PF-4708671_1255517-76-0_DataSheet_MedChemExpress

1Information furnished by Linear Technology Corporation is believed to be accurate and reliable.However, no responsibility is assumed for its use. Linear Technology Corporation makes no represen-tation that the interconnection of its circuits as described herein will not infringe on existing patent rights.2LTC1569-6A U G WA W U W A R BSOLUTEXI TI SW U UPACKAGE/ORDER I FOR ATIO(Note 1)Total Supply Voltage................................................11V Power Dissipation..............................................500mW Operating Temperature................................0°C to 70°C Storage Temperature............................–65°C to 150°C Lead Temperature (Soldering, 10 sec)..................300°CThe q denotes the specifications which apply over the full operating temperature range, otherwise specifications are at T A = 25°C.V S = 3V (V + = 3V, V – = 0V), f CUTOFF = 64kHz, R LOAD = 10k unless otherwise specified.ELECTRICAL C C HARA TERISTICSConsult factory for Industrial and Military grade parts.PARAMETER CONDITIONSMIN TYP MAX UNITS Filter GainV S = 5V, f CLK = 4.096MHz,f IN = 1280Hz = 0.02 • f CUTOFF q –0.050.050.15dB f CUTOFF = 64kHz, V IN = 1.4V P-P ,f IN = 12.8kHz = 0.2 • f CUTOFF q –0.25–0.15–0.05dB R EXT = 10k, Pin 5 Shorted to Pin 4f IN = 32kHz = 0.5 • f CUTOFF q –0.65–0.55–0.4dB f IN = 51.2kHz = 0.8 • f CUTOFF q –1.3–1.0–0.7dB f IN = 64kHz = f CUTOFFq –5.3–3.8–2.4dB f IN = 97.5kHz = 1.5 • f CUTOFF q –60–48dB f IN = 128kHz = 2 • f CUTOFF q –62–50dB f IN = 192kHz = 3 • f CUTOFF q –71–60dB V S = 2.7V, f CLK = 1MHz,f IN = 312Hz = 0.02 • f CUTOFF q –0.120.050.16dB f CUTOFF = 15.625kHz, V IN = 1V P-P ,f IN = 3125kHz = 0.2 • f CUTOFF q –0.25–0.15–0.05dB Pin 6 Shorted to Pin 4, External Clockf IN = 7812kHz = 0.5 • f CUTOFF q –0.65–0.55–0.4dB f IN = 12.5kHz = 0.8 • f CUTOFF q –1.1–0.9–0.7dB f IN = 15.625kHz = f CUTOFF q –3.6–3.4–3.2dB f IN = 23.44kHz = 1.5 • f CUTOFF q –54–50dB f IN = 31.25kHz = 2 • f CUTOFF q –60–55dB f IN = 46.88kHz = 3 • f CUTOFF q –66–60dB Filter PhaseV S = 2.7V, f CLK = 4MHz,f IN = 1250Hz = 0.02 • f CUTOFF –11Deg f CUTOFF = 62.5kHz, Pin 6 Shorted to f IN = 12.5kHz = 0.2 • f CUTOFF q –114–111–108Deg Pin 4, External Clockf IN = 31.25kHz = 0.5 • f CUTOFF q 798285Deg f IN = 50kHz = 0.8 • f CUTOFF q –83–79–75Deg f IN = 62.5kHz = f CUTOFFq156162168Deg f IN = 93.75kHz = 1.5 • f CUTOFF–91DegFilter Cutoff Accuracy R EXT = 10.24k from Pin 6 to Pin 7,62.5kHz ±1%when Self-Clocked V S = 3V, Pin 5 Shorted to Pin 4Filter Output DC Swing V S = 3V, Pin 3 = 1.11V2.1V P-P (Note 6)q1.9V P-P V S = 5V, Pin 3 = 2V3.6V P-P q3.2V P-P V S = ±5V, Pin 5 Shorted to Pin 7, R LOAD = 20k8.5V P-P3LTC1569-6The q denotes the specifications which apply over the full operating temperature range, otherwise specifications are at T A = 25°C.V S = 3V (V + = 3V, V – = 0V), f CLK = 4.096MHz, f CUTOFF = 64kHz, R LOAD = 10k unless otherwise specified.ELECTRICAL C C HARA TERISTICSPARAMETER CONDITIONSMIN TYP MAX UNITS Output DC Offset R EXT = 10k, Pin 5 Shorted to Pin 7V S = 3V ±2±5mV (Note 2)V S = 5V ±6±12mV V S = ±5V ±15mV Output DC Offset DriftR EXT = 10k, Pin 5 Shorted to Pin 7V S = 3V 25µV/°C V S = 5V 25µV/°C V S = ±5V 75µV/°CClock Pin Logic Thresholds V S = 3V Min Logical “1” 2.7V when Clocked ExternallyMax Logical “0”0.5V V S = 5V Min Logical “1” 4.0V Max Logical “0”0.5V V S = ±5VMin Logical “1” 4.0V Max Logical “0”0.5VPower Supply Current f CLK = 256kHz (40k from Pin 6 to Pin 7,V S = 3V34mA (Note 3)Pin 5 Open, ÷ 4), f CUTOFF = 4kHzq5mA V S = 5V3.55mA q6mA V S = 10V4.57mA q8mA f CLK = 4.096MHz (10k from Pin 6 to Pin 7,V S = 3V 8mA Pin 5 Shorted to Pin 4, ÷ 1), f CUTOFF = 64kHzq11mA V S = 5V9mA q13mA V S = 10V12mA q17mA Clock Feedthrough Pin 5 Open0.1mV RMS Wideband Noise Noise BW = DC to 2 • f CUTOFF 95µV RMSTHDf IN = 3kHz, 1.5V P-P , f CUTOFF = 32kHz80dBClock-to-Cutoff 64Frequency Ratio Max Clock Frequency V S = 3V 5MHz (Note 4)V S = 5V 5MHz V S = ±5V7MHz Min Clock Frequency V S = 3V, 5V, T A < 85°C 1.5kHz (Note 5)V S = ±5V3kHz Input Frequency RangeAliased Components <–65dB 0.9 • f CLKHzNote 1: Absolute maximum ratings are those values beyond which the life of a device may be impaired.Note 2: DC offset is measured with respect to Pin 3.Note 3: If the internal oscillator is used as the clock source and the divide-by-4 or divide-by-16 mode is enabled, the supply current is reduced as much as 40% relative to the divide-by-1 mode.Note 4: The maximum clock frequency is arbitrarily defined as thefrequency at which the filter AC response exhibits >1dB of gain peaking.Note 5: The minimum clock frequency is arbitrarily defined as the frequecy at which the filter DC offset changes by more than 5mV.Note 6: For more details refer to the Input and Output Voltage Range paragraph in the Applications Information section.4LTC1569-6TYPICAL PERFOR A CE CHARACTERISTICSU WTHD vs Input VoltageTHD vs Input FrequencyINPUT VOLTAGE (V P-P )0.51.0 1.52.0 2.53.0 3.54.0T H D (d B )1569-6 G02–50–55–60–65–70–75–80–85–90INPUT FREQUENCY (kHz)51015202530TH D (d B )1569-6 G01–60–65–70–75–80–85–90PI FU CTIO SU U UIN +/IN – (Pins 1, 2): Signals can be applied to either or both input pins. The DC gain from IN + (Pin 1) to OUT (Pin␣8) is 1.0, and the DC gain from Pin 2 to Pin 8 is –1. The input range, input resistance and output range are de-scribed in the Applications Information section. Input voltages which exceed the power supply voltages should be avoided. Transients will not cause latchup if the current into/out of the input pins is limited to 20mA.GND (Pin 3): The GND pin is the reference voltage for the filter and should be externally biased to 2V (1.11V) to maximize the dynamic range of the filter in applications using a single 5V (3V) supply. For single supply operation,the GND pin should be bypassed with a quality 1µF ceramic capacitor to V – (Pin 4). The impedance of the circuit biasing the GND pin should be less than 2k Ω as the GND pin generates a small amount of AC and DC current.For dual supply operation, connect Pin␣3 to a high quality DC ground. A ground plane should be used. A poor ground will increase DC offset, clock feedthrough, noise and distortion.V –/V + (Pins 4, 7): For 3V, 5V and ±5V applications a quality 1µF ceramic bypass capacitor is required from V +(Pin 7) to V – (Pin 4) to provide the transient energy for the internal clock drivers. The bypass should be as close aspossible to the IC. In dual supply applications (Pin 3 is grounded), an additional 0.1µF bypass from V + (Pin 7) to GND (Pin 3) and V – (Pin 4) to GND (Pin 3) is recom-mended.The maximum voltage difference between GND (Pin 3) and V + (Pin 7) should not exceed 5.5V.DIV/CLK (Pin 5): DIV/CLK serves two functions. When the internal oscillator is enabled, DIV/CLK can be used to engage an internal divider. The internal divider is set to 1:1when DIV/CLK is shorted to V – (Pin 4). The internal divider is set to 4:1 when DIV/CLK is allowed to float (a 100pF bypass to V – is recommended). The internal divider is set to 16:1 when DIV/CLK is shorted to V + (Pin 7). In the divide-by-4 and divide-by-16 modes the power supply current is reduced by as much as 40%.When the internal oscillator is disabled (R X shorted to V –) DIV/CLK becomes an input pin for applying an external clock signal. For proper filter operation, the clock waveform should be a squarewave with a duty cycle as close as possible to 50% and CMOS voltages levels (see Electrical Characteristics section for voltage levels). DIV/CLK pin voltages which exceed the power supply voltages should be avoided. Transients will not cause latchup if the fault current into/out of the DIV/CLK pin is limited to 40mA.LTC1569-656LTC1569-6Table1. f CUTOFF vs R EXT , V S = 3V, T A = 25°C, Divide-by-1 ModeR EXT Typical f CUTOFFTypical Variation of f CUTOFF3844Ω*N/A ±3.0%5010Ω*N/A ±2.5%10k 64kHz ±1%20.18k 32kHz ±2.0%40.2k16kHz±3.5%*REXT values less than 10k can be used only in the divide-by-16 mode.In the divide-by-4 and divide-by-16 modes, the cutoff frequencies in Table 1 will be lowered by 4 and 16respectively. When the LTC1569-6 is in the divide-by-4APPLICATIO S I FOR ATIO W UU U and divide-by-16 modes the power is automatically re-duced. This results in up to a 40% power savings with a single 5V supply.The power reduction in the divide-by-4 and divide-by-16modes, however, effects the fundamental oscillator fre-quency. Hence, the effective divide ratio will be slightly different from 4:1 or 16:1 depending on V S , T A and R EXT .Typically this error is less than 1% (Figures 4 and 6).The cutoff frequency is easily estimated from the equation in Figure 1. Examples 1 and 2 illustrate how to use the graphs in Figures 2 through 7 to get a more precise estimate of the cutoff frequency.Figure 4. Typical Divide Ratio in the Divide-by-4 Mode, T A = 25°CFigure 5. Filter Cutoff vs Temperature,Divide-by-4 Mode, R EXT = 10kFigure 3. Filter Cutoff vs Temperature,Divide-by-1 Mode, R EXT = 10kFigure 2. Filter Cutoff vs V SUPPLY ,Divide-by-1 Mode, T A = 25°CV SUPPLY (V)2D I V I D E R A T I O1569-6 F044.084.044.003.9646810TEMPERATURE (°C)–50N O R M A L I Z E D F I L T E R C U T O F F1569-6 F051.0101.0081.0061.0041.0021.0000.9980.9960.9940.9920.990–250255075100V SUPPLY (V)2N O R M A L I Z E D F I L T E R C U T O F F1569-6 F021.041.031.021.011.000.990.980.970.9646810TEMPERATURE (°C)–50N O R M A L I Z E D F I L T E R C U T O F F1569-6 F031.0101.0081.0061.0041.0021.0000.9980.9960.9940.9920.990–250255075100LTC1569-678LTC1569-6When driven with a complementary signal whose com-mon mode voltage is GND, the IN + input appears to have 125k to GND and the IN – input appears to have –125k to GND. To make the effective IN – impedance 125k when driven differentially, place a 62.5k resistor from IN – to GND. For other cutoff frequencies use 62.5k • (128kHz/f CUTOFF ), as shown in the Typical Applications section. The typical variation in dynamic input impedance for a given clock frequency is ±10%.Wideband NoiseThe wideband noise of the filter is the RMS value of the device’s output noise spectral density. The wideband noise data is used to determine the operating signal-to-noise at a given distortion level. The wideband noise is nearly independent of the value of the clock frequency and excludes the clock feedthrough. Most of the wideband noise is concentrated in the filter passband and cannot be removed with post filtering (Table 2). Table 3 lists the typical wideband noise for each supply.Table 2. Wideband Noise vs Supply Voltage, Single 3V SupplyBandwidth Total Integrated NoiseDC to f CUTOFF 80µV RMS DC to 2 • f CUTOFF 95µV RMS DC to f CLK110µV RMSTable 3. Wideband Noise vs Supply Voltage, f CUTOFF = 64kHzTotal Integrated Noise Power Supply DC to 2 • f CUTOFF3V 95µV RMS 5V 100µV RMS ±5V105µV RMSClock FeedthroughClock feedthrough is defined as the RMS value of the clock frequency and its harmonics that are present at the filter’s OUT pin (Pin 8). The clock feedthrough is measured with IN + and IN – (Pins 1 and 2) grounded and depends on the PC board layout and the power supply decoupling. Table␣4shows the clock feedthrough (the RMS sum of the first 11harmonics) when the LTC1569-7 is self-clocked with R EXT = 10k, DIV/CLK (Pin 5) open (divide-by-4 mode). The clock feedthrough can be reduced with a simple RC post filter.APPLICATIO S I FOR ATIO W UU U it reaches the typical limits V MAX and V MIN . The above voltage swings are for R LOAD = 10k for V S = 3V and 5V.R LOAD = 20k for V S = ±5V.To maximize the undistorted peak-to-peak signal swing of the filter, the GND (Pin 3) voltage should be set to 2V (1.11V) in single 5V (3V) supply applications.The LTC1569-6 can be driven with a single-ended or differential signal. When driven differentially, the voltage between IN + and IN – (Pin 1 and Pin 2) is filtered with a DC gain of 1. The single-ended output voltage OUT (Pin 8) is referenced to the voltage of the GND (Pin 3). The common mode voltage of IN + and IN – can be any voltage that keeps the input signals within the power supply range.For noninverting single-ended applications, connect IN –to GND or to a quiet DC reference voltage and apply the input signal to IN +. If the input is DC coupled then the DC gain from IN + to OUT will be 1. This is true given IN + and OUT are referenced to the same voltage, i.e., GND, V – or some other DC reference. To achieve the distortion levels shown in the Typical Performance Characteristics the input signal at IN + should be centered around the DC voltage at IN –. The input can also be AC coupled, as shown in the Typical Applications section.For inverting single-ended filtering, connect IN + to GND or to quiet DC reference voltage. Apply the signal to IN –. The DC gain from IN – to OUT is –1, assuming IN – is referenced to IN + and OUT is reference to GND.Refer to the Typical Performance Characteristics section to estimate the THD for a given input level.Dynamic Input ImpedanceThe unique input sampling structure of the LTC1569-6 has a dynamic input impedance which depends on the con-figuration, i.e., differential or single-ended, and the clock frequency. The equivalent circuit in Figure 8 illustrates the input impedance when the cutoff frequency is 64kHz. For other cutoff frequencies replace the 125k value with 125k • (64kHz/f CUTOFF ).When driven with a single-ended signal into IN – with IN +tied to GND, the input impedance is very high (~10M Ω).When driven with a single-ended signal into IN + with IN –tied to GND, the input impedance is a 125k resistor to GND.LTC1569-6910LTC1569-6Single 3V Operation, AC Coupled Input,64kHz Cutoff Frequencyf CUTOFF =n = 1, 4, 16 FOR PIN 5 ATGROUND, OPEN, V +64kHz n = 1()10k R EXT()n = 1, 4, 16 FOR PIN 5 ATGROUND, OPEN, V+n = 4R EXTSingle 3V Supply Operation, DC Coupled,16kHz Cutoff FrequencySingle 5V Operation, 50kHz Cutoff Frequency,DC Coupled Differential Inputs with Balanced Input Impedancef CUTOFF ~n = 1, 4, 16 FOR PIN 5 ATGROUND, OPEN, V +64kHz n = 1()10k 12.8k()µF±5V Supply Operation, DC Coupled Filter with External Clock SourceTYPICAL APPLICATIO SUFREQUENCY (Hz)G A I N (d B )GROUP DELAY 1569-6 TA02a0–10–20–30–40–50–60–70–80–90µs µsµs Single 3V, AC Coupled Input,64kHz Cutoff FrequencyLTC1569-61112LTC1569-6© Linear Technology Corporation1630 McCarthy Blvd., Milpitas, CA 95035-7417(408) 432-1900 q FAX : (408) 434-0507 q PART NUMBER DESCRIPTIONCOMMENTSLTC1064-3Linear Phase, Bessel 8th Order Filter f CLK /f CUTOFF = 75/1 or 150/1, Very Low Noise LTC1064-7Linear Phase, 8th Order Lowpass Filter f CLK /f CUTOFF = 50/1 or 100/1, f CUTOFF(MAX) = 100kHzLTC1068-x Universal, 8th Order Filterf CLK /f CUTOFF = 25/1, 50/1, 100/1 or 200/1, f CUTOFF(MAX) = 200kHz LTC1069-7Linear Phase, 8th Order Lowpass Filter f CLK /f CUTOFF = 25/1, f CUTOFF(MAX) = 200kHz, SO-8LTC1164-7Low Power, Linear Phase Lowpass Filter f CLK /f CUTOFF = 50/1 or 100/1, I S = 2.5mA, V S = 5V LTC1264-7Linear Phase, 8th Order Lowpass Filter f CLK /f CUTOFF = 25/1 or 50/1, f CUTOFF(MAX) = 200kHz LTC1562/LTC1562-2Universal, 8th Order Active RC Filterf CUTOFF(MAX) = 150kHz (LTC1562)f CUTOFF(MAX) = 300kHz (LTC1562-2)RELATED PARTSFf CUTOFF =n = 1, 4, 16 FOR PIN 5 ATGROUND, OPEN, V +n = 4()R EXT()Single 5V Supply Operation, DC Coupled Input,16kHz Cutoff Frequency0.5V /D I VINPUT 32ksps (OR 64kbps)1569-6 TA07TYPICAL APPLICATIO SU。

