XAVIER UNIVERSITY SCHOTT HALL · schott hall was built in 1968. schott hall has eleven (11) stories above grade. the existing structure of the building is reinforced concrete columns,

OHIO

KENTUCKY

75

71

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126126 126

562

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CINCINNATI

471

NORWOOD LATERAL

RONALD REAGAN HIGHWAYRONALD REAGAN HIGHWAY

OFFICE OF PHYSICAL PLANTXAVIER UNIVERSITY

3800 VICTORY PARKWAYCINCINNATI, OH 45207

513-745-2037

DRAWN BY: CHECKED BY:

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COVERSHEET

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SCHOTT HALLELEVATOR MODERNIZATION

1496 DANA AVE CINCINNATI, OH 45207

XAVIER UNIVERSITY

PROJECT LOCATION -SCHOTT HALL LOCATION MAP

VICINITY MAP

G100 COVER SHEET

LS100 LIFE SAFETY

A100 BASEMENT - DEMO & NEWA101 1ST FLR, 2ND FLR, SIGNAGEA111 11TH FLR - DEMO & NEW, FINISH LEGEND

M-100 MECHANICAL DUCTWORKM-601 MECHANICAL DETAILS & SCHEDULESM-701 MECHANICAL ENERGY COMPLIANCEM-801 MECHANICAL SPECIFICATIONSM-802 MECHANICAL SPECIFICATIONS

E-001 ELECTRIC LEGEND AND NOTESE-002 ELECTRIC SCHEDULESE-003 ELECTRIC SPECSED100 ELECTRIC DEMOLITIONEL100 ELECTRIC LIGHTINGEP100 ELECTRIC POWEREP601 ELECTRIC POWER SINGLE LINE DIAGRAM

(PREVIOUS ADDRESS 1511 HERALD AVENUE)

ISSUE FOR BID

DRAWING INDEXBASIS OF DESIGN1. New KONE programmable non-proprietary microprocessor controllers with

precise leveling system.2. New hoistway limit switches and leveling devices3. New car top inspection stations and pit stop switches4. New machine room and hoistway wiring and traveling cables5. New fixtures and signals as follows:

a. Main car stations with position indicators, required fire service features andADA phone

b. Car directional lanternsc. Hall pushbutton stationsd. Combination hall position indicator and directional lantern at 1ST AND 2ND

LEVELS.e. Hoistway access switches (top & bottom)

6. New KONE MX18EcoDisc gearless machines, isolation and required block-upbeams

7. New deflector sheaves in overhead machine room8. New compensation cables for precise car balancing9. Additional counterweights for precise car balancing at 50%10. New hoist ropes and shackles (hitching plates changed out due to increased

number of cables)11. New Hollister Whitney car governors and cables12. New ELSCO roller guides on car and counter weight frames13. New car top handrails14. New door equipment as follows:

a. Closed loop door operators, gate switch and clutch with restrictorb. Interlocks, closers and door drivesc. Car door and hatch door hangers, tracks and headersd. New stainless steel car doorse. New door gibs installed at all floors

15. New electronic infrared door detectors16. Clean and paint existing buffer springs, block-up beams, and pit channels17. New cab interiors complete with laminate panels, three handrails and island down

light ceilings with LED fixtures.18. New hollow metal skins applied to car transoms and hoistway entrance frame.

Provide factory finish powder coat finish in custom color (pearlescent or metallic.)19. New 1 1/8” thick hoistway entrance doors. Provide factory finish powder coat

finish in custom color (pearlescent or metallic.20. New code compliant pit ladders and stop switches21. Hoistway screening so one (1) elevator can remain operational22. Machine room layout23. Alteration permits, inspections and testing24. Increase the shielding for Car top and machine encoders so there is no

interference if necessary.25. Alternate #1

Include inconspicuous riser with PUSHBUTTON CONTROL AT EACH LEVEL.Provide option board at each landing for signal conversion. Program to bypass allother hall calls so the car would arrive empty for more space.

26. Alternate #2 Replace sills. (Base bid: Clean and Polish existing sills)

No. Description Date1 BID DOCUMENTS Jan 2018

1 HR

2 HR

2 H

R

2 HR

2 HR

2 H

R

2 H

R

2 HR

2 HR2 HR 2 HR2 HR

2 H

R

2 HR

2 H

R2

HR

2 H

R2

HR

2 H

R

2 H

R

2 HR2 HR

2 HR

2 H

R

2 H

R

2 HR2 HR

2 HR

2 H

R

1 H

R

2 H

R

2 H

R

2 HR

DN

2 H

R

2 HR

2 HR

2 H

R

2 H

R

2 HR

2 HR

2 H

R

2 HR

2 H

R

2 HR

2 H

R2

HR

1 H

R

2 HR

2 H

R

2 HR

2 HR2

HR

2 H

R

2 HR

2 HR

2 H

R

2 H

R

2 HR

2 HR

2 H

R

2 H

R2 HR

2 HR

2 H

R

2 H

R

2 HR

2 HR

2 H

R

2 H

R

2 HR

2 HR

2 H

R

2 H

R

2 HR

2 HR

2 H

R

2 H

R

2 HR

2 HR

2 H

R

2 H

R

2 HR

2 HR

2 H

R

2 H

R

2 HR

2 HR

2 H

R

2 H

R

2 HR

2 HR

2 H

R

2 H

R

2 HR

2 HR

2 H

R

2 H

R

2 HR

2 HR

2 H

R

2 H

R

2 HR

2 HR

2 H

R

2 H

R

2 HR

2 HR

2 H

R

2 H

R

2 HR

2 HR

2 H

R

UP

2 H

R

2 HR

2 HR

2 H

R

2 HR

2 HR

2 H

R

APPLICABLE CODE:2017 OHIO BUILDING CODEICC A117.1 - 2009

EXISTING CONDITIONS:SCHOTT HALL WAS BUILT IN 1968. SCHOTT HALL HAS ELEVEN (11) STORIES ABOVE GRADE. THEEXISTING STRUCTURE OF THE BUILDING IS REINFORCED CONCRETE COLUMNS, BEAMS ANDFLOOR SLABS. CHAPEL WING EXTERIOR WALLS ARE SOLID MASONRY LOAD BEARING WALLS.

CHANGE OF USE HISTORY:IN 1991 THE BUILDING WAS CHANGED FROM R2 (RESIDENTIAL) TO B (BUSINESS) AND A-3(ASSEMBLY)

PROJECT SCOPE OF WORK:• PASSENGER ELEVATOR MACHINE REPLACEMENT + ELECTRICAL AND MECHANICAL.• DISABLE OLD FREIGHT ELEVATOR• ADD EXTERIOR CONCRETE RAMP TO CREATE ACCESSIBLE EGRESS FROM ALTERNATE

RECALL LEVEL (BASEMENT)• REPLACE INTERIOR FINISHES FOR EACH OF TWO ELEVATOR CABS• RENOVATE EXISTING MACHINE ROOM

NO NEW AREA IS BEING ADDED TO THE BUILDING.

USE AND OCCUPANCY CLASSIFICATION:

USE GROUP: MIXED USEB (BUSINESS)A-3 (ASSEMBLY)

NO CHANGE OF OCCUPANCY

AREA OF MODIFICATIONS:BASEMENT: 66 SF11 TH FLOOR: 238 SFTOTAL: 266 SF

CALCULATION OF OCCUPANT LOAD (OBC 1004.1.1) OTHER= TOILETS AND CORRIDORS:AREA FACTOR OCCUPANT LOAD

BASEMENT: MECH/STOR 2,823 SF /300 GROSS 10OTHER 737 SFTOTAL = 3,559 SF

FIRST FLOOR: BUSINESS 3,200 SF /100 GROSS 32MECH/STOR 2,072 SF /300 GROSS 7OTHER 2,444 SFTOTAL = 7,716 SF

SECOND FLOOR: BUSINESS 4,367 SF /100 GROSS 44ASSEMBLY 1,080 SF /7 NET 155OTHER 2,089 SFTOTAL = 7,742 SF

THIRD FLOOR:BUSINESS 3,008 SF /100 GROSS 31OTHER 1,508 SFTOTAL = 4,516 SF

FOURTH FLOOR:BUSINESS 3,008 SF /100 GROSS 31OTHER 1,508 SFTOTAL = 4,516 SF

FIFTH FLOOR:BUSINESS 2,913 SF /100 GROSS 30OTHER 1.603 SFTOTAL = 4,516 SF

SIXTH FLOOR:BUSINESS 2,859 SF /100 GROSS 29OTHER 1,657 SFTOTAL = 4,516 SF

SEVENTH FLOOR:BUSINESS 2,859 SF /100 GROSS 29OTHER 1,657 SFTOTAL = 4,516 SF

EIGHTH FLOOR:BUSINESS 2,912 SF /100 GROSS 30OTHER 1,604 SFTOTAL = 4,516 SF

NINTH FLOOR:BUSINESS 2,961 SF /100 GROSS 30OTHER 1,555 SFTOTAL = 4,516 SF

TENTH FLOOR:ASSEMBLY 1,259 SF POSTED 49MECH/STOR 356 SFOTHER 1,388 SFTOTAL = 3,003 SF

ELEVENTH FLOOR:MECH/STOR 1,503 SF /300 GROSS 6OTHER 194 SFTOTAL = 1,697 SF

TOTAL AREA: 55,316 SF TOTAL OCCUP. 513

CONSTRUCTION TYPE (OBC TABLE 503):1BTOTAL BUILDING FOOTPRINT: 8,185 SF (SECOND FLOOR)

BUILDING HEIGHT (OBC 503):ALLOWABLE HEIGHT: 11 STORIES, 160'-0"ACTUAL HEIGHT: 11 STORIES, 131'-0"ALLOWABLE AREA: UNLIMITED

RATED CONSTRUCTION ASSEMBLIES (OBC 601):DESCRIPTION RATING EXISTINGSTRUCTURAL FRAME: 2 EXISTINGBEARING WALLS:

EXTERIOR: 2 EXISTINGINTERIOR: 2 EXISTING

NONBEARING WALLS AND PARTITIONS:EXTERIOR: 0 EXISTINGINTERIOR: AS PER SECTION 602

FLOOR CONSTRUCTION INCLUDING SUPPORTING BEAMS AND JOIST: 2 EXISTINGROOF CONSTRUCTION INCLUDING SUPPORTING BEAMS AND JOISTS: 1 EXISTING

FINISH REQUIREMENTS (OBC 803.9)

INTERIOR WALL AND CEILING:EXIT ENCLOSURES, EXIT PASSAGEWAYS CLASS BCORRIDORS CLASS BROOMS & ENCLOSED SPACES CLASS C

INTERIOR FLOOR:EXIT ENCLOSURES, EXIT PASSAGEWAYS CLASS IICORRIDORS CLASS IIALL FLOOR FINISHES DOCFF-1 "PILL TEST"

FIRE PROTECTION (OBC 903.2):BUILDING IS EQUIPPED THROUGHOUT WITH AN AUTOMATIC FIRE PROTECTION SYSTEM. FIREALARM AND DETECTION SYSTEMS HAS BE PROVIDED IN ACCORDANCE WITH OBC SECTION 907.SPRINKLER DISTRIBUTION DESIGN, FIRE ALARM/DETECTION DESIGN, AND INSTALLATION TO BEPROVIDED BY GENERAL CONTRACTOR ON A DESIGN BUILD BASIS. SPRINKLER DISTRIBUTION ANDFIRE ALARM/DETECTION WORK SHALL BE SUBMITTED SEPARATELY FOR REVIEW AND ISSUANCEOF A PERMIT

CODE SUMMARY

LIFE SAFETY DRAWING LEGENDVERTICAL SHAFT

FIRE EXTINGUISHER

EXIT SIGN

1 HOUR FIRE RATED WALLS

2 HOUR FIRE RATED WALLS

2823 SFMECH/STOR

LOADINGDOCK

LOADINGDOCK

737 SFOTHER

AREA WELL

AREA OF WORKAREA OF WORK

AREA OF WORK

413 SFBUSINESS 308 SF

BUSINESS423 SF

BUSINESS

279 SFBUSINESS

RESTRM

118-U

OFFICE

101

OFFICE

102OFFICE

103

STAIR D

S104OFFICE

105OFFICE

106OFFICE

107OFFICE

108OFFICE

109OFFICE

110AOFFICE

110B

WOMEN

100GMEN

100F

OFFICE

112RECEPTION

111

FIRE COMMANDCENTER

116OFFICE

117OFFICE

118OFFICE

120

MECH

121

BREAK

120ELEC

125

ELEV

-

CORRIDOR

100A

CORR

100E

FINANCIAL AID

101

CORR

100B

CLST

107A

CLST

103A

ELECTRICAL

124

ENTRANCE

100ELEV LOBBY

119

ELEV1

E101

CUSTODIAL

123

VENDING

118

OFFICE

110COFFICE

110DOFFICE

110E

CONFERENCE

119

STORAGE

119BSTAIR A

S101STAIR B

S102

AREA WELL

STORAGE

122

MAIL

121

AREA OF WORK

AREA OF WORK

1092 SFBUSINESS

309 SFBUSINESS

1281 SFASSEMBLY

948 SFOTHER

OFFICE

205OFFICE

204

OFFICE

203

OFFICE

200B

ELEV

-

ENTRY

200

WAITING

200A

ELEV

E201STAIR B

S202RESTRM

200-U

WOMEN

200J

OFFICE

204OFFICE

206OFFICE

208OFFICE

210

STAIR C

S203

OFFICE

211OFFICE

209OFFICE

207AOFFICE

207BOFFICE

205

PRESENTATIONROOM

212

MENS

200K

ELEV

E200

ENTRY

9

OFFICE

203B

OFFICE

203A

OFFICE

200C

CORRIDOR

200G

AREA OF WORK

STAIR A

S201

AREA OF WORK

3008 SFBUSINESS

1321 SFOTHER

92 SFOTHER

95 SFOTHER

OFFICE

3053

OFFICE

3063

OFFICE

3072

OFFICE

3084

OFFICE

3094

OFFICE

3102

OFFICE

3122

OFFICE

3143

OFFICE

3033

OFFICE

3043

TLT

3010ELEC

302B0

JAN

302A0

TLT

303A

TLT

304A

TLT

305ATLT

306ATLT

306A

TLT

308A

TLT

309A

OFFICE

311OFFICE

313

TLT

314A

STAIR A

S300STAIR B

S301ELEV2

E301

AREA OF WORK

OFFICE

4053

OFFICE

4063

OFFICE

4073

OFFICE

4083

OFFICE

4093

OFFICE

4103

OFFICE

4113

OFFICE

4123

OFFICE

4033

OFFICE

4043

TLT

401ELEC402B

JAN

402ATLT

403A

TLT

404A

TLT

405ATLT

406ATLT

407A

TLT

408A

TLT

409A

TLT

410ATLT

411ATLT

412A

STAIR B

S401STAIR A

S400ELEV2

E401

3008 SFBUSINESS

1321 SFOTHER

95 SFOTHER

92 SFOTHER

CORRIDOR

400

AREA OF WORK

OFFICE

5033

OFFICE

5043

OFFICE

5053

OFFICE

5063

OFFICE

5073

OFFICE

5083

OFFICE

5093

OFFICE

5103

OFFICE

5113

OFFICE

5123

TLT

5010

JAN

502A0

STAIR B

S601STAIR A

S600

TLT

503A

TLT

504A

TLT

505ATLT

506ATLT

507A

TLT

508A

TLT

509A

TLT

510A

TLT

511A

TLT

512A

CORRIDOR

500

2913 SFBUSINESS

1416 SFOTHER

92 SFOTHER

95 SFOTHER ELEV2

E501 ELEC502B

AREA OF WORK

2859 SFBUSINESS

1470 SFOTHER

92 SFOTHER

95 SFOTHER

OFFICE

6053

OFFICE

6063

OFFICE

6043

OFFICE

603

OFFICE

6073

OFFICE

6083

OFFICE

6093

OFFICE

6103

OFFICE

611OFFICE

6123

OFFICE

610A3

TLT

6010

ELEC

602B0

JAN602A

CORRIDOR

6000

TLT

603A

TLT

604A

TLT

605ATLT

606ATLT

607A

TLT

608A

TLT

609A

TLT

610B

TLT

611A

TLT

612A

STAIR B

S601STAIR A

S600ELEV2

E601

CORRIDOR

600A

AREA OF WORK

OFFICE

7033

OFFICE

7043

OFFICE

7053

OFFICE

7063

OFFICE

7093

OFFICE

7103

TLT

701

JAN

702B

ELEC

702A

STAIR A

S700STAIR B

S701ELEV2

S701

TLT

704A

TLT

705ATLT

706ATLT

707A

TLT

708A

TLT

709A

TLT

711A

CORRIDOR

700

2859 SFBUSINESS

1470 SFOTHER

92 SFOTHER

95 SFOTHER

TLT

703A

OFFICE

712

TLT

712ATLT

710A

OFFICE

711

OFFICE

708

OFFICE

709B

OFFICE

707

AREA OF WORK

2912 SFBUSINESS

1417 SFOTHER

92 SFOTHER

95 SFOTHER

OFFICE

8033

OFFICE

8043

OFFICE

8053

OFFICE

8063

OFFICE

8073

OFFICE

8083

OFFICE

809

OFFICE

8103

OFFICE

8113

OFFICE

8123

TLT

8010

ELEC

802B

JAN

802A0

STAIR B

S801STAIR A

S800ELEV2

E801TLT

803A

TLT

804A

TLT

805ATLT

806ATLT

807A

TLT

808A

TLT

809A

TLT

810A

TLT

811A

TLT

812A

CORRIDOR

800

AREA OF WORK

2961 SFBUSINESS

1368 SFOTHER

92 SFOTHER

95 SFOTHER TLT

9010

JAN

902A0

OFFICE

9033

OFFICE

9043

OFFICE

9053

OFFICE

9063

OFFICE

9073

OFFICE

9083

OFFICE

9093

OFFICE

9103

OFFICE

9113

OFFICE

9123

CORRIDOR

9000STAIR A

S900STAIR B

S901ELEV2

E901TLT

903A

TLT

904A

TLT

905ATLT

907B

TLT

908A

TLT

909A

TLT

910A

TLT

911A

TLT

912A

OFFICE

907A3

ELEC

902B

AREA OF WORK

1388 SFOTHER

1259 SFASSEMBLY

MEETING

1010170

MEETING

10012

MENS

10050

WOMENS

10060

STAIR B

S1101STAIR A

S1100

JAN

10010

ELEC

10020

CORRIDOR

10040

CORRIDOR

10030

ELEV2

E1101ROOFROOF

356 SFMECH/STOR

AREA OF WORK

ROOF

1265 SFMECH/STOR

194 SFOTHER

238 SFELEV MACHINE

AREA OF WORK



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LIFESAFETY

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1/16" = 1'-0"LS1001 LEVEL 0

1/16" = 1'-0"LS1002 LEVEL 1

1/16" = 1'-0"LS1003 LEVEL 2

1/16" = 1'-0"LS1004 LEVEL 3

1/16" = 1'-0"LS1005 LEVEL 4

1/16" = 1'-0"LS1006 LEVEL 5

1/16" = 1'-0"LS1007 Level 6

1/16" = 1'-0"LS1008 Level 7

1/16" = 1'-0"LS1009 Level 8

1/16" = 1'-0"LS10010 Level 9

1/16" = 1'-0"LS10011 Level 10

1/16" = 1'-0"LS10012 Level 11


L

M N

O

P

Q

1

2

3

4

5

RETROFIT EXISTING GATE.CHANGE HAND FROM LEFT TORIGHT

A1004

3' -

0"

6A111

A100

5

CORRIDOR002

PROVIDE TWO NEW CODECOMPLIANT PIT LADDERSWITH HANDRAIL TO HEIGHTOF AT LEAST 48" ABOVE THEBASEMENT LEVEL FINISHEDFLOOR

J

L K

L

M N

O

P

Q

1

2

3

4

5

EXISTING CONCRETE CURB

EXISTINGEMERGENCYGENERATOR

EXISTING CHAINLINK ENCLOSURE

REMOVE EXISTINGCONCRETE SLAB AS NEEDED.SEE NEW PLAN BELOW

LEVEL 0-9' - 6 5/8"

GRADE-10' - 1 3/8"BOT/ GRADE BEAM

-11' - 7 3/8"

1' -

6"

1' - 0"1' - 0"

NEW CONCRETE LANDING W/ RAMP:WELDED WIRE FABRIC (6x6 W2.9 x W2.9)AND LIGHT BROOM FINISH

ALIGN NEW EXTERIOR LANDING W/EXISTING SLAB AT DOOR.

SLOPE 1:12 MAX

COMPACTED ENGINEERED FILL

COMPACTED SUBGRADE

8"

6"

EXISTING CONCRETE SLAB.

