RCCN Fittings ICM 规格书

CN:(Singnature)(Date)(1) TXC requires one copy returned with signature and title of authorized individual that signifies acceptanceof the attached specifications.(2) Orders received and accepted by TXC after return of signed copy of specification will be produced perthese specifications.(3) Any changes to these specifications must be agreed upon by both parties and new revision of theProduct Specification Sheet will be issued.(4) Any issuance of purchase order prior to consigning back the Approval page of "Specification Sheets"from customers will be regarded as the agreement on the contents of these specifications.MSL:Level 1(for glass crystal only ：Pb used with sealing glass material is exempt from EU directive)TXC CORPORATIONSPECIFICATION FOR APPROVALCUSTOMER :PRODUCT TYPE :SMD SEAM SEALING X'TAL 3.2×2.5NOMINAL FREQ.:16.000000MHz TXC P/N:AM16000301REVISION :A1CUSTOMER P/N :PM / SALES :DATECUSTOMERCONFIRMATION：:RoHS CompliantCN:NOTE:(1)(2)Revision "Sx" is for engineering samples only. PE/RD's approval required.(3)Revision "Ax" is production ready. PE, QA and MFG's approval required.MSL:Level 1(for glass crystal only ：Pb used with sealing glass material is exempt from EU directive)PE/RD QA 16.000000MHz AM16000301TXC P/N:NOMINAL FREQ.SMD SEAM SEALING X'TAL 3.2×2.5 RoHS CompliantREVISION :A14-Sep-174-Sep-17Wen yuan Chang4-Sep-17ZhongLin WuZhi jun Wu:PRODUCT TYPE TXC CORPORATIONPRODUCT SPECIFICATION SHEETTXC green product standard is based on the international standards. Relevant informationis posted on the TXC website and updated regularly. The documentation is subject to the latest green product quality system.MFG:REVISION ：PAGE ：1Xiaohua ZhangTXC CORPORATIONAM16000301ReviserInitial released 19-Apr-16N/A Xiaoyan Jiang S1N/A A1RevRevise pageTXC P/N ：Revise contentsDateRef.No.S Turn AN/AA14-Sep-17N/AREVISION ：PAGE ：2P.79RELIABILITY SPECIFICATIONS P.8P.46STRUCTURE ILLUSTRATION P.57EMBOSS CARRIER TAPE & REEL P.6SUGGESTED REFLOW PROFILE & MANUAL SOLDER CONDITION MARKING P.44FACTORY LOCATION P.4No.ContentPage1TXC CORPORATIONTXC P/N ：AM16000301A1ELECTRICAL SPECIFICATIONS P.3Spec Sheet ContentsDIMENSIONS 8PACKING 52P.43REVISION ：PAGE ：3■ ELECTRICAL SPECIFICATIONSStandard conditionsAmbient temperature :25±5℃Relative humidity:40%~70%In addition to special specifications, are measured in the standard environment.Ambient temperature :25±3℃Relative humidity:40%~70%If there is any doubt about the result, it is necessary to make measurements in the standard environment.Measure equipmentElectrical characteristics measured by S&A 250B or equivalent.Crystal cutting typeThe crystal is using AT CUT (thickness shear mode). Unit Weight: 0.018±0.001 g/pcs1Nominal Frequency 2Oscillation Mode 3Load Capacitance 4Frequency Tolerance 56Operating Temperature 78Drive Level9Effective Resistance Rr 10Shunt Capacitance C011Insulation Resistance 12Storage Temperature Range--40~105℃--500--MΩat DC 100V-Rr --60Ω-Aging -±3ppm 1st Year at 25 ℃ ± 3 ℃DL -100-μW --40~85℃-±20ppm at 25 ℃ ± 3 ℃Frequency Stability -±20ppm Over Operating Temp. Range (Reference 25℃)---Fundamental--CL 9pF -A1ParametersSYM.Electrical Spec.Notes MINTYPE MAXTXC CORPORATIONTXC P/N ：AM16000301FL 16.000000MHz UNITS C0--3pF -REVISION ：PAGE ：4■ DIMENSIONS■ MARKINGTXC LogoFrequency Codeex:MHz =Lot Code Production Control CodeDate CodeMonth Code:MONTHYEAR A B C D E F G H J K L M N P Q R S T U V W X Y Z a b c d e f g h j k l m npqrstuvwxyz*This m onth code will be cycled every four yearsProduction location: Taiwan & China (NGB)■ SUGGESTED REFLOW PROFILEPeak Temperature : 260±5℃, 10 sec. Max.Solder melting point : 220±10 ℃, 60 sec. Min.■ SUGGESTED MANUAL SOLDER CONDITIONTemperature: 350 ± 10 ℃Time: 3 sec.Re-solder times: twiceNOTE: After manual welding, the product shall be measured down to room temperature.20072011201520192023200820122016202020242005200920132017202120062010201420182022JUL AUG SEP OCT NOV JUN DEC■□□□□16.000000160JAN FEB MAR APR MAY TXC CORPORATIONTXC P/N ：AM16000301A1(Unit:mm)T □□□150(℃)260220180120 sec60 sec10 secTime (sec)3.20 ± 0.102.50 ± 0.104132Internal View ConnectionSuggested Layout41321243GNDGND1.401.200.50Bottom View0.80Unit:mm0.70 ± 0.101.201.401.20±0.101.00±0.100.90±0.100.70±0.10REVISION ：PAGE ：5■ STRUCTURE ILLUSTRATIONNO 1LidKovar (Fe/Co/Ni)-2Base(Package)Ceramic (AI 2O 3) + Kovar (Fe/Co/Ni)+ Ag/Cu Color black 3PADAuTungsten metalize + Ni plating + Au plating4Crystal blank SiO 2-5Conductive adhesive Ag Silicon resin6ElectrodeNoble Metal-TXC CORPORATIONTXC P/N ：AM16000301A1COMPONENTSMATERIALSFINISH/SPECIFICATIONS B-B' sectional drawing C-C' sectional drawingA-A' sectional drawingREVISION：PAGE：6■ PACKING(UNIT : mm)REMARK :DIMENSIONSL L1W W1pcs / Reel (UNIT : mm) 178.01.65 3.402.70 4.0011.51.758.00 4.00TXC CORPORATION TXC P/N：AM16000301A1DIMENSIONSFD E GA B C8.0Standard Reel Quantity is 3,000 pcs per reel1.50H13.0ECBDINDEX MARKHFeedingAF GW1LL12.0W160mm min160mm min400mm minLeaderEmpty Sealed Trailer3000pcs ProductsTT TTUser Direction of FeedingREVISION ：PAGE ：7■PACKINGLabel :[STORAGE]1.Do not get wet by the rain.2.The storage environment shall be 5℃ ~40℃ and 30% ~ 75%RH humidity and a void exposure to sunlight.3.If customers have special requirements, we can coordinate.AM16000301TXC P/N ：TXC CORPORATIONA1TapeLabelTapeshipping markCustomer InformationBox Item:1. Reel X 6 (L200 X W200 X H140mm)2. Reel X 12 (L200 X W200 X H250mm)3. Reel X 25 (L400 X W400 X H280mm)4. Reel X 50 (L400 X W400 X H280mm)5. Reel X 100 (L399 X W346 X H360mm)Note:1. For the maximum reel of loads for each type box.2. The number of reels is slightly adjusted according to each factory .REVISION ：PAGE ：8■ RELIABILITY SPECIFICATIONS (AEC-Q200 Compliant)1.Mechanical EnduranceNo.1.1Drop Test 120 cm height, 10 times on Stainless Plate .Device are shocked to half sine wave ( 3000 G ) three mutually perpendicular axes each 3 times. 0.3m sec. duration time Frequency range 10 ~ 2000 Hz~10 Hz Amplitude1.52 mm/10G Sweep time20 minute Perpendicular axes each test time4 Hrs(Total test time 12 Hrs)Temperature 245 ℃ ± 5℃Immersing depth1.25 mm Immersion time 5 ± 1 secondsFluxRosin resin methyl alcohol solvent ( 1 : 4 )1.5Terminal Strength Mount on PCB board and shear strength 1.8kg for 60 sec.1.62.Environmental EnduranceNo.Pre-heat temperature125 ℃Pre-heat time 60 ~ 120 sec.Test temperature 260 ± 5 ℃Test time10 ± 1 sec.2.3Low Temp. Storage- 40 ℃ ± 3 ℃ for all 1000 Hrs.Total 1000 cycles of the following Thermal Shock :Total 1000 cycles of the following temperature cycle : - 40℃ ± 3 to 85℃ ± 3 , Dwell time:15min.2.7Moisture Resistance20 cycles ( +25℃~65℃ , 80%~100% RH) , 24hrs/-STD 202Method 1062.8Operational Life+ 85 ℃ ± 3 ℃ for 1000 Hrs.MIL-STD-202Method 1082.5Temperature CycleJESD 22Method JA-1042.6Biased Humidity+ 85℃ ± 3℃ , RH 85% , 1000 Hrs.MIL-STD-202Method 1032.2High Temp. Storage + 85 ℃ ± 3 ℃ for all 1000 -STD-202Method 108JIS C 67012.4Thermal ShockMIL-STD-202Method 107Test ItemTest MethodsREF. DOC 2.1Resistance To Soldering HeatMIL-STD 202Method 2101.4Solderability J-STD-002AEC-Q200-006Board FlexDuration Time: 60 sec, Deviation: 3mmAEC-Q200-005REF.DOC JIS C 67011.2Mechanical ShockMIL-STD-202Method 2131.3Vibration MIL-STD-202Method 204TXC CORPORATIONTXC P/N ：AM16000301A1Test Item Test Methods105 ± 3℃25℃ 5 min. 5 min.20 sec. max.1 cycle-55 ± 3℃。

