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Home My WebLink AboutResolution - 1285 - Agreement - Economic & Engineering Services Inc - Demand Rate Structure, LP&L - 12_16_1982KJ:da RESOLUTION RESOLUTION 1285 - 12/16/82 BE IT RESOLVED BY THE CITY COUNCIL OF THE CITY OF LUBBOCK: THAT the Mayor of the City of Lubbock BE and is hereby authorized and directed to execute for and on behalf of the City of Lubbock a Demand Rate Structure Agreement between Economic and Engineering Services, Inc. and the City of Lubbock, attached herewith which shall be spread upon the minutes of the Council and as spread upon the minutes of this Council shall constitute and be a part of this Resolution as if fully copied herein in detail. Passed by the City Council this 16th day of December ,1982. Ir B LZ McALISTER, MAYOR ATTEST:, E elyn Ga fga, City Irec a -Treasurer APPROVED AS TO CONTENT: Carroll McDonald Director, Electric Utilities APPROVED AS TO FORM: VW Q"""" Ken John on, Assistant City Attorney RESOLUTION 1285 - 12/16/82 CITY SECRETARY -TREASURER DEMAND RATE STRUCTURE AGREEMENT STATE OF TEXAS COUNTY OF LUBBOCK ECONOMIC AND ENGINEERING SERVICES, INC., (hereinafter referred to as "E.E.S."), a corporation having its principal office at 12301 N.E. 10th Plaza, Suite 250, Bellevue, Washington 98009, and the CITY OF LUBBOCK (hereinafter referred to as "CITY"), a municipal corporation in the State of Texas having its principal office at 916 Texas Avenue, Lubbock, Texas 79401, acting by and through its Mayor, so authorized, for and in consideration of the payments and agreements hereinafter recited, do hereby covenant and agree as follows: WHEREAS, CITY owns and operates Lubbock Power and Light Com- pany (hereinafter referred to as LP&L), a power company located in Lubbock, Texas, which provides electricity to certain commercial customers in Lubbock, Texas; and, WHEREAS, E.E.S. has proposed to evaluate LP&L's demand rate structure for specified commercial customers, and LP&L desires E.E.S. to provide such evaluation; NOW THEREFORE, E.E.S. and CITY do mutually covenant and agree to the following stipulations and conditions: 1. E.E.S. shall evaluate the consumption of electricity of certain commercial customers of LP&L, specified by LP&L, and establish at least two (2) demand rate structures of such customers for CITY; 2. E.E.S.'s evaluation shall guarantee CITY and LP&L that all rate options will recover the same amount of revenues currently collected by LP&L from such customers as of December 1, 1982; 3. E.E.S. shall provide LP&L with typical utility bills of such commercial customers on the current and any and all proposed rates within a reasonable time after such information becomes available to E.E.S., and shall include the administration and billing costs and other data of such rates; 4. E.E.S. shall review the Public Utilities Regulatory Policies Act (P.U.R.P.A.), Section 111, and shall sub- sequently guarantee to LP&L and CITY that any and all demand rate.structures.proposed by E.E:S. to CITY shall comply with such Act; 5. LP&L shall prepare and.offer E.E.S. information and data on specific customers that LP&L intends to apply any adopted demand rate to, as available. 6. E.E.S. and CITY agree that E.E.S. shall complete such evaluation and prepare and offer such demand rate struc- tures within a reasonable time from the execution of this Agreement. E.E.S. and CITY further agree that this Agreement shall be governed and construed in accordance with the laws and procedures of the State of Texas, excluding any conflicts of law, rules, or. principles which might refer such construction to the laws of another state; 7. The total labor costs for performance of this Agreement shall not amount to, nor shall CITY or LP&L be held liable for, an amount not to exceed five thousand ($5,000.00) dollars; provided, however, that LP&L pro- vides coding and punching of its historical customer load data. The total costs for E.E.S. computer time and expenses shall not amount to, nor shall CITY or LP&L be held liable for, an amount not to exceed five hundred ($500.00) dollars. Necessary travel expenses incurred on behalf of E.E.S. under this Agreement shall not exceed a reasonable amount, nor shall CITY or LP&L be held liable for any excesses; 8. E.E.S. shall prepare and provide to LP&L, at its own expense, a preliminary progress report of the rate - structure evaluation when such evaluation is estimated by E.E.S. to be half -completed. CITY and LP&L shall study such report and then recommend in writing within a reasonable time whether or not such evaluation shall be terminated or shall be completed. In the event such evaluation shall be terminated, item 7 above shall be prorated on a percentage basis in an amount not to exceed fifty percent (50%) of each cost charged. In the event such evaluation shall be ordered to be completed, then E.E.S. shall prepare and provide to LP&L, at its own expense, a final report on such evaluation of such demand rate structures studied by E.E.S.. Such final report shall include a detailed analysis explaining the computation of each rate structure; 9. This Agreement shall not be assignable by E.E.S. without the written consent of CITY, which consent shall not be unreasonably withheld; 10. E.E.S. shall furnish CITY a statement of amount due for services and expenses pursuant to the terms of this Agreement after such evaluation is either terminated by CITY or completed, or at the option of E.E.S., by monthly statements, and CITY shall promptly pay such amount within a reasonable time; 11. If either party hereto shall fail to perform any of the covenants or obligations imposed upon it under and by virtue of this Agreement, the other party hereto may at its option terminate this Agreement by proceeding as follows; The party not in default shall cause a written notice to be served on the party in default, stating specifically the cause for terminating this Agreement and declaring it to be the intention of the party giving the notice to terminate the same; whereupon the party in default shall have thirty (30) days after the service of the aforesaid notice in which to remedy or remove the cause or causes stated in the notice for terminating the Agreement, and if, within said period of thirty (30) days, the party in default does so remedy or remove said cause or causes and fully indemnifies the party not in default for any and all consequences of such breach, then such notice shall be withdrawn and this Agreement shall continue in full force and effect. In case the party in default does not so remedy or remove the cause or causes, or does not indemnify the party giving the notice for any and all consequences of such breach within said thirty -day period, this Agreement, at the • I option of the party giving the notice, shall become null and void. Any cancellation.of this Agreement pursuant to the provisions of this Paragraph 11 shall be without waiver or prejudice of any remedy to which the party not in default may be entitled for breach of this Agreement; 12. No waiver of any breach of any covenant or provision of this Agreement shall be construed to be a waiver of any other or subsequent breach of the same or of any other covenant or provision; 13. All notices, correspondence, and reports to be rendered pursuant to this Agreement shall be addressed to the appropriate party as follows: Lubbock Power & Light Company Attn: Carroll McDonald 916 Texas Avenue P.O. Box 2000 Lubbock, Texas 79457 Economic and Engineering Services, Inc. Attn: Gary S. Saleba 12301 N.E. loth P1., Suite 250 P.Q. Box 4046 Bellevue, Washington 98009 All notices to be given by either party to the other party pursuant to any of the terms of this Agreement shall be forwarded by registered or certified mail, return receipt requested, and shall be deemed to have been given upon the date of the mailing thereof as shown on the post office receipt. Either party may, at any time, direct in writing that particular notices or types of notices be delivered to specific designees other than those named herein; 14. This Agreement constitutes the entire Agreement for evaluation of the demand rates as outlined herein. No modification of this Agreement shall be of any force or effect unless in writing and signed by both parties. IN WITNESS WHEREOF, this 16 th day of ATTEST: the parties have executed this Agreement December Evelyn Gaffgd, City r tart' -Treasurer APP VED AS TO'CONTEN Carroll McDonald - Director, Electric Utilities APPROVED AS TO FORM: es--q- C pA at� Ken Johns n, Asst. City Attorney AT `1 ary S. S eba, Vice President, General Management & Financial Planning 1 /C-1 a.,z 1982. ECONOMIC AND ENGINEERING SERV INC. BY: SIDEN ka4- k/ lo/q z. S 1 E M E Na S -ALLI S U-1535-TF Contract No. '4 Contract Date December 6, 1982 TO City of Lubbock Texas (Purchaser) ADDRESS 916 Texas Ave., Lubbock, Texas 79457 ATTENTION Floyd Nesbitt Siemens -Allis, Inc. (Company) agrees to sell to Purchaser and Purchaser agrees to purchase from Company the product(s) described below. PRODUCTS): Two (2) line-ups of outdoor conventional switchgear each consisting of three (3) FC-500 2000A breakers and cubicles and one (1) auxiliary cubicle with a Siemens -Allis Standard throat for transformer connection per specification ESE-0006-11-101082 as modified by this proposal. Page 1 of- Pages 0 7 SIEMENS-ALLIS PRICE(S): 2 groups of switchgear Contract Contract No. U-1535—TF Date December 6. 1982 TOTAL PRICE: $148,122 TAXES: None included. Any applicable duties or sales, use, excise,' value-added, or similar taxes will be added to the price and invoiced separately (unless acceptable exemption certificate is furnished). PRICE POLICY CLAUSE: The prices quoted are firm through June 30, 1983. If shipment is delayed beyond -June 30, 1983, through no fault of the seller, the price will be increased by 1.5% per month or portion thereof. TERMS OF PAYMENT: Net cash 30 days. Unless otherwise stated, all payments shall be in United States dollars, and a pro rata payment shall become due as each shipment is made. If shipment is delayed by Purchaser, date of notice of readiness for shipment shall be deemed to be date of shipment for payment purposes. On late payments, the contract price shall, without prejudice to Company's right to immediate payment, be increased by 11/2% per month on the unpaid balance, but not to exceed the maximum permitted by law. If at any time in Company's judgment Purchaser may be or may become unable or unwilling to meet the terms specified, Company may require satisfactory assurances or full or partial payment as a condition to commencing or continuing manufac- ture or making shipment; and may, if shipment has been made, recover the product(s) from the carrier, pending receipt of such assurances. SHIPPING DATE: Equipment will be ready for shipment 28 weeks after receipt of an order and release at the factory,allowing three weeks for transmittal and review of approval material. DELIVERY TERMS: F.O.B. Lubbock, Texas, freight included. This offer will remain in effect for —30— days, unless changed in the interim upon written notice from Company. Documents and related correspondence shall be serit to the Siemens -Allis office at: Field services furnished by Company employees, whenever specified, are governed by the provisions of Company form 5990. This document and any other documents specifically referred to as being a part hereof, constitute the entire contract on the subject matter, and it shall not be modified except in writing signed by both parties. THIS CONTRACT INCLUDES THE GENERAL PROVISIONS ON THE REVERSE SIDE. Page of Pages General Provisions 1. WARRANTY— Company warrants title to -the product(s) and, except as noted below with respect to items not of Company's manufacture, also warrants the product(s) on date of shipment to Purchaser, to be of the kind and quality described herein, merchantable, and free of defects in workmanship and material. THIS WARRANTY IS EXPRESSLY IN LIEU OF ALL OTHER WAR- RANTIES, INCLUDING BUT NOT LIMITED TO IMPLIED WARRAN- TIES OF MERCHANTABILITY AND FITNESS, AND CONSTITUTES THE ONLY WARRANTY OF COMPANY WITH RESPECT TO THE PRODUCT(S). If within one year from date of initial operation, but not more than eighteen months from date of shipment by Company of any item of product(s), Purchaser discovers that such item was not as warranted above and promptly notifies Company in writ- ing thereof, Company shall remedy such nonconformance by, at Company's option, adjustment or repair or replacement of the item and any affected part of the product(s). Purchaser shall assume all responsibility and expense for removal, reinstal- lation, and freight in connection with the foregoing remedies. The same obligations and conditions shall extend to replace- ment parts furnished by Company hereunder. Company shall have the right of disposal of parts replaced by it. ANY SEPARATELY LISTED ITEM OF THE PRODUCT(S) WHICH IS NOT MANUFACTURED BY COMPANY IS NOT WARRANTED BY COMPANY, and shall be covered only by the express war- ranty, if any, of the manufacturer thereof. THIS STATES PURCHASER'S EXCLUSIVE REMEDY AGAINST COMPANY AND ITS SUPPLIERS RELATING TO THE PROD- UCT(S), WHETHER IN CONTRACT OR IN TORT OR UNDER ANY OTHER LEGAL THEORY, AND WHETHER ARISING OUT OF WARRANTIES, REPRESENTATIONS, INSTRUCTIONS, INSTAL- LATIONS OR DEFECTS FROM ANY CAUSE. Company and its suppliers shall have no obligation as to any product which has been improperly stored or handled, or which has not been operated or maintained according to instructions in Company or supplier furnished manuals. 2. PATENTS — Company shall pay costs and damages finally awarded in any suit against Purchaser or its vendees to the extent based upon a finding that the design or construction of the product(s) as furnished infringes a United States patent (except infringement occurring as a result of incorporating a design or modification at Purchaser's request) provided that Purchaser promptly notifies Company of any charge of such infringement, and Company is given the right at its expense to settle such charge and to defend or control the defense of any suit based upon such charge. THIS PARAGRAPH SETS FORTH COMPANY'S EXCLUSIVE LIABILITY WITH RESPECT TO PATENTS. 3. PURCHASER DATA —Timely performance by Company is con- tingent upon Purchaser's supplying to Company, when needed, all required technical information, including drawing approval, and all required commercial documentation. 4. NUCLEAR — Purchaser represents and warrants that the prod- ucts) covered by this contract shall not be used in or in con- nection with a nuclear facility or application. S. NONCANCELLATION —Purchaser may not cancel or terminate for convenience, or direct suspension of manufacture, except on mutually acceptable terms. 6. DELAYS —If Company suffers delay in performance due to any cause beyond its control, including but not limited to act of God, war, act or failure to act of government, act or omission of Purchaser, fire, flood, strike or labor trouble, sabotage, or delay in obtaining from others suitable services, materials, components, equipment or transportation, the time of performance shall be PURCHASER'S ACCEPTANCE The foregoing is hereby accepted. (Name of Purchaser) By Title extended a period of time equal to the period of the delay and its consequences. Company will give to Purchaser notice in writing within a reasonable time after Company becomes aware of any such delay. 7. STORAGE —Any item of the product(s) on which manufacture or shipment is delayed by causes within Purchaser's control, or by causes which affect Purchaser's ability to receive the prod- uct(s), may be placed in storage by Company for Purchaser's account and risk. 8. SHIPMENT —The term "shipment" means delivery to the initia,;:' carrier in accordance with the delivery terms of this order. The shipping date is based upon conditions at the factory on the date hereof, and is subject to revision to meet conditions on date of Purchaser's acceptance. Company may make partial shipments. Company shall select method of transportation and _ route, unless terms are f.o.b. point of shipment and Purchaser specifies the method and route and is to pay the freight costs in addition to the price. When terms are f.o.b. destination or freight allowed to destination, "destination" means common carrier delivery point (within the continental United States, ex- cluding Alaska) nearest the destination. For movement outside the United States, Company shall arrange for inland carriage to port of exit and shall cooperate with Purchaser's agents in mak- ing necessary arrangements for overseas carriage and preparing necessary documents. 9. SPECIAL SHIPPING DEVICES —On shipments to a destination in the continental United States or Canada, Company has the right to add to the invoice, as a separate item, the value of a'ny special shipping device (oil barrel; reel, tarpaulin, cradle, crib and the like) used to contain or protect the product(s) in- voiced, while in transit. Except as to oil barrels, full credit will be given on the return to Company of the device in a reusable condition, f.o.b. destination, freight prepaid. As to oil barrels, arrangement for return and credit must be made by Purchaser with the refiner. 10. TITLE AND INSURANCE —Title to the product(s) and risk of loss or damage shall pass to Purchaser at the f.o.b. point, ex- cept that a security interest in the product(s) and proceeds and any replacement shall remain in Company, regardless of mode of attachment to realty or other property, until the full price has been paid in cash. Purchaser agrees to do all acts necessary to perfect and maintain said security interest, and to prof _ ' Company's interest by adequately insuring"the product(s) again - loss or damage from any external cause with Company named as insured or co-insured. 11. GENERAL —NEITHER COMPANY NOR ITS SUPPLIERS SHALL BE LIABLE, WHETHER IN CONTRACT OR IN TORT OR UNDER ANY OTHER LEGAL THEORY, FOR LOSS OF USE, REVENUE OR PROFIT, OR FOR COST OF CAPITAL OR OF SUBSTITUTE USE OR PERFORMANCE, OR FOR INCIDENTAL, INDIRECT, SPECIAL OR CONSEQUENTIAL DAMAGES, OR FOR ANY OTHER LOSS OR COST OF SIMILAR TYPE, OR FOR CLAIMS BY PURCHASER FOR DAMAGES OF PURCHASER'S CUSTOMERS. Likewise, Com- pany shall not, under any circumstances, be liable for the fault, negligence, or wrongful acts of Purchaser or Purchaser's em- ployees, or Purchaser's other contractors or suppliers. Company will comply with all laws applicable to Company. Compliance with OSHA or similar federal, state or local laws during any operation or use of the product(s) is the sole re- sponsibility of Purchaser. The laws of the State of Delaware shall govern the validity, interpretation and enforcement of any contract of which these provisions are a part. Assignment may be made only with written consent of both parties. TC-3 SIEMENS-ALLIS, INC. By Date Paae of Paees SIEM ENS-ALLIS CONTRACT Contract No. U-1535-TF/PT TESTS & INSPECTION Date December 6, 1982 ITEM DESCRIPTION PRICE 1. Standard Production Tests No Charge 2. Customer Inspection No Charge 3. Witness Tests S2440 Plus $1300, Day 4. Special Tests Consult Factory 5. Certified Test Reports 1230 First 5 Co ices Additional Copies S15.00 Each 1. STANDARD PRODUCTION TESTS All commercial type products are given the standard tests and inspection as described below as part of the regular manufacturing procedure. A. METAL -CLAD HOUSING 1. All units are checked for levelness, plumb and correct door alignment on a steel bedplate. 2. A master breaker fixture is used to insure interchangeability of breakers and to check primary and secondary contact alignment. 3. The wiring of all current operated relays, instruments, and meters is checked by means of circulating current through the secondary of all transformers and associated wiring. The wiring of voltage operated devices is checked in a similar manner by energizing the secondary potential and control power circuits. Proper operation of relays and targets is verified (not calibrated) by increasing current and voltage beyond pick-up values. Wiring not varifieable in this manner is checked for continuity. 4. Simulated operational check of control circuit involving breaker operation using test tables and breaker operation simulator. 5. Sequence operation tests are performed as required. 6. High potential test of primary circuits and secondary wiring in accordance with ANSI Standards are made. B. POWER CIRCUIT BREAKER Each circuit breaker is placed in a master assembly and inspection fixture. To assure conformance with engineering specifications, the following items are checked: 1. Breaker mechanism and mechanical clearances. 2. Correct alignment of primary and secondary disconnecting devices including contact pressure. 3. Contact wipe and deflection. 4. Torque at all movable contact hinges. 5. Puffer efficiency. 6. All electrical circuits. 7. Interchangeability of like breaker ratings, including interlock checks. 8. Auto spring de-energization on breaker withdrawal from unit. 9. No-load breaker operation at minimum and maximum control voltage ratings to assure proper coil selection as well as disclose any binding of mechanical parts. 10. Check of breaker opening and closing times at standard control voltage rating. 11. High potential tests are made of the primary and secondary circuits in accordance with ANSI standards. 12. Millvolt measurement of each breaker pole resistance is checked and recorded. 2. CUSTOMER INSPECTION (When required, must be specified on the order) A. Customer's inspector and S•A contract administrator check the number of units and arrangement with the equipment specifications and contract requirements. B. Customer's inspector can check all material, including devices, relays, accessory material and circuit breakers for quality, and workmanship. C. Customer's inspector can check shipping groups and plans for shipment. D. Customer's inspector witnesses no production tests but can obtain certified test reports (See additional charge for reports in Table.) 