3269W-1-103GLF中文资料

FeaturesLED Driver• 3W Class II AC-DC LED power supply • 350mA, 500mA and 700mA CC/CV output • Fused input and SCP , OVP , OLP , OTP • 3kVAC isolation • IP66 rated •Low costRACD03AC/DC ConverterDescriptionA compact universal AC input 3W constant current switching power module suitable for driving 1 - 6high power LEDs. The output (dual constant voltage / constant current mode) current limit is fixed at 350mA, 500mA or 700mA. At lower output currents, the output is constant voltage. Connections are via118mm long flying leads.E3406963 Watt CC/CVSingle OutputUL8750 certified UL1310 certifiedCAN/CSA-C22.2 No. 223-M91 certified IEC/EN61347 certifiedIEC/EN61347-2-13 certified ENEC certified CB reportSelection GuidePart Input CC CV (1)Efficiency Rated Number Voltage RangeMode Mode typ. Power nom./max.[VAC] [VDC] [mA] [VDC] [mA] [%] [W]RACD03-350 90-264 3-12 350 15 0-300 72 3 / 4.2RACD03-500 90-264 3-9.5 500 none71 3 / 4.6RACD03-70090-2643-4.5 70060-600623 / 3.1BASIC CHARACTERISTICSParameterCondition Min.Typ.Max.Input Voltage Range 90VAC 230VAC264VAC 120VDC370VDC Input Current full load, 100VAC 110mA Inrush Current 230VAC, <2ms10A Input Frequency Range 47Hz 63HzPower Factor full load, 230VAC 0.55Hold-up Time 18msOutput Ripple Current100mAp-pcontinued on next page Specifications (measured @ Ta= 25°C, nom. Vin, rated load and after warm-up unless otherwise stated)All LED Drivers may not be used without a load. They must be switched on the primary side only.Noncompliance may damage the LED or reduce its lifetime.Model Numberingnom. Output PowerRACD03-___nom. Output CurrentSpecifications (measured @ Ta= 25°C, nom. Vin, rated load and after warm-up unless otherwise stated)ENVIRONMENTALParameterConditionValueOperating Temperature Range according to UL according to ENEC-20°C to +50°C -20°C to +40°CMax. Case Temperature according to UL according to ENECRACD03-350, RACD03-700RACD03-500+67°C +65°C +75°CIP Rating IP66Operating Humidity non condensing 5% - 85% RH max.Design Lifetime+25°C ambient 20 x 103 hourscontinued on next pagePROTECTIONParameterCondition ValueInput Fuse(2)T1A, slow blowShort Circuit Protection (SCP)continuous, current limitOverload Protection (OLP)120% typ.Output Over Voltage Protection (OVP)zener diode clampRACD03-350RACD03-500RACD03-70017VDC max.14VDC max.8VDC max.Over Temperature Protection (OTP)shutdown, automatic resatart after cooling down Isolation Voltage I/P to O/P3.75kVAC/1 minute typ. / 3kVAC/1 minute min.Leakage Current0.2mA typ.Maximum loading of automatic circuit breakers*Circuit BreakerCircuit Breaker CurrentTyp 10A 16A 20A 25A C221247337430Circuit BreakerCircuit Breaker CurrentTyp 10A 16A 20A 25A B 80157200254C265317437550* @ 115VAC, 1Ohm, 90° phase angle and max. load* @ 230VAC, 1Ohm, 90° phase angle and max. loadNotes:Note2: Refer to local wiring regulations if input over-current protection is also requiredSpecifications (measured @ Ta= 25°C, nom. Vin, rated load and after warm-up unless otherwise stated)SAFETY AND CERTIFICATIONSCertificate Type (Safety)Report Number Standard Standard for LED Equipment for use in Lighting Products E340696-1-4UL8750, 1st Edition, 2009Standard for Class 2 Power Units UL1310, 6th Edition, 2011Extra Low Voltage Class 2 Outputs CAN/CSA-C22.2 No. 223-M91, 2nd Edition, 2009Lamp Controlgear Particular Requirements SH12051509-001IEC/EN61347-2-13,2006Lamp Controlgear General Requirments for Safety IEC61347-1, 2nd edition, 2010EN61347-1, 2nd edition, 2011Safety of control gear for LED modules (CB Scheme)12CA61285-1IEC/EN61347-2-13,2006Safety requirements for lamp controlgear (CB Scheme)IEC61347-1, 2nd Edition, 2010EN61347-1, 2nd Edition, 2011Lamp Controlgear General Requirments for Safety (ENEC License) ENEC-00611EN61347-1Lamp Controlgear Particular Requirements (ENEC License)EN61347-2-13D.C. or A.C. Controlgears for LED Performance Requirements (ENEC License)EN62348, 2006RoHS RoHS 6/6, 2011/65/EU EACRU Д- AT.A Г03. В.67369TP TC 004/020, 2011EMC ComplianceCondition Standard / CriterionEMC for industrial, scientific and medical equipment (design to meet)FCC18, Class A Limits and methods of measurement of radio disturbance characteristics of electrical lighting and similar equipment (design to meet)EN55015, Class ACISPR15, 7th Edition, 2009Electromagnetic compatibility - Requirements for household appliances, electric tools and similar apparatus - Part 1: Emission (design to meet)EN55014-1Limits of harmonic current emissionsVoltage Fluctuations and Flicker in Public Low-Voltage Systems <=16A per phaseIEC61000-3-2, 3rd Edition, 2009IEC61000-3-3, 2nd Edition, 2008Derating Graph-20-101020304050601008060409070503020100O u t p u t L o a d [%]Ambient Temperature [°C]Specifications (measured @ Ta= 25°C, nom. Vin, rated load and after warm-up unless otherwise stated)TypeUL-1007, AWG18UL-1007, AWG18PACKAGING INFORMATIONParameter Type Value Packaging Dimension (LxWxH) cardboard Box265.0 x 80.0 x 115.0mm Packaging Quantity10pcs Storage Temperature Range-30°C to +80°C Storage Humidity non-condensing5%-85% RHThe product information and specifications may be subject to changes even without prior written notice.The product has been designed for various applications; its suitability lies in the responsibility of each customer. The products are not authorized for use in safety-critical applications without RECOM’s explicit written consent. A safety-critical application is an application where a failure may reasonably be expected to endanger or cause loss of life, inflict bodily harm or damage property. The applicant shall indemnify and hold harmless RECOM, its affiliated companies and its representatives against any damage claims in connection with the unauthorizeduse of RECOM products in such safety-critical applications.。

© 1995RF AMP. FOR UHF TV TUNERN-CHANNEL GaAs DUAL-GATE MES FIFLD-EFFECT TRANSISTOR4 PIN SMALL MINI MOLDDocument No. P11034EJ1V0DS00 (1st edition)Date Published December 1995 P Printed in JapanFEATURES•Suitable for use as RF amplifier in UHF TV tuner.•Low C rss :0.02 pF TYP.•High G PS :20 dB TYP.•Low NF : 1.1 dB TYP.• 4 PIN SMALL MINI MOLD PACKAGEABSOLUTE MAXIMUM RATINGS (T A = 25 °C)Drain to Source Voltage V DSX 13V Gate1 to Source Voltage V G1S –4.5V Gate2 to Source Voltage V G2S –4.5V Drain CurrentI D 40mATotal Power Dissipation P T 120mW Channel Temperature T ch 125°C Storage TemperatureT stg–55 to +125°CELECTRICAL CHARACTERISTICS (T A = 25 °C)CHARACTERISTICSYMBOL MIN.TYP.MAX.UNITTEST CONDITIONSDrain Current I DSX 10µA V DS = 13 V, V G1S = –4 V, V G2S = 0Drain CurrentI DSS 52040mA V DS = 5 V, V G2S = 0, V G1S = 0Gate1 to Source Cutoff Voltage V G1S(off)–3.5V V DS = 5 V, V G2S = 0 , I D = 100 µA Gate2 to Source Cutoff Voltage V G2S(off)–3.5VV DS = 5 V, V G1S = 0, I D = 100 µA Gate1 Reverse Current I G1SS 10µA V DS = 0, V G1S = –4 V, V G2S = 0Gate2 Reverse Current I G2SS 10µA V DS = 0, V G2S = –4 V, V G1S = 0Forward Transfer Admittance |y fs |182535ms V DS = 5 V, V G2S = 1 V, I D = 10 mAf = 1.0 kHzInput CapacitanceC iss 0.51.0 1.5pF V DS = 5 V, V G2S = 1 V, I D = 10 mA Reverse Transfer Capacitance C rss 0.020.03pF f = 1 MHzPower Gain G PS 16.020.0dB V DS = 5 V, V G2S = 1 V, I D = 10 mA Noise FigureNF1.12.5dBf = 900 MHzI DSS ClassificationUnit: mA Class U71U72U73U74Marking U71U72U73U74I DSS5 to 1510 to 2520 to 3530 to 402TYPICAL CHARACTERISTICS (T A = 25 ˚C)0 25 50 75 100 125100200300400T A – Ambient Temperature – ˚C P T – T o t a l P o w e r D i s s i p a t i o n – m W TOTAL POWER DISSIPATION vs. AMBIENT TEMPERATUREDRAIN CURRENT vs.GATE1 TO SOURCE VOLTAGEV G1S – Gate 1 to Source Voltage – V 0102030I D – D r a i n C u r r e n t – m A102030V G1S – Gate 1 to Source Voltage – V y f s – F o r w a r d T r a n s f e r A d m i t t a n c e – m S FORWARD TRANSFER ADMITTANCE vs. GATE1 TO SOURCE VOLTAGE102030I D – Drain Current – mAy f s – F o r w a r d T r a n s f e r A d m i t t a n c e – m S FORWARD TRANSFER ADMITTANCE vs. DRAIN CURRENT1.02.0V G2S – Gate 2 to Source Voltage – VC i s s – I n p u t C a p a c i t a n c e – p F INPUT CAPACITANCE vs.GATE2 TO SOURCE VOLTAGE30V G2S – Gate 2 to Source Voltage – VG P S – P o w e r G a i n – d B POWER GAIN AND NOISE FIGURE vs. GATE2 TO SOURCE VOLTAGE –45 15–15–30105N F – N o i s e F i g u r e – d B3101525I D – Drain Current – mAG P S – P o w e r G a i n – d B POWER GAIN AND NOISE FIGURE vs. DRAIN CURRENTV DS = 5 V V G2S = 1 V f = 900 MHz0 20105105N F –N o i s e F i g u r e – d B 5G PSNFV DS – Drain to Source Voltage – VG P S – P o w e r G a i n – d B POWER GAIN AND NOISE FIGURE vs. DRAIN TO SOURCE VOLTAGE20105 0N F – N o i s e F i g u r e – d B 20S-PARAMETER (V DS = 5 V, V G2S = 1 V, I D = 10 mA)FREQUENCYS11S21S12S22MHz MAG ANG MAG ANG MAG ANG MAG ANG 100.00000.999–3.3 2.359177.20.006–122.30.969–1.3200.0000 1.000–7.2 2.389169.30.004123.00.981–2.9300.00000.998–9.3 2.313164.40.000–145.00.979–3.3400.00000.974–13.4 2.233160.00.00479.20.967 5.6500.0000 1.005–15.7 2.420158.40.00729.70.999–5.8600.00000.942–19.1 2.300150.00.00365.00.958–7.7700.00000.968–22.2 2.332145.50.00445.50.997–8.5800.00000.920–25.2 2.229141.50.00880.10 957–9.4900.00000.95228.9 2.447136.80.0048.30.999–12.51000.00000.898–29.4 2.303131.10.00150.90.968–11.11100.00000.915–35.1 2.348125.80.00471.40.984–14.81200.00000.879–35.22.367123.50.00091.10.989–13.04900 MHz G PS AND NF TEST CIRCUITV G2S (1 V)INPUT50 ΩV DS = 5 V, V G2S = 1 V, I D = 10 mA[MEMO]5No part of this document may be copied or reproduced in any form or by any means without the prior written consent of NEC Corporation. NEC Corporation assumes no responsibility for any errors which may appear in this document.NEC Corporation does not assume any liability for infringement of patents, copyrights or other intellectual property rights of third parties by or arising from use of a device described herein or any other liability arising from use of such device. No license, either express, implied or otherwise, is granted under any patents, copyrights or other intellectual property rights of NEC Corporation or others.While NEC Corporation has been making continuous effort to enhance the reliability of its semiconductor devices, the possibility of defects cannot be eliminated entirely. To minimize risks of damage or injury to persons or property arising from a defect in an NEC semiconductor device, customer must incorporate sufficient safety measures in its design, such as redundancy, fire-containment, and anti-failure features.NEC devices are classified into the following three quality grades:“Standard“, “Special“, and “Specific“. The Specific quality grade applies only to devices developed based ona customer designated “quality assurance program“ for a specific application. The recommended applicationsof a device depend on its quality grade, as indicated below. Customers must check the quality grade of each device before using it in a particular application.Standard:Computers, office equipment, communications equipment, test and measurement equipment, audio and visual equipment, home electronic appliances, machine tools, personal electronicequipment and industrial robotsSpecial:Transportation equipment (automobiles, trains, ships, etc.), traffic control systems, anti-disaster systems, anti-crime systems, safety equipment and medical equipment (not specifically designedfor life support)Specific:Aircrafts, aerospace equipment, submersible repeaters, nuclear reactor control systems, life support systems or medical equipment for life support, etc.The quality grade of NEC devices in “Standard“ unless otherwise specified in NEC's Data Sheets or Data Books.If customers intend to use NEC devices for applications other than those specified for Standard quality grade, they should contact NEC Sales Representative in advance.Anti-radioactive design is not implemented in this product.M4 94.11 2。

