Submittal Honeywell

BUILDING MANAGEMENT SYSTEM

TS No: IITC/E/GLF/15/4985

Dated: 03rd Jan, 2016

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SUPPLIER

INTEGRA INTERNATIONAL TRADING & CONTRACTING W.L.L P.O.BOX : 24789 DOHA – QATAR TEL: 44369776 FAX: 44369376 E-Mail : [email protected]

PROJECT:-

CONSTRUCTION OF (2) NEW SCHOOLS AT DOHA & VILLAGES STAGE(10-A) PACKAGE#4

MANUFACTURER

CONSULTANT:-

KHATIB AND ALAMI

CLIENT:-

ASGHAL

MAIN CONTRACTOR:-

IMPERIAL TRADING & CONTRACTING CO. W.L.L


TECHNICAL SUBMITTAL FOR

CONSTRUCTION OF (2) NEW SCHOOLS AT DOHA & VILLAGES STAGE(10-A)

PACKAGE#4 SECTION 1 COMPANY PROFILE i. INTEGRA INTERNATIONAL ii. HONEYWELL

SECTION 2 ISO CERTIFICATE/QUALITY POLICY,

SECTION 3 HONEYWELL AUTHORIZATION LETTER SECTION 4 SCOPE OF WORK

SECTION 5 COMPLIANCE STATEMENT

SECTION 6 EQUIPMENT SCHEDULE

SECTION 7 I/O POINT SUMMARY

SECTION 8 BILL OF QUANTITY

SECTION 9 CONTROL SCHEMATICS


TECHNICAL SUBMITTAL FOR

CONSTRUCTION OF (2) NEW SCHOOLS AT DOHA & VILLAGES STAGE(10-A)

PACKAGE#4 SECTION 10 RISER DIAGRAM SECTION 11 PANEL DRAWINGS SECTION 12 PRODUCT DATA SHEET/

COUNTRY OF ORIGIN CERTIFICATES

SECTION 13 FORM OF GUARANTEE

SECTION 14 GRAPHIC SAMPLES

SECTION 15 PROJECT APPROVALS

SECTION 16 PROJECT REFERENCES

COMPANY PROFILE

INTEGRA INTERNATIONAL

Total Integrated Building Solutions

Integration:For our success. And yours.The Complete Building Solutions’ integration approach literally takes intelligent systems to a new level.

Our broad range of solutions, products, services and expertise allows us to offer customized and seamless

.

Now your systems can be monitored and managed

centrally. It doesn’t matter how many systems you

have, or how many you plan to install in

the future. From a cost-saving standpoint,

our Complete Building Solution offers:

• Lower infrastructure costs

• Lower installation costs

• Lower operating costs

In addition, you will simplify your life with a

centralized, non-redundant solution. And, of course,

realize considerable energy savings – the Complete

Building Solutions’ most important financial

advantage.

Intelligent

effectively facilties manage totransparent methods

S I N G L E - S O U R C E S O L U T I O N S

COMPLETE SOLUT IONS FOR ALL PHASES OF YOUR BU ILD ING SYSTEM L I FE -CYCLE

POWER DISTRIBUTION & MANAGEMENT

SWITCHGEAR

METERING & MONITORING

VARIABLE SPEED DRIVES

POWER QUALITY (UPS)

BUILDING AUTOMATION

HVAC

ELEVATORS

ENERGY MANAGEMENT

SECURITY

DIGITAL VIDEO MANAGEMENT

ACCESS CONTROL

INTRUSION DETECTION

LIGHTING

SCHEDULE-BASED LIGHTING CONTROL

FIRE AND LIFE SAFETY

MONITORING

SMOKE & ELEVATOR CONTROL

DESIGN &INSTALLATION

OPERATIONS &MAINTENANCE

EVALUATION& RETROFIT

A Complete Building Solution seamlessly manages all yourbuilding’s critical systems from a single source.

Case StudyINTEGRATION IMPROVES YOUR BOTTOM L INE

In an independent case study involving a 145,313 square-foot office building with 1,500 occupants,

a research team examined the costs of the traditional approach versus a fully integrated solution.

The systems integrated were:

• Structured Cabling

• Fire and Security

• Lighting Controls

• Building Controls

• Metering and Monitoring

As the results show, the cost-savings were significant – over 24 percent. Findings also show that an

integrated approach offers a broad range of commercial and technical benefits, including a single point of

contact, an efficient project hierarchy, easier equipment deployment and future proofing.

SOURCE: STRATEGIC ICT CONSULTING, APRIL 2005

T R A D I T I O N A L INTEGRATED A P P R O A C H A P P R O A C H D I F F E R E N C E

$ 2 , 4 6 4 , 6 9 3 $ 1 , 8 6 8 , 1 1 6 $ 5 9 6 , 5 7 7

RESULT: 24% SAVINGS

LIGHTING MONITORING & CONTROL

FIRE ALARM MONITORING

ELEVATOR CONTROL

ELECTRICAL DISTRIBUTION MONITORING & CONTROL

BUILDING AUTOMATION

AUTOMATED PARKING

VARIABLE FREQUENCY DRIVES

POWER MANAGEMENT & MONITORING

ENERGY MANAGEMENT

HVAC MONITORING CONTROL

SECURITY & ACCESS

DIGITAL VIDEO MANAGEMENT

POWER QUALITY CORRECTION & AVAILABILITY

Our Breakthroughs.Your Benefits.Multiple interfaces. Countless vendors and service providers.

Uncoordinated systems. Incompatible solutions. Operational

redundancies. Limited energy savings. Inefficient services.

The problems that arise from installing and managing

isolated building systems are endless. Even worse, the higher

energy costs that result from such inefficiencies continue to

drain – and waste – your energy dollars needlessly.

uilding Solution overcomes these problems.

Our fully integrated, centralized approach eliminates:

• Inconsistent communication and coordination between stand-alone systems

• Connectivity and operational problems caused by non-compatible interfaces and gateways from

multiple vendors, such as:

- Higher engineering and customization costs

- Incompatibility issues and the corresponding costs of new versions and product enhancements

- “Finger-pointing” between vendors when things go wrong

• The difficulty of learning, monitoring and servicing disparate technologies

• The extra management resources needed to maintain numerous isolated systems

With Complete Building Solutions, you replace complex problems with an energy-saving option that

increases your efficiency and minimizes your energy costs.

COMPLETE BUILDING SOLUTIONS BENEFITS

A SINGLE INTERFACE TO ALL YOUR SYSTEMS

MANAGEMENT OF SINGLE BUILDINGS, MULTI-CAMPUS,AND REMOTE SITES FROM A SINGLE COMPUTER

INTEGRATED SYSTEMS

REDUCED NEED FOR TRAINING

REALIZED ENERGY SAVINGS

IMPROVED REPORTING

ENHANCED OPERATIONS

CENTRALIZED ALARM MONITORING AND MANAGEMENT

LABOR SAVINGS/PRODUCTIVITY GAINS

COORDINATED BEHAVIOR ACROSS MULTIPLE SYSTEMS

IMPROVED COMFORT

TRADITIONAL PROBLEMS

MULTIPLE INTERFACES, VENDORS & SERVICE PROVIDERS

FACILITIES MANAGED SEPARATELY

SYSTEM INCOMPATIBILITIES

TRAINING REQUIRED ON MULTIPLE SYSTEMS

INCREASED ENERGY COSTS

MULTIPLE & INCONSISTENT REPORTS

OPERATIONAL INEFFICIENCIES

ISOLATED ALARM NOTIFICATION

LABOR INTENSIVE

ISOLATED SYSTEMS

FREQUENT OCCUPANT COMPLAINTS

One Team, Many Benefits.Complete Building Solutions is a well-planned and centrally managed offering that will make a major

impact and cost-cutting contribution to your building’s operations – not just in the beginning, but over

the entire lifetime of your integrated system.

With Complete Building Solutions, you have:

• One sales team

• One design team

• One installation team

• One service team

• A single point of contact

for all products and

services

• Reduced administrative

costs

• Better communication

and coordination

• Shorter lead times for

design, deployment and

testing

• Centralized engineering resources to oversee:

- Standardized solutions

- Alarm management of multi-building locations

• Volume product purchasing for:

- Reduced equipment costs

- Faster turnaround

- Better quality control

• A fully integrated system, customized to your own, specific needs

Unlike isolated power, automation, engineering and service providers, our Complete Building Solution

handles virtually all of your facility’s automated management needs. And we do so faster and easier than

was ever possible with the traditional “silo” approach.

Shahjan & .Integra Perfect Partners.You have known and trusted Integra Sjhahjann & Internationa for years as fast growing broad offercompanies, we

range of solutions, products and services that will earn your trust as well. Our core offerings include:

BUILDING AUTOMATION

in association work,We manufactures of reputable with building management systems to improve indoor

environments, reduce operating costs, and provide flexibility and ease of operation. Based on industrystandard

protocols, i.e. LONWORKS ® and BACnet®, our open architecture allows interoperability with third-party

systems and provides building managers the freedom to choose a variety of building management

applications. S ystems can monitor and control both individual properties and entire building complexes,

regardless of the size or number of buildings – or how many miles apart.

SECURITY

We design, service implement and

comprehensive building security solutions that

integrate electronic card access, intrusion detection,

photo badging and digital video management.

Our solution eliminates the server and moves

access and functions to the workstation level,

protecting against a central point of failure. Our

approach reduces system vulnerability to attack, and

lowers maintenance and installation costs. The

system also integrates with ELVmultiple systems, offering true interoperability.

FACIL ITY ENERGY & SOLUTIONS

acquisition, data in steps higher go we Complex & Large facilitiesFor

utilize

One

Interconnection to S Bu ystemss all & sPLC, DDC,s,

bills energy in reduction &

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effective cost visibility, greater management,

effective to lead will Automation of islands separate for Paltform

Management. Asset Automated Predictive &

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Facility Aided(ComputerCAFM ERP, i.e. systems

commercial into data the direct recepient, right the to information right the

bring

to subsystems various integrate to software robust advanced

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LargestOPC

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Modelers Protocol Management Alarm &

tools Reporting & Servers MS-SQL on based Histtorian

Toolkits Servers Access

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IPC

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System

handling Call

Processing

SYSTEM COMMUNICATION UNIF IED

MULT IMEDIAINTERACTIVE

Intuituitive

Solutions

Fully

Saclable

sessions.

multicast or unicast as distributed streaming videp

quality,

DVD including supported are services TV

interactive digital all that ensures which system cabling

structured

CAT6 over operates System proof. future &

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services. & content to access

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screens.

television through services & information entertainment, access

to

guests allows system interactive use to easy

H IGH ACCESS INTERNETSPEED

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in associationwork, We manufactures of reputable with buildingmanagement systems t

environments, reduce operating costs, and provide flexibility and ease of operation. Based on

standardotocols, i.e. LONWORKS ® and BACnet®, our open architecture allows interoperability with third-party

systems and provides building managers the freedom to choose a variety of building management

applications. S ystems can monitor and control both individual properties and entire building complexes,

regardless of the size or number of buildings – or how many miles apart.

SECURITY

Thermostat function. controller network installation, like Plug

Pre-programmedNoDesigned EasyChanges

cycle life Building of time any easily done at commissioning. cabling, installation, simplify to

required. tool programming or service functions. advanced with sequences

standards. open BMS known all & supports

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systems analogue addressable intelligent art the of

DETECTION & ALARM

bone. back fibre Optic or TCP/IP over control & monitor

acquisition,

data for facility System Management Building or

Hospitality Central a from accessed be can unit room/apartment

control.Access and courtesy

console, bedside control, Touch control, remote IR control,

shutter/curtain motorized like functionalitiesautomation controls,

HVAC

dimming, scenes, lighting, in flexibility enjoy can

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Management

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Panels Isolator &

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Centers Control Certified

4000A to up Panels

Synchronization

Control

LV AUTOMATION INDUSTRIAL &SWITCHGEAR

DEVICES F IELD &

INSTRUMENTATION

Tempenature HumidityEnthalpy, FlowPressureDifferential , Pressure WaterEnergy, Electrical

Valves HydronicsActuators VAV Boxes ,

&

STRUCTURED

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KeyIntegration Building

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Approach

Block Server Central with

Criteria:

network. project optic fibre tolernance fault resilience, high

gigabit

access, browser web, local protocols,

opeb on based approach systems common site-wide a adapt

SYSTEMSCABLING

LIFE

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RoomDisplayMultimedia

Units Terminals

purpose Kits SystemsCall

CARE) (HEALTH SAFETY &

Our Experience in

Our

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omfortablesystems

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Major us with associated currently are that manufacurers

directives. ROHS by banned substances and components suitable identifying

actively are teams project engineering and quality whereby factories their at products free lead manufacturing of capable are

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life. daily and operations our of part is consideration environmental that ensure to committed are whom factories

14001 ISO certified by released are introducing are we products the of Most priority. a as environment of protection the

regard

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the within programming commissioning, installation, complex adding without features, extraordinary bring that precision

high

with designed Products & Solutions introduce that manufacturers with working by Change Climate againstContribute

control. and communications services, &IT-based integarted ofuse the throughsecure

nvironment &

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occupant & opeartor owner, the provide should

infrastructure

its and building a that fact the on based is mission

IT. Building for Integrated Open on based services environment

of provider system preferred customers be to is vision

Maintenance & Operation Service, Division Automation Industrial

Division HVAC Division Gear Switch LV & Panels Cabling Structured & Systems ELV

Division (BMS) System Automation Building

units: main six into structured is business core

60439 60439/BSEN IEC per as facilities testing with equipped are workshops fledged full & certified

9001:2000 ISO is Organization functions. specilaized with people 200 over employs company The 1992. in started Gulf the

.

We

request. on provided be can & completed below we shown buildings theof some on Details Libraries. & Museuems

Industrial,

Retail, Cities, Sport Mosques, Hotels, , Military Government, Universities, Colleges, Schools, Laboratories,

Enterprises, Pharmaceutical Care, Health & Hospitals Buildings, Office Commercial inprojects & regular complex completed have

KDF Center QP MesaieedSport City

Cultural Village Sport Committee City Khalifa

Hospital

Orthopedic

Pearl Pearl Ramada Hotel

Shangrilla Rotana &

Merwab

Mariot Renaissance &

Al

Tower

Bida

Al

Complex

Handaza

Qatar University

www.integraqatar.com PO

Doha Tel: Fax: +974-4369376 +974-4376749+974-4369776,

Qatar of State - 24789 Box

Common Lafan Ras

at Lab

Al Complex

Residential

Handaza Hamad

Center

Acquatic

Jaidah

TowerDiplomat

Tower

Office

Qatar

Tower

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Women

Club

Shafallah

Center

HONEYWELL

Honeywell - A Global Player

More than 120.000 employeesin nearly 100 countries

A Fortune 100 company –$ 33,4 Billion in sales in 2010 (8% up to 2009)

Market Leader

15-Aug-11 Slide 1CentraLine by Honeywell - confidential

Market Leader in Technology and Manufacturing

ACSSpecialty

Materials

Transportation

Systems

Honeywell

TechnologyAerospace

ECCHBS SecuritySensing /

USA EMEA Asia Pacific


UAE Qatar Bahrain Kuwait Jordan Egypt LebanonSaudi

Arabia

DEALER & TRADER NETWORK

ECCHBS HPS ED & SLife Safety SecuritySensing /

Control

SystemsBranches and

Performance

Contracting

Process

SolutionsIndustrial

Sensors

ECC Middle East

ECC division is the sales department for more than 30 Honeywell factories worldwide.

Providing solutions for Heating, Ventilation, Air Conditioning, Purification, and domestic water distribution.


Products

Design and deliver high quality products and services.

Qualified local Technical Support team and Training Center.

Managing Network of 50 partners (System Integrators, OEM, Trade Dealers…etc.) spread over the Middle East Region countries.

Honeywell‘s different ways to market

Honeywell Automation and Control Solutions

Security Life Safety Sensing & Control(industrial sensors)

Electrical Devices

& Systems (ED&S)

Products


Environmental & Combustion Controls(HVAC product creation organization with own production facilities)

Indirect Channel

(Partners)

Honeywell Building Solutions

(HBS): Sales and service

organization

Direct Channel

(HBS)

Project

Products

Products

Products

Project

Organisation Chart ECC - ME

Dilip SinhaECC/ED&S

Reg. General Manager

Vijay KumarECC Sales Leader

Trend Sales LeaderYezdi Daruwalla

5 people

ED&S SalesLeader & team

Other servicesTech/Finance/Cus. service

Sun WeiExec. Assist

• Middle East Head Quarter – Dubai, UAE• Branch office in – Saudi Arabia• Technical team / training centre in Dubai and in Germany / Europe • Highly industry experienced team of Sales / Techncial department


Ravindra SwarRegional Sales Magr

Trade&

Nabil Al AidRegional Sales

Phoenix

Yasser Sha’abanKSA Sales Manager

Hazem RadySales Magr

Kuwait, Egypt,Africa, Med

Gopal KrishnaSales Magr ,

CentralineME Region

UAERegion

Radhika RaghaniInternal Sales

SupportManager

Ravish Channe

Sales Manager

Alerton

ME region

Mohammed ArouriAlerton Sales

Nisin TariqCentraline

managerU.A.E)

Khalil ArafaeCentraline Sales

KSA

TBHUAE

AlertonSales

Office AdminTBH

Nisin TariqCentraline

manager(U.A.E)

AlertonSales Engineer

UAE , Qattar

QatarCentralineEngineer

Qatar Alerton SalAlertones

Khalil ArafaeCentraline Sales

Mohammed ArouriAlerton sales

Nader Mansour Technical

Hassan LokhandwalaTechnical support

The CentraLine Brand

Established by Honeywell

Focus: Intelligent, integrated, energy-efficient building solutions

Exclusively marketed through CentraLine Partners

400 carefully selected and trained building solution specialists

Customer benefit

=Flexible partners

+


specialistsBacked up by a comprehensive support infrastructure

In Europe, Middle East and Africa

Austria Greece Netherlands Sweden

Bahrain Hungary Norway Switzerland

Croatia Oman Qatar Syria

Czech Republic Jordan Romania Tunisia

Denmark Kuwait Saudi Arabia Turkey

Egypt Latvia Serbia Ukraine

Estonia Lebanon Slovakia United Arab Emirates

France Lithuania Slovenia United Kingdom

Germany Morocco South Africa

With stronglocal presence

Expertise from a global leader

+

+

ISO CERTIFICATE/QUALITY

POLICY

HONEYWELL AUTHORIZATION

LETTER

Honeywell Middle East (ECC division) Phone: +971 4 8073200 • Direct: +971 4 8073203

Honeywell Middle East - ECC Division

PO Box 232362 Emmar Business Park Building 2, Level 3 Dubai, UAE United Arab Emirates

Kind Attention :

Ref: 15-131-Integra_

_AAC-_Project

_support

letter

Subject: Integra’s qualification for the Project

Project :

Dear Sir,

We refer to the current system integration agreement between Honeywell Middle East FZE (“Honeywell FZE”) and Integra International Trading & Contracting co WLL

(“INTEGRA”). We confirm that to date, INTEGRA

is an authorized system integrator of Honeywell FZE for the sale, engineering, programming, installation (when applicable), start up, commissioning and service of Centraline and XL5000 range of products, supervisory software and Honeywell field devices and thermostats required to complete Building Management System

(together referred to as the “Products”) in the Qatar

(the “Agreement”).

We confirm that Honeywell FZE provides technical support in respect of the Products to INTEGRA

and provided training to some of INTEGRA’s employees with regards to the engineering, programming, installation, start-up and commissioning of the Products in accordance with the terms and conditions of the Agreement

Sincerely yours,

Amr Seoud Area Sales Manager for Honeywell Centraline (Qatar & Kuwait) Environmental and Combustion Controls (ECC) Automation and Control Solutions (ACS)

Dell

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Gulf Lifa Co.

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Mr. Obaidullah Khan

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Dec 26th 2015

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School Resort

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P.O.Box: 92050 Tel: 4006 1510

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SCOPE OF WORK

ProjectConstruction Of (2) New Schools At Doha & Villages Stage(10-A) Package#4 Contractor

Imperial Trading & Contracting Co. W.L.L

System Building Management System Date 31.12.2015

S.NO DESCRIPTION OF WORKBY SYSTEM

SUPPLIERBY CONTRACTOR

1Technical / Engineering submittal

preparationP -

2 Shop drawing preparationIntegra's assistance

will be providedP

3Supply and installation of conduits/

trunking.

Integra's supervision

at site will be

providedP

4Installation of BMS field devices/

controllers, software / BMS cables

Integra's supervision

at site will be

providedP

5 Labelling (DDC Panel) P -

6DDC panel fabrication & as-built drawing

preparation.P -

7

DDC programming, graphical preparation,

testing, commissioning, Operation and

maintanence manual preparation.

P -

8 Training to clients P -

9 Handing over to clients P -

SCOPE OF WORK MATRIX

Page 1 of 1

COMPLIANCE STATEMENT

CLAUSE DESCRIPTION COMPLIANCE REMARKS

M.34 BUILDING MANAGEMENT SYSTEMS

Part 1 GENERAL

1.1

Provide a Building Automation System (BAS) incorporating an open system technology in the network methodology and

management, programming tools and data exchange to control the specified HVAC, Lighting, Card Access and other related

building systems. The BAS shall consist of Direct Digital Control controllers, Network Devices, Graphical User Interface,

sensors, relays, valves, actuators, and other equipment as may be necessary to provide for a complete and operational control

system for the HVAC and other building related systems as described within these specifications. The definition of an "Open

System” shall be defined within these specifications and subject to interpretation by the owner and their designated

representative. All manufacture specific BAS and installing contractors shall be required to demonstrate their "Open System”

BAS to the owner and their representative and gain qualification approval prior to submission of bids for this project.

Qualification approval does not exempt the manufacture or the installing contractor from any of the requirements contain with

this specification or of subsequent addendums.

Comply

Proposed BMS system

is BACnet protocol

based system

A

The system installed shall seamlessly connect devices other than HVAC throughout the building regardless of subsystem type,

i.e. HVAC, lighting, and security devices shall easily coexists on the same network channel without the need for gateways. All

VAV controllers and all other field installed controllers for the HVAC system shall be provided by one manufacturer. Any

components not supplied by the primary BAS manufacturer shall be integrated to share common software for network

communications, time scheduling, alarm handling, and history logging.

Comply

B

The documentation contained in this section and other contract documents pertaining to HVAC Controls is schematic in

nature. The Contractor shall provide hardware and software necessary to implement the functions shown or as implied in the

contract documents.

Comply

CSystem configuration and monitoring shall be performed via a PC-type computer. Under no circumstances shall the PC be

used as a control device for the network. It can be used for storage of data.Comply

COMPLIANCE STATEMENT FOR PROJECT : CONSTRUCTION OF (2) NEW SCHOOLS AT DOHA

& VILLAGES STAGE(10-A) PACKAGE#4


Page 1 of 56





DAll system controllers shall utilize a peer-to-peer communications scheme to communicate with each other. The use of a higher

level controller to perform control logic other than alarm, trends and schedules shall not be accepted.Comply

1.2Open Systems Design. The intent of the specification contained herein is to provide for an open interoperable Building

Automaton System (BAS). The BAS provided shall maintain open interoperability in the following areas.Comply

A

Communications - All communication between field level controllers, routers and field level user interface devices, network level

devices and personal computers used as GUI or service tools shall communication language that is a published protocol and

an ANSI standard. Such protocol shall be in use by no less that 50 manufactures of HVAC or building system control devices.

Comply

Communication is

through BACnet MS/TP

protocol.

B

Network Management - Network management tools shall be interchangeable between manufacture products and BAS. The

test of this interchangeability shall be as follows:

Demonstrate that the proposed network management tool for the BAS can open up a database from at least three other

manufactures BAS, read and write to all exposed data from the controllers and add additional control devices from any of the

three manufactures to the network.

Comply

C

Databases - All databases shall be provided in a format that can be access and expanded by other manufactures network

management tools. Demonstrate database compatibility with at least 3 other network management tools as part of the pre-

qualification. The database shall be stored on the owner PC which serves as the Graphical User Interface and provide on a

separate CD upon final acceptance of the project. An updated database shall be provided on a Cd at the end of the warranty

period. Administrative level password shall be provided to the owner upon acceptance of the project.

Comply

D

Network Level Devices - All network level devices (devices that provide for communication interface between the field level

controllers and the Ethernet) and the associated engineering and operating software shall be available for purchase by the

owner from multiple sources within his respective market.

Noted

Communication between

field level and

management level is

through the use of BMS

routers.

EField Level Controls - All field level controls shall conform to industry standards for control logic functionality, input and out

configurations and interchangeability. This conformity to industry standards shall be established by:

Page 2 of 56





1

Demonstrating that the controllers to be used on the project are certified by an independent certifying organization that they

conform to the organizations and industry standards for functionality and input and output configurations and

interchangeability appropriate to their intended application.

Comply

2

Demonstrate interchangeability of product with a live demonstration of 3 different manufactures controllers. Such

demonstration shall include the replacement of one type controller such as a VAV with another like controller from another

manufacture and the sharing of information with other controllers on the network.

Comply

3Providing to the owner for all controllers provided under this specification a file that identifies and describes the function of all

points both hardware and software that are contained within the controller.Comply

4Demonstrate that all points within a controller including hardware I/O and software based points are available for viewing and

manipulation by at least 3 other manufactures network management and Graphical User Interface tools.Comply

F

Software Tools - All software tools needed for full functional use, including programming of controllers, network management

and expansion, and graphical user interface use and development, of the BAS described within these specifications shall be

provided to the owner or his designated agent. The installing contractor shall be demonstrate to the owner or their designated

agent that they comply with the specified requirements of the software based programming tools as described in BAS software

tool section of this specification. Any licensing required by the manufacturer now and into the future, including changes to the

licensee of the software tools and the addition of hardware corresponding to the licenses, to allow for a complete and

operational system for both normal day to day operation and servicing shall be provided. Any such changes to the designated

license holders for servicing and expansion shall be made by the manufacturer upon written request by the owner, future

owners or their agent. Any cost associated with the license changes shall be identified within the BAS submittals. The Installing

Contractors acceptance of a purchase order by the owner or his designated agent shall imply agreement with this section of

the specification.

Comply

Program back-up will be

provided during handing

over.

G

Distribution - All products provided within these specifications shall be available for purchase, by the owner or his designated

agent, through multiple sources without manufacturer limited territorial or project specific restrictions. A list of such sources

shall be provided as part of the BAS Submittals.

Comply

Page 3 of 56





H

Training - Manufacturer provided training on the use and operation of all products provided within these specifications shall be

available for purchase and attendance by the Owner or his designated agent. Such training shall be of the same curriculum as

the training courses provided by the manufacturer to the System Integrator. A manufacturer certified instructor shall give all

training classes. A list of training courses and the associated cost shall be provided as part of the BAS submittals.

Comply

1.3 Quality Assurance

A

General - The HVAC Control System shall be furnished, engineered, and installed by a licensed Controls Contractor or

System Integrator (SI). All work provided under this section shall be provided by direct employees of the SI or under the direct

supervision of the SI personnel.

Comply

B System Integrator Qualifications

1 The SI must be regularly engaged in the service and installation of the proposed BAS as specified herein. Comply

2The system integrator must be an authorized factory direct representative in good standing of the manufacturer of the

proposed hardware and software components.Comply

3

The SI shall be staffed with a minimum of 2 technicians who have successfully completed the factory authorized training of

the proposed manufactures hardware and software components. SI must provide proof of required training. The SI

capabilities shall include engineering and design of control systems, programming, electrical installation of control systems,

troubling shooting and service.

Comply

Certified engineers will

be designated at site for

execution.

4

The system integrator shall Submit a list of no less than three (3) similar projects, which have BAS as specified herein

installed by the system integrator These projects must be on-line and functional such that the Owner’s/User’s representative

can observe the system in full operation.

Comply

Similar school projects

have been previously

executed by M/s. Integra.

C Hardware and Software Component Manufacturer Qualifications

1The manufacturer of the hardware and software components must be primarily engaged in the manufacture of BAS as

specified herein, and must have been so for a minimum of five (5) years.Comply

2

The manufacturer shall be ISO 9001:2000 certified. This is to insure that all manufacturing, design and support policies

comply with a minimum quality assurance standard. Corporate quality assurance policies should be available for examination

upon request by the owner or his agent.

Comply

Page 4 of 56





3

The manufacturer of the hardware and software components shall have a technical support group accessible via a toll free

number that is staffed with qualified personnel, capable of providing instruction and technical support service for networked

control systems.

Comply

1.4 Submittals

A General

1Meet all applicable Submittal requirements of Division 1, Division 15, and the following including listed below and in the

Submittal check list.Comply

2 Provide to the Engineer and Owner all information or data necessary to determine compliance with these specifications. Comply

3Indicate dimensions, description of materials and finishes, general construction, specific modifications, component

connections, anchorage methods, hardware, and installation procedures, including specific requirements indicated.Comply

4All Drawings and Diagrams shall be machine drafted using AutoCAD 2000 or later, or Microsoft Visio. At project closeout,

provide vellum plots and diskette or CD copy of control drawings and layout drawings to the Owner.Comply

5

Provide system device and LAN conduit routing drawing, using building plans for a background. All controllers, gateways,

hubs, devices and communication cabling shall be accurately shown, except that individual sensor I/O wiring and devices

need not be shown. Layout drawings shall be the same size as the Engineer’s construction documents.

Comply

BHardware - Include a complete list of materials of equipment to be used, including technical data, performance curves, project

specification sheets and installation/ maintenance instructions.Comply

CControl System Diagrams - Provide schematic diagrams for each controlled system. Illustrate the relationship between control

system and controlled equipment. Show all control elements. Show all terminations and cable/tube numbers.Comply

1Provide equipment interface details using actual equipment termination information. Blank terminals or "field verify” is not

acceptable.Comply

2Provide individual diagrams for each mechanical system. If two systems are identical, then a single diagram may represent

multiple mechanical systems. Notations similar to "this section only applies to units xxx”, etc. are not acceptable.Comply

Page 5 of 56





3 The control diagrams and sequence of operation shall be together on the same sheet and shall be suitable for posting. Comply

4

The sequence of operation shall reference a schematic diagram of the controlled system. The sequence of operation shall

describe in words the control strategies utilized, worded in such a way to serve as an informative reference to the

maintenance and service personnel who will be responsible for unit operation.

Comply

5

Each component and instrument on the control diagrams shall have a unique tag number such as temperature element "TE-

1”. The sequence of operation verbiage shall make specific reference to the individual component tag numbers, such as

"Controller (C-1) compares the space temperature sensor (TE-1) to set point, and modulates hot water heating coil valve (V-

1) as required”. The mechanical system being controlled shall be schematically drawn and show the measurement and

control points, such as "TE-1” and "V- 1”.

Comply

DGraphic Displays - Include draft copies of graphic displays indicating mechanical system components, control system

components, and controlled function status and value.Comply

E

Point List - Provide a point list for each system controller including both inputs and outputs (I/O) point, point number, the

controlled device associated with the I/O point and the location of the I/O device. Use naming convention consistent with

control diagrams and sequence of operation.

Comply

F

Software manuals - Include software manuals that describe programming, testing, system overview. The manuals shall include

a detailed description of each software feature including editing and writing control programs, reading or modifying printout and

logs, adding, deleting and modifying user password, creating and modifying graphics. software manuals may be provided on

CD ROM in lieu of paper copy. If submitted as a CD ROM, the vendor shall arrange to review the software manuals with the

engineer at the engineer’s office.

Comply

G Other Items Requiring Submittals

1Point to point and basic function commissioning forms to be used on site for

the start, test and check of network components and systems.Comply

2 List of specific personnel who will be involved in the system installation and commissioning. Comply

3 Functional performance test documentation and procedures to be used in commissioning control sequences. Comply

H

Operation and Maintenance Manuals shall be submitted indicating the correct procedures and processes to operate and

maintain the system. O&M’s shall be delivered either hard copy or on a CD-ROM developed specifically for the project.

Contractor shall submit (3) copies of the Operation and Maintenance Manuals.

Comply

Page 6 of 56





I.Parts List shall be submitted listing: manufacturer's name, part number, nomenclature and stock level required for maintenance

and repair necessary to ensure continued operation with minimal delay.Comply

1.5Training - Meet all applicable Training requirements of Division 1, Division 15, and the

following.

AInstruct the operators how to accomplish control of the system. Include basic troubleshooting and override of equipment and

controls in the event of system failure.Comply

B Training Allowance: Provide formal training to the Owner’s designated operations personnel. Comply

C

Trainers - Persons conducting the training shall be knowledgeable in the workings of the system, and shall be regularly

engaged in training exercises, so as to provide effective training. Acceptability of the trainers shall be at the discretion of the

Owner.

Comply

D Training Manuals - Include the following in training manuals.

1 Manufacturer’s training brochures. Comply

2 Operation and maintenance manuals. Comply

3 Completed Field Acceptance Test Procedure. Comply

4 "As-installed” Drawings. ComplyAs-built drawings will be

provided

5 Manufacturer’s Operation Manuals. Comply

6Software interaction sheets to be used in instructing students how to use the control system, on a command-by-command

basis.Comply

ETraining Classes - Prior to conducting training, prepare and submit for approval the proposed training literature and topics.

Submit this information at least two weeks prior to the first class.Comply

F Provide approved training manuals to the Owner at least one week prior to the first class. Comply

GProvide Audio Visual Tutorials both in a CD format and on the manufactures website instructing on the operation of the

software tools as provided under this specification.Comply

1.6 Warranty

Page 7 of 56





A

The HVAC Control System shall be free from defects in workmanship and material under normal use and service. If within

eighteen (18) months from the date of substantial completion, the installed equipment is found to be defective in operation,

workmanship or materials, the building systems contractor shall replace, repair or adjust the defect at no cost. Service shall be

provided within 4 hours upon notice from Owner’s designated Representative.

Comply

M/s. Integra offers 600

days as warranty period

from the date of

commissioning.

B

The warranty shall extend to material that is supplied and installed by the Contractor. Material supplied but not installed by the

Contractor shall be covered per the above to the extent of the product only. Installation labor shall be the responsibility of the

trade contractor performing the installation.

Comply

CAll corrective software modifications made during warranty service periods shall be updated on all user documentation and on

user and manufacturer archived software disks.Comply

Part 2 NETWORK ARCHITECTURES AND DEVICES

2.1

Network Architecture and Protocol - The intent of this specification is to provide a peer- to-peer network at the field controller

level. The minimum baud rate shall be 78,000 baud for communication between controllers and 1,250,000 baud for

communication between network devices that are not communicating over the Ethernet.

Comply

A

All communication between field level controllers, routers and field level user interface devices, network level devices and

personal computers used as GUI or service tools shall use a communication language that is a published protocol and an

ANSI standard. Such protocol shall be in use by no less that 100 manufactures of HVAC control devices. No modifications to

the standard protocol shall be allowed unless the manufacture publishes such modifications and the SI can demonstrate to the

satisfaction of the Owner or his representative that the other user of the protocol can recognize the modified protocol without

the use of any manufacture specific tools.

Comply

Communication between

field level and

management level is

through the use of BMS

routers.

BTo facilitate facility expansion or to support large Wide Area Networks (WANs) the Network Interface shall directly support a

minimum of 4 logical networks using the same physical network.Comply

CThe ability to support bi-directional access to any remote field level controller shall be supported by a single point of connection

from anywhere on the network including communication over the Ethernet.Comply

DField level control networks shall maintain a Bus topology in order to maintain network integrity and improve network

diagnostics and maintenance. Star network topologies shall not be accepted.Comply

E All Network wiring - See Part 7 - Execution Comply

F The system shall be able to connect to remote sites via standard telephone lines or Ethernet LAN. Comply

Page 8 of 56





2.2

Network Devices - These various devices can service multiple functions on the network depending on network design,

communication medium and needed task. These functions include: management of traffic on the network, reconfiguring and

strengthening of signals, the conversion of the communication protocol into TCP/IP packets for transmission over the Ethernet,

global activities such as alarms, trends and scheduling, control logic, and protocol conversion.

Comply

A

Routers and Repeaters - The network router shall be designed to route messages from a segment, sub-net, or domain in full

duplex communication mode. Routers shall be fully programmable and permit a systems integrator to define message traffic,

destination, and other network management functions. The routers, shall be capable of DIN rail or panel mounting and be

equipped with status LED lights for Network traffic and power. A router many not manage more than 90% of the total capacity

of devices (as established by the manufacture) on any single channel so as to allow for future expansion.

Comply

BRepeaters - A repeater or signal booster may only be used to increase this signal strength of the communications. Under no

circumstances may it be used in the place of a router.Noted

Repeaters are not

required in the designed

system.

CField Level Controller Communication to Ethernet - All network devices that provide for a communication interface between

Field Level Controller Communication and the Ethernet shall comply with the following standards and functions.Comply

1The Network devices shall provide for the following global functions if required in the sequence of operation. All functions

shall be provided with a graphical user interface.

a)Scheduling - provide for the individual schedules as required in the sequence of operation and the associated points

schedule. Scheduling functions shall include:Comply

1)Daily schedules - Provide for a minimum of 6 different event changes per day with the ability to set different state values

for each event.Comply

2) Holiday - Provide for a minimum of 4 separate holiday schedule that can be implemented for any day. Comply

3)

Global scheduling function - Provide for the ability to implement a permanent and temporary global schedule that will

override multiple schedules in multiple network devices. Any temporary global schedule shall be erased once the time

period of the schedule elapses.

Comply

b) Alarm Management - provide for the management and reporting of alarms as required in the sequence of operation. Comply

Page 9 of 56





c)Data Log management - provide for the logging of all points as shown on the associated Points Schedule. Log intervals

shall be as frequent as one minute intervals. Log Data shall be exportable to other applications via SQL or XML.Comply

Part 3 BUILDING AUTOMATION SYSTEM CONTROLLERS

3.1

All controllers shall conform to the standards as established in Section 1.2E so long as such standards exist for its intended

application. If such standards do not exist then the SI shall demonstrate that the controller meets industry standards for

communication and data sharing for the protocol used. Where possible provide controllers that can meet the required

sequence of operation that can be configured rather that custom programmed. All controllers shall be designed for easy

installation and servicing including removable enclosures, removable terminals, and factory applied labels for all I/O. All internal

points within the Programmable controllers shall be fully supported by the Graphical User Interface (GUI), allowing the user to

easily modify them and monitor them. In addition all of the internal programming points (e.g. variables, constants, inputs and

outputs) shall be exposed to the network on dedicated network variable outputs. Programmable Controllers (PC) - a controller

designed for more complex sequences of operations such as built up AHU’s, central plant operations, electrical monitoring, and

control and management for chillers, boilers and generators. The PCs are to allow for the flexibility of custom control

programming to meet the needed sequences of operation.

Comply

All the proposed

Controllers are Direct

Digital controllers with

built in processor.

A

Performance - Each PC shall have a minimum of 64K of Non-volatile Flash memory for control applications and 128K non-

volatile flash memory for storage with an 8 bit processor at 10MHz. The FPC shall have a minimum ambient operating

temperature range of -0oC to 70oC or 32oF to 158oF.

Comply

B

Inputs - Analog inputs shall have the following minimum level of performance: 16- bit A to D resolution; allow monitoring of

platinum 100 ohms, platinum 1000 ohm, nickel 1000 ohms, thermistor 10K type II, thermistor 10K type III, voltage input 0-

10VDC, current input 4-20mA, digital input, pulsed input minimum 2 Hz.

Comply

C

Outputs - Outputs shall be either software configurable to be either analog or digital or dedicated digital only - Analog outputs

shall be selectable as voltage of 0¬10 VDC (linear) or 4-20mA or Digital outputs shall be 0-12 VDC (off/on), floating or PWM.