3. WITNESS TESTS My Inspector) OF TYPICAL STANDARD TESTS (When required, must be specified on order. See charges listed above.) A. Customer inspection (as outline in 2, above.) B. In addition, inspector can request tests on several breakers in the circuit breaker test area. No load operation of breakers by manual control and checks and operation of all breaker control circuits at maximum, normal and minimum voltages can be witnessed. C. Power checks of all relays, instruments, meters and devices in some, or all, cubicles can be witnessed. Breaker simulator operation in conjunction with relays, etc., can also be witnessed. D. Inspection can witness both primary and secondary high potential dielectric tests. 4. SPECIAL TESTS: For tests and requirements, other than those tabulated above, consult factory. NOTE: To maintain shipment schedule date, customer will be notified approximately one week prior to anticipated inspection or witness test date. Page of Piges S i E M E N S- A LLI S v-1535-TF/PT _ SWI'TCHGEAA Contract Oise nP^Fmher G. 1982 DRAWINGS APPROVAL REQUIRED In approximately 8 weeks after receipt of order and complete engineering information, Siemens -A is will prepare the following drawings and submit them for Purchaser's approval: General Arrangement Three Line Diagram Schematic Diagram Panel Arrangement Panel Arrangement Bill of Material Nameplate Engraving List Work will not proceed until approved copies of these drawings are received at the factory. Any changes indicated on these drawings will be incorporated intb them, and they will be reissued as woricing drawings to our shop and as Certified Drawings to the Purchaser, unless Purchaser has indicated he wishes them reissued for further approval. Any change made by the Purchaser on either the Approval or Certified drawings which increases, or decreases, the amount of equipment to be supplied, will occasion a corresponding change in the contract price. The Master Wiring Diagram, Unit Wiring Diagrams, Circuit Breaker Control Schematic drawings, Installation Instruction drawings and Accessories drawing are issued only as Certified Drawings. No drawing approval is required on these drawings. After final drawing approval is received, the Certified Drawings are normally issued within 8 weeks. A firm shipping schedule will be established on the contract at the time working drawings are submitted to our production facilities. This will be based upon our production facility loading existing at that time. Any changes made by the Purchaser on the Certified Drawings after that time will occasion a review and possible change in the established shipping schedule, as well as a corresponding change in.the contract price. { NOTE: If Purchaser wishes to approve wiring diagrams, they can be supplied for that purpose approximately 8 weeks after receipt of approval of the six drawings listed in Paragraph one above. This will add 8 weeks plus wiring diagram approval time to the minimum shi-r in1- cycle since :ianufacturinc proceeds only on 18 MC 012 receipt eeipt of approval of all drn in:s Purchaser wishes ato approve. SIEMENS-ALL1S PROPOSAL NO. U-1535-TF Field Service Contract DATE December 6, 1982 PAGE. To City of Lubbock Texas (Hereinafter called the Purchaser) Address 916 Texas Ave., Lubbock, Texas 79457 Attention Floyd *Nesbitt Purchaser's Reference Job Site Lubbock. Texas To Begin Equipment Description 15kV switch -gear Siemens -Allis, Inca (hereinafter called the Company) proposes to provide Purchaser those services in connection with the cquipment described above as are specified in The Description of Work subject to the General Provisions for Field Service, Form 20161 attached and subject to the following price schedule. The per diem straight time work rate is $ 585.00 per day in 1983 & includes all local travel, living and miscellaneous expenses. Overtime work will be in addition to the per diem rate. Travel time to and from the jobsite to the service representatives headquarters will be billed at the straight time rate. Travelling expenses to the jobsite and return are additional and will be separately billed. d This Proposal will remain in effect for —30— days after the date shown above. Acceptance should be evidenced by return within the foregoing time limit of one copy of this Proposal signed by the Purchaser's authorized representative in the lace set forth below, or a letter or a Purchase �Z P P � Y Mc Order confirming the date such service is to be performed. It will become a contract at that time. 2 i Except for specification of the time of service, any terms and conditions of such Purchase Order in o it addition to or at variance with this Proposal shall be of no effect unless separately agreed to in writing "a by the Company. ACCEPTED: SIEMENS-ALLIS, INC. By Patrick J. Terry (Name of Purchaser) By Title Application Engineer Title Date SIEMENS-ALLIS GENERAL PROVISIONS FOR FIELD SERVICE :,) FORM 20161-1 AFIELD SERVICE REPRESENTATIVE If the services of two or more Field Service Representatives are to be furnished, the term •Representative" or any corresponding pronoun used herein shall be deemed to refer to each such Field Service Representative. B. SCOPE OF REPRESENTATIVE'S SERVICES 1. Unless indicated otherwise in Paragraph 0, Exceptions, the representative shall act only in an advisory capacity. He will interpret the Company's drawings, advise the Purchaser re- garding the sequence of steps in erection, installation, inspec- tion, start-up, dismantling, or repairs, as the case may be, and explain features and components of the Company's pro- ducts and their functions. If Paragraph 0, Exceptions, Indi- cates that the Representative will act In another ca achy he will do so in accordance with normal standards of the In�us- try for that type of work. 2. The Representative shall not be required to superintend or supervise personnel supplied by the Purchaser or train them in their respective crafts in connection with the performance of their work. 3. Neither the Company nor the Representative shall be respon- sible for any acts, omissions or workmanship of employes, contractors, subcontractors, or agents of the Purchaser or for their failure to follow the advice or instructions of the Repre- sentative, or for performing any work or giving any advice in respect to equipment manufactured or services sold to the Purchaser by others. 4. The Company's Field Service Representatives are not author- ized or licensed to operate equipment and all such responsi- bility Is the Purchaser's. 6. The Company's Field Service Representatives shall comply with the Purchaser's rules for visitors pertaining to safety, plant protection and the operation and parking of vehicles. C. PURCHASER'S RESPONSIBILITIES 1. Labor, Material, Tools and Equipment Unless otherwise specified in Paragraph 0, Excepticas, the Purchaser shall furnish at his own expense and responsibility all cranes, rigging, tools, facilities and equipment, material and repair or replacement parts, together with sufficientskilled and common labor and foremen, supervisors and interpreters for the efficient performance of the work, and all fuel, lubri- cating oil, water, electric power, and other supplies and utili- ties that may be required In connection with the work. 2. Purchaser's Representative • The Purchaser shall designate a person in his organization fluent In the English language to represent him fully at the site In all contacts and dealings with the Representative. The Pur- chaser's representative shall be responsible for coordinating the work, and shall be in charge of the labor, material, su v piles, tools and facilities to be furnished by the Purchaser. The Purchaser's representative shall inspect and shall accept all i details of the work as they are completed. Except in instances where the Company has such right under the terms of the warranty covering the product involved, de- b dsions with respect to repair or replacement of the Purchaser's o ? equipment or parts thereof shall remain solely with the o 1 Purchaser. o t 3. Safety LL J The Purchaser shall furnish the Representative a safe and healthful place to work, including first aid, washup, and toilet facilities at the site. If, in the opinion of the Company, the Pur- chaser fails to comply with the foregoing, or If to the Com- jany 's opinion, the employe's health or safety is or would be eopardized during the period of the assignment, the Compa- ny may order its personnel to return to their headquarters under the same provisions as set forth in paragraph D4b(4). D. CHARGES Invoices from the Company for the time and expense of each Field Service Representative and for tool rental and purchased material and services will be based on the conditions set forth below. 1. General a. If the price for performing field service is fixed, such price shall apply only to the work called for at the inception of this contract, and shall be performed on a straight time basis only unless otherwise agreed in writing. If the Purchaser requests changes in the scope of the work or an increase in the schedule of hours to be worked, additional charges shall be made pursuant to Paragraphs D lb through D.6. b. If the Contract is not on a fixed price basis, the Purchaser shall pay the Company for the straight time, overtime, standby and travel time as defined herein. Rates shall be those In effect at the time the work to performed and nor - malty applicable to this type of work. 2. Definitions of Time a. Straight Time Straight time is defined as time worked on a regular sched- ule of 8 hours between 7:00 am. and 6:00 p.m., Monday through Friday, or for time worked on any other agreed upon schedule of 8 hours per day, Monday through Fri. day. Each hour of straight time shall be paid for at the straight time rate. b. Overtime Overtime is defined as time worked in excess of or at times other than the regular straight time schedule. Each hour of overtime shall be paid for at one and one-half times the straight time rate; except that all hours worked on Sundays and holidays shall be paid for at twice the straight time rate. Hours worked In excess of 16 on any day until the Representative is released and off duty for a period of 6 hours or more before resuming work shall also be paid for at twice the straight time rate. In no case shall such an extended work period be scheduled beyond two successive calendar days. A "holiday" Is any day observed by the Purchaser as a holiday in the place where the work to being performed. c. Stand-by Time Stand-by time Is defined as time, up to 8 hours per day, Monday through Friday, during which the Representative, during the course of his assignment, Is available for work but to not working because of circumstances beyond the Company's control. Each hour of stand-by time shall be paid for at the straight time rate. d. Travel Time Travel time is defined as time spent by the Representative up to 8 hours per calendar day In traveling from his head- quarters to the job site and In returning, including travel occurring on Saturdays, Sundays and holidays. Each hour of Travel time shall be paid for at the straight time rate. Au- tomobile travel time occurring outside of regular hours and required because of an emergency situation will be charged for at the applicable overtime rate. A reasonable period of rest (up to a calendar day) shall be allowed upon completion of the Representative's travel to job site outside the North American continent when total continuous travel time en route to the job site is twelve hours or more. Up to 8 hours of rest time may be billed at the straight time rate. Delays encountered by the Representative in obtaining re- turn travel accommodations shall be treated as stand-by time. Time worked, time traveled and stand-by time occurring on the same day will be charged at the rates and within the limitations aforesaid. 3. Minimum Charge The minimum charge for each service call shall be four hours unless actual time worked and traveled exceeds four but is less than eight hours in which case the minimum charge shall be eight hours at the current rates plus, in all events, travel and living expenses. 4. Expenses All travel, living, Incidental and other expenses incurred by the Company In the complete performance of the assignment, GENERAL PROVISIONS (cont'd) including Company handling charges, shall be charged to d. Additional Expenses for Work Outside U.S.A.' the Purchaser. (1) Expenses In connection with preparation of the Repre- a. Travel Expenses sentative for departure (passport, visas, inoculations, If the Representative uses his personal automobile for etc.), will be charged at cost The Purchaser shall also ,• transportation to the job site and return or for daily work pay for and assist the Representative in obtaining Pass - transportation, travel expenses shall be calculated at the port and Visa renewals, booster immunization and any Company's rate per mile current at the time of such use, required by local regulations. ,Time required For plus road tolls. for these preparations and renewals will be invoiced on If the Representative does not use his personal automobile, a straight time basis. travel expense shall be the actual cost of air or rail trans- (2) All local income or other taxes, assessments, import portation and Iocal bus, taxi and automobile rental coats. and/or export duties, or charges which the Representa- (Air or rail transportation will ordinarily be in coach, tive or the Company Is required to pay with respect to tourist or economy class accommodations. First class ac- the service performed by the Representative, or the in- commodations will be used only under special circum- come derived therefrom will be for the Purchaser's ac- stances such as the unavailability or unsuitability of leaser count, and all payments for services of the Representa- accommodations.) tive will be made to the Company free and clear of any In case the Representative should start from or return to a deductions for any such taxes, assessments or charges. point other than his headquarters, charges for travel ex- (3) If the work site is in a remote or isolated area or if local penses and living expenses en route shall not exceed wliat recreational or shopping facilities are not adequate, the would normally be Incurred from or to his headquarters. Purchaser shall provide means so the Representative b. Living and Incidental Expenses may visit nearby cities during weekends when no work Is performed and the cost of traveling and living ex -- The Purchaser shall reimburse the Company for the Repre- sentative's lodging, meals and other expenses incidental to penses incurred shall be for the Purchaser's account the job such as telephone, postage, freight charges, etc., (4) If the services of the Representative are required for a while the Representative Is at the job site, and while travel- period longer than six months, additional items of ex- ing to the job site and return. penbe will be for the Purchaser's account such as travel If the job site is outside the U.S.A ,every reasonable effort expense of the (Representative's immediate family, fam- ily living arc mmodations, vacation and rotation of shall be made to provide living conditions equivalent to e personnel. p United States standards. (1) Where adequate and acceptable commercial living and eating accommodations are available to the Representa- 5. Purchased Services and Materials tive, the Purchaser shall reimburse the Company for the cost of such expenses. If at the request of the Purchaser, the Company furnishes labor, materials, etc., from outside contractors or obtains (2) Where such commercial accommodations are not avail- services from machine or electrical shops, the charge to the able, or when it is agreed in advance, the Purchaser Purchaser shall consist of the costs to the Company for such shall provide the Representative with acceptable living labor, equipment, and service plus the Company's then cur - quarters, food, domestic help, etc. Such accommoda- rent normal handling charge for such items. tions shall be first class In every respect Including air conditioning, appliances, and household equipment The Purchaser shall also provide the Representative 6. Tools, Instruments and Equipment with adequate and suitable local transportation such as a. Transportation and Related Charges a vehicle with driver to meet the job site requirements The Purchaser shall pay for round-trip transportation or as well as the Representative's requirements for shop- The excess baggage charges for tools and equipment furnished ping and reasonable recreational activity. type of by the Company or the Representative. If applicable, the transportation provided shall be the equivalent of that Purchaser shall assist the Company in arranging entry and provided to other suppliers at the job site or to the Pur- exit permits for such tools and equipment Any import duty chaser's supervisory personnel. Such transportation levied shall be for the Purchaser's account shall be available for the Representative's use when he requests it. The Purchaser may elect to provide a rented b. Tool Rental or owned vehicle for the Representative to operate when If at the request of the Purchaser the Company furnishes he has been licensed by the local authorities to do so. tools or equipment, a charge will be made at the Compa- In such cases the Purchaser shall be solely responsible for, and hold Company and its Representativeharmless ny's current regular rates therefor plus round-trip trans - portation. Such tools and equipment will be furnished sub - from any claims, costs or actions resulting from the Representative's use of the vehicle including loss of or ject to the provisions of Form 9476. Conditions of Tool Rental and Shipping Manifest damage to the vehicle through accident or other causes. 3 The Purchaser may provide the Representative with ( ) Y P P local for which c. Company and Personal Tools Tools and equipment furnished by the Company or the currency pa ment of any expenses other- w[se would be payable to the Company provided agree Representative shall remain the property of the Company All ment to such method of payment is given by the Com- or the Representative at all times. such tools and equip- meet shall be for the exclusive use of the Representative. If pany's main office or designated representative in advance. such tools and equipment are not returned to the Company, the Purchaser shall reimburse the Company for their full (4) If, in the opinion of the Company, the Purchaser fails to replacement value. furnish acceptable accommodations and they are not d. Purchased Tools and Equipment available commercially, the Company may order the If under the terms of the Contract the Company Is to pro - Representative to return to his U.S. headquarters at the vide tools, test Instruments, vehicles or household equip - Purchaser's expense and the Company shall not be ob- ment, they will be procured and shipped by the Company. ligated to have him or his replacement return to the work site until given satisfactory assurance of compll- ance by the Purchaser of its obligations. All costs and Unless otherwise agreed and specified, the purchase price, packing and shipping expense, insurance, import licenses expenses for the return to the job for the Representative and duties, taxes and other expenses involved and pertaln- or his replacement shall be for the account of the ing to this equipment plus 15 , handling charge will be for Purchaser. the account of the Purchaser. Title, liability and mainten- ance responsibility passes to the Purchaser upon delivery but right of exclusive use by the Representative is reserved c- Communications by the Company until the work is completed. The Purchaser shall make its telex and telephone systems available to the Representative or will pay for and assist In e. Storage Facilities The Purchaser shall provide suitable locked storage facili- obtaining such communication services from local com- ties for the exclusive use of the Representative for the stor- mercial companies. The Purchaser shall also make arrange- age of personal or Company property such as drawings, ments for reliable mail service for the Representative. tools, instruments and other special equipment GENERAL PROVISIONS (cont'd) E. INVOICING AND PAYMENT H. SERVICE PARTS AND FACTORY REPAIRS 1. Invoicing During the performance of the service assignment the Company The Company will submit monthly invoices on a net cash may at the request of the Purchaser furnish service parts or ma - basis covering the time and expenses of the Representative, terials or_perform. repair work on the equipment or its compon- and a final Invoice upon completion of his work. Separate or ents at a Company manufacturing or repair facility. In such cases combination Invoices for purchased material, repair parts, the Company will separately Invoice the Purchaser at its current labor, engineering, services, tool rental, or other Items fur- regular Prices and under the Company's current terms and con- nished by the Company will be issued on the same basis. ditions applicable to such parts, material or repair work. .2. Payment L LABOR PERMITS, TAXES, CERTIFICATIONS All payments shall be made by the Purchaser in U.S. Dollars 1. The Purchaser shall, at his own expense, secure any work upon receipt of invoice. Invoices not paid within 30 days from permit, labor permit, tax exemption certificate, or any other the date of issuance shall be subject to a mark-up of 1% of the authorization which may be required to permit the Represent - invoice amount