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REFRIGERATION CONTRACTOR TO REFER TO MANUFACTURER'S DETAIL IS A SCHEMATIC REPRESENTATION AND BUILDING AUTOMATION SYSTEM CONTRACTOR FIELD WIRING PROVIDE AND TERMINATE ALL 120V INSTALLATION INSTRUCTIONS FOR MAY NOT REFLECT ALL CASE CONFIGURATIONS. TO PROVIDE CAT-5 ETHERNET CABLE FROM AND 208V SLAVE WIRING AND CONDUIT FACTORY WIRING DIAGRAMS, FIELD SOME FACTORY -INSTALLED COMPONENTS AND PREVIOUS CONTROLLER ON THE COMM. LOOP. FACTORY WIRING ------- BETWEEN CASES. REF ELECTRICAL. WIRING TERMINATIONS AND RS485 WIRING ARE NOT SHOWN FOR CLARITY. CONTACT REFER TO ONE -LINE DIAGRAM BACNET WIRING DETAILS. REFRIGERATED CASE MANUFACTURER FOR FACTORY INSTALLED COMPONENT INFORMATION. BUILDING AUTOMATION SYSTEM CONTRACTOR REFRIGERATION CONTRACTOR THIS DIAGRAM SHOULD NOT BE USED FOR TO PROVIDE CAT-5 ETHERNET CABLE TO NEXT TO VERIFY MAC ADDRESSING IS INTERNAL CASE COMPONENT WIRING. CONTROLLER ON THE COMM. LOOP. REFER TO UNIQUE FOR EACH CONTROLLER. ONE -LINE DIAGRAM 120V POWER SUPPLY FEED. IN CASE REPLACEMENT APPLICATION WIRING COULD BE EXISTING TO REMAIN. VERIFY RE -USE OF EXISTING WIRING WITH ELECTRICAL. e A C= OTHERWISE ELECTRICAL CONTRACTOR TO PROVIDE e = LIGHTS REFER TO MANUFACTURER'S INSTALLATION INSTRUCTIONS BUILDING AUTOMATION SYSTEM CONTRACTOR TO NEW POWER FEED. REFRIGERATION CONTRACTOR TO e C CASE = �M o SOLENOIDS w ° J o COOLING o VALVE O DO w w o F- ). FOR FACTORY WIRING DIAGRAMS, FIELD WIRING PROVIDE RS-485 COMM WIRING TO FIRST S3C CASE/COIL TERMINATE WIRING. REF ELECTRICAL. e CONTROL °FANS oBASR)dTx co o y zuiw ILzozo o DEFROST o RDM VM RxdTx LL to ~ w Z 1- o — z q) TERMINATIONS, AND RS485 BACNET WIRING DETAILS. CONTROLLER ON COMM LOOP AND CAT-5E ETHERNET W w ;= z w' W W a i 3 �- z CABLE BETWEEN CONTROLLERS THEREAFTER. FACTORY INSTALLED WIRING BETWEEN e �'? LL LL o 0 o ga W c°� FAN/LIGHT/ANTI-SWEAT HEATER TERMINALS e m W tw- Jp Qa w�UJ�m AT EVERY CASE. IN CASE REPLACEMENT a SE FAN ic,rts DEFRosr stEr�ER vxvE Arr�FsweaT Ox rrx rru,s nZPEPAnO E SBaOM RMSSURE DRAM occwN cr HUWFry RS4W 0 � � j zd �O a OLL _ > U � � Q APPLICATION WHERE WIRING IS EXISTING No No NC Nc No Nc e w G R 5V S SV S 6N 3 - - - o- O 3 _LL w� N m o z x z r - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - RS-485 COMM WIRING FROM ovr AIR AR z a LL--+ z0z o o Ix �-" LLo o I I REFRIGERATION EXECUTIVE TO REMAIN, REMOVE FACTORY JUMPERS. z aui � s o W'3 i w o of o� I GATEWAY TO FIRST CASE/COIL REF ELECTRICAL. i- e e FANS C ® m m m m m m (D �—� :5 iaJ 2 z� u o w co o o o� 3 a. mox �wt3H=)z1xwxg I CONTROLLER ON COMM LOOP. REFER 1, e e z o lg m o w o I I TO ONE -LINE DIAGRAM. ELECTRIC DEFROST CASES: IN CASE %i wd z M o ° w a n f- w NOTE: FOR CASES SERVICED BY A e e ; %N coo o ai w o it o Ta it a F i REMOTE CONDENSING UNIT OMIT EEPR I REPLACEMENT APPLICATION WIRING LIGHTS -Y- REFER TO MANUFACTURER'S INSTALLATION INSTRUCTIONS COULD BE EXISTING TO REMAIN. VERIFY ��i, e e PWM FOR COMPLETE FACTORY WIRING DIAGRAMS. CAT-5E ETHERNET CABLE TO NEXT RE -USE OF EXISTING WIRING WITH I I CONTROLLER ON COMM LOOP. REFER ELECTRICAL. OTHERWISE ELECTRICAL e e zo I I TO ONE -LINE DIAGRAM. CONTRACTOR TO PROVIDE 208V POWER ANTI -SWEAT HEATERS FACTORY WIRING TO BUILDING AUTOMATION SYSTEM O g o �? ONE CASE CONTROLLER PER CASE. CASE CONTROLLER e e Lq w co FURNISHED AND INSTALLED BY THE CASE MANUFACTURER. FEED. REFRIGERATION CONTRACTOR TO LLSV CONTACT STRIP CONTRACTOR TO PROVIDE RS-485 '' C-4 o I Vi uj I I CAT5E ETHERNET CABLE FROM TERMINATE WIRING. REF ELECTRICAL. e e EEV: FACTORY INSTALLED AT COMM WIRING TO FIRST CASE � v M wcn n SPORLAN S3C PREVIOUS CONTROLLER ON COMM 208V ELECTRIC EVERY CASE EVAPORATOR COIL. CONTROLLER ON COMM LOOP REFER Lll a, N uw o CASE I LOOP. REFER TO ONE -LINE DIAGRAM. e e CONTROLLER I e e CONNECT GROUND WIRE TO S3C z z Y U6 Z c Z cN`�I DEFROST REFER TO CASE CUTSHEET FOR T NE -LINE DIAGRAM. DO NOT ►L > � � z c O N SIZE AND QUANTITY. Z � I I - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - CONTROLLER. g-� c c_n CC `_ - - - - - - - -j e e LIQUID LINE z Lll z o g uj -- (D a- LLSV Q Z w N c N W X FACTORY INSTALLED TERMINAL w z g'LoR w W --(Da - LLSV 0 0 0 e e SOLENOID VALVE � = w J -' � z � u' BLOCK AT EVERY CASE. (TYP) 0 01010 CAT5E ETHERNET CABLE BETWEEN S3C AND SPORLAN EEPR: (1) PER REFRIGERATION CIRCUIT. COMM. WIRING TO NEXT CONTROLLER D u, �.; = LL ON COMM. LOOP. REFER TO co GATEWAY ROUTER OR SPORLAN NETWORK SWITCH LLSV: TERMINATE 120VAC #12 AWG