Outputs shall have an adjustable range of 2 seconds to 15 minutes. Output Resolution shall be a minimum 8 bits digital /

analog converter. All individual outputs and power supply shall be protected by an auto reset fuse. There shall be an LED

status indicator on each of the outputs.

Comply

D PC (Programmable Controller) Features

Page 10 of 56





1

For standalone applications the PC shall be provided with a real time clock with a battery backup. If using multiple controllers

on a network, provide one PC, User Interface Device or Network Interface with a real time clock to serve as the master time

clock for all nodes on the network

Comply real-time clock

2

Provide the ability to trend any point in the controller or on the network. Total capacity of the trended events shall be no less

than 12,000 samples. Trending frequency for each report shall be operator definable from a sample once a second to a

sample once every 24 hours. The system shall have the ability to automatically upload the trend log data onto the site

computer at definable periods of time. The file format in which the trend log data is saved shall be a Microsoft Access file.

Comply

3

The PC shall have the ability to share over the network with other controllers a minimum of 17 variable inputs and 17 variable

outputs. One of the network inputs on the FPC shall have a built in averaging function such that multiple variable outputs

values can be received by this one variable input and perform a weighted average. This function shall be used to average

terminal load or temperature. The averaging function shall have a customizable input validity period.

Comply

4The PC shall be provided with a minimum of 2 schedules that can be bound to one or many devices on the network. Each

schedule shall have six individual changes of state per day plus 4 separate special day schedules.Comply

5The PC shall be provided with a diagnostic indicator light that when flashing signifies that the application program is running

correctly.Comply

6 Provide an onboard network communication jack Comply

7

The PC can be provided with a built-in real time clock that supports daylight saving time by default. The daylight saving time

parameters should be configurable if need be. The real time clock shall also have a dedicated variable output that supports

the time stamp network variable type. This is in order to ensure the possibility of having the controller run in standalone mode

or as a master real time clock for the rest of the network. There shall be a battery backup of fifteen years for the real time

clock.

Comply

8Enclosures - Provide for a plastic enclosure with a separate back plate with terminals such that the electronic portion of the

controller can be easily remover for ease of installation and servicing.Comply

The DDC shall be

fabricated in metal

enclsoure

Page 11 of 56





3.2

Configurable Controllers (CC)- A controller designed through its I/O configuration and configurable control logic to be used for

a specific type mechanical equipment. Typical applications are VAV boxes, Fan Coil Units, Roof Top Units, Unit Ventalators,

Split DX Systems, Heat Pumps. Lighting Controls, etc. All SCs shall conform to the standards as established in Section 1.2E

so long as such standards exist for its intended application. If such standards do not exist then the Si shall demonstrate that

the controller meets industry standards for communication and data sharing for the protocol.

Comply

Configurable unitary

controllers are provided

for VAVs

A

Performance: Inputs Provide software selectable universal inputs. Analog inputs-shall have the following minimum level of

performance: 12 bit A to D resolution; manage thermistors with an accuracy of: ±0.5oC; ±0.9oF, and a Potentiometer. For VAV

Applications provide a differential pressure input sensor built in to the controller with a adjustable range of 0” to 1” H20 (0-248.8

Pa) static pressure with a minimum accuracy of ± 3%. Minimum response time shall be 0.5 seconds from input to output time.

Comply

B

Output - Analog outputs shall have the following minimum level of performance: Tri-mode Voltage of 0-10 VDC (linear), digital

0-12 VDC (off/on) or PWM. All analog outputs shall be equipped with an auto reset fuse. Output Resolution shall be a

minimum 8 bits digital / analog converter. Digital outputs shall be provided with a minimum of a triac output rated at 0.75 amps

@ 24VAC. All analog outputs and shall be fuse protected.

Comply

C CC Features:

1The CC except for the VAV shall be provided with an optimum start program internal to its control logic. The optimum start

shall be activated by a time of day event signal from its associated scheduler on the network.Noted

CC are provided only for

VAV

2

The CC shall allow the use of its spare I/O as dumb I/O to be shared over the network to other controllers such as FPC,

where a sequence of operation can be applied to the I/O. Such applications shall include but not be limited to exhaust fan

control, heaters, light control, etc.

Noted

DPowered Fan Coil Unit Specific functions: In addition to the features for the CC the Powered Fan Coil Unit controller shall

provide the following functionsNoted

FCU are not applicable

for this project

1Provide for four line voltage relays rated for 85 - 265 at 33 VA for the control of the fan and other auxiliary devices. These

relays shall be an integral part of the controllerNoted

2 Provide for wireless sensing capabilities as described in section NotedNot applicable for this

project

Page 12 of 56





3 Provide for a built in 24 VAC 300 mA power supply Noted

Transformers will be

provided to provide

24VAC power supply to

the controllers.

4Provide for a LCD based sensor that operates as an user interface for temperature adjustment, override and display of

values.Comply

Wall module thermostat

with LCD display will be

provided for every VAV

controller.

5 Accept platinum 1k ohm and thermistor 10k ohms type II sensors as well as nickel 1k ohm thermistor sensors. Noted

Thermostat shall be on

sylk bus communication

with the controller

E VAV Specific functions. In addition to the features for the CC VAV controller shall provide the following functions

1

The CC VAV shall be a single integrated package consisting of a microprocessor, power supply, damper actuator, differential

pressure transducer, field terminations, and application software. An alternate model shall be offered that allows for direct

connectivity to an external actuator for those applications that employ a non-butterfly style damper configuration. All

input/output signals shall be directly hardwired to the CC VAV controller except were there is a requirement for wireless

sensing. The internal actuator shall employ a manual override that allows for powered or non-powered adjustment of the

damper position. In all cases, the controller shall automatically resume proper operation following the return of power to, or

control by the CC VAV. Programming, configuring and/or troubleshooting of input/output signals shall be easily executed

through the CC VAV sensor at the wall sensor location through a network connection.

Comply

VAV controller are with

built in damper actuator

and air flow sensor

probe.

2

The CC VAV control algorithms shall be designed to limit the frequency of damper repositioning, to extend the life of the

components. The CC VAV shall provide an internal differential pressure transducer. Flows through transducers requiring

filter maintenance are not acceptable. The CC VAV shall provide zone control accuracy equal to or better than +/- 1 degree

Fahrenheit. With the submittal package, supplier/provider shall provide performance data that verifies control accuracy of the

CC VAV.

Comply

3 Provide for CO2 control from control logic within the CC VAV as per the sequence of operation. Noted

Page 13 of 56





4 Configuration of all I/O points shall be accomplished without physical hardware jumpers, switches or settings. Comply

F CC VAV - Air Balancing

1

Precalibration: Provide as part of the configuration wizard for the CC VAV an automatic calibration tool that will calibrate the

box air balance position based upon the K factor of the box and the cross section of the input duct to the VAV box. The

precalibration procedure shall be implemented for all boxes within 5 working days of delivery of conditioned air to the boxes. If

such a precalibration tool cannot be provided then System Integrator shall provide for manual adjustment to all VAV boxes to

meet the comfort need in the respective areas.

Comply

2 Certified Air Balance: The following Air Balancing tools shall be provided:

a)

LCD sensor calibration tool. Provide for a LCD based sensor that operates as a user interface for temperature adjustment,

override and display of values along with the ability to perform Air Balance task. The LCD sensor shall provide for access to

all of the VAV input and out put variables to allow for complete Air balance task. Upon completion of Air Balance the

application shall deliver a code that documents the air balance calibration for each individual VAV box. In addition the LCD

sensor shall operate as a standalone Air Balance tool that communicates directly to the VAV through a wall mounted

sensor with communication port to the VAV.

Comply

b)

The CC VAV shall also provide a web browser based balancing tool. This tool shall allow the air balancer to manually

control the action of the actuator (e.g. full open, full close, open slowly, close slowly, etc...). Automatic calibration as well as

two-point calibration shall be available through this web page. The air balance sequence shall step the balancing

supplier/provider through the checkout and calibration of the CC VAV. Upon completion of the balancing sequence, the

flow values presented by the CC VAV shall match those observed by the balancing supplier/provider's measurement

equipment. Additionally, upon completion of the air balance, the CC VAV shall automatically archive the balance settings

for future use including a calibration code that documents the air balance calibration for each individual VAV box.

Comply

c)Systems not able to provide a web based air balance tool and a LCD Sensor bases balancing tool as part of their the CC

VAV shall provide an individual full time technician during the Air-balancing process to assure full balance compliance.Comply

3.3Special Purpose Configurable Controllers (SPCC)- A controller designed with unique functions and features particular to a

specific type of mechanical equipment or applications that may be less common and or standarizied in its use and application.Noted

SPCC and SPCCT are

not required for the

project

Page 14 of 56





ASPCC - Thermostat (SPCCT) - A self-contained controller with a built-in user interface that is intended for installation in the

occupied space of the building. The SPCCT shall have the following features:Noted

SPCC and SPCCT are


project

1

The SPCCT shall be a microprocessor based controller with all of its control logic, sensors, inputs and outputs, network

communication and user interface provided within a manufacture provided enclosure specific to the application. The

enclosure shall be aesthetically appealing with a modern design that will fit in with the architecture of the building. A sample of

the SPCCT shall be provided as part of the submittal process.

Noted

SPCC and SPCCT are


project

2The SPCCT shall be programmed through the user interface contained within the controller and through a software based

configuration tool.Noted

SPCC and SPCCT are


project

3

The User interface display shall be provided with 3 levels of password protection: Level 1 - Lockout with view only and time

adjustment; Level 2 - schedule override and mode settings; Level 3 - full access to all parameters. Where required in the

sequence of operation provide for within Level 2 access the ability to change the units of measure displayed for temperature

from Fahrenheit to Celsius. The display shall be back lighted for easy viewing.

Noted

SPCC and SPCCT are


project

4

If required within the sequence of operation, provide for a control schedule and time clock within the SPCCT. The control

schedule shall provide for a separate schedule for each day of the week with 4 events per day. The real time clock will have a

six hour power reserve time

Noted

SPCC and SPCCT are


project

5

The SPCCT shall utilize a PI (proportional and integral) control algorithm. Upon power failure, all programmed schedules and

parameters must be retained in non volatile flash memory. Progressive temperature recovery shall be a standard feature.

Two configurable digital/binary inputs will be available as well as two remote temperature sensor inputs for outdoor air and

remote room/return air monitoring. Built-in frost protection, which can be disabled, will energize the heating as soon as the

ambient temperature falls below 45°F (5°C). An auxiliary digital/binary output, which can be configured for normally open or

normally closed operation, will also be available.

Noted

SPCC and SPCCT are


project

Page 15 of 56





B

Provide for wireless sensing of the designated sensors and or switches as shown on the Point List Chart. Wireless sensing is

comprised of the following components; wireless sensor or switch (transmitter), wireless receiver, wireless configuration

application and wireless transmission test equipment. All components shall comply with these requirements.

Noted

SPCC and SPCCT are


project

1

Wireless temperature sensor/switch - the wireless sensing technology provided shall transmit a RF message indicating the

value or position of the sensor. The transmission range shall be a minimum of 100 meters unobstructed line of sight and 30

meters in buildings.

Noted

SPCC and SPCCT are


project

a)

Each sensor or switch shall be provided with energy harvesting technology such that no battery will be required to maintain

normal operations. If using a Solar Cell for energy harvesting, normal operation parameters shall be defined as a minimum of

4 hours of 200lx of light to produce an operation of the sensor for a period of no less than 20 hours in total darkness. In

sufficient light levels are not available, provide a battery back up.

Noted

SPCC and SPCCT are


project

b)

For temperature sensors all measurement of value shall be read by the sensor no less than once every 100 seconds and

transmit a signal to the receiver within this time period should a variations occur from set point of more than +- 0.3 deg. C for

a space sensor or an outside air or duct or water sensor.

Noted

SPCC and SPCCT are


project

c)

Sensor or switch shall be provided with a unique identifying code to correspond its location to the receiver. The identifying

code shall be displayed in bar code permanently attached to the sensor or switch. In addition the sensor or switch shall be

provided with a manual push button to transmit its identifying code to the receiver for installation.

Noted

SPCC and SPCCT are


project

d)All sensor locations shall be verified to be in compliance with

manufactures installation requirements and be tested for acceptable signal strength.Noted

SPCC and SPCCT are


project

e) Wireless sensors and switches shall be provided for the following as required: Noted

SPCC and SPCCT are


project

Page 16 of 56





1)

Space Sensors - Space sensors shall be provided as required with temperature measurement, set point adjustment,

override and humidity sensing. Accuracy of the sensors shall be 0.4 deg. C Sensor shall be submitted for pre-approval for

performance and visual appearance.

Noted

SPCC and SPCCT are


project

2)Mechanical Room Sensors - Duct temperature sensor, outside air sensor, Surface temperature contact temperature sensor

and Well emersion sensor.Noted

SPCC and SPCCT are


project

3) Light Switches - Light switches shall be provided as required, either in a 2 channel or 4 channel configurations. Noted

SPCC and SPCCT are


project

2For CC provide for the management a minimum of 5 wireless sensors or switches inputs. For PC provide for a minimum of

14 wireless sensor or switches inputs. Where needed to achieve signal range requirements, provide for an external antenna.Noted

SPCC and SPCCT are


project

3 Wireless Configuration: The configuration of the wireless sensors shall be an integral part of the CC configuration tool. Noted

SPCC and SPCCT are


project

4

Wireless Transmission Test Equipment. Provide for test equipment that will measure the strength of the transmission

between the required location of the sensor or switch and the receiver located at the controller. All Sensors or switched shall

be verified to have acceptable signal strength prior to installation.

Noted

SPCC and SPCCT are


project

CLighting Control (SPCC-LC)- A standalone microprocessor based lighting control panel that contains line and or low voltage

relays for control of the lighting circuits along with the appropriate schedules and local user interface.Noted

SPCC and SPCCT are


project

1 The SPCC-LC shall provide as a minimum the following functionality; Noted

SPCC and SPCCT are


project

a Occupant-Sensitive Operating Scenarios Noted

SPCC and SPCCT are


project

Page 17 of 56





b Schedule With Flick Warn Noted

SPCC and SPCCT are


project

c Time-delay Overrides With Flick Warn Noted

SPCC and SPCCT are


project

d Common Area Interlock With Egress Timer Noted

SPCC and SPCCT are


project

e Master Switch Control With Flick Option Noted

SPCC and SPCCT are


project

f Cleaning Lights Noted

SPCC and SPCCT are


project

g Automatic Daylight Switching With Occupant Interlock/Override Noted

SPCC and SPCCT are


project

h Status and Runtime Data Noted

SPCC and SPCCT are


project

2

It shall be composed of multiple controllers, with the capacity to manage input switches and sensors, output relays as well as

lighting sequences and groups, enabling the user to configure and monitor a very large number of different lighting schemes

and schedules.

Noted

SPCC and SPCCT are


project

3

The SPCC-LC shall provide, as a minimum, the ability to interface with the hardware of the associated relay panels to allow

for minimal disruption to the existing high voltage panel wiring. The SPCC-LC shall be capable of providing all logic, control,

runtime data, status information, and communications functions. From any built-in operator interface of any display unit, the

ability to read the status of the lighting relays and switches shall be provided.

Noted

SPCC and SPCCT are


project

Page 18 of 56





4 It shall be configured using a software configuration tool. Noted

SPCC and SPCCT are


project

5The SPCC-LC shall allow for the configuration of up to 16 schedules, each

comprised of 7 weekday and 4 holiday schedules.Noted

SPCC and SPCCT are


project

6

The SPCC-LC display unit shall allow for the local display of lighting points

as described in 5.2 . It shall also contain an astrological time clock that allows for the real time calculation of the geographic

location using latitude and longitude information. This is to allow for precise and efficient outside lighting control.

Noted

SPCC and SPCCT are


project

7The SPCC-LC shall be able to control the General Electric® three-wire

relay or a two wire Aromat relay.Noted

SPCC and SPCCT are


project

Part 4 BAS SOFTWARE TOOLS

4.1Provide adequate copies of all tools necessary for the development, maintenance, expansion and use of the BAS described

within these specifications. All software tools shall be compatible with Microsoft Windows XP Professional. For the purpose of

this specification software tools shall be divided into the following categories and meet these specified requirements.

Comply

A

Plug-Ins or Wizards: Software modules used for the configuration and programming of the BAS controllers. Plug-ins shall be

provided free of charge and be compatible with the current published versions of the network management tool that is provided

as part of this project. The plug-in software shall be available for public access from the manufacturer’s web site. These plug-in

programming tools shall be compatible with at least 3 other manufactures network management tools. The SI shall demonstrate

as part of their prequalification as to how they intend to comply with these requirements. Should plug-ins as specified herein

not be available then the SI shall provide the following:

Comply

1

Provide adequate copies of the programming or configuration tools (excluding the UIP and GUI tools) along with any

manufacture specific software tools required to operate the programming or configuration tools. Such tools shall be provided

with a permanent and operating system transferable license.

Comply

Page 19 of 56





2Provided free of charge to the owner or his designated agent for a period of 10 years the latest manufactures updates to the

software described in paragraph 1.Comply

3

Provide a statement, as part of the prequalification, signed by an officer of

the Manufacture validating the performance of the requirements in

paragraph 1 & 2.

Comply

B

Network Management Tool (NMT): A software tool set that provides for the development and management of Building

Automations Systems networks as described within these specifications. The NMT shall provide the following minimum

functionality:

Comply

1

Creation of BAS databases through device / controller installation. This database shall reside on the BAS GUI Personal

Computer or other PC based server as specified. This application shall support multiple clients on the LAN including User

Interface devices.

Comply

2Provide for device / controller configuration and or programming through software modules as described in the field level

controller programming section.Comply

3 Support copy-paste function for network, subsystem and device Comply

4 Provide for device / controller diagnostics. Comply

5 Provide for device / controller maintenance activities Comply

6Provide for binding of variable to and from controller to controller over the

network.Comply

7 Provide for the ability to view and modify all of the point variables contained within any controller on the network. Comply

8 Provide for the monitoring of variable and configuration properties in real-time. Comply

9 Provide for support of a client-sever operating system with a single Server and multiple interoperating client applications Comply

10 Provide for support of a full client-sever operating system with multiple Servers and multiple interoperating client applications Comply

11 Provide for system diagnostics. Comply

12 Provide for management of the database including backup, copy, import and export functions. Comply

C

Field Level Controller Programming; Software tools used for the configuration and custom programming of the Configurable

Controllers (CCs), Programmable Controllers (PCs) and or the Special Purpose Configurable Controllers (SPCCs). The

programming tools shall perform the following functions:

Page 20 of 56





1

PC programming shall be accomplished by either: Text based codes similar to the BASIC programming language combined

with objects to define normal controller functions such as PID loops, optimum start stops, I/O configurations, timers,

schedules, trends, and network variables or; Graphical programming language (GPL) where objects are used to define

different portions of the control sequence. All control sequences programmed into the PC shall be stored in non-volatile

memory. Systems that only allow selection of sequences from a library or table are not acceptable. All code must be

exportable to a library for future use.

Comply

2

CC and SPCC - Provide for the programming of the required sequence of operation through an intuitive menu driven

selection process. No text code or graphical programming will be allowed. The configuration tools menu shall define items

such as I/O configurations, set point, delays, PID loops, optimum start stops, and network variables settings. The

configuration tool must indicate the device status and allows system override

Comply

3

Field Level Controller Programming tools shall provide for the viewing and manipulation in real time all hard I/O and soft

points including constants, and variables through a table menu or browser. Any point may be hidden from view for easier

operation. Provide the ability to save view configurations settings along with a short cut to the browser that does not require

the operating the NMT.

Comply

DNetwork Level Device Programming: Programming software used to configure or program the Network Level Devices. These

tools shall be provided as a plug-in that is compatible with the network management tool.Comply

E

User Interface Design (UID) designing tools used to create a graphical or text based user interface. A library of preprogrammed

components shall be provided to simplify creation of animated graphics and placement of dynamic point values on the graphical

screens. The graphic screen creation shall be accomplished by a drag and drop programming as opposed to line code

programming. The line code programming shall be available for advanced screen design and editing. All linking of the data

points from the data base to the graphics shall be completed from within the graphical tool set. The tools shall allow for the

creation of graphics in animation and 2 and 3 dimensional formats. The software shall place no restriction on number: of points

used or tags in the system; of users; or on connectivity to other database aware applications. The software shall be capable of

being backed up and restored by commercially available backup mechanisms. Note that this software can be provided as a

separate tool set from the GUI.

Comply

F

Graphical User Interface (GUI) Operating System: Tools used to provide for user access to the day to day operation of the

BAS. These tools shall include for the display, management and adjustment of all points within the system using a direct driver

to BAS network. The following functions shall be included within this toolset:

Comply

Page 21 of 56





1Administrative functions - Provide all necessary administrative functions to insure a complete secure and reliable GUI.

Provide a minimum these administrative functions:

a)

Security. Each operator shall be required to log on to the 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 supervisor 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. Provide five levels of password

protection ranging from view only to full administrative functions.

Comply

b)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.Comply

c) Manual Database Save and Restore Comply

d)System Diagnostics. The system shall automatically monitor the operation of network connections, building management

panels, and controllers. The failure of any device shall be annunciated to the operator.Comply

2Graphics Display. The system graphics shall be able to be modified while on line. An operator with the proper password level

shall be able to add, delete, or change graphics.Comply

a)All analog I/O values shall be available to be displayed in imperial and or metric units, with plain English descriptors based

upon the owner’s preference.Comply

b)

Standard Graphics: All graphics shall be created from a library of standard HVAC equipment such as chillers, boilers, air

handlers, terminals, fan coils, fans, pumps, coils, valves, piping, dampers, ductwork, etc. contained within the UIP where

possible. If custom graphical objects are required, the objects must be stored within the library of the UIP

Comply

c) Where floor plan graphics are required, AutoCAD files shall be provided by Owner for use in developing floor plan graphics. Comply

d)As a minimum, the operating software shall permit the operator to perform the following tasks with a minimum knowledge of

the HVAC Control System provided and basic computing skills.Comply

e)View data (temperature, flow rate, etc.) on HVAC equipment, and/or lighting, card access, and intrusion detection

equipment.Comply

f) Navigate multiple sites. Comply

g) Locate potentially faulty equipment through audible or visible alarms. Comply

Page 22 of 56





h) Override values and states of all equipment as allowed by their respective password level. Comply

3 Provide the following Dynamic Graphics.

a) Show all motor-driven equipment, liquid level control, and temperature deviations from set point in floor plan graphics. Comply

b)Show animation by shifting image files based on the status of the point (e.g. moving fan, filling tank, room getting warmer,

etc.)Comply

c) All mechanical system controlled or monitored by the BAS Comply

d)Use pictorial representation of components. Provide the current status of all I/O points being controlled and applicable to

the mechanical system.Comply

e)

Provide overall floor plan of each floor, showing individual air handler zones. and space temperature zones. Show heating

and cooling zones in a range of colors, which shows deviations from set points. The colors shall be updated dynamically as

zones’ comfort conditions change. Show space sensor locations for each zone, with set points.

Comply

f) Lighting floor plan. Show each floor lighting control zone and override push buttons. Comply

g)Point values, adjustment and override. Provide dynamic point values that are refreshing at a rate of no less than a 20

second interval. All points in override shall be displayed as a separate color from the normal state.Comply

4

Programming tool access. Provide for access to any programming tools required for the configuration and programming of

the BAS through a direct link contained within the graphics associated with the controller to be programmed. This function

shall not require the inclusion of a network management tool

Comply

5

Trend log management. Display all required trended points in a color graphical format on a XY axis. Provide for the display of

up to 10 points on a single graph each with a separate color and a legend to describe the point displayed and the associated

color. Date time range shall be selectable from 1 minute to 1 year or more. Provide for a zoom function and a time, date,

value stamp that corresponds to the mouse courser position on the graph. All data shall be exportable in a SQL format to an

access database.

Comply

6

Scheduling - Provide for a graphical display of a monthly calendar that allow for implementation of six individual change of

states per day plus 4 separate special day schedules. Implementation of special day shall be implemented with a drag and

drop function on to the calendar. All resulting time schedules shall be viewable by placing the cursor over the selected day.

The scheduling functions shall be provided as plug-in and be opened from any graphic page without the need for a network

management tool.

Comply

Page 23 of 56





7

Alarm Management - All alarms from any device residing on the network shall be reported and logged in an alarm

management tool resident in the GUI. The alarms shall be displayed in a table with user defined groups that can be arranged

by column, reported date, priority, trouble, disabled, acknowledged and unacknowledged status. Each alarm shall have a user

defined name associated with it along with a descriptive action to take.

All alarmed points shall have the ability to be delivered to designated reporting devices such as a printer, alpha numeric

pager, cell phone, email or to an audio visual device. Each alarm shall have the ability to have its reporting location

designated based upon a 24 hour 365 day schedule where as a different designated reporting destination can be specified

based upon the time of day and the day of week. The alarms that are not acknowledged within a user defined period of time

shall be provided with 2 additional level escalated levels of reporting. Provide the ability to export all alarm histories in a csv,

access or excel format.

Comply

Part 5 USER INTERFACES

5.1GUI Personal Computer - The PC provided as the primary means of access into the BAS. It shall contain all the required

software tools as discribed in Section 4 - BAS Software Tools.

A PC Hardware - Provide a (insert latest PC discription and printer) Comply

B

PC Operating System - The PC shall be provided with Microsoft Windows XP

professional Operating Systems software and the latest version of Symantec Antivirus Software including a 1 year upgrade

subscription service to the Symantec software.

Comply

5.2LCD Display - A wall mounted easy to operate User Interface that provides direct read / write access to any point on the

network. The LCD Display shall provide the following:Comply

A

The Display shall consist of an alphanumeric LCD display of 16 lines x 16 characters, and a multi-function keyboard. At total of

250 points shall be available for display and or control in groups of 50. Each group shall have a minimum of 13 alpha numeric

character descriptor and each point shall have up to a minimum of 16 character alpha numeric descriptor.

Comply

B

The display shall have a graphical logo displayed on its default screen. This logo shall be a standard monochrome bitmap of 89

x 128 pixels that the user can replace. Configuration of the display shall be made available from a wizard contained within the

system programming tools

Comply

C The Display User access shall be through a simple to use directional and entry buttons. Full keyboards shall be accepted Comply

D The LCD Display shall be provided as a surface mount or flush mount as shown on the mechanical drawings. Comply

Page 24 of 56





5.3LCD Sensor - Where required provide for a LCD based sensor to connect to the VAV and or FCU that operates as a user

interface for temperature adjustment, override and display of values along with the ability to perform Air Balance task (for VAV).Comply

Wall module thermostat

with LCD display will be

provided for every VAV

controller.

5.4 PERIPHERAL DEVICES

1.1 Temperature Sensors and Transmitters - General Sensor & Transmitter Requirements

AProvide sensors and transmitters required as outlined in the input/output summary and sequence of operation, and as required

to achieve the specified accuracy as specified herein.Comply

BTemperature transmitters shall be equipped with individual zero and span adjustments. The zero and span adjustments shall

be non-interactive to permit calibration without iterative operations. Provide a loop test signal to aid in sensor calibration.Comply

C

Temperature transmitters shall be sized and constructed to be compatible with the medium to be monitored. Transmitters shall

be equipped with a linearization circuit to compensate for non-linearities of the sensor and bridge and provide a true linear

output signal.

Comply

DTemperature sensors shall be of the resistance type and shall be either platinum 1k ohm or thermistor 10k ohms type II as

specficied elsewhere.Comply

NTC 20K type sensors

are proposed.

E

Thermistors are acceptable provided the mathematical relationship of a thermistor with respect to resistance and temperature

with the thermistor fitting constraints is contained with the CU operating software and the listed accuracy’s can be obtained.

Submit proof of the software mathematical equation and thermistor manufacturer fitting constants used in the thermistor

mathematical/expressions. Thermistors shall be of the Thermistor (NTC) Type with a minimum of 100 ohm/°F. resistance

change versus temperature to insure good resolution and accuracy. Thermistors shall be certified to be stable ±0.24°F. over 5

years and ±0.36°F. accurate and free from drift for 5 years.

Comply

F CU operating software shall be equipped with a self-calibrating feature for temperature sensors. Comply

G The following accuracy’s are required and include errors associated with the sensor, lead wire and A to D conversion.

Point Type Accuracy Comply

Outside Air 0.5°F Comply

Page 25 of 56





Chilled Water 0.5°F Comply

Room Temperature 1.00°F Comply

Hot Water/Steam 0.75°F Comply

Duct Temperature 0.5°F Comply

Sensors Used in Energy Water (BTU) or Process Calculations 0.1 °F N.A

H

Sensors used in BTU or process calculations shall be accurate to ±0.10°F over the process temperature range. Submit a

manufacturer’s calibration report indicating that the calibration certification is traceable to the National Bureau of Standards

(NBS) Calibration Report Nos. 209527/222173.

N.ANot applicable for this

project

I Thermowells

1When thermowells are required, the sensor and well shall be supplied as a complete assembly including well head and

greenfield fitting.Comply

2 Thermowells shall be pressure rated and constructed in accordance with the system working pressure Comply

3Thermowells and sensors shall be mounted in a threadolet or %” NPT saddle and allow easy access to the sensor for repair

or replacement.Comply

4Thermowells shall be constructed of the following materials: Chilled and Hot Water: brass;Steam: 316 stainless steel; Brine

(salt solutions): marine grade stainless steel.Comply

J Outside Air Sensors

1Outside air sensors shall be designed to withstand the environmental conditions to which they will be exposed. They shall

also be provided with a solar shield.Comply

2 Sensors exposed to wind velocity pressures shall be shielded by a perforated plate surrounding the sensor element. Comply

3 Temperature transmitters shall be of NEMA 3R construction and rated for ambient temperatures. Comply

K Duct Type Sensors

1

Duct mount sensors shall mount in a hand box through a hole in the duct and be positioned so as to be easily accessible for

repair or replacement. A neoprene grommet (sealtite fitting and mounting plate) shall be used on the sensor assembly to

prevent air leaks.

Comply

2Duct sensors shall be insertion type and constructed as a complete assembly including lock nut and mounting plate. Duct

sensors probe shall be constructed of 304 stainless steel.Comply

Page 26 of 56





3 For outdoor air duct applications, use a weatherproof mounting box with weatherproof cover and gasket. Comply

4

Averaging Duct Type Sensors - For ductwork greater any dimension than 48 inches and/or where air temperature

stratification exists, utilize an averaging sensor with multiple sensing points. The averaging sensor shall be a 304 stainless

steel tube with holes extending across the duct or plenum to be sampled. A bleed hole outside the duct or plenum causes air

to enter the sample tube and exit at the bleed hole, thus bathing the sensor in average air. The averaging sensor shall be

installed complete with end cap, compression fittings, gaskets, mounting flange and required accessories. Provide capillary

supports at the sides of the duct to support the sensing string.

Comply

L Relative Humidity Sensors/Transmitter

1The sensor shall be a solid state, resistance type relative

humidity sensor of the Bulk Polymer Design. The sensor element shall be washable and shall resist surface contaminations.Comply

2Humidity transmitter shall be equipped with non-interactive span and zero adjustments, a 2 wire isolated loop powered, 4-

20Ma, 0-10 VDC linear proportional output.Comply

3 The humidity transmitter shall meet the following overall accuracy including lead loss and A to D conversion. Comply

4 Room Type Sensor ±3% RH Comply

5 Provide a single point humidity calibrator, if required, for field calibration. Transmitters shall be shipped factory pre-calibrated. Comply

M Differential Pressure Transmitters and Accessories

1 General Air and Water Pressure Transmitter Requirements:

2Pressure transmitters shall be constructed to withstand 100% pressure over-range without damage and to hold calibrated

accuracy when subject to a momentary 40% over-range input.Comply

3 Pressure transmitters shall provide the option to transmit a 0 to 5VDC, 0 to 10VDC, or 4 to 20 mA output signal. Comply

4Differential pressure transmitters used for flow measurement shall be sized to the flow-sensing device and shall be supplied

with shutoff and bleed valves in the high and low sensing pick-up lines (3 valve manifolds).N.A

Not applicable for this

project

5Provide a minimum of a NEMA 1 housing for the transmitter. Locate transmitters in accessible local control panels wherever

possible.Comply

Page 27 of 56





6Low air pressure, differential pressure transmitters used for room filter monitoring. Shall be equipped with a LED display

indicating the transmitter output signal.Noted

Differential pressure

switch is proposed. LED

indicators not available

on switch.

7 Low Air Pressure Applications (0 to 0.5” WC)

a)The pressure transmitter shall be capable of transmitting a linear electronic signal proportional to the differential of the room

and reference static pressure input signals with the following minimum performance specifications.N.A


project

b) Span: Not greater than two times the design space DP. N.ANot applicable for this

project

c) Accuracy: Plus or minus 0.5% of F.S. N.ANot applicable for this

project

d) Dead Band: Less than 0.3% of output. N.ANot applicable for this

project

e) Repeatability: Within 0.2% of output. N.ANot applicable for this

project

f) Linearity: Plus or minus 0.2% of span. N.ANot applicable for this

project

g) Response: Less than one second for full span input. N.ANot applicable for this

project

h) Temperature Stability: Less than 0.01% output shift per degree F. change. N.ANot applicable for this

project

8 The transmitter shall utilize variable capacitance sensor technology and be immune to shock and vibration. Comply

9Provide an 18 month warranty for each transmitter. Replace all transmitters found to be defective at no cost to the Owner

during the warranty period.Comply

N Flow, Pressure, and Electrical Measuring Apparatus

Page 28 of 56





1

Traverse Probe Air Flow Measuring Stations- Traverse probes

shall be a dual manifold, cylindrical, type constructed of 3003 extruded aluminum with an anodized finish to eliminate surface

pitting and unnecessary air friction. The multiple total pressure manifolds shall have sensors located along the stagnation

plane of the approaching air flow and without the physical presence of forward projecting sensors into the airstream. The

static pressure manifold shall incorporate dual offset static tips on opposing sides of the averaging manifold so as to be

insensitive to flow-angle variations of as much as ±20o in the approaching airstream.


project

2

The air flow traverse probe shall not induce a measurable pressure drop, nor shall the sound level within the duct be

amplified by its singular or multiple presences in the airstream. Each airflow measuring probe shall contain multiple total and

static pressure sensors placed at equal distances along the probe length. The number of sensors on each probe and the

quantity of probes utilized at each installation shall comply with the ASHRAE Standards for duct traversing.


project

3 Traverse probes shall be accurate to ±25% of the measured airflow range down to 0.25” WC static pressure. N.ANot applicable for this

project

4

Each flow measuring station shall be complete with its own dedicated microprocessor with a 4-line, 80 character, Alpha

Numeric display and full function key pad. The panel shall be fully programmable and display calculated CFM directly on a

LED monitor on the panel face.


project

5 Each station shall log air flow rates in real time and download data to its control unit (CU) via a RS-232 interface. N.ANot applicable for this

project

6 Provide 24 volt 1 phase power to each flow measuring station. N.ANot applicable for this

project

O Shielded Static Pressure Sensor

1

Provide for each zone where required a shielded static pressure sensor suitable for ceiling surface mounting, complete with

multiple sensing ports, pressure impulse suppression chamber with minimum volume of 50 cubic inches, airflow shielding,

and 3/8" compression takeoff fittings, all contained in a welded stainless steel casing, with polish finish on the exposed

surfaces.


project

2These probes shall be capable of sensing the static pressure in the proximity of the sensor to within 1% of the actual

pressure value while being subjected to a maximum airflow of 1000 FPM from a radial source.N.A


project

Page 29 of 56





3 The shielded static sensing devices shall be used for both reference and space pressure sensing. N.ANot applicable for this

project

4Pressure sensors used for outside air pressure reference purposes shall be equipped with a conduit seal for pneumatic

tubing and bushings for a weather tight installation.N.A


project

PStatic Pressure Traverse Probe - Provide multipoint traverse probes in the duct at each point where static pressure sensing is

required.

1Each duct static traverse probe shall contain multiple static pressure sensors located along the exterior surface of the

cylindrical probe. Pressure sensing points shall not protrude beyond the surface of the probe.N.A


project

2

The duct static traverse probe shall be of 304 stainless steel construction and (except for 3/4" dia. probes with lengths of 24"

or less) be complete with threaded end support rod, sealing washer and nut, and mounting plate with gasket and static

pressure signal fitting. The static traverse probe shall be capable of producing a steady, non-pulsating signal of standard

static pressure without need for correction factors, with an instrument accuracy of 21.


project

Q

Carbon Dioxide Sensor for Demand Controlled Ventilation. Provide a general purpose indoor transmitter/sensor assembly with

removable sensor, UL listed. 4-20 mA DC output representing 0-2000 ppm. Minimum (5) year sensor life, with field-replaceable

sensor unit. Accuracy +/- 1 percent of reading at 77 degF. Long term drift less than 1 percent of scale per year. For wall-

mounted sensors, provide local readout display.


project

R Venturi Flowmeter - Provide venture flowmeters with the following features:

1Pressure drop on venturi type flow meters shall not exceed 0.25" WC. Each venturi low and high pressure taps shall be

equipped with nipples, valves and quick disconnects.N.A


project

2 Equip each venturi with a metal identification tag indicating the size, location, GPM and meter reading for the GPM specified. N.ANot applicable for this

project

3Provide (1) 6" dial differential pressure meter of the proper range to determine piping system flow rate. The meter shall be the

property of the Owner.N.A


project

4Venturi meters shall utilize flanged or screwed connections for removal purposes and shall be rated for the system operating

pressures.N.A


project

5The venturi flow meter shall be factory calibrated to provide a minimum of flow accuracy between actual and factory flow

calibration data.N.A


project

S Current Transformers - Provide current transformers with the following features:

Page 30 of 56





1The current transformers shall be designed to be installed or removed without dismantling the primary bus or cables. The

transformer shall be of a split core design.N.A


project

2The core and windings shall be completely encased in a UL approved thermoplastic rated 94VA. No metal parts shall be

exposed other than the terminals.N.A


project

3 Frequency Limits: 50 to 400 Hz. Insulation: 0.6 KV Class, 10 KV BIL. N.ANot applicable for this

project

4 Accuracy: ± 1% at 5.0 to 25.0 VA accuracy class with U.P.F. burden. N.ANot applicable for this

project

5 Provide a disconnect switch for each current transformer. N.ANot applicable for this

project

T

Current Sensing Switches - Current sensing switch shall be self-powered with solid-state circuitry and a dry contact output.

Current sensing switches shall consist of a solid state current sensing circuit, adjustable trip point, solid state switch, SPDT

relay and an LED indicating the on or off status. A conductor of the load shall be passed through the window of the device. It

shall accept over current up to twice its trip into range.


project

U

Relays - Relays other than those associated with digital output cards shall be general purpose, enclosed plug-in type with 8-pin

octal plug and protected by a heat and shock resistant duct cover. Number of contacts and operational function shall be as

required.

Comply

V

Solid State Relays (SSR): Input/output isolation shall be greater than lOE9 ohms with a breakdown voltage of 1500V root

mean square or greater at 60 Hz. The contact life shall be 10 x 10 E6 operations or greater. The ambient temperature range of

SSRs shall be -20 to +140F. Input impedance shall not be less than 500 ohms. Relays shall be rated for the application.

