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Permit M94-0152 - BEST PRODUCTS
;EST rgabbOcTs neq4fts•-olsa Ci o mkwilli Community Development / Public Works • 6300 Southcenter Boulevard, Suite 100 • Tukwila, Washington 98188 Address: 240 ANDOVER PK W Location: Parcel #: 022310 -0070 Contractor License No: APPLELC077KJ TENANT BEST PRODUCTS 240 ANDOVER PK W, TUKWILA, WA 98188 OWNER ANDOVER ASSOCIATES C/O THOMAS YEDOR, 1100 OLIVE WAY, SEATTLE WA 98101 CONTACT HERB JACKSON Phone: 206 861 -9520 12733 197TH PLACE N.E., WOODINVILLE, W 98072 CONTRACTOR APPLE LAKE CONTRACTING Phone: 206 643 -9222 3110 W LK SAMMAMISH PY SE #8, BELLEVUE, WA 98008 ******************************************** * * * * * * * * * * * * * * ** * * * * * * * * * * * * * ** Permit Description: UMC Edition: 1991 ** _ ****** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *, ** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** Per t Center Authorize • Signature I hereby certify that I have read and examined this permit and know the same to be true and correct. All provisions of law and ordinances governing this work will be complied with, whether specified herein or not. The granting of this permit does not presume to give authority to violate or cancel the provisions of any other state or local laws regulating construction or the performance of work. I am authorized to sign for and obtain this bu ld pe ,mi Signatur Print Name:_ Permit No: M94 -0152 Type: B -MECH Category: NRES INSTALL HVAC EQUIPMENT AND. DUCTWORK. MECHANICAL PERMIT e''1 Valuation: Total Permit Fee: Date: Title: (206) 4313670 Status: ISSUED Issued: 12/02/1994 Expires: 05/31/1995 Suite: 50,000.00 271.88 This permit shall become null and void if'the work is not commenced within 180 days from the date of issuance, or if the work is suspended or abandoned for a period of 180. days from the last inspection. O MOUNT OWING: a 1 , �� CONTACTED r , , e - me J � (�L-[ <�C,[a \ A • F. DATE NOTIFIED l O1— 9 LI BY: (init.) BY: (init. � 2nd NOTIFICATION 3RD NOTIFICATION BY: (init.) PROJECT NAME °° P ++ \ A • F. SITE ADDRESS (DU0 Nni- o .)Qr SUITE NO. PLAN CHECK NUMBER 'Mc) t - OfQ INSTRUCTIONS TO STAFF • Contacts with applicants or requests for information should be summarized in writing by staff so that the status of the project may be ascertained at any time. • Plan corrections shall be completed and approved prior to sending to the next department. • Any conditions or requirements for the permit shall be noted in the Sierra system or summarized concisely in the form of a formal letter or memo, which will be attached to the permit. • Please fill out your section of the tracking chart completely. Where information requested is not applicable, so note by using "N /A ", date and initial. DEPARTMENTAL REVIEW "X" in box indicates which departments need to review . the project. DEPARTMENT DATE IN D OVE : ... APPROVE BUILDING - initial review 'FIRE O PLANNING O OTHER BUILDING - final review BUILDING OFFICIAL REVIEW COMPLETED CITY OF TUKWr Department of Community Development — Permit Center 6300 Southcenter Boulevard - #100, Tukwila, WA 98188 (206) 431 -3670 Mechanical Permit Application Tracking ll ROUTED INIT INIT: INIT: INIT: / I INIT: I 044 CI* ZONING: NSULTANT: Date Sent - UIR FIRE PROTECTION: • Sprinklers Detectors • N/A FIRE DEPT. LETTER DATED: / / /z, 0 t 0(ar INSPECTOR: 57 1> SCREENING REQUIRED? 0 Yes 0 No REFERENCE FILE NOS.: UMC EDITION (year): MME Date Approved BAR/LAND USE CONDITIONS? U Yes 01/07/93 SITE ADDRESS SUITE # 7.-qC) A ery P -k VALUE OF CONSTRUCTION - $ 4 5-0 eo ,0 . o-a ASSESSOR ACCOUNT # en, 73 10 oo PHONE 3G�a PROJECT NAME/TENANT B.4- ct u-C f TYPE OF WORK: ® New /Addition O Modifications O Repair O Other: . 9&(0 ( DESCRIBE WORK TO BE DONE: PHONE 8,Q - r% ca I N V ud � � f wl a✓4 t aJ (d u. C.. : ..;..::TYRE , .. :..::FtAT1NG /SIZE:::: ,. :;:;:::..:..: <:: .::..:.:.:;:..:NUMBER.OF.: UNITS.:;; ::::; >;<c: »::: K ho ...-D. , c.lc ' C n 14- p - - LeM no x Esa.e J-(c . u 1-f- G n 40.1 `i um".. 6-4.-op lc 4 wkI+ l� -ton 1 C.eH•oK (tnt-f he ' 'is MB F} I G thecLk- .ek.h 4 ' 44 + - .,,,s -18o1 eine (no iA-1 ," BUILDING USE (office, warehouse, etc.) R.d1L-4 I NATURE OF BUSINESS: Re-71-6- I WILL THERE BE A CHANGE IN USE? O No O Yes IF YES, EXPLAIN: WILL THERE BE STORAGE OR USE OF FLAMMABLE, COMBUSTIBLE OR HAZARDOUS MATERIALS IN THE BUILDING? No 0 Yes IF YES, EXPLAIN: PROPERTY OWNER / / _L,, ., �v /ow C Cl s PHONE 3G�a r. / 43 1 ZIP ADDRESS ( ( caE , 6f eve 0 56A -41 . 9&(0 ( CONTRACTOR A- 16. W// 0- �.1._f � � PHONE 8,Q _ � �� IP �Sb'1Z. t o _ ADDRESS (2'133 l.� � pi. N. F• WA. ST. CONTRACTOR'S LICENSE # 4 • L ap . cu — EXP. DATE CITY OF TUKWILA Department of Community Development - Building Division 6300 Southcenter Boulevard, Tukwila WA 98188 (206) 431 -3670 PLAN CHECK NUMBER mqu - 0i5a APPLICATION MUST BE FILLED OUT COMPLETELY BUILDING OWNER SIGNATURE OR AUTHORIZED AGENT CONTACT PERSON PRINT NAME DATE APPLICATION ACCEPTED ADDRESS t2 733 191 MECHANti;AL PERMIT APPLICATION FEES (for staff use only) DESCRIPTION BASIC PERMIT:FEE UNITS) FEE :. :: PLAN CHECK FEE' OTHER :: TOTAL AMOUNT $15.00 >' RCPT :. #. I HEREBY CERTIFY THAT ! :HAVE READ AND EXAMINE© THIS APPLICATION AND KNOW SAME TO AND: CORRECT, AND I.AM ED:! ARPLY 1= OR P,ERMIT:... DATE Pt. N.E. DATE APPLICATION EXPIRES BET to /6 iT-/ PHONE ee ,„ �_�� -� �-I ' to ' 96 CITY2tP0 ,h uillt ctSo-77.. PHONE Rral -'4� ?ems APPLICATION SUBMITTAL In order to ensure that your application is accepted for plan review, please make sure to fill out the application completely and follow the plan submittal checklist on the reverse side of this form. Application and plans must be complete in order to be accepted for plan review. BUILDING OWNER /AUTHORIZED AGENT If the applicant is other than the owner, registered architect/engineer, or contractor licensed by the State of Washington, a notarized letter from the property owner authorizing the agent to submit this permit application and obtain the permit will be required as part of this submittal. VALUATION OF CONSTRUCTION The valuation is for the work covered by this permit and must be filled in by the applicant. This figure is used for budget reporting purposes only and not to calculate your fees. EXPIRATION OF PLAN REVIEW Applications for which no permit is issued within 180 days following the date of application shall expire by limitation. The Building Official may extend the time for action by the applicant for a period not exceeding 180 days upon written request by the applicant as defined in Section 304(d) of the Uniform Mechanical Code (current edition). No application shall be extended more than once. If you have any questions about our process or plan submittal requirements, please contact the Department of Community Development at 431 -3670. 03/14/94 MECHANICAL (I Completed mechanical permit application (one for each structure or tenant) Two (2) sets of mechanical plans, which include: • Floor plan • System layout , • Elevations (for roof MO equipment) • Heat Loss Calculations Structural calculations stamped by a Washington State licensed engineer may be required if structural work is to be done (2 sets) Note: Hood and duct systems require a building permit for the duct shaft. . . • ; • Water heaters and vents are included in the UMC please include any water heaters or vents being installed or replaced. • • . • • • I r � `� ; i•. .:I N:( ^,n: ;, +' l7; `•fl,'i;J.; . ,;;1 ••r ',' ' ;C r., } � �r **3;)^14:11:' �•',v. {, 7!1 ��t� . . 'S7!;4 .�.:, :., .J '"r• :r'�..,5.*•rr:. .� �• % Jr. .: , lam ' .) ; , ,•. :,; . . 1 ,•x : * I Y 1' :� 8 *`R;I'`! , .:)`.%''.."1.' : .:i ' �. • /r tL • r �, P .. ..'j0..ti•. ... T••. � •, .. yl�. "'l �I t �'�i'' .. ^.�i • � r. • f t .. .�• :: J }p.;�: • g. 4, i .;.. •i ', • . c r. r, � ; : 'XP1 RgT ION . . 1,7:, q ' �C'y' •�1 :;`% f ! , w.ti. } . �1•.. �1'X�;1(. .•'��••.'. 'l t• + - • I J)) 1 , • 1 ' .,.. r l , i.e . ry7. Y ,�. ' � ''•iya } ''a .� .1 � � , '� i:. �;I t: ;!..l C) 14.1 �:.Y r,. 1 YY� y 1 (opt '•,�� :t �F'.A t1. r 'a • i ti. :1;• Y . 1i.':' �(MN.r ; •_ p ' :' !:,^S,i' # 1$: '.• +.. ,�.�R ,• • • 1 L `�y/J�Y/ 1i10 : ' MI! a •. .Q ... i'� .l'. ,, 1� `I ! <' ,'�. . .ifr,;�,•;:, ,4 ( � . 7 ,, : r .I; 1''tiv j • 1 t' 7 t `{1. T •. Y . , iS ; ) MJ' ! ti'i;• YP i 4•...... ^• :rJri:'2r. i•• ��� pia••• •'' .K r _:: } • ., /�. ..h. '''�1 ~ q i. �,t �� ' ''• ... i' 1' {r ... 1 GI 1)6 • RED:� 7 �1 SIGNATURE IS D BY DEPART ENT OF LABOR AND INDUSTRIES 4,d r • • , • + • roC-4f ype o ns • : • • ; ' Address: Date Called: Special Instruct ons: Date Wanted: R equester: '...... Phone No.: Approved per applicable codes. (206) 431 -3670 roject: _ E&T Iype of Inspection Address: Date Called: Z , / 5 -- Special Instructions: 1 '6 aVv- -' Date Wanted: lG • q> am. p.m. Requester: ,41....._ Phone No.: 2::'K. *_5za: fAY,:x�;.tu<: ❑ $30.00 REINSPECTION FEE REQUIRED. Prior to reinspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. NO. g Approved per applicable codes. INSPECTION RECORD 0 Retain a copy with permit CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188 (206) 431 -3670 ❑ Corrections required prior to approval. COMMENTS: ALL- S LA, pl y- t1.4..J .D t ccT .1) f Pr i ~ 1 C C - ' P - r O IL. - 14 - 4, P N., t..cr4iNn\C, '. U,wIT 1c - _SL- tA I-) ►i 4 - Suppu tAN\r 3 - a<<, « Requester: Phan No.: Project: Type of Inspection: - t , / Address: A Date Called Special Instructions: n Date Wanted: .� Z . pct!' JS am. .m. Requester: Phan No.: INSPECTION RECORD Retain a copy with permit CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188 M gif d 5 (206) 431 -3670 ❑ Approved per applicable codes. Corrections required prior to approval. ❑ $30.00 REINSPECTION FEE REQUIRED. Prior to reinspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. Dale: Project: Type of Inspection: fe i Address Date Called: / __5 Special Instructions; /A e-7.■ "Z., b li.-6 Date Wanted: 3 ......, —7c ...—...,, arC:i.rn. Requester: Phone No.: Approved per applicable codes. o INSPECTION RECORD 0 Retain a copy with permit CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188 a • PERMIT NO./ (206) 431-3670 El Corrections required prior to approval. COMMENTS: ' 1.•-12 "-2! r 0 pace REINSPECTION FEE REQUIRED. Prior to reinspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. •:r:s It Iici 1111111111111111111 • ro ect: ,��,, ype o nspection; ,� , dress: ''ff=te ress: Z��ctlono 4 v a =�; Special Date Wanted: l Requester: Phone No,: INSPECTION RECORD 0 Retain a copy with permit CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188 Approved per applicable codes. COMMENTS: ' rC jh,�/( At/1 <<" 4_ ye)4- dee, r 1 Inspector: (206) 431 -3670 ❑ Corrections required prior to approval. ❑ $30.00 REINSPECTION FEE REQUIRED. Prior to reinspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. Dale: Project: r ' ,. ) ; •,. ,. q , Type of Inspection >.. I " . Address: Address: /- / / � 4 :: D ate Called: Instructions: Date Wanted: 1 , / `� am Requester: f'1 ' Phone No,: 0 INSPECTION RECORD C Retain a copy with permit INSPECT + 1 0. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188 (206)- 431 -3670 ❑ Approved per applicable codes. g Corrections required prior to approval. COMMENTS: • Inspector: ' Die: ❑ $30.00 REINSPECTION FEE REQUIRED. Prior to reinspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. COMMENTS: Type of Inspection: r, F-aotAGR— IN) _ Address: A t.e-. Date Called: 14.— -- L - t) ( NIS L.ATer > v. Orl IN1 GI F-0)(.... Date Wanted: _ 14 ....c s A tuFA . c1). ..twv•i'"x. ( L_ -ro c..z, -rz• .Ortka AC, k c't 1 0 t Project: .35...---r- Type of Inspection: r, F-aotAGR— IN) _ Address: A t.e-. Date Called: I , L S Special Instructions: Date Wanted: _ 14 ....c s am,( Requester: Phone No.: Approved per applicable codes. Q INSPECTION RECORD Retain a copy with permit CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188 0 Yn 0 (52-- PERMIT (206) 431-3670 0 Corrections required prior to approval. I Inspector: G Date: ffs i 0 $30.00 REINSPECTION FEE REQUIRED. Prior to reinspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. • • , „. Project Name L4 Address e; 14 7 6-) / P Retain current inspection schedule Needs shift inspection Approved without correction notice Approved with correction notice issued Sprinklers: Fire Alarm: Hood & Duct: Halon: Monitor: Pre -Fire: Permits: City of Tukwila Fire Department TUKWILA FIRS DEPARTMENT Permit No. )9V- of s FINAL APPROVAL FORM ,1--)/ ) ) ) ? , 1 - - ) / 6 1 Authorized Signature • Da e FINALAPP.FRM T.F.D. Form F.P. 85 Suite # John W. Rants, Mayor Thomas P. Keefe, Fire Chief Headquarters Station: 444 Andover Park East • Tukwila, Washington 98188 • Phone (206) 5754404 • Fax (206) 575.4439 *•*• A*** A***k• kA* k******• A* A• k•* A*• Ah A.•*** A *A•*•A•** *A *k ** *.h *•kk*kkk **4* **A CITY OF rukw3:LA WA TRANSMIT •* A. k* A* ft** A**'* A* A•*** Ak A*•**f t*k ?hh• kA***• k• k* A * ** *•k•kk•A **kA:k *A• *A*A** ** TRANSMIT Number: 94001560 Amount: Permit No: M94• -0152. Type: 0- -MI,CH Parcel Na: 022310 -0070 Site Address: 240 ANI)OVORPI( W Payment Method: CHECK. Notation: APPLE LAKE CONTR knit: SAO k* k*** A* h** A.•*k k** A**• kk• k•** kA** A• k* k**•* A• k•A *rok•lA *kfk*k•kk *kA *fA*JA** ** Account fade . pet ;cription Paid 000/3.43.1330 PLAN CHECK - ta,.QNRES 34.38 000/322.100 MECHANICAL ;e~TN0NI ?ES 217.50' Total : (This Payment) : 271.88 Total Fees: 271.88 Al 1. 'Payments: 271.80 Dal Balance: X 0`0 271.118 1.2/02/94 05:08 MECHANICAL PERMIT 12/04/94 tit l, p4w•k GENERA 54.38 GENERA 217.50 TOTAL 271.88 CHECK 271.88 CHANGE 0.00 777811000 15 :29 Address: 240 ANDOVER PK W Suite: Tenant: BEST PRODUCTS Type: B -MECH Parcel #: 022310 -0070 * k* k k* kk****• k k• k* k* k* k** kk************ k** k• k k** kk• k• k• A*• Ak* * * Permit Conditions: ”_ .. 1 No ,changes will be made, to : t1i ' *p °'a I ,* A 3, approved by the w Architect or Engine ::,'46 tt - Tu 'wc a'"iltili� ,pivision. 2. All permits, ins ctfair record, ang3 approve' � gi,e ri s sha11 be , t �r�a.V a i 1- avai lab le at the ob site" pi'# r6 to 4.he stapt able 1 e '`��n'a'1 ,i'n�s ' fiec ; , t eon app 4 t i granted �, �`-, t 3. Al 1 cons y ,e;.t:i tb e dong „,tn' 'conf'd'tsmat3ce with i ` r pp rove plans an r bg r e m e Y i is ooh the Ur ti orm Building qpd 19 Editions # ` r , 's aiie,nde e 1pri'i Code %U951, d1 and Waft' Wigton :eta a Energ •C de ( Edition3. 4 Valid 'o1 ppermi Thb,'o nce ot��`'a permit or "`,appri, el 1t plan pec icat"ions � ei• s' nd cor� puta't" ions sha11 not /h d e e• p stru , tot-gibe, gkermit��f°or, or'an'" "approval of, any violation of art ,, o the prov i s i ons••••of.� O -th e building code or of � ny , other ord nc,,e of the - "'ju,isdl tion;, - /fN64- permit presumi '§`''' , to giv1el r uthority to oritca;noel ;t{ e p_r,.ov�isions of, t f ' s co a 3 sha 1 1 "be ,<va•.1 ,i, '� *'�.., t '` :, I .' . F /. a ,:, ‘, ; , �' :AC�TURER:•s-,IN'STA I�. c.TRUC�.TI7NS�..REQUiIRED ON :SITE ' ``' F O 'THE BUILDING S N P E:C TCtR' ' r I E�(« `, t y 5, MA U y., -, ,,,,,, 6. Plu i n g';'p` .,erm l ts s. h, affil. . h r toughv the Seattlre -King4 Coun,t Department of•.., ; Pub l i.c` Hea.1,t,h,� P l�.umb i !„19 w i 1 1 b ,,, `,,,;� fny p e�qcQ�•K te +by that agency, including a i g'as �+, 7_ 2 : ,' Y . !a �m ' " ; „u. ''- .. ,,.;.h i ........ " ) r e ,, ,,; �, r e d; r ' sh ngton 7 . E 1 ecC�h i ua x e ; t s .. sha 1 1 be obta i� raugli ti t Ft. e Way ,� 1. Statel D1 v A on oti',,Labor and Industriles ,a,nd1 l ,e l e,ctr i ca 1, x ' 9 4, work 410 be inspected ..by that agenciy f 8 - 6b } )�, 8. Approva. of mechanical , work for(the Future ho'p tenant sp c is sub,l r t t�, to raeu11siony,s to per mkt B94-0400 0 oe CITY OF TUKWILA Permit No: M94 -0152 Status: ISSUED Applied: 10/06/1994 Issued: 12/02/1994 H H I H t.NUINLEK zone project date job number floor area sq tt / person total people vent cfm /sq ft total vent cfm light watts /sq ft other oleo watts / sq ft misc sensible misc latent fan heat (1 cf /sq ft) People sensible latent Lights Other elec Glass solar north (shade) northeast east southeast south southwest west northwest horizontal Transmission glass walls roof Ventilation Infiltration Miso sensible /latent Fan heat gain Duct heat gain /loss oa Total cooling Total heating 821 x 821 x 27100 x 27100 x area ILL. :1 -LUb-LIol-ruJ4 uu'. v Cooling / Heating Load Estimate retail less drop clg area best march 10, 1994 368 27100 area 550 x 8700 x 27100 x 8130 x x 33 sq ft / person 821 people 0.30 elm 8130 cfm 2.00 watts/ sq ft watts / sq ft btu /hr btu /hr 28936 btu /hr 250 200 2.00 x 3.41 x 3,41 shgf aug 33 x 128 x 211 x 208 x 180 x 208 x 211 x 128 x 223 x U 0,58 x 0.08 x 0.03 x 1,08 x 1.08 x 758534 btu /hr cif 4 :00 w/o 0.74 x 0,26 x 0.26 x 0.33 x 0.47 x 058 x 0.50 x 0.42 x 0,62 x summer cltd 5 25 60 5 5 I 63.21 tons 429 sq ft/ton 25284 elm (400 cfm /ton) 0,93 cfm /sq ft I 487986 btu /hr 18.01 btuh /soft winter delta T 4 V summer outdoor temp summer Indoor temp winter outdoor temp winter indoor temp summer outdr grains /lb summer indr grains /lb glass U glass shade coeff wall U roof U space volume Infiltration ach Infiltration cfm floor U (add manually) M 1 L "'1 "Y I I Id . '/ . V . • v •.