Appendix 1 HSI_Submittal_R1_STC - Western Municipal Water District
Transcription
Appendix 1 HSI_Submittal_R1_STC - Western Municipal Water District
Project: Western Municipal Engineer Comments 1 October 6, 2011 Engineer Comments: 1. The submittal includes anchor bold calculations. What is the purpose of these? My understanding was that the blowers are sitting on adjustable legs? Also, the included anchorage calculations appear to be for a different project and are using the UBC 97 as the code. For this project the applicable code is IBC 2006. 2. Data sheet No. 52355: Should this be min flow and min temp? 3. Heat exchanger installation: I have discussed this with Chris previously by I am still not sure how the connection between the heat exchanger and the blower works; The submittal indicates that we need to supply the piping between the units. Do you have any drawings or photos of a typical installation? 4. Bray butterfly vales and check vales: The submittal does not indicate the coatings, materials of construction, etc for the supplied valves. Can you please specify? HSI Response: 1. The specification calls out for submittal of anchorage calculations. This can be found in section G24 of the specifications. It is correct that the blowers can sit on the adjustable legs without being anchored down. The anchorage calculations did have the wrong project name. The other project had the same size blower being provided as this job. Calculations were done by a licensed engineer for the state of California. The name has been changed to the correct project. Specifications call out for UBC 97 as the code to be used for anchorage calculations. This is what has been provided. Please reference spec section G24. 2. Data sheet has been changed to state min flow and min temperature. 3. Correct the piping from the heat exchanger and turbo is to be provided by the contractor onsite. I have attached a picture of a heat exchanger installed for reference. 4. The cut sheets have been marked up to show materials of construction. Dakota Turrentine Project Manager HSI, Inc. 7901 Hansen Road, Houston TX 77061 • Tel: 713-947-1623 • Fax: 713-947-6409 • www.hsiblowers.com 7901 Hansen Rd., Houston, TX 77061 CustomerSpecifications For Frame5HSTB Customer:WestMunicipalWater District Riverside,CA HSIWO#:33662 CustomerPO#:Ma11971 Tuesday,October04,2011 BorisPetrovic WesternMunicipalWaterDistrict 14205MeridianParkway Riverside,CA92518 RE: SpecificationsforApprovalfor(3)NewHSIFrame5HighSpeedTurboBlowersand Appurtenances HSIWorkOrder#: 33662 WesternMunicipalPO#:MA11971 BorisPetrovic: Inreferencetoyourrecentpurchaseorder(1)NewHSIMC8608MultistageCentrifugalBlowersand accessories,Iamenclosingthesubmittalpackageforyourreviewandapproval.Pleaseindicateyour agreementwiththeattachedspecificationsbysigningbelowandfaxingacopytomeat7135475508. Bysigningthisform,youareverifyingthefollowingshippingaddressandinstructionsforphysical deliveryoftheblowersandanyaccessories. WesternMunicipalWaterDistrict 14205MeridianParkway Riverside,CA92518 InanefforttoeffectivelyandcompetitivelyshipyourblowerHSIarrangesmanyshipmentsweeksand sometimesmonthsinadvance,changestotheshippingaddressatalaterdatewillcauseaddeddelaysand expensewhichwillbeforthepurchasersaccount.Intheeventthattheaddresslistedaboveisincorrect,it isrequestedthatyoucorrectthisissueand/oraddanyadditionalshippinginstructionsonthissheetbefore signingandreturning. Theaddressstatedabovewillbereliedonfromhereoutunlesschangedinwritingwithacknowledgement fromHSIinwriting.*Deliveryistentativelyweeksafterreceptionofthesubmittalapproval.* Pleasenotethatthesubmittaldoesnotconstituteacceptanceofanycommercialtermsandconditions besideswhatiscontainedherein.Termsandconditionsareagreedtoonasignedpurchaseorderonly. Sincerely, _______________________ ____________ DakotaTurrentine Signature Date ProjectManager HSIBlowers ___________________________________ Print Title 7901 Hansen Road, Houston TX 77061 • Tel: 713-947-1623 • Fax: 713-947-6409 • www.hsiblowers.com '(71256.(9(5,7$6 0$1$*(0(176<67(0&(57,),&$7( &HUWLILFDWH1R&(57$4+28$1$%5HY This is to certify that Houston Service Industries Inc. at +DQVHQ5RDG+RXVWRQ7;86$ has been found to conform to the Management System Standard: ISO 9001:2008 This Certificate is valid for the following product or service ranges: The Design, Manufacture, Repair And Re-Manufacture Of Multistage Centrifugal Blowers, High Speed Turbo Blowers And Related Accessories For Various Applications Initial Certification date: 0DUFK This Certificate is valid until: 0DUFK Place and date: +RXVWRQ7H[DV)HEUXDU\ for the Accredited Unit: '(71256.(9(5,7$6 &(57,),&$7,21,1&+2867217(;$6 The audit has been performed under the supervision of 0LFKDHO3RON Lead Auditor 5XG\)UXHERHV Management Representative /DFNRIIXOILOOPHQWRIFRQGLWLRQVDVVHWRXWLQWKH&HUWLILFDWLRQ$JUHHPHQWPD\UHQGHUWKLV&HUWLILFDWHLQYDOLG +($'2)),&('HW1RUVNH9HULWDV&HUWLILFDWLRQ,QF5DYHOOR'ULYH.DW\7H[DV7(/)$; on en !"#$ % & #'# ( )!* + ,"#-!. / 0* $ ) Houston Service Industries, Inc. WO33662 Factory Data Sheet Work Order ID Part ID WO33662/1 Cust Order#: Date: Ship Via: Cust PO#: Contact : CO031721 9/10/2011 MA11-971 JANICE DAILEY Release Want Date 9/10/2011 3/15/2012 Start Date WESTMUN WESTERN MUNICIPAL WATER DISTR 14205 MERIDIAN PARKWAY RIVERSIDE, CA 92518 Customer: Finish Date Qty Drawing ID/Rev 3.00 Ship To: Same FACTORY DATA (3) HSI FRAME 5 WHEEL#4 (VLD) HSTB PACKAGE- NEW SERIAL NO(1) : 0911342-33662 SERIAL NO(2) : 0911343-33662 SERIAL NO(3) : 0911344-33662 ____________________________________________ BLOWER SPECIFICATIONS ____________________________________________ FRAME SIZE : 5 ENCLOSUR TYPE: NEMA 12 CONFIGURATION: PARALLEL DIFFUSER : VANNELESS WHEEL : 4 MTR CLNG MTHD: WATER/GLYCOL MIXTURE INLET CONFIG : HSI STANDARD SILENCER POS.: POS.0 DISCH CONFIG : 14" STANDARD BOV VALVE : 6" LUGGED W/ MODULATING ACTUATOR EXP JNT/TUBE : GENERAL RUBBER 14" 1015E (DISCH) TEMP SENSOR : CONAX RTD PRES SENSOR : OMEGA 0-30 PSIA; OMEGA 0-30 PSIG PRES SWCH : OMEGA DELTA AIR FILTER : HSI 2" STANDARD FILTER INVERTER : 261AMP 460V VACON NXP LIQUID COOLED SINE FILTER : 261AMP 460V MCCB : 300AMP SIEMENS STANDARD WIRE GAUGE : DUAL 3/0 AWG CONTROLS : LOCAL STANDARD/INTERFACE PLC CNTRLS COLNG : DUAL FAN ACROSS INVERTER CABINET DIMNS: 68 7/8" x 53 1/8" x 74 4/5" PAINT COLOR : POWDER COAT GREY/GREEN LEVELING BASE: SUNNEX LEVELING FEET ____________________________________________ ADDITIONAL COMPONENTS ____________________________________________ HARMONIC FILT: (3) 240AMP 460V TCI HG7 HG200CW00CP HEAT EXCHANG : (3) EXTERNAL HSI STANDARD BOV SILENCER : (3) UNIVERSAL 6" SU5-6 W/ SCREEN & HARDWARE CHECK VALVE : (3) TECHNO 14" 5118 B/FLY VALVE : (3) BRAY 14" S30 SPOOL PIEC3 : (3) 14" DISCHARGE SPOOL PIECES ____________________________________________ COMMENTS ____________________________________________ 1) PTC-10 TEST ALL BLOWERS 2) START-UP TO INCLUDE: (1) TRIP FOR (3) 8 HOUR DAYS ON SITE + TRAVEL 3) FREIGHT TO JOBSITE INCLUDED 10/4/2011 10:37 AM Page 1 Anchorage Calculations Total= ! ! % !! &'( !! ! -.//0 01)2.// ! 3"4 "# $ $ 5& 6780 9 :+* 8 ) * + , - 7* #!# #$ Fp=4*Ca*Ip*Wp Where: Fp=Total lateral force on non structural component Ca=Seismic Coefficient from UBC 1997 Ip= Importance factor from UBC 1997 Wp= Weight of non structural component * #!#2 4 55/6!!#* Blower is analyzed about the short axis, long axis will always be acceptable if short axis is. '1203 300%%++ #$ #!# Total= ! ! ! ! ! &'( ! !% ! -.//0 01)2.// ! 3"4 "# $ 0;$$ 5& 6780 9 :+* 8 ) * + , - 7* #!# 0;$ 8 Fp=4*Ca*Ip*Wp Where: Fp=Total lateral force on non structural component Ca=Seismic Coefficient from UBC 1997 Ip= Importance factor from UBC 1997 Wp= Weight of non structural component 0;$ * #!#2 4 55/6!!#* Heat Exchangeris analyzed about the short axis, long axis will always be acceptable if short axis is. '1203 300%%++ 8 #!# ) !"#$ Customer Project 5.647304366143 (PSIG) Datasheet No. : Design Date : Quote/Job No. : Prepared By : Gas Data MW : "#$!! k : #$$ Gas '()'*+ RH: #% Cp : #& Pct # ,-./010,234 (HP) Site Data Elevation: ! ft a.s.l. 61473 034,4/3 ,/5..,/6 9-,234 Predicted Curve Data ./-38,-13 (CFM) 1. Condition 1 Model 6. Configuration ' Impeller 1 2: & Impeller 2 Impeller 3 Driver Control Method [ RPM ] ' Op. Speed Inlet Throttling [ valve/%closed ] ] &#" Bar. Pressure [ PSIA ] &#" Inlet Pressure [ PSIA [ °F ] "# Inlet Temp. ] !# Inlet Humidity [ % RH MW / k / Cp "#"#$!#&" Volume (Std.) [ SCFM@68F ] # ] &#! Volume (Inlet) [ CFM ] "# Disch. Pressure [ PSIG ] "#! Diff. Pressure [ PSI ] #" [ HP Power [% ] # Efficiency ] "#$ Disch. Temp. [ °F ] #$ Pressure Rise [ PSI ] &#$ [% Turndown ] #$ Surge Pressure [ PSIG ] $!# Surge Volume [ CFM 6.;.<$ 4)< =; !<,>> ?$&?!<?$&?!&$< ' "??$ <#: '#< @: '# Print Date: 7/27/2011 ISO 9001:2008 CERTIFIED 1.7.4 Customer Project 5.647304366143 (PSIG) Datasheet No. : Design Date : Quote/Job No. : Prepared By : Gas Data MW : "#$!! k : #$$ Gas '()'*+ RH: #% Cp : #& Pct # ,-./010,234 (HP) Site Data Elevation: ! ft a.s.l. 61473 034,4/3 ,/5..,/6 9-,234 Predicted Curve Data ./-38,-13 (CFM) 1. Curve 1 Model 6. Configuration ' Impeller 1 2: & Impeller 2 Impeller 3 Driver Control Method [ RPM ] ' Op. Speed Inlet Throttling [ valve/%closed ] ] &#" Bar. Pressure [ PSIA ] &#" Inlet Pressure [ PSIA [ °F ] # Inlet Temp. ] !# Inlet Humidity [ % RH MW / k / Cp "##$# Volume (Std.) [ SCFM@68F ] # ] &# Volume (Inlet) [ CFM ] "# Disch. Pressure [ PSIG ] "#! Diff. Pressure [ PSI ] #! [ HP Power [% ] &#& Efficiency ] #& Disch. Temp. [ °F ] #$" Pressure Rise [ PSI ] #$ [% Turndown ] #&" Surge Pressure [ PSIG ] !# Surge Volume [ CFM 6.;.<$ 4)< =; !<,>> ?$&?!<?$&?!&$< ' "??$ <#: '#< @: '# Print Date: 7/27/2011 ISO 9001:2008 CERTIFIED 1.7.4 Customer Project 5.647304366143 (PSIG) Datasheet No. : Design Date : Quote/Job No. : Prepared By : Gas Data MW : "#$!! k : #$$ Gas '()'*+ RH: #% Cp : #& Pct # ,-./010,234 (HP) Site Data Elevation: ! ft a.s.l. 61473 034,4/3 ,/5..,/6 9-,234 Predicted Curve Data ./-38,-13 (CFM) 1. Condition 1 Model 6. Configuration ' Impeller 1 2: & Impeller 2 Impeller 3 Driver Control Method [ RPM ] ' Op. Speed Inlet Throttling [ valve/%closed ] ] &#" Bar. Pressure [ PSIA ] &#" Inlet Pressure [ PSIA [ °F ] # Inlet Temp. ] !# Inlet Humidity [ % RH MW / k / Cp "#$#$"#& Volume (Std.) [ SCFM@68F ] # ] &# Volume (Inlet) [ CFM ] "# Disch. Pressure [ PSIG ] "#! Diff. Pressure [ PSI ] # [ HP Power [% ] !$# Efficiency ] # Disch. Temp. [ °F ] # Pressure Rise [ PSI ] # [% Turndown ] #! Surge Pressure [ PSIG ] "&#" Surge Volume [ CFM 6.;.<$ 4)< =; !<,>> ?$&?!<?$&?!&$< ' "??$ <#: '#< @: '# Print Date: 7/27/2011 ISO 9001:2008 CERTIFIED 1.7.4 Customer Project 5.647304366143 (PSIG) Datasheet No. : Design Date : Quote/Job No. : Prepared By : Gas Data MW : "#$!! k : #$$ Gas '()'*+ RH: #% Cp : #& Pct # ,-./010,234 (HP) Site Data Elevation: ! ft a.s.l. 61473 034,4/3 ,/5..,/6 9-,234 Predicted Curve Data ./-38,-13 (CFM) 1. Condition 1 Model 6. Configuration ' Impeller 1 2: & Impeller 2 Impeller 3 Driver Control Method [ RPM ] ' Op. Speed Inlet Throttling [ valve/%closed ] ] &#" Bar. Pressure [ PSIA ] &#" Inlet Pressure [ PSIA [ °F ] "# Inlet Temp. ] !# Inlet Humidity [ % RH MW / k / Cp "#"#$!#&" Volume (Std.) [ SCFM@68F ] # ] &&# Volume (Inlet) [ CFM ] "# Disch. Pressure [ PSIG ] "#! Diff. Pressure [ PSI ] # [ HP Power [% ] !$#! Efficiency ] ""#& Disch. Temp. [ °F ] #$ Pressure Rise [ PSI ] #" [% Turndown ] #$ Surge Pressure [ PSIG ] $# Surge Volume [ CFM 6.;.<$ 4)< =; !<,>> ?$&?!<?$&?!&$< ' "??$ <#: '#< @: '# Print Date: 7/27/2011 ISO 9001:2008 CERTIFIED 1.7.4 Customer Project 5.647304366143 (PSIG) Datasheet No. : Design Date : Quote/Job No. : Prepared By : Gas Data MW : "#$!! k : #$$ Gas '()'*+ RH: #% Cp : #& Pct # ,-./010,234 (HP) Site Data Elevation: ! ft a.s.l. 61473 034,4/3 ,/5..,/6 9-,234 Predicted Curve Data ./-38,-13 (CFM) 1. Condition 1 Model 6. Configuration ' Impeller 1 2: & Impeller 2 Impeller 3 Driver Control Method [ RPM ] ' Op. Speed Inlet Throttling [ valve/%closed ] ] &#" Bar. Pressure [ PSIA ] &#" Inlet Pressure [ PSIA [ °F ] # Inlet Temp. ] !# Inlet Humidity [ % RH MW / k / Cp "##$# Volume (Std.) [ SCFM@68F ] # ] "# Volume (Inlet) [ CFM ] "# Disch. Pressure [ PSIG ] "#! Diff. Pressure [ PSI ] # [ HP Power [% ] #!" Efficiency ] !#& Disch. Temp. [ °F ] #$" Pressure Rise [ PSI ] #$ [% Turndown ] #&" Surge Pressure [ PSIG ] # Surge Volume [ CFM 6.;.<$ 4)< =; !<,>> ?$&?!<?$&?!&$< ' "??$ <#: '#< @: '# Print Date: 7/27/2011 ISO 9001:2008 CERTIFIED 1.7.4 Customer Project 5.647304366143 (PSIG) Datasheet No. : Design Date : Quote/Job No. : Prepared By : Gas Data MW : "#$!! k : #$$ Gas '()'*+ RH: #% Cp : #& Pct # ,-./010,234 (HP) Site Data Elevation: ! ft a.s.l. 61473 034,4/3 ,/5..,/6 9-,234 Predicted Curve Data ./-38,-13 (CFM) 1. Condition 1 Model 6. Configuration ' Impeller 1 2: & Impeller 2 Impeller 3 Driver Control Method [ RPM ] ' Op. Speed Inlet Throttling [ valve/%closed ] ] &#" Bar. Pressure [ PSIA ] &#" Inlet Pressure [ PSIA [ °F ] # Inlet Temp. ] !# Inlet Humidity [ % RH MW / k / Cp "#$#$"#& Volume (Std.) [ SCFM@68F ] # ] ""#" Volume (Inlet) [ CFM ] "# Disch. Pressure [ PSIG ] "#! Diff. Pressure [ PSI ] # [ HP Power [% ] #& Efficiency ] $#& Disch. Temp. [ °F ] # Pressure Rise [ PSI ] &# [% Turndown ] #! Surge Pressure [ PSIG ] "# Surge Volume [ CFM 6.;.<$ 4)< =; !<,>> ?$&?!<?$&?!&$< ' "??$ <#: '#< @: '# Print Date: 7/27/2011 ISO 9001:2008 CERTIFIED 1.7.4 Customer Project 5.647304366143 (PSIG) Datasheet No. : Design Date : Quote/Job No. : Prepared By : Gas Data MW : "#$!! k : #$$ Gas '()'*+ RH: #% Cp : #& Pct # ,-./010,234 (HP) Site Data Elevation: ! ft a.s.l. 61473 034,4/3 ,/5..,/6 9-,234 Predicted Curve Data ./-38,-13 (CFM) 1. Condition 1 Model 6. Configuration ' Impeller 1 2: & Impeller 2 Impeller 3 Driver Control Method [ RPM ] ' Op. Speed Inlet Throttling [ valve/%closed ] ] &#" Bar. Pressure [ PSIA ] &#" Inlet Pressure [ PSIA [ °F ] "# Inlet Temp. ] !# Inlet Humidity [ % RH MW / k / Cp "#"#$!#&" Volume (Std.) [ SCFM@68F ] # ] "&# Volume (Inlet) [ CFM ] "# Disch. Pressure [ PSIG ] "#! Diff. Pressure [ PSI ] #$ [ HP Power [% ] #& Efficiency ] "&# Disch. Temp. [ °F ] #$ Pressure Rise [ PSI ] "#" [% Turndown ] #$ Surge Pressure [ PSIG ] $&!# Surge Volume [ CFM 6.;.<$ 4)< =; !<,>> ?$&?!<?$&?!&$< ' "??$ <#: '#< @: '# Print Date: 7/27/2011 ISO 9001:2008 CERTIFIED 1.7.4 Customer Project 5.647304366143 (PSIG) Datasheet No. : Design Date : Quote/Job No. : Prepared By : Gas Data MW : "#$!! k : #$$ Gas '()'*+ RH: #% Cp : #& Pct # ,-./010,234 (HP) Site Data Elevation: ! ft a.s.l. 61473 034,4/3 ,/5..,/6 9-,234 Predicted Curve Data ./-38,-13 (CFM) 1. Condition 1 Model 6. Configuration ' Impeller 1 2: & Impeller 2 Impeller 3 Driver Control Method [ RPM ] ' Op. Speed Inlet Throttling [ valve/%closed ] ] &#" Bar. Pressure [ PSIA ] &#" Inlet Pressure [ PSIA [ °F ] # Inlet Temp. ] !# Inlet Humidity [ % RH MW / k / Cp "##$# Volume (Std.) [ SCFM@68F ] # ] !# Volume (Inlet) [ CFM ] "# Disch. Pressure [ PSIG ] "#! Diff. Pressure [ PSI ] &#" [ HP Power [% ] # Efficiency ] #"" Disch. Temp. [ °F ] #$" Pressure Rise [ PSI ] &# [% Turndown ] #&" Surge Pressure [ PSIG ] $# Surge Volume [ CFM 6.;.<$ 4)< =; !<,>> ?$&?!<?$&?!&$< ' "??$ <#: '#< @: '# Print Date: 7/27/2011 ISO 9001:2008 CERTIFIED 1.7.4 Customer Project 5.647304366143 (PSIG) Datasheet No. : Design Date : Quote/Job No. : Prepared By : Gas Data MW : "#$!! k : #$$ Gas '()'*+ RH: #% Cp : #& Pct # ,-./010,234 (HP) Site Data Elevation: ! ft a.s.l. 61473 034,4/3 ,/5..,/6 9-,234 Predicted Curve Data ./-38,-13 (CFM) 1. Condition 1 Model 6. Configuration ' Impeller 1 2: & Impeller 2 Impeller 3 Driver Control Method [ RPM ] ' Op. Speed Inlet Throttling [ valve/%closed ] ] &#" Bar. Pressure [ PSIA ] &#" Inlet Pressure [ PSIA [ °F ] # Inlet Temp. ] !# Inlet Humidity [ % RH MW / k / Cp "#$#$"#& Volume (Std.) [ SCFM@68F ] # ] !#$ Volume (Inlet) [ CFM ] "# Disch. Pressure [ PSIG ] "#! Diff. Pressure [ PSI ] &#" [ HP Power [% ] #! Efficiency ] #" Disch. Temp. [ °F ] # Pressure Rise [ PSI ] &# [% Turndown ] #! Surge Pressure [ PSIG ] "!&# Surge Volume [ CFM 6.;.<$ 4)< =; !<,>> ?$&?!<?$&?!&$< ' "??$ <#: '#< @: '# Print Date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arranty shall be void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ouston Service Industries, Inc. ● 7901 Hansen, Houston, Texas 77061 ● Office: 713-947-1623 ● Fax: 713-947-6409 ● Toll Free: 800-725-2291 ● www.hsiblowers.com 4 QDGS.E331765 - Compressors, Vacuum Pumps and Pneumatic Paint Sprayers http://database.ul.com/cgi-bin/XYV/template/LISEXT/1FRAME/showpag... QDGS.E331765 Compressors, Vacuum Pumps and Pneumatic Paint Sprayers Page Bottom Compressors, Vacuum Pumps and Pneumatic Paint Sprayers See General Information for Compressors, Vacuum Pumps and Pneumatic Paint Sprayers HOUSTON SERVICE INDUSTRIES INC E331765 7901 HANSEN RD HOUSTON, TX 77061-3428 USA Industrial Blowers, Models Frame 4, Frame 5. Last Updated on 2011-08-12 Questions? Print this page Notice of Disclaimer Page Top Copyright © 2011 Underwriters Laboratories Inc.® The appearance of a company's name or product in this database does not in itself assure that products so identified have been manufactured under UL's Follow-Up Service. Only those products bearing the UL Mark should be considered to be Listed and covered under UL's Follow-Up Service. Always look for the Mark on the product. UL permits the reproduction of the material contained in the Online Certification Directory subject to the following conditions: 1. The Guide Information, Designs and/or Listings (files) must be presented in their entirety and in a non-misleading manner, without any manipulation of the data (or drawings). 2. The statement "Reprinted from the Online Certifications Directory with permission from Underwriters Laboratories Inc." must appear adjacent to the extracted material. In addition, the reprinted material must include a copyright notice in the following format: "Copyright © 2011 Underwriters Laboratories Inc.®" 1 of 1 8/17/2011 1:34 PM HSIBLOWERPERFORMANCETESTPROCEDURE TestSummary ThetestprocedureusedisinfullcompliancewithASMEPTC10standards.Thetestfitsunder thecategoryofanopenloopType2test.Handheldinstrumentsareusedtorecorddataduring thetest(whenapplicable).Dataacquisitionsoftwareisusedtoacquiremultiplevariablesduring theperformancetest.RawdatasamplescanbefoundinSectionV.Afterdumpingtherawdata intoacalculationspreadsheet,rigorouscalculationsareimplementedtoproducethetrue predictedperformance.Conditionsattheprojectsiteareincludedtosimulateonsiteblower performance. Atotalof36datapointsaretakenduringtheperformancetest.Thepointsarespreadacrosssix differentoperatingspeedswithsixpointsateachspeed.Thetestisperformedonaconstant speedwithvaryingpressurebasis.Pressurevariationisachievedbythrottlingthedischarge piping.Theflowiscalculatedbymeasuringpressuredifferentialacrossanorificeatthe discharge.AllflowandpressurecalculationsareperformedinaccordancewithASMEPTC10. MoreinformationonthetestconfigurationcanbeseenintheAppendix. Attheconclusionoftheperformancetest,flowandpowerparametersaregeneratedand uploadedtotheblower’sPLC.Surgeandmaxflowprotectionparametersarealsouploaded.The blower’suniqueperformancecurveisgeneratedintoanimageandoverlaidwithadynamicscan pointandthenuploadedtotheHMI.Thebloweristhentestedagaintocheckflowvalues,scan pointperformance,andsurge/maxflowprotection.Beforetheblowerleavestheteststand,all settingsarerestoredforonsiteuse. Assumptions 1. Compressionaircomponentsareconsideredseparatewithpowerinputdividedequallyandthe finaltranslatedflowiscombinedfortotalflow. 2. Airmaybetreatedasanidealgas. 3. Thegasdoesnotbecomesaturatedatanytimeandnoprecipitationoccurs. 4. PTC10doesnotaddressthetranslationofelectricalefficiencies.Forrelativelyconstantloading atthesamespeed,electricalefficienciesremainconstant.Sincethetranslationsforanygiven pointarewithinsevenpercentofthetestpointpowerataconstantspeed,theelectrical efficienciesareassumedequal. 5. Gaspropertiesarecalculatedthesameforbothairendsides. 6. Alldimensiondependentcoefficientsarecalculatedseparatelywithpowerandmassflow dividedbetweenthetwoseparateairendsides. 7. Specificheatatdischargeisestimatedbasedonthedischargetemperatureofthetestcondition, asallowedbyPTC10.8.Theflowcalculatedfromsettingtheflowcoefficientattestand specifiedconditions(ICFM)equal,isthendirectlyconvertedtoSCFMusingratioofdensities. 7901 Hansen Road, Houston TX 77061 • Tel: 713-947-1623 • Fax: 713-947-6409 • www.hsiblowers.com VII. Appendix Innovation InnovationService Service Experience Experience < & . Test Configuration < 3:7' = &# 2> www.hsiblowers.com ?# <= $ Innovation InnovationService Service Experience Experience 3* ' Verifying y g Performance Automated Data Collection www.hsiblowers.com 4.+"( <= 2 '9! HSI 10 Year and 24 Hour Parts Guarantee* HSI, Inc guarantees to ship any standard parts required for emergency breakdown of repairs on all HSI HT-Series Blowers within one working day of receipt of order, or the parts are free of charge to the customer. HSI, Inc. further guarantees replacement and repair parts for HSI HT Series Blowers will be available for a minimum of 20 years from the original date of purchase. All HSI HT-Series Blowers must be of standard configuration in order to qualify and must be noted as such on the original factory data sheet. Orders requiring 24 hour shipment must be acknowledge in writing as an emergency parts shipment in order to qualify. *Complete compressor assemblies may take a few days to assemble and test before a complete unit ships. ! " @= 3 3'" " 2 0"4 ) 0"4 ! 4 - "A 0"4 40"4 2A0"4 2 A2 x : 59 5!92 A A * x 0"4 * A Houston Service Industries, Inc. ● 7901 Hansen, Houston, Texas 77061 ● Office: 713-947-1623 ● Fax: 713-947-6409 ● Toll Free: 800-725-2291 ● www.hsiblowers.com 7 HighSpeedTurboMotorSpecifications ThemotorisaHSIproprietarydesignandanintegralpartoftheblower(AirEnd).The AirEnddoesnotrequiremaintenanceundernormalconditions,andserviceshouldbecarried outbyHSIoritsauthorizedagentsonly.Thefollowingpageyouwillfindtypicalmotordatafor theblower.AnyotherinformationisproprietarytoHSI.HSIwillprovideactualperformance datasuchaspowerconsumption,blowerefficiency,andflowrateaftertheequipmentisbuilt andtestedforeach. 