CSI Specification - Philips Lighting Controls

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02/17/2016 – Ver. 4.0.1
Philips Lighting Systems
SECTION 26 09 XX
LIGHTING CONTROL SYSTEM
PART 1 - GENERAL
1.01
Summary
A. Provide Architectural Dimming and Control equipment as specified herein and as shown
on the schedules and drawings.
B. Prime electrical contractor shall connect power feed and load circuits to the new dimming
and control system.
C. Related Sections:
1. Section 01 70 00 Execution and Closeout Requirements
2. Section 11 61 00 Broadcast, Theatre, and Stage Equipment
3. Section 26 08 00 Commissioning of Electrical Systems
4. Section 26 09 00 Instrumentation and Control for Electrical Systems
a. Section 26 09 16 Electrical Control and Relays
b. Section 26 09 23 Lighting Control Devices
c. Section 26 09 33 Central Dimming Controls
d. Section 26 09 36 Modular Dimming Controls
e. Section 26 09 43 Network Lighting Controls
f. Section 26 09 61 Theatrical Lighting and Control
5. Section 26 50 00 Lighting
a. Section 26 51 00 Interior Lighting
b. Section 26 55 00 Special Purpose Lighting
c. Section 26 56 00 Exterior Lighting
(Edit /Delete above list of Sections as necessary).
1.02
Administrative Requirements
A. Preconstruction Evaluation: Refer to Division 01 requirements.
B. Project Meetings: Refer to Division 01 requirements.
C. Construction Documentation: Refer to Division 01 requirements.
D. Special Administrative Requirements: Refer to Division 01 requirements.
1.03
References and Standards
A. Abbreviations and Acronyms: Refer to Section 01 42 13
B. Standards listed by reference, including revisions by issuing authority, form a part of this
specification section to extent indicated.
C. Standards listed are identified by issuing authority, authority abbreviation, designation
number, title, or other designation established by issuing authority.
D. Standards subsequently referenced herein are referred to by issuing authority abbreviation
and standard designation.
E. Reference Standards: Refer to Section 01 42 19 and in addition may include but are not
limited to the following:
1. Underwriters Laboratories (UL)
a. UL 508
Industrial Control Equipment
b. UL 508a Industrial Control Panels
c. UL 891
Dead-Front Switchboards
d. UL 916
Energy Management Equipment
e. UL 2043 Standard for Safety Fire Test for Heat and Visible Smoke Release
2. ANSI/PLASA American National Standards Institute
a. ANSI/NFPA 70 The National Electrical Code
b. ANSI E1.11–2008 Entertainment Technology - USITT DMX512-A, Asynchronous
Serial Digital Data Transmission Standard for Controlling Lighting Equipment and
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Accessories
c. ANSI E1.17–2010 Entertainment Technology - Architecture for Control Networks
(ACN)
d. ANSI E1.20–2010 Entertainment Technology - RDM-Remote Device
Management over USITT DMX512 Networks
e. ANSI E1.31 Entertainment Technology - Lightweight Streaming Protocol for
Transport of DMX512 using ACN
f. ANSI E1.27-1-2006 (R2011) Entertainment Technology - Standard for Portable
Control Cables for Use with USITT DMX512/1990 and E1.11 (DMX512-A)
Products
g. ANSI E1.27-2 – 2009 Entertainment Technology - Recommended Practice for
Permanently Installed Control Cables for Use with ANSI E1.11 (DMX512-A) and
USITT DMX512/1990 Products
h. ANSI E1.3-2001 (R2011) Entertainment Technology - Lighting Control Systems 0 to 10V Analog Control Specification
3. ANSI/NEMA
a. ANSI/NEMA C82.11-2002 High Frequency Fluorescent Lamp Ballasts - Annex A
Low Voltage Control Interface for Controllable Ballasts.
4. ANSI TIA/EIA
a. TIA-232-F - Interface Between Data Terminal Equipment and Data CircuitTerminating Equipment Employing Serial Binary Data Interchange.
b. TIA-485-A - Electrical Characteristics of Generators and Receivers for Use in
Balanced Digital Multipoint Systems
5. Institute of Electronic and Electrical Engineers (IEEE)
a. IEEE 802.3
CSMA/CD (ETHERNET)
6. Society of Motion Picture & Television Engineers (SMPTE)
a. SMPTE 12M- Television - Time and Control Code
F. All products with power terminals wiring directly to power systems or branch circuits above
49 Volts AC shall be Listed or Recognized as applicable by a Nationally Recognized
Testing Laboratory (NRTL).
G. All products shall conform to International Committee on Electromagnetic Safety (ICES)
and FCC Part 15 for electronic emissions.
H. Custom field assemblies shall meet all applicable codes and where local jurisdictions
require, shall be inspected, and approved by the local code authority at Division 26
installer’s expense.
1.04
Temporary Facilities and Controls
A. Temporary Use of Permanent Work: Refer to Division 01 requirements.
B. Additional to Division 01 requirements, use of devices provided under this section shall
require the Division 26 contractor to clean and refurbish item(s) to “as new out of box”
condition.
1.05
Protection And Cleaning
A. Storage and Protection: Store materials protected from exposure to harmful environmental
conditions and at temperature and humidity conditions recommended by the
manufacturer.
B. Touch up, repair, or replace damaged components before Substantial Completion.
C. Remove temporary tags, coverings, and construction debris from interior and exterior
surfaces of equipment. Remove construction debris from equipment area and dispose of
debris.
D. Clean integral air filters, heat sinks, grills, and fans before Substantial Completion and
Commissioning Services.
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1.06
Philips Lighting Systems
Warranty
A. Philips Controls warrants that its products (other than ballasts) are free of defects in
workmanship and materials for a period of three (3) years from the date of shipment.
B. The manufacturer shall provide a single source warranty for all supplied equipment
specified in this section.
C. At its sole option, the manufacturer will repair or replace any supplied product defective in
workmanship or materials.
D. Philips Controls will not be responsible for any products subjected to inappropriate
application or installed or modified in any way that is not in accordance with Philips
Controls' instructions.
PART 2 - PRODUCTS
2.01
Product Summary
A. Architectural Lighting Dimming and Control Equipment utilizing centralized and local
dimmers, centralized and device processor control, devices to provide conditional and
situational data for use by the lighting control system.
B. Installing contractor shall receive, place, connect, and mount all equipment specified in
this Section per the manufacturer’s instructions.
C. Installing contractor shall furnish all hardware, wire, conduit, connectors, and other
necessary items as required for a complete and functional lighting control system.
2.02
Acceptable Manufacturers
A. Philips Lighting Electronics
1. Address:
10275 West Higgins Road
2.
Rosemont, IL 60018
3. Telephone:
800.526.2731 (central time zone)
4. Website:
www.PhilipsLightingControls.com
B. The listing of a manufacturer as acceptable does not imply automatic approval. It is the
sole responsibility of the electrical contractor to ensure compatibility of submitted products
to other sections of the specification.
C. Substitutions: No substitutions permitted. Any substitutions shall be at the electrical
contractor’s expense including design modifications or compatibility complications that
may arise from acceptance of unapproved substitutions.
D. Pre-bid approval of substitute product manufacturers does not relieve the contractor and
the product manufacturer from compliance with the functional and operational
requirements of the Specifications. All products will be carefully evaluated during the
submittal review process. If, at that time, any pre-bid approved substitute is found to be
unsatisfactory and not in compliance, the contractor then must re-submit and supply the
specified product(s) without additional costs to the Owner and/or delay to project.
E. Alternate manufacturer(s) shall furnish a one-line system drawing of the system design
upon bid proposal.
2.03
Manufacturer Qualifications
A. Shall have the ability to package lighting controls, fixtures, lamps, and drivers (ballasts)
from a single manufacturer and distribute shades and shade control from a qualified third
party.
B. Manufacture shall have greater than 100 years of lamp and electrical manufacturing
experience.
C. Perform controls manufacturing, warranty support, and sales in: United States, Canada,
Australia, China, France, Germany, and the U.K. at a minimum -- with fulltime service
personal employed by the manufacturer in each location.
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D. Shall warranty all controls equipment to be free of defects in workmanship and materials
for three (3) years from date of shipment. Warranty service shall be defined as any failure
to equipment during standard operation as defined by the equipment’s specification or
user guide.
2.04
Design
A. Alternate manufacturer(s) shall furnish a one-line system drawing of the system design
upon bid proposal.
B. Upon completion of project the manufacturer shall furnish as-built one-line system
drawings and all pertinent instruction manuals and datasheets to the end user within 120
days of signed completion of the project by the owner or owner’s representative.
C. Should commissioning be required per contract, end user training of the maintenance and
operation of the equipment shall be provided by the manufacture or manufacturer’s
representative following the completion of the commissioning of the project (per contract
specification).
2.05
Product Schedule
A. Product Equipment list is specified in each device type sub-section below.
B. Product quantities shall be shown in schedules, tables, and drawings.
C. All options are specified in each device type sub-section below.
2.06
DE/DSE Series Enclosures
A. General
1. The Philips DE Series Load Controller Enclosures shall be designed to house DIN rail
mounted equipment and have provisions for proper spacing (per UL508a) to
accommodate low voltage control cable and high voltage power wiring.
2. Enclosures shall exist in models capable of mount one (1), two (2), up to four (4), or up
to five (5) Philips Dynalite Load Controllers, depending on enclosure model.
3. Enclosures shall be UL Listed to UL508a.
B. Mechanical
1. Each enclosure and sub-panel shall be labeled with the manufacturer’s name, catalog
number, and appropriate rating information.
2. Enclosure and sub-panel weights, without mountable control components, shall not
exceed:
a. DE-1 weight: 25.0 pounds (11.34 kg) w/ hinged door.
b. DE-2 weight: 34.0 pounds (15.43 kg) w/ hinged door.
c. DE-4 weight: 55.0 pounds (24.95 kg) w/ hinged door.
d. DE-5 weight: 76.0 pounds (34.48 kg) w/ hinged door.
e. DSE-0 weight: 17.0 pounds (7.72 kg) w/ non-hinged screw cover.
f. DSE-1 weight: 17.0 pounds (7.72 kg) w/ non-hinged screw cover.
3. The enclosure’s construction shall be treated, primed to prevent corrosion.
4. The internal sub-panel shall utilize industry standard thirty-five (35mm) millimeter DIN
rail to mount the user desired control modules
5. The DE Enclosure Series shall be natural convection cooled and fans shall not be
required. Systems requiring forced air cooling shall not be acceptable.
6. DE Enclosures shall carry California Special Seismic Certification Preapproval (OSP).
7. Enclosure shall not reduce FCC and RoHS compliance of components.
C. Electrical
1. All terminations and internal wiring shall be accessible behind a locking door or
screwed panel.
2. High voltage cable entry for all enclosures shall be on the top left, left middle, or
bottom left.
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3. Low voltage cable entry shall be from the top right, right middle, or bottom right side of
the enclosure.
D. Equipment List (quantities as shown in schedules, tables, and drawings):
1. Philips DE Load Controller Enclosures shall utilize a multi-part Identifying Order
Number describing the fit and finish of the panel utilizing the format:
DEx-xB-xR-xV-xNG-xDC-xPS-EMG.
2. Standard Order Number codes for DE/DSE Enclosures:
a. Enclosure size (DE1, 2, 4, 5 / DSE0, 1).
b. Quantity of Ballast Controllers (xB).
c. Quantity of Relay Controllers (xR).
d. Quantity of 0-10v Controllers (xV).
e. Quantity of RS-485 Network Gateways (xNG).
f. Quantity of Dry Contact Interfaces (xDC).
g. Quantity of Power supply (xPS).
h. Inclusion of UL924 emergency option (EMG).
3. DE Enclosure back boxes shall be available for separate shipment.
4. Philips DSE Screw Cover Load Controller Enclosures shall utilize a multi-part
Identifying Order Number describing the fit and finish of the panel utilizing the format:
DSEx-xB-xR-xV-xNG-xDC.
5. Standard Order Number codes for DSE Enclosures (DSE):
a. Enclosure DSE0-xNG-yDC-1PS
1) Quantity of RS-485 Network Gateways (xNG).
2) Quantity of Dry Contact Interfaces (xDC).
3) Maximum quantity (xNG+yDC+1PS) shall not exceed four (4).
4) Power Supply (PS) may be replaced with fourth device, if not required.
b. Enclosure DSE1-1x
1) Ballast Controllers (1B).
2) Relay Controllers (1R).
3) Analogue 0-10v Controllers (1V).
4) Maximum quantity shall be one (1) device.
2.07
DyNet Relay Load Controller
A. General
1. The Philips DMRC820FR-NA is designed to control various types of switched loads.
2. Relay Controller shall handle up to eight (8) separate loads.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. Controller enclosure shall be designed for mounting on thirty-five millimeter (35mm)
DIN rail and factory wired.
3. The Relay Controller is designed for installation into the Philips DE Series Enclosure, a
NEMA 1 approved enclosure, or switchboards near the circuit breakers with or without
the use of DIN rail.
4. The relay controller’s construction shall be Lexan 920, UL94-VO in a DIN Rail style
case.
5. The relay controller shall measure no more than 5.6 x 9.4 x 2.0 inches (142 x 238.8 x
51 mm).
6. The relay controller shall weigh no more than 2.2 pounds (1.0 kg).
7. The relay controller shall operate within: 32 to 104 degrees Fahrenheit (0 - 40°C) in
zero (0) to 90 percent relative humidity, non-condensing.
8. Interface shall be Nationally Recognized Testing Laboratory (NRTL) Recognized,
FCC, and RoHS compliant.
9. User controls shall provide:
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a. Service Switch
b. Diagnostic LED
c. Manual override switches for each channel.
10. Relays shall be latching type, lighting, motor, and resistive rated.
11. The DyNet Input Interface shall have eight (8) Class 2 dry contact inputs, one per
channel, and each consisting of 1x14 AWG screw terminal.
12. Dry Contact input shall be rated 10 volt DC 0.7mA per input, Class 2 only.
13. The DyNet RS-485/DMX512 Serial Port connections shall provided by five (5) 1x14
AWG screw terminals.
14. Two (2) RJ-45 connectors shall be provided for service access.
C. Electrical
1. DyNet DC supply Input power shall be twenty-four volts DC (24VDC).
2. Control Circuit Supply shall be rated:
a. 120V-277VAC (+10%/-15%) 50/60 Hz.
b. Single phase and Neutral.
c. Input power: Max. 20 watts, averaging 16.5 watts.
d. Input current 120VAC Max. 0.24 amp / 277VAC Max. 0.09 amp.
3. Line voltage supply terminals (Line, Neutral, and Ground) shall accept 8-#24 AWG
copper wire.
4. Switched Channel terminals (Channel In / Channel Out) shall accept 8-#24 AWG
copper wire.
5. Load Channel to Channel rated at 480 VAC.
6. Reference Data Cable: Belden 1502R / 1502P or equivalent as approved by Philips.
D. Performance
1. Relay Controller shall have one hundred seventy (170) preset scenes per Area.
E. Equipment List (quantities as shown in schedules, tables, and drawings):
1. DMRC820FR-NA Relay Controller.
2.08
HF Ballast Load Controller
A. General
1. The Philips DMBC320-DALI-NA is designed to control of DALI electronic fluorescent
ballasts.
2. The HF Ballast Controller shall handle up to three (3) separate DALI Loops.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. The HF ballast controller enclosure shall be designed for mounting on thirty-five
(35mm) millimeter DIN rail.
3. The HF Ballast Controller is designed for installation into the Philips DE Series
Enclosure, a NEMA-1 approved enclosure or switchboards near the circuit breakers
without the use of DIN rail.
4. The HF ballast controller’s construction shall be Lexan 920, UL94-VO in a DIN Rail
style case.
5. The HF ballast controller shall measure no more than 5.6 x 9.4 x 2.0 inches (142 x
238.8 x 51 mm).
6. The HF ballast controller shall weigh no more than 2.2 pounds (1.0 kg).
7. The HF ballast controller shall operate within: 32 to 104 degrees Fahrenheit (0 - 40°C)
in zero (0) to 90 percent relative humidity, non-condensing.
8. Interface shall be Nationally Recognized Testing Laboratory (NRTL) Recognized,
FCC, and RoHS compliant.
9. User controls shall provide:
a. Service Switch
b. Diagnostic LED
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c. Manual override switch for each relay
10. Relays shall be latching type, lighting, motor, and resistive rated.
11. The DyNet HF Ballast Controller shall have eight (8) Class 2 dry contact inputs, each
consisting of 1x14 AWG screw terminal.
12. Dry Contact input shall be rated 0-10 volt DC 0.7mA per input.
13. The DyNet RS-485 Serial Port connections shall provided by six (6) 1x14 AWG screw
terminals.
14. Two (2) RJ-45 connectors shall be provided for service access.
C. Electrical
1. DyNet DC supply Input power shall be twenty-four volts DC (24VDC).
2. Nominal DyNet power rating shall not exceed five hundred milliamps (500mA).
3. Control Circuit Supply shall be rated:
a. 120V-277VAC (+10%/-15%) 50/60 Hz
b. Single phase and Neutral
c. Input power: Max. 33W Avg. 24.0W
d. Input current 120VAC Max. 0.40 amp / 277VAC Max. 0.15 amp
4. Line voltage supply terminals (Line, Neutral, and Ground) shall accept 8-#24 AWG
copper wire.
5. Relay Output Channels:
a. Three (3) load channels rated at 16 amperes for DALI ballast power supply
b. Load channel to channel voltage rated at 480 VAC.
c. Load channel to output voltage rated at 277 VAC.
d. Channel terminals (channel IN & channel OUT) shall accept 8-#24 AWG copper
wire.
6. Control Output Loops (data buses):
a. Three (3) DALI control loops (data buses).
b. Sixty-four (64) control channels per loop.
c. Total control loops (64 channels x 3 loops): 192
d. Loops include two way communication capabilities.
e. DALI output terminals: 12-22 AWG copper wire,
Low Voltage Class 1 or 2
7. Reference Data Cable: Belden 1502R / 1502P or equivalent as approved by Philips.
D. Performance
1. Ballast Controller shall have sixteen (16) preset scenes per Area.
2. DALI control signals shall be able to operate in tandem with the three (3) internal
switched outputs, which shall automatically turn off power to the circuit when all
associated DALI channels are at zero (0%) percent.
3. Diagnostic Functions:
a. Lamp failure reporting.
b. Ballast failure reporting.
c. Ballast run time tracking for each ballast and switched output.
d. Device Online/Off-line status.
4. Diagnostic Functions, indicating device Online/Offline status, shall be accessible thru
Philips MapView, Touch Screen, or BAS interface.