• sensible latent heating 205303 = 184822 Sc 1 .00 = 1.00 = 1.00 = 1.00 = 1.00 = 1.00 = 1.00 = 58025 1.00 = 1.00 = 46 = 1595 46 = 17400 46 = 48780 46 = 43902 46 = 28936 83 78 24 70 73 72 0.58 1.00 0.08 0.03 cu ft 0.3 ach cfm 164242 14674 32016 37398 5528 403898 588763 169771 487986 sens x 1,2 = 58,88 retail less drop cig area RECEIVED CITY OF TUKWILA OCT 6 199' PERMIT CENTER h'H I h C.I UINttK6 zone project date job number floor area sq ft / person total people vent cfm /person total vent cfm light watts /sq ft other elec watts / sq ft miso sensible misc latent fan heat 1 cfm People sensible latent Lights Other oleo Glass solar north (shade) northeast east southeast south southwest west northwest horizontal Transmission area glass walls roof Ventilation Infiltration Miso sensible /latent Fan heat gain Duct heat sain /loss ota Total cooling Total heating 94 x 94 x 18800 x 18800 x 6200 18800 1880 I tL ; l LUV 4Cil - f UJ6 ul.l. U4 J4 x x x x X warehouse best march 10, 1994 368 18800 shgf area aug x 33 x 128 x 211 x 208 X 180 x 208 x 211 x 128 x 223 Cooling / Heating Load Estimate summer outdoor temp summer Indoor temp winter outdoor temp winter Indoor temp summer outdoor h summer indoor h 200 sq it / person 94 people 20 cfm 1880 cfm 2,00 watts/ sq ft watts/ sq ft btu /hr btu /hr 20074 btu hr 250 200 2,00 x 3,41 x 3,41 U 0,58 0.15 0,03 1.08 1,08 cit 4 :00 w/o x 0,74 x 0.26 x 0.26 x 0.33 x 0.47 x 0.58 x ' 0,6 x 0.42 x 0,62 summer citd x 5 x 25 x 60 x 6 x 5 269110 btu /hr I 21,59 tons f 871 sq ft/ton 8637 cfm 400 cfm /ton) I 0.46 cfm /sq ft I 162122 btu /hr .6 bt h glass U glass shade coeff wall U roof U space volume infiltration ach infiltration cfm floor U (add manually) SC x 1.00 = x 1.00 = x 1.00 = x 1,00= x 1.00 = x 1,00 = x 1,00 = x 1.00 = x 1.00 = winter delta T 46 = 46 = 46 = 46 = 46 = sensible latent heating = 23500 18800 128216 _ 23250 33840 10152 20074 sans x 1.2 = 23.90 warehouse 83 78 24 70 73 72 0,68 1 0.15 0.03 cu ft 0.3 ach cfm 42780 25944 1278 93398 239032 20078 162122 1 ENb1Ntt.Kb b zone project date job number floor area sq ft / person total people vent cfm /sq ft total vent cfm light watts /sq ft other elec watts / eq ft misc sensible misc latent fan heat (1,cfmlagft) People sensible latent Lights Other elec Glass solar north (shade) northeast east southeast south southwest west northwest horizontal Transmission area glass x walls x roof 4500 x Ventilation 1350 x infiltration x Mist) sensible /latent Fan heat gain Duct heat gain /loss Total Total cooling Total heating area 136 x 136 x 4500 x 4500 x I tL . 1 LUL) - 4-foi 1 UJ._ Cooling /Heating Loa retail dropped ceiling area best march 10, 1994 368 4500 33 sq ft / person 136 people 0,3 cfm 1350 cfm 4.00 watts/ sq ft 2.00 watts / sq ft btu /hr btu /hr 4805 btu/hr shgf aug x 33 x x 128 x x 211 x x 208 x x 180 x x 208 x x 211 x x 128 x x 223 x 250 200 4.00 x 3,41 2.00 x 3.41 cif 4:00 w/o 0.74 x 0.26 x 0,26 x 0.33 x 0.47 x 0.58 x 0.50 x 0.42 x 0.62 x U 0.58 x 0.08 x 0.03 x 1.08 x 1.08 x summer citd 5 25 60 5 5 174547 btu /hr ( 14.55 tons 309 eq ft/ton 5818 cfm (400 cfm /ton) I 1.29 cfm/scat I 73278 btu /hr s 16,28 buh/g t ft d Estimate summer outdoor temp summer Indoor temp winter outdoor temp winter Indoor temp summer outdr grains /lb summer indr grains /lb glass U glass shade coeff wall U roof U space volume infiltration ach Infiltration cfm floor U (add manually) Sc 1.00 = 1.00 = 1.00 = 1.00 = 1.00 = 1,00 = 1.00 = 1.00 = 1.00 = winter delta T 46 = 46 = 46 = 46 = 46 = sensible latent heating 34091 27273 61380 30690 8100 4805 sans x1 .2 = 14.64 83 78 24 70 73 72 0.58 1 0.08 0.03 cu ft 0.3 ach cfm 6210 7290 918 67068 146356 28191 73278 retail dropped ceiling a r, PHTH ENGINEERS • zone project date job number floor area sq ft / person total people vent cfm /person total vent ofm light wafts /sq ft other elec watts / sq ft misc sensible misc latent fan heat (1 cfm /sq ft) People sensible latent Lights Other oleo Glass solar north (shade) northeast east southeast south southwest west northwest horizontal Transmission glass walls roof Ventilation Infiltration Misc sensible /latent Fan heat gain Duct heat gain /loss Total Total cooling Total heating TEL:1 - 2Ob - 481 - ( b' 2 UCt U4 `_i4 Cooling / Heating Load Estimatod 14 x 14 x 1400 x 1400 x area area x 800 x 1400 x 280 x x offices best march 10, 1994 368 1400 100 sq ft / person 14 people 20 ofm 280 elm 1.70 watts / sq ft 1.00 watts/ sq ft btu /hr btu /hr 1495 btu hr 250 200 1.70 x 3.41 1.00 x 3.41 shgf cif 4 :00 w/o 33 x 0.74 x 128 x 211 x 208 x 180 x 208 x 211 x 128 x 223 x U 0,58 x 0.08 x 0.03 x 1,08 x 1.08 x 0,26 x 0.26 x 0,33 x 0.47 x 0,58 x 0.5 x 0.42 x 0.62 x summer cltd 5 25 60 summer outdoor temp summer Indoor temp winter outdoor temp winter Indoor temp summer outdoor h summer Indoor h glass U glass shade coeff wall U roof U space volume infiltration ach infiltration cfm floor U (add manually) SC 1.00= 1.00 = 1.00 = 1,00= 1,00 = 1,00 = 1.00 = 1.00 = 1.00 = w nter delta T 46 = 46 = 46 = 46 = 46 = 12 :40 NO .U10 r .u4 3500 2800 = 8116 4774 1600 2520 1512 1495 83 78 24 70 73 72 0.58 1 0.08 0.03 cu ft 0.3 ach cfm sensible latent heating 23517 2990 18786 26507 btu /hr 2,21 tons sons x 1.2 = 2,35 634 sq ton 884 cfm (400 cfm /ton) I 0.63 cfm /sq ft 18786 btu /hr 13.42 btuh /soft offices 2944 1932 190 13910 Dear Sir: City of Tukwila FIRE DEPARTMENT 444 Andover Park East Tukwila, Washington 98188 -7661 (206) 575 -4404 Fire Department Review Control #M94 -0152 (512) Re: Best Products - 240 Andover Park West Remote indicator lights are required on all above ceiling smoke detectors. (City Ordinance #1646) John W. Rants, Mayor November 30, 1994 The attached set of building plans have been reviewed by The Fire Prevention Bureau and are acceptable with the following concerns: 1. H.V.A.C. units rated at 2,000 cfm require auto - shutdown devices. These devices shall be separately zoned in the alarm panel and local U.L. central station supervision is required. (City Ordinance #1646) Smoke detectors required by Uniform Mechanical Code Section 1009 (a), (HVAC 2000 cfm and greater), shall be installed in the main return -air duct ahead of any outside air inlet or they may be installed in each room or space served by the return -air duct. Detectors shall also be installed in the supply duct, downstream of the filters. Activation of any detector shall cause the air - moving equipment to automatically shutdown. Dedicated fire alarm system circuit breaker(s) shall be equipped with a mechanical lockout device. (NFPA 72 (1- 5.2.8.2)) Smoke detectors providing shut -down for HVAC units, as well as the units, shall be restorable from the fire alarm control panel. 2. All electrical work and equipment shall conform strictly to the standards of The National Electrical Code. r r,T, f��xjni; 7909 Page number 2 (NFPA 70) 3. This review limited to speculative tenant space only - special fire permits may be necessary depending on detailed description of intended use. Any overlooked hazardous condition and /or violation of the adopted Fire or Building Codes does not imply approval of such condition or violation. Yours truly, cc: T.F.D. file ncd City of Tukwila FIRE DEPARTMENT 444 Andover Park East Tukwila, Washington 98188 -7661 (206) 575 -4404 The Tukwila Fire Prevention Bureau maa John W. Rants, Mayor a ' _ F City of Tukwila John W. Ran s, Mayor • •1I/) • �r ! O i s - 0 ••• , r' _ Department of Community Development Rick Beeler Dlnr ctor * • 0 1908 November 16, 1994 Howard Turner Turner & Associates 18420 - 24th Place N.E. Seattle, WA 98155 RE:. Best Products Remodel Mechanical Plan check number M94 -0152 Dear M. Turner: We have received and reviewed your letter dated November 6, 1994 in reference to questions concerning the mechanical permit application for the Best project. We feel some confusion still exists with regard to your comments on the general project. The following comments may help clarify our position. The general, building envelope was approved under the previous energy code. However, in the adjacent unfinished space next to Best, an insulated wall demising the semi - heated warehouse area from the retail area was not proposed on your building permit. Until this wall is proposed, mechanical work can not be approved in that space because the space does not comply to either energy codes. If it is desirable tc install equipment prior to completion of the Future Shop T. I., it must be documented how this application will comply with the current energy code and that the space would be completed in a reasonable time. Sincerely, Ken Nelsen Plans Examiner' 1AJA, I, v.'•`,r. :rr,. � r. ^.� �i•: en. r m•: r .. n,. o.•:... ..,.,:r,».�,...,..n�.,..v,.NCav a- .,,�.,� . maro....+ n:•,+.. r.irn.rn•«srrrH...n,.an.rn. : >,�r w.� To confirm you have received these comments contact this office and /or submit revisions within ten working days. Please call me any regarding additional questions at 431 -3670, 8:30am to 5:00pm 6300 Southcenter Boulevard, Suite #100 • Tukwila, Washington 98188 • (206) 431-3670 • Fax. (206) 4313665 ,'iz >l-, •' {i• *: tit ',49«_r1y���n:;�S�'.` rF �. 1�,Jwx ...,,.._. ,..;fR: _ t. Fts '.2r.awaatiN.s.},'SSt1,�'v�M �u's, e- �ti4;�1 TURNER & ASSOCIATES November 6, 1994, Mr Ken Nelson Plans Examiner Dept. of Community Development Tukwila,WA 98188 RE: Best Products Remodel Plan check # M94 -0152 Mechanical permit review Dear Mr Nelson, I have been asked by the contractors on this project to clarify that the demising wall shown on the mechanical drawings in the Future Shop space is not proposed yet. The intent of this permit application is to get the "shell" construction built. The Future Shop TI permit will cover the interior wall and distribution system separately. My apologies for any confusion. The "shell" permit was submitted prior to the new enegy code passing on April 1, 1994. The earlier code applies in your review of this portion of the work. Thankyou in advance for your time reviewing this application, Please let me know if anything needs further explanation. Sincerely, Howard R. Turner, AIA cc:Best Products,WGC by fax. 18420 24th Place NE, Seattle, WA 98155 (206) 365 -7431 RECEP `ED NOV 0 9 1994 DEVELOPMENT October 20, 1994 Herb Jackson Apple Lake Contracting 12733 - 197th PI. N.E. Woodinville, WA 98072 RE: Best Products Plan check number M94 -0152 Dear Mr. Jackson: Sincerely, Ken Nelsen Plans Examiner City of Tukwila John W. Rants, Mayor After an initial review of the subject project, it has been determined that additional information must be submitted to complete the plan review. Please address the following comments. Department of Community Development Rick Beeler, Director 1. Sheet number M -1 shows a wall that is dividing the area conditioned by Roof Top Units from the area served by Unit Heaters. The city building permit records do not show this wall to be proposed under the current construction and there are incomplete details for that portion of the buildings insulation. Therefore, your mechanical application will not be approved for this half of the building until a separate tenant improvement building permits is approved showing Energy Code Compliance. 2. Review both sides of the inclosed Washington State Non - residential Energy Code check lists. Provide additional applicable information with your plans as required by W.S.E.C. Section 1141.1. To confirm you have received these comments, contact this office and /or submit revisions within ten working days. Feel free to call me if there are any questions at 431 -3670, 8:30 a.m. to 5:00 p.m. 6300 Southcenter Boulevard, Suite #100 • Tukwila, Washington 98188 • (206) 4313670 • Fax (206) 4313665 CITY OF TUKWILA Id: ACTP125 Activity Table Processing Permit No: M94 -0152 Status: PENDING Keyword: UACT User: 1677 Tenant: BEST PRODUCTS Address: 240 ANDOVER PK W Base Information Parcel No: 022310 -0070 Owner: ANDOVER ASSOCIATES Validated By: SLB Plan Ck Approved: Status: PENDING Applied: 10/ 6/1994 Issued: Active /Inactive: A Completed: / / To Expire: Final Notice Sent: / / Final Response By: Nature of Work: INSTALL HVAC EQUIPMENT AND DUCTWORK. Location: Category: NRES (RES, NRES, STOV) Inspector Area: Valuation: 50,000.00 UMC Edition (Yr): 1991 Fire Protection: Use Change (Y /N): N Storage of Flammable /Hazardous Materials:N /A Type: B -MECH Vers: 9101 Screen: 01 F7= Update, F2= Previous Line, F1= Screen Index, ESC= Cancel Update CITY OF TUKWILA Id: ROUT130 Keyword: UACT User: 1677 11/29/94 Activity document routing maintenance. MECHANICAL PERMIT Permit No: M94 -0152 Tenant: BEST PRODUCTS Status: PENDING Address: 240 ANDOVER PK W Route: 1 Current Route Line: 2 of 5 Packet Units Description Station Status Received Assigned Complete aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa Packet Units Action Station Initials Status Received Assigned Completed MECH 01 01 C BLDG KEN Ap Cond. 10/06/94 11/29/94 11/29/94 Priority (0 /low..9 /high): 0 Regular hours (HH.MM): .00 Overtime Hours(HH.MM): Comments 1[RECIEVED CALL FROM HERB JACKSON REGARDING THE STATUS OF THIS] 2[PERMIT. FAX'D COPY OF COMMENTS FROM K.N. AND PARAPHRASED THE] 3[ISSUE, TOLD HIM TO CALL BACK IF HE HAD QUESTIONS. 10/21/94 ] 4[RSB. ] 5[ ] 6[19 H.V.A.C. UNITS > 2,000 CFM REQUIRES AUTO SHUT -OFF. ] 7 [ ] $[FIRE PEASE REVIEW AND COMMENT. ] 9 [ BY KEN. ] 10[ aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa F1 =Help, ESC =Exit current screen. 11/29/94 MECHANICAL PERMIT C.H. Rev. 1.92 • Honeywell THE 17300 IS A PROGRAMMABLE THERMO- STAT FOR COMMERCIAL SINGLE ZONE HEATING, VENTILATING, AND AIR CONDI- TIONING (HVAC) EQUIPMENT. THE T7300 DIRECTLY REPLACES MOST SINGLE STAGE AND MULTISTAGE THERMOSTATS TO IMPROVE CONTROL, PROVIDE SIGNIFI- CANT ENERGY . SAVINGS AND INCREASE USER CONVENIENCE. ❑ Seven -day flexible programming ❑ Full feature Liquid Crystal Display ❑ Proportional plus Integral (P +I) control ❑ Intelligent Recovery TM ❑ Intelligent FanTM ❑ Concealed keyboard lockout switch and locking cover ❑ Automatic heat/cool changeover ❑ Q7300 switching subbases ❑ Built -in HVAC equipment protection (with minimum on and off times) ❑ Three -hour override of unoccupied program ❑ Continuous unoccupied key ❑ Comfort adjust feature ❑ Battery backup ❑ Optional remote sensor and override capability (with remote annunciation) ❑ 24 Vac, 50/60 Hz power supply Form Number 63.4038 -5 m Honeywell Inc. 1992 S PROGRAMMABLE COMMERCIAL THERMOSTAT SYSTEM DESCRIPTION OPERATION SETTING TIMES AND TEMPERATURES 14 INSTALLATION 19 CHECKOUT 44 TROUBLESHOOTING 48 SPECIFICATIONS 57 Page 3 9 ORDERING INFORMATION WHEN PURCHASING REPLACEMENT AND MODERNIZATION PRODUCTS FROM YOUR AUTHORIZED DIS- TRIBUTOR, REFER TO TRADELINE CATALOG OR PRICE SHEETS FOR COMPLETE ORDERING NUMBER. IF YOU HAVE ADDITIONAL QUESTIONS, NEED FURTHER INFORMATION, OR WOULD LIKE TO COMMENT ON OUR PRODUCTS OR SERVICES, PLEASE WRITE OR PHONE: 1. YOUR LOCAL HONEYWELL SALES OFFICE (CHECK WHITE PAGES OF YOUR PHONE DIRECTORY), ASK FOR THE BUILDING CONTROLS SALES REPRESENTATIVE. 2. BUILDING CONTROLS CUSTOMER SERVICE HONEYWELL INC., 1885 DOUGLAS DRIVE NORTH MINNEAPOLIS, MINNESOTA 55422 (612) 542 -7500 ov, ,� (IN CANADA- HONEYWELL LIMITED /HONEYWELL LIMITEE, LESMERE ROAD, SCARBOROUGH, ONTARIO MIP 2V9) INTERNATIONAL SALES AND SERVICE OFFIC a IN ALL PRINCIPAL CITIES OF THE WORLD. `.f . r')ti R rt 2 3 S The 17300 Programmable Commercial Thermostat system controls commercial single zone HVAC equipment. It consists of two components, the 17300 thermostat and a 07300 subbase. The T7300 thermostat contains a keyboard for entering the times and temperatures, along with an LCD (Liquid Crystal Display) for reading back information. The thermostat also contains a microprocessor, which performs the calculations required to control the single zone system. Two models of the T7300 are available, the T7300A and the T7300B. The T7300A cannot be overridden with the cover locked down. When the cover is locked down, the programming and override keys cannot be reached by the occupants, providing complete security. The T7300B contains a 3 HOUR OCCUPIED button on the cover, enabling programmed temperatures to be overridden without opening the cover. This button allows the occupants to temporarily adjust the temperature while avoiding unnecessary tampering. NOTE: Honeywell offers a simplified model of the T7300, called the T7200 Programmable Commercial Thermostat. This thermostat can be used on 1 heat - 1 cool HVAC units that do not require all of the 17300's capabilities. Refer to form number 63- 5056 -1 for details on the 17200. One of the 07300 family of subbases is needed in order to complete the control system (see figure 1). There are seven different subbase applications; however, there are eleven 17300 and Q7300 combinations. Following are the seven subbase applications. • 07300A — Provides conventional control (gas and electric systems) without system or fan switching. • 07300B — Provides conventional control with system and fan switching. • 07300C — Provides heat pump control with system and fan switching. Includes provisions for auxiliary and emergency heat. • 07300D — Provides heat pump control with system and fan switching but uses conventional terminal designations. Compressor changeover is controlled internal to the heat pump equipment. Includes provisions for auxiliary and emergency heat. • 07300E — Provides conventional control with fan switching. • 07300F — Provides heat pump control without system and fan switching. Includes provisions for auxiliary heat. • 07300G — Provides conventional control with system switching (3 stage cooling, 1 stage heating). FIG. 1— T7300/Q7300 THERMOSTAT CONTROL SYSTEM CONNECTED TO A SINGLE ZONE ROOFTOP. 