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Low Voltage Lighting Control Equipment
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CONSTRUCTION STANDARD SPECIFICATION
SECTION 13811
LIGHTING CONTROL EQUIPMENT VS
GENERAL
1.1.
1.2.
1.3.
1.4.
1.5.
1.6.
2
4
MANUFACTURERS .........................................................................................................4
LIGHTING CONTROL SYSEM, GENERAL .................................................................4
RELAYS ..............................................................................................................................4
PRE-ASSEMBLED RELAY PANELS ............................................................................4
CONTROL ELECTRONICS DEVICES ..........................................................................5
NETWORK MANAGER ....................................................................................................6
SATELLITE PANELS........................................................................................................7
LOW VOLTAGE WALL SWITCHES ..............................................................................8
0-10V DIMMER SWITCHES ( OPTIONAL) ..................................................................8
OCCUPANCY SENSORS ...............................................................................................8
EXTERIOR PHOTOMETRIC SENSORS ......................................................................8
INTERIOR PHOTOMETRIC SENSORS .......................................................................9
DIMMABLE DAYLIGHT SENSORS ...............................................................................9
LOW VOLTAGE WIRING ................................................................................................9
EXECUTION
1.22.
1.23.
1.24.
1.25.
1.26.
1.27.
1.28.
NETWORKED SYSTEM
RELATED DOCUMENTS ................................................................................................2
SUMMARY .........................................................................................................................2
SUBMITTALS ....................................................................................................................3
QUALITY ASSURANCE ..................................................................................................3
WARRANTY.......................................................................................................................3
EXTRA MATERIALS ........................................................................................................3
PRODUCTS
1.7.
1.8.
1.9.
1.10.
1.11.
1.12.
1.14.
1.15.
1.16.
1.17.
1.18.
1.19.
1.20.
1.21.
LONWORK
9
INSTALLATION .................................................................................................................9
CONTROL WIRING INSTALLATION ..........................................................................10
FIELD QUALITY CONTROL .........................................................................................10
CLEANING AND ADJUSTING ......................................................................................10
DEMONSTRATION ........................................................................................................11
COMMISSIONING ..........................................................................................................11
AS-BUILT DRAWINGS ..................................................................................................11
Page 1 of 12
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Low Voltage Lighting Control Equipment
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CONSTRUCTION STANDARD SPECIFICATION
SECTION 13811
KAMELEON K8 SERIES LIGHTING CONTROL SERIES EQUIPMENT
LONWORK BASE
SCOPE
The following specifications detail the minimum standards for components and material used in the
Lighting Control System (LCS) proposed for this project. The LCS shall be capable of switching
incandescent, magnetic low voltage, fluorescent, solid state electronic ballast fluorescent, HID, neon,
cold cathode, 2-way motor, outlets, LEDs, and solid state electronic/transformer low voltage loads.
Loads shall be able to be controlled individually and/or in groups of different control points. All switch
and load assignments shall be programmed through Windows-based application software
provided by the LCS.
WORK INCLUDED
A. The contractor shall provide all necessary wiring, enclosures, control modules, power supplies,
control stations, central control unit (CCU), and special dimmers as needed to ensure a complete
and properly functioning system as indicated on the drawings and specified in this document. The
contractor and/or low voltage contractor shall install the system in accordance with the
manufacturer’s instructions and recommendations.
B. The electrical contractor shall complete all line voltage wiring, low voltage wiring, and installation of
control stations, receptacles, and fixtures indicated on the drawings and defined as part of the LCS
project.
C. The contractor shall program the LCS and troubleshoot the control system after the program is
installed in the system in accordance with the manufacturer’s instructions and recommendations.
GENERAL
1.1. RELATED DOCUMENTS
1.1.1.Drawings and general provisions of the Contract, including General and Supplementary
Conditions and Division 1 Specification Sections apply to this Section.
1.2. SUMMARY
1.2.1.This Section includes the following types of lighting controls:
1.2.1.1.
Low voltage manual type momentary override switches
1.2.1.2.
Programmable lighting control systems
1.2.1.3.
Photo sensors
1.2.1.4.
Power relays and contractors
1.2.1.5.