如产品需要用在有特殊质量要求及可靠性要求的地LEDs without having consentinform Refond in writinganalysis.在取得瑞丰的同意前，客户不应该对产品进行拆解分析，如发现失效产品，请直Features 特征Extremelywide viewing angle.发光角度大Suitable for all SMT assembly and solder process.适用于所有的SMT 组装和焊接工艺 Moisture sensitivity level:Level 3.防潮等级Level 3 Package:4000pcs/reel.包装每卷4000pcs RoHS compliant.满足RoHS 要求Description 描述The Colour LED which was fabricated using a yellow-green chip and amber chip 该产品为双色光LED ，是由黄绿光和琥珀光晶片封装形成Applications 应用Optical indicator.光学指示Switch and Symbol,Display.开关和标识、显示器等 General use.其他应用RF-P1S196TS-B47Package Dimension 外观尺寸NOTES:1.All dimensions units are millimeters.(所有尺寸标注单位为毫米)2.All dimensions tolerances are 0.2mm unless otherwise noted.(除特别标注外，所有尺寸公差为±0.2毫米)Note:备注Vr=5V For test conditions.Vr=5v为测试分选条件。

Absolute Maximum Ratings at Ts=25°C绝对最大值Typical optical characteristics curves 典型光学特性曲线R e l a t i v e I n t e n s i t yR e l a t i v e I n t e n s i t yPackaging Specifications⏹Carrier Tape Dimensions载带尺寸FEEDING DIRECTIONNote:Thetolerances unless mentioned±0.1mm.Unit:mm注：未注公差为±0.1毫米，尺寸单位：毫米。

Measurement conditionAmbient temperature T A: 23 °CInput power level: 0 dBmTerminating impedance: *Input: 63 Ω || -34 pFOutput: 55 Ω || -44 pFCharacteristicsRemark:The nominal frequency f N is fixed at 153.6. The insertion loss a e is defined as loss value determined at f N. Reference level for the relative attenuation a rel of the TFS153C is the insertion loss a e. The centre frequency f c is the arithmetic mean value of the upper and lower frequencies at the 3 dB filter attenuation level relative to the insertion loss a e. All specified data are met within the operating temperature range.D a t a typ. value tolerance / limitInsertion loss a e11.5 dB max. 12.5 dB (reference level)Nominal frequency f N 153.6 MHz Passband PB - f N 10 MHz Ripple within PB p-p 0.2 dB max. 1 dB Relative attenuation a relf N- 152.6 MHz ... f N- 15 MHz 45 dB min. 35 dBf N+ 15 MHz ... f N+ 138.6 MHz 40 dB min. 35 dBf N+ 138.6 MHz ... f N+ 168.6 MHz 70 dB min. 20 dBf N+ 168.6 MHz ... f N+ 346.4 MHz 70 dB min. 35 dB Group delay ripple p-pf N- 10 MHz ... f N+ 10 MHz 45 ns max. 60 ns Phase linearity p-pf N- 10 MHz ... f N+ 10 MHz 4 deg max. 5 deg Triple transit response suppression 70 dB min. 35 dB Input power level - max. 17 dBm Third order intercept IIP3** 42 dBm min. 35 dBm Input /Output return loss .f N- 4 MHz ... f N+ 4 MHz 12 dB min. 10 dBf N- 10 MHz ... f N+ 10 MHz 9 dB min. 8 dB Operating temperature range OTR - -25 °C..... +85 °C Storage temperature range - -55 °C..... +125 °C Temperature coefficient of frequency TC f *** -87 ppm/K -*) The terminating impedances depend on parasitics and q-values of matching elements and the board used, and are to be understood as reference values only. Should there be additional questions do not hesitate to ask for an application note or contact our design team.**) Measured with tones spaced at 5 MHz and 10 MHz above and below f C***) ∆f=TC f(T−T A)f NGenerated:Checked / Approved:Microchip Frequency Technology GmbHPotsdamer Straße 18Microchip Frequency Technology GmbH Potsdamer Straße 18 Filter characteristicConstruction and pin connection(All dimensions in mm)50 Ω Test circuitL2Output 50 OhmInput L11,2,3,4,6,7,8,9,10,121 Ground2 Ground3 Ground4 Ground5 Output6 Ground7 Ground8 Ground9 Ground 10 Ground 11 Input 12 GroundDate code: Year + week H 2016 J 2017 K 2018 ...Microchip Frequency Technology GmbH Potsdamer Straße 18 Stability characteristics, reliabilityAfter the following tests the filter shall meet the whole specification:1. Shock: 500 g, 1 ms, half sine wave, 3 shocks each plane; DIN IEC 60068 T2 - 272. Vibration: 10 Hz to 2000 Hz, 0.35 mm or 5 g respectively, 1 octave per min, 10 cycles perplane, 3 planes; DIN IEC 60068 T2 - 63. Change of temperature: -55 °C to 125 °C / 15 min. each / 100 cycles DIN IEC 60068 part 2 – 14 Test N4. Resistance tosolder heat (reflow): reflow possible: three times max.; for temperature conditions refer to the attached "Air reflow temperature conditions" on page 4;5. SAW devices are Electrostatic Discharge (ESD) sensitive devices.This filter is RoHS compliant (2011/65/EU)PackingTape & Reel: IEC 286 – 3, with exception of value for N and minimum bending radius; tape type II, embossed carrier tape with top cover tape on the upper side; max. pieces of filters per reel:1700reel of empty components at start:min. 300 mm reel of empty components at start including leader: min. 500 mm trailer:min. 300 mmGDoWC tFEGD1P 2P 1P o BoAoP ull Off DirectionP IN Marker T ypDate Code K o tThe minimum bending radius is 45 mm.Tape (all dimensions in mm) W : 24.00 +0.30/-0.10 Po : 4.00 ±0.1 Do : 1.50 +0.1/0 E : 1.75 ±0.10 F : 11.50 ±0.10 G(min) : 0.60 P2 : 2.00 ±0.1 P1 : 12.00 ±0.1 D1(min) : 1.50 Ao : 7.00 ±0.10 Bo : 13.80 ±0.10 Ct : 21.00 ±0.1 Ko: 2.10 ±0.10 t : 0.30 ±0.05Reel (all dimensions in mm) A : 330 or 180 W1 : 24.4 +2/-0 W2(max) : 30.40 N(min) : 60.00 C : 13.0 +0.5/-0.2Microchip Frequency Technology GmbH Potsdamer Straße 18 Air reflow temperature conditionsConditionsExposureAverage ramp-up rate (30 °C to 217 °C) less than 3 °C / second> 100 °C between 300 and 600 seconds > 150 °C between 240 and 500 seconds > 217 °Cbetween 30 and 150 seconds Peak temperaturemax. 260 °CTime within 5 °C of actual peak temperature between 10 and 30 seconds Cool-down rate (Peak to 50 °C)less than 6 °C / secondTime from 30 °C to Peak temperatureno greater than 300 secondsTemperature / °CTime / smax. 260 °C217 °C10 ... 30 s 30 ... 150 smax. 300 sChip-mount air reflow profileHistoryVersion Reason of Changes Name Date1.0 - generation of specification according to customer requirements Roizengaft 02.02.2004 1.1 - generated filter specification Chilla 15.06.2004- added termination impedances- added typical values- changed insertion loss- changed group delay ripple- changed phase linearity- changed input/output return loss- changed IP3 description- changed storage temperature range- deleted description for power level- added filter characteristic- changed construction and pin connection- added test circuit- changed packing1.2 - added temperature coefficient of frequency Chilla 23.09.2005 1.3 - added IIP3 Chilla 27.02.20091.4 - changed temperature coefficient Chilla 06.04.20092.0 - Change tape & reel dimensions Bonnen 04.11.2016- Update header and footer sections- Update data section- Update storage temperature range- Update stability characteristics, reliabilityMicrochip Frequency Technology GmbHPotsdamer Straße 18。

