicated Alarms shall be capable of being secretly activated by the foot or hand of an average adult in both standing and seated positions Alarms shall not be visible or audible from the sensor Alarm signal shall lock in upon activation until manually reset with a key or similar device and shall be readily identifiable by the ESS Sensors shall be easy to operate and designed to minimize the possibility of accidental activation Hardwire duress alarms shall be rated for a minimum
19. PMENT INSTALLATION YAU BWNE WWWN WWW WWW WP al n n ae ai WWW WW Ww WpWWWN bi H ie Dl LD APPLIED PAINTING Cable and Wire Runs Soldering Galvanizing Fungus Treatment Conduit Underground Cable Installation Exterior Fences ADJUSTMENT ALIGNMENT SYNCHRONIZATION AND CLEANING System Acceptance and Training ESS System Acceptance Test ESS Training Outline 1 ESS Administrator Training 2 ESS Operator Training Follow up Training Training Operating and Maintenance Personnel WW U eA WW Z D Z Di PLATE MOUNTING End of Se ction Table of Contents n ECTION 28 20 00 00 20 Page 3 ITITITTTITTITIZIIZIALICLICLI LI II ZII ZIA ZIA LIA LIA ke ke A ZI ZI ZII ZII ke e k k k ke ke kekk k k USACE NAVFAC AFCEC NASA UFGS 28 20 00 00 20 April 2006 Preparing Activity NAVFAC Superseding UFGS 13703N February 2004 UNIFIED FACILITIES GUIDE SPECIFICATIONS References are in agreement with UMRL dated October 2015 kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk SECTION 28 20 00 00 20 ELECTRONIC SECURITY SYSTEMS ESS COMMERCIAL 04 06 kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk NOTE This guide specification covers the requirements for commercial electronic security systems consisting of commercial equipment which is limited to a ful
20. Spectrum Center at 202 433 0689 OPNAVINST 2400 20E issued by OPNAV Code N60 previously Code OP941 telephone 703 695 7284 kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk System shall be a full duplex supervised RF polling specifically designed for alarm data communications with components manufactured by one manufacturer shall interface directly with central alarm reporting and display location and shall translate the data rate for RF transmission and transmit and receive System shall operate in the VHF 134 to 154 MHz band System ESS hardwire data link from control unit to reduce modulate and demodulate the data signal Provide a factory tested complete RF ESS data link which both automatically and upon operator command transmits a signal with a unique identification from the central alarm monitoring location to the control unit locations Message receipt at control unit location shall be ignored by all units except the address Unit shall decode the interrogation signal and respond with the correct address to the interrogation with the status of the reporting sensors When the addr reinterrogate Failure to respond a second time s supervision alarm polled in turn error rate and equipment reliability shall ensure vu ECTION 28 20 00 00 20 Page Remote units in the RF system shall Polling response time and transmission data rate
21. and time of day changes while system is armed so that area can only be disarmed during scheduled times j There shall be a minimum of a 4 000 event log buffer per PCU The log buffer shall be used to record and hold alarm activity information until the ESS is connected and receives the information There shall be a software configurable warning notification of log buffer filling for PCU s configured with modem capabilities k Support a Network Interface Card NIC plug in module with built in network router capable of 128 Bit AES Rijndael Encryption process certified by NIST National Institute of Standards and Technology ERETON Detection devices Include full range of interior point protection sensors volumetric space protection sensors exterior fence sensors and duress alarms Duress alarms shall be annunciated to be clearly distinguishable from other intrusion detection alarms silent at the reporting location and clearly distinguishable from other intrusion detection alarms at the central reporting processor 33523 Tamper Switches Enclosures cabinets housings boxes raceways and fittings with hinged doors or removable covers which contain circuits of the intrusion detection system and associated power supplies shall be provided with cover having corrosion resistant tamper switches Arrange tamper switches to initiate an alarm signal when the door or cover is moved as little
22. as 6 mm 1 4 inch from the normally closed position Mechanically mount tamper switches to maximize defeat time when enclosure covers are opened or removed Minimum amount of time required to depress or defeat the tamper switch after opening or removing the cover shall be one second Enclosure and tamper switch shall prevent direct line of sight to internal components and prevent switch or circuit tampering Conceal mounting hardware so switch cannot be observed from enclosure exterior Covers of junction boxes provided to facilitate initial installation of the system need not be provided with tamper switches if covers contain no splices or connections Tamper alarms shall be annunciated to be clearly distinguishable from intrusion detection alarms Tamper switches on doors which must be opened to make normal maintenance adjustments to the system and to service power supplies shall be the push pull set automatic reset type Tamper switches shall be E SECTION 28 20 00 00 20 Page 18 4 9 Safety ESS components shall conform to application rules and requirements of NFPA 70 and applicable UL publications 24 210 Human Engineering Displays other than wall mount LCD Plasma or DLP displays shall be housed in standard desk type consoles 480 mm 19 inch racks Central alarm reporting and display shall be designed for operation by one or more individual s Aural considerations shall include location of annun
23. be attacked Devices shall be surface semiflush pedestal or weatherproof mountable as specified for each individual location Each device shall contain a visual display either mounted on the face or an integral part to indicate access or exit request processing request approval and request denial Card readers shall be the proximity insertion swipe through type and shall be capable of reading magnetic stripe high coercivity magnetic stripe Wiegand Hollerith proximity Transmissive Infrared Keypad Keypad Smart Card Biometric type access control cards Keypads shall contain an integral 12 digit tactile keyboard with digits arranged in numerical order Keypad shall be a stand alone device or integrated into the card reader SECTION 28 20 00 00 20 Page 48 Video motion detection System VMD Video motion detection capabilities range from basic activity detection to the search through massive databases to pre empt serious incidents VMD capabilities have become a standard feature of common DVR s VMD algorithms are a software function t hey are programmed into chips and boards that can be installed in IP cameras stand alone modules digital video recorders and dedica ted computer processors VMD is also available as software for installation in off the shelf computers The complexity of these products varies greatly The IP cameras provide a s
24. buried installed in rigid galvanized steel conduit installed in electrical metallic tubing EMT as specified in Section 26 20 00 INTERIOR DISTRIBUTION SYSTEM Supervision circuitry shall not initiate nuisance alarms in response to normal line noise transients crosstalk or in response to normal parametric changes in the line over a temperature range of minus 35 to 52 degrees C 30 to 125 degrees F Ambient current levels chosen for line supervision shall be sufficient to detect tampering and shall be within the normal operating range of electrical components Line supervision and tamper alarms shall be reported regardless of mode of operation SECTION 28 20 00 00 20 Page 50 Provide hardwi INTERIOR DISTR and modifications specified herein Conductors for links which also carry ac voltage shall be No minimum single conductors for low voltage dc links shall be No 16 AWG minimum Conductors shall be color coded finished areas of new construction and wherever practical construction i conductors wit made markers or by units and com Each conductor color coded throughout cir alarm to sound Each circuit col re links as specified in UL 1076 and Section 26 20 00 IBUTION SYSTEM for interior applications with additions f not otherwis hin each enclosure where a tap precluded by the Government splice Conductors shall be coppe
25. inchesmaximum and construct in a symmetrical manner Provide sensor with sensitivity controls inaccessible to operating personnel Sensor shall be insensitive to human body movements in excess of 915 mm 36 inches from the antenna circuit Sensor sensitivity to alarm producing stimuli shall be readily adjustable from contact to 915 mm 36 inches with a heavily gloved hand Sensor shall not initiate nuisance alarms in response to normal ambient conditions Provide sensors with tamper switches Constantly supervise interconnecting lines and tamper switches even when system is set for authorized access Sensor shall not reset upon restoration of SECURE mode if antennas were altered during authorized entry to disable detection capability Vibration vault sensor Sensor shall sense short duration large amplitude signals like those produced in attacks from explosions hammering or chiseling It shall also detect long duration small amplitude signals like those produced in attacks from torches thermic lances drills grinders or cutting discs The sensor enclosure base shall be constructed of die cast aluminum with a stamped 22 gauge steel cover c Floor wall and ceiling protection 1 Vibration sensors Sensors shall sense and selectively amplify signals generated by forced penetration of a protective structure Sensors shall initiate alarms upon detecting drilling cut
26. longer than one 5 15 minutes adjustable Adjustment of time interval activation shall not be accessible to operations personnel SECTION 28 20 00 00 20 Page 41 2a 15 Automated Access Control System AACS Provide Automated access control system based upon a modular distributed microprocessor architecture complete with access control cards and ready for operation system shall interface with and provide alarm and other status to the overall ESS system shall provide monitoring and control for the ESS System shall meet the Grade AA communications requirements of UL 1076 and UL 294 and shall have the capability of controlling up to 4 8 16 card reader and keypad per card reader controller System shall grant or deny access or exit based upon keypad identification data card identification data video biometric iris scan biometric finger print reader identification data Smart card identification data or a combination of identification technologies input through the access control devices compared to data stored within the system as well as time of day and day of week Decision to grant or deny access or exit shall be based upon authorization for such data to be input at a specific location for the current time period Access decisions for high security areas shall be based upon combination of two identification technologies such as card and keypad or card and biometric The AACS primary fu
27. of building construction UFGS specifications kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk a Main service and distribution equipment suppressors The AC voltage SPD s shall be a high speed high current device designed to protect electrical systems and electronic equipment from transient over voltage The SPD shall provide continuous bi polar bi directional non interrupting protection and be capable of instant reset with no degradation in protection Gas tubes are not acceptable SECTION 28 20 00 00 20 Page 22 The SPD shall utilize SAD or MOV technology It shall start to suppress at a minimum of 115 percent of the peak voltage of the sine wave At maximum surge current dissipation the device shall not exceed the maximum voltage protection level The SPD shall be installed in para main sized as shown with an AIC rating equal to panel rating l have status indicator lights dry contacts with remote alarm shal lel with the service main disconnect distribution or branch panel lugs as shown on drawings Connect SPD to over current protection The suppressor capabilities and an audible alarm Suppressors shall be assembled as modul 1 lar units to permit quick easy replacement of failed components Electrical Service Voltage shall be as indicated on drawings Frequency 50 60 Hz Phases 3 phase Wiring configuration as indicated _
28. of alarms EOJ I is the least significant These priorities shall define which alarm events to display on individually specified ESS workstations d Reports The ESS shall include integrated reporting capabilities as well as the ability to run Crystal Report templates User Interface The ESS programming shall be menu driven with wizards to assist with software configuration and shall include on line Help information f Messages The ESS shall permit the use of user selected colors for vent messages g Graphics The ESS shall be capable of displaying a floor plan graphic for card activity and alarm events as part of the ESS integration h Device Status The ESS shall be capable of displaying the dynamic status of a user selected list of devices including doors inputs and outputs i Diagnostics The ESS shall include diagnostic software tools that interface and query the hardware for information and to issue commands j Mandatory Data Fields The ESS shall require any cardholder data field to be selected by the user as mandatory Mandatory data fields are to force ESS operators to input data that is required for proper system configuration SECTION 28 20 00 00 20 Page 64 User Defined Data Fields The ESS shall provide 20 unassigned data fields for storing user defined data The data fields shall support user defined labels and shall be user config
29. or forcing ommand shall not cause the ACU to degrade its level of protection to any access points defined Dial Out The ACU shall have the capability of using a modem to automatically connect event occurs The con be user defined and so Time Zone The AACS which the ACU is locat will match the local t User Selected LED Beh to the AACS when a critical alarm o ditions triggering the dial out cap ftware configurable r service ability shall shall allow the user to select the time zone in ed so that event times displayed f ime where the ACU is located avior The AACS shall allow the us or that ACU er to select different behaviors for the LEDs of each access controlled reader Traced Cards The AAC S shall be capable of selecting any number of cardholders for the purpose of limiting reports to only traced users The AACS shall be capable of displaying all traced cardho a user selected altern Badge Print Tracking ate color lder events in The AACS shall support setting a print limit for any badge The software will track the number of times any badge has been printed as well as display the date and time of recent printing SECTION 28 20 00 00 20 Page 46 the most System shall be designed to utilize the capabilities of multitasking operation with many processes running at the same time without interference with each other and with higher priority ta
30. per hour f Humidity 5 to 95 percent g Fungus Warm humid atmosphere conducive to the growth of heterotropic plants h Salt fog Salt atmosphere with 5 percent salinity i Snow Snow loading of 234 kg per square meter 48 pounds per square foot psf per hour blowing snow of 22 5 kg per square meter 4 6 psf per hour j Ice accretion Up to 12 7 mm 1 2 inch of radial ice k Wind Up to 80 km h 50 mph with gusts to 106 km h 66 mph except that fence sensors shall detect intrusions up to 56 km h 35 mph and 1 Acoustical noise Components shall be suitable for use in high noise areas above 110 dB such as flight lines runup pads and generator sites without adversely affecting their performance 43573 Transient voltage surge suppression Intrusion detection Automated Access Control CCTV video circuitry and communication circuits that lead to the SCC shall be protected at both ends against transient voltage surges Transient voltage surge suppressors TVSS or surge protection devices SPD are required for the protection within specified limits of AC electrical circuits and electronic equipment from the effects of lightning induced voltages external switching transients and internally generated switching transients Individual suppressors shall be installed where shown on the drawings kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkxkkk NOTE Line Items a thru e should be part
31. piezoelectric element Sensor shall have a sensitivity adjustment controlling output voltage from the piezoelectric element which triggers a solid state latching device Provide sensor with an LED for adjusting sensitivity Supply sensor with a two sided polyurethane tape with acrylic adhesive Provide sensor with an exterior label to protect tape from direct sunlight Sensor shall not initiate alarm in response to seismic vibrations or other ambient stimuli Test glass breakage sensors by using test units supplied by the manufacturer which simulate glass breakage b Ceiling or Wall Mounted Dual technology glassbreak sensor Sensor shall detect window breakage by responding to acoustic frequencies that accompany breaking glass The sensor shall be combined with a passive infrared motion detector PIR for the purpose of eliminating occupant generated false alarms It will extend coverage to occupied areas allowing the sensors to be armed while people are present c Ceiling or Wall Mounted Recessed glassbreak sensor A recessed glassbreak sensor is to be used when appearance is a consideration Recessed models can be mounted directly to the wall or ceiling or can be installed on a single gang box The sensor shall employ pattern recognition technology that listens for the actual pattern of breaking glass The sensor shall be able to detect the difference from breaking glass and n
32. shall be solid state type or electromechanical The PCU shall have an over current notification LED that lights when devices connected to the Keypad Bus or communication Bus es draw more current than the PCU is rated for When the over current LED lights the communications Bus es and Keypad bus are to shut down The PCU shall provide at a minimum but not limited to the following capabilities a Expansion to a total of at least 10 000 user codes with 99 ____ user profile definitions Shall support 4 8 16 keypads with alphanumeric display Each keypad shall be capable of arming and disarming any system area based on a pass code or Proximity card and or key FOB authorization The keypad alphanumeric display shall provide complete prompt messages during all stages of operation and system programming and display all relevant operating and test data SECTION 28 20 00 00 20 Page 17 c Four 4 shift schedules per area d A total of at least 100 programmable output relay schedules e 32 64 individual reporting areas f Built in bell and telephone line supervision g Require two man access code or credentials h Support programming to require the same or different access code entered within a programmed delay time of 1 to 15 minutes after disarming before activating a silent ambush alarm i Support area programming that disables schedule
33. stations Integrated system capabilities shall include but not be limited to Intrusion Detection Automated Access Control Intercommunications CCTV and Photo Badge Identification Each system shall be complete and ready for operation and provide for a fully integrated central station solution Existing system was manufactured by and new equipment shall be compatible with and operate accurately and reliably with the existing system Include materials not normally furnished by the manufacturer with the ESS equipment as specified in Section 33 71 02 UNDERGROUND ELECTRICAL DISTRIBUTION and Section 33 71 01 OVERHEAD TRANSMISSION AND DISTRIBUTION and Section 26 20 00 INTERIOR DISTRIBUTION SYSTEM 4 1 Design Requirements v4 1 1 Backup Battery Capacity Calculations Submit calculations showing that backup battery capacity exceeds sensor operation communications supervision and alarm annunciation power requirements 4 1 2 Probability of Detection Calculations Submit calculations showing probability Detection Pd meets the requirements for the ESS in accordance with paragraph entitled Combinational Processing 9 SUBMITTALS kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk NOTE Review Submittal Description SD definitions in Section 01 33 00 SUBMITTAL PROCEDURES and edit the followi
34. supply card shall have a trouble LED for the LCD that lights and sounds an alert when the LCD is unplugged The alert shall be able to be silenced by pressing a silence button on the modem power supply card or software control form ESS 4 Modem power supply card shall have a trouble LED for the UPS that lights and sounds an alert when the UPS Brownout input is opened The alert shall be able to be silenced by pressing a silence button on the modem power supply card or software control form ESS 5 Modem power supply card shall have a trouble LED for the AC power to the transformer card that lights and sounds an alert when the AC power to the transformer card fails The alert shall be able to be silenced by pressing a silence button on the modem power supply card or software control form ESS Special Applications Features Receiver shall be able to act as a communications path to panels for Trapping of PCU s for Remote Programming Interrogation processes Receiver shall work in conjunction with the ESS in pass thru configuration with an Automation System to Trap a PCU and send notification for the panel to contact the remote link Programming Software for remote interrogation in a Network Application TCP IP Network Trapping Multibus Power Supply Card 1 Multibus power supply card shall provide power to the processor card through the multibus backplane It also shall be able to monitor the condition
