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1940 CAMINO VIDA ROBLE; ; CB032419; Permit
10-14-2003 City of Carlsbad 1635 Faraday Av Carlsbad, CA 92008 Commercial/Industrial Permit Permit No: CB032419 Building Inspection Request Line (760) 602-2725 Job Address: Permit Type: Parcel No: Valuation: Occupancy Group: Project Title: 1940 CAMINO VIDA ROBLE CBAD Tl Sub Type: COMM 2120921300 Lot#: 0 $331,969.00 Construction Type: NEW Reference #: M.V. TECH SALES 22500SF Tl 10,250 SF WHSETO OFFICE AND ADD'L MANF Status: Applied: Entered By: Plan Approved: Issued: Inspect Area: Plan Check#: ISSUED 09/03/2003 SB 10/14/2003 10/14/2003 Applicant: C.S.I. GENERAL INC. 1557 GRAND AVE SAN MARCOS, CA 92069 619-432-6677 Owner: TECHPLEX NO 2 L P 475 W BRADLEY AVE EL CAJON CA 92020 6481 10/14/03 0002 01 CGP 02 9 . 08 Building Permit Add'l Building Permit Fee Plan Check Add'l Plan Check Fee Plan Check Discount Strong Motion Fee Park Fee LFM Fee Bridge Fee BTD #2 Fee BTD #3 Fee Renewal Fee Add'l Renewal Fee Other Building Fee Pot. Water Con. Fee Meter Size Add'l Pot. Water Con. Fee Reel. Water Con. Fee $1,261.12 Meter Size $0.00 Add'l Red. Water Con. Fee $819.73 Meter Fee $0.00 SDCWA Fee $0.00 CFD Payoff Fee $69.71 PFF $0.00 PFF (CFD Fund) $0.00 License Tax $0.00 License Tax (CFD Fund) $0.00 Traffic Impact Fee $0.00 Traffic Impact (CFD Fund) $0.00 PLUMBING TOTAL $0.00 ELECTRICAL TOTAL $0.00 MECHANICAL TOTAL $0.00 Master Drainage Fee Sewer Fee $0.00 Redev Parking Fee $0.00 Additional Fees TOTAL PERMIT FEES $0.00 $0.00 $0.00 $0.00 $2,751.61 $0.00 $0.00 $0.00 $4,004.00 $0.00 $125.00 $160.00 $127.00 $0.00 $7,636.72 $0.00 $0.00 $16,954.89 Total Fees: $16,954.89 Total Payments To Date:$905.81 Balance Due: $16,049.08 Inspector: FINAL APPROVAL Date:Clearance: NOTICE: Please take NOTICE that approval of your project includes the "Imposition* of fees, dedications, reservations, or other exactions hereafter collectively referred to as "fees/exactions." You have 90 days from the date this permit was issued to protest imposition of these fees/exactions. If you protest them, you must follow the protest procedures set forth in Government Code Section 66020(a), and file the protest and any other required information with the City Manager for processing in accordance with Carlsbad Municipal Code Section 3.32.030. Failure to timely follow that procedure will bar any subsequent legal action to attack, review, set aside, void, or annul their imposition. You are hereby FURTHER NOTIFIED that your right to protest the specified fees/exactions DOES NOT APPLY to water and sewer connection fees and capacity changes, nor planning, zoning, grading or other similar application processing or service fees in connection with this project. NOR DOES IT APPLY to any fees/exactions of which vou have previously been given a NOTICE similarJo this. Qr.as.to which the statute of limitations has previously otherwise expired. PERMIT APPLICATION CITY OF CARLSBAD BUILDING DEPARTMENT 1635 Faraday Ave., Carlsbad, CA 92008 FOR OFFICE USE ONLY PLAN CHECK EST. VAL. Plan Ck. Deposit Validated Qy Date Business Name (at this address) / (Sec. 7031.5 Business and Professions Code: Any City or County which requires a permit to construct, alter, improve, demolish or repair any structure, prior to its issuance, also requires the applicant for such permit to file a signed statement that he is licensed pursuant to the provisions of the Contractor's License Law [Chapter 9, commending with Section 7000 of Division 3 of the Business and Professions Code] or that he is exempt therefrom, and the basis for the alleged exemjuion. Any,violation of Section_Z&3>1.5 by any applicant for a permit subjects theapplicant to a civiloanaltv of no],more than five hundred dollars |$5Q61). Name State License # Address License Class City State/Zip City fto9rrrt*s*tfe*nS*> Telephone It Designer Name State License 9 Address City State/Zip Telephone Workers' Compensation Declaration: I hereby affirm under penalty of perjury one of the following declarations: I have and will maintain a certificate of consent to self-insure for workers' compensation as provided by Section 3700 of the Labor Code, for the performance of tbe work for which this permit is issued. yf I have and will maintain workers' compensation, as required by Section 3700 of the Labor Code, for the performance of the work for which this permit is XsSufed. My worker's compensation insurance^parrier and policy number are: Insurance CompanYw^J-g* &4~MQ _ Policy No. & %*%&3l2s- &£ Expiration Date (THIS SECTION NEED NOT BE COMPLETED IF THE PERMIT IS FOR ONE HUNDRED DOLLARS 1*100] OR LESS) Q CERTIFICATE OF EXEMPTION: I certify that in the performance of the work for which this permit is issued, 1 shall not employ any person in any manner so as to became subject to the Workers' Compensation Laws of California. WARNING: Failure to aafiureworkers' comurnation coverage la unlawful, and shall subject en employer to criminal penalties and civil finas up to one hundred ) thousand dollarsUJJrffkMu^,! HJ»ddrtiarnolne/eost of compensation, damages as provided for In Section 3706 of theLabyr crfda, Interest and attorney's fees. I hereby affirm that I am exempt from the Contractor's License Law for the following reason: D 1, as owner of the property or my employees with wages as their sole compensation, will do the work and the structure is not intended or offered for sale (Sec. 7044, Business and Professions Code: The Contractor's License Law does not apply to an owner of property who builds or improves thereon, and who does such work himself or through his own employees, provided that such improvements are not intended or offered for sale. If, however, the building or improvement is sold within one year of completion, the owner-builder will have the burden of proving that he did not build or improve for the purpose of sale). !~l I, as owner of the property, am exclusively contracting with licensed contractors to construct the project (Sec. 7044, Business and Professions Code: The Contractor's License Law does not apply to an owner of property who builds or improves thereon, and contracts for such projects with contractor(s) licensed pursuant to the Contractor's License Law). D I am exempt under Section _ Business and Professions Code for this reason: 1 . 1 personally plan to provide the major labor and materials for construction of the proposed property improvement. Q YES QNO 2. I (have / have not) signed an application for a building permit for the proposed work. 3. I have contracted with the following person (firm) to provide the proposed construction (include name / address / phone number / contractors license number): 4. I plan to provide portions of the work, but I have hired the following person to coordinate, supervise and provide the major work (include name / address / phone number / contractors license number): _ __ ___ __ 5. I will provide some of the work, but I have contracted (hired) the following persons to provide the work indicated (include name / address / phone number / type of work): _ _ _ PROPERTY OWNER SIGNATURE DATE Is the applicant or future building occupant required to submit a business plan, acutely hazardous materials registration form or risk management and prevention program under Sections 25505, 25533 or 25534 of the Presley-Tanner Hazardous Substance Account Act? Q YES Q NO Is the applicant or future building occupant required to obtain a permit from the air pollution control district or air quality management district? Q YES D NO Is the facility to be constructed within 1,000 feet of the outer boundary of a school site? Q YES Q NO IF ANY OF THE ANSWERS ARE YES, A FINAL CERTIFICATE OF OCCUPANCY MAY NOT BE ISSUED UNLESS THE APPLICANT HAS MET OR IS MEETING THE REQUIREMENTS OF THE OFFICE OF EMERGENCY SERVICES AND THE AIR POLLUTION CONTROL DISTRICT. hereby affirm that there is a construction lending agency for the performance of the work for which this permit is issued (Sec. 3097(i) Civil Code). LENDER'S NAME LENDER'S ADDRESS I certify that I have read the application and state that the above information is correct and that the information on the plans is accurate. I agree to comply with all City ordinances and State laws relating to building construction. I hereby authorize representatives of the City of Carlsbad to enter upon the above mentioned property for inspection purposes. I ALSO AGREE TO SAVE, INDEMNIFY AND KEEP HARMLESS THE CITY OF CARLSBAD AGAINST ALL LIABILITIES, JUDGMENTS, COSTS AND EXPENSES WHICH MAY IN ANY WAY ACCRUE AGAINST SAID CITY IN CONSEQUENCE OF THE GRANTING OF THIS PERMIT. OSHA: An OSHA permit is required for excavations over 5'0" deep and demolition or construction of structures over 3 stories in height. EXPIRATION: Every permit issued by thebuildino. Official under thejapvisions of this Code shall expire by limitation and become null and void if the building or work authorized by such permit is not conjmjnajtfrgjthin 130 days fromjjj^fete of such permit or if the building or work authorized by such permit is suspended or abandoned at any time after the work is cojnma»p^5!gjja^WAOOj<l3riSection 106.4.4 Uniform Building Code). APPLICANT'S SIGNATURE ^K£^S*&^—-**&/*~^—— DATE WHITE: File YELLOW: Applicant PINK: Finance CltyilCiflsbid Final Building Insnection Dept: Building Engineering Planning CMWD St Lite Plan Check #: Permit #: CB032419 Project Name: M.V. TECH SALES 22500SF Tl 10,250 SF WHSETO OFFICE AND ADD! MANF Date: 11/21/2003 Permit Type: Tl Sub Type: COMM Address: 1940 CAMINO VIDA Contact Person: TERRY Sewer Dlst: CA Inspected /? /£/, * Inspected Bv: Inspected By: Comments: ROBLE Phone: 7608012470 Water Dist: CA Date ) L ,/ Date Inspected: Date Inspected: Lot: 0 Approved: ^* Disapproved: Approved: Disapproved: Approved: Disapproved: City of Carlsbad Bldg Inspection Request For: 06/16/2004 Permit# CB032419 Title: M.V. TECH SALES 22500SF Tl Description: 10,250 SF WHSETO OFFICE AND ADD'L MANF Inspector Assignment: TP 1940 CAMINOVIDAROBLE Lot 0 Type: Tl Job Address: Suite: Location: APPLICANT C.S.I. GENERAL INC. Owner: TECHPLEX NO 2 L P Remarks: Sub Type: COMM Phone: 0000000000 Inspector: Total Time: CD Description 19 Final Structural 29 Final Plumbing 39 Final Electrical 49 Final Mechanical Requested By: N/A Entered By: ROBIN Act Comment Associated PCRs/CVs PCR01135 ISSUED MV TECHNICAL/ UNDERGROUND; PLUMBING LINES, STUB OUT FOR FUTURE Tl PCR01184 ISSUED MV TECHNICAL-DEFERRED ROOF &; FLOOR SYSTEM Inspection History Comments NEED CIRCUIT IDENT. FOR HP5 NEED ELECT PNL SCHD NOT COMP. PER CONT. SUB PNLS, PD PNLS SUB PNLS N/COMP T-CEIL CEIL LtTES Date 05/18/2004 04/22/2004 11/26/2003 11/25/2003 11/21/2003 11/20/2003 11/20/2003 11/18/2003 11/18/2003 11/18/2003 11/18/2003 11/18/2003 11/17/2003 11/17/2003 11/17/2003 Description 89 89 89 89 89 34 39 14 14 24 34 44 24 24 34 Final Combo Final Combo Final Combo Final Combo Final Combo Rough Electric Final Electrical Frame/Steel/Bolting/Welding Frame/Steel/Bolting/Welding Rough/Topout Rough Electric Rough/Ducts/Dampers Rough/Topout Rough/Topout Rough Electric Act CO CO NR CA CO AP we we we CO CO CO AP AP AP Insp TP TP TP TP TP TP TP TP TP TP TP TP TP TP TP City of Carlsbad Bldg Inspection Request For: 06/16/2004 Permit# CB032419 11/17/2003 44 Rough/Ducts/Dampers AP TP 11/14/2003 84 Rough Combo NS TP 11/10/2003 14 Frame/Steel/Bolting/Welding AP TP 11/10/2003 24 Rough/Topout AP TP 11/10/2003 34 Rough Electric AP TP 11/10/2003 44 Rough/Ducts/Dampers AP TP 11/07/2003 84 Rough Combo CO TP 11/06/2003 84 Rough Combo CO TP 11/04/2003 84 Rough Combo NS TP 10/29/2003 17 Interior Lath/Drywall AP TP 10/24/2003 84 Rough Combo AP TP 10/22/2003 14 Frame/Steel/Bolting/Welding NR TP 10/21/2003 14 Frame/Steel/Bolting/Welding AP TP 10/21/2003 17 Interior Lath/Drywall AP TP 10/21/2003 24 Rough/Topout AP TP 10/21/2003 34 Rough Electric AP TP 10/20/2003 17 Interior Lath/Drywall CA TP 10/17/2003 14 Frame/Steel/Bolting/Welding AP TP 10/16/2003 84 Rough Combo CA TP Inspector Assignment: DUCTS, PLMNS T-CEIL1 & 2 FLR OFFICES CEIL LITES 1 & 2 FLR OFFICES DUCTS, PLMNS 1 & 2 FLR OFFICES OK TO SET BORDERS TP LABS RESTRMS OFFICES RESTRMS 1 & 2 FLR OFFICES PER CONT. City of Carlsbad Bldg Inspection Request For: 11/05/2003 Permit# CB032419 Title: M.V. TECH SALES 22500SF Tl Description: 10,250 SF WHSETO OFFICE AND ADD'L MANF Inspector Assignment: TP 1940 CAMINOVIDAROBLE Lot 0 Type: Tl Job Address: Suite: Location: APPLICANT C.S.I. GENERAL INC. Owner: TECHPLEX NO 2 L P Remarks: Total Time: Sub Type: COMM Phone: 7608012470 Inspector: Requested By: TERRY Entered By: CHRISTINE CD Description Act Comment 14 Frame/Steel/Bolting/Welding 24 Rough/Topout 34 Rough Electric 44 Rough/Ducts/Dampers Associated PCRs/CVs PCR01135 ISSUED MV TECHNICAL/ UNDERGROUND; PLUMBING LINES, STUB OUT FOR FUTURE Tl PCR01184 ISSUED MV TECHNICAL-DEFERRED ROOF&; FLOOR SYSTEM Inspection History CommentsDate Description Act 10/29/2003 17 Interior Lath/Drywall AP 10/24/2003 84 Rough Combo AP 10/22/2003 14 Frame/Steel/Bolting/Welding NR 10/21/2003 14 Frame/Steel/Bolting/Welding AP 10/21/2003 17 Interior Lath/Drywall AP 10/21/2003 24 Rough/Topout AP 10/21/2003 34 Rough Electric AP 10/20/2003 17 Interior Lath/Drywall CA 10/17/2003 14 Frame/Steel/Bolting/Welding AP 10/16/2003 84 Rough Combo CA Insp TP TP TP LABS TP RESTRMS TP OFFICES TP RESTRMS TP TP TP 1 & 2 FLR OFFICES TP PER CONT. CITY OF CARLSBAD BUILDING DEPARTMENT NOTICE (760) 602-2700 1635 FARADAY AVENUE DATE /'/£./** LOCATION PERMIT NO. TIME. ' FOR INSPECTION CALL (760) 602-2725. RE-INSPECTION FEE DUE? LJ YES FOR FURTHER INFORMATION, CONTACT &s£ •/' ?>'/ ~'~7~" - BUILDING INSPECTOR PHONE CODE ENFORCEMENT OFFICER EsGil Corporation In PartntTsfiip vtitfi government for QuiC&ng Safety DATE: October 9, 20O3 JURISDICTION: Carlsbad a PLAN REVIEWER a FILE PLAN CHECK NO.: 03-2419 SET: HI PROJECT ADDRESS: 1940 Camino Vida Roble PROJECT NAME: MV Technical TI The plans transmitted herewith have been corrected where necessary and substantially comply with the jurisdiction's building codes. 2\] The plans transmitted herewith will substantially comply with the jurisdiction's building codes when minor deficiencies identified below are resolved and checked by building department staff. The plans transmitted herewith have significant deficiencies identified on the enclosed check list and should be corrected and resubmitted for a complete recheck. The check list transmitted herewith is for your information. The plans are being held at Esgil Corporation until corrected plans are submitted for recheck. The applicant's copy of the check list is enclosed for the jurisdiction to forward to the applicant contact person. The applicant's copy of the check list has been sent to: X] Esgil Corporation staff did not advise the applicant that the plan check has been completed. Esgil Corporation staff did advise the applicant that the plan check has been completed. Person contacted: Telephone #: Date contacted: (by: ) Fax #: Mail Telephone Fax In Person REMARKS: Each sheet of the plans must be signed by the designer. c By: Kurt Culver Enclosures: Esgil Corporation D GA D MB D EJ D PC 10/6/03 trnsmtl.dot 9320 Chesapeake Drive, Suite 208 + San Diego, California 92123 + (858)560-1468 + Fax (858) 560-1576 EsGil Corporation In {Partners/tip with government for Quitting Safety DATE: September 29, 2003 OAEHJCANT_ JURISDICTION: Carlsbad Q PLAN REVIEWER Q FILE PLAN CHECK NO.: 03-2419 SET: II PROJECT ADDRESS: 1940 Camino Vida Roble PROJECT NAME: MV Technical TI The plans transmitted herewith have been corrected where necessary and substantially comply with the jurisdiction's building codes. The plans transmitted herewith will substantially comply with the jurisdiction's building codes when minor deficiencies identified below are resolved and checked by building department staff. The plans transmitted herewith have significant deficiencies identified on the enclosed check list and should be corrected and resubmitted for a complete recheck. The check list transmitted herewith is for your information. The plans are being held at Esgil Corporation until corrected plans are submitted for recheck. The applicant's copy of the check list is enclosed for the jurisdiction to forward to the applicant contact person. The applicant's copy of the check list has been sent to: CSI Inc. 1529 Grand Ave., Suite A San Marcos 92069 Esgil Corporation staff did not advise the applicant that the plan check has been completed. Esgil Corporation staff did advise the applicant that the plan check has been completed. Person contacted: Mark Wentworth Telephone #: (760) 471-9388 Date contacted: I/**)/** (by: &- ) Fax #: -0149 Mail Jelephone Fax*^ In Person REMARKS: By: Kurt Culver Enclosures: Esgil Corporation - : D GA D MB D EJ D PC 9/24/03 trnsmtl.dot 9320 Chesapeake Drive, Suite 208 * San Diego, California 92123 + (858)560-1468 + Fax (858) 560-1576 Carlsbad 03-2419 September 29, 2003 RECHECK PLAN CORRECTION LIST JURISDICTION: Carlsbad PLAN CHECK NO.: 03-2419 PROJECT ADDRESS: 1940 Camino Vida Roble SET: H DATE PLAN RECEIVED BY DATE RECHECK COMPLETED: ESGIL CORPORATION: 9/24/03 September 29, 2003 REVIEWED BY: Kurt Culver FOREWORD (PLEASE READ): This plan review is limited to the technical requirements contained in the Uniform Building Code, Uniform Plumbing Code, Uniform Mechanical Code, National Electrical Code and state laws regulating energy conservation, noise attenuation and disabled access. This plan review is based on regulations enforced by the Building Department. You may have other corrections based on laws and ordinances enforced by the Planning Department, Engineering Department or other departments. The following items listed need clarification, modification or change. All items must be satisfied before the plans will be in conformance with the cited codes and regulations. Per Sec. 106.4.3, 1997 Uniform Building Code, the approval of the plans does not permit the violation of any state, county or city law. A. To facilitate rechecking, please identify, next to each item, the sheet of the plans upon which each correction on this sheet has been made and return this sheet with the revised plans. B. The following items have not been resolved from the previous plan reviews. The original correction number has been given for your reference. In case you did not keep a copy of the prior correction list, we have enclosed those pages containing the outstanding corrections. Please contact me if you have any questions regarding these items. C. Please indicate here if any changes have been made to the plans that are not a result of corrections from this list. If there are other changes, please briefly describe them and where they are located on the plans. Have changes been made not resulting from this list? QYes QNo Carlsbad 03-2419 September 29, 2003 I. Please make all corrections on the original tracings and submit two new complete sets of prints, to: Esgil Corporation, 9320 Chesapeake Drive, Suite #208, San Diego, CA 92123, (858) 560-1468. 5. Provide an exit analysis plan (may be 8 1/2" x 11" or any convenient size). Show in this analysis the occupant load of each area, the general exit flow patterns (by using arrows), accumulated occupant loads and required exit widths. PLEASE REVISE THE PLANS AS FOLLOWS: A. ROOMS 117 AND 114 CANNOT EXIT INTO THE WAREHOUSE. REVISE THE EXIT PLAN TO SHOW THAT BOTH ROOMS EXIT INTO THE NEW HALLWAY SYSTEM. B. SIMILARLY, SHOW THAT ROOMS 119 AND 120 EXIT DIRECTLY TO THE EXTERIOR ON THE EXIT PLAN. I1. Please submit structural justification that the existing framing system can support the proposed mechanical equipment. NO RESPONSE WAS PROVIDED. To speed up the review process, note on this list (or a copy) where each correction item has been addressed, i.e., plan sheet, note or detail number, calculation page, etc. Please indicate here if any changes have been made to the plans that are not a result of corrections from this list. If there are other changes, please briefly describe them and where they are located in the plans. Have changes been made to the plans not resulting from this correction list? Please indicate: Yes Q No Q The jurisdiction has contracted with Esgil Corporation located at 9320 Chesapeake Drive, Suite 208, San Diego, California 92123; telephone number of 858/560-1468, to perform the plan review for your project. If you have any questions regarding these plan review items, please contact Kurt Culver at Esgil Corporation. Thank you. EsGil Corporation In Partners/tip vritfi government for $uih£ing Safety DATE: September 7, 20O3 JURISDICTION: Carlsbad PLAN CHECK NO.: O3-2419 SET: I PROJECT ADDRESS: 194O Camlno Vida Roble PROJECT NAME: MV Technical XI a APPLICANT a FILE The plans transmitted herewith have been corrected where necessary and substantially comply with the jurisdiction's building codes. The plans transmitted herewith will substantially comply with the jurisdiction's building codes when minor deficiencies identified below are resolved and checked by building department staff. The plans transmitted herewith have significant deficiencies identified on the enclosed check list and should be corrected and resubmitted for a complete recheck. The check list transmitted herewith is for your information. The plans are being held at Esgil Corporation until corrected plans are submitted for recheck. The applicant's copy of the check list is enclosed for the jurisdiction to forward to the applicant contact person. IAJ The applicant's copy of the check list has been sent to: CSI Inc. 1529 Grand Ave., Suite A San Marcos 92069 Esgil Corporation staff did not advise the applicant that the plan check has been completed. Esgil Corporation staff did advise the applicant that the plan check has been completed. Person contacted: Mark Wentworth (v/.M.) Telephone #: (760) 471-9388; Date contacted: ^(%(c& (by: «i ) Fax #: -0149 Mail -'"telephone */ Fax / In Person REMARKS: By: Kurt Culver Esgil Corporation n GA D MB D EJ Enclosures: PC 9/5/03 tmsmtLdot 9320 Chesapeake Drive, Suite 208 * San Diego, California 92123 + (858)560-1468 4 Fax (858) 560-1576 Carlsbad 03-2419 September 7, 2003 PLAN REVIEW CORRECTION LIST TENANT IMPROVEMENTS PLAN CHECK NO.: O3-2419 OCCUPANCY: B/S1/F1 TYPE OF CONSTRUCTION: III-N ALLOWABLE FLOOR AREA: OK SPRINKLERS?: Yes REMARKS: DATE PLANS RECEIVED BY JURISDICTION: 9/3/03 DATE INITIAL PLAN REVIEW COMPLETED: September 7, 2003 JURISDICTION: Carlsbad USE: Offlce/Manuf./Storage ACTUAL AREA: 38530 STORIES: 2 HEIGHT: n/c OCCUPANT LOAD: -300 DATE PLANS RECEIVED BY ESG1L CORPORATION: 9/5/03 PLAN REVIEWER: Kurt Culver FOREWORD (PLEASE READ): This plan review is limited to the technical requirements contained in the Uniform Building Code, Uniform Plumbing Code, Uniform Mechanical Code, National Electrical Code and state laws regulating energy conservation, noise attenuation and access for the disabled. This plan review is based on regulations enforced by the Building Department. You may have other corrections based on laws and ordinances enforced by the Planning Department, Engineering Department, Fire Department or other departments. Clearance from those departments may be required prior to the issuance of a building permit. Code sections cited are based on the 1997 UBC. The following items listed need clarification, modification or change. All items must be satisfied before the plans will be in conformance with the cited codes and regulations. Per Sec. 106.4.3, 1997 Uniform Building Code, the approval of the plans does not permit the violation of any state, county or city law. To speed up the recheck process, please note on this list (or a copy) where each correction item has been addressed, i.e.. plan sheet number, specification section, etc. Be sure to enclose the marked up list when you submit the revised plans. TENANT IMPROVEMENTS WITHOUT SPECIFIC ENERGY DATA OR POLICY SUPPLEMENTS (1997UBC)tiforw.dot Carlsbad 03-2419 September 7, 2O03 1. Please make all corrections on the original tracings and submit two new complete sets of prints, to: Esgil Corporation, 9320 Chesapeake Drive, Suite #208, San Diego, CA 92123, (858)560-1468. 2. The plans are incomplete in some areas. No door or window sizes are shown at all upstairs, and quite a few are missing from the lower level. Please submit completed plans. 3. Each sheet of the plans must be signed by the person responsible for their preparation, even though there are no structural changes. Business and Professions Code. 4. Glazing in the following locations should be of safety glazing material in accordance with Section 2406.4 (see exceptions): a) Fixed or operable panels adjacent to a door where the nearest exposed edge of the glazing is within a 24-inch arc of either vertical edge of the door in a closed position and where the bottom exposed edge of the glazing is less than 60 inches above the walking surface. TEMPERED GLASS MUST BE SHOWN IN QUITE A FEW LOCATIONS. 5. Provide an exit analysis plan (may be 8 1/2" x 11" or any convenient size). Show in this analysis the occupant load of each area, the general exit flow patterns (by using arrows), accumulated occupant loads and required exit widths. 6. If exit signs are required, provide the following notes on the plans, per Section 1003.2.8.2: a) Exit signs shall be located as necessary to clearly indicate the direction of egress travel. No point shall be more than 100 feet from the nearest visible sign. b) Exit signs shall be readily visible from any direction of approach. 7. In the Break Room on sheet A1, there is a reference to Note 2: Please provide a legend to explain all such notes. 8. The hallway between the Training Room and the restrooms must be more clearly defined as it leads to the Reception area. Specifically, partitions should be installed to define the hallway as it passed by the Open Office. 9. Also, the hallway outside of the open office area on the second floor also seems to be discontinuous as shown. 10. On sheet E-1, what are the "PDU's" in the test room? Carlsbad O3-2419 September 7, 2003 11. Please submit structural justification that the existing framing system can support the proposed mechanical equipment. 12. Also, show the equipment locations on the plans. 13. The gauge shown for the metal studs at 5/D1 does not appear to be adequate for the wall height shown. 14. Also, the wall height at that detail conflicts with the floor plan. 15. At detail 3/D1, the Type X drywall has to occur on each side of the existing studs, too. 16. Sheet D2 shows a layout for the single accommodation restroom facilities, but not the multiple accommodation restroom facilities. Please provide. 17. To speed up the review process, note on this list (or a copy) where each correction item has been addressed, i.e., plan sheet, note or detail number, calculation page, etc. 18. Please indicate here if any changes have been made to the plans that are not a result of corrections from this list. If there are other changes, please briefly describe them and where they are located in the plans. Have changes been made to the plans not resulting from this correction list? Please indicate: Yes Q No a The jurisdiction has contracted with Esgil Corporation located at 9320 Chesapeake Drive, Suite 208, San Diego, California 92123; telephone number of 858/560-1468, to perform the plan review for your project. If you have any questions regarding these plan review items, please contact Kurt Culver at Esgil Corporation. Thank you. Carlsbad 03-2419 September 7, 2O03 VALUATION AND PLAN CHECK FEE JURISDICTION: Carlsbad PREPARED BY: Kurt Culver BUILDING ADDRESS: 1940 Camlno Vida Roble PLAN CHECK NO.: O3-2419 DATE: September 7, 2003 BUILDING OCCUPANCY: B/S1/F1 TYPE OF CONSTRUCTION: III-N BUILDING PORTION Tl Air Conditioning Fire Sprinklers TOTAL VALUE Jurisdiction Code AREA (Sq.Ft) cb Valuation Multiplier By Ordinance Reg. Mod. VALUE ($) 675,000 675,000 $2,235.31 Plan deck Fee by Ordinance Type of Review: Q Repetitive Fee Repeats Complete Review D Other r-i Hourly D Structural Only Hour* Esgll Plan Review Fee $1,452.95 $1,251.77 Comments: Sheet 1 of 1 macvalue.doc PLANNING/ENGINEERING APPROVALS PERMIT NUMBER CB ADDRESS DATE RESIDENTIAL RESIDENTIAL ADDITION MINOR (<$10,000.00) TENANT IMPROVEMENT PLAZA CAMINO REAL CARLSBAD COMPANY STORES VILLAGE FAIRE COMPLETE OFFICE BUILDING OTHER PLANNER ENGINEER DATE DATE Docs/Mislorms/Planning Engineering Approvals ENGINEERING DEPARTMENT FEE CALCULATION WORKSHEET D Estimate based on unconfirmed information from applicant. D Calculation based on building plancheck plan submittal, C_ U/VT^^-O V/L^ L^^-eidg. Permit No.Address: _ Prepared by:Checked by:Date: EDU CALCULATIONS: List types and square footages for all uses. Types of Use: -Q ) T), Sq. Ft./Units: Types of Use: Sq. Ft./Units: APT CALCULATIONSAList types and square footages for all uses. Types of Use: ) Scl- Ft-/Units: Types of Use: ' Sq. Ft./Units: FEES REQUIRED: WITHIN CFD: D YES {no bridge & thoroughfare fee in District #1, reduced Traffic Impact Feel D NO ages for all uses. /O, 7-1-0r < iges for all uses. EDU's: 9'^ H EDU's: ADT's: /' i ADT's: D 1. PARK-IN-LIEU FEE FEE/UNIT: PARK AREA & #: : X NO. UNITS: D 2. TRAFFIC IMPACT FEE ADT's/UNITS: D 3. BRIDGE AND THOROUGHFARE FEE {DIST. #1 ADT's/UNITS: X FEE/ADT: DIST. #2 = $ DIST. #3 D 4. FACILITIES MANAGEMENT FEE UNIT/SQ.FT.: D 5. SEWER FEE EDU's: BENEFIT AREA: EDU's: ZONE:. X FEE/SQ.FT./UNIT: X FEE/EDU: FEE/EDU: D 6. SEWER LATERAL ($2,500) D 7. DRAINAGE FEES PLDA_ ACRES: HIGH /LOW FEE/AC:= $ D 8. POTABLE WATER FEES UNITS CODE CONNECTION FEE METER FEE SDCWA FEE IRRIGATION WordU>ocs\M4Bformi\Fee Calculation Wort»h»t Iof2 Rev. 7/14/00 /o O . D\ Q D D D D Plan Check No. Planner APN: PLANNING DEPARTMENT BUILDING PLAN CHECK REVIEW CHECKLIST Address Phone {760 602-4629 Type of Pjflject & Use:_ Zoning: tr / L General Plan:_ CFD (In/out) #_Date of participation: -" Net Project Density:DU/AC Facilities Management Zone: Remaining net dev acres: Circle One (For non-residential development: Type of land used created by this permit: . } Legend: ER] Item Complete I I Item Incomplete - Needs your action Environmental Review Required: YES NO TYPE DATE OF COMPLETION: Compliance with conditions of approval? If not, state conditions which require action. Conditions of Approval: Discretionary Action Required: APPROVAL/RESO. NO. PROJECT NO. YES NO TYPE DATE OTHER RELATED CASES: Compliance with conditions or approval? If not, state conditions which require action. Conditions of Approval: i I 1 ! Coastal Zone Assessment/Compliance Project site located in Coastal Zone? YES_ CA Coastal Commission Authority? YES NO. NO If California Coastal Commission Authority: Contact them at - 7575 Metropolitan Drive, Suite 103, San Diego CA 92108-4402; (619} 767-2370 Determine status (Coastal Permit Required or Exempt): Coastal Permit Determination Form already completed? YES_ If NO, complete Coastal Permit Determination Form now. Coastal Permit Determination Log #: NO D D Follow-Up Actions: 1} Stamp Building Plans as "Exempt" or "Coastal Permit Required" (at minimum Floor Plans). 