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LA PORTE POLICE DEPT BUILDING PLANS
����� Revniens Rev. Dote Desuip5on 3-28-06 .. tOOS Design �,�_.�. Devebpme�d ' Reriew Only 1 �- 5-02-06 INTERIM REVIEW SET 2 5-70-06 FlNAL CONSDiUC11ON DOCUMENTS COORDINATION SEF 3 6-1-06 FlNAI. CONStRUCDON DOCUMENTS COORDINATION 4 6-70-06 FOR CONSR2UCt1ON 5 17-20-06 REN9ON W W Z U �� O Date: 6-30-06 Project No. 400131 Drawn fay: TMF Checked Ety: ES Sheet Title: MECHANICAL FLOOR PLAN AREA A Reinions Rev. Dote Desaiplion 0 ..�-3-2g_O5 1O0X Design Oevebpment Review Onh' 1 5-02-06 INIEPoM REVIEW SEf 2 5-70-06 FlNN. CONSIRUCfION DOCUMENTS COOTiDINR71ON SET 3 6-t-O6 FlNN. CONSTRUCRON DOCUMENTS COWmINAT1ON SEf 4 6-3O-OG fDR CONSTRUCTION 5 ii-2O-O(i REN9ON \� WD I- -� �� Om I- cn Q� Q �W W � �� O� w � �-- i� � �� � W �- UD Q WW =U �� O AREA 'B' AREA 'A' KEY PLAN C� Date: 6-30-06 Project No. 400131 Drawn Dy: TM F Checked By: ES sheet rue: MECHANICAL FLOOR PLAN AREA B T � N M1�2 TRANSITION FROM FAN IONIZATION DETECTOR CONNECTION TO SUPPLY 2000CFM OF GREATER L�,FOgFjD DUCT SIZE, REFER TO BY FIRE ALARM RETURN AIR DUCT FLOOR PLAN CONTRACTOR, REFER TO FLOOR WALL SLEEVE LOUVER ISOLATION MINIMUM (4) 3/8' IETTIAT�I INSULATED FLEX DUCT A''``�tLL I FLEXIBLE PLAN FOR SIZE, VALVE SUPPORT RODS FLEXIBLE DUCT ATTACHED TO MAXIMUM LENGTH AS SPECIFIED CONNECTION CONNECTOR STRUCTURE (TYPICAL) CEILIN V CHILLED WATER PIPING REFER TO OUTSIDE AIR SET AT EDGE OF FLOOR PLAN FOR) DUCT REFER TO CHAMFER SPIIN- TAP W TH VpLUME DAMPER, CONTINUATION FLOOR PLAN FOR RETURN AIR FLO Ei A PR❑V1NE YOUN REGULATOR IF DAMPER IS LOCATED IN AN INACCESSIBLE D CONTINUATION LOCATION, INSULATED FRAMED FULL CAULK DD II DUCT TAPEAONS�UTER�JACKNR, (TYPICAL) CONDENSATE SIZED SHEET METAL PLENUM. T❑ADET SUPPLY FAN CABINET ILE� POT FEEDER SPII��� GG pp ECIFIEDYBY 'A CHITECT `-SCHEDULED A R EEVI EE, ACTUAL DEVICE �CH NOTE: UNIT MOUNTED FILTER ACCESS PANEL RET FLOOR PLAN FOR ROTATE MOTOR TO DUCT SIZE, PROVIDE AIR DU/C MAY VARY FROM AIR EV CE SHOWN, ACTUAL WALL OPENING SHALL BE EXACTLY AS LOUVER SIZE SIDE POSITION WHEN TRANSITION AS REQ'D INSTALLED ABOVECEILING (TYPICAL) NOTE: SUPPORT FLEX DUCT FROM STRUCTURE AS SPECIFIED ON 4' CONCRETE 4 CONCRET BLOCKS WITH HOUSEKEEPING SHOWN, LOWER IS UNDERSIZED 1/4', DUCT SHALL NOT KINK, SAG OR REST ON LIGHT FIXTURES, NEOPRENE PAD FLEXIBLE CONNECTION CEILING SUPPORT TEES OR TILE, PAD 1 TYPE IN —LINE EXHAUST FAN 2 AIRS: DEVICE IN ACCESIBLE CEILING 3 AIR UNIT TYPICAL LOUVER DETAIL POT FEEDER DETAIL NOT TO SALE LE NOT TONOT 4 5 NOT TOS�HANDLING ALE TO SCALE NOT TO SCALE ACCESS PANEL ROOF EXTERIOR WALL R-6 DUCT DRYER TRIPLE DUTY VALVE — PIPE WRAP INSULATION FAN SHUT OFF VALVE ROUTE TO WALL 400 DUCT DRYER VANS FLEXIBLE COUPLING PROVIDE MISC. _ LOUVER PETE PLUG GALV, ANGLE OR 1 1/2 x 1 1/2 x 3' BAS '/ PRESSURE GAUGE UNISTRUT BOLTED ANGLE W/ (2) 5/16' CEILING PUMP STATUS (TYP,) MOUNT ALL GAUGES AT SAME TO STRUCTURE ABOVE HEX HEAD SCREWS, FAN CABINET 4' RIGID SHEET METAL 2'-0' MIN, HEIGHT, OR W/ WELD, (MIN, OF 3 PLACES) PROVIDE71 P❑P-RIVET JOINTS TO MAINTAIN SMOOTH COUPLING GAURD CLAMP AT INNER SURFACE, SUCTION DIFFUSER MOTOR GALV, ALL THREAD ONNECTI❑N TO SEAL WITH HARDCAST WITH BASKET STRAINER SADDLE ROD SIZE PER MFGR NIT AND UCT DT TAPE AND FTA-20 REMOVAL SPACE RECOMMENDATIONS GALV, ANGLE • • ADHESIVE 1-1/4' PIPE UNISTRUT TRAPEZE CEILING CONCRETE DRYER FLEXIBLE DUCT ADJUSTABLE FOOT "` `"'`"""``` REDUCER CLG. PLANK GRILLE. SIZED AS — RE. ARCH TO DRYER (6'-0' OVERALL LENGTH) GROUT PUMP BASE HOUSEKEEPING PAD AFTER FIELD ALIGNMENT— RET SPEC'S SHOWN ON DRAWING, � HARD PIPE INSIDE NOTE. CONTRACTOR SHALL SECURE STRUCT, ENGR, APPROVAL 10 GAGE PLATE PERFORATED W/ CEILING --- WALL FOR ANY AND ALL PIPE MOUNTING DETAILS TO CONCRETE OR STEEL STRUCTURE, 5/16' HOLES ON 7/16' CENTERS EXHAUST GRILLE PROVIDED W/ EXHAUST FAN 6 IMTAX. SECURITY GRILLLE 7 CEILING MOUNTED EXHAUST FAN DRYER EXHAUST TO LOUVER ENDTO SUCTION PUMP DETAIL I� 2—PIPI SCALE g g � o f KfRtETRAPEZE NOT TO SCALE NOT TO�ALE 1' ACOUSTICAL DUCT, LINED AS REQUIRED TO REDUCE 3 WAY MODULATING NOISE TO SPECIFIED VALUE TERMINAL BOX AIR VENT COOLING/ HEATING TING UNION FOR 2' AND UNDER CONTROL VALVE THERMOMETER (TYPICAL) FLANGES FOR 2 1/2' AND B&G CIRCUIT SETTER LARGER INSULATED PI RIm ALANCING VALVE, HEATERRe F H FLOW SWITCH PRESSURE GAUGE (TYPJ 4'-0' MINIMUM AIR COOLED CONDENSING UNIT FAN SHUT-OFF AIR COOLED CHILLER CLEARANCE W4X16 STEEL BEA�1 PIPE SADDLE, (TYP,) VALVE PETE'S PLUG BALL VALVE FOR 2' AND UNDER, BUTTERFLY VALVE BUILT-IN SOUND MANUAL AIR FOR 2 1/2' AND LARGER (TYPICAL), 30 SCHEDULE 40 PI Fs VENT W/CAP BACK DRAFT DAMPE I FILLET WELD \ i RETURN (4) 5/8'X4' LONG ANCHOR REDUCER WHERE REQUIRED t\ BOLTS (GALVANIZED) 3' SLIP ON FLA RIGID PLENUM AIR FLOW METAL DUCT MIN. FT.� t DRAIN VALVE _ AHU "� UNION FOR 2' AND UNDER AID COIL / 181 MAXIMUM LENGTH GRADE '<`. ° �' a SUPPLY i FLEXIBLE DUCT, CONCRETEWWK2Lfd r6' THICK PAD ' SHEET METAL SPIN -I MAIN DUCT HOUSEKEEPING SHUT-OFF — VALVED &CAPPED I BALANCING VALVE WITH DRAIN DIFFERENTIAL PRESSURE CONICAL FITTING PAD BY G,C, CHILLER ENTERING & LEAVING - -- VALVE STRAINER TAPS AND MEMORY STOP, / L FOR BRANCH DUCT SIZE, RIBBED TEMPERATURE NEOPRENE PADS DRYER SITE GLASS CORE NOTE: 1, THIS DETAIL IS SCHEMATIC ONLY, CONTRACTOR SHALL FIELD COORDINATE ACTUAL PIPING SEE FLOOR PLANS, N❑TET PR❑VIDE 4'-0' MINIMUM FOR AIR FLOW AND SERVICE INSTALLATION DETAILS. N❑TETHOT DIP GALVANIZED 2, INSTALL 3 WAY CONTROL VALVE ORIENTATION PER AFTER FABRICATION CLEARANCE AROUND UNIT, MANUFACTURER INSTALLATION INSTRUCTIONS, I11 POWERED VAV UNIT DETAIL FANSALE I 12 JAIRSCALE COOLED CHILLER DETAIL 11312ONDENSING UNIT COOLING/HEATING COIL 3CALE NOTITPSE SUPPORT AT GRADE NOT TO 14 5 NOT TO N TO SCALE TToWAY SCALE Rev. Dote DesaipUon 3-28-06 7DOX Design Dmiopment F"mA Onty 1 5-02--06 INn7UM REVIEW SET 2 5-10-06 FlN4L CONSIRUMON DOCUMENTS COORDIPATION SET 3 8-1-OS FlNpE CONSTRUCTION DOCUMENTS CDORDINAMON SET 4 6-30-06 FOR CONSTRUCTION U W DII J O Q �W x O W a- UO Q W W Z U O U Dace: 6-3)-06 Project No. 400131 Drawn Dy: TM F Checked By: ES sneer rue: DETAILS MU01 AIR HANDLING UNIT SCHEDULE MARK AHU-1 AHU-2 AHU-3A AHU-38 SUPPLY AIR (CFM) 13,140 18,3B2 Z600 3,600 OUTSIDE AIR (CFM) Z613 6,026 560 600 EXT. SP,(IN. WG) 1.0 1.0 1.0 1.0 VOLTS/PH/HZ 460/3/60 460/3/60 460/3/60 460/3/60 FAN MOTOR HORSEPOWER 15 15 3 5 MAX FAN RPM 968 682 1718 1495 MAX COIL FACE VEL (FPM) 494.5 50D 440.7 497.4 1 COOLING COIL AIRFLOW (CFM) IZ640 18,782 Z600 3,B00 MIN, ROWS/ MAX FINS PER INCH. 6/11 6/14 6/11 6/11 EAT DB/WB (T) 822/65.6 86.1/6&7 80/65.7 80/6597 LAT DB (T) 54.07 53.12 53.7 53.97 GRAND TOTAL (MBH) 477.26 925.12 97.86 141.16 TOTAL SENSIBLE (MBH) 388.75 677,33 74.77 108.17 EWT/LWT (T) 44/56 45/55 45/55 45/55 WATER FLOW (GPM) 100 185 19.6 28.2 MAX WATER P.D (FT. WO) 10.0 13,5 8.3 15.4 MANUFACTURER CARRIER CARRIER CARRIER CARRIER MODEL NO. 39MN30 39MN40 39MND6 39MNOB NOTES 1,2,14 1,3,7,8 1,3,7,8 1,3,7,8 NOTES 1. AHU-1 do 2 WILL WD 2. AHU-3A do 38 WILL NEED MOTOR STARTED BY ELECTRICIAN? CHILLER SCHEDULE MARK CH-1 k 2 TONS 74.4 COOLER EWT/LWT 54/44 P.D. FT. 15.5 FOULING FACTOR 0,0DD1 CONDENSER GPM 178.E FT. 11.61 FODUNG FACTOR 0.00025 IPLV 13.98 EER KW/TON 1.250 V01T/PHASE/CYCLE 480/3/60 MANUFACTURER CARRIER MODEL N0. 3OXA080 MCA 157.7 MOCP 20D N07E WAS NOTES: i. 110 VOLT 20 AMP CIRCUIT 0 EACH 2 FAN SCHEDULE MARK EF-1 EF-2 & 2A EF-3 EF-4 EF-5 EF-6 EF-B EF-9 EF-10 EF-11 SEF-1 SSF-1 TYPE INLINE CEILING INLINE CEILING INLINE INLINE DRYER INLINE INLINE INLINE INLINE INLINE CFM 975 150 585 75 375 20020 --- 750 150 750 14,505 8,703 E.S.P. IN W.G. .75 .25 .375 .25 .375 .5 1.6 MAX .5 .25 ,5 2 2 HORSEPOWER 822 watts 129 watts 350 watts 50 watts 144 watts .5 78 watts 455 watts 129 watts 455 watts 10 7,5 RPM <MAX.) 1,450 10050 10100 700 1,350 1,140 2,761 1,095 1,05O 10095 1,725 1,725 SONES (MAX.) 5 35 3.5 3 31 546 --- 4,7 3.5 4,7 24 16,8 VOLTS/PHASE/HERTZ 115/1/60 115/l/60 115/i/60 115/l/60 115/i/60 115/l/60 115/l/60 115/l/60 115/l/60 115/l/60 460/3/60 460/3/60 MANUFACTURER COOK COOK COOK COOK COOK COOK FANTECH COOK LOOK COOK COOK COOK MODEL NUMBER GN-940 GC-164 GN-720 GC-124 GN-620 165SON10D 165SONIOD GN-862 GC-164 GN-862 365SQN-B 245SQN-HP NOTES 1, 2, 3 1 1 10 21 3 1 1, 2, 3 1, 2, 3 ? 1, 2, 3 1 1, 2, 3 1, 3 tm:1, 3 NOTES 1, DISCONNECTS 2, HACK DRAFT DAMPER 3. HANG FROM STRUCTURE GRILLE SCHEDULE MARK SIZE CFM RANGE TYPE & MODEL# A 24x24 AS SHOWN KRUGER - 1400 SERIES S/A DIFFUSER, STEEL CONSTRUCTION, ROUND NECK B 24x24 AS SHOWN KRUEGER - 6290 SERIES R/A DIFFUSER STEEL CONSTRUCTION, PERF. SQUARE NECK C AS SHOWN AS SHOWN KRUEGER - 880V-OBD SIDEWALL S/A DIFFUSERS, STEEL CONSTRUCTION D AS SHOWN AS SHOWN KRUEGER - 6290 SERIES EXHAUST DIFFUSER STEEL CONSTRUCTION, PERF, ROUND NECK E AS SHOWN AS SHOWN KRUEGER - S80 SIDEWALL R/A DIFFUSERS, STEEL CONSTRUCTION G 11 1/4' AS SHOWN KEES - SEG-9RD S/A, R/A & EX. ROUND MAXIMUM SECURITY 10 GA, STEEL FACE & SLEEVE, 2' FLANGE W/NO SCREW HOLES, STAGGERED 5/16 DIA. HOLES ON 7/16' CENTERS H 14xl4 288 - 399 KEES - SEG-9 S/A, R/A & EX, RECT. MAXIMUM SECURITY 3/16' STEEL FACE & SLEEVE, 2' FLANGE W/NO SCREW HOLES, STAGGERED 5/16 DIA. HOLES ON 7/16' CENTERS I 18xi8 400 - 624 KEES - SEG-9 S/A, R/A & EX, RECT, MAXIMUM SECURITY 3/16' STEEL FACE & SLEEVE, 2' FLANGE W/NO SCREW HOLES, STAGGERED 5/16 DIA. HOLES ON 7/16' CENTERS J 26x26 625 - 1600 KEES - SEG-9 S/A, R/A & EX. RECT. MAXIMUM SECURITY 3/16' STEEL FACE & SLEEVE, 2' FLANGE W/NO SCREW HOLES, STAGGERED 5/16 DIA. HOLES ON 7/16' CENTERS K 48x32 2301 - 3833 KEES - SEG-9 S/A, R/A & EX, RECT. MAXIMUM SECURITY 3/16' STEEL FACE & SLEEVE, 2' FLANGE W/NO SCREW HOLES, STAGGERED 5/16 DIA. HOLES ON 7/16' CENTERS L 48x52 3834 - 4500 KEES - SEG-9 S/A, R/A & EX. RECT, MAXIMUM SECURITY 3/16' STEEL FACE & SLEEVE, 2' FLANGE W/NO SCREW HOLES, STAGGERED 5/16 DIA. HOLES ON 7/16' CENTERS M lixll AS SHOWN PULLED FROM SHOP NOTESk 1, GRILLES WITH A -1 WILL NEED A PLASTER FRAME LOUVER SCHEDULE MARK SIZE SERVES CFM L-1 42x36 O/A AHU-1 2613 L-2 42x30 EF-6 2020 L-3 24x24 EF-3 575 L-4 70x6O O/A AHU-3A,3B & SSF-1 8703 L-5 90x84 EF-1 & SEF-1 14505 L-7 88x36 O/A AHU-2 6026 L-8 18x18 EF-5 375 L-9 18x18 EF-2 & 2A 300 L-10 18x18 EF-4 75 L-ll 24x24 EF-9 575 L-12 12x12 EF-10 150 L-13 30x24 EF-il 750 NO7ESk 1, LOUVERS NEED TO HE RATED FOR 150 MPH WINDS VAV BOX SCHEDULE MARK MODEL UNIT SIZE AIR FLOW HEATING KW INLET SIZE OUTLET SIZE VOLTS/ PHASE/ HERTZ HP MFG, COOLING CFM HEATING CFM VAV-1-1 DTQP 08 800 - - 8 12xl2 277/l/60 - TITUS VAV-1-2 DTQP 08 900 - - 8 12x12 277/1/60 - TITUS VAV-1-3 DTQP 3 750 450 4 10 12x12 277/l/60 410 TITUS VAV-i-4 DTQP 2 750 325 4 8 12x12 277/l/60 10 TITUS VAV-1-5 DTQP 5 1400 750 4 12 1242 277/l/60 ,25 TITUS VAV-1-6 DTQP 5 1400 750 4 12 1242 277/l/60 25 TITUS VAV-i-7 DTQP 08 850 - - 8 12x12 277/l/60 - TITUS VAV-1-8 DTQP 3 900 450 4 10 1242 277/l/60 410 TITUS VAV-1-9 DTQP 3 900 450 3 10 1242 277/l/60 ,10 TITUS VAV-i-30 DTQP 3 845 455 4 10 1242 277/l/60 A6 TITUS VAV-1-il DTQP 2 400 220 3 8 1242 277/l/60 ,i0 TITUS VAV-1-12 DTQP 2 615 258 3 8 1242 277/l/60 ,10 TITUS VAV-1-13 DTQP 2 300 220 3 6 1242 277/l/60 410 TITUS VAV-1-14 DTQP 3 845 422 4 10 1242 277/l/60 ,i0 TITUS VAV-1-15 DTQP 12 1600 - - 12 1242 277/1/60 _ TITUS VAV-1-16 DTQP 3 720 450 4 10 12x12 277/i/60 .10 TITUS VAV-2-1 DTQP 2 550 275 3 8 1242 277/l/60 ,10 TITUS VAV-2-2 DTQP 3 780 450 6 10 1242 277/l/60 ,10 TITUS VAV-2-3 DTQP 2 700 350 4 10 12x12 277/l/60 ,i0 TITUS VAV-2-4 DTQP 2 625 312 3 8 1242 277/l/60 ,10 TITUS VAV-2-5 DTQP 2 375 220 3 8 12xl2 277/l/60 sic TITUS VAV-2-6 DTQP 3 985 427 3 10 1242 277/l/60 ,10 TITUS VAV-2-7 DTQP 2 735 367 3 10 1242 277/l/60 .10 TITUS VAV-2-8 DTQP 3 1025 518 3 12 12x12 277/l/60 .10 TITUS VAV-2-9 DTQP 3 875 738 4 10 12x12 277/l/60 .10 TITUS VAV-2-10 DTQP 2 745 372 4 10 12xl2 277/l/60 .10 TITUS VAV-2-11 DTQP 3 880 440 4 10 12xl2 277/l/60 ,i0 TITUS VAV-2-12 DTQP 2 670 335 3 10 1242 277/l/60 ,10 TITUS VAV-2-13 DTQP 2 600 300 4 8 12x12 277/l/60 ,10 TITUS VAV-2-14 DTQP 2 540 270 3 8 12x12 277/l/60 010 TITUS VAV-2-15 DTQP 2 840 280 3 10 12xl2 277/l/60 JO TITUS VAV-2-16 DTQP 2 775 387 4 10 1242 277/l/60 ,10 TITUS VAV-2-17 DTQP 2 795 368 3 10 12x12 277/l/60 .10 TITUS VAV-2-18 DTQP 3 1000 690 5 12 12x12 277/l/60 .10 TITUS VAV-2-20 DTQP 2 750 260 3 10 12x12 277/l/60 ,10 TITUS VAV-2-21 DTQP 3 855 428 4 10 12xl2 277/l/60 .10 TITUS VAV-2-22 DTQP 3 840 420 3 10 12xl2 277/1/60 .10 TITUS VAV-2-23 DTQP 2 840 360 4 1 10 12xl2 277/l/60 .10 TITUS VAV-2-24 DTQP 2 550 285 1 4 8 1242 277/l/60 AD TITUS NOTEk --- CONDENSING UNITSChI -�EDULE Si MARK CU-1 SERVES AHU-1 MANUFACTURER CARRIER MODEL 38AKSO44-6 TONS 40 VOLTAGE 460/3/60 MCA 91 MOCP 150 REF, LINE SIZES 2 1/8' & 1 1/8' 1. LOW AMBIENT 2. RUN ONLY ON EMERGENCY POWER PUMP SCHEDULE RK CWP-1 & 2 MANUFACTURER PACO MODEL NO. 30957 FLOW GPM 333 HEAD CFT. HEU) 60 APPROX. PUMP EFF. <X) 75.99 APPROX. IMPELLER DIA, (INCHES) 8,43 MOTOR RPM 1750 HORSEPOWER 10 VOLTS/PHASE/HERTZ 480/3/60 REMARKS 12 NOTESk 1. NEED 480 GALLONS OF WATER - CONFIRM DUCT HEATER SCHEDULE MARK EDH-1 EDH-2 EDH-3 EDH-4 EDH-5 SERVES AHU-3A AHU-3H O/A ON AHU-1 O/A ON AHU-2 O/A ON AHU-3A & 3B CFM 2600 3800 2615 6025 1160 STAGE 3 3 3 3 3 KW 20 30 40 95 20 HEATER SIZE 20x18 30x20 22x22 30x28 36x24 VGLTAGE 460/3/60 460/3/60 460/3/60 460/3/60 460/3/60 MANUFACTURER WARREN WARREN WARREN WARREN WARREN MODEL NUMBER CBK CBK CBK CBK CBK NOTE NOTESk 1, GET WITH HOB MARTIN ON CONTROLS 2, MAKE SURE HEATER WILL NOT RUN WHEN CO 2 HAS O/A OFF. t STRUCTION Rev, Doto Description 0 3-28-06 100% Design Development Review Only t 5-02-00 I IERIM REVIEW SET 2 5-1Q-06 FlNN. CONMRUCnON DOCUMENTS COMINA71ON SET 3 6-1-06 FIAL CONSIRUCRON DOCUMENTS COOfmINA110N SET 4 6-30-06 FOR CONMUC1i0N W � O m V I QZ Q �W x W O W D O W n- U� Q W W z U O 1� Date: 6-30-06 Project No. 400131 Drown By: TM F Checked By: ES sheet rNe: SCHEDULES ro n o. M2�2 W W L M N — — — — — — — — — — — I I - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - _-.-._._. .. .-,-,-.-,-._. ..-.-.-,-. SECURITY FENCE -REF 4/A1 1 - - - - � 6" CONCRETE CURB -REF CIVIL 1/A3.1 ELECTRONICALLY CONTROLLED i � SA SA AHA-7,9 � SA AND PROXIMITY CARD READER � gq DUMPSTER ENCLO R - � REF 2 A2.4 REF CIVIL ° ` BUILDING LINE BELOW-� I / �) PAI D CONCRETE BOLLARDS ` I � 6" CONCRETE CURB- SECURIP' FENCE -REF 4/A1.1 � AHA-1 "HIGH & 18�� DIAMETER 11 � REF TO � i REF CIVIL LANDSCAPING SPACED 8�-0°: OC I 3/A3.1 r--_,,� I ------------ ^ ' —------------ I 1 � r � I � / � 1 I 1 / t � t t ----/ 1 L------- 1 r-----' �------r-----' '------r-----' �------r- 1 1 1 1 1 I I 1 I- , fL_______ __—____1_______ _---__-1_______ _______1___—.___ 1 I I i i I 1 F------- I I i i I t r-----------------------------------------------n I I i I I I I � -------I -------I 1 I 1 �------- I ------ f_ _____—_T_______ T_______ T_______ I I 1 � 1 I 1 1 I I 1 I 1 i i I L_______ _______1_______ _______1_______ _______1_______ h` 1 I 1 � I 1 1 1 � 1 I f'------ 1 I I I 1 I I 1 I .� I I -'-----I -------1 -------1 I `\\` I 1 I I f_______ T_______ T_______ T_______ 1 �\ i I I I I 1 1 1 1 ;------- W I ,� � I 1 I I 1 i L___—___ _____—_1____—__ _—_____1__--_—_ _—_____1_______ ( \ I I t I I �'� FUTURE I ;------- � I MUNICIPAL � �------- f_______ _______T_______ _______T_______ _______T_______ I I I ------- 1-------�------- I I I I ------- -�- � �- - I �- ! _ -. COURTS F------- � I ��' I I ------- ------ 1 .� I i I i i I I I I i �------- ,,■■ i .� fi I i 1 I 1 1 .'� i I I i �---`----------' -------�'------- '-------1------- 1. i I I I I 1 1 1 ��" I I F------- 1 I i I I I i I '------ _-'----- '------- I I I I r------- t------- t------- t------- I I 1 I I 1 I 1 I (------- I ----- ----- I 1 I i I I L_______ __ 1_______ __ 1_______ _______1_______ 1 - 1 �_______________________________________________� I � i I I 1 1 F____—___ I _ `„� ( i I 1 1 I I i I i 1 I I I I r------- -------t--------------t--------------t------- I i I I � 1 I (------- I I I � 1 1 i I L_____— �-____1____� .L____—, 1____� I I 1 -"' t / 1 1 ____-- - ` ' ' 1 - �`. -' -'- 1 - — — __,,,,,,..