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B06-0196 Ludvik Electric Co.
� FOUR SEASONS VAIL, COLORADO LUDVIK ELECTRIC CO. JOB 7060 Coordination Study SPECIFICATION SECTION 16400 3.20 SUBMITTAL 28.11 March 4, 2008 � �� L"D v I' ` 3900 South Teller Street Lakewood, Colorado 80235 ELECTf�IC Telephone: (303) 781-9601 www.ludvik.com � FOUR SEASONS VAIL, COLORADO LE JOB 7060 March 4, 2008 GENERAL CONTRACTOR: Layton Construction Company, Inc. 9090 South Sandy Parkway Sandy, UT 84070 ENGINEER: Rybka, Smith & Ginsler, Inc./Ltd. 18 Champlain Boulevard Toronto, Ontario M3H 2Z1 ARCHITECT: Hill Glazier Architects � 925 Alma Street Palo Alto, CA 94301 SUBMITTAL 28.11 Coordination Study SPECIFICATION SECTION 16400-3.20 � FOUR SEASONS VAIL, COLORADO LUDVIK ELECTRIC CO. SUBMITTAL 28.11 � REVIEW AND ACTION RECORD LUDVIK ELECTRIC CO. LAYTON CONSTRUCTION CO., INC. � 3 �� � .�7.......... �°��� Rev�e�red by�.�.'��.�... ,�° . RE���e�ved.... ..�°,�.�..�.....�.....�....._��...�.�....�..... F��v�{�!�lec� �s noted...............�..�....��...�...�..�... '.�l Rev��.; ��, ��psubmit........................�.�.........�... • RYBKA, SMITH 8� GINSLER, INC./LTD. HILL GLAZIER ARCHITECTS � � Submittal Checklist for Coordination Study Pro'ect: Four Seasons Vail 1 Vail Road Vail, CO 81657 General Contractor: La on Construction Com an , Inc. - 9090 South Sand Parkwa Sand , UT 84070 Submitted b : Ludvik Electric Co. 3900 S. Teller St. Lakewood, CO 80235 303-781-9601 Date Submitted: 3/4/2008 Review Stam ed: Yes S ec Section: 16400-3.20 Drawin s: E8.01 Su lier: Gex ro/Darwin Walrath • 425 Quivas Street Denver, CO 80204 303-572-7134 Contact for Additional Information: Adam Feuerstein 303-781-9601 Original Submittal or Re- Submittal: Ori inal Submittal Certificate of Com liance Yes, see submittal Additional re uirements: • � owe r t u � e s .�om Ps 16122 SE 266th Street ■ Covington, WA 98042 SHORT CIRCUIT & PROTECTIVE DEVICE COORDINATION STUDIES Four Seasons Hotel Vail, CO Submitted B : Y Philip R. Hanna, P.E. Reviewed By: Robert E. Fuhr, P.E. & Delinah Martinez Customer P.O. #325705107AA Job #050875 - Date: 1/28/08 �' Y 9 e' S`�� Revision 0 � ` ��`���.°'� � � �..��� � �a y��°e�A ' a�c�p �'� ��' �y9�u '���:5$ � ��'�"'�� . �� 253.639.8535 Phone � 253.639.8685 Fax www,powerstudies.com Introduction Executive Summary and Recommendations Short Circuit Study One Line Drawings . Short Circuit Study . Computer Printout Equipment Summary List . Protective Device Coordination Study Time Current Curves Settings for Relays & ' Circuit Breakers Manufacturer's Protective � Time Current Curves �s id�,�:x �,,<<>, �� � Four Seasons Hotel Job Number#050875 Revision #0 - Date: 1/28/08 INTRODUCTION In 2007, GexPro was awarded a contract to provide the electrical distribution equipment for the Four Seasons Hotel. The facility is located in Vail, CO. The electrical contractor for the job was Ludvik Electric Co. The specifications for this project required a short circuit and protective device coordination studies. A short circuit study was performed to determine the short circuit current values at various points throughout the distribution system. The short circuit data was collected from the existing equipment nameplates, drawings, and submittals for the new equipment. These values were then compared to the equipment short circuit rating. The study contains a reduced copy of the one-line drawing, impedance drawing and computer printouts of the fault values. A list of the equipment short circuit ratings is also included. The report also lists the equipment that is underrated for the available fault I current. � PowerStudies.com, P.S. also performed a protective device coordination study. This study determined circuit breaker settings and verified the fuse sizes. The coordination study can be found in Tab 7. A reduced copy of the distribution system one line drawing can be found in Tab 4. The time current curves are located under Tab 8. The circuit breaker and relay setting sheets are located under Tab 9. Copies of the manufacturer's time current curves are found under Tab 10. x: Tab 1 Page 1 f;3 :fi ' ''i � Four Seasons Hotel Job Number#050875 Revision #0 - Date: 1/28/08 EXECUTIVE SUMMARY AND RECOMMENDATIONS The purpose of the short circuit study was to determine the available fault current at the switchgear, switchboards, panelboards, and other equipment throughout the facility. The engineer performed the short circuit study on the new equipment being supplied. The engineer compared the fault values to the equipment short circuit rating. The engineer calculated the fault current using the SKM computer program. This program ignores the current limiting effect of the fuses. If the equipment is underrated on a fully rated basis, then the engineer applies a series rating method. If a series rating method can not be applied and the equipment is pre-1982 design, then the Bussmann Up-and-Over and Up-Over-and Down Method is used. Flow chart #2 shows this procedure and is included at the end of Tab 3. ' The summary sheet in Tab 6 lists all equipment and short circuit ratings on a fully rated or series rated basis. Holy Cross Energy supplied the available fault current and transformer information. Two 1500 kVA transformers, each with 5.3% impedance, were supplied by Holy Cross Energy. The available fault current used in the study is listed below. Available Fault Current Node Name Volts 3-Phase Line to Grd XFMR-UTIL1 S XFMR UTIL1 S 480 34,100 A XFMR-UTIL2S XFMR UTIL2S 480 34,100A The study was performed on the new equipment being installed. The calculations show that all the new equipment is not properly rated for the available fault current. The following is a list of panelboards that were found to be underrated. S.C. RATING MAXIMUM CALCULATED FAULT NODE ID NODE NAME kA KAMPS X/R PNL-DIM-SPB PNL-DIM-SPB 10 13.2 2.32 Some of the submittals for the equipment were not available at this time. The following is a list of the equipment. The equipment interrupting ratings must be verified that they are greater than shown in the maximum calculated fault current column. RECOMMENDED MAXIMUM S.C. RATING CALCULATED FAULT NODE ID NODE NAME kA kAMPS X/R DISGCHILI DISGCHILI 35 23.9 2.63 Tab 2 Page 1 Four Seasons Hotel Job Number#050875 Revision #0 - Date: 1/28/08 DISC-CHIL2 DISC-CHIL2 35 23.4 2.46 PNL-DP-DSM1 PNL-DP-DSM1 18 11.5 1.60 PNL-DP-DSM2 PNL-DP-DSM2 18 12.6 1.65 PNL-DP-DSM3 PNL-DP-DSM3 10 7.9 1.41 PNL-DP-DSM4 PNL-DP-DSM4 10 6.4 1.35 PNL-DP-DSM5 PNL-DP-DSM5 18 12.5 1.46 PowerStudies.com, P.S. performed the coordination study to determine proper settings for the protective devices. PowerStudies.com, P.S. also provided recommendations for obtaining better equipment protection. Selecting a proper setting is part art and part science. The engineer determined settings to increase protection and reduce the number of circuits that will de-energize due to a fault. The settings of these devices depend not only on engineering judgment, but also on personal experience and local operating conditions. Any appreciable change in system capacity, load, operating procedure, or short circuit characteristics requires a reexamination of breaker settings. Due to the inherent nature of molded case circuit breakers and fuses, there was some inevitable overlapping between fuse and breaker instantaneous operation regions. These devices are sometimes impossible to coordinate, unless there is a large amount of impedance between upstream and downstream devices (i.e. transformers or long feeder lengths). This problem does not require any action. The industry considers this to be a tolerable situation except for elevator circuits and controllers. The National Electric Code has some special requirements for people transporting equipment such as elevators and escalators. Section 620-62 states: Where more than one driving machine disconnecting means is supplied by a single feeder, the overcurrent protective devices in each disconnecting means shall be selectively coordinated with any other supply side overcurrent-protective devices. Properly sized upstream and downstream fuses can be selectively coordinated for all levels of fault current. A 2:1 size margin must be maintained between the upstream and downstream fuses. Usually, it is impossible to have total and complete selective coordination between devices that have instantaneous characteristics (i.e. circuit breakers and relays). The circuit breakers usually will coordinate in the long and short time regions but will overlap in the instantaneous region. The utility supplied and installed the primary transformers. The utility engineer determined the main service transformer sizes that are less than the full load rating of the main switchboards. However, the NEC does not apply to utility owned transformers. Therefore the following discussion on the transformers is noted in order to alert the owner that problems may occur if the switchboard continuous load exceeds the values noted below. Tab 2 Page 2 Four Seasons Hotel Job Number #050875 Revision #0 - Date: 1/28/08 The NEC Article 450-3(a) states that for Supervised locations only, that if the primary fuse is less than 250% of the transformer full load rating, no secondary protection is required. The primary fuses are rated 50 amperes and 250% of the transformer primary current is 87 amperes. In this case, the main breakers act as main service disconnects and provide protection to the 3,000 ampere switchboards. It does not protect the transformer from continuous overload condition. The transformer must be replaced if the switchboard continuous load exceeds 1804 amperes. If new transformers are installed, a short circuit study must be performed to ensure that the available fault current from the new units does not exceed the interrupt rating of the existing equipment. The following recommendations will correct code violations and equipment problems. 1. Replace underrated equipment listed above. The following general recommendations will maintain the distribution system reliability. 1. Revise, update, and redraw the Distribution System One-line drawing for the facility when new equipment is added. This will decrease trouble-shooting time, reduce errors in decision-making, and decrease engineering costs for future projects. (PowerStudies.com, P.S. can provide this service.) 2. The 2002 National Electric Code requires that Arc Flash Hazard labels be installed on electrical equipment. NFPA 70E mandates that Arc Flash calculations be performed to determine the level of incident energy, arc flash boundary, and what personal protective � equipment is needed. The Protection Engineer recommends that these calculations be performed and labels attached to the electrical equipment to instruct personnel of the arc flash hazard, flash protection boundary, and safety equipment needed to protect them. (PowerStudies.com can perform this service.) 3. Test and inspect all circuit breakers before energizing as outlined in the manufacturer's instruction manuals. The test technicians should use primary current injection on all the devices. 4. Inspect and test the switchgear every year. This should include the following: a) Visual inspection of the 480 & 208-volt panelboards and circuit breakers b) A complete test of the circuit breakers using primary injection current. c) Infrared surveys of the panelboards, circuit breakers, and cable connections. d) Performance of all other tests and inspections outlined in manufacturer's maintenance manuals. e) Verify that the device settings are set to the values shown in Tab 9. Tab 2 Page 3 Four Seasons Hotel Job Number#050875 Revision #0 - Date: 1/28/08 SHORT CIRCU/T STUDY Short Circuit Discussions A short circuit study was performed to determine the available short circuit current at various locations throughout the distribution system. The following assumptions were made for the short circuit study. 1. Holy Cross Energy supplied the available fault current and transformer information. Two 1500 kVA transformers, each with 5.3% impedance, were supplied by Holy Cross Energy. The available fault current used in the study is listed below. Available Fault Current Node Name Volts 3-Phase Line to Grd XFMR-UTIL1 S XFMR UTIL1 S 480 34,100 A XFMR-UTIL2S XFMR UTIL2S 480 34,100A Where the transformer impedance data were missing or unobtainable, a standard impedance value was assumed from the SKM PowerTools internal database. The impedance is based upon the kVA rating of the transformer. The actual nameplate value was used when it was available. 2. The short circuit values calculated by the computer ignore the effect of the current limiting fuses. 3. All the chillers and motors were assumed to be operating. This assumption will produce the maximum available fault current for the distribution system. The short circuit study was performed to verify that the existing equipment has the proper interrupting and withstand ratings. The circuit protector's (breaker, fused switch, etc.) proper application requires that the protector's short circuit current rating equal or exceed the system fault current available at the proposed protector location. However, protector short circuit ratings are based on ANSI and NEMA standards. These standards specify the test procedures used to determine the ratings. The procedures and ratings are based on time of fault initiation, asymmetrical peak, asymmetrical rms, or symmetrical rms current values. Medium voltage circuit breakers have a momentary, also referred as close and latch, rating and interrupting rating. 1. The momentary rating is expressed as total rms current or asymmetrical rms current based on 1.6 I"d symmetrical rms at time of fault initiation. Tab 3 Page 1 Four Seasons Hotel Job Number#050875 Revision #0 - Date: 1/28/08 2. The interrupting rating is expressed as symmetrical rms current for symmetrical rated breakers or total rms current for total current rated breakers either at a time of few cycles after fault (1.5-4 cycles). It is dependent on rated interrupting time which is a function of contact parting time including relay operating plus breaker opening time and further modified by considering the power source whether remote or local. Medium voltage power fused and distribution cutout fuses have an interrupting or momentary rating, which are identical, expressed in symmetrical rms current or asymmetrical rms current based on 1.551"d symmetrical rms at time of fault initiation. The Flow Chart #1 summarizes the method required to rate the adequacy of protective devices. There are four different categories of low voltage protectors. Each category has a different test X/R ratio or power factor. The following is a summary of the categories: Category#1 - Low Voltage Power Circuit Breakers (without fuses) (LVPCB) Test X/R = 6.6; P.F. = 15% Category #2 - Fused Low Voltage Power Circuit Breakers, Fuses, Molded Case (MCCB) and Insulated Case (ICCB) Circuit Breakers with IAC > 20 kA. Test X/R = 4.9; P.F. = 20% Category #3 - Molded Case (MCCB) Circuit Breakers with 10 kA < IAC < 20 kA. Test X/R = 3.2; P.F. = 30% Category #4 - Molded Case (MCCB) Circuit Breakers with IAC < 10 kA. Test X/R = 1.7; P.F. = 50% Low voltage circuit breakers have an interrupting or momentary rating, which are identical, expressed in symmetrical rms current based on 1.01"d symmetrical rms at time of fault initiation. However, the breakers are tested to interrupt the asymmetrical peak current at a given X/R ratio or equivalent power factor. If the fault point where the breaker is being applied has a lower power factor or higher X/R ratio than the test values, then the system calculated rms symmetrical current must be modified by an X/R dependent multiplying factor (MF). Low voltage power fuses have an interrupting or momentary rating, which are identical, expressed in symmetrical rms amperes based on 1.01"d symmetrical rms at time of fault initiation. However, the fuses are tested to interrupt the asymmetrical peak current at a given X/R ratio 4.899 or equivalent power factor 20 percent. If the low voltage equipment is underrated on a fully rated basis, then the engineer applies a series rating method. If a series rating method can not be applied and the breaker is pre- 1982 design, then the Bussmann Up-and-Over and Up-Over-and Down Method is used. Flow chart #2 shows this procedure and is included at the end of Tab 3. Tab 3 Page 2 Four Seasons Hotel Job Number#050875 Revision #0 - Date: 1/28/08 The summary sheet in Tab 6 lists all the equipment and the short circuit ratings on a fully rated or series rated basis. There is one list for all of the devices (nodes) that are rated > 600 volts. The second list is the low voltage equipment rated < 600 volts. The third list shows the equipment that is underrated for the available fault current. The study was performed on the new equipment being installed. The calculations show that all the new equipment is not properly rated for the available fault current. The following is a list of panelboards that were found to be underrated. S.C. RATING MAXIMUM CALCULATED FAULT NODE ID NODE NAME kA KAMPS X/R PNL-DIM-SPB PNL-DIM-SPB 10 13.2 2.32 Some of the submittals for the equipment were not available at this time. The following is a list of the equipment. The equipment interrupting ratings must be verified that they are greater than shown in the maximum calculated fault current column. RECOMMENDED MAXIMUM S.C. RATING CALCULATED FAULT � NODE ID NODE NAME kA kAMPS X/R DISC-CHIL1 DISC-CHIL1 35 23.9 2.63 DISC-CHIL2 DISC-CHIL2 35 23.4 2.46 PNL-DP-DSM1 PNL-DP-DSM1 18 11.5 1.60 PNL-DP-DSM2 PNL-DP-DSM2 18 12.6 1.65 PNL-DP-DSM3 PNL-DP-DSM3 10 7.9 1.41 PNL-DP-DSM4 PNL-DP-DSM4 10 6.4 1.35 PNL-DP-DSM5 PNL-DP-DSM5 18 12.5 1.46 Tab 3 Page 3 Four Seasons Hotel Job Number#050875 Revision #0 - Date: 1/28/08 SKM PowerTools Power System Analysis Software The short circuit study was performed using two computer programs. The main program is the SKM PowerTools program. PowerTools is a collection of programs that are used for design and analysis of power systems. The software was written and is distributed by SKM Systems Analysis Inc. of Manhattan Beach, CA. The short circuit study required equipment nameplate data, conductor sizes, and lengths. This data was entered into PowerStudies.com's PSDB ACCESS database. This additional program stores the entire transformer, conductor, power company, and motor data. Once the data has been entered into PSDB, the system data is imported into the SKM program. From here, short circuit, protective device, and arc flash studies can be run. The short circuit study results are exported back to PSDB where the calculated fault values are compared to the equipment short circuit ratings. A report is generated that lists the calculated short circuit current and the equipment short circuit ratings. An example of this is shown below. Input Data The distribution system input data is listed at the beginning of the computer printout. The feeder, transformer, generator, utility, and motor data are listed. Following this input data is the Dapper Unbalanced Fault Report. This report lists the Bus Name, Voltage, 3 Phase fault and X/R values, Single line to ground fault and X/R ratios, Momentary Amps (Asymmetrical) and Asymmetrical amperes for various time periods. For low-voltage conductors, the resistance and reactance values used in the study are based on Table 9 of the NEC. The resistance values are those at 75°C (167°F). Using this temperature in fault calculations is consistent with the example fault calculation carried out in ANSI/IEEE Standard 141-1986. Calculation of Fault Currents The short circuit fault values were calculated using the SKM short circuit routine. The routine uses Thevennin's theorem and a bus impedance matrix to calculate the fault values. The basic calculated values fall into two forms: three phase bolted fault and line-to-ground fault values. As stated previously, the calculated short circuit current is exported from the SKM program and imported into PSDB. The PSDB program prints out a list that shows the maximum available calculated fault currents compared to the equipment short circuit rating. There is a report for Low Voltage Equipment and one for Medium Voltage. Examples of these lists are shown below. Tab 3 Page 4 Four Seasons Hotel Job Number#050875 Revision #0 - Date: 1/28/08 ey�� 12 Cycle 1f2 Cyde 12 Cyek Eym�eM ryve or Rau xm sym Iw►1 A•rm sym Iw►) TY�or Under�a�ed? ode ID ode Name Voks Devke Cat VNth IM Retb ACCom KA MF X pF SY� Fault Wth IM TS-E 480 42.0 623 0.6 0.7 2 3 Phase nt: TSN �80 42.0 6.89 18.5 24.9 1 3 Phase �rt: Table 1 - Low Voltage Short Circuit Summary List The column descriptions are listed below: Field Name Field Descri tion Node ID Name of the Node, Bus, MCC, Switch ear, or Generator Node Name Lon er and more descri tion of Node ID Volts E ui ment Volta e Ratin Type of Device Type of Low Voltage Device ATS (Automatic Transfer Switch) FLVPCB (Fused Low Voltage Power Circuit Breaker) FUSE ICCB (Insulated Case Circuit Breaker) LVPCB (Low Voltage Power Circuit Breaker) MCCB (Molded Case Circuit Breaker) MISC (Miscellaneous) N/A Not A licable — No Short Circuit Ratin Cat Type of Circuit Breaker Category (See Short Circuit Device Ratin Procedure Flow Chart With Withstand Ratin Int Short Circuit Current Interru tin Ratin IAC X/R Ratio Calculated X/R Ratio of maximum fault Current 'h Cycle Sym (kA) (AC This is the calculated maximum �/2 Cycle Symmetrical Short Com Circuit value 'h Cycle ASym (kA This is the calculated maximum 'h Cycle Asymmetrical Short Circuit value MF Multiplying Factor to increase fault current if calculated X/R is greater than device test X/R ratio. (See Short Circuit Device Ratin Procedure Flow Chart '/2 Cycle Sym (kA) X MF 'h Cycle Sym (kA) current multiplied by MF (De-rates device interrupting rating) Use this column and compare to the e ui ment interru tin ratin . S# Scenario Number of the maximum fault current calculated (If multiple case are run, then there may be different case or scenarios where the fault current is higher. For example Scenario 1 — Normal Power, Scenario 2 — Emergency Power Type of Fault This lists the type of fault that produced the maximum fault current. E ui ment Underrated? With If the field is blank, then the e ui ment withstand is rated Tab 3 Page 5 Four Seasons Hotel Job Number#050875 Revision #0 - Date: 1/28/08 Field Name Field Descri tion properly for the available fault current. If the field is equal to "Yes", then the device is underrated and has too low of a withstand ratin . Equipment Underrated? Int If the field is blank, then the equipment interrupting is rated properly for the available fault current. If the field is equal to "Yes", then the device is underrated and has too low of a interru tin ratin . Equip Ratlny 1/2 Equtpm�m (KA) CyeM 1l2 I� Ued�rraLd? TYP• Int InU Wlth Cont Sym�KA) Cye1Q Cont Gk Type �nt Intl With a C+L ST �M Pan X/R (AC Aspm Partby IM O1 C+L ST Noda ID Node NamQ Volls Dwiee Sym Asym sym 10 CY �"e lime Ratio ComP) (KA) Tine Valw S� Fauk � Asym ym 10 CY SE 11500 N/A rn -10 4180 N/A 4.49 1S] 22.9 1 3 P M: WGR BUS 1 4160 PCB 38.0 58-0 5 3 14.81 19.9 30.2 21.4 21.9 1 3 P M: Table 2 - Medium Voltage Short Circuit Summary List The column descriptions are listed below: Field Name Field Descri tion Node ID Name of the Node, Bus, MCC, Switch ear, or Generator Node Name Lon er and more descri tion of Node ID Volts E ui ment Volta e Ratin Type of Device Type of Low Voltage Device FUSE PCB (Medium Voltage Power Circuit Breaker) MISC (Miscellaneous) N/A Not A licable — No Short Circuit Ratin Int Sym Interrupting Short Circuit Current Rating in symmetrical Am eres Int/C+L Asym Interrupting Short Circuit Current Rating in Asymmetrical Am eres or Close and Latch Ratin With As m Withstand Ratin in As mmetrical Am eres ST 10 CY 10 C cle Short Time Short Circuit Ratin Int Time Name late Interru tin Time C cles Cont Part Time Contact Partin Time X/R Ratio Calculated X/R Ratio of maximum fault Current �/2 Cycle Sym (kA) (AC This is the calculated maximum �/2 Cycle Symmetrical Short Com Circuit value �h Cycle ASym (kA This is the calculated maximum �h Cycle Asymmetrical Short Circuit value I Q Cont Partin Time Current at contact artin time Tab 3 Page 6 Four Seasons Hotel Job Number #050875 Revision #0 - Date: 1/28/08 Field Name Field Descri tion Calc Int Value Calculated Interru tin Value S# Scenario Number of the maximum fault current calculated (If multiple case are run, then there may be different case or scenarios where the fault current is higher. For example Scenario 1 — Normal Power, Scenario 2 — Emergency Power Type of Fault This lists the type of fault that produced the maximum fault current. Equipment Underrated? If the field is blank, then the equipment interrupting is rated Int properly for the available fault current. If the field is equal to Sym "Yes", then the device is underrated and has too low of a interru tin ratin . Equipment Underrated? If the field is blank, then the equipment interrupting is rated Int/ properly for the available fault current. If the field is equal to C+L "Yes", then the device is underrated and has too low of an As m as mmetrical interru tin or Close & Latch ratin . Equipment Underrated? If the field is blank, then the equipment withstand is rated With properly for the available fault current. If the field is equal to Asym "Yes", then the device is underrated and has too low of a withstand ratin . Equipment Underrated? If the field is blank, then the equipment withstand is rated ST properly for the available fault current. If the field is equal to 10 CY "Yes", then the device is underrated and has too low of a 10 C cle Short Time ratin . Impedance, Node and Branch One Line Drawinq An Impedance, node, or branch drawing can be plotted out once the node and branch data have been entered. This tree drawing shows the node numbers (abbreviations) and the branch connection between them. This drawing enables the reader to understand how the distribution system was modeled and entered into the computer. This drawing used in conjunction with the input data printout represents the impedance diagram. The drawing is located in Tab 4. Tab 3 Page 7 Four Seasons Hotei Job Number#050875 Revision #0 - Date: 1/28/08 Perform Short Calculated YES MF=A�vm Peak Values�X/R Calculated Circuit study Isc. ��yory�1 NO X/R>6.6 Asym Peak Value�Test X/R=6.6 °� LVPCB Fused? PF<15% NO YES Isym(1/2 cycle)<Breaker Calculated Isym(1/2 Cyc)x MF (Calc) S.C. <Breaker S.C.Rating Check Devices& Ratinq Compare S.C. Catsgory�2 NO Ratings Fuses LVPCB(Fused) Calculated X/R>a.9 YES MF=Asvm Peak Value�X/R Calculated ICCB I� ?20kA p,F.<20% Asym Peak Value�Test X/R=4.9 MCCB Ir?20kA Calculated X/R>3.2 YES MF=Asvm Peak Value�X/R Calculated YES ��°ry�3 P.F.<3o/ Asym Peak Value�Test X/R=32 Is voltage MCCB <_600 v? 10kA<Ir<20kA NO Isym(1/2 cycle)<Breaker S.C.Rating(calc) NO Cafegory x4 Calculated X/R>1.7 YES MF=Asvm Peak Value�X/R Calculated NO MCCB 10kA S�OkA P.F.<50% AsYm Peak Value�Test X/R=1.7 I"-..Low�Vnllage<fi(NN """"""""'....._'.' '_"'_"'_"""""""_'_..__.__"""""""' Luw Vul��cc>fi1N1V Interrupting Rating Isym(1/2 cyc) (Amps Sym) > Calc MV Fuses interrupting Rating lasym(1/2 cyc) fAm�s Svm) > Calc Is wR< YES Momentary Rating �,�y�g Interrupting Rating �5? Calculated current Breaker Isym 1/2 cycle Isym Calc x 1.6 Breaker Close& �Corrtact Parting time < Rating or < Latch Rating t/2 cycle lasym Calc Is I�Cordact Parting<BO%of YES MV Breaker Breaker Contad S Irnerrupting IMerruotina Partina Ca abili Rating? Interrupting Rating Time Time Factor 2 1 1.3 NO Calculated Current X I+2E (4sT/X/R) �Breaker 3 2 �2 5 3 1.1 (�P Contact parting time S tsym Rating 8 4 1.0 ' "� Short Circuit Rating Flow Chart Powe r St u d i e s.�om� 1 Rwn f!3-b]9.M3)S��a.ifJ.6>9��lNS�f6f3i SF iGMX 54 CeNn90en.M�WMf Tab 3 Page 8 Four Seasons Hotel Job Number#050875 Revision #0 - Date: 1/28/08 Calculate the available fault SAoR Circuit Study current 8�X/R FulYSeries Rating Procedure Is the Fau�t NO Current x MF Obtain Equipment (see dwg.#1) Equipment is S.C.Rating greater than "Fully Rated" equipment S.C. ratinn7 YES The equipment is reted YES by up-and-over and Consider the upstream Can the main Attach series up-and-over-and-down fuse or circuit breaker and branch Equipment is rated label on methods attach a label as the main device devices be "Series Rated" equipment to the equipment. series rated? YES NO YES NO Use the up-and-over 8 up- Are the circuit N� and-over-and-down method. breakers current Compare Ipeak&Irms to the Is Can the limiting,with a"Blow U.L.irnerrupting withstand equipmeM upstream Apart"or"rounded" capacities(see Bussman protected? current limiting contact design? Publication PMCB). fuses or circuit (post 1982) breakerbe installed? YES N� Replace the Equipment ' Short Circuft Study Full-Series Rating Flow Chart PowerStudies.�omn 2 Ilw�SSl-010.R15�fu iSIE)9�elBS�161t3 S!Eblt�St.[oNq[en.MA 9BM3 Tab 3 Page 9 i I � MCC�JRVC S;RV1C_ UTILITY �' � HG w� �:. ��, __ __ _ � _ _ �I � m,� n' ' = m;� ' ' �*' �ILL GLALI{[ I .._ _ l_ _ _ ti'�°�°1osuc { �� � �� .m� UYk . �.�����.._...��.��,....� � �� a�,�na em� ,— ___ s...,o °`� r""..�w.a., '° .,.va v n��a- °I _ ___ ._ - - - __- __. _- - .._ __ _. __ - _ _ __ _ __ _- _- __. . . 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Ixneth 1�)0.(Ifi PNI.-f)P-RCi zux v - TC)PNL-PPRCS� TO PM.PPR(3:�tIC -� 'f0 PNI:PPRCt I T()PM.PPR('.1� 'fl)PNI.-PPRC4.I tiym?P I�231.7N� I%-T(1 PNI.1)P-RCi Sirr'i0 - Si�.c 25p - Siu 250 Sir.0�5f1 Si�e'_?0 � X1R R�s-'.`1R � � #/PII I +�/PII 1 #/Pii I #/I'fl 1 � k/NFI 1 Sym SLG 1?lN8.t14� � ' I.cnn�th 140.0 ft I.cngih IAO.O li I.a�gih 10(10 tl TO PNLUP.RC7 Isnpth 140A fi Isnetli 1(A7.0(t � X/It SLG I.R76% TOVNI.-DP-R('S � Sizc?5l1 -- TUPNLPPRC43 - Si<c?�0 � PNI:PPR('4� PNLPPRC3AH(' PM,PPR('3.1 #/PI12 PNI,-PPRC7.: PNI_PPRC4.1 - Ciee Zsf) � #/PII 2 202f V 2(1ri V 20%V Isn�lh Iif1.0 ti � ?p%V 2(IN V N/PI�I 1 I.eneth 120.0 ft Sym iP 6117.99 A Sym 3P 6i 1 i.�)Y A Sym 3P 7456.'J.A S�n iP 6113./9 A Sym 3P 7156.2i A I.en�th I40.0 ft � X/R P�xs 1.52 X/R pu�1,5? X/R Pnv 1.6! � X/R Pns 1.52 X/R P��s 1.66 PM,-UP-RCS Sym\LG�f747.56 p Sym SL(i S�W7.56 A Sym Sf.(;fi07(,.27.A tihn SLG S��y7.S6,� SNn SLG F07fi.?7 A pNL-PPRC4.3 . . . ��%V X/ftSLG L�OSX X/RSLG I.2U5R X/RSLG LPi; X/R.l'LG L20sN X/ItSLG 1.27i1 � �pg V "f0 PYL-PPRC6? TU PNL-PPRC5.3 'I'U PNI,-PPRC5.1 TO PNI:PPRC4,\I "I'O PM.PPRC52 � "f0 PNI:PPRC6.1 Sym 3P 4075 98 A ' PNL-DP-R('7 tiy�n iP 671390:1 � \i-ec 25(1 Size�ip SizC 2$0 - Si[e:cf1 Si'ec 2ip Sii�25f1 X/FL Pt�r 1'71 � . � :(11t V X/R P L,52 � N/PH I p/PH I � N/Pfl 1 �� #/Pf I I � #/PH I � a/Ptl I Sym SI G 7fi20.77 A . T(7 PNI-PPRCR.4 TO PM:PPR('7.4 'I'O PNL-PPR('4C1 'f0 PNI:PPR('4Ii I TO PM,-PPRC7.1 Sym iP R'i9T�l l,1 S} SI.G SM7.SC�A len�ih 160.0 Fl � Lenglh 17U.17 fi I,cn@Ih IMI.O ft I rn@Ih I?O.0(i Leng�Ifi0.0(i Lengih 1411.D fi � X/R SLG i.i�)IW S�ce 2?0 Siee 250 Si�c 250 Siic Z50 Sice 2?0 3UR Pn.1 F30 X/R SLG 1.2f15g PM.PPR('61 ' PNI:PPRC?.a PM:PPIt('S.1 PNL-PPR('4AI PNI:PPR('S.2 PM,-PPRC6.1 N/PIf 1 � #1PF1 I � N1PII I i�/PH 1 N/PH I ti��n SLG 69i'),I)2 A 208 V 2UR V 20X V 208 V 20R V '_Il%V TO PNI:PPRCF.i Lenglh 15p.0(i I.en�ih f517.0 fl � I.�ng�h)0.11 ti � I,eneth l6(1.0(t I.ength 15p.0 fl �SI C I.�7�5 Sym iP 48�L00 A SNn 3P 56M I9:A Srn 3P 5125(17 A SS'm tp 5?qL70 A Sym 3P 4N2 L(Nl A Srn 3P 5125.p7 A Size 2i0 � NM:PPRCNA � VM:PPRCJ.4 � PM.-PPRCSC I � PM.PPRC4�I � PM:PPRC7.1 X/R Poz 196 X/li Pos I.l5 X/R Prn 19l X/R Pim I AO X/R Pos I.76 X/IZ Pae L iJ � q/PH I 208 V 208 V 208 V 20R V 20N V � TO PNI:PPRCB-I Sym SLG i766.ri4 A Sym$LG 7650.84 A Sym SLG 402'_34 A Sym SLG 416i 46 A Sym SLG�76C.84 A SNn SLG JU2'_34 A � Lcngtli 170.D tY S}+n 3P 4750.46 A SNn iP 47i0A6,\ Sym 31'S7iR]7 A Sym 7P 4615 7I A SNn 1P 475UA6 A Sizc 250 � XB SLG 1.12Sfi X/R SLG L 1 I Nfi X/R SLG L 1410 X/R SLG I.1497 X/12 SLG L 12i6 X/R SLG 1.1410 . X/R Pnc 135 X/R Pos 1.35 X/{i Pos Ld5 X/R Pw 132 X/R P�n 1.35 � p/PH 1 PNL-PPRCfi i Sym SLG 370794 A Sym SLG 370794 A SNn SLG 4ifi339 A SNn SLG 3595,4(A Sym SI.G?70794 A LengiL 1511.0 f� � Zpg p X/It SLG�.1220 X/R SLG I J 220 X/R SLG 1.I717 X/R$LG 1.1 I5; X/R SLG L 1220 tinn1P46tlI'J2A � PNL-PPR('tl.l )C/R Ru 131 2�N V �. S�n SI.G i6511.