5. Availability of some diagnostics is dependent on ballast type.
E. Equipment List (quantities as shown in schedules, tables, and drawings):
1. DMBC320-DALI-NA HF Ballast Controller.
2.09
DyNet RS485 Network Gateway
A. General
1. The Philips DDNG485-NA is a flexible communications gateway designed for the
DyNet RS485 networks.
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B.
C.
D.
E.
2.10
Philips Lighting Systems
2. The gateway shall enable cost effective integration between the Philips controls
system and third party equipment and systems.
3. The gateway shall be configurable for DyNet “trunk and spur” network topology, a
DyNet repeater, native Somfy shade control integration, or USITT DMX512 input or
output.
Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. Interface enclosure shall be designed for mounting on thirty-five (35mm) DIN rail and
factory wired.
3. The interface shall measure no more than 3.7 x 4.1 x 3.0 inches (94 x 104.2 x 76.2
mm).
4. The interface shall weigh no more than 0.55 pounds (0.25 kg).
5. Construction shall be industry standard 6 unit wide polycarbonate DIN Rail case.
6. The interface shall operate within: 32 to 122 degrees Fahrenheit (0 - 50°C) in zero (0)
to 90 percent relative humidity, non-condensing.
7. Interface shall be FCC and RoHS compliant.
8. User controls shall provide a service switch and a diagnostic LED indicator.
9. The DyNet RS-485 Port #1 Input connections shall be provided by 1x14 AWG screw
terminals
10. The DyNet RS-485 Port #2 Output connections (service port only) shall be provided by
1x14 AWG screw terminals.
11. A single female RJ-45 connector shall be provided for service access.
Electrical
1. Power shall be twenty-four volts DC (24VDC) provided from the DyNet network
connection or external power supply.
2. Nominal power rating shall not exceed a maximum of three hundred thirty milliamps
(330mA) with up to a one hundred fifty milliamp (150mA) load on configurable Port #2
24 volt DC terminals.
3. Serial Ports shall be optically isolated with a 2.5kV surge rating.
4. The device shall provide trunk and spur topology utilizing a high-speed backbone optocoupled to many lower speed spurs.
5. Reference Data Cable: Belden 1502R / 1502P or equivalent as approved by Philips.
Performance
1. The Network Gateway shall provide a DMX512 mode capable of transmitting and
receiving 64 data slots (channels).
2. DMX512 mode shall provide automatic DyNet conversion and Task triggering.
3. The on-board processor shall assemble and transmit user-defined data strings.
4. Diagnostic functions, indicating device Online/Offline status, shall be accessible thru
Philips MapView, Touch Screen, or BAS interface.
Equipment List (quantities as shown in schedules, tables, and drawings):
1. DDNG485-NA Network Gateway.
RS485 DyNet to USB Interface
A. General
1. The Philips DMNG-USB-NA is designed to provide and interface between the DyNet
lighting control network and a personal computer running system commissioning and
end-user software.
2. The interface is suitable for either temporary connections or permanent installations.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. Interface enclosure shall be manufactured of durable ABS plastic.
3. The interface shall measure no more than 1.0 x 2.0 x 3.6 inches (25.4 x 51 x 91 mm).
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4. The interface shall weigh no more than 0.3 pounds (0.136 kg).
5. The interface shall operate within: 32 to 122 degrees Fahrenheit (0 – 50°C) in zero (0)
to 90 percent relative humidity, non-condensing.
6. Interface shall be FCC and RoHS compliant.
7. User controls shall provide USB status and RS485 status LED indicators.
8. USB serial port connection shall be a Type B connector supplied with thirty-nine inch
(39”) patch lead.
9. The DyNet RS-485 Port connections shall provided by screw terminals.
C. Electrical
1. Input power shall be twenty-four volts DC (24VDC) provided from the DyNet network
connection or external power supply.
2. Nominal power rating shall not exceed twenty milliamps (20mA).
3. Reference Data Cable: Belden 1502R / 1502P or equivalent as approved by Philips.
D. Performance
1. USB Driver shall be compatible with:
2. Windows 7
3. Windows Vista
4. Windows XP
5. Windows 2000
E. Equipment List (quantities as shown in schedules, tables, and drawings):
1. DMNG-USB-NA DyNet to USB Interface RS485.
2.11
10/100BaseT Ethernet Interface
A. General
1. The Philips DNG100BT-NA is designed to enable effective integration between the
Philips controls system and Ethernet networks.
2. The interface provides remote control of sites and linking multiple sites together using
a backbone of the Internet or corporate Local Area Network (LAN).
3. The interface is capable of arithmetic functions, comprehensive conditional and
sequential logic.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. Interface enclosure shall be of wall or surface rounded corner design and factory
wired.
3. The unit shall measure no more than 8.9 x 6.5 x 2.4 inches (226 x 165 x 60 mm).
4. The unit shall weigh no more than 4.4 pounds (1.99 kg).
5. The unit’s construction shall be steel chassis with epoxy finish.
6. Interface operating environment: 32 to 122 degrees Fahrenheit (0 - 50°C) in zero (0) to
90 percent relative humidity, non-condensing.
7. Interface shall be FCC and RoHS compliant.
8. User controls shall provide a device Online/Offline LED indicator.
9. Ethernet access shall be via 8 wire RJ-45 jack.
10. The DyNet RS-485 Port connections shall be provided by screw terminals.
11. A single female RJ-45 connector shall be provided for service access.
C. Electrical
1. Input power shall be twenty-four volts DC (24VDC) provided from the DyNet network
connection or external power supply.
2. Nominal power rating shall not exceed one hundred thirty milliamps (130mA).
3. Reference Data Cable: Belden 1502R / 1502P or equivalent as approved by Philips.
D. Performance
1. 10/100BaseT Ethernet protocols shall be provided:
a. TCP/IP (TCP & UDP)
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2.
3.
4.
5.
2.12
b. HTTP
c. FTP
d. Telnet
e. Encryption: AES – 256 bit
The interface TCP/IP protocol shall accept either static or DHCP assigned IP
addressing.
Routing Mode shall link multiple DNG100BT-NA together for either point-to-point or
broadcast modes.
Integral web server shall allow Browser-based control scenarios.
Equipment List (quantities as shown in schedules, tables, and drawings):
a. DNG100BT-NA Ethernet Interface 10/100Base-T.
RS232 Serial Port Interface
A. General
1. The Philips DNG232-NA is designed to enable effective serial port integration between
the Philips controls system and third party equipment and systems.
2. The interface is capable of arithmetic functions, comprehensive conditional and
sequential logic.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. Interface enclosure shall be of wall or surface rounded corner design and factory
wired.
3. The unit shall measure no more than 8.9 x 6.5 x 2.4 inches (226 x 165 x 60 mm).
4. The unit shall weigh no more than 4.4 pounds (1.99 kg).
5. The unit’s construction shall be steel chassis with epoxy finish.
6. Interface operating environment: 32 to 122 degrees Fahrenheit (0 - 50°C) in zero (0) to
90 percent relative humidity, non-condensing.
7. Interface shall be FCC and RoHS compliant.
8. User controls shall provide a service switch and a diagnostic LED indicator.
9. The RS-232 Serial Port shall each be accessed by a DB9 female connector.
10. The DyNet RS-485 Port connection shall be provided by screw terminals and a single
female RJ-45 connector on the service port only.
C. Electrical
1. Input power shall be twenty-four volts DC (24VDC) provided from the DyNet network
connection or external power supply.
2. Nominal power rating shall not exceed eighty milliamps (80mA).
3. The RS-232 changeable factory default controls line factory default pin-outs shall be:
a. Pin 1 DCD
(data carrier detect)
Not connected
b. Pin 2 RD
(received data)
Connected to UART
c. Pin 3 TD
(transmitted data)
Connected to UART
d. Pin 4 DTR
(data terminal ready)
Not connected
e. Pin 5 SG
(signal ground)
Connected to Ground
f. Pin 6 DSR
(data set ready)
Not connected
g. Pin 7 RTS
(request to send)
Software controlled
h. Pin 8 CTS
(clear to send)
Software controlled
i. Pin 9 RI
(ring indicator)
Not connected
4. Reference Data Cable: Belden 1502R / 1502P or equivalent as approved by Philips.
D. Performance
1. RS-232 Data Formats shall be provided in the listed range:
a. Baud rate: 600-250k
b. Max. packet length: 254 bytes
c. Data bits: 7/8
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d. Stop bits: 1/2
e. Parity: odd/even/none
f. Flow control: none/RTS-CTS
2. The DNG232-NA Interface shall include a Plain English Text Interpreter allowing
control via plain English text strings.
E. Equipment List (quantities as shown in schedules, tables, and drawings):
1. DNG232-NA Serial Port Interface RS-232.
2.13
DyNet Multi-function Input Interface
A. General
1. The Philips DDMIDC8-NA is a flexible digital/analog input device designed for the
DyNet RS485 networks.
2. The interface is capable of comprehensive conditional and sequential logic and
arithmetic functions.
3. The interface shall enable cost effective integration between the Philips controls
system and third party equipment and systems such as security, HVAC and BMS.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. Interface enclosure shall be designed for mounting on thirty-five millimeter (35mm) DIN
rail and factory wired.
3. External fixing points shall be provided for attachment without the use of DIN rail.
4. Construction shall be industry standard 6 unit wide polycarbonate DIN Rail case.
5. The unit shall measure no more than 3.7 x 4.1 x 3.0 inches (94 x 104.2 x 76.2 mm).
6. The unit shall weigh no more than 0.60 pounds (0.27 kg).
7. The unit shall operate within: 32 to 122 degrees Fahrenheit (0 - 50°C) in zero (0) to 90
percent relative humidity, non-condensing.
8. Interface shall be FCC and RoHS compliant.
9. User controls shall provide LED status indicator for each digital input.
10. The DyNet Input Interface shall have four (4) Analog Inputs each consisting of two (2)
connections (CH, GND) provided by 1x14 AWG screw terminals.
11. Analog Input shall be rated in a software selectable 0-5 volt or 0-10 volt range.
12. The DyNet Input Interface shall have eight (8) Digital Inputs each consisting of two (2)
connections (A, B) provided by screw terminals.
13. Digital Input shall be rated in a 0-24 volt AC/DC (Class 2) range or as dry contacts.
14. The DyNet RS-485 Serial Port connections shall provided by screw terminals.
C. Electrical
1. Input power shall be twenty-four volts DC (24VDC) provided from the DyNet network
connection or external power supply.
2. Nominal power rating with twenty (20mA) milliamp load on +5V output (four (4) 1K
ohm potentiometers connected) shall not exceed seventy milliamps (70mA) with all
Dry Contacts closed.
3. Digital Ports shall be optically isolated with a 2.5KV surge rating.
4. Analog Ports shall have an input impedance of 20k ohms.
5. Reference Data Cable: Belden 1502R / 1502P or equivalent as approved by Philips.
D. Performance
1. The Network Gateway shall provide high noise immunity.
E. Equipment List (quantities as shown in schedules, tables, and drawings):
1. DDMIDC-8NA Multi-function Input Interface.
2.14
DyNet Astronomical Time Clock
A. General
1. The Philips DTC602-NA is an astronomical time clock providing powerful macro and
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B.
C.
D.
E.
2.15
Philips Lighting Systems
conditional logic functions.
2. The time clock is designed to interface with other devices over the DyNet RS485
network to automate tasks and events.
Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. Time clock shall mount in a standard three (3) gang masonry back box.
3. The time clock shall measure no more than 4.5 x 6.5 x 1.0 inches (115 x 165.10 x
25.40 mm).
4. The time clock shall weigh no more than 0.5 pounds (.227 kg).
5. The time clock’s construction shall be code gauge (0.06”) stainless steel faceplate.
6. The unit shall operate within: 32 to 122 degrees Fahrenheit (0 - 50°C) in zero (0) to 90
percent relative humidity, non-condensing.
7. Interface shall be FCC and RoHS compliant.
8. Internal controls shall provide:
a. PC clock with battery backup.
b. Auto screen dimming
9. Time clock data shall be stored in one hundred year life EEPROM.
10. The DyNet RS-485 Port connections shall be provided by screw terminals.
Electrical
1. Input power shall be twenty-four volts DC (24VDC) provided from the DyNet network
connection or external power supply.
2. Nominal power rating shall not exceed thirty-five milliamps (35mA).
3. Reference Data Cable: Belden 1502R / 1502P.
Performance
1. Astronomical functions available shall include:
a. One year functional range (365 day).
b. Sunrise/Sunset tracking.
c. Automatic Daylight Saving adjustment.
d. Battery back-up
e. Timed Events: two hundred fifty (250)
f. Tasks: sixty-four (64).
2. Time clock shall be able to set operating modes for other devices giving priority based
on user programmed time or date requirements.
3. Remote operation and programming via a PC or the front panel LCD display and
keypad. The DTC602-NA shall be capable of making program changes to a Philips
system without the use of a PC or laptop computer.
4. Unauthorized adjustments and changes shall be inhibited through the use of a PIN
password.
5. An integral step by step help guide shall be incorporated to assist the programming
task.
6. Channel, area, and scene names shall be automatically uploaded from the DyNet
network to assist in Time clock programming.
Equipment List (quantities as shown in schedules, tables, and drawings):
1. DTC602-NA Time clock.
Revolution Color Touch screen – 7.0”
A. General
1. The Philips DTP170-NA is a color LCD touch screen utilizing on-screen controls
allowing creation of multiple easy-to-use pages.
2. The touch screen shall permit single point control of multiple systems and equipment
types.
B. Mechanical
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1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. Touch screen back box shall be metallic.
3. Touch screen fascia shall utilize concealed clip-on fixings and be available in multiple
materials including:
a. Stainless Steel fascia (standard)
b. Black glass fascia (optional)
c. White glass fascia (optional)
4. The touch screen facia dimensions should be: 5.9 x 9.2 x .28 inches (149.9 x 235.5 x
7.1 mm).
5. The touch screen back box dimensions should be: 5.5 x 8.6 x 3 inches (139.5 x 218.4
x 75 mm).
6. Packaged weight:
a. Glass fascia: 3.8 pounds (1.73kg).
b. Stainless Steel fascia: 4.2 pounds (1.9 kg).
7. The touch screen shall operate within: 32 to 113 degrees Fahrenheit (0 - 45°C) in zero
(0) to 90 percent relative humidity, non-condensing.
8. Touch screen shall be FCC and RoHS compliant.
9. Touch screen processor and memory shall be equivalent to:
a. CPU: Intel XScale PXA310 624 MHz
b. Non-Volatile Memory: FLASH, 512MB
c. Volatile Memory: SDRAM, 128MB
10. Internal controls shall provide:
a. PC clock with battery backup.
b. Auto screen dimming.
11. The DTP170-NA input/output data ports shall consist of:
a. DyNet RS485 serial.
b. Ethernet 10/100BASE-T.
c. USB Type A (rear).
d. USB Mini Type B.
12. Touch screen shall provide output/input audio capability:
a. Power Output: 0.5 watt RMS.
b. Speakers: two (2).
c. Line Out: stereo jack 3.5mm.
d. Integral Microphone.
13. Screen criteria:
a. Screen Type: TFT LCD.
b. Viewable Area: seven (7”) inch diagonal.
c. Viewing Angle: H 65°, Vtop 60°, Vbottom 50°.
d. Resolution: WVGA 800 x 480.
e. Color Depth: 16 bit (65535).
f. Contrast: 300:1 Luminance: 280cd/m².
g. Touch overlay: 4 wire resistive.
h. Backlight: LED > 50,000 hour (subject to usage patterns).
C. Electrical
1. Input power shall be twenty-four volts DC (24VDC) provided from the DyNet network
connection or external power supply.
2. Nominal power rating shall not exceed three hundred fifty (350ma) milliamps.
3. Reference Data Cable: Belden 1502R / 1502P or equivalent as approved by Philips.
D. Performance
1. Operating System and Software:
a. Integral Philips touch screen software
b. Windows CE 6.0.
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c. Internet Explorer 6.
d. Windows Media Player 9 / MP3 support.
2. Integral Touch screen editor or standard HTML editor shall be capable of creating
screen pages.
3. User Page Objects
a. Button
b. Fader
c. Text Box
d. Icon
e. Image import
4. Objects (e.g. logos, floor plans, buttons, faders, etc.) can be placed on pages and
used to perform simple and complex conditional logic macros.
5. Touch screen shall be capable of displaying live streaming video via the Ethernet port
to the Windows Media Player embedded in a page and audio to the built-in stereo
speakers.
E. Equipment List (quantities as shown in schedules, tables, and drawings):
1. DTP170-NA Revolution Color Touch screen – Stainless Steel fascia
2. DTP170-BG-NA Revolution Color Touch screen – Black glass fascia
3. DTP170-WG-NA Revolution Color Touch screen – White glass fascia
4. DTP170-WALLBOX Back box for dry lining/plasterboard applications
2.16
Revolution Color Touch screen – 4.3”
A. General
1. The Philips DTP100-NA is a color LCD touch screen utilizing on-screen controls
allowing creation of multiple easy-to-use pages.
2. The touch screen shall permit single point control of multiple systems and equipment
types.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. Touch screen back box shall be metallic.
3. Touch screen fascia shall utilize concealed clip-on fixings and be available in multiple
materials including:
a. Stainless Steel fascia (standard)
b. Black glass fascia (optional)
c. White glass fascia (optional)
4. The touch screen facia should be: 3.4 x 8 x 0.20 inches (86 x 146 x 5 mm).
5. The touch screen back box should be: 3.15 x 5.5 x 2 inches (80 x 139 x 50 mm).
6. Packaged weight: 2 pounds (0.9 kg).
7. The touch screen shall operate within: 32 to 113 degrees Fahrenheit (0 - 45°C) in zero
(0) to 90 percent relative humidity, non-condensing.
8. Touch screen shall be FCC and RoHS compliant.
9. Touch screen processor and memory shall be equivalent to:
a. CPU: Intel XScale PXA310 624 MHz
b. Non-Volatile Memory: FLASH, 512MB
c. Volatile Memory: SDRAM, 128MB
10. Internal controls shall provide a PC time clock with battery backup.
11. The DTP100-NA input/output data ports shall consist of:
a. DyNet RS485 serial
b. RJ-45 Ethernet 10/100BASE-T
c. USB Mini Type B (programming port)
d. USB Mini Type B (keyboard/mouse)
12. Touch screen shall provide output/input audio capability:
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a. Power Output: 0.5 watt RMS
b. Speakers: 1 x 0.6 cone
c. Line Out: stereo jack 3.5mm
d. Integral Microphone
13. Screen criteria:
a. Screen Type: TFT LCD.
b. Viewable Area: seven (4.3”) inch diagonal.
c. Viewing Angle: H 75°, Vtop 75°, Vbottom 45°.
d. Resolution: 480 x 272 (16:9 screen ratio).
e. Color Depth: 16 bit (65535).
f. Contrast: 400:1 Luminance: 350 cd/m².
g. Touch overlay: 4 wire resistive.
h. Backlight: LED > 50,000 hour (subject to usage patterns).