+/-

6 3/

4"

A1006

3' -

0"

3A100

V.I.F.7' - 9"7' - 4 1/2"

4' -

6"

EDGE OF RAMP

EDGE OF NEW HANDRAIL

2' - 0"

NEW CONCRETE LANDING

NEW 1/2" EXPANSIONJOINT BTWN EXIST ANDNEW

3"

LEVEL 0-9' - 6 5/8"

GRADE-10' - 1 3/8"

3' -

0"

1' - 0"

4"

NOTE: ALL RAILINGS SHALL BE 1 1/2" DIA. PIPE STEEL.

12" DOWELS @ 12" SPACING

NEW CONCRETE SLAB ONEXISTING CONCRETE SLAB

NEW CONCRETESLAB ON NEW FILL

3/8" CONTROL JOINT (TOOLED)

NEW CONCRETE SLABSSHALL HAVE WELDED WIREFABRIC (6x6 W2.9 x W2.9)AND LIGHT BROOM FINISH



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A100

BASEMENT -DEMO &

NEW

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1/8" = 1'-0"A1001 Level 0 New

1/8" = 1'-0"A1002 Level 0 Demo

1/4" = 1'-0"A1003 SECTION THRU NEW RAMP

1/4" = 1'-0"A1004 NEW RAMP/ PLAN

1/4" = 1'-0"A1005 NEW RAMP HANDRAIL

1" = 1'-0"A1006 RAMP JOINT DETAIL


3/4" TACTILE LETTERS

8"

ELEVATORMACHINE1101

3/4" TACTILELETTERS

BRAILLE

1/2"

BOTTOM OFTACTILE

8"

8"

3/8"

6"

D

K

5' -

0"

TO T

OP

OF

SIG

N

PROVIDE ONE PER FLOOR

9 1/2"

1' -

0"

5/8" HT BLACKLETTERING

WHEELCHAIRUSE ONLY

3"

WHITEBACKGROUND

HADA PUSHBUTTON SIGN:PROVIDE ONE PER FLOOR

ALTERNATE #1

70" M

AX.

BASELINE OFCHARACTER

NEW HOISTWAY SIGNAGE ONINSIDE OF ELEVATOR DOOR JAMB

1

5' -

0"

NOTES

A. FLOOR DESIGNATION SHALL BE ON BOTHJAMBS OF THE ELEVATOR ENTRANCE.

B. FLOOR DESIGNATIONS SHALL BEPROVIDED IN BOTH TACTILE CHARACTERS ANDBRAILLE.

C. TACTILE CHARACTERS SHALL BE 2 INCHES(51 MM) HIGH MINIMUM.

D. TACTILE STAR SHALL BE PROVIDED ONBOTH JAMBS AT THE MAIN ENTRY LEVEL.

2"

TACTILE STAR AT 2ND (MAIN) FLOOR

SEE

ELEV

ATIO

N 2

/A10

1FO

R M

OU

NTI

NG

HT

11 3

/8"

9 1/8"

1/2" FROSTEDBORDER

8.5" X 11"INSERT

BY OWNER

QCLEAR ACRYLIC INSERT HOLDER

8"

N

ASSISTIVELISTENING SYSTEM

AVAILABLEAT FRONT DESK

5/8"

6"

PICTOGRAM FIELD

3/8"

10"

1/4"

MOUNT AT 1/4"ABOVETOP EDGE OFEXISTING SIGN'WAITING ROOM 201'

5' -

0"

TO T

OP

OF

SIG

N

11 3/8"

9 1/

8"

1/2" FROSTEDBORDER

8.5" X 11"EVAC MAP

(OR OTHER INSERT)BY OWNER

LCLEAR ACRYLIC INSERT HOLDER

NOTE: PROVIDE SAMESIZE SILVER VINYLDECAL TO CONCEALBACK SIDE OF SIGN

EXITLOCATION OFBRAILLE

TACTILE LETTERS

8" 3"

5' -

0"

TO T

OP

OF

SIG

N

1 1/

2"

5"3/

8"3/

8"

EDGE OF DOOR

9" MINIMUM TOCENTERLINE OF TACTILECHARACTERS IF DOORSWINGS TOWARDVIEWER (TYPICAL)

J

9"

M N PQ

1

2

3

RESTRM118-U

FIRECOMMAND

CENTER116

OFFICE117

OFFICE118

OFFICE120

MAIL121

STAIR BS102BREAK

120ELEC125

ELEV-

CORRIDOR100A

FINANCIALAID101

CORR100B

ELECTRICAL124

ENTRANCE100

CLST111A

ELEV LOBBY119

ELEV1E101 CUSTODIAL

123

VENDING118

STORAGE122

CONFERENCE119

REF

STAIR AS101

1

5

6A111

SECURE EXISTINGELEVATOR DOOR FROMINSIDE SO IT CANNOT BEOPENED.

A101

2

M N PQ

1

2

3

OFFICE205

OFFICE204

OFFICE203

ELEV-

ELEVE201LVT-1

PLAM-1RB-1

STAIR BS202RESTRM

200-UELEVE200LVT-1

PLAM-1RB-1

OFFICE203A

OFFICE203B

CORRIDOR200G

CORR200D

CLST200F

STAIR AS201

6A111

AT ELEVATOR CABFLOORS: PROVIDE NEWUNDERLAYMENT IFNEEDED.

K

SIGN 'K' TYPICALAT EACH FLOOR.SEE 6/A111

LEVEL 10"

SIGN TYPEORIENT VERTICALLYPROVIDE BLANK FOROTHER SIDE OF GLASS

FINANCIALAID

101

Q

3"

ALIGNC.L. OFSIGNS

EXISTING GLASSSTOREFRONT

EXISTINGSIGN



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/201

8 12

:13:

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1ST FLR,2ND FLR,SIGNAGE

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RB -

1/2" = 1'-0"A1011

ELEVATOR / FLOORDESIGNATION SIGNAGE

3" = 1'-0"A1013 SIGN TYPES

1/8" = 1'-0"A1015 Level 1 New

1/8" = 1'-0"A1016 LEVEL 2

SECURE EXISTINGELEVATOR DOORFROM INSIDE SOIT CANNOT BEOPENED.

1/4" = 1'-0"A1012 FINANCIAL AID ENTRANCE ELEV


UP

UP

UP

M N

O

P

ROOF

REMOVE EXISTINGDRYWALLPARTITION

EXISTINGCONCRETE STAIRTO REMAIN

EXISTINGCONCRETE WALLSTO REMAIN

REMOVECHAINLINK &SLIDING GATE

RAISED PAINTEDCONCRETE SLAB(TOP OF ELEVATORSHAFT) TO REMAIN

M N

O

P

ROOF

1101

MECH1100

ELEVMACHINE RM

1101PT-1RB-1PT-2

F-2F-2

F-2

F-2

ALIGN NEWWALL W/EXISTINGCONCRETE WALL

ALIGNPARTITION W/EDGE OFRAISED SLAB

6A111

A111

4 A1115

5' - 0"

ALIGN FACEOF CMUPATCHES W/FACE OFADJACENTCONCRETE

D

A. ALL ELEMENTS SHOWN DASHED ARE TO BE DEMOLISHED.B. COORDINATE ALL WORK WITH MECHANICAL, ELECTRICAL AND

PLUMBING DRAWINGS.C. IF CONTRACTOR SHOULD DISCOVER ANY UNFORESEEN

PROBLEMS DURING THE REMOVAL OF ANY EXISTINGCONSTRUCTION OR THE CONSTRUCTION OF ANY NEW WORK,THE ARCHITECT SHOULD BE NOTIFIED IMMEDIATELY AND THATPARTICULAR WORK SHOULD BE DISCONTINUED UNTILNECESSARY REVISIONS CAN BE DECIDED UPON.

D. DEMO EXISTING FLOORING FINISHES AND WALL BASE INPREPARATION FOR NEW FINISHES. SEE FINISH SCHEDULEFOR LOCATIONS AND TYPES OF NEW FINISHES.

E. ALL FURNITURE AND EQUIPMENT IN DEMOLISHED SPACES TOBE RETURNED TO OWNER PRIOR TO DEMOLITION, UNLESSOTHERWISE NOTED.

F. PROTECT EXISTING FLOORING TO REMAIN DURINGCONSTRUCTION.

GENERAL DEMO FLOOR PLAN NOTES

A. ITEMS TAGGED OR NOTED ARE NEW UNLESS NOTED 'EXISTING.'B. IN ROOMS RECEIVING NEW PAINT, PAINT ALL WALLS, HM TRIM AND

GYP CEILING & SOFFITS PER FINISH SCHEDULE.C. PROVIDE FIRESTOPPING AT ALL NEW MECHANICAL AND ELECTRICAL

THROUGH PENETRATIONS.

GENERAL NEW FLOOR PLAN NOTES

3 5/8" METAL STUDS 20 GAUGEMIN.16" O.C.

5/8" TYPE 'X' GYPSUM BOARDEACH SIDE

DEEP LEG DEFLECTION TRACK

CONCRETE STRUCTURE ABOVE

1/2" MAX GAP W/ DRYWALLTRIM AND ACOUSTICALSEALANT EACH SIDE.

1/2" MAX GAP W/ DRYWALLTRIM AND ACOUSTICALSEALANT EACH SIDE.

RUBBER BASE, 4"H,ROPPE PINNACLE TSCOLOR: 193 BLACKBROWN

VARIES

INSIDE ROOM

F - FLUSHTYPE F1

SCHEDULESEE

SEE

SCH

EDU

LE

N

7' -

4"

NEW 2 HR FIRE RATED GYPBRD PARTITION BEYOND

NEW GUARDRAIL

NEW HANDRAIL

1' - 0" SLOPED EXTENSION3' -

6"

3' -

0"

TOP OF NOSING

TOP OF HANDRAIL

EQ.

EQ.

< TH

AN 3

0"2'

- 1"

CUT EXISTING PROTRUDING BOLTSO FLUSH W/ BOTTOM OF BEAM

EXIST. CONC SLAB

BOTTOM OFEXISTINGCONCRETEROOF DECK

LEVEL 11105' - 1"

MECH RM ROOF117' - 1"

GUARDRAIL

BTW

N H

AND

RA

ILS

5' -

0"HANDRAILS

GUARDRAIL

1' - 10"

NOTE: SECURE NEW RAILINGS TO EXISTING SLAB AND STAIR.PATCH ALL EXISTING HOLES AND HOLES DUE TO NEW DEMO INCONCRETE STAIR AND LANDING.

7' - 3"

PT-1

PT-1

LEVEL 10"

LEVEL 29' - 6 5/8"

LEVEL 0-9' - 6 5/8"

LEVEL 326' - 2 5/8"

LEVEL 435' - 9 1/4"

LEVEL 545' - 3 7/8"

LEVEL 11105' - 1"

LEVEL 654' - 10 1/2"

LEVEL 764' - 5 1/8"

LEVEL 873' - 11 3/4"

LEVEL 983' - 6 3/8"

LEVEL 1093' - 1"

Elevator Pit-14' - 6 1/8"

NOTE: FIELD VERIFY LEVEL HTS

MECH RM ROOF117' - 1"

PRIMARYLEVELOFRECALL

ALTERNATELEVEL OFRECALL

REMOVE INTERIOR PORTION OF (4)EXISTING LOUVERS. PATCH WITHONE WYTHE 4" DEEP HOLLOWCONCRETE MASONRY UNITS.PROVIDE SEALANT JOINT AT TOPAND SIDES OF INFILL. FIELD VERIFYALL DIMENSIONS

2' - 0"

2' - 7" 3' - 4"

1' -

11"

1' -

10"

5' - 6"

4' -

11 1

/2"

2' -

6"

ALTERNATE #1:ADA PUSHBUTTON & SIGNTYP. EACH FLR

TYP.

4' -

0"

C.L. OF HIGHEST PUSH-BUTTON.TYPICAL EACH FLOOR

EXIS

TIN

G F

RAM

ESN

EW D

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CLA

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OVE

R E

XIST

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FR

AMES

NEW

DO

OR

SEX

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ESN

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ROOM101FloorBaseWall

FINISH LEGENDFLOORING TRANSITION. PROVIDE TRANSITION STRIPBETWEEN DISSIMILAR MATERIALS

FLOORING PATTERN DIRECTION

ROOM TAG FINISH DESIGNATIONS

- FINISH SYMBOL

A ROOM SIGN TYPE, SEE A101

FINISH LEGENDLUXURY VINYL TILE (LVT)

LVT-1 (FOR ELEVATOR CAB FLOORS)MANUFACTURER: MANNINGTON COMMERCIALSTYLE: AMTICO SIGNATURECOLOR: AROW7000 CHERRYLAYOUT: MATCH EXISTING ADJACENTLOCATION: SEE PLAN

PLASTIC LAMINATE (PLAM)PLAM-1 (FOR ELEVATOR CAB WALLS)MANUFACTURER: FORMICASTYLE: MATTE FINISHCOLOR: WHITE TWILL

PAINTS (PT)*FOLLOW ALL MANUFACTURERS SUGGESTED GUIDELINES

PT-1(FLOOR PAINT)MANUFACTURER: SHERWIN WILLIAMSCOLOR: MATCH EXISTING GRAYFINISH: SATIN

PT-2(CONCRETE CEILINGS & BEAMS IN MACHINE ROOM)MANUFACTURER: SHERWIN WILLIAMSCOLOR: PURE WHITEFINISH: SATIN

PT-3(FOR NEW INTERIOR HOLLOW METAL DOOR & FRAME, ALL NEW RAILINGS)MANUFACTURER: SHERWIN WILLIAMSCOLOR: 7015 REPOSE GRAYFINISH: SEMI-GLOSS

PT-4 BY ELEVATOR MFR(FOR NEW HOISTWAY DOORS ANDNEW HOISTWAY FRAME CLADDING ON LEVELS 1&2)FACTORY POWDERCOATMETALLIC/PEARLESCENT CUSTOM COLOR.

PT-5 BY ELEVATOR MFR(EXISTING HOISTWAY FRAMES ON LEVEL 0,LEVELS 3-10 )ELECTROSTATIC FIELD FINISH TO MATCH PT-4 FACTORY POWDERCOATMETALLIC/PEARLESCENT CUSTOM COLOR.

PAINT PREPARATION1. Surface must be sound, clean, dry and free from looseand peeling paint, wax, polish, dirt, grease, mildew and othersurface contaminants. Sand and remove debris from allglossy, rough or patched surfaces.2. Schedule cleaning and painting so that dust and othercontaminants from the cleaning process will not fall on wet,newly painted surfaces.

CAULK AROUNDFRAME, ALL SIDES

PROTECT EXISTINGWALLCOVERING

1/2" RETURN TO WALL

FIELD VERIFY PROFILEAND EXISTINGDIMENSIONS

NEW ST ST CLADDING:HOLD TIGHT AGAINSTEXISTING FRAME &TRANSOM EXCEPT ATRETURN TO WALL. NOEXPOSED FASTENERS

At exposed connections,finish exposed welds tocomply with NOMMA's"Voluntary Joint FinishStandards" for Type 1 welds;no evidence of a welded joint.

VARIES. VERIFY IN FIELD1' - 3 1/4"

WID

TH T

O C

ON

CEA

L EX

ISTI

NG

FR

AME

SEE PLAN FORPARTITION TYPE

CAULK AROUNDFRAME, EACH SIDE

NEW HOLLOW METALFRAME

20 GAUGE STEELRUNNER @ HEAD /DOUBLE STUD @ JAMB

VIFVARIES

2"

1/2" 1/2"

5/8"

MIN

.1/

2"



513-745-2037


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/201

8 1:

09:1

9 PM

C:\U

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11TH FLR -DEMO &

NEW,FINISH

LEGEND

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RB -

1/8" = 1'-0"A1111 Level 11 Demo

1/8" = 1'-0"A1112 Level 11 New

DOOR SCHEDULE

DoorNumber

DOOR

Door Material

DOOR FRAME

ThroatHardware

SetFIRE

RATINGWidth HeightDoorType Thickness

FrameType

HeadDetail

JambDetail

1101 3' - 6" 6' - 8" F HM 1 3/4" F1 1 1 6 1/8" VIF 01 1 1/2 HR

3" = 1'-0"A1113

PARTITION TYPE F2 - UL #U419 -2 HR FIRE RATED

1/4" = 1'-0"DOOR TYPES

1/4" = 1'-0"FRAME TYPES

1/4" = 1'-0"A1114

MACHINE ROOM SIDEELEVATION

1/4" = 1'-0"A1115 ENLARGED PLAN

SAVE AND REUSEEXISTING FIREEXTINGUISHER

1/8" = 1'-0"A1116 ELEVATOR CONTROLS AND PIT

3" = 1'-0"A1117

EXISTING ELEVATOR FRAMECLADDING / FLRS 1 & 2


PT-5

PT-4

PT-4

PT-5

PT-4

PT-4

TYPICAL AT LEVELS 1&2

TYPICALATLEVELS 0,3-10

3" = 1'-0"A1118 DOOR HEAD/JAMB (1)

ELECTRIC DESIGN CRITERIA

APPLICABLE BUILDING CODES

2013 (STATE) BUILDING CODE (BASED ON THE INTERNATIONAL BUILDING CODE)2014 NFPA 70 - NATIONAL ELECTRICAL CODE2010 NFPA 72 - NATIONAL FIRE ALARM AND SIGNALING CODE2012 INTERNATIONAL ENERGY CONSERVATION CODE (IECC)

EXISTING CONDITIONS NOTES

A. CONDUCTOR TRACING: PRIOR TO COMMENCEMENT OF WORK, TRACE ALL FEEDERS ANDBRANCH CIRCUITS WITHIN THE PROJECT AREA, AND AFFECTED BY THE PROJECT, ANDDOCUMENT THE RESULTS. DETERMINE AND DOCUMENT EXISTING LOADS FOR ALL CIRCUITS ANDFEEDERS WITH LOADS THAT WILL REMAIN. CREATE CURRENT AS-BUILT DIRECTORIES FOR ALLPOWER DISTRIBUTION EQUIPMENT. LIKEWISE, DETERMINE AND DOCUMENT ROUTING ANDSPECIFICS FOR ALL RELEVANT EXISTING CONDUITS AND PATHWAYS FOR ALL SYSTEMS. SUBMITTHIS INFORMATION TO OWNER AND DESIGN PROFESSIONALS AS INFORMATIONAL SUBMITTALS.

B. ADDED LOADS TO EXISTING CIRCUITS: IN CASES WHERE NEW LOADS ARE INDICATED TO BECONNECTED TO EXISTING CIRCUITS WITH EXISTING LOADS, CHECK RESULTANT LOAD INADVANCE TO ENSURE COLLECTIVE LOAD DOES NOT EXCEED 80 PERCENT OF THE SOURCECIRCUIT BREAKER AMPERE RATING. IF THAT LOAD IS EXCEEDED, PROVIDE ADDITIONAL CIRCUITHOME-RUN WORK TO SOURCE PANELBOARD(S) AS REQUIRED TO ACCOMMODATE THE ENTIRERESULTANT LOAD. DETERMINE ALL APPLICABLE CONDITIONS IN FIELD PRIOR TOCOMMENCEMENT OF WORK.

C. REASSIGNMENT OF EXISTING CIRCUITS: IN CASES WHERE EXISTING CIRCUITS ARE REUSED(BASED ON INFORMATION SHOWN ON DRAWINGS OR BASED ON FIELD CONDITIONS) BUT MUSTBE CONNECTED TO BREAKERS OTHER THAN THEIR ORIGINAL BREAKER, MODIFY COLOR-CODINGAS REQUIRED IF THE NEW BREAKER ASSIGNMENT IS CONNECTED TO A DIFFERENT LINE/PHASETHAN THE ORIGINAL ONE. USE MEANS AND METHODS COMPLIANT WITH NFPA 70 AND WITHAUTHORITIES HAVING JURISDICTION.

D. BREAKERS ADDED TO EXISTING PANELS: PROVIDE NEW BRANCH CIRCUIT BREAKERS, TO MATCHEXISTING IN MANUFACTURER, MODEL AND SCCR/AIC RATING, AS REQUIRED TO RENDER ALL NEWAND MODIFIED ELECTRICAL WORK FULLY OPERATIONAL.

E. POWER CONTINUITY: PROTECT EXISTING ELECTRICAL WORK SERVING EXISTING SPACES ANDEQUIPMENT THAT MUST REMAIN OPERATIONAL DURING PART OR ALL OF THE CONSTRUCTIONPERIOD, AND ENSURE POWER CONTINUITY IS MAINTAINED FOR SAME THROUGHOUT DURATIONOF CONSTRUCTION ACTIVITIES. SEE SPECIFICATIONS FOR FURTHER INFORMATION.

