CPC1998J;CPC1998Y;中文规格书,Datasheet资料

398C-1 TapePolyimide Film With Silicone Adhesive DatasheetProduct Description3M TM Electrical Tape 98C-1 is a 1-mil polyimide backing with silicone adhesive. It is designed for high temperature application, used on coils, capacitors and wire harness.l1-mil polyimide backingl Silicone adhesivel UL recognized, file number E256906l Supplied on 3 inch coresLike all 3M insulation tapes, 3M 98C-1 Tape is available in standard and custom widths and lengths. Standard length is 36 yards.l Longer length up to several times normal length, dependent upon width. Check with Customer Service. Applications3M TM 98C-1 tape is used for high temperature electrical application in which a tough, thin insulation material is required for wrapping coils, transformers, capacitors and wire harness. It’s also used in printed circuit board assembly as a wave solder masking tape.Properties Typical ValuesType of Backing PolyimideType of Adhesive SiliconeThickness (backing plus adhesive) 0.070mm Temperature rating 220o CBreaking strength 125 lb./in (46N/10mm) Elongation 140%Adhesion strength 121oz./in (2.3N/10mm) Dielectric Breakdown 16000 volts Electrolytic corrosion factor 2 1.0UL Flame Retardant 3YesFootnote: 1. Test method ASTM D 10002. 3M test method3. UL recognized flame retardant, Product Category OANZ2, File E256906.3M is a trademark of 3M Company.Important NoticeAll statements, technical information, and recommendations related to 3M's products are based on information believed to be reliable, but the accuracy or completeness thereof is not guaranteed. Before using this product, you must evaluate it and determine if it is suitable for your intended application. You assume all risks and liability associated with such use. Any statements or recommendations related to the product , which are not contained in 3M’s current publications, or any contrary statements contained on your purchase order shall have no force or effect unless expressly agreed upon, in writing, by an authorized officer of 3M.Warranty; Limited Remedy; Limited Liability.This product will be free from defects in material and manufacture as of the date of purchase. 3M MAKES NO OTHER WARRANTIES INCLUDING, BUT NOT LIMITED TO, ANY IMPLIED WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. If this product is defective within the warranty period stated above, your exclusive remedy shall be, at 3M’s option, to replace or repair the 3M product or refund the purchase price of the 3M product. Except where prohibited by law, 3M will not be liable for any loss or damage arising from this 3M product, whether direct, Indirect, special, Incidental or consequential regardless of the legal theory asserted.3Electrical Markets Division © 3M August 2007。

BYV32EB-200Dual rugged ultrafast rectifier diode, 20 A, 200 VRev. 04 — 2 March 2009Product data sheet 1.Product profile1.1General descriptionUltrafast dual epitaxial rectifier diode in a SOT404 (D2PAK) surface-mountable plasticpackage.1.2Features and benefitsHigh reverse voltage surge capability High thermal cycling performanceLow thermal resistance Soft recovery characteristic minimizes power consuming oscillationsSurface-mountable packageVery low on-state loss1.3ApplicationsOutput rectifiers in high-frequencyswitched-mode power supplies1.4Quick reference dataTable 1.Quick referenceSymbol Parameter Conditions Min Typ Max Unit V RRM repetitive peak reverse voltage--200VI O(AV)average output current square-wave pulse; δ=0.5;T mb≤115°C; both diodes conducting;see Figure 1; see Figure 2--20AI RRM repetitive peak reverse current t p=2µs; δ=0.001--0.2AV ESD electrostatic discharge voltage HBM; C = 250 pF; R = 1.5 kΩ; all pins--8kV Dynamic characteristicst rr reverse recovery time I F=1A; V R=30V;dI F/dt=100A/µs;T j=25°C; ramp recovery; see Figure 5-2025nsI R=1A;I F=0.5A;T j=25°C; measuredat reverse current = 0.25 A; steprecovery; see Figure 6-1020nsStatic characteristicsV F forward voltage I F=8A; T j=150°C; see Figure 4-0.720.85V2.Pinning information[1]it is not possible to make a connection to pin 2 of the SOT404 package3.Ordering informationTable 2.Pinning information Pin Symbol Description Simplified outline Graphic symbol1A1anode 1SOT404 (D2PAK)2K cathode [1]3A2anode 2mbKmounting base; cathodemb132sym125Table 3.Ordering information Type number PackageName DescriptionVersion BYV32EB-200D2PAK plastic single-ended surface-mounted package (D2PAK); 3 leads (onelead cropped)SOT4044.Limiting valuesTable 4.Limiting values In accordance with the Absolute Maximum Rating System (IEC 60134).Symbol ParameterConditionsMin Max Unit V RRM repetitive peak reverse voltage-200V V RWM crest working reverse voltage -200V V R reverse voltage DC-200V I O(AV)average output currentsquare-wave pulse; δ=0.5; T mb ≤115°C; both diodes conducting; see Figure 1; see Figure 2-20A I FRM repetitive peak forward currentδ=0.5; t p =25µs; T mb ≤115°C; per diode -20A I FSMnon-repetitive peak forward currentt p =8.3ms; sine-wave pulse; T j(init)=25°C; per diode-137A t p =10ms; sine-wave pulse; T j(init)=25°C;per diode-125A I RRM repetitive peak reverse currentδ=0.001; t p =2µs -0.2A I RSM non-repetitive peak reverse current t p =100µs-0.2A T stg storage temperature -40150°C T j junction temperature-150°C V ESDelectrostatic discharge voltageHBM; C = 250 pF; R = 1.5 k Ω; all pins -8kV5.Thermal characteristics6.CharacteristicsTable 5.Thermal characteristics Symbol ParameterConditionsMin Typ Max Unit R th(j-mb)thermal resistance from junction to mounting base with heatsink compound; both diodes conducting -- 1.6K/W with heatsink compound; per diode; seeFigure 3-- 2.4K/W R th(j-a)thermal resistance from junction to ambientminimum footprint FR4 board -50-K/WTable 6.Characteristics Symbol Parameter ConditionsMin Typ Max Unit Static characteristicsV F forward voltage I F =8A; T j =150°C; see Figure 4-0.720.85V I F =20A; T j =25°C -1 1.15V I Rreverse currentV R =200V; T j =25°C -630µA V R =200V; T j =100°C-0.20.6mADynamic characteristics Q r recovered charge I F =2A; V R =30V;dI F /dt =20A/µs -812.5nC t rrreverse recovery timeI F =1A; V R =30V;dI F /dt =100A/µs; ramp recovery; T j =25°C; see Figure 5-2025ns I F =0.5A; I R =1A; measured at reverse current = 0.25 A; step recovery; T j =25°C; see Figure 6-1020nsV FRforward recovery voltageI F =1A; dI F /dt =10A/µs; see Figure 7--1V7.Package outlinePlastic single-ended surface-mounted package (D2PAK); 3 leads (one lead cropped)SOT404Fig 8.Package outline SOT404 (D2PAK)8.Revision historyTable 7.Revision historyDocument ID Release date Data sheet status Change notice SupersedesBYV32EB-200_420090302Product data sheet-BYV32E_SERIES_3 Modifications:•The format of this data sheet has been redesigned to comply with the new identityguidelines of NXP Semiconductors.•Legal texts have been adapted to the new company name where appropriate.•Package outline updated.•Type number BYV32EB-200 separated from data sheet BYV32E_SERIES_3BYV32E_SERIES_320010301Product specification-BYV32E_SERIES_2 BYV32E_SERIES_219980701Product specification-BYV32EB_SERIES_1 BYV32EB_SERIES_119960801Product specification--9.Legal information9.1Data sheet status[1]Please consult the most recently issued document before initiating or completing a design.[2]The term 'short data sheet' is explained in section "Definitions".[3]The product status of device(s) described in this document may have changed since this document was published and may differ in case of multiple devices. The latest product status information is available on the Internet at URL .9.2DefinitionsDraft — The document is a draft version only. The content is still under internal review and subject to formal approval, which may result in modifications or additions. NXP Semiconductors does not give any representations or warranties as to the accuracy or completeness ofinformation included herein and shall have no liability for the consequences of use of such information.Short data sheet — A short data sheet is an extract from a full data sheet with the same product type number(s) and title. A short data sheet is intended for quick reference only and should not be relied upon to contain detailed and full information. For detailed and full information see the relevant full data sheet, which is available on request via the local NXP Semiconductors sales office. In case of any inconsistency or conflict with the short data sheet, the full data sheet shall prevail.9.3DisclaimersGeneral — Information in this document is believed to be accurate andreliable. However, NXP Semiconductors does not give any representations or warranties, expressed or implied, as to the accuracy or completeness of such information and shall have no liability for the consequences of use of such information.Right to make changes — NXP Semiconductors reserves the right to make changes to information published in this document, including withoutlimitation specifications and product descriptions, at any time and without notice. This document supersedes and replaces all information supplied prior to the publication hereof.Suitability for use — NXP Semiconductors products are not designed, authorized or warranted to be suitable for use in medical, military, aircraft, space or life support equipment, nor in applications where failure ormalfunction of an NXP Semiconductors product can reasonably be expected to result in personal injury, death or severe property or environmentaldamage. NXP Semiconductors accepts no liability for inclusion and/or use of NXP Semiconductors products in such equipment or applications and therefore such inclusion and/or use is at the customer’s own risk.Applications — Applications that are described herein for any of these products are for illustrative purposes only. NXP Semiconductors makes no representation or warranty that such applications will be suitable for the specified use without further testing or modification.Quick reference data — The Quick reference data is an extract of theproduct data given in the Limiting values and Characteristics sections of this document, and as such is not complete, exhaustive or legally binding. Limiting values — Stress above one or more limiting values (as defined in the Absolute Maximum Ratings System of IEC 60134) may cause permanent damage to the device. Limiting values are stress ratings only and operation of the device at these or any other conditions above those given in theCharacteristics sections of this document is not implied. Exposure to limiting values for extended periods may affect device reliability.Terms and conditions of sale — NXP Semiconductors products are sold subject to the general terms and conditions of commercial sale, as published at /profile/terms , including those pertaining to warranty, intellectual property rights infringement and limitation of liability, unlessexplicitly otherwise agreed to in writing by NXP Semiconductors. In case of any inconsistency or conflict between information in this document and such terms and conditions, the latter will prevail.No offer to sell or license — Nothing in this document may be interpreted or construed as an offer to sell products that is open for acceptance or the grant, conveyance or implication of any license under any copyrights, patents or other industrial or intellectual property rights.9.4TrademarksNotice: All referenced brands, product names, service names and trademarks are the property of their respective owners.10.Contact informationFor more information, please visit: For sales office addresses, please send an email to: salesaddresses@Document status [1][2]Product status [3]DefinitionObjective [short] data sheet Development This document contains data from the objective specification for product development.Preliminary [short] data sheet Qualification This document contains data from the preliminary specification.Product [short] data sheetProductionThis document contains the product specification.11.Contents1Product profile. . . . . . . . . . . . . . . . . . . . . . . . . . .11.1General description . . . . . . . . . . . . . . . . . . . . . .11.2Features and benefits. . . . . . . . . . . . . . . . . . . . .11.3Applications . . . . . . . . . . . . . . . . . . . . . . . . . . . .11.4Quick reference data . . . . . . . . . . . . . . . . . . . . .12Pinning information. . . . . . . . . . . . . . . . . . . . . . .23Ordering information. . . . . . . . . . . . . . . . . . . . . .24Limiting values. . . . . . . . . . . . . . . . . . . . . . . . . . .35Thermal characteristics . . . . . . . . . . . . . . . . . . .46Characteristics. . . . . . . . . . . . . . . . . . . . . . . . . . .47Package outline. . . . . . . . . . . . . . . . . . . . . . . . . .68Revision history. . . . . . . . . . . . . . . . . . . . . . . . . .79Legal information. . . . . . . . . . . . . . . . . . . . . . . . .89.1Data sheet status . . . . . . . . . . . . . . . . . . . . . . . .89.2Definitions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .89.3Disclaimers. . . . . . . . . . . . . . . . . . . . . . . . . . . . .89.4Trademarks. . . . . . . . . . . . . . . . . . . . . . . . . . . . .810Contact information. . . . . . . . . . . . . . . . . . . . . . .8Please be aware that important notices concerning this document and the product(s)described herein, have been included in section ‘Legal information’.© NXP B.V.2009.All rights reserved.For more information, please visit: For sales office addresses, please send an email to: salesaddresses@分销商库存信息: NXPBYV32EB-200,118。