-- � 11 1 -- -- -- 1 1 __ -- -- -- - ' 1 — — 1 1 — — _ _ 1 1 1 1 1 1 1 � � S ITE LI G H SCALE: 1 " = 30'- � � I'��i ,���� ���il III►� ELECTRICAL LEGEND SYMBOL DESCRIPTION MOUNTING POLE MOUNTED METAL HALIOEFlI(TURE LETTERINDICATES FIMURETIPE, SEEFL\T. SCHEDULE NUMBER INDfCATESCIRCUfT, SEEPANEL SCHEDULE POLE GROUND MOUNTED METAL 11ALIDEFIXTf/RE(FLAGPOLE) LETTERINDICATES FIXTI/RETIPE, SEEFIX7: SCHEDULE NUMBER INDICATESCIRCUIT, 9EEPANEL SCHEDULE GROUND CONOUITHOMERUN I � CONDUCTORS (I) GROUND, (I) NEUTRAL, (I) HOT, (�) SWITCH LEG. AHA-7,9 LETTERS INDICATEPANFI NUMBER INDICATES C/RCUIT, SEEPANEL SCHEDULE SITE PLAN -NOTES 1 APPROXIMATE ROUTE OF UNDERGROUND SECONDARY SERVICE ENTRANCE CONDUITS AT 38".BELOW GRADE TO UTILITY CO. POLE MOUNTED TRANSFORMERS. PROVIDE CONCRETE DUCT BANK PER SPECIFICATIONS. VERIFY REQUIREMENTS AND LINE ROUTING WITH UTILITY CO. REFER TO ONE LINE DIAGRAM FOR CONDUIT SIZE AND WIRE SIZE. 2 C.T. CABINET WILL BE FURNISHED AS PER UTILITY CO. SPECIFICATIONS. MOUNT C.T. CABINET ON WALL @ 6' A.F.F. TO TOP OF CABINET. UTILITY CO. TO FURNISH INSTRUMENT RATED METER AND METER CAN. CONTRACTOR TO INSTALL METER CAN ADJACENT TO C.T. CABINET AND PROVIDE INTERCONNECTING 1-1/4" C. BETWEEN METER. CABLE BY UTILITY COMPANY. VERIFY METERING REQUIREMENTS WITH UTILITY COMPANY. 3 STUB TWO 4" C. 30" DEEP W/ PULL WIRE FOR TELEPHONE FROM TELEPHONE TERMINAL BOARD IN TELEPHONE ROOM TO WEST PROPERTY LINE. PROVIDE SWEEPING ELLS AT TURN -UP IN TELEPHONE ROOM. 4 STUB ONE 2" C. 36" DEEP W/ PULL WIRE (FOR CABLE TV OR OTHER UTILITY SERVICE) IN SAME DITCH AS TELEPHONE CONDUIT FROM TELEPHONE ROOM TO WEST PROPERTY LINE. PROVIDE SWEEPING ELL AT TURN•UP IN TELEPHONE ROOM. PROVIDE FLOW FILL AS PER SPECIFICATIONS. 5 350 KW 460Y/277V 4W EMERGENCY NATURAL GAS FUELED GENERATOR SET ON (CONCRETE PAD BY OTHERS). 6 VERIFY LOCATION OF FLAG POLES AND INSTALL FIXTURES IN SIDE WALK 5'-6" TO CENTER OF FOCTURE FROM BASE GF FLAG POLE. 7 CONTINUOUS RING OF #2/0 BARE COPPER SET 5 FEET OUTSIDE THE BUILDING AND 2 FEET BELOW GRADE. 5/6" X 10' GROUND RODS LOCATED WHERE THE GROUND RING CHANGES DIRECTION AND AT 50 FEET ON CENTER. 6 INSTALL ONE 3/4" CONDUIT TO PANEL EBLA W/ 2#10, 1#10 CND. FOR MOTORIZED GATE AND INSTALL ONE 3/4" CONDUIT W/ PULL STRING TO DISPATCH FOR GATE CONTROLS AND INSTALL ONE 3/4" CONDUIT FROM GATE MOTOR TO CARD READER. INSTALL CONDUITS 24" BELOW GRADE. 9 INSTALL FIXTURES 6' FROM WALL TO CENTER OF FUCtURE. ADJUST FO(TURE TO LIGHT SIGN ON WALL. FOR CONSTRUCTION Revisions Rev. Dole Description W f^r/� I� 0 ^O l� � r n `Q / \ �� W W � I_,_ 01- � w �- �Q �- � �. � � UW � Q � W Z W 1=- U n0 I� Date: 06-30-06 Project No. Drawn By: RDB Checked By: JB Sheet Title: SITE LIGHTING & POWER PLAN Drawing No, E1o1 LA PORTE LIGHT FIXTURE SCHEDULE TYPE A2 MFG LIGHTOLIER CATALOG NUMBER CFS2GPR'232-UNVHI LAMPS 2-F32T8/SPX35/EGO QTy 61 A2D LIGHTOLIER CFS2GPW232-UNVHI (ECO10 DIMMING) 2-F32T8/SPX35/ECO 6 A3 LIGHTOLIER CF52GPW332-UNVH3 3-F32T8/SPX35/ECO 257 A3D LIGHTOLIER CF52GPW332-UNVHI (ECO10 DIMMING) 3-F32T8/SPX35/ECO 22 Bl LIGHTOLIER XP1GV1232-UNVHI 2-F32T8/SPX35/ECO 4 B2 LIGHTOLIER XPZGV1232-UNVHI 2-F32T8/SPX35/ECO 176 B3 LIGHTOLIER XP2GV1332-UNVH3 3-F32T8/SPX35/ECO 2g B32 LIGHTOLIER XP2GVi332-UNVHl/1-UNVHl/Z 3-F32T8/SPX35/ECO 1 C2 LIGHTOLIER WA4A232-UNVHI 2-F32T8/SPX35/ECO 16 C3 LIGHTOLIER WB4B33Z-UNVH3 3-F32TSBPX35/ECO 6 D2 LIGHTOLIER 534S217HPF UNVHI 2-F17T8/SPX35/ECO 5 D3 LIGHTOLIER SS45225HPF UNVBI 2-F25T8/SPX35/ECO 13 D4 LIGHTOLIER S54S232HPF-UNVHI 2-F32T8/SPX35/ECO 23 F LIGHTOLIII2 3W4S232-UNVH[ AWG3W CSP 2-F32T8/SPX35/ECO 55 Fl LIGHTOLIER SWSS259-UNVHI (2)AWG3W CSP 2-F96T'8/SpX35/ECO g G2 LIGHTOLIER ST4WA232-UNVHI 2-F32T8/SPX35JEC0 7 G3 LIGHTOLIER ST8WA259-UNVHt 2-F96TSBPX35/ECO 2 H2 LIGHTOLiER SLW232-UNV-I2-EB101 2-F32T8/SPX35lECO q J2N NEW STAR 53142.187PC/.125PPC 277 GEB10lS/FNL9 2-F32T8/SPX35/ECO 1- PL9/SPX35/ECO 6 J3 NEW STAR 53143.187PC/.i25PPC 277 GID10I5 3-F32T8/5PX35/ECO 3 J3N NEW STAR 53143.187PC/.125PPC 277 GEBiOIS/FNL9 3-F32T8/SPX35/ECO 1- PL9/SPX35/ECO 12 K2 NEW STAR S1H-142-277 GEB10ffi 2-F32T8/SPX35/ECO 30 L2 NEW STAR S1H-042-277 GEBIOIS 2-F32T8/SPX3S/ECO M LIGHTOLIER 8021CCLW / 7132LUEC010 1-F32TBX/SPX35/A/4P 6 N LIGHTOLIER 8023CCLW/8142VU i-F42TBX/SPX35/A/4P 30 P LIGHTOLIER XPZFV1232-UNVHI 2-F32T8/SPX35/ECO 11 R PATHWAY LXiCR-120iS77-ROOM IN USE r.Fn 2 X LIGHTOLIER LLAURW LID 27 Xl LIGHTOLIER LLAURW LED 2 X2 NEW STAR 61-SF-PL•277FL-EMB 2_pI,7 2 SA ' WIDELITE ECA231QV-1000MH-480-BRP-LP 1-MVR1000/VBU/HO 1000W g POLE RTS-35-8511-BZDM10 8 SB WIDELITE ECA231QV-1000MH-080-BRP-LP 1-MVR1000/VBU/HO1000W 2 POLE RTS•35-5511-BZ•DM10 2 SB2 WIDELTfE ECA232QV-1000MH-080-BRP-LP 2-MVR1000NBU/HO1000W 2 POLE RTS�S-8511-B�DM2180 1 SC GARDCO 101-FT-150MH-277-BRRLP 1-MVRI50/U/MED/O150W 5 SD GARDCO 101-WT-i50MH-277-BRP-LP 1-MVR150/U/MED/O i50W SE CAPRI CM6 /M50 / V65 1-MVR50/U/MEDIO SOW 4 SG BRON7ELITE DB2175MH-277-D-F-N-R-N LFutiiP INCLUDED 2 SH BRONZELITE DB2175MH-277-D-H-N-R-N LAMP INCLUDED 2 P&S WS-3000-277V MOTION DETECTION OCCUPANCYSENSOR 59 P&S HS-1001 PASSIVE INFRARED OCCUPANCY SENSOR W/Z77V POWER PACK 1 P&SUS-1001 ULTRASONIC CEII.ING OCCUPANCYSENSOR W/L77V POWER PACK 2 NOVA-T (NTF 10-277V) DIMMER 3 NOVA-T (NTF 103R277V) DIMMER 2 LIGHTING GENERAL NOTES 1. ALL FLUORESCENT FIXTURES TO HAVE ELECTRONIC BALLASTS. (T.$D. <10%) 2. ALL FLUORESCENT AND PL LAMPS TO BE 35K UNLESS NOTED OTHERWISE 3. ALL HATCH MARKED FIXTURES WILL BE ON STAND-BY GENERATOR POWER. 4. ALL FIXTURES WITH TAMPER RESISTANT SCREWS SHALL BE TORX REJECTION. LIGHTING LEGEND SYMBOL DESCRIPTION MOUNTING FLUORESCENT LIGHT FIXTURE 0 LETTER INO/GATES FU7URETYPE, SEEFIXT. SCHEDULE CEILING q NUMBER IND!GATES CIRCUIT, SEEPANEL SCNEDULE FLUORESCENT f IGHT FIXTUREW/NIGHTGGHT �J ON UMSW/TCHED GENERATOR POWER CElL/NG A LETTER IND/GATES fUTURc TYPE, SEE FIXT. SCHEDULE NUMBER INDICATESCIRCUIY, SEEPANEL SCHEDULE FLUORESCENTLIGHTFU7UREON UNSW/TCHEDGENPWR LETTERIND/GATES FIXA/RETiPE, SEEFUT. SCHEDULE CEILING q NUMBER lNDICATES CIRCUIT, SEE PANEL SCHEDULE FLUORESCENTLIGHTFIXTUREON 9WRCHED GEN. PWR s q GETTER INDICATES FUTURE TYPE, SEE FIXT. SCHEDULE WALL NUMBER INO/CATESCIRCU?, SEE PANEL SCHEDULE FL UOAESCENT LIGHT FUCTf/RE ON UNSW/TCHED GEN PWR �q LETTERINDICATE9 FIXTURETYPE, SEE FIM. SCHEDULE WALL NUMBER INDICATES CIRCUIT, SEEPANEL SCHEDULE 4' FL UORESCENT L IGHT FIXT URE W/ W/RE O UARO �q LETTERINDiCATES FU?URETYPE, SEE FUT. SCHEDULE CEILING NUMBERINDICATESCIRCUIT, SEEPANEL SCHEDULE 8' fLUORESCENT LIGHT FIXTUREW/W/RE GUARD r� q LETTER INDICATES F/XR/R�7YPf, SEE FIXT. SCHEDULE CEfL1NG NUMBER INDICATES CIRCWT, SEEPANEL SCHEDULE LAYlN ®fLUORESCENTLlGHTFU77/RE2X4 A LETTERINDICATES FUIURETYPE, 9EEFU7. SCHEDULE CEllING NUMBER INDICATES CIRCUIT, SEEPANEL SCHEDULE FLUOR. LIGHTFIXT.2X4 LAY/NON UNSWITCHED GENPWR q LETTER INDICATESFUTURETIPE, SEEFIM. SCHEDULE CEILING NUMBER INDICATES CIRCU?, SEEPANEL SCHEDULE FLUOR. LIGHTFUIT.?X4 Lqy/NON SWITCHED GENPWR LETTER INDICATES FU7URETYPE, SEEFUT, SCHEDULE CEILING NUMBER INDICATESCIRCUlT, SEEPANEL SCHEDULE 10 a— EXITLIGHT(ARROW(SJASINDICATEO, SHADE1NOfCATES FACE,LETTER fNO1CATES FUTURETYPE, NUMBER CEILING .—X INDICATES CIRCU?.) ROOMIN USELIGHTED SIGN. I U LERER INDICATES FIXTURETYPE, NUMBER WALL INOICATESCIRCU?.J MHWALL PACK QP LETTER INDIGATES FIXTUAETYPE, SEE FIXT. SCHEDULE WALL NUMBER INDICATES CIRCUIT, SEE PANEL SCHEDULE $ S/NGLEPOLESWRCH2OA(f20277VJ WALL-SO'AFF $� THREEWAYSWITCHZOA(f20lZT/t� WALL-50'AFF $a FOUR WAYSWlTCH2OA(f20l2771� WALL-SO'AFF $n FLUORESCENTOIMMER (277VJ SEE FIXTURESCHEDULEFOR S2E WALL-50'AFF $ea THREEWAYFLUORESCENTDIMMER (Zml SEE FIXTURE SCHEDULE FOR SIZE yygf,L-SB'AFF O WALL MOUNT MOTION DETECTOR SWITCH(277V) EQUAL TOP 6 SWS3000 WALL-50'AFF ,� WALL MOUNTPASSIVE INFRAREDOCCUPANCYSENSOR EQUAL TOPBSHS-1001 pygLL-f08'AFF tt . �r "�' ULTRASONICCEIL/NG OCCUPANCYSENBOA(277V) EQUAL TO P6 S US-0OOf CE/LING O POWER PACKRELAYFOR MOTION SENSORS (27%V/ EQua. ro P a s PWP2n ggOVECEILING $e KEYOPERATED SINGLEPOLESWITCH (120I277VJ EQUAL TO LEV. 12Zi 2l WALL-60'AFF � KEYOPERATED THREEWAYSWITCH (f10/27N) EQUAL TO LEV. 122&2L WALL-48'AFf = I —V AREA 'B' _ AREA 'A' � (1 ' �� �I ox a_ta � iACT°R I � � � w c � � � � a� �' � 0 0 I� 'l0 �� �T -�. O Ft ® ' � � ® .� � � " I u � s ss �� � ° � I _ � �� � - � � � °e a e �" �� °� �I `� _ �� �� � �� A v n �I r v v' _� ._ _.._. �� Y Y f� S� 'Sam".� I ` �� �7♦ � -� .mow ...; .. �mm ea.,. _ t � �II,P � ��� o ro o ��Ogl7pl�. �II L�iY - �-�il� �IE�RtilY�"i�f ' --I � -,TIE '� "' ° �" ° 0...laiii I (` zGm .. .....� �; �i� r� o S ` e 'I ° I��I��S � : �.. III © � � � o .a,:�I �' o ° I - ,,, —.— -- ......_.. O � i ,: F� , o,_�,,�� �' �'� . _ _ _ �� _ -- c v O�iI�A �. t i _� �s � ----_I � — v - ,{sus ss.� u.se -- -- -- _ �,i�. C; �)�'I II� � EHi� l�l,, � � l � � � � Wit_ m' ° ° � II ,. �, :, � i ° � a ° ° — ___ ra �. �� ._ u_a � _AREA 'B' ~ AREA 'A' l�EY P�A�I � taR N°P Revisicns Rev. Dote Oescnption W� a� V l Q � /\ W W O L_L_ UW Q W ZW I- U 0 uate: 06-30-06 Project No. Drawn By: RDB Checked By: JB Sheet Title: OVERALL LIGHTING PLAN Drawing No. E2°1 FOR CONSTRUCTION ;EA 'B' _ ;EA 'A' I I I I I I I I I I I I I SE I I I I I I I I I I I I I I I I I ( I I I I I I I I I 1 I I I I I I I I I I I i I ( I SC I I I I I I I I ( I I I I i i i 82 12 B2 tZE- ® ® - REF B2 B2 B2 62 r 82 t t. B-2 62 82 B2 LIGHTING PLAN - ® F1 m �e h I r I I��I � I r I A3 A3 A3 A3 B2 2 1 2 1 2 J B2 F L LEM 2 1 2 1 B2 G3 III J P P B2 62 A3 A3 A3 A3 F M E MEN 1 2 1 2 B2 P P B2 %B2 ,wooTM D3 3 A3 A3 m m Am 1 D 3 B2 2 1 2 1 P D D4 B2 B2 A3 A3 A3 A3 B2 4 D3 3 3 P B2 4 8 ell A3 A3 A3____ A3 A-10r- 82 EM rMill 62 2 1 2 1 _) D3 ��� REF FM 8 B� B� D4 �..r E 8m m ° ®B2 - _ -� _ D - B2 A3 U D _ - -- - a; b; P �82 A3 82 n — 3 Ell82 82 B2 A3 EE _---- A30_-- A3D--- A3D--- D A3 A3 A3 A3 A3 A3 A3 u 4 m � � m � � x® OO cLx� 3 A3D A3D AM D M A3 A3 � A3 A3 A3 A3 1 2 1 AM 2 1 2 1 2 1 2 AW A3D AM A3D D 3 I© A3 A3 A3 A3 A3 A3 1 2 1 2 � �I AM AM A3D AM A3 1 A3 A3 A3 A3 A3 M M No D s Q A3 A3 A3 aa- ®x ® ==4== 5 B2 - - - A3 A3 A3D A3D AM R F I B3 A3 A3 u �FEM � i M M ® I M I MA2 M M7 A G G Q ( A3 A3 A3 I I 1 8 (6) TYPE M I 82A3 L I _� _� F MEM ..... B A A A3_e== A3 N© ©N AHA-15 I A3D A3D A3D I A3 A3 6 THRU �— CONTACTOR x1 ' `- N B2 B2 13 B2 B2 B2 B2 B2 ®N G L � ® FM � MAN C) --L 177 B2 ON m f 82 x I I A3 A3 A3 A3 A3 A3 A3 ��______ ----- N© ©N I MUM B2 A3 A3 A3 A3 A3 M_ _ = e== _ __ __ _ --- ®N NG B2 A3 A3 A3 A3 A3 A3 A3 A3 A3 A3 A3 A3 m Bt 81 A3 I 1 - ------------------------------------------------------------ CLFAPN01 p BAN N0� J mo'. B2 AREA ' B' ®x B2 t A3 A3 � I J I J I A3 A3 A3 B2 A3 I J J I A3 1 A3 I BHA-4 A3 1 B2 J ° J I A3 1 I A2D A3 I J ° SD I B2 J 1 A3 A3 I A2D A2D A2D A2D A3 I 82 I A3 I I A3 A3 A3 A3 3 Q I I I I J I D4 1 I I I A3 A3 A3 A3 NNNN IF — I A3 A3 A3 � A3 I I ( J J J A3 A3 A3 1 A3 B2 A3 ®x 62� 1 A3 ° SD 1 x 1 2 A3 B2 B2 B2 B2 B2 A ( I 1 2 1 82 I -� I A2 I B2 B2 82 0 � ® 2 I ,I 2 1 I I A2 B2 B2 B2 ° a m �® I A2 82--_- -- j:�B2 I I �B2 I F�— I B® g� D4 D4 ®N NG NG ON ®N 10 OI I I D4 I ° SD I N® ( I I a I I I I I ®N NG I T WI ®N ®N I I I SC ON ATHRU5 K E Y P CONTACTOR FOR CONSTRUCTION Reviaions Rev. Date Description Dote: 06-30-06 Project No. RDB Checked By: Sheet Ttle: JB LIGHTING PLAN — AREA 'A' Drawing No. E2�1A Revisions Rev. Dale Description W � O x W � I� W O I— F- �� n W = W I- U O CL Dota: 06-30-06 Project No. Drown By: RDB LA PORTE LIGHT FIXTURE SCHEDULE TYPE MFG CATALOG NUMBER LAMPSmeet QTY A2 LIGHTOLIER CF52GPW232-UNVHI 2-F32T8/SPX35/ECO 61 A2D LIGHTOLIER CFS2GPW232•UNV1H (ECO10 DIMMING) 2432T8/SFX35/ECO 6 A3 LIGHTOLIER CFS2GPW332-UNVH3 3-F32T8/SPX35/ECO 257 A3D LIGHTOLIER CFS2GPW332-UNVHI(ECOIODIMMING) 3-F32T8/SPX35/ECO 22 Bl LIGHTOLIER XPIGV3232-UNVEII 2-F32T8/SPX35/ECO 4 B2 LIGHTOLIER IXP2GVI232mUNVffl 243218/SFX35/ECO 176 B3 LIGHTOLIER XP2GV1332-UNVH3 3-F32T8/SPX35/ECO 28 B32 LIGHTOLIER XnGV1332-UNVHl/1-UNVHI/2 3•F32T8/SPX35/ECO 1 CZ LIGHTOLIER WA4A232-UNVHI 2-F32T8/SFX35/ECO 16 C3 LIGHTOLHHI W8411332-UNVH3 3-F32T8/SPX35/ECO 6 D2 LIGHTOLIER SS4S217MTmUNVH[ 2-F17T8/SPX35/ECO 5 D3 LIGHTOLIER SS4S225HPF-UNVHI 2-F25T8/SPX35/ECO 13 D4 LIGHTOLIER SS4S232HPF-UNVHI 2-02T8/SPX35/ECO 23 F LIGHTOLIER SW4S232-UNVHIAWG3W CSP 2-F32T8/SPX35/ECO 55 Fl LIGHTOLIER SWBS259-UNVHI (2) AWG3W CSP 2-F96T8/SPX35/ECO g G2 LIGHTOLIER ST4WA232-UNVHI 2-F32T8/SPX35/ECO 7 G3 LIGHTOLIER ST8WA259-UNVH[ 2-F96T8/SPX35/ECO 2 H2 LIGHTOLIER SLW232-UNV-1lZ-EB101 2-F32T8/SPX35/ECO 4 J2N NEW STAR 53142.187PGLetteet .125PPC 277 GEBIOIS/FNI 9 2-F32T8/SPX35/EC0 1- PL9/SPX35/ECO 6 J3 NEW STAR 53 143A87PC/.125PPC 277 GEBiOIS 3-F32T8/SPX35/ECO 3 J3N NEW STAR 53143.187PC/.125PPC 277 GEBIOIS/FN19 3-F32T8/SPX35/ECO 1- PL9/SPX35/ECO 12 K2 NEW STAR 5111-142477 GEBIOIS 2-F32T8/SPX35/ECO 30 12 NEW STAR SIH-042-277 GEB101S 2-F3278/SPX35/ECO 6 M LIGHTOLIER 8021CCLW/7132LUEC010 1-F32TBX/SPX35/A/4P 6 N LIGHTOLIER 8023CCLW/8142VU 1-F42TBX/SPX35/A/4P 30 P LIGHTOLIER XP21TV1232-UNVHI 2-F32T8/SPX35/ECO 11 R PATHWAY LX1CR-120/277-ROOM IN USE LED 2 X LIGHTOLIER LLAURW LED 27 Xl LIGHTOLIER LLAURW LED 2 X2 NEW STAR 61-81!-PL-27711,ri 2-1`0 2 SA WIDELTTE ECA231QV-1000MH480-BRP-LP i-MVR1000/VBU/HO1000W 8 POLE RTS35-8511-BZ•DM10 8 SB WIDELITE ECA231QV-1000MH480-BRRLP 1-MVR1000/VBU/H01000W 2 POLE RTSw35-8511-I 2 S112 WIDELITE ECA232QV•1000MH480-BRP-LP 2-MVR1000NBUIHO1000W 2 POLE RTS-35-8511-BZ•11IM2180 1 SC GARDCO l01-FT159MHt277-BRRLP 1-MVR150/U/MED/O150W 5 SD GARDCO 1101.WT.ISOMH-277-BRP-LP 1-MVR150/U/MED/O 15OW 6 SE CAPRI CM6 /M50 / V65 1-MVR50/U/MED/O SOW 4 SG BRONZELITE meet DB2175MH=277-D-F N-R-N LAMP INCLUDED 2 SH BRONZELITE DB2175MH-277-D-H-N-R-N ILAMTINCLUDED 2 P&S WS-3000-277V MOTION DETECTION OCCUPANCYSENSOR 59 P&S HS-1001 PASSIVE INFRARED OCCUPANCYSENSOR W277V POWER PACK 1 P&S US-1001 ULTRASONIC CEILING OCCUPANCYSENSOR W277V POWER PACK 2 NOVA-T (NTF-10-277V) DIMMER 3 NOVA-T (NTF-103R277V) DIMMER 2 LIGHTING GENERAL NOTES 1. ALL FLUORESCENT FIXTURES TO HAVE ELECTRONIC BALLASTS. (T:H.D. <10%) 2. ALL FLUORESCENT AND PL LAMPS TO BE 35K UNLESS NOTED OTHERWISE 3. ALL HATCH MARKED FIXTURES WILL BE ON STAND-BY GENERATOR POWER. 4. ALL FIXTURES WITH TAMPER RESISTANT SCREWS SHALL BE TORX REJECTION., LIGHTING LEGEND CLFAP SYMBOL DESCRIPTION MOUNTING FLUORESCENTLIGHTFUTURE ® LETTER INDICATES FUTURE TIDE, SEE FIXT. SCHEDULE CEILING A NUMBERINDICATES CIRCUIT SEE PANEL SCHEDULE FLUORESCENT LIGHT FUTURE W/NIGHT LIGHT ON UNSWRCHED GENERATOR POWER CEILING LETTER INDICATES FIXTURE TYPE, SEE FUT. SCHEDULE A NUMBER INDICATES CIRCUIT, SEE PANEL SCHEDULE FLUORESCENTLIGHTFIXTURE ON UNSWITCHED GEN PAR CEILING ® LETTER INDICATES FIXTURE TYPE, SEE FOCI: SCHEDULE A NUMBER INDICATES CIRCUIT, SEE PANEL SCHEDULE FLUORESCENT LIGHTFWTURE ON SWITCHED GEN. PAR ET LETTER INDICATES FUTURE TYPE, SEE FIXT SCHEDULE WALL e A NUMBER INDICATES CIRCUR, SEE PANEL SCHEDULE FLUORESCENT LIGHT FIXTURE ON UNSMTCHED GEN PAR MA LETTERINDICATES FUTURE TYPE, SEE FIXT SCHEDULE WALL NUMBER INDICATES CIRCUIT, SEE PANEL SCHEDULE 4' FLUORESCENT LIGHT FIXTURE W/WIRE GUARD �A LETTER INDICATES FIXTURE TYPE, SEEF/XT SCHEDULE CEILING NUMBER INDICATES CIRCUIT, SEE PANEL SCHEDULE B' FL UORESCENT LIGHT FIXTURE W/ WIRE GUARD �A LETTER INDICATES FIXTURE TYPE, SEEFUT. SCHEDULE 'CEILING NUMBER INDICATES CIRCUIT,,SEEPANELSCHEDULE �A FLUORESCENTLIGHTFI TURE2X4 LAPIN LETTER INDICATES FIXTURETYPE, SEE I=SCHEDULE CEILING NUMBER INDICATES CIRCUIT, SEE PANEL SCHEDULE FLUOR, LIGHT FIXT: 2X4 LAPIN ON UNSWITCHED GEN PI LETTER INDICATES FIXTURE TYPE SEEFIXT. SCHEDULE CEILING A NUMBER INDICATES CIRCUIT, SEE PANEL SCHEDULE FLUOR, LIGHTFIXT 2X4 LAPIN ON SWITCHED GEN Pi FM LETTER INDICATES FUTURE TYPE, SEE FIXT SCHEDULE CEILING NUMBER INDICATES CIRCUIT, SEE PANEL SCHEDULE Io® EXITUGHT(ARROW(S)ASINDICATED, SHADEINDICATES FACE, LETTER INDICATES FIXTURE TYPE, NUMBER CEILING X INDICATES CIRCUIT) ROOM IN USE LIGHTED SIGN. mU LETTER INDICATES FUTURE TYPE, NUMBER WALL INDICATES CIRCUIT.) MH WALL PACK EDP LETTER INDICATES FIXTURETYPE, SEEFIXT. SCHEDULE WALL NUMBER INDICATES CIRCU?, SEEPANEL SCHEDULE $ SINGLEPOLESWITCH2OA(12027M WALL-50•AFF $e 7-HREEWAYSWITCH2OA(1202771Q WALL-500AFF $s FOURWAYSWTTCH2OA(12027711) WALL.5)'AFF $0 FLUORESCENTDIMMER II WALL •500AFF SEE FUTURE SCHEDULE FOR SIZE $°3 THREE WAYFLUORESCENTDIMMER (277W WALL-50'AFF SEE FIXTURE SCHEDULE FOR SIZE WALL MOUNTMOTIONDETECTOR SWITCH(27M WALL-SO'AFF EQUAL TOP& SW5.3000 WALL MOUNTPASSIVEINFRARED OCCUPANCYSENSOR ly�y 108"AFF EQUAL TO P & S H5,1001 E ULTRASONIC CEILING OCCUPANCY SENSOR (27711 EQUAL TO P& S US-1001 CE/LINO POWER PACK RELAY FOR MOTION SENSORS(277V) ABOVECEILING EQUAL TO P & S PWP277 Sk KEYOPER4 ED SINGLE POLESWITCH(120277V) WALL-50'AFF EQUAL TO LEV. 12211 KEY OPERATED THREE WAY SWITCH (120)277V) AALL-48'AFF EQUAL TO LEY 1223.2L 1 � SOCALE: R ALL 1Eo ERGENCYILIGHTING AREA ''A' e� F -- 1111 : �J_ 1 n - - 1� o�I111iIW_i1_'R' .' n - �z 0 0 0 0 o a a o ry o 0 0 o p win o 0 0 0 0 sue: ice° o o. -L o o I° o o' o 0 0 0 0 o 0 0 o 0 0 0 0 c 0 1-4 Ile o - ° 0 O O 0 0 O OI o O° O O o (o �'oo�ooll o tee. I o o rG IIM _244 )n It I' rl J.IW�� Il��I o •:,i�R71©ilk OT �'�= mr tiro milt � � i ° ° -- -- -- ,/ i•e' _ xt� cm 2 2 o q -.