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SW4220502_Plansheet - Proposed Conditions_Site Plan_20220514
PH OTOVO LTA I C SNOW f MCLee nsville _��.. ti III- Burlington Q ntehene O Haw Fiver thland Hillshorough GY2E115158YQ Sedalia Whitselt ,1 sl Swepson�ille Pleasenl mGarden \ Himesville Oaks S-pahaw sr CIN." '�Tl Chapel liar ^¢ r Le�el Corse Snow Wmp ~ r Libe Ty Mandate I� II 4I1 -' Handlernan Grays Chapel IL 1 -� Fca•nnglon Staley a silk Hope y Cede) rally Rerosear 5der Ci,y , Pitts6oro she4oro Perks Crossroads _ J II LederGrove .h Coleridge Bonlee wl Haywood 4II Bennett 901 Goldstan 1 ENLARGED AREA - SNOW CAMP, NC REGIONAL MAP - NORTH CARO LI NA PROJECT LOCATION PROJECT LOCATION FOR CAMP SOLAR. (PV) SYSTE M LLC z LD w w o w O w w U Z D O C/) U CQ LILl Q N 00 O O I t LLJ 0 9218 SNOW CAM ROAD a� owN o °'0J) ~~Zoo F00>_ a w o a ZG oZ=vim WCn � U y � SNOW CAMP NC 27349 W Q H w o 5 C4 7 DATE: o � m � 0:j OCTOBER 21 2015 J J �w< `L O J Z Q W �00 LU W I z 0wmN (D > LZ I J W W 0 NW CM - � r f PROJECT ;¢ LOCATION - •;fir . ENLARGED AREA - PROJECT SITE x.I SYSTEM SUMMARY ARRAY MODULE TYPE NUMBER OF STRINGS MODULES PER STRING NUMBER OF MODULES MODULE PEAK POWER TOTAL DC POWER INVERTER TYPE NUMBER OF INVERTERS MAX INVERTER POWER* TOTALAC POWER 1 JKM315P-72 196 19 3,724 315 W 1.17 MW 880CP-US 1 857 kVA 0.86 MVA 2 JKM315P-72 196 19 3,724 315 W 1.17 MW 880CP-US 1 857 kVA 0.86 MVA 3 JKM315P-72 196 1 19 3,724 315 W 1.17 MW 880CP-US 1 857 kVA 0.86 MVA 4 JKM315P-72 196 19 3,724 315 W 1.17 MW 880CP-US 1 857 kVA 0.86 MVA 5 JKM315P-72 196 19 3,724 315 W 1.17 MW 880CP-US 1 857 kVA 0.86 MVA 6 JKM315P-72 196 19 3,724 315 W 1.17 MW 880CP-US 1 857 kVA 0.86 MVA 7 JKM315P-72 1 196 19 1 3,724 315 W 1.17 MW 880CP-US 1 857 kVA 0.86 MVA TOTALS 1.372 26,068 TOTAL DC SYSTEM SIZE 8.21 MW TOTAL AC SYSTEM SIZE 6.00 MVA * NOTE: INVERTER OUTPUT POWER WILL BE SOFTWARE LIMITED TO 857kW. ABBREVIATIONS DRAWING LIST A AC AFG AWG C CU DISC ELEC EMT FMC G GND GRC J KAIC KVA AMPERES KW KILOWATT ALTERNATING CURRENT KCMIL THOUSANDS OF CIRCULAR MILS ABOVE FINISHED GRADE N NEUTRAL AMERICAN WIRE GAUGE NEC NATIONAL ELECTRICAL CODE CONDUIT NF NON -FUSED COPPER P POLE DISCONNECT PNL PANELBOARD ELECTRICAL PVC POLYVINYL CHLORIDE ELECTRICAL METALLIC TUBING SN SOLID NEUTRAL FLEXIBLE METAL CONDUIT SPEC SPECIFICATION GROUND SS STAINLESS STEEL GROUND SQ SQUARE GALVANIZED RIGID CONDUIT UG UNDERGROUND JUNCTION V VOLTS (THOUSAND) AMPERE W WIRE INTERRUPTING CAPACITY WP WEATHERPROOF KILOVOLT AMPERES Y WYE (CONNECTED) NUMBER SHEET NAME PVE-0.1 COVER SHEET PVE-1.0 SPECIFICATIONS PVE-1.1 EQUIPMENT SCHEDULES PVE-1.2 EQUIPMENT DATA SHEETS PVE-2.1 SITE PLAN PVE-3.1 PARTIAL SITE PLAN - ARRAYS 1 & 2 PVE-3.2 PARTIAL SITE PLAN - ARRAYS 3 & 4 PVE-3.3 PARTIAL SITE PLAN - ARRAYS 5 & 6 PVE-3.3 PARTIAL SITE PLAN - ARRAY 7 SYMBOLS PVE-4.0 AC SINGLE LINE DIAGRAM PVE-4.1 DC SINGLE LINE DIAGRAMS - INVERTERS 1 AND 2 - 3 30 20 30 3 NF - - - RACEWAY CONCEALED BELOW FLOOR OR GRADE. CIRCUIT HOMERUN, NUMBER OF ARROWS INDICATES NUMBER OF CIRCUITS. PROVIDE GREEN INSULATED GROUNDING CONDUCTOR IN ALL WAYS, NOT SHOWN ON PLANS. GROUND PLAN NOTE I� FUSED DISCONNECT SWITCH. 600V, HEAVY DUTY, NEMA 4X FIBERGLASS. SINGLE NUMBER INDICATES NUMBER OF POLES. TOP NUMBER INDICATES MAXIMUM AMPERAGE. BOTTOM INDICATES ACTUAL FUSING AS INDICATED OR AS DETERMINED FROM MANUFACTURER'S NAMEPLATE. NON -FUSED DISCONNECT SWITCH. 600V, HEAVY DUTY, NEMA 3R. SINGLE NUMBER INDICATES NUMBER OF POLES. TOP NUMBER INDICATES MAXIMUM AMPERAGE, NF = NON -FUSED. METER ENCLOSURE. - 120/240V ELECTRICAL PANEL AS SCHEDULED. ❑PVE-9.1 360V TO 120/240V TRANSFORMER PVE-4.2 DC SINGLE LINE DIAGRAMS - INVERTERS 3 AND 4 PVE-4.3 DC SINGLE LINE DIAGRAMS - INVERTERS 5 AND 6 PVE-4.4 DC SINGLE LINE DIAGRAMS - INVERTER 7 PVE-4.5 ELECTRICAL DETAILS PVE-5.1 INVERTER PAD DIMENSION PLANS PVE-5.2 INVERTER PAD CONDUIT AND GROUNDING PLANS PVE-5.3 CONDUIT DETAILS PVE-6.1 GROUNDING DETAILS PVE-7.1 WARNING SIGN DETAILS PVE-8.1 MV DETAILS PVE-8.2 MV DETAILS COMMUNICATIONS DETAILS U� r/ / I..L U) IIIIIIIIIIIIIJ ^� L.� U � G O N U z UDC) 0 Q U 00 2 Z O Q W Z1 I W W Cn 1 Z :EL: C)� � O 0 z L.1_ W Q O N o U COPYRIGHT © STATEMENT THESE DOCUMENTS AND THEIR CONTENTS ARE THE PROPERTY OF )NSTRUCRON ENGINEERING GROUP (CEG) AND ARE ISSUED ONLY FOR THE SPECIFIC PROJECT NOTED ON THESE DOCUMENTS. ANY REMSIONS, REPRODUCTIONS OR MODIFICATIONS OF THESE DOCUMENTS WITHOUT THE EXPRESS WRITTEN CONSENT OF CEG IS PROHIBITED BY LAW. DAVID E. ALLEY, PE 11111111,1,rr CA � f• � E pL�^ r+'T �,II n 4411�1• NORTH CAROLINA PROFESSIONAL ENGINEER NO. 39321 DATE 10-21-15 SCALE AS NOTED PROJ. NO.: 150338 DESIGNED BY: DEA DRAWN BY: JNH CHECKED BY: DEA .7VITANTll01reffill PVE-0. 