Features• Low Power Consumption • Industry Standard Size• Industry Standard Pinout • Choice of Character Size7.6 mm (0.30 in), 10 mm (0.40 in), 10.9 mm (0.43 in), 14.2 mm (0.56 in), 20 mm (0.80 in)• Choice of ColorsAlGaAs Red, High Efficiency Red (HER), Yellow, Green• Excellent Appearance Evenly Lighted Segments±50° Viewing Angle• Design FlexibilityCommon Anode or Common CathodeSingle and Dual DigitLeft and Right Hand Decimal Points±1. Overflow Character• Categorized for Luminous IntensityYellow and Green Categorized for ColorUse of Like Categories Yields a Uniform Display• Excellent for Long Digit String Multiplexing DescriptionThese low current seven segment displays are designed for applica-tions requiring low power consumption. They are tested and selected for their excellent low current characteristics to ensure that the segments are matched at low currents. Drive currents as low as 1 mA per segment are available.Pin for pin equivalent displays are also available in a standard current or high light ambient design. The standard current displays are available in all colors and are ideal for most applica-tions. The high light ambient displays are ideal for sunlight ambients or long string lengths. For additional information see the 7.6 mm Micro Bright Seven Segment Displays, 10 mm Seven Segment Displays, 7.6 mm/10.9 mm Seven Segment Displays, 14.2 mm Seven Segment Displays, 20 mm Seven Segment Displays, or High Light Ambient Seven Segment Displays data sheets.Low Current Seven SegmentDisplays Technical Data HDSP-335x SeriesHDSP-555x SeriesHDSP-751x SeriesHDSP-A10x Series HDSP-A80x Series HDSP-A90x Series HDSP-E10x Series HDSP-F10x Series HDSP-G10x Series HDSP-H10x Series HDSP-K12x, K70x Series HDSP-N10x SeriesHDSP-N40x SeriesDevicesAlGaAs HER Yellow Green Package HDSP-HDSP-HDSP-HDSP-Description Drawing A1017511A801A9017.6 mm Common Anode Right Hand Decimal A A1037513A803A9037.6 mm Common Cathode Right Hand Decimal B A1077517A807A9077.6 mm Common Anode ±1. Overflow C A1087518A808A9087.6 mm Common Cathode ±1. Overflow D F10110 mm Common Anode Right Hand Decimal E F10310 mm Common Cathode Right Hand Decimal F F10710 mm Common Anode ±1. Overflow G F10810 mm Common Cathode ±1. Overflow H G10110 mm Two Digit Common Anode Right Hand Decimal X G10310 mm Two Digit Common Cathode Right Hand Decimal Y E100335010.9 mm Common Anode Left Hand Decimal I E101335110.9 mm Common Anode Right Hand Decimal J E103335310.9 mm Common Cathode Right Hand Decimal K E106335610.9 mm Universal ±1. Overflow[1]L H101555114.2 mm Common Anode Right Hand Decimal M H103555314.2 mm Common Cathode Right Hand Decimal N H107555714.2 mm Common Anode ±1. Overflow O H108555814.2 mm Common Cathode ±1. Overflow P K121K70114.2 mm Two Digit Common Anode Right Hand Decimal R K123K70314.2 mm Two Digit Common Cathode Right Hand Decimal S N10020 mm Common Anode Left Hand Decimal Q N101N40120 mm Common Anode Right Hand Decimal T N103N40320 mm Common Cathode Right Hand Decimal U N10520 mm Common Cathode Left Hand Decimal V N106N40620 mm Universal ±1. Overflow[1]W Note:1. Universal pinout brings the anode and cathode of each segment’s LED out to separate pins. See internal diagrams L or W.Part Numbering System5082-x xx x-x x x xxHDSP-x xx x-x x x xxMechanical Options[1]00: No mechanical optionColor Bin Options[1,2]0: No color bin limitationMaximum Intensity Bin[1,2]0: No maximum intensity bin limitationMinimum Intensity Bin[1,2]0: No minimum intensity bin limitationDevice Configuration/Color[1]G: GreenDevice Specific Configuration[1]Refer to respective datasheetPackage[1]Refer to Respective datasheetNotes:1. For codes not listed in the figure above, please refer to the respective datasheet or contact your nearest Agilent representative fordetails.2. Bin options refer to shippable bins for a part-number. Color and Intensity Bins are typically restricted to 1 bin per tube (excep-tions may apply). Please refer to respective datasheet for specific bin limit information.Package DimensionsPackage Dimensions (cont.)Package Dimensions (cont.)*The Side View of package indicates Country of Origin.Package Dimensions (cont.)Package Dimensions (cont.)Package Dimensions (cont.)Internal Circuit DiagramInternal Circuit Diagram (cont.)Absolute Maximum RatingsAlGaAs Red - HDSP-HERA10X/E10X/H10X HDSP-751X/Yellow GreenK12X/N10X/N40X335X/555X/HDSP-A80X HDSP-A90X Description F10X, G10X Series K70X Series Series Series Units Average Power per Segment or DP375264mW Peak Forward Current per 45mA Segment or DPDC Forward Current per15[1]15[2]mA Segment or DPOperating Temperature Range-20 to +100-40 to +100°C Storage Temperature Range -55 to +100°C Reverse Voltage per Segment 3.0V or DPWave Soldering Temperature for 3Seconds (1.60 mm [0.063 in.] below 250°C seating body)Notes:1. Derate above 91°C at 0.53 mA/°C.2. Derate HER/Yellow above 80°C at 0.38 mA/°C and Green above 71°C at 0.31 mA/°C.Electrical/Optical Characteristics at T A = 25°CAlGaAs RedDeviceSeriesHDSP-Parameter Symbol Min.Typ.Max.Units Test Conditions315600I F = 1 mA A10x3600I F = 5 mA330650I F = 1 mAF10x, G10x3900I F = 5 mA390650I F = 1 mA E10x Luminous Intensity/Segment[1,2]I Vµcd(Digit Average)3900I F = 5 mA400700I F = 1 mAH10x, K12x4200I F = 5 mA270590I F = 1 mAN10x, N40x3500I F = 5 mA1.6I F = 1 mAForward Voltage/Segment or DP V F 1.7V I F = 5 mA1.82.2I F = 20 mA PkAll Devices Peak WavelengthλPEAK645nmDominant Wavelength[3]λd637nmReverse Voltage/Segment or DP[4]V R 3.015V I R = 100 µATemperature Coefficient of∆V F/°C-2 mV mV/°CV F/Segment or DPA10x255F10x, G10x320E10x340Thermal Resistance LED RθJ-PIN°C/W/SegH10x, K12x Junction-to-Pin400N10x, N40x430High Efficiency RedDeviceSeriesHDSP-Parameter Symbol Min.Typ.Max.Units Test Conditions160270I F = 2 mA 751x1050I F = 5 mA200300I F = 2 mA Luminous Intensity/Segment[1,2]I V mcd(Digit Average)1200I F = 5 mA335x, 555x,K70x270370I F = 2 mA1480I F = 5 mA1.6I F = 2 mAForward Voltage/Segment or DP V F 1.7V I F = 5 mA2.1 2.5I F = 20 mA Pk All Devices Peak WavelengthλPEAK635nmDominant Wavelength[3]λd626nmReverse Voltage/Segment or DP[4]V R 3.030V I R = 100 µATemperature Coefficient of∆V F/°C-2mV/°CV F/Segment or DP751x200335x Thermal Resistance LED RθJ-PIN280°C/WJunction-to-Pin555x, K70x345YellowDeviceSeriesHDSP-Parameter Symbol Min.Typ.Max.Units Test Conditions Luminous Intensity/Segment[1,2]250420I F = 4 mA(Digit Average)I V mcd1300I F = 10 mA1.7I F = 4 mAForward Voltage/Segment or DP V F 1.8V I F = 5 mA A80x2.1 2.5I F = 20 mA PkPeak WavelengthλPEAK583nmDominant Wavelength[3,5]λd581.5585592.5nmReverse Voltage/Segment or DP[4]V R 3.030V I R = 100 µATemperature Coefficient of∆V F/°C-2mV/°CV F/Segment or DPThermal Resistance LED RθJ-PIN200°C/WJunction-to-PinGreenDeviceSeriesHDSP-Parameter Symbol Min.Typ.Max.Units Test Conditions Luminous Intensity/Segment[1,2]250475I F = 4 mA(Digit Average)I V mcd1500I F = 10 mA1.9I F = 4 mAForward Voltage/Segment or DP V F 2.0V I F = 10 mA A90x2.1 2.5I F = 20 mA PkPeak WavelengthλPEAK566nmDominant Wavelength[3,5]λd571577nmReverse Voltage/Segment or DP[4]V R 3.030V I R = 100 µATemperature Coefficient of∆V F/°C-2mV/°CV F/Segment or DPThermal Resistance LED RθJ-PIN200°C/WJunction-to-PinNotes:1. Device case temperature is 25°C prior to the intensity measurement.2. The digits are categorized for luminous intensity. The intensity category is designated by a letter on the side of the package.3. The dominant wavelength, λd, is derived from the CIE chromaticity diagram and is the single wavelength which defines the color of thedevice.4. Typical specification for reference only. Do not exceed absolute maximum ratings.5. The yellow (HDSP-A800) and Green (HDSP-A900) displays are categorized for dominant wavelength. The category is designated by anumber adjacent to the luminous intensity category letter.AlGaAs RedIntensity Bin Limits (mcd)AlGaAs RedHDSP-A10xIV Bin Category Min.Max.E0.3150.520F0.4280.759G0.621 1.16H0.945 1.71I 1.40 2.56J 2.10 3.84K 3.14 5.75L 4.708.55HDSP-E10x/F10x/G10xIV Bin Category Min.Max.D0.3910.650E0.5320.923F0.755 1.39G 1.13 2.08H 1.70 3.14HDSP-H10x/K12xIV Bin Category Min.Max.C0.4150.690D0.5650.990E0.810 1.50F 1.20 2.20G 1.80 3.30H 2.73 5.00I 4.097.50HDSP-N10xIV Bin Category Min.Max.A0.2700.400B0.3250.500C0.4150.690D0.5650.990E0.810 1.50F 1.20 2.20G 1.80 3.30H 2.73 5.00I 4.097.50Intensity Bin Limits (mcd), continued HERHDSP-751xIV Bin Category Min.Max.B0.1600.240C0.2000.300D0.2500.385E0.3150.520F0.4280.759G0.621 1.16HDSP-751xIV Bin Category Min.Max.B0.2400.366C0.3000.477D0.3910.650E0.5320.923F0.755 1.39G 1.13 2.08H 1.70 3.14HDSP-555x/K70xIV Bin Category Min.Max.A0.2700.400B0.3250.500C0.4150.690D0.5650.990E0.810 1.50F 1.20 2.20G 1.80 3.30H 2.73 5.00I 4.097.50Intensity Bin Limits (mcd), continued YellowHDSP-A80xIV Bin Category Min.Max.D0.2500.385E0.3150.520F0.4250.760G0.625 1.14H0.940 1.70I 1.40 2.56J 2.10 3.84K 3.14 5.76L 4.718.64M7.0713.00N10.6019.40O15.9029.20P23.9043.80Q35.8065.60GreenHDSP-A90xIV Bin Category Min.Max.E0.3150.520F0.4250.760G0.625 1.14H0.940 1.70I 1.40 2.56J 2.10 3.84K 3.14 5.76L 4.718.64M7.0713.00N10.6019.40O15.9029.20P23.9043.80Q35.8065.60Electrical/OpticalFor more information on electrical/optical characteristics, please see Application Note 1005.Contrast Enhancement For information on contrast enhancement, please see Application Note 1015.Soldering/Cleaning Cleaning agents from the ketone family (acetone, methyl ethyl ketone, etc.) and from the chorinated hydrocarbon family (methylene chloride, trichloro-ethylene, carbon tetrachloride, etc.) are not recommended for cleaning LED parts. All of these various solvents attack or dissolve the encapsulating epoxies used to form the package of plastic LED parts.For information on soldering LEDs, please refer to Application Note 1027.Note:All categories are established for classification of products. Productsmay not be available in all categories. Please contact your localAgilent representatives for further clarification/information.Color Categories/semiconductorsFor product information and a complete list ofdistributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or(916) 788 6763Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (+65) 6271 2451India, Australia, New Zealand: (+65) 6271 2394Japan: (+81 3) 3335-8152(Domestic/International), or0120-61-1280(Domestic Only)Korea: (+65) 6271 2194Malaysia, Singapore: (+65) 6271 2054Taiwan: (+65) 6271 2654Data subject to change.Copyright © 2005 Agilent Technologies, Inc.Obsoletes 5988-8412ENJanuary 19, 20055989-0080EN。