1US Headquarters TEL +(1) 781-935-4850FAX +(1) 781-933-4318 • Europe TEL +(44) 1628 404000FAX +(44) 1628 404090Asia Pacific TEL +(852) 2 428 8008FAX +(852) 2 423 8253South America TEL +(55) 11 3917 1099FAX +(55) 11 3917 0817Superior elongation and tensilestrength help to prevent tearing in use due to mishandling. Typical properties for CHO-SEAL 1310 and 1273 materi-al are shown on pages 33 and 32respectively.High Shielding PerformanceCHO-SEAL 1310 material provides more than 80 dB of shielding effectiv-ness from 100 MHz to 10 GHz, while CHO-SEAL 1273 material provides more than 100 dB.Low Volume ResistivityBoth materials have exceptionally low volume resistivity, which makes them well suited for grounding appli-cations in which a flexible electrical contact is needed.Low Compression GasketSpacer gaskets are typicallydesigned to function under low deflec-tion forces. Chomerics uses design tools such as Finite Element Analysis (FEA) to accurately predict compres-sion-deflection behavior of various cross section options. Refer to page16.LCP Plastic SpacerLiquid crystal polymer (LCP)spacers, including those made with Vectra A130 material, provide aCHO-SEAL ®1310 or 1273Conductive ElastomersWith EMI spacer gaskets, shielding and grounding are provided by Chomerics’CHO-SEAL 1310 and 1273 conductive elastomers, specifi-cally formulated for custom shape molded parts. They provide excellent shielding and isolation against electro-magnetic interference (EMI), or act as a low impedance ground path between PCB traces and shielding media. Physically tough, these elas-tomers minimize the risk of gasket damage, in contrast to thin-walled extrusions or unsupported molded gaskets.Silicone-based CHO-SEAL 1310and 1273 materials offer excellent resistance to compression set over a wide temperature range, resulting in years of continuous service. CHO-SEAL 1310 material is filled with silver-plated-glass particles, while 1273 utilizes silver-plated-copper filler to provide higher levels of EMI shielding effectiveness.EMI Spacer GasketsThe unique design of Chomerics’EMI spacer gaskets features a thin plastic retainer frame onto which a conductive elastomer is molded. The elastomer can be located inside or outside the retainer frame, as well as on its top and bottom surface. EMI spacer gaskets provide a newapproach to designing EMI gaskets into handheld electronics such as dig-ital cellular phones. Board-to-board spacing is custom designed to fit broad application needs. Customized cross sections and spacer shapes allow for very low closure forcerequirements and a perfect fit in any design or device.Robotic InstallationSpacer gaskets can be installed quickly by robotic application. Integral locater pins in the plastic spacer help ensure accuratepositioning in both manual and pick-and-place assembly. Benefits include faster assembly and lower labor costs.The integrated conductive elastomer/plastic spacer gasket is a low cost,easily installed system for providing EMI shielding and grounding in small electronic enclosures.Figure 1Single Piece EMI Gasket/Locator PinsCHO-SEAL 1310 or 1273 Conductive Elastomer (Inside)Plastic Spacer Around Outsideor InsideApplications for EMI Spacer GasketsThe spacer gasket concept is especially suited to digital and dual board telephone handsets or other handheld electronic devices. It provides a low impedance path between peripheral ground traces on printed circuit boards and components such as:•the conductive coating on a plastic housing•another printed circuit board •the keypad assemblyTypical applications for EMI spacer gaskets include:•Digital cellular, handyphone and personal communications services (PCS) handsets •PCMCIA cards•Global Positioning Systems (GPS)•Radio receivers•Other handheld electronics, e.g.,personal digital assistants (PDAs)•Replacements for metal EMI shield-ing “fences” on printedcircuit boards in wireless tele-communications devicesstable platform for direct, highprecision molding of conductive elas-tomers. The Vectra A130 material described in Table 1 has excellent heat deflection temperature character-istics (489°F, 254°C). For weight con-siderations, the LCP has aspecific gravity of only 1.61. This plas-tic is also 100% recyclable.Typical EMI Spacer Gasket Design ParametersThe EMI spacer gasket concept can be considered using the design parameters shown in Table 2. Some typical spacer gasket profiles are shown below.Figure 2Typical Spacer Gasket Profiles3US Headquarters TEL +(1) 781-935-4850FAX +(1) 781-933-4318 • Europe TEL +(44) 1628 404000FAX +(44) 1628 404090Asia Pacific TEL +(852) 2 428 8008FAX +(852) 2 423 8253South America TEL +(55) 11 3917 1099FAX +(55) 11 3917 0817Finite Element AnalysisChomerics, a division of the Parker Hannifin Corporation’s Seal Group, is the headquarters of Parker Seal’s Elastomer Simulation Group. This unit specializes in elastomer finite element analysis (FEA) using MARC K6 series software as a foundation for FEA capability.Benefits of FEA include:•Quickly optimizing elastomer gasket designs•Allowing accurate predictions of alternate elastomer design concepts •Eliminating extensive trial and error prototype evaluationTypical use of FEA in EMI spacer gasket designs is to evaluate the force vs. deflection requirements of alternate designs.For example, onespacer design features a continuous bead of con-ductive elastomer molded onto a plastic spacer. An alternative designemploys an “interrupted bead,” where the interrup-tions (gaps left on the plastic frame) are sized to maintain the requiredlevel of EMI shielding. Figure 4illustrates these alternative designs.Gasket DeflectionFigure 5 compares the effect of continuous and interrupted elastomer gasket designs in terms of the force required to deflect the conductive elastomer. This actual cellular handset application required a spacer gasket with interrupted bead to meet desired deflection forces.Chomerics Designand Application ServicesChomerics will custom design a spacer for your application. Advice,analysis and design assistance will be provided by Chomerics Applications and Design engineers at no additional fee. Contact Chomerics directlyat the locations listed at the bottom of the page.Figure 3FEA Example of an EMISpacer Gasket Cross SectionFigure 4Continuous (top) and InterruptedElastomer GasketsFigure 5Typical Spacer Gasket Deflection。

High Sensitivity D1000 Reagents, Part Number 5067-5585*************(24小时)化学品安全技术说明书GHS product identifier 应急咨询电话（带值班时间）::供应商/ 制造商:安捷伦科技贸易（上海）有限公司中国（上海）外高桥自由贸易试验区英伦路412号（邮编:200131)电话号码： 800-820-3278传真号码: 0086 (21) 5048 2818High Sensitivity D1000 Reagents, Part Number 5067-5585化学品的推荐用途和限制用途High Sensitivity D1000 Sample Buffer 5190-6504High Sensitivity D1000 Ladder 5067-5587部件号:部件号（化学品试剂盒）:5067-5585安全技术说明书根据 GB/ T 16483-2008 和 GB/ T 17519-2013GHS化学品标识:高灵敏度 D1000 试剂, 部件号 5067-5585推荐用途限制用途High Sensitivity D1000Sample Buffer1 x 300 µl 样品瓶5067-5587High Sensitivity D1000Ladder1 x 20 µl 样品瓶::有关环境保护措施，请参阅第 12 节。

