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REVISIONS <br /> DESCRIPTION DATE: <br /> A B C D E F G H I FACTORY WIRING 0 <br /> UNLESS SPECIFIED OTHERWISE,ALL FACTORY AC WIRING 16 AWG.ALL FACTORY DC WIRING 18 AWG. MOTOR POWER CIRCUIT SCHEMATIC <br /> z NOTE:IFVFD HAS 1PH 2a0V INPUT,USE L18 L20NLY. CIRCUIT BOARDS <br /> J9 1201/ IF VFD HAS IPH IN/INPUT,USE LI B N ONLY. ECPM03 <br /> MTH F DCV Rev.2.12.00 <br /> CONTROL INPUTRIP] F p:Iwo HMI Rev.2.12.00 O <br /> 120V H1=LINE, aPH to B um ptNoi N1 <br /> zoeV wrtz MIC 2a <br /> A N1=NEUTRAL,15A m 24V 8 9 rT-A <br /> w,mm 5A rt3 Pt 0'211 <br /> BREAKER.DO NOT WIREDMmm-RE P103760 <br /> Un G CONNECTTO J6 1 2 3 4 5 6 7 ANTIsapalmNl.l GND e L Pt0]:0'o oil <br /> WIL® ® <br /> 2 SHUNT TRIP * 24V SCADAuse sn,eleee were PFOB:N <br /> Bu BREAKER.SEE P501 2 rc e 3t.NIA <br /> 0 INSTALLATION G L3IN 1.1. COY COY \P1B]:]0.9 GBK SCHEMATIC FOR C DEJ1 vFO:ESvi51N0PY%Ss]1 P49a:22s CADDITIONAL REO. p 0 R�sti COMPONENT LIST <br /> PANEL LID II G�t� x WF <br /> DEFLA.4,4 1SEL DESCRIPTION <br /> 3 P" all— pto:I S o �_20BVP101.WAISAP13 eeme 03]20.3 lP11d7.Da31 ECPM03'DAISYCHAINPI50Ab", 'P6']2 <br /> J4 J3 J VFD:ESN112N01Y%B5I1 P19a225 <br /> P410:21 a roc O.Oieep� U , <br /> 4 Ia, ,. Arcr lnN«PL I I 3 <br /> U <br /> 15r 15r. III II 3 h <br /> J7 120V III N <br /> N <br /> BF"HwO R r QH1 <br /> J <br /> Hoo N1 I I I I 111 <br /> 5 I <br /> srwon Mm I � <br /> Cl) <br /> (0 <br /> 6 O <br /> DC* 01 <br /> AR1 - w" N1 <br /> WH <br /> SF 1 - LEGEND <br /> N. <br /> Fa R <br /> 7 LL <br /> B8-ewcBiarJ O <br /> Ba,arrowN PR-Pume 1 O a <br /> DRY CONTACTS(SHOWN DE-ENERGIZED) W14WHIlE CVA GREEN � Op <br /> G RA-7-1 BlAsartm$IIdFE <br /> l�to$ m�uWm �"PE tQ <br /> MAKE <br /> lRw ERLacK. F00 <br /> EF1 BN PAWH 1�AWG RA 21 <br /> 6 N <br /> EL 000NG RBJIOB NnNAVE CBne'33._ Lij <br /> E"ADa EFi u F BWH MW DOV-1111 <br /> O O <br /> SECONDARY PANEL C LING IF NECESSARY RA-2-2 ERA IAN J <br /> co <br /> 9IK <br /> e� "E I o <br /> FU <br /> 0 w av <br /> U) <br /> TYPE 1 P m <br /> d <br /> TE <br /> SC-20 X 18 x 8.62 BOX DWC NO ECP#2-2 J <br /> 1n <br /> 1 <br /> Demand Control Ventilation Hood Control Panel Specifications: <br /> Controls shall be listed by ETL(UL 508A)and shall comply with demand ventilation system E <br /> turndown requirements outlined in IECC 403.2.8(2015). <br /> CD <br /> DUCT TEMPERATURE SENSOR o <br /> The control enclosure shall be NEMA 1 rated and listed for installation inside of the rn <br /> exhaust hood utility Cabinet.The control enclosure may be constructed of stainless steel <br /> or painted steel. <br /> Temperature probe(s)located in the exhaust duct riser(s)shall be constructed of <br /> stainless steel. <br /> A digital controller shall be provided to activate the hood exhaust fans dynamically based <br /> on a fixed differential between the ambient and duct temperatures sensors.This function <br /> shall meet the requirements of IMC 507.1.1. <br /> I <br /> A digital controller shall provide adjustable hysteresis settings to prevent cycling of the <br /> fans after the cooking appliances have been turned off and/or the heat in the exhaust <br /> system is reduced. I CONTROL PANEL <br /> I <br /> A digital controller shall provide an adjustable minimum fan run-time setting to prevent fan LCD <br /> Cycling. INTERFACE <br /> ROOM TEMPERATURE <br /> SENSOR <br /> Variable Frequency Drives(VFDs)shall be provided for fans as required. The digital <br /> controller shall modulate the VFDs between a minimum setpoint and a maximum setpoint on <br /> demand. The duct temperature sensor input(s)to the digital controller shall be used to TYPICAL HOOD CONTROL PANEL INSTALLATION <br /> calculate the speed reference signal. <br /> The VFD speed range of operation shall be from 0%to 100%for the system,with the actual M <br /> minimum speed set as required to meet minimum ventilation requirements. Sequence of Operations: > M <br /> The hood control panel is capable of operating in one or more of the following states at any = LO <br /> An internal algorithm to the digital controller shall modulate supply fan VFD speed given time: I 07 <br /> proportional to all exhaust fans that are located in the same fan group as the supply fan. Automatic: The system operates based on the differential between room temperature and <br /> the temperature at the hood cavity or exhaust duct collar.Fans activate at a In Q <br /> The system shall operate in PREP MODE during light cooking load or COOL DOWN MODE when configurable temperature differential threshold.Depending on the job configuration each fan U <br /> sufficient heat remains underneath the hood system after cooking operations have zone can be configured as static or dynamic.These terms refer to whether a variable C <br /> completed.Operation during either of these periods will disable the supply fans and provide motor(such as EC Motors or VFD driven motors)modulate with temperature.If the panel is Q <br /> an exhaust fan speed that is equal to the minimum ventilation requirement. equipped with variable speed fans and the zone is defined as"dynamic",these will modulate U (J <br /> within a user-defined range based on the temperature differential.Panels equipped with w <br /> A digital controller shall disable the supply fan(s),activate the exhaust fan(s),activate variable speed fans and a fan zone defined as"static",fans will run at a set speed <br /> the appliance shunt trip,and disable an electric gas valve automatically when fire condition calculated for the drive.Demand control ventilation systems are capable of modulating z <br /> is detected on a covered hood. exhaust and make up air fan speeds per the requirements outlined in IECC 403.2.8. CZ <br /> A digital controller shall allow for external BMS fan control via Dry Contact(external Manual: The system operates based on human input from an HMI. G <br /> control shall not override fan operation logic as required by code). <br /> Schedule: A weekly schedule can be set to run fans for a specified period throughout the <br /> An LCD interface shall be provided with the following features: day.There are three occupied times per day to allow for the user to set up a time that is DATE: 7/7/2020 <br /> a. On/Off push button fan&light Switch activation suitable to their needs.Any time that is within the defined occupied time,the system will run <br /> b. Integrated gas valve reset for electronic gas valves(no reset relay required) at modulation mode and follow the fan procedure algorithm based on temperature during this DWG.