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048-23 - Lincoln Construction, Inc. - Supplement / Change Order 8
AIA Document G701 — 2017 Change Order PROJECT: (Nance and address) CONTRACT INFORMATION: CHANGE ORDER INFORMATION: Port Orchard City Hall Building Contract For: Construction Change Order Number: 008 Improvements 216 Prospect Street Date: May 23, 2023 Date: January 9, 2025 Port Orchard, WA 98366 OWNER: (Name and address) ARCHITECT: (Name and address) CONTRACTOR: (Nance and address) City of Port Orchard Rice Fergus Miller, Inc. Lincoln Construction Inc. 216 Prospect Street 275 5rh Street, Suite 100 11803 101 st Ave E, Suite 201 Port Orchard, WA 98366 Bremerton, WA 98337 Puyallup, WA 98373 THE CONTRACT IS CHANGED AS FOLLOWS: (Insert a detailed description of the change and, if applicable, attach or reference specific exhibits. Also include agreed upon adiusments attributable to exectcied Construction Change Directives.) Change Order Proposal: COP 48 — Entry Canopy Modification <$12,783.00> COP 49 — Site Lighting to Connect to New Lighting Control $7,935.00 COP 50 — Pump House Roof Repair $3,692.00 COP 51R1 — Miken Footing Work $3,528.00 COP 52 — NAS Panel $13,987.00 The original Contract Sum was $ 8,245,941.00 The net change by previously authorized Change Orders $ 460,518.34 The Contract Sum prior to this Change Order was $ 8,706,459.34 The Contract Sum will be increased by this Change Order in the amount of $ 16,359.00 The new Contract Sum including this Change Order will be $ 8,722,818.34 The Contract Time will be increased by Zero (0) days. The new date of Substantial Completion will be NOTE: This Change Order does not include adjustments to the Contract Sum or Guaranteed Maximum Price, or the Contract Time, that have been authorized by Construction Change Directive until the cost and time have been agreed upon by both the Owner and Contractor, in which case a Change Order is executed to supersede the Construction Change Directive. NOT VALID UNTIL SIGNED BY THE ARCHITECT, CONTRACTOR AND OWNER. Rice Fergus Miller, Inc ARCHITECT (Firm name) SIGNATURE Dean Kellv PRINTED NAME AND TITLE January 9, 2025 DATE Lincoln Construction CONTRACTOR (Firm name) -74m6t d Ramk`i SIGNATURE Thomas Romberg Project Manager PRINTED NAME AND TITLE 01/09/2025 DATE City of Port Orchard OWNER •cn nana� SIGN h E PRINTED NAME AND TITI E DATE AIA Document G701 — 2017. Copyright @ 1979, 1987, 2000 , 2001 and 2017. All rights reserved. "The American Institute of Architects," "American Institute of Architects," "AIA," the AIA Logo, and "AIA Contract Documents" are trademarks of The American Institute of Architects. This document was produced at 18:26:54 ET on 01/09/2025 under Order No.3104238988 which expires on 02/28/2025, is not for resale, is licensed for one-time use only, and may only be used in accordance with the AIA Contract Documents° Terms of Service. To report copyright violations, e-mail docinfo@aiacontracts.com. User Notes: (3B9ADA5C) CITY OF PORT ORCHARD Authorization for Change Order No. 8 Date: 1/9/2025 Contractor: Lincoln Construction, Inc. Project: City Hall Renovation 118031015L Ave. E. Suite 201 Contract / Job # C048-23 Puyallup, WA 98373 THIS CHANGE ORDER AUTHORIZES (add description). Additional Work/Construction Change Directives: COP 048- Entry Canopy Modification per PR 033. ($12,783.00) COP 049- Site Lighting Control per PR 034. $7,935.00 COP 050- Pump house roof repairs, removal of the parapet wall. $3,692.00 COP OS1111- Downspout connections and discovered footing in lower lot. $3,528.00 COP 052- Added sub panel at FACP per PR 035. $13,987.00 Total Change Order $16,359.00 w/o tax. See above COP's, RFI's and AIA for breakdown. In all other respects the Underlying agreement between the parties shall remain in full force and effect, amended as set forth herein, but only as set forth herein. Contract History Amount Sales Tax Total Date Appvd by Original Contract $8,245,941.00 $766,872.51 $9,012,813.51 13-Jun-22 Council Change Order 1 $44,711.00 $4,158.12 $48,869.12 11-Oct-23 PW Director Change Order 2 $92,579.00 $8,609.85 $101,188.85 12-Dec-23 Council Change Order 3 $44,925.00 $4,178.03 $49,103.03 19-Dec-23 Council Change Order 4 $24,044.00 $2,236.09 $26,280.09 5-Mar-24 PW Director Change Order 5 $125,145.00 $11,638.49 $136,783.49 28-May-24 Council Change Order 6 $130,275.34 $12,115.61 $142,390.95 13-Aug-24 Council Change Order 7 ($1,161.00) -$107.97 -$1,268.97 28-May-24 PW Director Change Order 8 $16,359.00 $1,521.39 $17,880.39 09-Jan-25 PW Director Total Contract $8,722,818.34 $811,222.11 $9,534,040.45 I have reviewed the Change Order information above and certify that to the best of my knowledge descriptions and costs are true and accurate. Contractor Approval Signature Thomas Romberg -Project Manager Printed Name & Title ar2- ��2 Public Works Director / r C X;t� Printed Name Change Orders that do not exceed 10%, with a maximum of $50,000, of either legally authorized budget limit or contract Approved: amount established by City Council can be approved by the Public Works Director. Change Orders that do not exceed 10%, with a maximum of Attest: $100,000, of either legally authorized budget limit or contract amount established by City Council are to be approved by the Mayor. Change Orders over $100,000 or exceed a total of 10% require Council Action. Mayor City Clerk Council Approval Date CHANGE PROPOSAL REQUEST To: Port Orchard City Hall Attn.: Jason Ritter-Lopatowski Lincoln Construction COP NO: 48 CCD/PR No.: PR 033 Date: 10/24/2024 Proj ect: LCI Project No.: 1257 A. TOTAL MATERIAL/EQ BASE COST $ (2,900.00) B. TOTAL LABOR COST $ (4,101.30) SUBTOTAL $ (7,001.30) C. OVERHEAD AND PROFIT (15%) $ - SUBTOTAL $ - D. SUBCONTRACT COST $ (5,782. E. OVERHEAD AND PROFIT ON SUBCONTRACT COST (12%) $ - SUBTOTAL $ (5,782.00) H. BOND (GC ONLY) SUBTOTAL $ - TOTAL CHANGE PROPOSAL COST I $ 12 783 CONTRACT TIME ADJUSTMENT DAYS TBD Lincoln Construction, Inc. CONTRACTOR 10/24/2024 DATE %Ciarmtad �a�„�vc y Tom Romberg U 01114.00 g3.3 (2) Lincoln Construction To: Jason Ritter-Lopatowski RFM Architects Re: Port Orchard City Hall Please provide a change order for the following work: Entry Canopy Modification Per PR 033 Change Order Request Date: 10/24/2024 COP #: 048 Owner COP/CCD/PR #: PR 033 Total price per attached breakdown: $ (12,783) State and local sales tax: includ( X not included Extension of time: TBD We have proceeded with the work Work will not proceed without formal authorization This price is good for 5 days from the above date, after which this request is subject to revision Sincerely, %(monad R--kv-;Dw ct %W"/M Lincoln Construction CHANGE ORDER REQUEST SUMMARY Port Orchard City Hall COP: REV:��DATE: DESCRIPTION: Owner COP/CCD/PR #: PR 033 Entry Canopy LABOR HOURS RATE TOTAL PROJECT MANAGER X 99.58 = $ SUPERINTENDENT X 98.35 = $ ASSISTANT SUPERINTENDENT X 97.65 = $ CARPENTER -42 X 97.65 = $ (4,101.30) LABORER X 97.65 = $ X $ X _ $ - SUBTOTAL $ (4,101.301 SMALL TOOL ALLOWANCE @ 0.0% $ SUBTOTAL $ (4,101.30) MARK-UP @ 0.0% $ TOTAL LABOR $ (4,101.30) MATERIALS/EQUIPMENT PHASE CODE Concrete-Rebar Vac Truck Painting SUBTOTAL USE TAX ON MATERIALS AND EQUIPMENT MARK-UP @ TOTAL MATERIAL/EQUIPMENT UNITS RATE 1 X 1 X (1,000.00) 1 X (1,100.00) 1 X (800.00) 0.0% _ $ (1,000.00) _ $ (1,100.00) _ $ (800.00) $ (2,900.00) SUBCONTRACTS PHASE CODE UNITS RATE 1 X = $ 1 X 0.00 = $ - AAA Welding 1 X 5,268.00 = $ 5,268.00 FT Masonry 1 X (2,150.00) = $ (2,150.00) Pile King 1 X (8,900.00) = $ (8,900.00) 1 X = $ X = $ X = $ SUBTOTAL $ (5,782.00) MARK-UP @ Sub Direct Cost 0 0.0% Less Sub Fee $ TOTAL SUBCONTRACTS $ (5.782.001 PROPOSAL SUBTOTAL $ (12,783.30) BONDS/Liability/Builders Risk/B&O Tax 0.000% $ PROPOSAL TOTAL $ (12,783.30) Updated: 9/30/2011 Page 4 of 6 22610 - 85th PL. South - Kent. WA. 98031 - 253-854-4701 fax 253-859-8934 - Ernail Zacli@aaaweldino,,cs.com aaaweldingcs.com Date 5/22/2023 Company Lincoln Construction Attn: Estimating Department Project Part Orchard City Hall The following is a proposal to furnish shop drawings for approval, fabricate, shop prime and .Deliver F.O.B. the items listed below. Addendums INCLUSIONS Entry Canopy (Per Det. I-81S20.01) 2— Posts HSS5x5x'/4" 3—HSS6x4x'/4" 2—HSS6x6x'/4" 2—Clips L 4 x 4 x %2" 2— Clips L2x2x'/4" 1— Lintel L 3 x 3 x 3/ 16" 22 — L 3 I/2" x 2 %z" x'/4" x 5'-0 ASSUMED Det. 3/S50.00 Note: All Material Galvanized and Shipped Loose for Field Weld Price: $7,957 Note, base bid good for 30 days from bid date. ***Due to current market conditions quotes and orders are subject to price and availability at time of approved shop drawings* Excluded from our proposal are the following: Bollards, Cast Iron, Non-ferrous metals, Gauge Metal, Simpson hardware, Field measurements and installation, Inspection costs, Concrete anchors, Epoxy anchors, Bolts to and thru wood, Stainless steel, Metal decking, Galvanizing [ unless noted.], Engineering, Downspouts, Zinc -rich primer, Signposts, Finish paint, Material escalation froze time of hid to time of approved shop drawings, Anything not on inclusion list, Wash. state sales tax. Thank -you Zachary Hall 22610 - 85th PL. South - Kent, WA. 98031 - 253-854-4701 fax 253-859-8934 - Email Zach@aaaweldingcs.com Date 10/16/2024 Company Lincoln Construction Attn: Estimating Department Project Port Orchard City Hall The following is a proposal to furnish shop drawings for approval, fabricate, shop prime and Deliver F.O.B. the items listed below. Addendums INCLUSIONS Aluminum Entry Canopy (Per PR-33) HSS 8 x 2 x 3/16" Fascia, HSS 6 x 2 x 3/16" Struts, L 3 x 3 x 3/16" Ledger Angle, Sag Rod Connection Plates, Canopy Connection Plates. (ALL MATERIAL AL 6061, ALL SIZES ARE ASSUMED AND NOT SPECIFIED IN PR-33 DRAWINGS) 2 — 5/8" Sag Rods with #2 Clevis (Galvanized) 4 — Connection Plates PL '/2" x 5" (Galvanized) 2— Lintel Angles L 3 x 3 x 3/16" (Galvanized) Appx 96 SQ FT - 18 GA B-36 Roof Deck (Offering ASC, Excluding PBR Deck) Note: Final Color of Canopy to be Clear Powder Coat Price: $$13,225 Note, base bid good for 30 days from bid date. ***Due to current market conditions quotes and orders are subject to price and availability at time of approved shop drawings*** Excluded from our proposal are the following: Bollards, Cast Iron, Non-ferrous metals, Gauge Metal, Simpson hardware, Field measurements and installation, Inspection costs, Concrete anchors, Epoxy anchors, Bolts to and thru wood, Stainless steel, Metal decking, Galvanizing [ unless noted], Engineering, Downspouts, Zinc -rich primer, Signposts, Finish paint, Material escalation from time of bid to time of approved shop drawings, Anything not on inclusion list, Wash. state sales tax. Thank -you Zachary Hall CD 4S D ►�t _ McDowel.i NW Pile Il "g, Inc, Bid Confirmation and Agreement - Pipe Piles CUSTOMER Lincoln Construction Inc Job #: 7214 DATE; 31-Ma -2023 ADDRESS 11803 101st Ave E. Suite 2Q1 Puyallup WA 98373 PROJECT Port Orchard City Hall LOCATION Prospect Street Port Orchard, WA 98 air furnishing and in falling. pl10s, Pipe pile.i�il ..Gaps :..r .. Based_on pile longths of up to 37 LF lot a tatat f Qtage of up to 296 L.F.- - For additional footage add `per'ft.. 20.i3fl For lesser foetage: deduct per.fi. 34.00 2 rn.'nin;siir7 e x. Schedule 44 wall tl7ickness ;216 : Pipci'rp;'GaIv Ir„2rd Top plrltes inckided• Yes Tn� PIaY� Ssx� :. 518'x8"x$" Field Welded.Top Plate 00 P"ans For furnishing and installing . 24 piles 4`° l.t .. Pipe Pile_w? End Gaps Rased on plie lengt s,.of: up %to.. 37 LF for a total fdotage`of. up to 888 I_ F. _ Farlditional. footage add per ft: `. $24._ (l t r�r iesser fo6tage Eieduct er ft: 16.t�f� , ° r,, _ p _ '�:MOul11� 03. i Schedule. 40 wall thickness 237 H P pry T Vp;; - ' , ai ��isiiz d ffl.. . .s lncll:rdeds Yes Top Piafe. Size.:. _ 5f8"ic8"x8" Field �ltf lded To I'taita i t ,ts' _ �_ �. _ w _ Bid Total 47 90t).[�0 Above price includes: mobilization, ASTIM A53 grade A steel pipe, welded, sl-)hCes. Comments Customer to: mark each pile location with a wood stake mark each pile for cutoff elevation provide firm stable,ground for machine to travel, provide access:to.e.ach Pilo location. for a machine that reaches lust 6` from it's tracks, rernove overhead obstructions. Sid includes: idstall pile, weld splices. cut pile, field welded top plates: ;Load.test up to to lea 3" and 4" Mile. 4".pile 20 Tons: 3" 14 Tons, B d p rice good for 3g days or until material prices change, Sales Tax is not included. TERMS: On Approval of Credit, Net 30 days from job completion date, 2% per month on past due amounts - No Retention. CONDITIONS DE STANDARD QUOTE l) McDowell NW Pile King, Inc., is a non -union company 2) Access to helical locations on suitable ground, 3) One continuous, uninterrupted operation with 1 move-in(s). Standby charges, including obstructions, are $350.041hr. for pin piles, helical piles, or earth anchors. 4) Customer responsible for: a. Any excavation required including excavation for pile cut offs. b. Locating & removal of all obstructions and utilities that interfere with pile operations, both underground & overhead. We are not responsible for any underground utility damage. c. Pile layout with clearly marked center white stakes. We are not responsible for off -center pile due to misplaced stakes or pile movement caused by underground conditions. d. All engineering and testing lab services and permits. e. Street use permits if required and availability of sanitary facilities. 5) NOTE: Any pile drivers without geotechnical inspection is solely at the owner's discretion and convenience. The owner or general contractor agrees to accept full responsibility for the structural performance of any non -inspected pile. 6) Should conditions be encountered in performance of the work which differ from (A) those indicated by the contract documents or soils data furnished to subcontractor, or (B) those ordinarily encountered and generally recognized as inherent in work of the character provided in the contract, an equitable adjustment will be made to recover the resulting costs. 7) All claims relating to this subcontract shall be arbitrated in accordance with the American Arbitration Association's Construction Industry Arbitration Rules. The prevailing party shall be entitled to attorney's fees and cost (to include expert fees). 8) Underground Utility agreement is enclosed, Please sign and return with this bid. 9) Liability Insurance of $3M is included; additional insurance, if required, will be at contractor'sfowner's expense. 10) EXCLUSIONS TO BID AGREEMENT: of ail '€ 1� 'ts i'a tiri� : y 66l it rl clef i)a) 0101 tiers *o va aCGavafio; aiid Sure fay :i]thers.., MCDOWELL NW PILE FLING, INC. $c iy 4,0" Ext. Signature of Authorized Representative: X Date: Print Name 1 Title: X Taxable F1Non-Taxable "PLEASE SIGN AND PLACE AN "x" IN TAXABLE STATUS - RETURN ONE COPY" PIN (PIPE) PILE FOUNDATIONS ! RETAINING WALLS 1 MANTA RAY EARTH ANCHORS 1 HELICALS 18905 84TH AVENUE S., DENT, WA 98032 (426) 251-8536 FAX -(426) 251-6940 Podand (663) 283-8920 WEB - wvm.pilakingxom ILAN Ill's ok la"201N N UNDERGROUND UTILITY AGREEMENT The owner or general contractor agrees to locate utilities and lay out pile/anchor locations. All underground utilities within ten feet of piling or shoring elements shall be pot -holed or removed prior to pile or anchor installation. All side sewers and storm lines shall be located, cut and capped outside of the property line and McDowell NW Pile King, Inc. shall be allowed to inspect this work or be provided with suitable pictures to demonstrate the location of the abandoned utilities prior to mobilization. If there are side sewers or storm lines within 10 feet that cannot be abandoned, or there are sewers and storm lines within 10 feet in the ROW, the Owner or General Contractor shall positively identify the location of the utility, inspect the condition of it, and provide proof to McDowell NW Pile King, Inc. that the utility is not in conflict with the location of pile/anchor or shoring elements. A copy of the video shall be shared with McDowell NW Pile King, Inc. McDowell NW Pile King, Inc. may refuse in its sole discretion to start work until all sewer and utility lines are located by owner or general contractor. For City of Seattle properties: In the event that sewer or storm lines in the ROW are located within ten feet of pile/anchor or shoring elements a copy of the video showing the pre -project condition shall also be sent to SPU (ATTN: Jeff Williams, P.O. Box 34018, Seattle, WA 98124-4018) prior to the pre -construction meeting. If owner or general contractor fails to perform such work or to confirm all sewer and utility locations, then McDowell NW Pile King, Inc. may, at is sole option but without obligation, undertake such activities and will be compensated by owner or general contractor for such work on a time and materials basis at its regular rates then in effect. If any underground obstructions or utilities are encountered during installation it shall be a changed condition and the owner or general contractor agrees to equitably adjust the contract to compensate McDowell NW Pile King, Inc. for any and all costs of any nature that it incurs connected in any way with or resulting from such changed conditions. The owner or general contractor further agrees that in the event any utilities not located by the owner or general contractor are damaged, or if owner or general contractor fails to perform its obligations herein, the owner or general contractor (jointly and severally) will be responsible for any repair costs and further agrees to indemnify, defend and hold McDowell NW Pile King, Inc. harmless from any and all third party claims against McDowell NW Pile King Inc. relating in any way to utilities or changed conditions, and all expenses, costs, damages, claims, actions, rights, remedies, liabilities or obligations associated therewith, or arising from the failure of owner or general contractor to locate sewer lines or other utilities or to comply with the terms set forth herein. Job Name: Port Orchard City Hall Jobsite Address: 216 Prospect Street Port Orchard, WA 99366 Date: Signature (Owner or General Contractor) 97Date: 31-May-2023 Signature (McDowell NW Pile King, Inc.) PIN (PIPE) PILE FOUNDATIONS ! RETAINING WALLS / MANTA RAY EARTH ANCHORS ! HELICALS 18905 84TH AVENUE S., KENT, WA 98032 (425) 251-8535 FAX - (425) 251-5940 Portland (503) 283 8920 Web: www.pileking.corn McDowell NW Pile King, Inc. Project Information Sheet Contractor/Customer Name: Mailing Address: City: Phone #: Project Manager: PM Email: Project Name: Project Address: City: State: State: PM Phone #: Job or P❑ #.- Zip: Zip: Property Description/Parcel #: ❑ Single Family -New Construction ❑ Single -Family -Remodeling ❑ Commercial Project Type: ❑ Multi -Family -New Construction ❑ Multi -Family -Remodeling ❑ Public Works Forth is project you Genera! Contractor ❑ Sub to a Sub 115uia to General are the: Disregard if Property Owner Taxable: ❑ Yes ❑ No UBI # Special Payroll for this project (if required): ❑ Prevailing Wage ❑ Certified Payroll Property ❑wners: Lien Notice Type: ❑ Notice t❑ Owner ❑ Notice to Customer McDowell NW Pile King, Inc. Bid Confirmation and Agreement - Pipe Piles CUSTOMER Lincoln Construction, Inc. Job #: 7214 DATE: 1-Oct-2024 ADDRESS 11803 101st Ave E. Suite 201 Puyallup, WA 98373 PROJECT Port Orchard City Hall LOCATION 216 Prospect Street Port Orchard, WA 98366 For furnishing and installing 24 piles 4" I.D. Pipe Pile w/ End Caps Based on pile lengths of up to 37 LF for a total footage of up to 888 L.F. For additional footage add per ft. $24.00 For lesser footage deduct per ft. $16.00 21' minimum ea. Schedule: 40 wall thickness .237" PipeType: Galvanized Top plates included: Yes Top Plate Size: 5/8"x8"x8" Field Welded Top Plate per Plans Bid Total $39,000.00 Above price includes: mobilization, ASTM A53 grade A steel pipe, welded splices. Comments: Customer to: mark each pile location with a wood stake, mark each pile for cut off elevation, provide firm stable ground for machine to travel, provide access to each pile location for a machine that reaches Oust 6' from it's tracks, remove overhead obstructions. Bid includes: install pile, weld splices, cut pile, field welded top plates. Load test up to lea 4" pile. 4" pile 20 Tons. Bid price good for 30 days or until material prices change. Sales Tax is not included. TERMS: On Approval of Credit, Net 30 days from job completion date, 2% per month on past due amounts - No Retention. CONDITIONS OF STANDARD QUOTE 1) McDowell NW Pile King, Inc., is a non -union company 2) Access to helical locations on suitable ground. 3) One continuous, uninterrupted operation with 1 move-in(s). Standby charges, including obstructions, are $350.00/hr. for pin piles, helical piles, or earth anchors. 4) Customer responsible for: a. Any excavation required including excavation for pile cut offs. b. Locating & removal of all obstructions and utilities that interfere with pile operations, both underground & overhead. We are not responsible for any underground utility damage. c. Pile layout with clearly marked center white stakes. We are not responsible for off -center pile due to misplaced stakes or pile movement caused by underground conditions. d. All engineering and testing lab services and permits. e. Street use permits if required and availability of sanitary facilities. 