Operating and release time shall be for 100 milliseconds or less. Transient suppression shall be provided as an integral part of

the relay.


project

W

Contactors: Contactors shall be of the single coil, electrically operated, mechanically held type. Positive locking shall be

obtained without the use of hooks, latches, or semipermanent magnets. Contractor shall be double-break-silver-to-silver type

protected by arcing contacts. The number of contacts and rating shall be selected for the application. Operating and release

times shall be 100 milliseconds or less. Contactors shall be equipped with coil transient suppression devices.


project

XDirty Filter Differential Air Pressure Switch - Provide for a large diaphragm operated, SPDT switch, exposed adjustment, 1%

repetitive accuracy.Comply

Page 31 of 56





YDifferential Water Pressure Switch - Provide a double diaphragm type, brass or stainless wetted parts, min. 200 psi working

pressure. Adjustable cut-in and differential, SPDT snap acting switch suitable for 120 VAC control circuit.N.A


project

ZWater Flow Switch (Paddle Type) - Provide a brass body, aluminum housing, and stainless steel segmented paddle. Magnetic

link between paddle movement and switch movement.N.A


project5.2 Valves and Actuators

A

General - Provide electric and electronic control system products in sizes and capacities indicated, consisting of automatic

control valves, automatic control dampers, thermostats, clocks, sensors, controllers, and other components as required for

complete installation. Except as otherwise indicated, provide manufacturer’s standard control system components as indicated

by published product information, designed and constructed as recommended by manufacturer. Provide electric control

systems with the following functional and construction features as indicated.


project

B Automatic Control Valves

1

Provide automatic control valves suitable for the specified controlled media of the type and general construction indicated.

Where type or general construction is not indicated, provide selection as determined by manufacturer for installation

requirements and pressure class, based on controlled media, maximum pressure and temperature rating of piping system,

and other pertinent application requirements. Unless otherwise indicated, provide valves which mate and match material of

connecting piping. Provide equipment control valves with control valve actuators of required input power type and control

signal type that will accurately position the flow control element and provide sufficient force to achieve required leakage

specification.


project

a) Distribution Valves

1) Flanged Valves, line size 2.5” to 6” N.ANot applicable for this

project

a) Controlled Media Specific Items (Select one or more of the following controlled media)

1)Steam - The control valve shall be suitable for saturated steam to a maximum temperature of 337°F (170°C) and a

maximum pressure of 100 psig (690 kPa). A Linear flow characteristic and stainless steel trim is recommended.N.A


project

Page 32 of 56





2)

Water - The control valve shall be suitable for chilled water to a minimum of 32°F (0°C) and hot water to a maximum

temperature of 250°F (120°C). A modified equal percentage flow characteristic is recommended. Bronze trim is

recommended for operating differential pressures up to 25psi. Stainless steel trim is recommended for operating

differential pressures up to 50psi.


project

3)

Glycol Solutions - The control valve shall be suitable for 50% ethylene or propylene glycol solutions, chilled

glycol/water solutions to a minimum of 20°F (-7°C) and hot glycol/water solutions to a maximum temperature of 250°F

(120°C). A modified equal percentage flow characteristic is recommended. Bronze trim is recommended for operating

differential pressures up to 25psi. Stainless steel trim is recommended for operating differential pressures up to 50psi.


project

b) General Construction Materials/Applicable Standards - Select one or both of the following Pressure Classes.

1)Pressure Class 125 - Control valve bodies shall be constructed of gray cast iron according to ASTM A126B, and

shall meet requirements of ANSI B16.1, pressure class ANSI 125.N.A


project

2)Pressure Class 250 - Control valve bodies shall be constructed of gray cast iron according to ASTM A126B, and

shall meet requirements of ANSI B16.1, pressure class ANSI 250.N.A


project

3)Flange Connection Dimensions - For Class 125 and Class 250 valve assemblies, flange dimensions shall be

according to ANSI B16.1, and valve body flange-to-flange dimensions shall be according to ANSI/ISA S75.03.N.A


project

4) Flow Rate (Cv) - The control valve flow rate (Cv) shall meet the requirements of ANSI/ISA S75.02. N.ANot applicable for this

project

Select one or both of the following flow characteristic types. N.ANot applicable for this

project

5) Linear Flow Characteristic - The control valve shall have a linear flow characteristic, according to ANSI/ISA S75.11. N.ANot applicable for this

project

6) Equal Percentage Flow Characteristic - The control valve shall have a modified equal percentage flow characteristic. N.ANot applicable for this

project

7) Rangeability - The control valve shall have a minimum rangeability of 100:1. N.ANot applicable for this

project

Page 33 of 56





8)Leakage Class IV (0.01%) - Valve shall meet the requirements of seat leakage Class IV according to ANSI/FCI 70.2,

with no more than 125% of nominal force necessary to balance fluid forces applied to valve stem.N.A


project

Select one or both of the following stem packing types.

9)Chilled and Hot Water Packing - Valve stem packing shall be of a cartridge type and shall contain at least two EPDM

o-rings.N.A


project

10)Steam Packing - Valve stem packing shall be of a spring- loaded cartridge type and shall contain at least seven

Teflon v-rings and one EPDM o-ring.N.A


project

Select one or both of the following trim material types. Stainless steel is recommended for steam applications and high

differential pressure applications. Bronze trim is recommended for normal duty water service.N.A


project

11)Bronze Trim - Control valve seat shall be made of stainless steel according to UNS S30300 or ASTM A582 Type

303, and plug shall be made of bronze according to UNS C84400.N.A


project

12)Stainless Trim - Control valve seat and plug shall be made of stainless steel according to UNS S30300, or ASTM

A582 Type 303.N.A


project

13) Stem Materials - Valve stem shall be made of polished stainless steel according to ASTM A581/A or ASTM A582/A. N.ANot applicable for this

project

c) Service Parts

1) Packings - Select one or both of the following stem packing types.

(i)Chilled and Hot Water Packing - Valve stem packing shall be of a cartridge type and shall contain at least two

EPDM o-rings. The cartridge type packing shall be replaceable as a unit.N.A


project

(ii)Steam Packing - Valve stem packing shall be of a spring-loaded cartridge type and shall contain at least three



project

2) Trim - Plug and Stem - The control plug shall be replaceable as a unit.

2) Threaded Valves, line 0.5” to 2” N.ANot applicable for this

project

a) Controlled Media Specific Items - Select one or more of the following controlled media.

Page 34 of 56






maximum pressure of 100 psig (690 kPa). A Linear flow characteristic and stainless steel trim is recommended.N.A


project

2)


temperature of 250°F (120°C). A modified equal percentage flow characteristic is recommended. Bronze or brass trim

is recommended for operating differential pressures up to 25psi. Stainless steel trim is recommended for operating

differential pressures up to 50psi.


project

3)


glycol/water solutions to a minimum of 20°F (-7°C) and hot glycol/water solutions to a maximum temperature of 250°F

(120°C). A modified equal percentage flow characteristic is recommended. Bronze or brass trim is recommended for

operating differential pressures up to 25psi. Stainless steel trim is recommended for operating differential pressures

up to 50psi.


project

b) General Construction Materials/Applicable Standards

1)Pressure Class 250 - Control valve bodies shall be constructed of cast bronze according to UNS C84400 or forged

brass according to UNS C37700, and shall meet requirements of ANSI B16.1, pressure class ANSI 250.N.A


project

2) Threaded Connection Dimensions - Threaded connection specifications shall be according to ANSI B2.1. N.ANot applicable for this

project


project

Select one or both of the following flow characteristic types.


project

5) Equal Percentage Flow Characteristic - The control valve shall have a modified equal percentage flow characteristic. N.ANot applicable for this

project

6) Range ability - The control valve shall have a minimum range ability of 100:1. N.ANot applicable for this

project

Page 35 of 56








project

Select one or both of the following stem packing types.

8)Chilled and Hot Water Packing - Valve stem packing shall be of a cartridge type and shall contain at least two EPDM

o-rings.N.A


project

9)Steam Packing - Valve stem packing shall be of a spring- loaded cartridge type and shall contain at least three Teflon

v-rings and one EPDM o-ring.N.A


project

Select one or both of the following trim material types. Stainless steel is recommended for steam applications and high

differential pressure applications. Bronze/Brass trim is recommended for normal duty water service.N.A


project

10)

Bronze/Brass Trim - Control valve seat shall be made of stainless steel according to UNS S30300 or ASTM A582

Type 303, and plug shall be made of bronze according to UNS C84400 and/or brass according to UNS C36000 or

C37700


project


A582 Type 303.N.A


project


project

c) Service Parts

1) Packings - Select one or both of the following stem packing types. N.ANot applicable for this

project

(i)Chilled and Hot Water Packing - Valve stem packing shall be of a cartridge type and shall contain at least two

EPDM o-rings. The cartridge type packing shall be replaceable as a unit.N.A


project

(ii)Steam Packing - Valve stem packing shall be of a spring-loaded cartridge type and shall contain at least three



project

2) Trim - Plug and Stem - The control plug and stem shall be replaceable as a unit. N.ANot applicable for this

project

b) Terminal Unit Valves

Page 36 of 56





1) Threaded Valves, line 0.5” to 1.5” N.ANot applicable for this

project

a) Controlled Media Specific Items - Select one or more of the following controlled media.


maximum pressure of 15 psig (103.5 kPa). A linear flow characteristic and stainless steel trim is recommended.N.A


project

2)


temperature of 250°F (120°C). Bronze or brass trim is recommended for operating differential pressures up to 25psi.

Stainless steel trim is recommended for operating differential pressures up to 50psi.


project

3)


glycol/water solutions to a minimum of 32°F (0°C) and hot glycol/water solutions to a maximum temperature of 250°F

(120°C). Bronze or brass trim is recommended for operating differential pressures up to 25psi. Stainless steel trim is

recommended for operating differential pressures up to 50psi.


project

b) General Construction Materials/Applicable Standards

1)Pressure Class 250 - Control valve bodies shall be constructed of cast bronze according to UNS C84400 or forged

brass according to UNS C37700, and shall meet requirements of ANSI B16.1, pressure class ANSI 250.N.A


project


project


project

4)Modified Equal Percentage Flow Characteristic - The control valve shall have a modified equal percentage flow

characteristic, according to ANSI/ISA S75.11.N.A


project

5)Rangeability - The control valve shall have a minimum rangeability of 100:1 on valves with a Cv value greater than or

equal to 1.0 and a minimum rangeability of 50:1 on valves with a Cv value less than 1.0.N.A


project




project

Page 37 of 56





7) Chilled Water, Hot Water and Steam Packing - Valve stem packing shall contain at least two EPDM o- rings. N.ANot applicable for this

project

Select one or both of the following trim material types.

Stainless steel is recommended for steam applications and high differential pressure applications. Bronze/Brass trim

is recommended for normal duty water service.


project

8)Bronze/Brass Trim - Control valve seat and plug shall be made of bronze according to UNS C84400 and/or brass

according UNS C36000 or C37700.N.A


project


A582 Type 303.N.A


project


project

c) Zone Valves

1) Threaded or Sweat Connection Valves, line size 0.5” to 1”. N.ANot applicable for this

project

a) Controlled Media Specific Items - Select one or more of the following controlled media. N.ANot applicable for this

project

1)Water - The control valve shall be suitable for chilled water to a minimum of 34°F (1°C) and hot water to a maximum

temperature of 230°F (110°C).N.A


project

2)



(110°C).


project

b) General Construction Materials/Applicable Standards N.ANot applicable for this

project

1)Pressure Class 125 - Control valve bodies shall be constructed of forged brass and shall meet requirements of ANSI

B16.1, pressure class ANSI 125.N.A


project

Select one or more of the following connection types. N.ANot applicable for this

project


project

Page 38 of 56





3) Sweat Connection Dimensions - Sweat connection specifications shall be according to ANSI B16.22. N.ANot applicable for this

project


project


project

6)Leakage Class III (0.1%) - Valve shall meet the requirements of seat leakage Class III according to ANSI/FCI 70.2,



project

7) Chilled and Hot Water Packing - Valve stem packing shall contain at least two EPDM o- rings. N.ANot applicable for this

project

8) Brass Trim - Control valve seat and plug shall be made of brass according UNS C36000. N.ANot applicable for this

project


project

d) Ball Valves N.ANot applicable for this

project

1) Threaded Valves, line size 0.5” to 2” N.ANot applicable for this

project

a) Controlled Media Specific Items - Select one or more of the following controlled media. N.ANot applicable for this

project

1)Water - The control valve shall be suitable for chilled water to a minimum of 32°F (0°C) and hot water to a maximum

temperature of 250°F (120°C).N.A


project

2)



(120°C).


project

b) General Construction Materials/Applicable Standards N.ANot applicable for this

project

Page 39 of 56





1)Body Material - Control valve bodies shall be constructed of forged brass according to ASTM B283, and shall meet

requirements of no less than 360 PSI at 250°F.N.A


project

2)Ball Material - Valve ball shall consist of chemically nickel-plated brass. Manufacturer shall provide a glass filled

polymer ball insert, as an integral part of the ball, for modulating flow applications.N.A


project


project


project

5)Equal Percentage Flow Characteristic - The control valve shall have an equal percentage flow characteristic,

according to ANSI/ISA S75.11.N.A


project




project

7) Chilled and Hot Water Packing and Stem - Valve shall have a blow-out proof stem with two EPDM O-rings. N.A Not applicable for this

8) Stem Materials - Valve stem shall be made of brass. N.ANot applicable for this

project

9) Manual Operation - Valve shall have the ability to be manually operated in the event of a power failure. N.ANot applicable for this

project

C Control Valve Actuators N.ANot applicable for this

project

1 Pneumatic Valve Actuators N.ANot applicable for this

project

a) General Requirements N.ANot applicable for this

project

1) Operating pressure - Valve actuator shall operate with supply pressure up to a maximum of 35psi (240kPa). N.ANot applicable for this

project

2)Safety pressure - Valve actuator shall withstand a maximum supply overpressure of 50psi (345kPa) then resume normal

operation when control pressure is applied.N.A


project

Page 40 of 56





3)Pressure vessel integrity - Valve actuator shall be tested for pressure vessel integrity at a level of triple maximum

operating pressure.N.A


project

b) Distribution Valve Actuators N.ANot applicable for this

project

1)Mounting locations - The control valve actuator shall be suitable for mounting in plenum spaces as defined by NEC,

Article 100 - Definitions.N.A


project

2)Direct Coupled - The control valve actuator shall be directly coupled to the valve, with no intermediary linkage kit required,

to facilitate repair and/or replacement.N.A


project

3)Control signal - The actuator control signal shall be 5 psi nominal, and shall have a fully adjustable start point over the

nominal range of 3 to 10 psi, to facilitate operational sequencing.N.A


project

4)Control signal accuracy – Valve actuator position resolution shall be >100:1,with a hysteresis <5% of nominal control

signal span.N.A


project

Select one of the following operating ambient specifications. N.ANot applicable for this

project

5)

Normal duty operating ambient conditions - The control valve actuator shall be suitable for operation to a minimum

temperature of -40°F (-40°C), and a maximum temperature of 150°F (65°C), with 0-95% non-condensing ambient

humidity, and dry air supply.


project

6)

Heavy duty operating ambient conditions - The control valve actuator shall be suitable for operation to a minimum




project

7)Accessories - For 8” and 12” pneumatic actuators only - The valve actuator shall have provisions to field or factory mount

a pilot positioner.N.A


project

c) Terminal Unit Valve Actuators N.ANot applicable for this

project

1)Mounting locations - The control valve actuator shall be suitable for mounting in plenum spaces as defined by NEC,

Article 100 - Definitions.N.A


project

2)Direct Coupled - The control valve actuator shall be directly coupled to the valve, with no intermediary linkage kit required,

to facilitate repair and/or replacement.N.A


project

Page 41 of 56





3)Control signal - The actuator control signal shall be 5 psi nominal, and shall have a fully adjustable start point over the

nominal range of 3 to 10 psi, to facilitate operational sequencing.N.A


project

4)Control signal accuracy - Valve actuator position resolution shall be >100:1, with a hysteresis <5% of nominal control

signal span.N.A


project

5)

Normal duty operating ambient conditions - The control valve actuator shall be suitable for operation to a minimum




project

2 Electronic Valve Actuators 24Vac Powered

a) General Requirements

1) Applicable Standards

a) The valve actuator shall be identified as a Class 2 operating device, according to NEC, Article 725. N.ANot applicable for this

project

b)The valve actuator shall be tested and listed by Underwriters Laboratories according to UL873, and shall bear the UL

and cUL approval symbols.N.A


project

c) The valve actuator shall be designed and tested to NEMA 1 standards, according to NEMA 250. N.ANot applicable for this

project

For product likely to be exported to or used in Europe or a European territory or commonwealth. N.ANot applicable for this

project

d)The valve actuator shall bear the CE mark, and shall be designed and tested according to EU directives 89/336/EWG

and 72/23/EWG.N.A


project

2) Distribution Valve Actuators - Omit the following for Linkage Coupled Actuators. N.ANot applicable for this

project

a)

Direct Coupled - The control valve actuator shall be directly coupled to the valve, with no intermediary linkage kit

required, to facilitate repair and/or replacement. The control valve actuator shall be equipped with a manual override

feature, allowing operation of the control valve upon loss of control power or signal, without the aid of a separate tool or

auxiliary power supply.


project

b) Fail Safe Operation - Select one or more of the following fail safe operation options. N.ANot applicable for this

project

Page 42 of 56





1)Upon power failure or loss of control signal, the valve actuator shall return to a fail-safe operating position by means of

a mechanical spring.N.A


project

2) Upon power failure, the valve actuator shall maintain its last controlled position (fail in place). N.ANot applicable for this

project

c)Visual Position Indication - The valve actuator shall provide indication of valve stem position, clearly visible from a

distance of 15ft. (4.5m).N.A


project

3) Terminal Unit Valve Actuators - Omit the following for Linkage Coupled Actuators. N.ANot applicable for this

project

a)






project


project




project

2)Upon power failure or loss of control signal, the valve actuator shall return to a fail-safe operating position by self-

contained electronic means.N.A


project


project




project

4) Zone Valve Actuators N.ANot applicable for this

project

a)






project

Page 43 of 56






project


a mechanical spring. N.A


project


project




project

5) Ball Valve Actuators N.ANot applicable for this

project

a)






project


project




project


project

3) Torque Requirement - The control valve actuator shall provide minimum torque required for full valve shutoff position. N.ANot applicable for this

project

3 Electric Valve Actuator 115Vac/230Vac Powered

a) General Requirements

1) Applicable Standards

a) The valve actuator shall be identified as a Class 1 operating device, according to NEC, Article 725. N.ANot applicable for this

project

b)The valve actuator shall be tested and listed by Underwriters Laboratories according to UL873, and shall bear the UL and

cUL approval symbols.N.A


project

Page 44 of 56





c) The valve actuator shall be designed and tested to NEMA 1 standards, according to NEMA 250. N.ANot applicable for this

project

For product likely to be exported to or used in Europe or a European territory or commonwealth. N.ANot applicable for this

project

d)The valve actuator shall bear the CE mark, and shall be designed and tested according to EU directives 89/336/EWG

and 72/23/EWG.N.A


project

2) Distribution Valve Actuators - Omit the following for Linkage Coupled Actuators. N.ANot applicable for this

project

a)

Direct Coupled - The control valve actuator shall be directly coupled to the valve, with no intermediary linkage kit required,

to facilitate repair and/or replacement. The control valve actuator shall be equipped with a manual override feature,

allowing operation of the control valve upon loss of control power or signal, without the aid of a separate tool.


project


project

1)Upon power failure or loss of control signal, the valve actuator shall return to a fail-safe operating position by means of a

mechanical spring.N.A


project


project




project

3) Terminal Unit Valve Actuators - Omit the following for Linkage Coupled Actuators. N.ANot applicable for this

project

a)





project


project

Page 45 of 56








project


project




project

4) Zone Valve Actuators N.ANot applicable for this

project

a)





project


project




project


project




project

D Direct Coupled Damper Actuators

1 Actuators shall be designed for mounting directly to the damper shaft without the need for connecting linkages.

2

All actuators having more than 100 lb-in torque output shall have a self-centering damper shaft clamp that guarantees

concentric alignment of the actuator's output coupling with the damper shaft. The self-centering clamp shall have a pair of

opposed "V" shaped toothed cradles; each having two rows of teeth to maximize holding strength. A single clamping bolt shall

simultaneously drive both cradles into contact with the damper shaft.


project

3All actuators having more than a 100 lb-in torque output shall accept a 1" diameter shaft directly, without the need for

auxiliary adapters.N.A


project

Page 46 of 56





4 All actuators having more than 100 lb-in torque output shall have an all metal housing made from die-cast aluminum. N.ANot applicable for this

project

5All actuators must provide overload protection throughout the full range of rotation, enabling the actuator to detect a blockage

in the damper and withstand a continuous stall condition without premature failure, or degradation in performance.N.A


project

6 All spring return actuators shall be capable of both clockwise or counterclockwise spring return fail-safe operation. N.ANot applicable for this

project

7

All spring return actuators shall use a continuously engaged mechanical return spring that returns the actuator to a fail-safe

position within 15 seconds, under rated temperature and load, in response to a loss of power. Other fail-safe mechanisms

which are either engaged only in response to a loss of power, or which are non-mechanical are not acceptable.


project

8 All actuators shall provide a means of manually positioning the output coupling in the absence of power. N.ANot applicable for this

project

9Dual independently adjustable auxiliary switches must be integral to the actuator, thus maintaining a low total installed cost.

The addition of this feature as an accessory kit is not acceptable.N.A


project

10All actuators having more than 100 lb-in torque shall provide a factory mounted electrical cable (3 feet) and conduit fitting,

thus maintaining a low total installed cost.N.A


project

11 All actuators shall not require more than 10 VA. N.ANot applicable for this

project

12 Proportional actuators shall accept a 0-10 VDC or 4-20mA control signal, and provide a 0-10 VDC feedback signal. N.ANot applicable for this

project

13 All actuators shall provide an easily readable high contrast yellow on black position indicator. N.ANot applicable for this

project

14All actuators shall be designed for a minimum of 50,000 full stroke cycles at the actuator’s rated torque and temperatures,

and manufactured using IS09002 and IS014000 registered procedures, and shall be UL873 and CSA22.2 listed.N.A


project

E Accessories

1 Identification tags shall be available for all valves; tags shall be indelibly marked with Cv, model number and location. N.ANot applicable for this

project

Page 47 of 56





Part 6 EXECUTION6.1 Examination

A Verification

1 Verify that all systems are ready to receive work. Comply

2The project plans shall be thoroughly examined for control device and equipment locations, and any discrepancies, conflicts,

or omissions shall be reported to the Architect/Engineer for resolution before rough-in work is started.Comply

3The contractor shall inspect the site to verify that equipment is installable as show, and any discrepancies, conflicts, or

omissions shall be reported to the Architect/Engineer for resolution before rough-in work is started.Comply

4

The Control System Contractor shall examine the drawings and specifications for other parts of the work, and if head room or

space conditions appear inadequate or if any discrepancies occur between the plans and his work and the plans for the work

of others, he shall report such discrepancies to the Architect/Engineer and shall obtain written instructions for any changes

necessary to accommodate his work with the work of others.

Comply

B General Installation Requirements

1) Install all control components in accordance with manufacturer's instructions and recommendations. Comply

2)If the controls contractor is responsible for providing the damper then provide mixing dampers of parallel blade construction

arranged to mix streams. Provide separate minimum outside air damper section adjacent to variable outside air damper.Comply

3)

Mount control panels adjacent to associated equipment on vibration-free walls or freestanding angle iron supports. One

cabinet may accommodate more than one system in same equipment room. Provide nameplates for instruments and controls

inside cabinet and nameplates on cabinet face.

Comply

4)After completion of installation, test and adjust control equipment. Submit data showing setpoints and final adjustments of

controls.Comply

5)Install equipment, piping, wiring/conduit parallel to building lines (i.e., horizontal, vertical, and parallel to walls) wherever

possible.Comply

6) Provide sufficient slack and flexible connections to allow for vibration of piping and equipment. Comply

7) Verify integrity of all wiring to ensure continuity and freedom from shorts and grounds. Comply

Page 48 of 56





8)All equipment, installation, and wiring shall comply with acceptable industry specifications and standards for performance,

reliability, and compatibility and be executed in strict adherence to local codes and standard practices.Comply

C Graphical User Interface PC Location

15Install Graphical User Interface PC in the location indicated. Do not deliver the Graphical User Interface PC to the job site

until a proper location has been prepared. Location shall be clean and dry, free from construction dust and debris.Comply

16Location shall have a dedicated work surface (table or desk with chair). Work surface shall be provided by Owner or General

Contractor for use by this Contractor.Comply

17Location shall have ample storage provisions for documentation and manuals, either shelving or a four drawer upright filing

cabinet. Storage provisions shall be provided by Owner or General Contractor for use by this Contractor.Comply

18 Location shall have a dedicated locked electrical circuit for use by this Contractor. Comply

D Ethernet Network Connection

19All nevices that require a connection to the LAN or access to an ISP shall be approved by the owners Information

Technology representitive prior to installation.Comply

20 All ethernet communication connections shall be provided by the owner or General Contractor. Comply6.2 Electrical System Installation

A Comply with all Division 16 Installation Requirements. Comply

BProvide interlock wiring between supply and exhaust fans, electrical wiring for relays (including power feed) for temperature and

pressure indication.Comply

C

Provide power wiring, conduit and connections for low temperature thermostats, high temperature thermostats, alarms, flow

switches, actuating devices for temperature, humidity, pressure and flow indication, point resets and user disconnect switches

for electric heating, appliances controlled by this Section.

Comply

D Provide all other wiring required for the complete operation of the specified systems. Comply

EWhere required install all wiring raceway systems complying with the requirements of the National Electrical Code. All required

conduit shall be installed in EMT.Comply

FProvide interlock wiring between supply and exhaust fans, electrical wiring for relays (including power feed) for temperature and

pressure indication.Comply

Page 49 of 56





G Surge Protection and Lighting Protection

1All equipment and all communication media shall be suitably protected from damage associated with electrical surge and

lightning strike. Submittal and approval is required for all such devices.Comply

2 All input-output hardware and instrumentation located outdoors shall be isolated using approved surge suppression devices. Comply

3 All telephone modem connections shall be isolated using approved surge suppression devices. Comply

4 All building-to-building communication connections shall be isolated using approved surge suppression devices. Comply

5All temperature control panels and controllers shall be provided with a control power transformer with fuse protection on both

the primary and secondary sides.Comply

HProvide electrical disconnecting means for servicing, for each control panel, digital controller, router, transformer, power supply,

and other devices that are served by 120VAC or higher voltage.Comply

I

Enclosures shall be fabricated of 14ga. steel with sub-panels for component mounting and have removable, hinged doors.

Enclosures shall be sized to house the controllers, power supplies, transformers, relays, wire duct and miscellaneous

equipment required to support the application. Enclosures shall be provided for all controllers that are not located within an

OEM provided mechanical equipment or on a VAV box.

Comply

JEnclosure power supply shall provide at least one 40VA and one 100VA transformer with individual on/off switches and circuit

breakers and two 120VAC outlets. Enclosures and power supplies shall be UL listed Class II.Comply

K Network Communication Requirements

1 Wired network communication shall be via channels in compliance with manufactures recommendations for communications Comply

2 In all communication conduits, provide one spare twisted pair to be installed, tagged and labeled at each end. Comply

3Communication conduits shall not be installed closer than six feet from high power transformers or run parallel within six feet

of electrical high power cables. Care shall be taken to route the cable as far from interference generating devices as possible.Comply

4 There shall be no power wiring, in excess of 30 VAC rms, run in conduit with communications wiring. Comply

L Input/Output Control Wiring

1Platinum 1k ohm and thermistor 10K type II wiring shall be two- wire or four-wire twisted, shielded, minimum number 22

gauge.Comply

2 Other analog inputs shall be a minimum of number 22 gauge, twisted, shielded. Comply

Page 50 of 56





3 Binary control function wiring shall be a minimum of number 18 gauge. Comply

4 Analog output control functions shall be a minimum of number 18 gauge, twisted, shielded. Comply

5 Binary input wiring shall be a minimum of number 18 gauge. Comply

M

Splices in shielded cables shall consist of terminations and the use of

shielded cable couplers, which maintain the integrity of the shielding.

Terminations shall be in accessible locations. Cables shall be harnessed with cable ties as specified herein.

Comply

N Conduit and Fittings

1Conduit for Control Wiring, Control Cable and Transmission Cable: Electrical metallic tubing (EMT) with compression fittings,

cold rolled steel, zinc coated or zinc-coated rigid steel with threaded connections.Noted

2Outlet Boxes (Dry Location): Sheradized or galvanized drawn steel suited to each application, in general, four inches square

or octagon with suitable raised cover.Noted

3 Outlet Boxes (Exposed to Weather): Threaded hub cast aluminum or iron boxes with gasket device plate. Noted

4Pull and Junction Boxes: Size according to number, size, and position of entering raceway as required by National Electrical

Codes. Enclosure type shall be suited to location.Noted

5Install low voltage power and field level network and LAN communication trunks in conduit in the following locations

regardless of local building code allowances otherwise.Noted

a) Mechanical rooms.

b) Electrical rooms.

c) Vertical risers (exception: fire rated continuous closet like a telephone closet).

d) Open Areas where the wiring will be exposed to view or tampering.

6Conceal conduit within finished shafts, ceilings and wall as required. Install exposed conduit parallel with or at right angles to

the building walls.Noted

OWhere Class 2 wires are in concealed and accessible locations including ceiling return air plenums, approved cables not in

raceway may be used provided that:Noted

1Circuits meet NEC Class 2 (current-limited) requirements. (Low- voltage power circuits shall be sub-fused when required to

meet Class 2 current-limit.)Noted

2 All cables shall be UL listed for application, i.e., cables used in ceiling plenums shall be UL listed specifically for that purpose. Noted

Page 51 of 56





P

Do not install Class 2 wiring in conduit containing Class 1 wiring. Boxes

and panels containing high voltage may not be used for low voltage wiring except for the purpose of interfacing the two (e.g.,

relays and transformers).

Noted

QWhere Class 2 wiring is run exposed, wiring to be run parallel along a

surface or perpendicular to it, and NEATLY tied at 3m (10 ft.) intervals.Noted

R

All wire-to-device connections shall be made at a terminal blocks or

terminal strip. All wire-to-wire connections shall be at a terminal block, or with a crimped connector. All wiring within enclosures

shall be neatly bundled and anchored to permit access and prevent restriction to devices and terminals.

Noted

S Plug or cap all unused conduit openings and stub-ups. Do not use caulking compound. Noted

TRoute all conduit to clear beams, plates, footings and structure members. Do not route conduit through column footings or

grade beams.Noted

U Set conduits as follows:

1Expanding silicone fire stop material sealed watertight where conduit is run between floors and through walls of fireproof

shaft.Noted

2 Oakum and lead, sealed watertight penetration through outside foundation walls. Noted

V Cap open ends of conduits until conductors are installed.

W

Where conduit is attached to vibrating or rotating equipment, flexible metal conduit with a minimum length of 18 inches and

maximum length of 36 inches shall be installed and anchored in such a manner that vibration and equipment noise will not be

transmitted to the rigid conduit.

Noted

XWhere exposed to the elements or in damp or wet locations, waterproof flexible conduit shall be installed. Installation shall be

as specified for flexible metal conduit.Noted

YProvide floor, wall, and ceiling plates for all conduits passing through walls, floors or ceilings. Use prime coated cast iron, split-

ring type plates, except with polished chrome-plated finish in exposed finished spaces.Noted

6.3 Temperature Sensors

ATemperature sensor assemblies shall be readily accessible and adaptable to each type of application in such manner as to

allow for quick, easy replacement and servicing without special tools or skills.Comply

B Strap-on mountings shall not be permitted. Noted

Page 52 of 56





COutdoor installations shall be; of weatherproof construction or in appropriate NEMA enclosures. These installations shall be

protected from solar radiation and wind effects. Protective shield shall be stainless steel.Comply

D Sensors shall be with enclosure where located in finished space. Comply

E

Sensors in ducts shall be mounted in locations to sense the correct temperature of the air only and shall not be located in dead

air spaces or positions obstructed by ducts, equipment, and so forth. Locations where installed shall be within the vibration and

velocity limit of the sensing element. Ducts shall be securely sealed where elements or connections penetrate ducts to avoid

measuring false conditions.

Comply

F

All sensors measuring temperatures in pipes larger than 2 inches in diameter or in pressure vessels shall be supplied with wells

properly fabricated for the service. Wells shall be noncorrosive to the medium being measured and shall have sufficient

physical strength to withstand pressures and velocities to which they are subjected. Wells shall be installed in the piping at

elbows where piping is smaller than the length of the well to effect proper flow across the entire area of the well.

Comply

G

All field sensors, transmitters, actuators, switches, etc. shall be field calibrated. The calibration shall be guaranteed for the

period of the control system warranty. Any corrections or re-calibration required during the warranty will be performed at no cost

to Owner. Calibration methods, means, instruments, and standards shall be in strict accordance with IS0-9000 standards.

Comply

6.4 Controls Valves, Control Dampers and Actuators

A Control Valves.

1 Control valves shall be installed by the Div. 15 contractor. N.ANot applicable for this

project

2Coordinate with the Div. 15 contractor and verify that each control valve can be serviced, including adjustment and removal

of the actuator.N.A


project

3 All control valves shall have unions installed at each inlet and outlet to permit removal of the valve for servicing. N.ANot applicable for this

project

4

Valves shall be installed with stems vertical where possible. Where space conditions require valves to be mounted with stems

greater than 45° off vertical the actuator shall be externally supported. In no case will the control valve be mounted with the

stem greater than 90° off of vertical.


project

B Control Dampers.

5 Control dampers shall be installed by Div. 15 contractor. Noted

Page 53 of 56





6Coordinate with the Div. 15 contractor the service access requirements of the control dampers, and verify that each control

damper can be serviced, including adjustment and removal of the actuator.Noted

7Div. 15 Contractor shall provide necessary blank-off plates required for installation of reduced-size dampers (dampers that

are smaller than duct size).Noted

8 Furnish interconnecting hardware, linkages, etc. for installation of multiple section dampers by Div. 15 Contractor. Noted

6.5 Access Doors.

HDiv. 15 Contractor shall provide access doors or other approved means of access through ducts for service to control

equipment.Comply

6.6 Instrument Enclosures and Control Panels

A

Securely mount all control panels and enclosures to wall or structure

using bolts, anchors, etc. Mount enclosures and control panels with top at 60 inches above finished floor, unless noted

otherwise. Field fabricate enclosure mounting rack from Unistrut or Kindorf, where required. Locate enclosures and control

panels to ensure full door swing.

Comply

B Seal all conduit entrances into enclosures and control panels, water tight. Comply

C Locate enclosures indoors where possible. Provide drains and block heaters for all panels located outdoors. Comply6.7 Identification of Hardware and Wiring

AAll wiring and cabling, including that within factory-fabricated panels shall be labeled at each end within 2" of termination with a

cable identifier and other descriptive information.Comply

B Permanently label or code each point of field terminal strips to show the instrument or item served. Comply

C Identify control panels with minimum 1 inch letters on nameplates. Comply

D Identify all other control components with permanent labels. Identifiers shall match record documents. Comply

E

Affix engraved tags plates on each motor starter controlled through the EMS. Minimum tag size shall be 1 in. X 3 in. Minimum

lettering size shall be 3/16 in. high. Tag shall be red with white lettering. Tags shall indicate the following:

C A U T I O N This equipment is operating under automatic control and may start at any time without warning

Comply

F Identify room sensors relating to terminal box or valves with nameplates. Comply6.8 Cleaning

Page 54 of 56





A

This contractor shall clean up all debris resulting from his or her activities daily. The contractor shall remove all cartons,

containers, crates, etc. under his control as soon as their contents have been removed. Waste shall be collected and placed in

a location designated by the Construction Manager or General Contractor.

Noted

BAt the completion of work in any area, the Contractor shall clean all of his/her work, equipment, etc., making it free from dirt and

debris, etc.Noted

C

At the completion of work, all equipment furnished under this Section shall be checked for paint damage, and any factory-

finished paint that has been damaged shall be repaired to match the adjacent areas. Any metal cabinet or enclosure that has

been deformed shall be replaced with new material and repainted to match the adjacent areas.

Noted

6.9 Protection

AThe Contractor shall protect all work and material from damage by his/her work or workers, and shall be liable for all damage

thus caused.Noted

B

The Contractor shall be responsible for his/her work and equipment until finally inspected, tested, and accepted. The

Contractor shall protect his/her work against theft or damage, and shall carefully store material and equipment received on-site

that is not immediately installed.

The Contractor shall close all open ends of work with temporary covers or plugs during storage and construction to prevent

entry of foreign objects.

Noted

6.10 Field Quality Control

AAll work, materials and equipment shall comply with the rules and regulations of applicable local, state, and federal codes and

ordinances as identified in Part 1 of this Section.Noted

BContractor shall continually monitor the field installation for code compliance and quality of workmanship. All visible piping

and/or wiring runs shall be installed parallel to building lines and properly supported.Noted

C Contractor shall arrange for field inspections by local and/or state authorities having jurisdiction over the work. Noted6.11 Performance Evaluation/Acceptance Procedure

A

General. - Acceptance of the control system depends in part upon successful demonstration of control system performance.

The SI shall prepare a detailed final functional test and verification plan indicating in a step-by-step logical fashion the

procedures by which the control system will be tested. This shall include the following procedures:

Comply

1 Sequence of Operation - Demonstrate all sequences of operation. Comply

2 Test Documentation - Provide standard formatted documentation for each controlled system and element test. Comply

Page 55 of 56





3

Pre-Testing - The control system installer shall have performed pre-testing of all tests on all components before final testing.

If during final testing more than 10 percent of the points or sequences checked are found to be faulty, the Contractor shall

halt the test and re-check all parts of the system test.

Comply

4

Testing Plan. Submit test plan for approval not less than 4 weeks prior to tests. Meet with Owner’s representative, discuss

the test plan, and make necessary revisions. The test plan shall include, as a minimum, for each control system and sub-

system the following:

a) System name. Comply

b) List of devices with brief description of functional purpose of each. Comply

c) The expected signal values transmitted by the sensors/transmitters. Comply

d) The expected signal values transmitted by the controller to the controlled device or actuator. Comply

e) The expected values of the control medium from limit-to-limit. Comply

f) A description of the instrumentation required to test the system, including proof of calibration. Comply

g) A detailed step-by-step process in conducting test and verification. Comply

h) Log sheets on which expected and actual values will be recorded. Comply

i) Other criteria for test to indicate that the system is operating in accordance with Contract requirements. Comply

B

Testing - Inform the Engineer and Owner of all test dates for attendance, so that the Engineer and/or Owner may attend the

test if desired. Perform all tests. Correct all system maladies found in the testing procedure. Retest as required. If Owner’s

representative does not witness test, provide performance certification.

Comply

C

Acceptance - The control systems will not be accepted as meeting the requirements of Completion until all tests described in

this specification have been performed to the satisfaction of both the Engineer and Owner. Any tests that cannot be performed

due to circumstances beyond the control of the Contractor may be exempt from the completion requirements if stated as such

in writing by the Owner's representative.