Low voltage wiring
1.2.2.Low voltage is defined as 24 VAC + - 10% HZ for purposes of this section.
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1.3. SUBMITTALS
1.3.1.General: Submit the following according to provisions of Standard Section xxxx.
1.3.2.Supply manuals on system components to permit ease of installation, system operation and
maintenance including, but not limited to the following:
1.3.2.1.
Lighting control system step-by-step operating instructions.
1.3.2.2.
Relay panel schedules indicating circuits connected, inputs assigned, area
controlled, panel location and panel equipment details.
1.3.3.Maintenance data for products for inclusion in Operating and Maintenance Manual specified in
Division 1.
1.3.4.Record of field tests for tests specified in Part 3 of this Section.
1.3.5.Programming documentation for software.
1.4. QUALITY ASSURANCE
A. Approved LCS manufacturers shall have an established reputation in control systems (10 or
more years).
B. Approved LCS manufacturers shall be ISO 9001-2000 certified
C. All devices shall be UL, and CSA approved.
D. Any components used in the system manufactured by a company other than the manufacturer of
the LCS must have documented compatibility with the LCS. The LCS manufacturer shall provide,
upon request, compatibility and integration data applying to stated devices made by other
manufacturers.
1.5. WARRANTY
1.5.1.Project Warranty: A written warranty mutually executed by manufacturer and the principal
Installer, agreeing to replace programmable lighting control system components that fail in
materials or workmanship within the special Project warranty period specified below. This
warranty shall be in addition to, and not a limitation of, other rights and remedies the Owner
may have against the Contractor under the Contract Documents.
1.5.2.Special Project Warranty Period: 12 months beginning on the date to start-up or 18 months
from the Manufactuer delivery date.
1.6. EXTRA MATERIALS
1.6.1.Furnish extra products as described below. Package with protective covering for storage and
identify with labels describing contents. Deliver extra materials to the Owner as Manufactuer
recommandation.
1.6.1.1.
Relays: Single-pole mechanically held, 1 for every xxx installed.
1.6.1.2.
Occupancy Sensors and Power Supply/Relay Packs: 1 for every xxx installed
1.6.1.3.
Low-voltage light switch: 1 for every xxx installed
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PRODUCTS
1.7. MANUFACTURERS
1.7.1.All components are to be supplied by same manufacturer. Manufacturer is to be a supplier of
this type of equipment for over 10 years:
1.7.1.1.
Low voltage control system shall be manufactured by:
1.7.1.1.1.
The Kameleon series from Gentec Inc.
1.8. LIGHTING CONTROL SYSEM, GENERAL
1.8.1.Provide a complete low voltage lighting control system for the building shown on the plans and
specified herein.
1.8.2.Lighting control system shall utilize networking technology based upon “LonWorks” and be
LonMark certified. System shall be able to operate as a stand-alone entity with the option of
using a K8Lon software or web server device so that programming and viewing of status can
be accomplished by any PC connected to the same LAN or via the internet.
1.8.3.All relay panel interiors shall be pre-assembled complete with the necessary relays,
transformers and devices. Relay panels that are wall mounted shall have interiors separate
from enclosure so as to permit easy mounting, conduit installation and wire pull to enclosures.
Enclosures mounted in the ceiling space are not required to have separate interiors.
1.9. RELAYS
1.9.1.Lighting control relays shall be mechanically latching and shall come complete with a manual
ON/OFF switch. The mechanical switch shall continuously display the true state of the relay’s
internal contacts. Relays requiring control power for manual operation and/or status feedback
are not acceptable.
1.9.2.Single pole relays shall be rated and UL listed for 120, 277 and 347 VAC lighting loads at 20
amps.
1.9.3.Double pole relays shall be rated and UL listed for 208, 240 or 480 VAC lighting loads at 20
amps.
1.9.4.Each lighting control relay shall be contained in an individual molded casing and shall be
capable of containing a short circuit fault current of 14,000 amperes. Relays with exposed
electronic devices are not acceptable
1.9.5.Each lighting control relay shall be capable of controlling incandescent, fluorescent, electronic
ballast and MHID lighting loads.