- -.-li 0 o 0 o _Zia ° C ° SEEi IPer N DUALLEV, LIGHTING PLAN NOTES (.F.NFRAi. NOTES: A CONDUIT ROUTINGFOR EMERGENCY LIGHTING ON SHEETS E2.2, E12A, E2.2B. B. ALL 277V LIGHTING CIRCUITS LONGER THAN 230 FT. SHALL BE #10 AWG FULL LENGTH. C. ALL 120V LIGHTING CIRCUITS LONGER THAN 100 FT. SHALL BE #10 AWG FULL LENGTH. p KEY PLAN FOR CONSTRUCTION Revisions Rev. Dote Descriptian W � O V J Q� IX LLJ W � O n UW Q W ZW I- U J O Date: 06-30-06 Project No. Drawn By: RDB Checked By: JB. Sheet Title: OVERALL EMERGENCY LIGHTING PLAN Drowing No. E2e 2 U B2 82 A3 A3 e0 11 \ J ;EA 'B' I JJU ° I ' _ F F F D3 _ B2 62 82 _ _ I _ AREA B 1T— -F _ 'EA A i B3 - _ _ _ _ AA3 — A3 A3 X - - 82 J .-X 82 A3 A3 i- AREA 'A' 02 J 0 a a C� C2� C2 B3 �o o F F F B2 A3 A3 I ° 0 B2 F1 �° o o A3 A3 A3 A3 82 OA3 0,13 IZUOCOD82 B2 B2 B2 B2 B2 B2 B2 B2 A3 A3 DE]OB2 mi 62= T �1=1 X3 B2 A3 B2 O A3 ® ® — - REF B2 A20 I 62 62 82 Jll !B2 A3� O A� ° °7! B3 83 83 83 B32 B2 A3 A3 A3 B2 SD I J � J 82 A3 A3 1 2 1 2 1 A3 A3 A3 A3 A3 A3 B2 82 I Bz 0 0 0 �® 0 0 I c--= ❑--❑ B3 B3 B3 B3 B3 - - 82 B2 B2 �° ®° o o B2 0 0 2 1 2 1 2 B2 B2-_ A3 A3 �� 62 -__� JJill J 1 - - ® 2 1 2 1 82 B2 _--_- G3 82 J J 6 A3 A3 A3 A3 I B2 d F P B2 82 �__- A----- A3 A3=c== 82 B2 = 1 --= 2 1 --= 2 B2 --- P llp� B2 J J LF D4 I B2 82 A3 A3 A3 A3 D3 B2 J J 3 J J D ==-=2 1 ==-=2 1 82 B2 82 82 82 D A3 A3 A3 A3 D4 A3 A3 A3 A3 B2 I 4 D3 82-- 82 6 I _--- ---_ --- o t 2 t 2 J A3 A3 A3 82 J J B2 P -- EAHA-3�2 J J J A� A® -- -- -- -- -- B2 _ A3 A3 A3 A3 ----- B2 --- ----- ® 4 $ 82 =_-__ __-__ __-__ __-_= A3 A3 A3 I ° P P P _= B2 2 1 2 J I _�-- ♦ _s-- _--__ D3 H Mlll REF t -- - J - !/ F F $ 82 82 B2 A3 B2 A3 B2 ell J J B2 A3 ° X ----- A3 ° SD • J J ° � JIll —. _ D n P u J j EAHA-11 _------- _= b' b' —____ 82 A3 D ii iiP = _= B2 =_ __ '= B2 =--c- X 1--- 2 ---_-_ B2 82 B2 A3 - -- A3 F F F - 4 J J B2 -_B2 82 J J J I A30 A30 A3D EAHA-35 k ISC D =_--- --__ __--- --_= 82 82 I B2 A3 A3 _--A3 A3_-__ _--A3 AW 2 1 2 1 `o --- 2 --- t 82 ® ® ® 4 2 t 2 t 2 =j HA-9 J J X == to J J J AM A3D A3D � B2 82 B2 I A3 A3 A3 A3 A3 A3 1 2 t A3D 2 - -- _--_ 1 2 1 2 1 2 O J 42 2 t u F F F B2 A3D AW AW AW J J D ----- ----- ----- ---_= i A2 82 B2 82 © A3 A3 A3 A3 A3 A3 =_--- ---__ __--- ---- --- --c I ----- t 2 1 2 N ❑____ ___ _ I ---- --HIE ----- -- -_-_ - -- ----- ----- --- 1© 2 1 2 1 2 --_� J J J J ® ® ® ee EAHA-7 J J J AW AW AM AW - 82 --- - - __ B2 I A3 ----- ----- ----- ----- _--__ ---- ---- B2 I 62 A3 1 Y A3 A3 A3 1 2 1 2 N J D - 82 6 J J 2 1 2 1 2 t A3 A3 A3 J •••- J ----- --- -1 -- -- X Ct. I ud B2 ^ J J J A3 J A3 QJ N B3 B3 O D4 D4 O I ADD A31D A3D egF I 83 I --- A3 A3 A3 A3 I -- _--_ I A3 _- _ __ J i -- - I =--_= A2 ----- ----- I X D4 J I 1 I (6) TYPE M J ( A3 J J _ -B2 I 83 J J J N N ° SD ° __-- _ --_ ---- c N N - _ A3 �A3 A3 I Sic J A3D A3D A3D A3 A3 6 N J J J Xi- EAHA-33 eeel I e— 82 B2 B2 - 82 B2 B2 B2 N N N N N J J J J111W J J J J 82 X I AREA 'B' I i I 1 N N N t A3 A3 A3 A3 ° t t A3 A3 A3 ° t 1 ° --°-- N N — — — 1 T 82 A3 A3 A3 A3 A3 J J J I N J J J J __---- -- -- - -- -- -- - -- -- -- - -- A3 J N N N AREA 'A B2 A3 A3 A3 A3 A3 A3 A3 A3 A3 A3 B1 81 A3 J --- — ----J Sc I N 10 EMERGENCY LIGHTING PLAN - AREA 'A' KEY PLAN (�z SCALE: 1 /8 1 0 CIFAMI A�ANNN FOR CONSTRUCTION Revisions Rev. Dale Description W � 1� O� V J Q x W W � C I- W k- n n _ UW W Z W nO l� Dote: 06-30-06 Project No. Drown By: R06 Checked By: Sheet Title: EMERGENCY LIGHTING PLAN -AREA 'A' Drawing No. E2� 2A I F F I I I I F F EEO �--� I I — I � F F I I I I EBHA-2 ( OFl I - C2 - = 2 I - - K2 K2 K = I w s K2 = I _ K2 C2--- j-----J s __ C2 I I OSE-- - - - - -- X I ---- EBHA-6 - ----- o o � o � C SE I I IAO II I I II �JII SC I°Ii 16 %I II J3N —IJ3�N Jz I EBHA-4 J I F 82 A2 A2 A2 A2 A2 0 ° I A2 I A2 I =° B2 B2 X A3 A3 ° T I B2 82 A; JIII I J rli- o °A3 A3 A2 A2� A2 A�l I—J = ° o A2 ° ° A3 A3 82 A2 A2 B2®— ® o o L io o A2 A2 3 B2 J J I B2 A3 B2 Bz X1 A2 A2 A2 A2° A0 = I A2 A2 A2 A2 A2 A2 L— A2 A2 A2 A2 ( I I II Fl ® B 3 B3 Ft D I Fi ( I I I I II I I I II e� Fl Ft F1 ( I C2 C2 B3 B3 I I G2 I c2 cz B2 K2 K2 J2N F 0 T II II I I II it II C3 F I o 13N =c 2N I I J3 I I I I I I 2 I EMERGENCY LIGHTING PLAN AREA d3 I SCALE: 1I8"ct�Areol s ° SD i pKAN ND�t J I I I J2N _ I i i I 2 I J3 I I I I J2N = . I O SE H2 _ 91 H2 H2 A3 7A3 (— A3 A3 J = H2 - A 3 AJ A2 A3---- ----- A3 to ® ® --- ----- A3 A3 3, 0 0 ---------- A3 ° I I A3 A3 �A3 �A3 � A3 Al ° SD I —he A3 A3 A3 T0 = 82 I Ara + A® A3 A3 A3 J �A3 A3 A3 I A3 A3 A3 A3 = 0 ° A3 82 A3 A3 , ° X ----- A3AT A3 A3 I B2 A3 A3 A3 ®° T A3 A3 A3 A3 I — 82 82 J XA3 A3 A3 R R 82 � lul B2 LL=::=;JJ a 0 1 B2 j A3 A3 A3 A3 A3 J A3 A3 82� � � � B2 o A3 A3 A3 —I—— D2 B2 A3 A2 A2 B2 O I D e� e� AREA 'B 83 83 A3 A3 SD J I - I �° = A3 A3 82 D4 I ' 0 ® ® = i AREA A A9 B2 D2 B3 B3 C ° A3 A3� ` F F — — A33 B2 I 82 ( Z I D4� A3J X 82 ~X ° 82 o ; KEY PLAN — = B2 I JN Na O O 82 D3 A3 A3 82 B2i AREA ' B' FOR CONSTRUCTION Sheet Titte: -------- -.-__ POWER PLAN NOTES _..___----_-.--- GFNF.RAi.NOTFC.--- A_,ALL 120/208V BRANCH CIRCUITS OVffit 100 FT. TO 200 FT. SHALL BE#10 THHN FULL LENdTH, OVER _ 200 FT. SHALL BE #8 TWIN B. ALL CONDUITS WII.L HAVE A SEPARATE INSULATED GREEN GROUNDING CONDUCTOR SIZED BY TABLH 250.122 OFTHE NEC.- C_. CONDUITRUNS SHOWNARE DIAGRAMMATIC IN NATURE. CONTRACTOR IS RESPONSIBLE FOR S1zPI6 LOCATINGPULL BOXES PER NEC AND COORDINATION Wl'IiI _ OTHER TRADES._ ID_ _ ALL DEVICE PLATES ININMATE OR JUVENILE OCCUPIBD AREAS WB,L HAVE TAMPER RESISTANT ! _ TORK REIECTION SCREWS. �- DEVICE PLATES WILL BE STAINLESS STEEL PLATES. E. DEVICE PLATS FOR DUPLEX RECEPTACLES ON EMERGENCY PANELS WILL BEREDPLATES. -� cPF.CINt . NO .c• 1. 2 GANG FLUSH MOUNTED AD7USTABLEFLOOR HOX. HQUAL TO HUBBELL B4214/1-SB3083/253825 ONEJ POR DUPLEXRECEPTACLE_AND ONE FOR DUPLHXRJ-45 CAT SE JACK BY_OTHERS. VERIFY LOCATION I - WITH OWNER. STUBBED3/4"CONDUTfUNDERFLOORTONEARESTWALLANDUPTOLAY•INCEiLIN� _ SPACE FOR TELJDATA. _ _ - 2. DEDICATED RHCEPTACLE+16"AFFFOR120VUNDERCOi)NTERREPRIGERATOR.- 3. !INSTALL #6 GROUND WIRE IN 1/2" C. PROM TERMINAL BOARD TO MAIN GROUNDING BAR. 4. _ ISOLATED GROUND DOUBLE DUPLEXRECEPTACLES. HOMI3RUN 2-12,1.12 GND,1-12ISOLATED GND_� i/2" C. 5. RECEPTACLE OR RECEPTACLES INSTALLED _ BEHIND ELECTRIC WATER COOLER HOUSING. 6. II2RIGATIONCONTTtOLLER.VERR7YfIEIGHTWTTHLANDSCAPECONTRACTOR. 7.- CONNECT TO 120-24V POWER SUPPLY LOCATED ABOVE CEILING LINE (FOR ELECTRIC DOOR). - VERB7YREQUII2EMENTSWITHDOORHARDWARESUPPLIER. 8. SINGLE GANOFLUSH J•BOX WITH 1/2" BMT _ _-_'-- C. STUBBED TOLAY-IN CEII.ING SPACE. FOR PUSH BUTTON -)(FURNISHED W/ DOOR HARDWARE)`PUSH BUTTON WII.L BE OPERATED BY CLERK AT DESK (VEItIFYLOCATIONOFDESKFORPLACBMENTOFPUSHBUTTON.) �� I'' TWOSINdLBGANGFLUSHJ-BOX WITHI/2"EMTC.STUBBBDTOLAY-INCEII.INGSPACE.FORPUSH BUTTONS LFUItNISHEDW/DOORHARDWARE),PUSHBUTfONSWH.LBEUSEDT00PERATED00RLOCK_S AT DOOR 104 AND DOOR 251A. REFER TO ARCHfTECTURAL FOR DOORS. _ 10. BINDLE GANGFLUSH J-BOX WITH i/2" EMT C. STUBBED TOLAY-IN CEII.ING SPACE. CONNECT TO EDWARDS 147-1 PLATE W/ EDWARDS 691-W PUSH BUTTON W/ 2 #16 FROM TRANSFORMER 590. 11. CONNECT TO EDWARDS 590 POWER SUPPLY LOCATED ABOVE CEII.INGLINE FOR EDWARDS 725 HUZZ_ E 1 MOUNTED JUST BELOW CEILING LOVE. CONNECT TO BUZZER W/2#16 FROM TRANSFORMER, ( 12. HAND DRYERS BY OTHERS, MOUNTED AND CONNECTED BY ELECTRICAL CONTRACTOR. VERIFY - MOUNTING REQUIREMENTS AND LOCATION. DEDICATED 25 AMP LOAD, HOME RUN 2-10,1-10 GND 11/2" C. VERIFY LOAD PRIOR TO INSTALLATION AND ADJUST AS NECESSARY. 13 IMOUNTDOUBLEDUPLEXRECCEPTACLESAT42"AFFTOCENTER. 14_ DEDICATED RECEPTACLE +42" APFFOR 120V Revisions Rev. Dote Description W � o� V J \Q L� W W � W O n UW Q W =W I-- U nO Dote: 06-30-06 Project No. Drawn By: RtDp� Checked By: JB Sheet Title: OVERALL POWER PLAN Drawing No. E301 n I Win_ I n b:> i11 �. , ,c,: �l►n., ns. a \, , „ , - e-. e. ... , .-< I i� � < � 4PI I�1� _tl� III .' oa © ■ -.a. _J■finylLarB _ 1=+Yr�P�_. I� ( --- �- ;. .- L - _ { r I� r .1�, r _ I�i� .I Ir �� �q IY 1_ _ _© i" `�- �� '��• ■I . [3�I �T �. ��: Cif �, � I �"-.aY. L.,�iit.�ll!m'Y. ■ - III ,. ..�� ,.r. � ti- �j - f■ J �. I J I - <-- <-. - it ."u ma "'•`: �,,,,. �� - _��_ �"y+ - , Tt.^^--�`'--G ■ . M ._:n.'^J II♦' !rl r,. r� # � [� _ ��I �rl rfl - '-'I ,�,�, 'y m � ° ��, �.■��' mT�ll �4� �11■I ,� °� of=.�,:�ii: m CCulf.9�!�^ a.�.,^ n, ■��,'- ��-,pryt per'■,:■ i ''L9�'a� - i� III Irlr a•I:• I, I II -',� ---� own_ 1 I' n I I H I ■ ■ °! L - , �I;S�`■Vu'iT.!■� �■GiY Gili�■}� ■[iii:. ■1.ar p Wlr` �d or one Ir.. w FI �1, ��n m ,n ,u ry p- �■ i�'..7 alp .I GlI V man „ ,i• �I_ Ir �'"-_- I: �� _ ! 1■L1��'711L; : tr : a.ar.I I --tea, U ��_ �•u :rl �IaiY�� �[ I- .4�FJl�� il, C7 _l n• al� �■� I= o u = n�,' r' y;I,�� a �,u -a. m- ��-I:- •I • = i I nfl(� , r 1 '., ►,SN. . nr1'rirlLirlb,1/�i�l I � I Ir - �Ir _ I rr � Ir Ir�� _�► FIT i, ■I -_ -_- �_- aid, 1 v _IR \'am �.7"v'd• I�'' ': 9Y :• �! ■ ((_I (■, r', tllltllitllltl■mQi ■I■ ■ ■I■ ■., :■d..' Ulmer - •� �I II !IJU Up �3 I„ tllllllllllltl� =-i� I , - �II ,. • - . , : � � Qlilllllitlll cl r�l IF all . Li ,- � � I �,;!1 :i��i r;J ���,�.•�i��!i Ism �,�I m �� ft I In �1,�•I'�, ,fir = __ �� '�a��_ :� __ ,,.o�:.®. �► ° I • • �L�>_� m I� ' ii ^ ■I ��' L min a,�'n1m�o m m I' ' "'1[a' '' ° ¢ Til�•_:n. �l r� 1 �' � m l� _ �� ) t'•-O I •I��r��ill �` Inn, ° z•Ia JI� �l �` �I 1 - 1 1 , .11 ■ I"-11nti1,...i I'n`r � ■ ■ I _I� ■� . l!_ � -' �Y n -� Ir 1 0 • -i:.: ��l_� ��Iq, •/ � � .I •VJ. !::, 'v�� IC Iw'• I•I I'I I�Y,I,uil criiT= - MLILLI LL 16 o I114 N CEILING SPACE FOR BUILDIIF NG SLAB AND BONDED TO SYMBOL p M T$OR) 1 TAMPER RESISTANT Fx, a mr WIINUSE COVER (NEW 5,2all) Q=T(NM45%VA)?AMPERRES1SIAAfr SPECIAL PURPOSE RECEPIACLE (NSPECIAL 12OV02F)WOROUNDING SINGLE RECEPTACLE (N SPEC1111PURPOSERECEPTACLE 2Aml2OVl2PtJWISOLATEDGROUNDINGOLADPLEY TELEPHONE OUTLET Vp CONDUIT ® RESTUBBED TOAMOSPACE, ® RE ® RE INFIX DEVICES USERED COVER CoDUTIWOMEFRUN �IiII °O (uNam ® 1LA OR (R WATER H 1-UESIG._j (EWHd EWH-2 � EWH-3 i !CIRCULATI MCP 1 _ ICP-2 -� CP-3 WATER CO' DES 16d It EWG7 1 EWG2 Ein WG3 I NOTE3 i. '2_ so I so _.3 ..a 'EA ' B' I 140 W EVIDENCE ;EA 'A' I I I I Wp AFF I 0' WORKBENC I I 1 i 42• 4Y AFF AF£ I AI:A-+7 i EAt,A"3j I I i I L E I 350 KW GENERATOR 4 I aeii— ii�:16'1 '&M7% SA zi �--► EALA-71 -' FAiwA AHA-20,22,24 E F!: EBLA-34 Ell EBLA-36 LEG CUR MACHINE JANITOR'S CLOSET 133 :1►_II:7 WOMENS' RESTROOM 128 5 --� LEG PRESS SQUAT RACK EXERCISE ALA-48 ALA 149 INCLINE BENCHES FIAT BENCHES FlAT BENCHES eL a—cn W b p' AFF LOCKOERE ROOM 150 ON EALA-72 MENS' LOCKER ROOM Qt51 Sa�S� DOT — ER- 161 111/eIl�: *CPO CPO 154 * 155 TABLE DOLLLY .nll et-w��( ALA-5J48 TABLE DOLLLY CHAIR CHAIR DOLLY DOLLY cHAIR cHAIR SUPPLIES DOLLY DOLLY 277 CHAIR CHAIR DOLLY DOLLY It E z z � �� z an �.( 4 EII � � II E VEALA-58 EALA-60 TEL, RM/ E EALA 911 RM EALA-72 153 EALA 62,64 �= E J HE - HE . SUPPLIES 124 • • • Tkim WIND 1_poll BLA-1 s' BLA-9 INTERNAL I QUARTERMASTER AFFAIRS 'nI SUPPLY 156 i 157 EALA-31 LocKEN .A{�:7•h LOCKED I �4LoA t 7WW o Ka 120 ALA-2 v 42 E Ell HE IIE 11 rTl 16 HE /E E EWH-1 If ENS' (� EALA-15 EALA-17 16R ig 9' AFF / ALA-59 RE ; OM E E E EALA-29 I 4 E 6 8 E 8 10 12 E w00000 2 EALA t6 LA-13 3 35 If (r. E J i i J a J MECHANICAL ®� ®OEALA ROOMVOW E _ 57 57 130 CO L � RESTROOM E E - E 6, 10 E - 12 14 17 127 E E s 16 fool E 9 411 Bpp ILAI.f4�r`� GALA EMCENORER.� E,h6A rzALF1/tlttXE 37,39,- 93A I © 6 LG Ea4 t7 6,a- 122 10a12 17 34� /N- WP EALA-23 REFER TO NOTE 15 FOR ELECTRICAL E 6• VERIFY DISPATCH �J EALA- i M HT 288 E E E E 13NE J E E E J E W + E EALA-23 ��,r it E E E E fiALA-d6 E�4hAi8 EAhfi-20" EALA-21 eG mE TABLI 6' ; I" I EALA-13 E E 16 E 16 16 E EALA-11 E E I— — — — — — — — — — — — — — — — — — — EALA-1 EALA-3 EALA-5 x N RECEPTIONIST 2 CREDENZA s' p m COMPUTERS 289 • Q 1 V AFF E E E T �y A t 1 OF— m E E STAFF R 4r Sx 4z EALA-25 3 EALA-52 x MPUTER SUPPORT 6 —56 CO � EALA-9 E g I AM 42• I m 5 SPECIALIST E I E 0 E I s �� er err W 106 E o E 1 I E 1 E o a ALA-9 9� I ROOM I 2/E3.1_ Des I 42 EMERGENCY FILES 5� 110 �� �a EVEN BACK �E ALA-19 1 AFF MANAGEMENT 112 EALA-54 I 9' AFF E E EALA-7 I 114 E EWC-1 g� E ' BLACK [c 54E BOOKCASE�S STORAGE CABINET IA ALA-7 EALA-69 CORRIDOR ALA-13 L r EALA-63 E 104 5 BOOKCPSE -- BOOKCASE LATERAL LA TERAL FlLE 1 OOONCASE CASE ,^N EALA 6 L S PPLIES E �`\%l I ADMINISTRATIVE E ASSISTANT 17 119 EALA-59 ASSISTANT LEGAL CHIEF EALA-61 111 x CHIEF E GFO AD107 SECRETARY 118 DESK m 113 EALA-65 E DIEUT ANT'S� Des 105 E CLOSET LOSET E ICE E E DESK I E 117 s E 1 E 5 115 109 E x E E s � E E z E ATERAL U C gLL A 5� FlLE NZA u S I I POWER PLAN - AREA 'A' SCALE: 1 /8" = 1'-0" `SWAMI p�ANN CORRIDOR ry BLA-19 ALA-38 13N EALA 29 ALA-37 LOBBY 101 TRAINING 270 N INTERVIEW \ 292 no ALA-21 13N EALA Ti• 7 J l AREA 'B' KGlSE i-- AREA 'A' 1 ( BLA-23 12 PE SON LL 1 I �� c I ( I s I � � 1 I CPO 268 I ( BOONC/SE E++� 1 COFFEE ALA-ao265 1 42• ff g I ALE — DESK ALE SERGEANT SUPPLIES 269 271 Hair REDENZA ( l0 I RESTRM 0 275 I VICTIM �SSISTANT A I 2974 Li i —36 ALA-42 I PLAY AREA 272 BOOKCASE OOOKCAGE I I I 'INGERPRINT STATION OFFICER 280 281 I I ALA— )RRIDOR 278 - I I I I I � I EAid 3a I I I RECORDS 283 I � ALA-35 ALA-33 �a" I I i I 42• 42 42 AM nOPY ALA-31 285 NE I 1 5' I 7 i ( RESSMROOM ® ® RESTROOM 103 102 12 J J 12 I 1 ALA-2 I ALA-23 ALA-29 I Pay I Telephone I I VESTIBULE WP 100 T ON EALA � I J I I J_ _-- I KEY PLAN AN NeP Revisions Rev. Date Description W� 1� 0 Ino W V I W � LL W l_L n 1� UW � C W Z W n0 n Dote: 06-30-06 Project No, Drawn By: RDB _ Checked By: JB Sheet Title: POWER PLAN — AREA 'A' Drawing No, E30 1 A FOR CONSTRUCTION Revisions Rev. Date Description W � O � �m (000 Q W � n W = W f- U O Dote: 06-30-06 Project No. Drown By: RDB Checked By: JB Sheet Title: POWER PLAN - AREA 'B' Drawing No. E3e1B I�—_— _ _____—_—LA FORTE. TX MECHANICAL EQUIPMENT CONNECTION CHART AIR HANDLING UNIT §CHEDUL.E -.-_ ------------'----.-__-------.-.- _- ------._._ _.... ------------ FAN UNIT - '- - - START. UNIT-�� UNIT DESI_G. I_HP VOLT PH FLA _MCA UNIT DISCONNECT_ SIB C/BBB� Ct(T. _NOTES: AHU-1 _._ j 16� 460 3- 21.0 ---BRANCH 26.3�_ VFO BY DIV, 15 VFD-�40/3 j EAHA-03,15,17 (3�8, 1-10G, 3/4"C.) 2,3 AHU-2 i 15 I 460 �3 21.0 j � _ 28.3 ' VFD BY DN. 15 t VFD 40/3 BHA$,10,12 (3$, 1-10G, 3/4"CJ� -2 - AHII-3A AHU-38 3 480 3 4.8 j 5_� 460 8.0 COM80 STARTER _ 1 ___ 15/3 l BHA-03,45,47 (3-12, 1_-12G, 3/4"CJ 1,2 ( _C 3�7.8-1�9_5i__-COMBO STARTER 1 15/3�EBHA-7,9_11 (3-12, 1-12G, 3/4'C) 1,2,3 _� �=�_�J.. _ I NOTES - __.-` .----.—._ --i--- 1 SIZE 1 COMBINATION UNFUSED STARTER, NEMA 1 ENCLOSURE, COMPLETE WRH H/O/A COVER CONTROL -_ __-INEMA �120V COIL, AND RED "ON"PILOT. STARTER MAY BE MOUNTED ON AHU HOUSING OR ADJACENT WALLAS _ _ CONVENIENL ----'--- -"---------___-------- _ 2 —FINAL CONNEC710N AT UNR W% LIQUID-'i1GHT FLEXCONDUIT__OR STEEL_FLEXCONDUUIT. � - - 3 ON EMERGENCY GENERATOR POWER.--- -�_ _.— -- ��----`�-�--"'- ..