Comply

Page 56 of 56

EQUIPMENT SCHEDULE

S.NO DESCRIPTION UNITQTY PER

SCHOOL

TOTAL QTY FO

2 SCHOOLMONITORED CONTROLLED

1 Package Unit Nos 26 52

2 Exhaust Fan Nos 23 46

3 Supply Fan No 1 2

4 Variable Air Volume (VAV) Nos 28 56

5 Split A/C Unit Nos 6 12

6 Air Curtain Nos 23 46

1 Electric Fire Pump (E+D+J) Nos 3 6

2 Lift Pump Nos 2 4

3 Booster Pump Nos 10 20

4 Irrigation Water Pump Nos 2 4

5 Domestic Water Pump Nos 2 4

6 Domestic Water Tank Nos 3 6

7 Fire Water Tank No 1 2

1 MV Panel No 1 2

2 Elevator No 1 2

3 Fire Alarm Panel No 1 2

4 Public Address System No 1 2

5 LPG System No 1 2

6 Dimming Panel No 1 2

7 Auto Gas Changer System No 1 2

1 Fire Alarm Panel

2 Power Meter on MV Panel

Miscellaneous

Via Modbus Protocol (250 Points)

HVAC

PROJECT:-CONSTRUCTION OF (2) NEW SCHOOLS AT DOHA &

VILLAGES STAGE(10-A) PACKAGE#4

EQUIPMENT SCHEDULE

Plumbing

Electrical

Via BACnet/IP Protocol (1000 Points)

Page 1

I/O POINT SUMMARY

12

13.12.2015

SI. No. FUNCTION DESCRIPTION QTY AI DI AO DO REMARKS

5

1PACU supply fan start/stop command

5 Relay output from BMS

2 PACU HOA selector switch status 5VFC from unit control panel

3 PACU on/off run Status 5VFC from unit control panel

4 PACU trip alarm status 5VFC from unit control panel

5 PACU air Filter dirty/clean status 5Air differential pressure switch

6PACU Supply fan air flow proof status

5Air differential pressure switch

7 PACU return air temperature 5 Duct temperature sensor

8PACU air temperature set-point (adjustable)

via BMS graphics screen on BMS Workstation

9 PACU Compressor command 10 Relay output from BMS

10 PACU compressor-1 on/off status 5VFC from unit control panel


12PACU compressor-1 trip/alarm status

5VFC from unit control panel



14 CO2 Sensor 5 CO2 Sensor

15Fresh air modulating damper control

50-10V signal to modulating damper actuatot

16Fresh air modulating damper position

50-10V signal from modulating damper actuator



IO POINT SUMMARY (Typical for 1 school)

DDCP-1 (Roof)

Package Unit (Typical)

Page 1 of 15

12

13.12.2015





17 Fire alarm status 5VFC from Fire alarm control panel

Page 2 of 15

12

13.12.2015





TOTAL POINTS 15 50 5 15

6

1 Room temperature with setpoint 6

2 Damper control 6

3 Damper position 6


4

1 Fan enable/disable command 4 Relay output from BMS

2 Fan HOA selector switch status 4VFC from unit control panel

3 Fan run on/off status 4VFC from unit control panel

4 Fan trip/alarm status 4VFC from unit control panel


1

1 SF enable/disable command 1 Relay output from BMS

2 SF HOA selector switch status 1VFC from unit control panel

3 SF run on/off status 1VFC from unit control panel

4 SF trip/alarm status 1VFC from unit control panel


Supply fan

VAV controller with thermostat

Exhaust fan

VAV By-pass Boxes

Page 3 of 15

12

13.12.2015





3

1 Air curtain on/off status 3VFC from unit control panel


2

1 Pump HOA selector switch status 2VFC from unit control panel

2 Pump run on/off status 2VFC from unit control panel

3 Pump trip/alarm status 2VFC from unit control panel


TOTAL POINTS FOR DDCP-1 27 74 11 20

TOTAL POINTS FOR DDCP-1

WITH 10% SPARE30 82 13 22 147

5











DDCP-2 (Roof)

Air curtains

Booster pumps

Page 4 of 15

12

13.12.2015
















6


2 Damper control 6

3 Damper position 6


4






VAV By-pass Boxes


Exhaust fan

Page 5 of 15

12

13.12.2015





4



1

1 System panel healthy status 1VFC from unit control panel

2 System panel faulty 1VFC from unit control panel




WITH 10% SPARE19 75 7 21 122

5












LPG System


DDCP-3 (Roof)

Air curtains

Page 6 of 15

12

13.12.2015














6


2 Damper control 6

3 Damper position 6


5






3

VAV By-pass Boxes

Exhaust fan


Booster pumps

Page 7 of 15

12

13.12.2015









4





WITH 10% SPARE19 86 7 22 134

5













Air curtains

DDCP-4 (Roof)

Page 8 of 15

12

13.12.2015














5


2 Damper control 5

3 Damper position 5


5






1


Exhaust fan

VAV By-pass Boxes

Outdoor Temperature and Humidity

Page 9 of 15

12

13.12.2015





1 Outdoor Temp/Humidity 2Outdoor Temp/Humidity sensor


4





WITH 10% SPARE17 79 6 22 124

6















DDCP-6 (Roof)

Air curtains

Page 10 of 15

12

13.12.2015












5


2 Damper control 5

3 Damper position 5


5






4




VAV By-pass Boxes

Exhaust fan

Air curtains

Page 11 of 15

12

13.12.2015







WITH 10% SPARE18 87 6 26 137

6

1 Split A/C unit on/off status 6VFC from unit control panel

2Split A/C unit enable/disable command


3 Room space air temperature 6 Room temperature sensor


2





3

1 Tank high/low level alarm 6 Liquid level switch


2

1 Pump start/stop command 2 Relay output from BMS


Domestic Water Tank

DDCP-5 (BMS Room G-23B)

Split A/C units

Domestic Water Pump

Irrigation Water Pump

Page 12 of 15

12

13.12.2015








1

1 Pumps run on/off status 3VFC from unit control panel

2 Pumps trip/alarm status 3VFC from unit control panel

3 System Pressure 1 Liquid pressure sensor


1

1 Tank high/low level alarm 2 Liquid level switch


2

1 Pump start/stop command 2 Relay output from BMS





3

1 Water tank High/Low level 6 Level switch

Fire Water Tank

Fire pump set (Electric, Diesel, Jockey)

Lift Pump

Water Tank-Ground Floors

Page 13 of 15

12

13.12.2015






4





WITH 10% SPARE8 53 0 11 72

1

1 Lift panel healthy status 1VFC from unit control panel

2 Lift panel faulty 1VFC from unit control panel


1




1


2 System Healthy status 1VFC from unit control panel


DDCP-7

Elevator

Fire alarm system

Air curtains

Public address system

Page 14 of 15

12

13.12.2015





1




1

1 Breaker status 1VFC from unit control panel

2 general alarm 1VFC from unit control panel


1






WITH 10% SPARE0 14 0 0 14

Dimming Panel

MV panel

Auto Gas Changer system

Page 15 of 15

LIST OF DELIVERABLES

S.NO UNITQty. Per

school

Total Qty. For

2 School

1 No 1 2

2 Lot Lot Lot

3 VAV Controller Nos 28 56

4 Nos 28 56

5 Nos 28 56

6 Nos 1 2

1 Nos 26 52

2 Nos 6 12

3 No 1 2

4 Nos 52 104

5 No 1 2

6 Nos 7 14

7 Nos 5 10

8 Nos 5 10

1 No 1 2

2 No 1 2

3 No 1 2

4 Set 7 14



LIST OF DELIVERABLE ITEMS

Controllers & Softwares

DESCRIPTION

Field Devices

BMS Controllers and Expansion Modules

VAV Transformer

VAV Thermostat

BMS Software

Touchscreen

Report Printer

DDC Enclosure

Alarm Printer

Air Differential Pressure Switch

Liquid Pressure Sensor

Liquid Level Switch

Duct temperature sensor

Miscellaneous

Operator Workstation

Room temperature sensor

Outside temperature/humidity sensor

CO2 Sensor

Modulating Damper Actuator - 10NM

Page 1

CONTROL SCHEMATICS

AI

SUPPLY FAN

AO

DI

DO

AI

AO

DI

DO

PACKAGE UNIT (TYPICAL)

CONDITIONED

RETURN AIR

SUPPLY AIR

PRE FILTER

FRESH AIR

PA

CU

A

IR

F

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M/S. INTEGRA INTERNATIONAL TRADING

E-mail : [email protected]

& CONTRACTING W.L.L

SHEET

OF SUBMITTAL NO :

IITC/E/SP/GL/12/15

31-12-2015MAMCNNNM

CONSTRUCTION OF (2) NEW SCHOOLS AT DOHA & VILLAGES STAGE(10-A)PACKAGE#4


-0101

LEGEND

SD

DAMPER ACTUATOR

DUCT TEMPERATURE/HUMIDITY SENSOR SENSOR

DUCT TEMPERATURE

VALVE & ACTUATOR

QS AIR QUALITY SENSOR

SMOKE DETECTOR

DIFFERENTIAL PRESSURE SWITCH (AIR)

DAMPER

FR

ES

H A

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40VATRF

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230V AC 24V AC

24V AC

0V

VAV BYPASS BOXES



& CONTRACTING W.L.L

SHEET

OF SUBMITTAL NO :

IITC/E/SP/GL/12/15

31-12-2015MAMCNNNM



-0101

SUPPLY AIR

SPLIT A/C UNITS

AI

AO

DI

DO

AI

AO

DI

DO

SPLIT A/C CONTROL

SP

LIT

A

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& CONTRACTING W.L.L

SHEET

OF SUBMITTAL NO :

IITC/E/SP/GL/12/15

31-12-2015MAMCNNNM



-0101

AI

AO

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AI

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& CONTRACTING W.L.L

SHEET

OF SUBMITTAL NO :

IITC/E/SP/GL/12/15

31-12-2015MAMCNNNM



-0101

AI

AO

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DO

AI

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CH

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TU

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& CONTRACTING W.L.L

SHEET

OF SUBMITTAL NO :

IITC/E/SP/GL/12/15

31-12-2015MAMCNNNM



-0101

AI

AO

DI

DO

AI

AO

DI

DO

BOOSTER PUMP

PU

MP

R

UN

O

N/O

FF

S

TA

TU

S

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TA

TU

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PU

MP

T

RIP

/A

LA

RM

S

TA

TU

S

DUTY STANDBY

BOOSTER PUMP CONTROL PANEL



& CONTRACTING W.L.L

SHEET

OF SUBMITTAL NO :

IITC/E/SP/GL/12/15

31-12-2015MAMCNNNM

CONSTRUCTION OF (2) NEW SCHOOLSAT DOHA & VILLAGES STAGE(10-A) PACKAGE#4


-0101

AI

AO

DI

DO

AI

AO

DI

DO

DOMESTIC WATER PUMP

PU

MP

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UN

O

N/O

FF

S

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TA

TU

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DUTY STANDBY

DOMESTIC WATER PUMP CONTROL PANEL

HIG

H/L

OW

L

EV

EL

A

LA

RM



& CONTRACTING W.L.L

SHEET

OF SUBMITTAL NO :

IITC/E/SP/GL/12/15

31-12-2015MAMCNNNM



-0101

AI

AO

DI

DO

AI

AO

DI

DO

IRRIGATION WATER PUMP

PU

MP

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S

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PU

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T

RIP

/A

LA

RM

S

TA

TU

S

DUTY STANDBY

IRRIGATION WATER PUMP CONTROL PANEL



& CONTRACTING W.L.L

SHEET

OF SUBMITTAL NO :

IITC/E/SP/GL/12/15

31-12-2015MAMCNNNM

CONSTRUCTION OF (2) NEW SCHOOLSAT DOHA & VILLAGES STAGE(10-A) PACKAGE#4


-0101

AI

AO

DI

DO

AI

AO

DI

DO

FIRE PUMP SET (Electrical+Diesel+Jockey)

ELECTRICAL PUMP

JOCKEY PUMP

PU

MP

S T

RIP

/A

LA

RM

S

TA

TU

S

PU

MP

R

UN

O

N/O

FF

S

TA

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DIESEL PUMP

SY

ST

EM

P

RE

SS

UR

E

IRRIGATION WATER PUMP CONTROL PANEL

HIG

H/L

OW

L

EV

EL

A

LA

RM



& CONTRACTING W.L.L

SHEET

OF SUBMITTAL NO :

IITC/E/SP/GL/12/15

31-12-2015MAMCNNNM



-0101

AI

AO

DI

DO

AI

AO

DI

DO

LIFT PUMP

DUTY STANDBY

LIFT PUMP CONTROL PANEL

PU

MP

H

-O

-A

S

EL

EC

TO

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WIT

CH

S

TA

TU

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PU

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MP

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RIP

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LA

RM

S

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TU

S



& CONTRACTING W.L.L

SHEET

OF SUBMITTAL NO :

IITC/E/SP/GL/12/15

31-12-2015MAMCNNNM



-0101

AI

AO

DI

DO

WATER TANK GROUND FLOOR

AI

AO

DI

DO

LEGEND

WA

TE

R T

AN

K H

IG

H/L

OW

L

EV

EL



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-0101

AI

AO

DI

DO

AI

AO

DI

DO

AIR CURTAINS

AIR

C

UR

TA

IN

S O

N/O

FF

S

TA

TU

S

AIR CURTAINS

FIRE ALARM PANEL

FIRE ALARM PANEL

LPG SYSTEM

SY

ST

EM

P

AN

EL H

EA

LT

HY

S

TA

TU

S

LPG SYSTEM

SY

ST

EM

P

AN

EL F

AU

LT

Y

SY

ST

EM

P

AN

EL H

EA

LT

HY

S

TA

TU

S

SY

ST

EM

P

AN

EL F

AU

LT

Y



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-0101

AI

AO

DI

DO

AI

AO

DI

DO

PUBLIC ADDRESS SYSTEM

PUBLIC ADDRESS SYSTEM

AUTO GAS CHANGER SYSTEM

AUTO GAS CHANGERSYSTEM

ELEVATOR

LIF

T P

AN

EL H

EA

LT

HY

S

TA

TU

S

ELEVATOR

LIF

T P

AN

EL F

AU

LT

Y

SY

ST

EM

P

AN

EL H

EA

LT

HY

S

TA

TU

S

SY

ST

EM

P

AN

EL F

AU

LT

Y

SY

ST

EM

P

AN

EL H

EA

LT

HY

S

TA

TU

S

SY

ST

EM

P

AN

EL F

AU

LT

Y



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-0101

AI

AO

DI

DO

AI

AO

DI

DO

MV PANEL

MV PANEL

DIMMING PANEL

DIMMING PANEL

BR

EA

KE

R S

TA

TU

S

GE

NE

RA

L A

LA

RM

SY

ST

EM

P

AN

EL H

EA

LT

HY

S

TA

TU

S

SY

ST

EM

P

AN

EL F

AU

LT

Y



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-0101

RISER DIAGRAM



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RISER DIAGRAM

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01

COVER SHEET

01

GROUND FLOOR

BUILDING MANAGEMENT SYSTEM RISER DIAGRAM LEGENDS

2CORE 16AWG UNSHIELDED

ROOF

VAV-1 VAV-2 VAV-3 VAV-4 VAV-5





VAV-28 VAV-27 VAV-26

CABLE

BMS

NODE

PACKAGE UNIT - 05NosEXHAUST FAN - 04NosSUPPLY FAN - 01NoAIR CURTAINS - 03NosBOOSTER PUMP - 02Nos

DDCP-01

PACKAGE UNIT - 05NosEXHAUST FAN - 04NosAIR CURTAINS - 04NosLPG SYSTEM - 01No

DDCP-02

PACKAGE UNIT - 05NosEXHAUST FAN - 05NosBOOSTER PUMP - 03NosAIR CURTAINS - 04Nos

DDCP-03

PACKAGE UNIT - 05NosEXHAUST FAN - 05NosOUTDOOR TEMPERATURE/HUMIDITY - 01NoAIR CURTAINS - 04Nos

DDCP-04

PACKAGE UNIT - 06NosEXHAUST FAN - 05NosAIR CURTAINS - 04Nos

DDCP-05

SPLIT A/C UNIT - 06NosDOMESTIC WATER PUMP - 02NosDOMESTIC WATER TANK - 03NosIRRIGATION WATER - 02NosFIRE PUMP SET - 01SetFIRE WATER TANK - 01NoLIFT PUMP - 02NosWATER TANK GROUND FLOOR - 03NosAIR CURTAINS - 04Nos

DDCP-06

ELEVATOR - 01NoFIRE ALARM SYSTEM - 01NoPUBLIC ADDRESS SYSTEM - 01NoAUTO GAS CHANGER SYSTEM - 01NoMV PANEL - 01No

DDCP-07

D

D

D

POWER METER INTEGRATOR (MODBUS)

D

FIRE ALARM SYSTEM SOFTWAREINTEGRATION

SAMPLE PANEL DRAWINGS

01



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CONTRACTOR:

PROJECT:

PANEL REF:

WORK ORDER NO :


CONSTRUCTION OF (2) NEW SCHOOLS

AT DOHA & VILLAGES STAGE(10-A)

PACKAGE#4




IMPERIAL TRADING & CONTRACTINGCO. W.L.L

13

COVER SHEET

01

02



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13

INDEX SHEET

TECHNICAL DATA SHEET

ALL SHIELDED AND UNSHIELDED NOTE:

CABLES SHOULD BE MINIMUM 20AWGTO 18AWG.

03



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13

TECHNICAL DATA SHEET

+ -

-

+++ + +

TR-1

QM6A

P

N

TB X1

P

N

E

24 V DC Power Supply

24 V AC Transformer

Utility Socket

6 A Circuit Breaker

240 V AC Phase

Neutral

Earth

Earth

Fuse

Fused Terminal Block

18 AWG Twisted pair shielded cable

Terminal Block X1

or

or

24 V AC

0 V AC

Terminal Block

04



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13

LEGENDS

05

PANEL FACIA SIDE VIEW

INTEGRA INTERNATIONAL TRADING CO. W.L.L

800

800

250



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13

FRONT VIEW & SIDE VIEW

06

INTERNAL LAYOUT

TR1CQ

ABB ABB

CF1

Honeywell

1 2 345 6 7 8 9 0

1

1

1

2

1

3

1

4

1

5

1

6

1

7

1

8

1

9

1

0

2

5

2

6

2

7

2

8

2

9

2

0

3

1

3

2

3

3

3

4

3

5

3

6

3

7

3

8

3

9

3

4

2

3

2

2

2

1

2

0

4

Honeywell

1 23 45 6 7 8 9 0

1

1

1

2

1

3

1

4

1

5

1

6

1

7

1

8

1

9

1

0

2

5

2

6

2

7

2

8

2

9

2

0

3

1

3

2

3

3

3

4

3

5

3

6

3

7

3

8

3

9

3

4

2

3

2

2

2

1

2

0

4

Honeywell

1 2 345 6 7 8 9 0

1

1

1

2

1

3

1

4

1

5

1

6

1

7

1

8

1

9

1

0

2

5

2

6

2

7

2

8

2

9

2

0

3

1

3

2

3

3

3

4

3

5

3

6

3

7

3

8

3

9

3

4

2

3

2

2

2

1

2

0

4



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13

800

800

07

COM24VAC

SUPPLYPOWER

24VAC

0V

E21

240VAC

SP,50HZ

P

N

E

CF1

TR1

QM6A

TB

1 2 5 6

BACnet

240/24VAC100VA

X1

SHILD4

GND3

24VAC

0V

TO-PAGE-NO-9

US

SUBS-1 SUBS-2

BACNET MS/TP-

BACNET MS/TP+

TO PAGE NO 9

BACNET MS/TP-

BACNET MS/TP+FROMPREVIOUSDDCP

DO 1

9

DO 3

12

COM DO 5

14 15

DO 6

16

DO 8

19

COM DO 7

17 18

DO 4

13

DO 2

10

COM

11 20 21 22

COM COMAO 1

23 24 25

A0 2 COMAO 3

P N E

P1 P1

N

0

N

7 8

NET-1 NET-2



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13

08

2 E 43

DI 1

26

DI 3

29

20 VDC UI 1

31 32

COM

33

COM

36

UI 2 UI 3

34 35

DI 4

30

COM

27 28 37 38 39

UI 4 COMUI 5

40

UI 6DI 2

1 6 E 875 10 E 12119 14 E 161513 18 E 201917

SPARE

X2

SPARE SPARE SPARE SPARE SPARE SPARE SPARE SPARE SPARE



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13

09

COM24VAC

SUPPLYPOWER

1 2 7 8

BACnet

SHILD4

GND3

24VAC

0V

TO-PAGE-NO-11

NET-1 NET-2

BACNET MS/TP-

BACNET MS/TP+

TO PAGE NO 11

BACNET MS/TP-

BACNET MS/TP+FROMPAGENO 7

24VAC

0V

FROM-PAGE-NO-7

DO 1

9

DO 3

12

COM DO 5

14 15

DO 6

16

DO 8

19

COM DO 7

17 18

DO 4

13

DO 2

10

COM

11 20 21 22

COM COMAO 1

23 24 25

A0 2 COMAO 3



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10

22 E 2423

DI 1

26

DI 3

29

20 VDC UI 1

31 32

COM

33

COM

36

UI 2 UI 3

34 35

DI 4

30

COM

27 28 37 38 39

UI 4 COMUI 5

40

UI 6DI 2

21 26 E 282725 30 E 323129 34 E 363533 38 E 403937

SPARE SPARE SPARE SPARE SPARE SPARE SPARE SPARE SPARE SPARE



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13

11

COM24VAC

SUPPLYPOWER

1 2 7 8

BACnet

SHILD4

GND3

NET-1 NET-2

BACNET MS/TP-

BACNET MS/TP+

TO PAGE NO 07

BACNET MS/TP-

BACNET MS/TP+FROMPAGENO 9

24VAC

0V

FROM-PAGE-NO-9

DO 1

9

DO 3

12

COM DO 5

14 15

DO 6

16

DO 8

19

COM DO 7

17 18

DO 4

13

DO 2

10

COM

11 20 21 22

COM COMAO 1

23 24 25

A0 2 COMAO 3

4443

SPARE

4241

SPARE



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13

12

46 E 4847

DI 1

26

DI 3

29

20 VDC UI 1

31 32

COM

33

COM

36

UI 2 UI 3

34 35

DI 4

30

COM

27 28 37 38 39

UI 4 COMUI 5

40

UI 6DI 2

45 50 E 525149 54 E 565553 58 E 605957 62 E 646361

SPARE SPARE SPARE SPARE SPARE SPARE SPARESPARESPARESPARE



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13

1 ENCLOSURE 1SHEET STEEL IP-54 (800Hx800Wx250D)

2 QM ABB 16A SP MCB 6kA SH201 - C 6

3 CF1 SANDLER 132A FUSE CARRIER WITH 6A FUSE RT18A-32

4

5 PUB6438S-1....... 03 HONEYWELL 3CONTROLLER

6 US - 1UNIVERSAL UTILITY SOCKET 230V AC -

7

TR1 - 1CURRENT TRANSFORMER 240/24V AC 100VA -

PUB6438S

TERMINALS - -- 64

13



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PRODUCT DATA SHEETS/ COUNTRY

OF ORIGIN CERTIFICATES

BUILDING MANAGEMENT SYSTEM ASGHAL SCHOOLS (2NO’S)

CATALOGUE INDEX

Sl.No.

Model No Description Separator

1 CLAXARENA BMS SOFTWARE 1

2

PUB6438S UNITARY CONTROLLER 2

3 PVB0000AS VAV CONTROLLER 3

4 TR42 WALL MODULE THERMOSTAT FOR VAV 4

5 LF20 DUCT TEMPERATURE SENSOR 5

6 CLMMI00N31 TOUCHSCREEN 6

7 H7635C2015 OUTSIDE TEMPERATURE/HUMIDITY SENSOR 7

8 T7412A1000 ROOM TEMPERATURE SENSOR 8

9 DPS400 AIR DIFFERENTIAL PRESSURE SWITCH 9

10 P7620A1012 LIQUID PRESSURE SENSOR 10

11

AX-LS-FL-2LH

LIQUID LEVEL SWITCH 11

12 AQS-71-KAM CO2 SENSOR 12

13 N10010-SW2 MODULATING DAMPER ACTUATOR – 10NM 13

14 - OPERATOR WORKSTATION AND PRINTERS 14

15 - DDC ENCLOSURE 15

BMS SOFTWARE

CLAXARENA, CLAXARENASBS01

CLAXARENASBS05, CLAXARENASBS10 ARENAAX - BACnet Supervisor Product Data

Copyright © 2012 Honeywell GmbH All Rights Reserved

OVERVIEW ARENA

AX is a BACnet certified web-based supervisor utilizing

the NiagaraAX

Framework® for small to big size systems.

It is used to supervise HVAC systems and non-HVAC systems (e.g. lighting, security, life safety) in a building or across multiple buildings. The primary use is in applications where multiple HAWK and/or EAGLE controllers are networked together and systems based on TCP/IP communication standards like BACnet / IP, oBIX, OPC (client), Modbus TCP, EIB-KNX/IP, and SNMP can be directly integrated by ARENA

AX.

ARENA

AX serves real time graphical information to standard

web-browser clients and also provides server-level functions such as: centralized data logging, archiving, alarming, real time graphical displays, master scheduling, system-wide database management, and integration with enterprise software applications. In addition, it provides a comprehensive, graphical engineering toolset for application development. ARENA

AX helps to maximize operating and services

opportunities and to minimize associated costs.

ENGINEERING The graphical engineering tool (COACHAX) is embedded in the ARENA

AX system.

FEATURES WEB ACCESS: Access to alarms, logs, graphics,

schedules, and configuration data with a standard web browser and mobile devices

GRAPHICS: Java-enabled user interface (UI) as well as

non-Java UI for browsers

ALARMING: Sophisticated alarm processing and routing,

including e-mail/sms alarm acknowledging

INTEGRATION: Optional direct ethernet-based driver

support for BACnet I/P, OPC (client), Modbus TCP, EIB/IP and SNMP; additional points for each driver may be purchased in blocks of 500 for each protocol

USERS: Supports an unlimited number of users over the

Internet / Intranet with a standard web browser, depending on the host PC resources

ARCHIVING: Optional enterprise-level data archival using

SQL, MySQL, CSV, Oracle or DB2 database, and HTTP/HTML/XML text formats.

AUDIT: “Audit Trail” of database changes, database

storage and backup, global time functions, calendar, central

SECURITY: Password protection and security using

standard Java (on Windows platforms only) authentication and encryption techniques with optional security supported via an external LDAP connection

CONTROLLER: Supports multiple HAWK stations and

EAGLE controllers connected to a local Ethernet network, or the Internet

HELP: HTML-based help system that includes

comprehensive on-line system documentation

VERSIONS: Different “Small Building System” version are

available for up to five and up to ten HAWKs and /or EAGLE controller

BACNET: BACnet OWS and AWS certified version

available

PLATFORM REQUIREMENTS Processor: Intel Pentium™ IV, 2 GHz or higher, Core 2

Duo also acceptable Operating System:

Windows XP Professional (SP3) (32-bit) Windows Server 2012 Standard/Enterprise (SP2) (64-bit) (R2 as well) Windows 7 Professional/Enterprise/Ultimate (32-bit and 64 bit) Windows 8 Professional/Enterprise/Ultimate (32-bit and 64 bit) Windows 8.1 Professional/Enterprise/Ultimate (64-bit) VMware - ESXi 5.1.0 Microsoft Virtual Server 2008

Memory: 1 GB minimum, 2 GB recommended for large systems, 8GB or more recommended for Win 64 bit version

Hard Drive: 1 GB minimum, 5 GB for applications that need more archiving capacity

Display: Video card and monitor capable of displaying 1024 x 768 pixel resolution or greater

Network Support:

Ethernet adapter (10/100 Mb with RJ-45 connector)

Connectivity: Full time high speed ISP connection recommended for remote site access (i.e. T1, ADSL, cable modem)

ARENAAX

– PRODUCT DATA

Manufactured for and on behalf of the Environmental and Combustion Controls Division of Honeywell Technologies Sàrl, Rolle, Z.A. La Pièce 16, Switzerland by its Authorized Representative:

CentraLine Honeywell GmbH Böblinger Straße 17 D-71101 Schönaich Tel +49 7031 637 845 Fax +49 7031 637 846 [email protected] www.centraline.com

CentraLine Honeywell Control Systems Ltd. Arlington Business Park UK-Bracknell, Berkshire RG12 1EB Tel +44 13 44 656 565 Fax +44 13 44 656 563 [email protected] www.centraline.com

Printed in Germany. Subject to change without notice. EN0Z-0945GE51 R0314

WHAT TO ORDER ARENA

AX order numbers:

CLAXARENA ARENAAX

CLAXARENAAPC Alarm Portal

CLAXARENASBS01 Single Station version with a limit of 1 HAWK (supports only 500 points for add on drivers, not BACnet certified)

CLAXARENASBS05 BACnet OWS certified Small Building System version with a limit of 5 HAWKs and 5 EAGLE

CLAXARENASBS10 Small Building System version with a limit of 10 HAWKs and 10 EAGLE (not BACnet certified, BACnet certification can be achieved by adding CLAXDRBACOWS)

Optional ARENAAX

database drivers for external database applications:

CLAXDBSQL MS-SQL Database driver

CLAXDBMYSQL MYSQL Database driver

CLAXDBCSV CSV Server driver

CLAXDBDB2 DB2 Database driver

CLAXDBORCL Oracle Database driver

ARENAAX

upgrades:

CLAXARENARUP upgrade to latest Niagara version

CLAXARENASBSU5 upgrade SBS05 to SBS10

CLAXARENASBSUP upgrade SBS10 to Full ARENAAX

ARCHITECTURE

Optional ARENAAX

open system drivers:

CLAXDRBACOWS BACnet Operator Workstation includes 500 points for ARENA AX

CLAXDRBACAWS Additional BACnet AWS feature

CLAXDRBACEXP Additional BACnet Server Export feature

CLAXDRBAC500 Additional 500 BACnet points

CLAXDREIB EIB-IP driver with 500 points

CLAXDREIB500 driver with additional 500 EIP-IP driver points

CLAXDRLONIP LONIP driver with 500 points

CLAXDRLONIP500 driver with additional 500 LONIP points

CLAXDRMTCP Modbus driver TCP with 500 points

CLAXDRMTCP500 driver with additional 500 ModbusTCP points

CLAXDROBX oBIX driver with 500 points

CLAXDROBX500 driver with additional 500 oBIX points

CLAXDROPC OPC driver with 500 points

CLAXDROPC500 driver with additional 500 OPC points

CLAXDRSNMP SNMP driver with 500 SNMP points

CLAXDRSNMP500 driver with additional 500 SNMP points

CLAXARENAAXI Axis Cameras video driver 16 Cameras

CLAXARENAAXI4 Additional 4 Cameras Axis video driver

CLAXARENADED Ded. Micros NetVu DVR driver 16 Cameras

CLAXARENADED4 Add 4 Cameras Ded. Micros NetVu DVR video driver

CLAXARENAHRE Honeywel RapidEye NVM video driver 16 Cameras

CLAXARENAHRE4 Additional 4 Cameras Honeywel RapidEye NVM video driver

CLAXARENAMIL Milestone NVM video driver 16 Cameras

CLAXARENAMIL4 Add 4 Cameras Milestone NVM video driver

Hassan

Highlight

UNITARY CONTROLLER

INSTALLATION INSTRUCTIONS

62-0310-05

Spyder® BACnet®Programmable Controllers

PRODUCT DESCRIPTIONThe PUB and PVB controllers are part of the Spyder family. These controllers are BACnet MS/TP network devices designed to control HVAC equipment. These controllers provide many options and advanced system features that allow state-of-the-art commercial building control. Each controller is programmable and configurable through software.

These controllers are for use in VAV (Variable Air Volume), Unitary, and advanced HVAC applications. Each controller has flexible, universal inputs for external sensors, digital inputs, and a combination of analog and digital Triac outputs. All the models are described in Table 1. The photo to the left is the model PVB6436AS, which includes the actuator.

Table 1. Controller configurations.

Each controller communicates via an EIA-485 BACnet MS/TP network communications network, capable of baud rates between 9.6 and 115.2 kilobits.Controllers are field-mountable to either a panel or a DIN rail.

SPECIFICATIONS

General SpecificationsRated Voltage: 20–30 Vac; 50/60 HzPower Consumption:

100 VA for controller and all connected loads (including the actuator on models models PVL0000AS, PVL4022AS, and PVL6436AS).

Controller Only Load: 5 VA maximum; models PUB1012S, PUB4024S, PUB6438S, PVB4024NS, and PVB6438NS.

Controller and Actuator Load: 9 VA maximum; models PVL0000AS, PVL4022AS, and PVL6436AS.

External Sensors Power Output: 20 Vdc ±10% @ 75 mA maximum.

VAV Operating & Storage Temperature Ambient Rating (models PVB0000AS, PVB4022AS, PVB4024NS, PVB6436AS, and PVB6438NS).:Minimum 32 ºF (0 ºC); Maximum 122 ºF (50 ºC)

Unitary Operating & Storage Temperature Ambient Rating (models PUB1012S, PUB4024S, and PUB6438S.):Minimum -40 ºF (-40 ºC); Maximum 150 ºF (65.5 ºC)

Relative Humidity: 5% to 95% non-condensingLED: Provides status for normal operation, controller down-

load process, alarms, manual mode, and error conditions

ControllerModel

ProgrammableType

UniversalInputs

(UI)

DigitalInputs

(DI)

AnalogOutputs

(AO)

DigitalOutputs

(DO)

VelocityPressureSensor

(Microbridge)

Series 60FloatingActuator

PUB1012S Unitary 1a 0 1 2 NO NO


PUB6438S Unitary 6 4 3 8 NO NO

PVB000AS VAV 0 0 0 0 YES YES

PVB4022AS VAV 4a 0 2 2 YES YES

PVB4024NS VAV 4a 0 2 4 YES NO


PVB6438NS VAV 6 4 3 8 YES NO

Hassan

Highlight

SPYDER® BACNET® PROGRAMMABLE CONTROLLERS

62-0310—05 2

BEFORE INSTALLATIONThe controller is available in three models (see Table 1).

Review the power, input, and output specifications on page 1 before installing the controller.— Hardware driven by Triac outputs must have a minimum

current draw, when energized, of 25 mA and a maximum current draw of 500 mA.

— Hardware driven by the analog current outputs must have a maximum resistance of 550 Ohms, resulting in a maximum voltage of 11 volts when driven at 20 mA.If resistance exceeds 550 Ohms, voltages up to 18 Vdc are possible at the analog output terminal.

WARNINGElectrical Shock Hazard.Can cause severe injury, death or property damage.Disconnect power supply before beginning wiring or making wiring connections to prevent electrical shock or equipment damage.

INSTALLATIONThe controller must be mounted in a position that allows clearance for wiring, servicing, removal, connection of the BACnet MS/TP Molex connector and access to the MS/TP MAC address DIP switches.

The controller may be mounted in any orientation.

IMPORTANTAvoid mounting in areas where acid fumes or other deteriorating vapors can attack the metal parts of the controller, or in areas where escaping gas or other explosive vapors are present. Fig. 6–Fig. 7 on page 4 for mounting dimensions.

For the PVB6436AS model, the actuator is mounted first and then the controller is mounted. For the other models, go to “When the actuator closes, the damper rotates CW either 45 or 60 degrees to fully close.” on page 3 to begin the installation.

Mount Actuator onto Damper Shaft (PVB0000AS, PVB4022AS, and PVB6436AS)PVB0000AS, PVB4022AS, and PVB6436AS controllers include the direct-coupled actuator with Declutch mechanism, which is shipped hard-wired to the controller.

The actuator mounts directly onto the VAV box damper shaft and has up to 44 lb-in. (5 Nm) torque, 90-degree stroke, and 90 second timing at 60 Hz. The actuator is suitable for mounting onto a 3/8 to 1/2 in. (10 to 13 mm) square or round VAV box damper shaft. The minimum VAV box damper shaft length is 1-9/16 in. (40 mm).

The two mechanical end-limit set screws control the amount of rotation from 12° to 95°. These set screws must be securely fastened in place. To ensure tight closing of the damper, the shaft adapter has a total rotation stroke of 95° (see Fig. 1).

NOTES:1. The actuator is shipped with the mechanical end-

limit set screws set to 95 degrees of rotation. Adjust the two set screws closer together to reduce the rotation travel. Each “hash mark” indi-cator on the bracket represents approximately 6.5° of rotation per side.

2. The Declutch button, when pressed, allows you to rotate the universal shaft adapter (see Fig. 1).

IMPORTANTDetermine the damper rotation and opening angle prior to installation. See Fig. 2 below and Fig. 3 on page 3 for examples.

Fig. 1. Series 60 Floating Actuator.

Fig. 2. Damper with 90 degree CW rotation to open.

IMPORTANTMount actuator flush with damper housing or add a spacer between the actuator mounting surface and damper box housing.

UNIVERSAL SHAFTCLAMPING BOLTS (2)

M23568

UNIVERSALSHAFT ADAPTER

MECHANICALEND LIMIT SET

SCREWS (2)

DECLUTCHBUTTON

M23569

DAMPER SHAFT ROTATES CLOCKWISE TO OPEN

DAMPER


3 62-0310—05

Before Mounting Actuator onto Damper Shaft (PVB0000AS, PVB4022AS, and PVB6436AS.)

Tools required:— Phillips #2 screwdriver - end-limit set screw adjustment— 8 mm wrench - centering clampBefore mounting the actuator onto the VAV box damper shaft, determine the following:

1. Determine the damper shaft diameter. It must be between 3/8 in. to 1/2 in. (10 to 13 mm).

2. Determine the length of the damper shaft. If the length of the VAV box damper shaft is less than 1-9/16 in. (40 mm), the actuator cannot be used.

3. Determine the direction the damper shaft rotates to open the damper (CW or CCW) (see Fig. 3). Typically, there is an etched line on the end of the damper shaft that indi-cates the position of the damper. In Fig. 2, the indicator shows the damper open in a CW direction.

4. Determine the damper full opening angle (45, 60, or 90 degrees). In Fig. 2, the damper is open to its full open position of 90 degrees.

Fig. 3. Determining the rotation direction (CW or CCW) for damper opening.

Mounting Actuator Onto Damper Shaft (PVB0000AS, PVB4022AS, and PVB6436AS.)The unit is shipped with the actuator set to rotate open in the clockwise (CW) direction to a full 95 degrees. The extra 5 degrees ensures a full opening range for a 90 degree damper. The installation procedure varies depending on the damper opening direction and angle:

1. If the damper rotates clockwise (CW) to open, and the angle of the damper open-to-closed is 90 degrees:a. Manually open the damper fully (rotate clockwise). b. Using the Declutch button, rotate the universal shaft

adapter fully clockwise. c. Mount the actuator to the VAV damper box and shaft.

d. Tighten the two bolts on the centering clamp (8 mm wrench; 70.8–88.5 lb-in. [8–10 Nm] torque). When the actuator closes, the damper rotates CCW 90 degrees to fully close.

2. If the damper rotates clockwise (CW) to open, and the angle of the damper open-to-closed is 45 or 60 degrees:a. Manually open the damper fully (rotate clockwise).b. The actuator is shipped with the mechanical

end-limits set at 95 degrees. Adjust the two mechanical end-limit set screws to provide the desired amount of rotation. Adjust the two set screws closer together to reduce the rotation travel.

c. Tighten the two mechanical end-limit screws (Phillips #2 screwdriver; (26.5–31 lb-in. [3.0–3.5 Nm] torque).

d. Using the Declutch button, rotate the universal shaft adapter fully clockwise.

e. Mount the actuator to the VAV damper box and shaft. f. Tighten the two bolts on the centering clamp

(8 mm wrench; 70.8–88.5 lb-in. [8–10 Nm] torque).g. When the actuator closes, the damper rotates CCW

either 45 or 60 degrees to fully close.3. If the damper rotates counterclockwise (CCW) to open,

and the angle of the damper open-to-closed is 90 degrees:a. Manually open the damper fully (rotate counter-

clockwise).b. Using the Declutch button, rotate the universal shaft

adapter fully counterclockwise. c. Mount the actuator to the damper box and shaft. d. Tighten the two bolts on the centering clamp (8 mm

wrench; 70.8–88.5 lb-in. [8–10 Nm] torque). When the actuator closes, the damper rotates CW 90 degrees to fully close.

4. If the damper rotates counterclockwise to open, and the angle of the damper open-to-closed is 45 or 60 degrees:a. Manually open the damper fully (rotate counter-

clockwise).b. The actuator is shipped with the mechanical



d. Using the Declutch button, rotate the universal shaft adapter fully counter-clockwise.