1 www.jinkosolar.com PV CYCLE CE \ UL •in1<a Building Your Trust in Solar KEY FEATURES High Efficiency: i.� High module conversion efficiency (up to 16.23%), through innovative ER$1ON manufacturing technology. Low -light Performance: �7 Advanced glass and solar cell surface texturing allow for excellent �awaa"T performance in low -light environments. ++++ Severe Weather Resilience: a 'A00Pa Certified to withstand: wind load (2400 Pascal) and snow load (5400 Pascal). 540a Pa Durability against extreme environmental conditions: Ll High salt mist and ammonia resistance certified by TUV NORD. LINEAR PERFORMANCE WARRANTY 10 Year Product Warranty • 25 Year Linear Power Warranty 100% � 97.5% 0 0 3 90% W7% 25 III:" �ur1::Il+c,c!Iliq;{Ilii Ir u91'I;;II II;;'„III,:',Ilo°1111'li!!;'IIIII.lull'•li!°'ulll:ii'IE11IIi1ll,lsi 1.ax Ile p:�iIII Nr. 1 p< s,Y,h lc I n:','a�,'ll III 151:1I pr I:: ;/�"IIil'I-I V (:::'['I 1 '1111 '14, � I I11, 01,1vi Iuln uu1r:'IrirT1l uH H IILI�nr11 �I�116, II Ino IIUH', 11kadlll',�ullIII PraIrriliril+•IIc IIII'. ilgilllla �if:4nua+I,lusiard, �i::IIII:;IP5;0J'U' Sunny Central Sunny Central Sunny Central Sunny Central Sunny Central Sunny Central Sunny Central Technical data 500CP-Us 630CP-US 720CP-US 750CP-US 800CP-US 850CP-u5* 900CP-US* Input 'Maamn�; Max. DC power @ cos = 1 560 kW 713 kW 808 kW 853 kW 898 kW 954 kW 1010 kW __ ___ l; :I, 1 IITr' Max. input voltage 1000 V 1000 V 1000 V 1000 V 1000 V 1000 V 1000 V _- MPP voltage rangel1@25IC/@50°Cat60Hz) 430V-820V/430V-820VIIItm 50DV-820V/500V-820V11I121 525V-820V/525V-820VIIIpI 545V-820V/545V-820V11II2I 570V-820V/570V-820V1nuI I1 620V-820V/620V-820V1'2l 655V-820V/655V-820V1'Ilsl Rated input voltage 430 V 500 V 525 V 545 V 570 V 620 V 655 V ..................."... " " Max, input current 1250 A 1350 A 1600 A 1600 A 1600 A 1600 A 1600 A ullil Mir. input voltage / VMpp m;, at INIIP < ID;,,•, 429 V 498 V 515 V 545 V 568 V 568 V 568 V _ Number of independent MPP inputs 1 1 1 1 1 1 1 Number of DC inputs: busbar / fuses Busbar / 6 - 9 Busbar / 6 - 9 Busbar / 6 - 9 Busbar / 6 - 9 Busbar / 6 - 9 Busbar / 6 - 9 Busbar / 6 - 9 —__ Output (AC) I Rated power 1@ 25 °C) / nominal AC power (@ 50 ° C) 550 kVA / 500 kVA 700 kVA / 630 <VA 792 kVA / 720 kVA 825 kVA / 750 kVA 880 kVA / 800 kVA 935 kVA / 850 kVA 990 kVA / 900 kVA - --- Rated grid voltage / nominal AC voltage range 270 V / 243 V - 297 V 315 V / 284 V - 347 V 324 V / 292 V - 356 V 342 V / 308 V - 376 V 360 V / 324 V - 396 V 386 V / 347 V - A25 V 405 V / 364 V - 446 V i AC power frequency / range 60 Hl his... 63 Hz 6C hil47 Hz _. 63 hz 60 Hz/ 47 Hz 63 Hz 60 Hz / 47 Hz ... 63 Hz 60 Hz / 47 Hz ... 63 Hz 60 Hz / 47 Hz ... 63 Hz 60 Hz / 47 Hz ... 63 Hz Rated power frequency / rated grid voltage 60 Hz / 270 V 60 Hz / 315 V 60 F / 324 V 60 Hz / 342 V 60 Hz / 360 V 60 Hz / 386 V 60 Hz / 405 V •I' 9 Max. output current 1176 A 1283 A 1411 A 1411 A 1411 A 141 1 A 141 1 A az:" it Ufluly Max. total harmonic factor <5% <5% <5% <5% <5% <5% <5% &Y GRADE Power factor at rated power / displacement power factor adjustable 1 / 0.8 leading ... 0.6legging 1 / 0.8 leading ... 0.8 lagging Feed -in phases / connection phases 3/ 3 3/ 3 3/ 3 3/ 3 3/ 3 3/ 3 3/ 3 Efficiency rst Max. efficiency / European weighted efficiency / CEC efficiency 98,5 %/ 98.3 % / 98.0 % 98.5 %/ 96.3 %/ 98.0 % 98.6 %/ 98.4 %/ 98.0 % 98.6 % / 98.4 %/ 98.0 % 98.7 % / 98.4 % / 98.5 % 98.6 %/ 98.4 % / 98.5 % 98.6 %/ 98.4 % / 98.5 % Protective devices I:: ,;, f:V............................................................................... . - DC disconnect device DC contactor DC contactor AC disconnect device AC circuit breaker AC circuit breaker . ............... ................ ......�........ ............... ................ DC overvoltage protection Surge Arrester Type II Surge Arrester Type II I:) ..5al:l J 11,I0 Grid monitoring • • • • • • • Ground -fault monitoring O O O O O O O p, Advanced Ground Fault Monitoring / Remote GFDI Switch O O O O O O O Ungrounded PV array I^I O O O O O O O Lightning protection Lightning protection level III Lightning protection level III Lightning protection level III Lightning protection level III Lightning protection level III Lightning protection level III Lightning protection level III Insulation monitoring O O O O O O O Surge arresters for auxiliary power supply • • • • • • • Protection class / overvohage category I / IV I / IV I / IV I / IV I / IV I / IV I / IV General data Il;pl, II 'IIII II I!i fl II VI :'".I I l Dimensions (W / H / D) 2562 / 2272 / 956 mm (101 / 90 / 38 inches] 2562 / 2272 / 956 mm (101 / 90 / 38 inches) n Weight < 1870 kg (A 12316) < 187C kg (4123 lb) < 187C kg (4123 Ibl < 1870 119 (4123 Ibl < 1870 kg (4123 Ib) < 1870 kg (4123 Ib) < 1870 kg (4123 Ib) Operating temperature range -25 °C...