e e REFRIGERATION BUILDING z co J SHALL UTILIZE THE "NEXT" OR "PREVIOUS" CONNECTION LIQUID LINE SOLENOID VALVE WIRING ELECTRONIC Ov � EEPR: OWNER TO FURNISH #18 AWG 4 (OR #14 AWG 4 FOR DEPENDING UPON DEVICE LOCATION WITHIN AT W CASE TERMINAL BLOCK ONLY. EEPR e e AUTOMATION SYSTEM PLANS FOR EVAPORATOR LLSV: (1) PER REFRIGERATION CIRCUIT. ONE -LINE DIAGRAM. (TYP) — RUNS OVER 250 FT) CONDUCTOR CABLE FOR EEPR COMMUNICATION LOOP. REFER TO MANUFACTURER REF ELECTRICAL. LIQUID LINE e e PRESSURE VALVE. BUILDING AUTOMATION SYSTEM CONTRACTOR TO INFORMATION. SOLENOID VALVE IS PROVIDED BY REGULATOR INSTALL / TERMINATE WIRING AT EEPR AND AT'a' CASE REFRIGERATION MANUFACTURER. e e REFRIGERATED CASE. TYP. ca TERMINAL BLOCK ONLY. REFER TO REFRIG SCHEDULES FOR QUANTITY AND CIRCUIT NAME. EEPR FOR ADDITIONAL INFORMATION REFER TO CASE EEPR: OWNER TO FURNISH #18 AWG 4 FACTORY INSTALLED CONNECTION SCHEMATIC. REFER TO REFRIGERATION (OR #14 AWG 4 FOR RUNS OVER 250 FT) X TERMINAL BLOCK AT EVERY � O � QCONDUCTOR CABLE FOR EEPR VALVE. IREFRIGERATION BUILDINGCASE. FULL BLOCK NOT ri;f ® ® ® C� 1 U AUTOMATION SYSTEMS CONTRACTOR SHOWN FOR CLARITY. (TYP) O O Lim CASE CONTROLLER WIRING SPORLANW TERMINATE WIRING AT EEPR AND ATA B C D .. 'A' CASE TERMINAL BLOCK ONLY. REFER PROVIDE COMM. WIRING TO T�T, 3 NTS TO REFRIGERATION SCHEDULES AND PREVIOUS CONTROLLER ON SUBMITTALS FOR QUANTITY AND PREVIPREVI LOOP. REFER E 'A' LEAD CASE CONTROLLER. REFRIGERATION BUILDING AUTOMATION SYSTEMS CASE CONTROLLER(S) FURNISHEDCOMMO CIRCUIT NAME. REFER TO REFRIGERATION AND INSTALLED BY CASE O REFRIGERATION BUILDING CONTRACTOR TO TERMINATE COMM. WIRING AT BUILDING AUTOMATION MANUFACTURER AT EVERY CASEa . �I AUTOMATION SYSTEM PLANS CASE CONTROLLER MASTER/SLAVE UO N p FOR ONE -LINE DIAGRAM. (TYP) SYSTEM PLANS FOR LOCATION OF 'A' CASE. = O "' 0 Z o WLo o CASE CONNECTION SCHEMATIC SPORLAN EEV, WITH EEPR 0 BAS ONE -LINE AND SCHEDULE NOTES 2 NTS E EXISTING BAS DEVICE, SENSOR, OR WIRE FOR REUSE. v �J RL EXISTING BAS DEVICE OR SENSOR TO RELOCATE AND W XIO-8U-B: 131 SCHEDULE (E) RECONNECT. INSTALL NEW CABLE FOR RELOCATED U1/A1 B10 DTS (E) DEVICE OR SENSOR AS NECESSARY. N U2/A2 B4 DTS (N,DIXI) RD REDESIGNATED BAS DEVICE OR SENSOR. REFRIGERATION BAS