(8 mm wrench; 70.8–88.5 lb-in. [8–10 Nm] torque).g. When the actuator closes, the damper rotates CW

either 45 or 60 degrees to fully close.

Mount ControllerNOTE: The controller may be wired before mounting to a

panel or DIN rail.

Terminal blocks are used to make all wiring connections to the controller. Attach all wiring to the appropriate terminal blocks (see “Wiring” on page 5).

AIR

FLOW

AIR

FLOW

CW TO OPEN, CCW TO CLOSE

CCW TO OPEN, CW TO CLOSEM2067B

TYPE A DAMPER

TYPE B DAMPER


62-0310—05 4

Fig. 4. Panel Mounting - controller dimensions in inches (mm) for PUB1012S, PUB4024S, and PVB4024NS (only

PUB40245S and PVB4024NS shown).

Fig. 5. Panel mounting - controller and actuator dimensions in inches (mm) for PVB0000AS and

PVB4022AS (only PVB000AS shown).

Fig. 6. Panel mounting - controller and actuator dimensions in inches (mm) for PVB6436AS.

Fig. 7. Panel mounting - controller dimensions in inches (mm) for models PUB6438S and PVB6438NS.

Panel MountingThe controller enclosure is constructed of a plastic base plate

and a plastic factory-snap-on cover.

M33228ANOTE: CONTROLLER CAN BE MOUNTED IN ANY ORIENTATION.

3/16 (4.5) PANEL MOUNTING HOLE (4X)

1 1 1 1 1 1 1 2 2 2 2 23 4 5 6 7 8 9 0 1 2 3 4

1 1 1 1 1 1 1 2 2 2 2 23 4 5 6 7 8 9 0 1 2 3 4

1 2 3 4 5 6

DEPTH IS 2-1/4 (57)

7 8 9 10 11 12

1 2 3 4 5 6

7 8 9 10 11 12

4-13/16 (122)4-1/8 (105)

4-13/16 (122)4-1/8 (105)

6-1/4(159)

5-7/8(149)

6-1/4(159)

5-7/8(149)

NOTE: CONTROLLER CAN BE MOUNTED IN ANY ORIENTATION. M33229B

3/16 (4.5) PANELMOUNTING HOLE (4X)

27/32(21)

DEPTH IS 2-1/4 (57)

1 1 1 1 1 1 1 2 2 2 2 23 4 5 6 7 8 9 0 1 2 3 4

1 2 3 4 5 6

7 8 9 10 11 12

6-1/4(159)

5-7/8(149)

8-9/32(211)

4-1/8(105)

1-15/16(49)

6-9/32(159)

1 2 3 4 5 6 7 8 109 2 3 4 5 6 711 1 1 1 1 1 1

1 2 3 4 5 6 7 8 0922 2 2 2 2 2 2 2 33

1 2 3 4 5 6 7 8 0933 33 33 33 4

5-3/4

(146)

10-5/16 (262)

NOTE: CONTROLLER CAN BE MOUNTED IN ANY ORIENTATION.

PANEL MOUNTING HOLE(4X) 3/16 IN. (4.5)

M29329

5-3/64

(128)

8-5/16 (211)

6-29/64 (164)1-55/64

(47)

6-17/64

(159)

7/16

(11)

DEPTH IS 2-1/4 (57)

1 2 3 4 5 6 7 8 1 0 9 2 3 4 5 6 7 8 0 9 1 1 1 1 1 1 1 1 1 2 1

1 2 3 4 5 6 7 8 0 9 2 2 2 2 2 2 2 2 2 3 3

1 2 3 4 5 6 7 8 0 9 3 3 3 3 3 3 3 3 4

5-3/4 (146)

6-27/32 (174)


PANEL MOUNTING HOLE (4X) 29/64 IN. (12)

M29330

5-3/64 (128)

6-29/64 (164)

5-29/64

(139)

1 2 3 4 5 6 7 8 1 0 9 2 3 4 5 6 7 8 0 9 1 1 1 1 1 1 1 1 1 2 1

1 2 3 4 5 6 7 8 0 9 2 2 2 2 2 2 2 2 2 3 3

1 2 3 4 5 6 7 8 0 9 3 3 3 3 3 3 3 3 4

6-27/32 (174)

5-3/64 (128)

6-29/64 (164)

5-29/64

(139)

PVB6438NS PUB6438S

DEPTH IS 2-1/4 (57)


5 62-0310—05

NOTE: The controller is designed so that the cover does not need to be removed from the base plate for either mounting or wiring.

The controller mounts using four screws inserted through the corners of the base plate. Fasten securely with four No. 6 or No. 8 machine or sheet metal screws.

The controller can be mounted in any orientation. Ventilation openings are designed into the cover to allow proper heat dissipation, regardless of the mounting orientation.

DIN Rail Mounting (PUB1012S, PUB4024S, PUB6438S, PVB4024NS, and PVB6438NS.)To mount the PUB1012S, PUB4024S, PUB6438S, PVB4024NS, or PVB6438NS controller on a DIN rail [standard EN50022; 1-3/8 in. x 9/32 in. (7.5 mm x 35 mm)], refer to Fig. 8 and perform the following steps:

1. Holding the controller with its top tilted in towards the DIN rail, hook the two top tabs on the back of the con-troller onto the top of the DIN rail.

2. Push down and in to snap the two bottom flex connec-tors of the controller onto the DIN rail.

IMPORTANTTo remove the controller from the DIN rail, perform the following:

1. Push straight up from the bottom to release the top tabs.

2. Rotate the top of the controller out towards you and pull the controller down and away from the DIN rail to release the bottom flex connectors.

Fig. 8. Controller DIN rail mounting (PUB1012S, PUB4024S, PUB6438S, PVB4024NS, and PVB6438NS).

Piping (PVB0000AS, PVB4022AS, PVB4024NS, PVB6436AS, and PVB6438NS)

Air flow PickupFor PVB0000AS, PVB4022AS, PVB4024NS, PVB6436AS, and PVB6438NS, connect the air flow pickup to the two restrictor ports on the controller (see Fig. 9).

NOTES:— Use 1/4 inch (6 mm) outside diameter, with a

0.040 in. (1 mm) wall thickness, plenum-rated 1219 FR (94V-2) tubing.

— Always use a fresh cut on the end of the tubing that connects to the air flow pickups and the restrictor ports on the controller.

Connect the high pressure or upstream tube to the plastic restrictor port labeled (+), and the low pressure or down-stream tube to the restrictor port labeled (-). See labeling in Fig. 9. When twin tubing is used from the pickup, split the pickup tubing a short length to accommodate the connections.

NOTES:— If controllers are mounted in unusually dusty or

dirty environments, an inline, 5-micron disposable air filter (use 5-micron filters compatible with pneumatic controls) is recommended for the high pressure line (marked as +) connected to the air flow pickup.

— The tubing from the air flow pickup to the control-ler should not exceed three feet (0.914 m). Any length greater than this will degrade the flow sensing accuracy.

— Use caution when removing tubing from a con-nector. Always pull straight away from the connec-tor or use diagonal cutters to cut the edge of the tubing attached to the connector. Never remove by pulling at an angle.

Fig. 9. Air flow pickup connections (PVB0000AS, PVB4022AS, PVB4024NS, PVB6436AS, and PVB6438NS).

WiringAll wiring must comply with applicable electrical codes and ordinances, or as specified on installation wiring diagrams. Controller wiring is terminated to the screw terminal blocks located on the top and the bottom of the device.

WARNINGElectrical Shock Hazard.Can cause severe injury, death or property damage.Disconnect power supply before beginning wiring or making wiring connections, to prevent electrical shock or equipment damage.

NOTES:— For multiple controllers operating from a single

transformer, the same side of the transformer secondary must be connected to the same power input terminal in each controller. Controller

DIN RAIL

TOP TABS

BOTTOM FLEXCONNECTORS M16815

M23556A

AIR FLOW PICKUP

ΔP

1 2 3 4 5 6 7 8 1 0 9 2 3 4 5 6 7 8 0 9 1 1 1 1 1 1 1 1 1 2 1

1 2 3 4 5 6 7 8 0 9 2 2 2 2 2 2 2 2 2 3 3

1 2 3 4 5 6 7 8 0 9 3 3 3 3 3 3 3 3 4

RESTRICTOR PORT

RESTRICTOR PORT

CONNECTOR TUBING


62-0310—05 6

configurations will not necessarily be limited to three devices, but the total power draw, including accessories, cannot exceed 100 VA when powered by the same transformer (U.S. only). The earth ground terminal (terminal 3) must be connected to a verified earth ground for each controller in the group (see Fig. 11 on page 6).

— All loads on the controller must be powered by the same transformer that powers the controller itself. A controller can use separate transformers for controller power and output power.

— Keep the earth ground connection (terminal 3) wire run as short as possible.

— Do not connect the universal input COM terminals, analog output COM terminals or the digital input/output COM terminals to earth ground.

The 24 Vac power from an energy limited Class II power source must be provided to the controller. To conform to Class II restrictions (U.S. only), the transformer must not be larger than 100 VA.

Fig. 10 depicts a single controller using one transformer.

IMPORTANTPower must be off prior to connecting to or removing connections from the 24 Vac power (24 Vac/24 Vac COM), earth ground (EGND), and 20 Vdc power (20 Vdc) terminals.

IMPORTANTUse the heaviest gauge wire available, up to 14 AWG (2.0 sq mm), with a minimum of 18 AWG (1.0 sq mm), for all power and earth ground wiring.

Screw-type terminal blocks are designed to accept up to one 14 AWG (2.0 sq mm) conductor or up to two 18 AWG (1.0 sq mm) conductors. More than two wires that are 18 AWG (2.0 sq mm) can be con-nected with a wire nut. Include a pigtail with this wire group and attach the pigtail to the terminal block.

IMPORTANTConnect terminal 2, (the 24 Vac common [24 VAC COM] terminal) to earth ground (see Fig. 10).

Fig. 10. Power wiring details for one controller per transformer.

More than one controller can be powered by a single transformer. Fig. 11 shows power wiring details for multiple controllers.

NOTE: Controller configurations are not necessarily lim-ited to three devices, but the total power draw, including accessories, cannot exceed 100 VA when powered by the same transformer (U.S. only).

Fig. 11. Power wiring details for two or more controllers per transformer.

CommunicationsEach controller uses a BACnet MS/TP communications port. The controller’s data is presented to other controllers over a twisted-pair MS/TP network, which uses the EIA-485 signaling standard capable of the following baud rates: 9.6, 19.2, 38.4,

76.8 or 115.2 Kilobits per second (configured at global controller). The Spyder BACnet controllers are master devices on the MS/TP network. Each Spyder BACnet controller uses a high-quality EIA-485 transceiver and exerts 1/4 unit load on the MS/TP network.

M29684A

TRANSFORMER

OUTPUTDEVICEPOWER

ΔP

12345678 109 2345678 0911 1111111 21

12345678 0922 2222222 33

12345678 0933 33 33 33 4

EARTHGROUND

1LINE VOLTAGEGREATERTHAN 150 VAC

WHEN CONNECTIONG POWER TO THE SPYDER BACnet CONTROLLER, CONNECT THE COM LEG OF THE VAC SECONDARY CIRCUIT TO A KNOWN EARTH GROUND.

1

COM

24 VAC

CONNECT POWER TO TERMINALS 1 AND 2

M29685A

120/240VAC

TRANSFORMEROUTPUTDEVICEPOWER

ΔP

12345678 109 2345678 0911 1111111 21

12345678 0922 2222222 33

12345678 0933 33 33 33 4

COM

24 VAC

ΔP

12345678 109 2345678 0911 1111111 21

12345678 0922 2222222 33

12345678 0933 33 33 33 4 ΔP

12345678 109 2345678 0911 1111111 21

12345678 0922 2222222 33

12345678 0933 33 33 33 4


EARTHGROUND


7 62-0310—05

Cabling should be selected that meets or exceeds the BACnet Standard which specifies the following: An MS/TP EIA-485 network shall use shielded, twisted-pair cable with characteristic impedance between 100 and 130 ohms. Distributed capacitance between conductors shall be less than 100 pF per meter (30 pF per foot). Distributed capacitance between conductors and shield shall be less that 200 pF per meter (60 pF per foot). Foil or braided shields are acceptable. The Honeywell tested and recommended MS/TP cable is Honeywell Cable 3322 (18 AWG, 1-Pair, Shielded, Plenum cable), alternatively Honeywell Cable 3251 (22 AWG, 1-Pair, Shielded, Plenum cable) is available and meets the BACnet Standard requirements (www.honeywellcable.com).

The maximum BACnet MS/TP network Bus segment length is 4,000 ft. (1,071 m) using recommended wire. Repeaters must be used when making runs longer than 4,000 ft. (1,071 m). A maximum of three repeaters can be used between any two devices.

Setting the MS/TP MAC addressThe MS/TP MAC address for each device must be set to a unique value in the range of 0-127 on an MS/TP network segment (address 0, 1, 2, & 3 should be avoided as they are commonly used for the router, diagnostic tools, and as spare addresses). DIP switches on the Spyder BACnet controller are used to set the controller's MAC address.

To set the MS/TP MAC address of a Spyder BACnet controller:

1. Find an unused MAC address on the MS/TP network to which the Spyder BACnet controller connects.

2. Locate the DIP switch bank on the Spyder BACnet for addressing. This is labeled MAC Address

3. With the Spyder BACnet Controller powered down, set the DIP switches for the MAC Address you want. Add the value of DIP switches set to ON to determine the MAC address. See Table 2. Example, if only DIP switches 1, 3, 5, and 7 are enabled the MAC address would be 85 (1 + 4 + 16 + 64 = 85).

Setting the Device Instance NumberThe Device Instance Number must be unique across the entire BACnet system network because it is used to uniquely identify the BACnet devices. It may be used to conveniently identify the BACnet device from other devices during

installation. The Spyder BACnet Controllers Device Instance Number is automatically set when it is added to a WEBStation-AX project. The Device Instance Number can be changed by the user, which may be necessary when integrating with a third party or when attempting to replace an existing controller and it is desired to maintain the existing Device Instance Number.

To edit the Device Instance Number using WEBs AX:1. Identify an unused Device Instance Number on the

BACnet Network, in the range of 0 - 4194302.2. Open the Spyder Bacnet Device Mgr View

a. Double click on the BacnetNetwork located in the Nav tree.

b. Select the Spyder Controller to be modified.c. Click on the Edit button.d. Enter an unused value in the Device Id field.e. Select OK

3. Right Click on the Spyder Controller and select Actions > Write Device Instance to complete the update

Termination ResistorsMatched terminating resistors are required at each end of a segment bus wired across (+) and (-). Use matched precision resistors rated 1/4W ±1% / 80 - 130 Ohms. Ideally, the value of the terminating resistors should match the rated characteristic impedance of the installed cable. For example, if the installed MS/TP cable has a a listed characteristic impedance of 120 Ohm, install 120 Ohm matched precision resistors.

Shield TerminatingFollowing proper MS/TP cabling shield grounding procedures is important to minimize the risk of communication problems and equipment damage caused by capacitive coupling. Capacitive coupling is caused by placing MS/TP cabling close to lines carrying higher voltage. The shield should be grounded on only one end of the MS/TP segment (typically the router end). Tie the shield through using the SHLD (terminal 4) on the Spyder BACnet Controller.

Sylk™ BusSylk is a two wire, polarity insensitive bus that provides both 18 VDC power and communications between a Sylk-enabled sensor and a Sylk-enabled controller. Using Sylk-enabled sensors saves I/O on the controller and is faster and cheaper to install since only two wires are needed and the bus is polarity insensitive. Sylk sensors are configured using the latest release of the Spyder Tool for WEBPro and WEBStation.

Table 2. DIP Switch Values For MS/TP MAC Address.

DIP 7 6 5 4 3 2 1

VALUE 64 32 16 8 4 2 1


62-0310—05 8

Fig. 12. Termination modules.

Wiring Method

WARNINGElectrical Shock Hazard.Can cause severe injury, death or property damage.Disconnect power supply before beginning wiring, or making wiring connections, to prevent electrical shock or equipment damage.

NOTE: When attaching two or more wires to the same terminal, other than 14 AWG (2.0 sq mm), be sure to twist them together. Deviation from this rule can result in improper electrical contact (see Fig. 13).

Each terminal can accommodate the following gauges of wire:— Single wire: from 22 AWG to 14 AWG solid or stranded— Multiple wires: up to two 18 AWG stranded, with 1/4 watt

wire-wound resistor

Prepare wiring for the terminal blocks, as follows:1. Strip 1/2 in. (13 mm) insulation from the conductor.2. Cut a single wire to 3/16 in. (5 mm). Insert the wire in

the required terminal location and tighten the screw.3. If two or more wires are being inserted into one terminal

location, twist the wires together a minimum of three turns before inserting them (see Fig. 13).

4. Cut the twisted end of the wires to 3/16 in. (5 mm) before inserting them into the terminal and tightening the screw.

5. Pull on each wire in all terminals to check for good mechanical connection.

Fig. 13. Attaching two or more wires at terminal blocks.

Controller Replacement (PVB0000AS, PVB4022AS, and PVB6436AS)For PVB0000AS, PVB4022AS, and PVB6436AS controllers, which are hard-wired to an actuator, perform the following actions to replace the complete assembly (controller and actuator):

1. Remove all power from the controller.2. Remove the two air flow pickup connections from the

pressure sensor.3. Remove the terminal blocks.4. Remove the old controller and actuator assembly from

its mounting.• Loosen the two bolts on the actuator clamp to

release the actuator from the shaft.• Remove the controller’s mounting screws.• Gently pull the controller and actuator assembly

straight out, until the assembly is clear of the actuator shaft.

AO-1

COM

AO-2

AO-3

COM

UI-1

COM

UI-2

UI-3

COM

UI-4

UI-5

COM

UI-6

DI-1

DI-2

COM

DI-3

20V

DCDI

-4

BAC

–BA

C +

SHLD

EGND

24 V

AC24

VAC

COM

DO-1

COM

DO-2

DO-3

DO-4

DO-5

COM

DO-6

COM

M29331A

ADD APPROPRIATE TERMINATIONRESISTOR BETWEEN THE BAC+ AND THE BAC– TERMINALS.

BACnet MS/TP–

BAC+SHLD

BAC–NOTE: ALL BACnet MS/TP CONNECTIONS ARE MADE TO:

1 2 3 4 5 6 7 8 109 2 3 4 5 6 7 8 0911 1 1 1 1 1 1 1 21

1 2 3 4 5 6 7 8 0922 2 2 2 2 2 2 2 33

1 2 3 4 5 6 7 8 0933 33 33 33 4

AO-1

COM

AO-2

AO-3

COM

UI-1

COM

UI-2

UI-3

COM

UI-4

UI-5

COM

UI-6

DI-1

DI-2

COM

DI-3

20V

DCDI

-4

BAC

–BA

C +

SHLD

EGND

24 V

AC24

VAC

COM

DO-1

COM

DO-2

DO-3

DO-4

DO-5

COM

DO-6

COM

1 2 3 4 5 6 7 8 109 2 3 4 5 6 7 8 0911 1 1 1 1 1 1 1 21

1 2 3 4 5 6 7 8 0922 2 2 2 2 2 2 2 33

1 2 3 4 5 6 7 8 0933 33 33 33 4

AO-1

COM

AO-2

AO-3

COM

UI-1

COM

UI-2

UI-3

COM

UI-4

UI-5

COM

UI-6

DI-1

DI-2

COM

DI-3

20V

DCDI

-4

BAC

–BA

C +

SHLD

EGND

24 V

AC24

VAC

COM

DO-1

COM

DO-2

DO-3

DO-4

DO-5

COM

DO-6

COM

1 2 3 4 5 6 7 8 109 2 3 4 5 6 7 8 0911 1 1 1 1 1 1 1 21

1 2 3 4 5 6 7 8 0922 2 2 2 2 2 2 2 33

1 2 3 4 5 6 7 8 0933 33 33 33 4

DO-7

DO-8

COM

DO-7

DO-8

COM

SBUS

1SB

US2

SBUS

1SB

US2

SBUS

1SB

US2

BACnet MS/TP+SHIELD

BACnet MS/TP–BACnet MS/TP+SHIELD

1/2(13)

STRIP 1/2 IN. (13 MM)

FROM WIRES TO

BE ATTACHED AT

ONE TERMINAL.

1.

2. TWIST WIRES

TOGETHER WITH

PLIERS (A MINIMUM

OF THREE TURNS).

3.CUT TWISTED END OF WIRES TO 3/16 IN. (5 MM)

BEFORE INSERTING INTO TERMINAL AND

TIGHTENING SCREW. THEN PULL ON EACH

WIRE IN ALL TERMINALS TO CHECK FOR

GOOD MECHANICAL CONNECTION. M17207


9 62-0310—05

5. Mount the new controller and actuator assembly (See “Installation” on page 2.).

6. Reconnect the two air flow pickup tubes to the pressure sensor (See “Piping (PVB0000AS, PVB4022AS, PVB4024NS, PVB6436AS, and PVB6438NS)” on page 4).

7. Replace the terminal blocks:• Insert each terminal block onto its alignment pins.• Press straight down to firmly seat it.• Repeat for each terminal block.

8. Restore power to the controller.

Controller Replacement (PVB4024NS and PVB6438NS)Perform the following to replace the PVB4024NS and PVB6438NS controllers:


pressure sensor.3. Remove the terminal blocks.4. Remove the old controller from its mounting.

IMPORTANT (FOR CONTROLLERS MOUNTED TO A DIN RAIL):

1. Push straight up from the bottom to release the top pins.

2. Rotate the top of the controller outwards to release the bottom flex connectors (see Fig. 8 on page 5).

5. Mount the new controller. • See “Installation” on page 2.


7. Replace the terminal blocks:• Insert each terminal block onto its alignment pins.• Press straight down to firmly seat it. • Repeat for each terminal block.


Controller Replacement (PUB1012S, PUB4024S, and PUB6438S)Perform the following to replace the PUB1012S, PUB4024S, and PUB6438S controllers:

1. Remove all power from the controller.2. Remove the terminal blocks.3. Remove the old controller from its mounting.




4. Mount the new controller (See “Installation” on page 2.).5. Replace the terminal blocks:

• Insert each terminal block onto its alignment pins.• Press straight down to firmly seat it. • Repeat for each terminal block.



Automation and Control SolutionsHoneywell International Inc.

1985 Douglas Drive North

Golden Valley, MN 55422

customer.honeywell.com

® U.S. Registered Trademark© 2014 Honeywell International Inc.62-0310—05 M.S. Rev. 01-14 Printed in United States

By using this Honeywell literature, you agree that Honeywell will have no liability for any damages arising out of your use or modification to, the literature. You will defend and indemnify Honeywell, its affiliates and subsidiaries, from and against any liability, cost, or damages, including attorneys’ fees, arising out of, or resulting from, any modification to the literature by you.

VAV CONTROLLER

INSTALLATION INSTRUCTIONS

62-0310-05

Spyder® BACnet®Programmable Controllers

PRODUCT DESCRIPTIONThe PUB and PVB controllers are part of the Spyder family. These controllers are BACnet MS/TP network devices designed to control HVAC equipment. These controllers provide many options and advanced system features that allow state-of-the-art commercial building control. Each controller is programmable and configurable through software.

These controllers are for use in VAV (Variable Air Volume), Unitary, and advanced HVAC applications. Each controller has flexible, universal inputs for external sensors, digital inputs, and a combination of analog and digital Triac outputs. All the models are described in Table 1. The photo to the left is the model PVB6436AS, which includes the actuator.

Table 1. Controller configurations.

Each controller communicates via an EIA-485 BACnet MS/TP network communications network, capable of baud rates between 9.6 and 115.2 kilobits.Controllers are field-mountable to either a panel or a DIN rail.

SPECIFICATIONS

General SpecificationsRated Voltage: 20–30 Vac; 50/60 HzPower Consumption:

100 VA for controller and all connected loads (including the actuator on models models PVL0000AS, PVL4022AS, and PVL6436AS).

Controller Only Load: 5 VA maximum; models PUB1012S, PUB4024S, PUB6438S, PVB4024NS, and PVB6438NS.

Controller and Actuator Load: 9 VA maximum; models PVL0000AS, PVL4022AS, and PVL6436AS.

External Sensors Power Output: 20 Vdc ±10% @ 75 mA maximum.

VAV Operating & Storage Temperature Ambient Rating (models PVB0000AS, PVB4022AS, PVB4024NS, PVB6436AS, and PVB6438NS).:Minimum 32 ºF (0 ºC); Maximum 122 ºF (50 ºC)

Unitary Operating & Storage Temperature Ambient Rating (models PUB1012S, PUB4024S, and PUB6438S.):Minimum -40 ºF (-40 ºC); Maximum 150 ºF (65.5 ºC)

Relative Humidity: 5% to 95% non-condensingLED: Provides status for normal operation, controller down-

load process, alarms, manual mode, and error conditions

ControllerModel

ProgrammableType

UniversalInputs

(UI)

DigitalInputs

(DI)

AnalogOutputs

(AO)

DigitalOutputs

(DO)

VelocityPressureSensor

(Microbridge)

Series 60FloatingActuator



PUB6438S Unitary 6 4 3 8 NO NO


PVB4022AS VAV 4a 0 2 2 YES YES

PVB4024NS VAV 4a 0 2 4 YES NO


PVB6438NS VAV 6 4 3 8 YES NO

Hassan

Highlight


62-0310—05 2

BEFORE INSTALLATIONThe controller is available in three models (see Table 1).

Review the power, input, and output specifications on page 1 before installing the controller.— Hardware driven by Triac outputs must have a minimum

current draw, when energized, of 25 mA and a maximum current draw of 500 mA.

— Hardware driven by the analog current outputs must have a maximum resistance of 550 Ohms, resulting in a maximum voltage of 11 volts when driven at 20 mA.If resistance exceeds 550 Ohms, voltages up to 18 Vdc are possible at the analog output terminal.

WARNINGElectrical Shock Hazard.Can cause severe injury, death or property damage.Disconnect power supply before beginning wiring or making wiring connections to prevent electrical shock or equipment damage.

INSTALLATIONThe controller must be mounted in a position that allows clearance for wiring, servicing, removal, connection of the BACnet MS/TP Molex connector and access to the MS/TP MAC address DIP switches.

The controller may be mounted in any orientation.

IMPORTANTAvoid mounting in areas where acid fumes or other deteriorating vapors can attack the metal parts of the controller, or in areas where escaping gas or other explosive vapors are present. Fig. 6–Fig. 7 on page 4 for mounting dimensions.

For the PVB6436AS model, the actuator is mounted first and then the controller is mounted. For the other models, go to “When the actuator closes, the damper rotates CW either 45 or 60 degrees to fully close.” on page 3 to begin the installation.

Mount Actuator onto Damper Shaft (PVB0000AS, PVB4022AS, and PVB6436AS)PVB0000AS, PVB4022AS, and PVB6436AS controllers include the direct-coupled actuator with Declutch mechanism, which is shipped hard-wired to the controller.

The actuator mounts directly onto the VAV box damper shaft and has up to 44 lb-in. (5 Nm) torque, 90-degree stroke, and 90 second timing at 60 Hz. The actuator is suitable for mounting onto a 3/8 to 1/2 in. (10 to 13 mm) square or round VAV box damper shaft. The minimum VAV box damper shaft length is 1-9/16 in. (40 mm).

The two mechanical end-limit set screws control the amount of rotation from 12° to 95°. These set screws must be securely fastened in place. To ensure tight closing of the damper, the shaft adapter has a total rotation stroke of 95° (see Fig. 1).

NOTES:1. The actuator is shipped with the mechanical end-

limit set screws set to 95 degrees of rotation. Adjust the two set screws closer together to reduce the rotation travel. Each “hash mark” indi-cator on the bracket represents approximately 6.5° of rotation per side.

2. The Declutch button, when pressed, allows you to rotate the universal shaft adapter (see Fig. 1).

IMPORTANTDetermine the damper rotation and opening angle prior to installation. See Fig. 2 below and Fig. 3 on page 3 for examples.

Fig. 1. Series 60 Floating Actuator.

Fig. 2. Damper with 90 degree CW rotation to open.

IMPORTANTMount actuator flush with damper housing or add a spacer between the actuator mounting surface and damper box housing.

UNIVERSAL SHAFTCLAMPING BOLTS (2)

M23568

UNIVERSALSHAFT ADAPTER

MECHANICALEND LIMIT SET

SCREWS (2)

DECLUTCHBUTTON

M23569

DAMPER SHAFT ROTATES CLOCKWISE TO OPEN

DAMPER


3 62-0310—05

Before Mounting Actuator onto Damper Shaft (PVB0000AS, PVB4022AS, and PVB6436AS.)

Tools required:— Phillips #2 screwdriver - end-limit set screw adjustment— 8 mm wrench - centering clampBefore mounting the actuator onto the VAV box damper shaft, determine the following:

1. Determine the damper shaft diameter. It must be between 3/8 in. to 1/2 in. (10 to 13 mm).

2. Determine the length of the damper shaft. If the length of the VAV box damper shaft is less than 1-9/16 in. (40 mm), the actuator cannot be used.

3. Determine the direction the damper shaft rotates to open the damper (CW or CCW) (see Fig. 3). Typically, there is an etched line on the end of the damper shaft that indi-cates the position of the damper. In Fig. 2, the indicator shows the damper open in a CW direction.

4. Determine the damper full opening angle (45, 60, or 90 degrees). In Fig. 2, the damper is open to its full open position of 90 degrees.

Fig. 3. Determining the rotation direction (CW or CCW) for damper opening.

Mounting Actuator Onto Damper Shaft (PVB0000AS, PVB4022AS, and PVB6436AS.)The unit is shipped with the actuator set to rotate open in the clockwise (CW) direction to a full 95 degrees. The extra 5 degrees ensures a full opening range for a 90 degree damper. The installation procedure varies depending on the damper opening direction and angle:

1. If the damper rotates clockwise (CW) to open, and the angle of the damper open-to-closed is 90 degrees:a. Manually open the damper fully (rotate clockwise). b. Using the Declutch button, rotate the universal shaft

adapter fully clockwise. c. Mount the actuator to the VAV damper box and shaft.

d. Tighten the two bolts on the centering clamp (8 mm wrench; 70.8–88.5 lb-in. [8–10 Nm] torque). When the actuator closes, the damper rotates CCW 90 degrees to fully close.

2. If the damper rotates clockwise (CW) to open, and the angle of the damper open-to-closed is 45 or 60 degrees:a. Manually open the damper fully (rotate clockwise).b. The actuator is shipped with the mechanical



d. Using the Declutch button, rotate the universal shaft adapter fully clockwise.


(8 mm wrench; 70.8–88.5 lb-in. [8–10 Nm] torque).g. When the actuator closes, the damper rotates CCW

either 45 or 60 degrees to fully close.3. If the damper rotates counterclockwise (CCW) to open,

and the angle of the damper open-to-closed is 90 degrees:a. Manually open the damper fully (rotate counter-

clockwise).b. Using the Declutch button, rotate the universal shaft

adapter fully counterclockwise. c. Mount the actuator to the damper box and shaft. d. Tighten the two bolts on the centering clamp (8 mm

wrench; 70.8–88.5 lb-in. [8–10 Nm] torque). When the actuator closes, the damper rotates CW 90 degrees to fully close.

4. If the damper rotates counterclockwise to open, and the angle of the damper open-to-closed is 45 or 60 degrees:a. Manually open the damper fully (rotate counter-

clockwise).b. The actuator is shipped with the mechanical



d. Using the Declutch button, rotate the universal shaft adapter fully counter-clockwise.


(8 mm wrench; 70.8–88.5 lb-in. [8–10 Nm] torque).g. When the actuator closes, the damper rotates CW

either 45 or 60 degrees to fully close.

Mount ControllerNOTE: The controller may be wired before mounting to a

panel or DIN rail.

Terminal blocks are used to make all wiring connections to the controller. Attach all wiring to the appropriate terminal blocks (see “Wiring” on page 5).

AIR

FLOW

AIR

FLOW

CW TO OPEN, CCW TO CLOSE

CCW TO OPEN, CW TO CLOSEM2067B

TYPE A DAMPER

TYPE B DAMPER


62-0310—05 4

Fig. 4. Panel Mounting - controller dimensions in inches (mm) for PUB1012S, PUB4024S, and PVB4024NS (only

PUB40245S and PVB4024NS shown).

Fig. 5. Panel mounting - controller and actuator dimensions in inches (mm) for PVB0000AS and

PVB4022AS (only PVB000AS shown).

Fig. 6. Panel mounting - controller and actuator dimensions in inches (mm) for PVB6436AS.

Fig. 7. Panel mounting - controller dimensions in inches (mm) for models PUB6438S and PVB6438NS.

Panel MountingThe controller enclosure is constructed of a plastic base plate

and a plastic factory-snap-on cover.

M33228ANOTE: CONTROLLER CAN BE MOUNTED IN ANY ORIENTATION.

3/16 (4.5) PANEL MOUNTING HOLE (4X)

1 1 1 1 1 1 1 2 2 2 2 23 4 5 6 7 8 9 0 1 2 3 4

1 1 1 1 1 1 1 2 2 2 2 23 4 5 6 7 8 9 0 1 2 3 4

1 2 3 4 5 6

DEPTH IS 2-1/4 (57)

7 8 9 10 11 12

1 2 3 4 5 6

7 8 9 10 11 12

4-13/16 (122)4-1/8 (105)

4-13/16 (122)4-1/8 (105)

6-1/4(159)

5-7/8(149)

6-1/4(159)

5-7/8(149)

NOTE: CONTROLLER CAN BE MOUNTED IN ANY ORIENTATION. M33229B

3/16 (4.5) PANELMOUNTING HOLE (4X)

27/32(21)

DEPTH IS 2-1/4 (57)

1 1 1 1 1 1 1 2 2 2 2 23 4 5 6 7 8 9 0 1 2 3 4

1 2 3 4 5 6

7 8 9 10 11 12

6-1/4(159)

5-7/8(149)

8-9/32(211)

4-1/8(105)

1-15/16(49)

6-9/32(159)

1 2 3 4 5 6 7 8 109 2 3 4 5 6 711 1 1 1 1 1 1

1 2 3 4 5 6 7 8 0922 2 2 2 2 2 2 2 33

1 2 3 4 5 6 7 8 0933 33 33 33 4

5-3/4

(146)

10-5/16 (262)


PANEL MOUNTING HOLE(4X) 3/16 IN. (4.5)

M29329

5-3/64

(128)

8-5/16 (211)

6-29/64 (164)1-55/64

(47)

6-17/64

(159)

7/16

(11)

DEPTH IS 2-1/4 (57)

1 2 3 4 5 6 7 8 1 0 9 2 3 4 5 6 7 8 0 9 1 1 1 1 1 1 1 1 1 2 1

1 2 3 4 5 6 7 8 0 9 2 2 2 2 2 2 2 2 2 3 3

1 2 3 4 5 6 7 8 0 9 3 3 3 3 3 3 3 3 4

5-3/4 (146)

6-27/32 (174)


PANEL MOUNTING HOLE (4X) 29/64 IN. (12)

M29330

5-3/64 (128)

6-29/64 (164)

5-29/64

(139)

1 2 3 4 5 6 7 8 1 0 9 2 3 4 5 6 7 8 0 9 1 1 1 1 1 1 1 1 1 2 1

1 2 3 4 5 6 7 8 0 9 2 2 2 2 2 2 2 2 2 3 3

1 2 3 4 5 6 7 8 0 9 3 3 3 3 3 3 3 3 4

6-27/32 (174)

5-3/64 (128)

6-29/64 (164)

5-29/64

(139)

PVB6438NS PUB6438S

DEPTH IS 2-1/4 (57)


5 62-0310—05

NOTE: The controller is designed so that the cover does not need to be removed from the base plate for either mounting or wiring.

The controller mounts using four screws inserted through the corners of the base plate. Fasten securely with four No. 6 or No. 8 machine or sheet metal screws.

The controller can be mounted in any orientation. Ventilation openings are designed into the cover to allow proper heat dissipation, regardless of the mounting orientation.

DIN Rail Mounting (PUB1012S, PUB4024S, PUB6438S, PVB4024NS, and PVB6438NS.)To mount the PUB1012S, PUB4024S, PUB6438S, PVB4024NS, or PVB6438NS controller on a DIN rail [standard EN50022; 1-3/8 in. x 9/32 in. (7.5 mm x 35 mm)], refer to Fig. 8 and perform the following steps:

1. Holding the controller with its top tilted in towards the DIN rail, hook the two top tabs on the back of the con-troller onto the top of the DIN rail.

2. Push down and in to snap the two bottom flex connec-tors of the controller onto the DIN rail.

IMPORTANTTo remove the controller from the DIN rail, perform the following:

1. Push straight up from the bottom to release the top tabs.

2. Rotate the top of the controller out towards you and pull the controller down and away from the DIN rail to release the bottom flex connectors.

Fig. 8. Controller DIN rail mounting (PUB1012S, PUB4024S, PUB6438S, PVB4024NS, and PVB6438NS).

Piping (PVB0000AS, PVB4022AS, PVB4024NS, PVB6436AS, and PVB6438NS)

Air flow PickupFor PVB0000AS, PVB4022AS, PVB4024NS, PVB6436AS, and PVB6438NS, connect the air flow pickup to the two restrictor ports on the controller (see Fig. 9).

NOTES:— Use 1/4 inch (6 mm) outside diameter, with a

0.040 in. (1 mm) wall thickness, plenum-rated 1219 FR (94V-2) tubing.

— Always use a fresh cut on the end of the tubing that connects to the air flow pickups and the restrictor ports on the controller.

Connect the high pressure or upstream tube to the plastic restrictor port labeled (+), and the low pressure or down-stream tube to the restrictor port labeled (-). See labeling in Fig. 9. When twin tubing is used from the pickup, split the pickup tubing a short length to accommodate the connections.

NOTES:— If controllers are mounted in unusually dusty or

dirty environments, an inline, 5-micron disposable air filter (use 5-micron filters compatible with pneumatic controls) is recommended for the high pressure line (marked as +) connected to the air flow pickup.

— The tubing from the air flow pickup to the control-ler should not exceed three feet (0.914 m). Any length greater than this will degrade the flow sensing accuracy.

— Use caution when removing tubing from a con-nector. Always pull straight away from the connec-tor or use diagonal cutters to cut the edge of the tubing attached to the connector. Never remove by pulling at an angle.

Fig. 9. Air flow pickup connections (PVB0000AS, PVB4022AS, PVB4024NS, PVB6436AS, and PVB6438NS).

WiringAll wiring must comply with applicable electrical codes and ordinances, or as specified on installation wiring diagrams. Controller wiring is terminated to the screw terminal blocks located on the top and the bottom of the device.

WARNINGElectrical Shock Hazard.Can cause severe injury, death or property damage.Disconnect power supply before beginning wiring or making wiring connections, to prevent electrical shock or equipment damage.

NOTES:— For multiple controllers operating from a single

transformer, the same side of the transformer secondary must be connected to the same power input terminal in each controller. Controller

DIN RAIL

TOP TABS

BOTTOM FLEXCONNECTORS M16815

M23556A

AIR FLOW PICKUP

ΔP

1 2 3 4 5 6 7 8 1 0 9 2 3 4 5 6 7 8 0 9 1 1 1 1 1 1 1 1 1 2 1

1 2 3 4 5 6 7 8 0 9 2 2 2 2 2 2 2 2 2 3 3

1 2 3 4 5 6 7 8 0 9 3 3 3 3 3 3 3 3 4

RESTRICTOR PORT

RESTRICTOR PORT

CONNECTOR TUBING


62-0310—05 6

configurations will not necessarily be limited to three devices, but the total power draw, including accessories, cannot exceed 100 VA when powered by the same transformer (U.S. only). The earth ground terminal (terminal 3) must be connected to a verified earth ground for each controller in the group (see Fig. 11 on page 6).