+50 °C/-13 °F...+122 °F -25 °C...+50 °C/-13'F...-122 °F -25 °C._+50 °C/-13 °F...+122 °F -25 °C...+50 °C/-13 °F...+122 °F -25 °C...+50 °C/-13 °F...+122 °F -25 °C...+50 °C/-13 °F...+122 °F -25 °C...+50 °C/-13 °F...+122 °F Noise emission Is) 60 db(A) 60 db(AI 60 dblA) 60 db(A) 63 db(A) 63 db(A) 63 db(A) O o' r Ilmou' ('I,I Max. self -consumption (in operation) hI / self -consumption lot night) IsI < 1800 W / < 150 W < 1800 W / < 150 W < 7 800 W / < 150 W < 1800 W / < 150 W < 1800 W / < 150 W < 1800 W / < 150 W < 1800 W / < 150 W Auxilia power supply via �'P PPY external 208 V external 400 V external 480 V integrated teen power ° ° ° o / / / ° ° ° O / / / O ° ° ° / / / O O ° ° / / / O ° ° ° / / / ° ° ° ° / / / ° ° ° ° / / / 11 ...... ...., ... ,Ili II Ii {II I II ...{ II III l I i� i Cooking concept OptiCool OpfiCool OptiCool OptiCool OptiCool OptiCool OptiCool II C Degree of protection: electronics /connection area NEMA 3R /NEMA 3R NEMA 3 R /NEMA 3R NEMA 3R /NEMA 3R NEMA 3R /NEMA 3R NEMA 3R /NEMA 3R NEMA 3R /NEMA 3R NEMA 3R /NEMA 3RI]so II , D F O v Degree of protection 4C2, 4S2 4C2, 4S2 4C2, 4S2 4C2, 4S2 4C2, 4S2 4C2, 4S2 4C2, 4S2 'JI II .....,,. Application Max. permissible value For relative humidity (non -condensing] In unprotected autdocrenvironments 15 °o ... 95 % In unprotected outdoorenvironmenls 15 % ... 95 % In unprotected outdooreevranments 15 % ... 95 % In unprotected outdoorenvironments 15 % ... 95 % In unprotected outdcorenvironments 15 % ... 95 % In unprotected outdcorenvironments 15 % ... 95 % In unprotected outdoor environments 15 % ... 95 % II .........,, ,,,,,,,,,,,,' Max. operating altitude above mean sea level 200D m 2000 m 2000 IT, 2000 m 2000 m 2000 m 2000 m Economical Efficient Flexible Reliable consumption (inverter) 3000 ms/h 3000 ms/h 3000 m3/h 3000 ms/h 3000 m3/h 3000 ms/h 3000 ms/h Features Savings avings in balance of system costs •Highest efficiency in its power class •Configurable DC voltage range •Easy and safe installation and with DC connection Ring terminal lug Ring terminal lug Ring terminal lug Ring terminal lug Ring terminal lug Ring terminal lug Ring terminal lug clue to 1,000 V operating voltage • Full nominal power at ambient • Integrated AC disconnect for large, separate connection area AC connection Ring terminal lug Ring terminal lug Ring terminal lug Ring terminal lug Ring terminal lug Ring terminal lug Ring terminal lug , i m", C11.111111AI • Outdoor enclosure allows for temperatures up to 50 °C NEC 2011 compliance • Powerful grid management HMI touchscreen • • • • • • • "" nfrl IIIII r 91.11uu I' ru,,:Il direct field deployment 10% additional power for •Optional DCdisconnects functions (Ind. Low Voltage Ride Through) Communication/protocols Elhemet (dotted fiber optonall,Modbsu Hhemet(opticolliberopronall,Modbus E-Ihemetfopfcalfiber optionali,Modbus Ethernet (opticalfiber optionall,Modbus Ethernet (optical fiber optional),Modbus Ethernet (opficalfiber optional, Modbus Ethernet (optical fiber optional), Modbus • Small footprint and light weight for continuous operation at ambient Full UL1741 and IEEE 1547 compliance Communication with Sunny String -Monitor R5485 RS485 RS485 RS485 RS485 RS485 RS485 III """. IIII1111111111611oH II'IIVIUJ4 atilt easy shipping and installation temperatures up to 25 °C SC-COM • • • • • • • IIIL..., - Color of enclosure, door, base, roof RAIL 9016 / 9016 / 7004 / 7004 RAIL 9016 / 9016 / 7004 / 7004 .... SUNNY CENTRAL 500CP-US / 630CP-US / 720CP-US / War arty: •/°/°/°'° •/°/°/°/° •/°'°/°'° •/°/°/°/° •/°/°/°/° •/°/°/°/° •/°/°/°/° Certificates and approvals ]more available on request) EMC conformity for radiated emissions according to FCC Part 15 Class A, EMC conformity for radiated emissions according to FCC Part 15 Class A, (� 750CP-US / 8000P-US / 850CP-US / 1174 1, UL 1998, IEEE 1547 1174 1, UL 1998, IEEE 1547 700CP-US • Standard equipment o Optional features -Not available UL listed for *Preliminary information, last updated December 2013 commercial and utility -scale projects Type designation SC 500CP-US-1 0 SIC 630CP-US-10 SC720CP-US10 SC 750CP-US-1 0 SIC 800CP-US-10 SC 850CP-US-1 0 SIC 900CP-US-10 The Sunny Central CP-US series delivers outstanding performance. In combination with an external transformer, the Sunny Central (1) At 1.00 UAC,— and cos y = 1 CP-US can be connected to any utility grid or three-phase commercial service while directly providing grid management functions. I�1 The inverter will track MPP to 850V before self -protecting The CP-US family is UL listed at 1,000 V DC and features an integrated AC disconnect in accordance with NEC 2011 requirements. 