2) Complete Coastal Permit Determination Log as needed. Inclusionary Housing Fee required:YES NO (Effective date of Inclusionary Housing Ordinance - May 21, 1993.] Data Entry Completed? YES NO (A/P/Ds, Activity Maintenance, enter CB#, toolbar, Screens, Housing Fees, Construct Housing Y/N, Enter Fee, UPDATE!) H:\ADMIN\COUNTER\BldgPlnchkRevChklst Rev 9/01 Site Plan: CD CD d 1- Provide a fully dimensional site plan drawn to scale. Show: North arrow, property lines. easements, existing and proposed structures, streets, existing street improvements, right- of-way width, dimensional setbacks and existing topographical lines (including all side and rear yard slopes): IH CH CH 2. Provide legal description of property and assessor's parcel number. n n n D D D Policy 44 - Neighborhood Architectural Design Guidelines 1. Applicability: YES. NO D 2. Project complies YES Zoning: 1 . Setbacks: Front: Interior Side: Street Side: Rear: Top of slope: 2. Accessory structure s Front: Interior Side: Street Side: Rear: Structure separation: 3. Lot Coverage: 4. Height: 5. Parking: Spac (breakdown Residential Guest Spaces NO Required Required Required Required Required etbacks: Required Required Required Required Required Required Required ;es Required by uses for commercial Required Shown Shown Shown Shown Shown Shown Shown Shown Shown Shown Shown Shown Shown and industrial projects requirec Shown Additional Comments Correction #1 - Please show on Sheet 1 the total number of parking spaces provided and required on site for each use per Chapter 21.44. Correction #2 - Is there any proposed roof mounted equipment associated with this building permit? If so. will the equipment be screened by an existing parapet wall or is new screening material required? Please see the attached handouts for examples. __ OK TO ISSUE AND ENTERED APPROVAL INTO COMPU H:\ADMIN\COUNTER\BldgPlnchkRevChklst Rev 9/01 Carlsbad Fire Department 032419 1635 Faraday Ave. Carlsbad, CA 92008 Plan Review Requirements Category: Date of Report: 09/10/2003 Fire Prevention (760) 602-4660 Building Plan Reviewed by: Name: Address: City, State: Plan Checker: Job Name: MV Technical Job Address: 1940 Camino Vida Roble C.S.I. General, Inc./ 1529 Grand Ave. #A San Marcos CA 92069 Job#: 032419 Bldg #: CB032419 Ste. or Bldg. No. Approved The item you have submitted for review has been approved. The approval is based on plans, information and / or specifications provided in your submittal; therefore any changes to these items after this date, including field modifications, must be reviewed by this office to insure continued conformance with applicable codes and standards. Please review carefully all comments attached as failure to comply with instructions in this report can result in suspension of permit to construct or install improvements. D Approved Subject to The item you have submitted for review has been approved subject to the attached conditions. The approval is based on plans, information and/or specifications provided in your submittal. Please review carefully all comments attached, as failure to comply with instructions in this report can result in suspension of permit to construct or install improvements. Please resubmit to this office the necessary plans and / or specifications required to indicate compliance with applicable codes and standards. Incomplete The item you have submitted for review is incomplete. At this time, this office cannot adequately conduct a review to determine compliance with the applicable codes and / or standards. Please review carefully all comments attached. Please resubmit the necessary plans and / or specifications to this office for review and approval. ppviftw 1st ?nd -^d FD.Inh# 032419 FDFile* Other Agency ID TAB&E 8 ALLOWABLE HEIGHTS FOR INTERIOR AND WIND LOAD NON-BEARING CURTAIN WALLS "DS20" -- 20-Gauge - PUNCHED "C" STUDS SPACING SECTION 1 l\x DESIGNATION [DeFl.EcriON 162DS20 250DS20 350DS20 362DS20 400DS20 550DS20 0.072 0.177 0.3S6 0.419 0.523 1.153 600DS20 1 403 SOODSZrt 2 853 162DS20 250DS2Q 350DS20 362DS20 400DS20 550DS20 600DS20 800DS20 0.072 0.177 0.336 0.419 0.523 1 153 1.403 2.853 L/1IO ir .if." 14- L'I4I> IJ" 1*" !l" L/JIHir is- n- 5 IBS. PER SQUARE FOOT SURFACE LOAD - INTERIOR WALLS 12'2" 16'9" 21'8* 22'3" 24' I" 31'0" 33'3" 42' 3" 1 '0" 15'2" 19'S" 20'3" Zl'lO" 28'2" 30'3" 37'9" 97" 13*3" 17'2' !7'8" 19'1" 24'7" 2fj'5" 31' |0" 9'8" 3'4" 173" !7'9" 19'2" 24'9" 26'6" 89" I2'l" 15'S" 1 61 1 " I7'5" 22'6" -;_.. | ,. 33*'8" 30'7" 7' 8" 10'7" I3'8" 14'l" 15'3" 19'7" 2 1 ' 1" 26'8" 8'5" 11'8" 15' I" I5'6" 16'9" 217" 2 3 ' 2 " 29'5" 7'S" 107" 3'3" 1 4' 1 " 15'3" 197" 2'1" 6'8" 9' 3" 2'0" 2'4" 13'4" 17'2" IS'5" 26'9" 23'4" :i) LBS. PER SQUARE FOOT WIND LOAD 77" 10'6" 13'2" 13'6" 14' 5" 13'2" 19'3" 21'9" 6' 10" 9'l" 1 1'5" 11 '8" 12'6" 15'9" I6'8" IS'IO" 5'7" 7'5" 9'4" 9'6" 10'3" !2'10" 13'S" 15' 5" 6T 8' 5" lO'lO" 11'2" 12'0" 15'6" I6'8" 2l'l" 5 6" 7'7" 9'10" !0'1" 10'H" 14T 15'!" IS'IO" 4' 1 0" 6'7" 8'7" 8' 10" 9'6" 12'3" 13'2" I5'5" 5'4" 7'4" 9'6" 9'9" 107" 137" 147" 18'6" 4'10" 6'8" 8'8" 8'IO" 97" !2'4" 13'3" 16'9" 4'2" 5' 10" 7'6" 7'9" 8'4" I0'9" 1 17" 14'8" 3u 1,11s. 1-I.RbgVAKl. hUOl \V1.N1J LUAL> 162DS20 250DS20 350DS20 362DS20 400DS20 550DS20 600D520 800DS20 0.072 0.177 0.3S6 0.419 0.528 1.153 1.403 2.853 162SS25 250SS25 350SS25 362SS25 400SS25 0.03S 0.099 0.216 0.234 0.295 250SS22 350SS22 362SS22 400SS22 550SS22 600SS22 0.157 0.344 0.373 0.469 1.00 1.235 6'5" 87" 10' 9" ll'O" ll'IO" mcr 15'9" 17'9" 5'7" 7'5" 9'4" 9' 6" I0'3" ! 21 ! 0" 13'8" 15'5" 4' 7" 6'0" 7'7" 7'9" 8'4" 10'6" H'2" 12'7" 5'3" 7'4" 9'5" 9'9" 10'6" I3'6" 14'6" !7'9" 4'IO" 6'7" S'7" SMO" 9'6" 2'3" 13'2" I5'5" 4'2" 5'9" 7'6" 7'8" 8'4" 10'6" 1 1'2" 12'7" 4' 8" 6' 5" 8'4" S'6" 9'2" I'lO1 12'9" 16'2" 4'2" 5'!0" 7'6" TV 8 '4" 10'9" I 1'7" I4'S" 3'S" 5'l" 67" 6'9" 7'3" 9'5" lO'l" .27" l,/i:n ii" iA" :a" 1./14I) 1*" If." 34" l./JSO t:" Id" J4" IS LBS. PER SQUARE FOOT WIND LOAD 8'4" 117" 15'0' 15'5" 167" 21'0" 22'3" 25'2" 77" 10'6" 13'2" 13'6" 14'5" 18'2" I9'3" 2 1'9" 6 '.5" 87" 10'9" ll'O" ll'IO" 14' 10" 5'9" 17'9" 6'8" 9'3" 12'0" 12'3" 13'3" |7'l" IS'4" 23'3" 6' I" 5'3" 8'5" lO'lO" 1'2" 12'0" 15'6" 16'S" 2 1 ' t " 7'4" 9'5" 9'9" 10'6" 13'6" I4'6" 17'9" S'lO" S'l" !0'5" I0'9" 117" 15'0" 16'1" 20' 5" 5'4" 7.4- 9' 6" 9'9" 107" 3'7" 147" 18'6" ' 4'8" 6'5" S'4" 8'6" 9'2" U'lO- 2'9" 16'2" 25 LBS. PER SQUARE FOOT WIND LOAD 7' I" 9'4" ll'9" 12'1" I2'U" 16'3" 17'3" 19'6" 6'I" S'l" 10'2" 10'5" I 1'2" 14' 1" 1 4' ! 1 " I6'!0" 5'0" 67" 8' 4" 8'6" 9' 2" M'6" 12'2" 13'9" 57" 7'9" 1 0' I " 10'4" 11'2" 14'5" 15'5" 19'6" 5' I" 7T 9'1" 9'4" 10'2" 13'1" 14'0" 1 6' 10" 4'5" 6'2" S'O" 8'2" S'lO" U'5" 12'2" 13'9" 4' 1 1" 6' 10" 8' 10" 9' I" 9' 10" 127" 13'6" 17'2" 4'6" 6' 2" S'O" S'3" S'll" !1'5" 12'3" 57" 3' 11 " S'S" 7'0" 7'2" 7'9" lO'O" 10'8" 137" W Llij-VtliiQUAHF-FUO! U1MJLDAD 57" 7' 5" 9'4" 9'6" 10'3" 1 2' 10" 13'8" 15'5' 4' 10" 6'5" S'l" S'3" S'lO" H'2" no" 13'4" 4'0" 5' 3" 67" 6'9" 7' 3" 9'1" 9'S" 4' 10" 4'4" 67.-" S7" S'lO" 9' 6" !2'3" 13'2" 10'H" 15'5" 6'0" 7'9" 8'0" S'8" H'2" I ' 1 0" 13'4' 3'10" 5'3" 67" 6'9" 7'3" 9'!" 9'S" 10'H" 4'2" S'lO" 7'6" 7'9" 8' 4" 10'9" 117' 14'8" 3' 10" ^ 5'3" 6' 1 0" 7'0" 77" 9'9" 10'6" 13'3" 3'4" 47" 6'0" 6*1" 67" 8'6" 9'2" !0'11" "SS25" -- 25-Gnuge - PUNCHED "C" STl DS 5 LBS. PER SQUARE FOOT SURFACE LOAD -INTERIORS ALL5 1 0' t " 13' 10" 17' 10" 18'4" 19'9" 9' I" 12V 1 6' 1 " I67" 17'5" 7' II " 10' 10" 13'4" 137" 14'3" 8'1" H'2' !4'5" 14' 10 16'0" 7'4" 10'2" I3'0' 13'4' 14'5" 6'5" S'9" I ra- il P8" I2'7' 7'1" 9'9" 127' 13'0" 14'0" 6'5" 8'10" 1 1-6" 1 t'9" I2'9" 57" 7'9" lO'O' 10'3" 1 1 ' 1 " 10 LBS. PERSQLARE FOOT W1>D LOAD 7'ir lO'lO" 13'4' 137" 14'3" 7'2" 9'6" 11'6" 11'9" 12'4' 5' 10" 7'9" 9'5" 97' lO'l" 6' 5" S'9" 11'4' H'8" 127" 5'9" 7' 11 " 10'3' 5'0" 6'ir 8' 11 " 10'6' j 9'2" 11'4"9' 10" 57' 7'9" lO'O' !0'3" ll'l" S'l" 7'0" 9'1" 9'4" lO'O': 4'5" 6'!" 7' JO- S' 1" 8' 9" "SS22" -- 22-Gauge -- PUNCHED "C" STUDS S LBS. PER SQUARE FOOTSL RFACE LOAD - LNTERIOR WALLS 16V 20'9" 21'4n 23'0" 29' 7" 31'9" I4'7" IS'IO" 19'4" 20' 10" 26' 10' 28' 10 12'8' 16'5" 16' 10" 18'2" 22'8" 237" 12'9" 16'6" 17'0" 18'4" 23'7" 25'4" 1!'7" 15'0" 15'5" I6'8" 21'5" 23'0" 10'2" I3'f !3'6' 147" 1 8'9" 20' I" H'2" 14'5' 14' 10" I6'0" 207" 22' I" I0'2" 13'1" 13'6" 147" 13'9" 20']" 8' 10" H'5" lt'9" 12'8" I6'4" 1 7'6" IS LBS. PER SQUARE FOOT WIND LOAD irr !4'0' 14' 5" 15'5" 18'6" 19'3" 9'8" I2'2H 12-5" 13'4" 16'0" I6'8" 7'll" 9'll" I0'2" 10' 11 13'1" 13'8" S'lO" irs" 1 1'9" 12'8" 16'4" 17'6" 8'0" I0'4" I0'8" i re- U'lO' IS'IO' 7'0" 9'0" 9'3" lO'O" I2'llr 13'8" 7'9" lO'O" I0'3' ll'l" !4'3" 15'4" 7'0" 9'1" 9' 4" [OT I3'0" 13*11- 6'2" 7'1 " 8'2" S'lO" 11'4" 12'2" u See page 46 for footnotes. 45 6> •r', ^ £, fcW* 0 «/ £a /"A<1 TAUIJ3NO.il - AIJ-OWAIIIJ- if) ).»-AlJjQWAnUi NON1IGARINO PARTITION II: ••I— k STUD NAME ECi5S EC250 EC330 -• EC353 2JSS158 ; 23S5250 r 25SS350 *^ 23SS35S *^ 24HDS153 'l^i) 241105250*-^ 24IIDS350 , 24UDS35S 24I!DS400_ S '/2) 24HOS550 ^ \ 24I1DS<SCG 22MOS15S sPXtTTiC"- _M. 12 . 16 24 12 16 24 12 16 12 16 ; 24 12 16 12 15 ' 24 12 16 '24 12 m 2-4 12 16 1J * 24 - 12 :• 24 • -24 : 12 : 16 .. 24 16 24 12 16 ' 24 12 16 24 — - (S) 9.412 B.151 6,655 12J09 10.833 3.345 14350 12.428 10. 1 -J7 14.531 12.534 \ 0.275" 9.901 8.534 7.009 13.153. 11395 13'.476 11.003 15,747 11. 135, 10.446 9395 7.671 14.370 12.445 10.151 13.077 . 15.653 "l 2.732 15.277 15.823 12.924 18.331 [6308/ 13.3*15 20.823 18.035 '14.725 21.443 18.375 15.166 11.443 10.391 8.723 10 6.655 3.164 4.7W 8.345 7.6-50 6.235 10.147 10.275 8-399 6.S77 7.009 6.070 4.955 9304 8.053 6.579 iicni 9J29 7.731 11.133 9.643 7.87-1 7.671 6.643 5.414 10.161 5.500 7.135 12.732 11.070 9.033 12.924 11.192 9.133 13.315 11.531 9.415 14.723 12.752 10,412 15.154 13.134 10.724 8.723 7.53,1 6.163 15 5.434 4.7W 3.842 7.222 6.255 5.107 S.ZS5 6.720 8390 6.677 4.451 5.723 4.956 4.W7 7.597 3372 7.731 5.855 9.M2 7.874 £.263 5.424 4/429 2. 197 7.135 3.867 10.437 9.038 7JSO 10.352 9.133 7.461 10.872 9.415 7.683 12.023 10.411 7,673 12333 10.724 7.265 7.123 6.163 3.036 S"1VD NAMH 22UDSWO 221ID5330 22V1DS353 —22HDS330 22HDWCO i 20I1DS133 20HD5250 20HDS330 20HDS33S 20HD54CO 2QHDS55Q 20HDS5CO 13HDS250 18IIDS330 13II0535S SI'ACINO (in.) 12 16 24 12 15 24 12 12 16 24 12 16 24 12 16 24 * *? 16 24 12 24 12 16 24 11 16 24 12 16 24 12 16 24 12 ' 16 24" 12 16 24 12 16 24 12 16 24 ~]7T 14.137 IU59 20.476 17.SU UJ43 21.W2 13^37 22J98 19J71 15.979 25.109 21611 13.452 25.654 23.109 ' 12.231 11.158 9.745 17.0-10 15.432 13J24 22.W6 20.076 17334 ','20.634 24^33 22.290 13.976 31.615 23.7Z5 23.703 33.923 30.821 25.233. 13.532 16.S33 14.749 24.169 21.959 19.133 24.846 22J74 19.720 1(1 11.159 10.011 R.U4 HJ45 "12.397 10.235 14.907 12.910 10J41 15.979 13-833 1 1.299 18.462 13.939 13.055 18.863 16340. 13342 . S.7-15 5.855 7.464 13.524 12.026 9.819 17334 15.012 12.237 17.749 15371 ' 12J50 •18.976 16.433 13.413 23.703 20J27 15.761 23.233 21.853 17.343 14.749 13.400 U355 19.133 17.429 14.235 19.720 17.8.17 M..W 15 9.4J8 8.174 6.674 11.876 10.2S5 8393 12.171 10.541 8.606 13.047 11^99 9.226 15.074 13.035 10.659 15.406 13342 10.394 7.454 6.004 11333 9.319 8.017 14.153 12.257 10.C08 14.491 12.550 10.247 15.494 13.418 10.956 19353 16.761 n.635 20.603 17.343 14-568 12.554 U355 9.271 I6.4J3 14.235 11.623 16.835 M-ttO 11.90- Partition Steel Framing [cEmccQ TABLE 8 ALLOWABLE HEIGHTS FOR INTERIOR AND WIND LOAD NON-BEARING CURTAIN WALLS DEFLECTION SPACING SLCTKiN DESIGNATION 250SS22 350SS22 362SS22 400SS22 550SS22 600SS22 l\\n;m; ciios 0.157 0.344 0.373 0.469 1.001 t 235 250SS22 350SS22 362SS22 400SS22 550SS22 600SS22 0.157 0.344 0373 0.469 1.001 1.235 "SS22" -- 22-Cauge - PUNCHED "C" STUDS L/120 li" H" H" L/140 11" Ifi- 14" L/360 13" Ifi" 34" 10 LBS. PER SQUARE FOOT \\INDLOAD 9' 8" 12' 2" 12'5" 13'4" 16'0" 16' 8" S'5" 10' 6" 10'9" M'7" 13'11" 14'6" 6' 10" 8' 7" S'10" 9'5" 11'4" ino- 8'0" 1 OH- IO'S" 11'6" 14' 10" 15' 10" 7' 3" 9'5" 9'8" 10' 5" 13'5" 14'5" 6'4" 8'2" 8' 5" 9'1" 11'4" ll'lO" 7'0" 9'1" 9'4" 10' 1" 1 3'0" 1 y \ 1 " 6'5" 8'3" 8'6" 9'2" 11'9" !2'8" 5' 7" 7'2" 7 '5" 8'Q" 10'3" ll'O" 30 LBS. PER SQUARE FOOT WIND K" " 7'll" 9'ir 10' 2" 10'ir 13T I3'S" 6' SO" S'7" 8' 10" 9' 5" 11'4" 11 '10" 5'7" TO- 7'2" 7'8" 9'3" 9'8" 7'0" 9-Q- 9'3" lO'O" 12'11" i3'8" 6'4" 8'2" 8'5" 9'1" 11'4" irio" 5'6- 7'0" 7'2" 7'8" 9'3" 9'S" 6'2" 7-11" 8'2" 8' 10" l!'4" 12'2" 5'7" 7"1" 7'5" 8'0" 10'3" 11*0" 4' 10" f>'~\" 6'S" TO' 8'H" 9'7" L/tIOi:- i*~ | 24-LKIQ 13H 16" 34" L/360 13" 16- Z4" 15 LBS. PER SQUARE FOOT WIND LOAD 8'8" 10' 10" 1'2" 11*11" 14'4" 14'M" 76" 9' 5" 9' 8" 10'4" !2'5" 12'11" 6' 1 0" S'7" 8'10" 9'5" 11'4" If 10" 5'll" 7' 5" 7'7" 8'2" 9' 10" 10'3" 6'1" 7'S" 7' 10" 8'5" I0'2" 10'7" 40 LBS 4']0" 6'1" 6'3" 6' 8" S'O" 8'4" 7'5" 9'7" 9'H" 10'8" 13'9" 14'9" 6'9" 8'9" 9'0" 9' 8" 12'5" 12' 11" 5'il" 7' 7" 7'10" 8'5" l^"1" 10' 7" 6'6" 8'5" 8'S" 9'4" ,-,.,.. 12'ii" s'ir 7'S" 7'10" 8'6" t O' I 1 " II '9" 5'2" 68" 6'1Q" 7'5" or." 10'2" PER SQUARE FOOT W IND LOAD 6'4" 8' 2" 8'5" 9'1" M'4" ll'lO" 5'9" 7'5" 7' 7" 8'2" 9'10" 10'3" 4' 10" 6'I" 6'3" 6'8" S'O" 8'4" 5' 7" 7'2" 7' 5" S'O" 10'3" ll'O" 5'1" 6'6" 6'8" 7'3" 9'4" lO'O" 4'5" 5'S" 5'10" 6'4" S'O" 8'4" "SS^O" - 2n-Gnuge -- PIJNOHF.n "C" STi.mS 250SS20 350SS20 362SS20 400SS20- 5SOSS20 600SS20 800SS20 0.189 0.410 0.445 0.561 1.206 1.479 2 9S9 250SS20 350SS20 362SS20 400SS20 550SS20 600SS20 800SS20 0.189 0.410 0.445 0.561 1.206 1.479 2.989 250SS20 350SS20 362SS20 400SS20 550SS20 600SS20 SOOSS20 0.189 0.410 0.445 0.561 1.206 1.479 2.989 S LBS. PER SQUARE FOOT SURFACE LOAD - INTERIOR WALLS 17T 22'2" 22'9" 24'7" 31'7" 33'M" 42'] " 10'8" 13'10P 14'2" 15'2" 19'0" 20'2" !2'11 15'6" 20*1" 20'8" 22'4" 28'8" 30'9" 38'9" I3'7" 17'6" IS'O" 19'5" 25'0" 26' 10" 32'5" 13'7" 17'7" 18'1" 19'6" 25'1" 26' li" 34' 1" 12'4" 16'0" 16'5" 17'8" 22' ! 0" 24'6" 31'0" 10'9" 13'M" 14'4" I5'6" 19'U" 2r4- 27'1" H'10" I5'4" 15'9" 17'0" 21'11" 23'6" 29'9" I0'9" 13'H" 14-4" 15'6" 19'U" 21'4n 27T 9'5" 12'2" 12'6" 13'6" 17'5" I8'8" 23'8" 20 LBS. PER SQUARE FOOT WIND LOAD 9'7" 12'0" 1 2 ' 3 " 13'2" 16'5" 17'6" 19'10' 7'10" 9'9" lO'O" 10-9" 13'5" 14'3" 16'2n 8'7- 1 1' 1 ' I1'4- 12'3" 15'10" 17'0" 2T6" 7'9' 10T ]0'4"H 11*2" I4'4" 15'5- 19'5" 6'9' 8'9r 9'0- 9'9" 12'6" 13'5" 16'2" 7'6" 9' 8" 9' 11" 10'9" 13'10" 14'10" 18'9" 6'9" 8'y 9'0" 9'9" 12'7" 13'6" 17'1" 5'11" 7'8" "Ml" 8'6" ll'O" 11'9" 14'11 30 LBS. PER SQUARE FOOT WIND LOAD 9T 11'4" li'7- 12'5" 15'6" 16'6' IS'9" 7'10" 9.9- lO'O" 10'9" 13'5" 14'3" 16'2- 6'5" 7'6" 8'0" «'2" 8'9" ll'O" 11'8" 13'3" 9'8" 9'11" 10'9" 13'9" 14'9" 18'7" 6' 9" 8'9" 9'0" 9.9- 12'6" 13'5" 16'2* 5' 11" 7'8" 7'10" S'6" lO'll ITS' 13'3" 6'6" 8'5" 8'8" 9'4" 12T 12'H 16'5" 5 ' 1 11 718" 7'ir 8'6" ll'O" 11*9" U'll 5 '2" 6'8" 6' 11" 7'5" 9'7" 10'3" " 12'11 15 LBS. PER SQUARE FOOT WIND LOAD irio" 15'3" 15'8" 16'1I" 2ry 23'4" 26'6" 10'8" 13'tO" 14'2" 15'2" 19'0" 20'2" 22' 11" 9'1H 11'4" n'7" 12'5" 1 50" 16'6" !8'9" 9'5" 12'2" 12'6" 13'6" 17'5" 18'8" 23'8" 8'7" irr 11'4" 12'3" 15' 10" 17'0" 21'6" 7'6" 9'8" 9' 11 " 10'9" !3'9" 14'9" 18'9" 8'3" 10'8" lO'll" ll'IO" 15'2" 16'4" 20'8" 7'6" 9'8" 9' 11" 10'9" 13'10" 14'10" 18'9" 6'6" 8'5" 8'8" 9'4" 1 2' 1" 12'1 • I6'5' IS LBS. PER SQUARE FOOT WLVO LOAD 9'ir 12-5- 12'8" 13'7- 17'0n 1ST 20'6" 8'7" 10'9" ll'O" 11'9" 14'8" 15'S" 17'9" 7'0" 8'9" 9'0" 9'7" I2'0" 12'9" 14'6" 7'H" 10'3" 10'7" 11'5" 14'8" 15'9" 19'10" 7'2" 9'4" 9'7" 10'4" 13'4" 14'3h 17'9" 6'3" 8T 8'4" 9'0" 11'7" 12'5" 14'6" 6'IT 9'0' 9'3" lO'O' 12'10" 13'9" 17'5" 6'4" g,2- 8'5" 9'!' irs" 12'6" 15'10" 5'6' 7T ?,_.. 7'ir io'r 10*1:' 1 3 ' ; •: 40 LBS. PER SQUARE FOOT WIND LOAD 7'KP 9'9" lU'U" 10'9" 13'5- 14'3" 1 16'2" 6'9" 8'6" S'8" 9'3" 11'8" 12'4' 14'0- 5'6" 6'9" 6'H" 7-1" 7'7" 9'6" lO'l" 11'6' 8'9" 9'0" 9'9" 12'6" 13'5" 16'2" 6'2" 7'11" 8'2" 8'10" 11'4" 12'2' 14'Q' 5*4" 6'11" 7T 7'7" 9'6" lO'l" 11'6" 5'11" 7 '8" 7' 11" 8'6" H'O" n'9" 14'11 5'5" 7'0" ?.2- 7*9" lO'O" 10'8" 13'6' 4'S" 6 ' '. 6'.-' 6'V 8'S- 9^- n'6" 1) Allowable spans are based on stress and defleciion limits only, A 1/3 increase in allowable loads has been taken as prescribed by Section 1603.5 of the code. 2) Sluds musi be checked for shear and web crippling capacity in accordance with U.B.C. Chapter 22, Division V'. Sections C3.2 and C3.4 respectively (including provisions for punchouts) 3) Loads arc assumed to be lateral only, studs required to support axial loads must be checked for compliance with U.B.C. Chapter 22, Division. V., Section C5. Corr,::. Axiul Load and Bending. 4) Fully braced studs are assumed to have both flanges continuously restrained i;y adequate lateral support provided by wall covering in accordance wiih the code. Subject: PDU Date: Wednesday, September 10, 2003 4:51 PM From: Matt Harding <matt@safewayelectric.com> To: Manny Lopez <manny@csigeneralinc.com> Dear Mr. Murphy, Power Distribution Unit (PDU), 3-phase 480 volt input (three-wire plus ground), and 3-phase 208 volt output (four-wire plus ground) PDU's are designed to recover floor space, are compact, and power interface cabinets can include complete electrical adaptation of: • Circuit Breakers • Surge Suppression • Transformers • Power Conditioning • Distribution Panels • Receptacles • Terminal Blocks • On/Off Contactors • Emergency Power Off (EPO) Control Let me know if you have any questions. Thanks, Matt Harding Safeway Electric 616 West Third Ave Escondido, Ca 92025 (760)745-7554 ext. 104 matt@safewayelectric. com www. safewayelectric. com Page 1 of 1 CSI General Inc. 1529 Grand Avenue, Suite A San Marcos, CA 92069 (760)471-9388 (760)471-0149 Proposal for Construction Broker: Address: City: Contact: Arch / Designer: Address: City: Contact: Occupant: Address: City: Contact: Job Address: N/A State: CA Hamann Construction 475 W. Bradley Avenue El Cajon State: CA MV Technical Sales 1969 Kello%% Avenue Carlsbad State: CA 1940 Camino Vida Roble Zip: Tel (760): Fax(760): Zip: Tel (619): Fax (619): Ste: Zip: Tel (760): Fax (760): Ste: 92020 440-7424 440-8914 92008 795-2528 930-8953 City: Carlsbad Job Tel(760): Estimator: Mark R. Wentworth Date: 8/4/03 CSI General Inc. Confidential 10/14/03 Page 1 Page 2 Permit & Fees - By Others Quantity $/Unit Amount Plans & Engineering -excl. Technical Report 1 I/S $4,175.00 $4,175.00 General conditions: 1 I/S $14,750.00 $14,750.00 ^LiabilityInsurance, Workman's Compensation, Supervision, Gas, Phone Demolition: ^Plumbing Trenches *Waste Removal 20 IF $40.00 $800.00 $600.00 $600.00 ^Plumbing trenches includes sawcutting, demolition and replacing of concrete. Carpentry & Millwork: *Misc. Backing *Lower cabinets *Upper cabinets *Countertops *Reception desk Allowance 3 Mday $200.00 *Backingfor cabinetry, restroom partitions and accessories *Exdudes work for HVAC units Roofine : 1 Each*Minor patching only *Will use original building roofer to maintain warranty $3,245.00 Insulation: 'None required *Walls -demising walls; R-13 7,168 Sa.Ft. *Ceilings R-19 13,101 Sq.Ft. insulation @ ceiling & demising walls only. $0.45 $0.47 $600.00 18 10 18 1 Ln.Ft. Ln.Ft. Sq.Ft. Allow $175.00 $145.00 $31.00 $5,500.00 $3,150.00 $1450.00 $558.00 $5,500.00 $3,245.00 $3,225.60 $6,157.47 CSI General Inc. Confidential 10/14/03 Page 2 Page 3 Interior doors : *Single - 31 x 7' masonite *Double -4' x8f masonite *New doors includes doors, fr *Glass & Glazing per specification: *King's Glass *Drywall : *Towne Construction *Acoustical Ceiling : *2 ' x 4 ' Cortega ceiling *Painting : interior office walls -flat *Restrooms~ semi gloss *Paint doors *Warehouse demising wall ^Flooring : *Per specifications 'Plumbing : *New toilets *30 gallon water heater *Sinks - wall hung *Sinks - countertop *Sinks - mop *Floor drains *Plumbing total *Compressed Air Lines Quantity 45 Each 5 Each ames, hardware and 1 Sub 1 Sub 1 Sub 40,068 Sq.ft. 4 Sa.Ft. 44 Each 6,916 Sq.ft. 1 Sub 7 Each 1 Each 6 Each 2 Each 1 Each 4 Each 1 Sub 1 Each $/Unit $298.00 $935.00 installation. $3,400.00 $59,800.00 $14,760.00 $0.26 $135.00 $45.00 $0.18 $14,500.00 $9,800.00 $2,100.00 Amount $13,410.00 $4,675.00 $3,400.00 $59,800.00 $14,760.00 $10,417.68 $540.00 $1,980.00 $1,244.88 $14,500.00 $9,800.00 $2,100.00 CSI General Inc. Confidential 10/14/03 Page 3 Page 4 Quantity $/Unit Amount *Mechanical : *Mechanical Allowance *See enclosed breakdown & subcon *Bath Accessories: *FRP watt panels *Toilet Accessories *Toilet Partitions - ADA *Toilet Partitions - Regular *Electrical - Budgetary Estimate : ^Stairway lights w emergency indirect lights @ skylights ^Bathroom lights *Exit signs *Janitors Light *2 '* 4' /ay-ins -T~8's *Emergency Lights ^Lighting control panel - Title 24 *Lighting circuits *Dual switches *Furniture feeds *20 amp, 120 volt outlets *100 amp ceiling mounted j-boxes *50 amp ceiling mounted j-boxes *30 amp ceiling mounted j-boxes *20 amp ceiling mounted j-boxes *48Q volt panel for HVAC transformer w/400 amp panel *Mounted in Test Room A *480 volt panel/600 amp *208 volt panel/800 amp *2Q8 volt panel/400 amp I Allow. tractor bids 16 Each 4 Each 2 Each 1 Each 4 Each 8 Each 6 Each 8 Each 1 Each 224 Each 16 Each 1 Each 12 Each 50 Each 4 Each 120 Each 12 Each 2 Each 8 Each 16 Each 1 Each 1 Each 1 Each 2 Each 1 Each $46,700.00 $46,700.00 $75.00 $1,200.00 $425.00 $1,700.00 $575.00 $1,150.00 $475.00 $475.00 Site room, cal lab, & power supply CSI General Inc. Confidential 10/14/03 Page4 Page 5 Quantity $/Unit Amount ^Electrical - Budgetary Estimate ^Transformers ^Mounted in Test Room B *6QO amp 480 volt disconnect ^Transformer *800 amp 208 volt panel *Provide power for the following *60 ton 3 phase 480 volt HVAC *15 ton 3 phase 480 volt HVAC *5 ton 3 phase 480 volt HVAC *Fan coils for split system *HVAC in Cal Room *HVAC in computer room *50 amp 3 phase 208 volt comp. *Provide powerin site repair, Cal *50 amp 3-phase *50 amp single phase *30 amp 3 phase *30 amp single phase *20 amp 3 phase *Power to water heater *Remove & reinstall power drops *Electrical Allowance 2 Each 1 Each 1 Each 1 Each 1 Each 1 Each 7 Each 3 Each 1 Each 1 Each 2 Each Lab, & Power Supply Rooms 1 Each 1 Each 9 Each 4 Each 1 Each 1 Each 1 Each 1 Each $56,400.00 $56,400.00 CSI General Inc. Confidential 10/14/03 Page 5 Page 6 Quantity $/Unit Amount *Misc. Items: *Sprinklers *Cleaning *Lifis 2 I/S $23,500.00 27400 Sq.ft. $0.10 3 Months $625.00 t permit and fees %Fee Amount: CTION TOTAL $13,500.00 $1,740.00 $1,875.00 $305,578.63 7% $22,390.50 $326,969.23 Clarifications and Exclusions 1. Excludes hidden conditions and items not stated in proposal 2. Subject to change if changes made by governing agencies, owner or tenant 3. Pricing valid for 30 days from date of proposal. 4. Excludes high piled storage report or technical report that may be required by fire Dep. 5. No sprinkler work in racking included in this estimate. 6. Special Inspections by owner. 7. Excludes Structural Engineering for HVAC units or any carpentry for HVAC units. 8. Add $4,200 if Technical Report is required. CSI Genera! Inc. Confidential 10/14/03 Page 6 ONE Power Conditioner Distribution Unit CD Series Models CD31500, CD31750 CD31810, CD311000 Users Manual important Safety Instructions Save these Instructions - This Manual contains important Instructions for CD Series Models C031SOO. C031750. CD31810. CD311000 which should be followed during .the unpacking, installation and maintenance of these Power conditioners. Model ' Number Serial Number ©1993 ONEAC Corporation Table of Contents 1.0 Introduction ,„„,. 3 1.1 What Equipment needs Power Conditioning? "3 1.2 Sizing Information 3 2.0 Installation Overview - 4 2.1 Important Installation Guidelines 5 2.2 Verifying Your Installation 6 3.0 Installation and Operation: Standard Features 7 3.1 Unpacking and Placement 7 3.2 Input Circuit Breaker 7 3.3 Emergency Power Off (EPO) 8 3.4 Internal Input Terminal Blocks 9 3.5 Input Junction Box 10 3.6 Internal Output Terminal Blocks 11 3.7 Output Junction Box < 13 3.8 Panelboard Output 14 3.9 Output Landing 16 4.0 Features and Controls ," .19 4.1 Input Features and Controls 19 4.2 Output Features and Controls 20 5.0 Retrofitting and Operation: Optional Features.. .21 5.1 Receptacle Output 21 5.2 Remote Emergency Power Off (REPO) - 23 5.3 . Over/Under Voltage Shut Down 25 5.4 Removing the Emergency Power Off (EPO) 27 5.5 Adding the Input Junction Box..,. „. 28 5.6 Output Voltage of 415/240V WYE .28 5.7 Overhead Landing Area 29 6.0 Specifications 30 6.1 CD 31500 Specifications 30 6.2 CD 31750 Specifications ; 32 6.3 CD 31810 and CD311000 Specifications 34 7.0 Physical Views —~«36 8.0 Maintenance .38 8.1 Fuse Replacement 39 9.0 Changing the Operating Voltage .... .40 9.1 Voltage Tap Selection 40 9.2 Changing the Input Voltage Range 42 10.0 Troubleshooting an Installation ..« 43 11.0 Warranty .44 . 1.0 INTRODUCTION Congratulations on owning the world's finest and most reliable power conditioner. Your ONEAC POWER CONDITIONER DISTRIBUTION UNIT provides the ultimate in power conditioning and offers your system an electrically clean, quiet and stable environment With the CD series of conditioners, optimum system reliability and productivity can be realized through the Distribution Unit's ability to attenuate external impulses and decouple noisy system loads. Flexibility is assured through a wide combination of voltages, unit mounted receptacles, and EMI/RFI shielded distribution cables. The excellent noise and transient attenuation coupled with low impedance benefits and excellent efficiency makes the CD series cost efficient, system compatible, and ideally suited for computer based systems where floor space is at a premium. This users manual contains important information about the proper operation, unpacking and installation of your ONEAC power conditioner. Please read this manual before attempting to unpack your power conditioner any further. All specifications and ONEAC part numbers subject to change without notice. If you have any questions or problems regarding your CD Series Power Conditioner, please contact ONEAC's Field Service Department ONEAC offers 24 hour technical support You can reach technical support at 1-800-327-8801 then select option # 3 or at (708) 816-6000 extension 765. 1.1 WHAT EQUIPMENT NEEDS POWER CONDITIONING? Only your electronic based equipment requires conditioned power. Fans, air conditioners and motors DO NOT require power conditioning. Placing fans, air conditioners, motors or other noise generators between the conditioner and the electronics introduces electrical interference into the already conditioned power. In order to minimize electrical noise, each piece of equipment should be individually wired back to the output of your power conditioner distribution unit 1.2 SIZING INFORMATION The rating label of your power conditioner distribution unit lists the CD model's current rating, nominal input and output voltage and serial number. It is located on the left side door. The combined steady state RMS current draw of all your equipment must not exceed the power conditioner's output current rating on any of the three phases. Your power conditioner can operate even with a 100% unbalanced load. Product names are copyright and registered trademarksAradenames of their respective owners. 2.0 INSTALLATION OVERVIEW Please Note! Only qualified electricians should install an ONEAC POWER CONDITIONER DISTRIBUTION UNIT. Follow the National Electrical Code®, local codes, good wiring practice and this Users Manual. 1. Unpack the POWER CONDITIONER (see section 3.1). 2. Move the POWER CONDITIONER to the installation location. 3. Connect the input wires (see sections 3.3 - 3.5). Use a grounding conductor that is equal to or larger than the current carrying conductors. Do not connect a neutral wire to the delta input. 4. Turn on the input circuit breaker. 5. Turn on the output circuit breaker. 6. Verify the correct operation of the POWER CONDITIONER (see section 2.2). 7. Turn off the input and output circuit breakers. 8. Connect your equipment to the output (see section 3.6 - 3.9). Use steel wall conduit or flexible conduit with a continuous copper ground. 9. Turn on the input circuit breaker. 10. Turn on the output circuit breaker. 11. Turn on your equipment. 12. Start normal operation of your system. IMPORTANT INSTALLATION GUIDELINES Dnly qualified electricians should install or retrofit this power conditioner. WARNING Phis POWER CONDITIONER contains DANGEROUS VOLTAGES. Accidental contact can result in serious electrical shock. Mways follow The National Electrical Code® or your local electrical codes md good wiring practice. CAUTION Fhis POWER CONDITIONER is 3 phase, wired In a "DELTA TO WYE" configuration: INPUT ax OUTPUT 3Z A i i i Surge Suppressor A/ \' "WJW 1 ^' Virtual KeMn Ai ' i Panelboard and/or Output Junction Box 0X 0Z N Ihe input requires only 3 phase wires and a ground connection. DO NOT connect a neutral wire to the DELTA input. The use of steel conduit to feed the input is preferred. Separate the input power connections to the power conditioner from the equipment power connections on the output. Data cables should be kept as far away as possible from any power cables. For MAXIMUM PERFORMANCE. Use steel wall conduit or flexible conduit with a continuous copper ground between your equipment and the power conditioner. Always include a ground wire for each circuit on the output of the power conditoner. DO NOT use extension cords or power strips. DO NOT connect your equipment to the power conditioners output until the input connections have been made and proper power conditioner operation has been verified. 