681S7W2203L001;中文规格书,Datasheet资料

DA-681C SeriesIntel®7th Gen Core™CPU,IEC-61850,1U rackmount computers with6Gigabit Ethernet ports,12isolated serial portsFeatures and Benefits•IEC61850-3,IEEE1613,and IEC60255compliant for power substationautomation systems•EN50121-4compliant for railway wayside applications•7th Generation Intel®Core™Processor•DDR4memory slot;up to32GB capacity•Redundant power supply(100to240VAC/VDC)CertificationsIntroductionThe DA-681C computer is built around an Intel®Celeron®or Intel®Core™i3CPU and comes with dual display ports(2x HDMI),5USB ports,6 Gigabit LAN ports,two3-in-1RS-232/422/485serial ports,10RS-485serial ports,6digital input ports,and2digital output ports.Additionally,one 2.5”HDD/SSD slot and one mSATA slot are included to enable storage expansion for industrial applications that require large storage space for edge data acquisition.With IEC61850-3and IEEE1613compliance,the DA-681C is sure to deliver stable and reliable system operation for power applications.EN50121-4compliance confirms that the DA-681C can deliver stable and reliable system operations in rail wayside applications,such as station SCADA systems,wayside disaster prevention,traction power,and signaling and safety systems,to provide an integrated view of your smart rail setup.AppearanceFront ViewRear ViewSpecificationsComputerCPU Intel®Core™i3-7100U Processor(2M Cache,2.4GHz)Intel®Celeron®3965U Processor(2M Cache,2.2GHz)System Memory Slot SODIMM DDR4slot x2DRAM32GB max.capacity(SODIMM x2,each supporting2400MHz and16GB maximum permodule)Graphics Controller Intel®HD Graphics630Storage Slot 2.5-inch HDD/SSD slots x1mSATA slots x1Supported OS Windows10Embedded IoT Ent2019LTSC64-bitLinux Debian9Note:OS available by CTOSComputer InterfaceUSB2.0USB2.0hosts x3,type-A connectors2ports on the front panel,1port inside the computerUSB3.0USB3.0hosts x3,type-A connectors3ports on the rear panelVideo Output HDMI x2,HDMI connector(type A)Serial Ports RS-232/422/485ports x2,software selectable(DB9male)RS-485ports x10,software selectable(terminal block)Ethernet Ports Auto-sensing10/100/1000Mbps ports(RJ45connector)x6Secure Boot UEFITPM TPM v2.0Digital InputsConnector Screw-fastened Euroblock terminalI/O Mode DIIsolation3k VDCSensor Type Dry contactWet contact(NPN)Dry Contact Logic0:Close to GNDLogic1:OpenWet Contact(COM to DI)Logic0:10to30VDCLogic1:0to3VDCDigital OutputsConnector Screw-fastened Euroblock terminal Current Rating200mA per channelI/O Type SinkVoltage0to30VDCIsolation3k VDCLED IndicatorsSystem Programmable x8Storage x1Power x1LAN2per port(10/100/1000Mbps)Serial2per port(Tx,Rx)Serial InterfaceBaudrate50bps to115.2kbpsConnector Terminal blockESD8kV(level4)Isolation2kVSerial Standards RS-232/422/485Surge2kVSerial SignalsRS-232TxD,RxD,RTS,CTS,DTR,DSR,DCD,GND RS-422Tx+,Tx-,Rx+,Rx-,GNDRS-485-2w Data+,Data-,GNDPower ParametersInput Current100to240VAC,50/60Hz,1.6A(max)100to240VDC,0.8A(max)Power Button Reset button(front panel)ON/OFF(rear panel)Physical CharacteristicsHousing MetalDimensions(without ears)440x316x44mm(17.32x12.44x1.73in) Weight9,000g(21.82lb)Installation19-inch rack mountingEnvironmental LimitsOperating Temperature-40to70°C(-40to158°F)Storage Temperature(package included)-40to85°C(-40to185°F)Ambient Relative Humidity5to95%(non-condensing)Standards and CertificationsEMC EN55032/35EMI CISPR32,FCC Part15B Class AEMS IEC61000-4-2ESD:Contact:8kV;Air:15kVIEC61000-4-3RS:80MHz to1GHz:10V/mIEC61000-4-4EFT:Power:4kV;Signal:4kVIEC61000-4-5Surge:Power:4kV;Signal:4kVIEC61000-4-6CS:10VIEC61000-4-8:20A/mIEC61000-4-11Power Substation IEC61850-3IEEE1613Protection Relay IEC60255Shock IEC61850-3Edition2.0,IEC60068-2-27,IEC60255-21-2Safety UL62368-1DeclarationGreen Product RoHS,CRoHS,WEEEMTBFTime285,419hrsStandards Telcordia SR332WarrantyWarranty Period3yearsDetails See /warrantyPackage ContentsDevice1x DA-681C Series computerInstallation Kit1x rack-mounting earDocumentation1x quick installation guide1x warranty cardNote This product requires additional modules(sold separately)to function.DimensionsOrdering InformationModel Name CPU Power Input10100-240VAC/VDC Operating Temp.DA-681C-KL1-H-T IntelR CeleronR3965U Single-40to70°CDA-681C-KL1-HH-T IntelR CeleronR3965U Dual-40to70°CDA-681C-KL3-HH-T IntelR Core?i3-7100U Dual-40to70°C©Moxa Inc.All rights reserved.Updated Jun20,2023.This document and any portion thereof may not be reproduced or used in any manner whatsoever without the express written permission of Moxa Inc.Product specifications subject to change without notice.Visit our website for the most up-to-date product information.。