for each month they remain unpaid but not ative to perform the requested services. If special certification, to exceed the maximum permitted by law. pre -qualification or other examinations are obtained at the If the work Is performed for a customer outside the U.S.A., Purchaser's request, the cost incurred shall also be for the payment shall be as follows: Purchaser's account. Any loss of the Representative's services pending the procurement of any such permit, authorization, a. Prior to the departure of the Representative from the U.S.A., ceWfication or examination shall be for the Purchaser's ac- the Purchaser shall establish an Irrevocable letter of credit count and shall be paid for by the Purchaser as stand-by time confirmed by an acceptable U.S. Bank in favor of and In as defined and specified herein. a form satisfactory to the Company, for sufficient duration as estimated to carry out the work and in an amount equal 2. The prices quoted for services do not include any sales, privi- to an estimate of the anticipated total U.S. dollar payments lege, use, turnover, excise or other similar tax. The amount to be made to the Company. of any such tax which the Company shall be required to pay bbecause of the furnishing of services shall be reimbursed to . The letter of credit shall provide for payments therefrom to the Company against Its Invoices which may be re- the Company by the Purchaser upon presentation of invoice P Y g Y P therefor. sented monthly. c. The Purchaser shall, upon request by the Company, extend J. WARRANTY the validity of and Increase the amount of the letter of credit Company warrants that the field services performed by It will be as may be ne_esaary to effect payment to the Company of all amounts due and payable to the Company pursuant competent and that any recommendations of Its Representative hereto. If Purchaser falls to effect such Increase or extension, shall reflect his best judgment. Company also warrants that any Company may order its personnel to return to U.S.A. head- specialized tools equipment, and Instruments for the use of which quarters at Purchaser's expense, and Company shall not a charge Is mane to the Purchaser by Company shall be In oper- be obligated to return them or their replacements until a able condition. suitable extension or increase is given. The return travel THE FOREGOING WARRANTY IS EXCLUSIVE AND IN and living expense will be for the account of the Purchaser. LIEU OF ALL OTHER WARRANTIES. S. Verification of Time and Expense If prompt written notice of a breach of the foregoing warranty The Representative, If requested by the Purchaser, will present is given to the Company within one (1) year from the date of a copy of his regular time and expense reports. The Purchaser, completion of the work, Company agrees to remedy such breach signing hen eest�,eshall indicate his approval of such reports by j yystf Instruments to the same field ices ors specialized n the o dgrowls,eequipment and lid B m F. DELAYS, SUSPENSION, DEFERMENT Company assumes no responsibility with respect to the suitability of the Purchaser's equtihpment or with respect to any latent defects in the same, nor dwarrant the success 1. If the work is suspended or delayed due to no fault of the or rehabilitative ork performepd on such equipment. of repair Company, such as, but not limited to, act of God, war, act of government, act of Purchaser, priorities or allocations, fire, K INSURANCE AND LIABILITY flood, strike, or sabotage, the time of performance, If any such is specified, shall be extended for a period of time equal to the 1. The Company will carry Workmen's Compensation insur- period of the delay and its consequences. If the work is sus- ance to cover its Representative and will require similar cov- pended because of such a delay, the Company may tempor- erage from its subcontractors while on the assignment for the arlly withdraw the Representative and/or its contractors Purchaser and will maintain public liability and property personnel and return them to the job when needed and avail- damage insurance In reasonable amounts to cover the liability able. Rates current at the time the work is resumed and any arising from their activities. The Company shall be liable for additional costa (including travel time and expense) Incurred loss or damag e to equipment or property of the Purchaser by the Company because of the foregoing will be charged to only If caused by the Company's negligence and only If and the Purchaser. to the extent such damage or loss is not covered by the Pur- l. If for any reason the Purchaser defers start of the work, the chaser's Insurance. The liability of the Company whether In Purchaser will give the Company written notice immediately. contract, In tort, including negligence, or otherwise, shall ex - It is understood that the Company may not be able to furnish pire one year after the completion of the work, and shall not, the Representative or its contractor at the precise date the work in any event, exceed the total contract price for field services is rescheduled to start, but it will make every reasonable effort rendered hereunder. to do so. The Company, at its option, shall be relieved of Its obligation to provide service hereunder without further obit- 2. NEITHER COMPANY NOR ITS SUPPLIERS SHALL BE gation if the Purchaser defers start of the work beyond six LIABLE, WHETHER IN CONTRACT OR IN TORT, (IN - months of the starting date originally specified, or if the work CLUDING NEGLIGENCE), OR UNDER ANY OTHER Is suspended for more than six months or, if In the Company's LEGAL THEORY, FOR- LOSS OF USE, REVENUE OR opinion, conditions In the job site area constitute a hazard to PROFIT, OR FOR COST OF CAPITAL OR OF SUBSTI- the Representative's health or safety. TUTE USE OR PERFORMANCE, OR FOR INCIDENTAL, INDIRECT, SPECIAL OR CONSEQUENTIAL DAMAGES, G. ENGINEERING INFORMATION OR FOR ANY OTHER LOSS OR COST OF SIMILAR TYPE, OR FOR CLAIMS BY PURCHASER FOR DAM - While the Company will provide advisory assistance to its Field AGES OF PURCHASER'S CUSTOMERS. Service Representative relating to routine engineering problems Likewise, Company shall not, under any circumstances, be encountered In connection with the performance of this field services such as serv- gable for the fault, negligence or wrongful acts of Purchaser Purchaser at its regular rates for engineering se ice assignment, the Company reserves the right charge the or Purchaser's employes or Purchaser's other Contractors or layout, design, drawings, engineering analysis, engineering re- Suppliers. ports and visits to the job site or elsewhere by Company engineer- 3. The Purchaser shall indemnify and hold Company, together ing personnel. However, no such engineering services will be with its employes, agents and suppliers of any tier, harmless undertaken without the authorization of the Purchaser. from any loss. liability or claim resulting from a nuclear In- GENERAL PROVISIONS (cont'd) cadent (as said term is defined in Section 11 (q) of the U.S. Atomic Energy Act as emended) occurring at any facility at which the equipment, parts or services sold herein may be used, whether or not such incident is due to anyone's fault or negligence including the fault or negligence of the Company or any other indemnitee. L. SUBSTITUTION OF PERSONNEL The Company's obligation is to furnish services and not specific personnel. The Company reserves the right at any time, and from time to time, to recall and substitute any of its personnel. M. MODIFICATIONS It is recognized that the nature of Held service is such that changes O. EXCEPTIONS In the scope of it as originally contemplated often occur. The Com- pany will undertake additional services within the normal scope of, field service but reserves the right to require the Purchaser to confirm in writing any extension of the services originally ord- ered. The Company shall be entitled, however, to rely upon oral orders, including instructions of the Purchaser's representative at the site. Any additional services performed by the Company pur- suant to such written or oral orders or instructions shall be paid for on the basis set forth herein or as otherwise agreed to in writing between the parties. N. GOVERNING LAW The interpretation of this contract shall be governed by the laws of the State of Delaware, U.S.A * * SIEMENS-ALLIS IS AN EQUAL OPPORTUNITY EMPLOYER * * SIEMENS-ALLIS RECOMMENDED SPARE PARTS LIST Description Contact Kit (All 3-phases, 1 brkr) Main Cont. RH Moving 2000A Main Cont.-LH Moving 2000A Barrier Stack Nozzle --Puffer Prim. Cont. Fing. Assy. 2000A Y Relay 125 Vdc Close Sprg. Rel. Sol. 125Vdc Trip Solenoid 125 Vdc Gear Motor 120 VAC/DC 5-20-1 Motor Cutoff Switch Close Latch Check Sw (DC -Motor) Mtg Brkt for Latch Ck Sw AC/DC Auxiliary Switch Lubrication Kit Brush Assy. Gear Motor Drawing Number Qty Net Each 18-655-008-01-807 2 $2,485.00 71-208-255-00-503 3 310.00 71-208-255-00-504 3 310.00 71-302-838-00-501 3 731.00 71-210-349-00-001 6 15.50 18-723-565-00-502 12 283.50 00-871-797-00-107 2 159.00 15-171-339-00-002 1 125.50 15-171-339-00-008 2 125.00 18-469-223-00-002 2 435.00 18-723-742-00-501 2 164.50 15-171-323-00-002 2 68.00 15-171-367-00-001 1 12.80 71-208-922-00-504 2 419.00 18-656-781-00-598 2 82.50 15-171-450-00-001 4 9.90 The above recommended spare parts are not included in the base price quoted on contract page. SIEMENS-ALLIS COMMENTS & CLARIFICATIONS A. GENERAL CONDITIONS 1. General Comment. Siemens -Allis General -Provisions enclosed shall apply. 2. Re: Item B. In the second sentence delete from "and" to "therefrom" after "thereto" and add "or 18 months from date of shipment whiFhever occurs first" after "operation". B.- TECHNICAL SPECIFICATION #SE-0006-11-101082 1. Re: Item 1.2.1. Switchgear shall be derated for ambients above 40°C in accordance with ANSI standards. 2. Re: Item 1.5.1. The warranty period is 18 months from date of shipment or 1 year from first operation which ever occurs first. Final acceptance shall not affect payment terms stated on contract page. 3. Re: Item 1.6.1. Services of field service representatives are not included in this proposal but are available per forms 20161 and 20361 enclosed. These services are advisory in nature and not supervisory. 4. Re: Item 2. The 15 KVA single phase control power transformer and the three potential transformers will each be trunnion mounted4 ;v with integral current limiting fuses. The throat connection included in this proposal is Siemens -Allis standard, per the attached sketch. 5. Re: Item 2.113. The maximum symmetriinterrupting capability of the proposed type FC-500 breakers is 23) , RMS. 6. Re: Item 2.115. The closing time from time of close coil energization to contact touch is 71 milliseconds. 7. Re: Item 2.34. Siemens -Allis breakers use a fifth wheel for maneuvering outside the cubicle and a racking lever within the cubicle. ` 8. Re: Item 2.351. Painting procedure shall be Siemens -Allis standard. 9. Re: Item 2.364. Copies of the speed graphs are not included in the certified standard production test reports included in this proposal. 10. Re: Item 2.42. Drawings shall be per form 18MC012WD enclosed. If a wiring diagram approval is required, delivery will be extended for customer convenience by 8 weeks. o` h � E� 11. Re: Item 2.44. The instruction books shipped with the switchgear are LL a an abbreviated version and no drawings are shipped with the breakers or cubicles. 12. Re: Item 2.46. A recommended spare parts list is part of each instruction book. S I E M ENS -ALLI S 13. Re: Item 2.47. For each unit the cubicles and the circuit breakers will each ship separately and assembled. Minor items shipped loose, such as meters or relays would be installed by customer. Field service representatives for erection of the switchgear are not included in this proposal but can be provided per forms 20161 and 20361, enclosed. 14. Re: Item 2.51. The instrument and breaker control switches and meters shall be of Siemens -Allis type. C. GENERAL COMMENTS 1. Drawing SD 00101-2-001 sheet 2 of 2. We assume that the 86 contacts and SUPV/T contacts are from remote devices furnished by others. 2. If 1200 ampere type FC-500 feeder circuit breakers and cubicles are desired, in lieu of 2000 ampere included in our base bid a price deduction of $ 4535 net will be -allowed. The main bus and transformer throat will remain 2000 amperes. SI E M E NS-ALLIS d y n � o� N� EC 0.5 d 15 KV METAL -CLAD SWITCHGEAR PROPOSAL FOR CITY OF LUBBOCK, TEXAS INQUIRY #SE-0006-11-101082 SIEMENS-ALLIS SPECIFICATION NO. SP-U-1535-TF/PT DATE: DECDIBER 6, 1982 SIEMENS-ALLIS GENERAL STATEMENT The equipment covered by this specification and quotation will be in accordance with Purchaser's Specification No. SE-0006-11-101082 with the comments and clarifications listed in our quotation. The construction details will be as generally described in Siemens -Allis Catalog Section 301, (18C-5901-02). The general arrangement and single line diagram of the equipment will be as indicated on Siemens -Allis. Sketch No. SR-U-1535-TF/PT. This specification has been prepared for the purpose of describing switchgear equipment which Siemens -Allis proposes to furnish. SIEMENS-ALLIS GENERAL DESCRIPTION OF SWITCHGEAR - UNITS AND RATING GENERAL The equipment outlined in this specification will consist of outdoor conventional (nonwalk-in) Metal -Clad switchgear with horizontal drawout air magnetic circuit breakers. General construction features will be of a coordinated design so that shipping groups are easily connected together in the field into a continuous line-up. Necessary standard connecting materials will be furnished. Shipping groups ordinarily will not exceed 15' in length. CODES AND STANDARDS The Siemens -Allis equipment covered in this specification, except as noted, will be designed, manufactured, and tested in accordance with the latest revisions of the applicable standards of: ANSI - American National Standards Institute ASTM - American Society for Testing and Materials IEEE - Institute of Electrical and Electronic Engineers NEC - National Electric Code NEMA - National Electrical Manufacturers Association OSHA - Occupational Safety and Health Act SERVICE The switchgear sections will be Siemens -Allis type OFO rated 13.8 kV, with a maximum design voltage of 15 kV. This equipment will operate on a service voltage of 13,800 volts, 3 phase, 3 wire, 60 hertz. INSULATION LEVELS The assembled switchgear structures will be designed for the following insulation levels: Standard Insulation Test, 60 hertz 36 kV Standard Full -wave Impulse Test 95 kV DIMENSIONS Approximate dimensions of the switchgear are shown on the sketch included with this specification. The circuit breakers will be removable opposite from the control panel side. An aisle space of 78 inches is recommended to permit withdrawal of the circuit breaker element. o` N � E� if ' SIEMENS-ALLIS Ca_�= CIRCUIT BREAKERS The air magnetic circuit breakers will be: Siemens -Allis Type FC-500 Nominal Voltage Class - kV, RMS 13.8 Nominal 3 Phase MVA Class 500 Rated Maximum Voltage - kV, RMS 15 Rated Continuous Current at 60 Hz - Amp, RMS 2000 Rated Short Circuit Current at Rated Maximum Voltage (Symmetrical - kA, RMS) 18 Rated Interrupting Time in Cycles 5 Maximum Symmetrical Interrupting capability - kA, RMS 23 Short -Time (3 Sec.) Current Carrying Capability - kA, RMS 23 Closing and Latching Capability - kA, RMS Std. 37 The circuit breakers will be three pole, single throw, mechanically and electrically trip free, with position indicator, operation counter, auxiliary switches, primary and secondary disconnecting devices, and a mechanical interlock to prevent making or breaking load current on the primary disconnects. The circuit breakers will be equipped with a stored energy operator. The control voltages will be: Spring Charging Motor: 125 Vdc Spring Release (Close) Coil: 125 Vdc Trip Coil: 125 Vdc The source of control power will be customer supplied 125 Vdc. A 15 KVA control power transformer will be supplied to provide 120 VAC power for space heaters, lights, and convenience outlets. CUBICLE MOUNTED MECHANISM OPERATED (MOC) AUXILIARY SWITCH Extra auxiliary -switches are mounted on the left-hand side of the cubicle. Switches are operated by a notched lug attached directly to the circuit breaker mechanism main crank and are available in 8, 12, and 16 stages. The making point of each stage can be adjusted completely individually in 15-degree steps. The rotor is adjusted by pressing the contact to side and rotating it within its insulated housing until it snaps into desired position. METERS AND RELAYS All instruments, meters and relays are standard switchboard type for mounting on the steel panels. All meters and relays, if provided as SIEMENS-ALLIS standard, are of the drawout type with built-in test devices. One test plug is furnished for testing drawout equipment. Indicating and.recording instruments, meters and relays are of the rectangular type, semiflush mounted. CONTROL AND INSTRUMENT SWITCHES All switches furnished are switchboard type and are of rotary -type construction, with two contacts per stage. Switches for circuit breaker control Siemens -Allis type 210, rated for 20 insulation. CURRENT TRANSFORMERS and instrument transfer will be ampere continuous duty with 600 volts Current transformers used in the switchgear are of Siemens -Allis manufacture, insulated and built to NEMA and ANSI standards. Unless otherwise specified, the mechanical rating of the current transformers in RMS amperes is at least equal to the close and latch rating of the breaker in RMS amperes. The one -second thermal rating in RMS amperes is at least equal to the symmetrical interrupting current rating of the circuit breaker in RMS amperes at circuit voltage. POTENTIAL TRANSFORMERS Potential transformers used in the switchgear are built and tested -in accordance with the latest NEMA and IEEE standards. The transformers are mounted on a separate tilt -out trunnion. The pivoted base is easily rotated 135 degrees to the disconnect position. While pivoting from the connected to the disconnected position, the transformer primary windings and primary current -limiting fuses are automatically and safely grounded to remove any charge from the windings. When the transformers are in disconnect position, the base acts as a barrier between energized parts and the operator. CONTROL POWER TRANSFORMERS Q Control -Power transformers are furnished when specified to supply power for 0i the functions of the switchgear line. They are built and tested in J accordance with the latest IEEE and NEMA standards. They meet these �2 standards with respect to temperature in metal -clad switchgear and are LL a designed with a uniformly low reactance to assure good regulation. Primary fuses are current limiting. SIEM E NS-ALLIS The control power transformer and primary current limiting fuses will be mounted on a tilt -out trunnion, which is interlocked with a main secondary molded case circuit breaker. WIRING Standard secondary and control wiring is NEC type SIS insulated for 600 volts and is no smaller than No. 14 AWG. Wiring between cubicles is carried in an accessible wiring trough. BUS BARS Full rounded -edge copper (silver-plated at connection points) bus bars will be provided. Bus bars are insulated by means of a tight fitting, "Noryl" flame-retardant tubing. GROUND BUS A common ground bus 1/4" X 2" is incorporated in all cubicles to properly ground the equipment after installation. The ground bus extending through the switchgear is accessible in the primary cable area of both ends of the group. INSULATION SYSTEM - 15 kV Bus bars are insulated b means of a tight fitting y g extruded sleeving o "Noryl" phenylene-oxide based resin. The material is flame retardant class 94V-1 per UL94. Insulation is at bus potential. All buses are mechanically braced to withstand repeated shocks and stresses imposed by high currents of a magnitude corresponding to the close and latch rating of the power circuit breakers connect to the bus. Molded polyvinyl boots are used to insulate bus joints of 15 kV switchgear. Molded boot is placed over bus joint and then secured over bolted bus joint with vinyl tape. Preformed insulating materials eliminate the need for molding and taping joints when connecting shipping groups in the field. This method reduces installation time and resultant costs. The same preformed, high dielectric strength joints used in factory assembly are also used in field assembly. Electrical grade porcelain is used exclusively for all 15 kV main bus primary insulation. The low power factor, high dielectric strength, flame y retardancy and resistance to tracking make porcelain an excellent material for these critical applications. o� a T E� o •- .LL a` SIEMENS-ALLIS �1 CIRCUIT•BREAKER INTERCHANGEABILITY The stationary element of the switchgear cubicle and the removable element (circuit breaker) are built so that circuit breakers of the same rating are interchangeable with each other. All removable elements of like rating are checked with one stationary element fixture. Each stationary element is checked with the a removable element jig to insure complete interchangeability between elements of like rating. CIRCUIT BREAKER UNIT The cubicle for housing the removable air magnetic circuit breaker consists of a framework of welded steel - sheet steel enclosure, including a hinged front door, which may be used as an instrument panel - compartment and inter -unit barriers - three-phase insulated bus and connections - bus supports - stationary primary disconnecting devices - stationary secondary disconnecting devices - circuit breaker racking -in device - circuit breaker interlocking device - instruments and relays - control wiring — terminal blocks - instrument transformers - provision