%4 A S}m 3P 47i0.hC� � X/R SLG 1.1 IH6 X/R P�x 1.35 � tiym SLG 77117!l+{A ' X/F2�LG 1.12'll Revision Bv ADDroved Date EDrnwn By:Delinuh Martinez Date:Ol/28/OB /06 % � � Pro ject: Four Seasons Hotel Sheet E-4.1i ' ' V41�. C0. Checked By, Robert E.Fuhr,PE Date:01/28/07 ���m�j Impednnce&Branch Oneline Diagram Job #050875 ;Phone 243-b39•$S35�Fax 253•639-8685�1fi122 SE 266th St,Lowr�ton,WA 98042; _ _ ___ _____ __ __ - - _ ��.NOfI:D:CONTINUFD FROM SHF;ET F.4.A '� 'JOTE E:CONTINUGU FROM 1HGI�P E4.A 'f0 PNL-f?DPI 'CO PNL-EDP2 Size?50 � Size 250 . #/PH 2 r p�pH 2 � L.eng�h 55,p ft ', I.ength 20.0 fl I 67-IAPI MA[N � � ?8-PNL EUP2 MAIN . ��. .. PNL-GDP2 PNL-IiUP I �� � � � 208 V ' ?OS V � 3y 7'O PM:EPEP.SB "f0 PNI.-EUiMSPB "CO PNI:GDIMDR2 "CO PNLrEUlMI3RI TO PNi,tiUI.ML06 TO PNL-IIPEI'2f3 Sym 3P 4942.63 A � 70-TO ERHPSA TO PNI,BPEP4A TO PNI.-tiDlMURI 68"1'O kiP-IiP2A Sym 3P 9142.09 A � Size i Sizc 4 Size 4 Size 4 Sizc 350 X/R Pos 1 49 Size 2-0 � Size 4 X/R Pus 1.41 - - #/1'H I #/1'H I #/PH l ��. #/F'H I '�. #/!'H I Sym SLG 5?55.07 A '.- � #/PH I � #/I'H I � SNn SLG S 19670 A �, Length 35.0 fl � I.cng�h 160.0 6 Ixng�h 120.0 fl '. I.eng�h l IQO fi ��� I.englh 20.D fl X/R SLG 1.4559 -f0 PNL-EPFiNSA ' Lcngth 220.0 Ft � IAn@th I 10.0 fl TO PNL-tiPF.P2A . X/R SLG 1.3944 TO PN[,BPEPil3 �� ''� ��., - Size I ��. _ Size 3fH7 � SizeS(� PNL-EUIMSPH � PNI,-IiDTMDR2 PNL-GDIMI3R1 � PNI:f[U[MLOH � PNL-IiPF:P2R . 74-TOERGP3C � #/I'H I �� PNI�FPEP4A PNI.GD[MDRI #/I'H l 72=I'OI:UIM-SPA #/PH 1 208 V 20R V 208 V 208 V � 20A V I.�ngth I50.0(t � 208 V 20A V I-eng�h 55,0 ft Ixngth ISO.0 fl SNn iP 3812.fi5 A Sym 3P I71R.?5 A Sym 3P 20RO.R1 A Sym?V 219934 A �I. Sym iP 4697.R0 A ��. Syin iP 2591.48 A Snn 7P 2222J0 A X/R Pos L00 X/R Pux 0.47 X/R Pus 0.54 X(R Pus 056 �. X/R Pos 1.4ft TO PNL-FSP[iP3C '. X/R Pos 0.88 X/R Pos 0.54 "f0 PNI.-P.DIMtiPA Sym SLG?824.85 A SNn SLG I6133(A SNn SLG 1970.89 A Sym SL(i 20ri5 5y A � S,yin SL(7 48A4J8 A - Size 250 PNL-F,PFiPSA Sym SI,G?2?9J9 A Sym SLG 207029 A PNL-EPEP2A - Size 4 X/R SLG 0.9R31 X/R SI.G�521 J X/R SLG 0.5792 X/R SLG 0.59R4 . X!R SLG 1.42?7 � #/PH 1 �� �pg V X/R SLG 0.901fi X/R SLG 0.5909 � ��8 V #/PH I PNI.-C;PHP513 � � ?OA V � � Iznglh 220.0 li � Sym 3P:580.9R A Syin 7P 4435.21 A I.ength 245.0 fl Sym 3P i6713d A 'f0 PNL-I:PFP3[3 X/R Pus 094 X/R Pos 139 X/{i Pus 1.53 Size 6 Syro SLG 2745.77 A Sym SLG 425924 A PNL-ED[MSPA Sym SLG i51 L21 A #/PH t PNL-EPEP3C X/R SLG 07771 X1R SLG I?li? � 20R V X/R SLG L3464 . � Leng�h 10.0 fi � ?pg p � Sym 3P 1255.97 A Sym 3P 2959.26 A 69-GP-LIT2A LRGST RRK . X/R Pos O.IR X/R Pos I34 7l-EREPSA LRGS7'I3RK Syin tiLG I 156.1'_A 40.T0 PNL-IiPFiP7i3 PNL-IiP}iP3B Sym SLG 2670.90 A � � � X/R SLG(1.4506 208 V X/R SLG 1.1570 - - TU PNI�IiP�P3A � � Sym lP 41?46R A .. tiize? � 73-GDIM-SP.4 I.RGtiT I3RK � X/R Pos I.I? . 7'O PNI.-IiPIiP7A #/PH I . TO PNL-EPEP7B Sym SLG 4199.fi9 A � 75-I3P-@PiC I.RGST IiRK Size fi l.cngih 10.011 Size6 X/RSLG L097) � it/PH I #/PN 1 Ixngth 10.0 li � PNL-IiPIiP3A I.eng�h IO.O lt TO PNI�GPI:PSC 208 V Size l Sym iP 41?L65 A PNL-GPEP7N �� #/1'H I � PNI,IiPEP7A X/R Pos 1:11 . 208 V . l,cngth 10.0 fl ?08 V S�mi SLG i921.R2 A $ym iP i324.02 p tiym 3P 2358.92 A X/R SLG L U99 X/R Pos l2? � PNGGPEPSC X/R Pos O.fi7 � Sym SLG 7140.57 A ' 208 V Sy�n SLG 2147J5 A X/R SI.G I.I 16g '� Sym 3P 2R I6.44 A X/R SLG OJ l23 . �. X/R Pos I.IS �� � Sym SLG 257 L59 A � X/R SLG I.OR79 _ 7'O PNL-IiPF.P7C Site fi #/PH I � I.englh 60.0 It � ' PNL-EPFP7C 208 V �� Sym 3P 1771.85 A � � X/R Pos Q63 Sym SLC Ifi00.0i A xrn st.c n.FSa i i Revision Bv Aoproved Onte EDrawn By:Delinah Martinez Date:Ol/28/OS /06 ; � � Pro ject: Four Seasons Hotel Sheet E-4.� , � V41�. C0. Checked By: Robert E.Fuhr,PE Date:01/28/07 •eam��i Impedance&Brnnch Oneline Dingram Job #050875 Phone 253-639•8535�Fax 253�639-8684_1fi122 SE 266th St,fovington,WA 9894�! - ._____ _ ___------------_ _ � -- -_ - __ --- -- _ _ _ _ _ _ __ _ _ _ - __---___----- - -- --_ NOTE F:CONT[NUED FROM SHEET E4.B ' TO PNL-EDP3 Size 500 #/PH 4 Length 35A ft PNL-EDP3 480 V t3-TO EMCC-EIA TO XFMR-ETR4P ' TO XFMR-ETR3P TO PNL-EDPED2B TO EMCC-E9A TO PNLEDPECD9A TO PNL-EDPED9B Sym 3P 3149�.14 A ' X/R Pos 4.18 Size 3-0 Size 400 Size 4 Size 1 Size 4 Size 4 S m SLG 28078.29 A #/PH I TO PNL-EDPELV2 #/PH l #/PH i #/PH 1 #/PH 1 #/PH I Y TO EMCC-EIA L.ength 65.0 ft Size 300 Len�th 60.0 ft C.eneth 250.0 ft Length 220A ft Length 250A fl L.en�th 460A ft X/R SLG 3.0600 Size 500 , #/PH 2 ' #/PH 2 XFMR-ETR4P Length 250.0 ft XFMR-ETR3P PNLEDPED2B � EMCGE9A PNLEDPECD9A � PNL-EDPED9B 6-TO PNL EDPELV 1 BKR Length 150.0 ft � qgp y 480 V 480 V 480 V 480 V 480 V Sym 3P 19882.29 A Sym 3P 22669.06 A Sym 3P 3334.65 A , Sym 3P 6505.45 A Sym 3P 3334.65 A Sym 3P t855.37 A ' EMCC-E 1 A X/R Pos I.66 X/R Pos 2.77 X/R Pos 030 X/R Pos 0.58 X/R Pos 030 X/R Pos 0.25 TO PNL-EDPELV I 480 V � Sym SLG 16186.94 A Sym SLG 19063.61 A Sym SLG 3000.80 A Sym SLG 5458.44 A Sym SLG 3000.80 A Sym SLG 1681.R9 A - Size 300 Sym 3P 21943.89 A X/R SLG 1.4863 X/R SLG 2.0339 X/R SL6 0.3928 X/R SLG 0.6630 X/R SLG 03928 X/R SLG 03487 #/PH 2 ' X/R Pos 2.95 ' , L.ength SOA ft Sym SLG 18335.09 A P XFMR-ETR4 P XFMR-ETR3 X!R SLG 2.0307 75A kVA I 12.5 kVA S Z%a 4.3000�7c S Z�7c 4.8000% MTR-EE9A PNL-EDPELV I XFMR-ETR4S ' XFMR-ETR3S 480 V � 208 V � 2�g V 7-ELEV-RS I TO DISCELEVRS2 TO DISCELEVRP2 TO DISCELEVRS3 Sym 3P 27135.�6 A Sym 3P 4386.53 A Sym 3P 5805.92 A Size 2 Size 4 Size 2 X/R Pos 3.18 X/R Pos L l4 X/R Pos L52 #/PH 1 #/PH I #/PH 1 Sym SLG 23226.88 A MTR-EEIA � TO D[SCELEVRSI X/R SLG 2.3673 Sym SLG 45�8.52 A Sym SLG 6022.35 A g�Ze z C.ength 25A ft Length 25A ft Length 25.0 ft X/R SLG I.1286 X/R SLG L4913 #/PH 1 , Length 25.0 ft DISCELEVR52 DISCELEVRPZ DISCELEVRS3 TO PNL-EDP6 TO DISGKfTCH � 480 V � 480 V � 480 V 10-TO ELEV-RP I Size 350 Size 250 ' DISCELEVRSI Sym 3P 2020691 A Sym 3P U818.44 A Sym 3P 20206.91 A #/PH I #/PH Z 480 V X/R Pos 1.41 X/R Pos I.OS X/R Pos 1.91 Length 50A ft Lenoth I50.0 ft Sym 3P 20206.91 A Sym SLG 16737.24 A Sym SLG 14894.93 A Sym SLG 1673724 A TO DISCELEVRP I X/R Pos 1.41 X/R SLG 13104 X/R SLG 1.0465 X/R SLG 1.310� Size 4 PNL-EDPb DISGKITCH Sym SLG 1673724 A #/PH I 208 V � 208 V : X/R SLG 13104 Length 25.0 ft TO UPS2(N) TO UPSI(N) TO UPSIB) Sym 3P 3931.41 A Sym 3P 4583.27 A M7R-ELEVR52 MTR-ELEVRP2 M7R-ELEVRS3 Size 3-0 Size 3 Size 3 X/R Pos I.I6 X/R Pos 137 DISCELEVRPI ' #/PH I #/PH 1 #/PH 1 Sym SLG 3887.04 A Sym SLG 4379.2g A MTR-ELEVRS 1 � 480 V Length 360.0 ft Len�th 90.0 ft L.ength 50.0 ft X/R SLG 1.1 192 X/R SLG 1.3002 Sym 3P 17818.4�A � UPS2(N) ' UP51(N) OPSI(B) TO UP52(BI � X1R Pos I.OS � 208 V � 208 V 208 V Size 3-0 TO PNL-EPEPK Sym SLG 14894.93 A Sym 3P I875.22 A Sym 3P 2882.48 A Sym 3P 2882.�8 A #/PH I Size 250 X/R SLG 1.0465 X/R Pos 0.86 , X/R Pos 0.80 X/R Pos 0.80 Length 360A ft #/PH 2 Sym SLG 1594.61 A Sym SLG 2739.1 1 A Sym SLG 2739.I I A Length 20.0 ft X/R SLG O.RRDO X/R SLG 0.8089 X/R SLG O.R089 UPSZ�B� MTR-ELEVRPI TO PNL-PP-UPS2 TO PNL-PP-UPS I 208 V PNL-EPEPK Size 3-0 Size 3 Sym 3P 1875Z2 A � 208 V #/PH I #/PH I X/R Pos 0.86 Sym 3P 4457.53 A Len�th�OA ft Length 50.0 ft Sym SLG Ig94.61 A X/Et Pos 136 � X/R SLG 0.8800 Sym SLG 4224.62 A � � � X/R SLG I.2840 PNL-PP-UPS2 PNL-PRUPSI ' � 208 V � 208 V PNL-EDPELV2 Sym 3P 177L24 A Sym 3P 224L83 A 480 V X/R Pos 0.85 X/R Pos 0.6� TO DISCELEVVSI TO DISCELEVHSI TO DISCELEVCP2 TO DISCELEVCPI TO DISCELEVHPI Sym 3P 17355.29 A Sym SLG 1496.07 A Sym SLG 2091.89 A Size 4 Size 2 Size 4 Size 4 Size 4 X/R Pos 2.09 X/R SLG 0.8709 X/R SLG 0.6747 ? #/PH 1 ' #/PH 1 #/PH 1 #/PH 1 : #/PH 1 Sym SI.G t3547.86 A I.ength 25A ft C.ength 25.0 ft Length 25.0 ft Length 25A ft Length 25.0 ft ' X/R SLG 1.6100 DISCELEWSI DISCELEVHSI DISCELEVCP2 DISCEI.EVCPI DISCELEVHPI TODISCELEVHS2 � 480 V � 480 V 480 V 480 V 480 V Size 2 Sym 3P 12856.61 A Sym 3P 14056.55 A Sym 3P 12856.61 A ' Sym 3P 128g6.61 A Sym 3P 12856.61 A ' #/PH I X/R Pos I.10 X/R Pos 135 X/R Pos I.10 X/R Pos L l0 X/R Pos I.10 ', Length 25A ft Sym SLG 10093.35 A Sym SLG 1092438 A Sym SLG 10093.35 A Sym SLG 10093.39 A Sym SLG 10093.35 A X/R SLG 1.0466 X/R SLG 1.21I0 X/R SLG 1.0466 X/R SLG 1.0466 , X/R SLG 1.0466 DISCELEVHS2 480 V . - Sym 3P 14056.55 A X/R Pos 1.35 MTR-ELEVVSI MTR-ELEVHSI MTR-ELEVCP2 MTR-ELEVCPI M7R-ELEVHPI SymSLG 1092�38A X/R SLG 12110 MTR-ELEVHS2 i i Revision Bv Aoproved Dute EDrawnBy:DelinahMartinez Date:01/28/08 /06 i � � Project� Four Sensons Hotel Sheet E-4.0 i VQI�. C�. ' � , Checked By: Robert E.Fuhr,PE Date:01/28/07 ����f7l Impednnce&Brnnch Oneline Diagrnm Job # 050875 �Phane 2§3-639•8535�Fax�53-639-9484�1b122 SE_26bth 5t,_Cohnc�WA 98D42 __ _ _ -_ ___ - _ __ _ _ __ _ . _ _ __ _ _ �--- _ __ __ _ __ __ _ __- ------- �. �NOTE G:CONTWUBU fROM SHEET FA,D �� '. - "fOSWBD-DSOHZ � - Size6(NI #/PH 5 I.engih(�.0 li 43-DSBHB MAIN SWI3D-DSRHB , -- - . , . . . , 2118V . � . � � Sym3PIft022.52A 22-USRHA T1E 13REAKER "7'O PNL-PP-PRC - TO PNL-PP P6C 7'O PNt:PP-P4C TO PNI:Dlbt HR2 i'O DISGSH-PW2 TO PNL-UIM-SPft �. i'O PNL-PP-PSC "f0 PNL-PP-P7C - TO PNI:PP-PSPI3 �� wR Pos 396 ��� SiuMAI Size4(H) Si�z4(AI - Size3lN1 - Sire2511 Size3(Al SizeMAl - Si�.�M10 - Size31M1 '� SymSLG19757.92A ��. � ': #/PH I � #/PH I #/PH 1 N/PH 1 �. #/1'H I ��" #/PH 1 . 7ifl'H I � #/PH I � #/1'H I , X/R SLCi 3.5157 �� SWBU-USBH"ITE �� Length 755.0 tt I.en��h 315.0 R � Length ilN1D ti ���, Lengih 1R(I.o ft Lrngth 3(�fLO fl ��, I,enoth 50.(1 f1 Leng�h 3I5.0 Ft �. Length 745(1 R � Len�th S(1.0 fl . 23=f0 PNL PP-P3(. �� Size 1MN)A PNLPP-PRC � PNL-PP-P6C � PNI:PP-P4C PNI.DIM-RR2 � DISGSH-PW2 PNL-UIM-SPH PNL-PP-PSC � PNI:PP-P7C � PNL-PP-PSPR � . #/PH I � :U8 V ?(18 V 208 V 208 V 208 V � 2U6 V 208 V � 2UR V � 208 V TO PNL-PP-P3C Len�th(.0 fi Sym 3P 433427 A Sym 3P 453U,59 A Sym 3P 492U.40 A Sym 3P fi51 i.87 A Sym 3P 3694,gy A Sym 3P I?2?7.lW A Sym iP 47d5.46 A Sym 3P N1311.27 A Sym 3P 12277.N4 A - Size 2S0 . X/R Pos 1.69 X/R Pos 1.7I X/R Pi�s 1.74 X/R Pos 1.611 X/R pos I.ly X/R Pi�x?.;2 X/R Pos 1.77 X/R pos 1.711 X/R Pos?.72 �. #/1'H 2 � � Sym SLG 3-040.07 A Sym SLG 361U.6(1 A Sym SLG?953.49 A Sym SLG 5355.ri?A Sym SLG 2862J0 A Sym SLG l 150LCvl A Sym SI.G 7798.90 A Sym SLC 352326 A Sym SLG I ISOL64 A �. I.ength 290(1 ft �� �� X/R SL(i L2N19 X/R SLG L2922 X/R SLG I?132 X/R SLG l.iiy5 X/R SLG L0728 X/R SL(i I.R5111 X/R SLG I.iOi7 X/R SLG 1.2869 X/R SLG I.8510 PNL-PP-P3C . _.__-___..- ___.._ __.: � ?IIR V . �� NOTG A:CONTlNUED ON SHEET Ii4A '� Sym iN 7IU339 A . . . ._._._.__._-_-.---��---�- - -' . � X/R Pns 1.4A � � T'O XFMR-TR2P Sym SL(i Sy4637 A � � Size(+O(1 X1R S7.G 12667 � � #1PH 3 � ', ���, Lene�h 250.0 fl . .. XPMR-1'R2P . ��'�.. � 480 V �' .'' Sym 3I'229Y2.1?A �, �� X/R Pns i.42 . �. , Sym SLG 21W1U.94 A � � ?UR SI.G 2.i772 ' ....,_ _ XFMIt-"PR2 _ � , SIXI.0 kVA Z7�4A(NX1 k � ' XPMR-TR2S �� 208 V . Sym lP 198117.Itl1 A X/R P�n 4.4d ��, Sym SLG 22614.?I A � X/R SI.G 4.61419 TO SWBU-USf3HA � Stze blNl ' #/PH 5 � �� Leneth 71LU R 21-0Sf3HA MAIN � SWB0.DSI3HA � 311N V TO PNI.-PP-PNH TO PNI.-PP-PfiB - 'CO PNI:PP-P3B - l�0 PNI:PP-Plfl - TO PNI.-UP-USB -- TO PNI:UIM-[iRl TO DISC-SH-PWR 'f0 PNL-UIM-UR2 - "f0 PNI.PP-PIlI.B ._ TO PNL-PP-P213 -� "1'U PNI�PRP1R Sym 7P 17fifi5.72 A � Size 31N1 Si�c 3(MI Size 5(NI - Si2e 25U � Size 2511 Size 31N1 Site 250 Size I - Size 7511 Size 1lNl - Size 31X1 X/R Pos�95 � #/PH 1 � #/PH I � #/I'H 2 � #/PH I ' N/PH 2 � #/!'H I -� a/I'H I � #/PH i � #/PH I � #(PH I � #A'H I Sym SL(i 19274.711 A . I,eng�h 235.0 IY Length?IN�.0 ft Len�th IRS 11 ft Length 95.0 f� , Leng�h 190.0 fi . Leneth I85.fi li Length 435.0 fl Luigih 2?S.n ti I,eng�h 70.n ft Lenglh Sllp h Leng�h 195.0 fi � X/R SLG 3.424-M1 PNI.-PP-PBB � NNI=PN-PfiB PNI:PRP3B PNLPP-PIH PM:UP-DSI3 PNI:DIM-BRI � UISGSH-PWI PNI:DIM-UR2 PNL-PPPIXII.Ii PNL-PP-P28 � PNI:PP-P4B TO PNLPP-P76 2118 V 208 V 211H V 2(lfl V ?OS V 208 V 20R V 20S V 208 V 211R V 211R V - Sira 7$0 . Sym 3P 5iy4b9 A Sym 3P 6033.42 A Sym 3P IUI24.99 A Sym JP d96R32 A Sym 3P R96N.72 A Sym 3P 6355.25 A Sym 11'31 I?.72 A Sym?P 2829.fi9 A Sym?P IOy07.21 A Sym 3P 12073.:1 A Sym 3P 6137.U6 A k/PH I X/R Pix L51 X/R Pos 1.57 X/R Pcx 2.57 X/R Pi�s L6/ X/R Pos L69 X/R Pac Lfi(1 X/R Pos I.16 X/R Pus 0.51 X/R Pos 2.29 X/R Pus 2.73 X/R Pin I SR I,cngth 22$.p li �� Sym SLG 53i4.05 A Sym SLG 491_i.1M A Sym SLG 9269.24 A Sym SLG 782436 A Sym SLG 78243fi A Sym SLG 5210,9N A Sym SLG 2415,2y A Sym SI,G 235U.97 A Sym SI.G 9991.?I A Sym SLG I 17JO.I?A Sym SLG 5(NIR.52 A X/R SLG L256i X/R SLG L2940 X/R SLG I J807 X/R SLG 1.4156 X/R SLG 1.4156 X/R SI.G 1.7I40 X/R SLG L(W9$ X/R SI.G O.S911 X/R SLG 1.7575 X/R SLG I.fi47U X/R SLG 131N14 PNI.-PP-P7B ....____. ... __-_.. -___._.__.. 20R V � .NOTF.H:CONf W UED FROM SHEF.'I'E4.I3 � Sym 3P SRU5.93 A . . X/R Pos I.7U , Sym SLG 4725,70 A �� 7'O PM=DP-IX'2 X/R tiLG 1.3344 SizeCdNl #/1'H 7 � Length 30.11 Ij I �� 57-pNL DP-fX:2 MAIN �� ' PNLDP-IK? . � �. � �. , - � . . 2(IS V . 54-TO DP IK2 TO PNI:PP-P913 - 7�0 PNI.-PP-CfXi -' "PO PNI:PRC.D? -�. TO PNI.-PP-CUIS - 70 PNI.PP-CUI I{, 'f0 PNLPP-CDIII-'. TO PNL-PRCU12-:: �1�0 PNLPP-CU16--. TO PNI.PP-CUS Sym 7P 9SYA.1?A �� � Size 4 Si�e 250 Size 250 Size 2511 Sizc 250 - Siae ZSU Sizu 25U - Sizc 250 ` Size 25U X/R Pi�s 3.1 i ' #/PH 1 #/PH I #/PH I � #/PH I � #/PH l #/1'H 1 #/PH 1 � #/PH 1 � #/1'H I Sym SLG 111636.77 A TO PM:PP-CD2 Leng�h 131LU fl �' Length 2?QO ft Length 125.l1 ft Leneth?49.0 0 �'. Length 210.0 ft Length 21511 fl � Leng�h 21XI.0 fi Lenoth 190.0 fl �, Len�th?U5.0 ft �. X/R SI.G 32324 - Size 250 ' � �' '. ��. #/PH 1 � PNL-PP-PYR ' PNL-PP-CU6 � PNL-PP-CD1 ' PNI:PP-CDIS � PNL-PP-CDI I � PNLPP-CDIO � PNI.PP-CD12 PNL-PP-CD16 � PNI:PRCUS . l'O PNL-PP-CU7 Lenglh 140.011 211R V 2U8 V 20R V 20R V 208 V 2UR V 3118 V 208 V 20R V Size 25U �. Sym?P 248L67 A Sym 3P 4156.97 A Sym 3P 5653,Sft A Sym 3P MN kt.14 A Sym?P 4156.97 A Sym?P 4121.55 A Sym 3P 449).38 A Sym 3P 4fi26.07 A Sym?P A47R.54 A p/pH 1 � PNL-PRCU2 X/R Pix 11.45 ?C/R Vi5 1.47 X/R Pos 1.74 X/R Prn 1.45 X/R Pos L47 X/R PcM L50 X/R Pos 1.57 X/R Pos I.55 X/R Pos 1.52 Leneth I50.0 fl � Z��g y Sym SL(i 2i0799 A Sym SL(i?SbB.OR A Sym SLG$17821 A Sym SI.G 34I516 A Sym SLG 7568.IIN A Sym SI.G 7734.9A A Sym SLG 3917.98 A Sym SI.G 405QUA A Sym SI.G 3855(IS p � Sym 3P 5279.iy A 70R SLG O.SUSi X/R SL(i L2972 X/R SLG IS295 X/R SLG L277R X/R SLG 11972 X/R SL(i I?IR9 X/R SLG I.?172 X/R SLG Libl? X/R SLG I 7i�g - PNL-PP-CD7 ' X/R Pcn 1.69 2IIN V ' Sym SLG 4R6C.91 A Sym?P 5210AU A � X/R SLG 1.4801 X/R Pos L65 �. Sym SLG 4678.85 A � X/R SLG L4515 Revision I Bv ADOroved Date EDrawnBy:DelinahMartinez Date:01/28/OB /06 ; � Projeet: Four Seosons Hotel Sheet E-4,r � V�I�. C�. � i � ��m P�: che�ked ay: Ro��t e.F�hr,Pe �ate:oi�2e�o� . 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XIRSi.O1.JA5fi �u.b x/µR��0.fl6 XIItSL(�119"Ifil %/R.SI.CO.fi�:O . %/RP«�I.al 1'�I.EDINSP� . � � N/1'H 1 PVI.F.PEP?(' vm SI.f.`:J%.XJ A '. vni tiL(�JNJM._:A � �OP V . � JO-Tt)P\'I.f:I'LP16 � LmF�hIO.OH ',� ?OXV X/Itsl.(�O.N�16 '� %/kSLC1.JXOS m1V1=�0.InA � � tiym�P_]M.�i1 � � XRtP...O.J� PVI.LI'I:P1R � A/ItP�v�1.J0 - 'll-f;RFP2�I.NCSTHRK fi�>.LV.tP:AL0.(�STIINK S��m.tiL(�II?�!l:� � T(�P\'I.F,PtY)H _ �ORV . .S�mSI.(�35_��)IA � � %/RSIUOAI:» SIU6 Cvm?P)fii�1.�lA %�H.Sf.G1.2�R1 TI�PVI.EPF:I'-1:1 'fl���\'I.I:PfP�A . )?.F.Dllf\PALR(i.Sl-fi1tK � - xrv��i wkr�,.i_�s � I.cni�hlD.11fi SvmSL(��P�0.41.1 �' ]S-EP-LP�CI.R(iSI'UHK � Sinb :� .S�ir� . �� %/R cLG I._��)� �. xmH 1 � pR'H I P\L-EFLPII3 'fflP\'I:tl'ITiC LmE'iAlO.OP i I_rneihl�GH �OX V '. C��m�P!Wfi."I�n '. M�'ll�l P,�'I.f:fF:P'IA �� I'\L.I:PI:P�A XMP�..I.JI . L.�nfUlll.Oh � _OAt' �� vmtiLG.')JI.IJA � � .(IXV S��m!P!fic0.0�A � X/IiSL(�I._`�IO ' N:\.� tirm!PI_'�0.)IA X�ItP�.��I.J� � EPGPSI �K���..�.]] ti��mSLC�Sl1�).�pA ��. '_OA V $�m SI.0_•069.N5 4 X/It tiLC I.�:E� . ... C)n�?P�s�p�s A �tSLf 0.]�AN ��. � XRtR..1.�0 ��� . 5�'ni SLC 2JOI.)J A ' '�. ;VRSI.01.1]9� �' ru r��.mrrrc. ` xmu�i �.. ' i,r�.m w o a � r��-ercau � zoxv s>�m,r noi.is n wn r�.o.�o � S�mSL(�It�R.fi2 A � %Rt SI.(�0."ln�R Revision Bv AoDroved Date EDrawn By:Delinah Martinez Date:01/28/OB /06 i ! Pro ject� Four Seasons Hotel Sheet E-4,V Vail. CO. � cne�kPd ey: aobe�r e.F�t,�.Pe �ate:oi�zs�o� .��I11�', Impedance&Branch Oneline Diagram Job #050875 !Phone 253�639-8539�Fax 253•639-8b85■161PP SE 266th St,Lovington,WA 98042'; NOTE H:CONTINUED FROM SHEET E4.B ' TO SWBD-DSBH2 - Size 600 ' #/PH 5 Length 60.0 ft 43-DSBHB MAIN SWBD-DSBHB 208 V 22-DSBHA TIE BREAKER . TO PNL-PP-P8C TO PNL-PP-P6C TO PNL-PP-P4C TO PNL-DIM-BR2 TO DISGSH-PW2 : TO PNL-DIM-SPB-° TO PNL-PP-PSC TO PNL-PP-P7C TO PNL-PP-PSPB , Sym 3P 18022.52 A Open X/R Pos 3.96 Size 400 Size 400 Size 400 Size 300 Size 250 Size 300 Size 400 Size 400 Size 300 #/PH 1 #/PH 1 #/PH 1 #/PH 1 #/PH 1 ' #/PH 1 #/PH 1 #/PH 1 #/PH 1 �Sym SLG 19757.92 A SWBD-DSBH TIE Length 355.0 ft ', Length 335.0 ft Length 300A ft Length 180A ft Length 360.0 ft Length SOA ft Length 315.0 ft , Length 345.0 ft Length 50.0 ft X/R SLG 3.5157 Size 1600A PNL-PP-P8C ' PNL-PP-P6C PNL-PP-P4C PNL-DIM-BR2 DISGSH-PW2 PNL-DIM-SPB PNL-PP-PSC PNL-PP-P7C PNL-PP-PSPB 23-TO PNL PP-P3C #/PH 1 � 208 V 208 V 208 V 208 V 208 V 208 V 208 V 208 V 208 V Length 6A ft Sym 3P 4334.27 A Sym 3P 4530.59 A Sym 3P 4920.40 A Sym 3P 6515.83 A Sym 3P 3654.89 A Sym 3P 12237.84 A Sym 3P 4745.46 A Sym 3P 4430.27 A Sym 3P 12237.84 A TO PNL-PP-P3C X/R Pos 1.69 X/R Pos 1.71 X/R Pos 1.74 X/R Pos 1.60 X/R Pos 1.19 X/R Pos 2.32 X/R Pos 1.73 X/R Pos 1.70 X/R Pos 2.32 Size 250 - Sym SLG 3440.03 A Sym SLG 3610.60 A Sym SLG 3953.49 A Sym SLG 5355.83 A Sym SLG 2862.70 A Sym SLG I 1501.64 A Sym SLG 3798.90 A Sym SLG 3523.26 A Sym SLG 11501.64 A #/PH 2 NOTE J:CONTINUED ON SHEET E4.? X/R SLG 1.2819 X/R SLG 1.2922 X/R SLG 1.3132 X/R SLG 1.3195 X/R SLG 1.0728 X/R SLG 1.8510 X/R SLG 1.3037 X/R SLG 1.2869 X/R SLG 1.8510 Length 290.0 ft _ _ _ __ _ . __ _ PNL-PP-P3C 208 V -- - __ -- __ _ - - NOTE L•CONTINUED FROM SHEET E4.B ym � _ _ _ _ _ _ X/R Pos 1.48 Sym SLG 5946.37 A TO PNL-DP-DC2 X/R SLG 1.2667 Size 600 #/PH 3 Len�th 30.0 ft 53-PNL DP-DC2 MAIN i PNL-DP-DC2 208 V , Sym 3P 9594.13 A TO PNL-PP-P9B TO PNL-PP-CD6 TO PNL-PP-CD3 TO PNL-PP-CD15 TO PNL-PP-CD11 TO PNL-PP-CD10 TO PNL-PP-CD12 TO PNL-PP-CD16 TO PNL-PP-CDS TO PNL-PP-CD7 X/R Pos 3.13 3ize 4 Size 250 Size 250 Size 250 Size 250 - Size 250 Size 250 Size 250 Size 250 Size 250 Sym SLG 10636.77 A ' #/PH 1 #/PH 1 #/PH 1 #/PH 1 #/PH I #/PH 1 #/PH I #/PH 1 #/PH 1 #/PH 1 X/R SLG 3.2324 Length 130A ft Length 230.0 ft Length 125A ft Length 245.0 ft Len�th 230.0 Ft Length 215.0 ft Length 200.0 ft Length 190.0 ft Length 205A ft Length 150.0 ft ' S4-TO DP-DC2 ' � PNL-PP-P9B � PNL-PP-CD6 � PNL-PP-CD3 � PNL-PP-CD15 � PNL-PP-CDII � PNL-PP-CD10 � PNL-PP-CD12 � PNL-PP-CD16 � PNL-PP-CDS � PNL-PP-CD7 208 V 208 V 208 V 208 V 208 V 208 V 208 V 208 V 208 V 208 V TO PNL-PP-CD2 ' Sym 3P 2481.67 A Sym 3P 4156.93 A Sym 3P 5653.58 A Sym 3P 4004.14 A Sym 3P 4156.93 A Sym 3P 4321.55 A Sym 3P 4499.38 A Sym 3P 4626.07 A Sym 3P 4438.54 A Sym 3P 52(0.40 A Size 250 X/R Pos 0.45 X/R Pos L47 X/R Pos 1.74 X/R Pos 1.45 X/R Pos 1.47 X/R Pos 1.50 X/R Pos 1.53 X/R Pos 1.55 X/R Pos I.S2 X/R Pos 1.65 #/PH 1 Sym SLG 2307.99 A Sym SLG 3568.08 A Sym SLG 5178.21 A Sym SLG 3415.26 A Sym SLG 3568.08 A Sym SLG 3734.98 A Sym SLG 3917.98 A Sym SLG 4050.08 A Sym SLG 3855.05 A Sym SLG 4678.85 A Length 140.0 ft X/R SLG 0.5053 X/R SLG 1.2972 X/R SLG 1.5295 X/R SLG L2778 X/R SLG 1.2972 X/R SLG 1.3189 X/R SLG 1.3432 X/R SLG 1.3612 X/R SLG 1.3348 X/R SLG 1.4515 ' PNL-PP-CD2 208 V Sym 3P 5379.39 A X/R Pos 1.69 Sym SLG 486691 A X/R SLG 1.4801 Revision Bv ADDroved Date EDrawn By:Delinah Martinez Date:Ol/28/OS /06 � Pro ject: Four Seasons Hotel 5 heet E-4.�1 VQI�. C�. Checked By: Robert E.Fuhr,PE Date:01/28/07 � r�Om r,% Impednnce&Brnnch Oneline Diagrnm Job # 050875 , !Phane 253-639•8535�fax 253•639-8b8��16122 SE 266th St,Lovir�ton,WA 98042 _ _ _ __ � (iHNfiRATOR � i � GGN W�fHSTAND � �� axa v , SymiPRS`/I.NIA .. X/R Pns 1.78 � I S��n SL(i 0.01 A ' X/R SLG LU(N)0 TO PNL-GMSR � - Si[e SINI x/PH 4 � ' Length 170.0 it � 56-GEN RKR �� � ,l'WRD-I:MSI3 �� � axo v svm 3r xaFS.a�n zre r��,s.» sym si.c u.oi n wa si.c i.000n . 5lt-fp,1'fS-1 TO A'fS-1(E) Sizc 4(10 #/PH 3 ' Lengih 45.0 fl � .1'fC-I sxo v s�ar xaza.v�n wR v�,s�.�i s�s�.c aoi n X/R SLG I.011f)0 1'O PNI,-EUPi Si'cC 51)O tl/PH 1 L�nglh is.�(j PNL-f.UP3 axo v � s�n sN Kaoi.i�n fi-T()PM_�:DPL:I.V 1 BKR 'I�O XPMR-k��I�R3P T()PNL-F:DPtU1R 'I'O PM LDPCiCIl1A fU[:M('C-I:'/�\ I(1 PNC-F:UPI�.I)2li X/R Yns R.611 Sizc40(1 Sizc 4 SVtc4 Cizc 1 Sv.c 4 1 O XI�MR-fTRJP SYm SI.G(I,fll.A " � #/PH 1 ' #/1'H I � #fl'H I � %(PH 1 � #/1'H I . TO PNL-IiUPGI.V2 - Si-.•i-p X/R$LG I 11000 TO PNL_kiDPELV t � Leng�h 6Q0 Ct Length 4fi0.0 fi Lengih 250.01'� Lengih 220 n I� . Leng�i 2?0.0❑ Slze 300 � #/F'H I Sii.cl011 . ... - p/PH2 I.cnethfi5.(IR � Il-('C)I:M('C�-I�:IA . p�pH� � Length 25(1.11 R � X�MR-F"CR3P PNI.-IiUPGD)fi PNCFUPFCU9A IiMCGIiIA PNL-P:DPF.U2Ii XFMR-I:�fR4P Length 5Q0 fl � qg��V � 4ri0 V � 4N0 V � d80 V � 48U V � 480 V � S}�n iP 76i6.Y)1 Sym iP 1747.119 A Sym 7P 2974.6R A . Sym 3P 4677.G1� SNn iP?974.fiR A . Sym?P 7411.77:1 'fOI:MCC-f:ir\ � � X/R Pus 6.1)1 X/R Po�D.YI X/R P����1159 ��. X/R I'nv 1.1�l X/R P<,.(1.59 � X/R Pitc 4.07 Si�ce 51117 � PNI.I�.f)Pk�:LV I Sym CL(i O.U!A tiym SI.Ci I1.01 A Syin SLG(I.UI.� ti}�n SL,(i U.01 A Sym SI.G f1.01 A S��n}L(i I).11 l.A ' q�pH? � � 480 V wR SI,G I.(1(1(I� X/R SI.G I.00011 ?C/N Sl.Ci I.I11H711 . X/R SI.(i I,0000 X/R SLG I.I)00(1 X/R SLCi 1.0111111 � Lenglh 151).11 f1 � 7-F.L13V-RSI TO D[SCGLIiVRS2 TO UISCIiLEVRP2 �. 'f0 UISCGLIiVR53 Sy�n 3P ri155.47 A � Siac2 - Sizcl Sizc2 X/RPos732 .. . XPMR-GCR7 . ' . .. XI�MR�GPR4 � GMCGfIA ' � k/PH I k/PH 1 � 7t/PH I Syio SLG(101 A - I 12.5 kVA � 75.p kVA � 4%0 V . TO UISCELf;VRS l . Length 2?D H LengJi 25.0 ti �. LengUi 25D ti 30R SLG I A(H10 � - 7/�4.8000%. MTR-C:L99A � /�r 4.31100%. � Sym 3P 76ri L55:\ tiixc 2 � IO.TO LI LV-RPI PNL-I:UP6.I.V2 X/R Por 6.45 � . N/PH 1 DISCF:L[VRti2 UISCELEVRI'2 � UISCGLEVR53 ' XCMR-CGTRiS 5R0 V � XPMR-Ii1Rd5 . Spn S[G0.01 A � �,eng�h25pfl �� qgpV 4%OV 4ROV TOI)ISCI.I.rVRPI 20KV TODISCELF:VVSI TUDISCELF:VH51 TUI)ISCHI.�VCP^_ TOI)ISCFLF.VCPI - '1'UDISCI:LGVHPI SymZP73(15?J,� ���Hy , %�RSLGI.OUflll � . . Sym iP 76?2.i�A tiym iP 7460.6fi;\ �.. Sym iP 7652.i7 A ' Si�.e 4 Sym iP 4MJ'I.40 A ' Cizu 4 Siz��2 - tiice 4 Size 5 Size 4 � X/R Pos 4.'/l Sym 3P 7%i6.'l I A � DISCF.LF1VRtil X/R Pn.i]9 X/R Prn 292 , X/R Pns 7.71 . q/pH 1 7UR Pos 1 R7 � #/PH 1 � H/NH I #/PH 1 M/F'H I ' #/PH 1 tiym til G 0.01:1 X/R Pns 1 77 � 480 V . Sym SLG 0.01 A SNn SI G 0.01 A �. Sym 5f G 0 01 A � Length^_5.0 ft � Spn SLG 526J OR A LcngW 25.0❑ Lengih 25A ft Length 25.0 fi �. I,�ngih 25.0 li Lenytli 2S0 Ct X/R SLG 19fN10 � S}+n Sf G 412127 A Sym iP 7fi52 37 A �. wR SLG 1.(N100 �� X/R SI.G 1.000f1 , X/R SI.G 1 f10f1(1 ' I)ISCELBVRPI �. wR SLG 1.7154 ��. � ' X/R SLG I2449 1�0 UISCI:Lf:VNS2 MTR-f:I;IA ' X/RPOSt.79 � qRpV UISCI:IJiVVSI I�ISC'F.I.L:VHtiI L>ISCELI�VCP? UISCtL1iVC'.f'I UISCF:LFVHPI - Sizc? Sym SLG 0.01 A Sym 7P 7460.6fi A . TO DISGKI'PCH 5R0 V 480 V 4N0 V 4%0 V 480 V #/PH I TO PNL-EUP6 X/R SLG I D000 . . . � � ' X/R Pos 2 9? - � � Size 250 . Sym 3P 6fiR4.66 A Sym 3P fiN58.09:A S�n 3P fi684.fifi A Spn 3P 66R4b6 A S}�n 3P 66R4b6 A �.enpW 2?.fl fi Size 350 " � � Sym SLG 0.01 A � gmp 2 X/R Pos 259 XlR Pns?.17 X/R Piu 259 �. X/R Pns?.Sy X/R Pos 2S9 � k/PH I X/R SLG I.0000 Len�h I5�).O li � Sym SLG 0.171 A � S SLG 0.��A S SLG 0.01 A '� S SI C 0.111 A � S SI.60.01.4 ' � I.cn th 50_p f� ' M1t'fR-GI.GVRS? M'CR-GLF:VRI'2 M�fR-k:LF.VRSi �� £ Ym. ym.' ym:.' Y�n � I)ISCF:I.I:VHS2 . 8 �. � � � � � X/R SLG I.(NII10 X/R SI.G I.OWO X/R SI.G I.0000 � X/R SLG 1.(1000 . X/R SLG IA011fl �, 4%(1 V � PNI.-GUP6 MTR-GLF,VRSI �� � DISGKITCH � � Sy�n?P6858.p)A �� � �� 20RV �. ' MTR-GLF:VRPI 2U8 V . ` . ' ' ' , � �. X/R Pns3.17 � Svm 7P3500.31 A �. Sym 3P 3980.77 A � � � SymSLG D 01 A .. �O UPS21M 'I'O UPSI(N) "f0 UPS1f6) � 7UR Pu.19b � ��. X/RPncLfi7 M"PR-ELEVVSI MfR-FLEVHSI MTR-F:LEVCI'2 MTR-!?LIiVCPI MTR-IiLf:VHPi � wRSLGLM100 S�zu}-0 - Size? Sizc3 � SYmSLGa?X4.R6:1 ' �� Syin SLG i/%I.%3 A . NA'H 1 N/1'H I � #/PH 1 3OR SLG 12616 �. I X/R SLG L4727 Lengtl�i60.0 ti Leng�i 5p.p li Leug�h?0.0(t ', . .. TO UPS2(131 I TOPNI.-EPEPK MTR-6:LIiVH52 UPS21N) � UPtiI(M � UI'til(B) Size3-0 . '� - Size 250 2U8 V 208 V 20R V JFIPH I �� �� u/PH 2 Sym?P 17R3.42 A Sym 3P 2675.7Y A S}�n iP 2675.;)A � LengO�i60.0 li �I �cngth 20.0 Ct � X/R Pas R95 � X/R Pos 097 X/R Pos 0.97 �� . Sym SLG 1546.87 A � Sym SLG 26U?.116 A Sym SLG 2605_p6 A � UPS2(I31 � PNI:F,PEPK X/R SI.G f1.9ii I X/R tiLG O.NJ77 X/R SLG O.Nl7i � ���%V � 2D%V TO PNI.-PP-UPti2 "f0 PNI:PP-UI'til Sym iP t7%1.J2 A . Sym3P]887.I1A Size3-0 Sizc3 X/RPos09� X/R Pox 1.61 ' q/PH 1 � #/PH 1 ti}m SLG 154fi.ri7 A Sym SLG 3%i5.02 A Length 4f1.�lY . Length 5(I.fl ft X�R SLG().933I X/R SI.G 1.4414 . . � ' PNL-PP-UPS? � PNL-PP-UPSI � 2ns v zoa v �� tiymlPlbN1]5A Sym3P212N.7?:� X/R Pos 093 x/N Pa.v OJA Sym SLG 1454.1)A Sym SLG 2@O.I N A X/R Sf,C 0.12f16 X/Fi SI.(i 11.73R% I Revision By Approved Oate EDrawn By:Delinah Martinez Date:01/28/08 /06 � � Pro ject: Four Seasons Hotel Sheet E-4.I f! I uQl�. C�. i ' �Olil�s' Checked By: Robert E.Fuhr,PE Date:Ol/28/07 � Impedance&Branch Oneline Dingrnm Job #050875 � _;Phone 253�b39-8535■F�253•639-8b8�■16122 SE 266th St,favir�ton,WA 98042' Project: 050875 Four Seasons I Date: 28 January 2008 Time: 12:25:29PM DAPPER Fault Analysis Input Report(English) Utilities Contribution Bus In/Out Nominal -----Contribution Data--- PU(100 MVA Base From Name Name Service Voltage Duty Units XIR R PU X PU UTIL-HCEI XFMR-UTILIP In 24,900 3P:1,000,000 Amps 5.00 Pos: 0.000 0.002 SLG:1,000,000 Amps 5.00 Zero: 0.000 0.002 UTIL-HCE2 XFMR-UTIL2P In 24,900 3P:1,000,000 Amps 5.00 Pos: 0.000 0.002 SLG:1,000,000 Amps 5.00 Zero: 0.000 0.002 Generators Contribution Bus InlOut Nominal -----Contribution Data-- PU(100 MVA Base) From Name Name Service Voltage gase kVA X" X/R R PU X PU GENERATOR GEN BUS Out 480 812.50 0.1 S 12.93 0.00 0.00 0.21 15.08 0.00 0.00 0.03 2.15 0.00 0.00 Motors Contribution #of Bus InlOut Nominal ContHbution Data----- PU(100 MVA Base) From Name Motors Name Service Voltage gase kVA Xd" X/R R PU X PU MTR-]A 1 MCC-lA In 480 137.01 0.2040 9.00 16.543 148.891 MTR-1A50 1 MCGIA In 480 50.44 0.2040 9.00 44.938 404.445 MTR-2B 1 MCG2B In 480 18.16 0.2839 9.00 173.720 1,563.480 MTR-3B 1 MCG3B In 480 49.43 0.2839 9.00 63.816 574.340 MTR-4A 1 MCC-4A In 480 85.75 0.2040 9.00 26.434 237.909 MTR-4A20 1 MCC-4A In 480 20.18 0.2839 9.00 156348 1,407.132 MTR-6C 1 MCC-6C In 480 19.17 0.2839 9.00 164.577 1,481.191 MTR-7A 1 MCC-7A In 480 4.04 0.2839 9.00 781.740 7,035.659 MTR-9A I MCC-9A In 480 7.57 0.2839 9.00 416.928 3,752.351 MTR-9B 1 MCC-9B In 480 23.20 0.2839 9.00 135.955 1,223.593 MTR-CHILI 1 DISC CHILI In 480 191.63 0.1700 9.00 9.857 88J14 MTR-CHIL2 1 DISGCHIL2 ln 480 191.63 0.1700 9.00 9.857 88.714 MTR-EEIA 1 EMCC-ElA In 480 138.93 0.2040 9.00 16.315 146.838 MTR-EE9A 1 EMCC-E9A In 480 17.15 0.2839 9.00 183.939 1,655.449 MTR-ELEVCPI 1 DISCELEVCPI In 480 4035 0.2839 9.00 78.174 703.566 MTR-ELEVCP2 1 DISCELEVCP2 In 480 4035 0.2839 9.00 78.174 703.566 MTR-ELEVHPI I DISCELEVHPI In 480 4035 0.2839 9.00 78.174 703.566 � t Contribution #of Bus InlOut Nominal ConMbution Data---- PU(100 MVA Base) From Name Motors Name Service Voltage gase kVA Xd" XIR R PU X PU MTR-ELEVHSI 1 DiSCELEVHSI In 480 50.44 0.2040 9.00 44.938 404.445 MTR-ELEVHS2 I DISCELEVHS2 In 480 50.44 0.2040 9.00 44.938 404.445 MTR-ELEVRPI 1 DISCELEVRPI In 480 4035 0.2839 9.00 78.174 703.566 MTR-ELEVRP2 1 DISCELEVRP2 In 480 4035 0.2839 9.00 78.174 703.566 MTR-ELEVRSI 1 DISCELEVRSI In 480 50.44 0.2040 9.00 44.938 404.445 MTR-ELEVRS2 1 DISCELEVRS2 In 480 50.44 0.2040 9.00 44.938 404.445 MTR-ELEVRS3 1 DISCELEVRS3 In 480 50.44 0.2040 9.00 44.938 404.445 MTR-ELEVVSI 1 DISCELEVVSI In 480 40.35 0.2839 9.00 78.174 703.566 Cables Cable From Bus In/Out Qty Length --Cable Description--- Per Unit(100 MVA Base) Name To Bus Service IPh Feet Size Cond.Type Duct Type Insul R pu jX pu SWBD-DSBH TIE SWBD-DSBHA In 1 6 1600 Copper Magnetic Pos� 0.1151 0.0888 SWBD-DSBHB Zero: 1.0124 03231 - ___ _ _ __ _. _ _ __ _ __ _ _--- TOATS-1 SWBD-MSB-B In 4 �pp 500 Copper Magnetic Pos� 03158 0.5208 ATS-1 Zero: 0.9863 0.8290 - -- __ _ _ _ - - _ - ---- -- --- TOATS-](E) SWBD-EMSB Out 3 45 400 Copper Magnetic Pos� 0.2285 0.3190 ATS-I Zero: 0.6328 0.5547 TO ATS-2 SWBD-MSB-A In 2 9p 500 Copper Magnetic Pos� 0.5684 0.9375 ATS-2 Zero: ].7754 1.4922 TO ATS-2(E) SWBD-EMSB Out 2 55 500 Copper Magnetic Pos� 0.3473 0.5729 ATS-2 Zero: I.O850 0.9119 - __ - - - _ _ _ _ _ _ _ --_ TODiSGCHILI SWBD-MSB-A In 2 150 300 Copper Magnetic PoS� L4681 1.6602 D]SC CHILI Zero: 3.5091 3.2031 - -- ---- -- _ -- __ _ TODISGCHIL2 SWBD-MSB-B In 2 �7p 300 Copper Magnetic Pos� 1.6638 1.8815 DISGCHIL2 Zero: 3.9770 3.6302 -- -- --- -- -- -- __ _ TODISCELEVCPI PNL-EDPELV2 In 1 25 4 Copper Magnetic Pos� 3.3702 0.6510 DISCELEVCPI Zero: 4.0527 1.8728 TO DISCELEVCP2 PNL-EDPELV2 In I 25 4 Copper Magnetic PoS� 33702 0.6510 DISCELEVCP2 Zero: 4.0527 1.872R - __ _ __ __-- ---_ _ - _ -__ __ _ _ _.._ _ __-- _- _ TO DISCELEVHPI PNL-EDPELV2 In 1 25 4 Copper Magnetic PoS� 33702 0.6510 DISCELEVHP 1 Zero: 4.0527 1.8728 _ ____ ___-- -- - _ _ __ - - __ _ _ - - _ _ __ TODISCELEVHSI PNL-EDPELV2 In I 29 2 Copper Magnetic pos� 2.1745 0.6185 DISCELEVHS 1 Zero: 2.7984 1.5799 __ ___ _ _ ___ TO DISCELEVHS2 PNL-EDPELV2 In 1 25 2 Copper Magnetic Pos� 2.1745 0.6185 DISCELEVHS2 Zero: 2.7984 1.5799 __ _ . _ _ . __ _ _ _ _ __ _ - TO DISCELEVRPI PNL-EDPELV 1 In I 2$ 4 Copper Magnetic poS� 33702 0.6510 DISCELEVRP I Zero: 4.0527 1.8728 _ - -_ _ __ _ _ _ _ - _. _. _ -- ---- - TO DISCELEVRP2 PNL-EDPELV 1 In 1 z5 4 Copper Magnetic PoS� 3.3702 0.6510 DISCELEVRP2 Zero: 4.0527 1.8728 _ __ __ _ _ � 2 Cable From Bus InlOut Qty Length ---Cable Description--- Per Unit(100 MVA Base) Name To Bus Service /Ph Feet Size Cond.Type Duct Type Insul R pu jX pu TO DISCELEVRS 1 PNL-EDPELV 1 In 1 25 2 Copper Magnetic Pos� 2.1745 0.6185 DISCELEVRS 1 Zero: 2.7984 1.5799 - _____ __ _ -__ _ _-- TO DISCELEVRS2 PNL-EDPELV 1 In 1 25 2 Copper Magnetic Pos� 2.1745 0.6185 DISCELEVRS2 Zero: 2.7984 1.5799 TO DISCELEVRS3 PNL-EDPELV 1 ln 1 25 2 Copper Magnetic poS� 2.1745 0.6185 DISCELEVRS3 Zero: 2.7984 1.5799 -_- - __ ___ - -- . .. _ __ ____ _ _ _ -- _ ____ TODISCELEWSI PNL-EDPELV2 In 1 25 4 Copper Magnetic Pos� 33702 0.6510 DISCELEV VS 1 Zero: 4.0527 1.8728 _ - - -_ _ _ _ _ _ TO DISGKITCH XFMR-ETR3S In 2 �50 250 Copper Magnetic PaS� 9.3785 9.0144 DISGKITCH Zero: 20.1611 17.8555 - ------ - __ _--- _ --_ _ _ _ _ _- __ -__ __ . _ - TODISC-RETAIL PNL-DP-DSB In 1 170 1-0 Copper Magnetic Pos� 47.2310 21.6115 DISC-RETAIL Zero: 73.2040 50.9246 TO DISGSH-PW2 SWBD-DSBHB In 1 360 250 Copper Magnetic Pos� 45.0166 43.2692 DISGSH-PW2 Zero: 96.7733 85.7064 __ - _. _ -- -- _ _ _ _ _. _ TO DISGSH-PWR SWBD-DSBHA In 1 435 250 Copper Magnetic PaS� 54.3951 52.2837 DISGSH-PW 1 Z�'o� 16.9344 103.5619 _ _ _ _ -- -- _ _ _ _ _ _ _ _. _ _ TOEMCC-EIA PNL-EDP3 In 2 �Sp 500 Copper Magnetic Pas� 0.9473 1.5625 EMCC-ElA Zero: 2,9590 2.4870 _. _ _ _ -- -- - _ __ TO EMCC-E9A PNL-EDP3 In I ZZp 1 Copper Magnetic pos� 15.3064 5.4427 � EMCGE9A Zero. 20.8637 13.2439 TOMCC-IA SWBD-MSB-A ]n 3 130 600 Copper Magnetic poS� 0.4702 0.9028 MCC-I A Zero: 1.6306 1.3673 _- _ _ ___ _ _ _ TO MCG2B SWBD-MSB-B In 1 380 350 Copper Magnetic Pas� 6.4488 8.2465 MCC-2B Zero: I 6.7734 15.0747 ___ __ __ _ _ __ _-- -- _ __ TO MCC-3B PNL-DP-DB1 In 2 350 250 Copper Magnetic p�s� 4.1092 3.9497 MCC-3B Z�a� 8.8336 7.8234 --- __ __ _ - -- - _ TOMCG4A SWBD-MSB-A In 2 q�p 500 Copper Magnetic POS� 2.5892 4.2708 MCC-4A Zero: 8.0879 6.7977 TO MCC-6C PNL-DP-D6B In I �Sp 250 Copper Magnetic P�S� 3.5221 33854 MCC-6C Zero: 7.5716 6J057 ____ ___ _ _-- __ _ _._ _ -- _ -- Pos: 28.9839 5.5990 TO MCC-7A PNL-DP-D I A In 1 Z 15 4 Copper Magnetic MCG7A Zero: 34.8535 16.1063 -_ --_ __ ___----- __ _ . _ _ - - - _ _ _ _ TO MCC-9A PNL-DP-D1A In I 24g 4 Copper Magnetic ►'os� 33.0282 63802 MCC-9A Zero: 39.7168 183537 -- ---- -- - - __._ _ _ _ _ _---- - _ _ __-- -- ---- TO MCC-9B PNL-DP-DB1 In 2 320 300 Copper Magnetic Pos� 3.1319 3.5417 MCC-9B Zero: 7.4861 6.8333 TOPNL-DIM-BR1 SWBD-DSBHA In 1 �gs 300 Copper Magnetic Pos� 19.2851 21.8080 PNL-DIM-BR 1 Zero: 46.0961 42.0766 _ _ - --- -- - _ _ _ _ ___ - _ - - TOPNL-DIM-BR2 SWBD-DSBHB In I �gp 300 Copper Magnetic Pos: 18.7639 21.2186 PNL-DIM-BR2 Zero: 44.8502 40.9394 __ __ ___ ---- - - _ _ _ _ _ _ _ - -- - _____ TOPNL-DIM-DR1 SWBD-DP-D2A In 1 Zgs 3 Copper Magnetic P�S�147.6458 34.7749 PNL-DIM-DR1 Zero: 82,1850 90.8272 _ _ _ _-- - - --- _ _ - _ -_ 3 Cable From Bus InlOut Qty Length ---Cable Description---- Per Unit(100 MVA Base) Name To Bus Service /Ph Feet Size Cond.Type Duct Type Insul R pu jX pu TO PNL-DIM-DR2 SWBD-DSBHA In 1 22g 1 Copper Magnetic ►'�S 83.3661 29.6436 PNL-DIM-DR2 Zero: 13.6337 72.1327 - _ _ _ _ _ _ _ _ TO PNL-DIM-LOB PNL-DP-DSB In 1 Sp 6 Copper Magnetic Pos� 56.7331 7.3965 PNL-DIM-LOB Zero: 63.9793 20.8141 _ - _.. _-- ---_. _ _ __ _ _ - - _ _ _ _ _ TO PNL-DIM-SPA SWBD-DP-D2A In 1 zsp 3-0 Copper Magnetic Pos� 45.7655 30.0481 PNL-DIM-SPA Zero: 8I.5921 68.5327 __-- _ _ ----- --_ _ _ _ __- - - - - __ TO PNL-DIM-SPB SWBD-DSBHB In 1 Sp 300 Copper Magnetic POS� 5.2122 5.8940 PNL-DIM-SPB Zero: 12.4584 113720 _ _ __-- - - _ . _ _ - - -- - TOPNL-DP-CD9A PNL-DP-D1A In 1 qp 4 Copper Magnetic Pos� 53924 1.0417 PNL-DP-CD9A Zero: 6.4844 2.9965 TOPNL-DP-DIA SWBD-MSB-A In 3 7p 400 Copper Magnetic Pos: 03555 0.4962 PNL-DP-D l A Zero: 0.9844 0.8628 TOPNL-DP-DSB SWBD-DSBHA In 2 �9p 250 Copper Magnetic Pos� 11.8794 11.4183 PNL-DP-DSB Zero: 25.5374 22.6170 _ __ - - --_ __ _ -- _ ___ .