•All specifications are subject to change without notice.•Conformity to RoHS Directive: This means that, in conformity with EU Directive 2002/95/EC, lead, cadmium, mercury, hexavalent chromium, and specific bromine-based flame retardants, PBB and PBDE, have not been used, except for exempted applications.Inductors for High-frequency CircuitsMultilayer/STD MLG seriesType:Issue date:MLG0603S 0603[0201 inch]*MLG1005S 1005[0402 inch]MLG16081608[0603 inch]* Dimensions Code JIS[EIA]November 2011Inductors for High-frequency Circuits Multilayer/STDMLG Series MLG0603SFEATURES•Inductance values are supported from 0.3 to 180nH.•Advanced monolithic structure is formed using a multilayering and sintering process with ceramic and conductive materials for high-frequency.•The products contain no lead and also support lead-free soldering.•It is a product conforming to RoHS directive.APPLICATIONSFor high-frequency applications including mobile phones, high frequency modules (PA, VCO, FEM etc.), Bluetooth, W-LAN, UWB and tuners.SHAPES AND DIMENSIONSRECOMMENDED PC BOARD PATTERNRECOMMENDED SOLDERING CONDITION REFLOW SOLDERINGPRODUCT IDENTIFICATION (1) Series name (2) Dimensions L ×W(3) Type name (4) Inductance(5) Tolerance(6) Packaging style(7) TDK internal codeSPECIFICATIONSPACKAGING STYLE AND QUANTITIESHANDLING AND PRECAUTIONS•Before soldering, be sure to preheat components.The preheating temperature should be set so that thetemperature difference between the solder temperature and product temperature does not exceed 150°C.•After mounting components onto the printed circuit board, do not apply stress through board bending or mishandling.•When hand soldering, apply the soldering iron to the printed circuit board only. T emperature of the iron tip should not exceed 350°C. Soldering time should not exceed 3 seconds.Conformity to RoHS DirectiveMLG 0603S 2N2S T (1)(2)(3)(4)(5)(6)(7)06030.6×0.3mm (L ×W)2N2 2.2nH 12N 12nH R10100nHB ±0.1nHC ±0.2nH S ±0.3nH H ±3%J±5%TTaping (reel)Operating temperature range –55 to +125°CStorage temperature range–55 to +125°C(After mount)Packaging style QuantityT aping 15000 pieces/reel•Please contact our Sales office when your application is considered the following:The device’s failure or malfunction may directly endanger human life (e.g. application for automobile/aircraft/medical/nuclear power devices, etc.)•Conformity to RoHS Directive: This means that, in conformity with EU Directive 2002/95/EC, lead, cadmium, mercury, hexavalent chromium, and specific bromine-based flame retardants, PBB and PBDE, have not been used, except for exempted applications.ELECTRICAL CHARACTERISTICS∗ : Please specify inductance tolerance, B (±0.1nH), C (±0.2nH), S (±0.3nH), H (±3%) or J (±5%).Please contact us for information on inductance tolerance, G(±2%).•T est equipmentInductance Q : HP4291A+16197A, or equivalentSRF: HP8720C, or equivalentRdc: YOKOGAWA TYPE7561, or equivalentInductance (nH)Inductance tolerance Q min.T est frequency L, Q (MHz)Self-resonant frequency (GHz)DC resistance(Ω)Rated current (mA)max.Part No.∗0.3±0.1, ±0.2nH —10010.020 up 0.10.02600MLG0603S0N3 T 0.4±0.1, ±0.2nH —10010.020 up 0.10.02 600MLG0603S0N4 T 0.5±0.1, ±0.2nH —10010.020 up 0.10.02 600MLG0603S0N5 T 0.6±0.1, ±0.2nH —10010.020 up 0.10.02 600MLG0603S0N6T 0.7±0.1, ±0.2nH —10010.016.3 0.10.02 600MLG0603S0N7T 1.0±0.1, ±0.2, 0.3nH 410010.014.4 0.10.04 600MLG0603S1N0 T 1.1±0.1, ±0.2, 0.3nH 410010.013.6 0.150.04 550MLG0603S1N1 T 1.2±0.1, ±0.2, 0.3nH 410010.012.3 0.150.06 550MLG0603S1N2 T 1.3±0.1, ±0.2, 0.3nH 41009.0 11.4 0.150.07 550MLG0603S1N3T 1.5±0.1, ±0.2, 0.3nH 41009.0 10.4 0.150.07 550MLG0603S1N5T 1.8±0.1, ±0.2, 0.3nH 41008.5 10.0 0.20.12 500MLG0603S1N8 T 2.0±0.1, ±0.2, 0.3nH 41008.2 9.8 0.250.14 400MLG0603S2N0 T 2.2±0.1, ±0.2, 0.3nH 41008.0 8.9 0.250.14 400MLG0603S2N2 T 2.4±0.1, ±0.2, 0.3nH 41008.0 9.2 0.250.15 300MLG0603S2N4 T 2.7±0.1, ±0.2, 0.3nH 4100 6.5 8.1 0.250.15300MLG0603S2N7T 3.0±0.1, ±0.2, 0.3nH 4100 6.2 7.8 0.30.20 300MLG0603S3N0T 3.6±0.1, ±0.2, 0.3nH 4100 5.5 6.9 0.350.22 300MLG0603S3N6 T 3.9±0.1, ±0.2, 0.3nH 5100 5.0 6.6 0.40.27 300MLG0603S3N9 T 4.3±3%, ±0.3nH 5100 5.0 6.4 0.40.27 300MLG0603S4N3 T 4.7±3%, ±0.3nH 5100 4.5 5.4 0.450.28 300MLG0603S4N7T 5.1±3%, ±0.3nH 5100 4.5 5.5 0.450.23 250MLG0603S5N1T 6.8±3, ±5%5100 3.6 4.4 0.60.32 250MLG0603S6N8 T 7.5±3, ±5%5100 4.2 5.3 0.70.43 200MLG0603S7N5 T 8.2±3, ±5%5100 3.8 4.5 0.70.45 200MLG0603S8N2 T 9.1±3, ±5%5100 3.4 4.9 0.80.51 200MLG0603S9N1T 10±3, ±5%5100 3.2 4.1 0.80.53 200MLG0603S10N T 12±3, ±5%6100 2.8 3.6 0.90.63 180MLG0603S12N T 13±3, ±5%6100 2.7 3.4 0.90.60 180MLG0603S13N T 15±3, ±5%6100 2.5 3.3 1.10.69 180MLG0603S15N T 16±3, ±5%6100 2.3 3.0 1.10.70 180MLG0603S16N T 18±3, ±5%6100 2.2 2.8 1.20.78 150MLG0603S18N T 20±3, ±5%6100 2.1 2.6 1.20.75150MLG0603S20N T 24±3, ±5%6100 1.9 2.3 1.30.90 150MLG0603S24N T 27±3, ±5%6100 1.8 2.2 1.5 1.00 100MLG0603S27N T 30±3, ±5%6100 1.6 2.0 1.60.95100MLG0603S30N T 33±3, ±5%6100 1.6 2.0 1.8 1.20 100MLG0603S33N T 36±3, ±5%6100 1.5 1.82.0 1.6850MLG0603S36N T 47±3, ±5%6100 1.3 1.5 2.2 1.48 50MLG0603S47N T 51±3, ±5%5100 1.2 1.5 2.8 1.9850MLG0603S51N T 56±3, ±5%5100 1.2 1.43.2 2.11 50MLG0603S56N T 62±3, ±5%5100 1.1 1.3 3.3 2.22 50MLG0603S62N T 68±3, ±5%5100 1.05 1.24 3.5 2.40 50MLG0603S68N T 82±3, ±5%51000.90 1.084.0 2.80 50MLG0603S82N T 91±3, ±5%51000.770.94 4.3 2.9750MLG0603S91N T 100±3, ±5%51000.77 0.94 4.5 3.13 50MLG0603SR10 T 110±3, ±5%51000.770.94 6.55.2450MLG0603SR11 T 120±3, ±5%51000.700.887.0 5.5350MLG0603SR12T 130±3, ±5%51000.670.847.3 5.6850MLG0603SR13T 160±3, ±5%51000.600.738.36.6750MLG0603SR16 T 180±3, ±5%51000.560.688.5 6.9950MLG0603SR18 TL, Q vs. FREQUENCY CHARACTERISTICSPart No.Inductance(nH)typ.Q typ.500MHz800MHz 1.8GHz 2.0GHz 2.4GHz500MHz800MHz 1.8GHz 2.0GHz 2.4GHzMLG0603S0N30.3 0.3 0.3 0.3 0.3 14min.18min.29min.32min.35min. MLG0603S0N40.4 0.4 0.4 0.4 0.4 14min.18min.29min.32min.35min. MLG0603S0N50.5 0.50.50.50.51418293235 MLG0603S0N60.6 0.6 0.5 0.5 0.5 16 20333439 MLG0603S0N70.7 0.6 0.6 0.6 0.6 1621333539 MLG0603S0N80.7 0.7 0.7 0.7 0.7 1520323438 MLG0603S0N90.8 0.8 0.8 0.8 0.8 1519303235 MLG0603S1N00.9 0.9 0.9 0.9 0.9 1418293034 MLG0603S1N1 1.0 1.0 1.0 1.0 1.0 14 19293134 MLG0603S1N2 1.1 1.1 1.1 1.1 1.1 1418293034 MLG0603S1N3 1.2 1.2 1.2 1.2 1.2 1418293033 MLG0603S1N5 1.4 1.4 1.4 1.4 1.4 1519293034 MLG0603S1N6 1.5 1.5 1.5 1.5 1.5 1418293033 MLG0603S1N8 1.7 1.7 1.7 1.7 1.7 1519293033 MLG0603S2N0 1.9 1.9 1.9 1.9 1.9 1418282932 MLG0603S2N2 2.1 2.0 2.1 2.1 2.1 1418272831 MLG0603S2N4 2.2 2.2 2.2 2.3 2.3 1418272932 MLG0603S2N7 2.5 2.5 2.6 2.6 2.7 1519282931 MLG0603S3N0 2.8 2.8 2.9 2.9 3.0 1519293133 MLG0603S3N3 3.1 3.1 3.2 3.3 3.4 15 19282931 MLG0603S3N6 3.4 3.4 3.5 3.6 3.7 1418262729 MLG0603S3N9 3.7 3.7 3.8 3.9 4.1 1519292932 MLG0603S4N3 4.1 4.1 4.3 4.4 4.6 1418272729 MLG0603S4N7 4.4 4.4 4.8 4.9 5.2 1520282930 MLG0603S5N1 4.8 4.8 5.1 5.3 5.6 1418252627 MLG0603S5N6 5.3 5.3 5.7 5.9 6.4 16 20272829 MLG0603S6N2 5.9 5.9 6.5 6.8 7.5 15 18252526 MLG0603S6N8 6.4 6.5 7.4 7.8 8.7 1519262625 MLG0603S7N57.1 7.1 7.8 8.0 8.7 14 18252626 MLG0603S8N27.8 7.8 8.8 9.3 10.4 15 18242424 MLG0603S9N18.6 8.6 9.8 10.3 11.5 1417222222 MLG0603S10N101012 12151518232221 MLG0603S11N10111314161518222220 MLG0603S12N11121415 1916 19242320 MLG0603S13N12131617221416191815 MLG0603S15N14152023331519201814 MLG0603S16N15162225371416161511 MLG0603S18N1718283514171513MLG0603S20N192032131614MLG0603S22N212340151713MLG0603S24N232445131513MLG0603S27N27291517MLG0603S30N29321315MLG0603S33N33361416MLG0603S36N36401415MLG0603S39N40471314MLG0603S43N44531414MLG0603S47N49 601313MLG0603S51N52641111MLG0603S56N597712 11MLG0603S62N66881110MLG0603S68N741041311MLG0603S75N82119108MLG0603S82N96161128MLG0603S91N1099MLG0603SR1012911MLG0603SR1113410MLG0603SR121569MLG0603SR131728MLG0603SR152237MLG0603SR162387MLG0603SR183186TYPICAL ELECTRICAL CHARACTERISTICSINDUCTANCE vs. FREQUENCY CHARACTERISTICSQ vs. FREQUENCY CHARACTERISTICSPACKAGING STYLES REEL DIMENSIONSTAPE DIMENSIONSInductors for High-frequency Circuits Multilayer/STDMLG Series MLG1005SFEATURES•Inductance values are supported from 0.3 to 390nH.•Advanced monolithic structure is formed using a multilayering and sintering process with ceramic and conductive materials for high-frequency.•The products contain no lead and also support lead-free soldering.•It is a product conforming to RoHS directive.APPLICATIONSFor high-frequency applications including mobile phones, high frequency modules (PA, VCO, FEM etc.), Bluetooth, W-LAN, UWB and tuners.SHAPES AND DIMENSIONSRECOMMENDED PC BOARD PATTERNRECOMMENDED SOLDERING CONDITION REFLOW SOLDERINGPRODUCT IDENTIFICATION (1) Series name (2) Dimensions(3) Type name (4) Inductance(5) Tolerance(6) Packaging style(7) TDK internal codeSPECIFICATIONSPACKAGING STYLE AND QUANTITIESHANDLING AND PRECAUTIONS•Before soldering, be sure to preheat components.The preheating temperature should be set so that thetemperature difference between the solder temperature and product temperature does not exceed 150°C.•After mounting components onto the printed circuit board, do not apply stress through board bending or mishandling.•When hand soldering, apply the soldering iron to the printed circuit board only. T emperature of the iron tip should not exceed 350°C. Soldering time should not exceed 3 seconds.Conformity to RoHS DirectiveMLG 1005S 2N2S T (1)(2)(3)(4)(5)(6)(7)10051.0×0.5mm (L ×W)2N2 2.2nH 12N 12nH R10100nHB ±0.1nHC ±0.2nH S ±0.3nH H ±3%J±5%TTaping (reel)Operating temperature range –55 to +125°CStorage temperature range–55 to +125°C(After mount)Packaging style QuantityT aping10000 pieces/reel•Please contact our Sales office when your application is considered the following:The device’s failure or malfunction may directly endanger human life (e.g. application for automobile/aircraft/medical/nuclear power devices, etc.)•Conformity to RoHS Directive: This means that, in conformity with EU Directive 2002/95/EC, lead, cadmium, mercury, hexavalent chromium, and specific bromine-based flame retardants, PBB and PBDE, have not been used, except for exempted applications.∗ : Please specify inductance tolerance, (B±0.1nH), (C±0.2nH), (S±0.3nH), (H±3%) or (J±5%).Please contact us for information on inductance tolerance, G(±2%).•T est equipmentInductance Q : HP4291A+16193A, or equivalentSRF: HP8720C, or equivalentRdc: YOKOGAWA TYPE7561, or equivalent(nH)tolerancemin.L, Q (MHz)(GHz)(Ω)(mA)max.Part No.∗min.typ.max.typ.0.3±0.1nH, ±0.2nH —10010.020up 0.10 0.01 1000MLG1005S0N3 T 0.4±0.1nH, ±0.2nH —10010.020up 0.10 0.01 1000MLG1005S0N4T 0.5±0.1nH, ±0.2nH —10010.020up 0.10 0.01 1000MLG1005S0N5 T 0.6±0.1nH, ±0.2nH —10010.0 20up 0.10 0.01 1000MLG1005S0N6 T 0.7±0.1nH, ±0.2nH —10010.018.7 0.10 0.02 1000MLG1005S0N7T 0.8±0.1nH, ±0.2nH —10010.0 16.40.10 0.021000MLG1005S0N8T 0.9±0.1nH,±0.2nH—10010.0 17.7 0.10 0.04 1000MLG1005S0N9 T 1.0±0.1nH, ±0.2, 0.3nH 710010.013.8 0.10 0.04 1000MLG1005S1N0 T 1.1±0.1nH, ±0.2, 0.3nH 710010.019.3 0.10 0.03 1000MLG1005S1N1T 1.2±0.1nH, ±0.2, 0.3nH 710010.011.6 0.10 0.04 1000MLG1005S1N2 T 1.3±0.1nH, ±0.2, 0.3nH 71008.00 11.7 0.10 0.04 1000MLG1005S1N3 T 1.5±0.1nH, ±0.2, 0.3nH 71008.00 9.6 0.10 0.06 1000MLG1005S1N5T 1.6±0.1nH, ±0.2, 0.3nH 71007.50 9.4 0.12 0.05 1000MLG1005S1N6 T 1.8±0.1nH, ±0.2, 0.3nH 71008.00 10.3 0.15 0.06 900MLG1005S1N8 T 2.0±0.1nH, ±0.2, 0.3nH 71007.50 9.3 0.15 0.07 900MLG1005S2N0T 2.2±0.1nH, ±0.2, 0.3nH 71007.00 8.6 0.15 0.08 900MLG1005S2N2T 2.4±0.1nH, ±0.2, 0.3nH 71007.00 8.2 0.15 0.08 800MLG1005S2N4 T 2.7±0.1nH, ±0.2, 0.3nH 7100 6.00 7.3 0.15 0.08 800MLG1005S2N7 T 3.0±0.1nH, ±0.2, 0.3nH 7100 5.50 6.8 0.20 0.09 800MLG1005S3N0T 3.3±0.1nH, ±0.2, 0.3nH 8100 5.00 6.1 0.20 0.09 800MLG1005S3N3 T 3.6±0.1nH, ±0.2, 0.3nH 8100 5.00 6.7 0.20 0.09 700MLG1005S3N6 T 3.9±0.1nH, ±0.2, 0.3nH 8100 5.00 6.5 0.20 0.11 700MLG1005S3N9T 4.3±0.2nH, ±0.3nH 8100 4.50 6.0 0.20 0.11 700MLG1005S4N3 T 4.7±0.2nH, ±0.3nH 8100 4.50 5.4 0.25 0.12 700MLG1005S4N7 T 5.1±0.2nH, ±0.3nH 8100 4.00 5.0 0.25 0.13 600MLG1005S5N1T 5.6±0.2nH, ±0.3nH 8100 4.00 5.3 0.25 0.14 600MLG1005S5N6T 6.2±3%, ±0.3nH 8100 4.00 4.7 0.25 0.16 600MLG1005S6N2 T 6.8±3%, ±5%8100 3.50 4.4 0.25 0.15 600MLG1005S6N8 T 7.5±3%, ±5%8100 3.00 4.1 0.25 0.15 500MLG1005S7N5T 8.2±3%, ±5%8100 3.00 4.0 0.30 0.19 500MLG1005S8N2 T 9.1±3%, ±5%8100 3.00 3.8 0.30 0.20 500MLG1005S9N1 T 10±3%, ±5%8100 2.50 3.4 0.35 0.22 500MLG1005S10N T 11±3%, ±5%8100 2.50 3.5 0.400.28400MLG1005S11N T 12±3%, ±5%8100 2.50 3.0 0.40 0.25400MLG1005S12N T 13±3%, ±5%8100 2.40 2.90.50 0.26400MLG1005S13N T 15±3%, ±5%8100 2.20 2.8 0.55 0.35400MLG1005S15N T 16±3%, ±5%8100 2.10 2.70.55 0.32400MLG1005S16N T 18±3%, ±5%8100 2.00 2.5 0.60 0.40 350MLG1005S18N T 20±3%, ±5%8100 1.90 2.40.60 0.38350MLG1005S20N T 22±3%, ±5%8100 1.70 2.2 0.70 0.46 350MLG1005S22N T 24±3%, ±5%8100 1.70 2.1 0.70 0.43350MLG1005S24N T 27±3%, ±5%8100 1.60 2.0 0.80 0.53 300MLG1005S27N T 30±3%, ±5%8100 1.50 1.9 0.80 0.50300MLG1005S30N T 33±3%, ±5%8100 1.40 1.8 0.90 0.59 300MLG1005S33N T 36±3%, ±5%8100 1.30 1.7 1.00 0.62250MLG1005S36N T 39±3%, ±5%8100 1.20 1.6 1.00 0.65 250MLG1005S39N T 43±3%, ±5%8100 1.20 1.6 1.10 0.67250MLG1005S43N T 47±3%, ±5%8100 1.10 1.4 1.20 0.75 250MLG1005S47N T 51±3%, ±5%8100 1.10 1.5 1.20 0.72250MLG1005S51N T 56±3%, ±5%8100 1.00 1.3 1.30 0.83 200MLG1005S56N T 62±3%, ±5%8100 1.00 1.3 1.40 0.85200MLG1005S62N T 68±3%, ±5%81000.80 1.1 1.50 0.87 200MLG1005S68N T 75±3%, ±5%81000.75 1.1 1.50 0.93200MLG1005S75N T 82±3%, ±5%81000.70 1.0 1.60 1.01 200MLG1005S82N T 91±3%, ±5%81000.70 0.91.80 1.14200MLG1005S91N T∗ : Please specify inductance tolerance, (B±0.1nH), (C±0.2nH), (S±0.3nH), (H±3%) or (J±5%).Please contact us for information on inductance tolerance, G(±2%).•T est equipmentInductance Q : HP4291A+16193A, or equivalentSRF: HP8720C, or equivalentRdc: YOKOGAWA TYPE7561, or equivalent(nH)tolerance min.L, Q (MHz)(GHz)(Ω)(mA)max.Part No.∗min.typ.max.typ.100±3%, ±5%81000.70 0.9 2.00 1.37 200MLG1005SR10 T 110±3%, ±5%81000.70 0.9 2.20 1.48150MLG1005SR11T 120±3%, ±5%81000.60 0.8 2.20 1.48 150MLG1005SR12 T 130±3%, ±5%81000.60 0.8 2.50 1.68150MLG1005SR13 T 150±3%, ±5%81000.55 0.7 3.50 2.44 150MLG1005SR15T 160±3%, ±5%81000.50 0.6 3.80 2.74150MLG1005SR16T 180±3%, ±5%81000.50 0.6 3.80 2.88 150MLG1005SR18 T 200±3%, ±5%81000.42 0.5 4.20 3.15100MLG1005SR20 T 220±3%, ±5%81000.45 0.5 4.20 3.02 100MLG1005SR22T 240±3%, ±5%81000.40 0.5 4.80 3.42100MLG1005SR24 T 270±3%, ±5%81000.40 0.5 4.80 3.54 100MLG1005SR27 T 300±3%, ±5%6500.35 0.4 6.50 4.8250MLG1005SR30T 330±3%, ±5%6500.35 0.4 7.00 5.21 50MLG1005SR33 T 360±3%, ±5%6500.30 0.47.50 5.3950MLG1005SR36 T 390±3%, ±5%6500.30 0.48.005.9750MLG1005SR39TL, Q vs. FREQUENCY CHARACTERISTICSPart No.Inductance(nH)typ.Q typ.500MHz800MHz 1.8GHz 2.0GHz 2.4GHz500MHz800MHz 1.8GHz 2.0GHz 2.4GHzMLG1005S0N30.30.30.30.30.322min.27min.46min.49min.53min. MLG1005S0N40.40.40.40.40.422min.27min.46min.49min.53min. MLG1005S0N50.50.50.50.50.522min.27min.46min.49min.53min. MLG1005S0N60.6 0.6 0.6 0.6 0.6 22 27 46 49 53 MLG1005S0N70.7 0.7 0.7 0.7 0.7 22 28 45 49 54 MLG1005S0N80.8 0.8 0.8 0.8 0.8 26 34 57 60 66 MLG1005S0N90.9 0.8 0.8 0.8 0.8 21 27 44 47 53 MLG1005S1N00.9 0.9 0.9 0.9 0.9 22 29 48 50 56 MLG1005S1N1 1.0 1.0 1.0 1.0 1.0 23 29 47 50 57 MLG1005S1N2 1.1 1.1 1.1 1.1 1.1 23 29 48 50 56 MLG1005S1N3 1.2 1.2 1.2 1.2 1.2 22 27 44 47 53 MLG1005S1N5 1.4 1.4 1.4 1.5 1.5 23 29 47 50 56 MLG1005S1N6 1.5 1.5 1.5 1.6 1.6 23 29 46 49 54 MLG1005S1N8 1.7 1.7 1.7 1.7 1.7 20 26 41 43 49 MLG1005S2N0 1.9 1.9 1.9 1.9 1.9 21 25 41 43 48 MLG1005S2N2 2.1 2.1 2.1 2.1 2.2 22 27 44 47 52 MLG1005S2N4 2.3 2.3 2.3 2.3 2.4 21 26 42 44 49 MLG1005S2N7 2.6 2.6 2.6 2.7 2.7 22 27 43 45 50 MLG1005S3N0 2.9 2.9 3.0 3.0 3.1 24 29 47 49 54 MLG1005S3N3 3.2 3.2 3.3 3.4 3.5 24 30 46 48 53 MLG1005S3N6 3.4 3.4 3.6 3.6 3.8 21 26 40 42 46 MLG1005S3N9 3.7 3.7 3.9 3.9 4.1 22 28 43 45 50 MLG1005S4N3 4.1 4.1 4.3 4.4 4.6 24 30 47 49 53 MLG1005S4N7 4.5 4.5 4.8 4.9 5.2 23 30 45 47 50 MLG1005S5N1 4.9 4.9 5.4 5.6 6.1 23 29 42 43 44 MLG1005S5N6 5.4 5.4 5.8 5.9 6.3 22 28 42 43 45 MLG1005S6N2 6.0 6.0 6.8 7.1 7.8 24 29 42 43 43 MLG1005S6N8 6.5 6.6 7.4 7.8 8.6 23 28 40 41 41 MLG1005S7N57.2 7.4 8.6 9.2 10.5 24 30 41 41 39 MLG1005S8N27.9 8.0 9.3 9.9 11.3 23 28 38 38 36 MLG1005S9N18.8 9.0 10.8 11.6 13.7 24 30 40 39 36 MLG1005S10N9.7 9.9 12.4 13.5 16.7 24 30 37 36 31 MLG1005S11N10.610.913.815.119.023********MLG1005S12N11.7 12.1 16.2 18.3 23 29 33 31MLG1005S13N12.613.018.321.320242522MLG1005S15N14.7 15.3 22.0 26.0 23 28 29 26MLG1005S16N15.616.224.129.022262622MLG1005S18N17.7 18.6 29.0 23 28 26MLG1005S20N19.720.836.8212521MLG1005S22N21.8 23.3 22 27MLG1005S24N23.825.52226MLG1005S27N27.0 29.6 20 23MLG1005S30N30.133.51921MLG1005S33N33.5 37.8 20 23MLG1005S36N36.741.52123MLG1005S39N40.3 46.9 20 21MLG1005S43N44.351.62021MLG1005S47N50.2 63.2 19 20MLG1005S51N53.765.61919MLG1005S56N60.9 80.2 19 18MLG1005S62N67.589.81816MLG1005S68N75.8 107.5 17 15MLG1005S75N86.5135.21713MLG1005S82N96.9 16MLG1005S91N111.015MLG1005SR10128.9 14MLG1005SR11140.815MLG1005SR12175.2 12MLG1005SR13187.813MLG1005SR15284.7 11MLG1005SR16MLG1005SR18MLG1005SR20MLG1005SR22MLG1005SR24MLG1005SR27MLG1005SR30MLG1005SR33MLG1005SR36MLG1005SR39TYPICAL ELECTRICAL CHARACTERISTICSINDUCTANCE vs. FREQUENCY CHARACTERISTICSQ vs. FREQUENCY CHARACTERISTICSPACKAGING STYLES REEL DIMENSIONSTAPE DIMENSIONS分销商库存信息:TDKMLG1005S3N9S MLG1005S1N2S MLG1005S2N7S MLG1005S0N7C MLG1005S6N8J MLG1005S6N2S MLG1005S15NJ MLG1005SR12J MLG1005S0N6C MLG1005S1N3S MLG1005S1N5S MLG1005S1N6S MLG1005S2N4S MLG1005S4N3S MLG1005S7N5J MLG1005S22NJ MLG1005S27NJ MLG1005SR10J MLG1005SR33J MLG1005S0N4C MLG1005S20NJ MLG1005S24NJ MLG1005S30NJ MLG1005S51NJ MLG1005S91NJ MLG1005SR13J MLG1005SR20J MLG1005SR24J MLG1005SR30J MLG1005S1N8S MLG1005S3N3S MLG1005S12NJ MLG1005S56NJ MLG1005SR15J MLG1005SR39J MLG0603S33NJ MLG0603S1N3S MLG0603S3N0S MLG0603S3N3S MLG0603S6N2S MLG0603S15NJ MLG0603S13NJ MLG0603S1N5S MLG0603S2N2S MLG0603S2N4S MLG0603S3N9S MLG0603S5N6S MLG0603S8N2J MLG0603S22NJ MLG0603S47NJ MLG0603S68NJ MLG0603S0N3C MLG0603S0N4C MLG0603S0N5C MLG0603S20NJ MLG0603S24NJ MLG0603S30NJ MLG0603S36NJ MLG0603S43NJ MLG0603S51NJ MLG0603S62NJ MLG0603S75NJ MLG0603S91NJ MLG1608BR10J MLG1608B47NJ MLG1608B15NJ MLG1608B22NJ MLG1608B5N6D MLG1608B6N8D MLG1608B27NJ MLG1608B3N9S MLG1608B18NJ MLG1608B39NJ MLG1608B2N7S MLG1608B10NJ MLG1608B56NJ MLG1608B68NJ MLG1608B1N2S MLG1608B4N7S MLG1608B8N2D MLG1608B12NJ MLG1608B3N3S MLG1608B82NJ MLG1608B1N0S MLG1608B1N5S MLG1608B1N8S MLG1608B2N2S MLG1608B33NJ MLG1608SR33J MLG1608SR27J MLG1608SR39J MLG1608SR47J MLG1608SR82J MLG1608S1R0J MLG1608SR12J MLG1608SR15J MLG1608SR18J MLG1608SR22J MLG1608SR68J MLG1005S5N6S MLG1005S2N0S MLG1005S3N0S MLG1005S11NJ MLG1005S0N9C MLG1005SR27J MLG1005S1N0S MLG1005S2N2S MLG1005S68NJ MLG1005S18NJ MLG1005S5N1S MLG1005S0N3C MLG1005SR18J MLG1005S75NJ MLG1005S4N7S MLG1005S13NJ MLG1005S9N1J MLG1005S10NJ MLG1005S16NJ MLG1005S43NJ MLG1005S33NJ MLG1005S82NJ MLG1005S39NJ MLG1005S3N6S MLG1005SR16J MLG1005S0N5C MLG1005S36NJ MLG1005SR22J MLG1005S8N2J MLG1005S47NJ MLG0603SR10J MLG0603S18NJ MLG1005S0N8C。

