1221 MAYPORT RD COMM23-0008 Egg Boy Electrical_DWGS_1No.59352
STATE
OF
JOH NH .HELBERGLICENSE
FLO R I D APROFESSIONA L E N GINE ERScale
Date
Drawn By
Checked By
Project Number
11555 CENTRAL PARKWAY, STE 502
JACKSONVILLE, FL 32224
WEB: WWW.CI-MECH.COM
E: IAN.VEGA@CI-MECH.COM
PH: 904-503-1421
AUTHORIZATION CERT: #32282
FLORIDA LIC. #83516
GEORGIA LIC. #04658
PUERTO RICO LIC. #22361
MICHIGAN LIC. #6201069836
TENNESSEE LIC. #123477
E-001
ELECTRICAL COVER
PAGE
EggBoy Restuarant
IGV
JHH
02-01-2023
Project
1241 Mayport Rd
Atlantic Beach, FL
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ALL WORK SHALL CONFORM TO:
2017 NFPA 70 (NATIONAL ELECTRICAL CODE)
2020 FLORIDA BUILDING CODE - 7TH EDITION
FIRE PREVENTION CODE
AUTHORITY HAVING JURISDICTION REQUIREMENTS
WHERE THE REQUIREMENTS BETWEEN THE DIFFERENT CRITERIA AND CODES ARE AT
VARIANCE, THE MOST STRINGENT REQUIREMENTS SHALl APPLY.
WHERE THERE IS A DISCREPANCY BETWEEN THE DRAWINGS AND SPECIFICATIONS,
NOTIFY THE ENGINEER PRIOR TO BID. FOR BIDDING PURPOSES THE MORE STRINGENT
SHALL APPLY.
THE CONTRACTOR SHALL EXAMINE THE COMPLETE SET OF CONTRACT DOCUMENTS
FOR ALL TRADES, AS ISSUED BY THE ARCHITECT AND REVIEW DIMENSIONS, SPACE
REQUIREMENTS AND POINT OF CONNECTIONS TO ALL EQUIPMENT. MAKE ANY MINOR
ADJUSTMENTS NECESSARY TO AVOID CONFLICTS WITH THE BUILDING STRUCTURE AND
THE WORK OF OTHER TRADES.
UNLESS INSTRUCTED OTHERWISE, THE CONTRACTOR SHALL OBTAIN AND PAY FOR ALL
PERMITS, LICENSES, AND FEES REQUIRED FOR INSTALLATION OF THE ELECTRICAL
WORK. FURNISH FINAL CERTIFICATE OF INSPECTION OR WRITTEN EVIDENCE OF
ACCEPTANCE BY INSPECTION AUTHORITIES FOR ALL WORK INSTALLED.
REFER TO COMPLETE DRAWING PACKAGE FOR EXTENT OF CONSTRUCTION, AND EXACT
LOCATION OF FIXTURES, EQUIPMENT, DEVICES , ETC.
CONTRACTOR SHALL COORDINATE WITH ALL TRADES TO ENSURE AN UNDERSTANDING
OF THE COMPLETE SCOPE OF PROJECT PRIOR TO START OF WORK.
ALL EQUIPMENT & MATERIALS SHALL MATCH DESIGN SPECIFICATIONS AND
MANUFACTURER'S RECOMMENDED INSTALLATION INSTRUCTIONS.
READ SPECIFICATIOINS
PRODUCTS AND EQUIPMENT SHALL BE OF MATERIALS SIUTABLE FOR AND RATED FOR
THE ENVIRONMENT IN WHICH THEY ARE INSTALLED.
LOCATIONS OF EQUIPMENT SHOWN ON THE DRAWINGS ARE APPROXIMATE.
COORDINATE EXACT EQUIPMENT LOCATION AND CONNECTION REQUIREMENTS WITH
THE APPROPRIATE TRADE PRIOR TO INSTALLATION.
WORKING CLEARANCES AROUND ELECTRICAL EQUIPMENT SHALL BE MAINTAINED IN
COMPLAINCE WITH THE NATIONAL ELECTRICAL CODE ARTICLE 110. COORDINATE
EQUIPMENT INSTALLATION TO MAINTAIN REQUIRED CLEARANCES..
VERIFY EXACT LOCATION OF ALL MECHANICAL EQUIPMENT INCLUDING WALL SWITCHES,
THERMOSTATS, ETC. WITH MECHANICAL CONTRACTOR AND MECHANICAL DRAWINGS
THE SMOKE DETECTORS LOCATED AT AIR MOVING EQUIPMENT SHALL SHUT DOWN ALL
AIR HANDLING EQUIPMENT VIA THE LIFE SAFETY SYSTEM. WHEN SMOKE IS DETECTED
AT EQUIPMENT, ALL OTHER AIR MOVING EQUIPMENT LOCATED IN OR CONNECTED TO
COMMON PLENUM OR SMOKE ZONE SHALL SHUT DOWN.
ALL ELECTRICAL CONTROLS FOR THE SMOKE CONTROL SHALL BE RATED FOR SUCH
USE.
COORDINATE EXACT INSTALLATION REQUIREMENTS OF OUTLETS IN MILLWORK WITH
ACCEPTED MILLWORK SHOP DRAWINGS.
FOR EXACT LOCATIONS OF CEILING MOUNTED EQUIPMENT REFER TO THE
ARXHITECTURAL REFLECTED CEILING PLAN. LOCATIONS OF EQUIPMENT NOT INCLUDED
ON THE REFLECTED CEILING PLAN SHALL BE COORDINATED WITH THOSE ITEMS
SHOWN. COORDINATION OF CEILING MOUNTED EQUIPMENT SHALL BE PRIOR TO ANY
ROUGH-IN. NOTIFY ENGINEER OF ANY DISCREPANCY.
WHERE CONDUIT ROUTING IS SHOWN, THE CONDUITS ARE SHOWN FOR DIAGRAMMATIC
PURPOSES AND ARE NOT NECESSARILY REPRESENTATIVE OF THE ACTUAL PLACEMENT.
THE ROUTINGS SHOWN ARE PROPOSED CONDUIT ROUTINGS. CONTRACTOR TO
COORDINATE ALL ROUTING WITH OTHER TRADES PRIOR TO BID. CONTRACTOR TO
FIELD VERIFY EXISTING CONDITIONS AND ROUTING OF CONDUIT PRIOR TO BID.
CONTRACTOR IS RESPONSIBLE FOR RELOCATING CONDUIT FROM THE PROPOSED
ROUTING SHOWN TO THE ROUTING REQUIRED TO FACILITATE INSTALLATION PER
SPECIFICATIONS AND APPLICABLE CODES, COMPLETE WITH ALL COORDINATION AND
EXISTING CONDITIONS TAKEN INTO ACCOUNT. CONTRACTOR IS RESPONSIBLE FOR ALL
CEILING AND WALL REPAIR/REPLACEMENT AFTER ROUTING OF CONDUIT.
NOT ALL SYMBOLS, NOTES, DETAILS AND EQUIPMENT IN SCHEDULES ON GENERAL
SHEETS WILL APPLY TO EACH BUILDING. THEY ARE TO COVER ALL BUILDINGS AND WILL
APPLY BASED ON SCOPE IN BUILDING.
MOUNT ALL DISCONNECT SWITCHES FOR MECHANICAL EQUIPMENT WITHIN 6 FOOT OF
EQUIPMENT CONNECTION POINT. VERIFY LOCATION OF POINT OF CONNNECTION WITH
EQUIPMENT INSTALLED PRIOR TO ELECTRICAL ROUGH-IN. DRAWINGS ONLY SHOW
DIAGRAMMATIC LOCATION OF CONNECTIONS.
PRIOR TO ROUGH-IN AND INSTALLATION OF ANY FLOOR MOUNTED DEVICE, VERIFY
LOCATION WITH THE OWNER AND ARCHITECT.
SPLICES IN POWER AND LIGHTING OUTLETS SHALL BE KEPT TO A MINIMUM. PULL
CONDUCTORS THROUGH TO DEVICES, EQUIPMENT CABINETS/PANELBOARDS. SPLICING
IN WIREWAYS IS NOT PERMITTED UNLESS SPECIAL WRITTEN PERMISSION IS GRANTED
BY THE DESIGNER.
NO SPLICES SHALL BE MADE IN UNDERGROUND (OR FLUSH) IN-GRADE PULL BOXES
UNLESS ENGINEER HAS GIVEN SPECIFIC ACCEPTANCE.
MOUNT CENTER LINE OF DEVICE BOXES AT THE FOLLOWING DISTANCES ABOVE
FINISHED FLOOR, UNLESS NOTED OTHERWISE:
SWITCH OUTLET 48 INCHES
WALL RECEPTACLE 18 INCHES
TELEPHONE/DATA OUTLET 18 INCHES
TV OUTLET 18 INCHES
ABOVE COUNTER RECEPTACLES SHALL BE MOUNTED ABOVE BACK SPLASH.
PROVIDE, INSTALL, AND CONNECT ONE 20 AMP DUPLEX RECEPTACLE IN CAST
WEATHERPROOF COVER WITHIN 25 FEET OF ALL MECHANICAL EQUIPMENT INSTALLED
ON ROOF. CONNECT TO 20 AMP 1 POLE SPARE CIRCUIT BREAKER AND LABEL BREAKER
"ROOF RECEPTACLE"
THE EXCLUSIVELY DEDICATED SPACE EXTENDING FROM FLOOR TO STRUCTURAL
CEILING WITH A WIDTH AND DEPTH OF THE PANELBOARD OR SWITCHBOARD MUST BE
CLEAR OF ALL PIPING, DUCTS, EQUIPMENT FOREIGN TO THE ELECTRICAL EQUIPMENT
OR ARCHITECTURAL APPURTENANCES IN ACCORDANCE WITH NEC 384.
ALL DEVICES SHALL BE MOUNTED VERTICALLY UNLESS OTHERWISE NOTED.
ALL RECEPTACLES SHALL BE MOUNTED SUCH THAT THE GROUND PIN IS MOUNTED
DOWN.
ALL LIGHT FIXTURES SHALL BE LED OR HAVE LED LAMPS INSTALLED IN FIXTURE.
SEPARATE GREEN GROUND CONDUCTORS SHALL BE ROUTED IN ALL CONDUITS/CABLES
WITH ALL PHASE CONDUCTORS.
ELECTRICAL CONTRACTOR SHALL PROVIDE AT EACH PANELBOARD A TYPED CIRCUIT
DIRECTORY WITH PROTECTIVE PLASTIC SLEAVE.
IF AN OUTLET BOX IS REQUIRED TO BE LOCATED IN AN ASSEMBLY OR PARTITION RATED
AS "FIRE/SMOKE" OR "SMOKE" OR IDENTIFIED AS EITHER "FIRE/SMOKE" OR "SMOKE",
THEN ALL OF THE FOLLOWING CONDITIONS SHALL BE MET:
A. THE OUTLET BOX SHALL BE METALLIC
B. THE OUTLET BOX OPENINGS SHALL OCCUR ONLY ON ONE SIDE OF THE FRAMING
SPACE AND SHALL NOT EXCEED 16 SQUARE INCHES
C. ALL CEARANCES BETWEEN THE OUTLET BOX AND THE WALL BOARD MATERIAL
SHALL BE COMPLETELY SEALED WITH APPROVED MATERIALS IN ACCORDANCE WITH
THE APPLICABLE CODES AND STANDARDS FOR THE PROJECT.
D. PROVIDE A SUPPLEMENTAL BARRIER AROUND OUTLETS LARGER THAN 16 INCHES SO
THAT THE ORGINAL RATING OF THE PENETRATION IS MAINTAINED.
E. THE TOTAL AGGREGATE SURFACE AREA OF TEH OUTLET BOX SHALL NOT EXCEED
100 SQUARE INCHES PER 100 SQUARE FEET.
F. THE OUTLET BOX SHALL BE SEPARATED FROM OPENINGS ON THE OPPOSITE SIDE OF
THE RATED PARTITION BY A MINIMUM HORIZONTAL DISTANCE OF 24 INCHES.
G. THE OUTLET BOX SHALL BE SECURELY FASTENED TO A PARTITION FRAMING
MEMBER BY MEANS OF AN APPROVED ATTACHMENT METHOD
H. OPENINGS CUT INTO THE WALL BOARD MATERIAL SHALL NOT EXCEED 1/8 INCH
BETWEEN THE EDGES OF THE OUTLET BOX AND THE EDGES OF THE OPENING.
PC
SCALE: NTS
VIEW TITLE1
SCALE: NTS
TITLE
E-201
1
E-501
1
E-501
1
E-201
2
1
1
FB
PV
OSOS
PC
OR
T
M
R
VFD
PB
CB
K
GFR
A
M
L
EN
BP
G
XXXXXXXXXXXXXXXXXXXX
2000-5+
R
DH
F
SXX
110cd
SS
110cd
ST
S15cd
ST
15cd
ST
15cd
GT
WF
TS
PS
SDHD
HD
SD
DD
FACP
FCPS
RAN
DACT
ASSD
PAP
PTR
100A
100A100A
100A/100A
CIRCUIT BREAKER-100A FRAME/100A
TRIPLT = LONG TIME SETTING
ST = SHORT TIME SETTING
I = INSTANTANEOUS SETTING
4000A
25 KA
(3) LA
M
G
SPD
OS
OS
X
R
R
X
KITCHEN SPECIAL PURPOSE RECEPTACLES SCHEDULE
WALLDESCRIPTION
AA30AMPS, 2P,3W, 125V NEMA 5-30R
BB30AMPS, 3P,4W, 250V NEMA 15-30R
CC20AMPS, 2P,3W, 250V NEMA 6-20R
CEILING
A
B
C
DDD30AMPS, 2P,3W, 120/208V NEMA 14-30R
FLOOR REMARK
L
DENOTES
LOCKING
TYPE.
WATTSTOPPER LIGHTING CONTROL LEGEND
WALLCEILINGDESCRIPTION
WATTSTOPPER # LVSW-101
MOMENTARY CONTACT SWITCH
WATTSTOPPER # BZ-250 POWER
PACK
WATTSTOPPER # BZ-250 POWERRPACK FOR SWITCHED RECEPTACLES
55
WATTSTOPPER # DT-355 LINE
VOLTAGE CEILING MOUNT DUAL
TECH. OCCUPANCY SENSOR.
PP
PP
ER1WATTSTOPPER # ELCU-200, 120/277V
EMERGENCY SHUNT RELAY
WATTSTOPPE DT-300 CEILING MOUNT
DUAL TECHNOLOGY OCCUPANCY
SENSOR. FIELD ADJUST FOR MANUAL
ON WHEN USED WITH MOMENTARY
CONTACT SWITCH.
LV
WATTSTOPPE DSW-301 OCCUPANCY
SENSOR
WATTSTOPPER DW-100-24
W24OCCUPANCY SENSOR
SW3
WATTSTOPPER #W2000H HALLWAY
OCCUPANCY SENSORH
ALTERNATE LIGHTING CONTROL MANUFACTURERS:
LUTRON LIGHTING CONTROLS
DOUGLAS LIGHTING CONTROLS
OSRAM SYLVANIA CONTROLS
ABBREVIATIONSSYMBOLS LEGEND
ANNOTATION
PLAN TITLE NO. - 1
TITLE MARK DETAIL OR
PLAN NO. - 1
FOUND IN E-201
DETAIL REFERENCE
DETAIL NO. - 1
FOUND IN E-501
SECTION MARK
SECTION NO. - 1 FOUND IN
E-501
DETAIL
BOUNDARY B
DETAIL NO. - 2
SHEET KEYNOTE
REVISION CLOUD (DELTA 1)
EQUIPMENT TAG
DESIGNATION AC
DESIGNATION NUMBER 1-1
LP4:12PANEL:CIRCUIT
POINT OF CONNECTION
POINT OF DISCONNECTION
POWER OUTLETS
FLRWALLCLG
DUPLEX "P" DENOTES
PLUGLOAD RECEPT.
QUADRUPLEX
GFCI DUPLEX
SIMPLEX
EMERGENCY DUPLEX
EMERGENCY QUADRUPLEX
EMERGENCY SIMPLEX
FLOOR BOX "X" - (DESCRIBE
AND SPEC BOX)
JUNCTION BOX
POWER/VOICE DATA WHIP -
JUNCTION BOX
POKE THRU
COUNTERTOP DUPLEX
ISOLATED GROUND DUPLEX
ISOLATED GROUND SIMPLEX
WEATHER PROOF DUPLEX
SPLIT WIRE
SPECIAL OUTLET
MULTI OUTLET SURFACE
RACEWAY
LIGHTING
FLRWALLCLG
RECESSED DOWNLIGHT
1X4 SURFACE MOUNTED
LIGHT
2X4 SURFACE MOUNTED
LIGHT
4FT WALL MOUNTED LIGHT
1X4 EMERGENCY LIGHT
2X4 EMERGENCY LIGHT
2X4 RECESSED LIGHT
EXIT SIGN 1 FACE
EXIT SIGN 1 FACE LEFT
ARROW
EMERGENCY BATTERY PACK
EMERGENCY BATTERY
PACK W/ EXIT SIGN
SWITCHES/CONTROLS
FLRWALLCLG
LIGHT SWITCH - TIME
OPERATED
LIGHT SWITCH - SINGLE
POLE
LIGHT SWITCH - THREE WAY
LIGHT SWITCH - KEY
OPERATED
LIGHT SWITCH - WITH PILOT
LIGHT
FLRWALLCLG
SWITCH - WITH THERMAL
OVERLOAD
DIMMER
OCCUPANCY SENSOR
OCCUPANCY SENSOR
POWER PACK
PHOTOCELL
OVERRIDE SWITCH
POWER
DISTRIBUTION BOARD
RECESSED PANEL
SURFACE MOUNTED PANEL
TRANSFORMER
DISCONNECT SWITCH
FUSED DISCONNECT SWITCH
MAGNETIC MOTOR STARTER
STARTER - DISCONNECT SWITCH
SWITCH - MOTOR RATED
MOTOR
RELAY
VARIABLE FREQUENCY DRIVE
PULL BOX
CABLE TRAY
SINGLE LINE DIAGRAM
CIRCUIT BREAKER SWITCH
FUSED - SWITCH BUS PLUG
CIRCUIT BREAKER - ENCLOSED
KIRK KEY INTERLOCK
BUSDUCT
SWITCHGEAR BUSWAY
GROUND FAULT RELAY
AMMETER
DIGITAL METER UON
TRANSFORMER - DELTA WYE-GROUNDED
ATS - 3-POLE UON BP - WITH BYPASS
ISOLATION
BATTERY
GENERATOR
PANEL
2000 = AMPACITY
3-NO, 4-SINGLE, 5-DOUBLE = NEUTRAL
(+) = ADDITIONAL INFO AS REQUIRED
GROUNDING SYSTEM
GROUND TEST WELL
GROUND CABLE CONNECTION
GROUND ROD - MIN. 3/4"∅ x 10' LONG
GROUND PLATE - WALL MOUNT
GROUND PLATE - FLOOR MOUNT
AIR TERMINAL - LIGHTNING ARRESTOR
EQUIPMENT CONNECTION
FIRE ALARM
CONTROL RELAY
DOOR HOLDER
MANUAL PULL STATION
SPEAKER UNIT - CEILING MOUNTED
SPEAKER STROBE UNIT - CEILING
MOUNTED
STROBE UNIT - CEILING MOUNTED
SPEAKER UNIT - WALL MOUNTED
SPEAKER STROBE UNIT - WALL MOUNTED
STROBE UNIT - WALL
GONG - TROUBLE
WATER FLOW SWITCH
TAMPER SWITCH
PRESSURE SWITCH
FIRE ALARM SMOKE-HEAT DETECTORS
SMOKE-HEAT DETECTOR R=DENOTES
ELEVATOR MACHINE ROOM
HEAT DETECTOR R=DENOTES ELEVATOR
MACHINE ROOM
SMOKE DETECTOR
DUCT MOUNTED SMOKE DETECTOR
X=S DENOTES: SUPPLY
X=R DENOTES: RETURN
FIRE ALARM PANELS
FIRE ALARM CONTROL PANEL
FIRE ALARM POWER SUPPLY PANEL
FIRE ALARM REMOTE LCD ANNUNCIATOR
PANEL
FIRE ALARM DIGITAL ALARM
COMMUNICATOR TRANSMITTER
FIRE ALARM AIR SAMPLING SMOKE
DETECTION PANEL
FIRE ALARM PRE-ACTION PANEL
FIRE ALARM PRINTER
SWITCH-UNFUSED(100 AMPS)
FUSED SWITCH(100 AMPS)
DRAW-OUT TYPE CIRCUIT BREAKER
(SINGLE LINE)
DRAW-OUT FEATURE (SINGLE LINE)
POTENTIAL TRANSFORMER
CURRENT TRANSFORMER (MULTI-RATIO)
GROUND CONNECTION
LIGHTNING SURGE ARRESTOR
MOTOR
EMERGENCY GENERATOR
SURGE PROTECTIVE DEVICE
AC
1-1
ADDITIONAL
AFFABOVE FINISHED FLOOR
AICAMPERE INTERRUPTING CAPACITY
AMPAMPERE
ANNANNUNCIATOR
APPDAPPROVED
APPXAPPENDIX
ARCHARCHITECT
ATCHATTACHMENT
ATSAUTOMATIC TRANSFER SWITCH
AUTOAUTOMATIC
AUXAUXILIARY
AVAUDIO VISUAL, ALARM VALVE
AVGAVERAGE
AWGAMERICAN WIRE GAUGE
BUILDING AUTOMATION SYSTEM
BATBATTERY
BFFBELOW FINISH FLOOR
BKGDBACKGROUND
BLDGBUILDING
BLWBELOW / UNDERGROUND
BOSBOTTOM OF STEEL
BOTBOTTOM
BRKRBREAKER
BSMTBASEMENT
BSTRBOOSTER
BTWNBETWEEN
CABINET
CAPCAPACITOR, CAPACITY
CBCIRCUIT BREAKER, CATCH BASIN
CCTVCLOSED CIRCUIT TELEVISION
CDCONSTRUCTION DOCUMENT,
CEILING DIFFUSER
CERTCERTIFY
CHCHILLER
CHKCHECK
CKTCIRCUIT
CLCENTER LINE, CLOSE, CLOSET
CLGCEILING
CONCCONCRETE
CONNCONNECT, CONNECTION
COORCOORDINATE
CORRCORRIDOR
CPCONTROL PANEL, CHROME PLATED
CRCONTROL RELAY, CARD READER,
CASING RELIEF VALVE
CSCONTROL SWITCH
CTRLCONTROL
CTVCABLE TV, CONTROL VALVE
-D-
(D)EXISTING TO BE DEMOLISHED
DCDIRECT CURRENT
DDCDIRECT DIGITAL CONTROL
DEFDEFINITION
DEGDEGREE
DEG FDEGREES FAHRENHEIT
DEMODEMOLITION
DESCRDESCRIPTION
DETDETAIL
DGTLDIGITAL
DIAGDIAGRAM
DIMDIMENSION
DIRDIRECTION
DISCDISCONNECT
DISCHDISCHARGE
DISTR
PNLDISTRIBUTION PANEL
DIVDIVISION
DMRDIMMER
DSDISCONNECT SWITCH
DWGDRAWING
-E-
(E)/EXEXISTING TO REMAIN
(ER)EXSTING TO BE RELOCATED
EAEACH
ECEMPTY CONDUIT
EHELECTRIC HEATER
ELELEVATION, ELEVATOR LOBBY
ELECELECTRIC, ELECTRICAL
EMEREMERGENCY
ENVIRENVIRONMENT
EPOEMERGENCY POWER OFF
EQEQUAL
EQUIPEQUIPMENT
EQUIVEQUIVALENT
EXEXAMPLE, EXISTING TO REMAIN
EXCLEXCLUDE
EXH FNEXHAUST FAN
EXISTEXISTING
EXTEXTERNAL
FAHRENHEIT, FIRE SERVICE,
FEMALEFAFIRE ALARM, FACE, FREE AREA
FAAPFIRE ALARM ANNUNCIATOR PANEL
FACPFIRE ALARM CONTROL PANEL
FCFOOTCANDLE
FCAFAULT CURRENT AVAILABLE,
FLOOR CONTROL VALVE ASSEMBLY
FDRFEEDER
FLEXFLEXIBLE
FL / FLRFLOOR
FLUORFLUORESCENT
FRFIRE RATING, FLOOR RECEPTACLE
FREQFREQUENCY
FTFOOT, FEET
FUFUSE
FU SWFUSED SWITCH
FUTFUTURE
GROUND, GAS, GREEN
GCGENERAL CONTRACTOR
GENGENERATOR
GFCIGROUND FAULT CIRCUIT
INTERRUPTER
HORSEPOWER
HZHERTZ
JUNCTION BOX
LIGHTING
LVLOW VOLTAGE
MAXIMUM
MCBMAIN CIRCUIT BREAKER
MCCMOTOR CONTROL CENTER
MECHMECHANICAL
MINMINIMUM, MINUTE
MVMEDIUM VOLTAGE
NORMALLY CLOSED
NEUTNEUTRAL
NONORMALLY OPEN, NUMBER
NTSNOT TO SCALE
POLE
PBPULL BOX, PUSH BUTTON
PHPHASE
PNLPANEL
PWRPOWER
-R-
(R)REMOVE EXISTING
RECRECESSED
RECPTRECEPTACLE
REQDREQUIRED
RMROOM
SCHEDULE
SDSMOKE DETECTOR/DAMPER,
STORM DRAIN
SECTSECTION
SPECSPECIFICATION
SPKRSPEAKER
SWBDSWITCHBOARD
SWGRSWITCHGEAR
SYSSYSTEM
-T-
TELCOM TELECOMMUNICATIONS
TVTELEVISION, TURNING VANES
TVSSTRANSIENT VOLTAGE SURGE
SUPRESSOR
TYPTYPICAL
UNDERCOUNTER
UGNDUNDERGROUND
ULUNDERWRITERS LABORATORIES
UONUNLESS OTHERWISE NOTED
UPSUNINTERRUPTIBLE POWER SUPPLY
UTILUTILITY
VOLT, VENT, VIDEO
VAVOLT AMPERE
VFDVARIABLE FREQUENCY DRIVE
VHOVERY HIGH OUTPUT
VOLTVOLTAGE
WATT, WIRE, WIDTH, WALL PHONE,
WASTE
W/WITH
W/OWITHOUT
WPWEATHERPROOF,
WORKING PRESSURE
TRANSFER
XFMRTRANSFORMER
T
3
A
CTR
IG
IG
WP
K
P
ADDL
-A-
BAS
-B-
CAB
-C-
-E-
F
V
-V-
-X-
XFER
-W-
W
UC
-U-
SCHED
-S-
P
-P-
-N-
NC
MAX
-M-
LTG
-L-
JB
-J-
HP
-H-
-G-
G
LEDLIGHT EMITTING DIODE
GENERAL NOTES
33.NUMBER OF ARROWS ON HOMERUNS DENOTE THE NUMBER OF CIRCUITS.
34.COMPLETE SYSTEM SHALL BE GROUNDED PER NEC ARTICLE 250.
35.120 VOLT BRANCH CIRCUITS, WHERE THE LENGTH OF THE CIRCUIT CONDUCTORS
COMPLETE FROM CIRCUIT BREAKER IN SOURCE PANEL TO ANY DEVICE ON THE CIRCUIT
IS 0-100 FEET FROM THE PANEL ARE TO HAVE #12 MINIMUM BRANCH CIRCUIT WIRING
THROUGHOUT CIRCUIT.