—I---- ----------------------�------------ CHILLER &CONDENSING UNIT SCHEDULE '- '�^ — j -- -- _ ___ _ ' T AC �_ FAN UNIT START. j-UNIT l � —�_ UNIT----_ �_-- �-- DE31G. TONS VOLT PH FLA MCA UNIT DISCONNECT j SIZE C/B -� BRANCH CKT. — N_OTES:_ CH-1 --r---- i 74.4 460 3 757.7 197.1 200i3 BOOV HD NF N3R WA j 200/3 jM38 (33/0, 1.6G, 2"CJ 1,2 CH-2 _ 1 74.4 460 3 157.7 197.1 200/3600V HD NF N3R WA ' 200/3 jMSB (3�/0, 1-BG, 2"C.) 1,2 CU-1 40 460 3 91.0 113.8 200/3600V HD NF N3R WA 150/3 EAHA-8,10,12(31/0, 1.6G, 1 1/2"C.) 3,4 NOTES: `- - 1_�MOUNTDISCONNECTONUNRADJACENTTOCONNECTIONBOX --__ 2 FFINAL CONNECTION TO DISCONNECTAND TO CHILLER CONNECTION BOX W/ LIQUIDdiGH7 FLEXCONDUR. _ 3 (MOUNT DISCONNECT ON CU UNIT HOUSING IF ALLOWABLE OR ADJACENT BUILDING _ STRUCTURE AS CONVENIENT __ 4 FINAL CONNECTION AT UNfT W/ LIOUID-TIGHT FLEX CONDOR. - ____ CHILL WATER PUMP SCHEDULE -----_ `-----� -- _ �--------------- FAN UNIT (— START UNIT UNIT --___ - -_-_— -__ DESIG. � HP VOLTLPH FLA MCA UNIT DISCONNECT SIB C/B BRANCH C6CT. NOTES_: CWP-1 � 10 460 I 3 14 17.5 COMBO STARTER 1 - 25/3 ABA-17,19,21 (3.10, 1�10G, 314"C.) tl'_�3 '1,2 CWP-2 � 10 46�0 __14� 17.5 COMBO STARTER �_1 25/3�'AHA-14,18,18(3-10, 1-10G, 3/4"C.) --- - 1,2 --�--_ — NOTES: -- -1 -(NEMA SIZE 1 COMBINATION UNFUSED STARTER, NEMA 1 ENCLOSURE, COMPLETE WITH H/0/A/A COVER CONTROL, - 1120V COIL, AND RED "ON" PILOT. MOUNT STARTER ON WALL LINED UP WITH DISCONNECT ON OUTSIDE WALL FOR_ --. - PUMPS. (OUTSIDE DISCONNECTS 30/3 -- 600V -HEAVY DUTY - N_OFUSE - N_ 3R.) _ 2 FINAL CONNECTIONATPUMPW/LIQUID•TiGHTFLEXCONDUIT. - -`-- - 3 PHASE DUCT HEATER SCHEDULE _.-_ 1 HEAT _UNIT i__-�� _-_I-START_T UNIT �_-_N -_--_ �_ -- DESIG. TKW VOLT_ PH j FLA MCA UNIT DISCONNECT - r � SIZE - ^UNIT --- - G_ B__'__ CKT.__ NOTES: �_ EDH-1 --- L ----- 20 480 3 24.0E 30.1 3013 600V HD NF N7 WA __ _B_RA_NCH 4 � � —__T -` - - 013 IBHA38,40,42 (3�8,1-10G,3/4"C.) � 1,2_- ___I EDH-2 ----.._I_- _.__.-�-----. 30 480 3 j 36.08 45.1_j ' 30/3 600V HD NF N1 � WA 50/3 -_ 6HA-50,52,54 �--- I (3�6, 1-10G, 3/4"C.) _ 1,2 EDH-3 � _ _ f .�_ �_I 40 ,- 4E0 j 3 -` 48.11 i 60.1 � 100/3 600V HD NF N1 _ -�'95 (480-� � �-200/3 WA _i I 80/3 �EAHA-25,27,29_ � (3�4, 1.8G, 1"C_)') � 1,2 V(3.2/0, EDH4 3 114_27j�142�8 600V HD NF N1 , -I N/A 1j 75/3' 'BHA-14,16,18 1.6G, 2"C.) ( � 1,2� EDHS 20 � 480 i 3 24.0E t� 30.1 i� 60/3 600V HD NF N1� WA-f-40/3 BHA-44�46,48 (3-8, 1-10G, 3/4"C.) 1,2-� NOTES: -- 1 __ 1,MOUNT DIDISCONNECT ON DUCT HEATER HOUSING )F ALLOWABLE_ �OR ADJACEN_T BUILDING STRUCTUR_E_AS _.-T_ CONVENIENT -- — _ - -- ___ _ __ 2 � . F' INAL CONNECTION AT DUCT HEATER W! STEEL FLEX CONDUIT J -- -`-- ------ -'-� --� VA_ V BOX__ SCHEDULE_-- -----�------------------------------------i -I __�� DESIG. � KW VOLT ( PH HEAT FLA UNIT MCA - - START j UNIT UNIT � �T�N_OTESc -j VAV-1� 4 � 277 1 1 14.44 18.1 _UNIT DISCONNECT SP ST30A Switch SIZE � WA CIB i 25/1 BRANCH CtCT. j EAHA-19 (2-10, 1-10G, 1/2"C.) 1,2,3 VAV-1-4-_ VAV-�� _C_ 4 4� 277 277 � 1 ; 1 j 14.44 14.44 ' 18.1 18.1 SP ST 30A Switch SP ST 30A Switch`�N/A N/A 25/1 25/1 j__ EAHA-21 (2-10, 1-10G, 1/2"C.) EAHA-14 1-10G, _ 1,2,3 _ (2-10, 1/2"C.) 1,2,3 VAV-1�6 i 4 277 1 _ 14.44 18.1 SP ST30A Switch _L I WA 25M �- EAHA-18 (2-10, 1-10G, 1/2"C.) 1,2,3 VAV-1-8 �4 � 277_I 1 14.44 18.1 SP ST30A Switch WA EAHA-28 (2-10, 1-10G+1/2"C.) 1,2,3 VAV-1-9 I_4 277 � 1 -10.83 i 13.5- SPST20ASwitch WA _25/1 20/1' _ EAHA-3D(2-12, 1-12G, 1/2"C_) 1,2,3 VAV-1-10 ` 277 1_ 14.44 j 18.1 SPST30A Switch WA 25/1 EAHA-23 (2-10, 1-10G, 1/2"C.) 1,2,3 VAV-1-11 3 � 277 1 1I 0.83 13.5 SP ST20A Switch WA 20/1 _ EAHA-16 (2-12, 1-12G, 1/2"C.) 1,2,3 ' --�-�-10.83 13.5 SP ST 20A Switch WA 20/1 � EAHA-20 (2-12, 1-12G, 1/2"CJ 1,2,3 VAV-1-13 3 277 1 110.83 13.5_ - SP ST 20A Switch WA 20/1 -EAHA-22 (2.12, 1-12G, 1/2"C.) 1,2,3 VAV-1-14� 4 277 1 14.44 18.1 SPST 30A Switch WA _ 25%1 EAHA-24 (2-10, 1-10G, 1/2"C.) -1,2,3 VAV-1-11 4 277 1T14.44 18.1 SP ST 30A Switc�WA 25M' EAHA-26 (2-10, 1-10G, 1/2"C.) 1,2,3 VAV-2-1 -j--- -- �1� I _ 3 277 I 10.83 1E.5 SPST20A Switch �P N/A 20l1 BHA-16 (2-12, 1-12G, 1/2"C.) 1,2 ' VAV-2-2 VAV-2-3 6 A 277 277� �1- 1 21`i66 14.44 27.1 ST30A Swltch� WA 35/1 _BHA-39 (2-8, 1-10G, 1/2"C� 1,2 - VAV-2<1 j 3 �7 ' 1 �10.tT3 18.1 13.5 SP ST30A Switch _ � SP ST20A Switch WA I N/A __2511 j 20/1 BhIA-29 (2-10, 1_12G, 1/2"C.) BHA-27 1-12G, 1/2"C.) 1_2_ i _.I I --f- __-- (2-12, 1!2 VAV-2-5 VAV-2$-� VAV-2.7 3 3 _ 3 277 277 ��77 1 _ � 1 10.83 10.83 10.83 13.5 13.5 13.5 SP ST20A Switch SPST20A Switch SP ST 20A Switch N/A I WA _ N/A j 20/1 20/1 20N _BHA-31 (2-12, 1-12G, 1/2"CJ _ BHA-41 (2-12, 1-12G, 1/2"C.) BHA-33 (2-12, 1-12G, 1/2"C.), �- 1,2 _ _1,2 1,2 _( VAV-2$ VAV-2-9 i E 4� ' 277 277_r_ 1 i 1 10.83 14.44 13.5 j ' SP ST20A Switch _ WA -20/1 8HA-28 (2-12, 1-12G, 1/2"C.)j � 1,2 _ SPST20ASwitch WA_ 2D/1 1-12G, 1/2"CJ 1,2� VAV-2-10 �' 4�277-J 1 14.44 _18.1 18.1 J_ SP ST30A Switch -� _ WA 25--/1 -BHA-28(2-10, (- BHA-30 (2-10, 1-10G�112"CJ 1,2 VAV-2-11 4 � 277 _ 1 14.44-18.1 j_`SP ST 30A Switch N/A _ 25%1 I - _ BHA-32 (2-10, 1-10G, 1/2"C.) _ 1,2 VAV-2Z 12 j 3 j 277_ 1 10.83 13.5 SPST 3DA Switch WA L20%1 %_ BHA-38 (2-12, 1-12G, 1/2"C.) 1,2 VAV-2-13 � 4 � 277 I -1 y14_44 j 18.1 SPST20A Switc� WA j 25/1 _ r BHA34 (2-10, 1.12G, 1/2"C.) _ 1,2 VAV-2-04 �__ 3 j_^I 277 1 110.83 j 13.5 SP ST30A Switch �_ _ N/A -' 20/1 � BHA-35 (2.12, 1-12G, 1/2"CJ VAV-2-1b a � 277 I 1 -J--Z---- (18.05 10.83 13.5 � SP ST20A Switch __ WA' _ 20/1 _ ��- BHA-37 (2-12, 1-12G, 1/2"C.) BHA-22 (2-10, 1-10G, 1/2"C.) __1,2 1,2 _ � 1,2 VAV-2�3 VAV-2-18 T 5 i.__ _27� 1 �_� �, SPST30A Switch __ �SP ST20A Switch WA � �_30N 2D/1 _ � _ BHA-20 (2-12, 1.12G, 1%2"C.)I _ BHA-24 (2-10, 1-12G, 1/2"C_)�_ �,2 1,2 VAV-2-20 � 3 !_277 1 1 i 10.83 i 13.5 SP ST 30A Swftcti _WA N/A j 20/1 I BHA-17 (2-12, 1-02G, 1!2"C.) 1,2 - VAV-2-21 VAV-2-22 �_ 4 __ 3 277 E_27�7 1 i L-_�- 1 14.44y 10.83 _ 18.1 13.5__ SPST 15A Switch v _ SP ST15ASwitch WA 25/1 j___-BHA-19 i _ (2-10, 1-10G, U2"C.) 1,2� � j _WA- 20/1 � BHA-21 (2-12, 1-12G, 1/2"O'); 1,2 VAV-2-23 j VAV-2-24 ( 4 _i 4 1 277 I 277 1 1 � 14.44 � 14.44 18.1 i 18.1 1 SP ST20A Switch SP N/A I 25/1 _ BHA-23 (2-10, 1-12G, 1%2"C.)j 1,2 - ST 30A SwRch N/A 2511 L_BHA-26 (2-10, 1-10G_1/2"C.) NOTES: --- _-. -1,2_ 1 !SP ST SWITCH LOCATED AT VAV BOX FOR LOCAL DISCONNECT - -- --- _- 2 FINAL CONNECTION AT VAV BOXW%STEEL FLEX CONDUIT. _ _ ---, 3 jON EMERGENCY GENERATOR POWER. — -- - - --'_�_---_ SMOf� El(HAUST FAN SCH®ULE _ --------�---------_------- -- ---- - ---- --- - -- FAN UNIT S� T T UNIT UNIT -�- DESIG.IHP VOLT_ PH FLA MCA UNIT DISCONNECT SIZE C/B BRANCH CKT. NOTES__: SEF-1 j 10 480 3 14 17.5i __ COMBO STARTER 1 _ 25/3 EBHA-8,10,12 (3.10, 1-10G, 1/2"C.) _ 1,2 SMOIa: SUPPLY__F_AN_3_C_HED_ULE_ _ FAN UNIT — START UNIT r - DES.I_G. _ _H_ P VOLT PH FLA MCA UNIT DISCONNECT SIZE_ �( -- BRANCH CKT. NOTES: SSF-1 �460 , 3 7.6 9.5 i COMBO STARTER 1 15/3 jEBHA-13,15,17(3.12, 1-12G, 1/2"� 1,2 NOTES:__ � - - 1 NEMA SIZE 1 COMBINATION UNFUSED STARTER, NEMA 1 ENCLOSURE, COMPLETE WftH H/O/A COVER CONTROL, 120V COIL, AND RED "OM' PILOT. STARTER MAY BE MOUNTED ON FAN HOUSING OR ADJACENT WALL AS — CONVENIENT. ------ --'----- 2 FINAL CONNECTION AT FAN W% STEEL FLEXCONDUfi— ___ ___ — _ i_-" _� 116 VOLT EXHAUST FAN SSC_H_EDULE - --- t FAN UNIT START UNIT UNIT DES_IG_. VA VOLT �PH FLA MCA_ UNIT DISCONNECT j C/B __ CK7'. - NOTES:_ EF-1 _ -' 822 115 i 1 _7.15 8.9 _ SPST 15A Switch __SIZE N%A 20/1 _B__RANCH EBLA-27 (3-12, 1-12G, 1/2"C.� 1,2 EFEF-2 129 115 1 - 1.12 _ 1.4 SPST 15A Switch WA 20/1 ALA�1 (3.12 1-12G, 1/2"C�) 1,2 EF-2A _ 129 115 _I-�1 1.12 1.4 SP ST 15A Switch WA 20/1 ALA-31 (3-12, 1-12G, 1/2"C.)I 1,2 EF-3 _350 115 ' 1 __ 3.04 3.8+_ Sp ST 15A Swhch 20/1 BLA-32 �_(3-12, 1-12G, 1/2"C.)� __ 1,2 EF-4-� �-_ f 50 LI 115 f 1 0.44 _ .0.6 I � SP ST15A Switch] _N/A _ N/A ( 20/1 ALA�6 1-12G, 1/2"C.) 1,2 EFL 144� 115 _ 1 j_-1_25 '__1.6 r__SP ST 15A Switch WA �_ 20/1 __(3.12, BLA-71__ (3-12, 1-12G, 1%2"C.) 1,2 EF-8 1127 I-115 1 � 8.8 12.3 � _ 15A Switch _ WA 20/1- ALA-55 (3.12, 1-12G, 1/2"C.) _ 1,�__ __ EF-7-7 667 ____-__�- I 115 _ 1 5.8 7.3_ _SPST _ §P ST 15A Switch � � WA 20/1 - EBLA-29_ (3-12, 1-12G, 1/2"C.� 1,2 EF-B _ EF-9 -! 50 __116_ 1 �113.96 0.44 __ __0.6 __ 8P ST15A Switch __CWA � 20/1 BLA'36 (3.12, 1-12G, 1/2'C.)J - _1,2 __ 455 N5 5.0 SP ST 15A Switch WA 20/1 AtA-49 3-12, 1=12G, 1!2"C.)I � 1,2 NOTES: - ----L-----'---=---- --- - -- - 1 jSP STSWTiCH LOCATEDATFAN FOR LOCAL DISCONNECT. - -- 2 CONNECTION AT FAN W% STEEL FLEXCONDUIL '_�_! � -___ ,�__•__ - -;FINAL _� OVERALL SCALE: 1 /16" = 1 AREA 'B' _ AREA 'A' 0 0 r I I I I I I ( I I I ( I I ( I I I ❑ I I I I I I I I I I I I I ( ( I I L_� I I I II I () I I' I I ( I I ,_ I I r I I i I I I I I I I I I I ( I I I I I ( 0 '° , yr,s,,: �s V� t 3 II I - -f II II II II II "I''. IJ 0 u� l B �o� X L � ��/ f� �°� G�I�' F$d9-------------------� I I I ---__ __ I --:_ :___ �� I --------- , � ®u-a y4y L11 ty3o-� W _ I I i I �z. I I I _ _ _ �-� j �fo-, tx - I I I I I z u v"va u I I mu-eia4 I t+is-H�o � I ilis eeur ( I yva,o tea I ma B3L9 I 8H4-3t,]/,39 I +=�s-sum yi e°'r I II ew-uao I — — --t+— _ � Vte i�j ae ^/ittoc I t Brr wi+aza4ae I v�vm� s u y��eNe I ,I � ( I _ I I BN4-ss,n j I : I I I ( I ex4-n j I w j 36 e I I � v^vau BH4-2 ,22,24 I I - I pp''' vie ( I 9NM10.R4 I I I I I I I ( I i e,u-z4 I ( I I I yeY�s j mi w I u4 u4 I N-18 r — I YAY:Id1 v vnv-i-ia � '. e d a I YdY:Id2 I EAHA-20,22,24 � I ( I 4 � I I I r' EVU-:4 jvnv, i I YNv.,.,o ( I I I _J I I I � I I J I------------------------------------------- f3 17 BH4-27,29,3f n [I 0 HVAC POWER PLAN NOTES _ -_ — — (.F.NF.RAt.NOTF.9: �^ —. —1 A. ALL 120J208 V BRANCH CIItCU1TS OVER 100 FT. TO 200 FT_SHALL BE #10 THHNFULL LENGTH, OVER - - FT�SHALL BE#8 THHN __I200 B. _ ALL CONDU)TS WILL HAVE A SEPARATE INSULATED GREEN GROUNDING CONDUCTOR SIZED BY —_ �C. TABLE 250.122 OP THE NEC. _ CONDUIT RUNS SHOWN ARE DIAGRAMMATIC INNATiJRE. CONTRACTOR IS RESPONSIBLE FOR S)Z_@7(} _ AND LOCATING PULL BOXES PER NEC AND C_OORDIN_ATION WITH OTHER TRADES. _ _ _ _ _ _�� 1� NOT USED. __ 2._ CONNECT _ TO VAV BOX, 3KW 277V. PROVIDE LOCAL SPST 277V 20A SWITCHIN SINC$.E GANG BOX ON SIDE OF VAV BOX FOR LOCAL DISCONNECT. (SEE CONNECTIONCHART FOR DETAILS J 3. -� CONNECT TO VAV BOX, 41iVV 277V. PROVIDE LOCAL SPST 277V 30A SWITCH IN SINGLE GANG BOX ON j SIDE OF VAV HOX FOR LOCAL DISCONNECT. (SEE CONNECTION CHART FOR DETAHS.)-_ �---_ IY• _-I CONNECT TO VAV BOX, SKW 277V. PROVIDE LOCAL SPST 277V 30A SWITCH IN SINGLE GANG BOX ON �_ OF VAV BOX FOR LOCAL DLSCONNECT. _ (SEE CONNECTION CHART POR DETAIIS.) 5. CONNECT TO VAV BOX, 6KW 277V. PROVIDE LOCAL SPST 277 V 30A SWT1'CHIN SINGLE GANG BOX ON SIDE OF VAV BOX FOR LOCAL DISCONNECT. (SEE CONNECTION CHART FOR DETAILS) 8. CONNECT TO VARIABLE FREQUENCY DRIVE, FURPIISHED BY DIVISION 15,DRIVE IS COMPLETE WITH DISCONNECTSWITCH. _ 7. _ _ __ CONNECT TO AIlt HANDLER MOTOR. (SEE CONNECTION CHART FDR DETAIIS.) 8, CONNECT TO115VEXHAUSTFANMOUNTEDIN(.'EE,ING.PROVIDEIPOLEN.O.RELAYWiTH277VCOIL I _ INNEMA 1 ENCLOSURE ABOVE CEILING LINE.INTERLOCK SO RELAY CLOSES AND ENERGIZES EXHAUST FAN WHEN ROOM LIGHTING SWITCH IS ON. � ----_ - _ AREA 'B' AREA 'A' I�EY P�A�1 4N Ne FOR CONSTRUCTION Revisions Rev. Date Description- W� O� V I \� /\ �Z L�l W � OI- W �-- n I� (J_ UW W =W I- U nO l� Date: 06-30-06 Project No. Drawn By: RDB Checked By: JB Sheet Title: OVERALL HVAC POWER PLAN Drawing No. E4�1 ;EA ;EA � HVAC POWER PLAN - AREA 'A' �' BAN N�� AREA AREA I�EY P�Af� C ��N NOP FOR CONSTRUCTION Revisions Rev. Date Description O � Q� Q x W � OI- �- �- Q o UW Q W Z W -1 O Date: 06-30-06 Project No. Drawn Dy: RDB Checked By: JB Sheet Title: HVAC POWER PLAN -AREA 'A' Drawing No. E4� 1 A Revisions Rev. Dote Description W �� D O � 0- m � Q� Q x �� w W � �-'- � w OI- � � � �Q � �� UW Q � � W Z W f- U O Date: 06-30-06 Project No. Drawn By: RDB Checked 8y: JB sheet mie: HVAC POWER PLAN - AREA 'B' Drawing No. E4�1 B ����� Revisions Rev. Date Description �/ W �� 0 O � �m � �� Q x �� w W � V- � W 01- � � � �Q o � � UW Q 0 � W = W I- U O Date: Revisions Rev. Date Description W �� � O � �- m � Q� Q x �� W W � L'- OI- � w f- �-- �- � Q � � � UW Q W = W I- U O Dote: 06-30-06 Project No. Drawn By: RDB Checked By: JB Sheet Title: PANEL SCHEDULES Drawing No. E5�2 1112 (BATTERY CHARCERJ, 1{T2 NEU, f112 GND, J 4' C. 24' BELOW GRADE LB-7,9 ---Q—III-- TO AT.S —}f 2112 (START CONTROL 3/4' PVC 24" BELOW GRADE 7D ANNUCIATOR Bf4. 1112 GND, TIN SHIELDED PAIR 1 PVC TO ANNUGATOR IN DISPATCH AIR FLOW JDIREECC77ON MUFFLER INSTALLED ON ON TOP OF HOU67NO 350 KW/436 KYA NANRAL CAS FIRED EMERGENCY GENERATOR WITH WEATHERPROOF HOUSING SAND CUSHION — 8' THICK 3500 P51 CONCRETE PAD RE'NFORCED WITH 14 REBAR 72' O.G B07H WAYS — SIZE PAD J' CUL GREATER DIMENSI NS THAN GENERATOR (TIP)f14, 314C TO 3/4'X10' CW GROUND ROD 12" FROM FOUNDATION GENERATOR ELEVATION DETAIL CONCRETE BASE BY OTHERS NO SCALE 35' ROUND TAPERED ALUMINUM REF. FIXTURE SCHEDULE NUT COVERS AS SPECIFIED — 1" MAX. NON —SHRINKING GROUT — BETWEEN BASE PLATE & TOP OF POLE BASE 1" EDGE CHAMFER — R tDCES 3/4' SIDES 2 14 REBAR 'O C 0 R fz' (�•) PROVIDE 12" WIDE FOORNG ON ALL SIDES TO 30" BELOW GRADE CONNECT GROUND WIRE 70 POLE & TO SYSTEM GROUND WIRE :£tF1ING NUTS & WASHERS SQUARE STEEL BASE PLATE ` A. RUBBED FINISH ABOVE GRADE ` 3 - /4 REBAR TIES S a f5' BARE CU GROUND WIRE ' 4 FINISH GRADE ( I I :r 4 - 1 I I suPPufO w/Fixr. 'b X 36' CC ANCHOR BOLTS PVC CONDUIT, MIN. 24" DEEP 1/2" X 6' CU CLAD I I ROUND SHAFT W/ GROUND R00 35001 CONCRETE (FROM BA f) RATE ..L� 4-0 PERT. REBARS W114 •• )•' •^ ' ' HOR2 REBAR 77ES 0 12" O.C. q;I' �• e I MINIMUM 24" DIAMETER POLE BASE DETAIL CONCRETE BASE BY OTHERS NO SCALE PHENOLIC NAMEPLATE WITH 1/4" LETTERS INSCRIBED AS INDICATED, PROVIDE BLACK LABELS WITH WHITE LETTERS FOR NORMAL SYSTEM PANELS AND RED LABELS WITH VMITE LETTERS FOR ESSENTIAL SYSTEM PANELS. PANEL NAME m TYPICAL FOR ALL PANELBOARDS PANEL IDENTIFICATION DETAIL NO SCALE BOX SUPPORT CADDY OR EQUAL MULTI —GANG BOX AS REQUIRED 0 0 ° 0O o O 00 DEVICE COVER AS REDID. 0 CENTERLINE OF DEVICE WALL STUD NOTE TYPICAL FOR ALL OUTLET BOXES MULTI -GANG OUTLET BOX DETAIL NO SCALE *4� 4" OUTLET BOX oCADDYSORPEQUAL CENTERUNE 0OF DEVICEDEVICE COVER (1 OR 3 GANG AS RED D.) WALL STUD DRYWALL 1 OR 2 GANG "BACK—TO—BACK" BOX DETAIL NO SCALE BONDING JUMPER — SAME SIZE AS EQUIPMENT GROJNDING CONDUCTOR PANELSOARD EQUIPMENT GRWND BUS BONDED TO CABINET 7 EQUIPMENT GROUNDING CONDUCTOR INSTALLED PLASTIC BUSINGJ WITH FEEDER LOCKNUT (NOT SHOWN) FEEDER CONDUIT PANELBOARD BONDING DETAIL NO SCALE REREOEPIAGE I O O CUTLET TO SERVE O CABLE TO TvpD CABLE AND DEVICE BY OTHF325. z F FINISHED FLOOR RECEPTACLE AND TV OUTLET DETAIL NO SCALE FINISHED COILING LOWEST OF no 6" BELOW FINISHED CLG, OR 80" AFF FIRE ALARM HORN/LIGHT DIMMER SWITCH THERMOSTAT, FIRE ALARM WALL SWITCH --DO �O PULL STATION DATA/TELEPHONE OUTLET DATA/TELEPHONE Ld` N I FINISHED FLOOR WIRING DEVICE MOUNTING HEIGHTS - TYPICAL NO SCALE LT,YiI J—BOX ON STRUCNRE ABOVE NAgNUM 3e12 QUIRES NA%IAIUM 3/B" FLE% LIGHT FIXTURE CEILING TEE BAR LAY -IN LIGHT FIXTURE DETAIL NO SCALE NOTE: IT SHALL BE THE RESPONSIBILITY OF THE ELEC. CONTRACTOR TO VERIFY THE LOCATION OF THE OUTLET BOX PATH PLUMBER. DETAIL OF WALL HUNG EWC NO SCALE TORK 02101 277V PHDTOCEU. ON N. ROOF AHA-15 3-12, 1/2"C. INTERPOSING 2 POLE RELAY IN NINA 1 ENCLOSURE, 277V COIL 277V NEUTRAL R R R SEPARATELY MOUNTED SQUARE D CLASS 8903, 277/430V MECHANICALLY HELD CONTACTOR IN NEMA 1 ENCLOSURE, 277V COILS, 20A 6 POLE AHA-7 AHA-9 AHA-11 AHA-13 AHA-15 U L T T T TO TO TO SPARE POLE POLE WALIPACKS LIGHTS LIGHTS LIGHTS TO TO POLE POLE 21TV LIGHTS LIGHTS NEUTRAL EXTERIOR LIGHTING CONTROL DIAGRAM NO SCALE Revisions Rev. Date Description W O t� O W L� n ^� UW Q J W Z W I- U nO 1� Date: 06-30-06 Project No. Drawn By: RDB Checked By: JB Sheet Title: ELECTRICAL DETAILS Drawing Na. E6�1 FOR CONSTRUCTION r--� Revisions PART1.00-GENERAL 1.01 RELATED DOCUMENTS A. The Drawings and the general provisions of the Contract, including the General and Supplementary Conditions and other Division 1 SpOecification Sections, apply to the work of this section. 1.02 WORK SPECIFIED HEREIN A. Ail labor, materials, equipment and services necessary to fumiah and install complete electrical systems and related items of work as indicated or specified. B. The work in general shall consist of, but is not limited to the following: 1. Panels, services, conduit, wiring, etc., for all outlets and equipment. 2. Electrical service as indicated. 3. Telephone outlets and TV outlets conduits stubbed to ceiling space. 4. Provide temporary electrical service including meter and related work as required. 1.03 CODES, LAWS, REGULATIONS A. The installation shall be made in compliance with the applicable provisions of all laws, ordinances, rules, and regulations of Federal, State, and local authorities, including the Americans With Disabilities Act, and the associated utility companies as they apply to this Project, as well as the National Electdcal Code. Where the Contract Drawings or Specifications are in excess of Iegai requirements, the Contract Documents shall govern. Mod'Ifications required to affect compliance with Iegai requirements shall be made as required without extra cost to the Owner/Operator. Where modifications are required, they shall be reported to the Architect prior to beginning work on such modifications or alterations. 