0@A0:B%C:D!''%!C&$D!''%C HSI MOTOR PERFORMANCE DATA SHEET (FRAME 5 – 200 HP – 450 HERTZ) GENERAL HSI HSTB FRAME SIZE MOTOR TYPE HORSEPOWER VOLTAGE RATED FREQUENCY NUMBER OF PHASES 5 Permanent Magnet AC Synchronous 200 575V Line to Line 450 3 RATED CURRENT AMBIENT TEMPERATURE DUTY CYCLE SERVICE FACTOR INSULATION RATING NUMBER OF POLES 167 AMPS 40°C Continuous 1.15 Class H 2 PERFORMANCE LOAD HORSEPOWER AMPERES RPM POWER FACTOR EFFICIENCY NO LOAD 0 33 27,000 0.05 0% 1/4 50 50 27,000 0.82 96.3% 2/4 100 86 27,000 0.94 98.0% 3/4 150 126 27,000 0.97 98.5% FULL LOAD 200 167 27,000 0.97 98.7% 5/4 250 210 27,000 0.97 98.8% SPEED-TORQUE PARAMETER AMPERES RPM TORQUE % FULL LOAD LOCKED ROTOR 610 0 118.2 ft-lb 300 BREAKDOWN 610 0 118.2 ft-lb 300 FULL LOAD 209 27,000 39.4 ft-lb 100 #$ H I G H S P E E D T U R B O Innovation | Service | Experience B L O W E R S INNOVATION IN ACTION Introducing HSI High Speed Turbo bo Blowers and Exhausters What if a blower could . . . • Operate 20-40% more energy efficiently iently than conventional machines? • Require NO lubrication? • Require NO maintenance besides inlet filter changes? • Achieve sound levels below 85 dBA A and operate with virtually no vibration? n? • Have a simple, yet rugged design? • Be environmentally friendly? What if you found this blower with th the u know local service and support that you and trust? With 25 years of experience in the market, ket, HSI is the industry leader in technology by providing tomorrow’s row’s innovations today with our high speed turbo product. The HT product line currently has over 45 performance configurations ranging from 5 hp to 300 hp (1 to 250kW) and more under development. evelopment. velopment. HSI is the only air bearing turbo manufacturer in North Noorth America with design, engineering, manufacturing, and testing at our state-ofthe-art facility in Houston, Texas USA. These revolutionary blower designs incorporate air bearings supported on a single shaft with integrated variable frequency drive, control system and motor. These are all pre-packaged and prewired in a single enclosure for simple installation and application. Flow ranges from 10 to 10,000 SCFM (15 to 15,000 nm3/hr) and pressures to 25 psi (1.7 bar) through the range of operation. DESCRIPTION AND SPECIFICATIONS P O W E R S AV I N G The HSI Turbo Blower is 20–40% more efficient than conventional blower technologies offering payback on investments in 2 to 3 years from energy savings alone. LO W M A I N T E N A N C E NO lubrication, NO alignment and NO scheduled maintenance outside of routine inlet filter changes. This can save you time and money as compared to blower technologies requiring lubrication. NOISE Each standard package is fully enclosed and does not exceed 85 dBA per OSHA standards. I N S TA L L AT I O N A compact blower design allows considerable space savings. No special foundation support required and the lightweight design offers easy access without the requirement of large overhead cranes. CO N T R O L Completely integrated controls are pre-engineered as a working system and can be upgraded to communicate with any known protocol for remote operation and monitoring. Shown above: State-of-the-Art blower test stand and customer viewing area What is Your TRUE Cost of Ownership? What does efficiency and payback really mean? “Wire to Air Efficiency” is the total cost of power to produce the performance you require. At HSI, we believe efficiency is only what a manufacturer can guarantee; and further what a manufacturer can verify with actual test results. Whether it be on our own ASME PTC-10 Compliant Performance Testing Facility or at your location, HSI is ready to show you real results. A true total cost of ownership includes power consumption, maintenance, and initial capital costs. Power Consumption Service Maintenance Capital Cost Let us offer a 20 year life cycle analysis on your next project. I N T E G R AT I O N With three different control modes as standard, this blower can seamlessly operate in parallel with other types of blowers. CO M P L E T E PAC K AG E Compressor, motor, variable speed motor starter, pressure relief valve, expansion joint, and control cabinet built in one complete pre-engineered system. Just add electricity and piping. SERVICE Simple modular design offers complete replacement parts to be accessed without special tools or training. All in stock and readily available from our factory in Houston, Texas USA. Impeller Motor/Frame Highly advanced computation fluid dynamic programming allows for performance design to truly offer an advancement in efficiency. • Highly efficient and reliable motor design • Specifically designed for high speed service • Designed for high heat environments • Air or Liquid cooled Each impeller vane configuration is matched with it’s own specific volute to optimize aerodynamic efficiency. Matching the specific speed with the diameter of the wheel assures the best aerodynamic efficiency possible. HSI’s design team has more than 20 years of experience allowing for custom designed impellers to reach maximum efficiencies possible for any application. Double suction symmetrical structure • Impellers at both ends of a common shaft counterbalance thrust load in the axial direction (axial load≈0) • Superior stability and durability • Improved efficiency over single impeller designs • Reduction of local stress or twisting Principle of Air Bearing Technology Bearings Air Bearings • Individually layered bearings are assembled in the housing to support the shaft • As the shaft rotates at high speed, an air film is formed between the shaft and the bearings which achieves friction free floating without the use of lubricants • No additional cooling required • Suitable for high speed; bearing load capability increases with higher RPM. Superior durability • Little or no wear after 35,000 continuous on/off cycles • Possible to operate under extreme environment (max. 250°C) • Little to no vibration or noise Enclosure and Control Variable Frequency Drive • Highly efficient design with minimal heat loss • Specifically tuned to match high speed motor and provide the best efficiency over the entire speed range. • Stable performance throughout the range of operation • Lowest inrush current of any motor starter • Unlimited starts and stops • Liquid Cooled option for superior performance Programmable Logic Controller (PLC) • Integrated with VFD starter • Complete system monitoring • Simple touch screen HMI interface • Protective cover • Control modes include constant pressure mode, quantitative mode, and proportional mode Enclosure • UL/ULC/CSA certified electrical enclosure • Self ventilating design • Easy change inlet air filter • Instant access to every component • Compact low footprint • Built in automated pressure relief valve for surge protection with enclosure mounted silencer. Constant Pressure Mode RPG 100 % • Pressure: fixed • Flow: variable Quantitative Mode • Pressure: variable • Flow: fixed 20% Pressure Blow Off Valve (BOV) 30% 40% 50 % Proportional Mode • Pressure: variable • Flow: variable Flow Consult HSI for Series Configurations to 25 PSIG/1.7 Bar Blower Model Impeller Configuration HP Range KW Range Type of Motor Frame 1 Single 5/10 HP 3/8 KW Induction Frame 2 Single/Dual 20/30/40/50 HP 15/22/30/37 KW Induction / Permanent Magnet Frame 3 Single/Dual 75/100/125 HP 56/75/93 KW Induction / Permanent Magnet Frame 4 Dual 125/150/200 HP 93/112/150 KW Permanent Magnet Frame 5 Dual 150/200/250/300 HP 112/150/186/225 KW Permanent Magnet Custom enclosures available including: Separate blower and control cabinets. Outdoor enclosure modifications. Common Applications Water and Wastewater General Industrial Power Industry Petroleum & Chemical Basin aeration Air scouring Filter backwash systems Grit chamber aeration Lagoon aeration Wastewater treatment SBR MBR Pneumatic conveying Blow off systems Fermentation Galvanization process Printing systems Pulp and paper industry Carbon black Steel plating Black liquor recovery Air knife drying Flue gas Desulphurization Oxidation air Coal gasification Fluidized bed Sulphur recovery Thermal oxidation Specications TECHNICAL DATA Configuration Number of impellers Pressure range Flow range Outlet connection Inlet filtration Pressure relief valve Operating speed Casing pressure Seals (air) Bearings Lubrication Drive type Rotor balance Enclosure/electrical Electrical code Motor voltage Motor HP/KW rating Motor 1 or 2 impellers (single, in series or in parallel) 2 To 25 PSIG (.13 to 1.7 bar) 10 to 10,000 SCFM (15 to 15,000 nm3/hr) Flanged ASA 125# / ANSI 150# drilling Flanged inlet connection for external filter or Integral filter which is a 10 micron felted synthetic material that is washable Electric actuated pressure relief valve and integral silencer included in standard package. No external power supply required 8,000 RPM to 75,000 RPM (sub critical operation) 50 PSIG maximum Self contained Air foil – Non contact, Non wearing, Dynamic fluid film – Utilizing air (leaf or journal type) None required Self contained motor with impeller(s) coupled directly to the shaft ISO 1940 G 2.5. Individual impellers and rotating assembly dynamically balanced NEMA 12 (standard), NEMA 4/3R and outdoor upgrades available Electrical cabinet and all electrical components UL/ULC/CSA listed. HSI is a UL 508A certified panel shop 380/440/480/575 volt, 50 or 60 Hz-3 phase input power. Internal control voltage transformer Motor starter VFD type Noise level Control UV protective cover Network connections Cooling system 5 to 300 hp (1 to 250kW) High efficiency permanent magnet or induction type motor Inverter type – variable frequency drive High efficiency 6 pulse drive standard with operating range to 1250 hz operation (optional harmonic filters available) Under 85 dBA per OSHA standards Programmable logic controller with touch screen human machine interface (standard) Included to protect touch screen interface Ethernet, RS232, or DH485 as standard. Optional connections to communicate with any protocol available Internally self cooled by inlet air or external cooling options available to capture heat to supplement HVAC or water heating. MATERIALS OF CONSTRUCTION Blower housing Aluminum Impellers Aluminum Air bearings Teflon® coated Inconel® Blower enclosure 16 gauge sheet metal with synthetic wool sound dampening material Blower enclosure skid Heavy duty steel I-beam construction with forklift access ports and top bounded lifting eyes Enclosure finish Powder coated with 2 coat epoxy paint standard H I G H S PE E D T U R B O B LOW E R S 7901 Hansen Additional Products Houston, Texas 77061 713-947-1623 Multistage Centrifugal Blowers 1-800-725-2291 713-947-6409 Fax Blower Control Systems www.hsiblowers.com sales@hsiblowers.com 8 E-SL-025, Rev. 03 2-02-11 photo Aftermarket Services '$ Technical Information Sheet NUMBER: PFG678S9 NAME: Type: Agricultural Green TGIC-Polyester Alesta Group Code: POWDER PROPERTIES ASTM D5965-96, C ASTM D3451-92, 13 Specific Gravity Theoretical Coverage Mass Loss During Cure Recommended Shelf Life: 1.31 ± 0.05 147 ft 2 /lb/mil < 1% 12 Months @ 75 °F COATING PROPERTIES ASTM D523-89 Gloss at 60° 90+ DPC TM 10.219 PCI Powder Smoothness Overbake Resistance, Time Pencil Hardness 7 100% 2H Dir / Rev Impact, Gardner Adhesion, Cross Hatch (minimu Flexibility, Mandrel 60 / 20 in/lbs 5B Pass 1/8 in. dia., no fracture Salt Spray Steel Enclosures, Elect. Eq. 1,000 hrs Recognized ASTM D2454-95 ASTM D3363-92a ASTM D2794-93 ASTM D3359-97 ASTM D522-93a ASTM B117-97 UL DTOV2 Organic Coating APPLICATION CURE SCHEDULE: Electrostatic Spray, Cold Substrate: 0.032 in. CRS Pretreatment: Bonderite® 1000, Parcolene® 60 (Time at substrate temperature) 10 Minutes @ 400°F FILM THICKNESS: 2.0-3.0 Mils This coating is designed with extended exterior durability. When compared under similar outdoor conditions to standard grade powder coatings of similar color, gloss, and specific gravity, it will retain original appearance for a longer period. Prepared 5/16/2008 9800 Genard Rd. Houston, TX 77041-7624 4130 Lyman Ct. Hilliard, OH 43026-1213 1-800-247-3886 1-800-667-9610 fax: 713-939-4027 fax: 614-771-4139 WARRANTY POLICY: Seller certifies that all coatings delivered to Customer in unopened factory filled containers meet all pertinent quality standards presented in its current published literature. Since matters of surface preparation, application procedures, curing procedures and other local factors that affect coating performance are beyond Seller’s control, Seller assumes no liability for coating failure other than to supply replacement material for a coating material proven to be defective. Customer will determine suitability of this product for its use and thereby assume all risks and liabilities in connection therewith. Seller will not be liable for any injuries, damages or other losses derived, directly or indirectly, from or as a consequence of Customer's use of the product. SELLER DISCLAIMS ALL OTHER WARRANTIES, EXPRESS OR IMPLIED, RELATING TO ITS PRODUCTS AND THEIR APPLICATION, INCLUDING BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY AND FITNESS FOR PARTICULAR PURPOSES. Alesta® is a registered trademark of E.I. du Pont de Nemours and Company for its brand of Powder Coatings. Only DuPont makes Alesta®. 12 Technical Information Sheet NUMBER: RFH692R8 NAME: Type: Mod Gray Texture August 8, 2000 Epoxy-Polyester Hybrid Alesta Group Code: POWDER PROPERTIES ASTM D5965-96, C ASTM D3451-92, 13 Specific Gravity Theoretical Coverage Mass Loss During Cure Recommended Shelf Life: 1.65 ± 0.05 117 ft 2 /lb/mil < 1% 12 Months @ 75 °F COATING PROPERTIES ASTM D523-89 Gloss at 60° Visual DPC TM 10.219 PCI Powder Smoothness Overbake Resistance, Time Pencil Hardness n/a 100% 2H ASTM D522-93a Dir / Rev Impact, Gardner Adhesion, Cross Hatch (minimu Flexibility, Mandrel 160 / 160 in/lbs 5B Pass 1/8 in. dia., no fracture ASTM B117-97 Salt Spray 1,000 hrs ASTM D2454-95 ASTM D3363-92a ASTM D2794-93 ASTM D3359-97 APPLICATION CURE SCHEDULE: Electrostatic Spray, Cold Substrate: 0.032 in. CRS Pretreatment: Bonderite® 1000, Parcolene® 60 (Time at substrate temperature) 10 Minutes @ 400°F FILM THICKNESS: 2.5-3.5 Mils Prepared 7/23/2008 9800 Genard Rd. Houston, TX 77041-7624 4130 Lyman Ct. Hilliard, OH 43026-1213 1-800-247-3886 1-800-667-9610 fax: 713-939-4027 fax: 614-771-4139 WARRANTY POLICY: Seller certifies that all coatings delivered to Customer in unopened factory filled containers meet all pertinent quality standards presented in its current published literature. Since matters of surface preparation, application procedures, curing procedures and other local factors that affect coating performance are beyond Seller’s control, Seller assumes no liability for coating failure other than to supply replacement material for a coating material proven to be defective. Customer will determine suitability of this product for its use and thereby assume all risks and liabilities in connection therewith. Seller will not be liable for any injuries, damages or other losses derived, directly or indirectly, from or as a consequence of Customer's use of the product. SELLER DISCLAIMS ALL OTHER WARRANTIES, EXPRESS OR IMPLIED, RELATING TO ITS PRODUCTS AND THEIR APPLICATION, INCLUDING BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY AND FITNESS FOR PARTICULAR PURPOSES. Alesta® is a registered trademark of E.I. du Pont de Nemours and Company for its brand of Powder Coatings. Only DuPont makes Alesta®. 13 TECHNICAL DATA SOLUCOAT OC Here in one convenient package . . . is a liquid amorphous phosphate prepaint preparation specially formulated to save fuel and cut processing costs by treating mixed runs of metal at low temperatures. SOLUCOAT OC does it easily. This liquid, 3-stage spray applied material simultaneously cleans and conversion coats mixed production runs of steel, aluminum and galvanized steel. And SOLUCOAT OC performs with excellent results in the energy efficient temperature range of from 21o to 49oC (120o to 130oF) (do not operate over 170°F). Compared with the 60oC (140oF) temperature usually required in the prepaint phosphate treatment of metals, it's no wonder that using SOLUCOAT OC can lower your fuel bill substantially. Moreover, you also cut material costs, wastage and man-hours because you're cleaning and phosphating mixed runs of metal in one line - at one time. EXCELLENT CLEANING AND COATING AT ENERGY-SAVING TEMPERATURES SOLUCOAT OC combines powerful cleaning agents with soil-seeking detergents. Together, they quickly penetrate and easily remove normal fabricating soils - including most oils. In this way, the material provides the excellent cleaning so essential to the proper preparation of metal surfaces prior to painting with the new water-borne coatings. And because SOLUCOAT OC is a low-foaming formulation, it can be spray applied at low temperatures without a defoamant. In the same application, the prepaint preparation develops a uniform, continuous conversion coating with a minimum weight of 30 - 50 mg/ft2. This amorphous coating guards the treated metal surfaces against corrosion and improves the adhesion of any finish subsequently applied by electrocoating, powder coating, spray or dip. Most important, the material cleans and conditions mixed runs of metal at temperatures as low as 21oC (71oF). SOLUCOAT OC meets or exceeds Federal and Military specifications as follows: TT-C-490B, Type II and MIL-C-46487, Type I and II (5 stages mandatory). QUALITY THAT STANDS OUT SOLUCOAT OC is ideal for the manufacturer who wants to develop a quality phosphate coating at a money- and energy-savings low temperature. The tight paint bond provided by this coating allows development of a finish that not only lasts longer but looks better. Thus, SOLUCOAT OC enhances the well deserved reputation of Working Solutions' entire line of phosphate treatment materials for developing longer-lasting, better looking finishes. These finishes make SOLUCOAT OC the preferred quality prepaint phosphating process. 14 TECHNICAL DATA SOLUCOAT OC, Page 2 OTHER BENEFITS OF SOLUCOAT OC • • • • Provides long solution lide with little or no sludging Furnishes solutions with good tolerances for hard water, high tolerance for soil build up Promotes working efficiency by keeping down heat and humidity in summer Is easily monitored and automatically metered through equipment available from Working Solutions. APPLICATION OF SOLUCOAT OC For normal cleaning / conditioning with the phosphating material, a smiple 3 – stage procedure is followed in the spray-washer or vat. The normal working temperature is 70 – 120 0 F. The pH at working concentrations ranges from 4.0 to 5.0 with an optimum of 4.5. For increased corrosion resistance and paint adhesion a final seal such as the Solucoat 5038 or Solucoat NC Seal should be added tot he final stage of your process. EQUIPMENT NOTE Stainless steel 316 / 304 holding tanks and heating coils are preferred but mild steel or black iron equipment may be used. As your Working Solutions Technical Sales Representative for specific recommendations. FOR FURTHER DETAILS CONSULT MATERIAL SAFETY DATA SHEET. The information contained in this bulletin is, to our best knowledge, true and accurate, but all recommendations or suggestions are made without guarantee, since the conditions of use are beyond our control. Working Solutions, Inc. makes no express or implied warranties in these data or suggestions including no implied warranties of merchantability or fitness for a particular purpose and disclaims any liability incurred in connection with their use. 15 # SPECIFICATIONS: 30.00 FRONT VIEW (UP-STREAM) 31.50 4 1. ALL DIMENSIONS ARE IN INCHES UNLESS OTHERWISE SPECIFIED NOTE: 1. ENDUSTRA PANAL FILTER ELEMENT 2. GALVANIZED STEEL FRAME 3. ENDURALAST HI-FLOW SYNTHETIC MEDIUM 98% EFFICIENT @ 10-MICRON (NOM) A 4. POTTED ON ALL 4 SIDES 5. 6800SCFM @ 0.2'' WG MAX INITIAL; NOT TO EXCEED 10'' WG 6.FRONT AND BACK GALVANIZED FLATTENED EXPANDED METAL SCREENS 7. PLEAT SEPARATING GLUE BEADS ON THE UP SIDE 8. INCLUDES .75 WIDE X .25 THICK FULL-FACE NEOPRENE GASKET ON BOTH SIDES B C D 4 3 3 THIRD ANGLE PROJECTION DIMENSION TOLERANCE (INCH): .XX C.010, .XXX C.005 DIMENSION TOLERANCE (MILLIMETER): .X C.30, .XX C.13 ANGLE: X C1a, .X C.5a MACHINED SURFACE ROUGHNESS: 63 MICROINCHES, 1.6 MICROMETERS DIMENSIONING AND TOLERANCE PER ANSI Y14.5M - 1994 SIDE VIEW 2.00 2.50 PSC JG APPROVED BY: 2 JH CHECKED BY: DRAWN BY: 30.75 REVISION HISTORY DESCRIPTION INITIAL RELEASE PER ECR: 1376 HSI FRAME 5 SERIES 2 IN. THK. FILTER 31.50 DATE 6/16/2011 6/16/2011 SIZE PART NO. 6/16/2011 C 31500060130 6/16/2011 ECR: 1376 DO NOT SCALE DRAWING SHEET: 1 OF 1 TITLE HSI Blowers 1 7901 HANSEN, HOUSTON, TX 77061 REAR VIEW (DOWN STREAM) REV 0 SEE SPECIFICATIONS MATERIAL: 2 1 0 REV. BY JH A B C D 8: Maxi-Joint Wide Arch Expansion Joints ® 1015 Style Features: • • • • • • • • • • • • • • • • • • • Wide Flowing Arch Design Exceptional All Directional Movement Capability Virtually Eliminates Sediment Buildup Higher Pressure Rating than Conventional Expansion Joints Excellent Chemical and Abrasion Resistance Full Vacuum Rating (30" Hg) in All Sizes 250ºF Continuous Service Standard, 400ºF Available Filled Arch Design Available Economical Fully Molded Construction Standard Face to Face Dimensions with ANSI 125/150 lb. Drilling Hot Dipped Galvanized Retaining Rings Standard Wide Variety of Tube and Cover Elastomers Available, Including Pure Gum Rubber, EPDM, Neoprene, Butyl, Nitrile, Hypalon®, Viton®, Food Grade, and More Absorbs Noise, Vibration and Shock Compensates for Minor Misalignment and Offset Low Stiffness and Deflection Forces Integrally Flanged Design, No Gaskets Required Large Inventory Means Quick Shipments Simple to Install, Lightweight and High Strength Provides Easy Access to Piping and Equipment Control Unit TH 4 Notes: 1.) All parts listed are designed for 30" Hg (full vacuum) and have a maximum test at 26" Hg due to facility altitude and equipment limitations. 