11I Measured efficiency includes all auxiliary power Both the outdoor enclosure with the OptiCoolT"^ cooling concept and the separate connection area ensures simple installation while 14I Included in the inverter's UL listing Isl Sound pressure level at a distance of 10 m maximizing returns. With a peak efficiency of 98.7 percent, it outperforms all other inverters in its class. The Sunny Central CP-US (1) Self -consumption at rated operation can also be integrated with the Power Plant Controller as well as the Medium -voltage Power Platform for utility -scale applications. VI By external 400 V auxiliary power supply "'Ili"II''IIIIIIII III'I'1111°Ili9i'IlfJll -11 °III dl'¢IBJlill'lelillli .I!''116 "I„iiiliPllol'll lll!Illlr IIII,IU)!!Ili�.ul!IVn, IIII;L'Ill,lllllllllolllol',R!I61tl"Hill'16.1u1!'II',;ll!IIIIu"u'°ullll!IIII'Illllc'III';,IIL.,III';:IIIGI1rlu111"ul "!ili6liPllmd'lll,llu!I!IIIII 11I!'!IIII,uu°uruuo''!uuu°iiilll' II,III;,I II[,II,,IIIC;, lh— Z Of W W Qa o Ofof W 0 LL- W 0 U LL.I Z =) O U) U rn Lo Lo W H C6 Q r N o0 O O � a' 0, I— ; Z4 LIL° O U W lY LL Of W Z Z W Lu Of EL N 0 OF � U cn ZoQ PL. 0La Mo ofoo�} gwac0 Z cn �: G its l- } Z o cp Z a.0 _J WaL Z mo M ll l N CO m � W W N 0 J M J Q J LL J W Z M W llrn W Q D 00 ��WCOC-i < (.0 W N 0 N (n 2 CM U 2i J W IttttttttttttttJ 1 V IIIn co � ItttttttttJ � U Q J 0.) M 2r,_ O Cq U) > U z W O Q = U) O 2 o � Q � O II a 0 0 z � 0- LIJ �Z- Cnz LU C) ~:E/� O Z I..L Z ao Cy N 0 W COPYRIGHT ©STATEMENT THESE DOCUMENTS AND THEIR CONTENTS ARE THE PROPERTY OF CONSTRUCTION ENGINEERING GROUP (CEG) AND ARE ISSUED ONLY FOR THE SPECIFIC PROJECT NOTED ON THESE DOCUMENTS. ANY REMSIONS, REPRODUCTIONS OR MODIFICATIONS OF EI(PRESS WRITTEN CONSENT OF THESE CEG IS DOCUMENTS NITHOUT THE PROHIBITED BY LAW. DAVID E. ALLEY, PE `,tttt nrtttrr`I ,.� ,ivk CA�gO'�,. ,o ��. ,'Q 1 a =^e 9`� .��M�E.4 y, rrr E A� �rlr+tlrrrt nor+s NORTH CAROLINA PROFESSIONAL ENGINEER NO. 39321 10-21-15 SCALE AS NOTED PROJ. NO.: 150338 DESIGNED BY: DEA DRAWN BY: JNH CHECKED BY: DEA DRAWING NO. PVE-1.2 UTILITY DISCONNECT SWITCH, AND POC ❑2 UTILITY RECLOSER - F-1-1 UTILITY METER #P2 I��;.', :7k1,' ''.,4':-`,•' :,+yam' ,. Ik:��•`;, �+1�: _' ,:yt" sa yr:-: x:::�r,' ^. I � I I I I I I I I II I I II I I I I I I I I II I I I I I I II ► I II II I I I I I I I I I I I I I I II I I II II I I I I I I I I � I I I I I II � I I �► I I I I I I I I� I I I I II I I I I I I I II I II II I I I I I I I I II I I II I I I II I I I I II I I I II I I I I I I IT I II I I I I I I I I I I \► I I I II I I II I I I I I I I I I o \a� PIN: 8777-40-0257 \ PLAN NOTES: ❑ 4 CUSTOMER GOAB \� D.B. 734, PG. 805 \ 1. NEW UTILITY POLE WITH UTILITY PRIMARY METERING CLUSTER, PROVIDED AND INSTALLED BY ZONED: \ UTILITY. OVERHEAD CONDUCTORS BY UTILITY. 5 CUSTOMER METER I I \ Op\ USE: SINGLE FAMILY \ \ 2. NEW UTILITY POLE WITH UTILITY RECLOSER, PROVIDED AND INSTALLED BY UTILITY. OVERHEAD CONDUCTORS BY UTILITY. � Ia \ 3. NEW UTILITY POLE WITH UTILITY DISCONNECT, PROVIDED AND INSTALLED BY UTILITY. O w w ElCUSTOMER FUSED _J \ l j \ OVERHEAD CONDUCTORS BY UTILITY. cn CUTOUTS\RISER U \O�S \ \ \ 4. NEW CUSTOMER UTILITY POLE WITH GROUP OPERATED AIR BREAK SWITCH BY CUSTOMER W O _ I \ \ CONTRACTOR. PROVIDE 40' CLASS 5 SOUTHERN YELLOW PINE POLE TREATED WITH 0.6 PCF a w OF CCA. PROVIDE OVERHEAD CONDUCTORS PER SINGLE -LINE DIAGRAM. REFER TO POLE (w) w C L 7 TYPICAL TYPICAL 9 ba 8 TYPIC DETAIL 1 ON PVE-8.1. BURY BASE OF POLE 6'-0" BELOW GRADE AND TAMP FILL EVERY 0 #P3 #P4 #P5 #P6 #P7 \ \� \ \ \ \ 6"• U U) •.,., a:r.;, ,4.• ��.�;•.,...��• .:�: :�-;:, ,,�� t�. � 5 NEW CUSTOMER UTILITY POLE WITH CUSTOMER PRIMARY METERING CLUSTER BY CUSTOMER ., t., .. ...,.. ... ..: a+- .a .n:,::h'M'.'<._r.•..�;:.:1..-x,:G.;t9t:•H:. .. ...'7:'<:`: z:::v;^:, ... 'i.'.,':n'T; r; yxJ»1.M CONTRACTOR. PROVIDE 40' CLASS 5 SOUTHERN YELLOW PINE POLE TREATED WITH 0.6 PCF OF CCA. PROVIDE OVERHEAD CONDUCTORS PER SINGLE -LINE DIAGRAM. REFER TO POLE M DETAIL 2 ON PVE-8.1. BURY BASE OF POLE 6'-0" BELOW GRADE AND TAMP FILL EVERY a 00 N Op\ \ \ 6". o 00 6. NEW CUSTOMER UTILITY POLE WITH CUSTOMER FUSED CUTOUTS AND RISER BY CUSTOMER NTEy; \ \ CONTRACTOR. PROVIDE 40' CLASS 5 SOUTHERN YELLOW PINE POLE TREATED WITH 0.6 PCF w \ \ CB1.2 "```'' \ \ OF CCA. PROVIDE OVERHEAD AND UNDERGROUND CONDUCTORS PER SINGLE -LINE DIAGRAM. REFER TO POLE DETAILS 2, 4 AND 5 ON PVE-9.2. BURY BASE OF POLE 6'-0" BELOW p� CB1 .3 \ `';; ;•;. / \ \ \ GRADE AND TAMP FILL EVERY 6". \ .