#: <br /> c. VFD Fault display with audible&visual alarm notification time.During unoccupied time,the system will have an extra offset to prevent unintended 4424831 <br /> d. Duct temperature sensor failure detection with audible&visual alarm notification activation of the system during a time where the system is not being occupied. <br /> e. Mis-wired duct temperature sensor detection with audible&visual alarm notification DRAWN <br /> f. A single low voltage Cat-5 RJ45 wiring connection Other: The system operates based on the input from an external source(DDC,BMS or BY. MJB <br /> g. An energy savings indicator that utilizes measured kWh from the VFDs hard-wired interlock) <br /> SCALE: <br /> 3/4" = 1'-0" <br /> MASTER DRAWING <br /> SHEET NO. <br /> 10 <br /> REVISIONS <br /> DESCRIPTION DATE:. <br /> System Design Verification (SDV) D <br /> D <br /> If ordered, CAS Service will perform a System Design Verification (SDV)once all equipment has had a complete start up per the Operation <br /> and Installation Manual. Typically, the SDV will be performed after all inspections are complete. <br /> Any field related discrepancies that are discovered during the SDV will be brought to the O <br /> attention of the general contractor and corresponding trades on site. These issues ON <br /> will be documented and forwarded to the appropriate sales office. If CAS Service has to E AMM <br /> resolve a discrepancy that is a field issue,the general contractor will be notified and 0 <br /> qw- <br /> billed for the work. Should a return trip be required due to any field related discrepancy that cannot be resolved during the SDV, there will @ E <br /> be additional trip charges. I I I > <br /> During the SDV, CAS Service will address any discrepancy that is the fault of the manufacturer. Should a return trip be required,the I 3 <br /> general contractor and appropriate sales office will be notified. There will be no additional charges for manufacturer discrepancies. I III 3 <br /> IIIIIII N <br /> N <br /> J <br /> II II UJ <br /> I O <br /> I I � <br /> I � <br /> T <br /> T <br /> V <br /> O <br /> 1 O V <br /> C � <br /> oD <br /> .� aD <br /> W <br /> I Q J Z o <br /> x <br /> o_ <br /> I o <br /> J <br /> N <br /> a_ <br /> U) <br /> D7 <br /> d <br /> 1 � <br /> to <br /> E <br /> Q <br /> v <br /> rn <br /> 0 <br /> M _ <br /> U) Q <br /> a� U <br /> U U <br /> a, w <br /> c H <br /> Z <br /> a <br /> DATE: 7/7/2020 <br /> DWG.#: <br /> 4424831 <br /> DRAW MJB <br /> SCALE: <br /> 3/4" = V-0" <br /> MASTER DRAWING <br /> SHEET NO. <br /> 11 <br /> Cn CD -0 p Cn CO 00 CSS CT A W IV 1 <br /> O < C/) c 1'1 o CAD T , <br /> Z Cn CD CQ <br /> C CD CA z C W CD CD Z O �.7 j <br /> CS N CD c N c <br /> co 0 O O cn � a� CO � j <br /> � r _ N REG/ST �° en <br /> E 0'o 5 ] .'I, r p0' �+ //��►,yy� <br /> � � C_ V�� N Z �, CCD 7r/ M y <br /> OCA) c W O= .` PL <br /> _ gI <br /> CID N rn O � � rn O y, .m�I �►9 � � <br /> z rn � w o m ` .�.� <br /> m <br /> v n CO <br /> :--� c <br /> ^ W '� � z C� N (n w D �" ��� r'J rT� 1j <br /> M li♦ o o f 0'o o� Z I�,,� °V,il CHICKEN[ FINGERS <br /> Cn +� < o ro <br /> CD 00 <br /> 00 <br /> _ CM <br /> N z o ��� 3N���''� � ' c Restaurant Support Office <br /> CDN IV = r" N �) M 6800 Bishop Road, Plano, TX 75024 <br /> O <br /> O CD r 0' 0 Tele: 972-769-3100 Fax: 972-769-3101 <br /> SUBMITTALS <br />