date of addendum: august 7, 2018 original date of contract …€¦ · east school #261 - phase 2a...

East School #261 - Phase 2a Reconstruction Addendum No. 004 Rochester City School District CannonDesign Project No. 004827.00

Addendum No. 004,

Date of Addendum: August 7, 2018 Original Date of Contract Documents: July 5, 2018 _____________________________________________________________________________________ Owner Architects and Engineers Rochester City School District CannonDesign Rochester Schools Modernization Office 2170 Whitehaven Road 70 Carlson Road, Suite 200 Grand Island, NY 14072 Rochester, NY 14601 _____________________________________________________________________________________ This Addendum amends Drawings and/or Specifications and/or Addenda for the above titled project, as indicated below, and is hereby incorporated into the Contract Documents as part thereof. Bidders are required to acknowledge receipt of this Addendum in the space provided on the Proposal/Bid Form. _____________________________________________________________________________________ Attachments: Specifications: 260943, 265619. Drawings: D0201-2, D0800-A, D0800-B2, D0810, A0101C1, A1006, E0101-A, E0101-B1, E0101-

B2, E0101-C1, E0101-C2, E0101-D1, E0101-D2, E0101-E, E0101-F, E0102-A, E0102-B, E0102-C2, E0102-D1, E0102-D2, E0102-F, E0103-D1, E0103-F, E0200-A, E0200-B, E0200-C1, E0200-C2, E0200-D1, E0200-D2, E0200-E, E0200-F, E0201-A, E0201-B1, E0201-B2, E0201-C1, E0201-C2, E0201-D1, E0201-D2, E0201-E, E0201-F, E0202-A, E0202-B1, E0202-B2, E0202-C1, E0202-C2, E0202-D1, E0202-D2, E0202-F, E0203-A, E0203-C2, E0203-D1, E0203-F, E0500, E0501, E0502, E0503, E0504, E0505, E0506, E0507, E0610, E0611, E0612, E0613, E0620, E0621, E0622.

RFIs: PB-0023, PB-0056, PB-0057, PB-0058, PB-0059, PB-0060. _____________________________________________________________________________________

SPECIFICATIONS (PROJECT MANUAL)

1. 000110 – TABLE OF CONTENTS

a. Remove the following:

“055813 Column Covers”

2. 001113 – ADVERTISEMENT FOR BIDS

a. Change bid date from “August 13, 2018” to “August 15, 2018.”

3. 004383 – MILESTONE SCHEDULE AND CRITICAL SUBMITTALS

a. Guideline Schedule, “Bids Received”:

1. Change “August 13, 2018” to “August 15, 2018.”

4. 055813 – COLUMN COVERS

a. This Section is being deleted in its entirety.

5. 260943 – ADDRESSABLE-LUMINAIRE NETWORK LIGHTING CONTROLS

a. Incorporate this revised Section reissued as an attachment to this Addendum.

6. 265619 – LED EXTERIOR LIGHTING

a. Incorporate this revised Section reissued as an attachment to this Addendum.


Addendum No. 004,

DRAWINGS

1. D0201-2 - LEVEL 01 DEMOLITION PLAN - AREA 'C1, C2'

D0800-A - ELECTRICAL BASEMENT DEMOLITION A WING

D0800-B2 - BASEMENT ELECTRICAL DEMOLITION PLAN B WING

D0810 - ELECTRICAL SINGLE LINE DEMOLITION PLAN

A0101C1 - LEVEL 01 PLAN - AREA C1

A1006 - DOORS SCHEDULE - LEVEL 01

E0101-A - LIGHTING PLAN FIRST FLOOR A WING

E0101-B1 - LIGHTING PLAN FIRST FLOOR B WING

E0101-B2 - LIGHTING PLAN FIRST FLOOR B WING

E0101-C1 - LIGHTING PLAN FIRST FLOOR C1 WING

E0101-C2 - LIGHTING PLAN FIRST FLOOR C2 WING

E0101-D1 - LIGHTING PLAN FIRST FLOOR D1 WING

E0101-D2 - LIGHTING PLAN FIRST FLOOR D2 WING

E0101-E - LIGHTING PLAN FIRST FLOOR E WING

E0101-F - LIGHTING PLAN FIRST FLOOR F WING

E0102-A - LIGHTING PLAN SECOND FLOOR A WING

E0102-B - LIGHTING PLAN SECOND FLOOR B WING

E0102-C2 - LIGHTING PLAN SECOND FLOOR C2 WING

E0102-D1 - LIGHTING PLAN SECOND FLOOR D1 WING

E0102-D2 - LIGHTING PLAN SECOND FLOOR D2 WING

E0102-F - LIGHTING PLAN SECOND FLOOR F WING

E0103-D1 - LIGHTING PLAN THIRD FLOOR D1 WING

E0103-F - LIGHTING PLAN THIRD FLOOR F WING

E0200-A - POWER PLAN BASEMENT A WING

E0200-B - POWER PLAN BASEMENT B WING

E0200-C1 - POWER PLAN BASEMENT C WING

E0200-C2 - POWER PLAN BASEMENT C WING

E0200-D1 - POWER PLAN BASEMENT D WING

E0200-D2 - POWER PLAN BASEMENT D WING

E0200-E - POWER PLAN BASEMENT E WING

E0200-F - POWER PLAN BASEMENT F WING

E0201-A - POWER PLAN FIRST FLOOR A WING

E0201-B1 - POWER PLAN FIRST FLOOR B WING

E0201-B2 - POWER PLAN FIRST FLOOR B WING

E0201-C1 - POWER PLAN FIRST FLOOR C WING

E0201-C2 - POWER PLAN FIRST FLOOR C WING


Addendum No. 004,

E0201-D1 - POWER PLAN FIRST FLOOR D1 WING

E0201-D2 - POWER PLAN FIRST FLOOR D2 WING

E0201-E - POWER PLAN FIRST FLOOR E WING

E0201-F - POWER PLAN FIRST FLOOR F WING

E0202-A - POWER PLAN SECOND FLOOR A WING

E0202-B1 - POWER PLAN SECOND FLOOR B WING

E0202-B2 - POWER PLAN SECOND FLOOR B WING

E0202-C1 - POWER PLAN SECOND FLOOR C WING

E0202-C2 - POWER PLAN SECOND FLOOR C WING

E0202-D1 - POWER PLAN SECOND FLOOR D1 WING

E0202-D2 - POWER PLAN SECOND FLOOR D2 WING

E0202-F - POWER PLAN SECOND FLOOR F WING

E0203-A - POWER PLAN THIRD FLOOR WING A

E0203-C2 - POWER PLAN THIRD FLOOR WING C

E0203-D1 - POWER PLAN THIRD FLOOR WING D1

E0203-F - POWER PLAN THIRD FLOOR WING F

E0500 - SINGLE LINE

E0501 - SINGLE LINE SECTION 1







E0610 - LUMINAIRE SCHEDULES

E0611 - ELECTRICAL PANEL SCHEDULES LTS-



E0620 - ELECTRICAL PANEL SCHEDULES PWR-



a. Incorporate the above revised Drawings reissued as attachments to this Addendum.

REQUESTS FOR INFORMATION (RFIs)

A. RFI Numbers PB-0023, PB-0056, PB-0057, PB-0058, PB-0059, AND PB-0060 are being issued as attachments to this Addendum for informational purposes only, and are not intended to be incorporated into the Contract Documents.

END OF ADDENDUM NO. 004


Addendum No. 004,

ADDRESSABLE-LUMINAIRE NETWORK LIGHTING CONTROLS 260943 - 1

East School #261 - Phase 2a Reconstruction Revised and Reissued: August 7, 2018 Rochester City School District Addendum No. 004 Cannon Design Project No. 004827.00

SECTION 260943 - ADDRESSABLE-LUMINAIRE NETWORK LIGHTING CONTROLS

PART 1 - GENERAL

1.1 RELATED DOCUMENTS

A. Control Voltage Electrical Cables

B. LED Interior Lighting

1.2 SUMMARY

A. Section includes a networked lighting control system comprised of the following components:

1. System Software Interfaces

a. Management Interface b. Visualization Interface c. Personal Control Applications

2. System Backbone and Integration Equipment

a. System Controller

3. Wired Networked Devices

a. Wall Stations b. Graphic Wall Stations c. Digital Key Switches d. Auxiliary Input/Output Devices e. Occupancy and Photocell Sensors f. Wall Switch Sensors g. Embedded Sensors h. Power Packs and Secondary Packs i. Networked Luminaires j. Relay and Dimming Panel k. Communication Bridge

B. The networked lighting control system shall meet all of the characteristics and performance requirements specified herein.

C. The contractor shall provide, install and verify proper operation of all equipment necessary for

proper operation of the system as specified herein and as shown on applicable drawings.