物质或混合物的分类根据 GB13690-2009 和 GB30000-2013紧急情况概述High Sensitivity D1000 Sample Buffer液体。

High Sensitivity D1000 Ladder 液体。

High Sensitivity D1000 Sample Buffer无色。

High Sensitivity D1000 Ladder 无色。

High Sensitivity D1000 Sample Buffer无气味的。

Electrostatic Discharged Protection Devices (ESD) Data SheetDescriptionUDT26A05L05 is surge rated diode arrays designed to protect high speed data interfaces. It has been specifically designed to protect sensitive components which is connected to data and transmission lines from overvoltage caused by electrostatic discharge (ESD), electrical fast transients (EFT), and lightning.The unique design of the device incorporates one surge rated, and four data lines. Low capacitance steering diodes and a TVS diode in a single package. The low capacitance array configuration allows the user to protect four high speed data or transmission lines.Features● IEC61000-4-2 ESD 15KV Air, 8KV contact compliance ● SOT23-6L surface mount package● Protects four high-speed data lines and one power line ● Array of surge rated, low capacitance diodes ● Working voltage: 5V ● Low leakage current ● Low clamping voltage ● Solid-state silicon avalanche technology ● Lead Free/RoHS compliant● Solder reflow temperature: Pure Tin-Sn, 260~270℃ ● Flammability rating UL 94V-0● Meets MSL level 1, per J-STD-020 ● Marking: B 05B or 054Applications● USB power and data line protection ● 10/100/1000 Ethernet ● Video line protection ● I 2C bus protection● WAN/LAN equipment ● ISDN S/T interface● Microcontroller input protection ● Portable electronicsMaximum RatingsRatingSymbolValue UnitESD voltage (Contact discharge) V ESD ±8kVESD voltage (Air discharge)±15Storage & operating temperature rangeT STG ,T J -55~+150℃Pin ConfigurationElectrical Characteristics (T J=25℃)Parameter Symbol Condition Min. Typ. Max. UnitReverse stand-off voltage V RWM 5V Reverse breakdown voltage V BR I BR=1mA 6 V Reverse leakage current I R V R=5V 5 μAClamping voltage (tp=8/20μs) V C I PP=1A 9.8V Clamping voltage (tp=8/20μs) V C I PP=2A 16VOff state junction capacitance C J 0Vdc,f=1MHzBetween I/Opins and GND2.5 pFApplications InformationESD Protection StandardsIEC61000-4-2Interfaces of consumer electronic equipment are widely specified according to the International Electrotechnical Commission standard IEC61000-4-2. This standard is not targeted towards particular devices but towards general equipment, systems and subsystems that may be involved in electrostatic discharge. consists of a 150pF capacitor and a 330Ω series resistor representing the counterpart to the Device Under Test (DUT).Human Body Model (HBM, MIL-883E method 3015.7)The HBM standard simulates an ESD surge generated by human contact to electronic components.Recommended Soldering ConditionsRecommended ConditionsProfile Feature Pb-Free Assembly Average ramp-up rate (T L to T P) 3℃/second max.Preheat-Temperature Min (T S min) -Temperature Max (T S max) -Time (min to max) (ts)150℃200℃60-180 secondsT S max to T-Ramp-up 3℃/second max.Time maintained above:-Temperature (T-Time (t60-150 seconds Peak Temperature (T P) 260Time within 5 of actual Peak Temperature (t) 20-40 Ramp-down RateTime 25 to Peak TemperatureDimensions (SOT23-6L)Packaging Reel。

Part Number (Reference) ESD3.3V52D-A ESD05V52D-A ESD08V52D-A ESD12V52D-A ESD15V52D-A ESD24V52D-A ESD05V52D-C ESD12V52D-CInternal ConfigurationVrwm(V) 3.3 5 8 12 15 24 5 9Vbrmin(V)CJMAX 1MHz(pF) 200 110 70 60 50 25 10 5 450 200 30 100 75 50Peak Power Ir@Vrwm 8/20 µ s (µA) 120 120 120 120 120 120 100 100 320 320 100 320 320 320 200 5 5 5 5 5 1 1 40 10 1 1 1 1SOD-5234 6 8.5 13.3 16.6 26.7 6 10.2 4 6 6 13.3 16.7 26.7SOD-523 ESD03V32D-C ESD05V32D-C ESD0501V32D-C ESD12V32D-C ESD15V32D-C ESD24V32D-C 3 5 5 12 15 24SOD-323ESD3.3V32D-LA ESD05V32D-LA SOD-323 ESD03V32D-LC ESD05V32D-LC ESD08V32D-LC ESD12V32D-LC ESD15V32D-LC ESD24V32D-LC3.3 5.04 60.4 0.4350 35020 5SOD-3233.0 5.0 8.0 12.0 15.0 24.04.0 6.0 8.5 13.3 16.7 26.71.2 1.2 1.2 1.2 1.2 1.2350 350 350 350 350 35020 5 2 1 1 1ESD05V14TLC SOT-1435.06.01.23005Part Number (Reference) ESD03V23T-2A ESD05V23T-2A ESD05V23T-2AL ESD08V23T-2A ESD12V23T-2A ESD15V23T-2A ESD24V23T-2A ESD36V23T-2AInternal ConfigurationVrwm(V) 3.3 5.0 5.0 8.0 12.0 15.0 24.0 36.0Vbrmin(V)CJMAX 1MHz(pF) 400 300 30 250 150 100 88 60Peak Power Ir@Vrwm 8/20 µ s (µA) 300 300 100 300 300 300 300 300 100 10 0.1 1 1 1 1 1SOT-234.0 6.0 6.0 8.5 13.3 16.7 26.7 40.0ESD05V23T-2L SOT-23 Pin 3 to Pin1/Pin2 SM712 Pin 3 to Pin1/Pin2 ESD3.3V23T-1A ESD05V23T-1A ESD08V23T-1A ESD12V23T-1A ESD15V23T-1A ESD24V23T-1A ESD36V23T-1A SOT-235.06.01350177.555400107 3.3 5.0 8.0 12.0 15.0 24.0 36.013.3 4.0 6.0 8.5 13.3 16.7 24.0 40.055 5 5 5 5 5 5 5400 500 500 500 500 500 500 5001 40 5 5 1 1 1 1SOT-23SLVU2.8 SOT-232.83.034001ESD05V26T-4 SOT-265.06.01.23501Part Number (Reference) ESD05V26T-4L ESD12V26T-4L ESD15V26T-4L ESD24V26T-4LInternal ConfigurationVrwm(V)Vbrmin(V)CJMAX 1MHz(pF) 200 90 70 50Peak Power Ir@Vrwm 8/20 µ s (µA) 350 350 350 350 5 1 1 15.0 12.0 15.0 24.0 SOT-266.0 13.3 16.7 26.7ESD05V26T-5L ESD12V26T-5L ESD15V26T-5L ESD24V26T-5L SOT-265.0 12.0 15.0 24.06.0 13.3 16.7 26.7200 90 70 50350 350 350 3505 1 1 1ESD05V36T-4L SOT-3635.06.021501ESD05V36T-5L SOT-3635.06.0501001ESD05V56T-2L SOT-5635.06.00.9501ESD05V56T-4L SOT-5635.06.0301001ESD05V56T-5L SOT-5635.06.0301001Part Number (Reference)Internal ConfigurationVrwm(V)Vbrmin(V)CJMAX 1MHz(pF)Peak Power Ir@Vrwm 8/20 µ s (µA)ESD12V56T-2C SOT-5639.010.031001SLVU2.8-4 SO-082.83.024005SLVU2.8-8 SO-08 ESD06V08S-4L SO-082.83.0560056.06.825200020ESD05V08S-4L SO-08 LCDA05C-4 LCDA12C-4 LCDA15C-4 LCDA24C-45.06.0550010SO-085.0 12.0 15.0 24.06.0 13.3 16.7 26.75 5 5 5500 500 500 50020 1 1 1LCDA05C-8 LCDA12C-8 LCDA15C-8 LCDA24C-8 SO-165.0 12.0 15.0 24.06.0 13.3 16.7 26.75 5 5 5500 500 500 50020 1 1 1Part Number (Reference)Internal ConfigurationVrwm(V)Vbrmin(V)CJMAX 1MHz(pF)Peak Power Ir@Vrwm 8/20 µ s (µA)ESD05VDFN-C DFN10065.06.0101001ULC0524P DSON-105.06.00.81501ULC0528P5.06.50.52000.5MSOP-08ESD05V10S-4L MSOP-105.06.00.51251Cell Phone CCD Camera LinesEE0504K LWSON-085.06.020Color LCD Protection Clamshell Cell Phones0.5Cell Phone CCD Camera LinesESD0506K5.06.020Color LCD Protection Clamshell Cell Phones0.5LWSON-12Part Number (Reference)Internal ConfigurationVrwm(V)Vbrmin(V)CJMAX 1MHz(pF)Peak Power Ir@Vrwm 8/20 µ s (µA)Cell Phone CCD Camera LinesEE0508K5.06.020Color LCD Protection Clamshell Cell Phones0.5LWSON-16EE0508DFN5.06.0171DFN3014Differential Mode vs. Common Mode4345256162 of 211232011/3/31Curves of CharacterizationBAV99 vs TVS ARRAYS直接將突波導入到 Vcc -- 這種方式非 非 常不安全, 易導致 Vcc損害.直接將突波導入到 GND -- 這種方式非 非 常安全. 因為接地 區域有較大阻抗可 以分散突波.4 of 212011/3/31Parasitic InductanceESD ProtectorESD Protector不妥當的方式 : 無法將保護元件直接貼 在信號線上. 會產生寄 生電感. 造成保護能力 被寄生的電感減弱.安全的方式 : 將保護元件直接貼在信 號線上. 讓保護能力全 力發揮.Fine Layout vs Parasitic InductanceFine Layout -- Without Parasitic InductanceNOT recommation -- Parasitic Inductance7 of 212011/3/31Anti-Parasitic Inductance直接將保護ESD保護能力元件貼在信號線上--不會產生寄生電感問題.可以完全發揮8 of 212011/3/31Anti-Parasitic Inductance3-PIN產品的應用9 of 212011/3/31USB 3.0 Interface ProtectionMSOP-0810 of 212011/3/31HDMI Interface ProtectionSLP2510P8(2.5x1.0x0.5mm)11 of 212011/3/31USB 3.0 Interface Protection12 of 212011/3/31GR-1089 Lighting Protection for T-Carrier Interface13 of 212011/3/3110/1000 Gigabit Ethernet Protection14 of 212011/3/31。

EconoPACK ™2 模块 采用第七代沟槽栅/场终止IGBT7和第七代发射极控制二极管带有温度检测NTC 特性•电气特性-V CES = 1200 V-I C nom = 75 A / I CRM = 150 A -沟槽栅IGBT7-低 V CEsat-过载操作达175°C•机械特性-高功率循环和温度循环能力-集成NTC 温度传感器-铜基板-低热阻的三氧化二铝 Al 2O 3 衬底-焊接技术-标准封装可选应用•辅助逆变器•电机传动•伺服驱动器产品认证•根据 IEC 60747、60749 和 60068 标准的相关测试，符合工业应用的要求。