35. 1 ESS components GI I Overall system schematic G SD 03 Product Data n ECTION 28 20 00 00 20 Page 9 Interior point sensors GI I Interior volumetric sensors G I 1 Duress alarms GI I 1 Card reader G I Keypad GI I Biometric finger print reader G I Communications cable G I 1 Microwave sensors G Radio frequency link communications systems G 1 Communications interface devices G I 1 CCTV camera G CCTV lenses G Auxiliary CCTV camera equipment G I Video tape recorder G Video Digital Video Recorder DVR GI I Video Biometric Iris Scan G 1 Printer GI Uninterruptible power supply UPS GI I Batteries G Graphic map display GI Four quadrant multiplexer G I SD 05 Design Data Backup battery capacity calculations G Probability of Detection Calculations SD 06 Test Reports ESS operational test plan GI I SD 07 Certificates ESS operational test plan GI I Installer s qualifications G I 1 Instructor s qualifications GI I SECTION 28 20 00 00 20 Page 10 SD 10 Operation and Maintenance Data ESS components Data Package 5 G I ESS software Data Package 1 GI ____ Submit in accordance with Section 01 78 23 OPERATION AND MAINTENANC
36. 37 1999 Reprint Dec 2009 Safety Antitheft Alarms and Devices 1076 1995 Reprint Mar 2015 Proprietary Burglar Alarm Units and Systems 1610 1998 Reprint Mar 2015 Standard for Central Station Burglar Alarm Units 294 2013 Reprint Feb 2015 Access Control System Units 497B 2004 Reprint Dec 2012 Protectors for Data Communication Circuits 636 1996 Reprint Jan 2013 Holdup Alarm Units and Systems 639 2007 Reprint May 2012 Standard for Intrusion Detection Units 681 2014 Installation and Classification of Burglar and Holdup Alarm Systems 796 2010 Reprint Sep 2013 Standard for Printed Wiring Boards STANDARD PRODUCTS Material and equipment shall be the standard products of a manufacturer regularly engaged in the manufacture of such products Items of equipment sha lea ll essentially duplicate equipment that have been in satisfactory use at st 2 years prior to bid opening Equipment shall be supported by a service organization that is in the opinion of the Contracting Officer rea 3 sonably convenient to the site DEFINITIONS Unless otherwise specified or indicated electrical and electronics terms used in these specifications and on the drawings shall be as defined in IEEE 100 a Active mode That in which some type of signal is continuously sent across the link resulting in simple link breaks being readily detected Fail safe The capability
37. 6 20 00 INTERIOR DISTRIBUTION SYSTEM applicable DOD directives DIA DCID 6 9 and as specified herein Conduits including flexible metal and armored cable shall terminate in the sensor or device enclosure Ends of conduit shall be fitted with insulated bushings Exposed conductors at ends of conduits external to sensors and devices are not acceptable Balez Soldering ASTM B32 For soldering electrical connections use composition Sn60 Type AR or S for general purposes use composition Sn62 or Sn63 Type AR or S for special purposes When Type S solder is used for soldering electrical connections flux shall conform to ASTM B32 SECTION 28 20 00 00 20 Page 71 tbe Galvanizing Ferrous metal shall be hot dip galvanized in accordance with ASTM A123 A123M Screws bolts nuts and other fastenings and supports shall be corrosion resistant Led Fungus Treatment Completely treat system components for fungus resistance Do not use treated materials containing mercury bearing fungicide Treating materials shall not increase flammability of material or surface being treated Treating materials shall not cause skin irritation or other personnel injury during fabrication transportation operation or maintenance of equipment or during use of finished items when used for the purpose intended 155 Conduit kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk NOTE Where design re
38. E DATA and Section 26 00 00 00 20 BASIC ELECTRICAL MATERIALS AND METHODS SD 11 Closeout Submittals As Built drawings for ESS GI ____ Posted operating instructions for ESS G ____ GI 6 QUALITY ASSURANC Oil Drawings 61 ESS Components Submit drawings that clearly and completely indicate the function of each ESS component Indicate termination points of devices and interconnections required for system operation Indicate interconnection between modules and devices In addition submit a layout drawing showing spacing of components location mounting and positioning details rbe Tad Overall System Schematic Indicate the relationship of integrated components on one diagram and show power source system controls impedance matches plus number size identification and maximum lengths of interconnecting wires Drawings shall be not less than 420 by 297 mm 11 by 17 I inches 262 Evidence of Experience and Qualifications 6 5231 Installer s Qualifications Prior to installation submit data of the installer s experience and certified qualifications Show that the installer who will perform the work has a minimum of 2 years experience successfully installing ESS of the same type and design as specified herein Include the names locations and points of contact of at least two installations of the same type and design as specified herein where the inst
39. ITITITITTTITIZITZIZLI ZLI CLI II LIS LI ALIA e e ZI II ZII LI IA LI LI ke e kek k k ke ke kkk k k USACE NAVFAC AFCEC NASA UFGS 28 20 00 00 20 April 2006 Preparing Activity NAVFAC Superseding UFGS 13703N February 2004 UNIFIED FACILITIES GUIDE SPECIFICATIONS References are in agreement with UMRL dated October 2015 kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk SECTION TABLE OF CONTENTS DIVISION 28 ELECTRONIC SAFETY AND SECURITY T SECTION 28 20 00 00 20 ELECTRONIC SECURITY SYSTEMS ESS COMMERCIAL 04 06 PART 1 GENERAL EFERENCES NDARD PRODUCTS INITIONS TEM DESCRIPTION Design Reguirements adito L Backup Battery Capacity Calculations 1 4 1 2 Probability of Detection Calculations 1 5 SUBMITTALS 1 6 QUALITY ASSURANCE 6 1 Drawings sd ESS Components ah Overall System Schematic Evidence of Experience and Qualifications pi Installer s Qualifications Zi Instructor s Qualifications Regulatory Reguirements iL Reference Standard Compliance 332 Independent Testing Organization Certificate ESS Operational Test Plan User s Software Data Standard Products Eul Alternative Qualifications 6 2 Material and Equipment Manufacturing Date Pree Peo WU Ne bh N D d d UU SI DA AWA AN DO w PE Oi Oy a i kl PART 2 PRODUCTS ESS SUBSYSTEMS IN
40. MHz The low frequency distortion shall be measured for every camera output over every normal program path to t input of the associated monitor Distortion shall be less than 2 perce at line and field rates Peak to peak signal to rms noise ratio shall measured for every camera output via the normal program path at input o the associated monitor Terminate circuits except the one under test inputs and outputs Hum and noise shall be 60 dB below 1 0 Vp p 224617 3 Video Matrix Switchers Switching shall interface multiple video signals cameras with one or monitors Switching shall be timed to occur during the video signal blanking period vertical interval switching When an ESS zone goes in alarm a signal shall be sent from the alarm reporting and display processor to the switcher When the zone is covered by CCTV cameras switcher shall call up the camera views for display on one or more of t dedicated video monitors wired to the switcher In the case of multipl alarms applicable camera numbers shall be stored in an alarm queue unt zones are manually called up for viewing First video display out of t queue shall be from the last reported alarm Active alarms shall cycle he nt be f at more CO he e il he between the alarm queue and video monitors as various zones are called up SECTION 28 20 00 00 20 Page 56 for viewing Alarms shall not leave the cycle until secured reset o
41. TEGRATED SYSTEM FUNCTIONAL REQUIR eZee Growth Capability v2 02 Intrinsically Safe INTEGRATED SYSTEM PERFORMANC gL Detection Coverage 2 Detection Resolution Sensitivity 3 Detection Alarm and Reporting Capacity NIN J ENTS gaj REQUIREMENTS w N NNNWWNNNF Ww w n ECTION 28 20 00 00 20 Page 1 N NNNNN SA NNN N NH NNWWSNNNNNNWWWNNW Nb NNNI6b5sbNNNNNHIbsLNNNNEKENNNNNNKLK NNNKNNKDK bLALNNNKIKD KDALHKDLHIKA Spr pspibsasarPhAbbbADFAbAbASD bDFrFASbADADb5 Db DSDFFSASD b DFrFrFSAbAbrWwW0 JIA A bd DSUDSWNPRMUWWIADUW WWW WWU WWW A Y 0 1 wa U U U A A A VIN T 17 Modularity Probability of Detection aa Combinational Processing 2 Other System Success Considerations Intrusion Detection System IDS sil Premise Control Unit PCU 2 Detection devices 3 Tamper Switches 4 Fail Safe Capability 5 Line Fault Detection 6 Power Loss Detection Manual and Self Test Electrical Power sil Primary Power 2 Backup Power EM PERFORMANCE REQUIREMENTS Reliability Maintainability Availability Environmental Conditions Interior Conditions oral DZ Exterior Conditions Dl Transient voltage surge suppression Electromagnetic Interference EMI Electromagnetic Radiation EMR Interchangeability Safety Human Engineering 10 1 Visual Annunciators 1042 Contro
42. a bi bel Metal Thickness Thicknesses of metal in cast and sheet metal enclosures of all types shall be not less than those listed in Tables 8 1 8 2 and 8 3 of UL 1610for alarm components and NEMA ICS 2 and NEMA ICS 6 for other enclosures Sheet steel used in fabrication of enclosures shall be not less than 16 gage except consoles may be 18 gage 22461352 Doors and Covers Doors and covers shall be flanged Where doors are mounted on hinges with exposed pins the hinges shall be of the tight pin type or the ends of hinge pins shall be tack welded to prevent ready removal Provide doors having a latch edge length of less than 600 mm 24 inches with a single lock Where latch edge of a hinged door is 600 mm 24 inchesor more in length provide the door with a three point latching device with lock or alternatively with two locks one located near each end Covers of junction boxes provided to facilitate initial installation of the system shall be held in place by tack welding brazing or one way screws SECTION 28 20 00 00 20 Page 27 components to facilitate modular subassembly and part replacement eda Reliability Provide only new components in current manufacturing production manufactured to meet reguirements specified herein and free from characteristics and defects which affect appearance or serviceability or render equipment unsuitable for the intended purpose MTBF for component shall not be less tha
43. ability to be user configured to belong to one of 10 000 priority levels Priority levels are numbers assigned to an alarm based on the importance of the alarm 9 999 is the highest and most critical level of alarms EOJ I is the least significant These priorities shall define which alarm events to display on individually specified ESS workstations d Reports The ESS shall include integrated reporting capabilities as well as the ability to run Crystal Report templates User Interface The ESS programming shall be menu driven with wizards to assist with software configuration and shall include on line Help information f Messages The ESS shall permit the use of user selected colors for vent messages g Graphics The ESS shall be capable of displaying a floor plan graphic for card activity and alarm events as part of the ESS integration h Device Status The ESS shall be capable of displaying the dynamic status of a user selected list of devices including doors inputs and outputs i Diagnostics The ESS shall include diagnostic software tools that interface and query the hardware for information and to issue commands j Mandatory Data Fields The ESS shall require any cardholder data field to be selected by the user as mandatory Mandatory data fields are to force ESS operators to input data that is required for proper system configurati
44. accompanying Shop drawings The IDS primary functions shall be to detect intrusion to secured areas The system shall util lize a single database for all IDS programming data that shal seamlessly integrate with the ESS This integration shall be provided under one operating environment The IDS events shall be viewable as separate or as a combined list of all ESS events Overall control of the IDS intrusion alarm monitoring shall be through software control of the ESS The IDS shall provide both supervised and non supervised alarm point monitoring The system shall be capable of arming or disarming alarm points both manually and automatically by time of day day of week or by operator command Components shall include but not be limited to the following a b g Siad PCU Premise Control Units PCU Detection devices Tamper switches Fail safe capability Line fault for hardwire systems only detection Power loss detection Battery Backup 1 Premise Control Unit PCU shall include a command processor installed in an attack and tamper resistant enclosure The PCU shall be packaged and include a power transformer battery s network connection cable keypad s keypad connection cable s and additional components as required All system electronic components shall be solid state type mounted on printed circuit boards Light duty relays and similar switching devices
45. ained over the specified input voltage and frequency range and shall not vary more than 100 TV lines from minimum specification over the specified operating temperature range Composite video output level shall be automatically maintained to within plus or minus 0 1 volt over scene changes of 2 69 lux to 107 600 lux 0 25 footcandle to 1 by 104 footcandles with lenses of f 1 4 and greater Interior Horizontal resolution shall be at least TV lines Vertical resolution shall be at least 350 TV lines 480Resolution shall be maintained over the specified input voltage and frequency range CCTV lenses Provide lenses with automated light level metering device and Lig ave for wit Aux mou eac an auto iris Provide each lens with a metal density spot filter ht adjustment by the automatic metering device shall be a weighted rage rather than a simple average or a peak response Provide lenses 1 3 and 1 4 inch format cameras Provide lenses which are mountable h standard C or CS mounts iliary CCTV camera equipment Equipment shall consist of camera nts and housings with environmental protection as applicable for h camera Camera mounts shall be heavy duty industrial type shall provide stable support for the camera and shall be the configuration specified for each individual camera location Housing shall protect the camera to ensure continuous 24 hour per day operation under sp
46. aller has installed such systems Indicate the type of each system and certify that each system has performed satisfactorily in the manner intended for a period of not less than 12 months 162222 Instructor s Qualifications Prior to installation submit data of the instructor s experience and certified qualifications Show that the instructor who will train operating and maintenance personnel has received a minimum of 24 hours of ESS training from a technical organization such as the National Burglar and Fire Alarm Association and 2 years experience in the installation of ESS of the type specified SECTION 28 20 00 00 20 Page 11 2 3 4 2 Other System Success Considerations kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkxkxkk NOTE Select the most restrictive choice s based upon the degree of annunciation granularity required kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk kkkkkkkkkkkkkkkkkkkkkkkkxkxkk a False alarm An alarm which does not result from a valid intrusion by personnel vehicles other moving objects or nuisances but rather as a result of an internally generated sensor or other system component noise The false alarm rate shall not exceed one per 30 days for each sensor zone b Nuisance alarm May result from sources external to the system which provide sensor stimuli similar to those of personnel vehicles or moving objects such a
47. arm Systems 796 2010 Reprint Sep 2013 Standard for Printed Wiring Boards STANDARD PRODUCTS Material and equipment shall be the standard products of a manufacturer regularly engaged in the manufacture of such products Items of equipment sha lea ll essentially duplicate equipment that have been in satisfactory use at st 2 years prior to bid opening Equipment shall be supported by a service organization that is in the opinion of the Contracting Officer rea 3 sonably convenient to the site DEFINITIONS Unless otherwise specified or indicated electrical and electronics terms used in these specifications and on the drawings shall be as defined in IEEE 100 a Active mode That in which some type of signal is continuously sent across the link resulting in simple link breaks being readily detected Fail safe The capability to monitor system functions and report an alarm when a failure is detected in a critical system function Installer Either the Contractor or a subcontractor with whom the Contractor has a firm contractual agreement Intruder An animate object at least 1220 mm 48 inches in height 34 kg 75 pounds in weight and 0 113 cubic meter 4 cubic feet in volume moving through the protected zones or portals at a velocity of 30 to 3000 mm 0 1 to 10 feet per second n ECTION 28 20 00 00 20 Page 7 2 UNDERWRITERS LABORATORIES UL 10
48. armed Deb ifo2 Video Signal Requirements apply to the video signal present at the video monitor input Standard system video level shall be one volt peak to peak Vp p composite video and sync Standard system impedance shall be 75 ohms over the freguency range 0 to 5 MHz System timing and synchronizing waveform s i hall be according to SMPTE 170M Peak to peak amplitude of the composite TV waveform shall be one volt and shall be referred to as standard system video level Waveform shall be measured in IRE units on the IRE scale graticule where 140 IRE units represent one volt Synchronizing pulse amplitude of a composite video signal of standard system video level shall be measured from blanking level to negative peak of the sync pulse and shall be 40 IRE units 0 3 volt nominal Video amplitude of a composit video signal of standard system video level shall be measured from blan level to reference white level and shall be 100 IRE units 0 7 volt nominal Picture setup of a composite video signal of standard system video level shall be 7 5 IRE units 7 5 percent of the video amplitude e king Pulse overshoot shall be less than 2 percent of the pulse amplitude Video Signal voltage frequency response shall be measured from camera output to video monitor input It shall be plus or minus 2 dB from 60 Hz to 5 MHz and not more than 3 dB down at 6
49. be uniquely modulated to prohibit an intruder from shining another light source into the receiver to escape detection Provide a means of local alarm indication on the sensor for use at the protected zone during installation and calibration Provide with an indicator disabling device within the sensor enclosure Sensor shall consist of modulating transmitter focusing lenses mirrors demodulating receiver power supply and interconnecting lines House elements in tamper alarmed enclosure Receiver unit shall provide an alarm relay with contacts capable of carrying 2 amperes at 120 volts ac minimum Protective beam shall be focused in a straight line Installed beam distance from transmitter to receiver shall not exceed 80 manufacturer s maximum recommended rating percent of the Mirrors may be used to xtend the beam or to establish a network of beams Each mirror used shall derate the maximum system range by no more than 50 percent Mirrors and photoelectric sources used in outdoor applications shall have self heating capability to eliminate condensation and shall be housed in weatherproof enclosures System shall utilize automatic gain control or be provided with sensitivity adjustments to allow for various beam lengths Controls shall be inaccessible to operating personnel With controls set at approximately midrange system shall initiate an alarm when the beam is interrupted Test syste
50. ble twisted pair or fiber optics dedicated to the associated circuit Interior cable shall be installed in conduit unless indicated otherwise Cable shall be designed for the installation method intended Exterior cable runs shall be underground a Coaxial cable Coaxial cable used shall provide a DC resistance rating of less than 15 ohm 1000 solid copper center conductor and 95 percent braided pure copper shield Twisted pair wire Use point to point unshielded twisted pair wire 24 16 AWG stranded or solid Category 2 or better The video signal may co exist in the same wire bundle as other video telephone data control or low voltage power The wire shall be installed with no bridge taps loading coils talk battery or MOV type protectors The high bandwidth signal will not pass through a telephone switching system however multiple punch blocks are okay Twisted pair wire distance Distance includes any coax in the path Wire distance shall be measured to ensure the capability of the product is not exceeded Wire resistance may be measured with an ohm meter by shorting the two conductors together at the far end and measuring the loop resistance out and back Twisted pair wire with DVR When using a digital video recorder reduc SECTION 28 20 00 00 20 Page 57 distance by 25 percent due to lower tolerance of the digital video recorder to synch level and overall video signal
51. ce requirements for temperatures as low as minus 17 degrees C zero degrees F b Pressure Sea level to 4 573 meters 15 000 feet above sea level c Relative humidity 5 to 95 percent d Fungus Components shall be constructed of nonfungus nutrient materials or shall be treated to inhibit fungus growth and e Acoustical noise Components shall be suitable for use in high noise areas above 100 dB such as boiler rooms power plants and foundries without adversely affecting their performance Ay Di2 Exterior Conditions Components mounted in locations exposed to weather shall be housed in corrosion resistant enclosures with appropriate environmental protection Component performance shall not degrade because of improper housing design SECTION 28 20 00 00 20 Page 21 Components in enclosures shall meet performance requirements when exposed to the following ambient conditions a Temperature Minus 32 to 60 degrees C Minus 25 to 140 degrees F b Pressure Sea level to 4 573 meters 15 000 feet above sea level c Solar radiation Six hours of solar radiation at dry bulb temperature of 60 degrees C 120 degrees F including 4 hours of solar radiation at 0 00112 watts per square millimeter 104 watts per square foot d Sand and dust Wind driven for up to 9 6 km per hour 6 ___ miles per hour e Rain 50 mm 2 inches per hour and 125 mm 5 inchesper hour cyclic with wind plus one period of 300 mm 12 inches