1.04 PERMITS, FEES, AND TAXES A. Secure all required permits; provide all services associated therewith and pay all associated costs and fees, direct or indirect. Pay all applicable taxes and bear the costs associated therewith. 1.05 DRAWINGS A. The Drawings are schematic in nature and show the various components of the s stems a roximate to scale and attem t to indicate how the are to be iota rated Y PP ty p Y 9 with other parts of the project. Determine exact requirements of other trades, and by reviewin all Contract Documents. 9 B. The Drew(ngs indicate general locations and routing of the various systems, but no attempt has been made to show all fittings, offsets, risers, parts, pieces, or junction boxes which are required. The Contract includes furnishing and installing each of those items required to fit the systems into space allotted for them and to form continuous functioning systems. 1.08 COORDIYATION A. The work done under this Division shall be closely coordinated with the work of all trades involved in the Project to ensure that they fit properly within the allotted space. Such coordination shall occur in advance of the actual installation or the placement of any device or item of equipmenfi. Alterations to the Contract amount will not be allowed for revisions which may result from failure to coordinate the routing, size, and exact proposed location of each item of any system wfth items of other trades, not for providing all required power, control, fixture, equipment, or interlock wiring. B. Coordinate electrical characteristics of the various items of equipment and systems with the work of DIVISION 15 prior to the purchase or installation of any equipment. Coordinate operating characteristics (voltage, phases, etc.) and all power, control, and/or interlock wiring. Additional cost will not be authorized for failure to coordinate the interface requirements between the work being fumished under DIVISIONS 15 and 18. C. Prior to the installation of any device in the ceilings, review all Drawings to ascertain that the locations of all devices In the ceiling will create a pattern which is compatible with the reflected ceiling plan. If ft is required to install a ceiling device at any location other than that shown on the Architectural reflected ceiling plans, coordinate the proposed location with the Architect prior to the installation. 1.07 DELIVERY A. Include ail transportation, hauling, hoisting, and placement costs associated with placing each item in its position within the Project. B. Adequately protect equipment from damage after delivery to the job. Cover wfth heavy drop cloths, as required to protect from plaster, dirt. paint, water, or physical damage. Equipment allowed to stand in weather or that has been damaged by construction activities will be replaced with equipment of a like kind. At time of final acceptance, equipment must be clean. 1.08 GUARANTEES AND WARRANTIES A. The guarentee provision of this Specification requires prompt repair or replacement of any malfunctioning item due to defective equipment, materials, products, or workmanship that may occur within one (1) year of completion. This includes, but is not limited to, ail work required to restore or replace the defective items and to make necessary adjustments to the entire installation, as required to provide safe, proper operation. B. The guarantee period shall begin on the day completed installation is released for full use by the Owner, and shall be a date mutually agreeable to, by the Owner and Contractor. Any item released for use to the Owner prior to full release, shall have its guarantee period start the day that particular item is released for use by the Owner, if the Contractor secures from the Owner written authorization for the guarantee for that particular ftem or system to begin prior to completion of the Project. If written authorization is not obtained, the guarantee shall begin upon the date of full use by the Owner and/or as otherwise agreed in writing between the Owner and Contractor. C. All extended warrantees required to be fumished on specific items by this Contract shall be delivered to the Owner prior to completion of the Project. 1.09 RECORD DRAWINGS A. At the Contractor's expense, a set of prints shall be kept on the job site during construction. During the course of construction, mark on these prints any changes which are made, noting particularly the location of those items which may need frequent servicing. B. At the Contractor's expense, a set of erasable film sepias shall incorporote all changes noted on the above work prints. This must be done by a skilled draftsperson. Mark each sheet "Record Drawings", with date, and deliver to the Architect at the completion of the Project. 1.10 SUBSTITUTIONS A. The names and model numbers indicated in these Specifications and on the Drawings have been used to establish a type of equipment, device, or material selected as a standard of quality. The products of other manufacturers may be acceptable where those products are comparable, have capacities not less than those required, are in compliance with the Spec cation requirements, and are in all ways compatible with the Project requirements. B. If the Contractor installs any equipment or device other than the make specified or scheduled, he assumes full responsibility for coordinating any dimensional variation with the work of the trades and for providing safe and properly operating systems. 1.11 OPERATING AND MAINTENANCE MANUALS A. The Contractor shall provide operating instructions and maintenance data books for all equipment and materials fumished under this Division. B. Submit three (3) copies of operating and maintenance date books for review at least four (4) weeks before final review of the Project. Assemble ail data in a completely indexed volume or volumes and identify the size, model, and features for each item. Manuals shall be assembled and contained within hardcover, three-ring binders. C. Maintenance instruction manuals shall include complete cleaning and servicing data complied in clearly and easily understandable form. Data shall show ail model numbers of each piece of equipment, complete lists of replacement parts and at,�tual reting. D. Include the following infomtation where applicable: 1. Identifying name and mark number. 2. Complete name plate data. 3. Shop Drawings and manufacturer's brochures. 4. Parts list, 5. Performance curves and data. 6. Wiring and control diagrams. 7. Manufacturer's recommended operating and maintenance instructions, with all non -applicable information deleted. 1.12 SUBMITTALS A. Submit six (8) copies of submittal data on following: 1. Lighting fixtures. 2. Paneiboards, switchgear end transformers. 3. Disconnect switches. 4. Starters. 5. Generator. 6. Transfer switch. B. Provide sample of typical circuit identification card which will be used in panels, marked in the same manner that will be used o this project. Data shall include listing of connectors to be fumished. C. Submit complete brightness and photometric curves in accordance with IES testing procedures on all fixtures indicated in the Fixture Schedule. 1.13 ELECTRICAL SERVICE A. Local governmental entities shall provide aIi utility lines to property line. They are also responsible to extend utility services to power company trensformer within a reasonable distance from the building. Contractor is responsible to bring secondary electric service from buildin to ewer corn an 's ole mounted transformer. Refer to 9 P P Y P one -line Brewing for conduit and wire size to utility company pole. B. Verify, wfth electric service company, the characteristics of the electric service to be provided. 1.14 OPERATING INSTRUCTIONS A. Instruct the Owner in the correct operation of the systems installed under this Contract. The operating instruction time shall be as deemed appropriate by the Architect, and shall occur during normal working hours and will not be acceptable at night, weekends, or on local holidays. 1.15 FINAL CONDITIONS A. Upon final completion, systems shall be left in the following cond(tion: 1. All equipment and fixtures clean and operating property. 2. Equipment properly lubricated. 3. Abnormal noise and/or heat corrected. 4. Ail panels, safety switches, starters, etc., correctty labeled with a permanent name plate. 5. Ali panels provided with a typewritten directory on the inside of the door. END OF SECTION**********»»»»»»»»..»».»»».»..:. PART 2,00 -PRODUCTS 2.01 MATERIALS AND EQUIPMENT A. Material fumished under this contract, unless otherwise noted, shall be new, free from defects and shall conform with the standards of UL, where such a standard has been established, and shall be so labeled. Materials not UL rated and materials not specified herein, that are required to complete the electrical installation shall be of first class quality for use intended and shall be subject to Engineer's approval. Items to be fumished under this Section shall be the standard product of established manufacturers regularly engaged in the production of such equipment. B. Provide enclosures for all equipment, suitable for intended use. For exterior areas and areas subject to water exposure use NEMA 3 weatherproof type enclosure. C. Voltage, ampere, and other ratings of equipment shall be suitable for use intended. Disconnect switches shall be properly horsepower rated and suitable for voltage applied, and ampere rating of load. Enclosures requiring opening for electrical service shall have only those openings that are necessary. For irregular surfaces increase openings and finish surfaces flat so that flush covers properly fd surfaces without deforming the covers. D. Raceways shall be sized according to NEC Tables 1 and 4 unless indicated otherwise. r r :.�. Wit_ _u` A. Galvanized Rigid Conduit (GRC): Clifton, Pittsburgh Standard Conduit, Republic Steel Corp., Triangle Conduit and Cable Co. Inc. and Columbus Brand; including elbows and couplings. B. Intermediate Metal Conduit (IMC): Clifton, Pittsburgh Standard Conduit, Republic Steel Corp., Triangle Conduit and Cable Co. Inc. and Columbus Brand; including elbows and couplings. C. Electric Metallic Tubing (EMT): same as above. D. EMT fittings: Pressed steel or malleable iron, compression type. T & B, Appleton, Regal, or Gedney. E. Flexible Metal Conduit (FLEX): Acme international Metal Hose, American Blass Sealtite, or Electrical Flex Co. Liquid tight flex shall be type UA. F. Flex Fittings: Same as EMT fitting above. G. Rigid Non -Metallic Conduit: As manufactured by Pacific Western Extruded Products, Baldwin Extruded Products, Triangle Conduit and Cable or Carlon; U.L. labeled Schedule 40 P.V. C. H. Type MC Cable (Metal Ciad Cable as manufactured by AFC or equal with full size insulated ground. 1. Wireways: Screw and/or hinged cover, of code gauge enameled sheet steel; B-Line, Hoffman or Square D. J. Plastic covering: #50 Scotch Wrap. 2.03 OUTLET BOXES A. Outlet, Pull and Junction Boxes: By Raco, Steel Clty, Bowers or Appleton. Include plaster rings, covers, bar hangers and KO seals as required. Provide in accordance with following schedule: B. Type for various locations: 1. Callings: 4 inch octagonal, 2-1/2 inches deep. 2. Plaster and drywalls: 4 inch square galvanized; provide shallow boxes where necessary, use suitable flat or raised adapters. 3. Exterior: cast aluminum wfth threaded hubs. 4. Floor. fulty adjustable iron boxes with brass covers of the modular, flap type duai- service units suitable for wiring method used. 5. Size boxes as per NEC. 2.04 CONDUCTORS A. Provide a complete system of conductors in aIi raceway systems, except where indicated otherwise. Does not include temperature control wiring, security system conductors or any other special systems. B. Unless otherwise noted, wire and cable shall be soft drawn annealed copper, 98% conductivity continuous from outlet to outlet. Minimum wire size #12, except control wire may be #14. All wire shall be stranded, except #10 and smaller may be solid. All wire color coded, with same color connected to same ungrounded phase throughout the installation. Unless otherwise specified or required by Code, #10 and smaller wire shall have type THHN insulation and #8 and larger to have type THHN insulation. When not shown on the Drawings, ampacities shall be determined as directed by Codes. All grounding cable must be copper. C. installation: Conduit system must be free of any foreign objects before pulling in wire. Do not use cleaning agents or lubricants having a deleterious effect on conductor coverings; use Ideal or equal pulling lubricant. All home run conduction's for 120 volt circuits over 100 feet and 277 volt circuits over 200 feet shall be #10 AWG. D. Connectors: Make all connections with UL approved solderless pressure type insulated connectors (Scotchlok, Ideal, or equal. For large joints, use Bumdy or equal, split bolt connectors properly wrapped with aScotch-fill base insulation and Scotch #33 tape applied. Rubber and friction tapes prohibited. solderless Tugs must be used for all copper terminations. E. Test: Submit ground curzent leakage test reports of megging proving compliance with Codes. 2.05 CONNECTIONS TO MOTORS EQUIPMENT AND CONTROL WIRING A. Power wiring: Make wiring connections to ail mechanical, plumbing, and other equipment being installed, including Owner/Operator fumished equipment. B. Control wiring: Control wiring for plumbing and HVAC will, in general, be provided under other Sections of these Specifications. C. Connections to equipment: Make connections to each motor and to each piece of e ul ment subject to vibration 'th q p j Hn not Tess than 18 inches of flexible conduit. Ali horizontal runs of conduit (not strapped to walls) shall be above 8 feet high, with a vertical drop to equipment. Conduit blocking walk and/or service space is not acceptable and wfii require relocation. Conduit on and adjacent to equipment must be located to allow free access to all removable panels for equipment service. Wire adjacent to heat producing equipment must be of a type approved for this use. 2.08 GROUNDING A. Furnish connectors and grounding bars by manufacturers regularly engaged 'in production of grounding terminals and equipment. B. Ground bars and insulators: Harger C. Compression connectors: Bumdy D. Exothermic welds: Erico "Cadweld° E. Main Ground Bar (MGB): 4" x %a x 5'-0" copper ground bar with standoff insulators. F. Secondary Ground Bare: 4" x'/s° x 12" copper ground bar with standoff insulators. G. Ground rods: Steel rods with a minimum 0.25mm thick copper coating (per UL 467) atomically welded to the steel at its outside edge. H. Ground rods size:'/.°diameter and 10' in length for grounding loop and'/:" diameter 6' in length for supplemental ground rods and pole base grounds. I. Connectors for attaching to grounds rods, concrete reinforcing steel, structural steel and metallic water lines: (1) Ground rod attachment above grade, industry standard bolt -on ground rod clamp. (2) Ground rod attachment below grade, exothermically welded or compression attachment. (3) Concrete reinforcing steel, exothermically welded or compression attachment, (4) Structural steel exothermically welded or compression attachment. (5) Metallic water lines, copper straps, studs attached to couplings or exothermic weld where allowed by the line installer. (6) MGB attachment, two -hole compression lugs. J. Conductors: Solid conductor for #6AWG and smaller and stranded conductors or #4AWG and larger. K. Ground loop conductor. #2/OAWG. L. Isolated Grounding Conductors: Green -colored insulation with continuous yellow stripe. On isolated ground feeders identify wfth alternating bands of green and yellow tape, with at least three bands of green and two bands of yellow. M. Ali feeder and branch circuit conduits will have a green insulated conductor as indicated on Drawings or per Article 250 of the NEC wfth a minimum grounding conductor size of #12AWG. 2.07 WIRING DEVICES A. Leviton or comparable Hubbell, P & S or Bryant and ivory in color. B. Wall switches 120/277 V, 20 A: 1. Single pole: Leviton #1221-2-I 2. 