•a \ \ Ld 7. PROPOSED UNDERGROUND MEDIUM VOLTAGE (UMV) FEEDER ROUTING FROM RISER LOCATION a' � c 4 \ .v�t�... / Oaf O °p c>a,,: \ TO MEDIUM VOLTAGE TRANSFORMER. REFER TO SINGLE -LINE DIAGRAM FOR ADDITIONAL F W N ARRAY 1. \ i \ \ \ c°� �" �\ \ \\ INFORMATION. O. qa Z `n Q G o SEE DWG PVE-3.1 \ C B 1 : `' \ \ "J F O p 'x;,;,., \ 8. TYPICAL UNDERGROUND DC (DC) FEEDER TRENCHING FROM STRING COMBINER TO DC H ? O O �' } \ \ c� I r F, \o \ ;. / \ \ \ DISCONNECT SWITCH AT INVERTER PAD. REFER TO SINGLE -LINE DIAGRAMS AND COMBINER O o a \ \L u 1 .O \ r / \ \ \ S \ \ FEEDER SCHEDULES FOR ADDITIONAL INFORMATION. ONE FEEDER REQUIRED PER COMBINER, Zc z = NOT ALL SHOWN FOR DRAWING CLARITY. w" O �o Cam\ \\ \ ;p^M \ \ \ p�va w 9. TYPICAL DC STRING COMBINER AS SCHEDULED. m Lu \ t-oi o\ �. CB 1 .9 INVERTE 1 - \ \ C132.1 Dc- o : A \ GB2c:� PVE-2.1 PVE-5.1 AA\/ \ / \ \�----UMV ----UMV- UMV----_--UMV------Ut�V I f \� . - . ARRAY, 2 . . CB2.3�.--DC-----DC---_-DC--DC-: - --DC pC-J \. � L �T_1 / - - �. \ SEE DWG PVE-3.1 CB2.4 _DC- - - q-- M'\\ INVERTER 2 \ \ CB2.5 - -1 - - CB2.6 �CB2.8 ram'^• CB2.7 -= 1 �CB2.9 c \ CB3:1 CB3\. . - - - - \\ CB3:3 CB3.8 11 x CB3.4� 3.9� INVERTER A'R RAY 3 -Dc \ - \ SEE DWG PVE-3.2 C63.5 -Dc- _ - - \ - 8 TYPICAL -DC . \ CB3:61 _ °C r� 1-i \---DC-----D �� SIT-2 \ CB3.7\ - - -DC- - - - -Dc- - . �� 4- - _ CB 4. C64.8\ x \ CB4.2\ i0c A yar \ PVE-2.1 PVE-5.1 "� a CB4. ° ."..,. \ SEE DWG PVE-3.3 CB4.4� / .9 G CB4.5� CB4.6� - - - - CB5.7 I \ CB5:1 . T . CB5. \ CB5.3B+5.8 INVERTER 5 . ARRAY 5 ��DC - ', \SEE DWG PVE-3.3 CB5.4 D ' I r A - _ ADC = o \ ._ -DCI-Dc- \ rDC \ CB5.% - - - c- _ _ _ _ r� -1 DC ----UMV------UMV- C-- _UMV------ V------UMVD ��^ 3\_� . - i / a.7\ \ If �°C`/ CB6\ NVERTER 6 CB6.2 c� � / � - \ � ARRAY r CB6.3� �0 PVE-2.1 PVE-5. �B6.8 \ °cam \ - SEE PVE-3.3 CB6 4 / G 6 91 \ \ . . . . . . . . . . . . . . . . � , . . . . . , . . . . . . . . . . . . . .'^r' X CB6.5� '. 7 x .; X i. . . . . . . . . CB6 . , , , , . , =r.:. c `` T-4 r' CB7.1. . . . . . . . . . CB .2 - - � °c_ ! ° fi, \CB7.6 . Lj I : : B �. ;. `Z� °cam / / PVE=2:1 PVE=5.1 k . =� \ Oc \ lions ..,F:. :ix:h y x ";i.C�w`�:r �v;?�uKt�:.•;1_>'r::.�''�'�`n•:,t: - etb ':u,�:N".r ------------ --CL 3COLLand CL CL CL CL - o 0 ------- sc pe Screen -- WETLAND TYPICAL FENCE LINE X X X X x- _x X x SITE PLAN SCALE: 1" = 60' 60' 30' 0 60' 120' SCALE 1" = 60' z Lu N > It c coM O W W N coJ J J p J W - Z co 00 W w . rn Lu p�wm� ��z V % L: J I LO - W W 0N(n�M U2i J w J ~ ^^ �� VJ v• O � .J a- rn M � 0 N / U z Oa UDC) a U 0 p 2 Z O a_ o a O W J rn ZV! O - z 3: W cf) co Q �_ N 0 U) COPYRIGHT ©STATEMENT THESE DOCUMENTS AND THEIR CONTENTS ARE THE PROPERTY OF :ONSTRUCTION ENGINEERING GROUP (CEG) AND ARE ISSUED ONLY FOR THE SPECIFIC PROJECT NOTED ON THESE DOCUMENTS. ANY REMSIONS, REPRODUCTIONS OR MODIFICATIONS OF THESE DOCUMENTS MTHOUT THE EffESS WRITTEN CONSENT OF CEG IS PROHIBITED BY LAW. DAVID E. ALLEY, PE `yyyytllf171fr`f CApO��`'� I A ` �e err %D � A\-\•. ``, ': /l IIII �111 „tT♦ NORTH CAROLINA PROFESSIONAL ENGINEER NO. 39321 DATE 10-21-15 SCALE AS NOTED PROJ. NO.: 150338 DESIGNED BY: DEA DRAWN BY: JNH CHECKED BY: DEA DRAWING NO. PVE-2.1 CONCRETE PAD NOTES: 1. CONCRETE: ALL CONCRETE DESIGN AND PLACEMENT SHALL BE IN ACCORDANCE WITH ACI 318 AND ACI 301, LATEST EDITIONS. CONCRETE 28 DAY COMPRESSIVE STRENGTH AND PROPERTIES SHALL BE: fc 3000 PSI, SLUMP 5"(f 1 "), AGGREGATE 3/4". SUBMIT DESIGN MIXES FOR APPROVAL MAX. WATER/CEMENT RATIO 0.57. LAP SPLICE 40 BAR DIAMETERS U.O.N. TYPICAL CLEAR COVER TO REINFORCING U.O.N. 3" EXPOSED TO EARTH. 2. REINFORCING STEEL: ASTM A615 GRADE 60, DEFORMED ALL FOUNDATION AND SLAB REINFORCING TO BE SUPPORTED BY BRICKS OR STANDEES. 3. DESIGN LOADS, AS SCHEDULED. 4. VERIFY CONDUIT OPENING WINDOWS WITH INVERTER MANUFACTURER PRIOR TO CONSTRUCTION. INSTALL ANCHORAGE DEVICES PER MANUFACTURERS REQUIREMENTS. 5. COMPACT SUBGRADE TO 95% OF THE MODIFIED PROCTOR MAXIMUM DRY DENSITY. 3000 PSI/28 DAY CONCRETE PAD WITH #4 REINFORCING BARS @12" ON CENTER EACH WAY. 6" COMPACTED GRAVEL OR SAND SUBGRADE TYPICAL CONCRETE PAD SECTION SCALE: 1 /2" = 1'-0" 'g� 2.115.1 1 2,-7„ 8' 2.115. 