for connecting main cable - guide rail on floor of structure - wiring channels and control circuit cut-outs. AUXILIARY CUBICLES Auxiliary cubicles are constructed in the same general manner as the circuit breaker cubicle except that no provision is made for either present or future mounting of a circuit breaker removable element. Auxiliary cubicles are used to house such equipment as potential transformers, control power transformer fuses, control transformers, generator or synchronous motor field control, rectifiers, reactors, batteries, chargers, voltage regulators, etd. Compartments for housing buses, control wiring, potential transformers, etc., are separated by tightly fitted sheet steel barriers. Removable plates allow access to these compartments. The front of the cubicle is enclosed with a hinged steel panel equipped with knurled fasteners. These panels offer a convenient location for mounting instruments, meters and relays when the panels of adjacent units are crowded. BASIC STRUCTURE Each circuit breaker compartment will contain a manually operated drawout mechanism with automatic shutters and safety interlocks, and will also Q include the following: N`- a. Hinged front panel E� b. Primary and secondary disconnecting devices °a C. Control circuit cutout device d. A set of 2000 ampere, copper (silver-plated at connection S I E M E N S -ALLI S points) 3 phase, 3 wire insulated main bus and connections e. Ground -bus of copper. f. Necessary terminal blocks, small wiring and control buses, where required. g. Cable supports, where required. h. Engraved nameplate, as required Each auxiliary compartment will include the following: a. Hinged front panel b. A set of 2000 ampere, copper (silver-plated at connection points) 3 phase; 3 wire insulated main bus and connections C. Ground bus of copper. d. Necessary terminal blocks, small wiring and control buses, where required. e. Cable supports, where required. f. Engraved nameplate, as required g. A Siemens -Allis standard throat for connection to purchaser supplied power transformer. HIGH DURABILITY FINISH Structural steel parts and cubicles are processed through a 5 stage washer. They are degreased and treated with an iron phosphate wash followed by a 0,7 , sealing solution. The iron phosphate treatment effects a chemical conversion of the metallic surface to a non-metallic phosphate coating. Insoluable in water this coating is effective in retarding corrosion and is an excellent undercoating for paint. After cleaning and stabilization, the framework and panels receive a finish coat of copolymer emulsion enamel, which is forced dried. The completely painted switchgear assembly has a 1.5 mil nominal dry thickness. Standard indoor finish is ANSI #61 light gray (Munsell #8.3G 6.10/0.54). OUTDOOR AND SHELTER -CLAD SWITCHGEAR Outdoor surfaces of the switchgear and the aisle walls in addition to the above, receive a finish coat of modified alkyd enamel. The finish coat add a 1 mil nominal dry thickness for a total nominal dry thickness of 2.5 mils. a N Standard outdoor and shelter -clad finishes are ANSI #24 dark gray (Munsell R 4 #10B 2.40/1.18) or ANSI #70 sky gray (Munsell #5.0 BG 7.0/0.4). E� 0a Each group of outdoor switchgear has the underside of the group and the SIEMENS-ALLIS' inside of the sill channels sprayed with a heavy duty coal tar emulsion coating approximately 1132 inch thick. STANDARD PRODUCTION TESTS All products are given the standard tests and inspection as described below as part of the regular manufacturing procedure and are in accordance with ANSI C37.20 paragraph 5.3 for Switchgear Assemblies and ANSI C37.09-1979 paragraph 09.5 for AC high -voltage circuit breakers. Metal -Clad Housin 1. All units are checked for levelness, plumb, and correct door alignment on a steel bedplate. 2. A master breaker jig is used to insure interchangeability of breakers and to check primary and secondary contact alignment. 3. The wiring of all current operated relays, instruments, and meters is checked by means of circulating current through the secondary of all transformers and associated wiring. The wiring of voltage operated devices is checked in a similar manner by energizing the secondary potential and control power circuits. Proper operation of relays and targets is verified (not calibrated) by increasing current and voltage beyond pick-up values. Wiring not verified in this manner is checked for continuity. 4. Simulated operational check of control circuit involving breaker operation using test cables and breaker operation simulator. 5. Sequence operation tests are performed as required. 6. High potential test of primary circuits and secondary wiring in accordance with ANSI Standards are made. Power Circuit Breaker Each circuit breaker is placed -in a master assembly and inspection fixture. To assure conformance with engineering specifications, the following items are checked: 1. Breaker mechanism and mechanical clearances. 2. Correct alignment of primary and secondary disconnecting devices including contact pressure. 3. Contact wipe and deflection. 4. Torque at all movable contact hinges. 5. Puffer efficiency. 6. All electrical circuits. a 7. Interchangeability of like breaker ratings, including interlock 6 checks. n 8. Automatic spring discharge on breaker withdrawal from unit. F'= 9. No-load breaker operation at minimum and maximum control voltage LL a ratings to assure proper coil selection as well as disclose any S I E NI E N S -ALLI S binding of mechanical parts. 10. Check of breaker opening and closing times at standard control voltage rating. 11. High potential tests are made of the primary and secondary circuits in accordance with ANSI standards. 12. Millivolt measurement of each breaker pole resistance is checked and recorded. 130 Proper operation of all safety interlocks. WEATHERPROOF HOUSING Conventional Non -Walk -In Design - The switchgear will consist of circuit breaker and auxiliary units located in a steel housing of conventional weatherproof construction. Each compartment will be equipped with hinged front and rear doors with provision for padlocking. The instrument panel is located opposite from the circuit breaker drawout side. The following equipment will be furnished within each unit: a. Two (2) lamp receptacles for interior illumination, one in front and one in the rear. b. One (1) utility duplex receptacle with integral ground fault protection, for electric tools, etc. c. One (1) space heater, 500 watts, 240 Volts, A.C. d. One (1) thermostat to control space heater. A switch for all the space heaters and a switch for all the lights will be conveniently located on.one compartment. The complete assembly will rest on three (3) - 6" high sill channels running parallel to the length of the switchgear. Steel plates will be supplied for covering the space between the ends of the sills to prevent entrance of debris. The underside of the enclosure and sill channels will be undercoated with asphaltic material. The switchgear will be shipped in convenient groups for erection in the field, and shipping groups will not exceed fifteen (15) feet in length. Necessary erection hardware will be furnished. d N The construction details will be as described in Siemens -Allis Catalog N Section 301, (18C-590-102). o` • LL a MAP IN FILE SEE RESOLUTION i S I E M E N S-ALLI S Medium Voltage Horizontal Drawout 301 DESCRIPTION Metal -Clad Switchgear Page 1 5 and 15 kV Air Magnetic and Vacuum Circuit Breakers. June,1980 M l 2 1 15kV Vacuum Circuit Breaker 5kV Air Magnetic Circuit Breaker w . :. x wax; ,i 94 1 w LAL, Typical medium voltage Switchgear. 15kV in center - 5kV at both ends. 15kV Air Magnetic Circuit Breaker 18C5901-02 SIEMENS-ALLIS Page 2 TABLE OF CONTENTS Page General 3 a. Components b. Advantages Air Magnetic & Vacuum Circuit Breakers 4 Method of Arc Interruption — Air Magnetic Circuit Breakers 5 Method of Arc Interruption — Vacuum Circuit Breakers 6 Circuit Breaker to Cubicle Disconnects 7 Additional Circuit Breaker Features 8 Stationary Element — The Cubicle 9 & 10 Paint Finish 10 Auxiliary Cubicles 11 Installation of Circuit Breakers 12 & 13 Primary Entrance Compartments 14 Insulation Systems — General 15 Insulation System — 5 kV Switchgear 16 Insulation System — 15 kV Switchgear 17 Operator Protection 18 Instrument Transformer — Current 19 Standard Current Transformer Ratings 20 Instrument Transformers — Potential 21 Control Power Transformers 22 Auxiliary Switches and Wiring 23 Metering & Switching 24 Accessories 25 Outdoor Housings 26, 27, 28 5 kV Circuit Breaker Data 29 15 kV Circuit Breaker Data 30 Control Data — 5 & 15 kV Circuit Breakers 31 Dimensions & Installation Data — 5 kV Indoor 32 General Arrangements — 5 kV Indoor 33 Dimensions & Installation Data — 15 kV Indoor. 34 General Arrangements — 15 kV Indoor 35 Dimensions & Installation Data — 5 kV Conventional Housing — Outdoor 36 Dimensions & Installation Data — 15 kV Conventional Housing — Outdoor 37 General Arrangements — Conventional Housing — 5 & 15 kV — Outdoor 38 Dimensions & Installation Data — 5 kV — Single Aisle Shelter -Clad Housings 39 Dimensions & Installation Data — 15 kV — Single Aisle Shelter -Clad Housings 40 General Arrangements — 5 & 15 kV Single Aisle Shelter -Clad Housings 41 Dimensions &' Installation Data — 5 kV Common Aisle Shelter -Clad Housings 42 Dimensions and Installation Data — 15 kV Common Aisle Shelter -Clad Housings 43 Typical Metal Clad Switchgear Specification 44-48 SIEMENS •ALLI S Medium Voltage Horizontal Drawout 01 Metal -Clad Switchgear Page3 5 and 15 kV Air Magnetic and Vacuum Circuit Breakers. June, 1980 Siemens -Allis 5- and 15-kV, horizontal drawout, metal - clad switchgear meets or exceeds the latest IEEE, ANSI and NEMA standards. This advanced switchgear line is completely factory -built, wired and assembled. Each cubicle may contain the circuit breaker, bus bars, primary and secondary disconnecting devices, instrument transformers, instruments and relays, secondary wiring and other necessary components. The switchgear is designed so that additional circuit breaker or auxiliary cubicles may be added in the future. STANDARD METAL -CLAD SWITCHGEAR CONSISTS OF: REMOVABLE ELEMENT (THE CIRCUIT BREAKER) • Air magnetic or vacuum circuit• breaker with stored energy operating mechanism • primary disconnecting device • secondary disconnecting devices • auxiliary switches • ground contacts • control wiring • interlocks STATIONARY ELEMENT (THE CUBICLE) • framework of welded steel • sheet steel enclosure, includ- ing a hinged front door, which may be used as an instrument panel • compartment and inter -unit barriers • three-phase insulated bus and connections • bus supports • stationary primary disconnecting devices • stationary secondary dis- connecting device's • circuit breaker racking -in device • circuit breaker interlocking device • instruments and re- lays • control wiring • terminal blocks • instrument trans- formers • provision for connecting main cable • guide rail on floor of structure • wiring channels • control circuit cut-outs PROVEN ADVANTAGES NOT PREVIOUSLY AVAILABLE IN THIS SWITCHGEAR CLASS • Horizontal Drawout-Out Circuit Breakers allow ease of maintenance and positive operator safety in disconnect, test and operating position. Contacts are readily access- ible for inspection. • Stored energy operator used on all circuit breakers is designed for positive action, long life and ease of main- tenance. All components are readily accessible for inspection when circuit breaker is withdrawn from cubicle. • Maximum compartmentation safety separates major components of the switchgear. Grounded sheet metal barriers effectively localize any damage. • Dead -front construction is supplemented by a hinged steel barrier on the front of the breaker. This barrier locks to the cubicle, preventing any direct path for gases to escape. • Positive -acting shutters close the opening,to the sta- tionary primary disconnects when the breaker is With- drawn. These shutters also isolate the high -voltage dis- connects from the front compartment -of the cubicle and the current transformers. • Front -access current transformers permit testing, replace- ment or servicing with complete operator safety. These transformers are fully isolated from high -voltage areas when the circuit breaker is withdrawn from the unit. • Eye -level instrumentation speeds accurate reading of instruments. • Trunnion -mounted potential transformers withdraw easily from the switchgear. After tilting out, transformers and fuses are readily accessible. • Air Magnetic Breaker: may be replaced by Vacuum Circuit • "Pyro-Shield, ' a polyester glass insulation, 1s far superior Breakers In cubicles of the same frame size, without cubi- to phenolics. It combines track resistance, low moisture cle modification. Existing systems can utilize the ad- absorption, high dielectric strength and flame retardance vantages of vacuum technology in replacement programs. with high impact strength. The information contained herein is general in nature and is not in- tended for specific construction, installation orapplication purposes. Siemens -Allis reserves the right to make changes in specifications shown herein, add improvements, or discontinue manufacture at any time without notice or obligation. E SIEMENS-ALLIS Switchgear Division P.O. Box 14505, West Allis, Wisconsin 53214 SIEMENS-ALLIS Page 4 AIR MAGNETIC CIRCUIT BREAKERS 5 AND 15 kV CLASS The power circuit breaker includes new materials and im- proved design techniques for fast -acting and highly depend- able interruption. The breaker consists of three principal parts: (1) the inter- rupting device; (2) the contact structure; (3) the operating and control mechanism. The air magnetic circuit breaker is available in 250 to 1000 mva nominal interrupting capacity up through 3000 amperes continuous ... with exclusive features such as ground po- tential dual puffer mechanism, self-locking protective bar- rier, four -bar trip -free mechanism, multicompression spring backing of contacts and auxiliary switch. Extended contin- uous ratings thru 3750 amperes are available with a forced air cooling option. 5 kV Air Magnetic Circuit Breaker VACUUM CIRCUIT BREAKERS 15 kV CLASS The vacuum circuit breaker utilizes the advantages of arc - interruption in a vacuum. The breaker has the same principal parts as the -air magnetic " and can replace existing air magnetic breakers in cubicles for the same interrupting ratings. This breaker is available in 500 and 750 mva nominal inter- rupting capacity in 1200, 2000, 2500` and 3000" ampere continuous ratings. 'forced air ADVANTAGES OF VACUUM CIRCUIT BREAKERS — High Speed Interruption — Fast Closing — Quiet Operation — Ideal Dielectric — No arc products vented to atmosphere — Reduced Impact Forces — Light Weight — Low Center of Gravity — Positive Test of Interrupter Integrity — Reduced Maintenance — Easy access to components — Fewer Components — Longer Interrupting Life — Interrupter not affected by ambient temperature or humidity or dust — High Repetitive Switching Capability 15 kV Vacuum Circuit Breaker with hinged panel removed to show vacuum interrupters. SIEMENS-ALLI S Medium Voltage Horizontal Drawout30 1 Metal -Clad Switchgear Page 5 5 and 15 kV Air Magnetic and Vacuum Circuit Breakers. June, 1980 METHOD OF ARC INTERRUPTION AIR MAGNETIC CIRCUIT BREAKERS Interruption in an air magnetic circuit breaker is accom- plished in air at atmospheric pressure with the aid of a self- 1. Main contacts induced magnetic blowout field and air draft. 2. Arcing contacts 3. Arc runners At the time the trip coil is energized, current is being car- 4. Barrier stack ried through the main contacts (1). As the moving contact 6• Blowout coils 6. Pole extensions arm (7) separates from the stationary main contact, the cur- 7. Moving contact a rent is transferred to the arcing contacts (2). 8. Puffer tube 9. End view of berr As the arcing contacts part, the current is transferred to the stack arc runners (3), establishing the full current flow through the blowout coils (5) setting up the magnetic field. The magnetic field, in accompaniment with the natural effects of the heated arc and configuration of the current carrying circuit, forces the arc upward into the barrier stacks (4). The cool surfaces of the barrier stack cool and deionize the arc while the slots in the stack reduce its cross section and ' elongate it. The arc runners are made of wide, heavy mate- rial for maximum heat dissipation and help to minimize metal vaporization. To facilitate interruption of low cur- rents, a puffer assembly provides a movement of air through the contact area to aid the magnetic field in moving the arc into the barrier stack. All these effects collaborate to increase the resistance of the arc and enable it to be ex- tinguished at an early current zero. 1. Main contacts 2. Arcing contacts 3. Moving contact arm 4. Puffer tube 4 e Interrupting Assembly 3 SIEMENS-ALLIS Page 6 METHOD OF,ARC INTERRUPTION VACUUM CIRCUIT BREAKER Interruption in a vacuum circuit breaker is accomplished with more ease than with air. Thin superiority of vacuum as an interrupting medium has long been recognized. For example, with a gap spacing of 1/2 inch, the breakdown voltage in vacuum is approximately seven times higher than WS In air. STAINLESS STEEL M SELLHIGH STRENGTH GLASS TUBE Ionized gas is not present under vacuum interruption, con- METAL CONDENSING SHIELD sequently recovery is rapid, arc energy is low, and interrup- tion less explosive. MOVABLE COPPER - BISMUTH CONTACTS Interruption times are three cycles or less. No arc products FIXED are expelled, thus there is no need for arc cooling and quenching devices, such as arc chutes. The arc plasma, STATIONARY TERMINAL which is metal vaporized from the interrupter contacts, t rapidly condenses on shield surfaces provided within the interrupter. IN OPEN MOVABLE �"'�'� 8.4" TERMINAL Typical Siemens -Allis Vacuum Interrupters The bottles are hermetically sealed making the device impervious to conditions of moisture and other contami- nants that might affect the contact surface and the inter- rupting capability. The interrupting capability is excellent for low current levels, fault current levels, and switching currents - par- ticularly capacitor switching. Vacuum interrupters were not generally accepted early due to the phenomenon known as "chopping". The interrup- tion was so fast in early interrupters that the current went from a high value to zero in micro -seconds. This is no prob- lem in capacitive circuits, but in inductive circuits a voltage can be induced which can cause severe transient over - voltages. In new interrupters, highly refined metals and copper plus other additives are used to minimize the chopping effect since a slight amount of the copper contact vaporizes (arc plasma) as the contacts part. The vaporized metal furnishes enough ions to conduct the normal load current until a natural current zero is achieved. With modern day contact materials, chopping on power interrupters becomes a manageable situation. 0 S I E M E N S-ALLI S Medium Voltage Horizontal Drawout 301 Metal —Clad Swltchgear . Page 7 5 and 15 kV Air Magnetic and Vacuum Circuit Breakers. June, 1980 CIRCUIT BREAKER TO CUBICLE DISCONN ECTS ARE SELF=ALIGNING, MULTI -CONTACT DEVICES FOR POSITIVE CONNECTION CIRCUIT BREAKER MOUNTED PRIMARY DISCONNECT FINGERS The primary circuit between the circuit breaker and the cubicle is made of sets of silver-plated finger contacts which engage with silver-plated, cylindrical contacts. The contacts, mounted on the ends of the breaker bushings, have multiple - fingers and are compression -spring loaded. This arrangement offers a large number of contact points to ensure proper alignment. The breaker finger assemblies are removed when the breaker is withdrawn ... and are available for inspection without the need to de -energize the main switchgear bus. The cubicle contact members inside the insulator assemblies are recessed and shielded to prevent accidental contact. CIRCUIT BREAKER -TO -CUBICLE SECONDARY DISCONNECTS ARE EASILY ADJUSTED , . . MAKE IN BOTH THE OPERATING AND TEST POSTIONS The movable secondary control contacts mounted on the breaker are self -aligning, line -contact, slip -type connectors. - The multiple -finger arrangement on the breaker makes con- tact with a stationary -mounted element. The contact sur- faces on the stationary element are recessed to prevent accidental short-circuiting of the control circuits. These secondary disconnects mate in both the operating and test positions. No special jumper is required ... no hand setting of secondary disconnects for testing. Mechanical stops prevent overtravel and avoid damage to the disconnecting devices when the circuit breaker is levered into operating position. w«+ Cfah s..r« STATIONARY PORTION MOVABLE PORTION SAV primary connecting device EPW Type Cost Resin Silver Plated S _ :>•.. Finder Contacts k SilwrPlated' Springs Contact t Porato in Insulator Circuit Booker STATIONARY PORTION MOVABLE PORTION Nnwtated Capper Contactor IS-kv primary connecting device A342608.79 SIEMENS-ALLIS PAGE 8 ADDITIONAL CIRCUIT BREAKER FEATURES The stationary element of the switchgear cubicle and the re- movable element (circuit breaker) are built to master jigs so that circuit breakers of the same rating are interchange- able with each other. All removable elements of like rating are checked with one stationary element jig. Each stationary element is checked with the same removable element jig ... to insure complete interchangeability between elements of like rating. The stored energy operator used on all Siemens -Allis 5 and 15 W circuit breakers has been developed to provide extremely fast closing and high reliability. The operator is located at the base of the circuit breaker and Is accessible for inspection without removal of are chutes or the necessity to tip the circuit breaker. All moving parts can be examined and lubricated. The method of operation Is easily seen expediting maintenance training. Ground potential puffer mechanism with dual cylinders accelerates low -current arcs to insure short arcing times throughout the entire breaker interrupting range. Puffers are at ground potential —riot line —and are mounted on the breaker frame — not on the moving contact arm. SIEMENS -ALLI S Medium Voltage Horizontal Drawout Jff TA V1 Metal —Clad Switchgear Page 9 5 and 15 kV Air Magnetic and Vacuum Circuit Breakers, June, 1980 Maximum .compartmentation for safety is an integral part of Siemens -Allis advanced design. This means complete enclosure of all live parts and segregation of circuits. Re- movable plates permit easy access to all compartments. MAJOR COMPARTMENTS Instrument control compartment Intercompartment wiring trough Circuit breaker compartment Current transformer compartment Auxiliary equipment compartment Cable entrance compartment Potential transformer compartment Bus compartment ALL -STEEL BARRIERS All metal barriers are completely grounded. Sheet steel interunit barriers extend the full height and depth of cubicle for isolating each cubicle from adjacent cubicles. The sta- tionary elements are equipped with a ground bus which extends through the complete switchgear lineup. DUST -RESISTANT DESIGN This switchgear is designed and built to minimize entry of dust and other foreign matter. Carefully placed louvers give controlled unit ventilation. RIGID, REINFORCED FRAMEWORK The framework is constructed of steel angles and formed plates accurately welded together in a jig and reinforced to form a rigid, self-supporting structure. Where welded joints are made, angles are spot welded (gusset construc- tion) and arc welded (offset) for maximum strength and accurate alignment. EASY COMPARTMENT ACCESS Siemens -Allis switchgear compartments retard spread of faults to other compartments. Maintenance is safer and easier. Each compartment is accessible by easy -to -handle steel plates. The rear panel is removable for access to down - feed cables, while access to upfeed cables is available through a removable panel in the circuit breaker compart- ment. E.