5) NOTE: Any pile driven without geotechnical inspection is solely at the owner's discretion and convenience. The owner or general contractor agrees to accept full responsibility for the structural performance of any non -inspected pile. 6) Should conditions be encountered in performance of the work which differ from (A) those indicated by the contract documents or soils data furnished to subcontractor, or (B) those ordinarily encountered and generally recognized as inherent in work of the character provided in the contract, an equitable adjustment will be made to recover the resulting costs. 7) All claims relating to this subcontract shall be arbitrated in accordance with the American Arbitration Association's Construction Industry Arbitration Rules. The prevailing party shall be entitled to attorney's fees and cost (to include expert fees). 8) Underground Utility agreement is enclosed. Please sign and return with this bid. 9) Liability Insurance of $3M is included; additional insurance, if required, will be at contractor's/owner's expense. 10) EXCLUSIONS TO BID AGREEMENT: Note, pile depth is an estimate only and actual pile depths will vary. Excavation and Survey by Others. MCDOWELL NW PILE KING, INC. 944 Ext. 240 Signature of Authorized Representative: X Date: Print Name / Title: X FITaxable FINon-Taxable **PLEASE SIGN AND PLACE AN "X" IN TAXABLE STATUS - RETURN ONE COPY** PIN (PIPE) PILE FOUNDATIONS / RETAINING WALLS / MANTA RAY EARTH ANCHORS / HELICALS 18905 84TH AVENUE S., KENT, WA 98032 (425) 251-8535 FAX - (425) 251-5940 Portland (503) 283-8920 WEB - www.pileking.com v`��16iAMFga��®mil McDOWELL S 1 UNDERGROUND UTILITY AGREEMENT The owner or general contractor agrees to locate utilities and lay out pile/anchor locations. All underground utilities within ten feet of piling or shoring elements shall be pot -holed or removed prior to pile or anchor installation. All side sewers and storm lines shall be located, cut and capped outside of the property line and McDowell NW Pile King, Inc. shall be allowed to inspect this work or be provided with suitable pictures to demonstrate the location of the abandoned utilities prior to mobilization. If there are side sewers or storm lines within 10 feet that cannot be abandoned, or there are sewers and storm lines within 10 feet in the ROW, the Owner or General Contractor shall positively identify the location of the utility, inspect the condition of it, and provide proof to McDowell NW Pile King, Inc. that the utility is not in conflict with the location of pile/anchor or shoring elements. A copy of the video shall be shared with McDowell NW Pile King, Inc. McDowell NW Pile King, Inc. may refuse in its sole discretion to start work until all sewer and utility lines are located by owner or general contractor. For City of Seattle properties: In the event that sewer or storm lines in the ROW are located within ten feet of pile/anchor or shoring elements a copy of the video showing the pre -project condition shall also be sent to SPU (ATTN: Jeff Williams, P.O. Box 34018, Seattle, WA 98124-4018) prior to the pre -construction meeting. If owner or general contractor fails to perform such work or to confirm all sewer and utility locations, then McDowell NW Pile King, Inc. may, at is sole option but without obligation, undertake such activities and will be compensated by owner or general contractor for such work on a time and materials basis at its regular rates then in effect. If any underground obstructions or utilities are encountered during installation it shall be a changed condition and the owner or general contractor agrees to equitably adjust the contract to compensate McDowell NW Pile King, Inc. for any and all costs of any nature that it incurs connected in any way with or resulting from such changed conditions. The owner or general contractor further agrees that in the event any utilities not located by the owner or general contractor are damaged, or if owner or general contractor fails to perform its obligations herein, the owner or general contractor (jointly and severally) will be responsible for any repair costs and further agrees to indemnify, defend and hold McDowell NW Pile King, Inc. harmless from any and all third party claims against McDowell NW Pile King Inc. relating in any way to utilities or changed conditions, and all expenses, costs, damages, claims, actions, rights, remedies, liabilities or obligations associated therewith, or arising from the failure of owner or general contractor to locate sewer lines or other utilities or to comply with the terms set forth herein. Job Name: Port Orchard City Hall Jobsite Address: 216 Prospect Street Port Orchard, WA 98366 Date: Signature (Owner or General Contractor) 94y Z Date: Signature (McDowell NW Pile King, Inc.) 1-Oct-2024 PIN (PIPE) PILE FOUNDATIONS / RETAINING WALLS / MANTA RAY EARTH ANCHORS / HELICALS 18905 84TH AVENUE S., KENT, WA 98032 (425) 251-8535 FAX - (425) 251-5940 Portland (503) 283 8920 Web: www.pileking.com McDowell NW Pile King, Inc. Project Information Sheet Contractor's Information Contractor/Customer Name: Mailing Address: City: Phone #: Project Manager: PM Email: State: Project Info PM Phone #: Zip: Project Name: Job or PO #: Project Address: City: State: Zip: Property Description/Parcel #: ❑ Single Family -New Construction ❑ Single -Family -Remodeling ❑ Commercial Project Type: ❑ Multi -Family -New Construction ❑ Multi -Family -Remodeling ❑ Public Works For this project you ❑ General Contractor ❑ Sub to a Sub ❑ Sub to General are the: Disregard if Property Owner Taxable: ❑ Yes ❑ No UBI # Special Payroll for this project (if required): ❑ Prevailing Wage ❑ Certified Payroll A/P Contact Name: Phone #: A/P Email Address: Billing Method: ❑ E-mail ❑ Billing Software/Type: Property Owner's Information Property Owners: Mailing Address: City: Phone Number: E-mail: Project Manager: Start Date: State: For Pile King Use Only Job Number: Location: ❑ Kent Lien Notice Type: ❑ Notice to Owner ❑ Notice to Customer Zip: ❑ Vancouver FFFinishing Touch Masonry & Restoration Solutions, LLC CHANGE ORDER 1710100th Place S.E., Suite B, Everett, WA 98208 Office 425.948.7837 • Fax 425.948.7838 REQUEST Contractor License FINISTM922MT • www.finishingtouchmasonry.com To: Tom Romberg Date: October 23, 2024 Company: Lincoln Construction, Inc. COR No. 005 Project: Port Orchard City Hall Building Improvements Reference: PR-33 Entry Canopy Revisions & Columns Elimination Work Details New Entry Canopy Revision and Elimination of Brick Base Columns ...................................DEDUCT $2,150 Acknowledged & Signed: Jon A. S erin, Finishing Touch Masonry CHANGE PROPOSAL REQUEST Lincoln Construction To: Port Orchard City Hall COP NO: 49 CCD/PR No.: Date: 11 /4/2024 Proj ect: Attn.: Jason Ritter-Lopatowski LCI Project No.: 1257 A. TOTAL MATERIAL/EQ BASE COST $ B. TOTAL LABOR COST $ - SUBTOTAL Is - C. OVERHEAD AND PROFIT (15%) $ - SUBTOTAL $ - D. SUBCONTRACT COST $ 6,878.46 E. OVERHEAD AND PROFIT ON SUBCONTRACT COST (12%) $ 825.42 SUBTOTAL $ 7,703.88 H. BOND (GC ONLY) $ 231.12 SUBTOTAL $ 231.12 TOTAL CHANGE PROPOSAL COST I $ 7,935 CONTRACT TIME ADJUSTMENT (DAYS)l TBI Lincoln Construction, Inc. 74-" ,fa -kV 0 CONTRACTOR 11 /4/2024 DATE Tom Romberg Approved COPO 11/7/24 0 1114. 00 g3.3 (2) Lincoln Construction To: Jason Ritter-Lopatowski RFM Architects Re: Port Orchard City Hall Please provide a change order for the following work: e Lighting Controls Per PR 034. Total price per attached breakdown State and local sales tax: Extension of time: This price is good for Change Order Request Owner COP/CCD/PR #: Date: COP #: PR 034 11 /4/2024 49 $ 7,935 includ( X not included TBD We have proceeded with the work Work will not proceed without formal authorization 5 days from the above date, after which this request is subject to revision. Sincerely, Lincoln Construction CHANGE ORDER REQUEST SUMMARY Port Orchard City Hall COP: REV: �DATE: DESCRIPTION: Owner COP/CCD/PR #: PR 034 Site Lighting Controls LABOR HOURS RATE TOTAL PROJECT MANAGER X 99.58 = $ SUPERINTENDENT X 98.35 = $ ASSISTANT SUPERINTENDENT X 97.65 = $ CARPENTER X 97.65 = $ LABORER X 97.65 = $ X $ X = $ SUBTOTAL $ SMALL TOOL ALLOWANCE @ 0.0% $ SUBTOTAL $ MARK-UP @ TOTALLABOR MATERIALS/EQUIPMENT PHASE CODE UNITS 1 1 1 1 SUBTOTAL USE TAX ON MATERIALS AND EQUIPMENT MARK-UP @ TOTAL MATERIAL/EQUIPMENT SUBCONTRACTS PHASE CODE UNITS 1 1 DR Monitoring 1 1 1 1 SUBTOTAL MARK-UP @ Sub Direct Cost TOTAL SUBCONTRACTS PROPOSAL SUBTOTAL BONDS/Liability/Builders Risk/B&O Tax PROPOSALTOTAL 15.0% RATE X X X X 0.0% 15.0% RATE 0.00 = $ 6,878.46 = $ 6,878.46 $ 6,878.46 0 12.0% Less Sub Fee $ 825.42 $ 7,703.88 X X X X X X X X 3.000% $ 7,703.88 $ 7,934.99 Updated: 9/30/2011 Page 5 of 7 (D ff MONITORINur NETMRKS, t I C. DIRECT JOB EXPENSES PrOPOSal Backe Attention: Tom Romberg Job: Port Orchard City Hall Backup Proposal #: 12 Description: PR 34 Date: 10/30/2024 S Freight) $140.00 Material Cost S2.160.05 Permit & lnspectian L abor Hours: 28 Insurance Aver. Rate Per Man/Hr.: $122.57 Job Office & Whs. Direct Labor Cost $1431.96 Equipment Direct Job Expense $140.00 Small Tools SU8 TOTAL $5.732.05 Forklift Overhead: 0% $0.00 Non -Productive Labor SUBTOTAL 4w/Overhead} $5,732.05 Engineering & Drafting Profit: 15% $859.81 Lift Houle Office Overhead 5% $286.60 Job Telephone SUB TOTAL (w/Profit &Overhead) $6,878.46 Travel Expense TOTAL PRIME CAST $6,878,46 Jobsite Office Shift Adder SUB CONTRACTORS Material Sales Tax Excavation TOTAL DIRECT J 9ud TOTAL 36,878.46 Bond: 0.0. $0. D0 Sales Tax: 0.0% $0.00 $140.00 TOTAL SELLI 'Note: The above price does not include any Impact or Delay Costs. Authorized Signature Dean Pitsch Jr. We reserve our rights for any Impact or Delay costs incurred. This Propsal may be withdrawn by D&R Monitoring Networks, LLC. if not Dean Pitsch Jr. accepted within 30 days Invoice Terms / Net 30 Days A Finance Charge of 1.5% will be made on past Due Balances. � Phone-253.327-1065 *Email:dean@drmonitoringnetvvorks.com Corresponding Annual Rate of 18% Minimun Finance Charge. 9 * PO Box 44185 Tacoma, WA 98448 78. 0) mmz;am �Xg -A. --I r m O� m= W M JO rn � _oom0. N O O m D z O z W N 0= 2❑ D O a 3— O O D W Z z M C z z 0 r r� 3 o �p o Z A z m� z C z m m r Z m Z z n O m m D D z p-1 _m m 2 O n D� p x❑❑ x. G7 z O p O m n Ca m 0 fn O Z C Z r M 0 D M r r- r --I n m m U) � c m r n 2 M C ❑ r m M O O M D 3 3 D W r m A c iu r~ 00 r« CO O 00 N Q W O 0) W N N ch 00 W P6 O " N O CJ1 CJ1 Coco O O O GJ CA CA co 0) N 00 00 O O O Ul N O O N 00 Ul CO O �p mmmmmmm 0990000 r► r iu is O N � N N O N W 0 -1 0 P6-4 O N O O O O O O O CJ1 O O 00 CO N P6 �4 O O O O O O CJ1 O O O O CJ1 O O O 00 m m m m m m m o o o m m o o o o c 0 r► iu CA r4. 3 iu CJ1 O O O O O O O W -4" O CJ1 W O N W 0 0 0 0 0 0 0 0 00 CO iA �4 W GO 1-11 :Pl R N 0 0 0 0 0 0 0 O N O 0 -1 O O r+ 2 O ONO N N W O O N O W O W 0 0 0 0 0 0 O" W O W Cfl 0O W N W W O 0 0 0 0 0 0 0 0 00 0P6 0 00 0 0 P6 CN North Coast A Sonepar Company TO: D & R MONITORING NETWORKS LLC 709 106TH ST S TACOMA, WA 98444-5819 Quantity Vendor 6 Quotation Description WIRELESS RELAY 1 FREIGHT 1 STARTUP (HALF DAY) Page : 1 of 1 Expiration Date: 10/27/24 Project Info: Project: Port Orchard City Hall Relays PR34 Job #: 88542 Bid Date: 09/27/24 Bid Time: 02:00 PM PDT Quoter: Unit or Lot# Quotations are Net without written consent of North Coast Electric Company. Quotations are valid for the day of quote unless modified by authorized representative of Seller below. The price offered in this bid reflects Seller being awarded an order for the complete bid package. Purchaser's failure to award a complete order may result in the Seller withdrawing this bid or adjusting the price and other terms. North Coast Electric Company reserves the right to consolidate shipments to best comply with Manufacturer's prepaid terms FOB: FOB SHIP POINT Freight: No Freight allowed unless noted otherwise Deliveries may include Fuel Surcharge All transactions are subject to and exclusively governed by our Terms and Conditions of Sale, which are incorporated herein and available at: https://www.northcoast.com/terms-and-conditions-customers. Additional or conflicting terms are rejected, void, and of no force or effect. I-rom: 118 NORTH COAST ELECTRIC MAIN PHONE 253-383-1606 1301 E. 26TH STREET TACOMA, WA 98421-2309 Printed By: Gregory Mahairas 10/30/2024 7:15:39 AM Unit Price Ext Price Total 1,614.77 CHANGE PROPOSAL REQUEST To: Port Orchard City Hall Attn.: Jason Ritter-Lopatowski A. TOTAL MATERIAL/EQ BASE COST $ B. TOTAL LABOR COST $ Lincoln Construction COP NO: CCD/PR No.: Date: 11 /7/2024 Proj ect: LCI Project No.: 50 1257 SUBTOTAL $ - C. OVERHEAD AND PROFIT (15%) SUBTOTAL $ - D. SUBCONTRACT COST $ 3,200.00 E. OVERHEAD AND PROFIT ON SUBCONTRACT COST (12%) $ 384.00 SUBTOTAL $ 3,584.00 H. BOND (GC ONLY) 107.52 SUBTOTAL $ 107.52 TOTAL CHANGE PROPOSAL COST I $ 3,692 CONTRACT TIME ADJUSTMENT (DAYS)l TBI Lincoln Construction, Inc. CONTRACTOR 11 /7/2024 DATE 6i"W" R-rske y Tom Romberg Approved COPO 11/7/24 U 01114.00 g3.3 (2) Lincoln Construction Change Order Request To: Jason Ritter-Lopatowski RFM Architects Owner COP/CCD/PR #: Re: Port Orchard Citv Hall Please provide a change order for the following work: Pump House Roof Repairs Date: 11 /7/2024 COP #: 50 Total price per attached breakdown: $ 3,692 State and local sales tax: includ( X not included Extension of time: TBD We have proceeded with the work Work will not proceed without formal authorization This price is good for 5 days from the above date, after which this request is subject to revision Sincerely, %(monad R--kv-;Dw r %W"/M Lincoln Construction CHANGE ORDER REQUEST SUMMARY Port Orchard City Hall DESCRIPTION: LABOR PROJECT MANAGER SUPERINTENDENT ASSISTANT SUPERINTENDENT CARPENTER LABORER SUBTOTAL SMALL TOOL ALLOWANCE @ SUBTOTAL MARK-UP @ TOTALLABOR COP: �� REV:��DATE: i Owner COP/CCD/PR #: Pump House Roof Repair HOURS RATE TOTAL X 99.58 = $ X 98.35 = $ X 97.65 = $ X 97.65 = $ X 97.65 = $ X $ X _ $ - 0.0% $ 15.0% $ MATERIALS/EQUIPMENT PHASE CODE UNITS RATE 1 X = $ 1 X = $ 1 X = $ 1 X = $ SUBTOTAL $ USE TAX ON MATERIALS AND EQUIPMENT 0.0% $ MARK-UP @ 15.0% $ TOTAL MATERIAL/EQUIPMENT $ SUBCONTRACTS PHASE CODE UNITS RATE 1 X = $ 1 X 0.00 = $ Exterior Specialties 1 X 3,200.00 = $ 3,200.00 1 X = $ 1 X = $ 1 X = $ X = $ X = $ SUBTOTAL $ 3,200.00 MARK-UP @ Sub Direct Cost 0 12.0% Less Sub Fee $ 384.00 TOTAL SUBCONTRACTS $ 3,584.00 PROPOSAL SUBTOTAL $ 3,584.00 BONDS/Liability/Builders Risk/B&O Tax 3.000% $ 107.52 PROPOSAL TOTAL $ 3,691.52 Updated: 9/30/2011 Page 4 of 6 From: Jerry Harmon To: Tom Romberg Subject: Added Costs for Generator Roof Date: Thursday, November 7, 2024 4:50:04 AM Tom, These are the added costs for the generator roof replacement. Costs are for removal of screen wall, existing vent removal, side wall repair, and deck repair.and re sheet Materials $ 980.00 Labor 24 hours @ 75.00 $ 1,800.00 OH & Proft 15% $ 420.00 Total $ 3,200.00 Jerry Harmon CHANGE PROPOSAL REQUEST To: Port Orchard City Hall Attn.: Jason Ritter-Lopatowski A. TOTAL MATERIAL/EQ BASE COST $ B. TOTAL LABOR COST $ Lincoln Construction COP NO: CCD/PR No.: Date: 11 /19/2024 Proj ect: LCI Project No.: 51R1 1257 SUBTOTAL $ - C. OVERHEAD AND PROFIT (15%) SUBTOTAL $ - D. SUBCONTRACT COST $ 3,058.35 E. OVERHEAD AND PROFIT ON SUBCONTRACT COST (12%) $ 367.00 SUBTOTAL $ 3,425.35 H. BOND (GC ONLY) 102.76 SUBTOTAL $ 102.76 TOTAL CHANGE PROPOSAL COST I $ 3,528 CONTRACT TIME ADJUSTMENT (DAYS)l TBI Lincoln Construction, Inc. CONTRACTOR 11 / 19/2024 DATE 6i"W" R-rske y Tom Romberg Approved COPO 11/20/24 U 01114.00 g3.3 (2) Lincoln Construction Change Order Request To: Jason Ritter-Lopatowski RFM Architects Owner COP/CCD/PR #: Re: Port Orchard Citv Hall Please provide a change order for the following work: Downspout drain connections not shown on civil sheets and discovered footing in parking lot. Date: 11 /19/2024 COP #: 51 R1 Total price per attached breakdown: $ 3,528 State and local sales tax: includ( X not included Extension of time: TBD We have proceeded with the work Work will not proceed without formal authorization This price is good for 5 days from the above date, after which this request is subject to revision Sincerely, %(monad R--kv-;Dw ct %W"/M Lincoln Construction CHANGE ORDER REQUEST SUMMARY Port Orchard City Hall COP: REV: i DATE: i DESCRIPTION: Owner COP/CCD/PR #: Site Work LABOR HOURS RATE TOTAL PROJECT MANAGER X 99.58 = $ SUPERINTENDENT X 98.35 = $ ASSISTANT SUPERINTENDENT X 97.65 = $ CARPENTER X 97.65 = $ LABORER X 97.65 = $ X $ X _ $ - SUBTOTAL $ - SMALL TOOL ALLOWANCE @ 0.0% $ SUBTOTAL $ MARK-UP @ 15.0% $ TOTALLABOR $ - MATERIALS/EQUIPMENT PHASE CODE UNITS RATE 1 X = $ 1 X = $ 1 X = $ 1 X = $ SUBTOTAL $ USE TAX ON MATERIALS AND EQUIPMENT 0.0% $ MARK-UP @ 15.0% $ TOTAL MATERIAL/EQUIPMENT $ - SUBCONTRACTS PHASE CODE UNITS RATE 1 X = $ 1 X 0.00 = $ Miken-Downspouts 1 X 2,264.35 = $ 2,264.35 Miken-Footing Removal 1 X 794.00 = $ 794.00 1 X = $ 1 X = $ X = $ X = $ SUBTOTAL $ 3,058.35 MARK-UP @ Sub Direct Cost 0 12.0% Less Sub Fee $ 367.00 TOTAL SUBCONTRACTS $ 3,425.35 PROPOSAL SUBTOTAL $ 3,425.35 BONDS/Liability/Builders Risk/B&O Tax 3.000% $ 102.76 PROPOSAL TOTAL $ 3,528.11 Updated: 9/30/2011 Page 4 of 6 MIKEN TIME AND MATERIALS HMEMOMELC Customer Name: LCI Project Name: PORT ORCHARD CITY HALL Customer Address: 11803 101ST AVE E SUITE 201 Project Address: 216 PROSPECT ST City, State, Zip PUYALLUP, WA 98373 City, State, Zip PORT ORCHARD, WA 98366 DESCRIPTION OF WORK: Install down spout lines for building. Date Labor Description Quantity Unit Rate Total Cost Notes 15-Oct Operator 4 HR $95.00 15-Oct Laborer 8 HR $75.00 16-Oct Operator 4 HR $95.00 16-Oct Laborer 8 HR $75.00 31-Oct Operator 2 HR $95.00 $190.00 31-Oct Laborer 4 HR $75.00 $300.00 TOTAL LABOR $490.00 Date Material Description Quantity Unit Rate Total Cost Notes 15-Oct Pipe and fittings 1 LS $1,379.00 $1,379.00 $0.00 $0.00 TOTAL MATERIAL $1,379.00 Date Equipment Description Quantity Unit Rate Total Cost Notes 15-Oct Work Truck 4 HR $50.00 16-Oct Work Truck 4 HR $50.00 31-Oct Work Truck 2 HR $50.00 $100.00 TOTAL EQUIPMENT $100.00 SUB TOTAL $1,969.00 REVISED PROFIT $295.35 15% TOTAL $2,264.3 MIKEN TIME AND MATERIALS HMEMOMELC Customer Name: LCI Project Name: PORT ORCHARD CITY HALL Customer Address: 11803 101ST AVE E SUITE 201 Project Address: 216 PROSPECT ST City, State, Zip PUYALLUP, WA 98373 City, State, Zip PORT ORCHARD, WA 98366 DESCRIPTION OF WORK: Remove concrete footing that was in way of electrical ditch. Date Labor Description Quantity Unit Rate Total Cost Notes 16-Oct Operator 2 HR $95.00 $190.00 16-Oct Laborer 2 HR $75.00 $150.00 $0.00 TOTAL LABOR $340.00 Date Material Description Quantity Unit Rate Total Cost Notes 16-Oct Concrete blade 1 LS $250.00 $250.00 $0.00 $0.00 TOTAL MATERIAL $250.00 Date Equipment Description Quantity Unit Rate Total Cost Notes Work Truck 2 HR $50.00 $100.00 $0.00 $0.00 TOTAL EQUIPMENT $100.00 SUB TOTAL $690.00 PROFIT $103.50 15% TOTAL $793.50 CHANGE PROPOSAL REQUEST To: Port Orchard City Hall Attn.: Jason Ritter-Lopatowski A. TOTAL MATERIAL/EQ BASE COST B. TOTAL LABOR COST Lincoln Construction COP NO: 52 CCD/PR No.: PR 035 Date: 11 /19/2024 Proj ect: LCI Project No.: 1257 $ 1,000.00 SUBTOTAL $ 1,000.00 C. OVERHEAD AND PROFIT (15%) $ 150.00 SUBTOTAL $ 150.00 D. SUBCONTRACT COST $ 11,098.00 E. OVERHEAD AND PROFIT ON SUBCONTRACT COST (12%) $ 1,331.76 SUBTOTAL $ 12,429.76 H. BOND (GC ONLY) 407.39 SUBTOTAL $ 407.39 TOTAL CHANGE PROPOSAL COST I $ 13,987 CONTRACT TIME ADJUSTMENT DAYS TBD Lincoln Construction, Inc. CONTRACTOR 12/31 /2024 DATE %Ciarmtad �a�„�vc y Tom Romberg Approved COPO 1/9/25 U 01114.00 g3.3 (2) Lincoln Construction To: Jason Ritter-Lopatowski RFM Architects Re: Port Orchard City Hall Please provide a change order for the following work: Added Sub Panel at FACP Per PR 035. Change Order Request Date: 12/31 /2024 COP #: 52 Owner COP/CCD/PR #: PR 035 Total price per attached breakdown: $ 13,987 State and local sales tax: includ( X not included Extension of time: TBD We have proceeded with the work Work will not proceed without formal authorization This price is good for 5 days from the above date, after which this request is subject to revision Sincerely, Lincoln Construction CHANGE ORDER REQUEST SUMMARY Port Orchard City Hall COP: REV:��DATE: i DESCRIPTION: Owner COP/CCD/PR #: PR 035 FACP Sub Panel LABOR HOURS RATE TOTAL PROJECT MANAGER X 99.58 = $ SUPERINTENDENT X 98.35 = $ ASSISTANT SUPERINTENDENT X 97.65 = $ CARPENTER X 97.65 = $ LABORER X 97.65 = $ X $ X _ $ - SUBTOTAL $ - SMALL TOOL ALLOWANCE @ 0.0% $ SUBTOTAL $ MARK-UP @ 15.0% $ TOTALLABOR $ - MATERIALS/EQUIPMENT PHASE CODE UNITS RATE 1 X = $ Drywall -Painting Allowance 1 X 1,000.00 = $ 1,000.00 1 X = $ 1 X = $ SUBTOTAL $ 1,000.00 USE TAX ON MATERIALS AND EQUIPMENT 0.0% $ - MARK-UP @ 15.0% $ 150.00 TOTAL MATERIAL/EQUIPMENT $ 1,150.00 SUBCONTRACTS PHASE CODE UNITS RATE 1 X = $ 1 X = $ DR Monitoring 1 X 11,098.00 = $ 11,098.00 1 X = $ 1 X = $ 1 X = $ X = $ X = $ SUBTOTAL $ 11,098.00 MARK-UP @ Sub Direct Cost 0 12.0% Less Sub Fee $ 1,331.76 TOTAL SUBCONTRACTS $ 12,429.76 PROPOSAL SUBTOTAL $ 13,579.76 BONDS/Liability/Builders Risk/B&O Tax 3.000% $ 407.39 PROPOSAL TOTAL $ 13,987.15 Updated: 9/30/2011 Page 4 of 6 6820 Intelligent Fire Alarm Control Panel with Communicator The 6820 features an expandable SLC circuit, six Flexput circuits, dual -line DACT, powerful software features, and connectivity for up to 17 panels. The 6820 is the latest intelligent