DS-CPC1831-R021e 3Pb* Direct sunlight (Approximately 6000 lux)ApplicationsFeaturesDescriptionOrdering InformationPin Configuration• Portable Electronics • Solar Battery Chargers • Battery Operated Equipment • Consumer Electronics • Off-Grid Installation• Wireless Sensors and Detection • Flame Detection• Self Powered Sunlight/ Light Detection • Self Powered Products • Remote Installation• 8V Output• T riggers with Natural Sunlight • P rovides T rue Wireless P ower • No EMI/RFI Generation • Wave Solderable• Replacement of Discrete Components • Solid State Reliability• Small 8-Pin Surface Mount SOIC packageThe CPC1831 is a monolithic photovoltaic string of solar cells with switching circuitry. When operating in sunlight or a bright artificial light environment the optical energy will activate the cell array and generate a voltage at the output. The solar cells are capable of generating a floating source voltage and current sufficient to drive and power CMOS ICs, logic gates and/or provide “trickle charge” for battery applications.V-V+/2R02Absolute Maximum Ratings are stress ratings. Stresses in excess of these ratings can cause permanent damage to the device. Functional operation of the device at conditions beyond those indicated in the operational sections of this data sheet is not implied.Absolute Maximum RatingsPERFORMANCE DATA**The Performance data shown in the graphs above is typical of device performance. For guaranteed parameters not indicated in the written specifi cations, please contact our application department.4.03.53.02.52.01.51.00.5002468Light Intensity (lux X 1000)N o r m a l i z e d O u t p u t V o l t a g e10Normalized Open Circuit Output Voltagevs. Light Intensity2.502.252.001.751.501.251.000.750.500.250.002468Light Intensity (lux X 1000)N o r m a l i z e d O u t p u t C u r r e n t10Normalized Short Circuit Output Currentvs. Light Intensity1.21.00.80.60.40.20.020406080Incident Angle (Degrees)N o r m a l i z e d O u t p u t V o l t a g e100Normalized Open Circuit Output Voltagevs. Incident Angle of light to Photodiode Surface1.21.00.80.60.40.20.020406080Incident Angle (Degrees)N o r m a l i z e d O u t p u t C u r r e n t100Normalized Short Circuit Output Currentvs. Incident Angle of Light to Photodiode Surface/Clare, Inc. makes no representations or warranties with respect to the accuracy or completeness of the contents of this publication and reserves the right to make changes to specifications and product descriptions at any time without notice. Neither circuit patent licenses nor indemnity are expressed or implied. Except as set forth in Clare’s Standard T erms and Conditions of Sale, Clare, Inc. assumes no liability whatsoever, and disclaims any express or implied warranty, relating to its products including, but not limited to, the implied warranty of merchantability, fitness for a particular purpose, or infringement of any intellectual property right.The products described in this document are not designed, intended, authorized or warranted for use as components in systems intended for surgical implant into the body, or in other applications intended to support or sustain life, or where malfunction of Clare’s product may result in direct physical harm, injury, or death to a person or severe property or environmental damage. Clare, Inc. reserves the right to discontinue or make changes to its products at any time without notice.Specification: DS-CPC1831-R02©Copyright 2009, Clare, Inc.All rights reserved. Printed in USA.2/12/09For additional information please visit our website at: 3MECHANICAL DIMENSIONSManufacturing Information8-Pin SOIC PackageRecommended PCB Land PatternDimensionsmm (inches)0.10 - 0.251.55e 3PbTape and Reel Packaging for 8-Pin SOIC-N Surface Mount PackageTape(0.315±0.004)±0.300.012)0(0.256±0.004)NOTE: Tape dimensions not shown comply with JEDEC Standard EIA-481-2±0.10±0.004)Dimensionsmm (inches)Moisture SensitivityClare has characterized the moisture reflow sensitivity of this package, and has determined that this component must be handled in accordance with IPC/JEDEC standard J-STD-033 moisture sensitivity level (MSL), level 3 classification.Soldering Reflow ProfileFor proper assembly, the component must be processed in accordance with the current revision of IPC/JEDEC standard J-STD-020. Failure to follow the recommended guidelines may causepermanent damage to the device resulting in impaired performance and/or a reduced lifetime expectancy.WashingClare does not recommend ultrasonic cleaning or the use of chlorinated solvents./分销商库存信息: IXYSCPC1831N。

REVISION: ECR/ECN INFORMATION: TITLE:NSCC 1,5mm, UCC2 2,8mm and hybrid UNSEALED INLINE CONNECTORSSHEET No.CEC No: G2012-0208 1 of 30NSCC 1.5, UCC 2.8 AND HYBRIDUNSEALED INLINE CONNECTORS from 2 to 6cktREVISION: ECR/ECN INFORMATION: TITLE:NSCC 1,5mm, UCC2 2,8mm and hybridUNSEALED INLINE CONNECTORSSHEET No.CEC No: G2012-0208 2 of 30RevisionMODIFICATIONSHEET Date APreliminary issue for customerAll 2010-09 B Global update (new MOLEX standards: Presentation, Terminal crimping, Recommendations to harness maker plant, Recommendations for final assembly plant, Connector loading, Electrical continuity checking, Storage conditions ) All 2012-03-22 C Typo correction (§1.3) 10 ; 12 ; 13 2012-05-29REVISION: ECR/ECN INFORMATION: TITLE:NSCC 1,5mm, UCC2 2,8mm and hybridUNSEALED INLINE CONNECTORSSHEET No.CEC No: G2012-0208 3 of 30SUMMARY1.PRESENTATION .................................................................................................................................... 4 1.1. PRODUCT INTRODUCTION .......................................................................................................... 4 1.2. AVAILABLE DOCUMENTS ............................................................................................................ 8 1.3. PART NUMBERS ......................................................................................................................... 10 1.4. COMPONENTS ............................................................................................................................ 14 1.5. RECEPTACLE HOUSING RANGE .............................................................................................. 14 1.6. PIN CONNECTORS RANGE ........................................................................................................ 15 1.7. CONNECTOR PERFORMANCES ............................................................................................... 16 2. CONNECTORS ASSEMBLY PROCESS ............................................................................................. 17 2.1. RECOMMENDATION IN HARNESS MAKER PLANT .................................................................. 17 2.2. RECRECEPTACLE HOUSING ASSEMBLY ................................................................................ 17 2.3. PIN CONNECTORS ASSEMBLY ................................................................................................. 19 2.4. WIRING CONTROL FIXTURES ................................................................................................... 20 2.5. RECOMMENDATION FOR FINAL ASSEMBLY PLANT .............................................................. 21 2.6. SECONDARY LOCKING .............................................................................................................. 22 3. ELECTRICAL TEST - ELECTRICAL CONTINUITY CHECKING ......................................................... 24 4. REWORK OPERATIONS. .................................................................................................................... 25 4.1. RECEPTACLE HOUSING REWORK ........................................................................................... 25 4.2. PIN CONNECTORS REWORK .................................................................................................... 26 5. ASSEMBLY OPERATIONS ON VEHICLE ........................................................................................... 27 5.1. RECEPTACLE/PIN CONNECTOR MATING ................................................................................ 27 5.2. UNMATING OF ASSEMBLED CONNECTOR FROM THE MALE CONNECTOR OR HEADER 28 5.3. FIXING ON VEHICLE BODY ........................................................................................................ 28 6. PACKAGING ........................................................................................................................................ 30 7. STORAGE CONDITIONS (30)REVISION: ECR/ECN INFORMATION: TITLE:NSCC 1,5mm, UCC2 2,8mm and hybridUNSEALED INLINE CONNECTORSSHEET No.CEC No: G2012-0208 4 of 301. PRESENTATION1.1. PRODUCT INTRODUCTIONTYPE HSG P/N MOLEX PITCH 2ckt 1.5 Female 98817-102X 3.33mm Male 98822-102X 3.33mm 2ckt 2.8 Female 98819-102X 5.00mm Male 98824-102X 5.00mm 3ckt 1.5 Female 98817-103X 3.33mm Male 98822-103X 3.33mm 4ckt 1.5 Female 98817-104X 3.33mm Male 98822-104X 3.33mmHybrid 3ckt Female 98821-103X 4.20mm / 5.00mmHybrid 6cktFemale 98821-106X 3.33mm / 4.20mm / 5.00mm Male 98825-106X 3.33mm / 4.20mm / 5.00mmUse with: Molex female terminals NSCC (1.5 mm) and UCC2 (2.8 mm) Crimping wire ∅ 0.35 to 4 mm²FCI male terminals tin plated SICMA 3* of 1.5 x 0.8 mm and SICMA 3* of 2.8 x 0.8 mm Operating temperature range: -40°C to 85°C Vibrations: class1 Flammability: HB classREVISION: ECR/ECN INFORMATION: TITLE:NSCC 1,5mm, UCC2 2,8mm and hybrid UNSEALED INLINE CONNECTORSSHEET No.CEC No: G2012-0208 5 of 30Overview of 2ckt Female Connector interfaces in Standard Version using NSCC(1.5mm)Overview of 2ckt Female Connector interfaces in Standard Version using UCC2(2.8mm)Connector 2ckt1.5 mm NSCC (pcs) 2 Existing colors codings Blk, Gry, Whe, Grn Product Serie Yes Connector interfaceConnector 2ckt2.8 mm UCC2 (pcs) 2Existing colors codings Blk, Whe, Grn Product Serie YesConnector interfaceREVISION: ECR/ECN INFORMATION: TITLE:NSCC 1,5mm, UCC2 2,8mm and hybrid UNSEALED INLINE CONNECTORSSHEET No.CEC No: G2012-0208 6 of 30Overview of 3ckt Female Connector interfaces in Standard Version using NSCC(1.5mm)Overview of 4ckt Female Connector interfaces in Standard Version using NSCC(1.5mm)Connector 3ckt1.5 mm NSCC (pcs) 3 Existing colors codings Blk, Whe, Grn Product Serie YesConnector interfaceConnector 4ckt1.5 mm NSCC (pcs) 4 Existing colors codings Blk, Gry, Whe, Grn Product Serie YesConnector interfaceREVISION: ECR/ECN INFORMATION: TITLE:NSCC 1,5mm, UCC2 2,8mm and hybrid UNSEALED INLINE CONNECTORSSHEET No.CEC No: G2012-0208 7 of 30Overview of 3ckt Female Hybrid Connector interfaces in Standard Version usingNSCC (1.5mm) and UCC2 (2.8mm)Overview of 6ckt Female Hybrid Connector interfaces in Standard Version usingNSCC (1.5mm) and UCC2 (2.8mm)Connector Hybrid 3ckt1.5 mm NSCC (pcs) 12.8 mm UCC2 (pcs) 2 Existing colors codings Blk, Brn, Grn, WheProduct Serie YesConnector interfaceConnector Hybrid 6ckt1.5 mm NSCC (pcs) 42.8 mm UCC2 (pcs) 2 Existing colors codings Blk, Grn, Gry, WheProduct Serie YesConnector interfaceREVISION: ECR/ECN INFORMATION: TITLE:NSCC 1,5mm, UCC2 2,8mm and hybrid UNSEALED INLINE CONNECTORSSHEET No.CEC No: G2012-0208 8 of 301.2. AVAILABLE DOCUMENTSOperating conditionsProduct specifications PS-98821-001Mate with headers or connector in accordance with:CONNECTOR Female housing: Mates with:2ckt 1.5 98817-102X 98822-102X or headerper interface drawingSD-98815-0022ckt 2.8 98819-102X98824-102X or header per interface drawingSD-98818-002 3ckt 1.5 98817-103X98822-103X or header per interface drawingSD-98815-003 4ckt 1.5 98817-104X 98822-104X or header per interface drawingSD-98815-004 Hybrid 3ckt 98821-103X Header per interface drawing SD-98820-001 Hybrid 6ckt 98821-106X98825-106X or header per interface drawingSD-98820-002REVISION: ECR/ECN INFORMATION: TITLE:NSCC 1,5mm, UCC2 2,8mm and hybrid UNSEALED INLINE CONNECTORSSHEET No.CEC No: G2012-0208 9 of 30Connector drawingsTYPE HSG P/N MOLEX SD DRAWING 2ckt 1.5 Female 98817-102X SD-98817-001 Male 98822-102X SD-98822-004 2ckt 2.8 Female 98819-102X SD-98819-001 Male 98824-102X SD-98824-002 3ckt 1.5 Female 98817-103X SD-98817-002 Male 98822-103X SD-98822-003 4ckt 1.5 Female 98817-104X SD-98817-003 Male 98822-104X SD-98822-005 Hybrid 3ckt Female 98821-103X SD-98821-001 Hybrid 6cktFemale 98821-106X SD-98821-002 Male 98825-106X SD-98825-002PackagingTYPE HSG P/N MOLEX PACKAGING SPECIFICATION2ckt 1.5 Female 98817-102X PK-31301-635Male 98822-102X 3ckt 1.5 Female 98817-103X Male 98822-103X 4ckt 1.5 Female 98817-104X Male 98822-104X 2ckt 2.8 Female 98819-102X PK-31301-635 Male 98824-102X PK-98824-001 Hybrid 3ckt Female 98821-103X PK-31301-635 Hybrid 6cktFemale 98821-106X PK-31301-635 Male 98825-106XPK-98825-001Female Terminal drawingsNSCC for 0.8 x 1.5 terminal SD-98897-050 UCC2 for 0.8 x 2.8 terminalSD-98898-100Crimp specificationNSCC AS-98897-001 UCC2AS-98898-001All drawings and prints can be found at REVISION: ECR/ECN INFORMATION: TITLE:NSCC 1,5mm, UCC2 2,8mm and hybrid UNSEALED INLINE CONNECTORSSHEET No.CEC No: G2012-0208 10 of 301.3. PART NUMBERSDESCRIPTION MOLEX P/N COLOR / PLATINGFemale connector 2ckt 1.5098817-1020 098817-1021 098817-1025 098817-1028 White Black Green GreyMale connector 2ckt 1.5098822-1020 098822-1021 098822-1025 098822-1028White Black Green GreyFemale terminal NSCC 1.5mm098897-1109 098897-1119 098897-1129TinMale terminal SICMA3*1.5 x 0.8 mmContact FCI/DESCRIPTIONMOLEX P/NCOLOR / PLATINGFemale connector 2ckt 2.8098819-1020 098819-1021 098819-1025 White Black GreenMale connector 2ckt 2.8098824-1020 098824-1021 098824-1025White Black GreenFemale terminal UCC2 2.8mm098898-1029 098898-1039 098898-1049TinMale terminal SICMA3*2.8 x 0.8 mmContact FCI/To order please contact your Molex Sales Representative or check 分销商库存信息:MOLEX098819102109881710210988211061 098822102809882410210988221021。