63- 4038 -5 The following text describes the eleven 17300 and 07300 combinations and the capabilities each combination offers: 1. T7300/Q7300A1000 DESCRIPTION This system is a 1 heat - 1 cool, conventional, non- switching, auto changeover thermostat and subbase. It Is considered the basic control system for the 17300/07300 family of thermostats and subbases. This particular T7300107300 combination will provide one normally open (NO) relay contact output each for heat, cool and fan. These outputs are connected to the HVAC equipment and provide conventional temperature control with auto changeover. This basic system includes the following standard functions: • Seven -day flexible programming — Two occupied and two unoccupied periods per day for each of the seven days of the week — individual setpoints for occupied heat and cool, and unoccupied heat and cool • Keyboard lockout switch • Switch selections for device configura- tion — Control algorithms Proportional (allows droop) Proportional + integral (droopless) — Sensor selection Local Remote — Fan operation in occupied mode Intermittent Continuous — Temperature format o oC 2. T7300/Q7300A1018 DESCRIPTION This system includes the following above: • Selectable output staging In variations — 1 heat - 1 cool — 1 heat - 2 cool — 2 heat - 1 cool — 2 heat - 2 cool any of four 4 t F — Time format 12 hour 24 hour — Fan operation with heating Energize fan in cooling only Energize fan in both heating and cooling • Programmable display — lime — Temperature • Three -hour override — From unoccupied to occupied — User - programmed comfort adjust • TWo status Indicator LEDs For use as status indication of connected equipment functions in addition to the basic system described in No. 1 • Auxiliary relay output Used with economizer for minimum position control based on programmed time schedule. Also can be used for switching other external equipment. 3. T7300/Q7300B1008 DESCRIPTION This system includes the following functions In addition to the basic system described In No. 1 above: • Selectable output staging In any of four variations — 1 heat - 1 cool — 1 heat - 2 cool — 2 heat - 1 cool — 2 heat - 2 cool • System switching — Heat — Off — Cool — Auto 4. T7300/Q7300C1006 DESCRIPTION This system includes the following functions In addition above: • Normally open relay contacts for use In environmental control of heat pump sys- tem with a single stage compreIBIr and auxiliary heat. • System switching — Emergency heat — Heat —Olf — Cool -- Auto • Fan switching — Auto.. -On .. 5 C • Fan switching — Auto - On • Auxiliary relay output Used with economizer for minimum position control based on programmed time schedule. Also can be used for switching other external equipment. • to the basic system described in No, 1 Auxiliary relay output Used with economizer for minimum position control based on programmed time schedule. Also can be used for switching other external equipment. Additional status Indication LEDs - Emergency heat LED - Auxiliary heat LED 63-4038-5 • System switching Emergency heat — Heat - 'Oi -- Cool — Auto 5. T7300/07300C1014 DESCRIPTION This system includes the following functions In addition above: Normally open relay contacts for use In environmental control of heat pump sys- tem with a two•stage compressor and auxiliary heat. 6. 'T7300/Q7300D1053 DESCRIPTION This system Includes the following functions In addition to the basic system described In No. 1 above: • Normally open relay contacts for use In environmental control of heat pump sys- tems with a single stage compressor. Uses conventional terminal designa- tions. Compressor changeover is con- trolled internal to the heat pump equipment. — Y1, terminal for cooling compressor control — W1 terminal for heating compressor control — W3 terminal for auxiliary heat control to the basic system described in No. -1 • Fan switching — Auto -- On • Auxiliary relay output Used with economizer for minimum position control based on programmed time schedule. Also can be used for switching other external equipment. • Additional status Indication LEDs — Emergency heat LED -- Auxiliary heat LED System switching -- Emergency heat — Heat - Off — Cool — Auto Fan switching -- Auto — On • Auxiliary relay output Used with economizer for minimum position control based on programmed time schedule. Also can be used for switching other external equipment. 7. T7300/Q7300D1038 DESCRIPTION This system includes the following functions In addition to the basic system described in No. 1 above: Normally open relay contacts for use In environmental control of heat pump sys- tems with a twn -stage compressor. Uses conventional terminal designa- tions. Compressor changeover Is con- trolled Internal to the heat pump equipment. — Y1 and Y2 terminals for cooling compressor control — W1 and W2 terminals for heating compressor control — W3 terminal for auxiliary heat control 8. T7300/Q7300E1001 DESCRIPTION This system includes the following functions In addition to the basic system described in No. 1 above: • Selectable output staging In any of four variations — 1 heat - 1 cool — 1 heat - 2 cool — 2 heat - 1 cool — 2 heat - 2 cool • Fan switching — Auto — On 9. T7300/Q7300F1009 DESCRIPTION This system includes the following functions In addition above: • Normally open relay contacts for use in environmental control of heat pump sys- tem with a single stage compressor and auxiliary heat. • Auxiliary relay output Used with economizer for minimum position control based on programmed time schedule. Also can be used for switching other external equipment. 7 • System switching — Emergency heat — Heat —Off — Cool — Auto • Fan switching — Auto — On • Auxiliary relay output Used with economizer for minimum position control based on programmed time schedule. Also can be used for switching other external equipment. • Auxiliary relay output Used with economizer for minimum position control based on programmed time schedule. Also can be used for switching other external equipment. to the basic system described in No. 1 • Additional status Indication LED Auxiliary heat LED �.t? �a' �m3: l��i� !i�.t...fsk'Yaa�.k4a�lct�t»isi3 83- 4038 -5 • Normally open relay contacts for use in environmental control of heat pump sys- tem with a and auxiliary heat. Auxiliary relay output Used with economizer for minimum position control based on programmed time schedule. Also can be used for switching other external equipment. 11. T7300/Q7300G1007 DESCRIPTION This system includes the following functions in addition above: • Fixed output staging of 3 cool, 1 heat. • System switch -- Heat — Off — Cool Auto 10. T7300/Q7300F1017 DESCRIPTION This system includes the following functions. In addition to the basic system described in No. t? above: • Additional status Indication LED Auxiliary heat LED to the basic system described in No. 1 Auxiliary relay output Used with economizer for minimum position control based on programmed time schedule. Also can be used for switching other external equipment. THE T7300 AND CONVENTIONAL THERMOSTATS P + I CONTROL The T7300's microprocessor -based control requires the user to have a new understanding of temperature control and thermostat performance. A conventional electromechanical or electronic thermostat does not control temperature precisely at setpoint. Typically, there is an offset (droop) in the control point as system load changes. This is a phenomenon that most people in the industry know and accept. Many factors contribute to offset, including switch differential, thermal lag, overshoot, cycle rates and system load. The T7300's microprocessor simultaneously gathers, compares and computes data. Using this data, it controls a wide variety of functions. The special proprietary algorithm (program) in the 17300 virtually eliminates the factors causing offset. This improvement makes temperature control with the 17300 more accurate than with conventional electromechanical or electronic thermostats. The 17300's special temperature control algorithm is called proportional plus integral (P +I) control. The 17300's sensor (either on board the 17300 or remote) senses the current space temperature. The T7300 compares the sensed temperature to the programmed setpoint and determines the deviation from setpoint. This deviation is known as proportional error. In addition to proportional error, the 17300 also determines a deviation based on the length of error time. This deviation is known as integral error. The sum of the two errors is the proportional plus integral (P +I) error. The P +l computation is the major difference between most electronic thermostats and Honeywell's microprocessor -based 17300 control system. Many electronic and electromechanical thermostats take into account proportional error; however, Honeywell's microprocessor -based 17300 control system also takes into account the integral error. With the above information, the 17300's microprocessor computes the cycling rates necessary to reach and maintain the programmed temperature setpoints (refer to figure 2). While the 17300 is designed to eliminate droop, allowing droop can be desirable in applications where building visitors are dressed for the weather and their stays are brief. Examples of these applications include fast food restaurants and convenience stores. The droopless feature of the 17300 may be overridden by placing the droop/droopless select switch located on the subbase in the OFF position. This will remove the integral calculation from the T7300 control scheme, allowing only the proportional control to occur. ;ii THERMOSTAT COOL SETPOINT PROPORTIONAL COOL CONTROL POINT WM P. N ICOTROL POIiIT � PSI CONTROL POINT PROPORTIONAL HEAT CONTROL POINT THERMOSTAT HEAT SETPOINT 4 -- HEATING COOLING 1 1 100 60 0 60 100 PERCENT LOAD Fl . 2—PR • - • RTI • AL TEMPER T VS. P +I TEMPERATURE. CONTROL 9 u?:i i? ; :�rY:`1 '.;i•�tri:s;<`; .• "'l r7 }7;,:yi'':?:.i.`'"� .�• ui, yea ,e1 63-4038-5 u?Y. 63- 4038 -5 �`s ,fixA ; . Is T7300 THERMOSTAT OPERATION 10 EQUIPMENT PROTECTION As part of the operational sequence, the T7300 microprocessor also incorporates minimum on and off times for all heating and cooling stages. Minimum on and off times ensure that rapid cycling of equipment will not occur, extending equipment life. Minimum on/off times for compressor stages are ON - 2 minutes, OFF - 4 minutes. Minimum on/off times for heat (electric resistive or gas) are ON - 2 minutes, OFF - 2 minutes. STARTUP When power to the thermostat is turned on, a startup and initialization program begins. This startup takes place after any total loss of power (24 Vac and battery backup). At this time, the system default values are put into memory (replacing the user program that was lost). Default values are heating 68 ° F [20 ° C) and cooling 78 ° F [26 ° C] for the occupied mode. Unoccupied default values are heating 55 ° F [13 ° C] and cooling 90 ° F [32 ° C]. NOTE: These unoccupied defaults are only used if an unoccupied start time Is entered or the CONT UNOC key is pressed. Immediately following initialization, the user can enter new setpoints to be used in place of the default values. If the battery backup was operating during a power failure, and 24 Vac power comes back on, the user - entered time and temperature program saved in memory will be used. If 24 Vac power is lost, and no battery backup exists, the default temperatures will be placed into memory when the power comes back on. These default values will then be used for temperature control. OCCUPIED When the thermostat is operating in the occupied mode, the temperature will be controlled to the occupied heat or cool setpoints. The normally open (A1) auxiliary relay contacts will be closed and the normally closed (A3) auxiliary relay contacts will be opened during the occupied mode (if the subbase being used has this option). The fan will operate as follows: No Switching Subbase Used: Operation of the fan will be continuous (fan .always energized) unless the fan option switch on the back of the T7300 (switch No. 3) is set to intermittent (cycles with Y1 or W1). Switching Subbase Used: The 07300 fan switch can be set to ON (always energized) or AUTO (cycles with Y1 or W1). NOTE: If subbase configuration switch No. 4 (on any 07300 conventional subbase) is set to the ON position, the fan cycles on a call for cooling only; switch No. 4 has no effect on heat pump subbases (Q7300C, D, F). UNOCCUPIED When the thermostat is operating in the unoccupied mode, the temperature will be controlled to the unoccupied heat or cool setpoints. The auxiliary relay contacts will be open and the fan will operate as follows: Switching or Non - Switching Subbase Used: The fan will always be intermittent (cycles with Y1 or W1). NOTE: If subbase configuration switch No. 4 (on any Q7300 conventional subbase) Is set to the ON position, the fan cycles on a call for cooling only; switch No. 4 has no effect on heat pump subbases (07300C, D, F). RECOVERY FROM UNOCCUPIED (CONVENTIONAL SYSTEM) The 17300 employs Intelligent Recovery TM, a unique recovery algorithm that attempts to reach setpoint at the programmed occupied start times. Intelligent Recovery TM is a setpoint ramping feature that is used when a programmed change from unoccupied setpoints to occupied setpoints occurs. This feature selects the optimum time to begin building warm -up or cool -down and can vary depending on space temperature deviation from setpoint. The end result of Intelligent RecoveryTM is the correct temperature at occupancy time. This feature increases energy savings and user convenience. For example, look at figure 3. This figure shows heating with a conventional HVAC system. The occupied start time is 7:00 a.m. and the occupied heat setpoint is 72 ° F. The unoccupied heat setpoint is 60 ° F, the current time is 4:00 a.m. and the T7300 has been controlling the space temperature (currently 60 ° F) to the unoccupied heat setpoint. The T7300 uses a 5 ° F per hour recovery ramp rate. Additional stages of heating will be energized only if the recovery ramp rate is not being met. in this example, the minimum start time will be two hours, 20 minutes (12 ° F divided by 5 ° F per hour). Therefore, heating will start at 4:40 a.m. and continue until the occupied setpoint is reached. In the next example (see figure 4), the start times and setpoints are the same as the previous example; however, space temperature at 4:00 a.m. is 65 ° F. No heating has been used to maintain this temperature due to the heat load of the building. In this example, the 17300 will still ramp the setpoint as in the above example but heating will not be energized until the ramped setpoint is greater than the space temperature. Therefore, heating will be energized to start recovery at 5:40 a.m., and the setpoint will continue to ramp up at a rate of 5 ° F per hour until the occupied setpoint is reached. The above examples also apply in cooling. However, the setpoint will ramp down from the unoccupied cool setpoint and decrease until the occupied cool setpoint is reached. The ramp rate will be 5 ° F per hour. The auxiliary relay contacts will remain open (de- energized) during recovery, and the fan will be cycled with Y1 or W1. OCC HEAT • 72 SETPOINT N & 7 76 70 66 UNOCC HEAT ►60 SETPOINT 4AM i 6AM 6AM 7AM 6AM 4:40 AM OCCUPIED START TIME INTELLIGENT RECOVERY' AND HEATING STARTS — o ROOM TEMP SETPOINT TIME FIG. 3— RECOVERY EXAMPLE; ROOM TEMPERATURE AT UNOCCUPIED SETPOINT. 11 FIG. 4— RECOVERY EXAMPLE; ROOM TEMPERATURE AT 65 ° F. HEAT PUMP OPERATION A 17300 may be configured for either heat pump or conventional control. When the T7300 is configured for heat pumps, some additional information is required. The heat pump jumper (located on the back of the T7300), will place the thermostat into the heat pump mode. Refer to the INSTALLATION section. 75 OCC HEAT - 72 SETPOINT w sy 70 66 UNOCC HEAT P. 60 SETPOINT it 6AM 6:40 AM t INTEWOENT HEATING RECOVERY " STARTS STARTS ROOM TEMP SETPOINT 4AM 6AM 4:40AM t 7 A OCCUPIED START TIME 6 AM 63-4038-5 0 AND B TERMINALS FOR HEATING OR COOLING CHANGEOVER NOTE: Q7300D subbases do not provide heat pump changeover control, so this section on the 0 and B terminals does not apply. The Q7300D subbase is used in heat pump applications when reversing valve changeover is internal to the heat pump. TABLE 1 —OPERATION OF THE SUBBASE 0 AND B TERMINALS. 