addressable FACP (Fire Alarm Control Panels) from Silent Knight and is a direct replacement for the 5820XL FACP. The FACP has one built-in SLC (signaling line circuit), which can support 159 System Sensor' SK detectors and 159 SK modules, or 127 Hochiki° SD protocol devices. Additional SLC loops can be added for a maximum of 1110 (SK) or 635 (SD) points per panel. The built-in digital alarm communicator/transmitter (DACT) is dualtechnology, IP and POTS. The POTS transmits system status (alarms, troubles, AC loss, etc.) to a Central Station via the public switched telephone network. The IP communicator's internet monitoring capability sends alarm signals over the Internet saving the monthly cost of two dedicated business telephone lines. Although not required, the secondary telephone line may be retained providing backup communication overthe public switched telephone line. Optional cellular reporting is available. The 6820 has six onboard Flexput® circuits that can be configured as notification outputs or auxiliary power. The 6820 also has a form-C trouble relay, and two programmable form-C relays, along with powerful features such as drift compensation, pre -trouble maintenance alert, a built-in sensor test to comply with NFPA 72 calibration testing requirements, and a calibration trouble alert. A common communications and annunciation link allows up to 17 panels to be connected via copper or fiber optic cable. A designated panel is configured as the communicator for all panels in the link for convenient single -point communications. FEATURES AND BENEFITS • Complies with UL 86410th Edition and UL • JumpStart° auto programming reduces 2572 2nd Edition Standards installation time • Expandable SLC loops to 1110 (SK) or 635 • 999 software zones and 999 output groups (SD) point capacity • Six Flexput circuits for NAC outputs or auxiliary power • Selectable strobe synchronization for Amseco°, System Sensor, Wheelock', and Gentex® devices • Built-in DACT with IP and optional cellular reporting • Built-in USB interface for quick and easy programming for flexible design options • 23 preset notification cadence patterns (including ANSI° 3.41) • Allows up to 24 SBUS devices • Four programmable function keys • Two programmable relays and one fixed trouble relay • Compatible with SWIFT° wireless devices • Convenient field-upgradeable firmware • Common Communications Linkfor upto 17 sites • Network card allows copper network connection with a multi -mode or single - mode fiber connection • Real-time clock/calendar with automatic daylight savings control • History file with 1,000 event capacity • Available in a red or black cabinet • Surface mounting or flush mounting cabinet Honeywell SILENT' I MGHT USERINTERFACE LED INDICATORS • General Alarm (Red) • Supervisory (Yellow) • System Trouble (Yellow) • System Silenced (Yellow • System Power (Green) KEYPAD • 12-key numeric pad • Acknowledge • Alarm Silence • System Reset • Drill • F1-F4 Programmable Function Keys PROGRAMMING The 6820 system offers several options to simplify and expedite programming. JumpStart° auto programming minimizes programming required to start a new system. The built-in keypad, or the remote annunciators give on -site access to current system programming. System programming can also be accomplished using the Windows° -based Honeywell Fire Software Suite (HFSS). ORDERING INFORMATION 6820: Addressable fire alarm control panel, red COMPATIBLE SBUS DEVICES 6860: 4x40 LCD remote fire annunciator with four programmable buttons, red 5860: 4x20 LCD remote fire annunciator, gray 5860R: 4x20 LCD remote fire annunciator, red 6855: 4x20 LCD remote fire annunciator, red 5865-3: LED annunciators can display up to 30 LEDs (15 red and 15 yellow) 5865-4: LED annunciators can display up to 30 LEDs (15 red and 15 yellow). Key switches for silence and reset, and a system trouble LED 5880: LED 1/0 module with 40 programmable LED outputs and eight supervised dry contact inputs 5883: Relay interface. Provides 10 Form C relays 5824: Serial/Parallel printer interface module for printer connection SK COMPATIBLE ADDRESSABLE DEVICES Note: SKand SD devices cannot be mixed in the same fire alarm system. SK-ACCLIMATE: Multi criteria photoelectric smoke detector with thermal 135°F fixed temperature SK-BEAM: Reflected beam smoke detector without test feature SK-BEAM-T: Reflected beam smoke detector with test feature OSI-RI-SK: Reflected beam smoke detector, SK protocol SK-CONTROL: Supervised control module SK-CONTROL-6: Six circuit supervised control module SK-DUCT: Photoelectric duct smoke detector with extended air speed range SK-FIRE-CO: Four criteria fire and carbon monoxide detector SK-FIRE-CO-W: Four criteria fire and carbon monoxide detector, white SK-HEAT: Fixed thermal detector (135°F) SK-HEAT-W: Fixed thermal detector (1351F), white SK-HEAT-ROR: Fixed rate of rise detector SK-HEAT-HT: Fixed high temperature thermal detector (190°F) SK-HEAT-HT-W: Fixed high temperature thermal detector (1900F), white SK-HEAT-ROR-W: Fixed rate of rise detector, white SK-ISO: Fault isolator module SK-MINIMON: Mini monitor module SK-MONITOR: Monitor module SK-MONITOR-2: Dual input monitor module SK-MON-10:10- input monitor module SK-PHOTO: Photoelectric smoke detector SK-PHOTO-W: Photoelectric smoke detector. white SK-PHOTO-R: Photoelectric detector with remote test capability SK-PHOTO-R-W: Photoelectric detectorwith remote test capability, white SK-PHOTO-T: Photoelectric smoke detectorwith fixed thermal heat (135°F) SK-PHOTO-T-W: Photoelectric smoke detector with fixed thermal heat (1351F), white SK-PTI R-W: Multi criteria photoelectric smoke detectorwith thermal 1350F fixed temperature, white SK-PULL-SA Addressable single action pull station SK-PULL-DA: Addressable dual action pull station SK-RELAY: Addressable relay module SK-RELAY-6: Addressable Six relay control module SK-RELAYMON-2: Addressable Dual relay/monitor module SK-ZONE: Addressable zone interface module SK-ZONE-6: Six zone interface module SK BASES B21OLP: 6" mounting base B501: 4" Flangeless mounting base B20OS: Intelligent sounder base B20OS-LF: Low -frequency intelligent sounder base B224RB: Relay base B224B1: Isolator base SD COMPATIBLE ADDRESSABLE DEVICES Note: SK and SD devices cannot be mixed in the same fire alarm system. SD505-6AB: Addressable 6" base SD505-61B: Addressable 6" short circuit isolator base SD505-6RB: Addressable 6" relay base SD505-6SB: Addressable 6" sounder base SD500-AIM: Addressable input module (switch input) SD500-ANM: Addressable notification module SD500-ARM: Addressable relay module SD505-DTS-K: Remote test switch/LED indicator for the SD505-DUCTR Page 2 of 4 — 351610:C • 2/16/2022 SD505-DUCT: Addressable Duct Smoke Detector SD505-DUCTR: Addressable Duct Detector housing with relay base SD505-H EAT: Absolute temperature heat detector. Trip point range from 1351F-1501F (0°C-370C) SD500-LIM: Addressable Line isolator module SD500-MIM:Addressable Mini input monitor module (switch input) SD505-PHOTO: Photoelectric smoke detector SD500-PS/-PSDA: Addressable Single or dual action pull station SD500-SDM: Addressable smoke detector module SWIFT WIRELESS DEVICES Note: SWIFT is only compatible with System Sensor (SK) devices. It is not compatible with Hochiki (SD) devices. WSK-WGI: Wireless gateway WSK-PHOTO: Wireless photoelectric smoke detector with B501W base WSK-PHOTO-T: Wireless photoelectric smoke detector with fixed thermal detection (135°F) and B501W base W-SYNC: Wireless sync module WSK-HEAT: Wireless, fixed heat detector (135°F) with B501W base WSK-HEAT-ROR: Wireless rate -of -rise heat detector and B501W base WSK-MONITOR: Wireless monitor module WSK-RELAY: Wireless relay module WSK-PULL-DA: Wireless pull station WAV-RL, WAV-WL, WAV-CRL, WAV-CWL: Wireless AV bases W-USB: Wireless USB radio/antenna dongle that plugs into the USB port of a PC running SWIFT Tools SWIFTTools: Programming and diagnostic utility for the wireless gateway and devices. Available for download from www.sitentknight.com SYSTEM EXPANDERS 6815: SLC Expander for SK devices 5815XL: SLC expander for SD devices 5895XL: 6A power supply with six Flexput circuits and two Form C relays 5496: 6 amp NAC power expander with four power -limited output circuits OPTIONAL COMMUNICATORS CELL-CAB-SK: Cellular communicator, metal enclosure with lock and key CELL -MOD: Cellular communicator, plastic enclosure IPGSM-4G: Dual path fire alarm communicator, cellular and/or IP (primary or backup, selectable) SK-IP -2: Remote reporting via the Internet. Requires a VisorALARM° receiver at the central station MISCELLANEOUS ACCESSORIES SK-NIC: Network Interface Card SK-NIC-KIT: Installation Accessory Kit SK-FML: Fiber -Optic Multi Mode transmitter and receiver SK-FSL: Fiber -Optic Single Mode transmitter and receiver RBB: Remote Battery Box accessory cabinet, holds batteries up to 35AH SK-SCK: Seismic compliance kit used to fasten batteries to the fire panel SOFTWARE SOLUTIONS SKST: Silent Knight Selection Tool provides the installer or design architect with a Windows° -based software system configuration tool to create a detailed bill of material (BOM) and battery calculations HFSS: Honeywell Fire Software Suite provides remote and local panel programming, detector status, event history and additional data. Databases can be uploaded/downloaded via the panel's USB port using a flash drive. Requires a PC running Microsoft' Windows®. Page 3 of 4 — 351610:C • 2/16/2022 6820 TECHNICAL SPECIFICATIONS SYSTEM CAPACITY • Intelligent Signaling Line Circuits:1 (expandable) • Addressable device capacity:1110 (SK) or 635 (SD) • Programmable software zones: 999 • Output groups: 999 • Output circuits: 6 (expandable) • SBUS devices: 24 (16 annunciators, 8 LED modules) ELECTRICAL • AC Power:120VAC, 60Hz, 3.3A • Standby Current:190 mA • Alarm Current: 250 mA • Flexput Circuits: Terminal block provides connections for (six Class B orthree Class A) NACs or auxiliary power. Power -limited, supervised circuitry. Maximum current per circuit: 3 A. Cannot exceed 6Atotal for all circuits. End -of -line resistor: 4.7k ohm,'/2 watt for Class B NACs • Communication Loop: Supervised and power -limited, Class A or Class B, 32VDC, 150mA • Two Programmable Relays and One Fixed Trouble Relay: Contact rating: 2.5 A 27.4 VDC (resistive), Form C • Battery: Cabinet holds maximum of two 18 AH batteries • Battery Charger Capacity: 7-35 AH PHYSICAL Dimensions:16.4" W x 26.4" H x 4.1" D (41.66cm W x 67.06cm H x 10.41cm D) Weight :32 lbs. (14.5 kg.) Color: Red Honeywell Silent Knight 12 Clintonville Road Northford, CT 06472-1610 203.484.7161 www.sitentknight.com TEMPERATURE AND HUMIDITY RANGES This system meets NFPA requirements for operation at 0 — 49°C (32-120°F) and at a relative humidity 93%± 2% PH (non - condensing) at 320C ± 20C (90°F ± 30F). However, the useful life of the system's standby batteries and the electronic components may be adversely affected by extreme temperature ranges and humidity. Therefore, it is recommended that this system and its peripherals be installed in an environment with a normal room temperature of 15 — 271C/60 — 80°F. NFPA STANDARDS The 6820 complies with the following standards and codes: N FPA 72 N FPA 13 N FPA 15 N FPA 16 N FPA 70 UL 86410th Edition AGENCY LISTINGS AND APPROVALS UL Listed: S2766 CSFM: 7165-0559:0500 FDNY COA# 6249 FM Approved Seismic: (CA) VMA-45894-05C 351610 1 C 1 04-22 ©2022 Honeywell International Inc. Honeywell MIUNT' S KNIGHT Honeywell 3SILENT' WGHT SK-PS6 & SK-PS10 Power Supplies Instruction Manual Document LS10227-002SK-E Rev: B 3/19/2021 ECN:2939 Fire Alarm & Emergency Communication System Limitations While a life safety system may lower insurance rates, it is not a substitute for life and property insurance! An automatic fire alarm system —typically made up of smoke year by a qualified fire protection specialist. Heat detectors are detectors, heat detectors, manual pull stations, audible warning designed to protect property, not life. devices, and a fire alarm control panel (FACP) with remote IMPORTANT! Smoke detectors must be installed in the same notification capability —can provide early warning of a developing room as the control panel and in rooms used by the system for the fire. Such a system, however, does not assure protection against connection of alarm transmission wiring, communications, property damage or loss of life resulting from a fire. signaling, and/or power. If detectors are not so located, a An emergency communication system —typically made up of an developing fire may damage the alarm system, compromising its automatic fire alarm system (as described above) and a life safety ability to report a fire. communication system that may include an autonomous control Audible warning devices such as bells, horns, strobes, unit (ACU), local operating console (LOC), voice communication, speakers and displays may not alert people if these devices are and other various interoperable communication methods —can located on the other side of closed or partly open doors or are broadcast a mass notification message. Such a system, however, located on another floor of a building. Any warning device may fail does not assure protection against property damage or loss of life to alert people with a disability or those who have recently resulting from a fire or life safety event. consumed drugs, alcohol, or medication. Please note that: The Manufacturer recommends that smoke and/or heat detectors An emergency communication system may take priority over a be located throughout a protected premises following the fire alarm system in the event of a life safety emergency. recommendations of the current edition of the National Fire Voice messaging systems must be designed to meet intelligibility Protection Association Standard 72 (NFPA 72), manufacturer's requirements as defined by NFPA, local codes, and Authorities recommendations, State and local codes, and the Having Jurisdiction (AHJ). recommendations contained in the Guide for Proper Use of System Language and instructional requirements must be clearly dis- Smoke Detectors, which is made available at no charge to all seminated on any local displays. installing dealers. This document can be found at http:// www.systemsensor.com/appguides/. A study by the Federal Strobes can, under certain circumstances, cause seizures in Emergency Management Agency (an agency of the United States people with conditions such as epilepsy. government) indicated that smoke detectors may not go off in as Studies have shown that certain people, even when they hear a many as 35% of all fires. While fire alarm systems are designed to fire alarm signal, do not respond to or comprehend the meaning provide early warning against fire, they do not guarantee warning or of the signal. Audible devices, such as horns and bells, can have protection against fire. A fire alarm system may not provide timely or different tonal patterns and frequencies. It is the property adequate warning, or simply may not function, for a variety of owner's responsibility to conduct fire drills and other training reasons: exercises to make people aware of fire alarm signals and Smoke detectors may not sense fire where smoke cannot reach instruct them on the proper reaction to alarm signals. the detectors such as in chimneys, in or behind walls, on roofs, or In rare instances, the sounding of a warning device can cause on the other side of closed doors. Smoke detectors also may not temporary or permanent hearing loss. sense a fire on another level or floor of a building. A second -floor A life safety system will not operate without any electrical power. If detector, for example, may not sense a first -floor or basement fire. AC power fails, the system will operate from standby batteries only Particles of combustion or "smoke" from a developing fire may for a specified time and only if the batteries have been properly not reach the sensing chambers of smoke detectors because: maintained and replaced regularly. • Barriers such as closed or partially closed doors, walls, chim- Equipment used in the system may not be technically compatible neys, even wet or humid areas may inhibit particle or smoke with the control panel. It is essential to use only equipment listed for flow. service with your control panel. • Smoke particles may become "cold," stratify, and not reach the Alarm Signaling Communications: ceiling or upper walls where detectors are located. IP connections rely on available bandwidth, which could be lim. • Smoke particles may be blown away from detectors by air out- ited if the network is shared by multiple users or if ISP policies lets, such as air conditioning vents. impose restrictions on the amount of data transmitted. Service • Smoke particles may be drawn into air returns before reaching packages must be carefully chosen to ensure that alarm signals the detector. will always have available bandwidth. Outages by the ISP for The amount of "smoke" present may be insufficient to alarm smoke maintenance and upgrades may also inhibit alarm signals. For detectors. Smoke detectors are designed to alarm at various levels added protection, a backup cellular connection is recommended of smoke density. If such density levels are not created by a Cellular connections rely on a strong signal. Signal strength developing fire at the location of detectors, the detectors will not go can be adversely affected by the network coverage of the cellu- into alarm. lar carrier, objects and structural barriers at the installation loca- Smoke detectors, even when working properly, have sensing tion. Utilize a cellular carrier that has reliable network coverage limitations. Detectors that have photoelectronic sensing chambers Where the alarm system is installed. For added protection, utilize tend to detect smoldering fires better than flaming fires, which have an external antenna to boost the signal. little visible smoke. Detectors that have ionizing -type sensing Telephone lines needed to transmit alarm signals from a prem- chambers tend to detect fast -flaming fires better than smoldering ise to a central monitoring station may be out of service or tem- fires. Because fires develop in different ways and are often porarily disabled. For added protection against telephone line unpredictable in their growth, neither type of detector is necessarily failure, backup alarm signaling connections are recommended. best and a given type of detector may not provide adequate warning The most common cause of life safety system malfunction is of a fire. inadequate maintenance. To keep the entire life safety system in Smoke detectors cannot be expected to provide adequate warning excellent working order, ongoing maintenance is required per the of fires caused by arson, children playing with matches (especially manufacturer's recommendations, and UL and NFPA standards. At in bedrooms), smoking in bed, and violent explosions (caused by a minimum, the requirements of NFPA 72 shall be followed. escaping gas, improper storage of flammable materials, etc.). Environments with large amounts of dust, dirt, or high air velocity Heat detectors do not sense particles of combustion and alarm require more frequent maintenance. A maintenance agreement only when heat on their sensors increases at a predetermined rate should be arranged through the local manufacturer's representative. Maintenance should be scheduled as required by National and/or or reaches a predetermined level. Rate -of -rise heat detectors may Inrni fir.- rnrl.-c and chni drl ha n.-rfnrm.-r1 by ni rthnri-7arl nrnf.