描述FS75R12N2T7_B15EconoPACK ™2 模块内容描述 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1特性 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1可选应用 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1产品认证 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1内容 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2 1封装 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3 2IGBT, 逆变器 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3 3二极管,逆变器 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 4负温度系数热敏电阻 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6 5特征参数图表 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7 6电路拓扑图 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12 7封装尺寸 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13 8模块标签代码 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14修订历史 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15免责声明 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .161封装表 1绝缘参数特征参数代号标注或测试条件数值单位绝缘测试电压V ISOL RMS, f = 50 Hz, t = 1 min 2.5kV 模块基板材料Cu内部绝缘基本绝缘 (class 1, IEC 61140)Al2O3爬电距离d Creep端子至散热器10.0mm 电气间隙d Clear端子至散热器7.5mm 相对电痕指数CTI>200相对温度指数 (电)RTI封装140°C 表 2特征值特征参数代号标注或测试条件数值单位最小值典型值最大值杂散电感,模块L sCE17nH 模块引线电阻,端子-芯片R CC'+EE'T C=25°C, 每个开关 3.3mΩ储存温度T stg-40125°C 模块安装的安装扭距M根据相应的应用手册进行安装M5, 螺丝36Nm 重量G180g 注:The current under continuous operation is limited to 50A rms per connector pin.2IGBT, 逆变器表 3最大标定值特征参数代号标注或测试条件数值单位集电极－发射极电压V CES T vj = 25 °C1200V 连续集电极直流电流I CDC T vj max = 175 °C T C = 100 °C75A 集电极重复峰值电流I CRM t P = 1 ms150A 栅极－发射极峰值电压V GES±20V表 4特征值特征参数代号标注或测试条件数值单位最小值典型值最大值集电极－发射极饱和电压V CE sat I C = 75 A, V GE = 15 V T vj = 25 °C 1.55 1.80VT vj = 125 °C 1.69T vj = 175 °C 1.77栅极阈值电压V GEth I C = 1.28 mA, V CE = V GE, T vj = 25 °C 5.15 5.80 6.45V 栅极电荷Q G V GE = ±15 V, V CE = 600 V 1.25µC 内部栅极电阻R Gint T vj = 25 °C2Ω输入电容C ies f = 100 kHz, T vj = 25 °C, V CE = 25 V, V GE = 0 V15.1nF 反向传输电容C res f = 100 kHz, T vj = 25 °C, V CE = 25 V, V GE = 0 V0.053nF 集电极-发射极截止电流I CES V CE = 1200 V, V GE = 0 V T vj = 25 °C0.014mA 栅极-发射极漏电流I GES V CE = 0 V, V GE = 20 V, T vj = 25 °C100nA开通延迟时间(感性负载)t don I C = 75 A, V CE = 600 V,V GE = ±15 V, R Gon = 5.6 ΩT vj = 25 °C0.164µs T vj = 125 °C0.178T vj = 175 °C0.185上升时间(感性负载)t r I C = 75 A, V CE = 600 V,V GE = ±15 V, R Gon = 5.6 ΩT vj = 25 °C0.048µs T vj = 125 °C0.053T vj = 175 °C0.057关断延迟时间(感性负载)t doff I C = 75 A, V CE = 600 V,V GE = ±15 V, R Goff = 5.6 ΩT vj = 25 °C0.300µs T vj = 125 °C0.380T vj = 175 °C0.420下降时间(感性负载)t f I C = 75 A, V CE = 600 V,V GE = ±15 V, R Goff = 5.6 ΩT vj = 25 °C0.120µs T vj = 125 °C0.200T vj = 175 °C0.270开通损耗能量 (每脉冲)E on I C = 75 A, V CE = 600 V,Lσ = 35 nH, V GE = ±15 V,R Gon = 5.6 Ω, di/dt =1200 A/µs (T vj = 175 °C)T vj = 25 °C7.96mJ T vj = 125 °C10.8T vj = 175 °C12.3关断损耗能量 (每脉冲）E off I C = 75 A, V CE = 600 V,Lσ = 35 nH, V GE = ±15 V,R Goff = 5.6 Ω, dv/dt =3200 V/µs (T vj = 175 °C)T vj = 25 °C 5.02mJ T vj = 125 °C7.68T vj = 175 °C9.46(待续)表 4(续) 特征值特征参数代号标注或测试条件数值单位最小值典型值最大值短路数据I SC V GE≤ 15 V, V CC = 800 V,V CEmax=V CES-L sCE*di/dt t P≤ 8 µs,T vj=150 °C260At P≤ 7 µs,T vj=175 °C250结－外壳热阻R thJC每个 IGBT0.475K/W 外壳－散热器热阻R thCH每个 IGBT, λgrease= 1 W/(m*K)0.141K/W 允许开关的温度范围T vj op-40175°C注:T vj op > 150°C is allowed for operation at overload conditions. For detailed specifications, please refer to AN2018-14.3二极管,逆变器表 5最大标定值特征参数代号标注或测试条件数值单位反向重复峰值电压V RRM T vj = 25 °C1200V 连续正向直流电流I F75A 正向重复峰值电流I FRM t P = 1 ms150A I2t-值I2t t P = 10 ms, V R = 0 V T vj = 125 °C1150A²sT vj = 175 °C740表 6特征值特征参数代号标注或测试条件数值单位最小值典型值最大值正向电压V F I F = 75 A, V GE = 0 V T vj = 25 °C 1.72 2.10VT vj = 125 °C 1.59T vj = 175 °C 1.52反向恢复峰值电流I RM V R = 600 V, I F = 75 A,V GE = -15 V, -di F/dt =1200 A/µs (T vj = 175 °C)T vj = 25 °C43A T vj = 125 °C56T vj = 175 °C65(待续)表 6(续) 特征值特征参数代号标注或测试条件数值单位最小值典型值最大值恢复电荷Q r V R = 600 V, I F = 75 A,V GE = -15 V, -di F/dt =1200 A/µs (T vj = 175 °C)T vj = 25 °C 4.94µC T vj = 125 °C10.2T vj = 175 °C13.7反向恢复损耗（每脉冲）E rec V R = 600 V, I F = 75 A,V GE = -15 V, -di F/dt =1200 A/µs (T vj = 175 °C)T vj = 25 °C 1.45mJ T vj = 125 °C 3.32T vj = 175 °C 4.62结－外壳热阻R thJC每个二极管0.708K/W 外壳－散热器热阻R thCH每个二极管, λgrease= 1 W/(m*K)0.153K/W 允许开关的温度范围T vj op-40175°C注:T vj op > 150°C is allowed for operation at overload conditions. For detailed specifications, please refer to AN2018-14.4负温度系数热敏电阻表 7特征值特征参数代号标注或测试条件数值单位最小值典型值最大值额定电阻值R25T NTC = 25 °C5kΩR100偏差ΔR/R T NTC = 100 °C, R100 = 493 Ω-55%耗散功率P25T NTC = 25 °C20mW B-值B25/50R2 = R25 exp[B25/50(1/T2-1/(298,15 K))]3375K B-值B25/80R2 = R25 exp[B25/80(1/T2-1/(298,15 K))]3411K B-值B25/100R2 = R25 exp[B25/100(1/T2-1/(298,15 K))]3433K 注:根据应用手册标定4 负温度系数热敏电阻6电路拓扑图图 17封装尺寸图 28 模块标签代码8模块标签代码图 3修订历史修订历史修订版本发布日期变更说明1.002021-12-16Final datasheet商标所有参照产品或服务名称和商标均为其各自所有者的财产。

*RoHS Directive 2002/95/EC Jan 27 2003 including Annex. Fluorinert is a registered trademark of 3M Co.Specifications are subject to change without notice.Customers should verify actual device performance in their specific applications.ModelStyleStandard or Modified Product Indicator-1 = Standard Product -EY5 = Extended Shaft Resistance Code Optional Suffix LetterT =Knob**Packaging DesignatorBlank =Tube (Standard)R =T ape & Reel (W and U Pin Styles Only)A =Ammo Pack (W and U Pin Styles Only)TerminationsLF =100 % Tin-plated (RoHS compliant)Blank =90 % Tin / 10 % Lead-plated(Standard)**Knob option is available only in standard Tube packaging.Consult factory for other available options.Electrical Characteristics Standard Resistance Range..................................10 to 2 megohms(see standard resistance table)Resistance Tolerance............±10 % std.(tighter tolerance available)Absolute Minimum Resistance.........................................2 ohms max.Contact Resistance Variation.............................2 % or 3 ohms max.(whichever is greater)AdjustabilityVoltage....................................±0.05 %Resistance..............................±0.15 %Resolution.....................................Infinite Insulation Resistance................500 vdc.1,000 megohms min.Dielectric StrengthSea Level .................................900 vac 70,000 Feet..............................350 vac Adjustment Angle..................280 °nom.Environmental Characteristics Power Rating (300 volts max.)85 °C........................................0.5 watt 125 °C.........................................0 watt Temperature Range....-55 °C to +125 °C Temperature Coefficient....±100 ppm/°C Seal Test........................85 °C Fluorinert †-STD-202 Method 10396 hours(2 % ∆TR, 10 Megohms min.)Vibration.........30 G (1 % ∆TR; 1 % ∆VR)Shock...........100 G (1 % ∆TR; 1 % ∆VR)Load Life ..1,000 hours 0.5 watt @ 70 °C(3 % ∆TR; 1 % or 1 ohm,whichever is greater, CRV)Rotational Life........................200 cycles(4 % ∆TR; 1 % or 1 ohm,whichever is greater, CRV)Physical CharacteristicsMechanical Angle..................310 °nom.Torque .............................5.0 oz-in. max.Stop Strength................15.0 oz -in. min.Terminals........................Solderable pins Weight ........................................0.03 oz.Marking...........................Manufacturer’strademark, resistance code,wiring diagram, date code,manufacturer’s modelnumber and styleFlammability...........................U.L. 94V-0Standard Packaging.....50 pcs. per tube Wiper................50 % (Actual TR) ±10 %Adjustment Tool..............................H-90.76(.030) .76(.030)3.15(.124)X X Resistance Resistance (Ohms)Code 1010020200505001001012002015005011,0001022,0002025,00050210,00010320,00020325,00025350,000503100,000104200,000204250,000254500,0005041,000,0001052,000,000205Standard Resistance TablePopular distribution resistance values listed in boldface. Special resistances available.*Ro H S C O M P L I A N T V E R S I O N S A V A I L A B L ESpecifications are subject to change without notice.Customers should verify actual device performance in their specific applications.The Model 3386 is available with a knob for finger adjustment. Add suffix letter "T" to order code for F , P and X terminal styles.ADJ. SLOT 5.59(.220) 1.02(.040) 1.40(.055) WIDE DEEPLONG ADJ. SLOT 3386H-EY53386X-EY5 – SHOWNCLOCKWISEDIMENSIONS ARE:MM (INCHES)TOLERANCES: ±0.25 (.010) EXCEPT WHERE NOTEDSpecifications are subject to change without notice.Customers should verify actual device performance in their specific applications.REV. 02/06SIDE ADJUST 3386W-1TOP ADJUST 3386U-1Packaging SpecificationsMeets EIA Specification 468.。