52. ciators tone pitch quality and intensity Number of different audible signals shall not exceed four Component design shall provide for ease of accessibility for maintenance 4 10 1 Visual Annunciators Annunciators shall be either liquid crystal displays LCDs Plasma Display DLP projection Display or light emitting diodes LEDs Annunciators shall be so connected in the circuit that a failure of the annunciator socket or protective circuitry shall not result in an improper or indeterminate signal LCD Displays Plasma Display DLP projection Display and LEDs shall be compatible with standby power supplies LCDs shall be back lit with a minimum 800 1 contrast ratio Plasma and DLP projection shall produce no less than a 3000 1 Contrast ratio LEDs shall be brightly lit and visible from a distance of 9 meters 30 feet in an area illuminated at 805 lux 75 footcandles Use LEDs in outdoor applications or in the presence of sunlight Signals shall be clearly visible from a distance of 9 meters 30 feet in an area illuminated at 805 lux 75 footcandles LCDs and LEDs shall be used for remote display to provide status indications within a secured area LCDs Plasma Displays and DLP projection Displays shall be used in Central monitoring Stations and interfaced to the ESS Servers and workstations da TOZ Controls Provide to ensur ase of operation of specified characteristics Wher
53. cutive shall accomplish in real time the scheduling and sequencing of programs for execution Each program shall be assigned a priority level Provide priority levels in sufficient number to provide total functional operation as specified Software shall be menu driven Menu reconfiguration and other actions which could in any way compromise the security and integrity of the ESS shall be password controlled A minimum of eight password levels shall be provided Software provided shall be documented in a user s manual which shall be approved by the Government prior to system implementation 2 4 12 Test Points Test points controls and other adjustments inside enclosures shall be readily visible and accessible with minimum disassembly of equipment Test points and other maintenance controls shall not be readily accessible to operator personnel 213 Component Enclosures Consoles annunciator housings power supply enclosures sensor control and terminal cabinets control units wiring gutters and other component housings collectively referred to as enclosures shall be formed and assembled to be sturdy and rigid Zia bi bel Metal Thickness Thicknesses of metal in cast and sheet metal enclosures of all types shall be not less than those listed in Tables 8 1 8 2 and 8 3 of UL 1610for alarm components and NEMA ICS 2 and NEMA ICS 6 for other enclosures Sheet steel used in fabrication of enclosures shall be
54. d from corrosion resistant metal Each end of the armored cord shall terminate in a junction box or other enclosure Armored cord ends shall be mechanically secured to the junction boxes by clamps or bushings Conductors within the armored cord shall be provided with lug terminals at each end Jumpered conductors and the armored cord shall experience no mechanical strain as the door is removed from fully open to closed Switch circuit shall initiate an alarm if a short circuit is applied to the door cord kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk NOTE Regarding the text below show a junction box above each door so that slack in conductors serving switches cannot be accessed when switch mounting screws are removed If building construction does not permit junction box location above doors specify switches to be epoxy glued in place after preliminary testing kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk SECTION 28 20 00 00 20 Page 29 c Recessed BMS The recessed BMS shall have a minimum three preadjusted reed switches and two three preadjusted magnets Field adjustments in the fixed space between magnet and switch housing shall not be possible Attempts to adjust or disturb the magnetic field shall cause a tamper alarm Ball bearing door trips shall be mounted within vault door headers such that when the locking mechanis
55. deo into 75 ohms Horizontal tilt Less than plus or minus one percent g Vertical tilt Less than plus or minus 5 percent 2 Audio performance requirements shall be as follows a Number of channels One minimum b Bandwidth Audio one 75 Hz to 10 kHz plus or minus 4 dB audio two 250 Hz to 7 5 kHz plus or minus 4 dB c Signal to noise ratio 40 dB relative to 3 percent total harmonic distortion THD level at one kHz da Flutter Less than 0 25 percent rms 0 5 to 250 Hz e Input Microphone 0 4 mV minimum 200 ohms Line minus 20 to 16 dBm 600 ohms unbalanced or balanced SECTION 28 20 00 00 20 Page 62 f Output Balanced or unbalanced into 600 ohms e Four quadrant multiplexer Unit shall digitally capture full video from four unsynchronized sources and reduce these images to quarter screen size and combine images to provide a real time video output for display of the four inputs in four quadrants of a single monitor 1 Video performance requirements shall be as follows a Input level One Vp p nominal into 75 ohms from a 525 line 60 fields per second source b Output level One Vp p nominal into 75 ohms c Alarm inputs Four rear panel mounted d Alarm outputs Relay contacts rear panel mounted e Video inputs Four looping f Switching Five position front panel mounted g Memory 512 by 512 pixels minimum digital and h Gray scale 64 level 2
56. e Conductors utilized for surge suppressor connections to service conductors shall be a minimum of 6 AWG stranded insulated copper unless otherwise specified 2 Bus Ground bus or strip material where used shall be copper a minimum of 1 4 inch thickness and two inches wide unless otherwise specified Bus materials shall be secured to surfaces with appropriate insulators and mechanical fasteners Bus connections shall be bolted and reinforced as necessary to provide a permanent and secure connection 3 Connections Compliance Connectors splices and other fitting used to interconnect grounding conductors bonding to equipment or ground bars shall comply with requirements of the National Electric Code and be accepted by Underwriters Laboratories for the purpose 4 Connectors Connectors and fitting for grounding and bonding conductors shall be of the compression type in above grade locations Connections below grade shall be exothermically welded 5 Dissimilar Materials Bonding connections between electrically dissimilar metals shall be made using exothermic welds or using bi metal connectors designed to prevent galvanic corrosion f Communication Lines The following standard for separately mounted telephone and signal line suppressors shall apply All protectors shall be securely mounted at protected equipment location All suppressors shall provide common L G mode protection on all lines Suppressors shall be tes
57. e applicable clockwise rotation of controls shall result in an increasing function Controls switches visual signals and indicating devices input and output connectors terminals and test points shall be clearly marked or labeled on the hardware to permit quick identification intended use and location Terminal markings and labels shall be of a permanent and legible type and located to be visible when associated system wiring is in place Identification markings shall be associated with each adjustment device or item requiring periodic maintenance Safety warning or cautions shall be marked in conspicuous red letters Control and indicator identifications that are exposed outside enclosures shall be permanent machin ngraved letters painted to contrast with background color Controls not required for system operation shall be inaccessible to the system operator 4 11 Computer Software Software shall be comprised of computer programs and computer data bases as required Software shall be categorized as mission software and support software SECTION 28 20 00 00 20 Page 26 24d el Mission Software Mission software shall consist of software implemented to provide complete operation of the ESS 2 4 11 2 Support Software Support software shall consist of software implemented to support system operation such as system setup and off line maintenance routines 2 4 11 3 Software Performance Requirements
58. e loose fence fabric might prove troublesome A rigid fence and fence fabric shall be ensured to minimize nuisance alarms Fences shall be additionally braced provided with fabric ground anchors or curbs tensioning devices top and or bottom rails soft seated gate latches and reanchored outriggers for barbed wire to ensure a vibration free installation Relocate large signs which are fence supported to separate support posts to preclude interference with fence detection systems SECTION 28 20 00 00 20 Page 72 3 iz ADJUSTMENT ALIGNMENT SYNCHRONIZATION AND CLEANING Subsequent to installation clean each system component of dust dirt grease or oil incurred during installation or accrued subsequent to installation from other project activities and prepared for system activation by manufacturer s recommended procedures for adjustment alignment or synchronization Prepare each component in accordance with appropriate provisions of component installation operations and maintenance manuals Remove large vegetation that may sway in the wind and touch fencing 23 ESS System Acceptance and Training adi ESS System Acceptance Test ESS System Acceptance testing shall be performed as follows a The NAVFAC and NAVFAC Engineer will conduct final acceptance testing of the system b Prior to the final acceptance test security contractor shall conduct a complete test of the en
59. ecified environmental conditions Housing shall be constructed of a durable material Access to housing shall allow for camera and auto iris removal and replacement within plus or minus 0 0087 rad 0 5 SECTION 28 20 00 00 20 Page 55 degree both vertical and horizontal centerline alignment Sealed housings shall be pressurized with dry nitrogen or contain two units of desiccant in the camera body area Install a 10 20 and 30 percent humidity level indicator strip in a position that allows inspection hrough the enclosure faceplate Where used thermostatically s used in housing to prevent high temperature it shall be 9 0 cr Hew Act ral operation Provide terminal strips for power inside environmental ontrolled heaters shall be located near the auto iris and faceplate nd near the midsection of the camera body Where ventilation blower hermostatically controlled Hinged louvers shall close over blower xhaust when blower is off For exterior cameras video sync tamper nd power cables shall enter camera housing via weatherproof fittings ntry into housing shall not interfere with housing heaters or blower housings to distribute 120 volts ac for the camera heater and blower as applicable Provide enclosure sunshade as indicated for exterior camera location Provide indoor environmental enclosures which are lockable and dustproof Enclosures shall be tamper al
60. ed however shall not exceed the maximum length permitted by manufacturer to maintain the maximum voltage protection level Suppressors may be installed within switchgear or panel boards where UL label or listing is not affected suppressors are completely and easily accessible indicator lights are visible and audible alarm can be easily heard SECTION 28 20 00 00 20 Page 23 c Enclosures Enclosures for main service suppressors shall be as follows Minimum 14 gauge painted steel or suitable enclosure to meet the NEMA selected requirements as listed d Operation Status Indicator Audible Remote Signaling and Visual Systems 1 Visual System a Protection Suppressor Working Green LED s b Warning Fault Suppressor Failure Red LED s Cc LED s shall be field replaceabl d Other visual indicators where approved 2 Remote Signaling Relay with Auxiliary for C contacts Two sets at 2 ampere 120 volts each 1 Set N 0 and 1 set N C to operate upon failure of suppression module blown fuse or tripped circuit breaker in suppressor module or in disconnect switch for alarm connection to remote location 3 Audible The audible alarm shall activate upon a fault condition within the suppressor An alarm silence reset switch and push to test switch shall be provided e Bonding and Grounding Conductors and Materials for Main Service Suppressors 1 Siz
61. ed by modems which function as a communications controller perform data acquisition and distribution buffering message handling error checking and signal regeneration as required to maintain communications 2 4 16 1 Link Supervision a Hardwire direct current line supervision Provide only for sensor to control unit links which are within ESS protected area Circuit shall be supervised by monitoring changes in the current that flows through the detection circuit and a terminating resistor of at least 2 2 kohms Supervision circuitry shall initiate an alarm in response to opening closing shorting or grounding of conductors by employing Class C standard line security Class C circuit supervisor units shall provide an alarm response in the annunciator in not more than one second as a result of the following changes in normal transmission line current 1 Five percent or more in normal line signal when it consists of direct current from 0 5 through 30 milliamperes 2 Ten percent or more in normal line signal when it consists of direct current from 10 microamperes to 0 5 milliampere 3 Five percent or more of an element or elements of a complex signal upon which security integrity of the system is dependent This tolerance will be applied for frequencies up to 100 Hz 4 Fifteen percent or more of an element or elements of a complex signal upon which the security integrity of the syst
62. efer to DCID 6 9 Use of recessed BMS is recommended during new installations For non high security applications the use of magnetic switches is recommended as specified in d Coordinate with Architect to ensure proper door hardware elect strike hinges etc are provided kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkxk a Door and window protection Accomplish by one or more of the following 1 Magnetic Switches Magnetic switches shall be surface mounted SECTION 28 20 00 00 20 Page 28 recessed Magnetic switches shall have a magnetic field with a high probability of alarm if an external magnet is introduced in defeat attempts Provide each magnetic switch with an overcurrent protective device rated to limit current to 80 percent of switch capacity The magnetic switch housing shall be protected from unauthorized access by encapsulating reed switches in a polyurethane potting compound Magnetic switch shall be rated for a minimum lifetime of one million operations House magnetic switch components in enclosures made of nonferrous materials Balanced Magnetic Switches shall be used for high security application and Standard Magnetic switches for all other applications a Balanced magnetic switches BMS Switches shall be surface mounted and recessed as indicated and shall have a minimum of three encapsulated reed switches Switches shall activate when a disturbance in the ba
63. el combination with adjustments compensation for winds up to mph without increased sensor performance midrange sensor shall fence liftings or scalings 40 individu n a sufficient number of sensed within a specified time period d adjustable by zone and shall in to j al sensing units permit Sensor uding sc aids leaned against the fence fence position alarmed or self protecting rugged corrosion resistant enc degradation alarms due to expansion increased numbers of nuisance al Exterior components shall be Sensors settli larms S LOSUres Provide sensor zone control unit housings with Fence cable support hardware shall be weather resistant 56 nuisance alarms while maintaining specified With sensitivity controls set at approximately alarm when an intruder attempts to scale fence or to climb undetected in areas of reduced sensitivity around poles and rigid supports inc km h 25 35 ____ the such as shall alarm for attempted alings assisted by climbing shall allow gradual changes in ng and aging without ensors shall be either tamper housed in protected from environmental tamper Interfacing between sensor zones and alarm annunciators shall be carried in underground cables Strain sensitive cable sensors Sensors shall detect movement on a standard security chain link fence associated with an
64. em is SECTION 28 20 00 00 20 Page 49 dependent This tolerance will be applicable for all frequencies above 100 Hz b Hardwire alternating current supervision Supervision shall not be capable of compromise by use of resistance voltage or current substitution techniques The method shall be employed on circuits which employ a tone modulated frequency shift keying FSK interrogate and reply communications method Supervisory circuit shall be immune to transmission line noise crosstalk and transients Detection circuit shall be terminated by a complex impedance Supervision of the line shall be maintained by monitoring current amplitude and phase Complex impedance shall be sized so that current leads or lags the driving voltage by 0 785 plus or minus 0 087 rad 45 plus or minus 5 degrees For supervision currents of 0 5 to 30 milliamperes root mean square rms an alarm shall result when rms current changes by more than 5 percent or phase changes by more than 0 087 rad 5 degrees For lines with supervision currents of 0 01 to 0 5 milliampere an alarm shall result when rms current changes by more than 10 percent or phase changes by more than 0 139 rad 8 degrees Identified line supervision alarm shall be communicated within one second of the alarm condition c Hardwire digital supervision Modems at both ends of circuit shall exchange digital data to indicate secure or alarm condition at least every 2 seco
65. em level performance descriptions shall be decided in favor of the former 4 1 Modularity Provide components designed for modular increase or decrease of system capability by installation or removal of plug in modules Design system SECTION 28 20 00 00 20 Page 20 components to facilitate modular subassembly and part replacement eda Reliability Provide only new components in current manufacturing production manufactured to meet reguirements specified herein and free from characteristics and defects which affect appearance or serviceability or render equipment unsuitable for the intended purpose MTBF for component shall not be less than 5000 hours Provide only ESS components which meet requirements of DIA DCID 6 9 4 3 Maintainability Components shall be capable of being maintained using commercially available standard tools and equipment Components shall be arranged and assembled to be readily accessible to maintenance personnel without compromising defeat resistance of ESS 4 4 Availability Provide components designed for continuous operation Provide solid state electronic components mounted on printed circuit boards conforming to UL 796 Boards shall be plug in quick disconnect type Circuitry shall not be so densely placed as to impede maintenance Power dissipating components shall incorporate safety margins of not less than 25 percent with respect to dissipation ratings maxi
66. eparate output on basic activity de tection while the PC based software and modules provide graphic iden user selectable moni movement and a host tification of the identified movement tored areas compensation for environmental of other features 1 Basic motion detection Basic motion Detection typically recognizes any type of motion in the video field A single output then activates automatic call up to the monitor screens of surveillance personnel or initiates automatic DVR recording The video call up is no longer limited to cabled CCTV systems but can be transmitted via the network LAN or WAN Many basic DVRs can search and retrieve records of movement or activity on their stored hard drives Thes features are often found on off the shelf equipment are economical and have limited applications 2 Advanced VMD Advanced VMD products enhance the concepts of basic motion detection and can when properly applied and operated provide innovative effective solutions to security issues Most of these featur s result from elaborate algorithms that search out detailed movement patterns and only activate a system response under very specific conditions Capabilities include a Intruder Identification Identifying unauthorized humans in specified areas of the field of view b Environmental Compensation Recognizing and ignoring wind blown debris animals bac
67. er optic mesh sensors are made up of a web of optical fiber cables which are deployed within building walls stores partitions or mobile container shells External applications for fiber optic mesh sensors configured from an appropriate form of fibre optic cable include attachment to flexible structures water side installations and mobile facilities kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk NOTE Utility inlet openings are protected in a variety of methods the correct one being dependent on two variables the nature of the intrusion threat i e physical penetration electrical electro optical etc and the characteristics of the utility inlet opening i e discharge water from a nuclear plant office air duct electric conduit etc Subsequent to such analysis almost any of the intrusion detection sensors described herein could provide the necessary protection Normally a breakwire trap sensor is used for this application kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk 3 2a Fe P52 Protection of utility inlet openings Provide protection by a sensor of the breakwire wire trap type consisting of up to 26 AWG hard drawn copper wire with a tensile strength of 17 8 N 4 pounds maximum interlaced throughout the opening such that no opening between wires shall be larger than 100 mm 4 inches on center Terminate sensor so that attempts to cut the wire
68. f more than one device is used in an area devices shall operate on different frequencies Provide for selective filtering by sensor to minimize nuisance alarms due to moving metal objects such as fan blades and venetian blinds interference from radar or other sources of electronic interference Transceivers shall consist of a combined transmit receive antenna and an adjustable gain preamplifier in a single housing Provide transceivers with sensitivity adjustments Transceiver controls shall permit adjustment of transmission range and alarm signal threshold Sensitivity controls shall be inaccessible to operating personnel Sensitivity requirements shall be met with sensitivity controls set approximately at midrange Additional dual technology sensor requirements Enclosure containing the two sensor sections shall be tamper alarmed Both the microwave and PIR sections shall activate simultaneously to generate an alarm Only an intrusion characterized by volumetric motion and radiant body heat shall be detected Sensor shall provide a means of indicating an alarm condition during installation and calibration A means of disabling the indication shall be provided within the sensor enclosure Sensor shall alarm when an intruder moves within the area of protection more than 1500 mm 5 feetat a velocity of 30 mm 0 1 foot per second and one step per second assuming 150 mm 6 inches per step Detection
