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GOVERNMENT OF ASSAM
OFFICE OF THE CHIEF ENGINEER: : P.W.D.: : BUILDING:
ASSAM : : CHANDMARI : : GUWAHATI-3No. CS/T/BD/8/2013/30 Dated Guwahati the 19th Nov, 2014
CORRIGENDUM
Name of Work: Construction work of the proposed New Assam Legislative Assembly Building at Dispur with Budgetary cost estimate & revised Design proposal (Interior works for Assembly Main Building)
Refer: Press Notice NO: CS/T/BD/8/2013/28 dated 31st October 2014
Pre-bid meeting was held on 18-11-2014 at 2: 00 PM in the Office Chamber of the Chief Engineer, PWD (Bldg), Assam, Chandmari, Guwahati-3. The points raised and clarification same is as below:-
SL, No. Points raised in the meeting by the Firms Points Clarified
1. Whether Godrej furnishers is approved. Department decision will be final.
2. Submission of OEM certificate OEM authentication certificated in original to be submitted along with the submission of bid document authorizing the bidder for participation in the tender. The certificate should clearly mention the name of the project.
3. Permission for working beyond workinghours (9:00 AM to 5:00 PM)
Will be permitted with prior permission from appropriate authority.
4. Carpet manufacture name. Flotex or equivalent at par with specification provided in the item and to the satisfaction of the Department.
5. When to submit the Financial Bid Financial bid to be submitted online and technical bid manually as per tender schedule.
6. Amount of Service fees to be paid online Rs 5000 + service fees as applicablein addition to cost of bid document (Rs 12,500)
7. Format of Bid Security
1. Well by will (Para 2)
2. 2013 by 2014 (Para 3)
8. Whether it is mandatory to certify the year wise work done by Charter Accountant
It is mandatory
10. Whether the payment will be made strictly on the finished product based on measurement and quantity.
Yes, it is always based on finished product.
11. Tax deduction from R/A bill As per prevailing norms.
SL, No. Points raised in the meeting by the Firms Points Clarified
12 Drawing for Central Suspended Sculpture (Art work) BOQ item 477
Detail drawings and Specification will be provided in due course.
13. Technical Specification and approved make list of BMS, Networking & IP Telephone System not found in the Bid
Attached with this document.
14. Time extension for submission of bid required.
New Tender schedule uploaded.
15. Whether Plumbing license required Not required.
Chief Engineer, P.W.D. (Bldg.) Assam, Chandmari, Guwahati-3.
Memo No: CS/T/BD/8/2013/30-A Dated Guwahati the 19th Nov, 2014 Copy to:
1. The Principal Secretary, Assam Legislative Assembly for favour of information.
2. The Commissioner & Special Secretary to the Govt. of Assam, PW (Bldg. & NH) Deptt., Dispur, Guwahati-6 for favour of information.
3. The Addl. Chief Engineer, PWD (Bldg) P.C.C. Project Complex Assam, Chandmari, Guwahati-3 for information.
4. The Addl. Chief Engineer P.W.D. (Electrical) O/o the Chief Engineer, PWD (Bldg.), Chandmari, Guwahati-3 for information.
5. The Superintending Engineer, P.W.D. Guwahati Building Circle-I, Fancy Bazar, Guwahati-1 for information.
6. The Sr Architect (B/N) O/o the Chief Engineer, PWD (Bldg.), Chandmari, Guwahati-3 for information.
7. The Executive Engineer, PCC Division, Dispur, Guwahati-6, for information.
8. Consultant M/S Dulal Mukherjee & Associates for information.
9. M/S Nex Tenders India Pvt. Ltd. camp Guwahati for information with a request to publish the corrigendum in their web site.
Chief Engineer, P.W.D. (Bldg.) Assam ,Chandmari, Guwahati-3.
A PART - I : ACTIVE COMPONENTS
MAIN BUILDING
L3 Core Switch
Advanced Modular / Chassis Switch with 8 x 60Gbps Expansion Bays (PSU not
included), Required No. 1
CISCO/JUNIPER/ALLIED
TELESIS/ ALCATEL
Hot-swappable AC load sharing PSU Nos. 2
CISCO/JUNIPER/ALLIED
TELESIS/ ALCATEL
Advanced Layer 3 License No. 1
CISCO/JUNIPER/ALLIED
TELESIS/ ALCATEL
IPv6 Pack License (IPv6 Static Routes, Management, RIPng, MLD Snooping) No. 1
CISCO/JUNIPER/ALLIED
TELESIS/ ALCATEL
12x 10/100/1000TX expansion module Nos. 4
CISCO/JUNIPER/ALLIED
TELESIS/ ALCATEL
2 x 10GbE SFP+ slots (unpopulated) expansion module Nos. 3
CISCO/JUNIPER/ALLIED
TELESIS/ ALCATEL
Distruburion Switch
Stackable Gigabit Layer 3 Switch with PoE+ 48x10/100/1000T + 4xSFP+ slots,
internal Dual AC PSUNos. 4
CISCO/JUNIPER/ALLIED
TELESIS/ ALCATEL
1m Stacking cable (includes 2 stacking modules)Nos. 4
CISCO/JUNIPER/ALLIED
TELESIS/ ALCATEL
L3 Premium License Nos. 4
CISCO/JUNIPER/ALLIED
TELESIS/ ALCATEL
Access Switch (Type 1)
Stackable Gigabit Layer 3 Switch with PoE+ 48x10/100/1000T + 4xSFP+ slots,
internal Dual AC PSUNos. 3
CISCO/JUNIPER/ALLIED
TELESIS/ ALCATEL
1m Stacking cable (includes 2 stacking modules)Nos. 3
CISCO/JUNIPER/ALLIED
TELESIS/ ALCATEL
Access Switch (Type 2)
Stackable Gigabit Layer 2+/3 Switch with 24x10/100/1000T + 4xSFP+ slots,
internal Dual AC PSUNos. 2
CISCO/JUNIPER/ALLIED
TELESIS/ ALCATEL
1m Stacking cable (includes 2 stacking modules)2
CISCO/JUNIPER/ALLIED
TELESIS/ ALCATEL
FO Module
10km 1310nm 10GBase-LR SFP+ - Hot SwappableNos. 10
CISCO/JUNIPER/ALLIED
TELESIS/ ALCATEL
NMS
NMS Enterprise Edition Server Software , License key for NMS Enterprise Edition
100 Starter. Supports 100 managed nodes (or subscriber CPEs) and 5 NMS
clients
No. 1CISCO/JUNIPER/ALLIED
TELESIS/ ALCATEL
RADIUS/AAA Server Solution
RADIUS Server for 1000 UsersNo. 1
CISCO/JUNIPER/ALLIED
TELESIS/ ALCATEL
B PART II: ENCLOSURES
Wall Mount ENCLOSURE
8
Enclosure, 800mmW CYBERACK 42U/ 800mmD ( CRCA Steel Frame with
Alumunium Profiles & Side Panel-2Nos with following items: - Top cover with
cable entry -1no; Bottom cover with cable entry - 1no; 19” Mounting Angles – 2
pairs; Finish : Powder coated to 80 microns; Matt finish; Color - Black
No. 1 APW PRESIDENT/ RITTAL
Wall Mount APW President 15U /500D 1 Section
Front Glass Door 600mmW 15U with lock
Horizontal Cable manager, 1U
Fans 230 VAC 90 cfm
PDU 6 x 5/15amp with 16AMP MCB and indicator
Hardware front panel (10 nos/pkt)
FLEXIBOX 19", 9U/500mmD with front glass door
Horizontal PDU 6 x 5amp with 5AMP fuse & indicator and 1.5meter feed cable and
3 pin plug
Horizontal Cable manager, 1U
Cantlever Shelf, 255mmD
Fans 230 VAC 90 cfm
Hardware front panel (10 nos/pkt)
2
3
PROJECT : PROPOSED NEW STATE LEGISLATIVE ASSEMBLY OF ASSAM - MAIN BUILDING
MAKE LIST FOR ACTIVE & PASSIVE COMPONENTS OF NETWORKING SYSTEM AND IP TELEPHONE SYSTEM
10 2
APW PRESIDENT/ RITTAL
5
6
7
Qty.
APW PRESIDENT/ RITTAL
Sl.
No.Description Unit Make List
4
Nos.
Nos. 7
1
Qty.Sl.
No.Description Unit Make List
PART II: PASSIVE COMPONENTS
A COPPER CABLE COMPONENTS
1
Solid Cable Cat 6, 4 pair, UTP, 305m box must have Fire retardant PVC
Compound (FRPVC) Flame Rating material, All cables meet and exceed
Category 6/Class E requirements in ANSI/TIA-568-C.2, and ISO/IEC 11801. Must
be RoHS Compliant
Mtr. 10370Schneider-Digilink/ Systimax-
Compscope/ Simon
2
Patch panel UTP 24 ports Unloaded, 1U with Steel-fully power coated.
Performance as per ANSI/TIA-568-C.2 category 6 and ISO/IEC-11801 Class
E.Performance guaranteed upto 600 MHz extended frequency, with Performance
verified by ETL. UL listed as per UL94V-0 rated plastic. RoHS Compliant (lead
free). Bezel must be High Impact flame retardant plastic.
Nos. 8Schneider-Digilink/ Systimax-
Compscope/ Simon
3
Patch panel UTP 48 ports Unloaded, 2U with Steel-fully power coated.
Performance as per ANSI/TIA-568-C.2 category 6 and ISO/IEC-11801 Class
E.Performance guaranteed upto 600 MHz extended frequency, with Performance
verified by ETL. UL listed as per UL94V-0 rated plastic. RoHS Compliant (lead
free). Bezel must be High Impact flame retardant plastic.
Nos. 2Schneider-Digilink/ Systimax-
Compscope/ Simon
4
Cat 6 unshielded copper RJ-45 keystone jack includes high performance
Category 6 snap in 8-position/8-contact (8P8C) collapsible shutter jack to prevent
dust entering the jack. conforming to IEC 60603-7-2. The jacks are designed for
fast and easy snap-in and out of wall plates and patch panels. All jacks are
designed in a 180° form and are available with back interconnection of krone IDC
blocks. Performance as per ANSI/TIA-568-C.2 category 6 and ISO/IEC-11801
Class E, Performance guaranteed upto 600 MHz extended frequency,
Performance verified by ETL UL listed as per UL94V-0 rated plastic, RoHS
Compliant (lead free). Required for Face Plate
Nos. 259Schneider-Digilink/ Systimax-
Compscope/ Simon
5
1m Cat 6 UTP Patch Cord moulded and factory crimped. Unshielded Twisted
Pair, Category 6, ANSI / TIA 568-C.2. 24-26 AWG , multi - stranded copper with
Flame Retardant Polyethylene Insulation
Nos. 384Schneider-Digilink/ Systimax-
Compscope/ Simon
6
2m Cat 6 UTP Patch Cord moulded and factory crimped. Unshielded Twisted
Pair, Category 6, ANSI / TIA 568-C.2. 24-26 AWG , multi - stranded copper with
Flame Retardant Polyethylene Insulation
Nos. 259Schneider-Digilink/ Systimax-
Compscope/ Simon
7
Single Port Faceplate for collapsible shutter jack, Conforms to CAT6 Work Area
Data I/O Outlet (RJ45) adhering to ANSI / TIA 568-C.2 , ISO/IEC 11801(2002) and
CENELEC EN50173-1 (2002) specifications
Nos. 259Schneider-Digilink/ Systimax-
Compscope/ Simon
8 BACK BOX -(Surface Mount Box) For Single and Dual Nos. 259Schneider-Digilink/ Systimax-
Compscope/ Simon
9
Cat 6 unshielded copper RJ-45 keystone jack includes high performance
Category 6 snap in 8-position/8-contact (8P8C) collapsible shutter jack to prevent
dust entering the jack. conforming to IEC 60603-7-2. The jacks are designed for
fast and easy snap-in and out of wall plates and patch panels. All jacks are
designed in a 180° form and are available with back interconnection of krone IDC
blocks. Performance as per ANSI/TIA-568-C.2 category 6 and ISO/IEC-11801
Class E, Performance guaranteed upto 600 MHz extended frequency,
Performance verified by ETL UL listed as per UL94V-0 rated plastic, RoHS
Compliant (lead free). Required for Face Plate
Nos. 259Schneider-Digilink/ Systimax-
Compscope/ Simon
10
20 mm PVC conduit medium duty non FRLS
Mtr. 3000Schneider-Digilink/ Systimax-
Compscope/ Simon
11SC-LC type SM 2m. Available in either 1.6mm or 3mm simplex or Duplex Zipcord.
Single Mode mode 9/125 250 micron primary coated buffers.Nos. 10
Schneider-Digilink/ Systimax-
Compscope/ Simon
12
Rack mount LIU 12 PORT 1U,Sliding type, UNLOADED with Splice Tray and
Cable spool. LIU should accommodate up to 24 connections in only 1U (1.75”),
Suitable for both 19” frames, Security fastened patch cords can exit to left or right,
Metal Box and Splice tray must have Aluminium powder coated. Must have Fire
retardant plastic for LIU. It should be RoHS Compliant
Nos. 5Schneider-Digilink/ Systimax-
Compscope/ Simon
13 1x6 SC Adaptor Module Panel - SIMPLEX Nos. 5Schneider-Digilink/ Systimax-
Compscope/ Simon
14 ADAPTOR SC SM SIMPLEX Nos. 60Schneider-Digilink/ Systimax-
Compscope/ Simon
15 PIGTAIL SC SM (9um) SIMPLEX LENGTH- 1m Nos. 60Schneider-Digilink/ Systimax-
Compscope/ Simon
Qty.Sl.
No.Description Unit Make List
16 MS powder coated Raceway
16.1MS powder coated Raceway: 200 mm X 50 mm (2mm thickness). Civil work will
be extra.Mtr. 250 Reputed
16.2MS powder coated Raceway: 150 mm X 50 mm (2mm thickness). Civil work will
be extra.Mtr. 50 Reputed
16.3MS powder coated Raceway: 100 mm X 50 mm (2mm thickness). Civil work will
be extra.Mtr. 110 Reputed
17 Junction Box
17.1 Junction Box of size 350 mm X 350 mm Nos. 7 Reputed
17.2 Junction Box of size 250 mm X 250 mm Nos. 24 Reputed
17.3 Junction Box of size 200 mm X 200 mm Nos. 17 Reputed
17.4 Junction Box of size 150 mm X 150 mm Nos. 34 Reputed
PART III: IP Telephone system
1 IPT
1.1 IPV6 ready No. 1 ALCATEL/ CISCO/ AVAYA
1.2 Voice gateways with IPV6 ready No. 1 ALCATEL/ CISCO/ AVAYA
1.3 Hardware - 08 port analog trunk card No. 1 ALCATEL/ CISCO/ AVAYA
1.4 Hardware - 01 port ISDN PRI card Nos. 2 ALCATEL/ CISCO/ AVAYA
2 License
2.1 IP User License for 125 nos of telephone sets Set 1 ALCATEL/ CISCO/ AVAYA
2.2 Attendant console License - One hard console Set 1 ALCATEL/ CISCO/ AVAYA
3 IP Phone handset
3.1
IP Based Managerial phones (Same make of EPABX vendor) with 10 keys , IPV6
ready, color display: Minimum 1/4 VGA, 240 x 320 pixels, 16.7 M colors, backlight,
1 GB data port for PC connectivity, Embedded wireless blue tooth handset with 2
pins charge contact and blue tooth headset support, PoE ready
Nos. 20 ALCATEL/ CISCO/ AVAYA
3.1
IP Based Managerial phones (Same make of EPABX Vendor) with minimum 6
keys , Display : Monochrome graphical with minimum 20 characters, 75 x 12 mm
black & White, 10/100 fast ethernet data port for PC connectivity, PoE readyNos. 105 ALCATEL/ CISCO/ AVAYA
4 Attendant Console
4.1
IP hard console (same make of EPABX vendor), POE Ready, IPV6 ready ,
minimum 40 BLF keys, color display : Minimum 1/4 VGA, 240 x 320 pixels, 16.7
M colors, Backlight, 1GB Data port for PC connectivity.