__.__ _ _ _ _ TO PNL-DP-D6A PNL-DP-DIA In 1 z25 300 Copper Magnetic Pos� 4.4043 4.9805 PNL-DP-D6A Z�'o� 10.5273 9.6094 _ _ --- _ _ _ _ _ ___--- ___ __ _ __--- Pos: 5.8724 6.6406 TO PNL-DP-D6B PNL-DP-DB1 In 1 3pp 300 Copper Magnetic PNL-DP-D6B Zero: 14.0365 12.8125 _ _ _ _ _ . ___ _ _ _ TO PNL-DP-DBl SWBD-MSB-B In 3 Zgp 600 Copper Magnetic P�S� 1.0127 1.9444 PNL-DP-DB1 Zero: 3.5122 2.9450 . Pos: 0.8113 1.1326 TO PNL-DP-DCl XFMR-TR4S In 3 30 400 Copper Magnetic PNL-DP-DC 1 Zero: 2.2467 1.9693 _ _ _ __ - _ _ _ - - . . Pos: 0.5778 l.1095 TO PNL-DP-DC2 XFMR-TRSS In 3 3p 600 Copper Magnetic PNL-DP-DC2 Zero: 2.0040 1.6804 _ __ __ _ _ _ ___ - TOPNL-DP-DL PNL-DP-D1A In 2 22p 250 Copper Magnetic P�s� 2.5829 2.4826 PNL-DP-DL Zero: 5.5525 4.9175 _ _ TO PNL-DP-DSM1 SWBD-MSB-A ln 1 2(>p 300 Copper Magnetic Pos� 5.0894 5.7552 PNL-DP-DSM 1 Zero: ]2,]649 I 1.1042 __ _ _ _ _ . -- ___. . __ __ ._---------_ __ _-- Pos: 4.5022 5.0911 TO PNL-DP-DSM2 SWBD-MSB-A In 1 23p 300 Copper Magnetic PNL-DP-DSM2 Zero: 10.7613 9.8229 __ ___ _ -__ _ _ ____ _ - - -- - _ __ TO PNL-DP-DSM3 SWBD-MSB-B In 1 42g 300 Copper Magnetic PoS� 83192 9.4076 PNL-DP-DSM3 Zero: 19.8850 18.1510 -- -- - _ .. _ __ __ _ -- - - - __- .._ Pos: 10.7661 12.1745 TO PNL-DP-DSM4 SWBD-MSB-B In I 550 300 Copper Magnetic PNL-DP-DSM4 Zero: 25.7335 23.4896 TO PNL-DP-DSMS SWBD-MSB-A In 2 42p 250 Copper Magnetic Pos: 4.93]0 4.7396 PNL-DP-DSMS Zero: 10.6003 93880 _ _ - _ __ _ - - --- _ . -. . . Pos: 4.2599 7.0266 TO PNL-DP-RC3 SWBD-DP-D2A In 3 �9p 500 Copper Magnetic PNL-DP-RC3 Zero: 133067 11.1840 - - _ _ _ _ _ _ _ - __ - . -. Pos: 7.5028 7.2115 TO PNL-DP-RC5 PNL-DP-RC3 In 2 �2p 250 Copper Magnetic PNL-DP-RCS Zero: 16.1289 14.2844 - _-- --_ _ _- ._ _ __ _ - --- -- -- . _- ------ - _. __ _ Pos: 93785 9A 144 TO PNL-DP-RC7 PNL-DP-RC3 In 2 �9p 250 Copper Magnetic 4 Cable From Bus In/Out Qty Length --Cable Description----- Per Unit(100 MVA Base) Name To Bus Service IPh Feet Size Cond.Type Duct Type Insul R pu jX pu PNL-DP-RC7 Zero: 20.1611 17.8555 TOPNL-EDIMBRI PNL-EDP2 In 1 �Zp 4 Copper Magnetic PoS� 86.1502 16.6420 PNL-EDIMBRI Zero: 03.5965 47.8735 ___- -- -____ ___ _ _ _ _ __ _ - _ . _ ___ _ _ _ _ TOPNL-EDIMDRI PNL-EDPI In 1 ��p 4 Copper Magnetic Pos� 78.9710 15.2552 PNL-EDIMDRI Z�*o� 94.9635 43.8841 - __ _. . __ _ _ _ _ ___ _ _-- -__. --- _ _ - - . Pos:I14.8669 22.1894 TO PNL-ED[MDR2 PNL-EDP2 In 1 �(p 4 Copper Magnetic PNL-EDIMDR2 Zero: 38.1287 63.8314 _ . _____ _ _ . _ -- - _-- _____ __ _ TO PNL-EDIMLOB PNL-EDP2 ln 1 ��p 4 Copper Magnetic P�S� 78.9710 15.2552 PNL-EDIMLOB Zero: 94.9635 43.8841 TO PNL-EDIMSPA PNL-EDP1 in 1 245 4 Copper Magnetic P�S�175.8899 33.9774 PNL-EDIMSPA Z�*o�:l 1.5096 97.7418 __ _ __-- __- _ - _ . _ _ _ - -- - -- _ _ ___ __ TO PNL-EDIMSPB PNL-EDP2 In I 35 3 Copper Magnetic Pos� 20.2651 4.7730 PNL-EDIMSPB Zero: 25.0058 12.4665 _------ -- _ _ __ _ -- _ __ _ _ . -- Pos: 3.4388 33053 TO PNL-EDP1 XFMR-ETR1S In 2 ,55 250 Copper Magnetic PNL-EDPI Zero: 73924 6.5470 - - _ --_ _ _- - - --- -- _ _-___ -- __ _._.. _ - _ _ Pos: 1.2505 1.2019 TO PNL-EDP2 XFMR-ETRZS In 2 2p 250 Copper Magnetic PNL-EDP2 Zero: 2.6881 23807 TO PNL-EDP3 ATS-1 ]n 4 35 500 Copper Magnetic Pos� 0.1105 0.1823 PNL-EDP3 Zero: 0.3452 0.2901 _ _ _ _ _ _ _ _-- _ . . Pos: 4.5188 5.7785 TO PNL-EDP6 XFMR-ETR4S In 1 Sp 350 Copper Magnetic PNL-EDP6 Zero: 1].7534 10.5631 _ _ _ _. _ - _ - - ____ . TOPNLEDPECD9A PNL-EDP3 In 1 ZSp 4 Copper Magnetic P�S� 33.7023 6.S104 PNLEDPECD9A Zero: 40.5273 18.7283 __ _ _ ._ _ _ _ _ -. _ _ . . Pos: 33.7023 6.5104 TO PNL-EDPED2B PNL-EDP3 in I 25p 4 Copper Magnetic PNL-EDPED2B Zero: 40.5273 18.7283 TO PNL-EDPED9B PNL-EDP3 In 1 460 4 Copper Magnetic Pos: 62.0122 11.9792 PNL-EDPED9B Zero: 74.5703 34.4601 __ __ __ _ _ - _- _ _ _ _ _ _ _ Pos: 0.4894 0.5534 TO PNL-EDPELV 1 PNL-EDP3 In 2 5p 300 Copper Magnetic PNL-EDPELVI Zero: ].1697 1.0677 - - __ __ _ _ ___ _ __ - -- - _ _ _ - - _ __ _ _ -- TO PNL-EDPELV2 PNL-EDP3 In 2 Zsp 300 Copper Magnetic Pos� 2.4468 2.7669 PNL-EDPELV2 Zero: 5.8485 53385 _-- - _ -_ ___ _ _-_ ___ _ _ -- _ _ - _ _ _ __ TO PNL-ELPEL2A PNL-EMS1 In 1 3p 1 Copper Magnetic Pos: 2.0872 0.7422 PNL-ELPEL2A Zero: 2,8451 1.8060 TOPNL-ELPEL2B PNL-EMSI In 1 279 1 Copper Magnetic pos� 19.1330 6.8034 PNL-ELPEL2B Zero: 26.0796 16.5549 _ - _ -- - - - __ __-_ - - _ _ _ - -- _ - - -- Pos: 2.1306 0.2778 -. TOPNL-ELPEL4A PNL-ELPEL2A In 1 �p 6 Copper Magnetic PNL-ELPEL4A Zero: 2.4028 0.7817 - - __ - -- _ __ _ _ __ - - - - Pos: 2.1306 0.2778 TO PNL-ELPELSB PNL-ELPEL2B In I �p 6 Copper Magnetic PNL-ELPELSB Zero: 2.4028 0.7817 _ - -__ -_ _ _ _ _.. __ _ __ _ . . _-_ _ __ _ _ - _ _ _ Pos: 03158 0.5208 TOPNL-EMSI ATS-2 In 2 Sp 500 Copper Magnetic PNL-EMS I Zero: 0.9863 0.8290 5 Cable From Bus In/Out Qty Length ---Cable Description---- Per Unit(100 MVA Base) Name To Bus Service IPh Feet Size Cond.Type Duct Type Insul R pu )X pu TO PNL-EMSB GEN BUS Out 4 �7p 500 Copper Magnetic Pos� 0.5368 0.8854 SWBD-EMSB Zero: 1.6768 1.4093 _ --- -_ _ _ ___- -_- _ _ _ ___ _ _ __ _ _ __- - -__ TO PNL-EPEP2A PNL-EDPI In 1 55 300 Copper Magnetic Pos� 5.7334 6.4835 PNL-EPEP2A Zero: 13.7042 12.5092 _ __ --- -__ - - ---_ _ ---- _ _ - __ _ - - - - . Pos: 1.8075 23114 TO PNL-EPEP2B PNL-EDP2 In 1 Zp 350 Copper Magnetic PNL-EPEP2B Zero: 4.7014 4.2252 - __ _ __--- - _-_ _ __ __ ____ _ _ __ _ -- __ _ ___ _- - -- ___ _ _ - _ ____ TOPNL-EPEP3A PNL-EPEP2A In ] �p 3 Copper Magnetic Pos� 5.7900 13637 PNL-EPEP3A Zera: 7,1445 3.5619 TO PNL-EPEP3B PNL-EPEP2B In 1 �p 6 Copper Magnetic pos� 11.3466 1.4793 PNL-EPEP3B Zero: 12.7959 4.1628 -- -_ _ _ _ _-- _ - --- TO PNL-EPEP3C PNL-EDP2 In I ZZp 250 Copper Magnetic Pos� 27.5102 26.4423 PNL-EPEP3C Z�o� 59.1392 52.3761 __- - -__ _ __ - - --- -- _ - _ _ _ _ _ _. __ _ _ _ .__ _ _. TO PNL-EPEP4A PNL-EDP1 In 1 ZZp 2-0 Copper Magnetic poS� 50.9523 27.4593 PNL-EPEP4A Zero: 82.0729 64.9362 _ _ _ _ _ _ _ _ _ TOPNL-EPEPSA PNL-EDPI In 1 �5p 1 Copper Magnetic Pos� 55.5774 19.7624 PNL-EPEPSA Zero: 75.7558 48.0885 TOPNL-EPEPSB PNL-EDP2 In 1 �gp 500 Copper Magnetic Pos� ]0.0892 16.6420 PNL-EPEPSB Z�'a� 31.5158 26.4885 _ _ - - __ _ - TOPNL-EPEPSC PNL-EPEP3C In 1 ]p 3 Copper Magnetic Pos: SJ900 13637 PNL-EPEPSC Zero: 7.1445 3.5619 TO PNL-EPEP7A PNL-EPEPSA In 1 �p 6 Copper Magnetic Pos: �].3466 1.4793 PNL-EPEP7A Zero: 12.7959 4.1628 _ _ TO PNL-EPEP7B PNL-EPEPSB In 1 �p 6 Copper Magnetic 113466 1.4793 Pos: PNL-EPEP7B Zero: 12.7959 4.1628 TO PNL-EPEP7C PNL-EPEPSC In 1 (p 6 Copper Magnetic P�S� 68.0797 8.8757 PNL-EPEP7C Zero: 76.7752 24.9769 - -- __ _ __ _ _ _ _ _ _ ___ . TO PNL-EPEP9A XFMR-ETRSS In 1 (p 2-0 Copper Magnetic p�s� 13.8961 7.4889 PNL-EPEP9A Zero: 22.3835 17J099 _ _ . _----- __ _ _ _ _ _ - - - _ _ _ . Pos: 11.3466 1.4793 TO PNL-EPEP9B PNL-EPEP9A In 1 �p 6 Copper Magnetic PNL-EPEP9B Zero: 12.7959 4.1628 _ __ -- - _ _ _ _ _ _. ___ _ __ _ _ _ _ __ Pos: 1.2505 1.2019 TO PNL-EPEPK DISC-KITCH In 2 Zp 250 Copper Magnetic PNL-EPEPK Zero: 2.6881 2.3807 TOPNL-LP-L1B1 PNL-PP-P1B In t ]p 6 Copper Magnetic P�s� 113466 1.4793 PNL-LP-L1B1 Zero: �2,7959 4.1628 __ _ _ _ _____ _ __ _ _- -_ _ _ __ ___ - -_ ____ TO PNL-LP-L2A PNL-DP-DIA In 1 gp 1 Copper Magnetic P�S� 5.5660 1.9792 PNL-LP-L2A Z�o� 7.5868 4.8160 __ _ -- - - _ __ _ _ ____ _ _ . _ TOPNL-LP-L2B PNL-DP-DBI In 1 Sg 1 Copper Magnetic P�S� 3.8266 1.3607 PNL-LP-L2B Zero: 5.2159 3.3110 - -_._ --- --- __ _ _ . _ _ ___ ___ __ ___ _ - - __ _ ___ TOPNL-LP-L4A PNL-DP-DIA In I Z�p 1 Copper Magnetic pos� 14.6107 5.1953 PNL-LP-L4A Zero: 199154 12.6419 TO PNL-LP-LSB PNL-LP-L2B In 1 lp 6 Copper Magnetic P�S� 2.1306 0.27'78 PNL-LP-LSB Zero: 2,4028 0.7817 _ _ _ _ 6 Cable From Bus InlOut Qty Length ---Cable Description---- Per Unit(100 MVA Base) Name To Bus Service /Ph Feet Size Cond.Type Duct Type Insul R pu jX pu TOPNL-PP-CDl PNL-DP-DCI In 1 �bp 250 Copper Magnetic Pas� 20.0074 19.2308 PNL-PP-CD1 Zero: 43.0104 38.0917 - _ __ _-- ___ ._ - - ____ _ _._ __ - --__ TO PNL-PP-CD 10 PNL-DP-DC2 In 1 2�5 250 Copper Magnetic POS� 26.8849 25.8413 PNL-PP-CD10 Zero: 57.7952 51.1857 _ _ _ _ ___ _ _ __..__ ---- - --- - ---- - __ ___ ___ Pos: 28.7606 27.6442 TO PNL-PP-CDl 1 PNL-DP-DC2 In 1 230 250 Copper Magnetic PNL-PP-CD11 Zero: 61.8274 54.7568 TO PNL-PP-CD12 PNL-DP-DC2 In 1 Zpp 250 Copper Magnetic Pos� 25.0092 24.0385 PNL-PP-CD12 Zero: 53.7629 47.6146 - __ _ ---_ _ _ _ _ _ TOPNL-PP-CD13 PNL-DP-DC1 In 1 170 250 Copper Magnetic Pos� 21.2579 20.4327 PNL-PP-CD13 Z�*a� 45.6985 40.4725 -.__ ._ _ _ - ---- -- .._.. . - _ ___ _ - _ _ --- - _-- - ----. . __ _.__ TOPNL-PP-CD14 PNL-DP-DCl In 1 Z�5 250 Copper Magnetic PoS� 26.8849 25.8413 PNL-PP-CD14 Zero: 57.7952 51.1857 -- -- _---- - - _-- _ _ ----- _ _ - _ - _ _-- - -- TO PNL-PP-CD15 PNL-DP-DC2 In 1 Zqg 250 Copper Magnetic P�S� 30.6363 29.4471 PNL-PP-CD15 Zero: 65.8596 583279 TO PNL-PP-CD16 PNL-DP-DC2 In 1 �9p 250 Copper Magnetic P�S� 23.7588 22.8365 PNL-PP-CD16 Zero: 51.0748 45.2339 _ __.. - -_ - -._ __ _ __ _ _ _.. ._ _ __ _ _ Pos: 17.5065 16.8269 TO PNL-PP-CD2 PNL-DP-DC2 In 1 �qp 250 Copper Magnetic PNL-PP-CD2 Zero: 37.6341 33.3303 _ _ - -_ _ _ _ _ _ _ Pos: 15.6308 15.0240 TO PNL-PP-CD3 PNL-DP-DC2 ln 1 ]25 250 Copper Magnetic PNL-PP-CD3 Zero: 33.6018 29.7592 - _ _- ___ _ _.__ _ _ TO PNL-PP-CD4 PNL-DP-DC1 In 1 �gp 250 Copper Magnetic p�S� 22.5083 21.6346 PNL-PP-CD4 Zero: 483867 42.8532 TO PNL-PP-CDS PNL-DP-DC2 In 1 Zpg 250 Copper Magnetic ►'O5� 25.6345 24.6394 PNL-PP-CDS Zero: 55.1070 48.8050 -__ ______- _ _ TO PNL-PP-CD6 PNL-DP-DC2 In l 230 250 Copper Magnetic P�s� 28.7606 27.6442 PNL-PP-CD6 Zero: 61.8274 54.7568 --- --- _ _ _ _ _ _- _ __ ___ . _ . Pos: 18.7569 18.0288 TO PNL-PP-CD7 PNL-DP-DC2 In 1 �50 250 Copper Magnetic PNL-PP-CD7 Zero: 403222 35.7110 - _ ___ _ - ____ _._ _ _ _ _ _-- __ _ TO PNL-PP-CD8 PNL-DP-DCI In 1 �Zp 250 Copper Magnetic ►'os� 15.0055 14.4231 PNL-PP-CD8 Zero: 32.2578 28.5688 TO PNL-PP-CD9 PNL-DP-DC1 In I 190 250 Copper Magnetic Pos� 23.7588 22.8365 PNL-PP-CD9 Zero: 51.0748 45.2339 - - _. _ ___..._ _ ___ _ _ _ _ __ _ _ _ __ _ _- _ TOPNL-PP-POLA SWBD-DP-D2A In 1 13p 350 Copper Magnetic Pos: ��,7488 15.0240 PNL-PPPOOLA Ze�o� 30.5589 27.4639 __ _ _ __ _ ---- - _ _ __ _ _ ---- _ - - -- _ ___- TO PNL-PP-POLB SWBD-DSBHA In 1 '70 350 Copper Magnetic POS� 6.3263 8.0899 PNL-PPPOOLB Zero: 16.4548 14.7883 - ----- -- __ _ __ ._ _ _ _ -_. . -- _ - Pos: 61.1351 21.7386 TOPNL-PP-P1A SWBD-DP-D2A In 1 165 1 Copper Magnetic PNL-PP-PIA Zero: 833314 52.8973 TO PNL-PP-P1B SWBD-DSBHA In 1 95 250 Copper Magnetic Pos: �],g794 11.4183 PNL-PP-P1B Zero: 25.5374 22.6170 -- ----_ -- _---- -- -__ _._ _ _. __ _ __ __ _____ . _ _ ---- TO PNL-PP-P]K SWBD-DP-D2A In 2 235 300 Copper Magnetic POS� 12.2486 13.8510 PNL-PP-P1K Zero: 29.2772 26.7243 _ __ . _ _ . _ __ __ __ _ -_ __ _ _ _ _ _ _ __ 7 Cable From Bus InlOut Qty Length ---Cable Description---- Per Unit(100 MVA Base) Name To Bus Service IPh Feet Size Cond.Type Duct Type Insul R pu jX pu TO PNL-PP-P2A SWBD-DP-D2A In 1 gp I Copper Magnetic PoS� 29.6413 ]0.5399 PNL-PP-P2A Zero: 40.403 I 25.6472 _ -- _ _ _ _____ -- _ _- _ _ _ _ TO PNL-PP-P2B SWBD-DSBHA In 1 Sp 300 Copper Magnetic Pos� 5.2122 5.8940 PNL-PP-P2B Zero: 12.4584 1 I.3720 TO PNL-PP-P2K SWBD-DP-D2A In 2 350 350 Copper Magnetic POS� 15.8157 20.2247 PNL-PP-P2K Zero: 41.1370 36.9707 - __ _ _ - _ _ ___ _ _ __ TO PNL-PP-P3A SWBD-DP-D2A In 2 �g5 250 Copper Magnetic Pos� 11.5668 1 l.l 178 PNL-PP-P3A Zero: 24.8654 22.0218 _ - -- _ ------- _ _ _ _ __ __ _ _ . _ __ _ - TO PNL-PP-P3B SWBD-DSBHA ln 2 �gs 500 Copper Magnetic Pos 6.2217 10.2626 PNL-PP-P3B Zero: 19.4347 16.3346 -- _ ___ __ .__ _ --- - - TO PNL-PP-P3C SWBD-DSBHB In 2 29p 250 Copper Magnetic Pos� 18.1317 17.4279 PNL-PP-P3C Zero: 38.9781 34.5206 TO PNL-PP-P3K SWBD-DP-D2A In 2 350 250 Copper Magnetic PoS� 21.8831 21.0337 PNL-PP-P3K Zero: 47.0426 41.6628 _ _ ____---- _ _ -- __ - TOPNL-PP-P4A SWBD-DP-D2A [n 1 2�5 300 Copper Magnetic Pos� 22.4124 253444 PNL-PP-P4A Zero: 53.5711 48.8998 ___ _._. _ ___ _ _ _ __ _ _ _ _ _ _ __ _ TO PNL-PP-P4A1 SWBD-DP-D2A In I Zps 300 Copper Magnetic Pos: 2�3700 24.1656 PNL-PP-P4A 1 Zero: 51.0794 46.6254 _ _ _ _ ___ TO PNL-PP-P4B SWBD-DSBHA In 1 �95 300 Copper Magnetic Pos� 203275 22.9868 PNL-PP-P4B Zero: 48.5877 443510 TO PNL-PP-P4C SWBD-DSBHB In 1 3pp 400 Copper Magnetic Pos� 243389 33.9774 PNL-PP-P4C Zero: 67.4001 59.0791 _ - _ _ ___ _- - - _-- TO PNL-PP-P4K SWBD-DP-D2A In 1 300 1 Copper Magnetic P�S�I 11.1548 39.5248 PNL-PP-P4K Zero: 51.5117 96.1770 _ _ - - - - -- _ - ___ TOPNL-PP-PSA SWBD-DP-D2A In I �Sp 300 Copper Magnetic P�S� 15.6366 17.6821 PNL-PP-PSA Zero: 37.3752 34.1161 _ -- __ ---_..... ___ _._ _ _ Pos: 2.5009 2.4038 TO PNL-PP-PSB PNL-DP-DSB In l Zp 250 Copper Magnetic PNL-PP-PSB Zero: 53763 4.7615 ___ __ __ _ TOPNL-PP-PSC SWBD-DSBHB ln 1 3�g 400 Copper Magnetic P�S� 25.5559 35.6763 PNL-PP-PSC Zero: 70,7702 62.0331 _ - - _- --- - _ __ _ _ _ _ _ _ --- _ _ .__ _ TOPNL-PP-P6A SWBD-DP-D2A In 1 �gp 1 Copper Magnetic P�S� 66.6929 23.7149 PNL-PP-P6A Zero: 90.9070 57.7062 __ ___- -- _- _ _ _ __ _ _ -- -__ _ - - Pos: 20.8487 23.5762 TO PNC,-PP-P6B SWBD-DSBHA In 1 zpp 300 Copper Magnetic PNL-PP-P6B Zero: 49.8336 45.4882 _ -___ __ _. __ _ __ - -- -- _ __ _ _ _ --- _- -- TO PNL-PP-P6C SWBD-DSBHB in 1 335 400 Copper Magnetic P�S� 27.1785 37.9415 PNL-PP-P6C Zero: 75.2635 65.9717 _ _ _ _ __ _ _ _. _ _. _ __ TOPNL-PP-P7A SWBD-DP-D2A In 1 �9p 1 Copper Magnetic Pos� 70.3980 25.0324 PNL-PP-P7A Zero: 95.9574 60.9121 _ _ __ __ __ _ - TO PNL-PP-P7B SWBD-DSBHA In 1 ZZS 350 Copper Magnetic PoS� 20.3345 26.0031 PNL-PP-P7B Zero: 52.8904 47.5337 _ . - ---___ __ _ _ __ .- ._. TO PNL-PP-P7C SWBD-DSBHB In 1 345 400 Copper Magnetic Pos: 27.9898 39.0741 PNL-PP-P7C Zero: 77.5102 67.9410 _ _ _ -- _ _. _ . _ _ _ _ _ __ _ _ _ _ -- __ 8 Cable From Bus InlOut Qty Length --Cabie Description------ Per Unit(100 MVA Base) Name To Bus Service /Ph Feet Size Cond.Type Duct Type Insul R pu jX pu TO PNL-PP-P8B SWBD-DSBHA In 1 235 300 Copper Magnetic Pos: 24.4973 27.7020 PNL-PP-PSB Zero: 58.5545 53.4486 TO PNL-PP-P8C SWBD-DSBHB In 1 355 400 Copper Magnetic P�S� 28.8011 40.2066 PNL-PP-P8C Zero: 79.7568 69.9103 --___ _� _ _ _ ___ -_ _ _ __ -- _ . .___- TO PNL-PP-P9A PNL-DP-DC1 In 1 �3p 4 Copper Magnetic P�S� 933293 18.0288 PNL-PP-P9A Zero: 12.2296 51.8630 -- _ ____ _. . _ _ --- --- __ _ ---- _. _ _ _ _ _ _ Pos: 933293 18.0288 TO PNL-PP-P9B PNL-DP-DC2 In ] ]3p 4 Copper Magnetic PNL-PP-P9B Zero: 12.2296 51.8630 -- -- - ---- - _--- -_ -- -- __ _ _ _ _ Pos: 19.2851 21.8080 TOPNL-PP-PL SWBD-DP-D2A In 1 185 300 Copper Magnetic PNL-PP-PL Zero: 46.0961 42.0766 TO PNL-PP-PR SWBD-DP-D2A In 1 24g 1 Copper Magnetic Pos: 90.7764 32.2786 PNL-PP-PR Zero: 23.7345 78.5445 -- _ _ _ _ __ _ _ _ .. TO PNL-PP-PSPA SWBD-DP-D2A In 2 $p 250 Copper Magnetic PoS� 3.1262 3.0048 PNL-PP-PSPA Zero: 6,7204 5.9518 _. __ . -- ._ -- _ __ -__ _ - --__ _ -- TO PNL-PP-PSPB SWBD-DSBHB In 1 Sp 300 Copper Magnetic ►'�S� 5.2122 5.8940 PNL-PP-PSPB Zero: 12.4584 113720 _ _- - - _ _ _ _ - - -- -- ._ - _ _ _ _ . _ _ Pos: 12.5046 12.0192 TO PNL-PPRC3.1 PNL-DP-RC3 In 1 �pp 250 Copper Magnetic PNL-PPRC3.1 Zero: 26.8815 23.8073 TO PNL-PPRC3.2 PNL-DP-RC3 In I �qp 250 Copper Magnetic Pos� 17.5065 16.8269 PNL-PPRC3.2 Zero: 37.6341 33.3303 TO PNLPPRC3AHC PNL-DP-RC3 In 1 �qp 250 Copper Magnetic Pos� 17.5065 16.8269 PNLPPRC3AHC Zero: 37.6341 333303 _- __ _ -- - -- _ _ _ __ _ _ Pos: 12.5046 12.0192 TO PNL-PPRC4.1 PNL-DP-RC3 In 1 �pp 250 Copper Magnetic PNL-PPRC4.1 Zero: 26.8815 23.8073 _ -_ ._ __ ___ Pos: 17.5065_ .16.8269 TO PNL-PPRC4.2 PNL-DP-RC3 In i 140 250 Copper Magnetic PNL-PPRC4.2 Zero: 37.6341 33.3303 TO PNL-PPRC43 PNL-DP-RC3 In 1 �qp 250 Copper Magnetic P�S� 17.5065 16.8269 PNL-PPRC43 Zero: 37.6341 33.3303 __ _ _ - - ----- _ _ _ ___ _ _ _ ___ _ _ Pos: 16.2560 15.6250 TO PNL-PPRC4A 1 PNL-DP-RCS In I �3p 250 Copper Magnetic PNL-PPRC4A 1 Zero: 34.9459 30.9495 -- - - _ _ . _ _ _ --- _ -- --_ __ - TO PNL-PPRC4B1 PNL-DP-RC7 In 1 ](p 250 Copper Magnetic Pos� 20.0074 19.2308 PNL-PPRC4B I Zero: 43.0104 38.0917 _._ ___ __ . --- . -- - _ _ _ -- - --- _ _ ____ _-- - TO PNL-PPRC4C1 PNL-DP-RC7 [n 1 9p 250 Copper Magnetic POS� 11.2542 10.8173 PNL-PPRC4C1 Zero: 24.1933 21.4266 TO PNL-PPRC5.1 PNL-DP-RCS In 1 �qp 250 Copper Magnetic Pos� 17.5065 16.8269 PNL-PPRC5.1 Zero: 37.634] 333303 __ _ _ _ _- -- ___ - __ _ _ _ __ - - _- __ _ _ _ ___ - TO PNL-PPRC5.2 PNL-DP-RCS In 1 �bp 250 Copper Magnetic p�s� 20.0074 19.2308 PNL-PPRC5.2 Zero: 43.0104 38.0917 _ _ _ __- __ -- - - - - _ _ _ ___ - - _ __---- - -- TO PNL-PPRC53 PNL-DP-RCS In 1 �7p 250 Copper Magnetic P�s� 21.2579 20.4327 PNL-PPRC53 Z�a� 45.6985 40.4725 - _ __ _ ___- _------ -. __ -_ __ _ __ _ __ _ _. ____ __ TO PNL-PPRC6.1 PNL-DP-RCS In 1 �qp 250 Copper Magnetic p�s� 17.5065 16.8269 9 Cable From Bus InlOut Qty Length ---Cabie Description---- Per Unit(100 MVA Base) Name To Bus Service IPh Feet Size Cond.Type Duct Type Insul R pu jX pu PNL-PPRC6.1 Zero: 37.6341 33.3303 TO PNL-PPRC6.2 PNL-DP-RCS In 1 ](p 250 Copper Magnetic PoS� 20.0074 19.2308 PNL-PPRC6.2 Zero: 43.0104 38.0917 __ _ . _ _ _ _ _ _ _ _ _ __ _ ._ - - - ._ __ __ _ _ __ _ _ _ - - Pos: 21.2579 20.4327 TO PNL-PPRC6.3 PNL-DP-RCS In 1 �7p 250 Copper Magnetic PNL-PPRC6.3 Zero: 45.6985 40.4725 - - _____ -__ _ _ _ _- _ _ ___ __ _ _ _ . __ __ - ___ TO PNL-PPRC7.1 PNL-DP-RC7 In ] �gp 250 Copper Magnetic PoS� 18.7569 18.0288 PNL-PPRC7.1 Zero: 40.3222 35.7110 _ _ _ _ _ _ _ __ _ __ ._ ___ _ _ __ TO PNL-PPRC7.4 PNL-DP-RC7 In 1 �Sp 250 Copper Magnetic P�S� 18.7569 18.0288 PNL-PPRC7.4 Zero: 403222 35.7ll0 TO PNL-PPRC8.1 PNL-DP-RC7 In 1 �sp 250 Copper Magnetic p�S� 18.7569 18.0288 PNL-PPRC8.1 Zero: 40.3222 35.7110 -- _ _ . - _ _ ___ _ __ - ---- - _ _ _ _ - . . Pos: 18.7569 18.0288 TO PNL-PPRC8.4 PNL-DP-RC7 In 1 �Sp 250 Copper Magnetic PNL-PPRC8.4 Zero: 403222 35.7110 - -- -- __ TO PNL-PP-UPS] UPS](N) In 1 Sp 3 Copper Magnetic Pos: 28.9502 6.8186 PNL-PP-UPS 1 Zero: 35.7225 17.8093 ___ __. ______ ___ -- - -_ _ __. _- -- _ . -- - _ TO PNL-PP-UPS2 UPS2(N) In 1 4p 3-0 Copper Magnetic P�S� 73225 4.8077 PNL-PP-UPS2 Zero: 13.0547 10.9652 TOSWBD-DP-D2A XFMR-TR1S In 9 27p 600 Copper Magnetic Pos: 1.7335 33284 SWBD-DP-D2A Zero: 6.0119 5.0411 _ _ ___ _ _ _ __ __ -. TOSWBD-DSBH2 XFMR-TR3S [n 5 (p 600 Copper Magnetic PoS� 0.6934 ]3314 SWBD-DSBHB Zero: 2.4048 2.0165 _ __ ___ _--__ _ _ _ Pos: 0.8090 1.5533 TO SWBD-DSBHA XFMR-TR2S In 5 7p 600 Copper Magnetic SWBD-DSBHA Zero: 2.8056 2.3525 _ - -- --_ _ _ _ -- __ ... TO SWBD-MSB TIE SWBD-MSB-A In I z 3000 Copper Magnetic Pos: 0.0036 0.0031 SWBD-MSB-B Zero: 0.0597 0.0061 __ _. __. _ TOSWBD-MSB-A XFMR-UTILIS In 15 gp 600 Aluminum Non-Magnetic Pos� 0.0838 0.0903 SWBD-MSB-A Zero: 0.2440 0.1271 -_ __ __ _ _ __ _ _ -- _ __ _ _ TO SWBD-MSB-B XFMR-UTIL2S In 15 1�p 600 Aluminum Non-Magnetic PoS� 0.]152 0.1241 SWBD-MSB-B Z�o� 03355 0.1747 TO UPS 1(B) PNL-EDP6 . In 1 9p 3 Copper . Magnetic Pos: 28.9502 6.8186 UPS 1(B) Zero: 35.7225 17.8093 -- _ __ _ ___ _ - __ _ - - -- ---_ _ _ _ -- -- _- __ _ _ Pos: 28.9502 6.8186 TOUPS](N) PNL-EDP6 In 1 gp 3 Copper Magnetic UPS 1(N) Zero: 35.7225 ]7.8093 TO UPS2(B) PNL-EDP6 In 1 360 3-0 Copper Magnetic Pos: 65.9024 43.2692 UPS2(B) Zero: 17.4926 98.6871 ____ __ _ _ _ _ _ _. - ---- -_. -. . Pos: 65.9024 43.2692 TO UPS2(N) PNL-EDP6 In 1 360 3-0 Copper Magnetic UPS2(N) Zero: 17.4926 98.687] -- _ ___ . _ __ ___ _ - __-- - _. ._-- - _ _ Pos: 1.4089 13542 TOXFMR-ETR1P PNL-EMSI In 1 (p 250 Copper Magnetic XFMR-ETR1P Zero: 3.0286 2.6823 ---- _ -- - _--- -- __ ___ _ _ _ _- _ --------- _.__ Pos: 4.1133 5.7422 TO XFMR-ETR2P PNL-EMS 1 In 1 27p 400 Copper Magnetic XFMR-ETR2P Zero: 11.3906 9.9844 10 Cable From Bus In/Out Qty Length --Cable Description---- Per Unft(100 MVA Base) Name To Bus Service /Ph Feet Size Cond.Type Duct Type Insul R pu jX pu TO XFMR-ETR3P PNL-EDP3 In 1 60 400 Copper Magnetic P�s� 0.9141 1.2760 XFMR-ETR3P Zero: 2.5313 2.2188 _____ _ _ ---. .__- _ _ _ _ _ ___ ___ _ ___.. ._ -__ _ TO XFMR-ETR4P PNL-EDP3 in 1 65 3-0 Copper Magnetic Pos� 2.2344 1.4670 XFMR-ETR4P Zero: 3.9835 33459 ____---__ _ _ ___ -- _ - _ __ __ _ _ _ _ _ __ ___ ___ -- TOXFMR-ETRSP PNL-EMS1 in 1 230 4 Copper Magnetic Pos� 31.0061 5.9896 XFMR-ETRSP Zero: 37.2852 17.2300 --- _ - --- - ---- - _. _ _ . _ _-- --- - - __ __ . _ _ __ --___ -- - --- -- -_ TO XFMR-TR1P SWBD-MSB-A In 5 Sp 600 Copper Magnetic PoS� 0.1085 0.2083 XFMR-TR1P Zero: 0.3763 0.3155 TO XFMR-TR2P SWBD-MSB-A In 3 ZSp 600 Copper Magnetic Pos� 0.9042 1.7361 XFMR-TR2P Zero: 3.1359 2.6295 -_ _ _ _ __ __ - -----__ . _ _ _ __ __ __ _ _ _ _ - _ ___. __ -- - -_ _ - _ TO XFMR-TR3P SWBD-MSB-B In 3 2(p 600 Copper Magnetic p�s� 0.9404 1.8056 XFMR-TR3P Zero: 3.2613 2.7347 _ _ -- __ . _ ... _ __--------- - TO XFMR-TR4P SWBD-MSB-B [n 2 Zpp 4-0 Copper Magnetic Pos� 2.7387 2.2135 XFMR-TR4P Zero: 5.4427 4.7179 _ _ -___ _ _ TO XFMR-TRSP SWBD-MSB-B In 2 490 350 Copper Magnetic Pos� 4.1578 5.3168 XFMR-TRSP Zero: 10.8145 9.7192 2-Winding Transformers Xformer In/Out ------------------Primary&Secondary------------- Nominal 2 PU(100 MVA Base) Name Service Bus Conn. Volts FLA kVA R pu jX pu XFMR-ETRI In XFMR-ETR1P D 480 135 113 Pos: 24.4676 34.9538 XFMR-ETR1S WG 208 312 Zero: 24.4676 34.9538 XFMR-ETR2 In XFMR-ETR2P D 480 135 113 Pos: 24.4676 34.9538 XFMR-ETR2S WG 208 312 Zero: 24.4676 34.9538 XFMR-ETR3 In XFMR-ETR3P D 480 135 113 Pos: 24.4676 34.9538 XFMR-ETR3S WG 208 312 Zero: 24.4676 34.9538 __ _____ XFMR-ETR4 In XFMR-ETR4P D 480 90 75 Pos: 38.5667 42.4227 XFMR-ETR4S WG 208 208 Zero: 3A.5667 42.4227 XFMR-ETRS In XFMR-ETRSP D 480 36 30 Pos: 157.9433 117.1833 XFMR-ETRSS WG 208 83 Zero: 157.9433 I17.1833 XFMR-TR1 In XFMR-TR1P D 480 1,203 1,000 Pos: 0.0060 6.0400 XFMR-TR1S WG 208 2,776 Zero: 0.0040 4.0000 XFMR-TR2 [n XFMR-TR2P D 480 601 500 Pos: 1.5834 8.6564 XFMR-TR2S WG 208 1,388 Zero: 1.5834 8.6564 __ _ . _ __ _ _ _ . _ __ _ __ _ _ XFMR-TR3 In XFMR-TR3P D 480 601 500 Pos: 1.5834 8.6564 XFMR-TR3S WG 208 1,388 Zero: 1.5834 8.6564 XFMR-TR4 In XFMR-TR4P D 480 271 225 Pos: 53404 27.0329 XFMR-TR4S WG 208 625 Zero: 53404 27.0329 XFMR-TRS In XFMR-TRSP D 480 361 300 Pos: 3.5180 17.9927 XFMR-TRSS WG 208 833 Zero: 3.51 SO 17.9927 - __ - _ __ ____ - - _ __ _ ll ` Xformer InlOut ---------------Primary 8 Secondary---__.____. Nominal Z PU(100 MVA Base) Name Service gus Conn. Volts FLA kVA R pu jX pu XFMR-UTILI ln XFMR-UTILIP WG 24,900 35 1,500 Pos: 0.5479 3.4906 - -_ _ XFMR-UTILIS WG 480 1,R04 Zero: 0.5479 3.4906 XFMR-UTIL2 In XFMR-UTIL2P WG 24,900 35 ],500 Pos: 0.5479 3.4906 XFMR-LTI'IL2S WG 480 1,804 Zero: 0.5479 3.4906 _ __ � 12 Project:050875 Four Seasons I Utility Date: 28 January 2008 Time: 12:26:08PM DAPPER Unbalanced Fault Report Comprehensive Short Circuit Study Settings Three Phase Fauk Yes Faulted Bus All Buses Single Line to Ground Yes Bus Voltages First Bus From Fault Line to Line Fault No Branch Currents First Branch From Fauit Line to Line to Ground No Phase or Sequence RepoR phase quantities Motor Contribution Yes Fault Current Calculation Asymmetrical RMS(with DC offset and Decay) Transformer Tap Yes Asym Fauit Current at Time 4.00 Cycles Xformer Phase Shift Yes Fault Location Bus 3-Phase 3-Phase 3P SLG SLG SLG Mom ----3P Asym Amps----- Bus Name Voltage Amps MVA X/R Amps MVA 7UR AmPg 3 Cycles 5 Cycles 8 Cycles ATS-] 480 32,893 27.35 4.44 29,724 8.24 3.34 40,085 32,900 32,893 32,893 ATS-2 480 27,513 22.87 3.73 25,071 6.95 2.81 32,214 27,514 27,513 27,513 DISC CHILI 4R0 23,284 1936 2.58 19,703 5.46 2.05 25,235 23,284 23,284 23,284 DISGCHIL2 4R0 22,761 18.92 2.40 1 R,747 5.20 1.91 24,369 22,761 22,761 22,761 DISC-KITCH 20R 4,583 1.65 137 4,379 0.53 130 4,630 4,583 4,583 4,583 DISC-RETAIL 208 3,499 1.26 0.77 2,852 034 0.79 3,500 3,499 3,499 3,499 DISGSH-PWI 208 3,113 1.12 1.16 2,415 0.29 1.05 3,126 3,113 3,113 3,113 DISGSH-PW2 208 3,655 132 1.19 2,863 0.34 1.07 3,674 3,655 3,655 3,655 DISCELEVCPI 480 12,857 10.69 1.10 10,093 2.80 1.05 12,899 12,857 12,857 12,857 DISCELEVCP2 480 12,857 10.69 1.10 10,093 2.80 1.05 12,899 ]2,857 12,857 12,857 D[SCELEVHPI 4R0 12,85? 10.69 I.10 10,093 2.80 ].OS 12,899 12,857 12,857 12,857 DISCELEVF{S1 4R0 14,057 1L69 1.35 10,924 3.03 1.21 14,191 14,057 14,057 14,057 1 Fault Location Bus 3-Phase 3-Phase 3P SLG SLG SLG Mom ----3P Asym Amps-- Bus Name Voltage Amps MVA X/R Amps MVA X/R Amps 3 Cycles 5 Cycles 8 Cycles DISCELEVHS2 480 14,057 11.69 135 10,924 3.03 1.21 14,191 14,057 14,057 14,057 DISCELEVRPI 480 17,818 14.81 I.OS 14,895 4.13 1.05 17,864 17,818 17,818 17,818 DISCELEVRP2 480 17,818 14.81 1.05 14,895 4.13 1.05 17,864 17,81 R 17,818 17,818 DISCELEVRSI 4A0 20,207 16.80 1.41 16,737 4.64 1.31 20,438 20,207 20,207 20,207 DISCELEVRS2 480 20,207 16.80 1.41 16,737 4.64 1.31 20,438 20,207 20,207 20,207 DISCELEVRS3 480 20,207 16.80 1.41 16,737 4.64 131 2Q438 20,207 20,207 20,207 D[SCELEWSI 480 12,857 10.69 1.10 10,093 2.80 1.05 12,899 12,857 12,857 12,857 EMCC-ElA 480 21,944 18.24 2.95 18,335 5.08 2.03 24,412 21,944 21,944 21,944 EMCGE9A 480 6,505 5.41 O.SR 5,45R L51 0.66 6,506 6,505 6,505 6,505 GEN BUS 480 0 0.00 0.00 0 0.00 000.00 0 0 0 0 MCGIA 4R0 28,319 23.54 4.15 25,845 7.16 3.00 33,974 28,322 28,319 28,319 MCG2B 480 9,064 7.54 1.64 6,938 1.92 1.32 9,258 9,064 9,064 9,064 MCC-3B 480 1],474 9.54 1.62 8,939 2.4R 133 I 1,710 11,474 11,474 11,474 MCC-4A 480 15,161 12.60 2.48 12,368 3.43 1.70 16,320 15,161 15,161 15,161 MCC-6C 4R0 6,528 5.43 1.40 4,911 1.36 1.18 6,600 6,528 6,528 6,528 MCC-7A 4R0 3,845 3.20 0.32 3,467 0.96 0.41 3,R45 3,845 3,845 3,845 MCC-9A 480 3,407 2.83 031 3,074 0.85 0.40 3,407 3,407 3,407 3,407 MCC-9B 4R0 12,381 10.29 1.85 9,719 2.69 1.45 12,791 12,3A1 12,381 12,381 PNL-DIM-BRl 208 6,355 2.29 1.60 5,2I1 0.63 131 6,479 6,355 6,355 6,355 PNL-DIM-BR2 208 6,516 235 1.60 5,356 0.64 132 6,644 6,516 6,516 6,516 PNL-DIM-DR1 208 1,763 0.64 0.32 1,584 0.19 0.40 1,763 1,763 1,763 1,763 PNL-DIM-DR2 208 2,830 1.02 0.51 2,451 0.29 0.59 2,830 2,830 2,830 2,830 PNL-DIM-LOB 20R 3,467 1.25 0.47 3,102 0.37 0.51 3,467 3,467 3,467 3,467 PNL-D[M-SPA 208 4,302 1.55 0.89 3,384 0.41 0.89 4,306 4,302 4,302 4,302 PNL-DIM-SPB 208 12,238 4.41 232 11,502 138 1.R5 13,027 12,238 12,23R 12,238 PNL-DP-CD9A 4R0 15,145 12.59 0.76 13.362 3.70 O.A2 15,149 15,145 15,145 15,145 PNL-DP-DIA 480 30,922 25.71 4.12 28,700 7.95 3.33 37,036 30,925 30,922 30,922 2 Fault Loeation Bus 3-Phase 3-Phase 3P SLG SlG SLG Mom ------3P Asym Amps------ Bus Name Voitage Amps MVA X/R Amps MVA XIR Amps 3 Cycles 5 Cycles S Cycles PNL-DP-DSB 208 8,968 3.23 1.69 7,824 0.94 1.42 9,185 8,968 8,968 8,968 PNL-DP-D6A 480 11,734 9.76 1.65 9,237 2.56 138 11,989 11,734 11,734 11,734 PNL-DP-D6B 480 8,760 7.28 1.59 6,686 1.85 1.29 8,928 8,760 8,760 8,760 PNL-DP-DBI 480 22,851 19.00 3.29 19,744 5.47 2.24 26,008 22,852 22,851 22,851 PNL-DP-DC1 208 7,971 2.87 3.55 8,359 1.00 3.63 9,229 7,97Y 7,97] 7,971 PNL-DP-DC2 20R 9,594 3.46 3.13 1Q637 1.28 3.23 10,806 9,594 9,594 9,594 PNL-DP-DL 4R0 16,764 ]3.94 1.79 13,776 3.82 1.53 17,257 16,764 16,764 16,764 PNL-DP-DSMI 480 11,281 938 1.60 8,844 2.45 1.35 11,500 11,281 11,281 11,281 PNL-DP-DSM2 4R0 12,287 10.22 1.65 9,706 2.69 1.39 12,559 12,287 12,287 12,287 PNL-DP-DSM3 480 7,827 6.51 1.41 5,945 1.65 1.22 7,919 7,827 7,827 7,827 PNL-DP-DSM4 4R0 6,316 5.25 1.35 4,752 1.32 1.17 6,377 6,316 6,316 6,316 PNL-DP-DSMS 4R0 12,367 10.2A 1.46 9,838 2.73 130 12,534 12,367 12,367 12,367 PNL-DP-RC3 208 13,232 4.77 2.98 12,189 1.46 1.84 14,752 13,232 13,232 13,232 PNL-DP-RCS 20R 9,076 3.27 1.91 7,621 0.92 139 9,409 9,076 9,076 9,076 PNL-DP-RC7 208 8,396 3.02 I.RO 6,959 0.84 134 8,648 8,396 8,396 8,396 PNL-EDIMBRI 208 2,081 0.75 0.54 1,971 0.24 O.SR 2,081 2,081 2,081 2,081 PNL-EDIMDRI 208 2,223 0.80 0.54 2,070 0.25 0.59 2,223 2,223 2,223 2,223 PNL-EDIMDR2 20R 1,718 0.62 0.47 1,613 0.19 0.52 1,718 1,718 1,718 1,718 PNL-EDIMLOB 208 2,195 0.79 0.56 2,086 0.25 0.60 2,195 2,195 2,195 2,195 PNL-EDIMSPA 208 1,256 0.45 038 1,156 0.14 0.45 1,256 1,256 1,256 1,256 PNL-EDIMSPB 208 3,813 137 1.00 3,825 0.46 0.98 3,820 3,813 3,813 3,813 PNL-EDP1 208 5,142 1.85 1.44 5,197 0.62 1.39 5,208 5,142 5,142 5,142 PNL-EDP2 208 4,943 1.78 1.49 5,255 0.63 1.46 5,015 4,943 4,943 4,943 PNL-EDP3 4R0 31,494 26.18 4.18 28,07R 7.78 3A6 37,859 31,498 31,494 31,494 PNL-EDP6 208 3,931 1.42 l.]6 3,8R7 0.47 1.12 3,948 3,931 3,931 3,931 PNL-EDPED2B 480 3,335 2.77 0.30 3,001 0.83 039 3,335 3,335 3,335 3,335 PNL-EDPED9B 480 1,855 1.54 0.25 1,682 0.47 035 1,855 1,855 1,855 1,855 3 ' Fault Locatfon Bus 3-Phase 3-Phase 3P SLG SLG SLG Mom -----3P Asym Amps-- Bus Name Voltage Amps MVA X/R Amps MVA X/R Amps 3 Cycles 5 Cycles 8 Cycles PNL-EDPELVI 480 27,135 22.56 , 3.18 23,227 6.44 2.37 3Q666 27,136 27,135 27,135 PNL-EDPELV2 480 17,355 14.43 2.09 13,54R 3.75 1.61 18,190 17,355 17,355 17,355 PNL-ELPEL2A 480 18,431 1532 1.55 15,647 4.34 139 ]8,749 18,43] 18,431 18,431 PNL-ELPEL2B 480 5,097 4.24 0.56 4,285 1.19 0.64 5,097 5,097 5,097 5,097 PNL-ELPEL4A 480 14,882 1237 1.02 12,698 3.52 1.00 14,913 14,882 14,882 14,882 PNL-ELPELSB 480 4,69? 3.91 0.52 3,984 1.10 0.61 4,697 4,697 4,697 4,697 PN[,-EMS 1 480 24,253 20.16 3.28 2],579 5.98 239 27,585 24,253 24,253 24,253 PNL-EPEP2A 208 4,435 1.60 1.39 4,255 0.51 131 4,484 4,435 4,435 4,435 PNL-EPEP26 208 4,698 1.69 1.48 4,885 0.59 1.42 4,765 4,698 4,698 4,698 PNL-EPEP3A 208 4,132 1.49 1.23 3,922 0.47 1.18 4,157 4,132 4,132 4,132 PNL-EPEP3B 208 4,130 1.49 1.l3 4,200 0.50 1.l 0 4,146 4,130 4,I 30 4,130 PNL-EPEP3C 20R 2,959 1.07 1.24 2,671 0.32 1.16 2,97A 2,959 2,959 2,959 PNL-EPEP4A 208 2,551 0.92 0.88 2,230 0.27 0.90 2,553 2,551 2,551 2,551 PNL-EPEPSA 20R 2,581 0.93 0.74 2,346 0.28 0.78 2,SR2 2,581 2,581 2,581 PNL-EPEPSB 208 3,671 1.32 1.53 3,511 0.42 135 3,731 3,671 3,671 3,671 PNL-EPEPSC 208 2,816 1.01 1.15 2,532 0.30 1.09 2,829 2,816 2,816 2,816 PNL-EPEP7A 208 2,359 0.85 0.67 2,14R 0.26 0.71 2,359 2,359 2,359 2,359 PNL-EPEP7B 208 3,324 1.20 1.23 3,141 0.38 1.12 3,344 3,324 3,324 3,324 PNL-EPEP7C 208 1,772 0.64 0.63 1,600 0.19 0.65 1,772 1,772 1,772 1,772 PNL-EPEP9A 20ft 1,133 0.41 0.66 1,164 0.14 0.69 1,133 1,133 1,133 1,133 PNL-EPEP9B 208 1,087 0.39 0.63 1,112 0.13 0.66 1,087 1,087 1,087 1,087 PN[,-EPEPK 208 4,458 1.61 136 4,225 0.51 1.28 4,501 4,458 4,458 4,458 PNL-LP-L1B1 208 7,lOR 2.56 1.04 6,167 0.74 0.97 7,125 7,lOR 7,108 7,108 PNL-LP-L2A 4R0 13,869 11.53 0.89 11,819 3.28 0.93 13,881 13,869 13,869 13,869 PNL-LP-L2B 480 14,414 ll.98 1.19 11,837 3.28 1.12 14,488 14,414 14,414 14,414 PNL-LP-L4A 4R0 6,706 5.58 O.SR 5,696 1.SR 0.66 6,706 6,706 6,706 6,706 PNL-LP-LSB 480 11,990 9.97 0.89 9,980 2.77 0.89 ]2,000 11,990 11,990 11,990 � 4 Fault Location Bus 3-Phase 3-Phase 3P SLG SLG SLG Mom ----3P Asym Amps--- Bus Name Voltage Amps MVA X/R Amps MVA X/R Amps 3 Cycies 5 Cyeles 8 Cycles PNL-PP-CDI 208 4,594 1.66 1.79 4,074 0.49 ].58 4,730 4,594 4,594 4,594 PNL-PP-CD10 208 4,322 1.56 1.50 3,735 0.45 1.32 4,386 4,322 4,322 4,322 PNL-PP-CDll 208 4,157 1.50 1.47 3,56R 0.43 130 4,214 4,157 4,157 4,157 PNL-PP-CD12 208 4,499 L62 1.53 3,918 0.47 1.34 4,572 4,499 4,499 4,499 PNL-PP-CD13 208 4,472 1.61 1.76 3,942 0.47 1.55 4,595 4,472 4,472 4,472 PNL-PP-CD14 208 3,988 1.44 1.63 3,439 0.41 1.44 4,073 3,988 3,988 3,988 PNL-PP-CD15 208 4,004 1.44 1.45 3,415 0.4] ].28 4,056 4,004 4,004 4,004 PNL-PP-CD16 20R 4,626 1.67 1.55 4,050 0.49 ]36 4,705 4,626 4,626 4,626 PNL-PP-CD2 208 5,379 1.94 1.69 4,867 O.SA 1.4R S,SOA 5,379 5,379 5,379 PNL-PP-CD3 208 5,654 2.04 1.74 5,178 0.62 1.53 5,805 5,654 5,654 5,654 PNL-PP-CD4 208 4,355 1.5? 