Home / Products / New Product / RCCN Conduit Fittings TNB GRCCN Conduit Fittings TNBGCopper Metal Flexible Conduit Fittings TNBGThread Size: Pipe thread G / PF teeth, metric thread metric, German thread PGMaterial: A.C.F parts of high-quality thickening of brass (nickel) made of B. E nitrile rubber (NBR)made of. D iron made.Product Certification: European CE, European environmental RoHS / color: yellow / Protectionclass: IP54Operating temperature: -40 ° C to 100 ° C, instantaneous heat resistance up to 120 ° C.Features: 1. Thickened brass (nickel) made, beautiful appearance, compact structure, highstrength.2 hose jacket design and hose interlocking tight design, with the tight assembly of the firstconvenient time-saving, anti-pull particularly strong,3. Can be waterproof, dust, salt, Naisuan Jian, alcohol, oil, grease and general solvents.4. In addition to the following standard specifications, according to the requirements of any sizeand thread changes in the standard.Note: The finished products are equipped with nut A and waterproof gasket B can be customizedspecial specifications of different threads and matching and tubeCan be customized for any length or other different pipe with different threads, for example:NBG1-05M (L = 15MM), NBG1-05M (M25 * 1.5) / refers to the M25 with 16Metal connector Cable joint Waterproof connectorItem No.ThreadG/M/PGSuitable RCCN metal flexible conduit MCR ThreadO.D.D1ThreadLengthL1 Correspondingitem noMetric øBritishMetric thread TNBG-MTNBG-01M M14*1.5MCR-0163/16"M14*1.58 TNBG-02M M14*1.5MCR-0285/16"M14*1.58 TNBG-03M M16*1.5MCR-03101/4M16*1.58 TNBG-04M M16*1.5MCR-04133/8"M16*1.58 SpecificationTNBG-05M M20*1.5MCR-05161/2"M20*1.511 TNBG-06M M25*1.5MCR-06203/4"M25*1.514 TNBG-08M M32*1.5MCR-08251"M32*1.515 TNBG-10M M40*1.5MCR-103211/4"M40*1.515 TNBG-12M M50*1.5MCR-1238 1 1/2M50*1.516 TNBG-16M M63*1.5MCR-16512"M63*1.518Tube thread TNBG-GTNBG-01G G1/4"MCR-0163/16"13.28 TNBG-02G G1/4"MCR-0285/16"13.28 TNBG-03G G3/8"MCR-03101/4"16.58 TNBG-04G G3/8"MCR-04133/8"16.58 TNBG-05G G1/2"MCR-05161/2"21.311 TNBG-06G G3/4"MCR-06203/4"26.614 TNBG-08G G1"MCR-08251"33.415 TNBG-10G G1 1/4"MCR-103211/4"42.115 TNBG-12G G1 1/2"MCR-123811/2"47.816 TNBG-16G G2"MCR-1651259.618Germany thread TNBG-PGTNBG-03P PG9MCR-03101/4"15.28 TNBG-04P PG11MCR-04133/8"18.69 TNBG-05P PG13.5MCR-05161/2"20.411 TNBG-06P PG21MCR-06203/4"28.314 TNBG-08P PG29MCR-08251"37.015 TNBG-10P PG29MCR-1032 1 1/4"37.015 TNBG-12P PG36MCR-123811/2"47.016 TNBG-16P PG48MCR-16512"59.318Tube thread TNBG-NPTTNBG-01N NPT1/4"MCR-0163/16"13.28 TNBG-02N NPT1/4"MCR-0285/16"13.28 TNBG-03N NPT3/8"MCR-03101/4"16.58 TNBG-04N NPT3/8"MCR-04133/8"16.58 TNBG-05N NPT1/2"MCR-05161/2"21.311 TNBG-06N NPT3/4"MCR-06203/4"26.614 TNBG-08N NPT1"MCR-08251"33.415 TNBG-10N NPT1 1/4"MCR-103211/4"42.115 TNBG-12N NPT1 1/2"MCR-123811/2"47.816 TNBG-16N NPT2"MCR-1651259.618Product ShowzDow nloadRCCN Nitrile rubber environm…Catalogue-PDFRelated ProudctRCCN Cable Gland PGANylon Cable GlandRCCN Cable Gland ST-MNylon Cable Gland ST-M MetricRCCN Cable Gland NPT&GNylon Cable GlandRCCN Cable Gland MGANylon Cable GlandRCCN Cable Gland NPT&GNylon Cable GlandRCCN Cable Gland PGNylon Cable GlandRCCN Cable Gland AGMetric Lengthen Nylon Cable …RCCN B rass Cable Glan…Brass Cable GlandRCCN B rass Cable Glan…SPK - Brass Cable Gland - RC…RCCN B rass Cable Glan…Hose Steel Braid Cable GlandPDFMoreProduct New Product >RCCN B rass Cable Glan…Brass Cable GlandRCCN B rass Cable Glan…Brass Cable GlandRCCN B rass Cable Glan…Brass Cable GlandRCCN B rass Cable Glan…Brass Cable GlandRCCN B rass Cable Glan…Brass Cable GlandRCCN Conduit Fittings …Nylon Flexible Conduit FittingsRCCN Threaded joints …Metal threaded joints MBGWRCCN Threaded joints …Metal threaded joints MBGQRCCN Cable gland B GQ…Waterproof cable glandRCCN Conduit Fittings …Copper Metal Flexible Condui…RCCN Metal Screw Plug…New Product:Metal Screw Pl…RCCN Cable Gland MB A…New Product:Brass Cable GlandRCCN Cable Gland MB ANew Product:Brass Cable GlandRCCN Waterproof conn…New Product:Metal claw cabl…RCCN Waterproof conn…New Product:Metal cable wat…。

icm-40608规格书Specification sheet for ICM-406081. General Information:- Model: ICM-40608- Manufacturer: [Manufacturer Name]- Product Type: [Product Type]- Dimensions: [Dimensions]- Weight: [Weight]- Material: [Material]- Color: [Color]- Power Source: [Power Source]2. Features:- High-resolution display- Touchscreen functionality- Wide viewing angle- LED backlight- Multiple connectivity options (e.g., HDMI, USB, VGA, etc.) - Built-in speakers- Ergonomic design- Energy-efficient operation- VESA mount compatible- Compliance with [standards or certifications]3. Display:- Display Size: [Display Size]- Resolution: [Resolution]- Aspect Ratio: [Aspect Ratio]- Brightness: [Brightness]- Contrast Ratio: [Contrast Ratio]- Response Time: [Response Time]- Viewing Angle: [Viewing Angle]4. Touchscreen:- Touch Technology: [Touch Technology]- Number of Touch Points: [Number of Touch Points] - Surface Hardness: [Surface Hardness]- Touch Interface: [Touch Interface]- Touch Duration: [Touch Duration]5. Connectivity:- Input Ports: [Input Ports]- Output Ports: [Output Ports]- USB Ports: [USB Ports]6. Audio:- Built-in Speakers: [Yes/No]- Audio Output: [Audio Output]7. Power:- Power Consumption: [Power Consumption]- Power Supply: [Power Supply]8. Environmental Specifications:- Operating Temperature: [Operating Temperature] - Storage Temperature: [Storage Temperature]- Humidity: [Humidity]- Altitude: [Altitude]9. Accessories:- Included Accessories: [Included Accessories]- Optional Accessories: [Optional Accessories]Please note that the above information is a general guideline and may not include all the specifications of the ICM-40608. It is recommended to refer to the official documentation provided by the manufacturer for complete and accurate information.。