ONE -LINE REFLECTS THE Z INTENDED DESIGN BASED ON NEW CASES AND U3/A3 B5 DTS (NAP) RP REPLACED BAS DEVICE OR SENSOR. EXISTING SYSTEM NUMBERS. VERIFY ALL Im p U4/A4 SPARE N NEW BAS DEVICE OR SENSOR. EXISTING CONDITION AND LOCATION OF ALL U5/A5 SPARE FI NEW FIELD INSTALLED BAS DEVICE, SENSOR, OR WIRE. BAS EQUIPMENT PRIOR TO ROUGH -IN. U6/A6 SPARE U7/A7 SPARE FA ------ NEW FACTORY INSTALLED BAS DEVICE, SENSOR, OR WIRE. ISSUE BLOCK U8/A8 SPARE I M BAS DEVICE OR SENSOR USED FOR MONITORING ONLY. UNLESS NOTED OTHERWISE, DEVICES SHOWN IN DI DIGITAL INPUT. THIS ONE -LINE DIAGRAM ARE OWNER FURNISHED VIA BAS VENDOR; BUILDING AUTOMATION SYSTEM DO DIGITAL OUTPUT. CONTRACTOR TO INSTALL CABLING AND DEVICES EXISTING BAS BACKBOARD (INSIDE EDC4) Al ANALOGINPUT. AND MAKE FINAL TERMINATIONS. REFER TO PLANS COORDINATE WITH LEGACY BAS VENDOR FOR DEVICE LOCATIONS. (NOVAR) FOR THE REPROGRAMMING OF THEIR RACK CONTROLLER WITH THE REMOVAL OF REFRIGERATION CIRCUITS FROM THEIR CONTROL. VERIFY DEFROST SCHEDULES ARE COORDINATED BETWEEN THE EXISTING RACK CONTROLLER AND THE NEW CASE AND WALK-IN CONTROLS. EXISTING ES1 MOUNTED ON BACKBOARD INSIDE EDC4 (TYP OF 2) NOVAR ES1 RS-485 RS485 NOVAR ES1 RS485 RS-485 EXECUTIVE EXPANSION EXPANSION EXECUTIVE EXPANSION EXPANSION CAT5E ETHERNET CABLE OR GREATER �M'C�ONTROLLER cMODU�LE 1 coMODM6LE 2 c�,CONTROLLER cOMODU�LE 1 cMODU�LE 2 BETWEEN ROUTER AND S3C i CIM-Al SCHEDULE (E) CIM-A2 SCHEDULE (E) CIM-A3 SCHEDULE (E) CIM-A4 SCHEDULE (E) CONTROLLER. (TYP) OF ALL CABLING EXISTING ES1 REMOTE 1 Ala SENSOR (E) 1 SPARE 1 SPARE 1 SPARE LCD MOUNTED ON BAS RS-485 BACNET CABLE TO BETWEEN SGR, SNS, AND S3C. REFER I 2 Alb SENSOR (E) 2 SPARE 2 BAD POINT 2 SPARE BACKBOARD INSIDE REFRIGERATION CONTROLLER TO MANUFACTURER'S INSTRUCTIONS EDC4 (TYP OF 2) LCD AT THE FIRST DEVICE ON A LCD FOR SPECIFIC REQUIREMENTS. 3 A2 SENSOR (E) 3 SPARE 3 SPARE 3 SPARE COMM LOOP ONLY. (TYP) OF ALL 4 SPARE 4 SPARE 4 SPARE 4 SPARE EXISTING XIO AND DTS SGR S3C COMM LOOPS. 5 SPARE 5 SPARE 5 SPARE 5 SPARE MOUNTED ON BAS SGR SGR SGR SGR OWNER -FURNISHED SPORLAN 6 SPARE 6 SPARE 6 SPARE 6 SPARE 1(B4) IO �-------- BACKBOARD INSIDE EDC4 -----; S3C ; (Bid) GATEWAY ROUTER LOCATED 7 SPARE 7 SPARE 7 SPARE 7 SPARE (A4) • r S3C (C5.1) S3C (D12a)S3C ; (C7) ON BAS BACKBOARD. (TYP) 8 SPARE 8 SPARE 8 SPARE 8 SPARE CHECKED BY: KK/JPL ---------r r-----; S3C ; (B1c) .