69. fied in paragraph entitled Video Transmission 2 04 16 43 Radio Freguency Link kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk NOTE Radio frequency links may not be allowed on some Government facilities Recommended usage for RF links is as backup to hardwire links or to a remote location lacking telephone lines OPNAV Instruction 2400 20E requires that funds shall not be obligated for procurement of radio equipment until frequency allocation authority has been obtained As soon as possible but no later than schematic design the designer shall contact the area radio frequency coordinator usually the base radio officer to determine the availability of radio frequencies and to ensure that the using activity submits a DD Form 1494 Application for Frequency Allocation for a Stage 1 Conceptual Development allocation see DD Form 1494 Preparation Guide Stage 1 allocation authority i e approval must be obtained prior to advertisement of the contract The 138 to 150 8 MHz band is the preferred range since specific frequencies in this range are reserved for DOD use Frequencies in the 162 to 174 MHz and 450 to 470 MHz bands are shared with other users on a first come first served basis In order to avoid potential contract delays the frequency assignment should be included in the specification when possible For additional information contact the base radio officer or the Naval Electromagnetic
70. fied performance over a link length of 2287 line repeaters erati ng with signal regenerating one pair for which may have one or more parallel Individual control unit lines shall be 22 AWG or larger to the hardwire link system shall provide for connection of as many as line repea Communications from control unit ll operate ina using time multiplexed 10 24 255 ters or other communication system shall meters 7500 system shall maintain specified performance over a link 65 meters 75 000 feet Contro display processor communications rating over a maximum of two lephone leased or proprietary l unit to cen link shall four J Link shall be lines tral alarm also be standard capable of operating half duplex over a Type 3002 data transmission pair and be capable of modular expansion Coordinate and check out sys servic provided by th General characteristics and telephon Telephon lin e Government lin kilobaud 1 Connections Two or four wire 2 Impedance at 1000 Hz 600 ohms 3 Transmitting level 0 to 12 dBm 4 Transmitting level adjustment 3 dB increments 5 Type Data 6 Direction Two way alternate half duplex 7 Maximum speed 1 2 5 12 10 24 ____ SECTION 28 20 00 00 20 Page 51 s shall be tem operation shall be as follows 8 Maximum loss at 1000 Hz 33 dB c Video hardwire links shall be as speci
71. g the door name number and time that it was performed Additionally the operator shall have the ability to lock unlock enable and disable any group of doors in a Door Group by a single command from the AACS Key Control When interfaced with an approved key control system the system shall allow users to deny access to certain doors to any users who have keys in their possession Guard Tour The AACS shall support user defined guard tours The tour may be configured in a set pattern of tour points or may follow a mode in which all tour points can be visited in any order within an allotted time The AACS shall allow a tour to be started by AACS command by use of a selected card at a selected reader or by use of a selected keypad code at a selected keypad The system shall detect guard late to point point missed and point out of sequence events The system shall generate a report at the completion of a tour Reader Disable The AACS shall support disabling readers in reaction to a user selected number of invalid access attempts Disable Event Messages The AACS shall allow users to disable 22 23 user selected event messages Door Forced Open Door Open Too Long Door Closed Request to Exit for user selected doors The AACS shall allow users to disable certain messages Door Forced Open Door Open Too Long according to a user selected schedul I O Groups The AACS shall allo
72. he change d Trouble and Restoral report by zone name and number e Door access reports including user number and number of the door being accessed e Communication and Line Capacity 1 The digital receiver shall be capable of communication using the IBM Synchronous Data Link Control format 2 The digital receiver shall accommodate up to 5 incoming lines 3 Digital receiver shall have the ability to be configured with PCU s digital dialer data network and TCP IP network communication receiving lines 4 PCU s digital dialer lines shall have a capacity of 65 535 separate accounts 5 Data TCP IP network lines shall have a capacity of 65 535 separate accounts that do not check in or 2 500 separate accounts that do check in f Digital Receiver Enclosure 1 Digital receiver enclosure shall provide housing for the SECTION 28 20 00 00 20 Page 66 i processor power supply line cards and associated cables The enclosure shall measure 22 22 centimeter 8 75 inches high 48 22 centimeters 19 inches wide and 30 48 centimeters 12 inches deep 2 Contained in the top of the system enclosure is the modem rack The rack shall hold the modem power supply card and up to 5 line cards The transformer card for connecting the 120 VAC shall be mounted on the rear of the rack modem 3 Contained in the bottom of the system enclosure is the m
73. he printer can be connected to the all events output connector or the alarm only output connector 2 Printer shall be configured to 1200 baud 8 data bits 1 stop bit and even parity LCD Display and Keypad 1 LCD display shall be a 32 character LCD display with a keypad for entry of information and acknowledgment of alarm signals 2 LCD display shall be built in to the front of the system enclosure 3 Power shall be provided from the multibus power supply card 204 18 3 Printer Requirements a Report Printer A laser text printer shall be provided for the purpose of generating reports The printer shall be a parallel or USB interface dry type laser process printer The unit shall print a minimum of 8 pages per minute at 600 dpi resolution Badge Printer A dye sublimation resin thermal transfer type imag printer shall be provided for Badge Identification credentials The printer shall be capable of printing two sides edge to edge directly onto a white unfinished 0 030 PVC PVH or PVCH card a rate of approximately 80 seconds per card An encoder is available to be an integral part of the printer The unit shall be capable of providing magnetic stripe encoding of all credentials utilizing an on line magnetic strip ncoder device The magstripe fields shall be sent to the encoder automatically from the System The encoding shall conform to ABA Track II and ANSI specifications
74. ialers data networks and TCP IP network communications of IDS account zones on the same receiver The digital receiver enclosure shall house the processor card rack modem rack data rack and convenience panel Built into the front of the digital receiver enclosure shall be an LCD display for viewing incoming reports with a keypad for acknowledging reports and configuring the system and its components The digital receiver enclosure shall contain internal cards consisting of a processor board 3 line cards modem power supply card multibus power supply card and transformer card The digital receiver shall be capable of but not limited to the following programming and functionality a The digital receiver shall provide SCC with computerized monitoring of PCU communication format of Synchronous Data Link Control SDLC Digital receiver features shall include automatic logging of alarm trouble and supervisory account reports on a local printer with date and time of their occurrence Capacity of up to 65 535 digital dialer or direct dedicated account zones for alarm trouble user and system reports The Digital receiver shall provide SCC with computerized monitoring of SECTION 28 20 00 00 20 Page 65 24155 Access Control Cards kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkxkkk NOTE Determine the format logo and wording for the cards from the using activi
75. ic designation only and listed in this paragraph by organization designation date and title Use the Reference Wizard s Check Reference feature when you add a RID outside of the Section s Reference Article to automatically place the reference in the Reference Article Also use the Reference Wizard s Check Reference feature to update the issue dates References not used in the text will automatically be deleted from this section of the project specification when you choose to reconcile references in the publish print process kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkxkk The publications listed below form a part of this specification to the xtent referenced The publications are referred to within the text by the basic designation only n ECTION 28 20 00 00 20 Page 5 2 UNDERWRITERS LABORATORIES UL 1037 1999 Reprint Dec 2009 Safety Antitheft Alarms and Devices 1076 1995 Reprint Mar 2015 Proprietary Burglar Alarm Units and Systems 1610 1998 Reprint Mar 2015 Standard for Central Station Burglar Alarm Units 294 2013 Reprint Feb 2015 Access Control System Units 497B 2004 Reprint Dec 2012 Protectors for Data Communication Circuits 636 1996 Reprint Jan 2013 Holdup Alarm Units and Systems 639 2007 Reprint May 2012 Standard for Intrusion Detection Units 681 2014 Installation and Classification of Burglar and Holdup Al
76. ide complete prompt messages during all stages of operation and system programming and display all relevant operating and test data SECTION 28 20 00 00 20 Page 17 aoe Electrical Power Obtain by the normal commercial or base electrical distribution system Power shall be continuously monitored and if interrupted automatic switching from primary to emergency backup sources shall be accomplished without interruption or degradation of critical system function Intrusion alarms shall not be generated as a result of power switching however an indication of power switching and on line source shall be provided at the alarm monitor Upon restoration of prime power system shall automatically switch back to the primary source Failure of an on line battery shall be detected and reported as a fault condition 233731 Primary Power Furnish 120 volt ac service transformed through a two winding isolation transformer and rectified to low voltage AC or DC for system operation Obtain primary power from the line side of incoming facility power at the location indicated Provide a separate lockable fused safety switch adjacent to the power distribution panel at the location indicated IBIS Backup Power Provide backup power to the primary power by dedicated on site diesel engine generator set not a part of the ESS backup battery in each element or subsystem as may be appropriate to provide a minimum of
77. in a single frame Include 720 H by 240 V and 320 H by 240 V Pixel Memory sampling with 120 Images per second system recording rate Include Emergency Event Schedule and Manual Recording Modes Each camera shall support individual Recording Rate and Image Quality settings for each of Emergency Event Schedule and Manual Recording Modes This array of Camera Recording Rate and Image Quality settings by the Recording Modes shall form one of 4 Program Actions The Program Action shall be assignable to a Time Table to form one of 16 Independent Recording Profiles Each Recording Profile shall be able to be manually activated activated via RS 232C interface automatically activated by Time Table or activated by separate alarm or emergency inputs Furnish digital display on the monitor and also recording of the following information year month day hour minute and second as well as alphanumeric camera location ID up to 8 characters In addition to monitor display the date and time shall be recorded on the hard disk The digital video recorder shall also feature video loss detection on all channels Pre event recording For all individual camera channels up to 20 seconds of pre event pictures shall be buffered simultaneously Motion based Recording Advanced integrated VMD shall be used to detect a specific area direction and duration of motion for each camera channel independently and simu
78. inal items or of other components with which the items are used SECTION 28 20 00 00 20 Page 25 applications where longer range is required Audio sensors Sensors shall consist of microphones which detect audio information and transmit signals to an audio amplifier in a central control unit Multiple units may be connected to a central control unit Audio sensors shall be designed to be especially sensitive to generic audio intrusion signature of breaking glass splintering wood fracturing of cement block normal voice conversation Sensors shall have sensitivity adjustments which shall be inaccessible to operating personnel Sensitivity adjustment shall permit operating ranges up to a maximum of 465 square meters 5000 square feet Sensors shall have a detection sensitivity of unidirectional design omnidirectional design Audio assessment capability shall be provided Sensors shall be capable of installation in a concealed configuration and shall be inherently self protecting Photoelectric sensors Sensors shall detect intruder presence by establishing a series of infrared or ultraviolet beams and detecting beam disruptions Beam transmitters shall be designed to emit no perceptible light Beam may be reflected by one or more mirrors before being received and amplified Disruption of the beam by an opaque body shall initiate an alarm Transmitted beam shall
79. ing of SECTION 28 20 00 00 20 Page 65 PCU communication format of Host asynchronous HOST Digital receiver features shall include automatic logging of alarm trouble and supervisory account reports on a local printer with date and time of their occurrence Capacity for alarm trouble user and system reports up to 65 535 host account zones that do not check in and 2 500 accounts that do check in c LCD Display and Keypad The LCD display shall allow the SCC operator to view alarm reports before acknowledging the alarms using the system keypad The LCD and keypad shall be built in to the front of the digital receiver enclosure The LCD and Keypad are used as a backup when the ESS is not available during maintenance or unplanned system outages d Printer Routine reports shall be logged on an optional printer without need of operator response Supervisory and alarm reports shall be logged on the printer and displayed on the LCD for operator acknowledgement Report capability shall be the over all role of the ESS 1 Additional Reports Receiver shall be able to process additional reports transmitted to it by PCU s a Addition and deletion of code numbers including user number of the person making the change b Bypassing and resetting of zones by number and name including the user number of the person making the change c Schedule changes including user number of the person making t
80. insertion lug type No crimp fork or ring type permitted Unit shall have a multi function diagnostic LED that shows continuity ground present unit function and line status j Coaxial Cable Protectors Solid state silicon avalanche diode metal oxide varistor and or gas tube circuitry for non interrupting over voltage protection of coaxial cable Unit shall be provided with one female input connector and one female output connector Securely mount adjacent to protection equipment and ground to equipment or local building ground if an equipment ground is not available 4 6 Electromagnetic Interference EMI ESS components employing electromagnetic radiation shall be designed and constructed to provide maximum practical invulnerability to electronic countermeasures ae Electromagnetic Radiation EMR kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk NOTE National Post Telephone and Telegraph is normally the approving authority for EMR components overseas kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk Provide only ESS communication components which are Federal Communications Commission FCC licensed and approved Provide system components which are electromagnetically compatible 4 8 Interchangeability Like components shall be physically and functionally interchangeable as complete items without modification of either the orig
81. intruder scaling cutting through system or attempting to lift the fence fabric including sensor zone electronics fence and Length of fenc directly on th as the fence an intruder can penetrate th shall be divided into fence 100 meter SECTION 28 20 00 00 20 Entire sensor shall be capable of mounting xposed to the same environmental conditions protected shall have no dead zones where and through sensor electronics zones Sensing unit of Page 37 sensor shall consist of transducer cable capable of achieving specified performance either by attachment directly to the fence fabric by plastic cable every 300 to 455 mm 12 to 18 inches or by installation inside EMT conduit mounted on the fence Sensing unit shall have equal adjustable sensitivity throughout the entire length To permit installation in extreme EMI environments with no loss of detection capability only conventional waterproof coaxial cable connectors shall be used for connections of the sensing unit Entire sensor system shall be capable of detecting tampering within each portion of the system by sensor zone Sensor zone electronic circuitry shall provide capability for alarm threshold sensitivity adjustment to permit compensation by zone for winds up to 40 56 km h 25 35 mph while maintaining the same level of detection performance as under ambient conditions Sensor zone control unit shall provide an analog audio
82. ion based on positive verification of card card PIN card and video AACS shall provide both supervised and non supervised alarm point monitoring The system shall be capable of arming or disarming alarm points both manually and automatically by time of day day of week or by operator command The system shall be capable of disarming alarm points based on a valid access event AACS when used for elevator control shall grant access to elevator floors based on a valid credential or by schedule The AACS shall provide programmable delay setting for all alarm points The alarm points shall not report an ENTRY type alarm condition until the delay setting has expired The system shall not report a DWELL type alarm condition until the alarm has been active for the full delay period SECTION 28 20 00 00 20 Page 42 The AACS shall include fully integrated badging capabilities including image capture image editing badge design and badge printing The system shall permit the storage of four different images main photograph alternate photograph signature and fingerprint The AACS shall allow each cardholder to be assigned to both a badge design formatted for badge printing and a dossier design formatted for standard paper printing The AACS shall provide for interfacing with external badge programs in which stored photo images are displayed in cardholder information window but other badge features are
83. isplay equipment and electrical power cabinets n ECTION 28 20 00 00 20 Page 4 2 Site plan Exterior devices and routing of conductors and conduit into building 3 Single line type system riser diagram Connection of equipment should be indicated for typical system chosen for cost estimating purposes 4 Single line type electrical riser diagram and 5 Mounting Details for each device required for complete installation including junction boxes for recessed BMS where required Include device height and installation of wiring 6 The device symbol presents an easy to use and efficient means of identifying the essential features of the security engineering design effort The symbol provides a method by which the phenomenology of the device necessary identifying details related to the phenomenology of the device and the means by which the device is positioned or mounted can be readily indicated on the engineering plans The symbol also provides a means of identifying the device in order to develop accurate bills of material and system diagrams kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk PART 1 R G ENERAL EFE R ENCES kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk NOTE This paragraph is used to list the publications cited in the text of the guide specification The publications are referred to in the text by bas
84. ith a facility tailorable data base for a minimum of 1000 card holders with by name alphanumeric printout and for automated subsystem IDS monitoring management and control functions Provide enrollment equipment to process access control cards and enroll personnel into and disenroll personnel from the subsystem data base Enrollment equipment shall not be accessible to ESS operations personnel Provide a minimum of 150 percent of the number of card holders specified above access control cards with the enrollment equipment Provide system configuration controls and electronic diagnostic aids for subsystem setup and troubleshooting with the central processor Components shall not be accessible to operations personnel Central processor components shall be tamper alarmed 241 Did Access Control Unit ACU The ACU shall be micro processor based with all access and I O decisions to be made by the individual ACU s The ACU shall be of modular design which will allow for present security requirements and the capability to expand All field ACU panels shall be configured to intercommunicate via RS 422 485 or RS 232 hardwired Dial up TCP IP or fiber optic communication All field ACU s shall be equipped with a tamper contact One ACU shall be designated a Primary responsible for all AACS to ACU communications All other ACU s up to a maximum of 16 32 64 254 shall be designated Secondarie