- 1. Separate compartments 4. Separate up -feed and for current down -feed cable transformers. compartments. 2. Full panel for metering S. Grounded metal shutters and relaying. behind current trans- 3. Double -lock panel for formers protect personnel. operator safety. KMull b . SIEMENS-ALLIS Page 10 STATIONARY ELEMENT (THE CUBICLE) PLUMB AND SQUARE THROUGH JIG WELDING Floor plate assembly, side sheets, secondary contact sup- ports, rear bushing support plates and other components are jig welded in an assembly fixture to insure correct loca- tion and .provide plumb and square switchgear units. Jig welding insures interchangeability of standard cubicles and circuit breakers. The use of welding jigs and checking fixtures give perfect alignment of component equipment. Cubicles also are aligned on perfectly flat steel. bed plates in the factory before shipment of multiple interconnected assemblies. This results in minimum installation time of switchgear at the.job site. HIGH -DURABILITY FINISH The framework is conveyed through a spray tunnel. Here it is degreased and exposed to a hot phosphate chemical treating mixture followed by a hot sealing solution and 'drying agent. The panels are treated similarly. ' The hot phosphate bath effects a chemical conversion of the metallic surface to a nonmetallic phosphate coating. Insoluable in water, this coating is effective in retarding corrosion, and is an excellent undercoating for paint. After cleaning and stabilization, the framework and panels receive a combination primer -finish coat of rust -resisting enamel. The framework, panels and other detail parts are conveyed through an infrared light baking tunnel to insure adequate drying. All exterior surfaces are given an addition• al finish coat of paint. Standard indoor finish is gray ANSI- 61; for outdoor dark gray ANSI-24, or sky gray ANSI-70. Standard finish paints are air dry alkyd enamels. SIEMENS -ALLI S Medium Voltage Horizontal Drawout �� Metal -Clad Switchgear U01" Page 11 5 and 15 kV Air Magnetic and Vacuum Circuit Breakers. June, 1980 AUXILIARY CUBICLES Auxiliary cubicles are constructed in the same general man- ner as the circuit breaker cubicle except that no provision is made for either present or future mounting of a circuit breaker removable element. Auxiliary cubicles are used to house such equipment as potential transformers, control power transformer fuses, control transformers, generator or synchronous motor field control, rectifiers, reactors, bat- teries, chargers, voltage regulators, etc. Compartments for housing buses, control wiring, potential transformers, etc., are separated by tightly fitted sheet steel barriers. Removable plates allow access to these compart- ments. The front of the cubicle is enclosed with a hinged steel panel equipped with knurled fasteners. These panels offer a convenient location for mounting instruments, meters and relays when the panels of adjacent units are crowded. Auxiliary cubicle With meter panel door open showing potential transformer and fuse carriages, in the disconnected position. itMEN- HOLDERI 11 WF--FUSE rE1.,,M.i Auxiliary cubicle with trunnion -mounted potential transformers in fully connected position, shielding operator from high -voltage compartment. SIEMENS-ALLIS Page 12 INSTALLATION -OF CIRCUIT BREAKERS 5-kV Circuit Breaker — Safe and quick racking in of the circuit breaker to connected position is achieved by one stroke of a lever crank. The pivot point of the lever crank is inserted into its mating hole in the fulcrum angle mounted on the compartment floor. A short upward stroke of the crank levers the breaker into the full operating position. The circuit breaker can be closed only when in the full operating position. To withdraw the circuit breaker, the fulcrum pin is inserted into its mating hole in the bearing block of the circuit breaker carriage. Pivoting about the fulcrum angle with a short downward stroke quickly withdraws the circuit breaker. The circuit breaker release pedal must be depressed, raising the interlock and tripping the circuit breaker before the circuit breaker can be moved from the connected position. Levering in action moves breaker to operating and disconnect posi- tions. 15-kV Circuit Breaker — To use the racking lever, the pivot point of the lever is inserted into the mating hole or1 the lower front edge of the circuit breaker. The pawl engages a track on the floor of the cubicle, and a simple. pumping of the racking lever moves the circuit breaker into desired position. Before the circuit breaker can be moved from the con- nected position, the circuit breaker release pedal must be depressed. This raises the interlock and trips the circuit breaker for safe removal. SIEMENS -ALLI S Medium Voltage Horizontal Drawout 300' � Metal —Clad Switchgear Page 13 5 and 15 kV Air Magnetic and Vacuum Circuit Breakers. June, 1960 0 INSTALLATION OF CIRCUIT BREAKERS A rugged interlock bar has positive stops in the discon- nected, test and operating positions to regulate safe and controlled movement of the circuit breaker in the cubicle. Interlocks prevent (1) movement of circuit breaker when it is closed and (2) closing of the circuit breaker unless the primary disconnecting devices are in full contact or sep- arated by a safe distance. Located on the circuit breaker, this interlock bar engages close -fitting slots along the guide track on the switchgear cubicle floor for the disconnect (or storage), test and operating positions. The circuit breaker cannot be moved while the interlock is engaged. The breaker release pedal on the circuit breaker must be manually depressed to release the interlock, permitting the circuit breaker to be moved. During transition from one position to another, the inter- lock rides on the guide track between slots holding the breaker in the "trip -free" position. Positive straight-line, in -and -out movement of the circuit breaker is assured by the guide track. Failure of the guide follower to enter the guide track prohibits entry, of the circuit breaker into the cubicle. When the breaker is inserted, it is rolled into the cubicle and pushed until it stops and automatically locks in the disconnected position. The manual release must be depressed to move it to the test and operating position. The circuit breaker can be padlocked in any of its three positions. It can also be padlocked to prevent insertion into the cubicle. Interior of 5 kV cubicle, showing breaker guide track and interlock mechanism and racking strip. PLUNGER IN TRIP- BREAKER RELEASE PEDAL RACKING IN DIRECTION FREE POSITION _ MUST BE MANUALLY DISCONNECT cc DEPRESSED TO RELEASE e W \ d �qM INTERLOCK ¢ I � O ~I TRIP FREE TRIP FREE TRIP FREE Guide track and interlock mechanism. SIEMENS-ALLIS Page 14 i PRIMARY ENTRANCE COMPARTMENT IS UNIVERSALLY ADAPTABLE REGARDLESS OF CABLE DIRECTION, TYPE OR TERMINATION The rear of a circuit breaker unit is divided into three high - voltage compartments, each separated from the others by steel barriers. The rear frame is of combination welded and bolted construction to give overall rigidity while allowing easy access to the equipment. The main bus location is placed as close as possible to main disconnects to eliminate unnecessary connectors and to provide maximum insulation. The cable entrance space provides complete flexibility of termination without any structural or conductor modifi- cations. Either upfeed or,downfeed pothead or lug con- nections may be made by reversing the lugs or mounting the pothead in its alternate position for upfeed. Adequate space for the building of stress cones is provided. BOTTOM FEED This design is used in standard indoor metal -clad switchgear units. Steel floor does not extend to rear of unit. Absence of a bottom rear cross -member permits stubbing of conduit or pulling of cable before receiving the switchgear. TOP FEED No major structure changes are normally necessary for top feed. CABLE TYPE AND SIZE Type and size of incoming cable are important when choos- ing the terminating method. A complete description of en- tering cable is necessary. POTHEADS Siemens -Allis potheads are designed with liberal insulation to meet switchgear dielectric standards. Cast iron body con- struction, rather than welded, minimizes compound leakage. Offset body construction of three -conductor potheads makes cable installation easy when two potheads are used. Maximum of one three -conductor or three single -conductor potheads can be mounted in a standard cubicle. Connec- tion of cable to potheads can be by wiping sleeves, stuffing box gland, cable clamp or conduit adapter — depending on type of cable used. Vie i of WRO-adlYbenfM Baker cubicles with rear, access panels removed. From left to right: feeder with cable lug connectors; feeder with pothead; and bus tie cubicle. Note that no auxiliary cubicle is required for connecting bus tie to adjacent feeder cubicle. 11 SIEMENS -A LLI S Medium Voltage Horizontal Drawout 301 Metal —Clad Switchgear Page 15 5 and 15 kV Air Magnetic and Vacuum Circuit Breakers. June, 1980 INSULATION SYSTEM - GENERAL Preformed Pyrp-Shield track -resistant insulation of flame- retardant glass polyester insures a uniformly high level of insulation quality throughout the Switchgear. All bus bar supports and primary disconnect bushings are made of high impact strength Pyro-Shield insulation with high dielectric strength and low moisture absorption characteristics. BUS BARS Full rounded -edge tin-plated aluminum bus bars are provided as standard. Bus bars are insulated by means of a tight fit- ting, flame-retardant tubing. A combination of high strength steel bolts, flat washers and conical washers assure constant pressure to bolted connec- tions to ensure proper contact. - Bus bars are insulated by means of a tight fitting extruded sleeving of "Noryl" phenylene-oxide based resin. The ma- terial is flame retardant class 94V-1 per UL94. Insulation is at bus potential. GROUND BUS A common ground bus is incorporated in all cubicles to properly ground the equipment after installation. The ground bus extending through the switchgear is accessible in the primary cable area of the left-hand end of the group. PREFORMED PYRO-SHIELD INSULATED JOINT CAPS — 5 kV The overlapping design of the Siemens -Allis cap creates a long path for an arc to travel, thus maintaining high im- pulse strength in a minimum of space. Extensive testing on the bus joint showed that audible corona was not detected on a joint with cap under 21 kV — well above nominal operating voltage. These glass polyester parts are outstanding in electrical and mechanical properties and in ease of molding ... making Pyro-Shield ideal for application as electrical insulation. Specially insulated parts include bus insulation, bus bar sup- ports, primary disconnect bushings, phase barriers on break- er, contact support structure, bushing tubes, operating rods IV and arc chute parts. All buses are mechanically braced to withstand repeated shocks and stresses imposed by high currents of a magnitude corresponding to the close and latch rating of the power circuit breaker connected to the bus. Pyro-Shied — a flame-retardant glass polyester — insures a uniform level of insulation and simplifies construction of arc chute envelope. Molded glass polyester case is placed over the bus joint and fastened with a reusable nylon pin. SIEMENS-ALLIS Page 16 INSULATION SYSTEM — 5 W SWITCHGEAR For service under extreme conditions of contamination and humidity, or where high voltages can create destructive car- bon tracking, 'Pyro-Shield" flame-retardant glass polyester materials form the basis for a modern, coordinated switch - gear insulation system. The important characteristics of Pyro-Shield insulation are: • ability to resist tracking • low water absorption rate • low time -temperature deterioration rate • excellent flame retardance • high resistance to chemical fumes • high impact strength Years of experience have shown that when the absorption of moisture is held below one percent, as measured by the ASTM 24-hour test, the reliability of the insulation is not noticeably impaired. Pyro-Shield insulation measures less than one-half percent absorption. Preformed insulating materials eliminate the need for mold- ing and taping joints when connecting shipping groups in the field. This method reduces installation time and result- ant costs. The same preformed, high dielectric strength joints used in factory assembly are also used in field as- sembly. After bolting the main'bus to the primary discon- nect bushing assembly, a molded Pyro-Shleld cap is placed over the the joint and fastened to the main bushing with a reusable nylon pin. Field assembly time is reduced by as much as 30 minutes per joint. The main bus consists of tin-plated aluminum bars with bolted joints using conical washers. As an alternate silver- plated copper can be furnished. Rear view of 5 kV cubicle. ;fib' Placing polyester cap over bolted joint of 5 kV cubicle. Pyro-Shied used in 5 kV interunit bus bar supports results in a rigid, well supported main bus, resistant to arc tracking and moisture. m.- SIEMENS -ALLI S Medium Voltage Horizontal Drawout �� Metal —Clad Switchgear Page 17 5 and 15 kV Air Magnetic and Vacuum Circuit Breakers. June, 1980 INSULATION SYSTEM - 15 W SWITCHGEAR PORCELAIN INSULATORS Electrical grade porcelain is used exclusively for all 15-kV main bus primary insulation. The low power factor, high dielectric strength, flame retardency and resistance to track- ing make porcelain an excellent material for these critical applications. Bus bars are insulated by means of a tight fitting extruded sleeving of "Noryl" phenylene-oxide based resin. The material is flame retardant class 94V 1 per UL94. Insulation Is at bus potential. Pyro-Shield is also used in selected areas of 15 kV switch - gear. Contoured porcelain Inter -unit bus supports, mounted in Pyro- Shie/d supporting barrier, are used in 15-kV class switchgear. Molded polyvinyl boots are used to insulate type FB current trans- former joints. pW r--r t e 219574-A 2 219574-B Molded polyvinyl boots are used to insulate bu's joints of 15-kV switchgear. Molded boot is placed over bus joint (1, 2) and then (3) secured over bolted bus joint with vinyl tape. r SIEMENS-ALLIS Page 18 OPERATOR PROTECTION COUNTERBALANCED AUTOMATIC SHUTTERS These shutters automatically close the openings to the cubicle primary disconnects when the circuit breaker is withdrawn from its connected position. The protective shutters guard against accidental human contact with the cubicle primary disconnect members. They also keep foreign matter from entering the disconnect chambers. Shutters are designed to remain closed until the movable primary disconnects on the breaker are in . position to enter the cubicle disconnect chambers. The two shutter blades operate with a counterbalanced action. One blade moves up while the other moves down. This design requires a minimum of operating force with smooth shutter operation. Blades are actuated through a common link bar from a cam mounted on the circuit breaker frame. PROTECTIVE BARRIER Lo, front steel panel on the circuit breaker automatically locks to the cubicle as the breaker is inserted into the operating position. This design means a steel barrier is between the operator and the high - voltage current — even when the door is open. Shutters Closed. Shutters Open. 194516 194517 Eo� di'Is. -fi, SIEMENS -ALLI S Medium Voltage Horizontal Drawout 1 Metal —Clad Switchgear Page 19 June,1980 5 and 15 kV Air Magnetic and Vacuum Circuit Breakers. INSTRUMENT TRANSFORMERS CURRENT TRANSFORMERS - READILY ACCESSIBLE Current transformers used in the switchgear are of Siemens - Allis manufacture, insulated and built to NEMA and ANSI standards. Unless otherwise specified, the mechanical rating of the current transformers in RMS amperes is at least equal to the close and latch rating of the breaker In RMS amperes at circuit voltage. The one -second thermal rating In RMS amperes Is at least equal to the symmetrical Interrupting current rating of the circuit breaker In RMS amperes at circuit voltage. Adequate protection of the transformers from possible damage due to circuit breaker interruption is offered by enclosing them in an easily removable grounded metal barrier. TOROIDAL TYPE DD and FD current transformers are used for ratios above 200:5. Metering accuracies at low ratios are obtained by using high -quality core steel wound on a circular mold until the desired cross-section area is obtained. To further Improve the accuracies, each transformer has a compensated, fully distributed secondary winding. Mounted in the circuit breaker compartment, it is possible to test the transformers without removing them from the unit. Maximum .operator safety is maintained since removal of the circuit breaker automatically removes the primary bar and closes off the high -voltage bus compartment. The current transformers may be mounted either on the bus, load, or bus- and load -side of the circuit breaker, de- pending on the requirements of the application. WOUND TYPE MKS current transformers are used for ap- plications where ratios below 200:5 are required. They are mounted in a rear compartment that is isolated from the bus compartment by a steel barrier. Isolation from the cable compartment is provided by the cable support block or pothead support plate and pothead. This type of current transformer consists of several turns of primary conductor and a cylindrical secondary coil in- serted inside the primary winding. One leg of the precut rectangular steel laminations is stacked through the opening of the secondary winding. The primary winding may con- sist of several turns, depending on accuracy and ratio de- sired. BAR TYPE FB AND DB CURRENT TRANSFORMERS These are used for applications which require higher ratios than can be achieved with the wound type MKS current trans- former.. The FB and DB current transformers are mounted in the rear compartment of the equipment, and are Isolated from Other equipment In a manner similar to the type MKS current transformer. Photo is on Page 17. Side view of 15-kV metal -clad Switchgear shows accessible current transformers from circuit breaker compartment. Current transformers are mounted in separate enclosure against the circuit breaker compartment rear plate which supports the stationary high -voltage bushings. Wound type current transformers mounted in rear of 5-kV unit. NOTE: See Page 20 for Standard Current Transformer Ratings. SIEMENS-ALLIS Page 20 STANDARD CURRENT TRANSFORMER RATINGS TOROIDAL TYPE 5- kV 15- kV 7)fp4 c fatto Second "Se'ri lohms�' 1rny Thret '+;, B'Lw --B3 S,, ZIA.� �I-zd r!feai; DD 200/5 Breaker Rating 0.6 2.4 4.8 - C20 DO 300/5 Breaker Rating 0.3 0.6 2.4 4.8 C30 DD 400/5 Breaker Rating 0.3 0.6 1.2 2.4 C50 DO 600/5 Breaker Rating 0.3 0.3 0.6 1.2 C70 DD 800/5 Breaker Rating 0.3 0.3 0.3 0.6 C100 DD 1200/5 Breaker Rating 0.3 0.3 0.3 0.3 C110 DO 1500/5 Breaker Rating 0.3 0.3 0.3 0.3 C140 DO 2000/5 Breaker Rating 0.3 0.3 0.3 0.3 C100 DD 3000/5 Breaker Rating 1 0.3 1 0.3 1 0.3 1 0.3 IC100 ' r Tjrpe a __ %, - eZ1tn",� t ':Aecuracy:,� 60 }i2� 4r ns3r,`.. kSeT%� tX� 1Vlomen- * u i �y ",'I�- IaYrciQ yRati {s•C!'�' "A'. ry 1`4' 4�. wG . w4. pdSn nsi A -_�!