07300 Subbase System Setting Heat Cool Auto (Heat) 0 Auto (Cool) , Emergency Heat Off 0 Off On Off On Off B On Off On Off On Off - Open On - Closed NOTE 1 : Operation of the 0 and B terminals in the AUTO mode depends on the current status of energized stages. If the thermostat is currently calling for heat or the system Is de- energized and last call was for heating, the 0 and B terminals will be in the auto (heat) position as above. If the thermostat is currently calling for cooling or the system is de- energized and the last call was for cool- ing, the 0 and B terminals will be in the auto (cool) position as above. Operation of the 0 and B terminals on the Q7300F subbases functions in the same way. NOTE 2 : Operation of the 0 and B terminals in the OFF mode depends on whether the last call was for heating or cooling. If the last call was for heating, the 0 and B terminals will be in the auto (heat) position as above. If the last call was for cooling, the 0 and B terminals will be in the auto (cool) position as above. RECOVERY FROM UNOCCUPIED (HEAT PUMP OPERATION) Recovery from unoccupied differs from the conventional application mentioned earlier with respect to the ramp rate used for recovery during heating. With heat pump selected, the heating recovery ramp rate will be 3 ° F per hour. In the previous recovery example (figure 3), the recovery ramp rate was 5 ° F per hour. If this 5 ° F per hour is changed to 3 per hour, the recovery time calculated by the thermostat will be four hours. Therefore, the startup of heating for recovery in figure 3 would have been 3:00 a.m. for a heat pump. The cooling ramp rate does not differ when heatpump is selected and will remain at 5 ° F per hour. FAN OPERATION The fan will be energized continuously in the occupied mode if the subbase's fan switch is in the ON position or it will be energized intermittently if the switch is in the AUTO position. During unoccupied mode, the fan will cycle with Y1 and W1 if the subbase is a Q7300D. The 07300 subbase switch No. 4 has no effect when the thermostat is configured for heatpump operation. EMERGENCY HEAT On heat pump subbases that provide system switching, when the subbase's system switch is placed into the emergency heat position, auxiliary heat (W1 on Q7300C models, W3 on 07300D models) will be treated as stage 1. The compressor stages (Y1/Y2, if available, and W1 /W2 on Q7300D models) will be locked off, and the fan will cycle with auxiliary heat. 12 GENERAL OPERATIONAL INFORMATION CYCLE RATES The T7300's control algorithm maintains temperature by cycling stages of heating or cooling to meet setpoint demand. The following nominal cycle rates are provided: H2 Cl C2 System Type H1 Conventional 8 Heat Pump 4 8 13 8 4 4 4 4 C3 4 SUBBASE AUXILIARY RELAY The 07300's auxiliary relay output acts as a time -of -day switch to be used with an economizer's minimum position control. The normally open (Al) auxiliary relay contacts are closed during the occupied period and open during the unoccupied period. The normally closed (A3) auxiliary relay contacts are open during the occupied period and closed during the unnoccupied period. During recovery, the contacts will remain in their normal state. INTERFACING WITH ELECTROMECHANICAL ECONOMIZERS (SUBBASES WITH AUXILIARY RELAY) Mechanical cooling is often used when outside temperatures are in the 50s or 60s and humidity is below 50 percent. in central and northern climates, hundreds of hours fall into this temperature category. By permitting 80 to 100 percent outside air into the system, mechanical cooling may not be needed at all, particularly during the spring and fall. The HVAC system can take advantage of this outside air with the use of an economizer. The typical economizer consists of an outside air damper and a motor controlling the dampers. Also, an outdoor air changeover control is used to determine when outdoor air is suitable for cooling. A minimum position potentiometer is used for adjusting the minimum position of the economizer dampers. These adjustments provide a minimum amount of fresh air for ventilation. Two benefits are realized when an economizer is used. When the economizer is in operation, compressor run time is reduced, thereby saving energy and extending the life of the compressor. However, there is a drawback. During the unoccupied period, if there is no call for cooling or outdoor air is not suitable for free cooling, the economizer is controlled to minimum position. This position allows some percentage of outdoor air to enter the building, regardless of the air suitability. In many cases, this situation will cause the heating or cooling to run more often than it would if suitable outdoor air was permitted to enter the building during the unoccupied period. The T7300 can take advantage of an economizer, if it is available, by connecting the auxiliary relay contacts (Al and A2) of the 07300 subbase to control the economizer's minimum position potentiometer. These contacts close during the occupied period, allowing the economizer to operate normally. During the unoccupied period, these contacts will be open, disabling the minimum position feature of the economizer. If the economizer calls for minimum position during its operation and the unoccupied period is in affect, the open contacts cause the economizer to drive fully closed instead of staying open at minimum position. This condition reduces the possibility of undesirable outdoor air from entering the building, reducing the internal load on the HVAC system and saving additional energy. OTHER USES FOR THE AUXIUARY RELAY The auxiliary relay may be used with other building loads that require some type of control based on the occupied and unoccupied start times rather than the economizer. Hot water heaters, lighting or baseboard heat are just a few examples of the additional loads that may be connected to the auxiliary relay contacts of the 07300 subbase. The 07300 auxiliary relay contacts are rated for 1.6A at 30 Vac. The use of an external relay and transformer, as shown in figure 5, can also be adapted to higher current applications. 63.4038 -5 OVERVIEW I,6 07300 SUBBASE r m - AUXILIARY RELAY CONTACTS (NOT) I aA Q POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED. 24 VAC SECONDARY. A RELAY REQUIRED (88222 OR SIMILAR). TERMINAL A3 AVAJLABLE ON 07300A, B, 0, E AND 0 MODELS ONLY. TO LOAD FIG. 5 —USE OF EXTERNAL RELAY AND TRANSFORMER FOR AUXILIARY LOADS GREATER THAN 1.6 A. DUTY CYCLE INTERFACE Duty cycling HVAC equipment controlled with a 17300 is not recommended since the 17300 is already maintaining an optimum control cycle rate. Imposing an additional external duty cycle will only increase the proportional plus integral error being sensed by the T7300, which results In a significant degradation of temperature control and equipment efficiency. The keyboard Is located behind the flip -up cover on the T7300. The 16 keys and LCD (Liquid Crystal Display) located on the face of the thermostat allow the user to set, review and modify the temperature setpoints and times (see figure 6). IMPORTANT Before the T7300's occupied and unoccupied start times and setpoint temperatures can be set, the keyboard lockout switch located on the back of the thermostat must be in the ON -KEYED position to allow access to the thermostat's program memory. See figure 7 in the INSTALLATION section for switch location. The override, display and clock keys remain active and are not locked out by this feature. FIG. 6- THERMOSTAT DISPLAY AND PROGRAMMING KEYS. 14 RETAKE OF PREVIOUS DOCUMENT i 1 GENERAL OPERATIONAL INFORMATION CYCLE RATES The T7300's control algorithm maintains temperature by cycling stages of heating or cooling to meet setpoint demand. The following nominal cycle rates are provided: H2 Cl C2 System Type H1 Conventional 8 Heat Pump 4 8 SUBBASE AUXILIARY RELAY The Q7300's auxiliary relay output acts as a time -of -day switch to be used with an economizer's minimum position control. The normally open (Al) auxiliary relay contacts are closed during the occupied period and open during the unoccupied period. The normally closed (A3) auxiliary relay contacts are open during the occupied period and closed during the unnoccupied period. During recovery, the contacts will remain in their normal state. INTERFACING WITH ELECTROMECHANICAL ECONOMIZERS (SUBBASES WITH AUXILIARY RELAY) Mechanical cooling is often used when outside temperatures are in the 50s or 60s and humidity is below 50 percent. In central and northern climates, hundreds of hours fall into this temperature category. By permitting 80 to 100 percent outside air into the system, mechanical cooling may not be needed at all, particularly during the spring and fall. The HVAC system can take advantage of this outside air with the use of an economizer. The typical economizer consists of an outside air damper and a motor controlling the dampers. Also, an outdoor air changeover control is used to determine when outdoor air is suitable for cooling. A minimum position potentiometer is used for adjusting the minimum position of the economizer dampers. These adjustments provide a minimum amount of fresh air for ventilation. Two benefits are realized when an economizer is used. When the economizer is in operation, compressor run time is reduced, thereby saving energy and extending the life of the compressor. However, there is a drawback. During the unoccupied period, if there is no call for cooling or outdoor air is not suitable for free cooling, the economizer is controlled to minimum position. This position allows some percentage of outdoor air to enter the building, regardless of the air suitability. In many cases, this situation will cause the heating or cooling to run more often than it would if suitable outdoor air was permitted to enter the building during the unoccupied period. The 17300 can take advantage of an economizer, if it is available, by connecting the auxiliary relay contacts (Al and A2) of the Q7300 subbase to control the economizer's minimum position potentiometer. These contacts close during the occupied period, allowing the economizer to operate normally. During the unoccupied period, these contacts will be open, disabling the minimum position feature of the economizer. If the economizer calls for minimum position during its operation and the unoccupied period is in affect, the open contacts cause the economizer to drive fully closed instead of staying open at minimum position. This condition reduces the possibility of undesirable outdoor air from entering the building, reducing the internal load on the HVAC system and saving additional energy. 8 4 4 4 4 C3 4 OTHER USES FOR THE AUXIUARY RELAY The auxiliary relay may be used with other building loads that require some type of control based on the occupied and unoccupied start times rather than the economizer. Hot water heaters, lighting or baseboard heat are just a few examples of the additional loads that may be connected to the auxiliary relay contacts of the Q7300 subbase. The Q7300 auxiliary relay contacts are rated for 1.6A at 30 Vac. The use of an external relay and transformer, as shown in figure 5, can also be adapted to higher current applications. 13 63-4038-5 A A A 07300 SUBBASE AUXILIARY RELAY CONTACTS --H 0 lt (NOT) I 0 POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REOUIRED. 54 VAC SECONDARY. RELAY REQUIRED (Re m OR SIMILAR). TERMINAL A3 AVAILABLE ON 07300A, B. D, E AND 0 MOOELS ONLY. TO • LOAD FIG. 5 —USE OF EXTERNAL RELAY AND TRANSFORMER FOR AUXILIARY LOADS GREATER THAN 1.6 A. DUTY CYCLE INTERFACE Duty cycling HVAC equipment controlled with a 17300 is not recommended since the 77300 is already maintaining an optimum control cycle rate. Imposing an additional external duty cycle will only increase the proportional plus integral error being sensed by the T7300, which results in a significant degradation of temperature control and equipment efficiency. OVERVIEW The keyboard is located behind the flip -up cover on the 17300. The 16 keys and LCD (Liquid Crystal Display) located on the face of the thermostat allow the user to set, review and modify the temperature setpoints and times (see figure .6). IMPORTANT Before the T7300's occupied and unoccupied start times and setpoint temperatures can be set, the keyboard lockout switch located on the back of the thermostat must be in the ON -KEYBD position to allow access to the thermostat's program memory. See figure 7 in the INSTALLATION section for switch location. The override, display and clock keys remain active and are not locked out by this feature. COOIIRO. M CCIX,ED • OONT MCC. WI OCCUPIED r 1 — 1 1 SET O CET START ME SET TEYPEMME Q'.TACMA DE OYERLE SEMI oc .JP O OOpPtD OCC P0D S aY ITS ITrf MTAT OOO OIruY + ocasIID cJ c J t: cD 11100 TI� OOOI CT TMT NI O O O c U OOP! DTA O tJ FIG. 6— THERMOSTAT DISPLAY AND PROGRAMMING KEYS. 14 The user may enter up to two 0 seven days, Monday through Sun entered. The two override keys ( setpoint adjustment or a continuo meeting their space temperature Pressing the + and - keys adjusts Use the DISPLAY key to exit any SET THE CLOCK 1. Press the CLOCK key. 2. Press the + or - key until the di SET THE DAY 1. Press the DAY key. 2. Press the + or - key until the di NOTE: Su = Sunday; Mo = Mond Th = Thursday; Fr Frida SET THE DESIRED OPE 1. Pressing the DISPLAY key will 2. Press the DISPLAY key until th SET OCCUPIED AND U NOTE: The 17300 will only allow of invalid start times are 5 5:20, 7:10, 1:00 and 11:30 1. Press the SELECT DAY key. T 2. Press the + or - key until the d 3. Press the OCCUPIED START T indicating that the occupied per 4. Press the + or - key until the d 5. If the occupied time displayed i 6. Press the UNOC START TIME indicating that the unoccupied 7. Press the + or - key until the d 8. If the unoccupied start time dis To program a second occupied st ( - - - -) are displayed or the second Step 4. To program a second unoccupied dashes ( - - - -) are displayed or the repeat Step 7. The user may enter up to two occupied and two unoccupied start times per day for each of the seven days, Monday through Sunday. Occupied and unoccupied heat and cool setpoints can also be entered. The two override keys (on the keyboard) provide a three -hour unoccupied to occupied setpoint adjustment or a continuous unoccupied setpoint. These options provide the user flexibility in meeting their space temperature control requirements. Pressing the + and - keys adjusts the day, time or setpoint temperatures ahead or back respectively. Use the DISPLAY key to exit any programming mode. SET THE CLOCK 1. Press the CLOCK key. 2. Press the + or - key until the display shows the correct time. SET THE DAY 1. Press the DAY key. 2. Press the + or - key until the display shows the current day. NOTE: Su = Sunday; Mo = Monday; Tu = Tuesday; We = Wednesday; Th = Thursday; Fr a Friday; Sa = Saturday. SET THE DESIRED OPERATING DiSPLAY 1. Pressing the DISPLAY key will alternate the display between the temperature and the time. 2. Press the DISPLAY key until the desired display appears on the LCD. SET OCCUPIED AND UNOCCUPIED START TIMES NOTE: The 17300 will only allow the start times to be entered in intervals of 10 minutes. Examples of invalid start times are 5:15, 7:12, 12:59 and 11:26. Examples of valid start times are 5:20, 7:10, 1 :00 and 11:30. 1. Press the SELECT DAY key. The display shows an abbreviated day of the week. 2. Press the + or - key until the desired day is displayed. 3. Press the OCCUPIED START TIME key. The indicator on the display will point to OCCUPIED, indicating that the occupied period has been selected. 4. Press the + or - key until the desired start time appears on the display. 5. If the occupied time displayed is not desired, press the CLEAR START TIME key. 6. Press the UNOC START TIME key. The indicator on the display will point to unoccupied, indicating that the unoccupied period has been selected. 7. Press the + or - key until the desired start time appears on the display. 8. if the unoccupied start time displayed is not desired, press the CLEAR START TIME key. To program a second occupied start time for the selected day, repeat Step 3 until either four dashes ( - - - -) are displayed or the second start time (if previously programmed) is displayed. Then repeat Step 4. To program a second unoccupied start time for the selected day, repeat Step 6 until either four dashes ( - - - -) are displayed or the second start time (if previously programmed) is displayed. Then repeat Step 7. 15 63- 4038 -5 NOTE: The upper limit for the occupied cool setpoint is the unoccupied cool setpoint. The lower limit for the occupied cool setpoint is 2 ° F greater than the occupied heat setpoint. SET THE UNOCCUPIED COOL SETPOINT 1. Press the UNOC COOL key. The indicator on the display will point to UNOCCUPIED and the word COOL will be displayed to indicate that the unoccupied cool setpoint has been selected. The display will also show the last entered (or default) unoccupied cool setpoint. 2. Press the + or - key until the display shows the desired temperature for the unoccupied period. NOTE: The upper limit for the unoccupied cool setpoint is 95 ° F. The lower limit for the unoccupied cool setpoint is the occupied cool setpoint. COPY A DAY 1. Press the SELECT DAY key. 2. Press the + or - key until the day to be copied from is displayed. 3. Press the COPY key. 4. Press the + or - key until the day to be copied to is displayed. NOTE: The day to be copied from will remain on the display. 5. Press the COPY key again to perform the copy. 6. Repeat Steps 3 to 5 to copy a day again. CLEAR A PROGRAMMED START TIME 1. Press the SELECT DAY key. 2. Press the + or - key until the desired day is displayed. 3. Press the OCCUPIED START TIME key or the UNOC START TIME key until the time to be cleared is displayed. 4. Press the CLEAR START TIME key. The display should now show four dashes ( - - - -) or the other start time if programmed. TEMPORARILY OVERRIDING THE T7300'S PROGRAM There are three overrides available on the 17300 Programmable Commercial Thermostat. Overrides 1 and 2 below can be initiated from a remote location. Override 1 can also be Initiated from the front cover of a T73008. 1. 3 HOUR OCCUPIED - This override is useful in situations when people will be in a building after normal working hours, on weekends or on holidays. The user presses the 3 HOUR OCCUPIED key to place the thermostat into the occupied mode, controlling the space temperature to the occupied setpoints for three hours. The indicator on the left side of the display will point to 3 HR OCCUPIED while this override is in effect. 2. 