GENERAL ELECTRICAL INSTALLATION NOTES

A. EXTERIOR ELECTRICAL WORK AND WORK SUBJECT TO MOISTURE: EXTERIOR ELECTRICAL WORKSHALL BE WEATHERPROOF AND WATER-TIGHT, AND SHALL BE RUST-RESISTANT. PROVIDE XHHW-2 CONDUCTORS FOR ALL APPLICATIONS THAT ARE BELOW GRADE OR SUBJECT TO MOISTURE.PROVIDE MINIMUM NEMA 3R ENCLOSURES FOR ALL OUTDOOR EQUIPMENT AND ALL INDOOREQUIPMENT THAT IS SUBJECT TO MOISTURE. PROVIDE NEMA 1 ENCLOSURES FOR ALL OTHERINDOOR EQUIPMENT.

B. EQUIPMENT GROUNDING CONDUCTORS: PROVIDE EQUIPMENT GROUNDING CONDUCTORS INSTRICT COMPLIANCE WITH THE LATEST ADOPTED EDITION OF THE NATIONAL ELECTRICAL CODE(NFPA 70), INCLUDING ARTICLE 250 AND TABLE 250.122. THESE CONDUCTORS MAY OR MAY NOT BEINDICATED ON SINGLE-LINE DIAGRAMS OR ELSEWHERE, BUT SHALL BE PROVIDED UNDER BASE BIDNEVERTHELESS.

C. LOCATIONS AND ROUTING: LOCATIONS AND ROUTING INDICATED ON PLANS ARE SCHEMATIC ANDDIAGRAMMATIC IN NATURE. LAYOUT AND INSTALL ALL ELECTRICAL WORK IN STRICT COMPLIANCEWITH CHAPTER 1, PART II, ARTICLE 110.26 OF THE LATEST ADOPTED EDITION OF THE NATIONALELECTRICAL CODE (NFPA 70).

D. OVERHEAD WORK: HOLD ALL NEW OVERHEAD ELECTRICAL WORK AS TIGHTLY AS POSSIBLE TOTHE BOTTOM OF THE OVERHEAD STRUCTURE. DO NOT INSTALL ANY ELECTRICAL WORK WITHINSIX INCHES OF ROOF DECKING.

E. COORDINATION DRAWINGS: LAYOUT ALL PROPOSED RACEWAY ROUTING, ELEVATIONS,INSTALLATION METHODS, ETC. ON COORDINATION DRAWINGS AND COORDINATE ALL PROPOSEDRACEWAY ROUTING WITH ALL AFFECTED TRADES PRIOR TO COMMENCING WITH WORK. INADDITION, REVIEW THE INFORMATION WITH ARCHITECT, ENGINEER AND OWNER FOR ALL AREASWHERE THE RACEWAYS WILL BE VISIBLE AFTER COMPLETION OF CONSTRUCTION.

F. EQUIPMENT & LOAD COORDINATION: REFER TO AND COORDINATE WITH POWER FLOOR PLANS,EQUIPMENT SCHEDULES (INCLUDING EQUIPMENT COORDINATION SCHEDULES), DRAWINGS OF ALLTRADES, ALL DIVISIONS AND SECTIONS OF SPECIFICATIONS AND INSTALLERS OF ALL TRADES.BASED ON ACTUAL EQUIPMENT BEING PROVIDED, DETERMINE AND PROVIDE APPROPRIATEBREAKERS, FUSES, CONDUCTORS, CONTROLS, POWER DISTRIBUTION EQUIPMENT, ETC.PERFORM THESE SERVICES PRIOR TO FURNISHING POWER DISTRIBUTION EQUIPMENTSUBMITTALS.

G. JUNCTION AND PULL BOXES: LOCATE JUNCTION AND PULL BOXES SO THAT THEY REMAINACCESSIBLE AFTER ALL CONSTRUCTION WORK IS COMPLETE. COORDINATE ALL WORK WITH ALLOTHER TRADES PRIOR TO COMMENCEMENT OF THE WORK. LOCATE BOXES IN A MANNER THATAVOIDS HAVING TO USE ACCESS PANELS. IF ACCESS PANELS ARE INEVITABLE, PROVIDE THEMRATED TO MEET OR EXCEED THE FIRE AND/OR SMOKE RATINGS OF THE RESPECTIVE CEILING ORWALL, AND OBTAIN APPROVAL OF DESIGN PROFESSIONALS FOR EACH LOCATION..

H. HOME-RUN DESIGNATIONS: HOME-RUN DESIGNATIONS INDICATED ON PLANS ARE SCHEMATICDESIGNATIONS ONLY. DETERMINE EXACT CIRCUIT ASSIGNMENTS IN FIELD BASED ON FIELDCONDITIONS. PROVIDE COLOR-CODED CONDUCTOR INSULATION ACCORDINGLY, CODEDPROPERLY DEPENDING ON SYSTEM, PHASE, NEUTRAL, ETC. PROVIDE EQUIPMENT ANDPANELBOARD SCHEDULES THAT ACCURATELY INDICATE INSTALLED CONDITIONS.

I. LOCAL DISCONNECTS AND CONTROLS AT EQUIPMENT: LOCAL DISCONNECTS AND LOCALCONTROLS SHOWN AT OR ON EQUIPMENT IN PLAN-VIEW ARE SHOWN FOR SCHEMATICASSOCIATIONS ONLY. AVOID INSTALLING DISCONNECTS OR CONTROLS ON EQUIPMENTENCLOSURES. INSTALL ON ADJACENT WALLS OR BUILDING STRUCTURE, OR PROVIDE FIELD-FABRICATED UNISTRUT OR EQUIVALENT ASSEMBLIES AS NEEDED. PROVIDE FIELD COORDINATIONWITH SITE CONDITIONS AND OTHER TRADES, AND PROVIDE ALL RELATED WORK IN STRICTCOMPLIANCE WITH NFPA 70, INCLUDING ARTICLE 110.26.

ELECTRIC LEGEND

SYMBOL DESCRIPTION

LIGHTING/LIGHTING CONTROLS

LUMINAIRE (REFER TO THE LUMINAIRE SCHEDULE)NOTE THAT OTHER SHAPES MAY ALSO BE USED TO REPRESENT LUMINAIRES

SHADED LUMINAIRES DENOTE THOSE CONNECTED TO EMERGENCY OR STANDBY POWER AS APPLICABLE(UNSWITCHED LUMINAIRES ARE EGRESS LIGHTS AND/OR NIGHT-LIGHTS THAT OPERATE 24/7)

SINGLE / DOUBLE SIDED EXIT SIGNCONNECT AHEAD OF SWITCHING & CONFIGURE ARROWS TO INDICATE DIRECTION OF EGRESS TRAVEL

WALLMOUNT

EMERGENCY LIGHTING UNIT WITH 90-MINUTE BATTERY BACKUP AND ASSOCIATED REMOTE HEADSWHERE APPLICABLE. CONNECT TO LOCAL LIGHTING CIRCUIT AHEAD OF SWITCHING

A = LUMINAIRE TYPE (REFER TO THE LUMINAIRE SCHEDULE), NL = NIGHT-LIGHT (UNSWITCHED),a = SWITCHING DESIGNATION, EL = EGRESS LUMINAIRE (UNSWITCHED OR AUTO-ON DURING UTILITY OUTAGE)

A

ELa

NL

LIGHTING SWITCH (KEYS: 2 = 2-POLE, 3 = 3-WAY, 4 = 4-WAY, D = DIMMER, K = KEYED, LV = LOW VOLTAGEM = MOMENTARY-CONTACT 1PDT WITH CENTER-REST, P = SWITCH WITH PILOT LIGHT, T = TIMER SWITCH)

TYPE CEILING-MOUNTED OCCUPANCY SENSOR. DUAL TECHNOLOGY UNLESS OTHERWISE NOTED BY TYPE.TYPE "IR" = INFRARED, TYPE "US" = ULTRASONIC

WALL-MOUNTED OCCUPANCY SENSOR SWITCH. DUAL TECHNOLOGY UNLESS OTHERWISE NOTED BY TYPE.TYPE "IR"=INFRARED, TYPE "US"=ULTRASONIC, "V"=VACANCY SENSOR, "#" = CONTROLLED CIRCUITS.

TYPE#

KEY LIGHTING CONTROL SYSTEM CONTROL INTERFACE"KEY" DENOTES TYPE OF SWITCH DETAILED IN NOTES OR DETAILS

RECEPTACLES/MISCELLANEOUS OUTLETSSINGLE ("SIMPLEX"), DUPLEX, AND DOUBLE DUPLEX ("QUAD") RECEPTACLE RESPECTIVELY

RECEPTACLES ON EMERGENCY OR STANDBY POWER CIRCUITDIAMOND OUTLINE MAY BE APPLIED TO ANY SPECIALTY RECEPTACLE SYMBOL

GFI / GFCI RECEPTACLES

SURGE PROTECTIVE DEVICE RECEPTACLES

CEILING MOUNTED RECEPTACLES

RECEPTACLE ATTRIBUTES

42" = MOUNT RECEPTACLE AT THIS HEIGHT ABOVE GRADE / FINISHED FLOORC = INSTALL ABOVE COUNTER AND BACKSPLASHH = INSTALL RECEPTACLE HORIZONTALL = LIT (PROVIDE ILLUMINATED FACE OR INDICATOR LIGHT TO INDICATE THERE IS POWER TO RECEPTACLE)SW = SPLIT WIREDW = WEATHER PROOF WHILE IN USE COVER AND WEATHER RESISTANT RECEPTACLE

C

W42"

H

SW L

DOOR OPERATORS/DEVICES

ELECTRIC DOOR OPERATORMANUAL (LEFT) AUTOMATIC (RIGHT)

PUSH PLATE FOR MANUAL CONTROL OF ELECTRIC DOOR OPERATOR

FIRE ALARM DEVICESFIRE ALARM SYSTEM MANUAL PULL STATION

FIRE ALARM SYSTEM SMOKE DETECTOR - PHOTOELECTRIC TYPE UNLESS OTHERWISE NOTEDL = LASER TYPE, S = PROVIDE SOUNDER BASE

FIRE ALARM SMOKE ALARM UNIT - M = SINGLE/MULTI-STATION SMOKE ALARM UNIT,MC = SINGLE/MULTI-STATION COMBINATION SMOKE/CARBON MONOXIDE ALARM UNIT

LS

MCM

WALLMOUNT

FIRE ALARM SYSTEM COMBINATION FIXED-TEMPERATURE AND RATE-OF-RISE HEAT DETECTOR"FT" = FIXED TEMPERATURE ONLY (DISABLE RATE-OF-RISE FUNCTIONALITY)FT

WALL MOUNT

FIRE ALARM SYSTEM ELECTROMAGNETIC DOOR HOLDER

FIRE ALARM SYSTEM STROBE-ONLY DEVICE(PROVIDE CANDELA (cd) RATING FOR STROBE AS INDICATED ON DRAWINGS)

cd

FIRE ALARM SYSTEM HORN / STROBE DEVICE(PROVIDE CANDELA (cd) RATING FOR STROBE AS INDICATED ON DRAWINGS)

cd

FIRE ALARM SYSTEM CEILING / OVERHEAD MOUNTED HORN / STROBE DEVICE(PROVIDE CANDELA (cd) RATING FOR STROBE AS INDICATED ON DRAWINGS)

cd

FIRE ALARM SYSTEM CEILING / OVERHEAD MOUNTED HORN DEVICE

FIRE ALARM SYSTEM SPEAKER / STROBE DEVICE(PROVIDE CANDELA (cd) RATING FOR STROBE AS INDICATED ON DRAWINGS)

cd

MISCELLANEOUSLOW VOLTAGE THERMOSTAT (LEFT) AND TEMPERATURE SENSOR (RIGHT)

T TS

INDICATES DIRECT CONNECTION TO EQUIPMENT

MOTOR RATED TOGGLE SWITCH, MANUAL STARTER WITH PILOT LIGHT, AND MANUAL STARTER WITH PILOTLIGHT WITH EXTERNAL RELAY FOR CONTROL OR MONITORING RESPECTIVELY - ALL MAY BE KEYED "K"

MS MSR

HEAVY DUTY DISCONNECT SWITCH (NON-FUSED) (LEFT)HEAVY DUTY DISCONNECT SWITCH (FUSED) (RIGHT)

VARIABLE FREQUENCY DRIVE / VARIABLE SPEED DRIVEVFD

LINE VOLTAGE MOTOR OPERATED DAMPERM

HAND DRYER

PLYWOOD EQUIPMENT BOARD

ELECTRICAL SWITCHBOARD OR SWITCHGEAR(DIMENSIONS MAY VARY)

FRONT

ELECTRICAL PANELBOARD OR DISTRIBUTION BOARD(DIMENSIONS MAY VARY / FLUSH OR SURFACE MOUNTED AS INDICATED)

DRY TYPE TRANSFORMERFRONT

OIL FILLED TRANSFORMERPAD POLE

ELECTRIC LEGEND

SYMBOL DESCRIPTION

SINGLE LINE DIAGRAMGROUNDING ELECTRODE PER NFPA 70 ARTICLE 250 MINIMUM

ELECTRICAL PANELBOARD OR DISTRIBUTION BOARDPANELNAME

ELECTRICAL SWITCHBOARD OR SWITCHGEAR

AUTOMATIC TRANSFER SWITCH

SURGE PROTECTIVE DEVICE

WIRE / CABLE / RACEWAYBRANCH CIRCUIT HOME RUN WITH PANEL NAME AND CIRCUIT NUMBER(S)

LPA-1,3

CABLING / RACEWAY INSTALLED CONCEALED IN WALLS OR ABOVE CEILING

CABLING / RACEWAY INSTALLED BELOW FLOOR OR GRADE

CABLE TRAY

JUNCTION BOX ABOVE ACCESSIBLE CEILINGJUNCTION BOX AT OVERHEAD STRUCTURE IN AREAS WITH NO CEILING

J

FLUSH MOUNTED JUNCTION BOX OR PULL BOX AS APPLICABLE FOR APPLICATIONJ

FLUSH MOUNTED PULL BOXP

SERVICE POLE - POWER AND TECHNOLOGY WHERE APPLICABLE.

CONDUIT UP OR DOWNUPDN

ABBREVIATIONS

(R) RELOCATE FIXTURE, EQUIPMENT OR DEVICE 42" DISTANCE ABOVE FINISHED FLOOR / GRADE /

PAVEMENT AF AMP FRAME OF FUSED SWITCH OR CIRCUIT

BREAKERAFCI ARC-FAULT CIRCUIT INTERRUPTER AIC SHORT CIRCUIT AMPS INTRRUPTING RATINGAT AMP TRIP OF FUSED SWITCH OR CIRCUIT

BREAKERATS AUTOMATIC TRANSFER SWITCH

BAS BUILDING AUTOMATION SYSTEM

C.T.C. WORK UNDER DIVISION 27 OR 28 AS APPLICABLE

C/B CIRCUIT BREAKER CH COUNTER HEIGHT OR SPECIAL HEIGHT DEVICE DW DISHWASHER

E EMERGENCYE.C. WORK UNDER DIVISION 26 EMS ENERGY MANAGEMENT SYSTEMEPO EMERGENCY POWER OFFER EQUIPMENT ROOMERM ENERGY REDUCTION MAINTENANCE SWITCHETR EXISTING TO REMAINEWC ELECTRIC WATER COOLER EX. EXISTING

FBO FURNISHED BY OTHERS - INSTALLED AND WIRED BY E.C.

FIBO FURNISHED AND INSTALLED BY OTHERS - WIRED BY E.C.

FP RECEPTACLE TO BE USED FOR A FLAT PANEL DISPLAY.

FWE FURNISHED WITH EQUIPMENT BY OTHERS - INSTALLED AND WIRED BY E.C.

GD GARBAGE DISPOSAL GFEP GROUND FAULT EQUIPMENT PROTECTIONGFI / GFCI GROUND FAULT CIRCUIT INTERRUPTER DEVICEGND GROUND

H.C. WORK UNDER DIVISION 23 H.O.A. "HAND - OFF - AUTO" SWITCH

IG ISOLATED GROUND

LR LEGALLY REQUIRED STANDBYLSI LONG - SHORT - INSTANTANEOUSLSIG LONG - SHORT - INSTANTANEOUS - GROUND

FAULT

MCB MAIN CIRCUIT BREAKERMFR MANUFACTURERMLO MAIN LUGS ONLYMTS MANUAL TRANSFER SWITCHMW MICROWAVE OVEN

NIC NOT IN CONTRACT (SHOWN FOR REFERENCE ONLY)

NTS NOT TO SCALE

OFE OWNER-FURNISHED EQUIPMENT - INSTALLED AND WIRED BY E.C.

OS OPTIONAL STANDBY

P.C. WORK UNDER DIVISION 22

S.C. WORK UNDER DIVISION 21 SPD SURGE PROTECTIVE DEVICEST SHUNT TRIP

TAAC TO ABOVE ACCESSIBLE CEILING TR TAMPER RESISTANT TTB TELEPHONE TERMINAL BOARD TYP TYPICAL

UCR UNDER COUNTER REFRIGERATOR UL UNDERWRITER'S LABORATORYU.L.S.E. LISTED FOR SERVICE ENTRANCEUNO UNLESS NOTED OR INDICATED OTHERWISE ON

DRAWINGS OR IN SPECIFICATIONS

VFD / VSD VARIABLE FREQUENCY / SPEED DRIVE VIF VERIFY IN FIELD VM VENDING MACHINEVP VANDAL PROOF

WG WIRE GUARDWR WEATHER RESISTANT

PLAN-VIEW AND GRAPHIC LINE TYPES

WORK SHOWN BOLD-CONTINUOUS INDICATES NEW WORK(UNLESS OTHERWISE INDICATED)

WORK SHOWN FADED INDICATES EXISTING WORK TO REMAIN OR NEW WORK BY OTHERS AS APPLICABLE(UNLESS OTHERWISE INDICATED)

WORK SHOWN BOLD-DASHED INDICATES SELECTIVE DEMOLITION WORK(UNLESS OTHERWISE INDICATED)



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ELECTRICLEGEND

AND NOTES

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No. Description Date

1 CONSTRUCTIONDOCUMENTS

12/20/17



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ELECTRICSCHEDULES

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PANEL SCHEDULE LEGEND

(EX) = EXISTING CIRCUIT TO REMAIN(#) = NEW CIRCUIT TO EXISTING CIRCUIT BREAKER(G) = PROVIDE GROUND-FAULT CIRCUIT INTERRUPTER (GFCI) CIRCUIT BREAKER(GE) = PROVIDE GROUND-FAULT EQUIPMENT PROTECTION (GFEP) CIRCUIT BREAKER(ST) = PROVIDE SHUNT TRIP CIRCUIT BREAKER(A) = PROVIDE ARC FAULT CIRCUIT INTERRUPTER (AFCI) CIRCUIT BREAKER(L) = PROVIDE LOCK-ON DEVICE

PANEL SCHEDULE GENERAL NOTES

A. PROVIDE HACR RATED BREAKERS ON ALL MOTOR LOADS.B. PROVIDE LOCKING TYPE BREAKER FOR ALL LIFE SAFETY AND NIGHT LIGHTING BRANCH CIRCUITS.C. ALL VOLTAGE DROP CALCULATIONS AND COMPENSATED WIRE SIZES ARE BASED ON RIGHT ANGLE CIRCUIT

LENGTHS TO THE LAST DEVICE. ACTUAL VOLTAGE DROP VARIES BASED ON INSTALLED WIRE LENGTH.

(LT) = PROVIDE LOCK-OUT/TAG-OUT DEVICE(->) = CONNECT BRANCH CIRCUIT, WHICH WAS DISCONNECTED FROM ANOTHER

SOURCE AS PART OF SELECTIVE DEMOLITION, TO POLE SPACE(S) INDICATED, DETERMINE EXACT POLE ASSIGNMENT(S) BASED ON EXISTING COLOR-CODING OF THE BRANCH CIRCUIT CONDUCTOR INSULATION. PROVIDE NEW BREAKER IF REQUIRED.