-ccinnal 2 SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 Installation Precautions Adherence to the following will aid in problem -free installation with long-term reliability. WARNING - Several different sources of power can be con- nected to the fire alarm control panel. Disconnect all sources of power before servicing. Control unit and associated equipment may be damaged by removing and/or inserting cards, modules, or inter- connecting cables while the unit is energized. Do not attempt to install, service, or operate this unit until manuals are read and understood. CAUTION - System Re -acceptance Test after Software Changes: To ensure proper system operation, this product must be tested in accordance with NFPA 72 after any programming opera- tion or change in site -specific software. Re -acceptance testing is required after any change, addition or deletion of system compo- nents, or after any modification, repair or adjustment to system hardware or wiring. All components, circuits, system operations, or software functions known to be affected by a change must be 100% tested. In addition, to ensure that other operations are not inadver- tently affected, at least 10% of initiating devices that are not directly affected by the change, up to a maximum of 50 devices, must also be tested and proper system operation verified. This system meets NFPA requirements for operation at 0-490 C/ 32-1201 F and at a relative humidity 93% ± 2% RH (non -condens- ing) at 32°C ± 2°C (90°F ± 3°F). However, the useful life of the sys- tem's standby batteries and the electronic components may be adversely affected by extreme temperature ranges and humidity. Therefore, it is recommended that this system and its peripherals be installed in an environment with a normal room temperature of 15-270 C/60-80° F. Verify that wire sizes are adequate for all initiating and indicating device loops. Most devices cannot tolerate more than a 10% I.R. drop from the specified device voltage. FCC Warning WARNING: This equipment generates, uses, and can radi- ate radio frequency energy and if not installed and used in accordance with the instruction manual may cause interfer- ence to radio communications. It has been tested and found to comply with the limits for class A computing devices pur- suant to Subpart B of Part 15 of FCC Rules, which is designed to provide reasonable protection against such interference when devices are operated in a commercial environment. Operation of this equipment in a residential area is likely to cause interference, in which case the user will be required to correct the interference at his or her own expense. Like all solid state electronic devices, this system may operate erratically or can be damaged when subjected to lightning induced transients. Although no system is completely immune from lightning transients and interference, proper grounding will reduce suscepti- bility. Overhead or outside aerial wiring is not recommended, due to an increased susceptibility to nearby lightning strikes. Consult with the Technical Services Department if any problems are anticipated or encountered. Disconnect AC power and batteries prior to removing or inserting circuit boards. Failure to do so can damage circuits. Remove all electronic assemblies prior to any drilling, filing, reaming, or punching of the enclosure. When possible, make all cable entries from the sides or rear. Before making modifications, verify that they will not interfere with battery, transformer, or printed circuit board location. Do not tighten screw terminals more than 9 in-lbs. Over -tighten- ing may damage threads, resulting in reduced terminal contact pressure and difficulty with screw terminal removal. This system contains static -sensitive components. Always ground yourself with a proper wrist strap before handling any cir- cuits so that static charges are removed from the body. Use static suppressive packaging to protect electronic assemblies removed from the unit. Units with a touchscreen display should be cleaned with a dry, clean, lint free/microfiber cloth. If additional cleaning is required, apply a small amount of Isopropyl alcohol to the cloth and wipe clean. Do not use detergents, solvents, or water for cleaning. Do not spray liquid directly onto the display. Follow the instructions in the installation, operating, and pro- gramming manuals. These instructions must be followed to avoid damage to the control panel and associated equipment. FACP operation and reliability depend upon proper installation. Precau-D2-11-2017 Canadian Requirements This digital apparatus does not exceed the Class A limits for radiation noise emissions from digital apparatus set out in the Radio Interference Regulations of the Canadian Depart- ment of Communications. Le present appareil numerique n'emet pas de bruits radio- electriques depassant les limites applicables aux appareils numeriques de la classe A prescrites dans le Reglement sur le brouillage radioelectrique edicte par le ministere des Communications du Canada. eVance®, Flexput®, Honeywell®, JumpStart®, Silent Knight®, and SWIFT® are registered trademarks of Honeywell International Inc. Microsoft® and Windows® are registered trademarks of the Microsoft Corporation. ChromeTm and GoogleTm are trademarks of Google Inc. Firefox® is a registered trademark of The Mozilla Foundation. ©2021. All rights reserved. Unauthorized use of this document is strictly prohibited. SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 Software Downloads In order to supply the latest features and functionality in fire alarm and life safety technology to our customers, we make frequent upgrades to the embedded software in our products. To ensure that you are installing and programming the latest features, we strongly recommend that you download the most current version of software for each product prior to commissioning any system. Contact Technical Support with any questions about software and the appropriate version for a specific application. Documentation Feedback Your feedback helps us keep our documentation up-to-date and accurate. If you have any comments or suggestions about our online Help or printed manuals, you can email us. Please include the following information: • Product name and version number (if applicable) • Printed manual or online Help • Topic Title (for online Help) • Page number (for printed manual) • Brief description of content you think should be improved or corrected • Your suggestion for how to correct/improve documentation Send email messages to: FireSystems.TechPubs@honeywell.com Please note this email address is for documentation feedback only. If you have any technical issues, please contact Technical Services. This symbol (shown left) on the product(s) and / or accompanying documents means that used electrical and electronic products should not be mixed with general household waste. For proper treatment, recovery and recycling, contact your local authorities or dealer and ask for the correct method of disposal. Electrical and electronic equipment contains materials, parts and substances, which can be dangerous to the environment and harmful to human health if the waste of electrical and electronic equipment (WEEE) is not disposed of correctly. 4 SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 Table of Contents Section1: System Overview............................................................................................................................................. 8 1.1: General...............................................................................................................................................................................................................8 1.2: Features..............................................................................................................................................................................................................8 1.3: Specifications.....................................................................................................................................................................................................8 IA: Open/Short/Ground Fault Trip Values in Standby.............................................................................................................................................9 1.5: Switch SWl - Ground Fault Detection..............................................................................................................................................................9 1.6: Applications.....................................................................................................................................................................................................11 1.7: Start-up Procedure...........................................................................................................................................................................................11 Section2: Installation.....................................................................................................................................................12 2.1: Backbox Mounting..........................................................................................................................................................................................12 2.2: NAC Circuit Wiring.........................................................................................................................................................................................13 2.2.1: Class B..................................................................................................................................................................................................13 2.2.2: ZNAC-PS Class A Option Module.......................................................................................................................................................13 2.3: Addressable Module Mounting........................................................................................................................................................................14 2.4: NEC Power -limited (Class 2) Wiring Requirements.......................................................................................................................................15 2.5: FACP with SK-PS Power Supply in Slave Mode............................................................................................................................................16 2.6: SK-PS Power Supply in Master Mode Connected to FACP............................................................................................................................16 2.7: Connecting to an External Charger..................................................................................................................................................................17 2.7.1: CHG-120F............................................................................................................................................................................................17 2.7.2: CHG-75.................................................................................................................................................................................................17 2.8: Cascading Multiple Units................................................................................................................................................................................18 Section 3: Programming Options.................................................................................................................................. 20 3.1: S 1 Global Options DIP Switch........................................................................................................................................................................21 3.1.1: Global Programmable Features Description.........................................................................................................................................21 InputDebounce/Dejitter/Delay...............................................................................................................................................................21 CommandInput #1.................................................................................................................................................................................22 ChargerEnable/Disable..........................................................................................................................................................................22 AC Loss Door Holder Dropout Timer....................................................................................................................................................22 ACFail Indication Delay........................................................................................................................................................................22 SpecialOperating Modes........................................................................................................................................................................22 3.2: Output Circuit Control DIP Switch Settings....................................................................................................................................................23 3.2.1: Output Circuit Programmable Features Description............................................................................................................................23 CommandInputs/NAC Circuits..............................................................................................................................................................23 UnusedOutputs.......................................................................................................................................................................................24 Remote Supply with Resettable and Non-resettable Power...................................................................................................................24 DoorHolder............................................................................................................................................................................................24 Synchronization Mode - Master/Slave...................................................................................................................................................24 MasterMode - Selective Silence............................................................................................................................................................25 Command Input #1 - Normal/Sync Mode of Operation.........................................................................................................................25 ClassA Wiring........................................................................................................................................................................................26 Section4: LED Indicators...............................................................................................................................................27 Section 5: Trouble Supervision...................................................................................................................................... 29 5.1: Trouble Supervision Using Input Circuits.......................................................................................................................................................29 5.2: Trouble Relay...................................................................................................................................................................................................29 5.3: AC Trouble Relay............................................................................................................................................................................................29 Section 6: Power Supply Requirements........................................................................................................................ 31 6.1: Overview.......................................................................................................................................................................................................... 31 6.2: Calculating the AC Branch Circuit..................................................................................................................................................................31 6.3: Calculating the System Current Draw.............................................................................................................................................................31 6.3.1: Overview............................................................................................................................................................................................... 31 6.3.2: How to Calculate System Current Draw..............................................................................................................................................32 6.4: Selecting and Locating Batteries.....................................................................................................................................................................32 6.4.1: NFPA Battery Requirements................................................................................................................................................................32 6.4.2: Maximum Battery Standby Load..........................................................................................................................................................33 Section 7: Testing and Maintenance............................................................................................................................. 33 7.1: Periodic Testing and Service............................................................................................................................................................................33 7.2: Battery Checks and Maintenance....................................................................................................................................................................33 SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 5 Table of Contents AppendixA: Wire Requirements.................................................................................................................................... 34 AppendixB: Application Examples...............................................................................................................................35 B.1: Controlling NACs For Selective Silence Operation Using a Control Module...............................................................................................35 B.2: Controlling NACs For Sync Follower Operation Using a Control Module...................................................................................................36 B.3: Controlling NACs, Aux Power, or Door Holders Using a Control Module...................................................................................................37 BA: Controlling NACs, Aux Power, and Door Holders with NAC Sync..............................................................................................................38 B.5: Controlling all Three Inputs with One Control Module..................................................................................................................................39 B.6: AC Trouble Reporting with a Conventional FACP.........................................................................................................................................40 Index................................................................................................................................................................................. 41 6 SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 It is imperative that the installer understand the requirements of the Authority Having Jurisdiction (AHJ) and be familiar with the stan- dards set forth by the following regulatory agencies: Underwriters Laboratories Standards NFPA 72 National Fire Alarm Code Com] NFPA Standards NFPA 72 National Fire Alarm Code NFPA 70 National Electrical Code NFW Underwriters Laboratories Documents: UL 464 Audible Signaling Appliances U UL 864 Standard for Control Units for Fire Protective Signaling Systems UL 1638 Visual Signaling Appliances UL 1971 Signaling Devices for Hearing Impaired UL 2572 Standard for Mass Notification Systems Other: NEC Article 250 Grounding NEC Article 300 Wiring Methods NEC Article 760 Fire Protective Signaling Systems Applicable Local and State Building Codes Requirements of the Local Authority Having Jurisdiction (LAHJ) Other Silent Knight Documents: Device Compatibility Document Document #52612 CHG-75 Manual Document #51315 CHG-120F Manual Document #50888 This product has been certified to comply with the requirements in the Standard for Control Units and Accessories for Fire Alarm Sys- tems, UL 864, 1 Oth Edition. Operation of this product with products not tested for UL 864, 9th/1 Oth Edition has not been evaluated. Such operation requires the approval of the local Authority Having Jurisdiction (AHJ). This symbol (shown left) on the product(s) and / or accompanying documents means that used electrical and electronic products should not be mixed with general household waste. For proper treatment, recovery and recycling, contact your local authorities or dealer and ask for the correct method of disposal. Electrical and electronic equipment contains materials, parts and substances, which can be dangerous to the environment and harmful to human health if the waste of electrical and electronic equipment (WEEE) is not disposed of correctly. SK-PS Series Instruction Manua( — P/N LS10227-002SK-E:B 3/19/2021 Section 1: System Overview The SK-PS6 is a 6 amp and the SK-PS 10 is a 10 amp remote power supply with battery charger. Both models provide ADA compatible strobe synchronization and a filtered 24 VDC output that can be configured to drive five (6 amp model) or seven (10 amp model) Class B NACs (Notification Appliance Circuits). NAC circuits can be configured for Class A wiring with the optional ZNAC-PS Class A con- verter module. NAC output circuits may be configured as 24 VDC resettable or non-resettable power outputs, or Class D door holder outputs. The input circuits, which control the power supply operation, are triggered by the reverse polarity of a NAC or by a 12 VDC or 24 VDC power source. The SK-PS power supplies are compatible with 12 VDC and 24 VDC control panels. 