电路图ws =白色sw =黑色ro =红色rt =红色br =褐色gn =绿色bl =蓝色gr =灰色li =淡紫色vi =淡紫色ge =黄色or =橘黄色rs =粉红色蓄电池A - 蓄电池B - 起动马达，在发动机舱左侧变速箱上C - 交流发电机，在发动机右侧前方J293 - 冷却液风扇控制单元，在发动机舱左侧冷却液风扇内J500 -转向辅助控制单元，在副车架上部中间J519 - B CM 车身控制单元，在仪表板左侧下方SA1 - 保险丝 1，200 安培，交流发电机保险丝，在发动机舱内左侧电控箱前面保险丝架上 B 号位SA2 - 保险丝 2，80 安培，转向辅助控制单元保险丝，在发动机舱内左侧电控箱前面保险丝架上 C 号位SA3 - 保险丝 3，50 安培，冷却液风扇控制单元保险丝，在发动机舱内左侧电控箱前面保险丝架上 E 号位SA5 - 保险丝 5，80 安培，仪表板左侧下方保险丝盒内 30 号总线供电保险丝，在发动机舱内左侧电控箱前面保险丝架上 D 号位T2bx - 2 针插头，黑色，电动机械式转向助力器马达插头T4p - 4 针插头，黑色，在散热风扇护罩左侧下部1 -接地点，蓄电池 - 车身，在横隔板上左侧507- 正极螺栓连接点 ( 30 )，在发动机舱内左侧电控箱前面保险丝架上-提示：请忽略图片右侧颜色备注。

ws =白色sw =黑色ro =红色rt =红色br =褐色gn =绿色bl =蓝色gr =灰色li =淡紫色vi =淡紫色ge =黄色or =橘黄色rs =粉红色Motronic 供电继电器J271 - Motronic 供电继电器，在发动机舱内左侧电控箱顶面保险丝架上 R2 号位 ( 100 继电器 )J519 - B CM 车身控制单元，在仪表板左侧下方J623 -发动机控制单元，在排水槽中部***SB13 - 保险丝 13，10 安培，Motronic 供电继电器、发动机控制单元保险丝，在发动机舱内左侧电控箱顶面保险丝架上**SB13 - 保险丝 13，5 安培，Motronic 供电继电器、发动机控制单元保险丝，在发动机舱内左侧电控箱顶面保险丝架上SB14 - 保险丝 14，15 安培，发动机控制单元保险丝，在发动机舱内左侧电控箱顶面保险丝架上SB24 - 保险丝 24，20 安培，带功率输出级的点火线圈保险丝，在发动机舱内左侧电控箱顶面保险丝架上N70 - 带功率输出级的点火线圈 1，在气缸盖罩顶部右侧N127 - 带功率输出级的点火线圈 2，在气缸盖罩顶部中间右侧N291 - 带功率输出级的点火线圈 3，在气缸盖罩顶部中间左侧N292 - 带功率输出级的点火线圈 4，在气缸盖罩顶部左侧T4t - 4 针插头，黑色，带功率输出级的点火线圈 1 插头T4u - 4 针插头，黑色，带功率输出级的点火线圈 2 插头T4v - 4 针插头，黑色，带功率输出级的点火线圈 3 插头T4w - 4 针插头，黑色，带功率输出级的点火线圈 4 插头T14a - 14 针插头，黑色，在发动机舱内，左纵梁前方T40a - 40 针插头，黑色，在发动机舱内左侧电控箱下面T94a - 94 针插头，黑色，发动机控制单元插头B315 -正极连接线 ( 30a )，在主导线束中B351 -正极连接线 ( 87a )，在主导线束中 D35-连接线 ( 87a )，在发动机预装线束中** - 用于装备 1.4T 发动机标识字母 CFB 的车型*** - 用于装备 1.8T 发动机标识字母 CEA / 2.0T 发动机标识字母CGM 的车型-提示：请忽略图片右侧颜色备注。

April 20041/7OPERATIONAL AMPLIFIERs LOW INPUT OFFSET VOLTAGE : 0.5mV typ.s LOW SUPPLY CURRENT : 350µA/op.(@ V CC = 5V)s MEDIUM BANDWIDTH (unity gain) : 0.9MHz s LARGE OUTPUT VOLTAGE SWING : 0V to (V CC - 1.5V)s INPUT COMMON MODE VOLTAGE RANGE INCLUDES GROUNDs WIDE POWER SUPPLY RANGE : 3 to 32V ±1.5 TO ±16Vs 1.5kV ESD PROTECTION s VOLTAGE REFERENCEs FIXED OUTPUT VOLTAGE REFERENCE 2.5Vs ±0.4% OR ±0.7% VOLTAGE PRECISION s SINK CURRENT CAPABILITY : 1 to 100mA sTYPICAL OUTPUT IMPEDANCE : 0.2ΩDESCRIPTIONThe TSM103W is a monolithic IC that includes one independent op-amp and another op-amp for which the non-inverting input is wired to a 2.5V fixed Voltage Reference. This device offers both space and cost savings in many applications such as power supply management or data acquisition systems.ORDER CODEPIN CONNECTIONS (top view)Part Number TemperatureRangePackage PackagingTSM103WID -40, +105°C SO-8Tube TSM103WIDT Tape & ReeTSM103WAID Tube TSM103WAIDTTape & ReelTSM103WDual Operational Amplifier and Voltage ReferenceRevision 3TSM103W ABSOLUTE MAXIMUM RATINGS 1 ABSOLUTE MAXIMUM RATINGSSymbol Parameter Value Unit V CC Supply Voltage36V V id Differential Input Voltage Vcc + 0.6V V i Input VoltageL-0.3 to Vcc + 0.3V V T stg Storage temperature range-65 to + 150°C Ik Continuous cathode current range-100 to 150mA T j Maximum Junction Temperature150°C R thja Thermal Resistance Junction to Ambient (SO package)175°C/W T l Maximum Lead Temperature (10 seconds maximum)260°C ESD Electrostatic Discharge Protection 1.5kVOPERATING CONDITIONSSymbol Parameter Value Unit Vcc DC Supply Conditions 3 to 32VI k Vref Cathode Current 1 to 100mAT oper Operating Free-air Temperature Range-40°C, +105°C°CELECTRICAL CHARACTERISTICS TSM103W2 ELECTRICAL CHARACTERISTICSOPERATOR 2 (independent op-amp)V CC + = +5V, V CC = Ground, V o = 1.4V,T amb = 25°C (unless otherwise specified)SymbolParameterMin.Typ.Max.UnitI CCTotal Supply Current, excluding Current in the Voltage Reference Vcc+ = 5V, no load Tmin. < Tamb < Tmax.Vcc+ = 30V, no load Tmin. < Tamb < Tmax0.7 1.22mASymbolParameterMin.Typ.Max.Unit V ioInput Offset Voltage V icm = 0VTSM103WA, T amb = 25°T min. ≤ T amb ≤ T max.TSM103W, T amb = 25°T min. ≤ T amb ≤ T max.0.512345mVDV io Input Offset Voltage Drift 7µV/°CI io Input Offset Current T min. ≤ T amb ≤ T max.275150nA I ib Input Bias Current T min. ≤ T amb ≤ T max20150200nAAvd Large Signal Voltage GainV CC = 15V, R L = 2k, Vo = 1.4V to 11.4V T min. ≤ T amb ≤ T max.5025100V/mV SVR Supply Voltage Rejection Ratio V CC = 5V to 30V65100dB Vicm Input Common Mode Voltage Range V CC = +30V - see note 1T min. ≤ T amb ≤ T max.00(V CC +) -1.5(V CC +) -2V CMR Common Mode Rejection Ratio T min. ≤ T amb ≤ T max.706085dB I source Output Current SourceV CC = +15V, Vo = 2V, V id = +1V 2040mAI oShort Circuit to Ground V CC = +15V4060mAI sinkOutput Current Sink V id = -1V,V CC = +15V, V o = 2V V CC = +15V, V o = 0.2V 10122050mA µAV OHHigh Level Output Voltage V CC + = 30VT amb = 25°C, R L = 2k T min. ≤ T amb ≤ T maxT amb = 25°C, R L = 10k T min. ≤ T amb ≤ T max.262627272728VV OL Low Level Output Voltage R L = 10kT min. ≤ T amb ≤ T max.52020mVSR Slew Rate at Unity Gain V i = 0.5 to 3V, V CC = 15VR L = 2k, C L = 100pF, unity gain0.20.4V/µsTSM103WELECTRICAL CHARACTERISTICSOPERATOR 1 (op-amp with non-inverting input connected to the internal Vref)V CC + = +5V, V CC - = Ground, T amb = 25°C (unless otherwise specified)GBPGain Bandwidth ProductV CC = 30V,R L = 2k, C L = 100pF f = 100kHz, V in = 10mV 0.50.9MHzTHD Total Harmonic Distortion f = 1kHzA V = 20dB,R L = 2k, V CC = 30V C L = 100pF, V o = 2V pp0.02%e nEquivalent Input Noise Voltage f = 1kHz, Rs = 100ΩVcc = 30V50nV/√Hz1)The input common-mode voltage of either input signal voltage should not be allowed to go negative by more than 0.3V. The upper endof the common-mode voltage range is V CC + - 1.5V. Both inputs can go to Vcc+ 0.3V without damage.SymbolParameterMin.Typ.Max.UnitV io Input Offset Voltage V icm = 0VTSM103WA, T amb = 25°T min. ≤ T amb ≤ T max.TSM103W, T amb = 25°T min. ≤ T amb ≤ T max.0.512345mVDV io Input Offset Voltage Drift 7µV/°C I ib Input Bias Current negative input20nAAvdLarge Signal Voltage GainV CC = 15V, R L = 2k, Vo = 1.4V to 11.4V T min. ≤ T amb ≤ T max100V/mVSVRSupply Voltage Rejection Ratio V icm = 0VV CC + = 5V to 30V 65100dBI source Output Current Source V o = 2VV CC = +15V, V id = +1V 2040mA I oShort Circuit to Ground V CC = +15V4060mAI sinkOutput Current Sink V id = -1V,V CC = +15V, V o = 2V V CC = +15V, V o = 0.2V 10122050mA µAV OHHigh Level Output Voltage V CC + = 30VT amb = 25°C, R L = 2k T min. ≤ T amb ≤ T max.T amb = 25°C, R L = 10k T min. ≤ T amb ≤ T max.262627272728VV OLLow Level Output Voltage R L = 10kT min. ≤ T amb ≤ T max.52020mVSR Slew Rate at Unity Gain V i = 0.5 to 2V, V CC = 15VR L = 2k, C L = 100pF, unity gain0.20.4V/µsSymbol ParameterMin.Typ.Max.UnitELECTRICAL CHARACTERISTICSTSM103WVOLTAGE REFERENCEGBPGain Bandwidth ProductV CC = 30V,R L = 2k, C L = 100pF f = 100kHz, V in = 10mV 0.50.9MHzTHD Total Harmonic Distortion f = 1kHzA V = 20dB,R L = 2k, V CC = 30V C L = 100pF, V o = 2V pp0.02%Symbol ParameterMin.Typ.Max.Unit SymbolParameterMin.Typ.Max.UnitV refReference Input Voltage, Ik=10mA TSM103WA ±0.4% T amb = 25°C T min. ≤ T amb ≤ T max.TSM103W ±0.7% T amb = 25°C T min. ≤ T amb ≤ T max.2.492.482.4822.4652.52.5002.512.522.5182.535V∆V refReference Input Voltage Deviation Over Temperature RangeV KA = V ref ; I k = 10mA T min. ≤ T amb ≤ T max.730mV I min Minimum Cathode Current for Regulation V KA = V ref0.51mA|Z KA |Dynamic Impedance - note 1V KA = V ref , ∆I K = 1 to 100mA, f < 1kHz0.20.5Ω1)The dynamic impedance is defined as [Z KA | = ∆V KA /∆I KSUMMARY OF CHANGES TSM103W3 SUMMARY OF CHANGESDateRevision Description of Changes1-2First Release02-April-200431 - Vid=Vcc+0.6 modified on AMR table - page 22 - Add Ik parameter on AMR table - page 23 - Avd test condition equal on both tables Operator 1 & Operator 2 - pages 3 & 4Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics.The ST logo is a registered trademark of STMicroelectronics All other names are the property of their respective owners© 2004 STMicroelectronics - All Rights ReservedSTMicroelectronics GROUP OF COMPANIESAustralia - Belgium - Brazil - Canada - China - Czech Repubic - Finland - France - Germany - Hong Kong - India - Israel - Italy - JapanMalaysia - Malta - Morocco - Singapore - Spain - Sweden - Switzerland - United Kingdom - United States。