C. Electrical
1. Input power shall be twenty-four volts DC (24VDC) provided from the DyNet network
connection or external power supply.
2. Nominal power rating shall not exceed two hundred milliamps (200mA).
3. Reference Data Cable: Belden 1502R / 1502P or equivalent as approved by Philips.
D. Performance
1. Operating System and Software:
a. Integral Philips touch screen software
b. Windows CE 6.0.
c. Internet Explorer 6.
d. Windows Media Player 9 / MP3 support.
2. Integral Touch screen editor or standard HTML editor shall be capable of creating
screen pages.
3. User Page Objects
a. Button
b. Fader
c. Text Box
d. Icon
e. Image import
4. Objects (e.g. logos, floor plans, buttons, faders, etc.) can be placed on pages and
used to perform simple and complex conditional logic macros.
5. Touch screen shall be capable of displaying live streaming video via the Ethernet port
to the Windows Media Player embedded in a page and audio to the built-in stereo
speakers.
E. Equipment List (quantities as shown in schedules, tables, and drawings):
1. DTP100-NA Revolution Color Touch screen – Stainless Steel fascia
2. DTP100-BG-NA Revolution Color Touch screen – Black glass fascia
3. DTP100-WG-NA Revolution Color Touch screen – White glass fascia
4. DTP100-WALLBOX Back box for dry lining/plasterboard applications
2.17
Philips Dynalite Plenum Rated 24 volt DC Network Power Supply
A. General
1. The Philips DMNP24040-P-NA is a Class 2 Plenum Rated power supply comprising a
high efficiency switch mode power converter with a comprehensive set of protection
features.
2. Up to four (4) DMNP24040-P-NA units can be connected in parallel on a network,
subject to Class 2 and cable rating limits.
3. The Philips DMNP24040-P-NA shall be Listed or Recognized as applicable by a
Nationally Recognized Testing Laboratory (NRTL).
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B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. The power supply shall measure no more than 3.1”W x 3.9”L x 1.7”H (7.87 x 9.90 x
4.32 cm).
3. The interface shall weigh no more than 11.3 ounces (0.32 kg).
4. Construction shall be industry standard metal housing.
5. The power supply shall operate within: 32 to 122 degrees Fahrenheit (0 - 50°C) in zero
(0) to 90 percent relative humidity, non-condensing.
6. Interface shall be ICES, FCC, and RoHS compliant.
7. The DMNP24040-P-NA Input connections shall be provided by 3x14 AWG PVC
insulated leads 12.6” inches (32cm) in length rated 600V/105°C. Leads shall be color
coded Line/Black, Neutral/White, and Ground/Green.
8. The DMNP24040-P-NA Output connections shall be provided by 2x18 AWG PVC
insulated leads 9.05” inches (23cm) in length rated 300V/200°C. Leads shall be color
coded Voltage+/Red and Voltage-/Black.
C. Electrical
1. The DMNP24040-P-NA supply shall be a Class 2 device utilizing:
a. 120 – 277VAC, 50/60Hz Single Phase supply
b. Input Current: 0.25A @ 120VAC or 0.10A @ 277VAC
2. Output Current
a. 400ma @ 24VDC continuous
b. 600ma@ 24VDC max. 10 second duration
3. Reference Data Cable: Belden 1502R / 1502P or equivalent as approved by Philips.
D. Performance
1. The DMNP24040-P-NA shall withstand indefinite short circuit fault protection across
the output Class 2 terminals, with an auto-restart protection employed to protect the
device and minimize the energy delivered to the fault.
2. The DMNP24040-P-NA shall be designed to support short term overload up to one
hundred fifty (150%) percent of the rated current to suit high inrush current and
transient loads.
E. Equipment List (quantities as shown in schedules, tables, and drawings):
1. DMNP24040-P-NA Plenum Rated 24VDC Network Power Supply.
2.18
Universal Sensor – Wall
A. General
1. The Philips DUS704W-NA series sensors provide motion detection (PIR) and infrared
remote control reception (IR) in the one device.
2. The sensor is designed to interface with other devices over the DyNet RS485 network
to detect motion and provide infrared control interface.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. Sensor shall surface mount.
3. The wall mounted sensor shall measure no more than 3.4 x 2.6 x 1.8 inches (86.4 x 66
x 45.7 mm).
4. The wall mounted sensor shall weigh no more than 0.3 pounds (.14 kg).
5. The wall mounted sensor’s construction shall be ABS plastic enclosure.
6. The wall mounted sensor shall operate within: 32 to 122 degrees Fahrenheit (0 - 50°C)
in zero (0) to 90 percent relative humidity, non-condensing.
7. Interface shall be FCC and RoHS compliant.
8. All configuration functions shall be remotely programmable.
9. User controls shall provide:
a. Walk Test
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b. IR received LED indicator
10. The DyNet RS-485 serial port connections shall be provided by five (5) way terminal
strip.
C. Electrical
1. Input power shall be twenty-four volts DC (24VDC) provided from the DyNet network
connection or external power supply.
2. DyNet DC load rating shall not exceed ten milliamps (10mA).
3. Reference Data Cable: Belden 1502R / 1502P or equivalent as approved by Philips.
D. Performance
1. Characteristics for the PIR Motion Detector shall include:
a. LED activation indicator
b. Adjustable sensitivity.
c. 20 dual element detection zones.
d. At a mounting height range of 3.6 to 10 feet the standard lens shall cover a ninety
(90°) degree (corner mount) range out to 39 feet (39’).
e. Optional lens shall provide alternate coverages:
1) Long Range: thirty (30°) degree range out to 98 feet (98’).
2) Curtain Range: five (5°) degree range out to 49 feet (49’).
2. Characteristics for the Infrared Remote Control Receiver shall include:
a. LED activation indicator
b. Accept signals from DTK500 Series IR remotes.
c. Accept signals from most other learning IR remote controls.
d. Range shall be up to 20 feet (20’) angle dependant.
E. Equipment List (quantities as shown in schedules, tables, and drawings):
1. DUS704W-NA Universal Sensor.
2.19
Universal Sensor – 360° Ceiling
A. General
1. The Philips DUS804CS-UP-NA series ceiling sensors combine motion detection (PIR),
infrared remote control reception (IR), and ambient light level detection (PE) in the one
device.
2. The sensor is designed to interface with other devices over the DyNet RS485 network
to detect motion and provide infrared control interface.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. The ceiling mount PIR sensor shall surface mount on a standard four inch (4”) octo
back box.
3. The ceiling mount PIR sensor measure no more than 3.5 inch diameter x 1.0 inch
exposed (88.9mm diameter D x 25.4 mm).
4. The ceiling mount PIR sensor shall weigh no more than 0.55 pounds (.25 kg).
5. The ceiling mount PIR sensor’s construction shall be ABS plastic enclosure.
6. The ceiling mount PIR sensor shall operate within: 32 to 122 degrees Fahrenheit (0 50°C) in zero (0) to 90 percent relative humidity, non-condensing.
7. Interface shall be FCC and RoHS compliant.
8. All configuration functions shall be remotely programmable.
9. User controls shall provide:
a. Walk Test
b. IR received LED indicator
10. The sensors surrounding bezel shall incorporate a click-up segment (120°) that will
readily mask a portion of the sensor element preventing nuisance detections from
adjacent doorways and corridors.
11. The DyNet RS-485 serial port connections shall be provided by 1x14 AWG removable
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5 way terminal strip.
C. Electrical
1. Input power shall be twenty-four volts DC (24VDC) provided from the DyNet network
connection or external power supply.
2. DyNet DC load rating shall not exceed thirty milliamps (30mA).
3. Reference Data Cable: Belden 1502R / 1502P or equivalent as approved by Philips.
D. Performance
1. Characteristics for the Standard Sensitivity PIR Motion Detector shall include:
a. LED activation indicator
b. Sensor: quad element pyro-electric.
c. Sixty-four (64) detection zones.
d. Maximum detection range: greater than sixteen feet (16’-4”).
e. At a mounting height range of eight feet (8’) the standard sensitivity sensor shall
cover a rectangular area twenty-four by eighteen feet (24’ x 18’).
f. Detection speed: greater than three feet/second (3’/sec).
g. Detection object: greater than twenty-six by nine inches (26” x 9.6”).
2. Characteristics for the Infrared Remote Control Receiver shall include:
a. LED activation indicator
b. Accept signals from DTK500 Series IR remotes.
c. Accept signals from most other learning IR remote controls.
d. Range shall be up to nineteen feet (19’).
3. Characteristics for the Ambient Light Level (PE) detector shall include:
a. Incident to sensor dynamic range: 5 - 500 lux
b. Illumination of non-reflective surface: 5-5000 lux
E. Equipment List (quantities as shown in schedules, tables, and drawings):
1. DUS804CS-UP-NA Universal Sensor.
2.20
DLight III MapView
A. General
1. The Philips DLightIII MapView allows full control and programming of all devices
connected to a DyNet network.
2. The DLightIII MapView Client functional security can be controlled individually for each
point of control.
3. The optional TrayPan client to the DLightIII Server provides the end user with a frontend interface that enables control from multiple points.
B. Hardware
1. DLightIII MapView installs and operates on a personal computer with:
a. Processor: minimum 2GHz dual core.
b. Hard Disk: minimum 10 gigabytes free space.
c. System Memory: minimum 2 gigabytes RAM.
d. Graphics Memory: minimum 256 megabytes RAM (unshared).
e. Network: 10/100BaseT Ethernet card or port.
f. I/O Ports: at least one (1) USB 2.0 Type A
2. Minimum requirements will vary depending on the size of the site and the quantity of
simultaneously connected clients.
3. Uninterruptable Power Supply (UPS) for the DLightIII Server computer is highly
recommended.
C. Software
1. Supported Operating Systems:
a. Windows 7 Ultimate
b. Windows 7 Professional
c. Vista Business w/ Service Pack #1
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d. Vista Ultimate w/Service Pack #1
e. Windows 2000 Server w/ Service Pack #4
f. Windows 2003 Server w/ Service Pack #2
g. Windows XP Professional w/ Service Packs #2 and #3
2. Additional Prerequisites:
a. Microsoft.NET Framework 2.0 (included with DLIGHT III installer).
b. Windows Installer 3.1
c. Internet Explorer 6 (IE6)
3. Recommended Software:
a. Microsoft SQL Management Studio Express
D. Performance
1. MapView interfaces with the operator visually via a Graphical User Interface (GUI) for
both commissioning and end-user control. A pictorial representation of the controlled
space is broken up into areas and channels, to provide a strong and intuitive visual link
between the control system and the controlled space.
2. MapView is optimized to program a vast array of control settings including:
a. Enumerating DALI controlled lighting fixtures.
b. Defining lighting zone areas.
c. Placement of Philips-controlled specified third-party loads, such as fans, pumps,
audio-visual, HVAC equipment, shades, and tasking of DyNet network devices to
perform conditional functions.
d. MapView also features an energy management reporting capability in relation to
lighting consumption; using notional load profiling and actual power monitoring via
third-party Modbus metering of lighting load consumption.
3. MapView delivers granular site-wide visibility, access, and control, enabling building
operators to easily customize and expand lighting control systems as they evolve over
time.
E. Equipment List (quantities as shown in schedules, tables, and drawings):
1. DLightIII MapView
2.21
User Control Panels – DR2PA-NA Series (single & dual column designs)
A. General
1. The DR2PA-NA User Panels are designed to interface with other devices over the
DyNet RS485 network to automate tasks and events.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. User Panel (single and dual column) shall mount in a standard one (1) gang masonry
or other “squared” back box.
3. The user panel shall measure no more than 4.6 x 2.9 x 1.1 inches (117 x 73.7 x 28
mm).
4. The user panel shall weigh no more than 0.5 pounds (0.227 kg).
5. The user panel shall operate within: 32 to 122 degrees Fahrenheit (0 - 50°C) in zero
(0) to 90 percent relative humidity, non-condensing.
6. Interface shall be FCC and RoHS compliant.
7. Control Panel bezel, key carrier, and grid plate shall be Lexan 920, UL94-VO.
8. Front cover finishes are available in multiple materials including:
a. Stainless Steel fascia (standard)
b. Black glass fascia (optional)
c. White glass fascia (optional)
d. Extensive designer’s range of cover finishes.
9. Button Colors
a. Charcoal grey
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b. White
c. Silver
10. Button caps shall be able to be custom engraved to assist in identification of button
function and shall have an integral backlight that shall illuminate the engraving text
when activated.
11. The DyNet RS-485 Port connections shall provided by 1x14 AWG screw terminals.
12. The face panel shall attach without visible fasteners.
C. Electrical
1. Input power shall be twenty-four volts DC (24VDC) provided from the DyNet network
connection or external power supply.
2. Nominal power rating shall not exceed twenty to sixty milliamps (20 to 60mA)
dependent on button count and backlight usage.
3. LED Indicators:
a. Status Indicator – Blue
b. Button Backlighting – White
4. Reference Data Cable: Belden 1502R / 1502P or equivalent as approved by Philips.
D. Performance
1. Control panels shall have the capability to run sequential and conditional logic
routines.
2. The extended functionality of the control panels shall include but not be limited to:
a. Describing lighting control functions using the words “if” and “then”.
b. Complex joining of multi-partitioned rooms.
c. Controlling light scenes in multiple areas.
d. Interfacing third-party devices to a DyNet network (multi-function input interface)
e. Controlling chase sequences.
E. Equipment List (quantities as shown in schedules, tables, and drawings):
1. DR2P-NA User Control Panels shall each utilize a ten (10) part Identifying Order
Number describing the fit and finish of the panel including:
a. Standard prefix for control panels (DR2PA)
b. Quantity of button columns.
c. Button layout per column #1.
d. Button layout per column #2.
e. Button color.
f. Cover finish.
g. Plug/wiring options
h. LED color
i. Custom engraved utilized
2.22
User Control Panels – DLP-NA
A. General
1. The DLP-NA User Control Panels are designed to integrate with other devices over
the DyNet RS485 network in a cost-effective manner in commercial buildings and
homes.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. User Panel shall mount in a standard one (1) gang masonry or other “squared” back
box provided by others.
3. Measure no more than 4.6 x 2.8 x 1.1 inches (116.9 x 71.1 x 28 mm).
4. Weigh no more than 0.5 pounds (0.227 kg).
5. User Panel operating environment: 22 to 122 degrees Fahrenheit (0 - 50°C) in zero (0)
to 90 percent relative humidity, non-condensing.
6. Interface shall be FCC and RoHS compliant.
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7. Grid plate, rear cover, and front cover shall be ABS plastic
8. Switch membranes shall be silicone.
9. The face panel shall attach without visible fasteners.
10. Front cover finish shall be Electric White.
11. Button Colors
a. Electric White
b. Other colors available upon request.
12. Button caps shall be able to be custom engraved to assist in identification of button
function.
13. The DyNet RS-485 Port connections shall provided by 1x14 AWG screw terminals.
C. Electrical
1. Input power shall be twenty-four volts DC (24VDC) provided from the DyNet network
connection or external power supply.
2. Nominal power rating shall not exceed twenty-five milliamps (25mA).
3. An LED on top of each button shall illuminate when the preset or function software
associated to the button is activated, as described below:
a. Standard Indicator – Blue
b. Red and green available upon request.
4. Reference Data Cable: Belden 1502R / 1502P or equivalent as approved by Philips.
D. Performance
1. Control panels shall have the capability to run sequential and conditional logic
routines.
2. The extended functionality of the control panels shall include but not be limited to:
a. Describing lighting control functions using the words “if” and “then”.
b. Complex joining of multi-partitioned rooms.
c. Controlling light scenes in multiple areas.
d. Interfacing third-party devices to a DyNet network (multi-function input interface)
e. In conjunction with smart faders.
f. Controlling chase sequences.
E. Equipment List (quantities as shown in schedules, tables, and drawings):
1. DLP-NA User Control Panels shall be available in standard configurations of one, two,
five, six, seven, and ten buttons supplied with:
a. Blue LED status indicators.
b. White front cover
c. White rear cover
d. Blank white buttons
e. White bezels
2. Customized DLP-NA User Control Panels shall be available in configurations of one,
two, five, six, seven, and ten buttons upon request.
2.23
User Control Panels – DPN-NA Series
A. General
1. The DPN-NA User Control Panels are designed to integrate with other devices over
the DyNet RS485 network in a cost-effective manner in commercial buildings and
homes, while being highly customizable and allowing manual fader controls.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. User Panel shall mount in a standard masonry back boxes provided by others.
3. User Panel operating environment: 22 to 122 degrees Fahrenheit (0 - 50°C) in zero (0)
to 90 percent relative humidity, non-condensing.
4. Interface shall be FCC, CE, C-Tick, and RoHS compliant.
5. Face panel shall be constructed of stainless steel or solid brass.
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6. Face panels finishes shall be available in mirrored stainless steel, gold plated stainless
steel, coated solid brass, and custom power coats.
7. Module shall accommodate sliders, buttons, and key switches.
8. Buttons shall be available in silver, charcoal, and ivory with white or black
customizable engraving.
9. The DyNet RS-485 Port connections shall provided by 1x14 AWG screw terminals.
C. Electrical
1. Input power shall be twenty-four volts DC (24VDC) provided from the DyNet network
connection or external power supply.
2. Nominal power rating shall not exceed twenty-five milliamps (25mA).
3. An LED on each button shall illuminate when the preset or function software
associated to the button is activated, as described below:
a. Standard Indicator – Blue
b. Red and green available upon request.
4. Reference Data Cable: Belden 1502R / 1502P or equivalent as approved by Philips.
5. The module shall optionally have Infrared input capability.
D. Performance
1. Control panels shall have the capability to run sequential and conditional logic
routines.
2. The extended functionality of the control panels shall include but not be limited to:
a. Describing lighting control functions using the words “if” and “then”.
b. Complex joining of multi-partitioned rooms.
c. Controlling light scenes in multiple areas.
d. Interfacing third-party devices to a DyNet network (multi-function input interface)
e. In conjunction with smart faders.
f. Controlling chase sequences.
E. Equipment List (quantities as shown in schedules, tables, and drawings):
1. Standard and customized DPN-NA User Control Panels shall be available.
2.24
Lyteswitch Two Relay Lighting Control Panel
A. General
1. The Lyteswitch Two Relay Lighting Control Panel is a compact self-contained lighting
controller featuring robust and rugged relays and provides advanced control of various
lighting loads.
2. The Lyteswitch Two Relay Lighting Control Panel shall allow any combination of
control, including occupant control through the use of the Simple-P keypads, a 365day integrated astronomical time clock, and integration with Dynalite wall stations.