36.120 VOLT BRANCH CIRCUITS, WHERE THE LENGTH OF CIRCUIT CONDUCTORS
COMPLETE FROM CIRCUIT BREAKER IN SOURCE PANEL TO ANY DEVICE ON THE CIRCUIT
IS 101-175 FEET FROM THE PANEL, ARE TO HAVE #10 MINIMUM BRANCH CIRCUIT WIRING
HOMERUN (3/4" C) FROM PANEL CIRCUIT BREAKER TO FIRST DEVICE AND #12 BRANCH
CIRCUIT WIRING THROUGHOUT THE REMAINDER OF THE CIRCUIT.
37.120 VOLT BRANCH CIRCUITS SERVING RECEPTACLES FOR COMPUTER WORKSTATIONS
SHALL HAVE INDIVIDUAL NEUTRALS FOR EACH CIRCUIT (I.E. EACH PHASE) COMPLETE
FROM PANEL TO RECEPTACLE. NEUTRAL FOR ONE CIRCUIT SHALL NOT BE COMBINED
WITH NEUTRAL OF ANOTHER CIRCUIT. MINIMUM CONDUCTOR SIZE IS #10 AWG.
CONDUCTOR SIZE SHALL BE INCREASED IF REQUIRED TO COMPLEY WITH GENERAL
NOTES ABOVE.
38.ALL MECHANICAL EQUIPMENT SHALL BE COMPLETELY CONNECTED BY ELECTRICAL
CONTRACTOR INCLUDING BOTH POWER AND CONTROL WIRING. ELECTRICAL
CONTRACTOR SHALL REFER TO MECHANICAL DRAWINGS AND SPECIFICATIONS FOR THE
REQUIREMENTS ASSOCIATED WITH WIRING AND CONNECTION OF INTERLOCKING AND
CONTROLS OF MECHANICAL UNITS AND THERMOSTAT LOCATIONS.
39.ALL CONDUITS SHALL BE CONCEALED IN WALL SPACE, CEILING SPACE, OR UNDER
FLOOR. NO EXPOSED CONDUITS PERMITTED UNLESS OTHERWISE NOTED.
40.ALL BRANCH CIRCUIT WIRE SIZE SHALL BE #12 AWG AND COPPER, PULL EQUIPMENT
GROUND IN ALL RACEWAYS, PER NEC. ELECTRICAL CONTRACTOR SHALL PROVIDE
PROPER NUMBER AND SIZE CONDUCTOR PER NEC.
41.CONTRACTOR SHALL COORDINATE WITH THE LOCAL ELECTRICAL UTILITY, PHONE
COMPANY, AND CABLE COMPANY AS NECESSARY TO PROVIDE SERVICE. ALL
REQUIREMENTS TO BE INSTALLED BY THE ELECTRICAL CONTRACTOR SHALL BE
INCLUDED IN THE BASE BID.
42.CONTRACTOR SHALL ENSURE TO THE GREATEST EXTENT POSSIBLE THAT ALL LOADS
ARE BALANCED.
43.ALL ELECTRICAL MATERIALS, DEVICES, APPLIANCES, AND EQUIPMENT SHALL BE
LABEL LISTED BY AN APPROVED THIRD PARTY TESTING AGENCY.
44.CONTRACTOR SHALL INCLUDE IN HIS BID THE TRANSPORT AND DISPOSAL OR
RECYCLING OF ALL WASTE MATERIALS GENERATED BY THIS PROJECT IN ACCORDANCE
WITH ALL RULES, REGULATIONS, AND GUILDELINES APPLICABLE. CONTRACTOR SHALL
COMPLY FULLY WITH FLORIDA STATUTE 403.7186 REGARDING MERCURY CONTAINING
DEVICES AND LAMPS. LAMPS, BALLASTS, AND OTHER MATERIALS SHALL BE
TRANSPORTED AND DISPOSED OF IN ACCORDANCE WITH ALL DEP AND EPA
GUIDELINES APPLICABLE A TIME OF DISPOSAL. CONTRACTOR SHALL PROVIDE OWNER
WITH WRITTEN CERTIFICATION OF ACCEPTED DISPOSAL.
SHEET INDEX
NO.TITLE SCALE
E-001 ELECTRICAL COVER PAGE NONE
E-002 ELECTRICAL SPECIFICATIONS SHEET 1
E-003 ELECTRICAL SPECIFICATIONS SHEET 2
E-004 ELECTRICAL SPECIFICATIONS SHEET 3
E-101 ELECTRICAL POWER FLOOR PLAN
E-102 ELECTRICAL LIGHTING FLOOR PLAN
E-501 ELECTRICAL DETAILS SHEET 1
E-502 ELECTRICAL DETAILS SHEET 2
E-503 ELECTRICAL DETAILS SHEET 3
E-504 ELECTRICAL DETAILS SHEET 4
E-505 ELECTRICAL DETAILS SHEET 5
E-506 ELECTRICAL DETAILS SHEET 6
E-601 ELECTRICAL SINGLE LINE AND PANEL SCHEDULE
John H. Helberg, P.E.
License #: 59352
EM
EM
THIS ITEM HAS BEEN ELECTRONICALLY SIGNED
AND SEALED BY JOHN H. HELBERG, P.E. USING
A DIGITAL SIGNATURE.
PRINTED COPIES OF THIS DOCUMENT ARE NOT
CONSIDERED SIGNED AND SEALED, AND THE
SIGNATURE MUST BE VERIFIED ON ANY
ELECTRONIC COPIES.
No.Description Date
No.59352
STATE
OF
JOH NH .HELBERGLICENSE
FLO R I D APROFESSIONA L E N GINE ERScale
Date
Drawn By
Checked By
Project Number
11555 CENTRAL PARKWAY, STE 502
JACKSONVILLE, FL 32224
WEB: WWW.CI-MECH.COM
E: IAN.VEGA@CI-MECH.COM
PH: 904-503-1421
AUTHORIZATION CERT: #32282
FLORIDA LIC. #83516
GEORGIA LIC. #04658
PUERTO RICO LIC. #22361
MICHIGAN LIC. #6201069836
TENNESSEE LIC. #123477
E-002
ELECTRICAL
SPECIFICATIONS SHEET
1
EggBoy Restuarant
IGV
JHH
02-01-2023
Project
1241 Mayport Rd
Atlantic Beach, FL
SECTION 26 05 00.00 40 COMMON WORK RESULTS FOR ELECTRICAL
1 General
1.1 Regulatory Requirements
In each of the publications referred to herein, consider the advisory provisions to
be mandatory, as though the word, "shall" had been substituted for "should"
wherever it appears. Ensure equipment, materials, installation, and workmanship
are in accordance with the mandatory and advisory provisions of NFPA 70,
unless more stringent requirements are specified or indicated.
1.2SUBMITTALS
SD-03 Product Data
Conduits and Raceways; Wire and Cable; Splices and Connectors; Switches;
Receptacles; Outlet Boxes, Pull Boxes and Junction Boxes; Circuit Breakers;
Panelboards; Dry-Type Distribution Transformers; Device Plates;
SD-06 Test Reports
Continuity Test; Phase-Rotation Tests; Ground-Fault Receptacle Test;
SD-08 Manufacturer's Instructions
Manufacturer's Instructions
1.3Standard Products
Provide materials and equipment that are products of manufacturers regularly
engaged in the production of such products which are of equal material, design
and workmanship. Provide products which have been in satisfactory commercial
or industrial use for 2 years prior to bid opening. Ensure the 2-year period
includes applications of equipment and materials under similar circumstances
and of similar size. Ensure the product has been on sale on the commercial
market through advertisements, manufacturers' catalogs, or brochures during the
2-year period. Where two or more items of the same class of equipment are
required, these items must be products of a single manufacturer.
2Products
2.1Equipment
Provide the standard cataloged materials and equipment of manufacturers
regularly engaged in the manufacture of the products. For material, equipment,
and fixture lists submittals, show manufacturer's style or catalog numbers,
specification and drawing reference numbers, warranty information, and
fabrication site.
Provide factory-applied finish on electrical equipment in accordance with the
following:
a. NEMA 250 corrosion-resistance test and the additional requirements as
specified herein.
b. Interior and exterior steel surfaces of equipment enclosures: thoroughly
cleaned followed by a rust-inhibitive phosphatizing or equivalent treatment prior to
painting.
c. Exterior surfaces: free from holes, seams, dents, weld marks, loose scale or
other imperfections.
d. Interior surfaces: receive not less than one coat of corrosion-resisting paint in
accordance with the manufacturer's standard practice.
e. Exterior surfaces: primed, filled where necessary, and given not less than two
coats baked enamel with semigloss finish.
f. Equipment located indoors: ANSI Light Gray, and equipment located outdoors:
ANSI Light Gray or Dark Gray.
g. Provide manufacturer's coatings for touch-up work and as specified in
paragraph FIELD APPLIED PAINTING.
2.1.1 Conduits and Raceways
2.1.1.1 Rigid Steel Conduit
Provide hot dipped galvanized rigid steel conduit complying with NEMA RN 1,
ANSI C80.1, UL 6 and UL 5 as applicable. Except where installed underground,
or in corrosive areas, provide polyvinylchloride (PVC), or protect from corrosion
by painting with bitumastic coating or wrappingwith corrosion inhibiting tape. Use
threaded fittings for rigid steel conduit. Use solid gaskets. Ensure conduit fittings
with blank covers have gaskets, except in clean, dry areas or at the lowest point
of a conduit run where drainage is required. Provide covers with captive screws
and are accessible after the work has been completed.
2.1.1.2 Electrical Metallic Tubing (EMT)
Ensure EMT is in accordance with UL 797, UL 5, and ANSI C80.3 and is zinc
coated steel. Provide zinc-coated couplings and connectors that are raintight,
compression type with insulated throat. Crimp, spring,or setscrew type fittings are
not acceptable.
2.1.1.3 Flexible Metallic Conduit
Ensure flexible metallic conduit is galvanized steel and complies with UL 1 and
UL 360. Ensure fittings for flexible metallic conduit are specifically designed for
such conduit. Provide liquidtight flexible metallic conduit with a protective jacket
of PVC extruded over a flexible interlocked galvanized steel core to protect wiring
against moisture, oil, chemicals, and corrosive fumes. Ensure fittings for
liquidtight flexible metallic conduit are specifically designed for such conduit.
2.1.1.5 Rigid Nonmetallic Conduit
Ensure rigid nonmetallic conduit complies with NEMA TC 2, NEMA TC 3, and UL
651 as applicable with a wall thickness not less than Schedule 40.
2.1.2 Wireways
Ensure wireways and auxiliary gutters are a minimum 100 by 100 millimeter 4 by
4-inch trade size conforming to UL 870. UL 870. Material: steel epoxy painted or
galvanized 16 gauge for heights and depths up to 150 by 150 mm 6 by 6 inches,
and 14 gauge for heights and depths up to 305 by 305 mm 12 by 12 inches.
Provide in length required for the application with hinged-cover NEMA 1 (interior)
or 3R (exterior) enclosure per NEMA ICS 6.
2.1.4 Outlet Boxes, Pull Boxes and Junction Boxes
Ensure outlet boxes for use with conduit systems are in accordance with NEMA
FB 1 UL 514A, UL 514B, UL 514C and ANSI/NEMA OS 1 or ANSI/NEMA OS 2
and are not less than 40 millimeter 1-1/2 inches deep. Furnish all pull and junction
boxes with screw-fastened covers.
2.1.4.1Outlet Boxes for Telecommunications System
Provide the following:
a. Standard type 4 inches square by 2 1/8 inches deep.
b. Outlet boxes for wall-mounted telecommunications outlets: 4 by 2 1/8 by 2 1/8
inches deep.
c. Depth of boxes: large enough to allow manufacturers' recommended conductor
bend radii.
2.1.5 Panelboards
Provide panelboards in accordance with NEMA PB 1, UL 67, and UL 50. Ensure
panelboards for use as service equipment are also in accordance with UL 869A.
Ensure panelboards have current rating, number of phases, and number of wires
as indicated or specified herein. Ensure panelboards are rated for 240-volt
(maximum), single-phase; 120/208-volt, three-phase, or 277/480-volt, three-
phase, 60-hertz as shown on drawings. Ensure each panelboard, as a complete
unit, has a short-circuit current rating equal to or greater than the integrated
equipment rating indicated, but in no case less than 10,000 amperes symmetrical.
Provide panelboards with bolt-on circuit breakers only. Use of plug-in style
breaker is not permitted. Ensure panelboards are designed such that individual
breakers can be removed without disturbing adjacent units or without loosening or
removing supplemental insulation supplied as means of obtaining required
clearance. Provide main lugs or main circuit breakers mounted "above" branch
breakers with current ratings as indicated. Use of sub-feed breakers is not
acceptable unless specifically indicated otherwise. Where "space only" is
indicated, make provisions for future installation of breakers. Submit detail
drawings and manufacturer's standard product data for panelboards. Detail
drawings consist of fabrication and assembly drawings for all parts of the work in
sufficient detail to verify conformity with all requirements. Ensure drawings for
panelboards indicate details of bus layout, overall physical features, dimensions,
ratings, service requirements, and weights of equipment. Provide copper buses
of the rating indicated, with main lugs or main circuit breaker. Provide all
panelboards for use on grounded ac systems with a separate grounding bus in
accordance with UL 67 bonded to the panelboard enclosure. Ensure grounding
bus is a solid bus bar of rectangular cross section equipped with binding screws
for the connection of equipment grounding conductors. Provide three-phase,
four-wire and single-phase, three-wire panelboards with an isolated full-capacity
bus providing spaces for single-pole circuit breaker switches and spaces
indicated as spare. Provide bus bar connections to the branch circuit breakers
that are the "distributed phase" or "phase sequence" type. Ensure single-phase,
three-wire panelboard busing is such that when any two adjacent single-pole
breakers are connected to opposite phases, two-pole breakers can be installed in
any location. Ensure that three-phase, four-wire panelboard busing is such that
when any three adjacent single-pole breakers are individually connected to each
of the three different phases,two- or three-pole breakers can be installed at any
location. Ensure current-carrying parts of the bus assembly are plated. Support
bus bars on bases independent of circuit breakers. Design main buses and back
pans so that breakers may be changed without machining, drilling, or tapping.
2.1.5.1 Circuit Breakers
Provide circuit breakers that conform to UL 489 and NEMA AB 3 with frame a trip
ratings as indicated. Provide bolt-on type, molded-case, manually operated, trip-
free circuit breakers, with inverse-time thermal-overload protection and
instantaneous magnetic short-circuit protection. Completely enclose circuit
breakers in a molded case, with a factory-sealed, calibrated sensing element to
prevent tampering. Plug-in type, tandem, and half-size circuit breakers are not
permitted. Provide inverse-time-delay thermal-overload protection and
instantaneous magnetic short-circuit protection. Provide an instantaneous
thermal-magnetic tripping element that is adjustable and accessible from the front
of the breaker on frame sizes larger than 250 ampere. Provide sufficient
interrupting capacity of the panel and lighting branch circuit breakers to
successfully interrupt the maximum short-circuit current imposed on the circuit at
the breaker terminals. Provide circuit breaker interrupting capacities with a
minimum of 10,000 A and that conform to NEMA AB 3. Series rating of circuit
breakers or overcurrent protective devices to achieve indicated interrupt rating is
not permitted. Provide the common-trip-type multipole circuit breakers having a
single operating handle and a two-position on/off indication. Provide circuit
breakers with temperature compensation for operation in an ambient temperature
of 40 degrees C 104 degrees F. Provide circuit breakers that have root mean
square (rms) symmetrical interrupting ratings sufficient to protect the circuit being
supplied. Interrupting ratings may have selective-type tripping (time delay,
magnetic, thermal, or ground fault). Provide a phenolic-composition breaker body
capable of having such accessories as handle-extension, handle-locking, and
padlocking devices attached where required to meet lock-out/tag-out
requirements of NFPA 70E.
2.1.6 Dry-Type Distribution Transformers
2.1.6.1 General Requirements
Ensure that general purpose dry-type transformers with windings 600 volts or less
are two-winding, 60 hertz, and self-cooled in accordance with UL 506 and UL
1561. Ensure windings have a minimum of two 2-1/2-percent taps above and
below nominal voltage. Provide transformers in NEMA 1 (interior) or 3R (exterior)
enclosure.
Transformer insulation system:
a. 220 degrees C insulation system for transformers 15 kVA and greater, with
temperature rise not exceeding 115 degrees C under full-rated load in
maximum ambient of 40 degrees C.
b. 180 degrees C insulation for transformers rated 10 kVA and less, with
temperature rise not exceeding 115 degrees C under full-rated load in
maximum ambient of 40 degrees C.
2.2 MATERIALS
2.2.1 Wire And Cable
Provide wires and cables in accordance applicable requirements of NFPA 70
and UL for type of insulation, jacket, and conductor specified or indicated. Do not
use wires and cables manufactured more than 12 months prior to date of delivery
to site. Provide minimum conductor size in accordance with the following:
a. Branch circuits: No. 12 AWG.
b. Class 1 remote-control and signal circuits: No. 14 AWG.
c. Class 2 low-energy, remote-control and signal circuits: No. 16 AWG.
d. Class 3 low-energy, remote-control, alarm and signal circuits: No. 22 AWG.
Ensure connectors used in wire systems comply with UL 486A-486B and UL
486C as applicable. Ensure conductors installed in plenums are marked plenum
rated.
2.2.1.1 Insulation
Unless specified or indicated otherwise or required by NFPA 70, provide
power and lighting wires rated for 600-volts, Type THWN/THHN conforming to
UL 83, Type XHHW or RHW conforming to UL 44, except that grounding wire
may be type TW conforming to UL 83; remote-control and signal circuits: Type
TW or TF, conforming to UL 83. Where lighting fixtures require 90-degree
Centigrade (C) conductors, provide only conductors with 90-degree C insulation
or better.
2.2.2 Device Plates
Provide the following:
a. UL listed, one-piece device plates for outlets to suit the devices installed.
b. For metal outlet boxes, plates on unfinished walls: zinc-coated sheet steel or
cast metal having round or beveled edges.
c. For nonmetallic boxes and fittings, other suitable plates may be provided.
d. Plates on finished walls: nylon or lexan, minimum 0.792 mm 0.03 inch wall
thickness and same color as receptacle or toggle switch with which they are
mounted.
f. Screws: machine-type with countersunk heads in color to match finish of plate.
g. Sectional type device plates are not be permitted.
h. Plates installed in wet locations: gasketed and UL listed for "wet locations."
2.2.3Switches
2.2.3.1 Safety Switches
Ensure safety switches comply with NEMA KS 1, and are the heavy-duty type
with enclosure, voltage, current rating, number of poles, and fusing as indicated
on the drawings. Ensure fused switch fuse holders comply with UL 4248-1.
Ensure switch construction is such that, when the switch handle in the "ON"
position, the cover or door cannot be opened. Cover release device is coinproof
and so constructed that an external tool is used to open the cover. Make
provisions to lock the handle in the "OFF" position. Ensure the switch is not
capable of being locked in the "ON" position. Provide switches of the quick-
make, quick-break type and terminal lugs for use with copper conductors. Ensure
safety color coding for identification of safety switches conforms to ANSI Z535.1.
2.2.3.2 Toggle Switches
Ensure toggle switches comply with EIA 480, NEMA WD 1, and UL 20 control
Light Emitting Diode (LED), and fluorescent lighting fixtures and are the heavy
duty, general purpose, noninterchangeable flush-type. Provide commercial grade
toggle switches, single or double-pole, three or four-way (as indicated on
drawings) two-position devices rated 20 amperes at 120/277 volts, 60 hertz
alternating current (ac) only. Ensure all toggle switches are products of the same
manufacturer.
2.2.4 Fuses
NEMA FU 1. Provide complete set of fuses for each fusible switch. Coordinate
time-current characteristics curves of fuses serving motors or connected in series
with circuit breakers[ or other circuit protective devices] for proper operation.
Submit coordination data for approval. Provide fuses with a voltage rating not less
than circuit voltage.
2.2.4.1 Fuseholders
Provide in accordance with UL 4248-1.
2.2.4.2 Cartridge, Current Limiting Type (Class R)
UL 198M, Class[ RK-1][ RK-5][ time-delay type]. Provide only Class R associated
fuseholders in accordance with UL 4248-12.
2.2.4.3 Cartridge Fuses, High-Interrupting Capacity, Current Limiting Type (Classes J, L,
and CC)
UL 198M, Class J for zero to 600 amperes, Class L for 601 to 6,000 amperes,
and Class CC for zero to 30 amperes.
2.2.4.4 Cartridge Fuses, Current Limiting Type (Class T)
UL 198M, Class T for zero to 1,200 amperes, 300 volts; and zero to 800
amperes, 600 volts.
2.2.5 Receptacles
Provide the following:
a. UL 498, hard use (also designated heavy-duty), grounding-type.
b. Ratings and configurations: as indicated.
c. Bodies: white or ivory as per NEMA WD 1.
d. Face and body: thermoplastic supported on a metal mounting strap.
e. Dimensional requirements: per NEMA WD 6.
f. Screw-type, side-wired wiring terminals or of the solderless pressure type
having suitable conductor-release arrangement.
g. Grounding pole connected to mounting strap.
h. The receptacle: containing triple-wipe power contacts and double or triple-wipe
ground contacts.
2.2.5.1 Switched Duplex Receptacles
Provide separate terminals for each ungrounded pole. Top receptacle:
switched when installed.
2.2.5.2 Weatherproof Receptacles
Provide receptacles, UL listed for use in "wet locations." Include cast metal box
with gasketed, hinged, lockable and weatherproof while-in-use, polycarbonate,
UV resistant/stabilized cover plate.
2.2.5.3 Ground-Fault Circuit Interrupter Receptacles
UL 943, duplex type for mounting in standard outlet box. Provide device capable
of detecting current leak of 6 milliamperes or greater and tripping per
requirements of UL 943 for Class A ground-fault circuitinterrupter devices.
Provide screw-type, side-wired wiring terminals or pre-wired (pigtail) leads.
2.2.5.4 Tamper-Resistant Receptacles
Provide duplex receptacle with mechanical sliding shutters that prevent the
insertion of small objects into its contact slots.
2.2.6 Manufacturer's Nameplate
Ensure each item of equipment has a nameplate bearing the manufacturer's
name, address, model number, and serial number securely affixed in a
conspicuous place; the nameplate of the distributing agent is not acceptable.
2.2.7 Firestopping Materials
Provide firestopping around electrical penetrations in accordance with
architectural specifications.
2.2.8 Surge Protective Devices
Provide parallel type surge protective devices (SPD) which comply with UL 1449
at the service entrance and other locations as indicatedd on drawings. Provide
surge protectors in a NEMA 1 enclosure per NEMA ICS 6. Use Type 1 or Type 2
SPD and connect on the load side of a dedicated circuit breaker.
Provide the following modes of protection:
FOR SINGLE PHASE AND THREE PHASE WYE CONNECTED SYSTEMS
Phase to phase ( L-L )
Each phase to neutral ( L-N )
Neutral to ground ( N-G )
Phase to ground ( L-G )
SPDs at the service entrance: provide with a minimum surge current rating of
80,000 amperes for L-L mode minimum and 40,000 amperes for other modes
(L-N, L-G, and N-G)[ and downstream SPDs rated 40,000 amperes for L-L mode
minimum and 20,000 amperes for other modes (L-N, L-G, and N-G).
Provide SPDs. Maximum L-N, L-G, and N-G Voltage Protection Rating:
700V for 120V, single phase system
700V for 120/240V, single phase system
700V for 208Y/120V, three phase system
1,200V for 480Y/277V, three phase system
Maximum L-L Voltage Protection Rating:
1,200V for 120V, single phase system
1,200V for 120/240V, single phase system
1,200V for 208Y/120V, three phase system
2,000V for 480Y/277V, three phase system
The minimum MCOV (Maximum Continuous Operating Voltage) rating for L-N
and L-G modes of operation: 120% of nominal voltage for 240 volts and below;
115% of nominal voltage above 240 volts to 480 volts.
PART 3 EXECUTION
3.1 PREPARATION
Submit manufacturer's instructions including special provisions required to install
equipment components and system packages. Special provisions include
impedances, hazards and safety precautions. Clean and paint conduit, supports,
fittings, cabinets, pull boxes, and racks per manufacturer's recommendations.
Protect metallic materials against corrosion. Provide equipment enclosures with
the standard finish by the manufacturer when used for most indoor installations.
For harsh indoor environments (any area subjected to chemical and abrasive
action), and all outdoor installations, refer to architectural specifications. Do not
use aluminum when in contact with earth or concrete and, where connected to
dissimilar metal, protect by using approved fittings and treatment. Except where
other equivalent protective treatment is specifically approved in writing, provide
hot-dip galvanized ferrous metals for items such as, anchors, bolts, braces,
boxes, bodies, clamps, fittings, guards, nuts, pins, rods, shims, thimbles,
washers, and miscellaneous items not made of corrosion-resistant steel.
3.2 INSTALLATION
3.2.1 Underground Service
Underground service conductors and associated conduit: continuous from
service entrance equipment to outdoor power system connection.
3.2.2 Overhead Service
Overhead service conductors into buildings: terminate at service entrance
fittings or weatherhead outside building. Overhead service conductors and
support bracket for overhead conductors are per local utility requirements and
recommendations.
3.2.3 Service Entrance Identification
Service entrance disconnect devices, switches, and enclosures: labeled and
identified as such.
3.2.4 Labels
Wherever work results in service entrance disconnect devices in more than one
enclosure, as permitted by NFPA 70, label each enclosure, new and existing, as
one of several enclosures containing service entrance disconnect devices. Label,
at minimum: indicate number of service disconnect devices housed by enclosure
and indicate total number of enclosures that contain service disconnect devices.
Provide laminated plastic labels and fasten nameplates to the device with a
minimum of two sheet-metal screws or two rivets.. Use lettering of at least 6.35
mm 0.25 inch in height, and engrave on black-on-white matte finish. Service
entrance disconnect devices in more than one enclosure: provided only as
permitted by NFPA 70.
3.2.5 Wiring Methods
Provide insulated conductors installed in rigid steel conduit, IMC, rigid nonmetallic
conduit, or EMT, except where specifically indicated or specified otherwise or
required by NFPA 70 to be installed otherwise. Grounding conductor: separate
from electrical system neutral conductor. Provide insulated green equipment
grounding conductor for circuit(s) installed in conduit and raceways. Shared
neutral, or multi-wire branch circuits, are not permitted with arc-fault circuit
interrupters. Minimum conduit size: 16 mm 1/2 inch in diameter for low voltage
lighting and power circuits. Vertical distribution in multiple story buildings: made
with metal conduit in fire-rated shafts, with metal conduit extending through shafts
for minimum distance of 150 mm 6 inches. Firestop conduit which penetrates fire-
rated walls, fire-rated partitions, or fire-rated floors in accordance with
architectural specifications.
3.2.5.1 Pull Wire
Install pull wires in empty conduits. Pull wire: plastic having minimum 890-N 200-
pound force tensile strength. Leave minimum 915 mm 36 inches of slack at each
end of pull wire.
3.2.6 Conduits, Raceways and Fittings
Ensure that conduit runs between outlet and outlet, between fitting and fitting, or
between outlet and fitting does not contain more than the equivalent of three 90-
degree bends, including those bends located immediately at the outlet or fitting.