3 HOUR OCCUPIED (followed by the + or - key) - This is the setpoint adjust override on the 17300. It Is useful in situations when the occupied space feels too cool or warm for the occupants and a temporary change of setpoint would make the temperature more comfortable. It can be initiated from either the occupied or unoccupied modes and functions in this way: — Press the 3 HOUR OCCUPIED key. If in unoccupied, the thermostat will go to the occupied mode, controlling the space temperature to the occupied setpoints for three hours. If in occupied mode, no change of setpoints will occur. However, this override ensures three hours 17 63- 4038 -5 of occupied setpoint control regardless of any unoccupied start times that may be programmed. Tho indicator on the left side of the display will point to 3 HR OCCUPIED while this override is in effect. THEN: — Press the + key. This will adjust the setpoint up by a user- programmed amount. As an example, occupied heat is set for 70 ° F and the amount of adjust is set for 3 After the + key is pressed, the occupied heat setpoint will be 70 + 3 or 73 ° F. The thermostat will then control the space temperature to 73 ° F. The indicator on the left side of the display will continue to point to 3 HR OCCUPIED during the remainder of the three hours of adjusted setpoint. The displayed occupied heat setpoint will not reflect the additional 3 ° F adjustment amount. OR — Press the - key. This will adjust the setpoint down by a user - programmed amount. As an example, occupied heat is setfor 70 ° F and the amount of adjust is set for 3 ° F. After the - key is pressed, the occupied heat setpoint will be 70 - 3 or 67 The thermostat will then control the space temperature to 67 The indicator on the left side of the display will continue to point to 3 HR OCCUPIED during the remainder of the three hours of adjusted setpoint. The displayed occupied heat setpoint will not reflect the additional 3 ° F adjustment amount. NOTE: Setting the amount of adjust: 1. Press the 3 HOUR OCCUPIED key. The indicator on the left side of the display will point to 3 HR OCCUPIED. 2. Press the DISPLAY key to enter the set mode. The LCD will display 0 (default) or 1 to 5 ° F if previously set. 3. Press the + or - key to change the amount of adjust from 0 to 5 ° F. 3. CON' UNOC - This continuous unoccupied override is useful in situations where the building will be vacant for an extended period of time (such as temporary closings orr long holidays). Pressing the CONT UNOC key will place the 17300 into the unoccupied period for an indefinite time. When in this mode, the thermostat will control to the unoccupied setpoints with the indicator pointing to CONT UNOC. A second press of the CONT UNOC key will cancel this override mode and return the 17300 to normal operation. 18 WHEN INSTALLING THIS PRODUCT... 1. Read these instructions carefully. Failure to follow them could damage the product or cause a hazardous condition. 2. Check the ratings given In the instructions and on the product to make sure the product Is suitable for your application. 3. Installer must be a trained, experienced service or installation technician. 4. After Installation Is complete, check system operation as provided in these Instructions. CAUTION Disconnect power supply before beginning Installation to prevent electrical shock and equipment damage. The T7300 Programmable Commercial Thermostat is a solid state thermostat for commercial single zone HVAC equipment. The thermostat can be mounted in the controlled space or in a remote location using a remote temperature sensor (1704701025, T7022A1010 or T7147 series, order separately) located in the controlled space. The 17300 thermostat includes the display, program memory, keyboard, sensor and switches for the operational configuration of the device. Both sides of the 24 Vac transformer must be available to power the thermostat and provide proper operations. IMPORTANT Most equipment manufacturers size system transformers for equipment installed at the factory. Be sure that the system transformer can supply the 17300 and Q7300 with proper power (approximately 6 VA) before connection. If an adequate power supply to the T7300/Q7300 is not available from the system transformer, use a separate 24 Vac transformer according to figure 12 -E. T7300 CONFIGURATION SWITCHES AND JUMPERS The T7300 Programmable Commercial Thermostat is field - configurable for: • ° C or ° F temperature display and programming format. • 24 or 12 hour time display and programming format. • Selecting continuous or intermittent fan In the occupied mode. • Enabling or disabling keyboard programming. • Conventional or heat pump thermostat operation. All of these configuration switches or jumpers are accessible from the back of the T7300 and can be switched with a ball point pen or pencil (see figure 7). 19 63.4038 -5 • FIG. 7— SWITCHING THE THERMOSTAT CONFIGURATION SWITCHES. SWITCH 1 - °C / °F TEMP (Selecting °F or °C Temperature Display and Programming Format) To select °F format (factory position), place this switch ON (up position). To select °C format, place this switch OFF (down position). SWITCH 2 - 24/12 HR TIME (Selecting 24 or 12 Hour Time Display and Programming Format) To select 12 hour format (factory setting), place this switch ON (up position). To select 24 hour format, place this switch OFF (down position). SWITCH 3 - CONT /INT - FAN (Selecting Continuous or Intermittent Fan In the Occupied Mode) To select continuous fan in the occupied period (factory setting), place this switch OFF (down position). To select intermittent fan in the occupied period, place this switch ON (up position). On a subbase with fan switching, the fan switch overrides the CONT /INT switch 3. SWITCH 4 - NOTE: THIS SWITCH IS NON - FUNCTIONAL ON THE T7300. SWITCH 5 - OFF /ON KEYBD (Enabling /Disabling the Keyboard) To enable the keyboard (factory setting), place this switch ON (up position). The keyboard is now available for programming. To disable the keyboard, place this switch OFF (down position). Programming is now disabled. However, the user can review the program, perform overrides and make clock adjustments. HEAT PUMP MINI - JUMP (Selecting Heat Pump Thermostat Control) The T7300 is factory-set for conventional (non -heat pump) thermostat control. If heat pump control is required, move the mini -jump located on the back of the T7300 to heat pump control. Remove the factory- set mini -jump connecting the pins for conventional control and place it over the pins for heat pump control. See Fig. 8. The T7300 will then switch to its heat pump control algorithm. 20 • U4086 HEAT PUMP T7300 ONLY , ' CONV • • a 1 LL O 0, C z LL :A ft FIG. 8— SELECTING HEAT PUMP CONTROL. 07300 SUBBASE CONFIGURATION SWITCHES The 07300 subbases provide the T7300 with an interface to the single zone HVAC system. Eleven models are covered in this manual: • 07300A1000 • 0730001014 • 07300F1009 • 07300A1018 • 0730001038 • 07300F1017 • 0730081008 • 0730001053 • 0730001007 • 07300C1006 • 07300E1001 All models, except the Q7300A, Q7300E and Q7300F, provide system switching. All models, except the Q7300A, Q7300F and Q7300G provide fan switching. The C,D and F models are for heat pump applications only, and the A, B, E and G models are for conventional HVAC applications only. Any T7300 thermostat can be installed with any of these subbases to provide the necessary type of environmental control required. The 07300 subbase configuration switches are located on the front of the Q7300 and to the right of the wiring terminals. The switches are numbered 1 to 5 from left to right and can be switched with a small ball point pen or a pencil (see Fig. 9). Following is a list of the configuration switches and their functions. 21 63- 4038 -5 SWITCH 1 SWITCH 2 FUNCTION OFF OFF ON ON OFF ON OFF ON Sets thermostat and subbase for 1 heat, 1 cool. Sets thermostat and subbase for 1 heat, 2 cool. Sets thermostat and subbase for 2 heat, 1 cool. Sets thermostat and subbase for 2 heat, 2 cool (factory set). SWITCH 3 OFF ON Thermostat performs proportional control only (allows droop). Thermostat performs droopless proportional plus Integral '(P +t) tormtrol 08034y set). SWITCH 4 OFF A Fan wits be er r zed on both heat and cool. Fan wil be energLred on cool only (factory set). SWITCH S 04 oN lwtvirat le sew be used. lairettei savor wit be used (factory set). nfa1 }1c"f;u:��i4 Z.'l.�i:+w.emYSrr' 000000000 6�J O � CD 00 00 00000 F001 a 0 A CONFIOURATION OF ILLUSTRATED SWITCH IS: 1 O t• OFF J•OFF 4 ON b• ON FIG. 9— SWITCHING THE SUBBASE CONFIGURATION SWITCHES. TABLE 2-07300 SUBBASE CONFIGURATION SWITCHES 1 t40..m rn 114-40 subtew ard 1 (Q7300G) subbase. & : 1.\ 4 Itiss no eft co heat pkaw subbases (073000, 0, F). RETAKE OF PREVIOUS DOCUMENT S Q7300 SUBBASE CONFIGURATION SWITCHES FIG. 8—SELECTING HEAT PUMP CONTROL. The Q7300 subbases provide the T7300 with an interface to the single zone HVAC system. Eleven models are covered in this manual: • 07300A1000 • 07300C1014 • 07300F1009 • 07300A1018 • 07300D1038 • 07300F1017 • 07300B1008 • 07300D1053 • 0730001007 • Q7300C1006 • 07300E1001 All models, except the Q7300A, Q7300E and Q7300F, provide system switching. All models, except the Q7300A, Q7300F and Q7300G provide fan switching. The C,D and F models are for heat pump applications only, and the A, B, E and G models are for conventional HVAC applications only. Any T7300 thermostat can be installed with any of these subbases to provide the necessary type of environmental control required. The Q7300 subbase configuration switches are located on the front of the Q7300 and to the right of the wiring terminals. The switches are numbered 1 to 5 from left to right and can be switched with a small ball `' point pen or a pencil (see Fig. 9). Following is a list of the configuration switches and their functions. 21 63- 4038 -5 SWITCH 1 A SWITCH 2 A FUNCTION OFF OFF ON ON OFF ON OFF ON Sets thermostat and subbase for 1 heat, 1 cool. Sets thermostat and subbase for 1 heat, 2 cool. Sets thermostat and subbase for 2 heat, 1 cool. Sets thermostat and subbase for 2 heat, 2 cool (factory set). SWITCH 3 OFF ON Thermostat performs proportional control only (allows droop). Thermostat performs droopless proportional plus integral (P +I) control (factory set). SWITCH 4 OFF ON Fan will be energized on both heat and cool. Fan will be energized on cool only (factory set). SWITCH 5 OFF ON Remote sensor will be used, Internal sensor will be used (factory set). tt CONFIGURATION OF ILLUSTRATED SWITCH IS: I . ON 2.OFF 3.OFF 4 O 5.ON FIG. 9— SWITCHING THE SUBBASE CONFIGURATION SWITCHES. TABLE 2 -07300 SUBBASE CONFIGURATION SWITCHES NOTE,L : Non - functional on 1H-1C subbase and 1H-3C (Q7300G) subbase. NOTE : Switch No. 4 has no effect on heat pump subbases (07300C, D, F). 22 TABLE 3— TERMINAL DESIGNATIONS. 07900 STANDARD TERMINAL DESIGNATION ALTERNATE DESIGNATIONS OR CUSTOMER SPECIALS TYPICAL CONNECTION FUNCTION TERMINAL TYPE B HEATING DAMPER MOTOR, CHANGEOVER VALVE OUTPUT 24 VAC POWERED CONTACT E X EMERGENCY HEAT RELAY OUTPUT 24 VAC POWERED CONTACT O F FAN RELAY COIL OUTPUT 24 VAC POWERED CONTACT O R COOUNO DAMPER MOTOR; CHANGEOVER VALVEfRELAY OUTPUT 24 VAC POWERED CONTACT R V POWER CONNECTION TO TRANSFORMER (INTERNALLY CONNECTED) INPUT RC POWER CONNECTION TO COOUNG TRANSFORMER INPUT RH POWER CONNECTION TO HEATING TRANSFORMER INPUT W1 HI, R3 STAGE 1 HEATING CONTROL OUTPUT 24 VAC POWERED CONTACT W2 H2, Y, R4 STAGE 2 HEATING CONTROL OUTPUT 24 VAC POWERED CONTACT W3 STAGE 3 HEATING CONTROL OUTPUT 24 VAC POWERED CONTACT Y1 CI, M STAGE 1 COOLING CONTROL OUTPUT 24 VAC POWERED CONTACT Y2 C2 STAGE 2 COOLING CONTROL OUTPUT 24 VAC POWERED CONTACT Y9 STAGE 3 COOLING CONTROL it OUTPUT 24 VAC POWERED CONTACT X X1, X2, C COMMON CONNECTION INPUT T REMOTE SENSOR Q INPUT L, C, H H8I1 CONTROL PANEL 0 MOMENTARY CIRCUIT LED1, LED2, COM A, A1, A2, Z, C, L LEDS ANNUNCIATION T EXTERNAL TEMPERATURE READOUT, T RELAY RI, R2 LO AND HI SPEED FAN RELAYS RS COOLING CONTACTOR Y, M COMPRESSOR CONTACTOR Al, A2, A3 AUXILIARY RELAY OUTPUT DRY CONTACT CAI .CAS REMOTE OVERRIDE 0 INPUT LOW POWER I SELECT LOCATION REPLACE EXISTING THERMOSTAT Before the T7300 can be installed, the existing low voltage thermostat and control system must be removed. Disconnect all sources of power, then remove and label each load, accessory control and power leadwires. Write down all wire numbers and the equipment they are connected to in Table 3. Refer to Table 3 for terminal designations and the equipment that is typically connected to each terminal. At the old thermostat location, remove the thermostat and wallplate or subbase. Tape up all wires that are not used and save as spares. IMPORTANT When using a T7300 with a remote temperature sensor and /or override switch module, refer to the mounting instructions included with the device. NEW INSTALLATION Select a location on an Inside wall away from: • Drafts or dead air spots behind doors and corners • Hot or cold air ducts • Radiant heat from the sun or electrical equipment • Unheated areas behind the thermostat wall Q SHIELDED CABLE MAY BE REQUIRED IN SOME INSTALLATIONS WHERE ELECTRICAL INTERFERENCE (N018E) MAY CAUSE CONTROL PROBLEMS. 073000 ONLY, 23 63- 4038 -5 MOUNT SUBBASE FIG. 11—MOUNTING SUBBASE. 24 The temperature sensor or thermostat should be located about 5 ft. [1.5 mj above the floor in an area of good air circulation (see figure 10). ,)2,5 FIG. 10—THERMOSTAT MOUNTING LOCATION Run any additional power, remote temperature sensor and /or override switch wires to the thermostat location. Do NOT bundle remote sensor or override switch wires with AC control wires or run remote sensor /override switch wires in the same conduit with AC control wires unless the remote sensor /override switch wires are enclosed in a shielded cable. Earth ground the shield at the thermostat. Install remote temperature sensor and /or override switch using the instructions furnished with the device. 1. Remove any shipping inserts from the 07300 subbase. 2. Lay the subbase on the wall with the wiring hole over the thermostat wires. If the subbase mounts on a horizontal junction box, go to step 5. 3. Hold the subbase horizontally and mark the two screw holes on the wall. The thermostat/subbase does not have to be level for proper operation. (Level for appearance only.) 4. Drill holes suitable for the screws (provided in the bag assembly). 5. Pull the wires through the wiring hole and mount the subbase with two screws. Refer to Fig. 11. WIRING • 25 •n IMPORTANT Do NOT bundle remote sensor /override switch wires with AC control wires or run remote sensor /override switch wires in the same conduit with AC control wires unless sensor /override switch wires are enclosed in a shielded cable. Earth ground the shield at the thermostat. All wiring must comply with local codes and ordinances. Terminal screws are provided on the subbase for wiring connections. Wiring to subbase is low voltage and need not be in conduit unless required by local codes. Connect the correct control wires to the screw terminals on the subbase using Table 3. If a remote sensor is to be used, be sure at this time that switch No. 5 on the Q7300 subbase (locaVremote sensor select switch) is placed in the OFF position. If remote temperature sensor or override switch module is used, then connect these wires at this time. Refer to the following wiring diagrams to wire power when an existing HVAC transformer can handle an additional 6 VA load. Connect RC and RH to a transformer secondary wire. Then connect the other transformer secondary wire to the X terminal. After wiring, check that all connections are tight and secure. Loose or intermittent wire connections will cause inconsistent system operation. When system installation is complete, perform the initial power -up procedure in the CHECKOUT section. The following list provides a brief application description and the corresponding figure number. DESCRIPTION: FIGURE: Power: • Single transformer systems 12A • Systems requiring separate heat and cool transformers 12B • Typical direct spad< ignition systems 12C • Extra power supply 12D Applications: • T7300/07300A, B and E 13-16 • T7300/Q7300G 17 • T7300/Q7300G when used with an economizer 18-19 • T7300/07300A, B and E when used with an economizer 20 -23 • T7300/Q7300C and F 24-25 • T7300/Q7300C and F when used with an economizer 26 T7300/Q7300D 27-28 63- 4038 -5 26 77300/07300 EXISTING HVAC EQUIPMENT COOL I HEAT 1 A. SINGLE TRANSFORMER SYSTEM 77300/07300 COOL I ELECTRONIC IGNITION DEVICE IGNITOR ASSEMBLY C. WIRING METHOD FOR ELECTRONIC IGNITION SYSTEMS 0 77300/07300 L1-- - L2-► A EXISTING TRANSFORMER Ll --4111P- L2 -# EXISTING a a TRANSFORMER III //�� EXISTING A A TRANSFORMER L1 -IP- L2 -►- D. WIRING OF SYSTEM NEEDING EXTRA POWER SUPPLY M4044 1 COOL 2K1 HEAT 1 FAN 17300/07300 RH RC EXISTING HVAC EQUIPMENT _ COOL I HEAT I FAN O B. TWO TRANSFORMER SYSTEM LI -. L2 ADDED L1 TRANSFORMER Li -o L2 -> HEATING L 1 TRANSFORMER L1 -► L2 --► COOLING Q TRANSFORMER QI POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED. 24 VAC SECONDARY. EXISTING TRANSFORMERS • FIELD. INSTALLED JUMPER. RELAY REQUIRED (R8222 OR SIMILAR). 4t� MUST BE ABLE TO PROVIDE EXTRA 8 VA TO POWER T7300/07300. • USE SHIELDED CABLE FOR SENSOR/OVERRIDE SWITCH WIRE IF BUNDLED WITH OR IN SAME CONDUIT WITH AC CONTROL WIRES. FIG. 12 - CONNECTING SYSTEM POWER TO 173001Q7300. T7300 07300 THERMOSTAT SUBBASE • r 27 • EXISTING.HVAC EQUIPMENT HVAC EQUIPMENT TERMINAL. STRIP •1111•1■1111, ([F NO V TERMINAL), A 24 VAC SECONDARY, MUST BE ABLE TO CARRY ADDITIONAL 6 VA LOAD OF THERMOSTAT AND SUBBASE. ith FIELD INSTALLED JUMPER. At 24 VAC ONLY. 4 4 SYSTEM. Li L2 TRANSFORMER COOL. I HEAT 1 FAN FIG. 13-T7300/07300 (CONFIGURED: FOR 114•1C) USED IN SINGLE TRANSFORMER,. HEATING/1-STAGE COOLING . SYSTEM. ..,„ • . /. " • • ° • ' ..,. • T7300 THERMOSTAT 4 _Ht 07300 SUBBASE AUXILIARY 1 " RELAY CONTACTS GID lIED H2� p EXISTING HVAC EQUIPMENT HVAC EQUIPMENT TERMINAL. STRIP 0 24 VAC SECONDARY, MUST BE ABLE TO CARRY ADDITIONAL E VA LOAD OF THERMOSTAT AND SUBBASE, ® FIELD INSTALLED JUMPER. A 24 VAC ONLY. 0 AS TERMINAL AVAILABLE ON 07300A, B. D. E AND 0 MODELS ONLY. (IF NO •C• TERMINAL) SYSTEM TRANSFORMER COOL I COOL 2 HEAT 1 FAN L1 12 • FIG. 14- 17300/07300 (CONFIGURED FOR 1 H•2C, SWITCHING OR NON - SWITCHING) USED IN SINGLE TRANSFORMER, 1 -STAGE HEATING/2 -STAGE COOLING SYSTEM. 