Product datasheetCharacteristicsABL8WPS24200Regulated Switch Power Supply, 3-phase,380..500V AC, 24V, 20 AMainRange of productModicon Power Supply Product or component type Power supplyPower supply type Regulated switch modeNominal input voltage 380...500 V AC three phase, terminal(s): L1, L2, L3Input voltage limits 320...550 V AC Rated power in W 480 W Output voltage24 V DC Power supply output current 20 APermissible temporary current boost 1.5 x In (for 4 s)Anti-harmonic filterLow frequency harmonic currentsComplementaryInrush current 25 APower factor 0.65 at 24 V DC Efficiency92 %Output voltage adjustment 24...28.8 V adjustable Power dissipation in W 38.4 WProvided equipment Power factor correction filter conforming to IEC 61000-3-2Output protection typeAgainst overload, protection technology: manual or automatic reset Against overvoltage, protection technology: 30...32 V, manual reset Against short-circuits, protection technology: manual or automatic reset Against undervoltage, protection technology: tripping if U < 21.6 V Thermal, protection technology: automatic resetConnections - terminalsRemovable screw terminal block: 2 x 2.5 mm², for diagnostic relayScrew type terminals: 3 x 0.5...3 x 4 mm², (AWG 22...AWG 12) for input connectionScrew type terminals: 1 x 0.5...1 x 4 mm², (AWG 22...AWG 12) for input ground connection Screw type terminals: 4 x 0.5...4 x 10 mm², (AWG 22...AWG 8) for output connection Status LED1 LED (green and red)output voltage1 LED (green, red and orange)output currenti s c l a i m e r : T h i s d o c u m e n t a t i o n i s n o t i n t e n d e d a s a s u b s t i t u t e f o r a n d i s n o t t o b e u s e d f o r d e t e r m i n i n g s u i t a b i l i t y o r r e l i a b i l i t y o f t h e s e p r o d u c t s f o r s p e c i f i c u s e r a p p l i c a t i o n sDepth160 mmHeight143 mmWidth96 mmNet weight 1.6 kgOutput coupling SeriesParallelMarking CEMounting support35 x 7.5 mm symmetrical DIN rail35 x 15 mm symmetrical DIN railOperating position VerticalEnvironmentStandards CSA C22.2 No 60950-1UL 508Product certifications CCSAusEACULRCMEnvironmental characteristic EMC conforming to EN 61000-6-1EMC conforming to EN 61000-6-3EMC conforming to EN 55024EMC conforming to EN/IEC 61000-6-4EMC conforming to EN/IEC 61204-3Safety conforming to EN 61204-4Safety conforming to EN/IEC 60950-1Safety conforming to SELVOperating altitude2000 mIP degree of protection IP20 conforming to EN/IEC 60529Ambient air temperature for operation50…60 °C (with derating factor)-25…50 °C (without)Ambient air temperature for storage-40…70 °CRelative humidity0…90 % during operation0…95 % in storageDielectric strength3500 V between input and ground4000 V between input and output500 V between output and groundPacking UnitsPackage 1 Weight 2.160 kgPackage 1 Height 1.300 dmPackage 1 width 1.600 dmPackage 1 Length 1.880 dmOffer SustainabilitySustainable offer status Green Premium productREACh Regulation REACh DeclarationEU RoHS Directive Pro-active compliance (Product out of EU RoHS legal scope)EU RoHS DeclarationMercury free YesRoHS exemption information YesChina RoHS Regulation China RoHS declarationEnvironmental Disclosure Product Environmental ProfileCircularity Profile End of Life InformationPVC free YesContractual warrantyWarranty18 monthsDimensions DrawingsRegulated Switch Mode Power Supplies DimensionsRegulated Switch Mode Power Supply Internal Wiring DiagramRegulated Switch Mode Power SupplyLine Supply Wiring DiagramThree-phase (L1-L2-L3) 3 x 380 to 500 VRegulated Switch Mode Power SuppliesSeries or Parallel ConnectionSeries Connection(1)Two Shottky diodes Imin = power supply In and Vmin = 50 VParallel ConnectionNOTE: Series or parallel connection is only recommended for products with identical references.For better availability, the power supplies can also be connected in parallel using the ABL8RED24400 Redundancy module.Regulated Switch Mode Power SuppliesDeratingThe ambient temperature is a determining factor that limits the power an electronic power supply can deliver continuously. If the temperature around the electronic components is too high, their life will be significantly reduced.The nominal ambient temperature for the Universal range of Phaseo power supplies is 50°C. Above this temperature, derating is necessary up to a maximum temperature of 60°C.The graph below shows the power (in relation to the nominal power) that the power supply can deliver continuously, depending on the ambient temperature.X Maximum operating temperature (°C)ABL 8RPM, ABL 8RPS, ABL 8WPS mounted verticallyDerating should be considered in extreme operating conditions:●Intensive operation (output current permanently close to the nominal current, combined with a high ambient temperature)●Output voltage set above 24 Vdc (to compensate for line voltage drops, for example)●Parallel connection to increase the total powerRegulated Switch Mode Power SupplyLoad LimitManual Reset Protection Mode(1)Boost 4sAutomatic Reset Protection Mode(1)Boost 4s“Boost” Repeat AccuracyThis type of operation is described in detail in the user manual, which can be downloaded from the website.。