* = WIRE SIZED TO COMPENSATE FOR VOLTAGE DROPSL = SEE THE SINGLE LINE DIAGRAM / SCHEDULE FOR WIRE SIZE AND VOLTAGE DROP

DCMCSDCNTSC/BFUSEFLAMCACP

LOCAL DISCONNECTMOTOR CONTROL (POWER)DUCT SMOKE DETECTORCONTROLSTOGGLE SWITCHH.A.C.R. CIRCUIT BREAKER AT SOURCE PANELBOARDFUSE AT LOCAL DISCONNECT (VERIFY FIELD RATING)OPERATING FULL LOAD AMPSMINIMUM CIRCUIT AMPACITYCORD AND PLUG CONNECTION

ECEXFCGCHCMFRPCOR

ELECTRICAL CONTRACTOREXISTINGFIRE PROTECTION CONTRACTORGENERAL CONTRACTORHVAC CONTRACTORMANUFACTURERPLUMBING CONTRACTOROWNER OR OTHERS

CSMCCMGMSVFDMSROV

COMBINATION STARTERMOTOR CONTROL STARTERMAGNETIC STARTER OR CONTACTMANUAL STARTERVARIABLE FREQUENCY DRIVEMANUAL STARTER W/ CONTROL RELAYOVERCURRENT PROTECTION

TCCPTBASLOWLINERLINEMANFACOINT

TIMECLOCKCONTROL POWER TRANSFORMERBUILDING AUTOMATION SYSTEMLOW VOLTAGE CONTROLSLINE VOLTAGE CONTROLSREVERSE ACTING LINE VOLTAGE THERMOSTATMANUALFIRE ALARMCARBON MONOXIDE SENSORINTEGRAL TO EQUIPMENT

ABBREVIATIONS CONTRACTOR TYPE MOTOR CONTROL TYPE CONTROL TYPE

HVAC ELECTRICAL COORDINATION SCHEDULE

EQUIPMENT MARK DESCRIPTION VOLTS (V) PHASE EMERGENCY BHP (HP) HP (HP) HTG (kW) WATTS FLA (A) MCA (A) OCP (A) DC TYPE DC FURN DC INST DC WIRE MC TYPE MC FURN MC INST MC WIRE CN TYPE CN FURN CN INST CN WIRE SD TYPE

CU-1 DUCTLESS SPLIT OUTDOOR CONDENSING UNIT 208 1 18.3 20 EC EC EC MG MFR MFR MFR LOW MFR MFR MFR

DS-1 DUCTLESS SPLIT HIGH WALL UNIT 208 1 EC EC EC MG MFR MFR MFR LOW MFR MFR MFR

ELECTRIC EQUIPMENT SUPPLY SCHEDULEEQUIPMENT

MARKSUPPLYFROM CKT EMERG.

LOAD(kVA) VOLTS POLE

HTGKW WATT HP

FLA(A)

MCA(A)

RQDOCP (A)

BREAKERRATING (A)

CU-1 LP11 24,26 3.43 208 V 2 18.3 20 20

EXISTING SQUARE D NQOD

NOTES: BREAKER QUANTITIES (NEW ONLY)

Receptacle 360 VA 100.00% 360 VA

Non-Continuous 0 VA 0.00% 0 VATOTAL DEMAND AMPS: 41 A

Motor 3426 VA 125.00% 4283 VA TOTA DEMAND: 14642.5 VA

Lighting 0 VA 0.00% 0 VA

Kitchen Equipment 0 VA 0.00% 0 VADEMAND CALCULATION NOTES: 100% EXISTING

Heating 0 VA 0.00% 0 VA ADDED CONNECTED LOAD: 3786 VA

Cooling 0 VA 0.00% 0 VA EXISTING LOAD DEMAND FACTOR: 100.00%

Continuous 0 VA 0.00% 0 VA EXISTING CONNECTED LOAD: 10000.0 VA

LOAD CLASSIFICATION CONNECTED LOAD DEMAND FACTOR ESTIMATED DEMAND PANEL TOTALS

TOTAL CONNECTED LOAD: 5.9 kVA 3.1 kVA 4.8 kVA

25 1.00 1.71 26

23(EX) EXISTING -- -- -- 20 A 2

1.00 1.712 20 A #12 #12 0.681 (#) CU-1 | MOTOR

24

21 (EX) SPARE -- -- -- 20 A 1 0.00 0.18 1 20 A #12 #12 0.113 (#) ROOF RECEPTACLE 22

19 (EX) SPARE -- -- -- 20 A 1 0.00 0.18 1 20 A #12 #12 0.123 (#) RECEPTACLE ELEV MACHINE RM 1101 20

17 (EX) SPARE -- -- -- 20 A 1 0.00 0.00 1 20 A -- -- -- (EX) SPARE 18



11 (EX) SPARE -- -- -- 20 A 1 0.00 0.20 1 20 A -- -- -- (EX) CHEM FEED 12

9 (EX) CIRC PUMP -- -- -- 20 A 1 0.50 0.50 1 20 A -- -- -- (EX) CIRC PUMP 10

7 (EX) FAN RELAY -- -- -- 20 A 1 0.10 1.60 8

5 (EX) RCPTS -- -- -- 20 A 1 0.30 1.60 6

3 (EX) RCPTS -- -- -- 20 A 1 0.30 1.60

3 20 A -- -- -- (EX) WATER HEATER

4

1 (EX) LIGHTING -- -- -- 20 A 1 1.00 0.30 1 20 A -- -- -- (EX) ANTENNA POWER 2

CKT CIRCUIT DESCRIPTION VD% AWG GND TRIP POLE A B C POLE TRIP GND AWG VD% CIRCUIT DESCRIPTION CKT

FEEDER: EXISTING FEEDER, (4) #2 AWG CU, (1) #8 AWG CU GND. IN 1-1/2" CONDUIT ENCLOSURE TYPE: NEMA 1 ISOLATED GROUND:

DISTRIBUTION SYSTEM: 208V 3PH FEEDER ID: XC-95-4C LUGS TYPE: 200% NEUTRAL:

LOCATION: MECH 1100 MAINS TYPE: FUSED SHORT CIRCUIT RATING (A): EXISTING ULSE:

SUPPLY FROM: 208V BUS MAINS RATING (A): 100 FAULT CURRENT (A): 3986 SURGE SUPRESSION:

PANEL NAME: LP11

EXISTING SQUARE D NQOD

NOTES: BREAKER QUANTITIES (NEW ONLY)


Non-Continuous 0 VA 0.00% 0 VATOTAL DEMAND AMPS: 39 A

Motor 0 VA 0.00% 0 VA TOTA DEMAND: 13900.0 VA


Kitchen Equipment 0 VA 0.00% 0 VADEMAND CALCULATION NOTES: 100% EXISTING

Heating 0 VA 0.00% 0 VA ADDED CONNECTED LOAD: 0 VA

Cooling 0 VA 0.00% 0 VA EXISTING LOAD DEMAND FACTOR: 100.00%

Continuous 0 VA 0.00% 0 VA EXISTING CONNECTED LOAD: 13900.0 VA

LOAD CLASSIFICATION CONNECTED LOAD DEMAND FACTOR ESTIMATED DEMAND PANEL TOTALS

TOTAL CONNECTED LOAD: 3.5 kVA 5.4 kVA 5.0 kVA

23 (EX) EXISTING -- -- -- 20 A 1 1.00 1.00 24

21 (EX) ELEVATOR CIRCUIT -- -- -- 20 A 1 0.70 1.002 20 A -- -- -- (EX) EXISTING

22

19 (EX) ELEVATOR CIRCUIT -- -- -- 20 A 1 0.70 0.00 1 20 A -- -- -- (EX) SPARE 20

17 (EX) EXISTING -- -- -- 20 A 1 1.00 0.00 1 20 A -- -- -- (EX) SPARE 18

15 (EX) EXISTING -- -- -- 20 A 1 1.00 1.00 1 20 A -- -- -- (EX) EXISTING 16

13 (EX) BOILER -- -- -- 20 A 1 0.30 1.00 1 20 A -- -- -- (EX) EXISTING 14

11 (EX) STAIR LIGHTING -- -- -- 20 A 1 0.50 0.50 1 20 A -- -- -- (EX) NIGHT LIGHTING 12

9 (EX) NIGHT LIGHTING -- -- -- 20 A 1 0.50 0.50 1 20 A -- -- -- (EX) NIGHT LIGHTING 10



3 (EX) NIGHT LIGHTING -- -- -- 20 A 1 0.50 0.20 1 20 A -- -- -- (EX) ROOF CAMERA 4

1 (EX) NIGHT LIGHTING -- -- -- 20 A 1 0.50 0.00 1 20 A -- -- -- (EX) SPARE 2

CKT CIRCUIT DESCRIPTION VD% AWG GND TRIP POLE A B C POLE TRIP GND AWG VD% CIRCUIT DESCRIPTION CKT

FEEDER: EXISTING FEEDER, (4) #2 AWG CU, (1) #8 AWG CU GND. IN 1-1/2" CONDUIT ENCLOSURE TYPE: NEMA 1 ISOLATED GROUND:

DISTRIBUTION SYSTEM: 208V 3PH FEEDER ID: XC-95-4C LUGS TYPE: 200% NEUTRAL:

LOCATION: MECH 1100 MAINS TYPE: FUSED SHORT CIRCUIT RATING (A): EXISTING ULSE:

SUPPLY FROM: 208V DIST MAINS RATING (A): 60 FAULT CURRENT (A): 3989 SURGE SUPRESSION:

PANEL NAME: LP11E

ELECTRIC LUMINAIRE SCHEDULE

TYPE DESCRIPTION MANUFACTURER / SERIES SIZEHOUSING /MOUNTING MATERIAL LENS DESCRIPTION

LAMPQTY LAMP TYPE LAMP BASE

BALLAST /DRIVER QTY

BALLAST /DRIVER FINISH COMMENTS FIXTURE LOAD VOLTAGE

DDB EXTERIOR WALLMOUNT CUTOFF -BATTERY

GARDCO 101LLITHONIA WST LED 2MCGRAW-EDISON IST B02

16-1/4"x9"x7" SURFACE ALUMINUM CLEAR FLAT TEMPERED GLASS LENS, TYPEIII OPTICAL DISTRIBUTION

1 54W LED,4000K, 70+CRI

4000LUMENS

2 INTEGRALELECTRONIC,MVOLT, -20DEGREE, 1100LUMENEMERGENCYBATTERY PACK

FINISHSELECTED BYARCHITECT

WET LISTED, FIELD REPLACEABLE LED MODULE ANDDRIVER, INTEGRAL PHOTOCELL CONTROL

54 VA 120 V

EXB EXIT SIGN -BATTERY -THERMOPLASTIC

CHLORIDE CXXLLITHONIA LQM EL-NSURELITES LPX-7WILLIAMS EXIT-EM

12"x8"x2" UNIVERSAL, REFERTO PLAN

THERMOPLASTIC STENCIL FACE 1 0W LED, WITHSIGN

0 NO BALLAST WHITE RED LETTERS, NI-CAD BATTERY OPERATION 1 VA 120 V

K4B STRIPLIGHT -BATTERY

LITHONIA ZL1NDAYBRITECOLUMBIALSIMETALUXOR APPROVED EQUAL

4'x2-1/8"x2-1/8" SURFACE OR CHAIN STEEL SNAP ON DIFFUSE 1 42W LED,3500K, 80 CRI

5000LUMENS

1 INTEGRALELECTRONIC,MVOLT, 0-10VDIMMABLE, 1400LUMENEMERGENCYBATTERY PACK

WHITE FIELD REPLACEABLE LED MODULE AND DRIVER 42 VA 120 V

KV ENCLOSEDLINEARVAPORTITE

LITHONIA FEMCOLUMBIADAYBRITEILPMETALUX

6"x4'x4-1/8" WALL SURFACE FIBERGLASS GASKETED ACRYLIC LINEAL FROSTEDDIFFUSER

1 80W LED,3500K, 80 CRI

10000LUMENS

1 INTEGRALELECTRONIC,MVOLT

WHITE MOUNTING AS INDICATED ON PLANS, IP67 RATING,FIELD REPLACABLE LED MODULE AND DRIVER

80 VA 120 V

TOTAL ESTIMATED DEMAND AMPS: 335 A

TOTAL ESTIMATED DEMAND: 278300 VA

TOTAL CONNECTED LOAD: 269830 VA

PANEL TOTALS

EXISTING DEMAND: 93950 VA

EXISTING DEMAND FACTOR: 100.00%

EXISTING CONNECTED LOAD: 93950 VA

Spare 93950 VA 100.00% 93950 VA

Motor 175880 VA 104.82% 184350 VA

LOAD CLASSIFICATION CONNECTED LOAD DEMAND FACTOR ESTIMATED DEMAND

32 225 A 3 VERIZON MAIN DISC. 0.00 kVA

31 -- -- (EX) SPACE 0.00 kVA

30 50 A 3 (EX) SPARE 0.00 kVA

29 50 A 3 (EX) 0.00 kVA

28 125 A 3 (EX) ATS 30.00 kVA

27 50 A 3 (EX) SPARE 0.00 kVA

26 15 A 3 (EX) SPARE 0.00 kVA

25 3 A 3 (EX) SPARE 0.00 kVA

24 30 A 3 (EX) SPARE 0.00 kVA

23 30 A 3 (EX) SPARE 0.00 kVA

22 3 A 3 (EX) 0.00 kVA

21 15 A 3 (EX) ZERO FREEZER 0.00 kVA

20 15 A 3 (EX) CONDENSING UNIT NO. 1 0.00 kVA

19 7 A 3 (EX) RETURN FAN NO. 1 1.70 kVA

18 7 A 3 (EX) EQUIPMENT ROOM FAN NO. 7 2.50 kVA

17 50 A 3 AHU-1 33.88 kVA

16 7 A 3 (EX) HOOD EXHAUST FAN NO. 4 2.50 kVA

15 7 A 3 (EX) SPARE 0.00 kVA



12 3 A 3 (EX) SPARE 0.00 kVA

11 3 A 3 (EX) SPARE 0.00 kVA

10 3 A 3 (EX) LOAD 1.50 kVA

9 30 A 3 (EX) AC UNIT NO. 3 17.40 kVA

8 30 A 3 (EX) AC UNIT NO. 2 11.60 kVA

7 7 A 3 (EX) TOILET EXHAUST FAN NO. 6 2.70 kVA

6 50 A 3 (EX) LOAD 24.90 kVA

5 50 A 3 P-2B | PUMP P-2B 28.00 kVA

4 50 A 3 P-2A | PUMP P-2A 28.00 kVA

3 50 A 3 P-1B | PUMP P-1B 28.00 kVA

2 30 A 3 (EX) NORTH ZONE CIRC PUMP NO. 2 6.30 kVA

1 50 A 3 P-1A | PUMP P-1A 28.00 kVA

CKT TRIP POLE CIRCUIT DESCRIPTION Load

NOTES:

FEEDER: EXISTING FEEDER, (2) SETS OF (4) #350 KCMIL CU, (1) #1 AWG CU GND. IN 3" CONDUIT...

FEEDER ID: XC-620-4C 200% NEUTRAL:

MAINS TYPE: ELECTRONIC LSI ULSE:

MAINS RATING (A): 600 SURGE SUPRESSION:

DISTRIBUTION SYSTEM: 480V 3PH ENCLOSURE TYPE: NEMA 1

LOCATION: MECH 003 SHORT CIRCUIT RATING (A): EXISTING

SUPPLY FROM: 480V DIST FAULT CURRENT (A): 17017

SWBD: MCC




PANEL TOTALS






Misc 0 VA 0.00% 0 VA


5 30 A 3 (#)(ST) ELEVATOR 2 | MOTOR MECH 1100 15.00 kVA

4 15 A 3 (EX) INTAKE FAN IF-1 7.50 kVA

3 15 A 3 (EX) INTAKE FAN IF-2 7.50 kVA

2 20 A 3 (EX) LP-SE 1.35 kVA

1 30 A 3 (#)(ST) ELEVATOR 1 | MOTOR MECH 1100 15.00 kVA

CKT TRIP POLE CIRCUIT DESCRIPTION LOAD

NOTES:

FEEDER: EXISTING FEEDER, AT RATING INDICATED, TO REMAIN UNLESS NOTED OTHERWISE

FEEDER ID: X125 200% NEUTRAL:

MAINS TYPE: THERMAL MAGNETIC ULSE:




SUPPLY FROM: ATS FAULT CURRENT (A): 16277

SWBD: MCC-E



12/20/17



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ELECTRICSPECS

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DTJ DTJ

DIVISION 26 - ELECTRICAL SPECIFICATION

26 05 01.00 - COMMON REQUIREMENTS FOR ELECTRIC

The General Provisions of the Contract including the General andSupplemental Conditions and General Requirements apply to the workin this section. Before submitting a bid, examine documents of all othertrades, visit the site and get acquainted with all conditions that may inany way affect the execution of this contract. Take measurements andbe responsible for exact size and locations of all openings required forthe installation of work. Fed dimensions are reasonably accurate andshould govern in setting out work. Where detailed method of installationis not indicated or where variations exist between described work andapproved practice, direction of the Owners representative on job siteshall be followed.

Whenever the words "contractor", "this contractor", etc. appear ondrawings or in these specifications for the Electrical Work, it shall referto the Electrical Sub-Contractor. Whenever the word "Provide" appearsin these documents, it shall be interpreted to mean "Furnish andInstall". Whenever the word "Relocate" appears in these documents, itshall be interpreted to disconnect electrical feed, make safe includinglock out, store and protect device, reinstall, rework and extend conduitand wire to new location, re-energize and test.

The exact mounting height of devices shall be determined in the fieldwith relation to architectural details and equipment being served. It shallbe the responsibility of this contractor to coordinate outlet location withequipment. The Owners representative shall be permitted to relocateany outlet prior to installation within a 15 foot limit at no additionalcharge in contract price. All fasteners, hangers and methods of hangingexposed work in finished areas shall be submitted to the Ownersrepresentative for approval before installation.

The contract includes all items of material and labor required for thecomplete installation and full operation of the electrical work as shownon the drawings and hereinafter specified. All materials and methodsshall be in accordance with applicable codes, regulations and/orordinances and meet the approval of local inspection authority havingjurisdiction. The latest edition of NFPA 70 shall be the minimumrequirement for all work. Examine the drawings and specifications forcompliance with the above codes, regulations and ordinances and basebid and work accordingly. Obtain and pay for all permits andinspections related to this work. A certificate of approval for work frominspection authority shall be given to the Owner before final acceptancewill be given by Owners representative.

All work, materials, and equipment shall have a one year warranty afteracceptance of the work by the Owner. Any defective items shall beremoved and replaced at the electrical sub-contractors expense and tothe satisfaction of the engineer and owner ’s representative.

Perform work under this contract in close harmony with othercontractors so completed work shall present a neat and workmanlikeinstallation. Exposed finished materials and equipment shall becarefully cleaned and wiped to remove grease, smudges, fingerprints,dust and other spots and left smooth and clean. During the progress ofthe work, the electrical sub-contractor shall carefully clean the job siteand shall leave the premises and all portions of the building in which heis working free of debris and in a clean and safe condition.

This contractor shall be responsible for the training of owner'srepresentatives of each system to the satisfaction of the Ownersrepresentative.

The Electrical Contractor shall consult the Plumbing, HVAC andStructural plans (where applicable) in all instances before installing hiswork so that his work will not interfere with those branches. In the eventof a conflict, this contractor shall report to the Owners representative atonce and do no further work to be installed until a satisfactoryarrangement is decided upon. Any work done, or equipment placed inposition by this contractor, creating a conflict in violation hereof, shall bereadjusted to the satisfaction of the Owner ’s representative at theexpense of the contractor. The decision of the Owners representativeshall be final in regard to changes due to conflicting conditions.Contractor shall complete his work or any part thereof at such time asmay be designated by the Owner, so that it can be used for temporaryor permanent use and such use of the system shall not be construed asan acceptance of same by Owner.

Obtain the latest Owner ’s Design and Construction Standardsdocument(s) from the Owner. Comply with all Owner-specificrequirements in addition to requirements set forth in thesespecifications and accompanying drawings. Should there be a conflict,the Owner’s standards shall take precedence, unless prevailing codesand regulations mandate otherwise.

Two sets of electrical drawings shall be provided as record drawingswhich shall be separate, clean, copies reserved for the purpose ofshowing a complete picture of the work as actually installed. Thesedrawings shall also serve as work progress report sheets and theelectrical contractor shall make any notations, neat and legible thereondaily as work proceeds. The drawings shall be available for inspectionat all times and shall be kept at the job at a location designated by theOwners representative. At the completion of the work, these recorddrawings shall be signed by the electrical contractor, dated andreturned to the Owners representative. Final payment of contract willnot be made until receipt and review of said drawings.

Provide two neatly bound (with tabbed sections) copies of maintenancebooks, instruction books and parts list pertaining to all equipmentfurnished. Submit to the Owners representative for approval. Finalpayment will not be made until drawings for record, maintenance andinstruction manuals are delivered to the Owners representative.

26 05 02.00 - COMMON ELECTRICAL MATERIALS AND METHODS

All materials and equipment shall be new. All materials, apparatus andequipment shall bear the seal of Underwriters Laboratories Inc. (UL), ora similar credible testing agency, label where regularly supplied. Certainmanufacturers of material and equipment are specified and plans aredetailed according to this material. This contractor shall base his bid onfurnishing and installing this make of material and equipment.