3. Lyteswitch Two product shall meet California Energy Commission’s appliance
efficiency regulations for Title 24 for use in commercial and residential applications.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. The Relay Lighting Control Panel shall be designed for use as either surface or
recessed mount (when installed with an optional trim ring).
3. Racks shall not exceed the following dimensions:
a. Rack - 4 Circuit: 14”H x 4”W x 12”D (35.56 x 10.16 x 30.48 cm)
b. Rack - 8 Circuit: 18”H x 4”W x 12”D (45.72 x 10.16 x 30.48 cm)
c. Rack - 16 Circuit: 24”H x 4”W x 12”D (60.96 x 10.16 x 30.48 cm)
4. Relay Controller indoor only operating environment: 32 to 104 degrees Fahrenheit
(0 to 40°C) in ten 10 to 90 percent relative humidity, non-condensing.
5. Lyteswitch Two panel has double sided construction for wiring on both sides.
6. Lyteswitch Two panels shall be provided with pre-drilled mounting holes.
7. Master relay controller shall have an Integral 4-line LCD display to provide user-
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friendly operation and programming capability.
8. Integral control features of the Lyteswitch Two Relay Lighting Control Panel shall
include:
a. An ALL-ON and ALL-OFF manual override push-buttons to manually turn all relay
outputs to the ON or OFF state regardless of programming.
b. Timer Scheduling for 48 available timers that can turn relays ON or OFF based on
Time-of-Day or Astronomical time.
c. Groups relays to be controlled by any timer, switch, or other external commands.
9. Lyteswitch Two Relay Lighting Control Panel shall provide control via:
a. Simple-P control stations and button stations.
b. Simple-P photo sensors
c. DMX controller or DyNet device.
C. Electrical
1. Lyteswitch Two Relay Lighting Control Panel shall be CSA UL and cUL listed.
2. Lyteswitch Two Relay Lighting Control Panel input power shall be 120VAC, 277VAC at
50/60 Hz.
3. Relays shall be capable of handling a variety of load types including:
a. Incandescent (tungsten halogen)
b. Fluorescent
c. Magnetic low-voltage
d. Electronic low-voltage
e. Neon
f. LED
g. High Intensity Discharge (HID)
h. Non-Dimmable (on-off)
i. Motors (1.5hp @ 277VAC)
D. Equipment List (quantities as shown in schedules, tables, and drawings):
1. DC-DRE
Lyteswitch Two Relay Control Panel
2. DC-DRE-OIRS-001 8 channel occupancy interface remote station
3. DC-DRE-PCI-001
Lyteswitch Two Indoor Simple-P photo sensor
4. DC-DRE-PCO-001
Lyteswitch Two Outdoor Simple-P photo sensor
2.25
Lyteswitch Two Simple-P Control Stations
A. General
1. Remote control stations shall consist of a set of pushbuttons which may be used for
preset scene remotes or channel remotes.
2. Lyteswitch Two product shall meet California Energy Commission’s appliance
efficiency regulations for Title 24 for use in commercial and residential applications.
B. Mechanical
1. Wall mounted remotes shall be flush mounted into a standard single gang rough-in
box (contractor supplied).
2. Station indoor only operating environment: 32 to 122 degrees Fahrenheit
(0 to 50°C) in ten 10 to 90 percent relative humidity, non-condensing.
3. Button stations shall be available in 1-, 2-, 3-, 4-, 5-, and 6 button configurations.
4. Key stations shall be available in momentary and held configurations.
C. Electrical
1. All wiring to discrete remotes shall have a voltage rating of no less than 300 Volts.
Contractor shall ensure that remotes are properly grounded to earth ground per NEC
requirements.
D. Performance
1. Stations shall be field-programmable, permitting the control of one or more channels
on one or more masters.
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2. Stations shall provide audible feedback upon activation.
E. Equipment List (quantities as shown in schedules, tables, and drawings):
1. DC-DRE-SP-1-001 Simple-P 1 Button User Control Panels
2. DC-DRE-SP-2-001 Simple-P 2 Button User Control Panels
3. DC-DRE-SP-3-001 Simple-P 3 Button User Control Panels
4. DC-DRE-SP-4-001 Simple-P 4 Button User Control Panels
5. DC-DRE-SP-5-001 Simple-P 5 Button User Control Panels
6. DC-DRE-SP-6-001 Simple-P 6 Button User Control Panels
7. DC-DRE-SP-KM-001 Simple-P Key Switch Panel (Momentary)
8. DC-DRE-SP-KH-001 Simple-P Key Switch Panel (Held)
2.26
Optio IGBT Lighting Control Panel
A. General
1. The Optio Lighting Control shall be a linear dimming system based on Insulated Gate
Bipolar Transistor (IGBT) technology.
2. Each Optio Lighting Control Panel shall be formed of cold-rolled steel sections.
Exterior surfaces shall be finished in fine-textured, scratch-resistant powder coat paint.
Interior surfaces shall have a corrosion-resistant finish.
3. Optio Lighting Control Panels shall be custom configured at the factory to meet the
requirements for each application.
4. Optio Panels shall be natural convection cooled.
5. Optio Panels and IGBT dimmer modules shall produce no mechanical noise.
6. Optio Lighting Control dimming system shall meet or exceed FCC “Class A” standards
for RFI/EMI emissions.
7. Optio Lighting Control Panels shall be Listed or Recognized as applicable by a
Nationally Recognized Testing Laboratory (NRTL).
B. Mechanical
1.
Each module shall be labeled with manufacturer’s name, catalog number, and
ratings.
2.
The Optio Lighting Control Panel shall be a NEMA Type 1 approved enclosure
designed for use as a surface mount enclosure.
3.
Construction shall be 18 gauge cold roll steel (CRS) with flanged edge to
accommodate screw covers.
4.
Optio Lighting Control Panels shall be available with 15 or 20 ampere circuit
breakers, Master or Auxiliary configurations, internal Pathport node, UL924 emergency
lighting option, and 6 & 9 module panels shall have internal main circuit breaker
capacity.
5. Optio Panels shall not exceed the following dimensions:
a. Panel – 3 Module: 31.5”W x 25.0”H x 6.825”D (80.01 x 63.50 x 17.34 cm)
b. Panel – 6 Module: 31.5”W x 42.5”H x 6.825”D (80.01 x 107.95 x 17.34 cm)
c. Panel – 9 Module: 31.5”W x 62.0”H x 6.825”D (80.01 x 157.48 x 17.34 cm)
6.
Optio Control Panel indoor only operating environment: 32 to 104 degrees
Fahrenheit (0 to 40°C) in 5 to 95 percent relative humidity, non-condensing.
7.
Load connection shall be by spring cage connectors.
8.
Line connection shall be by distribution block.
9.
An optional mounting bracket (OPTBRKT32) for mounting the panel on thirty-two
(32”) centers shall be available.
C. Electronics
1. Optio Lighting Control head-end electronics shall be housed in the Panel.
2. The Optio Lighting Control standard control signals are ANSI E1.11–2008 (USITT
DMX512-A) and Intelligent LYTEmode System (ILS). The incoming signal terminates
in the head-end electronics.
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3. Each Optio Lighting Control shall include one permanently mounted RJ-45 jack to
which the contractor shall land the incoming Ethernet control cable (Pathport option
only).
4.
Each Optio Lighting Control shall accept one (1) optically isolated ANSI E1.11–
2008 (USITT DMX512-A) protocol input. Loop through connection shall also be
provided.
5. Configuration of the Optio Lighting Control shall be performed by a PC-based program
or through front panel mounted controls.
D. Equipment List ( quantities as shown in schedules, tables, and drawings ):
1. OPT3120
Optio Dimming Panel, 3-Space, 120 Volt AC
2. OPT6120
Optio Dimming Panel, 6-Space, 120 Volt AC
3. OPT9120
Optio Dimming Panel, 9-Space, 120 Volt AC
4. OPT3277
Optio Dimming Panel, 3-Space, 277 Volt AC
5. OPT6277
Optio Dimming Panel, 6-Space, 277 Volt AC
6. OPT9277
Optio Dimming Panel, 9-Space, 277 Volt AC
7. OPTBLANK Blank Cover for Open Module Space
8. OPTBRKT3 Optional Mounting Bracket for 32 inch centers
2.27
Optio Lighting Control Dimmer Modules
A. General
1. Optio IGBT Dimmer Modules shall use Insulated Gate Bipolar Transistor (IGBT) to
regulate and control load voltage and current.
2. Optio IGBT Dimmer Modules shall be natural convection cooled.
3. Optio IGBT Dimmer Modules shall produce no mechanical noise.
4. True relay modules shall be available.
5. Optio Dimmer Modules shall be Listed or Recognized as applicable by a Nationally
Recognized Testing Laboratory (NRTL).
B. Electrical
1. The IGBT Dimmer electronics shall be completely solid state.
2. The IGBT dimmers shall be immune from damage caused by output short-circuits
between load and neutral or load and ground.
C. Performance
1. The insertion loss (voltage drop across the complete dimmer at full load current while
producing a full output sine wave) shall be less than three volts RMS. Insertion loss at
reduced dimmer loading shall not vary significantly from that produced with a full rated
load. Dimmers with insertion loss greater than three volts RMS at full rated load shall
not be acceptable.
2. The dimmers shall use Digital Power Envelope Processing to regulate dimmer output
to within plus or minus 0.5 volts RMS of the assigned setting. Regulating response
shall occur in the same power line cycle as the disturbance when the dimmer is in
Reverse Phase Control (RPC) mode.
3. The dimmers shall hold last received level for a user pre-specified period, should the
control signal be interrupted.
4. IGBT Dimmer Modules shall automatically switch from Reverse Phase Control (RPC)
mode to Forward Phase Control (FPC) mode when inductive loads are detected. In
RPC mode the dimmer is on from the beginning of the half-cycle until the desired
output voltage is reached. In FPC mode, the dimmer turns on within the half-cycle and
stays on until the end of the half-cycle. Use of RPC mode, when load type and other
conditions permit, reduces the level of lamp filament noise.
5. LOW HARM mode shall reduce harmonic currents present on the feed neutral
conductor by switching the dimmers in the system to an optimum configuration of FPC
and RPC operation. The reduction in neutral current shall be a minimum of 33% with a
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maximum of 100%, depending upon load sizes and their associated levels.
6. When in RPC mode, dimmer output voltage transition time is measured as "fall time".
The actual "fall time" generated shall not be affected by the size of the load present.
Dimmers shall provide a minimum fall time of 800 µS under normal load current
regardless of load.
7. The dimmer transfer function shall comply with the industry standard Square Law
dimming curve within a tolerance of plus or minus 0.5 Volts RMS for all incandescent
loads.
8. Each dimmer shall have an associated Focus push button that provides local
ON/OFF/LEVEL control for focusing, maintenance, and other purposes. If the level set
for a dimmer is zero, tapping the Focus button shall set the dimmer output to full.
Pressing and holding the Focus button ramps the dimmer output up to any
intermediate level. When a non-zero level is received from the controller, the dimmer
shall return to normal operation. Tapping the Focus button, a second time shall also
return the dimmer to normal operation. If a dimmer already has a non-zero level from
the control desk, the Focus button flashes the dimmer to full output.
9. Each dimmer shall have an LED display to facilitate local reporting of operating
conditions.
10. Each IGBT dimmer will detect operating conditions and take active measures to
protect itself (and the load). Protective measures shall include, but are not limited to
the following:
a. At power-up, each 120VAC dimmer will detect line voltages in excess of 180 VAC.
When over-voltage is detected, the dimmer will not turn on its load.
b. Each dimmer shall detect excessive heat sink operating temperatures and shall
automatically reduce its own "fall time", which minimizes the production of heat.
Dimmers will step from 800 µS to 250 µS. If heat continues to rise, the dimmer will
shut down, and flash its locally mounted LED’s.
c. Each dimmer shall detect load current in excess of its own rating. An overload will
cause a dimmer to shut down, and flash its locally mounted LED’s.
D. Equipment List ( quantities as shown in schedules, tables, and drawings ):
1.
OPT20HP
Dual 2000VA IGBT Dimmer Module, 120 Volt
2.
OPT22400
Dual 2400VA SCR Inductive Dimmer Module, 120 Volt
3.
OPT22400HDF Dual 2400VA PowerSpecHDF Dimmer Module, 120 Volt
4.
OPT21800EB
Dual 1800VAAdvance Mark10 Dimmer Module, 120 Volt
5.
OPT22400RL
Dual 2400W Relay Module, 120 Volt
6.
OPT22000F
Dual 2000VA Magnetic Fluorescent Module, 120 Volt
7.
OPT41000HP
Quad 1000VA IGBT Dimmer Module, 120 Volt
8.
OPT42000
Quad 2000W SCR Inductive Dimmer Module, 120 Volt
9.
OPT42400HDF Quad 2400VA PowerSpecHDF Dimmer Module, 120 Volt
10.
OPT41800EB
Quad 1800VA Advance Mark10 Dimmer Module, 120 Volt
11.
OPT42400RL
Quad 2400W Relay Module, 120 Volt
12.
OPT24007
Dual 4000VA SCR Dimmer Module, 277 Volt
13.
OPT24000HDF7 Dual 4000VA PowerSpec HDF Dimmer Module, 277 Volt
14.
OPT21800EB7
Dual 3000VA Advance Mark10 Dimmer Module, 277 Volt
15.
OPT22000F7
Dual 4000VA 3-Wire Phase Controlled Fluorescent, 277 Volt
16.
OPT22400RL7
Dual 4000W Relay Module, 277 Volt
17.
OPT420007
Quad 4000VA SCR Inductive Dimmer Module, 277 Volt
18.
OPT41800EB7
Quad 3000VA Advance Mark10 Dimmer Module, 277 Volt
19.
OPT42400RL7
Quad 4000W Relay Module, 277 Volt
20.
OPT20HP7
Dual 20A IGBT 277V
21.
OPT42000HP7 Quad 2000W IGBT 277V
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2.28
MultiSet Pro Lighting Control System
A. Multiset Pro Dimmer
1. Preset dimmer shall be designer style device and shall gang with any designer style
device.
2. Preset dimming control shall be able to operate at rated load capacity without
adversely effecting expected design life.
3. Keypad shall be line voltage (120VAC) with Hot, Neutral, and Ground.
4. “Strap” models (MSP) shall fit in standard single gang contractor box (3.5 inch deep)
without the need to be derated when ganging with other Multiset Pro devices or other
designer style devices.
5. “Heatsink” models (MHP) shall fit in standard single gang contractor box (3.5 inch
deep) when mounted alone.
6. MHP models shall be able to be mounted with other MHP devices without the need to
be derated. MHP models shall be mounted in “no fins broken” or “fins broken”
configurations only. MHP models shall be compatible with Lightolier Controls Multigang “NFB or FB” faceplates or can be mounted in standard 4” x 4” wireway for ease
of installation using faceplates provided.
7. MSP model shall be available in minimum 600-watt universal load rated devices. Load
to be controlled shall be incandescent, low voltage magnetic incandescent, neon/cold
cathode, fluorescent, fan, Lightolier Controls “DA” series amplifiers, and general
inductive loads.
8. MSP model shall be available in 300-watt electronic low voltage incandescent. Device
shall match universal dimmer in fit and appearance.
9. MSP model shall be available in a 600HDF direct drive for operation with Lightolier
Controls PowerSpec HDF fluorescent Dimming Ballasts or “DA” series amplifiers (120volt applications). Device shall match universal dimmer in fit and appearance.
10. MHP model shall be available in 600-watt, 1000-watt, 1500-watt, and 2000-watt
universal load rated devices.
11. Loads to be controlled shall be incandescent, low voltage magnetic incandescent,
neon/cold cathode, fluorescent, fan, and general inductive loads.
12. MHP model shall be available in 500-watt electronic low voltage incandescent. Device
shall match MHP 600 and 1000 watt universal dimmer in fit and appearance.
13. MHP model shall be available in 600 or 1500HDF direct drive for operation with
Lightolier Controls PowerSpec HDF fluorescent Dimming Ballasts or “DA” series
amplifiers (120VAC applications). Device shall match 600VA and 1500VA universal
dimmers in fit and appearance.
14. All dimmers shall communicate on a single line voltage wire interconnected between
all electronic MHP devices, optional MHP interface devices, and preset keypads
completely independent of phase.
15. This interconnect will occur within each unique control system consisting of up to thirty
(30) devices.
B. Multiset Pro Switch (ND)
1. Non-Dim (ND) strap style switch shall be designer style device and shall gang with any
designer style device.
2. ND switch shall be able to operate at rated load capacity without adversely effecting
expected design life.
3. “Strap” model (MSP) shall fit standard single gang contractor box (3.5 inch deep)
without the need to be derated when ganging with other Multiset Pro devices or other
designer style devices.
4. “Heatsink” model (MHP) shall fit in standard single gang contractor box (3.5 inch deep)
when mounted alone.
5. MHP model shall be able to be mounted with other MHP devices without the need to
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be derated. MHP model shall be mounted in no fins broken configurations only. MHP
models shall be compatible with Lightolier Controls Multi-gang “NFB” or “FB”
faceplates or can be mounted in standard 4”x 4” wireway for ease of installation using
faceplates provided.
6. MSP models shall be available in 600-watt universal load rated devices. Load to be
controlled shall be any general resistive or inductive non-dim type load.
7. MHP models shall be available in 1000-watt and 2000-watt universal load rated
devices only. Load to be controlled shall be any general resistive or inductive non-dim
type load.
8. All electronic switches must operate on a single line voltage communication wire
interconnected between all dimmers, optional interface devices, and preset keypads
completely independent of phase. This interconnect shall occur within each unique
control system consisting of up to thirty (30) devices.
C. Multiset Pro Dimmer/Switch Features
1. All models shall be capable of “learning” thirteen (13) preset levels and recalling those
presets with a touch of a button. Preset levels shall be set (learned) by using a nonextrusive set button located on each control device.
2. Preset level shall not be learned until the set button is pressed. This feature shall allow
manual setting, which will not affect preset levels (manual override).
3. All models will return to previous level after power failure.
4. Dimming models shall allow fade rates between presets to be selected in twelve steps
from 1.5 sec to 60 min.
5. Dimming models shall fade to preset level with a single press of a button or by-pass
Fade Rate and quickly move to these levels with a double press.
6. All models shall incorporate a red LED indicator to display current output level. Preset
level shall be indicated by a single soft glow LED.
7. All models shall have a built in LED at the top of the trim ring for locating the device
while in an Off state.
8. All models shall incorporate a positive air gap switch accessible without removal of
faceplate.