No. 1 ALCATEL/ CISCO/ AVAYA
5 Headset for Attendant Console
5.1 Corded BiNaural Voice Tube Headset compatible with Hard console of OEM Nos. 3 ALCATEL/ CISCO/ AVAYA
6 Voice Guidance
6.1 Multi-Lingual voice guidenance facility for system features Set 1 ALCATEL/ CISCO/ AVAYA
7 PC for IPT system administration
7.1PC compatible with above configuration for system administration complete with
relevant OSSet 1 ALCATEL/ CISCO/ AVAYA
Page 1 of 42
`Detailed Technical Specification for Building Management
System
PART 1 GENERAL
1.1 SUMMARY
A. Furnish all labor, materials, equipment, and service necessary for a complete and operating Building
Management System (BMS), utilizing Direct Digital Controls as shown on the drawings, as in attached
Input/Output Summary and as described herein. Drawings are diagrammatic only.
B. All labor, material, equipment and software not specifically referred to herein or on the plans, that is
required to meet the functional intent of this specification, shall be provided without additional cost to
the Client.
C. Client shall be the named license holder of all software associated with any and all incremental work on
the project(s).
1.2 SYSTEM DESCRIPTION
A. The entire Building Management System (BMS) shall be comprised of a network of interoperable, stand-
alone digital controllers communicating via LonMark/LonTalk communication protocols to a Network
Area Controller (NAC) / Router. Building Management System products shall be manufactured as per
LonWorks products must be approved in writing by the consulting Engineer and be submitted for
approval ten (10) days prior to the date of the bid submittal.
B. The entire Integrated Control and Monitor Management System (IBMS) shall be comprise of a network
of interoperable, stand-alone digital controllers communicating on an open protocol communication
network to a host computer within the facility (when specified) and communicating via the Internet to a
host computer in a remote location. The IBMS shall communicate to third party systems such as
Chillers, Boilers, Air-Handling Systems, Energy metering systems, Lighting Management System &
other energy management systems, Fire-Life safety systems and other building management related
devices with open, interoperable communication capabilities.
C. The IBMS framework shall utilize JAVA based automation products and services with built-in Internet
connectivity to a broad range of distribution partners in the building automation, energy services,
power/utility, and industrial sectors. The Framework shall bring together the computerization of control
applications under the umbrella of single integrated system architecture. The suite of component
software applications shall support true plug-and-play, multi-vendor interoperability, resulting in lower
automation and information infrastructure costs. The Network Area Controllers (NAC’s) shall run a
JAVA Virtual Machine (JVM) platform and use a common set of tools for accessing and integrating
multiple protocols.
D. The Building Management System (BMS) shall be comprised of Network Area Controller or Controllers
(NAC) / Routers. The NAC / Router shall connect to the local or wide area network, depending on
configuration. Access to the system, either locally in each building, or remotely from a central site or
sites, shall be accomplished through standard Web browsers, via the Internet and/or local area network.
Each NAC shall communicate to LonMark/LonTalk and/or BACnet Direct Digital Controllers (DDC)
and other open protocol systems/devices.
E. The following software packages shall be loaded into the system as minimum standard :-
Page 2 of 42
a. Complete system operational software
b. Site specific data manipulation software
c. Active graphics software
d. Energy management system software
e. Alarm indication software
g. Data Visualization Package
h. Internet Enabled Remote Monitoring Package.
1.3 SUBMITTAL
A. Eight copies of shop drawings of the components and devices for the entire control system shall be
submitted and shall consist of a complete list of equipment and materials, including manufacturers
catalog data sheets and installation instructions for all controllers, valves, dampers, sensors, routers, etc.
Shop drawings shall also contain complete wiring and schematic diagrams, software descriptions,
calculations, and any other details required to demonstrate that the system has been coordinated and will
properly function as a system. Terminal identification for all control wiring shall be shown on the shop
drawings. A complete written Sequence of Operation shall also be included with the submittal package.
BMS contractors supplying products and systems, as part of their packages shall provide catalog data
sheets, wiring diagrams and point lists to other contractors for proper coordination of work.
B. Submittal shall also include a trunk cable schematic diagram depicting operator workstations, control
panel locations and a description of the communication type, media and protocol. BMS contractors shall
provide these diagrams for their portions of work; the Systems Integrator shall be responsible for
integrating those diagrams into the overall trunk cable schematic diagrams for the entire Wide Area
Network (WAN).
C. Submittal shall also include a complete point list of all points to be connected to the BMS.
D. Upon completion of the work, provide a complete set of ‘as-built’ drawings and application software on
compact disk. Drawings shall be provided as AutoCAD™ compatible files. Eight copies of the ‘as-
built’ drawings shall be provided in addition to the documents on compact disk. BMS contractors shall
provide as-built for their portions of work. The BMS contractor shall be responsible for as-built
pertaining to overall BMS architecture and network diagrams. All as-built drawings shall also be
installed into the BMS server in a dedicated directory.
1.4 SPECIFICATION NOMENCLATURE
A. Acronyms used in this specification are as follows:
FMCS Facility Management and Control System
BMS Building Management System
NAC Network Area Controller
DDC Direct Digital Controller
IBC Interoperable BACnet Controller
GUI Graphical User Interface
WBI Web Browser Interface
PMI Power Measurement Interface
LAN Local Area Network
WAN Wide Area Network
OOT Object Oriented Technology
Page 3 of 42
PICS Product Interoperability Compliance Statement
1.5 DIVISION OF WORK
A. The BMS contractor shall be responsible for all controllers (DDC), control devices, control panels,
controller programming, controller programming software, controller input/output and power wiring and
controller network wiring.
B. The BMS contractor shall also be responsible for the Network Area Controller(s) (NAC), software and
programming of the NAC, graphical user interface software (GUI), development of all graphical screens,
Web browser pages, setup of schedules, logs and alarms, LonWorks network management and
connection of the NAC to the local or wide area network.
1.6 AGENCY AND CODE APPROVALS
A. All products of the BMS shall be provided with the following agency approvals. Verification that the
approvals exist for all submitted products shall be provided with the submittal package. Systems or
products not currently offering the following approvals are not acceptable.
1. UL-916; Energy Management Systems
2. C-UL listed to Canadian Standards Association C22.2 No. 205-M1983 “signal Equipment”
3. CE
4. FCC, Part 15, Subpart J, Class A Computing Devices
1.7 SOFTWARE LICENSE AGREEMENT
A. The CLIENT shall agree to the manufacturer's standard software and firmware licensing agreement as a
condition of this contract. Such license shall grant use of all programs and application software to
Owner as defined by the manufacturer's license agreement, but shall protect manufacturer's rights to
disclosure of trade secrets contained within such software.
B. The CLIENT shall be the named license holder of all software associated with any and all incremental
work on the project(s). In addition, CLIENT shall receive ownership of all job specific configuration
documentation, data files, and application-level software developed for the project. This shall include all
custom, job specific software code and documentation for all configuration and programming that is
generated for a given project and/or configured for use with the NAC, BMS Server(s), and any related
LAN / WAN / Intranet and Internet connected routers and devices. Any and all required IDs and
passwords for access to any component or software program shall be provided to the owner. The owner
shall determine which organizations to be named in the SI organization ID (“orgid”) of all software
licenses. Owner shall be free to direct the modification of the “orgid” in any software license, regardless
of supplier.
1.8 DELIVERY, STORAGE AND HANDLING
A. Provide factory-shipping cartons for each piece of equipment and control device. Maintain cartons
through shipping, storage, and handling as required to prevent equipment damage. Store equipment and
materials inside and protected from weather.
1.9 JOB CONDITIONS
A. Cooperation with Other Contractors: Coordinate the Work of this section with that of other sections to
ensure that the Work will be carried out in an orderly fashion. It shall be this Contractor's responsibility
to check the Contract Documents for possible conflicts between his Work and that of other crafts in
Page 4 of 42
equipment location, pipe, duct and conduit runs, electrical outlets and fixtures, air diffusers, and
structural and architectural features.
PART 2 MATERIALS
2.1 GENERAL
A. The Building Management System (BMS) shall be comprised of a network of interoperable, stand-alone
digital controllers, a computer system, graphical user interface software, printers, network devices,
valves, dampers, sensors, and other devices as specified herein. All systems and software within BMS
shall be Year 2000 compliant and shall be supported by compliance documentation from the
manufacturer.
B. The installed system shall provide secure password access to all features, functions and data contained in
the overall BMS.
2.2 OPEN, INTEROPERABLE, INTEGRATED ARCHITECTURES
A. The intent of this specification is to provide a peer-to-peer networked, stand-alone, distributed control system with the capability to integrate ANSI/ASHRAE Standard 135-2001 BACnet, LonWorks
technology, MODBUS, OPC, and other open and proprietary communication protocols in one open,
interoperable system.
B. The supplied computer software shall employ object-oriented technology (OOT) for representation of all
data and control devices within the system. In addition, adherence to industry standards including ANSI
/ ASHRAE™ Standard 135-2001, BACnet and LonMark to assure interoperability between all system
components is required. For each LonWorks device that does not have LonMark certification, the device
supplier must provide an XIF file and a resource file for the device. For each BACnet device, the device
supplier must provide a PICS document showing the installed device’s compliance level. Minimum
compliance is Level 3; with the ability to support data read and write functionality. Physical connection
of BACnet devices shall be via Ethernet (BACnet Ethernet/IP,) and/or RS-485 (BACnet MSTP) as
specified.
C. All components and controllers supplied under this Division shall be true “peer-to-peer” communicating
devices. Components or controllers requiring “polling” by a host to pass data shall not be acceptable.
D. The supplied system must incorporate the ability to access all data using standard Web browsers without
requiring proprietary operator interface and configuration programs. An Open DataBase Connectivity
(ODBC) or Structured Query Language (SQL) compliant server database is required for all system
database parameter storage. This data shall reside on a supplier-installed server for all database access.
Systems requiring proprietary database and user interface programs shall not be acceptable.
E. A hierarchical topology is required to assure reasonable system response times and to manage the flow
and sharing of data without unduly burdening the customer’s internal Intranet network. Systems
employing a “flat” single tiered architecture shall not be acceptable.
1. Maximum acceptable response time from any alarm occurrence (at the point of origin) to the point
of annunciation shall not exceed 5 seconds for network connected user interfaces.
2. Maximum acceptable response time from any alarm occurrence (at the point of origin) to the point
of annunciation shall not exceed 60 seconds for remote or dial-up connected user interfaces.
Page 5 of 42
2.3 NETWORKS
A. The Local Area Network (LAN) shall be a 100 Megabits/sec Ethernet network supporting BACnet, Java,
XML, HTTP, and SOAP for maximum flexibility for integration of building data with enterprise
information systems and providing support for multiple Network Area Controllers (NACs), user
workstations and, if specified, a local server.
B. Local area network minimum physical and media access requirements:
1. Ethernet; IEEE standard 802.3
2. Cable; 100 Base-T, UTP-8 wire, category 5
3. Minimum throughput; 100 Mbps.
2.4 NETWORK ACCESS
A. Remote Access.
1. For Local Area Network installations, provide access to the LAN from a remote location, via the
Internet. The CLIENT shall provide a connection to the Internet to enable this access via high
speed cable modem, asynchronous digital subscriber line (ADSL) modem, ISDN line, T1 Line or
via the customer’s Intranet to a corporate server providing access to an Internet Service Provider
(ISP). Customer agrees to pay monthly access charges for connection and ISP.
2.5 NETWORK AREA CONTROLLER (NAC) / ROUTER
A. The BMS contractor shall supply one or more Network Area Controllers (NAC) / Router as part of this
contract. Number of area controllers required is dependent on the type and quantity of devices provided
in IO Summary.
B. The Network Area Controller (NAC) / Router shall provide the interface between the LAN or WAN and
the field control devices, and provide global supervisory control functions over the control devices
connected to the NAC / Router. It shall be capable of executing application control programs to provide:
1. Calendar functions
2. Scheduling
3. Trending
4. Alarm monitoring and routing
5. Time synchronization
6. Integration of LonWorks controller data and BACnet controller data
7. Network Management functions for all LonWorks based devices
C. The Network Area Controller must provide the following hardware features as a minimum:
1. One Ethernet Port – 10/100 Mbps
2. One RS-232 port
3. One LonWorks Interface Port – 78KB FTT-10A
4. One RS-485 ports
Page 6 of 42
5. Battery Backup
6. Flash memory for long term data backup (If battery backup or flash memory is not supplied, the
controller must contain a hard disk with at least 1 gigabyte storage capacity)
7. The NAC / Router must be capable of operation over a temperature range of 32 to 122°F
8. The NAC / Router must be capable of withstanding storage temperatures of between 0 and 158°F
9. The NAC / Router must be capable of operation over a humidity range of 5 to 95% RH, non-
condensing
D. The NAC / Router shall provide multiple user access to the system and support for ODBC or SQL. A
database resident on the NAC / Router shall be an ODBC-compliant database or must provide an ODBC
data access mechanism to read and write data stored within it.
E. The NAC / Router shall support standard Web browser access via the Intranet/Internet. It shall support a
minimum of 32 simultaneous users.
F. Event Alarm Notification and actions
1. The NAC / Router shall provide alarm recognition, storage; routing, management, and analysis to
supplement distributed capabilities of equipment or application specific controllers.
2. The NAC / Router shall be able to route any alarm condition to any defined user location whether
connected to a local network or remote via dial-up telephone connection, or wide-area network.
3. Alarm generation shall be selectable for annunciation type and acknowledgement requirements
including but limited to:
a. To alarm
b. Return to normal
c. To fault
4. Provide for the creation of a minimum of eight of alarm classes for the purpose of routing types
and or classes of alarms, i.e.: Electricals, HVAC, Fire, etc.
5. Provide timed (schedule) routing of alarms by class, object, group, or node.
6. Provide alarm generation from binary object “runtime” and /or event counts for equipment
maintenance. The user shall be able to reset runtime or event count values with appropriate
password control.
G. Control equipment and network failures shall be treated as alarms and annunciated.
H. Alarms shall be annunciated in any of the following manners as defined by the user:
1. Screen message text
2. Email of the complete alarm message to multiple recipients. Provide the ability to route and email
alarms based on:
a. Day of week
b. Time of day
c. Recipient
3. Pagers via paging services that initiate a page on receipt of email message
4. Graphic with flashing alarm object(s)
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5. Printed message, routed directly to a dedicated alarm printer
I. The following shall be recorded by the NAC / Router for each alarm (at a minimum):
1. Time and date
2. Location (building, floor, zone, office number, etc.)
3. Equipment (air handler #, accessway, etc.)
4. Acknowledge time, date, and user who issued acknowledgement.
5. Number of occurrences since last acknowledgement.
J. Alarm actions may be initiated by user defined programmable objects created for that purpose.
K. Defined users shall be given proper access to acknowledge any alarm, or specific types or classes of
alarms defined by the user.
L. A log of all alarms shall be maintained by the NAC / Router and/or a server (if configured in the system)
and shall be available for review by the user.
M. Provide a “query” feature to allow review of specific alarms by user defined parameters.
N. A separate log for system alerts (controller failures, network failures, etc.) shall be provided and
available for review by the user.
O. An Error Log to record invalid property changes or commands shall be provided and available for review
by the user.
2.6 Data Collection and Storage
A. The NAC / Router shall have the ability to collect data for any property of any object and store this data for future use.
B. The data collection shall be performed by log objects, resident in the NAC / Router that shall have, at a
minimum, the following configurable properties:
1. Designating the log as interval or deviation.
2. For interval logs, the object shall be configured for time of day, day of week and the sample
collection interval.
3. For deviation logs, the object shall be configured for the deviation of a variable to a fixed value.
This value, when reached, will initiate logging of the object.
4. For all logs, provide the ability to set the maximum number of data stores for the log and to set
whether the log will stop collecting when full, or rollover the data on a first-in, first-out basis.
5. Each log shall have the ability to have its data cleared on a time-based event or by a user-defined
event or action.
C. All log data shall be stored in a relational database in the NAC / Router and the data shall be accessed from a server (if the system is so configured) or a standard Web browser.
D. All log data, when accessed from a server, shall be capable of being manipulated using standard SQL
statements.