1.73 3,819 0.46 1.52 4,468 4,355 4,355 4,355 PNL-PP-CDS 208 4,439 1.60 1.52 3,855 0.46 133 4,508 4,439 4,439 4,439 PNL-PP-CD6 208 4,157 1.50 1.47 3,568 0.43 130 4,214 4,157 4,157 4,157 PNL-PP-CD7 208 5,210 1.R8 1.65 4,679 0.56 1.45 5,326 5,210 5,210 5,210 PNL-PP-CD8 208 5,158 1.86 1.96 4,698 . 0.56 1.73 5,363 5,158 5,158 5,158 PNL-PP-CD9 20R 4,244 1.53 1.70 3,702 0.44 1.49 4,347 4,244 4,244 4,244 PNL-PP-P]A 208 3,836 1.38 0.54 3,290 0.40 0.61 3,836 3,836 3,836 3,836 PNL-PP-P1B 208 8,968 3.23 1.69 7,824 0.94 1.42 9,185 A,968 8,968 8,968 PNL-PP-P1K 20A 9,109 3.28 L82 7,561 0.91 138 9,394 9,109 9,109 9,109 p�,_PP_P2A 208 6,994 2.52 0.73 6,064 0.73 OJ4 6,995 6,994 6,994 6,994 PNL-PP-P2B 20R 12,073 435 2.33 11,330 1.36 1.85 12,R60 12,073 12,073 12,073 PNL-PP-P2K 20R 7,348 2.65 1.82 5,952 0.71 1.34 7,575 7,348 7,348 7,348 PNL-PP-P3A 208 10,000 3.60 1.72 R,452 1.02 1.34 10,254 10,000 10,000 10,000 PNL-PP-P3B 208 10,125 3.65 2.53 9,269 l.11 1.78 ]0,936 10,125 10,125 10,125 PNL-PP-P3C 208 7,103 2.56 1.4R 5,946 0.71 1.27 7,204 7,103 7,103 7,103 i PNL-PP-P3K 208 6,656 2.40 1.40 5,334 0.64 1.17 6,729 6,656 6,656 6,656 '� PNL-PP-P4A 208 6,092 2.19 1.54 4,A09 0.58 1.23 6,194 6,092 6,092 6,092 5 Fault Location Bus 3-Phase 3-Phase 3P SLG SLG SLG Mom -----3P Asym Amps-- Bus Name Voltage Amps MVA X/R Amps MVA X/R Amps 3 Cycles 5 Cycles 8 Cycles PNL-PP-P4A1 208 6,307 2.27 1.56 4,996 0.60 1.24 6,418 6,307 6,307 6,307 PNL-PP-P4B 20R 6,137 2.21 L58 5,009 0.60 1.30 6,251 6,137 6,137 6,137 PNL-PP-P4C 20R 4,920 1.77 1.74 3,953 0.47 131 5,052 4,920 4,920 4,920 PNL-PP-P4K 208 2,219 0.80 0.46 1,900 0.23 0.55 2,219 2,219 2,219 2,219 PNL-PP-PSA 208 7,824 2.82 1.69 6,352 0.76 1.31 8,012 7,824 7,824 7,824 PNL-PP-PSB 208 8,091 2.92 1.59 6,924 0.83 1.34 8,247 8,091 8,091 8,091 PNL-PP-PSC 208 4,745 1.71 1.73 3,799 0.46 130 4,868 4,745 4,745 4,745 PNL-PP-P6A 208 3,550 1.28 0.53 3,044 037 0.59 3,550 3,550 3,550 3,550 PNL-PP-P6B 20R 6,033 2.17 L57 4,913 0.59 1.29 6,143 6,033 6,033 6,033 PNL-PP-P6C 20R 4,531 1.63 1J1 3,611 0.43 1.29 4,644 4,531 4,531 4,531 PNL-PP-P7A 208 3,382 1.22 0.52 2,89R 035 0.59 3,382 3,382 3,382 3,382 PNL-PP-P7B 20R 5,806 2.09 1.70 4,726 0.57 133 5,950 5,806 5,806 5,806 p�,_PP_P7C 208 4,430 1.60 1 JO 3,523 0.42 1.29 4,539 4,430 4,430 4,430 PNL-PP-PSB 208 5,395 1.94 1.5] 4,334 0.52 1.26 5,479 5,395 5,395 5,395 pM,_pp_pgC 20R 4,334 1.56 1.69 3,440 0.41 1.28 4,439 4,334 4,334 4,334 PNL-PP-P9A 208 2,414 0.87 0.50 2,228 0.27 0.57 2,414 2,414 2,414 2,414 PNL-PP-P9B 208 2,482 0.89 0.45 2,308 0.28 0.51 2,482 2,4R2 2,482 2,482 PNL-PP-PL 20R 6,787 2.45 1.60 5,417 0.65 1.26 6,918 6,787 6,787 6,787 PNL-PP-PR 208 2,681 0.97 0.4R 2,296 0.28 0.56 2,681 2,681 2,68] 2,681 PNL-PP-PSPA 208 16,517 5.95 2.86 15,878 1.91 1.96 18,267 16,517 16,517 16,517 PNL-PP-PSPB 208 12,238 4.41 232 11,502 1.38 1.R5 13,027 12,238 12,238 12,238 PNL-PP-UPS1 208 2,242 0.81 0.64 2,092 0.25 0.67 2,242 2,242 2,242 2,242 PNL-PP-UPS2 208 1,771 0.64 0.85 1,496 0.18 0.87 1,772 1,771 1,771 1,771 PNL-PPPOOLA 208 8,R75 3.20 1.97 7,381 0.89 1.42 9,233 8,R75 8,875 8,875 PNL-PPPOOLB 208 10,907 3.93 2.29 9,991 1.20 1.76 11,587 10,907 10,907 10,907 PNL-PPRC3.1 20R 7,456 2.69 1.66 6,076 OJ3 1.2A 7,625 7,456 7,456 7,456 PNL-PPRC3.2 20R 6,314 2.27 1.52 5,04A 0.61 1.21 6,414 6,314 6,314 6,314 6 Fault Location Bus 3-Phase 3-Phase 3P SLG SLG SlG Mom -----3P Asym Amps---- Bus Name Voltage Amps MVA X/R Amps MVA X/R Amps 3 Cycles 5 Cyeles 8 Cycles PNL-PPRC4.1 208 7,456 2.69 1.66 6,076 0.73 1.28 7,625 7,456 7,456 7,456 PNL-PPRC4.2 208 6,3]4 2.27 1.52 5,048 0.61 1.21 6,414 6,314 6,314 6,314 PNL-PPRC4.3 208 6,314 2.27 1.52 5,048 0.61 1.21 6,414 6,314 6,314 6,314 PNL-PPRC4A1 208 5,292 ]91 1.40 4,l63 0.50 1.15 5,352 5,292 5,292 5,292 PNL-PPRC4B1 208 4,615 1.66 1.33 3,595 0.43 1.12 4,657 4,615 4,615 4,615 PN[.-PPRC4C1 208 5,759 2.07 1.45 4,563 0.55 1.17 S,A35 5,759 5,759 5,759 PNL-PPRC5.1 208 5,125 1.85 139 4,022 0.48 1.14 5,180 5,125 5,125 5,125 PNL-PPRCSZ 208 4,821 1.74 1.36 3,'767 0.45 ].13 4,868 4,821 4,821 4,821 PNL-PPRC53 208 4,682 1.69 1.34 3,651 0.44 1.12 4,725 4,6R2 4,682 4,682 PNL-PPRC6.1 208 5,125 1.85 1.39 4,022 0.48 1.14 5,180 5,125 5,125 5,125 PNL-PPRC6.2 208 4,821 1.74 136 3,767 0.45 1.13 4,868 4,821 4,821 4,821 PNL-PPRC63 208 4,682 1.69 1.34 3,651 0.44 1.12 4,725 4,682 4,682 4,682 PNL-PPRC7.1 208 4,750 1.71 135 3,708 0.45 1.12 4,795 4,750 4,750 4,750 PNL-PPRC7.4 208 4,750 1.71 1.35 3,708 0.45 1.12 4,795 4,750 4,750 4,750 PNL-PPRC8.1 208 4,750 1.71 135 3,708 0.45 1.12 4,795 4,750 4,750 4,750 PNL-PPRC8.4 20R 4,750 1.71 135 3,70R OAS 1.12 4,795 4,750 4,750 4,750 PNLEDPECD9A 4R0 3,335 2.77 030 3,001 0.83 0.39 3,335 3,335 3,335 3,335 PNLPPRC3AHC 208 6,314 2.27 1.52 5,04R 0.61 1.21 6,414 6,314 6,314 6,314 SWBD-DP-D2A 20R 21,211 7.64 5.33 22,867 2.75 3.21 26,961 21,229 21,212 21,211 SWBD-DSBHA 208 17,666 636 3.95 19,275 231 3.42 20,953 17,667 ]7,666 17,666 SWBD-DSBHB 208 18,023 6.49 3.96 19,75R 237 3.52 21,394 18,024 18,023 18,023 SWBD-EMSB 4R0 0 0.00 0.00 0 0.00 000.00 0 0 0 0 li SWBD-MSB-A 480 36,087 30.00 S.R2 34,799 9.64 5.31 46,774 36,143 36,OR8 36,087 SWBD-MSB-B 480 37,732 3137 5.67 35,574 9.86 4.99 48,612 37,781 37,733 37,732 UPS1(B) 208 2,882 1.04 O.AO 2,739 033 0.81 2,884 2,8R2 2,882 2,882 UPSI(N) 20R 2,882 1.04 0.80 2,739 033 0.81 2,884 2.882 2.882 2,882 UPS2(B) 208 1,875 0.68 0.86 1,595 0.19 0.8A 1,876 1,A75 1,875 1,875 7 Fault Loeation Bus 3-Phase 3-Phase 3P SLG SLG SLG Mom -------3P Asym Amps---- Bus Name Voltage Amps MVA X/R Amps MVA XIR Amps 3 Cycles 5 Cycles 8 Cycles Upg2(N) 208 1,875 0.68 0.86 ],595 0.19 0.88 1,876 1,875 1,875 1,875 XFMR-ETR1P 480 17,863 14.R5 2.13 14,924 4.14 1.69 18,780 17,R63 17,863 17,863 XFMR-ETR1S 208 5,629 2.03 1.50 5,894 0.7] 1.48 5,714 5,629 5,629 5,629 XFMR-ETR2P 480 ]0,134 8.43 1.89 7,9R7 2.21 1.42 10,490 10,134 10,134 10,134 XFMR-ETR2S 208 5,096 1.84 1.51 5,493 0.66 1.49 5,176 5,096 5,096 5,096 XFMR-ETR3P 480 22,669 18.85 2.77 19,064 5.28 2.03 24,903 22,669 22,669 22,669 XFMR-ETR3S 208 5,806 2.09 L52 6,022 0.72 1.49 5,898 5,806 5,806 5,806 XFMR-ETR4P 480 19,882 16.53 1.66 16,I 87 4.49 1.49 20,328 19,882 19,882 19,882 XFMR-ETR4S 20R 4,387 1.58 1.14 4,529 0.54 1.13 4,404 4,3R7 4,3R7 4,387 XFMR-ETRSP 480 3,519 2.93 0.33 3,144 0.87 0.42 3,519 3,519 3,519 3,519 XFMR-ETRSS 20R 1,210 0.44 0.67 1,271 0.15 0.69 1,210 1,210 1,210 1,210 XFMR-TRIP 4R0 33,810 28.11 5.19 32,196 8.92 434 42,722 33,R34 33,811 33,810 XFMR-TRIS 208 29,042 ]0.46 14.05 36,038 433 ]6.95 43,842 30,964 29,372 29,065 XFMR-TR2P 480 22,992 19.12 3.42 20,411 5.66 237 26,401 22,992 22,992 22,992 XFMR-TR2S 208 19,807 7.14 4.48 22,614 2.72 4.68 24,196 19,81] 19,807 19,807 XFMR-TR3P 4R0 23,285 1936 3.31 20,289 5.62 2.28 26,543 23,2R5 23,285 23,285 XFMR-TR3S 208 19,905 7.17 4.42 22,699 2J3 4.63 24,236 19,909 ]9,905 19,905 XFMR-TR4P 480 19,139 15.91 1.63 15,656 434 1.48 19,537 19,139 19,139 19,139 XFMR-TR4S 208 8,282 2.9R 3.75 8,807 1.06 4.06 9,710 8,282 8,282 8,282 XFMR-TRSP 480 12,425 10.33 1.79 9,770 2.71 1.43 12,795 12,425 12,425 12,425 XFMR-TRSS 208 10,021 3.61 3.21 11,306 136 3.55 11,351 10,021 ]0,021 10,021 XFMR-UTILIP 24,900 1,000,054 43,130.37 5.00 1,00Q036 14,376.53 5.00 1,252,758 1,000,585 ],000,057 1,000,054 XFMR-UT[L1S 4R0 37,043 30.80 6.49 35,977 9.97 6.44 49,132 37,154 37,046 37,043 XFMR-UTIL2P 24,900 1,000,084 43,131.69 5.00 1,000,056 14,376.83 5.00 1,252,797 1,000,615 1,000,087 1,OOQ084 XFMR-UT[L2S 4R0 39,019 32.44 6.48 37,197 10.31 6.44 51,746 39,135 39,022 39,019 8 Project:050875 Four Seasons I Generator Date: 28 January 2008 Time: 12:26:53PM DAPPER Unbalanced Fault Report Comprehensive Short Circuit Study Settings Three Phase Fault Yes Faulted Bus All Buses Single Line to Ground Yes Bus Voltages First Bus From Fau1t Line to Line Fault No Branch Currents First Branch From Fault Line to Une to Ground No Phase or Sequence Report phase quantities Motor Contribution Yes Fault Current Calculation Asymmetrical RMS(with DC offset and Decay) Transformer Tap Yes Asym Fault Current at Time 4.00 Cycles Xformer Phase Shift Yes Fault Location Bus 3-Phase 3-Phase 3P SLG SLG SLG Mom -------3P Asym Amps---- Bus Name Voltage Amps MVA X/R Amps MVA XIR Amps 3 Cyeles 5 Cyeles 8 Cycles ATS-1 480 8,425 7.00 8.71 0 0.00 Infinite 11,831 8,535 8,431 8,425 ATS-2 480 R,119 6.75 7.65 0 0.00 Infinite 11,131 8,178 8,122 8,119 DISC-CHIL1 480 0 0.00 0.00 0 0.00 000.00 0 0 0 0 DISC-CHIL2 480 0 0.00 0.00 0 0.00 000.00 0 0 0 0 DISGKITCH 208 3,981 ].43 1.63 3,982 0.48 1.47 4,065 3,981 3,981 3,981 , DISC-RETAIL 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 DISC-SH-PW 1 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 DISC-SH-PW2 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 DISCELEVCPI 480 6,685 5.56 2.59 0 0.00 Infinite 7,249 6,685 6,685 6,685 DISCELEVCP2 480 6,685 5.56 2.59 0 0.00 Infinite 7,249 6,685 6,685 6,685 DISCELEVHPI 480 6,685 5.56 2.59 0 0.00 ►nfinite 7,249 6,685 6,685 6,685 DISCELEVHSI 480 6,858 5.70 3.17 0 0.00 lnfinite 7,746 6,R58 6,858 6,858 1 Fault Location Bus 3-Phase 3-Phase 3P SLG SLG SLG Mom -----3P Asym Amps---- Bus Name Voltage Amps MVA XIR Amps MVA X/R Amps 3 Cycles 5 Cycles 8 Cycles DISCELEVHS2 480 6,858 5.70 3.17 0 0.00 Infinite 7,746 6,858 6,858 6,858 DISCELEVRPI 480 7,461 6.20 2.92 0 0.00 (nfinite g,2g4 7,461 7,461 7,461 DISCELEVRP2 480 7,461 6.20 2.92 0 0.00 Infinite $,2$4 7,461 7,461 7,461 DISCELEVRSI 480 7,652 636 3.79 0 0.00 Infinite 8,995 7,653 7,652 7,652 DISCELEVRS2 480 7,652 636 3.79 0 0.00 Infinite 8,995 7,653 7,652 7,652 DISCELEVRS3 480 7,652 636 3.79 0 0.00 Infinite 8,995 7,653 7,652 7,652 DISCELEVVS] 4R0 6,685 5.56 2.59 0 0.00 Infinite 7,249 6,6R5 6,685 6,685 EMCGEIA 480 7,682 639 6.44 0 0.00 Infinite 1Q173 7,704 7,682 7,682 EMCGE9A 480 4,674 3.R9 1.19 0 0.00 Infinite 4,697 4,674 4,674 4,674 GEN BUS 480 8,600 7.15 9.78 0 0.00 Infinite 12,319 8,780 8,614 8,600 MCC-lA 4R0 0 0.00 0.00 0 0.00 000.00 0 0 0 0 MCC-2B 4R0 0 0.00 0.00 0 0.00 000.00 0 0 0 0 MCC-3B 480 0 0.00 0.00 0 0.00 000.00 0 0 0 0 MCC-4A 4R0 0 0.00 0.00 0 0.00 000.00 0 0 0 0 MCC-6C 480 0 0.00 0.00 0 0.00 000.00 0 0 0 0 MCG7A 480 0 0.00 0.00 0 0.00 000.00 0 0 0 0 MCC-9A 480 0 0.00 0.00 0 0.00 000.00 0 0 0 0 MCC-9B 480 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-DIM-BRl 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-DIM-BR2 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-DIM-DRI 20R 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-DIM-DR2 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-DIM-LOB 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-DIM-SPA 20R 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-DIM-SPB 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-DP-CD9A 4R0 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-DP-DIA 4R0 0 0.00 0.00 0 0.00 000.00 0 0 0 0 2 Fault Location Bus 3-Phase 3-Phase 3P SLG SLG SLG Mom ------3P Asym Amps---�- Bus Name Voltage Amps MVA X/R Amps MVA X/R Amps 3 Cycles 5 Cycles S Cycles PNL-DP-DSB 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-DP-D6A 480 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-DP-D6B 480 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-DP-DB1 480 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-DP-DC1 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-DP-DC2 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-DP-DL 480 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-DP-DSMI 480 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-DP-DSM2 480 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-DP-DSM3 480 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-DP-DSM4 480 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-DP-DSMS 4R0 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-DP-RC3 20A 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-DP-RCS 20R 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-DP-RC7 20R 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-EDIMBRI 208 1,992 OJ2 0.62 1,912 0.23 0.64 ],992 1,992 1,992 1,992 PNL-EDIMDR 1 208 2,I 21 0.76 0.63 2,005 0.24 0.65 2,12] 2,]21 2,121 2,121 PNL-EDIMDR2 20R 1,662 0.60 0.54 1,576 0.19 0.57 1,662 1,662 1,662 1,662 PNL-EDIMLOB 208 2,094 0.75 0.65 2,019 0.24 0.66 2,094 2,094 2,094 2,094 PNL-EDIMSPA 208 1,230 0.44 0.43 1,139 0.14 0.48 1,230 1,230 ],230 1,230 PNL-EDIMSPB 208 3,425 1.23 1.18 3,545 0.43 1.11 3,442 3,425 3,425 3,425 PNL-EDPI 208 4,388 1.58 1.74 4,636 0.56 1.60 4,505 4,388 4,388 4,388 PNL-EDP2 20R 4,238 1.53 1.78 4,676 0.56 1.67 4,361 4,238 4,23R 4,238 PNL-EDP3 480 8,401 6.98 8.60 0 0.00 Infinite ]1,771 8,505 8,407 8,401 PNL-EDP6 208 3,500 1.26 136 3,585 0.43 1.26 3,535 3,500 3,500 3,500 PNL-EDPED2B 480 2,935 2.44 0.59 0 0.00 Infinite 2,935 2,935 2,935 2,935 PNL-EDPED9B 4R0 1,747 1.45 0.41 0 0.00 Infinite ],747 1,747 1,747 1,747 3 I Fauit Location Bus 3-Phase 3-Phase 3P SLG SLG SLG Mom ----3P Asym Amps-- Bus Name Voltage Amps MVA X/R Amps MVA X/R Amps 3 Cycles 5 Cycles 8 Cycles PNL-EDPELVI 480 8,155 6.�A 732 0 0.00 Infinite 11,084 8,202 8,157 8,155 PNL-EDPELV2 480 7,305 6.07 4.91 0 0.00 Infinite 9,113 7,309 7,305 7,305 PNL-ELPEL2A 480 7,278 6.05 3.69 0 0.00 Infinite 8,500 7,278 7,278 7,278 PNL-ELPEL2B 480 3,921 3.26 1.03 0 0.00 Infinite 3,929 3,921 3,921 3,921 PNL-ELPEL4A 480 6,886 5.73 2.51 0 0.00 Infinite 7,431 6,886 6,886 6,886 PNL-ELPELSB 480 3,713 3.09 0.95 0 0.00 Infinite 3,718 3,713 3,713 3,713 PNL-EMS1 480 7,824 6.50 6.80 0 0.00 Infinite 10,479 7,854 7,825 7,824 PNL-EPEP2A 208 3,868 139 1.64 3,878 0.47 1.48 3,952 3,868 3,868 3,868 PNL-EPEP2B 208 4,058 1.46 1.75 4,384 0.53 1.62 4,170 4,058 4,058 4,058 PNL-EPEP3A 208 3,650 131 1.45 3,609 0.43 133 3,698 3,650 3,650 3,650 PNL-EPEP3B 208 3,659 132 1.35 3,851 0.46 1.25 3,694 3,659 3,659 3,659 PNL-EPEP3C 208 2,705 0.97 1.40 2,524 030 1.26 2,735 2,705 2,705 2,705 PNL-EPEP4A 208 2,382 0.86 1.00 2,136 0.26 0.98 2,387 2,382 2,382 2,382 PNL-EPEPSA 208 2,420 0.87 0.86 2,249 0.27 0.85 2,422 2,420 2,420 2,420 PNL-EPEPSB 208 3,268 1.18 1.75 3,249 0.39 1.49 3,356 3,268 3,268 3,268 PNL-EPEPSC 208 2,590 0.93 130 2,402 0.29 1.18 2,611 2,590 2,590 2,590 PNL-EPEP7A 208 2,231 0.80 0.77 2,0'70 0.25 OJ8 2,231 2,231 2,231 2,231 PNL-EPEP7B 208 3,007 1.08 ].41 2,941 0.35 1.23 3,041 3,007 3,007 3,007 PNL-EPEP7C 208 1,702 0.61 0.70 1,559 0.19 0.70 1,702 1,702 1,702 1,702 PNL-EPEP9A 208 1,103 0.40 0.71 1,142 0.14 0.72 1,103 1,103 1,103 1,103 PNL-EPEP9B 20R 1,060 038 0.68 1,092 0.13 0.69 1,060 1,060 1,060 1,060 PNL-EPEPK 20R 3,887 1.40 1.61 3,855 0.46 1.45 3,965 3,887 3,887 3,887 PNL-LP-L1B1 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-LP-L2A 480 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-LP-L2B 4R0 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-LP-L4A 480 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-LP-LSB 480 0 0.00 0.00 0 0.00 000.00 0 0 0 0 4 Fault location Bus 3-Phase 3-Phase 3P SLG SLG SLG Mom -----3P Asym Amps---- Bus Name Voltage Amps MVA X/R Amps MVA XIR Amps 3 Cyeles 5 Cycles S Cyeles PNL-PP-CD1 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-CD10 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-CD 11 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-CD12 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-CD13 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-CD14 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-CD15 20R 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-CD16 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-CD2 20R 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-CD3 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-CD4 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-CDS 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-CD6 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-CD7 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-CD8 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-CD9 208 0 0.00 0.00 U 0.00 000.00 0 0 0 0 PNL-PP-P 1 A 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 p�.n,_pp_p�g 20R 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-P1K 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 p�,_pp_p2p 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 , PNL-PP-P2B 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-P2K 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-P3A 20R 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-P3B 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-P3C 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 I PNL-PP-P3K 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-P4A 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 5 Fault Location Bus 3-Phase 3-Phase 3P SLG SLG SLG Mom ---3P Asym Amps-- Bus Name Voltage Amps MVA X/R Amps MVA XIR Amps 3 Cycles 5 Cycles 8 Cycles PNL-PP-P4A1 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-P48 20R 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-P4C 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-P4K 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-PSA 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-PSB 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-PSC 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-P6A 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-P6B 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-P6C 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-P7A 20R 0 0.00 0.00 0 0.00 000.00 0 0 0 0 pNL-pp-p7B 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 p�,_pp_p�� 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-P8B 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-P8C 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-P9A 20R 0 0.00 0.00 0 0.00 000.00 0 0 0 0 p�,_PP_P9B 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-PL 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-PR 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-PSPA 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-PSPB 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PP-UPS1 208 2,128 0.77 0.74 2,020 0.24 0.74 2,129 2,128 2,128 2,128 PNL-PP-UPS2 208 1,690 0.61 0.93 1,454 0.17 0.92 1,692 1,690 1,690 1,690 PNL-PPPOOLA 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PPPOOLB 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PPRC3.1 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PPRC3.2 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 6 Fault Location Bus 3-Phase 3-Phase 3P SLG SLG SLG Mom ----3P Asym Amps--_ Bus Name Voltage Amps MVA X/R Amps MVA X/R Amps 3 Cyeles 5 Cycles 8 Cycles PNL-PPRC4.1 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PPRC4.2 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PPRC4.3 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PPRC4A1 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PPRC4B1 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PPRC4C1 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PPRC5.1 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PPRC5.2 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PPRC5.3 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PPRC6.1 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PPRC6.2 20R 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PPRC6.3 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PPRC7.1 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PPRC7.4 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PPRC8.1 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNL-PPRC8.4 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 PNLEDPECD9A 480 2,935 2.44 0.59 0 0.00 Infinite 2,935 2,935 2,935 2,935 PNLPPRC3AHC 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 SWBD-DP-D2A 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 SWBD-DSBHA 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 SWBD-DSBHB 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 SWBD-EMSB 480 8,468 7.04 8.97 0 0.00 Infinite 11,954 8,594 8,476 8,468 SWBD-MSB-A 480 0 0.00 0.00 0 0.00 000.00 0 0 0 0 SWBD-MSB-B 480 0 0.00 0.00 0 0.00 000.00 0 0 0 0 UPS1(B) 208 2,675 0.96 0.93 2,605 031 0.90 2,679 2,675 2,675 2,675 UPSI(N) 20R 2,675 0.96 0.93 2,605 031 0.90 2,679 2,675 2,675 2,675 UPS2(B) 20R 1,783 0.64 0.95 1,547 0.19 0.93 1,786 1,7R3 1,783 ],783 7 Fault Location Bus 3-Phase 3-Phase 3P SLG SLG SLG Mom ----3P Asym Amps----- Bus Name Voltage Amps MVA XIR Amps MVA X/R Amps 3 Cycles 5 Cycles 8 Cycles (Jpg2(N) 208 1,783 0.64 0.95 1,547 0.19 0.93 1,786 1,783 1,783 1,783 XFMR-ETR1P 480 7,092 5.90 4.54 0 0.00 Infinite g,691 7,094 7,092 7,092 XFMR-ETR1S 208 4,730 1.70 1.83 5,172 0.62 1.73 4,880 4,730 4,730 4,730 XFMR-ETR2P 480 5,494 4.57 330 0 0.00 Infinite 6,259 5,494 5,494 5,494 XFMR-ETR2S 208 4,348 1.57 1.81 4,861 0.58 1.72 4,482 4,348 4,348 4,348 XFMR-ETR3P 4A0 7,657 637 6.03 0 0.00 Intinite 10,001 7,672 7,657 7,657 XFMR-ETR3S 208 4,849 1.75 1.87 5,269 0.63 1.75 5,014 4,849 4,849 4,849 XFMR-ETR4P 480 7,442 6.19 4.03 0 0.00 Infinite g,g72 7,442 7,442 7,442 XFMR-ETR4S 208 3,857 1.39 137 4,121 0.49 1.29 3,896 3,857 3,857 3,857 XFMR-ETRSP 480 3,051 2.54 0.64 0 0.00 Infinite 3,051 3,051 3,051 3,051 XFMR-ETRSS 20R 1,176 0.42 0.72 1,244 0.15 0.73 1,176 1,176 1,176 1,176 XFMR-TR1P 480 0 0.00 0.00 0 0.00 000.00 0 0 0 0 XFMR-TRIS 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 XFMR-TR2P 480 0 0.00 0.00 0 0.00 000.00 0 0 0 0 XFMR-TR2S 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 XFMR-TR3P 480 0 0.00 0.00 0 0.00 000.00 0 0 0 0 XFMR-TR3S 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 XFMR-TR4P 4R0 0 0.00 0.00 0 0.00 000.00 0 0 0 0 XFMR-TR4S 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 XFMR-TRSP 480 0 0.00 0.00 0 0.00 000.00 0 0 0 0 XFMR-TRSS 208 0 0.00 0.00 0 0.00 000.00 0 0 0 0 XFMR-UTILIP 24,900 0 0.00 0.00 0 0.00 000.00 0 0 0 0 XFMR-UTIL]S 4R0 0 0.00 0.00 0 0.00 000.00 0 0 0 0 XFMR-UT[L2P 24,900 0 0.00 0.00 0 0.00 000.00 0 0 0 0 j XFMR-UTIL2S 480 0 0.00 0.00 0 0.00 000.00 0 0 0 0 ' 8 . . . . .. ... .. . , � �._. ;.'... �,. , . . ?.:s_... . . . ,:,.e._:.,. .. . .._.._.�: . . ... . .. .. ... .......� .. .. .. ..... . ... . Equip Rating 1/2 Equipment (KA) Cycle 1/2 I @ Underrated? Ty� Int Intl With Cont Sym(KA) Cycle Cont Calc Type �nt Intl With of C+L ST �nt Part X/R (AC Asym Parting Int Of C+L ST Node ID Node Name Volts Device Sym Asym Asym 10 CY Time Time Ratio Comp) (KA) Time Value S# Fault Sym Asym Asym'10 CY �,UTIL-HCE1 UTIL HCE1 ' 24900 i N/A �', , ' ' - _ _ �_ _ . . ! Comment: . _.._. ..: . ., ;:..�,,.r. ��; �. ,.r. .h. . :,:, ...,. . : . �...�. . N . � x� ., � . ,.,,,- _ ;� ,. , ___. IUTIL-HCE2 �UTIL HCE2 ; 249001 N/A �! '� �� �' ' I � � ; ; Comment: ,_ , -. , _.. :,.� ..,�. . . .-V, :,. : .,.:; ,�,. , ,XFMR-UTIL1 XFMR UTILIP � 24900' N/A ! 5.00 1,000.1 1,252.8 I i 1 ; 3 P � Comment: �_, . .,_ <, � ,.;� w � � , d::.,� . �. , a :_ �. I � .,�-� , �.�. ,., , ,, �_. > . r . _ _. .: 'XFMR-UTIL2 XFMR UTIL2P ' 24900!� N/A I , 5.00 1,000.1 1,252.8 ! � 1 ' 3 P __ �... _ _ _ i : � . Comment: � ,�a,<�. � .� ,:�, � �;�� b .� . I Monday,January 28,2008 Page 1 of 1 � � � _ Equip 1/2 Cycle 1/2 Cycle 1/2 Cycle Equipment Type of _ Ratin ___ X/R Sym (KA) Asym Sym (KA) Type Of Underrated? jATS-e ID ATS-e Name 4805� DATS e Cat ,' W it�h Int , R�� , Fault With � int � (ACComp) (KA) MF i X MF S# � 32.9 40.1 ' � 1 3 Phase I I , � � _.. �_ � �_ _ __ _ , , _ _. _ . ._ _ _' _ ,._ - Comment: ... , � ,�:. � .e . �. ., �. . . . . ,. _ . �ATS-2 ATS-2 480 � ATS � �� 65.0 i 3.73 � 27.5 32.2 �� I 1 ' 3 Phase i � I � - -- -_ _ _ _ _ Comment: �DISGCHILI DISC CHIL1 480 I _N/A _ I I! __ I� 0.00 '', OA I . 0.0 ; ' 3 �� , 2 � 3 Phase�- I � Comment: Electrical contactor states that there is no local protection at the chillers � - ---I - I I 2 40 i 22.8 � 24.4 i, I I 1 3 Phase i , iDISGCHiL2 DISC CHIL2 480 � N/A 1_- �__ _ __-- _�_ _ _ � , ----�--- -- _ _. _ _ ___ Comment: Electrical contactor states that there is no local protection at the chillers � � _ ' ,,�, .,. _ 1 ��c 3 Phase 'I DISCELEVC DISCELEVCPI 480 J _ N/A 1 10 12.9 12.9 I Comment: DISCELEVC DISCELEVCP2 480 ' N/A ', ^ A ' 1.10 12.9 . 12.9.. .... .;_ _. . � . . ,..�. . .� ' 1 ; 3 Phase i I 1--- __ _ � .. _ Comment: DISCELEVH DISCELEVHP1 480 N/A I � ', 1.10 ' 12.9 I 12.9 ', I ;; 1 I, 3 Phase _ _ __. _!_ ,_- --- _ __ _ __ _ _ , _ . Comment: .. .. � 14.2 1 3 Phase i IDISCELEVH DISCELEVHS1 480 N/A ; �, 1.35 i 14.1 I I � Comment: DISCELEVH DISCEIEVHS2 480 , N/A ; ; 1.35 I 14.1 ! 14.2 �, 1 �� 3 Phase �, ; _ , --�------, ___� _ _ _ _ .�__ . - - �--- ! __ _ -__ _--- _ _ __- -- . -- Comment: DISCELEVR DISCELEVRP1 480 I N/A � � 1.05 17.8 �i s 17.9 .� �� � ', �1 ', 3 Phase ----y- -- ---- __ . __- - --_. . ___ _ _ __ ___ . .__. _._ _ I Comment: � �DISCELEVR DISCELEVRP2 480�_ N/A ' ', . 1.05 } 17.8 ' . 17.9 .. � 1 i �3 Phase !� �, Comment: I DISCELEVR DISCELEVRS1 480 � N/A ; 1', ; 1.41 ; 20.2 1 20.4 I j , 1 j 3 Phase --_- ---- ___ _�_- -- --- _ _ . ' _ � -___ __ ----. Comment: DISCELEVR DISCELEVRS2 480 N/A i I ' 1.41 ', 20.2 ! � 20.4 ' I i 1 � 3 Phase -_i_ �_ --�---- - -- - J --- --- 1 -- - - - Comment: ---- . - . Monday,January 28,2008 Page 1 of 18 � � � Equip 1/2 Cycle 112 Cycie 1/2 Cycle Equipment Type of Rati�_ X/R Sym (KA) Asym Sym(KA)' Type Of _ Underrated? _ i With ' Int _, Ratio ACCom (KA) , MF X MF , S# Fault With � Int IDI CE EVR DI CE EVRS3 4805 D N/A e ' Cat ' � I � P)� 20.4 ! ,, i 1 ; 3 Phase , 1.41 ; 20.2 1__ � , _ ; Comment: .,. . � .•... .;::.. . � �DISCELEW DISCELEWSI 480 � N/A I �; I 1.10 '�, 12.9 ' 12.9 � � � � � , 'i j ', 1 3 Phase , - -�--_ _ _� _ .. _ _ _ _.._ _ __ . �_ __ Comment: _ ___ __ _ _... . ,..,r . . . .: ;DISC-KITCH DISC-KITCH 208 i FUSE j 2 i 200 0 ; 1.37 4.6 4.6 ; 1 ; 4.6 �� 1 I 3 Phase � � ---L- � � _ _ _ _ - ,_ __ _ . , _ _ - Comment: DISC-RETAI DISC RETAIL 208 I_ FUSE � 2 I 200.0 ; 0.77 ' 3.5,� � .3.5 1 3.5 i 1 3 Phase I, j Comment: I :. _ ,. ,. , .:. .. , , _,:� _ i . . , :. z,,� ,. IDISGSH-PW DISC SH-PW1 208 ' FUSE 2 200.0 ', 1.16 �'', 3.1 3.1 � 1 3.1 1 3 Phase^ � ----�--_ __ _ _. _ _;_ _ _ _� _ _ _ _ _ . _ ___ _ Comment: i .;. . �. . �DISGSH-PW DISC SH PW2 208 i_ FUSE , 2 '', 200.0 1 19 j 3.7 3.7 1 3.7 � 1 3 Phase � . _ _ _ __ . __ ___ _ _ _ _' Comment: . � _ � .. :: , .,' , ,. . : . _ IEMCGE1A EMCGE1A 480 , FUSE I 2 I 30.0 2.95 21.9 24.4 � 1 21.9 ! 1 I 3 Phase � � - �_-- _. Comment: . , .:a. �;w, .. . . ,.... „ : ., . ,, , :. , �EMCGE9A EMCGE9A 480 ; FUSE 2 ' 18.0 0.58 6.5 ', 6.5 ', 1 � 6.5 � 1 � 3 Phase ' � Comment: ._ : . , . .., �. ._.. < ,._. .. . . _ _ ., .., GEN BUS GENERATOR BUS 480 ' MCCB 2 , 65.0 9.78 8.6 12.3 ' 1.13 ! 9.7 , 2 3 Phase � -_ '�---- __! , .�� � � _ _ � _ Comment: GENERATO GENERATOR 480 !--N/A I �� .,. ��._ �., - - -�� _ '! ,. , ��, x;- ' -�_ _ __ � - - _ __ Comment: - - ._. ; 34.0 � 1 ' 28.3 �� 1� 3 Phase j MCG1A MCC-1A 480 �_ FUSE � 2 , . 65.0 4.15 28.3 �_.. . . _ Comment: � , _ . MCG26 MCG26 480 � FUSE ! 2 � 25 0 '� 1.64 � 9.1 j 9.3 �, 1 I 9.1 � 1 ! 3 Phase � � Comment: -- _ _ _ _ _ - -- _ _ _ _ _ ._ ___ _ - _ _ .___ 1 ,, _ 'i R,. MCC-3B MCC 3B 480 FUSE , 2 �; 18 0 ' 1 62 ! 11.5 L 11.7 i 1 I 11.5 � 1 i 3 Phase � ---- ---__ _ _ _ _- -_ .__- _ __ __ - , __- _ - - ---- _ Comment: Monday,January 28,2008 Page 2 of 18 � � � . _ Equip 1/2 Cycie 1/2 Cycle 1/2 Cycle Equipment Type of Ratin�__ X/R Sym (KA)' Asym Sym (KA) Type Of ____Underrated? ___ --- -- Node ID ,Node Name Volts, Device Cat With Int , Ratio (ACComp) (KA) MF , X MF S# Fault With Int IMCC-4A MCC 4A 480 FUSE � 2 i 18.0 I 2.48 '; 15.2 ; 16.3 ' 1 I 15.2 1 i 3 Phase i� I -- L--- _ _ ._ _. _ _ _ _ __ _ ,_ Comment: .. . v . ..:: �, _ s �-,� : �.;-. ;,, . � . _ . .., . _ . ;,.. .. . ; r : �MCC-6C MCC 6C 480 i ,. ,.._.� ,.. w . ' FUSE , 2 , 18.0 ', 1.40 6.5 6 6 1 i 6.5 1 3 Phase � I _ _ �__. _ _ .,. � _ _ _ _ _ _ Comment: __ �__ _ .. . . �_ ,._ . : _'. . _ , . .:_ .. . . . . ,��_..� .. . - _ ._ , . IMCC-7A MCC 7A 480 ' FUSE � 2 18.0 0.32 3.8 3.8 1 3.8 � 1 � 3 Phase I Comment: . . ,.,_ . �: i ;MCC-9A IMCC-9A 480 � FUSE : 2 � 18.0 0.31 3.4 3.4 1 . 3 4l , 1 , � 3 Phase ! � � , � _ _ _,___ . _ Comment: �..��. .�+ �� ,� �,:,,� . �,.�� � �,:o ,. ��.,, �. .. ,�:.�;. . �-. ...z> .�� „�-.�. .v..�,.,� _� . ' FUSE ' 2 �y 25.0 ' 1.85 12.4 12.8 1 , 12.4 1 I 3 Phase MCC-96 MCC 96 480 � - _ _ . Comment: . . . . .. . . ...'..'. A..�.r.�.: . ,. ...�.::,�. . ..���.e�:��.� .... .... . ...� ..,�.:...�.)..�'_ .:... _�„ . ,..�,�,�:4 , .d, r. . . . ..,..� �.. . � .. I . . . MTR-1A �MTR 1A 480 I N/A ' ! � I , � I ---—�---- __ _ _ _ __ Comment: ...,.._.Fu'_r,x;�... .. . .,.:,.. ...;..... : �� -`,._. � ...t�.. .. .,.,�. ... ..:.,..: IMTR-1A50 MTR 1A50 480 ' N/A - ' : i - __�_ _ --'- - - � __ _ Comment: _ _ . _-_ _ . . , , ,�.. ,,, s . : Y - , , . , , i , .: . _ IMTR-26 MTR 2B 480 , N/A 4 . �I ; Comment: ..,.. �_. . . _,,,, . .. _..,, .v , , . _, . MTR-3B MTR 36 480 ' N/A 'i � � , _ ' - l_- -- __ ! _ _ �_ _ '. . � i '_ _ � _ Comment: . ,.. . . , , ,. _ . ,,�,.,� , _._ . : ;.�, . ... �. .�_: ..., .>;...:.: . .., , , �iMTR-4A �MTR 4A 480 � N/A �., �. . i. - __ __ .. __ _ _ _ _ __ _ _ _ _ _ i _ Comment: . . . , , . . o, ,.w ,,,�::�.. � .. .. . . r< . �- jMTR-4A20 MTR 4A20 480 ', N/A � ' ' ' � �� � _._ ' --- --_ _ __ . _ _ Comment: ._, . , �:., . �, , ... , , . _ , . MTR-6C MTR 6C _480 ''_ N/A __'_ _ ,I__ _ _ I _ �� __ _ ! _ I I - _ __-- Comment: . . .. . . ,, .� .:. ,� �. . � :_,��r , . . . , MTR-7A MTR 7A 480 I N/A , ' � � � I i ----�-- --_ L : , � - � , _ _ Comment: Monday,January 28,2008 Page 3 of 18 � � � , .. . _ . . . , ,., .. _:. , . . .,, ., .:.. .. _. Equip 1/2 Cycle 112 Cycle 1/2 Cycie Equipment ; Type of __ Rating X/R Sym (KA) Asym Sym(KA) Type Of Underrated? _ �__ � I- -- Fault --With �- - ( p Int iNode ID 'Node Name Volts Device KA MF X MF S# ; i i MTR-9A MTR 9A 480 � N/A , at !, � it nt a io om � . _ _ _ Comment: I ' ,.. ., ,.. , .. ,:R. »4�.. : . . ..:. .. .... .. ,._ .. . MTR-96 MTR 9B 480 I N/A � � �'� I -- i__._ _ . ... _ , : I� _ _ . Comment: ... <._. . ,.� . ,. r . .. ...,,,,.. .. . .. . ..� .. . . «, �MTR-CHIL1 MTR-CHIL1 480 ! N/A _ _ _ . ,_. .,,.: •. . � � � � �� � - - --1- -- - _ . _ . _ Comment: _ _ -- - _ , � �. � ,. .�� ,.. �: �:=��.� . .�_� . ..,, ,, , . ,, :.� :'�`.,.�'.=F .4.,, ..,...�:.��� : . ,�_ _ � '� '�,MTR-CHIL2 MTR-CHIL2 480 N/A ' �� � ' I - ___ _ Comment: _,� • - � < _ , � �. _ . ,�,,.. . . �.._ . . „ , _ ,, „ .a - . .,., _ __ . � , _ .. . . _ .+ ..__ ,,. , a�:, . . , � IMTR-EE1A MTR EE1A 480 1 _ N/A ,, ' I Comment: , : .t .�.i:5'1 M,..�.:', � :. � �i �...�� n . �� ,.. , . . .. _ v °,u �. -.. , -x.,. ' .(,<. . �- . .::v.. . . ... . ... .. . ...: . .�:'..��. - ....' . ..� .: a ,.�.. ,....... . .. . . ..:. �MTR-EE9A MTR-EE9A 480 I N/A � �'� �' � ' � �� I , I _ _ '�- _ _ _ . _._ _ Comment: � ,;.. f .s, �,� . , . . ,. �.sa � :t. .,<, �. >._. : �. . ,� MTR-ELEVC MTR-ELEVCPI 480 ', N/A . _... - „ .. . 1 I I -- -- ___ - -_ __ _ _ . _ . _ _ __ Comment: ,.,y ,;;. ,. ,:, � . ,, .��....:. .� . .. , u;.g.F:, ,._.x.,•, :,;. �.: ��l .�_;..: , .� ... , �MTR-ELEVC � ,� - � : .. . �� .�.,� , v., � MTR-ELEVCP2 480 i N/A I ' '; ' ; Comment: � � ,�. ;_ ,. . ,.. ,;., . . t . �� ,a , . , . .....: , :<•� .: . . �,.:, _ , . ,,w,,. . .�,�,. � , �:. � ,. �MTR-ELEVH MTR-ELEVHPI 480 N/A I , � � j --- �___ _. � : Comment: , ,.