Page 1 of 12版本更新记录现有版本日期编写者更改说明金属化聚丙烯膜抗干扰电容器（X2类, 305Vac/275Vac ）■ 外形图■ 特点● 金属化聚丙烯 ● 能承受过压冲击● 优异的阻燃性能 ● 用于电源跨线路等抗干扰场合 ■ 安全认证●CQC (中国) IEC 60384-14:2013, X2, 305V ac/275Vac, 0.0010μF~50.0μF, 40/110/56/B 证书号: CQC03001002875●ENEC-VDE (欧盟)EN 60384-14:2013，X2, 305Vac/275Vac, 0.0010μF ~50.0μF, 40/110/56/B 证书号: 40000358● UL-CUL(美国/加拿大) UL 60384-14:2009，CSA E60384-14:09，X2, 305Vac/275Vac, 0.0010μF ~50.0μF,40/110/56/B证书号: E186600, CCN: FOWX2/8●KC (韩国)K60384-14(2006-12), X2, 305Vac/275Vac, 0.0010μF ~3.0μF, 40/110/56/B 证书号: SU03060-12001A/12002/12003/12004W±0.4, H±0.4, T±0.4四引出线四引出线W±0.4, H±0.4, T±0.4方底圆弧底四引出线■技术要求电容器类别X2类气候类别/阻燃等级40/110/56/B工作温度范围-40℃ ~ +110℃额定电压(U R)305Vac/275Vac, 50/60Hz 最大连续直流电压630Vdc电容量范围0.0010μF～25.0μF电容量偏差±10%(K)，±20%(M)耐电压引线之间 4.3U R(dc), 2s 极壳之间 2 120Vac, 1min绝缘电阻R≥15 000MΩ , C N≤0.33μFRC N≥5 000s, C N>0.33μF(20℃, 100V ,1min)损耗角正切0.0010μF≤C N＜0.010μF ≤20⨯10-4(1kHz,20℃) ≤20⨯10-4(10kHz,20℃) 0.010μF≤C N≤0.47μF ≤10⨯10-4(1kHz,20℃) ≤20⨯10-4(10kHz,20℃)0.47μF<C N≤1.0μF ≤20⨯10-4(1kHz,20℃) ≤40⨯10-4(10kHz,20℃)1.0μF<C N≤10.0μF ≤30⨯10-4(1kHz,20℃) ------------- 10.0μF<C N≤50.0μF ≤40⨯10-4(1kHz,20℃) -------------■产品编码说明18位产品代码如下：1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18C 4 2第1～3位 型号代码C42=MKP62第4～5位 交流额定电压Q2=305V P2=275V第6～8位 标称容量举例：103=10×103 pF= 0.01μF第9位 容量偏差K=±10%, M=±20%第10位 引线脚距3=7.5mm 4=10.0mm 6=15.0mm 9=22.5mmB=27.5mm F=37.5mm M=52.5mm第11位 内部特征码第12～15位 引线加工和包装代码第16～18位内部特征码表1 引线加工和包装代码第12位第13位第14位第15位代码说明代码说明代码说明代码说明A 弹带包装 346 F=7.5mmF=10.0mmF=15.0mm0 表示直脚 15产品在连续的两个载带孔之间P3=12.7mm,H=18.5mm (对于P=7.5mm)P3=25.4mm;H=18.5mm (对于P =10/15mm)C 直脚代码说明0 引线长度偏差±0.5mm或标准长度0045标准的引线长度(18mm~26mm)引线长度4.5mmD E M 软绝缘线（多股）硬绝缘线（单股）软绝缘线（多股），外壳带正底安装耳C5K0K2L035mm100mm120mm200mm注1：这里的长度包含剥线长度注2：一般P≥27.5产品才可选用绝缘线方式1234引线长度偏差-5mm～0mm引线长度偏差0 mm～+5 mm引线长度偏差0 mm～+10mm引线长度偏差±5 mmT 3P1=20.3mm±0.5mmP1=20mm±0.5mm4555引线长度4.5mm引线长度5.5mm0 引线长度偏差±0.5mm或标准长度■ 外形尺寸 (mm)305Vac/275Vac # 305Vac/275Vac # 305Vac/275Vac #C N (μF) W H T P d Part numberC N(μF)W H T P d Part numberC N(μF)W H T P d Part number0.0010 10.5 9.0 4.0 7.5 0.6 C42Q2102-30****+++0.022 17.59.5 5.015.00.6C42Q2223-6A****+++0.3932.0 18.0 9.0 27.50.8C42Q2394-B0****+++ 0.0012 10.5 9.0 4.0 7.5 0.6 C42Q2122-30****+++ 0.027 17.59.5 5.015.00.6C42Q2273-6A****+++0.4732.0 18.0 9.0 27.50.8C42Q2474-B0****+++ 0.0015 10.5 9.0 4.0 7.5 0.6 C42Q2152-30****+++ 0.033 17.59.5 5.015.00.6C42Q2333-6A****+++0.5632.0 18.0 9.0 27.50.8C42Q2564-B0****+++ 0.0018 10.5 9.0 4.0 7.5 0.6 C42Q2182-30****+++ 0.039 17.59.5 5.015.00.6C42Q2393-6A****+++0.6832.0 18.0 9.0 27.50.8C42Q2684-B0****+++ 0.0022 10.5 9.0 4.0 7.5 0.6 C42Q2222-30****+++ 0.047 17.59.5 5.015.00.6C42Q2473-6A****+++0.8232.0 18.0 9.0 27.50.8C42Q2824-BS****+++ 0.0027 10.5 9.0 4.0 7.5 0.6 C42Q2272-30****+++ 0.056 17.59.5 5.015.00.6C42Q2563-6A****+++ 1.032.0 18.0 9.0 27.50.8C42Q2105-BS****+++ 0.0033 10.5 9.0 4.0 7.5 0.6 C42Q2332-30****+++ 0.068 17.59.5 5.015.00.6C42Q2683-6A****+++ 1.032.0 12.0 18.0 27.50.8C42Q2105-BC****+++ 0.0039 10.5 9.0 4.0 7.5 0.6 C42Q2392-30****+++ 0.082 17.59.5 5.015.00.6C42Q2823-6A****+++ 1.232.0 20.0 11.0 27.50.8C42Q2125-BS****+++ 0.0047 10.5 9.0 4.0 7.5 0.6 C42Q2472-30****+++ 0.10M 17.59.5 5.015.00.6C42Q2104M6A****+++ 1.532.0 20.0 11.0 27.50.8C42Q2155-BS****+++ 0.0056 10.5 9.0 4.0 7.5 0.6 C42Q2562-30****+++ 0.10 17.511.0 5.015.00.6C42Q2104-6S****+++ 1.832.0 22.0 13.0 27.50.8C42Q2185-BS****+++ 0.0068 10.5 9.0 4.0 7.5 0.6 C42Q2682-30****+++ 0.12 17.511.0 5.015.00.6C42Q2124-6S****+++ 2.2M32.0 22.0 13.0 27.50.8C42Q2225MBS****+++ 0.0082 10.5 9.0 4.0 7.5 0.6 C42Q2822-30****+++ 0.15M 17.511.0 5.015.00.6C42Q2154M6S****+++ 2.2K32.0 25.0 13.0 27.50.8C42Q2225KBS****+++ 0.010 10.5 9.0 4.0 7.5 0.6 C42Q2103-30****+++ 0.15K 17.512.0 6.015.00.6C42Q2154K6S****+++★2.232.0 16.0 22.0 27.50.8C42Q2225-BC****+++ 0.012 10.5 9.0 4.0 7.5 0.6 C42Q2123-30****+++ 0.18 17.512.0 6.015.00.6C42Q2184-6S****+++ 2.732.0 28.0 14.0 27.50.8C42Q2275-BS****+++ 0.015 10.5 9.0 4.0 7.5 0.6 C42Q2153-30****+++ 0.22M 17.512.0 6.015.00.6C42Q2224M6S****+++ 3.332.0 30.0 16.0 27.50.8C42Q2335-BA****+++ 0.018 10.5 9.0 4.0 7.5 0.6 C42Q2183-30****+++ 0.22K 17.513.5 6.015.00.6C42Q2224K6B****+++ 3.3M32.0 24.5 15.0 27.50.8C42Q2335MBB****+++ 0.022 10.5 9.0 4.0 7.5 0.6 C42Q2223-3S****+++ 0.22K 17.512.07.015.00.6C42Q2224K6C****+++ 3.3K32.0 28.0 17.0 27.50.8C42Q2335KBB****+++ 0.027 10.5 9.0 4.0 7.5 0.6 C42Q2273-3S****+++ 0.22K 17.513.57.515.00.6C42Q2224K6S****+++★3.3M 32.0 16.0 27.5 27.50.8C42Q2335MBC****+++ 0.033 10.5 11.0 5.0 7.5 0.6 C42Q2333-3S****+++ 0.27 17.513.57.515.00.6C42Q2274-6S****+++★3.3K 32.0 18.5 31.0 27.50.8C42Q2335KBC****+++ 0.039 10.5 11.0 5.0 7.5 0.6 C42Q2393-3S****+++ 0.33M 17.513.57.515.00.6C42Q2334M6S****+++ 3.932.0 29.0 19.0 27.50.8C42Q2395-BA****+++ 0.047 10.5 11.0 5.0 7.5 0.6 C42Q2473-3S****+++ 0.33K 17.514.08.015.00.6C42Q2334K6S****+++ 3.932.0 33.0 18.0 27.50.8C42Q2395-BS****+++ 0.056 10.5 12.0 6.0 7.5 0.6 C42Q2563-3S****+++ 0.33M 17.512.59.015.00.6C42Q2334M6A****+++ 4.7M32.0 33.0 18.0 27.50.8C42Q2475MBS****+++ 0.068 10.5 12.0 6.0 7.5 0.6 C42Q2683-3S****+++ 0.33M 17.517.5 6.015.00.6C42Q2334M6B****+++★4.7M 32.0 18.5 31.0 27.50.8C42Q2475MBC****+++ 0.0047 13.0 9.0 4.0 10.0 0.6 C42Q2472-40****+++ 0.33K 17.518.57.515.00.8C42Q2334K6A****+++ 4.7K32.0 33.0 18.0 27.50.8C42Q2475KBA****+++ 0.0056 13.0 9.0 4.0 10.0 0.6 C42Q2562-40****+++ 0.33 17.512.013.015.00.8C42Q2334-6C****+++ 4.732.0 30.0 21.0 27.50.8C42Q2475-BB****+++ 0.0068 13.0 9.0 4.0 10.0 0.6 C42Q2682-40****+++ 0.39 17.514.58.515.00.6C42Q2394-6S****+++ 5.632.0 37.0 22.0 27.50.8C42Q2565-BS****+++ 0.0082 13.0 9.0 4.0 10.0 0.6 C42Q2822-40****+++ 0.47M 17.514.58.515.00.6C42Q2474M6S****+++ 6.8M32.0 37.0 22.0 27.50.8C42Q2685MBS****+++ 0.010 13.0 9.0 4.0 10.0 0.6 C42Q2103-40****+++ 0.47M 17.518.57.515.00.8C42Q2474M6A****+++ 1.541.0 22.0 11.0 37.5 1.0C42Q2155-FS****+++ 0.012 13.0 9.0 4.0 10.0 0.6 C42Q2123-40****+++ 0.47K 17.516.010.015.00.8C42Q2474K6S****+++ 1.841.0 22.0 11.0 37.5 1.0C42Q2185-FS****+++ 0.015 13.0 9.0 4.0 10.0 0.6 C42Q2153-40****+++ 0.56 17.516.010.015.00.8C42Q2564-6A****+++ 2.241.0 24.0 13.0 37.5 1.0C42Q2225-FS****+++ 0.018 13.0 9.0 4.0 10.0 0.6 C42Q2183-40****+++ 0.60 17.519.011.015.00.8C42Q2604-6S****+++ 2.242.0 15.0 24.0 37.5 1.0C42Q2225-FC****+++ 0.022 13.0 9.0 4.0 10.0 0.6 C42Q2223-40****+++ 0.68 17.519.011.015.00.8C42Q2684-6S****+++ 2.741.0 24.0 13.0 37.5 1.0C42Q2275-FS****+++ 0.027 13.0 9.0 4.0 10.0 0.6 C42Q2273-40****+++ 0.82M 17.519.011.015.00.8C42Q2824M6S****+++ 3.341.0 26.0 15.0 37.5 1.0C42Q2335-FA****+++ 0.033 13.0 9.0 4.0 10.0 0.6 C42Q2333-4S****+++ 0.15 26.515.0 6.022.50.8C42Q2154-90****+++ 3.342.0 28.0 14.0 37.5 1.0C42Q2335-FS****+++ 0.039 13.0 9.0 4.0 10.0 0.6 C42Q2393-4S****+++ 0.18 26.515.0 6.022.50.8C42Q2184-90****+++ 3.342.0 15.0 24.0 37.5 1.0C42Q2335-FC****+++ 0.047 13.0 9.0 4.0 10.0 0.6 C42Q2473-4S****+++ 0.22 26.515.0 6.022.50.8C42Q2224-9S****+++ 3.941.0 30.0 16.0 37.5 1.0C42Q2395-FS****+++ 0.056 13.0 11.0 5.0 10.0 0.6 C42Q2563-4S****+++ 0.27 26.515.0 6.022.50.8C42Q2274-9S****+++ 4.7M42.0 19.0 24.0 37.5 1.0C42Q2475MFC****+++ 0.068 13.0 11.0 5.0 10.0 0.6 C42Q2683-4S****+++ 0.33 26.515.0 6.022.50.8C42Q2334-9S****+++ 4.7K41.0 20.0 26.0 37.5 1.0C42Q2475KFC****+++ 0.082 13.0 11.0 5.0 10.0 0.6 C42Q2823-4S****+++ 0.39 26.515.0 6.022.50.8C42Q2394-9S****+++ 4.741.0 30.0 16.0 37.5 1.0C42Q2475-FS****+++ 0.10M 13.0 11.0 5.0 10.0 0.6 C42Q2104M4S****+++ 0.47M 26.515.0 6.022.50.8C42Q2474M9S****+++ 5.641.0 33.5 18.5 37.5 1.0C42Q2565-FS****+++ 0.10K 13.0 12.0 6.0 10.0 0.6 C42Q2104K4S****+++ 0.47K 26.516.07.022.50.8C42Q2474K9S****+++ 6.841.0 33.5 18.5 37.5 1.0C42Q2685-FS****+++ 0.12 13.0 13.0 7.0 10.0 0.6 C42Q2124-4S****+++ 0.56 26.516.07.022.50.8C42Q2564-9S****+++ 6.842.0 24.0 32.0 37.5 1.0C42Q2685-FC****+++ 0.15 13.0 13.0 7.0 10.0 0.6 C42Q2154-4S****+++ 0.60 26.517.08.522.50.8C42Q2604-9S****+++8.241.0 37.0 22.0 37.5 1.0C42Q2825-FS****+++ 0.18 13.0 14.0 8.0 10.0 0.6 C42Q2184-4S****+++ 0.68 26.517.08.522.50.8C42Q2684-9S****+++10.0M41.0 37.0 22.0 37.5 1.0C42Q2106MFS****+++ 0.22M 13.0 14.0 8.0 10.0 0.6 C42Q2224M4S****+++ 0.82 26.518.510.022.50.8C42Q2824-9S****+++10.0K41.0 41.0 26.0 37.5 1.0C42Q2106KFS****+++ 0.010 17.5 9.5 5.0 15.0 0.6 C42Q2103-6A****+++ 1.0 26.518.510.022.50.8C42Q2105-9S****+++10.0K41.5 37.5 27.5 37.5 1.0C42Q2106KFA****+++ 0.012 17.5 9.5 5.0 15.0 0.6 C42Q2123-6A****+++ 1.2 26.520.011.022.50.8C42Q2125-9S****+++12.041.0 43.0 28.0 37.5 1.0C42Q2126-FS****+++ 0.015 17.5 9.5 5.0 15.0 0.6 C42Q2153-6A****+++ 1.5M 26.520.011.022.50.8C42Q2155M9S****+++15.042.0 45.0 30.0 37.5 1.0C42Q2156-FS****+++0.018 17.5 9.5 5.0 15.0 0.6 C42Q2183-6A****+++ 1.5K 26.522.012.022.50.8C42Q2155K9S****+++20.042.0 57.5 30.0 37.5 1.0C42Q2206-FS****+++1.8 26.524.515.522.50.8C42Q2185-9S****+++20.057.0 45.0 30.0 52.5 1.2C42Q2206-MST***+++2.2 26.524.515.522.50.8C42Q2225-9S****+++20.057.0 30.0 44.0 52.5 1.2C42Q2206-MCT***+++2.2 26.529.514.522.50.8C42Q2225-9A****+++25.057.0 50.0 35.0 52.5 1.2C42Q2256-MST***+++备注： 1. “-” 表示电容量偏差，M=±20%,K=±10%2. “****”表示引线加工和包装代码(见表1)3. “#”当额定电压为275Vac时，第4~5位是P2。