E. All log data shall be available to the user in the following data formats:
1. HTML
2. XML
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3. Plain Text
4. Comma or tab separated values
F. Systems that do not provide log data in HTML and XML formats at a minimum shall not be acceptable.
G. The NAC / Router shall have the ability to archive its log data either locally (to itself), or remotely to a
server or other NAC / Router on the network. Provide the ability to configure the following archiving
properties, at a minimum:
1. Archive on time of day
2. Archive on user-defined number of data stores in the log (buffer size)
3. Archive when log has reached it’s user-defined capacity of data stores
4. Provide ability to clear logs once archived
2.7 AUDIT LOG
A. Provide and maintain an Audit Log that tracks all activities performed on the NAC / Router. Provide the
ability to specify a buffer size for the log and the ability to archive log based on time or when the log has
reached its user-defined buffer size. Provide the ability to archive the log locally (to the NAC / Router),
to another NAC / Router on the network, or to a server. For each log entry, provide the following data:
1. Time and date
2. User ID
3. Change or activity: i.e., Change setpoint, add or delete objects, commands, etc.
2.8 DATABASE BACKUP AND STORAGE
A. The NAC / Router shall have the ability to automatically backup its database. The database shall be
backed up based on a user-defined time interval.
B. Copies of the current database and, at the most recently saved database shall be stored in the NAC /
Router. The age of the most recently saved database is dependent on the user-defined database save
interval.
C. The NAC / Router database shall be stored, at a minimum, in XML format to allow for user viewing and
editing, if desired. Other formats are acceptable as well, as long as XML format is supported.
2.9 DIRECT DIGITAL CONTROLLERS (DDC)
A. Direct Digital Controllers shall be 16 bit microprocessor based Interoperable LonWorks Controllers.
B. The Network Area Controller (NAC) / Router will provide all scheduling, alarming, trending, and
network management for the LonMark / LonWorks based devices.
C. The DDCs shall communicate with the NAC / Router at a baud rate of not less than 78.8K baud. The
DDC shall provide LED indication of communication and controller performance to the technician,
without cover removal.
D. All DDCs shall be fully application programmable. Controllers offering application selection only (non
programmable), require a 10% spare point capacity to be provided for all applications. All control
sequences within or programmed into the DDC shall be stored in non-volatile memory, which is not
dependent upon the presence of a battery, to be retained.
E. The BMS contractor supplying the DDC’s shall provide documentation for each device, with the
following information at a minimum:
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1. Network Variable Inputs (nvi’s); name and type
2. Network Variable Outputs (nvo’s); name and type
3. Network configuration parameters (nci, nco); name and type
F. It is the responsibility of the BMS contractor to ensure that the proper Network Variable Inputs and
Outputs (nvi and nvo) are provided in each DDC, as required by the point charts.
G. The supplier of any programmable DDC shall provide one copy of the manufacturer’s programming tool,
with documentation, to the CLIENT.
H. The controller shall be capable of either integrating with other LonMark™ devices or stand-alone
operation.
I. The controller shall have two microprocessors. The Host processor contains on-chip FLASH program
memory, FLASH information memory, and RAM to run the main HVAC application. The second
processor for LonWorks™ network communications.
a. FLASH Memory Capacity: 60 Kilobytes with 8 Kilobytes for application program.
b. FLASH Memory settings retained for ten years.
c. RAM: 2 Kilobytes
J. The controller shall have an FTT transformer-coupled communications port interface for common mode-
noise rejection and DC isolation.
K. The controller shall have an internal time clock with the ability to automatically revert from a master
time clock on failure.
a. Operating Range: 24 hour, 365 day, multi-year calendar including day of week and
configuration for automatic day-light savings time adjustment to occur on configured start
and stop dates.
b. Accuracy: ±1 minute per month at 77° F (25° C).
c. Power Failure Backup: 24 hours at 32° to 122° F (0° to 50° C).
O The controller shall have Significant Event Notification, Periodic Update capability, and Failure Detect
when network inputs fail to be detected within their configurable time frame.
P Rated voltage: 20-30 VAC, 50/60 Hz
Q The controller shall have an internal DC power supply to power external sensors.
a. Power Output: 20 VDC ±10% at 75 mA.
R The controller shall have a visual indication (LED) of the status of the device:
a. Controller operating normally.
b. Controller in process of download.
c. Controller in manual mode under control of software tool.
d. Controller lost its configuration.
e. No power to controller, low voltage, or controller damage.
f. Processor and/or controller is not operating.
S The minimum controller Environmental ratings:
a. Operating Temperature Ambient Rating: -40° to 150° F (-40° to 65.5° C).
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b. Storage Temperature Ambient Rating: -40° to 150° F (-40° to 65.5° C).
c. Relative Humidity: 5% to 95% non-condensing.
T The controller shall have the additional approval requirements, listings, and approvals:
a. UL/cUL (E87741) listed under UL916 (Standard for Open Energy Management Equipment)
with plenum rating.
b. CSA (LR95329-3) Listed
c. Meets FCC Part 15, Subpart B, Class B (radiated emissions) requirements.
d. Meets Canadian standard C108.8 (radiated emissions).
e. Conforms requirements European Consortium standard EN 61000-6-1; 2001 (EU Immunity)
f. Conforms requirements European Consortium standard EN 61000-6-3; 2001 (EU Emission)
U The controller shall have three analog outputs (AO).
a. Analog outputs (AO) shall be capable of being configured as digital outputs (DO).
b. Input and Output wiring terminal strips shall be removable from the controller without
disconnecting wiring.
c. Input and Output wiring terminals shall be designated with color coded labels.
V The controller shall provide for “user defined” Network Variables (NV) for customized
configurations.
2.10 GRAPHICAL USER INTERFACE SOFTWARE
A. Operating System:
1. The GUI shall run on Microsoft Windows XP Professional.
B. The GUI shall employ browser-like functionality for ease of navigation. It shall include a tree view
(similar to Windows Explorer) for quick viewing of, and access to, the hierarchical structure of the
database. In addition, menu-pull downs, and toolbars shall employ buttons, commands and navigation to
permit the operator to perform tasks with a minimum knowledge of the HVAC Control System and basic
computing skills. These shall include, but are not limited to, forward/backward buttons, home button,
and a context sensitive locator line (similar to a URL line), that displays the location and the selected
object identification.
C. Real-Time Displays. The GUI, shall at a minimum, support the following graphical features and
functions:
1. Graphic screens shall be developed using any drawing package capable of generating a GIF, BMP,
or JPG file format. Use of proprietary graphic file formats shall not be acceptable. In addition to,
or in lieu of a graphic background, the GUI shall support the use of scanned pictures.
2. Graphic screens shall have the capability to contain objects for text, real-time values, animation,
color spectrum objects, logs, graphs, HTML or XML document links, schedule objects, hyperlinks
to other URL’s, and links to other graphic screens.
3. Graphics shall support layering and each graphic object shall be configurable for assignment to a
layer. A minimum of six layers shall be supported.
4. Modifying common application objects, such as schedules, calendars, and set points shall be
accomplished in a graphical manner.
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a. Schedule times will be adjusted using a graphical slider, without requiring any keyboard
entry from the operator.
b. Holidays shall be set by using a graphical calendar without requiring any keyboard entry
from the operator.
5. Commands to start and stop binary objects shall be done by right-clicking the selected object and
selecting the appropriate command from the pop-up menu. No entry of text shall be required.
6. Adjustments to analog objects, such as set points, shall be done by right-clicking the selected object
and using a graphical slider to adjust the value. No entry of text shall be required.
D. System Configuration. At a minimum, the GUI shall permit the operator to perform the following tasks,
with proper password access:
a. Create, delete or modify control strategies.
b. Add/delete objects to the system.
c. Tune control loops through the adjustment of control loop parameters.
d. Enable or disable control strategies.
e. Generate hard copy records or control strategies on a printer.
f. Select points to be alarmable and define the alarm state.
g. Select points to be trended over a period of time and initiate the recording of values
automatically.
E. On-Line Help. Provide a context sensitive, on-line help system to assist the operator in operation and
editing of the system. On-line help shall be available for all applications and shall provide the relevant
data for that particular screen. Additional help information shall be available through the use of
hypertext. All system documentation and help files shall be in HTML format.
F. Security. Each operator shall be required to log on to that system with a user name and password in
order to view, edit, add, or delete data. System security shall be selectable for each operator. The system
administrator shall have the ability to set passwords and security levels for all other operators. Each
operator password shall be able to restrict the operators’ access for viewing and/or changing each system
application, full screen editor, and object. Each operator shall automatically be logged off of the system
if no keyboard or mouse activity is detected. This auto log-off time shall be set per operator password.
All system security data shall be stored in an encrypted format.
G. System Diagnostics. The system shall automatically monitor the operation of all workstations, printers,
modems, network connections, building management panels, and controllers. The failure of any device
shall be annunciated to the operator.
H. Programming software shall be same as GUI. The Same GUI can be used to configure the DDCs &
NAC.
I. Alarm Console
1. The system will be provided with a dedicated alarm window or console. This window will notify
the operator of an alarm condition, and allow the operator to view details of the alarm and
acknowledge the alarm. The use of the Alarm Console can be enabled or disabled by the system
administrator.
2. When the Alarm Console is enabled, a separate alarm notification window will supercede all other
windows on the desktop and shall not be capable of being minimized or closed by the operator.
This window will notify the operator of new alarms and un-acknowledged alarms. Alarm
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notification windows or banners that can be minimized or closed by the operator shall not be
acceptable.
SPECIAL ENERGY MANAGEMENT REPORTING AND PROFILING APPLICATIONS
These reports are defined below.
1. Aggregate Demand Summary - This report aggregates (totalizes) multiple points (meters) and shows the
peak, minimum, average, and total consumption as well as computes load factor. By reducing peak
consumption and leveling the total load, volatility is reduced and energy customers can make significant
improvements in their energy procurement. This report will help identify favorable aggregation combinations
and unattractive peaks. Once the user selects this report, they define parameters such as sites, meters, time
period, and commodity. The following screen shot is an example of Aggregate Demand Summary.
2. Summary Ranking Reports - By selecting this report, the user can identify the 10 worst or 10 best sites in the database. Once the report type has been selected, parameters to define before the report can be generated will
include the following:
a. Measurement unit – KW, therms, CCF gallons, PSI, etc. The database will search for all values
matching the request.
b. Compare an entire facility or normalize by square foot
c. Time periods to compare
d. Highest values or lowest values – Will be able to view either the best or worst 10 points matching the
defined parameters
e. Cost or consumption in future revisions
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3. Spectrum Summary Report – A quick view of any point or aggregated point with color coding identifying the reasonableness of the data value. The chart can report on up to one year of data, with the ability to zoom to
a higher definition. As data values approach and/or exceed historical ranges, the color on the graph will
change to identify such. If all data values are within historical ranges, the user can move on to other functions.
In the following screen shot, the Spectrum Summary Report is reporting on total electricity for an aggregated
point, which consists of 6 schools. The reporting period is six weeks, with the blue identifying low loads
overnight and on weekends. The fourth weekend in the report was a three day weekend which is identified by
a larger blue gap. A user can also see rising consumption (red) as temperatures rise going into the summer
season. When the user clicks on an area of the graph, the data value along with time stamp will appear. The
colors and associated data value ranges are user definable. The following screen shot is an example of the
Spectrum Summary Report.
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4. Equipment Operation Reports - Users will have the ability to analyze digital points and identify run times.
Comparisons between sites or points can be made and run times can be graphed. For example, comparing
lighting or HVAC run hours in a group of stores or comparing HVAC run hours in June for Store 1 versus
Store 2. Data will be displayed in time and percentage.
5. Relative Contribution Report – This pie chart report will give users the ability to identify how individual points contribute to a total from a point group. The user would select a group of points, calculate the aggregate
consumption of the group, and report on the individual contribution of each. Data will be displayed both
graphically in a pie chart as well as in tabular format. Users could identify that HVAC is 48% of the building
load; lighting is 42%, or Building 1 accounts for 14% of the total enterprise load and Building 2 contributes
19%. This report will allow users to identify inefficiencies and help perform budgeting.
6. Average Profile – The report will allow the user to average the load for a single load across time periods and
give the average load, and/or aggregate multiple meters (loads) and view the average aggregated load. This
report will be very beneficial when negotiating with energy service providers because it includes the load
profile and consumption totals. With the ability to filter by time periods, measurement units, points or point
groups, weekdays, and weekends, load profiles with associated data will allow the user to procure exactly the
amount of energy required. This reduces risk for the energy provider and therefore reduces cost for the end-
user.
The user will be able to manipulate between 1-minute intervals and hourly intervals. In addition, users will be able to
choose between auto scale and manual scale. For example, if the minimum value is 100KW and the maximum is 500
kW, the user can have the chart automatically scale between those values or they can select any range to scale the
400kW range. When printing charts, this may be useful. This will be useful for sophisticated users who need a higher
resolution of data. The following screen shot is an example of the Average Profile Report.
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7. Point Trending – This report will allow the user to choose a single or multiple points and trend the values
over a specified time period. Either analog or digital points can be trended and multiple variables can be
selected to be report. For a visual representation of several point values, the user will view all points on the
left Y-axis. If the user would like to perform a statistical analysis identifying correlation coefficient and
standard deviation between variables, they will have the ability to select a single point for each Y-axis. If a
point group has been created, it would be presented as a single point value. The same auto scale/manual scale
feature discussed in Average Profile Report is available in Point Trending. The following screen shot is an
example of the Point Trending Report.
8. Exception Report – This report will identify all data values for the specified period that does not fall in a user-defined range. Although the range will be user definable, the benchmark or baseline to be compared
against will be historical data. Users can get to this report by selecting it among the library of report templates,
or can automatically be taken here from the Average Profile Report or Point Trending Report by clicking on an
“Exception” button once a profile is being viewed.
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2.11 WEB BROWSER CLIENTS
A. The system shall be capable of supporting an unlimited number of clients using a standard Web browser
such as Internet Explorer™ or Netscape Navigator™. Systems requiring additional software (to enable a
standard Web browser) to be resident on the client machine, or manufacture-specific browsers shall not
be acceptable.
B. The Web browser software shall run on any operating system and system configuration that is supported
by the Web browser. Systems that require specific machine requirements in terms of processor speed,
memory, etc., in order to allow the Web browser to function with the FMCS, shall not be acceptable.
C. The Web browser shall provide the same view of the system, in terms of graphics, schedules, calendars,
logs, etc., and provide the same interface methodology as is provided by the Graphical User Interface.
Systems that require different views or that require different means of interacting with objects such as
schedules, or logs, shall not be permitted.
D. The Web browser client shall support at a minimum, the following functions:
1. User log-on identification and password shall be required. If an unauthorized user attempts access,
a blank web page shall be displayed. Security using Java authentication and encryption techniques
to prevent unauthorized access shall be implemented.
2. Graphical screens developed for the GUI shall be the same screens used for the Web browser
client. Any animated graphical objects supported by the GUI shall be supported by the Web
browser interface.
3. HTML programming shall not be required to display system graphics or data on a Web page.
HTML editing of the Web page shall be allowed if the user desires a specific look or format.
4. Storage of the graphical screens shall be in the Network Area Controller (NAC), without requiring
any graphics to be stored on the client machine. Systems that require graphics storage on each
client are not acceptable.
5. Real-time values displayed on a Web page shall update automatically without requiring a manual
“refresh” of the Web page.
6. Users shall have administrator-defined access privileges. Depending on the access privileges
assigned, the user shall be able to perform the following:
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a. Modify common application objects, such as schedules, calendars, and set points in a
graphical manner.
1. Schedule times will be adjusted using a graphical slider, without requiring any
keyboard entry from the operator.
2. Holidays shall be set by using a graphical calendar, without requiring any keyboard
entry from the operator.
b. Commands to start and stop binary objects shall be done by right-clicking the selected object
and selecting the appropriate command from the pop-up menu. No entry of text shall be
required.
c. View logs and charts
d. View and acknowledge alarms
e. Setup and execute SQL queries on log and archive information
7. The system shall provide the capability to specify a user’s (as determined by the log-on user
identification) home page. Provide the ability to limit a specific user to just their defined home
page. From the home page, links to other views, or pages in the system shall be possible, if
allowed by the system administrator.