User’s manual ENVCI07For variable speed compressors62 205 930 11 ed00 Applicable as of Version 1209/04Worthington-CreyssensacPage 262 205 930 11Table of contains1 - GENERAL INFORMATION ..........................................................................................................................3 2- USER INTERFACE ......................................................................................................................................3 2.1 D ISPLAYS ..................................................................................................................................................3 2.2 P USH BUTTONS ..........................................................................................................................................4 2.3 LED’S .......................................................................................................................................................4 3- MENUS AND FUNCTIONS ..........................................................................................................................4 3.1 M ENU CODE ENTRY / PARAMETER MODIFICATION .........................................................................................4 3.1.1 Entering menus................................................................................................................................4 3.1.2 Parameter modification....................................................................................................................5 3.2 M ENU STRUCTURE – QUICK REFERENCE .....................................................................................................6 3.3 M ENUS AND CHANGEABLE FEATURES ..........................................................................................................7 3.3.1 Status menu.....................................................................................................................................7 3.3.2 Error log menu..................................................................................................................................7 3.3.3 Maintenance interval menu..............................................................................................................7 3.3.4 Basic settings menu.........................................................................................................................8 3.3.5 Machine configuration......................................................................................................................9 3.3.6 Regulating settings...........................................................................................................................9 3.4 M ICRO POWER INTERRUPTIONS ................................................................................................................10 4 - CONTRAST ................................................................................................................................................11 5 - MAINTENANCE .........................................................................................................................................11 6- START UP AND OPTIMISING FINAL MACHINE ADJUSTMENTS (11)7 - MAIN OCCURRENCES .............................................................................................................................12 8 - DRYER MANAGEMENT ............................................................................................................................13 9 - SPECIFIC VARIABLE SPEED MOTOR . (13)Worthington-Creyssensac 09/0462 205 930 11Page 31 - General informationThe VCI07 controller has been developed for the control of medium to large size variable speed compressors, integrating “Variable Speed”.The VCI07 has a metal housing and can be mounted inside or outside the electrical cabinet of the compressor.Two 3-digit LCD displays and an alphanumeric display with 2 lines of 16 characters permanently show the behaviour of the compressor.We devoted special attention to the development of a simple user interface.2 - User interfaceThe VCI07 controller is equipped with three bottom-view-side-lighted displays, 8 push buttons and 4 LEDS.StartStop Display Reset2.1 DisplaysThe VCI07 is equipped with 3-bottom view - side lighted displays. Each display is dedicated for a specific purpose:The following messages can be displayed:Message Meaning3 digit seven segment (left display) e.g. 6.8- - -• Current pressure is constantly beingdisplayed• Indicating a pressure sensor error3 digit seven segment (right display) e.g. 86- - -• Current temperature is being constantlydisplayed• Indicating a pressure sensor error Alpha numeric 2 lines 16 character e.g. emergency stop e.g. standbye.g. oil service Error indications Status indications Service timersTable 109/04Worthington-CreyssensacPage 462 205 930 112.2 Push buttonsThe VCI07 is equipped with 8 tactile push buttons. In the standard software, each push button has its own specific function.Arrow up Select previous menu item Arrow down Select next menu item Minus Exit current menu (back to previous) Plus Entering the selected menu Enter Modifying / confirming variable settings Green rectangular Starting the compressor locally Red rectangular Stopping the compressor locally Reset Return to the basic menu orReset the controller whenever an alarm/warning occurred.Table 22.3 LED’sThe VCI07 is equipped with 4 LEDS. Each LED has its own specific function.BAR The pressure unit is set at BAR (see Table 7 on page 9) PSI The pressure unit is set at PSI (see Table 7 on page 9)°CThe temperature unit is set at Celsius (see Table 7 on page 9) °F The temperature unit is set at Fahrenheit (see Table 7 on page 9)Table 33 - Menus and functions3.1 Menu code entry / parameter modificationThis paragraph explains how to select a menu and how to scroll through the different parameters.3.1.1 Entering menusand/or returning to the basic menuWorthington-Creyssensac 09/0462 205 930 11Page 5How the different menus and sub-menus can be entered, is shown below:3.1.2 Parameter modificationa) Parameter modification without password protection•Within the entered menu, select the parameter to be changed by scrolling through the menu with the up and down arrow-button (step 1)• Push the enter-button and the parameter value will start blinking (step 2) • Change the blinking value with the “+” or “-“ button (step 3) • Confirm with the enter-button (step 4)09/04Worthington-CreyssensacPage 662 205 930 113.2 Menu structure – quick referenceCurrent time & date set-up Date 1+time+pressure 1 Date 1+time+pressure 2 Date 1+time+pressure 3 Date 1+time+pressure 4 etc. ( up to 32 )Note: Dr. alarm and Dryer Start are visible if the drier option is enabled in the factory or in the SAV menu.Worthington-Creyssensac 09/0462 205 930 11Page 73.3 Menus and changeable features 3.3.1 Status menuThe status menu can be considered as the default menu. It is shown at start-up of the controller and the VCI07 will revert to this menu after one minute when the keyboard activity stops while displaying a different menu. The following messages are displayed :• Machine status (e.g. standby, blowing down, onload, offload, etc.) • Time and day• Errors - active faults are blinking (e.g. air. Temp ----, Oil filt P warn, etc.)3.3.2 Error log menuThe VCI07 saves the 10 most recent occurred faults. By using the up and down arrow-button all the messages can de displayed. Below an example is given:Fault log nr. 1 High pressure fault Occurred fault number 1 is being displayed Fault log nr. 2 Emergency stop Occurred fault number 2 is being displayed Fault log nr. 3 Air filter P warning Occurred fault number 3 is being displayed Fault log nr. 4 Temperature probe fault Occurred fault number 4 is being displayed (See Table 1 on page 3) Etc.Table 4After a fault has been selected and the enter-button is pushed continuously, the date and time is displayed when the fault occurred.3.3.3 Maintenance interval menuIn the timer menu the following timers can be checked:Running hours Total running hours is being displayed Loaded hours Total loaded hours is being displayed Air filter time Remaining hours to air filter service is being displayed Oil filter time Remaining hours to oil filter service is being displayed Oil separator time Remaining hours to oil separator service is being displayed Oil change time Remaining hours to oil change is being displayed Lubrication Motor lubricationTable 5Note: Setting and resetting the displayed values can be done in the service setting menu.09/04Worthington-CreyssensacPage 862 205 930 113.3.4 Basic settings menuOffload PFrom this level the machine starts working offload (for max. value see also factory settings). After a timing(“slow down time”), the compressor stops except the pressure has reached the pressure load level.8 6 P.max On Load P Pressure target in Variable Speed Regulation 6.6bar P. minOffload P.P.scheduleEnabling or disabling the pressure schedule OFF OFFON Press. schedule The current time can be set as well as the configuration of the pressure schedule throughout theweek (see 3.3.4.1 below)Drainspit time Opening time of the drain to release the moisture of the after cooling process2sec 1sec20secDrain dwell time Opening interval of the drain30sec 10sec120sec Dr. alarmDryer high temperature alert threshold 0 °C 5 °C30 °C Dryer start temporization of drier starting before the compressor= time necessary to produce dry air. 0 015minTable 63.3.4.1 Pressure scheduleThe pressure time menu is used for programming over an entire week of up to 32 different pressure settings (e.g.: [REF] onload P. or 7 bar pressure required), associated with specific times. To modify the parameters in this menu, also see settings: pressure time Chap. (3.2).06Jun Fri 10 :291999Mon 06 :307.0BARMon 17 :30[OFF]Mon 19 :00[OFF]Required pressure [REF] = Onload pressureWorthington-Creyssensac 09/0462 205 930 11Page 93.3.5 Machine configurationIn the machine configuration menu, the following application specific parameters can be set:or possible values Auto restart Automatic restart of the machine after a power failure in case when the machine was running before the power failure.ARR ARR MARStart ctrl Select between local ON/OFF (on VCI07 box) or remote ON/OFF via the digital input 3.ON/OFF check can also be made via the RS 485 link For example with LeadairLOC LOC, EXT, 485Press. ctrl Selection between (no load / load) operation locally or via the RS 485 link (with Leadair)Remark: The DI 06 digital input has priority over this check function.DI 06 is the low-pressure switch input.Placing a relay in series with this pressure switch makes it possible to remotely control the (no load /load) operation.LOC LOC 485Machine number Address of the controller in an RS485 network 1 1 254 P unit Selection of the pressure unit BAR BAR PSI T unit Selection of the temperature unit °C °C °F Power unit Defines and activates instantaneous power display % - - - % Language Selection of the language in which the messages are displayed.EnglishMin temp Minimum oil temperature below which the machine does not start.2 °C -10 °C +10 °CRelay 6 It defines R 06 output as: Alarm and fault reportingR 06 changes state in the event of a machine alarm Machine safety or maintenance counters to 0 ….. - or in the event of a faultthe machine stops due to a safety problem - Fault report (only)Machine state: Output activated if the machine is operating (stand by) or if the motor is running Alarm Alarm / Error / StateTable 7Important note:It is always possible to stop the machine locally when remote start / stop function is enabled.3.3.6 Regulating settingsWhile the compressor is running loaded, a variable output signal is being generated by the PWM output. This signal is based on a PI control algorithm and can be used to drive an actuator (e.g. a proportional valve or a frequency inverter). The pressure regulation algorithm will control the actuator in order to maintain the load pressure at all time. If the actuator can not sufficiently cut back, the compressor will rise until it reaches the unload pressure. The compressor will then unload and the PI pressure control algorithm is disabled. As the pressure goes down and reaches the load level again, the compressor loads again and the PI control will take over. (see Table 6, Chap. 3.3.4)09/04Worthington-CreyssensacPage 1062 205 930 11ATTENTION :Do not adjust correctors P and I. They undergo in-factory configuration for compatibility with more than 95% of installations. During the setup, the installer checks the settings. If in doubt contact our after-sales service.Min. value It reflects the minimum output level of the control algorithm atwhich can be cut back. Below this value, the compressor will beput offload. The minimum value is expressed in %.0% 0% 100% P factor This proportional control factor determines how much thecontrol will react to differences between actual and targetpressure.40% 0% 100% I factor This integral control factor determines the “weight” of theintegral on the control action.10% 0% 100%Model Maximum frequency management model. Setting dependent uponmachine type (see VCI07 settings instructions)Unload Fr. The frequency at which the machine turns in no load operation 20Hz 0Hz 200Hz Max. Freq. Maximum frequency of variator. Setting dependent uponmachine type (see VCI07 settings instructions)Min Freq. Motor-compressor minimum frequency, set into the variable speed drive. This parameter is useful for displaying the instantaneous power10Hz 0Hz 200HzMax. Power Maximum power of machine. Setting dependent upon machine type (see VCI07settings instructions)Onload loss Defined for instantaneous power calculation 0 16 Safety fac.= Safety factor and proportional correction. Setting dependent upon machine type (see VCI07settings instructions)Ventil Stop. Ventilator stop.OFF OFF ONT Vent. STOP Time between shaft stop and ventilator stop = tempo at which the ventilator continues to turn after shaft stop.This safety feature prevents the oil temperature from rising after the machine has stopped.60 0 600Fan sp. entr Activates the ventilation speed variation: used to control the oiltemperature OFF ON OFFTH reg. Visible when ‘Var ventil ‘ is active, this parameter is the oiltemperature setpoint: it is the desired oil temperature 80 °C 70 °C 100 °CTable 83.4 Micro power interruptionsThe VCI07 is standard equipped with a micro power interruption detection of 40ms function. Every zero passage of the 24VAC main is detected. When 2 consecutive cycles or a power failure of 40ms is detected, the controller will automatically stop the machine. At the same time, all relays are released and 3 horizontal dashes are displayed on the LED display. By stopping the machine during a micro power interruption, sparks on the relay contacts are avoided which will extend the relay lifetime.4 - ContrastThe only possible adjustment is the visual angle of the alphanumeric display. In the factory this angle is already adjusted to its best position. When another angle is wanted it can be changed by removing the black cap at the bottom of the unit. Just behind the aperture a 270 degrees potentiometer is located. Use a screwdriver with a 25mm blade or less to make the adjustment. Do not forget to replace the black cap.5 - MaintenanceThe VCI07 does not need maintenance. When the front panel is dirty, it can be cleaned with a soft cloth drenched in soap water or methanol.6 - Start up and optimising final machine adjustmentsThe machine undergoes in-factory configuration in order to limit the need for adjustments during installation. Therefore, only the pressure thresholds need to be set :- “OnLoad P” = desired regulation pressure (in vari-speed)In order to conserve energy to the maximum, it is advised to lower the regulation pressure to thelowest possible level ( so as to optimize power)- “Offload P” = Delayed stop pressure of the machineFor energy consumption that is less than the minimum capacity , it is advised to set it at + 0,5 barabove the “P load”.In certain rare cases, it may prove useful to adjust the regulation settings (see chapter 7, main operational occurrences).7 -Main occurrencesOccurrences Solutions1. THE MACHINE STOPS AND STARTS AGAIN BUTONLY FOR A SHORT TIME Increase unloading time (for +5 to +20 s) so that the motor doesn’t stop so often (the compressor runs for longer before stopping). If this delay is insufficient, increase the “unloading time” and the minimum unloading time by the same amount (for example : +30s)2. THE MACHINE STOPS, DISPLAYING THE MESSAGE”MOTOR ERROR” Check that there is no mechanical blockage of the motor. See variator instructions : the fault comes from the variator. Identify the fault.Ne pas réinitialiser la machine sans chercher la source du problème.3. THE OIL TEMPERATURE IS TOO HIGH (THEMACHINE STOPS OR AN ALERT IS GIVEN) Lower the pressure to the min. level that the client will need. Decrease the “dry fact” setting by 2 to 10%In the event of failure, proceed more progressively : by consecutive steps of 1 to 2%, testing each time the rise in machine temperature.In this way, machine cooling is steady and total absorbed power is reduced (as is the case with the capacity)4. THERE ARE LARGE FLUCTUATIONS OF PRESSURE(MORE THAN 0,2 BARS) FOR FLOWS IN BETWEEN THE MAXIMUM AND MINIMUM CAPACITYI. Read the variator frequency (see variator instructions) Check that it is higher than the minimum frequency (the capacity is thus higher than the minimum capacity). If this is the case, reduce the integral factor (I factor) so as to reduce fluctuations.Attention : reducing it too much will slow the rise in pressure.5. THE PRESSURE DOES NOT RISE QUICKLYIncrease the P factor.6. THE MACHINE EQUIPPED WITH A DRIER DOESNOT START Wait or reduce the ‘dém séch‘ drier starting time to 0 min for machine starting.7. THE MACHINE STOPS AND ‘‘ERR T. MOTEUR’’ ISDISPLAYED The variable speed motor is overheating (RLR 220V). Check that the machine is not operating at an excessive ambient temperature (> 40 °C)8. THE MACHINE STOPS AND (DRYER FAULT) ISDISPLAYED The drier low temperature threshold has been reached Contact your After Sales Service to check that the drier is not frozen, (if the drier is not frozen, it is possible to maintain the drier low temperature threshold in the drier menu)8 - Dryer ManagementThis controller is compatible with the integral dryer and specific variable speed motor options. Dryer Management- The VCI07 may be configured in three manners to control the dryer:•- - - “no message”•Ale “Alert” (default setting)•ERR “Stop on FAULT”- - -Bottom Message/Top Message/Ale Dryer t. too low Dryer t. too highERR ERR : Dryer t. low ERR : Dryer t. highA start time before compressor starting can be indicated (see Chap. 3.2 “Base” settings).Dryer freezing- The VCI07 indicates a dryer alert when the dryer temperature is less than the bottom threshold value:It displays “Dryer t. too low” and the machine does not stop.The unit may be stopped following an error message by changing its mode with ERR: it displays“ ERR : Dryer t. low ”, the machine stops.Dryer and By-Pass replacementIf the dryer is replaced or has a direct connection (by-pass), it is necessary to disable the dryer functions in the drier menu-accessible through SAV code.The dryer “dew point” temperature acquisition is then disabled, as well as the ON/OFF control.9 - Specific variable speed motorIn certain applications, the motor is equipped with motor temperature control probes.A high motor temperature alarm is activated in order to alert the user about motor overheating.A machine fault – a complete compressor shutdown is triggered when the maximum temperature threshold of the winding is reached (see Operation Incidents).Check the compressor operation ambient temperature and the case internal temperature.____________________________________________________________________________________________________ ____________________________________________________________________________________________________ ____________________________________________________________________________________________________ ____________________________________________________________________________________________________ ____________________________________________________________________________________________________ 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DescriptionThe SIM6800M Series inverter power module (IPM) provides a robust, highly-integrated solution for optimally controlling 3-phase motor power inverter systems and variable speed control systems used in energy-conserving designs to drive motors of residential and commercial appliances. This IC takes up to 5 A (continuous) output current. It can withstand voltages of up to 600 V (IGBT breakdown voltage).The SIM6800M Series series power package includes an IC with all of the necessary power elements (six MOSFETs or IGBTs and six freewheeling diodes), pre-driver ICs (two), and bootstrap diodes (three), needed to configure the main circuit of an inverter. This enables the main circuit of the inverter to be configured with fewer external components than traditional designs.Applications include residential white goods (home applications) and commercial appliance motor control:• Air conditioner fan • Small ventilation fan • Dishwasher pumpFeatures and Benefits▪ Built-in pre-drive IC▪ MOSFET or IGBT power element▪ Alleviate noise generation by adjusting an internal resistor ▪ CMOS compatible input (3.3 V and 5 V)▪ High-side gate driver using bootstrap circuit or floating power supply▪ Built-in protection circuit for controlling power supply voltage drop (UVLO on VBB and VCC)▪ Overcurrent protection (OCP), overcurrent limiting (OCL), and thermal shutdown (TSD)▪ Output of fault signal during operation of protection circuit ▪ Output current 2.5 A, 3.0 A, or 5 A ▪ Small DIP (SIM 40-pin)▪ Isolation rating of 1500 Vrms/min.▪UL recognized component, File No.: E118037High V oltage 3-Phase Motor Driver ICsSIM6800M SeriesFunctional Block DiagramVB1BVB2VB3UIGBTs for SIM6822M and SIM6827MV VB1AA Not to scalePackage: 40-pin DIPLeadform 2971Selection GuidePart NumberPower Device RatingBootResistance(Ω)InputVoltage(VAC)Note TypeBreakdown(V)Output(A)V CE(sat) (V)(Typ)(Max)SIM6812M MOSFET500 2.5 2.0 2.460200 SIM6813M MOSFET500 3.0 1.4 1.760200SIM6822MIGBT600 5.0 1.75 2.260200Low switching lossSIM6827M Low noiseRecommended Operating ConditionsCharacteristic Symbol Remarks Min.Typ.Max.UnitsMain Supply Voltage V BB SIM6812MSIM6813MBetween VBB and LS––400V SIM6822MSIM6827M––400VLogic Supply Voltage V CC Between VCC and COM13.51516.5V Dead Time t dead 1.5––μs Bootstrap Capacitor C BOOT1––μF Pull-up Resistor ¯F¯¯O¯ Pin R FO 3.3–10kΩCapacitor ¯F¯¯O¯ Pin C FO0.001–0.01μFShunt Resistor LS Pin R S SIM6812MSIM6813MV LS≤ 1 V0.33––ΩSwitching Frequency f PWM SIM6822MSIM6827M––20kHzSIM6812M and SM6813M Absolute Maximum Ratings, valid at T A = 25°CCharacteristic Symbol Remarks Rating Unit MOSFET Breakdown Voltage V DSS I D = 100 μA500V Logic Supply Voltage V CC Between VCC and COM20V Bootstrap Voltage V BS Between VB and HS (U,V, and W phases)20VOutput Current, Continuous I O SIM6812M T C = 25°C 2.5A SIM6813M T C = 25°C 3.0AOutput Current, Pulsed I OP SIM6812M PW ≤ 100 μs, duty cycle = 1% 3.75A SIM6813M PW ≤ 100 μs, duty cycle = 1% 4.5AInput Voltage V IN HINx, LINx, and OCP pins–0.5 to 7V Thermal Resistance (Junction to Case)RθJC(IGBT)All elements operating 3.6°C/W Thermal Resistance (Junction to Ambient)RθJA(IGBT)All elements operating25°C/W Case Operating Temperature T COP–20 to 100°C Storage Temperature T stg–40 to 150°C Isolation Voltage V iso Between marked side of device and each pin, 1 minute, AC1500V rmsSIM6822M and SIM6827M Absolute Maximum Ratings, valid at T A = 25°CCharacteristic Symbol Remarks Rating Unit Supply Voltage V DC Between VBB and LS1, LS2, and LS3450V Supply Voltage (Surge)V DC(Surge)Between VBB and LS1, LS2, and LS3500V IGBT Breakdown Voltage V CES I C = 1 mA600V Logic Supply Voltage V CC Between VCC and COM20V Bootstrap Voltage V BS Between VB and HS (U,V, and W phases)20V Output Current, Continuous I O 5.0A Output Current, Pulsed I OP PW ≤ 100 μs, duty cycle = 1%7.5A Input Voltage V IN HINx, LINx, and OCP pins–0.5 to 7VThermal Resistance (Junction to Case)RθJC(IGBT)IGBT, all elements operating 3.6°C/W RθJC(FRG)FRG, all elements operating 4.2°C/WThermal Resistance (Junction to Ambient)RθJA(IGBT)IGBT, all elements operating25°C/W RθJA(FRG)FRG, all elements operating29°C/WCase Operating Temperature T COP–20 to 100°C Storage Temperature T stg–40 to 150°C Isolation Voltage V iso Between marked side of device and each pin, 1 minute, AC1500V rmsTypical Application DiagramNOTE:▪ W1 and W2, as well as V1 and V2< must be externally connected to each other.▪ If not using the Current Limiter (OCL) function, leave the OCL and SD pins open, but the SD pin should be connected to GND if significant external noise is observed.▪ Place a pull-up resistor, R FO , between the 3.3 V or 5 V supply and the IC, selected according to anti-noise characteristics, even though a 1 MΩ pull-up resistor is built-in at the ¯F¯O¯ pin. Note that connecting to the 3.3 V or 5 V supply without a pull-up resistor disables the TSD function (however, low-side UVLO protection and OCP function remain active).▪ To avoid malfunctions resulting from noise interference, place a 0.001 to 0.01 μF ceramic capacitor (C FO) between the ¯F¯O¯and COM2 pins.▪ To avoid malfunctions resulting from noise interference, the traces must be as short as possible between the IC and the bootstrap capacitors, C bootx (approximately 1 μF).▪ To avoid malfunctions resulting from noise interference, place a 0.01 to 0.1 μF ceramic capacitor between the VCC1 and COM1 pins, as well as between the VCC2 and COM2 pins. Also, the traces between them must be as short as possible.▪ To avoid malfunctions resulting from noise interference, the traces between the current sense resistor R S, which is placed between the LS and COM2 pins, and the IC must be as short and wide as possible.▪ To avoid malfunction, the wiring between the LS and COM2 pins should be as short as possible. When wiring cannot be shortened sufficiently, insert a fast diode between LS and COM2.▪ When the low pass filter (RC filter, R O, C O in the typical application circuit) is connected to the shunt resistor for current detection, the time constant should be set to be 0.2 μs or shorter. Care should be taken because destruction of the IPM maybe caused due to detection delay when the time constant of filter is set to be 0.2 μs or longer, because a filter (1.5 μs(min)) is incorporated in the OCP circuit of the IPM.ELECTRICAL CHARACTERISTICS, valid at T A=25°C, unless otherwise notedCharacteristics Symbol Conditions Min Typ Max Units Logic Supply Current I CC V CC = 15 V – 3.2 4.5mA Bootstrap Supply Current I BX V BX = 15 V, V HIN = 5 V per phase–140400μAInput Voltage V IH V CC = 15 V, output on–2 2.5V V IL V CC = 15 V, output off1 1.5–V¯F¯¯O¯ Pin Input Threshold Voltage V FOIH V CC = 15 V, output on–2 2.5V V FOIL V CC = 15 V, output off1 1.5–VInput Current I IH V CC = 15 V, V IN = 5 V–230500μA I IL V IN = 0 V––2μAUndervoltage Lock Out V UVHLHigh side, between VBx and U, V, or W9.010.011.0VV UVHH9.510.511.5VV UVLLLow side, between VCC and COM10.011.012.0V V UVLH10.511.512.5V¯F¯¯O¯ Pin Output Voltage V FO(L)V CC = 15 V, V FO = 5 V, R FO = 10 kΩ0–0.5V V FO(H) 4.8––VOCL Pin Output Voltage V OCL(L)V CC = 15 V0–0.5V V OCL(H) 4.5– 5.5VOvercurrent Limit Reference Voltage V LIM V CC = 15 V0.61750.650.6825V Overcurrent Protection Trip Voltage V TRIP V CC = 15 V0.9 1.0 1.1V Overcurrent Protection Hold Time t p V CC = 15 V2025–μs OCP Blanking Time t bk(OCP)V CC = 15 V–2–μs OCL Blanking Time t bk(OCL)V CC = 15 V–2–μsOvertemperature Detection Threshold Temperature (Activation and Deactivation)T DHV CC = 15 V, no heatsink135150165°C T DL105120135°CBootstrap Diode Leakage Current I LBD V R = 500 V––10μA Bootstrap Diode Forward Voltage V FBD I F = 0.15 A– 1.0 1.3V Bootstrap Diode Series Resistor R BD456075ΩSIM6812M and SIM6813M Switching CharacteristicsMOSFET Leakage Current I DSS V DS = 500 V––100μAMOSFET On-State Resistance R DS(ON)SIM6812M V CC = 15 V, I D = 1.25 A, V IN = 5 V–2 2.4ΩSIM6813M V CC = 15 V, I D = 1.5 A, V IN = 5 V– 1.4 1.7ΩDiode Forward Voltage V SD SIM6812M V CC = 15 V, I D = 1.25 A, V IN = 0 V– 1.0 1.5V SIM6813M V CC = 15 V, I D = 1.5 A, V IN = 0 V– 1.0 1.5VSIM6822M and SIM6827M Switching CharacteristicsIGBT Leakage Current I CES V CC = 15 V, V CE = 600 V, V IN = 0 V––1mA IGBT Saturation Voltage V CE(sat)V CC = 15 V, I C = 5 A, V IN = 5 V– 1.75 2.2V Diode Forward Voltage V F V CC = 15 V, I SD = 5 A, V IN = 0 V– 2.0 2.4VSIM6812M SWITCHING CHARACTERISTICS, valid at T A=25°C, unless otherwise notedCharacteristics Symbol Conditions Min Typ Max UnitsSwitching Time, High Side t dH(on)V BB = 300 V, V CC = 15 V, I D = 1.25 A, 0 V ≤ V HIN≤ 5 V–910–ns t rH–100–ns t rrH–140–ns t dH(off)–700–ns t fH–40–nsSwitching Time, Low Side t dL(on)V BB = 300 V, V CC = 15 V, I D = 1.25 A, 0 V ≤ V LIN≤ 5 V–875–ns t rL–110–ns t rrL–155–ns t dL(off)–775–ns t fL–35–nsSIM6813M SWITCHING CHARACTERISTICS, valid at T A=25°C, unless otherwise notedCharacteristics Symbol Conditions Min Typ Max UnitsSwitching Time, High Side t dH(on)V BB = 300 V, V CC = 15 V, I D = 1.5 A, 0 V ≤ V HIN≤ 5 V–820–ns t rH–100–ns t rrH–170–ns t dH(off)–810–ns t fH–50–nsSwitching Time, Low Sidet dL(on)V BB = 300 V, V CC = 15 V, I D = 1.5 A, 0 V ≤ V LIN≤ 5 V–760–ns t rL–130–ns t rrL–180–ns t dL(off)–750–ns t fL–50–nsI CV CESwitching Time DefinitionSIM6822M SWITCHING CHARACTERISTICS, valid at T A=25°C, unless otherwise notedCharacteristics Symbol Conditions Min Typ Max UnitsSwitching Time, High Side t dH(on)V BB = 300 V, V CC = 15 V, I C = 5 A, 0 V ≤ V HIN≤ 5 V, inductiveload–735–ns t rH–70–ns t rrH–80–ns t dH(off)–570–ns t fH–95–nsSwitching Time, Low Side t dL(on)V BB = 300 V, V CC = 15 V, I C = 5 A, 0 V ≤ V LIN≤ 5 V, inductiveload–685–ns t rL–95–ns t rrL–80–ns t dL(off)–540–ns t fL–95–nsSIM6827M SWITCHING CHARACTERISTICS, valid at T A=25°C, unless otherwise notedCharacteristics Symbol Conditions Min Typ Max UnitsSwitching Time, High Side t dH(on)V BB = 300 V, V CC = 15 V, I C = 5 A, 0 V ≤ V HIN≤ 5 V, inductive load–1030–ns t rH–180–ns t rrH–100–ns t dH(off)–590–ns t fH–150–nsSwitching Time, Low Side t dL(on)V BB = 300 V, V CC = 15 V, I C = 5 A, 0 V ≤ V LIN≤ 5 V, inductive load–1030–ns t rL–240–ns t rrL–100–ns t dL(off)–540–ns t fL–150–nsTruth TableM ode Hin Lin H-side MOSFET L-side MOSFETNormal L L Off Off H L On OffL H Off On H H On OnTSD L L Off Off H L On OffL H Off Off H H On OffOCP L L Off Off H L On OffL H Off Off H H On OffOCL1Shown =L forSIM682xM (= H for SIM681xM)L (H)L (H) Off Off H (L) L (H)Off Off L (H)H (L)Off On H (L)H (L) Off OnUVLO ( VCC )2L L Off Off H L Off OffL H Off Off H H Off OffUVLO ( VB )3L L Off Off H L Off OffL H Off On H H Off On¯F¯¯O¯ ( = L ) L L Off Off H L On OffL H Off Off H H On Off1The OCL feature is enabled when the OCL and SD pins are tied together externally. If these pins are not tied when an OCL condition occurs, device operation continues in Normal mode.2Returning to the Normal mode of operation from a V CC UVLO condition, a high-side MOSFET resumes switchingon the rising edge of an HINx input. On the other hand, a low-side MOSFET resumes switching on the first logic highof a LINx input after release of the UVLO condition.3Returning to the Normal mode of operation from a V B UVLO condition, a high-side MOSFET resumes switching on the rising edge of an HINx input.Note: To prevent a shoot-through condition, the external microcontroller should not drive HINx = LINx = H at the same time.HIN LIN COMFOInternal equivalent circuit diagram (HIN, LIN)Internal equivalent circuit diagram (¯F ¯ ¯O ¯ )OCP Timing DiagramLow-Side TSD Timing DiagramOpen-collector output transistor turned on in low stateLO (Low-side V GATE )FOLIN LOOCPFO<2μsμsμs V T R IP (1V)225(typ.)(Low-side V GATE )LINFOVCC2UVLL UVLHLOUVLH(High-sideVGATE)(Low-sideVGATE)Open-collector output transistorturned on in low stateHigh-Side UVLO Timing DiagramLow-Side UVLO Timing DiagramLINLOLSFOOCL,SDHIN HOHigh-side shutdown(Low-side V GATE )V GATE )OCL Timing Diagram(OCL and SD pins connected externally)1202140Pin List TableNumberName Function1LS3A Source pin (W phase)2LS2Source pin (V phase) (optionally use pin 33)3OCP Input for Overcurrent Protection 4¯F ¯ ¯O ¯ Error signal output pin 5VCC2Low-side logic supply voltage 6COM2Low-side logic GND pin 7LIN1Low side input pin (U phase)8LIN2Low side input pin (V phase)9LIN3Low side input pin (W phase)10OCL Current limiter output signal pin 11LS1Source pin (U phase)12SD Hide-side shutdown pin 13HIN1High-side input pin (U phase)14HIN2High-side input pin (V phase)15HIN3High-side input pin (W phase)16COM1High-side logic GND pin 17VCC1High-side logic supply voltagePin-out DiagramNumber NameFunction18,22,25,27,29,32,34,36,38,39NC No connection (pin deleted)19V High side boot-strap negative pin (V phase)20VB2High side boot-strap positive pin (V phase)21VB1A High side boot-strap positive pin (U phase)22VB3High side boot-strap positive pin (W phase)24W1Output of W phase; connect to W2 externally 26V1Output of V phase; connect to V2 externally 28VBB Main supply voltage30VB1B High side boot-strap positive pin (U phase)31U Output of U phase33LS2Source pin (V phase); pin trimmed35V2Output of V-phase; connect to V1 externally 37W2Output of W-phase; connect to W1 externally 40LS3BSource pin (W phase)Pb-free. Device composition compliant with the RoHS directive.a: Part #: SIM68xxMb: Lot number 5 digits1stletter: Last digit of year2ndletter: MonthJan to September: NumericOctober: ONovember: NDecember: D3rdand 4th letter: Day5th letter: Reference number01 to 31Leadframe Material：Cu Pin treatment:Solder Plating ：Unit：mmBecause reliability can be affected adversely by improper storage environments and handling methods, please observe the following cautions.Cautions for Storage• Ensure that storage conditions comply with the standard temperature (5°C to 35°C) and the standard relative humidity(around 40% to 75%); avoid storage locations that experienceextreme changes in temperature or humidity.• Avoid locations where dust or harmful gases are present and avoid direct sunlight.• Reinspect for rust on leads and solderability of products that have been stored for a long time.Cautions for Testing and HandlingWhen tests are carried out during inspection testing and otherstandard test periods, protect the products from power surgesfrom the testing device, shorts between the product pins, andwrong connections.Remarks About Using Silicone Grease with a Heatsink• The screw torque for mounting a heatsink must be 58.8 to78.4 N●cm (6.0 to 8.0 Kgf●cm). When mounting, there mustbe no foreign substance between the product and the heatsink, except for silicone grease.• When silicone grease is used in mounting this product on a heatsink, it shall be applied evenly and thinly. If more siliconegrease than required is applied, it may produce excess stress. • Volatile-type silicone greases may crack after long periods of time, resulting in reduced heat radiation effect. Silicone greasewith low consistency (hard grease) may cause cracks in the mold resin when screwing the product to a heatsink.• Our recommended silicone greases for heat radiation purposes, which will not cause any adverse effect on the product life, areindicated below:Type SuppliersG746Shin-Etsu Chemical Co., Ltd.YG6260MOMENTIVE Performance Materials, IncSC102Dow Corning Toray Co., Ltd. Soldering• When soldering the products, please be sure to minimize the working time, within the following limits:260±5°C 10±1 s (Flow, 2 times)380±10°C 3.5±0.5 s (Solder iron, 1 time)• Soldering iron should be at a distance of at least 1.5 mm from the body of the productsElectrostatic Discharge• When handling the products, the operator must be grounded.Grounded wrist straps worn should have at least 1 MΩ ofresistance from the operator to ground to prevent shock hazard, and it should be placed near the operator.• Workbenches where the products are handled should be grounded and be provided with conductive table and floor mats.• When using measuring equipment such as a curve tracer, the equipment should be grounded.• When soldering the products, the head of soldering irons or the solder bath must be grounded in order to prevent leak voltages generated by them from being applied to the products.• The products should always be stored and transported in Sanken shipping containers or conductive containers, or be wrapped in aluminum foil.Sanken reserves the right to make, from time to time, such de p ar t ures from the detail spec i f i c a t ions as may be re q uired to per m it im p rove m ents in the per f or m ance, reliability, or manufacturability of its prod u cts. Therefore, the user is cau t ioned to verify that the in f or m a t ion in this publication is current before placing any order.When using the products described herein, the ap p li c a b il i t y and suit a bil i t y of such products for the intended purpose shall be reviewed at the users responsibility.Although Sanken undertakes to enhance the quality and reliability of its prod u cts, the occurrence of failure and defect of semi c on d uc t or products at a certain rate is in e v i t a b le.Users of Sanken products are requested to take, at their own risk, preventative measures including safety design of the equipment or systems against any possible injury, death, fires or damages to society due to device failure or malfunction.Sanken products listed in this publication are designed and intended for use as components in general-purpose electronic equip m ent or apparatus (home ap p li a nc e s, office equipment, tele c om m u n i c a t ion equipment, measuring equipment, etc.). Their use in any application requiring radiation hardness assurance (e.g., aero s pace equipment) is not supported.When considering the use of Sanken products in ap p li c a t ions where higher reliability is re q uired (transportation equipment and its control systems or equip m ent, fire- or burglar-alarm systems, various safety devices, etc.), contact a company sales representative to discuss and obtain written confirmation of your spec i f i c a t ions.The use of Sanken products without the written consent of Sanken in applications where ex t reme l y high reliability is required (aerospace equip-ment, nuclear power-control stations, life-support systems, etc.) is strictly prohibited.The information in c lud e d herein is believed to be accurate and reliable. Ap p li c a t ion and operation examples described in this pub l i c a t ion are given for reference only and Sanken assumes no re s pon s i b il i t y for any in f ringe m ent of in d us t ri a l property rights, intellectual property rights, orany other rights of Sanken or any third party that may result from its use. The contents in this document must not be transcribed or copied without Sanken’s written consent.。