— All loads on the controller must be powered by the same transformer that powers the controller itself. A controller can use separate transformers for controller power and output power.

— Keep the earth ground connection (terminal 3) wire run as short as possible.

— Do not connect the universal input COM terminals, analog output COM terminals or the digital input/output COM terminals to earth ground.

The 24 Vac power from an energy limited Class II power source must be provided to the controller. To conform to Class II restrictions (U.S. only), the transformer must not be larger than 100 VA.

Fig. 10 depicts a single controller using one transformer.

IMPORTANTPower must be off prior to connecting to or removing connections from the 24 Vac power (24 Vac/24 Vac COM), earth ground (EGND), and 20 Vdc power (20 Vdc) terminals.

IMPORTANTUse the heaviest gauge wire available, up to 14 AWG (2.0 sq mm), with a minimum of 18 AWG (1.0 sq mm), for all power and earth ground wiring.

Screw-type terminal blocks are designed to accept up to one 14 AWG (2.0 sq mm) conductor or up to two 18 AWG (1.0 sq mm) conductors. More than two wires that are 18 AWG (2.0 sq mm) can be con-nected with a wire nut. Include a pigtail with this wire group and attach the pigtail to the terminal block.

IMPORTANTConnect terminal 2, (the 24 Vac common [24 VAC COM] terminal) to earth ground (see Fig. 10).

Fig. 10. Power wiring details for one controller per transformer.

More than one controller can be powered by a single transformer. Fig. 11 shows power wiring details for multiple controllers.

NOTE: Controller configurations are not necessarily lim-ited to three devices, but the total power draw, including accessories, cannot exceed 100 VA when powered by the same transformer (U.S. only).

Fig. 11. Power wiring details for two or more controllers per transformer.

CommunicationsEach controller uses a BACnet MS/TP communications port. The controller’s data is presented to other controllers over a twisted-pair MS/TP network, which uses the EIA-485 signaling standard capable of the following baud rates: 9.6, 19.2, 38.4,

76.8 or 115.2 Kilobits per second (configured at global controller). The Spyder BACnet controllers are master devices on the MS/TP network. Each Spyder BACnet controller uses a high-quality EIA-485 transceiver and exerts 1/4 unit load on the MS/TP network.

M29684A

TRANSFORMER

OUTPUTDEVICEPOWER

ΔP

12345678 109 2345678 0911 1111111 21

12345678 0922 2222222 33

12345678 0933 33 33 33 4

EARTHGROUND

1LINE VOLTAGEGREATERTHAN 150 VAC

WHEN CONNECTIONG POWER TO THE SPYDER BACnet CONTROLLER, CONNECT THE COM LEG OF THE VAC SECONDARY CIRCUIT TO A KNOWN EARTH GROUND.

1

COM

24 VAC


M29685A

120/240VAC

TRANSFORMEROUTPUTDEVICEPOWER

ΔP

12345678 109 2345678 0911 1111111 21

12345678 0922 2222222 33

12345678 0933 33 33 33 4

COM

24 VAC

ΔP

12345678 109 2345678 0911 1111111 21

12345678 0922 2222222 33

12345678 0933 33 33 33 4 ΔP

12345678 109 2345678 0911 1111111 21

12345678 0922 2222222 33

12345678 0933 33 33 33 4


EARTHGROUND


7 62-0310—05

Cabling should be selected that meets or exceeds the BACnet Standard which specifies the following: An MS/TP EIA-485 network shall use shielded, twisted-pair cable with characteristic impedance between 100 and 130 ohms. Distributed capacitance between conductors shall be less than 100 pF per meter (30 pF per foot). Distributed capacitance between conductors and shield shall be less that 200 pF per meter (60 pF per foot). Foil or braided shields are acceptable. The Honeywell tested and recommended MS/TP cable is Honeywell Cable 3322 (18 AWG, 1-Pair, Shielded, Plenum cable), alternatively Honeywell Cable 3251 (22 AWG, 1-Pair, Shielded, Plenum cable) is available and meets the BACnet Standard requirements (www.honeywellcable.com).

The maximum BACnet MS/TP network Bus segment length is 4,000 ft. (1,071 m) using recommended wire. Repeaters must be used when making runs longer than 4,000 ft. (1,071 m). A maximum of three repeaters can be used between any two devices.

Setting the MS/TP MAC addressThe MS/TP MAC address for each device must be set to a unique value in the range of 0-127 on an MS/TP network segment (address 0, 1, 2, & 3 should be avoided as they are commonly used for the router, diagnostic tools, and as spare addresses). DIP switches on the Spyder BACnet controller are used to set the controller's MAC address.

To set the MS/TP MAC address of a Spyder BACnet controller:

1. Find an unused MAC address on the MS/TP network to which the Spyder BACnet controller connects.

2. Locate the DIP switch bank on the Spyder BACnet for addressing. This is labeled MAC Address

3. With the Spyder BACnet Controller powered down, set the DIP switches for the MAC Address you want. Add the value of DIP switches set to ON to determine the MAC address. See Table 2. Example, if only DIP switches 1, 3, 5, and 7 are enabled the MAC address would be 85 (1 + 4 + 16 + 64 = 85).

Setting the Device Instance NumberThe Device Instance Number must be unique across the entire BACnet system network because it is used to uniquely identify the BACnet devices. It may be used to conveniently identify the BACnet device from other devices during

installation. The Spyder BACnet Controllers Device Instance Number is automatically set when it is added to a WEBStation-AX project. The Device Instance Number can be changed by the user, which may be necessary when integrating with a third party or when attempting to replace an existing controller and it is desired to maintain the existing Device Instance Number.

To edit the Device Instance Number using WEBs AX:1. Identify an unused Device Instance Number on the

BACnet Network, in the range of 0 - 4194302.2. Open the Spyder Bacnet Device Mgr View

a. Double click on the BacnetNetwork located in the Nav tree.

b. Select the Spyder Controller to be modified.c. Click on the Edit button.d. Enter an unused value in the Device Id field.e. Select OK

3. Right Click on the Spyder Controller and select Actions > Write Device Instance to complete the update

Termination ResistorsMatched terminating resistors are required at each end of a segment bus wired across (+) and (-). Use matched precision resistors rated 1/4W ±1% / 80 - 130 Ohms. Ideally, the value of the terminating resistors should match the rated characteristic impedance of the installed cable. For example, if the installed MS/TP cable has a a listed characteristic impedance of 120 Ohm, install 120 Ohm matched precision resistors.

Shield TerminatingFollowing proper MS/TP cabling shield grounding procedures is important to minimize the risk of communication problems and equipment damage caused by capacitive coupling. Capacitive coupling is caused by placing MS/TP cabling close to lines carrying higher voltage. The shield should be grounded on only one end of the MS/TP segment (typically the router end). Tie the shield through using the SHLD (terminal 4) on the Spyder BACnet Controller.

Sylk™ BusSylk is a two wire, polarity insensitive bus that provides both 18 VDC power and communications between a Sylk-enabled sensor and a Sylk-enabled controller. Using Sylk-enabled sensors saves I/O on the controller and is faster and cheaper to install since only two wires are needed and the bus is polarity insensitive. Sylk sensors are configured using the latest release of the Spyder Tool for WEBPro and WEBStation.

Table 2. DIP Switch Values For MS/TP MAC Address.

DIP 7 6 5 4 3 2 1

VALUE 64 32 16 8 4 2 1


62-0310—05 8

Fig. 12. Termination modules.

Wiring Method

WARNINGElectrical Shock Hazard.Can cause severe injury, death or property damage.Disconnect power supply before beginning wiring, or making wiring connections, to prevent electrical shock or equipment damage.

NOTE: When attaching two or more wires to the same terminal, other than 14 AWG (2.0 sq mm), be sure to twist them together. Deviation from this rule can result in improper electrical contact (see Fig. 13).

Each terminal can accommodate the following gauges of wire:— Single wire: from 22 AWG to 14 AWG solid or stranded— Multiple wires: up to two 18 AWG stranded, with 1/4 watt

wire-wound resistor

Prepare wiring for the terminal blocks, as follows:1. Strip 1/2 in. (13 mm) insulation from the conductor.2. Cut a single wire to 3/16 in. (5 mm). Insert the wire in

the required terminal location and tighten the screw.3. If two or more wires are being inserted into one terminal

location, twist the wires together a minimum of three turns before inserting them (see Fig. 13).

4. Cut the twisted end of the wires to 3/16 in. (5 mm) before inserting them into the terminal and tightening the screw.

5. Pull on each wire in all terminals to check for good mechanical connection.

Fig. 13. Attaching two or more wires at terminal blocks.

Controller Replacement (PVB0000AS, PVB4022AS, and PVB6436AS)For PVB0000AS, PVB4022AS, and PVB6436AS controllers, which are hard-wired to an actuator, perform the following actions to replace the complete assembly (controller and actuator):


pressure sensor.3. Remove the terminal blocks.4. Remove the old controller and actuator assembly from

its mounting.• Loosen the two bolts on the actuator clamp to

release the actuator from the shaft.• Remove the controller’s mounting screws.• Gently pull the controller and actuator assembly

straight out, until the assembly is clear of the actuator shaft.

AO-1

COM

AO-2

AO-3

COM

UI-1

COM

UI-2

UI-3

COM

UI-4

UI-5

COM

UI-6

DI-1

DI-2

COM

DI-3

20V

DCDI

-4

BAC

–BA

C +

SHLD

EGND

24 V

AC24

VAC

COM

DO-1

COM

DO-2

DO-3

DO-4

DO-5

COM

DO-6

COM

M29331A

ADD APPROPRIATE TERMINATIONRESISTOR BETWEEN THE BAC+ AND THE BAC– TERMINALS.

BACnet MS/TP–

BAC+SHLD

BAC–NOTE: ALL BACnet MS/TP CONNECTIONS ARE MADE TO:

1 2 3 4 5 6 7 8 109 2 3 4 5 6 7 8 0911 1 1 1 1 1 1 1 21

1 2 3 4 5 6 7 8 0922 2 2 2 2 2 2 2 33

1 2 3 4 5 6 7 8 0933 33 33 33 4

AO-1

COM

AO-2

AO-3

COM

UI-1

COM

UI-2

UI-3

COM

UI-4

UI-5

COM

UI-6

DI-1

DI-2

COM

DI-3

20V

DCDI

-4

BAC

–BA

C +

SHLD

EGND

24 V

AC24

VAC

COM

DO-1

COM

DO-2

DO-3

DO-4

DO-5

COM

DO-6

COM

1 2 3 4 5 6 7 8 109 2 3 4 5 6 7 8 0911 1 1 1 1 1 1 1 21

1 2 3 4 5 6 7 8 0922 2 2 2 2 2 2 2 33

1 2 3 4 5 6 7 8 0933 33 33 33 4

AO-1

COM

AO-2

AO-3

COM

UI-1

COM

UI-2

UI-3

COM

UI-4

UI-5

COM

UI-6

DI-1

DI-2

COM

DI-3

20V

DCDI

-4

BAC

–BA

C +

SHLD

EGND

24 V

AC24

VAC

COM

DO-1

COM

DO-2

DO-3

DO-4

DO-5

COM

DO-6

COM

1 2 3 4 5 6 7 8 109 2 3 4 5 6 7 8 0911 1 1 1 1 1 1 1 21

1 2 3 4 5 6 7 8 0922 2 2 2 2 2 2 2 33

1 2 3 4 5 6 7 8 0933 33 33 33 4

DO-7

DO-8

COM

DO-7

DO-8

COM

SBUS

1SB

US2

SBUS

1SB

US2

SBUS

1SB

US2

BACnet MS/TP+SHIELD

BACnet MS/TP–BACnet MS/TP+SHIELD

1/2(13)

STRIP 1/2 IN. (13 MM)

FROM WIRES TO

BE ATTACHED AT

ONE TERMINAL.

1.

2. TWIST WIRES

TOGETHER WITH

PLIERS (A MINIMUM

OF THREE TURNS).

3.CUT TWISTED END OF WIRES TO 3/16 IN. (5 MM)

BEFORE INSERTING INTO TERMINAL AND

TIGHTENING SCREW. THEN PULL ON EACH

WIRE IN ALL TERMINALS TO CHECK FOR

GOOD MECHANICAL CONNECTION. M17207


9 62-0310—05

5. Mount the new controller and actuator assembly (See “Installation” on page 2.).


7. Replace the terminal blocks:• Insert each terminal block onto its alignment pins.• Press straight down to firmly seat it.• Repeat for each terminal block.


Controller Replacement (PVB4024NS and PVB6438NS)Perform the following to replace the PVB4024NS and PVB6438NS controllers:


pressure sensor.3. Remove the terminal blocks.4. Remove the old controller from its mounting.




5. Mount the new controller. • See “Installation” on page 2.


7. Replace the terminal blocks:• Insert each terminal block onto its alignment pins.• Press straight down to firmly seat it. • Repeat for each terminal block.


Controller Replacement (PUB1012S, PUB4024S, and PUB6438S)Perform the following to replace the PUB1012S, PUB4024S, and PUB6438S controllers:

1. Remove all power from the controller.2. Remove the terminal blocks.3. Remove the old controller from its mounting.




4. Mount the new controller (See “Installation” on page 2.).5. Replace the terminal blocks:

• Insert each terminal block onto its alignment pins.• Press straight down to firmly seat it. • Repeat for each terminal block.







® U.S. Registered Trademark© 2014 Honeywell International Inc.62-0310—05 M.S. Rev. 01-14 Printed in United States


WALL MODULE THERMOSTAT FOR VAV

SPECIFICATION DATA

63-1389-04

Zio® Lite Wall ModulesTR40 AND TR42 MODELS WITH SYLK™

PRODUCT DESCRIPTIONThe TR40 and TR42 are 2-wire, non-polarity sensitive, Sylk communicating wall modules, which communicate with all Spyder® programmable controllers and ComfortPoint™ Open controllers that are enabled with Sylk. Not compatible with Stryker® controllers.

The TR40 and TR42 are simple temperature wall modules with basic setpoint, override, and fan options, and are designed for a broad range of applications. Models are available that include humidity and CO2 sensing.

NOTE: Refer to the forms listed below for more details.— 62-0467 Installation Instructions— 63-2741 Operating Guide— 38-00003 Engineering Guide Spec

FEATURESThe TR40 and TR42 wall modules include:• Two wire, polarity insensitive Sylk provides both power

and communication to the device.

• Models available with display (TR42) or without display (TR40).

• Models available with or without built in humidity or CO2 sensors.

All TR42 display wall modules include:• Override option

• Ability for tenant to change between °F and °C

• Ability to provide tenant either a relative "warmer-cooler" setpoint adjustment or absolute temperature setpoint adjustment

• Fan speed options: Auto-On, Auto-Off-On, Auto-Off-Low-Med-High (Not available on ComfortPoint Open VAV applications)

• For Spyder/Niagara users, an installer mode with optional password protection that allows:

• Switching between °F and °C

• Temperature calibration

• Humidity calibration

• Numerical or Graphical setpoint adjustment

• Adjustment of the Setpoint Range Limits

• Adjustment of override time (Choose Network Time or 1-24 hours)

• Choosing the sensor or setpoint value to be shown in the Home Screen, or choose to scroll through sensor and setpoint values

• Choosing between English and International icon display

• For ComfortPoint Open users, installer mode is removed from configurations. All configuration is via studio tool

ZIO® LITE WALL MODULES





® U.S. Registered Trademark© 2015 Honeywell International Inc.63-1389—04 M.S. Rev. 12-15Printed in United States


SPECIFICATIONSModels: See Table 1 for a list of models with description.

Environmental Ratings:• Operating Temperature:

• Operating Range: 32 to 125 °F (0 to 52 °C)• Setpoint Limit: 50 to 149 °F (10 to 65 °C) (Spyder/

Niagara users only)• Shipping Temperature: -40 to 150 °F (-40 to 65.5 °C)• Relative Humidity: 5% to 95% non-condensing

Accessories:50007298-001 (pack of 12) medium, cover plate;

6-7/8 x 5 in. (175 x 127 mm).

Approvals: CE; UL94-V0 plastic enclosure; FCC Part 15, Class B

Accuracy: • Temperature: ± 0.2 °C at 25 °C (± 0.36 ºF at 77 ºF)• Humidity: ±3% RH from 20-80%RH• CO2: ±(30ppm +3% of measured value).

• Calibrated at the factory.• Uses automatic background calibration. No

calibration required for the life of the product.• Meets CEC Title 24 requirement of ±75ppm

accuracy at 600ppm and 1000ppm ambient levels.• For proper CO2 operation, install only in spaces that

see at least 4 hours of continuous unoccupied time per week.

Table 1. Part Descriptions.

CommunicationsThe wall modules use the two wire polarity insensitive Sylk for communication with the programmable controller.

CompatibilityFor Spyder/Niagara users, the TR40/42 models work with Spyders manufactured after date code 1220, and work with any Spyder Micro BACnet. Be sure to use an updated Spyder tool to get the TR40/42 functional support.

Also compatible with the ComfortPoint™ Open CPO-VAV2A direct coupled, VAV box controller-actuator.

Setting the Wall Module Address DialEvery Sylk device wired to a single controller must have a unique address. The address on the wall module must match the address in the control logic.

Sylk Device CapacityFor ComfortPoint Open controllers, a maximum of three (3) TR40/42s can be supported by a single controller.

For Spyder controllers, to determine the maximum number of Sylk devices, including Zio Lites, please refer to the Sylk Device Capacity Calculation Tool on the Buildings Forum. Sylk Capacity can also be determined, and should always be verified, using the Resouce Usage view in the Spyder Tool itself. Total Sylk proxy file memory, total Sylk power consumption, and total Sylk bandwidth must all fall below maximum limits.

Part Description Sensors Communication Interface

TR40 Wall Module, Temp only, Sylk Temperature Sylk None

TR40-H Wall Module, Temp and Humidity, Sylk Temp, Humidity Sylk None

TR40-CO2 Wall Module, Temp and CO2, Sylk Temp, CO2 Sylk None

TR40-H-CO2 Wall Module, Temp, Humdity, CO2, Sylk Temp, Hum, CO2 Sylk None

TR42 LCD Wall Module, Temp only, Sylk Temperature Sylk Configurable: Temp Setpoint Adjust, Override, Fan (if FCU app)

TR42-H LCD Wall Module, Temp and Humidity, Sylk Temp, Humidity Sylk Configurable: Temp Setpoint Adjust, Override, Fan (if FCU app)

TR42-CO2 LCD Wall Module, Temp and CO2, Sylk Temp, CO2 Sylk Configurable: Temp Setpoint Adjust, Override, Fan (if FCU app)

TR42-H-CO2 LCD Wall Module, Temp, Humidity, CO2, Sylk Temp, Hum, CO2 Sylk Configurable: Temp Setpoint Adjust, Override, Fan (if FCU app)

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TOUCH SCREEN

CLMMI00N31 - Touchscreen MMI Product Data

Copyright © 2014 Honeywell GmbH All Rights Reserved EN0Z-0929GE51 R0714

GENERAL The CLMMI00N31 Touchscreen MMI is an easy-to-use and robust operator unit for the entire range of plant controllers. The touch-panel operation screens allow for easy and self-explanatory operation by finger-tip or by touch-pen (supplied). User-configurable fast-access lists can contain selected data-points, time programs, and parameters, thus permitting plant-oriented and customer-oriented operation.

Features

Operation of all CentraLine plant controllers: The CLMMI00N31 operates controllers belonging to the CentraLine family (PANTHER, TIGER, LION, FALCON and EAGLE).

Controller self-detection: The CLMMI00N31 automatically recognizes the connected CentraLine controller and automatically starts the correct form of communication.

Local languages: The CLMMI00N31 comes with operation menus in the following languages: Dutch, English, French, German, Italian, Japanese, Norwegian, Spanish, and Swedish. Other local language menus can be provided, upon request, and can be loaded via the USB interface.

Uniform operation screens: Regardless of the type of controller family, the screens all have a similar look and feel.

Password protection: The CLMMI00N31 uses the existing password mechanisms of the controllers it is connected to: Three (3) password levels for PANTHER, TIGER, LION; Six (6) password levels for FALCON and EAGLE.

Upgrade of installed systems: The CLMMI00N31 can be used to easily upgrade existing controllers to touch-screen operation, because it can simply replace existing CLMMI00N21/22 operator interfaces.

Bus-wide operation: Once connected to a controller, the CLMMI00N31 allows bus-wide access to other controllers on the same bus.

Maintenance free: The CLMMI00N31 is a solid-state product, without moving components like fan or hard-drive.

24 Vac and 24 Vdc operating voltage

Network security: Due to its embedded Windows CE operating system – which is loaded upon every powering-up – the CLMMI00N31 is not prone to typical network security issues like viruses, Trojans, etc.

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CLMMI00N31 - TOUCHSCREEN MMI – PRODUCT DATA

EN0Z-0929GE51 R0714 2

Specifications

Communication Protocols The CLMMI00N31 provides an auto-detection mechanism which recognizes the type of CentraLine controller to which it is connected. Based on the type of controller detected, it will automatically start the corresponding communication protocol. HTTP HTTP is used for communication with FALCON and EAGLE. FTP FTP is available in Windows® CE. The user must enable it. XCNAP Honeywell proprietary protocol, used for communication with CentraLine family controllers.

Hardware Interfaces Ethernet (used for Excel Web operation) 10/100 MBit/s, RJ45 female RS232C (used for CentraLine family operation) 9-Pin sub-D, male, 115 KBit/s USB (for memory stick) two ports, USB Host 2.0, full-speed (max. 12 MBit/s)

23 121 3 4 5

6 7 8 9

POWER

RS232C

USB ETHERNET

Fig. 1. CLMMI00N31 hardware interfaces

Electrical Data This is a Class-II device. The device can be operated with a.c. or d.c., as desired. The device's power plug connector is a 3-pole Phoenix MINI-COMBICON MC 1,5/3-GF-3,5 THT plug connector (included in shipment). The device requires a dedicated power supply. Operating Voltage 24 Vac ± 10% (SELV as per DIN EN 61131), 50/60 Hz 24 Vdc ± 20% (SELV as per DIN EN 61131), max. 10%

ripple Current and Power Consumption 0.4 A (typical), 0.6 A (max.) at 24 Vac 0.4 A (typical), 0.6 A (max.) at 24 Vdc connected power value: 9.6 W

Earth Fault Monitoring If the operating voltage exceeds 27 Vac, a controlled leakage current to earth ground will protect the device against elec-trical damage. In this situation, if earth fault monitors have been installed, these will give alarm. If voltage peaks of more than 24 Vac + 10% (= 26.4 Vac) cannot be reliably excluded, we recommended using a rail-mounted Switch-Mode Power Supply (SMPS) instead of a conventional transformer, as the SMPS guarantees very tightly controlled secondary voltages at a price at or below that of conventional transformers.

Mechanical Data Housing Dimensions Panel cut-out:

160 mm (6.299”) horizontal x 118 mm (4.646”) vertical Display frame:

168 mm (6.614”) horizontal x 126 mm (4.961”) vertical x 5 mm (0.197”) thickness

Construction depth: 40 mm (1.575”)

Housing Material Display frame made of anodized aluminum Housing made of sheet metal, zinc-coated

Weight 0.9 kg (2 lbs.) (excl. unit packaging) Mounting Panel door mounting Calculated Lifetime of Weakest Components MTBF 5 years (battery)

Display Color TFT graphic display, 64,000 colors 5.7”, 86.4 mm x 115.2 mm display area 320 x 240 pixels analog resistive touch-panel, 4-wire backlight, > 45,000 hrs lifetime (i.e. after 45,000 hrs of

active backlight use, intensity will have dropped to 50%) Configurable auto-switch-off for the backlight

CPU Processor ARM 9, 200 MHz Operating System Windows CE 5.0 Professional Memory 128 MB SDRAM 512 kB S-RAM 64 MB Flash Memory, > 100,000 write cycles Real-Time Clock Accuracy: ± 120 ppm 5 years buffered by lithium battery


EN0Z-0929GE51 R0714 3

Environmental Temperature Storage: -25 … +70°C (-13 … +158°F) Operation: 0 … +50 °C (+32 … +122 °F) Ambient Humidity (operation and storage) 10 to 95% relative humidity, non-condensing

Protection Class IP65 (front), IP20 (back)

Certifications CE RoHS-compliant

Warranty Please refer to Honeywell terms and conditions.

Local Language Support Operation Menus The CLMMI00N31 comes with operation menus in the

following languages: English, German, French, Spanish, Italian, Swedish, Japanese, and Dutch. Other local language menus can be provided, upon request.

Application Specific Information WIN CE 5.0 supports the languages listed below. Thus,

application-specific information (data-point and descriptor names, alarm texts, time program, names, etc.) are supported in the following language character sets: Bulgarian Croatian Czech Danish Dutch English (U.S.) Finnish French German Hungarian Italian Japanese Norwegian Polish Portuguese (Brazil) Portuguese (Portugal) Romanian Russian Serbian (Cyrillic) Serbian (Latin) Slovak Slovenian Spanish Swedish

Password Protection The CLMMI00N31 uses the existing password

mechanisms of the controllers it is connected to: Three (3) password levels for PANTHER, TIGER, and

LION Six (6) password levels for FALCON and EAGLE.

MODELS / ORDER NUMBERS The following parts are included in the delivery of the CLMMI00N31: the CLMMI00N31 Touchscreen MMI Operating pen Pen holder Panel door mounting kit (4 clamps with fastening bolts) Mounting Instructions (MU1Z-0929GE51) 3 m Ethernet Cross-Over cable (allows direct connection

to FALCON and EAGLE)

CLMMI00N31

24 VDC, 0,4 A, IP65

Installation Instructions, see MU1Z-0929GE51

00-07-92-00-1B-9F

200708270087

07 35

Honeywell GmbHD-71101 SchoenaichMade in Germany

http://europe.hbc.honeywell.com

ORDER NO.

MAC ADDRESS

SERIAL NO.

INSTALLATIONINSTRUCTIONS

VOLTAGE, CURRENT,PROTECTION STANDARD

Fig. 2. Manufacturer's plate

Spare Parts (can be ordered separately) Operating pen with pen holder, power wiring terminal,

panel door mounting kit, Ethernet cross-over cable, Installation Instructions (CentraLine order no.: CLMMI00N31-ACC)


Manufactured for and on behalf of the Environmental and Combustion Controls Division of Honeywell Technologies Sàrl, Rolle, Z.A. La Pièce 16, Switzerland by its Authorized Representative:

CentraLine Honeywell GmbH Böblinger Strasse 17 71101 Schönaich, Germany Phone +49 (0) 7031 637 845 Fax +49 (0) 7031 637 740 [email protected] www.centraline.com

Subject to change without notice EN0Z-0929GE51 R0714

DIMENSIONS

168

158

5

15.2

23 1

21 3 4 5

6 7 8 9

44.7

126

39.7

118

5.7” 90

78.6

37

Fig. 3. CLMMI00N31 Touchscreen MMI, dimensions (in mm)

DUCT TEMPERATURE SENSOR

® U.S. Registered Trademark EN0B-0361GE51 R0610 Copyright © 2010 Honeywell Inc. • All rights reserved

T7411A / LF20 / LF10 / C7068 DUCT TEMPERATURE SENSORS

PRODUCT DATA

GENERAL The T7411A/LF20/LF20-C/LF10/C7068 Duct Temperature Sensors are used in ventilating and air conditioning systems to measure discharge, return, or outside air temperature. They are designed for duct mounting. The T7411A is available with two different probe lengths. These sensors are used in the following control systems: Excel 5000 MicroniK 200 MicroniK 100 Excel Classic Excel Plus High Performance Excel Plus Excel EMC or other systems using PT100, PT1000, or NTC 20k temperature sensing elements. Further, the C7068 is also suitable for installation in fancoil units or at air outlets.

FEATURES PT100, PT1000, NTC20k or NTC10k temperature

sensing element

Wide sensing range

High accuracy

Stainless steel probe

SPECIFICATION Nominal value PT100 100 at 0 C PT1000 1000 at 0 C NTC20k 20 k at 25 C NTC10k 10 k at 25 C

Accuracy NTC 0.3 K at 25 °C PT100 / PT1000 IEC751 Class B 0.3 K +0.5% |t| (t in °C)

Sensitivity NTC non-linear PT100 0.385 / K PT1000 3.85 / K

Response time (at air velocity of 5 m/s [16.4 ft/s])

LF20, LF20-C, LF10 0.5 42 s

T7411 0.5 45 s

C7068 0.5 4 min (at 1 m/s [3.3 ft/s])

Electrical connection T7411A/LF20/LF10 terminals for 2 x 1.5 mm² cable LF20-C 5 m cable, 2-core, seawater-resistant, conduit M16x1,5 C7068 1.5-m cable, 2-core C7068-5m 5-m cable, 2-core

Ambient Limits Storage temperature -35...+70 °C (-31…+158 °F) Humidity (T7411, LF) 5…95% rh, non-condensing

Safety (terminal box) Protection standard See table on page 2 Flame retardant V1 as per UL94 Plastic (PC) Dimensions See Fig. 1 on page 2

T7411A

LF20 C7068 LF20-C

LF10

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T7411A / LF20 / LF20-C / LF10 / C7068 DUCT TEMPERATURE SENSORS

EN0B-0361GE51 R0610 2

Models length in mm (inches)

OS number Protection standard

sensor type sensing range L1 T1

LF20 IP30 NTC20k -40...+80 °C 338 (13.30) 305 (12.00) LF20-C IP65 NTC20k -40...+80 °C 305 (12.00) -- LF10 IP54 NTC10k -40...+80 °C 338 (13.30) 305 (12.00) T7411A1001 IP54 PT1000 -40...+80 °C 185 (7.28) 152 (5.98) T7411A1019 IP54 PT1000 -40...+80 °C 338 (13.30) 305 (12.00) T7411A1043 IP54 PT100 -40...+80 °C 185 (7.28) 152 (5.98) C7068A1007 IP54 NTC20k 0...+70 °C cable length: 1.5 m C7068A1007-5m IP54 NTC20k 0...+70 °C cable length: 5 m C7068A1030 IP54 NTC10k 0...+70 °C cable length: 1.5 m

DIMENSIONS OF T7411A / LF20 / LF10

Fig. 1. Dimensions of T7411A / LF20 / LF10 and LF20-C in mm (inches)

50 (1.97) L1

L1

8

T1

max. 275 mm(10.8 in.)

33 (1.3)

65 (2.55)

case hole diameterallows Pg9 cable7 (0.28)

19.5(0.75)

19.5(0.75)

6 (0.23)

6 (0.23)

55 (2.17)

47 (1.85)

3 0

23 (0.91)

6

4

LF20-C

T7411A, LF20, LF10

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T7411A / LF20 / LF20-C / C7068 DUCT TEMPERATURE SENSORS

EN0B-0361GE51 R0610 3

INSTALLATION

wiring run max. length sensor to controller 200 m (660 ft)

The temperature offset due to wire resistance per 10 m distance from sensor to controller, when using the T7411A (PT100 / PT1000) is stated in the following table:

type of wire PT1000 PT100 0.5 mm2 (AWG20) 0.18 C (0.324 F) 1.8 C (3.24 F)

1.0 mm2 (AWG17) 0.09 C (0.162 F) 0.9 C (1.62 F)

1.5 mm2 (AWG15) 0.06 C (0.108 F) 0.6 C (1.08 F) NOTE: Use shielded wiring in areas with high EMI.

Maintain a minimum distance of 15 cm (5.9’’) between sensor lines and 230 Vac power lines.

INSTALLATION OF C7068

Fig. 2. Installation of the C7068 in mm (inches)

Manufactured for and on behalf of the Environmental and Combustion Controls Division of Honeywell Technologies Sàrl, Rolle, Z.A. La Pièce 16, Switzerland by its Authorized Representative: Automation and Control Solutions Honeywell GmbH Böblinger Strasse 17 71101 Schönaich / Germany Phone: (49) 7031 63701 Fax: (49) 7031 637493 http://ecc.emea.honeywell.com Subject to change without notice. Printed in Germany EN0B-0361GE51 R0610

OUTSIDE TEMPERATURE HUMIDITY

SENSOR

SPECIFICATION DATA

63-4521-03

H7625, H7635, H7655 Series 2000 Humidity/Temperature Sensors

The H7625, H7635, and H7655 are highly accurate, stable humidity transducers designed for use with HVAC controllers such as the T7350 Thermostat, H775 Remote Humidity Controller, and W7760 Direct Digital Controllers. The Ceramic Technology humidity sensor is not affected by condensation and provides excellent long-term stability.

FEATURES• Ceramic Technology overcomes the limitations of

other resistance based humidity sensors that use water soluble polymer coatings.

• Ceramic Technology allows sensors to recover fully from condensation, fog, and high humidity.

• Highly accurate, repeatable, stable output with negligible hysteresis.

• Temperature compensated output

• Zero and span trimmers, and increment/decrement recalibration feature.

• All units have selectable 4-20mA, 0-10Vdc, or 0-5Vdc output.

• NIST traceable 2%, 3%, and 5% calibration, every sensor calibrated at 3 different points.

SPECIFICATIONSOperating RH Range: 0 to 95% RH non-condensing.

RH Measurement Range: 0-100% RH

Humidity Accuracy: ±2%, ±3% or ±5% from 20 to 95% RH.

1K Ohm Temperature Accuracy: ± (0.15 + 0.002t) C t = actual temperature in C

20K Ohm Temperature Accuracy: ±0.4°F at 77°F (±0.2°C at 25°C)

1K Ohm Temperature Output Range: Room: 32 to 122°F (0 to 50°C). Duct: -58 to 572°F (-50 to 300°C).

20K Ohm Temperature Output Range: Room: 40° to 110°F (4° to 43°C). Duct/Outdoor: -40° to 240°F (-40° to 116°C).

Hysteresis: Less than ±0.5% RH.

Supply Voltage: 4-20mA Output: 250 Ohm Load 15 – 40 VDC / 18 - 28 VAC 4-20mA Output: 500 Ohm Load 18 – 40 VDC / 18 - 28 VAC

(500 Ohm Load Max) 0-5 VDC Output: 12 - 40 VDC / 18 - 28 VAC (10K Load

Minimum) 0-10 VDC Output: 18 - 40 VDC / 18 – 28 VAC (10K Load

Minimum)

Maximum Supply Current: Current Mode: 24 mA. Voltage Mode: 8 mA.

Finish: Room Enclosure: ABS Plastic (UL94-VO rated). Duct Enclosure: ABS Plastic (UL94-5VA rated). Outdoor Enclosure: ASA Plastic (UL-94V0 rated).

Compensated Temperature Range: Full RH Range Room: 32 to 122°F (-0 to 50°C). Duct/Outdoor: -10 to 140°F (-23 to 60°C)

Humidity Response Time: 200 seconds.

Wall Mount

Duct Mount

Outdoor Mount

H7625, H7635, H7655 SERIES 2000 HUMIDITY/TEMPERATURE SENSORS

63-4521—03 2

Saturation Response Time: 10 minutes.

Sensitivity: 0.1%RH.

Interchangeability: Less than ±3% RH nominal.

Repeatability: 0.5% RH.

Long term drift: Less than 2% RH drift/5 years.

Table 1. Model Description

Fig. 1. Wall-mount sensor dimensions in in. (mm).

MODEL NUMBER REPLACES

RH ACCURACY MOUNTING

TEMPERATURE SENSOR OUTPUT SIGNAL USED WITH

H7625A2010 H7625A1008 2% ROOM 20K ohm at 77F, reference 206598"

Selectable 4-20mA, 0-10Vdc, or 0-5Vdc

T7350, H775, XL50, XL500, XFC, W7750B/C, W7753, W7760A/C, W7761"

H7635A2012 H7635A1006 3%

H7625B2006 H7625B1006 2% DUCT

H7635B2018 H7635B1004 3%

H7655B2014 H7655B1009 5%

H7635C2015 H7635C1002 3% OUTDOOR

H7626A2020 2% ROOM 1097 ohm at 77F T775

H7636A2022 3%

H7626B2024 2% DUCT

H7636B2026 3%

H7656B2029 5%

M31332

9/16 (14)

13/16 (31)

7/8 (22)4 3/16 (122)

2 3/8 (60)

2 3/8 (60)

1 1/2 (38)

3 (76)

STANDARDUTILITY

CONDUITBOX (2 X 4)MOUNTING

HOLES

7/8 (22)

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3 63-4521—03

Fig. 2. Duct-mount sensor dimensions in in. (mm).

TYPICAL SPECIFICATION

Fig. 3. Outdoor-mount sensor dimensions in in. (mm).

3-15/16 (100)

2-1/4(57)

3/4(19)

7-1/8(182)

2-1/4(57)

1-1/16(27)

KNOCKOUTS (4)

3-3/4(95)

M22583A

3/4(19) Humidity transducer shall be accurate to ±2%, ±3%,

or ±5% RH (whichever is specified) across the rela-tive humidity range from 20-95%, NIST traceablecalibration.

Humidity transducers shall be calibrated at three dif-ferent points across the RH range.

Interchangeability of output between humidity trans-ducers shall be within ±3%.

Each humidity transducer shall have selectable4 to 20 mA, 0 to 10 Vdc, or 0 to 5 Vdc output.

Each humidity transducer shall have the option forfield calibration using zero and span potentiometers,and toggle switches to increment or decrement theRH value in steps of 0.5% RH.

Accuracy of the humidity transducers shall not beadversely affected by condensation.

3-3/4(95)

M22584

6-1/2(165)

3-15/16 (100)

2-1/4(57)

3/4(19)

4-11/16 (119)

KNOCKOUTS(3)

7/8(22)

1-3/8(36)






® U.S. Registered Trademark© 2014 Honeywell International Inc.63-4521—03 M.S. Rev. 10-14Printed in United States


ROOM TEMPERATURE SENSOR

® U.S. Registered Trademark EN0C-0605GE51 R0907 Copyright © 2007 Honeywell Inc. • All rights reserved

T7412A,B,C,D,E ROOM TEMPERATURE SENSOR

PRODUCT DATA

Honeywell

25

3015

20

°C

Honeywell

+-

°C

Honeywell

GENERAL The T7412A,B,C,D,E Room Temperature Sensors are used for room temperature measurement and remote control-point adjustment (CPA) or remote setpoint adjustment (SPA) in heating, ventilating and air conditioning systems. Models are available with PT1000, PT100, NTC 20kΩ, or BALCO 500 sensing elements and with or without remote control or setpoint adjustment. They are suitable for the following control systems • Excel IRC • Excel Plus and High Performance Excel Plus • Excel EMC • Excel 5000 • Excel Classic • MicroniK 100 and MicroniK 200 or other systems using PT1000, PT100, NTC 20kΩ, or BALCO 500 sensing elements.