UCC28070-Q1SLUSA71A –JULY 2010–REVISED JUNE 2011INTERLEAVING CONTINUOUS CONDUCTION MODE PFC CONTROLLERCheck for Samples:UCC28070-Q1FEATURESDESCRIPTION•Qualified for Automotive Applications The UCC28070is an advanced power factor •Interleaved Average Current-Mode PWM correction device that integrates two pulse-width Control with Inherent Current Matching modulators (PWMs)operating 180°out of phase.•Advanced Current Synthesizer Current This interleaved PWM operation generates Sensing for Superior Efficiencysubstantial reduction in the input and output ripple •Highly-Linear Multiplier Output with Internal currents,and the conducted-EMI filtering becomes Quantized Voltage Feed-Forward Correction easier and less expensive.A significantly improved for Near-Unity PFmultiplier design provides a shared current reference •Programmable Frequency (30kHz to 300kHz)to two independent current amplifiers that ensures matched average current mode control in both PWM •Programmable Maximum Duty-Cycle Clamp outputs while maintaining a stable,low-distortion •Programmable Frequency Dithering Rate and sinusoidal input line current.Magnitude for Enhanced EMI Reduction The UCC28070contains multiple innovations –Magnitude:3kHz to 30kHz including current synthesis and quantized voltage –Rate:Up to 30kHzfeed-forward to promote performance enhancements •External Clock Synchronization Capability in PF,efficiency,THD,and transient response.•Enhanced Load and Line Transient Response Features including frequency dithering,clock through Voltage Amplifier Output Slew-Rate synchronization,and slew rate enhancement further Correctionexpand the potential performance enhancements.•Programmable Peak Current LimitingThe UCC28070also contains a variety of protection •Bias-Supply UVLO,Over-Voltage Protection,features including output over-voltage detection,Open-Loop Detection,and PFC-Enable programmable peak-current limit,under-voltage Monitoringlockout,and open-loop protection.•External PFC-Disable Interface•Open-Circuit Protection on VSENSE and VINAC pins•Programmable Soft Start •20-Lead TSSOP PackageSimplified Application DiagramPlease be aware that an important notice concerning availability,standard warranty,and use in critical applications of Texas Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.UCC28070-Q1SLUSA71A–JULY2010–REVISED ORDERING INFORMATIONT A PACKAGE ORDERABLE PART NUMBER TOP-SIDE MARKING –40°C to125°C TSSOP–PW Reel of2000UCC28070QPWRQ128070QABSOLUTE MAXIMUM RATINGS(1)(2)(3)(4)over operating free-air temperature range(unless otherwise noted)PARAMETER LIMIT UNIT Supply voltage:VCC22V Supply current:I VCC20mA Voltage:GDA,GDB−0.5to VCC+0.3VGate drive current–continuous:GDA,GDB+/−0.25AGate drive current–pulsed:GDA,GDB+/−0.75A Voltage:DMAX,RDM,RT,CDR,VINAC,VSENSE,SS,VAO,IMO,CSA,CSB,−0.5to+7V CAOA,CAOB,PKLMT,VREFCurrent:RT,DMAX,RDM,RSYNTH−0.5mA Current:VREF,VAO,CAOA,CAOB,IMO10mA Operating junction temperature,T J−40to+140°C Storage temperature,T STG−65to+150°CLead temperature(10seconds)260(1)These are stress limits.Stress beyond these limits may cause permanent damage to the device.Functional operation of the device atthese or any conditions beyond those indicated under RECOMMENDED OPERATING CONDITIONS is not implied.Exposure to absolute maximum rated conditions for extended periods of time may affect device reliability.(2)All voltages are with respect to GND.(3)All currents are positive into the terminal,negative out of the terminal.(4)In normal use,terminals GDA and GDB are connected to an external gate driver and are internally limited in output current. DISSIPATION RATINGSTHERMALIMPEDANCE T A=25°C POWER T A=125°C POWER PACKAGE T A=85°C POWER RATINGJUNCTION-TO-RATING RATINGAMBIENT20-Pin TSSOP(PW)125°C/W(1)and(2)800mW(1)320mW(1)120mW(1)(1)Thermal resistance is a strong function of board construction and layout.Air flow reduces thermal resistance.This number is only ageneral guide.(2)Thermal resistance calculated with a low-K methodology.RECOMMENDED OPERATING CONDITIONSover operating free-air temperature range(unless otherwise noted)PARAMETER MIN MAX UNITVCC Input Voltage(from a low-impedance source)V UVLO+1V21VVREF Load Current2mA VINAC Input Voltage Range03IMO Voltage Range0 3.3V PKLMT,CSA,CSB Voltage Range0 3.6RSYNTH Resistance(R SYN)15750kΩRDM Resistance(R RDM)30330UCC28070-Q1 SLUSA71A–JULY2010–REVISED JUNE2011ELECTRICAL CHARACTERISTICSover operating free-air temperature range−40°C<T A<125°C,VCC=12V,GND=0V,R RT=75kΩ,R DMX=68.1kΩ,R RDM=R SYN=100kΩ,C CDR=2.2nF,C SS=C VREF=0.1µF,C VCC=1µF,I VREF=0mA(unless otherwise noted)SYMBOL PARAMETER TEST CONDITIONS MIN TYP MAX UNIT Bias SupplyVCC SHUNT VCC shunt voltage(1)I VCC=10mA232527V VCC current,disabled VSENSE=0V7mA VCC current,enabled VSENSE=3V(switching)912VCC=7V200µA VCC current,UVLOVCC=9V46mAV UVLO UVLO turn-on threshold Measured at VCC(rising)9.810.210.6 UVLO hysteresis Measured at VCC(falling)1VVREF enable threshold Measured at VCC(rising)7.588.5Linear RegulatorVREF voltage,no load I VREF=0mA 5.826 6.18VMeasured as the change in VREF,VREF load rejection-1212(I VREF=0mA and−2mA)mVMeasured as the change in VREF,T A=25°C-1212 VREF line rejection(VCC=11V and20V,I VREF=0T A=-40°C to125°C-1616µA)PFC EnableV EN Enable threshold Measured at VSENSE(rising)0.650.750.85V Enable hysteresis0.15External PFC DisableDisable threshold Measured at SS(falling)0.50.6V Hysteresis VSENSE>0.85V0.15OscillatorOutput phase shift Measured between GDA and GDB179180181°V DMAX,V RT,and Timing regulation voltages Measured at DMAX,RT,&RDM 2.913 3.09VV RDMR RT=75kΩ,R DMX=68.1kΩ,94100105V RDM=0V,V CDR=6Vf PWM PWM switching frequency kHzR RT=24.9kΩ,R DMX=22.6kΩ,270290330V RDM=0V,V CDR=6VR RT=75kΩ,R DMX=68.1kΩ,D MAX Duty-cycle clamp92%95%98%V RDM=0V,V CDR=6VMinimum programmable R RT=24.9kΩ,R DMX=22.6kΩ,50150250ns off-time V RDM=0V,V CDR=6VR RDM=316kΩ,R RT=75kΩ13 4.3 Frequency dithering magnitudef DMchange in f PWM RRDM =31.6kΩ,R RT=24.9kΩ233036kHzC CDR=2.2nF,R RDM=100kΩ3Frequency dithering rate rate off DRchange in f PWM CCDR=0.3nF,R RDM=100kΩ20 Dither rate current Measure at CDR(sink and source)±10µA I CDRDither disable threshold Measured at C CDR(rising)5 5.25V (1)Excessive VCC input voltage and/or current damages the device.This clamp will not protect the device from an unregulated supply.Ifan unregulated supply is used,a series-connected fixed positive voltage regulator such as a UA78L15A is recommended.See the Absolute Maximum Ratings section for the limits on VCC voltage and current.UCC28070-Q1SLUSA71A–JULY2010–REVISED ELECTRICAL CHARACTERISTICS(continued)over operating free-air temperature range−40°C<T A<125°C,VCC=12V,GND=0V,R RT=75kΩ,R DMX=68.1kΩ,R RDM=R SYN=100kΩ,C CDR=2.2nF,C SS=C VREF=0.1µF,C VCC=1µF,I VREF=0mA(unless otherwise noted)SYMBOL PARAMETER TEST CONDITIONS MIN TYP MAX UNIT Clock SynchronizationV CDR SYNC enable threshold Measured at CDR(rising)5 5.25V SYNC propagation delay V CDR=6V,Measured from RDM(rising)to GDx(rising)50100nsSYNC threshold(Rising)V CDR=6V,Measured at RDM 1.2 1.5V SYNC threshold(Falling)V CDR=6V,Measured at RDM0.40.7Positive pulse width0.2μs SYNC pulsesMaximum duty cycle(2)50% Voltage AmplifierVSENSE voltage In regulation,T A=25°C 2.943 3.06V VSENSE voltage In regulation 2.843 3.10VSENSE input bias current In regulation250500nAVAO high voltage VSENSE=2.9V 4.85 5.2V VAO low voltage VSENSE=3.1V0.050.50g MV VAO transconductance 2.8V<VSENSE<3.2V,VAO=3V70μsVAO sink current,overdrivenVSENSE=3.5V,VAO=3V30 limitVAO source current,overdriven VSENSE=2.5V,VAO=3V,SS=3V−30μAVAO source current,VSENSE=2.5V,VAO=3V−130 overdriven limit+I SRCSlew-rate correction threshold Measured as VSENSE(falling)/VSENSE(regulation)929395%Slew-rate correction hysteresis Measured at VSENSE(rising)39mVI SRC Slew-rate correction current Measured at VAO,in addition to VAO source current.−100μASlew-rate correction enableMeasured at SS(rising)4V thresholdVAO discharge current VSENSE=0.5V,VAO=1V10μA Soft StartI SS SS source current VSENSE=0.9V,SS=1V−10μAAdaptive source current VSENSE=2.0V,SS=1V−1.5-2.5mAAdaptive SS disable Measured as VSENSE–SS-30030mVSS sink current VSENSE=0.5V,SS=0.2V0.50.9mA (2)Due to the influence of the synchronization pulse width on the programmability of the maximum PWM switching duty cycle(D MAX)it isrecommended to minimize the synchronization signal's duty cycle.UCC28070-Q1 SLUSA71A–JULY2010–REVISED JUNE2011ELECTRICAL CHARACTERISTICS(continued)over operating free-air temperature range−40°C<T A<125°C,VCC=12V,GND=0V,R RT=75kΩ,R DMX=68.1kΩ,R RDM=R SYN=100kΩ,C CDR=2.2nF,C SS=C VREF=0.1µF,C VCC=1µF,I VREF=0mA(unless otherwise noted)SYMBOL PARAMETER TEST CONDITIONS MIN TYP MAX UNIT Over VoltageV OVP OVP threshold Measured as VSENSE(rising)/VSENSE(regulation)104106108% OVP hysteresis Measured at VSENSE(falling)100mVOVP propagation delay Measured between VSENSE(rising)and GDx(falling)0.20.3μs Zero-PowerV ZPWR Zero-power detect threshold Measured at VAO(falling)0.650.75V Zero-power hysteresis0.15MultiplierVAO≥1.5V,T A=25°C15.41720VAO=1.2V,T A=25°C13.517.020.5k MULT Gain constantVAO≥1.5V141722μAVAO=1.2V121722.5VINAC=0.9V PK,VAO=0.8V-0.200.2I IMO Output current:zeroVINAC=0V,VAO=5V-0.200.2 Quantized Voltage Feed ForwardV LVL1Level1threshold(3)0.60.70.8V LVL2Level2threshold1V LVL3Level3threshold 1.2V LVL4Level4threshold 1.4Measured at VINAC(rising)VV LVL5Level5threshold 1.65V LVL6Level6threshold 1.95V LVL7Level7threshold 2.25V LVL8Level8threshold 2.6Current AmplifiersCAOx high voltage 5.756V CAOx low voltage0.1g MC CAOx transconductance100μsCAOx sink current,overdriven50μA CAOx source current,−50 overdrivenInput common mode range0 3.6VRSYNTH=6V,T A=25°C-16-80 Input offset Voltage mVRSYNTH=6V-50-840 Input offset voltage-50−840T A=25°C-12012mVMeasured as Phase A's inputPhase mismatchoffset minus Phase B's input offset T=-40°C to125°C-2014ACAOx pulldown current VSENSE=0.5V,CAOx=0.2V0.50.9mA (3)The Level1threshold represents the"zero-crossing detection"threshold above which VINAC must rise to initiate a new input half-cycle,and below which VINAC must fall to terminate that half-cycle.UCC28070-Q1SLUSA71A–JULY2010–REVISED ELECTRICAL CHARACTERISTICS(continued)over operating free-air temperature range−40°C<T A<125°C,VCC=12V,GND=0V,R RT=75kΩ,R DMX=68.1kΩ,R RDM=R SYN=100kΩ,C CDR=2.2nF,C SS=C VREF=0.1µF,C VCC=1µF,I VREF=0mA(unless otherwise noted)SYMBOL PARAMETER TEST CONDITIONS MIN TYP MAX UNIT Current SynthesizerVSENSE=3V,VINAC=0V 2.913 3.09V RSYNTH Regulation voltageVSENSE=3V,VINAC=2.85V0.100.150.20V Synthesizer disable threshold Measured at RSYNTH(rising)5 5.25VINAC input bias current0.2500.500μA Peak Current LimitPeak current limit threshold PKLMT=3.30V,measured at CSx(rising) 3.27 3.3 3.33VPeak current limit propagationMeasured between CSx(rising)and GDx(falling)edges60100ns delayPWM RampV RMP PWM ramp amplitude 3.8 4.0 4.2V PWM ramp offset voltage T A=25°C,R RT=75kΩ0.550.7PWM ramp offset temperature−2mV/°C coefficientGate DriveGDA,GDB output voltage,VCC=20V,C LOAD=1nF11.51315 high,clampedV GDA,GDB output voltage,High C LOAD=1nF1010.5GDA,GDB output voltage,Low C LOAD=1nF0.20.3Rise time GDx1V to9V,C LOAD=1nF1830ns Fall time GDx9V to1V,C LOAD=1nF1225GDA,GDB output voltage,VCC=0V,I GDA,I GDB=2.5mA0.72V UVLOThermal ShutdownThermal shutdown threshold160°C Thermal shutdown recovery140PW PACKAGE (TOP VIEW)1234567891011121314151617181920CDR RDM VAO VSENSE VINAC IMO RSYNTHCSB CSA PKLMT DMAX RT SS GDB GND VCC GDA VREF CAOA CAOBUCC28070-Q1SLUSA71A –JULY 2010–REVISED JUNE 2011DEVICE INFORMATIONTERMINAL FUNCTIONSNAME PIN #I/O DESCRIPTIONDither Rate Capacitor .Frequency-dithering timing pin.An external capacitor to GND programs CDR1Ithe rate of oscillator dither.Connect the CDR pin to the VREF pin to disable dithering.Dither Magnitude Resistor .Frequency-dithering magnitude and external synchronization pin.An external resistor to GND programs the magnitude of oscillator frequency dither.When frequency RDM 2Idithering is disabled (CDR >5V),the internal master clock will synchronize to positive edges(SYNC)presented on the RDM pin.Connect RDM to GND when dithering is disabled and synchronization is not desired.Voltage Amplifier Output .Output of transconductance voltage error amplifier.InternallyVAO 3Oconnected to Multiplier input and Zero-Power comparator.Connect the voltage regulation loop compensation components between this pin and GND.Output Voltage Sense .Internally connected to the inverting input of the transconductance voltage error amplifier in addition to the positive terminal of the Current Synthesis difference VSENSE 4Iamplifier.Also connected to the OVP,PFC Enable,and slew-rate comparators.Connect to PFC output with a resistor-divider network.Scaled AC Line Input Voltage .Internally connected to the Multiplier and negative terminal of the VINAC 5I Current Synthesis difference amplifier.Connect a resistor-divider network between V IN ,VINAC,and GND identical to the PFC output divider network connected at VSENSE.Multiplier Current Output .Connect a resistor between this pin and GND to set the multiplier IMO 6O gain.Current Synthesis Down-Slope Programming .Connect a resistor between this pin and GND to RSYNTH 7I set the magnitude of the current synthesizer down-slope.Connecting RSYNTH to VREF willdisable current synthesis and connect CSA and CSB directly to their respective current amplifiers.Phase B Current Sense Input .During the on-time of GDB,CSB is internally connected to the CSB 8I inverting input of Phase B 's current amplifier through the current synthesis stage.Phase A Current Sense Input .During the on-time of GDA,CSA is internally connected to the CSA 9I inverting input of Phase A 's current amplifier through the current synthesis stage.Peak Current Limit Programming .Connect a resistor-divider network between VREF and this PKLMT10Ipin to set the voltage threshold of the cycle-by-cycle peak current limiting comparators.Allows adjustment for desired ΔI LB .Phase B Current Amplifier Output .Output of phase B 's transconductance current amplifier.Internally connected to the inverting input of phase B 's PWM comparator for trailing-edgeCAOB 11Omodulation.Connect the current regulation loop compensation components between this pin and GND.Phase A Current Amplifier Output .Output of phase A 's transconductance current amplifier.Internally connected to the inverting input of phase A 's PWM comparator for trailing-edgeCAOA 12Omodulation.Connect the current regulation loop compensation components between this pin and GND.6-V Reference Voltage and Internal Bias Voltage .Connect a 0.1-μF ceramic bypass capacitor VREF 13O as close as possible to this pin and GND.Phase A 's Gate Drive .This limited-current output is intended to connect to a separate gate-drive GDA 14O device suitable for driving the Phase A switching component(s).The output voltage is typically clamped to 13.5V.Bias Voltage Input .Connect a 0.1-μF ceramic bypass capacitor as close as possible to this pin VCC15Iand GND.UCC28070-Q1SLUSA71A–JULY2010–REVISED TERMINAL FUNCTIONS(continued)NAME PIN#I/O DESCRIPTIONDevice Ground Reference.Connect all compensation and programming resistor and capacitor GND16I/O networks to this pin.Connect this pin to the system through a separate trace for high-currentnoise isolation.Phase B's Gate Drive.This limited-current output is intended to connect to a separate GDB17O gate-drivedevice suitable for driving the Phase B switching component(s).The output voltage istypically clamped to13.5V.Soft-Start and External Fault Interface.Connect a capacitor to GND on this pin to set thesoft-start slew rate based on an internally-fixed10-μA current source.The regulation referencevoltage for VSENSE is clamped to V SS until V SS exceeds3V.Upon recovery from certain fault SS18Iconditions a1-mA current source is present at the SS pin until the SS voltage equals theVSENSE voltage.Pulling the SS pin below0.6V immediately disables both GDA and GDBoutputs.Timing Resistor.Oscillator frequency programming pin.A resistor to GND sets the running RT19Ifrequency of the internal oscillator.Maximum Duty-Cycle Resistor.Maximum PWM duty-cycle programming pin.A resistor to GND DMAX20Isets the PWM maximum duty-cycle based on the ratio of R DMX/R RT.G DAG DB CA CA PKLM RSY N ))V SEN SEIN A CIM ODM A RDM /SY N C D R T V G N D V UCC28070-Q1SLUSA71A –JULY 2010–REVISED JUNE 2011Functional Block Diagram-60-40-206080120140T J - Temperature -0C212204010046810I V C C -S u p p l y C u r r e n t -m ASUPPLY CURRENTvsTEMPERATURE-60-1090140T J - Temperature -0C5.825.886.18405.946.006.066.12V R E F -R e f e r e n c e V o l t a g e -VREFERENCE VOLTAGEvsTEMPERATURE-60-1090140T J - Temperature -0C0.100.50400.150.250.350.40I V S E N S E -B i a s C u r r e n t -m AI VSENSE BIAS CURRENTvsTEMPERATURE0.050.200.300.45-60-20100140T J -Temperature -0C2.942.963.06402.983.003.023.04V S E N S E R e g u l a t i o n -VVSENSE REGULATIONvsTEMPERATURE-40206080120UCC28070-Q1SLUSA71A –JULY 2010–REVISED JUNE 2011TYPICAL CHARACTERISTICSFigure 1.Figure 2.Figure 3.Figure 4.分销商库存信息: TIUCC28070QPWRQ1。