3-way: Hubbell #1223-2-I 3. 4-way: Leviton #1223-2-I 4. Single Pole Key Operated Swtch: Leviton 1221-2L-I 5, 3-way Key Operated Switch: Leviton 1223-2L-I C. Straight Blade Receptacles 125 V, 20 A: 1. 20A Duplex: Leviton #5352-i. 2. 20A Isolated -ground Duplex: Levton 5362-IG. 3. 20A GFCI Duplex: Leviton 6898-HG D. Device plates: Provide Leviton stainless steel device plates to match devices. Provide gang plates for aiimulti-box assemblies. Taymac cover enclosure for( weather proof when in use). E. Wall box dimmers and power dimming modules shall be as specified on the drawings. F. Occupancy Sensors as specified on the drawings. G. Ali device plates in detention area shall be stainless steel with torx rejection screws. 2.08 SERVICE ENTRANCE AND DISTRUBUTIOM EQUIPMENT A. Acceptable Manufacturers: 1. Siemens 2. Square D 3. Cutler Hammer 4. General Electric 2.09 SWITCHBOARDS A. Provide where indicated on the Drawings, afree-standing, switchboard having front and side access as scheduled and described herein. FOR CONSTRUCTION Rev. Date Description W � O V J Q W W � O W ��/ t� n I_J__. UW W ZW I- U nO L� Date: 06-30-06 Project No. Drown 8y: RDB Checked By: JB Sheet Title: DIVISION 16000 SPECIFICATIONS Drowing No. E�� 1 B. Indoor type, factory preassembied metal -clad units, shipped in sections to facilitate handling and field assembly, consisting of incoming service entrance pull section and distribution sections. Provide barriers between the service connection and the rest of the switchboard per NEC Article 384-3. C. All equipment rated to comply with NEMA Standards for construction, capacity and quiet operation. D. Ali equipment compartments wlth screw removable access doorsprovided with friction catches to facilitate inspection and adjustment. Live compartments secured with captive bolts. E. The main bus is copper with full capacity neutral. The switchboard has a integrated equipment rating of minimum 50,000 amps rms. short circuit fault or as noted on the Drewings. All devices on the switchboard have interrupting rating equal to integrated equipment rating. A ground bus fumished secured to vertical structure. F Feeder Circuit Breakers: 1. Rated 480 VAC 2. Ampere trip rating as indicated on the Drawings. 3. 3 pole, molded case type construction. 4. Group mounted. 5. A minimum of 80% rated. 6. Quick -make, quick -break, common trip, trip -free, and handle piosition trip indicating. 7. A short circuit interrupting equal to or exceeding that indicated on the Drawings. 8. Trip unit as follows: Thermal magnetic type, Fixed thermal trip rating, Adjustable magnetic (instantaneous) trip where frame size is above 100 amp and Equal to Square D K, L, or M series. G. Fumish each switchboard breaker with an individual engraved label stating the load controlled by the device and any other pertinent information. 2.10 MAIN SERVICE LIGHTNING ARRESTER A. General requirements: 1. Provide one three phase lightning arzester for the main service switchboard. 2. Constructed of metal oxide varistor components. 3. Completely self-contained including minimum #12 AWG stranded copper insulated phase and ground lead wiring. 4. Designed to operate wlth a direct lead connection to the service wiring. If arrester Is not capable of withstanding the anticipated short circuit rating of the service entrance, provide fuse protection forthe energized leads. 5. Meet all requirements of latest addition of ANSI C 61.11 for secondary arresters. B. Designed for operation on a 480Y/277V 3 phase 4 wire grounded system with the following characteristics: 1. Energy handling capability of at least 750 joules per phase. 2. Suitable for a maximum surge curent of 10,000 amps. 3. Initial response time of less than 10 nanoseconds. 4. Suitable of a maximum continuous over -voltage of at least 120% of rated line and line to neutral voltage. C. Housing: 1. Heavy duty plastic or metal enclosure. 2. Positive indication of arrester failure. 3. Suitable for indoor use. D. Equal to Joslyn "SURGE TEC°series. 2.11 PANELS A. Siemens, Square D, Cutler Hammer, Interiors shall be fastened in cabinets by supports with means to provide adjustment for alignment. B. Boxes shall have ample side, top and bottom wiring gutters to accommodate proposed and future wiring. Provide 20" (or grater) wide boxes and covers for Panelboards unless indicated othervvise. C. Fronts on panelboard constructed type panels shall be made from single sheet of steel, full finished patent leveled, door struck out, trim proper width around door. D. Panels shall have flush surface type covers with dead fronts when covers are removed. E. Doors shall be fastened to trim with concealed hinges and provided with flush type combination latch and lock with 2 keys each (ail keyed alike). F. Provide and install type written neat circuit ident'rficetion cards in each panel showing use of each pole. Tie bars to form two pole breakers will not be accepted. Panels shall be fumished with ground bus. 2.12 120/208 VOLT AND 277/480 VOLT PANELS A. Panelboards: 3 phase, 4 wire, solid neutral design with sequence style copper bussing and full capacity neutral, composed of an assembly of bolt -in -place molded case automatic air circuit breakers with thermal and magnetic trip and trip free position separate form either ON or OFF positions. Provide common simultaneous trip for 2 and 3 pole breakers. 2.13 120/208 VOLT AND 277/480 VOLT DISTRIBUTION PANELBOARDS A. Distribution Panelboards: 3 phase, 4 wire, solid neutral design with sequence style copper bussing and full capacity neutral, dead front safety type, equipped with quick- makequick-break, horse power rated, fusible bolt -on branch swiches . 6. General Construction: Similar to Square D QMB. 2.14 BUSSES A. Busses for all electrical equipment shall be constructed of 98% conductivity pure electrolytic copper buss bar (hard drawn) unless otherwise noted or approved by Engineer in writing. 2.15 CIRCUIT BREAKERS FOR PANELBOARDS A. Industrial grade, bolt -on, ambient compensating, thermal magnetic, quick -make, quick -break, trip -free type, one, two or three pole construction as required, wlth tdp elements calibrated as scheduled. Breakers designed so that a combination of single-, double- or triple -pole can readily be assembled in the same panel. Tie handles on breakers not acceptable. B. All breakers are SWD labeled and UL listed for switching. C. Breakers have phase sequences numbering. The phase to which each singie-pole branch is connected clearly indicated and so arranged that any three adjacent branches are connected to Phase A, B and C (1,2,3), respectively. 2.15 SAFETY SWITCHES A. Siemens, Square D, G. E, or Cutler Hammer (fusible and nonfusibie), heavy duty industrial type A (HD) for loads of 70% or greater of switch ampere rating and normal duty (ND) switches may be used where connected load is less than 70% of switch ampere rating. 2.17 STARTERS, CONTACTORS AND CONTROL DEVICES A. Provide starters, contactors and control devices shown and as required B. Starters (manual and magnetic) shall be Siemens US series or comparable. Furnish complete with green pilot lights to indicate equipment energized, auxiliaryjcontacts as required, push buttons, hand -off -on switches, and control devices ovedoad relays fn each line to motors except neutral, as required to complete installation. Thermal overloads to sized per manufacturers recommendations. Ambient compensate ail heaters exposed to high tempereture. C. Control devices (push button stations, hand -off -auto, on -off) Siemens or comparable. Time switches (astronomical) and photocells shall be Tork, Intermatic, Paragon or approved equal. 2.18 DRT TYPE TRANSFORMERS A. Primary, 480 volts; secondary, 120/208 volts, grounded wye. B. Insulation: Transformers have 220 degrees C. insulation system with a temperature rise not to exceed 150 degrees C. for 75kVA transformers and larger, tempereture rise not to exceed 115 degrees C. for 45kVA transformers and smaller. Temperature rise based on a 40 degrees C. ambient and 30 degrees C. hot spot with 100% of the rated nameplate load connected to the secondary of the transformer. The insulation used throughout in keeping with the applicable IEEE, ANS and NEMA Standards. C. Ali coils wound with aluminum magnet wire, vacuum impregnated with nan- hydroscopic, thermosetting varnish. Each layer having end fillers or tie downs to provide maximum mechanical strength. Tap terminations to be brazed to magnet wire. Primary and secondary magnet wire brazed directly to bus stubs or lugs family mounted. Windings continuous from start to finish. No splicing acceptable. Materials incorporated must have minimum of one year of proven field usage. D. Magnetic Circuit: All cores manufactured from a high grade, non -aging 29 gauge silicon steel with high magnetic perm abilities, low hysteresis and eddy curzent losses. Magnet flux densities are to be kept well below saturation to allow for minimum of 10% over -voltage excitation. E. General Construction: Aii transformers have core and coil mounted on vibration mounting pads designed to suppress transmission of 120 cycle frequencies and harmonics thereof. Pads arranged and selected in consideration of core and coil weight. The core and coils shall be grounded to the frame of the transformer cubicle by means of a flexible groundtng strap of adequate size. Maximum cast temperature not exceeding 150 degrees C. above ambient. All transformers, with single- and three- phase, up to and including 75kVA, interchangeable for floor, wail or ceiling mounting. Ali transformers have six 2-1/2% taps, 2 above normal and 4 below normal.. F. Sound Levels: Sound levels guaranteed by the manufacturer not to exceed the following values: 25 to 50 KVA, 45 dB; 51 to 150 KVA, 50 dB. G. Impedance: Impedances to be indicated in the Shop Drawings and are not to be below the following minimum values: 45 to 75 KVA, 2.2%. 2.19 AUTOMATIC TRANSFER SWITCH A. Acceptable Manufacturers: Russell Electric Co., Asco, Zenith, Onan or others as approved by Engineer. B. Automatic transfer switches shall be completely compatible with the engine -generator set. Provide any auxiliary equipment needed to insure this compatibility. C. Rating: 480V/277V, 3 phase, 4 wire connection plus ground, 600 Amp. D. Enclosure: NEMA 1, surface mounted and hinged enclosure door with cover mounted selector switch and tndicating lamps. E. Fast Transfer Switch Mechanisms: Electdcaily operated and mechanically held, high speed quick -make, quick -break, break -before -make operation. Mechanism operated by a single linear motor and associated operating linkage attached to moveable contacts of all poles for both sources. Operational time of transfer mechanism itself not to exceed 400 milliseconds from fully closed on one source to fully closed on the other source. Sliver plated line contacts and arc shutes on ail poles. Switch mechanism shall be 4 pole with fully rated neutral connection. Separate ground bar bonded to the switch enclosure and capable of accepting all grounding conductors. Manual switch operator and detachable handle to allow for manual opening or closing of switch. Manual operation shall be rated for load break operation. F. Relaying: Full 3 phase solid state sensing on both normal and emergency lines, normal system "loss -of -service" voltage level adjustable from 90-100% of nominal voltage. Emergency system acceptance voltage level adjustable from 85-100% of nominal voltage. Adjustable 0.0-3.0 second time delay on loss of utility nortnai power before initiation of generator start and adjustable 0-30 minute time delay to retrensfer to utility after acceptable utility voltage and frequency have been restored. Nornaily open close -on -normal source contact; contact shall be rated in accordance with engine/generator start circuit and auxiliary close -on -normal -failure contact. G. Cover Mounted Switches and Pilot Lights: Selector switch for automatic and manual switch control positions. Test switch to simulate normal power source failure. Manual retransfer to normal switch. Manual bypass switch for time delay to transfer back to normal source. Green "normal" source pilot light to indicate transfer switch position. Red °emergency" source pilot light to indicate transfer switch position. H. Adjust all transfer switch relays and timers for proper operation as directed. Time to transfer to emergency source and back to normal source shall be as follows: 1. Emergency system loads must be re -energized within 10 seconds of a normal power system outage. 2. Maximum allowable 10 second time delay includes all of the following times: a. Intentional time delays programmed for engine -generator start upon loss of normal power. b. Time for generator to crank, start, and achieve synchronous speed and voltage within tolerance levels. c. Time for the transfer switch motors to change the load side contacts from nortnai to emergency position. 3. Emergency loads shall be connected to the emergency system as soon as stable emergency power is available. I. Operate the switches through at least two full cycles of opening and closing to insure proper operation. J. Operate the switches through at least two full cycles of opening and closing to insure proper operation. k. Fumish owner wlth documentation on operation, repair, and servicing of switches. 2.20 EMERGENCY GENERATOR A. Acceptable Manufacturers: Caterpillar, Cummins/Onan, Kohler. B. Emergency generator shall be designed for standby operation as an emergency backup to nortnai utility power. C. Housed in a fully enclosed weatherproof steel enclosure with access doors and panels for ail servicing, inspection, and installation and removal of all fluids. D. Comply with all curzent codes including UL, ANSI, NEC, and NFPA 110 standard for Type 10, Class 8, Category A, Level 1 system. E. Fully compatible with automatic transfer switches. F. Construct on a steel frame skid capable of supporting the full weight of the engine - generator. Frame shall be isolated from the concrete slab with vibration isolators. G. Capable of providing full rated KW output load at a 110 deg. F. ambient temperature at 3,700 ft. above sea level. H. Engine Requirements as follows: 1. Natural Gas fuel fired. 2. Two or four stroke, 1800 RPM, water cooled. 3. Turbocharged or naturally aspirated to provide full capacity at rated site conditions. 3. Additional Requirements: a. Isochronous electrontc governor. b. Battery charging altemator and voltage regulator. c. Forged steel connection rods and crankshaft. d. Dry element heavy duty air cleaner. e. Spin -on fubdceting oil fliter(s). f. Muffler as follows: 1. Critical grad silencing. 2. Horizontally mounted above or Inside enclosure. 3. Include exhaust pipe rain cap. g. Complete with the following: 1. All coolant including a 50/50 water/antifreeze mixture. 2. Ail interconnecting Ines and hoses. 3. Alt lubricating fluids. 4. Four hour load bank testing. I. Battery requirements as follows: 1. Skid mounted mounting plate. 2. 12VDC or 24VDC rechargeable lead -acid liquid electroyte type with caps over individual tali compartments, Valve regulated batteries, for which electrolyte level cannot be easily determined, are not allowed. 3. Sized to maintain the engine cranking speed for two complete periods of cranking limiter time-outs (one cranking limiter time-out is defined as 75 seconds composed of a 15 second crank, 15 second rest, 15 second crank, 15 second rest, 15 second crank). 4. Complete with cables between batteries and electric starting motor. J. AC Generator (Alternator) Requirements as follows: 1. Capable ofprovidiog full KW load output with a power factor of 0.801agging. 