2.) Maximum operating temperature of 250ºF for EPDM, Butyl, Hypalon®, and Viton®; 225ºF for Neoprene; 210ºF for Nitrile; 180ºF for Pure Gum Rubber; 300ºF for EPDM and Butyl in air service at 25 PSI maximum; higher pressure and temperature ratings available. 3.) All sizes can be supplied with a filled arch reducing their movements by 50% and increasing the spring rates fourfold. 4.) For full product specifications and installation instructions, see SPEC 1015-1 and ININ 1015-1. Gross weights include retaining rings. 5.) WARNING: Control units (sold separately) must be used when piping is not properly anchored. Number of rods are dependent upon maximum field test pressures. Expansion joints may operate in pipelines carrying fluids at elevated temperatures and pressures, so precaution should be taken to ensure proper installation and regular inspection. Care is required to protect personnel in the event of leakage or splash. Adequate floor drains are always recommended. 6.) Movements are non-concurrent. Contact General Rubber for concurrent movements, and for sizes not shown up to 144" I.D. 7.) Retaining rings are typically “L” shaped and can be flat depending on internal reinforcements. 8.) Standard 125/150 lb. drilling includes, 1"-24" with ANSI B16.1 Class 125 lb./B16.5 Class 150 lb., 30"-60" with ANSI B16.1 Class 125 lb./ B16.47 series A, Class 150 lb., 72"-108" with ANSI B16.1 Class 125 lb./ AWWA C207 Class B. Toll Free: 800-233-6294 Web: www.general-rubber.com (See Note 5) Hot Dipped Galvanized Retaining Rings O.D. 1/4" Minimum Thickness Leakproof Elastomer Tube I.D. general rubber corporation F/F Multiple Layers of Tire Cord Reinforcement Fax: 201-641-4710 sales@general-rubber.com .#7! (YGIENIC3TAINLESS (YGIENIC-3ERIES !PPLICATIONS 4HE3UNNEX(YGIENIC-3ERIESHASAROUNDEDANDPOLISHED SURFACEDESIGNFORAPPLICATIONSREQUIRINGFREQUENTCLEANINGAND WASHDOWNS4HE ªSWIVELPROVIDESEXCELLENTSTABILITYEVEN ONINCLINEDSURFACES-ODELSAREAVAILABLEINAWIDERANGEOF LOADCAPACITIESBOLTDIAMETERSANDLENGTHCONFIGURATIONS4HE (YGIENIC-3ERIESMOUNTSAREALSOAVAILABLEWITHATHREAD CASINGFORADDEDCLEANLINESS/PTIONALANCHORINGHOLESARE AVAILABLETOPROVIDEEASYFASTENINGOFEQUIPMENT)N ADDITIONINTEGRATEDADJUSTMENTFLATSINTHEBOLT ALLOWFULLADJUSTMENTWITHOUTSACRIFICINGHEIGHT EVENINABLINDHOLEDESIGN s#ONVEYORS s-ATERIAL(ANDLING%QUIPMENT s6IBRATORY&EEDERS s3HAKER"OWLS s!UTOMATED!SSEMBLY%QUIPMENT s0RODUCTION#ONVEYORS s0ACKAGING&ILLING-ACHINES !DVANTAGES s2UBBERMEETS&$!STANDARD - -ODEL-!NCHORING sFORFOODGRADEREQUIREMENTS s2UBBERPERMANENTLYVULCANIZEDTO HOUSINGFORHYGIENICSEAL s7IDETEMPERATURERANGEnªTOª# s ªSWIVELFORINCREASEDSTABILITY )TEM ,OAD LBS "ASE$IA $ 4HREAD - ,ENGTH ! "ASE ( /VERALL (T (OLE D #ENTER #, - - - - - - - - - - - - -- 3EEOUR/NLINE3PECIFICATIONS WWWSUNNEXONLINECOMMOUNTSHYGIENIC(AHTM WWWSUNNEXONLINECOMMOUNTSHYGIENIC-HTM W W W S U N N EX O N L I N E C O M ,# 7 !; VL Molded Case Circuit Breakers JG 400A Frame, VL Series Selection Selection/Dimensions Ordering Information Complete Assembled Breaker Prices for a complete factory assembled JG breaker include the frame, trip unit, and standard line and load connectors, all factory installed and shipped as a complete breaker. Assembled breakers are available only with standard connectors. For any other configuration, order the frame, trip unit, and terminals as separate items. For DC applications, use thermal magnetic trip unit only. For reverse feed applications, select non-interchangeable trip breakers only. For non-interchangeable trip breakers, change the third digit of the catalog number to “X” for standard breakers. For 100% rated breakers with a non-interchangeable trip unit, change the 3rd character of the catalog number to ”Y“. For special applications, refer to page 17/62.A Mounting hardware is included with each frame or complete breaker. Number of Poles Interrupting Ratings Breaker Type NJG HJG LJG Dimensions, inches (mm) RMS Symmetrical Amperes (KA) UL 489 AIR (File E10848) IEC 60947-2 Volts AC (50/60 Hz) Volts DC Volts AC (50/60 Hz) 220/240 380/415 240 480 600 250 500 ICU ICS ICU ICS 65 35 25 30 25 65 65 45 45 100 65 25 30 35 100 75 70 70 200 100 25 30 35 200 150 100 75 2, 3 690 ICU 12 15 15 ICS 6 8 8 Width Length Depth To Handle D1 5.5 (139) 11 (279) 4.2 (102) 5.4 (138) Shipping Weight, lbs. (kg) Trip Unit Poles Frame 2, 3 9.3 (4.2) Thermal-Mag. Electronic 4.0 (1.8) Complete Breaker 4.0 (1.8) 12.6 (5.7) Connectors for 75°C Wire Ampere Construction Rating Steel 70-400 Aluminum햲 70-400 Aluminum 70-400 Aluminum 70-400 Copper 70-400 Copper 70-400 Distribution Lugs Wire Range 1/0–600 kcmil Cu 3/0–250 kcmil Al/Cu 250–750 kcmil Al 3/0–600 kcmil Cu 3/0–750 kcmil Cu 3/0–250 kcmil Cu No. of cables per connector 1 2 1 1 1 2 Catalog Number 3TW1JG600햳 3TA2JG250햳 3TA1JG750햳 3TA1JG750햳 TC1JG750햵 TC2JG250 70-400 70-400 Compression Lugs 70-400 #14–4 Cu #14–2/0 Cu 12 6 3TA12JG04햳 3TA6JG20햳 #6–350 kcmil – List Price $ 3CLJ350 햲 Standard construction supplied for each breaker. 햳 Kit consists of 3 terminal connectors. 햴 3 Lugs for 3-pole breakers. 햵 For 100% rate applications, 90°C. JG Thermal-Magnetic, Instantaneous Trip Adjustment Range Trip Unit Continuous Amp Rating (In) Instantaneous Overcurrent Setting (Ii) Min. Max. 250 1250 2500 300 1500 3000 350 400 1750 2000 3500 4000 Note: Each breaker has 6 trip settings in this range. External Accessories pages 17/43 to 17/57 17/24 Product Category: MCCB Siemens Industry, Inc. Industrial Controls Catalog VL Molded Case Circuit Breakers JG 400A Thermal-Magnetic Trip Unit Selection Ii M4-PAN-TORX M4-PAN-TORX AMPS 2800 2400 2000 I n = 400A 3200 40 C 3600 TM ~ 4000 Trip Unit/Disparador 525 Model 525 Trip Unit JG 400A Frame 2-Pole with Thermal-Magnetic Trip Unit N-Interrupting Class Catalog Number Continuous Ampere Rating 250 300 350 400 List Price $ List Price $ FRAME ONLY HJG2F400 NJG2F400 NJG2B250L NJG2B300L NJG2B350L NJG2B400L H-Interrupting Class Catalog Number L-Interrupting Class Catalog Number List Price $ Catalog Number List Price $ LJG2F400 COMPLETE FACTORY ASSEMBLED CIRCUIT BREAKER HJG2B250L LJG2B250L HJG2B300L LJG2B300L HJG2B350L LJG2B350L HJG2B400L LJG2B400L TRIP UNIT ONLY CJT2B250 CJT2B300 CJT2B350 CJT2B400 JG 400A Frame 3-Pole with Thermal-Magnetic Trip Unit N-Interrupting Class Catalog Number Continuous Ampere Rating 250 300 350 400 List Price $ List Price $ FRAME ONLY HJG3F400 NJG3F400 NJG3B250L NJG3B300L NJG3B350L NJG3B400L H-Interrupting Class Catalog Number L-Interrupting Class Catalog Number List Price $ Catalog Number List Price $ LJG3F400 COMPLETE FACTORY ASSEMBLED CIRCUIT BREAKER HJG3B250L LJG3B250L HJG3B300L LJG3B300L HJG3B350L LJG3B350L HJG3B400L LJG3B400L TRIP UNIT ONLY CJT3B250 CJT3B300 CJT3B350 CJT3B400 JJ 400A Frame 240V max., 2-pole with Thermal-Magnetic Non-Interchangeable Trip Unit N-Interrupting Class Continuous Ampere Rating 250 300 350 400 Catalog Number List Price $ COMPLETE BREAKER NJJ2B250L NJJ2B300L NJJ2B350L NJJ2B400L JJ 400A Frame 240V max., 3-pole with Thermal-Magnetic Non-Interchangeable Trip Unit N-Interrupting Class Continuous Ampere Rating 250 300 350 400 Catalog Number List Price $ COMPLETE BREAKER NJJ3B250L NJJ3B300L NJJ3B350L NJJ3B400L A - Consult with Siemens for availability. Siemens Industry, Inc. Industrial Controls Catalog Product Category: MCCB 17/25 #$)## __________________________________________High Speed Turbo Blowers Product Guide &)## Immediately upon receipt, thoroughly examine the equipment. There should be no evidence of damage, such as any cracks in the Human Machine Interface (HMI) cover, a bent cabinet, or any other unusual observations. Check the packing list to verify that the shipment is complete, noting receipt of miscellaneous items in crates or boxes. 2 !"#$$!).!!< .# 2 )"# * ="#) *. * >!*?>.?>"# !"*#* &3-! * & 6!")'# Start-up of your blower must be performed by HSI Personnel. To schedule HSI personnel to startup your blower, you must complete the Blower Pre-Startup Form (Appendix G on page 61). 2 #$'6!**!"*# "#$!$ ## &' The blower must be mounted on a level surface. If there is any instance of variation to level ground, a written authorization from the manufacturer is required. February 2010 ©2009 Houston Service Industries, Inc. 22 _________________________________________ High Speed Turbo Blowers Product Guide 4.2 Layout Guidelines 4.2.1 Dimensions For information on job specific models, see Appendix A . February 2010 ©2009 Houston Service Industries, Inc. 23 YWY _________________________________________ High Speed Turbo Blowers Product Guide 4.2.2 Location When selecting a location for your HSTB, use the following guidelines: x Locate the blower in a clean, dry, properly drained, and adequately ventilated, room. x Locate the standard cabinet blower models indoors. CAUTION: x If you want to locate the standard cabinet blower model some place other than indoors, you must get approval from the manufacturer. Otherwise, you risk voiding the warranty. Provide ample room for maintenance and servicing, such as removal of the electrical components or driver. For information on job specific installation drawings, see Appendix C on page 52. 4.2.3 Foundation The structural design of the cabinet and the smooth operation inherent with high speed turbo machinery eliminates the need for massive foundations and costly site preparation. All that is required is a reinforced concrete floor or pad of sufficient strength to support the weight of the unit and to ensure long-term stability. Avoid locating the blower on mezzanines, catwalks, and hollow floors. Refer to Appendix C (drawings) on page 52 for weight information. Note: The weight of the blowers listed in the sales brochures is only an estimate and the actual weight should be verified with HSI. 4.2.4 Positioning Each unit is shipped with leveling screws. To prevent resonant vibration at the ends of the blower base, ensure the unit has been properly leveled by locating the two leveling screws under each side of the base for Frames 1 and 2, and the extra two screws in the middle of the base for Frames 3, 4, and 5. These leveling screws, when customer specified, are provided with stud holes to mount to the base pad that the blower sits on. For nominal dimensions, see the General Assembly drawing in Appendix C on page 52. February 2010 ©2009 Houston Service Industries, Inc. 24 YWZ _________________________________________ High Speed Turbo Blowers Product Guide 4.3 Connections 4.3.1 Electrical power All wiring is dependent upon site specific applications. For all electrical schematics and wiring information, see Appendix C . All conduit and wiring should be installed by a licensed electrical contractor to meet all local and national electrical codes. Note: x For all field discrete inputs and outputs, #16 awg minimum Thermoplastic High Waterresistant Nylon-coated (THWN) wiring is recommended. x For all analog signals, #18 awg minimum twisted shielded cable is recommended. The drain/shield should be terminated inside the HSTB on the ground terminal block as indicated on the drawings. (See Appendix C on page 52.) The drain/shield wire should always be cut and insulated at the field device. CAUTION: Make sure the shield does NOT touch any metal conduit or other metal objects. Incoming power is supplied to the bottom of Molded Case Circuit Breaker (MCCB) from the power panel (Figure 4). All accessories, such as valves, actuators, pressure sensors, temperature sensors, etc. must be wired per the manufacturer’s instructions and connected to the proper terminals on the control panel (Figure 4). 4.3.2 Electrical Power for Heat Exchanger The Heat Exchanger Unit is only available on Frame 5 model. For information on the Heat Exchanger, see Appendix E on page 57. 4.4 Installation Checklist Before installing your HSTB, check that the following have been done: x Leveling screws are installed x Sufficient foundation available x No grout x Piping correctly installed and isolated from the unit x Inlet filters installed x All blind flanges removed Make sure the blower is securely tightened on the blower base. February 2010 ©2009 Houston Service Industries, Inc. 25 YW[ _________________________________________ High Speed Turbo Blowers Product Guide C.2 Installation February 2010 ©2009 Houston Service Industries, Inc. 53 YW\ 8)## _________________________________________ High Speed Turbo Blowers Product Guide 8 87!#X*&Y(#Z 7KLVVHFWLRQH[SODLQVKRZWRLQVWDOOWKH+HDW([FKDQJHURQWRWKH%ORZHUXQLW)LJXUH & D0;$- ' & D7 0;$- )* O ' ! % 3 ! %! @* :# !! % @ ! % & P0"* 4 A4 _________________________________________ High Speed Turbo Blowers Product Guide # &RROLQJOLTXLGLVDPL[WXUHRIGLVWLOOHGZDWHUDQGSURS\OHQHJO\FROUDWHGIRUXVHLQ EUDVVFRSSHUDOXPLQXPUDGLDWRUV7KHUDWLRGHSHQGVRQWKHDSSOLFDWLRQORFDWLRQRIWKHXQLW7KH UHFRPPHQGHGPL[WXUHUDQJHLVWRRIZDWHU)RUPRUHLQIRUPDWLRQRQ&RRODQWLQ VSHFLILFDSSOLFDWLRQVFRQWDFW+6, 9ROXPHRIJO\FRODQGZDWHUUHTXLUHG 3UR 9ROXPH5HTXLUHGIRU+HDW ([FKDQJHU S\OHQH*O\FRO 86*DOORQV 'LVWLOOHG:DWHU 86*DOORQV Total approximate volume of heat exchanger, blower, and piping may vary due to the length of piping between the heat exchanger and blower. 3ULRUWRVWDUWXSKDYHJO\FRODQGGLVWLOOHGZDWHURQVLWH+6,ILHOGWHFKQLFLDQVZLOOILOOWKHUHVHUYRLU GXULQJVWDUWXSDVWKHXQLWPXVWEHRSHUDWLRQDOWRDFWLYDWHSXPSVDQGILOODOOOLQHV 3.$###.#!*!#!*. !! 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DISTRIBUTED VALVES TECHNO™ Short Form Wafer Style Check Valves TECHNO™ DISTRIBUTED VALVES SHORT FORM WAFER STYLE CHECK VALVES Technocheck Short Form (SF), Cost Efficient, Reliable, “Wafer Style” Check Valve CLAMP PLATE SUPPORT Non-Slam Quick Closure Feature The Valve Plate Design offers Minimum Travel from Full Open to Full Closed Position and complete Metal-to-Metal Valve Plate Structural Support. Unique Flexible Elastomer Seal Continuous Elastomer Seal provides Final Closure around complete valve bore with the strength and durability to ensure prolonged cycle life. Can Be Mounted In Any Position for the most efficient piping layout. Unrestricted Full Port Seatless Design provides Free-Flow through Design with virtually no pressure loss. Elimination of Metal-to-Metal Rotating Parts. The stationary Hinge Post and Hinge Clamp Design eliminates wear of Hinges, Pins, Valve Seats, Springs and the need for routine maintenance. TECHNO has been a leading supplier of high quality check valves to all phases of industry for many years. Thousands of TECHNO products are presently in service demonstrating an outstanding performance record. Exclusive Technocheck design combined with an extensive selection of materials result in exceptionally high performance and reliability for most liquid and gaseous applications. The Short Form (SF) Technocheck split disc wafer style check valve offers compact design along with heavy duty construction. TECHNO's scalloped body design assures proper and easy alignment between mating gaskets and line flanges. It offers strength and eliminates the need for expensive supports, expansion joints and foundations that may be necessary with a conventional check valve. Our unique design combined with many years of experience allows us to satisfy the most difficult applications. Specials available upon request. CERTIFICATIONS 2 TECHNO™ TR-TEC-SHORTFORM/WCV 07/08 ION-2M DISTRIBUTED VALVES TECHNO SHORT FORM WAFER STYLE CHECK VALVES STYLES 5412, 5118, 5831-F, 5831-R, 5355* AND 5355-316 FLOW B DIA "D" RADIUS "E" HOLES EQUALLY SPACED ON "F" DIAMETER BOLT CIRCLE A C GENERAL DIMENSIONS FOR STYLES 5412, 5118, 5831-F, 5831-R, 5355* AND 5355-316 VALVE SIZE in. A B C D E F 2 2 1/2 1 3/8 1 5/8 4 3/4 5 1/2 1/2 9/16 3/8 3/8 4 4 4 3/4 5 1/2 3 1 7/8 6 11/16 3/8 4 6 4 2 3/8 7 1/2 7/8 3/8 8 7 1/2 5 2 7/8 8 1/2 1 1/8 7/16 8 8 1/2 6 3 3/8 9 1/2 1 1/2 7/16 8 9 1/2 8 4 3/8 11 3/4 2 1/4 7/16 8 11 3/4 10 5 3/8 14 1/4 2 1/2 1/2 12 14 1/4 12 6 3/8 17 3 1/2 12 17 14 7 3/8 18 3/4 3 1/4 9/16 12 18 3/4 16 8 3/8 21 1/4 3 3/4 9/16 16 21 1/4 18 9 3/8 22 3/4 4 1/4 5/8 16 22 3/4 20 10 3/8 25 4 3/4 5/8 20 25 24 12 3/8 29 1/2 5 3/4 11/16 20 29 1/2 30 15 3/8 36 7 3/4 11/16 28 36 36 18 3/8 42 3/4 8 1/2 13/16 32 42 3/4 42 21 3/8 49 1/2 9 1/2 13/16 36 49 1/2 48 24 3/8 56 11 1/2 13/16 44 56 54 27 3/8 62 3/4 13 15/16 44 62 3/4 60 30 3/8 69 1/4 14 15/16 52 69 1/4 66 33 3/8 76 15 15/16 52 76 72 36 3/8 82 1/2 16 1/2 15/16 60 82 1/2 *For sizes 2 inch - 8 inch see style 5296 on page 4. OPTIONAL MATERIAL SELECTION Internal Materials • Aluminum • Brass • 316 Stainless Steel • Plated Steel SEALING MEMBER MATERIALS Material STANDARD MODELS AND MATERIALS STYLE BODY INTERNALS FLANGE CLASS CWP psi -60°F to 225°F • Neoprene -40°F to 225°F -40°F to 300°F 5412 Aluminum Aluminum 125 (FF) 125 • EPDM 5118 Cast Iron Aluminum 125 (FF) 125 • Viton 5831-F Bronze Brass 125 (FF) 150 • Silicone 5831-R Bronze Brass 150 (RF) 150 5355* Steel Plated Steel 150 (RF) 150 5355-316 316 Stainless Steel 316 Stainless Steel 150 (RF) 150 Standard Elastomer: Buna-N (FF) = Flat Face, (RF) = Raised Face Temperature Range* • Buna-N -20°F to 400°F -100°F to 500°F * This temperature range is for general guidance. The figures may vary with application. SPRING MATERIAL • 302 Stainless Steel TECHNO™ TR-TEC-SHORTFORM/WCV 07/08 ION-2M 3 DISTRIBUTED VALVES SHORT FORM WAFER STYLE CHECK VALVES STYLE 5296 *Two through eight inch (2” - 8”) Style 5355 valves with Carbon Steel Bodies are known as Style 5296. They are rated at 150 psi cold working pressure and have Raised Face Ends. Bodies are made from solid round material and do not have the scalloped edges like the 5355 which is produced from a casting. The outside diameter is made to fit within the bolting pattern of ASME 150# flanges. The 5296 may sometimes be offered in other materials if delivery is critical and casting lead times are prohibitive. Consult factory for details. FLOW B DIA A C GENERAL DIMENSIONS FOR STYLE 5296 VALVE SIZE in. A B C 1 1 1/4 1 3/8 1 3/8 2 5/8 3 1/16 1/4 5/16 1 1/2 1 3/8 3 3/8 2 1 3/8 4 1/8 1/2 2 1/2 1 5/8 4 7/8 9/16 11/16 3 1 7/8 5 3/8 4 2 3/8 6 7/8 7/8 5 2 7/8 7 3/4 1 1/8 6 3 3/8 8 3/4 1 1/2 8 4 3/8 11 2 1/4 2 1/2 10 5 3/8 13 3/8 12 6 3/8 16 1/8 3 14 7 3/8 17 3/4 3 1/4 TECHNO™ TR-TEC-SHORTFORM/WCV 07/08 ION-2M 4 DISTRIBUTED VALVES TECHNO FULL FLANGED CHECK VALVES PRESSURE DROP CHARTS FOR WATER AND AIR SERVICE PRESSURE DROP psi 100.0 10.0 2” 3” 2 1/2” 4” 5” 8” 6” 12” 16” 10” 14” 18” 20” 24” 30” 42” 54” 66” 36” 48” 60” 72” 0.1 0.01 100 10 1,000 10,000 100,000 1,000,000 FLOW OF WATER AT 70° IN G.P.M. PRESSURE DROP psi 10.0 1.0 2” 3” 2 1/2” 4” 5” 8” 6” 12” 16” 20” 30” 42” 54” 66” 10” 14” 18” 24” 36” 48” 60” 72” 0.1 0.01 100 1,000 10,000 100,000 1,000,000 10,000,000 AIR FLOW AT 70° IN S.C.F.M. TRADEMARK INFORMATION TECHNO™ TR-TEC-SHORTFORM/WCV 07/08 ION-2M 5 DISTRIBUTED VALVES VALVES & MEASUREMENT 3250 Briarpark Drive, Suite 300 Houston, Texas 77042 USA Toll Free 800 323 9160 For the most current contact and location information go to: www.c-a-m.com/valvesandmeasurement Printed in Canada 07/08-ION-2M TR-TEC-SHORTFORM/WCV *# `` Reliable Harmonic Filtration Technology with the HarmonicGuard® Series Drive-Applied Filter As power utilities continue to be pushed to the limits of supply capability, rising energy costs and decreasing power quality will continue to be an issue for consumers. Users continually search for ways to not only reduce energy costs, but also ensure their processes will continue to operate no matter the quality of the incoming power. To accomplish this, more and more variable frequency drives, UPS systems, and other non-linear loads, are being installed. For over a decade, TCI has been building harmonic mitigation filters. From waste water treatment facilities, commercial buildings, and factory floors to harsh mountain environments, reliable TCI filters have been installed to the satisfaction of thousands of customers. The next generation of the HarmonicGuard® Series filter has arrived. TCI’s considerable experience with harmonic mitigation technology has led to the development of the HG7; a filter design based on proven technology with significantly improved performance. Manufacturer’s Warranty HG7 HarmonicGuard Series Drive-Applied Filters are warranted against Manufacturer’s defect for three years from the date of original shipment. For complete warranty details, please refer to TCI’s Limited Warranty Policy. Drawings/Specifications Autocad compatible *.dxf drawings and Acrobat Reader compatible *.pdf drawings of all HG7 HarmonicGuard Series Drive-Applied Filters are available at www.transcoil.com or by contacting TCI at (800) 824-8282. The Installation, Operation, and Maintenance Manual is also available for download. UTILITY HG7 DRIVE KDR MOTOR Typical Problems, Superior Solutions with HG7 Filters Non-linear Loads and the Impure Sine Wave Non-linear loads are products that draw non-sinusoidal current from the distribution line. This nonsinusoidal current is derived from waveforms that combine the fundamental frequency with integral multiples of that frequency. The resulting harmonic distortion is a basic result of the operation of nonlinear loads. When these types of loads are a significant portion of an electrical system, harmonic distortion may begin to cause problems throughout the entire system. These problems range from poor power factor, transformer and distribution equipment overheating, random breaker tripping, or even sensitive equipment failure. Since harmonics affect the overall power distribution system, the power utility may even levy heavy fines when a facility is affecting the utility’s ability to efficiently supply power to all of its customers. As a result, in the search for more efficient power use, other costly issues have been created. Superior HG7 Performance The HG7 not only limits