ACPL-331J 1.5A电流输出的IGBT门极驱动光耦集成的（Vce）饱和度检测，欠压锁定，故障状态反馈和有源米勒钳位综述:ACPL - 331J是一种先进的1.5 A的输出电流，方便易用的智能化的门极驱动器使得IGBT的Vce的故障保护更加紧凑，价格合理，且易于实现功能，如集成的Vce检测，欠压锁定（UVLO），IGBT的“软”关断，隔离的集电极开路故障反馈和有源米勒钳位提供最大的设计灵活性和保护电路。

ACPL - 331J包含了一个GaAsP的LED。

通过该LED完成光电信号的耦合。

ACPL-331J非常适合用于驱动电机控制领域的功率IGBT和MOSFET。

这些光耦的电压、电流供给使其非常适用用于直接驱动1200V 100A以下的IGBT。

对于更高功率等级的IGBT，ACPL-331J通常被用来驱动由分离器件构成的IGBT门极驱动器。

ACPL-331J具备一个峰值为891V的绝缘电压。

结构框图：产品特点：z滞后的欠压封锁功能z饱和度侦测z米勒钳位z隔离的开路集电极故障反馈z IGBT软关断z IGBT下个开通周期的故障复位z提供SO - 16封装z安规认证详细说明：z 1.5A的最大输出峰值电流z 1.0A的最小输出峰值电流z温度范围内最大250nS的传输延时z100nS最大脉冲宽度失真z在V CM = 1500 V时，最小15 kV/µs的共模抑制能力z最大供电电流I CC(max) < 5 mAz温度范围内工作电压可达15V-30Vz1A的米勒钳位。

该脚不用时必须同VEE短接z宽的工作温度范围：–40°C to 100°C应用：z IGBT和功率MOSFET的驱动z交流和直流无刷电机驱动z变频器和UPS引脚功能介绍订货信息ACPL-331J 经过3750 Vrms 1分钟测试，符合UL1577标准。

备注 表面 符合IEC / EN产品编号 符合ROHS 标准 封装方式 安装 卷带装 DIN EN 60747-5-2 数量-000E SO-16 X X 45/管ACPL-331J -500E X X X 850/卷 订购时，从产品编号列表中选择产品编号，并结合其他所需的选项形成定单输入。

台灣中油股份有限公司CPC Corporation, Taiwan 版本：5.2頁次：1/1石油產品規範Specification of Petroleum Products燃料類規範︰Petroleum Fuels Products頁次發行日期天然氣(1)規範(請洽天然氣事業部網站)Specification for Nature Gas (1) 1- 1 97.04 天然氣(2)規範(請洽天然氣事業部網站)Specification for Nature Gas (2) 1- 2 97.04 丙烷及丁烷規範(請洽液化石油氣事業部網站)Specification for Commercial Propane and Butane 1- 3 93.09 液化石油氣規範(請洽液化石油氣事業部網站)Specification for Liquefied Petroleum Gas 1- 4 93.09 混合丙丁烷規範(請洽液化石油氣事業部網站)Specification for Industry Use Mixture of C3 & C4 1- 5 93.09 車用無鉛汽油規範Specification for Motor Unleaded Gasoline 1- 6 98.081- 7煤油規範Specification for Kerosine 1- 8 90.03 環保燈油規範Specification for Clean Lamp Oil 1- 9 90.03 航空燃油JP-4及JP-5規範Specification for Aviation Turbine Fuel JP-4 & JP-5 1-10 92.05 航空燃油JET A-1規範Specification for Aviation Turbine Fuel JET A-1 1-11 97.04 航空燃油JP-8規範Specification for Aviation Turbine Fuel JP-8 1-12 94.07 車用柴油規範Specification for Automotive Diesel Fuel 1-13 97.07 海運柴油規範Specification for Marine Diesel Fuel 1-14 97.09 漁船用燃料油規範Specification for Fishing Boat Fuel 1-15 97.09 船用燃油規範Specification for marine Residual Fuels 1-16 94.03 低硫鍋爐用油規範(0.5 & 1.0%)Specification for Low Sulfur Boiler Fuel Oil 1-17 94.08 特級燃料油規範Specification for Navy Special Fuel Oil 1-18 94.03 低硫燃料油規範(0.5 & 1.0%)Specification for Low Sulfur Fuel Oil (0.5 & 1.0%) 1-19 96.04Motor Unleaded Gasoline 9808 車用無鉛汽油規範SPECIFICATION FOR MOTOR UNLEADED GASOLINE （92UL、95UL、98UL、95E3）（註1）版別：3.5 頁次：1/2一、產品編號（Product No.）： 92無鉛汽油（92 Unleaded gasoline）：113-F1209295無鉛汽油（95 Unleaded gasoline）：113-F12095酒精汽油（95E3 Gasohol）：113-F1229598無鉛汽油（98 Unleaded gasoline）：113-F12098二、主要用途（For Use）：本規範適用於排氣閥座經硬化處理之點火式汽車引擎用燃料或已加裝廢氣觸媒轉化器之汽車引擎用燃料。