D. Sources
1. Dimmers shall be able to control the following sources (load types) with a smooth
continuous Square Law-dimming curve:
a. Incandescent,
b. Low Voltage Magnetic Transformers
c. Neon/Cold Cathode.
2. Dimmer shall contain circuitry to provide symmetrical waveforms to prevent DC offset
voltage from being delivered to the load being controlled.
3. Dimmers shall be compatible with diode type lamps.
4. Dimmers shall be input voltage compensated to eliminate output sag during
momentary input voltage fluctuations.
5. Dimmers shall contain “soft start” circuitry to minimize turn on in-rush current.
6. DA amplifiers shall be available for channels/zones requiring multiple circuits dimmed
together or larger loads. DA amplifiers shall be compatible with Lightolier Controls HDF
load rated dimmers.
7. Electronic Low Voltage Transformers
a. Dimmers shall provide flicker free performance with no interaction between
dimmed circuits.
b. For larger load applications, a “DA” amplifier shall be available. Amplifier shall be
compatible with Multiset Pro (HDF) dimmers.
8. Electronic Fluorescent Dimming Ballasts (GLT/HDF/EB)
a. Dimmers shall be compatible with PowerSpec HDF dimming ballasts and Advance
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Mark 10 dimming ballast (EB).
9. Controllable dimming ballasts-PowerSpec HDF T4, T5, T8, and PLT series ballasts.
10. Ballasts shall be available in universal 120/277 volt AC up to four (4) lamp models
(specific to lamp type).
11. Ballasts shall be designed such that 3' and 4' linear T8 models can be mixed on the
same dimmed circuit and maintain consistent light output at any output level.
12. Ballasts should be capable of striking lamps at any light level.
13. Ballasts shall comply with an “A” sound rating.
14. Ballasts output level should be flicker free though out the entire dimming range.
a. Direct drive dimmers shall be available for 120 volt AC applications.
b. DA amplifiers shall be available for channels/zones requiring multiple circuits to be
dimmed together or circuits that require control of loads that exceed individual
dimmer rating. HDF load dimmers shall be used in conjunction with these DA
amplifiers.
c. DA amplifiers shall be used in conjunction with HDF load dimmers for all dimming
ballasts circuited at 277 volts AC.
15. Neon/Cold Cathode Transformers
a. Dimmer shall be capable of dimming lamps to 10% of full output when used with
normal (low) power factor transformers.
b. Dimmer shall be able to dim lamp free of flicker or striations over the entire
dimming range.
c. Lamps suitable for dimming must be used for optimum performance.
d. It is the installing contractors' responsibility to insure that all lamps and wiring are
as specified in manufacturer’s product literature.
E. Eight, Five and Two Scene Keypad Controls
1. Keypad shall be designer style device and shall gang with any designer style device.
2. Keypad shall be line voltage (120VAC) with Hot, Neutral, Communication, and
Ground. A single line voltage rated conductor (purple wire) shall be used as control
data conductor.
3. The five-scene keypad shall be capable of recalling five (5) presets and Off.
4. The eight-scene keypad shall be capable of recalling eight (8) presets.
5. The two-scene keypad shall be capable of recalling the On scene and Off.
6. Keypad shall allow raise and lower of all dimmers on the system by holding the On or
Off buttons on the Classic Series or the Raise/Lower arrows on the Ellipse Series
(except eight scene keypad).
7. Keypad push buttons shall be back lighted for locating button in a dark room.
8. Classic Series keypad shall have removable keycaps and be provided with a
preprinted label sheet for labeling in the field. Ellipse Series keypad shall allow for
optional factory custom engraving.
9. Manufacturer shall provide strap (MSP) and heatsink (MHP) type keypads.
10. Five and Two scene keypads shall display the On button when system is left in the Off
scene and any dimmer or electronic switch is turned on (Feedback).
F. Channel Remotes
1. Channel remote shall be designer style device and shall gang with any designer style
device.
2. Channel remote shall provide multi-location control of a single Multiset Pro dimmer.
Remote shall provide all functions available at the dimming device with the exception
of the "Learn" and LED indicators.
3. Channel remote shall have a built in red LED at the top of the trim ring for locating
device while in an Off state.
4. Manufacturer shall not limit the number of channel remotes used with a single dimmer.
5. Channel remote shall be line voltage wired only.
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6. Manufacturer shall provide strap (MSP) and heatsink (MHP) models.
G. Interface Control Options
1. Isolated momentary dry switch closures. When indicated on the drawings momentary
dry switch closures shall be connected between the function being controlled and
system ground. When momentary inputs are required at least one five scene keypad
for each system being controlled must be specified as the AV suffix keypad.
(MSP5AVES / MHP5AVES)
2. Astronomical time clock control inputs utilizing Lightolier Controls CLTCCO-MS time
clock option. Where indicated on drawings, contractor to provide one line voltage
conductor from each system to be controlled (up to nine) back to clock location. Time
clock option will require a dedicated 120-volt AC feed.
3. Infrared receiver/transmitter, wall, and ceiling mounted, utilizing Lightolier Controls
CLM-IRW/IRC wireless IR options. Where indicated on the drawing, contractor to pull
eight 22 gauge Class 1 conductors from receiver to one (1) five-scene keypad location.
Keypad must be specified as the AV suffix keypad (MSP5AVES / MHP5AVES).
4. Occupancy sensor utilizing Lightolier Controls wall and ceiling mounted detectors.
Models CSOSLV (wall unit) and OSPSSYS with OSC (ceiling mount) shall be used to
trigger a preset scene when the room is occupied and to turn lights off when room has
been vacated. Occupancy system shall be configurable to provide manual/auto-on,
adjustable time out, sensitivity, and coverage area. System shall have built in time
delay after Off command is sent to allow occupant to exit the room. Where indicated
on the drawings, contractor shall pull eight (8) 22 gauge Class 1 conductors from
receiver (OSPSSYS / CSOSLV) to one (1) five-scene keypad location. Keypad must
be specified as the audio-visual (AV) suffix keypad (MSP5AVES / MHP5AVES).
5. Serial communication EIA RS-232 utilizing Lightolier Controls MS232 interface. Where
indicated on the drawings, contractor to provide one (1) 120 volt AC power circuit and
pull one (1) line voltage conductor from system to be controlled. RS232 interface shall
provide scene control and feedback in a standard ASCII format.
a. Interface shall be provided with setup software and a four-pin line voltage rated
wall outlet for ease of installation. Interface shall be provided with LED indicators
and push buttons for scene selection and troubleshooting.
b. Interface shall be EIA-485 compatible for linking multiple systems together on a
single network. Interface shall be addressable to allow up to thirty (30) interfaces to
be controlled from single communications port.
2.29
Brilliance II Lighting Control System
A. Brilliance II Control Center - BCCII
1. Housing shall be wall mounted and constructed of #14 gauge CRS measuring 12”
wide by 16" tall by 4-1/8" deep, with antique white enamel finish.
2. A removable front panel shall provide access to all components and terminations from
the front and serve as partition between low and high voltage sections of the BCCII.
3. No field assembly shall be required except for the insertion of interface cards.
4. Power and control terminals shall be of the tubular compression type and be clearly
labeled for identification. The System shall operate either at 120/240 VAC single phase
3 wire with ground, or 120VAC single phase two wire with ground.
5. Brilliance II Control Center current draw shall not exceed one (1) Ampere and operate
in an ambient temperature not to exceed one hundred four (104ï‚°) degrees Fahrenheit
(40ï‚°C).
6. The system shall be capable of self-diagnostics.
7. Each BCCII shall be provided with twelve (12) card slots that can accept up to twelve
system control cards.
8. Two (2) BCCII's can be combined in conjunction with six (6) MS232’s to expand
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system capabilities to thirty (30) rooms.
9. The total number of Brilliance II Control Stations shall not exceed thirty (30) per
system.
10. The BCCII shall be capable of interfacing with remote signaling devices such as
security systems, building management systems, etc., provided an isolated (dry)
momentary closure can be supplied by the signaling system.
11. Brilliance II Multiset Pro Interface Card (BRMSM)
a. The BRMSM cards are intended to control only Multiset Pro systems using the
Multiset Pro systems network (“purple wire”). The card shall have LED status
indicator and test switches to activate and diagnose system.
12. Brilliance II Relay Input/Output Interface Card (BRRLY)
a. The BRRLY relay interface card shall activate the four (4) relay outputs and
provide the capability of configuring the four (4) relay inputs to activate a lighting
scene or relay output.
13. Brilliance II Communications Interface Card (BRCOMM)
a. The BRCOMM communications interface card shall provide RS-232 and RS-485
interface from a personal computer by accepting standard ASCII commands to
activate Brilliance II devices.
14. Brilliance II Time Clock Interface Card (BRTLCK)
a. The BRTLCK time clock interface, shipped with the Brilliance II Time Clock, is
required when using the time clock and occupies one (1) slot.
15. Brilliance II Programmable Control Stations
a. Each designer style Brilliance II Control Station shall contain a set of illuminated
buttons for On/Scene/Off control of single or multiple devices connected to the
Brilliance II Control Center (BCC).
b. Stations shall mount in a single gang wallbox or in a multi-gang box with other
Brilliance II Control Stations or other compatible devices.
c. All wiring shall be electrical low voltage and shall be wired and grounded in
accordance with National Electrical Code and other local regulations.
d. All Control Station buttons shall be field labeled with custom room identification
engraving provided by manufacturer.
e. Activated buttons shall have illuminated on / off status indication.
f. There shall be no moving or protruding parts available to user once Control Station
is installed.
2.30
Compli Faceplates
A. Faceplates shall have no visible screws and shall fit over all designer style control
openings.
B. Faceplates shall be compatible with Brilliance II, Multiset Pro, and Sunrise dimmers and
switches as well as other designer style wiring devices such as switches, receptacles,
jacks, and controls supplied on this project.
C. Faceplates shall be capable of covering dimmers, switches, and other devices ganged
with preset control stations.
D. Faceplates shall "snap-on" securely to back plate.
E. Back plate shall have "self-aligning" tabs that center all devices automatically upon
installation.
F. Faceplates shall be made of durable impact-resistant plastic material.
G. Faceplates shall be available in one through four (1-4) gang configurations.
H. Faceplates shall be available in the following colors (not all colors may be available for all
devices):
1. White
2. Ivory
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3.
4.
5.
6.
7.
2.31
Black
Brown
Grey
Almond
Light Almond
Captivation Distributed Load Controllers
A. Single circuit distributed load control for dimming and switching loads.
B. Two base models shall exist:
1. Single circuit Phase dimming device capable of dimming loads requiring forward or
reverse phase dimming.
2. Single circuit 0-10V dimming device with integrated relay capable of driving switching
or 0-10V style drivers.
C. Universal performance electrical/mechanical specification for all Captivation models:
1. Shall mount to a standard or deep 4x4 electrical junction box.
2. All operate to specified load ranges (as listed below) without the use of moving parts
for cooling.
3. Shall be constructed of 16 Gauge Galvanized Steel and be capable of use in all U.S.
and Canadian municipalities.
4. Units shall take in 120V or 277V without the need for different models.
5. All models shall hold a UL916 and UL924 ratings.
6. Additionally software or hardware purchased add-ons shall not be required for UL924
operation.
7. Unit shall have an integrated power supply capable of driving an 60mA 24V motion
sensor without the need of an external power pack.
8. Optional models shall exist to directly support City of Chicago Plenum Requirements
without the need for special exception from the City of Chicago.
9. User selectable dimming curves shall exist and be settable via software. Additionally
custom curves shall be programmable using external software tools.
10. Housing shall legally allow for entry of wiring on both the high voltage and control
cabling via EMT or ‘free-air’ cabling.
11. Units shall be rated to operate at 0-50C ambient with a relative humidity of 10-90%
non-condensing.
D. Communication performance specification for all Captivation models:
1. All models shall be provisioned to accept RS485 communication using direct wiring
terminal interfacing or through the use of RJ45 connectors.
2. Units shall support the following data capabilities without the need for additional
hardware or software add-ons.
a. DMX512A input, default addressed to channel #1.
b. Philips DyNet.
c. No less than three low voltage (24VDC) Contact inputs allowing triggers of
internally stored states.
d. UL924 input for Emergency lighting capable of software configuration as a
normally open or normally closed input. (Default shall be normally open, and not
require software setup for operation in this state).
e. Direct connection from a motion sensor for occupancy state.
f. Testing of the attached load shall be possible directly at the load controller through
a test button which will override data input. The manual override shall be resettable
through remote software.
E. Single circuit Phase dimming device performance specification:
1. Device shall be capable of switching from Forward Phase and reverse phase using a
hardware settable switch on the load controller. Software changes of this setting shall
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not be acceptable.
2. Load controller shall have a published rating for resistive, tungsten, electric, magnetic
halogen, and electrical halogen load drivers at 5A and 120V 50/60Hz and 2.2A and
277V 50/60Hz.
F. Single circuit 0-10V dimming device with integrated relay device performance
specification:
1. Device shall be capable of controlling 0-10V (ANSI C82.11) drivers.
2. 0-10V drive shall be capable of sourcing or sinking 40mA minimum.
3. An integrated relay be rated at a minimum of 16A @ 120V and 10A @ 277V.
4. The integrated relay shall operate mechanically. Electrically held relays shall not be
acceptable.
5. Termination of 0-10V control to the controller shall be possible regardless of wiring
entrance via Class 1 or Class 2.
6. Load controller shall a have published rating for resistive, tungsten, electric ballast,
electronic ballast, magnetic halogen, and electrical halogen load drivers at 16A and
120V 50/60Hz and 10A and 277V 50/60Hz.
7. A listed horsepower rating shall be provided for motor loads of a minimum of 1HP for
120V 50/60Hz and 2HP and 277V 50/60Hz.
2.32
Sunrise Preset Electronic Wall Dimmer
A. The Sunrise Preset Strap Type Incandescent Dimmer is a designer-style, preset slide
dimmer, developed to control LED, CFL, incandescent, magnetic or electronic low voltage,
fluorescent, neon, and fan loads. The unit is equipped with an off-status LED and provides
both three-way and multi-location On/Off control when used with Sunrise Preset Remotes.
B. Dimmer:
1. Streamlined appearance and operations.
2. An LED light—to help locate the push button when the unit is turned off.
3. The integral slide knob has extended travel for full-range dimming control.
4. Air Gap switch shall be provided to completely open the attached circuit.
5. Three-way and multi-location or master control when used with Sunrise Preset
Remotes.
C. Remote:
1. Streamlined appearance and operations.
2. Turns Sunrise Preset Dimmers on, to a preset level, and off.
3. Allows complete control of all dimming capabilities when used with Sunrise Preset
4. Dimmers, even from additional locations.
5. Unlimited remotes can be used for multi-location control.
6. One remote has the ability to master Sunrise Presets.
D. Available in three (3) colors using included field changeable plastics.
1. White
2. Almond
3. Ivory
2.33
LCA Series Power Packs
A. General
1. The Philips LCA series Power Packs are designed to provide low voltage power and
line voltage control for Philips LRM series Occupancy Sensors.
2. LCA series Power Packs shall be compatible with Philips Advance Optanium
Programmed Start electronic ballast and Xitanium LED drivers.
3. The Power Pack is capable of Auto/Manual input, Hold-ON/OFF, and local input for
momentary or maintained dry contact switches.
B. Mechanical
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1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. Power Pack enclosure shall conveniently mount inside or outside a standard junction
box or fluorescent ballast cavity in a knockout hole with a simple twist-on nut.
3. Measure no more than 2.0 x 3.811 x 1.432 inches (60.96 x 96.8 x 36.37 mm).
4. Construction shall be high impact UL rated plastic.
5. Interface operating environment: 32 to 104 degrees Fahrenheit (0 - 40°C) in zero (0) to
90 percent relative humidity, non-condensing.
6. Interface shall be UL/cUL Listed, FCC certified, NOM certified, and meet ASHRAE
90.1 requirements.
7. Power Pack shall be UL 2043 Plenum rated.
8. The LCA Power Pack relay shall utilize Class B (130°C) insulating material and silver
alloy contacts.
9. The LCA Power Pack switching power supply shall utilize six (6”) inch 18 AWG 120230-277VAC wire leads.
10. The low voltage control leads shall be seven (7”) inch 22AWG 24VDC wire.
11. LCA2287 and 2290 Power Packs shall provide the same features as the LCA2285
plus an optional HVAC relay closure consisting of three (3) control leads; Brown-NO,
Brown/White-NC, and Green-Common.
12. LCA2292 Power Pack shall provide the same features as the LCA2287 plus CEC Title
24 compliant Manual ON, Automatic OFF operation.
C. Electrical
1. Internal relay shall be rated for up to twenty (20A) amperes for a 120VAC
incandescent load.
2. Internal relay shall be rated up to twenty (20A) amperes for a 120, 230, or 277VAC
ballast load or fifteen (15A) amperes for a 347VAC ballast load.
3. HVAC relay shall be rated 0.5A @ 120VAC and 1.0A @ 30VDC.
4. Power Pack shall utilize an internal voltage regulator – regulated 24VDC current,
150mA output.
D. Equipment List ( quantities as shown in schedules, tables, and drawings ):
1. LCA2285 Power Pack 120/277 VAC
2. LCA2287 Power Pack 120/277 VAC, HVAC Relay
3. LCA2290 Power Pack 347 VAC, HVAC Relay
4. LCA2287 Power Pack 120/277 VAC, HVAC Relay, Title 24 Manual ON.
2.34
OccuSwitch – LRS2210/2230 PIR Wall Switch Line Voltage
A. General
1. The Philips LRS2210/2230 series wall switch sensors using passive infrared (PIR)
motion detection to detect occupancy status.
2. The sensor is designed to interface with other devices including Philips Advance
Optanium Programmed Start electronic ballast and Xitanium LED drivers.
3. Mechanical
4. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
5. Sensor shall mount in a standard one-gang wall box.
6. Measure no more than 4.06”H inch x 1.75”W and 1.85”D (103.2 x 44.4 x 47.2mm).
7. Construction shall be rugged, high impact, injection molded plastic enclosure.
8. Sensor operating environment: 32 to 122 degrees Fahrenheit (0 - 50°C) in twenty to
ninety (20-90%) percent relative humidity, non-condensing.
9. Sensor field of view shall be at least 180° providing approximately 2100 square feet of
coverage. Integral blinders on either side of the lens shall allow for adjustment of the
field of view from 180 to 60 degrees.
10. LSR2230 shall provide a dial setting to dim and turn off the LED night light function.
11. Sensor shall be UL Listed, CSA certified, comply with CES Title 24 energy Code and
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FCC regulations.
B. Electrical
1. Load Rating:
a. Incandescent: 800VA @ 120VAC
b. Fluorescent: 1200VA @ 120VAC / 2700VA @ 277VAC.
c. Motor: ¼ HP @ 120V
2. Operational Frequencies: 60 Hertz.
3. Sensor shall provide zero crossing switching to maximize contact life and compatibility
with electronic ballasts.