�;.,K� aM, , ._ ,,.. , ., �. - �.,; . . ,.. , .. . . . . . IMTR-ELEVH MTR-ELEVHS1 480 � N/A I ' ; i _ __ _�--- ___ _ __ __ : __ _ _. _ , ___ -- — � Comment: .�.._,. ....�... _„ �� .�.�.e . ..�'.:.. ,..ar,....:�.. . ,_._� . ...�... ..7 ,., ....,, . _,,.._.„. �:,,_.�. x,..a.:-. �r..-c.,..,.�..,...�. , , _.- IMTR-ELEVH �MTR-ELEVHS2 480 I N/A ' , �i � � -- �_ — -_ . _ _ .__ �, � , � __ __ _ Comment: �' —__ �__ ,.,:x. ���n ,a. M,..#'� whr. �e,. �.:� t �� .�i a �r.�,�i°�. . � �va,_ , ; - „ . .n. .. . _ .. , .,e > ��, C �..� � .. , : ..a. . ' .. . . � ia .. I. . �.i ..... ._I ,. . .,. IMTR-ELEVR MTR-ELEVRPI 480 N/A i � � ; Comment: . . .. ..� .... .. .. �.:_ . �..,. i,:TW�`G3,.:i?Y• 'P .�r...;:�.. `r ..�,... . ..� , >.'..,;�:: .,�. ;<.. . ..-,...,�. i .n:;:. ......... . . MTR-ELEVR MTR-ELEVRP2 480 ' N/A � l �I , � ' _ _ _�__ __ , _ _ _ ._-- Comment: . •... .. .. , ,�.. .;:, � . . ....., . ,... �, _., , .: .... � .��.,� , � .... Monday,January 28,2008 Page 4 of 18 � � .. . . . . . . . " . r.�.b .i�...'. .. ...- -..a .`., ..a' .;..,,::.��u:L.. .. . .,:.. . . Equip 112 Cycle 1/2 Cycle 1/2 Cycle Equipment Type of Ratin�c ___ XIR Sym (KA) Asym Sym(KA) Type Of ___ Underrated? -- - �- - _ -- �_ _ .( __ P1. ( ) I _ i _ Fault _ --- ---- With Int Ratio ACCom KA MF X MF S# With Int IMTR-E E VR MTR-E EVRS1 4805 i D N/A e i Cat II_ II Comment: " ...e , .,, F.`., ,i.�?. ,a 5....,. . :T::{:.u.e... . ...,.:.... _�.. . ..t.:. .. .�...::... S,. .....'.:., ` ..:�... .. . ..i,..r .. ..'.. .�d_. . . '-...M..v. .._. ...... ...�.. �MTR-ELEVR MTR-ELEVRS2 �480 I N/A � � ' ! '! ! ; I j I I � Comm _-- :_ _ _� _ _ _ _ ent: . _..- ., _ � ..,,� _:�:. �,,, ., _, �,rt .�u � � ....Y=' � ,;�r ��; .�x. ., ..�� ' _ �.. . �.. ��_ � .� . , � __,,� !MTR-ELEVR MTR-ELEVRS3 480 i N/A 5y� � � ; � __.�- _ ' �� _ Comment: ,A�` ' �', vY.,.:-.�.:M .�. ..�::3..`� ...... .ous U�+F.,�<,. .. }.. u�.f�. . .. . ..:�n."'i �_.,i�%. 1 x . . .. . .;«�.�... .Yu_.., r .� ...: :.... . �ra' ' � .. . MTR-ELEW MTR-ELEWS1 480 �I N/A �, I ' , � � .- . ' _- _� _ _ _ _ _. _ _ ' I I I Comment: .. .. ,._.�_. ...,z::... �-��. .. ,. >.. . , ..:_ >, ., . .� . .:. _ .� � .. ,. ��. ,. �F,, ��._� .,.- l 1.60 ', 6.4 6.5 1 6.4 1 � 3 Phase i PNL-DIM-BR PNL DIM-BR1 --208 -MCC6 L 4 ' 10A I , . i . Comment: �PNL-DIM-BR PNL DIM-BR2 208 MCCB 4 � .10.0 '' 1.60 � 6.5 6.6' � � ��M .. A . i . . � , � , 1 ; 6.5 1 � 3 Phase � _ _ -__ ___ - --__ __ __ _ _ - _- ' - _ Comment: PNL-DIM-DR PNL DIM-DR1 208 �, MCCB . 4 .10A 0.32 ; 1.8 , 1 8 -. 1 ,1 8. �,A .1 � 3�Phase �I j --_�--___ _ ___. _ _ _ _ _ _ _ _ Comment: , ,. ,�,>a,......:w. �4<:r4 ,. ....,...�k ♦ ,:..�.. .a:s. � .� ' � . . . . .. . . . . ..; ..:... . ..: „ .. . .. . ... . < .., ... . .. . . . .. , ,:� .�w ..,.. .... d ...�. .. .�h.:,. ...w.., . . . � ',PNL-DIM-DR�PNL DIM-DR2 208 � MCCB 4 10.0 0.51 ' 2.8 ' 2.8 1 I 2.8 I 1 3 Phase !, I Comment: . � , . . �: ,� . . ,., . , .,,r, ,_ , .� :. ,� .:. . ,. z.. ,4., ..� ,.,. .... �. . � � PNL-DIM-LO PNL DIM-LOB 208 � MCCB �, 4 � 10 0 0 47 I 3.5 3.5 1 ', 3.5 1 ' 3 Phase j I ---_--� - ------. . . � _ _ . _ _ Comment: PNL-DIM-SP PNL DIM-SPA 208 �i MCCB 4 ._ .�' � �•:w ,. �� � , � . ;.. .,h , 4.3� '",-.- , . :.�.x, �: .., . � � � I 1 3 Phase � -�_..__ - _ I _ _ I� 10.0 , 089 4.3 43 1 - _ ____ Comment: , .. , . .:.,. � ` :, .: , ,_ : ,, ,W . :,. . . �. , .. , . . . . .,� �:,.. ti . , .. �PNL-DIM-SP PNL DIM-SPB 208 I MCCB 4 , 10 0 2.32 ' 12.2 I 13.0 ! 1.08 I 13.2 1 ' 3 Phase '� Yes --� --_ -_ _ _ _ _ _ - _ _ ____ Comment: , � . . �R..e ,:.,... ..,.,_� � .�,... M ...':y4,e:�. ...q v ::°i , i � , 'v�d;. F,r. . . _ , .. . . .. . ��.:, .. . �t : . .a .r. ,.' � � �� .. ._.. . PNL-DP-CD9 PNL CD9A 480 �� MCCB ' 2 �, . 65.0 , 0.76 . 15.1 , 15.1 1 15.1 ' 1 3 Phase k.': . , -- ---_ Comment: . :,.. � � . � <: ,..:;.. ,,.s, . :, :, . �� „ .. � ,�.. . .M. . ... , , ,..::y, � ..,.. �. ,.�.. -:�,, PNL-DP-D1A PNL DP-D1A 480 � MCCB 2 ! 65A ! 4.12 ' 30.9 ! 37.0 1 � 30.9 i 1 i 3 Phase j � ---1-- ----__: !_ _ _ :_ � � _ Comment: __ _ - �I ,., , .. r ,:.. ;� .,. .:M;. . s. ,... . : . , . . .,,,�,. .u. . . . _ Monday,January 28,2008 Page 5 of 18 � . • � , _. _ . .: . .,. . .� -.,:.. ... . > .::.x�.,., . ., . � ' Equip 1/2 Cycle ' 1/2 Cycle 1/2 Cycle Equipment Type of Ratin�__ X/R Sym (KA) Asym Sym (KA) Type Of __Underrated? With Int Ratio ;(ACComp)I (KA) MF X MF ; S# -------- Cat � ' Fault With T Int ,Node ID_ Node Name Volts Device , . 3 Phase � IPNL-DP-D56�PNL DP-D5B 208 MCCB 4 10.0 1.69 9.0 9.2 � 1 9.0 , 1 � Comment: . . . , . ._ .. ...<. . .. .� ..:,v ...�.�"�.,3�,.pE :<x...: ...�. ,.�..:. ......... ....�..•...".�. .. ,. .F ..,._r.� e .. .,;�+b , ..,..n... ,... ....,. . . . . . . . .. ... �PNL-DP-D6A PNL DP-D6A 480 � MCCB 2 , 65.0 , 1.65 11.7 ', 12.0 1 , 1g1J , 1 3 P�hase ' Comment:__ _ , _ _ . __ _ _ ._. _ : � . , ., . �.: _.. .; >.:,. ,� .r,,�� i ..,,.. �..,. � ,..,�. ,,.� , .,.�<,:-�II •_ ..,. .,.. ._ .. . . IPNL-DP-D6B PNL DP-D66 480 I MCCB i 2 65.0 1.59 8.8 8.9 1 8.8 1 3 Phase �, i Comment: ..,. ,,. . „<_.� ,„,.. � . . M „ , , , . . ._. ,' ......a. . _.. ... .fi., ..N�... �+..+,..r . ::;:a',Ce . v-�..: " "'.'a.�.' h . ,.�..e.! . .w 1 .... , . ;PNL-DP-DB1 PNL DP-D61 _480 '� MCCB � 2 _ 35 0 ', 3.29 22.9 , 26A� 1 . 22.9 , 1 ', 3 Phase .�, !� Comment: -- �.,:::..,F .. , � ,.� ,.,,. . ,. .,,� : ,:.;. _ IPNL-DP-DC1 PNL DP-DC1 208 ; MCCB ', 3 �, 18.0 ', 3.63 . 8.4 9.7 � �..1.04 � .. 8.7 1 �Line To Ground�~ ----�----- __ ._ _ _ _ Comment: _ _ . _ __ ... �. . o_ � � . ._, . , . . _. .:., _ . , . iPNL-DP-DC2 PNL DP-DC2 208 '� MCCB 3 ' 18.0 3.23 10.6 12.1 � 1.01 ', 10J 1 '�iLine To Ground --._---- __. _ _ , __ . _ - - - _ . _ _ _ Comment: ��� , �..,. ,�F:...... . . .. .. ..... .. . �...: ., ,.-., ... . . . _ :,.. .: < -, ,.,� ,E'. :: _ , .. . . PNL-DP-DL PNL DP-DL 480 i MCCB 3 18A 1 J9 16.8 17.3 ' 1 I 16.8 1 '' 3 Phase ' _ --__ __ _ _ _ _ _ _ . _ _ - __ Comment: , . , ;, ,..�:v , . ,,...r : -,:,s�. M. :... .A,,•�._ �. ».;.,...r . .,. , , K,�. �,. �.�. �.._ . iPNI.-DP-DS PNL-DP-DSM1 480 j MCCB ', 3 14.0 1.60 11.3 , 11.5 1 11.3 ', 1 3 Phase ; , I Comment: Electrical contractor states that there is no info available.Assumed Minimum Industry Standard. - -�-- ___ �_ �_ ... r.�, . .. n ,.. �, . .,,. ,.r . � ., s. ., :,. , .....:� � .� PNL-DP-DS PNL DP-DSM2 480 ; MCCB � 3 14 0 � 1.65 �, 12.3 12.6 1 j 12.3 1 j 3 Phase i � - - - �- _ __� - - Comment: Electrical contractor states that there is no info available. Assumed Minimum Industry Standard. . � . _ . . , . ..:„ ._ ,PNL-DP-DS PNL DP-DSM3 480 � MCCB 3 ', � 14.0 1.41 7.8 7.9 1 �i 7.8 1 � 3 Phase , ! -_ _-�__ _-- - , _ _ _ _ _ - - Comment: Electrical contractor states that there is no info available. Assumed Minimum Industry Standard. i , �.. . n ,, �.:__;_ , .; ,, ,. _ . ti„ c.,:. ::. .�e . ,. .,,,..:. . I _, �._ ,. . IPNL-DP-DS PNL DP-DSM4 480 MCCB 3 14.0 ', 1.35 6.3 6.4 1 6.3 1 3 Phase I� � ---�___ - - _ __ _ __ - ---- -- .._ - _ ___ _ _ _ __ - __ _ Comment: Electrical contractor states that there is no info available. Assumed Minimum Industry Standard. ..., . , ;:.:.. , : .. . , , . ..,_ ... ,PNL-DP-DS PNL DP-DSMS 480_ I MCCB_ 3 ; �14 0 � 1 46 12.4 j 12 5_ � 1 ' 12.4 .1 ' 3 Phase , . I Comment: Electrical contractor states that there is no info available. Assumed Minimum Industry Standard. - _ i____-- - . , . . • ., , , a.:: .... ,.:: ` _, .., PNL-DP-RC3 PNL DP-RC3 208 MCCB , 2 25.0 I 2.98 ; 13.2 ' 14.8 � 1 ; 13.2 ' 1 i, 3 Phase __ _l - _ _ __ _ � ; � - Comment: r�, i" . ' � . "YV �'�.�..,�. ..:,. . r . ,... ., . .�... ,A. ......., ' -. . �nr'4� .11. -. , �. ,. Y. Monday,January 28,2008 Page 6 of 18 � � _ _ _ . ..,,.,. , �. , , . ..: .,: ,. . : , _ Equip 1/2 Cycle 1l2 Cycle 1/2 Cycle Equipment Type of ___Rating_____ X/R Sym (KA) Asym Sym (KA) Type Of ___ Underrated? Node ID Node Name Volts Device Cat. With � Int _ Ratio ACCom (KA) MF X MF S# Fault With '- Int_ _ iPNL-DP-RC5 PNL-DP-RC5 208 ; MCCB ', 2 22.0 ', 1.91 '( 9.1 p), 9.4 I 1 I 9.1 ' 1 3 Phase - - -_ _- - _ _ . . _ _ Comment: . ., ,,� �,.��a. ,. .�. :_, ..��_.;, .�,::�., ..� ,�,�. ,... ��. ,. �.. x. ,� ,. w ;. . � ,„ � , N��.< -- , _ _ _ , 1 ', 3 Phase ,,. �,., , � , I PNL-DP-RC7 PNL-DP-RC7 208 � MCCB 4 10.0 1.80 8.4 8.6 , 1.01 8.5 � � Comment: � - ._� , .: , � _ �.._�;�. :: . .. . ;•���, ., �..�, �r ..u�w,..�z.- �� �.'��> ,�.�_;�., . ,. ,. . !PNL-EDIMB PNL EDIMBR1 208 '. MCCB 4 ' 10.0 0.54 I 2.1 '� 2.1 1 '� 2.1 ' 1 ; 3 Phase � , _ _ :__ _. __ . _ _ _ _ Comment: - � � ��; . �. . , . 'Y. ^ ��'+,,. n arS+��.,t 3-.�.��.!, v.x. �e� �t..sa , t� w� �.�..- . ::J,,,� «---,�"?:.__;, •,.�s::��.�>, ... . . .. --- -�_ u _ . �.,. 1 . : 2.2 � 3 Phase , I PNL-EDIMD PNL EDIMDR1 208 � MCCB 4 10.0 0.54 2.2 2.2 � 1 I' Comment: , , ...: :.. ,,n,.. ... , .. :. , , .T.. _._ .. : . �:.,• .. �; , �-.. > , � . . _ �., �. . � PNL-EDIMD PNL EDIMDR2 208 � MCCB 4 10.0 ' 0.47 1.7 1.7 1 1.7 1 3 Phase � __ -__ __ _: _ _ Comment: ,�, . ,ru . ,..., �a. ,���. �x 4�.��• ,,,w�.� : �_4..:, . ,, ,. � .., . � !PNL-EDIMLO PNL EDIMLOB 208 �i MCCB I, 4 � 10.0 0.56 2.2 2.2 1 2.2 ; 1 3 Phase 'i __ _ _ - - _ . Comment: , �.,. . p.. �. ._�..�--f. .. . .s:,: . _��� .„ PNL-EDIMSPIPNL EDIMSPA 208 �i_ MCCB 4 n 4F � 10 0� 0 38 1.3r. 1.3 1 ',� 1.3 i 1 y 3 Phase� :�� . .� ^ ^�, . ' I Comment: . � ' t "�'6 i,,..Mi..� .�....�i . ..k.-, +,.t`!.Arn, . x �r`...� . .,_ . ,.�J .. '�At 1.�;��h-'Eiii'.. . . .�� ._ .''_"t' . . ..:.!a ..'`�'.;-d " ��;:'is � ';PNL-EDIMSP PNL EDIMSPB 208 ', MCCB 4 ' 10.0 0.98 ' 3.8 ' 3.8 1 3.8 1 iLine To Groundl, Comment: � , ;,�� ,..•. , ..,, ....;. , :�-,.,. , .:,,,. . , ,,;, � ;,, ,. .. �. ;., . .. . . ,: �PNL-EDP1 I,PNL EDP1 208 , MCCB i, 2 22.0 1.39 ',_ 5.2 5.3 ', 1 ' S.2 , 1 iLine To Ground�i 5 ! _._ -�-- --_ _ _. _ _ . _ , _ _ _ _ _ -- Comment: .. .. :,.,� ..,.,M a. �.� ..,.;.� � .. �:. :. . �n., � �PNL-EDP2 PNL EDP2 208 , MCCB 3 ~' l 18.0 1.46 5.3 5.3 1 5.3� � ' +h1 �Line To Ground� I Comment: �' ,���d ,�, .;��. �.�� ..�.� . u�� .. ,� F�a. , ' . _, . ; . . . . I . . : : .� . .. 2 .,.,. . .� ._ - --�- _ ;._ 37.9 � 1 � 31.5 1 �-� 3 Phase , I IPNL-EDP3 PNL EDP3 480 ' MCCB 2 65.0 4.18 31.5 I . Comment: ..,, , , . , .....,.._ .,� _,;....-;,... � a . ., ,. , ��r;�.,. , ,. ...�. . ,.., �. � �_,,�, a ,; �: ,, IPNL-EDP6 PNL EDP6 208 I MCCB 4 ! 10.0 ' 1.16 ' 3.9 3.9 1 , 3.9 ',f 1 ' 3 Phase j _ _1___ ___.__ _ _ _ ___ _ _ __ - --- Comment: ` , ��.�, _ .�+ .. .. a . .,., . .. , _ .. _... . . 'PNLEDPECD PNLEDPECD9A 480 ' MCCB � 3 14.0 'i 0.30 ' 3.3 I 3.3 1 'i 3.3 1 3 Phase y :__ _ __ , _ _ -- - ___ __ _ _ _ _ __ _. Comment: , ,,:;, ,,4 „... , ,, , . . U..,. � . : . ,; Monday,January 28,2008 Page 7 of 18 . . . . .. _ . . . _ .,... ..,�. . . . .. .. .. . . .w.,,...._ . . .. . .�:.. . ...�, ...�.... .:. ....... . a.,. ,., ..... �.. . . ..:,,', -,..,,..:... . . _.. .. ._ . Equip 1/2 Cycle 1l2 Cycle 1/2 Cycle Equipment � Type of _._Ratin�____ X/R Sym (KA) Asym Sym(KA) Type Of _____Underrated? __._ ' 3 3 � I X MF S# Fault With Int � I With] Int Ratio ;(ACComp) (KA) MF �PNL-EDPED PNL-EDPED26 480 MCCB 3 I 14.0 !,, 0.30 3.3 �' 3.3 � 1 � 3 Phase �I i Node ID Node Name Volts Device at -- _ _ _ . _ _ Comment: r'.. . °.°:::4 ,. ' ±�v.�..d., s : . a.ti2 4�.., ....., G ..:f.,.r',+...b. .�.::'. . . ,- n u�'...::: ... � ...�....+ . .�,::.w. ...:.tT e ,.i..� �.. ... ".. � �PNL-EDPED PNL-EDPED9B 480 i MCCB � 3 � 14.0 0 25 � 1.9 1.9 � 1 '; 1.9 1 3 Phase ' I _ _ ,__ _ _ , _ , ___ _ Comment: �d - e _ ,. 4� � y��.� �. : , ..�< . . .�.., ,a � .� n �-. ,_�,_-.. �,��� ..a.� �.-,� � �v.w, r+ �,PNL-EDPEL PNL-EDPELV1 480 1 MCCB 2 42.0 , 3.18 27.1 307 , 1 ' 27.1 1 3 Phase ', i __ I Comment: .:�_ _: � � . . , .. . .. .�. . . ��.:,. ..Nr � :- <,��� .N. ._„�r , .,r. .:4_,. . .�;�,.�,. ....a. ` '.-:.:-�� .. :��`.�'��s .b.�. , .....>:n.«n.. �.�...;, ,. �' �.. ;PNL-EDPEL iPNL-EDPELV2 480 j MCCB 2 25.0 ' 2.09 ' 17.4 , 18.2 1 , 17.4 ! 1 , 3 Phase , ; , - . _ _ _ _ _ Comment: -,,}. ,� , .:,a�� � �. �. . ,. :��.. � , . . �.� I . . . . i , I ,, ,,, . I .. , K , , . ,; ,, ...•._ . PNL-ELPEL2 PNL ELPEL2A 480 MCCB 2 25.0 1.55 18.4 18.7 1 18.4 1 3 Phase I � - __ _ � - ' --- _ __ _. Comment: panel is series rated with upstream FCNTE100A breaker , -_ r � -� ....'1:... �.. � .... ,.:iY.. ...... 1 �:.i.'.:Y E ..;,,. h 4..�'"�';. a".V�x..�... . '.,j. f ' �' � : .�..I ,r.w,�,....�. �u il. .e. . PNL-ELPEL2�PNL ELPEL2B 480 MCCB 3 �18.0 0.56 5.1 5.1 1 ; 5.1 � 1 �� 3 Phase �, , � II _ _ Comment: PNL-ELPEL4 PNL ELPEL4A 480 ' MCCB �� 3 � NrtI��tt18 0�4 j:1.02.�.xV , 14.9 14.9 1 =: A �� t; �Y k x�. �r ; �, f . _ e :�.SC t Nx�s.6'M k w. .'"�'� vk/.,��, at�'e3e..�r:.. .. � ' , 14.9 1 3 Phase �� � - - _ ___ _ _ __ Comment: .a^ ..., . ,. ,;<..�.,�.� ;r�.sw ; _. , ..'-..r. . ;.�.,��*k���..�. ....,a ., .�. x:�r . .r .s,�.,, ,s ,._.� , . . > � . , � I , � �r;,� ,,.. .: �,a i ;PNL-ELPELS�PNL ELPEL5B 480 I MCCB , 3 18.0 0.52 ', 4.7 4J 1 ', 4.7 1 3 Phase � Comment: , .,,,,°�`?a',.��. , . , . ,:rt,. :�.,.. ..,. x;,; ,. ,.�...� ,., .,.,� ..._:. ._ . , ,.. : . ,, . . PNL-EMS1 IPNL EMS1 480 � MCCB 2 ry 42A ' 3 28 24.3 27.6 1 ' 24.3 , 1 3 Phase � ---__�_ _. _ . , _ ' '__ __ � _ ___ __ _ Comment: ��PNL-EPEP2 PNL EPEP2A 208 _MCCB 4 �� � �����10 0 ����1.39 � � � 4.4��. f 7� 4.5�� �� ..1 ��� .4.4 ' �1� � �3��Phase�,� .��� � �� �� �„ ., �:� . Comment: ,°r a ti� xa-, . .t r"���.�''x , .. . . .�R"-. ., t �;�.,v-w *.'v�'�:.. "`�� �'�.? �.6'._�' I ,:,. . <..c r...i;. .:: .., 'v �. . . ,,:. � � _ n,.. , ,.e. .� .,� :, PNL-EPEP2 PNL EPEP2B 208 !. MCCB 4 I 10A 1.42 4.9 ', 4.9 1 4.9 � 1 �Line To Ground I ; i --- __ _ , _ Comment: . .... ,...:;. 4,w;; � :�. .���u : .. � ,: -��. ,,. �.,�.�: ., .. . a ,.,:. �PNL-EPEP3 PNL EPEP3A 208 �, MCCB 4 10.0 1 23 4.1 � 4 2 N 1 r s 1 �y'� 4.1 1 � 3 Phase i i --- _ __- -- _ . Comment: .� ,:.., � ; ,, ...; .: ' ...�. ,. , . :..� .. , :�,.�.. .: ,. IPNL-EPEP3 PNL EPEP36 208 ;.MCCB 4 , 10.0 , 1.10 4.2 !' 4.2 L 1 . 4.2 ', 1 ,Line To Ground � Comment: � -..�,s.� ,�s, �, � ,:..,�s»,. � � . ,..,,, -,,��,��, �•�,<. .w .:�,:,; . �,�.,,,�, Monday,January 28,2008 Page 8 of 18 � � � .. , . :. .�. ._ .� � _, �.-z,.r . . ,_w,.. .•�-. ..�: >,. < _.;. f _ u : Equip 1/2 Cycle 1l2 Cycle 1/2 Cycle Equipment Type of __ Rating__________ X/R Sym (KA) Asym Sym (KA) Type Of Underrated? - - ---.. ' 10.0 1.24 3.0 3.0 X MF S# Fault With I Int IPNL�-E EP3 PNaE EP3C 2085 MCCB !� C4 t With Int Ratio ,(ACComp) �KA) MF . 3.0 , 1 ': 3 Phase ! ; Comment: . � � �M „.. . „ti�:,,� ��� �4F,.<::, . . �;��� , �, M ; _,,-�:.i . .:.� :.,; ,,,.�,::-. ,�,.!.. , . . ;PNL-EPEP4 �PNL EPEP4A 208 '', MCCB 4 10A 0.88 2.6 4i 2.6 � 1 ! 2.6 1 , 3 Phase � Comment: _ x ,. ,r� :G. �� �.�, s , �:u, , .,,,,� , .:� � w;, ,.�i �.:. w .:. :� ;.���r . , .� , iPNL-EPEPS PNL EPEP5A 208 , MCCB 4 , 10 0 0.74 2.6 2.6 � 1 � ' � 2.6 I 1 3 Phase � __ ____ __ � _ _ �' Comment: I � � , �. ..,,. �... .u�a,. .. ;...�u+J . ��,� ..;;. ».. , .':�.-°, ,,,:... .�.,�r,..:.:� �9 t '�,!';w.w ... ..�. t�«�� � . . . ..... . .. . , .��.. .�...... ,..,: .. ..... . .. ,..-,^..,. ,:.:� , 'r..-. ., . 'PNL-EPEPS PNL EPEPSB 208 ', MCCB ' 4 10.0 1.53 ' 3.7 ' 3.7 I 1 3J I 1 ' 3 Phase i, � -- _�__ _ Comment: iPNL-EPEP5 PNL EPEP5C - 208 � MCCB_ . .4 , f 10.0 ��rt1�15 .,„:s;. 2 8.�� �.< <� 2.8 ,..,.�. 1 ,�,� ..��2$� �h. .-k1,�, ..3r . � .�;;�m..�,i .._, . ; . . . i I ., I Phase ; Comment: jPNL-EPEP7 PNL EPEP7A 208 ,. MCCB� 4 � 10A ,0 67 -:Y;>, �2.4 , �,, 2.4 1 2.4 �. � .}�� "` ""' i�:;_.. . . ... ,.z .. .r .�, ...A. ..c , E'�, � �...,. . _. 3 Phase ; � Comment: .k_ ,_ , ,. b .`Y2� ,� 1°„!, .� ..'^,g�z. �._ ,w ..,s; . . },�..� ' . . _ . "sr1 > 'a. ,� , ...�`, P ..e'rhe, . + � �.',... ..A _ .� it:>.vY�i R d.-.: �, A'k, .:. �PNL-EPEP7 PNL EPEP76 208 LMCCB 4 � 10.0 1 23 3.3 3.3 1 3.3 1 3 Phase , �I I, __ _ - � Comment: - .s�:.y..,.�y.�'.:�:-.�Y.v.....�����....��,... ' hM . �:r::vR�.. ,-.:'�':.�.�' � '���:�.t, ���-:���,. 't"n' . . ... ., J,Sk . .�.�.� ....�. , e.,:.... . .•,-:. .......: f . . ...., . .r .? :.. �. jPNL-EPEP7 �PNL EPEP7C 208 ! MCCB , 4 10A 0.63 1.8 1.8 1 1.8 I 1 � 3 Phase Comment: . ..,�. �:.., ,,..�, �, ,,.t,� ��: .._._ __L_._ ...._� �...... . . . ,... . ._-.._. �_.. . . . ... .: , .�I,. ,.. ... ... .'�:.:. , . ... .. . ..� � .,.a� :.: ...,.......� . ,.. ... .. IPNL-EPEP9 PNL EPEP9A 208 MCCB 4 10A 0.69 1.2 1.2 1 1.2 1 Line To Ground� � Comment: � r 3 � , .,, ,.,,:. , .,._ . ... . . <:: .,.�;. .. �r ,;: > ,��:� .,,� ..�. . : . ;.. _. _ �_�, � PNL-EPEP9 PNL EPEP9B 208 ' MCCB 4 10A 0.66 1.1 � 1.1 ! 1 1.1 1 Iline To Ground�i � - _i_ _ __ _ _ . Comment: �.., . :_- .. :_ :.,.a.; . � .. .._ ..�= �. * .,�:;�� _.... � w.• ra �.. � ��,• _.� ��� ._. ,. �.. ., .., � , ,. , . , IPNL-EPEPK PNL-EPEPK 208 ' MCCB 4 10.0 ' 1.36 4.5 , 4.5 1 4.5 1 3 Phase I i ---- - _ . _ _ Comment: PNL-LP-L1B PNL LP-LiB1 -208� MCCB 4 ,, rr.� 10 0�. 1 04 � 7.1�:R,,�. m 7.1�v �. ��=1, �� 7.,1:. a �,.�,1� �. ,,.,;..._ , ,,:�,� , .�; __ :�_�.. .. ,� - y ` , � 3 Phase � Comment: ' ,_... .ve ... .'.. �� ..�..��... � �„ �i�.�. x,e$..::�;.k v �.."e � `W"�: �..;�..a.v�� e �:;.�'. -' � � -- --�. .,�� . .. � �i _ ! _ - � -- I _ _ 1 3 Phase j� �_ . . . PNL-LP-L2A PNL LP-L2A 480 MCCB 2 42.0 I 0.89 i 13.9 13.9 1 13.9 i Comment: .:�� -� �. ��, �.. ,. , . :�a, � � . ,.� .�. . , .,., . � ��. . � ,,, .. Monday,January28,2008 Page 9 of 18 � _ L„�;., .>_ : , ;. .. .._. . f: :, �, ... ' :... <,: . . .. . . Equip 1/2 Cycle 1/2 Cycle 1/2 Cycle Equipment � Type of _.__._Rating____ X/R Sym (KA) Asym Sym(KA) Type Of ____Underrated? , -T----- Fault With int __ �_ __ __ _ � 3 Phase � _ '�. INode ID Node Name 'Volts Device Cat, Ra19 ;(AC 4 m p). ;KA) MF X MF S# With ' Int PNL-LP-L26 �PNL LP-L26 480 ' MCCB 2 25.0 14.4 1 Comment: .„ .'r...;Y�. :;...!-> .z,.�:�„ i _:T��"`r.rs...,^^` .'�t . ,«,;,2 J.,'w:_f '� ..:.J �, k.z:;�r �r;�=.':,*m'3 ... . .:ae.�..�Rss. . . ..... . ., - -. :�,. . ,. . � zo �� . .s �' w . . . .ta. ,. . , �PNL-LP-L4A PNL LP-L4A 480 i MCCB , 2 ; 25.0 0.58 6.7 6.7 1 1 ! 6.7 1 3 Phase i �.__ _ __ _ , _ _ : _ _: Comment: H _ , *�,,��nr.,, u� ,:;, r ,,. ,,.. , :F ..�.w��,�. . .r.. .:. . �. _ � _.._ . . .�. � :. ._ _ , .: .�, �. IPNL-LP-L56 PNL LP-L5B 480 � MCCB � 3 18.0 '' 0.89 12.0 ' 12.0 , 1 I 12A 1 , 3 Phase � -.. ___--- _ . _ I', . _ _ _ _ I _ . ' Comment: ._ -. _. , .� ,.,�� �, ::: ��n _�' .� � .. . , . ,,, ,., . �� -�G ;., , ,„.�. . _ ,. ,;. �PNL-PP-CD1 PNL-PP-CD1 208 � MCCB 4 10.0 1.79 4.6 , 4J � 1.01 � 4.7 � 1 3 Phase I � -_:_____ _ _ Comment: . � , ,.w,� � ,. .:,. . , , � .. ,;. �- ...... < ., „ -�,<:_ ..�. .. . , ; ,>,., , � �_ �, ,. . , ., . PNL-PP-CD1 �PNL-PP-CD10 208 ', MCCB � 4 10.0 1.50 4.3 , 4.4 1 4.3 � 1 3 Phase ', � Comment: _ _ _ _ __ . . . . .. .. . �. .. ss:. . '� . ..T.�. . . , ,.�,�.��. � a�:v��. ,. �`,'�. =�' ;� "��-� ..�-:.w _ar�.._ , ��'�..•. , . ., . ..Kw.... .. .. ,.�s , .. . ,.. -.,� �- .. . . ,, . .. . ., . ...,,,. , . <. . �PNL-PP-CD1 �PNL-PP-CD11 208 '� MCCB 4 10A 1.47 4.2 4.2 1 4.2 � 1 3 Phase i _ �-- _ Comment: • ,. : - , . . . .. . . .. . ..., ... . '«E.��:��.�.n.,: �.�t'� ,. .,s. :�.:,. .�:�-:]n � �..:: .aT..:.�,. ax'kL.:::.,�..5.Ie ^� _�::: Ti.i"+ . ..2 f� ".f%.'.... �� . .. ..i ..1'- ., , . .. �PNL-PP-CD1 �PNL-PP-CD12 208 I MCCB , 4 10.0 1.53 ', 4.5 ' 4.6 ' 1 ', 4.5 , 1 '� 3 Phase � ' -- -----____� _ _ __ _ . _ . _ Comment: � �,��..,. � � .�.�v . �.��� .�..,R., ., � _ . ���s�.��.. :y� ,. .. .�. a . _�,� . x�,.� � iPNL-PP-CD1 IPNL-PP-CD13 208 ', MCCB 4 10.0 1.76 4.5 4.6 1.01 4.5 1 3 Phase ' ��� Comment: , ,� ,.� . �x., ' � '� r_�. .� . ,�-� �k ��> , � _.. .. . ., . _ �� � rx H � � . �u.� MCCB 4 ' � 10.0 1 63 4.0 4.1 1 4.0 ' 1 3 Phase �I I �PNL-PP-CD1 �PNL-PP-CD14 _ 208 I: . . . . Comment: . ,. , : « �w� v , .,.�� .,,:: . , ,. Au<.,, � � r. y__ � .. . � .. w�.. s�_.,d.. ,�.,.�_; ,.�.,��, h .. .a� .�,. �,,. . . , , . .� PNL-PP-CD1 PNL-PP-CD15 208 MCCB 4 10.0 ,, 1.45 4.0 4.1 1 , 4A 1 3 Phase I� '� - --._. _ . Comment: . �. , a.,... . .�, n - <. �: ....,:... .�,_ .. ,��.:<: �,... ,. .. . ... .... _ „ .,..,. b, ..;:. .,; . , �PNL-PP-CD1 PNL-PP-CD16 208 '; MCCB 4 ' � 10.0 1 55 4.6 4.7 1 4.6 1 3 Phase ; i -- ---- __� _ _ . I Comment: , ,. . � ,ew .^ . � �.w;r�.s �., ...�:�. .,,.'..i.. ,. T..}H. .a....:,.:. „....M. ....:�� ::.. . .... III . I . 5.4 1 � 3 Phase ; . . :,. PNL-PP-CD2 PNL-PP-CD2 208 MCCB_ � 4 ' . 10 0 I, 1 69 ' S.4 5.5 1 �: . . . Comment: , .._ ... ��.:.;.. . . . ��..,. ... ., .i�. .,.:,.; , ;v... ad 4b�.:;.. . ��,. ,... �e ,.,M'::��"�t' . .,. , . . .. _ . , ,. . . . . .. .. .. : . .. .... .. . ..,r...... .......... . .... :. . . IPNL-PP-CD3 PNL-PP-CD3 208 i MCCB 4 , 10 0 ', 1.74 � 5.7 5.8 1.01 I 5.7 1 3 Phase - _ - _ _ _. _ _ - _ __ Comment: .�. ,� . . . r ...�.'��r.�u�:.i.::' .. ':?�.�.._{:� i1 ,ra... , N_ y:..: +e�`.,, ��n�rt ♦ t ,..... �....'S.M,.i ��kl ,... � ..c� l,` ...�. , ........ ... ... .... . .. ...i. ..�..,... . . .. ., Monday,January 28,2008 Page 10 of 18 � � . . , . .. :,., . Equip 1/2 Cycle 1/2 Cycle 1/2 Cycle Equipment � Type of _ Ratin�__ X/R Sym (KA) Asym Sym(KA) Type Of _____Underrated? ____ II Ratio (ACComp) (KA) MF X MF S# Fault With Int Node ID Node Name Volts, Device Cat With Int ;PNL-PP-CD4 PNL-PP-CD4 208 MCCB !, 4 10.0 I 1 J3 � 4.4 4.5 i 1 � 4.4 ', 1 ; 3 Phase � Comment: , _ - _ _ _ _ PNL-PP-CD5 PNL-PP-CD5 . _208 _1 MCCB � 4 '� ��10A ;��1.52 ��� 4.4�: , �����4.5 � �� �1�, �;�� � 4.4�f� ��� � � �������� �� � �,� ��� �� � � � 1 �I 3 Phase � Comment: '�PNL-PP-CD6 PNL-PP-CD6 208_: .MCCB 4 ��10 0 tl �1.47 4.2 , , �x 4.2a ~1� 1 �� � ry.4.2� �. 1a � �3��Phase ;.. . � _ ' � � Comment: PNL-PP-CD7 PNL-PP-CD7 208 �'--MCCB 4 . ( 10.0 ,>,1 65 ,.,<.�>�:�. 5.2`� .. ,.� 5.3_ >,:._ ..1 „ :5::., � �� ; . �,.. ; �:�,� ,. _... , 2 � 1 3 Phase � I ___ � ' Comment: _. ,.�t„ ,,.. . , . .� �,, ,..- �x_ ,� �.:��r ,. ..�_ , _:: .,,. ... . ,�,�,. �, � .. Nw . �..� ,t,_ �•� ,�.�, •, ____.I�� � , 5.3 ! 1 3 Phase , - IPNL-PP-CD8 PNL-PP-CD8 208 MCCB 4 10.0 ' 1.96 5.2 5.4 1.04 . Comment: , , . .... ,,. � .,��.,� „ ..��..r,... ,. �,, � <. ,::,. :,: �� .. �� ,_:�� .rr. . t.. .. . , . . ., ,,r PNL-PP-CD9 PNL-PP-CD9 208 � LVPCB 1 ' 10.0 ', 1.70 ' 4.2: 4.3 1 ! 4.2 ', 1 � 3 Phase ', _. � _ _ __� _ _ _ _ __ _ _ _ Comment: , >: . ::;:,. . . ;: �, -.- .;{�. �, - ^ �,�.�, �� _� . .,, . , ,, . _, ,.. , . .:,. ., „ .�� IPNL-PPPOOL PNL PPPOOLA 208 MCCB 3 18.0 1.97 ! 8.9 9.2 1 8.9 , 1 ' 3 Phase ' i --- __'�__ _ _ _ _ � __ _ Comment: ,:,.,„,J. y;�.,;: ..,:> . .. ., ,. ,� ,.. , ,� _ �. � _ . �..� .. �, . r�. =4�r, . , „ ,. , _ IPNL-PPPOOL�PNL PPPOOLB 208 � MCCB 3 18.0 2.29 10.9 11.6 1 10.9 1 3 Phase i Comment: , . ; � „_ .. ,._: .. , _. ,_, ..., . � n.�,.. . .., .. _ �,< ,.. .... . , , •��� � �>_�, . r �_�. ,. ..,-._ _� . ,:. ..,� � �PNL-PP-P1A PNL PP-P1A 208 MCCB 4 10.0 0.54 3.8 3.8 1 3.8 1 3 Phase j � -- �- - __ � __ :_ ___ -__ _ _ _ _ _ _ . - _ _ - _._. Comment: � . ��� �. : ;LL�.�, : .� <.. ,.;. . ,,:.: ., , . � _ . .,.-.�. ,.� , _ • r...:�:;;w. �. ;PNL-PP-P16 PNL PP-P16 208 ; MCCB 2 . . 22.0 1.69 ', 9A . 9.2 , 1 9.0 1 ' 3 Phase � „ j - - - ,_._ ._ -- _, _ _ -:_ Comment: _ _ _ _ � . .. . . _ . .. ....... ... .....: ...�y, .�l,',. ;;y.,i.. . , r, '�i? II' .:....�. .. f._,. �?.'.:..�•.. . �iici.. .. �' ,� ��`w1.. . .... . .._.. . . �. ..... i�y., �PNL-PP-P1K PNL PP-P1K 208 MCCB � 4 �I 10.0 '- 1.82 ��� 9.1 ��, 9.4 1.01��I� �� 9.2 � �1 '�i 3 Phase I '� --_ _ ---- _ _ . _ __ _ _ _ � _ _ _- --_ ___ Comment: . , : � ., . .. . . �.. :. : :. ...., ,,.� . ,, . . . � . .,,.a . ,,. . _.. . �, . ;PNL-PP-P2A PNL PP-P2A 208 , MCCB 2 ' 22.0 i, 0.73 7A 7.0 1 , 7.0 1 ! 3 Phase _ _--�-- _ __ _ - - _ _ _ __ . _ _ __ _ __ - ----- Comment: I ,, ,,.,, , . ,,,: . �, . ,,� . ... ::..,F, . ,., , .. .,:;. �.�, .,,. �,. PNL-PP-P26 PNL PP-P26 208 '� MCCB 2 � 22 0 2 33 12.1 'i 12.9 1 !� 12.1 1 3 Phase ; . � � -- _..��____ ..__ _ _ _ ,-- _ Comment: � . ; .,.s. . �,� .. � �:�� . .,r .�.,.h .,�, :.r•� ,. �,� � .�. ti, , .a: �� �, n , Monday,January 28,2008 Page 11 of 18 � � � . ., . ... . . , � -..�.. . : . �;, . ...,_. Equip 1/2 Cycle 112 Cycle 1/2 Cycle Equipment Type of ____Rating___ X/R Sym (KA) Asym Sym(KA) Type Of _______ Underrated? _ Node ID ',Node Name Volts,_ Device Cat , With � Int Ratio_,(ACComp), (KA) MF X MF _ S# Fauit With Int MCCB I 4 10A ' 1.82 I 7.3 I 7.6 ' 1.01 ' 7.4 ; 1 ' 3 Phase i iPNL-PP-P2K PNL PP-P2K 208 Il__ _ . _ _ ' _ Comment: n .- -_, .n� ., ,x .. .� ._a,.� �.t. • ._.:r... ..�. -.F..tu.� .. ���: �. .,. 4 I iPNL-PP-P3A IPNL PP-P3A 208 I, MCCB ', 2 I 65A 1.72 , 10.0 ' 10.3 1 I 10.0 � ' 1� �3 Phase ' ; Comment:panel is series rated with upstream SGDA4 400 breaker '�PNLPP-P36 PNLPP-P3B 208 ,...MCCB .' .2 .. _. 1 650 L.253 ',� 10.1�� ,-10.9 ' . 1 .;, ; R10.1., x�n, 1 3„ ,. s«�.., � . - Phase �i I, Comment:panel is series rated with upstream SGHA6 600A breaker ,. ,._ :< . ,. �• :,.:�..., , •,. .... ,: _..�.:� �. , .,,,. . r PNL-PP-P3C PNL PP-P3C 208 � MCCB 4� . 10.0 � 1 48 ; 7.1 7.2 1 7.1 . , , � � i , 1 3 Phase j � __ _L__ . _ .. _ _ Comment: �._. . . .. ,:.:,., .��... �..L .i..a. '�_-« Pw�:,.� r ._��x��. `wN;"....�t ."_R. ....."ti' , ^Y. Y.; _Y- .:.���.. , � � �.'. ,,:<.'K .�. �.. � � . . .. . s _... .Y.d, ... .,.::. i ..... . �.� . �PNL-PP-P3K PNL PP-P3K 208 j MCCB 4 ' � 10.0 1.40 6.7 6.7 1 6.7 1 3 Phase , _. �_ , ' Comment: 4 . . .w;. .� , � < .�::._ M z ,_.�: ,.,k : .ti_ � �� �:, .�, ... ., �, .�<.: »��,�,.,.��,>� , :� �.n � . .�,:._ � IPNL-PP-P4A PNL PP-P4A 208 ; MCCB 4 10A 1 54 ' 6.1 62 1 , 6.1 1 3 Phase ; � _ �- - Comment: ... .. .. . ;��.,.., ..;- .- �� #,.�...,. r:�: ... �,' . . �a., ,c:.:,,, . •,., z,' .:,. , _ ,+.t. W. :-: PNL-PP-P4A PNL PP-P4A1 208 i MCCB 4 10.0 1.56 6.3 6 4 1�� , 6.3 � 1 3 Phase I __ '__ _ _. � ,.. _ Comment: � � . • ,. � .-.;.� � rt,�. ...:, . , . ,. -:., _..,.z.,��.m� „�. ,. . � .. c�„ .. -�.r !PNL-PP-P46 PNL PP-P46 208 I MCCB 2 22A 1.58 6.1 , 6.3 1 6.1 �,� 1t .� 3 Phase , Comment: , , .:..: k,� ;> . �.,:�.. ,v .: .���.-,., .t,,,�, � , ,: . ,4 9:. 1��. 3,=5: , ,,;,,,<.. , ,,,, . .. : ,. :, .., . . . IPNL-PP-P4C PNL PP-P4C 208 ,, MCCB 4 l 10.0 1 74 4.9 5.1 1.01 ', Phase , �� � w .,M - --- _ _ , � Comment: t,, � ��. ., . .�-ti. _ . _ _ ..,. �,.,o �� . a���� ,,_., ,..:..., ,� M=�..:�. .,.� .. ;:�:. < �.�,..� .„ , ., ., , . . . .. , IPNL-PP-P4K PNL PP-P4K 208 , MCCB 4 , 10.0 ' 0.46 2.2 , 2.2 1 ' 2.2 , 1 3 Phase � i ; � _ _ _ __ _ Comment: _..�., .,...R;:,�. �.. ., � t.,�.,-;��. �.,,:,,x � . .::"b,Ys ..a , ,»';: . .,. r:_.` ;,,k. . � r . ..y"r � �. w..,:.,.,, _�,�.,, . � r,a..'.' +rb+M,'€° ..,. .-, 'PNL-PP-PSA PNL PP-P5A 208 ; MCCB 2 ' � 22.0 1 69 ' 7.8 8.0 � 1 ; 7.8 1 i 3 Phase � � I +hr��e::.,.�, . ._ i....... _..___i.. . .. _ ._ .. ... _ . . I Comment: _ _ . � . ... , � :,<.. . �� x „,: , . x . ,, .,. ,., , f . :�...a. . . ..�� � � �.. .r .. � ._.e��_ .. � . i . ... PNL-PP-P56 PNL PP-P5B 208 I MCCB 4 10.0 1.59 ' 8.1 8.2 1 8.1' ��~ 1 i 3 Phase j� j ___ _,----- _ _ _ _ ___. _ _ _. Comment: _ _____ _ _ _ �PNL-PP-PSC PNL PP-P5C 208 I MCCB ��'� 4 '� � � 10 0 �� 1 73 j�� �4 7��� ��� ��'��4.9 ���� , 1 ��� ���4J�� ' �t1� > �3�Phase����� ��� � ��� � � _ � ,._ Comment: ,,. v, �� ,.�.,.:.. ���-:. �r ,M .,..���r�,w..,, .. �.s. �*�,� ,., .�..�.. .. a . � va� � . . ,.„., . .. ., . , ,.„ , , a ,,.,. _ . . . ,. . , �r�P a Monday,January 28,2008 Page 12 of 18 � � ... . ... ... .... . _ . , a ��. . : ., . . .. Equip 1/2 Cycle 1/2 Cycle 1/2 Cycle Equipment � Type of _. Ratin�__ _ X/R Sym (KA) Asym Sym(KA) Type Of ___.Underrated?____. Fault With Int jPNL�-P P6A PNL�PP-P6Ae 2085� MCCB ', C�t With 1I0 0 0 53 �(AC3.6mP)I �KA) MF I 3 6F S# ,'I 3 Phase ', , I Comment: . .. � .,. .,. .�#�� ,�:.-._, ,,r,. .... _..�:., �.. . , .::.. > �...}. . .;;�� , �:� __ _�_ __ _ _ : _ _ i ,i I, ` . .._ .; a. _. IPNL-PP-P66 PNL PP-P66 208 MCCB 4 10.0 ' 1.57 ' 6.0 6.1 1 6.0 1 I 3 Phase �� Comment: , .��u.> . �,_E, �, . . x,�. .- . � � �. ��_ . , � � ..�� �.,� .,�,-��. � � u �.. . ,. •h_ .� . _ ,�_ _. . _ t : �,T _, jPNL-PP-P6C PNL PP-P6C 208 !� .MCCB . 4 10 0 ' 1.71 4S 4.6 1 , 4.5 , 1 3 Phase !, � Comment: ,. , ..,�.: ;.F.u . �,.M_•, ., . ,:.,: . �_�.�:$. .. ., -. ; z ; , .,�, . �. ..,. , . _ ��PNL-PP-P7A PNL PP-P7A 208 �- MCCB 4 , 10.0 , 0.52 3.4 ' 3.4 1 ' 3.4 A 1 � 3 Phase � ; Comment: � . , ..;.v..,: � ;,...�.. , .�s:.�.�:. . ., {-"�...7� .�- a�*a^:_ C;��, B. . «..r �`'��. ,t,�. . � � , . �.,��r.:.- � - 4....� . . . ....� _ , . ,��- ...�.. .- � _ . . . , _ . .. ... .. .. .. ... .. .._ . � . _,:. .,�.. .. ... .....�. .. .. . .. ... �pNL-PP-P7B PNL PP-P7B 208 I MCCB 4 10.0 1.70 5.8 5.9 1 5.8 I 1 ' 3 Phase ; ; __. i.___ . __ _ . Comment: , � ..g.. +e� ,.' �.. . va.v�....:.:.t..n Tr,r.r.. .....+ � .v..�._-.:L. 'yf..,'. ......�:r. N`i�.. .�....^0...+r .. +.,..,:..:: . a.r r x�,--. Y iv.:..�'v.:: n.. a. .4.;-:. ....�. .'. �.. �. t. . - . ' . ..��' . PNL-PP-P7C PNL PP-P7C 208 I MCCB 4 10.0 1.70 4.4 ' 4.5 1 , 4.4 1 3 Phase ,. y � -_ Comment: iPNL-PP-P86 PNL PP-P86 � , , 208 �� MCCB ,4 .,. �10.0 1.51.,,,;..0 5.4„� r.�,,:V 5.5 ".4:.,, 1 ;,,�:�,� 5.4'r� .�, n:1� r, ,..3 Phase,. . , _ I __ ___ __ _ . _ Comment: ,� ,...��.. � � _ � ... �, . >: ,� ..,. . :,� . ,� ,:.,,.. , �. �;:.: ° .-�::.. . �PNL-PP-P8C�PNL PP-P8C 208 I MCCB '' 2 22.0 1.69 ' , 4.3 4.4 1 4.3 1 ' 3 Phase � . Comment: .�:, a..K��.f.y ..• r p3 ^n :.ri. �Y`s: '°`.f r v.:.;.k ,. �.;.�., E y�� a ti �.�.b�.a rvSv,E:...,'�':. �wvR�'.: lw. �:,... �:,,.� . ., .. �..� ._.._ ::.:; ., .� ,.,:.,... .,�. .,,. ,, .. �� PNL-PP-P9A PNL-PP-P9A 208 MCCB 4 l 10.0 0 50 2.4 2.4 1 2.4 1 3 Phase ; - ,__ Comment: „ �,. x ,� r . .. � . ., . �. . ...:.y, � .. .„..� � ��:>,«: .y,.,,'..,.. „�. :�.,<.,, .,-....�.�.. . ,.w,..::,.. . _.�.���a�,r,�. . ,�,�.... r„ _.w::y_.. . �.s:y' , �. . ..#.r,.t.. .. ,a., �. ..,. .. . . .w _,. . s.� �PNL-PP-P96 �PNL-PP-P9B 208 MCCB 4 10.0 ' 0.45 2.5 2.5 1 , 2.5 '�, 1 3 Phase I I Comment: _ _ _ _ �PNL-PP-PL PNL PP-P� _ 208 J�, MCCB,.� 4 ....} I;�,10.0.�..�1.60 � 6.8: . , . , 6.9 �:.. _ 1 �f' � ,6.8��� 1 3�Phase...� I_ , j 1 Comment: :��»..� , ,.s,G,,,� .'� :'°'�: .,' , ,�,:;�n�* .."�, , y a.:y.x S a sr-`,�a� �:yr .,��; ,..�.;� , .k^;�..�. .s, ,...,... � � . . . . ....._, ' . . . ... .. . . ... 'i; . . IPNL-PP-PR �PNL PP-PR 208 : MCCB 4 10.0 0.48 2.7 , 2.7 1 ' 2J � 1 � 3 Phase __ _ . _ __ � Comment: �, _ ; r I� ,.�,.,sK � ,.�,. .y::+ � r�-,� a 1. ..;,, � .. �"±�« . ..� c�• .:,�:, � . �.�' . U„,_, a. _ ..,. : ,. IPNL-PP-PSP PNL PP-PSPA 208 , MCCB 2 22.0 2.86 16.5 18.3 1 16.5 1 3 Phase '�, ; Comment: , k^ ,�,' r -�.,.. �;;.p�.a �;, .,,�. !,� �.,.u�.,3 .,,_ . „ ..k , .x�.+t"�4 "'`.� e .� .. �;,` . ,r � � .�i„ ,. J.�..: � `�' µ ' .�• � �, ,y: .. 'fi..:. .��:.�. ..�, ....:..r . i .. ' .. Monday,January 28,2008 Page 13 of 18 � � , ,. .. ,. : . ...:.:.... .. � . . ._. . : . ..., , .._� ,.. --r. . : , . . Equip 1/2 Cycie 1/2 Cycle 1/2 Cycle Equipment I� Type of __Rating____ X/R Sym (KA) Asym Sym (KA) Type Of ______Underrated?_.____ � (KA) MF X MF S# Fault With Int ',PNL�-P PSP PNaPP-PSPB 208 MCCB C2 t ! l 65.0 ', 2.32 � AC 2 2 13.0 1 12.2 3 Phase � � � !__ With Int atio ,_ p �. _ ; � _ Comment:panel is series rated with upstream SFHA 225A breaker ..s ... v .r:.^ , . ..4,',i: ' �,... .��. . . �,....::n. ....z.:..� : ..��.:�. e ,.,}�.u':�.:t's«t..��.3.,'4 ...�..,..: . . � . .. .,. . . c... . .. .. . : a .:..... . ..: . . . . . iPNL-PPRC3. PNL-PPRC3.1 208 I MCCB ' 4 10A 1.66 7.5 7.6 1 I 7.5 i, 1 I 3 Phase ; __-_ � i _ _ _ _ _ Comment: �,, .�r, ., .:.:�� ��,�...:.. .�?. - .�.,,, ., ;, . .. H ,,.�: ..�: ,� ... ,. .: _. a, : :,. ,. . . � __ ,. PNL-PPRC3. 'PNL-PPRC3.2 208 ; MCCB I 4 � 100 152 6.3 6.4 1 6.3 1 ' 3Phase ' i _ _ __ _ _ Comment: ii J - . ..,. . . , , xl .:, , ,�.� ,.�.. , ..,,. .._> , f,,. .,.,_ ;.. , , a. - .., PNLPPRC3A PNLPPRC3AHC 208 MCCB 4 10.0 1.52 6.3 6.4 1 6.3 , 1 3 Phase I Comment: iPNL-PPRC4. PNL-PPRC4.1 208 ' MCCB 4 � � Y��10.0 ��• 1 66�R ��7.5 � - A � 7.6 f j � 1 � i , 7.5� Y,�^1� � .. 3.Phase� _ _ _ a .,:n. :,�A: I .. . � - � - � � _' � Comment: S .: ^' ^�'rn r �:._ , . . .. 9. '�.,r, ...RM . �.�,. , ..:.`L:rh�.'.,S z..�_i 't�.d�r ....i-. ., 3.� ,. . � v N .rv � 't�. . `:�... �l".. ' ' N,. .. .. . . ..: .. . ..... ...,`;� 5 .. ..,. . . ...ie �..... ....... .�.� . . �PNL-PPRC4. PNL-PPRC4.2 208 '� MCCB 4 � 10A ' 1.52 ' 6.3 6.4 � 1 I 6.3 , 1 I 3 Phase ' � _ _ _ . _ _ _ , _ _ _ � Comment: . . . . ...... .. . .. . .. . �. ._. ..m .+.r.M ..d.tsM.r.,:+�' ..:s ,_ . �',..e.« ..,v ,.,,. .::G-d R... . ..�,.:<cc.t: ax,;.... . :?. .� ..c.., ..s°4� .. e . _ - �„_:: . .:;.r -> 2,. < ,.:: ,.5. ..., u. ..:� .. . ..