电子报合订本1998索引1998(上)目录1．卫星与广播电视发射、接收技术类数字压缩卫星信号接收介绍 (22)TX-480卫星接收通用机芯问答 (178)C波段150K数字高频头简介 (178)自制双极化馈源 (214)简易C、Ku兼容复合馈源的制作 (296)解数字压缩接收机的操作 (189)用小口径天线接收双星的试验 (214)夏普AS2C卫星机LNB电源故障 (123)百胜350卫星接收机电源故障检修 (142)GT -500型卫星接收机电源故障 (142)卫星电视接收机电源的代换 (214)中卫一号卫星技术参数 (288)关于卫星接收新技术答读者问 (142)卫星及卫视动态 (182)卫星及卫视节目动态 (232)亚太2R卫星简介 (298)数字压缩频道和接收机 (49)怎样接收国内外卫星数字压缩节目 (286)如何接收北京卫视 (111)一机兼收电视、广播 (154)DVB卫星节目最新收视指南(一)、(二)........................108、120 数字压缩卫星接收机(DVB)浅谈 (284)亚洲二号DVB节目的接收 (297)亚太二号R通信卫星投入营运 (41)“中卫-1号”卫星发射成功 (265)迎接中国直播卫星电视时代的来临 (296)家庭CATV终端扩容法(一)、(二)...........................152、164 闭路电视信号改路须知 (8)《有线电视安装工程定额》出台 (145)接收图文电视经验 (70)网络电视发展快(一)、(二)......190、203 无CATV地区多收节目的好方法 (306)邻频电视发射机在山区前景广阔 (49)MMDS发射台频率的测定法 (102)2．电视技术类松下M25C三无故障检修 (38)松下25V40RQ电源部分易损件代换 (2)松下画王彩电故障三例.....................50 松下三超画王主画面信号弱检修 (158)东芝C202D无彩色无字符检修 (2)东芝218×8S图像倒置故障检修 (218)东芝219R9C场线性不良检修 (302)东芝289X8M屡损场反馈电容检修 (14)东芝2518KTV故障检修实例 (14)东芝2550XP厚膜块的局部代换 (26)东芝2840XH、2540XP总线调整 (86)两种进口四端稳压块的代换 (302)东芝微处理器“433”与“434”的异同 (62)索尼R21Ml开关电源故障检修 (242)索尼F29MF1自保故障分析检修 (38)索尼K29MHl三无故障检修 (242)索尼K29MH11晶振漏电烧行管 (242)索尼大屏幕彩电检修六例 (242)索尼大屏幕防开机冲击电路的误解 (74)也谈索尼防开机冲击电路的分析 (194)索尼大屏幕彩电电源故障维修 (50)夏普29FN1开机指示灯闪烁的检修 (14)夏普2191无字符显示检修 (98)JVC - X53P加装图文电视板 (306)三洋80P机芯彩电屡烧行管检修 (38)三洋83P增设音、视频接口简法 (204)三星4C5401彩电自动关机检修 (158)三星大屏幕彩电总线控制系统调整 (2)三菱1823HD伴音故障检修 (26)NC -3开关电源自激振荡的解释 (278)长虹NC -3三无故障检修两例 (278)长虹2153出现蓝背景及静音的检修 (278)长虹C2169无彩色且行场失步检修 (266)长虹C2169F无字符显示检修 (290)长虹2188加装S端子的实验 (312)长虹C2192A彩电场幅压缩检修 (278)长虹2523水平亮线故障检修 (266)长虹C2588机CPU局部损坏修理 (290)长虹C2589型彩电通病检修 (74)巧修长虹机彩管阴极与地碰极 (278)长虹CJ47彩电亮度故障检修 (266)长虹CJK47A1彩电检修一例 (194)使加装的A V接口能遥控切换 (30)长虹2919P进行参数调整的方法 (266)长虹C2919PV主画面异常检修 (278)长虹2966彩电C441失效检修 (290)长虹C2988机C831不良造成三无 (266)换长虹2988显像管座应剪断②脚 (182)长虹C3418PK行场不同步检修 (290)长虹彩电检修四例 (266)长虹彩电可从其型号识别机芯 (278)巧修彩电消磁电阻 (122)康佳T1221“吱吱”声故障检修 (14)康佳T2106开机瞬间屡烧行管检修 (38)康佳T2111A彩电无图无声检修 (74)康佳T2121彩电画面右移检修 (2)康佳T2516彩电SE120N损坏处理 (98)康佳T2916A彩电故障检修两例 (194)康佳T2916A开关机电路故障检修 (26)康佳T2916A调谐器外围电路故障 (218)康佳T2916A字符显示电路检修 (182)康佳“D”系列彩电电路组成 (7)康佳D系列蓝屏及三无检修要诀 (19)康佳38英寸超大屏幕彩电技术特点 (7)康佳彩电维修实例 (31)熊猫C64P3电源电路故障检修 (175)熊猫2119型彩电高频头的代换 (206)熊猫3608A关机电路分析与检修 (175)熊猫3631M伴音故障检修 (38)《熊猫3636遥控电路检修》有错误 (110)熊猫牌彩电故障维修实例 (175)福日F50机芯彩电故障检修实例 (146)福日F91PP机芯彩电维修五例 (122)福日F91PP工作原理与维修实例 (134)福日2108无图无声检修 (146)福日2111软故障检修 (146)福日2125行场幅度增大的检修 (206)福日2175无光有声的原因及检修 (146)福日2176彩电有声无光检修 (146)对《福日2587电源电路改进》的意见 (122)福日2587电源保护电路原理分析 (122)福日2953场幅压缩故障检修 (158)金星C498屡损行管维修 (98)金星C514彩电屡损行管检修 (170)金星C542无图无声光栅压缩检修 (170)M50436⑨脚内电路坏后的处理 (170)金星C648彩电为何彩管易老化 (170)金星C4715彩电三无故障检修 (170)金星C4718彩电可调电阻不良检修 (170)高频头漏电处理一法 (170)金星C5128彩电无彩色故障检修 (170)金星5428场输出电路故障检修 (170)TCL29862三无故障检修 (254)TDA8376A在TCI3498中的原理 (43)TCL9228彩电电源故障检修 (62)TCL9228搜索节目无法锁定检修 (254)TCL9321彩电光栅左暗右亮检修 (2)TCL9328遭雷击后三无的检修 (62)TCL93292屡损行管检修 (254)TCL9529三无故障检修 (254)TCL9529无彩色故障检修两例 (254)TCL9621C彩电故障检修 (62)用分立元件代替SEl40N (254)高路华2118电源开关不良检修 (110)高路华2158故障检修两例 (230)高路华2818故障检修两例 (230)高路华2818图像不清晰的处理 (230)为高路华2918增加S端子 (110)高路华2918水平亮线检修 (110)高路华2918无屏显检修 (230)高路华3418故障检修四例 (230)创维2140WF故障分析与检修 (259)创维8298WF故障分析与检修 (235)创维8298WF故障检修 (295)创维8298WF不定时自动关机检修 (259)创维行输出脉冲不良引起的故障 (235)根德场扫描块TDA2655B的代换 (302)佳丽彩2589K开关电源故障检修 (2)佳丽彩2589K枕校电路原理及检修 (206)用分立元件代换SF8141 (38)海信中文图文电视介绍 (223)海信牌TC2130BG常见故障分析 (211)海信TC3436遥控器调整画面方法 (223)海信A3机芯彩电常见故障解析 (67)海信A3机芯彩电常见故障解析 (79)海信TC2507常见故障检修 (302)海信E系列机芯彩电 (79)海信牌彩电天线处漏电检修 (98)行逆程脉冲丢失造成无彩色无屏显 (74)黄山画王彩电伴音故障检修实例 (74)黄山画王彩电亮度异常检修实例 (158)黄山画王字符显示异常检修实例 (194)长城G8163YN8不锁台检修 (158)长城画龙大屏幕无伴音故障检修 (86)孔雀47-39水平一条亮线检修 (98)泰山54G8-C506变质使诸多元件坏 (98)西湖牌G系列彩电故障检修流程 (139)西湖54CD9三无故障检修 (158)西湖牌CG2918型彩电维修实例 (139)西湖数码3000数字彩电技术特点 (108)高士达2501彩电存储器的代换 (182)广利图文电视解码板简介 (238)新型彩电改制系统........................226 旧式彩电与无射调器VCD相连法 (197)给彩电增加高画质色差分量输入 (300)用带AV输出高频头做电视接收机 (298)凯迪M-100K有线电视增频器剖析 (58)增补频道的由来与录像接收 (64)有线电视增频器的喜和忧 (190)改老式电调高频头接收增补频道 (228)彩监内中周的故障分析与检修 (110)STR-S5941厚膜块的工作原理 (50)开关电源电压升高的原因与检修 (218)解决屡烧行管并降低其温升一法 (158)用A26189-OOB代换多种行变 (98)谈OTL场输出电路中的升压电容 (86)维修失误造成的损失 (50)维修小经验三则 (93)彩管老化引起彩色拖尾现象的处理 (206)收音机检验彩电遥控器并不可靠 (80)增加M34300N4 628SP手柄功能 (68)收音机可检验遥控器的振荡器 (176)谈<阴极发射能力减弱的维修> (194)空气潮湿的天气为什么收不好电视 (245)怎样确定电视天线的高度 (121)无隔离变压器冷电源模块 (250)接收CATV增补频道一法 (42)黑白电视机超宽电源自动稳压电路 (90)电视清晰话馈线 (61)电视机如何除尘 (93)3．摄录放像机技术类松下M系列不能录像的应急修理 (183)松下M7周期性条纹干扰的排除 (219)松下RlOOEN摄像机更换锂电池 (171)松下M1000不能录像的故障检修 (195)松下M3000画面扭动故障检修 (291)松下M9000摄像机维修实例选 (3)也谈摄像机供电电源 (39)松下M9000摄录/放像失灵的检修 (255)M9000摄像机微处理器的补救 (111)索尼325P H18寻像器无图像检修 (63)胜利17寻像器图像摆头的检修 (111)再谈CMOS摄像头 (238)摄像机外接电池的制作方法 (70)我拍家庭MTV (251)松下G30磁鼓抖动不转故障检修 (243)松下G33主导电机传动打滑检修 (303)松下Ll0多种故障检修 (255)松下L15中QR开关管引起的故障 (243)松下L15录像机自动保护故障 (63)松下L15主导轴电机供电电路简析 (51)松下L15主导轴电机供电控制分析 (51)松下L15磁鼓停转故障检修 (195)松下L15齿轮易错位的根治 (291)《松下L15磁带不能送入检修》再分析 (27)对L15不能送入磁带的讨论 (27)关于L15主导轴驱动电路的模拟实验 (39)松下L15电机供电电路释疑 (39)也谈《松下L15磁带不能送入》 (51)松下L15主导轴电机控制电路简析 (27)录像机霍尔元件的修理判断 (27)松下L15吱吱响不停的检修 (291)微处理器内部损坏的分析与修复…87、99松下L15无彩色故障检修 (171)松下J25整机不工作检修 (195)J25遥控器M34200VIAF测试数据 (123)松下J27二次电源不能启动检修 (135)松下J27功能键失效的检修思路 (15)松下HD82电源电路故障检修 (291)松下HD82吐带现象检修 (147)松下HD82录像机屏显“E9”检修 (279)松下HD82机LP放像翻滚检修 (195)松下HD100带盒检测故障 (15)PD92机NTSC4. 43记录恢复方案 (123)松下PD92重放无图像检修 (135)松下PD92微处理器修复一例 (303)K机芯录像机人为故障检修 (63)松下250录像机放像自停检修 (39)G28(WINGY)自动保护停机 (183)东芝C2放像机不能进带的检修 (123)对《东芝K2无图像检修》的补充 (75)对《东芝K2无图像检修》的不同看法 (75)东芝K3C不能装带故障检修 (3)东芝K3G各种功能失灵故障检修 (279)东芝K60/K70收增补频道再探讨 (171)东芝K60录像机状态开关的拆修 (147)《东芝K70伴音中频改制》的补充 (255)K70/K71/K81接收增补频道法 (255)东芝V94G进带不畅的检修 (231)东芝98C主导轴不转检修 (183)东芝288KC重放无图检修 (135)东芝800MH插入磁带即保护的检修 (243)索尼X50DH无规律软故障检修 (279)索尼6800录像机维修经验两例 (303)夏普vc - 6V3DR无电源的检修 (219)夏普VC -6V3DR电源电路图 (219)更换A62高频头接收增补频道电视 (99)夏普K89磁鼓不转故障的检修 (267)日立F88电源电路故障检修方法 (87)日立P100开关电源的代换修理 (255)根除日立M747F热机无图故障隐患 (207)日立757录像机电源代换修理 (279)日立M777录像机故障巧修5例 (123)日立777重放无图像故障检修 (231)JVC -P29A电源组件原理图 (99)胜利J51MS重放图像场抖修理 (255)JVC -P78电源变压器的代换 (87)胜利D660故障检修两例 (231)三洋ZIK不出带故障的检修 (75)三洋238KA电源电路再分析 (231)三洋255录像机磁鼓的代换 (39)三洋4770电源块SIK73605C代换 (207)解决富丽5000/7000/8000停机通病 (15)V-33HC重放呈现水平斜条检修 (291)三星S20录像机不能开机的检修 (111)三星S80不能录像故障检修思路 (3)三星S88结露指示灯的亮故障检修 (303)三星713机TA8607局部损坏的修复 (15)爱华XK30DH电源电路及元件代换 (303)爱华ElOIMK主导轴不转的检修 (183)爱华FK500型录像机电源电路图 (159)爱华G900不能快速走带的检修 (135)爱华3030Ⅱ通电3秒关机的检修 (279)爱华KS7070电源实测电路 (207)爱浪338E放像机电源的代换 (39)爱浪N388放像近结束时变调检修 (159)爱浪N688磁带盒卡住检修 (171)高士达1245D无图无声故障检修 (183)HEARLD9612电源原理与检修 (195)VP9612电源部分的维修与改进 (267)罗兰士宝981V不能装盒检修思路 (243)NEC-体化带AV高频头的改频 (279)珠海VD -900电源检修要点 (291)增加定时自动切换频道监视功能 (87)替换功能极强的录像机色度放大板 (183)六种录像机后备电源的改造 (63)录像机带端检测电路维修二例 (267)录像机装带架上滑轨钉断裂的检修 (15)解决录像机加载不到位的尝试 (159)状态开关引起放像机功能紊乱检修 (147)录像机伺服控制故障维修六例 (159)磁头开关脉冲对图像的影响 (75)录像机图像抖晃故障的判断与检修 (219)MA2830的应用及简便代换方法 (111)发霉录像带的修复 (75)4．激光视听产品技术类不花一分钱升级DVD (249)试《摩天雄鹰》DVD版与VCD版 (311)国产DVD碟观后记 (287)认识一下DVD碟片 (59)我玩DVD (239)松下H70影碟机光头除尘注意 (161)松下V850EN显示H03代码检修 (53)松下V860影碟机按键失效检修 (221)松下V860EN显示F10代码检修 (161)松下900影碟机不工作检修 (101)索尼Cl影碟机的自检修功能.........221 索尼MRl改VCD的简单方法 (144)夏普MV -Dl00不能放LD检修 (53)先锋S250主轴电机不能制动检修 (53)先锋S260自动重复播放检修 (209)先锋S260主轴伺服故障检修 (305)先锋影碟机改装VCD妙法 (264)先锋270影碟机显示P5检修 (17)先锋270型影碟机显示U1检修 (29)先锋S270影碟机显Ul检修 (53)先锋S270影碟机显示P5检修 (53)先锋S270影碟机激光头检修 (53)先锋270影碟机不出盒检修 (53)-先锋S270影碟机出仓无力检修 (185)先锋S270机大托盘不出盘检修 (209)先锋影碟机激光头检修三例 (245)清洁健伍280影碟机光头实录 (245)健伍K9100影碟机不读盘检修 (209)三星500K影碟机主轴电机修理 (257)三星730K影碟机不能播放检修 (101)三星4500机无图有声检修 (101)爱华Z1000故障检修两例 (89)LD影碟机加装VCD经验谈 (72)LD加装VCD解压板电源取法两例 (72)24比特96kHz超级D/A摩机板 (129)LD影碟机激光头故障判断与检修 (29)松下VM510机声音异常检修 (221)索尼S55型VCD机开机无电检修 (125)索尼S55不能播后面曲检修 (209)索尼K700型VCD机不读盘检修 (89)片仓电机驱动力不足检修 (173)索尼VCD机芯进出盘原理及装配 (173)夏普V200X机无图无声检修 (65)夏普V200X托盘伸出不到位检修 (137)夏普V333按键失效分析与改进 (113)夏普V333型不放像检修 (113)互换法修复夏普V333主轴电机 (I49)夏普V333X托盘进出困难检修 (89)SHARP三碟VCD不工作检修 (125)SONKEN三碟机不复位故障检修 (209)JvC三碟机不读碟检修 (77)JVC VCD机激光头的代换 (29)富丽55型机开关电源及改进 (293)富丽55型VCD机开关电源检修 (77)健伍VCD机无图无声修复 (281)飞利浦CDC763常见故障处理 (281)飞利浦L1270/02机芯常见故障 (281)飞利浦三碟机不出盒检修 (173)三星50型机开关电源块代换 (233)三星650型影碟机不读盘检修 (209)三星650原唱声不能消除的故障 (202)三星850机播VCD片不畅检修 (173)三星850机不能播放后部检修 (161)韩国现代3000型VCD常见故障检修 (41)现代3000型VCD副开关电源修理 (41)现代3000型VCD机碟盘不转检修 (209)高仕达R888K检修四例 (113)新科20机主轴伺服块局部修复 (233)新科30型三碟机不出盒修理 (197)新科VCD -330机不播放检修 (65)新科330无彩且伴音小检修 (125)新科330型机彩色不稳定检修 (233)新科“超越l号”VCD技术方案 (192)新科“超越1号”技术方案特点 (204)新科“超越1号”射频放大器简析 (216)“超越1号”MPEG1解码块(一)、(二)、(三)…………………240、252、264“超越1号”VCD主板技术特点 (276)“超越1号”方案附属电路简介 (288)“超越1号”开机流程及维修(一)、(二)…………………300、312万利达VCD机维修经验谈 (293)万利达VCD机检修实例 (221)万利达N28B机无图无声检修 (149)万利达N28机操作失控的检修 (65)冬季引起万利达N28不读盘 (77)万利达N28B机屏显错乱检修 (197)万利达N28机不出盘检修 (293)我改双线路CD/VCD机 (276)万利达N -30机两摩纪实 (24)爱多300BK机热稳定性差检修 (185)爱多620BK彩色异常检修 (113)功放不良引起VCD机无规律停机 (65)爱多Ⅳ-820BK维修指南 (103)东鹏950型VCD机主轴电机修复 (137)改善东鹏950型VCD机读碟能力 (17)东鹏VCD机改进建议 (185)东鹏966K VCD加装DAC摩机板 (249)东鹏966K影碟机按键失效检修 (5)东鹏966K热稳定性差检修 (17)消除VCD机射调器干扰简法 (125)ONE牌K150型VCD不出盒检修 (41)先科AL-P638K故障检修 (91)先科P638K显示屏不亮检修 (65)先科三碟VCD机托盘异常检修 (197)厦新777型VCD机检修 (149)红太阳VD3000型VCD维修实例 (151)长虹VD3000图像时有时无检修 (245)红太阳VD6000型VCD机 (151)红太阳VD8000型VCD机 (163)松立S9001B机不能播放检修 (5)V333型VCD机不读碟检修 (5)K333型VCD机播放中断检修 (17)五星VCD电源不良引起图像停顿 (29)奇声VCD-869不读碟检修 (185)奇声880机共振引起不读碟检修 (65)山星VCD-18机失控检修 (77)锦电2000型VCD机频繁停顿修理 (89)改锦电2060A为CD/VCD机 (276)爱佳V333机的检修及改进 (101)小乐声Kl0影碟机不能播放检修 (101)STAR牌VCD机无屏显检修 (101)格力113V不能放第一曲检修 (113)星王F11型VCD机不读碟片检修 (137)去掉OK改善音质 (177)星王3DK770主轴不转检修 (185)星王K999B显示错乱不工作检修 (137)德加拉18K型VCD有图无声检修 (149)步步高AB002机常见故障检修 (197)万燕RS232型机不读碟检修 (233)万燕VCD机电源检修 (197)金格VCD机进出盒故障检修 (233)更换VCD激光头札记 (245)华声Kl0进盒不到位解决措施 (281)巨大Fll型VCD机有声无图检修 (281)谈国产VCD机的工艺改进 (5)VCD3.0和SVCD之我见 (120)HDAV2.0数字音频解码器 (81)试改VCD遥控器用户码 (168)普通VCD机实现高保真的两法 (252)将光驱改成VCD机 (156)VCD、录像机、CATV与TV连接法 (216)《VCD、VTR、CA TV与TV连接》补充 (293)科达解压板音、视频切换使用心得 (216)VCD、VTR、CATV与TV的连接 (295)改装VCD经验小谈 (180)VCD改机经验两三点 (204)VCD改双线路CD/VCD机实践 (276)国产VCD影碟机检修四例 (17)用万用表检修VCD无图无声故障 (149)VCD机主轴电机不转检修 (125)VCD机按键失控分析与检修 (161)也谈VCD机按键失控的检修 (281)VCD机机械维修琐谈 (125)碟片翘曲引起不能读碟 (137)虚焊引发的VCD机故障检修两例 (197)VCD机不读碟常见故障检修 (257)工艺差引起VCD只能播放CD片 (161)浅谈VCD的纠错能力 (48)也谈VCD机的纠错能力 (12)VCD机的纠错能力有区别 (12)VCD机的纠错能力有明显区别 (24)判别VCD机纠错能力简法 (24)纠错检修要避免进入“恶性循环圈” (36)编读之桥——雄鹰VCD问题解答 (125)VCD机激光头维修 (269)开盖放置导致光头迅速脏污............257 CIA84/CLA82不能直换 (261)推介两张Hi-Fi测试金碟 (213)VCD机PBC功能的测试 (227)《空中监狱》 (11)《10l斑点狗》 (23)《魔鬼女大兵》 (35)我只在乎你 (35)《英国病人》 (47)《变相怪杰》 (59)《惊世未了缘》 (71)《惊声尖叫》 (83)谈谈“巨片” (83)《硬闯100%危险》 (95)美国’97十大卖座影片 (119)《神鬼至尊》 (131)《黑超特警组》 (155)《生命一线》 (167)《空军一号》 (179)《燃烧的天堂》 (203)听《泰坦尼克号》电影原声碟 (215)《末日戒备》 (227)《超时空接触》 (239)《光猪六壮士》 (251)《中国音乐电视金奖》 (251)《青春永驻》 (251)《甜心先生>与《花心情圣》 (263)魅力无穷的007系列片 (263)《宾虚》 (263)《心理游戏》 (275)《周恩来》 (287)《偷天情缘》 (311)《爱在心里口难开》 (299)《黑美人》 (299)VCD机的辐射干扰不容忽视 (96)一种VCD光盘清洗剂 (221)浅谈VCD“版本”演变 (168)松下CH40组合音响改VCD (264)索尼311型CD机不读盘检修 (209)CD85R放音不畅故障检修 (221)爱华V51G组合音响改装VCD (84)打开爱华V51G功放电路的静噪 (120)爱华3000型CD机无音频输出检修 (41)爱华CD机故障率高的原因及改进 (41)索尼CXD2545Q在“超越1号”中的应用 (228)改VCD机经验点滴 (65)爱特960HR CD机改VCD机实践 (36)DAC板加装小记 (249)ONE497型CD机不放音检修 (77)ONE-797型CD机放音变差检修 (245)2213 HR型CD机操作失控检修 (77)东大尼索988型CD机停顿检修 (185)超级CD曙光初现数字新品争奇斗艳 (285)不同时钟机芯加装PCM1710U D/A法 (57)双线路CD/VCD机答读者问 (180)先创成“V-9”接口卡使用实记 (60)几款特殊DSP的CD机改VCD (264)改VCD消除瞬时噪声 (84)谈CD机改VCD后如何解决噪声 (96)更简便的改VCD消噪声法 (96)CD机改VCD消噪问题综述 (132)解压板的C2PO(容)信号无用吗？ (252)不用“补品”摩机两例 (261)用VCD解码板来调整CD机 (65)光盘读盘困难的处理一法 (122)TELARC环绕声测试CD碟 (71)自制观察激光柬的试机碟 (89)乐坛老大哥说：如果今晚我们相爱 (11)不同凡响的<响宴》 (23)一张趣味卡通电影音乐CD (35)《斯皮尔伯格经典作品集》 (47)《原来的我》 (83)“最接近真实录音”的CD片 (95)再听<1812序曲> (107)《爱的种子》 (119)张维良埙的世界——《问天》 (131)拥有《拥友》 (143)一套不同民族风情的民歌CD (167)台湾歌坛百张最佳专辑回顾…………………167、179、191、203一张好CD (191)新世纪音乐CD《天幻箫音》 (203)美丽的齐豫 (215)TELARC的几张环绕声CD (227)说说田震和她的《顺其自然》 (227)《红玫瑰》，《你不要害我》 (239)歌坛天后——席琳.狄翁 (239)品味“奇异果” (251)谈谈VR 2CD片的译名 (251)U2乐队——《POP》 (263)“平静得不行”的CD一《湖》 (275)《SYMPHONY OR DAMN》 (275)《Hi Fi心曲》 (299)小室哲哉：《脸》 (299)《图兰多特》 (311)CD唱片的昨天、今天和明天(一)、(二)、(三)、(四)…35、47、59、71观察激光束简法 (209)5．收、录、放、语音技术类AN7025K/S AM/FM收音机电路 (287)调频收音机收电视伴音和英语节目 (96)收音机立体声指示灯 (282)自动搜索为何“到站不停” (173)调频调幅收音集成电路CX20029 (18)微电脑语言复读机的原理及制作 (262)单电源改双电源供电一法 (177)单电源变双电源一法 (249)小摩ONE - CTT31卡座 (285)先锋W504R双卡座放音自停检修 (286)先锋CT -6卡座常见故障 (100)三洋牌盒式录音机啸叫故障检修 (151)落地式组合音响升级家庭影院两法 (240)健伍835组合音响故障检修 (113)组合音响故障检修两例 (113)钻石888扬声器保护电路的检修 (290)日产随身听改频与扩展预存频道 (304)给随身听增加电子音量控制电路 (297)利用镜头纸保护耳塞机 (224)放音啸叫如何修 (133)爱华JX849随身听为何翻带不止 (133)爱华JX849翻带不止的检修 (226)爱华J202MKⅢ放音啸叫的检修 (236)试修随身听耳机 (80)爱华导管耳塞新作 (105)BA3516单片立体声放音机电路 (155)“现代”汽车收放机HA1318的代换 (213)6．音响技术类几种新型家庭影院器材 (36)新声3030AV接收机技术特点简析 (144)剖析声通501型功率放大器电路 (201)环绕声解码器声场处理器 (81)重低音M51134P及功放LM3886TF (189)AV信号的转换及接口扩充 (72)KONES A V-336功放机检修 (112)麒锋AV-3000DSK试用记 (48)两款AV功放的比较 (203)家庭电视影院 (156)A V与Hi-Fi兼得的国产组合 (177)杜比数码(AC-3)有几个声道？ (131)DFT-改善音响失真度的新技术 (217)用TEA2024制作BTL功率放大器 (45)120W×2集成高保真功放板 (93)《120W×2集成功放》答读者问 (273)动态甲类开环放大器 (165)实用电流反馈式合并功放 (237)用STK6303的300W功放 (309)用STK4044制作高保真功放 (273)隆宇2100A-模块式纯后级功放 (309)试用PI-AD20型小功放 (201)12V供电的25W傻瓜功放 (282)大功率功放模块SHM-1120Ⅱ (82)简单易做的小傻瓜功放电路 (164)柔性剪峰电路在TDA1514上应用 (189)用SA601ET制作的音频激励器.........237 湖山PSM-Ⅱ型放大器原理简析 (213)欧陆风格Hi-Fi功放TDA7294 (94)机电式Hi-Fi音源切换电路 (189)两音箱三维环绕立体声摩机板 (9)自制SRS - 3D环绕声处理器 (9)走出SRS的误区 (117)正确看待SRS声场处理器……………1l7何谓臭肉 (117)SRS技术刍议 (117)SRS--种经济实用的技术 (117)QS7777PF虚拟杜比环绕声芯片 (130)用Spatializer 3D虚拟杜比环绕声 (153)欲论其道先通其意 (285)单片机控制的可遥控步进音量电位器 (10)假傻瓜175 (201)DO-150W单电源大功率模块 (225)奇声AV-713功率放大器故障检修 (247)BBE单片集成电路M2150A应用 (238)预置式音调均衡器IC-PT2380 (297)功放保护电路改进又一法 (33)信号地在放大器设计中的重要意义 (69)音箱内置式过载保护器 (285)LM系列集成功放输入电容量选择 (274)合并功放改前级分频功放记 (45)晶体管功放高保真指标之我见 (69)改湖山乙类功放为高偏置甲乙类机 (213)奇声A V功放P12395集成电路简介 (247)不妨加配一台均衡器 (69)STK6153最新摩法 (106)给功放加左、右声道切换开关 (261)奥拉100后级放大器简析 (309)电子分频功放的制作体会 (297)不花钱的改善你为何不试？ (119)《功放电源摩机》电路有错 (213)中联F2250B功放检修一例 (286)维修AV放大器用的负载箱 (165)雄鹰666A V功放维修 (291)奇声SCR-328卡座故障检修 (247)功放无输出检修实例 (291)天朗功放检修一例 (295)狮龙RV-60 30R型A功放检修 (287)奇声A V669交流声的消除 (297)BBD延时混响电路残余脉冲的消除 (249)DOBLY SURROUND解码板试听 (130)甲类功放音质醇厚原因 (105)数码卡拉OK电路M-65850P (225)最简单的调频无线话筒 (68)ICM-306无线话筒电路 (105)使用信雅话筒的一点体会 (141)天龙1000功放杂音故障一例 (165)超宽频响胆机功放 (21)高品质10W超线性胆机 (273)自制电子管前置放大器 (33)胆机高压软通断稳压电路 (297)土炮友的音箱CAD《SBD-1》 (93)翱翔九天声满环宇 (289)业余同轴扬声器制作记 (141)一款靓声石材音箱的制作 (261)改进“低频霸主” (33)线材三问 (287)小箱也能出靓声 (45)用玻璃珠代音箱脚钉 (177)用铜管制作音箱接线柱 (273)用电子琴试音箱 (177)用南鲸扬声器制作音箱试听记 (177)浅谈二级倒相式音箱的特性 (153)音箱外型奇想 (261)扬声器阻抗测量一法 (153)扬声器为何难推？ (107)7．电冰箱、洗衣机、空调机、电风扇类冰箱冬天省电妙法 (35)冰箱节电七法 (102)电冰箱节电实践 (305)制冷焊接的多功能电焊机 (299)海尔268A控制原理及故障分析 (187)冰箱不能启动检修 (297)上菱BCD-180WD维修 (300)查冰箱内漏又一法 (300)排除直冷式电冰箱冰塞又一法 (92)内藏式冷凝器的检漏及维修 (248)雪花170A双门电冰箱脏堵故障检修 (29)给洗衣机设置个“水准泡” (173)小天鹅洗衣机常见故障及排除方法 (115)荣事达XQB45-95F检修 (127)琴岛洗衣机脱水桶故障的排除 (176)全自动洗衣机维修实例 (90)小鸭圣洁奥XQG50 -4通病检修 (300)惠而浦滚筒洗衣干衣机维修 (89)水仙牌XQB35-2301检修实例 (248)小鸭圣洁奥滚筒洗衣机不排水故障 (287)洗衣机定时器返回不灵的检修 (273)屏蔽室用的空调光隔离器 (118)美的1.5匹窗式空调机检修 (200)春兰牌140LW/AdSE4保护检修 (307)空调故障二例 (299)长岭电冰箱温度显示系统的检修 (271)定时排气控制器 (294)电风扇模拟自然风控制器 (200)电风扇常见故障排除 (52)自制电路替换风扇调速扼流圈 (6)吊扇不宜过勤解体加油 (205)。