Do not install crushed or deformed conduit. Avoid trapped conduit runs where
possible. Take care to prevent the lodgment of foreign material in the conduit,
boxes, fittings, and equipment during the course of construction. Clear any
clogged conduit of obstructions or replace conduit. Conduit and raceway runs
concealed in or behind walls, above ceilings, or exposed on walls and ceilings
1470 millimeter 5 feet or more above finished floors and not subject to
mechanical damage may be electrical metallic tubing (EMT). Unless indicated
otherwise, conceal conduit under floor slabs and within finished walls, ceilings,
and floors. Keep conduit minimum 150 mm 6 inches away from parallel runs of
flues and steam or hot water pipes. Install conduit parallel with or at right angles
to ceilings, walls, and structural members where located above accessible
ceilings and where conduit will be visible after completion of project. Run
conduits in crawl space or under floor slab as if exposed.
3.2.6.1 Rigid Steel Conduit
Make field-made bends and offsets with approved Hickey bending tool or conduit
bending machine. Use long radius conduit for elbows larger than 65 millimeter
2-1/2 inches. Provide a flush coupling for all conduit stubbed-up through concrete
floors for connections to free-standing equipment with the exception of motor-
control centers, cubicles, and other such items of equipment, when the floor slab
is of sufficient thickness. Otherwise, provide a floor box set flush with the finished
floor. For conduits installed for future use, terminate with a coupling and plug; set
flush with the floor.
3.2.6.2 Electrical Metallic Tubing (EMT)
Ground EMT in accordance with NFPA 70, using pressure grounding connectors
especially designed for EMT.
3.2.6.3 Flexible Metallic Conduit
Use flexible metallic conduit to connect recessed fixtures from outlet boxes in
ceilings, transformers, and other approved assemblies. Use bonding wires in
flexible conduit as specified in NFPA 70, for all circuits. Flexible conduit is not
considered a ground conductor. Make electrical connections to vibration-isolated
equipment with flexible metallic conduit. Use liquidtight flexible metallic conduit in
wet and oily locations and to complete the connection to motor-driven equipment.
Provide flexible steel conduit between 915 and 1830 mm 3 and 6 feet in length for
recessed and semirecessed lighting fixtures; for equipment subject to vibration,
noise transmission, or movement; and for motors. Install flexible conduit to allow
20 percent slack. Minimum flexible steel conduit size: 16 mm 1/2 inch diameter.
Provide liquidtight flexible nonmetallic conduit in wet and damp locations for
equipment subject to vibration, noise transmission, movement or motors. Provide
separate ground conductor across flexible connections.
3.2.6.5 Rigid Nonmetallic Conduit
Install a green insulated copper grounding conductor in conduit with conductors
and solidly connect to ground at each end. Size grounding wires in accordance
with NFPA 70.
3.2.6.6 Underground Conduit
Plastic-coated rigid steel; plastic-coated steel IMC; PVC, Type EPC-40. Plastic
coating: extend minimum 150 mm 6 inches above floor.
3.2.6.7 Conduit Installed Under Floor Slabs
Conduit run under floor slab: located a minimum of 12 inches below the vapor
barrier. Seal around conduits at penetrations thru vapor barrier.
3.2.6.8 Conduit Installed Through Floor Slabs
Where conduits rise through floor slabs, do not allow curved portion of bends to
be visible above finished slab.
3.2.6.9 Conduit Installed in Concrete Floor Slabs
PVC, Type EPC-40, unless indicated otherwise. Locate so as not to adversely
affect structural strength of slabs. Install conduit within middle one-third of
concrete slab. Space conduits horizontally not closer than three diameters,
except at cabinet locations. Curved portions of bends must not be visible above
finish slab. Increase slab thickness as necessary to provide minimum 25 mm
one inch cover over conduit. Where embedded conduits cross building and/or
expansion joints, provide suitable watertight expansion/deflection fittings and
bonding jumpers. Expansion/deflection fittings must allow horizontal and vertical
movement of raceway. Conduit larger than 27 mm one inch trade size: installed
parallel with or at right angles to main reinforcement; when at right angles to
reinforcement, install conduit close to one of supports of slab. Where nonmetallic
conduit is used, convert raceway to plastic coated rigid steel or plastic coated
steel IMC before rising above floor, unless specifically indicated.
3.2.6.10 Stub Ups
Provide conduits stubbed up through concrete floor for connection to free-
standing equipment with adjustable top or coupling threaded inside for plugs, set
flush with finished floor. Extend conductors to equipment in rigid steel conduit,
except that flexible metal conduit may be used 6 inches above floor. Where no
equipment connections are made, install screwdriver-operated threaded flush
plugs in conduit end.
3.2.6.11 Conduit Support
Support conduit by pipe straps, wall brackets, threaded rod conduit hangers, or
ceiling trapeze. Fasten by wood screws to wood; by toggle bolts on hollow
masonry units; by concrete inserts or expansion bolts on concrete or brick; and by
machine screws, welded threaded studs, or spring-tension clamps on steel work.
Threaded C-clamps may be used on rigid steel conduit only. Do not weld conduits
or pipe straps to steel structures. Do not exceed one-fourth proof test load for
load applied to fasteners. Provide vibration resistant and shock-resistant
fasteners attached to concrete ceiling. Do not cut main reinforcing bars for any
holes cut to depth of more than 1 1/2 inches in reinforced concrete beams or to
depth of more than 3/4 inch in concrete joints. Fill unused holes. In partitions of
light steel construction, use sheet metal screws. In suspended-ceiling
construction, run conduit above ceiling. Do not support conduit by ceiling support
system. Conduit and box systems: supported independently of both (a) tie wires
supporting ceiling grid system, and (b) ceiling grid system into which ceiling
panels are placed. Do not share supporting means between electrical raceways
and mechanical piping or ducts. Coordinate installation with above-ceiling
mechanical systems to assure maximum accessibility to all systems. Spring-steel
fasteners may be used for lighting branch circuit conduit supports in suspended
ceilings in dry locations. Support exposed risers in wire shafts of multistory
buildings by U-clamp hangers at each floor level and 10 foot maximum intervals.
Where conduit crosses building expansion joints, provide suitable[ watertight]
expansion fitting that maintains conduit electrical continuity by bonding jumpers or
other means. For conduits greater than 2 1/2 inches inside diameter, provide
supports to resist forces of 0.5 times the equipment weight in any direction and
1.5 times the equipment weight in the downward direction.
3.2.6.12 Directional Changes in Conduit Runs
Make changes in direction of runs with symmetrical bends or cast-metal fittings.
Make field-made bends and offsets with hickey or conduit-bending machine. Do
not install crushed or deformed conduits. Avoid trapped conduits. Prevent
plaster, dirt, or trash from lodging in conduits, boxes, fittings, and equipment
during construction. Free clogged conduits of obstructions.
3.2.6.13 Wireway and Auxiliary Gutter
Bolt together straight sections and fittings to provide a rigid, mechanical
connection and electrical continuity. Close dead ends of wireways and auxiliary
gutters. Plug all unused conduit openings. Support wireways for overhead
distribution and control circuits at maximum 5-foot intervals. Ensure auxiliary
gutters used to supplement wiring spaces for equipment not contained in a single
enclosure contains no switches, overcurrent devices, appliances, or apparatus
and is not more than 30 feet long.
3.2.7 Wiring
Color code feeder and branch circuit conductors as follows:
CONDUCTOR COLOR AC
Phase A Black (208VAC); Brown (480VAC)
Phase B Red (208VAC); Orange (480VAC)
Phase C Blue (208VAC); Yellow (480VAC)
Neutral White (208VAC); Natural Gray (480VAC)
Equipment Grounds Green or Bare
Use conductors up to and including AWG No. 2 that are manufactured with
colored insulating materials. For conductors larger than AWG No. 2, have ends
identified with color plastic tape in outlet, pull, or junction boxes. Splice in
accordance with the NFPA 70. Provide conductor identification within each
enclosure where a tap, splice, or termination is made and at the equipment
terminal of each conductor. Match terminal and conductor identification as
indicated. Where several feeders pass through a common pullbox, tag the
feeders to clearly indicate the electrical characteristics, circuit number, and panel
designation.
3.2.8 Wiring Devices
3.2.8.1 Wall Switches and Receptacles
Install wall switches and receptacles so that when device plates are
applied, the plates are aligned vertically to within 1/16 inch. Bond ground terminal
of each flush-mounted receptacle to the outlet box with an approved green
bonding jumper when used with dry wall type construction.
3.2.8.2 Device Plates
Ensure device plates for switches are suitably engraved with a description of the
loads when not within sight of the loads controlled. Mark device plates and
receptacle cover plates for receptacles other than 125-volt, single-phase, duplex,
convenience outlets. Show the circuit number, voltage, frequency, phasing, and
amperage available at the receptacle. Use self-adhesive labels having 1/4
inch embossed letters. Similarly mark device plates for convenience outlets
indicating the supply panel and circuit number.
3.2.9 Splices and Connectors
Make all splices in AWG No. 8 and smaller with approved insulated electrical
type or indentor crimp-type connectors and compression tools. Make all splices
in AWG No. 6 and larger with indentor crimp-type connectors and compression
tools or insulated electrical lugs type. Wrap joints with an insulating tape that has
an insulation and temperature rating equivalent to that of the conductor.
3.2.10 Safety Switches
Securely fasten switches to the supporting structure or wall, utilizing a minimum
of 1/4 inch bolts. Do not use sheet metal screws and small machine screws for
mounting. Do not mount switches in an inaccessible location or where the
passageway to the switch may become obstructed. Mounting height 5 feet above
floor level, when possible.
3.2.11 Boxes and Fittings
Provide pullboxes where necessary in the conduit system to facilitate conductor
installation. For conduit runs longer than 100 feet or with more than three right-
angle bends, install a pullbox at a convenient intermediate location. Securely
mount boxes and enclosures to the building structure using supports that are
independent of the conduit entering or leaving the boxes. Select the mounting
height of wall-mounted outlet and switch boxes, as measured between the bottom
of the box and the finished floor, in accordance with ICC/ANSI A117.1 and as
follows, unless otherwise indicated:
3.2.12 Covers and Device Plates
Install with edges in continuous contact with finished wall surfaces without use of
mats or similar devices. Plaster fillings are not permitted. Install plates with
alignment tolerance of 0.58 mm 1/16 inch. Use of sectional-type device plates
are not permitted. Provide gasket for plates installed in wet locations.
3.2.13 Electrical Penetrations
Seal openings around electrical penetrations through fire resistance-rated walls,
partitions, floors, or ceilings in accordance with architectural specifications.
3.2.14 Panelboards
Securely mount panelboards so that the top operating handle does not exceed
72-inches above the finished floor. Do not mount equipment within 36-inches of
the front of the panel. Ensure directory card information is complete and legible.
3.2.15 Dry-Type Distribution Transformers
Connect dry-type transformers with flexible metallic conduit.
3.2.16 Surge Protective Devices
Connect the surge protective devices in parallel to the power source, keeping the
conductors as short and straight as practically possible. Maximum allowed lead
length is 3 feet.
3.3 FIELD APPLIED MOUNTING
Paint electrical equipment as required to match finish of adjacent surfaces or to
meet the indicated or specified safety criteria. Where field painting of enclosures
for panelboards, load centers or the like is specified to match adjacent surfaces,
to correct damage to the manufacturer's factory applied coatings, or to meet the
indicated or specified safety criteria, provide manufacturer's recommended
coatings and apply in accordance to manufacturer's instructions.
3.4 FIELD QUALITY CONTROL
After completion of the installation and splicing, and prior to energizing the
conductors, perform wire and cable continuity and insulation tests as herein
specified before the conductors are energized. Provide all necessary test
equipment, labor, and personnel to perform the tests, as herein specified. Isolate
completely all wire and cable from all extraneous electrical connections at cable
terminations and joints. Use substation and switchboard feeder breakers,
disconnects in combination motor starters, circuit breakers in panel boards, and
other disconnecting devices to isolate the circuits under test.
Perform continuity test to insure correct cable connection end-to-end (i.e correct
phase conductor, grounded conductor, and grounding conductor wiring). Repair
and verify any damages to existing or new electrical equipment resulting from
mis-wiring. Receive approval for all repairs prior to commencement of the repair.
Conduct phase-rotation tests on all three-phase circuits using a phase-rotation
indicating instrument. Perform phase rotation of electrical connections to
connected equipment in a clockwise direction, facing the source.
Perform 600-volt wiring test on wiring rated 600 volt and less to verify that no
short circuits or accidental grounds exist. Perform insulation resistance tests on
wiring No. 6 AWG and larger diameter using instrument which applies voltage of
approximately 500 volts to provide direct reading of resistance. Minimum
resistance: 250,000 ohms.
Perform the standard, not optional, transformer tests in accordance with the
Inspection and Test Procedures for transformers, dry type, air-cooled, 600 volt
and below; as specified in NETA ATS. Measure primary and secondary voltages
for proper tap settings. Tests need not be performed by a recognized independent
testing firm or independent electrical consulting firm.
Perform ground-fault receptacle test for ground-fault receptacles with a "load"
(such as a plug in light) to verify that the "line" and "load" leads are not reversed.
No.Description Date
John H. Helberg, P.E.
License #: 59352
No.59352
STATE
OF
JOH NH .HELBERGLICENSE
FLO R I D APROFESSIONA L E N GINE ERScale
Date
Drawn By
Checked By
Project Number
11555 CENTRAL PARKWAY, STE 502
JACKSONVILLE, FL 32224
WEB: WWW.CI-MECH.COM
E: IAN.VEGA@CI-MECH.COM
PH: 904-503-1421
AUTHORIZATION CERT: #32282
FLORIDA LIC. #83516
GEORGIA LIC. #04658
PUERTO RICO LIC. #22361
MICHIGAN LIC. #6201069836
TENNESSEE LIC. #123477
E-003
ELECTRICAL
SPECIFICATIONS SHEET
2
EggBoy Restuarant
IGV
JHH
02-01-2023
Project
1241 Mayport Rd
Atlantic Beach, FL
SECTION 26 51 00 INTERIOR LIGHTING
PART 1GENERAL
1.1RELATED REQUIREMENTS
Materials not considered to be luminaires, luminaire accessories, or lighting
equipment are specified in SECTION 26 05 00.00 40 COMMON WORK
RESULTS FOR ELECTRICAL. Luminaires and accessories that are mounted in
exterior environments and not attached to the exterior of the building are
specified in Section 26 56 00 EXTERIOR LIGHTING.
1.2DEFINITIONS
a. Unless otherwise specified or indicated, electrical and electronics terms used
in these specifications and on the drawings, must be as defined in IEEE 100 and
ANSI/IES LS-1.
b. For LED luminaire light sources, "Useful Life" is the operating hours before
reaching 70 percent of the initial rated lumen output (L70) with no catastrophic
failures under normal operating conditions. This is also known as 70 percent
"Rated Lumen Maintenance Life" as defined in ANSI/IES LM-80.
c. For LED luminaires, "Luminaire Efficacy" (LE) is the appropriate measure of
energy efficiency, measured in lumens/watt. This is gathered from LM-79 data for
the luminaire, in which absolute photometry is used to measure the lumen output
of the luminaire as one entity, not the source separately and then the source and
housing together.
d. Total harmonic distortion (THD) is the root mean square (RMS) of all the
harmonic components divided by the total fundamental current.
1.3 SUBMITTALS
SD-02 Shop Drawings
Luminaire Drawings; Occupancy/Vacancy Sensor Coverage Layout; Lighting
Control System One-Line Diagram; Sequence of Operation for Lighting Control
System;
SD-03 Product Data
Luminaires; Light Sources; LED Drivers; Luminaire Warranty;Lighting Controls
Warranty; Local Area Controller; Lighting Relay Panel; Lighting Control Panel;
Lighting Contactor; Switches; Digital Switch Timers; Wall Box Dimmers; Scene
Wallstations; Occupancy/Vacancy Sensors; Photosensors; Time Clocks; Power
Packs; Power Hook Luminaire Hangers; Mini Inverters; Exit Signs; Emergency
Drivers; Energy Star Label For Residential Luminaires; Linear LED Lamps;
SD-06 Test Reports
Occupancy/Vacancy Sensor Verification Test; Photosensor Verification Test;
SD-07 Certificates
LED Driver and Dimming Switch Compatibility Certificate;
SD-10 Operation and Maintenance Data
Lighting System; Lighting Control System;
1.4 QUALITY ASSURANCE
Data, drawings, and reports must employ the terminology, classifications and
methods prescribed by the IES Lighting Library as applicable, for the lighting
system specified.
1.4.1 Luminaire Drawings
Include dimensions, accessories installation details, and construction details.
Photometric data, including CRI, CCT, LED driver type, aiming diagram, zonal
lumen data, and candlepower distribution data must accompany shop drawings.
1.4.2 LED Driver and Dimming Switch Compatibility Certificate
Submit certification from the luminaire, driver, or dimmer switch manufacturer that
ensures compatibility and operability between devices without flickering and to
specified dimming levels.
1.4.3 Occupancy/Vacancy Sensor Coverage Layout
Provide floor plans showing coverage layouts of all devices using manufacturer's
product information.
1.4.4 Regulatory Requirements
Equipment, materials, installation, and workmanship must be in accordance with
the mandatory and advisory provisions of NFPA 70, unless more stringent
requirements are specified or indicated. Provide luminaires and assembled
components that are approved by and bear the label of UL for the applicable
location and conditions unless otherwise specified.
1.4.5 Standard Products
Provide materials and equipment that are products of manufacturers regularly
engaged in the production of such products which are of equal material, design,
and workmanship. Products must have been in satisfactory commercial or
industrial use for six months prior to bid opening. The six-month period must
include applications of equipment and materials under similar circumstances and
of similar size. The product must have been on sale on the commercial market
through advertisements, manufacturers' catalogs, or brochures during the six-
month period. Where two or more items of the same class of equipment are
required, these items must be products of a single manufacturer; however, the
component parts of the item need not be the products of the same manufacturer
unless stated in this section. Do not use products manufactured more than six
months prior to date of delivery to site, unless specified otherwise.
1.5 WARRANTY
Support all equipment items by service organizations which are reasonably
convenient to the equipment installation in order to render satisfactory service to
the equipment on a regular and emergency basis during the warranty period of
the contract.
1.5.1 Luminaire Warranty
Provide and transfer to the owner the original LED luminaire manufacturers
standard commercial warranty for each different luminaire manufacturer used in
the project.
a. Provide a written one year minimum replacement warranty for material,
luminaire finish, and workmanship. Provide written warranty document that
contains all warranty processing information needed, including customer service
point of contact, whether or not a return authorization number is required, return
shipping information, and closest return location to the luminaire location.
(1) Finish warranty must include failure and substantial deterioration such as
blistering, cracking, peeling, chalking, or fading.
(2) Material warranty must include:
(a) All LED drivers and integral control equipment.
(b) Replacement when more than 15 percent of LED sources in any lightbar or
subassembly(s) are defective, non-starting, or operating below 70 percent of
specified lumen output.
b. Warranty period must begin in accordance with the manufacturer's standard
warranty starting date.
c. Provide replacements that are promptly shipped, without charge, to the owner
facility point of contact and that are identical to or an improvement upon the
original equipment. All replacements must include testing of new components and
assembly.
1.5.2 Lighting Controls Warranty
Provide and transfer to the owner the original lighting controls manufacturers
standard commercial warranty for each different lighting controls manufacturer
used in the project. Warranty coverage must begin from date of final system
commissioning or three months from date of delivery, whichever is the earliest.
Warranty service must be performed by a factory-trained engineer or technician.
a. Unless otherwise noted, provide a written five year minimum warranty on the
complete system for all systems with factory commissioning. Provide warranty
that covers 100 percent of the cost of any replacement parts and services
required over the five years which are directly attributable to the product failure.
Failures include, but are not limited to, the following:
(1) Software: Failure of input/output to execute switching or dimming commands.
(2) Damage of electronic components due to transient voltage surges.
(3) Failure of control devices, including but not limited to occupancy sensors,
photosensors, and manual wall station control devices.
b. Provide a written one year minimum warranty on all input devices against
defect in workmanship or materials provided by device manufacturer.
c. Provide a written five year minimum warranty on all control components
attached to luminaires against defect in workmanship or materials.
1.6 OPERATION AND MAINTENANCE MANUALS
1.6.1 Lighting System
Provide operation and maintenance manuals for the lighting system that provide
basic data relating to the design, operation, and maintenance of the lighting
system for the building. Include the following:
a. Manufacturers' operating and maintenance manuals.
b. Luminaire shop drawings for modified and custom luminaires.
c. Luminaire Manufacturers' standard commercial warranty information as
specified in paragraph LUMINAIRE WARRANTY.
1.6.2 Lighting Control System
Provide operation and maintenance manuals for the lighting control system that
provide basic data relating to the design, operation, and maintenance of the
lighting control system for the building. Include the following:
a. Lighting control system layout and wiring plan.
b. Lighting control system one-line diagram.
c. Product data for all devices, including installation and programming
instructions.
d. Occupancy/vacancy sensor coverage layout.
e. Training materials, such as videos or in-depth manuals, that cover basic
operation of the lighting control system and instructions on modifying the lighting
control system. Training materials must include calibration, adjustment,
troubleshooting, maintenance, repair, and replacement.
f. Sequence of operation descriptions for each typical room type, including final
programming, schedules, and calibration settings.
PART 2PRODUCTS
2.1 LUMINAIRES
UL 1598, NEMA C82.77-10. Provide luminaires as indicated in the luminaire
schedule and NL plates or details on project plans, complete with light source,
wattage, and lumen output indicated. All luminaires of the same type must be
provided by the same manufacturer. Luminaires must be specifically designed for
use with the driver and light source provided. Provide luminaire with Energy Star
Label For Residential Luminaires in accordance with Energy Star.
UL 8750, ANSI/IES LM-79, ANSI/IES LM-80. For all luminaires, provide:
a. Complete system with LED drivers and light sources.
b. Housings constructed of non-corrosive materials. All new aluminum housings
must be anodized or powder-coated. All new steel housings must be treated to be
corrosion resistant.
c. ANSI/IES TM-21, ANSI/IES LM-80. Minimum L70 lumen maintenance value of
50,000 hours unless otherwise indicated in the luminaire schedule. Luminaire
drive current value must be identical to that provided by test data for luminaire in
question.
d. Minimum efficacy as specified in the luminaire schedule. Theoretical models of
initial lamp lumens per watt are not acceptable. If efficacy values are not listed in
the luminaire schedule, provide luminaires that meet the following minimum
values:
Luminaire Style Minimum Luminaire Efficacy
Recessed 1 by 4, 2 by 4, and 2 by 2 100 LPW
Recessed Downlight (fixed, adjustable, wallwash) 80 LPW
Linear, Accent (undercabinet, cove) 45 LPW
Linear, Ambient (indirect wall mount, linear pendent)100 LPW
High Bay, Low Bay, and Industrial Locations 100 LPW
Food Service and Hazardous Locations 60 LPW
Other (track, residential diffusers) 50 LPW
Exterior Wall Sconce 50 LPW
Luminaire Style Minimum Luminaire Efficacy Steplight 30 LPW
Parking Garage Luminaire 100 LPW
e. UL listed for dry or damp location typical of interior installations. Any luminaire
mounted on the exterior of the building must be UL listed for wet location typical
of
exterior installations.
f. LED driver and light source package, array, or module are accessible for
service or replacement without removal or destruction of luminaire.
g. Lenses constructed of heat tempered borosilicate glass, UV-resistant acrylic,
or silicone. Provide polycarbonate vandal-resistant lenses as indicated.
Sandblasting, etching and polishing must be performed as indicated in the
luminaire description.
h. ANSI/IES TM-15. Provide exterior building-mounted luminaires that do not
exceed the BUG ratings as listed in the luminaire schedule. If BUG ratings are not
listed in the luminaire schedule, provide luminaires that meet the following
minimum values for each applicationand mounting conditions:
Lighting Application Mounting Conditions BUG Rating
Exterior Wall Sconce Above 4 feet AFF B1-U0-G2
Exterior Wall Sconce Below or at 4 feet AFFB4-U0-G4
Steplight Above 4 feet AFF B1-U1-G2
Steplight Below or at 4 feet AFFB4-U1-G4
Parking Garage Luminaire Ceiling mounted B4-U4-G3
i. For all recessed luminaires that are identified to be in contact with insulation,
provide luminaires that are IC-rated.
2.2 LIGHT SOURCES
NEMA ANSLG C78.377, NEMA SSL 3. Provide type, delivered lumen output, and
wattage as indicated in the luminaire schedule on project plans.
2.2.1 LED Light Sources
Provide LED light sources that meet the following requirements:
a. NEMA ANSLG C78.377. Emit white light and have a nominal CCT of 3500
Kelvin.
b. Minimum Color Rendering Index (CRI) of 90.
c. Directive 2011/65/EU. Restriction of Hazardous Substances (RoHS) compliant.
d. Light source color consistency by utilizing a binning tolerance within a 3-step
McAdam ellipse.
2.2.1.1 Linear LED Lamps
Provide linear LED Lamps that are compatible with existing instant-start or
programmed-start ballasts, and meet the following additional requirements:
a. UL 1993 UL Type A linear LED lamp.
b. Power Factor greater than or equal to 0.90 at full input power and across
specified dimming range.
c. Maximum Total Harmonic Distortion (THD) less than or equal to 20 percent at
full input power and across specified dimming range.
d. Lumen per watt efficacy no less than 120.
e. Minimum beam angle of 180 degrees.
f. Lamp datasheet complies with ANSI C78.54. Manufacturer must provide list of
all ballasts that are compatible for use with lamp.
2.3 LED DRIVERS
NEMA SSL 1, UL 8750. Provide LED drivers that are electronic, UL Class 1 or
Class 2, constant-current type and that comply with the following requirements:
a. The combined driver and LED light source system does not exceed the
minimum luminaire efficacy values as listed in the luminaire schedule provided.
b. Operates at a voltage of 120-277 volts at 50/60 hertz,with input voltage
fluctuations of plus/minus 10 percent.
c. Power Factor (PF) greater than or equal to 0.90 at full input power and across
specified dimming range.
d. Maximum Total Harmonic Distortion (THD) less than 20 percent at full input
power and across specified dimming range.
e. Operates for at least 50,000 hours at maximum case temperature and 90
percent non-condensing relative humidity.
f. Withstands Category A surges of 2 kV without impairment of performance.
Provide surge protection that is integral to the driver.
g. Integral thermal protection that reduces the output power to protect the driver
and light source from damage if the case temperature approaches or exceeds the
driver's maximum operating temperature.
h. 47 CFR 15. Complies with the requirements of the Federal Communications
Commission (FCC) rules and regulations, Non-Consumer (Class A) for EMI/RFI
(conducted and radiated).
i. Class A sound rating.
j. Directive 2011/65/EU. Restriction of Hazardous Substances (RoHS) compliant.
k. Provide dimming capability as indicated in the luminaire schedule on project
plans. Where shown on drawings dimmable drivers must dim down to 10
percent. Dimmable drivers must be controlled by a Class 2 low voltage 0-10VDC
controller or Digital Addressable Lighting Interface (DALI)] dimming signal
protocol unless otherwise specified. LED drivers of the same family/series must
track evenly across multiple luminaires at all light levels.]
2.4 LIGHTING CONTROLS
Provide lighting control systems that do not switch off battery-operated or
emergency backup luminaires or exit signs in path of egress. Provide system with
override of lighting control devices controlling luminaires in path of egress with
activation of fire alarm system.
2.4.1 System
Provide lighting control system that operates the lighting system as described in
the lighting control strategies in the project plans. Submit Sequence of Operation
for Lighting Control System describing the operation of the proposed lighting
control system and devices. Sequence of Operation must provide the strategies
identified in the lighting control strategies.