1.3 DEFINITIONS

A. BAS: Building automation system.

B. DALI: Digital addressable lighting interface.

C. Data Bus: Two wires used to communicate with bus connected devices.

D. DDC: Direct digital control.

E. Device: A collective term for DALI-compliant bus connected devices, including fluorescent

ballasts, incandescent luminaires, manual switches, switching relays, and similar. Sometimes also called slave unit.

F. Group: A set of devices that respond at the same time to messages on the data bus.

G. IP: Internet protocol.

H. IR: Infrared.

I. LAN: Local area network.

J. Monitoring: Acquisition, processing, communication, and display of equipment status data,

metered electrical parameter values, power quality evaluation data, event and alarm signals, tabulated reports, and event logs.

K. Scene: Digital light level associated with a preset; stored in the luminaire ballast.

L. TCP/IP: Transmission control protocol/Internet protocol.

M. VPN: Virtual private network.

1.4 ACTION SUBMITTALS

A. Product Data: For each type of product.

1. Include construction details, material descriptions, dimensions of individual components and profiles, and finishes for control modules, power distribution components, relays, manual switches and plates, and conductors and cables.

2. Include rated capacities, operating characteristics, electrical characteristics, and furnished specialties and accessories.

3. Sound data including results of operational tests of central dimming controls. 4. Operational documentation for software and firmware.

B. Shop Drawings:

1. Floor Plans: Location, orientation, and coverage area of each sensor; group

designations; and other specific design symbols and designations as required to define the installation, location, and configuration of all control devices.



2. Address Drawing: Reflected ceiling plan and floor plans, showing data-bus-connected devices, address for each device, and device groups. The plans shall be based on construction plans, using the same legend, symbols, and schedules.

3. Point List and Data Bus Load: Summary list of all control devices, sensors, ballasts, and other loads connected to each data bus and total connected load for each data bus. Include percentage of rated connected load and device addresses.

4. Wire Termination Diagrams and Schedules: Coordinate nomenclature and presentation with Drawings and block diagram. Differentiate between manufacturer-installed and field- installed wiring.

5. Block Diagram: Show interconnections between components specified in this Section and devices furnished with power distribution system components. Indicate data communication paths and identify networks, data buses, data gateways, concentrators, and other devices used. Describe characteristics of network and other data communication lines.

6. Initial programming values and general operation as programmed.

1.5 INFORMATIONAL SUBMITTALS

A. Submittals shall be provided including the following items.

1. Riser Diagrams showing device wiring connections of system backbone and typical per

room/area type. 2. Information Technology (IT) connection information pertaining to interconnection with fa-

cility IT networking equipment and third-party systems. 3. Other Diagrams and Operational Descriptions – as needed to indicate system operation

or interaction with other system(s). 4. Contractor Startup/Commissioning Worksheet (must be completed prior to factory start-

up). 5. Service Specification Sheets indicating general service descriptions, including startup,

training, post-startup support, and service contract terms. 6. Hardware and Software Operation Manuals. 7. Bill of materials necessary to install the networked lighting control system. 8. Product Specification Sheets indicating general device descriptions, dimensions, electri-

cal specifications, wiring details, and nomenclature 9. Field quality-control reports. 10. Sample Warranty: For manufacturer’s special warranty.

11. Software licenses and upgrades required by and installed for operation and programming of digital and analog devices.

1.6 CLOSEOUT SUBMITTALS

A. Operation and Maintenance Data: For lighting controls to include in emergency, operation, and

maintenance manuals. 1. Software operating and upgrade manuals. 2. Program Software Backup: A backup of Local and Global Profiles shall be stored on the

software’s host server such that the Profile backup can be applied to a replacement system controller or wall station.

3. Device address list. 4. Printout of software application and graphic screens. 5. Adjustments of scene preset controls, adjustable fade rates, and fade overrides.



6. Operation of adjustable zone controls. 7. Testing and adjusting of panic and emergency power features.

1.7 MAINTENANCE MATERIAL SUBMITTALS

A. Furnish extra materials that match products installed and that are packaged with protective

covering for storage and identified with labels describing contents. The manufacturer shall make available to the owner new parts, upgrades, and/or replacements available for a minimum of 5 years following the installation.

1.8 WARRANTY

A. Manufacturer's Warranty: The manufacturer shall provide a minimum five-year warranty on all

hardware devices supplied and installed. Warranty coverage shall begin on the date of shipment.

B. The hardware warranty shall cover repair or replacement of any defective products within the

warranty periods.

PART 2 - PRODUCTS

2.1 MANUFACTURERS

A. Acceptable Manufacturers: Subject to compliance with requirements, manufacturers offering products that may be incorporated into the Work include, but are not limited to, the following:

1. Acuity Brands Lighting, Inc. 2. Substitutions: Division 1 - Product Requirements.

B. Basis of Design System: Acuity Controls nLight

2.2 SYSTEM COMPLIANCE

A. System components shall comply with UL 916 and UL 924 standards where applicable.

B. System components shall comply with CFR Title 47, Part 15 standards where applicable.

C. All equipment shall be installed and connected in compliance with NFPA 70.

2.3 SYSTEM PERFORMANCE REQUIREMENTS

A. System Architecture

1. System shall have an architecture that is based upon three main concepts: (1) networkable

intelligent lighting control devices, (2) standalone lighting control zones using distributed intelligence, (3) system backbone for remote, time based and global operation between control zones.

2. Intelligent lighting control devices shall have individually addressable network communication capability and consist of one or more basic lighting control components: occupancy sensor,



photocell sensor, relay, dimming output, contact closure input, analog 0-10V input, and manual wall station capable of indicating switching, dimming, and/or scene control. Combining one or more of these components into a single device enclosure shall be permissible so as to minimize overall device count of system.

3. System must be capable of interfacing directly with networked luminaires such that low voltage network cabling is used to interconnect networked luminaires with control components such as sensors, switches and system backbone.

4. Lighting control zones consisting of one or more networked luminaires and intelligent lighting control devices and shall be capable of providing automatic control from sensors (occupancy and/or photocell) and manual control from local wall stations without requiring connection to a higher-level system backbone; this capability is referred to as “distributed intelligence.” Light- ing control zones of at least 128 devices per zone shall be supported.

5. Networked luminaires and intelligent lighting control devices shall support individual (unique) configuration of device settings and properties, with such configuration residing within the networked luminaires and intelligent control devices.

6. Networked luminaires and intelligent lighting control devices shall have distributed intelligence programming stored in non-volatile memory, such that following any loss of power the lighting control zones shall operate according to their defined default settings and sequence of operations.

7. Lighting control zones shall be capable of being networked with a higher-level system backbone to provide time-based control, remote control from inputs and/or systems external to the control zone, and remote configuration and monitoring through a software interface.

8. The system will include one or more system controllers that provide time-based control and global system control across multiple control zones and backbone network segments. The system controller also provides a means of connecting the lighting control system to a system software interface and building management systems via BACnet/IP or BACnet MS/TP protocol. All time-based controllers must have times synced so that the entire building complex is on the same perceived time.

9. The system may include “communication bridge” devices that route communication from lighting control zones to and from a system controller, for purposes of decreasing system wiring requirements.

10. All system devices shall support remote firmware update, such that physical access to each device is not necessary, for purposes of upgrading functionality at a later date.

B. Networked Control Zone Characteristics

1. Connections to devices within a networked lighting control zone and to backbone compo-

nents shall be with a single type of low voltage network cable, which shall be compliant with CAT5e specifications or higher.

2. Devices in an area can be connected via a “daisy-chain” or star topology. 3. System may provide pre-terminated plenum rated low voltage network cabling supplied with

hardware so as to reduce the opportunity for improper wiring and communication errors during system installation.

4. Following proper installation and provision of power, all networked devices connected together with low voltage network cable shall automatically form a functional lighting control zone without requiring any type of programming, regardless of the programming mechanism (e.g., software application, handheld remote, pushbutton).

5. Once software is installed, system shall be able to automatically discover all connected devices without requiring any provisioning of system or zone addresses.

6. All networked devices shall have the ability to detect improper communication wiring and an LED indicator to alert installation/startup personnel.

7. The following types of wired networked control devices shall be provided for egress light fixtures (corridors, stairways, classrooms, assembly spaces):



a. Low-Voltage power sensing: These devices shall automatically provide 100% light level upon detection of loss of power sensed via the low voltage network cable connection.

b. UL924 Listed Line-Voltage power sensing: These devices shall be listed as emergency relays under the UL924 standard and shall automatically close the load control relay and provide 100% light output upon detection of loss of power sensed via line voltage connection to normal power.

C. System Integration Capabilities

1. The system shall interface with third party building management systems (BMS) to support two-way communication using the industry standard BACnet/IP or BACnet MS/TP protocols. The following system integration capabilities shall be available via BACnet/IP and BACnet MS/TP protocols:

2. The system shall support control of individual devices, including, but not limited to, control of relay and dimming output.