2.2 VERIFYING YOUR INSTALLATION 1. Turn OFF the input and main output circuit breakers on the power conditioner, Verify that the installation follows the guidelines outlined in section 2.1, IMPORTANT INSTALLATION GUIDELINES. 2. Turn ON the main power source. /|\ CAUTION DANGEROUS VOLTAGES ARE PRESENT. 3. Place the power conditioner's input circuit breaker in the ON position. Wait for up to IS seconds if your power conditioner has a over/under voltage shut down installed. 4. Place the power conditioner's main output circuit breaker in the ON position. 5. Use a voltmeter to determine if voltage is present at the input and output terminal blocks. The ONEAC power conditioner's output voltage may run a few volts higher than the input voltage until the load is switched on. 6. If the operating voltage matches that suggested by the equipment manufacturer, turn ON the equipment and operate as usual. If variations greater than manufacturer's specifications exist on any phase, a tap selection for that phase could be made to adjust the voltage level (see section 9.1, VOLTAGE TAP SELECTION). If there is power at the input with no power at the output; 1. Turn OFF the main output circuit breaker. 2. Turn OFF the input circuit breaker. 3. Turn OFF the main power source supplying the power conditioner. 4. Follow the procedure in section 10.0, TROUBLESHOOTING AN INSTALLATION. 3.0 INSTALLATION AND OPERATION: STANDARD FEATURES 3.1 UNPACKING AND PLACEMENT Your ONEAC CD series power conditioner is delivered on a wood pallet. Upon arrival inspect the unit and pallet for signs of damage. The pallet has two shipping indicators. Check these indicators for signs of shipping stress. If damage is delected immediately contact the freight company and ONEAC Field Service. You can reach ONEAC Field Service at 1-800-327-8801 then select option # 3 or at (708) 816-6000 extension 765. ONEAC recommends that your power conditioner be left on the pallet during handling. Remove the conditioner from the pallet once it is as close as possible to its final installation location. To remove the power conditioner from the pallet, unbolt it and lift it off using a forklift. Make sure the forklift blades are clear of the casters and glides located under the power conditioner. You may need to adjust the forklift blades for proper clearance. The actual physical placement of the power conditioner should be as close as possible to your equipment The power conditioner should be installed inside the room containing your equipment. Do not allow the conditioner to be installed where direct contact with water is FLOOR CUT OUT possible. Once the location of your power conditioner has been determined, roll the unit into place or carefully use a mechanical lift device to move the unit into place. Adjust the glides on the power conditioner so that the unit is level and stable. Do not leave the power conditioner standing on the casters. To install conduits below a raised floor - cut the raised floor as detailed in the drawing to permit the cables to drop below the floor. 2 1/8-- The CD series power conditioners will not adversely impact system air (5.4 cm) conditioning. See section 6.0, SPECIFICATIONS for the air conditioning load per hour for your CD model power conditioner. TOP VIEW FLOOR CUT OUT AREA « 261/2" 1 (67.3cm) CIRCUIT BREAKER SIDE 91/2"(24.1 cm) 3.2 INPUT CIRCUIT BREAKER This feature is needed to protect your equipment and the ONEAC power conditioner. Make sure the branch circuit breaker feeding the power conditioners input, at the service disconnect, has ratings that are equal to or better than those listed below. Input Overcurrent Protection Model CD315OO CD313OO CD315OO CDS 1730 CD3173O CD3175O CD31SIO CO3181O CD3I1OOO Input Voltage <Vac> 19O-24O 38O-48O &00 1 90-240 38O-48O 6OO 38O-48O 6OO 48O-6OO Circuit BreakerCurrent Rating 175 Amps 9O Amps 9O Ampm 325 Amps 1OO Amps 1OO Amps tOO Amp* 1OO Amps 125 Amp* Interrupting Ruins <Mlmtnum RMS Symmetrical Amps) 22.00O 14.OOO 14.0OO 25.0OO 14.OOO 14.00O 14.OOO 14.000 22.OOO 3.3 EMERGENCY POWER OFF (EPO) This feature will allow your power conditioner to be shut down by simply depressing a button on the front of your power conditioner. Your ONEAC CD Series power conditioner can be retrofitted on site to remove this feature by a qualified electrican, ONEAC field service or at the factory. See section 5.4, REMOVING THE EMERGENCY POWER OFF (EPO). INSTALLATION AND OPERATION: EMERGENCY POWER OFF (EPO) After the EPO has been deployed, the input breaker will need to be switched to the OFF position. It may be reset to the ON position to resume normal operation. CAUTION HAZARDOUS VOLTAGES ARE STILL PRESENT WITHIN THE POWER CONDITIONER EVEN AFTER PRESSING THE EPO SWITCH. YOU MUST TURN OFF THE POWER SOURCE SUPPLYING THE POWER CONDITIONER AT THE SERVICE DISCONNECT TO REMOVE ALL HAZARDOUS VOLTAGES BEFORE WORKING ON OR NEAR THE POWER CONDITIONER. 3.4 INTERNAL INPUT TERMINAL BLOCKS This feature is used for connecting the input AC power connections inside the CD model power conditioner. The internal input terminal blocks are located in the lower left side. There is a conduit hole inside the powercondiUonertoconnectal I/2"or2Mconduit. There is sufficient space around the 1 1/2" conduit hole for punching a larger hole. The input terminal blocks provide an input connection point for the three phase wires and the ground wire. The terminal block is capable of accepting wire sizes from 6AWG to350MCM(10- ISOsq.mm). Your ONEAC CD Series power conditioner can be retrofitted on site with this feature by ONEAC field service or installed at the factory. INSTALLATION: INTERNAL INPUT TERMINAL BLOCKS WARNING Turn off (he main power source supplying the power conditioner at the service disconnect before proceeding. Remove the lower left panel to access the internal input terminal blocks. The input terminal blocks will accept wire sizes from 6 AWG to 350 MCM (10 - 150 sq.mm). Install an appropriate conduit and fining to the power conditioner. A conduit hole for 1 1/2 inch conduit is provided. A larger hole may be punched if needed. Connect the input ground to the terminal block (G). Heavy gauge wire, equal to or larger in diameter than the power carrying conductors should be used to connect the safety ground. It is recommended that ground be wired back to the service ground. Do not rely on the conduit alone for connection, to ground. ONEAC discourages the down sizing of grounding conductors as allowed by various codes. If in doubt regarding wire sizing, consult the National Electrical Code®, Table 310-16, or your local electrical code. Connect the input phase wires to the input terminal blocks. Phase rotation sequence is maintained by the ONEAC power conditioner. Follow the procedure in section 2.2, VERIFYING YOUR INSTALLATION. 2" DIA. HOLE FOR 1 1/2" CONDUIT H [OJ p 2 1/2" DIA. HOLE FOR 2" CONDUIT INTERNAL INPUT TERMINAL BLOCKS 3.5 INPUT JUNCTION BOX This feature is an external junction box containing terminal blocks used to make AC power connections. These connections are usually made under a raised floor. The junction box measures 24 inches by 18 inches by 6 inches (61.0 cm by 45.7 cm by 15.2 cm) and can be supplied on the input of the power conditioner. It is connected to the power conditioner with liquid tight flexible conduit. A conduit hole can be punched in the junction box to make the power connections. The input junction box is sized with appropriate conductors and conduit for thai power conditioners input voltage and current. The input terminal block inside the junction box provides an input connection point for the three phase wires and the ground wire. Your ONEAC CD Series power conditioner can be retrofitted on site with this feature by a qualified electrician, ONEAC field service or installed at the factory. See section 5.5. ADDING THE INPUT JUNCTION BOX. INSTALLATION: INPUT JUNCTION BOX WARNING Turn off the main power source supplying the power conditioner at the service disconnect before proceeding. Remove the junction box cover panel to access the internal input terminal blocks. The input terminal blocks will accept wire sizes from 6 AWG to 350 MCM (10 -150 sq.mm). Install an appropriate conduit and fitting to the power conditioner junction box by punching a conduit hole. Connect the input ground to the terminal block (G). Heavy gauge wire, equal to or larger in diameter than the power carrying conductors should be used to connect the safety ground. It is recommended that ground be wired back to the service ground. Do not rely on the conduit alone for connection to ground. ONEAC discourages the down sizing of grounding conductors as allowed by various codes. If in doubt regarding wire sizing, utilize the National Electrical Code®, Table 310-16. Connect the input phase wires to the input terminal blocks. Phase rotation sequence is maintained by the ONEAC power conditioner. Follow the procedure in section 2.2, VERIFYING-YOUR INSTALLA- TION. INPUT JUNCTION BOX 10 3.6 INTERNAL OUTPUT TERMINAL BLOCKS This feature has output connections for the three phase wires, neutral and the ground wire inside the power conditioner. The output terminal blocks are located behind the right side door. They are protected by the main output circuit breaker. The CD 311000 has terminal blocks capable of supplying two conductors per pole position. There are four 1 1/4 inch conduit holes just above the landing area on the right side to connect the output conduit. The conduit connection may also be made via the landing area on the right side. With this feature on Models CD 31500, CD 31750 or CD 31810. the landing area on the right side has the following pre-installed landing trays: 8 holes for 1/2 inch conduit (I of ONEAC Pan* 201-021) 6 holes for 3/4 inch or 1 inch conduit (1 of ONEAC Part # 201-022) 4 holes for 1 1/4 inch or 1 1/2 inch conduit (1 of ONEAC Part # 201-023) With this feature on Model CD 311000, the landing area on the right side has the following pre-installed landing trays: 16 holes for 1/2 inch conduit (2 of ONEAC Part # 201-021) 2 holes for2 1/2 inch conduit (I of ONEAC Part#201-179) See section 3.9, OUTPUT LANDING for more information. TWO INTERNAL OUTPUT TERMINAL BLOCKS A second set of output terminal blocks can also be installed behind the door on the left side in place of the panelboard. If your conditioner has a second set of internal output terminal blocks, along with a factory installed input junction box, the conduit connection may also be made via the landing area on the left side. When this option is ordered the left landing area will be supplied with the same landing trays as the right landing area. If the conditioner does not have a factory installed input junction box but does contain a second set of output terminal blocks, then the wires should be fed through to the right side and down thought the right side landing area. Models with internal output terminal blocks installed will not be able to order the receptacle output option. Your ONEAC CD Series power conditioner can be retrofitted on site with this feature by ONEAC field service or installed at the factory. 11 INSTALLATION AND OPERATION: INTERNAL OUTPUT TERMINAL BLOCKS WARNING Turn off the main power source supplying the power conditioner at the service disconnect before proceeding. Open the right side door panel to access the internal output terminal blocks. The output terminal blocks will accept one conductor per pole of wire sizes from 6AWG to 350MCM (10-150 sq.mm) for all models except the CD311000. The CD311000 output terminal blocks will accept two conductors per pole. Each wire sizes can be from 4AWG to 350MCM (16- 150 sq.mm). Install an appropriate conduit and fitting to the power conditioner. Use steel wall conduit or flexible conduit with a continuous copper ground. Connect the input ground to the terminal block (G). Heavy gauge wire, with a diameter equal to or larger than the power carrying conductors should be used to connect the safety ground. Il is recommended that ground be wired back to the service ground. Always include a ground wire for each output circuit Do not rely on the conduit alone for connection to ground. ONEAC discourages the down sizing of grounding conductors as allowed by various codes. If in doubt regarding wire sizing, consult the National Electrical Code®, Table 310-16, or your local electrical code. Connect the output phase wires to the output terminal blocks. Phase rotation sequence is maintained by the ONEAC power conditioner. Follow the procedure in section 2.2, VERIFYING YOUR INSTALLATION. INTERN AU OUTPUT TERMINAL BLOCKS 12 3.7 OUTPUT JUNCTION BOX An external junction box wiih terminal blocks inside to make AC power connections, usually under a raised floor. The output junction box provide an output connection point for the three phase wires, neutral and the ground wire. They arc protected by the main output circuit breaker. The junction box measures 24 inches by 18 inches by 6 inches (61.0 cm by 45.7 cm by 15.2 cm). It is connected to the power conditioner with liquid tight flexible conduit and protected by the main output circuit breaker. A conduit hole can be punched in the junction box to make the power connections. Some CD models can be supplied with a second output junction box, identical to the first, which is also protected by the output circuit breaker. Additional junction boxes can be added to the output via the conduit landing system and protected via circuit breakers installed in the panelboard. These additional junction boxes can be of various sizes, conduit lengths and ampacities, with internal terminal blocks, receptacles or other means of connection. Your ONEAC CD Series power conditioner can be retrofitted on site with this feature by ONEAC field service or installed at the factory. INSTALLATION AND OPERATION: OUTPUT JUNCTION BOX When the junction box is on the output the conductors and conduit are sized to supply the full output current rating of the CD model. A WARNING Turn off the main power source supplying the power conditioner at the service disconnect before proceeding. Open the junction box panel to access the output terminal blocks. The output terminal blocks will accept one conductor per pole of wire sizes from 6AWG to 350MCM (10 -150 sq. mm) for all models except the CD311000. The CD311000 output terminal blocks will accept two conductors per pole for wire sizes from 4AWG to 350MCM (16 - 150 sq. mm). Install an appropriate conduit and fitting to the output junction box. Connect the input ground to the terminal block (G). 13 Heavy gauge wire, with a diameter equal to or larger than the power carrying conductors should be used to connect the safety ground. It is recommended that the ground be wired back to the service ground. i—-, Do not rely on the conduit alone for connection to ground. ONEAC discourages the down sizing of grounding conductors as allowed by various codes. If in doubt regarding wire sizing, consult the National Electrical Code®, Table 310-16, or your local electrical code. Connect the output phase wires to the output terminal blocks. Phase rotation sequence is maintained by the ONEAC power conditioner. Follow the procedure in section 2.2, VERIFYING YOUR INSTALLA- TION. OUTPUT JUNCTION BOX 3.8 PANELBOARD OUTPUT The panelboard allows easy connection of circuit breakers and output wiring for multiple equipment connections on the output of your CD power conditioner. The panelboard is located behind the door on the left side. The landing area on the right side contains 40 holes for 1/2 inch conduit on five levels, unless another specific landing tray is indicated when ordering. This option is not available on models which have two internal output terminal blocks. Some CD series power conditioner models can be supplied with a second panelboard installed behind the door on the right side. Two panelboards would increase the available output pole positions from 42 to 84. The landing area on the right and leftside contains 40 holes for 1/2 inch conduit on five levels, for a total of 80, unless specified when ordered. See section 3.9, OUTPUT LANDING for further details. The two panelboard option is not available on models which have one set of internal output terminal blocks. Your CD power conditioner is available without any panelboard(s) on the output. When the CD311000 is supplied with a panelboard, the panelboard will be limited to 200 Amps maximum current draw. Your ONEAC CD Series power conditioner can be retrofitted on site with this feature by ONEAC field service or installed at the factory. 14 INSTALLATION AND OPERATION: PANELBOARD OUTPUT WARNING Turn off the main power source supplying the power conditioner at the service disconnect before proceeding. The panelboard is located behind the door on the left side. The panelboard is manufactured by Square D and is slightly modified to ensure impulse decoupling. It is rated at 225 amps 3 phase and has 42 pole positions. When the CD311000 is supplied with a panelboard. it will be protected with a 200 Amp, 300 Volt, Class J, fast acting, current limiting fuse. The landing area on the right side will be filled with 40 holes for 1/2 inch conduit on five levels, unless another specific landing tray is indicated when ordering. The landing area on the left side can also be used for additional capabilities with a single panelboard. See section 3.9, OUTPUT LANDING for further details. INSTALLATION AND OPERATION: PANELBOARD CIRCUIT BREAKERS WARNING Turn off the main power source supplying the power conditioner at the service disconnect before proceeding. Circuit breakers can be installed in the panelboard on location or you may designate your requirements and have the panelboard breakers pre-installed at the factory. The circuit breakers are Square D plug in, type QO or Ql, class CTL. The automatic trip is indicated by a handle position midway between ON and OFF. To restore service, move the handle to OFF then to ON. The power conditioner can be supplied with circuit breakers pre-installed in the panelboard. These circuit breakers may be installed on site to protect receptacles and/or conduits. PANELBOARD(S) OUTPUT 15 3.9 OUTPUT LANDING The output cable landing area(s) allows for multiple equipment conduit connections on the output of your CD power condition* The conduits can be dropped down thought a raised floor or the landing area can be angled outward to allow conduits to lie on tl floor. The CD models can also be supplied with the output cables factory installed. Your ONEAC CD Series power conditioner can be retrofitted on site with this feature only by ONEAC field service or installed the factory. This option is not available on models which have internal output terminal blocks. CD models supplied with one panelboard will have a landing area on the lower left side. The landing area will be filled with 40 holt for 1/2 inch conduit on five levels unless another specific landing tray is indicated when ordering. Cable landing trays permittir larger conduits can be ordered from the factory (see section 3.9.1, OUTPUT LANDING TRAYS). CD models supplied with two panelboards will have a landing area on the lower right and lower left sides. Each side will be fille with 40 holes for 1/2 inch flexible conduit for a total of SO holes for 1/2 conduit on five levels, unless specified differently whe ordered. Cable landing trays permitting larger conduits can be ordered from the factory (see section 3.9.1, OUTPUT LANDED TRAYS). INSTALLATION AND OPERATION: OUTPUT LANDING WARNING Tarn off the main power source supplying the power conditioner at the service disconnect before proceed* ing. ONEAC can supply the conditioner with pre-wired liquid tight flexible metal conduits with receptacles mounted at the end, or with hard wire terminations. You may also order the cables supplied with the appropriate panelboard circuit breaker to install on a power conditioner already on location. When ordering cables please specify ampacity, termination (receptacle), and length in 5 foot increments (maximum of 50 feet). These types of output connections can be done by a qualified electrician but you must specify your landing configuration if it is different from what is outlined below. The output landing area(s) allow you to connect your equipment via any kind of conduit ONEAC recom- mends using steel conduit with continuous copper ground. This will limit any outside interference and help to insure performance at the end of the conduit. OUTPUT LANDING 16 For cable installations done on site, ONEAC recommends that power njns on the output of the conditioner be as short as possible, with a maximum length of 50 feel. Each power run should be unique from the panelboard to each piece of your equipment. The use of temporary power taps should be avoided. Even the use of duplex receptacles should be avoided in the case of electrically noisy loads, (i.e. laser printers, phase regulated power supplies, etc). In the event that circuits need to be added to the output of your power conditioner, have your electrician follow these rules to insure the best passible performance: Use steel conduit or flexible conduit with a continuous copper ground. See section 3.9.1, OUTPUT LANDING TRAYS for more information on landing various sizes of conduit 3.9.1 OUTPUT LANDING TRAYS Cable landing trays permitting larger conduits can be ordered from the factory, however, use of larger conduits will reduce the cable capacity for the landing area. The landing capacity of each landing area is 5 landing widths. Each landing tray, once installed, will be stepped (on a different level) than the tray on either side of it This stepping allows for easier cable installation. The trays toward the front of the landing area are stepped lower than the trays toward the rear of the landing area. For example, if you needed to supply conduit power for the following: 12 1/2 inch conduits 1 1 1/2 inch conduit 3 1 1/4 inch conduits You would need the following output landing trays: 2 trays for 1/2 inch conduit using 2 landing widths 1 tray for 1 1/2 inch conduit and 1 1/4 inch conduits using 2 landing widths This configuration would fit in one landing area because it requires 5 or less landing widths. If an additional requirement for 1 hole for 21/2 inch conduit was added to the above example then a total of 7 landing widths would be needed. You would need to use both the left and right side landing areas because you need more than 5 but not greater than 10 landing widths installed within raceways. Follow the procedures outlined in section 3.9, INSTALLATION AND OPERATION: OUTPUT LANDING AREA. 17 The following output cable trays are available from the factory. (M.MI! "~ £«»] 8 holes for 1/2 inch conduit (ONEAC Part* 201-021) using 1 landing width tt.n .r.«**I L 6 holes for 3/4 inch or 1 inch conduit (ONEAC Part # 201-022) using 1 1/2 landing widths / "^/: ii*-'! Li L, 4 holes for 1 1/4 inch or 1 1/2 inch conduit (ONEAC Part # 201-023) using 2 landing widths 2 holes for 2 1/2 inch conduit and 2 holes for 1/2 inch conduit (ONEAC Part # 201-179) using 3 landing widths 18 •4.0 FEATURES AND CONTROLS 4.1 INPUT FEATURES AND CONTROLS The input features and controls are outlined in the drawing below. Refer to the section number for information on the opera- tion, installation and retrofitablity of each feature or control. Some features or controls may already be supplied with your power conditioner while others may be optional or not available for your particular CD model. Check the power conditioner SPECIFICATIONS in section 6.0, to verify which features and/ or controls are available, and in what combination, for your model power conditioner. Some features can be added by a qualified electrician on site and others can only be retrofitted by ONEAC field service on site or installed at the factory. Remember: FIELD RETROFITTING REQUIRES YOUR SYSTEM POWER TO BE SHUT DOWN. Of course, you can order your ONEAC power conditioner from the factory with any of the possible features and/or controls pre-installed. EMERGENCY POWER OFF SECTION 3.3 REMOTE EPO SECTION 5.2 INPUT CIRCUIT BREAKER SECTION 3.2 — INTERNAL INPUT TERMINAL SLOCKS SECTION 3.4 N) - — • > a a • \ •• *« — is A V (I a 11 IS « ll OVER/UNDER VOLTAGE SHUTDOWN SECTION 5.3 INPUT JUNCTION BOX SECTION 3.5 19 4.2 OUTPUT FEATURES AND CONTROLS The output features and controls are outlined in the drawing below. Refer to the section number for information on the opera- tion, installation and retrofitablity of each feature or control. Some features or controls may already be supplied with your power conditioner while others may be optional or not available for your particular CD model. Check the power conditioner SPECIFICATIONS in section 6.0, to verify which features and/ or controls are available, and in what combination, for your model power conditioner. Some features can be added by a qualified electrician on site and others can only be retrofitted by ONEAC field service on site or installed at the factory. Remember: FIELD RETROFITTING REQUIRES YOUR SYSTEM POWER TO BE SHUT DOWN. Of course, you can order your ONEAC power conditioner from the factory with any of the possible features and/or controls pre-instaJled. Your equipment can be connected to the conditioner via hard wiring or via receptacles installed on the conditioner. OVERHEAD LANDING AREA SECTION 5.7 MAIN OUTPUT CIRCUIT BREAKER PANEL50ARQ SECTION 3.8- OUTPUT LANDING SECTION 3.9 HI: OUTPUT VOLTAGE OF 415/240 WYE SECTION 5.6 •INTERNAL OUTPUT TERMINAL BLOCKS SECTION 3.6 RECEPTACLE OUTPUTS SECTION 5.1 SECOND PANELBOARD SECTION 3.8 OUTPUT JUNCTION BOX(ES) SECTION 3.7 20 5.0 RETROFITTING AND OPERATION: OPTIONAL FEATURES 5.1 RECEPTACLE OUTPUTS The receptacle outputs feature allows easy connection for equipment which is in close proximity to the power conditioner. There is space for up to 15 standard double wide (4 9/16 inch square - 11.6 cm) wall plates. Your power conditioner is not supplied with a receptacle door unless you ordered receptacles pre-installed on your power conditioner. If you want a receptacle door pre-installed without receptacles, you may specify it when ordering (ONEAC Part # 201 - 039). Output receptacles can be installed on the right side door. A receptacle door can easily replace the standard door for installing receptacles. Your ONEAC CD Series power conditioner can be retrofitted on site with this feature by a qualified electrican, ONEAC field service or installed at the factory. This option is not available on models which have internal output terminal blocks. INSTALLATION AND OPERATION: RECEPTACLE OUTPUT WARNING Turn off the power source supplying the power conditioner at the service disconnect before proceeding. Each receptacle should be protected by its own circuit breaker of the correct ampacity installed in the panelboard. Double wide standard wall plates (4 9/16 inch square- 11.6 cm) should be installed over the receptacles and in any unused spaces. Wall plates which match the color of the power conditioner can be ordered from the factory. See section 5.1.1, COLOR MATCHED WALL PLATES for more information. Install the proper receptacle onto the receptacle door on the right side. Connect the ground wire to the ground (safety) bar, located in the panel board area. The ground wire should be equal to or larger in size or rating than the power carrying conductors. Choose the circuit breaker suited for the application. Connect the receptacle line and neutral wires to the panel board. Torque circuit breakers per label in panel board area. Torque neutral and ground connections to 50 inch Ibs. Maintain close proximity for Phase, Neutral and Ground wires, starting at the panelboard circuit breaker. Tie wrap wires every six to eight inches all the way from the circuit breaker to the receptacle. After completing installation, replace the receptacle door and place blank wall plates in any unused positions and follow the procedure in section 2.2, VERIFYING YOUR INSTALLATION. 21 RETROFITTING YOUR POWER CONDITIONER: RECEPTACLE OUTPUTS WARNING Turn off the power source supplying the power conditioner at the service disconnect before proceeding. Replace the blank door on the right side with the factory ordered receptacle door (ONEAC Part # 201-039), if necessary. Follow the procedures for INSTALLATION AND OPERATION: RECEPTACLE OUTPUTS . o o o o o OOOOQ o oaoa o a o o a o oo o a e a o a oo0a o «oWoa « a « » o ooaa a ooaaa a oaae a o a o o oaoeo o o o o o 5.1.1 RECEPTACLE OUTPUT(S) COLOR MATCHED WALL PLATES You may order any of following double wide wall plates (4 9/16 inch square - 11.6 cm) from ONEAC. These wall plates match the color of your power conditioner. Single duplex ONEAC Part # 200-673 Double duplex ONEAC Part #201-891 /—1/35* 15 Amp twist lock ONEAC Part # 200-888 20 Amp twist lock ONEAC Part #201-892 22 30 Amp twist lock ONEAC Part # 200-849 40 Amp straight blade ONEAC Part #201-844 30 Amp straight blade ONEAC Part #201-846 50 Amp straight blade ONEAC Part #201-845 I .,.—• !_•«! Blank ONEAC Part #201-893 .£* Three 30 Amp twist lock ONEAC Part # 201 -843 t£^i Three 20 Amp twist lock ONEAC Part #201-842 Large blank ONEAC Part #200-890 5.2 REMOTE EMERGENCY POWER OFF (REPO) This feature will allow your power conditioner to be shut down from a remote locations). A normally closed switch can be wired in series with the factory wired EPO switch. A normally open switch can be connected between terminal 3 and terminal 5 on the shunt trip (EPO) circuit board. Your ONEAC CD Series power conditioner can be retrofitted on site by a qualified electrican, ONEAC field service or installed at the factory. INSTALLATION AND OPERATION: REMOTE EMERGENCY POWER OFF (REPO) After the EPO has been deployed, the input breaker will need to be switched to the OFF position. It may be reset to the ON position to resume normal operation. CAUTION HAZARDOUS VOLTAGES ARE STILL PRESENT WITHIN THE POWER CONDITIONER EVEN AFTER PRESSING THE EPO SWITCH. YOU MUST TURN OFF THE POWER SOURCE SUPPLYING THE POWER CONDITIONER AT THE SERVICE DISCONNECT TO REMOVE ALL HAZARDOUS VOLTAGES. 