1.9.6.Lighting control relays shall include captive, color-coded screw terminals for both the line
voltage and the low voltage connections.
1.9.7.Enclosure shall be type 1, 12, 3R or 4X as mentionned to the drawing
1.10.
PRE-ASSEMBLED RELAY PANELS
1.10.1. Where indicated on the drawings, provide a factory pre-assembled relay panel. The panel’s
enclosure shall be for surface or flush installation, with a screw-on cover or hinged door
assembly as required.
1.10.2. The panel shall consist of a pre-assembled interior insert; UL/CSA approved with capacities
for 8, 16, 32, 48 and 64 relays as required. Panel enclosure must be UL/CSA Approved.
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1.10.3. Panel interior shall have the following pre-assembled and pre-wired:
1.10.3.1.
Suitable divider separating class1 and class 2 compartments
1.10.3.2.
Control transformer, UL/CSA approved for class 2 circuits
1.10.3.3.
Low voltage relays as required by switched circuits shown on plans or schedules
1.10.3.4.
Control devices as required
1.11.
CONTROL ELECTRONICS DEVICES
A. Relay panels are to include the following control modules:
1. Main Clock module: Gentec Model KC811
2. Relay command module: Gentec Model KC831
3. Switch module: Gentec Model KC821
B. All these modules are to be programmable and stand-alone; they will interact through the Lonwork
communication network, unshielded twisted pair as recommended by Echelon.
C. Overview of Network nodes
Relay panels that are networked together with Gentec Scanners and Network nodes shall be able to
operate as a stand-alone system or shall be able to be integrated as a part of a LonWorks Building
Automation System that includes other functions of the building such as HVAC and Security.
D. They will hold data on the lighting operation as transmitted by one of the central computers. These
data will include:
1.
2.
3.
4.
Relay grouping
Operation of programmable input data
Data on schedule function
Individual response time (ON) of devices connected either to programmable input data or
directly to relays
5. Warning time, specific to each relay, before setting OFF.
E. TIME CLOCK CONTROLLER
This unit includes mainly the system real-time clock. This clock is to be set automatically to standard
and daylight time and it must include an astronomical clock. It must also incorporate the following
features:
1. Possibility of programming daily, weekly, or monthly events.
2. Events based on day and week: for example; third Thursday of October or first Monday of
September.
3. Events that follow standard time, before or after sunrise.
4. Clock synchronization. When a network includes more than one panel, one clock is to be
considered as master and the other clocks will copy its time.
5. Digital/analog converter, for photocell reading.
6. Automatic hour management for daylight saving
7. Many options are to be available:
The main module will be the KC-811 type from GENTEC .
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F. RELAY CONTROL MODULE
This module is to be used to command the lighting relays, and to get readings on the status (2-wire
relays only). The latter function will allow commanding many relays depending on the status read.
Other characteristics include:
1. Possibility of connecting up to
i. 16 two-wire relays or
ii. 8 three wire relays, like GE.
2. Each relay is to be commanded individually
3. Following functions can be programmed: relay grouping, commanding relays connected with
other LonWork control modul and devices, ON and OFF response time, warning time
4. Time-on extension after normal business hours (typically 2 hours)
5. Locking of or unlocking of switch
6. Locking or unlocking of schedule
The relay command module will be the KC-831 type from GENTEC .
G. SWITCH CONTROL MODULE
1. Either low voltage switches or dry contacts (as BAS) may be connected to this unit. These
inputs will command any relay or group of relays. Other characteristics include:
2.
3.
4.
5.
It is possible to connect up to 8 / 16 low voltage switches, with or without indicator lamp.
Indicator lamps must monitor the actual status of the relay controlled by the switch.
NO or NC contacts may be connected.
Programming the maintenance function will prevent one or many groups of relays from
operating.
The switch module will be the KC-821 type from GENTEC.
All electronic control devices shall have a node. The network node shall use LonWorks technology
and shall be LonMark certified. This node shall be capable of connecting to an FTT-10A data line to
communicate with other scanners in different relay panels or with other vendors using LonWorks
technology.
1.12.
NETWORK MANAGER
The centralized KAMELEON lightning control system Software will incorporate main frames and a
flexible number of relay boxes. The main frames will be used for:
1.