�..�� �. �PNL-PPRC4.!PNL-PPRC4.3 208 ; MCCB 4 10A 1.52 6.3 6.4 1 ' 6.3 ', 1 ' 3 Phase �, I _ _ _ Comment: : ,. . ._ . ;: . . r;.,: ...+ : . �, .., w,, :� .��w. .. ,�,... �_�_.._. . ,�._ �,. .. . ... , . _.. .. .. , �. �. r � :��. �,.��.. , , ..,,.� � jPNL-PPRC4 �PNL-PPRC4A1 208 �, MCCB 4 10.0 , 1.40 5.3 5.4 1 , 5.3 1 , 3 Phase . ' Comment: iPNL-PPRC4 PNL-PPRC4B1 _ 208 MCCB ,�� 4 � �L A �-� 10A 1.33 4.6�� ��^� � -� f ' ' ' ` "" ° �� ` T. :.,�� ..,�� � � .�-��, � � '� 4.7 1 4.6 1 3 Phase.. . : :,_ . �... ._. _,�. �. . - _ �-- _ ' Comment: �PNL-PPRC4 PNL-PPRC4C1 208 I MCCB° , 4 . . � 10.0 ::=1.45 h .. �5.8 I� �^,Y °5.8 � 1 . : 5.8 p . � �, ,, N ' `_. ,�.,,.. ._ , . .:,:< ; ,- , .� ���. ��.. ..� t � 3 Phase ; I -- - '--- � . Comment: . �, . � ,. . . . . _..,, . ,: . � <....,.,..��, � r. ,, . .t, ,::. : z , :-. �, .,.�: „��. �r. .. ., v., PNL-PPRC5. PNL-PPRC5.1 208 ', MCCB 4 10.0 1.39 ' S.1 I 5.2 1 �, � . 5.1� , 1 � 3 Phase M� � -- --:__. _ __ _ _._ ,_ _ __' _ _ ___ - - _ _- Comment: � PNL-PPRC5. PNL-PPRC5.2 , 208 MCCB , 4 ,,,�10 0 '. ,1w36:�,.:;.�����8: .�, .4.9 ; -. . 1 �''�, 4.8 , a :��t ;..,, , •.„a,W:.;. , 1 ., � _ _ - , . � _ 3 Phase _I , , � _ � I Comment: ,. , , .- . :_ -.. �_e....:. �w.,� ... :dw�, w .-,.� , ,.,..,'�� . . ... . ��:'2-�.,�n .,. � �^:x 4. . ..... ._x... . .. . � . . . . .. .._ . . . . ...�. ,... . . _... r"..�. .r.� , . ,. �.., ... �PNL-PPRC5. PNL-PPRC5.3 208 �� MCCB �� 4 10.0 ' 1.34 4.7 4.7 1 4J ; 1 ; 3 Phase" m ' __ _�___ __ _ __,_ _. _ _ _ _ _ - ----- Comment: . � ,, ,.. � u,:., �� � ��,..�, � ,,�., .. ,. �r. ,.���.. , M,.. . ��M �b _ . , . , . . , . a . . _ �� _ , . Monday,January 28,2008 Page 14 of 18 � , , , .., , ... :. . .,. . .:. . Equip 1/2 Cycle 1/2 Cycie 1/2 Cycle Equipment Type of __ Rati_ng_.___ XIR Sym (KA) Asym Sym (KA) Type Of Underrated? V � __ . �, With � Int , i _ _ _,-------- ----- Node ID Node Name � olts Device Cat Ratio ;(ACComp) (KA) MF X MF S# Fault With Int �PNL-PPRC6. PNL-PPRC6.1 208 � MCCB 4 10.0 ' 1.39 5.1 5.2 1 5.1 1 3 Phase ; � Comment: , . ,,.> � . _.�. 1 I __ . ._ , : , . . ., �I .:�,. ..v .,. :x ,, . ,., .�, � PNL-PPRC6. PNL-PPRC6.2 208 MCCB 4 i 10.0 1.36 4.8 4.9 1 4.8 1 � 3 Phase i ' Comment: ��.� . .. _�� .�,..,, . _...,�,.: . � . � . �«�_:, ...._.- ��,.... � .� � ,, ,. . � ,,�_ , . ., __ . iPNL-PPRC6. PNL-PPRC6.3 208 I MCCB , 4 10A 1.34 4.7 4.7 ' 1 ', 4.7 ' 1 : 3 Phase �; I _ _ _.,._. . . _ _., __ _ - ._ _ _ _ _ _ _. _----- Comment: _ _ _ . . ,..;. ,..M . . .. .. . . . . . ..,�;. . -:a: .' .� ,.. � . r, .. .:..: . �.,.� ... .:� .... .,. . !PNL-PPRC7. PNL-PPRC7.1 208 ' MCCB 4 10.0 1.35 4.8 4.8 ' 1 ; 4.8 1 3 Phase ', � �_ � - , Comment: _ ,. , �; t: �. :, ,.:.� ..� .. ;,..�„�.. • �. .,.,;�, .,�,:.._..,, .���, � � ,� x ,._ �. � �� .,�� . �x. ,� . .�; _. PNL-PPRC7. PNL-PPRC7.4 -208 �'�� MCCB 4 ' 10.0 1.35 ? .4.8 4.8 ' 1 , 4.8 �� .1 ,L; 3 Phase ', _ Comment: . ... . . , ... .a .�v.. " _.,.....,. �.:. .�'f �S,...�; i� . .'..��; �.�..L e.x..r1f_. .f.:':x . b:`}.r .M. �. ..0 ...,... . . . . . .. ._ '�=F s' '.2`�., s�. 'y52 " �. .,.� � . 6._.�r., �,. '1! ..r. , . , . �PNL-PPRC8. PNL-PPRC8.1 208 ! MCCB � 4 10.0 1.35 ' 4.8 ' 4.8 , 1 4.8 ' 1 ', 3 Phase � i __ __ _ _ _ _ : _ . _ _ . Comment: __ __ PNL-PPRC8.�PNL-PPRC8.4 208 ! MCCB 4 � a 10.0 � 1.35 4.8 : 4.8 R 1 4.8:.µ .1 � 3 Phase ,i _ _ _.. _'- ---_ � _ . Comment: . ,�*:�,. �...,;� ,� .�:�.,,.� � � ,3 . � , . , a,. :��-� � . .;9.:.. _,..�, •�,a� �s ... .;: . . � ..,.. ..., , . _ . _ .. , ,, � � iPNL-PP-UPS PNL-PP-UPS1 208 � MCCB , 4 10A 0.64 ' 2.2 2.2 1 2.2 ; 1 , 3 Phase j I Comment: . _ . �. r . , ., _ �:.;., v:-. _. .;.,.. .�, , - ... ' �... .......*�: ,.__:.. _ __ *:,. _ ' _,.. ,,,, _i �.., . _. - I 3 Phase ,._.,, . :I PNL-PP-UPS PNL-PP-UPS2 . 208 1--MCCB 4 ; I 10.0 0.85 1.8 1.8 1 ' 1.8 1 � Comment: - , ,. , .A.� .�..A.:..�.�.,.,,;a , ,4.. .,�, r..;, .., � ... ,, . .,. . �t:� . . .wa. ., . x� .. ,, i . , . SWBD-DP-D SWBD DP-D2A 208 ; MCCB 2 42.0 ' 5.33 ' 21.2 27.0 1.02 ', 21.7 , 1 3 Phase Y� I � i --_ _ ,_- _ , _ _ _ _ _ _ _ . _ _ . _ __ Comment: �SWBD-DSB SWBD DSBHA 208 '�� MCCB 2 n 25.0 �3.42,*~. �f 19.3: t: " 22.1 �jF' 1 � 19.3 g,;:1 ';Line To Ground l � __ __.-- _ ___ _ _ _ _ _ Comment: _ _ __ _ _ _ SWBD-DSB SWBD DSBHB 208 , MCCB 2 J� 35A 3 52 ,� 19. . � : � :�� Y • J�� ,.:1:�iLine To Grou� � �� � , :.�., ..;�: .. . � 8 22 8 ' 1 �I, 19.8 �, nd I � _ - - Comment: .___.-_ ... •• '-.�.Y �' '.�.y,yl *: . .a� . , ' .:. .j,�.� p �r;}S.f;. ..� :.�_ Y... . . 12.0` ..� 1 23 , ..� ., , � � � _ ISWBD-EMS SWBD-EMSB 480 i MCCB i 3 18.0 8 97 ' 8.5 I ' 10.4 � 2 � 3 Phase ' - -�_ - ��, � _ _. Comment: ,� .,,, , T., . .., „�r;;.�,. .. .r.,,. ., ..;•�: ,. ,w * ., ,. a. fl ,.>r�:< Monday,January 28,2008 Page 15 of 18 � � : �. . . r _ ., . �.;. ,.. , . ..., .,_�,. . ,...>.�* , .,.M _ _ . _ _ . Equip 1/2 Cycle 1/2 Cycie 1/2 Cycle Equipment Type of __ Ratin�____ X/R Sym (KA) Asym Sym (KA) Type Of ______Underrated? _ Node I_D Node Name Volts, Device Cat With Int Ratio (ACComp), (KA) MF , X MF S# Fault , With Int ISWBD-MSB-jSWBD MSB-A 480 : MCCB � 2 � 65.0 ' 5.82 ' 36.1 46.8 1.05 I 37J i 1 ;i 3 Phase ; __ � _ , Comment: .., . . __., ,. ,.•. . .. � �: ..�+,r,.;, : .• .c,�., , .� s.b: . , .::�_.. .. ' . . . . , . . .,, .. .._ . . Sz,� .�.;� . . .,. :.:,,_.,, .,,..'�.-v.. .,:,� .. . .:s"..'�� . �SWBD-MSB-jSWBD-MSB-B 480 �� MCCB I, 2 65.0 5.67 '� 37.7 , 48.6 '� 1.03 j 39A ' 1 ', 3 Phase ' __ ._ __ . Comment: � . � �„� � . , � � . -_ . _ . �._, . .. _ ,., . ,. �.:,, .. �, . .w�,>� .�t ,, ,�,�,�,�a,. 'UPS1(B) �UPS1(B) 208 '�i N/A ' �i � � 0.80 �� 2.9 '� 2.9 ��� '�� ' 1 3 Phase� _ �___ _. _ - _ _ _. _ .___ _,_ _ _. _ Comment: . ..I ... , . ...�. . �.. �.� j.. ,,,,....:�,. .n.. .::. r . �.a:! ...�.....,.. ..F`:A,...r .,.... ✓.,. .. �..n...�.,. ... ,. IUPS1(N) UPS1(N) 208 ; N/A . � 0.80 2.9 2.9�� : � .� �� � � .�.1. 3 Phase ! '; Comment: � �, .;r , _ . ,,.:._�� ,..,.. � ....:, .,.t.,._: . �...t... ._. :•,: .,M �:. �; ,. __ � , .�,m.��_ m, �. �s , IUPS2(B) ' + . . ..,._ . ,UPS2(B) 208 �, N/A ' � 0.86 1.9 1.9 1 3 Phase i ; . _ � Comment: .. . . . . . .. . . . .. ., . .. ....am . .,��_ ..._.,.aF`�..�:td�; � z�,.:. ��.� �, ,.n.,,;*�,. ,n,.+:,.,.:, �...��,.;r .s.: ._„r.�. h,...A. ., -. ... . ..,.�.;�k..:. ., _. ,.. . . . .� v,�.,� .; IUPS2(N) UPS2(N) 208 I N/A , 0.86 ' 1.9 ' 1.9 ' 1 �, 3~Phase , __ _ - -- _ _ _ _ Comment: � . � ,.�, �. ,.. � -� •., „� . . ., . , �.� � ,.�.. _. . : . .: .r„ ,s. . :�. . .� M . .. , . _ .,. ... ., _ ;XFMR-ETR1 XFMR ETR1P 480 j N/A ' 2.13 17.9 18.8 i 1 '� 3 Phase ', � -- -�- _ : , , Comment: �:. .r , ,r, .� s�,: ..Y . �,,�,.� ,��. �, ry,:;., sa..,<.� � . , � r . ... �: � ..:� . � ••^: , „ ''�. ,s .,���.� , -y;aca ,a,,,,�;;. � ., ,. _ ;XFMR-ETR1 XFMR ETR1S 208 , N/A 1.48 5.9 6.0 ' ' 1 ILine To Groundj �, Comment: '� , ,. ;.. x..� �,� ,.,.* . ..�.,n,., .�,., p .,.�. r, , : .,. .,,- .;, ,,. �,;�,,, . .. ^� �F� < , -:..�. „._ . ... , , .,.'.-? . . _. . ., � �..'n� ,.�, ,�.;�3 ,v.� ., ., .. .._, .� , .� . �....�,�., r .�.. . ,.... ...,. _, . �.. ; . IXFMR-ETR2 XFMR ETR2P 480 j N/A ' � 1.89 10.1 , 10.5 i ' 1 ' 3 Phase ' 'i __ _,_ - _ _ - _ Comment: �_.��. �� - �a,�� �, .� _ ,,ti��. w.�.1� Lin�_,`;,�. �-•� � .:_ � � � ,�.� � � XFMR-ETR2 XFMR ETR2S 208 I_ N/A i I ! ' � � 1 49 � 5.5 5.6 � � e To Ground� Comment: � _ ' __ . ,.. . , ,. . K .,r .:: , :,-.;,.:.., ,� h;:'w �a i,�., .:;: ;t�.;,... ��t. �.,,;,, . , . i IXFMR-ETR3 'XFMR ETR3P 480 ' N/A i , j 2.77 I 22.7 I 24.9 ' 1 'j 3 Phase , 'i --- -L---- ..__. _ _ � � ' _ - _ _ _ Comment: . . . . .. ._._ ... .. . . . ._... _ .. , *«�, rr ..�,.y. ...k , .�.-'��uA.,. ,.��e�'d�., �nL«e?,. _ ...'A4;;. � . . . .. . � .� ..�� ,�„ . .:.�,..�.� .� � : ._ � ..,r�� �, .:. � ' i ' 6.1 ' 1 ,Line To Ground I �, �XFMR-ETR3 XFMR-ETR3S 208 N/A � 1 49 � 6.0 , , � �, , , Comment: _ � . _ jXFMR-ETR4 XFMR ETR4P . 480 'I�__ N/A- �' � I. .1.66 � 19.9:, . ,.. 20.3 •`. , .�. ; � .-,„.:.:�., .w1.. ,-,..3�Phase,,:s �� ,,. , _.. .•, � 1 Comment: � , � .�.� .:,�A. ,a� �� , .� . , .��, , .; •. , .. ,, , „ . ., � �,�... : ,.. , . Monday,January 28,2008 Page 16 of 18 � � � . . , r . ,� . .�. _ , , . ._ _ .. _. . ... . ... ... ..r .�., ...a:. �n r,:�: .h. �+R.�..., . .,$•_ -. 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' Comment: :; ; • . .:� .. ,_: . ,...4: ,. :- , .. .s..:: . ,..,;•� ,..� .-�:� ,�:,n.-: ��,.�, ; ,w, XFMR-TR2P XFMR TR2P 480 '� N/A � , 3.42 23.0 26 4 1 3 Phase � --___J-_ _ ._ _ f"., _ � Comment: ,, '. R(... � ', s' ' ' ' . n -+,4�;aid>�:..i o_�� . .W-, . . . _. . .. . ,..<Y„ ... . . .. , . ... ., ....� ..... .. . .. ..e �.. x.0 .. . t . . . . iI �,.. , ..,�Ic � .. ..,, , .. .. I ��� ':+. r s� ' �.�,. .. ......,. I XFMR-TR2S XFMR TR2S 208 , N/A 4.68 22.6 27.9 1 Line To Ground�, __. ___ _ Comment: . � , , �..�; ,� �. z. . , .:�:- __ ,. , .� .� ,c�r r<,t.o .� � . ., ,�� :�. �:�-.., .K�., _ . . ':,XFMR-TR3P XFMR TR3P 480 '', N/A i , 3.31 ' 23.3 26.5 ' , 1 l 3 Phase� � Comment: ..i.: .�:n .� �..�, fi �,,..f :...i..� ��,�+ �P,.�i.,�, .,:.,. .. �r i..�:i 1 t' , . � ...�. ... .. .,.. _„ . . .. . . ....... . . . ..... 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I Monday,January 28,2008 Page 18 of 18 Four Seasons Hotel Job Number#050875 Revision #0 - Date: 1/28/08 PROTECTIVE DEVICE COORD/NATION STUDY Time Current Curve Discussion The determination of a particular setting is based upon a careful balancing of the competing goals of equipment protection and pure selectivity. There are many codes that specifically define the required limits of equipment protection. Examples of these are the National Electric Code (NEC) for cable, motor, and transformer protection. The American National Standards Institute (ANSI) also has requirements for protection of transformers due to short circuits and through faults. The engineer considered these standard codes and requirements. Their applications are graphically demonstrated on the time current curves. Time current curves are logarithmic graphs of time versus current. The graphs show the devices' operational characteristic curves. The curves graphically illustrate the coordination between the devices. The engineer made every attempt to utilize the existing equipment and determine settings to meet present day requirements and practices. The engineer must maintain a coordination margin (dependent on device type) among device characteristic curves. This ensures that only the desired unit operates and prevents more of the system from being de- energized. The coordination study required calculating the short circuit values at the equipment and plotting these values on time current curves. The engineer plotted fuse, transformer protection, and circuit breaker curves, starting from the end load and working towards the main switchboards. The study was done on the 480 & 208-volt equipment specified in the contract. The study contains time current curves, copies of the manufacturers' time current curves and tables of the low voltage circuit breaker settings. The protective device coordination study was performed using the SKM PowerTools CAPTOR program. SKM PowerTools is a collection of programs that are used for design and analysis of power systems. The software was written and is distributed by SKM Systems Analysis Inc. of Manhattan Beach, CA. The Time Current Curve (TCC) sheet #1 shows the plots of the fuse, transformer and downstream 480-Volt equipment. A typical curve shows the primary device followed by other devices downstream. A TCC ID # identifies each device on the curve. This ID number is used to locate the device in the equipment data/settings table and on the time current curve. Each time current curve contains a small one-line diagram that shows the plotted devices. In general, most of the devices will not selectively coordinate in the instantaneous region. This is considered a tolerable situation in most cases due to the operating characteristics of these devices in that region. However, for elevator circuits, emergency systems, and Tab 7 Page 1 Four Seasons Hotel Job Number#050875 Revision #0 - Date: 1/28/08 standby systems this is not acceptable per NEC code 620.62 (People Transporting Equipment), 700.27 (Emergency Systems), and 701.18 (Standby Systems). For these areas, selective coordination is required and the protective device curves shall not overlap. In the discussions that follow, no reference will be made to this issue unless the situation merits further comment. Sheet #1 shows the primary fuse, transformer UTIL1 damage curve, Main Switchboard MSBA main breaker, MSBA tie breaker to MSBB, MSBB feeder breaker to ATS-1, EDP-3 to EDPELVI, EDPELVI to elevator RS1, and elevator RS1 motor starting curve. All the devices do not coordinate. The transformer primary fuse (device#1) overlaps with Switchboard MSBA main breaker (device #3) and tie breaker (device #4). The overlap between Switchboard MSBA main breaker (device #3) and the tie breaker (device #4) is acceptable since these devices are in series; if either device trips it will have the same effect. The overlap with the tie breaker only happens when the tie is in the closed position. There is also overlap between ATS-1 feeder breaker (device#5) and the primary fuse which is unacceptable, but it cannot be adjusted lower as it will overlap with the feeder to EMCC- E 1 A on TCC#3. Sheet #1 GF shows the ground fault curves for Main Switchboard MSBA main breaker and MSBA feeder breaker to ATS-1. The ground fault devices are coordinated. Sheet #2 shows the Switchboard MSBA tie breaker to Switchboard MSBB, Switchboard MSBB feeder breaker to ATS-1, Panel EDP-3 feeder breaker to Panel EDP-ELV1, Panel EDP-ELV1 feeder breaker to elevator RP1, and elevator RP1 motor starting curve. All the breakers do not selectively coordinate. To improve coordination, replace feeder breaker to ATS-1 (device #5) and feeder breaker to Panel EDP-ELV1 (device #6) with solid state breakers. These should have adjustable long time, short time and instantaneous functions. The instantaneous should be set greater than 23,513 amps. Sheet #3 shows the Switchboard MSBA tie breaker to Switchboard MSBB, Switchboard MSBB feeder breaker to ATS-1, and Panel EDP-3 feeder breaker to EMCC-E1 A. The devices are coordinated in the long time and short time regions. Sheet #4 shows the Switchboard MSBA main breaker, Switchboard MSBA feeder breaker to transformer TR1, transformer TR1 damage curve, feeder breaker to Panel DP-D2A, Panel DP-D2A feeder breaker to Panel DP-RC3, and Panel DP-RC3 feeder breaker to Panel DP-RC5. All the circuit breakers coordinate in the long time and short time regions. Tab 7 Page 2 Four Seasons Hotel Job Number#050875 Revision #0 - Date: 1/28/08 Sheet #4GF shows the ground fault curves for Switchboard MSBA main breaker, Switchboard MSBA feeder breaker to transformer TR1 and feeder breaker to DP-D2A. The ground fault devices are coordinated. Sheet #5 shows the Switchboard MSBA main breaker, Switchboard MSBA feeder breaker to transformer TR2, transformer TR2 damage curve, Switchboard DSBHA main breaker, Switchboard DSBHA tie breaker and Switchboard DSBHB feeder breaker to Panel PP- P3C. All the devices do not coordinate. There is overlap between the feeder breaker to transformer TR2 (device #19), Switchboard DSBHA main breaker (device #21), and Switchboard DSBHA bus tie breaker (device #22). This could be corrected by lowering the long time pick up on the tie breaker. The overlap between Switchboard DSBHA main breaker (device #21) and feeder breaker to transformer TR2 (device#19) is acceptable as they are in series and feed the exact same loads. Otherwise the circuit breakers coordinate in the long time and short time regions. Sheet #5GF shows the ground fault curves for Switchboard MSBA main breaker, Switchboard MSBA feeder breaker to transformer TR2 and Switchboard DSBHA main breaker. The ground fault devices are coordinated. Sheet #6 shows the Switchboard MSBA main breaker, Switchboard MSBA feeder breaker to MCC-1 A, MCC-1 A feeder fuse to motor 1 A50, and 1 A50 motor starting curve. All the protective devices coordinate. Sheet #6GF shows the ground fault curves for Switchboard MSBA main breaker, and Switchboard MSBA feeder breaker to MCC-1 A. The ground fault devices are coordinated. Sheet #7 shows the Switchboard MSBA main breaker, Switchboard MSBA feeder breaker to MCC-4A, MCC-4A feeder fuse to motor 4A20, and 4A20 motor starting curve. All the protective devices coordinate. Sheet #7GF shows the ground fault curves for Switchboard MSBA main breaker and Switchboard MSBA feeder breaker to MCC-4A. The ground fault devices are coordinated. Sheet #8 shows the Switchboard MSBA main breaker, Switchboard MSBA feeder breaker to Panel DP-D1A, and Panel DP-D1A feeder breaker to Panel DP-DL. All the circuit breakers coordinate in the long time and short time regions. Sheet #8GF shows the ground fault curves for Switchboard MSBA main breaker and Switchboard MSBA feeder breaker to Panel DP-D1 A. The ground fault devices are coordinated. Sheet #9 shows the Switchboard MSBA main breaker, Switchboard MSBA feeder breaker to Chiller 1 disconnect, and Chiller 1 motor starting curve. The electrical contractor stated that there is no additional protective device at the chiller. The horsepower is calculated from Tab 7 Page 3 Four Seasons Hotel Job Number#050875 Revision #0 - Date: 1/28/08 the kW on the single line. All the circuit breakers coordinate in the long time and short time regions. Sheet #9GF shows the ground fault curves for Switchboard MSBA main breaker and Switchboard MSBA feeder breaker to Chiller 1 disconnect. The ground fault devices are coordinated. Sheet #10 shows the Switchboard MSBA main breaker, Switchboard MSBA feeder breaker to ATS-2, Panel EMS1 feeder breaker to transformer ETR2, ETR2 transformer damage curve, Panel EDP2 main breaker, Panel EDP2 feeder breaker to Panel EP-EP5B, and Panel EP-EP5B feeder breaker to Panel EP-EP7B. All the devices do not coordinate. There is overlap between the feeder breaker to transformer ETR2 (device#36) and the EDP2 main (device#38) which is acceptable, as they are in series and feed the exact same loads. All the other devices are coordinated in the long time and short time regions. Sheet #10GF shows the ground fault curves for Switchboard MSBA main breaker and Switchboard MSBA feeder breaker to ATS-2. The ground fault devices are coordinated. Sheet #11 shows Switchboard MSB-A tie breaker, Switchboard MSB-B feeder breaker to transformer TR3, TR3 transforrner damage curve, Switchboard DSBH-B main breaker, and Switchboard DSBH-B feeder breaker to Panel PP-P3C. All the devices do not coordinate. The Switchboard DSBH-B main breaker (device #43) overlaps the feeder breaker to transformer TR3 (device #41) which is acceptable as they are in series and feed the exact same loads. Otherwise the circuit breakers coordinate in the long time and short time regions. Sheet #11 GF shows the ground fault curves for Switchboard MSB-A main breaker, Switchboard MSB-B feeder breaker to transformer TR3 and Switchboard DSBH-B main breaker. The ground fault devices are coordinated. Sheet #12 shows the Switchboard MSB-A tie breaker, Switchboard MSB-B feeder breaker to Panel DP-DB1, Panel DP-DB1 main breaker and Panel DP-DB1 feeder breaker to MCC- 9B. All the devices do not coordinate. Panel DP-DB1 main breaker (device #45) overlaps the feeder breaker to DP-DB1 (device #44) which is acceptable as they are in series and feed the exact same loads. Otherwise the circuit breakers coordinate in the long time and short time regions. Sheet #12GF shows the ground fault curves for Switchboard MSB-A main breaker and Switchboard MSB-A feeder breaker to Panel DP-DB1. The ground fault devices are coordinated. Tab 7 Page 4 Four Seasons Hotel Job Number#050875 Revision #0 - Date: 1/28/08 Sheet #13 shows Switchboard MSB-A tie breaker, Switchboard MSB-B feeder breaker to transformer TR4, TR4 transformer damage curve, Panel DP-DC1 main breaker, and Panel DP-DC1 feeder breaker to Panel PP-CD1. All the devices do not coordinate. Panel DP-DC1 main breaker (device #49) overlaps the feeder breaker to transformer TR4 (device #47) which is acceptable as they are in series and feed the exact same loads. Otherwise the circuit breakers coordinate in the long time and short time regions. Sheet #14 shows the Switchboard MSB-A tie breaker, Switchboard MSB-B feeder breaker to transformer TR5, TR5 transformer damage curve, Panel DP-DC2 main breaker, and Panel DP-DC2 feeder breaker to Panel PP-CD2. All the devices do not coordinate. There is overlap between the feeder breaker to transformer TR5 (device #51) and Panel DP-DC2 main breaker (device #53) which is acceptable as they are in series and feed the exact same loads. Otherwise the circuit breakers coordinate in the long time and short time regions. Sheet #15 shows the Generator decrement/withstand curve, generator main breaker, Switchboard EMSB feeder breaker to ATS-2. Switchboard EMS1 feeder breaker to transformer ETR2, ETR2 transformer damage curve, Panel EDP2 main breaker, Panel EDP2 feeder breaker to Panel EP-EP5B and Panel EP-EP5B feeder breaker to EP-EP7B. All the devices do not coordinate. There is overlap between feeder breaker to transformer ETR2 (device#36) and Panel EDP2 main breaker (device#38) which is acceptable, as they are in series and feed the exact same loads. Otherwise the circuit breakers coordinate in the long time and short time regions. Sheet #16 shows the Generator decrement/withstand curve, generator main breaker, Switchboard EMSB feeder breaker to ATS-1, Panel EDP3 feeder breaker to Panel EDP- ELV1, Panel EDP-ELV1 feeder breaker to elevator motor RS1 and elevator RS1 motor starting curve. The devices do not selectively coordinate. To improve coordination, replace feeder breaker to Panel EDP-ELV1 (device #6) and feeder breaker to ATS-1 (device #58) with solid state breakers. These should have adjustable long time, short time and instantaneous trip functions. The instantaneous should have settings to be set greater than 6,524 amps. Sheet #17 shows the generator main breaker, Switchboard EMSB feeder breaker to ATS-1, Panel EDP3 feeder breaker to Panel EDP-ELV1, Panel EDP-ELV1 feeder breaker to elevator motor RP1 and elevator RP1 motor starting curve. All the devices do not coordinate selectively. To improve coordination, replace feeder breaker to Panel EDP-ELV1 (device #6) and feeder breaker to ATS-1 (device #58) with solid state breakers. These should have Tab 7 Page 5 Four Seasons Hotel Job Number#050875 Revision #0 - Date: 1/28/08 Sheet #13 shows Switchboard MSB-A tie breaker, Switchboard MSB-B feeder breaker to transformer TR4, TR4 transformer damage curve, Panel DP-DC1 main breaker, and Panel DP-DC1 feeder breaker to Panel PP-CD1. All the devices do not coordinate. Panel DP-DC1 main breaker (device #49) overlaps the feeder breaker to transformer TR4 (device #47) which is acceptable as they are in series and feed the exact same loads. Otherwise the circuit breakers coordinate in the long time and short time regions. Sheet #14 shows the Switchboard MSB-A tie breaker, Switchboard MSB-B feeder breaker to transformer TR5, TR5 transformer damage curve, Panel DP-DC2 main breaker, and Panel DP-DC2 feeder breaker to Panel PP-CD2. All the devices do not coordinate. There is overlap between the feeder breaker to transformer TR5 (device #51) and Panel DP-DC2 main breaker (device #53) which is acceptable as they are in series and feed the exact same loads. Otherwise the circuit breakers coordinate in the long time and short time regions. Sheet #15 shows the Generator decrement/withstand curve, generator main breaker, Switchboard EMSB feeder breaker to ATS-2. Switchboard EMS1 feeder breaker to transformer ETR2, ETR2 transformer damage curve, Panel EDP2 main breaker, Panel EDP2 feeder breaker to Panel EP-EP5B and Panel EP-EP5B feeder breaker to EP-EP7B. All the devices do not coordinate. There is overlap between feeder breaker to transformer ETR2 (device#36) and Panel EDP2 main breaker (device#38) which is acceptable, as they are in series and feed the exact same loads. Otherwise the circuit breakers coordinate in the long time and short time regions. Sheet #16 shows the Generator decrement/withstand curve, generator main breaker, Switchboard EMSB feeder breaker to ATS-1, Panel EDP3 feeder breaker to Panel EDP- ELV1, Panel EDP-ELV1 feeder breaker to elevator motor RS1 and elevator RS1 motor starting curve. The devices do not selectively coordinate. To improve coordination, replace feeder breaker to Panel EDP-ELV1 (device #6) and feeder breaker to ATS-1 (device #58) with solid state breakers. These should have adjustable long time, short time and instantaneous trip functions. The instantaneous should have settings to be set greater than 6,524 amps. Sheet #17 shows the generator main breaker, Switchboard EMSB feeder breaker to ATS-1, Panel EDP3 feeder breaker to Panel EDP-ELV1, Panel EDP-ELV1 feeder breaker to elevator motor RP1 and elevator RP1 motor starting curve. All the devices do not coordinate selectively. To improve coordination, replace feeder breaker to Panel EDP-ELV1 (device #6) and feeder breaker to ATS-1 (device #58) with solid state breakers. These should have Tab 7 Page 5 Four Seasons Hotel Job Number#050875 Revision #0 - Date: 1/28/08 adjustable long time, short time and instantaneous trip functions. The instantaneous should have settings to be set greater than 6,524 amps. Sheet #18 shows the generator main breaker, Switchboard EMSB feeder breaker to ATS-1, and Panel EDP3 feeder breaker to EMCC-E1A. The feeder to EMCC-E1A must be replaced with an electronic trip breaker that allows coordination through all regions. The utility supplied and installed the primary transformers. The utility engineer determined the main service transformer sizes that are less than the full load rating of the main switchboards. However, the NEC does not apply to utility owned transformers. Therefore the following discussion on the transformers is noted in order to alert the owner that problems may occur if the switchboard continuous load exceeds the values noted below. The NEC Article 450-3(a) states that for Supervised locations only, that if the primary fuse is less than 250% of the transformer full load rating, no secondary protection is required. The primary fuses are rated 50 amperes and 250% of the transformer primary current is 87 amperes. In this case, the main breakers act as main service disconnects and provide protection to the 3,000 ampere switchboards. It does not protect the transformer from continuous overload condition. The transformer must be replaced if the switchboard continuous load exceeds 1804 amperes. If new transformers are installed, a short circuit study must be performed to ensure that the available fault current from the new units does not exceed the interrupt rating of the existing equipment. Tab 7 Page 6 CURRENT IN AMPERES O Y � �� � Y � 1 OOO �£�V-RS7 I �FM XFMR-UTIL, �OOO GE 'I kVA 1500.0 kVA SFLA Spect2 Rh7S . �-,,,y�,� SFLq � Tnp 775 A Senmgs Phase ! ' 3 ''. � '-PP..FUSE � S8C - ---_-------'- I � SMU-2G.t4 4kV E-Ra;eC SMU-20.50E . . . . � �, Tnp W H I . .. .. 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CURRENT IN AMPERES o Y 1 10 ° � o 100 1000 �4T0 ELFV-RP� - GE SFLA.Spectra RMS 4-SV✓BD n1S6F TIE BKR '""�°� SFLA '� GE Tnp'150 A �:; SS.SH PowerBreak II.MVT PIUVPM Settmgs Phase - SS MIN Tnp 3000 A = Plug 3000 A - Senings Phase = LTPU(0.5-�0 z P�t(3000A� = LTD(t-412 — STPU(1.59 x LTPU�4.5(13500A1 f.'TR-ELEVRF'� STD(Min-Max)IntQ"2 T Outi HF 40�hp I NST I�S•�3.P�l3(39000F i 100 100 ��.i:: 5-TO ATS 1 BKR 1 iG GE SK,MVT Plus/PM 'Q' SKL ��,� Trip'1200 A ..i11;` Plug 1200 A �" Settings Phase ���d LTPU(0 S1 0 x P�'(tZ00A� t LTD(1-4)2 ��; WST(15-10 x P)8.5 I i020�A� �li i. .� �'ti; �� �� C�TJ P>.L EDPE_�"P:F G[ � �GLA Specra R!:"� SGLA Trip a5^4 jr..`., cz �.?s F�-z�e �C°��.� ��A% �.;'l. i'�����'�. ��eno .!_�1l Iii)\I�I�a I II I1FIZ '.II,.,�... � .�\lil�\I}I�.I� ... il II.�::. = 1�,\Iti I fll�k � 1 � � �„��,� i m �,i.�. 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CURRENT IN AMPERES o �c 1 10 ° � o 1000 1 0 4-SNBD MSBA TIE BKR GE R1TR-EEtA S5.SH Power9reak II,MV7 PIUSPM �a.� HP 145 0 hp SS Tnp 3000 A Plug 3000 A Settings Phase LTPU(O.S7.0 x P)1(3000A7 LTD(1-4)2 STPU(1.59 x LTPU)4S(73500A) STD(Min-Max)Int(I^2 T Outi W 5T(1.S t 3 x P)13(39000A i 1 O O S TO ATSt BKR GE SK.MVT PIUS/PM SKL Trip 1200 A Plug 1200 A Setlings Phase LTPU(0 S'�0 z P�'�(12u0Ai LTD 11-4)2 INST(1 5-'A x P�8S f 1020uA� "sT0 E4�CGE'a GE SG�.4 Speu�aR�45 � 1 O SGu TnF 6��!�:� Se^v�os Pra-� 6�'.1: aao a���13I>>15R:1iIFI4t�K .� � _ �„�,�������_�� � -i � i� ,,�,�i,�ic m � i���i� Z ��. C/) � m ���r�i-rnr� n O r�i-r ui�: p � N ,:-�n���x(-t� . li�f\I((-F!1 I��I<< f��\ �. �0 �. �� \II N-fI�-.:\ �.0� �.�� 0.5 1 10 ° Y � TCC Sheet 3-MSBA TIE BREAKER.MSBB TO ATS-1.EDP3 TO EMCGEIA � Oneline TCC3 Current Scale x 10 January 28,2008 12:23 PM Reference Voltage 480 SKM Systems Analysis. Inc. CURRENT IN AMPERES O Y � �0 � Y � 100 - TR 1000 � -C��GNL DFF��� s-f.'SBA MAIN BKR �GGF, Specira R�1S 6E � SGDA SS.SH PowerBreak Ii.MVT PIUS:PM Trip 4nn q � SS Se"�ro=PhasF ,�i � Tnp 3000 A �.'�� Plug 3000 A Settings Phase j�' ? LTPU(O.S1 0 x P)0.9(2700A i LTD(1-0)4 � STPU(1.59 x LTPU)6.5(17550A1 :7-TO PNL DP-RC3 STD(Min-Mau)Max(I^2 T Out� GE - INST(1 5-13 x P)13(39000Ai SKHA Spectr�RM�.S � SKHA Trip 1000 A � :�� Set'irqs Phase ��� 100 tdAX � \ �i 14-TO XFMR TRt � � GE SS.SH PowelBreak IL MVT Plus'PI�^ \ � SS � '� Tnp i600 A Plug 1600 A Settings Phase . LTPU(O.S1.0 x P)1(1600Ai LTD(1-4)2 � STPU(1`a°x LTPU)5 5(8800A� '� STD(Min-Max)Int(I^2 T Ou;�� INST(1_S15 x P)15(24000A� � \ \ � (� \ �� \ ��.Ft.'F-TR" �O lU �� \ F\�' .. k:k , '�; i f � :_,A1SHA�1A1A HI:R � 16TODP-D2A -= GE , � SS SH PowerBreak II,MVT PWsPPd >VcRl)-A1tiB-:A I SS � �� ' Tnp 3000 A i'-I�ISI�\1KTR1 � �. PIUg3000A �j'i Setlings Phase �, _ '��. LTPU(0 St 0 x P)1(3000Ai 7 U�[��1 IL-1 H I P �, LTD(t-4�� '�" �� STPU(1.59 x LTPU)5(1500GA) � 1 - � STO(Min-Maz)MinQ^2 T Ou!� ~ � .Af�1R-IRIP •,� ., WST(1.S13xP�13(39000Ai m � .. .\I`\1R-7R1 I � :.5 1� �—+ i � Z , a,: . ; SF�1R-TRIti i�� { � \ C/) � m i u�����t�-�r�-r�,n c� \ o i�,_,�,uP-u,-, A 0 � � ���Itl)-DRU'-A �� � �-=i�irni i�r-kc� � I TX Inr S, 0.10 r��i���i-i�r-kc� ; ' x 0. 10 i � P�'I_UP-RC: IX-lO P1L f)P-R(-` i ��I��-- _:;�! ���PA'I.-DP-RC� ' � � = �� °��`= ;;: � r�i-�>r-kcs �t:_ t;:_�<`, -- s>:; -�- .%; ���_ _- -_• V'$>x °,_�: _^i;�_ v:< �i;- ' 0.01 0.01 -_,.._.: 0.5 1 10 ° Y � TCC Sheet 4-MSBA MAIN,MSBA TO XFMR TRI,XFMR CRV.TO DP-D2A.T0 DP-RC3,DP-RC3 TO DP-RC5 �.,. Oneline:TCC4 Current Scale x 10 January 28,2008 12:23 PM Reference Voltage:480 SKM Systems Analysis. Inc. I CURRENT IN AMPERES o Y , 'O O Y o ���� �Q�Q 3-MSBA MAIN BKR ��`� GE �y SS.SH PowerBreak II,MVT Plus/PM SS ���� Trip 3000 A Settings GROUND GFPU(02-0.37 a S)0.37(1110A� � GFD(Min-Max)Max(I^2 T In) � \ 74-TO XFMR TR1 1�� ��� S5,SH PowerBreak II,MVT Plus/PM ��� ss \ Trip 1600 A ;� SetUngs GROUND ,� GFPU f0.2-0.6 x S)0.48 P68Aj GFD(MIn-Max)Int(I^2 T In� \ j; �� .� \ � -_� 16-TO�F-62A IC� ES.SH Povler6reak II.F.�b"T PWS PN 10 :\ ss 10 r,��.3n�.,_�. :�� 9ettings GRC!,�NC, GPPVlC��O-3i xS;�:— �.�10a GFD I�d�n�fdari Mm..�2..'in � .� +-A1SH��1AIA 13KR � \ �/ � � � m s���tii�-n�s[�-.-� �' ! �–, — ; z :\, � N ; � i�-�ro xr�»k�rr.i �;� 'T' � i � z 0 TOXPMR-TRIP � %.; CA �'� i � XFV1R-'IRIP -:� i �i���i/%��� `\ %%///%��� � xF��rt-TKi � ��� \\ � ara�iz�rKis �`�;�.���A� � \� ����A�V� . �\�,�\\\\`�\`��� 0. 1 O Tc,sN��o oE�-��.a �;���.����\V��A 0. 10 I6-TO UP-D'_A 5VA'Bp-UP-D'_:A �.0� �.