2.4.1.1 Localized Control Systems
Provide room or area-wide lighting control system capable of manual control,
time-based control, and receiving input from photosensors and
occupancy/vacancy sensors.
2.4.1.1.1 Local Area Controller
Provide controller designed for single area or room with the following
requirements:
a. Operates at a voltage of 120-277 volts at 50/60 hertz.
b. [2][_____] zone, with [1][2][_____] relay[s] rated 20 amps[ each] with one
manual [switch][dimmer] per zone.
c. Provide inputs for occupancy/vacancy sensors, photosensors, and low-voltage
wall switches.
d. Provide daylight harvesting capability with full-range dimming control with input
from photosensor as shown on drawings.
f. Provide full 'OFF' function with input from external time clock input.
g. Capable of 0-10V dimming.
i. Provide override 'ON' function with input from Fire Alarm Control Panel for all
emergency lighting. Controller must not turn off power to emergency batteries or
exit signs.
2.4.1.2 Centralized Control Systems
Provide a centralized lighting control system capable of manual control, time-
based control, receiving input from photosensors and occupancy/vacancy
sensors, with the capabilities of controlling, monitoring, and programming
changes from one centralized on-site location, and integration with other building
systems.
2.4.1.2.1 Lighting Relay Panel
UL 924. Enclose panel hardware in a [surface][flush]-mounted, NEMA 1, painted,
steel enclosure with lockable access door and ventilation openings. Internal low-
voltage compartment must be separated from line-voltage compartment of
enclosure with only low-voltage compartment accessible upon opening of door.
Provide additional remote cabinets that communicate back to main control panel
as required. Provide Lighting Control Panels that meet the following criteria:
a. Input voltage of 120-277 at 50/60 Hz, with internal low voltage power supply as
required.
b. [8][16][32][_____] single-pole latching relays rated at [20][30] amps, [120-277]
[120][277] volts. Provide provision for relays to close upon power failure. Provide
relays designed for 10 years of use at full rated load.
c. Relay control module operates at 24 VDC and is rated to control a minimum of
[8][16][32][_____] relays.
d. Capable of 0-10V dimming.
2.4.1.2.2 Lighting Control Panel
UL 916, 47 CFR 15. Provide an electronic, programmable lighting control panel
complete with microprocessor, capable of providing lighting control with input
from internal programming, digital switches,time clocks, and other control
devices. Enclose panel hardware in a [surface][flush]-mounted, NEMA 1 painted,
steel enclosure with lockable access door and ventilation openings. Internal low-
voltage compartment must be separated from line-voltage compartment of
enclosure with only low-voltage compartment accessible upon opening of door.
Provide additional remote cabinets that communicate back to main control panel
as required. Provide Lighting Control Panels that meet the following criteria:
a. Input voltage of [120][277][120-277] at 50/60 Hz, with internal low-voltage VDC
power supply as required.
b. Solid-state, microprocessor-based, internal astronomical time clock.
Microprocessor must have nonvolatile memory and must reset automatically after
power interruptions of up to 90 days.
c. Interface for providing local programming and control capability, with physical
key-locked cover or programmed security access code to prevent unauthorized
use.
d. Dimming modules capable of [0-10V][DALI] dimming.
e. Modules and control panels include multichannel output with [_____] channels,
with multiple inputs for manual control, photosensors, and occupancy/vacancy
sensors.
g. Outputs that require line-voltage switching are provided by relays which are
designed for 10 years of use at full rated load.
h. Control processor indicates failure of normal power and which circuits are
supplied by alternative power source if connected to emergency lighting units.
i. Provide building automation system write access points to lighting control
system for [manual override][building schedules][utility demand response events].
j. Provide building automation read access points to lighting control system for
[occupancy status per room or area][current lighting load in kilowatts][calculated
energy use in kilowatt-hours][utility demand response priorities].
2.4.1.2.4 Lighting Contactor
NEMA ICS 2, NEMA ICS 6. Provide an electrically[mechanically]-held lighting
contactor housed in a NEMA 1 enclosure. Provide contactor with one [_____]
[normally-open(NO)][normally closed(NC)], single[double] pole contacts, rated
600 volts, 30 amps. Provide coil operating voltage of [24][120][277][480]volts.
2.4.2 Devices
2.4.2.1 Switches
Provide line-voltage toggle switches as specified in SECTION 26 05 00.00 40
COMMON WORK RESULTS FOR ELECTRICAL. When used for non-digital
loads, devices must be rated at 20 Amps inductive load, and be compatible with
the lighting control systems.
2.4.2.2 Digital Switch Timers
Provide line-voltage toggle switches that allow manual control to ON and
automatically switches lighting load to OFF. Device operates with the use of
paddle, button, or toggle, and operates at 120-277 volts. Device allows for
programming of auto off timer from [2][5][10] minutes to [1][6][12] hours.
2.4.2.3 Wall Box Dimmers
UL 1472, UL 20, IEEE C62.41, NEMA 77, NEMA SSL 7A. Dimmers must provide
flicker-free, continuously variable light output throughout the dimming range of
10 percent to 100 percent. Devices must be capable of operating at their full
rated capacity regardless of being single or ganged-mounted, and be compatible
with three-way and four-way switching scenarios.
Provide wall-box dimmers that meet the following requirements:
a. Device operates as [part of a lighting control system][an independent control
device].
b. Device operates with the use of a vertical slider, paddle, rotary, button, or
toggle with adjacent vertical slider.
c. Finish of device matches switches and outlets in the same area.
d. Back box in wall has sufficient depth to accommodate body of switch and
wiring.
e. Dimmer is capable of controlling [0-10 volt][DALI] LED drivers. Dimmers and
the drivers they control must be provided from the same manufacturer or tested
and certified as compatible for use together.
f. Radio frequency interference suppression is integral to device.
2.4.2.4 Scene Wallstations
Provide scene wallstations that are compatible with the other components of the
lighting control system and capable of Class 1 or 2 wiring methods in accordance
with the NEC and local codes. Provide devices that contain on/off group, preset
scene functions, or dim up/dim down interface through front panel. Programming
of new scenes or zone assignments must be accomplished by authorized
personnel from the space being controlled. Provide labeling for each button,
including laminated sheet with scene descriptions to be posted near each scene
controller.
2.4.2.5 Occupancy/Vacancy Sensors
IEEE C62.41, NEMA WD 1, UL 94, UL 916, UL 508, ASTM D4674 REV A, NEMA
WD 7. Provide occupancy/vacancy sensors with coverage patterns as indicated
on project plans. Provide no less quantity of sensors as shown on plans, but
add additional sensors when required to fulfill coverage requirement for the
specific model of sensor provided. Provide occupancy sensor operation that
requires movement to activate luminaires controlled and turns luminaires off after
a set time of inactivity. Provide vacancy sensor operation that requires manual
control to activate luminaires and turns luminaires off after a set time of inactivity.
Provide ceiling or wall-mounted occupancy/vacancy sensors that meet the
following requirements:
a. Operating voltage of [12-24][120-277][120][277] volts.
b. Time delay of 30 seconds to 30 minutes with at least four intermediate time
delay settings.
c. Sensors are [ceiling mounted][wall-box mounted][wall mounted][integral
to luminaire].
d.[ Does not exceed a maximum load requirement of 20mA at 24VDC.][ No
minimum load requirement and be capable of switching from zero to 800 W at
120 VAC, 50/60 Hz and from zero to 1200 W at 277 VAC, 50/60 Hz.][ Networked
sensor with no minimum or maximum load. Sensor is programmed to control
zones.]
e. Shielded or controlled by internal logic to adjust sensitivity to avoid false
triggering due to ambient temperature, air temperature variations or HVAC air
movement.
f. Sensor is equipped to automatically energize the connected load upon loss of
normal power when located in a means of egress.
g. Occupancy and vacancy operation is field-adjustable and [programmable via
lighting control system processor.][programmable with push-button or dip switch
on the sensor device.]
h. No leakage current to load when in the off mode.
i. Utilize zero-crossing circuitry to prevent damage from high inrush current and to
promote long life operation.
[ j. Allow the adding or deleting of specific luminaires or zones to the assigned
sensor without the use of ladders.[ Provide sensors that allow for remote control
adjustments of operational parameters (sensitivity, time delay), and that are be
able to transmit, receive, and store system information through the lighting control
system processor.]
][k. Provide an isolated relay for integrating control of HVAC or other automated
systems.
2.4.2.5.1 Passive Infrared Sensors
Provide Passive Infrared Sensors (PIR) sensors that detect occupancy by
sensing heat and movement in the area of coverage. Provide sensors are
constructed of a housing of high-impact, injection-molded thermoplastic. Provide
PIR sensors that are temperature compensated, with a dual element sensor and
a multi-element fresnel lens of POLY IR4 material.
2.4.2.5.2 Ultrasonic Sensors
Provide ultrasonic sensors that detect occupancy by sensing a change in pattern
of reflected ultrasonic waves in the area of coverage. Provide sensors that are
constructed of a housing of high-impact, injection-molded thermoplastic. Provide
ultrasonic sensors that operate at 40 kHz.
2.4.2.5.3 Dual Technology Sensors
Provide dual technology sensors that meet the requirements for PIR sensors and
ultrasonic sensors indicated above. If either the PIR or ultrasonic sensing
registers occupancy, the luminaires must remain on.
2.4.2.5.4 High Bay Sensors
Provide occupancy/vacancy sensors specifically designed for high-bay mounting
applications for all [ceiling-mounted sensors][sensors integral to luminaires]
mounted above 10 meters 35 feet using PIR technology. Provide high-bay
sensors with interchangeable lenses for 360 degree open area coverage or
narrow rectangular warehouse aisle coverage.[ Provide sensors that are
designed to mount directly to or adjacent to high- or low-bay luminaires.]
2.4.2.5.5 Integrated Sensors
Provide integrated occupancy/vacancy sensors that mount directly to the
luminaires as indicated in project plans.[ Sensor mounts to standard junction box
or directly to luminaire using a [straight][drop] nipple mount.][ Provide sensors that
communicate to [lighting control panel][local area controller] via [RJ45][SPDT
relay][_____].]
2.4.2.5.6 Power Packs
UL 2043. Provide power packs to provide power to lighting control sensors as
required in accordance with the manufacturer's specifications. Provide power
packs that meet the following requirements:
a. Operate at an input voltage of [120][277][120-277] VAC, with an output voltage
[12-24][12][24] VDC at 225 mA.
b. Constructed of plenum-rated, high-impact thermoplastic enclosure.
c. Utilizes zero-crossing circuitry to prevent damage from inrush current.
d. Maximum load rating of 16 [_____] amps for electronic [_____] lighting loads.
e. Directive 2011/65/EU. Restriction of Hazardous Substances (RoHS) compliant.
2.4.2.6 Photosensors
Provide photosensors that meet the following requirements:
a. Detect changes in ambient lighting level and enable dimming as required by
sequence of operation by operating in [an open-loop][a closed-loop] system.
b. Contain a detection cone, where the base of the cone may be circular or an
elongated shape, and where the smallest angle between the edge and the axis of
the cone is between 20 and 50 degrees. The cone axis may be tilted to the
vertical when installed to give the sensor preferred directionality.
c. Sensors are [ceiling-mounted][wall-box-mounted][wall-mounted][mounted
integral to luminaire] with sensitivity, filtering, range and viewing angle to meet
requirements of sequence of operation, scope of work and construction
documents.
d. Time delay that is adjustable from 1 to 30 seconds ON delay, and 1 to 30
minutes OFF delay to prevent cycling, with deadband adjustment of 25 percent to
100 percent above lower setpoint.
e. Output dimming signal is linear to light level with less than 1 percent variation.
Cadmium sulfide photo-resistors are not acceptable.
f. Sensor is not combined in the same housing or location with occupancy or
vacancy sensors if the proper location for one function compromises the
successful operation of the other function, or in any way reduces the system's
ability to meet the design intent.
2.4.2.7 Time Clocks
UL 917, NEMA ICS 6. House time clock in a surface-mounted, lockable, NEMA 1
enclosure constructed of painted steel or plastic polymer. Provide electronic type
time clock that meets the following criteria:
a. [Astronomic][24 hour][7 day][365 day] programming function, providing
a total of [56][96][2000][4000] on/off set points.
b. [24 hour][12 hour AM/PM] type digital clock display format.
c. Power outage back-up for time clock utilizing [a capacitor][alkaline batteries]
[lithium battery] which provides coverage for a minimum of [seven][four][_____]
days.
d. Capable of controlling a minimum of [1][2][4][8][12][16][_____] channels or
loads.
e. Contacts are rated for [30] [_____] amps at 120-277 VAC resistive load in a
[SPST][DPST][SPDT][DPST] [normally open (NO)][normally closed (NC)]
configuration.
f. Contains [function that allows automatic control to be skipped on certain
selected days of the week][manual bypass or remote override control][daylight
savings time automatic adjustment][EEPROM memory module][momentary
function for output contacts][ability for photosensor input].
2.5 EXIT AND EMERGENCY LIGHTING EQUIPMENT
2.5.1 Exit Signs
UL 924, NFPA 101. Provide wattage as indicated in the luminaire schedule on
project plans. Provide LED Exit Signs that meet the following criteria:
a. [Housing constructed of [UV-stable, thermo-plastic][clear polycarbonate
housing][painted, die-cast aluminum][painted steel].][Edge-lit type with clear
acrylic, edge-lit face and aluminum trim having [clear aluminum][white][chrome]
[brass][_____] finish.]
b. UL listed for [damp][wet] location.
c. Configured for [universal][ceiling][wall][end] mounting.
d. 150 mm 6 inch high, 19 mm 3/4 inch stroke [red][green] lettering on face of sign
with chevrons on either side of lettering to indicate direction.
e. Single or double face as indicated in project plans and luminaire schedule.
2.5.1.1 Exit Signs with Battery Backup
Equip with automatic power failure device, test switch, and pilot light, and fully
automatic high/low trickle charger in a self-contained power pack. Battery must be
sealed, maintenance free nickel-cadmium type, and must operate unattended for
a period of not less than five years. Emergency run time must be a minimum of
1-1/2 hours. LEDs must have a minimum rated life of 10 years.[ Provide self-
diagnostic circuitry integral to emergency LED driver.] In lieu of battery, can use a
nonradioactive photoluminescent plate.
2.5.1.2 Remote-Powered Exit Signs
Provide exit sign that contains provision for 120-277 VAC input from remote
source.
2.5.2 Emergency Lighting Unit (ELU)
UL 924, NFPA 101. Provide emergency lighting units (ELUs) completely
assembled with wiring and mounting devices, ready for installation at the
locations indicated. Provide in UV-stable, thermo-plastic, painted, die-cast
aluminum, or painted steel housing with UL damp label as indicated. Emergency
lighting units must be rated for 12 volts, except units having no remote-mounted
light sources and having no more than two unit-mounted light sources may be
rated six volts. Equip units with brown-out sensitive circuit to activate battery
when input voltage falls to 75 percent of normal. Equip with two LED light
sources, automatic power failure device, test switch, and pilot light, and fully
automatic high/low trickle charger in a self-contained power pack. Battery must
be sealed, maintenance free lead-calcium or nickel-cadmium type, and must
operate unattended for a period of not less than five years. Emergency run time
must be a minimum of 90 minutes. LEDs must have a minimum rated life of 10
years.
2.5.3 LED Emergency Drivers
UL 924, NFPA 101. Provide LED emergency driver with automatic power failure
detection, test switch and LED indicator (or combination switch/indicator) located
on luminaire exterior, and fully-automatic solid-state charger, battery and inverter
integral to a self-contained housing. Integral nickel-cadmium or lead-calcium
battery is required to supply a minimum of 90 minutes of emergency power at [5]
[7][10][_____] watts, [10-50][_____] VDC[compatible with LED forward voltage
requirements], constant output. Driver must be RoHS compliant, rated for
installation in plenum-rated spaces and damp locations, and be warranted for a
minimum of five years.
2.5.4 Self-Diagnostic Circuitry for LED Drivers
UL 924, NFPA 101. Provide emergency lighting unit with fully-automatic, integral
self-testing/diagnostic electronic circuitry. Circuitry must provide for a one minute
diagnostic test every 28 days, and a 30 minute diagnostic test every six months,
minimum. Any malfunction of the unit must be indicated by LED(s) visible from
the exterior of the luminaire. A manual test switch must also be provided to
perform a diagnostic test at any given time.
2.5.5 Mini Inverters
UL 924, NFPA 101. Provide mini inverters that are designed to provide power to
emergency luminaires. Provide mini inverters that are suitable for [dry] [damp]
[wet] installations, operate at a voltage of 120-277 volts at 50/60 hertz, and are
capable of operating 0-10V dimming override. Provide mini inverters that supply a
minimum of 90 minutes of emergency power.
2.6 LUMINAIRE MOUNTING ACCESSORIES
2.6.1 Suspended Luminaires
a. Provide hangers capable of supporting twice the combined weight of luminaires
supported by hangers.
b. Hangers must allow luminaires to swing within an angle of 45 degrees. Brace
pendents 1.2 meters 4 feet or longer to limit swinging. Provide with swivel
hangers to ensure a plumb installation for rigid stem pendents. Provide cadmium-
plated steel with a swivel-ball tapped for the conduit size indicated.
c. Single-unit suspended luminaires must have cable or twin-stem hangers.
Multiple-unit or continuous row luminaires with a separate power supply cord
must have a tubing or stem for wiring at one point and a tubing or rod suspension
provided for each unit length of chassis, including one at each end.
d. Provide all linear pendent and surface mounted luminaires with two supports
per four-foot section or three per eight-foot section unless otherwise
recommended by manufacturer.
2.6.2 Recess and Surface Mounted Luminaires
Provide access to light source and LED driver from bottom of luminaire. Provide
trim and lenses for the exposed surface of flush-mounted luminaires as indicated
on project drawings and specifications. Luminaires recessed in ceilings which
have a fire resistive rating of one hour or more must be enclosed in a box which
has a fire resistive rating equal to that of the ceiling. For surface mounted
luminaires with brackets, provide flanged metal stem attached to outlet box, with
threaded end suitable for supporting the luminaire rigidly in design position.
Flanged part of luminaire stud must be of broad base type, secured to outlet box
at not fewer than three points.
2.6.3 Luminaire Support Hardware
2.6.3.1 Wire
ASTM A641/A641M. Galvanized, soft tempered steel, minimum 0.11 inches in
diameter, or galvanized, braided steel, minimum 0.08 inches in diameter.
2.6.3.2 Wire for Humid Spaces
ASTM A580/A580M. Composition 302 or 304, annealed stainless steel, minimum
0.11 inches in diameter. ASTM B164. UNS NO4400, annealed nickel-copper
alloy, minimum 0.11 inches in diameter.
2.6.3.3 Threaded Rods
Threaded steel rods, 4.76 mm 3/16 inch diameter, zinc or cadmium coated.
2.6.3.4 Straps
Galvanized steel, one by 3/16 inch, conforming to ASTM A653/A653M, with a
light commercial zinc coating or ASTM A1008/A1008M with an electrodeposited
zinc coating conforming to ASTM B633, Type RS.
2.6.4 Power Hook Luminaire Hangers
UL 1598. Provide an assembly consisting of through-wired power hook housing,
interlocking plug and receptacle, power cord, and luminaire support loop. Power
hook housing must be cast aluminum having two 3/4 inch threaded hubs. Support
hook must have safety screw. Luminaire support loop must be cast aluminum
with provisions for accepting 3/4 inch threaded stems. Power cord must include
16 inches of 3 conductor No. 16 Type SO cord. Assembly must be rated 120 volts
or 277 volts, 15 amperes.
2.7 EQUIPMENT IDENTIFICATION
2.7.1 Manufacturer's Nameplate
Each item of equipment must have a nameplate bearing the manufacturer's
name, address, model number, and serial number securely affixed in a
conspicuous place; the nameplate of the distributing agent will not be acceptable.
2.7.2 Labels
UL 1598. All luminaires must be clearly marked for operation of specific light
sources and LED drivers. The labels must be easy to read when standing next to
the equipment, and durable to match the life of the equipment to which they are
attached. Note the following light source characteristics in the format "Use Only
_____":
a. Correlated Color Temperature (CCT) and Color Rendering Index (CRI) for all
luminaires.
b. Driver and dimming protocol. All markings related to light source type must be
clear and located to be readily visible to service personnel, but unseen from
normal viewing angles when light sources are in place. LED drivers must have
clear markings indicating dimming type and indicate proper terminals for the
various outputs.
No.Description Date
John H. Helberg, P.E.
License #: 59352
No.59352
STATE
OF
JOH NH .HELBERGLICENSE
FLO R I D APROFESSIONA L E N GINE ERScale
Date
Drawn By
Checked By
Project Number
11555 CENTRAL PARKWAY, STE 502
JACKSONVILLE, FL 32224
WEB: WWW.CI-MECH.COM
E: IAN.VEGA@CI-MECH.COM
PH: 904-503-1421
AUTHORIZATION CERT: #32282
FLORIDA LIC. #83516
GEORGIA LIC. #04658
PUERTO RICO LIC. #22361
MICHIGAN LIC. #6201069836
TENNESSEE LIC. #123477
E-004
ELECTRICAL
SPECIFICATIONS SHEET
3
EggBoy Restuarant
IGV
JHH
02-01-2023
Project
1241 Mayport Rd
Atlantic Beach, FL
SECTION 26 51 00 INTERIOR LIGHTING (continued)
2.8 FACTORY APPLIED FINISH
NEMA 250. Provide all luminaires and lighting equipment with factory-applied
painting system that as a minimum, meets requirements of corrosion-resistance
testing.
PART 3 EXECUTION
3.1 INSTALLATION
IEEE C2, NFPA 70.
3.1.1 Light Sources
When light sources are not provided as an integral part of the luminaire, deliver
light sources of the type, wattage, lumen output, color temperature (CCT), color
rendering index (CRI), and voltage rating indicated to the project site and install
just prior to project completion, if not already installed in the luminaires from the
factory.
3.1.2 Luminaires
Set luminaires plumb, square, and level with ceiling and walls, in alignment with
adjacent luminaires and secure in accordance with manufacturers' directions and
approved drawings. Provide accessories as required for ceiling construction type
indicated on Finish Schedule. Luminaire catalog numbers do not necessarily
denote specific mounting accessories for type of ceiling in which a luminaire may
be installed. Provide wires, straps, or rods for luminaire support in this section.
Install luminaires with vent holes free of air blocking obstacles.
3.1.2.1 Suspended Luminaires
Measure mounting heights from the bottom of the luminaire for ceiling-mounted
luminaires and to center of luminaire for wall-mounted luminaires. Obtain architect
approval of the exact mounting height on the job before commencing installation
and, where applicable, after coordinating with the type, style, and pattern of the
ceiling being installed. Support suspended luminaires from structural framework
of ceiling or from inserts cast into slab.
a. Provide suspended luminaires with 45 degree swivel hangers so that they hang
plumb and level.
b. Locate so that there are no obstructions within the 45 degree range in all
directions.
c. The stem, canopy and luminaire must be capable of 45 degree swing.
d.Rigid pendent stem, aircraft cable, rods, or chains 4 feet or longer excluding
luminaire must be braced to prevent swaying using three cables at 120 degree
separation.
e. Suspended luminaires in continuous rows must have internal wireway systems
for end to end wiring and must be properly aligned to provide a straight and
continuous row without bends, gaps, light leaks or filler pieces.
f. Utilize aligning splines on extruded aluminum luminaires to assure minimal
hairline joints.
g. Support steel luminaires to prevent "oil-canning" effects.
h. Match supporting pendents with supported luminaire. Aircraft cable must be
stainless steel.
i. Match finish of canopies to match the ceiling, and provide low profile canopies
unless otherwise shown.
j. Maximum distance between suspension points must be 10 feet or as
recommended by the manufacturer, whichever is less.
3.1.2.2 Recessed and Semi-Recessed Luminaires
a. Support recessed and semi-recessed luminaires independently from the
building structure by a minimum of two wires, straps or rods per luminaire and
located near opposite corners of the luminaire. Secure horizontal movement with
clips provided by manufacturer. Ceiling grid clips are not allowed as an alternative
to independently supported luminaires.
b. Support round luminaires or luminaires smaller in size than the ceiling grid
independently from the building structure by a minimum of four wires, straps or
rods per luminaire, spaced approximately equidistant around.
c. Do not support luminaires by acoustical tile ceiling panels.
d. Where luminaires of sizes less than the ceiling grid are indicated to be
centered in the acoustical panel, support each independently and provide at least
two 3/4 inch metal channels spanning, and secured to, the ceiling tees for
centering and aligning the luminaire.
e. Luminaires installed in suspended ceilings must also comply with the
requirements of acoustical ceiling specifications.
f. Adjust aperture rings on all applicable ceiling recessed luminaires to
accommodate various ceiling material thickness. Coordinate cut-out size in
ceiling to ensure aperture covers cut-out entirely. Install aperture rings such that
the bottom of the ring is flush with finished ceiling or not more than 1/16 inch
above. Do not install luminaires such that the aperture ring extends below the
finished ceiling surface.
g. For luminaire recessed in plaster ceilings, provide plaster frames for setting.
Install setting such that the bottom of the frame is flush with finished ceiling.
Support luminaires with plaster frames utilizing yokes or leveling lugs. Do not
mount luminaires or support elements to ducts or pipes. Yokes must support a
luminaire by no fewer than two bolts each.
3.1.2.3 Field Applied Painting
Provide field applied painting for luminaire type. Paint lighting equipment as
required to match finish of adjacent surfaces or to meet the indicated or specified
safety criteria. Provide painting as specified in panting specification or per
manufacturer's recommentdation.
3.1.3 LED Drivers
Provide LED drivers integral to luminaire as constructed by the manufacturer.
3.1.4 Exit Signs
NFPA 101. Wire exit signs and emergency lighting units ahead of the local switch,
to the normal lighting circuit located in the same room or area.
3.1.5 Lighting Controls
3.1.5.1 Scene Wallstations
Submit labeling templates for all scene wallstations, ganged faceplates and other
manual control cover plates. Label each scene control button with approved
scene description.
3.1.5.2 Occupancy/Vacancy Sensors
a. Provide quantity of sensor units indicated as a minimum. Provide additional
units to give full coverage over controlled area. Full coverage must provide hand
and arm motion detection for office and administration type areas and walking
motion for industrial areas, warehouses, storage rooms and hallways.
b. Locate ceiling-mounted sensors no closer than 6 feet from the nearest HVAC
supply or return diffuser.
c. Locate the sensor(s) as indicated and in accordance with the manufacturer's
recommendations.
3.1.5.3 Photosensors
Locate and aim sensor as indicated and in accordance with the manufacturer's
recommendations. Adjust sensor set-point in accordance with the manufacturer's
recommendations and for the indicated light level of the area of coverage,
measured at the work plane.
3.2 FIELD QUALITY CONTROL
3.2.1 Tests
3.2.1.1 Lighting Control Verification Tests
Verify lighting control system and devices operate according to approved
sequence of operations.
a. Verify occupancy/vacancy sensors operate as described in sequence of
operations. Provide testing of sensor coverage, sensitivity, and time-out settings
in all spaces where sensors are placed. This is to be completed only after all
furnishings have been installed. Submit occupancy/vacancy sensor verification
test.
b. Verify photosensors operate as described in sequence of operations. Provide
testing of sensor coverage, aiming, and calibration in all spaces where sensors
are placed. This is to be completed only after all furnishings have been installed.