current distortion to less than 7% TDD, it also improves true power factor. Multiple package options will allow TCI customers to choose the right filter configuration for the application. Since every power system is different, harmonic mitigation requirements will differ, and even IEEE limits change based on the system loading characteristics. The HG7 product returns the power of choice to the customer, allowing for different configurations to achieve different performance and monitoring results. It is TCI’s intention to provide the maximum value to our customers by offering the package and performance necessary for the application. XWW 2 True Power Factor Correction “Real” or True power is used to perform real work. Inductive loads require Real and Reactive power. Utilities provide Apparent power. Apparent power is a geometric combination of Real and Reactive (or imaginary) power. Reactive power performs no work. However, the flow of reactive current, a component of reactive power, does consume energy as it passes through resistive elements of the power system. Thus, reducing overall system efficiency. This reactive power is used to generate magnetic fields within motors, transformers, and other magnetic devices. Reactive power, combined with harmonic currents, contribute to poor power factor in electrical systems. The capacitors inherent in the HG7 design supply the necessary reactive power so the utility doesn’t have to. The reduction in harmonic currents further improves the ratio of active power to apparent power. This overall improvement to true power factor assists in the efficient operation of facilities and the avoidance of possible fines due to poor power factor. Sample 5th Harmonic Sample 7th Harmonic Fundamental Plus 5th and 7th 1 1 1 0.5 0.5 0.5 0 0 0 -0.5 -0.5 -0.5 -1 -1 0 1 2 3 4 5 6 -1 0 1 2 3 4 5 6 0 1 2 3 4 5 6 Supply Voltage (volts) 750 100 80 500 60 40 250 20 0 5 10 15 20 25 30 35 40 5 10 15 20 25 30 35 40 -250 0 -20 -40 -60 -500 -80 -750 Time mS -100 Time mS Filter Input Current (amps) No Filter Supply Voltage (volts) 750 100 80 500 60 40 250 20 0 5 10 15 20 25 30 35 40 5 10 15 20 -250 25 30 35 40 0 -20 -40 -60 -500 -80 -750 Time mS Time mS -100 Filter Input Current (amps) HG7 Filter IEEE-519 1992 Harmonic Distortion Limits In 1981, “Recommended Practices and Requirements for Harmonic Control in Electric Power Systems” was published. This document was the first attempt at establishing acceptable standards for distortion, both voltage and current, within the distribution system. Unfortunately, the original document did not address the users’ responsibility for contributing to the overall system distortion levels. Re-published in 1992, IEEE 519 set forth distortion limits for power users. These limits defined the maximum current and voltage distortion percentages allowable at the point of common coupling, commonly referred to as the PCC, under full load. These limits are on a sliding scale based on system loading parameters. Table 10-3 of IEEE Std 519-1992 “IEEE Recommended Practices and Requirements for Harmonic Control in Electrical Power Systems” can be found below. Table 10-3 Current Distortion Limits for General Distribution Systems (120V through 69,000V) Maximum Harmonic Current Distortion in Percent of I L Individual Harmonic Order (Odd Harmonics) ISC/IL <11 11≤ h <17 17≤ h <23 23≤ h <35 35≤ h TDD <20* 4.0 2.0 1.5 0.6 0.3 5.0 20<50 7.0 3.5 2.5 1.0 0.5 8.0 50<100 10.0 4.5 4.0 1.5 0.7 12.0 100<1000 12.0 5.5 5.0 2.0 1.0 15.0 >1000 15.0 7.0 6.0 2.5 1.4 20.0 Even harmonics are limited to 25% of the odd harmonic limits above. Current distortions that result in a dc offset, e.g., half-wave converters, are not allowed. *All power generation equipment is limited to these values of current distortion, regardless of actual ISC/IL. where ISC = maximum short-circuit current at PCC. IL = maximum demand load current (fundamental frequency component) at PCC. XWX 3 ENCLOSED DIMENSIONS (in.) HG7 480V AC Filters PART NUMBER OPEN STYLE HP HG8AW00ST HG10AW00ST HG15AW00ST HG20AW00ST HG25AW00ST HG30AW00ST HG40AW00ST HG50AW00ST HG60AW00ST HG75AW00ST HG100AW00ST HG125AW00ST HG150AW00ST HG200AW00ST HG250AW00ST HG300AW00ST HG350AW00ST HG400AW00ST HG450AW00ST HG500AW00ST HG600AW00ST HG700AW00ST HG800AW00ST HG900AW00ST 7.5 10 15 20 25 30 40 50 60 75 100 125 150 200 250 300 350 400 450 500 600 700 800 900 PART NUMBER OPEN STYLE HP HG15CW00ST HG30CW00ST HG40CW00ST HG50CW00ST HG60CW00ST HG75CW00ST HG100CW00ST HG125CW00ST HG150CW00ST HG200CW00ST HG250CW00ST HG300CW00ST HG350CW00ST HG400CW00ST HG450CW00ST HG500CW00ST HG600CW00ST HG700CW00ST HG800CW00ST HG900CW00ST 15 30 40 50 60 75 100 125 150 200 250 300 350 400 450 500 600 700 800 900 PART NUMBER OPEN STYLE HP HG8BW00ST HG10BW00ST HG15BW00ST HG20BW00ST HG25BW00ST HG30BW00ST HG40BW00ST HG50BW00ST HG60BW00ST HG75BW00ST HG100BW00ST 7.5 10 15 20 25 30 40 50 60 75 100 WATTS LOSS OPEN WEIGHT PART NUMBER ENCLOSED HEIGHT WIDTH DEPTH ENCLOSED WEIGHT 3 3 5 6 8 10 12 15 20 25 30 40 45 60 75 90 105 120 150 150 180 210 240 270 200 200 275 300 325 375 625 650 825 950 975 1150 1450 1775 2050 2500 2725 3100 3350 3500 3500 3600 3900 4200 40 40 50 60 65 80 120 130 135 140 185 220 260 350 355 450 500 680 685 715 950 1170 1175 1195 HG8AW01ST HG10AW01ST HG15AW01ST HG20AW01ST HG25AW01ST HG30AW01ST HG40AW01ST HG50AW01ST HG60AW01ST HG75AW01ST HG100AW01ST HG125AW01ST HG150AW01ST HG200AW01ST HG250AW01ST HG300AW01ST HG350AW01ST HG400AW01ST HG450AW01ST HG500AW01ST HG600AW01ST HG700AW01ST HG800AW01ST HG900AW01ST 19.75 19.75 19.75 19.75 19.75 31.38 31.38 31.38 31.38 31.38 31.38 56.00 56.00 70.00 70.00 70.00 70.00 60.00 60.00 60.00 60.00 60.00 60.00 60.00 17.50 17.50 17.50 17.50 17.50 17.50 17.50 17.50 17.50 17.50 17.50 17.56 17.56 20.00 20.00 20.00 20.00 52.00 52.00 52.00 52.00 52.00 52.00 52.00 12.14 12.14 12.14 12.14 12.14 12.14 12.14 12.14 12.14 12.14 12.14 16.15 16.15 20.00 20.00 20.00 20.00 24.00 24.00 24.00 24.00 24.00 24.00 24.00 66 66 75 85 90 130 170 180 90 195 235 308 350 500 505 600 650 985 990 1020 1235 1450 1460 1480 k-Var WATTS LOSS OPEN WEIGHT PART NUMBER ENCLOSED HEIGHT WIDTH DEPTH ENCLOSED WEIGHT 5 10 12 15 20 25 30 40 45 60 75 90 105 120 150 150 180 210 240 270 300 425 675 700 900 1000 1050 1200 1500 1850 2000 2500 2800 2700 3050 3000 3200 3600 3900 3800 40 80 120 130 135 140 185 220 260 350 355 520 500 600 725 930 950 1065 1240 1325 HG15CW01ST HG30CW01ST HG40CW01ST HG50CW01ST HG60CW01ST HG75CW01ST HG100CW01ST HG125CW01ST HG150CW01ST HG200CW01ST HG250CW01ST HG300CW01ST HG350CW01ST HG400CW01ST HG450CW01ST HG500CW01ST HG600CW01ST HG700CW01ST HG800CW01ST HG900CW01ST 19.75 31.38 31.38 31.38 31.38 31.38 31.38 56.00 56.00 70.00 70.00 70.00 70.00 60.00 60.00 60.00 60.00 60.00 60.00 60.00 17.50 17.50 17.50 17.50 17.50 17.50 17.50 17.56 17.56 20.00 20.00 20.00 20.00 52.00 52.00 52.00 52.00 52.00 52.00 52.00 12.14 12.14 12.14 12.14 12.14 12.14 12.14 16.15 16.15 20.00 20.00 20.00 20.00 24.00 24.00 24.00 24.00 24.00 24.00 24.00 40 130 170 180 190 195 235 308 350 500 505 675 725 990 1200 1300 1400 1500 1600 1750 k-Var WATTS LOSS OPEN WEIGHT PART NUMBER ENCLOSED HEIGHT WIDTH DEPTH ENCLOSED WEIGHT 200 225 300 350 375 450 675 700 800 900 1100 50 55 60 80 90 100 120 130 150 180 195 HG8BW01ST HG10BW01ST HG15BW01ST HG20BW01ST HG25BW01ST HG30BW01ST HG40BW01ST HG50BW01ST HG60BW01ST HG75BW01ST HG100BW01ST 19.75 19.75 19.75 30.75 30.75 30.75 30.75 30.75 30.75 56.00 56.00 17.50 17.50 17.50 17.50 17.50 17.50 17.50 17.50 17.50 17.56 17.56 12.14 12.14 12.14 12.14 12.14 12.14 12.14 12.14 12.14 16.15 16.15 75 80 85 130 140 150 170 180 200 265 285 k-Var FIELD TERMINAL PHASE SIZE #4 - #18 #4 - #18 #4 - #18 #4 - #18 #4 - #18 #4 - #18 #4 - #18 #4 - #18 #2 - #22 #2/0 - #6 #2/0 - #6 250MCM - #6 250MCM - #6 Two 250MCM - 1/0 Two 250MCM - 1/0 Two 350MCM - #4 Two 350MCM - #4 Two 350MCM - #4 Two 600MCM - #2 Two 600MCM - #2 Three 600MCM - #2 Three 600MCM - #2 Three 600MCM - #2 Three 800MCM - 350MCM ENCLOSED DIMENSIONS (in.) HG7 600V AC Filters FIELD TERMINAL PHASE SIZE #4 - #18 #4 - #18 #4 - #18 #4 - #18 #4 - #18 2/0 - #6 2/0 - #6 2/0 - #6 250MCM - #6 250MCM - #6 Two 250MCM - 1/0 Two 250MCM - 1/0 Two 350MCM - #4 Two 350MCM - #4 Two 350MCM - #4 Two 350MCM - #4 Two 600MCM - #2 Two 600MCM - #2 Three 600MCM - #2 Three 600MCM - #2 HG7 240V AC Filters ENCLOSED DIMENSIONS (in.) 3 3 5 6 8 10 15 15 20 25 30 FIELD TERMINAL PHASE SIZE #4 - #18 #4 - #18 #4 - #18 #4 - #18 2/0 - #6 2/0 - #6 2/0 - #6 250MCM - #6 250MCM - #6 Two 250MCM - 1/0 Two 250MCM - 1/0 Typical Applications • • • • Printers Extruders Machining Pulp & Paper • • • • Waste Water Treatment Down Hole Pumping HVAC Uninterruptible Power Supplies • • • • AC Variable Frequency Drives 6-pulse rectifiers Fans Other Mission Critical Applications XWY 4 Package Options The HG7 has been designed with the customer in mind. From the Standard Package to the Power Monitor Package, TCI has the right solution for the application. Standard Package The Standard Package includes everything necessary for an application to meet IEEE 519 standards. From the highest quality harmonic grade capacitors on the market to the extraordinary reactors, this filter will meet the majority of application requirements found today. This cost effective product is available as either an open panel version or in a UL Type 1 enclosure. The open panel is perfect for inclusion in a MCC section or easy installation into industry standard enclosures. The UL Type 1 enclosed units maintain the same vertical profile as the open panel design. This design is perfect for applications where floor space is at a premium. Sample Part Number: HG100AW00ST Power Monitor Package Option The Power Monitor package includes contactors and filter monitoring equipment. For units rated at 60 horsepower and below, the XM package utilizes indicator lights for filter operation and fuse failure. From 75 HP through 350 HP, the XM package uses the HG2™ Protection Monitor/Harmonic-Power Factor meter. The HG2™ Monitor Board displays operating information such as ITHD, VTHD, total filter amps, true power factor, and a series of fault and protection codes including over-current, over-voltage, and phase imbalance. It is also a programmable safety monitor, capable of bringing the filter off-line in a fault condition, or when the drive goes into a fault condition. For those applications that require the removal of capacitance for the start-up of stand-by generators, the contactors can remove the harmonic duty capacitors. Above 400 HP, the XM package includes a monitor board which has indicator lights to advise the mode of operation and when a fault should occur. Sample Part Number: HG100AW00XM Component Package Option This package includes all of the major components that are found in the Standard Package. Ideal for integration into drive sections or other end-products, this option is ideal for the experienced drive integrator. This option does not include panels, enclosures, heating or cooling devices, wire, or lugs. It is also important to note that the inclusions of the Power Monitor package are also not available as a component set. Sample Part Number: HG100AW00CP Part Numbering System HG xxxx x xxx xx Standard Configuration One Line Diagram xx Series Horse Power Voltage Rating A=480v, B=240v, C=600v Enclosure W00=open, W01=UL Type 1 Package Option ST=Standard Option Package, XM=Power Monitor Package CP=Component Product Package Custom Custom Design based on standard options HG200AW00CP THIS IS THE COMPONENT KIT FOR INTERNAL HARMONIC FILTERS XWZ 5 0% Technological Highlights With over a decade of experience in the manufacture and application of harmonic mitigation filters, TCI can provide the right filter for the job. With so many mitigation techniques available, from multipulse configurations to active harmonic cancellation filters, choosing the right form of harmonic reduction can be a difficult task. The HG7 is not only guaranteed to perform, its performance matches all but the most expensive mitigation technologies currently available on the market. The HG7 is easy to install and is shipped with all necessary components including an Installation, Operation, and Maintenance manual. Each unit contains high quality capacitors certified for harmonic rich environments. It is also important to note that critical applications will continue to operate even if the HG7 shuts down. 100% Fundamental 2% 4% 6% 8% 10% 12% 14% 5.8% HG7 7.6% 5.6% BRAND X 12.4% HG7 Performance Full Rating 50% Rating 5 4.5 Superior Filter Performance Distorsion % 4 In general, the HG7 performs as well as, if not better than, any filter technology currently available on the market today. Harmonic distortion at the input terminals is typically between 5 and 7% TDD. With the HG7, voltage drop on the dc bus of a variable frequency drive is less than 2%. Since the filter uses TCI’s reactor technology, nuisance tripping is eliminated and drive uptime is dramatically increased. While attenuating harmonic distortion, the filter also dramatically improves true power factor. 3.5 3 2.5 2 1.5 1 0.5 0 1 7 13 19 25 31 Harmonic 300 THID Distortion Comparison 150 8.5% Amps Performance of the HG7 Harmonic Filter has been compared to other offerings currently available on the market. As noted in the waveforms displayed to the right, the differences in performance are subtle and hard to detect in a visual inspection. Between the 5% and 9% distortion range, performance may be less of a concern than other factors, including price, delivery, or support. In this particular example, the HG7 performs at the mid-point but carries a price tag that is less than the 8.5% filter. Although the differences between 20% distortion and 5% distortion are clear, determining the overall value between 8.5% and 5.3% distortion may be extremely difficult in each unique application. 0 6.8% -150 5.3% -300 0.0 16.7 33.3 50.0 Time (ms) Independent Third Party Testing In independent third party tests, the HG7 filter performed extremely well. Test one applied a 75 HP HG7 to a 75 HP variable frequency drive connected to a 75 HP NEMA Design A motor at full load. The specified drive came with a bypass option. The concern was the operation of the bypass circuit as it relates to the voltage drop from the filter and the ability to pull in the 120 volt coils on the bypass contactors. Extensive testing showed that the voltage drop across the 480/120 Volt control power transformer was approximately 10%, well within the coil’s dropout rating. The results show that the HG7 can be used with a standard drive/bypass configuration without any special system modifications. In a second test, a 10 HP filter was applied to a 10 HP drive at 460 volts. In this particular application, 100% of the system was non-linear load. Under full load conditions, operating on an extremely stiff source, TDD was equivalent to 8%. Total Demand Distortion (TDD) Guarantee Properly applied and sized for the application, TCI guarantees that the HG7 will deliver typical results of 5 – 6 % TDD, but no more than 8%, at the filter input terminals. If a properly selected, installed, and loaded HG7 filter fails to meet the guaranteed performance levels, TCI will provide the necessary components or replacement filter at no additional charge. TCI does not take responsibility for additional installation or removal costs, to include, but not limited to, replacement of third party equipment. Minimum System Requirements: In order to achieve the performance levels as stated in this guarantee, the electrical system must adhere to the following: Line Voltages must be balanced to within ±1%; Voltage at the filter input terminals is 100% (±5%) of filter rating; Source Impedance is at least 3%; Filter loading is 100% (±5%) of filter rating; Load is at least 10% of source rating. TCI cannot guarantee individual results when harmonic distortion exists on the system prior to HG7 installation. TCI does not take responsibility for incorrect installation of the component package option. XW[ 6 • Available in 240V, 480V, and 600V designs • UL-Listed (Industrial Control Panel) • 3 Year Warranty • Available in Standard 7.5 through 900 HP (100 HP Max at 240V) • Open Panel and UL Type 1 Enclosed options available • Convenient Component Package available • Robust Power Monitor Package available • High Quality Harmonic Grade Capacitors 7878 North 86th Street, Milwaukee, WI 53224 PHONE 1-800-824-8282 FAX (414) 357-4484 WEB www.transcoil.com REV.05-16-05 Publication No. 25220 XW] )& #'# ' (73".3(73 :(735(739 0"4 2 :3(7 = 2 * 4 *A 0"4 > 0"4 *2 (73A 2 Houston Service Industries, Inc. ● 7901 Hansen, Houston, Texas 77061 ● Office: 713-947-1623 ● Fax: 713-947-6409 ● Toll Free: 800-725-2291 ● www.hsiblowers.com )[ ' 3 "3*. D. ") D. 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D. @"." 2;<* D. 7 7# 2;<* D. 83 #'3 &%D &%D &%D &%D! &%D &%D &%D% &%D &%D &%D &%D &%D &%D &%D! &%D &%D &%D% &%D &%D &%D &%D "3*. 7& +3 43 +: 4: 8: " 1&< )" 1&< 1&<&=2 @38 0 4 U < *+$2 @ 0 + 8 8 : 539 8 : 539 ,- ,- ,- ,- #'0"3*. &D @" 34<( &D < *+$2" 3"7)<) R@TR" @3(7 :( 3 4 %A 084 : "7&8 <& <& <& V V 0> 03 U R3AR&A!R<+AR@" <& <& @" * !'# EZAutomation - EZSeries Touchpanels EZSeries 6” TFT Color Panels 6” Color EZSeries (5.7” TFT) EZSeries 6” panels have a 5.7” diagonal touch screen with 320x240 pixel resolution. This model is a new addition to EZSeries line with a TFT LCD (liquid crystal display). NOTE: EZSeries CE Touchpanels have built-in Ethernet yet are still available with additional Universal Ethernet option if the application needs multiple processors EZSeries Touchpanel EZSeries CE Touchpanel feature: • 5.7” diagonal color TFT LCD • Low-profile slim bezel design • 128 colors • NEMA 4, 4X • 320x240 pixel resolution • 512K RAM expandable to 1.5MB • 512K, 1MB or 2MB option flash card for memory backup • 400 nits brightness • 75,000 hour expected bulb half-life • 192 touch cells (16x12) • 1/4” gasket and four DIN mounting clips for NEMA 4, 4X • 2.3” (59.0mm) installed depth • Has all EZSeries objects • Has all 4,000 Library symbols • Programmed with EZSeries programming software See the different communication interface options available in the chart to the right Part Number Description Price EZC-T6C-E 6” Color TFT, Enhanced CE 4.2 PP, Nema 4, 4X $769 EZC-T6C-ED 6” Color TFT, Enhanced CE 4.2 PP, DeviceNet, Nema 4, 4X $2,299 EZC-T6C-EH 6” Color TFT, Enhanced CE 4.2 PP, DH+, Nema 4, 4X $1,899 EZC-T6C-EM 6” Color TFT, Enhanced CE 4.2 PP, MB+, Nema 4, 4X $1,899 EZC-T6C-EP EZC-T6C-EC EZC-T6C-EU 6” Color TFT, Enhanced CE 4.2 PP, Profibus, Nema 4, 4X $2,299 6” Color TFT, Enhanced CE 4.2 PP, CCLink, Nema 4, 4X $1,899 6” Color TFT, Enhanced CE 4.2 PP, Universal Ethernet, Nema 4, 4X $1,798 Del. 3DAY EZSeries Dedicated OS Model Number Interface Price Del. EZ-T6C-ES EZPLC driver only $769 STK EZ-T6C-FS All serial drivers and accepts Ethernet and network cards $769 STK EZ-T6C-FSD DeviceNet $1,499 3DAY EZ-T6C-FSE AB Ethernet I/P $1,499 3DAY EZ-T6C-FSH DH+, Remote I/O $1,499 3DAY EZ-T6C-FSM Modicon MODBUS Plus $1,499 3DAY EZ-T6C-FSP Profibus $1,499 3DAY EZ-T6C-FST MODBUS TCP/IP $1,269 3DAY EZ-T6C-FSC CCLink $1,499 3DAY EZ-T6C-FSU Universal Ethernet drivers - DF1, I/P, Modbus TCP/IP, SRTP $1,398 3DAY EZ-T6C-RMC RMC card installed $919 3DAY 3DAY 3DAY 3DAY 3DAY 3DAY 3DAY Enhanced CE Touchpanels with Windows CE Professional Plus offer: • File viewers such as Acrobat, Excel, Word, PowerPoint, Image and Internet Explorer for Windows CE • Built-in Ethernet protocols, Ethernet IP, EZ IP, SRTP, Modbus TCP/IP and Koyo ECOM EZSeries CE Touchpanel feature: • 5.7” diagonal color TFT LCD • Low-profile slim bezel design • 18 bit colors • NEMA 4, 4X • 320x240 pixel resolution • 400 nits brightness • 75,000 hour expected bulb half-life • Analog resistive touch screen • Alchemy 333 MHz Processor • 32MB Flash, 64MB RAM and 2 MB for HMI • 1/4” gasket and four DIN mounting clips • 2.43” installed depth • Has all EZSeries Touchpanel • Has all 4,000 Library symbols • Programmed with EZSeries Programming software 3-68 Graphical HMIs 1-877-774-EASY (3279) EZTouch Cables and Wiring EZTOUCH CABLES AND WIRING Status LED Red=fault Green=normal operation Power connector A block style connector is used to connect an external 24VDC power supply. You can use our own FA-24PS 24VDC power supply as your source. Power Connector Pin # Connection + +V - -V 24VDC (20-30VDC) Chassis Ground PLC port The PLC port is a RS-232C, RS-422A or RS-485A female 15-pin D-sub connector. See the table below for the appropriate cable for your application. 