1'(4 3'-3" I I I I I I I I I I -4---1--4--4---I-- ----1—�--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 I I I ——--�--�—--1--L—J----�— I I I I I I I I I I I 2 2,-3" 141 i ----------------------- PV INVERTER FRONT 3000 PSI/28 DAY CONCRETE PAD WITH #4 REINFORCING BARS 012" ON CENTER EACH WAY. POUR PAD SOLID AROUND CONDUITS WHERE LOCATED UNDER EQUIPMENT. ALL CONDUITS SHALL ALSO BE SEALED AFTER INSTALLATION OF CABLES TO PREVENT MOISTURE FROM ENTERING EQUIPMENT. TYPICAL CONCRETE PAD PLAN SCALE: 1 /2" = 1'-0" 7' __j k=_=___ ____i L c_____ 2___1 f__—a "1_� Ll ell NOTE: CONDUIT WINDOW OPENINGS SHOWN ARE BASED ON MANUFACTURER'S EQUIPMENT DRAWINGS AND SHOW THE MAXIMUM OPENING IN THE BOTTOM OF THE EQUIPMENT FOR CONDUIT INSTALLATION. AFTER ROUGHIN OF CONDUITS AND GROUND CONDUCTORS (WITH SLEEVES) PAD SHOULD BE POURED SOLID AROUND CONDUITS. ALL DIMENSIONS SHALL BE VERIFIED PRIOR TO SLAB CONSTRUCTION. INVERTER PAD CONDUIT WINDOW DIMENSION PLAN SCALE: 3/8" = V-0" Ili w Illl i z 0 i !i 26'-6" 3'-6" PV INVERTER FRONT INVERTER PAD DIMENSION PLAN SCALE: 3/8" = V-0" 5' TRANSFORMER 1'-2" 2'-5" 16 • 2,-6" 2.;°5., i 5 NOTE: CONDUIT WINDOW OPENINGS SHOWN ARE BASED ON MANUFACTURER'S EQUIPMENT DRAWINGS AND SHOW THE MAXIMUM OPENING IN THE BOTTOM OF THE EQUIPMENT FOR CONDUIT INSTALLATION. AFTER ROUGHIN OF CONDUITS AND GROUND CONDUCTORS (WITH SLEEVES) PAD SHOULD BE POURED SOLID AROUND CONDUITS. ALL DIMENSIONS SHALL BE VERIFIED PRIOR TO SLAB CONSTRUCTION. 6,-7" 5'-3" INVERTER PAD CONDUIT WINDOW DIMENSION PLAN SCALE: 3/8" = 1'-0" 28'-3" 9 n 77 2.115. 1'( Ei INVERTER PAD DIMENSION PLAN SCALE: 3/8" = V-0" rol z LD w w co Q a > o of W 0 of � LL w o U w Z D O cf) U cQ w — W r I Q , N o 0 0 o �r w o a c:5'- a� W N U 'o 9gZ`�Q 0 Ix W 0 Ld L9 �: ZAo oo->- z� gW¢EZ0 D w" px"� tn�U aiH �ZooZ 0 ,r _j W¢u Zoc w N fn 0 i Lo O m co W W N U W co u_ - w (9 p W _j=) w� M a �z W O� W < I W mN /z_� V > J I Ln—W� W 0N472cci U� J �~ V J VJ 51 O W U) U ZQ Q J rn J O M � N Z O Q i z 0 0 Z w O� _z o 0 < a o Q Z W F U)zC)(� ,� 2 Lu o z z o W > N o Z COPYRIGHT © STATEMENT THESE DOCUMENTS AND THEIR CONTENTS ARE THE PROPERTY OF CONSTRUCTION ENGINEERING GROUP (CEG) AND ARE ISSUED ONLY FOR THE SPECIFIC PROJECT NOTED ON THESE DOCUMENTS. ANY REMSIONS, REPRODUCTIONS OR MODIFICATIONS OF THESE DOCUMENTS WITHOUT THE THESE EXPRESS WRITTEN CONSENT OF IS PROHIBITED BY LAW. DAVID E. ALLEY, PE CAp�{�`'� ;•�,0�8��ssra fg .- NORTH CAROLINA PROFESSIONAL ENGINEER NO. 39321 DATE 10-21-15 SCALE AS NOTED PROJ. NO.: 150338 DESIGNED BY: JNH DRAWN BY: JNH CHECKED BY: DEA 3 2 1 0 3 6 SCALE 3/8" = 1'-0" DRAWING NO PVE-5.1 BY UTILITY COMPANY BY CONTRACTOR POINT OF DELIVERY -----/" BY UTILITY COMPANY z w w Q a > p ry w O w w o U w Z D O U) U U) Lo Lo w H C6 Q r N 00 O O � .r LLI' g� 0 a° 0aN O O W N U o� �Icz) 0 Li29 z Za�MO ri O O z� gWa'o D oz= m W, cn�:C) wi _ Z a p Z 0O g = W of Lu W CUSTOMER PRIMARY o METERING CLUSTER BY CONTRACTOR _E BY CUSTOMER POLE BY p J CONTRACTOR p u*) OU LU J N co J J L_ �W CD J Z M NEUTRAL Lu a w rn 0 0 0 0 Z) I z Lo p m w - c� J IN - W pN(n2CNM �B' SI6'.a' 4,0 CU-\ CO NER 4,0 CDC 'H� NER CUSTOMER REVENUE GRADE Lam"" METER. SEL-735, WIRED PROVIDE 3' X 4' GROUNDING COMPLETE BY CONTRACTOR 40" PLATFORM AT BASE OF GOAB 1 - - " � POLE. SEECO W809 SERIES. BOND � GROUNDING MAT TO GROUNDING MAT WITH #4/0 GROUNDING MAT COPPER. 'IP BY CONTRACTOR MV POLE DETAIL MV POLE DETAIL SCALE: N.T.S. (2 SCALE: N.T.S. BAY-O-NET, OIL IMMERSED EXPULSION FUSING. PRIMARY COMPARTMENT - FINISH GRADE ON/OFF 2-POSITION SWITCH, 200A, 15KV CURRENT LIMITING FUSES COMPACTED NATIVE BACKFILL HO lo TO 95% PRIMARY BUSHINGS WARNING TAPE (TYP.) Imo/ XO PRIMARY INSERT I I PRIMARY LOAD BREAK ELBOWS PRIMARY SURGE MEDIUM VOLTAGE CABLES, ARRESTORS DIRECT BURIED a I 'I .I a 3" BEDDING * = COMPACTED NATIVE BACKFILL MV TRENCH DETAIL PRIMARY CONDUITS d u. TRANSFORMER DETAIL SECONDARY COMPARTMENT GROUNDING PADS PROVIDE GROUNDING BUSHINGS 4" THICK REINFORCED CONCRETE PAD, SIZED PER MANUFACTURER'S REQUIREMENTS. 3000PSI a #4/0 BURIED COPPER GROUNDING .4 a CONDUCTOR, ENCIRCLING TRANSFORMER PAD. 18 BELOW GRADE. GROUND ROD, TYPICAL _ - - - - - - AT EACH CORNER. SECONDARY CONDUITS U� J w VJ���^^ w .J a- � U Q M � 0 N U Z UDC) Oa a U 0 p z O a_0 p a a w U) J Z 0 ~ OU) Z Lu Q co N 0 > rn COPYRIGHT © STATEMENT THESE DOCUMENTS AND 1HEIR CONTENTS ARE THE PROPERTY OF CONSTRUCTION ENGINEERING GROUP (CEG) AND ARE ISSUED ONLY FOR THE SPECIFIC PROJECT NOTED ON THESE DOCUMENTS. ANY REVISIONS, REPRODUCTIONS OR MODIFICATIONS OF EXPRESS WRITTEN CONSENT OF THESE CEG IS DOCUMENTS WITHOUT THE PROHIBITED BY LAW. DAVID E. ALLEY, PE .'��� CA�gO�`' ;•aorEs5io;�. i9 E '111 U41f 1,1 NORTH CAROLINA PROFESSIONAL ENGINEER NO. 39321 10-21-15 SCALE AS NOTED PROJ. NO. 150338 DESIGNED BY: DEA DRAWN BY: JNH CHECKED BY: DEA 3 SCALE: N.T.S. al SCALE: N.T.S. DRAWING NO PVE-8.1 FACTORY FORMED GRIP LE PISA -YE NOTES: 1. THE GUY INSULATOR SHALL EXTEND 24" BELOW A PRIMARY VOLTAGE BARE ENERGIZED CONDUCTOR OR PART. 2. ALL GUYS SHALL BE BONDED TO THE SYSTEM NEUTRAL. BONDING CONDUCTOR SHALL BE #4 SD AL. 3. AN UNDERGROUND PRIMARY CABLE TERMINATOR IS CONSIDERED A BARE ENERGIZED CONDUCTOR TO THE BOTTOM OF THE TERMINATOR. 