8. Graphic screens on the Web Browser client shall support hypertext links to other locations on the
Internet or on Intranet sites, by specifying the Uniform Resource Locator (URL) for the desired
link.
2.12 SERVER FUNCTIONS AND HARDWARE
A. A central server shall be provided. The server shall support all Network Area Controllers (NAC) / Router connected to the customer’s network whether local or remote.
B. Local connections shall be via an Ethernet LAN. Remote connections can be via ISDN, ADSL, T1 or
dial-up connection.
C. It shall be possible to provide access to all Network Area Controllers via a single connection to the server. In this configuration, each Network Area Controller can be accessed from a remote Graphical
User Interface (GUI) or from a standard Web browser (WBI) by connecting to the server.
D. The server shall provide the following functions, at a minimum:
1. Global Data Access: The server shall provide complete access to distributed data defined anywhere
in the system.
2. Distributed Control: The server shall provide the ability to execute global control strategies based
on control and data objects in any NAC / Router in the network, local or remote.
3. The server shall include a master clock service for its subsystems and provide time synchronization
for all Network Area Controllers (NAC) / Routers.
4. The server shall accept time synchronization messages from trusted precision Atomic Clock
Internet sites and update its master clock based on this data.
5. The server shall provide scheduling for all Network Area Controllers and their underlying field
control devices.
6. The server shall provide demand limiting that operates across all Network Area Controllers. The
server must be capable of multiple demand programs for sites with multiple meters and or multiple
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sources of energy. Each demand program shall be capable of supporting separate demand shed
lists for effective demand control.
7. The server shall implement the BACnet Command Prioritization scheme (16 levels) for safe and
effective contention resolution of all commands issued to Network Area Controllers / Routers.
Systems not employing this prioritization shall not be accepted.
8. Each Network Area Controller / Router supported by the server shall have the ability to archive its
log data, alarm data and database to the server, automatically. Archiving options shall be user-
defined including archive time and archive frequency.
9. The server shall provide central alarm management for all Network Area Controllers / Routers
supported by the server. Alarm management shall include:
1. Routing of alarms to display, printer, email and pagers
2. View and acknowledge alarms
3. Query alarm logs based on user-defined parameters
10. The server shall provide central management of log data for all Network Area Controllers / Routers
supported by the server. Log data shall include process logs, runtime and event counter logs, audit
logs and error logs. Log data management shall include:
1. Viewing and printing log data
2. Exporting log data to other software applications
3. Query log data based on user-defined parameters
E. Server Hardware Requirements: The server hardware platform shall have the following requirements:
1. The computer shall be an Intel Pentium M based computer (minimum processing speed of 2.4 GHz
with 1 GB RAM and a 100-gigabyte minimum hard drive). It shall include a DVD-ROM/CD-RW
Combination Drive, 2-parallel ports, 2-asynchronous serial ports and 2-USB ports. A minimum
17” flat panel color monitor, 1280 x 1024 optimal preset resolution, 25 ms response time shall also
be included.
2. The server operating system shall be Microsoft Windows XP Professional. Include Microsoft
Internet Explorer 6.0 or later.
3. Connection to the BMS network shall be via an Ethernet network interface card, 100 Mbps.
4. A system printer shall be provided. Printer shall be laser type with a minimum 600 x 600-dpi
resolution and rated for 60-PPM print speed minimum.
5. For dedicated alarm printing, provide a dot matrix printer, either 80 or 132 column width. The
printer shall have a parallel port interface.
2.13 SYSTEM PROGRAMMING
A. The Graphical User Interface software (GUI) shall provide the ability to perform system programming
and graphic display engineering as part of a complete software package. Access to the programming
functions and features of the GUI shall be through password access as assigned by the system
administrator.
B. A library of control, application, and graphic objects shall be provided to enable the creation of all applications and user interface screens. Applications are to be created by selecting the desired control
objects from the library, dragging or pasting them on the screen, and linking them together using a built
in graphical connection tool. Completed applications may be stored in the library for future use.
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Graphical User Interface screens shall be created in the same fashion. Data for the user displays is
obtained by graphically linking the user display objects to the application objects to provide “real-time”
data updates. Any real-time data value or object property may be connected to display its current value
on a user display. Systems requiring separate software tools or processes to create applications and user
interface displays shall not be acceptable.
C. Programming Methods
1. Provide the capability to copy objects from the supplied libraries, or from a user-defined library to
the user’s application. Objects shall be linked by a graphical linking scheme by dragging a link
from one object to another. Object links will support one-to-one, many-to-one, or one-to-many
relationships. Linked objects shall maintain their connections to other objects regardless of where
they are positioned on the page and shall show link identification for links to objects on other pages
for easy identification. Links will vary in color depending on the type of link; i.e., internal,
external, hardware, etc.
2. Configuration of each object will be done through the object’s property sheet using fill-in the blank
fields, list boxes, and selection buttons. Use of custom programming, scripting language, or a
manufacturer-specific procedural language for configuration will not be accepted.
3. The software shall provide the ability to view the logic in a monitor mode. When on-line, the
monitor mode shall provide the ability to view the logic in real time for easy diagnosis of the logic
execution. When off-line (debug), the monitor mode shall allow the user to set values to inputs and
monitor the logic for diagnosing execution before it is applied to the system.
4. All programming shall be done in real-time. Systems requiring the uploading, editing, and
downloading of database objects shall not be allowed.
5. The system shall support object duplication within a customer’s database. An application, once
configured, can be copied and pasted for easy re-use and duplication. All links, other than to the
hardware, shall be maintained during duplication.
2.14 LonWorks NETWORK MANAGEMENT
A. The Graphical User Interface software (GUI) shall provide a complete set of integrated LonWorks
network management tools for working with LonWorks networks. These tools shall manage a database
for all LonWorks devices by type and revision, and shall provide a software mechanism for identifying
each device on the network. These tools shall also be capable of defining network data connections
between LonWorks devices, known as “binding”. Systems requiring the use of third party LonWorks
network management tools shall not be accepted.
B. Network management shall include the following services: device identification, device installation,
device configuration, device diagnostics, device maintenance and network variable binding.
C. The network configuration tool shall also provide diagnostics to identify devices on the network, to reset devices, and to view health and status counters within devices.
D. These tools shall provide the ability to “learn” an existing LonWorks network, regardless of what
network management tool(s) were used to install the existing network, so that existing LonWorks
devices and newly added devices are part of a single network management database.
E. The network management database shall be resident in the Network Area Controller (NAC) / Router,
ensuring that anyone with proper authorization has access to the network management database at all
times. Systems employing network management databases that are not resident, at all times, within the
control system, shall not be accepted.
2.15 OBJECT LIBRARIES
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A. A standard library of objects shall be included for development and setup of application logic, user
interface displays, system services, and communication networks.
B. The objects in this library shall be capable of being copied and pasted into the user’s database and shall be organized according to their function. In addition, the user shall have the capability to group objects
created in their application and store the new instances of these objects in a user-defined library.
C. In addition to the standard libraries specified here, the supplier of the system shall maintain an on-line
accessible (over the Internet) library, available to all registered users to provide new or updated objects
and applications as they are developed.
D. All control objects shall conform to the control objects specified in the BACnet specification.
E. The library shall include applications or objects for the following functions, at a minimum:
1. Scheduling Object. The schedule must conform to the schedule object as defined in the BACnet
specification, providing 7-day plus holiday & temporary scheduling features and a minimum of 10
on/off events per day. Data entry to be by graphical sliders to speed creation and selection of on-
off events.
2. Calendar Object. . The calendar must conform to the calendar object as defined in the BACnet
specification, providing 12-month calendar features to allow for holiday or special event data entry.
Data entry to be by graphical “point-and-click” selection. This object must be “linkable” to any or
all scheduling objects for effective event control.
3. Duty Cycling Object. Provide a universal duty cycle object to allow repetitive on/off time control
of equipment as an energy conserving measure. Any number of these objects may be created to
control equipment at varying intervals
4. Temperature Override Object. Provide a temperature override object that is capable of overriding
equipment turned off by other energy saving programs (scheduling, duty cycling etc.) to maintain
occupant comfort or for equipment freeze protection.
5. Start-Stop Time Optimization Object. Provide a start-stop time optimization object to provide the
capability of starting equipment just early enough to bring space conditions to desired conditions
by the scheduled occupancy time. Also, allow equipment to be stopped before the scheduled un-
occupancy time just far enough ahead to take advantage of the building’s “flywheel” effect for
energy savings. Provide automatic tuning of all start / stop time object properties based on the
previous day’s performance.
6. Demand Limiting Object. Provide a comprehensive demand-limiting object that is capable of
controlling demand for any selected energy utility (electric, oil, and gas). The object shall provide
the capability of monitoring a demand value and predicting (by use of a sliding window prediction
algorithm) the demand at the end of the user defined interval period (1-60 minutes). This object
shall also accommodate a utility meter time sync pulse for fixed interval demand control. Upon a
prediction that will exceed the user defined demand limit (supply a minimum of 6 per day), the
demand limiting object shall issue shed commands to either turn off user specified loads or modify
equipment set points to effect the desired energy reduction. If the list of sheddable equipment is
not enough to reduce the demand to below the set point, a message shall be displayed on the users
screen (as an alarm) instructing the user to take manual actions to maintain the desired demand.
The shed lists are specified by the user and shall be selectable to be shed in either a fixed or
rotating order to control which equipment is shed the most often. Upon suitable reductions in
demand, the demand-limiting object shall restore the equipment that was shed in the reverse order
in which it was shed. Each sheddable object shall have a minimum and maximum shed time
property to effect both equipment protection and occupant comfort.
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F. The library shall include control objects for the following functions. All control objects shall conform to
the objects as specified in the BACnet specification.
1. Analog Input Object - Minimum requirement is to comply with the BACnet standard for data
sharing. Allow high, low and failure limits to be assigned for alarming. Also, provide a time delay
filter property to prevent nuisance alarms caused by temporary excursions above or below the user
defined alarm limits.
2. Analog Output Object - Minimum requirement is to comply with the BACnet standard for data
sharing.
3. Binary Input Object - Minimum requirement is to comply with the BACnet standard for data
sharing. The user must be able to specify either input condition for alarming. This object must
also include the capability to record equipment run-time by counting the amount of time the
hardware input is in an “on” condition. The user must be able to specify either input condition as
the “on” condition.
4. Binary Output Object - Minimum requirement is to comply with the BACnet standard for data
sharing. Properties to enable minimum on and off times for equipment protection as well as
interstart delay must be provided. The BACnet Command Prioritization priority scheme shall be
incorporated to allow multiple control applications to execute commands on this object with the
highest priority command being invoked. Provide sixteen levels of priority as a minimum. Systems
not employing the BACnet method of contention resolution shall not be acceptable.
5. PID Control Loop Object - Minimum requirement is to comply with the BACnet standard for data
sharing. Each individual property must be adjustable as well as to be disabled to allow
proportional control only, or proportional with integral control, as well as proportional, integral and
derivative control.
6. Comparison Object - Allow a minimum of two analog objects to be compared to select either the
highest, lowest, or equality between the two linked inputs. Also, allow limits to be applied to the
output value for alarm generation.
7. Math Object - Allow a minimum of four analog objects to be tested for the minimum or maximum,
or the sum, difference, or average of linked objects. Also, allow limits to be applied to the output
value for alarm generation.
8. Custom Programming Objects - Provide a blank object template for the creation of new custom
objects to meet specific user application requirements. This object must provide a simple BASIC-
like programming language that is used to define object behavior. Provide a library of functions
including math and logic functions, string manipulation, and e-mail as a minimum. Also, provide a
comprehensive on-line debug tool to allow complete testing of the new object. Allow new objects
to be stored in the library for re-use.
9. Interlock Object - Provide an interlock object that provides a means of coordination of objects
within a piece of equipment such as an Air Handler or other similar types of equipment. An
example is to link the return fan to the supply fan such that when the supply fan is started, the
return fan object is also started automatically without the user having to issue separate commands
or to link each object to a schedule object. In addition, the control loops, damper objects, and
alarm monitoring (such as return air, supply air, and mixed air temperature objects) will be
inhibited from alarming during a user-defined period after startup to allow for stabilization. When
the air handler is stopped, the interlocked return fan is also stopped, the outside air damper is
closed, and other related objects within the air handler unit are inhibited from alarming thereby
eliminating nuisance alarms during the off period.
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10. Temperature Override Object - Provide an object whose purpose is to provide the capability of
overriding a binary output to an “On” state in the event a user specified high or low limit value is
exceeded. This object is to be linked to the desired binary output object as well as to an analog
object for temperature monitoring, to cause the override to be enabled. This object will execute a
Start command at the Temperature Override level of start/stop command priority unless changed by
the user.
11. Composite Object - Provide a container object that allows a collection of objects representing an
application to be encapsulated to protect the application from tampering, or to more easily
represent large applications. This object must have the ability to allow the user to select the
appropriate parameters of the “contained” application that are represented on the graphical shell of
this container.
G. The object library shall include objects to support the integration of devices connected to the Network Area Controller (NAC) / Router. At a minimum, provide the following as part of the standard library
included with the programming software:
1. LonMark/LonWorks devices. These devices shall include, but not be limited to, devices for control
of HVAC, lighting, access, and metering. Provide LonMark manufacturer-specific objects to
facilitate simple integration of these devices. All network variables defined in the LonMark profile
shall be supported. Information (type and function) regarding network variables not defined in the
LonMark profile shall be provided by the device manufacturer.
2. For devices not conforming to the LonMark standard, provide a dynamic object that can be
assigned to the device based on network variable information provided by the device manufacturer.
Device manufacturer shall provide an XIF file, resource file and documentation for the device to
facilitate device integration.
3. For BACnet devices, provide the following objects at a minimum:
a. Analog In
b. Analog Out
c. Analog Value
d. Binary
e. Binary In
f. Binary Out
g. Binary Value
h. Multi-State In
i. Multi-State Out
j. Multi-State Value
k. Schedule Export
l. Calendar Export
m. Trend Export
n. Device
4. For each BACnet object, provide the ability to assign the object a BACnet device and object
instance number.
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5. For BACnet devices, provide the following support at a minimum
a. Segmentation
b. Segmented Request
c. Segmented Response
d. Application Services
e. Read Property
f. Read Property Multiple
g. Write Property
h. Write Property Multiple
i. Confirmed Event Notification
j. Unconfirmed Event Notification
k. Acknowledge Alarm
l. Get Alarm Summary
m. Who-has
n. I-have
o. Who-is
p. I-am
q. Subscribe COV
r. Confirmed COV notification
s. Unconfirmed COV notification
t. Media Types
u. Ethernet
v. BACnet IP Annex J
w. MSTP
x. BACnet Broadcast Management Device (BBMD) function
y. Routing
2.16 DDE DEVICE INTEGRATION
A. The Network Area Controller / Router shall support the integration of device data via Dynamic Data
Exchange (DDE), over the Ethernet Network. The Network Area Controller shall act as a DDE client to
another software application that functions as a DDE server.
B. Provide the required objects in the library, included with the Graphical User Interface programming
software, to support the integration of these devices into the BMS. Objects provided shall include at a
minimum:
1. DDE Generic AI Object
2. DDE Generic AO Object
3. DDE Generic BO Object
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4. DDE Generic BI Object
2.17 MODBUS SYSTEM INTEGRATION
A. The Network Area Controller / Router shall support the integration of device data from Modbus RTU,
Ascii, or TCP control system devices. The connection to the Modbus system shall be via an RS-232,
RS485, or Ethernet IP as required by the device.
B. Provide the required objects in the library, included with the Graphical User Interface programming
software, to support the integration of the Modbus system data into the BMS. Objects provided shall
include at a minimum:
1. Read/Write Modbus AI Registers
2. Read/Write Modbus AO Registers
3. Read/Write Modbus BI Registers
4. Read/Write Modbus BO Registers
C. All scheduling, alarming, logging and global supervisory control functions, of the Modbus system
devices, shall be performed by the Network Area Controller.