1 - 80 0 - 633 - 0405 COM 1 port RS-232C, RS-422A, or RS-485A female 9-pin D-sub connector is used to connect to the programming computer or PLC. Power connector COM1 port PLC port Side view Cable Part Number Cable Description Price EZ-2CBL DirectLOGIC PLC RJ-12 $19.00 EZ-2CBL-1 DirectLOGIC VGA 15-pin (D2-250) $19.00 EZ-3CBL DirectLOGIC PLC RJ-11 $19.00 EZ-4CBL-1 DirectLOGIC DL405 PLC $19.00 15-pin D-sub port EZ-4CBL-2 DirectLOGIC PLC 25-pin D-sub port $19.00 EZ-MLOGIX-CBL Allen-Bradley MicroLogix $19.00 EZ-SLC-232-CBL Allen-Bradley $19.00 SLC 5-03/04/05DF1 port EZPLC5-232-CBL Allen-Bradley PLC-5 DF1 port $19.00 Allen-Bradley SLC 500 DH485 $19.00 EZ-DH485-CBL EZ-90-30-CBL GE 90/30 and 90/70 15 pin D-sub EZ-MITSU-CBL MITSUBISHI FX24 25-pin $19.00 MITSUBISHI FX24 8-pin mini-DIN $19.00 EZ-MITSU-CBL-1 EZ-S7MPI-CBL Siemens S7 $19.00 MPI adapter 9-pin D-sub EZTOUCH-PGMCBL Programming cable 14–32 $19.00 Operator Interface $19.00 Setup for online programming PLC Connector Pin Number Connection 1 Chassis GND 2 PLC TXD (RS-232) 3 PLC RXD (RS-232) 4 +5V 5 Logic GND 6 LE Pin Number Connection 7 PLC CTS (RS-232) 1 TXD- (RS-422) 8 PLC RTS (RS-232) 2 TXD (RS-232) 9 RXD+ (RS-422) 3 RXD (RS-232) 10 RXD- (RS-422) 4 RXD- (RS-422) 11 TXD+ (RS-422) 5 Logic GND 12 TXD- (RS-422) 6 TXD+ (RS-422) 13 Terminating resistor 7 CTS (RS-232) 14 NC 8 RTS (RS-232) 15 NC 9 RXD+ (RS-422) COM 1 Connector !; %XOOHWLQ&LUFXLW%UHDNHU 3DJH RI Catalogs > Industrial Controls Catalog > Control Circuit and Load Protection > Circuit Breakers > Bulletin 1489 Circuit Breaker BULLETIN 1489 CIRCUIT BREAKER Introduction Description Bulletin 1489 Cat. No. Explanation Product Selection Miniature Circuit Breaker Accessories Specifications Bulletin 1489 Circuit Breaker Approximate Dimensions Product Selection Bulletin 1489 1-Pole Miniature Circuit Breakers No. of Poles EN/IEC Maximum Voltage Trip Curve UL/CSA Max. Volt. Rated Current [A] Standard Wire Configuration Cat. No. Ring Terminal Configuration Cat. No. 1 415V AC, 48V DC C 277V AC, 48V DC 0.5 1489-A1C005 1489-A1C005R 1 1489-A1C010 1489-A1C010R 1.5 1489-A1C015 1489-A1C015R 2 1489-A1C020 1489-A1C020R 3 1489-A1C030 1489-A1C030R 4 1489-A1C040 1489-A1C040R 5 1489-A1C050 1489-A1C050R 6 1489-A1C060 1489-A1C060R 7 1489-A1C070 1489-A1C070R 8 1489-A1C080 1489-A1C080R 10 1489-A1C100 1489-A1C100R 13 1489-A1C130 1489-A1C130R 15 1489-A1C150 1489-A1C150R 16 1489-A1C160 1489-A1C160R 20 1489-A1C200 1489-A1C200R 25 1489-A1C250 1489-A1C250R 30 1489-A1C300 1489-A1C300R 32 1489-A1C320 1489-A1C320R 35 1489-A1C350 1489-A1C350R 40 1489-A1C400 1489-A1C400R 0.5 1489-A1D005 1489-A1D005R 1 1489-A1D010 1489-A1D010R 1.5 1489-A1D015 1489-A1D015R 2 1489-A1D020 1489-A1D020R 240V AC, 48V DC D 277V AC, 48V DC KWWSZZZDEFRPHQHSXEFDWDORJVWDEKWPO %XOOHWLQ&LUFXLW%UHDNHU 3DJH RI Catalogs > Industrial Controls Catalog > Control Circuit and Load Protection > Circuit Breakers > Bulletin 1489 Circuit Breaker BULLETIN 1489 CIRCUIT BREAKER Introduction Description Bulletin 1489 Cat. No. Explanation Product Selection Miniature Circuit Breaker Accessories Specifications Bulletin 1489 Circuit Breaker Approximate Dimensions Specifications Number of Poles 1, 2, and 3 Standards UL 489 CSA C22.2 No. 5.1 EN/IEC 60947-2 Certifications +UL Listed Circuit Breaker (File Number E197878) CSA Certified, VDE Certified, MCB, CE Marked HACR Rating (USA/Canada) Yes SWD Rating (USA/Canada) Yes (0.5...20 A) Calibration Temperature UL/CSA: 40 °C EN/IEC: 30 °C Rated Interrupting Capacity UL/CSA: 10 000 AIC EN/IEC - Icu: 15 000 A Rated Tripping Current UL/CSA: 0.5...25 A, 480Y/277V AC 0.5...40 A, 240V AC 0.5…40 A 48V DC 1-pole 0.5…40 A 96V DC 2-pole EN/IEC: 0.5...40 A, 415V AC 48V DC Degree of Protection Finger-safe from front: -IP20 per IEC 529 from front -IP00 at wire terminals Dielectric Strength 1960V AC Shock 25 G Half sine wave for 11 ms (3 axes) Vibration Frequency range: 10…200 Hz Max. Amplitude (p-p) = 0.030 in. Max. Acceleration = 5 G 2 hours each of 3 axes Normal Operating Environment -5…+55 °C (23...131 °F) (non-condensing) Trip Curves C curve (Inductive) 5...10 IN D curve (Highly Inductive) 10...20 IN Shipment and Short-Term Storage Limits -40...+85 °C (-40...+185 °F) Wire Size 1 wire: #18...6 AWG 2 wires: #18...10 AWG Terminal Torque #18...12 AWG: 21 lb•in. #10...8 AWG: 25 lb•in. #6 AWG: 36 lb•in. #2 PoziDriv Recommended Wire Strip Length 0.5 in. KWWSZZZDEFRPHQHSXEFDWDORJVWDEKWPO '$!# Item # 4 ##6 #' Automation Systems - MicroLogix 1100 Controllers Catalogs > Automation Systems Catalog > Programmable Controllers > MicroLogix 1100 System > MicroLogix 1100 Controllers MicroLogix 1100 Controllers General Specifications Specification 1763 Controllers Operating Temperature Storage Temperature Relative Humidity Vibration Shock, Operating Shock, Non-Operating Certifications -20…65 °C (-4…149 °F) -40…85 °C (-40…185 °F) 5…95% non-condensing Operating: 10…500 Hz, 5 g, 0.015 in max. peak-to-peak (Relay Operation: 1.5 g) 30 g; 3 pulses each direction, each axis (Relay Operation: 10 g) 50 g panel mounted (40 g Din Rail mounted); 3 pulses each direction, each axis UL Listed Industrial Control Equipment for use in class 1, Division 2, Hazardous Locations, Groups A, B, C, D C-UL Listed Industrial Control Equipment for use in Canada CE marked for all applicable directives C-Tick marked for all applicable acts MicroLogix 1100 Controllers 1763-L16AWA Input Power Memory User Program / User Data Space Data Logging / Recipe Storage Battery Back-up Back-up Memory Module Digital Inputs Analog Inputs Digital Outputs Serial Ports 1763-L16BWA 1763-L16BBB 120/240V ac 24V dc non-volatile battery backed RAM 4 Kbytes / 4 Kbytes Up to 128 Kbytes for data logging and up to 64 Kbytes for recipe (recipe memory subtracted from available data logging) Yes Yes • 10 120V ac • 6 24V dc • 4 fast 24V dc Embedded, 2 in local, with additional 1762 analog modules • 6 relay • 2 relay • 2 24V dc FET • 2 high-speed 24V dc FET One RS-232 / RS-485 Combo Port http://www.ab.com/en/epub/catalogs/12762/2181376/2416247/5865007/5875323/print.html (1 of 2)6/28/2006 10:02:45 AM Automation Systems - MicroLogix 1100 Controllers Serial Protocols • DF1 Full Duplex • DF1 Half Duplex Master/Slave • DF1 Radio Modem • DH-485 • Modbus RTU Master/Slave • ASCII Ethernet Ports One 10/100 Mbps port Ethernet Protocols EtherNet/IP messaging only Trim Potentiometers 2 digital High-Speed Inputs (Pulse Catch) — 4 @ 20 kHz Real-Time Clock Yes (embedded) PID Yes (multiple loops only limited by program and stack memory) PWM / PTO — 2 @ 20 kHz Dual Axis Servo Control — Through embedded PTO Embedded LCD Yes Floating Point Math Yes Locations|Contact|Sitemap|Legal Notices Copyright © 2006 Rockwell Automation, Inc. All Rights Reserved. http://www.ab.com/en/epub/catalogs/12762/2181376/2416247/5865007/5875323/print.html (2 of 2)6/28/2006 10:02:45 AM )[7 !# Automation Systems - 1762 MicroLogix 1200 I/O Catalogs> Automation Systems Catalog> Programmable Controllers> MicroLogix 1200 System> 1762 MicroLogix 1200 I/O MicroLogix 1200 System General Resources 1762 MicroLogix 1200 I/O Expansion I/O Modules Specifications Digital Output Modules Digital Input Modules Analog I/O Modules Expansion I/O Modules If an application requires more I/O than the built-in I/O provided by the MicroLogix 1200 controller, you can connect up to six 1762 expansion I/O modules to the MicroLogix 1200 controller to provide expanded I/O capacity. You can use digital and analog I/O modules in many combinations. The current loading capacity of the controller’s built-in power supply may limit the number of I/O modules that can be connected to the controller. MicroLogix 1200 expansion I/O modules include an integral high-performance I/O bus. Software keying prevents incorrect positioning within the system. You may install expansion I/O modules to the right of the MicroLogix 1200 controller either on a panel with two mounting screws or on a DIN rail. Each expansion I/O module includes finger-safe terminal blocks for I/O wiring and a label to record I/O terminal designations. Email This Page Help | Search | Locations | Contact | Sitemap | Home Copyright ©2004 Rockwell Automation. All Rights Reserved. | Important Notices http://www.ab.com/en/epub/catalogs/12762/2181376/2416247/25463/2164029/index.html11/9/2004 3:37:16 AM Automation Systems - 1762 MicroLogix 1200 I/O Catalogs > Automation Systems Catalog > Programmable Controllers > MicroLogix 1200 System > 1762 MicroLogix 1200 I/O 1762 MicroLogix 1200 I/O Expansion I/O Modules If an application requires more I/O than the built-in I/O provided by the MicroLogix 1200 controller, you can connect up to six 1762 expansion I/O modules to the MicroLogix 1200 controller to provide expanded I/O capacity. You can use digital and analog I/O modules in many combinations. The current loading capacity of the controller’s built-in power supply may limit the number of I/O modules that can be connected to the controller. MicroLogix 1200 expansion I/O modules include an integral high-performance I/O bus. Software keying prevents incorrect positioning within the system. You may install expansion I/O modules to the right of the MicroLogix 1200 controller either on a panel with two mounting screws or on a DIN rail. Each expansion I/O module includes finger-safe terminal blocks for I/O wiring and a label to record I/O terminal designations. Specifications Dimensions (HxWxD), Approx. Operating Temperature Operating Humidity Operating Altitude, Max. Vibration Operating Relay Operation 90 x 40 x 87mm (3.543 x 1.575 x 3.425 in) 0…55 °C (32…131 °F) 5…95% (without condensation) 2,000 m (6,561 ft) 10…500 Hz, 5 g, 0.015 in peak-to-peak 2g Shock Operating 30 g panel mounted 20 g DIN-rail mounted Relay Operation 7.5 g panel mounted 5 g DIN rail mounted Non-Operating 40 g panel mounted 30 g DIN rail mounted Agency Certification • C-UL certified (under CSA C22.2 No. 142) • UL 508 Listed • CE compliant for all applicable directives Hazardous Environment Class Class I, Division 2, Hazardous Location, Groups A, B, C, D (UL1604, C-UL under CSA C22.2 No. 213) Radiated and Conducted Emissions EN50081-2 Class A ESD Immunity (IEC 1000-4-2) 4 kV contact, 8 kV air, 4 kV indirect Radiated Immunity (IEC 1000-4-3) 10V/m, 80-1000 MHz, 80% amplitude modulation, +900 MHz keyed carrier Fast Transient Burst (IEC 1000-4-4) 2 kV, 5 kHz Surge Immunity (IEC 1000-4-5) 2 kV common mode, 1 kV differential mode Conducted Immunity (IEC 1000-4-6) 10V, 0.15…80 MHz Height including mounting tabs is 110 mm (4.33 in). Conducted immunity frequency range may be 150 kHz…30 MHz if the radiated immunity frequency range is 30 MHz…1000 MHz. Digital Output Modules !*" !! !! ! !!>78 !! ! 7 !#>78 ,# ,# 3 http://www.ab.com/en/epub/catalogs/12762/2181376/2416247/25463/2164029/print.html (1 of 3)11/9/2004 3:37:20 AM 6 ; !> 78 ! ! > 78 '$ !# 3 Automation Systems - 1762 MicroLogix 1200 I/O 1762-OA8 8 (2 sets of 4) 0.25A @ 55 °C (131 °F) 0.5A @ 30 °C (86 ° F) 1762-OB8 8 0.5A @ 55 °C (131 °F) 1.0A @ 30 °C (86 ° F) 16 0.5A @ 55 °C (131 °F) 1.0A @ 30 °C (86 ° F) 8 (2 sets of 4) 2.5A 1762-OB16 1762-OW8 1762-OW16 16 (2 sets of 8) 2.5A 2.0A (1A per common) @ 55 °C (131 °F) 4.0A (2A per common) @ 30 °C (86 °F) 4.0A @ 55 °C (131 °F) 8.0A @ 30 °C (86 ° F) 4.0A @ 55 °C (131 °F) 8.0A @ 30 °C (86 ° F) 16A (8A per common) 16A (8A per common) 100…240V ac 85…265V ac 2 mA @ 132V 115 mA @ 2.5 mA @ 5V dc 265V (0.575W) 6 24V dc 20.4…26.4V dc 1.0 mA 115 mA @ 5V dc (0.575W) 6 24V dc 20.4…26.4V dc 1.0 mA 175 mA @ 5V dc (0.88W) 6 AC/DC normally open contact 5…265V ac 5…125V dc 0 mA AC/DC normally open contact 5…265V ac 5…125V dc 0 mA 80 mA @ 5V 6 dc (0.40W) 90 mA @ 24V dc (2.16W) 120 mA @ 6 5V dc (0.60W) 90 mA @ 24V dc (3.36W) The module may not be more than the specified number of modules away from the power supply of the controller. See relay contact rating table. Digital Input Modules !*" ,# 6 )* > # 6 ) )! )! ,# !> * #> ,# *"# 3 78 78 !> 78 ! ! > 78 '$ !# 3 1762-IA8 8 6 1762-IQ8 8 50 mA @ 5V dc (0.25W) 50 mA @ 5V dc (0.25W) 60 mA @ 5V dc (0.3W) 1762-IQ16 16 100/120V ac 79…132V ac 16 mA @ @ 47…63 Hz 132V ac, 63 Hz 24V dc (sink 10…26.4V dc 12 mA @ or source) @ 55 °C (131 30V dc °F) 24V dc (sink 10…30V dc 12 mA @ @ 30 °C (86 ° 30V dc or source) F) 12 kΩ @ 50 Hz On/Off: 10 kΩ @ 60 Hz 20 ms 20V ac 2.5 mA Type 1+ 3 kΩ On/Off: 8 5V dc ms 1.5 mA Type 1+ 3 kΩ On/Off: 8 5V dc ms 1.5 mA Type 1+ 6 6 The module may not be more than the specified number of modules away from the power supply of the controller. Analog I/O Modules !*" )![ !! #3 ! .## ! ! > 78 1762-IF4 4 differential (bipolar) inputs Voltage: ±10V Current: 4…20 mA 1762-OF4 4 single-ended bipolar outputs Voltage: 0…10V Current: 4…20 mA 40 mA @ 5V dc 50 mA @ 24V dc 40 mA @ 5V dc 165 mA @ 24V dc 3#! # !## 4 3 ' ±0.3% full scale 15 bits @ 55 °C (131 °F) ±0.24% full scale @ 25 °C (77 °F) ±1.0% full scale 12 bits @ 0…55 °C (131 °F) ±0.5% full scale @ 25 °C (77 °F) http://www.ab.com/en/epub/catalogs/12762/2181376/2416247/25463/2164029/print.html (2 of 3)11/9/2004 3:37:20 AM '$ !# 3 130, 250, 290, 6 450, or 530 ms (selectable) 2.5 ms 6 Automation Systems - 1762 MicroLogix 1200 I/O 1762-IF2OF2 2 differential Voltage: 0…10V (unipolar) inputs Current: 4…20 mA 2 single-ended (unipolar) outputs 1762-IR4 4 RTD inputs Input Types: 100Ω Platinum 385 200Ω Platinum 385 500Ω Platinum 385 1000Ω Platinum 385 100Ω Platinum 3916 200Ω Platinum 3916 500Ω Platinum 3916 1000Ω Platinum 3916 10Ω Copper 426 120Ω Nickel 672 120Ω Nickel 618 604Ω Nickel-Iron 518 0 to 150Ω 0 to 500Ω 0 to 1000Ω 0 to 3000Ω 40 mA @ 5V dc 105 mA @ 24V dc ±0.5% full scale 12 bits @ 55 °C (131 °F) ±0.3% full scale @ 25 °C (77 °F) 2.5 ms 40 mA @ 5V dc 50 mA @ 24V dc Input filter and 6 configuration dependent. Refer to the MicroLogix™ 1200 RTD/ Resistance Input Module User Manual, publication number 1762UM003, for more information. 1762-IT4 40 mA @ 5V dc 50 mA @ 24V dc Input filter and configuration dependent. Refer to the MicroLogix™ 1200 RTD/ Resistance Input Module ±0.5 °C ( °F) for User Manual, Pt 385 publication ±0.4 °C ( °F) for number 1762Pt 3916 UM003, for ±0.2 °C ( °F) for Ni more ±0.3 °C ( °F) for information. NiFe ±0.6 °C ( °F) for Cu ±0.15Ω for 150Ω range ±0.5Ω for 500Ω range ±1.0Ω for 1000Ω range ±1.5Ω for 3000Ω range ±1.3 °C (±2.34 ° 15 bits plus sign F) 4 Thermocouple Input Types: inputs Thermocouple Type J -210 to +1200 °C (-346 to +2192 °F) Thermocouple Type K -270 to +1370 °C (-454 to +2498 °F) Thermocouple Type T -270 to +400 °C (-454 to +752 °F) Thermocouple Type E -270 to +1000 °C (-454 to +1832 °F) Thermocouple Type R 0 to +1768 °C (+32 to +3214 °F) Thermocouple Type S 0 to +1768 °C (+32 to +3214 °F) Thermocouple Type B +300 to +1820 °C (+572 to +3308 °F) Thermocouple Type N -210 to +1300 °C (-346 to +2372 °F) Thermocouple Type C 0 to +2315 °C (+32 to + 4199 °F) millivolt inputs -50 to +50 mV -100 to +100 mV [Autocalibration Enabled] @ 25 ° C (77 °F) Ambient with Module Operating Temperature @ 25 °C (77 °F)‡ Input filter and 6 configuration dependent. Includes offset, gain, non-linearity, and repeatability error terms. The module may not be more than the specified number of modules away from the power supply of the controller. ‡ Accuracy is dependent upon the Analog/Digital converter filter rate selection, excitation current selection, data format, and input noise. Email This Page Help | Search | Locations | Contact | Sitemap | Home Copyright © 2004 Rockwell Automation. All Rights Reserved. | Important Notices http://www.ab.com/en/epub/catalogs/12762/2181376/2416247/25463/2164029/print.html (3 of 3)11/9/2004 3:37:20 AM 6 ! Bussmann® CC-TRON® FNQ-R Time-Delay Fuses ⁄‹Ω£™∑ ≈ 1⁄Ω™∑, 600 Volt, ⁄Ω¢ to 30 Amps Dimensional Data General Information: • The Bussmann CC-TRON® (FNQ-R) was designed to meet the needs of control circuit transformer protection. • Current-limitation protects down stream components against damaging thermal and magnetic effects of shortcircuit currents. • High inrush time-delay. Control circuit transformers can experience inrush currents up to 85 times their full-load current rating. FNQ-R fuses can be sized according to NEC and UL requirements and still allow the high inrush currents, with significantly more time-delay than the UL minimum value of 12 seconds at 200% for Class CC fuses. • Melamine tube. Nickel-plated brass endcaps. 1.5" (Ⳳ0.031) (38.1mm) .41" (Ⳳ0.005) (10.3mm) Catalog Symbol: FNQ-R Time-Delay Application: Circuit Transformer Protection Ampere Rating: ⁄Ω¢ to 30A Voltage Rating: 600Vac (or less)† Interrupting Rating: 200,000A RMS Sym. (UL) Agency Information: UL Listed, Std. 248-4, Class CC, Guide JDDZ, File E4273 CSA Certified, Class CC CSA, Class 1422-01, File 53787–HRC-MISC †12-30A is 300Vdc and 10k AIR. Maximum Acceptable Rating of Overcurrent Device* Rated Primary Current (Amperes) Maximum Rating of Overcurrent Protective Device Expressed As A Percent of Transformer Primary Current Rating Less than 2A 500** 2A to less than 9A 167 9A or more 125 *UL 508A Table 42.1. **300% for other than motor control applications. CE logo denotes compliance with European Union Low Voltage Directive (50-1000Vac, 75-1500Vdc). Refer to Data Sheet: 8002 or contact Bussmann Application Engineering at 636-527-1270 for more information. Electrical Ratings (Catalog Symbol and Amperes) FNQ-R-⁄Ω¢ FNQ-R-1‹Ω¡º FNQ-R-3¤Ω¡º FNQ-R-8 FNQ-R-‹Ω¡º FNQ-R-1›Ω¡º FNQ-R-3⁄Ω™ FNQ-R-9 FNQ-R-›Ω¡º FNQ-R-1⁄Ω™ FNQ-R-4 FNQ-R-10 FNQ-R-⁄Ω™ FNQ-R-1flΩ¡º FNQ-R-4⁄Ω™ FNQ-R-12 FNQ-R-flΩ¡º FNQ-R-1°Ω¡º FNQ-R-5 FNQ-R-15 FNQ-R-‹Ω¢ FNQ-R-2 FNQ-R-5flΩ¡º FNQ-R-17⁄Ω™ FNQ-R-°Ω¡º FNQ-R-2⁄Ω¢ FNQ-R-6 FNQ-R-20 FNQ-R-1 FNQ-R-2⁄Ω™ FNQ-R-6⁄Ω¢ FNQ-R-25 FNQ-R-1⁄Ω• FNQ-R-2°Ω¡º FNQ-R-7 FNQ-R-30 FNQ-R-1⁄Ω¢ FNQ-R-3 FNQ-R-7⁄Ω™ — Carton Quantity and Weight Ampere Ratings ⁄Ω¢-30 Weight* Carton Qty. Lbs. Kg. 10 .200 .091 *Weight per carton 11-20-02 SB02450 Form No. FNQ-R Page 1 of 2 Data Sheet: 1014 Bussmann® CC-TRON® FNQ-R Time-Delay Fuses ⁄‹Ω£™∑ ≈ 1⁄Ω™∑, 600 Volt, ⁄Ω¢ to 30 Amps 1/2 6/10 3/4 8/10 1 1-1/8 1-1/4 1-1/2 1-8/10 2 2-1/2 3 3-2/10 3-1/2 4 5 5-6/10 6 6-1/4 7 7-1/2 Time-Current Characteristics–Average Melt Time-Current Characteristics–Average Melt AMPERE RATING 200 15A 20A 100 30A 1000 100 TIME IN SECONDS TIME IN SECONDS 10 1 10 1 .1 10000 10 100 CURRENT IN AMPERES 1000 CURRENT IN AMPERES .01 1 300 400 500 200 100 1 .5 .01 10 .1 Recommended fuseblocks/fuseholders for Class CC 600V fuses See Data Sheets listed below • Open fuseblocks - 1105 • Finger-safe fuseholders - 1109, 1102, 1103, 1151 • Panel-mount fuseholders - 2114, 2113 • In-line fuseholders - 2126 The only controlled copy of this Data Sheet is the electronic read-only version located on the Bussmann Network Drive. All other copies of this document are by definition uncontrolled. This bulletin is intended to clearly present comprehensive product data and provide technical information that will help the end user with design applications. Bussmann reserves the right, without notice, to change design or construction of any products and to discontinue or limit distribution of any products. Bussmann also reserves the right to change or update, without notice, any technical information contained in this bulletin. Once a product has been selected, it should be tested by the user in all possible applications. 11-20-02 SB02450 Form No. FNQ-R Page 2 of 2 Data Sheet: 1014 * Transformers Section 15 General Purpose Transformers in Enclosures Dry-Type/Cased Isolated General Purpose Single-Phase General Information The complete family of transformers from GE provide quiet, reliable transformer operation. All of the dry-type transformers through 1,000 kVA are UL listed under the requirements of Standard 506 and 1561. In addition, each transformer meets the requirements of NEMA ST-20, 1992. Type QB, QMS, and QMS 3 models are C-UL listed. General-purpose transformers are rated 600 Volts and below for supplying appliance, lighting, and power loads from electrical distribution systems. Standard distribution voltages are 600, 480, and 240 Volts; standard load voltages are 480, 240, 208, and 120 Volts. The transformer is used to obtain the load voltage from the distribution voltage. Since no vaults are required for installation, these transformers can be located right at the load to provide the correct voltage for the application. This eliminates the need for long, costly, low-voltage feeders. Type QB, .050 kVA-3 kVA, Single-Phase Construction—Types QB, QMS, and QMS 3 Core and coils are contained within a NEMA 3R nonventilated weatherproof enclosure. Type QB, QMS, and QMS 3 units feature encapsulated core and coils. Type QMS, 5 kVA-25 kVA, Single-Phase .050 - 3 kVA Indoor/Outdoor Type QB UL Listed C-UL Listed Input Voltage 240 x 480 Volts, 480 Volts 240 x 480 Volts 240 x 480 Volts, 480 Volts 240 x 480 Volts 240 x 480 Volts, 480 Volts 240 x 480 Volts 240 x 480 Volts, 480 Volts 240 x 480 Volts 240 x 480 Volts, 480 Volts 240 x 480 Volts 240 x 480 Volts, 480 Volts 240 x 480 Volts 240 x 480 Volts, 480 Volts 240 x 480 Volts 240 x 480 Volts, 480 Volts 240 x 480 Volts 240 x 480 Volts, 480 Volts 240 x 480 Volts 240 x 480 Volts, 480 Volts 240 x 480 Volts 240 x 480 Volts, 480 Volts 240 x 480 Volts 480 Volts 480 Volts 480 Volts 480 Volts 480 Volts 480 Volts 480 Volts 480 Volts 480 Volts 480 Volts 480 Volts Output Voltage KVA Frequency (Hz) Taps 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 120/240 Volts 0.05 0.05 0.075 0.075 0.1 0.1 0.15 0.15 0.25 0.25 0.5 0.5 0.75 0.75 1 1 1.5 1.5 2 2 3 3 0.25 0.5 0.75 1 1 1.5 1.5 2 2 3 3 60 Hz 50/60 Hz 60 Hz 50/60 Hz 60 Hz 50/60 Hz 60 Hz 50/60 Hz 60 Hz 50/60 Hz 60 Hz 50/60 Hz 60 Hz 50/60 Hz 60 Hz 50/60 Hz 60 Hz 50/60 Hz 60 Hz 50/60 Hz 60 Hz 50/60 Hz 50/60 Hz 50/60 Hz 50/60 Hz 60 Hz 50/60 Hz 60 Hz 50/60 Hz 60 Hz 50/60 Hz 60 Hz 60 Hz 3 50/60 Hz No taps No taps No taps No taps No taps No taps No taps No taps No taps No taps No taps No taps No taps No taps No taps No taps No taps No taps No taps No taps No taps No taps (2) 5% taps below rated primary volts (2) 5% taps below rated primary volts (2) 5% taps below rated primary volts (2) 5% taps below rated primary volts (2) 5% taps below rated primary volts (2) 5% taps below rated primary volts (2) 5% taps below rated primary volts (2) 5% taps below rated primary volts (2) 5% taps below rated primary volts (2) 5% taps below rated primary volts (4) 2 1/2% taps: 2 above and 2 below rated primary volts (2) 5% taps below rated primary volts 480 Volts 120/240 Volts 1See page 15-14 for wiring diagrams. Wiring Diagram No.1 Product Number List Price GO-90A 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 2 2 2 2 2 2 2 2 2 2 3 9T51B0002 9T51B0502 9T51B0003 9T51B0503 9T51B0004 9T51B0504 9T51B0005 9T51B0505 9T51B0007 9T51B0507 9T51B0008 9T51B0508 9T51B0009 9T51B0509 9T51B0010 9T51B0510 9T51B0011 9T51B0511 9T51B0012 9T51B0512 9T51B0013 9T51B0513 9T51B0547 9T51B0548 9T51B0549 9T51B0050 9T51B0550 9T51B0051 9T51B0551 9T51B0052 9T51B0552 9T51B0053 9T51B0135 $82.00 $88.00 $90.50 $96.50 $98.50 $104.00 $120.00 $126.00 $141.00 $149.00 $196.00 $207.00 $254.00 $269.00 $313.00 $334.00 $382.00 $407.00 $470.00 $498.00 $582.00 $615.00 $149.00 $207.00 $269.00 $332.00 $334.00 $397.00 $407.00 $489.00 $498.00 $601.00 $695.00 2 9T51B0553 $615.00 Publications and Reference: See Section 17 for a complete list of additional product-related publications Rev. 1/10 Prices and data subject to change without notice www.geelectrical.com Control Catalog 15-9 7)# 7) __________________________________________High Speed Turbo Blowers Product Guide ( 9 $7)![77! The turbo blower provides a Human Machine Interface (HMI) touch screen. The HMI enables you to operate the blower by interfacing directly with the blower controls. The HMI displays the HSI screen: Touch anywhere on the screen to display the HMI Main Menu screen: Touch the button for the operation that you want to perform, and the related screen will be displayed. The following sections discuss each of the operations listed on the Main Menu. 2 ##. "!!7)77! ***Operating description for the local control panels from a generic version of our IO&M manual. The job specific manuals will February be delivered after the blower is built and tested.