Where more than one make of material or equipment is specified, thecontractor shall state in his bid which make he proposes to furnish.Shop drawings shall be submitted on material and equipment to befurnished by the contractor for Engineers approval. This approval to beobtained prior to shipment of equipment.

Hold routing of new raceways in new and existing buildings as tightly aspossible to the structure above. Obtain approval of owner'srepresentative prior to installation. Do not install any electrical workwithin 6 inches of roof decking.

Neatly dress all work. Install all work parallel and perpendicular tosurfaces or exposed structural members, and follow surface contours,where possible. Keep conductor splices to minimum. Install splice andtap connectors which possess equivalent or better mechanical strengthand insulation rating than conductors being spliced. Use splice and tapconnectors which are compatible with conductor material. All wires shallbe run continuous from outlet to outlet/luminaire to luminaire. Insulationvalue of joints shall be 100% in excess of wire. Provide adequate lengthof conductors within electrical enclosures and train the conductors toterminal points with no excess. Bundle multiple conductors, withconductors no larger than 10 AWG cabled in individual circuits. Maketerminations so there is no bare conductor at the terminal.

Maintain a uniform elevation for all cable runs wherever possible. Allcables shall be supported/anchored at maximum 4 foot intervals andwithin 12" of box or outlet and shall not sag. Install cables in a mannerthat prevents overheating. Cables shall be fastened directly to thestructure using factory clamps/clips specifically designed for therespective cable (Caddy or equal).

Keep conductor splices to minimum. Pull conductors simultaneouslywhere more than one is being installed in same raceway. Use UL listedpulling compound or lubricant, where necessary. Increase wire sizesper NFPA 70 to offset voltage drop as/if required.

Branch subfeeder circuits shall be installed as shown on the floor plans.Where outlets are indicated by letters on plans, they shall be controlledby corresponding switches.

Outlets shall be located approximately as shown on the plans and shallbe wired to provide control of outlets indicated. All wires of any onecircuit shall be run in the same conduit.

Mechanical wire splicers shall be Scotchlock insulated type, TandBStakon or approved equal. The conductors terminating at each wiredoutlet shall be left not less than 8" long at their outlet fittings to facilitateinstallment of devices or luminaires. Friction and rubber tape conform toFederal Specifications HH-T-11 and HH-T-111. Plastic electrical tapeshall be Scotch #33+ or approved equal.

Do not share neutrals when amongst multiple branch circuits or withmulti-wire branch circuits.

Provide grounding electrode conductors per NFPA 70 for serviceentrances and derived systems.

Provide all feeders and branch circuits with insulated (green covering)equipment grounding conductors per NFPA 70.

Only install conduit exposed on rooftops when it is impossible to dootherwise, or only if specifically indicated for such installationcase-by-case elsewhere in documents. Installation convenience,financial considerations, lack of coordination with other trades andsimilar rationale are not sufficient reasons for doing so. In cases whereconduits must be installed on rooftops, de-rate conductors and modifyconduit sizes per NFPA 70. Provide expansion fittings, which are ULlisted and labeled for the respective applications, at all buildingexpansion joints and at maximum distances of 100 feet. Paint all suchconduits with at least two coats of UV-resistant weatherproof paint.Provide white paint on flat rooftops that have finishes white in color, andfor otherwise-colored roof finishes that are not visible from the buildinginterior or from the ground outdoors. Elsewhere select colors to matchsurrounding surfaces; submit colors to Architect for review in advanceof procuring paint.

Maintain a uniform elevation for all cable runs wherever possible. Allcables shall be supported/anchored at maximum 4-foot intervals andwithin 12" of box or outlet and shall not sag. Install cables in a mannerthat prevents overheating. Cables shall be fastened directly to thestructure using factory clamps/clips specifically designed for therespective cable (Caddy or equal).

This contractor shall provide all cutting and patching required for theadmission of his work. Any damage done by this contractor to thebuilding during the progress of his work shall be made good at his ownexpense. All patching shall be done by a skilled craftsman in thatrespective trade. It shall be the responsibility of this contractor tosupervise the installation of, and pay for all additional members, woodor metal and labor which may be required to support any type ofpermanent or temporary electrical apparatus employed in the executionof this contractor’s work.

Access Doors: Do not use access doors unless special prior writtenpermission is granted from the Owner's Representative. Install pullboxes, junction boxes, etc. in areas which are accessible aftercompletion of construction. Do not install pull boxes or junction boxesabove gypsum board or similar inaccessible ceiling systems. Wherethere is no other recourse but to provide an access door/panel, andwhere approval of Owner ’s Representative has been obtained, providerequired access doors/panels as required for a completecode-compliant electrical installation as defined below. Provide accessdoors in fire/smoke ratings that meet or exceed the surrounding surfacethat is being penetrated.

Seal all new floor, ceiling, wall, slab, etc. penetrations to match orexceed existing assembly fire ratings. Provide sleeve seals for allsleeves, provide sleeves for all penetrations. All penetrations offire-rated or smoke-rated wall, floors ceilings, etc. shall be sealedimmediately after raceways are installed. All new electrically relatedwork shall be supported directly from building structural members. Newelectrically related work shall not be supported from ductwork, ductworkhanger, ceiling supports, existing conduit support, etc.

26 05 03.00 - SUBMITTALS FOR ELECTRICAL SYSTEMS

Provide submittals in accordance with the Contract Documents. Inaddition to Division 01, the Contractor is advised to review and complywith the requirements articulated within each Division and within eachsection of that Division.

Some Divisions may include a division-specific “SubmittalRequirements for ….” section. Where this section exists, it articulatesadditional requirements for submittals that apply to the work of thatDivision.The following requirements help to identify, track and keep the projectorganized for all parties involved. They are necessary to ensure atimely turnaround and an appropriate technical review. Submittals thatdo not conform to the administrative requirements are rejected andreturned, without technical review.

Supply submittals for each section: Submittals shall be supplied on asection-by-section and type-by-type basis. For example, independentproduct data submittals shall be furnished for each section that requiresproduct data submittals. Independent shop drawing submittals shall befurnished for each section that requires shop drawings. Separate PDFfile packages shall be supplied for each section, for each submittal type.Each PDF shall represent a single standalone submittal.

Include a transmittal: Transmittals shall enumerate each submittal foreach section of each type and iteration.

Include cover sheet / title page: The cover sheet shall include theinformation identified in the contract documents. It shall be included asthe first page of each electronic and/or hardcopy document-basedsubmittal. An editable and printable PDF form created with editablefields and specification compliant appearance is available from KLHupon request. It is also downloadable from the KLH website atwww.klhengrs.com.

Include an index: The index shall enumerate the contents of thesubmittal.

Include checklists: Where checklists are included with thespecifications, complete and include them within the appropriatesubmittal. Supply complete submittals: Complete submittals of eachtype are required. Partial submittals will be rejected. Where a sectionrequires a product data submittal, all product data for that section shallbe supplied together, at one time, as one complete submittal. Whenresubmittal is required (e.g. Revise and Resubmit) the revised submittalshall be more complete, more accurate and more contract-compliantthan its rejected predecessor. The submittal number (for each sectionand type) shall increment for each subsequent submittal (00 – Originalsubmission, 01 – First Resubmission, 02 – Second Resubmission, etc…). Resubmittals shall include a copy of the reviewers commentssupplied with the prior submittal rejection and shall be amended with adescription of the specific action taken to comply with the reviewer ’scomments. The absence of this on resubmittal is cause for rejection.

Name electronic files to match the submittal ID and cover sheet: Theelectronic file name of submittals shall match the submittal ID includedon the submittals cover page. For example: The original/first productdata submittal for Section 260519 would be labeled as “260519.00-PD-00”; the first resubmittal of same shall be labeled “260519.00-PD-01”. The original/first shop drawings submittal file for thesame section would be labeled “260519.00-SD-00”; the first resubmittalof same shall be labeled “260519.00-SD-01”.

If expressly permitted by the Owner and the terms of the Contract,editable electronic versions of published two-dimensional plan drawingsmay be made available for the creation of shop and as-built drawings.

Due to the proprietary nature of internal design systems, editablenative-software versions of some drawings, including but not limited tosystem diagrams and details will not be made available in an editableform. In these cases, electronic versions of the drawings may be madeavailable only in PDF, JPG or similar non-editable electronic form, atthe sole discretion of the Design Professional.

The Request Drawings form can be accessed, filled out and submittedat the following internet address (scroll down to bottom of home page):http://www.klhengrs.com (right hand side of page - ContractorResources). Direct access to this form can be found here:http://files.klhengrs.com/requestdrawings.html .

26 05 05.00 - EXISTING CONDITIONS

It is not the intent of electrical documents that existing conditions beaccurately shown. Existing electrical work is shown to a very limitedextent on drawings and is shown for general planning reference only.Locations and information were derived from cursory visualobservations or from portions of documents that were prepared for

previously installed work (not from record drawings or "as-builts").

Perform a detailed pre-bid walk-through field inspection to review theexisting structures and premises, to accurately determine existingconditions, and to determine scope of required electrically related work.Include applicable accessible ceiling cavity areas in this inspection.

Minimize risks to individuals and property throughout the duration of theproject. Coordinate with and obtain approval from the Owner andDesign Professional for all materials, methods, steps, locations,installations, etc. prior to commencement of work. Determine andemploy means and methods as required to safely and securelyimplement all related work.

Do not reuse removed electrical materials unless specifically indicatedin project documents. Existing wiring systems may be utilized only tothe extent indicated in project documents, or as directed by Owner'srepresentative in field.

Determine which existing branch circuits must remain active.Reconnect (or maintain in operation where applicable) and schedulethem. Completely re-type panelboard directories for panelboardsaffected by this project using accurate “as-built” information. Whereapplicable ensure that reconnected shared neutrals are properlybalanced with the correct phase conductors. Where applicable, providecorrect color-coding for insulation of reconnected conductors in amanner compliant with NFPA 70.

If required to accommodate construction related activities temporarilyremove, store in protected location on site, and reinstall conflictingelectrical equipment, luminaires, or devices that are to remain or to berelocated. The following applies to electrical materials that will remain orbe reused under this project: Protect during construction activities;Clean and re-lamp luminaires immediately prior to occupancy of thefinished construction area; Clean and service (if service is required)equipment in the construction area immediately prior to occupancy ofthe area.

Provide and maintain temporary partitions and dust barriers adequateto prevent the spread of dust and dirt to adjacent finished areas andother system components. Protect adjacent installations during cuttingand patching operations. Remove protection and barriers afterdemolition operations are complete. Prevent airborne dust andparticulate matter resulting from electrical work from entering occupiedspaces, and from entering air intakes to operating HVAC systems.Make required electrical openings through walls and floors immediatelyprior to installation of work. Properly and permanently seal electricalopenings immediately after installation of work. Provide temporary sealsfor applications where penetrations are made but cannot bepermanently sealed within four hours. Meet with HVAC installer todetermine special IAQ requirements related to electrical that may applyto this project. Cooperate fully with HVAC IAQ requirements that affectelectrical work and are affected by electrical work.

Inspect existing electrical work in areas accessed under this project andbring into compliance with NFPA 70. This applies only to the extent thatsuch work is uncovered in the immediate project areas affected byconstruction activities, and only to the limited extent that it applies topre-existing general installation methods such as missing junction boxplate, open junction box knockout, minor conduit re-anchoring andminor exposed wiring/connections. If more extensive code or safetyviolations are discovered, immediately bring them to the attention of theOwner's representative (detailed in writing) along with proposed cost forcorrections and impact (if any) on the construction schedule.

Interim Life Safety Work: Provide interim electrical fire alarm and lifesafety protection in demolition and construction areas as indicatedbelow. Contact Design Professional if further definition is needed.Remove all temporary life safety work when no longer needed. Providetemporary plastic covers, obtained from smoke detector manufactureror obtained from a third party and specifically approved for such use bysmoke detector manufacturer, over existing smoke detectors withinproject area, and in adjacent areas that are exposed toconstruction-related dust or airborne particulates, during workingperiods. Remove covers after each shift.

The following notes broadly define some of the specialty base bidscope of work required to provide special temporary power for new andexisting facilities to accommodate utility power interruptions. Field verifyall specifics and provide materials, normal time labor, premium timelabor, services, etc. for all work under base bid, including but not limitedto the following.

Locate, identify, and protect electrical services passing throughdemolition areas and serving other areas outside the demolition limits.Maintain services to areas outside demolition limits. When servicesmust be interrupted, provide temporary services for affected areas. It isrecognized that there may be some conduit systems rendered inactiveby demolition, causing disconnection of "downstream" outlets, etc.Investigate these types of conditions (for all systems) prior todemolition. Provide necessary corrective electrical work prior todemolition to ensure that such "downstream" devices remainpermanently active throughout demolition, during new construction, andafter project completion.

Provide work in a manner that ensures existing systems andcomponents remain fully operational in occupied spaces duringoccupied periods. Maintain existing electrical service and feeders tooccupied areas and operational facilities, unless otherwise indicated, orwhen authorized otherwise in writing by Owner ’s representative.Provide temporary service during interruptions to existing facilities.Schedule momentary outages when necessary for replacing existingwiring systems with new wiring systems. When that "cutting-over" hasbeen successfully accomplished, remove related wiring that has beenabandoned.

Carefully coordinate work and system shutdowns in advance withOwner's representative, and with affected trades so that normal buildingactivities and other construction trades are minimally affected. Performelectrically related construction work, which will affect an occupied area(including those which are located outside the immediate area of projectwork) at special times as directed by Owner's representative in field.

During construction related electrical outages, switchovers,disconnections, reconnections, etc. provide all temporary insulatedconductors, taps, jumpers, etc. to and from existing and new ortemporary electrical equipment, including but not limited to, conductors,splices, lug fittings, rework, premium time, security and safetymeasures, etc. Schedule all outages in advance with Owner, at days ofweek and times of day or night as directed by Owner, as necessary toaccommodate all construction related electrical outages, switchoversand related connections and disconnections.

Where the term “demolition” is used in electrical documents, interpret itto mean “demolition” or “selective demolition” as applicable for therespective scope of work. Where the term “demolish”, “remove” orsimilar terms are used in electrical documents, interpret to mean “disconnect, remove, dispose of, and remove all related electricalconduit, raceways, wiring, cables, boxes, supports, etc. ”.

Provide electrical demolition work as required to accommodate projectdemolition and as required to accommodate new construction.Disconnect and remove work to be abandoned, and as required toaccommodate work of other trades, in areas affected by this projectunless specifically noted otherwise on plans or determined otherwiseduring pre-demolition survey.

Remove accessible abandoned, inactive and obsolete racewaysystems. Remove abandoned, inactive and obsolete equipment,luminaires, devices, conduit, raceways, wiring, cables, boxes, supports,controls, etc. Abandoned raceways embedded in floors, walls, andceilings may remain if such materials do not interfere with newinstallations. This applies for all electrical work, and all communicationsand information technology type work, including all such work aboveceilings, etc. Remove related abandoned unused raceway back to thenearest respective "upstream" junction box that remains active even ifoutside of the confines of the project area. Remove abandoned unusedwiring and cables back to respective sources source even if sourcesare outside the confines of the project area.

Existing branch circuit and systems conduit, not conflicting with newconstruction and not conflicting with overhead or ceiling cavityrequirements, may be re-used at the discretion of the electrical installerafter all abandoned conductors and cables have been removed fromthem. Do not exceed NFPA 70 required conduit fill and do not installwiring fed from different sources in common conduit.

Remove and relocate equipment, luminaires, devices, conduit,

raceways, wiring, cables, boxes, supports, etc. that conflict withconstruction related work of all trades as necessary to accommodatenew work of respective trades. Rework and extend raceway and wiringas required to accommodate new or relocated electrical work.

Perform cutting and patching required for demolition. Coordinate workcarefully with Owner prior to beginning electrical demolition work.Maintain (or reconnect if applicable) remaining wiring. Provide electricaldisconnections, and reconnections where applicable, for equipment tobe removed (or relocated) by other trades.

For all existing luminaires which are scheduled for reuse, remove fromexisting ceilings during demolition; protect during construction; clean,service (if required), re-lamp (with lamps to match building standard)and reinstall at locations indicated. For all existing luminaires which arescheduled to be removed and turned over to Owner, the luminairesshall be disconnected, carefully removed and turned over to Owner.Transfer such luminaires to storage area as directed in field.

Refer to Owner’s representative for disposal instructions for abandonedelectrical materials removed during demolition and thereafter. Neatlystore electrical materials that the Owner elects to retain at the site asdesignated by the Owner's representative. Legally dispose of materialsthat the Owner elects not to retain. Disconnect and remove electricalmaterials designated for salvage (removal and reuse, or for turning overto Owner) undamaged. Disconnect and remove wiring and "whips" fromequipment terminal points. Carefully transport salvaged electricalmaterials to a protected on-site storage location as directed in field andneatly store them grouped by system type.

Clean components to be reused inside and out, and reinstall whereindicated on drawings. Modify and extend related existing wiring inconduit accordingly.

26 05 19.00 - LOW-VOLTAGE ELECTRICAL POWER CONDUCTORSAND CABLES

Furnish and install all necessary cable of the size and type indicated onthe drawings or specified hereinafter. All wire shall be copper. All wiringshall be new. No wire smaller than #12 AWG shall be installed unlessspecifically designated. Use of #14 color coded wire will be allowed forcontrol circuits only. Provide stranded conductors for all sizes unlessindicated otherwise.

Provide THHN/THWN-2 insulation for all conductors as appropriate forthe locations where installed. Provide color coded insulation/jacket forphase identification. All wires shall be rated at 600 volts. Provide typeXHHW-2 insulation for all wiring below grade or subject to moisture.

All conductors shall be rated for 90 deg. C. minimum. Provide with fullparity sized green insulated equipment ground conductor. Providecompatible steel fittings with integral red plastic insulated throatbushings, compliant with NFPA 70, article 330. Cables shall be 90 deg.C. rated with all components and fittings listed for grounding andcompliant with the following: UL Std.4 and UL Std. 83; ANSI E119 andE814; NFPA 70, Articles 250 and 330.

Cables: Route cables perpendicular and parallel to the buildingarchitectural lines, surfaces, and structural members, keeping offsets toa minimum and following surface contours where possible. Maintain auniform elevation for cable runs wherever possible. Support and anchorcables at maximum 4 foot intervals and within 12" of box or outlet in amanner that prevents sagging. Install cables in a manner that preventsoverheating. Fasten cables directly to the structure using factory clampsand clips (zip ties and like products are not permitted) specificallydesigned for the respective cable (Caddy or equal). Cables may beutilized only if NEC and AHJ (Authority/Authorities Having Jurisdiction)approved for the intended use and in the limited applications definedbelow.

26 05 26.00 - GROUNDING AND BONDING FOR ELECTRICALSYSTEMS

All metallic conduit, surface raceways, wireways, supports, cabinet andequipment shall be grounded in accordance with the latest adoptedissue of the NFPA 70.

26 05 29.00 - HANGERS AND SUPPORTS FOR ELECTRICALSYSTEMS

It shall be the responsibility of the electrical contractor to supervise theinstallation of and pay for all additional members, wood or metal andlabor which may be required to support any type of permanent ortemporary electrical apparatus employed in the execution of theelectrical contractor's work. Provide supports, anchors, sleeves andseals furnished as part of factory-fabricated equipment as required.Layout and install all electrical work in strict compliance with Chapter 1,Part B, Section 110.26 of the latest adopted edition of NFPA 70.Locations and routing that may be shown on plans are schematic anddiagrammatic in nature.

Conduit shall be supported by approved straps, fasteners and hangers.Hangers shall be suspended from rods. Perforated straps will not beacceptable. Fasteners shall be lead expansion shields in block orconcrete, toggle bolts in hollow walls, machine screws on metalsurfaces and wood screws on wood construction. At building expansionjoints and where deflection is expected, conduits shall be provided withexpansion fittings with bonding jumpers. Conduits passing throughstructural members shall be provided with stub and coupling or sleevein the member. Where moisture conditions are encountered, a holeshall be drilled at the lowest point in the conduit run. Also providesleeves for all fire wall and smoke partition penetrations (sealedaccordingly).

All conduit shall be supported independently from all other buildingsystems and shall be supported directly from structural components.Electrically related work shall not be supported from ductwork, ductworkhangers, ceiling supports, existing conduit supports, etc.

Use of synthetic or plastic “tie-wraps”, “zip ties”, “wire ties” and similarproducts are not permitted as a permanent means of anchoring,securing, supporting or otherwise installing any cables, conductors,conduits, raceways, devices, equipment or other electrical work.