D. The BMS supplier shall provide a Modbus system communications driver. The equipment system
vendor that provided the equipment utilizing Modbus shall provide documentation of the system’s
Modbus interface and shall provide factory support at no charge during system commissioning
2.18 OPC SYSTEM INTEGRATION
A. The Network Area Controller / Router shall act as an OPC client and shall support the integration of device data from OPC servers. The connection to the OPC server shall be Ethernet IP as required by the
device. The OPC client shall support third party OPC servers compatible with the Data Access 1.0 and
2.0 specifications.
B. Provide the required objects in the library, included with the Graphical User Interface programming
software, to support the integration of the OPC system data into the BMS. Objects provided shall
include at a minimum:
1. Read/Write OPC AI Object
2. Read/Write OPC AO Object
3. Read/Write OPC BI Object
4. Read/Write OPC BO Object
5. Read/Write OPC Date/Time Input Object
6. Read/Write OPC Date/Time Output Object
7. Read/Write OPC String Input Object
8. Read/Write OPC String Output Object
C. All scheduling, alarming, logging and global supervisory control functions, of the OPC system devices,
shall be performed by the Network Area Controller / Router.
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D. The BMS supplier shall provide an OPC client communications driver. The equipment system vendor
that provided the equipment utilizing OPC shall provide documentation of the system’s OPC server
interface and shall provide factory support at no charge during system commissioning.
2.19 GRAPHICAL USER INTERFACE COMPUTER HARDWARE (DESKTOP)
A. The browser workstation shall be an Intel Pentium based computer (minimum processing speed of 2.4
Ghz with 1.0 GB RAM and a 100-gigabyte minimum hard drive). It shall include a DVD-ROM/CD-RW
Combination Drive, 2-parallel ports, 2-asynchronous serial ports and 2-USB ports. A minimum 17”flat
panel color monitor, 1280 x 1024 optimal preset resolution, 25 ms response time, shall also be included.
B. Connection to the BMS network shall be via an Ethernet network interface card, 10 Mbps.
C. A system printer shall be provided. Printer shall be laser type with a minimum 600 x 600-dpi resolution
and rated for 8 PPM print speed minimum.
OTHER CONTROL SYSTEM HARDWARE
FIELD DEVICES
7.1 ELECTRIC AND ELECTRONIC CONTROLS RELATED EQUIPMENT
General Requirements
All controls shall be capable of operating in ambient conditions varying between 0-55 deg. C and
90% R.H. non-condensing.
All Control devices shall have a 20 mm conduit knockout. Alternatively, they shall be supplied with
adaptors for 20 mm conduit.
Ancillary Items
When items of equipment are installed in the situations listed below, the BAS contractor shall include the
following ancillary items :
(i) Weather Protection
All devices required to be weatherproofed are detailed in the Schedule of Quantities. IP ratings for
the equipment is mentioned in the respective section.
(ii) Pipework Immersion
Corrosion resisting pockets of a length suitable for the complete active length of the device, screwed
½” (13 mm) or ¾” (20 mm) NPT suitable for the temperature, pressure and medium.
(iii) Duct Mounting (Metal or Builders Work)
Mounting flanges, clamping bushes, couplings, locknuts, gaskets, brackets, sealing glands and any
special fittings necessitated by the device.
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Additional features
(i) Concealed Adjustment : All two position switching devices shall have concealed adjustment
unless detailed otherwise in the Schedule of Quantities.
(ii) Operating Voltage : All two position switching devices shall operate on 230 v a.c and all
accessible live parts shall be shrouded. An earth terminal shall be provided.
7.2 TEMPERATURE SENSOR
Temperature sensors for space, pipes and ducts, shall be of the Resistance Temperature detector (RTD) type or
thermistor. These shall be two wire type and shall conform to the following specifications :
1) Immersion sensors shall be high accuracy type with a high resistance versus temperature change. The
accuracy shall be atleast ± 0.33 degrees F and sensitivity of atleast 2 ohm/F.
2) Immersion sensors shall be provided with separate stainless steel thermo well. These shall be
manufactured from bar stock with hydrostatic pressure rating of atleast 10 kgf/cm2.
3) The connection to the pipe shall be screwed ¾ inch NPT (M). An aluminum sleeve shall be provided
to ensure proper heat transfer from the well to the sensor. Terminations to be provided on the
head. Flying leads shall not be acceptable.
4) The sensor housing shall plug into the base so that the same can be easily removed without disturbing
the wiring connections.
5) Duct temperature sensors shall be with rigid stem and of averaging type. These shall be suitable
for duct installation.
6) Outdoor air temperature sensor shall be provided with a sun shield.
7) The sensors shall not be mounted near any heat source such as windows, electrical appliances etc.
The temperature sensors may be of any of the following types :
1) PT 100, PT 1000, PT 3000
2) NI 100, NI 1000
3) Balco 500.
4) Thermistor
7.3 HUMIDITY SENSOR
Space and duct humidity sensors shall be of capacitance type with an effective sensing range of 10% to 90%
RH. Accuracy shall be + 3% or better. Duct mounted humidity sensors shall be provided with a sampling
chamber. Wall mounted sensors shall be provided with a housing. The sensor housing shall plug into the base
so that the same can be easily removed without disturbing the wiring connections. The sensors shall not be
mounted near any heat source such as windows, electrical appliances etc.
7.4 FLOW METER
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Water flow meters shall be either Ultrasonic type or electromagnetic type. For electromagnetic flow meter,
teflon lining with 316 SS electrodes must be provided. The housing shall have IP 55 protection. Vendors
shall have to get their design/ selection approved by the Consultant, prior to the supply.
The exact ranges to be set shall be determined by the contractor at the time of commissioning. It
should be possible to ‘zero’ the flowmeter without any external instruments, with the overall accuracy of
atleast ± 1% full scale.
7.5 PRESSURE TRANSMITTER FOR WATER
Pressure transmitters shall be piezo-electric type or diaphragm type. (Bourdon Tube type shall not be
acceptable). Output shall be 4-20mA or 0-10V DC and the range as specified in the data sheet depending on
the line pressure. Power supply shall be either 24 V AC, 24 V DC or 230 V AC. Connection shall be as
per manufacturer’s standards. The pressure detector shall be capable of withstanding a hydraulic test pressure
of twice the working pressure. The set point shall fall within 40%-70% of the sensing range and detector shall
have sensitivity such that change of 1.5% from the stabilized condition shall cause modulation of the
corrective element. The sensor must be pressure compensated for a medium temperature of -10 o C to
60o C with ambient ranging between 0
o C to 55
o C.
7.6 DIFFERENTIAL PRESSURE SWITCH FOR PIPE WORK
These shall be used to measure pressure differential across suction and discharge of pumps. The range shall be
as specified in the data sheet. Switch shall be ON with increase in differential. Housing for these shall be
weather proof with IP 55 protection. The pressure switch shall be capable of withstanding a hydraulic test
pressure of 1.5 times the working pressure. The set point shall fall in 40-70% of the scale range and shall have
differentials adjustable over 10%-30% of the scale range. The switches shall be provided with site adjustable
scale and with 2 NO/NC contacts.
7.7 DIFFERENTIAL PRESSURE SWITCH FOR AIR SYSTEMS
These shall be diaphragm operated. Switches shall be supplied with air connections permitting their use as
static or differential pressure switches.
The switch shall be of differential pressure type complete with connecting tube and metal bends for
connections to the duct. The housing shall be IP 54 rated. The pressure switches shall be available in minimum
of 3 ranges suitable for applications like Air flow proving, dirty filter, etc. The set point shall be concealed
type. The contact shall be SPDT type with 230 VAC, 1 A rating.
The switch shall be supplied suitable for wall mounting on ducts in any plane. It should be mounted in such a
way that the condensation flow out of the sensing tips. Proper adaptor shall be provided for the cables.
The set point shall fall within 40%-70% of the scale range and l has differentials adjustable over 10%-30% of
the scale range.
The switches shall be provided with site adjustable scale and with 2 NO/NC contacts.
7.8 AIR FLOW SWITCHES
Air flow switches shall be selected for the correct air velocity, duct size and mounting attitude. If any special
atmospheric conditions are detailed in the Schedule of Quantity the parts of the switches shall be suitably
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coated or made to withstand such conditions. These shall be suitable for mounting in any plane. Output
shall be 2 NO/NC potential free. Site adjustable scale shall also be provided.
7.9 AIR PRESSURE SENSOR
The pressure sensor shall be differential type. The construction shall be spring loaded diaphragm type. The
movement of the membrane in relation to the pressure should be converted by an inductive electromagnet
coupling which would give an output suitable for the controller. The pressure sensor shall be in a housing
having IP 54 ratings in accordance with IEC 529. Suitable mounting arrangement shall be available on the
sensor. The sensor shall come complete with the PVC tubes & probes.
7.10 WATER FLOW SWITCH
These shall be paddle type and suitable for the type of liquid flowing in the line. Output shall be 2NO/2NC
potential free.
7.11 TRANSDUCERS FOR ELECTRICAL SERVICES
Electrical transducers shall be integrated electronic type and rack mounted on the field. These shall work on
230 V supply with the output being standard type i.e. 4-20 mA, 0- 10 Volts etc.
Power factor, Voltage, Current, Frequency and Kilowatt transducers shall have standard output signal for
measurement for the specified variable.
Kilowatt-Hour metering (if any) shall be poly-phase; three- element with current transformer (CT) operated
type. The metering shall feature high accuracy with no more than +/- 1% error over the expected load range.
The coils shall be totally encapsulated against high impulse levels.
7.12 LEVEL SWITCH
The level switches shall have to meet the following requirement :
Type : Float Type/Capacitance type/Conductivity type
Mounting : To suit application.
Connection : Flanged ANSI 150 lbs RF Carbon steel
Float material : 316 SS
Stem Material : 316 SS
Output : 2 NO, 2 NC potential free
Switch Enclosure : IP 55
7.13 DIGITAL THERMOSTATS
Thermostats for FCU’s should be Digital on/off OR Modulating Type for Actuating 2 way or 3 way Valves (On-
off/Modulating)
Thermostats should display Room Temp and Setpoint simultaneously which is easy to read from atleast 6-8 feet
distance.
Thermostats should have Fan Speed Control Switch (Low-Med-High-Auto). Auto Mode should be able to save
energy by automatically reducing the Fan Speed when Room Temp Achieves Set Point.
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LCD Display should be available in Blue or Green Backlit for ease in viewing the Room Temperature and Setpoint.
Thermostats should work on 230V PS for on-off models and 24V for Modulating Thermostats
The User Settings should be retained in Thermostat Memory in case of Power Failure
The Switching Relays should be separately wired and should be mounted inside the Junction Box, so that the
Thermostat front is sleek in mounting.Thermostat Thickness should be 17mm or less
Thermostats should have Energy Savings Feature with dual setpoint which can be interlocked with Occupancy
Sensor or Hotel Key Card input. This should be indicated in the LCD Display in the mode it is being operated. This Programming should be possible by Hotel maintenance Staff.
Thermostats should be similar or equivalent to Honeywell Halo Series Digital Thermostats Model T6861(on/off) or
T6865(modulating) version.
7.15 Pressure Independent Dynamic Balancing Valve (ranges from25mm to 150mm)
The Valve should have self Dynamic Flow Control Valves that are pressure independent, two way, Modulating to
accept digital/analog input BMS/Controller signals and should provide position feedback signal to the control system.
The Feedback signal should have the feedback feature of the Valve/Actuator itself without any need of any additional
accessory/instrument/device.
• PICV should be capable of maintaining the max flow rate atleast +/-4% Accuracy
• The PICV Should be capable of maintaining Linear Temperature Control, Pressure Independence and
Electric Modulation in one Valve body.
• The Flow rates should be field settable electronically upto 60% of the valve Max set Flow rate
• The Differential Pressure Ranges for which the valve can maintain the flow rates should be mentioned in the
Product literature
• Valve Actuator housing shall be rated to IP54
• Actuator shall be driven by a 24Vac power supply and shall accept universal Input signals like 0/2-10Vdc or 4-
20mA signal
• Actuator shall be capable of providing feedback Signal of 0/2-10Vdc to the Control System/BMS
• PICV should have an option for adjusting the Flow Characteristics as per AHU in every PICV to ensure
Linear Temp Control.
• PICV should have an option for changing the Max Flow Rates in future and no additional Instrument should
be required. Flow Values can be changed by entering in LCD Display only and not by any DIP Switches or
Setting Dial to improve accuracy.
• PICV shall provide full valve Authority
• PICV Valve body shall be rated at least PN16
• Max Close off Pressure shall be mentioned in the Product Datasheet.
• Min Working Differential Pressure shall be 30Kpa
• Valve shall be Internal BSP Threaded from DN25 to DN50 and Flanged end Connection for DN65 to DN150
• Min Stroke Length of the Valve shall be 20mm
• Media Temperature : 0-130 deg C
• Valve shall be of Brass/Bronze Construction upto DN50 and Cast Iron upto DN150
• Shut off Leakage shall be 0.1 Kvs
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7.16 Motorized Butterfly Valve
Valve Body Type of Valve : Butterfly Valve
Body Material : Cast Iron or Ductile Iron Body
Disc Material : Nickel plated Ductile Iron Stem : SS416
Liner Material : EPDM
Nominal Static Body Rating : PN16
Tightness : Bubble Tight Medium Temperature : -10 dec C to 120 deg C
Pipe Connection : ISO7005-2
Actuator Type : Electric
Motor Supply : 230 Vac, 50hz/60Hz
Travel Angle : 90 deg +/- 5 deg
Enclosure : IP67 Waterproof
Indicator : Continuous Position Indicator
Space Heater : 15W 220V Anti Condensation
Stall Protection : Built-in thermal protection Cut off at 125 ± 5 Reset at 95 ± 5
Manual Override : By Handwheel, nonclutch design
Torque Limit Switches : 2 nos
External Coating : Dry Aluminium Alloy in Painted Black
Make : Honeywell
7.17 On/Off type FCU valves
Two way on/off type FCU valve
The two way FCU valve should be design in such a way that it can withstand a static pressure of 20 bar and a burst
pressure of 100 bar.
The ports are designated in such a way that flow through the two way valve can be in either direction.
The valve shall be designed to handle the fluid temperature from1degreeC to 95degreeC
It can withstand the differential pressure upto 4 Bar.
The valve is of bronze body with stainless steel stem and Noryl cover.
The FCU valve shall have a minimum stroke length of 10mm so that it has the sufficient distance to travel.
The hydronic FCU valves shall been designed to meet the European standard EN 60730-2-8.
The actuator shall require the power supply of 220 Volts AC so that no transformer is required.
The actuator is easily removable from the valve so that in case the actuator fails at site it can be easily replaced without
affecting the integrity of the water system.
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The actuator shall have the provision to operate manually.
The actuator shall meet the low voltage directive 73/23/EEC. The actuator shall be selected in such a way that the
maximum power consumed by the actuator is 6 Watt.
The valve should be similar or equivalent to Honeywell VC6013 version.
7.18 Snap Acting Digital Thermostats
Thermostats for FCU’s should be Digital on/off for Actuating 2 way or 3 way Valves (On-off/Modulating)
Thermostats should display Room Temp and Set point simultaneously which is easy to read from at least 6-8 feet
distance.
Thermostats should have Fan Speed Control Switch (Low-Med-High-Auto). Auto Mode should be able to save
energy by automatically reducing the Fan Speed when Room Temp Achieves Set Point.
LCD Display should be available in Blue or Green Backlit for ease in viewing the Room Temperature and Set point.
Thermostats should work on power supply of 230V for on-off models.
The User Settings should be retained in Thermostat Memory in case of Power Failure
The Switching Relays should be separately wired and should be mounted inside the Junction Box, so that the
Thermostat front is sleek in mounting. Thermostat Thickness should be 17mm or less
Thermostats should have Energy Savings Feature with dual set point which can be interlocked with Occupancy
Sensor or Hotel Key Card input. This should be indicated in the LCD Display in the mode it is being operated. This Programming should be possible by Hotel maintenance Staff.
Thermostats should be similar or equivalent to Honeywell Halo Series Digital Thermostats Model T6861 (on/off)
version.
PART 3 EXECUTION
3.1 INSTALLATION
A. All work described in this section shall be performed by system integrators or contractors that have a
successful history in the design and installation of integrated control systems.