�� 0.5 1 10 °o Y o TCC Sheet:4GF-MSBA MAIN,MSBA TO XFMR TR1,DP-2A MAIN � Oneline:TCC4GF Current Scale x 10 January 28,2008 3:06 PM Reference Voltage:480 • � SKM Systems Analysis,Inc. Owe r t u �e s . �Om n ihmie 253-639�8535•fu 2'3fi39a685�16122 SE 256th k Cmington.M4 98042 CURRENT IN AMPERES p Y � �0 � Y � ��� p p �1 21-DSBHA MAIN I �� 17 TI 1 L ` �' 3-MSBA MAIN BKR GE � GE SS.SH PowerBreak II.MVT PWSIPt.9 � SS,SH Po.verBreak II MVT PWS'PM ._�,,,. SS SS Trip�600 A Tnp 3000 A Plug/600 A Plug 3000 A Settinos Phase Settings Phase LTPU(O.S1 0 K P)1(16DOA� LTPU(0 St 0 a P�0 912700A1 LTD(1-4)2 LTD(1-0)4 STPU(1.5-9 K LTPU)5.5(8800Ai 1 STPU�1 S9 x LTPU�6.5(17550A) STD(Min-Max)InqP2 T Outl \ STD(Min-Maz)Maa(I^2 T Ou�) INST(15-15 x P�15(24000A1 \ � INST(1 5�13 z P)13(39DOOA7 i \ 22-DSBHA T�E BREPKEF �� �� 'I9-TO XFMR TR2 GE \ \ GE 1 OO SS SH PowerBresr ���� A�i'T PWSPI.t SK.MVT PIuS/PM SS \ SKL Trip 1600 A Trip 800 A Plug 160'u A Plug 800 A Se!!ings Phase �. Settings Phase LTPU(0_5-'�^e F,' i'.6GGP LTPU(0 5-1 0 x P�'�(BOOA) LTD Ii-41'�� LTD(1-4�3 STFU!'S5 r LTFU�.4�64�7_�H INST(1_5-�0 x P)'0(BOOOA) E TG�'�S:n-A7ar I AS��r i i^2 T Oo:. I�JST i'.5-'�5*F�,'.5124GOf�A� �\ ):R!R-?R� A�A.c0�i_4',�P \ 10 �� ��i , ��-1�,F�: F;_. GE � . i�;� SGUA Spec.��Rt.7S SGDA ! " Tnp40!�A ''. -' Se'.tiro=Pna-. �: 1:1A% iY i �, � .•,7�111 i\I.\I�Hl.lt �. i;l� �� ���III I-\i�it-.\ �� ,._����i„a ii<_ k�; � t � � ������,��r_��z,,. ,� � � � �i�ii;-uc�r m � � �r�ii�-nt, Z �i�i,t_i ic�. Ii!"; � i��s��ui�.i�sisii� � _ ����� O - � p— _�-n,�ii{��t�n � � .��iii>-n>rsH� � � �\�NI)-I)�lill I�II . " "-I�,�k4fl:\III HNI.\I:I�.It ' rus`h O. 1 O � `��HU-I)tiitllit �. �O - �;.I��P�'LI'I'-I`�l. � �•,'' - I��I"�I-I`I'-I',[ i' I`�:-I'I'-1'�1 � ;'Y O.�� ��. __._.___._.__ _ __' - 0.�� � Y o 0.5 1 10 � � � TCC Sheet: 5-MSBA MAIN,MSBA TO XFMR TR2,XFMR CRV.DSBHA MAIN,DSBHA TIE.DSBHB TO PP-P3C A. Oneline:TCC5 Current Scale x 10 January 28.2008 12:23 PM Reference Voltage:480 SKM Systems Analysis. Inc. CURRENT IN AMPERES O Y 1 10 ° '� ° 1000 ,,, 1000 � aV 'i1`:I 3-MSBA MAIN BKR J!f� GE �� '�i' S5.SH PowerBreak IL MVT PWsIPM t�'� SS �ii; Trip 3000 A a:I;,, Sei�ings GROUND y„i:i GFPU(02-0 37 x S)0 37(11�OA) � GFD(Min-Maz)MaxQ"2 T In) I,;',��t Cu rl 1 OO ����' GET�?F,,�F TF: 1 O O .�;"j�, SK M�.'l Flus!V!;'. SKL Trip fiG�!- FW�6i�'�i. ;P:?'� Se^Ir..az GROUP.b GFPU(9.<-'.(�r ��'4FC� K-��.'. SFC�t-4 i 2!P�"t T�• i�'"' 21-DSBHA MAIN �a:' GE SS SH PowerBreak II,MVT PlusiPk SS Trip 1600 A Setungs GROUND 1 O 1 Q GFPU(0 2-0b x 5�0 45(720A1 GFD IMin-Max�MIn(I^2 T In� �-V>B,4 AI:V�RRR �AA Iil)-�1tifti-�A --1 � ,,,_�„xr�ir, n:, 1 '--' � m � ���,v���K-�riz^r �-' z � m \h\iH-lN'_P � . � � �. C7 � O Z 0 � ` \1��1R-7R� Cn SI-�1H-"I R'� � O. �O - l�iti\\HD-�1tiRll,\ 0. I� '_I-I)SHfI�A�1d1�' �V1 BD-USBII:A Q.�� �.�� 0.5 1 10 ° � o TCC Sheet SGF-MSBA MAIN.MSBA TO XFMR TR2.DSBHA MAIN ,,.- Oneline:TCC5GF Current Scale x 10 January 28,2008 12:23 PM Reference Voltage:480 SKM Systems Analysis, Inc. CURRENT IN AMPERES O Y 1 1 O ° '� ° 1000 � 3-MSBA MAIN BKR MTR-1A50 GE HP 50 0 hp SS.SH PowerBreak II,MVT PIus�PM ... SS Trip 3000 A Plug 3000 A Settings Phase LTPU(O.St D x P)0 9(2700A) LTD(1-A)4 STPU(1.5-9 x LTPU)6.5(17550A) STD(Min-Maa)Max(I^2 T Ouq ��'F:-'��°" INST(1 S13 x P)13(39000A) G� �L S:tici�.r� , TF£ f-'�-��ass RH,r TRS T.;� ._r 1 OO GETO MCC-1A SK,MVT PIusIPM SKL Trip 1200 A Plug 1000 A Settings Phase LTPU(0 St 0 x P)'(�OOOAI LTD(1�)� INST(1.510 s P)10(10000A) �p + 10 ':.':`<: ~� � —i 1 � ;_,�si,-���,�i�.i��:r, `" � m ����rtn-�t�it��� �-, � Z `:-1�111(�(-I.-A N m i���tcc-�� c� 0 �� z ;�; o _ ��<<�-�.� � >�: ,;_�trk-i���� ;,: ;;<: 0. 10 �,rk-�,�,�� ;;' 0. 10 :�: �X ;�J �C' (: O.O� ���� O.O� o Y � 0.5 1 10 TCC Sheet:6-MSBA MAIN,MSBA TO MCC-1A,MCC-1A TO MTR 1A50.MTR 1A50 CRV � Oneline:TCC6 Current Scale x 10 January 28,2008 12:23 PM Reference Voltage:480 SKM Systems Analysis. Inc. CURRENT IN AMPERES O Y 1 10 ° '� ° 1000 1000 3�,,so4��A��.s�,F GE �� SS.SH PowerBreak II,MVT Plus/PM SS Tnp 3000 A Settings C�ROUND GFPU(02-0.37 x S)0 37 1�t t OA� GFD(Min-Maz)Maa(P2 T In) 24-TO MCC-1 A GE 1 OO SKLMVT Plus!PA� �OO Tnp 1200 A Plug 1000 A SeY.ings GROUND GFPU(0 2-•0 x S)0 6(720AI GFD(1-4)1Q^2 T In) 1� 10 � � 1 � � ;-11SR.-A 11.�1A RIiR m �--� Z �AA 13U-A1SR--A (/� � m � O _a-iuni��-i� o � �„nicc-i� � �icc-i� �. �� �. �� 0.01 0.01 p Y o 0.5 1 10 TCC Sheet:6GF-MSBA MAIN,MSBA TO MCC-1A ,� Oneline:TCC6GF Current Scale x 10 January 28.2008 12:23 PM Reference Voltage 480 SKM Systems Analysis, Inc. CURRENT IN AMPERES O Y � �� � � O ��0 ���� MTR-4A20 HP 20 0 hp 3MSBA MAIN BKR GE 'ab' SS,SH PowerBreak II.MVT PlusiPM SS Tnp 3000 A ZFTO tdTR'-4Fv� Plug 3000 A GGL'�Lp SH0.iA'Ml�l Settings Phase ..��":tiacs.RR° LTPU(0 S1 0 x P)0 9(2700A) �� E LTD(t-a a 1F 5 � ; F' � STPU(1 S9 x LTPU�6S�17550A) STO(Min-Ma.)Maxfl^2?Ou!) INSTI'S-'3 zP�'3 i35000Ai 10� 1�� 27-TO MCC-4A GE SG.MVT PIUSPAI SGL Trip 600 A Plug 600 A Settings Phase LTPU(0.5-tA*P)'�(600A) LTD(1-3)1 INST(1.5-�0 x P)10(6000A) 10 + 10 � �-�1tiR:\1LV\li�k �,...- � -i � 1 � � ����iD-�tSlt-:� m i--i _--1�)�1('(�-a:1 � � m c'� . l i>>Il't---1,� O z 0 � �,<<-a.-a ,�_i���rrFC-�:�,�� �. �� �. �� z# �ti�t-a�,i� ;?�: ;�: >,? <o; 0.01 0 `� ' Y 0.01 0.5 1 10 ° � � TCC Sheet:7-MSBA MAIN.MSBA TO MCC-4A.MCC-4A TO MTR-4A20.MTR-4A20 CRV „ Oneline:TCC7 Current Scale x 10 January 28,2008 12:23 PM Reference Voltage 480 SKM Systems Analysis. Inc. CURRENT IN AMPERES o Y 1 10 ° � ° 1000 1000 =-��SBA MhiN BKR GE �-._- SS SH Power6reak II.MVT PIusJPM SS Trip 3000 A Setlings GROUND GFPU(02-0.37 K S)0-37(1 i t0A) GFD(Min-Max)Max�P2 T In� 1�� 100 27-TO A1CC-4A GE SG.MVT PIusIPM SGL Tnp 600 A Plug 600 A Settinos GROUND GFPU(02-1.0 x S�0 6(360A) GPD(1-0)t(I^2 T In) 10 �� `�' -� � 1 � � ,-�ite,��t_�i>tt�:iz m � Z ti��ItU-n1SH-� (,q � m c� 0 ,--,�����,c c-a,� o v� ru�tct�-a.� �ic�-an �. �� �. �� 0.01 0.01 � Y O 0.5 1 10 ° � � TCC Sheet:7GF-MSBA MAIN,MSBA TO MCC-4A -- Oneline:TCC7GF Current Scale x 10 January 28.2008 12:23 PM Reference Voltage:480 SKM Systems Analysis, Inc. CURRENT IN AMPERES o Y 1 10 ° 'r ° 1 OOO ti� GE SBA MAIN BKR '��� S5.SH PowerBreak II.MVT PIUS.PM -.��_ ;;�:% SS '^ Tnp 3000 A :?' Plug 3000 A Settings Phase LTPU(0 S1 D x P)0.9(2700A i LTD(1-0)4 STPU(1 S9 x LTPU)6S f17550A) STD(Min-Maz)MaxQ^2 T Ouq INST(1.513 x P)13(39000A) 1 OO 30-PNL DP-D1A GE SK,MVT Plus/PM SKL Trip 800 A Plug 700 A Settings Phase LTPU(0 5-1 0 x P)1(IOOAI LTD�1-4�3 INST(1.5-?0 x P)'�0OOOOA) ?'�TC FNL DRC� GE 1 O 53J�. Spectr,RAec � �G_t 1���:a? ;e°,o_Phase �'4 ,,. �� 3-VSIi,\\I\I\IiI�R � � � � >U lil)-11SH-�A � � � m ;;�:; �--� ��_i��i i�r-ni-� z I�:z; Cn m �i u r.i-nP-D�-� ��� c� '�:: o z _� o ����-ur-n ��. "�� cn — �: ��-�i�,r�i nr-ni 0. 10 ,„r�i-i�r-i�i i�:; 0. 10 :� :�: r�i-�>r-ni �<> � �Y: 5 `$: �4: 0.01 0.01 ° Y o 0.5 1 10 ° � r TCC Sheet:8-MSBA MAIN.MSBA TO PNL DP-D1A.PNL DP-D1A TO PNL DP-DL �r Oneline:TCC8 Current Scale x 10 January 28,2008 12:23 PM Reference Voltage 480 , SKM Systems Analysis. Inc. iil i CURRENT IN AMPERES O Y 1 10 ° Y ° 1000 1000 � 3-MSBA MAIN BV62 GE SS.SH PowerBreak II,MVT PIUS/PM SS Tnp 30W A Settings GROUND GFPU(Q2-0.3)z S)0.37(1110A) GFD(Min-Ma:)MaxQ"2 T In) 1�� 1�� 30-PNL DP-D1A GE SK.MVT PIusPM SKL Trip 800 A Plug 700 A Settings GROUND GFPU(Q2-t 0 a S�0 6 1480A� GFD(L41'(P2 T In) 1� �� �°'- --a 1 � � ;-vsi3,��i�i�r;�:r n�' .-, z .��r�n-„��s-� cn — m c� 0 ;��_r�i or-oi.a o cn ���rni-nr-ni� r�i-nr-ni:� 0. 10 0. 10 0.01 0.01 � Y o 0.5 1 10 ° `- � TCC Sheet:8GF-MSBA MAIN,MSBA TO DP-D1A -� Oneline:TCCSGF Current Scale x 10 January 28.2008 12:23 PM Reference Voltage:480 SKM Systems Analysis. Inc. CURRENT IN AMPERES o Y 1 10 ° '� ° 1000 1000 3MSBA MAIN BKR GE SS SH PowerBreak II,MVT Plus/PM MTR-CHIL1 SS -�- HP 200 0 np Trip 3000 A Plug 3000 A Settmgs Phase LTPU(O.S1 D K P)0.9(2700A� LTD(i-0)4 STPU(1 S9 x LTPU)6 5(17550A� STD(Min-Maz)MaxQ"2 T Out) '' I N5T(1_S 13 x P)13(39000A1 �3:? 1 OO GETO CHIL1 DISC �OO SG.MVT PIUS/Ptd SGL Tnp 600 A Plug 600 A Settings Phase LTPU(OS-1 0 x P�1�600A1 LTD�t-3)3 INST(1 S10 z P)"0(6000A� 1� �� �F��,�z-� r�� �> - l��tiVA�fil)-A1tili-:A '�r' � :.\1�R:\\1\I\Rlil< � 1 � � m � � ���itn-�iqt—� z cn m c7 O � :,_�����'Fiii i ni��� Z 0 � � ���r,isc-cFni_i 0. 10 0. 10 �>�����,���� „rk-�,���_� 0.01 ' 0.01 O Y p 0.5 � �� O � � TCC Sheet:9-MSBA MAIN.MSBA TO CHIL1 DISC,MTR CHIL1 CRV -� Oneline:TCC9 Current Scale x 10 January 28.2008 12:23 PM Reference Voltage:480 SKM Systems Analysis, Inc. CURRENT IN AMPERES O Y 1 10 ° '� ° 1000 1000 ��' 3-MSBA MAIN BKR GE SS,SH Power$reak II.MVT PIUS/PM SS Tnp 3000 A Setfings GROUND GFPU(02-037 x S)0 37(1110A1 GFD IMin-Max)Mac(P2 T In) 1�� ^;: 1�0 32-TO CHILt DiSC GE SG.MVT Plus/PM SGL Trip 600 A Plug 600 A Settings GROUND GFPU(02-1 0 z S)0 6 1360A� GFD(1-4�1Q^2T In) 1� �� � ;.�,�,;�v,i�i�r;r. � � 1 � m � ��\ItU-!�1tilt-:\ Z � N ;:;l m s�:, n O ,'-l�i.l CI III I I�ISC ':;'i�:�. ZO N - l�u I)IS(--C I III I 0. 10 ������������ 0. 10 0.01 0.01 0.5 1 10 � Y � TCC Sheet:9GF-MSBA MAIN,MSBA TO CHIL1 � Oneline:TCC9GF Current Scale x 10 January 28,2008 12:23 PM Reference Vo�tage:480 SKM Systems Analysis. Inc. I I ' CURRENT IN AMPERES O Y 1 lo o Y O �oon �y , -�:� PtP�-EPEF"� � II�F TR2 3MSBAMAINBKR I GE S=!-�4 Spectra RG'�� � SS.SH PowarBreak II.MVT Plus'PM �'' SFHA ��;'r SS Trip 25n q � i Tnp 3000 A � ��.inos Pl,asr � Plug 3000 A r,�.qi r �� ' Settings Phase - LTPU(O.S1 0 x P)0 9(2700A� '. '- LTD(1.4)4 � � _: STPU(1.S9xLTPU)65f�7550A� STD(Min-M�)MaaQ^2 T OuI) INST(1 S13 z P)13(39000A� 40-TO PNL-EPE%B GE THQB THQB \ '� Trip 50 A � \� 35-TO ATS-2 1 OO Settinos Pl�ase GE Fixed 0 O\ SG,MVT PWS/PM SGL Trip 600 A Plug 600 A . Se�tings Phase LTPU(0.5-�0 s P)'�(600Ai LTD(1-3)1 INST(1 5-10.PI'�e I6000Ai � XFMR-ETR2 kVA 112 5 kVA �p 10 �-�iSR1 A1 VA HI:R � '��kFti1RETFZ GE � �FLR.Spea�a RfSc � SVABU-.11SH-.1 c�.� i:' 7 ^ :cTU.11�ti' � k� Se ,�vn��e _ I _ ,.r r ;_ iu �iti' n_ �TS-� - I��I'VL-k�.A1�I � ;'' 38-PNL EDP2�1AR: _ I _ GE P\I-I-11S I -5 SGDA Spect�a Rt„5 SGDA � 1 Trip 400 A � ���1�UAI�A1KLTK' __ Se'_�ngsPhase T = t.fAk - i��.AF�11R-PI�R,P i - Z � N �rvH-i tr,r i� m — E. c7 0 �F�,a-F T iz, z �i�iK-E rk,> � � � � ���rn��-Ftn>_ � i . i � ;>_rti��_ror���,i� T It1 U5h `-> �"' 0. 10 >;� 0. 10 � r���i_et�r, � �<. :u-����r��-f rt r�i; � ��,i��i_-t:ri r=i. r�t-rrrrs� � a„-�ur��i-ii�i�i�,is � `-� _ �::_:�:'. � �i��i�vi-rr�r�r= � � � i���i-i�i�i�r-t, � � 0.01 0.01 ° Y o 0.5 1 10 ° � � TCC Sheet: 10-MSBA MAIN,MSBA TO ATS-2.EMS1 TO XFMR ETR2,XFMR CRV.PNL EDP2 MAIN,EDP2 TO EPEP56.EPEP5B TO EPEP7B Y Oneline:TCC10 Current Scale x 10 January 28.2008 12.23 PM Reference Voltage:480 SKM Systems Analysis, Inc. CURRENT IN AMPERES o Y 1 10 ° '� ° 1000 1000 � 3-MSBA MAIN BKR GE SS.SH PowerBreak II.MVT PIusPM SS Tnp 3000 A Sattings GROUND GFPU(02-0.37 x 57 0 37(1 1 t OA� GFD(Mfn-Max)Mau(I^2 T In) 10� 1�� 35-TO ATS-2 GE SG,MVT PIus�PA1 SGL Trip 600 A Plug 600 A Settings GROUND GFPU(02-1 0 z Si 0 6(360Aj GFD(1-0)1�1^2 T Inj 1� �� 3-A1S13A A1A1A Bl�h �� �N IiU-V�It-A � � 1 � m � z � m "ii. n �-lt):\T�-' >;�; O Z � � 0. 10 r��;�T�-= 0. 10 :�,�_, 0.01 0.01 � Y o 0.5 1 10 ° `- � TCC Sheet: 10GF-MSBA MAIN.MSBA TO ATS-2 � Oneline TCCIOGF Current Scale x 10 January 28,2008 12:23 PM Reference Voltage:480 ' SKM Systems Analysis. Inc. i CURRENT IN AMPERES o � 1 10 ° Y ° lOO n TR3 ' ) a-SWBOMSBATIEBKR �OOO 43-0SBHBMAIN _ � :;� GE SS.SH PowerBreak II.MVT PIUSIPM � GE �^�� SS � SS SH PowerBreak II,MVT PIus�PM SS Trip�600 A - . Tnp 30D0 A Plug 1600 A Plug 3000 A Settings Phase � � Senings Phase LTPU(O.S i 0 x P)�(1600A) LTPU(0-51 0 x P)1(3000A) LTD(1-4)t - LTD(1-0)2 STPU(1.59 x LTPU)4(6400A) STPU(1.5-9 z LTPU)4S(13500A) STD(Min-Max)MinQ^2 T Out� STD(Min�lac)Int(I^2 T Ouq INST(7.5-15 x P)15(24000A� ���� ji�,,; INST(1.513 x P)13(39000Ai II: l;.TO PNL PP-F3C � G[ _ 1 OO SGDH Spectra R�.+`- SGCA 41-TO XFMR TR3 Trip aoo N GE � SK.MVT Plus�pM Se�ora<phas_ SKL f.�.:J Tnp 800 A Plug 800 A Settings Phase LTPU(0.5-1 0 x P)'�(800A1 LTD(1-4)3 INST(i 5-10 n P)10 18000A) �\ \l > >:rn�F�r�� � ; 1.,�AEO;�BkbA �� i o '�i ,>;:. ,;; �� �, e�� ,:�,�,�,�,��,,��� �,��; ��; .� .,,�,�,_,�.�,,: �': ; --� 1 — � '� � i��.r„a,a: � m i���ro�ia-i r;r !" e��, !�; z � �t�ut iit,r ,i�� p" m �, s � �r�u;-�i ii: � "!,n .�I C7 ' O �r�u:ia;� �' Z � 0 1��.�c[+�u�[:ic �� C� '- �, �:-I)ti1411Ii�I 11\ � �'L >l�Itl�-L»UHR �� — �''�'� rush ;,,,�:.: ,:_,�,��.� ����-��_� �� ,��� 0. 10 0. 10 � �i��rvi-rr-r:, �,a!ire�� d p� �' ��µ � i�i-ii�i'< <�i : v i=R��k�� :��. ��:=i,:::�� �; `�I' �y: !g n3i 'j i x#� � i. i.;:' 0.01 _ Q.01 o � o 0.5 1 10 TCC Sheet: 11-MSBA TIE,MSBB TO XFMR TR3,XFMR CRV.DSBHB MAIN.DSBHB TO PP-P3C � Oneline�TCC11 Current Scale x 10 January 28,2008 12:23 PM Reference Voltage:480 SKM Systems Analysis. Inc. 'I CURRENT IN AMPERES o Y 1 10 ° � o 1000 1000 :sa� 3-R".c:BA A1AIN BKR <:;: C�E "=�' SH Pui+�erB�eaF II.MVT Pios�GM �� Y": �i'�= Tnp 3GOl?A ;r:i? Se±tings GROUND GFPU 10.�-0 37 n S�0 37 r'�C i GFD IMir-h,!azi Mar!I^2 T I;�; :C: 10� ry.,: 1�� 41-TO XFMR TR3 GE SK.MVT Plus/PM SKL Tnp 800 A Plug 800 A Settings GROUND GFPU(0 2-1 0 x S)0 6(480Ai GFD(1-4)2(P2 T In� C 3-DSBHB MAIN GE 1 Q SS SH Powe18reak II,MVT Plus/PM �O Trip 1600 A Settings GROUND GFPU(0 2-0b x S�OAS 1720A) GFD(Mfn-Max)Min(I^2 T In) �-\1�I4�\'�1�\I\Ithft '°.. � >��[lll.\ISLi-� � H 1 I��S��Rf?.\I>It lll � m `. J.�ll�1311�I�[i:\111-1{I:K 1--i z �\\�4�).A1,1�7-If � � !�-Ili\f�17RlR� m n � � IriAF�IR�TK�P Z � \f111t�1121f''�:;. .,:: ..,: 'z S '. ::- - � _ Cn � �- ..2.�c z � \f'�tft-�I-li� \FV1R�TR�S i�,.��iii>-n�nn_ 0. 10 0. 10 � a;_�<<,F��a„��� � ."����_�,�����{ 0.01 0.01 ° Y o 0.5 1 10 ° � � TCC Sheet: 11GF-MSBA MAIN,MSBB TO XFMR TR3.DSBHB MAIN -� Oneline:TCCIIGF Current Scale x 10 January 28.2008 1223 PM Reference Voltage:480 SKM Systems Analysis. Inc. CURRENT IN AMPERES o Y 1 1O ° '.� ° 1000 �,,, 1000 �i� 46-TO-61CC-98 ���� 4-S�YBD A'SBA TIE BKR GE � GE �.�. SGHA.Spectra RMS '' SS,SH PowerBreak II MVT Plus/PM SGHA SS Trip 450 A I' Trip 3000 A Set�ings Phase '! Plug 3000 A MqX i��, Setlings Phase �Ij_ LTPU(0 5-1 D x P�i(3000A� LTD(1-0)2 STPU(1 S9 x LTPU)4 5(13500AI STD(Min-Max)IntQ^2 T Ou�) INST(1�13 c P)13(39000AI 1 00 4E-PNL CF-DE'Id: ' '�o0 GF SKHf,S�Cia k4'S � SkNr in . Se'ci^�ps Frv�r �AH�. 44-TO PNL DP-DB1 GE SK MVT Plus/PM SKL . Trip 1200 A Plug 1000 A . . Settings Phase LTPU(0 S'�0 x P�1(1000A� LTD(1-4)4 0 1 O INST(15-10 x P�10(10DOOA) I.;:"i'�,'.,: I I I: � "�il --i � i, � �--� ado ,�����>,�.�,�,�� F���: ���' � r m rl ���BI).�'�i�fi-I� ' � . 1 H �l-Iiii'V'I UI'-UNi ;^1 �;� � i��i��i nr-ui; m n a'-I'�I Ili'-Llii'�I-\IV z 0 I'�I-I��P�Dltl � � '�'�i q. a��l��-4Il t-vN . 1��\It l-`�I4 v�l �;' \1l l `�It 0. 10 — 0. 10 < ;,,;. h $' . �,� �:'�I lil 1,;1 II �I I��li' . . 0.O� O.0� p Y o 0.5 1 10 TCC Sheet: 12-MSBA TIE,MSBB TO DP-DBI,DP-DB1 MAIN,DP-DB1 TO MCC-96 �r Oneline:TCC12 Current Scale x 10 January 28.2008 1223 PM Reference Voltage 480 SKM Systems Analysis, Inc. CURRENT IN AMPERES o Y 1 10 ° '� ° 1000 1000 .a��, 3-MSBA MAIN BKR GE S5.SH PowerBreak II.MVT Plus/PM SS Trip 3000 A Settings GROUND GFPU(02-0 37 x 5)0 37 f'�'t0A) GFD(Min-Ma<)Max(I^2 T In� 1 OO 4G4E70 PNL DP-DBi �OO SK,MVT Plus/PM SKL Tnp 1200 A Plug 7000 A Settings GROUND GFPU(02-1 0 z SI 0 6(720Ai GFD(1�)111^2 71n) 1� �� � , 1 � m � �-�t,i;���i��i�t{hF: Z � >��itn-�isi;� (!� � m �r��.���n-ni�i�n� `�; O atlC� t-�\\(i[1,11�It�\-I If-[31�12 � � �\\Itll-\I�Ll�f4 1a-li�I'�I Ill'Illi, O. �� 0. �O 0.01 0.01 o � � 0.5 1 10 TCC Sheet: 12GF-MSBA MAIN.MSBA TO DP-DB1 a.► Oneline:TCCI2GF Current Scale x 10 January 28.2008 12:23 PM Reference Voltage:480 SKM Systems Analysis. Inc. � � CURRENT IN AMPERES o Y 1 10 o Y ° 1000 �(F .� TR4 1000 N� � - - a-SVJBD MSBA TIE BKR -�= GE — SS SH Power9reak II,MVT PIus/PM SS Tnp 3000 A PWg 3000 A , Settings Phase LTPU(O.S1 A x P)1(3000A) r LTD('I-4)2 � STPU(1.5-9 a LTPU)4.5(13500A) STD(Min-Maz)InIQ^2 T Out) 1�Q INST(t S13 R P)13139000Ai x Ft'R-TF; �:�;a«,.�ti`.r � 47-TO XFMR TR4 GE � SG.MVT PIusPM '�0 SGL Trip 400 A .r��l, Plug 350 A � Settings Phase LTPU(0 5-1 D x P��(350A1 i �; LTD(1-3)3 - ��� INST(1.5-10 x Pj 10(3500A) eap J.R Itl�V<It'�`I! lal.l: � ' i: I :���{,>,,,�a.�, 4YI � '._;:,._. ,."_ :,`� �..�:� 43PNL DP-DCt MAIN GE �' p.j SKHA Spectra RMS �' fl�\I\11<I12� lii C� SKHA Trip 800 A ��'�� Setlings Phase � ii�V�nIK�IRJP M� �--� 1 � m �i�_ir.iiiar � � '+�;; Z u . Ai�Ilt-I fiJ 52-TC PNL PP-CD' � GE m THGC (") a�yf` THGC � V�I It-1 RJ> ����� Trip 2�P k z � I 4�c° � Se!Lros Fha_e � � • � 1 a.,,' �. Fixec i��r�i�nr-n� �� � i� � ���_r����r-��i��ain� ,= � �r�� TX ' IUSh 0. �� � r�i-or-u�i �. �� ��i�,rn�i rr-ru�� � � ��,rv�,rr-i��i: # r�i-rr-�u� - } �� �F q6'1 i�.d.,,.,�',."��. ��� wm� �.�� �.0� �o., Y Q 0.5 1 10 � �" � TCC Sheet: 13-MSBA TIE.MSBB TO XFMR TR4,XFMR CRV.DP-DC1 MAIN,DP-DC1 TO PP-CD1 `' Oneline:TCC13 Current Scale x 10 Ja�uary 28,2008 12:23 PM Reference Voltage 480 SKM Systems Analysis. Inc 'I CURRENT IN AMPERES o Y � �0 � Y o �000 � 1000 :,.$ R5 4-SWBD MSBA TIE BKR :i:.::::: GE -..,y = SS.SH Power9reak II,MVT PlusrPM = SS Tnp 3000 A Plug 3000 A `= Settings Phase ITPU(0 S1 0 x P)1(3000A) LTD(1-4)2 STPU(1.5-9 R LTPU)4 5(13500A� � STD(Min-M�)IniQ"2 T Ouq IN 5T(1.S13 z P�13(39000A r 1�� 51-TO XFMR TRS GE SG.MVT Plus/PA1 SGL Trip 600 A Plug 500 A Settings Phase LTPU(0 5-1 0 x P)'(500A) � . LTD(1-313 INST('S-'0 x P�',G 15000A� �. � a.rr+F-TPE � .� �. _... . .. 1� 1� \ ����' 51PNL DP-0C2 MAIN �����i GE ''...��� i SKHA,Spectra RMS SKHA ,�uaA� Trip 1000 A � . ���` Settings Phase ��N) MAX ' �J�i� ` .<VlBl��l�lf'�.III Gf,l: �y:r.� °' � .���ii��itiit-« � � sa-ro oF-ec� �–+ -_-�i���F��us rr<= cE m - THQD . i���\IVR-IRiP �i THQD Fy Trip 200 H z Se"inos Phase \I\II-Ift��l' -'+1Nh Fixed (n \f\11t-I I:? �,�I�'� ('m') � \F\IK-iRi� �� M� l. . � . -fni'�'�'I-DP�UC' �; (�j i = 14� a�!! <�I'�I11P-Ut'�bVI� �. �tiN �' I'\L�f)f'-D(' ,�II . — T �i i'E USII �a-�i�,o�-�c, �.�0 i i �. �� �n rni-rr-u,_ ru-r,r-c p, � , - - , � I( s:�s^� ��; ,��. x� 4 �.'��i��'d�y�=� :� rui��leam 0.�1 y'!�ar-`' ' Y 0.�1 � Y O 0.5 1 10 ° � � TCC Sheet: 14-MSBA TIE,MSBB TO XFMR TR5,XFMR CRV.OP-DC2 MAIN,DP-DC2 TO PP-CD2 -�.. Oneline:TCC14 Current Scale x 10 January 28.2008 12:23 PM Reference Voltage:480 SKM Systems Analysis, Inc. CURRENT IN AMPERES o Y � �� � � o 1000 , innn , 'r �E �RATOR �<<�E��, �F r -f�1R2 ��;�� �,F,pE� ,� _ _. � F � er act F- �• �, i;�' �r p 1200!�. � C :fl(15 Ph . �� , LTPU!LTG �- __.., _ f.,,T(� ...5,"2 r f, j �i � � ��; � ip6 40-TOPNL-EPEP76 E�� � GE "� s7-TO ATS-Z A�i THQB GE THQB - SG.MVT Pl�,is!Pti1 Tnp50A ��1�� �� S6H Settings Phase �;`, �� Trip E00 A Pued 0 �� Plug 60G A ��Q �<, Senings Phase � � LTPU(G.S�0 x F�"�i600A�� LTD(t-3)'� �-\ STPU�'S-9 x LTPU1 5 i3090A� 39-TO PNL-EPEPSB `\ STD f'4�'ll"2 T Out� GE INST 1'.5-'G x P.'0 Ib�]O�P-; �\ SFHA.SDect2 R�.1S �+�+ SFHA \Gen Jl� Tnp 250 A Settings Phase \,� MAXO � � \', GEN WITHSTAND Generator-Withstand Withstand Curve . Se!tings Phase 1 O �\ Withstand Curve (IF�k H�TnF ��� S ���I\\��I-t11�I.1tiI) ?'=l'F-E7F= � c�l\Itt'� �t•. �� 1.:,' �_ , i �': - �i�l"�I�I-�I�H ''��; � 1 � � ��I�Hf:F -' T 'i,r �\i yl�-h\I�H ~ � i 36-TO XFMR ETR2 z � �- In�i�-� n5:1 GE . .;�� SFLA Spectre RA7S (A SFLA m 1 �� �i.]�F� . (� Trip 200 A � ��1 Settings Phase � �.i.` � ��i; MN( � � l x�n Ii�l'1I.1\I�i 1 �I�F::i � � .i-1��I�1 `�'u�'�.;�; .�.�ri\F�IF�TR'_ ' � � �� . 38-PNL EDP2 MAIN ����Fnik-F�i�k,p � GE SGDA.Spectra RMS \I�Ilt-CTH'_I' SGDA � Trip 400 A VI VH-Fllt7 Se[hngsPhasE A1AX � \I\IR-l-"fH'� ' � TX �L;S �. I��P�'l.-FL)I" _- `��� O. 1 O 0. 10 ,��,� ��,���,���. �,' _ GENERATCF P�I-F.UP] ��I - 650 0 kV; � �'} ' i��i��i Erer;u ae�•v i y it!... I i��I'�L.-EI'FI'�H ��i'� ;��� B�. ���i.rrrrs�� ������;r �.. � �ul�n' ��q��,. .��11�f'NL_FI'FP'H I I li=.`. . � i��rhi-trtr-t� '��� i�N;i; � f':I-hi'LI'"If � 9 �yli��!li:: � j O.O� � �.O� 0.5 1 10 o Y � TCC Sheet: 15-GEN CRV.GEN WITH,GEN BKR,EMSB TO ATS-2,EMS1 TO XFMR-ETR2.XFMR CRV.EDP2 MAIN,EDP2 TO EPEPSB.EPEP56 T( � Oneline' 1Line015 Current Scale x 10 January 28,2008 12:24 PM Reference Voltage:480 SKM Systems Analysis. Inc. CURRENT IN AMPERES o Y � �� � � o ��� ���� 7-ELEV-R51 .�'y� S6GEN BKR GE :�£`" S�UARE D SFLA Spedra RMS i - �.�� SR4 � Pjwerpact P-Frame.3 0 8 3 OA Trip 175 A i ,��' Trip 1200 A Seeings Phase � s: r^�x Settings Phase , LTP W LTD(A DA-1.0 x S 1'(1200A)�.12 _ INST(1 S12 x S)12(14400A) I.`TF-ELEVRS" . - ; �= 58-TO:,75- �� GE �'.K 1�1,'T F.:�F�.•' 1�� S�H T����;�,.� F����e, �.. se,�•�o:F-a;. � LTPUC` .,F - c � LTC '-- �, .. .cTC,. �:.T(: �- -. . cTC. _' . - .- �.P:;T _ 'F� _ _. I � �. ,� 6-TO PNL EDPEIV�BKR GE SGLA Spectra RMS 1 O _ �4 SGLA � r,,�4 s,��, �. i SenmosPhase i MAX ; ' ���—. iSV'CR4lUll � .�i-��— j GEN WITHSTAND �,�.������������ _ .�; Generator-Withstand I Withstand Curve � ��� Se:Unas Phase � t�,l'�141� I '� Vi���rSU^CCU�^:F _ �4',� I��I'tit-i\IiR �! 1`I; �,��.��;�: :� � --i 1 ' '—' i i,;: � � .��i;u-[�i�is '� ',:tl;� m .n-lU AT> . _'��^ � r-r I��\Iti-III� {N �'i z 4 ql. N *� � I'i����� �'� ;: m ���._� � ��� u;� n — O � i��r��t-iur: Z O r�i-ror; N - �,.I u P�9 CDPI 1A�I RI�R I i: �.. ���r��i-roru�i � �f�`� '0�,�:.:: �. �� — r�i-t ur�i�, i�.,^' �. �� --i:i i c-iz., � �i��ni«�i�irca�i i � I�I�fC1I\Rtil � � � i ,I� �i,y� 1 �I11<-Ll.f�.\ItS, �i �� �'. � � i � �.�� O.Q� ° Y o 0.5 1 10 ° '— � TCC Sheet: 16-GEN WITH.GEN BKR,EMSB TO ATS-1,EDP3 TO EDPELV1.EDPELVI TO ELEV RS1,RS1 MTRCRV Oneline: 1 Line016 Current Scale x 10 January 28.2008 12:24 PM Reference Voltage 480 SKM Systems Analysis, Inc. CURRENT IN AMPERES o Y � �Q � � o �000 ' 56-GEN BKR .II SQUARE D A4TR-ELE\'RF' y�j Powerpacl P-Frame,39 8 3DA .,,y�r HF 4n p hp ��.I �!_ PJ y� �., Trip 1200 A �_,� Settings Phase ITPU/LTD(A OA-1.0 x S)1(1200A)�,12 W 5T(1 5-12 z 5)12(14400A) 58-TO ATS-�. GE SK,MVT Plus'PM SKH Tnp 800 A 1 0o Plug 800 A Settings Phase LTPU(O.S'0 x P)1(800A1 LTD(1-4)3 STPU('.S9 x LTPU)9(7200A) STD(L414Q^2 T Ouq INST(1.5-10 x P)10(8000A) 6-TC P':'_FDFEL'1'Bh;F GE . SGLt.St�'ua hF,tc c� Tn{' - .. ep�,.Y,.F����•.�� f.'. , 1� + � ., 10-TO ELEV-RP1 Itl . GE I i.��:: SFLA,Spectra RMS I;I;ik SFLA (II�IR.1iirl: � !i Trip'50A . (,,.,� Setnngs Phase �1AX t��l1l\ITH��i\'�I) � '� ���I i ��I�IfI� III�� ; . � N �'' �i�I'�I-I\I�I1 Ii Ih �.��1,.: �� f��; �,i�i;nu a��'�����' --I 1 �r.; � ....�'�I'�.� ~ �1�'I41)-f�1115 � — m ._n�.��r�.; i r� Z i��ar,t-i�i� � m _ ,�. c� � o i��r�i-r[�r: ZO r��-i nr; � � �,_iu r�i �nr�t_i�i t�r,ie . ;,',<, '4���;;,:r. i��r�i-r�>rn�� ���, �. ,�� — r�i-rnr[u� -- �. �� ���_i��i i t�-ar� !:'J : tu[�isca[�ari � nuc t i n�itri - � �; - y:tli:�!y"�. i i�^ �nii�iu�ar �� ���� ,�� �ie I,I�kii��' -.. . . . . . utl5� y�py� ��;�,���il 0.01 _ 0.01 � Y O 0.5 1 10 ° � � TCC Sheet: 17-GEN BKR.EMSB TO ATS-1.EDP3 TO EDPELVI,EDPELVI TO ELEVRP1,RP1 MTR CRV Oneline: 1 Line017 Current Scale x 10 January 28.2008 12:24 PM Reference Voltage:480 SKM Systems Analysis. Inc. CURRENT IN AMPERES O Y 1 10 ° '� ° 1000 1000 ... S6GEN BKR SOUARE D Powerpact P-F2me.3A 8 3 OA PJ Tnp 1200 A Settings Phase �TPU�LTDIAOd�'GeS�t(1200A) t2 '�.�:ST,,.c _._ '.2(t4a00A1 100 100 ' ;�. 5&-TO ATS-" GE SK.MVT PIusPM SKH Tnp 800 A Plug 800 A Settings Phase LTPU(0 5-1.0 x P)1(BOOAi LTD(�-4)3 STPU(1 S°x LTPU)9(7200A� STD(�-414;1"2 T Ou;i INST('�5-'0 x P)i0(8000A7 1� �� ,.-��,(rr.E-a GE �G_A. �LEC'.e Ft�c " �Yg�e (i�-���;1.ti T(�P�'I-I'11,tiIi --i � :i�-(�I ti Hhk 1 � m ��A'RD-t'�iSH �-+ — z ��-TO ATS-I � m c� . T(1,-�TS-Ifl-1 � O 4Tti-I � TU PNL-EDP� r��i_-t�nr? 0. 10 i;-ruentcc-�in 0. 10 � TC)EMCC-f 1.4 FMCC-EI� �.�� �.Q� � Y o 0.5 1 10 ° � � TCC Sheet: 18-GEN BKR.EMSB TO ATS-1.EDP3 TO EMCGEIA — Oneline: 1 Line018 Cun'ent Scale x 10 January 28.2008 12:24 PM Reference Voltage:480 SKM Systems Analysis. Inc. I Four Seasons Hotel Job Number#050875 Revision #0 - Date: 1/28/08 Solid State & Thermal/Magnetic Molded Case Circuit Breaker Settings (with Instantaneous Settings only) • Feeder Breakers Feeding Panelboards* Set instantaneous to Maximum • Feeder Breakers Feeding Dry type Set instantaneous to Maximum transformers* • Panelboard Main Breakers*- Set instantaneous to Maximum • Branch Breakers * Set instantaneous to Minimum •Breaker Pick Up or Overload Settings for Motor Circuits* Motor Service Factor— 1.15 Setting <125% x I(nameplate Amps) (Up to 140% if nuisance tripping occurs) Motor with Temp Rise 40° C Setting <125% x I(nameplate Amps) (Up to 140% if nuisance tripping occurs) All other Motors Setting <115% x I(nameplate Amps) U to 130% if nuisance tri in occurs •Breaker Overcurrent for Motor Circuits* Inverse Time Breaker Setting <250°/a x 1(nameplate Amps) Instantaneous Trip Breaker Setting <800% x I(nameplate Amps) (For non Design E or B Energy Efficiency Motors) Setting <1,100% x I(nameplate Amps) (For Design E or B Energy Efficiency Motors) Combination Controller - Setting <1,300% x I(nameplate Amps) Instantaneous Trip Breaker (For non Design E or B Energy (NEC Table 430.52 Exception if motor Efficiency) trips using the values above.) Setting <1,700% x I(nameplate Amps) (For Design E or B Energy Efficiency Motors) * - Use these settings above if no other settings are specified on the following device setting sheets. Tab 9 Equipment Name Vault Number Building Number Column Fioor Comments GENERATOR BUS Low Voltage Circuit Breaker Data Mag In Trip or Sens Man stan Curr Tap or Long Long Short Short Short Instan Grnd Gmd Gmd Grnd Posi- or Volt- tan Frame Int Circt Sens Rating Current Time Time Time Time Time taneo Fault Fauft Fault Fault Serial Circuit Description tion Elec MFG Type age eou Amps Amps Amps Trip Type Rating Plug Setting Picku Delay Pkup Delay 12T us Senso Pkup Delay 12T Number GEN BKR M SQD PJ 480 Yes 1200 65000 1200 MICROLOGIC 1200 1200 N/A 1 12 N/A N/A N/A 12X N/A N/A N/A N!A Device#:56 TCC#s:15,16,17,18 Other:LI Printed: 1/281200812:56:39 P GENERATOR BUS Equipment Name Vault Number Building Number Column Floor Comments MCC-1 A Secondary Fuse Data FUSE FUSE HOLDER Minimum Maximum Posi- Interupt Melt MeR Interupt Circuit Description tion MFG Type Voltage Amps Model Catalog Number Amps TCC# TCC# MFG Type Voltage BIL Model Catalog Number Amps MTR1A50 GLDSHA TRS 600 110 Uknown TRS200R 00,000 Device#:25 TCC#s:6 Printed: 1/28/2008 12:56:39 P MCC-1A Equipment Name Vault Number Building Number Column Floor Comments MCC 4A Secondary Fuse Data FUSE FUSE HOLDER Minimum Maximum Posi- Interupt Melt Melt Interupt Circuit Description tion MFG Type Voltage Amps Model Catalog Number Amps TCC# TCC# MFG Type Voltage BIL Model Catalog Number Amps MTR 4A20 GLDSHA TRS 600 80 Unknown TRS80R 200000 36817H 36817H Device#:28 TCC#s:7 Printed: 1128/2008 12:56:39 P MCC 4A � Equipment Name Vault Number Building Number Column Floor Comments PNL DP-D1A Low Voltage Circuit Breaker Data Mag In Trip or Sens Man stan Curc Tap or Long Long Short Short Short Instan Grnd Gmd Gmd Grnd Posi- or Volt- tan Frame Int Circt Sens Rating Current Time Time Time Time Time taneo Fault Fault Fauit Fault Serial Circuit Description tion Elec MFG Type age eou Amps Amps Amps Trip Type Rating Plug Setting Picku Delay Pkup Delay 12T us Senso Pkup Delay 12T Number PNL DP-DL M GE SGL4 480 Yes 400 65000 400 RMS-1 400 400 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A Device#:31 TCC#s:S Printed: 1/28/2008 12:56:39 P PNL DP-D1A Equipment Name Vault Number Building Number Column Floor Comments PNL DP-DB1 Low Voltage Circuit Breaker Data Mag In Trip or Sens Man stan Curr Tap or Long Long Short Short Short Instan Grnd Gmd Gmd Gmd Posi- or Volt- tan Frame Int Circt Sens Rating Curtent Time Time Time Time Time taneo Fautt Fault Fault Fault Serial Circuit Desc�ption tion Elec MFG Type age eou Amps Amps Amps Trip Type Rating Plug Setting Picku Delay Pkup Delay 12T us Senso Pkup Delay 12T Number MAIN M GE SKH12 480 Yes 1200 50000 1000 RMS-1 1200 1000 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A Device#:45 TCC#s:12 MCC 9B M GE SGH6 480 Yes 600 35000 450 RMS-1 600 450 N/A FIXED FIXED FIXED N!A FIXED MAX N/A N/A N/A N/A Device#:46 TCC#s:12 Printed: 1/28/200812:56:39 P PNL DP-DB1 Equipment Name Vault Number Building Number Column Floor Comments PNL DP-DC1 Low Voltage Circuit Breaker Data Mag In Trip or Sens Man stan Curr Tap or Long Long Short Short Short Instan Gmd Grnd Gmd Gmd Posi- or Volt- tan Frame Int Circt Sens Rating Curcent Time Time Time Time Time taneo Fault Fault Fault FauR Serial Circuit Description tion Elec MFG Type age eou Amps Amps Amps Trip Type Rating Plug Setting Picku Delay Pkup Delay 12T us Senso Pkup Delay 12T Number MAIN M GE SKHB 240 Yes 800 65000 800 RMS-1 800 800 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A Device#:49 TCC#s:13 PNL-PP-CD1 M GE THQD 240 Yes 225 22000 200 THERMAL MAGNET 200 N/A N/A N/A FIXED N/A N/A N/A FIXED N/A N/A N/A N!A Device#:50 TCC#s:13 Printed: 1/28/2008 12:56:40 P PNL DP-DC1 Equipment Name Vault Number Building Number Column Floor Comments PNL DP-DC2 Low Voltage Circuit Breaker Data Mag In Trip or Sens Man stan Curr Tap or Long Long Short Short Short Instan Gmd Gmd Grnd Gmd Posi- or Volt- tan Frame Int Circt Sens Rating Current Time Time Time Time Time taneo Fault Fault Fault Fault Serial Circuit Description tion Elec MFG Type age eou Amps Amps Amps Trip Type Rating Plug Setting Picku Delay Pkup Delay 12T us Senso Pkup Delay 12T Number MAIN M GE SKH12 240 Yes 1200 65000 1000 RMS-1 1200 1000 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A DeVice#:53 TCC#S:14 PNL-PP-CD2 M GE THQD 240 Yes 225 22000 200 THERMAL MAGNET 200 N/A N/A N/A FIXED N/A N/A N/A FIXED N/A N/A N/A N/A Device#:54 TCC#s:t4 Printed: 1/28/200812:56:40 P PNL DP-DC2 Equipment Name Vault Number Building Number Column Floor Comments PNL DP-RC3 Low Voltage Circuit Breaker Data Mag In Trip or Sens Man stan Curc Tap or Long Long Short Short Short Instan Grnd Grnd Grnd Gmd Posi- or Volt- tan Frame Int Circt Sens Rating Curtent Time Time Time Time Time taneo Fault Fauit Fault Fault Serial Circuit Description tion Elec MFG Type age eou Amps Amps Amps Trip Type Rating Plug Setting Picku Delay Pkup Delay 12T us Senso Pkup Delay 12T Number PNL-DP-RCS M GE SGDA4 240 Yes 400 65000 400 RMS-1 400 400 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A Device#:18 TCC#s:4 Printed: 1/28/200812:56:40 P PNL DP-RC3 Equipment Name Vault Number Building Number Column Floor Comments PNL EDP2 low Voltage Circuit Breaker Data Mag In Trip or Sens Man stan Curc Tap or Long Long Short Short Short Instan Gmd Gmd Gmd Grnd Posi- or Volt- tan Frame Int Circt Sens Rating Curcent Time Time Time Time 7ime taneo Fault Fault Fault Fault Serial Circuit Description tion Elec MFG Type age eou Amps Amps Amps Trip Type Rating Plug Setting Picku Delay Pkup Delay 12T us Senso Pkup Delay 12T Number MAIN M GE SGDA4 240 Yes 400 65000 400 RMS-1 400 400 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A Device#:38 TCC#s:10,15 PNL EPEPSB M GE SFHA 240 Yes 250 65000 250 RMS-1 250 250 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A Device#:38 TCC#s:10 15 Printed: 1/28/200812:56:40 P PNL EDP2 Equipment Name Vault Number Building Number Column Floor Comments PNL EDP3 Low Voltage Circuit Breaker Data Mag In Trip or Sens Man stan Curr Tap or Long Long Short Short Short Instan Gmd Gmd Gmd Gmd Posi- or Volt- tan Frame Int Circt Sens Rating Curcent Time Time Time Time Time taneo Fault Fault Fault Fault Serial Circuit Description 6on Elec MFG Type age eou Amps Amps Amps Trip Type Rating Plug Setting Picku Delay Pkup Delay 12T us Senso Pkup Delay 12T Number EMCC-E1A M GE SGL6 480 Yes 800 65000 600 RMS-1 600 600 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A Device#:13 TCC#S:3,18 PNL-EDPELVI M GE SGL6 480 Yes 600 65000 450 RMS-1 600 450 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A Device#:6 TCC#s:1,2 16 17 Printed: 1/28/2008 12:56:40 P PNL EDP3 Equipment Name Vault Number Building Number Column Floor Comments PNL-EDPELV1 Low Voltage Circuit Breaker Data Mag In Trip or Sens Man stan Curr Tap or Long Long Short Short Short Instan Gmd Grnd Gmd Gmd Posi- or Volt- tan Frame Int Circt Sens Rating Current Time Time Time Time Time taneo Fault Fault Fault Fauit Seriai Circuit Description tion Elec MFG Type age eou Amps Amps Amps Trip Type Rating Piug Setting Picku Delay Pkup Delay 12T us Senso Pkup Delay 12T Number DISCELEVRPI M GE SFLA 480 Yes 250 65000 150 RMS-1 250 150 N/A FIXED FIXED FIXED N/A FIXED MIN N/A N/A N/A N/A Device#:10 TCC#s:2,17 DISCELEVRSI M GE SFIA 480 Yes 250 65000 175 RMS-1 250 175 N/A FIXED FIXEO FIXED N/A FIXED 3 N/A N/A N/A N!A Device#:7 TCC#s:1,16 Printed: 1/28/2008 12:56:40 P PNL-EDPELVI Equipment Name Vault Number Building Number Column Floor Comments PNL EMS1 Low Voltage Circuit Breaker Data Mag In Trip or Sens Man stan Curc Tap