Eaton 187370Eaton Moeller series xEffect - FRCmM Type F RCCB. Residual current circuit breaker (RCCB), 100A, 2p, 30mA, type G/FGeneral specificationsEaton Moeller series xEffect - FRCmM Type F RCCB187370FRCMM-100/2/003-G/F401508182428180 mm 76 mm 35 mm 0.202 kg RoHS conformIEC/EN 62423 EN45545-2 IEC 61373 IEC/EN 61008Product NameCatalog Number Model CodeEANProduct Length/Depth Product Height Product Width Product Weight Compliances Certifications100 AIs the panel builder's responsibility. The specifications for the switchgear must be observed.7035-35 °CMeets the product standard's requirements.Is the panel builder's responsibility. The specifications for the switchgear must be observed.DIN railQuick attachment with 2 latch positions for DIN-rail IEC/EN 60715100 ADoes not apply, since the entire switchgear needs to be evaluated.0.03 A184 V AC - 250 V ACMeets the product standard's requirements.10 ms delayedInterlocking device1000 A eaton-rcd-application-guide-br019003en-en-us.pdfeaton-pdd-railrolling-stock-brochure-br011002en-en-us.pdf eaton-xeffect-frcmm-rccb-catalog-ca003018en-en-us.pdf DA-DC-03_FRCmMas_frcmmDA-CE-ETN.FRCMM-100_2_003-G_Featon-187365-3d-model.stpeaton-187365-drawing.dwgeaton-xeffect-frcmm-rccb-wiring-diagram.jpgRated operational current for specified heat dissipation (In) 10.11 Short-circuit ratingRAL-numberPermitted storage and transport temperature - min10.4 Clearances and creepage distances10.12 Electromagnetic compatibilityMounting MethodAmperage Rating10.2.5 LiftingRated fault current - maxTest circuit range10.2.3.1 Verification of thermal stability of enclosures Tripping timeFitted with:Rated residual making and breaking capacityFrequency rating Application notes Brochures Catalogs Certification reports DrawingseCAD model mCAD model Wiring diagrams50 Hz / 60 Hz10.8 Connections for external conductorsIs the panel builder's responsibility.Fault current rating30 mATerminal protectionFinger and hand touch safe, DGUV VS3, EN 50274Special featuresCurrent test marks as perinscriptionMaximum operatingtemperature is 75 °C:Starting at 40 °C, the max.permissible continuouscurrent decreases by 1.2%for every 1 °CSensitivity typePulse-current sensitiveAmbient operating temperature - max40 °CHeat dissipation per pole, current-dependent6.8 WClimatic proofing25-55 °C / 90-95% relative humidity according to IEC 60068-2Built-in depth70.5 mmShort-circuit rating100 A (max. admissible back-up fuse)FeaturesAdditional equipment possibleResidual current circuit breakerLifespan, electrical4000 operationsTerminal capacity (cable)M5 (with cross-recessed screw as defined in EN ISO 4757-Z2, PZ2)Connectable conductor cross section (solid-core) - min1.5 mm²Contact position indicator colorRed / green10.9.3 Impulse withstand voltageIs the panel builder's responsibility.Number of polesTwo-poleTerminal capacity (solid wire)1.5 mm² - 35 mm²Ambient operating temperature - min-25 °C10.6 Incorporation of switching devices and componentsDoes not apply, since the entire switchgear needs to be evaluated.Rated short-circuit strength10 kA with back-up fuse10.5 Protection against electric shockDoes not apply, since the entire switchgear needs to be evaluated.Used withFRCmMResidual current circuit breakersType G/F (ÖVE E 8601)Mounting positionAs requiredEquipment heat dissipation, current-dependent13.6 W10.13 Mechanical functionThe device meets the requirements, provided the information in the instruction leaflet (IL) is observed.10.2.6 Mechanical impactDoes not apply, since the entire switchgear needs to be evaluated.10.9.4 Testing of enclosures made of insulating materialIs the panel builder's responsibility.Static heat dissipation, non-current-dependent0 WApplicationSwitchgear for industrial andadvanced commercialapplicationsxEffect - Switchgear forindustrial and advancedcommercial applications10.3 Degree of protection of assembliesDoes not apply, since the entire switchgear needs to be evaluated.Voltage rating (IEC/EN 60947-2)240 V ACVoltage typeACTerminal capacity (stranded cable)16 mm² (2x)Leakage current typeOtherFrame45 mmBuilt-in width (number of units)35 mm (2 SU)Terminals (top and bottom)Twin-purpose terminalsHeat dissipation capacity0 WImpulse withstand current3 kA (8/20 μs) surge-proofWidth in number of modular spacings2Radiation resistanceFrequency mix (10 Hz, 50 Hz, 1000 Hz) enhanced sensitivityBusbar material thickness0.8 mm - 2 mm10.2.3.2 Verification of resistance of insulating materials to normal heatMeets the product standard's requirements.10.2.3.3 Resist. of insul. mat. to abnormal heat/fire by internal elect. effectsMeets the product standard's requirements.Lifespan, mechanical20000 operationsStatus indicationWhite / blue10.9.2 Power-frequency electric strengthIs the panel builder's responsibility.Connectable conductor cross section (solid-core) - max35 mm²Degree of protectionIP20, IP40 with suitable enclosureIP20Rated short-time withstand current (Icw)10 kAPollution degree210.7 Internal electrical circuits and connectionsIs the panel builder's responsibility.Connectable conductor cross section (multi-wired) - min 1.5 mm²Rated impulse withstand voltage (Uimp)4 kV10.10 Temperature riseThe panel builder is responsible for the temperature rise calculation. Eaton will provide heat dissipation data for the devices.FunctionsShort-time delayed trippingTightening torque2 Nm - 2.4 NmConnectable conductor cross section (multi-wired) - max 16 mm²TypeFRCmMResidual current circuitbreakersType G/F (ÖVE E 8601)10.2.2 Corrosion resistanceMeets the product standard's requirements.Eaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. All Rights Reserved. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmediaMeets the product standard's requirements.Meets the product standard's requirements.3 kA60 °C80 A gG/gL0.03 A240 V440 V10.2.4 Resistance to ultra-violet (UV) radiation 10.2.7 InscriptionsSurge current capacity Permitted storage and transport temperature - max Admissible back-up fuse overload - max Rated fault current - min Rated operational voltage (Ue) - max Rated insulation voltage (Ui)。