4. GUY STRAND SHALL BE 5/16" H.S. UNLESS NOTED OTHERWISE. 5. GUY AT A LEAD TO HEIGHT RATIO OF APPROXIMATELY 2/3. GUY WIRE INSTALLATION DETAIL SCALE: N.T.S. HOT LINE CLAMF WIRING BY CONTRACTOR STIRRUP LOADBREAK FUSED CUTOUT ARRES n'j THREE-PHASE RISER DETAIL SCALE: N.T.S. POLE GROUND ALTERNATE GROUND WIRE WIRE POSITION. (USE WHEN J MULTIPLE GROUNDING ROAD SIDESYSTEMS ARE REQUIRED.) / DI ITCER ON OF TRAFFIC NEUTRAL 18" MAX FINISHED GRADE POLYMER SUSPENSION INSUI AT/10 10'-O" _ 24" - POLE MIN. MIN. ADDITIONAL GROUND RODS (WHEN REQUIRED) COPPERWELD STAPLES (TYP.) HOT LINE CLAMP #4 BARE 10'-0" COPPER MIN. (SEE NOTE 4) 1 P LAN STIRRUP LOAC FUSED C -v v GUY INSULATOR I -- p 72" WIDE CROSSARM WITH INSULATORS c-,PArFn RR" SIDE VIEW PHASE 36" MIN - 48" MAX TO NEUTRAL LOADBREAK FUSED CUTOUT ARRESTER FRONT VIEW NOTES 1. CONNECT BOTTOM LEAD OF ARRESTER DIRECTLY TO POLE GROUND. INTERCONNECT CABLE INSULATION SHIELD DRAIN WIRES AND CONDUIT RISER GROUND TO MULTI - GROUNDED NEUTRAL AND POLE GROUND. THREE-PHASE RISER -DEAD END DETAIL SCALE: N.T.S. CONNECTOR 8-0 MIN. ALWAYS CONNECT THE POLE GROUND I LEAD(S) DIRECTLY TO THE NEUTRAL - „ (FROM 24-4 ENSURE THAT THE COPPER CONDUCTOR TO 16'-4" WILL ALWAYS BE BELOW THE ALUMINUM. ABOVE GRADE) NOTES 1. USE ADDITIONAL GROUND RODS, WHEN REQUIRED, 0 o I TO OBTAIN RESISTANCE VALUE, AS REQUIRED BY IEEE C2. 2. MAKE GROUNDING CONNECTIONS TO ALL EQUIPMENT o a- z O ON POLE AS REQUIRED BY IEEE C2. O 3. FOR SYSTEMS OTHER THAN 4 WIRE, MULTI - GROUNDED, USE SEPARATE GROUNDING o l�r CONDUCTORS AND ELECTRODES FOR PRIMARY Q o AND SECONDARY SYSTEM DEVICE CONNECTIONS. �J 4. #4 600V INSULATED COPPER GROUNDING CONDUCTOR REQUIRED ON PRIMARY SYSTEM zLLJ 8'- 0" WHEN SEPARATE SYSTEMS ARE REQUIRED. a MIN. „r-i III PLASTIC OR FIBER MOLDING GALVANIZED STAPLES (TYPICAL) -1 1 12" I� GROUND ROD 24" ELEVATION POLE GROUNDING DETAIL SCALE: N.T.S. SECURE CONDUCTORS 8 LAGSCREW 3 " X 1-1 2" LONG WITH BASKET TYPE / / CABLE GRIPS NAIL, ALUMINUM, 1-1/2" LONG 0 o 0 TOP OF RISER SHIELD 2" ABOVE NEUTRAL o0 o 0 o 0 PVC BACK PLATE FINISHED GRADE 7° i PVC EXTENSION SHIELD PVC BACK PLATE -- NAIL LAGSCREW PVC U-GUARD RISER DETAIL SCALE: N.T.S. z 2 0 � Q � w 0 W O LL w o zw Z) O U) Lo Lo w Q N 0 00 CD O millions } w a _ � cL O o w N U 0, ; 12z,gQ O w d w . O Fe O O v :5 w Q o O wr oZ="a . � U a H z o a z 0 g 1-- W �a L Zo= w Nln 0 m cM O U w w N w -1 M LL w CD W J : ¢ Z M rn w LU D I Q Z o0 0 0 >�HmN - J w w � 04 cNM U2 J W J rr~^^ VJ ..rr ^_ VJ 0 � U Q rn C" M O � N U z UDC) Oa a U p z co O � o Q w a w Cn J v ! Z 0 ~ z (D Z � W 0 �Q>00 N Qrn COPYRIGHT © STATEMENT THESE DOCUMENTS AND THEIR CONTENTS ARE THE PROPERTY OF CONSTRUCTION ENGINEERING GROUP (CEG) AND ARE ISSUED ONLY FOR THE SPECIFIC PROJECT NOTED ON THESE DOCUMENTS. ANY RENSIONS. REPRODUCTIONS OR ..,.CATIONS OF EXPRESS WRITTEN CONSENT OF THESE CEG IS DOCUMENTS WITHOUT THE PROHIBITED BY LAW. DAVID E. ALLEY, PE Vk Apo, 4�..E551p • _.. NORTH CAROLINA PROFESSIONAL ENGINEER NO. 39321 10-21-15 SCALE AS NOTED PROJ. NO.: 150338 DESIGNED BY: DEA DRAWN BY: JNH CHECKED BY: DEA DRAWING NO PVE-8.2 I� C 1#1 COMMUNICATIONS DETAIL SCALE: N.T.S. COMMUNICATIONS DETAIL SCALE: N.T.S. COMMUNICATIONS DETAIL SCALE: N.T.S. >msmr�ct gz +�sn�e Ce w asl POE (Powar Wer — Ethernet) Injector I ceozi IROR) I I I I I -sa � I I NETWORK ® ENCLOSURE PAD 1 ey --- 12"X10"X6" I T ""•"•„ ame ag➢SEJla L1.Zpuas7 wxRaRLa ame H94gC_I!a Monty pq• L9] nas1 Securetl will Muea b ne a Sigh ------------ %mos°mbn Rp=.n Rnenpmmar ale pvr.nrwnemr op.imlp A or I I I wE �NE��,nN wE. N 485 Inn I I I I I I I I I I I [?E qax I A&ga< 1 WEATHER STATION ENCLOSURE( Wi — — — — — — — — 16"X16"X8" -- — — — — — — G%60gC II III I ili 11. :I �. IIIII II II I NeG R Z II I it) I II:���� .,.. I � IIII .. I I I' IIIII. III I I It .II........ .......... IIIII III. 1 I I I I I I _ I 1 I I I I I 1 1 I I c 1 I VI11111J IIN( I III011llllllll lllpll; II II IpCVl4tll III II IIV:1111116111�1: 11 ® ® WIN IIN ial II L. It). .:IIU ----- -- Will ... ... IIIII II I II IhIIIIi III II Ilil. ... 