2.
3.
4.
5.
editing the graphics monitor;
editing setting of control strategies;
transferring data to satellite relay boxes;
commanding and displaying lighting status;
Displaying statistics.
The main frames are not to be necessary for standard operation. Hour commands will be executed
directly by the relay panels control devices without the main frames having to be up all the time.
Moreover, each relay panel can work as stand-alone to execute control sequences pre-programmed
by the main frames, without monitoring. Under setting mode, the main frames will be used for editing
control strategies, for compiling, and for transmitting data to satellite panels.
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1.12.1.1.
The Kameleon software includes user management functionality: the user level for
daily operations, the operator level for changes to strategies, and the manager level. New
user can be created and given a certain restriction level and password.
1.12.1.2.
Allow Photo sensors to be connected on the data line and to assign multiple set
points to different groups of relays
1.12.1.3.
Provide Astronomic time clock capability
1.12.1.4.
Display relay panels individually and allow relays to be assigned to groups by simple
point and click
1.12.1.5.
Schedules allow for 1024 events and 16 unique holiday schedules
1.12.1.6.
Groups can be configured to have user settable flick warn, time out and cleaning
variables
1.12.1.7.
Flick warn and time out durations are user settable on an individual relay basis
1.12.1.8.
Allow switches to control groups spanning all panels in the system
1.12.1.9.
Security access available with different levels
1.12.1.10. Diagnostic tools for queries of status of network devices, relays and log reports
1.12.1.11. Full backup and restore capabilities
1.13.
ETHERNET REMOTE COMMUNICATION (OPTIONAL)
1.13.1. Provide an Ethernet communication capability for remote lighting control management.
1.13.1.1.
The Ethernet capability will be provided by a Loytec NIC709-IP3E100 Ethernet
LonWorks adapter using TCP/IP. Multiple remote networks can be connected to the
KAMELEON LNS Server. The NIC709-IP3E100 adapter is a free topology model TP/FT10 transmitter.
1.14.
SATELLITE PANELS
1.14.1. Where indicated on the drawings, all panel will be provide with control module in each
Satellite Panel complete with xxx latching relays capable of switching 20 amp lighting loads and
rated for 120/277/347VAC. Each panel is to be connected on to the data line network and
configured using the Echelon Network Manager and shall contain the following hardware
features:
1.14.1.1.
2 – 24VDC inputs for occupancy sensors requiring DC voltage
1.14.1.2.
1 DC power supply rated for 250ma for supplying power to occupancy sensors
1.14.1.3.
2 digital inputs for accepting signals from one or group of photo sensors capable of
sensing 0 – 6,000 footcandles.
1.14.2. Switch inputs are to be capable of switching individual relays, local groups of relays within
the panel or global groups of relays system wide. Each switch input can be configured for
connection to standard Gentec switches, momentary 24VAC switches or maintained contract
24VAC switches. Each input can also be configured to be ON or OFF only. The inputs may
also be configured to have interlocking logic so that if the photo sensor has switched a relay off
it is possible to set an input so a local wall switch cannot override the photo sensor relay on
unless there is insufficient light.
1.14.3. In rooms with photo sensor control, it shall be possible to set relays to switch at different light
levels so that as the amount of daylight changes, different amounts of artificial light can be
switched on or off. It shall be possible to set a sequence of switching 3 lamp fixtures with a
relay each for the single lamp and outer lamps as follows: As daylight increases, the single
lamp relay is switched off first. The next step requires the outer lamp relay OFF and the single
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lamp relay ON simultaneously. As daylight passes the maximum threshold, the single lamp
relay is switched off. This sequence is reversed as daylight declines.
1.14.4. The Satellite Panels shall accept either 24VDC or 24VAC occupancy sensors. The inputs
may be configured for OFF only or ON/OFF switching scenarios. It shall be possible to link the
photo sensor control with occupancy sensing so that when light levels are high enough, the
occupancy sensor will not switch the photo sensor controlled relays ON.
1.15.