{►.tl �1/.D B: Y�1/, iR-2A/ . FD 200/5 Breaker Rating 1.2 1.2 4.8 4.8 C40 FD 300/5 Breaker Rating 0.6 0.6 1.2 4.8 C60 FD 400/5 Breaker Rating 0.3 0.6 1.2 2.4 C80 FD 600/5 Breaker Rating 0.3 0.3 0.6 1.2 C130 FD 800/5 Breaker Rating 0.3 0.3 0.3 0.6 C180 FD 1200/5 Breaker Rating 0.3 0.3 0.3 0.3 C250 FD 1500/5 Breaker Rating 0.3 0.3 0.3 0.3 C240 FD 2000/5 Breaker Rating 0.3 0.3 0.3 0.3 C380 FD 3000/5 Breaker Rating 0.3 0.3 0.3 0.3 C260 FD 4000/5 Breaker Rating 1 0.3 1 0.3 1 0.3 1 0.3 1 C350 WOUND TYPE 7 .tom h42+l... � Y2p&Sf W.nptt �f'X �Ieco�a ,�":� fo Sf �•.11 ��j`Y na t��"��ter;,• °ahn,sf � 84. y^^{�° �� MKS-1 25/5 `37500 60000 1.2 2.4 - T10 MKS-1 30/5 `37500 60000 1.2 2.4 - T10 MKS-1 40/5 `37500 60000 0.6 1.2 - T15 MKS-1 50/5 `37500 60000 0.6 0.6 2.4 T25 MKS-1 7515 `37500 60000 0.6 0.6 1.2 T35 M KS-1 100/5 `50000 80000 0.3 0.3 0.6 T65 MKS-1 150/5 `50000 80000 0.3 0.3 0.6 T70 MKS-1 200/5 `50000 80000 0.3 0.3 0.6 T80 MKS-1 30015 `50000 100060 0.3 0.3 0.6 T90 MKS-1 400/5 `50000 100000 0.3 0.3 0.6 T80 MKS-1 60015 57000 141000 0.3 0.3 0.6 T100 MKS-1 1 800/5 680001 141600 1 0.3 1 0.3 1 0.6 1 T80 *With ".2 burden or greater on secondary. �'�et atw� x s Secont� T�7 fry � � ;Metertnp� � *s'� Buiden to`hriits} �= Re tayir� Class B 0,1 ...BaOi< "B ?»0 MKS-3 25/5 37500 60000 2.4 2.4 - T10 MKS-3 30/5 37500 60000 2.4 2.4 - T70 MKS-3 40/5 37500 60000 1.2 2.4 - T15 MKS-3 50/5 37500 60000 1.2 1.2 - T25 MKS-3 75/5 37500 60000 0.6 0.6 2.4 T35 MKS-3 100/5 50000 80000 0.6 0.6 1.2 T65 MKS-3 150/5 50000 80000 0.3 0.3 1.2 T70 MKS-3 200/5 50000 80000 0.3 0.3 1.2 T80 MKS-3 300/5 50000 100000 0.3 0.3 0.6 T90 MKS-3 400/5 50000 100000 0.3 0.3 0.6 T80 MKS-3 600/5 57000 141000 0.3 0.3 0.6 T100 MKS-3 800/5 68000 141600 0.3 0.3 0.6 T80 BAR TYPE s r��s3eri eca :�v 6o tz en +ohms � •.a } � �rx�„r• � - Uy DB 200/5 03 0.6 1.2 2A 4,8 C40 DB 250/5 0.3 0.3 0.6 1.2 2.4 C50 D8 300/5 0.3 0.3 0.6 0.6 1.2 C60 DB 400/5 0.3 0.3 0.3 0.6 1.2 C90 DB 500/5 0.3 0.3 0.3 0.3 0.6 C110 DB 600/5 0.3 03 0.3 0.3 0.6 C130 DB 800/5 03 0.3 0.3 0.3 0.3 C120 DS 1000/5 03 0.3 0.3 0.3 0.3 C150 DB 120015 0.3 0.3 0.3 0.3 0.3 C190 D8 150015 0.3 0.3 0.3 0.3 0.3 C210 DB 200015 03 0.3 0.3 0.3 0.3 C210 DB 2500/5 0.3 03 0.3 0.3 03 C260 DB 3000/5 0.3 0.3 0.3 0.3 0.3 C320 DB 3000/3.75 0.3 0.3 0.3 0.3 0.3 C300 DB 3000/3 03 0.3 0.3 0.3 0.3 C400 3. �w�F {� w � �1�t.- G FB 200/5 .6 .6 1.2 2.4 4.8 C40 FB 250/5 .6 .6 1.2 2.4 2.4 C50 FB 30015 .3 .3 .6 1.2 2A C60 FB 400/5 .3 .3 .3 .6 1.2 C90 FB 500/5 .3 .3 .3 .6 1.2 C110 FB 600/5 .3 .3 .3 .3 .6 C140 FB 800/5 .3 .3 .3 .3 .3 C150 FB 100015 .3 .3 .3 .3 .3 C190 F B 1200/5 .3 .3 .3 .3 .3 C230 FB 150015 3 .3 .3 .3 .3 6290 F B 2000/5 .3 .3 .3 .3 .3 C200 FB 2500/5 .3 .3 .3 .3 .3 C240 F B 3000/5 .3 .3 .3 .3 .3 C290 FB 300013.75 .3 3 .3 .3 3 C250 FB 3000/3 .3 .3 .3 .3 .3 C250 FB 4000/5 .3 .3 .3 .3 .3 C320 F 8 4000/4 .3 .3 .3 .3 .3 C400 Note: One second and momentary ratings are same as breaker rating for bar type FB and DB current transformers Note: Continuous thermal rating of rated primary current at 40° C of switchgear room ambient ... 1.0 L]l SIEMENS -ALLI S Medium Voltage Horizontal Drawout 3VI ff IL Metal -Clad Switchgear Page 21 5 and 15 kV AirMagnetic and Vacuum Circuit Breakers. June, 1980 INSTRUMENT TRANSFORMERS TRUNNION -MOUNTED POTENTIAL TRANSFORMERS - AUTOMATIC DISCONNECTION, EASY WITHDRAWAL FOR TEST OR INSPECTION Potential transformers used in the switchgear are built and tested in accordance with the latest NEMA and IEEE standards. The use of epoxy resin as the insulation between primary and secondary windings permits corona control with less space between coils. Smaller in size than conventional' dry - type transformers, three PT's can be mounted on one tilt - out carriage. The drawout .compartment for potential transformers is located in the top rear of the circuit breaker cubicle unit at convenient shoulder height, or the compartment can be mounted in an auxiliary cubicle. The transformers are mounted on a separate base which pivots in a pair of trun- nions. The pivoted base is easily rotated 135 degrees to disconnect position. Three potential transformers may be mounted on one tilt -out carriage. While pivoting from the connected to the disconnected position, the transformer primary windings and transformer - mounted current -limiting fuses are automatically and safely grounded to remove any charge from the windings. When the transformers are in the disconnect position, the base acts as a barrier between the stationary 'primary studs and the operator. The weight is distributed so that minimum effort is needed to revolve the carriage. Type DP (5-kV) Potential Transformers 6�ass f xTJTt A �Ttlerm es:` ;�,ate 4800/120 0.3 0.3 0.3 1.2 400 50/60 4200/120 0.3 0.3 0.3 1.2 400 50/60 2400/ 120 0.3 0.3 0.3 1.2 400 50/60 Type FP (15-kV) Potential Transformers 14,400/ 120 0.3 0.3 0.3 0.6 1000 + 50/60 12,000/ 120 0.3 0.3 0.3 0.6 1000 50/60 8400/120 0.3 0.3 0.3 0.6 1000 60/60 7200/120 0.3 0.3 0.3 0.6 1000 50/60 4800/120 0.3 0.3 0.3 0.6 1000 50/60 4200/120 0.3 0.3 1 0.3 0.61 1000 1 50/60 H2 PRIMARY CONNECTION PRIMARY WINDING j Vb49U Hi PRIMARY ;ONNECTION PRIMARY 'ONDUCTOR IRON ;ORE SECONDARY TERMINAL CONNECTIONS 1. Potential transormers in connected position. 2. Latches are turned to release trunnion mounted carripge. 3. Carriage is rotated to disconnect transformers. Fuse striked grounding strap to remove static charge. 4. Transformer carriage rotation is completed, placing grounded fuses outside of unit for safe and convenient removal and replacement. SIEMENS-ALLIS Page 22 CONTROL POWER TRANSFORMERS PERFORMANCE -TESTED CONTROL -POWER TRANSFORMERS FOR OPERATING BREAKERS, COMPARTMENT LIGHTS, OUTLETS, HEATERS Control -power transformers are furnished when specified to supply power for the functions of the switchgear line. They are built and tested in accordance with the latest IEEE and NEMA standards. They meet these standards with respect to temperature in metal -clad switchgear and are designed with a uniformly low reactance to assure good regulation. Primary fuses are current limiting. Control transformers are stationary mounted with tilt - out fuses. The fuses are mounted on a tilt -out carriage which operates in the same manner as the potential trans- former carriage. - A thermal circuit breaker on the secondary side of the transformer is interlocked with the carriage. It cannot be rotated unless the circuit breaker is open. This prevents accidental circuit interruption with the main primary contacts. The drawout mechanism is trunnion operated with the transformer fuses mounted on a separate base which revolves 135 degrees from the connected position to the disconnected or test position. The weight of the revolving carriage is distributed so that it swings out easily. During the half -revolution required to fully disconnect, the cur- rent -limiting fuses are automatically grounded to remove any charge. When the complete disconnect position is reached, the stationary disconnect studs are behind a steel barrier. No accidental contact with the high -voltage circuit is possible. 15 kV control transformers are optionally available as a combination Fuse/CPT trunnion mounted device in single phase ratings thru 15 kVA. This allows additional compact= mentation space in the same vertical section for auxiliary devices such as batteries. 218817 Trunnion -mounted fuses for the stationary -mounted control -power transformer are mechanically interlocked with secondary thermal breaker to prevent load break. When the secondary breaker is closed, rotation of carriage is pre- vented as interlock engages breaker toggle. * !1M OIL + " ' 46 When the secondary breaker Is open (top), rotation of carriage Is possible (bottom). Control power transformer mounted in bottom compartment of 5 kV auxiliary unit with its trunnion -mounted fuses in center com- partment. 21 as? SIEMENS-ALLI S Medium Voltage Horizontal Drawout 301 Metal -Clad Switchgear Page 23 5 and 15 kV Air M allnetie and Vacuum Circuit Breakers, June, 1980 6 AUXILIARY SWITCHES AND WIRING SIEMENS-ALLIS AUXILIARY SWITCH The Type 0-10 auxiliary switch performs dependably with 20 ampere continuous current capacity to operate control circuits and indicating lights. Each stage may be adjusted individually without disassembly or removal of wiring. These switches are used on both the circuit breaker and the cubicle. f Voltage : Y>`��INT,ERRUPTING RATINGS '. Non Inductive ^� = Current { lnducttve Current ; 24 VDC 40 30 48 VDC 30 20 125 VDC 15 10 250 VDC 8 5 110 VAC 75 30 220 VAC 50 25 440 VAC 25 — CUBICLE MOUNTED AUXILIARY SWITCHES (MECHANISM OPERATED-MOC) When specified, extra auxiliary switches can be mounted on the left-hand side of the cubicle. Switches are operated by a notched lug attached directly to the circuit breaker mech- anism main crank and are available in 8, 12 and 16 stages. The making point of each stage can be adjusted completely individually in 15-degree steps. The rotor is adjusted by pressing the contact to side and rotating it within its insulated housing until it snaps into desired position. WIRING The secondary and control wiring is brought to terminal blocks which have numbered points for identification. Additional terminal blocks are supplied for all secondary and control connections leaving the metal -clad cubicle. Standard secondary and control wiring is NEC Type SIS in- sulated for 600 volts and is no smaller than No. 14 AWG. Wiring between cubicles is carried in an accessible wiring trough. TRUCK OPERATED (TOC) CELL SWITCH The truck operated switch is mounted at the rear of the cubicle and is actuated by the circuit breaker when it is in the connected position. These are push button operated switches and are available in stackable elements with a maximum of six contacts in combinations as shown. } t Volts ;120 Z40 48t?. 66Q` 125 250; Make & Interrupting Capacity 60 30 15.0 12.0 1.1 0.55 Normal Load Break 6 3 1.5 1.2 1.1 0.55 Continuous Current 10 10 10.0 10.0 10.0 10.00 154767 Auxiliary switches are accessible for easy adjustment. opo", gal Panel door (5 kV unit) is shown open to reveal the newest wii techniques and cubicle mounted auxiliary switches. IMOC) Truck operated switch (TOC). I NC Qs Q j D 1 NO a1 NC 1-0-1-01 O 2 NO 2NC G 1NO CONTACTS FOR TOC t 40 t •ing 1 SIEMENS-ALLIS Page 24 CONVENIENT FULL -PANEL METERING AND SWITCHING All instruments, meters and relays are standard switchboard type for mounting on the cold roiled steel panels. Conven- tional semiflush mounted case has a dull black finish. All Siemens -Allis meters and relays, if available as standard, are of the draw- with metalcl out type with built-in test devices. One test plug is fur- maintain plus nished for testing drawout equipment. 196 accuracy. Indicating and recording instruments, meters and relays are of the rectangular type, semiflush mounted. Special instruments will be furnished upon request. All scales have a suitable range and are designed with black letters on a white background. Indicating laml CONTROL AND INSTRUMENT SWITCHES Typical Slemen All switches furnished are switchboard type. They are of handle types. rotary -type construction, with two contacts per stage. Circuit breaker control switches have pistol -grip handles, instrument switches have round notched handles, and trans- fer or auxiliary switches have oval handles. Standard switches have black handles. All circuit breaker control switches have a mechanical flag indicator which shows a red or green marker to indicate the last manual operation of the switch. Ratings ... Standard 210 switches are rated for 20 ampere continuous duty with 600 volts insulation. r aCirciitt Ntamenter lnterrulitlltgAmp3 } Voltage�,iaduc>tive Noa-Inductive; 125 30 50 ac 250 15 25 600 3 5 125 4 8 do 250 1 2 600 0.2 1 0.5 When switches are required for special applications — refer to factory. 11-79 :...... v..en.e 4..... i.k. l 3429"-79 Siemens -Allis standard instruments have taut -band suspension and 2400 scales. 3* 210 Switch. SIEMENS-ALLI S Medium Voltage Horizontal Drawout Jul Metal -Clad Switchgear Page 25 5 and 15 kV Air Magnetic and Vacuum Circuit Breakers. June, 1950 ACCESSORIES The following accessories will be supplied, but not housed: 1 — Racking lever. 1 — Maintenance closing spring blocking device (to per- mit slow closing air magnetic circuit breakers). 1 — Fifth wheel. 1 — Test plug, less cable, for drawout relays and watt- hour meters. 1 — Split plug jumper (standard) or 1-test cabinet (op- tional). 1 — Floor plate racking extension (for type F indoor units). 1 — Transfer truck (for conventional outdoor switchgear only). 1 — Arc chute support stand (air magnetic circuit break- ers). 1 — Manual spring charging crank. Test devices — either a split plug jumper or test cabinet — are available for testing the circuit breaker outside of its cubicle. The split plug jumper is used to bridge — with a flexible cable — the secondary disconnects so that the circuit breaker can be electrically closed and tripped with the control switch on the instrument panel. The steel test cabinet is connected to a plugging device by a flexible cable. It can be either bench- or wall -mounted re- motely.from the switchgear, near a suitable power source that must be wired into the cabinet by the user. The split plug jumper should be specified when normal maintenance is to be done in front of the switchgear. When circuit breakers are to be tested in a separate maintenance area, the test cabinet is recommended. SIEMENS-ALLIS Page 26 OUTDOOR HOUSINGS side of the enclosure and sill channels are undercoated with asphaltic material. Two types of outdoor housings — conventional and Shelter- The switchgear is shipped in convenient groups for erection Clad — are available to meet any application. Both types in the field, and shipping groups ordinarily do not exceed can be furnished with all classes of.high voltage metal -clad fifteen (15) feet in length. switchgear. Conventional Design The switchgear consists of circuit breaker and auxiliary cubicles located in a steel housing of conventional weather- proof construction. Each compartment is equipped with hinged front and rear doors with provision for padlocking. The following equipment is furnished within each cubicle: a. Two (2) lamp receptacles for interior illumination, one in front and one in the rear. b. One (1) utility duplex receptacle, for electric tools, etc. c. One (1) space heater, 500 watts, 240 volts, A.C. d. One (1) thermostat to control space heater. A switch for all the space heaters and a switch for all the lights will be conveniently located in one cubicle. The complete assembly rests on three (3) — 6" high sill channels running parallel to the length of the switchgear. Steel plates are supplied for covering the space between the ends of the sills to prevent entrance of debris. The under- side of the enclosure and sill channels are undercoated with asphaltic material. The switchgear is shipped in convenient groups for erection in the field. Shipping groups do not exceed fifteen 05) feet in length. Necessary erection hard- ware is furnished. Shelter -Clad Design — Single Aisle The Shelter -Clad switchgear consists of indoor type circuit breaker and auxiliary cubicles located in a weatherproof steel housing having an operating aisle space of sufficient size to permit withdrawal of the circuit breakers for inspec- tion, test or maintenance. An access door is located at each end of the aisle, with provision for padlocking on the out- side, but also arranged so that the door can be opened from the inside regardless of whether or not it has been pad- locked on the outside. The aisle space has adequate incan- descent lighting which is controlled by means of a three- way switch at each access door. Included in the switchgear are the following: a. One (1) space heater, 500 watts, 240 volts, A.C. in each unit. b. One (1) thermostat in each cubicle to control space heater. c. Two (2) utility duplex receptacles, one at each access door, for electric tools, extension cords, etc. The complete assembly rests on four (4) — 6" high sill channels running parallel to the length of the switchgear. Steel plates are supplied for covering the space between the ends of the sills to prevent entrance of debris. The under - The weatherproof enclosure for the aisleway is shipped in sections for ready erection in the field. Necessary erection hardware is furnished. i HAI ME SIEMENS-ALLI S Medium Voltage Horizontal Drawout 1 Metal -Clad Switchgear ;3Page 27 5 and 15 kV AirMagneticand.Vacuum Circuit Breakers. June, 1980 OUTDOOR HOUSINGS Shelter -Clad Design — Common Aisle The Shelter -Clad switchgear consists of two (2) lineups of indoor type circuit breaker and auxiliar units located in a weatherproof steel housing having a common operating aisle space of sufficient size to permit withdrawal of the cir- cuit breakers for inspection, test, or maintenance. An access door is located at each end of the aisle, with provision for padlocking on the- outside, but also arranged so that the door can be opened from the inside regardless of whether or not it has been padlocked on the outside. The aisle space will have adequate incandescent lighting which will be con- trolled by means of a three-way switch at each access door. Included in the switchgear are the following items: a. One (1) space heater, 500 watts, 240 volts, A.C. in each cubicle. b. One (1) thermostat in each cubicle to control space heater. c. Two (2) utility duplex receptacles, one at each ac- cess door, for electric tools, extension cords, etc. The complete assembly rests on five (5) — 6" high sill channels running parallel to the length of the switchgear. Steel plates are supplied for covering the space between the ends of the sills to prevent entrance of debris. The underside of the enclosure and sill channels are under- coated with asphaltic material. The switchgear is shipped in convenient groups for erection in the field, and shipping groups ordinarily do not exceed fifteen (15) feet in length. The weatherproof enclosure for the aisleway is shipped. in sections for ready erection in the field. Necessary erection hardware is furnished. Shelter -Clad Design SIEMENS-ALLIS Page 28 OUTDOOR HOUSINGS Shipment and Assembly Shelter -Clad switchgear is shipped in two portions, one fac- tory assembled and one boxed. The factory assembled por- tion contains the metal -clad switchgear, one-half the hous- ing, and the wall from the sheltered aisle opposite the unit panel doors. The boxed portion contains the knocked -down shelter aisle including floor plates, roof deck, roof channels, and door braced for shipment. Every precaution is taken to insure its safe arrival. In assembly the switchgear lineup is supported by six-inch base I -beams and rests on preset concrete foundation piers or a poured slab — the only foundation preparation needed prior to receiving the outdoor equipment. After the factory assembled portion of the outdoor group is in position, the aisleway portion is easHy constructed. The front wall, which covers the meter panels during shipment, is removed and placed Ln position to form the front wall of the aisle. The aisle sill is set into position and the wedge plates, door assemblies, roof decks, and floor plates are then bolted into place. Adjacent roof plates are bolted together, forming a joint between plates that runs parallel to the slope. Each bolt holds U-shaped brackets in plape, one leg extending above the joint. A cover channel 'slides into place towards the gable, covering the joint. The channel engages the bracket extensions with welded clips inside the channel as it slides toward the peak. The channel is then secured at the peak by interlocking with pre-cut notches in the gable. This results in a rigid joint that is free of hardware. The completely assembled unit is firmly secured to the piers and the cable or bus connections are attached. Insert breakers and the lineup is ready for service. 207416 Door assembly is packed in shipping box with floor plates, roof decks, and associated hardware. Front wall covering meter panels is removed and placed in position to form the front wall of the aisleway. Roof decks are fastened together using channel washers. The joint channels are placed so that inside clips engage channel washers. Channel is then slid toward peak. Gasketing is not required. S I E M E N S-ALLI S Medium Voltage Horizontal Orawout Metal —Clad Switchgear 301 Page 29 5 and 15 kV Air Magnetic and Vacuum Circuit Breakers. June, 1980 5 kV CIRCUIT BREAKER DATA Ya - :r SIEMENS aLL15 i'1(PE� �NrA 25Q MA35Qv FA-S5Q k+' § t�Y _ts`� #k,: R.^'C' �+'1S y�"C.m 'rY .,,� �AIRF l TYPEI _ AIR, AtR ` ,INTERRUPTER �� "��,,�" MAGNETIC MAGNETIC MAGNETtCv= ,�. Description Nominal Voltage Class — kV, RMS............................ 4.16 4.16 4.16 Nominal 3 Phase MVA Class ................................ 250 350 350 Voltage Rating Rated Maximum Voltage — kV, RMS .......................... 4.76 4.76 4.76 Rated Voltage Range Factor — K............................. 1.24 1.19 1.19 Current Ratings Rated Continuous Current at 60 Hz — AMP, RMS.................. 1200 1200 — 2000 2000 — 2500" 2500. 3000 Rated Short Circuit Current at Rated Maximum 3750 • Voltage (Symetrical) — kA, RMS............................ 29 41 41 Rated Interrupting Time Cycles............................................... 5 5 5 Maximum Permissible Tripping Delay (Y) Sec ... ........ ... ........ ... 2 2 2 Insulation Level Rated Withstand Test Voltage Low Frequency — kV, RMS ............................... 19 19 19 ' Impulse Crest — kV .......... ..... ................. 60 60 60 Related Required Capabilities Minimum Voltage (Max. Voltage/K) — kV, RMS................... 3.85 4.0 4.0 Maximum Symetrical-lnterrupting Capability — kA, RMS................................... 36 49 49 Short -Time (3 Sec.) Current Carrying Capability — kA, RMS................................... 36 49 49 Closing and Latching Capability — kA, RMS Std................... 58 78 78 Available (Special Order) .................................. 78 — — S Factor ..............................:.............. 1.21 1.21 1.27 Operating Time From Energizing Trip Coil Until Contacts Part, Milliseconds........... 