Submit photosensor verification test.
c. Verify wall box dimmers and scene wallstations operate as described in
sequence of operations
3.2.1.2 Emergency Lighting Test
Interrupt power supply to demonstrate proper operation of emergency lighting. If
adjustments are made to the lighting system, re-test system to show compliance
with standards.
3.3 CLOSEOUT ACTIVITIES
3.3.1 Commissioning
NFPA 101. Factory Trained Field Service Technician is responsible for calibration
and programming sequences for input devices and systems in accordance with
the requirements described in the sequence of operation.
3.3.2 Training
Provide users with a list of control devices located within user-occupied spaces,
such as photosensors and occupancy and vacancy sensors, including
information on the proper operation and schedule for each device. Provide
demonstration for each type of interface. Provide users with the building
schedule, including conditional programming based on astronomic time clock
functionality. Provide users with the correct contact information for maintenance
personnel who will be available to address any lighting control issues. Provide
laminated instructions to the user at each scene wallstation. Provide only
instructions relevant to the functionality of the specific scene wallstation. Provide
a description of each labeled scene control button. If the room utilizes
occupancy/vacancy sensors or photosensors, include a description of this
functionality on the instruction sheet.
SECTION 26 56 00 EXTERIOR LIGHTING
PART 1 GENERAL
1.1 DEFINITIONS
a. Unless otherwise specified or indicated, electrical and electronics terms used
in these specifications and on the drawings must be as defined in IEEE 100 and
ANSI/IES LS-1.
b. For LED luminaire light sources, "Useful Life" is the operating hours before
reaching 70 percent of the initial rated lumen output (L70) with no catastrophic
failures under normal operating conditions. This is also known as 70 percent
"Rated Lumen Maintenance Life" as defined in ANSI/IES LM-80.
c. For LED luminaires, "Luminaire Efficacy" (LE) is the appropriate measure of
energy efficiency, measured in lumens/watt. This is gathered from LM-79 data for
the luminaire, in which absolute photometry is used to measure the lumen output
of the luminaire as one entity, not the source separately and then the source and
housing together.
d. Total Harmonic Distortion (THD) is the Root Mean Square (RMS) of all the
harmonic components divided by the total fundamental current.
e. The "Groundline Section" of wood poles is that portion of the pole between one
foot above, and 2 feet below the groundline.
1.2 SUBMITTALS
SD-02 Shop Drawings
Luminaire Drawings; Pole Drawings; Control System One-Line Diagram;
Sequence of Operation for Exterior Lighting Control System;
SD-03 Product Data
Luminaires; Light Sources; LED Drivers; Luminaire Warranty; Lighting Controls
Warranty; Pole Warranty; Dimming Panel; Motion Sensors; Photosensors;
Time Clock; Lighting Contactor;
SD-10 Operation and Maintenance Data
Lighting System; Exterior Lighting Control System;
1.3 QUALITY ASSURANCE
Data, drawings, and reports must employ the terminology, classifications and
methods prescribed by the IES Lighting Library as applicable, for the lighting
system specified.
1.3.1 Drawing Requirements
1.3.1.1 Luminaire Drawings
Include dimensions, effective projected area (EPA), weight, accessories, and
installation and construction details. Photometric data, including CRI, CCT,
TM-15-11 BUG rating, LED driver type, aiming diagram, zonal lumen data, and
candlepower distribution data per LM-79 must accompany shop drawings.
1.3.2 Luminaire Design Data
Provide wind loading calculations for luminaires mounted on poles. Weight and
effective projected area (EPA) of luminaires and mounting brackets must not
exceed maximum rating of pole as installed in particular wind zone area.
1.3.3Regulatory Requirements
Equipment, materials, installation, and workmanship must be in accordance with
the mandatory provisions of NFPA 70 unless more stringent requirements are
specified or indicated. Provide luminaires and assembled components that are
approved by and bear the label of UL for the applicable location and conditions
unless otherwise specified.
1.3.4 Standard Products
Provide materials and equipment that are products of manufacturers regularly
engaged in the production of such products which are of equal material, design
and workmanship. Products must have been in satisfactory commercial or
industrial use for six months prior to bid opening. The six-month period must
include applications of equipment and materials under similar circumstances and
of similar size. The product must have been on sale on the commercial market
through advertisements, manufacturers' catalogs, or brochures during the six-
month period. Where two or more items of the same class of equipment are
required, these items must be products of a single manufacturer; however, the
component parts of the item need not be the products of the same manufacturer
unless stated in this section.
1.4 WARRANTY
Support all equipment items by service organizations which are reasonably
convenient to the equipment installation in order to render satisfactory service to
the equipment on a regular and emergency basis during the warranty period of
the contract.
1.4.1 Luminaire Warranty
Provide and transfer to the owner the original LED luminaire manufacturers
standard commercial warranty for each different luminaire manufacturer used in
the project.
a. Provide a written five year minimum replacement warranty for material,
luminaire finish, and workmanship. Provide written warranty document that
contains all warranty processing information needed, including customer service
point of contact, whether or not a return authorization number is required, return
shipping information, and closest return location to the luminaire location.
(1) Finish warranty must include failure and substantial deterioration such as
blistering, cracking, peeling, chalking, or fading.
(2) Material warranty must include:
(a) All LED drivers and integral control equipment.
(b) Replacement when more than 15 percent of LED sources in any lightbar or
subassembly(s) are defective, non-starting, or operating below 70 percent of
specified lumen output.
b. Warranty period must begin in accordance with the manufacturer's standard
warranty starting date.
c. Provide replacements that are promptly shipped, without charge, to the using
Government facility point of contact and that are identical to or an improvement
upon the original equipment. All replacements must include testing of new
components and installation.
1.4.2 Lighting Controls Warranty
Provide and transfer to the government the original lighting controls
manufacturers standard commercial warranty for each different lighting controls
manufacturer used in the project. Warranty coverage must begin from date of
final system commissioning or three months from date of delivery, whichever is
the earliest. Warranty service must be performed by a factory-trained engineer or
technician.
a. Unless otherwise noted, provide a written five year minimum warranty on the
complete system for all systems with factory commissioning. Provide warranty
that covers 100 percent of the cost of any replacement parts and services
required over the five years which are directly attributable to the product failure.
Failures include, but are not limited to, the following:
(1) Software: Failure of input/output to execute switching or dimming commands.
(2) Damage of electronic components due to transient voltage surges.
(3) Failure of control devices, including but not limited to photosensors and
motion sensors.
b. Provide a written five year minimum warranty on all input devices against
defect in workmanship or materials provided by device manufacturer.
c. Provide a written five year minimum warranty on all control components
attached to luminaires against defect in workmanship or materials.
1.5 OPERATION AND MAINTENANCE MANUALS
1.5.1 Lighting System
Provide operation and maintenance manuals for the lighting system that provide
basic data relating to the design, operation, and maintenance of the lighting
system. Include the following:
a. Manufacturers' operating and maintenance manuals.
b. Luminaire shop drawings for modified and custom luminaires.
c. Luminaire Manufacturers' standard commercial warranty information as
specified in paragraph LUMINAIRE WARRANTY.
1.5.2 Exterior Lighting Control System
Provide operation and maintenance manuals for the exterior lighting control
system that provide basic data relating to the design, operation, and maintenance
of the exterior lighting control system. Include the following:
a. Control System One-Line Diagram
b. Product data for all devices, including installation and programming
instructions.
c. Training materials, such as videos or in-depth manuals, that cover basic
operation of the lighting control system and instructions on modifying the control
system. Training materials must include calibration, adjustment, troubleshooting,
maintenance, repair, and replacement.
PART 2 PRODUCTS
2.1 LUMINAIRES
UL 1598, NEMA C82.77-10. Provide luminaires as indicated in the luminaire
schedule and XL plates or details on project plans, complete with light source,
wattage, and lumen output indicated. All luminaires of the same type must be
provided by the same manufacturer. Luminaires must be specifically designed for
use with the LED driver and light source provided.
UL 8750, ANSI/IES LM-79, ANSI/IES LM-80. For all luminaires, provide:
a. Complete system with LED drivers and light sources.
b. Housing constructed of non-corrosive materials. All new aluminum housings
must be anodized or powder-coated. All new steel housings must be treated to be
corrosion resistant.
c. ANSI/IES TM-21, ANSI/IES LM-80. Minimum L70 lumen maintenance value
of 50,000 hours unless otherwise indicated in the luminaire schedule. Luminaire
drive current value must be identical to that provided by test data for luminaire in
question.
d. Minimum efficacy as specified in the luminaire schedule. Theoretical models of
initial lamp lumens per watt are not acceptable. If efficacy values are not listed in
the luminaire schedule, provide luminaires that meet the following minimum
values:
Luminaire Style Minimum Luminaire Efficacy
Area and Roadway (pole mounted, arm mounted)119 LPW
Pedestrian Post-Top (pole mounted, arm mounted)97 LPW
Bollard 45 LPW
Accent (adjustable landscape, sign lighting) 35 LPW
Linear Accent (facade, wallwash) 80 LPW
Exterior Wall Sconce 50 LPW
Steplight 30 LPW
Parking Garage Luminaire 113 LPW
e. Product rated for operation within an ambient temperature range of minus 30
degrees C minus 22 degrees F to 40 degrees C 104 degrees F.
f. UL listed for wet locations. Optical compartment for LED luminaires must be
sealed and rated a minimum of IP65 per NEMA IEC 60529.
g. IES Lighting Library. Light distribution and NEMA field angle classifications as
indicated in luminaire schedule on project plans.
h. Housing finish that is baked-on enamel, anodized, or baked-on powder coat
paint. Finish must be capable of surviving ASTM B117 salt fog environment
testing for 2500 hours minimum without blistering or peeling.
i. LED driver and light source package, array, or module are accessible for
service or replacement without removal or destruction of luminaire.
j. ANSI/IES TM-15. Does not exceed the BUG ratings as listed in the luminaire
schedule.. If BUG ratings are not listed in the luminaire schedule, provide
luminaires that meet the following minimum values for each application and
mounting conditions:
Lighting Application Mounting Conditions BUG Rating
Area and Roadway All B3-U0-G3
Pedestrian Post-Top All B2-U1-G1
Exterior Wall Sconce Above 4 feet AFF B1-U0-G2
Exterior Wall Sconce Below or at 4 feet AFF B4-U0-G4
Steplight Above 4 feet AFF B1-U1-G2
Steplight Below or at 4 feet AFF B4-U1-G4
Parking Garage Luminaire Ceiling mounted B4-U4-G3
k. Fully assembled and electrically tested prior to shipment from factory.
l. Finish color is as indicated in the luminaire schedule or detail on the project
plans.
m. Lenses constructed of [clear][frosted] tempered glass or UV-resistant
acrylic.[ Provide polycarbonate vandal-resistant lenses.]
n. All factory electrical connections are made using crimp, locking, or latching
style connectors. Twist-style wire nuts are not acceptable.
o. NEMA C136.31. Comply with 3G vibration testing.
p. Luminaire arm bolts constructed from 304 stainless steel or zinc-plated steel.
q. ANSI C136.3. For all roadway and area luminaires, provide products with an
integral tilt adjustment of plus or minus 5 degrees to allow the unit to be leveled.
2.2 LIGHT SOURCES
NEMA ANSLG C78.377, NEMA SSL 3. Provide type, lumen rating, and wattage
as indicated in luminaire schedule on project plans.
2.2.1 LED Light Sources
Provide LED light sources that meet the following requirements:
a. NEMA ANSLG C78.377. Emit white light and have a nominal Correlated Color
Temperature (CCT) of [3000][2700][3500][4000] Kelvin.
b. Minimum Color Rendering Index (CRI) of [80][70].
c. Directive 2011/65/EU. Restriction of Hazardous Substances (RoHS) compliant.
d. Light source color consistency by utilizing a binning tolerance within a 4-step
McAdam ellipse.
2.3 LED DRIVERS
NEMA SSL 1, UL 1310. Provide LED Drivers that are electronic, UL Class 1 or
Class 2, constant-current type and meet the following requirements:
a. The combined LED driver and LED light source system is greater than or equal
to the minimum luminaire efficacy values as listed in the luminaire schedule
provided.
b. Operate at a voltage of 120-277 volts at 50/60 hertz, with input voltage
fluctuations of plus or minus 10 percent.
c. Power Factor (PF) greater than or equal to 0.90 at full input power and across
specified dimming range.
d. Maximum Total Harmonic Distortion (THD) less than or equal to 20 percent at
full input power and across specified dimming range.
e. Operates for at least 50,000 hours at maximum case temperature and 90
percent non-condensing relative humidity.
f. Meets the "Elevated" (10kV/10kA) requirements per IEEE C62.41.2-2002.
Manufacturer must indicate whether failure of the electrical immunity system can
possibly result in disconnect of power to luminaire. Provide surge protection that
is integral to the LED driver.
g. Contains integral thermal protection that reduces the output power to protect
the driver and light source from damage if the case temperature approaches or
exceeds the driver's maximum operating temperature.
h. Complies with the requirements of the Federal Communications Commission
(FCC) rules and regulations, Title 47 CFR part 15, Non-Consumer (Class A) for
EMI/RFI (conducted and radiated).
i. Class A sound rating for all drivers mounted under a covered structure, such as
a canopy, or where otherwise appropriate.
j. Directive 2011/65/EU. Restriction of Hazardous Substances (RoHS) compliant.
k. UL listed for wet locations typical of exterior installations.
m. Rated to operate between ambient temperatures of minus 30 degrees C
minus 22 degrees F and 40 degrees C 104 degrees F
2.4 LIGHTING CONTROLS
2.4.1 System
Provide exterior lighting control system that operates the exterior lighting system
as described in the exterior lighting control strategies in the project plans. Submit
Sequence of Operation for Exterior Lighting Control System describing the
operation of the proposed exterior lighting control system and devices. Sequence
of Operation must provide the strategies identified in the exterior lighting control
strategies.
2.4.1.1 Relay Panel
Enclose panel hardware in a surface-mounted, NEMA 1 (interior) or 3R (exterior),
painted, steel enclosure with lockable access door and ventilation openings.
Internal low-voltage compartment must be separated from line-voltage
compartment of enclosure with only low-voltage compartment accessible upon
opening of door. Provide additional remote cabinets that communicate back to
main control panel as required. Provide relay panel that meets the following
criteria:
a. Input voltage of 120-277 at 50/60 Hz, with internal low voltage power supply as
required.
b. UL 924. [8][16][32][_____] single-pole latching relays rated at [20][30] amps,
[120-277][120][277] volts. Provide provision for relays to close upon power failure.
Provide relays designed for 10 years of use at full rated load.
c. Relay control module operates at 24 VDC and is rated to control a minimum of
[8][16][32][_____] relays.
2.4.2 Devices
2.4.2.1 Time Clock
NEMA ICS 6. House time clock in a surface-mounted, lockable NEMA 1 (interior)
or 3R (exterior) enclosure constructed of painted steel or plastic polymer. Provide
electronic type time clock that meets the following criteria:
a. [24 hour][7 day][astronomic] programming function, providing a total of 56
[_____] on/off set points.
b. [12 hour AM/PM][24 hour] type digital clock display format.
c. Power outage back-up for switch utilizing [a capacitor][alkaline batteries][lithium
battery] which provides coverage for a minimum of [seven days][three years]
[eight years].
d. Capable of controlling a minimum of [1][2][4][_____] channels or loads.
e. Contacts are rated for [30] [_____] amps at 120-277 VAC resistive load in a
[SPST][DPST][SPDT][DPST] [normally open (NO)][normally closed (NC)]
configuration.
f. Contains [function that allows automatic control to be skipped on certain
selected days of the week][manual bypass or remote override control][daylight
savings time automatic adjustment][EEPROM memory module][momentary
function for output contacts][ability for photosensor input].
2.4.2.2 Photosensors
UL 773, UL 773A. Provide Photosensors that meet the following requirements:
a. Hermetically sealed, [cadmium sulfide][silicon diode] light sensor type, rated at
[_____] watts, [_____] volts, 50/60 Hz with single-pole, [single][double]-throw
contacts.
b. Turns ON at 10 to 30 lux 1 to 3 footcandles and turns OFF at 30 to 150 lux 3 to
15 footcandles.
c. Designed to fail to the ON position.
d. Housing is constructed of [polycarbonate][die cast aluminum][UV stabilized
polypropylene], rated to operate within a temperature range of minus 40 to 70
degrees C minus 40 to 158 degrees F.
e. Time delay that prevents accidental switching from transient light sources.
f. Directional lens in front of the cell to prevent fixed light sources from creating a
turnoff condition.
g. Designed for 20-year service to match life expectancy of long-life LED fixtures
and exceed 15,000 operations at full load. Provide photosensors with zero-cross
technology to withstand severe in-rush current and extend relay life.
h. [Fixed][Swivel] base type housing with 12.7 mm 1/2 in threaded base for
mounting to a junction box or conduit.
i. NEMA C136.10. Twist-lock receptacle type. Provide with solid brass prongs
and voltage markings and color coding on exterior of housing.
j. Provide photosensors with metal oxide varistor (MOV) type surge protection.
2.4.2.3 Motion Sensors
NEMA WD 7, UL 773A. Provide sensors that meet the following requirements:
a. Operating voltage of [12-24][120-277][120][277] volts.
b. [Passive infrared][Microwave][Dual technology passive infrared/microwave]
type sensors with [270][_____] degree coverage.
c. Time delay that can be adjusted from 15 seconds to 15 minutes.
d. Default state is "Fail to ON position."
e. Sensors installed integral to the luminaire must be provided by the luminaire
manufacturer.
f. Sensor contains an integral light level sensor that does not allow luminaires to
operate during daylight hours
g. [Equipped with a threaded base for mounting to a weatherproof junction box]
[Mounted directly to luminaire].
[ h. Operates in conjunction with bi-level controllers that reduce the connected
lighting power by 50 percent.]
2.4.2.4 Lighting Contactor
NEMA ICS 2. Provide a [mechanically][electrically]-held lighting contactor [housed
in a NEMA [1][3R][4][_____] enclosure conforming to NEMA ICS 6]. Contactor
must have [2][4][6][_____] poles, configured as [normally open (NO)][normally
closed (NC)]. Contacts must be rated [600] [_____] volts, [30][_____] amperes for
a resistive load. Coil operating voltage must be [24][120][277][_____] volts.
Contactor must have silver cadmium oxide double-break contacts [and coil
clearing contacts for mechanically held contactors] and must require no arcing
contacts.[Provide contactor with hand-off-automatic [on-off] selector switch.][
Provide contactor as specified above along with [disconnect switch][circuit
breaker] in integral NEMA [1][3R][_____] enclosure with flange-mounted handle
to satisfy requirement for a "combination lighting contactor" when specified.]
2.5 EQUIPMENT IDENTIFICATION
2.5.1 Manufacturer's Nameplate
Each item of equipment must have a nameplate bearing the manufacturer's
name, address, model number, and serial number securely affixed in a
conspicuous place; the nameplate of the distributing agent will not be acceptable.
2.5.2 Labels
UL 1598. Luminaires must be clearly marked for operation of specific light
sources and drivers according to proper light source type. Note the following
luminaire characteristics in the format "Use Only _____":
a. Correlated color temperature (CCT) and color rendering index (CRI) for all
luminaires.
b. Driver and dimming protocol. Markings related to light source type must be
clear and located to be readily visible to service personnel, but unseen from
normal viewing angles when light sources are in place. LED drivers must have
clear markings indicating dimming type and indicate proper terminals for the
various outputs.
2.6 FACTORY APPLIED FINISH
NEMA 250. Provide all luminaires and lighting equipment with factory-applied
painting system that as a minimum meets requirements of corrosion-resistance
testing.
PART 3 EXECUTION
3.1 INSTALLATION
3.1.1 Luminaires
Install all luminaires in accordance with the luminaire manufacturer's written
instructions. Install all luminaires at locations and heights as indicated on the
project plans. Level all luminaires in accordance to manufacturer's written
instructions. Aim all luminaires in accordance with aiming diagram.
3.1.2 LED Drivers
Provide LED drivers integral to luminaire as constructed by the manufacturer
3.1.3 Field-Applied Painting
Provide field applied painting for luminaire type. Paint lighting equipment as
required to match finish of adjacent surfaces or to meet the indicated or specified
safety criteria. Provide painting per manufacturer's recommendation.
3.1.4 Lighting Controls
3.1.4.1 Photosensors
Aim photosensor according to manufacturer's recommendations.[ Mount sensor
on or beside each luminaire when switch is provided in cast weatherproof
aluminum housing with swivel arm.][ Set adjustable window slide for [_____] lux
footcandles photosensor turn-on.]
3.1.4.2 Motion Sensors
Locate sensors in accordance with the manufacturer's recommendation. Locate
sensors to achieve coverage of areas as indicated on project plans. Coverage
patterns must be derated as recommended by manufacturer based on mounting
height of sensor and any obstructions such as trees. Do not use gross rated
coverage in manufacturer's product literature.
3.1.5 Grounding
Ground noncurrent-carrying parts of equipment including metal poles, luminaires,
mounting arms, brackets, and metallic enclosures. Where copper grounding
conductor is connected to a metal other than copper, provide specially treated or
lined connectors suitable for this purpose.
3.2 FIELD QUALITY CONTROL
3.2.1 Tests
Upon completion of installation, verify that equipment is properly installed,
connected, and adjusted. Perform initial operational test, consisting of the entire
system energized for 72 consecutive hours without any failures of any kind
occurring in the system. All circuits must test clear of faults, grounds, and open
circuits.
3.2.1.1 Lighting Control Verification Test
Verify lighting control system and devices operate according to approved
sequence of operations. Verification tests are to be completed after
commissioning.
3.3 CLOSEOUT ACTIVITIES
3.3.1 Training
Provide on-site training to the Owner's personnel in the operation and
maintenance of lighting and lighting control system. Provide training that includes
calibration, adjustment, troubleshooting, maintenance, repair, and replacement.
No.Description Date
John H. Helberg, P.E.
License #: 59352
No.59352
STATE
OF
JOH NH .HELBERGLICENSE
FLO R I D APROFESSIONA L E N GINE ERGFCIGFCIGFCIGFCIGFCIGFCIGFCIGFCIGFCIGFCIGFCIGFCIJGFCIGFCIGFCI
GFCIGFCIGFCIGFCIGFCIGFCIGFCIGFCIGFCIGFCIWPGFCIJ
MP- 1
MP- 13
MP- 7
MP- 23
MP- 9
MP- 17
MP- 11
MP- 15
MP- 5
MP- 42
MP
MP- 35
MP- 6,8MP- 24,26FAN
UNIT
4
COOLER
CU
COOLER
EVAP
MP- 20
MP- 22
MP- 32
MP- 37
MP- 39
FCU-1WH-1
MP- 28,30
BUILDING ELECTRICAL SERVICE
DISCONNECTS AND WIREWAY
(SEE DETAIL SHEET E-601)COMMUNICATIONS
PEDESTAL
MP- 33
MP- 40
MP- 25
MP- 19
MP- 21
MP- 27
MP- 29
MP- 18
MP- 3
MP- 14
MP- 16
MP- 38
FAN
UNIT
1
FAN
UNIT
2
FAN
UNIT
3
ACCU-1
MP- 2,4
MP- 36
MP- 10,12
Scale
Date
Drawn By
Checked By
Project Number
11555 CENTRAL PARKWAY, STE 502
JACKSONVILLE, FL 32224
WEB: WWW.CI-MECH.COM
E: IAN.VEGA@CI-MECH.COM
PH: 904-503-1421
AUTHORIZATION CERT: #32282
FLORIDA LIC. #83516
GEORGIA LIC. #04658
PUERTO RICO LIC. #22361
MICHIGAN LIC. #6201069836
TENNESSEE LIC. #123477
1/4" = 1'-0"
E-101
ELECTRICAL POWER
FLOOR PLAN
EggBoy Restuarant
IGV
JHH
02-01-2023
Project
1241 Mayport Rd
Atlantic Beach, FL
1/4" = 1'-0"11ST FLOOR POWER PLAN
1/4" = 1'-0"2ROOF POWER PLAN
1.DEMOLISH EXISTING PANEL, CIRCUITS, RECEPTACLES, AND LIGHT
FIXTURES.
2.COORDINATE WITH FREEZER COOLER INSTALLER TO FURNISH ALL
LABOR AND MATERIALS REQUIRED TO PRODUCE A FULLY
OPERATIONAL REFRIGERATION SYSTEM.
3.SEAL ALL CONDUITS ENTERING THE COOLER TO PREVENT MOISTURE
BUILDUP.
4.COORDINATE EXACT LOCATION OF POS RECEPTACLES WITH OWNER.
5.RESTROOM EXHAUST FAN TO BE OPERATED FROM RESTROOM
OCCUPANCY SENSOR SWITCH. FAN SHALL HAVE INTEGRAL DISCONNECT.
6.COORDINATE WITH OWNER FOR CONNECTION OF LIGHTED BUSINESS
SIGN LOCATED ON FRONT EXTERIOR.
7.COORDINATE WITH HOOD INSTALLER FOR WIRING REQUIREMENTS AND
REFER TO DETAILS ON DRAWINGS E-500 SERIES TO FURNISH ALL
LABOR AND MATERIALS REQUIRED TO PRODUCE A FULLY OPERATIONAL
SYSTEM.
8.MOTOR(S) SUPPLIER TO FURNISH THERMAL OVERLOAD PROTECTION
AND MAGENTIC STARTERS. ELECTRICAL CONTRACTOR SHALL FURNISH
AND INSTALL REQUIRED DISCONNECT SWITCHES FOR ALL MOTORS.
9.ELECTRICAL CONTRACTOR SHALL WIRE MAIN GAS SHUT-OFF VALVE TO
FIRE PROTECTION SYSTEM, VENTILATION EXHAUST AND MAKE-UP AIR
FANS TO SHUT OFF GAS IN CASE OF FIRE. VERIFY WITH LOCAL FIRE
CODES AND AUTHORITY HAVING JURISDICTION. COORDINATE WITH
PLUMBING CONTRACTOR & FIRE PROTECTION CONTRACTOR.
10.ELECTRICAL CONTRACTOR SHALL FIELD MOUNT SUPPLIED EQUIPMENT
SWITCHES OR CONTRAL PANELS AS REQUIRED.
11.ELECTRICAL CONTRACTOR TO SUPPLY "MUD RING" EXTENSION ON
ELECTRICAL BOXES AS REQUIRED THRU STAINLESS STEEL WALL
PANELS UNDER EXHAUST HOODS.
12.ELECTRICAL CONTRACTOR TO PROVIDE STAINLESS STEEL COVER
PLATES FOR ANY FULLY OR PARTIALLY EXPOSED PULL BOXES AND/OR
ELECTRICAL ACCESS BOXES AND TO PROVIDE STAINLESS STEEL
COVER PLATES FOR ALL CONVENIENCE OUTLETS IN THE KITCHEN
AREA.
13.ELECTRICAL CONTRACTOR TO PROVIDE AND INSTALL SWITCHES FOR
HOOD LIGHTS AND PROVIDE LIGHT BULBS AS REQUIRED.
14.ELECTRICAL CONTRACTOR TO PROVIDE POWER AT COMPRESSOR
AREAS FOR COMPRESSORS. AUTOMATIC DEFREOST SYSTEMS ARE
USED FOR WALK-IN COOLER/FREEZER, PROVIDE 4 WIRE SERVICE FROM
COMPLRESSOR(S) TO UNIT. ELECTRICAL CONTRACTOR TO PROVIDE
CONTROL WIRING FOR SOLENOIDS AT COILS. ALL REFRIGERATION
ELECTRICAL HOOK-UPS BY ELECTRICAL CONTRACTOR UNLESS NOTED
OTHERWISE.