LOW VOLTAGE WALL SWITCHES
1.15.1. Low voltage control switches and switch hardware shall mount to standard wall boxes.
1.15.2. Switch modules shall be available with 1, 2 and 3 switches per gang and shall fit into
standard ‘Decora’ style switch plates.
1.15.3. Individual switches shall include an integral tri-state LED to indicate both ON and OFF states
(red=ON, green=OFF).
1.15.4. Each switch shall be clearly identified with a paper switch label. The label shall be held in
place with a clear plastic cap and shall be field replaceable should the operation of the switch
change. Permanently etched switches are not acceptable.
1.15.5. Switches shall have color coded captive screw terminals. Use #18 AWG solid conductors.
1.15.6. Where required provide keyed switches to control lights. Switches shall include an integral
tri-state LED to indicate both ON and OFF states (red=ON, green=OFF).
1.16.
0-10V DIMMER SWITCHES ( OPTIONAL)
1.16.1. Dimmer switches shall be compatible with dimming ballasts using the 0-10V control protocol.
1.16.2. An LED indicator bar shall display the proportional level of the connected ballasts.
1.16.3. UP & DOWN buttons shall permit the operator to raise and lower the light level as required.
1.16.4. Where indicated on the lighting plans, the dimmer switches shall be combined with daylight
sensors to limit the maximum electric light level. Manual dimmers cannot exceed the light level
determined by the daylight sensor.
1.16.5. Each switch shall be capable of controlling up to 50 dimming ballasts.
1.17.
OCCUPANCY SENSORS
1.17.1. Where required, provide a dual technology or infrared occupancy sensor. The occupancy
sensor be connected to a KC-821 input controller. It shall also be possible to connect wall
switches in parallel to each relay for occupant override if required
1.17.2. Occupancy sensor to include the following features:
1.18.
1.17.2.1.
Adjustable time out (30 sec to 30 min) and sensitivity
1.17.2.2.
Coverage of 1600 sq. ft., Indoor ceiling mount, ceiling heights 8’ to 16’ max
1.17.2.3.
Function select – on/off switching or off-only switching
EXTERIOR PHOTOMETRIC SENSORS
1.18.1. Provide where required an exterior photometric sensor capable of sensing from 1-60,000 lux.
The sensor shall be connected to the lighting control network via a 4-wire (2 power + 2 data)
dataline.
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1.18.2. The ambient light level shall be continuously monitored and be displayed by the Network
Manager.
1.18.3. One exterior sensor shall be capable of controlling one, some or all relays in the entire
lighting control network shall permit different relays to switch at different light levels. Lights
shall be controlled by ‘sensor only’ or by a combination of time& light level.
1.19.
INTERIOR PHOTOMETRIC SENSORS
1.19.1. Provide where required an interior photometric sensor capable of sensing from 1-60,000 lux.
The sensor shall be connected to the lighting control network via a 4-wire (2 power + 2 data)
dataline.
1.19.2. The ambient light level shall be continuously monitored and be displayed by the K8Lon
Network Manager
1.19.3. Each interior sensor shall be capable of controlling one, some or all relays in the entire
lighting control network and shall permit different relays to switch at different light levels. Lights
shall be controlled by ‘sensor only’ or by a combination of time & light level.
1.20.
DIMMABLE DAYLIGHT SENSORS
1.20.1. Provide where required and indoor daylight sensor for applications that harvest daylight by
regulating the electronic dimmable fluorescent ballasts. The sensor shall regulate the ballast
so that when natural light is bright the lamp is dim and when natural light is dim the lamp is
bright. The sensor shall be ceiling mounted and measures light reflected upward from the
surface below. The sensor shall have a range setting and a set-point slider located under the
front faceplate.
1.20.2. The sensor shall be compatible with Phillips/Advance Mark VII, Motorola Helios or any other
ballast that uses the same 0-10V dimming control method. The sensor shall connect with 2
wires connected in parallel to a maximum of 50 ballasts. No other connections to the sensor
are required for the dimming function.
1.21.
LOW VOLTAGE WIRING
1.21.1. All wiring shall meet UL - CSA and NEC - CEC standards.
1.21.2. All low voltage wiring shall be 18-guage (#18AWG) unless otherwise specified. Color coded
as per manufacturers recommendations. All low voltage wiring shall be run in EMT conduit.