23 RETROFITTING YOU POWER CONDITIONER: REMOTE EMERGENCY POWER OFF (REPO) A switch, rated for a minimum of 2 VA at 24 VDC, can be wired in series or parallel with the factory wired EPO switch. This can be done on the terminal block mounted on the shunt trip (EPO) power supply circuit board. The EPO power supply circuit board is accessible by removing the panel which covers the transformer area. WARNING Turn off the power source supplying the power conditioner at the service disconnect before proceeding. CHANGING THE EPO FEATURE 1. Remove the power conditioner face plate cover panel located between the input and main output circuit breakers. 2. Remove the jumper provided on the terminal block (terminal # 3 - ground and terminal # 4 - NC) to disable the EPO switch on the power conditioner. Replace it with the leads from the remote switch for a series normally closed connection. Leave the jumper in place if you want the EPO switch on the unit to be operational in parallel with your switch. For a normally open switch connection wire between terminal # 3 - ground and terminal # 5 - NO. 3. Re-install the face plate cover panel and turn on the power feeding the power conditioner. 4. Follow the procedure in section 2.2, VERIFYING YOUR INSTALLATION. 7654321 e: o js e: :: SHUNT TRIP (EPOJ POWER SUPPLY CIRCUIT BOARD 24 5.3 OVER/UNDER VOLTAGE SHUT DOWN This feature will allow your power conditioners input circuit breaker 10 trip offat a pre-set level for low voltage, high voltage or phase voltage loss. An LED indicator light is located next to the power conditioners input circuit breaker. When the input circuit breaker is tripped by the EPO circuit the LED indicator will light. There is both an over and under voltage LED indicator light inside the power conditioner to aid in adjusting and troubleshooting your system. Your ONEAC CD Series power conditioner can be retrofitted on site by a qualified electrican, ONEAC field service or installed at the factory. See RETROFITTING YOU POWER CONDITIONER: OVER/UNDER VOLTAGE SHUTDOWN. This feature is only available for 60 Hz operation. INSTALLATION AND OPERATION: OVER/UNDER VOLTAGE SHUT DOWN When the output voltage remains between the lower and upper set-points, the output relay will remain energized. When a fault condition is sensed, the output relay will drop out causing the input circuit breaker EPO circuit to trip the breaker off. After the EPO has been deployed, the input breaker will need to be reset from the tripped position to resume normal operation. To reset the breaker, switch the breaker to the OFF position, then return it to the ON position. The low and high voltage levels for the 208VAC secondary are pre-set for minus 20%( 167VAQ and plus 10% (229VAC) with a 2 second response time. These power off levels can be changed by opening the right side door and using a screwdriver to adjust to the desired level. The under voltage is adjustable from 167VAC to 240VAG The over voltage is adjustable from 210VAC to 280VAC. The response time is also adjustable with a screwdriver from 1 to 10 seconds with 5% accuracy. When initially turning ON the power conditioner expect a delay of up to 5 seconds before power is delivered to the output. CAUTION HAZARDOUS VOLTAGES ARE STILL PRESENT WITHIN THE POWER CONDITIONER EVEN AFTER PRESSING THE EPO SWITCH. YOU MUST TURN OFF THE POWER SOURCE SUPPLYING THE POWER CONDITIONER AT THE SERVICE DISCONNECT TO REMOVE ALL HAZARDOUS VOLTAGES. POWER MONITOR ADJUSTMENTS You may wish to change the above preset levels following this procedure: 1. Install a jumper across the control contacts to prevent on and off cycling of the load. 2. Set the trip delay counterclockwise. 3. Rotate the UNDER VOLTS adjustment slowly clockwise until the contacts transfer to the failed condition (UNDER indicator light turns on). 4. Slowly turn the adjustment counterclockwise until the contacts reset to the normal condition (indicator light off). 5. Rotate the OVER VOLTS adjustment counterclockwise until the contacts trip. 6. Slowly turn the adjustment clockwise until the contacts reset. 7. Remove the jumper. This setting will be correct for most installations. For more accurate adjustments, you may use a variable voltage transfomer on the input of the power conditioner. 8. Set the delay adjustment to the desired amount of trip delay. The trip delay helps prevent nuisance tripping. Should nuisance trips occur, slightly turn the voltage adjustments until the true nuisance trips are eliminated. 25 SPECIFICATIONS: Three phase power monitor ONEAC pan # 432-002 Maximum Voltage - 300VAC Frequency - 60Hz Expected relay life: Mechanical - 50,000,000 operations Electrical -100,000 operations at raced load POWER MONITOR OVER/UNDER VOLTAGE SHUT DOWN 26 5.4 RETROFITTING YOUR POWER CONDITIONER: REMOVING YOUR EMERGENCY POWER OFF (EPO) The EPO can also be removed to insure inadvertent power shut down. The disable kit part number for ordering is as follows; EPO (Emergency Power Offi Disable K*$s - covers the EPO switch tq disallow ONEAC Model ONEAC Part # All CD Series 350-105 A WARNING Turn off the main power source supplying the power conditioner at the service disconnect before proceeding. 1. Remove the power conditioner face plate cover panel located between the input and main output circuit breakers. 2. Disconnect (he leads from the EPO switch and wrap the ends with electrical tape. Loop the leads together and cable tie them to the mounting plate that holds the input circuit breaker. 3. Remove the EPO switch by pressing from the back side of the switch until it releases from the panel. You may have to remove the input circuit breakers cover panel. 4. Install the cover plate over the EPO switch hole with the screws and nuts provided. 5. Re-install the face plate cover panel and turn on the power feeding the power conditioner. 6. Follow the procedure in section 2.2, VERIFYING YOUR INSTALLATION. 27 5.5 RETROFITTING YOUR POWER CONDITIONER: INPUT JUNCTION BOX You may add a input junction box to a power conditioner which has internal input terminal blocks. A qualified electrician can connect conduit directly to the conduit hole provided on the input (1 1/2 or 2 in). WARNING Turn off the power source supplying the power conditioner at the service disconnect before proceeding. You may need to use a 45 degree fitting if you plan on using the junction box above a raised floor or in a non-raised floor application. If that is the case your junction box can only come from the power conditioner on the circuit breaker side. You may buy suitable comparable parts for the following parts listed to hook up to the internal terminal blocks on the input and have a external junction box connection for the input. Junction box. 24 in. by 18 in. by 6 in (61.0 cm by 45.7 cm by 15.2 cm) Liquid tight flexible conduit - 7 feet typical. 1 1/2 inch or 2 inch Liquid tight flexible conduit fitting - straight 1 1/2 inch or 2 inch Liquid tight flexible conduit fitting - 45 degree 1 1/2 inch or 2 inch Terminal block - 5 position 6 AWG to 350 MCM (10-150 sq.mm) 2 position (ONEAC part # 428-092), 3 position (ONEAC part # 428-091) Terminal block mounting hardware Danger high voltage label Input label Be sure to follow the procedures outlined in section 3.5, INPUT JUNCTION BOX. 5.6 OUTPUT VOLTAGE OF 415/240V WYE You can order your ONEAC power conditioner with a 415/240V wye output instead of 208/120V wye. Output panelboard(s) are not available with this optional output voltage. Your ONEAC CD Series power conditioner can NOT be retrofitted on site with this feature. This feature must be installed ai the factory. INSTALLATION AND OPERATION: 4I5/240V WYE OUTPUT This feature requires no special installation procedures. Follow the procedure for installing to your output terminal block or junction box. Remember the phase to phase voltage is 415VAC and the phase to neutral voltage is 240VAC. 28 5.7 OVERHEAD LANDING AREA The CD model power conditioner's can be built with a top mounted output landing area. This allows easy cable installation for areas using overhead power distribution. The standard upper cable landing configuration has 40 holes for 1/2 inch flexible conduits, unless another specific landing tray is indicated when ordering. Cable landing trays permitting larger conduits can be ordered from the factory (see section 3.9.1, OUTPUT LANDING TRAYS). Your ONEAC CD Series power conditioner can only be ordered from the factory with this feature installed. INSTALLATION AND OPERATION: OVERHEAD LANDING AREA WARNING Turn off the power source supplying the power conditioner at the service disconnect before proceeding. Installation of overhead flexible conduits should comply the National Electrical Code® or your local electrical codes. Specifically, provision must be made to support the conduits. Secure the flexible conduits every 41/2 feet and within 12 inches of each receptacle when installed within raceways. Follow the procedures outlined in section 3.9, OUTPUT LANDING AREA. nan OVERHEAD LANDING AREA 6.0 6.1 SPECIFICATIONS CD 31500 SPECIFICATIONS Model pan # Model Output rating (KVA) Load current rating (AMPS/0) Frequency Width (inches) Height (inches) Depth (inches) Floor footprint (square inches) Shipping weight (Ibs.) 010-070 CD 31500 010-071 CD 31500 010-072 CD 31500 010-073 CD 31500 OHWJ74 CD 31500 010476 CD 31500 010-077 CD 31500 54 150 50/60 30.5 68 36 54 150 50/60 30J 68 36 54 ISO 50/60 30.5 68 36 54 150 50/60 30.5 68 36 54 150 50/60 30.5 68 36 54 150 50/60 30.5 68 36 54 150 50/60 30,5 68 36 1116 1250 RF 50 ohm Insertion loss (line to load & load to line) 400 kHz to 4 MHz (typical) 50 db 100 kHz to 10 MHz (typical) 40 db 30 kHz to 30 MHz (typical) 30 db 1kHz forward transfer impedance (Ohms) Efficiency at rated toad (%) Thermal dissipation at 80% load (BTU/Hr.) * Load power factor range(Crest Factor) Surge voltage withstand capabity Normal&Common mode clamping response tune Surge voltage let-through (max) when subj. to 6kv ANSI/IEEE C62.41 Cat. A test Overload capability typically tolerated without degragation Distortion Load regulation response time Interruption response time Ambient Operation Cooling Warranty <0.25 >98 3688 1116 1250 50 db 40 db 30 db <0.25 3688 1116 1250 50 db 40 db 30 db <0.25 >98 3688 1116 1250 50 db 40 db 30 db <0.25 >98 3688 1116 1250 50 db 40 db 30 db <0.25 >98 3688 1116 1250 50 db 40 db 30 db <0.25 >98 3688 1116 1250 50 db 40 db 30 db <0.25 >98 3688 0.3 leading to OJ lagging ANSI/IEEE C62.4I Category A&B. 6 kV/ 200&500 Amp.lOOkHz ringwave aad impulse Instantaneous less than 10V Normal mode (L-N>, less than 05V Common mode (L*G) 10 times rated output for OJ cycle, 5.5 times raced output for 1 second, 3.5 times rated output for 5 seconds <1%THD added into a resistive load <2 msec for a 50% change In load Output voltage will track input voltage in less than 2 msec at power-off and power-on for a single-cycle asynchronous notch 10,000 ft (3.000 meters) max elevation. 0-95 % humidity non-condensing. 32-I04*F (0-WQ convection 5-year materials and workmanship • BTU is based on the Walt loss times 3.41. AH specifications subject to change without notice. 6/3/93 30 6.1 CD 31500 SPECIFICATIONS Model part* Model Input voltaic rant* 3*& • 19Q-200-208-220-230-240 380-39<MOO-415-440-460-4aO 600 Output voltage 3*Y* 208/I20 415/240 Emergency power off (EPO) Remote EPO Over/under voltage shut down No EPO Input termination Terminal block-internal Junction box-external Output distribution No panelboard One panelboard *'* Two panelboards *•** No junction box One junction box Two junction boxes No internal terminal block One internal terminal block t Two internal terminal blocks tt Left side landing area ttt Right side landing area Top landing area Receptacles panelboard circuit breakers Flexible output conduits S - denotes standard feature. D • denotes optional feature. F - denotes field letrafittable feature. Ol(H)70 CD 31500 S O O S O S F O O O S O S O S O O S O O S O O O 0 O OUW7I CD 31500 S O O S O S F O O O S O O O S O O S O 0 S O O O O O 010-072 CD 31500 O S O S O S F O O O S O S 0 S O 0 S 0 0 S O O O O O 010-073 CD 31500 O S O S O S F O O O S O O O S O O S O O 5 O O O O O 010-074 CD 31500 O O S S O S F O O O S O O O S O O S O O S O O O O O 010-076 Q1(M77 CD 31500 CD 31500 S O O S O S F O O S O O S O S O O S O O S O O O O O O S O S O S F O O S O O S p S O O S O O S O O O O O ' Specify specific voltage when ordering. '" Right side landing area will have 40 holes for 1/2" conduit '** Right and left ddeltndiog areas will each have 40holes for 1/2' conduit, W twtcstotaL F ' Only available with no mote than one panelboard. Receptacles are not available. Ft Only available with no panelboard. Receptacles are not available. •tt Only available wbeo input tezminanoob a juntioabox. Ul specifications subject to change without notice. 6/3/93 31 6.2 CD 31750 SPECIFICATIONS Model part* Model Output toting (KVA) Load current rating (AMPS/0) Frequency Width (inches) Height (inches) Depth (inches) Floor footprint (square inches) Shipping weight (tbs.) 010-080 CD 31750 72 200 50/60 30.5 68 36 1116 1550 RF 50 ohm Insertion loss (line to load & load to line) 400 kHz to 4 MHz (typical) 50 db 100 kHz to 10 MHz (typical) 40 db 30 kHz to 30 MHz (typical) 30 db 1kHz forward transfer impedance (Ohms) <0_25 Efficiency ai rated load (%) >98 Thermal dissipation at 80% load (BTU/Hr.) * 4918 Load power (actor range(Crcst Factor) Surge voltage withstand capacity Nonnal&Coniinoa mode clamping response time Surge voltage let-through (max) when subj. fo 6kv ANSI/IEEE C62.41 Cat. A test Overload capability typically tolerated without degradation Distortion Load regulation response time Interruption response time Ambient Operation Cooling Warranty 010-081 CD 31750 72 200 SO/60 30.5 68 36 1116 1550 50 db 40 db 30 db <0.25 >9S 4918 010-082 CD 31750 72 200 50/60 30,5 68 36 1116 15SO 50 db 40 db 30 db <0.25 >98 4918 010-083 CD 31750 72 200 50/60 30.5 68 36 1116 1550 50 db 40 db 30 db >9S 4918 010-085 CD 31750 72 200 50/60 303 68 36 1116 1550 50 db 40 db 30 db <0.25 >98 4918 010-086 CD 31750 72 200 50/60 30.5 68 36 1116 1550 50 db 40 db 30 db <0.25 >98 4918 0.3 leading to 0,3 lagging ANSI/IEEE C62.41 Category A&B. 6 kV/ 2004500 Amp,100kHz ringwave and impulse Instantaneous less than 10V Normal mode (L-N), less than 05V Common mode (L-G) 10 times rated output for OJ cycle. 5-5 times rated output for I second. 3.5 limes rated output for 5 seconds <l% THD added into a resistive load <2 msec for a 50% change in load Output voltage will uncle input voltage in Its* than 2 msec « power-off and power-on fort single-cycle asynchronous notch. 10,000 ft (3,000 meters) max elevation, 0-95 % humidity non-condensing. 32-1047 (0-WQ convection 5-year materials and workmanship ' BTU is based on the Wan loss times 3.41. All specifications subject to change without notice. 6/3/93 32 6.2 CD 31750 SPECIFICATIONS Model pan* 010480 OIO4S1 Model CD 31750 CD 31750 Input voltage range 3*A ' 190-200-208-220-230-240 S S 380-390-400-415-440-460-480 O O 600 O O Output voltage 3*Y " 208/120 S S 415/240 O O Emergency power off (EPO) S S Remote EPO F F Over/under voltage shut down O O NoEPO O O Input termination Terminal block-internal O O Juntion box-external S S Output distribution No panelboard O O One panelboard ** SO Two pandboards "•* O S No Juntion box S S One juntion box O O Two junUon boxes O O No internal terminal block S S One internal terminal block f O O Two internal terminal blocks ft O O Left side landing area ttt S S Right side landing area O O Top landing area O O Receptacles O O Panelboard circuit breakers O O Flexible output conduits O O 010482 CD 31750 O S O 5 O S F O O O S O S O S O O S O O S O O O O O 010483 CD 31750 O S O S O S F O O O S O O S S O O S 0 0 S O O 0 O O 010485 CD 31750 S O O S O S F O O S O O S O S O O S O O S O O O O O 010486 CD 31750 O S O S O S F O O S O O S O S O O S O O S O O O O O ; - denotes standard feature, ) - denotes optional feature. : - denotes field retrofiltable feature. Specify specific voltage when ordering. * Right side landing area, will nave 40 holes for 1/2" conduit. ** Right and left side landing areas will each have 40 boles for 1/2" conduit, 80 boles total Only available with no more tban one panelboard. Receptacles are not available. t Only available with no panelboani Receptacles are not available, ft Only available when input termination is a juntion box. jl specifications subject to change without notice. 6O/93 33 6.3 CD 31810 AND CD311000 SPECIFICATIONS Model pan * Model Output rating (KVA) Load currenl rating (AMPS/0) Frequency Width (inches) Height (inches) Depth (inches) Floor footprint (square inches) Shipping weight (Ibs.) RF SO ohm Insertion lott(line to load & load to line) 400 kHz lo 4 MHz (typical) 100 kHz to 10 MHz (typical) 30 kHz to 30 MHz (typical) 1kHz forward transfer impedance (Ohms) Efficiency at rated, load (%) Thermal dissipation at 80% load (BTU/Hr.) • Load power factor rangc(Crest Factor) Surge voltage withstand capacity Normal&Common mode clamping response time Surge voltage let-through (max) when subj. to 6kv ANSI/IEEE C62.41 Cat. A test Overload capability typically tolerated without degradation Distortion Load regulation response time. Interruption response time Ambient Operation Cooling Warranty 010491 CD 31810 81 225 50/60 30.5 68 36 1116 1550 50 db 40 db 30 db <0.25 >98 010-093 CD 31810 81 225 50/60 30.5 68 36 1116 1550 SOdb 40 db 30 db <0.25 >98 010-095 CD 31810 81 225 SO/60 30.5 68 36 1116 1550 50 db 40 db 30 db <0.25 >98 010-100 CD 311000 100 278 SO/60 30.5 68 36 1116 1900 50 db 40 db 30 db <0.25 >98 010-103 CD 31 1000 100 278 50/60 30J 68 36 1116 1900 SOdb 40 db 30 db <0.25 >98 5200 5200 5200 5800 5800 0.3 leading to 03 lagging ANSI/IEEEC62.41 Category A&B, 6 kV/200&500 Amp.lOOkHzringwaveand impulse Instantaneous less than 10V Normal mode (L<N), less than 0.5V Common mode (L-G) 10 times rated output for 0.5 cycle. 5.5 times rated output for 1 second. 3.5 times rated output for 5 seconds <1% THD added into a resistive load <2 msec for a 50% change in load Output voltage will track input voltage in less than 2 msec at power-off and power-on for a single-cycle asynchronous notch. 10.000 ft (3,000 meters) max elevation, 0-95 % humidity non-condensing. 32-I04*F (0-40"C) convection 5-year materials and1 workmanship * BTU is based on the Wan loss times 3.41. All specifications subject to change without notice. 6/3/93 34 6.3 CD 31810 AND CD311000 SPECIFICATIONS Model pan* Model Nominal Input voltage 30A ' 190-200-208-220-230-240 380-390-400-415-440-460-480 480-600 Nominal output roltage 30Y* 208/120 413/240 Emcifency power off (EPO) Remote EPO Over/under voltage shut down No EPO Input termination Terminal block-internal Juntion box-external Output distribution Nopanelboaid One panelboard *" Two panelboards *** No juntion box One juntion box Two juntion boxes No internal terminal block One internal terminal block t Two internal terminal blocks ft Left side landing area ft t Right side landing area Top landing area Receptacles Panelboanl circuit breakers Flexible output conduits - denotes sonant feature. - denotes optional feature. - denotes field retrofinable feature. 010491 CD 31810 O S O S O S F O O O S O S O S O O S O O S O O O O O 010-093 CD 31810 O S O S O S F O O O S O S O S O O S O O S O 0 O O O 010-095 CD 31810 O S O S O S F O O S O O S 0 S O O O S O S O O O O O 010-100 CD 31 1000 N O S S O S F O O O S O S O O S O S O O S O O O O O 010-103 CD 311000 N O 5 S O S F O O S O O S O S O O O S O S O O O O O Specify specific voltage when ordering. 1 Right side landing area will have 40 holes for 1/2" conduit. '* Right and left ride landing areas will each have 40 boles for 1/2" conduit. 80 holes total, Only available with no more than one panelboard. Receptacles are not available. Rightside landing areaforCD3I8IOwfflbave4hoks<br 11/4" or 1 1/2", 6 holes for 3/4" or 1' and 8 boles for 1/2" conduit Riztxnfcl*rtiat»iafQcCD3llCQQwWfoK2bQte(ot2in-vril6\»[cx(cxi Only available with no panelboard. Receptacles are not available. Right and left side landing areas for CD31810 will each have 4 holes for 1 1/4' or 1 1/2". 6 hole* for 3/4" w I" and 8 hotel for 1/2" conduit. Right and left side landing area for CD3HOOO will each have 2 holes for 2 1/2* and 16 holes for 1/2" conduit, t Only available when input termination is a juntion box. I specifications subject to change without notice. 6/3/93 35 7.0 PHYSICAL VIEWS FRONT VIEW - CD31500, CD31750, CD31810 a 12" D a ffl ID 12" •30.5" a BOTTOM VIEW 36 7.0 PHYSICAL VIEWS FRONT VIEW-CD 311000 36" WIIIIIlfflllUIIHIWfllHIIWUIIlllfllWUIllllllini miiiiiiainniiiiiwfliniifliiBdiimnwiHiiHiiii BACK VIEW SIDE VIEW 37 8.0 MAINTENANCE Maintaining the correct operation of your ONEAC Power Conditioner is limited to annually checking the operating voltage an- torquing all the connections. WARNING Turn off the input and main output circuit breakers on the power conditioner. Turn off the power source supplying the power conditioner at the service disconnect before proceeding. Follow the chan below for torque specifications not listed. Circuit Breakers torque specification - on label on face of circuit breaker. Terminal Blocks torque specification - on label on side of terminal block. Panel boards torque specification - on label in panelboard area. Torque Specifications Location Tran s formerMounting Wire* 3OOMCM Wires Misc. connections Capacitors Printed Circuit Board(s) Twistlock Receptacles Duplex Receptacles Size in 5/16 1/4 mo *8 *6 3/8 5/16 1/4 tflO «8 «ti *d *« Material Stainless Steel Steel Steel Steel Steel Steel Brass Brass Brass Brass Brass Brass Torque CFT/LB) AS 12 6 2O 11 6 Torque ON/LB) 540 140 75 32 2O It 24O 132 75 20 16 8 16 12 38 8.1 FUSE REPLACEMENT The CD series power conditioners requires fuses in some locations. In the unlikely event that a fuse needs to be replaced the fuse locations and specifications are as follows: Shunt trip Power Supply - 6 An\p, 250 Volt. 3AG Glass Body, fast acting, 1/4" by I 1/4" with I 1 1/2" pigtail. CD311000 panelboard - 200 Amp, 300 Volt. Class J, fast acting, current limiting. MOV printed circuit board - 10 Amp. 250 Volt, 3AG Glass Body, fast acting, 1/4" by 1 1/4". FUSE REPLACEMENT I. Turn OFF the power conditioner's output circuit breakers. 2. Turn OFF the power conditioner's input circuit breaker. A WARNING Shunt Trip Power Supply Fuse ** o ? 6 54321 0 c -i^ po — | h ^1 o Turn off the power source supplying the power conditioner at the service disconnect before proceeding. SHUNT TRIP (EPO) POWEB SUPPLY CIRCUIT BOARD 4. Go to the blank side of the conditioner. Take off the transformer cover panel by removing the 3 screws from the lop of the panel, Pull the panel out and up to expose the transformer compartment. To access the CD311000 Panelboard fuses, remove the panel located between the input and main output circuit breakers (as illustrated). 5. Replace the fusc(s) as needed. 6. Re-install the transformer cover panel by first replacing the bottom and then sliding the top in place. Reinstall the 3 screws. For CD311000 Panelboard fuses, re-install the cover plate between the input and main output circuit breakers. 7. Follow the procedure in section 2,2, VERIFYING YOUR INSTALLATION, a o «*"- * PJOC IQMO:^ OJOC CD311000PANEI.BOARD FUSES 39 9.0 CHANGING THE OPERATING VOLTAGE 9.1 VOLTAGE TAP SELECTION Tap selection allows a permanent adjustment to the voltage level of any phase. If the nominal output level is not within theequipmer manufacturer's suggested operating range, you can move the power tap on the primary of the power conditioners transformer. The purpose of tap selection is to correct for steady state variances in nominal line voltage. The power conditioners output voltag should be monitored for a few days to determine the normal output level before adjusting the voltage by tap selection. Important: Tap changes from one input voltage category (190-240V, 380-480V, 600V) to another may require changing the input circuit breake and wire gauge (see section 9.2, CHANGING THE INPUT VOLTAGE RANGE). Only ONEAC field service can make inpu voltage changes to the 190-240V range from any other input voltage range. Tap selection allows an electrician to permanently adjust the output voltage level of each phase by moving taps on the primary o! the transformer if the nominal outputlevel is not within the equipment manufacturer's suggested operating range. See section 5.3. OVER/UNDER VOLTAGE SHUTDOWN if you need your system to shut down after a set period of time of high or low voltage! VOLTAGE TAP SELECTION 1. Turn OFF the power conditioner's output circuit breakers. 2. Turn OFF the power conditioner's input circuit breaker. WARNING Turn off the power source supplying the power conditioner at the service disconnect before proceeding. 4. Go to the blank side of the conditioner. Take off the transformer cover panel by removing the 3 screws from the top of the panel. Pull the panel out and up to expose the transformer compartment The input voltage is raised or lowered by moving the power lead(s) from the input circuit breaker on the front (primary side) of the transformer. Do not change the location of any other wires which are connected to the transformer's primary or secondary. Only the power wires which come from the input circuit breaker. Increase the output voltage by moving the power lead(s) to the next lower input voltage tap on the transformer. Voltage tap increases are not possible for 190V, 380V or 600V inputs. Decrease the output voltage by moving the power lead(s) to the next higher input voltage tap on the transformer. Voltage tap decreases are not possible for 240V, 480V or 600V inputs. 5. Re-install the transformer cover panel by first replacing the bottom and then sliding the top in place. Reinstall the 3 screws. 6. Follow the procedure in section 2.2, VERIFYING YOUR INSTALLATION. 40 2Q8V Input Wiring From Input Circuit Breaker 480V Input Wiring From Input Circuit Breaker 600V Input Wiring From Input Circuit Breaker Mote: The tap locations showen are a representative example. The actual physical location of Individual taps may differ. 41 9.2 CHANGING THE INPUT VOLTAGE RANGE Unless specified to the contrary, your ONEAC power conditioner is shipped from the factory with the primary taps selected a illustrated on the proceeding page. Conversion Kits are avalible for retrofitting your power conditioner from one input voltage range to another. The conversion ki includes all the nessasary components and instructions to retrofit your power conditioner on site. The conversion kit part number: for ordering are as follows: Voltage Cpn version JKjts - cppvejtsJuput i rae to another ONEAC Model CD3I500 CD3I500 CD31750 CD31750 CD31810 CD3I810 ONEAC Part # Description 350-057 350-056 350-081 350-082 350-079 350-080 Converts input voltage to 190-240V from any other range. Converts input voltage to 380-600V from any other range. Converts input voltage to I90-240V from any other range. Converts input voltage to 380-600V from any other range. Converts input voltage to 190-240V from any other range. Converts input voltage to 380-600V from any other range. CHANGING THE INPUT VOLTAGE RANGE 1. Turn OFF the power conditioner's output circuit breakers. 2. Turn OFF the power conditioner's input circuit breaker. WARNING Turn off the power source supplying the power conditioner at the service disconnect before proceeding. 4. Go to the blank side of the conditioner. Take off the transformer cover panel by removing the 3 screws from the top of the panel. Pull the panel out and up to expose the transformer compartment. 5. Take off the side panel nearest the input circuit breaker by removing the screws at the bottom of the panel. Pull the panel upward to release the top of the panel from the hanger. 6. Disconnect the wires from the EPO switch and note the terminations for ease in reconnecting. 7. Take off the input circuit breaker cover panel.. 8. Disconnect the two leads on the input circuit breaker running to the Shunt Trip power supply board pins 6 and 7. 9. Disconnect the main power cables from both sides of the input circuit breaker. SOuittTrtp Vttuai K*Mn SHUNT TRIP (EPO) POWER SUPPLY 42 CHANGING TKE INPUT VQLTAGE_RANGE cont. 10. Remove and replace the input circuit breaker and mounting bracket with the circuit breaker and bracket provided with the conversion kit. 11. Check the wire gauge of the wires you received as part of the voltage conversion kit. Consult the National Electrical Code® table 310-16, or your local electrical code, lo verify the proper gauge. 12. Replace the input power wires and jumpers as necessary. Wire as shown in section 9.1, VOLTAGE TAP SELECTION. Do not change the location of any other wires which are connected to the transformer's primary or secondary. Only change the power wires which come from the input circuit breaker and if necessary, the jumper wires on the primary winding. 13. Reconnect the two wires from the input circuit breaker to the shunt trip power supply board, pins 6 and 7. These wires are not polarized and may be connected either way. 14. Reconnect ihc EPO switch wires. 15. Re-install the input circuit breaker cover panel and the side panel. 16. Re-install the transformer cover panel by first replacing the bottom and then sliding the top in place. Re-install the screws. 