3. The system shall support reading of individual device status information. The available status will depend on the individual device type and capabilities, which may include but not be limited to, relay state, dimming output, power measurement, occupancy sensor status, and photocell sensor states or readings. All system devices shall be available for polling for devices status.

4. The system shall support activation of pre-defined system Global Profiles (see Supported Sequence of Operations for further definition of Global Profile capabilities).

5. The system shall support activation of Profiles (local or global) and Preset Scenes from third party systems by receiving dry contact closure output signals

D. Supported Sequence of Operations

1. Characteristics and performance requirements herein shall be supported by the networked lighting control system.

2. Control Zones

a. Networked luminaires and intelligent lighting control devices installed in an area (also referred to as a group of devices) shall be capable of transmitting and tracking occupancy sensor, photocell sensor, and manual switch information within unique control zones to support different and reconfigurable sequences of operation within the area. These shall also be referred to as local control zones. Each room is considered a local control zone unless indicated otherwise.

b. Networked luminaires and intelligent lighting control devices located in different areas shall be able to transmit and track information within system-wide control zones to support required sequences of operation that may span across multiple areas. Occu- pancy and photocell commands shall be available across a single controller, and switch commands shall be available across single or multiple controllers. These shall also be referred to as global control zones.

3. Wall station Capabilities

a. Wall stations shall be provided to support the following capabilities: 1) On/Off of a local control zone and global control zone simultaneously, as re-

quired. 2) Continuous dimming control of light level of a local control zone and global

control zone simultaneously, as required.



b. Advanced wall stations will be installed in areas of assembly and areas with multiple zones and will support the following capabilities:

1) Preset Scenes that can activate a specific combination of light levels across multiple local and global channels, as required.

c. All wall stations what have 3-way / multi-way control: multiple wall stations shall be capable of controlling the same local and global control zones, so as to support “multi-way” switching and dimming control.

4. Occupancy Sensing Capabilities

a. Local and global control: Occupancy sensors shall be configurable to control a local and global zone simultaneously, as required.

b. Multi-sensor control: multiple occupancy sensors shall be capable of controlling the same local and global control zones. This capability combines occupancy sensing coverage from multiple sensors without consuming multiple control zones.

c. System shall support the following types of occupancy sensing sequence of operations:

1) On/Off Occupancy Sensing 2) Partial-On Occupancy Sensing 3) Partial-Off Occupancy Sensing 4) Vacancy Sensing

d. On/Off, Partial-On, and Partial-Off Occupancy Sensing modes shall function according to the following sequence of operation:

1) Occupancy sensors shall automatically turn lights on to a designated level when occupancy is detected. To support fine tuning of Partial-On sequences the designated occupied light level shall support at least 100 dimming levels.

2) Preprogrammed levels (Partial ON and Partial OFF levels) shall be able to be remotely programmed through the building network.

3) Occupancy sensors shall automatically turn lights off or to a dimmed state (Partial-Off) when vacancy occurs or if sufficient daylight is detected. To support fine tuning of Partial-Off sequences the designated unoccupied dim level shall support at least 100 dimming levels. To provide additional energy savings and an enhanced occupant experience, the system shall also be capable of dimming the lights when vacant and then turning the lights off com- pletely after an additional amount of time.

4) Photocell readings, shall be capable of automatically adjusting the light level during occupied or unoccupied conditions as necessary to further reduce energy usage.

5) At any time, the use of a wall station shall change the dimming level or turn lights off as selected by the occupant. The lights shall optionally remain in this manually-specified light level until the zone becomes vacant; upon vacancy the normal sequence of operation, as defined above, shall proceed.

e. Vacancy Sensing mode shall function according to the following sequence of opera-

tion: 1) Occupancy sensors shall automatically turn lights on to a designated level

when occupancy is detected. To support fine tuning of Partial-On sequences the designated occupied light level shall support at least 100 dimming levels.

2) The use of a wall station may turn lights on. The system shall be capable of programming the zone to turn on to either to a designated light level or the previous user light level. Initially occupying the space without using a wall station shall result in lights turning on.



3) Occupancy sensors shall automatically turn lights off or to a dimmed state (Partial-Off) when vacancy occurs or if sufficient daylight is detected. To support fine tuning of Partial-Off sequences the designated unoccupied dim level shall support at least 100 dimming levels. To provide additional energy savings and an enhanced occupant experience, the system shall also be capable of dimming the lights when vacant and then turning the lights off com- pletely after an additional amount of time.

4) To minimize occupant impact in case the area or zone is still physically occupied following dimming or shutoff of the lights due to detection of vacancy, the system shall support an “automatic grace period” immediately following detection of vacancy, during which time any detected occupancy shall result in the lights reverting to the previous level. After the grace period has expired, the use of a wall station is required to turn lights on.

5) Photocell readings, if enabled in the Occupancy Sensing control zone, shall be capable of automatically adjusting the light level during occupied or unoccupied conditions as necessary to further reduce energy usage. Additional requirements and details for photocell sensing capabilities are indicated under Photocell Sensing Capabilities.

6) At any time, the use of a wall station shall change the dimming level or turn lights off as selected by the occupant. The lights shall optionally remain in this manually-specified light level until the zone becomes vacant; upon vacancy the normal sequence of operation, as defined above, shall proceed.

f. To accommodate different types of environments, occupancy time delays before dimming or shutting off lights shall be specifiable for control zones between 15 sec- onds to 2 hours.

g. For all occupancy sensors in wings D1 (all three floors), E wing and F wing (all floors), provide a set of isolated, dry contact for use by the BMS system. Provide these in the corridor near the room effected.

5. Photocell Sensing Capabilities (Automatic Daylight Sensing) a. Photocell sensing devices shall be configurable to control a local and global zone

simultaneously, as required. b. The system shall support the following types of photocell-based control:

1) On/Off: The control zone is automatically turned off if the photocell reading exceeds the defined setpoint and automatically turned on if the photocell reading is below the defined setpoint. An adjustable time delay or adaptive setpoint behavior may be used to prevent the system from exhibiting nui- sance on/off switching, as well as a dead band to prevent on/off cycling.

2) Continuous Dimming: The control zone automatically adjusts its dimming output in response to photocell readings, such that a minimum light level consisting of both electric light and daylight sources is maintained at the task. The photocell response shall be configurable to adjust the photocell setpoint and dimming rates.

6. Schedule and Global Profile Capabilities a. The system shall be capable of automatically modifying the sequence of operation for

selected devices in response to any of the following: a time-of-day schedule, contact closure input state, manually triggered wall station input and BACnet input command. This capability is defined as supporting “Global Profiles” and is used to dynamically optimize the occupant experience and lighting energy usage.

b. Global profiles may be scheduled with the following capabilities: 1) Global Profiles shall be stored within and executed from the system controller

(via internal timeclock) such that a dedicated software host or server is not required to be online to support automatic scheduling and/or operation of Global Profiles.



2) Global Profile time of day schedules shall be capable of being given the following recurrence settings: daily, specific days of week, every “n” number of days, weekly, monthly, and yearly. Lighting control profile schedules shall support definition of start date, end date, end after “n” recurrences, or never ending. Daylight savings time adjustments shall be capable of being performed automatically, if desired.

3) Global Profile Holiday Schedules should follow recurrent settings for specific US holiday dates regardless if they always occur on a specific date or are determined by the day/week of the month.

4) Global Profiles shall be capable of being scheduled to run according to timed offsets relative to sunrise or sunset. Sunrise/sunset times shall be automatically derived from location information using an astronomical clock.

5) System shall support blink warning and timed extension capabilities. At the end of a scheduled period, the system shall be capable of providing a visible “blink warning” 5 minutes prior to the end of the schedule. Wall stations may be programmed to provide timed overrides that turn the lights on for an additional period of time. Timed override duration shall be programmable for each individual device, zone of devices, or customized group of devices, ranging from 5 minutes to 12 hours.

6) Software management interface shall be capable of displaying a graphic calendar view of profile schedules for each control zone.

7) Initial programming will schedule all egress routes (corridors, stairways) to be on (without occupancy control) for the hours of 6:00 AM until 10:00 pm Mon- day through Friday.

c. System Global Profiles shall have the following additional capabilities: 1) Global Profiles shall be capable of being manually activated directly from the

system controller, specially programmed input devices, scene capable wall stations, and the software management interface.

2) Global Profiles shall be selectable to apply to a single device, zone of devices, or customized group of devices.

3) Parameters that shall be configurable and assigned to a Global Profile shall include, but not be limited to, fixture light level, occupancy time delay, response to occupancy sensors (including enabling/disabling response), response to daylight sensors (including enabling/disabling response) and enabling/disabling of wall stations.

d. A backup of Local and Global Profiles shall be stored on the software’s host server such that the Profile backup can be applied to a replacement system controller or wall station.