Full-Function Load Switch with Adjustable Current LimitFeatures<1.8 to 5.5V Input Voltage RangeControlled Turn-On0.1 to 1.5A Adjustable Current Limit Under-Voltage LockoutThermal Shutdown<2µA Shutdown CurrentAuto RestartFast Current Limit Response Time5µs to Moderate Over Currents30ns to Hard ShortsFault BlankingReverse Current BlockingApplicationsPDAsCell PhonesHandheld GPS DevicesPortable Enterprise / Industrial Devices Digital CamerasPeripheral Ports and AccessoriesPortable Medical EquipmentHot Swap Supplies DescriptionThe FPF2193, FPF2194, and FPF2195 form a series of load switches that provides full protection to systems and loads that may encounter large current conditions. These devices contain a 55mΩ current-limited P-channel MOSFET that can operate over an input voltage range of 1.8 to 5.5V. Internally, current is prevented from flowing when the MOSFET is off and the output voltage is higher than the input voltage. Switch control is by a logic input (ON) capable of interfacing directly with low-voltage control signals. Each part contains thermal shutdown protection that shuts off the switch to prevent damage to the part when a continuous over-current condition causes excessive heating.When the switch current reaches the current limit, the parts operate in a constant-current mode to prohibit excessive currents from causing damage. For the FPF2193 and FPF2194, if the constant current condition still persists after 30ms, the parts shut off the switch and pull the fault signal pin (FLAGB) LOW. The FPF2193 has an auto-restart feature that turns the switch on again after 450ms if the ON pin is still active. The FPF2194 does not have this auto-restart feature, so the switch remains off until the ON pin is cycled. The FPF2195 does not turn off after a current limit fault, but remains in the constant-current mode indefinitely. The minimum current limit is 100mA.These parts are available in a space-saving six ball advanced 1 x 1.5mm WLCSP package.Ordering InformationFigure 2. Functional Block DiagramB2 V IN Supply Input. Input to the power switch and the supply voltage for the IC.B1 V OUT Switch Output. Output of the power switch.Fault Output. Active LOW, open-drain output that indicates an over-current supply, under-A1 FLAGBtd ON Delay On Time R L=500Ω, C L=0.1µF 20 µs t R V OUT Rise Time R L=500Ω, C L=0.1µF 20 µs Time R L=500Ω, C L=0.1µF 40 µs t ON Turn-OnFigure 9. V ON Low Voltage vs. Input Voltage Figure 10. Current Limit vs. Output VoltageFigure 15. t RISE / t FALL vs. Temperature Figure 16. t RSTRT vs. TemperatureFigure 21. Current Limit Response Time(Switch is Powered into a Short) Figure 22. Current Limit Response Time(Output is Loaded by 2.2Ω, C OUT=0.1µF)limiting at less than a minimum value. The current at which the parts limit is adjustable through the selection of an external resistor connected to I SET. Information for selecting the resistor is found in the Application Information section. The FPF2193 and FPF2194 have a blanking time of 30ms, nominally, during which the switch acts as a constant current source. At the end of the blanking time, the switch is turned off. The FPF2195 has no current limit blanking period, so it remains in a constant current state until the ON pin is deactivated or the thermal shutdown turns off the switch.For preventing the switch from large power dissipation during heavy load, a short-circuit detection feature is introduced. Short-circuit condition is detected by, observing the output voltage. The switch is put into short-circuit current-limiting mode if the switch is loaded with aFigure 27. Timing Diagram where:td ON = Delay On Timet R = V OUT Rise Timet ON = Turn-On Timetd OFF = Delay Off Timet F = V OUT Fall Timet OFF = Turn-Off Time分销商库存信息:FAIRCHILDFPF2195FPF2193FPF2194。