B. Install system and materials in accordance with manufacturer’s instructions, and as detailed on the
project drawing set.
C. Drawings of the BMS network are diagrammatic only and any apparatus not shown, but required to
make the system operative to the complete satisfaction of the Architect shall be furnished and installed
without additional cost.
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D. Line and low voltage electrical connections to control equipment shown specified or shown on the
control diagrams shall be furnished and installed by this contractor in accordance with these
specifications.
E. Equipment furnished by the HVAC Contractor that is normally wired before installation shall be
furnished completely wired. Control wiring normally performed in the field will be furnished and
installed by this contractor.
3.2 WIRING
A. All electrical control wiring and power wiring to the control panels, NAC, computers and network
components shall be the responsibility of the this contractor.
B. The electrical contractor shall furnish all power wiring to electrical starters and motors.
C. All wiring shall be in accordance with the Project Electrical Specifications, the National Electrical Code and any applicable local codes. All BMS wiring shall be installed in the conduit types specified in the
Electrical Specifications unless otherwise allowed by the National Electrical Code or applicable local
codes. Where BMS plenum rated cable wiring is allowed it shall be run parallel to or at right angles to
the structure, properly supported and installed in a neat and workmanlike manner.
3.3 WARRANTY
A. Equipment, materials and workmanship incorporated into the work shall be warranted for a period of one
year from the time of system acceptance.
B. Within this period, upon notice by the CLIENT, any defects in the work provided under this section due
to faulty materials, methods of installation or workmanship shall be promptly (within 48 hours after
receipt of notice) repaired or replaced by this contractor at no expense to the CLIENT.
3.4 WARRANTY ACCESS
A. The CLIENT shall grant to this contractor, reasonable access to the BMS during the warranty period.
B. The CLIENT shall allow the contractor to access the BMS from a remote location for the purpose of
diagnostics and troubleshooting, via the Internet, during the warranty period.
3.5 SOFTWARE LICENSE
A. CLIENT shall be the named license holder of all software associated with any and all incremental work
on the project(s). The owner, or his appointed agent, shall determine which organizations to be named
in the “orgid” of all software licenses.
B. CLIENT, or his appointed agent, shall be free to direct the modification of the “orgid” in any software
license, regardless of supplier.
C. The owner, or his appointed agent, shall receive ownership of all job specific software configuration documentation, data files, and application-level software developed for the project. This shall include all
custom, job specific software code and documentation for all configuration and programming that is
generated for a given project and /or configured for use within based controllers and/or servers and any
related LAN / WAN / Intranet and Internet connected routers and devices. Any and all required Ids and
passwords for access to any component or software program shall be provided to the owner.
3.6 ACCEPTANCE TESTING
A. Upon completion of the installation, this contractor shall load all system software and start-up the
system. This contractor shall perform all necessary calibration, testing and de-bugging and perform all
required operational checks to insure that the system is functioning in full accordance with these
specifications.
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B. This contractor shall perform tests to verify proper performance of components, routines, and points.
Repeat tests until proper performance results. This testing shall include a point-by-point log to validate
100% of the input and output points of the DDC system operation.
C. Upon completion of the performance tests described above, repeat these tests, point by point as described
in the validation log above in presence of CLIENT's Representative, as required. Properly schedule these
tests so testing is complete at a time directed by the CLIENT's Representative. Do not delay tests so as
to prevent delay of occupancy permits or building occupancy.
D. System Acceptance: Satisfactory completion is when BMS contractor have performed successfully all
the required testing to show performance compliance with the requirements of the Contract Documents
to the satisfaction of CLIENT Representative. System acceptance shall be contingent upon completion
and review of all corrected deficiencies.
3.7 OPERATOR INSTRUCTION, TRAINING
A. During system commissioning and at such time acceptable performance of the BMS hardware and
software has been established this contractor shall provide on-site operator instruction to the owner's
operating personnel. Operator instruction shall be done during normal working hours and shall be
performed by a competent representative familiar with the system hardware, software and accessories.
B. This contractor shall provide 40 hours of instruction to the CLIENT's designated personnel on the operation of the BMS and describe its intended use with respect to the programmed functions specified.
Operator orientation of the systems shall include, but not be limited to; the overall operation program,
equipment functions (both individually and as part of the total integrated system), commands, systems
generation, advisories, and appropriate operator intervention required in responding to the System's
operation.
C. The training shall be in three sessions as follows:
1. Initial Training: One day session (8 hours) after system is started up and at least one week before
first acceptance test. Manual shall have been submitted at least two weeks prior to training so that
the owners' personnel can start to familiarize themselves with the system before classroom
instruction begins.
2. First Follow-Up Training: Two days (16 hours total) approximately two weeks after initial training,
and before Formal Acceptance. These sessions will deal with more advanced topics and answer
questions.
3. Warranty Follow Up: Two days (16 hours total) in no less than 4 hour increments, to be scheduled
at the request of the owner during the one year warranty period. These sessions shall cover topics
as requested by the owner such as; how to add additional points, create and gather data for trends,
graphic screen generation or modification of control routines.
Page 34 of 42
MAKE LIST FOR BUILDING MANAGEMENT SYSTEM OF ASSAM STATE LEGILATIVE ASSEMBLY MAIN BUILDING
Sl. No. Description Make List
A) CENTRAL CONTROL STATION & DIGITAL CONTROLLERS:
1.0
Supply, installation, testing & commissioning of the central control station consisting of the following :
1.0.1
Intel machine Core - i7, 3GB RAM, 500GB HDD, CD/DVD- R/W drive and with necessarrySerial, parallel, and network communication ports and cables required for proper system operationetc as minimum.
HP/ IBM
1.0.2 Colour Monitor TFT – 21 inch.
LG/ Samsung
1.0.3 Laser Printer HP/ IBM
1.0.4 Mouse & Keyboard HP/ IBM
1.1
UPS with 30 minutes SMF battery backup for BMS equipments in control room for power back up. BMS Contractor to decide the capacity keeping in view the power required by BMS panel.
Emerson/ Luminus/ APC
1.2
Software for centralized BMS control system alongwith required hardwares for interface between automation level and management level. The software will be web enabled for control and monitoring with licensing for minimum 5 nos. simultaneous web users.
Honeywell WEBS/ Spyder/ TREND
1.3
Web Based system interface modules consisting of gateways, other interface units required as per specifications. The units shall be housed in wall mounted MS cabinets.
2.0 Standalone intelligent DDC controllers with 32 bit microprocessor
a For Chilled Water System Honeywell WEBS/ ALERTON/ Spyder/ TREND
Page 35 of 42
b For AHU's/TFA's/Ventillation Fan's
Honeywell WEBS/ ALERTON/ Spyder/ TREND
c For Plumbing/Fire-Fighting/STP WTP Honeywell WEBS/ ALERTON/ Spyder/ TREND
d For Transformers
Honeywell WEBS/ ALERTON/ Spyder/ TREND
e For HT Panel
Honeywell WEBS/ ALERTON/ Spyder/ TREND
f For LT Panel
Honeywell WEBS/ ALERTON/ Spyder/ TREND
3.0
Supply, installation, testing & commissioning of communicating type room temperature control units for FCUs with digital display and 3 speed fan (With Chilled Water Only).
Honeywell WEBS/ ALERTON/ Spyder/ TREND
4.0 Hand held portable operator terminal. Honeywell WEBS/ ALERTON/ Spyder/ TREND
5.0 Software Integration
a Chiller integrator (4 nos.) Honeywell WEBS/ ALERTON/ Spyder/ TREND
b SCHWP system integrator (9 VFD Drives)
Honeywell WEBS/ ALERTON/ Spyder/ TREND
c Hydropneumatic System integrator (4 VFD Drives)
Honeywell WEBS/ ALERTON/ Spyder/ TREND
d DG System Integrator
Honeywell WEBS/ ALERTON/ Spyder/ TREND
e Fire Alarm System Integrator Honeywell WEBS/ ALERTON/ Spyder/ TREND
f Energy Management System integrator (42 nos energy meter)
Honeywell WEBS/ ALERTON/ Spyder/ TREND
g FCU -84 No's
Honeywell WEBS/ ALERTON/ Spyder/ TREND
13.0
Supply & installation of black enameled MS/GI conduits in recess/on surface including its accessories, junction pull boxes GI fish wire, fixing hardware etc including chasing the wall/floor and plastering the chased portion and making good the damages etc. complete as required.
a) 25 mm dia MS conduit BEC/ AKG
b) 20 mm dia MS conduit* BEC/ AKG
c) 25 mm dia GI conduit* BEC/ AKG
d) 20 mm dia GI conduit* BEC/ AKG
14.0
2 core 1.5 Sq.mm twisted, annealed tinned copper multistranded conductor PVC insulated, shielded communication cable
Polycab/ Finolex/ Fusion Polymer/ Varsha/ Bonton/ KEI
Page 36 of 42
(Controller to Controller).
15.0
2 core 1.5 Sq.mm, twisted pair, annealed tinned copper multistrand conductor PVC insulated, signal cable.(From field device to DDC).
Polycab/ Finolex/ Fusion Polymer/ Varsha/ Bonton/ KEI
16.0
3 core 1.5 Sq.mm armoured twisted pair, annealed tinned copper multistrand conductor PVC insulated cable.
Polycab/ Finolex/ Fusion Polymer/ Varsha/ Bonton/ KEI
17.0
3 core 1.5 Sq.mm twisted, annealed tinned copper multistrand conductor PVC insulated power cable.
Polycab/ Finolex/ Fusion Polymer/ Varsha/ Bonton/ KEI
18.0 4-pair Cat-6 solid insulated copper UTP cable
Polycab/ Finolex/ Fusion Polymer/ Varsha/ Bonton/ KEI
B) CHILLER/ PUMPS/ COOLING /TOWER SYSTEM :
1.0
Supply, installation, testing & commissioning of the following field sensors:-
2
Immersion type temperature sensor for measuring chilled water & condenser water temperature at the inlet & outlet of the chiller, condenser and cooling tower.
Honeywell/ Alerton/ Spyder
3
Flow meter for measuring the chilled water through the common header. (Ultrsonic type)
Shenitech/Honeywell
4
Differential pressure switches across the pumps for indicating the pump status.
Honeywell/ Alerton/ Spyder
5 Level switches for cooling tower /make up water tank high & low.
Veskler/ Sontay/ Filpro
6 Current relay for cooling tower fan run status.
Situ/Setco/ABB
7 PH monitoring of cooling tower sump water
Triton/Omicron
8 TDS monitoring of cooling tower sump
Triton/Omicron
9 Duct mounted temperature sensor for supply air temperature.
Honeywell/ Alerton/ Spyder
10 Duct mounted temperature sensor for return air temperature.
Honeywell/ Alerton/ Spyder
11 Differential pressure switches for monitoring Honeywell/ Alerton/ Spyder
Page 37 of 42
the air filter status.
12
Differential pressure switches across the blower for indicating the fan status.
Honeywell/ Alerton/ Spyder
13 Sensors for measuring outside air temperature & relative humidity.
Honeywell/ Alerton/ Spyder
14 Current relays ( for ventilation & Exhaust Fans)
Honeywell/ Alerton/ Spyder
15 current relays (for air washer)
Honeywell/ Alerton/ Spyder
16 Differential pressure switch for Air Washer pump run status.
Honeywell/ Alerton/ Spyder
17 Level switches (DPDT type) for tanks.
Honeywell/ Alerton/ Spyder
18 Differential pressure switch for pump status.
Honeywell/ Alerton/ Spyder
19 Current relays Situ/Setco/ABB
20
Flow meter for measuring the raw water in fire tank (Ultrasonic type)
Shenitech/Honeywell
21 Pressure Transmitter Honeywell/ Alerton/ Spyder
22 Flame proof level switch Veskler/ Sontay/ Filpro
23 Fuel flow switch Greisinger/Honeywell
24 Fuel flow meter Greisinger/Honeywell
VII) DATA POINTS SUMMARY FOR BUILDING MANAGEMENT SYSTEM
S.No. Function Qty AI DI AO DO Remarks
A) Chilled water system
1 Water Cooled Centrifugal Chillers with VFD 4
Chiller On / Off command 4 Relay output
Common Chilled water supply / condenser water supply header temperature
2 Immersion Type Temperature Sensor
Common Chilled water return / condenser water return header temperature
2 Immersion Type Temperature Sensor
Chilled water return header flow rate 1 Electromagnetic type Flowmeter
Auto Manual Switch 4 Potential free contacts of selector switch.
Chiller microprocessor (software) integration for Chiller-intrinsic parameter monitoring and VFD Integration with BMS
Software connectivity
Page 38 of 42
Sub Total for Water Cooled Centrifugal Chillers with VFD
5 4 0 4
2 Primary Chilled Water Pumps (3W + 1S) 4
Primary Chilled Water Pump on / off command
4 Relay output
Primary Chilled water Pump run Status 4 Differential Pressure Switch
Primary Chilled water Pump trip Status 4 Potential free contacts of contactor.
Auto Manual Switch 4 Potential free contacts of selector switch.
Sub Total for Primary Chilled Water Pumps (3W + 1S)
0 12 0 4
3 Secondary Chilled Water Pumps & VFD (6W + 3S)
9
Variable speed pumping system start/stop 9 Relay output in VSPS panel for each set of pump.
Auto Manual Switch 9 Potential free contacts in VSPS.
Secondary CHW Pumps microprocessor (software) integration for intrinsic parameter control & monitoring
Software connectivity panel for each set of pump
Sub Total for Secondary Chilled Water Pumps & VFD (6W + 3S)
0 9 0 9
4 Condenser Water Pumps (3W + 1S ) 4
Condenser Water Pump on / off command 4 Relay output
Condenser Water Pump run Status 4 Differential Pressure Switch
Condenser Chilled water Pump trip Status 4 Potential free contacts of contactor.
Auto Manual Switch 4 Potential free contacts of selector switch.
Sub Total for CDW pumps 0 12 0 4
5 Cooling Tower (AC) (3W + 1S ) 4
Cooling Tower fans on / off command 4 Relay output
Cooling Tower fan run status 4 Current relay
Trip Status 4 Potential free contacts.
Cooling Tower sump water (low/high level) 8 Level Switch
CT Make Up Water Tank Level (high/low) 2 Level Switch
Auto manual switch
4 Potential free contacts of selector switch.
Sub Total for Cooling Tower (AC) 0 22 0 4
Sub Total for Chilled water system 5 59 0 25
B) AHUs/TFA/FCUs/Ventilation Systems
Page 39 of 42
1 OUTSIDE AIR TEMPERATURE AND HUMIDITY:
Outside air relative humidity monitoring 1 Outside Air RH Sensor
Outside air temp monitoring 1 Outside Air Temp Sensor
Sub Total for Outside Air Temp. and Humidity
2 0 0 0
2 Horizontal AHU's with Mixing Box 19
Fan Start/Stop 19 Relay output
Return Air Filter Status 19 Diff. Pressure Switch - Air
Run Status 19 Diff. Pressure Switch - Air
Return Air Temperature monitoring 19 Duct mount temp sensor
2 Way Modulating Valve for Chilled water Line.
19 Output signal from the DDC Controller
Auto manual selector switch
19 Potential free contacts of selector switch.
Sub Total for Horizontal AHU's with Mixing Box
19 57 19 19
3 AHUs (ceiling suspended) with Mixing Box 28
Fan Start/Stop 28 Relay output
Return Air Filter Status 28 Diff. Pressure Switch - Air
Run Status 28 Diff. Pressure Switch - Air
Return Air Temperature monitoring 28 Duct mount temp sensor
2 Way Modulating Valve for Chilled water Line.
28 Output signal from the DDC Controller
Auto manual selector switch
28 Potential free contacts of selector switch.
Sub Total for AHUs (ceiling suspended) with Mixing Box
28 84 28 28
4 TFA with Mixing Box 10
TFA on / off command 10 Relay output
TFA air flow/filter status 10 Diff. Pressure Switch - Air
TFA Fan run Status 10 Diff. Pressure Switch - Air
Supply Air Temperature monitoring 10 Duct mount temp sensor
2 Way Modulating Valve for Chilled water Line.
10 Output signal from the DDC Controller
Auto manual switch
10 Potential free contacts of selector switch.
Sub Total for TFA with Mixing Box 10 30 10 10
5 Fan Coil Units 31
FCU start/stop Relay output
Room temperature sensor with setpoint override
Communicating type room temperature control unit
Page 40 of 42
Chilled / Hot Water Valve start/stop
Communicating type room temperature control unit
Sub Total for Fan Coil Units 0 0 0 0
6 VENTILATION AND EXHAUST FANS: 62
Fan run status 62 Current relay
Fan Start/Stop 62 Relay output
Sub Total for Ventilation/Exhaust Fan 0 62 0 62
7 AIR WASHERS SPRAY TYPE 4
Air Washer Start/Stop 4 Relay output
Air Washer run Status 4 Current relay
Air Washer pump run Status 4 Differential pressure switch
Sub Total for Air Washers 0 8 0 4
Sub Total for AHUsTFA/FCUs/Ventilation Systems
59 241 57 123
C) PLUMBING/FIRE FIGHTING / STP/WTP
1 Water treatment plant and tanks
Underground Water Tank & Sumps High/low Level Monitoring
7 14 Level Switch
Overhead Water Tank High/low Level Monitoring
12 24 Level Switch
Flow measurement in the inlet header of Fire/Raw water tank
1 Electromagnetic type Flow meter
Pumps Status (WTP) 3 Differential pressure switch
Pumps Start/Stop(WTP) 3 Relay output.