*** 2010 ©2009 Houston Service Industries, Inc. 27 _________________________________________ High Speed Turbo Blowers Product Guide 5.3 Using the Blower Hand-Off-Auto (HOA) Controls Before you begin working with the HOA Controls, you must set the blower control mode for Auto or Manual mode. See VFD Control Setting (Auto or Manual) on page 34. From the Main Menu, press Blower HOA Controls to display the screen: Field Description Action Blower HOA Switch n/a OFF Label for the three HOA switches: OFF, HAND, REMOTE. The current HOA status is highlighted in green over one of the three switches. For example, in the HOA Controls screen shown here, the current HOA status is OFF. Switch to turn the blower off. HAND Switch to start the blower. REMOTE Switch to put the blower in remote mode, where it can be started / stopped remotely. Indicates if a remote signal is being sent to the blower. This allows the operator to know if the blower is being sent a request to run remotely, and the operator can then switch the blower into Remote mode. Displays a graphic and text to indicate if the blower is ON (running) or OFF (stopped). If the blower is On, the graphic will be green and “Running” will be displayed. If the blower is Off, the graphic will be red and “Stopped” will be displayed (as shown in the HOA Controls screen here). Note: Some sites require red for ON and green for OFF. Remote Signal Status Blower Status October 2009 ©2009 Houston Service Industries, Inc. See Stopping the Blower, p. 30. See Starting the Blower, p. 30. See Putting the Blower in Remote Mode, p. 30. n/a n/a 29 X^[ _________________________________________ High Speed Turbo Blowers Product Guide Field Description Action Minimum Off Time Remaining (secs) Displays the amount of time remaining until the blower can be restarted. After the blower is shutdown (for any reason), it cannot be restarted until this time expires. n/a If the blower is shutdown due to an interlock, such as a high discharge temperature, the status box at the top/middle of the HOA Controls Screen will display “Blower Shutdown”. This indicates that the blower cannot be restarted until the operator determines the cause of the shutdown and resets the shutdown condition. For more information, see Managing Alarms on page 39. 5.3.1 Starting the Blower Before you start the blower, you must set the blower control mode for Auto or Manual mode. See VFD Control Setting (Auto or Manual) on page 34. Step 1 2 Action From the Main Menu, press Blower HOA Controls. The HOA Controls screen is displayed. Press HAND. The blower starts. The Blower Status graphic will display in green and the text will display STARTED. 5.3.2 Stopping the Blower Step Action 1 From the Main Menu, press Blower HOA Controls. The HOA (Hand-Off-Auto) screen is displayed. 2 Press OFF. The blower stops running. The Blower Status graphic will display in red and the text will display STOPPED. 5.3.3 Putting the Blower in Remote Mode Step 1 2 October 2009 Action From the Main Menu, press Blower HOA Controls. The HOA (Hand-Off-Auto) screen is displayed. Press REMOTE. The blower is now in remote mode, and can be controlled by an external source, such as a remote PLC. The Blower Status graphic will display in yellow and the text will display REMOTE. ©2009 Houston Service Industries, Inc. 30 X^\ _________________________________________ High Speed Turbo Blowers Product Guide 5.4 Viewing the Operator (Status) Info From the Main Menu, press Operator Info to display the screen (and, press Page 2 for the second screen): Field Description Action various Displays • all analog input signals and calculated values • ON / OFF status of the blower • mode (of operation) View information and, as needed, Press the Speed button (+ or -) to increase or decrease blower speed. If the blower is in Manual (VFD) Control mode, you can incrementally increase or decrease the blower speed by pressing the appropriate Speed button (green + for increase; red - for decrease). The SCFM is a calculated value based on parameters and information received from transmitters and the VFD, and from parameters and equations that are specific to each blower. The SCFM calculation is highly accurate. October 2009 ©2009 Houston Service Industries, Inc. 31 X^] _________________________________________ High Speed Turbo Blowers Product Guide 5.5 Viewing the Surge & Max Flow Status This screen is helpful during blower start-up or when analyzing potential surge conditions. From the Main Menu, press Surge & Max Flow Status to display the screen: Field Description Action various Displays • potential Surge or Max Flow conditions • flow rate • pressures • pressure ratio • Dynamic Surge and Max Flow alarm and shutdown points • RPM View information The blower Surge and Max Flow points are dynamic since they are based on current operating conditions and are functions of kilowatt. October 2009 ©2009 Houston Service Industries, Inc. 32 X^^ _________________________________________ High Speed Turbo Blowers Product Guide 5.6 Trends From the Main Menu, press Trends to display the screen: Field Description Action graph Control buttons <, > CLR Flow Range buttons Displays flow activity for the blower. Use to move the graph display forward or back. View Press control buttons. Use to clear the current graph, and start a new graph. Use to view flow at different ranges. This allows for better viewing of different resolutions or scaling. For example, you can view a flow trend range from 0 to 300 and another trend ranged from 0 to 10,000. Display pressure values. Display Dissolved Oxygen values. Display Input power values. Press CLR. Press desired flow range field. Pressure DO Input KW October 2009 ©2009 Houston Service Industries, Inc. Press Pressure. Press DO. Press Input KW. 33 X^_ _________________________________________ High Speed Turbo Blowers Product Guide 5.7 VFD Control Setting (Auto or Manual) From the Main Menu, press VFD Auto/Manual to display the screen: Use this screen to set how the VFD will be controlled (Auto or Manual), and to view status information on the various control signals that determine the actual VFD speed. Note: The Speed fields have a Level 1 security and require a password to change. For information on all passwords, see Passwords on Setpoint , page 44. Field Description Action Control Source Manual / Auto mode Label for Manual / Auto mode field. Use to set the control source mode (manual / auto) for the VFD. When in Manual, the VFD will simply go to the speed as entered by the operator in the Manual Speed entry. When in Automatic, the PID equation will send a signal to the VFD. n/a 1. Press for Manual or Auto mode. The Security Code screen is displayed. 2. Type the Level 1 security code and press Enter. The mode is changed to Manual or Auto, and the “lever” in the display points to the selected mode. Maximum Speed and Minimum Speed Use to limit how slow or fast the VFD can run. These limits take precedence whether the VFD is Manual or Auto mode. 1. Type the desired value. The Security Code screen is displayed. 2. Type the Level 1 security code and press Enter. The Speed is set / changed. October 2009 ©2009 Houston Service Industries, Inc. 34 X^` _________________________________________ High Speed Turbo Blowers Product Guide Field Description Action Manual Speed Displays the manual speed of the VFD. Signal to VFD Actual Hz Displays amount of manual speed. Displays HZ value. Press the Speed button (+ or -) to increase or decrease blower speed. n/a n/a October 2009 ©2009 Houston Service Industries, Inc. 35 X_W _________________________________________ High Speed Turbo Blowers Product Guide 5.8 Setting the Control Strategy through Mode Selection From the Main Menu, press Mode Selection to display the screen: Use this screen to set-up the required control strategy for your site, display the value of each applicable signal, and adjust (as needed) the Setpoint and Deadband for each signal. Note: The Value field has a security level and requires a password to change. For information on all passwords, see Passwords on Setpoint on page 44. Field Description Action (=====Remote Speed Signal in % Remote Speed Mode Displays value when blower is in remote mode. n/a Allows a remote system such as a Master Panel or a Plant Control System to send a 4-20mA for the Actual Speed of the Blower Indicates the Blower speed is controlled by pressure. This uses a Pressure PID loop to maintain a Constant Outlet Pressure. Indicates the Blower speed is controlled by flow. This uses a Flow PID loop to maintain a Constant Flow. Note that the flow is a calculated flow based on process conditions. Indicates the Blower speed is controlled by Dissolved Oxygen. This uses a Pressure PID loop to maintain the DO. Allows you to set the value for pressure, flow, and/or DO. n/a Pressure Mode Flow Mode DO Mode Value October 2009 ©2009 Houston Service Industries, Inc. n/a n/a n/a 1. Type the desired value. The Security Code screen is displayed. 2. Type the security 36 X_X _________________________________________ High Speed Turbo Blowers Product Guide Field Description Setpoint Deadband Displays the setpoint values for pressure, flow, and/or DO. Displays the deadband values for pressure, flow, and/or DO. Displays the value when blower is in remote mode. Signal to VFD in % ====) PID Info October 2009 Allows you to go to the PID (Proportional, Integral, Derivative) Info screen (described in the next sub-section) ©2009 Houston Service Industries, Inc. Action code and press Enter. The Value is set / changed. n/a n/a n/a Press to display the PID Info screen. 37 X_Y _________________________________________ High Speed Turbo Blowers Product Guide 5.9 Performance Curve From the Main Menu, press Performance Curve to display the screen: Field Description Action n/a Use to view the performance of the blower. A moveable green dot is shown based on Flow and Pressure, showing the exact operating conditions and where on the curve the blower is currently operating. n/a October 2009 ©2009 Houston Service Industries, Inc. 38 X_Z _________________________________________ High Speed Turbo Blowers Product Guide 5.10 Managing Alarms The HSTB is capable of alarming and shutting down due to: x x x x x x x x x x Blower surge Max flow High enclosure temperature High inlet filter pressure E-stop actuation High inlet and/or outlet temperature High motor temperature Transmitter or signal failures VFD fault No Run Signal upon Start Command To manage an alarm, from the HMI Main Menu, press Alarm Management to display the screen: Use this screen to view all alarms, acknowledge all alarms, and to reset the Shutdown Interlock when a blower is shutdown. Field Description Action Alarm History Screen Alarm Acknowledge Blower status Shutdown Reset Displays the Alarm History screen. Press Use to acknowledge an active alarm. Press Displays the status of the blower: normal or shutdown. Use to reset a shutdown condition after the blower has been shutdown due to an interlock, such as high Vibration After the blower is shutdown, it is locked out and cannot be restarted (either locally or remotely) until you determine the cause of the problem. Once the problem has been n/a Press October 2009 ©2009 Houston Service Industries, Inc. 39 X_[ _________________________________________ High Speed Turbo Blowers Product Guide Field Description identified/resolved, you must press this reset button before the blower can be restarted. Action 5.10.1 Displaying the Alarm History From the Alarm Management screen, press Alarm History Screen to display the screen: Press the desired button to navigate the screen. 5.10.2 Resolving an Alarm When an alarm occurs, the red indicating light on the front of the Blower Control Panel (see Chapter 3 on page 11) will flash. Note: The most recent active alarm is shown on the bottom of all screens. To resolve the alarm, do the following: Step Action 1 On the Main Menu screen, press Alarm Management. The Alarm Management Screen is displayed. 2 Press Alarm Acknowledge. The red indicating light will stop flashing, but will stay on until the alarm condition is resolved. Note: If a new alarm occurs while a previously acknowledged alarm is still active, the red indicating light will start flashing again, until Alarm Acknowledge is pressed again. 3 Press Alarm History Screen. The Alarm History screen is displayed, showing all active and previous alarms. (See page 40.) October 2009 ©2009 Houston Service Industries, Inc. 40 X_\ _________________________________________ High Speed Turbo Blowers Product Guide Step 4 5 Action Review the alarm condition, and all details provided, including an alarm counter showing the number of times the alarm has occurred. Note: The alarm counter can be reset, as needed, via a password entry. Press Clear All in Alarm History Screen, which will stop the red light on the control panel. 5.11 Displaying HSI Contact Information From the Main Menu, press Contact Information to display the screen: Use this information to contact HSI. October 2009 ©2009 Houston Service Industries, Inc. 41 X_] _________________________________________ High Speed Turbo Blowers Product Guide 5.12 Heat Exchanger From the Main Menu, press Heat Exchanger to display the screen: Field Description Action Heat Exchanger OFF Displays status of the Heat Exchanger n/a Heat Exchanger AUTO/ ON Selects whether or not the Heat Exchanger should run manually or automatically based on the blower running status. If set to ON, the Heat Exchanger will run continuously regardless of the status of the blower. Press to change to manual or auto mode. October 2009 ©2009 Houston Service Industries, Inc. 42 X_^ _________________________________________ High Speed Turbo Blowers Product Guide 5.13 Finding Help Information From the Main Menu, press Help Menu to display the screen: Press the button for the information needed, and the related screen will be displayed. The following subsections discuss each of the information items listed on the Help Menu. Note: All Setpoint screens provide a October 2009 button for returning to the Setpoints Menu. ©2009 Houston Service Industries, Inc. 43 X__ )( )!* '! Voltage Output PIN WIRE 1 + EXC RED 2 COM BK 3 +OUT WT Current Output PIN WIRE 1 + EXC RED 2 - EXC BK 17.48 (0.69) Dimensions: mm (in) 53.59 (2.11) Ø25.4 (1.00) PX209 PX219 Dimensions: mm ø = diameter Ø25.4 (1.00) 18 HEX PXM209 PXM219 Current Output PIN WIRE 1 + EXC RED 2 - EXC BK 1/4 NPT 18.79 (0.74) 34.26 (1.35) max 51.31 (2.09) G1/4 Voltage Output PIN WIRE 1 + EXC RED 2 COM BK 3 + OUT WT 1.78 (0.07) 9 mm DIN 43650 with PG7 Gland MAKE IT WIRELESS! ADD WIRELESS CAPABILITY TO YOUR PROCESS MEASUREMENT SYSTEM! Wireless Connections From Your Sensor to Your Instrumentation: ⻬ Thermocouple, RTD, Infrared Temperature, Humidity, pH, as well as Process Voltage/Current ⻬ Easy to Install and Use ⻬ Capable of Distances up to 120 m (400') te For Comple e e S s Detail Wireless Section W WRS232-USB wireless transmitter, $159, shown close to actual size. Wireless Communications From Your Instrument to a PC: ⻬ Convert the RS232 Signal on Your Meter, Controller or PLC ⻬ Works with any PC with a USB Port ⻬ Easy to Install with Seamless Operation ⻬ Capable of Distances up to 120 m (400') UWTC-1, $125. Both models shown smaller than actual size. UWTC-REC2, $235, available with 4 to 20 mA, 0 to 5 Vdc, 0 to 10 Vdc and Type K thermocouple output. Laptop not included. B-91 AVAILABLE FOR FAST DELIVERY! STANDARD MODELS To Order (Specify Model Number) PRICE COMPATIBLE METERS* $195 195 195 195 195 195 DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E $195 195 195 195 195 195 DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E $195 195 195 195 195 DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E Comes complete with 5-point NIST calibration certificate. * See section D for compatible meters. See pages B-149 and B-150 for PX209 units with 4 to 20 mA output. Note: To order 0 to 10 Vdc output, replace “5V” suffix with “10V” (no extra charge). Ordering Example: PX219-015A5V, 0 to 5 Vdc output transducer for absolute pressure with a 0 to 15 psia range, PS-4G snubber for gasses and TX4-100 shielded wire, $195 + 12.75 + 35.00 = $242.75. STANDARD ACCESSORIES MODEL PRICE PS-4G $12.75 DESCRIPTION AVAILABLE FOR FAST DELIVERY! METRIC MODELS ⁄4 NPT pressure snubber for gaseous media PS-4E 12.75 1⁄4 NPT pressure snubber for water and light oils PS-4D 12.75 1⁄4 NPT pressure snubber for dense liquids (motor oil) TX4-100 35.00 30 m (100') of 4-conductor shielded wire METRIC ACCESSORIES To Order (Specify PXM209 for Cable or PXM219 for DIN Connector) MODEL PRICE DESCRIPTION PS-4G-MG $12.75 G1⁄4 pressure snubber for gaseous media 12.75 G1⁄4 pressure snubber for water and light oils 12.75 G1⁄4 pressure snubber for dense liquids (motor oil) 35.00 30 m (100') of 4-conductor shielded wire 0 to 1.0 0 to 15 0 to 1.6 0 to 23 0 to 2.5 0 to 36 0 to 4.0 0 to 58 0 to 6.0 0 to 87 0 to 10.0 0 to 145 0 to 16.0 0 to 232 0 to 20.0 0 to 290 PS-4E-MG PS-4D-MG TX4-100 1 Order a snubber to protect your pressure transducer! PS-4G, $12.75, shown smaller than actual size. bar psi CABLE STYLE PRICE CONN. STYLE GAGE PRESSURE RANGES (bar) WITH 0 to 10 Vdc OUTPUT 0 to 1.0 0 to 15 0 to 1.6 0 to 23 0 to 2.5 0 to 36 0 to 4.0 0 to 58 0 to 6.0 0 to 87 0 to 10.0 0 to 145 0 to 16.0 0 to 232 0 to 20.0 0 to 290 PXM209-001G10V PXM209-1.60G10V PXM209-2.50G10V PXM209-004G10V PXM209-006G10V PXM209-010G10V PXM209-016G10V PXM209-020G10V $195 195 195 195 195 195 195 195 PXM219-001G10V PXM219-1.60G10V PXM219-2.50G10V PXM219-004G10V PXM219-006G10V PXM219-010G10V PXM219-016G10V PXM219-020G10V PRICE COMPATIBLE METERS* $195 195 195 195 195 195 195 195 DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E $195 195 195 195 195 195 195 195 DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E ABSOLUTE PRESSURE RANGES (bar) WITH 0 to 10 Vdc OUTPUT PXM209-001A10V PXM209-1.60A10V PXM209-2.50A10V PXM209-004A10V PXM209-006A10V PXM209-010A10V PXM209-016A10V PXM209-020A10V $195 195 195 195 195 195 195 195 PXM219-001A10V PXM219-1.60A10V PXM219-2.50A10V PXM219-004A10V PXM219-006A10V PXM219-010A10V PXM219-016A10V PXM219-020A10V VACUUM AND COMPOUND RANGES (bar) WITH 0 to 10 Vdc OUTPUT VAC to 0 VAC to 1 VAC to 3 VAC to 6 VAC to 9 VAC to 0 VAC to 15 VAC to 45 VAC to 87 VAC to 131 PXM209-VAC000G10V PXM209-VAC001G10V PXM209-VAC003G10V PXM209-VAC006G10V PXM209-VAC009G10V $195 195 195 195 195 PXM219-VAC000G10V PXM219-VAC001G10V PXM219-VAC003G10V PXM219-VAC006G10V PXM219-VAC009G10V $195 195 195 195 195 DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E Comes complete with 5-point calibration. * See section D for compatible meters. Note: The voltage output versions of the vacuum and compound sensors generate 0 Vdc at vacuum and 10 Vdc at full scale. Ordering Example: PXM219-001A10V, 0 to 10 Vdc output transducer for absolute pressure with a 0 to 1 bar range, PS-4G-MG snubber and TX4-100 shielded wire, $195 + 12.75 + 35 = $242.75. B-92 VOLTAGE OUTPUT PRESSURE TRANSDUCERS psi bar CABLE STYLE PRICE CONN. STYLE GAGE PRESSURE RANGES (psig) WITH 0 TO 5 Vdc OUTPUT 0 to 15 0 to 1.0 PX209-015G5V $195 PX219-015G5V 0 to 30 0 to 2.1 PX209-030G5V 195 PX219-030G5V 0 to 60 0 to 4.1 PX209-060G5V 195 PX219-060G5V 0 to 100 0 to 6.9 PX209-100G5V 195 PX219-100G5V 0 to 200 0 to 13.8 PX209-200G5V 195 PX219-200G5V 0 to 300 0 to 20.7 PX209-300G5V 195 PX219-300G5V ABSOLUTE PRESSURE RANGES (psia) WITH 0 TO 5 Vdc OUTPUT 0 to 15 0 to 1.0 PX209-015A5V $195 PX219-015A5V 0 to 30 0 to 2.1 PX209-030A5V 195 PX219-030A5V 0 to 60 0 to 4.1 PX209-060A5V 195 PX219-060A5V 0 to 100 0 to 6.9 PX209-100A5V 195 PX219-100A5V 0 to 200 0 to 13.8 PX209-200A5V 195 PX219-200A5V 0 to 300 0 to 20.7 PX209-300A5V 195 PX219-300A5V VACUUM AND COMPOUND RANGES WITH 0 TO 5 Vdc OUTPUT -14.7 to 0 -1 to 0 PX209-30VAC5V $195 PX219-30VAC5V -14.7 to 15 -1 to 1.0 PX209-30V15G5V 195 PX219-30V15G5V -14.7 to 45 -1 to 3.1 PX209-30V45G5V 195 PX219-30V45G5V -14.7 to 85 -1 to 5.9 PX209-30V85G5V 195 PX219-30V85G5V -14.7 to 135 -1 to 9.3 PX209-30V135G5V 195 PX219-30V135G5V B AVAILABLE FOR FAST DELIVERY! STANDARD MODELS To Order (Specify PX209 for Cable or PX219 for DIN Connector) psi bar CABLE STYLE PRICE CONN. STYLE GAGE PRESSURE RANGES (psig) WITH 4 TO 20 mA OUTPUT Cable style. PRICE COMPATIBLE METERS* 0 to 15 0 to 1.0 PX209-015GI $215 PX219-015GI $215 DPi8, DP41-E, DP25B-E 0 to 30 0 to 2.1 PX209-030GI 215 PX219-030GI 215 DPi8, DP41-E, DP25B-E 0 to 60 0 to 4.1 PX209-060GI 215 PX219-060GI 215 DPi8, DP41-E, DP25B-E 0 to 100 0 to 6.9 PX209-100GI 215 PX219-100GI 215 DPi8, DP41-E, DP25B-E 0 to 200 0 to 13.8 PX209-200GI 215 PX219-200GI 215 DPi8, DP41-E, DP25B-E 0 to 300 0 to 20.7 PX209-300GI 215 PX219-300GI 215 DPi8, DP41-E, DP25B-E ABSOLUTE PRESSURE RANGES (psia) WITH 4 TO 20 mA OUTPUT STANDARD PX209-100GI, $215, shown smaller than actual size. Order a snubber to protect your pressure transducer! PS-4G, $12.75, shown actual size. STANDARD ACCESSORIES MODEL PRICE PS-4G $12.75 PS-4E 12.75 PS-4D 12.75 TX4-100 35.00 DESCRIPTION 1 ⁄4 NPT pressure snubber for gaseous media 1 ⁄4 NPT pressure snubber for water and light oils 1 ⁄4 NPT pressure snubber for dense liquids (motor oil) 30 m (100') of 4-conductor shielded wire 0 to 15 0 to 1.0 PX209-015AI $215 PX219-015AI $215 DPi8, DP41-E, DP25B-E 0 to 30 0 to 2.1 PX209-030AI 215 PX219-030AI 215 DPi8, DP41-E, DP25B-E 0 to 60 0 to 4.1 PX209-060AI 215 PX219-060AI 215 DPi8, DP41-E, DP25B-E 0 to 100 0 to 6.9 PX209-100AI 215 PX219-100AI 215 DPi8, DP41-E, DP25B-E 0 to 200 0 to 13.8 PX209-200AI 215 PX219-200AI 215 DPi8, DP41-E, DP25B-E 0 to 300 0 to 20.7 PX209-300AI 215 PX219-300AI 215 DPi8, DP41-E, DP25B-E VACUUM AND COMPOUND RANGES WITH 4 TO 20 mA OUTPUT -14.7 to 0 PX209-30VACI $215 PX219-30VACI $215 DPi8, DP41-E, DP25B-E -14.7 to 15 -1 to 1.0 -1 to 0 PX209-30V15GI 215 PX219-30V15GI 215 DPi8, DP41-E, DP25B-E -14.7 to 45 -1 to 3.1 PX209-30V45GI 215 PX219-30V45GI 215 DPi8, DP41-E, DP25B-E -14.7 to 85 -1 to 5.9 PX209-30V85GI 215 PX219-30V85GI 215 DPi8, DP41-E, DP25B-E -14.7 to 135 -1 to 9.3 PX209-30V135GI 215 PX219-30V135GI 215 DPi8, DP41-E, DP25B-E Comes complete with 5-point NIST traceable calibration. * See section D for compatible meters. Ordering Example: PX219-015AI, 4 to 20 mA output transducer for absolute pressure with a 0 to 15 psia range, PS-4G snubber and TX4-100 shielded wire, $215 + 12.75 + 35 = $262.75. AVAILABLE FOR FAST DELIVERY! METRIC MODELS To Order (Specify PXM209 for Cable or PXM219 for DIN Connector) bar CABLE STYLE PRICE CONN. STYLE GAGE PRESSURE RANGES (bar) WITH 4 to 20 mA OUTPUT 0 to 1.0 0 to 1.6 0 to 2.5 0 to 4.0 0 to 6.0 0 to 10.0 0 to 16.0 0 to 20.0 PXM209-001GI PXM209-1.60GI PXM209-2.50GI PXM209-004GI PXM209-006GI PXM209-010GI PXM209-016GI PXM209-020GI $215 215 215 215 215 215 215 215 PRICE COMPATIBLE METERS* $215 215 215 215 215 215 215 215 DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E $215 215 215 215 215 215 215 215 DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E $215 215 215 215 215 DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E DPi8, DP41-E, DP25B-E PXM219-001GI PXM219-1.60GI PXM219-2.50GI PXM219-004GI PXM219-006GI PXM219-010GI PXM219-016GI PXM219-020GI ABSOLUTE PRESSURE RANGES (bar) WITH 4 to 20 mA OUTPUT METRIC ACCESSORIES MODEL PRICE DESCRIPTION PS-4G-MG $12.75 G1⁄4 pressure snubber for gaseous media 12.75 G1⁄4 pressure snubber for water and light oils 12.75 G1⁄4 pressure snubber for dense liquids (motor oil) 35.00 30 m (100') of 4-conductor shielded wire PS-4E-MG PS-4D-MG TX4-100 Recommended Reference Video: Pressure, Industrial Measurement Series, VT-1005-DVD, $100. See Section Y For Additional Books. 