W3HG128M64EEU-D4ADVANCED*White Electronic Designs1GB – 128Mx64 DDR2 SDRAM UNBUFFERED, SO-DIMMDESCRIPTIONThe W3HG128M64EEU is a 128Mx64 Double Data Rate2 SDRAM memory module based on 1Gb DDR2 SDRAM components. The module consists of eight 128Mx8, in FBGA package mounted on a 200 pin SO-DI MM FR4 substrate.* T his product is under development, is not qualifi ed or characterized and is subject to change or cancellation without notice.NOTE: C onsult factory for availability of:• Vendor source control options • Industrial temperature optionFEATURES200-pin, Small-Outline DIMM (SO-DIMM), RawCard "B" Fast data transfer rates: PC2-6400*, PC2-5300*,PC2-4200 and PC2-3200 Utilizes 800*, 667*, 533 and 400 Mb/s DDR2SDRAM components V CC = V CCQ = 1.8V ± 0.1V V CCSPD = 1.7V to 3.6VJEDEC standard 1.8V I/O (SSTL_18-compatible) Differential data strobe (DQS, DQS#) option Four-bit prefetch architectureDLL to align DQ and DQS transitions with CK Multiple internal device banks for concurrentoperation Supports duplicate output strobe (RDQS/RDQS#) Programmable CAS# latency (CL): 3, 4, 5* and 6* Adjustable data-output drive strength On-Die Termination (ODT)Posted CAS# latency: 0, 1, 2, 3 and 4 Serial Presence Detect (SPD) with EEPROM 64ms: 8,192 cycle refresh Gold edge contacts Single Rank RoHS Compliant JEDEC Package option• 200 Pin (SO-D IMM)• PCB – 29.20mm (1.150") TYPOPERATING FREQUENCIESPC2-6400*PC2-5300*PC2-4200PC2-3200Clock Speed 400MHz 333MHz 266MHz 200MHz CL-t RCD -t RP6-6-65-5-54-4-43-3-3* Consult factory for availabilityW3HG128M64EEU-D4ADVANCEDWhite Electronic DesignsPIN NAMESSYMBOLDESCRIPTION A0 - A13Address inputODT0On-Die Termination CK0, CK0#Differential Clock Inputs CK1, CK1#Differential Clock inputs CKE0Clock Enable input CS0#Chip selectRAS#, CAS#, WE#Command Inputs BA0 - BA2Bank Address Inputs DM0 - DM7Input Data Mask DQ0 - DQ63Data Input/Output DQS0 - DQS7DQS0#-DQS7#Data StrobeSCL Serial Clock for Presence Detect SA0-SA1Presence Detect Address Inputs SDA Serial Presence Detect Data V CC Power SupplyV REF SSTL_18 reference voltage V SS GroundV CCSPD Serial EEPROM Power Supply NCNo ConnectPIN CONFIGURATIONPIN#SYMBOL PIN#SYMBOL PIN#SYMBOL PIN#SYMBOL1V REF51DQS2101A1151DQ422V SS 52DM2102A0152DQ463V SS53V SS 103V CC 153DQ434DQ454V SS 104V CC 154DQ475DQ055DQ18105A10/AP 155V SS 6DQ556DQ22106BA1156V SS 7DQ157DQ19107BA0157DQ488V SS 58DQ23108RAS#158DQ529V SS 59V SS 109WE#159DQ4910DM060V SS 110CS0#160DQ5311DQS0#61DQ24111V CC 161V SS 12V SS 62DQ28112V CC 162V SS 13DQS063DQ25113CAS#163NC 14DQ664DQ29114ODT0164CK115V SS65V SS 115NC 165V SS 16DQ766V SS 116A13166CK1#17DQ267DM3117V CC 167DQS6#18V SS 68DQS3#118V CC 168V SS 19DQ369NC 119NC 169DQS620DQ1270DQS3120NC 170DM621V SS 71V SS 121V SS 171V SS 22DQ1372V SS 122V SS 172V SS 23DQ873DQ26123DQ32173DQ5024V SS74DQ30124DQ36174DQ5425DQ975DQ27125DQ33175DQ5126DM176DQ31126DQ37176DQ5527V SS 77V SS 127V SS 177V SS 28V SS 78V SS 128V SS 178V SS 29DQS1#79CKE0129DQS4#179DQ5630CK080NC 130DM4180DQ6031DQS181V CC 131DQS4181DQ5732CK0#82V CC 132V SS 182DQ6133V SS 83NC 133V SS 183V SS 34V SS 84NC 134DQ38184V SS 35DQ1085BA2135DQ34185DM736DQ1486NC 136DQ39186DQS7#37DQ1187V CC137DQ35187V SS 38DQ1588V CC 138V SS 188DQS739V SS 89A12139V SS 189DQ5840V SS 90A11140DQ44190V SS 41V SS 91A9141DQ40191DQ5942V SS 92A7142DQ45192DQ6243DQ1693A8143DQ41193V SS 44DQ2094A6144V SS 194DQ6345DQ1795V CC 145V SS 195SDA 46DQ2196V CC 146DQS5#196V SS 47V SS 97A5147DM5197SCL 48V SS 98A4148DQS5198SA049DQS2#99A3149V SS 199V CCSPD 50NC 100A2150V SS 200SA1White Electronic DesignsW3HG128M64EEU-D4ADVANCED FUNCTIONAL BLOCK DIAGRAMW3HG128M64EEU-D4ADVANCEDWhite Electronic DesignsRECOMMENDED DC OPERATING CONDITIONSAll voltages referenced to V SSParameter Symbol Min Max Units Notes Supply VoltageV CC 1.7 1.9V -I/O Reference VoltageV REF 0.49 x V CC 0.51 x V CC V 1I/O Termination Voltage (system)V TT V REF - 40V REF + 40mV 2NOTE:1. V REF is expected to equal V CCQ /2 of the transmitting device and to track variations in the DC level of the same. Peak-to-peak noise (non-common mode) on V REF may not exceed±1 percent of the DC value. Peak-to-peak AC noise on V REF may not exceed ±2 percent of V REF (DC). This measurement is to be taken at the nearest V REF bypass capacitor.2. V TT is not applied directly to the device. V TT is a system supply for signal termination resistors, is expected to be set equalto V REF and must track variations in the DC level of V REF .ABSOLUTE MAXIMUM DC CHARACTERISTICSSymbol ParameterMin Max Units V CC V CC Supply Voltage Relative to V SS -0.5 2.3V V IN , V OUT Voltage on any Pin Relative to V SS -0.5 2.3V T STG Storage Temperature-55100°C T CASE DDR2 SDRAM Device Operating Temperature*085°C T OPR Operating Temperature (Ambient)065°C I IInput Leakage Current; Any input 0V ≤ V IN ≤ V CC ; V REF input 0V ≤ V IN ≤0.95V; (All other pins not under test = 0V)Command/Address, RAS#, CAS#, WE# S#, CKE-4040µACK, CK#-2020DM-55I OZ Output Leakage Current; 0V ≤ V OUT ≤ V CC Q; DQs and ODT are disabledDQ, DQS, DQS#-55µA I VREFV REF Leakage Current; V REF = Valid V REF level-1616µA* T CASE specifi es as the temperature at the top center of the memory devices.CAPACITANCET A = 25°C, f = 100MHz, V CC = 1.8V, V REF = V SSParameterSymbol Max Unit Input Capacitance (A0-A12)C IN135pF Input Capacitance (RAS#,CAS#,WE#)C IN235pF Input Capacitance (CKE0)C IN331pF Input Capacitance (CK0, CK0#)C IN415pF Input Capacitance (CS0#)C IN531pF Input Capacitance (DQS0#-DQS17#)C IN66pF Input Capacitance (BA0-BA1)C IN735pF Data input/output Capacitance (DQ0-DQ63)C OUT 6pFNOTE:* These capacitance values are based on worst case component values in conjunction with the circuit boards associated parasitic net capacitance.W3HG128M64EEU-D4ADVANCED White Electronic DesignsDDR2 I CC SPECIFICATIONS AND CONDITIONSDDR2 SDRAM components onlyV CC = +1.8V ± 0.1VParameter Symbol Condition806665534403Units Operating one devicebank active-precharge current;I CC0t CK = t CK (I CC), t RC = t RC (I CC), t RAS = t RAS MIN (I CC); CKE is HIGH, CS# isHIGH between valid commands; Address bus inputs are SWITCHING;Data bus inputs are SWITCHING.TBD800640640mAOperating one devicebank active-read-precharge current;I CC1I OUT = 0mA; BL = 4, CL = CL(I CC), AL = 0; t CK = t CK (I CC), t RC = t RC (I CC),t RAS = t RAS MIN (I CC), t RCD = t RCD (I CC); CKE is HIGH, CS# is HIGHbetween valid commands; Address bus inputs are SWITCHING; Datapattern is same as I CC4W.TBD1,160760760mAPrecharge power-down current;I CC2PAll device banks idle; t CK = t CK (I CC); CKE is LOW; Other control andaddress bus inputs are STABLE; Data bus inputs are FLOATING.TBD564040mAPrecharge quiet standby current;I CC2QAll device banks idle; t CK = t CK (I CC); CKE is HIGH, CS# is HIGH; Othercontrol and address bus inputs are STABLE; Data bus inputs areFLOATING.TBD480328280mAPrecharge standby current;I CC2NAll device banks idle; t CK = t CK (I CC); CKE is HIGH, CS# is HIGH; Othercontrol and address bus inputs are SWITCHING; Data bus inputs areSWITCHING.TBD520360280mAActive power-down current;I CC3PAll device banks open; t CK = t CK (I CC); CKE is LOW;Other control and address bus inputs are STABLE;Data bus inputs are FLOATING.Fast PDN ExitMR[12] = 0TBD320240200mASlow PDN ExitMR[12] = 1TBD808080mAActive standby current;I CC3N All device banks open; t CK = t CK(I CC), t RAS = t RAS MAX (I CC), t RP = t RP(I CC);CKE is HIGH, CS# is HIGH between valid commands; Other control andaddress bus inputs are SWITCHING; Data bus inputs are SWITCHING.TBD560400320mAOperating burst write current;I CC4WAll device banks open, Continuous burst writes; BL = 4, CL = CL (I CC),AL = 0; t CK = t CK (I CC), t RAS = t RAS MAX (I CC), t RP = t RP (I CC); CKE isHIGH, CS# is HIGH between valid commands; Address bus inputs areSWITCHING; Data bus inputs are SWITCHING.TBD1,4401,040960mAOperating burst read current;I CC4RAll device banks open, Continuous burst reads, I OUT = 0mA; BL = 4, CL= CL (I CC), AL = 0; t CK = t CK (I CC), t RAS = t RAS MAX (I CC), t RP = t RP (I CC);CKE is HIGH, CS# is HIGH between valid commands; Address businputs are SWITCHING; Data bus inputs are SWITCHING.TBD1,6401,1601,080mABurst refresh current;I CC5t CK = t CK (I CC); Refresh command at every t RFC (I CC) interval; CKEis HIGH, CS# is HIGH between valid commands; Other control andaddress bus inputs are SWITCHING; Data bus inputs are SWITCHING.TBD2,1602,0001,920mASelf refresh current;I CC6CK and CK# at 0V; CKE ≤ 0.2V; Other control and address bus inputsare FLOATING; Data bus inputs are FLOATING.TBD564040mAOperating device bank interleave read current; I CC7All device banks interleaving reads, I OUT= 0mA; BL = 4, CL = CL (I CC),AL = t RCD (I CC)-1 x t CK (I CC); t CK = t CK (I CC), t RC = t RC(I CC), t RRD = t RRD(I CC),t RCD = t RCD(I CC); CKE is HIGH, CS# is HIGH between valid commands;Address bus inputs are STABLE during DESELECTs; Data bus inputsare SWITCHINGTBD2,7202,3602,360mANote:• I CC specifi cation is based on MICRON components. Other DRAM manufacturers specifi cation may be different.W3HG128M64EEU-D4ADVANCEDWhite Electronic DesignsAC OPERATING CONDITIONSV CC = +1.8V ±0.1VC l o c kAC Characteristics Symbol806665534403Units NotesParameterMinMaxMin Max Min Max Min Max Clock cycle timeCL = 6t CK (6)3,0008,000------ps CL = 5t CK (5)3,0008,0003,0008,000----ps 16, 22, 36, 38CL = 4t CK (4)3,0008,0003,7508,0003,7508,0005,0008,000ps CL = 3tCK (3)--5,0008,0005,0008,0005,0008,000psCK high-level width tCH AVG 0.480.520.480.520.480.520.480.52t CK 45CK low-level width tCL AVG0.480.520.480.520.480.520.480.52tCKHalf clock periodtHP MIN (t CH,t CL)MIN (t CH,t CL)MIN (t CH,t CL)MIN (t CH,t CL)ps46C l o c k (A b s o l u t e )Absolute tCk tCK abstCKAVG+(MIN)+tJITPER (MIN)tCKAVG+(MAX)+t JITPER (MAX)tCKAVG+(MIN)+t JITPER (MIN)tCKAVG+(MAX)+t JITPER (MAX)tCKAVG+(MIN)+t JITPER (MIN)tCKAVG+(MAX)+t JITPER (MAX)tCKAVG+(MIN)+t JITPER (MIN)tCKAVG+(MAX)+tJITPER (MAX)psAbsolute CK high-level widthtCH abstCKAVG (MIN)*t CH AVG+t JIT DTY(MIN)tCKAVG (MAX)*t CH AVG+t JIT DTY(MAX)tCKAVG (MIN)*t CH AVG+t JIT DTY(MIN)tCKAVG (MAX)*t CH AVG+t JIT DTY(MAX)tCKAVG (MIN)*t CH AVG+t JIT DTY(MIN)tCKAVG (MAX)*t CH AVG+t JIT DTY(MAX)tCKAVG (MIN)*t CH AVG+t JIT DTY(MIN)tCKAVG (MAX)*t CHAVG+t JIT DTY(MAX)psAbsolute CK low-level widthtCL abstCKAVG (MIN)*tCLAVG(MIN)+t JIT DTY(MIN)t CKAVG (MAX)*tCLAVG (MAX)+t JIT DTY(MIN)t CKAVG (MIN)*t CLAVG (MIN)+t JIT DTY(MIN)t CKAVG (MAX)*t CLAVG (MAX)+t JIT DTY(MIN)t CKAVG (MIN)*t CLAVG (MIN)+t JIT DTY(MIN)t CKAVG (MAX)*t CLAVG (MAX)+t JIT DTY(MIN)t CKAVG(MIN)*t CLAVG(MIN)+tJIT DTY(MIN)tCKAVG(MAX)*t CLAVG(MAX)+t JITDTY(MIN)psC l o c k j i t t e rClock jitter - period tJIT PER-125125-125125-125125-125125ps 39Clock jitter - half period tJIT DUTY -125125-125125-125125-150150ps 40Clock jitter - cycle to cycle tJIT CC250250250250ps 41Cumulative jitter error, 2 cycles t ERR 2per -175175-175175-175175-175175ps 42Cumulative jitter error, 3 cycles t ERR 3per -225225-225225-225225-225225ps 42Cumulative jitter error, 4 cycles t ERR 4per -250250-250250-250250-250250ps 42Cumulative jitter error, 5cycles t ERR 5per-250250-250250-250250-250250ps 42, 48Cumulative jitter error, 6-10 cycles t ERR 6-10per -350350-350350-350350-350350ps 42, 48Cumulative jitter error, 11-50 cyclest ERR 11-50per -450450-450450-450450-450450ps42Note:• AC specifi cation is based on MICRON components. Other DRAM manufactures specifi cation may be different.W3HG128M64EEU-D4ADVANCEDWhite Electronic DesignsAC OPERATING CONDITIONS (continued)V CC = +1.8V ±0.1VD a t aAC Characteristics Symbol806665534403Units Notes ParameterMin Max Min Max Min Max Min Max tQHS-340-340-400-450ps 47DQ output access time from CK/CK#tAC -450+450-450+450-500+500-600+600ps 43Data-out high-impedance window from CK/CK#tHZtAC (MAX)tAC (MAX)tAC (MAX)tAC (MAX)ps 8, 9, 43Data-out low-impedance window from CK/CK#tLZ1tAC (MIN)tAC (MAX)tAC (MIN)tAC (MAX)tAC (MIN)tAC (MAX)tAC (MIN)tAC (MAX)ps 8, 10, 43Data-out low-impedance window from CK/CK#tLZ 22*t AC(MIN)tAC (MAX)2*t AC(MIN)tAC (MAX)2*t AC(MIN)tAC (MAX)2*t AC(MIN)tAC (MAX)ps 8, 10, 43DQ and DM input setup time relative to DQS tDS a300300350400ps 7, 15,19DQ and DM input hold time relative to DQS tDH a 300300350400ps 7, 15, 19DQ and DM input setup time relative to DQS tDS b100100100150ps 7, 15, 19DQ and DM input hold time relative to DQS tDH b175175225275ps7, 15,19DQ and DM input pulse width (for each input)t DIPW0.350.350.350.35tCK37Data hold skew factortQHS340340400450ps 47DQ–DQS hold, DQS to fi rst DQ to go nonvalid, per accesstQHtHP-tQHStHP-tQHStHP-tQHStHP-tQHSps 15, 17, 47Data valid output window (DVW)t DVWt QH - tDQSQ t QH - tDQSQ t QH - tDQSQ t QH- tDQSQns15, 17D a t a S t r o b eDQS input high pulse width t DQSH 0.350.350.350.35t CK 37DQS input low pulse widthtDQSL0.350.350.350.35tCK37DQS output access time from CK/CK#t DQSCK -400+400-400+400-450+450-500+500ps40DQS falling edge to CK rising – setup time t DSS 0.20.20.20.2t CK 37DQS falling edge from CK rising – hold timetDSH0.20.20.20.2tCK37Note:• AC specifi cation is based on MICRON components. Other DRAM manufactures specifi cation may be different.W3HG128M64EEU-D4ADVANCEDWhite Electronic DesignsAC OPERATING CONDITIONS (continued)V CC = +1.8V ±0.1VD a t a S t r o b eAC Characteristics Symbol806665534403Units Notes ParameterMinMax MinMax MinMax MinMax DQS–DQ skew, DQS to last DQ valid, per group, per accesstDQSQ 240240300350ps15, 17DQS read preamble tRPRE 0.9 1.10.9 1.10.9 1.10.9 1.1tCK33, 37, 43DQS read postamble t RPST0.40.60.40.60.40.60.40.6tCK33, 34, 37, 43DQS write preamble setup time tWPRE S 0000ps12, 13,DQS write preamble tWPRE 0.350.350.250.25tCK 37DQS write postambletWPST 0.40.60.40.60.40.60.40.6t CK 11, 37Positive DQS latching edge to associated clock edge tDQSS- 0.25 0.25- 0.25 0.25- 0.25 0.25- 0.25 0.25tCK 37Write command to fi rst DQS latching transition WL-tDQSSWL+tDQSSWL-tDQSSWL+tDQSSWL-tDQSSWL+tDQSSWL-tDQSSWL+tDQSStCK C o m m a n d a n d A d d r e s sAddress and control input pulse width for each input t IPW0.60.60.60.6tCK37Address and control input setup time t IS a 400400500600ps 6, 19Address and control input hold time tIH a 400400500600ps 6, 19Address and control input setup time t IS b200200250350ps6, 19Address and control input hold time tIH b2752753754756, 19CAS# to CAS# command delayt CCD2222tCK37ACTIVE to ACTIVE (same bank) command tRC54555555ns 31, 37ACTIVE bank a to ACTIVE bank b command t RRD (x8)7.57.57.57.5ns 25, 37ACTIVE to READ or WRITE delay tRCD 12151515ns 37Four Bank Activate period tFAW(x8)37.537.537.537.5ns28, 37ACTIVE to PRECHARGE command tRAS 4070,0004070,0004070,0004070,000ns 18, 31,37Internal READ to precharge command delay tRTP 7.57.57.57.5ns 21, 25. 37Write recovery timet WR15151515ns 25, 37Auto precharge write recovery + precharge time tDALtWR + tRPtWR + tRPtWR + tRPtWR + tRPns 20Internal WRITE to READ command delay t WTR 7.57.57.510ns 25, 37PRECHARGE command period tRP12151515ns 29, 37PRECHARGE ALL command period t RPAtRP + tCKtRP + tCKtRP + tCKtRP + tCKns29LOAD MODE command cycle timet MRD 2222tCK37Note:• AC specifi cation is based on MICRON components. Other DRAM manufactures specifi cation may be different.W3HG128M64EEU-D4ADVANCEDWhite Electronic DesignsAC OPERATING CONDITIONS (continued)V CC = +1.8V ±0.1VAC Characteristics Symbol806665534403Units Notes ParameterMinMaxMinMaxMinMaxMinMaxR e f r e s hCKE low to CK,CK# uncertainty tDELAYtIS + tCK + tIH tIS + tCK + tIH tIS + tCK + tIH tIS + tCK + tIHns 26REFRESH to ACTIVE or REFRESH to REFRESH command intervaltRFC 127.570,000127.570,000127.570,000127.570,000ns 14, 37Average periodic refresh interval (commercial)tREFI 7.87.87.87.8µs 14, 37Average periodic refresh interval (industrial)tREFI IT 3.9 3.93.93.9µs 14, 37S e l f R e f r e s hExit self refresh to non-READ command tXSNR t RFC(MIN) + 10t RFC(MIN) + 10t RFC(MIN) + 10t RFC(MIN) + 10nsExit self refresh to READ command tXSRD200200200200tCK37Exit self refresh timing reference tISXR t IS t ISt ISt ISps 6, 27O D TODT turn-on delay t AOND 22222222tCK37ODT turn-on tAOND tAC (MIN)tAC (MAX) + 700)t AC (MIN)tAC (MAX) + 700)t AC (MIN)tAC (MAX) + 1,000)t AC (MIN)tAC (MAX) + 1,000)ps23, 43ODT turn-off delay tAOFD2.52.52.52.52.52.52.52.5tCK35, 37ODT turn-off tAOFtAC (MIN)tAC (MAX + 600)t AC (MIN)tAC (MAX + 600)t AC (MIN)tAC (MAX + 600)t AC (MIN)tAC (MAX + 600)ps 24, 44ODT turn-on (power-down mode)t AONPDtAC (MIN) + 2,000 2 x tCK +tAC (MAX) + 1,000t AC (MIN) + 2,000 2 x tCK +t AC (MAX) + 1,000t AC (MIN) + 2,000 2 x tCK +t AC (MAX) + 1,000t AC (MIN) + 2,0002 x tCK +tAC (MAX)+ 1,000psODT turn-off (power-down mode)t AOFPDtAC (MIN)+ 2,000 2.5 xtCK +tAC (MAX) + 1,000tAC (MIN)+ 2,000 2.5 xtCK +tAC (MAX) + 1,000tAC (MIN)+ 2,000 2.5 xtCK +tAC (MAX) + 1,000tAC (MIN)+ 2,000 2.5 xtCK +tAC (MAX)+ 1,000psODT to power-down entry latency tANPD 3333t CK 37ODT power-down exit latency tAXPD8888tCK37ODT enable from MRS command tMOD 12121212ns37, 49P o w e r D o w nExit active power-down to READ command, MR[bit12=0]t XARD2222tCK37Exit active power-down to READ command, MR[bit12=1]tXARDS 7 - AL 7 - AL 6 - AL 6 - AL 37Exit precharge power-down to any non-READ command.t XP 2222t CK 37CKE minimum high/low timetCKE3333tCK32, 37Note:• AC specifi cation is based on MICRON components. Other DRAM manufactures specifi cations may be different.W3HG128M64EEU-D4ADVANCED* White Electronic DesignsNotes:1. All voltages referenced to VSS.2. Tests for AC timing, I CC, and electrical AC and DC characteristics may be conductedat nominal reference / supply voltage levels, but the related specifi cations anddevice operation are guaranteed for the full voltage range specifi ed. ODT is disabled for all measurements that are not ODT-specifi c.3. Outputs measured with equivalent load:4. AC timing and I CC tests may use a V IL-to-V IH swing of up to 1.0V in the testenvironment and parameter specifi cations are guaranteed for the specifi ed AC input levels under normal use conditions. The slew rate for the input signals used to test the device is 1.0V/ns for signals in the range between V IL (AC) and V IH (AC). Slew rates less than 1.0V/ns require the timing parameters to be derated as specifi ed.5. The AC and DC input level specifi cations are as defi ned in the SSTL_18 standard(i.e., the receiver will effectively switch as a result of the signal crossing the AC inputlevel and will remain in that state as long as the signal does not ring back above [below] the DC input LOW [HIGH] level).6. There are two sets of values listed for Command/Address: t ISa, t IHa and t ISb, t IHb. Thet ISa, t IHa values (for reference only) are equivalent to the baseline values of t ISb, t IHb at V REF when the slew rate is 1V/ns. The baseline values, t ISb, t IHb, are the JEDEC defi ned values, referenced from the logic trip points. t ISb is referenced from V IH (AC) for a rising signal and V IL (AC) for a falling signal, while t IHb is referenced from V IL (DC) for a rising signal and V IH (DC) for a falling signal. If the Command/Address slew rate is not equal to 1 V/ns, then the baseline values must be derated.7. The values listed are for the differential DQS strobe (DQS and DQS#) with adifferential slew rate of 2 V/ns (1 V/ns for each signal). There are two sets of values listed: t DSa. t DHa and t DSb, t DHb. The t DSa, t DHa values (for reference only) are equivalent to the baseline values of t DSb, t DHb at V REF when the slew rate is 2V/ns, differentially. The baseline values, t DSb, t DHb, are the JEDEC-defi ned values, referenced from the logic trip points. t DSb is referenced from V IH (AC) for a rising signal and V IL (AC) for a falling signal, while t DSb is referenced from V IL (DC) for a rising signal and V IH (DC) for a falling signal. If the differential DQS slew rate is not equal to 2 V/ns, then the baseline values must be derated. If the DQS differential strobe feature is not enabled, then the DQS strobe is single-ended, the baseline values not applicable, and timing is not referenced to the logic trip points. Single-ended DQS data timing is referenced to DQS crossing V REF.8. t HZ and t LZ transitions occur in the same access time windows as valid datatransitions. These parameters are not referenced to a specifi c voltage level, butspecify when the device output is no longer driving (t HZ) or begins driving (t LZ).9. This maximum value is derived from the referenced test load. t HZ (MAX) will prevailover t DQSCK (MAX) + t RPST (MAX) condition.10. t LZ (MIN) will prevail over a t DQSCK (MIN) + t RPRE (MAX) condition11. The intent of the "Don’t Care" state after completion of the postamble is the DQS-driven signal should either be high, low or High-Z and that any signal transitionwithin the input switching region must follow valid input requirements. That is if DQS transitions high (above V IH DC(min) then it must not transition low (below V IH(DC) prior to t DQSH(min).12. This is not a device limit. The device will operate with a negative value, but systemperformance could be degraded due to bus turnaround.13. It is recommended that DQS be valid (HIGH or LOW) on or before the WRITEcommand. The case shown (DQS going from High-Z to logic LOW) applies when no WRITEs were previously in progress on the bus. If a previous WRITE was inprogress, DQS could be HIGH during this time, depending on t DQSS.14. The refresh period is 64ms (commercial) or 32ms (industrial). This equates to anaverage refresh rate of 7.8125µs (commercial) or 3.9607µs (industrial). However, a REFRESH command must be asserted at least once every 70.3µs or t RFC (MAX).To ensure all rows of all banks are properly refreshed, 8,192 REFRESH commands must be issued every 64ms.15. Referenced to each output group: x4 = DQS with DQ0–DQ3; x8 = DQS withDQ0–DQ7; x16 = LDQS with DQ0–DQ7; and UDQS with DQ8–DQ15.16. CK and CK# input slew rate is referenced at 1 V/ns (2 V/ns if measureddifferentially).17. The data valid window is derived by achieving other specifi cations - t HP. (t CK/2),t DQSQ, and t QH (t QH = t HP - t QHS). The data valid window derates in directproportion to the clock duty cycle and a practical data valid window can be derived.18. READs and WRITEs with auto precharge are allowed to be issued beforet RAS(MIN) is satisfi ed since t RAS lockout feature is supported in DDR2 SDRAM.19. V IL/V IH DDR2 overshoot/undershoot.20. t DAL = (nWR) + (t RP/t CK). Each of these terms, if not already an integer, should berounded up to the next integer. t CK refers to the application clock period; nWR refers with t WR programmed to four clocks would have t DAL = 4 + (15ns/3.75ns) clocks =4 + (4) clocks = 8 clocks.21. The minimum internal READ to PRECHARGE time. This is the time from the last4-bit prefetch begins to when the PRECHARGE command can be issued. A 4-bit prefetch is when the READ command internally latches the READ so that data will output CL later. This parameter is only applicable when t RTP/(2x t CK) > 1, such as frequencies faster than 533 MHz when tRTP = 7.5ns. If tRTP/ (2x t CK) ≤ 1, then equation AL + BL/2 applies. tRAS (MIN) also has to be satisfi ed as well. The DDR2 SDRAM will automatically delay the internal PRECHARGE command until t RAS(MIN) has been satisfi ed.22. Operating frequency is only allowed to change during self refresh mode, prechargepower-down mode, and system reset condition.23. t DAL = (nWR) + (t RP/t CK): For each of the terms above, if not already an integer,round to the next highest integer. t CK refers to the application clock period;AC Operation Condition Notes: nWR refers to the t WR parameter stored in theMR[11,10,9]. Example: For -533Mb/s at t CK = 3.75 ns with t WR programmed to four clocks. t DAL = 4 + (15 ns/3.75 ns) clocks = 4 +(4) clocks = 8 clocks.24. ODT turn-off time t AOF (MIN) is when the device starts to turn off ODT resistance.ODT turn off time t AOF (MAX) is when the bus is in high-Z. Both are measured from t AOFD.25. This parameter has a two clock minimum requirement at any t CK.26. t DELAY is calculated from t IS + t CK + t IH so that CKE registration LOW isguaranteed prior to CK, CK# being removed in a system RESET condition.27. t ISXR is equal to t IS and is used for CKE setup time during self refresh exit.28. No more than 4 bank ACTIVE commands may be issued in a given t FAW(min)period. t RRD(min) restriction still applies. The t FAW(min) parameter applies to all 8 bank DDR2 devices, regardless of the number of banks already open or closed. 29. t RPA timing applies when the PRECHARGE(ALL) command is issued, regardlessof the number of banks already open or closed. If a single-bank PRECHARGEcommand is issued, t RP timing applies. t RPA(MIN) applies to all 8-bank DDR2devices.30. Value is minimum pulse width, not the number of clock registrations.31. This is applicable to Read cycles only. Write cycles generally require additional timedue to t WR during auto precharge.32. t CKE (MIN) of 3 clocks means CKE must be registered on three consecutivepositive clock edges. CKE must remain at the valid input level the entire time it takes to achieve the 3 clocks of registration. Thus, after any CKE transition, CKE may not transition from its valid level during the time period of t IS + 2 x t CK + t IH.33. This parameter is not referenced to a specifi c voltage level, but specifi ed when thedevice output is no longer driving (t RPST) or beginning to drive (t RPRE).34. When DQS is used single-ended, the minimum limit is reduced by 100ps.35. The half-clock of t AOFD's 2.5 t CK assumes a 50/50 clock duty cycle. This half-clockvalue must be derated by the amount of half-clock duty cycle error. For example, if the clock duty cycle was 47/53, t AOFD would actually be 2.5 - 0.03, or 2.47 for t AOF (MIN) and 2.5 + 0.03 or 2.53 for t AOF (MAX).36. The clock’s t CK AVG is the average clock over any 200 consecutive clocks and。