7. System shall support automated demand response capabilities with automatic reduction of light level to at least three levels of demand response.

2.4 SYSTEM SOFTWARE INTERFACES

A. Management Interface

1. System shall provide a web-based management interface that provides remote system control, live status monitoring, and configuration capabilities of lighting control settings and schedules.

2. Management interface must be compatible with industry-standard web browser clients, including, but not limited to, Microsoft Internet Explorer®, Apple Safari®, Google Chrome®, Mozilla Firefox®.

3. Management interface shall require all users to login with a User Name and Password and shall support creation of at least 100 unique user accounts.



4. Management interface shall support at least three permission levels for users: read-only, read & change settings, and full administrative system access.

5. Management interface shall be capable of restricting access for user accounts to specific devices within the system.

6. All system devices shall be capable of being given user-defined names as directed by the owner.

7. The following device identification information shall be displayed in the Management interface: model number, model description, serial number, manufacturing date code, custom label(s), and parent network device.

8. Management interface shall be able to read the live status of a networked luminaire or intelligent control device and shall be capable of displaying luminaire on/off status, dim level, power measurement, device temperature, PIR occupancy sensor status, microphonic occupancy sensor status, remaining occupancy time delay, photocell reading, and active Scenes or Pro- files.

9. Management interface shall be able to read the current active settings of a networked luminaire or intelligent control device and shall be capable of displaying dimming trim levels, occupancy sensor and photocell enable/disable, occupancy sensor time delay and light level settings, occupancy sensor response (normal or vacancy), and photocell setpoints and transi- tion time delays.

10. Management interface shall be able to change the current active settings and default settings for an individual networked luminaire or intelligent control device.

11. Management interface shall be capable of applying settings changes for a zone of devices or a group of selected devices using a single “save” action that does not require the user to save settings changes for each individual device.

12. A printable and PDF format network inventory report shall be available via the management interface.

13. A printable and PDF format report detailing all system profiles shall be available via the management interface.

14. All sensitive information stored by the software shall be encrypted. 15. All system software updates must be available for automatic download and installation via the

internet.

B. Historical Database and Analytics Interface

1. System shall provide a historical database that stores device operational history and calcu- lates energy usage for all networked luminaires and intelligent control devices.

2. System shall be capable of reporting lighting system events and performance data back to the historical database for display and analysis.

3. Historical database shall be capable of recording historical data for up to 20,000 networked devices for a period of at least 1 calendar year.

4. Software shall calculate the allocation of energy savings to different control measures (occupancy sensors, photocells, manual switching, etc.).

5. Energy savings data shall be calculated for the system as a whole or for individual zones. 6. A time scaled graph showing all relay transitions shall be presented. 7. A time scaled graph showing a zones occupancy time delay shall be presented 8. A time scaled graph showing the total light level shall be presented. 9. User shall be able to customize the baseline run-time hours for a space. 10. User shall be able to customize up to four time-of-day billing rates and schedules. 11. Historical data shall be exportable from the Historical Database via a “CSV” (or similar) type

of file format.

C. Visualization and Programming Interfaces



1. System shall provide a web-based visualization interface that displays graphical floorplan. 2. Graphical floorplan shall offer the following types of system visualization:

a. Full Device - A master graphic of the entire building, by floor, showing each control device installed in the project with zones outlined. This shall include, but not be limited to, the following:

1) Controls embedded light fixtures 2) Controls devices not embedded in light fixtures 3) Daylight Sensors 4) Occupancy Sensors 5) Wall Switches and Dimmers 6) Scene Controllers 7) Networked Relays 8) Bridges 9) System Controllers 10) Panels 11) Zone outlines

b. Allow for pan and zoom commands so smaller areas can be displayed on a larger scale simply by panning and zooming each floor’s master graphic.

c. A mouse click on any control device shall display the following information (as applicable):

1) The device catalog number. 2) The device name and custom label. 3) Device diagnostic information. 4) Information about the device status or current configuration is available with

an additional mouse click.

D. Personal Control Applications

1. Software interface shall support personal control software applications that provide user- specific control of individual luminaires/control devices, control zones, global scene presets, and scene selector virtual button presses.

2. The system administrator shall be capable of defining personal control permissions for each user account.

3. Software interface shall provide a Microsoft Windows® operating system taskbar application for personal lighting control.

2.5 SYSTEM BACKBONE AND SYSTEM INTEGRATION EQUIPMENT

A. GATEWAY/CONTROLLER: The controller/gateways link the distributed data buses with an

Ethernet network to provide computer configuration, control, analysis, and maintenance. The controller/gateways operate independently and continue to process local inputs and schedules when disconnected from the LAN. The controller/gateways shall provide local intelligence and features including the following:

1. System Controller shall perform the following functions: a. Time-based control of downstream wired network devices. b. Facilitation of global network switch communication between different system control-

lers. c. Linking into an Ethernet network. d. Integration with Building Management Systems (BMS) and Heating, Ventilation and

Air Conditioning (HVAC) equipment. e. Connection to various software interfaces, including management interface, historical

database and analytics interface, visualization interface, and personal control applications.



2. Device shall have an integral web server to support configuration, diagnostics and hosting of software interfaces.

3. Device shall have a graphical touch screen to support configuration and diagnostics. 4. Device shall have three RJ-45 networked lighting control ports for connection to any of the

following: a. The graphical touch screen b. Wired communication bridges c. Direct connection to networked wired luminaires and intelligent lighting control devices

(up to 128 total devices per port) 5. Device shall automatically detect all networked devices connected to it, including those con-

nected to communication bridges. 6. Device shall have a standard and astronomical internal time clock. 7. Device shall have 2 switched RJ-45 10/100 BaseT Ethernet ports for local area network

(LAN) connection. a. Ethernet connection shall support IPv4 and shall be capable of using a dedicated stat-

ic or DHCP assigned IP address. 8. Each System Controller shall be capable of managing and operating at least 750 networked

devices. a. Multiple System Controllers may be networked together via LAN connection to scale

the system up to 20,000 networked devices. 9. System controller shall be available within a NEMA 1 enclosure with Class 1 and Class 2

separation a. Enclosure shall support power input power of 120-277VAC.

2.6 WIRED NETWORKED DEVICES

A. Wired Networked Wall Switches, Dimmers, Scene Controllers

1. Devices shall recess into single-gang switch box and fit a standard GFI opening. 2. Communication and low voltage power shall be delivered to each device via Power Over

Ethernet (POE). 3. All switches shall have the ability to detect when it is not receiving valid communication and

blink its LED in a pattern to visually indicate a potential wiring issue. 4. Devices with mechanical push-buttons shall provide tactile and LED user feedback. 5. Devices with mechanical push-buttons shall be made available with custom button labeling.

6. Wall switches & dimmers shall support the following device options: a. Number of control zones: 1, 2 or 4 b. Control Types Supported:

1) On/Off 2) On/Off/Dimming 3) On/Off/Dimming/Correlated Color Temperature Control for specific luminaire

types c. Colors: Ivory.

7. Scene controllers shall support the following device options: a. Number of scenes: 1, 2 or 4 b. Control Types Supported:

1) On/Off 2) On/Off/Dimming 3) Preset Level Scene Type 4) On/Off/Dimming/Preset Level for Correlated Color Temperature 5) Reprogramming of other devices within zone so as to implement user select-

ed lighting scene. This shall support manual start/stop from the scene con-



troller, or optionally programmed to automatically end after a user selectable duration between 5 minutes and 12 hours.

6) Selecting a lighting profile to be run by the system’s upstream controller so as to implement a selected lighting profile across multiple zones. This shall support manual start/stop from the scene controller, or optionally programmed to automatically end after a user selectable duration between 5 minutes and 12 hours.

c. Colors: Ivory

B. Wired Networked Auxiliary Input / Output (I/O) Devices 1. Devices shall be plenum rated and be inline wired, screw mountable. 2. Communication and low voltage power shall be delivered to each device via standard low

voltage network cabling with RJ-45 connectors. 3. Auxiliary Input/Output Devices shall be specified as an input or output device with the follow-

ing options: a. Contact closure or Pull High input

1) Input shall be programmable to support maintained or momentary inputs that can activate local or global scenes and profiles, activate lights at a preconfig- ured level, ramp light level up or down, or toggle lights on/off.

b. 0-10V analog input 1) Input shall be programmable to function as a daylight sensor.

c. RS-232/RS-485 digital input

1) Input supports activation of up to 4 local or global scenes and profiles, and on/off/dimming control of up to 16 local control zones.

d. 0-10V dimming control output, capable of sinking up to 20mA of current 1) Output shall be programmable to support all standard sequence of opera-

tions supported by system.