28 TTS00 THERMOSTAT CI HI FAN 07300 SUBBASE Q EXISTING HVAC EQUIPMENT HVAO EQUIPMENT SYSTEM LI TERMINAL STRIP TRANSFORMER ip (IF NO TERMNALy COOL 1 • Q 24 VAC SECONDARY, MUST BE ABLE TO CARRY ADDITIONAL S VA LOAD OF THERMOSTAT AND SUBBASE. . FIELD INSTALLED JUMPER. ® 24 VAC ONLY. Q AS TERMINAL AVAILABLE ON 07a00A, B, D. E AM) O MODELS ONLY. HEAT 1 HEAT 2 FAN FIG. 15- 77300/07300 (CONFIGURED FOR 2H -1C, SWITCHING OR NON-SWITCHING) USED IN SINGLE TRANSFORMER, 2- STAGE HEATING/1- STAGE COOLING. SYSTEM. 29 63- 4038 -5 MOO THERMOSTAT e Cl 07900 SUBBASE H1 - RELAY CONTACTS W W W a) EX23TN0 HVAC EOUPMENT 0 HVAC EQUIPMENT SYSTEM Li 12 TERMINAL STRIP TRANSFORMER Q 24 VAC SECONDARY. MUST BE ABLE TO CARRY ADDITIONAL S VA LOAD OF THERMOSTAT AND SUBBASE. FIELD INSTALLED JUMPER. it 24 VAC ONLY. Q A9 TERMINAL AVAILABLE ON 07900A, B. D. E AND 0 MODELS ONLY. (IF ND 'C TERMINAL) COOL COOL 1 HEAT 1 HEAT 2 FAN • FIG. 16-T7300/07300 (CONFIGURED FOR 2H-2C SWITCHING OR NON- SWITCHING) USED IN SINGLE TRANSFORMER, 2 -STAGE HEATING/2 -STAGE COOLING SYSTEM WITHOUT ECONOMIZER. • '• ." • • * .■ T7300 07303 THF-RMOSTATo___ SUBBASE 0-1 cr) -L AUXILIARY RELAY CONTACTS G A A EXIS1140 HVAC EQUIPMENT HVAC EQUIPMENT TERMINAL STRIP cl NO •C• TERMINAL.) SYSTEM TRANSFORMER A COOL I COOL I COOL 3 44 Li 12 • p 24 VAC SECONDARY, MUST BE ABLE TO CARRY ADDITIONAL OVA LOAD Of THERMOSTAT AND SUBBASE. ASI, FIELD INSTALLED JUMPER. th 24 VAC ONLY, A t AS TERMINAL AVAILABLE ON 07300A, B, D, E MODELS ONLY. HEAT 1 FAN FIG. 17-T7300/07300 USED IN SINGLE TRANSFORMER 1-STAGE HEATING/3-STAGE COOLING SYSTEM. 31 63-4038-5 „�....., •.. ,. : 17300/07300 ENTHALPY C7400 SENSOR C71508 MIXED OR DISCHARGE AIR SENSOR 3111 PI 111 0 POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REOUIREO. 24 VAC SECONDARY. ENSURE THAT EQUIPMENT TRANSFORMER IS SIZED TO HANDLE THE EXTRA LOAD OF THE ECONOMIZER, ACTUATOR AND 17300107300. 18, AN ELECTRONIC SWITCH THAT CLOSES WHEN POWERED BY A 24 VAC INPUT. • W745&A ECONOMIZER PACKAGE M7415 ACTUATOR 161 MINIMUM POSITION ADJUSTMENT HVAC EQUIPMENT TERMINAL STRIP 32 l C\ 0 24 VAC MIXED AIR ♦!!\ •� MINIMUM POSITION a SENSOR 24 VAC D1 B ENBORLT I M IN 1 - P OSH P M7415 r Q RELAYS 1K AND 3K ACTUATE WHEN THE ENTHALPY SENSED BY THE 0740018 HIGHER THAN THE ENTHALPY SETPOINT A-D. FACTORY INSTALLED 120 OHM, I WATT, 5% RESISTOR SHOULD BE REMOVED ONLY IF A C7400 ENTHALPY SENSOR IS ADDED TO 8R AND + FOR DIFFERENTIAL ENTHALPY. ih FIELD INSTALLED JUMPER. FIG. 18- T7300/07300 DEFEATING ECONOMIZER MINIMUM POSITION DURING UNOCCUPIED IN A 3 -STAGE COOLING SYSTEM WITH SINGLE ENTHALPY CHANGEOVER USING W7459A/C7400 WITH AN M7415 ACTUATOR. • T7300 1 07300 THERMOSTAT) SUBBASE Y 0 AUX r M W I1/1, AA MID CID 0 41( FEEA1 SKI 4 BLUE L1 L2 SKI i s RISE 4---- YELLOW Q O 311 YELLOW Q 0 0 OPE MINIMUM POSITION POTENTIOMETER 4K1 RED HVAO EQUIPMENT TERMINAL STRIP TRANSFORMER ip 0 0 L . COOL1 TYPICAL W859D ECONOMIZER CONTROL PACKAGE 4 ^J O IK1 1K2 MIXED AIR BLACK OUTDOOR AIR MOOUTROL TEMPERATURE CHANGEOVER MOTOR CONTROLLER SWITCH BLACK YE LLOW 4 e' SYSTEM L1 L2 7075 LOW AMBIENT COMPRESSOR LOCKOUT VIOLET VIOLET A POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED. 24 VAC SECONDARY. ® MUST BE ABLE TO CARRY ADDITIONAL S VA LOAD OF THERMOSTAT AND SUBBASE. ENTHALPY CONTROL MAKES TERMINALS 2.1 ON ENTHALPY RISE AND 24 ON ENTHALPY FALL 0 RELAY REQUIRED (88222 OR SIMILAR). ® IMPORTANT: MIXED AIR SENSOR MUST BE LOCATED DOWNSTREAM OF THE EVAPORATOR COIL IN THE DISCHARGE AIR DUCT TO PROVIDE ECONOMIZER LOW LAST FUNCTION. ® FIELD INSTALLED JUMPER. A ECONOMIZER MOTOR SPRING RETURNS CLOSED ANYTIME FAN IS NOT RUNNING. Q 24 VAC ONLY. it A3 TERMINAL AVAILABLE ON 07300A, B, D, E AND 0 MODELS ONLY. COOLS HEAT I FAN COOL 2 FIG. 19- T7300/C17300 USING W859A ECONOMIZER PACKAGE IN A 1 -STAGE HEATING/3 -STAGE COOLING SYSTEM DEFEATING ECONOMIZER MINIMUM POSITION DURING UNOCCUPIED. 33 63- 4038 -5 T7300 1 07300 THERMOSTAT SUBBASE r 0 ---- -U 1 AUX Zedh C2 i p MOOUTROL MOTOR B1 4K Oti0 A BLUE 5111 LI L2 YELLOW 0 Q 0 RISE H205 COOL I SKI TYPICAL W11500 ECONOMIZER CONTROL PACKAGE MIXED AIR BLACK OUTDOOR AIR TEMPERATURE CHANGEOVER CONTROLLER ® SWITCH 0 0 0 YELLOW 0 0 0 OPE MINIMUM POSITION POTENTIOMETER RED 2 SYSTEM L TERMINAL STRIP TRANSFORMER cp HVAC EQUIPMENT 111 1K2 1 O a , O COOL 2 BLACK YELLOW 12.9 VIOLET 0 0 A POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED. 24 VAC SECONDARY. MUST BE ABLE TO CARRY ADDITIONAL. S VA LOAD OF THERMOSTAT AND SUBBASE. ENTHALPY CONTROL MAKES TERMINALS 2.1 ON ENTHALPY RISE AND 2.3 ON ENTHALPY FALL. 0 RELAY REQUIRED (R8222 OR SIMILAR). ® IMPORTANT: MIXED AIR SENSOR MUST BE LOCATED DOWNSTREAM OF THE EVAPORATOR COIL IN THE DISCHARGE AIR DUCT TO PROVIDE ECONOMIZER LOW LIMIT FUNCTION. ® FIELD INSTALLED JUMPER. ® ECONOMIZER MOTOR SPRING RETURNS CLOSED ANYTIME FAN IS NOT RUNNING. ® 24 VAC ONLY. it A3 TERMINAL AVAILABLE ON 07300A, 8, 0, E AND 0 MODELS ONLY. HEAT 2 HEAT 1 FAN VIOLET T675 LOW COMPRESSOR LOCKOUT FIG. 20- 77300/07300 USING W859D ECONOMIZER PACKAGE IN A 2 -STAGE HEATING/2 -STAGE COOLING SYSTEM DEFEATING ECONOMIZER MINIMUM POSITION DURING UNOCCUPIED. 34 • 35 7790107300 ENTHALPY SENSOR 07400 071508 MIXED OR DISCHARGE AIR SENSOR rn won RESISTOR 0 AMMINOM O TR n TRI Ii W745SA ECONOMIZER PACKAGE M7415 ACTUATOR K I 0 78031 AMBIENT LOCKOUT CONTROL 50•F BETPOINT Pn PI MINIMUM POSITION ADJUSTMENT Q 0 COOL A POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED. 24 VAC SECONDARY. ® ENSURE THAT EQUIPMENT TRANSFORMER IS SIZED TO HANDLE THE EXTRA LOAD OF THE ECONOMIZER, ACTUATOR AND 77300107300. ® 18, AN ELECTRONIC SWITCH THAT CLOSES WHEN POWERED BY A 24 VAC INPUT. HVAC EQUIPMENT TERMINAL STRIP 24 VAC MIXED AIR SENSOR (( ' e POSITION MINIMUM 24 VAC � TRIG SENSOR C T1 MIN ORN LP - M7415 1.2 S■ RELAYS 1K AND 2K ACTUATE WHEN THE ENTHALPY SENSED BY THE C7400 IS HIGHER THAN THE ENTHALPY SETPOINT A .D. FACTORY INSTALLED 820 OHM. 1 WATT, 5% RESISTOR SHOULD BE REMOVED ONLY IF A C7400 ENTHALPY SENSOR IS ADDED TO SR AND + FOR DIFFERENTIAL ENTHALPY. FIELD INSTALLED JUMPER. FIG. 21-17300/07300 DEFEATING ECONOMIZER MINIMUM POSITION DURING UNOCCUPIED IN A 2 -STAGE COOLING SYSTEM WITH SINGLE ENTHALPY CHANGEOVER USING W7459A/C7400 WITH AN M7415 ACTUATOR. 63- 4038 -5 T7300/07300 OUTDOOR AIR ENTHALPY 07400 SENSOR RETURN AIR ENTHALPY SENSOR 07400 a C71508 MIKED I OR DISCHARGE AIR SENSOR 18031 AMBIENT LOCKOUT CONTROL 50'F SETPOINT 4n , � PI W74584 ECONOMIZER PACKAGE M7415 ACTUATOR Q POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED. 24 VAC SECONDARY. A ENSURE THAT EQUIPMENT TRANSFORMER 18 SIZED TO HANDLE THE EXTRA LOAD OF THE ECONOMIZER, ACTUATOR AND 77300107300. AN ELECTRONIC SWITCH THAT CLOSES WHEN POWERED BY A 24 VAC INPUT. FIG. 22— T7300/Q7300 DEFEATING ECONOMIZER MINIMUM POSITION DURING UNOCCUPIED IN A 1-STAGE COOLING SYSTEM WITH DIFFERENTIAL ENTHALPY CHANGEOVER USING W7459A/C7400 WITH AN M7415 ACTUATOR. 36 161 MINIMUM POSITION ADJUSTMENT ♦` E COOL FAN HVAC EQUIPMENT TERMINAL STRIP Sal 24 • CE) MIXED AIR 1l SENSOR CLI l`\ I d PO MINIMUM ii Eon AA RELAYS NTHALPY OUTDOOR HIGHER THAN THE RETURN AIR E IS ENTHALPY. ® FIELD INSTALLED JUMPER. T7300107300 co ENTHALPY SENSOR 07400 O C71505 MIXED — OR DISCHARGE AIR SENSOR RESISTOR STOR 1 Pt T6031 AMBIENT LOCKOUT CONTROL 50•F SETPOINT IJ W745S A ECONOMIZER PACKAGE M7415 ACTUATOR 1 0 © POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AD REQUIRED. 24 VAC SECONDARY. ® ENSURE THAT EQUIPMENT TRANSFORMER IS SIZED TO HANDLE THE EXTRA LOAD OF THE ECONOMIZER, ACTUATOR AND 77300107300. AN ELECTRONIC SWITCH THAT CLOSES WHEN POWERED BY A 24 VAC INPUT. HVAC EQUIPMENT TERMINAL STRIP MINIMUM POSITION ADJUSTMENT 4 d COOL 1 la k HEAT 2 HEAT p FAN 24 VAC •---(( • MINIMUM C � c POSITION M7415 111C &A MIXED AIR SENSOR 24 VAC 11111 ^ ^ ^ ^ SENSOR ET s MIN ma POSN �P 1 RELAYS 1K AND 2K ACTUATE WHEN THE OUTDOOR AIR ENTHALPY IS HIGHER THAN THE ENTHALPY SETPOINTA•D. FACTORY INSTALLED 820 OHM,1 WATT, 5% RESISTOR SHOULD BE REMOVED ONLY IF A 07400 ENTHALPY SENSOR IS ADDED TO SNAND + FOR DIFFERENTIAL ENTHALPY. FIELD INSTALLED JUMPER. FIG. 23— T7300 /Q7300 DEFEATING ECONOMIZER MINIMUM POSITION DURING UNOCCUPIED IN A 1-STAGE COOLING SYSTEM WITH SINGLE ENTHALPY CHANGEOVER USING W7459A/C7400 WITH AN M7415 ACTUATOR. 37 63-4038-5 FIG. 24- WIRING OF 1-COMPRESSOR HEAT PUMP SYSTEM. 0 0 THERMOSTAT 07300 HEAT PUMP SUBBASE RED CQ SYSTEM SWITCH 1 EM. HEAT 0 "HEAT OFF COOL 8 8AUTO AUXILIARY 'I RELAY CONTACTS 4 f O RED V Mr W 0 0 © POWER SUPPLY. MUST BE ABLE TO CARRY ADDITIONAL S VA LOAD OF THERMOSTAT AND SUBBASE. 24 VAC SECONDARY. ® WIRE O TO REVERSING VALVE FOR COOLING CHANGEOVER. WIRE B TO REVERSING VALVE FOR HEATING CHANGEOVER. 24 VAC ONLY. 0 AS TERMINAL AVAILABLE ON Q7300A, B, D, E AND 0 MODELS ONLY. EXISTING HVAO EQUIPMENT HVAO EQUIPMENT TERMINAL STRIP 0 4 O IF NOV TEM/NALL SYSTEM TRANSFORMER A REV. VALVE CO= AUXILIARY HEAT 1 FAN RELAY 4 4 LI 1.2 T7900 Q7200 HEAT THERMOSTAT } _ PUMP SUBBASE b' EM. HEAT S 8°FF OFF Q COOL 8 8 O AUXILIARY ' RELAY CONTACTS A POWER SUPPLY. MUST BE ABLE TO CARRY ADDITIONAL 6 VA LOAD OF THERMOSTAT AND SUBBASE. 24 VAC SECONDARY. A WIRE O TO REVERSING VALVE FOR COOLING CHANGEOVER. WIRE B TO REVERSING VALVE FOR HEATING CHANGEOVER. 24 VAC ONLY. AS TERMINAL AVAILABLE ON Q7300A, 8, D, E AND 0 MODELS ONLY. 39 EXISTING HVAC EQUIPMENT r r - -- �i HVAO EQUIPMENT TERMINAL STRIP 144.444, .IF NO V' TERMINALL SYSTEM TRANSFORMER REV. VALVE FIG. 25- WIRING OF A 2-COMPRESSOR HEAT PUMP SYSTEM. AUXILIARY HEAT I -4 63. 4038 --5 T j UBT THERMOSTAT t PUMP SUBBASE O O O AUXILIARY RELAY CONTACT • .1 I' 0 0 0 0 SYSTEM SWITCH 0 ® m CO RED EM. HEAT " HEAT °OFF COOL O AUTO APh W RED 0 0 0k0 MODUTROL MOTOR LI 12 ( 0 I HVAC EQUIPMENT TERMINAL STRIP 0 0 0 AUXILIARY HEAT 1 REV. VALVE FAN RELAY MIMS SKI 4K1 EXISTING ECONOMIZER CONTROL PACKAGE 7K1 © 0 0 MIXED AIR TEMPERATURE CONTROLLER YELLOW © 0 0 MINIMUM POSITION POTENTIOMETER SKI RED A POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED. 24 VAO SECONDARY. it MUST BE ABLE TO CARRY S VA LOAD OF THERMOSTAT AND SUBBASE. ENTHALPY CONTROL MAKES TERMINALS 24 ON ENTHALPY RISE, AND 2.8 ON ENTHALPY FALL Q RELAY REQUIRED (RM?22OR SIMILAR). ECONOMIZER MOTOR SPRING RETURNS CLOSED ANYTIME FAN IS NOT RUNNING. 24 VAC ONLY. ® A3 TERMINAL AVAILABLE ON 07300A, B, D, E AND 0 MODELS ONLY. 1 1 F9 ° SKI OUTDOOR AIR CHANGEOVER SWITCH FT:A VIOLET LAJ #1rYV1 24 VAC fa- VIOLET • FIG. 26- T7300/07300 (CONFIGURED FOR 1- COMPRESSOR) IN A 1- COMPRESSOR, 1- AUXILIARY HEAT AND A W899 PACKAGED ELECTROMECHANICAL ECONOMIZER SYSTEM DEFEATING ECONOMIZER MINIMUM POSITION DURING UNOCCUPIED. 40 • T7300 THERMOSTAT 073000 HEAT PUMP SUBBASE 0 0 w © 1 0 O SYSTEM SYMS SWITCH H C;EM.HEAT ��"'WW ,. HEAT 0 DOFF O OCOa O 0 AUT0 C�2 RED it POWER SUPPLY. MUST BE ABLE TO CARRY ADDITIONAL 0 VA LOAD OF THERMOSTAT AND SUBBASE. 24 VAC SECONDARY, ® REVERSING VALVE MAY BE SWITCHED FROM Y1, Wt, OR FROM AN INTERNAL EOUPMENT CONTROLLER. DEPENDING ON MANUFACTURER AND SYSTEM. th 24 VAC ONLY. AUXILIARY 1 " A A3 TERMINAL AVAILABLE ON RELAY 07300 .4, B, 0, E AND 0 MODELS ONLY. CONTACTS Aft owiraft en) CO CL • EXISTING HVAC EQUIPMENT O CO OL CO CO 0 Al A NO_C'TERMINALZ HVAO EQUIPMENT TERMINAL STRIP Lt i SYSTEM TRANSFORMER AUXILIARY HEAT I FAN COOL 1 ---+ ■ ■ �M i COOL 2 --• --i 1 1 �_ REV. ______ ® VALVE I rs... e 4 HEAT --+ HEAT 2 FIG. 27-17300/07300 IN A 2-COMPRESSOR HEAT PUMP SYSTEM. 41 63-4038-5 • • -'11 , • , • moo THERMOSTAT i is 073000 HEAT PUMP SUBBASE SYSTEM SWRCH A:HE EM. HEAT HEAT 0 00FF O 0 c O 0 AU T0 O 0 A POWER SUPPLY. MUST BE ABLE TO CARRY ADDITIONAL 3VA LOAD OF THERMOSTAT AND SUBBASE. 24 VAO SECONDARY. A REVERSING VALVE MAY SE SWITCHED FROM Vi, WI, OR FROM AN INTERNAL EQUIPMENT CONTROLLER, DEPENDING ON MANUFACTURER AND SYSTEM. 24 VAC ONLY. A A3 TERMINAL AVAILABLE ON 07300A. S, D, E AND G MODELS ONLY, RED _L AUXILIARY RELAY CONTACTS CO CL CO HT 0 s* w en) CCE) se A A EXISTING HVAC EQUIPMENT 0 0 0 0 0 HVAO EQUIPMENT TERMINAL STRP A SYSTEM TRANSFORMER S - .c.:.TERMItiALL HEAT FAN COOL 1 REV. VALVE HEAT 1 ; ! . FIG: 211T7300/07300 IN A 1•COMPRESSOR HEAT PUMP SYSTEM. 41 FIG. 29—CONNECTING THE THERMOSTAT TO SUBBASE. FIG. 30—MOUNTING THERMOSTAT. L STEP 1: CONNECT THERMOSTATS CABLES TO SUBBASE. STEP 2: SNAP BATTERY IN PLACE. STEP 9: SLIDE BATTERY UP TO THE BATTERY CONNECTOR UNTIL CONNECTED. FIG. 31-- BATTERY INSERTION. MOUNTING THERMOSTAT Take the 12 pin ribbon cable from the thermostat and slide its plug onto the 12 pin subbase connector. Next, take the 9 pin ribbon cable from the thermostat and slide its plug onto the 9 pin subbase connector (see figure 29). Check to see that both of the cable's connectors are firmly seated, then proceed. Hang the top edge of the thermostat on the subbase hooks. Swing the thermostat bottom down onto the catches on the subbase. Insert and tighten three Allen head screws under the thermostat (see figure 30). These screws are included in the T7300 mounting hardware bag assembly 4074EKA. Be careful not to overtighten. This completes installation of the thermostat. INSTALL BATTERY BACKUP (not Included) IMPORTANT Do not connect battery until the thermostat's cables are connected and the HVAC system is ready to be put into operation. Battery power will be drained if system power Is off for lengthy periods. Locate the battery holder on the back of the thermostat. Snap a 9 volt alkaline battery into the connector /holder observing polarity (see figure 31). Slide the battery up to the connector until it snaps in. Check to see that both connections are firmly seated. AVERAGING SENSORS Normally, only one sensor is needed for proper zone control; however, when the controlled zone is a large area, it may be advantageous to use multiple remote temperature sensors dispersed throughout the area to obtain an average zone temperature signal. The circuits for these applications are shown in figures 32 and 33. '4 TkgY4•. E CSt '. 43 63-4038-5 FIG. 32—FOUR REMOTE SENSORS PROVIDING AN AVERAGE ZONE TEMPERATURE SIGNAL. 44 I FIG. 33 —NINE REMOTE SENSORS PROVIDING AND AVERAGE ZONE TEMPERATURE SIGNAL. Check that all wiring is correctly completed and all sensors are installed. The thermostat should be mounted on the subbase. When the power is first turned on, the thermostat will operate from default temperature control setpoints (explained in the OPERATION section). New setpoints will need to be entered during the following checkout procedure to properly checkout system operation. This thermostat also contains a test mode that aids the installer in performing the checkout. Once the thermostat is in the test mode, minimum on and off times are no longer in effect. The checkout can then be quickly performed. INITIAL POWERUP (Subbases Without System Switching Only) 1. Turn T7300 and Q7300 power on. The display should show four dashes ( - - - -). This correctly shows that no program memory exists, and the 17300 has not yet been programmed. If there is no display at all, correct any power transformer failure or wiring problem between the 17300/Q7300 and the HVAC equipment. 2. Press the DISPLAY key. The display will alternate between a display of time and temperature each time this key is pressed. If the temperature display consists of two dashes and a degree symbol (--°), wait sixty seconds and press the DISPLAY key twice. If the temperature display remains at two dashes and a degree symbol, the temperature sensor or wiring Is shorted, open or the sensor temperature is out of range (35 ° F to 110 ° F [4 ° C to 43 ° C]). Correct the wiring or perform the T7300/Q7300 tests in the TROUBLESHOOTING section. CAUTION Improper use of this test mode can result in system damage. Do not leave the thermostat in the test mode for longer than 10 to 15 minutes. When in the test mode, minimum on and off times are defeated. If left in this mode, the equipment could be short cycled at a rate that is many times faster than the equipment's design. Permanent damage to the equipment could then result. 3. Place the thermostat Into the test mode by pressing the CLOCK and DAY keys simultaneously. All the display's segments will then come on. 4. Press the DISPLAY key. The time/temperature portion of the display should return to normal. The three dots located on the right center of the display should be on. These indicate that the test mode has been entered and minimum on and off times are no longer in effect. Also, the mode status indicators (heat, cool, and the four indicators pointing to OCCUPIED, UNOCCUPIED, CONT UNOC and 3 HR OCCUPIED) may be on. These will go on and off as the test progresses. 5. The fan should now come on if it has not done so previously, unless the CONT /INT - FAN (continuous/intermittent) switch on the back of the 17300 thermostat is in the intermittent position or the 07300E fan switch is In the auto mode. If this switch is in the intermittent or auto position, a stage of heating or cooling will have to be called for before the fan will come on. If switch No. 4 on the subbase is ON, the fan will energize on a call for cooling or compressor (Y1) only. 6. Change the occupied heat setting to at least 5 ° F [3 ° C] above the room temperature (refer to PROGRAMMING section, "Set Occupied Heat Temperature "). It may be necessary to shift the other setpoints up or down to allow this. 7. Stage 1 of heating will cycle on within three seconds of the previous steps' completion. Stage 2 of heating (if configured) will cycle on within three seconds from the time that stage 1 of heating cycled on. Verify that this has occurred. 8. Once stage 1 and stage 2 of heating (if configured) have come on, change the occupied heat setting to at least 5 ° F [3 ° C] below the room temperature. Stage 1 and stage 2 of heating (if configured) should go off within six seconds. Verify that this has occurred. 