85. k center core Surface shall be matte finish Corners shall be square Accurately align lettering and engrave into the core Minimum size of nameplates shall be 25 by 65 mm one by 2 5 inches one by 2 5 inches Lettering shall be a minimum of 6 35 mm 0 25 inch 0 25 inch high normal block style Zi Onl Manufacturer s Nameplate Each item of equipment shall have a nameplate bearing the manufacturer s name address model number and serial number securely affixed in a conspicuous place the nameplate of the distributing agent will not be acceptable 2 6 FACTORY APPLIED FINISH Electrical equipment shall have factory applied painting systems which shall as a minimum meet the requirements of NEMA 250 corrosion resistance test PART 3 EXECUTION Sil EQUIPMENT INSTALLATION UL 681 UL 1037 and UL 1076 and the appropriate installation manual for each equipment type Components within the system shall be configured with appropriate service points to pinpoint system trouble in less than 20 minutes Sl Cable and Wire Runs kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk NOTE Where design requirements must conform to NACSIM 5203 Guidelines for Facility Design and RED BLACK Installation refer to Military Handbook MIL HDBK 232 kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk NFPA 70 and Section 2
86. kground traffic etc c Counting Recognizing a quantity of a particular object moving or activity performed d Directional Identification Ignoring objects moving in one direction while alarming for objects moving in unauthorized directions e Item Recognition Activating when specific user selected items are removed from placed in or passed through the field of view f Subject Tracking Highlighting and following a specific person or item as it moves about the field of view or from the field of view of one camera to another g Multiple Subj ect Tracking Highlighting and following multiple persons or items simultaneously as they move about the field of view or from the field of view of one camera to another SECTION 28 20 00 00 20 Page 36 2 4 14 3 a Fiber Optic Fence Sensors intruder attempts scaling throu Exterior Fence and Perimeter Sensors Sensors shall initiate an alarm when an cutting fabric of a standard chain link fence or physical barrier gh or attempting to lift the The sensor shall comprise of a weft knitted single tactical fiber optic cable structure conduits mounted under tension between and also tensioned to the hori upper and lower galvanized zontal direction of the fence The net is to be made of a fiber optic c by 16 cm 6 5 by 6 5 inches which are crossed at each joint by a plastic crossover button bonded by ultra sonic welding is pul
87. kkkkkkkkkkkkxkkk Government approval is required for submittals with a G designation submittals not having a G designation are for Contractor Quality Control approval for information only When used a designation following the G designation identifies the office that will review the submittal for the Government Submittals with an S are for inclusion in the Sustainability Notebook in conformance to Section 01 33 29 SUSTAINABILITY REPORTING Submit the following in accordance with Section 01 33 00 SUBMITTAL PROCEDURES The will review and Division Naval Facilities Engineering Command will approve submittals requiring special review in this section Include wiring diagrams and installation details of equipment indicating proposed location layout and arrangement control panels accessories piping ductwork and other items that must be shown to ensure a coordinated installation Wiring diagrams shall identify circuit terminals and indicate the internal wiring for each item of equipment and the interconnection between each item of equipment Drawings shall indicate adeguate clearance for operation maintenance and replacement of operating quipment devices Submittals shall include the nameplate data size and capacity Submittals shall also include applicable federal military industry and technical society publication references SD 02 Shop Drawings
88. l have the option of automatically refreshing after a user selected interval of time Crisis Mode The AACS shall support crisis mode in which the activation of user selected alarm points causes changes to user access SECTION 28 20 00 00 20 Page 44 14 15 16 17 18 19 20 21 privileges The changes to user access privileges shall be configurable to restrict normal access to no access or limited access Door Groups The system shall allow up to 255 door groups to be configured Doors belonging to the same group shall be able to be locked unlocked disabled and enabled on command from the AACS Door Interlocking The system shall allow a group of doors to be software configured so that if any door in the group is unsecure all other doors shall be automatically disabled This feature also known as mantrap configuration The interlocking features shall not require the AACS to be on line for proper operation PIN Required The AACS shall support the required use of a keypad code in addition to a valid credential at user selected doors during user selected schedules Remote door control The SCC operator shall have the capability of manually controlling any access point by issuing a simple command from the AACS The operator shall have the ability to lock unlock enable disable and pulse any door in this manner This activity shall cause an entry to be logged displayin
89. l range of interior point protection devices duress sensors volumetric space protection sensors simple exterior sensors limited to devices that can be hung on or attached to perimeter barriers closed circuit television CCTV for remote alarm assessment purposes alarm signal data communications media alarm reporting and monitoring systems control systems System requirements must conform to UFC 4 021 02 Electronic Security Systems Consult the appropriate Facilities Engineering Command for questions concerning system design Adhere to UFC 1 300 02 Unified Facilities Guide Specifications UFGS Format Standard when editing this guide specification or preparing new project specification sections Edit this guide specification for project specific requirements by adding deleting or revising text For bracketed items choose applicable items s or insert appropriate information Remove information and requirements not required in respective project whether or not brackets are present Comments suggestions and recommended changes for this guide specification are welcome and should be submitted as a Criteria Change Request CCR kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkxkxkk kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk NOTE The following information shall be shown on the project drawings 1 Floor plans Location of security devices control units alarm d
90. l site testing Provide a minimum of two Contractor employees familiar with the ESS for the final acceptance test One contractor employee shall be responsible for monitoring and verifying alarms while the other will be reguired to demonstrate the function of each device Supply at least two radios or portable telephones for use during the test l The NAVFAC and NAVFAC Engineer retain the right to suspend terminate or reschedule testing at any time when the ESS is found to be incomplete or fails to perform as specified In the event that it becomes necessary to suspend terminate or reschedule the test all of the NAVFAC and NAVFAC Engineers fees and expenses related to the test shall be deducted from the Contractor s retainage In the event it becomes necessary to suspend terminate or reschedule the test the Contractor shall work diligently to complete and or repair all outstanding items as reguired by the Contract Documents The Contractor shall supply the NAVFAC and NAVFAC Engineer with a detailed punch list completion schedule outlining task by task completion dates and a tentative date for a subsequent retest During the final acceptance test no adjustments repairs or modifications to the system shall be conducted without the permission of the NAVFAC Engineer and NAVFAC Sed ESS Training Outline Provide training as coordinated with the NAVFAC The following training program is i
91. lanced magnetic field occurs Provide each BMS with an overcurrent protective device rated to limit current to 80 percent of the switch capacity BMS shall be rated for a minimum lifetime of one million operations House the BMS components in nonferrous enclosure materials b Surface mount BMS House components used in outdoor applications in weatherproof enclosures Switch mechanism shall be internally adjustable so the operating gap between faces of the switch housing and the magnet housing may be adjusted from 6 to 13 50 mm 1 4 to 1 2 2 inch es to accommodate installation variances Surface mount BMS housing for the switch element shall have the capability to receive threaded conduit Housing cover for surface mounted BMS if made of cast aluminum shall be secured by stainless steel screws Magnet housing cover shall not be readily removable Protect BMS housing from unauthorized access by a cover operated corrosion resistant tamper device Device shall initiate an alarm when cover is opened as little as 3 mm 1 8 inch and shall be inaccessible until actuated BMS shall have a minimum of three preadjusted reed switches and three preadjusted magnets Field adjustments in the fixed space between magnet and switch housing shall not be possible Attempts to adjust or disturb the magnetic field shall cause a tamper alarm Conductors running from the door to alarm circuits shall be jumpered within a flexible armored cord constructe
92. le Adjustment controls shall be inaccessible to operating personnel With SECTION 28 20 00 00 20 Page 38 system sensitivity controls set at approximately midrange system shall alarm when an intruder is within 915 mm 3 feet of a wire Sensitivity shall be irrespective of direction of motion or velocity in the range of 30 mm to 3000 mm 0 1 foot to 10 feet per second Sensor shall detect intruder attempts to cross potential dead zones such as between adjacent zones or in the vicinity of posts with the minimum specified performance or better Sensor shall provide some means of indicating an alarm at the protected perimeter to facilitate installation and calibration Provide an indicator disabling device within a tamperproof enclosure Power required shall be 120 volts ac Taut wire sensors Sensors shall consist of a perimeter intrusion detection sensor incorporated into a barbed wire security fence Intrusion detection shall be achieved by cutting of any single wire or the deflecting as by climbing of any wire by more than ie Sensor zone shall include one or more 61 meters 200 foot maximum sections of 2100 mm 7 foot high parallel fence with each sector consisting of 13 horizontal barbed wires attached to the taut wire fence posts and three strands as outriggers plus an antiladder trip wire suppo
93. lifetime of 50 000 operations Securely mount sensors in rugged corrosion resistant housing Radio frequency duress alarms Duress alarms shall consist of a compact and lightweight transmitter enclosed in a case that can be easily worn at the waist on a belt Each transmitter shall have a unique identification code The transmitter shall be capable of transmitting 2 watts of RF power Each transmitter shall transmit up to 500 times on the power provided by internal batteries A small flexible PVC encased antenna shall be mounted 10 mm 1 2 inch away from the transmitter to ensure reliable propagation of the alarm signal and rotation of 6 28 rad 360 degrees without damage to the sensor Provide a case to prevent corrosion in hostile environments Transmitter shall be available in both the very high frequency VHF and ultrahigh frequency UHF radio bands The transmitter shall be FM modulated to ensure reception and decoding of the alarm signal Signal transmitted shall readily interface with the ESS communications subsystem as specified in paragraph entitled Radio Frequency Link Activation of the sensor shall be by hand operated switch protected from accidental activation yet easily activated by hand when worn at the waist on a belt Sensor activation shall be automatic when mounted on a belt and the wearer is in a horizontal position for
94. ls Computer Software LIL Mission Software LESZ Support Software P S Software Performance Requirements 2 Test Points 3 Component Enclosures ELST Metal Thickness 132 Doors and Covers I3 Ventilation LIA Mounting sD34 5 Labels 136 Enclosure Locks 4 Detection Sensors 14 1 Interior Point Sensors 14 2 Interior Volumetric Sensors 14 3 Exterior Fence and Perimeter Sensors 14 4 Duress Alarms 5 Automated Access Control System AACS LLST Error and Throughput Rates sL OveZ Access Control Subsystem Central Processing 15 3 Access Control Unit ACU aL g4 Card Reader and Keypad Access Control Devices s155 Access Control Cards 6 Communications PLGL Link Supervision 3163 2 Hardwire si L 63 Radio Frequency Link 7 Closed Circuit Television CCTV System sal Cameras n ECTION 28 20 00 00 20 Page 2 8 NNNNNNABANNN DNDN DY 18 N N AN UW ol eal Ds 17 Lg LI QI ISTE 4 4 4 4 4 a 4 18 s4 LB 4 18 4 18 4 18 4 E 1 IELD FABRICATED NAMEPLATES Video Signal Video Matrix Switchers Video Transmission Color Video Monitors Ancillary Equipment ecurity Command Center SCC ESS Software Digital Receiver Printer Requirements ESS Monitor Display Software Graphical Map Software Control and Display Integration DOPWNRFPND UB WN Manufacturer s Nameplate FACTORY APPLIED FINISH PART 3 EXE CUTION EQUI
95. ltaneously Motion Search may be executed for a single camera channel for a selected area on the image Disk Partitioning Furnish automated disk management and a RTOS real time operating system platform to include up to 4 8 TB of digital video storage on a single partition within the DVR The DVR System shall provide a choice of Physical Partitioning as RAID5 or Disk Mirroring redundant array recording The operator shall be able to partition the available recording areas in a Virtual Partition by Regular Event and Copy Partitions Manually and Scheduled recorded video information shall be assigned to a Regular Recording Partition which may be overwritten Event and Emergency Recording Data shall be SECTION 28 20 00 00 20 Page 60 11 12 13 14 15 16 assignable to an Event Partition where image overwriting shall be prohibited Any copied data shall be able to be assigned to the Copy Partition which may be overwritten or saved as required Permit direct camera selection for recording playback of any of 4 9 16 video sources at the same time as multiscreen viewing and multiplexed camera encoding triplex multiplexer capability Multiplexer Functions Built in programmable switcher with dwell time and camera order programming The unit shall automatically switch multiple camera images to enable sequential spot monitoring and simultaneous field rec
96. m by walking through the beam Systems that use multiple beams to establish a fence shall be tested by attempting to crawl under and jump through and over beams Systems shall provide cutoffs of at to handle a high percentage of light cutoff alarm least 90 percent prior to initiating an kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk NOTE At the text below the number of pixels digitized depends on the application should consider cost effectiveness as The designer a factor since digitizing a large number of pixels could increase cost by a magnitude of 500 percent with little additional actual detection capability for a specific application kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk SECTION 28 20 00 00 20 Page 35 24d el Mission Software Mission software shall consist of software implemented to provide complete operation of the ESS 2 4 11 2 Support Software Support software shall consist of software implemented to support system operation such as system setup and off line maintenance routines 2 4 11 3 Software Performance Requirements Provide software in modules to meet application requirements of this section Software shall include the operating system OS be complete off the shelf modifiable for specific ESS application specified herein and be a product of and supported by the ESS central processor manufacturer OS exe
97. m is secured the door bolt engages an actuator mechanically closing the switch Door bolt locking mechanism shall be completely engaged before the ball bearing door trip is activated Provide circuit jumpers from the door d Standard magnetic switch The magnetic switch shall be of the design specifically for use in either steel or wooden doors commonly found in commercial building applications The magnetic switch shall allow for flush recessed or surface mounting The magnetic switch shall allow for a gap distance not less than 6 to 13 50 mm 1 4 to 1 2 2 inch es when installed in metal or wood framed door s Glass breakage detection Glassbreak sensors shall be Glass Mounted Wall Mounted Ceiling Mounted Sensors shall detect window breakage by responding to acoustic or vibration frequencies that accompany breaking glass Sensors shall selectively filter input to minimize false alarms a Window Mounted Glassbreak Sensor Sensors shall detect window breakage by responding to acoustic or vibration frequencies that accompany breaking glass Sensors shall selectively filter input to minimize false alarms Sensors shall be contained ina fire resistant ABS plastic housing and shall be mounted in contact with the window Glass breakage sensors shall initiate alarm when glass they protect is cracked or broken Sensing shall be accomplished through the use of a mechanical filtered
98. mum voltages and current carrying capacity Light duty relays and similar switching devices shall be solid state type or hermetically sealed electromechanical Electrical indicating instruments incorporated into system components shall conform to applicable provisions of ANSI C39 1 24 5 Environmental Conditions sso sl Interior Conditions Equipment installed in environmentally protected interior areas shall meet performance requirements specified for the following ambient conditions a Temperature 0 to 50 degrees C 32 to 120 degrees F Components installed in unheated security protected areas shall meet performance requirements for temperatures as low as minus 17 degrees C zero degrees F b Pressure Sea level to 4 573 meters 15 000 feet above sea level c Relative humidity 5 to 95 percent d Fungus Components shall be constructed of nonfungus nutrient materials or shall be treated to inhibit fungus growth and e Acoustical noise Components shall be suitable for use in high noise areas above 100 dB such as boiler rooms power plants and foundries without adversely affecting their performance Ay Di2 Exterior Conditions Components mounted in locations exposed to weather shall be housed in corrosion resistant enclosures with appropriate environmental protection Component performance shall not degrade because of improper housing design SECTION 28 20 00 00 20 Page
99. n 5000 hours Provide only ESS components which meet requirements of DIA DCID 6 9 4 3 Maintainability Components shall be capable of being maintained using commercially available standard tools and equipment Components shall be arranged and assembled to be readily accessible to maintenance personnel without compromising defeat resistance of ESS 4 4 Availability Provide components designed for continuous operation Provide solid state electronic components mounted on printed circuit boards conforming to UL 796 Boards shall be plug in quick disconnect type Circuitry shall not be so densely placed as to impede maintenance Power dissipating components shall incorporate safety margins of not less than 25 percent with respect to dissipation ratings maximum voltages and current carrying capacity Light duty relays and similar switching devices shall be solid state type or hermetically sealed electromechanical Electrical indicating instruments incorporated into system components shall conform to applicable provisions of ANSI C39 1 24 5 Environmental Conditions sso sl Interior Conditions Equipment installed in environmentally protected interior areas shall meet performance requirements specified for the following ambient conditions a Temperature 0 to 50 degrees C 32 to 120 degrees F Components installed in unheated security protected areas shall meet performan
100. n SCC operator selection Provide the number of alarm monitors as required Video systems shall be capable of automatic and manual operation In systems where monitors may display more than one camera scene provide on screen camera identification Subsystem shall be composed of components which are SECTION 28 20 00 00 20 Page 53 integrated to provide a quality video surveillance system The scene from each camera shall appear clear crisp and stable on the respective monitor during both daytime and nighttime operation Component equipment shall minimize both preventive and corrective maintenance Components shall be compatible with other components and with system as a whole and shall to the greatest extent possible be supplied by the same manufacturer Zi i Lib Cameras T a Except as specified herein CCTV camera shall comply with SMPTE 170M for standard monochrome or color camera and shall 1 Camera shall utilize digital signal processing DSP to produce a high picture quality Day Night Color B amp W fixed or pan tilt zoom PTZ cameras are to be used in all outdoor environments Standard DSP fixed or PTZ cameras are to be used for all indoor applications except when backlighting issues are observed For backlighting or high contrast applications use Day Night cameras or standard cameras with backlighting compensation 2 All PTZ cameras shall feature a direct drive moto
101. nctions shall be to regulate access through specific doors or portals to secured areas regulat levator control and monitor alarm points at the facilities to be protected The AACS shall provide for a Photo Identification credential creation and production system integrated with the cardholder management system The AACS shall utilize a single database for both its access control and photo imaging functionality that shall seamlessly integrate with the ESS The AACS shall be able to control 4 8 16 128 256 512 alarm inputs or 128 256 512 relay outputs or any combination of these components The AACS shall support configuration and simultaneous monitoring of multiple access control devices when TCP IP communication interfaces are used between the ESS and the primary Access Control Units ACU The events of the AACS shall be viewable as separate or as a combined list of all ESS events Overall control of the AACS alarm monitoring and photo identification shall be through software control of the ESS All AACS programming data shall reside on a single database and shall be instantly accessible to every networked PC workstation connected to the ESS E AACS functions shall include validation based on time of day and day of week special day holiday scheduling with card validation override video image storage and retrieval of cardholder photographs access validat