Typical Features◆Wide input voltage range:85-265VAC/120-380VDC◆No-load power consumption≤≤0.5W◆Transfer efficiency（typ.87%）◆Switching frequency:65KHz◆Protection:Short Circuit,Over Current◆Isolation voltage:2500Vac◆Plastic case,conform to UL94V-0Class◆PCB mountingApplication FieldFA24-220SXXG3N3Series-----a compact size,high efficient power converter offered by Aipu.It features universal input voltage,DC and AC dual-use,low ripple,low temperature rise,low power consumption, high efficiency,high reliability,safer isolation,with good EMC performance.EMC and Safety standard meet international EN55032,IEC/EN61000.It widely used in power,industrial,instrument,smart home applications.For harsh EMC environment,the application circuit in the datasheet is strongly recommended.Typical Product ListPart No.Output SpecificationMax.Capacitive LoadRipple&Noise20MHz（Max）Efficiency@Full Load220Vac(Typical) Power Voltage1Current1Voltage2Current2（W）Vo1（V）Io1（m A）Vo2（V）Io2（m A）u F mVp-p%FA24-220S12G3N32412.02000--200015085 FA24-220S15G3N32415.01600--20008086 FA24-220S24G3N324241000--80010087 Note1:Ripple&Noise of FA24-220S15G3N3,FA24-220S24G3N3should be tested with EMC solution recommended circuit,please see photo1at back.Note2:Due to space limitations,above is only a part of our product list,please contact our sales team for more items.Note3:.”*”is model under developing.Note4:The typical output efficiency is based on that product is full loaded and burned-in after half an hour.Note5:The fluctuation range of full load efficiency(%,TYP)is±2%,full load output efficiency=total output power/module’s input power.Input SpecificationItem Operating Condition Min.Typ.Max.UnitInput Voltage Range AC Input85220265VAC DC Input120310380VDCInput Frequency Range-475063HzInput Current 115VAC//250mA 220VAC//150Surge Current 115VAC//10 220VAC//20Leakage Current-0.5mA TYP/230VAC/50HzExternal fuserecommended value-2A-5A/250VAC slow-fusing Hot plug-UnavailableRemote control terminal-UnavailableOutput SpecificationItem Operating Condition Min.Typ.Max.UnitVoltage Accuracy Full input voltagerangeAny loadVo1--±2.0%Vo2---%Line Regulation Nominal Load Vo1--±2.0% Vo2---%Load RegulationNominal inputVoltage20%~100%loadVo1--±2.0%Vo2---%No load power consumption Input115VAC--0.5W Input220VAC--Minimum loadSingle Output0--% Positive Negative Dualoutput commongrounded---% Positive Negative Dualoutput isolated---Turn-on Delay Time Nominal input voltage,fullload-300-mSPower-off Holding Time Input115VAC(full load)-65-mS Input220VAC(full load)--Output Overshooting Full input voltage range(full load)--10%Dynamic Response 25%~50%~25%50%~75%~50%Overshoot range（%）：≤±5%%Recovery time（mS）：≤5.0mS mSShort Circuit Protection Input full voltage range Continuous,Self-recovery Hiccup Drift Coefficient--±0.03%-%/℃Over Current Protection Input220VAC≥120%Io,Self-recovery HiccupRipple&Noise Vo=12.0V≤150mV Vo=15.0V≤80mVVo=24.0V≤100Note:Ripple&Noise is tested by Twisted Pair Method,details please see Ripple&Noise Test at back. General SpecificationsItem Operating Condition Min.Typ.Max.Unit Switching Frequency-606570KHz Operating Temperature--40-+75℃Storage Temperature--40-+85Relative Humidity-10-90%RHIsolation Voltage Input-Output,Test1min,leakage current≤5mA2500--VACInsulation Resistance Input-Output@DC500V100--MΩMTBF-≥300,000H@25℃Vibration-10-55Hz,10G,30Min,alongX,Y,ZClass of Case Material-UL94V-0EMC CharacteristicsTotal Item Sub Item Test Standard ClassEMC EMICE CISPR22/EN55032CLASS B（see recommended circuit Photo2）RE CISPR22/EN55032CLASS B（see recommended circuit Photo2）EMSRS IEC/EN61000-4-310V/m Perf.Criteria BCS IEC/EN61000-4-63Vr.m.s Perf.Criteria BESD IEC/EN61000-4-2Contact±4KV/Air±8KV Perf.Criteria BSurge IEC/EN61000-4-5±1KV Perf.Criteria B（see recommendedcircuit Photo2）EFT IEC/EN61000-4-4±2KV Perf.Criteria BVoltage dips,shortinterruptions and voltagevariations immunityIEC/EN61000-4-110%~70%Perf.Criteria BPacking DimensionPacking Code L x W x HG339.0x25.0x22.0mmPin DefinitionPin-out12345Single（S）AC(N)AC(L)GND NP+VoNote:If the definition of pin is not in accordance with the model selection manual,please refer to the label on actual item. Ripple&Noise Test:(Twisted Pair Method20MHZ bandwidth)Test Method:(1)12#twisted pair to connect,Oscilloscope bandwidth set as20MHz,100M bandwidth probe,terminated with0.1uFpolypropylene capacitor and10uF high frequency lowresistance electrolytic capacitor in parallel,oscilloscope set asSample pattern.(2)Input terminal connect to power supply,output terminalconnect to electronic load through jig plate,Use30cm±2cmsampling line.Power line selected from correspondingdiameter wire with insulation according to the flow of outputcurrent.Product Characteristic CurveNote1:Input Voltage should be derated base on Input Voltage Derating Curve when it is85~100VAC/240~265VAC/120~140VDC/340~380VDC.2:Our product is suitable to use under natural air cooling environment,if use it under closed condition,please contact with us. Typical EMC Circuit and Recommended Spec1.Typical Application CircuitPart No.CE1L1CE2TVS1FA24-220S12G3N3NC2uH470uF/16V SMBJ14.0AFA24-220S15G3N3220uF/25V5uH220uF/25V SMBJ17.0A*FA24-220S24G3N3220uF/35V5uH220uF/35V SMBJ26.0ANote:Output filter capacitor C2is electrolytic capacitor,recommend high frequency low resistor electrolytic capacitor,for capacity and current low,please refer to the technical specifications provided by each manufacturer.C2capacitor withstand voltage should derate to80%,capacitor C1is ceramic capacitor,to filter high frequency noise,recommended0.1uF/50V/1206.TVS1tube is a recommend component to protect post-circuit if converter fails.Recommend to external FUSE,Model:3.15A/250V, slow fusing.2.EMC solution recommended circuitPhoto2,EMC for higher requirement circuitComponent Products Module ValueFUSE 3.15A/250Vac 3.15A/250Vac,slow-fusing,necessaryNTC5D-95D-9MOV10D561K10D561KCX10.47uF/275Vac0.47uF/275VacL1 6.8uH/3.0A 6.8uH/3.0A H inductorLF2UU9.830mH min30mH/3.0ANote:1.The product should be used under the specification range,otherwise it will cause permanent damage to it.2.Product’s input terminal should connect to fuse;3.If the product is not worked under the load range(below the minimum load or beyond the load range),we cannot ensure that the performance of product is in accordance with all the indexes in this manual;4.Unless otherwise specified,data in this datasheet are tested under conditions of Ta=25℃,humidity<75%when inputting nominal voltage and outputting rated load(pure resistance load);5.All index testing methods in this datasheet are based on our Company’s corporate standards6.The performance indexes of the product models listed in this manual are as above,but some indexes of non-standard model products will exceed the above-mentioned requirements,please directly contact our technician for specific information;7.We can provide customized product service;8.The product specification may be changed at any time without prior notice.。

Note: All design and specifications are for reference only and is subject to change without prior notice. If any doubt about safety for your application, please contact us immediately for technical assistance before purchase.注: 以上所提供的設計及特性參數僅供參考，任何修改不作預先通知。

如果在使用上有疑問，請在採購前與我們聯繫，以便提供技術上的協助。

WIDE TEMPERATURE寬溫品Operating with wide temperature range -40~+105°C 適用於 -40~+105°C 的寬溫範圍 Load life of 1000~2000 hours 負荷壽命1000~2000小時Comply with the RoHS directive 符合RoHS 指令SPECIFICATIONS 特性表Items 項目Characteristics 主要特性Operation Temperature Range 使用温度範圍 -40 ~ +105°C Voltage Range 額定工作電壓範圍 4 ~ 450V Capacitance Range 靜電容量範圍 0.1 ~ 6800μF Capacitance Tolerance 靜電容量允許偏差±20% at 120Hz, 20°C Leakage Current 漏電流Rated Voltage 額定工作電壓 6.3 ~ 100V160 ~ 450VCase size 尺寸 ∅4~∅10∅12.5~∅16∅6.3~∅16Time 時間after 2 min. (application of rated voltage)2分鐘後（施加額定工作電壓）after 1 min. (application of rated voltage) 1分鐘後（施加額定工作電壓） after 5 min. (application of rated voltage)5分鐘後（施加額定工作電壓）Leakage current 漏電流≤0.01CV or 3μA, whichever is greater ≤0.01CV 或3μA ，取較大值≤0.03CV or 4μA, whichever is greater ≤0.03CV 或4μA ，取較大值≤0.04CV+100μA, whichever is greater ≤0.04CV+100μA ，取較大值Dissipation Factor (tan δ) 損耗角正切Measurement frequency 測試頻率: 120Hz, Temperature 温度: 20°C Rated Voltage (V) 額定工作電壓 4 6.31016253550 63 100 160~250350~450tan δ (max.) 最大損耗角正切 ∅4~∅100.420.300.260.220.160.14 0.12 0.10 0.100.20 0.25 ∅12.5~∅160.450.380.340.300.260.22 0.18 0.14 0.100.20 0.25Stability at Low Temperature低溫特性Measurement frequency 測試頻率: 120HzRated Voltage (V) 額定工作電壓 4 6.3101625 35 50~63 100160~250350~450Impedance Ratio 阻抗比ZT/Z20 (max.) ∅4~∅10Z(-25°C)/Z(20°C)7 4 3 2 2 2 2 3 2 3Z(-40°C)/Z(20°C)158 6 4 4 3 3 4 3 6∅12.5~∅16Z(-25°C)/Z(20°C)7 5 4 3 2 2 2 2 2 4Z(-40°C)/Z(20°C)1712108 5 4 3 3 6 10 Load Life 高溫負荷特性After 2000 hrs. (1000 hrs. for ∅4~∅6.3×5.4) application of the rated voltage at 105°C, they meet the characteristics listedbelow. 在105°C 環境中施加額定工作電壓2000小時（∅4~∅6.3×5.4為1000小時）後，電容器的特性符合下表的要求。