9. Change the occupied cool setting to at least 5 ° F [3 ° C] below the room temperature (refer to PROGRAMMING section, "Set Occupied Cool Temperature "). It may be necessary to shift the other setpoints up or down to allow this. 10. Stage 1 of cooling will cycle on within three seconds. The second stage of cooling (if configured) will then cycle on within three seconds from the time that stage 1 of cooling cycled on. Verify that this has occurred. 11. Once stage 1 and stage 2 of cooling (if configured) have come on, change the occupied cool setting to at least 5 ° F [3 ° C] above the room temperature. Stage 1 and stage 2 of cooling (if configured) should go off within six seconds. Verify that this has occurred. 12. If the fan, stage 1 and stage 2 of both heating and cooling (if configured) failed to go on or off, the connection between the T7300/Q7300 and HVAC equipment may be faulty. Check wiring continuity and If okay, perform the T7300/Q7300 troubleshooting tests (refer to the TROUBLESHOOTING section). 13. Remove the thermostat from the test mode by pressing the CLOCK and DAY keys simultaneously. Check to see that the three dots located at the right side of the LCD have disappeared. If they have not disappeared, repeat this step until the three dots are no longer displayed. The normal minimum on and off times will then be in effect. INITIAL POWER -UP (Subbases With System and Fan Switches Only) 1. Set the system and fan switches to AUTO. 2. Turn T7300 and 07300 power on. The display should show four dashes ( - - - -). This correctly shows that no program memory exists, and the 17300 has not yet been programmed. if there is no display at all, correct any power, transformer failure or wiring problem between the 17300/07300 and the HVAC equipment. 45 63.4038 -5 3. Press the DISPLAY key. The display will alternate between a display of time to temperature each time this key is pressed. If the temperature display consists of two dashes and a degree symbol (--°), watt sixty seconds and press the DISPLAY key twice. If the temperature display remains at two dashes and a degree symbol, the temperature sensor or wiring is shorted, open or the sensor temperature is out of range (40 ° F to 110 ° F [4 ° C to 43 ° C]). Correct the wiring or perform the T7300/Q7300 tests in the TROUBLESHOOTING section. CAUTION Improper use of this test mode can result in system damage. Do not leave the thermostat in the test mode for longer than 10 to 15 minutes. When in the test mode, minimum on and off times are defeated. If left in this mode, the equipment could be short cycled at a rate that is many times faster than the equipment's design. Permanent damage to the equipment could then result. 4. Place the thermostat into the test mode by pressing the CLOCK and DAY keys simultaneously. All the display's segments will come on. 5. Press the DISPLAY key. The time /temperature portion of the display should return to normal. The three dots located on the right center of the display should be on. These indicate that the test mode has been entered and minimum on and off times are no longer in effect. Also, the mode status indicators (heat, cool, and the four indicators pointing to OCCUPIED, UNOCCUPIED, CONT UNOC and 3 HR OCCUPIED) may be on. These will go on and off as the test progresses. 6. Change the occupied heat setting to at least 5 ° F [3 ° C] above the room temperature (refer to the PROGRAMMING section, "Set Occupied Heat Temperature "). It may be necessary to shift the other setpoints up or down to allow this. 7. Place the system switch in the HEAT position. 8. Stage 1 of heating and fan will cycle on within three seconds. Stage 2 of heating (if configured) will then cycle on within three seconds from the time that stage 1 of heating cycled on. Verify that this has occurred. 9. Once stage 1 and stage 2 of heating (if configured) have come on, set the occupied heat setting to at least 5 ° F (3 ° C] below room temperature. Stage 1 and stage 2 of heating and fan (if configured) should go off within six seconds. 10. Change the occupied cool setting to at least 5 ° F (3 ° C] below the room temperature (refer to the PROGRAMMING section, "Set Occupied Cooling Temperature "). It may be necessary to shift the other setpoints up or down to allow this. 11. Place the system switch in the COOL position. 12. Stage 1 of cooling and fan should come on within three seconds. The second stage of cooling (if configured) should then cycle on within three seconds from the time that stage 1 of cooling cycled on. Verify that this has occurred. The third stage of cooling (if available) will then cycle on within three seconds from the time that stage 2 of cooling cycled on. 13. Once stage 1, 2 and 3 of cooling (if configured) have come on, change the occupied cool setting to at least 5 ° F [3 ° C] above the room temperature. Stage 1, 2 and 3 of cooling and fan (if ' available) will go off within nine seconds. Verify that this has occurred. 14. Change the occupied cool setting to at least 5 ° F [3 ° C] below the room temperature again. Stage 1, 2 and 3 of cooling and tan (if configured) will cycle on within nine seconds. Verify that this has occurred. 15. Place the system switch in the OFF position. The fan, stage 1, 2 and 3 of cooling (if configured) will go off immediately. 46 �j}$�w`7'j''NS ° S. �i1' t of ':1i%.'+f.��`;7'�' f �1dt��. ��,vH/�: isld JFr`7n , �r.. 16. if the fan, stage 1 and stage 2 of heating or stage 1, 2 and 3 of cooling (if configured) failed to come on, the connection between the T7300/Q7300 and HVAC equipment may be faulty. Check wiring continuity and if okay, perform the T7300/Q7300 troubleshooting tests (refer to the TROUBLESHOOTING section). 17. Remove the thermostat from the test mode by once again pressing the CLOCK and DAY keys simultaneously. Check to see that the three dots located at the right side of the LCD have disappeared. If they have not disappeared, repeat this step until the three dots are no longer displayed. The normal minimum on and off times will then be in effect. q • ' :4� ^56:.� %r }: %r,. }:ti ^'n�:S•... 'n. •• yq ..�'.F��3'� +�'iE�Y"''.1 'a5*.;£"� $ S' '��i:�iSi��'., This section provides step -by -step procedures to correct problems that may occur with a 77300/07300 system. Procedures are given for specific symptoms or problems that may be encountered. Listed below are the symptoms covered and the page number for the appropriate procedure. Locate the symptom you are observing and follow the related procedure. SYMPTOM PAGE 1. Heat will not come on 49 2. Heat will not shut off 50 3. Cool will not come on 51 4. Cool will not shut off 52 5. Battery backup will not maintain program 53 6. T7300 loses part of display 53 7.77300 displays - - -- 53 8. No display on 17300 54 9. All of T7300 LCD display is on 54 10. BATT displayed on lower right of LCD 54 11. Fan will not come on 55 12. Fan will not shut off 56 13. T7300 displays - ° for temperature 56 48 PN 12 PNN I PIN. eNt U 5 12 PIN CONNECTOR PIN CONNECTOR 9 I � Q - J x w r: r 0 000000 e o ooao rl 0 Ac I 00000 CAt OM CM CM ( CAI V rdD 201 LE01 COO n 0 q • ' :4� ^56:.� %r }: %r,. }:ti ^'n�:S•... 'n. •• yq ..�'.F��3'� +�'iE�Y"''.1 'a5*.;£"� $ S' '��i:�iSi��'., This section provides step -by -step procedures to correct problems that may occur with a 77300/07300 system. Procedures are given for specific symptoms or problems that may be encountered. Listed below are the symptoms covered and the page number for the appropriate procedure. Locate the symptom you are observing and follow the related procedure. SYMPTOM PAGE 1. Heat will not come on 49 2. Heat will not shut off 50 3. Cool will not come on 51 4. Cool will not shut off 52 5. Battery backup will not maintain program 53 6. T7300 loses part of display 53 7.77300 displays - - -- 53 8. No display on 17300 54 9. All of T7300 LCD display is on 54 10. BATT displayed on lower right of LCD 54 11. Fan will not come on 55 12. Fan will not shut off 56 13. T7300 displays - ° for temperature 56 48 49 SYMPTOM #1. HEAT WILL NOT COME ON. HAS THE 2 MINUTE MINIMUM OFF TIME ELAPSED (4 MINUTES FOR HEAT PUMP MODELS)? IS A SWITCH- ING SUBBASE INSTALLED? IS SYSTEM SWITCH IN HEAT OR AUTO POSITION? JUMPER TERMINALS RH TO WI (A TO Y1 IF HEAT PUMP) ON 07300 SUBBASE OR EQUIPMENT TERMINAL STRIP. DOES HEAT COME ON? IS 3 HOUR OCCUPIED INDI- CATOR ON? DOES PRO- GRAM IN THE T7300 NIDICATE YOU SHOULD BE CONTROLLING AT THE UNOCCUPIED SET - POINT? L T USE UNOCCUPIED SETPOINTS O DETERMINE FURTHER TEST PARAMETERS. 17300 SYSTEM OKAY. DOES HEAT COME ON? NO SWITCH SUBBASE TO HEAT OR AUTO POSITION. IS THE SPACE TEMP INDICATED BY 17300 (PUSH DISPLAY KEY) BELOW TH APPROPRIATE OCCUPIED OR UNOCCUPIED HEATING SETPONIT? WAIT FOR MINIMUM OFF TIME TO ELAPSE BEFORE PROCEEDING WITH FURTHER TESTING. USE OCCUPIED SETPOINTS TO DETERMINE FURTHER TEST PARAMETERS. REPLACE 17300. PROBLEM CORRECTED? 17300 CONTROL SYSTEM OKAY. 17300 SYSTEM OKAY. 63- 4038 -5 SYMPTOM #2. HEAT WILL NOT SHUT OFF. i --- USE OCCUPIED SETPOINTS TO DETERMINE FURTHER TEST PARAMETERS. IS THE SPACE TEMP INDICATED BY T7300 (PUSH DISPLAY KEY) ABOVE THE APPROPRIATE OCCUPIED OR UNOCCUPIED HEATING SETPOINT? HAS THE 2 MINUTE MINIMUM ON TIME ELAPSED (4 MINUTES FOR HEAT PUMP MODELS)? DOES PRO- GRAM IN THE T7300 INDICATE YOU SHOULD BE CONTROLLING AT THE UNOCCUPIED SET- POINT? IS 3 HOUR OCCUPIED INDI- CATOR ON? REMOVE WIRE FROM RH TERMINAL ON SUBBASE. HEAT LE USE UNOCCUPIED SETPOINTS TO DETER- MINE FURTHER TEST PARAMETERS. REPLACE 17300 PROBLEM CORRECTED? DOES HEAT SHUT OFF AFTER ROOM TEMPERATURE RISES ABOVE T7300 SET - POINT? 17300/07300 ARE OKAY. CHECK HVAC HEATING CON- TROL SYSTEM FOR PROBLEM. REPLACE 07300. 17300 SYSTEM OKAY. NO ( START YES H T7300 SYSTEM MAY BE CALLING FOR IIEAT. WAIT FOR ROOM TEMP- ERATURE TO GO ABOVE T7300 SETPOIN BEFORE PROCEEDING, NO YES YES i USING AN OHMMETER, CHECK FOR CONTINUITY BETWEEN TERMINALS RH ON 07300 AND THE STAGE YOU EXPECT SHOULD BE OFF W1 OR W2 (Y1 OR Y2). REMOVE WIRES FROM TERMINALS W1 -W2 (VI OR Y2 IF HEAT PUMP). YES NO NO NO WAIT FOR MINIMUM ON TIME TO ELAPSE BEFORE FURTHER TESTING. SYMPTOM #3. COOL WILL NOT COME ON. HAS THE 4 MINUTE MINIMUM OFF TIME ELAPSED? IS A SWITCHING SUBBASE INSTALLED? IS SYSTEM SWITCH IN COOL OR AUTO POSITION? DOES COOLING COME ON? DOES PRO- GRAM IN THE 77300 INDICATE YOU SHOULD BE CONTROLLING AT THE UNOCCUPIED SET - POINT? IS 3 HOUR OCCUPIED INDI- CATOR ON? IS THE SPACE TEMP INDICATED BY T7300 (PUSH APPROPRIATE K D OR E UNOCCUPIED COOLING SETPOINT? REPLACE T7300. PROBLEM CORRECTED? WAR FOR MINIMUM OFF TIME TO ELAPSE BEFORE FURTHER TESTING. COOLING SHOULD BE OFF IN THIS CASE. T7300 SYSTEM OKAY. DOES COOLING COME ON? T7300 SYSTEM OKAY. NO USE UNOCCUPIED SETPOINTS TO DETERMINE FURTHER TEST PARAMETERS. YES NO JUMPER TERMINAL R%TO Y/ ON 07300 SUBBASE OR UNIT TERMINAL STRIP. YES NO I USE OCCUPIED SETPOINTS TO DETERMINE FURTHER TEST PARAMETERS. YES NO NO YES NO T7300 SYSTEM OKAY. OP CHECK COOLING ELECTRICAL SYSTEM FOR PROBLEMS. YES NO NO T7300 SYSTEM OKAY. REPLACE 07300. SWITCH SUBBASE SWITCH TO COOL OR AUTO POSITION. YES 51 f a t� 63-4038-5 SYMPTOM #4. COOL WILL NOT SHUT OFF. HAS THE 2 MINUTE MINIMUM ON TIME ELAPSED? DO COOLING AND FAN CYCLE OFF AFTER SHORT TIME DELAY? IS THE SPACE TEMP INDICATED BY T7300 (P APPROPRIAT UPED OR UNOCCUPIED COOLING SETPOINT? USE OCCUPIED SETPOINTS TO DETER. MINE FURTHER TEST PARAMETERS. DOES PRO- GRAM IN THE T7300 INDICATE YOU SHOULD BE CONTROLLING AT THE UNOCCUPIED SET - POINT? IS 3 HOUR OCCUPIED INDI- CATOR ON? T7300/Q7300 ARE OKAY. CHECK HVAC COOLING ELEC- TRICAL SYSTEM FOR PROBLEM. USE UNOCCUPIED SETPOINTS TO DETERMINE FURTHER TEST PARAMETERS. DOES COOLING SHUT OFF AFTER ROOM TEMPERATURE DROPS BELOW T7300 SETPOINT? YES YES REMOVE WIRE FROM Re TERMINAL ON SUBBASE. YES REMOVE WIRES FROM TERMINALS Y1, Y2 AND (Y3). t USING AN OHMMETER. CHECK FOR CONTINUITY BETWEEN TERMINALS Rc ON SUBBASE AND THE STAGE YOU EXPECT TO BE OFF (Y1- Y2 -Y3). NO r T 7300 SYSTEM MAY BE CALLING FOR COOLING. WAIT FOR TEMPERATURE (AS INDICATED BY T7300) TO DROP BELOW T7300 SETPOINT BEFORE PROCEEDING. NO NO flEP300 . NS 62 NO YES NO WAIT FOR THE MINIMUM ON TIME TO ELAPSE BEFORE FURTHER TESTING. YES 17300 SYSTEM OKAY. SYMPTOM #6.17300 LOSES PART OF DISPLAY. REPLACE 17300. N,:�i,�'';�50 � (:* a { <• '{ '% } t�j?`''{� ''03,43:1t 6'�.efl:�t� 53 . SYMPTOM #5. BATTERY BACK -UP WILL NOT MAINTAIN PROGRAM. (17300 LOSES PROGRAMMED MEMORY.) C START F REMOVE T7300 FROM SUBBASE. C HECK BATTERY CONNECTIONS TO SEE THAT BOTH ARE FIRMLY SEATED. YES 1 CHECK BATTERY VOLTAGE WITH DC VOLTMETER. WITH BATTERY CONNECTED TO T7300, PUT (+) SIDE OF METER ON POSITIVE TERMINAL OF BATTERY, AND ( -) SIDE OF METER ON NEGATIVE TERMINAL. OF BATTERY. IS VOLTAGE GREATER THAN 7.5 VDC? RECONNECT 17300 TO SUBBASE, NO REPLACE BATTERY. PROGRAM CLOCK TO ANY TIME OTHER THAN 12 :00 AM. REMOVE WIRE FROM RH TERMINAL FOR 10 SECONDS. RECONNECT WIRE TO RH TERMINAL. YES SYMPTOM #7.17300 DISPLAYS -- - -. 17300 MEMORY EMPTY. CHECK BATTERY BACKUP. REPROGRAM T7300 AND CHECK OPERATION. 63-4038-5 SYMPTOM #8. NO DISPLAY ON 77300. USING AN AC VOLTMETER, MEASURE VOLTAGE BETWEEN TERMINALS RH all AND X ON 07300 SUBBASE. USING AN AC VOLTMETER MEASURE VOLTAGE BETWEEN PINS 1 AND 8 ON THE SUBBASE'S 9 PIN CONNECTOR. REFER TO FIGURE 31. DO YOU HAVE A VOLTAGE BETWEEN 20 AND 30 VOLTS AC? YES REPLACE T7300 THERMOSTAT. Of REPLACE 07300 SUBBASE. SYMPTOM #9. ALL OF 17300 LCD DISPLAY IS ON. '17300 IS IN TEST MODE. EXIT BY PRESSING CLOCK AND DAY KEYS SIMULTANEOUSLY. IF REPEATED ATTEMPTS TO REMOVE FROM TEST MODE FAIL, REPLACE 17300. SYMPTOM #10. BATT DISPLAYED ON LOWER RIGHT OF LCD. - 17300 HAS DETECTED A LOW BATTERY VOLTAGE. REPLACE BATTERY. VERIFY. BATTERY CONNECTIONS. ! •w�i..w�a:4 � .i"'v ii �*;.h, 55 SYMPTOM #11. FAN WILL NOT COME ON. IS 07300 SWITCH #4 ON? PRESS THE 3 HOUR OCCUPIED KEY ON THE T7300 AND WAIT FOR 90 SECONDS. IS OBSERVED PROBLEM OCCURRING DURING HEATING? IS A 07300 FAN SWITCHING SUBBASE BEING USED? IS T7300 SWITCH #3 ON? YES T7300 /07300 SET FOR NO FAN DURING HEATING. T7300/07300 OKAY T7300 SYSTEM OKAY. PROBLEM IS IN HVAC UNIT CONTROL SYSTEM. CHECK FAN CONTROL RELAY CIRCUITS. YES NO DOES THE FAN COME ON? YES NO NO PROGRAM T7300 THERMOSTAT COOLING SETPOINT 2°F BELOW ACTUAL SPACE TEMPERATURE. PRESS 3 HOUR OCCUPIED KEY. WAIT 6 MINUTES. NO REMOVE WIRING FROM TERMINALS Re AND G ON SUBBASE. USING AN OHM METER, CHECK FOR CONTIN- UITY (ZERO OHMS) BETWEEN RC AND G ON SUBBASE. YES • TURN FAN SWITCH TO THE ON POSITION. • TURN SYSTEM SWITCH TO THE AUTO POSITION. • PRESS 3 HOUR OCCUPIED KEY. • WAIT 90 SECONDS 63- 4038 -5 1 I 56 SYMPTOM #12. FAN WILL NOT SHUT OFF. YES START I REMOVE 'G' WIRE FROM 'G' TERMINAL ON 07300. PUSH THE CONT UNOC KEY. ENSURE THAT SPACE TEMPERATURE IS ABOVE UNOCCUPIED HEATING AND BELOW UNOCCUPIED COOL- ING SETPOINTS. WAIT 6 MINUTES. NO IS HEATING OR COOLING OPERATING NOW? I WAIT UNTIL HEATING OR COOLING SHUTS OFF. YES NO YES NO d_ PROBLEM IS IN HVAC CONTROL WRING. CHECK FOR LATCHED FAN CONTRACTOR OR RELAY OR PLENUM SWITCH. T7300 SYSTEM OKAY. REPLACE 17300. SYMPTOM #13.17300 DISPLAYS - -° FOR TEMPERATURE. 17300A1005 Fully configurable programmable commercial thermostat. T7300A1054 Fully configurable programmable commercial thermostat with international face plate. T7300A1088 Fully configurable programmable commercial thermostat with spanish face plate, instruction and packing label (International Market Only). T7300B1003 Fully configurable programmable commercial thermostat with 3 Hour Occupied button in cover. 07300A1000 1 -Heat 1 -Cool, non - switching. 07300A1018 1 -Heat 1 -Cool to 2 -Heat 2 -Cool configurable, non - switching, auxiliary relay output. 0730081008 0730001006 1 -Heat 1 -Cool to 2 -Heat 2 -Cool configurable, system and fan switching, auxiliary relay output. 1- compressor heat pump, auxi ary heat, emergency heat, system and an switching, auxiliary relay output, emergency heat and auxiliary LEDs. 0730001014 2-compressor eat pump, aux ary heat, emergency eat, system an • an sw to ng, auxiliary relay output, emergency heat and auxiliary heat LEDs. 0730001038 2-compressor hoat pump utilizing conventional terminal designations. Auxiliary heat, emergency heat, system and fan switching, auxiliary relay output, emergency heat and auxiliary heat LEDs. 0730001053 1- compressor heat pump utilizing conventional terminal designations. Auxiliary heat, emergency heat, system and fan switching, auxiliary relay output, emergency heat and auxiliary heat LEDs. 07300E1001 1 -Heat 1 -Cool to 2 -Heat 2 -Cool configurable, fan switching only, auxiliary relay output. 07300F1009 1- compressor heat pump, non - switching, auxiliary heat, auxiliary relay output and auxiliary heat LED. Q7300F1017 2- compressor heat pump, non - switching, auxiliary heat, auxiliary relay output, and auxiliary heat LED. 0730001007 1 -Heat 3 -Cool, system switching, auxiliary relay output. Temperature Monitored 18 AWG 20 AWG 22 AWG 50 -90 ° F -0.4 ° F -0.7 -1.0 ° F 10 -32 ° C -0.3 ° C -0.4 ° C -0.6 ° C MODELS: Thermostats— NOTE: T7200 thermostat with limited configurability Is also available - see form 63-5056-1. Subbases- NOTE: All subbases Include two annunciation LEDs and remote sensor capability. MOUNTING: 07300 subbase - two No. 6x32 screws (provided). DIMENSIONS: 17300/07300 57 • ELECTRICAL RATINGS: Supply voltage - 22 to 30 Vac, 50/60 Hz Temperature offsttt per 500 ft [157 m] of 2 -wire cable (1000 ft [305 m] total length) for remote sensor wires. TEMPERATURE OFFSET FOR REMOTE SENSOR WIRING: SYSTEM CURRENT DRAW: 17300 thermostat and 07300 subbase: 6 VA maximum at 30 Vac, 50 or 60 Hz. 63- 4038 -5 • Honeywell Inc. U.S.A.: 1885 Douglas Drive N. Golden Valley, MN 55422.4986 CANADA; 740 Ellesmere Road Scarborough, Ontario M1P 2V9 This digital apparatus does not exceed the Class B limits for radio noise emissions from digital apparatus set out in the Radio Interference Regulations of the Canadian Department of Communications. Le present apparel! numerique n'emet pas de bruits radio8lectriques depassant les Ilmites appiicables aux apparel's numeriques de la Classe B prescrites dans le Ritglement sur . le brouiilage radioalectrique edict() par le ministbre des Communications du Canada. • International Sales Offices in all principal cities of the world. Manufacturing in Australia, Canada, Finland, France, Germany, Japan, Mexico, Netherlands, Spain, Taiwan, United Kingdom, U.S.A, PRINTED IN U.S.A. Q- QUALITY IS KEY • • , GM va tE win O•i• o1 t p .n. 2Ii `C pp 1. ,IN TL 11211 N 'a MANIA LO 12A1N0. AR On ABBREVIATIONS LEGEND IRAO 011 Muse . Inr .. • INUIT - REZtMO OM P! SN11ES Iv r "4. CA1 FIRED. POO UNTO. ASA en, IK1NIZpaAL A VERTICAL AU "'JINNI NINECII'•AL LOUNRN$. POUR M1 +11 SUSPENSION 1.11. 