17. Follow the procedure in section 2.2, VERIFYING YOUR INSTALLATION. o 7654321 0 o ^ 1 f~~> D <1 0 SHUNT TRIP (EPO) POWER SUPPLY BOARD 10.0 TROUBLESHOOTING AN INSTALLATION If there is power at the input with no power at the output, turn OFF the main output circuit breaker and then the input circuit breaker to the conditioner and the main power source or service disconnect. Check the values specified on the nameplate. Verify that your main power source is correct for the power conditioners input voltage. Verify that the power conditioner's input voltage has not been changed in the field. !f everything seems correct, disconnect the line and ground input wires and then contact your local ONEAC Sales Representative )r ONEAC Field Service Department, fhe ONEAC Field Service Department offers 24 hour technical support and can be reached at 1-800-327-8801 then select option 13 or at (708) 816-6000 extension 765. f your ONEAC power conditioner needs repair or replacement which cannot be done on site, ONEAC's Field Service will issue ou a Return Material Authorization (RMA) number along with instructions on how to return the conditioner. Please check with )NEAC's Field Service Department before attempting to repair or return any ONEAC product. .'orrespondence and RMA's should be directed to: ONEAC Field Service 27944 North Bradley Road Libcrtyville, IL 60048-9700 U.S.A. Attention: RMA # 43 11.0 WARRANTY ONE AC warrants its products to be free from defects in materials and workmanship fora period of five years. This warranty is limit to repairing or replacing , at ONEAC's option, any defective component, circuit board or module contained within the produ When it is returned with an ONEAC Return Material Authorization (RMA) number to ONEAC or to an ONEAC-designated rep; facility. In all cases, shipping charges to and from ONEAC or the ONEAC-designated repair facility are at the customer's expen; Modules or peripherals included with the product but not manufactured by ONEAC, are warranted for ninety days or to the exte of the manufacturer's warranty, whichever is longer. This includes but is not limited to batteries or battery packs. Limitations of Warranty -This limited warranty does not cover any losses or damage resulting from shipment to or from tl customer, or from improper installation, environment or abuse, or from any modifications, adjustments or repair by other thi ONEAC-authorized personnel, Exclusive Remedies - Except as setforth herein and exceptas to title, there are no warranties^ express or implied, or any affinnatioi of fact or promises by ONEAC with reference to the products or their merchantability or fitness for any particular purpose. In t event shall ONEAC be liable for lost profits, goodwill or any other special or consequential damages. If it becomes accessary to return a power conditioner, contact ONEAC for a Return Material Authorization (RMA) numbe: This number must be marked on the shipping carton and packing slip of the unit being returned. Shipping charges are 1 be borne by the customer. Customers will be billed repair charges for shipping damages resulting from inadequal packaging of the product being returned. ONE ONEAC Corporation 27944 North Bradley Road Libertyville, IL. 60048-9700 USA. Telephone :(7Q8) 816-6000 (800) 327-8801 Facsimile : (708)680-5124 Telex : 757024 ONEAC U. ONEAC Ltd. 6 Eyston Way Abingdon, Oxon OX 14 1TR United Kingdom Telephone : 44 (235) 534721 Facsimile : 44(235)534197 Telex ; 837976 ONEAC G. 6/10/93 913-066 Rev E 44 ONEAC USA 27944 North Bradley Road LibertyviHc, IL 60048-9700 U.S.A. Telephone : (847)816-6000 (800)327-8801 Facsimile : (847)680-5124 www.oneac.com ONEAC EUROPE 18&20BlacklandsWay Abingdon Business Park Abingdon, Oxfordshire OX14 IDY United Kingdom Telephone : +44-{0)-1235-534721 Facsimile : +44-(0)-1235-534197 ONEAC is a UL/BSI rcgtsicrcd firm. Ccnificaiion No. A2900. ONE®,/=. (t A HIGHER LEVEL OF CONFIDENCE COMMERCIAL SMALL PACKAGED ROOFTOP 549B High-Efficiency Packaged Rooftop Heat Pump (3-10 Tons) • High-efficiency product with cooling efficiencies to 12 SEER/10.5 HER and heating efficiencies of 7-6 HSPF/3.4 COP • ASHRAE 90.14999 compliant • Defrost system uses time and temperature to keep outdoot coi! frost-free • Convertible airflow for down or side supply applications • Quiet operation—ARI ratings as low as 76 dB • Belt drive indoor blower • Outdoor ambient cooling operation from 25' F to 1Z5° F standard • Refrigeration system protection • Exclusive Cycle-Loc™Control • Scroll compressors • Tool-less filter access • Sloped, composite drain pan for IAQ • Full perimeter baserail for rigging • Weatherized cabinet made from prepainted steel • 1-year limited product warranty • 5-year compressor warranty • 5-year electric heater accessory warranty • Extended warranties available 548F Standard-Efficiency Packaged Rooftop Heat Pump (3-10 Tons) • Standard-efficiency product with cooling efficiencies to 10.2 SEER/9.05 HER and heating efficiencies of 7.5 HSPF/3.2 COP • Defrost system uses time and temperature to keep outdoor coil frost-free • Outdoor ambient cooling operation from 25'F to 115* F standard • ARI ratings as low as 80 dB • Tool-less filter access • Sloped, composite drain pan for IAQ • Full perimeter baserail for rigging • Weatherized cabinet made from prepainted steel • 1-year limited product warranty • 5-year compressor warranty • 5-year electric heater accessory warranty • Extended warranties available PACKAGED ROOFTOP HEAT PUMPS 549B 3-10 TONS ASHRAE 90.1-1999 COMPLIANT 3.2 '%V&iHSSi 3.4mmMm 3.3 7.6 45 45*" WH? 57%* 33* 333* 33>^fth";491/. 548F 3-10 TONS 3.2 'Mm3.0 7.0 45 tSklTFSawa 45;«57V. 33*me 33* "if* •SEEK for 3-5 Tons, oil others rated or EER "ASHRAE 90.1 -1999 compliant S49B 548F COMMERCIAL SMALL PACKAGED ROOFTOP 58IB High-Efficiency Packaged Rooftop Gas Heating/Electric Cooling {3-12.5 Tons) " High-efficiency product with efficiencies to 13 SEER/I I HER • ASHRAE 90.1-1999 compliant • Heating efficiencies to 82% AFUE • Exclusive solid-state Integrated Gas Control (IGC) board ensures safe neating operation and provides diagnostic capability • Outdoor ambient cooling operation from 25° F to 125° F standard » Quiet operation — ARI ratings as low as 76 dB • Belt drive indoor blower Perfect • Refrigeration system protection Humidity • Exclusive Cycle-Loc™ control • Scroll compressors • Tool-less filter access « Sloped, composite drain pan for IAQ • Full perimeter baserail for rigging • Weatherized cabinet made from prepainted steel • Perfect Humidity coil option available as a factory-installed option • 1-year limited product warranty • 5-year compressor warranty • 10-year heat exchanger warranty • Extended warranties available PACKAGED ROOFTOP GAS HEATING/ELECTRIC COOLING 581B 3-12.5 TONS ASHRAE 90.1-1999 COMPLIANT 581B036115 %&%&£ 5818043115 5818060072 5818060150KtftBiti'H***"mmss^M 5818072115wm#j->wfd £*MsseKJlslil 5818090125 5818090224 581B102180 581Bl201 SO 3.0 !5C71^i 4.0 £KJi 5.0 j.biiB 6.0^ni 7.5 **tf*5*£SIB 8.5kWVff 10.0mm 10.0 &p$$£j-;*i.0lj 12.5 87V.m^m-i.i^QS- 87V. 87V. 5ji7'£jaRS'S,87V. 87V. 45 ?*45 $&45§i 45 57* "571/. B9S57V. &$ 57V. 581B 331/. 41 Mi^l«. 4IM. COMMERCIAL SMALL PACKAGED ROOFTOP 580F Standard-Efficiency Packaged Rooftop Gas Heating/Electric Cooling {6-12.5 Tons) • High-efficiency product with efficiencies to 5 HER • Heating efficiencies to 80% AFUE • Exclusive solid-state Integrated Gas Control (IGC) board ensures safe neating operation and provides diagnostic capability • Outdoor ambient cooling operation from 25° F to 115" F standard • AR1 ratings as low as 81 dB • Tool-less filter access • Sloped, composite drain pan for 1AQ • Full perimeter baserail for rigging • Weatherized cabinet made from prepainted steel • l-year limited product warranty • 5-year compressor warranty • 5-year heat exchanger warranty 580F Mid-Efficiency Packaged Rooftop Gas Heating/Electric Cooling (3-12.5 Tons) • Mid-efficiency product with efficiencies to 10 SEER/10.1 HER • ASHRAE 90.1-1999 compliant • Heating efficiencies to 80% AFUE • Exclusive solid-state Integrated Gas Control (IGC) board ensures safe neating operation and provides diagnostic capability • Outdoor ambient cooling operation from 25° Fto 115° F standard • ARI ratings as low as 81 dB • Tool-less filter access • Sloped, composite drain pan for IAQ • Full perimeter baserail for rigging • Weatherized cabinet made from prepainted steel • I -year limited product warranty • 5-year compressor warranty • 5-year heat exchanger warranty • Extended warranties available 580F 6-12.5 TONS STANDARD EFFICIENCY 580F072115•istfffniefit•WffiMRWtWs<i 5SOF090125 580F090224 sWW^SK) 5SOF102180 SM&W2M. 58*120180Kawef»R*H#"§8ffSiffi£?Sfi 580F120250 5SOF150224. S80F150250 6.0 ;$0 7.5 $B? 7.5•]M£8.5 M 10.0 10.0lo.bm 12.5 72,000!W««f<dfffffj 85,000 '85,000* liaobb" 117,000 Vi 7,000° 145,000 9.0 8.9 |tga 8.9"S Q ff'.'•»«•«*»>9.0 X 9.0na-CPt&«*W.i9.0 115,000 125,000 224,000 IfcSlto*•SwS'WWi 180.000 *V1#:'rt/V\'::':22&«Q& 180,000 &S88& 250.000 250.000 2800 ^tfHKytWm- 2800 SWtt 3000•^avws$Pf. 4000 MS 4000mm 4500 930 $Sd 930 JHQB 940 "1095" 1095 1110 57V. 57%, 57V. ^57^57V.;SW.: 57V. 'SEER for 3-5 Tons (beftdrive), all others rated at EER 580F 3-12.5 TONS ASHRAE 90.1-1999 COMPLIANT "SEER (or 3-5 Tons (befldrwe), all others rated at EER 580F 414. 49M, 33Mi 33V, 3» 41 Mi JlK 4IM. 49s/. COMMERCIAL SMALL PACKAGED ROOFTOP 551B High-Efficiency Packaged Rooftop Electric Cooling (3-12.5 Tons) • High-efficiency product with efficiencies to 13 SEER/11 HER • ASHRAE 90.1-1999 compliant • Convertible airflow for down or side supply applications • Quiet operation — ARI ratings as low as 76 dB • Belt drive indoor blower • Outdoor ambient cooling operation from 25° F to 125° F standard Perfect • Refrigeration system protection Humidity • Exclusive Cycle-Loc™ control • Scroll compressors • TooMess filter access • Sloped, composite drain pan for IAQ • Full perimeter baserail for rigging • Weatherized cabinet made from prepainted steel " Perfect Humidity coil option available as a factory- installed option. " 1-year limited product warranty • 5-year compressor warranty • 5-year electric heater accessory warranty • Extended warranties available 558F Standard-Efficiency Packaged Rooftop Electric Cooling (6-12.5 Tons) • Standard-efficiency product with efficiencies to 9 EER • Convertible airflow for down or side supply applications • ARI ratings as low as 82 dB • Outdoor ambient cooling operation from 25* F to 115 "F standard • Tooless filter access • Sloped, composite drain pan for IAQ • Full perimeter baserail for rigging • Weatherized cabinet made from prepainted steel • 1-year limited product warranty • 5-year compressor warranty • 5-year electric heater accessory warranty • Extended warranties available 558F Mid-Efficiency Packaged Rooftop Electric Cooling (3-12.5 Tons) • Mid-efficiency product with efficiencies to 10 SEER/10.3 EER • ASHRAE 90.1-1999 compliant • Convertible airflow for down or side supply applications • ARI ratings as low as 82 dB • Outdoor ambient cooling operation from 25° F to 115° F standard • Tooless filter access • Sloped, composite drain pan for IAQ • Full perimeter baserail for rigging • Weatheriied cabinet made from prepainted steel • I-year limited product warranty • 5-year compressor warranty • 5-year electric heater accessory warranty • Extended warranties available PACKAGED ROOFTOP ELECTRIC COOLING 551B 3-12.5 TONS ASHRAE 90.1-1999 COMPLIANT 5518048 551BG72m&&} 551B102eciflfuVSSSKW,551B150 37V. 558F 6-12.5 TONS STANDARD EFFICIENCY 7.5?S3Smm 10.0 87V. « 87V. 57'/,m 57V, 41'A. •SEER for 3-5 Tons (beltOrive), oil others rated at EER 558F 3-12.5 TONS ASHRAE 90.1-1999 COMPLIANT 33% 4M. •SEER for 3-5 Tons (beltdrlve), oil others rated at EER 551B 558F Catalog Index Package Heat Pumps • All units feature scroll compressors • Field convertible side or bottom discharge • Copper coils, aluminum fins • Blower off time delay on 3-5 ton models • Single point electrical connection • New design offers easy access • RQKA pictured right, RJKA pictured below Tons | Mode! No. Avail. Strip Heat MBTUH COP HSPF 1 PHASE 2Q8-230V 1.5 2.0 2.5 3.0 3.5 5.0 RQKAA018JK RQKA A024JK RQKA A030JK RQKA A036JK RJKA A042JK RJKA A048JK RJKA A060JL 0-8 KW 0-10 KW 0-10 KW 0-15 KW 0-20 KW 0-20 KW 0-20 KW 18.0 23.6 29.6 36.0 40.5 47.0 57.5 3.00 3.00 3.00 3.00 3.04 3.20 3.04 6.8 6.8 6.8 6.8 6.8 6.9 6.8 3 PHASE 208-230 V 3.0 4.0 5.0 RJKA A036CK RJKA A048CK RJKA A060CL 0-20 KW 0-20 KW 0-24 KW 37.0 48.5 57.5 3.04 3.20 3.04 6.8 6.9 6.8 3 ton and above are available in 3 phase 460 volt models. 7. 5 and 10 ton models available on request. Model RJKA SEP-09-20a3 0B-.23 AH AI-L.IAHCE Carlsbftd OS-241B September 7, 2003 1. Pleas* make all corrections on the original tracings and eubmlt two new oo/np/ete sets Of prints, to; Esgll Corporation, 9320 Chesapeake Drlvs, Suite 4208, San Diego, CA 92123, (B58) 560-1468. 2. The plans are incomplete In some areas. No door or window sizes are shown at fill upstairs, and quite a few are missing from the lower leva!. Please eubmlt completed plans. 3. Each sheet of the plana must be signed by the person responsible for their preparation, even though there are no structural changes. Business and Profeaelons Code. 4. Glazing fn the following locations should be of safety glazing material In accordance with Section 2406.4 (see exceptions): a) Fixed or operable panels adjacent to a door where the nearest exposed edge of the glazing is within a 24-Inch arc of either vertical edge of the door In a closed position and where the bottom exposed edge of the glazing Is leas tnaneo Inches above trw walking surface. TEMPERED GLASS MUST BE SHOWN IN QUITE A FEW LOCATIONS. 5. Provide an exit analysis plan (may be 81/2" x 11" or any convenient size). Show In this analysis the occupant load of each area, the general exit flow patterns (by using arrows), accumulated occupant loads and required exit widths. 0. (1 exit signs are required, provide the following notes on the plans, per Section 1003.2,6.2: a) Exit signs shall be located as necessary to clearly Indicate the direction of egress travel. No point shall Do more than 100 feet from the nearest visible sign. b) Exit signs shall be readily visible from any direction of approach. 7. In the- Break Room on sheet A1, there is a reference to Note 2; Pleaee provide a legend to explain all such notes. 8. The hallway between the Training Room and the restrooms must be more clearly defined as It leads to the Reception area. Specifically, partitions should be Installed to define the hallway as it passed by the Open Office. 9. Also, the hallway outside of the open office area on the second floor also seems to ba discontinuous as shown. 10. On sheet E-1, what are the "PDUV in the teat room? KTd fit: 6 £0028 ^ 9iSl09Sefi8t :»J '<flOO 11983 Cartebmd 03-3419 September?, M03 11. Please submtt structural justification that the existing framing system can support the proposed mechanical equipment. 12. Also, show the equipment location* on the plans. 13. The gauge shown for the metal studs at S/D1 does not appear to be adequate for the wall height shown. 14. Also, the wafl height ai that detail conflicts with the floor plan. 15. At detail 3/D1, the Type X drywall has to occur on each side of the existing studs, too. 1 o. Sheet 02 snows a layout for the single accommodation restroom facilities, but not the multiple accommodation restroom faculties. Please provide. 17, To speed up the review process, note on this list (or a oopy) where each correction (tarn nas been addresied, I.e., plan sheet, note or detail number, calculation page* etc. 18. PIMM Indicate here if any changes have been made to the plans that are not a result of corrections from this list. If there are other changes, please briefly describe them and where they are located In the plant. Have changes been made to the plans not resulting from this correction list? Please Indicate; Yes Q No Q The jurisdiction has contracted with Eegll Corporation located at 9920 Chesapeake Drive, Suite 208, San Diego, California 92123; telephone number of 858/580-1498, to perform the plan review for your project. If you have any questions regarding these plan review Kerns, please contact Kurt Culver at Esgll Corporation. Thank you. SO'd W:6 £0028 d»S a>ST09S8S8T:XPj 'ddOO 1I9S3 ® THE CURRENT SOURCE™ :sio; As avitsul;-the.involvement^ • of electrical contractors and ;. : building electricians is reduced. LoZac CD Series conditioners provide the most complete noise reduction in the industry. They do this while maintaining low output impedance — delivering the current FIVE-YEAR WARRANTY All LoZac low-impedance condi- tioners are designed and manufac- tured in the U.S. and backed by our unmatched five-year warranty. SPECIFICATIONS Frequency 50/GOHz. Load Power Factor 0.3 leading to 03 lagging. load Rogulation Response Time < 2 mifliseconds for a 50% change in load. interruption Rwpotwa Time Output voltage will track input voltane in tess Wan 2 milliseconds at power-off and power-on for single-cycle asy/icfrarKJus notch. Distortion <1% THD added into a resistive load. Protection Circuit Breaker. Noise Refection-Isolation Wittl unit under power, and ANSI/IEEE C62.41 Category A pulse applied either normal or common mode at the input, the notse output voltage will be less than 10V normal mode, and less than tX5v common mode in all four quadrants (CM-NM, NM-NM. CM-CM, NM-CM) using Keytek 71WJ (or flquiwJent) surge gensrator and low vortaoe, J>JOJ>- sensitivity isolated probe. CD SERIES Efficiency 98% at rated output. Surge Voltage Withstand Capability Tested while powered, to ANSI/IEEE C62.41 Category 8, both fling Wfeve and Impulse (Formerly IEEE 587-1980). Category B (Ring Wave) — fiOOOv/SOOA, aSjisec. rise time, 100kHz decay- Category 8 (Impulse) - 60QQV/300QA, 1.2 x SOftsec. and 8 x 20^ec. voltage/current surge. HF SO Ohm tuMrtion Loss line to toad and toad tc line: 400kHz to 4MHJ-50 dB Typical 100kHz to 10MHZ-40 dB Typical 30kHz to 3MHZ-30 dB Typical Cooflitg Convection Adjustments None CO Series Overload Capability All units will typically tolerate without degradation 10 times rated output for CL5 cycle, 55 times rated output tor 1 second, and 35 times rated output for 5 seconds. Modil C0at200 C0313M C031SOO CD31750 COJttIO cosmo load Current Rating (Amps) 190/2QO/2tW24(V38{V4DD/ 415/460/600v, 3-* Oifta Maximum Conduit LandingConfiguration AJI sjMciflcations subject to change without notice. •OptionalVersioniswitt>415/?40v.3-6 WyeOulout. Far Bttnr MrmlutlflQ »a voltage ewnttnaUoni, contact your ONEW dUihrtoc "Optional Versions awilabla with up to 84 ckcutt btiaker poles. ® Oneac Corporation 27944 North Bradley Road tibertyvilfe, Illinois 60048-9700 708-816-6000 800-327-8801 For more information or for the name of your local distributor/dealer, call 800-243-4543 ONEAC is a trademark ol Oneac Corporation 1969 Oneac Corporation 917-035 Rev. 8 PARYL K. JAME5 & ASSOCIATES, INC. & A Fin Code 'Resource FIRE PROTECTION TECHNICAL OPINION & REPORT MV Technical Sales, LLC 1940 Camino VWa Robles Carlsbad, CA 92008 2O5 Collna Tetrac* Wet*. CA 92Q&4 T (760) 231*601 F (70O) T24-&&274-&eS7 * . /^ ^T I f DARYL K. JAMES & ASSOCIATES - A Fire & Building Code Resource August 30, 2003 Carlsbad Fire Department 1635 Faraday Avenue Carlsbad, CA 92008 Re: High-Piled Combustible Fire Protection Technical Opinion & Report MV Technical Sales, LLC 1940 Camino Vida Robles Carlsbad, CA 92008 / OVERVIEW The information presented herein has been prepared by Daryl K. James & Associates, at the request of MV Technical Sales. This Fire Protection Technical Opinion & Report addresses conditions applicable to the storage, use and handling of combustible materials, proposed for an existing building, for compliance with the 2001 editions of the California Building Code, California Fire Code, the most current editions of nationally recognized standards and Carlsbad Fire Department requirements as prescribed for the described uses and occupancies. This fire protection plan presented to you is complete and provides an adequate level of fire and life safety to the occupants of the buildings. // DESIGN TEAM Compliance with California Codes requirements, is based on data provided to Daryl K. James & Associates, Inc, by the following contacts: MV Technical Sales Anthony Reed, Operations Manager (760) 930-8950 CSI Mark Wentworth, Project Manager (760) 497-0090 DARYL K. JAMES & ASSOCIATES - A Fire & Building Code Resource MV Technical Sales Page 2 of 10 m SCOPE/PROJECT DESCRIPTION This report is intended to address the minimum requirements for the storage of electronic components and systems in a high-piled combustible storage warehouse and hardware component diagnostic operations. Discrepancies between the information presented herein and actual conditions discovered during the inspection process are the sole responsibility of MV Technical Sales. Verification of compliance with requirements and provisions addressed herein rests with the authority having jurisdiction and is outside the scope of this report. JV PURPOSE OF REPORT • Identify and develop methods of protection from conditions presented by the storage of combustible materials and hardware component diagnostic operations. • Present a design analysis relative to the acceptance of technologies, processes, products, materials and uses attending the design, operation or use of the building. • Illustrate how the impact upon the building presented by the storage, use and handling of materials will be mitigated to ensure fire and life safety to the occupant of the building. REPORT ELEMENTS Provide a commodity analysis, detail methods of storage and recommend maintenance guidelines in accordance with recognized standards. Determine fire protection requirements for a proposed storage systems in accordance with fire code requirements and national standards. Provide a chemical analysis, Hazardous Materials Inventory Statement (HM1S) and Comparative Summary of Hazardous Materials to Allowable Exempt Amounts Detail methods of isolation, separation, containment or protection of hazardous materials or processes including appropriate preventive controls Set limitations or conditions necessary to achieve and maintain control of hazardous materials or operations associated with hardware component diagnostic operations and recommend mitigation and compliance with applicable code requirements Evaluate building egress systems including aisles separating storage racks systems. Outline general safety procedures for occupant safety and building protection DARYL K. JAMES & ASSOCIATES - A Fire & Building Code Resource MV Technical Sales Page 3 of 10 VI CODE ANAL YSIS/TECHNICAL REFERENCES The purpose of the code analysis is to provide the MV Technical Sales design team with technical information and references applicable to both the design and maintenance of proposed conditions. Final details for submittal of proposed conditions will be based on the information provided within this report. The following applicable codes and standards will be used for this evaluation: • 2001 California Building Code (CBC) • 2001 California Fire Code (CFC) • 1999 National Fire Protection Association Standard 13. (NFPA 13) • Manufacturer's Specifications Ultra-K 17 Special Application Sprinkler Head Vll BUILDING DA TA/OCCUPANCY CLASSIFICA TION Building Data: Type of Construction: Stories: Total Building Area: Warehouse Area: Type III-N (Sprinklered) 1 Story w/Mezzanine Approx. 38,532 ft2 22,585 ft* Occupancy Classifications in Accordance with CBC Table 3-A, and Floor Areas Include CBCClassification S-l S-l F-l B B Use High Pile Storage Miscellaneous Palletized Storage Testing Labs Office Administration 1s1 floor Office Administration Mezzanine Area Approx. 7,500 ft1 Approx. 15,000ft2 Approx. 6,700 ft2 Approx. 5,200 ft2 Approx. 4,100ft2 Occupancy Separation Requirements as per CBC Table 3-B B F-l S-l B N N N F-l N N N S-l N N N In accordance with CBC Table 3-B, occupancy separations are not required for the proposed Occupancy Classifications. (Technical Reference 1) DARYL K. JAMES & ASSOCIATES - A Fire & Building Code Resource MV Technical Sales Page 4 of 10 VIII HARDWARE COMPONENT DIAGNOSTIC OPERATIONS Merchandise is received, tested, stored, repackaged and shipped. The use of flammable or combustible liquids will not occur. LTX Lab: 1,651 ft3 Room will contain LTX 77/90 computer automated test equipment, used for diagnosing hardware component failures. Class I, II or III-A liquids will not be stored or used. 15 tons air conditioning is supplied to this room. Calibration Lab: 405ft3 This room will contain computer test equipment, used to test and measure electrical standards. Class I, II or III-A liquids will not be stored or used. 7 .5 tons air conditioning is supplied to this room. Power Supply Lab: 459ft3 Room will contain power supply test equipment used for diagnosing hardware component failures. Class I, II or III-A liquids will not be stored or. used. This room will also contain a soldering re-work station for the removal of electronic components. Small amounts of solder flux and heat are used to allow solder to flow. Trillium Testing Lab: 2,600ft2 The testing room will contain 8 Trillium computer automated test equipment machines for diagnosing hardware component failures. Machines each contain a Pneumatic/hydraulic accumulator. This accumulator contains % gallon of automotive Antifreeze, (Class III-B noncombustible liquid), which is stored and used within a sealed self-contained container. Aggregate amount of anti freeze will be 4 gallons. Class I, II or III-A liquids will not be stored or used. Additionally, 27 Trillium machines will be stored in the warehouse. Aggregate amount of anti freeze stored will be 13.5 gallons. Rework (Hot Work): 687ft3 Light soldering is performed in order to remove and replace some components. Hot work equipment to be inspected by the individual responsible prior to use to insure that: • Hot-work area is clear of combustibles • Exposed construction is of noncombustible materials or that combustible materials are protected • Floors are kept clean • There are no exposed combustibles on the opposite side of partitions, walls, ceiling and floors • Fire extinguishers to be readily available in immediate hot work area. • Hot work will be performed in vapor and dust free areas isolated from combustible storage. • Any traces of fumes are dissipated by a fan, located at the work station. • No Class I, II or III-A liquids will be stored or used. • 10 tons or air conditioning will be supplied to this room. DARYL K. JAMES & ASSOCIATES - A Fire & Building Code Resource MV Technical Sales Page 5 of 10 IX HAZARDOUS MATERIALS Hazardous Materials Inventory Statement (HMIS) PRODUCT Anti Freeze Boardwalk Floor Finish Corrosive Inhibitor Microbiocide Inhibitor Armstrong Polish AP-20 Cleaning Solution EnSolv Flux Remover Zep Floor Sealer IN STORAGE 17.5 Gals 1 .08 .08 1 1 2 1 1 OPEN USE - 1 .08 .08 1 1 1 .08 1 CLOSED USE 4 gals 0 STATE L L L L L L L L L CFC CLASS CL m-B, Irr, Sens N.H. Irr, Corr Irr, Sens. Irr Irr Irr, Sens, Ohh, Irr, Sens, Ohh, Irr Physical Hazardous Materials Summary (all materials are measured in liquid gals.) Hazard Classification Class III-B Storage Amounts 17. 5 gals (Exempt Amounts N.L.) Open Use Amounts 0 Closed Use Amounts 4 (Exempt Amounts N.L.) Total Amt. Use & Storage 21. 5 gals Health Hazardous Materials Summary (all materials are measured in liquid gals.) Hazard Classification Irritants Corrosives Sensitizers Other Health Haz. Storage Amounts 17.5 gals (Exempt Amounts N.L.) .16 (1,000) 19.58 gals (Exempt Amounts N.L.) 2 gals (N.L.) Open Use Amounts 4. 16 gals (1000) .08 1.16 gals 1.08 gal (1000) Closed Use Amounts 4 gals (Exempt Amounts N.L.) ( 1000 ) 4. gals (Exempt Amounts N.L.) 0 (N.L.) Total Amt. Use & Storage 25.21 gals .24 gals 24.74 gals 3.08 gals Aggregate quantities of materials identified on the HMIS, are within allowable exempt amounts for indoor use or storage as per CBC and Exempt Amounts of Hazardous Materials Presenting a Physical Hazard (Table 3-D) and Health Hazard (Table 3-E) There will be no Class i, II or III-A liquids stored or used in the building. (Technical Reference 2) Fire Protection Fire protection criteria is designed for hardware component diagnostic operations, similar to electronic plants as listed under Ordinary Hazard, Group 1 Occupancies as per NFPA 13, A-2.1.2.I. Existing building is designed for Extra Hazard Group 2. (Technical Reference 3) Fire protection for associated office areas is designed for Light Hazard occupancies. Sprinklers are of the quick response type. DARYL K. JAMES & ASSOCIATES - A Fire & Putting Code Resource MV Technical Sales Page 6 of 10 X WAREHOUSE STORAGE Miscellaneous Storage Metal Chassis (Class 1), flattened cardboard boxes (Class 111) and foam packing material, a Group A Plastic, will be stored on pallets up to 8 feet in height and on 30" wide shelves. Miscellaneous storage will be separated by a minimum of 8 ft. aisles. The following NFPA 13 Table 7-2.3.2.2 illustrates the discharge criteria for miscellaneous storage of worse case palletized storage, Group A Plastics. (Technical Reference 4) Storage Height Over 5 ft to 8 ft. Maximum Building Height No limit Exposed EH-2 Rack Storage Commodity Classification Summary <fe Storage Array The following Commodity Classifications have been evaluated in accordance with NFPA 13 Chapter 2 and Table A-2-2.2.3. Materials will not be stored within encapsulated cardboard boxes in the building. (Technical Reference 5) Commodity Wire on plastic spools Glass Epoxy Laminate Boards Misc. Electronic Components Storage Array Rack Storage Area: Classification Class IV Class IV Class IV 7,500 ft2 Storage Height 20ft. 20ft. 20ft. Aggregate Rack & Palletized Storage Area: 22,500 ft2 Aisle Width: Rack Height: Storage Height: Ceiling Height: 4 ft. - 8 ft. (Fire Protection based on 4 ft. aisles) 16ft Up to 20 ft 27-29 ft California Fire Code • High-Piled Storage Requirements The high-piled storage warehouse area will be in accordance with Article 81, Section 8102.2. The following is required for the storage of Class I-IV Commodities within an area 2,501 - 300,000 ft2 area as per Table 81-A: • Automatic fire-extinguishing system • Access doors, • Smoke & heat removal • Small Hose Valves and Stations (Technical Reference 6) Automatic Fire Protection (fire extinguishing system) As per NFPA 13, Table 7-4.2.1.5, Fire system design for Class I-IV commodities stored up to 20 ft. and separated by 4 ft. aisles shall be .58/2000. The warehouse is equipped with the Model Ultra K-17, a specific application storage sprinkler UL & C-UL Listed and FM approved for storage occupancies by full-scale fire testing and is designed to control high challenge fires in storage occupancies \vnh relatively low required operating pressures. This allows for palletized or rack storage of Class I through Class IV commodities and Group A Plastics up to 25 feet. PARYL K. JAMES & ASSOCIATES - A Fire & Building Code Resource MV Technical Sales Page 7 of 10 Ultra K-l 7 Sprinkler Head UL & C-UL Specific Application Guidelines Type of Storage: Single, double, multiple-row and portable rack storage and solid piled or palletized storage. Commodity: Class MV, encapsulated or non-encapsulated, Group A and B plastics-cartoned, expanded or unexpended as well as exposed, unexposed. Maximum Storage Height: 25'-0" Clearance: 36" from deflector to top of storage Max. Ceiling Height in Area of Storage: 30' Construction Type: All types-deflector distances perNFPA 13 System Type: Wet or dry Design Area: 2000 ft2 Sprinkler Data: K-Factor 17.0 Orifice .775 Thread Size H" Temperature Rating 200 ° F Hydraulic Design Criteria: The design density is .80 gallons per minute per square foot. The area per sprinkler is 100 ft2 maximum and 70 ft2 minimum. The flow for the sprinklers is calculated by multiplying the density by the area per sprinkler. Spacing: Maximum Spacing is 100 ft2 and the minimum is 70 ft2 Maximum distance between sprinklers is 12'-0". 