30 30 27 From Energizing Close Coil Until Contacts Touch, Milliseconds ........ 65 65 76 Spring Charging Time ) Stored Energy, Seconds .. • ................ 3 3 3 Length of Break Between Arcing Contacts (Inches) ................. 5.5 5.5 9.3 Weights (For Standard Close & Latch Ratings) 1200 Ampere — Net ..................................... 734 834 — 2000 Ampere — Net ..................................... 834 884 — 3000 Ampere — Net ..................................... — — 1625 1200 Ampere — Shipping ................................... 824 924 — 2000 Ampere — Shipping .................................. 924 974 — 3000 Ampere — Shipping .................................. — — 1800 K = Rated Voltage Range Factor S = Ratio of Required Asymmetrical Interrupting Capability to Symmetrical Interrupting Capability " The 2500 and 3750 Ampere Ratings are Achieved with Fan Cooling. SIEMENS-ALLIS Page 30 15 kV CIRCUIT BREAKER DATA SIEMENS-ALUS TYPEx',. S $ "} r ° F8.500A ' FB•500A; FG5008 r4'r fC 7508. FC 10008 fCV-500 . FCV-750 .Yvi4''L,'K4. s.'fy .'E *' 1NTERROPTER' TXfk!�! �rt Atr. �A �e IYIr 1. "SRN t} r J'Y ' „ aenum Yaouum t Magnetic Magnez�c d Magnetica* 1Ulagnetic= Magnetic �, .^ h�.r .� is*..x.«.,, w..".t.N: c� a �d,:�a`�w. ,.: s.t�sJ•�i Description Nominal Voltage Class - kV, RMS ........... 7.2 7.2 13.8 13.8 13.8 13.8 13.8 13.8 Nominal 3 Phase MVA Class ............... 600 500 600 750 750 1000 500 750 Voltage Rating Rated Maximum Voltage - kV, RMS ......... 8.25 8.25 15 15 15 15 15 15 Rated Voltage Range Factor - K ............ 1.25 1.25 1.30 1.30 1.30 1.30 1,30 1.20 Current Ratings Rated Continuous Current at 60 Hz -AMP, RMS.. 1200 1200 1200 1200 1200 1200 2000 2000 2000 2000 2000 2000 2500' 3000 2500' 2500' 2500- 2500' 2500' 3750' 3000 3000 3000' 3000' 3750' 3750' Rated Short Circuit Current at Rated Maximum Voltage (Symmetrical) - kA, RMS .......... 33 33 18 28 28 37 18 28 Rated Interruptifg Time Cycles ............................. 5 5 5 5 9 5 3 3 Maximum Permissible Tripping Delay (1) Sec. 2 2 2 2 2 2 2 2 Insulation Level Rated Withstand Test Voltage Low Frequency - kV, RMS............... 36 36 36 36 36 36 36 36 Impulse Crest - kV ................... 95 95 95 95 95 95 95 95 Related Required Capabilities Minimum Voltage (Max. Voltage/K)-kV, RMS... 6.6 6.6 11.5 11.5 11.5 11.5 11.5 12.5 Maximum Symmetrical Interrupting Capability - kA, RMS .................. 41 41 23 36 36 48 23 34 Short -Time (3 Sec.) Current Carrying Capability - kA, RMS .................. 41 41 23 36 36 48 23 34 Closing and Latching Capability-kA, RMS Std. 66 66 37 58 58 77 37 58 Available (Special Order) ................. 77 77 58 77 77 - 58 77 S Factor ........................... 1.21 1.27 1.21 1.21 1.27 1.27 1.30 1.30 Operating Time From Energizing Trip Coil Until Contacts Part, Milliseconds ........................ 31 27 31 31 27 27 22 22 From Energizing Close Coil Until Contacts Touch Milliseconds ........................ 71 76 71 71 76 76 51 51 Spring Charging Time - Seconds ............ 3 1 3 3 3 1 3 3 1 3 3 Length of Break Between Arcing Contacts (Inches) ..................... 7.5 9.3 7.5 7.5 9.3 9.3 .75 .75 Weights (For STD Close & Latch Ratings) 1200 Ampere - Net ..................... 1780 - 1275 1790 - 2200 800 800 2000 Ampere - Net ..................... 1900 - 1375 1900 - 2320 925 925 3000 Ampere - Net .................... - 2185 - - 2285 2360 - - 1200 Ampere - Shipping ................. 1930 - 1425 1930 - 2375 950 950 2000 Ampere - Shipping ................. 2050 - 1525 2050 - 2495 1075 1075 3000 Ampere - Shipping ................. - 2360 - - 2460 2535 - - K = Rated Voltage Range Factor S = Ratio of Required Asymmetrical Interrupting Capability to Symmetrical Interrupting Capability The 2500, 3000, and 3750 Ampere Ratings are Achieved with Fan Cooling El l� U SIEMENS -ALLI S Medium Voltage Horizontal Orawout 301 Metal -Clad Switchgear -Page 31 5 and 15 kV Air Magnetic and Vacuum Circuit Breakers. June, 1980 5 W CIRCUIT BREAKER DATA 1w Siemens=Allis Type with Stored Energy`Operator r „AMA=250F :,'f.(III�l=35Q "=" FA450 ' ,.. w,-..•�,� :- d �;,,,.�z�•!,.� ..,y� Interrupter Type `�`yt ,;�y.lM �-� .,i1�r.Magnetzc.� � ...w.��ArrMagnet�c i+ k n!f. . ,.. __' �� ti.� � ..Air;Magnetia; ... .. Y . Continuous Current Rating` A`;t 1<20QA' ""3000A' M �E200A °.2000A v a 3000A R .` Trip Coil (80 E/R) - Amps 24 volts do (14-30)......................... 26.0 26.0 26.0 26.0 - 48 volts do (28-60)........................ 8.0 8.0 8.0 8.0 30.0 125 volts do (70.140)....................... 4.0 4.0 4.0 4.0 12.0 250 volts do 040-280) ...................... 2.0 2.0 2.0 2.0 7.0 115 volts ac (95-125) ....................... 7.0 7.0 7.0 7.0 7.0 230 volts ac (190-250) ...................... 4.0 4.0 4.0 4.0 4.0 Capacitor (115/230) ..... ... ..... 1.0 1.0 1.0 1.0 1.0 Spring Charging Motor - Amps 48 volts do (35-50)........................ 12.0 12.0 12.0 12.0 15.0 125 volts do (90.130) ....................... 7.0 7.0 7.0 7.0 8.0 250 volts do 0 80-260) ...................... 3.0 3.0 3.0 3.0 4.0 115 volts ac (95-130) ....................... .8.0 8.0 8.0 8.0 11.0 230 volts ac 090.250) . ..................... 4.0 4.0 4.0 4.0 5.0 tSpring Release Coil - Amps 24 volts do 08-30)........................ 26.0 26.0 26.0 26.0 26.0 48 volts do (35-50)........................ 8.0 '8.0 8.0 8.0 8.0 125 volts do (90-130)....................... 4.0 4.0 4.0 4.0 4.0 250 volts do (180-260) ...................... 2.0 2.0 2.0 2.0 2.0 115 volts ac (95-125) ....................... 7.0 7.0 7.0 7.0 7.0 230 volts ac 0 90-250) ...................... 4.0 4.0 4.0 4.0 4.0 15 W CIRCUIT BREAKER DATA �M, ;sd 5, a Sremens Atfis Type with "� Y a<.".:,4 b F"OOA ��)FC-B �^^�,Y# N� �± c �, 1 y 'i'r �1 "FC-000 tx CV-50QrFCV 75E1 Energy Opi:rator:;, FG7,6Q¢ = M,.'..•".. =� . r;Stored -.x',.hx ..f.°°< f a- y r•3rAY c' � Interrupter.Type x� - *z ". a; 4�r Magnetic, ♦ Magneticy g. i' t EUr Magnetics rc sVatuuma y V'acuu., y ➢1..Y+1'. $e.u"a',.i& h.. r. L-G 4v€'' trA�r S:-..F...i+.. ..,.: .',.< s`.. ILL. .41-1,.ac ..w"wtkxd l¢s e%i'L e�'sv ewLs.+.rnii5:Y9: Continuous Current Rating 1200A 3000A� 1200A 2000A 12500A*2000A 1200A 2500A' 1200A 2000A� 1200A 2000A� 2000A 2500A• 3750A 3000A 3750A' 2500A 3000A' 2500A 3000A' tTrip Coil - Amps 1Ei.0 24 volts do (14-30)...... - 26.0 - 26.0 26.0 48 volts do (28-60)...... 8.0 30.0 8.0 30.0 8.0 8.0 125 volts do (70-140)..... 4.0 12.0 4.0 12.0 4.0 4.0 250 volts do (140-280) .... 2.0 7.0 2.0 7.0 2.0 2.0 115 volts ac (95-125) ..... 7.0 7.0 7.0 7.0 7.0 7.0 230 volts ac 090-250) .... 4.0 4.0 4.0 4.0 4.0 4.0 Capacitor (115/230) ..... 1.0 1.0 1.0 1.0 1.0 1.0 Spring Charing Motor - Amps 48 volts do (35-50)...... 12.0 15.0 12.0 15.0 12.0 12.0 125 volts do (90- 130). . . . . 7.0 8.0 7.0 8.0 7.0 7.0 250 volts do 080-260) .... 3.0 4.0 3.0 4.0 3.0 3.0 115 volts ac (95-130) ..... 8.0 11.0 8.0 11.0 8.0 8.0 230 volts ac 090-250) .... 4.0 1 5.0 4.0 5.0 4.0 4.0 tSpring Release Coil - Amps 24 volts do (18-30)...... 26.0 26.0 26.0 26.0 26.0 19 48 volts do (35-50)...... 8.0 • 8.0 8.0 8.0 8.0 9 125 volts do (90.130) ..... 4.0 4.0 4.0 4.0 4.0 4 250 volts do (180.260) .... 2.0 2.0 2.0 2.0 2.0 2 115 volts ac (95-125) ..... 7.0 7.0 7.0 7.0 7.0 7 230 volts ac (190-250) .... 4.0 4.0 4.0 4.0 4.0 4 rorced Air Rating. t80°% E/R Values above represent average currents. Inrush currents may be 4 to 8 times these values. SIEMENS-ALLIS Page 32 DIMENSIONS AND INSTALLATION DATA 5 kV INDOOR . � 4 n .� } CIRCUI, B EAKER RIJIIIGS . A _ " , .� F. �Si RUC7'LiiRA , DIMENSIONS UN�CHESY Crrciirt M8X Y >ri�-- Cont. 8rea�Cer Design r#errt ' �IVeigh# hype ' Drawott ll:: Y F g ht Ype �Rated� x (Lbs � , MA-250 4.16 4.76 1200 734 DM 26 72 74* 50 18-1/4 13 1200 MA-250 4.16 4.76 2000 834 DM 26 72 74* 50 18-1/4 13 1200 MA-350 4.16 4.76 1200 834 DN 26 72 74* 50 18-1/4 13 1200 MA-350 4.16 4.76 2000 884 DN 26 72 74* 50 18-1/4 13 1200 FA-350 4.16 4.76 1 3000 1 1625 DN 36 92 94 66 24-1/4 33 1800 *For units with 3000 amp main bus, depth is 76 inches. Maximum shipping group ... 7 units. Additional weight for impact loading is equal to the sum of the weights of the circuit breakers involved. A 22.1/2 1.9/I ACCESS AISLE PRIMARY CABLE AREA lie UPFEED DOWNFEED 7.7/I F E - a-aassRr 1 s �e s JtJe'sa�sT1 - 7 7/I + It-ld �a.l 1 IG 2[A P SECONDARY CABLE AREA OOWNFEED U►FEED Dal ANCHOR BOLT ACCESS CABLE ON, $1 AREA s>. s-sa-I.s PA lie i. +1/2 O 7/80A. i • ��\ , ORAWOLFT BOLT HOLES �/ AISLE IN FLOOR 41 ALLOWANCE FOR PANEL SWING ON END UNIT FLOOR PLAN TOPCABLE COMPARTMENT INTER,UN IT }1/I ACCESS PANEL WIRING TROUGH VENT ..EFT BIDE WIRING TROUGH INSTRUMENT PANEL HINGED BARRIER CURRENT L TRANSFORMER CURRENT PRIMA] TRANSFORMER DI N COMPARTMENT CIRCUIT CIRCUIT r BREAYER 1 SECONDARY DISCONNECT or INTERLOCK OMINIMUM MECHANISM AISLE SPACE I C • TYPICAL SIDE VIEW CABLE ENTRANCE COMPARTMENT POTENTIAL TRANSFORMER ABLE LUG • REAR REMOVABLE PANELS —BUS KARS CABLE SUPPORT CABLE ENTRANCE COMPARTMENT BUS COMPARTMENT Carefully check that switchgear not furnished with supporting beams is in firm contact with the sills. DO NOT FORCE CUBICLE INTO FIRM CONTACT BY DRAWING DOWN MOUNTING BOLTS. THIS MAY DISTORT CUBICLE. Place 4 x 4 inch shims, if neces- sary, in the area of the mounting bolts to get firm contact. Sill channels and anchor bolts are normally furnished by the purchaser. WHEN SHIMS ARE REOUIRED,= CUSTOME APPLY THEM BETWEEN THE ►ROIECI SILL AND SWITCHGEAR. gURFACEI APPLY SHIMS AT THE UNIT POINT WIT MOUNTING BOLT LOCATIONS CIRCUIT•REAKER ONLY.COVERED DRAWOUT SIDE BOLT OR WELD CUBICLE TO SILL B E' �• • • • * v I %1 • 11 1 Y e • • • • • • • • 0 0 e • • • • • a e o O • e' e • • o • e • e eo • • • • e • e After switchgear is leveled and permanently welded or bolted in place, apply asphalt or epoxy grout between the foundation and the cubicle floor. Slope the grout so the breaker can be easily wheeled in and out of the cubicle. Conduit height not to exceed 1-1/2" above floor. 4))l S I E M E N S-ALLI S Medium Voltage Horizontal Drawout ;03 01 Metal —Clad Switchgear Page 33 5 and 15 kV Air Magnetic and Vacuum Circuit Breakers. June, 1980 GENERAL ARRANGEMENTS 5 kV INDOOR 27---1 TRANSFORMER _ CONNECTION •10 2 i Power Transformer Secondary Circuit Breaker. DISCONNECT SWITCH Transfer Bus. BUS BARS 200 AMP C 2000 AMP Bus Tie Cubicle (Transition Cubicle Not Needed.) CTENSION POTENTIAL TRANSFORMER TILTED OPEN Bus BARS 200 AMP OR 2000 AMP, SUPPORT PLATE Feeder Breaker on Right Hand Side of Bus Tie Cubicle. FUSE (FOR CONTROL FUSE TRANSFOR1Qf HOLDER 734 INCOMING CABLE LUGS i I RHEOSTAT curvtrtUL PLATE TRANSFORMER Generator Control Auxiliary Cubicle. 13-1/16 RESISTOR FIELD FIELD APPLICATION CONTACTO PR ANEL PANEL SPACE FOR SECOND FIELD PANEL e SHUNT Circuit Breaker Cubicle to Motor Starter. Circuit Breaker Cubicle Bus Duct. . Synchronous Motor Control Auxiliary Cubicle. 301 SIEMENS•ALLIS Page 34 DIMENSIONS AND INSTALLATION DATA 15 kV INDOOR CIRCUIT BREAKER RATINGS ,�,�> , ,� „ STRUCTURAL DIMENSIONS IfNCHESI "�^ CEreutt Rated AlNax. font, tlVefghf °# L A CA WeiyhY Breaker +r g ItV� 17eilgp� Current {Lbs) Type; a1e�91t De'Qth Qrawout` '1 O `, (Lbs i Type kV, Amps) • = :, :.'�,isle� :,r FB-500 7.2 8.25 1200 1780 FO 92 94 66 20-5/8 1800 FB-500 7.2 8.25 2000 1900 FO 92 94 66 20.5/8 1800 F B-500 7.2 8.25 3000 2185 FO 92 94 66 20.5/8 1800 FC-500 13.8 15.0 1200 1275 FO 92 94 66 20.5/8 1800 FC-500 13.8 15.0 2000 1375 FO 92 94 66 20-5/8 1800 FC-750 13.8 15.0 1200 1780 FQ 92 94 66 20.5/8 1800 FC-750 13.8 15.0 2000 1900 FO 92 94 66 20.5/8 1800 FC-750 13.8 15.0 3000 2285 FQ 92 94 66 20-5/8 1800 FCV-500 13.8 15.0 1200 800 FO 92 94 66 20-5/8 1800 FCV-500 13.8 15.0 2000 925 FO 92 94 66 20.5/8 1800 FCV-750 13.8 15.0 1200 800 FQ 92 94 66 20-5/8 1800 FCV-750 13.8 15.0 2000 925 FO 92 94 66 20.5/8 1800 FC-1000 13.8 15.0 1200 2200 FFI 100 94 66 20-5/8 1800 FC-1000 13.8 15.0 2000 2320 FR 100 94 66 20-5/8 1800 FC-1000 13.8 15.0 3000 2360 FR 100 94 66 20-5/8 1800 Maximum shipping group ... 5 units. Additional weight for impact loading is equal to the sum of the weights of the breaker involved. 4 CABLE ENTRANCE POTENTIAL FOR TIN VENT }-, COMPARTMENT TRANSFORMER MVA RATINGS r•-----7--------� ,J AU ' i INTER"VNIT T T ' WIRING TROUGH I I _I►RIMARY i DISCONNECT 74-1/E �- 1611E INSTRUMENT - REAR PANEL CABLE PRIMARY CABLE AREA TORROIOAL / LUG R PANELS MOVABLE U►FEED OOWNFEEO CURRENT ` OAD ` A HINGED TRANSFORMERS ` .. � :� BARRIER - � CABLE 7•112 PATH N = i FUPPORT 1 _ CURRENT �/ 7 CIRCUIT BRFAKFP PRIMARY -"7 DISCONNECT � 1 E - SECONDARY r--1 GROUND 1 1E DISCONNECT L J BAR \BUS BUS BARS S/E DIA, BOLT HOLES COMPT. IN FLOOR CURRENT 1/ 76 INTERLOCK TRANSFORMER ENTRANCE MECHANISM COMPARTMENT]I COMPT. C MINIMUM B AISLE AM e TYPICAL SIDE VIEW e I Carefully check that switchgear not furnished with supporting beams 4aaro is in firm contact with the sills. DO NOT FORCE CUBICLE INTO FIRM CONTACT BY DRAWING DOWN MOUNTING BOLTS. SECONDARY CABLE AREA THIS MAY DISTORT CUBICLE. Place 4 x 4 inch shims, if neces- DOWNFEEO UPFEED 1 sary, in the area of the mounting bolts to get firm contact. Sill O ANCHOR channels and anchor bolts are normally furnished by the purchaser. BOLT ACCESS y CUSTOMERS FLOOR MUST NOT WHEN SHIMS ARE REGUIRED, PROJECT ABOVE MOUNTING �= APPLY THEM BETWEEN THE 4 SURFACE OF CHANNELS AT ANY SILL AND SWITCHGEAR. POINT WITHIN THE FLOOR AREA APPLY SHIMS AT THE UNIT COVERED BY THE SWITCHGEAR CIRCUIT MOUNTING BOLT LOCATIONS CUBICLES. BREAKER ONLY. DRAWOUT BIDE 16"1/1B BOLT OR WELD 1E.1/7 7"S/7 S.. CUBICLE TO SILL _ Lj7" s/ro �.. 745l16 L1A 1l. .. ° • • e o e • Dn�lwolrt !After • • C • • • • o 0 o e p ° • • ° ALLOWANCE ONDUIT HEIGHT NOT TO EXCEED 1.1/2" ABOVE FLOOR. FOR PANEL SWING ON END UNIT Floor Plan. switchgear is leveled and permanently welded or bolted in ce, apply asphalt or epoxy grout between the foundation and the cubicle floor. Slope the grout so the breaker can be easily wheeled in and out of the cubicle. l ,1 44 SIEMENS-ALLIS Medium Voltage Horizontal Drawout Metal —Clad Switchgear 301 Page 35 5 and 15 kV Air Magnetic and Vacuum Circuit Breakers. June, 1980 Aft GENERAL ARRANGEMENTS 15 kV INDOOR E-4133 Circu LOAD SIDE CURRENT TRANSFORMER BUS SIDE CURRENT T :ANSFORMER7 aker Unit Cubicle Downfeed or Upfeed. Circuit Breaker Unit — Downfeed with Pothe Circuit Breaker Cubicle Upfeed. ad. PROVISION _-� �% FOR DRAWOUT DISCONNECT POTENTIAL FUSE �� TRANSFORMER # r r ENTIAL NSFOAMEI r � i r Typical Auxiliary Cubicle. Circuit Breaker Cubicle (with Superstructure) 11 OR 14 Bus Tie Cubicle (Transition Cubicle Not Needed.) multiple potheads. The Top Front Compartment of an Auxiliary Unit can also be used for a Trunion Mounted CPT (up to 15kVA Single Phase) 301 SIEMENS-ALLIS Page 36 DIMENSIONS AND INSTALLATION DATA 5 kV OUTDOOR CONVENTIONAL UNIT HOUSINGS Inter �``I DIMENSIONS (Inches) -Unit r ' Wiring Duct i ` ell_ rr Sea >sage 38 �F �rA `'; A 463/4 B 105 C 102 D 98 E 102 F 109 G 60-5/8 H 6.3/8 J 21.3/4 K 61-5/16 Max, Shipping 7 Units Groups (See Page 38) UNIT. D EStGNATI ON" MA-250 DOM MA-350 ODN I FA-350 DON SPACE AVAILABLE IN FLOOR FOR OUST. PRIMARY CI a INCH S Transformer r i r I F Lugs . Up or Down Feed V Crrent Transformer 1 C.Ompermlerlt Bus Clrcu)t IFBreaker 1 Banged j ! Barrier i I i LI \13 \\ C = E \\\ 1 f1F\1 IlkL CATION OF CUSTOMER 1 13� i 4ANCHOR sous E z \\ 5-kV ACCESS \\� E %�, e OUTED INTO fOUNDAT10N Y ¢ v AISLE 1 1 41 JL 6I SPACE AVAILABLE 18 Iq IN FLOOR FOR OUST. SECONDARY CONN. • loz 60 REC. DRAW OUT For FA-350 ODN Units, see SPACE Dimensions and Floor Plan on Page 37. FLOOR PLANS. BOLTING ARRANGEMENT UNIT FLOOR • CONDUIT HEIGHT NOT , ABOVE teo UNITF FLOOR FOUNDATION REQUIREMENTS ABOVE UNIT FLOOR 3/•"HEX. NUT__— FURN.SYCLIST. 2-W4 2-3/4 Supporting concrete pads, piers or pilings must be con- structed with true surfaces and in the same plane to within CLASHER = 1/16 inch. On groups supported on 4 x 6 — 12 Ibs/ft beams, WASHER FURN. By AC L_ the maximum span between supports must not exceed nine =/FURNCHORBOLT �• feet. The diameter of pilings must not be less than 12 inches FURN, BY CIAO, P 9 _::� REPOOSSi off for maximum contact with the beams. Supports must be SEEFLAN located at shipping splits. CA SIEMENS-ALLIS Medium Voltage Horizontal Drawout 301 Metal—Clad Switchgear Page 37 5 and 15 kV Air Magnetic and Vacuum Circuit Breakers. June,1980 DIMENSIONS AND INSTALLATION DATA 15 kV OUTDOOR CONVENTIONAL UNIT HOUSINGS ao ACCESS AISLE — S— FLOOR PLAN. rl r_c. urlAvvuu I SPACE BOLTING ARRANGEMENT UNIT FLOOR wO[XCEED' FOUNDATION REQUIREMENTS _ ABOVE UNIT FLOOR Supporting concrete pads, piers or pilings must be con- • 3V4-NEX.NUT _'�[ =ve /URN.eTOUST. I Qe structed with true surfaces and in the same plane to within : 1/16 inch. On groups supported on 4 x 6 — 12 Ibs/ft beams, CLAMPING .� H6TA{ the maximum span between supports must not exceed nine = �. feet. The maximum span for units with 1000 mva breakers 7N-ANCNOR[OLT PUR�' is six feet. The diameter of pilings must not be less than PER ►OSITION [EE►LAN 12 inches for maximum contact with the beams. Supports must be located at shipping splits. SIEMENS-ALLIS Page 38 5 kV GENERAL ARRANGEMENTS 5 & 15 kV OUTDOOR CONVENTIONAL UNIT HOUSINGS Circuit Breaker Unit Housing — Downfeed with Lugs. Circuit Breaker Unit Housing — Upfeed with Roof Bushings. r 6 --_ Auxiliary Unit Housing. 15 kV Circuit Breaker Unit Housing — Downfeed with Lugs. 1.0 Circuit Breaker Unit Housing — Upfeed with Roof Bushings. Circuit Breaker Unit Housing — Downfeed with Pothead. nl 4 TRANS. TNNOIT (USES Li . ►1, comp, o 62 I } 71 C►T C Auxiliary Unit Housing. SIEMENS-ALLI S Medium Voltage Horizontal Drawout 3 1 Metal Clad Switchgea` Page 39 5 and 15 kV Air Magnetic and Vacuum Circuit Breakers. June, 1980 DIMENSIONS AND INSTALLATION DATA 5W OUTDOOR SINGLE AISLE SHELTER -CLAD HOUSINGS BREAKER SPECIFICATIONS t ` $ w. STRUCTURAL' NS QtMENS10(inchel _~ , Contln A r R C w II Weight Breaker ' a . uous .Weight Unit width B t ; Factory D E k n H (tnctuding Type Amperes Lbs Type , Depth /assembled r Aisle} Lb; ,. uipmeafq nt 5a .. MA-250 1200 734 SDM 26 150" 79-5/8 71-7/8 19 2-7/8 11-1/4 1900 MA-250 2000 834 SDM 26 150" 79-5/8 71-7/8 19 1 2-7/8 11-1/4 1 1900 MA-350 1200 834 SDN 26 150" 79-5/8 71-7/8 19 2-7/8 11-1/4 1900 MA-350 2000 884 SDN 26 150'" 79-5/8 71-7/8 19 2-7/8 11-1/4 1900 FA-350 3000 1625. SDN 36 170 99-5/8 90.7/8 21 3-1/8 16.1/4 2700 'Minimum Group Width — 52 inches (62 inches for FA-350, 3000 amps). "With 3000 amp bus, this unit is 152 inches deep. Maximum shipping group ... 7 units. Additional weight for impact loading is equal to the sum of the weights of the breakers involved. r .iY it Rr-TY - sn �.. OVFAAt L At51 F 4 �I..VRi -�iL-OILY LVY.rwLR� TRANSFORMER THROAT ..LLV-i>L-OLLY i .r-LR. 40:5-INCH 000R BOTH ENDS 1 r+'� }.— IS !j — : S�4 E P 1 93/4 FOR ►A-SSO I � AUXILIARY I t . 47 VNIT SI I 37y2 IjA 1 0 I I I►�9' +� 4 F �I 1 I L I r---- 9 M I t ( t t FEEDER UNIT ,1 1 ISO -PANEL I Bus I 1 SWING 1 IDUCT: 1 1 1 1 r-14I/2 J 1 I II 3318 SHELTERED AISLEWAY ( 1 UNIT�e FEEDER UNIT 7B WIDE I SPACE FOR CUSTOMER CONNECTIONS H PRIMARY B SECONDARY FULL FGHT LOOR _ FLOOR11 METER PANELS A OOF IeI/4 i e ROOF IM-t-M0 't I • � ----uNlr t-- ACCESS A �� 1BEAMsE10L AISLE T7�6 1 - •—uNlr E- I 1 7 ANEL SWINGLEFTRAND100 END UNIT ROOF MOUNTED L0CATI6N OF CUSTOMI PRIMARY BUSHINGS FLOOR PLAN sa rl��X'ANCMNT00 FOUNDATION e 1 A A UNIT tLOOF A X 1 i a 3/4" HEX. NUT II FURN. BY COST A 1 CLAMPING 2 1 riASHER 1 FURN. BY AC �— t A 3/4" ANCHOR BOLT FURN. BY COST. ONE OR TWO PER POSITION ` BEE PLAN CONDUIT HEIGHT NO TO EXCEED 1.1/r, ABOVE UNIT FLOOR BOLTING ARRANGEMENT FOUNDATION REQUIREMENTS Supporting concrete pads, piers or pilings must be con- structed with true surfaces and in the same plane to within 1/16 inch. On groups supported on 4 x 6 — 12 Ibs/ft beams, the maximum span between supports must not exceed 'nine feet. The diameter of pilings must not be less than 12 inches for maximum contact with the beams. Supports must be located at shipping splits. 301 SIEMENS-ALLIS Page 40 DIMENSIONS AND INSTALLATION DATA 15 W OUTDOOR SINGLE AISLE SHELTER -CLAD HOUSINGS `BREAKER SPECIFI."1�CATIONS . '.., DIMENSIONS (inches)".. ;..`.� t 1 w &eaksr Rated :w �e51 n LorIL Weiyht unit Factory Secondarlr Ovetiaft ;{ i�fICI10T (Indudm9 Type Assembled' �pemnq` bepthofTi �v {fcY k kV t jType Housing Bolt,Ais[elihs ; .1, M� . ; . t_ r� Ruipment i ovation FB-500 7.2 8.25 1200 1780 SFO 100 76-3/8 170-3/8 51 2800 FB-500 7.2 8.25 2000 1900 SFO 100 76-3/8 170.3/8 51 2800 FB-500 7.2 8.25 3000 2185 SFO 100 76-3/8 170-3/8 1 51 2800 FC-500 13.8 15.0 1200 1275 SFO 100 76-3/8 170.3/8 51 2800 FC-500 13.8 15.0 2000 1375• SFO 100 76-3/8 170.3/8 51 2800 FC-750 13B 15.0 1200 1780 SFO 100 76-3/8 170.3/8 51 2800 FC-750 13.8 15.0 2000 1900 SFO 100 76-3/8 17D-3/8 51 2800 FC-750 13.8 15.0 3000 2285 SFO 100 76.3/8 170.3/8 51 2800 FCV-500 13.8 15.0 1200 800 SFO 100 76.3/8 170-3/8 51 2800 FCV-500 13.8 15.0 2000 925 SFO 100 76.3/8 170.3/8 51 2800 FCV-750 13.8 15.0 1200 800 SFO 100 76.3/6 1743/8 51 2800 FCV-750 13.8 15.0 2000 925 SFO 100' 76.3/8 170.3/8 51 2800 FC-1000 13.8 15.0 1200 2200 SFR 100 76.3/8 180-3/8 57.3/9 2900 FC-1000 13.8 15.0 2000 2320 SFR 100 76.3/8 180-3/8 57.3/8 2900 FC-1000 13.8 15.0 3000 2360 SFR . 100 76-3/8 180.3/8 57-3/8 2900 'Unit with Superstructure is 180-3/8. "Unit with Superstructure is 57.3/8. Maximum shipping group.. . 5 units. Additional weight for impact loading is equal to the sum of the weights of the breakers involved. D I NOTES A 70 3/80vERAu AISLEu "M80-3/8 AISLE WITH SUPERSTRUCTURE FACTORY ASSEMBLED EOUI4ENT FIELD ASSEMBLED EQUIPMENT OR FC1000 40Y.-INCH 000R IB ---I TRANSFORMER �•��•NDS i 41-5/8 WITH SUPERSTRUCTURE OR FC1000. THROAT- BB -ABOVE r�t114 BOTTOM OF SILL 29 40, _ D 37-1 /2 1 434 1 AUXILIARY I. •4�� 1 1 1 UNIT ( E PTO EXCEED 1R- NDUIT HEIGHT T 71M 1 • 1 14% I..