1AU■$, INT L ft '.N1. 200 sell 1M. 110ION OUT. NOON 11. "1r1CtA1, IIAItW11. tMRN/UNINIEN Sr':11C11. WI 1111E 'WAIN CONS*. 1.1 •t GAEL FL ISO. 130 I/H W. lot ISn'' II, CONNECT 10111 -.1 o0NTUOLS. Ills lot COLON 1 af1112 RIONIN0 WI I RI 111 111g NNW N 14 "116.0. MO INDIVIDUAL DIRT LON ON" COCK, MO UNINI FOR EACH INUIT. M.:. IN 1• LON PRke31112 COSIGN OAS 1.111 INJNNSIIIWA OR PRY. 3/4 101 I'll, ;PINE OAS 10 11.2. NO 1/2 LOW P1'I ;Stint!. OAS 10 WI 3. 211 �INIMIIMDIT TIM 1 al 1LOa0gM1<0Ti�1 SAL C011111111101011 CONTRACTOR IRMINO AND AIR 0010. COMM • 1• . • t4'.:..:.. .�' nee ; 4 w• aDr• — c , �•11i 0 O ® OAS RPM . GRAM as SID uw011 (ORT W SAS NON RENO NOT OOI21O011011 OANPa SUPPLY AR wpm R2s a 2MWIST SOLI IIOMO2TAT MINT 1NEIYOSTAT NOSM UNION INS NM ONOT MS a as punk. 040111 PLUMS OWN 0012011011 00101 MINT •SIZE VII TN YWWACTINEIN REOOft1OATKOS 3 /$ a- , .NM,1 i a UN-2 Is VENT on as Pa 0/A OM r V v• „ —von ••...VWII v I IYIV•1.1rt.1P non acv� r WOG � AM WAKE EN DANN C L IN PRVIOJNE 0110P AR N IP UNIT Y STAN ` I pIYN[ m FAN NUMMI FAN � T A M O�f FAIN12INiOT ABBREVIATIONS LEGEND O re! EWE 3/4 3 0 0 1 -1/t;' WI I►Eal MINT 118Ni0STAT sou wuN MP Ms ON OIIOP 014112, 0400.) MS NOT OTINIM IN Maa ONONA= ON MKT AR OUST h.—� WPM AO-AM gMN11Tr (OTY) EMS � INTIM !1t 01EDN IWIS) INTONATION OAS PIPING ON 00W 3/ (TTP) to OETA1L® "STY -IS NUNS IMMO ■ NIRNMDI Or YAMS OWL NT BAUD A� A f20�1N1 SPUN NOT ON IN M MIN M OIIa I I WM MO CAL NONMINISSIO NOSS a ORAWNS MOONS • 0 M MUM SEDUCING SALK. DINT LEO. US 00011. AND UNION AT UNIT COIIOOTION• TYPICAL ALL SAt PINfp EOUISMINT. IIEPfA TO DETAIL NO SONLOULE ON OW W. 0 3 /s 0 NTU-13 • NDO1 TI*NOOTAT RUN L00q cam D mow= di N ASONT PIN. (TYPICAL) Joe TLOa t;4 1111. • 1 • elfin 56' t~ '.� e •ii 11111•44, • I saw MIN. CLEARANCE NW ENE CF WILDING TO INUIT SHALL D[ 00'-o (TYPICAL) Ism PNOVIOE PULL SIZE DUCTS PNCW 1 -I sits (IOTTO1 OF or JOIST EICCp/NOT101K1(TIP) MOWN ADDITIONAL FINE mamma PIPING AM ACCESSOIIIttU so FUNK OOP SPRINKLER EYS= IS aNTNOL&O wow I P1131 WITNIN PURSE OOP TVWIT •ACE i -S N 0 i i .1 SMIMI= PIPINS Pa THIS AREA (SAYS 11•C.0d.P.0 M0 SAYS 11•12. 1■13) NOUN N OISOOUECTED MOM MST SIN I 0/ SNIT. MO IKCOKCT 10 NEW SUPPLY FOR PUNS OOP CITY RECEIVED VORWILA OC b 11114 /ERIN ODDER 14oiro• Afti Neromkt s I ' far 41m Fume Step •GMs„ ' bra 1 l sbis+ +. rwltsliws 1 3 w t • ?Ay -ouo. REVISIONS No CHANGES SMALL BE MADE TO • TH! SCOPE OF WORK WITHOUT PRIOR APPROVAL OF TUKWILA BUILDING DIVISION, MO WM MOWN ACOTIONAL A N R Fat ' C an Check approvals are d approval e I understand In tttal the Plan of tn ,sssOnS nn a tre V10041011 Of rn an and o . .. ,,l(•P r, r%Ol ant: "i,:': t10G61(ll 01 ..n.., ,;n^ ■ o tdsr....... s, ,, no wlOdO • tilt Of , .tes `• �;�pJ,t CJ p t :1 JV ..,i 1' tractor fl PATH ENGINEERS, INC. 171121111021211 NWT NWY SE. SEE N S011lLL, WAINMIOTTON NO12 IXMACTI TON PRESSLER ( W1 I 01 N -7212 TURNER AND ASSOCIATES 18420 E4th PLACE NE. ARCHITECTS SEATTLE, WASHINGTON !6135 TELE. (EOi 365-7431 FAXi 0106) 361 -7304 MECHANICAL "PLAN SEAFUR REMODEL TUKWILA, WA a 432 FILE• M:\CAD4 \432UM1 DRAWN DY' 3-D CHECKED DY1 TEP DATE• 3/30/5 SCALD 3/32" . 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I NOTE: MOM DIERMOSTAT AS SNOIN ON Oa It UNIT HEATER DETAIL to wat gre A r.0.10010 NSOINICD) 9 a mg PIEMBEIALS raTIMPTIvr NOT CCUSOT WIN IN Or =Be 0- m* CAP OM METAL SUM SAL PROOILIINIVNAL PINT PIN Men ISA rat pus AND NAM INTIMININT IowU NOM PROMS MID as ROOF wer IN COM 10 INS ma TO ammo • -c • • :? z,.i • I. • 8 • 41%, ' ••• • l ie 4 • PIPESTAND SCHEDULE w ISNO ANICIL a OS _ WOOL INN ps s ip i I MMO, Mt AT at, AT At MID AT ALL 011401K6 w 30 GENERAL MECHANICAL NOTES clam CONIC'S AND VIM NI Mt nue Pawn CONTRACT. 111:46gibrifThe 0000APITS CONNIACCOMS FALK TO NC IENNRINI_OONORIONS AND AMICIONAL COMPVISAIOK Ma CONTRACTOR TO MAU NNW VANES NI ALL NM Slanitgll AND Dellat Mter USS DOORS TO ALL WANK DAMPS In It DANFON6 41 ND= MIDWIRIALL IN INSTALUD TO MAN MANUFAORMaN IISOOMMINOSO MO lineir F e UNNICESSMY Ma OR CUM& NAT WALL e RAPINO2r 11 a MD TO lin P F FOR RIN4RIR1110. nneMORIFAs_ MOTS LAROVI NAN Mir PI Oft IMINANCAL ORM01011 AN DAMS= AND IMO 10.01 at LAVOUT MO WV OPTIMERS• Oa WIN COMO OROS* wrest own CONMACTON SNAIL CANSFILLY COMMA* OS IWO OF ALL OVINSAIM% TO NO =NINON IDS MINN TO FAIRMADON OF 11W111110/111 AI IVIIT AND INAU.. NOT SI ATTACHED TO ROOF OWL TO MAIL =MOW ouenvoiN TOP ORONO OF NOW M% ArtooNNOWNW$OSAIRANINAISKESSAliorririableliragEnk OrtEWED CITY OP TUKWILA OCT f• btlir PERMIT CENTER 4 .1 • • I • I . I ,i1.‘1111114 4 : MVO . ' . „. PATH 170211 • COITACITITUI 4. a , • 4 , ; • • TURNER :AND SSOCIATE S V4 IMO nth a� ARCHITECTS SWIM VANONSIONSSISS moo $04431 FAX OW 36541,141 • MECHANICAL DETAILS SEAFUR REMODEL TUKWILA;:..yA . L.432 -. kt:ii..44,i, • mmAD4‘432w3. ,...4.fr, ION ft • • 2 - 3e0 .■• • . • i li..1,.. • 4- itt e t- . CKED • St .. *. TEP,' . 7-tY) SATO , . 3130121, . . ;1 SCALD NO SCALE liEVISIONS: : • • • ' V . ••• I. . ,•• • SHEET . I . .1 11 • * A d, A. • I. , 111 INC ina ranuffir e. an OCS 4. Pr 411.now I I 4 1' 1 •‘. 1.7 . 1. I m i • • .•:. 1 141ndliti• 'r • • ri ., r • L. • r 4 • , , • 1 . • • -• • • I • .CHECKED SYI . TEP PATEN 3/30/94 SCALD TURNER AND ASSOCIATES.:; 11/411 14 " PLACE tit ARCHITECT• SEATTLE VASIIINITON MSS ' • . Taft MO 9%S 443$ FA* OM 363 - S4;, • . MECHANICAL DETAILS`'''• SEAFUR REMODEL TUKWILA, . WA .m. 432 FELD - Ms\CAD4\4,32 \M4 • PRAWN .STN ' • 3 -0 t • TAN. P01 flit • C • 49100 4 c*ruo1 i fsuma ma PLAN • REST 1111/1/PAS -AA 11111S/30aE STEEL NUL MARK S1 St $3 54/114 M Na El APPUCA VON RIPPLY EXPOSEO CUOt SUPPLY AR OVOID DUCE SUPPLY M SUPPLY T1.1 CO NNO MUNI IA tIPOSEO OUCT mom OM CEILING 001AUST AM • OAKEN MATE ENAMEL PINION AIR DEVICE SCHEDULE MFR./MODEL MAT'L. 11TW/1100 IJDMOX R10-11 1111N/PM DR S/3SML 111115/1S1K, MEL STEEL STEEL FINISH SS• Me Slit • SIR • SOE • SR• ACCESSORIES' PATIOS, COHNOL MUIR Oa11R t PATTERN OpNROL SOL= WOW PATTERN CONTROL -M *Mit WHIM PATTERN CONINOL -M -M REMARKS SEE PL/HIIXFa i rA am SEt PLAN FOR !R 14'd4YAUE at PLAN Pal NECK SIZE MOW Mt 1 SEE PLAN FOR an 14'114' FACE 15t PLAN FOR SIR SEC PLAN rat NECK St l5 ■ J \ i :'t :, ;, M • , NOT rw AND 4'S { MOW OM. SEE CIVIL OROS POII CONTINUATION • • • I 4., t GAS FIRED. UNIT HEATER SCHEDULE (OWNER FURNISHED EQUIPMENT) MARK INMi MFR./MODEL UNIICl/V14 410 MON IN OUT Tto SO M CFM 1110 CAS CONN, M .P. 1/ts PHASE '141/1 FLUE S. WEIGHT (LOS.) IS ACCESSORIES 14V NANO AT UQff.S, I. NAG 4 • SHIN rot S m NAIL le WOK • NO Mk iH>r-O' TOTAL MOM PECAN WROIAL SUPPORT POT *Mat FLUE AS caMNm. t MO SNAIL PISTOL =fist Afn COML. PLR WM. 1115 oat so A ! Ne Nth REIVITAA ttiOT. FOR UN OT owns • PLUMBING FIXTURE SCHEDULE PLUMING FIXTURE/TRW ASCRIPTION MI—lie Ullia ,_ i, KaLEI K ■330 'KINGSTON LITE' WALL In. YITR ;OYSCNINI, WATER CLOSET 0.11 CALLON FLUSH. ILCNOATto SAL MIEN. SIPHON AT rtnsuO, 1 1 /1' TOP SPUD. KOIEER K -4S70.0 'LVSTNA' IONA WAVY SOLID PLASTIC SEAT. SLOAN ROYAL III I.S GAL. PLUMMET'S. PROVIDE TALL HAWN/CHAIN CANNIER. WASITSIMEMBILS (SAME AS PLUMING FIXTURE ND I EXCEPT IS MOUNTING HEIGHT.) 1x111 21xia ic. j KOILER K -4150 4 'MOON LITt WALL MOUNTED URINAL. VITNEONS CHINA WASHOUT DESIGN. 3/4' TOP SPUD INLET. 2' I.P.S. OUTLET. PROVIDE TALL HONOURS AND VAISAL -PPOOP IMMOV491.t REHIVE STR41NIN. SLONN ROYAL ISO (LON CONSUMPTION. I Oft. FLUSH CYCLE.) P11 —IIm ,in ER 1t_ ti ROW K 'PtM11NOToN' oar RIMMING VITREOUS CHINA LAVATORY. WITH 4' FAUCET CENTERS. IOW K - 7105 3h' ANNA SUPPLIES I' CAST 'P' TRAP K SY S M MS SOOT 5 -l0d1 IWOICAP FAUCET 4' COMM 0.9 WPM, WITH VAIOAL PROF. PERFORATED GRIND STRAINER. iiatianfAILAL FIAT 110 ■1414 14'.14'5110' PION MOLDED STOUR MM SINK. CHICAGO N0. S4r FAUCET WITH VACUUM PEACES SPOUT, 3/4 Most HMO OUTLET. PAIL NOOK WITH TALL SUPPORT. INTEGRAL STOP AIMS. POLISHED MOM FINISH. PURGING 001SRCTIOIN CF NN WASTE VENT 1• 4• 1' I - 4' 1/!' 1 I I/1• I/1 1/1 1 I I/1' I/1' 1/1' 3' 1. NINES 1..1..3. 1..1..3. 1..1..3. 1..1..3. 1..1..3. NOTESt 1• PISTON To R UNITE COLON 1. PROVIDE MOLE COMPRESSION STOP AND Dom PLATO MASS ON COPPER SUPPLY FOR STmm PISTON. PROVIDE C RO E- PLATED /BASS P ■TRAP AND WASTE AMMO LOOSED TASTE PIPING AT SINKS. 3. PLUMING CONNECTION SIZES ON SCHEDULE NAY REWIRs TNMRITION TO FIXTURE/TRIM PIPE Slip. ALL SIZES CI SCHEDULE ARE TO SE PROVIDED INSIDE PLUrINi VMS. stn stain re- * ELECTRIC TYPE. MEETS OR EXCEEDS Plat SOA - ISSN. Is CALLON CAPACITY. U/1. LISTED. 1.SKW ELECTRIC ELEMENT. 110V /1•/IOH1 A.O. SMITH MMCL RL -IS. V i �\\\ s n � \4 0 ` 01 AMMO CITY OF TUKWIIA' OCT.. fi PERMIT Comm l ,'.1 ,b' 4' • J h'. ,!' I • Y . •1 , ;N. ' at • • efr ` a • ,,•• , • :: .• E? GAS PRESSURE. REGUL A OR.• SCHEDULE MARK MFR. MODEL / NAT 0AS SIRE PRESS. POINT BSIZZEer EQUIPMENT SERVED R -1 FISHER 114 110 3/r 1 P!S r aWs r mu-s R •, . PUSHER !S4 110 I/4' . 1 PM r W.O. ' r R1W1,,��,, 1ppN 1t13.14,i R-3 Flea 154 no . 1/4• Des r at We RIU•- 3.S.T.S.NO UN•I ME: CONNRAOTcm SHALL PROW* OUR REgsATOR FOR EACH PRp _ CP OAS FRED COIPYENT. .CHECKED SYI . TEP PATEN 3/30/94 SCALD TURNER AND ASSOCIATES.:; 11/411 14 " PLACE tit ARCHITECT• SEATTLE VASIIINITON MSS ' • . Taft MO 9%S 443$ FA* OM 363 - S4;, • . MECHANICAL DETAILS`'''• SEAFUR REMODEL TUKWILA, . WA .m. 432 FELD - Ms\CAD4\4,32 \M4 • PRAWN .STN ' • 3 -0 t • TAN. P01 flit • C • 49100 4 c*ruo1 i fsuma ma PLAN • REST 1111/1/PAS -AA 11111S/30aE STEEL NUL MARK S1 St $3 54/114 M Na El APPUCA VON RIPPLY EXPOSEO CUOt SUPPLY AR OVOID DUCE SUPPLY M SUPPLY T1.1 CO NNO MUNI IA tIPOSEO OUCT mom OM CEILING 001AUST AM • OAKEN MATE ENAMEL PINION AIR DEVICE SCHEDULE MFR./MODEL MAT'L. 11TW/1100 IJDMOX R10-11 1111N/PM DR S/3SML 111115/1S1K, MEL STEEL STEEL FINISH SS• Me Slit • SIR • SOE • SR• ACCESSORIES' PATIOS, COHNOL MUIR Oa11R t PATTERN OpNROL SOL= WOW PATTERN CONTROL -M *Mit WHIM PATTERN CONINOL -M -M REMARKS SEE PL/HIIXFa i rA am SEt PLAN FOR !R 14'd4YAUE at PLAN Pal NECK SIZE MOW Mt 1 SEE PLAN FOR an 14'114' FACE 15t PLAN FOR SIR SEC PLAN rat NECK St l5 ■ J \ i :'t :, ;, M • , NOT rw AND 4'S { MOW OM. SEE CIVIL OROS POII CONTINUATION • • • I 4., t GAS FIRED. UNIT HEATER SCHEDULE (OWNER FURNISHED EQUIPMENT) MARK INMi MFR./MODEL UNIICl/V14 410 MON IN OUT Tto SO M CFM 1110 CAS CONN, M .P. 1/ts PHASE '141/1 FLUE S. WEIGHT (LOS.) IS ACCESSORIES 14V NANO AT UQff.S, I. NAG 4 • SHIN rot S m NAIL le WOK • NO Mk iH>r-O' TOTAL MOM PECAN WROIAL SUPPORT POT *Mat FLUE AS caMNm. t MO SNAIL PISTOL =fist Afn COML. PLR WM. 1115 oat so A ! Ne Nth REIVITAA ttiOT. FOR UN OT owns • PLUMBING FIXTURE SCHEDULE PLUMING FIXTURE/TRW ASCRIPTION MI—lie Ullia ,_ i, KaLEI K ■330 'KINGSTON LITE' WALL In. YITR ;OYSCNINI, WATER CLOSET 0.11 CALLON FLUSH. ILCNOATto SAL MIEN. SIPHON AT rtnsuO, 1 1 /1' TOP SPUD. KOIEER K -4S70.0 'LVSTNA' IONA WAVY SOLID PLASTIC SEAT. SLOAN ROYAL III I.S GAL. PLUMMET'S. PROVIDE TALL HAWN/CHAIN CANNIER. WASITSIMEMBILS (SAME AS PLUMING FIXTURE ND I EXCEPT IS MOUNTING HEIGHT.) 1x111 21xia ic. j KOILER K -4150 4 'MOON LITt WALL MOUNTED URINAL. VITNEONS CHINA WASHOUT DESIGN. 3/4' TOP SPUD INLET. 2' I.P.S. OUTLET. PROVIDE TALL HONOURS AND VAISAL -PPOOP IMMOV491.t REHIVE STR41NIN. SLONN ROYAL ISO (LON CONSUMPTION. I Oft. FLUSH CYCLE.) P11 —IIm ,in ER 1t_ ti ROW K 'PtM11NOToN' oar RIMMING VITREOUS CHINA LAVATORY. WITH 4' FAUCET CENTERS. IOW K - 7105 3h' ANNA SUPPLIES I' CAST 'P' TRAP K SY S M MS SOOT 5 -l0d1 IWOICAP FAUCET 4' COMM 0.9 WPM, WITH VAIOAL PROF. PERFORATED GRIND STRAINER. iiatianfAILAL FIAT 110 ■1414 14'.14'5110' PION MOLDED STOUR MM SINK. CHICAGO N0. S4r FAUCET WITH VACUUM PEACES SPOUT, 3/4 Most HMO OUTLET. PAIL NOOK WITH TALL SUPPORT. INTEGRAL STOP AIMS. POLISHED MOM FINISH. PURGING 001SRCTIOIN CF NN WASTE VENT 1• 4• 1' I - 4' 1/!' 1 I I/1• I/1 1/1 1 I I/1' I/1' 1/1' 3' 1. NINES 1..1..3. 1..1..3. 1..1..3. 1..1..3. 1..1..3. NOTESt 1• PISTON To R UNITE COLON 1. PROVIDE MOLE COMPRESSION STOP AND Dom PLATO MASS ON COPPER SUPPLY FOR STmm PISTON. PROVIDE C RO E- PLATED /BASS P ■TRAP AND WASTE AMMO LOOSED TASTE PIPING AT SINKS. 3. PLUMING CONNECTION SIZES ON SCHEDULE NAY REWIRs TNMRITION TO FIXTURE/TRIM PIPE Slip. ALL SIZES CI SCHEDULE ARE TO SE PROVIDED INSIDE PLUrINi VMS. stn stain re- * ELECTRIC TYPE. MEETS OR EXCEEDS Plat SOA - ISSN. Is CALLON CAPACITY. U/1. LISTED. 1.SKW ELECTRIC ELEMENT. 110V /1•/IOH1 A.O. SMITH MMCL RL -IS. V i �\\\ s n � \4 0 ` 01 AMMO CITY OF TUKWIIA' OCT.. fi PERMIT Comm l ,'.1 ,b' 4' • J h'. ,!' I • Y . •1 , ;N. ' at • • efr ` a • ,,•• , • :: .• E? TURNER • AND ASSOCIAYES 1 11410 14th PLACE Nt ARCHITECTS SEATTLE, VASHINGTON 15153 TELE, ItOi 361 -7431 FAX* (206) SSS -7601 MECHANICAL SCHEDULE SEAFUR • REMODEL • TUKWILA; .WA Jo, 432 • • .- . • , FILE1 M :\CAD4432\MS DRAVN BY. 3 -0 ' CHECKED BY. TEP DATE' 3/30/94 SCALD REVISIONS `' . s. t . „ d• 1/ _ . • • • '' f' • . _ ' .. .• . J G '� -. SHEET . . .3, •' 7I ,,. 4 . P: ,. C y . mqqois EXHAUST FAN SCHEDULE (CONTRACTOR FURNISHED AND INSTALLED) MARK APPUCAUON MFR./MODEL (PA S.P. H.P. RPM VOLTS /11 LOCATION ACCESSORIES a -t q -/ Q -3 IDONWIT MANN WNW IUUUNS/�-100 -4 900 0.19 N (/m -10-4 100 tat an0IR0It/r -10-0 iso an ID - �rOAOwNOrr 00 - 11VAII 09 - 019001/NOT IIO - NON OAP. OS - w 9111X11 TO -SEMI OAT CLOW • t/4 1/4 1/90 11N NS MOO 119/1 119 91 TOW NMI. LOMAX a an NOPO.09 tactic Nan NOM PROMOS Eta1 MO T d I � iN *CIO 1�OUT EQUIPMENT MARK MANUFACTURER MODEL NUMBER NOMINAL TONNAGE E.E.R. INDOOR FAN C.F.M. INDOOR FAN H.P. EXTERNAL S.P. (" W.C.) MIN. IPLV MINIMUM OUTSIDE AIR C.F.M. ENTERING AIR DB/WB (7) SENSIBLE CAPACITY (MOH) TOTAL CAPACITY (MBH) GAS HTO. INPUT (MOH) OAS HTO. OUTPUT (MBH) A.G.A. THERMAL EFFICIENCY VOLTS/PHASE UNIT MIN. OR. AMPS\MAX FUSE SIZE UNIT WEIGHT (LOSS ROOF TOP UNIT SCHEDULE (OWNER FURNISHED EQUIPMENT) Nw-t LENNOX nNM1393 10 t0 4000 I .19 ao 1900 • 77.9/13.5 119.9 170/170 211/111 SOX 410/1 70/19 '4119 IIA- 0w -I L17M1o11 90SmM1a03 to to I • .29 /.9 1500 "anal 'Si 1155 norm 111/132 SOX 490/3 30/35 III, IIItlN 1110 -7 LENNOX 00919 -913 9.19 to 1100 1 .1 • 710 "ass 90.0 70.1 109/11.5 PDX 17/20 1019 LENNOX o091Mtaq 10 to I .I9 to 1900 /1.9/1,X,9 01.5 110.9 170/170 2tI /131 9oa 410/3 10/19 1499 •e1.t 1111-7 LENNOX OOSIMtan 10 to 4000 1 to 1100 moss 91.0 1111.1 270 119/111 Soa 490/3 30/35 1449 ��u Rw -i WES 001111423 9.19 t0 UN t .1 710 77.5/11.. 50.0 711 100/14 la/00.5 7Ia 410/3 ION RTU -7 LENNOX OC9q -9n L/5 9.0 1500 1 .I OD 710 77.5/13.. Sao 70.1 135174 109/19.5 795 490 /3 17/20 ION ow - 9 LENNOX OCIIO -1111 -In 19 1400 9 .5 to 5too 77.5/93.5 149.3• 1110.0 235/145 1N /119 SOX 410/3 50/10 2020 111114 005111.100 an 50 3 .5 • 1200 71.1/1u Na 710 130 100/11.1 711 won 17/70 1010 11X1-10 LSMaX Iq0 -'3W to 9.0 40N I .31 to IN 00/17 99.0 129. 170/X70 119/132 99a 4 10/3 30179 1449 ow -II Lt1111011 /N1M'793. 10 t0 4409 a au 9 .o . IN 110/117 no 120.11 170 /170 219/131 Sea 410/3 30/39 1449 ADDITIONAL ACCESSORIES 1;245 AMMO= I -moor MOU11*S FRAM9 (0'91n FUNNED) 3- Door TR a- IUPw. ANO11A1! 4 -POMI At1St FOR E00NOM7Io 5 -aST SUPPLIED SIMILAR MILS 1.2.3.5 Ins '.LAS 1.145 1.2.3.5 11.3.5 1.2.3. 1.14s TAU moor P ROMOS MONO MO SALMONS S IN AND NWT REPORTS TO 111E 0101111111. 0101111111. 0101111111. war NOM mum MOUNTING PRAML non= wan . (t Mart. MN DETECTORS IN till THE SUPPLY MO MERMN • MR 01101• FAN m1U-1 X1/111 Nw -11. ALL UMT9 STALL OE MILD AT O.T AIR TEMPERATURE PRONE COONOINANON. AND MITALMuON FOR ALL o'M EN FURNISHED EQUIPMENT AND ACCESSORIES, FUTURE SHOP ROOF TOP UNIT SCHEDULE (OWNER FURNISHED EQUIPMENT) RwU -13 EQUIPMENT MARK MANUFACTURER MODEL NUMBER NOMINAL TONNAGE E.E.R. INDOOR FAN C.F.M. INDOOR FAN H.P. EXTERNAL S.P. (' W.C.) MIN. IPLV MINIMUM OUTSIDE AIR C.F.M. ENTERING AIR DB/ 9 ('F) SENSIBLE CAPACITY (MBH) TOTAL CAPACITY (MBH) GAS HTG. INPUT (MBH) GAS HTG. OUTPUT (MBH) A.G.A. THERMAL EFFICIENCY VOLTS/PHASE LENNOX LENNOX 00NMtaIS nil•'3s3 10 t0 10 t0 4000 I .19 1.11 .29 to 1200 77.5/53.5 93.5 11t. tromp 11• /1002 sox 41017 RN■I4 LENNOX ni l- I 35J to 50 MOO .19 59 1100 77.9/535 93.9 RLU-Il OCSIM1353 RWU -19 WINN 00111 -1n3 10 to •2I to 1200 7Ls/53.5 93.5 1155 270 /170 ICI /132 001 490/3 RTU -It WINON OCItM'393 10 9.0 10 9.0 4000 .!9 to NRI -19 LDMOX OCS1s -1353 to to I .29 t9 4000 I .29 to 1200 77.5/13.6 91.5 1200 77.5/53.5 93.5 /1 9.9 170/170 st9 /1n SOX 400/3 119.9 270/170 210/In 491 410/3 UNIT MIN. OR. AMPAMAX FUSE SIZE UNIT WEIGHT (LBS.). ADDITIONAL ACCESSORIES ACCESEar t -NOW MOIIm1MS /MLLE (onR N1111111110 a= �t w NW pm 1* 1.1,3.4 70/35 1449 TAM 1400 1.Ia4 30/39 1400 30/35 1400 1344 30/30 1499 1345 30/35 1409 1.244 NINES: - meow Immo AID SALMONS AID an won to 111 an LINT 1 SONS ▪ AN ONTO POI• m -i w MO SUPPLY O IMIUIIN • war WONT IMMUNE: moor scums PRAIM: mono, went Or 9/[O>elS MOLAR IMP - ALL UNITS DU nit AT NT AIR TD/ERATMr PROMOS - M 01111NATION. AID UATAWflON FOR ALL OWN FURINODO ENI M INT AND AC00nooict • $ '4& ' y P sc -14h Ptt t v *\C PtCC!VED • CITY Ir TUKWILA . ■S. OCT IJJ4 . 1 MEAT CENTIR 8 PATH INGINflRS; 1790 MILL taTT NWT tin N 0011041., WM11111101011 NO11 •' CONTACTS TOM PRESSLER ( s o n 4 • ".)•• ,_ • la •