12'-6" is allowed in 25'-0". Minimum spacing is 6'-0" apart unless separated by baffles. Obstructions: NFPA criteria for standard spray sprinklers. Steel Column Protection As per Manufacturer's design criteria specifications, additional column protection is not required when system is installed in accordance with UL & C-UL Specific Application Guidelines. Flue Spaces In double-row racks without solid shelves, a longitudinal flue space shall not be required as per NFPA 13 Section 7-4.1.4.1. Nominal 6-in. transverse flue spaces between loads and at-rack uprights shall be maintained in single-row and double-row racks. Hose Stream Demand and Water Supply Duration 500 gpm for 150 minutes in accordance with NFPA Table 7-2.3.1.1 (Technical Reference 7) Smoke & Heat Removal Smoke and heat vents are of the approved type and will be operated automatically by activation of a listed and labeled heat-responsive device rated between 100-200 degrees F above ambient temperatures. The responsive-devices activate fully when the vent cavity is exposed to a simulated fire or time/temperature gradient that reaches air temperature of 500 degrees F within five minutes. Smoke and heat vents are capable of being opened by an approved manual operation. As per CFC Table 81-B, vent to ratio floor area shall be 1:50 for high hazard (worse case) up to 20 feet. DARYL K. JAMES & ASSOCIATES - A Fire & Building Code Resource MV Technical Sales Page 8 of 10 Small Hose and Stations Small hose connections are also included in the requirements of Table 81-A. It is requested that the hose, nozzle and rack requirements be waived. We do no recommend that employees take time to attempt to fight a fire with 1 % inch hose lines in high-piled storage areas. This is a dangerous fire fighting procedure. The presence of the hose only tempts employees to engage in fire fighting when they should be evacuating the building. To summarize the request to omit fire hose equipment: • Fire departments are generally trained to use their own equipment. • Employees are directed specifically not to use this equipment, but to evacuate the building. • Liability risks, if employees do use this equipment and are injured or killed, • Maintenance of the equipment is difficult. Aisle Widths High Piled rack storage system will be provided with aisles at least 44 inches in width. Fire Extinguishers 3A:20-BC fire extinguishers will be placed at well-marked strategic points throughout the storage area so that one or more portable fire extinguisher units can quickly be made available for use at any point. (Technical Reference 8) XI HOUSEKEEPING OF WAREHOUSE STORAGE AREA • The structural integrity of racks will be maintained • Smoking is prohibited in the building • Exit doors will remain unobstructed • When restocking is not being conducted, aisles will be kept clear of storage and debris and aisle widths will be maintained no less than 24 inches during restocking. • Portable fire extinguishers will be installed and maintained. XII PROPANE STORA GE Permits A permit is not required to maintain containers of less than 125-gaIlon aggregate water capacity. Maximum Capacity The maximum quantity of propane, to be stored in the building, is well within the allowable quantity of 735-pound water capacity. DARYL K. JAMES & ASSOCIATES - A Fire & Building Code Resource MV Technical Sales Page 9 of 10 Propane Powered Forklift (Technical Reference 9) Containers on forklifts will be in accordance with UFC Standard 82-1, Section 3-6: • The number of fuel containers on such forklift shall not exceed two, • Containers will be exchanged out-of-doors. • In no case shall forklift be parked and left unattended in areas of excessive heat or near sources of ignition. • Portable containers will not be used in locations where heavier-than-air LP-gas containers will not be used in above-grade under-floor space or basement. • Propane containers will be stored a minimum of 10 ft. from combustibles. XIII BUILDING EGRESS MV Technical Sales has indicated that they will comply with applicable Building Code requirements for egress. The basic layout of the building will be in conformance with the exiting and egress requirements of Article 10 of the 2001 CBC. All exit doors to be least 3 feet wide, 6' 8" in height, and proper exit signs over each exit doorway will be provided. Review of accessibility conditions/requirements and conditions other than general exiting criteria is outside the scope of this report. See architectural plans submitted by Mark Wentworth, CSI. Exit Doors • Openable without the use of a key or special knowledge. • Maintained accessible and free from obstructions at all times. Minimum Number A minimum of 2 exits shall be required for the following: • B Occup; >30 (occup load calculated at 100 sq. ft/person) • F-l >30 (occup load calculated at 200 sq. ft/person) • S-l Occup. >30 (occupant load calculated at 500 sq. ft/person) Exit Paths • Illuminated whenever building is occupied • >/=! foot candle at floor level • Identified by exit signs in accordance with CBC Section 1003.2.8 • Exit signs illuminated at all times with either self-luminous signs or power supply provided by building wiring with 1.5 hour battery backup. Power Supply 1 Standard building power: <100 Occupants • Normal building power with emergency system >/=100 Occupants • Emergency system to consist of 1.5 hours battery backup; 2 hours duration generator Aisles • Provided from all occupied points if the building furnishings, equipment, etc. • Non-public accessible: >/=24 in. and public accessible; >/=36 in. DARYL K. JAMES & ASSOCIATES - A Fire & Building Code Resource MV Technical Sales Page 10 of 10 Corridor Width • </=50 Occupants:>/=36 in. • >50 Occupants: >/=44 in. Travel Distance • B Occup: </=250 ft. and </=350 ft. when last portion is exit access is within a fire- resistive corridor. • F-l &S-1 Occup: </=400 ft. XVI GENERAL SAFETY PROCEDURES " Storage commodity, flue spaces, height and aisle widths will be maintained in accordance with the terms of this report. • Any change to operations shall be approved by the City of Carlsbad prior to implementation. • All employees will receive special training on the use of portable fire extinguishers of the types to be provided in the building. • An evacuation plan will be posted and drills will be conducted quarterly and logged for fire department review. « Exit doors will be maintained unobstructed and will be opened weekly to ensure operation. • A 3-foot clear space will be maintained around the circumference of fire department equipment. All equipment will be maintained operable. • Access roadways with a minimum width of 20 feet are provided and will be maintained within 150 feet of all portions of the building's exterior walls XVII OPINION Based on the code research conducted in support of the development of this fire protection report, and the recommendations provided herein, it is our opinion that this building will be in full compliance with the 2001 editions of the California ."^fcode and the California Fire Code as they relate to the described use and occupancy. It is of the opinion of Daryl K. James & Associates, Inc. that this fire protection plan is complete and provides an adequate level of fire and life safety for the occupants of the building. If after reviewing this report, you have any questions or comments, or you are in need of further information, please do not hesitate to contact me. I look forward to working with you to resolve any issues that may arise, and will be awaiting your response. Respectfully submitted, Daryi K. TameVCA State Certified FPO III President/Chief Consulting Officer TECHNICAL REFERENCE 2001 CALIFORNIA BUILDING CODE TABLE 3-A TABLE 3-A—DESCRIPTION OF OCCUPANCIES BY GROUP AND DIVISION1 GROUP AND DIVISION A-l A-2 A-2.1 A-3 A-4 B E-l E-2 E-3 F-l F-2 H-l H-2 H-3 H-4 H-5 H-6 H-7 1-1.1 1-1.2 1-2 1-3 M R-l R-2.1 R-2,2 R-2.1.1 R-2.2.1 R-2.3 R-2.3.1 R-3 S-l S-2 S-3 S-4 S-5 U-l U-2 SECTION 303.1.1 304.1 305.1 306.1 307.1 307.1and 307.11 307.1 308.1 309.1 310.1 311.1 312.1 DESCRIPTION OF OCCUPANCY A building or portion of a building having an assembly room with an occupant load of 1 ,000 or more and a legitimate stage. A building or portion of a building having an assembly room with an occupant load of less than 1,000 and a legitimate stage. A building or portion of a building having an assembly room with an occupant load of 300 or more without a legitimate stage, including such buildings used for educational purposes and not classed as a Group E or Group B Occupancy. Any building or portion of a building having an assembly room with an occupant load of less than 300 without a legitimate stage, including such buildings used for educational purposes and not classed as a Group E or Group B Occupancy. Stadiums, reviewing stands and amusement park structures not included within other Group A Occupancies. A building or structure, or a portion thereof, for office, professional or service-type transactions, including storage of records and accounts; eating and drinking establishments with an occupant load of less than 50. Any building used for educational purposes through the 12th grade by SO or more persons for more than 12 hours per week or four hours in any one day. Any building used for educational purposes through the 12th grade by less than SO persons for more than 12 hours per week or four hours in any one day. Any building or portion thereof used for day -care purposes for more than six persons. Moderate -hazard factory and industrial occupancies include factory and industrial uses not classified as Group P, Division 2 Occupancies. Low-hazard factory and industrial occupancies include facilities producing noncombustible or nonexplosive materials that during finishing, packing or processing do not involve a significant fire hazard. Occupancies with a quantity of material in the building in excess of those listed in Table 3-D that present a high explosion hazard as listed in Section 307.1.1. Occupancies with a quantity of material in the building in excess of those listed in Table 3-D that present a moderate explosion hazard or a hazard from accelerated burning as listed in Section 307.1.1. Occupancies with a quantity of material in the building in excess of those listed in Table 3-D thai present a high fire or physical hazard as listed in Section 307.1.1. Repair garages not classified as Group S, Division 3 Occupancies, Aircraft repair hangars not classified as Group S, Division 5 Occupancies and heliports. Semiconductor fabrication facilities and comparable research and development areas when the facilities in which hazardous production materials are used, and the aggregate quantity of material is in excess of those listed in Table 3-D or 3-E. Occupancies having quantities of materials in excess of those listed in Table 3-E that are health hazards as listed in Section 307.1.1. Nurseries for the full-time care of children under the age of six (each accommodating more than five children), hospitals, sanitariums, nursing homes with nonambulatory patients and similar buildings (each accommodating more than five patients {for SFM} six patients or children). Health-care centers for ambulatory patients receiving outpatient medical care which may render the patient incapable of unassisted self-preservation (each tenant space accommodating more than five such patients). Nursing homes for ambulatory patients, homes for children six years of age or over (each accommodating more than five persons (for SFM] six patients or children). Mental hospitals, mental sanitariums, jails, prisons, reformatories and buildings where personal liberties of inmates are similarly restrained. A building or structure, or a portion thereof, for the display and sale of merchandise, and involving stocks of goods, wares or merchandise, incidental to such purposes and accessible to the public. Hotels and apartment houses, congregate residences (each accommodating more than 10 persons). Residential care facilities for the elderly (each accommodating more than six nonambulatory clients). Residential care facilities for the elderly (each accommodating more than six ambulatory clients). Residential care facilities for the elderly (each accommodating six or less nonambulatory clients). Residential care facilities for the elderly (each accommodating six or less ambulatory clients). Residential-based licensed facilities providing hospice care throughout, accommodating more than six bedridden clients. Residential-based facilities providing hospice care throughout, accommodating six or less bedridden clients. Dwellings, lodging houses, congregate residences (each accommodating 10 or fewer persons). Moderate hazard storage occupancies including buildings or portions of buildings used for storage of combustible materials not classified as Group S, Division 2 or Group H Occupancies. Low-hazard storage occupancies including buildings or portions of buildings used for storage of noncombustible materials. Repair garages where work is limited to exchange of parts and maintenance not requiring open flame or welding, and parking garages not classified as Group S, Division 4 Occupancies. Open parking garages. Aircraft hangars and helistops. Private garages, carports, sheds and agricultural buildings. Fences over 6 feet (1829 mm) high, tanks and towers. CLiAL! CL,AL! 'For detailed descriptions, see the occupancy definitions in the noted sections. 1-40.3 TABLE 3-8 TABLE 3-C 2001 CALIFORNIA BUILDING CODE TABLE 3-B—REQUIRED SEPARATION IN BUILDINGS OF MIXED OCCUPANCY1 (HOURS) A-1 A-Z A-2.1 A-3 A-4 B E F-1 F-2 H-1 H-2 H-3 H-4,5 H-6,72 1 U R-1 R-3 S-1 S-2 S-3 5-4 S-5 A-1 A-Z N A-2.1 N N A-3 N N N A-4 N N N N B 3 1 1 N 1 E N N N N N 1 F-1 3 1 1 N 1 N* 1 F-2 3 1 1 N 1 N 1 1 N-2 4 4 4 4 4 2 4 2 2 H-3 4 4 4 4 4 1 4 1 1 H-4,5 4 4 4 4 4 1 4 1 1 H-e,7i 4 4 4 3 4 1 3 1 1 H-8 3 2 2 ] 1 1 2 1 1 \ 3 3 3 2 3 2 1 3 2 U 3 1 1 N 1 N 1 N* 1 R-1 1 1 1 1 1 1 1 1 1 R-3 1 1 1 1 1 1 . 1 1 1 S-1 3 1 1 N 1 N I N N S-2 3 1 1 N I N 1 N N S-3 4 3 3 3 3 1 3 1 1 S-5 3 1 I 1 1 1 1 1 1 0-1* 1 1 1 1 1 1 1 1 1 NOT PERMITTED IN MIXED OCCUPANCIES. SEE SECTION 307.2.8 1 1 1 2 1 1 2 1 I I 2 I 4 4 1 1 1 4 4 4 4 2 1 1 1 2 4 3 3 4 1 1 4 3 3 4 1 1 N 2 1 1 1 2 I4 3 1 2 1 1 1 2 1* 1 1 1 2 1 1 1 4 1 3 1 1 1 2 1 1 1 3 1 1 1 1 I 1 1 1 1 3 1 1 1 1 1 N 1 OPEN PARKING GARAGES ARE EXCLUDED EXCEPT AS PROVIDED IN SECTION 311.2 1 N N—No requirements for fire resistance, 'For detailed requirements and exceptions, see Section 302.4. 2For special provisions on highly toxic materials, see the Fire Code. 3For agricultural buildings, see also Appendix Chapter 3. •*See Section 309.2.2 for exception. 3For Group F, Division 1 woodworking establishments with more than 2,500 square feet (232.3 m2), the occupancy separation shall be one hour. TABLE 3-C—REQUIRED SEPARATION OF SPECIFIC-USE AREAS IN GROUP I, DIVISION 1.1 HOSPITAL AND NURSING HOMES DESCRIPTION 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. Employee locker rooms Gift/retail shops Handicraft shops Kitchens Laboratories that employ hazardous materials in quantities less than that which would cause classification as a Group H Occupancy Laundries greater than 100 square feet (9.3 m2)1 Paint shops employing hazardous substances and materials in quantities less than that which would cause classification as a Group H Occupancy Physical plant maintenance shop Soiled linen room1 Storage rooms 100 square feet (9.3 m2) or less iri area storing combustible material Storage rooms more than 100 square feet (9.3 m2) storing combustible material Trash -collection rooms1 OCCUPANCY SEPARATION .None None None None One hour One hour One hour One hour One hour None One hour One hour 'For rubbish and linen chute termination rooms, see Section 711.5, 1-40.4 TECHNICAL REFERENCE #2 2001 CALIFORNIA BUILDING CODE TABLE 3-D TABLE 3-D— EXEMPT AMOUNTS OF HAZARDOUS MATERIALS PRESENTING A PHYSICAL HAZARD MAXIMUM QUANTITIES PER CONTROL AREA' When two units are given, values within parentheses are in cubic feet (cu. ft.) or pounds (Ibs.) CONOmON MaUrfal 1.1 Combustible liquid* .5,6,7,8,9 1.2 Combustible fiber (loose)(baled) 1.3 Cryogenic, flammable or oxidizing 2.1 Explosives 3.1 Flammable solid 3.2 Flammable gas (gaseous) (liquefied) 3.3 Flammable liquid4'5'".^ Combination 1-A,I-B, i-C15 4.1 Organic peroxide, unclassified de to Datable 4.2 Organic peroxide 4.3 Oxidizer 4.4 Oxidizer— sas(gaseous)^™ (liquefied)6. 10 5.1 Pyrophoric 6.1 Unstable (reactive) 7.1 Water reactive CUM II m-A III-B 1-A 1-B r-c i u HI IV V 4 316 2 1 4 3 2 1 3 2 1 STORAGE* SoHd Lba.1 (Cu.Ft) x 0.45)6 tor hex 0.0283 form3 N.A. N.A. N.A. (100) (1,000) N.A. lio,13 1236,10 N.A N.A. N.A. N.A. N.A. N.A. ] 10,12 56, 1U 506,10 1256-10 5006-10 N.L. 110,12 106.10 2506,ii» 4,000b'10 N.A. N.A. 410,U iiQ.iJ 56, 1 u so6.™ N.L. 56,1(1 506.10 125iu.ll LiquidGallons*<U».) x3.78StorL X 0.453* for kg 120U 33010 13,2001U'U N.A N.A. 45 (1)iO,13 N.A. N.A. 156,10 30™ 6010 90jy 120'" (1)10,J2 (5)t,,iu (50)6'W (125)6'IU (500)"-11J N.L (1)1U,12 (lO)6'10 (250)6-10 (4,000)". JU N.A. 15 (4)10,12 (1)10,12 (5)6,tu (g0)6.10 N.L. (5)6-10 (50)6>IU (125)10'11 GasCu. PL x 0.02S3 for nr* N.A. N.A. N.A. N.A.N.A. N.A. N.A. N.A. 7506,10 N.A. N.A N.A, N.A. N.A. N.A. N.A. N.A. N.A. N.A. N.A. N.A. N.A. N.A. N.A 1,500 N.A. 501U,U ioi^ 50o,lO 25o&.iu 7506,m N.A. N.A N.A USE*— CLOSED SYSTEMS Solid UM.(Cu. Ft) x 0.4J36 for k|X 0.0183 Form3 N.A. N.A. N.A. (100) (J.OOO) N.A. V412 14 N.A. N.A. N.A. N.A. N.A, N.A. V4»2 1& 506 1256 5006 N.L. >/412 26 2506 4,0006 N.A. N.A. !l!i V4« 1* 506 N.L. 5* SO6 125" Liquid Gallons (UM.) x 3.715 tori, X 0.4536 for k« 120 330 13.20011 N.A. N.A. 45 C/4>12 N.A. N.A 156,10 30 60 90 120 (V*)12 (I)6 (50)* (125)6 (500)" N.L W2 (2)b (250)6 (4,000)e N.A. 15 CD12 (V*)12 (I)6 (50)6 N.I. (5)6 C50)6 (125)u GMCu. FL X 0.0283 (or3 N.A N.A N.A. N.A. N.A. N.A. N.A. N.A. 7506,10 N.A. N.A. NA N.A. N.A. N.A. N.A. N.A. N.A N..A. N.A, N.A. N.A. N.A. N.A. 1,500 N.A. 101U,12 210,12 106-10 2506.io N.L N.A. N.A. N.A. USE*— OPEN SYSTEMS Solid Lba. (Cu. FL) x 0.4336 for kg x O.UZ83 tor m3 N.A. N.A. N.A. (20) (200) N.A. V2 U N.A. N.A. N.A. N.A. N.A. N.A. '/412 I6 106 25" 1006 N.L V4IZ 2*1 506 1,000" N.A. N.A. 0 V 1" 106 N.L 1" 1 106 2511 Liquid Gtllorta(Lbs.) x 3.785 tor Lx 0.1)536 For 4l 30 80 3,300" N.A. N.A. 10 (V4)»- N.A. N.A. N.A. 10 15 20 30 ('/,)» (I)6 (10)6 (25)6 (100)6 N.L. (V4)^ (2)6 (50)6 (1,000)6 N.A. N.A. 0 (!/,)" (I)6 (10)6 N.I.. (I)6 OO)6 (25)" N.A.— Not applicable. N.L— Not limited. iControl areas shall be separated from each other by not less than a one-hour fire-resistive occupancy separation. The number of control areas within a buildingused for retail or wholesale sales shall not exceed two. The number of control areas in buildings with other uses shall not exceed four. See Section 204.2The aggregate quantify in use and storage shall not exceed the quantity listed for storage, -^e aggregate quantity of nonflammable solid and nonflammable or noncnmbustiblc liquid hazardous materials willun a single control area of Group M Occupan- cies used for retail sales may exceed (he exempt amounts when such areas are in compliance with Ihe Fiie Code. *The quantities of alcoholic beverages in retail sales uses are unlimited provided the liquids are packaged in individual containers not exceeding 4 liters. The quantities of medicines, foodstuffs and cosmetics containing not more than 50 percent of volume of waler-miscible liquids and with Ibe remainder of the solurioos not being flammable in retail sales or storage occupancies are unlimited when packaged in Individual containers no! exceeding 4 liters. 'For aerosols, sec the Fire Code. ^Quantities may be increased 100 percent in sprinkle red buildings. When Footnote 10 also applies, the increase for both footnotes may be applied. {For SFM] The exempt amounts for Flammable Solid shall be 25 Ibs for Use-closed systems and 25 Ibs for Use-open sysiems. Quantities may be increased IQO percent in sprin- klered buildings.7For storage and use of flammable and combustible liquids in Groups A, B, E, F, H, I, M, R, S and U Occupancies, see Sections 303.8, 304.8, 305.8, 306.8, 307. 1.3 through 307.1.5, 308.8, 309.8,310.12, 311.8 and 312.4.8For wholesale and retail sales use, also sec Ihe Fiie Code.9Spray application of any quantity of damnable or combustible liquids sbaj] be conducted as set forth in the Fire Code.10Quantities may be increased 1 00 percent when stored in approved storage cabinets, gas cabinets or exhausted enclosures as specified m Ihe Fire Code. When Footnote 6 also applies, ihe increase for both footnotes may be applied. ''The quantities permitted Ln a sprinklered building are not limited. FF FFFFF FFFFF F FFF F F F FFFF FFFFFF FFFF F F FF FFF P F FF F F FFF F FF FFFFFFF F FF F FFFF FFFF FFFFFCLpchFAI!F aFt.L F FFFFFFF OCTOBER 1.2002 ERFWTA 1-40.5 2001 CALIFORNIA BUILDING CODE TABLE 3-E TABLE 3-E—EXEMPT AMOUNTS OP HAZARDOUS MATERIALS PRESENTING A HEALTH HAZARD MAXIMUM QUANTITIES PER CONTROL AREAV When two units are given, values within parentheses are In pounds (Ibs.) MATERIAL 1. Corrosives10 2. Highly toxics7 3. Irritants9 4. Sensitizers9 5. Other health hazards9 6. Toxics7 STORAGE' Solid U».«.M x 0.4536 tor kg 5,000 10 N.L. N.L, N.L. 500 UquldOtliont*.8."<U».) X 3.7B5 tor Lx 0.4336 tor kg 500 (10) N.L. N.L. N.L. (500) GMCu.as x 0.028 tor m3 81 06 208 8106'11 8106-11 8106-11 81 06 USE3— CLOSED SYSTEMS Solidu».«.« x 0.4S36 tor kg 5,000 10 N.L, N.L. N.L. 500 Uquld GaUora4>> <U».) x 3.788 tor Lx 0.4536 tor kg 500 (10) N.L. N.L. N.L. (500) QMCu. Ft* x 0.02B tor m3 8106 208 fclO6-" 8106-11 8106'11 8108 USE*— OPEN SYSTEMS Solid Lt».4,S x 0.4936 tor kg 1,000 3 5,000" 5,00011 5,000" 125 UquldGallon*4-5 <U».) X 3.785 tor Lx 0.4536 tor kg 100 (3) 500 n 500" 500 H (125) N.L. = Not limited. 'Control areas shall be separated from each other by not less than a one-hour fire-resistive occupancy separation. The number of control areas within a building used for retail or wholesale sales shall not exceed two. The number of control areas in buildings with other uses shall not exceed four. See Section 204. -The quantities of medicines, foodstuffs and cosmetics, containing not more than 50 percent by volume of water-miscible liquids and with the remainder of the solutions not being flammable, in retail sales uses arc unlimited when packaged in individual containers not exceeding 4 liters.3The aggregate quantity in use and storage shall not exceed the quantity listed for storage.4The aggregate quantity of nonflammable solid and nonflammable or noncombuslibk liquid health hazard materials within a single control area of Group M Occu- pancies used for retail sales may exceed the exempt amounts when such areas are in compliance with the Fire Code. Quantities may be increased 100 percent in sprinklered buildings. When Footnote 6 also applies, the increase for both footnotes may be applied. Quantities may be increased 100 percent when stored in approved storage cabinets, gas cabinets or exhausted enclosures as specified in the Fire Code. When Foot- note 5 also applies, the increase for both footnotes may be applied.7For special provisions, see the Fire Code.8 Per mi lied only when stored in approved exhausted gas cabinets, exhausted enclosures or fume hoods. ^Irritants, sensitizers and other health hazards do not include commonly used building materials and consumer products that are not otherwise regulated by thiscode.l°For stationary lead-acid battery systems, see the Fire Code.HThe quantities allowed in a sprinklered building are not limited when exhaust ventilation is provided in accordance with the Fire Code. See Table 8001.15-B, Footnote 12. 1-40.7 TECHNICAL REFERENCE 13-168 INSTALLATION OF SPRINKLER SYSTEMS Educational Hospitals Institutional Libraries, except large stack rooms Museums Nursing or convalescent homes Offices, including data processing Residential Restaurant seating areas Theaters and auditoriums, excluding stages and prosceniums Unused attics A-2-1.2.1 Ordinary hazard occupancies (Group 1) include occu- pancies having uses and conditions similar to the following: Automobile parking and showrooms Bakeries Beverage manufacturing Canneries Dairy products manufacturing and processing Electronic plants Glass and glass products manufacturing Laundries Restaurant service areas A-2-1.2.2 Ordinary hazard occupancies (Group 2) include occu- pancies having uses and conditions similar to the following; Cereal mills Chemical plants — ordinary Confectionery products Distilleries Dry cleaners Feed mills Horse stables Leather goods manufacturing Libraries — large stack room areas Machine shops Metal working Mercantile Paper and pulp mills Paper process plants Piers and wharves Post offices Printing and publishing Repair garages Resin application area Stages Textile manufacturing Tire manufacturing Tobacco products manufacturing Wood machining Wood product assembly A-2-1.3.1 Extra hazard occupancies (Group 1) include occu- pancies having uses and conditions similar to die following: Aircraft hangars (except as governed by NFPA -409, Stan- dard on Aircraft Hangars) Combustible hydraulic fluid use areas Die casting Metal extruding Plywood and particle board manufacturing Printing [using inks having flash points below 100°F (38°C) ] Rubber reclaiming, compounding, drying, milling, vulca- nizing Saw mills Textile picking, opening, blending, garnetting, or carding, combining of cotton, syntfietics, wool shoddy, or burlap Upholstering with plastic foams A-2-1.3.2 Extra hazard occupancies (Group 2) include occu- pancies having uses and conditions similar to the following: Asphalt saturating Flammable liquids spraying Flow coating Manufactured home or modular building assemblies (where finished enclosure is present and has combustible interiors) Open oil quenching Plastics processing Solvent cleaning Varnish and paint dipping A-2-1.4 Other NFPA standards contain design criteria for fire control or fire suppression (see 2-1.4 and Chapter 13). While these can form the basis of design criteria, this standard describes the methods of design, installation, fabrication, cal- culation, and evaluation of water supplies that should be used for the specific design of the system. Other NFPA standards contain sprinkler system design cri- teria for fire control or suppression of specific hazards. This information has been either referenced or copied into Chap- ters 5 and 7 using NFPA's extract policy. A-2-2 Specification of the type, amount, and arrangement of combustibles for any commodity classification is essentially an attempt to define the potential fire severity, based on its burn- ing characteristics, so the fire can be successfully controlled by the prescribed sprinkler protection for the commodity class. In actual storage situations, however, many storage arrays do not fit precisely into one of the fundamental classifications; there- fore, the user needs to make judgments after comparing each classification to the existing storage conditions. Storage arrays consist of thousands of products, which make it impossible to specify all the acceptable variations for any class. As an alterna- tive, a variety of common products are classified in this appen- dix based on judgment, loss experience, and fire test results. Table A-2-2 provides examples of commodities not addressed by the classifications in Section 2-2- Table A-2-2.3 is an alphabetized list of commodities with corresponding classifications. Tables A-2-2.3.1 through A-2-2.3.4 and A-2-2.4.1 provide examples of commodities within a specific class. Table A-2-2 Examples of Commodities NotAddressed by the Classifications in Section 2-2 Boxes, Crates - Empty, wood slatted Lighters (butane) - Loose in large containers (Level 3 aerosol) "Should be treated as idle pallets. 