15.PROVIDE EMPTY CONDUIT AND JUNCTION BOXES FOR THE COMM DATA/
TELEPHONE OUTLETS SHOWN ON THE DRAWINGS. VERIFY ALL SYSTEM
REQUIREMENTS WITH THE OWNER AND/OR SYSTEMS SUPPLIER.
16.ELECTRICAL CONTRACTOR SHALL COORDINATE WITH WATER HEATER
SUPPLIER TO PROVIDE AND INSTALL CONDUIT, CIRCUIT, AND
DISCONNECT FOR WATER RECIRCULATION PUMP POWERED OFF
WATER HEATER CIRCUIT.
17.COORDINATE RECEPTACLE HEIGHTS WITH OWNER AND INSTALLED
EQUIPMENT.
18.COORDINATE WITH MECHANICAL EQUIPMENT CONTRACTOR. RELOCATE
EXTERIOR COMMUNICATIONS WIRING AND EQUIPMENT AS REQUIRED.
GENERAL NOTES
No.Description Date
John H. Helberg, P.E.
License #: 59352
No.59352
STATE
OF
JOH N H .HELBERGLICENSE
FLO R I D APROFESSIONA L E N GINE ERSW3SW3F-1
F-5
F-1
F-1
F-1
F-1
F-1
EX-1
F-7
F-2
F-3
F-3
F-3
F-3
F-3
F-3
F-3
F-4
F-4
F-5
F-5
F-5
F-5
EM-1
F-6
MP
MP- 31
MP- 34
OS55
OS55
OS55
Scale
Date
Drawn By
Checked By
Project Number
11555 CENTRAL PARKWAY, STE 502
JACKSONVILLE, FL 32224
WEB: WWW.CI-MECH.COM
E: IAN.VEGA@CI-MECH.COM
PH: 904-503-1421
AUTHORIZATION CERT: #32282
FLORIDA LIC. #83516
GEORGIA LIC. #04658
PUERTO RICO LIC. #22361
MICHIGAN LIC. #6201069836
TENNESSEE LIC. #123477
1/4" = 1'-0"
E-102
ELECTRICAL LIGHTING
FLOOR PLAN
EggBoy Restuarant
IGV
JHH
02-01-2023
Project
1241 Mayport Rd
Atlantic Beach, FL
LIGHTING FIXTURE SCHEDULE
Type
MarkTypeCount
Lamp
Electrical DataLampWattage
EM-1EMERGENCY LIGHT WITH BATTERY PACK1LED120 V/1-13 VA
EX-1LED EXIT LIGHT WITH EMERGENCY LIGHTS1LED120 V/1-9 VA
F-114" GLOBE PENDANT6LED25 W120 V/1-25 VA
F-2EPANL 1X4 4800LMHE1LED37 W120 V/1-37 VA
F-3EPANL 2X4 4000LMHE9LED31 W120 V/1-31 VA
F-4EPANL 2X2 3400LMHE2LED27 W120 V/1-27 VA
F-5PIN LIGHT FIXTURE LED5LED18 W120 V/1-18 VA
F-6WET LOCATION CEILING SCONCE1LED18 W120 V/1-18 VA
F-7WET LOCATION FLOOD LIGHT1LED30 W120 V/1-30 VA
Grand total: 27
1/4" = 1'-0"11ST FLOOR LIGHTING PLAN
1. EXIT/EMERGENCY LIGHTS AT EXISTING DOORS ARE FED OFF HOUSE
POWER. REFEED EXISTING EXIT/EMERGENCY LIGHTS OF UNSWITCHED
LIGHTING CIRCUITS AS SHOWN.
2.LIGHTING IN COOLER UNIT TO BE PROVIDED BY COOLER UNIT
MANUFACTURER.
3.LIGHTING UNDER HOOD TO BE PROVIDED BY HOOD MANUFACTURER.
4.LUMINAIRES IN FOOD PREPARATION AREAS SHALL BE NSF CERTIFIED.
5.ALTERNATE MANUFACTURERS EQUAL TO THOSE SPECIFIED ON THE
LIGHTING FIXTURE SCHEDULE WILL BE CONSIDERED UP TO 10 DAYS
PRIOR TO BID, SO AN ADDEDUM CAN BE ISSUED.
6.LAMP CRI SHALL BE 80 OR GREATER.
7.DUAL TECH MOTION SENSORS SHALL BE WIRED IN SERIES TO CONTROL
BOTH THE KITCHEN AND DINING ROOM LIGHTING. THE RESTROOMS
LIGHTING SHALL BE CONTROLLED BY A SEPARATE OCCUPANCY SENSOR.
8.EXTERIOR LUMINAIRES SHALL BE CONTROLLED BY PHOTOCELL SENSOR.
9.EXTERIOR LIGHTED SIGN SHALL BE CONTROLLED BY PHOTOCELL SENSOR.
COORDINATE WITH SIGN SUPPLIER AND OWNER.
GENERAL NOTES
No.Description Date
John H. Helberg, P.E.
License #: 59352
ELECTRICAL INFORMATION
DWG NO
JOB NO
DATE
DRAWN BY
JOB NAME
DESCRIPTION OF OPERATION
TYPE
DRAWING TITLE
MUA BOARD (DETAILS
TO FOLLOW)
WIREDANT
E1
PKHN
NHB
HN
BC
BPHNBP
BC
HN
ORD124V
OR
OROR
GR
GR
GR
GR
GR
GR
GR
GRGR
GR
GR
GR- GREEN
RD- RED
PR- PURPLEOR-
ORANGE
BR- BROWN
BL- BLUE
LEGEND
5801253
Eggboy Restaura...
FACTORY
AUTO
1/16/2023
HW5801253-4PRPRPRBRBRBRBRRD
RD
RD
RD
BL
BLBL
BLBL
BLBLRD
RDRD
RDRDRD
RD
RD
RD
RD
RD
RD
RD
RDRDRD
RD
RDRDRDRDRD
RD
RD
RDRDRDN
H
ON
12345678
0-10VDC OutputRH SENSORSD2SD3
ON
12345678
DWYER ROOM SENSOR ONLY
BK- BLACK
WH- WHITE
OR/BL- OR/BL STRIPE
BL/RD- BL/RD STRIPE
RD/GN- RD/GN STRIPE
WH/BL- WH/BL STRIPE
YW- YELLOW
GY- GREY
2x
2x
ABCDEFGHI
1
2
3
4
5
6
7
8
9
10
COMPONENT LIST
LABELDESCRIPTION
J1
J10120V
J30120V
J29120V
J9120V
10
1
J15
10
1
J35
123456789101112131415161718
J7
1234567
891011121314
J13
1234567891011121314
J18
2413
J34
2
4
1
3
J37
SW-01
BK12
34
THERMISTORSTHERMISTORSL+-PWS-02
NCOMMON0-10V IN24VDCJ2J3J4J5J6
123456789
101112131415161718
123456789
101112131415161718
J31
123456789101112131415161718J36123456789101112131415161718
J32
BK
BK
BK
BK
CNO
FIELD WIRING
FACTORY
WIRING
PS-10
BK
DMBK
WH
MT-01
FIRE I/P TRIPS UPON 120VACFBK
PSWTHINDV1V2HVS1GRLFSC-01
BKYWGYGY
TR-03
120
24
VA-05
WHBKSHDBK
PS-01C
NO
STP wire
SW-04J17PV-01J21WH
BK
VA-01
YWYWFR-01IGNITORGTO WIRE
8AI-4DI-2J28
1AI-3AI-2J14
18AI-1DI-1J12
18
C
R
BAS/STATG
Y
W
J16
8
1
J11
8
1
WIRED
SMOKE
24VACINPUTDETECTOR
FIELD
+-N
PWS-01+-L
LED2
BK
DS-02SW-15SW-16(DX) SW-1824VAC(O/P)(I/P)CB-01
MAIN-1
MOD-1
SN-06
SN-07
SN-08
SN-10
SUPPLY
HG-01
EEV-01
SN-03BK
SN-02BK
J33
RC-01
BK
WH
2
31MT-08BKWHMB+
P1P2+-MODBUS
J3831
120V
HMIJ2
BPBCBKWH
(40VA)
24V
120V
ON
1234
MUA Board
ON
S2
12
ON
PROG
1
CAT-5
SCADA
+-
CM+
CM-
J2SPACE
HMI
DB-01
L1
L2
L3
DB-01
L1
L2
L3
T
BK
SHIELDEDWIREPWM-
PWM+DB-01L1L2L3WHBK
WHBKTR-01LOCAL
SN-04
HB
TR-05
HUM-3
COM/3VOUT/1VIN/2BKSHDBKBK
15A MAX
SEPARATE 120VPOWER REQ
DISCH
SN-01
BKSN-09
NOT REQIF SPACESENSOR ISWIRED
SW-19
SW-03SW-13BKWHHE-10
L3
L2
L1
W
V
U
VFD-02
616869
CP-01
T3
T2
T1
686169BKWH
BK
BK
BK
BK
BK
BKHE-03NWHHEBK686169ABCSHIELDEDWIRECMT-01
BK
EC1+
EC1-
L1
L3/N
E1
24VD1
TWH
SHIELDEDWIRE
CMT-02
BK
L1
L3/N
E1
24VD1
T
L1BK
L3/N
SN-08BK
AL
TO
COM
TO
N/O
OIL SENSOR
LIQUIDLINE24VCOMVOUTLINESUCTIONDISCHARGELINE
SEN-1
PS-22PS-21PS-20VOUTCOM24VVOUTCOM24VVOUTCOM24VWH
YW/GR
BLBKororBK
BRor
or
24VDC0-10V INCOMMONHUM-1HUM-2
COMMON0-10V IN24VDCVIN/2VOUT/1COM/3VIN/2VOUT/4COM/5BKSHDHUM-2
+/7
-/8
INTAKESPACE
SPACE
HMIJ3LOCAL
BKBKBK
WH
PS-20,PS-21,
WIRE
COLORS24V:BR BK
RDVOUT:BK RD
WHCOM:BL WH
BK
PS-20,PS-21,
WIRE
COLORS24V:BR BK
RDVOUT:BK RD
WHCOM:BL WH
BK
PS-20,PS-21,
WIRE
COLORS24V:BR BK
RDVOUT:BK RD
WHCOM:BL WH
BK
PS-22PS-22PS-22
GND:GR YW/GR
SHLD
GND:GR YW/GR
SHLD
GND:GR YW/GR
SHLD
VOUT
IOUT
JUMPJUMP
OUTDOOR:1HP-200-240V-1P-4.0FLAOUTDOOR PART:188163SUPPLY: 1.75HP-208V-1P-6.2FLA
MOTOR INFO
COMP:VZH035CJCOMP MOTOR: 190-240V-1P-37.2RLACOMP VFD PART:134F9361
MOTOR/CTRL CIRCUIT MCA: 56.1AMOTOR/CTRL CIRCUIT MOP: 60A
DWG NO
JOB NO
DATE
DRAWN BY
JOB NAME
DESCRIPTION OF OPERATION
TYPE
DRAWING TITLE
MUA BOARD (DETAILS
TO FOLLOW)
ELECTRICAL INFORMATION
RD
GRGRAB C D E F G H I
1
2
3
4
5
6
7
8
9
10
COMPRESSOR DRIVE PARAMETER SETTINGS
MUST BE CONFIGURED BEFORE STARTUP
DWG NO
JOB NO
DATE
DRAWN BY
JOB NAME
DESCRIPTION OF OPERATION
TYPE
DRAWING TITLE
GR- GREEN
RD- RED
PR- PURPLEOR-
ORANGE
BR- BROWN
BL- BLUE
LEGEND
5801253
Eggboy Restaura...
FACTORY
AUTO
1/16/2023
RTUVFD5801253-4
TERMINAL FUNCTION
24+13
37 Pressure Switch In
1 Relay 1 to oil solenoid
2
69
T3 (98)Compressor
3 Phase Input or Single Phase Input
3 Phase Input
Compressor
Compressor
3 Phase Input or Single Phase Input
T1 (96)
T2 (97)
L1 (91)
L3 (93)
L2 (92)
68
95 INPUT Ground
99 Compressor Ground
Relay 1 to oil solenoid
T1 T2 T3
61
P RS-485
N RS-485
COM RS-485
L3(93)BKBKBKVZHVFD 2 616869 37
U V WBKBKBK 95
1321
SHIELDED
BK
WIRE
L2(92)L1(91)T1(96)99T2(97)T3(98)
0-60
1-71
3-16
3-41
3-42
4-18
8-01
8-03
8-04
8-30
8-31
8-32
8-33
225
10 SECONDS
[0] NO FUNCTION
200.00s
200.00s
[2] CTRL WORD ONLY
20 SECONDS
[2] STOP
[2] MODBUS RTU
1
19200
[0] EVEN PARITY, 1 STOP BIT
28-00
28-11
DISABLE
19m
3-02
3-15
30.00
[0] NO FUNCTION
28-12
28-15(14)
28-17(16)
24h
100Hz (3000RPM)
140Hz (4200RPM)
VFD-2 Compressor VFD
PWS-01 24VDC Power Supply
SW-01 Main Disconnect Sw
8-43-2
8-43-3
1610
1610
8-43-4
8-43-5
8-43-6
8-43-7
8-43-8
8-43-9
1613
1613
1614
1614
1
1690
1610
1610
1613
1613
1614
1614
1690
1690
IF 208V = 76(028), 92(035), 108(044)
IF 480/575v = 76(028), 92(035), 115(044)
8-43-10
8-43-12
8-43-131694
1634
1694
0-22
0-40
1-20*
1-22*
1-23*
1-24*
1-26*
1-30*
1-37*
1-38*
1-40*
1-45*
1-68*
1610
2
6.09
219
200
15.5
0.19
1.2
2.67
33
2.67
0.003
0-61
0-66
1
1
1-69*
1-74
1-75*
1-77*
1-78*
1-79*
1-81*
1-82*
0.003
3000
100
870
29
3
0
0
1-86*
1-87*
14-12 2
840
28
33.3
1-25*6000
3-19 900
3-51
3-52
30
30
4-11*900
4-12*
4-52
30
850
BK- BLACK
WH- WHITE
OR/BL- OR/BL STRIPE
BL/RD- BL/RD STRIPE
RD/GN- RD/GN STRIPE
WH/BL- WH/BL STRIPE
YW- YELLOW
GY- GREY
Terminals
CompressorTo SW-01
From
COMPONENT LIST
LABEL DESCRIPTION
FIELD WIRING
FACTORY
WIRING
RTU VFD
SCHEMATIC
*Must be programmed using software
MODBUSJ38
3
1
OUTDOOR:1HP-200-240V-1P-4.0FLAOUTDOOR PART:188163SUPPLY: 1.75HP-208V-1P-6.2FLA
MOTOR INFO
COMP:VZH035CJCOMP MOTOR: 190-240V-1P-37.2RLACOMP VFD PART:134F9361
MOTOR/CTRL CIRCUIT MCA: 56.1AMOTOR/CTRL CIRCUIT MOP: 60A
DRAWING NUMBER
JOB
MODELSHIP DATE
PR - PURPLE
PK - PINK
BR - BROWN
OR - ORANGE
BL - BLUE
RD - RED
GR - GREEN
MUA BOARD TO SPACE SENSOR
Responsibility Electrician
LOCAL HMI TO SPACE HMI
Responsibility Electrician
CONVENIENCE OUTLET TO SEPARATE 120V
Responsibility Electrician
MUA BOARD TO SPACE SENSOR
Responsibility Electrician
BREAKER TO PRIMARY DISCONNECT
BREAKER
MUA J15
9
10
MUA J14
5
6
7
120V
CONVENIENCE
OUTLET
H
N 120V HOT
NEUTRAL
MUA J15
9
10
ST
24 VDC
0-10 VIN
COM
ST
208 VOLT
BREAKER 1PH
CONTROL POWER. DO NOT WIRETO GFCI OR SHUNT TRIP
BEAKER.
ST
ST
L1
L2GND
L1
L2
GROUND
COMN/O
+/7-/8
VIN/2
VOUT/4COM/5
+/7-/8
GR
GRGR
RD
MUA BOARD TO SMOKE DETECTOR
Responsibility ElectricianMUA BOARDSMOKE
DETECTOR
Installed Options
NOTES
WH - WHITE
BK - BLACK
GY - GRAY
YW - YELLOW
WIRE COLOR
SPACE REHEAT CONTROL
MUA BOARDSPACE SENSOR
LOCAL HMISPACE HMI
CONVENIENCEOUTLETSEPARATE120V
MUA BOARDSPACE SENSOR
BREAKERDISCONNECTSD2SD3
HUM-2
+
-
J15-(9)
J15-(10)
HUM-2
VIN
COM
OUTV
J14-(5)
J14-(6)
J14-(7)
INST5801253-41/16/2023
Eggboy Restaurant
Disconnect
Switch
240 V 1 PH.
Gal-flex
conduit
BK
BKBKBK
208/460/600 V 3 PH.
Gal-flex
conduit
BKBK
Disconnect
Switch
BK
SAFETY
UNIT MAIN POWER
MOUNTS IN STANDARDDOUBLE GANG JUNCTION BOX
BUILT-IN TEMPERATURE SENSOR
TEMP +
UNIT ONTEMP -
BUILT-IN TEMPERATURE SENSORBUILT-IN TEMPERATURE SENSOR
WED8:30AMWED8:30AMHEAT7/16WED8:30AM
DISCHARGE: 90
MOUNTS IN STANDARDDOUBLE GANG JUNCTION BOXMOUNTS IN STANDARDDOUBLE GANG JUNCTION BOX
FROM BUILDING BREAKER
REMOTE HMI2
TO SAFETY DISCONNECT
DISCONNECT
(ACTUAL SCREEN MAY BE DIFFERENT FROM ABOVE IMAGE)
Customer
supplied
wiring
Customer
supplied
wiring
J3J2
Responsibility Electrician
CAT-5 CONNECTIONS ON REVERSE
J3 ON HMI1 to J2 OF HMI2
MAX OF 4 ADDITIONAL HMIS CAN BE DAISY CHAINED
PLACE END OF LINE DEVICE IN LAST HMI
CAT-5 CONNECTIONS ON REVERSE
J3 ON HMI1 to J2 OF HMI2
MAX OF 4 ADDITIONAL HMIS CAN BE DAISY CHAINED
PLACE END OF LINE DEVICE IN LAST HMI
CAT-5 CONNECTIONS ON REVERSE
J3 ON HMI1 to J2 OF HMI2
MAX OF 4 ADDITIONAL HMIS CAN BE DAISY CHAINED
PLACE END OF LINE DEVICE IN LAST HMIPLACE END OF LINE DEVICE IN LAST HMI
SENSOR WIRES BACKTO IBT/MUA BOARDSENSOR WIRES BACKTO IBT/MUA BOARD
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
CASRTU1-I.100-16-6T
RTU Installation Wiring C USwww.captiveaire.comSHEET NO.
SCALE:
DWG.#:
DRAWN
DATE:
BY:
REVISIONS
DESCRIPTION DATE:ACCORDANCENo. 96BUILTNFPAWITHINSLIDTERPS-10CLGGD_FILTER_SWITCH
ELEC_DOOR_SWDS-XX
CAB_LED_STRIPLED-XX
SUPPLY_MOTORMT-01
OIL_SENSORSEN-1
PS-20LIQUID_LINE_PRES
SUCTION_LINE_PRESPS-21DISCHARGE_LINE_PRESPS-22
CIRCUIT_BREAKERCB-01
FSC-01FLAME_SAFETY_CTLR
FR-01EVO/ECM-ACU+S1.1-MP
PV-XXFURNACE_POWER_VENT
SW-01DISCONNECT_SWITCH
REFR_LOW_PRES_SWSW-15REFR_HIGH_PRES_SWSW-16
MOD_GAS_VALVEVA-05
VA-01SINGLE_SAFETY_VALVE
HG-01REHEAT_VALVE_1
SCADA_COMM_MODULESCADA
DISTRIBUTION_BLOCKDB-01
EEV-01ELEC_EXP_VALVE_1
CTRL_TRANSFMRTR-01
MOD_VALVE_TRFMR_1TR-03
TEMP_SENSORSN-XX
ROLL_OUT_1-1SW-03
PS-01VENT_PROVING_1
ROLL_OUT_1-2SW-13
SW-18DX_FLOAT_SWITCH
BOARD_POWER_TRFMRTR-05
SMOKE_DETECTORSD-01
CONV_OUTLETRC-01
MT-08MB_DAMPER_MTR
HUM-XXHUM/TEMP_SENSORHUM-XXHUM/TEMP_SENSORHUM-XXHUM/TEMP_SENSORF5/F9E9D9
H8
I8
C9
E5
H8
F8
F8
F8
I4/I5/I6/I7
E8
B3
D4
B2
F1
D3
E8
E7
F5
F5
A3
G9/H10
G7
C7
B3
F6
F6
F6
F5
E3
F9
F9
G3
F8SW-04FURN_HIGH_TEMP_1-1
DOOR_SWITCHSW-19E3
B6ACCUMULATOR_HEATERHE-10
VFD-02COMP_VFD
CRANKCASE_HEATERHE-03B6
C1
CMT-XXCONDENSING_MTRG2
8
7
6
5
4
3
2
1
8
7
6
5
4
3
2
1
8
7
6
5
4
3
2
1
8
7
6
5
4
3
2
1
EC1+EC1-PWM-PWM+POWER_VENT_1
SUCTION_LINE
LIQUID_LINE
INDOOR_COIL
COMP_DISCHARGE
OUTDOOR
RETURN
DISCHARGE
INTAKE
EVAP_COIL_SEN_2
INDOOR_COIL
5801253
MASTER DRAWING
reg65
6
1/16/2023Eggboy Restaurant3/4" =
1'-0"1241 Mayport Road,Jacksonville Office25 N. Market St., Office# 229, Jacksonville, FL, 32202 PHONE: (904) 463-6242 FAX: (919) 227-5923 EMAIL: reg65@captiveaire.comAtlantic Beach, FL, 32233No.59352
STATE
OF
JOH N H .HELBERGLICENSE
FLO R I D APROFESSIONA L E N GINE ERScale
Date
Drawn By
Checked By
Project Number
11555 CENTRAL PARKWAY, STE 502
JACKSONVILLE, FL 32224
WEB: WWW.CI-MECH.COM
E: IAN.VEGA@CI-MECH.COM
PH: 904-503-1421
AUTHORIZATION CERT: #32282
FLORIDA LIC. #83516
GEORGIA LIC. #04658
PUERTO RICO LIC. #22361
MICHIGAN LIC. #6201069836
TENNESSEE LIC. #123477
E-501
ELECTRICAL DETAILS
SHEET 1
EggBoy Restuarant
IGV
JHH
02-01-2023
Project
1241 Mayport Rd
Atlantic Beach, FL
No.Description Date
John H. Helberg, P.E.
License #: 59352
ELECTRICAL PACKAGE -
JOB#5801253
1DCV-2111UTILITY CABINET RIGHT
UTILITY CABINET RIGHT
HOOD # 1
1 LIGHT
1 FAN
SMART CONTROLS DCV
EXHAUST
EXHAUST
SUPPLY
1
1
3
1.000
1.000
1.500
115
115
208
11.6
11.6
6.6
NOTAGPACKAGE #LOCATIONSWITCHES
LOCATIONQUANTITY
OPTIONFANS CONTROLLED
TYPEɸHPVOLTFLA
JOB NO
JOB NAME
MODEL NUMBER
DATE
DRAWN BY
DWG NO
SCHEMATIC TYPE
BREAKER 1PH
CONTROL POWER. DO NOT WIRETO GFCI OR SHUNT TRIP BREAKER.
1ST HOOD LIGHT BREAKER SHARED W/ CONTROL
POWER. SWITCH #1
BREAKER 1PH
WIRE TO VFD QUICK CONNECTOR
MCA:
MOCP:
BREAKER 1PH
MCA:
MOCP:
POWER TO
ECM FANS
BREAKER 1PH
MCA:
MOCP:
POWER TO
ECM FANS
POWER TO
CONDENSER
NIDEC MOTOR
TELCO MOTOR
BK TO GR
BK TO YW
RD TO RD
ZIEHL MOTOR
BK TO BK
SHIELDED TWISTED PAIR
PWM
SPEED SIGNAL
CONTROL
PANEL TO
ECM
OUTDOOR RATED
FEED STP THROUGH INNER
COOLING TUBE. ALLOW FOR
ENOUGH SLACK ON STP FOR PROPER
HINGING. (EXHAUST ONLY)
NOTE: PWM SIGNAL IS POLARITY
SENSITIVE.
NIDEC MOTOR
TELCO MOTOR
BK TO GR
BK TO YW
RD TO RD
ZIEHL MOTOR
BK TO BK
SHIELDED TWISTED PAIR
PWM
SPEED SIGNAL
CONTROL
PANEL TO
ECM
OUTDOOR RATED
FEED STP THROUGH INNER
COOLING TUBE. ALLOW FOR
ENOUGH SLACK ON STP FOR PROPER
HINGING. (EXHAUST ONLY)
NOTE: PWM SIGNAL IS POLARITY
SENSITIVE.
GREEN
RED
Load WiringBLACK
BLACK
BLACKWIRE TO
VFD QUICK
CONNECTORWHITE
FLA:
HP:
VOLT:
MUST HAVE ITS OWN CONDUIT
DO NOT SHARE CONDUIT!
IF VFD MOUNTED IN
2ND PANEL, WIRE SF
SIGNAL FROM PANEL
WITH ECPM03.
ALL SWITCHES FACTORY WIRED
CAT-5 CONNECTION
CONTROL PANEL
SWITCHES
TO
CONTROL PANEL
HOOD LIGHTS
TO
1400 W MAXWIRE TO J-BOX ON TOP OF HOOD
WIRE TO CONTROL BOARD. INSTALL
SENSOR IN ROOM AWAY FROM HEAT
SOURCES. DO NOT INSTALL SENSOR
CONTROL PANEL
KITCHEN TEMP
TO
SENSOR
ON THE CEILING GRID, SEE MANUAL.
FACTORY WIRED TEMPERATURE
SENSOR. MOUNTED IN EXHAUST DUCT
CONTROL PANEL
DUCT SENSOR
TO
FACTORY WIRED TEMPERATURE
SENSOR. MOUNTED IN EXHAUST DUCT
CONTROL PANEL
DUCT SENSOR
TO
CONTROL PANEL
GAS VALVE
TO
120V ONLY
ONLY ENERGIZED THROUGH LCD
HMI WHEN FIRE SYSTEM ARMED.
THE FOLLOWING CONNECTIONSMAY OR MAY NOT BE
REQUIRED BASED ON JOBSITESPECIFICATIONS
CONTROL PANEL
EXTERNAL
SIGNAL FOR
SHUNT TRIP
ST TERMINAL IS ENERGIZED
IN FIRE CONDITION.
CONTROL PANEL
EXTERNAL
SIGNAL FOR
CONTACTOR COIL
KS TERMINAL IS DE-ENERGIZED
IN FIRE CONDITION.
SPARE CONTACTS WILL MAKE
CONTROL PANEL
ON/OFF WITH
DRY CONTACT
SUPPLY FAN
COMMON TO NORMALLY OPENWHEN SUPPLY FAN IS ON.
GROUP 1
WIRE TO ECPM03 TERMINALS.CONFIGURABLE OUTPUT.