Ceramic AC CapacitorsClass X1, 440 V AC /Class Y2, 300 VAC For technical questions, contact slcap@Document Number: 2220448Revision: 31-Jan-06WKOVishay DraloricDESIGN:Disc capacitors with epoxy coatingRATED VOLTAGE U R :(X1):440 V AC , 50 Hz (IEC 60384-14.2)(Y2): 300 V AC , 50 Hz (IEC 60384-14.2)250 V AC , 60 Hz (UL1414, CSA C22.2)DIELECTRIC STRENGTH BETWEEN LEADS:Component test:2600 V AC , 50 Hz, 2 sAs repeated test admissible only once with 2340 V AC , 50 Hz, 2 sRandom sampling test (destructive test): 2600 V AC , 50 Hz, 60 sDIELECTRIC STRENGTH OF BODY INSULATION:2600 V AC , 50 Hz, 60 s (destructive test)DISSIPATION FACTOR tan δ:≤ 25 • 10-3INSULATION RESISTANCE Ris:≥ 6 • 109 ΩCATEGORY TEMPERATURE RANGE ϑA :(- 40 to + 125) °CCLIMATIC CATEGORY ACC. TO EN60068-1:40/125/21COATING:Epoxy, dipped, insulating, flame retarding acc. to UL 94V-0TAPING AND SPECIAL LEAD CONFIGURATIONS:On requestMARKING:WKO 33 pF to 1.0 nF WKO 1.5 nF to 4.7 nFAll approval marks are also shown on the label.440 300 250 ~• Dimensions in mmImped ance (Z) as a function of frequency (f) at Ta = 20 °C (average). Measurement with lead length50 mm.Document Number: 22204For technical questions, contact slcap@Revision: 31-Jan-0649WKOCeramic AC CapacitorsClass X1, 440 V AC /Class Y2, 300 VACVishay Draloric* Standard lead configuration, other lead spacing and diameter available on request.** Capacitance values from 1000 pF to 4700 pF: The alternative usage of smaller VKO series is recommended for new application.ORDERING INFORMATION, CERAMIC X1 / Y2 CAPACITORS WKOCAPACITANCE**(pF)TOL.(%) D x s (mm) F ± 1*(mm) d ± 0.05*(mm)V ± 0.5*(mm)ORDERING CODE CLASS 1N75033± 10 %, ± 20 %8.0 x 5.07.50.6 1.6WKO330 CP KR 478.0 x 5.0WKO470 CP KR CLASS 2K120068± 10 %, ± 20 %8.0 x 5.07.50.6 1.9WKO680 CP KR CLASS 2K1500100± 10 %, ± 20 %8.0 x 5.07.50.61.9WKO101 CP KR CLASS 2K2000150± 10 %, ± 20 %8.0 x 5.07.50.6 1.9WKO151 CP KR 2208.0 x 5.0WKO221 CP KR 3308.0 x 5.0WKO331 CP KR CLASS 2K4000470± 10 %, ± 20 %8.0 x 5.07.50.62.0WKO471 CP KR 6809.0 x 5.0WKO681 CP KR 100010.0 x 5.00.81.6WKO102 CP KR 150012.0 x 5.0WKO152 CP KR 220013.0 x 5.0WKO222 CP KR 330015.0 x 5.0WKO332 CP KR 390016.0 x 5.0WKO392 CP KR 470018.0 x 5.012.5WKO472 CP KRORDERING CODE7th digit Capacitance T olerance:± 10 % = K ± 20 % = M10th to 12th digit Lead Configuration (see General Information)R14th digitRoHS Compliant ComponentORDERING INFORMATIONWKO 392K CP CJ0K R SERIESCAP. VALUETOLERANCERATED VOLTAGELEADCONFIGURATIONINTERNAL CODERoHS COMPLIANTLegal Disclaimer NoticeVishayDisclaimerAll product specifications and data are subject to change without notice.Vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf (collectively, “Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained herein or in any other disclosure relating to any product.Vishay disclaims any and all liability arising out of the use or application of any product described herein or of any information provided herein to the maximum extent permitted by law. The product specifications do not expand or otherwise modify Vishay’s terms and conditions of purchase, including but not limited to the warranty expressed therein, which apply to these products.No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document or by any conduct of Vishay.The products shown herein are not designed for use in medical, life-saving, or life-sustaining applications unless otherwise expressly indicated. Customers using or selling Vishay products not expressly indicated for use in such applications do so entirely at their own risk and agree to fully indemnify Vishay for any damages arising or resulting from such use or sale. Please contact authorized Vishay personnel to obtain written terms and conditions regarding products designed for such applications.Product names and markings noted herein may be trademarks of their respective owners.Document Number: Revision: 18-Jul-081分销商库存信息:VISHAY-BC-COMPONENTSWKO101MCPCD0KR WKO151MCPCD0KR WKO331MCPCD0KR WKO471MCPCD0KR WKO680MCPCD0KR WKO471MCPCJ0KR WKO101MCPSJBKR WKO101MCPSTAKR WKO221MCPSTAKR WKO331MCPSWGKR WKO471MCPRLASR WKO681MCPCD0KR WKO330MCPQC0KR WKO470MCPCD0KR WKO101MCPBRAKR WKO101MCPCF0KR WKO101MCPCRAKR WKO101MCPCRBKR WKO101MCPCREKR WKO101MCPQC0KR WKO101MCPUALKR WKO151MCPCF0KR WKO151MCPCRAKR WKO221MCPCD0KR WKO221MCPCF0KR WKO221MCPCFGKR WKO221MCPCRAKR WKO221MCPCRBKR WKO221MCPCREKR WKO221MCPTCRKR WKO221MCPUARKR WKO331MCPCF0KR WKO331MCPCRAKR WKO331MCPEF0KR WKO471MCPBLAKR WKO471MCPCF0KR WKO471MCPCFGKR WKO471MCPCRAKR WKO471MCPCRBKR WKO471MCPCREKR WKO471MCPDRUKR WKO471MCPERUKR WKO471MCPTCRKR WKO471MCPUALKR WKO680MCPCF0KR WKO101MCPSAHKR WKO101MCPSRWKR WKO221MCPSRWKR WKO221MCPSSLKR WKO331MCPSAVKR WKO471KCPCD0KR WKO681MCPCF0KR WKO681MCPCRAKR WKO681MCPCRBKR WKO681MCPCREKR WKO681MCPSAHKR WKO330MCPCD0KR WKO330MCPCF0KR WKO330MCPCRAKR WKO330MCPEF0KR WKO470MCPCF0KR WKO470MCPCRAKR WKO470MCPCREKR WKO471MCPDK0KR WKO330KCPBF0KR WKO330KCPQE0KR WKO101KCPCF0KR WKO101KCPCRAKR WKO101KCPCRBKR WKO151KCPCF0KR WKO221KCPCF0KR WKO221KCPCFGKR WKO221KCPCRAKR WKO331KCPCF0KR WKO471KCPCF0KR WKO471KCPCRAKR WKO471KCPCREKR WKO681KCPBF0KR WKO681KCPCF0KR WKO330KCPCF0KR WKO470KCPCF0KR WKO470KCPCRAKR WKO222MCPRMRKR WKO102MCPCH0KR WKO102MCPQC0KR WKO152MCPCD0KR WKO152MCPCH0KR WKO152MCPQE0KR WKO102MCPSTAKR WKO102MCPCF0KR WKO102MCPCFGKR WKO102MCPCJ0KR WKO102MCPCRAKR WKO102MCPCRBKR WKO102MCPCRCKR WKO102MCPCREKR WKO102MCPDF0KR WKO102MCPDJ0KR WKO102MCPQD0KR WKO152MCPCF0KR WKO152MCPCJ0KR WKO152MCPCJGKR WKO152MCPCRAKR WKO152MCPCREKR WKO152MCPQH0KR WKO102MCPSSLKR WKO222MCPCD0KR WKO222MCPCH0KR WKO222MCPNR0KR WKO222MCPQL0KR WKO222MCPYC0KR WKO102KCPCF0KR WKO102KCPCJ0KR WKO152KCPCJ0KR WKO222MCPCF0KR WKO222MCPCJ0KR WKO222MCPCJGKR WKO222MCPCRAKR WKO222MCPCRBKR WKO222MCPCREKR WKO222MCPCRUKR WKO222MCPCRYKR WKO222MCPDJ0KR。