1.1 General SK-PS power supplies can be used as remotely mounted power supplies and battery chargers to power non -coded or coded NACs. The Main FACP (Fire Alarm Control Panel) NAC(s) is connected to the remote power supply input circuit(s). When the command input cir- cuit activates due to reverse polarity of the NAC from the FACP, the power supply will activate its Notification Appliance Circuits. During the inactive or non -alarm state, the power supply supervises its NAC field wiring for short and open conditions. AC fail, battery, charger and ground fault troubles will also be monitored by the power supply and will activate the AC Fail and Battery Fault relay, respectively. If a NAC fault is detected, the input end -of -line will open to indicate the fault to the main panel. If an alarm condition occurs and the NAC is activated, the supervision is disabled and the Notification Appliance Circuit is no longer supervised (except for shorts). Supervision of other power supply faults such as low battery, overcharged battery, ground fault, and bat- tery charger trouble will continue and will be monitored by their respective trouble relays. 1.2 Features • Self-contained in a lockable cabinet • 24 VDC remote power supply • Outputs are completely power -limited (Class 2) • Two (SK-PS6) or three (SK-PS 10) optically -isolated input/command circuits, compatible with 12 VDC and 24 VDC control panel NACs • Five (SK-PS6) or seven (SK-PS10) output circuits: — Fully filtered power — Five or seven 24 VDC Class B NACs — Optional ZNAC-PS Class A converter module for conversion to Class A NACs — Alternatively, all output circuits may be configured as 24 VDC special application power outputs or Class D door holder power outputs — Output circuits may be configured as resettable or non-resettable • Individual NAC Power (red) and Trouble (yellow) LEDs for each output • Maximum current available: — SK-PS6: TB8-TB9 — IA Regulated, 3A special applications; TB 10-TB 12 — 0.3A Regulated, 3A special applications — SK-PS 10: TB8-TB 11 — 1.5A Regulated, 3A special applications; TB 12-TB 14 — 0.3A Regulated, 3A special applications • Maximum total current available (alarm and standby): — 6.0 amps for SK-PS6 alarm; 3.0 amps standby — 10.0 amps for SK-PS10 alarm; 3.0 amps standby • Integral supervised battery charger for lead acid batteries only • Capable of charging 7.0 AH - 33.0 AH (Amp Hour) batteries (cabinet fits 7 or 18 AH batteries) • Fully supervised power supply, battery and NACs • Selectable Strobe Synchronization for NACs (System Sensor, Gentex, Wheelock, and Amseco) • Coded signal synchronization • Removable terminal blocks for field wiring capable of accepting 12 - 18 AWG wire • Selectable Ground Fault detection by switch SWl • LED trouble diagnostics and history • Power supply trouble and AC Loss Form-C relay contacts (fail-safe) • Optional delay of AC loss reporting for 0, 2, 12, or 30 hours • Mounting location for optional addressable module • Up to four PS Series units can be cascaded 1.3 Specifications Refer to Figure 1.1 on page 10 for terminal locations. NOTE: The SK-PS6 uses the same PCB layout as the SK-PS10, however some terminals will be depopulated, leaving the SK-PS6 with five output circuits and two input circuits. Primary AC Power - TB4 • SK-PS6: 120 VAC, 50/60 Hz, 5.0 amps maximum • SK-PS10: 120 VAC, 50/60 Hz, 6.2 amps maximum • Wire size: #12-14 AWG wire with 600V insulation 8 SK-PS Series Instruction Manua( — P/N LS10227-002SK-E:B 3/19/2021 Open/Short/Ground Fault Trip Values in Standby System Overview ffil Command Input Circuits - T135, T136, T137 • Trigger Input Voltage: 9 - 32 VDC • Input Current Draw in Alarm Polarity: 9 - 32 volts, 14.0 mA maximum per input Output Circuits - TB8-TB14 • Supervised and power -limited • Voltage Rating: 24 VDC filtered • Current: — SK-PS6: TB8-TB9 — IA Regulated, 3A special applications; TB 10-TB 12 — 0.3A Regulated, 3A special applications — SK-PS 10: TB8-TB 11 — 1.5A Regulated, 3A special applications; TB 12-TB 14 — 0.3A Regulated, 3A special applications — Maximum total alarm current for all output: SK-PS6 - 6.0 amps SK-PS10 - 10.0 amps • Output Circuit Types: — Class B NACs (require 2kQ - 27kQ End -of -Line Resistors) and/or Class A NACs using the optional ZNAC-PS Class A converter module. Use Listed ELRs supplied by the FACP or compatible equipment manufacturer. — Resettable or non-resettable outputs for 24 VDC power outputs or Class D door holder (max ripple voltage: 780mVRMS) • Refer to the Silent Knight Device Compatibility Document #52612 for listed compatible devices. • For wiring requirements, refer to "Wire Requirements" on page 34. Trouble and AC Loss Relay Contact Rating - T1314132 • Fail-safe Form-C relay (normally energized, transfers with loss of power) • 4.0 amps @ 30 VDC resistive Secondary Power (battery) Charging Circuit - T1315 • Supervised, non -power -limited • Supports lead acid type batteries only • Float Charge Voltage: 27.6 VDC • Maximum Peak Charge Current: 2.47A • Maximum Nominal Charge Current: 1.5 A • Maximum Battery Capacity: 33.0 AH (with onboard battery charger) • Minimum Battery Capacity: 7.0 AH NOTE: The SK-PS only supports 7AH or 18AH batteries in the cabinet. Other battery capacities up to 33AH will not fit in the cabinet due to physical dimensions and require a separate battery cabinet. 1.4 Open/Short/Ground Fault Trip Values in Standby Table 1.1 lists the earth fault resistance detection in standby for each applicable terminal on the FACP. Output Circuit Terminal Trip Resistance (in ohms) NAC 1-5/7 + 9.9K or lower NAC 1-5/7 - 9.2K or lower ZNAC-PS 1-5/7 + 9.9K or lower ZNAC-PS 1-5/7 - 9K or lower Table 1.1 Earth Fault Trip Values Value of the resistance in between any circuit terminal to Earth, which will cause the Ground Fault detection, depends on the ELR cho- sen for inputs and output circuits. This resistance will vary from 9.9K down to 0 Ohm. Table 1.2 lists the open/short trip values and restoral values in standby for the NAC circuits on the FACP. Circuit Fault Trip Resistance (in ohms) Restore Value NAC 1-5/7 Short 1.6K or lower 1.7K or higher NAC 1-5/7 Open 55K or higher 33K or lower ZNAC-PS 1-5/7 Short 1.6K or lower 1.7K or higher ZNAC-PS 1-5/7 Open 45K or higher 21 K or lower Table 1.2 NAC Open/Short Trip Values 1.5 Switch SW1 - Ground Fault Detection The Ground Fault Detection circuit monitors for ground faults. Switch SWl is located on the lower left section of the power supply cir- cuit board. Sliding SWl to the left will disable ground fault detection by the power supply. This should only be done if ground faults are being monitored by an FACP connected to the SK-PS power supply or in a cascading application as shown in Section 2.8 on page 18. SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 9 System Overview Switch SWI - Ground Fault Detection Note: The SK-PS6 uses the same PCB layout, however some terminals will be depopulated, leaving the SK-PS6 with five output circuits and two inputs circuits. T134 AC Power Supervised, Non -power -limit AC2 (Neutral Earth AC (Hot) SW1 Ground Fault Detection (slide left to disable) (slide right to enable) Boa. �TB15 O +n I TB15 Supervised + Battery - Battery 24 VDC Non -power -limited Power -limited (Class 2), Supervised, Special Application or Regulated Outputs NAC/Out 7 - NAC/Out 7 + NAC/Out 6 - NAC/Out 6 + NAC/Out 5 - NAC/Out 5 + NAC/Out 4 - NAC/Out 4 + NAC/Out 3 - NAC/Out 3 + Form-C NAC/Out 2 - Fail -Safe Relays NAC/Out 2 + Non -supervised NAC/Out 1 - (shown energized) C/Out 1 + ur ur ur ft L 0� u eo o o o ooOutput Status LEDs NONC COM NONCCOM 0�0 - +- - + - + EO EO EO �0 �Trouble (yellow) ACTRWBLE TROUBLE p 0 o p V �Power (red) J8 ZNAC-PS Connector J8 0 T135, TB6, T137 Command Inputs 0 Input #1 O — O w EOL + + R I[--- EOL Input #2 IF z $ EOL EOL �` Input #3 B EOL z + EOL O O 0 LEDs — " Power (green) 11 0 Batt/Chgr Fault (yellow) -TT° Ground Fault (yellow) GLOBAL OPTIONS OUTPUT OUTPUTS OUTPUTS OUTPUT4 OUTPUTS OJTPJT3 GJTPJTI O Global Output 7 Output 6 Output 5 Output 4 Output 3 Output 2 Output 1 Options $I1 $2-$8 Programming DIP Switches Programming DIP Switch Activate output DIP switch changes by setting S1 for global options positions 9 and 10 appropriately. Refer to page page 23 for DIP Switch programming settings. Each output circuit has its own dedicated programming DIP switch Figure 1.1 SK-PS10 Board Layout 10 SK-PS Series Instruction Manua( — P/N LS10227-002SK-E:B 3/19/2021 Applications System Overview 1.6 Applications The SK-PS may be used in a number of different applications. It may be used as a remotely -mounted power supply and battery charger where it can provide up to seven coded or non -coded, synchronized or non -synchronized NACs (Notification Appliance Circuits). Alter- natively, any output can be used as a door holder circuit which will provide a steady 24 VDC output until an alarm condition or AC fail condition causes it to drop to 0 VDC following a selectable delay. See the DIP switch settings for S 1 global options on page 21. All out- puts can also provide power. One possible application for the SK-PS remote power supply utilizes the NAC repeater feature. In this application, one or two NACs are connected from the main FACP to the remote power supply command input circuits. When the command input circuits are activated by the reverse polarity of the NACs, the power supply will activate its corresponding output circuits as programmed by its DIP switch con- figuration (refer to Table 3.7 on page 23). During the inactive state, the remote power supply supervises its NAC field wiring for short and open conditions. If a fault is detected, the power supply will enter a trouble condition and illuminate the NAC Trouble LED. When the NACs are activated, the supervision is disabled and the circuits are no longer supervised (except for short circuit conditions). Supervision of other power supply faults such as low battery, battery charger trouble, ground fault and AC loss will continue and may be monitored via their respective trouble relay. If an application requires that all outputs activate at the same time, only one NAC is required from the FACR For this application, the NAC is connected to command input circuit #1 and the DIP switch is set for this operation. 1.7 Start-up Procedure 1. Configure the power supply switch as described in "Switch SW 1 - Ground Fault Detection" on page 9. 2. Install the power supply as described in "Installation" on page 12. 3. Program the power supply as described in "Programming Options" on page 20. 4. Wire the power supply circuits, referring to the options described in "Trouble Supervision" on page 29 and the application examples in "Application Examples" on page 35. 5. Connect primary power source wiring while observing the following: — Ensure the AC mains circuit breaker is off before making any wiring connections between the mains and the power supply. — Make certain primary power source is: 120 VAC, 50/60 Hz, 5.0 (6 amp model) 6.2 amps (10 amp model)Run a pair of wires (with ground conductor) from the protected premises main breaker box to TB4 of the power supply main circuit board. — Use #12-14 AWG gauge wire with 600V insulation. 6. Apply power to the power supply using the following procedure: — Apply AC power by turning on the AC mains circuit breaker connected to the power supply. — Connect a properly charged battery to connector TB 15 on the power supply main circuit board. 7. Clear trouble history using global DIP switch S 1 positions 9 and 10. See DIP switch settings in Table 3.6 on page 22. SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 11 Section 2: Installation Carefully unpack the system and check for shipping damage. Select a location for the cabinet that is in a clean, dry, vibration -free area where extreme temperatures are not encountered. The area should be readily accessible with sufficient room to easily install and main- tain the power supply. With the hinge mounting on the left, determine the number of conductors required for the devices to be installed and determine the appropriate knockouts. All wiring must be in accordance with the National and/or Local codes for fire alarm systems and power supplies. 2.1 Backbox Mounting CAUTION: STATIC SENSITIVE COMPONENTS THE CIRCUIT BOARD CONTAINS STATIC -SENSITIVE COMPONENTS. ALWAYS GROUND YOURSELF WITH A PROPER WRIST STRAP BEFORE HANDLING ANY BOARDS SO THAT STATIC CHARGES ARE REMOVED FROM THE BODY. USE STATIC SUPPRESSIVE PACKAGING TO PROTECT ELECTRONIC ASSEMBLIES. 1. Mark and pre -drill holes for the top two keyhole mounting bolts. 2. Install two upper fasteners in the wall with the screw heads protruding approximately ''/a". 3. Using the upper keyholes, mount the backbox over the two screws. 4. Mark the lower two holes, remove the backbox from the wall and drill the mounting holes. 5. Mount the backbox, install the remaining fasteners and tighten all screws.. Left 3.424" (8.697 Height = 21 (51.05 ci t cm) 0 0 0'(00 . I 1 .00000000000000000000000000000000000000000 aaaaeaaaaaaeeaaaaaeeaaaaeeaaaaeaaaaaaeeoom Backbox Top 2.01, t8 cm) 1.125" (2.868 cm) Bottom Figure 2.1 Backbox Mounting Dimensions Depth = 3.424" (8.697cm) 0 0 Right 12 SK-PS Series Instruction Manua( — P/N LS10227-002SK-E:B 3/19/2021 NAC Circuit Wiring Installation 2.2 NAC Circuit Wiring 2.2.1 Class B The standard configuration for NACs is Class B as shown below. Use Listed ELRs supplied by the FACP or compatible equipment man- ufacturer. 2k-27kQ ELR Alarm Polarity Shown 7F)LO1 Horn Strobe Horn Strobe + Horn Strobe + OUT7 OUT6 OUT5 OUT4 OUT3 OUT2 UT Q �a =O O O[A O O O o O O > po _ + p0 _ + �o _ + p0 _ + .o _ + po _ + po _ + SK-PS Circuit Board 0 mo .0 30 Figure 2.2 NAC Class B 2.2.2 ZNAC-PS Class A Option Module The ZNAC-PS is an optional Class A conversion module which mounts to connector J8 on the upper right side of the circuit board. This module allows the SK-PS6 or SK-PS 10 to support Class A Notification Appliance Circuits on all outputs. Class Apower supervision is also supported on output circuits #1 and #2 when either of these outputs are configured as resettable or non-resettable Auxiliary power. Two slide switches are located on the right side of the ZNAC-PS module to properly configure output circuits #1 and #2 for either NAC or Auxiliary Power operation, as described below. Note that there are no slide switches for the remaining outputs as these outputs do not support Class A power supervision. • For output #1, set the upper switch to either "NAC 1" or "AUXI" depending on the intended operation. • For output #2, set the lower switch to either "NAC2" or "AUX2" depending on the intended operation. NOTE: Class A supervision and the ZNAC-PS module are not intended for use with door holder operation. ZNAC-PS Option Module o / _ + Alarm \ Polarity Shown Horn Strobes ouT1 TB8 NAC1 - + NAC1 CLASSA A- A+ ZNAC-PS SK-PS Circuit Board Figure 2.3 Class A NACs using ZNAC-PS Option Module SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 13 Installation Addressable Module Mounting 2.3 Addressable Module Mounting The SK-PS has been designed to allow the mounting of an addressable control, relay, or monitor module on the main circuit board inside the power supply cabinet. This allows power to be fed from an SK-PS output circuit directly to the module, if needed, without running the power wires outside the cabinet. Remove mounting screws from the positions indicated below and replace with standoffs (included in hardware kit). Mount the module over the standoffs and secure with screws. Compatible modules include the SK-CONTROL, SK-MONITOR, SK-MONITOR-2, SK-RELAY, SK-RELAYMON-2, SK-CON- TROL-6, SK-RELAY-6, and SK-MON-10. 19 NOTE: PS -MOUNT, the optional hardware kit, ordered separately, contains all necessary hardware for mounting the ZNAC-PS onto the PCB with an additional multi -point module. o �0 �0 A '0 � �0 � �0 o ppo�� 0 . o o ,� s Install stacked standoffs 2 w� (0.5" + 1.093" M/F)oi n BBBBBBBB BBBBBBBB NBBBBBBBB NBBBBBBBB NBBBBBBBB NBBBBBBBB BBBBBBBB o`�� O O Eli WR rw IN W 0 L m � o o�s0 O - + 0 o Win" BBBBBBBB BBBBBBBB "BBBBBBBB NBBBBBBBB NBBBBBBBB NBBBBBBBB `o`" N N O Figure 2.4 Mounting a Single Module in the SK-PS Cabinet 0 I 0 0 install 1.093" MIF � standoffs 0 0 0 im uane mc�a uaroo oa rra e,areo a�a�� Il)( '1 0 *Ifthe SLC device does not match the one in this figure, refer to the SLC manual wiring conver- sion charts for legacy and newer versions of he modules. Note: For instructions on mounting a multi -module and a ZNAC-PS module, refer to the ZNAC-PS Install Sheet #LS10228-OOOGE-E. The multi -module must be installed upside down when the ZNAC-PS is installed. If the ZNAC-PS is not installed, the multi -module may be mounted in either direction. Figure 2.5 Mounting a Multi -Module in the SK-PS Cabinet 14 SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 NEC Power -limited (Class 2) Wiring Requirements Installation 2.4 NEC Power -limited (Class 2) Wiring Requirements Power -limited (Class 2) and non -power -limited circuit wiring must remain separated in the cabinet. All power -limited (Class 2) circuit wiring must remain at least 0.25" away from any non -power -limited circuit wiring and all power -limited (Class 2) circuit wiring and non -power -limited circuit wiring must enter and exit the cabinet through different conduits. One such example of this is shown below. Any conduit knockouts may be used. For power -limited (Class 2) applications, use of conduit is optional. AC Power Relay Contacts Output Circuits Non -power -limited Non -power -limited Circuit Power -limited Circuits (Class 2) 81W M I /hh\ � A� N� �� 6. .Ir ■Ir it I _ .. 1 1 - -- o o *If the SLC device + �+ does not match the 0 w m "s = �eO ffone in this figure, refer to the SLC man- O ual wiring conver- T. sion charts for legacy ° and newer versions of the modules. 0 m 0 TB15 - aaaeeeee , eeeaaeee eeeeeeee eeeeeee� �����eee eeeeeaaa eeeeeeee o Figure 2.6 Power -limited (Class 2) Wiring Example Input Circuits Power -limited Circuit (Class 2) SLC Power -limited Circuits (Class 2) maintain minimum 0.25" between power - limited and non -power - limited wiring SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 15 Installation FACP with SK-PS Power Supply in Slave Mode 2.5 FACP with SK-PS Power Supply in Slave Mode In this application, an SK-PS power supply, configured as a Slave unit, is connected to a master FACP programmed for synchronized output. . o v o V� o v ELR for FACP B5 NAC --�u� NAC programmed for sync TB5 or remote sync output SK-PS '�t'_u� 0 0 TB' o oa. TB15 B FACP Figure 2.7 Supervised Master/Slave Connections The following notes apply to Figure 2.7 on page 16 1. Refer to NFPA 72, Chapter 4-4, Visible Characteristics, Public Mode. 2. Use only devices from the same manufacturer in each system. 3. Set Output DIP Switch: position 3=ON, 4 = OFF, 5 = ON, 6 = OFF. 4. If the FACP has a dedicated sync output connector, wire the remote sync output connector to Input #1 terminals 2 and 3. 5. Input#1 is mapped to Slave mode output in this example, but it can programmed to another input using the DIP switches. 6. Notification appliances cannot be installed on the FACP control circuit connecting to the SK-PS input circuits. 2.6 SK-PS Power Supply in Master Mode Connected to FACP In this application, a master SK-PS power supply, set for synchronization, is connected to an FACP with non -synchronized output. o v o L 0 v ELR fore FACP TM NAC NAC with no synchronization TB SK-PS QE NAC1 0 o TBT o FACP 0 (also can be triggered by a T815 0 control module or relay module) o U O Figure 2.8 Supervised FACP to Master Connections (non -synchronized source) The following notes apply to Figure 2.8. 1. Refer to NFPA 72, Chapter 4-4, Visible Characteristics, Public Mode. 2. Set Output DIP switches to the desired sync protocol as described below. Refer to the Device Compatibility Document for compatible devices. DIP Switch Position Synchronization Type 3 4 5 6 ON OFF ON OFF Slave mode (NAC follower) OFF ON ON OFF Master mode -ANSI Temporal (Temporal 3) ON ON ON OFF Master mode - CO Temporal (Temporal 4) OFF OFF OFF ON Master mode - Amseco/Potter OFF ON OFF ON Master mode - Gentex OFF OFF ON ON Master mode - System Sensor OFF ON ON ON Master mode - Wheelock ON OFF OFF ON Master mode, Selective Silence -Amseco/Potter ON ON OFF ON Master mode, Selective Silence - Gentex 16 SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 Connecting to an External Charger Installation ON OFF ON ON Master mode, Selective Silence - System Sensor ON ON ON ON Master mode, Selective Silence - Wheelock 3. Use only devices from the same manufacturer in each zone or field of view. 4. Input#1 is mapped to Master mode output in this example, but it can programmed to another input using the DIP switches. 5. Notification appliances cannot be installed on the FACP control circuit connecting to the SK-PS input circuits. 2.7 Connecting to an External Charger The SK-PS Power Supply can be connected to an external charger to charge systems requiring over 33AH batteries. Ensure all power has been disconnected before wiring. Observe polarity when making connections. Wiring must be in conduit within 20 feet (6.096m) in the same room. 2.7.1 CHG-120F 1. Set S 1 position 4 on the SK-PS Power Supply to the OFF position to disable the onboard battery charger. 2. Connect the battery cables between TB 15 (+ and —) on the SK-PS and the CHG-120F charger output circuit (TB2: Out 1+ and Out 1—) as shown in Figure 2.9. Be certain to observe polarity. 3. Connect the batteries to the charger. 4. Connect the battery interconnect cable only after AC power is applied and batteries are connected. Refer to the CHG-120FManual for more information. rg, s Note: If batteries are 000000000 uu®w °„� ... 