Pump auto manual selector switch(WTP) 3 Potential free contacts.
Sub Total for Water treatment plant and tanks 1 44 0 3
2 Water Bodies
Pump Start/Stop 2 Relay output
Pump Status 2 Current Relay
Pump Auto manual selector switch 2 Potential free contacts.
Sub Total for Water Bodies 0 4 0 2
3 HSD Storage and supply system
Day oil tank Tank(6) High/Low Level 12
Flameproof Level Switch / controllers by others
HSD Pump Start/Stop 4 Relay output.
HSD Transfer Pump Status 4 Current relay
HSD Fuel Flow Status 4 Fuel Flow Switch.
HSD Fuel Flow Meter 3
Fuel Flow Meter (By HSD Contractor).
Auto Manual Switch 4
Potential free contactsof selector switch
Page 41 of 42
Sub Total for HSD Storage and supply system 0 27 0 4
4 Hydro-Pneumatic System 4
VFD Start/Stop
4 Potential free contacts in VSPS panel for each set of pumps
VFD auto manual selector switch 4 Potential free contacts.
Variable speed Pump System integration with BMS
Software connectivity
Sub Total for Hydro-Pneumatic System 0 4 0 4
5 Sump pump
Sump Pump Start/Stop 4 Relay output
Sump Pump Status 4 Current Relay
Sump pump Auto manual switch 4 Potential free contacts.
Sub Total for Sump Pumps 0 8 0 4
6 Sewage Treatment Plant (STP)
Pump/Air Blower Start/Stop 12 Relay Output
Pump/Air Blower Run Status 12 Current Relay
Auto/Manual Selector Switch 12 Potential Free Contacts
Sub Total for Sewage Treatment Plant 0 24 0 12
7 Fire Protection System
Main Fire Pump Run Status 1 1
Differential pressure switch
Diesel Fire Pump Run Status 1 1
Differential pressure switch
Jockey Pump Run Status 2 2
Differential pressure switch
Sprinkler Pump Run Status 1 1
Differential pressure switch
Water Header pressure 1 Pressure Transmitter
Sub Total for Fire Protection System 1 5 0 0
Sub Total for PLUMBING/FIRE FIGHTING / STP/WTP
2 116 0 29
D) DG SETS, TRANSFORMERS & FIRE ALARM
1 DG SETS (5 Nos.) 5
DG sets panel integration with BMS for intrinsic parameter monitoring.
Software Integration
Sub Total for DG SETS 0 0 0 0
2 Transformers (4 Nos.) 4
Breakers status 4 Potential free contacts
Current, Voltage, KWh, KVA, Pf, Frequency Monitoring
Integration with Multi function energy meter
Page 42 of 42
Energy consumption
Integration with Multi function energy meter
Bus Coupler status 5 Potential free contacts
Sub Total for Transformers 0 9 0 0
3 Lifts 22 Nos. & Escalator - 2 Nos. 24
Lift intrinsic parameter monitoring through software integration.
Software integration
Sub Total for Lifts 0 0 0 0
4 Fire Alarm System
Fire Alarm System microprocessor (software) integration for monitoring
Software integration
Sub Total for Fire Alarm System 0 0 0 0
5 HT Panel (3) 3
Breaker Status 13 Potential free contacts
Sub Total for Fire Alarm System 0 13 0 0
6 LT Panel (2) 2
Breaker Status 36 Potential free contacts
Sub Total for Fire Alarm System 0 36 0 0
Sub Total for DG SETS , TRANSFORMERS & FIRE ALARM
0 58 0 0
GRAND TOTAL 66 474 57 177
Total Number of Data Points 774
TENDER SPECIFICATION FOR ACTIVE SWITCHING
COMPONENTS PREFERED MAKE: CISCO/JUNIPER/ALLIED TELESIS/ALCATEL
All Active Switching Component, FO Module , NMS will from Same OEM
SN. Specification For Core Switch Compliance
YES/NO
Remarks
A Managed Core Switch
1 Port Density and Architecture
a Switch should be of non-blocking architecture for all ports
from day 1
b Chassis /Modular Switch should have minimum 8 universal
slots
c The Switch should support Active – Active Cluster switching
technology using VSS or equivalent technology. The proposed
VSS or equivalent technology should support high availability
for both Layer 2 and Layer 3 (RIP, RIPng, OSPF, OSPF v3)
Including for IP Multicasting (PIM v4,PIM v6) for CCTV video
and VOIP applications.
d The proposed VSS or equivalent technology should support
seamless switch over of traffic between the chassis in case of
any kind of link or hardware failure to ensure no traffic
disruption for real time voice and video applications.
e The provision for VSS or equivalent Link or interconnection
between 2 Chassis Switches should be of min.40Gbps with no
single point of failure between the links. Interface/ port
/card/software for the same should be provided from day 1.
f The switch should have following interface configuration from
day1:
a) 48 X GE UTP interface b) 6 X 10GbE SFP+ interface
2 Performance
a 350Mpps or higher forwarding rate.
b Extensive wire-speed traffic classification for ACLs and QoS
c Support Jumbo frame
d Support Wire-speed multicasting
e 620 Gbps or higher Switching Fabric
f Min. 64K MAC addresses , support 4096 VLANs
g Switch should have inbuilt mechanism for proactively
monitoring about any malfunction like power supply or internal
temperature (full internal environment).
3 Reliability
a Dual hot swappable PSUs with 1 + 1 redundancy (Populated)
b Hot-swappable modules
c Hot swappable fan modules
4 Standards
a IEEE 802.2 (LLC)
b IEEE 802.1v VLAN classification
c IEEE 802.1Q
d IEEE 802.1ad (Q-in-Q),VLAN stacking
e IEEE 8023ae
f IEEE 802.3x flow control
g IEEE 802.3z (1000 Base X)
h IEEE 802.1p Priority Tagging
i IEEE 802.3ab
j IEEE 802.3an (10 Base T)
5 Resiliency
a STP, RSTP, MSTP (801s)
b Link Aggregation (803ad) groups
c Loop Protection and Loop Detection
d Sub 50Ms Resiliency for 10G ring based design as per the IEEE
802.17/RPR / ERPS or equivalent technology
e The proposed Ring protection technology shall have the high
reliability functionality to handle dual failures and ensure the
convergence of less than 50ms in case of more than one link
broken in the ring.
f The proposed Ring protection technology shall be capable of
handling data loop whose path traverse more than a single ring
and the loop occurs when there is a break in a physical segment
that is shared by two rings.
6 Routing
a Should support RIP and RIPng from day 1
b Should support VRRP and VRRPv3 from Day 1
c Should support OSPF and OSPFv3 from day 1
d Should support BGP and BGP4 for IPv6 from day 1
e Support Virtual Routing and Forwarding (VRF) and Equal Cost
Multi-Path (ECMP) routing from day 1
7 IPv6 Features:-
a IPv4 and IPv6 Dual Stack
b IPv6 Management ,IPv6 ACL (hardware based)
c SNMPv6,Telnet v6,SSHv6
d NTPv6 Client and server (for time synchronization)
e RFC 2464 for IPv6 packet transmission over Ethernet network
f Neighbor Discovery for IPv6
g RFC 4862 (SLAAC)
h RFC 3596 DNS Extension
i Internet Control Message protocol (ICMPv6)
k Should support IPv6 Addressing Architecture
8 Multicast Support
a Bootstrap Router for IGMP v1,IGMP v2, IGMPv3,IGMP Query
Solicitation ,MLD Snooping (MLDv1,MLDv2), MLD for
IPv6,PIMv4-SM,PIM-DM,PIM-SSM
b RFC 4607 Source specific multicast
c Interoperability Rules for Multicast Routing Protocols
9 Security
a Support 802.1x support
b Should Support Dynamic & Private VLANs , Guest VLAN
c Network Access and Control (NAC) features or equivalent to
manage end point security
d BPDU Protection and STP Root Guard, Access Control List based
on Layer 3 and layer 4, Dynamic VLAN
e RFC 2865 RADIUS, TACACS + and RFC 2866 RADIUS accounting
f Should support MAC address filtering and MAC limiting
functionality.
g The switch should support detection of Denial of Service (DoS)
attack.
h MD5 Message-Digest algorithm , IP authentication using keyed
MD5
10 Quality of Service
a Policy based QoS features
b traffic classification on priority requirement
c Mixed scheduling or equivalent to support complex traffic
queuing requirements
d 8 QoS queues per port and support Voice VLAN,LLDP-MED
e Diffserv, Strict Priority, Round Robin.
f Access Control Lists (ACLs) and IEEE 802.1p Priority Tagging
11 Management :
a GUI, Telnet, Industry-standard CLI with built-in Help-menu
b Should support software release files, configuration and other
files to be stored for backup with SD card or USB drives.
c Port mirroring and RMON ( 4 Groups)
d Out of band 10/100/1000 Ethernet management port and
console management port
e SSH and SNMPv3 for secure management, DDM – Optical digital
diagnostic monitoring as per SFF – 8472 or equivalent
standards
f NTP , Syslog and sFlow or equivalent
12 Electrical Approvals and Compliances
a Restrictions on Hazardous Substances (RoHS) Compliance and
Energy Efficient Ethernet compliant (EEE) compliance
B. Distribution Switch
S.No Technical specification Compliance
(Yes / NO)
Remarks
1 Advanced Multi Layer switch.
a
48 * 10/100/1000T with Min 4 * SFP + Ports to
accommodate 1G or 10 G fiber module (single mode
/multimode) for flexibility to choose.
b IEEE 802.1AX Link aggregation (static and LACP)
c IEEE 802.3ad Static and dynamic link aggregation
d IEEE 802.3x Flow control - full duplex operation
e
Should support Active – Active Clustering - VSS or
equivalent technology for high availability and quick
resiliency. Card/Interface/Port/software/cable should be
provided from day one.
f
The provision for VSS or equivalent Link or
interconnection between 2 Switches should be of
min.40Gbps with no single point of failure between the
links
g
The proposed VSS technology or equivalent should
support high availability for both Layer 2 and Layer 3
(RIP, RIPng, OSPF, OSPF v3) Including for IP Multicasting
(PIM v4,PIM v6) for CCTV video applications.
h
The VSS or equivalent technology should support real
time data mirroring on diversified location (min 800
Meters) as required.
i
The switch must support Internal load sharing Dual
power supplies , vendors shall propose for Internal
Redundant PSU ' s
j
The proposed VSS or equivalent technology shall support
Link Aggregation between different members in an Active
– Active cluster for high reliability
k
The switch shall be POE / POE + Compliant in accordance
to IEEE standards 802.3af and 802.3at .Min PoE power
Budget should be min 370 watt.
2 Performance Specifications
a Min 176Gbps of switching capacity
b Min 130 Mpps Switching throughput
c Min 16K Address Table
3 Resiliency
a
Sub 50Ms Resiliency for 10G ring based design as per the
IEEE 802.17/RPR / ERPS or equivalent technology
b
The proposed Ring protection technology shall have the
high reliability functionality to handle dual failures and
ensure the convergence of less than 50ms in case of more
than one link broken in the ring.
c
The proposed Ring protection technology shall be capable
of handling data loop whose path traverse more than a
single ring and the loop occurs when there is a break in a
physical segment that is shared by two rings.
d Loop Detection and Loop protection
e Control Plane Prioritization (CPP)
f Dynamic link failover
g Should Support VRRP v2 and VRRP v3
h RSTP , MSTP
4 VLAN
a VTP / GVRP
b VLAN creation based on protocol ,Port and Subnet based
c IEEE 802.1Q Virtual LAN
d Q In Q
e Up to 4K configurable VLAN ' s
5 Layer 3 Features
a
Equal Cost Multi Path (ECMP) routing, PIMv4-SM, PIM-
DM, PIM-SSM – from day one.
b
RIP v2 , OSPF v2, OSPF v3, ECMP(Equal Cost Multipath) -
from day one.
c OSPF Graceful restart
d Policy-based routing
e Route redistribution (OSPF, RIP)
f ICMP router discovery messages
g Classless Inter-Domain Routing (CIDR)
h Domain Name System (DNS) and DNS Relay
i RIPng for IPv6 from day one
j PIMv6-SM and OSPF v3 Graceful restart
k DHCP Client / Relay
l DHCP Server
6 Security
a Access Control Lists (ACLs)
b
Guest VLANs for enforcing security policies
c BPDU protection
d
DHCP snooping, IP source guard and Dynamic ARP
Inspection (DAI)
e IP source guard or equivalent
f Dynamic ARP Inspection (DAI)
g
Dynamic allocation of multiple VLAN s on one port for
different user/devices
h
Network Access and Control (NAC) features or equivalent
to manage end point security
i
Port-based learn limits (intrusion detection) or
equivalent
j MAC address filtering and MAC address lock-down
k Private VLANs provide security and port isolation
l Secure Copy (SCP)
m Strong password security and encryption
n MAC-based, web-based IEEE 802.1x authentication
O IEEE 802.1x with Web Authentication client monitoring
P SSH , SSLv2 ,SSLv3 , SCP
Q TACACS+ accounting and authentication
R DoS attack blocking
S RSTP Root Guard
t
MD5 Message-Digest algorithm, IP authentication using
keyed MD5.
7 Quality of service
a IEEE 802.1p
b DSCP Prioritization
c
Policy-based QoS based classifying traffic based on MAC ,
Port , VLAN , Protocol .
d ASIC based remarking capabilities
e Tail drop for queue congestion control
f Strict priority/ weighted round robin
9 IPv6 Features
a Path MTU discovery for IPv6
b IPv6 Router Discovery
c IPv6 Router Advertisement
d IPv6 Router Advertisement Guard
e Transmission of IPv6 packets over Ethernet networks
f Default address selection for IPv6
g DNS extensions to support IPv6
h Unique local IPv6 unicast addresses
i Internet Control Message Protocol (ICMPv6)
j Neighbor discovery for IPv6
k IPv6 Stateless Address Auto-Configuration (SLAAC)
l IPv6 Router Advertisement (RA) flags option
m IPv6 Router Advertisement (RA) guard
n IPv4 and IPv6 Dual stack
o DHCP Client / Relay for IPv6
p DHCP server for IPv6
10 Management Features
a SNMPv1, v2c and v3
b IEEE 802.1AB Link Layer Discovery Protocol (LLDP)
c Web GUI
d
sFlow or equivalent
e Industry-standard CLI with help menu and GUI
f CLI script option
g Built-in text editor
h User-based Security Model (USM) for SNMPv3
i
View-based Access Control Model (VACM) for SNMP
j Console management port
k
Port mirroring locally within switch and across VSS or
equivalent cluster member
l
TFTP , NTP And Syslog,
m
An USB or equivalent memory card socket , allowing
software release files, configuration and other files to be
stored for backup and distribution to other switches
n
DDM – Optical digital diagnostic monitoring as per SFF –
8472 or equivalent standards
0 Built in Self-Test
11 Multicast Support
a IGMP query solicitation
b IGMP snooping v1 , v2 and v3
c IGMP Querier and IGMP Snooping Quereier
d MLD snooping (v1 and v2)
e MLD Querier
f
IGMP/MLD multicast forwarding (IGMP/MLD proxy) ,
IGMP Snooping Fast - leave , IGMP Filtering , IGMP
snooping report suppression , IGMP source address check
, IGMP static entries
g PIM neighbor filtering
h
PIM for IPv6 , MLD Filtering , MLD Snooping fast leave ,
MLD snooping static mrouter ports , MLD snooping
report suppression
i PIM - SSM
12 Pro Active Intelligence features
a
Event-based triggers allow user-defined scripts to be
executed upon selected system events based on Time ,
Date , day and Event based
b
The switch shall have pro active intelligence to create an
ICMP polling for service reachability based on IP address
and configure pro active action upon loss or re
establishment of the service reachability
c
Eco-friendly mode
d
Switch should have inbuilt mechanism for proactively
monitoring about any malfunction like power supply or
internal temperature (full internal environment).