FEATURES • PT1000, PT100, NTC20kΩ, or BALCO 500

temperature sensing element • Sensing range 0...50 °C (32...122 °F) • High-precision sensor elements • Attractive housing • Occupied/unoccupied slide switch • Fan speed switch • Push-button for time extension or other purposes

and LED for status indication

SPECIFICATION Ambient limits Operating temperature 0...50 °C (32...122 °F) Transport and -25...+70 °C (-13...+158 °F) storage temperature Humidity 5...95%rh, non-condensing

Safety Protection class II as per EN60730-1 Protection standard IP30 as per EN60529 Flame retardant V0 as per UL94 housing

Housing Plastic (ABS) Dimensions 130 x 80 x 34 mm (H x W x D) (5.12 x 3.15 x 1.34”) Weight 100 g Mounting Wall, surface, or European outlet box

Connections Screw terminals for 2x1.5 mm2 conductors

Potentiometer/Switches CPA/SPA potentiometer see Fig. 1 on page 3 circuit Occupancy switch or Potential-free contact Occupancy extend push-button - occupied closed < 100Ω - unoccupied open > 40kΩ Fan speed switch Resistor Network - auto-OFF-I-II-III


EN0C-0605GE51 R0907 2

Temperature Sensor

Sensing element PT1000 PT100 BALCO 500 NTC 20kΩ

Characteristic see EN0B-0476GE51 for characteristic

Sensing range 0...50 °C (32...122 °C)

Response time τ0.5 ≈ 2.5 min

Resistance - PT1000 1000Ω @ 0 °C - PT100 100Ω @ 0 °C - BALCO 500 500Ω @ 23.3 °C - NTC 20kΩ 20kΩ @ 25 °C

Sensitivity - PT1000 ≈ 3.85Ω / K - PT100 ≈ 0.385Ω / K - BALCO 500 ≈ 2Ω / K - NTC 20kΩ non-linear characteristic

Accuracy - PT1000 / PT100 DIN IEC 751 Class B 0.3 K + 0.5% • t (t in °C) - BALCO 500 ±1Ω at 23.3 °C - NTC 20kΩ 0.3 K at 25 °C

Order Numbers OS-no. temp. sensing element*

T7412A1000 NTC 20kΩ

T7412A1018 PT1000

T7412A1026 BALCO 500

T7412A1059 PT100

T7412B1008 NTC 20kΩ + CPA

T7412B1016 PT1000 + CPA

T7412B1024 BALCO 500 + SPA 15...30 °C

T7412B1040 PT1000 + SPA 15...30 °C

T7412B1057 PT1000 + CPA

T7412C1006 NTC 20kΩ + CPA and occupied/unoccupied switch

T7412C1030 PT1000 + CPA and occupied/unoccupied switch

T7412D1004 NTC 20kΩ + CPA and Fan Speed Switch

T7412E1001 NTC 20kΩ + push-button + C-Bus Connector

T7412E1027 NTC 20kΩ + push-button + Indication LED

For potentiometer values and circuits, see Fig. 1. * Other temperature sensing elements or different housing colors are available, on request.

Models model no. / function

T7412A T7412B T7412C T7412D T7412E

temperature sensor

remote setpoint adjustment control-point adjustment occupancy extend

push-button

occupied/ unoccupied switch fan speed switch LED or PIT C-Bus

connector

Honeywell Honeywell

°C

30

2520

15

Honeywell

°C

+-

Honeywell

°C

+-

Honeywell

auto

°C

+-

0 12 3

Honeywell

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EN0C-0605GE51 R0907 3

INSTALLATION • Mount these units at the inside wall of the room to be

heated or air conditioned, away from doors, windows, and heat sources.

• They should be located approx. 1.5 m above the floor and at minimum 50 cm away from the nearest wall.

• Do not mount in niches, book shelves, behind cabinets or curtains, or where it could be exposed to solar radiation.

• Seal the conduit opening to avoid false temperature measurement due to draft from the conduit.

NOTE: Use shielded wiring in areas with high EMI. Keep

15 cm (5.9’’) minimum distance between sensor lines and 230 Vac power lines.

wiring run maximum length

sensor to controller 200 m (660 ft)

The offset due to wire resistance per 10 m of distance from the sensor to the controller is stated in the following table:

temperature offset type of wire PT1000 PT100 BALCO 500

0.5 mm2 (AWG20)

0.18 °C (0.324 °F)

1.8 °C (3.24 °F)

0.3 °C (0.54 °F)

1.0 mm2 (AWG17)

0.09 °C (0.162 °F)

0.9 °C (1.62 °F)

0.15 °C (0.27 °F)

1.5 mm2 (AWG15)

0.06 °C (0.108 °F)

0.6 °C (1.08 °F)

0.1 °C (0.1 °F)

1

NTC20kohm

T7412A1000

2

1

BALCO500

T7412B1024

2

1

PT1000

T7412B1040

2

1

PT1000

T7412A1018

2

1

BALCO500

T7412A1026

2

1

PT100

T7412A1059

2

Connections for T7412A:

Connections for T7412B: Connections for T7412C:

Connections for T7412E:Connections for T7412D:

1

PT1000

T7412B1016

2

4

CPA100 ohm

953 ohm

5

4

SPA10k ohm

10k ohm15 °C

30 °C11k ohm

6

5

4

SPA10k ohm

10k ohm15 °C

30 °C11k ohm

6

5

T7412B1008 (NTC)T7412C1057 (PT1000)3

PT1000or

NTC20kohm

4

CPA100k ohm

6

T7412C1006 (NTC)T7412C1030 (PT1000)3

PT1000or

NTC20kohm

4

CPA100k ohm

6

5

*occupancy switch

*

T7412E1027

1

2LED

3

4

NTC20kohm

6

5

*occupancy extend push-button

*

T7412E10013

5

6

7

NTC20kohm

10

8

*occupancy extend push-button

*

AB C-bus

connector

T7412D10043

4

NTC20kohm

6

5

fan-speed switchauto-OFF-I-II-III

Fig. 1. Connections


Manufactured for and on behalf of the Environmental and Combustion Controls Division of Honeywell Technologies Sàrl, Ecublens, Route du Bois 37, Switzerland by its Authorized Representative: Automation and Control Solutions Honeywell GmbH Böblinger Straße 17 D-71101 Schönaich Phone: (49) 7031 63701 Fax: (49) 7031 637493 http://ecc.emea.honeywell.com Subject to change without notice. Printed in Germany EN0C-0605GE51 R0907

1 2 3 4 5 6

T7412A T7412B,C,D,E

1 2

Fig. 2. Connector positions

MOUNTING AND DIMENSIONS All dimensions in mm and (inches).

80 (3.15”)

130

(5.1

2”)

107

(4.2

1”)60

(2.3

6”)

30 (1

.18”

)

34 (1.34”)

20(0.79”)

11(0.43”)

60 (2.36”)

1 1

2

2

1, 2

Five mounting holes witha diameter of 4 mm (0.16”)for three (two) 3.5-mm(0.14”) screws mountedin positions 1 (preferred)or 2.

Fig. 3. Mounting and dimensions

AIR DIFFERENTIAL PRESSURE SWITCH

U.S Registered Trademark Copyright © 2015 Honeywell Inc. All Rights Reserved MU0B-0073GE51 R0415

Differential Pressure Switches DPS Series FOR AIR CONDITIONING / VENTILATION, USER-ADJUSTABLE

PRODUCT DATA AND INSTALLATION INSTRUCTIONS

TECHNICAL SPECIFICATIONS Max. operating pressure 10 kPa Pressure media air, non-flammable gases, and non-aggressive gases Pressure connections two plastic tubes, outside diameter: 6.0 mm Switching capacity 1.5 A, (0.4) /250 Vac Electrical connections AMP connectors, 6.3 x 0.8, DIN 46244 or screw terminals Conduit entry M20x1.5 Protection class IP 54 Mounting lugs integrated in bottom housing (alternative: mounting angles) Medium/ambient temp. -20...+85 °C Storage temperature -40...+85 °C Membrane material silicone

APPLICATION Differential pressure switches e.g. for monitoring filter, fan, fire damper, or air flow status of air handling systems.

BENEFITS Switching-point easily adjustable with scale in Pascal; Direction of M20x1.5 conduit entry can be rotated in steps

of 120°; Only one screw needed for housing cover.

APPROVALS CE according to 2006/95/EC. Switch according to VDE 0630. EC Gas Appliance Directive 2009/142/EC according to

DIN EN 1854: 2010. ROHS 2011/65/EC.

(Eurasian Conformity)

CONTENTS OF DELIVERY The delivery includes (in the case of individual packages) the following parts: 1 DPS Differential Pressure Switch 1 Data Sheet with installation information 1 DPSA duct kit, consisting of:

- 2 m of silicone hosing - 2 joining pipes with four screws - 2 self-tapping screws for mounting the housing - 3 terminal screws for electrical installation

Bulk packages available, upon request.

OPERATING RANGES

type adjustment

range for upper trip pressure*

switching difference

(hysteresis)

tolerance at adjusted

switch-point

DPS 200 20...200 (Pa) 10 (Pa) ±20%

DPS 400 40...400 (Pa) 20 (Pa)

±15%

DPS 500 50...500 (Pa) 20 (Pa)

DPS 1000 200...1000 (Pa) 100 (Pa)

DPS 2500

500...2500 (Pa) 150 (Pa)

*The trip pressure refers to vertical mounting. In case of horizontal mounting (with the cover pointing upwards), the range values increase by 20 Pa.

DIMENSIONS See "Mounting/Einbau/Montage" on page 4.

ACCESSORIES / DELIVERY OPTION DPST: Set of three screw terminals DPSJ: Joining pipe (part of DPSA duct kit) DPS…B in bulk pack (45 pc. per box), without

accessories, but with 1 set of Mounting Instructions

Hassan

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U.S Eingetragenes Warenzeichen Alle Rechte vorbehalten Urheberrechtlich geschützt © 2015 Honeywell Inc. MU0B-0073GE51 R0415

Differenzdruckschalter DPS FÜR KLIMA- UND LÜFTUNGSANWENDUNGEN

PRODUKTINFORMATION UND MONTAGEANLEITUNG

TECHNISCHE DATEN Max. Betriebsdruck 10 kPa Druckmedien Luft, nichtbrennbare Gase sowie nichtaggressive Gase Druckanschlüsse zwei Kunststoffstutzen mit 6,0 mm Außendurchmesser Schaltleistung 1,5 A, (0,4) / 250 Vac Elektrische AMP-Flachstecker, 6.3 x 0.8, Anschlüsse DIN 46244 oder Schraubklemmen Kabeldurchführung M20x1.5 Schutzart IP 54 Befestigungsstutzen im Gehäuse integriert, alternativ Befestigungswinkel Umgebungs-/ -20...+85 °C Mediumstemperatur Lagertemperatur -40...+85 °C Membranmaterial Silikon

ANWENDUNGEN Differenzdruckschalter für Filter-, Ventilator- oder Luft-strömungsüberwachung bei Klima- und Lüftungsanlagen.

VORTEILE Leicht verstellbare Schaltpunkte, mit Skala in Pa; Ausrichtung der M20x1.5 Kabeldurchführung in Schritten

von 120° leicht verstellbar Gehäusedeckel benötigt nur eine Schraube.

ZULASSUNGEN CE-Zulassung gemäß 2006/95/EG. Schalter gebaut nach VDE 0630. EG-Gasgeräterichtlinie 2009/142/EG nach DIN EN 1854:

2010. ROHS 2011/65/EG.


LIEFERUMFANG Die Lieferung beinhaltet (bei Einzelverpackung) Folgendes:

1 DPS Differenzdruckschalter 1 Datenblatt mit Montagehinweisen 1 DPSA Zubehörkit, bestehend aus:

- 2 m Silikonschlauch - 2 Anschlußstutzen mit vier Befestigungsschrauben - 2 selbstschneidende Schrauben zur Befestigung des

Gehäuses - 3 Schraubklemmen für den elektrischen Anschluß

Mengenpackungen auf Anfrage erhältlich.

BETRIEBSBEREICHE

Type Einstellbereich

für oberen Schaltdruck*

Konstante Schalt-

differenz

Toleranz bei eingestellt. Schaltpunkt

DPS 200 20...200 (Pa) 10 (Pa) ±20%

DPS 400 40...400 (Pa) 20 (Pa)

±15%

DPS 500 50...500 (Pa) 20 (Pa)

DPS 1000

200...1000 (Pa) 100 (Pa)

DPS 2500 500...2500 (Pa) 150 (Pa)

*Die Schaltdruckangaben beziehen sich auf eine vertikale Einbaulage. Bei waagrechter Montage erhöhen sich die Werte um 20 Pa.

ABMESSUNGEN Siehe "Mounting/Einbau/Montage" auf Seite 4.

ZUBEHÖRTEILE / LIEFEROPTION DPST: Satz dreier Schraubklemmen DPSJ: Druckanschlußstutzen (gehört zum DPSA

Zubehörkit)

DPS…B in der Sammelverpackung (à 45 Stück), ohne Zubehör, jedoch mit 1 Stück Montageanleitung

Marque de commerce depose aux Etats-Unis Copyright © 2015 Honeywell Inc. Tous droits réservés MU0B-0073GE51 R0415

Pressostat différentiel DPS POUR LE CONDITIONNEMENT DE L’AIR ET LA VENTILATION

DONNEES SUR LE PRODUIT ET INSTRUCTIONS DE MONTAGE

SPECIFICATIONS TECHNIQUES Pression Max. 10 kPa

Média de pression Air, gas non-inflammables et gas non-aggressifs

Contacts de pression Deux tubes avec 6,0 mm de diamètre extérieur

Capacité commutateur 1.5 A, (0.4) / 250 Vac

Raccordement AMP, 6.3 x 0.8, DIN 46244 électriques ou connecteurs à vis

Entrée de cables M20x1.5

Classe de protection IP 54

Kit de fixation intégré dans le boîtier, Option: equerre de fixation

Température -20...+85 °C d‘environment

Température de stockage -40...+85 °C

Matériel de membrane Silicone

APPLICATION Pressostat différentiel e.g. pour la surveillance de filtres, ventilateurs ou clapet coupe feu dans des systèmes de traitement de l’air ou de conditionnement.

AVANTAGES Points de comm. facilement ajustable, avec échelle en Pa; Le conn. M20x1.5 est orientable dans un rayon de 120° Le couvercle du boîtier ne necessite qu’une seule vis de

fixation.

CERTIFICATION Certification CE selon 2006/95/EC. Commutateur construit selon VDE 0630. Norme Europeenne apparell gaz 2009/142/EC suivant DIN

EN 1854: 2010. ROHS 20/65/EC.


CONTENU DE L'EMBALLAGE L'emballage contient: 1 Pressostat différentiel DPS 1 notice technique avec instruction du montage 1 kit d‘accessoires DPSA contenant:

- 2 m de tuyaux en silicone - 2 supports de connection avec 4 vis - 2 vis auto-forantes pour la fixation du boîtier - 3 connecteurs à vis pour le raccordement électrique

Emballage par 25 pieces possible sur demande.

PLAGE D’UTILISATION

Type Plage de réglage

pour pression supérieure*

Plage fixe de comm.

Tolerance de point de comm.

DPS 200 20...200 (Pa) 10 (Pa) ±20%

DPS 400 40...400 (Pa) 20 (Pa)

±15% DPS 500 50...500 (Pa) 20 (Pa)

DPS 1000 200...1000 (Pa) 100 (Pa)

DPS 2500 500...2500 (Pa) 150 (Pa)

*Valeurs données pour un montage vertical. Pour montage horizontal augmenter les valeurs de 20 Pa.

DIMENSIONS Voir "Mounting/Einbau/Montage" page 4.

ACCESSOIRES / OPTIONS DE LIVRAISON Kit de trois cosses à vis DPST tuyau de connection DPSJ (fait partie du kit

d‘accessoires DPSA) DPS...B emballage groupé (45 pièces) sans accessoires,

mais fourni avec un mode d'emploi

DPS SERIES

Manufactured for and on behalf of the Environmental and Combustion Controls Division of Honeywell Technologies Sàrl, Rolle, Z.A. La Pièce 16, Switzerland by its Authorized Representative: Automation and Control Solutions Honeywell GmbH Böblinger Str. 17 71101 Schönaich Germany Tel.: (49) 7031-637-02 Fax: (49) 7031-637-850 http://europe.hbc.honeywell.com Änderungen vorbehalten. Gedruckt in Deutschland Modifications reserved. Printed in Germany Sous réserve de toutes modifications. Imprimé en Allemagne

MU0B-0073GE51 R0514

MOUNTING/EINBAU/MONTAGE

1 2

43

4 X

P

1

2

3

+-1

2

3+

16

6

40

1 -

4100

6

6.5

2516

80

18.5

3.4

60°

IP 54

8.5

4.5

P1 = higher pressure = höherer Druck = pression haute P2 = lower pressure = niedrigerer Druck = pression basse *Use two screws, only, for mounting lugs! *Zur Befestigung nur zwei Schrauben verwenden! * N'utiliser que deux vis pour le montage. ** Remove transport protection from P2! ** Transportkappe von P2 entfernen! ** Enlever le couvercle de transport de P2.

NOTE: Do not install upside down with trip pressures of less than 50 Pa!

HINWEIS: Bei einem Schaltdruck von weniger als 50 Pa darf das Gerät nicht über Kopf montiert werden!

NOTICE: Ne pas installer à l'envers si la pression de commutation!

LIQUID PRESSURE SENSOR

P7620A

Industrial Pressure Transmitters

FEATURES • Temperature compensated • Built-in Amplifier • High level current Output Signal • EMI/RFI protected • Compact construction • Shock and vibration resistance • Zero and span adjustments • False system shutdown prevention

GENERAL The P7610A industrial pressure transmitters are ideal for many general purpose industrial applications when considering the performance, reliability and cost. The output signal of the sensing bridge is in converted to be a standardized current signal through surface mount technology circuit board. This high level signal output with very low noise system is packaged in a rugged stainless steel housing to resist the harsh and extreme environment conditions. Each transmitter is inspected and calibrated to ensure it's 100% quality.

Models OS-No. Pressure Range(bar)

P7620A1004 0~6

P7620A1012 0~10

SPECIFICATION Performance characteristics:

Accuracy at 25 (linearity, hysteresis, repeatability): ≦±0.5% F.S

Stability at 25 ≦0.4% F.S./year

Thermal Effect: ≦±0.04% F.S./

Environment characteristics:

Media temperature range: -25… +85

Ambient temperature range : 0… +70

Storage temperature range : -25… +85

Compensated range: -40… +135 Weatherproof rating: IP 65

PRODUCT DATA

This product meets the requirements of CE

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P7620A Flush Diaphragm Pressure Transmitters Transducers

HONEYWELL Automation and Control Solutions Honeywell Taiwan Ltd. 10F, 168 Lien Cheng Road Chung Ho City, Taipei County, Taiwan Phone: +886-2-2245 1000 Fax: +886-2-2245 3241 Subject to change without notice. Printed in Taiwan

Physical characteristics:

Housing: 304 stainless steel

Fitting material: 304 stainless steel

Ceramic Sensor: Aluminum Oxide Al2O3(96%)

Seal Material: NBR

Pressure Fitting (Connection): G ½ ”

Electrical Connector: Terminal Box to DIN43650 A

Note: The wetted parts including fitting, sensor and sealing will be contacted with the media directly.

Electrical Data(Current):

Output Signal: 4-20mA(2 Wire)

Power Requirement: 10-32 VDC(Normal 24 VDC)

Load Resistance: ≦(supply voltage-10V)/(0.02A) Ohms

Applications Industrial OEM equipments Hydraulic monitoring systems Compressor controls Pneumatic systems Pump applications HVAC systems

Wiring

Dimension

LIQUID LEVEL SWITCH

Unit 21, Highview, High Street, Bordon, Hampshire. GU35 0AX.

Tel: +44 (0)1420 487788 Fax: +44 (0)1420 487799

Email: [email protected]

www.axio.co.uk

© Copyright Axio 2004. All Rights Reserved

AX-LS-FL-xx - Issue 1.3 - Date 18/10/2012

AX-LS-FL-xxLiquid Level Float Switches

Page 1 of 4

Product Overview

The AX-LS-FL-xx is a range of Liquid Level Float

switches designed for multi level applications with

access from the surface or where multi-level sensing is

required from a single penetration. The unit consists of

a float which is suspended from a weighted cable, as

the liquid levels change, the float follows the surface

level at the same time tilting due to its weighted

restraint, inside the float are a number of microswitches

which trigger as the float tips. Suitable for a wide range

of liquids.

• standard 5m cable length (10m option)

• Suitable for a wide range of liquids

Features

• Easy Installation

• Alarm, filling, emptying and combined variants

Product Specifications

Standard cable length: 5 metres ( Option 10M)Standard adjustment range: 250 to 1200mm (other ranges available at additional cost)Pressure rating: 200KpaSwitching Element: MicroswitchContact Ratings: 6A @6-250Vac (24V max for flammable liquids)Materials: Float Polypropylene

Cable PVC standard (option polyurethane, rubber or teflon at additional cost)2LHEN Oil Resistant TPU

Min fluid specific gravity: 0.7Bouyancy: 6 N (600g)Protection Class: IP67Ambient Temperature Range: 0 to + 55 deg C

Country of Origin: Finland

Order Codes:AX-LS-FL-1L Low level alarmAX-LS-FL-1H High level alarmAX-LS-FL-2L Filling pump controlAX-LS-FL-2H Emptying pump controlAX-LS-FL-2LH High & low level alarmAX-LS-FL-3L Filling pump control & low level alarm or dual filling pump controlAX-LS-FL-3H Emptying pump control & high level alarm or dual emptying pump controlAX-LS-FL-4L Filling pump control & high & low level alarmAX-LS-FL-4H Emptying pump control & high & low level alarmAX-LS-FL-4L5E Dual pump filling control & low level alarmAX-LS-FL-4H5E Dual pump emptying control & high level alarmAX-LS-FL-2LHEN High & low level alarm for oil tanks -10 10m Cable length

Hassan

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Hassan

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Tel: +44 (0)1420 487788 Fax: +44 (0)1420 487799


www.axio.co.uk




Page 2 of 4

Every effort has been taken in the production of this data sheet to ensure it’s accuracy. Axio can not, however, accept responsibility for any damage, expense, injury, loss or consequential lossresulting from any errors or omissions. Axio has a policy of continuous improvement and reserves the right to change this specification without notice.

InstallationThe Float level switches should only be installed by a competent technician who has been trained and is experienced inInstallation with hazardous voltages. ( >50Vac & < 1000Vac or >75Vdc & <1500Vdc).

1/ Ensure that all power is disconnected before carrying out any work on the float switches.

AX-LS-FL-1L and AX-LS-FL-1H

The above units are supplied with a two part mounting bracketso that the cable can be secured to to the top edge of the tank.The mounting consists of a plastic tube with a single hole fixingbracket with a tubular plastic insert which slips inside when youhave the correct position lock the cable in position. Hang thefloat so that the required switching point is 12.5cms below thedesired switching point. No weight is required. You may need tocarry out final adjustments under actual pumping conditions

AX-LS-FL-1L AX-LS-FL-1H

All the other Float Level Switches

The remainder of the range are supplied with a weight. Theswitching height differential is adjusted by moving theweight along the cable.The differential is on minimum, when the weight is nearestto the float.

Dimensions:


Tel: +44 (0)1420 487788 Fax: +44 (0)1420 487799


www.axio.co.uk




Page 3 of 4


AX-LS-FL-2LH



AX-LS-FL-2LHEN


Tel: +44 (0)1420 487788 Fax: +44 (0)1420 487799


www.axio.co.uk




Page 4 of 4

Switching Height Differential in relationship to the weight of the float

Curve B shows the switching height dfferential in relationship to distance of the weight from the floatCurve C shows the equivalent differential between starting and alarm levelsFor Example: If the weight of model 3H is about 50cm from the bottom of the float (measure A) the start/stopdifferential is about 60cm and the start/alarm differential is about 25cm. The Differenntials presented here are validwhen standard PVC cable is used. Special cables may cause variations to these values.

CO2 SENSOR

Copyright © 2013 Honeywell Inc. • All Rights Reserved EN1B-0377GE51 R0213

AQS 71-KAM-T CO2 TEMPERATURE TRANSMITTER

PRODUCT DATA & INSTALLATION INSTRUCTIONS

GENERAL The AQS 71-KAM-T CO2 Temperature Transmitter sets new standards in CO2 measurements in HVAC applications. The operation is based on the infrared principle. A patented calibration-free procedure compensates for aging of the infrared source and ensures outstanding long-term stability. The AQS 71-KAM-T provides 0…10 V analog output for CO2 and temperature and is designed for HVAC applications (for special applications, please contact Honeywell). It is suitable for direct wiring with universal and voltage-controlled inputs. NOTE: Avoid strong mechanical stress and improper

handling. The cable gland and housing cover must be screwed tightly against gas penetration, to avoid incorrect measurements.

FEATURES • Patented calibration-free technology • Outstanding long-term stability • Maintenance free • universal mounting flange SPECIFICATION Power supply 24 Vac, ±20% (SELV) 15…35 Vdc Current consumption typ. 12 mA output current Ambient Limits Operating temperature -20...+60 °C (-4...+140 °F) Transport and storage -20...+60 °C (-4...+140 °F) Humidity 0...95% rh, non-condensing Safety Protection class III as per EN 60730-1 Protection standard Housing IP65 as per EN60529 Probe IP20 Housing material Flame retardant V0 as per UL94 Housing plastic (PC) Dimensions see Fig. 1 on page 2 Mounting duct, M16x1,5 cable inlet CO2 Sensor Output signal 0…10 V Output current -1mA < IL < 1mA Output scaling 0…10 V = 0…2000 ppm CO2 Accuracy (CO2 at 0…2000 ppm < ± (50 ppm 25 °C [77 °F], 1013 mbar) +2% of m.v.) Long-term stability typ. 20ppm/year Temperature stability: typ. 2ppm CO2/K Response time τ63 < 250 sec at 3m/s Warm-up time < 5 min Temperature Output signal 0…10 V Output Current -1mA < IL < 1mA Output scaling 0…10 V = 0…50 °C Accuracy (at 20 °C [68 °F]) ± 0.3 K Response time τ63 < 120sec. at 3m/s

Table 1. Troubleshooting Error Possible cause Remedies

Unrealistic results Skewed installation Air inlet and probe tip must be perpendicular to air flow. Low air velocity Air velocity must be > 1 m/sec (200 ft/min). Housing not tight Seal cover and gland tightly.

Long response time Contamination of sensor or probe Check sensor and probe for soiling and clean, as necessary.

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AQS 71-KAM-T CO2 TEMPERATURE TRANSMITTERS - PRODUCT DATA & INSTALLATION INSTRUCTIONS

EN1B-0377GE51 R0213 2

WIRING

wiring run maximum length

sensor to controller 200 m (660 ft)

NOTE: Installation of the sensor near high EMI-emitting devices may lead to faulty measurements. Use shielded wiring in areas with high EMI. Keep 15 cm (5.9’’) min. distance between sensor lines and 230 Vac power lines. Use two transformers: one for sensors and actuators and one for the controller.

DIMENSIONS

Fig. 1. Housing dimensions (mm)

MOUNTING

SCREW WITH TORQUE OF 1.5 Nm FOR BREAK-THROUGH.RECOMMENDED TIGHTENING TORQUE: 3.5 Nm.

Fig. 2. Assembly of conduit / cable gland

Fig 3. Flange mounting on duct

AQS 71-KAM-T CO2 TEMPERATURE TRANSMITTERS - PRODUCT DATA & INSTALLATION INSTRUCTIONS

Manufactured for and on behalf of the Environmental and Combustion Controls Division of Honeywell Technologies Sàrl, Rolle, Z.A. La Pièce 16, Switzerland by its Authorized Representative: Automation and Control Solutions Honeywell GmbH Böblinger Strasse 17 71101 Schönaich / Germany Phone: (49) 7031 637 - 01 Fax: (49) 7031 637 - 493 http://ecc.emea.honeywell.com Subject to change without notice. Printed in Germany EN1B-0377GE51 R0213

Fig. 4. Direct mounting on duct

WIRING

12345

V+GNDGND

TCO2V V

POWER SUPPLY

24 VAC +/-20% 15...35 VDC

+~-~

Fig. 5. Connection diagram

MODULATING DAMPER ACTUATOR

® U.S. Registered Trademark EN0B-0478GE51 R0413 Copyright © 2013 Honeywell Inc. • All rights reserved

N05010/N10010 NON-SPRING RETURN DIRECT-COUPLED DAMPER ACTUATORS FOR

MODULATING AND FLOATING / 2-POSITION CONTROL

PRODUCT DATA

GENERAL This non-spring return direct-coupled damper actuator provides modulating and floating/2-position control for: air dampers, VAV units, air handlers, ventilation flaps, louvers, and reliable control for air damper applications with up to 1 m2

/ (5 Nm) and 2 m2 (10 Nm) (seal-less damper blades; air friction-dependent).

FEATURES Declutch for manual adjustment Adjustable mechanical end limits Removable access cover for direct wiring Mountable in any orientation Function selection switch for selecting modulating or

floating/2-position control

SPECIFICATIONS Supply voltage 24 Vac/dc -15%/+20%, 50/60 Hz Nominal voltage 24 Vac/dc, 50/60 Hz

All values stated hereinafter apply to operation under nominal voltage conditions.

Power consumption N05010 5 VA / 2 W N10010 5 VA / 2 W Control signal Modulating 0...10 V Floating/2-Position 24 Vac/dc

Ambient limits Ambient operating limits -20...+60 C (-5...+140 °F) Ambient storage limits -30...+80 C (-22...+176 °F) Relative humidity 5...95%, non-condensing

Safety Protection standard IP54 Protection class II as per EN 60730-1 Overvoltage category II

Lifetime Full strokes 60000 Repositions 1.5 million

Mounting Round damper shaft 8...16 mm Square damper shaft 6...13 mm; 45° steps Shaft length min. 41 mm

End switches (when included) Rating 5 A (resistive), 3 A (inductive) Triggering points 5° / 85°

Torque rating 5 Nm / 10 Nm

Runtime for 90° mod. (dc / 50/60 Hz ac) 90 sec floating (dc / 60 Hz ac) 90 sec floating (50 Hz ac) 110 sec

Rotation stroke 95 3 Dimensions see "Dimensions" on page 6

Weight (without cables) 450 g

Noise rating 35 dB(A) max. at 1 m

N05010/N10010 DAMPER ACTUATORS FOR MODULATING AND FLOATING/2-POSITION CONTROL

EN0B-0478GE51 R0413 2

PRODUCT IDENTIFICATION SYSTEM

N 0 5 0 -0 W 21 S

N = non-spring returnS = spring return

equipped with twoend switches

05 = 5 Nm10 = 10 Nm

SmartAct

010 = modulating + floating 24 = 24 V floating + ON/OFF230 = 230 V ON/OFF

+ ON/OFF

Fig. 1. Product Identification System

MODELS order no. supply voltage end switches torque

N05010

24 Vac/dc

-- 5 Nm

N05010-SW2 2 N10010 --

10 Nm N10010-SW2 2

BASIC FEATURES

2...10 V0...10 V

Dir

Rev10...0 V10...2 V

Service/Off

N05010

1

3

5

6

4

2

Fig. 2. Setting units and control elements

Legend for Fig. 2: 1) Universal shaft adapter 2) Mechanical end limits 3) Declutch button 4) Function selection switch 5) Removable access cover 6) Anti-rotation bracket

Contents of Package The delivery package includes the actuator, parts 1 through 6 (see Fig. 2), plus two cable grommets and a spare cable grommet.

RUN MODES The function selection switch (see Fig. 3) can be used to place the actuator into any one of three different modes: Service/Off; the floating/2-position run mode ("Dir" for CCW-closing

dampers or "Rev" for CW-closing dampers); and the modulating run mode.

2...10 V0...10 V

Dir

Rev10...0 V10...2 V

Service/Off

modulating

2...10 V0...10 V

Dir

Rev10...0 V10...2 V

Service/Off

floating/2-position

2...10 V0...10 V

Dir

Rev10...0 V10...2 V

Service/Off

Service/Off

Fig. 3. Function selection switch

Power-Off Behavior If power is removed, the shaft adapter remains in position.

Service/Off If the function selection switch is set to the "Service/Off" position, then all rotary movement is cancelled, and all control signals are ignored, thus allowing the actuator to be manually operated safely.

Floating/2-Position Run Mode To use the actuator in the floating or 2-position mode, the function selection switch must be set to either "Dir" or "Rev".

Without Feedback Signal As soon as operating power is applied, the shaft adapter will then run according to the control signals applied.

With Feedback Signal If terminal 1 is connected according to Fig. 12 and Fig. 13, a feedback signal will be provided at terminal 5. As soon as operating power is applied, the shaft adapter will then run first completely counterclockwise and then completely clockwise (see also section "Adaption"), after which it will run according to the control signals applied.

Modulating Run Mode To use the actuator in the modulating mode, the function selection switch must be set to one of the four modulating control settings. A feedback signal will be provided at terminal 5. As soon as operating power is applied, the shaft adapter will run first completely counterclockwise and then completely clockwise (see also section "Adaption"), after which it will run according to the control signals applied.

Hassan

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EN0B-0478GE51 R0413 3

0 0.24

0

50

100

5.0 10.09.76

upper dead band (9.76 to 10.0 V)

control signal (V)

final

po

sitio

n of

sha

ft a

dapt

er (

% o

f m

ax.

str

oke

)

range of proportionalactuator movement

(0.24 to 9.76 V)

lower dead band (0 to 0.24 V)

Fig. 4. Final shaft adapter position vs. control signal (ex.

function selection switch setting of 0...10 V)

0

0

50

100

5 10

feedback signal (V)

curr

ent

pos

ition

of s

haf

t ad

apte

r (%

of m

ax.

stro

ke)

Fig. 5. Feedback signal in vs. current position of shaft

adapter (ex. function selection switch setting of 0...10 V)

Adaption Adaption is a function in which the actuator re-maps its feed-back signal and control signal in accordance with repositioned mechanical end limits (see also Fig. 6) and thus recognizes their new positions.

final

pos

ition

of

actu

ator

(%

of m

ax.)

final

po

sitio

n of

act

uato

r (d

egr

ees)

0

95

0 10.0control signal (volts)

new position of UPPER

mechanical end limit

new position of LOWER

mechanical end limit

befo

re a

dapt

ionafter a

daption

0(before)

100(before)

0(after)

100(after)

Fig. 6. Adaption (function selection switch set to

"0...10 V") Adaption will be carried out whenever the actuator is connected at terminal 1 and the user powers up (from a totally powerless condition) the

actuator; or the user sets the function selection switch to the

"Service/Off" setting for at least 2 sec and then back to its previous setting; or

when using the actuator in the modulating mode, if the control signal's value rises up into the upper dead band (i.e. to more than the max. control signal minus 0.24 V) or drops down into the lower dead band (i.e. to less than the min. control signal plus 0.24 V), after which the shaft adapter must then remain at the respective (upper or lower) mechanical end limit for at least 3 sec. However, in this case, the actuator will then recognize the position of only the respective (upper or lower) mechanical end limit.

Accuracy To achieve very exact positioning or synchronicity from several actuators running in parallel, ensure that the actuator does one synchronization run per day (i.e. drive the actuator into the upper dead band, hold for min. 3 sec, then drive the actuator into the lower dead band, and then hold for min. 3 sec.) See section "Adaption" for exact voltage levels.

Overriding An override is a condition in which a 24 V signal is applied to terminal 4 of an actuator in the modulating mode, thus causing the actuator to ignore the control signal at terminal 3, whereupon it will instead move to a position of 50% of its max. stroke.

Feedback If correspondingly wired (see Fig. 11, Fig. 12, and Fig. 13), the actuator provides, via terminal 5, a feedback signal pro-portional to the actual position of the shaft adapter. The feedback signal has the range of 0(2)…10 V.


EN0B-0478GE51 R0413 4

MANUAL ADJUSTMENT

IMPORTANT To prevent equipment damage, you must remove power or set the function selection switch to the "Service/Off" position before manual adjustment.

After removing power or setting the function selection switch to the "Service/Off" position, the gear train can be disengaged using the declutch button, permitting the shaft adapter to be manually rotated to any position. If you have wired the actuator for feedback signal, then, after adaption, the feedback signal will follow the new position.

Limitation of Rotation Stroke Two adjustable mechanical end limits are provided to limit the angle of rotation as desired (see Fig. 7). The mechanical end limits must be securely fastened in place.

Fig. 7. Mechanical end limits

To ensure tight closing of the dampers, the shaft adapter has a total rotation stroke of 95°. After adjusting the mechanical end limits, the user should trigger adaption (see section "Adaption").

INTERNAL END SWITCHES NOTE: Only those actuators for which "-SW2" has been

specified when ordering (e.g.: "N05010-SW2") feature internal end switches.

The internal end switches "A" and "B" are changeover switches which are activated when the shaft adapter moves past a position of 5° and 85°, respectively (see also Table 1).

-2.5° 92.5°5° 10° 15°0° 90°85°80°75°

changeover switch A activatedwhen shaft adapter moves past 5°

CCW CW

changeover switch B activatedwhen shaft adapter moves past 85°

Fig. 8. Internal end switch triggering points

INSTALLATION

CAUTION To avoid personal injury (electrical shock) and to prevent equipment damage, before installation, you must remove power.

These actuators are designed for single-point mounting.

Mounting Instructions All information and steps are included in the Installation Instructions (Product Literature No.: MU1B-0276GE51) supplied with each actuator.

Mounting Position The actuators can be mounted in any position (IP54 is dependent upon orientation; see Fig. 9). Choose a mounting position permitting easy access to cables and controls.

Fig. 9. Mounting for IP54

Anti-Rotation Bracket and Screws If the actuator is to be mounted directly on a damper shaft, use the anti-rotation bracket and screws included in the delivery package. The min. distance between the center of the damper shaft and the middle of the anti-rotation bracket is 85 mm; a max. of 108 mm is allowed (see also Fig. 15). Depending upon the specifics of your mounting site, the actuator may shift in position slightly while tightening the screws at the top of the shaft adapter. The anti-rotation bracket features a T-piece with a 5-mm-long shank to accommodate for this movement. It is important to ensure that this play is not impeded.

Universal Shaft Adapter The universal shaft adapter can be used for shafts of various diameters and shapes (round: 8...16 mm and square: 6...13 mm).


EN0B-0478GE51 R0413 5

WIRING Connecting to the Power Supply In order to comply with protection class II, the power source of 24 V actuators must be reliably separated from the network power supply circuits as per DIN VDE 0106, part 101.

Access Cover The access cover can be unscrewed and removed in order to gain access to the terminal block(s) and perform wiring.

S6 S5 S3 S2 S1

50005456-002

PC-ABS

5 4 3 2 1

S1 S2 S3 S5 S6

Fig. 10. Access cover

Wiring Diagrams

!

Modulating: 0[2]...10V, 10...0[2]V

0[2]...10V

0[2]...10V

POS out

POS 50%

Y

GND/-

24V~/+

24V~/=

3

1

2

5

4

= override option Fig. 11. N05010/N10010 (modulating mode)

!

Floating: Dir

0[2]...10V POS out

= feedback option

CCW

CW

GND/-

24V~/+

24V~/=

3

1

2

5

4

Fig. 12. N05010/N10010 (floating mode)

!

2-Position: Dir

0[2]...10V POS out

CCW

CW

GND/-

24V~/+

24V~/=

3

1

2

5

4

= feedback option Fig. 13. N05010/N10010 (2-position mode)

END SWITCHES(max. 230 V, 5 A)

S3

S6

S5

S1A,B: C

A: NC

A: NO

B: NC

B: NO

S2CCW CW

CCW CW

Fig. 14. End switches (Nxx-SW2)

NOTE: Both of the internal end switches must be connected to the same power source.

Table 1 summarizes the information presented in the preceding wiring diagrams.

Table 1. Internal end switches (Nxx-SW2)

terminal type of switch S1 common lead for switches A and B

S2, S3

change-over switch A (S1/S2 opens and S1/S3 closes when shaft adapter moves CW past 5°; reverts to original state when shaft adapter moves CCW past 5°).

S5, S6

change-over switch B (S1/S5 opens and S1/S6 closes when shaft adapter moves CW past 85°; reverts to original state when shaft adapter moves CCW past 85°).