Passive directional antenna for use with Evolution Wireless Digital systems.The ADP UHF passive directional antenna is the perfect addition for enhancing the wireless performance of your Evolution Wireless Digital system. The ⅝" and ⅜" threads make it easy to mount on any mic stand. The ADP UHF can be connected to the EW-D EM receiver, the EW-D AB antenna booster or EW-D ASA antenna splitter.FEATURES• UHF transmission greatly enhances range, reliabilityand scalability • Built-in ⅝" and ⅜" threads allow for easy mic standmountingACCESSORIESEW-D AB (Q)Antenna Booster 470 - 550 MHz Art. no. 508873EW-D AB (R)Antenna Booster 520 - 608 MHz Art. no. 508874EW-D AB (S)Antenna Booster 606 - 694 MHz Art. no. 508875EW-D AB (U)Antenna Booster 823 - 865 MHz Art. no. 508876EW-D AB (V)Antenna Booster 902 - 960 MHz Art. no. 508877EW-D ASA (Q-R-S)Active Antenna Splitter 470 - 694 MHz Art. no. 508879EW-D ASA (T-U-V-W)Active Antenna Splitter 694 - 1075 MHz Art. no. 508880EW-D ASA CN/ANZ (Q-R-S)Active Antenna Splitter470 - 694 MHzArt. no. 508998ARTICLE INFORMATIONADP UHF (470 - 1075 MHz)Art. no. 508863SPECIFICATIONSFrequency range 470 – 1075 MHz Apex angle (-3 dB)approx. 100°Front-to-back ratio > 14 dB Gain typ. 5 dBi Impedance 50 ΩConnection BNC female, no DC path Threads for tripod mounting 3/8" and 5/8"Dimensions 319 x 310 mmWeightApprox. 1100 g (2.43 lbs)Operating temperature range-10 °C - +55 °C (14 °F - 131 °F)Storage temperature range-20 °C - +85 °C (-4 °F - 185 °F)Relative humiditymax. 95 % (non-condensing)POLAR PATTERN90°90°0°180°Sennheiser electronic GmbH & Co. KG · Am Labor 1 · 30900 Wedemark · Germany · DIMENSIONSPOSITIONING。

E d i t i o n J u l y 2018The figures and data provided in this datasheet are consistent with the current state of our knowledge and are intended to provideg eneral information about our products and their applications. The data collected in this document is for non-binding information purposes only. The exact quality of the products is detailed in the technical specifications which are sent together with the order con-firmation. Any existing commercial rights or patents must be observed. Certified according to DIN EN ISO 9001, DIN EN ISO 50001, BRC IoP, AIB. Compliance with industrial health and safety standards. Treofan OPP films do not present any significant danger to health and safety in the workplace, provided they are used for the i ntended purpose in accordance with conventional practices and that health and safety regulations are observed. Relevant g uidelines can be found in our safety information.Treofan Germany GmbH & Co. KGAm Prime Parc 1765479 Raunheim / Germanyt +49 (0) 6142 200 3000f +49 (0) 6142 200 3202*****************GEACoextruded Transparent FilmApplicationsTailored slip, untreated, for overwrap applications.Technical Data (Typical Value)AvailabilityStorageThe reels should be kept in their originalp ackaging until used. It is recommendedt hat films are stored below 30°C in order tom inimize deterioration of film properties. All films should be allowed to reach operation room temperature for 24 hours before use.Food ApprovalTreofan GEA is in compliance with current US FDA and European food contact regulation.Health and SafetyTreofan GEA has specially been developed for packing foods and meets the specificr equirements on health and safety.Properties GEA 20 GEA 25 Unit Measuring methodUnit weight 18.2 22.8g/m 2 ISO 4591Average yield 54.9 44.0 m 2/kg ISO 4591Haze 2.2 2.4 %ASTM D 1003Gloss At 20°110 110 gloss unit ISO 2813Heatseal strength 1.51.5N/15 mmTreofanHeatseal rangeUntreated 120-140 120-140 °C Treofan Coefficient of friction Film/film, dynamic 0.4 0.4 – ISO 8295Tensile strength Machine direction 150 150 N/mm 2 ISO 527Transverse direction 280 280 N/mm 2 ISO 527Elongation at break Machine direction 190 190 % ISO 527Transverse direction65 65 % ISO 527Water vapour permeability 23°C / 85% r.h. 1.1 1.1 g/m 2/d ASTM F 124938°C / 90% r.h.6.85.5g/m 2/dASTM F 1249Dimensions GEA 20 GEA 25 UnitReel lengthStandard length (6-times) 21 000 16 800 m Max. reel outside diameter Core diameter 152 mm 742 774mmMax. reel width: 2000 mm (widths > 2000 mm on request)DescriptionGEA is a transparent, two side heat sealable OPP film for overwrapping. Its tailored slip properties make it particularly suitable for high speed overwrapping applications. GEA is only available in an untreated version.Product features• Transparent and excellent gloss • Tailored slip for high speed overwrapping• Good antistatic properties • High heatseal strength • Good moisture barrier• Not suitable for boost treatment。