or Long Long Short Short Short Instan Grnd Gmd Gmd Grnd Posi- or Volt- tan Frame Int Circt Sens Rating Current Time Time Time Time Time taneo Fault Fault Fault Fault Serial Circuit Description tion Elec MFG Type age eou Amps Amps Amps Trip Type Rating Plug Setting Picku Delay Pkup Delay 12T us Senso Pkup Delay 12T Number XFMR ETR2P M GE SFLA 480 Yes 250 65000 200 RMS-1 250 200 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A Device#:36 TCC#s:10 15 Printed: 1/28/2008 12:56:40 P PNL EMS1 Equipment Name Vault Number Building Number Column Floor Comments PNL EPEP56 Low Voltage Circuit Breaker Data Mag In Trip or Sens Man stan Curc Tap or Long Long Short Short Short Instan Grnd Gmd Gmd Gmd Posi- or Volt- tan Frame Int Circt Sens Rating Current Time Time Time Time Time taneo Fault Fautt Fault FauR Serial Circuit Description tion Elec MFG Type age eou Amps Amps Amps Trip Type Rating Plug Setting Picku Delay Pkup Delay 12T us Senso Pkup Delay 12T Number PNL EPEP76 M GE THQB 240 Yes 100 10000 50 THERMAL MAGNET 50 N/A N/A N/A fIXED N/A N/A N/A FIXED N/A N/A N/A N/A Device#:40 TCC#s:10,15 Printed: 1/28/2008 12:56:40 P PNL EPEP5B Equipment Name Vault Number Building Number Column Floor Comments SWBD DP-D2A Low Voltage Circuit Breaker Data Mag In Trip or Sens Man stan Curr Tap or Long Long Short Short Short Instan Gmd Grnd Gmd Grnd Posi- or Volt- tan Frame Int Circt Sens Rating Curtent Time Time Time Time Time taneo Fautt Fault Fault Fauft Seriai Circuit Description tion Elec MFG Type age eou Amps Amps Amps Trip Type Rating Plug Setting Picku Delay Pkup Delay 12T us Senso Pkup Delay 12T Number MAIN M GE SS 3000 240 Yes 3000 100000 3000 MVT+ 3000 3000 1 N/A 1 SC MIN(1 OUT 13X 3000 0.37S MIN( IN Device#:16 TCC#s:4 Other:LSIG PNL DIM-DR1 M GE TEY 240 Yes 100 14000 60 THERMAL MAGNET 60 N/A N/A N/A FIXED N/A N/A N/A FIXED N/A N/A N/A N/A PNL DIM-SPA M GE SFHA 240 Yes 250 65000 150 RMS-1 250 150 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A PNL DP-RC3 M GE SKH12 240 Yes 1200 65000 1000 RMS-1 1000 1000 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A Device#:17 TCC#s:4 PNL PPPOOLA M GE SFHA 240 Yes 250 65000 250 RMS-1 250 250 N!A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A PNL PP-P1A M GE TEY 240 Yes 100 14000 100 THERMAL MAGNET 100 N/A N!A N/A FIXED N/A N/A N/A FIXED N/A N/A N/A N/A PNL PP-P1K M GE SGDA4 240 Yes 400 65000 400 RMS-1 400 400 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A PNL PP-P2A M GE TEY 240 Yes 100 14000 100 THERMAL MAGNET 100 N/A N/A N/A FIXED N/A N/A N/A FIXED N/A N/A N/A N/A PNL PP-P2K M GE SGDA4 240 Yes 400 85000 400 RMS-1 400 400 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A PNL PP-P3A M GE SGDA4 240 Yes 400 65000 400 RMS-1 400 400 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A PNL PP-P3K M GE SFHA 240 Yes 250 65000 225 RMS-1 250 225 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N!A N/A N/A PNL PP-P4A M GE SFHA 240 Yes 250 65000 225 RMS-1 250 225 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A PNL PP-P4A1 M GE SFHA 240 Yes 250 65000 225 RMS-1 250 225 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A PNL PP-P4K M GE TEY 240 Yes 100 14000 100 THERMAL MAGNET 100 N/A N/A N/A FIXED N/A N/A N!A FIXED N/A N/A N/A N/A PNL PP-P5A M GE SFHA 240 Yes 250 65000 225 RMS-1 250 225 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A PNL PP-P6A M GE TEY 240 Yes 100 14000 100 THERMAL MAGNET 100 N/A N/A N/A FIXED N/A N/A N/A FIXED N/A N/A N/A N/A PNL PP-P7A M GE TEY 240 Yes 100 14000 100 THERMAL MAGNET 100 N/A N/A N/A FIXED N/A N/A N/A FIXED N/A N/A N/A N/A PNL PP-PL M GE SFHA 240 Yes 250 65000 225 RMS-1 250 225 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A PNL PP-PR M GE TEY 240 Yes 100 14000 100 THERMAL MAGNET 100 N/A N/A N/A FIXED N/A N/A N/A FIXED N/A N/A N/A N/A PNL PP-PSPA M GE SGDA4 240 Yes 400 85000 400 RMS-1 400 400 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A SPARE M GE SFHA 240 Yes 250 65000 225 RMS-1 250 225 SPARE M GE SFHA 240 Yes 250 65000 225 RMS-1 250 225 SPARE M GE SFHA 240 Yes 250 65000 225 RMS-1 250 225 Printed: 1/28/200812:56:42 P SWBD DP-D2A Equipment Name Vault Number Building Number Column Floor Comments SWBD DSBHA Low Voltage Circuit Breaker Data Mag In Trip or Sens Man stan Curt Tap or Long Long Short Short Short Instan Gmd Grnd Gmd Gmd Posi- or Volt- tan Frame Int Circt Sens Rating Current Time Time Time Time Time taneo Fault Fault Fault Fault Serial Circuit Description tion Elec MFG Type age eou Amps Amps Amps Trip Type Rating Plug Setting Picku Delay Pkup Delay 12T us Senso Pkup Delay 12T Number DISC SH-PW1 M GE SFHA 240 Yes 250 65000 200 RMS-1 250 200 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A MAIN M GE SS 1600 240 Yes 1600 85000 1600 MVT+ 1600 1600 1 N/A 2 5.5C INT(2 OUT 15X 1600 0.45S MIN( IN Device#:21 TCC#s:5 SGF Other.LSIG PNL DIM-BR1 M GE SFHA 240 Yes 250 65000 225 RMS-1 250 225 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A PNL DIM-DR2 M GE TEY 240 Yes 100 14000 100 THERMAL MAGNET 100 N/A N/A N/A FIXED N/A N/A N/A FIXED N/A N/A N/A N/A PNL DP-D56 M GE SGDA4 240 Yes 400 85000 400 RMS-1 400 400 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A PNL LP-L28 M GE TEY 240 Yes 100 14000 100 THERMAL MAGNET 100 N/A N/A N/A FIXED N/A N/A N/A FIXED N/A N/A N/A N/A PNL PPPOOLB M GE SGDA4 240 Yes 400 65000 250 RMS-1 400 250 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A PNL PP-P1B M GE SFHA 240 Yes 250 65000 225 RMS-1 250 225 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A PNL PP-P26 M GE SFHA 240 Yes 250 65000 225 RMS-1 250 225 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A PNL PP-P36 M GE SGH6 240 Yes 600 65000 600 RMS-1 800 600 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A PNL PP-P46 M GE SFHA 240 Yes 250 65000 225 RMS-1 250 225 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A PNL PP-P6B M GE SFHA 240 Yes 250 65000 225 RMS-1 250 225 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A PNL PP-P76 M GE SFHA 240 Yes 250 65000 225 RMS-1 250 225 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A PNL PP-P86 M GE SFHA 240 Yes 250 65000 225 RMS-1 250 225 N/A FIXED FIXED FIXED N/A FIXEO MAX N/A N/A N/A N/A SPARE M GE SFHA 240 Yes 250 B5000 225 RMS-1 250 225 TIE BREAKER M GE SS 1600 240 Yes 1600 85000 1600 MVT+ 1600 1600 1 N/A 1 4C MIN(t OUT 15X N!A N/A N/A N/A Device#:22 TCC#s:5 Other.LSI Printed: 1/28/200812:56:43 P SWBD DSBHA Equipment Name Vault Number Building Number Column Floor Comments SWBD DSBHB Low Voltage Circuit Breaker Data Mag In Trip or Sens Man stan Curc Tap or Long Long Short Short ShoR Instan Gmd Grnd Gmd Grnd Posi- or Volt- tan Frame Int Circt Sens Rating Current Time Time Time Time Time taneo Fault Fault Fault Fault Serial Circuit Description tion Elec MFG Type age eou Amps Amps Amps Trip Type Rating Plug Setting Picku Delay Pkup Delay 12T us Senso Pkup Delay 12T Number DISC SH PW2 M GE SFHA 240 Yes 250 65000 200 RMS-1 250 200 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A MAIN M GE SS 1600 240 Yes 1600 85000 1600 M1AVT+ 1600 1600 1 N/A 1 4C MIN(1 OUT 15X 1600 0.45S MIN( IN Device#:43 TCC s:11 11GF Other:LSIG PNL DIM-BR2 M GE SFHA 240 Yes 250 65000 225 RMS-1 250 225 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A PNL DIM-SPB M GE TEY 240 Yes 1U0 14000 100 THERMAL MAGNET 100 N/A N/A N/A FIXED N/A N/A N/A FIXED N/A N/A N/A N/A PNL PP-P3C M GE SGDA4 240 Yes 400 65000 400 RMS-1 400 400 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A Device#:23 TCC#s:5,11 PNL PP-P4C M GE SFHA 240 Yes 250 65000 225 RMS-1 250 225 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A PNL PP-P5C M GE SFHA 240 Yes 250 65000 225 RMS-1 250 225 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A PNL PP-P6C M GE SFHA 240 Yes 250 65000 225 RMS-1 250 225 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A PNL PP-P7C M GE SFHA 240 Yes 250 65000 225 RMS-1 250 225 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A PNL PP-P8C M GE SFHA 240 Yes 250 65000 225 RMS-1 250 225 N/A FIXED FIXED FIXED N!A FIXED MAX N/A N/A N/A N/A PNL PP-PSPB M GE SFHA 240 Yes 250 65000 225 RMS-1 250 225 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N!A N/A SPARE M GE SFHA 240 Yes 250 65000 225 RMS-1 250 225 SPARE M GE SFHA 240 Yes 250 65000 225 RMS-1 250 225 SPARE M GE SFHA 240 Yes 250 65000 225 RMS-1 250 225 Printed: 1/28/2008 12:56:44 P SWBD DSBHB Equipment Name Vault Number Building Number Column Floor Comments SWBD-EMSB Low Voltage Circuit Breaker Data Mag In Trip or Sens Man stan Curr Tap or Long Long Short Short Short Instan Gmd Gmd Gmd Gmd Posi- or Volt- tan Frame Int Circt Sens Rating Current Time Time Time Time Time taneo Fauk Fault Fault Fault Serial Circuit Description tion Elec MFG Type age eou Amps Amps Amps Trip Type Rating Plug Setting Picku Delay Pkup Delay 12T us Senso Pkup Delay 12T Number ATS-1 M GE SKHB 480 Yes 800 50000 800 MVT+ 800 800 1.00X N/A 3 9.00 4 OUT 10.OX N/A N/A N/A N/A Device#:58 TCC#s:16 17 18 Other:LSI ATS-2 M GE SGH6 480 Yes 600 35000 600 MVT+ 600 600 1.00X N/A 1 S.00 1 OUT 10.OX N/A N/A N/A N/A Device#:57 TCC#s:15 Other:LSI Printed: 1/28/2008 12:56:44 P SWBD-EMSB Equipment Name Vault Number Building Number Column Fioor Comments SWBD MSB-A Low Voltage Circuit Breaker Data Mag In Trip or Sens Man stan Curr Tap or Long Long Short Short Short Instan Gmd Gmd Gmd Gmd Posi- or Volt- tan Frame Int Circt Sens Rating Current Time Time Time Time Time taneo Fault Fault Fault Fault Serial Circuit Description tion Eiec MFG Type age eou Amps Amps Amps Trip Type Rating Plug Setting Picku Delay Pkup Delay 12T us Senso Pkup Delay 12T Number ATS-2 M GE SGL6 480 Yes 600 65000 600 MVT+ 600 600 1.00X N/A 1 N/A N/A N/A 10.OX N/A 0.80S 1 IN Device#:35 TCC#s:10,10GF Other:LIG DISC CHIL1 M GE SGL6 480 Yes 600 65000 600 MVT+ 600 600 1.00X N/A 3 N/A N/A N/A 10.OX N/A O.60S 1 IN Device#:32 TCC s:9 9GF Other.LIG MAIN M GE SS 3000 480 Yes 3000 100000 2700 AAVT+ 3000 3000 0.9 N/A 4 6.5C MAX( OUT 13X 3000 0.37S MAX( IN Device#:3 TCC#s:1 1GF 4 5,6 7 8,9 10 12GF,11GF SGF 7GF 6GF,9GF,4GF BGF,10GF Other.LSIG MCC 4A M GE SGL6 480 Yes B00 65000 600 MVT+ 600 600 1.00X N/A 1 N/A N/A N/A 10.OX N/A 0.80S 1 IN Device#:27 TCC#s:7 7GF Other:LIG MCC-1A M GE SKL12 480 Yes 1200 65000 1000 MVT+ 1200 1000 1.00X N/A 1 N/A N/A N/A 10.OX N/A 0.60S 1 IN Device#:24 TCC#s:8 6GF Other.LIG PNL DP-D1A M GE SKL8 480 Yes 800 65000 700 MVT+ 800 700 1.00X N/A 3 N/A N/A N/A 10.OX N/A O.60S 1 IN Device#:30 TCC#s:8 SGF Other:LIG PNL DP-DSM2 M GE SFLA 480 Yes 250 65000 225 RMS-1 250 225 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A PNL DP-DSMS M GE SGL4 480 Yes 400 65000 400 RMS-1 400 400 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A PNL-DP-DSM1 M GE SFLA 480 Yes 250 65000 225 RMS-1 250 225 N/A FIXED FIXED FIXED N!A FIXED MAX N/A N/A N/A N/A SPARE M GE SFLA 480 Yes 250 65000 200 RMS-1 250 200 SPARE M GE SFLA 480 Yes 250 65000 200 RMS-1 250 200 TIE BREAKER M GE SS 3000 480 Yes 3000 100000 3000 AAVT+ 3000 3000 1 N/A 2 4.SC INT(2 OUT 13X N/A N/A N/A N/A Device#:4 TCC#s:1 3 2 11 12 13,14 Other.LSI XFMR TR1 P M GE SS 1600 480 Yes 1600 65000 1600 MVT+ 1600 1600 1 N/A 2 5.5C INT(2 OUT i5X 1600 0.485 INT(2 IN Device#:14 TCC#s:4,4GF Other:LSIG XFMR TR2P M GE SKLB 480 Yes 800 65000 800 MVT+ S00 800 1.00X N/A 3 N/A N/A N/A 10.OX N/A 0.60S 1 IN Device#:19 TCC#s:5 SGF Other:LIG Printed: 1/28/200812:56:45 P SWBD MSB-A Equipment Name Vault Number Building Number Column Floor Comments SWBD-MSB-B Low Voltage Circuit Breaker Data Mag In Trip or Sens Man stan Curr Tap or Long Long Short Short Short Instan Grnd Gmd Gmd Grnd Posi- or Voit- tan Frame Int Circt Sens Rating Current Time Time Time Time Time taneo Fault Fault Fautt Fault Serial Circuit Description tion Elec MFG Type age eou Amps Amps Amps Trip Type Rating Plug Setting Picku Delay Pkup Delay 12T us Senso Pkup Delay 12T Number ATS-1 M GE SKL12 480 Yes 1200 65000 1200 MVT+ 1200 1200 1.00X N!A 2 N/A N/A N/A 8.5X N/A O.BOS 1 IN DeviCe#:5 TCC s:1,1GF,2 3 Other:LIG DISC CHIL2 M GE SGLB 480 Yes 600 65000 600 AAVT+ 600 600 1.00X N/A 3 N/A N/A N/A 10.OX N/A 0.60S 2 IN Other:LIG-SET THE SAME AS DEVICE#32 MAIN M GE SS 3000 480 Yes 3000 100000 2700 AAVT+ 3000 3000 0.9 N/A 4 6.5C MAX( OUT 13X 3000 0.37S MAX( IN Other.LSIG-SET THE SAME AS DEVICE#3 MCC-26 M GE SFLA 480 Yes 250 65000 250 RMS-1 250 250 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A PNL DP-DB1 M GE SKL12 480 Yes 1200 65000 1000 NIVT+ 1200 1000 1.00X N/A 4 N/A N/A N/A 10.OX N/A 0.60S 1 IN Device#:44 TCC#s:12,12GF Other:LIG PNL DP-DSM3 M GE SFLA 480 Yes 250 65000 225 RMS-1 250 225 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A PNL DP-DSM4 M GE SFLA 480 Yes 250 65000 225 RMS-1 250 225 N/A FIXED FIXED FIXED N/A FIXED MAX N/A N/A N/A N/A SPARE M GE SFLA 480 Yes 250 65000 200 RMS-1 250 200 SPARE M GE SFLA 480 Yes 250 65000 200 RMS-1 250 200 SPARE M GE SGL4 480 Yes 400 65000 400 RMS-1 400 400 XFMR TR3P M GE SKLB 480 Yes S00 65000 800 NIVT+ 800 800 1.00X N/A 3 N/A N/A N!A 10.OX N/A 0.60S 2 IN Device#:41 TCC#s:11 11GF Other:LIG XFMR TR4P M GE SGL4 480 Yes 400 65000 350 MVf+ 400 350 1.00X N/A 3 N/A N/A N/A 10.OX N/A N/A N/A N/A Device#:47 TCC#s:13 Other.LI XFMR TRSP M GE SGL6 480 Yes 600 65000 500 N1VT+ 600 500 1.00X N/A 3 N/A N/A N/A 10.OX N/A N/A N/A N/A Device#:51 TCC#s:14 Other.LI Printed: 1/28/2008 12:56:45 P SWBD-MSB-B � l Equipment Name Vault Number Building Number Column Floor Comments XFMR ETR2P Transformer Data TCC#: Device#: Serial Number Manufacturec Type: KVA(Aii KVA(Fans KVA(Pumps; Temp Rise Pnmary Voltage Connection: Sec.Voltage Connection Grounding 10, 15 37 C� � 113 � � � 480 Delta 208 olidly Ground � Primary Ifl Second.Ifl No.of taps Impedance% HV BIL: LV BIL: Net Weight: Gallons of Oil: Year Installed: Other: � � � 4.80 � � � � � Printed: 1/28/2008 12:56:46 P XFMR ETR2P Equipment Name Vault Number Building Number Column Floor Comments XFMR TR1 P Transformer Data TCC#: Device#: Serial Number Manufacturer: Type: KVA(Aii KVA(Fans KVA(Pumps; Temp Rise Primary Voltage Connection: Sec.Voltage Connection Grounding � 15 � � 1000 � � � 480 Delta 208 olidly Ground � Primary Ifl Second.Ifl No.of taps Impedance% HV BIL: LV BIL: Net Weight: Gallons of Oil: Year I�stalled: Other: � � � 6.04 � � � � � Printed: 1/28I2008 12:56:46 P XFMR TR1P � Equipment Name Vault Number Building Number Column Floor Comments XFMR TR2P Transformer Data TCC#: Device#: Serial Number Manufacturer Type: KVA(Aii KVA(Fans KVA(Pumps; Temp Rise Primary Voltage Connection: Sec.Voltage Connection Grounding �5 20 � � 500 � � � 480 Delta 208 olidly Ground � Primary Ifl Second.Ifl No.of taps Impedance% HV BIL: LV BIL: Net Weight: Gallons of Oil: Year Installed: Other: � � � 4.40 � � � � � Printed: 1/28/2008 12:56:46 P XFMR TR2P Equipment Name Vault Number Building Number Column Floor Comments XFMR TR3P Transformer Data TCC#: Device#: Serial Number Manufacturec Type: KVA(Ai� KVA(Fans KVA(Pumps; Temp Rise Primary Voltage Connectiore Sec.Voltage Connection Grounding 11 42 � � 500 � � � 480 Delta 208 olidly Ground � Primary Ifl Second.Ifl No.of taps Impedance% HV BIL: LV BIL: Net Weight: Gallons of Oil: Year Installed: Other: � � � 4.40 � � � � � Printed: 1/28/2008 12:56:46 P XFMR TR3P 4 Equipment Name Vault Number Building Number Column Floor Comments XFMR TR4P Transformer Data TCC#: Device#: Serial Number ManufaCturer: Type: KVA(Aii KVA(Fans KVA(Pumps; Temp Rise Primary Voltage Connection: Sec.Voltage Connection Grounding 13 48 � � 225 � � � 480 Delta 208 olidly Ground � Primary Ifl Second.Ifi No.of taps Impedance% HV BIL: LV BIL: Net Weight: Gallons of Oil: Year Installed: Other: � � � 6.20 � � � � � Printed: �/28/2008 12:56:46 P XFMR TR4P Equipment Name Vault Number Building Number Column Floor Comments XFMR TR5P Transformer Data TCC#� Device#: Serial Number Manufacturer: Type: KVA(Aii KVA(Fans KVA(Pumps; Temp Rise Primary Voltage Connection: Sec.Voltage Connection Grounding 14 52 � � 300 � � � 480 Delta 208 otidly Ground � Primary Ifl Second.Ifl No.of taps Impedance% HV BIL: LV BIL: Net Weight: Gallons of Oil: Year Instailed: Other: � � � 5.50 � � � � � Printed: �/2812008 12:56:46 P XFMR TRSP � Equipment Name Vault Number Building Number Column Floor Comments XFMR UTIL1 P Primary Fuse Data TCC#: Device#: Manufacturer: Type: Voltage: Amps/Size: Model: Int.Amps: Catalog: Min Meit TCC: Max Melt TCC Other: 1�� S&C SMU-20 14400 50E ANDARD SPE SFH 61250 153-2 153-2-2 Transformer Data TCC#: Device#: Seriai Number Manufacturer: Type: KVA(Ai� !NA(Fans KVA(Pumps; Temp Rise Primary Voltage Connection: Sec.Voltage Connection Grounding �� � � 1500 � � � 24900 olidly Ground 480 olidly Ground � Primary Ifl Second.Ifl No.of taps Impedance% HV BIL: LV BIL: Net Weight Gallons of Oil: Year Installed: Other: � � � 5.30 � � � � � Printed: 1/28/2008 12:56:46 P XFMR UTIL1P � � � Equipment Name Vault Number Building Number Column Floor Comments XFMR UTIL2P Primary Fuse Data TCC#: Device#: Manufacturer: Type: Voltage: Amps/Size: Model: Int.Amps: Catalog: Min Meit TCC: Max Melt TCC: Other: �� S&C SMU-20 14400 50E ANDARD SPE SFH 61250 153-2 153-2-2 Transformer Data TCC#: Device#: Serial Number Manufacturer Type: KVA(Aii KVA(Fans KVA(Pumps; Temp Rise Primary Voltage Connection: Sec.Voltage Connection Grounding �� � � � 1500 � � � 24900 olidly Ground 480 olidly Ground � Primary Ifl Second.Ifl No.of taps Impedance% HV BIL: LV BIL: Net Weight Gallons of Oil: Year Instailed: Other: � � � 5.30 � � � � � Printed: 1/28/2008 12:56:46 P XFMR UTIL2P M-frame, P-frame, R-frame and NS630b—NS3200 Electronic Trip Circuit Breakers Section 11—Trip Curves Micrologic 3.OA Trip CURRENT IN MULTIPIES OF Ir(Ir=LONG•TIME SE7TING x In) Micrologic 3.OA Trip Unit Unit Characteristic � �� _ � . . . .° R R s $ s ��ag Trip Curve � �^ � �'�— � � � ;�� Long-time Pickup and Delsy ' �. � i_ �- �-- i � ;-- ; � Characteristic Trip Curve No.613-6 ` i� I- � �i «m � ^^^^ �- � - = s � „� �oe��-nME�c$� j � �� 1 � '°°° The time-current curve information is to be used '- xi„ n ; '�i---`� � �� i'°°° for application and coordination purposes only. '°°°' -- , I `t��-'- �i0°° Curves apply from-30°C to+60°C(-22°F to J � I`I � ' � , � � � ; � +140°F)ambient temperature. �=— —: --a� — '—— r ,., � � �. ; � i i,� �� _ _---� - r-+- 1,,.� Notes: I ! i ; � ' � � 1. There is a thermal-imaging eHect that can ---�T� '�-' —_� � _ - :,; act to shorten the long-time delay.The �°° `- � �i,-- _a� thermal-imaging eHect comes inro play if a +� - —' -� — - -- „a_ - - ' �' —.--i �-- .��.� current above the long-time delay pickup � ~- ,--i � y : - �— - I� value exists for a time and then is cleared „a. ���� __ -� , � i.,a by the iripping of a downstream device or � � i� _ � , the circuit breaker itself.A subsequent '°° i I � overload wiil cause the circuit breaker to � �� � � i � � � � ; � �� � trip in a shorter time than normal.The '°°- � i 7 ' � ' � ; � ."� amount of time delay reduction is inverse to +m- , -*-+�+m the amount of time that has elapsed since ' � � j � � ; ; j ':{ the previous overload.Approximately ,�---' ' ' � �^^ twenty minutes is required between _�_ a '�-;—� -------t—'�— ;-�b overloads to completely reset thermal- ro - -- - - � .1�^ imaging. b, . : • - --- I p. _ _. �__ ____ T �w 2. The end of the curve is determined by the _ �dr��nME aa�Y . _ __�.� instantaneous setting of the circuit 6reaker. �0� S ONDS AT 6:Ir _ i '' j � � _�,� 3. Total clearing times shown include ihe f' -� response times of ihe irip unit,ihe circuit � i breaker opening,and the extinction of ! - � � ' � �� current. �s � J��' �i 15 4. See trip curve 613-8 on page 112 tor = � � ' �' � instantaneous pickup trip curve. ��_ i__ ' �',-I,,o ;. —+ — J � +-�: � N a ,�_ __ — �—v i I�, " O s i . , �—I `.—�.. _ s � '. ,� ._ �—_—T �—�� NU I � . I � a_ I'�._— — — I. � Z I I I W ]- . _-- I T_��� � - � � � � � ,s ,.s- ',i _ _ I ---� i i i I i '� _; -�__. -� T-�-r���; :,. --�--�-_ � --r-�-t,-,- > a; -r - —-�-t -- ! !� �.. I i � I � s f ' � � r--��,� A�t 'J I — T� ', ' T��-� A I I ,�__ � __ — � � I • I I � � j I � j � � I I �,L- ;—� —�— • � _._. I .t--'_�1-�a I � I I �s � - . . -- --- ---- Y-�-t--� 1t�.�s i � I i : � il � �, �_�� --t-' . I�-'-,I--R= i � a. � - !-r� —�_ � �_� � p __—f�—� +,1� '-3 �—,�- a m � �7 f ._ — I ..�i—I — _ . . T-� ' � ., .m .w ---S—I i � — � .w � �� � � i I I � .m , - ., i I ' j � , . i i i i��� � j I I ' ' � I 1 I j .w -��- . - ��—? '—I .ma�rl Q'CLE _ 1_�_��- __ __-� 1--�.. .�.�t ms �i � ? � 1 � i ! I I ! i i � ��-�-�a�� ' �;---�-�-' � +� �-'r� --�-1-=-'-1-�-t - � � I� �_ � �� � � -rt�— __ i - -�-- , '� i i—r---, ..os ..�-- ---- � �—�-�— -- .ms n . ��•- _ ^ ^ • ^• ^• . � R R S S S R i 98 CURRENT IN MULTIPLES OF Ir Curve No.0613TC0006 (Ir=LONG-TIME SE'fTING x In) Drewing No.B4BOB5-01306 110 ' �02001-2003 Schneider Electric All Rights Reserved 11/03 M-frame, P-frame, R-frame and NS630b–NS3200 Electronic Trip Circuit Breakers Section 11—Trip Curves Micrologic 3.OA Trip MULTIPLES OF SENSOR RATNG(In) Micrologic 3.OA Trip Unit UnitCharacteristic ` „�.,_ _ a R 9 RYRYRg �„�° - ^ �� ,.,,a Instanteneous Pickup,1.5X to 12X P w°° - — � T�I CUI'Ve �� - - $�- — --�- -_1 � Charecteristic Tnp Curve No.613-8 i�= I i �- woo - � i I � � � -` i i��„o� � i ;rtl j_� + i; � � _ � The time-current curve informatwn is to be used � � i — —�--�t---�-- - � 1 i � I � i �� for application and coordination purposes only. "" i —� i �� �-: i i Curves apply from-30°C to+60°C(-22°F to � ' „� +140°F)ambient temperature. ,,,, -�--.� i � - — 1 i ! ;i� I` i � I �� --�-� �- -- -- — - � 1 ' . -i,°°° Notes: �� I ,,,,.� ' _ '; , t � __ ,�� The end of the curve is determined by the ;�;_�_ i_� ��- __ _ I,,, interrupting rating of the circuit breaker. � __- _ - '— -- ,� „o i.�_ -- � ; '-�-- - -- -- Total clearing times shown include the response -J - — - �°° times oi ihe trip unit,the circuit breaker opening, „o � - ��� -� -- — - y� and ihe extinction of current. ,� �-- -- ;-!-f- - I i � - -�-I���°° The instantaneous region oi the trip curve shows ` � _� maximum total clearing times.Actual clearing � �--r------- - - � --- �-I°0° times in this region can vary depending on the , --- b } ) __ - , - , ,_j„� circuit breaker mechenism design and other , j ; factors.The actual clearing time can be wsr�rrtu�eous considerably faster than indicated.Contact your �: -! ��` --��- - �� local sales ottice for additional Information. �p.__.._.....� . _ . "___._ __ZIR. __._ . i ' "' See trip curve 613-6 on page 110 for long-time w � � _ - ;b � ; _ _ __ _ _ �w pickup and delay trip curves. w ;_—+__;_rt� -�w ! I �� b �- � - x � � �� i �� � -;-�-� - - ----+—rt �=�iw I � �(�s ,_- -�� - -- � ', �� ,� ; ; ; � , - - - ��:° ,� , — — ,_—, _ ?; ; s i- - -�- —- '��; _ !i. , . ', —� ;— , i � ��.- y � � I � ` n � - _ �-�- �_;-'�� z � � ,!I, L � _ Y 1 f . . . ., , . ,Fi t.! - .. _ .____.�_L,I-�13 .., '. � � ��( '— _ � ��J � —�-, J .0 i— _ - ,�� I�I i-��J S I . - -�." I .� � ��I J ) �I�i__ .._ _ I I f ' i S II � — + �II � j _ � 7 1 �% ^1 I i f 1� I . �! � 1 '� '' .l „ � 1 � , , � , �M t� �A � _� � it � I_ _ M a �1-- � - ~ � �. s s � i �� .r: ;. _ , �..� ,. . m � I -- : - I " , ° , > , , , . t. � , ; � ._ ��r.r.1�Q�CLE - --- '-- --- ����a s 1 � I iI �.r�.�r%vnF -- ._�-+-I`�,� ��,,� — - .om ��i, � - --- -- -- � �m � ' l � ,- - .___ ._' �- (� J� � , __ - « � . „ . �. _ _ R R 9 R 9 R S Y 8 Cune No.0613TC000B MULTIPLES OF SENSOR RATING(in) Drewing No.848095-813�08 ��2 � OO 2001-2003 Schneider Electric All Rights Reserved 11/03 '3_ � 1 �Iflpip4N�d asei3il�v��t�... ��i:itllqb�li 3&, e�`s 4!lIill�ttM s • !!6 1Ir. �-'di!€�==��€ie?"+�'-.'.i 3 Ef4Eeei�I11I'ti � dtt__ � �1 �x - I _ __ _ �e___-�_�_._'_ -.�. ��� _ _ � �'�� ; �'�ri�t�°eu+d� �`�F��E EE�.'ill�#I�� ���' : :8 �� e n 2- __-_--_ � .�• �--• , : -__: . �. �;� t �����`ii ui • $":@e _'4EBtlittlp��IE�� �. �' •��EE:��r�"E sk�•• -- -- - �� _ �a ,, � ��I����p� s��: ��:"��il�:t�!��1���..��!�: �€�i�i��s�i.w-� ��� �' .� .� . �raa�� -� r: . �p �. ¢i��: ee� s 5 � C=�1.� �#�aimu�: �!�'� :E�B�,����e :s��.� ' ��� �€n=�k:��s�..�, ���,� €� a� i � � 'F��',�� 75�k'A � ��'�d �.'�:��'�tiik�� � F!ee ' €��n� � �a� + .��i�s-*�il��'�, �����sj§°5� ���• a � E� i16F i � �� .� rvnr� '� � �N �i - _�q � ��is���e C�i @ i€ i i���P'w '. �'§i3sa�r�. -aixe ��E���'����N�::Et�_.��?_��-�SSimii� c� �....bUiiHii6iE.:i�l�a���n��f;� � =�a���s i.•. �snnttarmmiam•mcse{Eif B�li ='» � mn�;r." � ffi°EE� x c:° s" !K�li3FsnuiSiiiiG yr t --- -+nfi."ti',�t,Hl�� c ,t��a��'A' �"sii��g.���%�� � ����i�iit:_- ?�si.�ii�!i�l�����,���... 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' s�` � tr�S'x�.ix�''��s^a' �4�oas'.�-Ex���c� � az a ti Yi4T.R4'iCiS S_ ".��.� 3 S1� �7Z 4i.y�,x S �yy�, "�� �. ���^'.�`� _��F��nM��� I�w ry�otwu1oir:�,. , .;+w�p�umnii�M� � ,���.�� �.`�Ip.v°�y,Y�,, 6�y��tiWi��. �M ai:; ni�w11�i��inN�+�F.i, iw'��Niiiiiinl�1�tl�ui��ai, uNMF11ww•�11�u� �� � NumMw�niqixwiNi�1 1;�. :: �.: : F '. �/�\,\\ MMM GKVUP k � , � � , . RYBKA SMITH AND GINSLER-CONSULTING ENGINEERS 18 Champlain Boulevard,Toronto,Ontario,Canada M3H 2Z1 Telephone:416-398-6020 Facsimile:416-398-6361 Email: info@rvbka.com Web:www.rybka.com Project /� Name: FSH Vail Project#: 180728600 Submission # �� �4 The review of this drawing does not in any way relieve the contractor of responsibility for its accuracy or for compliance with the contract documents Mechanical Review Required Electrical Review Required ❑ Reviewed � Reviewed as Noted YES ❑ NO ❑ YES 0 NO ❑ ❑ Returned for Correction Review Date: Review Date: March 6, 2008 Reviewed by: Reviewed by: Shannon Loader Subject Title: Short Circuit and Protective coordination Study Date Received: Feb. 25/08 ITEM COMMENTS 1 Dimmer Panel DIM-SPB is specified by others.We will require the shop drawing to confirm the interrupt rating of the anel. 2 The utility transformers are fused at 83% of primary FLA.This is not the optimum coordination and as such the Electrical Contractor is to contact the Utilit to confirm that an alternate fuse selection is available. 3 Concerning breaker#56(Generator breaker) needs to be coordinate with the withstand curve for the generator. Electrical Contractor to contact the enerator su lier such that breaker 56 will rotect the enerator windin s. 4 Revise breaker#5 (protection for ATS-1), breaker#6(protection for EP-EDPELEV1), and breaker#13 (protection for EMCC-E1A)to be a solid state breakers as per original design in order to adequately coordinate. Provide u dated coordination curves for review and comment. 5 Refer to attached letter 6 Partial resubmission required only for the above mentioned items. t 3 �.^i;r� � � '::� � r�;'=,�ii-:�:� ,......Yv(:.i i,[5:.. . ..,,.. .,,Etr t.:..;h.9.�,�I�.1;�. i ....-t 1:.r�i._ri�.<,r., .r;.t< ...1�.._. r�.:.... ... . ,...;1.�t i:. , i ' . � � � . ��1'� M��,��fl�� �v"it:3PL�1 Graii�>Li�+��itnd 18 t.:i�arn��lair;E3rfc�. �ibronta.C)tJ tt131;:'1 i 1:���:>.�iC3�j.�:�{7�./+(.t4�L;._3}t`{..Ci:;�C�a i '>v`S1'4�'.lf i(i i!T'I.i.d:1 March 7, 2008 Mr. D. Atmore Hill Glazier Architects Inc. 925 Alma Street Palo Alto, California 94301-2405 USA Subject: Four Seasons Resort Vail, Colorado Electrical Distribution Coordination Study Our File No. 1807286-00 Dear Mr.Atmore; This letter represents our shop drawing review comments of the short circuit and protective device coordination study dated January 28, 2008. 1.0 Interruptinq Capacitv Ratinqs 1.1 As per the short circuit study, all devices fall within the specified interrupting capacity with the exception of dimmer panel SPB. We point out that this device is a dimming panel which is specified by the lighting designer. We recommend that Layton and Ludvik issue a clarification at the shop drawing stage to ensure the requirement for 15kA�ating is met. 1.2 Similarly, the five (5) snowmelting panels "DSM1" to "DSM5" are provided by the specialist snowmelting contractor. We recommend Layton and Ludvik issue a clarification to the snowmelting contractor to ensure the panels are 18kA and 10kA rated as per the study. 1.3 Lastly, our specification 15650 -2.04.J.1 (May 12, 2006) requires a 50,OOOA symmetrical short circuit rating for the chiller starter which complies with the 35kA recommended in the study. We reviewed the chiller starter shop drawings and a short circuit rating is not identified. By way of this letter, we request that KK Mechanical obtain confirmation from the supplier that the starter has the minimum 50kA rating specified. 2.0 Protective Device Coordination 2.1 As per the input from specialist contractor, Power Studies, "selecting a proper setting is part art and part science". Our original design was based on adjustable solid state trip units for all breakers, however, a "value engineering" credit was applied and accepted by ownership on the basis that the contractor would provide equivalent performance to the specified product. .;;:_...,. ;s,�,,:> _._,_ ` . A , � ,��,11 �������� 2.2 In reviewing the comments in the study, there are some instances where there are overlaps in characteristic curves, but the inherent fixed settings of the value engineering thermal magnetic breakers do not offer an opportunity to revise settings. The report identifies that in most cases the protective devices do not selectively coordinate in instantaneous region which is considered tolerable except the following three (3) breakers where it is recommend to replace 3 x thermal magnetic to solid state (as per original design) . a. Revise breaker 5 (1200A) b. Revise breaker 6 (450A c. Revise breaker 13 (600A) d. Breaker 58 has 8,OOOA instantaneous which is higher than 6,524 and can remain as is. 3.0 Main Utilitv Transformers (Sheet#TCC1) 3.1 The basis of our design was 2 x 3000A electric services into the switchboard MSB. Since the utility company is providing the transformers and the NEC does not apply to utility transformers, it is common practice for the utility to undersize their transformers based on their own actual diversity. This means that the maximum output of the 1500kVA transformer is 1800 amps which is less than our 3000A service. We are comfortable with the 1500kVA transformer, however, we recommend that the coordination study specialist and Ludvik meet with the utility company to optimize coordination between the utility fuse (device #1) and the main breakers (device #3) and tie breaker (device #4). The following items are to be commented on by the specialist: 1. Primary fuse: the 50A fuse is 83% of the 60 ampere primary full load connect. Is there merit in increasing the fuse to 125% or even larger? 2. Main breaker and tie breaker: Is there merit in decreasing the long time pick up (LTPU) of the main breakers and tie breaker to a value less than 2700 amps? 4.0 Generator Control Panel Main Breaker(Sheet#1 Line 015) 4.1 The coordination study identifies a trip setting of 1200 amperes on the main generator breaker. We expect the manufacturer (Cummins) to identify whether this is the recommended setting. It is not clear whether the 1200 ampere protects the alternator windings. 5.0 Conclusions 5.1 Our conclusions are that the electrical design complies with interrupting capacity requirements of the project. Equipment specified outside our design scope (dimmers and snowmelting panels) are to be reviewed by Ludvik for confirmation of short circuit rating. 5.2 The V.E. compromise of thermal magnetic breakers throughout the project requires minor refinement of three (3) breakers to solid state type. It is recommended that Ludvik negotiate with GE to obtain the revised selection at no cost. 5.3 Clarification and comments are required from the specialist in two (2) areas, namely, the primary fuse and main 3000A breakers plus the 1200 ampere genset breaker. � ;;;;. ,<: 2 j . . ` � .. ��� �Y�li 111��R�t t�� On this basis, we are recommending acceptance of the study with a resubmission onlv for the items mentioned above. This can occur without resubmitting the entire study. Sincerely; MMM GROUP LIMITED �G' � �r"--//%�//�7��'�--�' / A. von Eppinghoven, P.Eng. Senior Vice President Cc: M. Perkins- HKS T. Willings/R. Rodgers/R. Huang/S. 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