Cut, fit, and place miscellaneous metal fabrications accurately inlocation, alignment, and elevation to support and anchor electricalmaterials and equipment.

All conduits, raceways and cables (where applicable) shall be routedparallel and perpendicular to building structural members. Any and allnoncompliant work installed by the electrical contractor shall beremoved and reinstalled by the electrical contractor to the satisfaction ofthe Owner's representative and the Engineer, at the expense of theelectrical contractor. At building expansion joints and where deflectionis expected, provide conduits with expansion fittings with bondingjumpers. Conduits passing through structural members shall beprovided with stub and coupling or sleeve in the member. Wheremoisture conditions are encountered, a hole shall be drilled at thelowest point in the conduit run. Provide sleeves for all fire wall andsmoke partition penetrations (sealed accordingly).

26 05 33.00 - RACEWAYS AND BOXES FOR ELECTRICALSYSTEMS

Normal system power feeders and branch circuits shall be installed inseparate raceways from emergency system power. All wiring fordifferent power voltages shall be installed in raceway systems separatefrom each other. All wiring for the various electrical systems shall beinstalled in raceway systems separate from each other.

All conduit installed indoors shall be galvanized steel EMT (3/4"minimum); all fittings shall be set-screw or compression type steel, withinsulated throats. Unless indicated otherwise on drawings or in otherparts of the electrical specifications, all wiring of all systems shall beinstalled in conduit. Conduit fill shall not exceed NFPA 70 requirements.

Conduit shall be cleaned inside before any wires are pulled. Conduitends shall be capped and plugged with standard accessories as soonas conduit has been permanently installed. Conduit installed withoutconductors shall be provided with sweep bends and baling wire forpulling.

All joints shall be made tight with watertight couplings matching conduitand all corners shall be made with long radius elbows. The ends of allconduits shall be cut square and reamed and all joints brought to ashoulder. Conduit shall be continuous between outlets to make acomplete installation and to provide a continuous ground. Suitablesupports and fastening shall be provided for conduit.

All raceways shall be entirely free of plaster, mortar, water and otherforeign matter before installing conductors or cables.

In general, gang type outlet boxes shall not be used. The outlet boxlocations indicated on drawings shall be considered approximate, andtherefore, it shall be incumbent upon this contractor to study the generalconstruction with relation to spaces and equipment surrounding eachoutlet. All outlet, switch and junction boxes shall be made of codegalvanized steel complete with rings and screw cover plates andlocated where shown and noted on drawings. Where conduit isconcealed, boxes shall not be less than 4" square x 1-1/2" deep. Allboxes shall be equipped with proper covers to bring flush with finishedwall surface.

Where outlet boxes occur in block, cinder, or concrete block, facing tileor other material where such materials form the finished wall surface,the opening for the box shall be cut neatly and of the size that the coverplate will cover all parts of the opening. Condulets shall be used onexposed raceways. In general, junction boxes shall be furnished andrequired by NFPA 70, of the proper sizes, and shall be constructed of#12 gauge steel with removable front fastened on with counter sunkhead screws or other approved means. For special application, junctionboxes shall be noted, detailed and/or sized on the drawings or in thefield as required.

Prior to rough-in, verify all box/device mounting heights and locations infield with Owners representative. In general, where not located atcounter areas, the height of boxes from finished floor to center of boxesshall be as follows, unless otherwise noted on plans. In cases whereusing center of box for measurement would result in a switch-heightdevice having an operable component higher than 48 inches abovefinished floor, install boxes lower as needed so that uppermost part ofoperable component is no higher than 48 inches.Switches: 3'10"Receptacles: 1'6" (unless counter height)Telephone Outlets (desk phone): 1'6"Telephone Outlets (Wall phone): 3'10"Data Cable Outlets: 1'6"Other devices: As directed in field.

26 05 53.00 - IDENTIFICATION FOR ELECTRICAL SYSTEMS

Provide manufacturers standard self-adhesive vinyl tape not less than 3mils thick by 1-1/2" wide. Where applicable, install on all concealedraceways at connection to all junction boxes, pull boxes, equipment,wall/floor/roof penetrations, etc. Unless otherwise indicated or requiredby governing regulations, provide orange tape with black letters.Provide circuit identification bands for all cables and conductors.Provide manufacturers standard color coding for cable/conductor jacketand/or insulation for all cables and conductors of all systems. Matchidentification with marking system used in existing systems (whereapplicable), shop drawings, contract documents, and similar previouslyestablished identification for projects electrical work. Provide on allconductors of all systems.

The use of Scotch color coding tapes for phase identification shall bepermitted only to the extent permitted under NFPA 70 (NationalElectrical Code).

Provide engraved plastic-laminate sign on major units of electricalequipment, including panelboards, disconnects, starters, control panels,etc. Except as otherwise indicated, provide single line of text, 1/2" highlettering, on 1-1/2" high sign (2" high where 2 lines are required), whitelettering in black field. Unless determined otherwise in field, provide textmatching terminology and numbering of the contract documents andshop drawings. Secure to substrate with fasteners, except useadhesive where fasteners should not or cannot penetrate substrate.

All equipment and system identification nomenclature shown ondrawings or listed herein is shown for general design and installationreference only. The actual nameplate, etc. nomenclature for this projectshall be verified by electrical contractor in field prior to fabrication andwhere applicable, shall be an extension of existing nomenclature usedon the site as determined in field by electrical contractor.

Equipment to Be Labeled: All enclosures for all electrical equipmentfurnished or installed under Divisions 26 and 28; Remote-controlledswitches, dimmer modules, and control devices, via engraved wallplates; Miscellaneous Control Stations; Access doors and panels forconcealed electrical items; Other similar equipment designated byowner's representative, architect or engineer in field.

Emergency Systems: Provide permanent identification for boxes,enclosures, etc. that are associated with emergency system work.Paint and identify emergency system pull boxes, junction boxes, andother access/pull points (boxes and covers) in accordance with NEC.Provide emergency system equipment panelboards, cabinets,enclosures, etc. with engraved nameplates (white letters on redbackground) with the first line of text to read "EMERGENCY CIRCUITS"and the remaining lines to include the necessary descriptive text.Properly identify system components, wiring, cabling, and terminals.Provide red color on jacket of all emergency system cables. Providered-colored breaker handle and red-colored lock-on device at sourcecircuit breakers that feed emergency systems. Provide red coloring forall Emergency system junction boxes, along with identification.

26 05 84.00 - MECHANICAL EQUIPMENT

Provide all necessary electrically related work as required to render allmechanical equipment (including plumbing, heating, ventilating and airconditioning equipment) fully operational and fully compliant with alllocal and national codes. This includes, prior to ordering materials orcommencing with rough-in, reviewing equipment submittal data andcoordinating with installing contractors to ensure the correct size, ratingand quantity of conductors are provided.

Locations of equipment and devices are shown only for schematicindication of wiring requirements.

Refer to all contract documents for additional electrical requirementsand concerns, and for further representation of this work.

Provide raceway, wiring, connections, and terminations for power andinterlocks for electrically operated equipment.

Provide disconnect switch ahead of all equipment, including controls,unless the mechanical equipment comes with integral NFPA70-compliant disconnect(s). Provide NEMA 3R enclosures whereinstalled outdoors and where installed indoors in areas subject tomoisture. Ground metal frames of equipment by connecting frames tothe grounded metal raceway and to a full size green ground conductoror both. Provide the necessary electrical connections between thespecified equipment and the junction box near equipment with flexiblemetallic conduit (liquid-tight outdoors) and matched connectors (seeSection 26 05 33). Where mechanical equipment lugs cannotaccommodate conductor sizes shown on drawings, provide ILSCOClearTap Insulated Multi-Tap Connectors.

Sizes, electrical ratings, etc. of equipment and wiring shown ondrawings are based on the respective equipment design basemanufacturers. If different manufacturer(s) or model(s) are actuallysupplied, provide necessary coordination in field (prior to orderingmaterials and prior to rough-in) and provide the necessary size ofrelated electrical equipment, wiring, conduit, etc.

Prior to furnishing submittals and prior to rough-in, determine exactelectrically related characteristics, loads, voltages, disconnect andstarter requirements, locations, mounting heights, connection points,etc. of mechanical equipment.

Provide lugs, lug kits and related accessory work as required toaccommodate the conductor sizes and quantities needed for eachapplication. Coordinate with single-line diagram, field conditions,equipment installers, etc.

HACR Breakers: Coordinate in field with the respective trades anddetermine case by case, which equipment is factory listed for use withHeating and Air Conditioning Rated (HACR) breakers. In an effort tominimize requirements for stocking of fuses by the owner, utilize HACRbreakers at the source panelboards as the NFPA 70 requiredovercurrent protection wherever possible (in lieu of fusing localdisconnect switches).

Disconnect and Controller Locations: Locations shown on drawings areindicated for schematic purposes only. Determine exact locations infield so that they are compliant with NFPA 70, Article 110.26. Refer toElectrical Coordination Schedules on drawings. Provide disconnects,starters, accessories, wiring, connections, services, etc. where defined

as “EC” in the schedule. Information in this section supplements theinformation in the schedules. Provide power wiring and connections forall equipment (including motor dampers and accessories whereapplicable) as required to render equipment fully operational. Installlocal disconnects and starters at 48 inches to top of outlet box orenclosure where applicable above finished floor/slab/grade. Provideflush mounted units in finished areas. Provide key operated manualstarters where accessible to unauthorized personnel, including generalpublic.

Maintenance Receptacles for Rooftop Units, Rooftop Exhaust Fans andany Miscellaneous Exterior Equipment: Provide Type WR duplex GFCIweatherproof receptacle within 25 feet of all electrically operatedequipment of any nature that requires periodic testing or maintenance.

Refer to Coordination Schedules on drawings for informationassociated with equipment. Provide disconnects, accessories, wiring,connections, services, etc. where defined as “EC” in the schedule.Information in this section supplements the information in schedule(s).

26 27 26.00 - WIRING DEVICES

Unless specifically indicated otherwise, or directed otherwise in field,provide ivory color for normal utility wiring devices. Unless specificallyindicated otherwise, or directed otherwise in field, provide red color for “emergency” utility wiring devices.

Provide grounded (“neutral”) conductors in all wall switch, dimmer andother lighting control outlet boxes, even if not immediately utilized.

Provide wall plates with engraved legends where indicated on drawingsand/or where required per 26 05 53.00 - IDENTIFICATION FORELECTRICAL SYSTEMS Section. All device wall plates shall bestandard size; "midway", "oversized" ("jumbo") or "extra deep" wallplates shall not be acceptable. Construct with metal screws for securingplates to devices; screw heads colored to match finish of plates. Exceptwhere/if indicated otherwise on drawings, wall plates in finished areasshall be commercial specification grade, satin finish stainless steel, withbeveled edges, equal to Leviton Type 430 series. Wall plates inunfinished areas shall be galvanized steel unless otherwise noted.Refer to architectural finish schedules and owner representative foradditional information.

Wall-Box Type Lighting Controls:Provide wall switches, that are flush self-grounding with green groundscrew and color coded cover, snap toggle type, back and side wired,specification grade. Provide wall switches rated 20A, 120/277 volts, 1HP at 120V, A.C. quiet type.Single-Pole Switches: Equal to Leviton #1221-2 series.3-way Switches: Equal to Leviton #1223-2 series.

Special purpose receptacles shall be of the size, type and manufactureras indicated on the plans or as determined in field.

Weather Resistant (WR) GFCI Receptacles: Provide for all receptaclesinstalled in damp or wet locations. Any receptacle shown on thedrawings with “WP/GFCI” next to it denoting exterior cover shall beinstalled with a WR GFCI receptacle. Provide duplex weather resistantreceptacles equal to Leviton # W7899 series. For receptacle circuitsprotected with 15A breakers, provide NEMA 5-15R equivalents.

Duplex and Single Specification Grade Receptacles: 2-pole, 3-wiregrounding, self-grounding, green grounding screw, ground terminalsand poles internally connected to mounting yoke, color coded base,20-amperes, 125-volts, with metal plaster ears, back and side wiring,NEMA configuration 5-20R. Provide duplex receptacles equal to Leviton#5362 series. For receptacle circuits protected with 15A breakers,provide NEMA 5-15R equivalents. Provide receptacles equal to Leviton#5361 series for simplex (single) applications. Provide clock hangerreceptacles equal to Leviton #5361-CH.

Self-Grounding Commercial Specification grade, Duplex Receptacles,Ground-Fault Circuit Interrupters: Feed-thru type, capable of protectingconnected downstream receptacles on single circuit, grounding typeUL-rated 943, Class A, Group 1, specification grade, 20-amperes rating(device and feed-thru), 125-volts, 60 Hz; with solid-state ground-faultsensing and signaling (maximum threshold of 5mA at 0.025 secondsmaximum); equip with 20-ampere plug configuration, NEMA 5-20R.Provide ground fault circuit interrupter duplex receptacles equal toLeviton #8898 series. For receptacle circuits protected with 15Abreakers, provide NEMA 5-15R equivalents. Where GFCI protectedreceptacles are shown on drawings, provide a separate GFCIreceptacle for each one shown. Do not feed downstream receptaclesfrom load-side (GFCI-protected) terminals of upstream receptacles.Provide Weather-Resistant Receptacles with UL “WR” marking,compliant with NFPA 70, article 406.8, for all applications in wet ordamp locations.

26 28 16.00 - ENCLOSED SWITCHES AND CIRCUIT BREAKERS

Subject to compliance with requirements, provide equipment of one ofthe following manufacturers: General Electric Co.; Siemans/ITE; SquareD Co.; Westinghouse/Cutler-Hammer. Disconnect switches shall beequal to Square D Type HD. All Safety Switches/Disconnects shall beheavy duty, safety type, quick make and quick break and externallyoperated. Unless noted otherwise on drawings or directed otherwise infield, all disconnect switches shall be fused. Unless noted otherwise ondrawings or directed otherwise in field, brace all disconnect switches for200,000 A.I.C. Provide heavy-duty switches, with fuses of classes andcurrent ratings indicated and UL listed for use as service equipmentunder UL Standard 98 or 869. Where current limiting fuses areindicated, provide switches with non-interchangeable feature suitableonly for current limiting type fuses. Install disconnect switches withinsight of controller position unless otherwise indicated.

26 51 00.00 - LIGHTINGLight Emitting Diode (LED) Systems: Provide factory installed LEDmodules that are specifically designed for, and matched and mated to,the respective luminaire in which they are used. Provide LED modulesthat can easily be replaced in the field and are readily accessible forreplacement. Provide color temperature as indicated in LuminaireSchedule. Provide factory installed driver(s) for the LED source utilizedthat are specifically coordinated to the LED source and luminaire inwhich they are used. Provide driver(s) having specific operatingcharacteristics defined in the Luminaire Schedule. Provide driver(s) thatcan easily be replaced in the field and are readily accessible forreplacement. Provide specification sheet for the specific driver as partof the Luminaire Submittal. Provide Total Harmonic Distortion (THD)rating of less than 20 percent. Provide factory-installed integral filteringsystem to ensure THD does not exceed 20 percent regardless ofquantities and/or mixes with other manufactured LED systems.

Provide luminaires and/or luminaire outlet boxes with hangers toproperly support luminaire weight. All luminaires installed in or onsuspended ceiling systems shall be anchored directly to the buildingstructural system above (anchored per NFPA 70). Such anchoring shallbe independent of the ceiling support system. All luminaires shall beinstalled plumb and level. Support surface mounted luminaires greaterthan 2 feet in length at a point in addition to the outlet box luminairestud.

28 46 21.25 - FIRE ALARM SYSTEM EXTENSION

Refer to Division 26 sections for requirements associated with allelectrical work not specifically defined in this section, which shall beconsidered additional and concurrent scope of work that is associatedwith work of this section. Provide all work in strict compliance with allprevailing codes, standards and ordinances, including NFPA 70 andNFPA 72.

Qualifications of system designers, installers, programming personnel,inspection personnel, testing personnel and maintenance personnelshall be trained and certified by manufacturer for installation of unitsrequired for this Project, and shall be qualified in compliance withrequirements of NFPA, including Chapter 10.5 of NFPA 72. Provide allmaterials, labor and services to provide fully operational modificationsto and extensions of existing facility fire alarm system(s).

Provide submittals for equipment, materials and systems specified inthis section. Include cuts, descriptive information, technical data, wiringdiagrams, system battery calculations, plan-view layouts, legend,point-to-point wiring, etc. Identify all information that is specific to thisproject.

The fire alarm system supplier shall provide to the electrical contractora complete set of floor plan drawings showing conduit sizes andnumber of conductors required to all components plus detailed wiringconnections required at each type of device.

It shall be the responsibility of the Fire Alarm System Manufacturer tofurnish submittals to the authority having jurisdiction for approval. Thisaction shall be taken during the shop drawing procedure. The systemmust be approved by this authority and a copy submitted to theEngineer with the shop drawing submittal. All fire alarm system workingdrawings shall be provided by manufacturer.

Program detailed device and room descriptions so that any trouble,supervisory or alarm condition clearly annunciates floor level, roomnumber, room name, device, and indication of normal, alarm, troubleand supervisory status at fire alarm control panel(s), at fire alarmannunciator panel(s) and at the supervising central station.

Initiating Device, Notification Appliance and Signaling Line Circuits:Class A or Class A and B (provide Class A for circuits that provideisolation module protection for zones). Provide power-limited cablesthat have a temperature rating of at least 60 degrees C; provideadditional marking for conductor size and temperature ratings for cablesrated in excess of 60°C (140°F).

Interruption of Existing Fire-Alarm Service: Do not interrupt fire-alarmservice to facilities occupied by Owner or others unless owner andothers have been notified with at least two-day notice and approval.

Maintain existing equipment fully operational until new equipment hasbeen tested and accepted. As new equipment is installed, label it "NOTIN SERVICE" until it is accepted. Remove labels from new equipmentwhen put into service.

Added Devices and Extension of Existing System:

Verify that existing fire-alarm system is operational without troublesbefore making changes or connections.Connect new equipment to existing control panel in existing part of thebuilding.

Connect new equipment to existing monitoring equipment at thesupervising station.

Expand, modify, and supplement existing control/monitoring equipmentas necessary to extend existing control/monitoring functions to the newpoints. New components shall be capable of merging with existingconfiguration without degrading the performance of either system.

Perform reacceptance testing to verify the proper operation of added orreplaced devices and appliances.Initiating Device, Notification Appliance, and Signaling Line Circuits:NFPA 72, Class A, B, or A and B as required to match existingconditions.

Provide materials and labor as required to result in a fully operationalextension and modification to the existing fire alarm system.

Where indicated on drawings, remove existing fire alarm devices inaffected areas and protect during demolition and construction phases.Clean and reinstall these existing devices as indicated on drawings.Relocate devices as indicated on drawings and extend conduit andwiring as required. Modify and/or extend related existing wiring usingcode-compliant and landlord-compliant methods as required for acomplete operational system.

Provide fire alarm system devices of the same manufacturer as,compatible with, and UL Listed and labeled for use on, the existingbuilding fire alarm system.

Provide auxiliary contacts if required for special applications. All strobealarms shall be compliant with NFPA and ADA.

All new wiring shall be installed in strict accordance with manufacturer'srequirements.

The installation shall include a complete system test of the equipmentby the local representative of the system installed. This test shall beperformed in the presence of representatives of the Owner, and localfire department and other Authority/Authorities Having Jurisdiction(AHJ) if/as applicable.

Provide all required modifications (cards, power supplies, hardware,firmware, software, etc.) to the existing Fire Alarm system as requiredto render the entire extension fully operable.

Provide isolation modules as/if required to isolate wire to wire shorts ona data loop to limit the number of other modules or detectors that areincapacitated by the short circuit fault and/or grounds. Isolation modulesshall be part of the smoke detector base. The isolation modules shallpermit the entire system to operate independently of the areadisconnected by the isolation module due to wiring faults. Provideisolation modules and wiring configurations (using Class A, or Class Aand B, pathways) for fault isolation so that any one fault will not causeany part of the system to go down other than the zone of the fault;provide zoning compliant with prevailing codes, including NFPA 72, withat least one zone per floor (more if areas are subdivided into multiplezones by fire and/or smoke barriers).

Provide monitor modules in quantities as required to interface all"non-intelligent" devices into the system. Application examples includefire alarm system remotes panels, remote power supplies, Elevatorrelated work, etc. as applicable. Refer to documents of all trades sincesome such devices may not be specifically shown on electricaldrawings. Review fire suppression system submittals and installationdrawings to determine exact quantities and locations for devices thatrequire monitor modules, as project drawings may not include alldevices that require monitoring; provide monitor modules, wiring,connections, programming, etc. accordingly. Provide indoor monitormodules for applications where outdoor valves are being monitored.Field-verify locations for outdoor valves (meter pits, PIVs, etc.). Provideanalog wiring in conduit from outdoor tamper switch to indoor monitormodule.