C. Wired Networked Occupancy and Photosensors 1. Occupancy sensors shall sense the presence of human activity within the desired space and

fully control the on/off function of the lights. 2. Sensors shall utilize passive infrared (PIR) technology, which detects occupant motion, to ini-

tially turn lights on from an off state, thus preventing false on conditions. Ultrasonic or Micro- wave based sensing technologies shall not be accepted.

3. For applications where a second method of sensing is necessary to adequately detect maintained occupancy (such as in rooms with obstructions), a sensor with an additional “dual” technology shall be used.

4. Dual technology sensors shall have one of its two technologies not require motion to detect occupancy. Acceptable dual technology includes PIR/Microphonics (also known as Passive Dual Technology or PDT) which both looks for occupant motion and listens for sounds indicating occupants. Sensors where both technologies detect motion (PIR/Ultrasonic) shall not be acceptable. All sensors will be Dual Technology unless indicated otherwise indicated on the contract drawings.

5. All sensing technologies shall be acoustically passive, meaning they do not transmit sounds waves of any frequency (for example in the Ultrasonic range), as these technologies have the potential for interference with other electronic devices within the space (such as electronic white board readers). Acceptable detection technologies include Passive Infrared (PIR), and/or Microphonics technology. Ultrasonic or Microwave based sensing technologies shall not be accepted.

6. System shall have ceiling, fixture, recessed & corner mounted sensors available, with multiple lens options available customized for specific applications.

7. Communication and low voltage power shall be delivered to each device via standard low voltage network cabling with RJ-45 connectors.



8. All sensors shall have the ability to detect when it is not receiving valid communication and blink its LED in a pattern to visually indicate a potential wiring issue.

9. Sensor programming parameter shall be available and configurable remotely from the software and locally via the device push-button.

10. Ceiling mount occupancy sensors shall be available with zero or one integrated dry contact switching relays, capable of switching 1 amp at 24 VAC/VDC (resistive only).

11. Sensors shall be available with one or two occupancy “poles”, each of which provides a programmable time delay.

12. Sensors shall have optional features for photosensor/daylight override, automatic dimming control, and low temperature/high humidity operation.

13. Photosensor shall provide for an on/off set-point, and a dead band to prevent the artificial light from cycling. Delay shall be incorporated into the photocell to prevent rapid response to passing clouds.

14. Photosensor and dimming sensor’s set-point and dead band shall be automatically calibrated through the sensor’s microprocessor by initiating an “Automatic Set-point Programming” pro- cedure. Min and max dim settings as well as set-point may be manually entered.

15. Dead band setting shall be verified and modified by the sensor automatically every time the lights cycle to accommodate physical changes in the space (i.e., furniture layouts, lamp de- preciation, or lamp outages).

16. A dual zone option shall be available for On/Off Photocell, Automatic Dimming Control Pho- tocell, or Combination units. The secondary daylight zone shall be capable of being controlled as an “offset” from the primary zone.

D. Wired Networked Wall Switch Sensors 1. Devices shall recess into single-gang switch box and fit a standard GFI receptacle opening. 2. Communication and low voltage power shall be delivered to each device via standard low

voltage network cabling with RJ-45 connectors. 3. All wall switch sensors shall have the ability to detect when it is not receiving valid communi-

cation and blink its LED in a pattern to visually indicate a potential wiring issue. 4. Devices with mechanical push-buttons shall provide tactile user feedback. 5. Wall switches sensors shall support the following device options:

User Input Control Types Supported: On/Off or On/Off/Dimming a. Occupancy Sensing Technology: PIR only or Dual Tech acoustic b. Daylight Sensing Option: Inhibit Photosensor c. Colors: Ivory

E. Wired Networked Embedded Sensors

1. Network system shall have embedded sensors consisting of occupancy sensors and/or dimming photocells that can be embedded into luminaire such that only the lens shows on luminaire face.

2. Occupancy sensor detection pattern shall be suitable for 7.5’ to 20’ mounting heights. 3. Embedded sensors shall support the following device options:

a. Occupancy Sensing technology: Dual Tech acoustic unless indicated otherwise b. Daylight Sensing Option: Occupancy only, Daylight only, or combination Occupan-

cy/Daylight sensor as appropriate for the layout. Selection of appropriate to be made by the supplier but must be approved by the engineer.

F. Wired Networked Power Packs and Secondary Packs

1. Power Packs shall be required to interface with the controllers. 2. Power Packs for areas and devices shall incorporate one optional Class 1 relay, optional 0-

10 VDC dimming output, and contribute low voltage Class 2 power to the rest of the system.



3. Power Packs shall accept 120 or 277 VAC and be plenum rating. 4. Secondary Packs shall incorporate the relay and 0-10 VDC dimming output but shall not be

required to contribute system power. 5. Power Supplies shall provide system power only and are not required to switch line voltage

circuit. 6. Auxiliary Relay Packs shall switch low voltage circuits only, capable of switching 1 amp at 40

VAC/VDC (resistive only) minimum. 7. Communication shall be delivered to each device via standard low voltage network cabling.

Secondary packs shall receive low voltage power via standard low voltage network cable. 8. Power Pack programming parameters shall be available and configurable remotely from the

software and locally via the device push-button. 9. Power Pack shall securely mount to a junction box. Plastic clips into junction box shall not be

accepted. All Class 1 wiring shall pass through chase nipple into adjacent junction box without any exposure of wire leads.

10. Power/Secondary Packs shall be available with the following options: a. Power Pack capable of full 16-Amp switching of all normal power lighting load types,

with optional 0-10V dimming output capable of up to 100mA of sink current. b. Secondary Pack with UL924 listing for switching of full 16-Amp Emergency Power cir-

cuits, with optional 0-10V dimming output capable of up to 100mA of sink current. c. Power and Secondary Packs capable of full 20-Amp switching of general purpose re-

ceptacle (plug-load) control. d. Secondary Pack capable of louver/damper motor control. e. Secondary Pack capable of providing a pulse on/pulse off signal for purposes of con-

trolling shade systems via relay inputs. f. Secondary Pack capable of switching 1 amp at 40 VAC/VDC (resistive only) with the

intent to provide relay signal to auxiliary system (e.g. BMS). g. Power Supply capable of providing auxiliary bus power (no switched or dimmed load).

K. Wired Networked Communication Bridge 1. Device shall surface mount to a standard 4” x 4” square junction box. 2. Device shall have 8 RJ-45 ports for connection to lighting control zones (up to 127 devices

per port), additional network bridges, and System Controller. 3. Device shall be capable of aggregating communication from multiple lighting control zones for

purposes of minimizing backbone wiring requirements back to System Controller. 4. Device shall be powered with Class 2 low voltage supplied locally via low voltage network

connections from powered lighting control devices (e.g. power packs). 5. Wired Bridge shall be capable of redistributing power from its local supply and connected

lighting control zones with excess power to lighting control zones with insufficient local power. This architecture also enables loss of power to a particular area to be less impactful on network lighting control system.

PART 3 - EXECUTION

3.1 WIRING INSTALLATION

A. Comply with NECA 1.

B. Wiring Method: Install cables in raceways and cable trays except within consoles, cabinets,

desks, and counters. Conceal raceway and cables except in unfinished spaces. 1. Install plenum cable in environmental airspaces, including plenum ceilings.



2. Comply with requirements for cable trays specified in Section 260536 Cable Trays for Electrical Systems.

3. Comply with requirements for raceways and boxes specified in Section 260533 Raceways and Boxes for Electrical Systems.

C. Wiring Method: Conceal conductors and cables in accessible ceilings, walls, and floors where

possible.

D. Wiring within Enclosures: Bundle, lace, and train conductors to terminal points with no excess

and without exceeding manufacturer's limitations on bending radii. Install lacing bars and distribution spools.

3.2 IDENTIFICATION

A. Identify system components, wiring, cabling, boxes, cabinets, and terminals. Comply with

identification requirements specified in Section 260553 Identification for Electrical Systems.

B. Identify field-installed conductors, interconnecting wiring, and components; install warning signs

complying with Section 260553 Identification for Electrical Systems.

C. Identify all ceiling-mounted controls with data bus number and device address.

D. Label each device cable within 6 inches (152 mm) of connection to bus power supply or

termination block.

3.3 FIELD QUALITY CONTROL

A. Acceptance Testing Preparation:

1. Test continuity of each circuit.

B. Perform the following tests and inspections with the assistance of a factory-authorized service

representative]: 1. Test each bus controller using local and remote controls. 2. Perform each visual and mechanical inspection and electrical test stated in NETA ATS.

Certify compliance with test parameters. 3. Correct malfunctioning units on-site, where possible, and retest to demonstrate

compliance; otherwise, replace with new units and retest.