1999 Edition TECHNICAL REFERENCE #4 3-84 INSTALLATION OF SPRINKLER SYSTEMS able 7-2.3.2.2 Discharge Criteria for Miscellaneous Storage and Storage 12ft (3.7m) or Less in Height,1 Commodity Glasses I hrough IV Commodity Classification Palletized and Bin Box I OH-1 Hup 10 8 ft (2.4m) OH-} II over 8 ft (2.4 m) up to 12 ft (3.6 m) OH-2 III OH-2 IVupto 10ft (3m) OH-2 IV over 10 ft (3 m) to 12 ft (3.6 m) OH-2 Rack OH-I OH-1 OH-2 OH-2 OH-2 EH-1 Group A Plastics Stored on Racks CartonedStorage Maximum Height Building Height Solid Expanded Up to 5 ft No limit OH-2 OH-2 Over 5 ft to 10 ft 15 ft EH-1 EH-1 Over 5 ft to 10 ft 20 ft EH-2 EH-2 Over 1 0 ft to 1 2 ft 1 7 ft EH-22 EH-22 Over 10 ft to 12 ft No limit OH-2 OH-2 +1 level in-rack5 +1 level in-rack5 Exposed Solid Expanded OH-2 OH-2 EH-2 EH-2 EH-2 OH-2 +1 level in-rack^ EH-22 EH-28 OH-2 OH-2 +1 level in-rack5 +1 level in-rack5 Group A Plastics Solid Piled, Palletized, Bin-Box, or Shelf Storage CartonedStorage Maximum Height Building Height Solid Expanded Up to 5 ft No limit OH-2 OH-2 Over 5 ft to 10 ft 15 ft EH-1 EH-1 Over 5 ft to 10 ft 20 ft EH-2 EH-2 Over 5 ft to 8 ft No limit — — Over 1 0 ft to 1 2 ft 1 7 ft EH-2 EH-2 Over 10 ft to 12 fc 27 ft EH-2 EH-2 Exposed Solid Expanded OH-2 OH-2 EH-2 EH-2 EH-2 — — EH-2 EH-2 EH-2 _ — Miscellaneous Tire Storage3 Piling Methods Height of Storage On floor, on side 5 ft to 12 ft On floor, on tread or on side To 5 ft Single, double, or multirow racks on To 5 ft tread or on side Single row rack, portable, on tread or on 5 ft to 12 ft side Single row rack, fixed, on tread or on 5 ft to 12 ft side Occupancy Group EH-1 OH-2 OH-2 EH-1 EH-1 or OH-2 plus one level of in-rack sprinklers 1999 Edition TECHNICAL REFERENCE #5 13-172 INSTALLATION OF SPRINKLER SYSTEMS Table A-2-2.3 .Alphabetized Listing of Commodity Classes (Continued) Commodity Commodity Class Shingles - Asphalt-coated fiberglass Class III - Asphalt-impregnated felt Class IV Shock Absorbers - Metal dust cover Class II - Plastic dust cover Class III Signatures Books, magazines - Solid array on pallet Class II Skis - Wood Class III - Foam core Class IV Stuffed Toys Foam or synthetic Group A plastics Syrup -Drummed (metal containers) Class I - Barreled, wood Class II Textiles Natural fiber clothing or textile Class III products Synthetics (except rayon and nylon) —50/50 blend or less - Thread, yarn on wood or paper Class III spools - Fabrics Class III - Thread, yarn on plastic spools Class IV - Baled fiber Group A plastics .-Synthetics (except rayon and nylon) —greater than 50/50 blend - Thread, yarn on wood or paper Class rV spools - Fabrics Class W - Baled fiber Group A plastics - Thread, yarn on plastic spools Group A plastics Rayon and nylon - Baled fiber Class IV - Thread, yarn on wood or paper Class IV spools - Fabrics Class IV - Thread, yarn on plastic spools Group A plastics Tobacco Products In paperboard cartons Class III Transformers Dry and oil filled Class I Vinyl-Coated Fabric Cartoned Group A plastics Vinyl Floor Coverings - Tiles in cartons Class IV - Rolled Group A plastics Table A-2-2.3 Alphabetized Listing of Commodity Classes (Continued) Commodity Commodity Class Wax-Coated Paper Cups, plates - Boxed or packaged inside cartons Class IV (emphasis on packaging) - Loose inside large cartons Group A plastics Wax Paraffin, blocks, cartoned Group A plastics Wire - Bare wire on metal spools on wood Class I skids - Bare wire on wood or cardboard Class II spools on wood skids - Bare wire on metal, wood, or Class II cardboard spools in cardboard boxes on wood skids - Single- or multiple-layer Class II PVC-covered wire on metal spools on wood skids - Insulated (PVC) cable on large Class II wood or metal spools on wood skids - Bare wire on plastic spools in Class IV cardboard boxes on wood skids - Single- or multiple-layer Class TV PVC-covered wire on plastic spools in cardboard boxes on wood skids - Single, multiple, or power cables Class IV (PVC) on large plastic spools - Bulk storage of empty plastic Group A plastics spools Wood Products - Solid piles — lumber, plywood, Class II particleboard, pressboard (smooth ends and edges) - Spools (empty) Class III -Toothpicks, clothespins, hangers Class III in cartons - Doors, windows, wood cabinets, Class III and furniture - Patterns Class IV 'The product is presumed to be in a plastic-coated package in a corru-i gated carton. If packaged in a metal foil, it can be considered Class I.2Most batteries have a polypropylene case and, if stored empty, should, be treated as a Group A plastic. Truck batteries, even where filled, should' be considered a Group A plastic because of their thicker walls.j3As the openings in plastic crates become larger, the product behaves'! more like a Class III commodity. Conversely, as the openings become^ smaller, the product behaves more like a plastic.4These items should be treated as idle pallets.5Tests clearly indicate that a synthetic or synthetic blend is considered i greater than Class III.6When liquor is stored in glass containers in racks, it should be consid-1 ered a Class III commodity; where it is palletized, it should be consid-f ered a Class IV commodity. 1999 Edition LAMINATED THBR MO SETTING SHEETS PRINCIPAL GRADES, USES AND PROPERTIES These are AVERAGE and not GUARANTEED properties. Guaranteed values are NEMA or applicable MIL-P specifications. DESCRIPTION CHARACTERISTICS — APPLICATIONS Paper/Phenolic — General Purpose. For panels,contactors, terminal blocks — high strength, low cost Paper/Phenolic — For applications requiring good mechanical strength and dim. stability with elec. properties secondary Paper/Phenolic — Excellent cold punching, high strength Paper/Phenolic — An economy grade ottering excellent shear and punch characteristics at room temp. Paper/Phenolic, good mechanical, electrical and machining properties Paper/Phenolic — Excellent punching, high mechanical and hijh electrical. Best all-purpose Paper/Phenolic — Excellent electrical grade used where dim, stability or mln. colfl flow is essential Paper/Phenolic — Best quality paper base. High insulation resistance, low loss material Paper/Phenolic — High quality, cold punchingmaterial. High insulation resistance Cotton Cloth/Phenolic — General purpose. Excellent mach. and punching. For panels, wedges, gears, wear strips Cotton Cloth/Phenolic — Best canvas base electrical grade. Excellent ac;3 resistance. For panels, steam valve discs Cotton Cloth/Phenolic. A finer weave than Grade C. Better lorfine punching, close machining. Mechanical usage Cotton Cloth/Phenolic — Best insulation of cloth grades.Excellent resistance to moisture, mild acids, alkalies Fine Weave Cotton Cloth/Phenolic, with graphite added. Non-insulator, used for thrust bearings, pump bearings Asbestos Paper/Phenolic — Suitable (or continuous use at 150 °C. Good mechanical, poor electrical strength Asbestos Cloth/Phenolic — High heat resist., dimensional stab., low water absorp., low thermal expan., good Impact resist. Nylon Cloth/Phenolic — Excellent electrical and goodmechanical properties; under humid conditions Glass Cloth/Phenolic — Used in applications where stability of elec. and mech. properties Is essential Glass Cloth/Melamine — Excellent mechanical and electrical properties. Good arc resistance, flame re tar da nee Glass Cloth/Si lie one — Suitable for high temp. {Class H)) applications. Low loss electrical properties Glass Cloth/Melamlne — An arc and flame resistance laminate, with outstanding elec. prop, to meet M1L-P15037C. GME Glass Cloth/Epoiy — High Ins. resist., very low absorp. Highest bond strength of flass laminates. High stability In humidity Glass Cloth/Epoxy — High flexural strength retention at ilevatid temperatures. Extreme resistance to solvents Paper/Epoxy — Designed for optimum balance of mechanical »nd electrical properties, with eicellent machlnablllty Glass Cloth/Epoxy — A flame resistant epoxy laminate with excellent machining and electrical properties Glass Cloth/Epoxy — High strength retention *t elevated temperatures. Self-extinguishing ;°£sxa X XP XPC XPC XX XXP XXX XXXP XXXPC C CE L LE Linen Graphite A A> Nl i G3 G5 G7 G9 G1D Gil FF-3 FR-4 FR-5 Conform* IsMilitary Spec.Mll-p3115, PEG 3115. PB£ 3115, PBEP 3115, PBE-P 18324 15035, FBM 15035, FBG 15035, FBI 15035, FBE 5431 <AER.) 8059 {USAF1 8059 (USAF) 15047-NPG 15037, GMG 997, GSG 15037C, GME 18177, GEE 18177, GEB 22324, PEE 18177, GEE 18177, GEB Va au N.B.C. N.B.C. N.B.C. N.B-C. N.B. N.B.C. N.B. N.B. N.B. N.B. N.B. N.B. N.B. Green- Black N.B. N. N. N. Gray-Brown White Cray- Brown Green Green Ivory Green Green StandardThicknesses(others available).010—2.0 .020—2.0 .015— .250 1 .031— .125 .010—2.0 .015—250 0.10—2.0 ,031—250 .031— .50 .031—10.0 .031—3.0 .020—4.0 .010—3.0 .008—6-0 .015—1.0 .047—4.0 .015—1.125 .031—2.0 .008—3.5 .010—2.0 ,008—3.5 ,010—2.0 .010—2.0 .031— .50 .010— .125 .010—1.5 MECHANICAL TIMES 1000 C tfl aj . if) « Q.U. !* 38.0 35.0 42,0 32.0 34.0 41.0 35.0 28,0 30.0 11,0 39.0 39.0 38.0 37.0 45.0 40.0 40.0 55.0 70.0 62.0 62.0 50.0 58.0 32.0 55.0 50.0 ?! 5" *I 3». Zx 28.0 30.0 23.0 24.0 22.0 23.0 20.0 19.0 19.0 22.0 21.0 21.5 22.0 20.0 28.0 30.0 13.5 20.0 50.0 38.0 83.0 70.0 70.0 26.5 82.0 58.0 B wS - «U-ri S 61 3U- »'.cx 20.0 25.0 20.0 20.0 19.0 18,0 17.0 17.5 15.0 18.0 19.0 18.0 17.0 1E.O 21.0 19.0 10.5 18.0 43.0 32.0 61.0 55.0 65,0 22.0 75.0 52,0 c avt^ ~*« * f> M "3 ~*s>ffi5 20.6 20.0 17.0 12.0 16.0 16.3 13.1 12.0 14.0 12.1 13.5 11.9 15.0 15.0 18.0 9.2 10.0 23.0 39.0 33.0 48.0 49.0 48.0 12.0 48.0 49.0 c o-1/1~~^ **• i« i"» V M — M V* 16.0 16.0 12.7 10.0 13.0 13,8 10.5 9.5 11.0 9.80 9.80 7.9 10.6 11.0 13.0 B.I 6.0 18,0 36.0 31.0 35.0 38.0 37.0 9.0 37.0 36.0 -. — GLASS EPOXY LAMINATE Page 1 of 1 Section 5 - Fire Fighting Measures GftAS&EPOXV LAMINATfc Fire Fighting Procedures: WEAR NIOSH/MSHA APPROVED SCBA AND FULL PROTECTIVE EQUIPMENT (FP N). Unusual Fire or Explosion Hazard: MAY GIVE OFF TOXIC HYDROGEN BROMIDE WHEN THERMALLY DECOMPOSED. Extinguishing Media: WATER, CO*2 AND DRY CHEMICAL. Flash Point: Flash Point Text: 1427F,775C Autoignition Temperature: Autoignition Temperature Text: N/A Lower Limit(s): N/K Upper Limit(s): N/K http://msds.pdc.comell.edu/msds/msdsdod/a353/ml76458.htm 8/30/2003 TECHNICAL REFERENCE #6 2001 CALIFORNIA FIRE CODE TABLE 81-A TABLE 81-B TABLE 81-A—GENERAL FIRE-PROTECTION AND LIFE-SAFETY REQUIREMENTS COM- MODITY CLASS I-IV High hazard KlpRsec,r*& SIZE OF HIGH-PILED STORAGE AREA1 (wuartfeet) (See Section! 8102.2 and (101.4) x 0.0929 for m1 0-500 501-2,500 2,501-12,000 Public accessible 2,501-12,000 Nonpublic accessible (Option 1) 2,501-12,000 NonpubHc accessible (Option 2) 12,001-20,000 20,001-500,000 Greater than 500,000s 0-500 501-2,500 Public accessible 501-2,500 Nonpublic accessible (Option 1) 501-2,500 Nonpublic accessible (Option 2) 2,501-300,000 300,00 1-500.0008-9 ALL STORAGE AREAS (See Section 8102, 8103 and 81 04)1 Automatic Fire-extin- gui»hidg Sys- tem (Sec Sec- tion 8101.4) NR1 NR1 Yes Yes NR1 Yes Yes Yes NR1 Yes Yes NR' Yes Yes Fire-detec-tion Syttcm(See Section 8102.5) NR Yes NR NR Yes NR NR NR NR NR NR Yes NR NR Bulldog Ac- cess (See Section 8102.6) NR5 NR3 NR5 NR3 Yes Yes Yes Yes NR5 NR5 NR5 Yes Yes Yes Smoke andHeal Remov- al (See Sec-tion 8102.7) NR NR NR NR Yes Yes Yes Yes NR NR NR Yes Yes Yes Curtain Boards (Sec Section 8102.8) NR6 NR6 NR6 NR6 Yes NR6 NR6 NR6 NR6 NR6 NR6 Yes NR6 NR6 Small HOKValve* Bud Station* (See Section 8102.9) NR NR NR NR Yes Yes Yes Yes NR NR NR Yes Yes Yes SOLID- PILED STORAGE, SHELF STOR- AGE AND PALLETIZED STORAGE (See Section 8103.3) Maximum Pile Dimeu- ilon3 (feel) Maximum Permissible StorageHeight* (feet) x 3048 far mm NR 100 100 100 100 100 100 100 50 50 50 50 50 50 NR 40 40 40 307 40 40 40 NR 30 30 20 30 30 Maximum Pile Volume(cubic feel) x 0.0183 for m3 NR 100,000 400,000 400,000 200,000 400,000 400,000 400,000 NR 75,000 75,000 50,000 75,000 75,000 NR = Not required. 1 When fire sprinklers are required for reasons other than Article 81, the portion of the sprinkler system protecting the high-piled storage area shall be designed and installed in accordance with Sections 8103 and 8104. 2For aisles, see Section 8102.10. 3Piles shall be separated by aisles complying with Section 8102.10. 4For storage in excess of the height indicated, special fire protection shall be provided in accordance with Footnote 8 when required by the chief. See also Articles 79 and 88 for special limitations for flammable and combustible liquids and aerosols. 'Section 902.2 shall apply for fire apparatus access. ^Curtain boards shall be installed as required by the Building Code. See UBC Section 906. 7For storage exceeding 30 feet (914 mm) in height. Option 1 shall be used. 8Special fire-protection provisions such as, but not limited to, fire protection of exposed steel columns; increased sprinkler density; additional in-rack sprinklers, without associated reductions in ceiling sprinkler density; or additional fire department hose connections shall be provided when required by the chief. 9High-piled storage areas shall not exceed 500,000 square feet (46 451.5 m2). A two-hour area separation wall shall be used to divide high-piled storage exceeding 500,000 square feet (46 451.5m2) in area. TABLE 81-B—REQUIREMENTS FOR CURTAIN BOARDS AND SMOKE VENTING1 (See Sections 8102.7.4 and 8102.8.3) COMMODITY CLASSIFI- CATION I-IV (Option 1) I-IV (Option 2) High hazard (Option 1) High hazard (Option 2) DESIGNATED STORAGE HEIGHT (t«D CURTAIN BOARD DEPTH (feet) x 3048 for nun 20 or less over 20-40 20 or less over 20-40 20 or less over 20-30 20 or less over 20-30 6 6 4 4 6 6 4 4 MAXIMUM AREA FORMED BY CURTAIN BOARDS1 (tquart feel) x 0.0929 for m2 10,000 8,000 3,000 3,000 6,000 6,000 4,000 2,000 VENT AREA TO FLOOR AREA RA- TIO 1:100 1:75 1:75 1:50 1:50 1:40 1:50 1:30 MAXIMUM SPAC- ING OF VENT CENTERS (feet) MAXIMUM DISTANCE TO VENTS FROM WALL OR CURTAIN BOARDS3 (f«t) x 3048 for nun 100 100 100 100 100 90 100 75 60 55 55 50 50 45 50 40 'For rack storage heights in excess of those indicated, see Section 8104.5. For solid-piled storage heights in excess of those indicated, an approved engineered design shall be used. 2When areas of buildings are equipped with early suppression-fast response (ESFR) sprinklers, the curtain boards within these areas shall be located'only at the separation between ESFR and conventional sprinkler systems. 3The distance specified is the maximum distance from any vent in a particular curtained area to walls or curtain boards which form the perimeter of the curtained area. 1-247 TECHNICAL REFERENCE #7 13-92 INSTALLATION OF SPRINKLER SYSTEMS Table 7-4.2,1.5 Single- or Double-Row Racks — Storage Height Up to and Including 25 ft (7.6 m) Without Solid Shelves Height Over 12 ft (3.7m), up to and including 20 ft (6.1 m) Over 20 ft (6.1 m}, up to and including 22 fi (6.7 m) Commodity Class I II JII IV I II III IV Encap- sulated No Yes No Yes No Yes No Yes No Yes No Yes No Yes No Yes Aisles* ft 4 8 4 8 4 8 4 8 4 8 4 8 4 8 4 8 4 8 4 8 4 8 4 8 4 8 4 8 4 8 4 8 m 1.2 2.4 1.2 2.4 1.2 2A 1.2 2.4 1.2 2.4 1.2 2.4 1.2 2,4 1.2 2.4 1.2 2.4 1.2 2.4 1.2 2.4 1.2 2.4 1.2 2.4 1.2 2.4 1.2 2.4 1.2 2.4 Sprinklers Mandatory In-Racks No No No No No 1 level No 1 level No 1 level No 1 fevel No 1 level No 1 level Ceiling Sprinkler Water Demand With In-Rack Sprinklers Figure 7-4.2.2.1, l(a) 7-4.2.2. 1.1 (e) 7-4.2.2. 1.1 (b) 7-4.2.2.1. l(e) 7-4,2.2. l.l(c) 7^.2.2.1.1(0 7-4.2.2.1, l(d) 7-4,2.2.1. l(g) 7-4.2.2.1. l(a) 7-4.2.2.1. l(e) 7-4.2.2.1. l(b) 7-4.2.2.1. l(e) 7-4.2.2.1. l{c) 7-4.2.2.1.1(0 7-4.2.2. l.l(d) 7-4.2.2.1. l(g) Curves CandD AandB CandD AandB CandD AandB CandD AandB CandD AandB CandD AandB CandD AandB CandD AandB CandD AandB CandD AandB CandD AandB CandD AandB CandD AandB CandD AandB C and D AandB CandD AandB Apply Figure 7-4.2.2.1.3 Yes No Without In-Rack Sprinklers Figure 7-4.2.2.1. 1(a) 7-4.2.2.1.1 (e) 7-4.2.2.1. l(b) 7-4.2.2.1. l(e) 7-4.2.2.1. l(c) — 7-4.2.2.1. l(d) 7-4.2.2.I.l(a) — 7-4.2.2. 1.1 (b) — 7-4.2.2.1.1 (c) — 7-4.2.2.1. l(d) Curves FandH EandG GandH E and F GandH E and F GandH E and F GandH E and F _ GandH E and F FandH E and G — GandH E and F — GandH EandF GandH EandF Apply Figure 7-4.2.2.1.3 Yes Yes Yes Yes Yes Yes Yes — Yes — Yes Yes — 1999 Edition 13-96 INSTALLATION OF SPRINKLER SYSTEMS Figure 7-4,2.2.1.1 (c) Sprinkler system design curves — 20-ft (6.1-m) high rack storage — Class IH nonencapsulated commodities — conventional pallets. 6.1 8.2 Ceiling sprinkler density (mm/min) 12.2 14.3 16.3 18.310.2 20.4 6000 -B 5000 4000 - 3000 2000 1000 A £ II\\\\\\1 C C il\1\\\i V_|"i i ^~ , i\VVv s E \1 t*\ V1 I'\ \\ \ S, L \ 1 | 1 L \ \ ^ FG ? 1 \ \ S S i\i1 V \ b 1 ^;V s H ii1 ' S \ s{ s V Vv i ,* ^ \ Ss tss s s s s , V *» s s •* , •V Single point design only 0.15 0.20 0.25 0.30 0.35 ' 0.40 0.45 0.50 Ceiling sprinkler density (gpm/ft2) S?03 Iw0) O Curve Legend A — Single-or double-row racks with 8-ft (2.44-m) aisles with286°F(14rC) ceiling sprinklers and 165°F(74°C) in-rack sprinklers B — Singte-or double-row racks with 8-ft (2.44-m) aisles with 165°F (7,4°C) ceiling sprinklers and165°F(74°C) in-rack sprinklers C— Single-or double-row racks with 4-ft (1,22-m) aisles or multiple-row racks with 286°F(141°C) ceiling sprinklers and 165°F (74°C) in-rack sprinklers 0 — Single-or double-row racks with 4-ft (1.22-m) aisles or multiple-row racks with 165°F(74°C) ceiling sprinklers and 165"F (74"Cj in-rack sprinklers Curve Legend E— Single-or double-row racks with 8-ft (2.44-m) aisles and286°F (141°C) ceiling sprinklers F— Single-or double-row racks with 8-ft (2.44-m) aisles and 165°F (74°C) ceiling sprinklers G — Single-or double-row racks with 4-ft (1.22-m) aisles and 286°F(141DC) ceiling sprinklers H — Single-or double-row racks with 4-ft (1.22-m) aisles and 165°F (74°C) ceiling sprinklers /— Multiple-row racks with 8-ft (2.44-m) or wider aisles and 286°F(141°C) ceiling sprinklers J— Multiple-row racks with 8-ft (2.44-m) or wider aisles and 165°F(74°C) ceiling sprinklers Figure 7-4.2.2.1.1(d) Sprinkler system design curves— 20-ft (6.1-m) high rack storage — Class IV nonencapsulated commodities — conventional pallets. 8.2 10.2 Ceiling sprinkler density (mm/min} 12.2 14.3 16.3 18.3 20.4 Curve Legend 22.4 24.5 6000 .2 5000 4000 3000 2000 1000 A \\ LV1 £1 \1 C\ LI1 V* L > L 1 I\ \> L > L.s i\ \^ D\1v1 \ > i ' \'V1 t'.11 V s C: \\ \ s \ \ s y ,1 ^, s Fy \ S C \ N s \ \ s k>\S ', ' ^\iS * s -/ 1\ ^ v ,1 \ s s ss. ^ s ' ksiS ~k •557 465 .S 372 * 279 * 186 93 0.20 0.25 0.30 0.35 0.40 0.45 0,50 0.55 0.60 Ceiling sprinkler density (gpnVft2) A — Slngle-or double-row racks with 8-ft (2.44-m) aisles with286°F(141°C) ceiling sprinklers and 165°F(74°C} in-rack sprinklers 8 — Single-or double-row racks with 8-ft (2.44-m) aisles with 165"F(74"C) ceiling sprinklers and165°F(74°C) in-rack sprinklers C — Singte-or double-row racks with 4-ft (1.22-m) aisles or multiple-row racks with 286°F=(141°C) ceiling sprinklers and 165°F (74DC) in-rack sprinklers 0— Single-or double-row racks with 4-ft (1.22-m) aisles or multiple-row racks with 165°F(74°C) ceiling sprinklers and 165°F (74"C) in-rack sprinklers Curve Legend E— Single-or double-row racks with 8-ft (2.44-m) aisles and 286°F(141°C) ceiling sprinklers F— Single-or double-row racks with 8-rt (2.44-m) aisles and 165°F(74°C) ceiling Sprinklers G — Single-or double-row racks with 4-ft (1.22-m) aisles and 286°F(141°C) ceiling sprinklers H— Single-or double-row racks with 4-ft (1.22-m) aisles and 165°F(74°C) ceiling sprinklers 1999 Edition DESIGN APPROACHES 13-83 re 7-2.3.1.2 Area/density curves. 5000 4000 2.0 4.1 6.1 Density (mm/min) .1 10.2 12.2 14.3 16.3465 2000 1500 139 0.05 0.10 0.15 0.20 0.25 Density (gpm/ft2) 0.30 0.35 0.40 3.1.3 Regardless of which of the two methods is used, the wing restrictions shall apply: a) For areas of sprinkler operation less than 1500ft2 (139m2) 1 for light and ordinary hazard occupancies, the density for !) fty (139 m2) shall be vised. For areas of sprinkler operation than 2500 ft2 (232 m'2) for extra hazard occupancies, the den- For 2500 ft2 (232 m'2) shall be used. b) *For buildings having unsprinklered combustible con- ed spaces (as described in 5-13.1.1 and 5-13.7), the minimum i of sprinkler operation shall be 3000 ft2 (279 m2}. option No. !: Combustible concealed spaces filled entirely with combustible insulation. option No. 2:* Light or ordinary hazard occupancies where non- bustible or limited combustible ceilings are directly attached to the nm of solid wood joists so as to create enclosed joist spaces 260ft* ? m3) or less in volume. option No. 3: * Concealed spaces where the exposed surfaces have a if spread rating of 25 or less and the materials have been demon- ted to not propagate fire in the form in which they are installed in space. fc) Water demand of sprinklers installed in racks or water tains shall be added to the ceiling sprinkler water demand he point of connection. Demands shall be balanced to the her pressure. (See Chapter 8.) (d) Water demand of sprinklers installed in concealed ces or under obstructions such as ducts and cutting tables Ld not be added to ceiling demand. (e) Where inside hose stations are planned or are uired, a total water allowance of 50 gpm (189 L/min) fora ^le hose station installation or 100 gpm (378 L/min) for a Itiple hose station installation shall be added to the sprin- r requirements. The water allowance shall be added in 50- n (189-L/min) increments beginning at the most remote ;e station, with each increment added at the pressure uired by the sprinkler system design at that point. (f) When hose valves for fire department use are attached vet pipe sprinkler system risers in accordance with 5-15.5.2, water supply shall not be required to be added to stand- •e demand as determined from NFPA 14, Standard for the tallation ofStandpipe and Hose Systems. Exception No. 1: Where the combined sprinkler system demand and hose stream allowance of Table 7-2.3.1.! exceeds the requirements of NFPA 14, Standard for the Installation of Standpipe and Hose Systems, this higher demand shall be used. ExceptionNo. 2: For partially sprinklered buildings, the sprinkler demand, not including hose stream allowance, as indicated in Table 7-2.3.1.1 shall be added to the requirements given in NFPA 14, Standard for the Installa- tion ofStandpipe and Hose Systems. (g) Water allowance for outside hose shall be added to the sprinkler and inside hose requirement at the connection to the city water main or a yard hydrant, whichever is closer to the system riser. (h) The lower duration values in Table 7-2,3.1.1 shall be permitted where remote station or central station waterflow alarm service is provided. (i) Where pumps, gravity tanks, or pressure tanks supply sprinklers only, requirements for inside and outside hose need not be considered in determining the size of such pumps or tanks. 7-2.3.1.4 Total system water supply requirements shall be determined in accordance with the hydraulic calculation pro- cedures of Section 8-4. 7-2.3.2 Area/Density Method. 7-2.3.2.1 The water supply requirement for sprinklers only shall be calculated from the area/density curves in Figure 7-2.3.1.2 or from Section 7-10 where area/density criteria is specified for spe- cial occupancy hazards. When using Figure 7-2.3.1.2, the calcula- tions shall satisfy any single point on the appropriate area/density curve as follows: (1) Light hazard area/density curve 1 (2) Ordinary hazard (Group 1) area/density curve 2 (3) Ordinary hazard (Group 2) area/density curve 3 (4) Extra hazard (Group 1) area/density curve 4 (5) Extra hazard (Group 2) area/density curve 5 It shall not be necessary to meet all points on the selected curve. Exception: Sprinkler demand for storage occupancies as determined in Sections 7-3 through 7-8. 7-2.3.2.2 For protection of miscellaneous storage, miscella- neous tire storage, and storage up to 12 ft (3.7 m) in height, the discharge criteria in Table 7-2.3.2.2 shall apply. 1999 Edition ULTRA™K17 l/lodel Ultra K17 6.8 K-factor Specific Application Storage Sprinkler Bright Glass Bulb Automatic Sprinkler co Fire Products — www.centralsprinkler.com 1 North Cannon Avenue, Lansdale, Pennsylvania 19446 --- USA istomer Service/Sales: Tel: (215) 362-0700 / Fax: (215) 362-5385 •clinical Services: Tel: (800) 381-9312 / Fax: (800) 791-5500 CENTRAL General Description e Central Model Ultra K17, 16.8 Factor, Standard Response, Upright, lecific Application Storage Sprinklers 3 automatic sprinklers of the frangible Ib type. They are "standard response pray sprinklers" which produce a mispherical water distribution pattern low the deflector. e Ultra K17 Specific Application Drage Sprinklers are intended for use fire sprinkler systems designed in cordance with the standard installa- n rules recognized by the applicable iting or Approval agency (e.g., UL sting is based on the requirements of 3 National Fire Protection Associa- n), as well as in accordance with their jecific application" listing/approvals. e Ultra K17 Specific Application 3rage Sprinklers were subjected to I scale, high-piled storage, fire tests to alify their use with reduced pressure d design areas for the protection of )h-piled storage. The use of the :ra K17 Specific Application Storage irinklers in some cases can subse- ently reduce the design area and the erall water demand of a sprinkler stem. ^plications for the Ultra K17 Specific iplication Storage Sprinklers are panding beyond the current "specific plication" listings/approvals. For ormation regarding research fire tests lich may be acceptable to an thority Having Jurisdiction, please ntact the Technical Services Depart- ;nt. Operation: The glass bulb contains a fluid which expands when exposed to heat. When the rated temperature is reached, the fluid expands sufficiently to shatter the glass bulb, which then allows the sprinkler to activate & flow water. WARNING The Ultra K17 Upright Sprinklers described herein must be installed and maintained in compliance with this document, as well as with the applicable standards of the National Fire Protection Association, in addition to the standards of any other authorities having jurisdic- tion. Failure to do so may impair the integrity of these devices. The owner is responsible for maintain- ing their fire protection system and devices in proper operating condition. The installing contractor or sprinkler manufacturer should be contacted relative to any questions. Technical Data Sprinkler Identification Number SINC7153 Approvals UL & C-UL Listed. FM Approved (Refer to Tables 1, 2 & 3, The approvals apply only to the service conditions indicated in the Design Criteria Section) Maximum Working Pressure 175 psi (12,1 bar) Pipe Thread Connection 3/4 inch NPT Discharge Coefficient K = 16.8 GPM/psi"2 (241,9 LPM/bar1*) Temperature Ratings 155°F/68°C, 200°F/93°C Specific Application Upright Sprinklers Finishes Sprinkler: Natural Brass with Chrome Deflector Physical Characteristics The Model Ultra K17 Upright Sprinklers utilize a dezincification resistant (DZR) bronze frame and a 5 mm bulb, The two-piece button assembly is brass and copper. The sprinkler frame orifice is sealed with a gasketed spring plate (Belleville Seal) consisting of a beryllium nickel disc spring that is sealed on both its inside and outside edges with a Teflon™ gasket. The compression screw is bronze, & the deflector is brass. No. 3-3.0 Figure 1 - Model ULTRA K17, Upright Sprinkler 1-3/4 (44,5 mm) WRENCH FLAT 7/16" (11,1 mm) 2-3/8" (60,3 mm) ELEVATION VIEW Figure 3 - W-Type 8, Sprinkler Wrench (Part #1068) Design Criteria The Model Ultra K17,16.8 K-factor Upright Specific Application Storage Sprinklers (Ref. Table 1) are UL and C-UL Listed for use in accordance with design parameters set forth in Table 2 of this Data Sheet. If a sprinkler system is designed in accordance with Table 2, additional column protection is not required. The Model Ultra K17, 16.8 K-Factor Upright Specific Application Storage Sprinklers (Ref. Table 1) are FM Approved for use in accordance with Table 3 of this Data Sheet. These sprinklers are approved as "Control Mode Specific Application Sprinklers". If a sprinkler system is designed in accordance with FM Loss Prevention Data Sheet 8-9 (3.3.8.2), additional column protection is not required. Figure 2 - Cross Section Model ULTRA K17, Upright Sprinkler COMPRESSION SCREW GLASS BULB OPERATING ELEMENT BUTTON ASSEMBLY DEFLECTOR SPRINKLER FRAME GASKETED SPRING PLATE (BELLEVILLE SEAL) Table 1 - Laboratory Listings and Approvals TemperatureRating 155°F/68°C 200°F/93°C Bulb Color Code Red Green SPRINKLER FINISH NaturalBrass 3 1,2,3 Notes: 1. Listed by Underwriters Laboratories, Inc. 2. Listed by Underwriters Laboratories for use in Canada. 3. Approved by Factory Mutual Research Corporation. Installation The Model Ultra K17 Upright Sprinklers must be installed in accordance with the following instructions. NOTES Do not install any bulb type sprinkler if the bulb is cracked or there is a loss of liquid from the bulb. With the sprinkler held horizontally, a small air bubble should be present. The diameter of the air bubble is approximately 1/16 inch (1,6mm) for the 155°F/68°C to 3/32 inch (2,4 mm) for the 200°F/93°C rating. A leak tight 3/4 inch NPT sprinkler joint should be obtained with a torque of 10 to 20 ft.lbs. (13,4 to 26,8 Nm). A maxi- mum of 30 ft.lbs. (40.7 Nm) of torque is to be used to install 3/4 inch NPT sprinklers. Higher levels of torque may distort the sprinkler inlet with consequent leakage or impairment of the sprinkler. Step 1. Upright sprinklers must be installed only in the upright position. The deflector is to be parallel to the ceiling, roof, or mounting surface, as applicable. Step 2. With pipe thread sealant applied to the pipe threads, hand tighten the sprinkler into the sprinkler fitting. Step 3. Tighten the sprinkler into the sprinkler fitting using only the W-Type 8 Sprinkler Wrench (Ref. Figure 3). With reference to Figure 1, the W-Type 8 Sprinkler Wrench is to be applied to the wrench flats only. Table 2 - ULTRA K17 UL & C-UL Specific Application Guidelines Type of Storage: Single, double, multiple-row and portable rack storage (No Solid Shelves) and solid piled or palletizied storage. Commodity: Class I-IV, encapsulated or non- encapsulated. Group A and B plastics - cartoned, expanded or unexpanded as well as exposed, unexpanded. Maximum Storage Height: 25'-0" (7.6 m) Clearance: 36" (914 mm) minimum from deflector to top of storage, Max. Ceiling Height in Area of Storage: 30'-0" (9.1 m) Construction Type: All types - deflector distances per NFPA13. System Type: Wet or dry Temperature Rating: 200°F/93°C Hydraulic Design Criteria: The density required is 0.80 gpm/sq. ft. (32.6 mm/min). Design Area: For wet systems 2000 sq. ft, (186 m2) and for dry systems use 4500 sq. ft. (418.5m2) Spacing: Maximum spacing is 100 sq. ft. (9.3 m2} and the minimum is 70 sq. ft. (6.5 m2). The maximum distance between sprinklers is 12'-0" (3.7 m) - 12'-6"(3.8 m) spacing is allowed in 25'-0"(7.6 m) bays. Minimum spacing is 6'-0" (1.8 m) apart unless separated by baffles. Obstructions: NFPA criteria for standard spray sprinklers. Table 3 - ULTRA K17 Factory Mutual Specific Application Guidelines Type of Storage: Single, double, multiple-row and portable rack storage (No Solid Shelves) and solid piled or palletizied storage. Maximum Storage Height: 25'-0"(7.6 m) Clearance: 36" (914 mm) minimum from deflector to top of storage. Max. Ceiling Height in Area of Storage: 30'-0" (9.1 m) Construction Type: All types - deflector distances per Factory Mutual Loss Prevention Data Sheets 2-8N. System Type: Wet & Single Interlock Preaction Temperature Rating: 155°F/68°C or 200°F/93°C Hydraulic Design Criteria: Class I & II commodities: Class III. & IV. and cartoned and J-iflcartonecLun expanded Group A and B plastics: 15 Sprinklers at 10psi(0.7bar) 15 Sprinklers at 22psi(i.5bar) Design Area: Calculate the Hydraulicaly most demanding 5 Sprinkler Heads on 3 Branch Lines. Spacing: Maximum spacing is 100 sq. ft. (9.3 m2) and the minimum is 80 sq. ft. (7.4 m2). The maximum distance between sprinklers is 12'-0" (3.7 m). Minimum spacing is 8'-0" (2,4 m). Other Details:See Factory Mutual Loss Prevention Data Sheets 8-9 DESIGN APPROACHES 13-89 .3.2.2 Design Densities for Plastic and Rubber Commodities Kp ^62 0,66 1iiI5 niLi*" V • ! I 7.62 ^ Roof/Ceiling Height ft up to 25 up to 15 >15to20 >20 to 32 up to 20 >20 to 25 >25 to 35 up to 25 >25 to 30 >30 to 35 up to 30 >30 to 35 m up to 7.62 up to 4.57 >4.57 to 6.1 >6.1 to 9.75 up to 6.1 >6.! to 7.62 >7.62 to 10.67 up to 7.62 >7. 