DCV SPEED
(TOTAL)
0-10V OUTPUT
ON PCB
SEE ECPM03 OWNERS MANUAL.
TO BMS
+
-
WIRE TO VFD TERMINAL STRIP.PROPORTIONAL TO FREQUENCY.
VFD ANALOG
(EACH VFD)
0-10V OUTPUT
IN VFD
SEE VFD OWNERS MANUAL.
TO BMS
+
-
CONTROL PANEL
EXTERNAL
TO
SWITCH
SIGNAL SWITCH THROUGH BMSWILL ACTIVATE ZONE1 FANS AND
LIGHTS
CONTROL PANEL
GAS VALVE
TO
24V DC ONLY
ONLY ENERGIZED THROUGH LCD
HMI WHEN FIRE SYSTEM ARMED.(NOT NEEDED IF USING 120V
GAS VALVE).
SYSTEM DRY
SPARE FIRE
CONTACT
CONTROL PANEL
SPARE CONTACTS WILL MAKE C2 TO AR2
WHEN SYSTEM IS ARMED. THEY ARE
USED TO DISABLE EQUIPMENT OR
PROVIDE SIGNALS. NOT FOR BUILDING
FIRE ALARM! ALARM SIGNAL MUST BE
TAKEN DIRECTLY FROM FIRE
SUPPRESSION CONTROLS
(R102/TANK/CORE)
CONTROL PANEL
BUILDING
SIGNAL FOR
FIRE ALARM
PANEL
AL1
AL2
J9
BUILDING
ALARM PANELFIRE INPUT
WIRE DIRECTLY TO CORE CIRCUIT
BOARD. AL1 WILL MAKE AL2 IN FIRE
CONDITION.
GREEN
RED(+)RED(+)
RED(+)RED(+)Hot
NeutralH1N1120 V
15 A
GroundGND
LINE
LINE208 V
SUP-3SM-1GND
L1L2Ground
16.6 A
25 A
HOT
NEUTRAL
115V
14.5AEXH-1
Ground
25A
HOT
NEUTRAL
115V
14.5AEXH-2
Ground
25A
LINE
LINE208-230
50 AmpsSUP-3COND 1
1 PHASE
P1AP1B
EXH-1
ECM-01
FAN: 01
BLACK(-)
ECM-01
BLACK(-)
P2AP2B
EXH-2
ECM-02
FAN: 02
BLACK(-)
ECM-02
BLACK(-)
U1V1W1
LOAD LEG 1
LOAD LEG 2
LOAD LEG 3
GNDGROUND
SUP-303FAN:
SM-1
N1120V NEUTRAL
120V HOT
N1
6.6
1.500
208 V
J4
B1W1GND
HOOD LIGHTS 1
T1AT1BROOM TEMP
T2AT2BHOOD 1RISER 1
T3AT3BHOOD 1RISER 2
GASN1
GAS SOLENOID
STN1NEUTRAL FROM SHUNT COIL
HOT TO SHUNT COILSHUNT COIL
KSN1NEUTRAL_TO_CONTACTOR_COIL
HOT_TO_CONTACTOR_COILCONTACTOR_COIL
SFC1SFO1
COMMON
NORMALLY OPEN
SFC2SFO2
COMMON
NORMALLY OPEN
VO+VO-
302
H1IO1
BMS SWITCHCNO
LGVN1D
GAS SOLENOID
C2AR2
COMMON
NORMALLY OPEN
BREAKER PANELPRIMARY CONTROL PANEL
BREAKER PANELFANS
PRIMARY PANELFANS
CONTROL PANELCOMPONENT
CONTROL PANELCOMPONENT
BREAKER PANEL TO PRIMARY CONTROL PANEL
Responsibility: Electrician
BREAKER SIZE SHOWN IS THE MAXIMUM ALLOWED
BREAKER PANEL TO FANS
Responsibility: Electrician
CONTROL PANEL TO FANS
Responsibility: Electrician
CONTROL PANEL TO ACCESSORY ITEMS
Responsibility: Electrician
CONTROL PANEL TO FIRE SYSTEM
Responsibility: ALARM CONTRACTOR
5801253
Eggboy Restaurant
DCV-2111DESCRIPTION OF OPERATION:
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
1/16/2023
INSTALL
ECP #1-1
Demand Control Ventilation, w/ control for 2 Exhaust Fans, 1 Supply Fan, Exhaust on in Fire, Lights out in Fire, Fans modulate based on duct temperature. INVERTER
DUTY 3 PHASE MOTOR REQUIRED FOR USE WITH VFD. Room temperature sensor shipped loose for field installation.Verify distance between VFD and Motor;
additional cost could apply if distance exceeds 50 feet.
H1
BLACK
WHITE
HOT TO GAS VALVE
NEUTRAL
POSITIVE TO GAS VALVE
NEGATIVE
JOB NO
JOB NAME
MODEL NUMBER
DATE
DRAWN BY
DWG NO
SCHEMATIC TYPE
CONTROL PANEL
BUILDING
SIGNAL FOR
TROUBLETROUBLE RELAY CONTACTS WILL
MAKE TBC TO TBL IN TROUBLE
CONDITION.
BUILDINGALARM PANEL
ALARM
FIRE STAT SUPERVISED LOOP
May be mixed factory and field wiring. See
Installation Schematic. Multiple fire sensors
possible.
HIGH TEMP WIRE (842 F), PN: SLPCON-xFT
required for all Supervised Loop wiring in contact
with a hood. All other wiring shall be PN: 6320UL,
Belden or similar.
2122
23
24
FS-01
BK WH
Fire Stat
FS-02
BK WH
Fire Stat
CONTROL PANEL
MOUNTED FIRE
TO DUCT
DETECTION
STAT(S)
MANUAL ACTUATION LOOP / REMOTE FIRE SYSTEM
LOOP.
Multiple manual actuation possible.
Multiple manual actuation possible.
A Plug jumper with wires from pin1 to pin4 and from pin2 to
pin3 is mounted on J10, remove the jumpers and
wire in the supervised actuation loop.
Microswitch MS-01 is optional for fire
system interlock.
Auxiliary Interlock (AUX-01):
Wire AU1 / AU2 of adjacent Master FS panel(s) in each
manual activation loop for simultaneous activation. See Fire
system drawings for more information.
CONTROL PANEL
SYSTEM PULL
TO FIRE
STATION
101
102
103
104
AUX-01
AU1 AU2
CAT-5 CONNECTIONCONTROL PANEL
MASTER FS
TO
BOARD.
PLACE END OF LINE PLUG
EOL120AIN EMPTY JACK. PN: EOL120A
CORE PCB
ADDITIONAL DEVICES MAY BE INLINE.
ECPM03
UNLESS VFD, PCU,
OR OTHER COMPONENT IN SERIES.
INTERLOCK NETWORK
CONTROL PANEL
MASTER FS
TO
PANELWIRE TO LIKE TERMINALS IN ALLCORE PANELS THAT MUST ACTIVATE
TOGETHER. SET MASTER & SLAVEDIP SWITCHES PER FIRE SYSTEM
SHIELDED TWISTED PAIR MASTER CORE
MANUAL.
RED
TBC
TBL
COMMON
NORMALLY CLOSED
FIRE STATS
PULL STATION
MS-01
C NO
Micro SW
MAD-01CNO
ManualActuationDevice
AdjacentFSPanel
J3 J5
J6
CACBCC
BLACK
SHIELD
CACBCC
CONTROL PANEL COMPONENT
CONTROL PANEL TO FIRE SYSTEM
Responsibility: CERTIFIED INSTALLER
5801253
Eggboy Restaurant
DCV-2111 DESCRIPTION OF OPERATION:
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
1/16/2023
INSTALL
ECP #1-2
Demand Control Ventilation, w/ control for 2 Exhaust Fans, 1 Supply Fan, Exhaust on in Fire, Lights out in Fire, Fans modulate based on duct temperature. INVERTER
DUTY 3 PHASE MOTOR REQUIRED FOR USE WITH VFD. Room temperature sensor shipped loose for field installation.Verify distance between VFD and Motor;
additional cost could apply if distance exceeds 50 feet.C USwww.captiveaire.comSHEET NO.
SCALE:
DWG.#:
DRAWN
DATE:
BY:
REVISIONS
DESCRIPTION DATE:ACCORDANCENo. 96BUILTNFPAWITHINSLIDTER5801253
MASTER DRAWING
reg65
7
1/16/2023Eggboy Restaurant3/4" =
1'-0"1241 Mayport Road,Jacksonville Office25 N. Market St., Office# 229, Jacksonville, FL, 32202 PHONE: (904) 463-6242 FAX: (919) 227-5923 EMAIL: reg65@captiveaire.comAtlantic Beach, FL, 32233No.59352
STATE
OF
JOH NH .HELBERGLICENSE
FLO R I D APROFESSIONA L E N GINE ERScale
Date
Drawn By
Checked By
Project Number
11555 CENTRAL PARKWAY, STE 502
JACKSONVILLE, FL 32224
WEB: WWW.CI-MECH.COM
E: IAN.VEGA@CI-MECH.COM
PH: 904-503-1421
AUTHORIZATION CERT: #32282
FLORIDA LIC. #83516
GEORGIA LIC. #04658
PUERTO RICO LIC. #22361
MICHIGAN LIC. #6201069836
TENNESSEE LIC. #123477
E-502
ELECTRICAL DETAILS
SHEET 2
EggBoy Restuarant
IGV
JHH
02-01-2023
Project
1241 Mayport Rd
Atlantic Beach, FL
No.Description Date
John H. Helberg, P.E.
License #: 59352
JOB NO
JOB NAME
MODEL NUMBER
DATE
DRAWN BY
DWG NO
SCHEMATIC TYPE
5801253
Eggboy Restaurant
DCV-2111DESCRIPTION OF OPERATION:
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
COOKINGAPPLIANCE(S)
GAS VALVE-STRAINER MUST BEINSTALLED UPSTREAMOF VALVE
GAS VALVE POWER-2 WIRES & GROUND-24 VDC WIRE TO LGV & N1D-120 VAC WIRE TO GAS &N1
CONTROL PANEL POWER-2 WIRES & GROUND-120 VAC, 15 AMP SERVICE-WIRE TO H1 AND N1, GROUND-POWER MUST NOT ORIGINATEFROM SHUNT TRIP BREAKER
POWER TO ELECTRICAPPLIANCE
SHUNT TRIP BREAKER (OPTIONAL)-2 WIRES, 120VAC-ST TO A1 ON SHUNT BREAKER-NEUTRAL TO A2 ON SHUNT TRIPBREAKER
ELECTRICAL CONTRACTOR REQUIREMENT
ITEMCONNECTION IN PANELCONNECTION IN DEVICEVOLTAGEAMPERAGECOMMENTS
SHUNT TRIP BREAKER (OPTIONAL)ST & N1BREAKER COIL(A1 & A2)120 VAC< 4 AMPSST TO A1 ON SHUNT BREAKER COIL, AND NEUTRAL TO A2 ON SHUNT TRIP BREAKER COIL
CONTROL PANEL POWERH1 & N1 + GROUNDCIRCUIT BREAKER120 VAC15 AMPSCONTROL PANEL POWER MUST NOT BE RUN THROUGH SHUNT TRIP BREAKER
UDS APPLIANCE KILL SWITCH (OPTIONAL)KTS & N1KTS & N1120 VAC< 4 AMPSKILL SWITCH TERMINALS MUST BE IN SERIES WITH OTHER KILL SWITCHES
REMOTE 120VAC ANSUL AUTOMAN (OPTIONAL)AU1, AU2SOLENOID120 VAC< 6 AMPS120V TO AU1, AU2 TO ANSUL ELECTRIC AUTOMAN, ANSUL SOLENOID TO NEUTRAL
GAS VALVELGV & N1D (IF 24 VDC)GAS & N1 (IF 120 VAC)RED/RED/GREEN24 VDCOR 120 VAC< 1.0 AMPSIF 24 VDC - 2 WIRES & GROUND, N1D TO RED, LGV TO RED, AND GREEN TO GROUNDIF 120 VAC - 2 WIRES & GROUND GAS TO RED, N1 TO RED, AND GREEN TO GROUND
ELECTRICGAS
36 INCHES CLEARANCE REQUIRED IN FRONTOF ALL UTILITY CABINET DOORSTHE PANEL SHALL ALSO BE LOCATED IN ANACCESSIBLE AREA WHERE THE AUDIBLE ANDVISUAL ALARMS CAN BE HEARD AND SEEN
EXHAUST HOOD
NOTE: SEE INSTALLATION, OPERATION, AND MAINTENANCE MANUAL FOR FURTHER INSTRUCTIONS
ELECTRICIAN:1. WIRE MAIN CONTROL PANEL PER INCLUDED SCHEMATIC2. WIRE ALL FANS PER INCLUDED SCHEMATIC3. WIRE SHUNT TRIP BREAKER (OPTIONAL)4. WIRE UDS APPLIANCE KILL SWITCH, IF EQUIPPED (OPTIONAL)5. WIRE GAS VALVE
02/10/2021 Rev. 2TANK PROTECTION ELECTRICAL DETAIL
1/16/2023
INSTALL
ECP #1-3
Fire System #1 TANK FS - 4.0/4.0/4.0.
FS-1: MASTER
JOB NO
JOB NAME
MODEL NUMBER
DATE
DRAWN BY
DWG NO
SCHEMATIC TYPE
5801253
Eggboy Restaurant
DCV-2111
COOKINGAPPLIANCE(S)
TROUBLE CONTACT-2 WIRES TO NORMALLYOPEN CONTACTS (CLOSEIN TROUBLE CONDITION)-CORE PANEL TERMINALSTBL AND TBC-SEE FIGURE 4
FIRE ALARM CONTACT-2 WIRES WIRED TO NORMALLYOPEN CONTACTS (CLOSES INFIRE CONDITION)-CORE CONTROL PANEL AL1AND AL2-SEE FIGURE 2
FIRE ALARM PANEL CORE INTERLOCK-2 WIRES + SHIELD-USE BELDEN#88760 OR SIMILAR WIRE-SEE FIGURE 3
CORE COMMUNICATIONS CABLE-CAT5 CABLEMUST BE INSTALLED TO A LOCAL AREANETWORK WITH VALID INTERNET ACCESSVIA ETHERNET SWITCH OR WIRELESSROUTER
SUPERVISED LOOP-4 WIRES, 24VDC CONNECT BLACKWIRES BETWEEN 21 AND 24 IN PANEL,CONNECT WHITE (OR RED) WIRESBETWEEN 22 AND 23 IN PANEL-ADDITIONAL FIRESTATS, WIRED INSUPERVISED LOOP-USE HIGH TEMP (842°F) #CW04427(WHT) & #CW04227B (BLK)WIRE ONLYIF RAN OVER TOP OF HOOD;OTHERWISE BELDEN #6320UL ORSIMILAR PLENUM RATED WIRE-SEE FIGURE 1
MANUAL ACTUATION DEVICEPART #STI-SS2431PROTECTIVE COVER MUST BE INSTALLED
MANUAL ACTUATION DEVICE WIRES-4 WIRES, 24VDC WIRE (TERMINAL 1)BETWEEN 102 AND 103-WIRE (TERMINAL 2) BETWEEN 101 AND 104-ADDITIONAL PULL STATIONS WIRED INSUPERVISED LOOP-USE BELDEN #6320UL OR SIMILAR WIRE-SEE FIGURE 2
MANUAL
ACTUATION
DEVICE
10 TO 20
FEET FROM
HOOD LOCATED
NEAR POINT
OF EGRESS
FROM HOOD
42 TO 48 INCHES
ABOVE FLOOR
LEVEL TO
CENTER OF PUSH
STATION
ALARM CONTRACTOR REQUIREMENT
ITEM CONNECTION IN PANEL CONNECTION ON DEVICE VOLTAGE AMPERAGE COMMENTS
MANUAL ACTUATION DEVICE(S)101 AND 104102 AND 103 1 & 2 24 VDC < 1.0 AMPS WIRE MANUAL ACTUATION DEVICE TERMINAL 1 BETWEEN CORE PANEL TERMINALS 102 AND 103WIRE MANUAL ACTUATION DEVICE TERMINAL 2 BETWEEN CORE PANEL TERMINALS 101 AND 104JUMPER 101 TO 104 AND 102 TO 103 IF NO MANUAL ACTUATION DEVICE IS INSTALLED
MANUAL ACTUATION DEVICE COVER N/A N/A N/A N/A MANUAL ACTUATION DEVICE COVER MUST BE INSTALLEDIF SURFACE MOUNTED, USE COVER EXTENSION STI-6531B
REMOTE FIRESTAT SENSOR(S)21 AND 2422 AND 23 BLACK AND WHITE 24 VDC < 1.0 AMPS
WIRE FIRE SENSOR WHITE WIRES BETWEEN HOOD CORE PANEL TERMINALS 22 AND 23WIRE FIRE SENSOR BLACK WIRE BETWEEN HOOD CORE PANEL TERMINALS 21 AND 24HIGH TEMP (842°F) #CW04427 (WHT) & #CW04427B (BLK)WIRE OR SIMILAR ONLY IF RAN OVER TOPOF HOOD; OTHERWISE BELDEN #6320UL OR SIMILAR PLENUM RATED WIRE; SEE FIGURE 1
FIRE ALARM CONTACT AL1, AL2 VARIES 50V MAX(AC/DC)UP TO 1 AMP FIRE ALARM RELAY CONTACTS FOR BUILDING FIRE ALARM LOCATED IN THECORE ELECTRICAL CONTROL PANEL
CORE INTERLOCK(S)ILA, ILB, ILC ILA, ILB, ILC RS-485 COMMUNICATIONSSIGNAL CORE SYSTEM (1) ILA, TO CORE SYSTEM (2) ILA. CORE SYSTEM (1) ILB, TO CORE SYSTEM (2) ILB.CORE SYSTEM (1) ILC, TO CORE SYSTEM (2) ILC. USE BELDEN# 88760 OR SIMILAR WIRE
TROUBLE CONTACT TBC, TBL, TOK VARIES MAX 120 VAC UP TO 6AMPS WIRE TO TBL & TBC NORMALLY OPEN CONTACT, CLOSES IN TROUBLE CONDITION
CORE COMMUNICATIONS CABLE RJ-45 Jack INTERNET CONNECTION SIGNAL <1.0 AMPS TYPICAL CONNECTION CAT5 CABLE TO LOCAL AREA NETWORK VIA ETHERNET SWITCH ORWIRELESS ROUTER WITH VALID INTERNET CONNECTION
NOTE: SEE INSTALLATION, OPERATION, AND MAINTENANCE MANUAL FOR FURTHER INSTRUCTIONS
GASELECTRIC
EXHAUST HOOD
36 INCHES CLEARANCE REQUIRED IN FRONTOF ALL UTILITY CABINET DOORSTHE PANEL SHALL ALSO BE LOCATED IN ANACCESSIBLE AREA WHERE THE AUDIBLE ANDVISUAL ALARMS CAN BE HEARD AND SEEN
ATTENTION: LOW-VOLTAGE DC OR SIGNALING WIRE SHOULDBE ROUTED IN SEPARATE CONDUIT FROM ALL AC SOURCES
ALARM CONTRACTOR:1. WIRE MANUAL ACTUATION DEVICE(S), REMOTE FIRESTAT(S), CORE INTERLOCK(S), FIRE SENSOR(S) AND FIRE ALARM CONTACTS2. COMPLETE FINAL HOOKUP OF SYSTEM3. VERIFY FINAL FIRE SYSTEM TEST
02/10/2021 Rev. 2TANK PROTECTION LOW-VOLTAGE DETAIL
DESCRIPTION OF OPERATION:
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
1/16/2023
INSTALL
ECP #1-4
Fire System #1 TANK FS - 4.0/4.0/4.0.
FS-1: MASTER
C USwww.captiveaire.comSHEET NO.
SCALE:
DWG.#:
DRAWN
DATE:
BY:
REVISIONS
DESCRIPTION DATE:ACCORDANCENo. 96BUILTNFPAWITHINSLIDTER5801253
MASTER DRAWING
reg65
8
1/16/2023Eggboy Restaurant3/4" =
1'-0"1241 Mayport Road,Jacksonville Office25 N. Market St., Office# 229, Jacksonville, FL, 32202 PHONE: (904) 463-6242 FAX: (919) 227-5923 EMAIL: reg65@captiveaire.comAtlantic Beach, FL, 32233No.59352
STATE
OF
JOH NH .HELBERGLICENSE
FLO R I D APROFESSIONA L E N GINE ERScale
Date
Drawn By
Checked By
Project Number
11555 CENTRAL PARKWAY, STE 502
JACKSONVILLE, FL 32224
WEB: WWW.CI-MECH.COM
E: IAN.VEGA@CI-MECH.COM
PH: 904-503-1421
AUTHORIZATION CERT: #32282
FLORIDA LIC. #83516
GEORGIA LIC. #04658
PUERTO RICO LIC. #22361
MICHIGAN LIC. #6201069836
TENNESSEE LIC. #123477
E-503
ELECTRICAL DETAILS
SHEET 3
EggBoy Restuarant
IGV
JHH
02-01-2023
Project
1241 Mayport Rd
Atlantic Beach, FL
No.Description Date
John H. Helberg, P.E.
License #: 59352
JOB NO
JOB NAME
MODEL NUMBER
DATE
DRAWN BY
DWG NO
SCHEMATIC TYPE
5801253
Eggboy Restaurant
DCV-2111DESCRIPTION OF OPERATION:
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
COOKINGAPPLIANCE(S)
GAS VALVE-STRAINER MUST BEINSTALLED UPSTREAMOF VALVE
GAS VALVE POWER-2 WIRES & GROUND-24 VDC WIRE TO LGV & N1D-120 VAC WIRE TO GAS &N1
CONTROL PANEL POWER-2 WIRES & GROUND-120 VAC, 15 AMP SERVICE-WIRE TO H1 AND N1, GROUND-POWER MUST NOT ORIGINATEFROM SHUNT TRIP BREAKER
POWER TO ELECTRICAPPLIANCE
SHUNT TRIP BREAKER (OPTIONAL)-2 WIRES, 120VAC-ST TO A1 ON SHUNT BREAKER-NEUTRAL TO A2 ON SHUNT TRIPBREAKER
ELECTRICAL CONTRACTOR REQUIREMENT
ITEMCONNECTION IN PANELCONNECTION IN DEVICEVOLTAGEAMPERAGECOMMENTS
SHUNT TRIP BREAKER (OPTIONAL)ST & N1BREAKER COIL(A1 & A2)120 VAC< 4 AMPSST TO A1 ON SHUNT BREAKER COIL, AND NEUTRAL TO A2 ON SHUNT TRIP BREAKER COIL
CONTROL PANEL POWERH1 & N1 + GROUNDCIRCUIT BREAKER120 VAC15 AMPSCONTROL PANEL POWER MUST NOT BE RUN THROUGH SHUNT TRIP BREAKER
UDS APPLIANCE KILL SWITCH (OPTIONAL)KTS & N1KTS & N1120 VAC< 4 AMPSKILL SWITCH TERMINALS MUST BE IN SERIES WITH OTHER KILL SWITCHES
REMOTE 120VAC ANSUL AUTOMAN (OPTIONAL)AU1, AU2SOLENOID120 VAC< 6 AMPS120V TO AU1, AU2 TO ANSUL ELECTRIC AUTOMAN, ANSUL SOLENOID TO NEUTRAL
GAS VALVELGV & N1D (IF 24 VDC)GAS & N1 (IF 120 VAC)RED/RED/GREEN24 VDCOR 120 VAC< 1.0 AMPSIF 24 VDC - 2 WIRES & GROUND, N1D TO RED, LGV TO RED, AND GREEN TO GROUNDIF 120 VAC - 2 WIRES & GROUND GAS TO RED, N1 TO RED, AND GREEN TO GROUND
ELECTRICGAS
36 INCHES CLEARANCE REQUIRED IN FRONTOF ALL UTILITY CABINET DOORSTHE PANEL SHALL ALSO BE LOCATED IN ANACCESSIBLE AREA WHERE THE AUDIBLE ANDVISUAL ALARMS CAN BE HEARD AND SEEN
EXHAUST HOOD
NOTE: SEE INSTALLATION, OPERATION, AND MAINTENANCE MANUAL FOR FURTHER INSTRUCTIONS
ELECTRICIAN:1. WIRE MAIN CONTROL PANEL PER INCLUDED SCHEMATIC2. WIRE ALL FANS PER INCLUDED SCHEMATIC3. WIRE SHUNT TRIP BREAKER (OPTIONAL)4. WIRE UDS APPLIANCE KILL SWITCH, IF EQUIPPED (OPTIONAL)5. WIRE GAS VALVE
02/10/2021 Rev. 2TANK PROTECTION ELECTRICAL DETAIL
1/16/2023
INSTALL
ECP #1-3
Fire System #1 TANK FS - 4.0/4.0/4.0.