102. nds For passive supervisory circuits an alarm shall sound if data is missed for more than one second Coding used for data shall not be decipherable by merely viewing data on an oscilloscope For transponder schemes supervisory circuit shall asynchronously transmit bursts of digital data Data pattern shall be random in nature Remote detectors shall receive data and encode a respons based on a proprietary coding scheme Each ESS shall have a unique encoding scheme an industry wide or vendor standard is not acceptable Encoded response shall be transmitted back to supervisory circuit Supervisory circuit shall compare the response to an anticipated response Failure of the detector to return a data burst or return an incorrect response shall initiate an alarm d RF link supervision System shall consist of link supervision components which provide a line supervision alarm declaration at the annunciation end of the link in approximately 2 seconds after the system has verified a problem by repeating the same signal no less than nine times during a period of 30 seconds or less 2045 06 2 Hardwire a Hardwire shall utilize electrical conductor lines Alarm electrical lines shall not rely on current path except for electrical wires neutral conductors of electrical distribution systems shall not be used as Signal transmitters Conductors outside the protected area shall be shielded cable
103. ndwidth at the specified sensitivity SECTION 28 20 00 00 20 Page 54 d Digital Signal Processing Cameras shall have Digital Signal Processing DSP technology to produce clear high quality video images e Synchronization Internal line lock or multiplexed Vertical Drive Selectable Day Night cameras shall feature a B W mode that may be automatically engaged on low light level and permit the use of an external infrared illuminator Removal electronically of the color signal is not acceptable The camera shall feature an infrared cut filter capable of being removed automatically upon low light threshold or manually g Geometric distortion Camera shall be accurate to within a maximum 1 5 percent geometric distortion in Zone 1 and to within 2 percent in Zones 2 and 3 Camera signals CCTV camera vertical sync signal shall be phase locked to the ac power line frequency and shall remain line locked at 60 Hz plus or minus 0 3 Hz Synchronization at the video output shall con int form to the timing specified by SMPTE 170M Camera shall operate on ernally generated sync automatically upon loss of external sync Camera resolution 1 Exterior Horizontal resolution shall be 480 TV lines in the center in the color mode and 570 lines in the black amp white mode Vertical resolution shall be 350 TV lines in the center Resolution shall be maint
104. ng list to reflect only the submittals required for the project The Guide Specification technical editors have designated those items that require Government approval due to their complexity or criticality with a G Generally other submittal items can be reviewed by the Contractor s Quality Control System Only add a G to an item if the submittal is sufficiently important or complex in n ECTION 28 20 00 00 20 Page 8 context of the project For submittals requiring Government approval on Army projects a code of up to three characters within the submittal tags may be used following the G designation to indicate the approving authority Codes for Army projects using the Resident Management System RMS are AE for Architect Engineer DO for District Office Engineering Division or other organization in the District Office A0 for Area Office RO for Resident Office and PO for Project Office Codes following the G typically are not used for Navy projects An S following a submittal item indicates that the submittal is required for the Sustainability Notebook to fulfill federally mandated sustainable requirements in accordance with Section 01 33 29 SUSTAINABILITY REPORTING Submittal items not designated with a G are considered as being for information only for Army projects and for Contractor Quality Control approval for Navy projects kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk
105. not less than 16 gage except consoles may be 18 gage 22461352 Doors and Covers Doors and covers shall be flanged Where doors are mounted on hinges with exposed pins the hinges shall be of the tight pin type or the ends of hinge pins shall be tack welded to prevent ready removal Provide doors having a latch edge length of less than 600 mm 24 inches with a single lock Where latch edge of a hinged door is 600 mm 24 inchesor more in length provide the door with a three point latching device with lock or alternatively with two locks one located near each end Covers of junction boxes provided to facilitate initial installation of the system shall be held in place by tack welding brazing or one way screws SECTION 28 20 00 00 20 Page 27 24 31 33 Ventilation Ventilation openings in enclosures and cabinets shall conform to reguirements of UL 1610 24 134 Mounting Unless otherwise indicated sheet metal enclosures shall be designed for wall mounting with top hole slotted Mounting holes shall be in positions which remain accessible when major operating components are in place and door is open but shall be inaccessible when door is closed 24 1355 Labels Labels shall be affixed to such boxes indicating they contain no connections These labels shall not indicate that the box is part of the intrusion detection system 2 4 13 6 Enclosure Locks Locks and key lock operated
106. ntended to identify typical training reguirements and may be modified and or amended to meet specific NAVFAC training requirements Iar are ESS Administrator Training kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk NOTE For NAVFAC ML and other EFD s with a designated IDS engineer select the first bracketed option for all projects In all other areas select the second bracketed option for all projects kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkxkkk a ACS and IDS Administrator Training shall include two eight hour on site training sessions Operating system procedures and configuration Operator functions 1 2 3 4 Database functions and setup ananasa SECTION 28 20 00 00 20 Page 74 5 6 7 8 9 b CCTV 1 2 SESS 22 Cardholder input and deletion procedures Report generation Applications programs as applicable Graphics generation and manipulation Items unique to the ACS and IDS interfaces with other systems System Administrator Training shall include One eight hour session on site Training shall include all administrator and operator functions and items unique to the installed CCTV System and the interfaces with other systems ESS Operator Training Coordinate the operator training syllabus with NAVFAC prior to conducting operator training a ACS and IDS Operator Training shall include
107. od of not less than ninety days fi ach ACU shall be powered by a 12 24 VDC power source rated t a minimum of 2 amperes The power supply shall have a attery back up for complete system operation in the event of power ailure Provide battery backup for all ACU s to sufficiently power he ACU for 48 hours continuous service tao o bi 8 Electric strikes other locking devices and ancillary peripherals shall have a separate power supply Battery back up shall be utilized for continued operation in the event of power failure 9 There shall be a minimum of a 10 300 event log buffer per ACU The log buffer shall be used to record and hold access and alarm activity information until the AACS is connected and receives the information There shall be a software configurable warning notification of log buffer filling for ACU s configured with modem capabilities 2 4 15 4 Card Reader and Keypad Access Control Devices kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk NOTE Specify only one type of access control card Be sure card type and card readers are compatible with each other kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkxk Devices shall be tamper alarmed tamper and vandal resistant and solid state containing no electronics which could compromise the access control subsystem should the subsystem
108. of the processor card the voltage output of the modem power supply card and its own internal voltages 2 Multibus power supply card shall monitor the processor through the multibus backplane There shall be a green OK LED that will light when the processor is operating normally If the processor stops operating the red FAIL LED will light and failure buzzer shall sound The system shall restart after the restart button on the multibus power supply card is pressed System restart button shall not change system configuration 3 Multibus power supply card shall monitor three different system voltages 5 12 12 and the modem power supply Four LEDs shall be located on the multibus power supply card to display any voltage failures Transformer Card Transformer card shall provide power to the modem power supply card and the multibus power supply card It shall also have a power cord for connecting to the multibus rack cooling fan Power Cable Power cable shall be 61 centimeters 2 feet long and connect the different system voltages the transformer card and the SECTION 28 20 00 00 20 Page 68 multibus power supply card Convenience Panel Convenience panel shall provide cabling for 2 RS 232 ports The ports shall be for the host output activity log printer s and auxiliary communications Printer and Cable 1 Printer shall be an 80 column serial printer with a 10 foot RS 232 cable T
109. old due to slowly changing phenomena such as ground hifting daily and seasonal temperature variations and winds up to 56 m h 35 mph Sensor switch shall provide electrical contact closure as he means for initiating an alarm condition whenever the wire clamped o the vertical center bolt is pulled laterally in any direction by an amount not over 19 mm 0 75 inch Housing for switch assembly shall be covered by a neoprene cap to retain the center bolt lever arm which functions as a lever to translate movement of the attached horizontal wire into contact closure When the neoprene cap is firmly seated on the cup shaped polycarbonate housing it shall function as the fulcrum for the lever bolt Upper exposed end of the lever shall be threaded to accommodate clamping to the horizontal wire The lower end of the lever which is fashioned to serve as the movable electrical contact shall be held suspended in a small cup shaped contact that floats in a plastic putty material The plastic putty shall retain a degree of elasticity under varying temperature conditions and provide the sensor switch with a self adjusting property This provides the switch with a built in compensating mechanism that ignores small very slow changes SECTION 28 20 00 00 20 Page 39 in lever alignment xtreme temperatur conditions slots through which the barbed wires pass from leaving the slots by rivets to tran
110. on SECTION 28 20 00 00 20 Page 64 User Defined Data Fields The ESS shall provide 20 unassigned data fields for storing user defined data The data fields shall support user defined labels and shall be user configurable as plain text fields or drop down selection lists Archive Database The ESS shall include a connection to an archive database which stores purged events and deleted programming and which can be accessed for reporting Programmable Database Backup The ESS shall include the capability of performing user scheduled database backups without the use of third party backup software Programmable Database Purging The ESS shall include the capability of performing user scheduled database purging moving selected events to an archive database when th vents have aged a user specified number of days Database Importing The ESS shall include the capacity to import user data from an ODBC datasource Access Excel text Data Exporting The ESS shall include the capacity to export data from any table in the database to either a text or HTML file in any user selected order Event Log Output The ESS shall include the capacity to send a continuous stream of user selected types of event messages to a text file serial port or TCP IP address Data Audit Trail The ESS shall record changes to programming recording the date time stamp of the change the name of
111. or otherwis nlarge openings between wires shall cause an alarm Sensor termination shall be concealed tamper protected Interior Volumetric Sensors a Passive infrared sensors Sensors shall detect intruder presence by monitoring the level of infrared energy emitted by objects within a protected zone Sensor shall initiate an alarm upon observing increased or fluctuating infrared energy caused by the presence and motion of an intruder whose temperature is as little as 1 1 2 degrees C 3 degrees F different from the background temperature Sensor shall be passive in nature no transmitted energy shall be required for detection Sensor shall be sensitive to infrared energy emitted at wavelengths corresponding to human body and other objects at ambient SECTION 28 20 00 00 20 Page 32 temperatures Sensor detection pattern shall be 3 14 rad 180 degrees for volumetric units unless otherwise indicated and shall be housed in a tamper alarmed enclosure Sensor shall provide some means of indicating an alarm condition during installation and calibration A means of disabling the indication shall be provided within the sensor enclosure Sensor shall alarm when an intruder moves within the area of protection more than 1500 mm 5 feet at a velocity of 30 mm 0 1 foot per second and one step per second assuming 150 mm 6 inchesper step Detection sensitivity shall be irrespective of direction of motion
112. ording Separate spot multiscreen multiscreen RGB and cascaded video monitor outputs The unit shall offer full screen 4 7 9 10 13 and 16 multiscreen monitoring modes Camera Control Camera functions and control shall be accessible for all cameras The multiplexer shall furnish access to all camera control set up and alarm functions including preset sequence digital motion detector mask set and back light compensation set up Controllable camera functions shall be accessible via front panel controls or the optional system controller These functions shall include direct access of preset position zoom near far focus near far iris open close and pan left right Camera functions and control shall be accessible for all cameras through the use of the optional control unit These functions shall include direct access of preset position zoom near far focus near far iris open close and pan left right Outputs Furnish 4 9 16 looping outputs for connection of all video sources to external monitoring systems including multiscreen and spot monitor video outputs via BNC female connections Furnish 4 channels of audio connection including audio loop through via RCA phono jacks Furnish 1 External Storage connection via High Speed 480 Mbps Serial Interface Furnish One 1 External Copy connection via High Speed 480 Mbps Serial Interface Furni
113. ormal room sounds SECTION 28 20 00 00 20 Page 30 by listening across the glassbreak frequency spectrum The sensor shall provide a 7 6 meters 25 feet 360 degr coverage of the area to be protected b Object Protection 1 Capacitance proximity sensor Capacitance proximity sensor shall detect changes in the established capacitance to ground of a protected object When the protected object is touched anda 20 pf variable change in the capacitance is detected an alarm shall be generated Circuits measure the ratio between the charging current and the resultant rate of change of voltage with time Sensor shall protect objects up to a 50 000 picofarad capacitive load System shall provide means of indicating an alarm condition at protected objects during installation and calibration Provide indicator with a disabling device within a tamperproof enclosure The number of objects p u o s m rotected by a single capacitance detector shall not exceed the nit s maximum capacitance at the desired sensitivity Protected bjects shall be insulated from ground by insulating pads which hall have a dielectric constant such as glass or thermoplastic aterials If screen grids or radiators are employed as antennas they shall be insulated from ground Wires used for grid shall be larger than No 14 AWG 30 percent copper clad steel covered with a minimum of 0 794 mm 1 32 inchvinyl coating Space grid elements at 150 mm 6
114. ors a Resolution Horizontal be less than the following 350 lines 35 56 centimeter 14 inch monitors 750 lines 38 1 centimeter15 inch monitors 750 lines 43 18 centimeter 17 inch monitors 700 lines 50 8 centimeter 20 inch monitors 500 lines resolution for TFT LCD Monitors shall not be less than 26 41 centimeter 10 4 inch monitors 640 lines monitors 800 lines 38 1 centimeter Horizontal the following 30 73 centimeter 12 1 inch 15 inch monitors 1024 lines 43 18 centimeter 17 inch monitors 1280 lines 51 05 centimeter 20 1 inch monitors 800 lines b Geometry No point in the active raster shall deviate from its correct position by more than 2 percent of raster height b Mounting and identification 1 Mount the monitor and other devices subject to burnout or short operating life to facilitat asy replacement SECTION 28 20 00 00 20 Page 58 2 Label the printed circuit board s function and provide component numbers or markings 3 To maintain a standard quality and reliability components shall be conservatively rated 4 Mount TV monitors in a frame for mounting in a 480 mm 19 inch rack desk top console 5 Two 228 mm 9 inch diagonal TV monitors shall be dually mounted in the rack console Protect monitors from circuit overloads by fuse or fuses in the power source line Power source line fuses shall be mounted in finger operated extracto
115. ot be limited to the following a b g Siad PCU Premise Control Units PCU Detection devices Tamper switches Fail safe capability Line fault for hardwire systems only detection Power loss detection Battery Backup 1 Premise Control Unit PCU shall include a command processor installed in an attack and tamper resistant enclosure The PCU shall be packaged and include a power transformer battery s network connection cable keypad s keypad connection cable s and additional components as required All system electronic components shall be solid state type mounted on printed circuit boards Light duty relays and similar switching devices shall be solid state type or electromechanical The PCU shall have an over current notification LED that lights when devices connected to the Keypad Bus or communication Bus es draw more current than the PCU is rated for When the over current LED lights the communications Bus es and Keypad bus are to shut down The PCU shall provide at a minimum but not limited to the following capabilities a Expansion to a total of at least 10 000 user codes with 99 ____ user profile definitions Shall support 4 8 16 keypads with alphanumeric display Each keypad shall be capable of arming and disarming any system area based on a pass code or Proximity card and or key FOB authorization The keypad alphanumeric display shall prov
116. output for interface to an external audio amplifier to permit remote audio assessment regardless of sensor alarm status Sensor zone control unit alarm output interface shall be a separately supervised relay contact normally open or normally closed with an adjustable intrusion alarm pulse width of 0 5 second adjustable and a continuous until corrected tamper alarm Electrostatic field sensors Sensors shall initiate an alarm when an intruder attempts to approach or scale a fence or physical barrier Electrostatic field sensors shall detect human presence by generating an electric field around one or more horizontal wires and sensing the induced signal in parallel sensing wires Sensor shall monitor the induced signal for changes that result from the presence of a conductive body or a body with a high dielectric constant such as the human body which distorts coupling between transmitting and sensor wires Sensor components shall consist of one or more signal generator field wires and mounting hardware sensing wires an amplifier signal processor power supplies and necessary circuitry hardware Mounting and support hardware shall be provided by the equipment manufacturer Wires shall be spring tension mounted and provided with end of line terminators to detect cutting shorting or breaking of the wires Sensor configuration shall be selected such that an intruder cannot cra
117. per second per camera for 1 2 4 weeks DVR performance shall be as follows 1 The DVR shall use modular hard disk media with a digital format capacity of 160GB 250GB per module 2 Include a 4 9 16 channel triplex video multiplexer capable of performing encoding recording and multiscreen viewing modes simultaneously Provide 4 9 16 channels of live simultaneous video images in which all 16 channels are refreshed at 60 frames per second SECTION 28 20 00 00 20 Page 59 10 Furnish 10 100base T connection for record review and camera view and control on a PC workstation equipped with Microsoft Windows XP Professional operating system software Microsoft Internet Explorer version 6 or greater Internet Browser Software PC workstation Viewing Each of the ESS PC workstations shall include direct access to each DVR via a Microsoft Internet Explorer Web Browser All necessary descriptive bookmarks and shortcuts shall be prepared on each PC workstation to allow this direct access All functions shall be accessible through html commands from a user s web browser interface Pictures shall be available for attachment via a user provided SMTP based email transport system and included capability for 16 users and 3 user access levels admin control and user Include 720 H by 480 V Pixel Memory sampling and 3 D scan conversion to enable jitter fr stabilized pictures
118. quirements must conform to NACSIM 5203 Guidelines for Facility Design and RED BLACK Installation refer to Military Handbook MIL HDBK 232 kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk Install in accordance with NFPA 70 and Section 26 20 00 INTERIOR DISTRIBUTION SYSTEM slu 6 Underground Cable Installation Underground conductors connecting protected structures and objects to the central alarm updating and display unit shall be run direct burial or in conduit as specified in Section 33 71 02 UNDERGROUND ELECTRICAL DISTRIBUTION Coaxial cable shall not be spliced If permitted cables connecting protected structures and objects to the security control console shall be sized such that initially only approximately 60 percent of the circuit pairs will be used Cable pairs not used shall be reserved for future use of additional detection circuits Lg Exterior Fences kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk NOTE Coordinate this requirement with requirements of Section 32 31 13 CHAIN LINK FENCES AND GATES FOI He ke e e de e e e e e He He He He He II e e e He He He He He He ke ke e e e IO He He ke ke e ke e e e ke e He H k ke e ke k ke e ke e ke ke k k k k k k Preparation of existing fences or installation of new fences shall ensure a rigid fence system for installation of fence mounted detection systems or a detection system wher