0� M �qm ° disconnected at the CHG-120F ° CHG-120 terminals, Charger battery supervision will I be managed by the - PS Series Power Supply CHG-120 I T132 * Set S1 position 4 to the OFF position to Batte interconnect cable disable charger — + — + .10 ° 12V battery 12V battery o �9 �� y FFFFFF9 eeeeeeee meeeeeeee „eeeeeeee eeeeeeee eeeeeeee yeeeeeeee eeeeeeee o Figure 2.9 Connecting the Power Supply to a CHG-120F Charger 2.7.2 CHG-75 1. Set S 1 position 4 on the SK-PS Power Supply to the OFF position to disable the onboard battery charger. 2. Connect the battery cables between TB 15 (+ and —) on the SK-PS and the CHG-75 charger output circuit (TB2: Out+ and Out—) as shown in Figure 2.10. Be certain to observe polarity. 3. Connect the batteries to the charger. 4. Connect the battery interconnect cable only after AC power is applied and batteries are connected. Refer to the CHG-75 Manual for more information. 0 0 F1 �I� CHG-75 h„s o00000 III Charger apa T132 9 ® ® MEMO 12V 12V battery battery 0 * PS Series Power Supply o o o Set S1 position 4 to the OFF position to disable charger ° ° ®oMEN MEN oo00 Figure 2.10 Connecting the Power Supply to a CHG-75 Charger SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 17 Installation Cascading Multiple Units 2.8 Cascading Multiple Units Up to four SK-PS power supplies can be cascaded together to provide additional NAC extenders for a system. Maintain separation of power -limited and non -power -limited wiring as shown in Figure 2.6 on page 15. Figures 2. It and 2.12 show the controlling signal connected to Input 1 of SK-PS 1. However, typically any available Input of SK-PS 1 can be used. Figures 2.11 and 2.12 show NAC7 of SK-PS1 - SK-PS3 as the cascading output. However, any available Output of SK-PS1 - SK-PS3 can be used. 19 NOTE: Any mode of operation that requires an additional control signal (i.e. a trigger signal), such as Selective Silence or Sync Mode, will affect which Inputs may be available on PSE1 for use with cascading. (Triggers signals are usually assigned to Input 2.) Refer to those sections of the manual for specifics. NAC or remote sync output n a fd� A SK-PS4 SK-PS3 SK-PS2 SK-PS1 Figure 2.11 System Sync Connections Triggered by FACP The following notes apply to Figure 2.11. 1. Set all SK-PS units to Slave (sync follower) mode. 2. The debounce/dej itter setting must be set to 1 msec on all cascaded units. See Table 3.3 on page 21. 3. Any output used for remote sync applications cannot have notification appliances installed on the same circuit. 4. Notification appliances cannot be installed on the interconnecting control circuits. 5. The total line impedance for interconnected units cannot be such that it creates a voltage drop > 3.2 VDC. 6. Ground fault supervision is provided via the general trouble relay. Enable ground fault detection on SK-PS 1 and disable detection on SK-PS24 with negative (-) battery terminals tied together. FACP ground fault supervision will be independent of cascaded PSE1-4. (FACP negative battery terminal is not tied to PSE1). Regulated 24VDC UL864listed t ° °U 94098a' °0ft ro ro power supply o&o oeo n a n a ®a n a SLC ® - ® Control FACP Module SK-PS4 SK-PS3 SK-PS2 SK-PS1 Figure 2.12 System Sync Connections Triggered by Control Module The following notes apply to Figure 2.12. 1. Set SK-PS1 to Master Mode, and the desired strobe/horn type. Set remaining SK-PS units to Slave (sync follower) mode. 2. The debounce/dejitter setting must be set to 1 msec on SK-PS2 - SK-PS4 units. See Table 3.3 on page 21. 3. Strobe/Horn devices connected to the SK-PS units are not guaranteed to be in sync with FACP devices when using this configuration 4. Any output used for remote sync applications cannot have notification appliances installed on the same circuit. 5. Notification appliances cannot be installed on the interconnecting control circuits. 6. The total line impedance for interconnected units cannot be such that it creates a voltage drop > 3.2 VDC. 7. Ground fault supervision is provided via the general trouble relay. Enable ground fault detection on SK-PS 1 and disable detection on SK-PS24 with negative (-) battery terminals tied together. FACP ground fault supervision will be independent of cascaded PSE1-4. (FACP negative battery terminal is not tied to PSE1). 18 SK-PS Series Instruction Manual - P/N LS10227-002SK-E:B 3/19/2021 Notes SK-PS Series Instruction Manua( — P/N LS10227-002SK-E:B 3/19/2021 19 Section 3: Programming Options NOTICE TO USERS, INSTALLERS, AUTHORITIES HAVING JURISDICTION AND OTHER INVOLVED PARTIES This product incorporates field -programmable software. In order for the product to comply with the requirements in the Standard for Control Units and Accessories for Fire Alarm Systems, UL 864, certain programming features or options must be limited to specific values or not used at all as indicated below: Program feature or Permitted in Settings Settings UL864 and ULC Possible settings permitted in permitted in option S527? (Y/N) UL 864 ULC S527 Door Holder Dropout Y Refer to "AC Loss Door Holder Dropout Timer" on Does not drop Does not drop Delay page 22. 15 seconds 15 seconds • Does not drop 60 seconds 60 seconds • 15 seconds 5 minutes 5 minutes • 5 minutes • 60 seconds AC Loss Delay Timer Y Refer to "AC Fail Indication Delay" on page 22. 2 hoursl 2 hours • 30 hours none none • 12 hours • 2 hours • none Table 3.1 Agency -Permitted Programming Settings 1 A two hour delay is only permitted on an addressable FACR This section describes the programming options available via DIP switch settings. The SK-PS can be field programmed using DIP switches S 1-S8 which are located at the bottom of the circuit board. S 1 controls the global options of the power supply and S2-S8 control the functions of each output circuit, respectively. Refer to the following illustration for switch locations and DIP switch placement in the ON and OFF positions. Important. Activate output DIP switch changes by setting SI positions 9 and 10 appropriately. Refer to Table 3.6 on page 22 for DIP Switch programming settings. TB15 S 1 S2-S8 0 ■ ■ ❑ ❑ ❑ ■ 0 ❑ ❑ ❑ ❑ ❑ ❑ ❑ • 7 i • 10 1 2 3 4 5 • 7 i Switches 1 through 9 shown Switches 1 through 7 shown in OFF (Open) position Switch 10 shown in in OFF (Open) position ON (Closed) position Switch 8 shown it ON (Closed) position Figure 3.1 Field Programming DIP Switches 20 SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 Sl Global Options DIP Switch Programming Options 3.1 S1 Global Options DIP Switch The following table lists the global control options for the SK-PS programmable features and the switch settings required to select a par- ticular feature. A detailed description of each feature is presented in the following pages. Refer to Table 3.1 for UL-compliant settings. S1 DIP Switch OFF ON 1,2 These switches determine the command input debounce/dejitter setting (Setting applies to ALL inputs). 1 OFF, 2 OFF = Temporal (for ANSI temporal signals) 1 ON, 2 OFF = 50Hz (20 msec, for full wave rectified signals) 1 OFF, 2 ON = 6 msec (for strobe sync signals, control/relay modules) 1 ON, 2 ON = 1 msec (for strobe sync signals, control/relay modules) 3 Command Input #1 configured for Slave Mode Sync input3 Command Input #1 configured as normal 4 Internal battery charger = disabled Internal battery charger = enabled 5,6 These switches determine door holder dropout delay after AC power loss 5 OFF, 6 OFF= Power does not drop out 5 ON, 6 OFF = 5 minutes 5 OFF, 6 ON = 60 seconds 5 ON, 6 ON = 15 seconds 7,8 These switches determine the AC loss delay timer 7 OFF, 8 OFF = 30 hours 7 ON, 8 OFF = 12 hours 7 OFF, 8 ON = 2 hours 7 ON, 8 ON = none 9, 10 These switches determine the operating mode of the power supply. Return switches to normal mode to exit change output circuit configurations and display trouble history modes! 9 OFF, 10 OFF = normal 9 ON, 10 OFF = change output circuit configurations 9 OFF, 10 ON = display trouble history 9 ON, 10 ON = normal Table 3.2 S1 Global Options DIP Switch Settings Debounce/dejitter provides settling time for input signals to avoid false triggers. Strobe synchronization only works with non -coded NACs. Output circuit(s) must be set to activate on Input #2. See, "Command Input #1" below. 3.1.1 Global Programmable Features Description Input Debounce/Dejitter/Delay Signals from electronic circuits or relay contacts can have a small unstable time when changing state (OFF to ON, or ON to OFF). This means the signal can briefly "bounce" between states before stabilizing to the desired state, causing signal "jitter" during this time. The SK-PS provides four "debounce/dejitter" settings, as shown in the table below. These settings provide time for a NAC Input signal to sta- bilize before that NAC Input will recognize it as a valid signal, and not just "noise", so as to prevent false activation of Output circuits. Input debounce settings can be used as needed. Unless the system experiences input "noise" issues, apply lms setting for general use. Position 1 Position 2 Setting Notes OFF OFF Temporal Debounces ANSI temporal signals. Allows for a 0.5 second ON signal with an almost 2 second OFF signal to trigger a continuous ON input signal. Do not use for strobe sync signals. ON OFF 50Hz (20msec) Debounces FWR (full wave rectified signals). Allows an input signal with 50Hz, 33% duty cycle to trigger a continuous (i.e. filters FWR input signal to appear constantly on) ON input signal. May apply to legacy panels. Do not use for strobe sync signals. OFF ON 6 msec Input delay for strobe sync signals (i.e. Slave mode using sync input), or control/relay modules (i.e. Master or Aux. power mode using trigger input). ON ON 1 msec Input delay for strobe sync signals (i.e. Slave mode using sync input), or control/relay modules (i.e. Master or Aux. power mode using trigger input). Must be the only one used when cascading Power Strike units. Refer to Section 2.8, "Cascading Multiple Units", on page 18. Table 3.3 Debounce/Dejitter Settings SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 21 Programming Options Sl Global Options DIP Switch Command Input #1 Power supply Output circuits can be configured to "follow" a sync pattern that is input to Command Input #1 (T135), either immediately (Normal Mode), or only after a trigger signal (Sync Input Mode) is applied at Command Input #2 (T136). In Sync Input Mode an output circuit will only output the Command Input #1 sync pattern when Command Input #2 is receiving a valid (9V - 32V) trigger signal. See "Command Input #1 - Normal/Sync Mode of Operation" on page 25 for additional information. Charger Enable/Disable The SK-PS battery charger can be disabled to accommodate an external battery charger, such as the CHG-75 or CHG-120F. Setting DIP switch position 4 to the OFF position will disable the charger. Setting DIP switch position 4 to the ON position will enable the charger. It should only be disabled if an external battery charger is being used for the SK-PS. AC Loss Door Holder Dropout Timer Any output can be configured as a NAC, aux power, or door closer circuit. Configuring an output circuit as a door closer circuit will pro- vide a steady 24 VDC to door holders until an alarm condition or an AC fail condition. Upon an alarm condition, power to door holder circuits will be removed, causing doors to close immediately. During an AC fail condition, the door holder will remain energized until the programmed AC fail indication delay expires. Programmed delays are only applicable to AC loss conditions. Refer to Table 3.1 for UL-compliant settings. DIP switch positions 5 and 6 are used to select the door holder dropout timer as listed below: Position 5 Position 6 Door holder dropout delay after AC loss OFF OFF Power does not drop out with AC loss ON OFF 5 minutes OFF ON 60 seconds ON ON 15 seconds Table 3.4 Door Holder Dropout Settings AC Fail Indication Delay The AC Fail Indication Delay feature provides the option to delay generation of a trouble signal upon the loss of AC power. Refer to Table 3.1 for UL-compliant settings. DIP switch positions 7 and 8 are used to select the AC Fail Indication Delay as listed below: Position 7 Position 8 AC Fail Indication Delay OFF OFF 30 hours ON OFF 12 hours OFF ON 2 hours ON ON none Table 3.5 AC Loss Delay Settings Refer to "AC Trouble Relay" on page 29, for operation of internal NAC trouble relay in response to AC loss. Special Operating Modes The power supply can be placed in two special operating modes per settings in Table 3.6. They are Change Output Circuit Configura- tions and Display Trouble History. Upon completion of either of these two modes, the system must be placed back in normal operating mode. Note that the current operation of all outputs will not be affected or disturbed while in either of these two special operating modes. Change Output Circuit Configurations mode: NOTE: DIP switch settings may be changed to the desired configuration either before or after entering Change Output Circuit Configurations mode. 1. Enter this mode via the setting shown in Table 3.6. Once entered, the Output trouble LEDs will continually flash from right to left to confirm the SK-PS is in Change Output Configuration mode. 2. Configure settings on the Output DIP switches as needed (see Note above). 3. Return to Normal Operating mode via either of the two settings shown in Table 3.6. The output trouble LEDs will stop the flash pattern described above to confirm Normal mode has been restored. The SK-PS power supply offers a trouble history mode. To see past troubles on the system, place position 9 to OFF and position 10 to ON. Refer to Section 4 for descriptions of troubles. Trouble history will be erased upon returning to Normal operating mode. DIP switch positions 9 and 10 are used to select the type of operating mode as listed below: Position 9 Position 10 Operating Mode OFF OFF Normal ON OFF Change output circuit configurations Table 3.6 Operating Mode 22 SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 Output Circuit Control DIP Switch Settings Programming Options OFF ON Display Trouble History ON ON Normal Table 3.6 Operating Mode 3.2 Output Circuit Control DIP Switch Settings Each output circuit has its own programming DIP switch. DIP switches S2-S8 are labeled on the PCB to indicate which output circuit it is controlling. Output circuits are labeled at the top of the PCB, TB8-TB14.The following table applies to DIP Switches S2-S8. Important! If an output circuit is overloaded, the output will shut off and generate a trouble signal. If this happens, the SK-PS will need to be reset manually. Either reset circuit configurations by toggling switch S 1 position 10 to the OFF position for a minimum of five sec- onds or turn off primary and secondary power and reapply to the SK-PS. DIP Switch Position Output Control Setting/Operation 1 2 OFF OFF NAC output will activate when Command Input #1 is activated. ON OFF NAC output will activate when Command Input #2 is activated. (Exception: this Input controls Horn silencing during Selective Silence operation.) OFF ON NAC output will activate when Command Input #3 is activated, if available. (If accidentally programmed on a SK-PS6, the system will default to Input #2.) ON ON NAC output will activate when ANY Command Input is activated. 3 4 5 6 Output Control Setting/Operation OFF OFF OFF OFF Unused/Unsupervised. Outputs will not activate. Factory default setting. ON OFF OFF OFF Reserved- Outputs will not activate OFF ON OFF OFF Non-resettable auxiliary power OFF OFF ON OFF Resettable aux power ON ON OFF OFF Door holder auxiliary power ON OFF ON OFF Slave mode (NAC follower) OFF ON ON OFF Master mode -ANSI Temporal (Temporal 3) ON ON ON OFF Master mode - CO Temporal (Temporal 4) OFF OFF OFF ON Master mode - Amseco/Potter OFF ON OFF ON Master mode - Gentex OFF OFF ON ON Master mode - System Sensor OFF ON ON ON Master mode - Wheelock ON OFF OFF ON Master mode, Selective Silence - Amseco/Potter ON ON OFF ON Master mode, Selective Silence - Gentex ON OFF ON ON Master mode, Selective Silence - System Sensor ON ON ON ON Master mode, Selective Silence - Wheelock 7 Output Control Setting/Operation (Only applies when ZNAC-PS is installed) OFF Class B ON Class A 8 Output Control Setting/Operation (Unused) OFF Unused/Unassigned ON Unused/Unassigned Table 3.7 S2-S8 Output Circuit DIP Switch Settings 3.2.1 Output Circuit Programmable Features Description Command Inputs/NAC Circuits The SK-PS allows for individual NAC circuit programming. Each NAC can be configured to activate based on the settings selected for up to 3 command inputs. Position 1 Position 2 Output to Command Input Assignment OFF OFF NAC will activate when Input #1 activates. ON OFF NAC will activate when input #2 activates. (Exception: this Input controls Horn silencing during Selective Silence operation.) Table 3.8 NAC Activation Settings SK-PS Series Instruction Manua( — P/N LS10227-002SK-E:B 3/19/2021 23 Programming Options Output Circuit Control DIP Switch Settings OFF ON NAC will activate when input #3 activates. (Input #3 is only available on the SK-PS10 model. If selected on SK-PS6, this setting will default to input #2.) ON ON NAC will activate when any input (1, 2, or 3) activates. Table 3.8 NAC Activation Settings Unused Outputs The factory default setting for all output circuits is "unused/unsupervised" where positions 3, 4, 5, and 6 are set to the OFF position. Any unused or disabled outputs in the system configuration must be set to OFF as shown below. Position 3 Position 4 Position 5 Position 6 Auxiliary Power Type OFF OFF OFF OFF Unused/Unsupervised. Outputs will not activate. Factory default setting. ON OFF OFF OFF Reserved- Outputs will not activate Table 3.9 Auxiliary Power Settings Remote Supply with Resettable and Non-resettable Power Each output circuit on the SK-PS can be used as a remote stand-alone power supply to provide power to any devices that require filtered, resettable or non-resettable power. The SK-PS can provide up to 3 amps of continuous current. Non-resettable power is suitable for pow- ering annunciators and other peripheral equipment. Resettable power is suitable for four -wire smoke detectors. Resettable outputs reset when the mapped input receives a negative pulse trigger signal from FACP or control module. There will be a three second delay prior to output reset. The output reset will last 10 seconds. Set DIP switches positions indicated in Table 3.10 below to select auxiliary power type. Position 3 Position 4 Position 5 Position 6 Auxiliary Power Type OFF ON OFF OFF Non-resettable (constant) aux power OFF OFF ON OFF Resettable aux power Table 3.10 Auxiliary Power Settings Door Holder Each output circuit can be configured as a door holder circuit. Setting DIP switch positions according to Table 3.11 will configure the selected output circuit as a door holder circuit which will provide a steady 24 VDC to door holders until a mapped input activates an alarm or when an AC fail condition removes the power following a programmable delay. See "AC Loss Door Holder Dropout Timer" on page 22 for more information. Position 3 Position 4 Position 5 Position 6 1 Door Holder ON ON OFF OFF I Set as door holder circuit Table 3.11 Door Holder Power Synchronization Mode - Master/Slave The SK-PS power supply can be configured for Master or Slave Synchronization by setting DIP switches according to Table 3.12. Syn- chronization is a feature that controls the activation of notification appliances in such a way that all devices will turn on and off at exactly the same time. This is particularly critical when activating strobes which must be synchronized to avoid random activation and a poten- tial hazard or confusion. In some installations, it is necessary to synchronize the flash timing of all strobes in the system for ADA compliance. Strobes accomplish this by monitoring very short timing pulses on the NAC power which are created by an FACP with synchronization capability. When installed at the end of a NAC wire run, this power supply can track (follow) the strobe synchronization timing pulses on the existing NAC wire run. This maintains the overall system flash timing of the additional strobes attached to this power supply. Note that strobe synchronization works only with non -coded NACs. When the output circuit is configured as a sync generator (Master Synchronization mode), the sync input circuit will only be used to trig- ger the output. The power supply is the originator of the strobe synchronization pulse on the NAC output. Refer to Table 3.12 to select the desired Master mode sync type. When the output circuit is configured as a sync follower (Slave Synchronization mode), the power supply's NAC outputs track the strobe synchronization pulses present at the supply's Input terminals (based on the settings selected from Table 3.8). The pulses originate from an upstream FACP or other power supply. Some FACPs provide synchronization timing pulses from a dedicated sync output connector. Connect the SK-PS input terminals to the FACP sync output connector instead of the FACP NAC. If circuits are configured for both master and slave mode, devices must be installed in different zones or field of view on a circuit basis. Position 3 Position 4 Position 5 Position 6 Synchronization Type ON OFF ON OFF Slave mode (NAC follower) - NAC outputs track Command Input Circuits