-'ly 1 E ABOVE UNIT FLOOR UNIT FLOOR / 130-PANEL :R uNIT SWING FEEDER UNIT UNIT It 1 FOR CUSTOMER CONNECTIONS PRIMARY SECONDARY 40 ACCESS AISLE .rs-- • ROOF UOUNTED PRIMARY BUSHINGS 1 2!4" HEX. NUT 2-W4 2.2/4 FURN. BY CUST. I E SHELTERED AISLEWAY i 76 WIDE STD. E CLAMPING 2 1 WASHER (or 66 WIDE I FURN. BY A-C 2 ---WITH SUPERSTRUCTURE-- OR FC1000) 1 4� `►ULL HEIGHT METER PANELS 1 1 &4" ANC BOLT r FURN. BY COST. 1 1 ONE OR TWO PER POSITION 1 SEE PLAN I.F. 1 K 1 BEAMS.` 1 Tt0 J PANEL OWING 1 K FOR LEFT NANO ENO UNIT BOLTING ARRANGEMENT FLOOR PLAN asyiy _ INTO FOUNDATION FOUNDATION REQUIREMENTS the maximum span between supports must not exceed nine feet. The maximum span for units with.1000 mva breakers Supporting concrete pads, piers or pilings must be con- is six feet. The diameter of pilings must not be less than structed with true surfaces and in the same plane to within 12 inches for maximum contact with the beams. Supports 1/16 inch. -On groups supported on 4 x 6 - 12 Ibs/ft beams, must be located at shipping splits. SIEMENS -ALLI S Medium Voltage Horizontal Drawout 301 Metal —Clad Switchgear Page 41 5 and 15 kV Air Magnetic and Vacuum Circuit Breakers. June, 1980 GENERAL ARRANGEMENTS 5 & 15 kV OUTDOOR 5 kV SINGLE AISLE SHELTER -CLAD HOUSINGS FACTORY ASSEMBLED FIELD ASSEMBLED 15 kV* EQUIPMENT EQUIPMENT LAMP 1 FACTORY ASSEMBLED FIELD ASSEMBLED i COUI►61ENT EQUIPMENT i3�s'(j/oucr z. Bull DUCT 2 10 Bus r--� 1 000a I BARS EARANCf (102 109; 1 1 92 �� CURRENT DOOR 108 ' C7 BS It ORiiE LlAR92 1 i 8s IBREAKEIM 116-7/8 C T0J18 � FOUNOA LINE Feeder Unit Housing. I I /-ROOF BUSHINGS TRANSFORMER AND FUSE A Feeder Unit Housing (Except FC1000). FACTORY ASSEMBLED YIELD ASSEMBLED EOUIPMENT EQUIPMENT + 1041 12I lit ORNERT� I I �D�� I fl Feeder Unit Housing (FC1000). LI I III � Upfeed Feeder Unit Housing. ROOF BUSHINGS 10-� DISCONNECT SWITCHTRANSFERBUSCURRENT 118 I TRANSFORMER I i _ LUGS-' - I CABLES Roof Entrance Unit Housing ,-I (Except FC1000) POTENTIAL LIGHTNING TRANSFORMER ARRESTER qN0 fUSE CURRENT THROAT CONTROL TRANSFORMER FUSE Ba BATTERIES r CONTROL — TRANSFORMER Auxiliary Unit Housing i ROOF BUSHINGS I r — Jclli 12B-1/8ply I Roof Entrance Unit Housing (FC1000) CONTROL POWER TRANSFORMER FUSE TRANSFORMERSTHROAT' CURRENT TRANSFORMER ee POTENTIAL 4r" TRANSFORMER 1] BATTERY OR CONTROL POWER TRANSFORMER Downfeed Feeder Unit Housing Auxiliary Unit Housing Height with Superstructure-137.9116 Field Assembled Segment - 80-318 •. SIEMENS-ALLts 301 Page 42 DIMENSIONS AND INSTALLATION DATA 5 kV OUTDOOR COMMON AISLE SHELTER -CLAD HOUSINGS ACCESS AISLE GABLE O D00 R PANEL Q 1Y Exec -- esT UNIT EFT" * DOOR FRAY! UNITDEPTH FACTORY ASSEMBLED EQUIPMENT FIELD ASSfMSLfO fOUIFMENT) FACTORY ASSEMBLED LOUI►MENT FLOOR PLAN TRANSFORMER THROAT ^ FROM OTTOM DOOR BOTH Ilo TO9 OF THROAT Of BEAMS ENDS �O•� 1-2 '.L UNIT —12� ♦1 10,34 SPACE AVAILABLE IN FLOOR FOR OUST. CONNECTIONS [FEEDER PRIMARY SECONDAR . 0pq - a4 UNIT UNIT It�y 26 �I 10 9I S 3 3r8 1 � FEfoER UNIT i ' ROOF MOUNTED PRIMARY ENTRANCE BUSHINGS 112}5 TL>� FEEDER BEAMS 13: Ioe3(1 UNIT ACCESS Alz` 60 603/j AI% 12it 7 FULL IS�B XEIGNT PETER PANELS GEER= SPACE AVAILABLE ■US •DUCT IN ROOF FOR I 7� 60V2WIDE CUST. CONNECTIONS se SXELTERED AISLE WAY SECONDARY PRIMARY ►WINE SWING FOR LEFT lao• PANEL 4"With 3000 am p p bus unit depth "AND END SWING 22i is increased by 2 inches. UNIT rT 1 - T With FA-350, 3000 amp circuit to 11 breaker, unit depth is increased by 20 inches; unit width is 36 ��•� LOCATION OF CUSTOMERS ANCHOR BOLTS inches. `�; IGROUTED 1NT0 FOUNOATIONI 2 YM1 Hm. FOUNDATION REQUIREMENTS Supporting concrete pads, piers or pilings must be con- structed with true surfaces and in the same plane to within 1/16 inch. On groups supported on 4 x 6 — 12 Ibs/ft beams, the maximum spay between supports must not exceed nine feet. The diameter of pilings must not be less than 12 inches BOLTING for maximum contact with the beams. Supports must be ARRANGEMENT located at shipping splits. 2� 1 -3 SIEMENS-ALLIS Medium Voltage Horizontal Drawout 301 Metal —Clad Switchgear Page 43 5 and 15 kV Air Magnetic and Vacuum Circuit Breakers. June, 1980 DIMENSIONS AND INSTALLATION DATA 15 W OUTDOOR COMMON AISLE SHELTER -CLAD HOUSINGS GABL FLOORIPLATES t —• I Uti1T DEPTH DOOR FRAME FACTORY ASSEMBLED EQUIPMENT (FIELD ASSEMBLED E01 ACCESS AISLE ENTRANCE BUSHINGS CL"PN ru.N. .. O.. 0• M Ne .uN. A UNIT 0EPTH FACTORY A339MBLED EQUIPMENT �iwn ur 4Va�V-Gni -wwvn su�w (GROUTED INTO FOUNDATION) 112-1 /2 OR 125 (FC1000) FLOOR PLAN. DIMENSIONS (Inches) FE-500 Broker FC35W Type FC-750 FC-1000 FCV-500 FCV-750 A 1 B 268.1/2 278-3/4 C 94 94 D 90.7/8 90-7/8 E 60.3/8 65-1 /2 F 603/8 65-1/2 G 1013/4 107 H 107.1/4 1123/8 1 69.1/4 78-7/8 J 80.1/2 91 FOUNDATION REQUIREMENTS m[eo it I Yn1 R001 Supporting concrete pads, piers or pilings must be con- structed with true surfaces and in the same plane to within 1/16 inch. On groups supported on 4 x 6 — 12 Ibs/ft beams, the maximum span between supports must not exceed nine feet. The maximum span for units with 1000 mva breakers is six feet. The diameter of pilings must not be less than BOLTING 12 inches for maximum contact with the beams. Supports ARRANGEMENT. must be located at shipping splits. SIEMENS-ALLIS Page 44 TYPICAL METAL -CLAD SWITCHGEAR SPECIFICATIONS Information set off in color Is to be supplied by pur- chaser and denotes alternates, options and specific Information. The equipment outlined in this specification will consist of Indoor Outdoor Shelter -Clad Metal -Clad switchgear with horizontal drawout circuit breakers. The complete switchgear sections will be of coordinated design so that shipping groups are easily connected together in the field into a continuous line-up. Necessary standard connecting materials will be furnished. The general arrangement and single line diagram of the switchgear will be as shown on attached Sketch Nos. The switchgear equipment will comply with all applicable standards of ANSI, IEEE, and NEMA. SERVICE The switchgear sections will be Siemens -Allis type , rated KV, with a maximum design voltage of KV. This equipment will operate on a service volt- age of volts, phase, wire, hertz. INSULATION LEVELS The assembled switchgear structures will be designed for the following insulation levels: Standard Insulation Tests, 60 hertz KV. Standard Full -wave Impulse (Withstand) Tests KV. DIMENSIONS Approximate dimensions of the switchgear are shown on the sketch included with this specification. The circuit breakers will be removable from opposite from the control panel side. An aisle space of inches is recom- mended to permit withdrawal of the circuit breaker ele- ment. CIRCUIT BREAKERS The air vacuum circuit breakers will be Siemens -Allis type rated KV, MVA inter- rupting capacity at volts, amperes momentary, with a continuous current rating as given in the detailed specifications, and with other characteristics and ratings listed in Circuit Breaker Data tables. The circuit breakers will be three pole, single throw, me- chanically and electrically trip free, with position indicator, operation counter, auxiliary switches, primary and second- ary disconnecting devices, and a mechanical interlock to prevent making or breaking load current on the primary dis- connects. Each circuit breaker will be equipped with a stored energy mechanism with control voltages as follows: a. Spring charging motor. 48, 125, 250 volt dc, 115, 230 volt ac b. Spring release (close) coil: 24, 48, 125, 250 volt dc, 115, 230 volt ac c. Trip coil: 24, 48, 125, 250 volt do 115, 230 volt ac capacitor trip The source of control power for spring charging, closing, and tripping will be a battery provided in the switchgear, a control power transformer in the switchgear, a separate supply provided by the Purchaser, a battery located in the vicinity of the switchgear. �F t. SIEMENS-ALLI S Medium Voltage Horizontal Drawout 301 Metal —Clad Switchgear Page 45 5 and 15 kV Air Magnetic and Vacuum Circuit Breakers. June, 1980 METERS AND RELAYS All indicating meters will be semi -flush mounted switch- board type. Switches for circuit breaker control and for in- strument transfer will be Siemens -Allis type 210. Watthour meters will be semi -flush mounted, drawout type, with built-in test facilities. Overcurrent relays and the like will be semi -flush mounted, drawout type, with built-in test facil- ities. BASIC STRUCTURE Each circuit breaker compartment will contain a manually operated drawout mechanism with automatic shutters and safety interlocks, and will also include the following: a. Hinged front panel. b. Primary and secondary disconnecting devices. . c. Control circuit cutout device. d. A set of ampere, 3 phase, 3 wire, insulated aluminum coppermain bus and connections. e. Ground bus, bare aluminum copper. f. Necessary terminal blocks, small wiring and control buses, where required. g. Cable supports, where required. h. Engraved nameplate or card holder, as required. i. The Eachauxiliary compartment will include the following: a. Hinged front panel. b. A set of ampere, 3 phase, 3 wire, insulated aluminum coppermain bus and connections. c. Ground bus, bare aluminum copper. d. Necessary terminal blocks, small wiring and control buses, where required. e. Cable supports, where required. f. Engravednameplate, or card holder, as required. 9• WEATHERPROOF HOUSING —SINGLE AISLE DESIGN The Shelter -Clad Switchgear will consist of indoor type cir- cuit breaker and auxiliary compartments located in a weatherproof steel housing having an operating aisle space of sufficient size to permit withdrawal of the circuit break- ers for inspection, test, or maintenance. An access door will be located at each end of the aisle, each with provision for padlocking on the outside, but also arranged so that the door can be opened from the inside regardless of whether not it has been locked on the outside. The aisle space will have adequate incandescent lighting which will be con- trolled by means of a two-way switch at each access door. Included in the switchgear will be the following items: a. One (1) space heater, 500 watts, in each unit. b. One (1) thermostat in each compartment, to control space heaters. c. One (1) lamp receptacle for each compartment, oper- ated from switch at either access door. d. Two (2) utility duplex receptacles, one at each access door, for electric tools, extension cords, etc. The complete enclosure will rest on four (4)-6" high sill channels running parallel to b length of the switchgear. The ends of the enclosure will be sealed with covers to pre- vent entrance of debris. The underside of the enclosure and sill channels will be undercoated with asphaltic material to prevent rusting. The switchgear will be shipped in convenient groups for easy erection in the field, and shipping groups will not ex- ceed fifteen (15) feet in length. The weatherproof enclosure will be shipped in two sections. One section will be attached to the switchgear compart- ments and will form the weatherproofing for the indoor compartments. The second section, consisting of the side walls and roof of the aisle space, will be shipped knocked - down for erection in the field. Necessary erection bolts will be furnished. SIEMENS-ALLIS Page 46 WEATHERPROOF HOUSING — COMMON AISLE DESIGN The Shelter -Clad Switchgear will consist of two (2) line-ups of indoor type circuit breaker and auxiliary compartments located in a weatherproof steel housing having a common operating aisle space of sufficient size to permit withdrawal of the circuit breakers for inspection, test, or maintenance. An access door will be located at each end of the aisle, each with provision for padlocking on the outside, but also ar- ranged so that the door can be opened from the inside re- gardless of whether or not it has been locked on the out- side. The aisle space will have adequate incandescent light- ing which will be controlled by means of a two-way switch at each access door. Included in the switchgear will be the following items: a. One (1) space heater, 500 watts, in each unit. b. One (1) automatic thermostat in each unit, to control space heaters. c. One (1) lamp receptacle for each unit, operated from switch at either access door. d. Two (2) utility duplex recptacles, one at each access door, for electric tools, extension cords, etc. The complete enclosure will rest on five (5) 6-in. high sill channels running parallel to the length of the switchgear. The ends of the enclosure will be sealed with covers to pre- vent entrance of debris. The underside of the enclosure and sill channels will be undercoated with asphaltic material to prevent rusting. INCOMING LINE UNIT OR FEEDER UNIT Units No. This Each unit will contain the following: Air vacuum circuit breaker, rated amperes, type The switchgear will be shipped in convenient groups for easy erection in the field, and shipping groups will not ex- ceed fifteen (15) feet in length. The weatherproof enclosure will be shipped in three sec- tions. Two sections will each consist of the line-up of com- partments with attached weatherproof enclosure. The third section, consisting of the side walls and roof of the aisle space, will be shipped knocked -down for erection in the field. Necessary erection bolts will be furnished. WEATHERPROOFING — CONVENTIONAL DESIGN The switchgear will be designed for outdoor service, and weatherproof construction will be used. Each compartment will be equipped with hinged front and rear doors, each with provision for padlocking. The following equipment will be furnished within each unit: a. Two (2) lamp receptacles for interior illumination, one in front and one in the rear. b. One (1) utility duplex receptacle, for electric tools, etc. c. One (1) space heater, 500 watts, thermostatically controlled. A switch for all the space heaters and a switch for all the lights will be conveniently located in one compartment. DETAILED SPECIFICATIONS r The following paragraphs describe the remaining compo- nents in each unit of the switchgear group. Current transformers, secondary, ampere ratio, KV, for Current transformers, secondary, ampere ratio, KV, for Potential transformers, drawout mounted, -120 volt ratio, complete with primary current limiting fuses. Sets of suitable cable terminating facilities, lugs or pothead, as required. Potheads, conductor, KV, for (type) cable (wire size), top bottom entry Solderless clamp type terminals, per phase, for (type) cable (wire size) KV, top bottom 0, 1 U SIEMENS-ALLI S Medium Voltage Horizontal Drawout 301 Metal -Clad Switchgear Page 47 5 and 15 kV Air Magnetic and Vacuum Circuit Breakers. June, 1980 Roof bushings, rated amperes, KV. Provision for connection to a bus duct rated amperes, KV, at thetop bottom side of the unit. Mounted on the inner hinged front panel: Circuit breaker control switch, complete with one red and one greenand one indicating light. Voltmeter, single phase, indicating recording volt scale. Voltmeter transfer switch, 3 phase. Ammeter, single phase, indicating recording , ampere scale. Ammeter transfer switch, 3 phase Watthour meter, -element, drawout type ,with minute demand attachment. Relays, instantaneous and time overcurrent,drawout type, device No.50 51 50/51. Ground relay, instantaneous and time overcurrent, drawout type, device No.50N 51 N 50/51 N . Directional overcurrent relays, drawout type, device No. 67. Differential relays, drawout type, device No. 87. Auxiliary relay, device No. Reclosing relay, with (one)(three) reclosures, automatic hand reset, device No. 79. Reclosing relay cutout switch. Auxiliary Unit Units No. — This Each unit will contain: Current transformers, secondary, ampere, ratio_ KV, for Potential transformers, drawout mounted •120 volt ratio, complete, with primary current limiting fuses. Control power transformer, stationary mounted, KVA, phase, 60 cycles, type r-_ - volt ratio, complete with drawout mounted primary current limiting fuses, and secondary molded case circuit breaker interlocked with the primary fuses. Surge arresters, single pole, type, KV. Battery, 48,125 volt, type, complete with rack and standard accessories. Trickle charger, static type, without voltage regulation, with automatic charge control , complete with ammeter, volt- meter, and rheostat. Sets of suitable cable terminating facilities, lugs or pothead, as required. Potheads, conductor, KV, for (type) cable (wire size), top bottom entry Solderless clamp type terminals, per phase, for (type) cable (wire sizel. KV, top bottom entry Roof bushings, rated amperes,_._._ KV. Provision for connection to a bus duct rated amperes_ KV, at thetop bottom side of the unit. 1 Page 48 Mounted on the inner hinged front panel: 9 — I oltmeter, single phase, indicating recording, volt scale. Voltmeter transfer switch, 3 phase. Ammeter, single phase, indicating recording, ampere scale. Ammeter transfer switch, 3 phase. Watthour meter, -element, drawout type, with minute demand attachment TIE BREAKER Unit No. . This Each unit will contain the following: Air vacuum circuit breaker, rated amperes, type Current transformers, secondary, ampere ratio, KV, for Provision for connection to a tie bus duct rate,' amperes KV, at the top bottom side of the unit. Mounted on the inner hinged front panel. Circuit breaker control switch, complete with one red and one green and one indicating light. Ammeter, single phase, indicating recording, ampere scale. Ammeter transfer switch, 3 phase. Relays, instantaneous and time overcurrent, drawout type, device No. 50 51 50/51. Ground relay, instantaneous and time overcurrent, drawout type, device No. 50N 51 N 50/51 N. ACCESSORIES The following accessories will be supplied but not housed: 1 — Split plug jumper, consisting of plugging units and cable, for testing breaker and control circuits while breaker is out- side and adjacent to unit. 1 — Maintenance operating device for closing breaker during maintenance and inspection. (For air magnetic breakers only.) 1 — Racking lever. 1 — Floor plate rack extension (for type F indoor units). 1 — Fifth wheel to facilitate moving breaker when outside unit. 1 — Transfer truck. (For conventional outdoor switchgear only.) 1 — Arc chute support stand. (For all type MA and FC, except FC-1000, breakers.) (For air magnetic breakers only.) 1 — Test plug, less cable, for drawout relays and watthour meters. 1 — Manual charging crank for stored energy circuit breakers. (Special Accessories) 1 — Inspection and test cabinet, indoor type, with necessary control. (Furnished when specified.) 1 — Ground and test device, 1 — Spare type circuit breaker, rated amperes, KV. 1 — Arc chute lifting device. (For type FC-1000 breakers only.) ' JL SUPERVISED INSTALLATION SERVICE... What it can do for you... ADVISORY ASSISTANCE — The field service representative will assist you in project planning and provide advisory assistance to you or your contractors in performance of the work. PROJECT MANAGEMENT — Our ex- perienced service management team is prepared to direct the entire work force in planning, installation and start-up of complete projects. We are ready to pro- vide service personnel for each phase of the project. Project managers are ex- perienced in the skills and working rules of various tradesmen and crafts. LABOR FORCE — We can supply the personnel or subcontract the work to a qualified contractor to work under su- pervision of our service representatives. SKILLED SPECIALISTS — We can furnish specialists for such functions as welding, winding, balancing, alignment, circuitry checkout and other skills. CUSTOMER TRAINING — Your en- gineering, operating and maintenance personnel can obtain training ranging from informal on-the-job advice to class- room instruction, to help you maintain trouble -free operation of your equipment. FACTORY BACK-UP — The field serv- ice representative works closely with our plant personnel and utilizes the large manufacturing, engineering, research and product capabilities available. 5] C'J C PLANNED INSPECTION SERVICE PROGRAM... How it can help you... SCHEDULED INSPECTION — The de- mand for electrical power is continuing to grow while the effective use of energy and the maintenance of its supply are A the major tasks facing every supplier and user of electrical power. Surveys have shown that the foremost reason for electrical equipment failure is insufficient scheduled inspection and proper mainte- nance. This is especially true for equip- ment located in dusty or corrosive at- mospheres and outdoor locations. Unex- pected interruptions can cause serious economic losses. IDENTIFY PROBLEMS — To help con- trol unscheduled outages, suppliers and users of electrical power are using the Siemens -Allis Electrical Equipment In- spection Service Program. This program will normally identify problem areas that require immediate attention or changes to established maintenance programs. SERVICE VEHICLE — A fully equipped Inspection Service Vehicle is operated by an experienced Siemens -Allis Feld Service Representative prepared to pro- vide advisory technical services, perform tests and recommend repairs based on observations and test results. TEST RESULTS — A report will be sub- mitted containing a summary of the rec- commendations and the test data. pr i .3 ADVERTISEMENT FOR LUBBOCK POWER AND LIGHT 15 KV SWITCHGEAR Sealed bids will be received in the office of Floyd Nesbitt, City purchasing Director, Lubbock, Texas, prior to 4:00 P M. on Monday December , 6th , 1982, and publicly opened immediately thereafter on the same date for: 15 KV Switchgear• complete in accordance with specification #SE-0006-11-101082 and the Instructions to Bidders. ' It 'is the sole responsibility of the Bidder to insure that his bid is actually in the office of Floyd Nesbitt prior to the above described closing time. The advertisement for bids is by the City of Lubbock, Texas, for its munici- pally owned electric utility, Lubbock Power and Light. Any reference to Lubbock Power and Light shall be construed to mean the City of Lubbock, Texas.