C. Performance
1. LED motion detection and activation indicator.
2. Manual Timer Setting range: 30 seconds to 30 minutes (default = ten (10) minutes).
3. Segment Fresnel lens for optimum sensitivity and detection.
4. At a mounting height range of four (4’) feet the standard lens shall cover an area
approximately sixty (60’) feet by forty (40’) feet (2400 square feet).
D. Equipment List ( quantities as shown in schedules, tables, and drawings ):
1. LRS221000 Wall Switch Occupancy Sensor, 120/277VAC, White.
2. LRS221001 Wall Switch Occupancy Sensor, 120/277VAC, Ivory
3. LRS223000 Wall Switch Occupancy Sensor w/Night Light, 120/277VAC, White.
4. LRS223001 Wall Switch Occupancy Sensor w/Night Light, 120/277VAC, Ivory.
2.35
OccuSwitch – LRS2215 PIR 2 Circuit Wall Switch Line Voltage
A. General
1. The Philips LRS2215 series wall switch sensors using passive infrared (PIR) motion
detection to detect occupancy status.
2. The LRS2215 device shall be capable of controlling two (2) separate lighting loads
simultaneously.
3. The sensor is designed to interface with other devices including Philips Advance
Optanium Programmed Start electronic ballast and Xitanium LED drivers.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. Sensor shall mount in a standard one-gang wall box.
3. Measure no more than 4.06”H inch x 1.75”W and 1.85”D (103.2 x 44.4 x 47.2mm).
4. Construction shall be rugged, high impact, injection molded plastic enclosure.
5. Sensor operating environment: 32 to 122 degrees Fahrenheit (0 - 50°C) in twenty to
ninety (20-90%) percent relative humidity, non-condensing.
6. Sensor field of view shall be at least 180° providing approximately 2100 square feet of
coverage. Integral blinders on either side of the lens shall allow for adjustment of the
field of view from 180 to 60 degrees.
7. Sensor shall be UL Listed, CSA certified, comply with CES Title 24 energy Code and
FCC regulations.
C. Electrical
1. Primary Relay Load Rating - #16 AWG leads:
a. Incandescent: 800 watt @ 120VAC
b. Fluorescent: 1200VA @ 120VAC / 2700VA @ 277VAC.
2. Secondary Relay (isolated contacts) Load Rating - #18 AWG leads:
a. Incandescent: 800 watt @ 120VAC
b. Fluorescent: 800VA @ 120VAC
3. Operational Frequencies: 60 Hertz.
4. Sensor shall provide zero crossing switching to maximize contact life and compatibility
with electronic ballasts.
D. Performance
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1.
2.
3.
4.
LED motion detection and activation indicator.
Manual Timer Setting range: 30 seconds to 30 minutes (default = ten (10) minutes).
Segment Fresnel lens for optimum sensitivity and detection.
At a mounting height range of four (4’) feet the standard lens shall cover an area
approximately sixty (60’) feet by forty (40’) feet (2400 square feet).
E. Equipment List ( quantities as shown in schedules, tables, and drawings ):
1. LRS221500 Wall Switch Occupancy Sensor, Dual Relay 120/277VAC, White.
2. LRS221001 Wall Switch Occupancy Sensor, Dual Relay120/277VAC, Ivory
2.36
OccuSwitch – LRS2220 PIR/US Wall Switch Line Voltage
A. General
1. The Philips LRS2220 wall switch sensors combine digital architecture and both
infrared and ultrasonic (Doppler shift) technologies to detect occupancy status.
2. The sensor is designed to interface with other devices including Philips Advance
Optanium Programmed Start electronic ballast and Xitanium LED drivers.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. Sensor shall mount in a standard one-gang wall box.
3. Measure no more than 4.06”H inch x 1.75”W and 1.85”D (103.2 x 44.4 x 47.2mm).
4. Construction shall be rugged, high impact, injection molded plastic enclosure.
5. Indoor only sensor operating environment: 32 to 122 degrees Fahrenheit (0 - 50°C) in
twenty to ninety (20-90%) percent relative humidity, non-condensing.
6. Sensor field of view shall be at least 180° providing approximately 2100 square feet of
coverage. Integral blinders on either side of the lens shall allow for adjustment of the
field of view from 180 to 60 degrees.
7. Sensor shall be UL Listed, CSA certified, comply with CES Title 24 energy Code and
FCC regulations.
C. Electrical
1. Load Rating:
a. Incandescent: 800VA @ 120VAC
b. Fluorescent: 1200VA @ 120VAC / 2700VA @ 277VAC.
c. Motor: ¼ HP @ 120V
2. Operational Frequencies: 50/60 Hertz.
3. Power Consumption:
a. 120VAC – U/S & PIR 390mW or PIR only 190mW
b. 277VAC – U/S & PIR 480mW or PIR only 270mW.
4. Sensor shall provide zero crossing switching to maximize contact life and compatibility
with electronic ballasts.
D. Performance
1. LED motion detection and activation indicator.
2. Manual Timer Setting range: 30 seconds to 30 minutes (default = ten (10) minutes).
3. Segment Fresnel lens for optimum sensitivity and detection.
4. Photocell shall provide Ambient Light Override keeping controlled lights off when not
necessary.
5. Adjustable photocell 20 to 30,000 Lux, factory default set to 3,000 Lux, disabled.
6. Sensor shall provide a walk-through feature to extinguish lights if occupied for less
than 2.5 minutes.
7. At a mounting height range of four (4’) feet the standard lens shall cover an area
approximately sixty (60’) feet by forty (40’) feet (2400 square feet).
E. Equipment List ( quantities as shown in schedules, tables, and drawings ):
1. LRS222000 Wall Switch Occupancy Sensor, Multi-Tech 120/277VAC, White.
2. LRS222001 Wall Switch Occupancy Sensor, Multi-Tech 120/277VAC, Ivory.
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2.37
OccuSwitch – LRS2225 PIR/US 2 Circuit Wall Switch Line Voltage
A. General
1. The Philips LRS2225 wall switch sensors combine digital architecture and both
infrared and ultrasonic (Doppler shift) technologies to detect occupancy status.
2. The LRS2225 device shall be capable of controlling two (2) separate lighting loads
simultaneously.
3. The sensor is designed to interface with other devices including Philips Advance
Optanium Programmed Start electronic ballast and Xitanium LED drivers.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. Sensor shall mount in a standard one-gang wall box.
3. Measure no more than 4.06”H inch x 1.75”W and 1.85”D (103.2 x 44.4 x 47.2mm).
4. Construction shall be rugged, high impact, injection molded plastic enclosure.
5. Indoor only sensor operating environment: 32 to 122 degrees Fahrenheit (0 - 50°C) in
twenty to ninety (20-90%) percent relative humidity, non-condensing.
6. Sensor field of view shall be at least 180° providing approximately 2100 square feet of
coverage. Integral blinders on either side of the lens shall allow for adjustment of the
field of view from 180 to 60 degrees.
7. Sensor is capable of being utilized as either a single pole or 3-way device.
8. Either sensor, PIR or U/S, shall be capable of being disabled.
9. Sensor shall be UL Listed, CSA certified, comply with CES Title 24 energy Code and
FCC regulations.
C. Electrical
1. Primary Relay Load Rating - #16 AWG leads:
a. Incandescent: 800 watt @ 120VAC
b. Fluorescent: 1200VA @ 120VAC / 2700VA @ 277VAC.
2. Secondary Relay (isolated contacts) Load Rating - #16 AWG leads:
a. Incandescent: 800 watt @ 120VAC
b. Fluorescent: 800VA @ 120VAC / 1200VA @ 277VAC
c. Motor: ¼ HP @ 120VAC
3. Operational Frequencies: 50/60 Hertz.
4. Power Consumption:
a. 120VAC – U/S & PIR 210mW
b. 277VAC – U/S & PIR 410mW
5. Sensor shall provide zero crossing switching to maximize contact life and compatibility
with electronic ballasts.
D. Performance
1. LED motion detection and activation indicator.
2. Manual Timer Setting range: 30 seconds to 30 minutes (default = ten (10) minutes).
3. Segment Fresnel lens for optimum sensitivity and detection.
4. Photocell shall provide Ambient Light Override keeping controlled lights off when not
necessary.
5. Adjustable photocell 20 to 30,000 Lux, factory default set to 3,000 Lux, disabled.
6. Sensor shall provide a walk-through feature to extinguish lights if occupied for less
than 2.5 minutes.
7. At a mounting height range of four (4’) feet the standard lens shall cover an area
approximately sixty (60’) feet by forty (40’) feet (2400 square feet).
E. Equipment List ( quantities as shown in schedules, tables, and drawings ):
1. LRS222000 Wall Switch Occupancy Sensor, Multi-Tech 120/277VAC, White.
2. LRS222001 Wall Switch Occupancy Sensor, Multi-Tech 120/277VAC, Ivory.
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2.38
OccuSwitch – LRM2240 / LRM2245 PIR Ceiling Line Voltage
A. General
1. The Philips LRM2240/2245 ceiling sensors combine passive infrared motion detection
(PIR) and ambient light level detection (PE) in the one device.
2. The sensor is designed to interface with other devices including Philips Advance
Optanium Programmed Start electronic ballast and Xitanium LED drivers.
3. Mechanical
4. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
5. Sensor shall ceiling surface mount on a standard three or four inch (3”/4”) octagon
back box.
6. Measure no more than 4.3” inches diameter and 2.15” depth (109.2 x 54.6 mm).
7. Construction shall be rugged, high impact, injection molded plastic enclosure.
8. Sensor operating environment: 32 to 122 degrees Fahrenheit (0 - 50°C) in twenty to
ninety (20-90%) percent relative humidity, non-condensing.
9. Sensor shall be UL Listed, CSA certified, comply with CES Title 24 energy Code and
FCC regulations.
B. Electrical
1. Load Rating:
a. 1000VA @ 120VAC
b. 2700VA @ 277VAC.
2. Operational Frequencies: 60 Hertz.
3. Power Consumption:
a. 120VAC – 1.45 watts
b. 277VAC – 1.89 watts.
C. Performance
1. Red LED motion detection and activation indicator.
2. Manual Timer Setting range: 20 seconds to 15 minutes.
3. Seventy-Nine (79) segment Fresnel lens for optimum sensitivity and detection.
4. At a mounting height range of eight feet the standard lens shall cover a full circle
twenty-six (26’) feet in diameter (530 square feet).
5. Standard AC toggle switch may be used to provide manual-OFF override so that lights
may be switched off.
D. Equipment List ( quantities as shown in schedules, tables, and drawings ):
1. LRM224000 Line Voltage Occupancy Sensor, 120VAC, Ceiling Mount
2. LRM224500 Line Voltage Occupancy Sensor, 277VAC, Ceiling Mount.
2.39
OccuSwitch – LRM2250 PIR Ceiling Low Voltage
A. General
1. The Philips LRM2250 ceiling sensor is a low voltage occupancy detector that works in
conjunction with Philips LCA series Power Packs to control lighting.
2. The sensor is designed to interface with other devices including Philips Advance
Optanium Programmed Start electronic ballast and Xitanium LED drivers.
3. Once installed, the LRM2250 does not require manual adjustment or calibration.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. Sensor shall be ceiling surface mount on a standard three or four inch (3”/4”) octagon
back box, threaded rod, or drop ceiling directly.
3. Measure no more than 4.5” inches diameter and 1.5” depth (114 x 38 mm).
4. Weigh no more than 5 ounces (.142 kg).
5. Construction shall be rugged, high impact, injection molded plastic enclosure.
6. Indoor only sensor operating environment: 32 to 104 degrees Fahrenheit (0 - 40°C) in
zero to ninety-five (0-95%) percent relative humidity, non-condensing.
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7. Non-Volatile memory shall maintain learned and adjusted settings in the event of
power failure.
8. Sensor shall be UL Listed, CSA certified, comply with CES Title 24 energy Code and
FCC regulations.
C. Electrical
1. Input power shall be 24 VDC, 20mA provided from Philips series Power Pack.
2. Output: 24 volt DC active high logic control signal with short circuit protection.
3. Wire Designations – Class II:
4. Power (+24 volt) Red #24 AWG 200°C/600V
5. DC Return Black #24 AWG 200°C/600V
6. Occupancy Blue #24 AWG 200°C/600V
7. Occupancy/Photocell Gray #24 AWG 200°C/600V
D. Performance
1. Red LED motion detection and activation indicator.
2. Manual Timer Setting range: 30 seconds to 30 minutes, factory default set to 10
minutes.
3. Photocell shall provide Ambient Light Override keeping controlled lights off when not
necessary.
4. Adjustable photocell 20 to 30,000 Lux, factory default set to 3,000 Lux, disabled.
5. Sensor shall provide a walk-through feature to extinguish lights if occupied for less
than 2.5 minutes.
6. At a mounting height range of eight (8’) feet the standard lens shall cover a full circle
forty x (40’) feet in diameter (1256 square feet).
E. Equipment List ( quantities as shown in schedules, tables, and drawings ):
1. LRM225000 Low Voltage Occupancy Sensor, Ceiling Mount
2.40
OccuSwitch – LRM2255 / LRM2260 PIR/US Ceiling Low Voltage
A. General
1. The Philips LRM2255/2260 ceiling sensors combine digital architecture and both
infrared and ultrasonic (Doppler shift) technologies into low voltage occupancy
detectors that work in conjunction with Philips LCA series Power Packs to control
lighting.
2. The sensor is designed to interface with other devices including Philips Advance
Optanium Programmed Start electronic ballast and Xitanium LED drivers.
3. Once installed, the LRM2255/2260 does not require manual adjustment or calibration.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. Sensor shall surface mount on a standard three or four inch (3”/4”) octagon back box,
threaded rod, or drop ceiling directly.
3. Measure no more than 4.5” inches diameter and 1.5” depth (114 x 38 mm).
4. Weigh no more than 5 ounces (.142 kg).
5. Construction shall be rugged, high impact, flame class rating, UV inhibitors injection
molded plastic enclosure.
6. Sensor operating environment: 32 to 104 degrees Fahrenheit (0 - 40°C) in zero to
ninety-five (0-95%) percent relative humidity, non-condensing.
7. Non-Volatile memory shall maintain learned and adjusted settings in the event of
power failure.
8. Sensor shall be UL Listed, CSA certified, comply with CES Title 24 energy Code and
FCC regulations.
C. Electrical
1. Input power shall be 24 VDC, 20mA provided from Philips series Power Pack.
2. Output: 24 volt DC active high logic control signal with short circuit protection.
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Wire Designations – Class II:
Power (+24 volt) Red #24 AWG 200°C/600V
DC Return Black #24 AWG 200°C/600V
Occupancy Blue #24 AWG 200°C/600V
Occupancy/Photocell Gray #24 AWG 200°C/600V.
Sensor shall contain two (2) 16mm diameter crystal controlled ultrasonic transmitters
and two (2) 16mm ultrasonic receivers
D. Performance
1. Red LED infrared motion detection and green LED ultrasonic motion detection.
2. Manual Timer Setting range: 30 seconds to 30 minutes, factory default set to 10
minutes.
3. A DIP switch controlled six (6) second time-out Test Mode shall be included.
4. Photocell shall provide Ambient Light Override keeping controlled lights off when not
necessary.
5. Adjustable photocell 20 to 30,000 Lux, factory default set to 3,000 Lux, disabled.
6. Sensor shall provide a walk-through feature to extinguish lights if occupied for less
than 2.5 minutes.
7. At a mounting height range of eight (8’) feet the standard lens shall cover a full circle
forty x (40’) feet in diameter (1256 square feet).
E. Equipment List ( quantities as shown in schedules, tables, and drawings ):
1. LRM226000 Low Voltage Sensor, Multi-Tech Ceiling Mount, 500 sq. ft. 40kHz.
2. LRM225500 Low Voltage Sensor, Multi-Tech Ceiling Mount, 2000 sq. ft. 32kHz.
3.
4.
5.
6.
7.
8.
2.41
OccuSwitch – LRM2265 PIR Wall Mount Low Voltage
A. General
1. The Philips LRM2265 wall mount sensor is a low voltage occupancy detector that
works in conjunction with Philips LCA series Power Packs to control lighting.
2. The sensor is designed to interface with other devices including Philips Advance
Optanium Programmed Start electronic ballast and Xitanium LED drivers.
3. Once installed, the LRM2265 does not require manual adjustment or calibration.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. Sensor base shall surface mount on a standard three or four inch (3”/4”) octagon back
box, threaded rod, or drop ceiling directly.
3. LRM2265 sensor shall provide a flexible mounting to base with twist-and-lock feature
permitting fast alignment.
4. Measure no more than 4.5” inches diameter and 1.5” depth (114 x 38 mm).
5. Weigh no more than 5 ounces (.142 kg).
6. Construction shall be rugged, high impact, injection molded plastic enclosure.
7. Lens opening shall have 36 elements providing 72 zones.
8. Sensor operating environment: 32 to 104 degrees Fahrenheit (0 - 40°C) in zero to
ninety-five (0-95%) percent relative humidity, non-condensing.
9. Sensor shall be UL Listed, CSA certified, comply with CES Title 24 energy Code and
FCC regulations.
C. Electrical
1. Input power shall be 24 VDC, 20mA provided from Philips series Power Pack.
2. Output: 24 volt DC active high logic control signal with short circuit protection.
3. Wire Designations – Class II:
a. Power (+24 volt) Red #24 AWG 200°C/600V
b. DC Return Black #24 AWG 200°C/600V
c. Occupancy Blue #24 AWG 200°C/600V
d. Occupancy/Photocell Gray #24 AWG 200°C/600V
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D. Performance
1. Red LED infrared motion detection, green LED ultrasonic motion detection.
2. Manual Timer Setting range: 30 seconds to 30 minutes, factory default set to 10
minutes.
3. Photocell shall provide Ambient Light Override, keeping controlled lights off when not
necessary.
4. Motion Sensitivity:
5. Infrared 0 to 100%; red knob (factory set at 75%).
6. Ultrasonic 0 to 100%; green knob (factory set at 50%).
7. Adjustable blue bulb photocell 20 to 30,000 Lux, factory default set to 3,000 Lux,
disabled.
8. Sensor shall provide a walk-through feature to extinguish lights if occupied for less
than 2.5 minutes.