FIGURE 2.CIRCUIT FOR COMMON-MODE REJECTIONFIGURE 3.CIRCUIT FOR WAVEFORM INTEGRITYNote:Input to be applied and output to be measured for all dash numbers as shown.N represents highest turns winding in each -STD-1553 TRANSFORMERS© 1996, 1999Data Device CorporationFEATURES•Complete Line of Custom andQPL Units•For Use with MIL-STD-1553Aand B,MacAir A-5690,A-5232,and A-4905•Low Profile•Epoxy Cased,HermeticallySealed•-55°C to +130°C OperatingTemperature Range•Built and Tested to MIL-PRF-21038 and MIL-STD-202Web site:元器件交易网Transceiver T ype 1 (Trapezoidal +5 V/-15 V) BU-61580X1BU-65170X1BUS-61559BUS-61553BUS-65153BUS-65142BUS-63105/25IITransceiver T ype 2 (Trapezoidal +5 V/-12 V) BU-61580X2BU-65170X2BUS-61560BUS-61554BUS-65154BUS-65143BUS-63107/27IITransceiver T ype 3 (Monolithic T rapezoidal +5 V) BU-61580X3BU-65170X3BU-61580X6BU-65170X6Transceiver T ype 3A (Discrete T rapezoidal +5 V) BUS-61561BUS-61555BUS-63147/48Transceiver T ype 5 (Sinusoidal McAir)BU-61590X5BUS-65149BUS-63102Consult Factory For:MIL-PRF-21038 QPL Part Numbers Special MarkingSpecial T estingSpecial PackagingSource InspectionNotes:1.Numbers in parenthesis ( ) reference MIL-PRF-21038 dash numbers.2.For configuration “A”only.See individual specifications for actual values.3.Design parameter only.Not screened in production.ORDER BY BETA PART NUMBER FROM ADDRESS AT THE TOP OF THE PAGE元器件交易网The information in this data sheet is believed to be accurate;however, no responsibility isassumed by Beta T ransformer Technology Corporation for its use, and no licenseor rights are granted by implication or otherwise in connection therewith.Specifications are subject to change without notice.A Subsidiary of Data Device Corporation40 Orville Drive, Bohemia, NY 11716-2529Phone:(631) 244-7393;Fax:(631) 244-8893Web site:J-04/01-500PRINTED IN THE U.S.A.。

IW1710机翻中文版IW1710数字PWM电流模式控制器，应用准谐工作模式1.0 产品特点原边反馈简化了设计，并去除了光耦准谐振模式，提高的整体效率EZ-EMI ®设计，轻松满足全球EMI标准高达130 kHz的开关频率，适用于小尺寸变压器极为严格的输出电压调节无需外部补偿元件符合CEC/ EPA空载功耗和平均效率规定内置输出恒流控制与初级侧反馈低启动电流（典型值10μA）内置软启动内置短路保护和输出过压保护可选的AC线路欠压/过电压保护轻负载时工作在PFM模式电流检测电阻短路保护过温保护2.0 说明iW1710是一款高性能的AC/DC电源控制器，它采用数字控制技术，打造峰值电流PWM模式反激式电源。

iW1700工作在准谐振模式，在重负载提供高效率，以及一些关键的内置保护功能，同时最大限度地减少了外部元件数量，简化了EMI设计，降低材料成本的总费用。

iW1710不再需要次级反馈电路，同时实现出色的线性和负载调节。

它在去除了环路补偿元件的同时保证稳定的工作。

脉冲波形分析使环路响应是比传统的解决方案快得多，从而提高了动态负载响应。

内置电流限制功能可优化变压器设计，通用的离线应用程序在很宽的输入电压范围。

在轻负载时超低的工作电流和和待机功率，保证iW1710是新管理标准和平均效率应用的理想选择。

3.0 应用3.1 典型应用电路4.0 引脚说明引脚名称类型说明1 NC - 悬空脚2 V SENSE模拟输入辅助电压检测（用于初级端调节）3 V IN模拟输入输入端电压平均值检测4 SD 模拟输入外部关断控制。

通过一个电阻连接到地，如不使用见10.165 GND 地地6 I SENSE模拟输入初级电流检测（用于逐周期峰值电流控制和限制）7 OUTPUT 输出外部MOSFET管栅极驱动。

8 V CC电源输入控制逻辑的电源和电压检测的上电复位电路。

5.0 额定最大值参数符号数值单位VCC直流电压范围（PIN8 V CC）V CC-0.3~18V直流电源电流（PIN8 V CC）I CC20mA MOSFET栅极驱动（PIN7 OUTPUT）-0.3~18V电压反馈（PIN2 V SENSE）-0.7~4V输入端电压检测（PIN3 V IN）-0.3~18VSD输入（PIN4 SD）-0.3~18V功耗 T A≤25℃P D526mW最高结温T JMAX125℃工作温度T STG-65~150℃结到环境的热阻θJA160℃/W防静电等级2000V闩锁测试±100mA6.0 电气特性VCC=12V -40℃至85℃7.0 典型性能特性8.0 功能框图9.0 工作原理iW1710采用了专有的初级侧控制技术，去除了光耦反馈和传统设计所需的二次调节电路的数字控制器。