2. Revolving field type, rated 4 pole 1800 RPM, 60Hz. 3. Designed for maximum altemator tempereture rise of 130 deg. C. above 40 deg. C, ambient. 4. Windings: a. Six or twelve lead connected 480V/277V wye, 3 phase 4 wire. b. Brushfess, drip -proof construction. c. Class H insulation. d. Skewed stator to minimize harmonics. e. Random wound wlth copper magnet wire. f. Covered with a heavy polyester/epoxy resin after winding and a sealer overcoat for moisture resistance. 5. Brushless exciter, shaft mounted, full wave, complete with semiconductor 6. Voltage regulator. a. Regulation of +/-1 %from no load to full Toad, b. DigRai type construction. c, Permanent magnet type. d. Volts per hertz type to provide faced relationship between output voltage and generator frequency. 7. Distortion limits: a. Total harmonic Distortion (THD) of less than 5% and less than 3% distortion for any single harmonic. b. Telephone Interference Factor (TIF) Tess than 50 per NEMA MG1-22. 8. Additional items: a. Shaft mounted blower for air cooing. b. Separate excitation field circuit breaker. c. Terminal box for connection to load side wiring to the molded case switch or circuR breaker. 9. Electdcelly protected by the following methods: a. Self protected by Inherent design with electronic controls for amperage limits per NEC 445.4 that provide protection based on the generator thermal damage curve. K. Control Panel as follows: 1. Generator unit mounted. 2. Generator output measurement meters as follows: a. Analog voltage meter wfth selector switch w(th marked positions for selection of voltages and OFF position. b. Analog current meter with selector switch with marked positions for selection of phase currents and OFF position. c. TEST/OFF/AUTO selector switch. d. DC battery voltmeter. e. Oil pressure gauge. f. Odometer style run time meter. 3. Alarms as follows: a. Indicate visual alarm by LEDs or control panel lamps. b. Indicate audible alarm by silence able control panel alarm. c. Provide apre-alarm only for high engine temperature and low tube oil pressure. d. Provide alarm or indication only for low water temperature (less than 70 deg. F.), no fuel present, emergency power system supplying load, ATS control switch not in auto position, high battery voltage, low battery voltage and battery charger primary (AC) side failure. 4. Provide alarm and engine/generator shutdown for the following: a. Overcrank. b. High engine temperature. c. Overspeed. d. Low oil pressure. e. Remote emergency stop. L. InstailatioNApplication as follows: 1. Provide reinforced concrete pad base for engine -generator as per the Architectural Drawings by General Contractor. 2. Install fluids as follows: a. Fill engine radiator and cooling system with a 50/50 water/antifreeze mixture. Bleed off air in the coolant system and completely fill the system with coolant priorto energizing the coolant heater. b. Fill the engine crankcase with the proper quantity of lubricating oil. Oil standards shall meet manufacturer's requirements. c. Top off all battery cells with distilled water. 3. Fully charge starting batteries prior to and after completing all tests. 4. Load test generator In the presence of authorized equipment manufacturer representative. 5. Install warning sign at the service entrance point indicating the location and type of emergency system (ref. NEC 701-9). 2.21 LIGHTING FIXTURES A. As per Lighting Fixture Schedule. B. Provide lighting fixtures shown which shall have all parts including plaster frames for recessed fixtures and fittings necessary to completely and properly install fodures. Lighting fixtures shall be prewired type. C. Lighting fixtures shall be complete wlth lamps of size, type and quantity required to lamp fodures, unless smaller sizes are shown. If lamps and ballasts noted are not of D. Finishes except as otherwise noted in schedule shall be top quality organic baked enamel, applied over iron phosphate rust inhibitor, after five -stage washing and phosphatizing .process. Minimum enamel thickness shall be 1.5 mils, average reflectance shall be not less than 85 /o. E. Lampholders in all fxtures shall be mounted to 18 gauge socket bracket. Bracket and lampholders shall be reinforced by end of electrical chassis to prevent spreading. F. Fluorescent Lamps (T-8): General Electric, Sylvania or Phillips, energy saving type. Minimum CRI of 75, and color temperature 3500 K. G. Metal Halide Lamps: General Electric, Sylvania or Phillips, ANSI C78.1372, with minimum CRI 65, and color temperature 4000 K. 2.22 IDENTiFICATiON A. Every panel board, safety switch, transfer switch and starter shall have attached an ident'rficetion label. B. Label shall be made of two layers of laminated plastic, black -white -black, 1 inch high, 3 inches long, 1/8 inch thick, engraved so that the white core will be visible. C. Identification engraving shall match the designation shown on the Drawings. Letters shall be 1/4 inch high. E. Labels shall be attached to the front of equipment. END OF SECTION*•*���»"�'*�R*'�•"�+ktk*F4�✓,RR• Revisions Rev. Date Description Q W O �n I__J.� UW W =W I- U 06-30-06 Project No. sy: RDB Checked By: JB Sheet Title: V J fX f W nO L_1._ DIVISION 16000 SPECIFICATIONS Drawing No. FOR CONSTRUCTION PART 3.00 - EXECUTION 3.01 GENERAL INSTALLATION A. The entire electrical installation shall be made in a neat, approved, workmanlike, finished and safe manner. Conceal all wiring in finished areas. The entire installation shall be subject to the Architect's approval. B. Remove all tools, scaffolds, scrap and surplus materials promptly upon completion of any portion of the work. Keep all areas clean of waste and debris. C. Minimum installation requirements shall be in accordance with manufacturer's written up4o-date installation recommendations. D. Inspect and make tight all connections for all equipment, including factory connections. Torque all connections per manufacturer's recommendations. E. Construct and brace equipment, materials, etc., to minimize unnecessary and undesirable rattling and vibration in all electrical systems. F. Drawings showing electrical work are generally diagrammatic and are not intended to show in detail all features of work. Check location of electrical work to determine in advance that it clears all openings and structural members, that equipment will be properly concealed and that equipment clears cabinets, fixed equipment, windows, door openings, or other obstruction. G. Notify serving agencies prior to time work is started and subm(t plans, spec cations, shop drawings and other related work as required, including the providing and installing of required materials to complete all systems. H. Lighting fixtures installed and used for lighting during construction shall be relamped with new lamps just prior to final acceptance of the Project. 1. Install seismic restraint devices for all ceiling mounted equipment, I.e. fluorescent lay - in type ceiling fixtures In modular type ceilings. Provide grid clips and #12 slack wires from fixture comers to structure. J. Flush mounted equipment, panels, junction and outlet boxes, etc., shall mount within 1/8" of finish surface. Where too deep to completely recess, provide approved finished wood or approved trim and fill space between finish surface and panel trim as directed by Architect. K, Free standing and self-supporting equipment shall be anchored (bolted down) to a 6" (exterior), 4" (interior) raised concrete slab. Where equipment is not free standing type, anchor to wall with approved type mounting support as required. L. Mount transformers on non-skid bonded vibration isolation, pad. M. Provide wiring to time switches and photo cells as required and set time switches and adjust photo cells as directed by Engineer. N. Where two or more conduits run to a single outlet box, each circuit shall be color coded as a guide in making connections, colors shall be carded continuously throughout the system. If more than one muifmvire branch circuit is canted through a single raceway. All circuit conductors of the same color shall be connected to the same feeder conductor throughout the installation. O. Combining circuits in single conduit runs is permitted with proper identification and wire and conduit size increase required by NEC. P. Provide all conduit, wiring and connections for equipment furnished by the Owner or under other Sections, including Tine voltage wiring for the cooling and heating equipment compressor wiring. Obtain required information from the other trades and rough-fn to meet requirements of said equipment. 3.02 RACEWAYS A. Install approved complete raceway systems for all electrical conductors. Raceways for Telephone outlets, Data outlets, TV outlets, Fire Alarm outlets and Security Electronic outlets will stubbed to the nearest accessible ceiling space. B. Unless otherwise noted, install all raceways concealed, generally in fined spaces, walls, or below floors, in roof insulation, below grade or other approved available spaces. Where it is not feasible to conceal raceways, they shall be installed as directed by Engineer. C. Where exposed raceways are permitted by Architect in finished areas, used approved Wiremoid raceway and use approved escutcheons where entering or leaving finished areas. D. Raceways shall not be installed in close proximity to any steam pipe, hot water pipe, heating duct or appliance or areas subject to heating above temperature rating of conAuctors installed in raceways. If conductor insulation types aro not noted, verify for compliance prior to installation of raceways. In no case shall raceways be installed within 3" form outside finish covering of pipes or ducts being crossed. E. install exposed raceways to run parallel or at right angles to structural building lines with neat bends where required and neatly offset into points or terminations, F. Above panels install 3-3/4" future empty raceways to accessible ceiling space, with a No.14 nylon drag line or approved equal pull wire with adequate slack at each end to facilitate the installation of future electrical conductors. G. Install approved expansion joint type fittings in raceway systems crossing building expansion joints and as recommended by raceway manufacturer where expansion is caused by temperature changes or similar type conditions. Expansions fitting to maintain approved raceway system (provide bonding jumpers as required). The minimum size approved conduit type raceway shall be %" trade size. H. Install raceways with approved heavy duty supports, straps, hangers, connectors, and couplings, as required to maintain and approved installation. Raceways shall have Independent supports from building or similar structure only. Do not support raceways H. from other crafts pipe, ducts, ceiling support wires or other related equipment. Wire or perforated strapping shall not be used for hanging conduit. I. Support vertical runs of raceways on heavy steel clamps. Bolt clamps tightly around the conduit and rest securely on the building structure without blocking. Place clamps below couplings. J. Make all raceway bends without collapse or injury. K. Carefully ream raceway ends to remove all burrs. Cut ends of raceway at right or proper angle to length of raceway and install to butt flush into couplings or fittings. Can all conduit raceway ends as soon as installed and keep free of foreign substances. Use approved type caps for use intended. Make no more than 4 quarter bends, pockets, or depressions in a continuous run of conduit raceway, install up and over obstructions rather than down and under. L. Swab clean, dry and remove any foreign materials from raceways prior to installation of any electrical conductors. M. Unless otherwise indicated where conduit raceways enter or leave the top of a concrete slab, it shall be accomplished with and approved hot dipped galvanzed rigid steel coupling installed flush to 1/4° below finish floor level. Extend conduit raceways from flush coupling as required to complete run. N. Install raceways below grade a minimum of 24° below finish grade, or a minimum of 2° from surface of raceway to bottom side of 4° thick or grater concrete slabs poured on grade. O. Do not install conduit raceways in concrete slabs. Provide double reducing washers where conduit raceways enter oversized and concentric knockout openings. Provide insulated bushing and insulated grounding bushing as required for all conduit raceway systems. P. Do not install raceways where they will be subject to injury or damage; e.g., sharp rocks, in bottom of trench or backfill. O. Support underground conduit runs or backs on preformed, nonmetallic separators, spacing between exterior surface of conduits generally shall be not less than the following; between telephone conduits, (20), between conduits containing conductors at B00 volts or less, (20) and between telephone conduit and power conduit in same envelope, (6"). R. Spacing between separators shall not exceed 5 feet and be close enough to prevent sagging of conduits and breaking of couplings and watertight seals. S. Raceways shall not be covered until approved by local code enforcement authorities with jurisdiction. T. Where and underground conduit, without a concrete envelope, enters the building through a non -waterproofed wall or floor, a sleeve made of schedule 40 PVC pipe shall be filled with a suitable plastic expandable compound or and oakum and lead joint on each side of the wall or floor in such a manner as to prevent entrance of moisture. U. Type MC Cable maybe used where approved by applicable codes and regulations, 3.03 GALVANIZED RIGID CONDUIT (GRC) A. Used in any areas subject to damage and below grade raceways only where protected against corrosion. B. Below grade or slab use only where protected with and exterior corrosion protective layer. Coating may be field or factory applied. 3.04 INTERMEDIATE METAL CONDUIT (IMC) A. IMC raceway and approved fittings where permitted by applicable codes and regulations may be used in lieu of rigid steel conduit, where installed above finish grade and above concrete slabs on grade. 3.05 ELECTRIC METALLIC TUBING (EMT) A. EMT may be used where concealed in areas above ceilings, furred spaces, partitions or walls. EMT is not permitted in slabs or below grade. 3.08 FLEXIBLE METAL CONDUIT (FLEX) A. Use flexible conduits for connections to motors and where other electrical equipment is subject to movement, vibration, misalignment, cramped quarters or where noise transmission is to be eliminated or reduced. Length shall be adequate, but not to exceed 30". Final whip connections to recessed interior lighting fixtures and similar equipment installed in accessible ceiling tiles that can be removed for maintenance or accessibility to the ceiling space. Where permitted by Code and with written approval of Engineer, flex may be used where the installation of rigid steel conduit and EMT are A. not feasible. Where flex is Installed in runs over 4 feet in length, it shall be tight with a minimum of slack. Flexible conduits and fittings used to meet the above requirements shall in addition be of the liquid -tight type when installed under any of the following conditions: 1. Moisture or humidity laden atmospheres where it is possible for condensation to accumulate. 2. Where water or spray due to wash down operation is frequent or possible. 3. Wherever there is a possibility of seepage, dripping, etc., of oil, grease or water. B. Use of 3/8" flexible conduit in lieu of 1/2" trade size may be used, providing local Code allows, on equipment with motors rated less than 116 HP, motorized dampers and final whip connections to recessed single circuit and non -split -wired interior lighting fixtures mounted only in accessible ceilings. 3/8" flex conduit must not contain more than 3#12 AWG or smaller insulated conductors, serve no more than one light fixture, and limited to 6 feet. 3.07 RIGID NONMETALLIC CONDUIT (PVC) A. PVC Schedule 40 may be installed for direct burial raceways where installed a minimum of 240 below grade, 30" below grade for service entrance. B. PVC bends up to 45 degrees per manufacturer's recommendations. All larger bends shall be rigid galvanized conduit, wrapped with plastic tape half lapped. Make transition to rigid conduit with approved fittings. PVC conduit may be used for branch circuits under floor slabs and concrete walls. PVC above grade is not acceptable. C. Encase service entrance and telephone PVC conduits in concrete (3" minimum coverage on all sides). 