119. r 12 AWG 14 Conceal wiring in in existing Identify conductors by plastic coated s heat shrink type sleeves munication devices Pigtail or T tap connections used for identical lf sticking Connect sensors so that removal functions shal Identify or termination is printed control will cause a tamper are not acceptabl be distinctive le y or code wire shall remain uniform c it b Communication link from sensor to control unit shall be by dedicated circuit opening or clo converted to d meters 250 feet of the sensing point rm reporting and display processor shal to central ala continuous int digital commun kilobaud sing of a relay contact An alarm condition shall be indicated by the Analog signal s shall be igital values or a relay closure or opening within 76 errogation and response mode ications techniques at a data rate of Interrogation and response communications between 5x12 the control unit and central processor shall be half duplex bidirectional interrogation branches wire Connect Communications contro signal regener maintain speci feet When op communications length of 22 8 reporting and capable of ope voice grade t on one dual twisted pair cable one for response control wires in parallel l units ating or amplifying devices When operating without
120. r placed in access at the alarm reporting and display processor Additionally a sequential monitoring capability shall permit alarm reporting and display subsystem operation to view zones in numerical order at an operator adjustable scan rate Individual cameras shall be capable of being called up to display zones on the video monitors Manual controls for camera switching shall be from any remote controller connected to the Matrix switcher Switcher shall be configured to fit in a standard 480 mm 19 inch rack for desk top console operation Switcher shall be tamper alarmed Performance requirements shall be as follows a Modular construction shall enable 16 32 64 camera inputs and 4 8 16 monitor outputs b Matrix switcher shall provide optional alarm and communication boards c The Matrix switcher shall allow 1 remote controllers for system control and operation d Alarm modes shall be automatically enabled or disabled by time of day and day of the week e Operator Registration and System Partitioning Up to 8 16 operator s can be registered in a system with different operator access levels Password protection shall be available to limit operator access Operator priority shall be available to lock out lower priority operators and to limit operator access to specific cameras and controls f Video connectors BNC 4 17 4 Video Transmission Transmission shall be by 75 ohm coaxial ca
121. r assembly Belt driven PTZ camera units are not acceptable All PTZ cameras shall be equipped with a slip ring assembly having an optical interface and be rated for continuous duty PTZ cameras shall be fully integrated units The pan tilt mechanism shall be an integral part of the camera 3 Be identified with the manufacturer s part number model number lens installed and a serial number 4 Operate over a voltage range of 105 to 130 volts ac or low voltage 12 to 24 volts ac at 60 Hz 5 Have electronic circuits which use solid state devices 6 Be constructed to provide rigid support for electrical and optical systems so that unintentional changes in alignment or microphonic effects will not occur during operation movement or lens adjustments 7 Have standard C or CS lens mount 8 Be designed to protect personnel from exposure to high voltage during operation and adjustment and 9 Meet requirements specified herein with either side of the power source line grounded Minimum essential requirements shall include the following a Sensitivity Minimum Illumination 0 8 lux 0 08 fc at F1 4 color mode 0 1 lux 0 01 fc at F1 4 in the B amp W mode bo Signal to noise ratio Show a signal to noise ratio of not less than 50decibels dB at AGC Off weight On c Resolution Provide a horizontal resolution of at least 480 lines in color and 570 line in B amp W with automatic gain and ba
122. r fuseposts Fuseholders shall be located in a readily accessible position c Video and signal input 1 Monitors shall operate with video input requiring a one Vp p nominal composite video signal switchable to either loop through or internal 75 ohm terminating impedance 2 Signal input shall be BNC connectors 2 4 17 6 Ancillary Equipment Equipment shall consist of the items specified below a Video date time generator The video time date shall originate from ither the camera switcher video digital video recorder DVR or the video matrix switcher b Camera identifiers Video signal from each camera shall be identified by alpha numeric identifiers Camera alpha numeric identifiers may originate from either the camera switcher digital video recorder or Video Matrix Switcher kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkxkkk NOTE Digital Video Records are preferred over Video Tape Recorders DVR s provide larger storage capabilities and faster retrieval of stored data kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkxkkk c Digital Video Recorder DVR The DVR shall provide 4 9 or 16 video channels The DVR will record all cameras onto a hard drive and shall allow remote network viewing via internet intranet browser Hard drive capability shall be sized to store all cameras recording 24 7 at 3 6 9 15 I images
123. rces at the same time as multiscreen viewing and multiplexed camera encoding triplex multiplexer mode Up to eight 8 simultaneous clients viewing and 2 simultaneous FTP sessions shall be supported 17 Power The DVR shall have a power source of 120VAC 50 60 Hz Video tape recorder Recorder shall be of the helical scan format and shall accept standard 12 7 mm 1 2 inch VHS video cassettes Time for a stable picture lock from the standby mode shall be 2 seconds or less Recorder shall provide continuous recording times of 2 hours per cassette Time lapse recording up to 24 hours selectable shall be possible Tape motion controls shall be pushbuttons Provide for remote starting and stopping of video recorder Recorder shall be capable of stop motion and slow motion Provide a tracking control to nsure precise tracking of playback Provide 10 standard 12 7 mm 1 2 inch VHS video cassettes Mount recorder ina standard 480 mm 19 inch equipment rack desk top console 1 Video performance requirements shall be as follows a Bandwidth 30 Hz to 3 5 MHz plus or minus one dB down no more than 4 dB at 5 MHz bo Signal to noise ratio 46 dB peak to peak composite signal to rms noise with high energy tape c Differential gain 10 IRE units maximum deviation 10 to 90 percent APL d Input level 0 5 to 2 0 Vp p 1 0 Vp p nominal e Output level One Vp p composite vi
124. re the junction boxes by c Secure armored cord Lamps or bushings Provide armored cord with lug terminals at each end nd the armored cord shal strain as gate is moved from fully open to c Provide for exterior facil fences by the employment of the barrier 1l electrostatic field in as SOL zones Ins recommended h entitled Sensors shall detect building roofs finders As the range fin pulses which enable it to ders rotate shall detect clutter such environmental anomalie SECTION 28 20 00 00 20 as weather conditions Ss Page 40 xperienc losed no mechanical lity barriers other than sensors taut wire a stand alone configuration sensor length electronically into tall sensors by the manufacturer on the exterior side Sensors Electrostatic Field intruder presence on perimeters and water ways by two rotating laser range the sensor sends out laser learn its surrounding environment intruders in a specified area while disregarding useless moving bushes and similar The sensor shall be able to track an intruder The sensor for up to 140 meters 450 feet radius and display the alarm results at the ESS The sensor shall be able to send alarm signal data to the ESS and a CCTV camera system for additional intruder tracking Triple Technology Sensors sensor shall consist of triple technology that combines Microwave and Dual
125. rrier Detect On Line Ring Detect and Data Terminal Ready A Network Interface Card NIC shall be integral to the digital receiver with a built in TCP IP network router External network routers are not acceptable for Ethernet and Internet Intranet monitoring A Network Interface Card NIC shall be integral to the receiver with built in network router capable of 128 Bit AES Rijndael Encryption process certified by NIST National Institute of Standards and Technology Modem Power Supply Card 1 Modem power supply card shall provide power for up to 5 line cards Power shall be supplied through the modem rack backplane connectors without additional cabling The modem power supply card shall also provide monitoring for the LCD connection UPS system status and 120 VAC input to the digital receiver SECTION 28 20 00 00 20 Page 67 2 Modem power supply card shall have a green LED labeled PWR The PWR LED will light when the power supply to the modem power supply card is in good condition There shall also be a red LED labeled PWR TRBL which will light when there is a power problem on the modem power supply card along with sounding an alert The alert shall be able to be silenced by pressing a silence switch on the modem power supply card or software control from ESS The red LED shall remain lit until power problem is corrected 3 Modem power
126. rted by rods extending from the outriggers for a total vertical height of approximately 2440 mm 8 feet Displacement switches for each horizontal wire shall be mounted within a prewired channel fastened to the fabric fence post at the midpoint of each section Outrigger barbed wire and tripwire may share the same switch Each taut wire fence post shall mount to the normal security fence chain link fabric posts or other barrier via standoffs to position the taut wire approximately 150 mm 6 inches from the fence fabric or other barrier Mount freestanding taut wire fence posts in concrete to support the taut wire fence system Each barbed wire strand shall be pretensioned and clamped to the lever arm of the displacement switch such that the lever is in the neutral off position therefore the forces applied by the barbed wires ar balanced equal in opposite directions Tripwire shall be pretensioned in a like manner Tripwire shall be linked to the top switch in the sensor switch channel by a special subassembly that includes a rod which shall serve as a lever to transfer movement of the tripwire to the end of the actuating lever arm of the sensor switch Abnormal displacement of a switch lever resulting from cutting or deflecting its attached wire as by climbing on or through fence strands shall initiate an alarm condition Damping mechanism in the sensor shall sn s k t E educe alarm thresh
127. s and shall communicate with the Primary via an RS 422 485 hardwire TCP IP network or fiber optic configuration The ACU shall be capable of but not limited to the following 1 All ACU s shall have built in surge suppression circuitry on plug in modular circuit boards The surge protection designed as an integral component of the system shall be self sacrificing in the event of xtreme surges or spikes 2 Each ACU shall be capable of supporting at least 2 ports and be expandable in increments of two ports up to a maximum of 4 8 SECTION 28 20 00 00 20 Page 47 16 _____ ports per ACU 4 Each ACU port shall be configured by AACS to support any one of the following peripheral devices Card reader Alarm Monitoring Module Output Relay Module Elevator Reader or Elevator Output Module Any combination of these devices can be supported on each ACU up to a total of 2 4 8 16 devices per ACU 5 Each ACU shall have the capability of supporting multiple card reader technologies simultaneously including Transmissive Infrared Wiegand Magnetic stripe Proximity Barcode Keypad Card Keypad Smart Card and Biometrics This capability shall be an integral part of the ACU and will not require special external equipment ach ACU shall have built in battery back up of programmed information nd shall be sustainable for a peri
128. s activation to be delayed after an activating condition occurs Anti Passback The AACS shall have global anti passback capability Any door on the system can be linked to one of 254 user defined passback areas or two 2 pre defined areas Each door may be set up to automatically forgive passback entries at the following intervals Never at Midnight every 12 hours Midnight and Noon every 6 hours every 2 hours each hour or every 30 minutes Each door can be configured to deny or grant access for passback violations and individual users can be exempt to the passback rules The anti passback features shall be a global function and operate completely independent of the AACS software with the exception of configuring the passback rules Additionally the operator shall have the ability to manually forgive an individual user or all users by command from the AACS Two Person Rule Any access control reader on the system shall have the ability to require two valid cards for access This feature shall be software programmable Any access control reader on the system that includes a keypad shall also have the ability to require a valid PIN number associated with each of the two valid cards User List Who s In Muster Reports The AACS shall be capable of generating dynamic lists of users in certain access controlled areas based either upon selected users or selected areas The lists shal
129. s wildlife and natural phenomena Nuisance alarm rate is a function of sensor adjustment and shall not exceed a rate of one alarm per 7 days for each sensor zone for the initial 90 days after acceptance by the Government Nuisance alarm rate shall not exceed a rate of one alarm per 30 days for each sensor zone thereafter c Reliability and Availability Reliability for ESS shall be based upon reliabilities of equipment used Reliability requirements shall be as contained in equipment specifications and when equipment is combined in particular configuration shall provide a system level mean time between failure MTBF that is consistent with both the system level availability requirement stated below and specific requirements for each defined functional area Inherent availability required Ai is based on an assumption of no planned system downtime for preventive maintenance and shall be calculated as MTBF Ai MTBF MTTR Where MTBF is the mean time between failure of the system as defined by MTBF j MTBF j Where MTBF j is the achieved mean time between failure of each individual piece of equipment used in the given system configuration as demonstrated in the individual equipment reliability qualification test MTBF for this system shall be not less than 5000 hours System shall be capable of pinpointing failures within 20 minutes MTTR is the
130. sed through the fiber net The upper part of the fence shall able formed into squares of16 Infrared light incorporate transducers and a tensioned heavy duty fiber optic cable which is stretched betw assuring parallel The The fol free standing intruder detection system Electromechanical fence sensors Sensor n the transducers and inserted through the upper loops of the fiber optic net rest upon flexible fiberglass rods installed 2 meters 6 feet structural flexibility to a variety of existing perimeter barriers or installed as a upper part of the fence shall apart ding fiber net can be attached s shall detect human presence by sensing mechanical vibrations or motion associated with an intruder scaling attempting to lift the installation the fence or cut through the fence cutting through a standard security chain link fence fabric Dead zones shall not exis fence without detection Se protected shall be divided into 100 met shall consist of individually electromec every 3045 mm 10 feet on the fence fabr or nsor shall fully protect fence t where an intruder can scale Length of fence er zones Sensors hanical sensing units mounted ic posts and shall be wired in series to a sensor zone control unit and associated power supply alarm whe Sensor zone control unit shall sensing unit activations are Alarm threshold shall be fi
131. sh 2 independent Video Outputs assignable to Multiscreen or Spot functions both either Furnish one 1 Cascade output for connecting 3 additional digital video recorder for centralized control using a single video monitor Furnish virtual camera number programming capability to support 64 camera channels on a single system Furnish 1 independent RGB Video output capable of monitoring all DVR functions Indicators Furnish Alarm Alarm Suspend Operate HDD1 Hard drive identifier Timer and Error indicators Furnish Camera Selection Iris Preset and Camera Automatic Mode Pan Tilt Set Jog Dial Shuttle Dial Setup Esc Record Search Play Pause Pan Tilt Slow Stop Pan Tilt Go to Last Zoom Focus A B Repeat Shift Alarm Reset Buttons All Camera selection buttons shall have Tri State Indication corresponding to Recording Viewing and Control functions on actual DVR hardware PC emulation shall not be an acceptable alternative Networking All DVR recording review playback camera control SECTION 28 20 00 00 20 Page 61 and setup shall be available via the internally mounted Network Interface Equip with 10 100base T connection for record review and camera view and control on a personal computer equipped with Internet Browser Software and an Ethernet 100Base T connection Feature shall permit direct camera selection for recording playback of any of 4 9 16 video sou
132. sion or auxiliary door alarms may be automatically enabled or disabled by the use of timed commands either by device or by a group of devices This may be used for example to disable all door alarms on internal doors during normal office hours Maps may be created using standard office tools such as Paint or drawing packages such as AutoCAD Drawings shall be able to be imported in Jpeg Bitmap Windows metafile or DXF file formats to provide maximum flexibility 2 4 18 6 Control and Display Integration Accomplish so that SCC controls are human engineered as specified in paragraph entitled Human Engineering so the entire SCC can be operated by a single or multiple operator s In addition switching and monitoring components of the assessment subsystem shall also be integrated with the SCC so that SCC operator s can effectively monitor assess alarms and control the ESS Method of system integration shall be as a single console Provide chassis modules and furniture required for console configuration of SCC SECTION 28 20 00 00 20 Page 70 22 5 FIELD FABRICATED NAMEPLATES ASTM D709 Provide laminated plastic nameplates for each equipment enclosure relay switch and device as specified or as indicated on the drawings Each nameplate inscription shall identify the function and when applicable the position Nameplates shall be melamine plastic 3 mm 0 125 inch 0 125 inch thick white with blac
133. sks taking precedence over lower priority tasks The ESS software shall support responses to alarms entering the system Each alarm shall be capable of initiating one or more of the following actions sending alarm commands to a CCTV system interface triggering DVR event recording activating output devices playing PC audio files controlling doors and displaying floor plan graphical maps associated with the alarm device The system shall provide mode of system operation that reguires operator acknowledgment of any alarm The ESS software shall be capable of but not limited to the following programming and functionality a Daylight Savings Time Adjustment There shall be a software configurable user defined adjustment for Daylight Savings Time The ACU s and PCU s shall not need to be connected to the ESS in order for the adjustment to occur b Operator Privileges An unlimited number of system operators shall be supported each with a unique login and password combination Operators shall be assigned privileges based on the loops commands or programming features that are available to each individual operator c Alarm Priorities Each alarm device shall have the ability to be user configured to belong to one of 10 000 priority levels Priority levels are numbers assigned to an alarm based on the importance of the alarm 9 999 is the highest and most critical level
134. slate forces no displacement of the se lower on every fence are installed Separa shall be 3000 sensor to existing spe posts located equidis sensor zone run Anc are installed fastenin strip to anchor post a fastening plates At attached barbed wires alarm and making it tesi and to react to fast changes only deflection or cutting of the wires which may result from environmental changes such as variations and ground cr to weather rmal post tion mm cial nsor to the barbed wire to xcept wher page du as caused by manual Provide metal slider strips having Wires shall be prevented Purpose of the slider strip shall be Install one slider strip pair a horizontal upper and sensor posts or anchor strips between slider elements along the fence ELOT iu ee tant hor strip shall g pl shal impossibl ly instal on both sides of be a s ld strip ates Wel l cause plates to to defeat th tening pl break off Attach barbed wires of led fence posts called anchor sensor posts and at ends of trip of steel or otherwise attach the nd ends of tensed barbed wires wrapped around the tempts to climb on fas plate on which ates or on the creating an anchor post and be flexible enoug Barbed wire used in the syste installation under a preload tension of approximatel h for convenient manipulation during tensioni
135. sm Antennas shall not be mounted to any portion of the facility fence or roofing system Antennas shall be furnished by the same manufacturer as the rest of the RF link Provide coaxial cable in lengths as required Cable shall use PL type fittings or connectors properly protected against moisture Cables shall match output impedance of transmitters 4 17 Closed Circuit Television CCTV System kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkxkkk NOTE Scene illumination shall be even across the field of view of the camera with a maximum light to dark ratio of 8 to 1 Minimum illumination level shall be 11 lux one footcandle kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk NOTE For visual assessment of alarms specify the optimum number of monitors for the number of cameras required It is difficult to view and respond to too many monitors Typically for six cameras or less use one monitor per camera For a larger number of cameras consider sequential switchers four quadrant multiplexers or a combination of both kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkxkkk Provide UL Listed CCTV components to provide visual assessment of ESS alarms Subsystem shall continuously view remote areas with video cameras and display the areas automatically upon ESS alarm or upo