产品特色大幅简化离线式LED驱动器设计●单级功率因数校正(PFC)与精确恒流(CC)输出相结合●输入/输出电容和变压器体积小●一次侧反馈控制，无需光耦电路，简化了电路设计●简化初级侧PWM调光接口●符合IEC61000-3-2标准高效节能和高兼容性●大幅提升效率，可达到85%以上●减少元件数量●总谐波失真<15%且PF>0.95●前沿、后沿和数字调光器●传感器和定时器精确稳定的性能●LED负载恒流精度不低于±5%●支持LED负载热插拔●1%-100%宽范围调光，调光无闪烁先进的保护及安全特性●通过自动重启动提供短路保护●开路故障检测模式●自动热关断重启动无论在PCB板上还是在封装上，都保证高压漏极引脚与其他所有信号引脚之间满足高压爬电要求应用●LED离线固态照明说明G7617 是一款的适用于LED调光控制的离线式两级交流/直流电源控制器，是适用于25W 输出功率的可调光LED 灯具的最优之选。

G7617符合电磁兼容性(EMC) IEC61000-3-2 标准，在120V AC或230V AC输入电压下其功率因数(PF) 可达到0.95 以上。

采用先进的数控技术来检测调光器的类型和相位，为调光器提供动态阻抗的同时可调节LED发光亮度，自动检测调光器类型和相位，从而实现了业内与模拟及数字调光器最广泛的兼容性。

G7617工作于准谐振工作模式，工作效率高，可工作于前沿后沿调光模式，也可工作于R 型、R-C型或R-L型调光控制模式。

G7617 符合热插拔LED 模块的固态照明行业标准Zhaga，同时还集成了调光功能的映射选项（位于白炽灯替代灯的NEMA SSL6 调光曲线内）。

G7617 系列有两个版本：针对120V AC输入应用进行优化的G7617-00 和针对230V AC 应用进行优化的G7617-01。

订购信息应用框图图1典型应用内部框图Vcc VinVcbVT CFGASU BisenseBdrvFdrvFisensePGNDAGND C O R E图2 内部框图引脚功能描述BV SENSE V IN BI SENSE B DRV CFG ASU V CCV CBV TFV SENSEFI SENSEF DRVAGNDPGND 图3. 引脚布局BV SENSE引脚：PFC电感电压反馈点，用于感知Boost电感的磁通状态。

地址: 深圳市高新技术产业园南区高新南一道国微大厦电话Tel：*************传真Fax：*************电子邮件Email:***************三相SPWM波形发生器专用电路SM2001━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━特点全数字化设计，全数字化电路。

内部带两套波形发生器，可产生标准正弦波和用于交流电机的控制高效准正弦波。

自动产生三相PWM调制波形，范围从0到200Hz（时钟为20MHz时），步进频率为最大频率的1/255。

采用双边沿规则采样产生PWM调制波形。

载波频率可多级选择，最高可达到38KHz。

可选择死区时间和窄脉冲时间，范围从0.05uS～25.6uS。

采用高速三线同步串行接口，通讯速度可达到1 MHz。

通过MCU进行参数化控制，需要占用MCU的资源极小。

驱动电流达20mA，可直接驱动光耦。

采用外部时钟驱动，可与单片机共用一个晶体谐振器，最高工作频率可达24MHz。

有完善的多级保护电路，保护动作灵敏（典型反应时间小于2个时钟周期）。

PWM波形调整快，在一个PWM周期内即可完成变换。

三相输出的电平为负脉冲有效，无波形输出时保持高电平。

概述SM2001是可产生三相正弦PWM驱动波形的大规模集成电路芯片，它的工作频率宽，正弦谐波失真小，参数调节方便、准确，保护电路完善，且有普通正弦波和高效电机驱动波两种波形的选择，可广泛用于交流异步电机的变频驱动（AC MOTOR），如变频空调、变频冰箱和变频洗衣机的控制驱动。

各类工业水泵、风机的变频驱动，各类不间断逆变电源（UPS）以及其它一些需要三相SPWM波形驱动的功率控制电路中。

它有六个SPWM输出端口，分别驱动U、V、W三个桥式结构的功率电路，每相信号由两路与TTL电平兼容的管脚输出。

该信号通常是通过外部的隔离器件（如光耦）来驱动桥式电路的。

两个管脚分别驱动某个相的桥的上半桥臂和下半桥臂。

OrdererOrder no.MMT317 Moisture and Temperature Transmitter1234567891011121314151617 Vaisala HUMICAP® Moisture and Temperature Transmitter for Oil MMT310 7A2121. Probe code MMT317small pressure tight probe72. Transmitter type aw+T Faw+T+ppm for mineral transformer oil only M%RS + T + ppm mineral transformer oil only Paw+T+ppm**)specific transformer oil type:__________X3. Mounting Mounting plate (72.5 x 115 mm)54. Power supply no (24 VDC)A5. Signal output Analog output channel (Ch1&Ch2) 4... 20 mA & RS232C1Analog output channel (Ch1&Ch2)0... 20 mA & RS232C2Analog output channel (Ch1&Ch2) 1... 5 V & RS232C JAnalog output channel (Ch1&Ch2)0... 5 V & RS232C4Analog output channel (Ch1&Ch2)0... 10 V & RS232C56. Analog output signals Analog outputs disabled A A7. for Ch1 and Ch2Temperature (choose range in next section)C Caw (0...1)(0...1)T Tppm (0…100)(0…100)U U%RS (0..100)(0..100)W WSPECIAL:Define quantity for CH1:________________CH2:________________X XDefine scale for CH1:________________CH2:________________NOTE:- Choose A for both channels if you don't use analog outputs Ch1Ch28. Analog output range No range Afor temperature -60…+60°C(-76…140°F)B-40...+60°C(-40...+140°F)C-40...+120°C(-40...+248°F)D-40...+180°C(-40...+356°F)E-20...+60°C(-4...+140°F)F-20...+80°C(-4...+176°F)G-20...+120°C(-4...+248°F)HNOTE:0...+60°C(+32...+140°F)J- Choose A when T0...+100°C(+32...+ 212°F)Kis not desired special X9. Output units metric1non-metric210. Interface connection Connector (M12, 8-pin), no plug0Connector (M12, 8 pin) and plug with 5 m cable spare 5 m cable: 2121424Connector (M12, 8 pin) and plug with 10 m cable spare 10 m cable: 210964SP7Connector (M12, 8 pin) and plug with screw terminals511. Operating manual language no manual Aenglish see latest manual online: /mmt310B12. Probe with 0.5 m cable Xwith 2 m cable Pwith 5 m cable Qwith 10 m cable R13. Moisture sensor type special sensor for fluids spare: HUMICAP180L2214. Sensor protection in probe steinless steel grid (for applications with high flow speed, >1 m/s)spare: 220752SP Estainless steel grid (standard)spare: HM47453SP F15. Special features none116. Installation kit Swagelok ISO 1/2"spare: SWG12ISO12KSwagelok NPT 1/2"spare: SWG12NPT12NSwagelok ISO 3/8"spare: SWG12ISO38V 17. Calibration certificate calibration at room temperature standard service calibration: 2169892Selections in bold are included in the prices of the basic versions.Selections in italic are available at an extra price.Options and accessories:Example of order code with typical settings:238607USB Service cable1234567891011121314151617 ASM211103Rain Shield MMT3107F5A1C T K14B P2F1K2End customer:**) Check the availability and special delivery time from your local Vaisala representative.This model is always needed with silicone based transformer oils.OrdererOrder no.MMT318 Moisture and Temperature Transmitter1234567891011121314151617 Vaisala HUMICAP® Moisture and Temperature Transmitter for Oil MMT310 8A2121. Probe code MMT318for pressurized pipelines82. Transmitter type aw+T Faw+T+ppm for mineral transformer oil only M%RS + T + ppm mineral transformer oil only Paw+T+ppm**)specific transformer oil type:__________X3. Mounting Mounting plate (72.5 x 115 mm)54. Power supply no (24 VDC)A5. Signal output Analog output channel (Ch1&Ch2) 4... 20 mA & RS232C1Analog output channel (Ch1&Ch2)0... 20 mA & RS232C2Analog output channel (Ch1&Ch2) 1... 5 V & RS232C JAnalog output channel (Ch1&Ch2)0... 5 V & RS232C4Analog output channel (Ch1&Ch2)0... 10 V & RS232C56. Analog output signals Analog outputs disabled A A7. for Ch1 and Ch2Temperature (choose range in next section)C Caw (0...1)(0...1)T Tppm (0…100)(0…100)U U%RS (0..100)(0..100)W WSPECIAL:Define quantity for CH1:________________CH2:________________X XDefine scale for CH1:________________CH2:________________NOTE:- Choose A for both channels if you don't use analog outputs Ch1Ch28. Analog output range No range Afor temperature -60…+60°C(-76…140°F)B-40...+60°C(-40...+140°F)C-40...+120°C(-40...+248°F)D-40...+180°C(-40...+356°F)E-20...+60°C(-4...+140°F)F-20...+80°C(-4...+176°F)G-20...+120°C(-4...+248°F)HNOTE:0...+60°C(+32...+140°F)J- Choose A when T0...+100°C(+32...+ 212°F)Kis not desired special X9. Output units metric1non-metric210. Interface connection Connector (M12, 8-pin), no plug0Connector (M12, 8 pin) and plug with 5m cable spare 5 m cable: 2121424Connector (M12, 8 pin) and plug with 10 m cable spare 10 m cable: 210964SP7Connector (M12, 8 pin) and plug with screw terminals511. Operating manual language no manual Aenglish see latest manual online: /mmt310B12. Probe type226 mm probe with 2 m cable S226 mm probe with 5 m cable T226 mm probe with 10 m cable U448 mm probe with 2 m cable V448 mm probe with 5 m cable W448 mm probe with 10 m cable Z13. Moisture sensor type special sensor for fluids spare: HUMICAP180L2214. Sensor protection in probe stainless steel grid (for applications with high flow speed, >1 m/s)spare: 220752SP Estainless steel grid (standard)spare: HM47453SP F15. Special features none116. Installation kit ball valve set spare: BALLVALVE-1Efitting body ISO1/2, no leak screw spare: DRW212076SP Gfitting body NPT1/2, no leak screw spare: 212810SP H 17. Calibration certificate calibration at room temperature standard service calibration: 2169892Selections in bold are included in the prices of the basic versions.Selections in italic are available at an extra price.Options and accessories:Example of order code with typical settings:238607USB Service cable1234567891011121314151617 ASM211103Rain Shield MMT3108F5A1C T K14B S2F1E2End customer:**) Check the availability and special delivery time from your local Vaisala representative.This model is always needed with silicone based transformer oils.。

