TECHNICAL SURVEILLANCE SPECIFICATIONS SYSTEM, FOR ACCESS IP CCTV CONTROL SYSTEM (ACS), BOOM-BARRIER AND TURNSTILE. ---------------------------------------------------------------------------------------- GENERAL SITE CONDITIONS: Max. Ambient Temperature Min. Ambient Temperature : : 45 degree C and 50 degree C ( designed) 4 degree C Max. R H : 97% Min.
DESIGN CONCEPT & SCOPE OF WORK : 1) IP CCTV SURVEILLANCE SYSTEM (i) DESIGN CONCEPT: • • • • • • • • • • • • The entire IP surveillance system is designed to control and monitor the different blocks of the CDRI campus.
• • • • • Provide supervisory specialists and technicians at the job to assist in all phases of system installation, start up and commissioning. Cat 6cable/fiber cable connectivity with all required hardware upto purchaser’s networking switches of LAN, locations of networking switches in CDRI campus are indicated in the list. enclosed with this tender documents. 230 volts AC Power supply distribution from UPS to each location of cameras along with DBs ,JBs, cabling work etc. with required accessories.
2) ACCESS CONTROL SYSTEM (ACS): (i) DESIGN CONCEPT • Access Control System is designed for the entrances and corridors of main buildings of CDRI campus as follows: - Entrance of the Administration block - Entrance of the Computer hub - Front and back entrances of the laboratories and connecting corridors - Entrance of the Special Equipment and lab engineering services - Entrance of the Chemical Storage - Front and back entrance of the Animal House - Hospital dispensary for time attendance - For all boom-b
• The ACS shall be a software-based solution and shall be flexible enough to work with multiple Hardware providers. The software shall include all the features /requirement for ACS as specified in the specifications • The ACS shall be based on TCP/IP network protocol and shall communicate with Ethernet ready, TCP/IP based components. • The ACS software shall be capable of running on windows or Linux server platforms with fullfeature operation.
3) BOOM-BARRIER AND TURNSTILE: (i) DESIGN CONCEPT Gate automation system proposed for CDRI Campus consist of Boom Barrier & turnstile to restrict/ control/ monitor entry of vehicles and peoples to the administrative and laboratory area of CDRI.
• The price coated by the vendor should include all the expenses incurred in commissioning of gate automation System, comprising of boom barrier and electromechanical turnstiles. • The boom barrier and turnstile shall function in integration with proximity card based access control units.
(4) SUBMITTALS: ( IP CCTV, Acess Control System, Boom Barrier and Turnstile) (i) Drawings: • • • • • • • • • • • The system supplier shall submit all shop drawings, and bill of materials for approval /reference. Drawings shall be submitted in standard sizes as indicated Four complete sets (copies) of submittal drawings shall be provided. Drawings shall be available on CD-ROM.
(6) TESTING: • • Component Testing: Maximum reliability shall be achieved through extensive use of high-quality, pre-tested components. Each and every component shall be individually tested by the manufacturer prior to shipment. Tools, Testing and Calibration Equipment: The supplier shall provide all tools, testing, and calibration equipment necessary to ensure reliability and accuracy of the system. (7) POWER SUPPLY : 230 V + 10 % , 50 Hz + 5% shall be made available for UPS input.
TECHNICAL SPECIFICATIONS: (I) IP CCTV SURVEILLANCE SYSTEM : (a) IP Video System Overview: • • • • • • • • • • • • • • Transmit and Receive H.264 and MPEG-4 Video and bi-directional Audio. Video and alarm management software under one single front end and should be on open platform with support to to renowned IP camera brands ( like Axis, Pelco, DvTel, Honeywell, Panasonic, Sony etc.
• • • • • • • • • • • • • • • • • • • • • Each of these streams must be independently configurable to view and record at different frame rate and resolutions simultaneously. Each Video stream should in turn allow for TCP connections, UDP connections and an unlimited number of Multicast connections. Each stream must allow independent configuration of bit rate, frame rate, I frame interval, rate control mode and motion data.
• • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • Latest Sony Ex View HAD 1/3” or 1/4" imager or better Camera must provide at least 752x582 (PAL) active pixels Color Resolution 480 TV Lines or better for sharp pick up of live video. Minimum Sensitivity of color 1.4 Lux (36x) and mono 0.02 Lux Signal/noise ratio >50 dB Lens: 3.4 mm to 122.4 mm, F 1.6 to F 4.5 Zoom order options: minimum 36 x optical + 12 x digital Scan mode: Progressive or Interlaced Horizontal view angle: 1.7° to 57.
• • • • • • • • • • • • • • Each stream Bit-rate should be user configurable from 32 to 4096 Kbps The IP Camera will have a built in web server, making it accessible for configuration using a standard Internet browser.
(d) IP Fixed Dome Camera (Indoor Type) • • • • • • • • • Latest Sony Ex View 1/3 “ or 1/4" interlaced imager or better Camera must provide atleast 752x582 (PAL) active pixels Color Resolution 540 TV Lines or better for sharp pick up of live video. Minimum Sensitivity of Day: 0.5 Lux; Day/Night: 0.5 lux color / 0.05 lux White Balance Mode: Auto; Fluorescent; Indoor; Outdoor Verifocal /Auto Iris DC drive lens options of 3.8 – 9.
• • • • • • • • • • • Must have minimum 1 alarm inputs and 1 relay outputs The IP Camera must support redundant recording by streaming to multiple recorders at the same time.