Data Sheet No. PD60336IRMCK343 Sensorless Motor Control IC for AppliancesFeaturesMCE TM (Motion Control Engine) - Hardware based computation engine for high efficiency sinusoidal sensorless control of permanent magnet AC motor Integrated Power Factor Correction controlSupports both interior and surface permanent magnet motorsBuilt-in hardware peripheral for single shunt current feedback reconstructionNo external current or voltage sensing operational amplifier requiredThree/two-phase Space Vector PWMThree-channel analog output (PWM)Embedded 8-bit high speed microcontroller (8051) for flexible I/O and man-machine controlJTAG programming port for emulation/debugger Serial communication interface (UART)I2C/SPI serial interfaceWatchdog timer with independent analog clockThree general purpose timers/countersTwo special timers: periodic timer, capture timer Internal ‘One-Time Programmable’ (OTP) memory and internal RAM for final production usagePin compatible with IRMCK343, RAM version1.8V/3.3V CMOS Product SummaryMaximum crystal frequency 60 MHz Maximum internal clock (SYSCLK) frequency 128 MHz Maximum 8051 clock frequency 33 MHz Sensorless control computation time 11 μsec typ MCE TM computation data range 16 bit signed 8051 OTP Program memory 56K bytes MCE program and Data RAM 8K bytes GateKill latency (digital filtered) 2 μsec PWM carrier frequency counter 16 bits/ SYSCLK A/D input channels 5 A/D converter resolution 12 bits A/D converter conversion speed 2 μsec 8051 instruction execution speed 2 SYSCLK Analog output (PWM) resolution 8 bits UART baud rate (typ) 57.6K bps Number of I/O (max) 23 Package (lead-free) QFP64 Operating temperature -40°C ~ 85°CDescriptionIRMCK343 is a high performance OTP based motion control IC designed primarily for appliance applications. IRMCK343 is designed to achieve low cost and high performance control solutions for advanced inverterized appliance motor control. IRMCK343 contains two computation engines. One is Motion Control Engine (MCE TM) for sensorless control of permanent magnet motors; the other is an 8-bit high-speed microcontroller (8051). Both computation engines are integrated into one monolithic chip. The MCE TM contains a collection of control elements such as Proportional plus Integral, Vector rotator, Angle estimator, Multiply/Divide, Low loss SVPWM, Single Shunt IFB. The user can program a motion control algorithm by connecting these control elements using a graphic compiler. Key components of the sensorless control algorithms, such as the Angle Estimator, are provided as complete pre-defined control blocks implemented in hardware. A unique analog/digital circuit and algorithm to fully support single shunt current reconstruction is also provided. The 8051 microcontroller performs 2-cycle instruction execution (60MIPS at 120MHz). The MCE and 8051 microcontroller are connected via dual port RAM to process signal monitoring and command input. An advanced graphic compiler for the MCE TM is seamlessly integrated into the MATLAB/Simulink environment, while third party JTAG based emulator tools are supported for 8051 developments. IRMCK343 comes with a small QFP64 pin lead-free package.TABLE OF CONTENTS1Overview (5)2IRMCK343 Block Diagram and Main Functions (6)3Pinout (8)4Input/Output of IRMCK343 (9)4.18051 Peripheral Interface Group (9)4.2Motion Peripheral Interface Group (10)4.3Analog Interface Group (11)4.4Power Interface Group (11)4.5Test Interface Group (11)5Application Connections (12)6DC Characteristics (13)6.1Absolute Maximum Ratings (13)6.2System Clock Frequency and Power Consumption (13)6.3Digital I/O DC Characteristics (14)6.4PLL and Oscillator DC Characteristics (14)6.5Analog I/O DC Characteristics (15)6.6Under Voltage Lockout DC Characteristics (16)6.7AREF Characteristics (16)7AC Characteristics (17)7.1PLL AC Characteristics (17)7.2Analog to Digital Converter AC Characteristics (18)7.3Op Amp AC Characteristics (18)7.4SYNC to SVPWM and A/D Conversion AC Timing (19)7.5GATEKILL to SVPWM AC Timing (20)7.6Interrupt AC Timing (20)7.7I2C AC Timing (21)7.8SPI AC Timing (22)7.8.1SPI Write AC timing (22)7.8.2SPI Read AC Timing (23)7.9UART AC Timing (24)7.10CAPTURE Input AC Timing (25)7.11JTAG AC Timing (26)7.12OTP Programming Timing (27)8I/O Structure (28)9Pin List (31)10Package Dimensions (34)11Part Marking Information (35)12Order Information (35)TABLE OF FIGURESFigure 1 Typical Application Block Diagram Using IRMCK343 (5)Figure 2. IRMCK343 Internal Block Diagram (6)Figure 3. IRMCK343 Pin Configuration (8)Figure 4. Input/Output of IRMCK343 (9)Figure 5. Application Connection of IRMCK343 (12)Figure 6. Clock Frequency vs. Power Consumption (13)Figure 7 Crystal oscillator circuit (17)Figure 8 Voltage droop of sample and hold (18)Figure 9 SYNC to SVPWM and A/D Conversion AC Timing (19)Figure 10 GATEKILL to SVPWM AC Timing (20)Figure 11 Interrupt AC Timing (20)Figure 12 I2C AC Timing (21)Figure 13 SPI write AC Timing (22)Figure 14 SPI read AC Timing (23)Figure 15 UART AC Timing (24)Figure 16 CAPTURE Input AC Timing (25)Figure 17 JTAG AC Timing (26)Figure 18 OTP Programming Timing (27)Figure 19 All digital I/O and motor PWM output (28)Figure 20 RESET, GATEKILL I/O (28)Figure 21 Analog input (29)Figure 22 Analog operational amplifier output and AREF I/O structure (29)Figure 23 VPP programming pin (29)Figure 24 VSS, AVSS and PLLVSS pin structure (30)Figure 25 VDD1, VDD2, AVDD and PLLVDD pin structure (30)Figure 26 XTAL0/XTAL1 pins structure (30)TABLE OF TABLESTable 1. Absolute Maximum Ratings (13)Table 2. System Clock Frequency (13)Table 3. Digital I/O DC Characteristics (14)Table 4. PLL DC Characteristics (14)Table 5. Analog I/O DC Characteristics (15)Table 6. UVcc DC Characteristics (16)Table 7. AREF DC Characteristics (16)Table 8. PLL AC Characteristics (17)Table 9. A/D Converter AC Characteristics (18)Table 10. Current Sensing OP amp Amp AC Characteristics (18)Table 11. SYNC AC Characteristics (19)Table 12. GATEKILL to SVPWM AC Timing (20)Table 13. Interrupt AC Timing (20)Table 14. I2C AC Timing (21)Table 15. SPI Write AC Timing (22)Table 16. SPI Read AC Timing (23)Table 17. UART AC Timing (24)Table 18. CAPTURE AC Timing (25)Table 19. JTAG AC Timing (26)Table 20. OTP Programming Timing (27)Table 21. Pin List (33)1 OverviewIRMCK343 is a new International Rectifier integrated circuit device primarily designed as a one-chip solution for complete inverter controlled appliance motor control applications. Unlike a traditional microcontroller or DSP, the IRMCK343 provides a built-in closed loop sensorless control algorithm using the unique Motion Control Engine (MCE TM) for permanent magnet motor. The MCE TM consists of a collection of control elements, motion peripherals, a dedicated motion control sequencer