120VAC.......... .......... ......... ........., .......... ........... .......... •H II NOTES 1. Internal devices (Power supply, Data Logger, Meter and RS-485 Port Card Surge Suppressors) supplied pre -wired with IP addressing set froul'^I r!'gJla:n;,a II:.IEIIIIY,II1 IIEI!IIIIoIIIII!illf'1191I„''Ill"4P" IIIIIIIIIIII11;1'I Energy.1opLllllll::Jlllulllli..alllll,l,lll':I:III;Iu III'!IIIIIV;I,IBIII1VeEll 2. The RS-485 bus uses daisy -chained configuration for all devices, i.e. no more then two wires on any terminal. IIIIII'I^I°"Ilr°III„,dll lllili411i1.;;!111i1:11i'cPI.111IIII1;111l111 3. For RS-485 connections, only connect the drain wire of the shielded cable at one end. Do not ground the drain wire at both ends of a cable Tullll. gW91p^pd'lldl'16iI'hill,,l'IIIIL.."I!''illl;°,lullli..al'llllll! Illi,lll;' 4. Use Belden 3106A or equivalent for all RS-485 type connections. 4000ft max length per bus, 1000ft max between each device. :I"TIP":.oll:II::iIIldlll 5. Use Belden 7919A CAT5 Network Cable or equivalent for all hub to cable modem to gateway Ethernet connections. 300ft max 6. ALL WORK SHALL COMPLY WITH THE CURRENT NEC. 7. Fiber cable should be multi -mode 50/125µm or 62.5/125µm with SC Connectors (pre -terminated with pull ring suggested for ease of install) 2 COMMUNICATIONS DETAIL SCALE: N.T.S. TO BASE RADIO Z --- CONCEPT ONLY, REFER TO SITE SPECIFIC DRAWINGS Secured VAR Must be Line of sight ------------------ III apme POE (Power Over Ethernet) Injector I I I I op I I I ;yS NETWORK ENCLOSURE PAD 3 12"X10APTIJ ------- - —I Ublqulty Ramole Radio :a nrN la�'I�aulllrq, a .I �: .. ..— .......... ............ ...... +I�Illlllp!n I':I:S I I l al . 141 I::;::;::"....., 116111�II�iP� � 'lijlilP�I Ilalrlllltlhlll:.li I II IIIII II II IIII IIIII III. II IIIII II III l l pJVll ill II II III II II 01 'IIIII hudconll,l'.I 11I'blI lih�ll�, secures win Radio Ubiquity Remote Musa be ---- Llne of SIght I I m.aea.u. z a R w:a I,`zp POhE tPWOver ernet)EInjector I IRR=i ISRm I Egg gv� :a €a! I 1 NETWORK ENCLOSURE PAD 4 -- -- ----—--———— — — — — —— 12"X10..X6.. NOTES 1. Internal devices (Power supply, Data Logger, Meter and RS-485 Port Card Surge Suppressors) supplied pre -wired with IP addressing set from Also Energy. 2. The RS-485 bus uses daisy -chained configuration for all devices, i.e. no more then two wires on any terminal. 3. For RS-485 connections, only connect the drain wire of the shielded cable at one end. Do not ground the drain wire at both ends of a cable run. 4. Use Belden 3106A or equivalent for all RS-485 type connections. 4000ft max length per bus, 1000ft max between each device. 5. Use Belden 7919A CAT5 Network Cable or equivalent for all hub to cable modem to gateway Ethernet connections. 300ft max 6. ALL WORK SHALL COMPLY WITH THE CURRENT NEC. 7. Fiber cable should be multi -mode 50/125µm or 62.5/125µm with SC Connectors (pre -terminated with pull ring suggested for ease of install) COMMUNICATIONS DETAIL R sda a are HRIr.EVa L4Zme ^ ae.cmca.a %ipa%zppep VV0.4/soEnergy rpppL-, are, P �p^p eler beyond measure This system has been designed to r 1 AlsoEnergy specifications. If you make any modifications, the system will not work unless you notify AlsoEnergy with r_ — — — — — — — — the changes. I Installation Manual Page Numbers Communication Enclosure 12 1 Data Logger 13 == Power Supply 17 --_='=— Terminal Blocks 18 Meter 19-23 .f—, Weather Station WS Supplement, 24-31 wE<Atl Inverter Inv Supplement Wiring Legend I I Fiber (See Notes) Ethernet (See Notes) RS-485 (See Notes) -E'F6 1 24V Power WEATHER STATION AC Power ENCLOSURE2 Voltage Taps 16"X16"X8" 1 Current Transformers (CT) 1 Weather Station Sensors Ground Qata Initials Notes 7/2/2015 SLS Drafted ALSO ENERGY INC Cypress Creek Renewables— Entropy — Apple One BOULDER,I 80308 +1.866.303.5668 WWW.ALSOENERGY.COM ALSO ENERGY INVERTER AND METER INTERCONNECTS SIZE FSCM NO DWG NO REV D OL-1 ALSO ENERGY 1 7/2/2015 (SCALE NTS (SHEET 2 OF 2 I— z LD w ry Q w w ry O w w w o U w z Z) O ;n to Lo w L � 1 Q N 0 CO C5 CD millions } w g� � o 0n o waWtbO Z' :5wQ�O D LU O z = v� to � U � z o a z o :5CL w> zM W cm U J Ln m M O U W w a- J CM �W LL. C� O J LLI Z M � M LLU . W LLJ D I z Q�Q ao I CO J >H__j W W 0N(n2CNM U2i J w Q� o � U laaaaaas J (M J � 0 N / z z UDC 0 a w O O L_ = z 0 0 d 0 la —ea Q ij d w J U Z Q 1-- ~ Z) O z CO Q 0 N o U COPYRIGHT ©STATEMENT THESE DOCUMENTS AND THEIR CONTENTS ARE THE PROPERTY OF CONSTRUCTION ENGINEERING GROUP (CEG) AND ARE ISSUED ONLY FOR THE SPECIFIC PROJECT NOTED ON THESE DOCUMENTS. ANY RENSIONS, REPRODUCTIONS OR MODIFICATIONS OF EXPRESS WRITTEN CONSENT OF THESE CEG IS DOCUMENTS WITHOUT THE PROHIBITED BY LAW. DAVID E. ALLEY, PE ,T11111f IIJ/!! �alnif�E� ' y E_ P1. 'IT�fllrlhl>>>t,a NORTH CAROLINA PROFESSIONAL ENGINEER NO. 39321 10-21-15 SCALE AS NOTED PROJ. NO.: 150338 DESIGNED BY: DEA DRAWN BY: JNH CHECKED BY: DEA SCALE: N.T.S. CONCEPT ONLY, REFER TO SITE SPECIFIC DRAWINGS DRAWING NO PVE-9.1