•----- C AUX SPARE AUX SPARE AUX SPARE AUX SPARE -S3C ; (Al3) r•-:: S3C I (C6a) S3C (D12b) S3C I(C8a) DRAWN BY: MJS S3C ; (B1b) --- --rS3C ; (A6a) •-------r S3C 0(C6b) S3C (D12c) S3C C8b DOCUMENT DATE: 06/30/23 ' ( ) CIM-A5 SCHEDULE (E) CIM-B1 SCHEDULE (E) CIM-B2 SCHEDULE (E) CIM-B3 SCHEDULE (E) S3C ;(B1a) •-------r •-------rWI-() '-------; 8 ____ -__ 1 SPARE 1 SPARE 1 SPARE 1 SPARE S3C ; (A6b) --r S3C (C5.2a) - S3C ; (D7.3b) � S3C ; (C10a) THIS ITEM HAS BEEN ` r • ___r _ • 2 SPARE 2 SPARE 2 SPARE 2 SPARE -------- ; S3C ; (B2d) --•--- ( ) ( ) S - , ( ) S3C(Clb 3 SPARE 3 SPARE 3 SPARE 3 SPARE :_- 3_-_; A6c '_------- S3C C5.2b � 3C � D7.3a ELECTRONICALLY SIGNED [--------- S3C ; (B2c) _ C•-------r �•_._.._.: ( ) S3C ; (A7a) •-----•-r � S3C �(Cl ;' S3C � D7.2a "' ��- - '' SPARE 4 SPARE 4 SPARE 4 SPARE -__-_-_-r �'_ •: ( ) `-S3C ( ) S3C ; (Cl(Cl1a) 5 SPARE 5 SPARE 5 B6 SENSOR (E) 5 SPARE I AND SEALED BY MICHAEL ........ S3C (B2b) r 6 SPARE 6 SPARE 6 SPARE 6 SPARE I DATE LISTED BELOW DEAN SCHAEFER ON THE WIRE LEGEND NOVAR - S3C � A7b •-------.-----•- --------------- ( ) � � S3C ; (C4a) � S3C ; (D7.2b) � S3C ; (Cl 1b) 7 SPARE 7 SPARE 7 SPARE 7 SPARE USING A DIGITAL 20-2 TWISTED PAIR ---- -------r •------ -----r WIR-1010 (TAN CABLE 18-2, ) S3C ; (B2a) CAT-5E ETHERNET CABLE - .______- 8 SPARE 8 SPARE 8 SPARE 8 SPARE '-•-�••-' ' (C11c) SIGNATURE. WIR-2020 (BLUE CABLE 22-2 TWISTED PAIR) S3C , (A7c) j-' BETWEEN CASE/COIL S3C S3C I (C4b) S3C ; (D7.2c) S3C ; NOTES: .•----- S3C B5a CONTROLLERS. (TYP) -------r r AUX SPARE AUX SPARE AUX SPARE AUX SPARE ------ ------ --- ----- PRINTED COPIES OF THIS 1. ALL CABLE WIR-2020 UNLESS NOTED OTHERWISE. S3C ; (A8a) �`_______: ( ) S3C C2a 7.1a Ly , ( ) S3C , (D ) S3C , (C15.1a) I I DOCUMENT ARE NOT 2. ALL WIR-1010 AND WIR-2020 CABLE FURNISHED ---- S3C ; (B5b) - - -------- - - -- -- - ----- - r•_-_____r --- CIM-B4 SCHEDULE (E) CIM-B6 SCHEDULE (E) CIM-Cl SCHEDULE (E) CIM-C2 SCHEDULE (E) CONSIDERED SIGNED AND BY BAS VENDOR FOR INSTALLATION BY S3C ; (A8b) l.