OFF ON ON OFF Master mode - ANSI Temporal (Temporal 3) Table 3.12 Sync Mode - Master/Slave Settings 24 SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 Output Circuit Control DIP Switch Settings Programming Options 111 ON ON ON OFF Master mode - CO Temporal (Temporal 4) OFF OFF OFF ON Master mode - Amseco/Potter OFF ON OFF ON Master mode - Gentex OFF OFF ON ON Master mode - System Sensor OFF ON ON ON Master mode - Wheelock Table 3.12 Sync Mode - Master/Slave Settings Master Mode - Selective Silence Selective Silence allows the silencing of the sounder portion of a horn/strobe combination device without turning off the strobe. Selec- tive Silence is only supported while in Master mode setting for Amseco, Gentex, System Sensor, and Wheelock. Refer to Table 3.13 to select the desired Master mode, Selective Silence sync type. NOTE: Do not apply synchronization signals to Command Input #1 and 2. Only trigger signals are allowed (i.e. constant 9-32 VDC). Synchronization signal is internally generated by the system when in Master mode. Only Command Inputs #1 and #2 are used to control the Selective Silence operation. (Command Input #3 on SK-PS10 does not support Selective Silence.) Input #1 is for activating the horn/strobe devices, while Input 2 only controls sounding of the horns. Input #1 must be active for Input #2 to have any effect on NAC outputs set for Selective Silence. The list below provides additional detail. • If only Command Input #1 is active, only the strobes will be activated. • If both Command Input #1 and #2 are active, strobes and horns will be activated. • If only Command Input #2 is active, NAC outputs will not be activated. • If neither Command Input #1 nor #2 is active, NAC outputs will not be activated. Position 3 Position 4 Position 5 Position 6 Synchronization Type ON OFF OFF ON Master mode, Selective Silence - Amseco/Potter ON ON OFF ON Master mode, Selective Silence - Gentex ON OFF ON ON Master mode, Selective Silence - System Sensor ON ON ON ON Master mode, Selective Silence - Wheelock Table 3.13 Master Mode - Selective Silence Settings Command Input #1 - Normal/Sync Mode of Operation For Normal Mode of operation, see previous section. Sync Mode is an available option for the Slave Synchronization operating mode (see previous section). Sync Mode differs from the Slave Synchronization Normal Mode of operation because it requires an additional "trigger" signal to activate the output(s). Once the trigger signal is active, the corresponding output(s), as selected by the Output DIP Switch settings, will follow any synchronization sig- nal provided to Input #1. • Input #1 is dedicated as the follower input for any synchronization signal received into this input. Do not apply the trigger signal to this input. • Input #2 is used for the trigger input for either the 6 amp or 10 amp models. Do not apply the synchronization signal to this input. • Input #3 can also be used for the trigger input, but is only available on the 10 amp model. Do not applysynchronization signal to this input. • Use only one input (Input #2 or #3) at any one time for the trigger input. • A trigger signal between 9-32VDC is required for proper operation. • Set the Global DIP switch, S 1 position 3, to the OFF position. See below: NOTE: If Input #1 signal is lost while Input #2 (or Input #3, if available) trigger is active, output circuits will deactivate. S1 DIP Switch I OFF I ON 3 1 Command Input #1 configured for Sync input I Command Input #1 configured as normal Set DIP switch positions 1 and 2 according to which input circuit, #2 or #3, is used as the trigger input as shown below. Position 1 Position 2 Trigger Input Assignment For Sync Mode Operation ON OFF NAC will activate when Input #2 activates OFF ON NAC will activate when Input #3 activates (Input #3 is only available on the SK-PS10 model. If selected on SK-PS6, this setting will default to input #2.) DIP switch positions 4, 5, and 6 should be set to Slave Mode as shown below: Position 3 Position 4 Position 5 Position 6 Synchronization Type for Sync Mode Operation ON OFF ON OFF I Slave mode (NAC follower) - NAC outputs track Command Input Circuits Table 3.14 Sync Mode Settings SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 25 Programming Options Output Circuit Control DIP Switch Settings Class A Wiring NAC circuits (all outputs) and aux power circuits (outputs 1 and 2) can be converted to Class A wiring using the ZNAC-PS option card. Setting DIP switch position 7=ON when a selected output circuit is configured for Class A wiring. The default setting is OFF for Class B wiring. ■ Maximum Number of Strobes for Synchronization The total current draw for each Notification Appliance Circuit cannot exceed 3.0 amps special application, 1A (6 amp model) or 1.5A (10 amp model) regulated. Refer to the manufacturer's documentation supplied with the strobe to determine the maximum current draw for each strobe and ensure that the circuit maximum is not exceeded. To ensure proper strobe and circuit operation, there is also a limit to the number of strobes that can be attached to each circuit. Following is a table of the strobes that have been tested with the power supply and the maximum number that can be connected to each NAC when using the lowest candela settings. Make sure that the NAC maximum current is not exceeded: Manufacturer max. number of strobes System Sensor 69 Gentex 42 Wheelock 50 Amseco/Potter 34 Table 3.15 Maximum Number of Strobes 1 These values are for strobe -only devices at the minimum candela setting. Values will be different for strobe/horn and horn -only devices. Refer to the manufacturer's installation documents for values on these devices. 26 SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 Section 4: LED Indicators The SK-PS power supply has 3 system LED indicators for Power, Batt/Chgr Fault, and Ground Fault. In addition, each available output circuit also has 2 status LEDs. Refer to Figure 1.1 on page 10 for LED locations. A description of each SK-PS LED indication is given below. Ground Fault LED (yellow) No Fault Fault Condition: ground fault Power LED (green) No Fault LED is OFF O LED is ON constant ,O LED is ON constant .O. Fault Condition: Repeating LED blink pattern (non -diagnostic mode and diagnostic mode) power loss (or ) brownout) -i•; 1 s- O O O O O O O O 1 short blink (250ms) pause 250ms 1250ms 125omsi 250msi 250msl250msl250msl250msi 1000ms Battery fault LED (yellow) No Fault LED is OFF O Fault Condition: Repeating LED blink pattern (non -diagnostic mode and diagnostic mode) Charging path (FETs) failure 1 short blink (250ms) -0- \ 010 O O O O O O pause 250ms 1250ms 125omsi 250msi 250ms 250ms 250ms 250ms 1000ms Fault Condition: Repeating LED blink pattern (non -diagnostic mode and diagnostic mode) Charger voltage too low or Charger Diode Fault _`O O ,O O pause O O O O O 2 short blinks (250ms) 250ms 250ms 250ms 250ms 250ms 250ms 250ms 250ms 1000ms Fault Condition: Repeating LED blink pattern (non -diagnostic mode and diagnostic mode) Battery discharged/overcharged 3 short blinks (250ms) _ � ' -'O`_ O _/O_ O O 010 pause 250ms 1250ms 1250msi250msi 250msl250msl250msl250msi 1000ms Fault Condition: Repeating LED blink pattern (non -diagnostic mode and diagnostic mode) Battery disconnected/fully discharged -O\_ O O O O` O O`- O O pause 4 short blinks (250ms) 250ms 1250ms 1250msi 250msi 250ms 250ms 250ms 250ms 1000ms SK-PS Series Instruction Manual — P/N LS1O227-OO2SK-E:B 3/19/2021 27 LED Indicators Output Circuit Status LEDs (red) Output inactive LED is OFF O Output active LED is ON constant Output Circuit Trouble LEDs (yellow) No Fault LED is OFF O Fault Condition (Normal/Standby Mode): Repeating LED blink pattern (non -diagnostic mode and diagnostic mode) Wire Supervision Class A or B Open circuit -O O O O O O O O O pause 1 short blink (250ms) 250ms 1250msl250msl250msl250msl250msl250msl250msI 1000ms Fault Condition (Normal/Standby Mode): Repeating LED blink pattern (non -diagnostic mode and diagnostic mode) Wire Supervision Class A or B Short Circuit -,O O '0_ O O O O O O pause 2 short blinks (250ms) 250ms 1250ms 250ms 250msi 250msl250msl250msl250msi 1000ms Fault Condition: Repeating LED blink pattern (non -diagnostic mode and diagnostic mode) Aux Power Supervision Class A Open circuit ,O101,O O _'O`_ O � O � O � O (ZNAC-PS Circuit #1 and #2 only) � � � � pause 3 short blinks (250ms) I 250ms 1250ms 1250msi 250msi 250msl250msl250msl250msi 1000ms Fault Condition: Repeating LED blink pattern (non -diagnostic mode and diagnostic mode) Power limit condition (individual ckt overload) 4 short blinks per individual circuit (250ms) _O_ O O O O O O O O pause Fault Condition: Power limit condition (panel overload) 250ms 250ms 250ms 250ms 250ms 250ms 250ms 1250ms 1000m7 4 short blinks on all output circuits (250ms) Operating Mode Fault: Repeating LED blink pattern (non -diagnostic mode) Power Supply not in Normal Operating mode 1 shot blink from right to left across all output -O\ O O O O O O O O pause circuiSet positions 9 and 10 on S1 to the ON I 250ms 1250msl250msl250msl250msl250msl25OMS125OMS1 1000ms position 28 SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 Section 5: Trouble Supervision The FACP will detect SK-PS power supply faults. Any of the following conditions will cause the trouble contact to open, provided the FACP Notification Appliance Circuit is not in alarm. 5.1 Trouble Supervision Using Input Circuits The FACP (Fire Alarm Control Panel) supervises the connection between itself and the SK-PS via the control panel's NAC End -of -Line Resistor (ELR). To supervise the SK-PS, an ELR must be installed across terminals 1 & 4 of Command Inputs #1 and #2 (and #3 for the 10 amp models). A field wiring fault on the NAC output of the SK-PS will trigger a disconnection of the ELR at the related Command Input, causing a general NAC trouble at the FACP provided the FACP's NAC is not in alarm. Refer to Section 3.2, "Output Circuit Con- trol DIP Switch Settings", on page 23 for input/output configuration assignment. The following are exceptions. 1. Resettable Aux Power, Non-Resettable Aux Power, and Door Holder Aux Power outputs that trigger the Trouble relay during an output trouble instead of breaking the ELR connection at the Command Input regardless of the output to input relationship (i.e. mapping). Refer to 5.2, "Trouble Relay" below. 2. Faults are only reported by Command Input #1 when Selective Silence output mode is controlled by Command Input #1 and #2. 3. Faults are only reported by the trigger input when Command Input #1 is configured for Sync Input mode operation controlled by a sync and trigger input. If the SK-PS is in alarm, only a short circuit on the NAC will be detected as a trouble. If other trouble monitoring is required when the power supply is in alarm, the Trouble Relay at TB 1 and AC Trouble at T132 can be used for this purpose. 5.2 Trouble Relay The SK-PS power supply has a fail-safe Form-C trouble relay located at TB 1. The contacts can be monitored by an FACP input circuit or an addressable monitor module as illustrated in Figure 5.1. Note that any faults reported by Command Inputs are not repeated by the trouble relay, offering limited trouble reporting. Trouble conditions that will cause the normally energized trouble relay to change states regardless of whether the panel is in alarm or standby: • A battery fail condition at the power supply • A battery charger fail on the power supply • A ground fault condition on the power supply • A field wiring fault on the SK-PS output in Resettable Aux Power, Non-Resettable Aux Power, or Door Holder Aux Power mode • A total panel overload fault If trouble monitoring is required when the power supply is in alarm, the Trouble Relay at TB 1 can be used for this purpose. Refer to Figure 5.1 below. NOTE: The individual NAC Trouble LED will indicate which NAC circuit is in trouble. Monitor Module ELR 0 TB4 O F1� NO NC C NO NC C AC Trouble Trouble SK-PS 5.3 AC Trouble Relay NO O . b T11 O NC T10 T1 Ts Tz 7 T7 TS T3 T7 T _ TS � � Ts T6 n O O 0 ble Relay Monitor Module* Figure 5.1 Monitoring the Trouble Relay *If the SLC device does not match the one in this figure, refer to the SLC manual wiring con- SLC version charts for legacy and newer versions of the modules. The SK-PS power supply has a fail-safe Form-C trouble relay located at T132. The contacts can be monitored by an FACP input circuit or an addressable monitor module similar to the drawing illustrated in Figure 5.1. The AC Trouble Relay responds to an AC fail condition on the SK-PS immediately, or after a programmed delay time, depending on the setting of S 1 switches 7 and 8. The reporting of AC loss to a central station is usually delayed in order to prevent multiple transmissions of AC loss and restoral, allow- ing AC power to stabilize. When a host FACP is programmed to delay AC loss reporting, the SK-PS must be configured to delay the reporting of AC fail. This is accomplished by setting S 1 positions 7 and 8. Refer to the DIP switch setting chart in Table 3.5 on page 22. This will prevent AC loss from being reported as a trouble condition for 30, 12, 2, or 0 hours. Note that only no delay and the 2 hour delay are acceptable per UL 864 and UL 2572. SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 29 Notes 30 SK-PS Series Instruction Manua( — P/N LS10227-002SK-E:B 3/19/2021 Section 6: Power Supply Requirements 6.1 Overview This section contains instructions and tables for calculating power supply currents in alarm and standby conditions. This is a four -step process, consisting of the following: 1. Calculating the total amount of AC branch circuit current required to operate the system 2. Calculating the power supply load current for secondary non -fire and fire alarm conditions 3. Calculating the size of batteries required to support the system if an AC power loss occurs 4. Selecting the proper batteries for your system 6.2 Calculating the AC Branch Circuit The power supply requires connection to a separate, dedicated AC branch circuit, which must be labeled FIRE ALARM. This branch circuit must connect to the line side of the main power feed of the protected premises. No other non -fire alarm equipment may be pow- ered from the fire alarm branch circuit. The branch circuit wire must run continuously, without any disconnect devices, from the power source to the power supply. Overcurrent protection for this circuit must comply with Article 760 of the National Electrical Codes as well as local codes. Use a minimum of 14 AWG (2.00 mm2) wire with 600 volt insulation for this branch circuit. Use Table 6.1 to determine the total amount of current, in AC amperes, that must be supplied to the system. Number of Current Draw Total Current Device Type Devices (AC amps) per Device SK-PS6 5.0 or 1 x or = SK-PS10 6.2 [ ] [ ] x [ ] [ ] x Sum Column for AC Branch Current Required = Table 6.1 120 VAC Branch Circuit Requirements 6.3 Calculating the System Current Draw 6.3.1 Overview The power supply must be able to power all internal and external devices continuously during a fire alarm condition. The secondary power source (batteries) must be able to power the system during a primary power loss.To calculate the non -fire alarm load on the power supply when secondary power is applied, use Calculation Column 1 in Table 6.3 on page 32. The power supply must support a larger load current during a fire alarm condition. To calculate the fire alarm load on the power supply as secondary power, use Calculation Col- umn 2 in Table 6.3 on page 32. When calculating current draw and the battery size, note the following: • Primary refers to the main power source for the power supply. • Secondary refers to the power supply's backup batteries. • All currents are given in amperes (A). Table 6.2 shows how to convert milliamperes and microamperes to full amperes. To convert... Multiply Example Milliamperes (mA) to amperes (A) mA x 0.001 3 mA x 0.001 = 0.003 A Microamperes (µA) to amperes (A) µAx 0.000001 300 µAx 0.000001 = 0.0003A Table 6.2 Converting to Full Amperes SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 31 Power Supply Requirements Selecting and Locating Batteries 6.3.2 How to Calculate System Current Draw Use Table 6.3 to calculate current draws as follows and refer to the battery calculation tool on www.silentknight.com or www.faren- hyt.com. 1. Enter the quantity of devices in both columns. 2. Enter the current draw where required. Refer to the Silent Knight Device Compatibility Document for compatible devices and their current draws. 3. Calculate the current draws for each in both columns. 4. Sum the total current for each column. Following are the types of current that can be entered into Table 6.3. ✓ Calculation Column 1 - The secondary supply current load that the power supply must support during a non -fire alarm condition, with DC power applied ✓ Calculation Column 2 - The secondary supply current load the power supply must support during a fire alarm condition, with DC power applied Table 6.3 contains two columns for calculating current draws. For each column, calculate the current and enter the total (in amperes) in the bottom row. When finished, use the data to select the proper size batteries in Tables 6.4 and 6.5. Device Type Calculation Column 1 Secondary, Non -Fire Alarm Current (amps) Calculation Column 2 Secondary, Fire Alarm Current (amps) Qty X (current draw) = Total Qty X (current draw) = Total Main Circuit Board - SK-PS6 with all outputs 2k EOL 1 X [0.154] = 1 X [0.192] = Main Circuit Board - SK-PS6 with 4.7k EOL 1 X [0.139] = 1 X [0.157] = Main Circuit Board - SK-PS6 with 27k EOL 1 X [0.124] = 1 X [0.137] = Main Circuit Board - SK-PS6 with all Outputs Aux Power Class B 1 X [0.132] = 1 X [0.132] = Main Circuit Board - SK-PS6 with ZNAC-PS Class A option card with all outputs Aux Power 1 X [0.142] = 1 X [0.142] = Main Circuit Board - SK-PS10 with all outputs 2k EOL 1 X [0.178] = 1 X [0.232] = Main Circuit Board - SK-PS6 with 4.7k EOL 1 X [0.156] = 1 X [0.185] = Main Circuit Board - SK-PS6 with 27k EOL 1 X [0.135] = 1 X [0.154] = Main Circuit Board - SK-PS10 with all Outputs Aux Power Class B 1 X [0.149] = 1 X [0.149] = Main Circuit Board - SK-PS10 with ZNAC-PS Class A option card with all outputs Aux Power 1 X [0.160] = 1 X [0.160] = NAC/Output #1 [ ] X [ ] _ [ ] X NAC/Output #2 [ ] X [ ] _ [ ] X NAC/Output #3 [ ] X [ ] _ [ ] X NAC/Output #4 [ ] X [ ] _ [ ] X NAC/Output #5 [ ] X [ ] _ [ ] X NAC/Output #6 [ ] X [ ] _ [ ] X NAC/Output #7 [ ] X [ ] _ [ ] X EOLR-1 Power Supervision Relay [ ] X [0.020] _ [ ] X [0.020] _ Sum each column for totals Secondary Non -Alarm = Secondary Alarm = Table 6.3 System Current Draw Calculations 6.4 Selecting and Locating Batteries Select batteries that meet or exceed the total ampere hours determined in Tables 6.4 and 6.5. The power supply can charge batteries from 7 AH to 33 AH range. The power supply cabinet is capable of housing industry standard 7 AH or 18 AH batteries. Other ampere batter- ies (e.g. 12AH, 26AH, 33AH) will not fit physically inside the SK-PS cabinet and require a separate battery box. 6.4.1 NFPA Battery Requirements 111 NFPA 72 Local and Proprietary Fire Alarm Systems require 24 hours of standby power followed by 5 minutes in alarm for normal oper- ations or 15 minutes for mass notification systems. NOTE: When using carbon monoxide detection, the system must be monitored by a Supervising Station meeting the Standard for the Installation of Carbon Monoxide (CO) Detection and Warning Equipment, NFPA 720. 32 SK-PS Series Instruction Manual - P/N LS10227-002SK-E:B 3/19/2021 6.4.2 Maximum Battery Standby Load Tables 6.4 and 6.5 show the standby load calculations for the power supply based on 24 hours of standby. The standby load calculations in the Table 6.3 must be less than the number shown in Tables 6.4 and 6.5 for the selected battery size, standby hour and alarm time. The numbers below have a built in 20% derating factor for the battery ampere capacity. Battery Alarm Time (min) Capacity (AH) 5 10 15 20 30 7 0.212 A 0.190 A 0.169 A 0.147 A N/A 12 0.379 A 0.357 A 0.336 A 0.314 A 0.271 A 18 0.579 A 0.557 A 0.536 A 0.514 A 0.471 A 33 1.079 A 1.057 A 1.036 A 1.014 A 0.971 A 75 2.479 A 2.457 A 2.436 A 2.414 A 2.371 A 120 3.000 A 3.000 A 3.000 A 3.000 A 3.000 A Table 6.4 Maximum Battery Standby Loads for 24 Hour Standby on the SK-PS6 Battery Alarm Time (min) Capacity (AH) 5 10 15 20 30 7 0.198 A 0.162 A N/A N/A N/A 12 0.364 A 0.329 A 0.293 A 0.258 A 0.187 A 18 0.564 A 0.529 A 0.493 A 0.458 A 0.387 A 33 1.064 A 1.029 A 0.993 A 0.958 A 0.887 A 75 2.464 A 2.429 A 2.393 A 2.358 A 2.287 A 120 3.000 A 3.000 A 3.000 A 3.000 A 3.000 A Table 6.5 Maximum Battery Standby Loads for 24 Hour Standby on the SK-PS10 Section 7: Testing and Maintenance 7.1 Periodic Testing and Service Periodic testing and servicing of equipment is essential to ensure proper and reliable operation. Test and service the power supply according to the schedules and procedures outlined in the following documents: • NFPA Standard 72's section on Inspection, Testing and Maintenance 7.2 Battery Checks and Maintenance Maintenance -free sealed lead -acid batteries used in the system do not require the addition of water or electrolyte. These batteries are charged and maintained in a fully charged state by the main power supply's charger during normal system operation. A discharged bat- tery typically reaches the voltage of 27.6 VDC within 48 hours;. Sealed lead -acid batteries must be replaced within at most 5 years from their date of manufacture. Minimal replacement battery capacity appears on the control panel marking label. Immediately replace a leak- ing or damaged battery. Replacement batteries are available from the manufacturer. WARNING: SULFURIC ACID BATTERIES CONTAIN SULFURIC ACID WHICH CAN CAUSE SEVERE BURNS TO THE SKIN AND EYES AND DAMAGE TO FABRICS. F1 Fuse Replacement Not Allowed Rechargeable Battery Replacement Recommended Part Numbers: • BAT-1270 (12V,7AH) • BAT-12120 (12V, 12AH) • BAT-12180 (12V 18AH) • BAT-12260 (12V, 26AH) • BAT-12330 (12V, 33AH) SK-PS Series Instruction Manual - P/N LS10227-002SK-E:B 3/19/2021 33 Appendix A: Wire Requirements Connecting external system accessories to the main circuits must be carefully considered to ensure proper operation. It is important to use the correct type of wire, gauge and run length for each circuit. The following table lists NAC wiring requirements for the SK-PS6 and SK-PS10 Power Supply. The numbers documented in this chart are worst case numbers, based on the conditions listed below. The maximum voltage drop, maxi- mum loop resistance, and wire length ratings can be increased with lower system current loading. 