No exposed wiring will be allowed.
1.21.3. Dataline wiring between relay panels shall be 18 gage 2 conductor shielded. Color coded as
red/black/shield. All low voltage wiring shall be run in EMT conduit. No exposed wiring will be
allowed.
EXECUTION
1.22.
INSTALLATION
1.22.1. General: Install equipment according to manufacturer’s written instructions.
1.22.2. Mount control equipment according to manufacturer’s instructions and Section 16001,
“Electrical Work”.
1.22.3. Mounting heights indicated are to bottom of unit for suspended items and to center for wallmounted ones.
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1.23.
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CONTROL WIRING INSTALLATION
1.23.1. Install wiring between control devices as specified in Division 16 Section “Electrical Work” for
hard wire connections.
1.23.2. Bundle, train, and support wiring in enclosures.
1.24.
FIELD QUALITY CONTROL
1.24.1. Manufacturer’s Field Services: Arrange and pay for the services of factory-authorized
service representatives to test, adjust and program the lighting control systems. Programming
shall include assigning all switch inputs to the required relays in each panel to ensure proper
lighting operation. At the conclusion of programming, the contractor shall provide Sandia with
an as-built drawing of all cabinets which will include a list of termination locations for all lowvoltage switches.
1.24.2. Reports: Prepare written reports of tests and observations. Report defective materials and
unsatisfactory test results. Record repairs and adjustments.
1.24.3. Test Labeling: Upon satisfactory completion of tests and inspections, apply a label to tested
components indicating test results, date, and testing organization and person.
1.24.4. Schedule visual and mechanical inspections and electrical tests within 7-days’ notice
1.24.5. Visual and Mechanical Inspections: Include the following inspections:
1.24.5.1.
Inspect for defects and physical damage, labeling, and nameplate compliance with
current project drawings
1.24.5.2.
Check tightness of electrical connections with torque wrench calibrated within the
previous 6 months. Use manufacturer’s recommended torque values
1.24.5.3.
Verify proper protective device settings and fuse types and ratings
1.24.5.4.
Verify settings of photoelectric devices with photometer calibrated to NIST standards
within the past 6 months
1.24.5.5.
Exercise mechanical parts and operable devices according to manufacturer’s
instructions to verify proper operation.
1.24.6. Electrical Tests: Exercise particular caution when testing devices containing solid-state
components. Perform the following tests according to manufacturer’s instructions:
1.24.6.1.
Insulation resistance tests of conducting parts of control components and connecting
supply, feeder, and control circuits. Insulation resistance less than 100 megohms is not
acceptable.
1.24.6.2.
1.25.
Continuity test of circuits.
CLEANING AND ADJUSTING
1.25.1. Remove paint spatters and other spots, dirt, and debris. Touch up scratches and mars of
finish to match original finish. Clean equipment and devices internally and externally using
methods and materials recommended by manufacturers.
1.25.2. Occupancy Adjustments: Upon request within 1 year of date of substantial completion,
adjust light levels, make program changes, and adjust sensors and controls.
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1.26.
DEMONSTRATION
1.26.1. Training: Arrange and pay for the services of a factory-authorized service representative to
demonstrate programmable lighting control system and train Owner’s maintenance personnel.
Allow a minimum of 1 working days for this training.
1.26.2. Train Owner’s personnel to operate, service and maintain equipment and system
components. Allow at least 4 hours to conduct training. Schedule training with at least 7
working days’ notice.
1.27.
COMMISSIONING
1.27.1. Operational Tests: Energize systems, program control, and check each controlled are for
light levels and lamp and component noise. Use light meters appropriate for the test and
calibrated to NIST standards. Adjust components and revise installation as required to correct
deficiencies. Operate the system to prove compliance with requirements.
1.27.2. Correct malfunctions and retest until proper operation is achieved.
1.28.