MC 7008MC 7016MC 7024MC 7008 / MC 7016 / MC 7024 MEMORY LIGHTING CONTROLLERSUSER GUIDESoftware Revision 1.00 and aboveDocument Revised: 8-30-02Copyright 1994, 2002Leviton Manufacturing Co., Inc.Table of Contents Introduction (3)Welcome (3)Specifications (3)Installation/Setup (3)Power Supply Requirements (3)Dimmer Equipment Connection (4)Overview (4)Front Panel (4)Rear Panel (5)Operation Guide (6)General (6)Operation Modes (6)Bump Buttons (7)Crossfaders (7)Chases (7)Master (7)Blackout (7)Programming Control Functions (8)General (8)Scene Masters (8)Flash Scenes (8)Chases (9)Optional DMX512 Installation (10)Instructions (10)Troubleshooting (11)INTRODUCTIONWelcomeThank you for your decision to purchase a Leviton-NSI product. The powerful Leviton-NSI Microplex design involves the electrical marriage of microprocessor technology and digitally controlled multiplexing. The result is a control package with the flexibility for a variety of applications.The Leviton-NSI MC 7000 Series Lighting Consoles feature an advanced microprocessor based design containing many benefits found in today’s personal computers. This technology provides for the option of adding programmable Memory Scene Masters and Chase effects to the simplicity of a familiar two-scene console.The Leviton-NSI Microplex technology found in all Leviton-NSI products allows components of your lighting system to be interconnected by way of standard 3-conductor microphone cables or audio snakes. Up to 128 individual control signals may be transmitted to dimmer packs through a single microphone cable and the returned phantom power eliminates the need for AC power cords on Leviton-NSI controllers. This makes the remote placement of the MC 7000 Series Lighting Console easy and convenient. Throughout this manual, specifications are listed for the MC 7008 followed by specifications for the MC 7016 in parenthesis () and MC 7024 in brackets [ ].The Leviton-NSI MC 7000 Series Lighting Console represents our continuing commitment of leading the industry in defining technological advances for stage lighting.SPECIFICATIONSControl Channels:8/16 (16/32) [24/48]Dimmers:16 (32) [48]Scene Masters (memory):8 (16) [24]Chases:2, 32 steps maximum eachMemory:Non-volatile EEPROM(approx. 10 year retention)Dimmer Outputs:Leviton-NSI MicroplexDMX512 (optional)Input Power:12-15 Volts DC, minimum 200mADimensions (HxWxD): 2 3/4” x 10 5/8” x 9”-(2 3/4” x 16 5/8” x 9”)[2 3/4” x 22 5/8” x 9”]Weight (approx.): 3.25 lbs. (5.0 lbs.) [6.75 lbs.]INSTALLATION/SETUPPower Supply RequirementsThe MC 7000 Series Lighting Console requires a source of 12-15 volts DC (at least 200 MA) to operate satisfactorily. When used with Leviton-NSI dimming equipment, power is provided through the Microplex microphone cord connection system when connected to the dimmers.If the console is equipped with the optional DMX512 output and used with DMX512 controlled dimmers or if the microphone cable length exceeds 100 feet, the external power supply jack can be used to apply power to the console. Use the power supply provided with the DMX512 option, or call your dealer for assistance in obtaining a proper supply. Make sure that the plug on any power supply not supplied through Leviton-NSI is configured so that the center connector is positive.Dimmer Equipment ConnectionConnecting the MC 7000 Series Lighting Console to Leviton-NSI dimming equipment is very simple.You need only connect a single 3 conductor audio cable (standard microphone cable equipped with a 3-pin XLR type connector) to either of the jacks marked MICROPLEX on the rear apron of the console. It doesn’t matter which jack is used, two jacks are provided for convenience. Connect the other end of the cable to the Leviton-NSI dimming equipment.If the console is equipped with the DMX512 option, connection to the dimming equipment is provided through the 5-pin XLR type connector located on the rear apron of the console. This connector adheres to the USITT standard on DMX512 and will support up to 32 (16) dimmer channels with one 3-wire cable. Since remote power is not provided on this connector, the power supply included with the DMX512option must be used.OVERVIEWFront Panel1. Channel Levels:These 8 (16) [24] LED’s show the current intensity of each of the console control channels. The LED’s are inactive whenever the console is in the single scene mode.2. Scene X:These 8 (16) [24] slide controls are used to control the intensities of channels 1 -8 (1 - 16) [1 - 32] . The overall intensity of the scene created is controlled with theX Crossfader.3. Scene Y:These 8 (16) [24] slide controls are used to control the intensities of channels 1 -8 (1 - 8) [1 - 24], channels 9 - 16 (17 - 32) [25 - 48], or scenes 1 - 8 (1 - 16) [1 - 24]depending upon the consoles current operating mode. The overall intensity ofthe scene created is controlled with the Y Crossfader.4. Bump Buttons:These 8 (16) [24] buttons are used to bring an individual or group of channels,depending upon console operating mode, to full intensity.5. Program Button:This button is used to program the Scene Masters, the 2 Chases, and the FlashScenes. Programming is active when the Program LED is lit.12345N / CN / C Common DMX Data -DMX Data +Female DMX512XLR Pin ConfigurationMPX Data 213+15 VDC Common Female MicroplexXRL Pin Configuration MPX Data123Common +15 vdcMale Microplex XRL Pin Configuration6. Mode Button:This button sequences the console through the 3 operating modes. The lit LED indicates the current mode.7. Tap Sync:Repeatedly tapping this button establishes the chase rate.8. Chase 1:This button toggles Chase 1 on and off, indicated by the LED.9. Chase 2:This button toggles Chase 2 on and off, indicated by the LED.10. X Crossfader:This slide control is used to proportionally vary the intensity of Scene X.11. Y Crossfader:This slide control is used to proportionally vary the intensity of Scene Y.12. Master:This slide control is used to proportionally vary the overall console intensities to stage except those from the Bump buttons.13. Blackout:This button is used to kill all output to stage except from the Bump buttons. Theconsole is in Blackout whenever the Blackout LED is lit.Rear Panel1. Microplex Outputs:These 2 outputs provide Leviton-NSI ’s microphone dimmer connection via a 3-pin XLR type connector. Either connector may be used (1-Male, 1-Female).2. DMX512:This optional output is used to provide dimmer control information to dimmersusing this protocol. Its 5 pin Female XLR connector conforms to the USITTstandard.3. AUX DC Power:This input jack allows a standard wall transformer rated at 15v DC (at least200 MA) to provide power to the MC 7000 Series Console.PUSH123Male Female Female 12345678123456781921031141251361471581600000001234136121110578,9OPERATION GUIDEGeneralThe MC 7000 Series Lighting Console consists of two manual scenes mastered by two split/dipless crossfaders, a set of bump buttons, two programmable chase effects, a master control and a blackout button. The console is designed to allow tailoring to your needs. Three modes of operation vary the function of the Bump buttons from individual Channel Bumps to Flash Scenes, and Scene Y from channels 1 - 8 (1 - 16) [1 - 24], to channels 9 –16 (17 - 32) [25 - 48], or to Memory Scene Masters. In addition, two Chase Effects allow automated sequencing of lights at varying rates.To give the user channel intensity feedback, channel intensity LED’s are provided above each of the Scene X slide controls. These LED’s show relative intensities from all console functions and are not affected by the Master control or the Blackout button, except single-scene mode.Operation ModesThe MC 7000 Series Lighting Console has three operating modes: the 2 x 8 (2 x 16) [2 x 24] mode, the 8 x 8 (16 x 16) [24 x 24] mode, and the 1 x 16 (1 x 32) [1 x 48] mode. These modes are selected with the Mode button. The lit LED indicates the current mode. In standard 2 x 8 (2 x 16) [2 x 24] mode, Scene Y controls the intensity of channels 1 - 8 (1 - 16) [1 - 24] along with Scene X giving the console two-scene capability between the scenes. In 8 x 8 (16 x 16) [24 x 24] mode, Scene Y becomes a bank of Scene Masters, which can be programmed by the user. Each Scene Master has level control of all channels and operates in a ‘‘pile on’’ fashion giving greatest level precedence. In the 1 x 16 (1 x 32) [1 x 48] mode, Scene Y becomes channels 9 - 16 (17 - 32) [25 - 48], joining with Scene X to give the console twice the control channels on one scene. Also in this mode, the bump buttons no longer control individual channels, but control Flash Scenes, which can be programmed by the user. Each scene can have any combination of channels so that they can be flashed to maximum intensity at any time. Programming either of the Chases while in this mode extends each step to 16 (32) [24] channels.Table 1 — MC 7008 Mode ChartMODE SCENE X SCENE Y BUMPS CHASES CHANNEL LEDS 2 x 8 Mode Channels 1 - 8Channels 1- 8Channels 1- 832 Steps x 8 Chan.Channels 1 - 8 8 x 8 Mode Channels 1 - 8Mem Scenes 1 - 8Channels 1 - 832 Steps x 8 Chan.Channels 1 - 8 1 x 16 Mode Channels 1 - 8Channels 9 - 16Prog for Ch 1 - 1632 Steps x 16 Chan.No FunctionTable 2 — MC 7016 Mode ChartMODE SCENE X SCENE Y BUMPS CHASES CHANNEL LEDS 2 x 16 Mode Channels 1 - 16Channels 1- 16Channels 1- 1632 Steps x 16 Chan.Channels 1 - 16 16 x 16 Mode Channels 1 - 16Mem Scenes 1 - 16Channels 1 - 1632 Steps x 16 Chan.Channels 1 - 16 1 x 32 Mode Channels 1 - 16Channels 17 - 32Prog for Ch 1 - 3232 Steps x 32 Chan.No FunctionTable 3 — MC 7024 Mode ChartMODE SCENE X SCENE Y BUMPS CHASES CHANNEL LEDS 2 x 24 Mode Channels 1 - 24Channels 1- 24Channels 1- 2432 Steps x 24 Chan.Channels 1 - 24 24 x 24 Mode Channels 1 - 24Mem Scenes 1 - 24Channels 1 - 2432 Steps x 24 Chan.Channels 1 - 24 1 x 48 Mode Channels 1 - 24Channels 25 - 48Prog for Ch 1 - 4832 Steps x 48 Chan.No FunctionBump ButtonsAlong the bottom edge of the console are 8 (16) [24] momentary push buttons. These buttons are used to bump each individual channel to full intensity regardless of the Blackout button or the setting of the Master control. When in the 1 x 16 (1 x 32) [1 x 48] mode, each button no longer controls only one channel, but can be programmed to control any combination of channels. This makes each button a Flash Scene. The console is shipped from the factory so that Bump button 1 is programmed for only channel 1, Bump button 2 for channel 2 and so on. This gives the impression that there is no functionality change from mode to mode on the bump buttons.The Bump buttons are also used in programming Flash Scenes and Scene Masters.CrossfadersThe two Manual Crossfaders are always tied to Scene X and Scene Y. These fade controls allow crossfading between Scene X and Scene Y with the X Crossfader controlling Scene X and the Y Crossfader controlling Scene Y. The X Crossfader is at its maximum in the fully up position, while the Y Crossfader is at its maximum in the fully down position. This configuration allows easy dipless crossfading providing both crossfaders are moved together. If the crossfaders are not kept in the same position, split crossfading effects can be accomplished.ChasesTwo Chase effects are provided on the MC 7000 Series Lighting Console. Each can be activated at any time by simply pressing its associated button. A Chase is active whenever the LED above its Chase button is lit. Each Chase has a maximum of 32 steps and each step can have any combination of channels. When programming in the 2 x 8 (2 x 16) [2 x 24] and the 8 x 8 (16 x 16) [24 x 24] modes each step has 8 (16) [24] channels of control, when in the 1 x 16 (1 x 32) [1 x 48] mode each step has 16 (32) [48] channels of control.Once a Chase is programmed, it will remain with the same number of channels it was programmed in, regardless of mode during playback. This can add expanded channel capabilities to the other two modes. For example, a 7016 chase could be programmed in the 1 x 32 mode to control only channels 17 - 32 for special effects, and then the console could be run in the 16 x 16 mode to make memory scenes available, and the Bump buttons could be used to create area and special lighting on channels 1 - 16.The Chase Rate is set by repeatedly tapping the Tap Sync button at the rate desired. The Chases will continue to run at the rate of the last two taps until another set of taps is seen. This allows easy synchronization with music or other timed events.MasterThe Master slide control provides proportional level control over all console functions to stage with the exception of the Bump buttons. For example, whenever the Master slide control is at minimum all stage outputs will be at zero except for any resulting from a Bump button, if the Master is at 50% all stage outputs will be at only 50% of their current console settings except for any resulting from a Bump button and if the Master is at full all stage outputs will follow the console settings.BlackoutThe Blackout button is used to disable all outputs to stage with the exception of those resulting from a Bump button. This provides for quick dousing of stage levels or for creating solo effects when used in conjunction with the Bump buttons. Blackout is active whenever the Blackout LED is lit.PROGRAMMING CONTROL FUNCTIONSGeneralThe functions that can be programmed on the MC 7000 Series Lighting Console are the two Chases, the Scene Masters in the 8 x 8 (16 x 16) [24 x 24] mode and the Flash Scenes in the 1 x 16 (1 x 32) [1 x 48] mode. To initiate programming, first tap the Program button. This will light the Program LED indicating that the program mode is active. Then tap the function button to be programmed. All programming is stored in non-volatile memory, which retains information for at least 10 years, even when power is removed.Scene MastersWhen in the 8 x 8 (16 x 16) [24 x 24] mode, the Scene Masters can be programmed for later recall. First create the desired scene on Scene X. Neither the level of the Master or the X Crossfader or the state of the Blackout function have any effect on the programmed levels from Scene X. Once the scene is satisfactory, enter the program mode by tapping the Program button. Then tap the Bump button under the Scene Y slide control that is to be used as the Scene Master. The Scene Master is now programmed and the Program mode is automatically released. Once programmed, the Scene Master is ready for immediate use. To playback the scene, use the Y fader associated with the bump button used to program that scene master.Flash ScenesSince there are only 8 (16) [24] Bump buttons, channels 9 - 16 (17 - 32) [25 - 48] cannot be accessed for bumping in the 1 x 16 (1 x 32) [1 x 48] mode. For this reason the Bump buttons can be programmed as Flash Scenes to access the upper channels whenever in this mode. Flash Scenes consist of any combination of fully on or fully off channels. Flash Scenes are programmed with both Scene X and Scene Y slide controls. Simply raise those sliders that are desired on to maximum and those desired off to minimum. Next, tap the program button to turn on the Program function. Finally, tap the Bump button to be programmed. Once programmed, the Flash Scene is ready for immediate use.ChasesEach of the two Chase functions can be programmed to include any channel in any step up to a maximum of 32 steps per Chase. To initiate Chase programming, first tap the Program button so that the Program LED is lit. Then tap the Chase button of the Chase to be programmed and the LED under the chase button should start flashing. The console is now ready to program the first step of the chase. Use the Scene X slide controls to indicate which channels should be on or off by either raising them to full or lowering them to minimum. Once set, tap the Program button again to store the step. The console is now ready to program the second step of the chase. Continue programming steps, up to 32, until the chase is complete. Tapping the Blackout button exits the chase programming. Programming will be automatically exited if more than 32 steps are attempted.If the console is in the 1 x 16 (1 x 32) [1 x 48] mode, Scene Y can be used to include the channels controlled by these sliders in the Chase program. Follow the same procedure explained above, but include the Scene Y channels into each step programmed.If the Chase is active when programming is initiated, the Chase will halt during programming and resume with the new programming when completed. If the Chase was not active, it will not be running when programming is complete.OPTIONAL DMX512 INSTALLATIONInstructionsFollowing are the instructions for field installation of the DMX512 option (OPT-07512-01).1. Remove screws from bottomof console and removebottom cover.2. Remove 2 screws and removeDMX512 option cover plate.3. Insert DMX512 connector intoopening and install hardwareprovided.4. Connect cable from DMX512connector to 5-pin connectionas shown.5. Install 3695 IC into 8-pinsocket as shown, be sure toobserve the location of thenotch or dimple. Be sure legsgo in straight and not bent.6. Replace bottom cover of unit.Note: DMX512 will activateautomatically. Microplex andDMX512 are transmittedconcurrently and both may be used at the same time.TROUBLESHOOTINGSymptom Check ListChannel Level LED’s do not respond. 1. Check to see if the 1 x 16 (1 x 32) [1 x 48] modeis selected. Since all channels cannot be viewed,the LED’s are disabled in this mode.Chase functions do not work. 1. Make sure a rate has been established with theTap Sync button. The rate is indicated by theflashing LED located directly above the Tap Syncbutton.Lights on stage do not operate even 1. Check that the Master slide control is not set at though Channel Level LED’s do. its minimum position and the Blackout LED is not ON. Scene X or Scene Y slide controls have 1. Make sure that the X or Y Crossfader is not in its no effect on channel levels. minimum position.Stage lights are ON, but will not respond 1. Make sure the dimmer packs are programmedor respond erratically. correctly. Dimmer packs programmed for channelshigher that 32 (16) will not respond to the controller.2. Check for a bad control cable by replacing it.3. The dimmer pack may be defective.4. If the microphone cable is in excess of 100 feet,heavier gauge (18 ga.) cable or an additionalpower supply located at the console may benecessary because of power loses over the lengthof the cable.Erratic operation when a particular 1. Defective fader.fade is up.Channel comes ON when adjacent 1. Defective fader.fader is up.Page 11PK-93130-00-01-1A LIMITED TWO YEAR WARRANTY AND EXCLUSIONSLeviton warrants to the original consumer purchaser and not for the benefit of anyone else that this product at the time of its sale by Leviton is free of defects in materials and workmanship under normal and proper use for two years from the purchase date. Leviton ’s only obligation is to correct such defects by repair or replacement, at its option, if within such two year period the product is returned prepaid, with proof of purchase date, and a description of the problem to Leviton Manufacturing Co.,Inc., Att: Service Department, 20497 SW Teton Ave., Tualatin, Oregon 97062. All products returned to Leviton-NSI must have factory authorization for return prior to shipping. The purchaser is responsible for completing and mailing to Leviton, within 15 days of purchase, the warranty registration card enclosed with each product.This warranty excludes and there is disclaimed liability for labor for removal of this product or reinstallation. This warranty is void if this product is installed improperly or in an improper environment, overloaded, misused, opened, abused, or altered in any manner, or is not used under normal operating conditions or not in accordance with any labels or instructions. There are no other or implied warranties of any kind,including merchantability and fitness for a particular purpose, but if any implied warranty is required by the applicable jurisdiction, the duration of any such implied warranty, including merchantability and fitness for a particular purpose, is limited to two years. Leviton is not liable for incidental, indirect, special, or consequential damages, including without limitation, damage to, or loss of use of, any equipment,lost sales or profits or delay or failure to perform this warranty obligation. The remedies provided herein are the exclusive remedies under this warranty, whether based on contract, tort or otherwise.For Technical Assistance Call:1-800-864-2502。