13 Voice over IP
a LLDP-MED ANSI/TIA-1057
b Voice VLAN
14 Compliances
a ROHS compliant is must
b IEEE 802.3az Energy Efficient Ethernet (EEE)
c UL, cUL, TUV
C. Access Switch: (Type 1)
S.No Technical specification Compliance
(Yes / NO)
Remarks
1 Managed Access switch.
a
48 * 10/100/1000T with Min 4 * SFP + Ports to
accommodate 1G or 10 G fiber module (single mode
/multimode) for flexibility to choose.
b IEEE 802.1AX Link aggregation (static and LACP)
c IEEE 802.3ad Static and dynamic link aggregation
d IEEE 802.3x Flow control - full duplex operation
e
Should support stacking for minimum 4 Nos of switches
to be managed by a single IP . Should have flexibility for
stacking on min 800 meters distance between members
of individual stack switches as required.
f Link aggregation across stack member
g Port Mirroring across stack member
h
The switch must support Internal load sharing Dual
power supplies , vendors shall propose for Internal
Redundant PSU ' s
i The switch shall be POE / POE + Compliant in
accordance to IEEE standards 802.3af and 802.3at .Min
PoE power Budget should be min 370 watt.
2 Performance Specifications
a Min 176Gbps of switching capacity
b Min 130 Mpps Switching throughput
c Min 16K Address Table
3 Resiliency
a Sub 50Ms Resiliency for 10G ring based design as per
the IEEE 802.17/RPR / ERPS or equivalent technology
b
The proposed Ring protection technology shall have the
high reliability functionality to handle dual failures and
ensure the convergence of less than 50ms in case of
more than one link broken in the ring.
c
The proposed Ring protection technology shall be
capable of handling data loop whose path traverse more
than a single ring and the loop occurs when there is a
break in a physical segment that is shared by two rings
d Loop Detection and Loop protection
e Control Plane Prioritization (CPP)
f Dynamic link failover
g VRRP v2 and VRRP v3 Scalable
h RSTP , MSTP
4 VLAN
a VTP / GVRP
b VLAN creation based on protocol ,Port and Subnet based
c IEEE 802.1Q Virtual LAN (VLAN) bridges
d IEEE 802.3ac VLAN tagging
e Q In Q scalable
f Up to 4K configurable VLAN ' s
5 Scalable Layer 3 Features
a
The proposed access switch shall be scalable to a full
layer 3 switch supporting routing protocols RIP, OSPF,
RIPng , PIM and other Layer 3 Multicasting features
without changing the base hardware for future
scalability / further expansion of the network.
6 Security
a Access Control Lists (ACLs)
b Guest VLANs for enforcing security policies
c BPDU protection
d DHCP snooping
e IP source guard
f Dynamic ARP Inspection (DAI)
g Dynamic allocation of multiple VLAN s on one port for
different user/devices
h Network Access and Control (NAC) features or
equivalent to manage end point security
i Port-based learn limits (intrusion detection)
j MAC address filtering and MAC address lock-down
k Private VLANs provide security and port isolation
l Secure Copy (SCP)
m Strong password security and encryption
n MAC-based, web-based IEEE 802.1x
p SSH , SSLv2 ,SSLv3 , SCP
p TACACS+ accounting and authentication
q DoS attack blocking
r RSTP Root Guard
s MD5 Message-Digest algorithm , IP authentication using
keyed MD5
7 Quality of service
a IEEE 802.1p
b DSCP Prioritization
b Policy-based QoS based classifying traffic based on MAC
, Port , VLAN , Protocol .
c ASIC based remarking capabilities
d Taildrop for queue congestion control
e Strict priority/ weighted round robin
8 IPv6 Features
a Path MTU discovery for IPv6
b IPv6 Router Discovery
c IPv6 Router Advertisement
d IPv6 Router Advertisement Guard
e Transmission of IPv6 packets over Ethernet networks
f Default address selection for IPv6
g DNS extensions to support IPv6
h Unique local IPv6 unicast addresses
i Internet Control Message Protocol (ICMPv6)
j Neighbor discovery for IPv6
k IPv6 Stateless Address Auto-Configuration (SLAAC)
l IPv6 Router Advertisement (RA) flags option
m IPv6 Router Advertisement (RA) guard
n IPv4 and IPv6 Dual stack
o DHCP Client / Relay for IPv6
p DHCP server for IPv6
9 Management Features
a SNMPv1, v2c and v3
b IEEE 802.1AB Link Layer Discovery Protocol (LLDP)
c Web GUI
d sFlow or equivalent
e Industry-standard CLI
f CLI script option
g Built-in text editor
h User-based Security Model (USM) for SNMPv3
i View-based Access Control Model (VACM) for SNMP
j Console management port
k Port mirroring locally with in switch and across
different stack member in a stack
l TFTP , NTP And Syslog
m
An USB or equivalent memory card socket , allowing
software release files, configuration and other files to be
stored for backup and distribution to other switches
n DDM – Optical digital diagnostic monitoring as per SFF –
8472 or equivalent standards
o Built in Self Test
10 IPv6 Management features
a SNMP v6 , Telnet v6 , SSH v6 , NTP v6 and Trace Route
v6
11 Multicast Support
a IGMP query solicitation
b IGMP snooping v1 , v2 and v3
c IGMP Querier and IGMP Snooping Querier
12 Pro Active Intelligence features
a
Event-based triggers allow user-defined scripts to be
executed upon selected system events based on Time ,
Date , day and Event based
b
The switch shall have pro active intelligence to create an
ICMP polling for service reachability based on IP address
and configure pro active action upon loss or re
establishment of the service reachability
c Eco-friendly mode
d
Switch should have inbuilt mechanism for proactively
monitoring about any malfunction like power supply or
internal temperature (full internal environment).
13 Voice over IP
a LLDP-MED ANSI/TIA-1057
b Voice VLAN
14 Compliances
a ROHS compliant is must
b IEEE 802.3az Energy Efficient Ethernet (EEE)
c UL, cUL, TUV
D. Access Switch: (Type 2)
S.No Technical specification Compliance
(Yes / NO)
Remarks
1 Managed Access switch.
a
24 * 10/100/1000T with Min 4 * SFP + Ports to
accommodate 1G or 10 G fiber module (single mode
/multimode) for flexibility to choose .
b IEEE 802.1AX Link aggregation (static and LACP)
c IEEE 802.3ad Static and dynamic link aggregation
d IEEE 802.3x Flow control - full duplex operation
e
Should support stacking for minimum 4 Nos of switches
to be managed by a single IP . Should have flexibility for
stacking on min 800 meters distance between members
of individual stack switches as required.
f Link aggregation across stack member
g Port Mirroring across stack member
h
The switch must support Internal load sharing Dual
power supplies , vendors shall propose for Internal
Redundant PSU ' s
2 Performance Specifications
a Min 128Gbps of switching capacity
b Min 95 Mpps Switching throughput
c Min 16K Address Table
3 Resiliency
a Sub 50Ms Resiliency for 10G ring based design as per
the IEEE 802.17/RPR / ERPS or equivalent technology
b
The proposed Ring protection technology shall have the
high reliability functionality to handle dual failures and
ensure the convergence of less than 50ms in case of
more than one link broken in the ring.
c
The proposed Ring protection technology shall be
capable of handling data loop whose path traverse more
than a single ring and the loop occurs when there is a
break in a physical segment that is shared by two rings
d Loop Detection and Loop protection
e Control Plane Prioritization (CPP)
f Dynamic link failover
g VRRP v2 and VRRP v3 Scalable
h RSTP , MSTP
4 VLAN
a VTP / GVRP
b VLAN creation based on protocol ,Port and Subnet based
c IEEE 802.1Q Virtual LAN (VLAN) bridges
d IEEE 802.3ac VLAN tagging
e Q In Q scalable
f Up to 4K configurable VLAN ' s
5 Scalable Layer 3 Features
a
The proposed access switch shall be scalable to a full
layer 3 switch supporting routing protocols RIP, OSPF,
RIPng , PIM and other Layer 3 Multicasting features
without changing the base hardware for future
scalability / further expansion of the network.
6 Security
a Access Control Lists (ACLs)
b Guest VLANs for enforcing security policies
c BPDU protection
d DHCP snooping
e IP source guard
f Dynamic ARP Inspection (DAI)
g Dynamic allocation of multiple VLAN s on one port for
different user/devices
h Network Access and Control (NAC) features manage or
equivalent end point security
i Port-based learn limits (intrusion detection)
j MAC address filtering and MAC address lock-down
k Private VLANs provide security and port isolation
l Secure Copy (SCP)
m Strong password security and encryption
n MAC-based, web-based IEEE 802.1x
p SSH , SSLv2 ,SSLv3 , SCP
p TACACS+ accounting and authentication
q DoS attack blocking
r RSTP Root Guard
s MD5 Message-Digest algorithm , IP authentication using
keyed MD5
7 Quality of service
a IEEE 802.1p
b DSCP Prioritization
c Policy-based QoS based classifying traffic based on MAC
, Port , VLAN , Protocol .
d ASIC based remarking capabilities
e Taildrop for queue congestion control
f Strict priority/ weighted round robin
8 IPv6 Features
a Path MTU discovery for IPv6
b IPv6 Router Discovery
c IPv6 Router Advertisement
d IPv6 Router Advertisement Guard
e Transmission of IPv6 packets over Ethernet networks
f Default address selection for IPv6
g DNS extensions to support IPv6
h Unique local IPv6 unicast addresses
i Internet Control Message Protocol (ICMPv6)
j Neighbor discovery for IPv6
k IPv6 Stateless Address Auto-Configuration (SLAAC)
l IPv6 Router Advertisement (RA) flags option
m IPv6 Router Advertisement (RA) guard
n IPv4 and IPv6 Dual stack
o DHCP Client / Relay for IPv6
p DHCP server for IPv6
9 Management Features
a SNMPv1, v2c and v3
b IEEE 802.1AB Link Layer Discovery Protocol (LLDP)
c Web GUI
d sFlow or Equivalent
e Industry-standard CLI
f CLI script option
g Built-in text editor
h User-based Security Model (USM) for SNMPv3
i View-based Access Control Model (VACM) for SNMP
j Console management port
k Port mirroring locally with in switch and across
different stack member in a stack
l TFTP , NTP And Syslog
m
An USB or equivalent memory card socket , allowing
software release files, configuration and other files to be
stored for backup and distribution to other switches
n DDM – Optical digital diagnostic monitoring as per SFF –
8472 or equivalent standards
10 IPv6 Management features
a SNMP v6 , Telnet v6 , SSH v6 , NTP v6 and Trace Route
v6
11 Multicast Support
a IGMP query solicitation
b IGMP snooping v1 , v2 and v3
c IGMP Querier and IGMP Snooping Querier
12 Pro Active Intelligence features
a
Event-based triggers allow user-defined scripts to be
executed upon selected system events based on Time ,
Date , day and Event based
b
The switch shall have pro active intelligence to create an
ICMP polling for service reach ability based on IP
address and configure pro active action upon loss or re
establishment of the service reach ability
c Eco-friendly mode
d
Switch should have inbuilt mechanism for proactively
monitoring about any malfunction like power supply or
internal temperature (full internal environment).
13 Voice over IP
a LLDP-MED ANSI/TIA-1057
b Voice VLAN
14 Compliances
a ROHS compliant is must
b IEEE 802.3az Energy Efficient Ethernet (EEE)
c UL, cUL, TUV
E. FO Module:
SN.
Specification Compliance
YES/NO Remarks
G 10G SFP+ Fiber Pluggable Module ( Single Mode)
a
Data Rate: 10 Gbps, Connector Type: LC, Wave Length:
1310nm,Distance Support: 10 KM
b
Should support Digital optical Monitoring, Hot Swappable, RoHS
Compliant
Environment
c
Operating Temperature: -5 To 70 Degree C, Operating
Humidity:0% to 85% (non-condensing)
F. Network Management Software:
SN.
Specification Compliance
YES/NO Remarks
J Specifications of NMS software:
a
Automatic topology discovery and creation of network
maps for Layer 3 and Layer 2 network , All the available
VLANS
b
Should have high level Network Inventory polling
capability for IP Network nodes, All available line cards ,
Modules , ports , Physical links , VLAN interfaces and all the
other SNMP capable devices in the network
c Should have powerful administration control
d Detailed performance monitoring and management
e
Should have extensive fault manage men capabilities with
Real time Event and Alarm notifications , System Logs and
Audit trials
f Creation and management of security and QOS policies
g Scheduled Device configuration back-up and restore
functionality
h
Automatic Detection of configuration changes for easy
trouble shooting and Isolation
i Should support 3rd party devices and end points
j
Should have the functionality of Group provisioning /
Scheduled configuration roll out management
k
Should have the ability to perform scheduled or
Unscheduled network wide software or Firmware
upgrades
l
Should have the ability to customize the NMS dash boards
as per the requirements
m Should have the ability to perform / create group of
devices for applying same task
n Should have extensive Event notification capability
o
Should provide the flexibility to the network administrator
to assign task to an Individual network engineer and
assign ownership / track the status of the issue resolution
p Should have extensive centralized trouble shooting tools in
built
q
The NMS solution should be preferably from the same
Active switching vendor , in case vendors proposing for
3rd party NMS solution should provide all the
interoperability reports certified by both the NMS vendor
and Active switching vendor on seamless interoperability
r
All the required Hardware / Software for the NMS solution
should be proposed by the bidder
G. AAA/RADIUS Server Solution:
SN.
Specification Compliance
YES/NO Remarks
a
Radius server should work in high available with N + 1 high
availability with no single point of failure.
b Support for 802.1X Based Device Authentication
c Support for MAC Based Authentication
d Captive portal Access
e Support for Certificate based authentication
f
Native Data base must support minimum 1000 end points
scalable to minimum 4500 end points
g
Should support Encryption based on Digital Signature
algorithm or equivalent functional encryption protocols
h Should be on Unix/Linux/BSD based.
i
Standards-based and vendor-agnostic, interfacing
seamlessly with network access equipment from different
vendors
j Should Adhere strictly to Radius/ AAA open standards
k Authentication Protocols to support EAP - TLS , TTLS , PAP
and MD 5
l
Should be compatible and interoperability, supporting
current and future network configurations
m
Should seamlessly integrate with the switching solution
proposed for AAA and Dynamic VLAN allocation for
roaming user profiles
n
Should support Dynamic Statistics and reports to track /
View all the authentication requests / track the duration of
user connection with Radius accounting
o
Provide high level visibility to Administrators to track who
logged onto or disconnected from the RADIUS server /
network
p Should support IPv6
q
The Radius server should be proposed in high available
mode with no single point of failure. In case of the primary
server failure the secondary server should seamlessly take
over with zero network disruption
r
The Radius server solution should be preferably from the
same Active switching vendor , in case vendors proposing
for 3rd party Radius server solution should provide all the
interoperability reports certified by both the RAIDUS server
vendor and Active switching vendor on seamless
interoperability
s
In case of 3rd party Radius solution , the OEM should have
local presence in India and also should authorize the bidder
participating