and dual port RAM to map internal signal nodes. IRMCK343 also employs a unique single shunt current reconstruction circuit to eliminate additional analog/digital circuitry and enables a direct shunt resistor interface to the IC. Motion control programming is achieved using a dedicated graphical compiler integrated into the MATLAB/Simulink TM development environment. Sequencing, user interface, host communication, and upper layer control tasks can be implemented in the 8051 high-speed 8-bit microcontroller. The 8051 microcontroller is equipped with a JTAG port to facilitate emulation and debugging tools.Figure 1 shows a typical application schematic using the IRMCK343.IRMCK343 is intended for volume production purpose and contains 64K bytes of OTP (One Time Programming) ROM, which can be programmed through a JTAG port. For a development purpose use, IRMCF343 contains a 48k byte of RAM in place of program OTP to facilitate an application development work. Both IRMCF343 and IRMCK343 come in the same 64-pin QFP package with identical pin configuration to facilitate PC board layout and transition to mass productionFigure 1 Typical Application Block Diagram Using IRMCK3432 IRMCK343 Block Diagram and Main Functions IRMCK343 block diagram is shown in Figure 2.Figure 2. IRMCK343 Internal Block DiagramIRMCK343 contains the following functions for sensorless AC motor control applications: •Motion Control Engine (MCE TM)o Proportional plus Integral blocko Low pass filtero Differentiator and lag (high pass filter)o Rampo Limito Angle estimate (sensorless control)o Inverse Clark transformation o Vector rotatoro Bit latcho Peak detecto Transitiono Multiply-divide (signed and unsigned)o Divide (signed and unsigned)o Addero Subtractoro Comparatoro Countero Accumulatoro Switcho Shifto ATAN (arc tangent)o Function block (any curve fitting, nonlinear function)o16-bit wide Logic operations (AND, OR, XOR, NOT, NEGATE)o MCE TM program and data memory (6K byte). Note 1o MCE TM control sequencer• 8051 microcontrollero Three 16-bit timer/counterso16-bit periodic timero16-bit analog watchdog timero16-bit capture timero Up to 23 discrete I/Oso Five-channel 12-bit A/DThree buffered channels (0 – 1.2V input)Two unbuffered channels (0 – 1.2V input)o JTAG port (4 pins)o Up to three channels of analog output (8-bit PWM)o UARTo I2C/SPI porto64K byte program OTPo2K byte data RAM. Note 1Note 1: Total size of RAM is 8K byte including MCE program, MCE data, and 8051data. Different sizes can be allocated depending on applications.3 PinoutXTAL0XTAL1P1.1/RXD P1.2/TXDVDD1VSS VDD2P1.3/SYNC/SCKP1.4/CAPP2.1V S SV D D 2A V D DA V S SA I N 0A R E FP 2.7/A O P W M 1P 2.6/A O P W M 0PWMUH PWMVH PWMWH PWMUL PWMVL PWMWL GATEKILL VDD1VSS I F B C OI F B C +I F B C -P L L V S SP L L V D DR E S E TN C T C KP 5.3/T D IP 5.2/T D OP 5.1/T M SS D A /C S 0S C L /S O -S I /V P PP 5.0/P F C G K I L LP F C P W MV S SVAC-VAC+VACO IPFCO IPFC+IPFC-C M E X TP2.0/NMIP2.2A I N 1P 3.2/I N T 0P1.7P1.6P1.5P1.0/T2P 2.3P 2.4P 2.5P 3.1/A O P W M 2V D D 1P3.0/INT2/CS1Figure 3. IRMCK343 Pin Configuration4 Input/Output of IRMCK343All I/O signals of IRMCK343 are shown in Figure 4. All I/O pins are 3.3V logic interface except A/D interface pins.Motor PWMgate signalInterfaceA/D Interface Discrete I/OJTAG portRS232CInterfaceCrystalD/A Interface(PWM output)System ResetDigital power/ground Test modePLL power/groundAnalog power/groundPFC PWMgate signalInterface Other communication(SPI&I2C)&OTP ProgrammingFigure 4. Input/Output of IRMCK3434.1 8051 Peripheral Interface GroupUART InterfaceP1.2/TXD Output, Transmit data from IRMCK343P1.1/RXD Input, Receive data to IRMCK343Discrete I/O InterfaceP1.0/T2 Input/output port 1.0, can be configured as Timer/Counter 2 inputP1.3/SYNC/SCK Input/output port 1.3, can be configured as SYNC output or SPI clock P1.4/CAP Input/output port 1.4, can be configured as Capture Timer inputP1.5 Input/output port 1.5P1.6 Input/output port 1.6P1.7 Input/output port 1.7P2.0/NMI Input/output port 2.0, can be configured as Non-maskable interrupt input P2.1 Input/output port 2.1P2.2 Input/output port 2.2P2.3 Input/output port 2.3P2.4 Input/output port 2.4P2.5 Input/output port 2.5P3.0/INT2/CS1 Input/output port 3.0, can be configured as INT2 input or SPI chip select 1P3.2/INT0 Input/output port 3.2, can be configured as INT0 inputAnalog Output InterfaceP2.6/AOPWM0 Input/output, can be configured as 8-bit PWM output 0 withprogrammable carrier frequencyP2.7/AOPWM1 Input/output, can be configured as 8-bit PWM output 1 withprogrammable carrier frequencyP3.1/AOPWM2 Input/output, can be configured as 8-bit PWM output 2 withprogrammable carrier frequencyCrystal InterfaceXTAL0 Input, connected to crystalXTAL1 Output, connected to crystalReset InterfaceRESET Input/output, system reset, needs to be pulled up to VDD1 but doesn’trequire external RC time constantI2C/SPI Interface/OTP ProgrammingSCL/SO-SI/VPP Output or Power, I2C clock output or SPI data or OTP ProgrammingI2C data line or SPI chip select 0SDA/CS0 Input/output,P3.0/INT2/CS1 Input/output, INT2 or SPI chip select 1P1.3/SYNC/SCK Input/output, SYNC output or SPI clock, needs to be pulled up to VDD1in order to boot from I2C EEPROM4.2 Motion Peripheral Interface GroupPWMPWMUH Output, PWM phase U high side gate signalPWMUL Output, PWM phase U low side gate signalPWMVH Output, PWM phase V high side gate signalPWMVL Output, PWM phase V low side gate signalPWMWH Output, PWM phase W high side gate signalPWMWL Output, PWM phase W low side gate signalPFCPWM Output, PFC PWM gate signalFaultGATEKILL Input, upon assertion, this negates all six PWM signals, programmablelogic senseP5.0/PFCGKILL Input, upon assertion, this negates PFCPWM signal, programmable logic sense, can be configured as discrete I/O in which case CGATEKILLnegates PFCPWMIRMCK3434.3 Analog Interface GroupAnalog power (1.8V) Analog power return Unbuffered 0.6V, input to the AREF buffer, capacitor needs to be connected. 