©1998 Whelen Engineering Company Inc.Form No.13303D (121506)Installation Guide:Mirror-Beam Model MBEX981998 Ford ExplorerFor warranty information regarding this product, visit /warranty•Proper installation of this product requires the installer to have a good understanding of automotive electronics, systems and procedures.•Whelen Engineering requires the use of waterproof butt splices and/or connectors if that connector could be exposed to moisture.•Any holes, either created or utilized by this product, should be made both air- and watertight using a sealant recommended by your vehicle manufacturer.•Failure to use specified installation parts and/or hardware will void the product warranty.•If mounting this product requires drilling holes, the installer MUST be sure that no vehicle components or other vital parts could be damaged by the drilling process. Check both sides of the mounting surface before drilling begins. Also de-burr the holes and remove any metal shards or remnants. Install grommets into all wire passage holes.•If this manual states that this product may be mounted with suction cups, magnets, tape or Velcro®, clean the mounting surface with a 50/50 mix of isopropyl alcohol and water and dry thoroughly.•Do not install this product or route any wires in the deployment area of your air bag. Equipment mounted or located in the air bag deployment area will damage or reduce the effectiveness of the air bag, or become a projectile that could cause serious personal injury or death. Refer to your vehicle owner’s manual for the air bag deployment area. The User/Installer assumes full responsibility to determine proper mounting location, based on providing ultimate safety to all passengers inside the vehicle.•For this product to operate at optimum efficiency, a good electrical connection to chassis ground must be made. The recommendedprocedure requires the product ground wire to be connected directly to the NEGATIVE (-) battery post (this does not include products that use cigar power cords).•If this product uses a remote device for activation or control, make sure that this device is located in an area that allows both the vehicle and the device to be operated safely in any driving condition.•Do not attempt to activate or control this device in a hazardous driving situation.•This product contains either strobe light(s), halogen light(s), high-intensity LEDs or a combination of these lights. Do not stare directly into these lights. Momentary blindness and/or eye damage could result.•Use only soap and water to clean the outer lens. Use of other chemicals could result in premature lens cracking (crazing) and discoloration. Lenses in this condition have significantly reduced effectiveness and should be replaced immediately. Inspect and operate this product regularly to confirm its proper operation and mounting condition. Do not use a pressure washer to clean this product.•It is recommended that these instructions be stored in a safe place and referred to when performing maintenance and/or reinstallation of this product.•FAILURE TO FOLLOW THESE SAFETY PRECAUTIONS AND INSTRUCTIONS COULD RESULT IN DAMAGE TO THE PRODUCT OR VEHICLE AND/OR SERIOUS INJURY TO YOU AND YOUR PASSENGERS!A u t o m o t i v e : Warnings to InstallersWhelen’s emergency vehicle warning devices must be properly mounted and wired in order to be effective and safe. Read and follow all of Whelen’s written instructions when installing or using this device. Emergency vehicles are often operated under high speed stressful conditions which must be accounted for when installing all emergency warning devices. Controls should be placed within convenient reach of the operator so that they can operate the system without taking their eyes off the roadway. Emergency warning devices can require high electrical voltages and/or currents. Properly protect and use caution around live electrical connections.Grounding or shorting of electrical connections can cause high current arcing, which can cause personal injury and/or vehicle damage, including fire. Many electronic devices used in emergency vehicles can create or be affected by electromagnetic interference. Therefore, after installation of any electronic device it is necessary to test all electronic equipment simultaneously to insure that they operate free of interference from other components within the vehicle. Never power emergency warning equipment from the same circuit or share the same grounding circuit with radio communication equipment. All devices should be mounted in accordance with the manufacturer’s instructions and securely fastened to vehicle elements of sufficient strength to withstand the forces applied to the device. Driver and/or passenger air bags (SRS) will affect the way equipment should be mounted. This device should be mounted by permanent installation and within the zones specified by the vehicle manufacturer, if any. Any device mounted in the deployment area of an air bag will damage or reduce the effectiveness of the air bag and may damage or dislodge the device. Installer must be sure that this device, its mounting hardware and electrical supply wiring does not interfere with the air bag or the SRS wiring or sensors. Mounting the unit inside the vehicle by a method other than permanent installation is not recommended as unit may become dislodged during swerving; sudden braking or collision. Failure to follow instructions can result in personal injury. Whelen assumes no liability for any loss resulting from the use of this warning device. PROPER INSTALLATION COMBINED WITH OPERATOR TRAINING IN THE PROPER USE OF EMERGENCY WARNING DEVICES IS ESSENTIAL TO INSURE THE SAFETY OF EMERGENCY PERSONNEL AND THE PUBLIC.Warnings to UsersWhelen’s emergency vehicle warning devices are intended to alert other operators and pedestrians to the presence and operation of emergency vehicles and personnel. However, the use of this or any other Whelen emergency warning device does not guarantee that you will have the right-of-way or that other drivers and pedestrians will properly heed an emergency warning signal. Never assume you have the right-of-way. It is your responsibility to proceed safely before entering an intersection, driving against traffic, responding at a high rate of speed, or walking on or around traffic lanes. Emergency vehicle warning devices should be tested on a daily basis to ensure that they operate properly. When in actual use, the operator must ensure that both visual and audible warnings are not blocked by vehicle components (i.e.: open trunks or compartment doors), people, vehicles, or other obstructions. It is the user’s responsibility to understand and obey all laws regarding emergency warning devices. The user should be familiar with all applicable laws and regulations prior to the use of any emergency vehicle warning device. Whelen’s audible warning devices are designed to project sound in a forward direction away from the vehicle occupants. However, because sustained periodic exposure to loud sounds can cause hearing loss, all audible warning devices should be installed and operated in accordance with the standards established by the National Fire Protection Association.Safety FirstThis document provides all the necessary information to allow your Whelen product to be properly and safely installed. Before beginning the installation and/or operation of your new product, the installation technician and operator must read this manual completely. Important information is contained herein that could prevent serious injury or damage.WARNING: This product can expose you to chemicals including Methylene Chloride which is known to the State of California to cause cancer, and Bisphenol A, which is known to the State of California to cause birth defects or other reproductive harm. For more information go to .51 Winthrop RoadChester, Connecticut 06412-0684Phone: (860) 526-9504Internet: Salese-mail:*******************CustomerServicee-mail:*******************®ENGINEERING COMPANY INC.To Remove the Side Mirror Assembly:1.Remove the door panel from the vehicle.2.Remove the nuts that secure the mirror housing to the vehicle. Unplug the mirror’s harness cable from the door’s power harness.3.Carefully remove the mirror housing from the vehicle.To Prepare the Mirror Assembly:1.Position the mirror assembly on the workbench so the mirror surface is facing away from the installer.2.Locate the area marked “Corner”. From this point, measure a distance of 0.5” along the ascending verti-cal line (Fig. 1).3.From this point, measure a distance of 3.5” parallel with line “A”.4.After measuring the distances indicated, mark this location.ing a 3/8” drill bit, carefully drill into the marked area. Be sure to remove any shavings caused by the drilling process.6.Now position the mirror assembly so that its mounting surface is facing the installer. Locate the rubber extrusion projecting from the rubber mounting gasket. Cut an opening through the outer-most surface so that the harness cable can pass through (See Fig. 2).To Prepare the Strobe Harness:NOTE: Because the strobe harness must be routed through a specific, narrow and twisting path within the mirror assembly, it is necessary to temporarily extend the length of the harness with a make-shift “snake”. 1.Locate the tie-wrap included with your mirror beam and cut the fastener-end off.2.Locate the end of the strobe harness that has SOCKET-type terminals installed on the free wires. Cut off the non-insulated wire (it is not used in this application).3.Strongly secure the tie-wrap to the strobe harness with electrical or similar tape. Although the purpose of this procedure is to extend the harness length as much as possible using the tie-wrap, it is important to have a sufficient length of the tie-wrap secured to the harness (2” minimum).Routing the Strobe Cable:1.Insert the tie-wrap through the opening made in step 6 of the “To prepare the mirror assembly” section.Do not attempt to remove either the rubber or foam rubber gaskets that are present.2.Route the cable through the opening shown in Figure 3. Feed the cable through this opening until the tie-wrap begins to exit the assembly from behind the mirror. Continue to feed the cable through until approximately 18” of cable has exited the assembly.3.Now route the tie-wrap back into the mirror assembly and out of the hole drilled in step 5 of the “To pre-pare the mirror assembly” section (Fig. 4). There should not be more than 4 or 5 inches of harness stick-ing out of the hole. If the length is different from this, adjust harness length accordingly.4.The wire terminals are now inserted into their 3 position connector (supplied) as follows (For detailed information, refer to the instruction tag attached to the harness):Position 1 = Red Position 2 = Black Position 3 = WhiteAffixing the MirrorBeam to the Mirror Housing:NOTE: The following procedure requires that the mirror housing be no colder than 60°F (18°C).1.Thoroughly clean the plastic mirror housing and the inside surface of the MirrorBeam housing using a 50/50 mixture of isopropyl (Not rubbing) alco-hol and water. Dry completely.2.Locate the two, 6” strips of double-sided adhesive tape included with your MirrorBeam.3.Trim one of the strips to a length of 5 inches and position on the top of the mirror assembly. When properly positioned, the tape will be centered between the inboard and outboard ends of the mirror housing and the leading edge of the tape will be set back approximately 1/4” from the rear (mir-ror side) edge of assembly. After the tape is positioned, it is important to apply pressure to the protective backing so the tape adheres to the surface.4.Cut the remaining 6” length of tape in half. Using the procedure outlined in the previous step, adhere one 3” length of tape to the bottom of the mirror housing and the remaining 3” length to the outside vertical edge of the mirror assembly. As with the top piece, the leading edge of these tape strips will be set back approximately 1/4” from the rear (mirror side) edge of the assembly.5.Fold the protective backing strips on the top and bottom tape strips so that 1/2” to 3/4” of backing is extended over the edge of the mirror housing. Trim and remove the exposed tape. Remove the protective backing completely from the tape strip on the end of the mirror.6.Place the mirror housing mirror-side down on your work area. Lower the MirrorBeam housing onto the mirror housing until the MirrorBeam is also in contact with the work table. The housing must fully engage the mirror assembly! Press the housing firmly onto the mirror housing.Fig. 3Fig. 47.The remaining protective backing strips must now be removed. To accomplish this, the housing must not be in contact with the backing strips.Starting with the bottom strip, and using a small, flat blade screwdriver (or similar tool) gently pry the housing about 1/4” away from the mirror hous-ing. Carefully pull the protective strip “tab” created in step 6, and gently remove it completely from the tape strip. Do not allow the strip to tear while being removed.8.Repeat for the tape strip on the top of the housing.9.Apply pressure to the MirrorBeam at the tape locations. Maintain pressure for a minimum of 20 minutes to allow the tape to properly setup. This can be accomplished by wrapping the MirrorBeam tightly with adhesive tape. IMPORTANT! The tape adhesive used in this procedure is fully bonded after 72 hours @ 70°F (21°C). During this period, do not expose the MirrorBeam to any un-necessary force, such as high-pressure from a car wash.10.Locate the factory-drilled hole in the MirrorBeam housing. Using a 1/8” drill bit and the MirrorBeam housing as a template, drill a hole into the mirrorhousing. Locate the #8 x 1/2” sheet metal screw (included) and secure the MirrorBeam housing to the mirror housing.Re-assembling the MirrorBeam Assembly:1.Route the MirrorBeam harness through the door, along the same path as the vehicle’s main power harness and finally to the strobe power supply mounted in the vehicle.2.Cut the non-insulated wire off the strobe harness. Insert the PIN-type terminals into the provided connector as detailed in the “Routing the strobe harness...” section of this manual. Insert plug into power supply and confirm proper strobe operation.3.Using the original hardware, remount the mirror onto the vehicle.NOTE: The outer surfaces of this product may be cleaned with mild soap and water. Use of any other chemicals may void product warranty. Do not use a pressure washer.。