3.08 WIREWAYS AND FITTINGS A. Wireways and fitting Installed on exterior and where subject to water or similar conditions shall be reintight type construction without knockouts, constructed from galvanized sheet steel. 3.09 OUTLET, PULL AND JUNCTION BOXES A. Provide boxes installed rigid and true where shown or as required. Prior to installation of boxes; such as wall switch boxes, verify size, location dimensions and door swings (switches shall be on strike side of door unless directed otherwise by the Architect). Provide necessary hangers or grout into masonry as required. B. Unless otherwise shown or as directed prior to installation, outlet boxes shall generally be placed at the following heights, center of box to finished floor level. C. Wall Switches: 50' D. Convenience Receptacles: 18" or as noted on drawings. Mount horizontally above cabinets. E. Provide gang devices wherever possible, and provide partitions for gang boxes where conductors of different voltages and system enter same box. Verify equipment sizes and requirements with supplier of equipment prior to rough -in and setting of boxes. F. FIeId verify the exact location of all floor outlet boxes with the Architect or Owner before concrete pour. Support all floor boxes adequately during concrete pours to prevent displacement. Trims shall be flush with floor covering and not installed on top of floor covering. 3.10 CONDUCTORS A. Use specked color schedule for all wiring. Where large conductors are not available in .colors, identify with permanent colored plastic tape at all terminations, junction boxes, etc. color coding as per NEC and Owner's requirements. B. Identify all conductors by number with wraparound cloth wire markers in all Junction boxes, pull boxes and at all terminations and junctions. C. Make taps, joints, splices, and other connections with approved connectors. D. Make splices and taps only when required and as directed in approved locations, such as within junction boxes or wireway. E. Conductors serving motors and subject to vibration shall terminate to screw or similar type connections with approved crimping type terminals. 3.11 LIGHTIN3 FIXTURES A. Fumish and install ail fixtures complete as called for in the Fixture Schedule on Drawings. B. Carefully examine the complete areas as well as each individual room where fixturesare to be installed for interference with piping, beams, ducts, etc. Where any such interferences occur, provide fixtures with proper type suspension to overcome such interferences. C. Unless otherwise directed, fixtures must not be hidden or obstructed, wholly, or in part, by any piping, ducts, etc., running directly under the fixtures, D. Where the bodies of fluorescent fixtures are used as raceways for branch circuit wiring, use wiring with an insulation rating of at least 90 deg. C. Carefully and securely clamp wiring within the fixture body to positively prevent contact of the wires with the ballast. E. Clean all fixtures and leave free of any dirt, dust, grease, etc., at the completion of the 3.12 GROUNDING A. The grounding system shall be a single -point low -impedance grounding system. All equipment grounds shall terminate at the MAIN GROUDNING BUS (MGB) located in the main electrical room as indicated on Drawings. This grounding bus shall be a " copper ground bar attached to the wall of the electrical equipment room by insulators and fitted with a clear plastic shield labeled as "MASTER GROND BUS" The master ground will be subdivided into separate bonding locations for ground source, surge producers, surge absorbers, non -isolated equipment, and isolated equipment. Mixing of grounds on the bus in not permitted. All ground wires shall terminate on the ground bus with a two -hole compression lug. B. The master ground will be bonded to the ground ring installed outside the building with at least two-2/0 ground wires. The ground ring shall be a continuous ring of bare 2/0 conductor it 5-feet outside the building and 2-feet below grade. Ground rods will be provided where the ground ring changes direction and at 50-feet on center minimum. C. Bond to building steel, with welded connectors, from MGB. D. A 20 foot long grounding conductor will be placed into the building slab and bonded to the rebar, with welded connectors, form the MCB. E. Main panelboard grounding electrode conductor, panelboard equipment grounds, separately derived grounds from dry -type transformers (isolated and non -isolated), generator ground, 911 ground, telephone room equipment and other grounds as required shall be bonded at the appropriate section of the MGB, sized as per NEC Article 250. F. Install in Telephone/911 Room 153 and Computer Room 108 a 4" x'/." x 122 Ground Bus located at 7'-0" above floor. Thie bus will be drilled to accept two -hole compression type lugs and mounted to the wall with standoff insulators. All equipment racks will be bonded to the Ground Bus. Each Ground Bus will be bonded to the MGB with a #1/0 ground conductor. G. Ali grounding conductors exposed shall be insulated, installed in conduit and sized as noted on the Drawings or per Article 250 of the NEC with a minimum grounding conductor size of #12AWG unless noted otherwise. H. Completely ground the electrical system including all electrical receptacles, lighting fixtures, equipment, conduits, support, cabinets, and metal enclosed electrical equipment in accordance with the NEC and as shown or indicated on the Drawings. I. Install a separate insulated grounding conductor in each feeder and branch circuit raceway, whether the raceway is metallic and non-metallic, where the line voltage of the energized conductors exceeds 30VAC. 3.13 UTILITY COMPANY SERVICE J. Contractor to be responsible for coordinating and providing required work for supplying electricaI power and telephone conduit to the project. K. Contractor to run secondary service underground and encased in concrete from Main Switch Board, CT Can or as required by Utility Co., to pole mounted transformers. The secondary conduits shall have a minimum cover of 30" below grade. 3.14 TESTING ELECTRICAL SYSTEMS A. Furnish all meters, cable, connections, apparatus, etc., necessary for making tests under this Section, subject to Engineer's approval. B. Test system for shorts and grounds. Faulty wiring shall be removed and replaced. After system is connected complete, test for insulation resistance, Resistance lower than outlined in the NEC, manufacturer's data, etc., shall be removed and replaced. Any device, apparatus or fixture under this contract showing substandard readings shall be removed and replace as directed by the Engineer. C. Ali equipment shall be tested by taking ampere readings per phase, speed by means of direct reading tachometer, full load and no road voltage with 1?% voltmeter. Record ail readings and deliver to Architect for review. END OF SECTION*«***««***'"«»*****«*"«**«•••«* FOR CONSTRUCTION Revisions Rev. Date Description U W � O V J Q� Q X �Z W W � O W UW n O Q J W ZW I- U J nO Date: 06-30-06 Project No. Drawn 6y: RDB Checked By: JB Sheet 7iile: DIVISION 16000 SPECIFICATIONS Drawing No. Edo 3 I�EY PLAN C FINISHED TOWER FOUNDATION CITY OF LA PORTE NEW POLICE BUH,DING CONIMUNICATIONS CONDUIT SCHEDULE Conduit A — One 2" EMT Conduit from Radio Equipment Room to Telephone equipment Room 153. Route EMT overhead minimum 2 feet above ceiling and stub down 4 inches below ceiling at either end against finished wan. All bends to be long radius elbows. Conduit B — One 3" Ridged conduit in slab from Telephone Equipment Room 153 to Dispatch Room 288. Stub up 6 inches against finished wall in Telephone Room and stub out under computer floor in Dispatch Room 288. All bends to be long radius elbows. Conduit C — One 2 %s" Ridged conduit in slab from Radio Equipment Room to Dispatch Room 288. Stub up 6 inches against finished wall in Radio Equipment Room and stub out under computer floor of Dispatch Room 288. All bends to be long radius elbows. Conduit D — One 2 %" ridged conduit in slab from Radio Equipment Room to Emergency Operations Center Room 122. Stub up 6 inches against finished wall in Radio Equipment Room and stub out under computer floor of Emergency Operations Center Room 122. All bends to be long radius elbows. Conduit E — One 2 '/," EMT from Radio Equipment Room to Computer Room 108. Route EMT overhead minimum 2 feet above ceiling and stub down 4 inches below ceiling at either end against finished wall. All bends to be long radius elbows. Conduit F —Two 2 %," PVC from ceiling above Radio Equipment Room to ceiling above break room 123. Route PVC overhead minimum 2 feet above ceiling and leave open at both ends without bends. My understanding is that semi -rigid antenna cable will be pulled in this conduit. This type cable cannot be pulled around bends without damage so a straight pull is required. Conduit G — One I" PVC Conduit with pull string from GHC911 to mechanical yard for portable generator connection. Stub each end up 18" AFF with IMC conduit. Conduit H — One 2" PVC sleeve stubbed up 12" AFF far 350 MCM ground wire. Conduit I — One %" PVC conduit with pull string from GHC911 to call taking position # one in dispatch. Stub up 18" AFF in 911 Room 153 and 1" AFF in dispatch. (Verify locations of all call taking positions.) Conduit J— One I" PVC conduit with pull string from GHC911 to call taking position # one in dispatch. Stub up 18" AFF in 911 Room 153 and 1" AFF in dispatch. (Verify locations of all call taking positions.) Conduit K - One'/," PVC conduit with pull string from GHC911 to call taking position # two in dispatch. Stub up 18" AFF in 911 Room 153 and 1" AFF in dispatch. (Verify locations of all call taking positions.) Conduit L — One 1" PVC Conduit with pull string from GHC911 to can taking position # two in dispatch. Stub up 18" AFF in 911 Room 153 and I" AFF in dispatch. (Verify locations of all call taking positions.) Conduit M - One 3/P PVC conduit with pun string from GHC911 to call taking position # three in dispatch. Stub up 18" AFF in 911 Room 153 and I" AFF in dispatch. (Verify locations of all call taking positions.) Conduit N — One 1" PVC conduit with pull string from GHC911 to call taking position # three in dispatch. Stub up 18" AFF in 911 Room 153 and i" AFF in dispatch. (Verify locations of all call taking positions.) Conduit P = One W9 PVC conduit with pull string from GHC911 to call taking position # three in dispatch. Stub up 18" AFF in 911 Room 153 and 1" AFF in dispatch. (Verify locations of all call taking positions.) Conduit R — One 1" PVC conduit with pull string from GHC911 to call taking position # three in dispatch. Stub up 18" AFF in 911 Room 153 and 1" AFF in dispatch. (Verify locations of all call taking positions.) Conduit S — One 1" EMT conduit with 4#6 THEW wires from Panel EALA to 6"x6"x6" junction box above GHC911 in 911 Room 153. 1 AREA 'B' AREA 'A' STUB UP i FOOT ABOVE PIER -LEAVE 3 FDQT SEE NOTE 1 7 GROUND RINGS ( STUB UP 4 FEET PIER -LEAVE 14 b' X b/8' COPPER CLAD GROUND ROD TOTAL OF B GROUND RING gz souD nN PLATED COPPER WIRE OR LARGER I I 1 I ENTRY BULKHEAD I I 1 1 LEAVE 3 FOOT COILS 1 I I I ( I _ 1 1 1 I I I I ( 1 1 i I I TOWER FOUNDATION I NOTE i NOT SEE NOTE 1 i INCH MIN PVC CONDUrT WITH MIN #2 TIN PLATED COPPER WJZE CAD WELDED TO GRGUND RING AND SEE NQTE 11 STUHHED UP AS SHOVN HELOW I NOTE 2 - WAVEGUIDE SUPPORT 1 ALL GROUND ROD AND WIRING CONNECTIONS TO HE EXOTHERMIC WELDED WITH APPROVED KIT CAD -WELD OR EQUIVALENT NOTE 3 - BEN➢ RADIUS OF WIRE SHALL NOT BE LESS THAN 8 INCHES I BENDS SHALL NOT BE GREATER THAN 90 DEGREES I 1 1 ENTRY BULKHEAD FINISHED HOLEISIZE IS 19"WIDE x 13.5" HIGH I TOP OF CUTOUT i INCH BELOW FINISHED CEILING I 1 I �6 GROUND WIRE TO MAIN GROUND BUS EVIDENCE _ — — 140 — — — — VAULT 142 LD. TECH 137 DRUG VAULT 10' WORKBENCH 141 BREAK ROOM 132 SNACK MACHINE COKE MACHINE, COIN S MECHANICAL ROOM 130 CORRIDOR 134 LEG CURL MACHINE JANITOR'S CLOSET 133 MENS' RESTROOM 126 MENS' RESTROOM 127 I _I I I I I I I I v LEG PRESS SQUAT '' RACK 1!1 Ll EXERCISE 149 INCLINE BENCHES FLAT BENCHES FLAT BENCHES U DUMBELL RACK I I DUMBELL RACK C WOMENS' LOCKER ROOM 150 CONDUIT E DOT —o R ER— 161 p PO * CPO 154 155 TABLE DOLLLY CORRIDOR 1 48 TABLE DOLLLY CHAIR CHAIR DOLLY DOLLY CHAIR CHAIR SUPPLIES DOLLY DOLLY 277 CHAIR CHAIR DOLLY DOLLY z z z rn zrn z� _z a4a 4a¢ Fa w CONDUIT G SUPPLIES 292/ SUPPLIES 124 CONDUIT B DARE Revisions INTERNAL 41 QUARTERMAS'' AFFAIRS vEml SUPPLY DESK 156 D E 157 fi' WORK TABLE vHs/DVD TRAINING/ CLASSROOM 276 8' FOLDING TABLE 8' FOLDING TABLE 8' FOLDING TABLE 8' FOLDING TABLE 8' fOLDING TABLE 8' FOLDING TABLE 8' FOI 8' FOLDING TABLE 8' FOLDING TABLE 8' FOLDING TABLE 8' FOI CONDUIT I 8' FOLDING TABLE 8' FOLDING TABLE 8' FOLDING TABLE B' fOt 8' L 1 TABLE 8' FOLDING TABLE 8' FOLDING TABLE CONDUR P & R DISPATCH 288 I 350 MCM 6' rAeLE _ �" u GROUND WIRE 1 CREDENZA 5' WORK 5' WORK m COMPUTERS z N TABLE TABLE o 108 I STAFF DMPUTER SUPPORT CO $ m SPECIALIST ]mil 5� w 106 y 1� ow COPY s7 DESK �� 1 EMERGENCY 8 FILES 5� ROOM i E; RACK MANAGEMENT 8 112W z m g�_ ' BOOKC45E u� SGLACK 6' TABLE XF STORAG ca01 U 1 I CORRIDOR L 104 t.F1 BOOKCAE BOOKGSE LATERAL LATERAL LATERAL U 11 V I_._._Ip__I {r—•�I O � FILE FILE FILE �—� BOONC0.6E �--p BOOKCASE BOOKGSE � ICI ""•Ty!IiI^Iln IIIrt—_JPI SUPPLIES ADMINISTRATIVE lJll l—J�—J 119 ASSISTANT LEGAL CHIEF ill �� ASSISTANT uOeIN�� AD107 SECRETARY 118 owl DESK m 5m 113 D�fEUTE ANT'S DCKH DESK 105 a0 CLOSET CLOSET ICE DESK Lj z o 117 5� i 5� 115 S 109� 5c w xLj I�UJ CREDENZA 5� CREDENZA 5� FlLE RAL CREDENZA U 6' WORK TABLE 6' WORK TABLE nanoEl C 1 i I COMMUNICATIONS GROUNDING & CONDUIT (H)RAIDIO SCALE: 1/8" = 11-0" am"I �J„ 110 FOR CONSTRUCTION Rev. Date Description W � O V J X W � W O n n UW Q W Z W I- U nO L� PANELEBLA DATE: 6/26/07 1 OUTLETS REPORT WRITING RM 175 2 MOTORIZED GATE 3 OUTLETS REPORT WRITING RM 176 4 FIRE ALARM 5 OUTLE f S RM 174,175 6 OUTLETS ELECT. 227 - MECH. 228 7 FREEZER OUTLET KITCHEN 219 8 OUTLETS RM 174,175 9 REFRIGE OUTLET KITCHEN 219 10 OUTLETS RM 263 11 NORTH OVERHEAD DOOR 12 OUTLETS RM 2649 256 13 OUTLETS RM 190,191 CORR.192 14 OUTLETS AFIS 217, RM 230 15 OUTLETS RM 183,185 16 SOUTH OVERHEAD DOOR 17 OUTLETS RM 1809198 18 FILES RM 140 19 OUTLETS RM 180,181 CORR.178 20 VENT HOOD LAB 146 21 OUTLETS COPY RM 181 22 FORENSIC CABINET LAB 146 23 OUTLETS BRIEFING RM 179 24 NISONIX DOWNFLO LAB 146 25 OUTLETS RM 172,173 CARD 169,177 26 OUTLETS LAB 146 27 OUTLETS RM 206 28 OUTLETS MIN14 AB 145 29 OUTLETS RM 207 30 REFRIGE. LAB 146 31 OUTLETS RM 20%202,203,205 32 OUTLETS RM 137,145 33 SPARE 34 REFRIGE. EVIDENCE 135 35 EF-1 622 36 OUTLETS RM 135,147 37 MOTORIZED GATE 38 REFRIGE. EVIDENCE 140 39 FIRE ALARM 40 CARD READERS 139,1419142 41 SPARE CALSERIES: SIEMENS PI 'PAGE RATING: 20BYH2OV6 3PH, 4W IASURE6MOUNRNG: NEMAISURFACE MAIlI LUG ANPACTTY: 125A 42 OUTLETS ELECT.136-MECH.147 AIC: 10,DWRMSSYMMETRM NOTES: COPPER BUS. ISO COPPER GRD BAR DOOR4NDOOR CONSTRUCTION ALL SINGLE POLE CATS RATED FOR SWO PANEL BLA SECTION 1 ©. .. OFFICER RM 161�. �© . . . �� • m ®i . ■ ®• rim.W.Mm Ion m • .. Ion xTrAr . r ■ Im ��• im-' �rtR-�r.'s■�_.t■�.,,-.--TTt3Ta.::x, ��� ���xasaar.Tr.;ly■.e�:t� G DATE: 6l26/07 43 SPACE 44 SPACE 45 VAV442 46 SPACE 47 VAV-2-23 48 SPACE 49 VAV-2-24 50 SPACE 51 VAV-2m4 52 SPACE 53 kV-2-3 54 SPACE 55 VAV-2m6 56 SPACE 57 VAV47 58 SPACE 59 VAV-244 60 SPACE 61 VAV-2-15 62 SPACE 63 SPACE 64 SPACE 65 VAV-24 66 SPACE 67 LIGHTS 66 SPACE 69 SPACE 70 SPACE 71 VAV440 72 SPACE 73 AHU41A 74 AHU4 75 76 " 77n 78 " 79 EDH-1 80 SPACE 81 82 VAV-24 83 SERIES: SEMENS P2 TAGS RATING: 4W2Mv 3PK 4W OSURE 6 MOUNRNG: NEVAI SURFACE NLWAMPACITY: SODA 84 SPACE AIC: 30.000 RMS SYMMETRICAL NOTES: COPPER BUS, COPPER GRO BAR DOOR -INDOOR CONSTRUCTION ALL SINGLE POLE CBS RATED FOR SWD