0.6V buffered output Input, Operational amplifier positive input for shunt resistor current sensing Input, Operational amplifier negative input for shunt resistor current sensing Output, Operational amplifier output for shunt resistor current sensing Input, Operational amplifier positive input for PFC current sensing Input, Operational amplifier negative input for PFC current sensing Output, Operational amplifier output for PFC current sensing Input, Operational amplifier positive input for PFC AC voltage sensing Input, Operational amplifier negative input for PFC AC voltage sensing Output, Operational amplifier output for PFC AC voltage sensing Input, Analog input channel 0 (0 – 1.2V), typically configured for DC bus voltage input Input, analog input channel 1 (0 – 1.2V), needs to be pulled down to AVSS if unusedAVDD AVSS CMEXT AREF IFB+ IFBIFBO IPFC+ IPFCIPFO VAC+ VACVACO AIN0 AIN14.4Power Interface GroupDigital power for I/O (3.3V) Digital power for core logic (1.8V) Digital common PLL power (1.8V) PLL ground returnVDD1 VDD2 VSS PLLVDD PLLVSS4.5Test Interface GroupMust be tied to VSS, used only for factory testing. Input, JTAG test data input Input, JTAG test mode select Input, JTAG test clock Output, JTAG test data outputTSTMOD P5.3/TDI P5.1/TMS TCK P5.2/TDO 11© 2007 International RectifierIRMCK343 5 Application ConnectionsTypical application connection is shown in Figure 5. All components necessary to implement a complete sensorless drive control algorithm are shown connected to IRMCK343.Figure 5.Application Connection of IRMCK343 12© 2007 International RectifierIRMCK343 6 DC Characteristics6.1 Absolute Maximum RatingsParameter Supply Voltage Supply Voltage Analog Input Voltage Digital Input Voltage Ambient Temperature Storage Temperature Table 1. Min Typ Max -0.3 V 3.6 V -0.3 V 1.98 V -0.3 V 1.98 V -0.3 V 3.65 V -40 ˚C 85 ˚C -65 ˚C 150 ˚C Absolute Maximum Ratings Condition Respect to VSS Respect to VSS Respect to AVSS Respect to VSSSymbol VDD1 VDD2 VIA VID TA TSCaution: Stresses beyond those listed in “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only and function of the device at these or any other conditions beyond those indicated in the operational sections of the specifications are not implied.6.2System Clock Frequency and Power ConsumptionParameter System Clock 8051 Clock Table 2. Min Typ Max 32 128 32 System Clock Frequency Unit MHz MHzSymbol SYSCLK 8051CLKPower Consumption180 160 140 120 Power (mW) 100 80 60 40 20 0 0 20 40 60 80 100 120 140 MCE Frequency (MHz) 1.8V 3.3V Total PowerFigure 6.Clock Frequency vs. Power Consumption 13© 2007 International RectifierIRMCK3436.3VDD1 VDD2 VIL VIH CIN IL IOL1(2) IOH1(2) IOL2(3) IOH2(3)Digital I/O DC CharacteristicsParameter Supply Voltage Supply Voltage Input Low Voltage Input High Voltage Input capacitance Input leakage current Low level output current High level output current Low level output current High level output current Table 3. Min 3.0 V 1.62 V -0.3 V 2.0 V 8.9 mA 12.4 mA 17.9 mA 24.6 mA Typ 3.3 V 1.8 V 3.6 pF ±10 nA 13.2 mA 24.8 mA 26.3 mA 49.5 mA Max 3.6 V 1.98 V 0.8 V 3.6 V ±1 μA 15.2 mA 38 mA 33.4 mA 81 mA Condition Recommended Recommended Recommended Recommended(1)Symbol(1)VO = 3.3 V or 0 V VOL = 0.4 V = 2.4 V = 0.4 V = 2.4 VVOH (1) VOL (1) VOH (1)Digital I/O DC CharacteristicsNote: (1) Data guaranteed by design. (2) Applied to SCL/SO-SI, SDA/CS0 pins. (3) Applied to P1.0/T2, P1.1/RXD, P1.2/TXD, P1.3/SYNC/SCK, P1.4/CAP, P1.5, P1.6, P1.7, P2.0/NMI, P2.1, P2.2, P2.3, P2.4, P2.5, P2.6/AOPWM0, P2.7/AOPWM1, P3.0/INT2/CS1, P3.1/AOPWM2, P3.2/INT0, P5.0/PFCGKILL, P5.1/TMS, P5.2/TDO, P5.3/TDI, GATEKILL, PWMUL, PWMUH, PWMVL, PWMVH, PWMWL, PWMWH, and PFCPWM pins.6.4VPLLVDD VIL OSC VIH OSCPLL and Oscillator DC CharacteristicsParameter Min Typ Max Supply Voltage 1.62 V 1.8 V 1.92 V Oscillator Input Low VPLLVSS 0.2* Voltage VPLLVDD Oscillator Input High 0.8* VPLLVDD Voltage VPLLVDD Table 4. PLL DC Characteristics Condition Recommended VPLLVDD = 1.8 V(1)SymbolVPLLVDD (1)= 1.8 VNote: (1) Data guaranteed by design. 14© 2007 International RectifierIRMCK3436.5 Analog I/O DC CharacteristicsCondition Recommended VAVDD = 1.8 V Recommended VAVDD = 1.8 V(1)- OP amps for current sensing (IFB+, IFB-, IFBO, IPFC+, IPFC-, IPFCO) CAREF = 1nF, CMEXT= 100nF. Unless specified, Ta = 25˚C. Symbol Parameter Min Typ Max VAVDD Supply Voltage 1.71 V 1.8 V 1.89 V VOFFSET Input Offset Voltage 26 mV VI Input Voltage Range 0V 1.2 V VOUTSW OP amp output 50 mV 1.2 V (1) operating range CIN Input capacitance 3.6 pF RFDBK OP amp feedback 5 kΩ 20 kΩ resistor OP GAINCL CMRR ISRC ISNK Operating Close loop Gain Common Mode Rejection Ratio Op amp output source current Op amp output sink current Table 5. 80 db 80 db 1 mA 100 μA -Requested between op amp output and negative input(1) (1)VOUT (1) VOUT (1)= 0.6 V = 0.6 VAnalog I/O DC CharacteristicsNote: (1) Data guaranteed by design. 15© 2007 International Rectifier6.6Under Voltage Lockout DC Characteristics- Based on AVDD (1.8V) Unless specified, Ta = 25˚C. Symbol Parameter Min Typ Max UVCC+ UVcc positive going 1.53 V 1.66 V 1.71 V Threshold1) UVCCUVcc negative going 1.52 V 1.62 V 1.71 V Threshold UVCCH UVcc Hysteresys 40 mV Table 6. UVcc DC Characteristics Note: (1) Data guaranteed by design.Condition VDD1 = 3.3 V VDD1 = 3.3 V6.7AREF CharacteristicsCondition VAVDD = 1.8 VCAREF = 1nF, CMEXT= 100nF. Unless specified, Ta = 25˚C. Symbol Parameter Min Typ Max VAREF AREF Output Voltage 495 mV 600 mV 700 mV Load regulation (VDC-0.6) 1 mV ΔVo PSRR Power Supply Rejection 75 db Ratio Table 7. AREF DC Characteristics Note: (1) Data guaranteed by design.(1) (1).© 2007 International RectifierIRMCK343 7 AC Characteristics7.1 PLL AC CharacteristicsParameter Min Typ Max Crystal input 3.2 MHz 4 MHz 60 MHz frequency Internal clock 32 MHz 50 MHz 128 MHz frequency Sleep mode output FCLKIN ÷ 256 frequency Short time jitter 200 psec Duty cycle 50 % PLL lock time 500 μsec Table 8. PLL AC Characteristics Condition(1) (1)Symbol FCLKIN FPLL FLWPW JS D TLOCK(see figure below)(1)(1) (1) (1)Note: (1) Data guaranteed by design.R1=1MR2=10XtalC1=30PF C2=30PFFigure 7Crystal oscillator circuit 17© 2007 International RectifierIRMCK3437.2 Analog to Digital Converter AC CharacteristicsMin Typ Max 2.05 μsec 10 μsec Condition(1)Unless specified, Ta = 25˚C. Symbol Parameter TCONV Conversion time THOLD Sample/Hold maximum hold time Table 9. Note: (1) Data guaranteed by design.Voltage droop ≤ 15 LSB (see figure below)A/D Converter AC CharacteristicsInput Voltage Voltage droop S/H VoltagetSAMPLE THOLDFigure 8Voltage droop of sample and hold7.3Op Amp AC Characteristics- OP amps for current sensing (IFB+, IFB-, IFBO, IPFC+, IPFC-, IPFCO) Unless specified, Ta = 25˚C. Symbol Parameter OPSR OP amp slew rate OPIMP TSET OP input impedance Settling time Table 10.Min -Typ 10 V/μsec 108 Ω 400 nsMax -Condition VAVDD = 1.8 V, CL = 33 pF (1)(1)VAVDD = 1.8 V, CL = 33 pF (1) Current Sensing OP amp Amp AC CharacteristicsNote: (1) Data guaranteed by design. 