Key Features:• 1W Output Power • Miniature SIP Case • Single & Dual Outputs • Complies to RFI Standards • 1,000 VDC Isolation • >1.12 MHour MTBF • 36 Standard Models•Industry Standard Pin-OutD100Single & Dual Output Miniature, 1W SIP DC/DC Con v ert e rsSeriesMicroPower Direct 292 Page Street Suite DStoughton, MA 02072USAT: (781) 344-8226F: (781) 344-8481E: sales@ W: RoHS CompliantElectrical Specifi cationsSpecifi cations typical @ +25°C, nominal input voltage & rated output current, unless otherwise noted. Specifi cations subject to change without notice.• All dimensions are typical in inches (mm) Tolerance x.xx = ±0.01 (±0.25)• Pin 1 is marked by a “dot” or indentation onthe side of the unitNotes:1. Output load regulation is specifi ed for a load change of 20% to 100%.2. T hese units do not require external components to operate, but the use of an input capacitor (10 μF) may enhance performance in some applications. It is recommended that an input capacitor of 4.7 u F to 47 u F (dependent upon the application) be used on 48V input model.An output capacitor (4.7 μF to 100 μF or ±4.7 μF to ±68 μF) may be used to reduce ripple. To improve EMI performance, a simple fi lter network consisting of a 10 u F to 100 u F capacitor and 12 u H inductor should be effective.3. These units will operate at no load without damage, but may not meet all specifi cations.4. D ual output units may be connected to provide a 10V, 18V, 24V or 30 VDC output. To do this, connect the load across the positive (+Vout) and negative (-Vout) outputs and fl oat the output common.5. It is recommended that a fuse be used on the input of a power supply for protection. See the table above for the correct rating.Derating CurveNotes:All dimens•Tolerance Pin 1 is mathe side ofMicroPower Direct292 Page Street, STE D, Stoughton, MA 02072 • TEL: (781) 344-8226 • FAX: (781) 344-8481 • E-Mail: sales@Model Selection GuideMechanical DimensionsCapacitive Other input/output combinations are available(i.e. 24.0 VDC). Contact the factory for details at:sales@。