Provide control modules for all auxiliary devices and all supervisedcontrol functions such as air handler shutdowns.

Photoelectric Smoke Detectors: Provide photoelectric type smokedetectors. Provide contact bases for all applications where auxiliarycontacts are required. Smoke detector locations shall not exceed therated coverage of the detector and, in general, shall be no more than 15feet from a wall or 30 feet apart.

Provide all required 120VAC power as required to energize all new firealarm related components. This requirement applies whether or notsuch power work is shown on the drawings. Branch circuits serving firealarm related equipment shall be dedicated to fire alarm relatedequipment only.


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1 ELECTRIC - LEVEL 0 1/8" = 1'-0"ED100

2 ELECTRIC - LEVEL 11

KEYED NOTESE01 EXISTING POWER AND DATA CONNECTION TO EXISTING ANTENNA ON

ROOF. REMOVE EXISTING ABANDONED 2" CONDUIT IN ELEVATOR ROOM.REPLACE EXISTING 12"X12" JUNCTION BOX WITH NEW 8'X8" JUNCTIONBOX. JUNCTION BOX LOCATION TO REMAIN. RE-WORK WIRING ASNECESSARY TO REPLACE JUNCTION BOX. NON-ELEVATOR RELATEDEQUIPMENT SHALL NOT BE PERMITTED IN THE ELEVATOR EQUIPMENTROOM.

E02 RE-LOCATE EXISTING ELEVATOR FEEDERS, BRANCH CIRCUITS, ANDDISCONNECTS TO NEW LOCATION SHOWN. EXTEND / MODIFY EXISTINGFEEDER AND BRANCH CIRCUITS AS NECESSARY. CONNECT NEWELEVATOR MACHINES TO EXISTING ELEVATOR FEEDER. PROVIDE NEWFUSES IN ELEVATOR DISCONNECTS. CONNECT NEW ELEVATOR CABLIGHITNG TO EXISTING CAB LIGHTING CIRCUIT.

E04 PROVIDE NEW ELEVATOR MACHINE ROOM TELEPHONE JACK. CONNECTTO NEW ELEVATOR CONTROLLER. EXTEND / MODIFY EXISTINGTELEPHONE LINE.

E07 DEMOLISH EXISTING DECOMMISSIONED ELEVATOR DISCONNECT ANDCONDUIT. SAW OFF CONDUIT AT FLOOR AND FILL WITH CONCRETE.

E08 PROVIDE NEW ELEVATOR PIT LUMINAIRES AS SHOWN. CONNECT TOEXISTING DEDICATED ELEVATOR PIT RECEPTACLE CIRCUIT AND SWITCH(CIRCUIT NUMBER INDICATED ON PLANS). COORDINATE EXACTLUMINAIRE LOCATIONS IN FIELD PRIOR TO ROUGH IN.

E09 REPLACE EXISTING NON-GFCI RECEPTACLE IN PIT WITH NEW GFCIRECEPTACLE.



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LOCATE IN FIELD WITH OWNER PRIOR TOROUGH IN TO PROVIDE BEST VISIBILITY.

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1 ELECTRIC LIGHTING - LEVEL 0 1/8" = 1'-0"EL100

2 ELECTRIC LIGHTING - LEVEL 11

KEYED NOTESE05 CONNECT NEW LIGHTING TO EXISTING EXIT CIRCUIT MADE AVAILABLE

UPON DEMOLITION. NEW LIGHTING LOAD IS LESS THAN THE EXISTINGLIGHTING LOAD.

E08 PROVIDE NEW ELEVATOR PIT LUMINAIRES AS SHOWN. CONNECT TOEXISTING DEDICATED ELEVATOR PIT RECEPTACLE CIRCUIT AND SWITCH(CIRCUIT NUMBER INDICATED ON PLANS). COORDINATE EXACTLUMINAIRE LOCATIONS IN FIELD PRIOR TO ROUGH IN.

E10 CONNECT NEW LIGHTING TO EXISTING LIGHTING CIRCUIT MADEAVAILABLE UPON DEMOLITION (CIRCUIT NUMBER NOTED ON PLAN).PROVIDE NEW CONTROL SWITCH AS SHOWN. NEW LIGHTING LOAD ISLESS THAN THE EXISTING LIGHTING LOAD.

E11 CONNECT NEW LIGHTING TO EXISTING LIGHTING CIRCUIT MADEAVAILABLE UPON DEMOLITION (CIRCUIT NUMBER NOTED ON PLAN). TIEINTO EXISTING ROOM CONTROL SWITCH. NEW LIGHTING LOAD IS LESSTHAN THE EXISTING LIGHTING LOAD.



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1 ELECTRIC POWER - LEVEL 0 1/8" = 1'-0"EP100

2 ELECTRIC POWER - LEVEL 11

KEYED NOTESE01 EXISTING POWER AND DATA CONNECTION TO EXISTING ANTENNA ON

ROOF. REMOVE EXISTING ABANDONED 2" CONDUIT IN ELEVATOR ROOM.REPLACE EXISTING 12"X12" JUNCTION BOX WITH NEW 8'X8" JUNCTIONBOX. JUNCTION BOX LOCATION TO REMAIN. RE-WORK WIRING ASNECESSARY TO REPLACE JUNCTION BOX. NON-ELEVATOR RELATEDEQUIPMENT SHALL NOT BE PERMITTED IN THE ELEVATOR EQUIPMENTROOM.

E02 RE-LOCATE EXISTING ELEVATOR FEEDERS, BRANCH CIRCUITS, ANDDISCONNECTS TO NEW LOCATION SHOWN. EXTEND / MODIFY EXISTINGFEEDER AND BRANCH CIRCUITS AS NECESSARY. CONNECT NEWELEVATOR MACHINES TO EXISTING ELEVATOR FEEDER. PROVIDE NEWFUSES IN ELEVATOR DISCONNECTS. CONNECT NEW ELEVATOR CABLIGHITNG TO EXISTING CAB LIGHTING CIRCUIT.

E04 PROVIDE NEW ELEVATOR MACHINE ROOM TELEPHONE JACK. CONNECTTO NEW ELEVATOR CONTROLLER. EXTEND / MODIFY EXISTINGTELEPHONE LINE.

E06 EXISTING RADIO EQUIPMENT IN FRONT OF PANELS LP11 AND LP11E TO BEMOVED AND STACKED AT THIS LOCATION. PROVIDE EXTENSION OF RADIOEQUIPMENT GROUDING. EXTEND / MODIFY EXISTING EMERGENCYCIRCUIT TO NEW RECEPTACLE SHOWN.

E09 REPLACE EXISTING NON-GFCI RECEPTACLE IN PIT WITH NEW GFCIRECEPTACLE.



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1ST FLOOR

2ND FLOOR

208V DISTRIBUTION

300 KVA XFMR4.16KV-208Y/120V

3P/4W DELTA-WYE

XFMR

400 KVA XFMR4.16KV-480Y/277V

3P/4W DELTA-WYE

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LP-K1

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1000A3P

5kV PRIMARYFEED

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LOAD SUMMARY: SEE ABOVEEQUIPMENT SCHEDULE FOR TOTALLOADS ON EXISTING EQUIPMENT.

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BASEMENT

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PACKAGE EMERGENCYGENERATOR SET

80 kWSTANDBY RATED

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CONC. PAD

MCC-E

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GENERAL ELECTRICAL INSTALLATION NOTES

A. EXTERIOR ELECTRICAL WORK SHALL NOT ONLY BE WEATHERPROOF AND WATER-TIGHT, BUTSHALL ALSO BE RUST-RESISTANT.

B. PROVIDE XHHW-2 CONDUCTORS FOR ALL APPLICATIONS THAT ARE BELOW GRADE OR SUBJECTTO MOISTURE.

C. UNLESS INDICATED OTHERWISE, PROVIDE FULLY-RATED OR SERIES-RATED OVERCURRENTPROTECTION (OCP) AS REQUIRED TO COMPLY WITH ALL APPLICABLE REQUIREMENTS OF NFPA70. PROVIDE EQUIPMENT AND OCP RATED TO MEET OR EXCEED THE CALCULATED AVAILABLESERIES-RATED FAULT CURRENT AT THE RESPECTIVE NODE IN THE POWER DISTRIBUTIONSYSTEM. SERIES-RATED BREAKERS/SYSTEMS ARE NOT PERMITTED WHERE PROHIBITED BYPREVAILING CODES AND STANDARDS, INCLUDING APPLICATIONS INVOLVING MOTORCONTRIBUTION AS ADDRESSED IN ARTICLE 240.86(C) OF NFPA 70.

D. PROVIDE GROUNDING ELECTRODE CONDUCTORS IN STRICT COMPLIANCE WITH THE LATESTADOPTED EDITION OF THE NATIONAL ELECTRICAL CODE (NFPA 70), INCLUDING ARTICLE 250AND TABLE 250.66. THESE CONDUCTORS MAY OR MAY NOT BE INDICATED ON SINGLE-LINEDIAGRAMS, BUT SHALL BE PROVIDED UNDER BASE BID NEVERTHELESS.

E. PROVIDE EQUIPMENT GROUNDING CONDUCTORS IN STRICT COMPLIANCE WITH THE LATESTADOPTED EDITION OF THE NATIONAL ELECTRICAL CODE (NFPA 70), INCLUDING ARTICLE 250AND TABLE 250.122. THESE CONDUCTORS MAY OR MAY NOT BE INDICATED ON SINGLE-LINEDIAGRAMS, BUT SHALL BE PROVIDED UNDER BASE BID NEVERTHELESS.

F. LOCATIONS AND ROUTING INDICATED ON PLANS ARE SCHEMATIC AND DIAGRAMMATIC INNATURE. LAYOUT AND INSTALL ALL ELECTRICAL WORK IN STRICT COMPLIANCE WITH CHAPTER1, PART II, ARTICLE 110.26 OF THE LATEST ADOPTED EDITION OF THE NATIONAL ELECTRICALCODE (NFPA 70).

G. HOLD ALL NEW OVERHEAD ELECTRICAL WORK AS TIGHTLY AS POSSIBLE TO THE BOTTOM OFTHE OVERHEAD STRUCTURE. DO NOT INSTALL ANY ELECTRICAL WORK WITHIN SIX INCHES OFROOF DECKING.

H. LAYOUT ALL PROPOSED RACEWAY ROUTING, ELEVATIONS, INSTALLATION METHODS, ETC. ONCOORDINATION DRAWINGS AND COORDINATE ALL PROPOSED RACEWAY ROUTING WITH ALLAFFECTED TRADES PRIOR TO COMMENCING WITH WORK. IN ADDITION, REVIEW THEINFORMATION WITH ARCHITECT, ENGINEER AND OWNER FOR ALL AREAS WHERE THERACEWAYS WILL BE VISIBLE AFTER COMPLETION OF CONSTRUCTION.

I. REFER TO AND COORDINATE WITH POWER FLOOR PLANS, EQUIPMENT SCHEDULES (INCLUDINGEQUIPMENT COORDINATION SCHEDULES), DRAWINGS OF ALL TRADES, ALL DIVISIONS ANDSECTIONS OF SPECIFICATIONS AND INSTALLERS OF ALL TRADES. BASED ON ACTUALEQUIPMENT BEING PROVIDED, DETERMINE AND PROVIDE APPROPRIATE BREAKERS, FUSES,CONDUCTORS, CONTROLS, POWER DISTRIBUTION EQUIPMENT, ETC. PERFORM THESESERVICES PRIOR TO FURNISHING POWER DISTRIBUTION EQUIPMENT SUBMITTALS.

J. LOCATE JUNCTION AND PULL BOXES SO THAT THEY REMAIN ACCESSIBLE AFTER ALLCONSTRUCTION WORK IS COMPLETE. COORDINATE ALL WORK WITH ALL OTHER TRADES PRIORTO COMMENCEMENT OF THE WORK.

K. UNLESS INDICATED OTHERWISE, PROVIDE NEMA 3R ENCLOSURES FOR ALL OUTDOOREQUIPMENT AND ALL INDOOR EQUIPMENT THAT IS SUBJECT TO MOISTURE. PROVIDE NEMA 1ENCLOSURES FOR ALL OTHER INDOOR EQUIPMENT.

L. PROVIDE FLUSH MOUNTED EQUIPMENT FOR APPLICATIONS IN FINISHED AREAS ANDCOORDINATE THESE LOCATIONS AND INSTALLATIONS WITH ARCHITECT, OWNER AND AFFECTEDTRADES. ELSEWHERE PROVIDE SURFACE MOUNTED EQUIPMENT UNLESS FLUSH MOUNTEDEQUIPMENT IS NEEDED TO ACCOMMODATE UNUSUAL CONDITIONS.

M. IN ADDITION TO PANEL LABELING REQUIRED WITHIN THE SPECIFICATIONS, EACH PANEL SHALLALSO BE LABELED WITH ITS CORRESPONDING MAXIMUM AIC (AVAILABLE INRUSH CURRENT) ASINDICATED NEXT TO EACH PANEL ON THIS PLAN PER NEC REQUIREMENTS.

N. PROVIDE LUGS, LUG KITS AND RELATED ACCESSORY WORK AS REQUIRED TO ACCOMMODATETHE CONDUCTOR SIZES AND QUANTITIES NEEDED FOR EACH APPLICATION. COORDINATE WITHSINGLE-LINE DIAGRAM, FIELD CONDITIONS, ETC.

O. PROVIDE THE FOLLOWING SUPPLEMENTAL WORK FOR ALUMINUM-CONDUCTOR ELECTRICALEQUIPMENT CONNECTIONS, REGARDLESS OF WHO FURNISHES THE EQUIPMENT: REVIEWEQUIPMENT SUBMITTALS, INSTALLATION DOCUMENTS AND NAMEPLATES TO DETERMINE IFTHERE ARE ANY WARRANTY OR UL LIMITATIONS REGARDING COPPER VERSUS ALUMINUMWIRING CONNECTIONS AT EQUIPMENT; IF THERE ARE ANY LIMITATIONS, PROVIDE LOCALDISCONNECT AT OR NEAR EQUIPMENT (EXTERNAL TO THE EQUIPMENT) AND TERMINATEALUMINUM CONDUCTORS TO THE LINE-SIDE LUGS/TERMINALS OF THE DISCONNECT SWITCH;PROVIDE COPPER CONDUCTORS FROM LOAD-SIDE LUGS/TERMINALS OF THE DISCONNECTSWITCH TO THE RESPECTIVE EQUIPMENT FACTORY DISCONNECT OR LUG/TERMINALS ASAPPLICABLE; COORDINATE ALL RELATED WORK WITH ALL AFFECTED INSTALLERS.

P. PRIOR TO COMMENCEMENT OF WORK, TRACE ALL FEEDERS AND BRANCH CIRCUITS WITHIN THEPROJECT AREA, AND AFFECTED BY THE PROJECT, AND DOCUMENT THE RESULTS. DETERMINEAND DOCUMENT EXISTING LOADS FOR ALL CIRCUITS AND FEEDERS WITH LOADS THAT WILLREMAIN. CREATE CURRENT AS-BUILT DIRECTORIES FOR ALL POWER DISTRIBUTION EQUIPMENT.LIKEWISE, DETERMINE AND DOCUMENT ROUTING AND SPECIFICS FOR ALL RELEVANT EXISTINGCONDUITS AND PATHWAYS FOR ALL SYSTEMS. SUBMIT THIS INFORMATION TO OWNER ANDDESIGN PROFESSIONALS AS INFORMATIONAL SUBMITTALS.

Q. HOME-RUN DESIGNATIONS INDICATED ON PLANS ARE SCHEMATIC DESIGNATIONS ONLY.DETERMINE EXACT CIRCUIT ASSIGNMENTS IN FIELD BASED ON FIELD CONDITIONS. PROVIDECOLOR-CODED CONDUCTOR INSULATION ACCORDINGLY, CODED PROPERLY DEPENDING ONSYSTEM, PHASE, NEUTRAL, ETC. PROVIDE EQUIPMENT AND PANELBOARD SCHEDULES THATACCURATELY INDICATE INSTALLED CONDITIONS.

R. IN CASES WHERE NEW LOADS ARE INDICATED TO BE CONNECTED TO EXISTING CIRCUITS WITHEXISTING LOADS, CHECK RESULTANT LOAD IN ADVANCE TO ENSURE COLLECTIVE LOAD DOESNOT EXCEED 80 PERCENT OF THE SOURCE CIRCUIT BREAKER AMPERE RATING. IF THAT LOAD ISEXCEEDED, PROVIDE ADDITIONAL CIRCUIT HOME-RUN WORK TO SOURCE PANELBOARD(S) ASREQUIRED TO ACCOMMODATE THE ENTIRE RESULTANT LOAD. DETERMINE ALL APPLICABLECONDITIONS IN FIELD PRIOR TO COMMENCEMENT OF WORK.

S. IN CASES WHERE EXISTING CIRCUITS ARE REUSED (BASED ON INFORMATION SHOWN ONDRAWINGS OR BASED ON FIELD CONDITIONS) BUT MUST BE CONNECTED TO BREAKERS OTHERTHAN THEIR ORIGINAL BREAKER, MODIFY COLOR-CODING AS REQUIRED IF THE NEW BREAKERASSIGNMENT IS CONNECTED TO A DIFFERENT LINE/PHASE THAN THE ORIGINAL ONE. USEMEANS AND METHODS COMPLIANT WITH NFPA 70 AND WITH AUTHORITIES HAVING JURISDICTION.

T. PROVIDE NEW BRANCH CIRCUIT BREAKERS, TO MATCH EXISTING IN MANUFACTURER, MODELAND AIC RATING, AS REQUIRED TO RENDER ALL NEW AND MODIFIED ELECTRICAL WORK FULLYOPERATIONAL.

U. PERFORM FEEDER TAPS IN ACCORDANCE WITH NFPA 70. PERFORM FEEDER TAPS TOPARALLELED-SET FEEDERS BY RESPECTIVELY TAPPING ALL PHASE, GROUNDED ANDGROUNDING CONDUCTORS TO ENSURE UNIFORM CURRENT FLOW IN ALL SETS.

V. PROTECT EXISTING ELECTRICAL WORK SERVING EXISTING SPACES AND EQUIPMENT THAT MUSTREMAIN OPERATIONAL DURING PART OR ALL OF THE CONSTRUCTION PERIOD, AND ENSUREPOWER CONTINUITY IS MAINTAINED FOR SAME THROUGHOUT DURATION OF CONSTRUCTIONACTIVITIES. SEE SPECIFICATIONS FOR FURTHER INFORMATION.

W. AMPERE RATINGS INDICATED ON DRAWINGS FOR CIRCUIT BREAKERS ARE SHOWN TO DEFINEOVERCURRENT REQUIREMENTS/TRIP RATINGS. PROVIDE BREAKER FRAMES IN SIZES ANDTYPES GREATER THAN THE DESIGNATED OVERCURRENT TRIP RATINGS WHERE NECESSARY TOACHIEVE THE REQUIRED SELECTIVE COORDINATION, AND/OR AS NECESSARY FOR OTHERAPPLICABLE REASONS.

X. FOR ALL CIRCUIT BREAKERS WHERE THE CURRENT TRIP SETTING IS RATED AT, OR CAN BEADJUSTED TO, 1200A OR LARGER, PROVIDE DOCUMENTATION AS TO THE LOCATION OF THESECIRCUIT BREAKERS IN THE SYSTEM AND PROVIDE AT LEAST (1) OF THE (4) MEANS TO REDUCETHE CLEARING TIME AS NOTED IN ARTICLE 240.87(B) OF NFPA 70.

225A

225A FUSE

XC-230-4C

225A

225A FUSE

XC-230-4C

225A

225A FUSE

XC-230-4C

100A

!XC-95-4C

THERMALMAGNETIC

MAIN LUGSONLY

MAIN LUGSONLY

MAIN LUGSONLY

225A

XC-230-4C

THERMALMAGNETIC

100A

!XC-95-4C

THERMALMAGNETIC

225A

225A FUSE

XC-230-4C

MAIN LUGSONLY

20A

X20

THERMALMAGNETIC

125A

600A

XC-620-4C

100%ELECTRONIC LSI

125A

X125

THERMALMAGNETIC

600A, X6001000A, X1000

LP11E225A

XC-230-4C

MAIN LUGSONLY

11TH FLOOR

10TH FLOOR

225A FUSE

LP11225A

XC-230-4C

MAIN LUGSONLY

FLOORS 3 THROUGH 9

60A3P

ELEVATOR2

ELEVATOR1

100AF30AT

100AF30AT

RE-LOCATE ELEVATOR DISCONNECTSAS SHOWN ON NEW PLAN. UTILIZEEXISTING FEEDERS AND SHUNT TRIPCIRCUIT BREAKERS. PROVIDE NEWFUSES.