FS-1: MASTER
JOB NO
JOB NAME
MODEL NUMBER
DATE
DRAWN BY
DWG NO
SCHEMATIC TYPE
5801253
Eggboy Restaurant
DCV-2111
COOKINGAPPLIANCE(S)
TROUBLE CONTACT-2 WIRES TO NORMALLYOPEN CONTACTS (CLOSEIN TROUBLE CONDITION)-CORE PANEL TERMINALSTBL AND TBC-SEE FIGURE 4
FIRE ALARM CONTACT-2 WIRES WIRED TO NORMALLYOPEN CONTACTS (CLOSES INFIRE CONDITION)-CORE CONTROL PANEL AL1AND AL2-SEE FIGURE 2
FIRE ALARM PANEL CORE INTERLOCK-2 WIRES + SHIELD-USE BELDEN#88760 OR SIMILAR WIRE-SEE FIGURE 3
CORE COMMUNICATIONS CABLE-CAT5 CABLEMUST BE INSTALLED TO A LOCAL AREANETWORK WITH VALID INTERNET ACCESSVIA ETHERNET SWITCH OR WIRELESSROUTER
SUPERVISED LOOP-4 WIRES, 24VDC CONNECT BLACKWIRES BETWEEN 21 AND 24 IN PANEL,CONNECT WHITE (OR RED) WIRESBETWEEN 22 AND 23 IN PANEL-ADDITIONAL FIRESTATS, WIRED INSUPERVISED LOOP-USE HIGH TEMP (842°F) #CW04427(WHT) & #CW04227B (BLK)WIRE ONLYIF RAN OVER TOP OF HOOD;OTHERWISE BELDEN #6320UL ORSIMILAR PLENUM RATED WIRE-SEE FIGURE 1
MANUAL ACTUATION DEVICEPART #STI-SS2431PROTECTIVE COVER MUST BE INSTALLED
MANUAL ACTUATION DEVICE WIRES-4 WIRES, 24VDC WIRE (TERMINAL 1)BETWEEN 102 AND 103-WIRE (TERMINAL 2) BETWEEN 101 AND 104-ADDITIONAL PULL STATIONS WIRED INSUPERVISED LOOP-USE BELDEN #6320UL OR SIMILAR WIRE-SEE FIGURE 2
MANUAL
ACTUATION
DEVICE
10 TO 20
FEET FROM
HOOD LOCATED
NEAR POINT
OF EGRESS
FROM HOOD
42 TO 48 INCHES
ABOVE FLOOR
LEVEL TO
CENTER OF PUSH
STATION
ALARM CONTRACTOR REQUIREMENT
ITEM CONNECTION IN PANEL CONNECTION ON DEVICE VOLTAGE AMPERAGE COMMENTS
MANUAL ACTUATION DEVICE(S)101 AND 104102 AND 103 1 & 2 24 VDC < 1.0 AMPS WIRE MANUAL ACTUATION DEVICE TERMINAL 1 BETWEEN CORE PANEL TERMINALS 102 AND 103WIRE MANUAL ACTUATION DEVICE TERMINAL 2 BETWEEN CORE PANEL TERMINALS 101 AND 104JUMPER 101 TO 104 AND 102 TO 103 IF NO MANUAL ACTUATION DEVICE IS INSTALLED
MANUAL ACTUATION DEVICE COVER N/A N/A N/A N/A MANUAL ACTUATION DEVICE COVER MUST BE INSTALLEDIF SURFACE MOUNTED, USE COVER EXTENSION STI-6531B
REMOTE FIRESTAT SENSOR(S)21 AND 2422 AND 23 BLACK AND WHITE 24 VDC < 1.0 AMPS
WIRE FIRE SENSOR WHITE WIRES BETWEEN HOOD CORE PANEL TERMINALS 22 AND 23WIRE FIRE SENSOR BLACK WIRE BETWEEN HOOD CORE PANEL TERMINALS 21 AND 24HIGH TEMP (842°F) #CW04427 (WHT) & #CW04427B (BLK)WIRE OR SIMILAR ONLY IF RAN OVER TOPOF HOOD; OTHERWISE BELDEN #6320UL OR SIMILAR PLENUM RATED WIRE; SEE FIGURE 1
FIRE ALARM CONTACT AL1, AL2 VARIES 50V MAX(AC/DC)UP TO 1 AMP FIRE ALARM RELAY CONTACTS FOR BUILDING FIRE ALARM LOCATED IN THECORE ELECTRICAL CONTROL PANEL
CORE INTERLOCK(S)ILA, ILB, ILC ILA, ILB, ILC RS-485 COMMUNICATIONSSIGNAL CORE SYSTEM (1) ILA, TO CORE SYSTEM (2) ILA. CORE SYSTEM (1) ILB, TO CORE SYSTEM (2) ILB.CORE SYSTEM (1) ILC, TO CORE SYSTEM (2) ILC. USE BELDEN# 88760 OR SIMILAR WIRE
TROUBLE CONTACT TBC, TBL, TOK VARIES MAX 120 VAC UP TO 6AMPS WIRE TO TBL & TBC NORMALLY OPEN CONTACT, CLOSES IN TROUBLE CONDITION
CORE COMMUNICATIONS CABLE RJ-45 Jack INTERNET CONNECTION SIGNAL <1.0 AMPS TYPICAL CONNECTION CAT5 CABLE TO LOCAL AREA NETWORK VIA ETHERNET SWITCH ORWIRELESS ROUTER WITH VALID INTERNET CONNECTION
NOTE: SEE INSTALLATION, OPERATION, AND MAINTENANCE MANUAL FOR FURTHER INSTRUCTIONS
GASELECTRIC
EXHAUST HOOD
36 INCHES CLEARANCE REQUIRED IN FRONTOF ALL UTILITY CABINET DOORSTHE PANEL SHALL ALSO BE LOCATED IN ANACCESSIBLE AREA WHERE THE AUDIBLE ANDVISUAL ALARMS CAN BE HEARD AND SEEN
ATTENTION: LOW-VOLTAGE DC OR SIGNALING WIRE SHOULDBE ROUTED IN SEPARATE CONDUIT FROM ALL AC SOURCES
ALARM CONTRACTOR:1. WIRE MANUAL ACTUATION DEVICE(S), REMOTE FIRESTAT(S), CORE INTERLOCK(S), FIRE SENSOR(S) AND FIRE ALARM CONTACTS2. COMPLETE FINAL HOOKUP OF SYSTEM3. VERIFY FINAL FIRE SYSTEM TEST
02/10/2021 Rev. 2TANK PROTECTION LOW-VOLTAGE DETAIL
DESCRIPTION OF OPERATION:
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
1/16/2023
INSTALL
ECP #1-4
Fire System #1 TANK FS - 4.0/4.0/4.0.
FS-1: MASTER
C USwww.captiveaire.comSHEET NO.
SCALE:
DWG.#:
DRAWN
DATE:
BY:
REVISIONS
DESCRIPTION DATE:ACCORDANCENo. 96BUILTNFPAWITHINSLIDTER5801253
MASTER DRAWING
reg65
8
1/16/2023Eggboy Restaurant3/4" =
1'-0"1241 Mayport Road,Jacksonville Office25 N. Market St., Office# 229, Jacksonville, FL, 32202 PHONE: (904) 463-6242 FAX: (919) 227-5923 EMAIL: reg65@captiveaire.comAtlantic Beach, FL, 32233No.59352
STATE
OF
JOH NH .HELBERGLICENSE
FLO R I D APROFESSIONA L E N GINE ERScale
Date
Drawn By
Checked By
Project Number
11555 CENTRAL PARKWAY, STE 502
JACKSONVILLE, FL 32224
WEB: WWW.CI-MECH.COM
E: IAN.VEGA@CI-MECH.COM
PH: 904-503-1421
AUTHORIZATION CERT: #32282
FLORIDA LIC. #83516
GEORGIA LIC. #04658
PUERTO RICO LIC. #22361
MICHIGAN LIC. #6201069836
TENNESSEE LIC. #123477
E-504
ELECTRICAL DETAILS
SHEET 4
EggBoy Restuarant
IGV
JHH
02-01-2023
Project
1241 Mayport Rd
Atlantic Beach, FL
No.Description Date
John H. Helberg, P.E.
License #: 59352
120 VAC
RELAY
NO
COM
COIL
NC
34
65
8
2
7
1
RA-x
24 VDC
RELAY
RD-x
NO
COM
COIL
NC
34
65
8
2
7
1
RD- RED
BR- BROWN
BL- BLUE
BK- BLACK
OR- ORANGE
WH- WHITE
OR/BL- OR/BL STRIPE
BL/RD- BL/RD STRIPE
RD/GN- RD/GN STRIPE
WH/BL- WH/BL STRIPE
PR- PURPLE
GY- GREY
YW- YELLOW
LEGEND
FIELD WIRING
FACTORY
WIRING
DWG NO
JOB NO
DATE
DRAWN BY
JOB NAME
DESCRIPTION OF OPERATION
TYPE
DRAWING TITLE
GRGRGND
BK
BK
BK
BK
BK
BK
BK
BK
BK
BK
U/T1
V/T2
W/T3
L1
L2
L3/N
VFD:
HP:
MTR:FLA:
P107:
P108:
P410:
P150:
P100:
P194:
P167:
P101:
P131:
P103:
P102:
GND
FACTORY WIRING
SCHEMATIC
CIRCUIT BOARDS
ECPM03
DCV Rev. 2.10.00 HMI
Rev. 2.10.00
ST-XvariesStarter
C-XvariesContactor
SM-XvariesVFD
LR-XvariesLine/Load Reactor
COMPONENT LIST
SC-24 X 18 X 8.62 BOX
5801253
Eggboy Restauran...
FACTORY
DCV-2111
1/16/2023
ECP #1-7
SM-1
MOTOR POWER CIRCUITS. SEE INSTALLATION
LABELDESCRIPTION
DIAGRAM FOR FIELD WIRING REQUIREMENTS.
L1L2
12 AWG
1 PH
25 A
208 V
U1V1W1
ESV152N02YXB571225
01
01
21
94
00
6.61.500
SUP-3
72.3
ABCDEFGHI
1
2
3
4
5
6
7
8
9
10
Demand Control Ventilation, w/
control for 2 Exhaust Fans, 1
Supply Fan, Exhaust on in Fire,
Lights out in Fire, Fans modulate
based on duct temperature.
INVERTER DUTY 3 PHASE
MOTOR REQUIRED FOR USE
WITH VFD. Room temperature
sensor shipped loose for field
installation.Verify distance between
VFD and Motor; additional cost
could apply if distance exceeds 50
feet.
N/A
N/A
72.3
0.0 120 VAC
RELAY
NO
COM
COIL
NC
34
6 5
8
2
7
1
RA-x
24 VDC
RELAY
RD-x
NO
COM
COIL
NC
34
6 5
8
2
7
1
GRGND
16AWG
WHN1
H1 BK
PN: 1606-XLP-60EQ
Adjust power supply to 27.5 Volts with an
accurate Digital Volt Meter or with an HMI
plugged into the CORE board.PSM-2 60W
12
11
RD-17-1
C2
AR214 AWG
YW
FIRE SYSTEM DRY CONTACTS.
Dry contacts will make C2 to AR2 when system is
armed.
12
11
RD-20-1
14TBC
TBLTOK
YW
TROUBLE RELAY. Contact terminals TBC & TBL
make if there is trouble. Contact terminals TBC &
TOK make if the system is ok.
DWG NO
JOB NO
DATE
DRAWN BY
JOB NAME
DESCRIPTION OF OPERATION
TYPE
DRAWING TITLE
BL
OR
PR- PURPLE
PK
PK
OR
OR
OR-
ORANGE
BR
BR
BR
RD
RD
RD
RD
RD
RD
RD
RD
RD
RD
RD
RD RD RD
RD
RD
RD
RD
RD RDRD
GR- GREEN
GAS VALVES SHOULD BE WIRED TO
MASTER CORE BOARD ONLY.
TERMINAL LGV USED FOR 24VDC
POWERED GAS VALVES ONLY.
RD- RED
RD
BR- BROWN
BR
BL- BLUE
FACTORY WIRING
SCHEMATIC
CORE FIRE
PROTECTION
PCB-2 PCBCORE-APPCORE PCB
PSM-2 1606-XLP-50ECORE POWER SUPPLY
WS-x variesWater Solenoid
LT-06 PNL-1163-0UR24V Red Ind. Light
LL-01 AQ5510Surf. Level Sensor
AA-01 SCE120LA3FP1BAudible Alarm
PB-01 D7-F2X11Prime/Reset Switch
SW-04 BZ-2RQ1-A2Tamper Switch
SP-1 50000-805Surfactant Pump
GV-1 varies24v DC Gas Valve
FS-XX 12-F28021-000360Duct Fire Sensor
LT-05 PNL-1163-0UY24V YLW Ind. Light
PS-01 Station STI-SS2431Remote Puill/Push
RD-XX PLC-RPT-24DC/2124VDC Phoenix Relay
BK- BLACK
WH- WHITE
OR/BL- OR/BL STRIPE
BL/RD- BL/RD STRIPE
RD/GN- RD/GN STRIPE
WH/BL- WH/BL STRIPE
YW- YELLOW
GY- GREY
PS EWC-PRESSUREPressure Switch
SW-05 ZB5AD2TEST/ARM Switch
WH
PWS-01 24VDC 18W POWER24VDC Power Suppl
MAD-01 DEVICEMANUAL ACTIVATION
COMPONENT LISTPCB-2
LEGEND
5801253
Eggboy Restauran...
FACTORY
DCV-2111
1/16/2023
ECP #1-8
LABEL DESCRIPTION
24 VOLT BATTERY PACK5 AMP FUSE
J3-2
J4-1
J3-11
J4-3
J4-2
J4-8
J4-9
J4-12
J3-14
J4-5
J3-13
J3-4
J4-6
J3-10
J2-1
J2-2
J2-3
J2-4
J7-2
J7-3
J7-1
J3-1 J3-3
ALL 18AWG
BK
OR/BL
BK 18AWG
BK
BK
J3-5
J1-1
J1-2
BK
BK
FIRE STAT SUPERVISED LOOP
May be mixed factory and field wiring. See
Installation Schematic. Multiple fire sensors
possible.
+
+BK
BK
Shield
BK RS-485 CORE INTERLOCK
NETWORK. Connection to other
CORE Panels or Communication
Module. See Installation Schematic
for Connection.
N1DH1D
DISCONNECT J1
21
22
23
24
PB-01
Prime / Reset
A2A1
RD-20
Trouble Relay
A2A1
RD-17
Fire Relay
DRY CONTACTS (SHOWN DE-ENGERGIZED)
AA-01
Audible Alarm
SW-04
Door Tamper SwitchCNO
FS-01
BK WH
Fire Stat
FS-02
BK WH
Fire Stat
HIGH TEMP WIRE (842 F), PN:
SLPCON-xFT required for all
Supervised Loop wiring in contact with
a hood. All other wiring shall be PN:
6320UL, Belden or similar. Factory
mounted hood sensors will be
terminated at junction box on top of
hood.
J3-16
J3-8
LT-6
R
FIRE INDICATOR
RD/GNA2A1
RD-19
Equipment Relay
12
11
RD-19-1
14EKC
ESTEKS
YW
OR/BLA2A1
RD-18
Auxiliary Interlock Relay
FOR SHIPMENT
J10-1
J10-2
J10-3
J10-4
BK
BK
101
102
103
104
MANUAL ACTUATION LOOP / REMOTE FIRE SYSTEM
LOOP.
Multiple manual actuation possible.
A Plug jumper with wires from pin1 to pin4 and from pin2 to
pin3 should be mounted on J10 if there is no manual
actuation device and no microswitch.
Jumper if water valve
supervision switch is used
MAD-01CNO
ManualActuationDevice
MS-01
C NO
Micro SW
PUT END OF LINE PLUG IN EMPTY RJ45
J3 ECPM03
UNLESS PCU AFM OR OTHER COMPONENT IN SERIES.
CAT-5 WIRING (MASTER ONLY)
FIELD WIRED IF REMOTE PREWIRE
AUX-01
AU1 AU2
Auxiliary Interlock (AUX-01):
Wire AU1 / AU2 of adjacent Master CORE panel(s) in each
manual activation loop for simultaneous activation.
AU1/AU2 will have continuity for 10 seconds if adjacent
panel goes into fire condition, activating this CORE Panel
but allowing for a reset after 10 seconds.
NOTE: AU1/AU2 terminals of CORE Panel should not be
wired into its own manual activation loop.
18AWG
FIRE INDICATOR FAULT CONDITION FLASH CODES
2 Release Solenoid
3 Pressure Switch
4 Auxiliary Fault
5 Microcontroller Fault
6 N/A
7 Supervised Loop
8 Ground Fault
9 Surfactant Low
10 Battery Voltage Low
11 AC Power Failure
12 Door Tamper Switch
13 Test Mode
14 CORE Interlock Network
15 Fault on Hood in Interlock Network
16 Fault on PCU in Interlock Network
FIRE ALARM SYSTEM DRY CONTACTS. Termials
AL1 & AL2 make in FIRE.
To Building Fire Alarm
Panel
J9
AL1
AL2
PRSW-05-1
Test Armed34YW RS-1
RELEASE SOLENOID
SW-05-2
Test Armed34 J4-13
PRSW-05-1
Test Armed34YW
PS-1
Pressure Switch
CA
CB
CC
AU1AU1AU2AU2
TR2
GV-1
24V DC Gas Valve
38
PS
RS
RS2
LGV
AB C D E F G H I
1
2
3
4
5
6
7
8
9
10
SHIELDED TWISTED PAIR
3x3x
INTERLOCK FOR AUTOMAN ACTIVATION. Used
for activating 120V automan or adjacent Master
CORE panels during active Fire Condition.
DIP Switch
ATTENTION: LOW-VOLTAGE DC OR SIGNALING WIRE SHOULD
BE ROUTED IN SEPARATE CONDUIT FROM ALL AC SOURCES.
COOKING EQUIPMENT DISABLE RELAY. For
UDS Kill Switch, wire EKC and EKS terminals to like
terminals in UDS panel.
INTERLOCK FOR AUTOMAN ACTIVATION. Used
for activating 120V automan or adjacent Master
CORE panels during active Fire Condition.
1 2 3 4 5 6 7 8
SW1OPEN
Adjacent
CORE Panel
Master CORE set
DIP SW 8 to
CLOSED position.
Slave CORE with
address 1 set DIP
SW 8 to CLOSED
position. All other
CORES set DIP SW
8 OPEN.
FIELD WIRING
FACTORY
WIRING
J3-7
J4-9
Fire System #1 TANK FS -
4.0/4.0/4.0.
FS-1: MASTER
C USwww.captiveaire.comSHEET NO.
SCALE:
DWG.#:
DRAWN
DATE:
BY:
REVISIONS
DESCRIPTION DATE:ACCORDANCENo. 96BUILTNFPAWITHINSLIDTER5801253
MASTER DRAWING
reg65
10
1/16/2023Eggboy Restaurant3/4" =
1'-0"1241 Mayport Road,Jacksonville Office25 N. Market St., Office# 229, Jacksonville, FL, 32202 PHONE: (904) 463-6242 FAX: (919) 227-5923 EMAIL: reg65@captiveaire.comAtlantic Beach, FL, 32233No.59352
STATE
OF
JOH NH .HELBERGLICENSE
FLO R I D APROFESSIONA L E N GINE ERScale
Date
Drawn By
Checked By
Project Number
11555 CENTRAL PARKWAY, STE 502
JACKSONVILLE, FL 32224
WEB: WWW.CI-MECH.COM
E: IAN.VEGA@CI-MECH.COM
PH: 904-503-1421
AUTHORIZATION CERT: #32282
FLORIDA LIC. #83516
GEORGIA LIC. #04658
PUERTO RICO LIC. #22361
MICHIGAN LIC. #6201069836
TENNESSEE LIC. #123477
E-505
ELECTRICAL DETAILS
SHEET 5
EggBoy Restuarant
IGV
JHH
02-01-2023
Project
1241 Mayport Rd
Atlantic Beach, FL
No.Description Date
John H. Helberg, P.E.
License #: 59352
No.59352
STATE
OF
JOH NH .HELBERGLICENSE
FLO R I D APROFESSIONA L E N GINE ER600AMP
120/240V
1PH, 3W
FUSED
DISCONNECT126112531245
1249
1241
1257
1241
NEW
320A
METER
WITH
LEVER
BYPASS
NEW
320A
DISCONNECT
SWITCH
12
34
5
6
NEW 400 AMP
120/240V
1PH 3W
NEMA 1 PANEL
NEW
400 AMP
120/240V
1PH 3W
NEMA 3R
DISCONNECT
SWITCH
NEW
320 AMP
120/240V
1PH 3W
NEMA 3R
METER
ENCLOSURE
EXISTING WIREWAY
3 - 600 KCMIL CU & #3 AWG CU GND IN 3.5" CONDUIT
3 - 600 KCMIL CU & #3 AWG CU GND IN 3.5" CONDUIT
3 - 600 KCMIL CU & #3 AWG CU GND
IN 3.5" CONDUIT
2
4
Scale
Date
Drawn By
Checked By
Project Number
11555 CENTRAL PARKWAY, STE 502
JACKSONVILLE, FL 32224
WEB: WWW.CI-MECH.COM
E: IAN.VEGA@CI-MECH.COM
PH: 904-503-1421
AUTHORIZATION CERT: #32282
FLORIDA LIC. #83516
GEORGIA LIC. #04658
PUERTO RICO LIC. #22361
MICHIGAN LIC. #6201069836
TENNESSEE LIC. #123477
3/4" = 1'-0"
E-601
ELECTRICAL SINGLE
LINE AND PANEL
SCHEDULE
EggBoy Restuarant
IGV
JHH
02-01-2023
Project
1241 Mayport Rd
Atlantic Beach, FL
3/4" = 1'-0"1SERVICE ENTRANCE DETAIL
Notes:
Lighting 253 VA 100.00%253 VA
Power 520 VA 100.00%520 VA
Receptacle 8460 VA 100.00%8460 VA Total Est. Demand:178 A
Other 129 VA 100.00%129 VA Total Conn.:178 A
Lighting - Exterior 48 VA 125.00%60 VA Total Est. Demand:42820 VA
HVAC30156 VA 100.00%30156 VA Total Conn. Load:42808 VA
Cooling 3792 VA 100.00%3792 VA
Load ClassificationConnected Load Demand Factor Estimated Demand Panel Totals
Legend:
Total Amps:178 A 178 A
Total Load:21402 VA 21407 VA
59 60
57 58
55 56
53 54
51 52
49 50
47 48
45 46
43 44
41 540 VA 1 20 A DINING ROOM REC 42
39COFFEE/TEA REC20 A 1 360 VA 360 VA 1 20 A STORAGE AREA REC 40
37COFFEE/TEA REC20 A 1 180 VA 180 VA 1 20 A ROOF REC 38
35COFFEE/TEA REC20 A 1 360 VA 50 VA 1 20 A EXTERIOR LIGHTED SIGN 36
33COUNTER REC20 A 1 540 VA 48 VA 1 20 A EXTERIOR LIGHTING 34
31INTERIOR LIGHTING20 A 1 660 VA 84 VA 1 20 A GAS WATER HEATER 32
29KITCHEN REC20 A 1 360 VA 2700 VA ------30
27KITCHEN COUNTER REC20 A 1 180 VA 2700 VA 2 40 A FCU-1 28
25GLASS CLEANER20 A 1 180 VA 1800 VA ------26
23COUNTERTOP FOOD WARMER REC20 A 1 1200 VA 1800 VA 2 20 A WALK IN COOLER CONDENSOR 24
21COFFEE GRINDER20 A 1 180 VA 100 VA 1 20 A WALK IN COOLER LIGHTS 22
19EXPRESSO MACHINE20 A 1 180 VA 432 VA 1 20 A WALK IN COOLER EVAPORATOR 20
17ICE WELL20 A 1 756 VA 0 VA 1 20 A HOOD 18
15REFRIGERATED BASE 2 REC20 A 1 276 VA 1392 VA 1 20 A EF-2 16
13POS REC20 A 1 360 VA 1392 VA 1 20 A EF-1 14
11REFRIGERATED BASE 1 REC20 A 1 276 VA 3110 VA ------12
9COLD DISPLAY20 A 1 360 VA 3110 VA 2 50 A MUA 10
7MEGA TOP REFRIGERATOR 1 REC20 A 1 336 VA 6732 VA ------8
5REACH IN FREEZER REC20 A 1 756 VA 6732 VA 2 60 A DOAS/RTU 6
3HEAT LAMP20 A 1 180 VA 1680 VA ------4
1BATHROOM REC20 A 1 360 VA 1680 VA 2 30 A ACCU-1 2
CKTCircuit DescriptionTrip Poles A B Poles Trip Circuit Description CKT
Notes:
Enclosure:MCB Rating:400 A
Mounting:Recessed Wires:3 Mains Rating:400 A
Supply From:Phases:1 Mains Type:
Location:Volts:120/240 Single A.I.C. Rating:24K
Branch Panel:MP
MECHANICAL EQUIPMENT CONNECTION SCHEDULE
EQUIPMENTCIRCUIT CONDUIT CONDUCTORS STARTER/DISCONNECT NOTES
ACCU-1MP-2,4 3/4"3-#10 AWG CU & #10 AWG CU GND 2/60/30/1
DOAS/RTUMP-6,8 1"3-#6 AWG CU & #10 AWG CU GND 2/60/60/3R
EF Front RestroomMP-31 3/4"2-#12 AWG CU & #12 AWG CU GND INTEGRAL TO FAN
EF Rear RestroomMP-31 3/4"2-#12 AWG CU & #12 AWG CU GND INTEGRAL TO FAN
EF-1MP-14 3/4"2-#12 AWG CU & #12 AWG CU GND 1/30/20/3R
EF-2MP-16 3/4"2-#12 AWG CU & #12 AWG CU GND 1/30/20/3R
FCU-1MP-28,30 3/4"3-#10 AWG CU & #10 AWG CU GND 2/60/40/1
HoodMP-18 3/4"2-#12 AWG CU & #12 AWG CU GND 1/30/20/1
Make Up AirMP-10,12 1"3-#8 AWG CU & #10 AWG CU GND 2/60/50/3R
Walk In Cooler CondensorMP-24,26 3/4"3-#12 AWG CU & #12 AWG CU GND 2/30/15/3R
Walk In Cooler EvaporatorMP-20 3/4"2-#12 AWG CU & #12 AWG CU GND 1/30/20/1
WH-1MP-32 3/4"2-#12 AWG CU & #12 AWG CU GND 1/30/20/1
1. REMOVE EXISTING 200A METER BASE.
2. INSTALL NEW 400AMP SINGLE PHASE SOCKET. NEW SOCKET SHALL
BE FOUR TERMINAL, SINGLE-PHASE LEVER BYPASS SWITCH, LINE
TERMINALS TO HAVE 3/8" COLD-HEADED ZINE-PLATED STEEL STUDS
WITH NUTS AND CAPTIVE BELLEVILLE WASHERS TO ACCOMODATE
VARIOUS TYPES OF LUGS TO 600MCM. INCLUDED WITH THE METER
SHALL BE TWO SETS OF THREE EACH MECHANICAL TWIN LUG
ASSEMBLIES TO ACCEPT LINE CONDUCTOR SIZES TO 350MCM.
A LANDIS & GYR HQ-4S BLOCK OR MILLBANK INTERIOR #911702
INCLUDING INSULATING SHIELD IS ALSO REQUIRED. THE SOCKET
SHALL BE RATED FOR 320A CONTINUOUS USE.
3.REMOVE EXISTING 200A DISCONNECT SWITCH.
4.INSTALL NEW 400AMP 120/240V 1PH 3W NEMA 3R DISCONNECT.
5.DEMOLISH EXISTING CONDUIT AND CABLE AND EXISTING PANEL.
PATCH AND PAINT EXTERIOR WALL AS NECESSARY.
6.INSPECT GROUNDING OF SERVICE AND REPAIR/REPLACE
GROUNDING ELECTRODE CONDUCTOR AS NECESSARY.
GENERAL NOTES
3/4" = 1'-0"2SINGLE LINE DIAGRAM
XX SHEET KEY NOTES
1.THE CONTRACTOR SHALL COORDINATE WITH JEA FOR UPGRADE OF
SERVICE TO 400 AMP.
2.JEA METERS SERVICES 400 AMPS AND BELOW USING SELF-
CONTAINED METERS. ALL SECONDARY METERED SERIVCES
GREATER THAN 200 AMPS AND LESS THAN OR EQUAL TO 400 AMPS
REQUIRE INSTALLATION OF THE 320 AMP METER SOCKET.
3.THE CONTRACTOR SHALL PROVIDE AND INSTALL METER SOCKET,
ENCLOSURE, AND ALL ASSOCIATED METERING ACCESSORIES. ALL
WORK SHALL COMPLY WITH JEA RULES, STANDARDS AND
PROCEDURES.
4.METER SOCKETS SHALL HAVE A LABEL CERTIFYING UL APPROVAL
AFFIXED IN A CONSPICUOUS LOCATION ON THE SOCKET BODY.
SOCKETS SHALL BE RINGLESS UNLESS COMBINED WITH A
DISCONNECT. SOCKETS SHALL BE SUPPLIED WITH FOUR PRESSURE
TYPE JAWS DESIGNED FOR FULL CONTACT WITH BOTH SIDES OF
THE METER BLADES AND PROVISIONS FOR A FIFTH TERMINAL IN
THE 9 O'CLOCK POSITION.
5.THE METER SOCKET/ENCLOSURE SHALL BE PERMANENTLY
IDENTIFIED WITH THE ASSIGNED STREET ADDPRESS PAINTED ON
THE INSIDE AND OUTSIDE WITH A BLACK, OIL BASED ENAMEL.
SURFACES TO BE PAINTED SHALL BE PROPERLY CLEANED
BEFORE PAINTING. ALTERNATE METHODS OF PERMANENTLY
IDENTIFYING METER SOCKETS OR ENCLOSURES SHALL BE
APPROVED BY JEA CUSTOMER FIELD AND METER SERVICES
PRIOR TO INSTALLATION.
No.Description Date
John H. Helberg, P.E.
License #: 59352