C. Field Test Reports:

1. Printed list of all points created from actual queries of all addressed control points to include lamps, ballasts, manual controls, and sensors.

2. Event log verifying the performance of all devices generating event messages to include occupancy sensors, control buttons, alarm messages, and any other change of value messages.

D. Lighting controls will be considered defective if they do not pass tests and inspections.

E. Prepare test and inspection reports, including a certified report that identifies bus controllers

included and describes query results. Include notation of deficiencies detected, remedial action taken, and observations made after remedial action.



3.4 INITIAL PROGRAMMING

A. For all rooms with occupancy sensors and manual switches, set up initial operation in Vacancy

Sensor mode. Set time delays to be 30 minutes.

B. For all corridors and stair wells, set up to be constant on during the hours of 6 AM to 10 PM

Monday through Friday.

C. Set up photocell/daylight harvesting operation to dim lights no greater than 10%.

D. When receiving signal from Fire Alarm Control Panel which indicates Fire Alarm, all corridor,

stairwell and exit egress path lights will be turned on for a period of at least 30 minutes.

E. When receiving signal from Intrusion Alarm system, all corridor, stairwell and exit egress path

lights will be turned on for a period of at least 30 minutes.

E.F. All lighting to be set to initialize, after power loss, to ON condition and then resume normal

operation as above.

F.G. Set up computer software on computer indicated at time of installation. Access to software must be from any approved remote computer on the building network.

3.5 STARTUP SERVICE

A. Engage a factory-authorized service representative to perform startup service.

1. Complete installation and startup checks according to manufacturer's written instructions. 2. Activate luminaires and verify that all lamps are operating at 100 percent. 3. Confirm correct communications wiring, initiate communications between DALI devices

and controller/gateways, and program the lighting control system according to approved configuration schedules, time-of-day schedules, and input override assignments.

3.6 ADJUSTING

A. Occupancy Adjustments: When requested within 12 months from date of Substantial

Completion, provide on-site assistance in adjusting system to suit actual occupied conditions. Provide up to 2 visits to Project during other-than-normal occupancy hours for this purpose.

3.7 SOFTWARE SERVICE AGREEMENT

A. Technical Support: Beginning at Substantial Completion, service agreement shall include

software support for 2 years.

B. Upgrade Service: At Substantial Completion, update software to latest version. Install and

program software upgrades that become available within two years from date of Substantial Completion. Upgrading software shall include operating system and new or revised licenses for using software. 1. Upgrade Notice: At least 30 days to allow Owner to schedule and access the system and

to upgrade computer equipment if necessary.



3.8 DEMONSTRATION

A. Engage a factory-authorized service representative to train Owner's maintenance personnel to

adjust, operate, and maintain the control unit and operator interface.

END OF SECTION 260943


LED EXTERIOR LIGHTING 265619 - 1

SECTION 265619 – LED EXTERIOR LIGHTING

PART 1 - GENERAL

1.1 RELATED DOCUMENTS

A. Drawings and general provisions of the Contract, including General and Supplementary Conditions and Division 01 Specification Sections, apply to this Section.

1.2 SUMMARY

A. Section Includes:

1. Exterior solid-state luminaires that are designed for and exclusively use LED lamp technology.

2. Luminaire supports. 3. Luminaire-mounted photoelectric relays.

B. CCT: Correlated color temperature.

C. CRI: Color rendering index.

D. Fixture: See "Luminaire."

E. IP: International Protection or Ingress Protection Rating.

F. Lumen: Measured output of lamp and luminaire, or both.

G. Luminaire: Complete lighting unit, including lamp, reflector, and housing.

1.3 ACTION SUBMITTALS

A. Product Data: For each type of luminaire.

1. Arrange in order of luminaire designation. 2. Include data on features, accessories, and finishes. 3. Include physical description and dimensions of luminaire. 4. Lamps, include life, output (lumens, CCT, and CRI), and energy-efficiency data. 5. Photometric data and adjustment factors based on laboratory tests, complying with IES

Lighting Measurements Testing and Calculation Guides, of each luminaire type. The adjustment factors shall be for lamps and accessories identical to those indicated for the luminaire as applied in this Project.

a. Manufacturer's Certified Data: Photometric data certified by manufacturer's laboratory with a current accreditation under the NVLAP for Energy Efficient Lighting Products.

b. Testing Agency Certified Data: For indicated luminaires, photometric data certified by a qualified independent testing agency. Photometric data for remaining luminaires shall be certified by manufacturer.

6. Wiring diagrams for power, control, and signal wiring. 7. Photoelectric relays. 8. Means of attaching luminaires to supports and indication that the attachment is suitable

for components involved.

B. Shop Drawings: For nonstandard or custom luminaires.

1. Include plans, elevations, sections, and mounting and attachment details.



2. Include details of luminaire assemblies. Indicate dimensions, weights, loads, required clearances, method of field assembly, components, and location and size of each field connection.

3. Include diagrams for power, signal, and control wiring.

C. Samples: For each luminaire and for each color and texture indicated with factory-applied finish.

D. Product Schedule: For luminaires and lamps. Use same designations indicated on Drawings.

E. Delegated-Design Submittal: For luminaire supports.

1. Include design calculations for luminaire supports and seismic restraints.

1.4 INFORMATIONAL SUBMITTALS

A. Coordination Drawings: Plans, drawn to scale, on which the following items are shown and coordinated with each other, using input from installers of the items involved:

1. Luminaires. 2. Structural members to which equipment and luminaires will be attached. 3. Underground utilities and structures. 4. Existing underground utilities and structures. 5. Above-grade utilities and structures. 6. Existing above-grade utilities and structures. 7. Building features. 8. Vertical and horizontal information.

B. Qualification Data: For testing laboratory providing photometric data for luminaires.

C. Seismic Qualification Data: For luminaires, accessories, and components, from manufacturer.

1. Basis for Certification: Indicate whether withstand certification is based on actual test of assembled components or on calculation.

2. Dimensioned Outline Drawings of Equipment Unit: Identify center of gravity and locate and describe mounting and anchorage provisions.

3. Detailed description of equipment anchorage devices on which the certification is based and their installation requirements.

D. Product Certificates: For each type of the following:

1. Luminaire. 2. Photoelectric relay.

E. Product Test Reports: For each luminaire, for tests performed by manufacturer and witnessed by a qualified testing agency.

F. Source quality-control reports.

G. Sample warranty.

1.5 CLOSEOUT SUBMITTALS

A. Operation and Maintenance Data: For luminaires and photoelectric relays to include in operation and maintenance manuals.

1. Provide a list of all lamp types used on Project. Use ANSI and manufacturers' codes. 2. Provide a list of all photoelectric relay types used on Project; use manufacturers' codes.



1.6 MAINTENANCE MATERIAL SUBMITTALS

A. Furnish extra materials that match products installed and that are packaged with protective covering for storage and identified with labels describing contents.

1. Lamps: Ten for every 100 of each type and rating installed. Furnish at least one of each type.

2. Glass, Acrylic, and Plastic Lenses, Covers, and Other Optical Parts: One for every 100 of each type and rating installed. Furnish at least one of each type.

3. Diffusers and Lenses: One for every 100of each type and rating installed. Furnish at least one of each type.

4. Globes and Guards: One for every 20of each type and rating installed. Furnish at least one of each type.

1.7 QUALITY ASSURANCE

A. Luminaire Photometric Data Testing Laboratory Qualifications: Luminaire manufacturers' laboratory that is accredited under the NVLAP for Energy Efficient Lighting Products.

B. Luminaire Photometric Data Testing Laboratory Qualifications: Provided by an independent agency, with the experience and capability to conduct the testing indicated, that is an NRTL as defined by OSHA in 29 CFR 1910.7, accredited under the NVLAP for Energy Efficient Lighting Products and complying with applicable IES testing standards.

C. Provide luminaires from a single manufacturer for each luminaire type.

D. Each luminaire type shall be binned within a three-step MacAdam Ellipse to ensure color consistency among luminaires.

E. Installer Qualifications: An authorized representative who is trained and approved by manufacturer.

F. Mockups: For exterior luminaires, complete with power and control connections.

1. Obtain Architect's approval of luminaires in mockups before starting installations. 2. Maintain mockups during construction in an undisturbed condition as a standard for

judging the completed work. 3. Approval of mockups does not constitute approval of deviations from the Contract

Documents contained in mockups unless Architect specifically approves such deviations in writing.

4. Subject to compliance with requirements, approved mockups may become part of the completed Work if undisturbed at time of Substantial Completion.