j988产品规格书页码：1/11产品规格书适用于鸿尚鸿客户可充电锂电池类型：063443A型号：j988客户型号：j988颜色：黑色编拟：日期：审核：日期：批准：日期：客户确认：日期：版本编辑更版说明生效日期1、适用范围：本规格书描述了恒嘉通科技有限公司生产的j988可充电锂离子电池技术要求及测试方法。

2、执行标准：2.1、GB/T18287-2000蜂窝电话用锂离子电池总规范。

2.2、YD/T999·1-1999移动通信手持机锂离子电池及充电器之行业标准。

3、基本数据：3.1、标准电压 3.7V3.2、额定容量1000mAh（以0.2C5A即200mA放电）3.3、充电电压4.20V±0.03V3.4、最大充电电流 1.5C5A（即1500mA）3.5、充电模式CC/CV（恒流/恒压）3.6、最大放电电流1C5A（连续放电）3.7、放电截止电压 2.75V3.8、运行温度充电温度0---+45℃放电温度-20---45℃3.9、储存温度一个月-20---+60℃三个月-20---+45℃一年-20---+25℃3.10、相对湿度65±20%3.11、重量大约18克4、形状及外观尺寸：详见附图或者样板。

5、外观：5.1、不允许存在如划伤、污点、锈、变形、脱色、漏液等影响商业价值的瑕疵。

5.2、与手机配合紧密，松紧适度，无阻塞，锁扣牢固，开机应正常工作。

6、测试条件以及测试仪器或设备要求：6.1、测试条件：6.1.1、温度：15℃--35℃6.1.2、相对湿度：45%--75%6.1.3、大气压力：86kPa—106kPa6.2、测试仪器或设备要求：6.2.1、电压仪表准确度不低于0.5级，内阻不低于100kΩ/V；6.2.2、电流仪表准确度不低于0.5级；6.2.3、时间仪表准确度不低于±0.1%；6.2.4、温度仪表准确度不低于±0.5℃；6.2.5、恒流源电流可调，在充放过程中，其电流变化范围应在±1%内；6.2.6、恒压源电压可调，在测试过程中其电压变化范围应在在±0.5%内。