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ELECTRICPOWER

SINGLE LINEDIAGRAM

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NOTES:ALL CONDUIT SIZES INDICATED ARE MINIMUM SIZES. INCREASE SIZES AS REQUIRED TOACCOMMODATE CONDUCTOR PULLING EASE, FIELD CONDITIONS, ETC.

"CU" = COPPER CONDUCTOR, "AL" = ALUMINUM CONDUCTOR

TYPICAL EQUIPMENT NAME NOMENCLATURE:1 - POWER DISTRIBUTION SYSTEM (BLANK - NORMAL, E - EMERGENCY, S - STANDBY, L - LIFE SAFETY)2 - DESCRIPTION (H - 480Y/277V, L - 208Y/120V)3 - FLOOR / LEVEL4 - SEQUENCE

FEEDER ID NOMENCLATURE:* - INDICATES FEEDER SIZED TO COMPENSATE FOR VOLTAGE DROP1 - GROUND TYPE (MAY BE BLANK) U = EQUIPMENT GROUND CONDUCTOR REMOVED FOR SERVICE ENTRANCE FROM UTILITY P = PARITY-SIZED EQUIPMENT GROUND CONDUCTOR X = EXISTING FEEDER TO REMAIN UNLESS OTHERWISE NOTED T = UPSIZED GROUND CONDUCTORS FOR TRANSFORMER SECONDARY

2 - CONDUCTOR AMPACITY3 - TOTAL NUMBER OF PHASE AND GROUNDED ("NEUTRAL") CONDUCTORS4 - CONDUCTOR MATERIAL: C = COPPER, A = ALUMINUM5 - SPECIAL (MAY BE BLANK) I = ISOLATED GROUND (PROVIDE CONTINUOUS INSULATED ISOLATED EQUIPMENT GROUNDING CONDUCTOR(S) FROM INSULATED ISOLATED GROUND BAR(S) TO RESPECTIVEUPSTREAM SERVICE ENTRANCE OR DERIVED SYSTEM GROUNDING ELECTRODE CONDUCTOR AS APPLICABLE.

ELECTRIC SINGLE LINE EQUIPMENT SCHEDULE

EQUIPMENT PHASE EQUIPMENT TYPE SUPPLY FROMSPACE

NUMBER SPACE NAME VOLTAGE POLES WIRES DEMAND (kVA) DEMAND (A)MAINS

RATING (A)

MAINSFRAME

RATING (A) MAINS TYPE FEEDER ID FEEDER VD % LUGS TYPE SPD ULSEENCLOSURE

TYPE200%

NEUTRAL K-RATING

FAULTCURRENT

(A)

SHORTCIRCUIT

RATING (A) NOTES

UTILITY Existing Utility Transformer 480 3 0 A NEMA 1 17000

-- 480V DIST Existing Switchboard UTILITY 003 MECH 480 3 4 297.9 kVA 358 A 600 600 FUSED X600 EXISTING FEEDER, AT RATING INDICATED, TO REMAIN UNLESS NOTED OTHERWISE 0.066 Yes NEMA 1 17490 EXISTING

---- MCC Existing Switchboard 480V DIST 003 MECH 480 3 4 278.3 kVA 335 A 600 600 ELECTRONIC LSI XC-620-4C EXISTING FEEDER, (2) SETS OF (4) #350 KCMIL CU, (1) #1 AWG CU GND. IN 3" CONDUIT EACH 0.135 NEMA 1 17017 EXISTING

------ ATS Existing Automatic Transfer Switch MCC 480 3 4 50.1 kVA 60 A 125 125 X125 EXISTING FEEDER, AT RATING INDICATED, TO REMAIN UNLESS NOTED OTHERWISE 0.153 NEMA 1 16363 EXISTING

-------- MCC-E Existing Switchboard ATS 003 MECH 480 3 4 50.1 kVA 60 A 125 125 THERMAL MAGNETIC X125 EXISTING FEEDER, AT RATING INDICATED, TO REMAIN UNLESS NOTED OTHERWISE 0.156 NEMA 1 16277 EXISTING

---------- ELEVATOR 1 New Construction Fused Switch MCC-E 1101 ELEV MACHINE RM 480 3 4 15.0 kVA 18 A 30 30 FUSED !XC-95-4C EXISTING FEEDER, (4) #2 AWG CU, (1) #8 AWG CU GND. IN 1-1/2" CONDUIT 0.362 NEMA 1 6895 EXISTING

---------- ELEVATOR 2 New Construction Fused Switch MCC-E 1101 ELEV MACHINE RM 480 3 4 15.0 kVA 18 A 30 30 FUSED !XC-95-4C EXISTING FEEDER, (4) #2 AWG CU, (1) #8 AWG CU GND. IN 1-1/2" CONDUIT 0.358 NEMA 1 6908 EXISTING

---------- LP-SE Existing Branch Panelboard MCC-E 240 3 4 1.4 kVA 2 A 20 20 THERMAL MAGNETIC X20 EXISTING FEEDER, AT RATING INDICATED, TO REMAIN UNLESS NOTED OTHERWISE 0.178 NEMA 1 7211 EXISTING

UTILITY Existing Utility Transformer 208 3 0 A NEMA 1 17000

-- 208V DIST Existing Switchboard UTILITY 003 MECH 208 3 4 221.9 kVA 616 A 1000 1000 FUSED X1000 EXISTING FEEDER, AT RATING INDICATED, TO REMAIN UNLESS NOTED OTHERWISE 0.143 Yes NEMA 1 16572 EXISTING

---- LP11E Existing Branch Panelboard 208V DIST 1100 MECH 208 3 4 13.9 kVA 39 A 60 60 FUSED XC-95-4C EXISTING FEEDER, (4) #2 AWG CU, (1) #8 AWG CU GND. IN 1-1/2" CONDUIT 0.143 NEMA 1 3989 EXISTING EXISTING SQUARE D NQOD

---- 208V BUS Existing Busway/Busduct 208V DIST 003 MECH 208 3 4 208.0 kVA 577 A 1000 1000 THERMAL MAGNETIC XC-MANUAL EXISTING, 1000A 3-PHASE, 4-WIRE CU BUSWAY WITH 100% GROUND AND 100% NEUTRAL 0.187 NEMA 1 16432 EXISTING

------ LP11 Existing Branch Panelboard 208V BUS 1100 MECH 208 3 4 14.6 kVA 41 A 100 100 FUSED XC-95-4C EXISTING FEEDER, (4) #2 AWG CU, (1) #8 AWG CU GND. IN 1-1/2" CONDUIT 0.46 NEMA 1 3986 EXISTING EXISTING SQUARE D NQOD

------ LP-2 Existing Branch Panelboard 208V BUS 208 3 4 28.4 kVA 79 A 225 225 FUSED XC-230-4C EXISTING FEEDER, (4) #4/0 AWG CU, (1) #4 AWG CU GND. IN 3" CONDUIT 0.394 NEMA 1 12948 EXISTING

------ LP-B Existing Branch Panelboard 208V BUS 003 MECH 208 3 4 31.8 kVA 88 A 225 225 FUSED XC-230-4C EXISTING FEEDER, (4) #4/0 AWG CU, (1) #4 AWG CU GND. IN 3" CONDUIT 0.395 NEMA 1 13061 EXISTING

------ LP-K1 Existing Branch Panelboard 208V BUS 208 3 4 31.7 kVA 88 A 225 225 FUSED XC-230-4C EXISTING FEEDER, (4) #4/0 AWG CU, (1) #4 AWG CU GND. IN 3" CONDUIT 0.445 NEMA 1 12867 EXISTING

------ LP-1 Existing Branch Panelboard 208V BUS 208 3 4 41.9 kVA 116 A 225 225 THERMAL MAGNETIC XC-230-4C EXISTING FEEDER, (4) #4/0 AWG CU, (1) #4 AWG CU GND. IN 3" CONDUIT 0.329 NEMA 1 14401 EXISTING

-------- LP-1A Existing Branch Panelboard LP-1 208 3 4 14.1 kVA 39 A 100 100 THERMAL MAGNETIC XC-95-4C EXISTING FEEDER, (4) #2 AWG CU, (1) #8 AWG CU GND. IN 1-1/4" CONDUIT 0.353 NEMA 1 13556 EXISTING

------ LP-K Existing Branch Panelboard 208V BUS 208 3 4 59.7 kVA 166 A 225 225 FUSED XC-230-4C EXISTING FEEDER, (4) #4/0 AWG CU, (1) #4 AWG CU GND. IN 3" CONDUIT 0.647 NEMA 1 12917 EXISTING

-------- LP-KA Existing Branch Panelboard LP-K 208 3 4 27.5 kVA 76 A 100 100 THERMAL MAGNETIC XC-95-4C EXISTING FEEDER, (4) #2 AWG CU, (1) #8 AWG CU GND. IN 1-1/4" CONDUIT 0.887 NEMA 1 9688 EXISTING




PANEL TOTALS




Motor 4306 VA 119.89% 5163 VA


Misc 2920 VA 100.00% 2920 VA


Continuous 310 VA 125.00% 388 VA


4

3

2 60 A 3 (EX) LP11E 13.90 kVA

1 1000 A 3 208V BUS 33.88 kVA


NOTES:



MAINS TYPE: FUSED ULSE: Yes




SUPPLY FROM: UTILITY FAULT CURRENT (A): 16572

SWBD: 208V DIST




PANEL TOTALS




Motor 175880 VA 104.82% 184350 VA


Misc 0 VA 0.00% 0 VA


Continuous 0 VA 0.00% 0 VA


4

3

2 30 A 3 (EX) PP-FC 19.60 kVA

1 600 A 3 MCC 175.88 kVA


NOTES:



MAINS TYPE: FUSED ULSE: Yes




SUPPLY FROM: UTILITY FAULT CURRENT (A): 17490

SWBD: 480V DIST



12/20/17

UP

T

UP

T

UP

L

M N O P Q

WALL MOUNTEDDS-1

DS-1

ON ROOFCU-1

CAP EXISTINGDUCT

M02

STAIR A

S1100

STAIR B

S1101

MECH

1100

ELEV MACHINE RM

1101

M04

L

M N O P Q

ON ROOFCU-1

WALL MOUNTEDDS-1

DS-1

M03

STAIR A

S1100

STAIR B

S1101

MECH

1100

ELEV MACHINE RM

1101

L

M N O P Q



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MECHANICALDUCTWORK

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1/8" = 1'-0"M-100

2 MECHANICAL DUCTWORK - LEVEL 11

KEYED NOTESM02 CONNECT NEW DUCTWORK TO EXISTING MAIN.

M03 ROUTE 3/4" CONDENSATE TO NEAREST FLOOR DRAIN.

M04 REBALANCE FAN TO ACCOMMODATE FOR ADDITIONAL CFM.

1/8" = 1'-0"M-100

1 MECHANICAL PIPING - LEVEL 11

1/8" = 1'-0"M-100

3 MECHANICAL - LEVEL 11



12/20/17

8

7

6

5

44

3

2 2

11

KEYED NOTES:1. CONNECT TO STRUCTURE (TYPICAL).2. GALVANIZED THREADED HANGER RODS

(TYPICAL). SEE SPECIFICATIONS.3. UNISTRUT.4. PLATED NUT & WASHER (TYPICAL).5. CONTINUOUS INSULATION AS SPECIFIED,

(TYPICAL).6. CHANNEL MOUNTED CLAMPING SYSTEM (TYPICAL).7. SPACER SIZED TO PREVENT COMPRESSION

OF INSULATION.8. PLATED DOUBLE NUT AND WASHER.

6

54

3

2

1

1. DX COOLING COIL2. CONDITIONED OUTLET AIR3. AIR FILTER4. FAN MOTOR5. 3/4" CONDENSATE DRAIN WITH TRAP6. REFRIGERANT LINES (NOT TO BE EXPOSED

TO OCCUPANT), MAXIMUM PIPING LENGTHEQUAL TO 100FT. MAXIMUM ELEVATIONDIFFERENCE EQUAL TO 50 FT. INSULATESUCTION AND LIQUID LINES.

7. OUTLET LOUVER8. INLET AIR

7

8

SIDE VIEW

KEYED NOTES:

WALL

FRONT VIEW

3'-0" MINIMUM CLEARANCEFOR SERVICE AND AIR FLOW.



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M-601

MECHANICALDETAILS &

SCHEDULES

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DCMCSDCNTSC/BFUSEFLAMCACP

LOCAL DISCONNECTMOTOR CONTROL (POWER)DUCT SMOKE DETECTORCONTROLSTOGGLE SWITCHH.A.C.R. CIRCUIT BREAKER AT SOURCE PANELBOARDFUSE AT LOCAL DISCONNECT (VERIFY FIELD RATING)OPERATING FULL LOAD AMPSMINIMUM CIRCUIT AMPACITYCORD AND PLUG CONNECTION

ECEXFCGCHCMFRPCOR

ELECTRICAL CONTRACTOREXISTINGFIRE PROTECTION CONTRACTORGENERAL CONTRACTORHVAC CONTRACTORMANUFACTURERPLUMBING CONTRACTOROWNER OR OTHERS

CSMCCMGMSVFDMSROV

COMBINATION STARTERMOTOR CONTROL STARTERMAGNETIC STARTER OR CONTACTMANUAL STARTERVARIABLE FREQUENCY DRIVEMANUAL STARTER W/ CONTROL RELAYOVERCURRENT PROTECTION

TCCPTBASLOWLINERLINEMANFACOINT

TIMECLOCKCONTROL POWER TRANSFORMERBUILDING AUTOMATION SYSTEMLOW VOLTAGE CONTROLSLINE VOLTAGE CONTROLSREVERSE ACTING LINE VOLTAGE THERMOSTATMANUALFIRE ALARMCARBON MONOXIDE SENSORINTEGRAL TO EQUIPMENT

ABBREVIATIONS CONTRACTOR TYPE MOTOR CONTROL TYPE CONTROL TYPE

HVAC ELECTRICAL COORDINATION SCHEDULE

EQUIPMENT MARK DESCRIPTION VOLTS (V) PHASE EMERGENCY BHP (HP) HP (HP) HTG (kW) WATTS FLA (A) MCA (A) OCP (A) DC TYPE DC FURN DC INST DC WIRE MC TYPE MC FURN MC INST MC WIRE CN TYPE CN FURN CN INST CN WIRE SD TYPE

CU-1 DUCTLESS SPLIT OUTDOOR CONDENSING UNIT 208 1 18.3 20 EC EC EC MG MFR MFR MFR LOW MFR MFR MFR

DS-1 DUCTLESS SPLIT HIGH WALL UNIT 208 1 EC EC EC MG MFR MFR MFR LOW MFR MFR MFR

HVAC AIR COOLED CONDENSING UNIT SCHEDULE

Equipment Mark DESCRIPTION LOCATION WEIGHT (lbs) MANUFACTURER MODEL EER SEER VOLTS PHASE NOMINAL TONSMAT CLG DB

(Deg F) CLG MBH (mbh) MCA (amps) OCP (amps)

CU-1 DUCTLESS SPLIT OUTDOOR CONDENSING UNIT ROOF 106 DAIKIN RX24NMVJU 12.5 18 208 1 2 0 24 18.3 20

HVAC DUCTLESS SPLIT SYSTEMS (INDOOR UNITS) SCHEDULEEQUIPMENT

MARK DESCRIPTION LOCATION FED FROM WEIGHT (lbs) MANUFACTURER MODEL VOLTS PHASE CFM (cfm) ESP (in WC) NOMINAL TONS CLG MBH (mbh)

DS-1 DUCTLESS SPLIT HIGH WALL UNIT ELEVATOR MACHINE CU-01 26 DAIKIN FTK24NMVJU 208 1 500 0.25 2 24

NOTE: INDOOR UNIT IS POWERED FROM OUTDOOR UNIT.

SCALE: NONE

230529.00-02 - REFRIGERANT PIPING SUPPORT

SCALE: NONE

238126.00-06 - DUCTLESS AIR CONDITION UNIT WALL



12/20/17

SCALE:

CONDENSING UNIT UNIT MOUNTING DETAIL (EQUAL TO BIGFOOT FIT-IT FOOT FRAME SYSTEM)

NONE

238126.03

A. ON PROJECTS WITH BUILT -UP ROOFS, ADD

CANT ON EQUIPMENT SUPPORTS AND

PREFABRICATE PIPING CHASE

B. PLACE EQUIPMENT ACROSS BAR JOIST OR

ADD ADDITIONAL STRUCTURAL STEEL AS

NECESSARY TO CARRY EQUIPMENT WEIGHT

C. LOCATE A MINIMUM OF 10'-0" FROM EDGE OF

ROOF

GENERAL NOTES:

1. ADJUSTABLE LEG ASSEMBLY WITH ADHERED RUBBER

MATS. ANGLED MATS SHALL BE USED WHEN REQUIRED

TO MATCH ROOF SLOPE. MINIMUM HEIGHT ABOVE

ROOF TO SHALL BE 12".

2. CLAMP KIT

KEYED NOTES:

PLAN VIEW

ISOMETRIC VIEW

SECTION VIEW

K = MINIMUM OF 1/2"M = 1/2" PLUS MAXIMUM TOTAL STATIC

PRESSURE

H = (1" FOR EACH 1" OF MAXIMUMNEGATIVE STATIC PRESSURE) + 1"J = HALF OF HL = H + J + PIPE DIAMETER + INSULATION

NOTE: OUTDOOR UNITS AND UNITS LOCATED IN UNCONDITIONED SPACES WHICH PROVIDE COOLING INTHE WINTER MUST HAVE HEAT TRACE ON THE CONDENSATE PIPING.

E. PROVIDE UNION UPSTREAM AND DOWNSTREAM OF TRAP.

NEGATIVE PRESSURE

POSITIVE PRESSURE

L

J

CAP

CAP

PIPE FULL SIZEOF AIR UNIT DRAINCONNECTION

AIR UNIT CASING

SEE NOTE 2

FLOW

H

GENERAL NOTES:

M

CAP

CAPPIPE FULL SIZEOF AIR UNIT DRAINCONNECTION

AIR UNIT CASING

SEE NOTE 2

FLOW

K

A. LOCATE TRAPS SO AS TO BEACCESSIBLE FOR CLEANING.

B. CONDENSATE PIPING SHALLGRADUALLY SLOPE DOWN FROMDRAIN TRAP.

C. CONFIRM TRAP REQUIREMENTS WITHEQUIPMENT MANUFACTURER.

D. REFER TO SPECIFICATIONS FORMATERIAL AND INSULATIONREQUIREMENTS.

SCALE: NONE

232113.23-05 - CONDENSATE DRAIN TRAP POSITIVE & NEGATIVE

MECHANICAL LEGEND

SYMBOL DESCRIPTION

PLAN-VIEW LINE TYPESWORK SHOWN FADED INDICATES EXISTING WORK TO REMAIN OR NEW WORK BY OTHERSAS APPLICABLE

WORK SHOWN BOLD-DASHED INDICATES SELECTIVE DEMOLITION WORK

WORK SHOWN BOLD-CONTINUOUS INDICATES NEW WORK

PIPING LINE TYPES

RLREFRIGERANT LIQUID

RSREFRIGERANT SUCTION

CDCONDENSATE DRAIN

MECHANICAL DUCTWORK

SUPPLY DUCT WITH ELBOW TURNED UPUP

SUPPLY DUCT WITH ELBOW TURNED DOWNDN

RETURN DUCT WITH ELBOW TURNED UPUP

RETURN DUCT WITH ELBOW TURNED DOWNDN

EXHAUST DUCT WITH ELBOW TURNED UPUP

EXHAUST DUCT WITH ELBOW TURNED DOWNDN

EXHAUST DUCT24X12 EA

OUTSIDE AIR DUCT24X12 OA

BRANCH TAKEOFF

REDUCER, CONCENTRIC

REDUCER, NONCONCENTRIC

MECHANICAL STATS & SENSORS

LOW VOLTAGE THERMOSTATT



513-745-2037


DATE

WW

W.K

LH

EN

GR

S.C

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AN

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L/E

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12/20/17



513-745-2037


DATE

WW

W.K

LH

EN

GR

S.C

OM

ME

CH

AN

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L/E

LE

CT

RIC

AL E

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12

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1496 D

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January 2018

CJS KTW



12/20/17



513-745-2037


DATE

WW

W.K

LH

EN

GR

S.C

OM

ME

CH

AN

ICA

L/E

LE

CT

RIC

AL E

NG

INE

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S

15

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AX

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ON

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KLH PROJ #:19960.00

12

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CJS KTW



12/20/17