1.8 DELIVERY, STORAGE, AND HANDLING

A. Protect finishes of exposed surfaces by applying a strippable, temporary protective covering prior to shipping.

1.9 FIELD CONDITIONS

A. Verify existing and proposed utility structures prior to the start of work associated with luminaire installation.

B. Mark locations of exterior luminaires for approval by Architect prior to the start of luminaire installation.

1.10 WARRANTY

A. Warranty: Manufacturer and Installer agree to repair or replace components of luminaires that fail in materials or workmanship within specified warranty period.



1. Failures include, but are not limited to, the following:

a. Structural failures, including luminaire support components. b. Faulty operation of luminaires and accessories. c. Deterioration of metals, metal finishes, and other materials beyond normal

weathering.

2. Warranty Period: 2 year(s) from date of Substantial Completion.

PART 2 - PRODUCTS

2.1 PERFORMANCE REQUIREMENTS

A. Seismic Performance: Luminaires shall withstand the effects of earthquake motions determined according to ASCE/SEI 7.

B. Seismic Performance: Luminaires and lamps shall be labeled vibration and shock resistant.

1. The term "withstand" means "the luminaire will remain in place without separation of any parts when subjected to the seismic forces specified and the luminaire will be fully operational during and after the seismic event."

2.2 LUMINAIRE REQUIREMENTS

A. Electrical Components, Devices, and Accessories: Listed and labeled as defined in NFPA 70, by a qualified testing agency, and marked for intended location and application.

B. NRTL Compliance: Luminaires shall be listed and labeled for indicated class and division of hazard by an NRTL.

C. FM Global Compliance: Luminaires for hazardous locations shall be listed and labeled for indicated class and division of hazard by FM Global.

D. UL Compliance: Comply with UL 1598 and listed for wet location.

E. Lamp base complying with ANSI C81.61.

F. Bulb shape complying with ANSI C79.1.

G. CRI of minimum 70. CCT of 3000K to 5000K.

H. L93 lamp life of 100,000 hours.

I. Lamps dimmable from 100 percent to 0 percent of maximum light output.

J. Internal driver.

K. Nominal Operating Voltage: 277 V ac.

L. In-line Fusing: On the primary for each luminaire.

M. Lamp Rating: Lamp marked for outdoor use.

N. Source Limitations: Obtain luminaires from single source from a single manufacturer.

O. Source Limitations: For luminaires, obtain each color, grade, finish, type, and variety of luminaire from single source with resources to provide products of consistent quality in appearance and physical properties.

2.3 BASIS OF DESIGN

A. Provide luminaires indicated as Basis of Design for each luminaire type.



B. If substitution product and/or Manufacturer is proposed, submittal needs to clearly indicate that luminaire is a substitution and must clearly show compliance with being equivalent with Basis of Design product. If exceptions are taken based on nonequivalence than all exceptions must be identified in product submittal.

2.4 LUMINAIRE TYPES

A. Building/Wall Mount: Type “W”

1. Manufacturers: Lithonia Lighting, Holophane, Hubbell, Gotham 2. Luminaire Shape: Square 3. Mounting: Building/wall mounted. 4. Luminaire-Mounting Height: 7’0” 5. Distribution: Type III Medium. 6. Diffusers and Globes: UV stabilized polycarbonate front housing, fully gasketed refractor,

protective glass lens, acrylic lens. 7. Housings and Options:

a. Die-cast aluminum rear housing and heat sink. b. Textured black finish. c. Vandal Resistant d. Battery Backup

2.5 MATERIALS

A. Metal Parts: Free of burrs and sharp corners and edges.

B. Doors, Frames, and Other Internal Access: Smooth operating, free of light leakage under operating conditions, and designed to permit re-lamping without use of tools. Designed to prevent doors, frames, lenses, diffusers, and other components from falling accidentally during re-lamping and when secured in operating position. Doors shall be removable for cleaning or replacing lenses.

C. Diffusers and Globes:

1. Acrylic Diffusers: 100 percent virgin acrylic plastic, with high resistance to yellowing and other changes due to aging, exposure to heat, and UV radiation.

2. Glass: Annealed crystal glass unless otherwise indicated. 3. Lens Thickness: At least 0.125 inch (3.175 mm) minimum unless otherwise indicated.

D. Lens and Refractor Gaskets: Use heat- and aging-resistant resilient gaskets to seal and cushion lenses and refractors in luminaire doors.

E. Reflecting surfaces shall have minimum reflectance as follows unless otherwise indicated:

1. White Surfaces: 85 percent. 2. Specular Surfaces: 83 percent. 3. Diffusing Specular Surfaces: 75 percent.

F. Housings:

1. Rigidly formed, weather- and light-tight enclosure that will not warp, sag, or deform in use.

2. Provide filter/breather for enclosed luminaires.

G. Factory-Applied Labels: Comply with UL 1598. Include recommended lamps. Labels shall be located where they will be readily visible to service personnel, but not seen from normal viewing angles when lamps are in place.



1. Label shall include the following lamp characteristics:

a. "USE ONLY" and include specific lamp type. b. Lamp diameter, shape, size, wattage and coating. c. CCT and CRI for all luminaires.

2.6 FINISHES

A. Variations in Finishes: Noticeable variations in same piece are unacceptable. Variations in appearance of adjoining components are acceptable if they are within the range of approved Samples and are assembled or installed to minimize contrast.

B. Luminaire Finish: Manufacturer's standard paint applied to factory-assembled and -tested luminaire before shipping. Where indicated, match finish process and color of pole or support materials.

C. Factory-Applied Finish for Aluminum Luminaires: Comply with NAAMM's "Metal Finishes Manual for Architectural and Metal Products" for recommendations for applying and designating finishes.

1. Finish designations prefixed by AA comply with the system established by the Aluminum Association for designating aluminum finishes.

2. Natural Satin Finish: Provide fine, directional, medium satin polish (AA-M32); buff complying with AA-M20 requirements; and seal aluminum surfaces with clear, hard-coat wax.

3. Class I, Clear-Anodic Finish: AA-M32C22A41 (Mechanical Finish: Medium satin; Chemical Finish: Etched, medium matte; Anodic Coating: Architectural Class I, clear coating 0.018 mm or thicker) complying with AAMA 611.

4. Class I, Color-Anodic Finish: AA-M32C22A42/A44 (Mechanical Finish: Medium satin; Chemical Finish: Etched, medium matte; Anodic Coating: Architectural Class I, integrally colored or electrolytically deposited color coating 0.018 mm or thicker), complying with AAMA 611.

a. Color: Black.

D. Factory-Applied Finish for Steel Luminaires: Comply with NAAMM's "Metal Finishes Manual for Architectural and Metal Products" for recommendations for applying and designating finishes.

1. Surface Preparation: Clean surfaces to comply with SSPC-SP 1, to remove dirt, oil, grease, and other contaminants that could impair paint bond. Grind welds and polish surfaces to a smooth, even finish. Remove mill scale and rust, if present, from uncoated steel, complying with SSPC-SP 5/NACE No. 1 or SSPC-SP 8.

2. Exterior Surfaces: Manufacturer's standard finish consisting of one or more coats of primer and two finish coats of high-gloss, high-build polyurethane enamel.

a. Color: As selected from manufacturer's standard catalog of colors. b. Color: Match Architect's sample of manufacturer's standard color. c. Color: As selected by Architect from manufacturer's full range.

2.7 LUMINAIRE SUPPORT COMPONENTS

A. Comply with requirements in "Hangers and Supports for Electrical Systems" for channel and angle iron supports and nonmetallic channel and angle supports.



PART 3 - EXECUTION

3.1 EXAMINATION

A. Examine substrates, areas, and conditions, with Installer present, for compliance with requirements for installation tolerances and other conditions affecting performance of the Work.

B. Examine roughing-in for luminaire electrical conduit to verify actual locations of conduit connections before luminaire installation.

C. Examine walls, roofs, and canopy ceilings and overhang ceilings for suitable conditions where luminaires will be installed.

D. Proceed with installation only after unsatisfactory conditions have been corrected.

3.2 TEMPORARY LIGHTING

A. If approved by the Architect, use selected permanent luminaires for temporary lighting. When construction is substantially complete, clean luminaires used for temporary lighting and install new lamps.

3.3 GENERAL INSTALLATION REQUIREMENTS

A. Comply with NECA 1.

B. Use fastening methods and materials selected to resist seismic forces defined for the application and approved by manufacturer.

C. Install lamps in each luminaire.

D. Fasten luminaire to structural support.

E. Supports:

1. Sized and rated for luminaire weight. 2. Able to maintain luminaire position after cleaning and re-lamping. 3. Support luminaires without causing deflection of finished surface. 4. Luminaire-mounting devices shall be capable of supporting a horizontal force of 100

percent of luminaire weight and a vertical force of 400 percent of luminaire weight.

F. Wall-Mounted Luminaire Support:

1. Attached to structural members in walls.

G. Wiring Method: Install cables in raceways. Conceal raceways and cables.

H. Install luminaires level, plumb, and square with finished grade unless otherwise indicated. Install luminaires at height and aiming angle as indicated on Drawings.