1. The SK-PS6/10 is full capacity loaded at 6A/10A. 2. The SK-PS6/10 is running at the Low Battery voltage of 20AVDC (at Battery Connector TB15). Wire lengths apply to Class B wiring, and to Class A wiring returned to the ZNAC-PS card. Max Load (Amps) Max Loop Resistance (Ohms) AWG 12 (Solid) AWG 14 (Solid) AWG 16 (Solid) AWG 18 (Solid) 0.25 12.804 3320 2087 1310 823 0.50 6.402 1660 1044 655 412 0.75 4.268 1107 696 437 274 1.00 3.201 830 522 327 206 1.25 2.561 664 417 262 165 1.50 2.134 553 348 218 137 1.75 1.829 474 298 187 118 2.00 1.601 415 261 164 103 2.25 1.423 369 232 146 91 2.50 1.280 332 209 131 82 2.75 1.164 302 190 119 75 3.00 1.067 277 174 109 69 Table A.1 Wiring Requirements for Power Supply 19 NOTE: Calculations are based on Direct -Current Resistance data for uncoated copper wire, per National Electrical Code (2005 Edition) Table 8, Conductor Properties. ANOTE: These distances reflect the worst case scenario and are based on the correct draw of the highest candela strobes at the low end of the supported NAC voltage with the entire load at the end of the circuit. Further distances can be achieved by performing a point to point voltage calculation that more accurately reflects the specific devices used and how they are dispersed on the circuit. 34 SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 Appendix B: Application Examples 13.1 Controlling NACs For Selective Silence Operation Using a Control Module In this application, the power supply has been set as a master with synchronized outputs and selective silence (see DIP switch settings and Selective Silence Operation information in Section 3). This application requires Input #1 to be controlled by the FACP. Input #2 is required for controlling selective silence via a control/relay module, programmed as an alarm output and a silenceable point. Only Mass Notification, Fire, or combo Mass Notification/Fire NACs are allowed in this configuration. The control module can be powered by one of the SK-PS output circuits, configured as aux power (24VDC). NAC Output Circuits 24VDC power output NO NCC NO NCC 0 + 0 + 0 0 0 + 0 0 0 0 0 0 0 0 0 0 b 0 _ FACP TBS NAC Control Module* O 0)-4 `• W *If the SLC device does not match SLC the one in this figure, refer to the ® • SLC manual wiring conversion + charts for legacy and newer ver- sions of the modules. O V1 A GW --IO + TBT vx TB15 0 + � N Figure 13.1 Controlling Multiple Outputs with One Input The following notes apply to Figure B.1. When the SK-PS power supply is in an inactive state (FACP NAC not active), a trouble on the NAC circuit will result in an open circuit condition on the FACP (monitored by End -of -Line Resistor across T135, Terminals 1 and 4). As an alternative, the trouble contacts at TB 1 of the power supply can also be used for limited trouble monitoring excluding Selective Silence output faults. Refer to Section 5 for more information. • Refer to Section 3 for instructions on setting the DIP switches. • Selective Silence output faults are only reported via Command Input #1 (not Command Input #2). • Wire NACs as shown on page 13. • Do not loop wires under screw terminals. Break wires to maintain proper supervision. • An End -of -Line Resistor must be installed across all input circuits, Terminals 1 and 4, for control module wiring supervision (the ELR value is dependent on the module/FACP employed). • For a list of compatible devices, refer to the Silent Knight Device Compatibility Document #52612. • Refer to the SLC Wiring Manual for more information. SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 35 Application Examples Controlling NACs For Sync Follower Operation Using a Control Module 13.2 Controlling NACs For Sync Follower Operation Using a Control Module In this application, the power supply has been set to operate in slave mode and will follow the sync signal from the FACR This applica- tion requires Input #1 to be controlled by the FACP sync output. Input #1 may be wired to the next SK-PS or terminate in and ELR. Input #2 (or Input #3, if available) will act as the trigger signal for the output circuits. The control module can be powered by one of the SK-PS output circuits, configured as aux power (24VDC). See Table 3.14 on page 25 DIP switch settings. NAC Output Circuits 24VDC power output O TB4 E ~9 PI�I m� ~F_ ATI mM m F1 NO NCC NO NCC a' + a' + a" 0 0 + 0 0 + 0 0 0 0 0 o o A 0 0 n e_ a -4-1--1-1--1 -1 OI V CO W + Control Module' O G O TB5 *Ifthe the device does the one in this figure, refer to the in t refer to ®• M SLC manual wiring conversion charts for legacy and newer ver- sions of the modules.o O O N A W N� + q TB] 4'-4J zw� TB15 N O w o to next PS Series Power Supply or ELR FACP NAC Sync SLC Figure 13.2 Controlling Multiple Outputs with One Input as Sync Follower The following notes apply to Figure B.2. • When the SK-PS power supply is in an inactive state (control module not active), a trouble on the NAC circuits mapped to T136 will result in an open circuit condition on the control module output circuit (monitored by End -of -Line Resistor across TB6, Terminals 1 and 4). As an alternative, the trouble contacts at TB 1 of the power supply can also be used for limited trouble monitoring excluding faults reported by Command Input #2 related to Command Input#1 configured for Sync Input mode. Refer to Section 5 for more information. • Refer to Section 3 for instructions on setting the DIP switches. • Output faults are reported via Command Input#2 with Command Input#1 configured for Sync Input mode operation. • Refer to the FACP manual for load restrictions and line length limitations when wiring multiple power supplies at the input. • Wire NACs as shown on page 13. • Do not loop wires under screw terminals. Break wires to maintain proper supervision. • An End -of -Line Resistor must be installed across all input circuits, Terminals 1 and 4, for control module wiring supervision (the ELR value is dependent on the module/FACP employed). • For a list of compatible devices, refer to the Silent Knight Device Compatibility Document #52612. • Refer to the SLC Wiring Manual for more information. 36 SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 Controlling NACs, Aux Power, or Door Holders Using a Control Module Application Examples 13.3 Controlling NACs, Aux Power, or Door Holders Using a Control Module All output circuits, NACs, aux. power (non-resettable power — active regardless of control module state), or door holders, can be con- trolled from one input such as an addressable control module as illustrated in Figure B.3. The control module can be powered from one of the SK-PS output circuits, as 24 VDC power. In this example, Output #1 will be configured as 24VDC non-resettable aux power. The control module is shown to demonstrate the use of an internally mounted device associated with an addressable fire alarm control panel. The module could be replaced with any circuit capable of polarity reversal, such as an FACP Notification Appliance Circuit. o T84 F1+ L NO NCC NO NCC a n 0 0 Control Module* O *If the SLC device does not match the one in this figure, refer to the SLC manual wiring conversion charts for legacy and newer ver- sions of the modules. p i�9J sx TB15 R 24VDC power output I '� o + o o 0 0 00 0 0 0 0 A O + u T67 O o SLC 0 Figure 6.3 Controlling NACs, Aux Power, and Door Holders with One Input The following notes apply to Figure B.3. • Any output circuit can be configured as NAC, door holder, or 24VDC power. • Wire NACs as shown on page 13. • Refer to Section 3 for instructions on setting the DIP switches. • When the SK-PS power supply is in an inactive state (control module not active), a trouble on the NAC circuits mapped to T135 will result in an open circuit condition on the control module output circuit (monitored by an End -of -Line Resistor across Terminals 1 and 4). Additionally, the trouble contacts at TB 1 of the power supply can also be used for limited trouble monitoring excluding output faults reporting to Command Input #1. Refer to Section 5 for more information. • Do not loop wires under screw terminals. Break wires to maintain proper supervision. • An End -of -Line Resistor must be installed between terminals 1 and 4 for control module wiring supervision (the ELR value is dependent on the module/FACP employed). • For a list of compatible devices, refer to the Silent Knight Device Compatibility Document #52612. • Refer to the SLC Wiring Manual for more information. SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 37 Application Examples Controlling NACs, Aux Power, and Door Holders with NAC Sync 13.4 Controlling NACs, Aux Power, and Door Holders with NAC Sync In this application, use of a single SK-RELAYMON-2 mounted inside the cabinet can monitor the two power supply trouble relays and trigger two independent inputs via relay circuits. SK-PS outputs #1 and #2 are being used for 24 VDC aux power triggered by the mod- ule's relay circuits. Any SK-PS output circuit can be configured to follow any input circuit. End -of -Line Resistor: supplied with Module • r.� r� rti J TB15 O +� 24VDC Aux Power NONCC NO NC 0- + 0- + 0- + 0- + 0- + 0- + 0 AC Trouble 0 o 0 0 0 0 0 Trouble FACP NAC or Remote Sync Output N �m n n O 0 O TB5 SLC O J N A D Q3� O (D } Q NO�OI SK- TBs + + +777777rc�j O + TB7 0 ARM 0 41 41 U1 tp N UI V1 N O Figure B.4 Controlling NACs, Aux Power, and Door Holders with One Input and NAC Sync The following notes apply to Figure B.4. • Any output circuit can be configured as NAC, door holder, or 24VDC power. • Refer to Section 3 for instructions on setting the DIP switches. • Do not loop wires under screw terminals. Break wires to maintain proper supervision. • An End -of -Line Resistor must be installed between terminals 1 and 4 for module wiring supervision (the ELR value is dependent on the module/FACP employed). • An End -of -line Resistor on input circuits#1-2 (T135-6) are optional for this particular application. • Ensure that the SK-RELAYMON-2 is programmed appropriately at the FACP where the inputs are not mapped to the same zone as its outputs. • For a list of compatible devices, refer to the Silent Knight Device Compatibility Document #52612. • Refer to the SLC Wiring Manual for more information. 38 SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 Controlling all Three Inputs with One Control Module Application Examples 13.5 Controlling all Three Inputs with One Control Module In this application, all three command inputs are being controlled by one multi -module, the SK-CONTROL-6 mounted inside the cabi- net. Output #1 is being used for 24 VDC aux power. Any output circuit may be configured to any input. SLC Figure B.5 Controlling Three Inputs with One Module The following notes apply to Figure B.5. • An End -of -Line Resistor must be installed between terminals 1 and 4 for control module wiring supervision (the ELR value is dependent on the module/FACP employed). • Either disable the unused addresses or install ELRs across unused outputs on the SK-CONTROL-6. • Refer to Section 3 for instructions on setting the DIP switches. • Do not loop wires under screw terminals. Break wires to maintain proper supervision. • For a list of compatible devices, refer to the Silent Knight Device Compatibility Document #52612. • Refer to the SLC Wiring Manual for more information. SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 39 Application Examples AC Trouble Reporting with a Conventional FACP 13.6 AC Trouble Reporting with a Conventional FACP In this application, the SK-PS is being used with a conventional FACP that does not have a type -coded input zone for AC Power loss with a delay. AC Trouble Delay on the SK-PS must be set to none (S1-7 ON, 8 ON). AC Fail delay timers must be set on the DACT. The DACT must be installed in close proximity to the conventional FACP so the audible and visual signaling can be given locally at the FACP as required by UL 864. -:e. SK-PS o O °LI o flA NAC 24VDC non—resettable power 0 0 .a, 0 + — + — �kM o -� eeeeeeee yeeeeeeee eeeeeeee eeeeeeee eeeeeeee eeeeeeee eeeeeeee °' - e« e. e« e. BZONBBO. NEB . N B. G NO NG NG NO C NC El Nonet R NAC1 NAC2 2 ZONE3 zONEa TROUBLE ALARM SUPV UL 864 Listed Regulated 24 VDC Conventional FACP Figure B.6 AC Trouble Reporting with a Conventional FACP UL 864 10th Edition Listed DACT ELRs I of The following notes apply to Figure B.6. • Wiring from the power supply to the DACT must be in metal conduit within 20 feet of the FACP. • Refer to Section 3 for instructions on setting the DIP switches. • Do not loop wires under screw terminals. Break wires to maintain proper supervision. • An End -of -Line Resistor must be installed between terminals 1 and 4 on the input circuits that require wiring supervision. (The ELR value is dependent on the FACP employed). • Refer to paneUDACT documentation for programming information. 40 SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 Index A maximum short tern 8 coding 8 AC power 8 standby 9 output calculations 31 total continuous 9 see also output circuit 9 current 8 total short term 9 see also Notification Appliance Circuit 8 fail 22 NEC power -limited wiring requirements 15 fail delay 22 D non -alarm state 8 loss 8 debounce/dejitter 21 non-resettable power 23, 24 loss relay 9 dimensions notification appliance circuit loss reporting delay 8, 29 backbox 12 see also NAC 8 loss timer 21 DIP switch voltage 8 settings 21, 23 0 activation disable outputs 24 operating mode 21, 22 reverse polarity 8 door holder 24 output alarm condition 8 dropout delay 21 disable 24 applications 8 unused 24 aux power 23 E output circuit 9 aux power control ELR 9, 13, 29, 35, 36, 37, 38, 39, 40 Class 9 see also resettable or non-resettable power current 9 24 F maximum current 8, 9 see also NAC output 9 B factory default 24 types 9 backbox dimensions 12 faults 29 voltage rating 9 g g batteryfeatures 8 output power 8 filtered power 8 capacity 9 float charge voltage 9 P charge current 9 form-C charger capacity 8 see also relay 8 power float charge voltage 9 non-resettable 8 lead acid 8, 9 G resettable 8 maximum capacity 8 power supply 31 see also secondary power 9 ground fault 8, 18 board layout drawing 10 trouble 8 ground fault detection 8, 9 connectors and switches 10 switch S W 1 9 power -limited outputs 8 C power -limited wiring 15 cabinet see also backbox 12 input 22 R capacity current 9 relay battery 9 settings 23 trouble 8, 9, 29 cascading 18 voltage 9 reporting delay charge current input circuit 8 AC loss 29 maximum 9 activation 8 requirements 31 nominal 9 compatibility 8 resettable power 23, 24 charger see also control 9 enable/disable 22 installation 12 S charger trouble 8 secondary power circuit board M see also battery 9 layout 10 master mode 24 selective silence 25 Class A Converter Module 13 module SK 8 see also ZNAC-PS 8 mounting 14 SK-PS10 8 Class B 8 mounting SK-PS6 8 coding see also installation 12 slave mode 23, 24 NAC 8 multi -module special operating mode 22 command circuit 8 mounting 14 specifications 8 current 9 startup procedure 9 see also input circuit 9 N strobe synchronization 8 voltage 9 NAC supervision 8 command input 22 c activation 8 trouble 29 compatibility circuit wiring 13 SW 1 input circuit 8 Class ground fault detection 9 current maximum continuous 8 see also NFPA Class 8 switch SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 41 Index SWl ground fault detection 8, 9 sync 24 sync mode 22 sync type 16, 24, 25 synchronization ADA compatible 8 selectable 8 T trouble 29 power supply 8 supervision 29 trouble relay 8, 9, 29 contact rating 9 trouble supervision 8 W wiring 8 AC power 8 power -limited 15 Z ZNAC-PS 13, 14 see also Class A Converter Module 8 42 SK-PS Series Instruction Manua( — P/N LS10227-002SK-E:B 3/19/2021 Manufacturer Warranties and Limitation of Liability Manufacturer Warranties. Subject to the limitations set forth herein, Manufacturer warrants that the Products manufactured by it in its Northford, Connecticut facility and sold by it to its authorized Distributors shall be free, under normal use and service, from defects in material and workmanship for a period of thirty six months (36) months from the date of manufacture (effective Jan. 1, 2009). The Products manufactured and sold by Manufacturer are date stamped at the time of production. Manufacturer does not warrant Products that are not manufactured by it in its Northford, Connecticut facility but assigns to its Distributor, to the extent possible, any warranty offered by the manufacturer of such product. This warranty shall be void if a Product is altered, serviced or repaired by anyone other than Manufacturer or its authorized Distributors. This warranty shall also be void if there is a failure to maintain the Products and the systems in which they operate in proper working conditions. MANUFACTURER MAKES NO FURTHER WARRANTIES, AND DISCLAIMS ANY AND ALL OTHER WARRANTIES, EITHER EXPRESSED OR IMPLIED, WITH RESPECT TO THE PRODUCTS, TRADEMARKS, PROGRAMS AND SERVICES RENDERED BY MANUFACTURER INCLUDING WITHOUT LIMITATION, INFRINGEMENT, TITLE, MERCHANTABILITY, OR FITNESS FOR ANY PARTICULAR PURPOSE. MANUFACTURER SHALL NOT BE LIABLE FOR ANY PERSONAL INJURY OR DEATH WHICH MAY ARISE IN THE COURSE OF, OR AS A RESULT OF, PERSONAL, COMMERCIAL OR INDUSTRIAL USES OF ITS PRODUCTS. This document constitutes the only warranty made by Manufacturer with respect to its products and replaces all previous warranties and is the only warranty made by Manufacturer. No increase or alteration, written or verbal, of the obligation of this warranty is authorized. Manufacturer does not represent that its products will prevent any loss by fire or otherwise. Warranty Claims. Manufacturer shall replace or repair, at Manufacturer's discretion, each part returned by its authorized Distributor and acknowledged by Manufacturer to be defective, provided that such part shall have been returned to Manufacturer with all charges prepaid and the authorized Distributor has completed Manufacturer's Return Material Authorization form. The replacement part shall come from Manufacturer's stock and may be new or refurbished. THE FOREGOING IS DISTRIBUTOR'S SOLE AND EXCLUSIVE REMEDY IN THE EVENT OF A WARRANTY CLAIM. Warn-HL-08-2009.fm SK-PS Series Instruction Manual — P/N LS10227-002SK-E:B 3/19/2021 43 Honeywell Silent Knight 12 Clintonville Road Northford, CT 06472-1610 203.484.7161 www.silentknight.com LS10227-002SK-E I B 1 03-21 ©2021 Honeywell International Inc. Honeywell MONJORING NETWORKS, LLC Proposal Backup Attention: Tom Romberg Job: Port Orchard C Backup Proposal #: 13 Description: PR 35 Date: 12/31 /2024 DIRECT JOB EXPENSES DOLLARS Delivery $140.00 Freight Permit & Inspection Insurance Job Office & Whs. Equipment Small Tools Forklift Non -Productive Labor Engineering & Drafting Lift Job Telephone Travel Expense Jobsite Office Shift Adder Material Sales Tax Excavation TOTAL DIRECT JOB EXPENSE $140.00 'Note: The above price does not include any Impact or Delay Costs. We reserve our rights for any Impact or Delay costs incurred. This Propsal may be withdrawn by D&R Monitoring Networks, LLC. if not accepted within 30 days. Invoice Terms / Net 30 Days A Finance Charge of 1.5% will be made on past Due Balances. Corresponding Annual Rate of 18% Minimun Finance Charge. Hall SUMMARY DOLLARS Material Cost $3,470.00 Labor Hours: 46 Aver. Rate Per Man/Hr.: $122.57 Direct Labor Cost $5,638.22 Direct Job Expense $140.00 SUB TOTAL $9,248.22 Overhead: 0% $0.00 SUB TOTAL (w/Overhead) $9,248.22 Profit: 1 15% $1,387.23 Home Office Overhead 1 5% $462.41 SUB TOTAL (w/Profit & Overhead) $11,097.86 TOTAL PRIME COST 1 $11,097.86 SUB CONTRACTORS SUB TOTAL $0.00 Overhead/Profit: 10% $0.00 TOTAL SUB. COST $0.00 SUB TOTAL $11,097.86 Bond. 0.0% $0.00 Sales Tax: 0.0% $0.00 TOTAL SELLING PRICE $11,097.86 Authorized Signature _ Dean Pitsch Jr. Dean Pitsch Jr. • Phone-253.327-1065 * Email:dean@drmonitoringnetworks.com " PO Box 44185 Tacoma, WA 98448 -fmmo rt DymG)x nR-T p D D D y y m y 0 I D m«< �0mmol ')Zmzz 3 CDO - m O. 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