- Drag & Drop functions for most functions on the system and also for set up of connection between cameras and monitors and also support to create custom layout by grouping of cameras from different server/ locations into groups for more efficient monitoring. - Several simultaneous live picture connections of camera in network.
• • • • • • • • • • The software should be capable of monitoring the status of any camera in the network and should indicate when a device goes offline by any manner/alert. The system should be able to carry out a motion search on recorded video and highlight motion in the playback bar and also provide motion event based thumbnails to navigate straight to that event in recording. The alarm and map windows should have a docking facility on the main screen.
(II ) 5 KVA UPS (ONLINE) WITH BATTERY BACKUP FOR 30 MINUTES : Application: Power supply requirement for IP CCTV, Access Control system, Boom Barriers and Turnstiles Technology : IGBT, On line double conversion Input: • • • • Nominal AC Input Voltage: 1 Phase 230V AC + Neutral + Earth , 50 Hz Line low/ High transfer: + 15% Frequency range: + 5% Power factor: >0.9 Output • • • • • • • • • • Voltage: 220VAC/ 230VAC/ 240VAC Voltage Regulation: + 1% Frequency: 50 Hz+/- 0.
• • • • Indication: Mains ON, Inverter ON/ OFF/ Faulty, Battery level, Static bypass on, Load level, over temperature Audible alarm: Mains failure alarm/ Low battery alarm/ Overload and load on bypass/ DC high/ Inverter fault Protection: Advanced electronic protection for device safety backed with MCB’s Parallel redundant option: Unitary/ Parallel redundant/ Redundant hot standby (III) • • • • • • • • • • • • • • • • 23 AWG Annealed bare solid copper, CAT-6 UTP Cable, Channel optimized to 350 Mhz Meets E
(V) ACCESS CONTROL SYSTEM : (a) Single Network Controller/Reader 1. The network controller/reader shall provide access control processing, host functionality and power for a single door, including lock, door status, request-to-exit device And auxiliary sounder. 2. The network controller/reader shall be of single piece design with integrated card reader as follows: Proximity card reader. The reader shall encrypt all 13.
c. Operating Temperature: 32° to 122° F (0° to 50° C) d. Humidity: 5% to 95% relative, non-condensing e. Visual Indicators: 1. System Activity LED 2. Network Activity LED 3. Red/Green LED’s indicating access grant/deny 4. Communication ports and connectors: 5. RJ-45 connector for Ethernet TCP/IP (10/100baseT) 6. RS-232 port for optional modem or serial communications 7. Door position input with programmable End of Line supervisory capability up to 6K Ohm. 8.
• • • • • Displays history of all logs. Configurable number of transactions on monitor window. Emergency message display. Set up rules engine based on What If scenarios. Separate access reports for granted and denied access as well as for known and unknown credentials. (iii) Area wise attendance on real time basis • • • • • • • Controllers push time events to Central Station Server. No polling of Data required from Central Station Server to each controller Monitors area wise access logs.
(vi) • • • • • • Set Schedule for Employees as to when they can access the various Areas. Set Holiday Lists for the Employees when they are prohibited to enter certain areas. Set multiple Holiday and workday schedules with pre-defined time spans for weekdays. Import holidays from Time Office. Option for 24 hour schedule. System supports up to 4 billion schedules, 4 billion holidays.
• • • • • • Manpower planning assists to generate date wise plan to set shift, shift sequence, leaves, overtime. Leave management module allows to create leave types and further to allocate these to employees. Different Overtime Policies can be set for Workday and Weekly Off. Option of Manual time event entry assists to configure leaves, holidays, shifts and time events manually. Generates reports on daily, weekly and monthly basis for Employee’s Daily Attendance, Employee Summary, Dept.
( VI) BOOM-BARRIER: (a) Boom - Barrier : • • • • • • • • • • • Installation: outdoor Drive: Electric motor Power supply: 230+/- 10% VAC, 50 Hz Finish: - Control unit-Power coated in a suitable colour (to be approved by the consultant). - Boom- Powder coated white then applied with bright red colour reflecting tape strips.
Loop installation: • • • • • Barrier installations which close automatically utilize induction loops, to detect approaching vehicles. The loop should be laid symmetrically with respect to the boom. When determining the layout of the loop, it should be remembered that the boom is fixed to the barrier housing at one side. The detection loop should be situated so that there is a distance of at least 500mm behind, and in front of the boom.
(VIII) Bidder to submit the following documents / confirmations along with bid documents. (1) Bidder must submit separately clause wise confirmations on the technical specifications. Any deviation or non-compliance in the technical specification by the bidder/manufacturer should be clearly stated in the technical bid separately.
LIST OF INDICATIVE MAKES The following is the list of products and indicative makes. Bidder is free to propose any other equivalent Make meeting Technical Requirements, Specifications alongwith required details in support of the same. The same would be analyzed and accepted if found suitable after discussion between EPI and bidder. The Makes shall be finalized during Technical evaluation prior to opening of Price-Bids.
Boom-Barrier and C. Turnstile 1 Boom Barrier Came/FAAC/ Automatic Sytems/Magnetic Control 2 Electro-mechanical Turnstiles Came/FAAC/ Automatic Sytems/Magnetic Control D.
DRAWINGS/ DOCUMENTS LIST SR. NO. DESCRIPTION DRAWING NO.