9. At a mounting height range of eight (8’) feet the minimum Field of View shall be:
10. Infrared - 110° aperture with a radius of fifty-eight (58’) feet.
11. Ultrasonic – Major motion 16’ x 32’ / Minor motion 11.5’ x 23’
E. Equipment List ( quantities as shown in schedules, tables, and drawings ):
1. LRM226500 Low Voltage Occupancy Sensor, Multi-Tech Wall Mount
2.42
OccuSwitch – LRM2270 PIR Wall Mount Wide View Low Voltage
A. General
1. The Philips LRM2270 wall mount infrared sensor is a wide view low-voltage
occupancy detector that works in conjunction with Philips LCA series Power Packs to
control lighting.
2. The sensor is designed to interface with other devices including Philips Advance
Optanium Programmed Start electronic ballast and Xitanium LED drivers.
3. Once installed, the LRM2270 does not require manual adjustment or calibration.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. LRM2270 sensor shall provide a flexible mounting to base with twist-and-lock feature
permitting fast alignment.
3. Sensor base shall surface mount on a standard three or four inch (3”/4”) octagon back
box, threaded rod, or drop ceiling directly.
4. Overall sensor dimensions shall not exceed 6.43” height, 4’ width, and 4.67” depth
(16.24 cm x 10.16 cm x 11.87 cm).
5. Weigh no more than 5 ounces (.142 kg).
6. Construction shall be rugged, high impact, injection molded plastic enclosure.
7. Lens opening shall have 36 elements providing 72 zones.
8. Sensor operating environment: 32 to 104 degrees Fahrenheit (0 - 40°C) in zero to
ninety-five (0-95%) percent relative humidity, non-condensing.
9. Sensor shall be UL Listed, CSA certified, comply with CES Title 24 energy Code and
FCC regulations.
C. Electrical
1. Input power shall be 24 VDC, 20mA provided from Philips series Power Pack.
2. Output: 24 volt DC active high logic control signal with short circuit protection.
3. Wire Designations – Class II:
a. Power (+24 volt) Red #24 AWG 200°C/600V
b. DC Return Black #24 AWG 200°C/600V
c. Occupancy Blue #24 AWG 200°C/600V
d. Occupancy/Photocell Gray #24 AWG 200°C/600V
D. Performance
1. Red LED infrared motion detection.
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2. Manual Timer Setting range: 30 seconds to 30 minutes, factory default set to 10
minutes.
3. Photocell shall provide Ambient Light Override, keeping controlled lights off when not
necessary.
4. Adjustable blue bulb photocell 20 to 30,000 Lux, factory default set to 3,000 Lux,
disabled.
5. Motion Sensitivity: Infrared 0 to 100%; red knob (factory set at 75%).
6. Sensor shall provide a walk-through feature to extinguish lights if occupied for less
than 2.5 minutes.
7. At a mounting height range of eight (8’) feet the minimum Field of View with a 110°
aperture shall have a radius of fifty-eight (58’) feet.
E. Equipment List ( quantities as shown in schedules, tables, and drawings ):
1. LRM227000 Low Voltage Occupancy Sensor, Wall Mount
2.43
OccuSwitch – LRM2275 PIR High Bay Low Voltage
A. General
1. The Philips LRM2275 high bay infrared sensor is a wide view low-voltage occupancy
detector that works in conjunction with Philips LCA series Power Packs to control
lighting.
2. The sensor is designed to interface with other devices including Philips Advance
Optanium Programmed Start electronic ballast and Xitanium LED drivers.
3. Once installed, the LRM2275 does not require manual adjustment or calibration.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. LRM2275 sensor shall provide a flexible mounting to base with twist-and-lock feature
permitting fast alignment.
3. Sensor base shall surface mount on a standard three or four inch (3”/4”) octagon back
box, threaded rod, or drop ceiling directly.
4. Overall sensor dimensions shall not exceed 6.43” height, 4’ width, and 4.67” depth
(16.24 cm x 10.16 cm x 11.87 cm).
5. Weigh no more than 5 ounces (.142 kg).
6. Construction shall be rugged, high impact, injection molded plastic enclosure.
7. Lens opening shall have 36 elements providing 72 zones.
8. Sensor operating environment: 32 to 104 degrees Fahrenheit (0 - 40°C) in zero to
ninety-five (0-95%) percent relative humidity, non-condensing.
9. Sensor shall be UL Listed, CSA certified, comply with CES Title 24 energy Code and
FCC regulations.
C. Electrical
1. Input power shall be 24 VDC, 20mA provided from Philips series Power Pack.
2. Output: 24 volt DC active high logic control signal with short circuit protection.
3. Wire Designations – Class II:
a. Power (+24 volt) Red #24 AWG 200°C/600V
b. DC Return Black #24 AWG 200°C/600V
c. Occupancy Blue #24 AWG 200°C/600V
d. Occupancy/Photocell Gray #24 AWG 200°C/600V
D. Performance
1. Red LED infrared motion detection.
2. Manual Timer Setting range: 30 seconds to 30 minutes, factory default set to 10
minutes.
3. Photocell shall provide Ambient Light Override, keeping controlled lights off when not
necessary.
4. Adjustable blue bulb photocell 20 to 30,000 Lux, factory default set to 3,000 Lux,
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disabled.
5. Motion Sensitivity: Infrared 0 to 100%; red knob (factory set at 75%).
6. Sensor shall provide a walk-through feature to extinguish lights if occupied for less
than 2.5 minutes.
7. At a mounting height range of eight (8’) feet the minimum Field of View with a 110°
aperture shall have a radius of fifty-eight (58’) feet.
E. Equipment List ( quantities as shown in schedules, tables, and drawings ):
1. LRM227500 Low Voltage Occupancy Sensor, Wall Mount High Bay
2.44
OccuSwitch – LRM2280 PIR High Bay Long Range Low Voltage
A. General
1. The Philips LRM2280 infrared sensor is a long range low-voltage occupancy detector
that works in conjunction with Philips LCA series Power Packs to control lighting.
2. The sensor is designed to interface with other devices including Philips Advance
Optanium Programmed Start electronic ballast and Xitanium LED drivers.
3. Once installed, the LRM2275 does not require manual adjustment or calibration.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. LRM2275 sensor shall provide a flexible mounting to base with twist-and-lock feature
permitting fast alignment.
3. Sensor base shall surface mount on a standard three or four inch (3”/4”) octagon back
box, threaded rod, or drop ceiling directly.
4. Overall sensor dimensions shall not exceed 6.43” height, 4’ width, and 4.67” depth
(16.24 cm x 10.16 cm x 11.87 cm).
5. Weigh no more than 5 ounces (.142 kg).
6. Construction shall be rugged, high impact, injection molded plastic enclosure.
7. Lens opening shall have multiple elements providing long range coverage.
8. Sensor operating environment: 32 to 104 degrees Fahrenheit (0 - 40°C) in zero to
ninety-five (0-95%) percent relative humidity, non-condensing.
9. Sensor shall be UL Listed, CSA certified, comply with CES Title 24 energy Code and
FCC regulations.
C. Electrical
1. Input power shall be 24 VDC, 20mA provided from Philips series Power Pack.
2. Output: 24 volt DC active high logic control signal with short circuit protection.
3. Wire Designations – Class II:
a. Power (+24 volt) Red #24 AWG 200°C/600V
b. DC Return Black #24 AWG 200°C/600V
c. Occupancy Blue #24 AWG 200°C/600V
d. Occupancy/Photocell Gray #24 AWG 200°C/600V
D. Performance
1. Red LED infrared motion detection.
2. Manual Timer Setting range: 30 seconds to 30 minutes, factory default set to 10
minutes.
3. Photocell shall provide Ambient Light Override, keeping controlled lights off when not
necessary.
4. Adjustable blue bulb photocell 20 to 30,000 Lux, factory default set to 3,000 Lux,
disabled.
5. Motion Sensitivity: Infrared 0 to 100%; red knob (factory set at 75%).
6. Sensor shall provide a walk-through feature to extinguish lights if occupied for less
than 2.5 minutes.
7. At a mounting height range of ten (10’) feet the Field of View shall provide coverage
thirty-three (33’) wide and exceed 100’ distance.
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E. Equipment List ( quantities as shown in schedules, tables, and drawings ):
1. LRM228000 Low Voltage Occupancy Sensor, Wall Mount Long Range.
2.45
OccuSwitch – LRM2330/35 LRM2340/45 LRM2348 PIR High Bay Fixture
A. General
1. The Philips LRM2300 series provide High Bay occupancy sensors that have a
detection pattern that overlaps the area lit by typical high bay fixtures
2. The sensors utilize 100% digital passive infrared motion detection (PIR) with excellent
RF immunity.
3. The sensor is designed to interface with other devices including Philips Advance
Optanium Programmed Start electronic ballast and Xitanium LED drivers.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. Sensor shall mount directly to luminaire or electrical junction box through a standard
½” knockout.
3. Measure no more than 3.63” inches square and 1.5” depth (92.2 x 38.1 mm).
4. Weigh no more than 6 ounces (.45 kg).
5. Construction shall be rugged, high impact, injection molded plastic enclosure.
6. Sensor operating environment: for indoor use 14 to 160 degrees Fahrenheit (-10 to
71°C) in twenty to ninety (20-90%) percent relative humidity, non-condensing.
7. LRM2340 series sensors shall have an extended low temperature range down to
minus 40°F (-70°C).
8. Sensor shall be UL Listed, cUL Listed.
9. LRM2369 Mounting Bracket can be used to lower the sensor if the fixture blocks the
sensor’s Field of View.
C. Electrical
1. Operational Frequencies: 50/60 Hertz.
2. Load Rating:
a. 800W @ 120VAC
b. 1200W @ 277VAC.
c. 1500W @ 347VAC
d. 5 amperes @ 480VAC
e. Motor @ ¼ HP (LRM2348 only)
3. Wire Designations:
a. LRM2330/2340: Line-Black, Load-Black, Neutral-White
b. LRM2335/2345: Line-Red, Load-Red, Neutral-White
c. LRM2348: Line Phase A-Black, Phase B-Blue, Load Phase A-Black, Phase BBlue, White connects to either Line input.
D. Performance
1. LED motion detection and activation indicator.
2. High Bay 360 degree lens for optimum sensitivity and detection.
3. Manual Timer Setting range: 30 seconds to 20 minutes (factory set to 10 min.).
4. At a mounting height range of forty-five (45’) feet the standard lens shall cover a full
circle sixty (60’) feet in diameter.
5. Photocell shall provide two (2) user selectable Ambient Light Override modes;
6. Keeping controlled lights off when not necessary.
7. Enables the sensor to turn lights both On and Off as necessary.
8. Sensor shall provide a 100 Hour Burn-In function overriding relay output to full bright,
typically for lamp seasoning.
E. Equipment List ( quantities as shown in schedules, tables, and drawings ):
1. LRM2330 Fixture Mounted High Bay 360° Occupancy Sensor, 120/277 VAC
2. LRM2335 Fixture Mounted High Bay 360° Occupancy Sensor, 347 VAC
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3. LRM2340 Fixture Mounted High Bay 360° Occupancy Sensor with Photocell and low
temperature capacity, 120/277 VAC
4. LRM2345 Fixture Mounted High Bay 360° Occupancy Sensor with Photocell and low
temperature capacity, 347 VAC
5. LRM2348 Fixture Mounted High Bay 360° Occupancy Sensor, 480 VAC
6. LRM2369 Optional Sensor Mounting Bracket.
2.46
OccuSwitch – LRM2235/37 PIR Fixture Mounted Line Voltage
A. General
1. The Philips LRM2235/2237 series provide a self-contained industrial fluorescent fixture
mounted occupancy sensor that has a detection pattern that provides local occupancy
control for either general area or aisle way pattern detection.
2. The sensors utilize 100% digital passive infrared motion detection (PIR) with excellent
RF immunity.
3. The sensor is designed to interface with other devices including Philips Advance
Optanium Programmed Start electronic ballast and Xitanium LED drivers.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. Sensor shall mount directly to luminaire or electrical junction box through a standard
½” knockout.
3. Measure no more than 3.63” inches square and 1.5” depth (92.2 x 38.1 mm).
4. Weigh no more than 6 ounces (.45 kg).
5. Construction shall be rugged, high impact, injection molded plastic enclosure.
6. Sensor operating environment: for indoor use 14 to 160 degrees Fahrenheit (-10 to
71°C) in twenty to ninety (20-90%) percent relative humidity, non-condensing.
7. Sensor shall be UL Listed, cUL Listed.
C. Electrical
1. Operational Frequencies: 50/60 Hertz.
2. Load Rating:
a. 800VA @ 120VAC
b. 1200VA @ 277VAC.
c. 1500VA @ 347VAC
d. 2000VA @ 480VAC
e. Motor ¼ HP @ 120V
3. Wire Designations:
a. LRM2330: Line-Black, Load-Red, Neutral-White
b. LRM2237: Line Phase A/B-Black, Load Phase A/B-Red.
4. Power Consumption:
a. 120VAC – PIR 130mW
b. 277VAC – PIR 145mW
c. 347VAC – PIR 460mW
5. Sensor shall provide zero crossing switching to maximize contact life and compatibility
with electronic ballasts.
D. Performance
1. LED motion detection and activation indicator.
2. Manual Timer Setting range: 30 seconds to 20 minutes (factory set to 30 seconds).
3. Sensor shall be provided with three (3) interchangeable lenses:
4. High Bay lens @ 20 to 40 feet height provides 50’ to 60’ diameter coverage.
5. Low Bay lens: @ 8 to 25 feet height provides 30’ to 50’ diameter coverage.
6. General area/aisle way @ 8 foot height provides 60’ x 20’ rectangular coverage.
E. Equipment List ( quantities as shown in schedules, tables, and drawings ):
1. LRM2235 Fixture Mounted Occupancy Sensor, three (3) lenses 120/277/347 VAC
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2. LRM2237 Fixture Mounted Occupancy Sensor, three (3) lenses 480 VAC.
2.47
OccuSwitch – LRM2350/55 LRM2360/65 LRM2368 PIR High Bay Aisle
A. General
1. The Philips LRM2350/2360 series provide Aisle Focus High Bay occupancy sensors
that operate on line voltage and switch loads directly.
2. The sensors utilize 100% digital passive infrared motion detection (PIR) with excellent
RF immunity.
3. The sensor is designed to interface with other devices including Philips Advance
Optanium Programmed Start electronic ballast and Xitanium LED drivers.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. Sensor shall mount directly to luminaire or electrical junction box through a standard
½” knockout.
3. Measure no more than 3.63” inches square and 1.5” depth (92.20 x 38.1 mm).
4. Weigh no more than 6 ounces (.45 kg).
5. Construction shall be rugged, high impact, injection molded plastic enclosure.
6. A masking kit included shall allow masking of a portion of the view pattern for end-ofaisle applications or to trim sensor viewing for center of aisle conditions.
7. Sensor operating environment: for indoor use 14 to 160 degrees Fahrenheit (-10 to
71°C) in twenty to ninety (20-90%) percent relative humidity, non-condensing.
8. Sensor shall be UL Listed, cUL Listed.
9. LRM2369 Mounting Bracket can be used to lower the sensor if the fixture blocks the
sensor’s Field of View.
C. Electrical
1. Operational Frequencies: 50/60 Hertz.
2. Load Rating:
a. 800W @ 120VAC
b. 1200W @ 277VAC.
c. 1500W @ 347VAC
d. 5 amperes @ 480VAC
e. Motor @ ¼ HP (LRM2348 only)
3. Wire Designations:
a. LRM2350/2360: Line-Black, Load-Black, Neutral-White
b. LRM2355/2365: Line-Red, Load-Red, Neutral-White
c. LRM2368: Line Phase A-Black, Phase B-Blue, Load Phase A-Black, Phase BBlue, White connects to either Line input.
D. Performance
1. LED motion detection and activation indicator.
2. Manual Timer Setting range: 30 seconds to 20 minutes (factory set to 10 minutes).
3. Sensor shall be provided rectangular aisle coverage approximately 50 x 10 degrees.
4. At a mounting height range of forty (40’) feet the standard lens shall cover a rectangle
fourteen x one hundred feet (14’ x 100’).
5. Photocell shall provide two (2) user selectable Ambient Light Override modes;
6. Keeping controlled lights off when not necessary.
7. Enables the sensor to turn lights both On and Off as necessary.
8. Sensor shall provide a 100 Hour Burn-In function overriding relay output to full bright,
typically for lamp seasoning.
E. Equipment List ( quantities as shown in schedules, tables, and drawings ):
1. LRM2330 Fixture Mounted High Bay 360° Occupancy Sensor, 120/277 VAC
2. LRM2335 Fixture Mounted High Bay 360° Occupancy Sensor, 347 VAC
3. LRM2340 Fixture Mounted High Bay 360° Occupancy Sensor with Photocell and low
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temperature capacity, 120/277 VAC
4. LRM2345 Fixture Mounted High Bay 360° Occupancy Sensor with Photocell and low
temperature capacity, 347 VAC
5. LRM2348 Fixture Mounted High Bay 360° Occupancy Sensor, 480 VAC
6. LRM2369 Optional Sensor Mounting Bracket.
2.48
LCU2420/2425/2430 Power Extenders
A. General
1. The Philips LCU2400 series Power Extenders are designed to increase the power
capacity and interface to various load types.
2. The Power Extender shall emulate the characteristics of the dimmer that it is
connected to in terms of dimming range and resolution.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. Sensor shall mount in a standard 1900 wall box with 2-gang raised cover or a metal 2gang 3.5” deep wall box.
3. Measure no more than 4.72”L inch x 4.5”W and 2.56”D (120 x 114 x 65mm).
4. Aluminum clear anodized extruded heat sink with snap-on molded white cover shall
extend ½” (12.7mm) from mounting face.
5. Operating environment: 14 to 185 degrees Fahrenheit (-10° to 40°C) in twenty to
ninety-five (20-95%) percent relative humidity, non-condensing.
6. The LCU2400 series power extenders shall provide connections by six (6) 1x12AWG
screw terminals.
C. Electrical
1. Input current:
a. LCU2420/2425 – 120VAC 50/60Hz
b. LCU2430 – 277VAC 50/60Hz
2. Load Rating:
a. LCU2420 – 1920 watts @ 120VAC
b. LCU2425 – 1920VA @ 120VAC
c. LCU2430 – 3000VA @ 277VAC
3. Line voltage input terminals (Control and Neutral) shall accept 12 AWG copper wires.
4. Line voltage output terminals (Load, Neutral, Hot, and Switched Hot) shall accept 12
AWG copper wires.
5. Load Output Power: phase independent of control device.
6. LCU2400 series Power Extenders shall be capable of utilizing either single or dual
power feeds.
7. Dimmer neutrals must be connected.
D. Performance
1. LCU2420 Power Extenders work with 120VAC, 600 watt incandescent versions from
the Philips Compli Scenist, Momentum, Multiset Pro, Onset, and Vega product lines.
2. LCU2425 and LCU2430 Power Extenders work with 120VAC, 600 watt electronic
ballast (EB) versions from the Philips Momentum, Multiset Pro, Onset, and Vega
product lines.