0 to 1.0 0 to 1.6 0 to 2.5 0 to 4.0 0 to 6.0 0 to 10.0 0 to 16.0 0 to 20.0 PXM209-001AI PXM209-1.60AI PXM209-2.50AI PXM209-004AI PXM209-006AI PXM209-010AI PXM209-016AI PXM209-020AI $215 215 215 215 215 215 215 215 PXM219-001AI PXM219-1.60AI PXM219-2.50AI PXM219-004AI PXM219-006AI PXM219-010AI PXM219-016AI PXM219-020AI VACUUM AND COMPOUND RANGES (bar) WITH 4 to 20 mA OUTPUT VAC to 0 VAC to 1 VAC to 3 VAC to 6 VAC to 9 PXM209-VAC000GI PXM209-VAC001GI PXM209-VAC003GI PXM209-VAC006GI PXM209-VAC009GI $215 215 215 215 215 PXM219-VAC000GI PXM219-VAC001GI PXM219-VAC003GI PXM219-VAC006GI PXM219-VAC009GI Comes complete with 5-point NIST traceable calibration. * See section D for compatible meters. Note: The current output versions of the vacuum and compound sensors generate 4 mA at vacuum and 20 mA at full scale. Ordering Example: PXM219-001AI, 4 to 20 mA output transducer for absolute pressure with a 0 to 1 bar range, PS-4G-MG snubber and TX4-100 shielded wire, $215 + 12.75 + 35 = $262.75. B-151 ECONOMICAL LOW-PRESSURE/ VACUUM SWITCHES PSW-680 Series Vacuum to 200 inH2O See switcnh page so accessoriuedible alarms a r fo 7 H-4 odules. and relay m Starts at 95 $ ⻬ Compound Range Covers Vacuum and Pressure in One Unit ⻬ Low Inch-ofWater Ranges ⻬ Silver Switch Contacts Rated for 5 A @ 250 Vac ⻬ 1 A, Gold-Plated Contacts for TTL or Dry Contacts PSW-681, $95, shown actual size. SPECIFICATIONS Process Temp: -55 to 90°C (-67 to 194°F); a setpoint change of up to 2% of sensor capacity can be anticipated when switch is used either below -25°C (-13°F) or above 50°C (122°F) Repeatability: ±0.8 inH2O Cycling: Not to exceed 20 cpm Warranty: 3 years/1 million cycles Proof Pressure/Vacuum: ±553.6 inH2O (±20 psi) Wetted Parts: Buna-N, 316 SS, zinc alloy with chromate finish, loctite #271 sealing compound Dimensions: 58.4 D x 57.2 mm H (2.3 x 2.25") Pressure Port: 1⁄8-27 MNPT Electrical Connection: 300 mm (12") pigtail leads, 20 AWG, polyvinyl insulated Weight: 221 g (7.8 oz) Proof Pressure/Vacuum: 15 psi, -5.4 psi or 11 inHg vac AVAILABLE FOR FAST DELIVERY! To Order (Specify Model Number) ADJUSTABLE RANGE MAX MODEL NO. PRICE DECREASING INCREASING UNITS PRES* SWITCH Compound Range (Units = inH 2O ) ±20 inH2O PSW-681 $95 1A 2.75 to 200 2.75 to 200 pressure psi 6.8 to 100 5.4 to 100 inH2O ±20 PSW-685 95 5A vacuum psi * Exceeding these values may cause a shift in the setpoint. ACCESSORY MODEL NO. CM-4411 PRICE $125 DESCRIPTION Reference Book: Gas Turbine Engineering Handbook Comes complete with operator’s manual. Ordering Example: PSW-685, pressure/vacuum switch with the ranges shown above and 5 A switch contact, $95. H-19 3 )+ ,"#-!. ). vacon nxp liquid cooled powerdrives for extreme conditions 1 ultimate performance The Vacon NXP liquid cooled drive is the most space-saving AC drive in the market, well suited for locations where air cooling would be difficult, expensive or impractical or where the installation space is at a premium. As no air ducts are required, the liquid cooled drives are extremely compact and suitable for different kinds of industries, e.g. the marine and offshore, the pulp and paper, as well as for the mining and metal industries. The Vacon NXP liquid cooled drive is today available from 7.5 kW up to 5000 kW at 380 to 690 VAC supply voltages. The Vacon NXP liquid cooled drive is an advanced AC drive for induction and permanent magnet motors. Designed reliability • • • • • • • • • • • Proven technology, high-quality electrical components Modularity No galvanic contact between coolant and live parts Fulfils international safety and functionality standards, as well as classification requirements Liquid cooling guarantees more stable conditions Uninfluenced by variations in the environment Enclosure temperature level can be high without risk of overheating Adequate sizing sustains long life Extensive and full power final testing on motor for whole drive system All IGBTs are protected against overtemperature and overload Double-shielded cooling circuitry vacon nxp liquid cooled ch5 2 Wide application area All applications for the air cooled Vacon NXP are also available for the Vacon NX liquid cooled drives. As a high degree of protection (IP54 or higher) can easily be achieved with these drives, they can be installed almost anywhere in the production area. This also reduces the load on the air-conditioning system in the electrical rooms – in many retrofit applications this is an important consideration. As the liquid cooled drives do not require large cooling fans, they are also quiet. Vacon DriveSynch, fully redundant control of highpower drives The Vacon DriveSynch, Vacon’s new control concept for highpower drives, provides a high degree of redundancy in processes controlled by AC drives. It allows the control of one motor by means of 2, 3 or 4 power units of 100 - 2,500 kW each. The Vacon DriveSynch is suited for the control of single- and multi-winding AC motors. The Vacon DriveSynch brings major benefits especially for system integrators that design and deliver systems to demanding environments where redundancy is of utmost importance. vacon nxp liquid cooled ch61/ch62 vacon nxp liquid cooled ch72 optimized, ultra compact solution Customer-oriented Exclusively designed for liquid cooling • The Vacon NXP dissipates less than 5% of its total heat losses to air, only 0.1...0.15% of drive the rated load. A high-tech cooling heatsink enables better cooling efficiency and makes the cooling utilization ratio of the components higher than ever. The majority of other liquid cooled drives in the market is based on modifications to an air cooled drive. • • • • • • • • • • High power density, e.g, a 12-pulse CH74 is the smallest in the world; the rectifier, inverter and optional brake chopper in the same package. Extensive operating conditions, temperatures up to 50°C without derating, RH 5...96%, vibrations up to 1 G Less investments in infrastructure No need for filtered cooling air or for a large air conditioning system Substantial energy savings on the cooling arrangement Takes less floor space The most silent AC drive in the market, no large fans High IP rating possible for severe and harsh environments Heat losses to air less than 0.1...0.15% Separated motor cabling stands High switching frequency reduces current ripple for motor, improving motor loadability in AC drive applications vacon nxp liquid cooled ch63 Total lifetime costs • • • • • • • • • Compact size, less material and labour required Space savings up to 70% Smaller enclosure footprint Efficiency >98% Heat losses to air < 0.1...0.15% of output power Electrical energy savings between air cooled and liquid cooled drives Power factor of 0.99 with Active Front-End Modularity Serviceability vacon nxp liquid cooled ch64 vacon nxp liquid cooled ch74 3 complete control platform A robust modular design makes the Vacon NXP a suitable platform for all drive needs in different segments and applications, e.g. marine and offshore, renewable energy, mining and minerals as well as water and wastewater. The core of the Vacon NXP is a fast micro controller, providing high dynamic performance for applications where good motor handling and reliability is required. It can be used both in open loop applications as well as in applications requiring encoder feedback. The Vacon NXP supports fast drive-to-drive communication. It also offers an integrated data logger functionality for analysis of dynamic events without the need of additional hardware. Fast monitoring of several drives can be done simultaneously by using the NCDrive tool and CAN communication. In applications where reliability and quality are words that are close to the heart the Vacon NXP is the logical choice. ATEX Overtemperature detection using a thermistor can be used as a tripping device for ATEX certified motors. The thermistor tripping function is certified by VTT according to the ATEX directive 94/9/EC, for group II, category (2) in the ‘G’ area (areas where potentially explosive gas, vapor, mist or air mixtures are present) and the ‘D’ area (area with combustible dust). Features • • • • • • • • • • • • Encoder options • Normal pulse encoder • Absolute encoder ENDAT • Resolver • SSI • Sine cos. Speed error < 0.01%, depending on the encoder Incremental or absolute encoder support Encoder voltages of 5 V (RS422), 15 V or 24 V, depending on the option card Full torque control at all speeds Torque accuracy < 2%; < 5% down to zero speed Full capability for master/follower configurations Integrated data logger for system analysis Fast multiple drive monitoring with PC High-speed bus (12 Mbit/s) for fast drive-to-drive communication High-speed applications (up to 7200 Hz) possible Supports asynchronous induction as well as permanent magnet synchronous motors The core of the Vacon NXP is a fast micro controller, providing high dynamic performance and a large memory for developing versatile applications. Safe Disable Fieldbus options • Ethernet –Modbus TCP • Profibus • Modbus • CAN Open • DeviceNet • BACnet • LonWorks CAN Open I/O Applications can be developed with third-party I/O modules of CAN Open, where a large number of I/Os are to be integrated into the drive. 4 A hardware-based Safe Disable function is designed to prevent any torque on the motor shaft. The Safe Disable function is certified according to EN954-1, Cat 3. The Safe Disable function has been certified by BGIA. the advantages of the cooling technology When comparing the cooling technology solutions, it is important to understand the effects on the infrastructure of the electrical room, and electrical room requirements. Additional comparison parameters are the geographical location, the customer segment and the customer process. 400 kW, 690 VAC liquid cooled drive is: Relative cost value Total Cost Calculation, LC vs. AC • 32 % of the volume of the air cooled drive • 50 % of the width of the air cooled drive • 70 % of the weight of the air cooled drive • 20 dBA more silent than the air cooled drive 200 % 150 % Liquid Cooled Air Cooled 100 % 50 % 0% 1 2 3 4 5 6 7 8 9 10 Years In warm climates it is extremely important to observe the amount of heat load transferred to the electrical room because it is in a direct relationship to the electrical energy consumption. The type-tested switchgears standard EN 60439-1 specifies that the electrical room’s 24-hour average temperature should be below +35°C and the maximum temporary temperature cannot exceed +40°C. Due to this, the cooling system in electrical rooms is typically based on air conditioning chillers, which are dimensioned by the maximum heat load, the inside temperature of the electrical room and the outdoor maximum temperature. The normal electrical energy consumption of air conditioning is 25...33% of the cooling power. Therefore, high-power drives are creating huge energy consumption, based on the heat load produced. The initial investments in the liquid cooled AC drives technology are slightly more expensive than those in the air cooled AC drives technology because of the technology used, cooling piping arrangements and heat exchanger systems. It is significant to understand that a heat exchanger needs also be compared to ventilation and air condition systems with ventilation ducts, ventilation machine and ventilation automation system. The non-evaluated features remarkably decrease the payback time of the liquid cooled drives. The payback time of a single 650-kW liquid cooled drive is 3 years. The payback time of >1 MW high power drives or drive groups reduces significantly and the initial investment difference can be compensated during the first operating year. The electrical energy cost trend supports a wider use of the liquid cooled drives technology, and the number of on-shore installations is growing rapidly. Liquid Cooled Drive Losses, Air - 0.15% Power Output (to Motor) - 98% Power Input - 100% Losses, Liquid - 1.85% Air Cooled Drive Losses, Air - 2% Power Output (to Motor) - 98% Power Input - 100% 5 technical data Vacon NXP liquid cooled frequency converters – Mains voltage 400—500 VAC Drive/Current Converter Converter type type 6-pulse 12-pulse Electrical output power Thermal Rated Rated Optimum Optimum Power loss ITH continuous IL continuous IH motor at ITH motor at ITH c/a/T*) Chassis [A] [A] [A] (400 V) [kW] (500 V) [kW] [kW] 0016_5 0022_5 0031_5 0038_5 0045_5 0061_5 16 22 31 38 45 61 15 20 28 35 41 55 11 15 21 25 30 41 7,5 11 15 18,5 22 30 11 15 18,5 22 30 37 0.4/0.2/0.6 0.5/0.2/0.7 0.7/0.2/0.9 0.8/0.2/1.0 1.0/0.3/1.3 1.3/0.3/1.5 CH3 CH3 CH3 CH3 CH3 CH3 0072_5 0087_5 0105_5 0140_5 72 87 105 140 65 79 95 127 48 58 70 93 37 45 55 75 45 55 75 90 1.2/0.3/1.5 1.5/0.3/1.8 1.8/0.3/2.1 2.3/0.3/2.6 CH4 CH4 CH4 CH4 0168_5 0205_5 0261_5 168 205 261 153 186 237 112 137 174 90 110 132 110 132 160 4.0/0.4/4.4 5.0/0.5/5.5 6.0/0.5/6.5 CH5 CH5 CH5 0300_5 0385_5 300 385 273 350 200 257 160 200 200 250 4.5/0.5/5.0 6.0/0.5/6.5 CH61 CH61 460 520 590 650 730 418 473 536 591 664 307 347 393 433 487 250 250 315 355 400 315 355 400 450 500 6.5/0.5/7.0 7.5/0.6/8.1 9.0/0.7/9.7 10.0/0.7/10.7 12.0/0.8/12.8 CH72 CH72 CH72 CH72 CH72 820 920 1030 1045 745 836 936 766 547 613 687 600 450 500 560 750 560 600 700 750 12.5/0.8/13.3 14.4/0.9/15.3 16.5/1.0/17.5 18.5/1.2/19.7 CH63 CH63 CH63 CH63 0460_5 0520_5 0590_5 0650_5 0730_5 0460_5 0520_5 0590_5 0650_5 0730_5 0820_5 0920_5 1030_5 1150_5 1370_5 1640_5 2060_5 2300_5 1370_5 1640_5 2060_5 1370 1640 2060 2300 1245 1491 1873 2091 913 1093 1373 1533 700 900 1100 1200 900 1100 1400 1500 19.0/1.2/20.2 24.0/1.4/25.4 32.5/1.8/34.3 36.3/2.0/38.3 CH74 CH74 CH74 CH74 2470_5 2950_5 3710_5 4140_5 2470_5 2950_5 3710_5 4140_5 2470 2950 3710 4140 2245 2681 3372 3763 1647 1967 2473 2760 1300 1550 1950 2150 1600 1950 2450 2700 38.8/2.2/41.0 46.3/2.6/48.9 58.2/3.0/61.2 65.0/3.6/68.6 2xCH74 2xCH74 2xCH74 2xCH74 2x2470_5 2x2950_5 2x3710_5 2x4140_5 2x2470_5 2x2950_5 2x3710_5 2x4140_5 4700 5600 7000 7900 4300 5100 6400 7200 3100 3700 4700 5300 2450 2900 3600 4100 3050 3600 4500 5150 73.7/4.2/77.9 88/5/93 110.6/5.7/116.3 123.5/6.9/130.4 4xCH74 4xCH74 4xCH74 4xCH74 Explanations of the currents ITH = Thermal maximum continuous RMS current. Dimensioning can be done according to this current if the process does not require any overloadability or the process does not include any torque ripple or margin for overloadability. IL = Low overloadability current. Allows +10% torque ripple. 10% exceeding can be continuous IH = High overloadability current. Allows +50% torque ripple. 50% exceeding can be continuous. All values with cos = 0.83 and efficiency = 97% *) c = power loss into coolant; a = power loss into air; T = total power loss; power losses of input chokes not included. All power losses obtained using max. supply voltage, I TH and switching frequency of 3.6 kHz and closed loop control mode. All power losses are worst-case losses. If some other mains voltage is used, apply the formula P = 3 UN x In x cos x eff% to calculate the output power of the Vacon NX liquid cooled drive. The enclosure class for all Vacon NX liquid cooled frequency converters is IP00, suitable for wall-mounted in a cabinet. If the motor is continuously (besides start and stop ramps) run at frequencies below 5 Hz, pay attention to the drive dimensioning for low frequencies, or choose drive according to IH. It is recommended to check the rating with your distributor or Vacon. Drive overrating may also be necessary if the process requires a high starting torque. 6 technical data Vacon NXP liquid cooled frequency converters – Mains voltage 525—690 VAC Drive/Current Converter Converter type type 12-pulse 6-pulse 0170_6 0208_6 0261_6 0325_6 0385_6 0416_6 0460_6 0502_6 0325_6 0385_6 0416_6 0460_6 0502_6 0590_6 0650_6 0750_6 Electrical output power Thermal Rated Rated Optimum Optimum Power loss ITH continuous IL continuous IH motor at ITH motor at ITH c/a/T*) Chassis [A] [A] [A] (525 VAC) [kW] (690 VAC) [kW] [kW] 170 208 261 155 189 237 113 139 174 110 132 160 160 200 250 5.5/0.2/5.7 6.5/0.3/6.8 6.5/0.3/6.8 CH61 CH61 CH61 325 385 416 460 502 295 350 378 418 456 217 257 277 307 335 200 250 250 300 355 300 355 355 400 450 7.5/0.4/7.9 9.0/0.5/9.5 9.4/0.5/9.9 10.0/0.5/10.5 12.0/0.6/12.6 CH72 CH72 CH72 CH72 CH72 590 650 750 536 591 682 393 433 500 400 450 500 560 600 700 13.0/0.7/13.7 16.0/0.8/16.8 18.0/0.9/18.9 CH63 CH63 CH63 0820_6 0920_6 1030_6 1180_6 1300_6 1500_6 1700_6 0820_6 0920_6 1030_6 1180_6 1300_6 1500_6 1700_6 820 920 1030 1180 1300 1500 1700 745 836 936 1073 1182 1364 1545 547 613 687 787 867 1000 1133 560 650 700 800 900 1000 1150 800 850 1000 1100 1200 1400 1550 19.0/1.0/20.0 21.3/1.2/22.5 22.0/1.1/23.1 25.0/1.3/26.3 31.0/1.6/32.6 38.0/1.9/39.9 38.0/1.9/39.9 CH74 CH74 CH74 CH74 CH74 CH74 CH74 1850_6 2120_6 2340_6 2700_6 3100_6 1850_6 2120_6 2340_6 2700_6 3100_6 1850 2120 2340 2700 3100 1682 1927 2127 2455 2818 1233 1413 1560 1800 2066 1250 1450 1600 1850 2150 1650 1900 2100 2450 2800 39.6/2.0/41.6 45.0/2.4/47.4 55.8/2.9/58.7 68.4/3.4/71.8 68.4/3.4/71.8 2xCH74 2xCH74 2xCH74 2xCH74 2xCH74 2x1850_6 2x2120_6 2x2340_6 2x2700_6 2x3100_6 2x1850_6 2x2120_6 2x2340_6 2x2700_6 2x3100_6 3500 4000 4400 5100 5900 3200 3600 4000 4600 5400 2300 2700 2900 3400 3900 2400 2750 3050 3500 4050 3150 3600 3950 4600 5300 75,2/3,8/79 85,5/4,6/90,1 106/5,5/111,5 130/6,5/136,5 130/6,5/136,5 4xCH74 4xCH74 4xCH74 4xCH74 4xCH74 Vacon NXP liquid cooled dimensions: Drives consisting of one module Chassis Width (mm) Height (mm) Depth (mm) Weight (kg) CH3 160 431 246 30 CH4 193 493 257 35 CH5 246 553 264 40 CH61/62 246 658 372 55 CH63 505 923 375 120 180 CH64 746 923 375 CH72 246 1076 372 90 CH74 746 1175 385 280 One-module drive dimensions (mounting base included) Please note that AC chokes are not included. 