V260B1-C01 配机芯有：8K60MAX1518包括一个高性能升压调节器、两个线性稳压控制器以及大电流运算放大器，用于有源矩阵薄膜晶体管（TFT ）液晶显示器（LCD ）。

器件还包括一个逻辑控制、具有可调节延时的高压开关。

V315B3-C01 配机芯有8M19TPS65161的20、21、22：电源输入Vin; 此IC 与外围电配合可产生几路电压：VGH ：23V V AAP ：13.5V VGL ：负5V VDA ： VON ： VOFF ： VLOGIC ：3.3V 等32寸奇美屏驱动板（屏供电12V ）V320B1-C03 配机芯有：8M10FP5138：电源管理芯片，升压、降压、升降压转换IC ，驱动能力强，可以很好的提供LCD 屏正负偏设计方案，各组电压输出稳定，还可以适用于7—12寸LED 液晶屏背光升压垣流驱动。

有短路保护、开路保护、软启动功能，工作电压1.8—15V ，工作电流5.5mA 。

1脚：FB 反馈 2脚：SCP 保护/软启动 3脚：VCC 供电 4脚：CTL 控制 5脚：OUT 输出 6脚：GND 地 7脚：OSC 振荡 8脚：COMP 补偿V296W1-C1，X7 配机芯有：8TG5V296W1-C1逻辑板电路主要有三大部分组成：1.由U4（CM2651B-KQ ）为核心的时序与逻辑控制电路，主要功能是将串行的LVDS 信号变成并行的控制信号，用于薄腊晶体管的控制或驱动；2.由U7—U11（HX8904TA 、HX8904SA ）为核心的伽玛放大电路，主要是将伽玛信号进行适当的放大，控制薄膜晶体管，实现画面对比度的调整；3.由UP1（FA3269A V ）为核心的DC-DC 变换电路，主是是将主板送来的5V 供电变成VGH （20V ）、VDA （15V ）、VGL （—5V ）、V5V （5V ）、VDD （3.3V ）等等，用于屏驱动供电，此逻辑板损坏的最多的地方就是这部分，易损坏元件为UP1、QP5、DP3、UP2、RP37、LP2电感等等。

RAC AC/DC Conver er100 Watt Single OutputDescriptionThese industrial grade power supplies have been designed to give many years of trouble-free life. Despite their low cost, they use high grade electrolytic capacitors and are certified to heavy industry performance levels, working reliably over an extended temperature and world-wide input voltage range. The RACG series are more compact than the standard industry size, yet offer higher performance with full output protection (SCP, OLP), active power factor correction and improved input surge, hold-up time and efficiency ratings. The power supplies can be mounted horizontally or vertically and are fully certified to CE, UL and Class B EMC standards. Typical uses are industrial, commercial and high reliability applications. The RACG series come with a 3 year warranty.FeaturesRegulated Converter• Built-in active PFC • Efficiency up to 88%• Isolated output 3kVAC / 1 minute • SCP , OLP protection• Operating temperature range -20°C to +60°C • Universal input 90-264VAC / 120VDC-370VDCRACG100Model NumberingS inglenom. Output PowerOutput VoltageRACG100-__ SSelection GuidePart Input Input nom. Output Adj. Output Output EfficiencyNumber Voltage Range Current max. Voltge Voltage (1)Current max. typ.(2) [VAC] [A] [VDC] [VDC] [A] [%] RACG100-05S 90-264 1.5 5 3.3-5.5 20 84RACG100-12S 90-264 1.5 12 10-15 8.5 87RACG100-24S 90-264 1.5 24 21-27 4.5 88RACG100-48S 90-264 1.5 48 43.2-52.8 2.2 88Ordering Examples:RACG100-12S 100 Watt 12Vout Single Output RACG100-48S 100 Watt 48Vout Single OutputBASIC CHARACTERISTICSParameterConditionMin.Typ.Max.Input Voltage Range (3)nom. Vin = 230VDC90VAC 120VDC264VAC370VDC Inrush Currentcold start at +25°C115VAC230VAC30A 50ANo load Power Consumption 3WInput Frequency Range47Hz63HzMinimum Load 0%Power Factor 115VAC230VAC 0.98 0.93Set-up Time 115VAC 230VAC 4s 2sHold-up Time230VAC20mscontinued on next pageSpecifications (measured at Ta= 25°C, nom. Vin (115/230VAC), full load and after warm-up)Notes:Note1: For detail information please refer to graph on page PA-2 Note2: Efficiency is tested at 230VAC and full load at +25°C ambientE196683EN60950 certifiedCAN/CSA-C22.2 No. 60950 certified UL No. 60950 certified EN55032 compliant EN55024 compliantSpecifications(measured at Ta= 25°C, nominal input voltage (115/230VAC), full load and after warm-up)REGULATIONSParameter Condition ValueOutput Accuracy 5Vout, 12Vout24Vout, 48Vout±2.0% max.±1.0% max.Line Regulation low line to high line, full load ±0.5% max.Load Regulation 5Vout, 12Vout24Vout, 48Vout2.0% max.1.0% max.Specifications (measured at Ta= 25°C, nom. Vin (115/230VAC), full load and after warm-up)ENVIRONMENTALParameterConditionValueOperating Temperature Range full load -20°C to +40°C refer to derating graph-20°C to +60°CTemperature Coefficient 0.03%/KMoisture Protection conformally coated PCBOperating Altitude 5000mOperating Humidity non-condensing20% - 90% RH max.MTBFaccording to MIL-HDBK-217F, G.B.+25°C200 x 103 hours-40-20204060801001008060409070503020100O u t p u t L o a d [%]Ambient Temperature [°C]Derating GraphPROTECTIONSParameterTypeValueInput Fuse (5)internalT5A, slow blowShort Circuit Protection (SCP)continuous, hiccup and auto recoveryOver Load Protection (OLP)110% - 150% of rated output voltage, continuous, hiccup and auto recoveryIsolation Voltage tested for 1 minute I/P to O/P3kVAC I/P to case 1.5kVAC O/P to case500VACIsolation Resistance 100M Ω min.Leakage CurrentI/P to O/P I/P to case0.25mA max. 3.5mA max.Notes:Note5: Refer to local safety regulations if input over-current protection is also requiredSAFETY AND CERTIFICATIONSCertificate Type (Safety)Report / File NumberStandard Information Technology Equipment, General Requirements for Safety E196683CAN/CSA-C22.2 No. 60950-1UL No. 60950-1Information Technology Equipment, General Requirements for Safety EN60950-1:2006 + A2:2013EAC Safety of Low Voltage Equipment RU-AT.49.09571TP TC 004/2011RoHS2RoHS-2011/65/EU + AM-2015/863continued on next pageSpecifications (measured at Ta= 25°C, nom. Vin (115/230VAC), full load and after warm-up)EMC ComplianceConditionStandard / CriterionElectromagnetic compatibility of multimedia equipment – Emission RequirementsEN55032:2015; Class B Information technology equipment - Immunity characteristics - Limits and methods of measurementEN55024:2010 + A1:2015Electromagnetic compatibility of multimedia equipment – Emission RequirementsEN61000-3-2:2014 Limits of Voltage Fluctuations & FlickerEN61000-3-3:2013Specifications(measured at Ta= 25°C, nom. Vin (115/230VAC), full load and after warm-up)PACKAGING INFORMATIONParameter Type Value Packaging Dimension (LxWxH)cardboard box138.0 x 100.0 x 45.0mm Packaging Quantity1pcs Storage Temperature Range-30°C to +85°C Storage Humidity non-condensing10% - 90% RH max.The product information and specifications may be subject to changes even without prior written notice.The product has been designed for various applications; its suitability lies in the responsibility of each customer. The products are not authorized for use in safety-critical applications without RECOM’s explicit written consent. A safety-critical application is an application where a failure may reasonably be expected to endanger or cause loss of life, inflict bodily harm or damage property. The applicant shall indemnify and hold harmless RECOM, its affiliated companies and its representatives against any damage claims in connection with the unauthorizeduse of RECOM products in such safety-critical applications.。