136. supported by the external program The Photo imaging components shall include one or more networked PC workstations at which all of the required image capture equipment has been installed The AACS shall provide capability to place ACU s in an off line mode In the off line mode the ACU s shall retain a historical summary of all ACU activity transactions up to the maximum capacity of the ACU memory buffer The system shall provide ability for manual operator control of system output relays The manual functions shall include the ability to energize d nergize enable or disable The AACS shall provide ability to display stored video image of cardholder based on card activity and switch real time CCTV camera to card reader location for specific card usage The card reader shall not activate the door lock until positive operator acknowledgment from the SCC The AACS software shall be capable of but not limited to the following programming 1 Time Schedules Up to 254 user definable time schedules shall be provided These time schedules shall determine the day s and times that access will be granted or a scheduled event shall occur Any and all of the time schedules shall be available for defining access privileges and scheduled events There shall be ALWAYS and NEVER schedules that cannot be altered or removed from the system Each user defined time schedule shall have the option of reac
137. switches required to be installed on component enclosures shall be UL listed round key type with three dual one mushroom and three plain pin tumblers or shall have a pick resistance equal to a lock having a combination of five cylinder pin and five point three position side bar in the same lock Keys shall be stamped U S GOVT DO NOT DUP Key lock operated switches shall be keyed differently and shall be two position with the key retractable from either position Furnish two keys for each switch Maintenance locks shall be of the one way key pull type arranged so that the key can be withdrawn only when the lock is in the locked position Locks on components for maintenance access shall be keyed alike only two keys shall be furnished for such locks Deliver keys tagged with metal tags accompanied by a manufacturer s certificate which records the number of each key mad 2 4 14 Detection Sensors Sensors shall detect penetration of the facility perimeter and protected zones by unauthorized personnel or intruders with a probability of detection pd of 0 9 with a 95 percent confidence level and as applicable shall conform to UL 639 Unless otherwise specified required sensor power is plus 12 volts dc 246145 7 Interior Point Sensors kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk NOTE Balanced magnetic switches BMS as specified in a b and c are for High security applications r
138. ted in accordance with IEEE C62 36 1994 as a minimum Protective interfacing with the telephone wire pairs shall be SECTION 28 20 00 00 20 Page 24 listed to UL 497B g Data Line Protection Solid state silicon avalanche diode or metal oxide varistor circuitry for protection from over voltages on long cable runs employing standard RS 232 RS422 or RS485 Appropriate connectors shall be utilized to interface a remote station with a host CPU h Signal Line Protection Solid state silicon avalanche diode and metal oxide varistor hybrid circuitry for protection from over voltages on 2 or 4 wire signal lines such as balanced pair telephone metallic pair telephone buried and overhead field cable remote radio equipment and control systems Unit shall have an LED diagnostic lamp that lights if unit needs replacement Unit shall be listed UL 497B i Modular Twisted Pair Protection Solid state silicon avalanche diode or metal oxide varistor circuitry for protection from over voltages on twisted pair data or audio lines Protectors shall clip mount on 66 punch down blocks furnished with grounding bar or studs and shall be totally enclosed Units shall be securely mounted at terminal locations where shown and shall be grounded to the main building ground with a minimum No 12 stranded copper green insulated ground conductor kept as short as possible Ground terminals shall be screw
139. the system level availability requirement stated below and specific requirements for each defined functional area Inherent availability required Ai is based on an assumption of no planned system downtime for preventive maintenance and shall be calculated as MTBF Ai MTBF MTTR Where MTBF is the mean time between failure of the system as defined by MTBF j MTBF j Where MTBF j is the achieved mean time between failure of each individual piece of equipment used in the given system configuration as demonstrated in the individual equipment reliability qualification test MTBF for this system shall be not less than 5000 hours System shall be capable of pinpointing failures within 20 minutes MTTR is the weighted average mean time to repair of the system as defined by MTTR j MTTR MTBF x j MTBF j Where MTTR j is the achieved mean time to repair of each individual piece of equipment used in the specified system configuration MTTR for this system shall not exceed 30 minutes of on site time for any one SECTION 28 20 00 00 20 Page 16 element Fia d Intrusion Detection System IDS Provide a complete digital IDS with the performance criteria posted operating instructions detailed in this specification The system shall be incl lusive of all necessary functions monitoring and control capability as detailed herein and on
140. the operator making the change and the nature of the change This data audit shall be available in history for reporting 4 18 2 Digital Receiver The digital receiver system shall be capable of monitoring PCU digital dialers data networks and TCP IP network communications of IDS account zones on the same receiver The digital receiver enclosure shall house the processor card rack modem rack data rack and convenience panel Built into the front of the digital receiver enclosure shall be an LCD display for viewing incoming reports with a keypad for acknowledging reports and configuring the system and its components The digital receiver enclosure shall contain internal cards consisting of a processor board 3 line cards modem power supply card multibus power supply card and transformer card The digital receiver shall be capable of but not limited to the following programming and functionality a The digital receiver shall provide SCC with computerized monitoring of PCU communication format of Synchronous Data Link Control SDLC Digital receiver features shall include automatic logging of alarm trouble and supervisory account reports on a local printer with date and time of their occurrence Capacity of up to 65 535 digital dialer or direct dedicated account zones for alarm trouble user and system reports The Digital receiver shall provide SCC with computerized monitor
141. ting or other methods of forced entry through a structure Mount vibration sensors directly contacting the surface to be protected Sensors shall be designed to give peak response to structurally conveyed vibrations associated with forcible attack on the protected surface Provide 1 sensor s on each monolithic slab or wall section even though spacing closer than that required for midrange sensitivity may result House sensors SECTION 28 20 00 00 20 Page 31 in protective mountings and fasten to surface with concealed mounting screws or an epoxy Provide sensors with tamper switches Removal of a sensor from the surface shall initiate an alarm An adjustable alarm discriminator shall function to prevent incidental vibrations which may occur from triggering the alarm circuit Adjust discriminator on the job to precise needs of application Connect sensors to an electronic control unit by means of wiring or fiber optics cable run in rigid steel conduit electrical metallic tubing EMT Sensor sensitivity shall be individually adjustable unless sensor is designed to accommodate vibration ranges of specific surface type on which it will be mounted Sensitivity adjustments shall not be accessible without removing the sensor cover Sensor shall not be responsive to airborne sound Fiber Optic mesh sensors Provide fiber optic woven nets which form an alarmed sensor barrier in walls doors floor or ceiling Fib
142. ting or not reacting to user defined special days with the ability to react uniquely to each type of special day 2 Special Days There shall be an unlimited number of user definable special days These days shall be used for configuring exceptions to the normal operating rules typically for specifying holiday operating rules Each special day shall be assigned to a type with each type defined by the user 3 ACU Daylight Savings Time Adjustment There shall be a software configurable user defined adjustment for Daylight Savings Time The ACU shall not need to be connected to a PC workstation in order for the adjustment to occur 4 Scheduled Events Any access controlled reader shall be capable of scheduled unlock periods to allow for card free access The access controlled reader shall also be capable of reguiring one valid access vent before beginning a scheduled unlock period Additionally any access control point shall be capable of requiring a valid card as well as a PIN code via keypad on a scheduled basis for high security areas The use of PIN via keypad functions shall not reduce the number of card reader or alarm points available in the ACU s Any designated alarm input shall be able to be scheduled Armed and Disarmed Any relay output shall be capable of scheduled On and Off periods to allow for automatic I O system control
143. tire ESS including subsystems and provide the NAVFAC and NAVFAC Engineer with a written report c Following completion of the initial testing and correction of any noted deficiencies conduct a five day burn in test intent of the burn in test shall be to prove the ESS by placing it in near real operating conditions During this period the ESS shall be fully functional and programmed such that all points interfaces controls reports messages prompts etc can be exercised and validated Record and correct any system anomaly deficiency or failure noted during this period Scheduling of the final acceptance test shall be based on a review of the results of this burn in test d Deliver a report describing the results of the functional tests burn in tests diagnostics calibrations corrections and repairs including written certification to the NAVFAC and NAVFAC Engineer that the installed complete ESS has been calibrated tested and is fully functional as specified herein e Prior to the final acceptance test complete all clean up and patch work requirements Security equipment closets and similar areas shall be free of accumulation of waste materials or rubbish caused by operations under the Contract At completion of the Work remove all waste materials rubbish contractor tools construction equipment machinery and all surplus materials f Upon written notification from the Contractor that the
144. to monitor system functions and report an alarm when a failure is detected in a critical system function Installer Either the Contractor or a subcontractor with whom the Contractor has a firm contractual agreement Intruder An animate object at least 1220 mm 48 inches in height 34 kg 75 pounds in weight and 0 113 cubic meter 4 cubic feet in volume moving through the protected zones or portals at a velocity of 30 to 3000 mm 0 1 to 10 feet per second n ECTION 28 20 00 00 20 Page 7 e Sensor zone A geographic position for which an intrusion must be identified and displayed and may be the combination of multiple detection devices f Element As used in this section means a constituent part of a complex signal such as an ac or dc voltage or current ac phase or frequency duration 4 SYSTEM DESCRIPTION Provide new or modify existing Electronic Security Systems ESS including associated equipment and appurtenances The design of the ESS shall include devices and equipment used to detect intrusion control access to restricted areas detect and deny unauthorized entries within specific areas generate reports produce Photo Identification badges provide surveillance and annunciate alarms The ESS shall be designed to provide operational flexibility and reliable performance The ESS shall be modular allowing for future incremental expansion or modification of inputs outputs and remote control
145. ts buildings the next level the individual buildings floor followed by a map of the area on a floor containing the device in alarm The graphical map software shall allow for 3 6 layers of maps to be defined for any given ESS device To speed the location of an incident each map level contains a clearly visible indicator as to which sub map the operator should select next to find the device that is in alarm The ESS may also be configured to display a map automatically on presentation of a new alarm providing the operator with prompt visual indication that an alarm condition has occurred The status of intrusion devices access control readers doors auxiliary monitor points and auxiliary outputs can be requested from any map by simply selecting the icon representing the device and its current state will be displayed With the associated management module installed CCTV camera control Digital video review alarm panel transactions and Intercom reguests are all available for inclusion on the map SCC operators shall be able to change a current setting by pressing the right mouse button anywhere on the screen or on a specific system device icon Pressing the right mouse button will cause the appropriate command options list to appear for selection Having selected a command confirmation is provided by reflecting the change in status on the display The display of intru
146. ty before final design A unique facility code may only be available with the purchase of 5000 cards or more kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk kkkkxkkkkkkkkkkkkkkkkkkkkkkkkkkxkxkk Cards shall be manufactured with capability of modification and lamination during enrollment process without reduction of readability for use as a picture and identification badge Cards shall contain binary coded data arranged in a scrambled pattern as a unique identification code stored on or within the card and of the type readable by the subsystem card readers Include within the card binary data a nonduplicated unique facility access control subsystem identification code common to access control cards provided Cards shall be designed for use as a photo identification card suitable for lamination 2 4 16 Communications Communications shall link together subsystems of the ESS ESS communications links shall be via hardwire cable or radio frequency Communications links shall be supervised Common communications interface devices shall be provided throughout the ESS Sensor to control unit interface shall be by dry relay contact normally open or normally closed except as specified otherwise Control unit to central alarm reporting and display processor interface shall be digital asynchronous or multiplexed data Individual data bits shall be grouped into word format and transmitted as coded messages Interface shall be implement
147. ultibus rack with cooling fan The multibus rack holds the processor card and the multibus power supply card Processor Card The main system processor shall control the line cards the LCD display the built in keypad and the printer The processor shall contain the firmware for system operation the EEPROM memory of operator codes line configuration and perform all time keeping functions Line Card 1 Line card shall provide for 1 incoming line of PCU digital dialer data network or TCP IP network communication to PCU s Each line card shall have one 10 position flat cable for connection to the processor card and one connector for a phone line or data network line from an RJ11X connection block When the line card is configured for PCU digital dialer operation the line card shall monitor the incoming phone line voltage During a loss of phone line voltage a red Phone Line Fail LED shall light and an alert sound The alert shall be silenced by pressing the silence switch on the card or software control from ESS The LED shall remain lit until the phone line is restored Line card shall have a green LED labeled PWR to be lit when the power supply on the line card is in a good condition Line card shall have six yellow LEDs indicating the condition of the line card during various stages of communication Stages indicated shall be Transmit Data Receive Data Ca
148. urable as plain text fields or drop down selection lists Archive Database The ESS shall include a connection to an archive database which stores purged events and deleted programming and which can be accessed for reporting Programmable Database Backup The ESS shall include the capability of performing user scheduled database backups without the use of third party backup software Programmable Database Purging The ESS shall include the capability of performing user scheduled database purging moving selected events to an archive database when th vents have aged a user specified number of days Database Importing The ESS shall include the capacity to import user data from an ODBC datasource Access Excel text Data Exporting The ESS shall include the capacity to export data from any table in the database to either a text or HTML file in any user selected order Event Log Output The ESS shall include the capacity to send a continuous stream of user selected types of event messages to a text file serial port or TCP IP address Data Audit Trail The ESS shall record changes to programming recording the date time stamp of the change the name of the operator making the change and the nature of the change This data audit shall be available in history for reporting 4 18 2 Digital Receiver The digital receiver system shall be capable of monitoring PCU digital d
149. w up to 255 user defined 1 0 input output groups to be defined Each Input device shall be able to be linked to these groups for arming disarming shunting and unshunting as well as output control Delays Each alarm device shall allow a delay to be specified The delay shall b ither an entry type or a dwell type An entry typ delay shall prevent the input from issuing an alarm event until the delay elapses If unarmed during the delay period the alarm condition shall be ignored A dwell type delay shall require the input to remain in the alarm state for the full duration of the delay before issuing an SECTION 28 20 00 00 20 Page 45 24 25 27 28 29 30 31 32 alarm condition Remote Input control The operator shall have the capabi lity of manually controlling any alarm input point by issuing a simple command from the AACS The SCC operator shall have the ability to shunt unshunt disable and restore any input in this manner This activity shall cause an entry to be logged displaying the input name and time Additionally the operator shall have the ability to arm disarm shunt and unshunt any alarm parti that it was performed a single command from the SCC The arm disarm shunt and tion group by unshunt any alarm partition group from the SCC shall not be permissible in DIA DCID 6 9 applications Output Configuration as a FOLLOWS
150. weighted average mean time to repair of the system as defined by MTTR j MTTR MTBF x j MTBF j Where MTTR j is the achieved mean time to repair of each individual piece of equipment used in the specified system configuration MTTR for this system shall not exceed 30 minutes of on site time for any one SECTION 28 20 00 00 20 Page 16 element Fia d Intrusion Detection System IDS Provide a complete digital IDS with the performance criteria posted operating instructions detailed in this specification The system shall be incl lusive of all necessary functions monitoring and control capability as detailed herein and on accompanying Shop drawings The IDS primary functions shall be to detect intrusion to secured areas The system shall util lize a single database for all IDS programming data that shal seamlessly integrate with the ESS This integration shall be provided under one operating environment The IDS events shall be viewable as separate or as a combined list of all ESS events Overall control of the IDS intrusion alarm monitoring shall be through software control of the ESS The IDS shall provide both supervised and non supervised alarm point monitoring The system shall be capable of arming or disarming alarm points both manually and automatically by time of day day of week or by operator command Components shall include but n
151. wl under the bottom wire through the wires or over the top wire without being detected and shall be divided into sensor zones Sensors shall be capable of following irregular contours and barrier bends without degrading sensitivity below the specified detection level In no case shall a single sensor zone exceed 100 meters or be long enough to significantly degrade sensitivity Adjacent zones shall provide continuous coverage to avoid a dead zone Adjacent zones shall be designed to prevent crosstalk interference Signal processing circuitry shall provide filtering to distinguish nuisance alarms Sensor configuration shall incorporate balanced opposed field construction to eliminate far field noise Exterior components shall be housed in rugged corrosion resistant enclosures protected from environmental degradation Provide housing with tamper switches Interfacing between exterior units shall be carried in underground cables Exterior support hardware shall be stainless or galvanized to avoid tension degradation in the physical support system Sense and field wires shall be stainless steel Wire spacing for various configurations shall follow manufacturer s specifications Spacing of wires shall be maintained constant throughout each zone and shall be uniform with respect to the ground Signal processing equipment shall be separately mounted such that no desensitized zones are created within the zone of detection Sensor sensitivity shall be adjustab
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