� S3C ; (C2b) S3C ; (D7.1b) S3C ; (C15.1b) I I SEALED AND THE CONTRACTOR. D:::::::!S3C ; (64b) -_-- 1 SPARE 1 SPARE 1 Cl SENSOR (E) 1 SPARE 3. ALL OTHER CABLE FURNISHED AND INSTALLED _S3C ; (ABC) j~- S3C C2c S3C 2 SPARE 2 SPARE 2 SPARE 2 SPARE SIGNATURE MUST BE ` r � � ( ) :-__----: (D7.1c) � S3C : (C15.1cVERIFIED ON ANY BY CONTRACTOR. ......... S3C (B3 SPARE 3 SPARE 3 SPARE 3 SPARE 5c) ELECTRONIC COPIES. _S3C ; (A8d) •------ WHERE DATA LOOP WAS •S3C ; (C2d) ;.S3C C15.1d 4 SPARE 4 SPARE 4 SPARE 4 SPARE ` �'--•"-"- BROKEN TO INSERT NEW •-------• • ( ) •----- S3C ; (135d) 5 SPARE 5 SPARE 5 SPARE 5 SPARE CONTROLLERS REWIRE TO S3C � (A5a---•-•--• � S3C RCU2a ------- ( ) S3C , (C15.2a) 6 SPARE 6 SPARE 6 C3 SENSOR (E) 6 SPARE •------•- S3C -' (6EXISTING CONTROLLERS TO 4a)---_____- 7 SPARE 7 SPARE 7 SPARE 7 SPARE S3C (Aft) MAINTAIN INTEGRITY OF DATA S3C RCU2b S3C : (C15.2b C ( ) ) 8 SPARE 8 SPARE 8 SPARE 8 SPARE •-------- LOOP. (CAT-5E)(TYP) _. --------; S3C ; (67b) [• ----- AUX SPARE AUX SPARE AUX SPARE AUX SPARE S3C ; (A5c) r S3C (RCU2c) S3C I (C15.2c) --------- S3C ; (137c) �•-------r ES-1 S3C ; (A5d) �•-------r S3C (RCUIa) S3C , (C18.2a) CIM-C3 SCHEDULE (E) CIM-C4 SCHEDULE (E) CIM-05 SCHEDULE (E) CIM-C6 SCHEDULE (E) ------- S3C ; (B7d) 1 SPARE 1 SPARE 1 SPARE 1 SPARE COMMUNICATION PORT S3C ; (Al Oa) �•-------r S3C (RCU1b) S3C I (C18.2b) ` r -- r 2 SPARE 2 SPARE 2 SPARE 2 SPARE COM1 LCD (IF APPLICABLE) / BACNET / MODBUS LOOP •-•- ---- S3C (87e) --------- - I (A10b) r•-------� S3C I (C18.2c) 3 C9 SENSOR (E) 3 SPARE 3 SPARE 3 SPARE COM2 SPECTRUM (NOVARnet) / BACNET / MODBUS LOOP r r MICHAEL D. SCHAEFER ........ B7 4 SPARE 4 SPARE 4 SPARE 4 SPARE I S3C ' ( fl .---•---. LICENSE # 89591 S3C I (A10c) �•-------� S3CI (C18.1a) 5 SPARE 5 SPARE 5 SPARE 5 SPARE ----- -� `_S3C_: (B7a) -__ I 6 SPARE 6 SPARE 6 SPARE 6 SPARE `♦♦��1a +��/��i COM MODULE 1 1L~,_ . ( ) [ S3C C18.1b ♦ ,,....` /� S3C (All ( ) 7 SPARE 7 SPARE 7 SPARE 7 SPARE ♦� •. f C------•-- S3C B12d COMMUNICATION PORT ;S3C I (All b) •-••----� ( ) ' ___"" 8 SPARE 8 SPARE 8 SPARE 8 SPARE ---------�-CIRCUIT CONTROLLER S3C ; (C18.3a) .; •: COM3 SPECTRUM (NOVARnet) / BACNET / MODBUS LOOP S3C (All •-------r(Cl.3b (~ --- ---------r we Mo. 8959� -, S3C I (B12e) FACTORY INSTALLED IN I AUX PARE • • _ . ( ) [ NEW CASE. REFER TO CASE S3C ; ( ) COM4 SPECTRUM (NOVARnet) / BACNET / MODBUS LOOP C..