7 technical data Vacon NXP liquid cooled inverter units – Mains voltage 465—800 VDC Drive/Current Motor output power Power loss c/a/T*) [kW] Chassis 11 15 18,5 22 30 37 0.4/0.2/0.6 0.5/0.2/0.7 0.7/0.2/0.9 0.8/0.2/1.0 1.0/0.3/1.3 1.3/0.3/1.5 CH3 CH3 CH3 CH3 CH3 CH3 37 45 55 75 45 55 75 90 1.2/0.3/1.5 1.5/0.3/1.8 1.8/0.3/2.1 2.3/0.3/2.6 CH4 CH4 CH4 CH4 112 137 174 90 110 132 110 132 160 2.5/0.3/2.8 3.0/0.4/3.4 4.0/0.4/4.4 CH5 CH5 CH5 273 350 200 257 160 200 200 250 4.5/0.4/4.9 5.5/0.5/6.0 CH61 CH61 460 520 590 650 730 418 473 536 591 664 307 347 393 433 487 250 250 315 355 400 315 355 400 450 500 5.5/0.5/6.0 6.5/0.5/7.0 7.5/0.6/8.1 8.5/0.6/9.1 10.0/0.7/10.7 CH62 CH62 CH62 CH62 CH62 0820_5 0920_5 1030_5 1150_5 820 920 1030 1150 745 836 936 1045 547 613 687 766 450 500 560 600 560 600 700 750 12.5/0.8/13.3 14.4/0.9/15.3 16.5/1.0/17.5 18.4/1.1/19.5 CH63 CH63 CH63 CH63 1370_5 1640_5 2060_5 2300_5 1370 1640 2060 2300 1245 1491 1873 2091 913 1093 1373 1533 700 900 1100 1200 900 1100 1400 1500 15.5/1.0/16.5 19.5/1.2/20.7 26.5/1.5/28.0 29.6/1.7/31.3 CH64 CH64 CH64 CH64 2470_5 2950_5 3710_5 4140_5 2470 2950 3710 4140 2245 2681 3372 3763 1647 1967 2473 2760 1300 1550 1950 2150 1600 1950 2450 2700 36.0/2.0/38.0 39.0/2.4/41.4 48.0/2.7/50.7 53.0/3.0/56.0 2xCH64 2xCH64 2xCH64 2xCH64 2x2470_5 2x2950_5 2x3710_5 2x4140_5 4700 5600 7000 7900 4300 5100 6400 7200 3100 3700 4700 5300 2450 2900 3600 4100 3050 3600 4500 5150 69.1/3.9/73 74.4/4.6/79 90.8/5.2/96 101.2/5.8/107 4xCH64 4xCH64 4xCH64 4xCH64 Power loss c/a/T*) [kW] Chassis Inverter type Thermal ITH [A] Rated continuous IL [A] Rated continuous IH [A] Optimum motor at ITH (540 VDC) [kW] Optimum motor at ITH (675 VDC) [kW] 0016_5 0022_5 0031_5 0038_5 0045_5 0061_5 16 22 31 38 45 61 15 20 28 35 41 55 11 15 21 25 30 41 7,5 11 15 18,5 22 30 0072_5 0087_5 0105_5 0140_5 72 87 105 140 65 79 95 127 48 58 70 93 0168_5 0205_5 0261_5 168 205 261 153 186 237 0300_5 0385_5 300 385 0460_5 0520_5 0590_5 0650_5 0730_5 Vacon NXP liquid cooled inverter units – Mains voltage 640—1100 VDC Drive/Current 8 Motor output power Inverter type Thermal ITH [A] Rated continuous IL [A] Rated continuous IH [A] Optimum motor at ITH (710 VDC) [kW] Optimum motor at ITH (930 VDC) [kW] 0170_6 0208_6 0261_6 170 208 261 155 189 237 113 139 174 110 132 160 160 200 250 4.5/0.2/4.7 5.5/0.3/5.8 5.5/0.3/5.8 CH61 CH61 CH61 0325_6 0385_6 0416_6 0460_6 0502_6 325 385 416 460 502 295 350 378 418 456 217 257 277 307 335 200 250 250 300 355 300 355 355 400 450 6.5/0.3/6.8 7.5/0.4/7.9 8.0/0.4/8.4 8.5/0.4/8.9 10.0/0.5/10.5 CH62 CH62 CH62 CH62 CH62 0590_6 0650_6 0750_6 590 650 750 536 591 682 393 433 500 400 450 500 560 600 700 10.0/0.5/10.5 13.5/0.7/14.2 16.0/0.8/16.8 CH63 CH63 CH63 0820_6 0920_6 1030_6 1180_6 1300_6 1500_6 1700_6 820 920 1030 1180 1300 1500 1700 745 836 936 1073 1182 1364 1545 547 613 687 787 867 1000 1133 560 650 700 800 900 1050 1150 800 850 1000 1100 1200 1400 1550 16.0/0.8/16.8 18.0/0.9/18.9 19.0/1.0/20.0 21.0/1.1/22.1 27.0/1.4/28.4 32.0/1.6/33.6 38.0/1.9/39.9 CH64 CH64 CH64 CH64 CH64 CH64 CH64 1850_6 2120_6 2340_6 2700_6 3100_6 1850 2120 2340 2700 3100 1682 1927 2127 2455 2818 1233 1413 1560 1800 2066 1250 1450 1600 1850 2150 1650 1900 2100 2450 2800 34.2/1.8/36.0 37.8/2.0/39.8 48.6/2.5/51.1 57.6/3.0/60.6 68.4/3.4/71.8 2xCH64 2xCH64 2xCH64 2xCH64 2xCH64 2x1850_6 2x2120_6 2x2340_6 2x2700_6 2x3100_6 3500 4000 4400 5100 5900 3200 3600 4000 4600 5400 2300 2700 2900 3400 3900 2400 2750 3050 3500 4050 3150 3600 3950 4600 5300 75.2/3.8/79 85.5/4.6/90.1 106/5.5/111.5 130/6.5/136.5 130/6.5/136.5 4xCH64 4xCH64 4xCH64 4xCH64 4xCH64 * More details for exlanations of the currents on page 6. technical data Mains connection Input voltage Uin 400…500 VAC; 525…690 VAC; (–10%…+10%) 465…800 VDC; 640…1100 VDC (–0%…+0%) Control characteristics Input frequency 45…66 Hz Control method Frequency control U/f Open loop sensorless vector control Closed loop frequency control Closed loop vector control Switching frequency NX_5: Up to and including NX_0061: 1…16 kHz; Factory default 10 kHz From NX_0072: 1…12 kHz; Factory default 3.6 kHz NX_6: 1…6 kHz; Factory default 1.5 kHz Ambient conditions Ambient operating temperature –10°C (no frost)…+50°C (at Ith) Installation temperature 0...+70C Storage temperature –40°C…+70°C; no liquid in heatsink under 0ºC Relative humidity 5 to 96% RH, non-condensing, no dripping water Air quality No corrosive gases - chemical vapours IEC 60721-3-3, unit in operation, class 3C2 - mechanical particles. IEC 60721-3-3, unit in operation, class 3S2 (no conductive dust allowed) Altitude NX_5 (380...500 V): 3000 m; in case network is not corner grounded NX_6: 2000 m. For further requirements, please contact factory Vibration 5…150 Hz EN50178/EN60068-2-6 Displacement amplitude 0.25 mm (peak) at 3…31 Hz Shock EN50178, EN60068-2-27 UPS Drop Test (for applicable UPS weights) Max acceleration amplitude 1 G at 31…150 Hz Storage and shipping: max 15 G, 11 ms (in package) Enclosure class EMC IP00/Open Frame standard in entire kW/HP range Immunity Fulfils all EMC immunity requirements Emissions EMC level N, T (IT networks) EN50178, IEC 60204-1, CE, UL, CUL, IEC 61800-5-1 Safety (see unit nameplate for more detailed approvals) Approvals Liquid cooling Type tested UL, DNV, BV, SGS Fimko CE Factory acceptance tested (FAT) Lloyd’s Register, ABS, GL Approvals our partners have Ex, SIRA Allowed cooling agents Drinking water Water-glycol mixture Temperature of cooling agent 0…35°C (Ith)(input); 35...55ºC, please see manual for further details Temperature rise during circulation max. 5°C No condensation allowed System max. working pressure 6 bar/ 40 bar peak Pressure loss (at nominal flow) Varies according to size, please see manual for further details 9 technical data Vacon NXB line 465–800 VDC, IP00, EMC level T, liquid cooled external brake chopper Drive output Current Order type code ITH [A] Power loss Size/prot. Dimensions Weight c/a/T*) (kW) CH/IP WxHxD kg Electrical braking power Minimum resistance 600 VDC (Ohm) 800 VDC (Ohm) 600 VDC*) (kW) 800 VDC*) (kW) NXB00315A0T0 8WSA1A2 2x31 19.5 25.7 37 49 0.7/0.2/0.9 CH3/IP00 160x431x244 30 NXB00615A0T0 8WSA1A2 2x61 9.9 13.1 73 97 1.3/0.3/1.5 CH3/IP00 160x431x244 30 NXB00875A0T0 8WSA1A2 2x87 7 9.2 105 138 1.5/0.3/1.8 CH4/IP00 208x493x258 35 NXB01055A0T0 8WSA1A2 2x105 5.8 7.6 127 167 1.8/0.3/2.1 CH4/IP00 208x493x258 35 NXB01405A0T0 8WSA1A2 2x140 4.3 5.7 169 223 2.3/0.3/2.6 CH4/IP00 208x493x258 35 NXB01685A0T0 8WSA1A2 2x168 3.6 4.7 203 267 2.5/0.3/2.8 CH5/IP00 246x553x264 40 NXB02055A0T0 8WSA1A2 2x205 3 3.9 248 326 3.0/0.4/3.4 CH5/IP00 246x553x264 40 NXB02615A0T0 8WSA1A2 2x261 2.3 3.1 316 415 4.0/0.4/4.4 CH5/IP00 246x553x264 40 NXB03005A0T0 8WFA1A2 2x300 2 2.7 363 477 4.5/0.4/4.9 CH61/IP00 246x553x232 40 NXB03855A0T0 8WFA1A2 2x385 1.6 2.1 466 613 5.5/0.5/6.0 CH61/IP00 246x658x374 55 NXB04605A0T0 8WFA1A2 2x460 1.3 1.7 556 732 5.5/0.5/6.0 CH62/IP00 246x658x374 55 NXB05205A0T0 8WFA1A2 2x520 1.2 1.5 629 828 6.5/0.5/7.0 CH62/IP00 246x658x374 55 NXB05905A0T0 8WFA1A2 2x590 1.1 1.4 714 939 7.5/0.6/8.1 CH62/IP00 246x658x374 55 NXB06505A0T0 8WFA1A2 2x650 1 1.2 786 1035 8.5/0.6/9.1 CH62/IP00 246x658x374 55 NXB07305A0T0 8WFA1A2 2x730 0.9 1.1 883 1162 10.0/0.7/10.7 CH62/IP00 246x658x374 55 Vacon NXB line 640–1100 VDC, IP00, EMC level T, liquid cooled external brake chopper Drive output Current Order type code ITH [A] Power loss Size/prot. Dimensions Weight c/a/T*) (kW) CH/IP WxHxD kg Electrical braking power Minimum resistance 840 VDC (Ohm) 1100 VDC (Ohm) 840 VDC*) (kW) 1100 VDC*) (kW) NXB01706A0T0 8WFA1A2 2x170 4.9 6.5 282 372 4.5/0.2/4.7 CH61/IP00 246x658x374 55 NXB02086A0T0 8WFA1A2 2x208 4 5.3 346 456 5.5/0.3/5.8 CH61/IP00 246x658x374 55 NXB02616A0T0 8WFA1A2 2x261 3.2 4.2 435 572 5.5/0.3/5.8 CH61/IP00 246x658x374 55 NXB03256A0T0 8WFA1A2 2x325 2.6 3.4 542 713 6.5/0.3/6.8 CH62/IP00 246x658x374 55 NXB03856A0T0 8WFA1A2 2x385 2.2 2.9 643 845 7.5/0.4/7.9 CH62/IP00 246x658x374 55 NXB04166A0T0 8WFA1A2 2x416 2 2.6 693 913 8.1/0.4/8.4 CH62/IP00 246x658x374 55 NXB04606A0T0 8WFA1A2 2x460 1.8 2.4 767 1010 8.5/0.4/8.9 CH62/IP00 246x658x374 55 NXB05026A0T0 8WFA1A2 2x502 1.7 2.2 838 1100 10.0/0.5/10.5 CH62/IP00 246x658x374 55 *) Braking power with two resistors. Note: The rated currents in given ambient temperatures (+50°C) and coolant temperatures (+30°C) are achieved only when the switching frequency is equal to or less than the factory default. Braking power: Pbreak = 2 x Ubreak / Rbreak Max. input DC current: lin_max = Pbreak_max / Ubreak Vacon NX options liquid cooled regenerative line filters IP00, (LCL) Order type code RLC-0385-6-0 10 Suitability Description CH62/690 V: 325, 385 AAC LCL filter, 2-p LCL filter, 3-p RLC-0520-6-0 CH62/500-690 V RLC-0750-6-0 CH62/500, CH63/690 V LCL filter, 3-p RLC-0920-6-0 CH63/500, CH64/690 V LCL filter, 3-p RLC-1180-6-0 CH63/500, CH64/690 V LCL filter, 3-p RLC-1640-6-0 CH64/500-690 V LCL filter, 3-p RLC-2300-5-0 CH64/500 V: 2060, 2300 AAC LCL filter, 2-p technical data Vacon NXA line 465–800 VDC, IP00, EMC level T, liquid cooled active front-end AFE input AFE output to DC-link Apparent power kVA Current Order type code Thermal ITH (A) Rated IL (A) Rated IH (A) 594 VDC 742 VDC IL IL (kVA) (kVA) Power loss Size/prot. c/a/T*) (kW) CH/IP **Dimensioning power 594 VDC ITH/IL (kW) 742 VDC ITH/IL (kW) NXA01685A0T0IWSA1A2 168 153 112 114 143 125 / 100 150 / 125 2.5/0.3/2.8 CH5/IP00 NXA02055A0T0IWSA1A2 205 186 137 139 174 150 / 125 175 / 150 3.0/0.4/3.4 CH5/IP00 NXA02615A0T0IWSA1A2 261 237 174 177 221 200 / 175 225 / 200 4.0/0.4/4.4 CH5/IP00 NXA03005A0T0IWFA1A2 300 273 200 204 255 225 / 200 275 / 250 4.5/0.4/4.9 CH61/IP00 NXA03855A0T0IWFA1A2 385 350 257 261 327 275 / 250 325 / 300 5.5/0.5/6.0 CH61/IP00 NXA04605A0T0IWFA1A2 460 418 307 312 390 325 / 300 400 / 375 5.5/0.5/6.0 CH62/IP00 NXA05205A0T0SWSA1A2 520 473 347 353 442 375 / 350 475 / 425 6.5/0.5/7.0 CH62/IP00 NXA05905A0T0IWFA1A2 590 536 393 400 500 425 / 375 525 / 475 7.5/0.6/8.1 CH62/IP00 NXA06505A0T0IWFA1A2 650 591 433 441 552 475 / 425 575 / 525 8.5/0.6/9.1 CH62/IP00 NXA07305A0T0IWFA1A2 730 664 487 496 620 525 / 475 650 / 600 10.0/0.7/10.7 CH62/IP00 NXA08205A0T0IWFA1A2 820 745 547 556 696 575 / 525 725 / 675 10.0/0.7/10.7 CH63/IP00 NXA09205A0T0IWFA1A2 920 836 613 624 780 650 / 600 825 / 750 12.4/0.8/12.4 CH63/IP00 NXA10305A0T0IWFA1A2 1030 936 687 699 874 750 / 675 925 / 850 13.5/0.9/14.4 CH63/IP00 NXA11505A0T0IWFA1A2 1150 1045 767 780 976 825 / 750 1025 / 950 16.0/1.0/17.0 CH63/IP00 NXA13705A0T0IWFA1A2 1370 1245 913 930 1162 975 / 900 1225 / 1125 15.5/1.0/16.5 CH64/IP00 NXA16405A0T0IWFA1A2 1640 1491 1093 1114 1392 1200 / 1100 1500 / 1375 19.5/1.2/20.7 CH64/IP00 NXA20605A0T0IWFA1A2 2060 1873 1373 1399 1749 1475 / 1350 1850 / 1700 26.5/1.5/28.0 CH64/IP00 NXA23005A0T0IWFA1A2 2300 2091 1533 1562 1952 1650 / 1500 2050 / 1900 34.0/1.8/35.8 CH64/IP00 Power loss Size/prot. c/a/T*) (kW) CH/IP Vacon NXA line 640–1100 VDC, IP00, EMC level T, liquid cooled active front-end AFE input AFE output to DC-link Apparent power kVA Current Order type code Thermal ITH (A) Rated IL (A) Rated IH (A) 780 VDC 1025 VDC IL IL (kVA) (kVA) **Dimensioning power 780 VDC ITH/IL (kW) 1025 VDC ITH/IL (kW) NXA01706A0T0IWFA1A2 170 155 113 152 200 175 / 150 200 / 175 4.5/0.2/4.7 CH61/IP00 NXA02086A0T0IWFA1A2 208 189 139 185 243 200 / 175 250 / 225 5.5/0.3/5.8 CH61/IP00 NXA02616A0T0IWFA1A2 261 237 174 232 305 250 / 225 325 / 300 5.5/0.3/5.8 CH61/IP00 NXA03256A0T0IWFA1A2 325 295 217 289 380 300 / 275 400 / 375 6.5/0.3/6.8 CH62/IP00 NXA03856A0T0IWFA1A2 385 350 257 343 451 350 / 325 475 / 450 7.5/0.4/7.9 CH62/IP00 NXA04166A0T0IWFA1A2 416 378 277 371 487 400 / 350 500 / 475 8.1/0.4/8.4 CH62/IP00 NXA04606A0T0IWFA1A2 460 418 307 410 539 450 / 400 575 / 525 8.5/0.4/8.9 CH62/IP00 NXA05026A0T0IWFA1A2 502 456 335 447 587 475 / 425 625 / 575 10.0/0.5/10.5 CH62/IP00 NXA05906A0T0IWFA1A2 590 536 393 525 691 575 / 525 725 / 675 10.0/0.5/10.5 CH63/IP00 NXA06506A0T0IWFA1A2 650 591 433 579 761 625 / 575 825 / 750 13.5/0.7/14.2 CH63/IP00 NXA07506A0T0IWFA1A2 750 682 500 669 879 700 / 650 675 / 600 16.0/0.8/16.8 CH63/IP00 NXA08206A0T0IWFA1A2 820 745 547 730 960 825 / 725 1000 / 925 16.0/0.8/16.8 CH64/IP00 NXA09206A0T0IWFA1A2 920 836 613 819 1077 875 / 800 1150 / 1050 17.8/1.0/18.4 CH64/IP00 NXA10306A0T0IWFA1A2 1030 936 687 918 1206 975 / 900 1275 / 1150 19.0/1.0/20.0 CH64/IP00 NXA11806A0T0IWFA1A2 1180 1073 787 1052 1382 1125 / 1025 1475 / 1350 21.0/1.1/22.1 CH64/IP00 NXA13006A0T0IWFA1A2 1300 1182 867 1159 1523 1225 / 1125 1650 / 1500 27.0/1.4/28.4 CH64/IP00 NXA15006A0T0IWFA1A2 1500 1364 1000 1337 1757 1450 / 1325 1900 / 1725 32.0/1.6/33.6 CH64/IP00 *) C = power loss into coolant, A = power loss into air, T = total power loss **) kW/KkVA values with input parameters TPF=0.98 (Note! On AFE DC-supply terminals) If some other mains voltage is used, apply the formula P =(3 x UN x IL) to calculate the output apparent power [kVA] of the Vacon NX liquid cooled drive. The enclosure class for all Vacon NX liquid cooled frequency converters is IP00. 11 typical device configurations NXA, Active Front-End The Active Front-End (AFE) unit is bi-directional (regenerative) power converter (supply unit) for the front-end of a common DC bus drive line-up. An external LCL filter is used at the input. This unit is suitable in applications where a low level of mains harmonics and high power factor are required. • • • • active front-end (ch5, ch61, ch62, ch63, ch64) LCL filter guarantees that harmonics are not an issue in any network Power factor is better than 0.99 which, together with low harmonics, means that supply chain transformers, generators, etc. can be sized very accurately without reserving margins for the reactive power. This can mean a saving of 10 % in supply chain investments Faster payback time, regenerative energy feeding back to the grid Power management system interface for backpower control, power limit Fuses, LCL filters, pre-charging rectifiers and resistors need to be ordered and specified separately. NXI, Inverter unit The INU (Inverter unit) is a bidirectional DC-fed power inverter for the supply and control of AC motors. The INU is supplied from a common DC bus drive line-up. A charging circuit is needed in case a connection to a live DC bus is required. The DC-side charging circuit is external for inverter types. Pre-charging resistors and switches or fuses are not included in an NXI delivery. They need to be specified and ordered separately. inverter unit (ch3, ch4, ch5, ch61, ch62, ch63, ch64) NXB, Brake chopper unit The Brake Chopper Unit (BCU) is unidirectional power converter for the supply of excessive energy from a common DC bus drive line-up or big single drive to resistors where the energy is dissipated as heat. External resistors are needed. • • • Improves drive dynamic performance in a load regenerative operating point Protects common DC bus voltage level from overvoltage Saves AFE investments in some cases Resistors or fuses are not included in an NXB delivery. They need to be specified and ordered separately. brake chopper unit (ch3, ch4, ch5, ch61, ch62) 12 liquid to liquid heat exchangers In cooperation with HVAC professionals, Vacon has designed a range of liquid-to-liquid heat exchangers (HX), which improve the availability and usability of AC drive systems. The heat exchangers added to the liquid cooled Vacon NXP range offer a reliable and cost-effective cooling without ventilation concerns. Built with high-quality components, Vacon's standardized heat exchanger makes the use of liquid cooled drives easier, because a well-planned and sized unit is easier to apply than a project solution. In addition, a standard heat exchanger solution offers proven reliability. be easily compensated by changing the speed of the pump and thus raising the pressure and flow. A standard heat exchanger delivery consists of • To minimize the risk of possible leaks, splitting the cooling circuit into segments is worthwhile, because even in a large group of AC drives the volume of the liquid stays under 100 litres. An additional advantage of separated cooling segments is the possibility to use inhibitors and glycol against the corrosion, freezing and micro organisms. The Vacon heat exchanger has versatile protection and control functions. The whole system is supervised by the drive's control application software, which meets the standards of even the most demanding customers. The operation of the unit can be monitored by an upper level automation system. The system controls the cooling conditions of the drives and supervises the flow and detects possible leaks in the cooling system. The Vacon heat exhanger can be used in different kinds of electrical networks, where frequencies and voltages may vary, because the cooling pump is controlled by an AC drive. Such networks are typically used in the marine industry and other electrical island networks using diesel generators. This kind of solution brings an extra advantage because the flow capacity can be adjusted to the demand. Pressure losses that are higher than expected within the cooling circuit may • • • Self-supporting module rack construction, which can be integrated into generic switchgear and cabinet solutions Cooling circuit equipped with threaded joints or fl anges Heavy industry PVC-C pipework; excellent, because it is light and prevents corrosion Industrial water heat exchanger, three-way-valve, pump, AC drive Typical options of the heat exchangers available • • • • • • Stainless steel AISI piping Customer circuitry insulation for condensation prevention, typically needed when the process water is below 15°C Two-way-valve capable of optimizing the quantity of the cooling water, when the temperature of the process liquid is low Heat exhanger can be delivered installed inside a Rittal TS8 or VSG VEDA cabinet Double pumps can be selected for marine class requirements, types 120 kW and 300 kW Titanium heat exchanger is used in sea water circuits. The structure and performance differs from the fresh water models. HXL-M/V/R-040-N-P HXL/M-M/V/R-120-N-P HXS/T-M/V/R-070-N-P 0...40 kW 0...120 kW 0...69 kW 0...300 kW Mains supply 380...420 VAC 380...420 VAC 380...420 VAC 380...500 VAC Flow 40...120 l/min 120...360 l/min 120...200 l/min 360...900 l/min Cooling power Distribution pressure 0.3 bar / l=10 m, DN32* HXL: 1 bar / l = 40 m, DN50 HXS: 1 bar / l = 40 m, DN50 HXL: 1 bar / l = 40 m, DN80 HXM: 0.7 bar / l = 30 m, DN50 HXT: 0.7 bar / l = 25 m, DN50 HXM: 0.7 bar / l = 25 m, DN80 Double pump Cabinets HXL/M-M/R-300-N-P VEDA, Rittal HXM HXT HXM VEDA, Rittal VEDA, Rittal Rittal * l = maximum distribution distance with specific DN diameter 13 reference stories Helsinki Energy district cooling plant Helsinki Energy (Finland) uses liquid cooled technology for their pump applications at their Salmisaari power plant site. The scope of delivery covered 16 liquid cooled Vacon NXP drives (CH61-CH74, 690 V) installed in cabinets. District cooling means centralized production and distribution of the cooling agent, which requires a lot of electricity. Contrary to the cooling agents used in compressor cooling, no harmful substances evaporate in the process of producing district cooling. At the Salmisaari district cooling plant, district cooling is produced by absorption technology, using energy from the district heat that would otherwise remain unused. With the liquid cooling technology the plant saves not just energy, but also a lot of space. Air conditioning is also more economical with the use of liquid cooled Vacon NX drives. Wind turbines The world’s biggest wind turbine system uses a gearless permanent magnet generator. The technology has been developed by Arctic Wind Power, a consortium which consists of highly skilled experts from The Switch Oy, Verteco Oy and Vaasa Engineering Oy. Cranes, grabber crane The Vacon liquid cooled drives technology is used in the Corus IJmuiden steel and aluminium company in the Netherlands. A huge crane with the capacity of 40,000 kg has a hoist including two 820 kW AFE-supplied liquid cooled AC drives and a trolley travel, including a 485 kW AFE supplied liquid cooled AC drive. Vacon liquid cooled AC drives were chosen because they are very compact and liquid cooling gives the possibility to have cabinets with a high protection class. The AFE filters are also liquid cooled. The size of the Vacon solution in the electrical room was considerably small and highly appreciated. Corus is an international company, providing steel and aluminium products and services to customers worldwide. Electroproject Aandrijftechniek is a system integrator and is responsible for designing and commissioning the drive system, including the water cooling system and grabber crane logic. 14 The gearless wind turbine is based on using full-size inverter technology instead of double-fed generators, which are still the most commonly used technology for controlling wind turbines today. The new inverter technology makes old conventional solutions obsolete, since it can utilize all available wind speeds, from very weak to very strong. The Vacon CH64 liquid cooled NXP inverters, coupled to permanent magnet generators, put less mechanical stress on the system and provide high-quality 690 V electricity that is supplied via a transformer to a 20-kV network. reference stories Through hard rock with tunnel boring machines The Robbins Company, a USA-based company, is engaged in the design, manufacture, sale and rental of custom-made equipment for the underground excavation industry. Since 1990s, the Robbins company only uses liquid cooled drives to control their tunnel boring machines (TMBs), each of which includes 4-15 drives to control one cutterhead. Typical Robbins TBM applications include road, railway, cable, water and sewerage tunnels. TBMs are used to excavate circular crosssection tunnels through a wide variety of geology, from soils to hard rock. The main advantage of liquid cooling compared to air cooled drives in tunnel boring is space saving. Liquid cooled drives are also more suitable for severe and demanding conditions such as dust and humidity. Oil drilling at sea National Oilwell Varco, a world leader in supplying systems and components used in oil and gas drilling and production, chose Vacon as its supplier of liquid cooled drives. In addition to their high performance and reliability, the liquid cooled Vacon NX drives also bring many other benefits to the drilling process. Liquid cooled Vacon NX drives are controlling the active heave drawworks and top drive on the SC Lancer drill ship. The drawworks with a lifting capacity of 500 tons is run by four 850 kW motors, which are controlled by four liquid cooled Vacon NX drives and four brake choppers, each with the power of one megawatt. Motor speed control enables smooth operation of the drawworks. It also impoves reliability, effi ciency and work safety. Speed control also decreases electromechanical stress for the electrical system and provides flexibility in power generation and distribution. Outokumpu steel plant Vacon delivered more than one hundred drives to the melting shop at the Outokumpu steel plant in Tornio, Finland. Outokumpu is the world’s second largest producer of stainless steel. The drives were liquid cooled NX units in the power range of 5…1200 kW (400 V and 690 V). The melting shop includes, for example, an electric arc furnace, an AOD converter and a continuous casting machine. The AOD converter is used to tilt the bucket when pouring the melted metal. The process is extremely demanding due to continuous changes in energy consumption, depending on whether the motor is consuming or generating electrical energy. www.vacon.com BC00054D Vacon Partner 16Subject to changes without notice. )/ 0* $