18© 2007 International RectifierIRMCK3437.4 SYNC to SVPWM and A/D Conversion AC TimingtwSYNCSYNCtdSYNC1IU,IV,IWtdSYNC2AINxtdSYNC3PWMUx,PWMVx,PWMWxFigure 9SYNC to SVPWM and A/D Conversion AC TimingUnless specified, Ta = 25˚C. Symbol Parameter twSYNC SYNC pulse width tdSYNC1 SYNC to current feedback conversion time tdSYNC2 SYNC to AIN0-6 analog input conversion time tdSYNC3 SYNC to PWM output delay time Table 11.Min -Typ 32 -Max 100 200 2Unit SYSCLK SYSCLK SYSCLK(1)SYSCLKSYNC AC CharacteristicsNote: (1) AIN1 through AIN6 channels are converted once every 6 SYNC events 19© 2007 International RectifierIRMCK3437.5 GATEKILL to SVPWM AC TimingFigure 10GATEKILL to SVPWM AC TimingUnless specified, Ta = 25˚C. Symbol Parameter Min Typ Max twGK GATEKILL pulse width 32 tdGK GATEKILL to PWM 100 output delay Table 12. GATEKILL to SVPWM AC TimingUnit SYSCLK SYSCLK7.6Interrupt AC TimingFigure 11Interrupt AC TimingUnless specified, Ta = 25˚C. Symbol Parameter Min Typ Max twINT INT0, INT1 Interrupt 4 Assertion Time tdINT INT0, INT1 latency 4 Table 13. Interrupt AC TimingUnit SYSCLK SYSCLK 20© 2007 International Rectifier7.7 I2C AC TimingFigure 12 I2C AC TimingUnless specified, Ta = 25˚C.Symbol Parameter Min TypMax Unit T I2CLK I2C clock period 10 - 8192 SYSCLKt I2ST1I2C SDA start time 0.25 - - T I2CLKt I2ST2I2C SCL start time 0.25 - - T I2CLKt I2WSETUP I2C write setup time 0.25 - - T I2CLKt I2WHOLD I2C write hold time 0.25 - - T I2CLKt I2RSETUP I2C read setup time I2C filter time(1) - - SYSCLK t I2RHOLD I2C read hold time 1 - - SYSCLKTable 14. I C AC TimingNote:(1) I2C read setup time is determined by the programmable filter time applied to I2Ccommunication.7.8 SPI AC Timing7.8.1 SPI Write AC timingFigure 13 SPI write AC TimingUnless specified, Ta = 25˚C.Max UnitTypSymbol Parameter MinT SPICLK SPI clock period 4 - - SYSCLKt SPICLKHT SPI clock high time - 1/2 - T SPICLKSPI clock low time - 1/2 - T SPICLKtSPICLKLTt CSDELAY CS to data delay time - - 10 nsect WRDELAY CLK falling edge to data- - 10 nsec delay time1 - - T SPICLKt CSHIGH CS high time between twoconsecutive byte transfert CSHOLD CS hold time - 1 - T SPICLKTable 15. SPI Write AC Timing7.8.2 SPI Read AC TimingSPI read AC TimingUnless specified, Ta = 25˚C.Max UnitTypSymbol Parameter MinT SPICLK SPI clock period 4 - - SYSCLKt SPICLKHT SPI clock high time - 1/2 - T SPICLKt SPICLKLT SPI clock low time - 1/2 - T SPICLKt CSRD CS to data delay time - - 10 nsect RDSU SPI read data setup time 10 - - nsect RDHOLD SPI read data hold time 10 - - nsec1 - - T SPICLKt CSHIGH CS high time between twot CSHOLD CS hold time - 1 - T SPICLKTable 16. SPI Read AC Timing7.9 UART AC TimingFigure 15 UART AC TimingUnless specified, Ta = 25˚C.Symbol Parameter Min Typ Max Unit T BAUD Baud Rate Period - 57600 - bit/secT UARTFIL UART sampling filter- 1/16 - T BAUD period (1)Table 17. UART AC TimingNote:(1) Each bit including start and stop bit is sampled three times at center of a bit at an intervalof 1/16 T BAUD. If three sampled values do not agree, then UART noise error is generated.7.10 CAPTURE Input AC TimingFigure 16 CAPTURE Input AC TimingUnless specified, Ta = 25˚C.Symbol Parameter Min Typ Max UnitT CAPCLK CAPTURE input period 8 - - SYSCLKt CAPHIGH CAPTURE input hightime4 - - SYSCLKt CAPLOW CAPTURE input lowtime4 - - SYSCLKt CRDELAY CAPTURE falling edgeto capture register latchtime- - 4 SYSCLKt CLDELAY CAPTURE rising edgeto capture register latchtime- - 4 SYSCLK t INTDELAY CAPTUREinputinterrupt latency time- - 4 SYSCLKTable 18. CAPTURE AC Timing7.11 JTAG AC TimingFigure 17 JTAG AC TimingUnless specified, Ta = 25˚C.Unit Symbol Parameter MinMaxTypPeriod - - 50 MHzT JCLK TCKt JHIGH TCK High Period 10 - - nsect JLOW TCK Low Period 10 - - nsec0 - 5 nsect CO TCK to TDO propagationdelay timet JSETUP TDI/TMS setup time 4 - - nsect JHOLD TDI/TMS hold time 0 - - nsecTable 19. JTAG AC Timing7.12 OTP Programming TimingFigure 18 OTP Programming TimingUnless specified, Ta = 25˚C.UnitMaxSymbol Parameter MinTypT VPS VPP Setup Time 10 - - nsecT VPH VPP Hold Time 15 - - nsecTable 20. OTP Programming Timing8 I/O StructureThe following figure shows the motor PWM and digital I/O structureVSSFigure 19 All digital I/O and motor PWM output The following figure shows RESET and GATEKILL I/O structure.RESET GATEKILLI/OVDD1(3.3V) VSSFigure 20 RESET, GATEKILL I/OThe following figure shows the analog input structure.AVSSAnalog CircuitFigure 21 Analog inputThe following figure shows all analog operational amplifier output pins and AREF pin I/O structure.Analog CircuitFigure 22 Analog operational amplifier output and AREF I/O structureThe following figure shows the VPP pin I/O structureVPP inputPINVSSFigure 23 VPP programming pinThe following figure shows the VSS, AVSS and PLLVSS pin structureFigure 24 VSS, AVSS and PLLVSS pin structureThe following figure shows the VDD1, VDD2, AVDD and PLLVDD pin structureFigure 25 VDD1, VDD2, AVDD and PLLVDD pin structureThe following figure shows the XTAL0 and XTAL1 pins structureFigure 26 XTAL0/XTAL1 pins structure9 Pin ListPinNumber Pin Name Internal ICPull-up/Pull-downPinType Description1 XTAL0 I Crystalinput2 XTAL1 O Crystaloutput3 P1.0/T2 I/O Discrete programmable I/O or Timer/Counter 2input4 P1.1/RXD I/O Discrete programmable I/O or UART receiveinput5 P1.2/TXD I/O Discrete programmable I/O or UART transmitoutput6 P1.3/SYNC/SCK I/O Discrete programmable I/O or SYNC output or SPI clock7 P1.4/CAP I/O Discrete programmable I/O or Capture Timerinput8 P1.5 I/O Discrete programmable I/O9 P1.6 I/O Discrete programmable I/O10 P1.7 I/O Discrete programmable I/O11 VDD2 P 1.8V digital power12 VSS P Digitalcommon13 VDD1 P 3.3V digital power14 P2.0/NMI I/O Discrete programmable I/O or Non-maskableInterrupt input15 P2.1 I/O Discrete programmable I/O16 P2.2 I/O Discrete programmable I/O17 P2.3 I/O Discrete programmable I/O18 P2.4 I/O Discrete programmable I/O19 P2.5 I/O Discrete programmable I/O20 P2.6/AOPWM0I/O Discrete programmable I/O or PWM 0 output21 P2.7/AOPWM1I/O Discrete programmable I/O or PWM 1 output22 VDD2 P 1.8V digital power23 VSS P Digitalcommon24 AIN0 I Analog input channel 0, 0-1.2V range, needs tobe pulled down to AVSS if unused25 AVDD P 1.8V analog power26 AVSS P Analogcommon27 AIN1 I Analog input channel 1, 0-1.2V range, needs tobe pulled down to AVSS if unused28 CMEXT O Unbuffered 0.6V output. Capacitor needs to beconnected.29 AREF O Analog reference voltage output (0.6V)30 IFB- I Single shunt current sensing OP amp input (-)31 IFB+ I Single shunt current sensing OP amp input (+)。