----.-. S3C( B1 CONTROLLER WIRING I * ? S3C (Al2a) •------ (SPORLAN) DETAIL. (TYP) S3C I (C18.3c) CIM-C7 SCHEDULE (E) CIM-D2 SCHEDULE (E) CIM-D3 SCHEDULE (E) r•-------: [-----------__•_ le LL....,, 1 SPARE 1 D5a SENSOR (E) 1 SPARESTATE O --------- S3C (B12a) .__--__-. ♦ I► COM MODULE 2 S3C I (Al2b) •---- S3C I (C18.3d) 2 SPARE 2 D5b SENSOR (E) 2 SPARE �i� 4OR! '' ' 3 SPARE 3 D6a SENSOR (E) 3 SPARE ••.�•- ♦♦ -------- ; S3C ; (B 12b) .------- ; I S3C (Alc) •-------r S3C i (C18.3e 4 SPARE 4 D6b SENSOR COMMUNICATION PORT E.___.__.- ) (E) 4 D9a SENSOR (E) > > --------- S3C I (B12c) [._______. I 5 SPARE 5 SPARE 5 D9b SENSOR (E) COM5 SPECTRUM (NOVARnet) / BACNET / MODBUS LOOP S3C I (Al2d) ----- S3C I (C18.3f) 6 SPARE 6 SPARE 6 139c SENSOR (E) 06/30/2023 COM6 SPECTRUM (NOVARnet) / BACNET / MODBUS LOOP------ - S3C (1310a) [------- 7 SPARE 7 SPARE 7 SPARE S3C ; (A9a) S3C I (C15.3a) 8 SPARE 8 SPARE 8 SPARE ------- - S3C (B10b) -- - AUX SPARE AUX SPARE AUX SPARE S3C I (A9b) � S3C I (C15.3b)REFRIGERATION --------r--------r --- S3C (B 10c) [------ I I BUILDING S3C 0 (A9c) S3C : (C15.3c) • - ��.______� EXISTING CIM BACKBOARD (ABOVE MEAT PREP) - - - - - AUTOMATION -- ------ S3C (610d) S3C I (A9d) S3C I (C15.3d) SYSTEM WHERE DATA LOOP WAS "S3C- (C15.3e) DETAILS BROKEN TO INSERT NEW CONTROLLERS, REWIRE TO ;S3C I (C15.3t7 EXISTING CONTROLLERS TO `-------r w MAINTAIN INTEGRITY OF DATA EXISTING CONDITIONS WERE TAKEN FROM EACH SUBCONTRACTOR IS RESPONSIBLE FOR HAVING w LOOP. (CAT-5E)(TYP) ORIGINAL DRAWINGS AND MAY NOT REFLECT A THOROUGH KNOWLEDGE OF ALL DRAWINGS AND REFRIGERATION BAS ONE LINE D I AG RAM EXACT "AS -BUILT" CONDITIONS. CONTRACTOR SPECIFICATIONS IN THEIR RELATED FIELD. THE FAILURE N - SHALL FIELD VERIFY ALL EXISTING CONDITIONS TO ACQUAINT THEMSELF WITH THIS KNOWLEDGE DOES 1 PRIOR TO SUBMITTING FINAL BIDS. CONTRACTOR NOT RELIEVE THE RESPONSIBILITY OF PERFORMING o NTS SHALL CAREFULLY COORDINATE NEW WORK AND THE WORK PROPERLY. NO ADDITIONAL SHFFT- w DEMOLITION WITH ALL OTHER DISCIPLINES AND COMPENSATION SHALL BE ALLOWED BECAUSE OF BASR2 X EXISTING CONDITIONS. CONDITIONS THAT OCCUR DUE TO FAILURE TO FAMILIARIZE WORKERS WITH THIS KNOWLEDGE.