I. Coordinate layout and installation of luminaires with other construction.

J. Adjust luminaires that require field adjustment or aiming. Include adjustment of photoelectric device to prevent false operation of relay by artificial light sources, favoring a north orientation.

K. Comply with requirements in Section 260519 "Low-Voltage Electrical Power Conductors and Cables" and Section 260533 "Raceways and Boxes for Electrical Systems" for wiring connections and wiring methods.

3.4 CORROSION PREVENTION

A. Aluminum: Do not use in contact with earth or concrete. When in direct contact with a dissimilar metal, protect aluminum by insulating fittings or treatment.



B. Steel Conduits: Comply with Section 260533 "Raceways and Boxes for Electrical Systems." In concrete foundations, wrap conduit with 0.010-inch- (0.254-mm-) thick, pipe-wrapping plastic tape applied with a 50 percent overlap.

3.5 IDENTIFICATION

A. Identify system components, wiring, cabling, and terminals. Comply with requirements for identification specified in Section 260553 "Identification for Electrical Systems."

3.6 FIELD QUALITY CONTROL

A. Inspect each installed luminaire for damage. Replace damaged luminaires and components.

B. Perform the following tests and inspections with the assistance of a factory-authorized service representative:

1. Operational Test: After installing luminaires, switches, and accessories, and after electrical circuitry has been energized, test units to confirm proper operation.

2. Verify operation of photoelectric controls.

C. Illumination Tests:

1. Measure light intensities at night. Use photometers with calibration referenced to NIST standards. Comply with the following IES testing guide(s):

a. IES LM-5. b. IES LM-50. c. IES LM-52. d. IES LM-64. e. IES LM-72.

2. Operational Test: After installing luminaires, switches, and accessories, and after electrical circuitry has been energized, test units to confirm proper operation.

D. Luminaire will be considered defective if it does not pass tests and inspections.

E. Prepare a written report of tests, inspections, observations, and verifications indicating and interpreting results. If adjustments are made to lighting system, retest to demonstrate compliance with standards.

3.7 DEMONSTRATION

A. Train Owner's maintenance personnel to adjust, operate, and maintain luminaires and photocell relays.

3.8 ADJUSTING

A. Occupancy Adjustments: When requested within 12 months of date of Substantial Completion, provide on-site assistance in adjusting the direction of aim of luminaires to suit occupied conditions. Make up to two visits to Project during other-than-normal hours for this purpose. Some of this work may be required during hours of darkness.

1. During adjustment visits, inspect all luminaires. Replace lamps or luminaires that are defective.

2. Parts and supplies shall be manufacturer's authorized replacement parts and supplies. 3. Adjust the aim of luminaires in the presence of the Architect.

END OF SECTION 265619

Cannon Design2170 Whitehaven RoadGrand Island, New York 14072-2025Phone: (716) 773-6800Fax: (716) 774-3460

Project: 004827.00 - Rochester CSD-East School Modernization1801 East Main Street

Rochester, New York 14618

Subject: JW Danforth-Alternates #1 & #2TO: Bruce Wanlass (Popoli Design Group)

Tyler Whitesell (Popoli Design Group)Mark Bollin (The Pike Company, Inc)

FROM: Judy Richards (Cannon Design)2170 Whitehaven RoadBuffalo, New York 14072

DATE INITIATED: 07/30/ 2018 STATUS: Closed

LOCATION: DUE DATE: 08/06/2018

COST CODE: REFERENCE:

COST IMPACT: SCHEDULE IMPACT:

DRAWING NUMBER: SPEC SECTION:

LINKED DRAWINGS:

RECEIVED FROM: Judy Richards (Cannon Design)

COPIES TO:

Question from Judy Richards (Cannon Design) at 01:38 PM on 07/30/2018Please clarify the extent of alternates #1 & #2 Cooling for Locker Rooms and Gym respectively. Is all piping, cooling coils and chillers part of thealternate #1 & #2? The air handling units SC-6, 7 & 8are listed as part of alternate #2. Are The cooling coils just part of Alt #2, or are the whole airhandling units included in this alternate? If so does that make the Steam piping and steam coils part of this alternate? w

Official Response: Tyler Whitesell (Popoli Design Group) responded on Monday, August 6th, 2018 at 2:19PM EDTThe extent of alternates #1 and #2 are to provide cooling for the locker rooms and gyms respectfully. This includes all pipes, chillers, pumps, coolingcoils and other accessories that are part of the cooling system. For SC-6,7 &8, the whole units are part of alternate 2 along with the steam piping andsteam coils.Attachments:

BY DATE COPIES TO

Cannon Design Page 1 of 1 Printed On: 08/06/2018 02:34 PM

Request For Information #PB-0023




Subject: Concord ElectricTO: Richard Garrett (Popoli Design Group)

Don Brown (Cannon Design)







LINKED DRAWINGS:


COPIES TO:

Question from Judy Richards (Cannon Design) at 07:14 AM on 08/06/2018On E0503 what is the 400A feed coming out of panel SB3 & ESB# labelled as N/C? Also, where were panels PP1a and PP2a located? It shows us connecting the circuits that used to feed them to a new panel, but these panels are notshown on the drawings?

Official Response: Richard Garrett (Popoli Design Group) responded on Monday, August 6th, 2018 at 10:40AM EDTFor 400A feed - N/C is No Connection but this sheet will be in then next addendum. PP1a and b are in MCC1A and this will be clarified in the next addenda.Attachments:

BY DATE COPIES TO

Cannon Design Page 1 of 1 Printed On: 08/06/2018 10:47 AM





Subject: Concord ElectricTO: Jared Messina (Cannon Design)



DATE INITIATED: 08/06/ 2018 STATUS: Open





LINKED DRAWINGS:


COPIES TO:

Question from Judy Richards (Cannon Design) at 07:16 AM on 08/06/2018In regards to the 100 smartboards that need to be removed, is it 100 total, or 100 in each phase?

Official Response: Jared Messina (Cannon Design) responded on Monday, August 6th, 2018 at 10:01AM EDT100 total smartboards to be removed.Attachments:

BY DATE COPIES TO






Subject: Concord electricTO: Richard Garrett (Popoli Design Group)








LINKED DRAWINGS:


COPIES TO:

Question from Judy Richards (Cannon Design) at 07:19 AM on 08/06/2018The drawings do not indicate if the fire alarm cable needs to be in conduit or not.Pls advise? does the cable need to be in conduit or can we run it free air?

Official Response: Richard Garrett (Popoli Design Group) responded on Monday, August 6th, 2018 at 10:38AM EDTContract documents are clear. Refer to E0350 and Fire Alarm Specification.Attachments:

BY DATE COPIES TO






Subject: Concord electricTO: Richard Garrett (Popoli Design Group)








LINKED DRAWINGS:


COPIES TO:

Question from Judy Richards (Cannon Design) at 09:49 AM on 08/06/2018DRAWING E0200.D1 SHOWS CABLE BUS FOR THE FEED FOR CBE2/CBN2 TO CBE5/ CBN5, BUT THE ONE LINE DIAGRAM CALLS FORCONDUIT & WIRE.PLS ADVISE WHAT YOU WOULD LIKE?

Official Response: Richard Garrett (Popoli Design Group) responded on Monday, August 6th, 2018 at 10:14AM EDTThis will be corrected in the next addendum.Attachments:

BY DATE COPIES TO






Subject: Manning Squires Hennig Co. IncTO: Mark Bollin (The Pike Company, Inc)

FROM: Judy Richards (Cannon Design)

2170 Whitehaven RoadBuffalo, New York 14072






LINKED DRAWINGS:


COPIES TO:

Question from Judy Richards (Cannon Design) at 02:03 PM on 08/06/201819. Please clarify if column covers are required for the project. A specification exists, however theycannot be located on the drawings.20. Please provide detail for attachment of WP-1 panels at main entry corridor. Detail 8-A801 does notshow how the panels are to be attached to the existing mosaic tile.21. Is a working foreman required during second shift work.

Official Response: Jared Messina (Cannon Design) responded on Tuesday, August 7th, 2018 at 8:59AM EDT21. As indicated by Mark Bollin in response to RFI #PB-0014 "Contractors may provide a non-working foreman to oversee the work of the Contractorduring the second shift as opposed a superintendent. The non-working foreman must have the authority to act on behalf of the Contractor andrespond to the Construction Manager."Attachments:

Official Response: Jared Messina (Cannon Design) responded on Monday, August 6th, 2018 at 3:34PM EDT19. Column covers are no longer required for the project. This specification section will be removed in Addendum 00420. Refer to Spec Section 102600 (2.3 A) for WP-1 acceptable attachment method.Attachments:

BY DATE COPIES TO