AS-BUILT DRAWINGS
1.28.1. The drawings issued for construction are representative of the work to be performed and of
existing equipment. As part of this contract, the Contractor shall provide Sandia National
Laboratories with a set of “red-marked” prints, including all equipment relating to the fire
protection system, both existing and contractor installed. The lighting drawings consist of
plans, wiring, diagrams, and controller panel schedule. The marked-up prints shall show all
junction boxes, conduit sizes, devices, and any other information relevant to the as-built
condition. Conduit and junction box locations shall be shown on the as-builts if they were
shown on the original plans.
END OF SECTION
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K 8
LC Panel :
Enclosure type
Outline
x
1
2
Surface
Flush
Height
S
F
Wide
Deep
Model # #
S e rie s
Complet Assembly
Back Panel
Empty Enclosure
LEGEND
K8
K8
K8
- 64 PA
- 64 BP
- 64 PE
Control - Devices
OS
Occupency Sensor
DS
Light Sensor
PH
Photocell
ST
Voltage Separator
15
381
4
101
DP
Double pole relay
Kx - 16 PA - SI
19
482
15
381
4
101
SP
Single pole relay
Kx - 3 2 PA - S1
Kx - 6 4 PA - S1
23,3
592
15
381
4
101
49
12 50
2 0 50 8
4
10 1
Input Supply
120
277
B re a k e r N o
cct
Ouput
Relays
D is t rib. P a ne l N o #
CONTROLLING…
347 V o lt s
Ctt.#
No
6 4 T o t al
0
Used
0
Spare
16
Space
ROOM / ZONE
Comments
No
#
BAS
Building Automation
# Note(s) :
RELAY Type
inch mm
CONTROL Description
mm
381
mm
SEQUENCE ##
inch
15
SWITCH ID
inch
SWITCHE Qty
Dimension
Kx - 8 PA - S1
CONTROL MODUL(S)
P a rt no Q t y
Control Transformer
Class II 24 Vac
26193
Output Card
KC - 831
36317-01
*
1
1,1
Astronomic Clock
KC - 811
36314-07
*
2
1,2
*
*
3
4
1,3
1,4
Input / Output Card
Programmable Clock
BACnet node
KC - 401
KC - 411
KC- 601
35459-01
35563-02
37774-00
*
*
*
5
6
7
1,5
1,6
1,7
*
*
8
9
1,8
1,9
*
10
1,10
*
11
1,11
*
*
12
13
1,12
1,13
*
*
*
14
15
16
1,14
1,15
1,16
*
*
*
17
18
19
2,1
2,2
2,3
*
*
*
20
21
22
2,4
2,5
2,6
*
*
*
23
24
25
2,7
2,8
2,9
*
*
*
26
27
28
2,10
2,11
2,12
*
*
*
29
30
31
2,13
2,14
2,15
*
32
2,16
*
*
33
34
3,1
3,2
*
35
3,3
*
*
36
37
3,4
3,5
*
*
*
38
39
40
3,6
3,7
3,8
*
*
*
41
42
43
3,9
3,10
3,11
*
*
*
44
45
46
3,12
3,13
3,14
*
*
*
47
48
49
3,15
3,16
4,1
*
*
*
50
51
52
4,2
4,3
4,4
*
*
*
53
54
55
4,5
4,6
4,7
*
*
56
57
4,8
4,9
*
58
4,10
*
*
*
59
60
61
4,11
4,12
4,13
*
*
*
62
63
64
4,14
4,15
4,16
Control Sequence (s)
#
ON
OF F
C o ns ult ing E ng.
D escr ip t io n
N A M E PLA T E
Low Voltage Lighting Control Panel
serial # :
RELAYS 277 / 347 V. 20Amp
Input rat ing 120/ 277/ 347V. 60Hz 75VA
DATE
M o d el
K 8
- 64
PA
DWG #
Energy M anagement Enclosure
PE - S1
Open Energy M anagement Equipment
Enclose Energy M anagement Equipment
BP - S1
PA - S1
A
R ev.
R evisio n
Approved :
Verified :
Drafted :
d at e d r af tV er if .ap p
Jean M ichel Tremblay
Jean M ichel Tremblay
A delmo A scencio
Date :
Project
Name
LC Panel #
E le c t ric a l C o nt ra c t o r
1
D is t ribut o r N a m e
PO # #
0
Project Number
Page 12 of 12