Thank y ou!With the INOGENI to USB 3.0 capture device, you have justacquired the finest and easiest to use DVI/HDMI/VGA/CVBS/3GSDI to USB 3.0 converter. Engineered by video professionals, for video professionals, it is the mostcompatible USB 3.0 device across most OSes and USB 3.0 chipsets.No driver installation insures trouble-free operation, just Plug’n Go!Since the list of features and software/hardware compatibilities is growing constantly, please consult the website, , for the latest information.You will also find the latest firmware, FAQs and upgrade tools on theweb site.4KXUSB3:4K+LOOP to USB 3.0 4K2USB3:4K to USB 3.0HD2USB3:HD to USB 3.0DVI2USB3:DVI to USB 3.0VGA2USB3:VGA to USB 3.0SDI2USB3:SDI to USB 3.0 Connection Diagram:4KVIDEO+AUDIOUSB 3.0HDMILOOP4KXUSB3 OnlyLINEMIC /LINEQuick Sta r t GuideQuickStart:Eager to try it, Now?Connect the INOGENI to a USB 3.0 port and to your video source.1Download and run VideoLan VLCplayer, for Windows, Linux or OSX: /vlc/index.html Go to Media->Open Capture Device.2Video device name and Audiodevice name, select your INOGENI device.3In the Video size text b o x,enter the resolutionof your video source, for example 1920x1080.(if your source is not 60 Hz, go to Advancedoptions and set the frame rate)Hit Play!You s hou ld see and hear your live vi d e o!Package contents1- 1x INOGENI Converter2- 1x USB 3.0 or Type-C cable3- 1x HDMI to DVI adapter (DVIUSB model only)Limited Two (2)Y ear W arranty on Parts and LaborInogeni warrants the products against material defects in materials or workmanship under normal use and service for a period of two (2) year after the date of the original purchase. During this period, Inogeni will, at Inogeni option, repair or replace a defective product with a new or recertified or equivalent product without charge to you for parts or labor.TO THE FULLEST EXTENT ALLOWED BY LAW. THE WARRANTIES. REMEDIES AND LIMITATIONS CONTAINED HEREIN ARE EXCLUSIVE AND ARE IN LIEUOF All OTHER WARRANTIES, TERMS OR CONDITIONS, EXPRESS ORIMPLIED, EITHER IN FACT OR BY OPERATION OF LAW, STATUTORY OR OTHERWISE INCLUDING WITHOUT LIMITATION, WARRANTIES, TERMS OR CONDITIONS OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, QUALITY, CORRESPONDENCE WITH OESCRIPTION ANDNON-INFRINGEMENT, ALL OF WHICH ARE EXPRESSLY DISCLAIMED. INOGENI WILL NOT BE LIABLE UNDER THIS WARRANTY IF ITS TESTING AND EXAMINATION DISCLOSE THAT THE ALLEGED DEFECT OR MALFUNCTIONIN THE PRODUCT OR SOFTWARE DOES NOT EXIST OR WAS CAUSED BY CUSTOMER’S OR ANY THIRD PARTY’S MISUSE, NEGLECT, IMPROPER INSTALLATION OR TESTING, UNAUTHORIZED ATTEMPTS TO OPEN, REPAIR OR MODIFY THE PRODUCT OR SOFTWARE OR ANY OTHER CAUSE BEYOND THE RANGE OF THE INTENDED USE, OR BY ACCIDENT, FIRE, LIGHTNING, OTHER HAZARDS OR ACTS OF GOD. THIS WARRANTY WILL NOT APPLYTO PRODUCTS USED FOR NUCLEAR RELATED, WEAPONS RELATED, MEDICAL OR LIFE SAVING PURPOSES TO THE FULLEST EXTENT ALLOWEDBY LAW. INOGENI ALSO EXCLUDES FOR ITSELF AND ITS SUPPLIERS ANY LIABILITY WHETHER BASED IN CONTRACT OR TORT (INCLUDING NEGLIGENCE), FOR INCIDENTAL, CONSEQUENTIAL, INDIRECT, SPECIAL OR PUNITIVE DAMAGES OF ANY KIND, OR FOR LOSS OF REVENUE OR PROFITS, LOSS OF BUSINESS, LOSS OF INFORMATION OR DATA, OR OTHER FINANCIAL LOSS ARISING OUT OF OR IN CONNECTION WITH THE SALE, INSTALLATION, MAINTENANCE, USE, PERFORMANCE, FAILURE, OR INTERRUPTION OF ITS PRODUCTS. EVEN IF INOGENI, ITS SUPPLIERS OR ITS RESELLER HAS BEEN ADVISED OF THE POSSIBLITY OF SUCH DAMAGES INOGENI’S SOLE LIABILITY WITH RESPECT TO ITSPRODUCT IS LIMITED TO REPAIR OR REPLACEMENT OF THE PRODUCT AT INOGENI’S OPTION. THIS DISCLAIMER OF LIABILITY FOR DAMAGES WILLNOT BE AFFECTED IF ANY REMEDY PROVIDED HEREIN SHALL FAIL FOR ESSENTIAL PURPOSE.DISCLAIMER: Some jurisdictions may not allow the exclusion or limitation o f incidental or consequential damages for products s up p lied to customers, or the limitation of liability for personal injury, so the foregoing limitations and exclusions may not apply or may be limited in their application to you. When implied warranties are not allowed to be excluded in their entirety, they will Quick troubleshooting:1- The port on your computer must be USB 3.0. The tab inside theconnector is blue, or you will see the USB“S S”(Superspeed)logo beside it.2-USB 3.0 is a relatively new technology, be sure to have the latestUSB 3.0 drivers for your computer. Visit your computer website.3-The frame rate of the source must match exactly the frame rateselected in your application for optimal performance.4-You can load a Diagnostic tool and Sample application from .5-Please visit for frequently-asked-questions (FAQs).6-You can contact INOGENI technical support at ******************* Compatibility:Since INOGENI uses the standard Windows/Linux/OSX video capture driver, no driver installation is necessary and it insures maximum compatibility with most capture and streaming applications. Please visit the web sitefor the latest a pp li ca t io n s that were tested with the INOGENI device.We would be glad to hear from you and your application with the INOGENI, please give us your feedback at *******************.For technical support, email us at *******************.© Copyright 2019 by Inogeni, Inc. All rights reserved.be limited to the duration of the applicable written warranty. This warranty gives you specific legal rights that may vary depending on the law of the applicable jurisdiction.ShippingInogeni will pay for shipping cost from Inogeni to the customer, worldwide, provided the product is indeed under warranty and there is no damage caused by improper installation or modification of the product. Inogeni reserves the right to claim for shipping fees along with service charges for any product that is returned incomplete or not under warranty. Return Authorization (RMA) is required for all warranty return products. Please contact *******************to obtain a RMA number and instructions. FCC NoticeNOTE: This equipment has been tested and found to comply with the limitsfor a Class A digital device, pursuant to Part 15 of the FCC Rules. These limit sare designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense.European Union EMC Directive conformance sta t ementThis product is in conformity with the protection requirements of EU Council Directive 2004/108/EC on the approximation of the laws of the Member States relating to electromagnetic compatibility.This product has been tested and found to comply with the limits for Class A Information Technology Equipment according to CISPR 22/European Standard EN 55022. The limits for Class A equipment were derived for commercial and industrial environments to provide reasonable protection against interference with licensed communication equipment.ICES-003CAN ICES-3(A)NMB-3(A)Manufacturer:Inogeni Inc.530-979 Ave de BourgogneQuebec, QC G1W 2L4Canada。