Manufactured for and on behalf of the Environmental and Combustion Controls Division of Honeywell Technologies Sàrl, Rolle, Z.A. La Pièce 16, Switzerland by its Authorized Representative: Automation and Control Solutions Honeywell GmbH Böblinger Strasse 17 71101 Schönaich / Germany Phone: (49) 7031 63701 Fax: (49) 7031 637493 http://ecc.emea.honeywell.com Subject to change without notice. Printed in Germany EN0B-0478GE51 R0413

DIMENSIONS

2...10 V0...10 V

Dir

Rev10...0 V10...2 V

Service/Off

N05010

134 85

108

66 562

41

Fig. 15. Dimensions (in mm)

OPERATOR WORKSTATION AND PRINT

Flexible and environmentally conscious designThe completely redesigned form factors are amongst the smallest within their categories. The mini-tower, desktop and small form factor chassis have been optimized to help maximize desk space and ensure the systems integrate seamlessly in virtually any office environment. The Dell OptiPlex 790 also shares the same visual identity as Opti-Plex 990 and 390 to offer a more consistent look across the OptiPlex portfolio and two All-in-One stands enable deployment as a single device with up to 24” displays. Ac-cessibility and serviceability are easy thanks to the conve-nient side-latch mechanism which makes access to key system components for upgrades and services fast and easy. The form-factor flexibility has also been designed with our planet in mind. The systems all have a minimum of 10% post-consumed recycled plastic enclosure and offer 90% efficient power supplies option. Starting with OptiPlex small form factor Dell also provides recyclable packaging. By using post-consumed recycled plastic content in the chassis of more models, the new genera-tion of OptiPlex is Dell’s most environmentally responsible commercial desktop offering.

Advanced performance and productivityThe OptiPlex 790 delivers great performance and features nearly the same performance as OptiPlex 990 which is the most powerful OptiPlex ever. Enable your workforce with cutting-edge productivity tools such as the advanced 2nd generation Intel® Core™ i7 processor featuring gener-ous high-speed memory options and support for up to four simultaneous video displays across small-form factor, desktop and minitower chassis with dual PCI-express slots. The OptiPlex 790 also supports flexible desktop virtualization deployment models to help users get up and running fast and have their data centrally stored to avoid downtime. OptiPlex 790 supported virtualization solutions range from virtual remote desktop control to on-demand desktop streaming or client hosted virtualization.

Business-class controlThe OptiPlex 790 is equipped with Intel Standard Man-agement technology enabling efficient remote system management that helps managing many systems simul-taneously; along with the Dell Data Protection security capabilities such as one-touch preset compliance policy templates, flexible encryption and single solution for system disk as well as removable medias that work in your unique environment. A business-class range of secu-rity and management options which allows security and remote control configurations to meet large organizations unique needs and challenges. Dell KACE system manage-ment appliances are fully-compatible with the OptiPlex 790 desktops enabling easy deployment of remote man-ageability and maintenance simplification. The OptiPlex technological assets are backed with proven professional IT services and support worldwide, ranging from deploy-ment to maintenance or web solutions to help IT to sim-plify their daily tasks. The OptiPlex platform commitment to stability, long-lifecycle and managed transitions also help ensure IT to save time and money.

Dell™ OptiPlex™ 790 desktopThe OptiPlex 790 flexible desktop solution is designed for advanced performance and efficient col-laboration. It enables business-class control that helps ensure IT saves time and money and the re-mote management technology also helps simplify systems management and protect your data. Dell OptiPlex 790 is available in four different chassis sizes that blend seamlessly into office environments and respect our planet.

Dell OptiPlex 790designed to deliver advanced productivity and business-class control to help IT save time and money.

OptiPlex 790

OptiPlex 790 Technical Specifications

Processors1 Intel® 2nd Generation Core™ i7, i5, i3 Processors.

Chipset Intel® Q65 Express Chipset

Operating System Options Microsoft® Windows 7® Home Basic (32/ 64 bit),Microsoft® Windows 7® Home Premium (32/64 bit), Microsoft® Windows 7® Professional (32/64 bit), Microsoft® Windows 7® Ultimate (32/64 bit)Windows Vista® Home Basic SP2 (32/64 bit), Windows Vista® Business SP2 (32/64 bit), Windows Vista® Ultimate SP2 (32 bit)Ubuntu® Linux (select countries); FreeDOS for N-series

Video2 Integrated Intel® HD Graphics 2000 [with iCore Dual/Quad core class CPU-GPU combo]; optional 1GB AMD RADEON HD 6450; optional 512MB AMD RADEON HD 6350

Memory3 Up to four DIMM slots; Non-ECC dual-channel 1333MHz DDR3 SDRAM, up to 16GB

Networking Integrated Intel® 82579LM Ethernet LAN 10/100/1000; optional Broadcom® NetXtreme® 10/100/1000 PCIe card; optional Dell Wireless 1520 PCIe (MT, DT, SFF); optional half-mini PCIe (USFF) WLAN card (802.11n)

I/O Ports 10 External USB 2.0 ports and 1 Internal USB 2.0 (MT & DT only);1 Serial; 1 RJ-45; 1 VGA; 1 DisplayPort; 2 PS/2; 2 Line-in (stereo/microphone), 2 Line-out (headphone/speaker), optional Parallel/2nd Serial PCIe card (MT), optional 2nd Serial PCIe card (DT & SFF), optional 1394a PCI card (MT & DT, available from middle May 2011); optional USB 3.0 PCIe card

Removable Media Options DVD+/-RW; DVD-ROM; Dell 19 in 1 Media Card Reader (MT & DT only)

Hard Drives4 Options 3.5” Hard Drives: up to 1TB 7200 RPM SATA 3.0Gb/s; 2.5” Hard Drives: up to 500GB 7200 RPM SATA 3.0GB/s; 500GB Hybrid; 320GB 7200 RPM Opal SED, 128GB Solid State Drive Supports Dell’s Flexible Computing Solution diskless option

Chassis Minitower (MT) Desktop (DT) Small Form Factor (SFF) Ultra SmallForm Factor (USFF)

Dimensions (H x W x D)Inches/(cm)

14.2 x 6.9 x 16.4 /(36.0 x 17.5 x 41.7)

14.2 x 4.0 x 16.1 /(36.0 x 10.2 x 41.0)

11.4 x 3.7 x 12.3 /(29.0 x 9.3 x 31.2)

9.3 x 2.6 x 9.4 /(23.7 x 6.5 x 24)

Min. Weight (lbs/kg)

19.55/8.87 16.67/7.56 12.57/5.7 7.20 / 3.27

Number of Bays 2 internal 3.5”2 external 5.25”

1 internal 3.5”1 external 5.25”

1 internal 3.5”1 external 5.25” (slimline)

1 internal 2.5”1 external 5.25” (slimline)

Expansion Slots 1 full height PCIe x161 full height PCIe x16 (wired x 4)1 full height PCIe x11 full height PCI

1 half height PCIe x161 half height PCIe x16 (wired x 4)1 half height PCIe x11 half height PCI

1 half height PCIe x161 half height PCIe x16 (wired x 4)

1 miniPCIe connector

Power Supply5 Unit (PSU)

Standard 265W PSU or optional 265W up to 90% Efficient PSU; Energy Star 5.0 compliant, Active PFC



200W up to 90% Efficient PSU, ENERGY STAR® 5.0 compliant, Active PFC

Peripherals Options Monitors:Dell Entry Standard and Widescreen Flat Panel Analog:Dell E170S, E190S, E1709W, E1910, E1911, E2011H, E2210H, E2211H, E2311H

Dell Professional Digital Standard and Widescreen Flat Panel:Dell P170S, P190S, P1911, P2011H, P2210, P2211H, P2311H, P2411H

Dell UltraSharp Digital Standard and Widescreen Flat Panel, Adjustable Stand:Dell 2007FP, U2211H, U2311H, U2410, U2711, U3011

Keyboards: Dell USB Entry Keyboard, Dell Multimedia Pro Keyboard, Dell Smartcard Keyboard

Mouse: Dell USB Optical Mouse, Dell Laser Mouse

Audio Speakers: Internal Dell Business audio speaker, Dell AX210 2.0 and AY410 2.1 Desktop Speakers; Dell AX510 and AX510PA Sound Bar Speakers

Security Trusted Platform Module6 (TPM) 1.2, Dell Data Protection / Access, Chassis lock slot support, optional Chassis Intrusion Switch, Setup/BIOS Password, I/O Interface Security, optional Smart Card keyboards, Intel® Trusted Execution Technology, BIOS support for optional Computrace7

Systems Management Options8

Intel® Standard Manageability; No Out of Band Systems Management

Environmental, Ergonomic, & Regulatory Standards

Environmental Standards (eco-labels): Energy Star 5.0, EPEAT Registered (see epeat.net for registration status by country), CECP, TCO, WEEE, Japan Energy Law, Japan Green PC, South Korea Eco-label, EU RoHS, China RoHS, Blue AngelOther Environmental Options: Dell Energy Smart settings; Carbon Off-set Program; System Recycle (Asset Recovery Service)

Warranty Limited Hardware Warranty9; Standard 3-year Next Business Day On Site Service after Remote Diagnosis10 (3-3-3); Optional 3-year Dell ProSupport™ for IT; 4 year and 5 year service and support options11

Your business-class desktops at dell.com/optiplex *Important Information: Remote Diagnosis is determination by online/phone technician of cause of issue; may involve customer access to inside of system and multiple or extended sessions. If issue is covered by Limited Hardware Warranty and not resolved remotely, technician and/or part will be dispatched, usually within 1 business day following completion of Remote Diagnosis. Availability varies.Other conditions apply. For copy of Ltd Hardware Warranty, write Dell USA LP, Attn: Warranties, One Dell Way, Round Rock, TX 78682 or see www.dell.com/warranty.

Offering may vary by region.1. System Memory and Graphics: Significant system memory may be used to support graphics, depending on system memory size and other factors.2. 4GB or Greater System Memory Capability: A 64-bit operating system is required to support 4GB or more of system memory.3. Hard Drive: GB means 1 billion bytes and TB equals 1 trillion bytes; actual capacity varies with preloaded material and operating environment and will be less.4. PSU: This form factor utilizes a more efficient Active Power Factor Correction (APFC) power supply. Dell recommends only Universal Power Supplies (UPS) based on Sine Wave output for APFC PSUs, not an approximation of a Sine Wave, Square Wave, or quasi-Square 5. Wave (see UPS technical specifications). If you have questions please contact the manufacturer to confirm the output type.TPM: TPM is not available in all regions.6. Computrace: Not a Dell offer. Certain conditions apply. For full details, see terms and conditions at www.lojackforlaptops.com.7. Systems Management Options:8.

Intel® Standard Manageability - Fully enabled at point of purchase, the Intel Standard Management option is a subset of the AMT features. ISM is not upgradeable to vPro technology post-purchase.• No Out-of-Band Systems Management - This option entirely removes Intel out of band systems (OOB) management features. The system can still support • in band management. OOB management support through AMT cannot be upgraded post-purchase.

Limited Hardware Warranty: For copy of Ltd Hardware Warranty, write Dell USA LP, Attn: Warranties, One Dell Way, Round Rock, TX 78682 or see www.dell.9. com/warranty.Next Business Day Onsite Service after Remote Diagnosis: Remote Diagnosis is determination by online/phone technician of cause of issue; may involve 10. customer access to inside of system and multiple or extended sessions. If issue is covered by Limited Hardware Warranty (www.dell.com/warranty) and not resolved remotely, technician and/or part will be dispatched, usually within 1 business day following completion of Remote Diagnosis. Availability varies. Other conditions apply. Dell Services: Availability and terms of Dell Services vary by region. For more information, visit www.dell.com/servicedescriptions.11. OptiPlex 990 small form factor (coming in May in US, UK and Japan) is brominated flame retardant free (BFR-free) and polyvinyl chloride free (PVC-free); meeting the definition of BFR-/PVC-free as set forth in the iNEMI Position Statement on the ‘Definition of Low-12. Halogen Electronics (BFR-/CFR-/PVC-free)’. Plastic parts contain less than 1,000 ppm (0.1%) of bromine (if the Br source is from BFRs) and less than 1,000 ppm (0.1%) of chlorine (if the Cl source is from CFRs or PVC or PVC copolymers). All printed circuit board (PCB) and substrate laminates contain bromine/chlorine total less than 1,500 ppm (0.15%) with a maximum chlorine of 900 ppm (0.09%) and maximum bromine being 900 ppm (0.09%).

LASERJET PRO CP1525NWCOLOR PRINTER

Create your own professional-quality color documents on a compact, easy-to-use printer with wireless and Ethernet connectivity.5 Print from anywhere with HP ePrint.1

Save on energy and print black documents affordably. Print Speed: Up to 12 ppm black and up to 8 ppm color Print Resolution: Up to 600 x 600 dpi Print Technology Resolution: HP ImageREt 3600 Standard Connectivity: 1 Hi-Speed USB 2.0, 1 built-in 10/100 Ethernet, 1 Wireless 802.11 b/g/n Display: 1.85" LCD, 2-line, 16-character display Monthly Volume (Duty Cycle): Up to 30,000 pages Duplex Print Options: Manual (driver support provided)

1May require an Internet connection to the printer. Feature works with any Internet- and e-mail-capable device and requires a firmware upgrade. For details, http://www.hp.com/go/ePrintCenter. 2Program features and availability may vary by country. For more information, visit http://www.hp.com/learn/suresupply. 3Program availability varies. HP print cartridge return and recycling is currently available in more than 49 countries, territories and regions in Asia, Europe, and North and South America through the HP Planet Partners program. For more information, visit http://www.hp.com/recycle. 4To use this feature, you need Internet Explorer 6.0-8.0. 5Wireless performance is dependent upon physical environment and distance from access point, and may be limited during active VPN connections.

Get professional color documents—wirelessly• Print from anywhere in the office with wireless.5 Share

printing resources using built-in Ethernet.• Ensure bold text and smooth color with HP ImageREt 3600

and Original HP cartridges with ColorSphere toner.• Get excellent print quality automatically on text, images

and graphics with HP EasyColor.• Print documents affordably. Get the same black cost per

page as a black-and-white HP LaserJet printer.

Set up quickly, and print from anywhere1

• Print from anywhere, anytime, with HP ePrint1.• Install and start printing quickly and easily.• Simplify supplies maintenance—order cartridges with HP

SureSupply2 and install them easily.• Easily operate and maintain the printer with the in-device

help menu.

Create and print your own marketing materials• Estimate print costs with included software, and get project

ideas, tools and templates from HP.• Print on a wide range of paper sizes—from 3 x 5 to

8.5 x 14 inches.• Achieve great results—pre-configured shortcuts optimize

output quality based on the media selected.• Easily adjust spot colors and apply them throughout a

document with basic color-match settings.

Reduce your environmental impact• Save energy, plus start and finish your print job faster with

Instant-on Technology.• Save space and resources with the compact size of this

color laser printer.• Get easy recycling—cartridges returned through HP Planet

Partners are recycled responsibly3.• Print only the web content you need, neatly and

accurately, with HP Smart Web Printing4.

HP LaserJet Pro CP1525nw Color Printer

• Reduce energy use up to 50% with Instant-on Technology.1

• Convenient cartridge recycling in over 49 countries.2 • Prints great on recycled paper.

ENERGY STAR® qualified product 1Energy savings based on HP testing using the ENERGY STAR® program’s Typical Energy Consumption (TEC) method on HP LaserJet products with Instant-on Technology vs. top competitive models as of March 2009. 2HP Program availability varies. HP print cartridge return and recycling is currently available in more than 49 countries, territories and regions is Asia, Europe and North and South America through the HP Planet Partner Program.

Please recycle your computing hardware and printing supplies.Find out how at our website.

LASERJET PRO CP1525NWCOLOR PRINTER

LASERJET PRO CP1525NW COLOR PRINTER Product Number: CE875A

1Measured using ISO/IEC 24734, excludes first set of test documents. For more information see http://www.hp.com/go/printerclaims. Exact speed varies depending on the system configuration, software application, driver, and document complexity. 2With instant-on fuser technology; Exact speed varies depending on the system configuration, software application, driver and document complexity. 3Duty cycle is defined as the maximum number of pages per month of imaged output. This value provides a comparison of product robustness in relation to other HP LaserJet or HP Color LaserJet devices, and enables appropriate deployment of printers and MFPs to satisfy the demands of connected individuals or groups. 4HP recommends that the number of printed pages per month be within the stated range for optimum device performance, based on factors including supplies replacement intervals and device life over an extended warranty period. 5Configuration tested: base model, simplex printing, A4 paper at an average of 12 ppm. Values are subject to change. For current information see http://www.hp.com/support. 6Power requirements are based on the country/region where the printer is sold. Do not convert operating voltages. This will damage the printer and void the product warranty.

©2010 Hewlett-Packard Development Company, L.P. HP is a registered trademark of the Hewlett Packard Company. ENERGY STAR and the ENERGY STAR logo are registered U.S. marks. All other trademarks are the property of their respective owners. Microsoft and Windows are registered trademarks of Microsoft Corporation. Adobe and Acrobat are trademarks of Adobe Systems Incorporated. This listing of non HP products does not constitute an endorsement by Hewlett Packard Company. The information contained herein is subject to change without notice and is provides "as is" without warranty of any kind. HP shall not be liable for technical or editorial errors or omissions contained herein. August 2010

FOR MORE INFORMATION VISIT OUR WEBSITE AT WWW.HP.COM

TECHNICAL SPECIFICATIONSPRINT TECHNOLOGY Laser

PRINT SPEED1 Black (Normal, letter): Up to 12 ppm; Color (Normal, letter): Up to 8 ppm; First Page Out Color (Letter, ready)2: As fast as 32 sec

PRINT RESOLUTION Black (Best): Up to 600 x 600 dpi; Black (Normal): Up to 600 x 600 dpi; Color (Best): Up to 600 x 600 dpi

PRINT TECHNOLOGY RESOLUTION

HP ImageREt 3600

STANDARD PRINT LANGUAGES

HP PCL 6, HP PCL 5c, HP postscript level 3 emulation

NUMBER OF PRINT CARTRIDGES

4 (1 each black, cyan, magenta, yellow)

SURESUPPLY SUPPORTED Yes

PRINTER MANAGEMENT Windows: HP Toolbox FX (default install), SNP Alerts (minimum install), HP Web Jetadmin (download); Mac: HP Utility

STANDARD CONNECTIVITY 1 Hi-Speed USB 2.0, 1 built-in 10/100 Ethernet, 1 Wireless 802.11 b/g/n

WIRELESS CAPABILITY Yes, built-in Wireless 802.11 b/g/n

NETWORK CAPABILITIES Via built-in 10/100 Ethernet and Wireless 802.11 b/g/n

CONTROL PANEL 2-line, 16-character front panel display, 5 buttons (Cancel job, Left arrow, Right arrow, Select, Reverse), 3 LED indicator lights (Attention, Ready, Wireless), WPS button

FONTS AND TYPEFACES 84 scalable TrueType fonts (49 scalable TrueType and 35 postscript)

MEDIA TYPES SUPPORTED Paper (bond, brochure, color, glossy, letterhead, photo, plain, preprinted, prepunched, recycled, rough), transparencies, labels, envelopes, cardstock

DUTY CYCLE (MONTHLY, LETTER)3

Up to 30,000 pages

RECOMMENDED MONTHLY PAGE VOLUME4

Up to 250 to 1,000 pages

DISPLAY 1.85" LCD, 2-line, 16-character display

MAXIMUM/STANDARAD MEMORY

384 MB/128 MB

PAPER HANDLING 150-sheet input tray, 1-sheet priority feed slot, 125-sheet output bin; Input Handling: Up to 150 Sheets, Up to 50 transparencies, Up to 50 post-cards, Up to 10 Envelopes; Ouput Handling: Up to 50 Sheets, Up to 50 transparencies

DUPLEX PRINT OPTIONS Manual (driver support provided)

PROCESSOR Processor Type: ARM 1156 processor core; Processor Speed: 600 MHz

SOFTWARE INCLUDED Windows Full Software Solution, HP Universal Print Drivers, HP Basic Color Match, HP PrintView, HP Eco Solutions Print Console, Mac Software Solution, Linux Software Solution, Unix Print Driver

MINIMUM SYSTEM REQUIREMENTS

PC: Microsoft® Windows® 7, Windows Vista®: 1 GHz 32-bit(x86) or 64-bit(x64) processor, 1 GB RAM (32-bit) or 2 GB RAM (64-bit), 200 MB free hard disk space, CD/DVD-ROM or Internet, USB or Network port, Windows® XP (32-bit) Service Pack 2: Pentium 233 MHz processor, 512 KB RAM (32-bit) or 2 GB RAM (64-bit), 200 MB free hard disk space, CD/DVD-ROM or Internet, USB or Network port; Mac: Mac OS X v 10.5.8, v 10.6; PowerPC G4, G5, or Intel Core Processor; 256 MB RAM; 300 MB free hard disk space; CD/DVD-ROM or Internet; USB or Network port

COMPATIBLE OPERATING SYSTEMS

Full software installs supported on: Microsoft® Windows®7 32-bit and 64-bit, Windows Vista® 32-bit and 64-bit, Windows® XP 32-bit (SP2 or higher), Driver only installs supported on: Windows® Server 2008 32-bit and 64-bit, Windows® Server 2003 32-bit (SP3 or higher), Mac OS X v 10.5.8, v 10.6, Linpus Linux (9.4, 9.5), Red Hat Enterprise Linux 5.0 (supported with a pre-built package), SUSE Linux (10.3, 11.0, 11, 11.1, 11.2), Fedora (9, 9.0, 10, 10.0, 11.0, 11, 12, 12.0), Ubuntu (8.04, 8.04.1, 8.04.2, 8.10, 9.04, 9.10, 10.04), Debian (5.0, 5.0.1, 5.0.2, 5.0.3) (supported by the automatic installer), HPUX 11 and Solaris 8/9

OPERATING ENVIRONMENT

Operating Humidity Range: 10 to 80% RH; Recommended Humidity Operating Range: 20 to 70% RH; Operating Temperature Range: 15 to 32.5º C; Recommended Operating Temperature Range: 68 to 81º F (20 to 27º C); Storage Temperature Range: -4 to 104º F (-20 to 40º C); Non-Operating Humidity: 10 to 95% RH

ACOUSTIC5 Acoustic Power Emissions: 6.1 B(A); Acoustic Power Emissions (Ready): Inaudible; Acoustic Pressure Emissions Bystander (Active, Printing): 48 dB(A); Acoustic Pressure Emissions Bystander (Ready): Inaudible

POWER Power Requirements: Input voltage 110 to 127 VAC (+/- 10%), 60 Hz (+/- 3 Hz) Power Supply Type: Built-in power supply Power Consumption6: 295 watts Active, 0.2 watts Off, 5.5 watts Sleep, 12.5 watts Standby Typical Electricity Consumption (TEC) Number: 1.208 kWh/Week

PRODUCT DIMENSIONS 15.7 x 17.8 x 10.0 in (399 x 453 x 254 mm)

PRODUCT WEIGHT 40.0 lb (18.2 kg)

SECURITY MANAGEMENT Wireless: WEP (128bit), WPA/WPA2 - Personal (AES, TKIP), Password-protected network embedded Web server, Enable/disable network ports, SNMPv1 community password change

WHAT’S IN THE BOX HP Color LaserJet Pro Printer, HP LaserJet Starter Black, Cyan, Magenta, Yellow starter print cartridges (pre-installed), CDs containing software and electronic documentation, Documentation (Install Guide, Support flyer, Warranty guide), power cord, USB cable

ACCESSORIES HP USB Cable (a-b) 2 meter, Q6264A HP 256 MB DDR2 144-pin SDRAM DIMM, CB423A DDR2 - 16b DIMM, CB421AX DDR2 128 MB DIMM, CB422AX DDR2 256 MB DIMM, CB423AX

HP CARE PACKS HP 2 year NBD ExchPrinting and Imaging-H SVC, UG606E HP 3 year NBD ExchPrinting and Imaging-H SVC, UG609E HP 4 year NBD ExchPrinting and Imaging-H SVC, UH610E HP Basic Installation Service (for one consumer printer with wireless capability), US284E HP Premium Installation Service (with wireless network setup for up to three PCs and/or printers), US285E

REPLACEMENT CARTRIDGES

HP 128A Black LaserJet Print Cartridge, CE320A HP 128A Cyan LaserJet Print Cartridge, CE321A HP 128A Yellow LaserJet Print Cartridge, CE322A HP 128A Magenta LaserJet Print Cartridge, CE323A

WARRANTY One-year, limited warranty, product exchange

OFFICEJET 7000 Wide Format Printer

Fast network printing up to 13x19 inches with lowest cost per page vs in-class inkjet1 with stunning print quality Print: Maxiumum print speeds of 33 ppm black, Up to 32 ppm color Connectivity: 1 USB 2.0; 1 Ethernet, Optional Wireless print server Paper Handling: Letter; legal; tabloid (11 x 17 in); executive; 4 x 6 in; 5 x 7 in; 8 x 10 in; 11 x 14 in; 12 x 12 in; 13 x 19 in

1Compared to B-size inkjet printers and AIOS <US$299 from major vendors as of Q408. Excludes HP Officejet Pro products. Average based on ISO/IEC 24711 or HP testing methodology and continuous printing. Actual yield varies considerably based on content of printed pages and other factors. For details see www.hp.com/go/learnaboutsupplies. 2Letter cost per page comparisons based on majority of color laser printers < $300 and OJ with highest-capacity cartridges, June 2008. For details www.hp.com/go/officejet. 3Based on paper-industry predictions for acid-free papers and Original HP inks; colorant stability data at room temperature based on similar systems tested per ISO 11798 and ISO 18909. 4Majority of letter/A4 color laser printers < $300, June 2008, energy use based on HP testing using the ENERGY STAR® program's TEC test method criteria. 5HP ink cartridge return and recycling is available in 42 countries and territories around the world, covering 88% of the addressable market; see www.hp.com/recycle for details.

Versatile network printing up to 13 x 19 inches• Print on various paper types and sizes from

3.5 x 5 inches up to 13 x 19 inches—plus get stunning photos with HP Officejet inks

• Save money by replacing only the individual ink cartridge that runs out

• Share printer with up to five users thanks to wired networking

• Maximum letter print speeds of 33 ppm black, 32 ppm color

Lowest cost per page vs in-class inkjets1

• Print professional color documents for up to 40% less per page than letter-size lasers2

• Print laser-quality black text and professional color using HP Officejet inks

• Get fast-drying documents for high-volume printing using papers with the ColorLok® logo

• Archived documents retain black text and color quality for decades without fading3

Cut energy use by up to 40% compared to lasers4

• This HP Officejet printer consumes up to 40% less energy than letter size color laser printers4

• Save money and energy with this efficient ENERGY STAR® qualified inkjet printer

• Help reduce the need for paper resources by using recycled paper

• Enjoy easy recycling—cartridges returned via HP Planet Partners are recycled responsibly5

HP Officejet 7000 Wide Format Printer

• Reduce energy use up to 40% with this HP Officejet Printer*

• Prints great on recycled paper• Print only the web content you need with HP Smart

Web Printing**

ENERGY STAR® Qualified *Compared to competitive laser products www.hp.com/go/officejet. **For Windows only. Requires Internet Explorer 6.0 or Mozilla Firefox 2.0—or higher.

Please recycle your computing hardware and printing supplies.Find out how at our website.

OFFICEJET 7000 Wide Format Printer

OFFICEJET 7000 Wide Format Printer Product Number: C9299AProduct Identifier: E809A ENERGY STAR® qualified models; see: http://www.hp.com/go/energystar 1Either after first page or after first set of ISO test pages. For details see www.hp.com/go/printerclaims 2Power measurements are based on Energy Star OM test procedure. 3Average based on ISO/IEC 24711 or HP testing methodology and continuous printing. Actual yield varies considerably based on content of printed pages and other factors. Some ink from included cartridge is used to start up the printer. For details see http://www.hp.com/go/learnaboutsupplies

©2009 Hewlett-Packard Development Company, L.P. HP is a registered trademark of the Hewlett Packard Company. ENERGY STAR and the ENERGY STAR logo are registered U.S. marks. All other trademarks are the property of their respective owners. Microsoft and Windows are registered trademarks of Microsoft Corporation. This listing of non HP products does not constitute an endorsement by Hewlett Packard Company. The information contained herein is subject to change without notice and is provides "as is" without warranty of any kind. HP shall not be liable for technical or editorial errors or omissions contained herein. May 2009

FOR MORE INFORMATION VISIT OUR WEBSITE AT WWW.HP.COM

TECHNICAL SPECIFICATIONSPRINT TECHNOLOGY HP Thermal Inkjet

PRINT RESOLUTION Black (Best): Up to 600 rendered dpi black when printing from a computer; Color Best: Up to 4800 x 1200 optimized dpi color (when printing from a computer on selected HP photo papers and 1200 input dpi)

PRINT SPEEDS1 Maximum Print Speeds: 33 ppm Black, 32 ppm color; Laser Comparable Speeds: Up to 8 ppm Black, Up to 7 ppm Color

PRINTING CAPABILITIES Borderless printing: Yes (up to 13 x 19 in, 330 x 483 mm); Automatic paper sensor: No; Direct print supported: No

STANDARD PRINTER LANGUAGES

HP PCL 3 GUI

COMPATIBLE INK TYPES Dye-based; pigment-based

STANDARD CONNECTIVITY 1 USB 2.0; 1 Ethernet

NETWORK READY Standard (built-in Ethernet), Optional Wireless print server

NETWORK CAPABILITIES Ethernet, Optional Wireless print server

WIRELESS CAPABILITY No

CONTROL PANEL 4 indicator LED that will light up individually when any of the ink cartridge runs low in ink; 4 Button (with lights): Power button; Page resume button; Cancel print job button and Network button

DUTY CYCLE (MONTHLY, LETTER)

Up to 7000 pages

MEDIA TYPES SUPPORTED Paper (brochure, inkjet, plain); photo; envelopes; cards (index); transparencies

MEDIA SIZES SUPPORTED Letter; legal; tabloid (11 x 17 in); executive; 4 x 6 in; 5 x 7 in; 8 x 10 in; 11 x 14 in; 12 x 12 in; 13 x 19 in

STANDARD MEDIA SIZES (DUPLEX)

Letter; legal; tabloid (11 x 17 in); executive; 4 x 6 in; 5 x 7 in; 8 x 10 in; 11 x 14 in; 12 x 12 in; 13 x 19 in

CUSTOM MEDIA SIZES 3 x 5 to 13 x 44 in

MEDIA WEIGHT SUPPORTED

Tray 1: 16 to 28 lb bond (plain media); 20 to 24 lb bond (envelope); up to 110 lb index (cards); up to 75 lb bond (photo and brochure)

MEDIA WEIGHT RECOMMENDED

20 to 24 lb

PAPER HANDLING Input: 150-sheet input tray; Output: 100-sheet output tray; Duplex Options: Manual (driver support provided); Input capacities: Up to 150 sheets letter/legal, Up to 15 envelopes, Up to 40 sheets 4 x 6 photo, Up to 40 cards; Output capacities: Up to 100 sheets letter/legal; Up to 55 sheets transparencies, Up to 40 cards

SKEW +/- 0.006 in

STANDARD MEMORY 32 MB

PROCESSOR SPEED 384 MHz

COMPATIBLE OPERATING SYSTEMS

Windows 2000 (SP4); Windows XP Home; Windows XP 32-bit (SP1); Windows Vista® (32 and 64-bit); Mac OS X v 10.4; Mac OS X v 10.5; With Windows 2000, some features may not be available

MINIMUM SYSTEM REQUIREMENTS

PC: Windows 2000 (SP4): Intel Pentium II or Celeron processor, 128 MB RAM, 160 MB free hard disk space, Internet Explorer 6.0; Windows XP (32-bit) (SP1): Intel Pentium II or Celeron processor, 512 MB RAM, 225 MB free hard disk space, Internet Explorer 6.0; Windows Vista: 800 MHz 32-bit (x86) or 64-bit (x64) processor, 512 MB RAM, 902 MB free hard disk space, Internet Explorer 7.0; Mac: Mac OS X v 10.4.11, Mac OS X v 10.5.6, Mac OS X v 10.6*: PowerPC G4, G5, or Intel Core processor, 256 MB memory, 500 MB free hard disk space

PRODUCT DIMENSIONS (W X D X H)

22.6 x 15.8 x 7.13 in

PRODUCT WEIGHT 15.4 lb

POWER2 Power supply type: External universal power supply; Power requirements: Input voltage 100 to 240 VAC (+/- 10%), 50/60 Hz; Power consumption: 48 watts; Power consumption, off: 0.34 watts (230 V), 0.32 watts (115 V); Power consumption, active: 14 watts (Best mode); 19 watts (Normal mode); 32 watts (Fast Draft mode); Power consumption, powersave: 2.4 watts; Power consumption, standby: 2.7 watts

ACOUSTICS Acoustic power emissions: 5.4 B(A) (Best mode); 6.2 B(A) (Normal mode); 6.9 B(A) (Draft mode), Acoustic pressure emissions: 48 dB(A) (Best mode); 56 dB(A) (Normal mode); 63 dB(A) (Draft mode)

OPERATING ENVIRONMENT

Recommended operating temperature: 59 to 90º F; Maximum operating temperature range: 41 to 104º F, Storage temperature range: 59 to 90º F, Operating humidity range: 15 to 90% RH, Recommended humidity operating range:15 to 80% RH; Non-operating humidity: 15 to 90% RH non-condensing

WHAT'S IN THE BOX3 HP Officejet 7000 Wide Format Printer; Print Head Assembly; HP 920 Black Officejet Ink Cartridge (~420 pages); HP 920 Cyan Officejet Ink Cartridge & HP 920 Magenta Officejet Ink Cartridge & HP 920 Magenta Officejet Ink Cartridge: composite yield (~300 pages); power supply; power cord; setup poster; CD-ROM (for software)

REPLACEMENT PRINT CARTRIDGES3

HP 920 Black Officejet Ink Cartridge (~420 pages), CD971A HP 920 Cyan Officejet Ink Cartridge (~300 pages), CH634A HP 920 Magenta Officejet Ink Cartridge (~300 pages), CH635A HP 920 Yellow Officejet Ink Cartridge (~300 pages), CH636A HP 920XL Black Officejet Ink Cartridge (~1200 pages), CD975A HP 920XL Cyan Officejet Ink Cartridge (~700 pages), CD972A HP 920XL Magenta Officejet Ink Cartridge (~700 pages), CD973A HP 920XL Yellow Officejet Ink Cartridge (~700 pages), CD974A

ACCESSORIES Hi-Speed USB cable Q6264A HP USB Network Print Adapter Q6275A HP Wireless Printing Upgrade Kit Q6236A HP Wireless Network USB Print Server Q6301A

WARRANTY One-year limited hardware warranty; 24-hour, 7 days a week Web support; business hour phone support within warranty period

DDC PANELS

FORM OF GURANTEE

Warranty Certificate

This is to certify that the Building Management System supplied by Integra International Trading and Contracting W.L.L For the Project: Construction of (2) New Schools At Doha

& Villages Stage (10-A) Package #4 Is covered under our special warranty clause that covers against any manufacturing defect for a period of 400 days from the date of commissioning i.e: Commencing on: - Expiring on: - This warranty coverage does not include normal wear & tear, consumerables, abuse/ misuse / wrong use of the components by users. This however does not cover maintenance of the system during the warranty period. Signed on behalf of: Integra International Trading and Contracting W.L.L Naga Manoj DGM-ELV SYSTEM (+974 55802725)

GRAPHICS SAMPLES

PROJECT APPROVALS

PROJECT REFERENCES

PROJECT: NORTH GATE MALL

CONTRACTOR : VOLTAS LIMITED

SYSTEM: BMS & LCS

VALUE: QAR 2,500,000.00

PROJECT: QATAR UNIVERSITY STUDENT HOUSING

CONTRACTOR : SEG

SYSTEM: BMS

VALUE: QAR 8,000,000.00

PROJECT: MARSA MALAZ

CONTRACTOR : CDC

SYSTEM: BMS,LCS,CBS,RMS

VALUE: QAR 8,000,000.00

PROJECT: PEARL QATAR

PARCEL 11A, 13A, 13B, 14A, 15A, 15B, 16

VIVA BHARIYA 02, 09, 18

CONTRACTOR : CDC, ADVANCE ENG, TAKYEEF, MEGATECH

SYSTEM: BMS,LCS,CBS,RMS

VALUE: QAR 20,000,000.00

PROJECT: QATAR PETROLEUM DISTRICT

CONTRACTOR : MIDMAC-BATIMENT INT’L-AL JABER JV

SYSTEM: CO DETECTION SYSTEM

VALUE: QAR 1,000,000.00

PROJECT: TWIN TOWER

CONTRACTOR : EFECO

SYSTEM: BMS

VALUE: QAR 2,200,000.00

PROJECT: QATAR FACULTY OF ISLAMIC STUDIES CONTRACTOR : TRAGS

SYSTEM: BMS, LCS & PLC

VALUE: QAR 3,000,000.00

PROJECT: AL BAKER TWIN TOWER

CONTRACTOR : CRC

SYSTEM: BMS & LCS

VALUE: QAR 10,000,000.00

PROJECT: QATAR UNIVERSITY BUILDINGS

CONTRACTOR : QATAR UNIVERSITY

SYSTEM: BMS

VALUE: QAR 10,000,000.00

PROJECT: TADMUR LOGISTICS BUILDING

CONTRACTOR : TAKYEEF ELECTROMECHANICAL

SYSTEM: LCS

VALUE: QAR 300,000.00

PROJECT: BARWA AMENITIES

CONTRACTOR : MECHEL ENGINEERING

SYSTEM: BMS

VALUE: QAR 2,000,000.00

PROJECT: TRAINING ACADEMY FOR COMMERCIAL BANK

CONTRACTOR : RAMCO

SYSTEM: LCS

VALUE: QAR 100,000.00

PROJECT: GULF MALL AT GHARAFFA

CONTRACTOR : HBK ENGINEERING

SYSTEM: BMS

VALUE: QAR 1,000,000.00

PROJECT: BARWA COMMERCIAL AVENUE TYPE 1 & 2

CONTRACTOR : ETA

SYSTEM: BMS

VALUE: QAR 5,000,000.00

PROJECT: AL SEELYA TOWER

CONTRACTOR : BARZAN ENGINEERING SERVICES

SYSTEM: BMS & LCS

VALUE: QAR 1,000,000.00

PROJECT: HALUL ISLAND

CONTRACTOR : CONTINENTAL COOLING

SYSTEM: BMS

VALUE: QAR 500,000.00

PROJECT: NAKILAT SHIPYARD

CONTRACTOR : AL-MOAYYED

SYSTEM: BMS & UPS

VALUE: QAR 2,000,000.00

PROJECT: BARZAN ON-SHORE BUILDINGS

CONTRACTOR : HOW UNITED, BEMCO

SYSTEM: BMS

VALUE: QAR 2,000,000.00

PROJECT: PARCEL 13A & 13B

CONTRACTOR : BARZAN ENGINEERING SERVICES

SYSTEM: HOME AUTOMATION SYSTEM

VALUE: QAR 4,000,000.00

PROJECT: CIVIL DEFENCE HEADQUATERS BUILDING

CONTRACTOR : TRAGS

SYSTEM: LCS & CBS

VALUE: QAR 700,000.00

PROJECT: LEKHWIYA STADIUM

CONTRACTOR : STRUCTURAL QATAR

SYSTEM: LCS

VALUE: QAR 500,000.00

PROJECT: LAGOONA PLAZA

CONTRACTOR : AL-SEAL CONTRACTING

SYSTEM: BMS

VALUE: QAR 1,000,000.00

PROJECT: BARWA VILLAGE

CONTRACTOR : PIONEER CONTRACTING

SYSTEM: BMS

VALUE: QAR 500,000.00

PROJECT: BARWA BANK

CONTRACTOR : BIN THANI ELECTROMECHANICAL

SYSTEM: BMS

VALUE: QAR 500,000.00

Documents

Submittal Honeywell