62 to 9. 14 >9.14 to 10.67 up to 9. 14 >9.14 to 10.67 Density A gpm/ft2 OH-2 0.2 0.3 0.4 0.25 0.4 0.45 0.3 0.45 0.6 0.4 0.6 mm/min OH-2 8.2 12.2 16.3 10.2 16.3 18.3 12.2 18.3 24.5 16.3 24.5 B gpm/ft* 0.2 EH-2 0.6 0.8 0.5 0.8 0.9 0.6 0.9 1.2 0.75 1.2 mm/min 8.2 EH-2 24.5 32.6 20.4 32.6 36.7 24.5 36.7 48.9 30.6 48.9 C gpm/ft! OH-2 0.3 0.5 0.6 0.4 0.6 0.7 0.45 0.7 0.85 0.55 0.85 mm/min OH-2 12.2 20.4 24.5 16.3 24.5 28.5 18.3 28.5 34.6 22.4 34.6 D gpm/ft2 OH-2 EH-1 EH-2 0.45 0.3 0.45 0.55 0.35 0.55 0.7 0.45 0.7 mm/min OH-2 EH-1 EH-2 18.3 12.2 18,3 22.4 14.3 22.4 28.5 18.3 28.5 E gpm/ftz OH-2 EH-2 EH-2 0.7 0.45 0.7 0.85 0.55 0.85 1.1 0.7 1.1 mm/min OH-2 EH-2 EH-2 28.5 18.3 28.5 34.6 22.4 34.6 44.8 28.5 44.8 limum clearance between sprinkler deflector and top of storage shall be maintained as required. alumn designations correspond to the configuration of plastics storage as follows: (1) Nonexpanded, unstable (2} Nonexpanded, stable, solid unit load Expanded, exposed, stable t .(1) Expanded, exposed, unstable ;• (2) Nonexpanded, stable, cartoned Si,1 Expanded, cartoned, unstable J'' (1) Expanded, cartoned, stable (2) Nonexpanded, stable, exposed )H-2 = Density required for ordinary hazard Group 2 occupancies i-l = Density required for extra hazard Group 1 occupancies s.EH-2 = Density required for extra hazard Group 2 occupancies lose streams shall be provided in accordance with Table 7-2.3.1.1. L3.lt Sprinkler protection criteria is based on the assump- Sri that roof vents and draft curtains are not being used. -f'1'|-4.1.4 flue Space. i,1.4.1f Storage Up to and Including 25 ft (7.6 m). In dou- ile-row and multiple-row racks without solid shelves, a longi- udinal (back-to-back clearance between loads) flue space lall not be required. Nominal 6-in. (142.4-mm) transverse 5ue spaces between loads and at-rack uprights shall be main- ined in single-row, double-row, and multiple-row racks. Ran- variations in the width of flue spaces or in their vertical Alignment shall be permitted. (See Figure 7-4,1.4.1) 4.1.4.2 Storage Height Over 25 ft {7.6m). Nominal 6-in. 2.4-mm) transverse flue spaces between loads and at-rack Uprights shall be maintained in single-row, double-row, and [multiple-row racks. Nominal 6-in. (152.4-mm) longitudinal [flue spaces shall be provided in double-row racks. Random variations in the width of the flue spaces or in their vertical alignment shall be permitted. 7-4.1.5 Protection Systems. 7-4.1.5.1* Sprinkler systems shall be wet pipe systems. Exception: In areas that are subject to freezing or where special condi- tions exist, dry-pipe systems and preaction systems shall be permitted. 7-4.1.5.2 Where dry-pipe systems are used, the ceiling sprinkler areas of operation shall be increased 30 percent over the areas specified by 7-4.2, 7-4.3, and 7-4.4. Densities and areas shall be selected so that the final area of operation after the 30 percent increase is not greater than 6000 ft2 (557.4 m2). 7-4.1.5.3 Where preaction systems are used, preaction systems shall be treated as dry-pipe systems. Exception: This requirement shall not apply where it ran be demon- strated that the detection system that activates the preaction system 1999 Edition 13-90 INSTALLATION OF SPRINKLER SYSTEMS cause;, water to be discharged from sprinklers as quickly as the dis- charge from a wet-pipe system. 7-4.1.5.4 Detectors for preaction systems shall be installed in accordance with 7-4.1.12.3. 7-4.1.5.5* In buildings that are used in pan for rack storage of commodities, the design of the ceiling sprinkler system that is within Inti (4.6m) of the racks shall be the same as that pro- vided for the rack storage area. Exception: \Vhere separated by a barrier partition that is capable ofpre- venting heat from afire m the rack storage area from fusing sprinklers in (he nonntck storage area. Figure 7-4.1.4.1 Typical double-row rack with back-to-back loads. 'Section View Possible transverse flue spaces -o -Q- -O -O -Q -D-|I "°1 rO-o •o Plan View No longitudinal flue space is necessary - Rows of storage " No longitudinal (back-to-back clearance) flue space 7-4.1.6 Hose Connections. For first-aid fire-fighting and mop-up operations, small hose [lVs> in. (38 mm)] shall be provided in accordance with 5-15.5. Exception: Hose connections shall not be required for the protection of C7«,v.v /, //, HI, and IV commodities stored 12ft (3. 7 m) or less in height. 7-4.1.7 Solid and Slatted Shelves. 7-4.1.7.1*t Siatted shelves shall be considered equivalent to solid shelves. Exception: A wet pipe system that is designed to provide a minimum of (!. 6 gpm/ft2 (24.5 mm/min) density over a minimum area of 2000ft2 (186 m2) or K~14 ESFR sprinklers operating at a minimum of 50 psi (3.5 bar} shall be permitted to protect single-row and double-row slatted- shelj racks where all of the following conditions are met: (a) Sprinklers shall be K-11.2 orifice spray sprinklers with a tem- peruiure rating of ordinary, intermediate, or high and shall be listed for storage occupancies or shall be K-14 ESFR. (b) The protected commodities shall be limited to Class I-FV, Group B plastics, Group C plastics, cartoned (expanded and unexpanded) Group A plastics, and exposed (unexpanded) Group A plastics. (c) Shelves shall be slatted using a minimum nominal 2-in. (51- mmj thick fry maximum nominal 6-in. (152-mm) wide slat held in place by spacers that maintain a minimum 2-in. (5l-mm) opening between each slat. (d) \WiejY K.-11.2 orifice sjrrinklers are used, there shall be no slat- led shelf levels in the rack above 12 ft (3.7 m). Wire mesh (greater than 50 percent opening) shall be permitted for shelf levels above 12ft (3.7m). (e) Transverse flue spaces at least 3 in. (76 mm) wide shall be provided at least every 10 ft (3.1 m) horizontally. (f) Longitudinal flue spaces at least 6 in. (152 mm) wide shall be provided for double-row racks. (g) The aisle widths shall be at least 7'/2ft (2.3 m). (h) The maximum roof height shall be 27 ft (8.2 m). (i) The maximum storage height shall be 20 ft (6.1 m). (j) Solid plywood or similar materials shall not be placed on the slatted shelves so that they block the 2-in. (5l-mm) spaces between slats, nor shall they be placed on the wire mesh shelves. 7-4.1,7,2f Sprinklers shall be installed at the ceiling and beneath each shelf in single-, double-, or multiple-row racks with solid shelves that obstruct both longitudinal and trans- verse flue spaces. Design criteria for combined ceiling and in- rack sprinklers shall be used with this storage configuration. 7-4.1.8t Open-Top Combustible Containers, 7-4.1.9 Movable Racks. Rack storage in movable racks shall be protected in the same manner as multiple-row racks. 7-4.1.10 In-Rack Sprinklers. The number of sprinklers and the pipe sizing on a line of sprinklers in racks shall be restricted only by hydraulic calculations and not by any piping schedule. 7-4.1.11* Horizontal Barriers and In-Rack Sprinklers. Horizontal barriers used in conjunction with in-rack sprinklers to impede vertical fire development shall be constructed of sheet metal, wood, or similar material and shall extend the full length and width of the rack. Barriers shall be fitted within 2 in. (51 mm) horizontally around rack uprights. (See Table 7-4.3.1.5.1, Figures 7~4,3.1.5.1(a), (g), and (j), and Figures 7-4.3.1.5.3(c) and (e).j 7-4.1.12 High-Expansion Foam. 7-4.1.12.1* Where high-expansion foam systems are installed, they shall be in accordance with NFPA 11 A, Standard far Medium- and High-Expansion Foam Systems, and they shall be automatic in operation. Exception: This requirement shall not apply where modified by this standard. 7-4.1.12.2 In-rack sprinklers shall not be required where high- expansion foam sysiems are used in combination with ceiling sprinklers. 74.1.12.3 Detectors for High-Expansion Foam Systems. Detect- ors shall be listed and shall be installed in one of the fol- lowing configurations: (1) At the ceiling only where installed at one-half the listed linear spacing [e.g., 15 ft x 15 ft (4.6 m x 4.6 m) rather than at 30 ft x 30 ft (9.1 m x 9.1 m)] Exception: Ceiling detectors alone shall not be used where the ceilr ing/roof clearancf from the top of the storage exceeds 10 ft (3.1 m) or the height of the storage exceeds 25 ft (7.6 m). (2) At the ceiling at the listed spacing and in racks at alter-, nate levels (3) Where listed for rack storage installation and installed in accordance with the listing to provide response within 1 minute after ignition using an ignition source that is equivalent to that used in a rack storage testing ^ program 1999 Edition S-82 INSTALLATION OF SPRINKLER SYSTEMS able 7-2.3.1. If Hose Stream Demand and Water Supply Duration Requirements for Hydraulically Calculated Systems Total Combined Inside and Outside Duration Occupancy or Commodity Classification Inside Hose (gpm) Hose (gpm) (minutes) jght hazard irdinary haxard '.xtra hazard lack storage, Class I, II, and III commodities up to 12 ft (3.7 m) in fight lack storage, (''.lass FV commodities up to 10 ft (3,1 m) in height lack storage, ("lass IV commodities up to 12 ft (3.7 m) in height lack storage, Class I, 11, and III commodities over 12 ft (3.7 m) in eight lack storage, Class IV commodities over 12 ft (3.7 m) in height and iastic commodities Jeneral storage, Class 1, II, and III commodities over 12ft (3.7 m) up ) 20ft (6.) m) ^eneral storage, Class FV commodities over 12 ft (3.7 m) up to 20 ft 6.1 m) General storage, Class I, II, and III commodities over 20 ft (6.1 m) up >80tt (9.1 m) 'eneral storage, Class FV commodities over 20 ft (6.1 m) up to 30 ft •U m) •enerai storage, group A plastics < 5ft (1.5 m) General storage, group A plastics over 5 ft (1.5 m) up to 20ft (6,1 m) -emTal storage, group A plastics over 20 ft (6.1 m} up to 25 ft (7.6 i) 0, 0, o, 0, 0, o, o, o, o, 0, o, 0, o, o, o, 50, or 50, or 50, or 50, or 50, or 50, or 50, or 50, or 50, or 50, or 50, or 50, or 50, or 50, or 50, or 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 250 500 250 250 500 500 500 500 500 500 500 250 500 500 30 60-90 90-120 90 90 90 90 120 90 120 120 150 90 120 150 SI units, 1 gpm = 3.785 L/min. 9 Edition TECHNICAL REFERENCE #& 2001 CALIFORNIA FIRE CODE 8102.6.1 8103.2 conditions, the chief is authorized to require additions] fire protection as required for special hazards in Section 1001.9. Specifications for fire apparatus access roads shall be in accor- dance with Section 902.2. 8102,6.2 Access doors. 8102.6.2.1 General. When building access is required by Table 81-A, fire department access doors shall be provided in accor- dance with Section 8102.6.2. Access doors shall be accessible without the use of a ladder. 8102.6.2.2 Number of doors required. One or more access doors shall be provided in each 100 lineal feet (30 480 mm), or major fraction thereof, of the exterior walls which face required access roadways. 8102.6.2.3 Door size and type. Access doors shall not be less than 3 feet (914 mm) in width and 6 feet 8 inches (2032 mm) in height. Roll-up doors shall not be used unless approved. 8102.6.2.4 Locking devices. Only approved locking devices shall be used. 8102.7 Smoke and Heat Removal. 8102.7.1 General. When smoke and heat removal are required by Table 81 -A, smoke and heat vents shall be provided in accor- dance with Section 8102.7. EXCEPTIONS: 1. When the installation of smoke and heat vents is determined by the chief to be impractical, mechanical smoke-remov- al systems are allowed to be provided in accordance with UFC Stan- dard 81-3. 2. Frozen food storage classified as a Class I or Class II commodity is not required to be provided with smoke and heat vents or mechanical smoke removal when protected by an automatic sprinkler system. 8102.7.2 Types of vents. Smoke and heat vents shall be approved and shall be labeled to indicate compliance with nationally recog- nized standards. See Article 90, Standards f.1.2, i.2.1 and u.1.12. Smoke and heat vents shall be operated automatically by activa- tion of any one of the following; 1. An approved fixed-temperature heat-responsive device rated between 100 and 200°F (56 and llTc) above estimated ambient temperatures, 2. An approved rate-of-rise device, or 3. Approved heat-sensitive glazing designed to shrink and drop out of the vent opening. The heat-responsive device shall be listed and labeled. Smoke and heat vents shall have the capability of being opened by an ap- proved manual operation. 8102.7.3 Vent dimensions. The effective venting area shall not be less than 16 square feet (1,49 m2) with no dimension less than 4 feet (1219 mm), excluding ribs or gutters having a total width not exceeding 6 inches (152.4 mm). 8102.7.4 Vent locations. Smoke and heat vents shall be located in accordance with Table 81-B. Vents shall be located 20 feet (6096 mm) or more from lines of adjacent properties and 10 feet (3048 mm) or more from occupancy separation walls separating other high-piled storage areas. Vents shall be uniformly located within the roof area above high-piled storage areas. 8102.8 Curtain Boards. 8102.8.1 General. When curtain boards are required by Table 81-A, curtain boards shall be provided in accordance with Sec- tion 8102.8. 8102.8.2 Construction, Curtain boards shall be constructed of sheet metal, lath and plaster, gypsum wallboard, or other approved materials which provide equivalent performance that will resist the passage of smoke. Joints and connections shall be smoke tight. 8102.8.3 Location and depth. The location and depth of curtain boards shall be in accordance with Table 81-B, 81Q2.9 Hose Stations and Hose Connections. 8102.9.1 Small hose stations. When small hose valves and sta- tions are required by Table 81-A, approved l!/2-inch (38.1 mm) hose valves shall be provided at approved locations. When re- quired by the chief, hose, nozzles, hose racks, and cabinets or cov- ers shall be provided. See UFC Standards 81-1 and 81-2. 8102.9.2 Fire department hose connections. When exit pas- sageways are required by the building code for egress, a Class I standpipe system shall be provided in accordance with the Build- ing Code. See UBC Standard NO TAG. 8102.10 Aisles. 8102.10.1 General. Aisles providing access to exits and fire de- partment access doors shall be provided in high-piled storage areas exceeding 500 square feet (46.45 m2) in accordance with Section 8102.10. For aisles separating storage piles or racks, see also UFC Standards 81-1 and 81-2 and Article 88. EXCEPTION; Where aisles arc precluded by rack storage sys- tems, alternate methods of access and protection are allowed when ap- proved. 8102.10.2 Width. 8102.10.2.1 General. Aisle width shall be in accordance with Section 8102.10.2. EXCEPTIONS: 1. Cross aisles used only for employee access be- tween aisles shall be 24 inches (609.6 mm) or more in width, 2. Aisles separating shelves classified as shelf storage shall be 30 inches (762 mm) or more in width. 8102.10.2.2 Sprinklered buildings. Aisles in sprinklered buildings shall be 44 inches (1117.6mm) or more in width. Aisles shall be 96 inches (2438.4 mm) or more in width in high-piled storage areas exceeding 2,500 square feet (232.26 m2) in area and designated to contain high-hazard commodities. Aisles shall be 96 inches (2438.4 mm) or more in width in pub- lic accessible areas where mechanical stocking methods are used. 8102.10.2.3 Nonsprinklered buildings. Aisles in nonsprin- klered buildings shall be 96 inches (2438,4 mm) or more in width. 8102.10.3 Clear height. The required aisle width shall extend from floor to ceiling. Rack structural supports and catwalks are al- lowed to cross aisles at a height 6 feet 8 inches (2032 mm) or more above the level of the finished floor, provided that such supports do not interfere with fire department hose stream trajectory. 8102.10.4 Dead ends. Dead end aisles shall be in accordance with the Building Code. 8102.11 Portable Fire Extinguishers. Portable fire extinguish- ers shall be provided in accordance with UFC Standard 10- ]. SECTION 8103 — SOLID-PILED AND SHELF STORAGE 8103.1 General. Shelf storage and storage in solid piles, solid piles on pallets and binbox storage in binboxes not exceeding 5 feet (1524" mm) in any dimension shall be in accordance with Sections 8102 and 8103. • -- 8103.2 Fire Protection. I 1-245 TECHNICAL REFERENCE #9 1997 UNIFORM FIRE CODE STANDARD 82-1 protection shall be installed to prevent damage due to vibration or abrasion. At each point where piping passes through sheet metal or a structural member, a rubber grommet or equivalent protection shall be installed to prevent chafing. (c) Fuel line piping which must pass through the floor of a vehicle shall be installed to enter the vehicle through the floor directly beneath, or adjacent to, the container. If a branch line is required, the tee connection shall be in the main fuel line under the floor and outside the vehicle. (d) When liquid service lines of two or more individual containers are connected together, a spring loaded backflow check valve or equivalent shall be installed in each of the liquid lines prior to the point where the liquid lines tee together to prevent the transfer of LP-Gas from one con- tainer to another, (e) Exposed parts of the piping system shall either be of corrosion-resistant material or adequately protected against exterior corrosion. (f) Piping systems, including hose, shall be tested and proven free of leaks at not less than normal operating pressure. (g) There shall be no fuel connection between a tractor and trailer or other vehicle units. (h) A hydrostatic relief valve shall be installed in each section of piping (including hose) in which liquid LP-Gas can be isolated between shutoif valves so as to relieve to a safe atmosphere the pressure which could develop from the trapped liquid. This hydrostatic relief valve shall have a pressure setting not less than 400 psig (2.8 MPa gauge) or more than 500 psig (3,5 MPa gauge), 3-4.2.9 Equipment Installation. (a) Installation shall be made in accordance with the manufacturer's recommendations and, in the case of listed or approved equipment, it shall be installed in accordance with the listing or approval. (b) Equipment installed on vehicles shall be considered a part of the LP-Gas system on the vehicle and shall be protected against vehicular damage in accordance with 3-6.2,6(a), (c) The gas regulator and the approved automatic shutoff valve shall be installed as follows: (1) Approved automatic pressure reducing equipment, properly secured, shall be installed between the fuel supply container and the carburetor to regulate the pressure of the fuel delivered to the carburetor. (2) An approved automatic shutoff valve shall be provided in the fuel system in compliance with 3-6.2.4(d). (d) Vaporizers shall be securely fastened in position. 3-6.2.10 Marking, Each over-the-road general purpose vehicle powered by LP-Gas shall be identified with a weather-resistant diamond shaped label located on an exte- rior vertical or near vertical surface on the lower right rear of the vehicle (on the trunk lid of a vehicle so equipped, but not on the bumper of any vehicle) inboard from any other markings. The label shall be approximately 4-% in, (120 mm) long by 3-'/« in. (83 mm) high. The marking shall consist of a border and the letters "PROPANE" [1 in. (25 mm) minimum height centered in the diamond] of silver or white reflective luminous material on a black background. (See Figure 3-6.2. JO.) Figure 3-6.2.10 Example of Vehicle Identification Marking. 3-6.3 Industrial (and Forklift) Trucks Powered by LP-Gas. 3-6.3.1 This subsection applies to LP-Gas installation on industrial trucks (including forklifl trucks) both to propel them and to provide the energy for their materials handling attachments. LP-Gas fueled industrial trucks shall comply with NFPA 505, Firesafety Standard for Powered Industrial Trucks. 3-6.3.2 ASME and DOT fuel containers shall comply with 3-6.2,2 and 3-6.2.3(a)(l) through (7). (a) Portable containers may be designed, constructed, and fitted for filling in either the vertical or horizontal position, or if of the portable universal type (see 2- 3-4.2(c}(2)], in either position. The container shall be in tht appropriate position when filled or, if of the portable universal type, may be loaded in either position, provided: (1) The fixed level gauge indicates correctly the maxi- mum permitted filling level in either position, (2) The pressure relief valves are located in. or con- nected to, the vapor space in either position. 3-6.3.3 The container relief valve shall be vented upward within 45 degrees of vertical and otherwise comply with 3-6.2.6(i). 3-6.3.4 Gas regulating and vaporizing equipment shall comply with 3-6.2.4(b)(l) through (5) and 3-6.2.4(c), (d), and (e). i 3-63.5 Piping and hose shall comply with 3-6.2.5(a) through (d) except that hose 60 in. (1.5 m) in length or less need not be of stainless steel wire braid construction. 3-6-3.6 Industrial trucks (including forklift trucks) pow- ered by LP-Gas engine fuel systems shall comply as to operation with NFPA 505, Firesafety Standard for Powered Industrial Trucks, and with the following: (a) Refueling of such trucks shall be accomplished as follows: (I) Trucks with permanently mounted containers shall be refueled out-of-doors. 2-539 STANDARD 82-1 1997 UNIFORM FIRE CODE (2) Exchange of removable fuel containers preferably should be done out-of-doors, but may be done indoors. If done indoors, means shall be provided in the fuel piping system to minimize the release of fuel when containers are exchanged, using one of the following methods: a. Use of an approved quick-closing coupling (a type closing in both directions when uncoupled) in the fuel line, or b. Closing the shutoff valve at the fuel container, and allowing the engine to run until the fuel in the line is exhausted, (b) LP-Gas fueled industrial trucks may be used in build- ings or structures as follows: (1) The number of fuel containers on such a truck shall not exceed two. (2) With the approval of the authority having jurisdic- tion, industrial trucks may be used in buildings frequented by the public, including the times when such buildings are occupied by the public. The total water capacity of the fuel containers on an individual truck shall not exceed 105 Ib (48 kg) [nominal 45 Ib (20 kg) LP-Gas capacity). (3) Trucks shall not be parked and left unattended in areas occupied by or frequented by the public except with the approval of the authority having jurisdiction. If so left, the fuel system shall be checked to be sure there are no leaks and that the container shutoff valve is closed. (4) In no case shall industrial trucks be parked and left unattended in areas of excessive heat or near sources of ignition. 3-6.4 General Provisions for Vehicles Having Engines Mounted on Them (Including Floor Maintenance Ma- : tines). 3-6,4.1 This subsection includes provisions for the instal- ation of equipment on vehicles to supply LP-Gas as a fuel Tor engines mounted on these vehicles. The term "vehicles" .ncludes floor maintenance and any other readily portable uobile unit, whether the engine is used to propel it or is counted on it for other purposes. 1-6.4.2 Gas vaporizing, regulating and carburetion equip- ment to provide LP-Gas as a fuel for engines shall be nstalled in accordance with 3-6.2.8 and 3-6.2.9. (a) In the case of industrial trucks (including forklift rucks) and other engines on vehicles operating in buildings tther than those used exclusively to house engines, an ;pproved automatic shutoff valve shall be provided in the uel system in compliance with 3-6.2.4(d). (b) The source of air for combustion shall be completely solated from the driver and passenger compartment, venti- ating system or air conditioning system on the vehicle. -6.4.3 Piping and hose shall comply with 3-6.3.5. -6.4.4 Non-self-propelled floor maintenance machinery loor polishers, scrubbers, buffers) and other similar porta- le equipment shall be listed and comply with 3-6.4.4(a) ndfb). (a) The provisions of 3-6.3.2 through 3-6.3.5 and •6.3.6(a} and (b) shall apply. (b) The storage of LP-Gas containers mounted or used on such machinery or equipment shall comply with Chapter (1) A label shall be affixed to the machinery or equip- ment, with the label facing the operator, denoting that the container or portion of the machinery or equipment con- taining the LP-Gas container, must be stored in accordance with Chapter 5, 3-6,5 Engine Installation Other than on Vehicle. 3-6,5,1 Stationary engines and gas turbines installed in buildings, including portable engines used in lieu of, or to supplement, stationary engines, shall comply with NFPA 37, Standard for the Installation and Use of Stationary Combustion Engines and Gas Turbines* and the applicable provisions of Chapters 1 and 2 and Section 3-2 of this standard. 3-6.5.2 Portable engines, except as provided ia 3-6.4.1, may be used in buildings only for emergencies and the following shall apply: (a) The capacity of the LP-Gas containers used with such engines and the equipment used to provide fuel to them shall comply with the applicable provisions of Section 3-4, (b) An approved automatic shutoff valve shall be provid- ed in the fuel system in compliance with 3-6.2. 4(d). Atmos- pheric type regulators (zero governors) used for portable engines of 1 2 horsepower or less with magneto ignition and used exclusively outdoors shall be considered as in compli- ance with 3-6.2.4(d). (c) Provision shall be made to supply sufficient air for combustion and cooling. Exhaust gases shall be discharged to a point outside the building, or to an area in which they will not constitute a hazard. 3-6.5,3 Piping and hose shall comply with 3-6.2.5(a) through (d). 3-6.5.4 Gas regulating, vaporizing, and carburetion equip- ment shall comply with 3-6.2.4(b)(I) through (5), 3-6.2.4(c) and 3-6.2.4(e). 3-6.5.5 Installation of piping, carburetion, vaporizing, and regulating equipment for the engine fuel system shall com- ply with 3-6.2.8 and 3-6.2.9. 3-6.5.6 Engines installed or operated exclusively outdoors shall comply with 3-6.5.3, 3-6.5.4 and 3-6.5. S. (a) Atmospheric type regulators (zero governor) shall be considered as automatic shutoff valves only in the case of completely outdoor operations, such as farm tractors, con- struction equipment or similar outdoor engine applications. 3-6.5.7 Engines used to drive portable compressors shall be equipped with exhaust system spark arresters and shield- ed ignition systems. 3-6.6 Garaging of Vehicles. 3-6.6.1 Vehicles with LP-Gas engine fuel systems mounted FIN. CLG. H6T.. m O3 O tp 70moz ^U> GF££ ™>v^ POLICYHOLDER COPY P.O. BOX 420807, SAN FRANCISCO, CA 94142-0807 COMPENSATION INSURANCE FUND CERTIFICATE OF WORKERS' COMPENSATION INSURANCE ISSUE DATE: 09-09-2003 CONTRACTORS STATE LICENSE BOARD WORKERS COMPENSATION UNIT P O BOX 26000 SACRAMENTO CA 95826 GROUP: POLICY NUMBER: 1689832-2003 CERTIFICATE ID: 3 CERTIFICATE EXPIRES: 08-01-2004 08-01-2003/08-01-2004 LICENSE NUMBER: 08-01-2003 INCEPTIOH DATE: SD This is to certify that we have issued a valid Worker's Compensation insurance policy in a form approved by the California Insurance Commissioner to the employer named below for the policy period indicated. This policy is not subject to cancellation by the Fund except upon 10 days advance written notice to the employer. We will also give you 10 days advance notice should this policy be cancelled prior to its normal expiration. This certificate of insurance is not an insurance policy and does not amend, extend or alter the coverage afforded by thepolicies listed herein. Notwithstanding any requirement, term or condition of any contract or other document with respect to which this certificate of insurance may be issued or may pertain, the insurance afforded by the policies described herein is subject to all the terms, exclusions, and conditions, of such policies. AUTHORIZED REPRESENTATIVE PRESIDENT EMPLOYER'S LIABILITY LIMIT INCLUDING DEFENSE COSTS: $1,000,000 PER OCCURRENCE, ENDORSEMENT #1600 - TERRY MATSEN PRESIDENT,SEC - EXCLUDED. ENDORSEMENT #1600 - MARK WENTWORTH VICE PRESIDENT,TRES - EXCLUDED. EMPLOYER CSI GENERAL INC 1529 GRAND AVE STE A SAN MARCOS CA 92069 SCIF 10262E Accept this certificate only If you see a faint watermsfk that reads "OFFICIAL STATE FUND DOCUMENT" [RMA.SD] PRINTED: 0949-2003PAGE 1 OF1 s if> U. iS** UJO n o UJ oi3si3cocogo . ISO (-. '• „ct: str p. UJ 0.S UJ a. < M UJ o"-12n:£ u < _<f Li_-I * QJ O £ >j j;oP 00 •z. G uSO 3. QZ; O uCL ilJ V} •'. J •fl * P V -t Vl (i n H ° ^^ ^> A Ona: c.. 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