3. LC22400 series Power Extenders shall have a minimum level adjustment.
E. Equipment List (quantities as shown in schedules, tables, and drawings):
1. LCU2420 Power Extender, Incandescent and Magnetic Low Voltage, 120VAC
2. LCU2425 Power Extender, Electronic Ballast (Mark X), 120VAC
3. LCU2430 Power Extender, Electronic Ballast (Mark X), 277VAC.
2.49
LCU2435 Power Extender
A. General
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B.
C.
D.
E.
2.50
Philips Lighting Systems
1. The Philips LCU2435 Power Extender is designed to increase the power capacity and
control fluorescent dimming ballasts from standard box-mounted dimmers.
2. The Power Extender shall control 0-10VDC electronic dimming ballasts.
Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. Sensor shall mount in a standard four (4”) inch square wall box.
3. Measure no more than 4.00”L inch x 4.3”W and 3.624”D (109.2 x 101.6 x 91.4mm).
4. Operating environment: 14 to 185 degrees Fahrenheit (-10 to 40°C) in twenty to
ninety-five (20-95%) percent relative humidity, non-condensing.
5. The LCU2400 series power extenders shall provide connections by six (6) 1x12AWG
screw terminals.
Electrical
1. Input current: 108VAC to 305VAC, 60Hz
2. Load Rating:
a. 20 amperes/2400VA @ 120VAC
b. 5500VA @ 277VAC fluorescent
3. Power consumption:
a. 120VAC – 6 watts max.
b. 277VAC – 18 watts max.
4. Load Output Power: phase independent of control device.
5. LCU2400 series Power Extenders shall be capable of utilizing either single or dual
power feeds.
6. Dimmer neutrals must be connected.
Performance
1. LCU2435 Power Extender shall work with 120VAC, 600 watt incandescent versions
from the Philips Compli Scenist, Momentum, Multiset Pro, Onset, and Vega product
lines.
2. LC2435 Power Extender shall have a minimum level adjustment.
Equipment List (quantities as shown in schedules, tables, and drawings):
1. LCU2435 Power Extender, Electronic Ballast 0-10 volt (Mark 7), 120VAC.
LRC2410 Relay Control Panel
A. General
1. The Philips LRC2410 Relay Control Panel is a compact self-contained lighting
controller
2. The LRC2410 Panel shall prove flexible time schedule control and override for eight
(8) lighting circuits.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. The Relay Controller is designed as a surface mount NEMA 1 approved enclosure but
alternate NEMA enclosure types are available with factory consultation.
3. Construction shall be 18 gauge cold roll steel (CRS) with hinged, locking door.
4. Measure no more than 16 x 14.5 x 4 inches (406.4 x 368.3 x 101.6 mm).
5. Weigh no more than 0.60 pounds (0.272 kg).
6. Relay Controller indoor only operating environment: 32 to 104 degrees Fahrenheit (0
to 40°C) in ten 10 to 95 percent relative humidity, non-condensing.
7. User controls shall provide:
8. Service Switch
9. Diagnostic LED
10. Manual override switches for each channel.
11. The LRC2410 Relay Control Panel shall have eight (8) Class 2 dry contact inputs, one
per channel, and each consisting of 1x14 AWG screw terminal.
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12. The LRC2410 Relay Control Panel is a native BACnet device which uses MS/TP
communication protocol and as such utilizes IN and OUT terminal blocks.
C. Electrical
1. LRC2410 Relay Control Panel input power shall be 120/277VAC, 50/60Hz multi-tap.
2. Line voltage supply terminals (Line, Neutral, and Ground) shall accept 8-#24 AWG
copper wire.
3. Eight (8) Load Relays:
4. Single Pole Single Throw (SPST) normally open (default) with
5. Enclosed silver alloy contacts
6. Rated twenty (20A) amperes at 277VAC
7. Relays shall meet NEC 110.10 10kA SCCR requirements.
8. Expected relay life: ten (10) million mechanical operations.
9. Manual Override terminals shall accept 8-#24 AWG copper wire.
10. Output voltage for remote sensors and photocell shall be 24VDC.
11. Optional Conversion Kit (LRC2415) shall convert single pole to double pole relays
providing two or four Double Pole Single Throw (DPST) contacts rated at thirty (30A)
amperes at 600VAC.
D. Performance
1. LRC2410 Relay Control Panel shall contain integral seven (7) day astronomical and
Daylight Savings Time (DST) function time clock.
2. Photocell: One (1) Class 2 analog low voltage input with 100 set points.
3. Programming schedules and features shall allow:
a. Ninety-nine (99) daily events and thirty-two (32) holiday events.
b. Sunrise/sunset offsets and automatic daylight saving adjustments.
4. Programming Override features permitted by:
a. Eight (8) low voltage Class 2 inputs (momentary 2 or 3 wire or maintained)
b. Eight (8) pilot light outputs for switching indication in remote locations.
5. Warning OFF feature shall one second flash lighting circuit with programmable 1-99
minute delay before OFF.
6. Diagnostic Functions:
a. LED indicators on power supply card for 5 and 20 volt outputs.
b. Relay Output Status LED indicators per circuit.
E. Equipment List (quantities as shown in schedules, tables, and drawings):
1. LRC2410 Relay Panel, 120/277VAC, with BACNET.
2. LRC2415 Conversion Kit, Two Pole 208 or 277 VAC.
2.51
LRD1730 Wall Dimmer with Wireless Communication
A. General
1. The Philips LRD1730 series wireless wall dimmer provides automatic lighting control
for energy management and user convenience.
2. Wireless features permit the installation of occupancy sensors without the necessity of
cross ceiling wiring.
3. The wall dimmer is designed to interface with up to sixteen (16) other devices to
provide manual and automatic control.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. Wall Dimmer shall mount on a standard one (1) gang masonry back box and utilize the
industry standard Decorator style faceplates. Multiple units can be installed in multigang configuration, if fins are removed.
3. Broken fin dimmers must be de-rated to 500 watts each.
4. Measure no more than 4.13 x 2.56 x 1.79 inches (105 x 65 x 45 mm).
5. Weigh no more than 0.3 pounds (.14 kg).
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6. Construction shall be ABS plastic enclosure available in White or Almond.
7. Sensor operating environment: 41 to 104 degrees Fahrenheit (5 - 40°C) in twenty to
eighty-five percent (20-85%) relative humidity, non-condensing.
8. White LED bar graphic clearly indicates dimming level and provides set-up indications.
9. Dimmer shall permit adjustable maximum dimming level.
10. Dimmer configuration shall establish desired day light levels from floor via wireless link
to sensor with directly accessing the sensor.
11. Up to sixteen devices shall be capable of being linked in a single space and two or
more dimmers can be linked to form a group for multi-way operation
12. Interface shall be universal license fee band ZigBee Pro 2.4Ghz compliant.
13. Wall Dimmer shall comply with UL, CSA, FCC, RoHS, and CEC Title 24.
C. Electrical
1. Input power shall be 120 VAC or 277VAC, 60 hertz.
2. Load rating:
a. Incandescent: 800 watt 120VAC (500 watt if fins removed).
b. Electronic Fluorescent Ballast: 800VA @ 120VAC 1600VA @ 277VAC
3. Compatible Electronic Fluorescent Ballast:
a. Philips Advance
b. Mark 10 Powerline – all models
c. EssentialLine Powerline – all models
4. Dimmers are not rated for electro-magnetic fluorescent or motor loads.
5. For best dimming performance use Philips lamps.
D. Performance
1. Self adaptive time delay tunes sensor to common activities in the space.
2. Utilizing the industry standard ZigBee protocol allows interconnection of multiple
devices:
3. Phillips LRA1721 Wall Switch with wireless communication
4. Phillips LRA1730 Wall Dimmer with wireless communication
5. Phillips LRM1743 PIR Occupancy Sensor with wireless communication
6. Phillips LRM1760 Multi-Tech Occupancy Sensor with wireless communication
7. Dimmers shall default function as stand-alone devices controlling only the load that is
connected to it. When configured as a multi-way dimmer, all loads are controlled from
any dimmer.
E. Equipment List (quantities as shown in schedules, tables, and drawings):
1. LRD173000 OccuSwitch Wireless Wall Dimmer 120/277VAC, White
2. LRD173001 OccuSwitch Wireless Wall Dimmer 120/277VAC, Ivory
2.52
LRD1721 Wall Switch with Wireless Communication
A. General
1. The Philips LRD1721 series wireless wall switch provides automatic lighting control for
energy management and user convenience.
2. Wireless features permit the installation of occupancy sensors without the necessity of
interconnecting wiring.
3. The wall switches are designed to interface with up to sixteen (16) other devices to
provide manual and automatic control.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. Wall Switch shall mount on a standard one (1) gang masonry back box and utilize the
industry standard Decorator style faceplates. Multiple units can be installed in multigang configuration, if fins are removed.
3. Measure no more than 4.13 x 2.56 x 1.79 inches (105 x 65 x 45 mm).
4. Weigh no more than 0.3 pounds (.14 kg).
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5. Construction shall be ABS plastic enclosure available in White or Almond.
6. Switch operating environment: 41 to 104 degrees Fahrenheit (5 - 40°C) in twenty to
eighty-five percent (20-85%) relative humidity, non-condensing.
7. Up to sixteen devices shall be capable of being linked in a single space and two or
more switches can be linked to form a group for multi-way operation
8. Interface shall be universal license fee band ZigBee Pro 2.4Ghz compliant.
9. Wall Dimmer shall comply with UL, CSA, FCC, RoHS, and CEC Title 24.
C. Electrical
1. Input power shall be 120 VAC or 277VAC, 60 hertz.
2. Load rating:
a. Incandescent: 800 watt 120VAC (500 watt if fins removed).
b. Electronic Fluorescent Ballast: 1300VA @ 120VAC and @ 277VAC
c. Electromagnetic Fluorescent Ballast: 1300VA @ 120VAC and @ 277VAC
d. Motor Load: ¼ HP @ 120VAC
D. Performance
1. Self adaptive time delay tunes sensor to common activities in the space.
2. Utilizing the industry standard ZigBee protocol allows interconnection of multiple
devices, primarily:
a. Phillips LRA1721 Wall Switch with wireless communication
b. Phillips LRA1730 Wall Dimmer with wireless communication
c. Phillips LRM1743 PIR Occupancy Sensor with wireless communication
d. Phillips LRM1760 Multi-Tech Occupancy Sensor with wireless communication
3. Switches shall default function as stand-alone devices controlling only the load that is
connected to it. When configured as a multi-way switch, all loads are controlled from
any switch.
E. Equipment List (quantities as shown in schedules, tables, and drawings):
1. LRD172100 OccuSwitch Wireless Wall Switch 120/277VAC, White
2. LRD172101 OccuSwitch Wireless Wall Switch 120/277VAC, Ivory
2.53
LRM1743 Occupancy Sensor - 360° Ceiling Infrared
A. General
1. The Philips LRM1743 wireless ceiling sensors utilize passive infrared motion detection
(PIR) to control lighting levels.
2. The sensor is designed to interface with other devices over the OccuSwitch Wireless
Control System to detect motion and provide control.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. Sensor shall surface mount directly or on a standard three (3”) inch octagonal back
box.
3. Measure no more than 3.3 inch diameter x 1.0 inch (83 mm x 25 mm).
4. Weigh no more than 18 ounces (.5 kg).
5. Construction shall be ABS plastic enclosure.
6. Switch operating environment: 41 to 104 degrees Fahrenheit (5 - 40°C) in twenty to
eighty-five percent (20-85%) relative humidity, non-condensing.
7. Up to sixteen devices shall be capable of being linked in a single space and two or
more switches can be linked to form a group for multi-way operation
8. Interface shall be universal license fee band ZigBee Pro 2.4Ghz compliant.
9. Motion Sensor shall comply with UL, CSA, FCC, RoHS, and CEC Title 24.
10. Switch-off delay minimum can be manually set between one and thirty (1-30) minutes.
Initial setting is automatically adjusted to the occupancy pattern, but never less than
the manual setting.
11. The sensors surrounding bezel shall incorporate rotating shield that will readily mask a
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portion of the sensor element preventing nuisance detections from adjacent doorways
and corridors.
C. Electrical
1. Standard AA size 3.6V Lithium-thionyl chloride (included) battery shall provide 10 year
plus lifetime rating under normal operating conditions.
D. Performance
1. Multicolor LED activation and status indicator
2. At a mounting height range of eight (8’) feet the major motion sensitivity shall cover a
rectangular area twenty-three (23’) by seventeen (17’) feet.
3. At a mounting height range of eight (8’) feet the minor motion sensitivity shall cover a
rectangular area seventeen (17’) by eleven (11’) feet.
4. Maximum recommended installation height: twelve (12’) feet.
E. Equipment List (quantities as shown in schedules, tables, and drawings):
1. LRM1743 OccuSwitch Wireless PIR Occupancy Sensor, Off-White
2.54
LRM1760 Occupancy Sensor - 360° Ceiling Multi-Tech
A. General
1. The Philips LRM1760 wireless ceiling sensors combine passive infrared motion
detection (PIR) and ambient light level detection (PE) in the one device to control
lighting levels.
2. The sensor is designed to interface with other devices over the OccuSwitch Wireless
Control System to detect motion and provide control.
B. Mechanical
1. Each module shall be labeled with manufacturer’s name, catalog number, and ratings.
2. Sensor shall surface mount directly or on a standard three (3”) inch octagonal back
box.
3. Measure no more than 3.3 inch diameter x 1.0 inch (83 D x 25 mm).
4. Weigh no more than 18 ounces (.5 kg).
5. Construction shall be ABS plastic enclosure.
6. Switch operating environment: 41 to 104 degrees Fahrenheit (5 - 40°C) in twenty to
eighty-five percent (20-85%) relative humidity, non-condensing.
7. Up to sixteen devices shall be capable of being linked in a single space and two or
more switches can be linked to form a group for multi-way operation
8. Interface shall be universal license fee band ZigBee Pro 2.4Ghz compliant.
9. Photo Cell sensing range: 10 to 1500 Lux (1 to 150 foot candles).
10. Photo Cell shall function in a closed loop system, sensing a combination of natural and
electric light and continuously adjusting electric light to maintain set light level.
11. Motion Sensor shall comply with UL, CSA, FCC, RoHS, and CEC Title 24.
12. Switch-off delay minimum can be manually set between one and thirty (1-30) minutes.
Automatically the initial setting is adjusted to the occupancy pattern, but never less
than the manual setting.
13. The sensors surrounding bezel shall incorporate rotating shield that will readily mask a
portion of the sensor element preventing nuisance detections from adjacent doorways
and corridors.
C. Electrical
1. Standard AA size 3.6V Lithium-thionyl chloride (included) battery shall provide 10 year
plus lifetime rating under normal operating conditions.
2. Wireless Range:
a. Switch to Sensor: fifty (50’) feet (17m) in office building.
b. Switch to Switch (same plane): eighteen (18’) feet (6m).
c. Switch to Switch (line of sight): fifty (50’) feet (17m).
D. Performance
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1. Multicolor LED activation and status indicator.
2. Mounting of photo cell shall be at least .75 the mounting height from any window.
3. At a mounting height range of eight (8’) feet the major motion sensitivity shall cover a
rectangular area twenty-three (23’) by seventeen (17’) feet.
4. At a mounting height range of eight (8’) feet the minor motion sensitivity shall cover a
rectangular area seventeen (17’) by eleven (11’) feet.
5. Maximum recommended installation height: twelve (12’) feet.
E. Equipment List (quantities as shown in schedules, tables, and drawings):
1. LRM1760 OccuSwitch Wireless Multi-Sensor Occupancy Sensor, Off-White
PART 3 - EXECUTION
3.01
Manufacturer’s Instructions
A. Compliance: Comply with manufacturer’s product data; including product technical
bulletins, product catalog, installation instructions, submittal sketches or drawings, and
product carton instructions for installation.
3.02
Examination
A. Site Verification of Conditions: Verify that related conditions, including equipment that has
been previously installed under other sections, are compatible and acceptable for product
installation in accordance with manufacturer’s instructions.
B. All devices connected to equipment specified in this section shall bear the UL, cUL, ETL,
CSA, or other appropriate NRTL label and comply with all applicable National Electrical
Code (NEC) requirements.
C. Verify that the types of lamps installed are compatible and provide complete functionality
of the controlling device.
D. Verify suitability of any preexisting conditions to accept new work and will permit proper
installation/application of new products.
3.03
Preparation
A. All equipment related to the system shall be factory tested before shipment.
B. Refer to Section 01 71 00 Examination and Preparation requirements.
C. Existing equipment related to work in this Section shall be protected from physical and
electrical damage by installer utilizing best practices.
D. Removal of selective existing work shall be accomplished in such a manner as to
maximize reuse of existing infrastructure, including:
1. Existing wiring lengths at junction and device box locations.
2. Enclosures, covers, fastener fittings, strain reliefs,, and their supports items.
3.04
Installation
A. Contractor shall furnish all equipment, labor, system setup, and other services necessary
for the proper installation of the products/system as indicated on the drawings and
specified herein. System setup information shall include each dimmer’s load type,
assigning each dimmer to a control zone (channel), and defining operational control
functions desired (i.e. non-dim, constant, dimmable, etcetera).
B. Philips Controls will not be responsible for any products subjected to inappropriate
application or installed or modified in any way that is not in accordance with Philips
Controls' instructions.
C. Install in accordance with all local and pertaining codes and regulations.
D. Utilize an installer with demonstrated experience in projects of similar size and complexity.
E. Equipment shall be ready to use condition at end of installation.
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3.05
System Start-Up
A. Energize equipment in accordance with manufacturer’s instructions.
B. Schedule System Commissioning by factory-authorized personnel in accordance with
manufacturer’s required lead times and written instructions.
C. Refer to Section 01 75 00 Starting and Adjusting requirements.
D. Refer to Section 01 79 00 Demonstration and Training.
E. Refer to Section 01 91 00 Commissioning.
F. Should commissioning be required per contract, end user training of the maintenance and
operation of the equipment shall be provided by the manufacture or manufacturer’s
representative following the completion of the commissioning of the project (per contract
specification).
3.06
Close Out, Protection, and Maintenance Activities
A. Upon completion of project the manufacturer shall furnish as-built one-line system
drawings and all pertinent instruction manuals and datasheets to the end user within 120
days of signed completion of the project by the owner or owner’s representative.
B. Prepare and provide electronic Operation and Maintenance Manuals for the equipment
provided under this section.
C. Prepare and provide electronic final shop drawings for the equipment provided under this
section. These drawing sets shall include any changes made during fabrication and
installation that differ from the submittal drawings provided earlier.
END OF SECTION
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