康佳牌彩电遥控器对照表1康佳遥控器 (KONKA)康佳彩电遥控器对照表遥控器型号发射芯 CPU 频道彩电机型片号KK-Y0125 M50462AP M50436-560SP 1-30KK-T920DKK-920DIKK-T953PKK-T953P1T953ST953PIIIKK-Y0222 TC9012F-011 TMP47C434AN-3526 1-25 T953FIIT953FSIIT953FSIIIT953HT920IIIT920CIIIKK-Y03 TC9012F-011 TMP47C434N 1-32 T-914HT914KK-Y04KK-Y0526 SAA3010TCTV222S.PRC1 0-89 KK-T920920C-1KK-T920WT953FST953FSIIT926A 3918-01T7918AT7918BT2105T2107T2111T2111AT2113T2115T2115AT2115BT2118AT2516 T2517AKK-Y06 24 MN6014W MN15287KWC 1-32 T5435E5T2106T2106AT2107T2506T2510T2510BT2510N ONWAT2512T2512AT2512BT2512NT2610T2610AT2610NT2610BT2616AT2806T2806A928KK-T928NT971NT2910AT2910NT2916AT2916NT2986AKK-Y0730 M50462AP M50436-560SP 1-30T1826T1926T2109T2110T2116T2119T2121KK-Y0830 M50462AP M50436-560SP 1-30 T2010T2110T2112T2114T2121T2128T5466KT5471KT5471KIT5472KKK-Y09KK-Y10KK-Y11 SAA3010 PCA84C440P 0-89TT2111AT21072118T2118ATKK-Y12KK-Y13KK-Y14KK-Y1529 M50462AP M50436-560SP 1-30 T1826T8355T4733EST5442ET2138DT2138AKK-Y1623 M3004LAB1 ST6363 英文0-99 T3721E1T4432E2T4442ET4733E3T4934E4T5143ET5428ET5432ZT5435E5T5441ET5442ET2138AT2138A1 T2138D T2519T2530 T2987DT953S3KK-Y1725 SAA3010 PCA84C440 0-39KK-Y18KK-Y1930 M50462AP M50436-560AP 1-30KK-Y22KK-Y25 TC9028A-023 0-99KK-Y50KK-Y5224 SAA3010 PCA84C640P 0-89 T2105 T2107 T2111 T2111A T2113T2115 2118 T2118A CTV222S.PRC T2516T2517T2517A T2517B T3478 T3477B T3478BKK-Y53KK-Y54 M50462AP M50436-560SP 1-30 T2121KK-Y5521 M3004LAB1 ST6367B1/FCB 0-99 T3731E T3721E T3721EIT3733E T4733E3 T4934E4 T5143ET5428ET5429T5429ET5431ET5432ET5435E5T5441E T5442ET2128AT2138AT2138DT953S3KK-Y57KK-Y5922KK-Y6024 M50560-008P M34300-607SP 0-99 T2588X T2977X T2978XKK-Y61KK-Y6225KK-Y70KK-Y7226 GMS30112 T2131G T2135G T2518GKK-Y74KK-Y75 M50560-008P M34300-607SP 0-99 T2518XKK-Y76 M50560-008P T2516X T2585KK-Y77KK-Y7827 M50560-008P M37211M2-609SP 0-99T2131BT2135BT2583HT2587H T2588HT2989H T2991HIKK-Y7924 M50560-008PM37210M3-800SP 0-99 T2588 T2588B T2588X T2588XI T2588X2T2977B T2577XT2979X T2983 T2983XT2986B T2986X T2987BT2989T2978BT3477 T6462NIKK-Y80KK-Y81KK-Y8428 M3004LAB1 ST6367B1/BML 0-99 T2517D T2518D T2519D T2530D1T2987DKK-Y8528 M3004 LAB1 ST6367B1/BML 0-99 T2517D T2518P T2519DKK-Y8626 M50560-008P M37210M3-800SP 34KK-Y90KK-Y9221 M3004 LAB1 T953SKK-Y9321M3004LAB1 ST6367B1/FCB 0-99KK-Y95KK-Y9628 M50560-008PM37211M2-609SPKK-Y97KK-Y9827 M50560-008PM37210M3-800SPKK-Y99KK-Y10027 M3004 LAB1 ST6368B4/FHO 0-99 T2530DT2530DI T2977D1T2979DIT2982ID T2982DIKK-Y101 2139NKK-Y10228 M50560-008P T2991KK-Y10326 2588N 2989NKK-Y10427 T2588N T2983 T3477N T3877NKK-Y106KK-Y10726KK-Y110KK-Y11225 M3004 LAB1 ST6368B4/FHE 0-99T953DT1432DIIT2131DT2132DT2133ET2135DT2136DT2139DT2979D1F2139DF2139D/GF5428DF5428D/GF5429DF5429D/GF2131DF2131D/GF2132DF2132D/GF2135D/GF2137D2F2518DF2520DF2520D/GF2528DIF2528DIGF2530DF2530D/GF2531DF2531DIF2531DIGF2977DF2977D/GF2979DF2979D/G F2979D1KK-Y11327 M50560-008PM37210M4-705SP 0-87 T2528H T2991/HIKK-Y115KK-Y11927 M50560-008PM37210M4-705SP 0-87 T2988L T2991HKK-Y120KK-Y123 2981 2991 2999 3498KK-Y12524 T2988LKK-Y126KK-Y13228 M50560-008PM37211M2-609SPKK-Y133KK-Y135KK-Y13627KK-Y140KK-Y14125 M3004 LAB1ST6368B4/FK1 0-99 953D/GF953DT1437D2 T3731D T3732D T3733D T3734D T3735D T3736D T2131D T2131G T2132D T2133D T2135D T2136D T2505F T2518D T2586DT2586DI T2587D T2587DI T2979D2 T2986DT2986DIT9539F2131DF2132D/9F2135DF2135D/9P2131DKK-Y160KK-Y16825 M3004 LAB1 ST6378B4/FKI 0-99 F5427D4F5428D4/GF5429D4 F5429D4/GF1437D5F1437D5/G F2131D4F2132D4F2132D4/GF2135D4F2135D4/G F2137D5F2137D5/GF2139D4F2139D4/G F2139D5F2139D5/GF2528DF2528D2/GF2530D2F2530D2F2530D2/GF2531D2F2131D2/GF2929D2/GF2977D2F2977D2/GF2979D2 F2982D2F2982D2/GF953D4F953D4/GKK-Y168A M3004 LAB1 ST6378B4/FKT 0-99 T2136N T5471NKK-Y170KK-Y17227KK-Y17326 LC7461-8103 LC864916A 0-99 TF953DAF1473D3F1473D3/GF2137D3F2173D3/GF2139D3F2139D3/GF2519D3F2520D3F2587D3 F2587D3/G F2589DKK-Y174 T2519DKK-Y17525 F2133D4KK-Y17627 M3004LAB1 ST6788 0-99 29KK-Y178 F2979D2/GKK-Y179 MN3004LAB1 F2139D5KK-Y18026 CKP1201M P2989NKK-Y18125KK-Y182KK-Y18325TC9012F TMP87PK36N 0-59 T2109FKK-Y183AKK-Y183BKK-Y183CKK-Y185KK-Y18627 M50560-008P M37220M3-020SP 0-99 F2131EF2131FF2132FF2133FF2135FF2136FKK-Y187KK-Y188KK-Y190KK-Y19426 T3477N2KK-Y199KK-Y20224F2589CKK-Y210KK-Y21127 LC7461-8103 LC864916A 0-99F953A2KK-Y213KK-Y21526 F2980AKK-Y216 2592EKK-Y21820 2992CKK-Y219KK-Y220KK-Y221B DT216E8 D3189N T3477N2KK-Y22525 M50560-008P M37220M3-020SP 2139FKK-Y226A252580CKK-Y226B22KK-Y226C22KK-Y226D222992CKK-Y230KK-Y231KK-Y23226KK-Y236KK-Y237KK-Y239A27KK-Y240KK-Y248KK-Y249KK-Y250A26 LA863316A 1-256 F2109A F2109A2F953AF2166AKK-Y250B26 1-256KK-Y250C24 1-256 F2109A1KK-Y250D26 1-256 LC863328A T2588A F2909AKK-Y252 CXP1202M TDA9383 A2168K A2176K P2162KP2562KP2928K P2960K P2961K P2962K P2962K1 P2998KP3460K P3468KT2168KT2180K T2562KT2565K T2568K T2568N T2968K T2968N T2975K T2976KKK-Y2616014A24 MN6014A MN15245KWC 1-32 KK-T918 KK-T920A KK-T920C(MN6030J)(MN6030J) KK-T953FS926A 3918-01 7918A7918B6014W29 MN6014W MN15287KWC 1-32 T2106 T2106A T2506 T2510BT2510NT2512T2512BKK-Y06 T2512NT5435E5T2610T2610NT2610BT2616AT2806T2806A928T928N T971NT2910NT2916NT2107 T2986A UPD6121G-001 MN15245AY 1-28 T918 T920C T920CII T920A T953FS M50560-003P M37210M3-508SP M37210M3-902SP T3289W T3472B T3477B T3477N T3487BT3877N 2962K1 0-238 2162K P2960K P87C766BDR42 A2911 T3498 T3898 TDA9380 P2162KT2168KT2176KKK-Y252CXP1202M TDA9383T2568KT2968KT2975KT2976K T3468KP2562KP2928KP2960KP2961KP2961K1P2962KP2998K P3460K TC9012F TMP87PK36N 0-59 T2988NT3488N T2988P 画中画HYDFKK-25 TC9028F-021 TMP87PM36N 0-59 T2988P 画中画用 KK-Y183 代 2998N T3488P T3488N T3888N T3888NI T3888NDT3898NI TMP87CM36N 0-59 T2988P T3888P TMP87CK38N T2139N T2139G T2139J VCT3803A/01A P2571SN、P2960S P2971S (CKP1602S) P2971SN、P2975SN、P2976S、 P3476S VCT3803A/02A P2960SP2971S Z89332 T3289W T3289WIZ90200AEOS T2990L T2992N Z90361 T3289W同类代换:KK-Y16、KK-Y55、KK-Y84 、KK-Y85、KK-Y100、KK-112 、KK-Y141 、KK-Y168KK-Y172KK-Y-175KK-Y176同类代换:6014W 、KK-Y06、同类代换:KK-Y60 、KK-Y79、同类代换:KK-Y07、KK-Y08、KK-Y19、KK-Y54、同类代换: KK-Y05 、KK-Y17 、KK-Y52、同类代换:KK-Y15、KK-Y16、KK-Y55KK-Y92、KK-Y85 LC863320A F2979A LC863328A-5T45 T2188A LC863348A F2109A 2(按彩电型号查找彩电机型遥控器型频道发射 CPU 备注号号 2109C 2109E F953A2 LC863316A 5M91 F2131D4 KK-Y168 0-99 M3004 LAB1 ST6378B4/FK1LA7837LA7688A TDA1013BLC89950 CD54573CSF2139D3/GLC864912AF2982KK-T928N KK-Y06 1-32 MN6014W ONWA 28KK-T920DI 1-30M50462 M50436-560SPP2960S CVT308A/A1 24C16P2962KP2562KT4934E4 KK-Y55 0-99 M3004LAB ST6367B1/FCB CD7698CPT1432DII KK-Y112 0-99 ST6368B4/FHELA7837TDA1013B LA7688AT2115 KK-Y05 0-89 SAA3010T CTV222S.PRCT2119 1-30M50436-560SP TDA8362T2138A ST6367T2168KT2512A 6014W 1-32 TA8759BNTA8200AHT2568KT2569 0-237 CXP1011S87CK38N-1U94 TDA4605-3 TB1240ANTA8427KT2588A LC863328AT2588X2 KK-Y79 0-99 M50560-008P M37210M3-800SP 80041T2968KT3468KT3488P HYDFKK-25 0-99 TC9028A-021P TMP87P36N 画中画T3498 P87C766T3898 P87C766 康佳万能遥控器 CK-388 KK-Y60，KK-Y79， KK-Y186，KK-Y225， KK-Y02 KK-Y172，KK-Y168，KK-Y86，KK-Y98 KK-Y175，KK-Y100， KK-Y141，KK-Y176 KK-Y07，KK-Y01，KK-Y202 KK-Y59，KK-Y52， KK-Y183，KK-Y183A KK-Y08 KK-Y05，KK-Y17 KK-Y72 KK-Y173，KK-Y211 KK-Y180，。

2.1A Power Switch with Programmable Current LimitGeneral DescriptionThe LPW5209 is an integrated power switch for self-powered and bus-powered Universal Series Bus (USB) applications. A built-in charge pump is used to drive the N-Channel MOSFET that is free of parasitic body diode to eliminate any reversed current flow across the switch when it is powered off. Its low quiescent current (30μA) and small package (SOT23-5) is particularly suitable in battery-powered portable equipment.Several protection functions include soft start to limit inrush current during plug-in, current limiting at 2.1A to meet USB power requirement, and thermal shutdown to protect damage under over current conditions.Order InformationApplications✧Power Switch✧USB Device✧Battery Charger Circuits Features◆80mΩLow R DS(ON), High-side N-MOSFET ◆2100mA Programmable current limit◆ 2.5V to 6V Input Voltage◆Low Quiescent Current:30μA◆Soft Start Function◆Built-In Short-Circuit Protection◆Built-in Thermal Protection◆RoHS Compliant and 100% Lead (Pb)-Free Typical Application CircuitMarking InformationVINFunctional Pin DescriptionPin DescriptionDescriptionLPW5209A LPW5209-21/11/061 1 Output to system pin.2 2 Ground.3 Connect a resistor to GND for setting current limit.Function Block DiagramAbsolute Maximum Ratings Note 1✧Input Voltage to GND ----------------------------------------------------------------------------------------------------- 7V ✧Output Voltage to GND -------------------------------------------------------------------------------------------------- 7V ✧Other pin to GND ---------------------------------------------------------------------------------------------------------- 6V ✧Maximum Junction Temperature --------------------------------------------------------------------------------- 150°C ✧Operating Ambient Temperature Range (T A) -------------------------------------------------------- -40℃ to 85°C ✧Maximum Soldering Temperature (at leads, 10 sec) ------------------------------------------------------- 260°C Note 1. Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.Thermal Information✧Maximum Power Dissipation (SOT23-5, P D, T A=25°C)----------------------------------------------------- 0.45W ✧Thermal Resistance (SOT23-5, θJA) ------------------------------------------------------------------------- 250℃/WESD Susceptibility✧HBM(Human Body Mode) --------------------------------------------------------------------------------------------- 2KV ✧MM(Machine Mode) --------------------------------------------------------------------------------------------------- 200VElectrical Characteristics(Over recommended operating conditions unless specified otherwise, T =25℃)Enable Threshold LowEnable Threshold High 1.4Input High Current V IN=V EN=5.0V 5Typical Operating CharacteristicsApplication InformationThe LPW5209 are single N-Channel MOSFET high-side power switches with active-high enable input, optimized for self-powered and bus-powered Universal Serial Bus (USB) applications. The LPW5209 equipped with a charge pump circuitry to drive the internal NMOS switch; the switch's low RDS(ON), 80mΩ, meets USB voltage drop requirements.Input and OutputVIN (input) is the power source connection to the internal circuitry and the drain of the MOSFET. VOUT (output) is the source of the MOSFET. In a typical application, current flows through the switch from VIN to VOUT toward the load. If VOUT is greater than VIN, current will flow from VOUT to VIN since the MOSFET is bidirectional when on. Unlike a normal MOSFET, there is no a parasitic body diode between drain and source of the MOSFET, the LPW5209 prevents reverse current flow if VOUT being externally forced to a higher voltage than VIN when the output disabled (VEN < 0.4V). Chip Enable InputThe switch will be disabled when the EN pin is in a logic low condition. During this condition, the internal circuit is turned off, reducing the supply current to 0.1μA typical. The maximum guaranteed voltage for a logic low at the EN pin is 0.4V. A minimum guaranteed voltage of 1.4V at the EN pin will turn the LPW5209 back on. Floating the input may cause unpredictable operation. EN should not be allowed to go negative with respect to GND. The EN pin may be directly tied to VIN to keep the part on.Soft Start for Hot Plug-In ApplicationsIn order to eliminate the upstream voltage droop caused by the large inrush current during hot-plug events, the “soft-start” feature effectively isolates the power source from extremely large capacitive loads, satisfying the USB voltage droop requirements.Thermal ShutdownThermal shutdown is employed to protect the device from damage if the die temperature exceeds approximately 150°C. If enabled, the switch automatically restarts when the die temperature falls 20°C. The output will continue to cycle on and off until the device is disabled or the fault is removed.Packaging InformationSOT23-5。