MSMASMD current sensing resistor- metal stripPb HALOGENHFFREET able 1. Part numbering configuration schemeMSM @ xxxx Rxxxx * ? !Family nameMSMGrade optionA = Automotive gradeFootprint EIA option0603, 0805, 1206, 2010, 2512 1225 = 2512 wide terminalResistance optionRxxxx = xxx.x mΩR0000 = 0, Resistance is under 0.5 mΩ for jumper resistor , R0050 = 5.0 mΩMetal material optionM = MnCu, N = NiCu, C= CuPower rating optionA = 1/4 W, S = 1/2 W,C = 1 W,D = 1.5 W,E = 2 W, G = 3 WResistance tolerance option F = ±1%, J= ±5%Product features• Low sensing resistance• 0603 (1608 metric) to 2512 (6432 metric)• High power dissipation • AEC-Q200 compliant•Moisture sensitivity level (MSL): 1Applications• Switched-mode power supply (SMPS)• Voltage regulator module • Power management •Stepper motor drivesEnvironmental complianceSee electrical specification table for option details2Technical Data ELX1179Effective June 2022MSMA SMD current sensing resistor- metal strip/electronicsMechanical parameters- Inches [mm]Recommended PCB layout- mmFamilySize codeLWCTFigureMSMA06030603[1608]0.063 ± 0.004[1.60 ± 0.10]0.031 ± 0.004[0.80 ± 0.10]0.016 ± 0.008[0.40 ± 0.20]0.012 ± 0.008[0.30 ± 0.20]A MSMA0805 R < 20805[2512]0.079 ± 0.008[2.0 ± 0.20]0.049 ± 0.008[1.25 ± 0.20]0.026 ± 0.012[0.65 ± 0.30]0.028 ± 0.008[0.70 ± 0.20]A MSMA0805 R ≥ 20805[2012]0.079 ± 0.008[2.0 ± 0.20]0.049 ± 0.008[1.25 ± 0.20]0.016 ± 0.012[0.40 ± 0.30]0.028 ± 0.008[0.70 ± 0.20]A MSMA1206 R = 11206[3216]0.126 ± 0.008[3.20 ± 0.20]0.063 ± 0.008[1.60 ± 0.20]0.043 ± 0.012[1.10 ± 0.30]0.030 ± 0.008[0.75 ± 0.20]A MSMA1206 R > 11206[3216]0.126 ± 0.008[3.20 ± 0.20]0.063 ± 0.008[1.60 ± 0.20]0.020 ± 0.012[0.50 ± 0.30]0.024 ± 0.008[0.60 ± 0.20]A MSMA2010 R ≤ 32010[5025]0.197 ± 0.008[5.0 ± 0.20]0.098 ± 0.008[2.50 ± 0.20]0.059 ± 0.012[1.50 ± 0.30]0.024 ± 0.008[0.60 ± 0.20]A MSMA2010 R > 32010[5025]0.197 ± 0.008[5.0 ± 0.20]0.098 ± 0.008[2.50 ± 0.20]0.024 ± 0.012[0.60 ± 0.30]0.024 ± 0.008[0.60 ± 0.20]A MSMA2512 R = 0.52512[6432]0.252 ± 0.008[6.40 ± 0.20]0.126 ± 0.008[3.20 ± 0.20]0.102 ± 0.008[2.60 ± 0.20]0.024 ± 0.008[0.60 ± 0.20]A MSMA2512 0.5 < R ≤ 32512[6432]0.252 ± 0.008[6.40 ± 0.20]0.126 ± 0.008[3.20 ± 0.20]0.087 ± 0.008[2.20 ± 0.20]0.024 ± 0.008[0.60 ± 0.20]A MSMA2512 3 < R ≤ 502512[6432]0.252 ± 0.008[6.40 ± 0.20]0.126 ± 0.008[3.20 ± 0.20]0.035 ± 0.008[0.90 ± 0.20]0.024 ± 0.008[0.60 ± 0.20]A MSMA2512 3W R ≤ 42512[6432]0.252 ± 0.008[6.40 ± 0.20]0.126 ± 0.008[3.20 ± 0.20]0.087 ± 0.008[2.2 ± 0.20]0.035 ± 0.008[0.90 ± 0.20]A MSMA2512 3W 4 < R ≤ 1002512[6432]0.252 ± 0.008[6.40 ± 0.20]0.126 ± 0.008[3.20 ± 0.20]0.035 ± 0.008[0.90 ± 0.20]0.035 ± 0.008[0.90 ± 0.20]A MSMA2512 R > 1002512[6432]0.252 ± 0.008[6.40 ± 0.20]0.126 ± 0.008[3.20 ± 0.20]0.035 ± 0.008[0.90 ± 0.20]0.035 ± 0.008[0.90 ± 0.20]A MSMA12251225[3264]0.126 ± 0.008[3.20 ± 0.20]0.252 ± 0.008[6.40 ± 0.20]0.020 ± 0.008[0.50 ± 0.20]0.035 ± 0.010[0.90 ± 0.25]BFigure AFigure BConstructionMetal Alloy PlateMatte Sn/Ni FamilyResistance (mΩ)A L BMSMA0603R = 0 2.10.70.7MSMA0805 1 ≤ R ≤ 2 1.40.7 1.152 ≤ R ≤ 25 1.4 1.2 1.15MSMA1206R = 1 1.8 1.0 2.31 ≤ R ≤ 50 1.8 1.6 1.7MSMA20101 ≤ R ≤ 3 3.4 2.0 3.54 ≤ R ≤ 50 3.4 3.5 1.5MSMA25120.5 ≤ R ≤ 3 4.0 1.3 3.13 W, R = 4 4.0 1.3 3.14 ≤ R 4.0 4.1 2.1MSMA12251 ≤ R ≤ 407.02.31.01. The copper foil thickness of PCB needs 3 oz. minimum2. PCB layout dimension tolerance is +/-0.1 mm.3. The resistance will change slightly after soldered; it is dependent on PCB pad size deign and it’s necessary to consider the effect of the resistance increase or decrease.Part markingFamilyMarkingMSMA0603No markingMSMA0805Resistance value is expressed by 3 digits.005 = 0.005 Ω or 5 mΩ010 = 0.010 Ω or 10 mΩWhite box = all values less than 2 mΩMSMA1206Resistance value is expressed by 2 or 4 digits.R01 = 0.001 Ω or 1 mΩ7R5m = 0.0075 Ω or 7.5 mΩR050 = 0.050 Ω or 50 mΩMSMA2010Resistance value is expressed by 4 digits.R001 = 0.001 Ω or 1 mΩR050 = 0.050 Ω or 50 mΩMSMA2512Resistance value is expressed by 4 digits.R50m = 0.0005 Ω or 0.5 mΩR001 = 0.001 Ω or 1 mΩ6R8m = 0.0068 Ω or 6.8 mΩR050 = 0.050 Ω or 50 mΩMSMA1225Resistance value is expressed by 3 or 4 digits.2R2m= .0022 Ω or 2.2 mΩ005 = 0.005 Ω or 5 mΩ010 = 0.010 Ω or 10 mΩ3Technical Data ELX1179Effective June 2022MSMASMD current sensing resistor- metal strip /electronics @= Enter grade option from table above (A=Automotive)Rxxxx = Enter resistance code option from table above xxxx= resistance code (R0000 = 0, Resistance is under 0.5mΩ for jumper resistor , R0050 = 5.0 mΩ)*= Enter resistance tolerance code option from table above (F= ±1%, J= ±5%)= Enter power rating code option from table above (A =1/4 W, S =1/2 W, C =1 W, D = 1.5 W, E = 2 W, G= 3 W)!=Enter metal material code option from tabel above (M = MnCu, N = NiCu, C= Cu)Electrical specificationsPart number SizeGrade optionResistance value mΩ (Part number code)Resistance tolerance (Part number code)Power rating (Part number code)Metal material (Part number code)TCR(ppm/°C)Operating temperatureMSM@0603Rxxxx*?!0603 (1608 metric)A 0 (0000)*±5% (J)1/4 W (A)Cu (C)3800-55 °C to +150 °C MSM@0805Rxxxx*?!0805 (2012 metric)A 1 (0010)±1% (F)1/2 W (S)MnCu (M)± 100-55 °C to +170 °C MSM@0805Rxxxx*?!0805 (2012 metric)A 1.5 (0015)±1% (F)1/2 W (S)MnCu (M)± 50-55 °C to +170 °C MSM@0805Rxxxx*?!0805 (2012 metric)A 2 (0020)±1% (F)1/2 W (S)MnCu (M)± 50-55 °C to +170 °C MSM@0805Rxxxx*?!0805 (2012 metric)A 3 (0030)±1% (F)1/2 W (S)MnCu (M)± 50-55 °C to +170 °C MSM@0805Rxxxx*?!0805 (2012 metric)A 4 (0040)±1% (F)1/2 W (S)MnCu (M)± 50-55 °C to +170 °C MSM@0805Rxxxx*?!0805 (2012 metric)A 5 (0050)±1% (F)1/2 W (S)MnCu (M)± 50-55 °C to +170 °C MSM@0805Rxxxx*?!0805 (2012 metric)A 6 (0060)±1% (F)1/2 W (S)MnCu (M)± 50-55 °C to +170 °C MSM@0805Rxxxx*?!0805 (2012 metric)A 8 (0080)±1% (F)1/2 W (S)MnCu (M)± 50-55 °C to +170 °C MSM@0805Rxxxx*?!0805 (2012 metric)A 9 (0090)±1% (F)1/2 W (S)MnCu (M)± 50-55 °C to +170 °C MSM@0805Rxxxx*?!0805 (2012 metric)A 10 (0100)±1% (F)1/2 W (S)MnCu (M)± 50-55 °C to +170 °C MSM@0805Rxxxx*?!0805 (2012 metric)A 15 (0150)±1% (F)1/2 W (S)MnCu (M)± 50-55 °C to +170 °C MSM@0805Rxxxx*?!0805 (2012 metric)A 20 (0200)±1% (F)1/2 W (S)MnCu (M)± 50-55 °C to +170 °C MSM@0805Rxxxx*?!0805 (2012 metric)A 25 (0250)±1% (F)1/2 W (S)MnCu (M)± 50-55 °C to +170 °C MSM@1206Rxxxx*?!1206 (3216 metric)A 1 (0010)±1% (F) 1 W (C)MnCu (M)± 50-55 °C to +170 °C MSM@1206Rxxxx*?!1206 (3216 metric)A 2 (0020)±1% (F) 1 W (C)MnCu (M)± 50-55 °C to +170 °C MSM@1206Rxxxx*?!1206 (3216 metric)A 3 (0030)±1% (F) 1 W (C)MnCu (M)± 50-55 °C to +170 °C MSM@1206Rxxxx*?!1206 (3216 metric)A 3.5 (0035)±1% (F) 1 W (C)MnCu (M)± 50-55 °C to +170 °C MSM@1206Rxxxx*?!1206 (3216 metric)A 4 (0040)±1% (F) 1 W (C)MnCu (M)± 50-55 °C to +170 °C MSM@1206Rxxxx*?!1206 (3216 metric)A 5 (0050)±1% (F) 1 W (C)MnCu (M)± 50-55 °C to +170 °C MSM@1206Rxxxx*?!1206 (3216 metric)A 6 (0060)±1% (F) 1 W (C)MnCu (M)± 50-55 °C to +170 °C MSM@1206Rxxxx*?!1206 (3216 metric)A 7 (0070)±1% (F) 1 W (C)MnCu (M)± 50-55 °C to +170 °C MSM@1206Rxxxx*?!1206 (3216 metric)A 7.5 (0075)±1% (F) 1 W (C)MnCu (M)± 50-55 °C to +170 °C MSM@1206Rxxxx*?!1206 (3216 metric)A 8 (0080)±1% (F) 1 W (C)MnCu (M)± 50-55 °C to +170 °C MSM@1206Rxxxx*?!1206 (3216 metric)A 9 (0090)±1% (F) 1 W (C)MnCu (M)± 50-55 °C to +170 °C MSM@1206Rxxxx*?!1206 (3216 metric)A 10 (0100)±1% (F) 1 W (C)MnCu (M)± 50-55 °C to +170 °C MSM@1206Rxxxx*?!1206 (3216 metric)A 12 (0120)±1% (F) 1 W (C)MnCu (M)± 50-55 °C to +170 °C MSM@1206Rxxxx*?!1206 (3216 metric)A 14 (0140)±1% (F) 1 W (C)MnCu (M)± 50-55 °C to +170 °C MSM@1206Rxxxx*?!1206 (3216 metric)A 15 (0150)±1% (F) 1 W (C)MnCu (M)± 50-55 °C to +170 °C MSM@1206Rxxxx*?!1206 (3216 metric)A 16 (0160)±1% (F) 1 W (C)MnCu (M)± 50-55 °C to +170 °C MSM@1206Rxxxx*?!1206 (3216 metric)A 18 (0180)±1% (F) 1 W (C)MnCu (M)± 50-55 °C to +170 °C MSM@1206Rxxxx*?!1206 (3216 metric)A 20 (0200)±1% (F) 1 W (C)MnCu (M)± 50-55 °C to +170 °C MSM@1206Rxxxx*?!1206 (3216 metric)A 22 (0220)±1% (F) 1 W (C)MnCu (M)± 50-55 °C to +170 °C MSM@1206Rxxxx*?!1206 (3216 metric)A 25 (0250)±1% (F) 1 W (C)MnCu (M)± 50-55 °C to +170 °C MSM@1206Rxxxx*?!1206 (3216 metric)A 30 (0300)±1% (F) 1 W (C)MnCu (M)± 50-55 °C to +170 °C MSM@1206Rxxxx*?!1206 (3216 metric)A 40 (0400)±1% (F) 1 W (C)MnCu (M)± 50-55 °C to +170 °C MSM@1206Rxxxx*?!1206 (3216 metric)A50 (0500)±1% (F)1 W (C)MnCu (M)± 50-55 °C to +170 °C4Technical Data ELX1179Effective June 2022MSMA SMD current sensing resistor- metal strip/electronicsElectrical specificationsPart number SizeGrade option Resistance value mΩ (Part number code)Resistance tolerance (Part number code)Power rating (Part number code)Metal material (Part number code)TCR(ppm/°C)Operating temperatureMSM@2010Rxxxx*?!2010 (5025 metric)A 1 (0010)±1% (F) 1.5 W (D)MnCu (M)± 50-55 °C to +170 °C MSM@2010Rxxxx*?!2010 (5025 metric)A 2 (0020)±1% (F) 1.5 W (D)MnCu (M)± 50-55 °C to +170 °C MSM@2010Rxxxx*?!2010 (5025 metric)A 14 (0140)±1% (F) 1.5 W (D)MnCu (M)± 50-55 °C to +170 °C MSM@2010Rxxxx*?!2010 (5025 metric)A 30 (0300)±1% (F) 1.5 W (D)MnCu (M)± 50-55 °C to +170 °C MSM@2010Rxxxx*?!2010 (5025 metric)A 5 (0050)±1% (F) 1.5 W (D)NiCu (N)± 50-55 °C to +170 °C MSM@2010Rxxxx*?!2010 (5025 metric)A 6 (0060)±1% (F) 1.5 W (D)NiCu (N)± 50-55 °C to +170 °C MSM@2010Rxxxx*?!2010 (5025 metric)A 10 (0100)±1% (F) 1.5 W (D)NiCu (N)± 50-55 °C to +170 °C MSM@2010Rxxxx*?!2010 (5025 metric)A 15 (0150)±1% (F) 1.5 W (D)NiCu (N)± 50-55 °C to +170 °C MSM@2010Rxxxx*?!2010 (5025 metric)A 20 (0200)±1% (F) 1.5 W (D)NiCu (N)± 50-55 °C to +170 °C MSM@2010Rxxxx*?!2010 (5025 metric)A 50 (0500)±1% (F) 1.5 W (D)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 1 (0010)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 2 (0020)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 3 (0030)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 3.5 (0035)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 4 (0040)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 5 (0050)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 6 (0060)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 7 (0070)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 8 (0080)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 9 (0090)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 10 (0100)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 11 (0110)±1% (F) 1 W (C)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 15 (0150)±1% (F) 1 W (C)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 16 (0160)±1% (F) 1 W (C)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 18 (0180)±1% (F) 1 W (C)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 20 (0200)±1% (F) 1 W (C)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 25 (0250)±1% (F) 1 W (C)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 30 (0300)±1% (F) 1 W (C)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 33 (0330)±1% (F) 1 W (C)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 35 (0350)±1% (F) 1 W (C)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 40 (0400)±1% (F) 1 W (C)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 50 (0500)±1% (F) 1 W (C)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 0.5 (0005)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 1 (0010)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 1.1 (0011)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 1.5 (0015)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 2 (0020)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 3 (0030)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 4 (0040)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 5 (0050)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 6 (0060)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A7 (0070)±1% (F)3 W (G)MnCu (M)± 50-55 °C to +170 °C@= Enter grade option from table above (A=Automotive)Rxxxx = Enter resistance code option from table above xxxx= resistance code (R0000 = 0, Resistance is under 0.5mΩ for jumper resistor , R0050 = 5.0 mΩ)*= Enter resistance tolerance code option from table above (F= ±1%, J= ±5%)= Enter power rating code option from table above (A =1/4 W, S =1/2 W, C =1 W, D = 1.5 W, E = 2 W, G= 3 W)!=Enter metal material code option from tabel above (M = MnCu, N = NiCu, C= Cu)5Technical Data ELX1179Effective June 2022MSMASMD current sensing resistor- metal strip/electronics Electrical specificationsPart number SizeGrade optionResistance value mΩ (Part number code)Resistance tolerance (Part number code)Power rating (Part number code)Metal material (Part number code)TCR(ppm/°C)Operating temperatureMSM@2512Rxxxx*?!2512 (6432 metric)A 8 (0080)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 9 (0090)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 10 (0100)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 12 (0120)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 15 (0150)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 16 (0160)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 20 (0200)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 25 (0250)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 27 (0270)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 30 (0300)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 33 (0330)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 40 (0400)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 42 (0420)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 45 (0450)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 48 (0480)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 50 (0500)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 60 (0600)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 70 (0700)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 3 (0030)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 4 (0040)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 10 (0100)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 11 (0110)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 12 (0120)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 13 (0130)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 15 (0150)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 18 (0180)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 20 (0200)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 22 (0220)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 25 (0250)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 30 (0300)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 33 (0330)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 35 (0350)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 39 (0390)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 40 (0400)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 42 (0420)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 45 (0450)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 47 (0470)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 48 (0480)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 50 (0500)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 56 (0560)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 57 (0570)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A60 (0600)±1% (F)3 W (G)NiCu (N)± 50-55 °C to +170 °C@= Enter grade option from table above (A=Automotive)Rxxxx = Enter resistance code option from table above xxxx= resistance code (R0000 = 0, Resistance is under 0.5mΩ for jumper resistor , R0050 = 5.0 mΩ)*= Enter resistance tolerance code option from table above (F= ±1%, J= ±5%)= Enter power rating code option from table above (A =1/4 W, S =1/2 W, C =1 W, D = 1.5 W, E = 2 W, G= 3 W)!=Enter metal material code option from tabel above (M = MnCu, N = NiCu, C= Cu)6Technical Data ELX1179Effective June 2022MSMA SMD current sensing resistor- metal strip/electronicsElectrical specificationsPart number SizeGrade optionResistance value mΩ (Part number code)Resistance tolerance (Part number code)Power rating (Part number code)Metal material (Part number code)TCR(ppm/°C)Operating temperatureMSM@2512Rxxxx*?!2512 (6432 metric)A 65 (0650)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 68 (0680)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 70 (0700)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 75 (0750)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 80 (0800)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 85 (0850)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 90 (0900)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 100 (1000)±1% (F) 3 W (G)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 120 (1200)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 130 (1300)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 140 (1400)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 150 (1500)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 170 (1700)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 175 (1750)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 180 (1800)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 200 (2000)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 220 (2200)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 240 (2400)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 250 (2500)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 270 (2700)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 300 (3000)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 330 (3300)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 390 (3900)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 400 (4000)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 500 (5000)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 510 (5100)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 560 (5600)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@2512Rxxxx*?!2512 (6432 metric)A 680 (6800)±1% (F) 2 W (E)NiCu (N)± 50-55 °C to +170 °C MSM@1225Rxxxx*?!1225 (3264 metric)A 1 (0010)±1% (F) 3 W (G)MnCu (M)± 75-55 °C to +170 °C MSM@1225Rxxxx*?!1225 (3264 metric)A 2 (0020)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@1225Rxxxx*?!1225 (3264 metric)A 2.2 (0022)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@1225Rxxxx*?!1225 (3264 metric)A 3 (0030)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@1225Rxxxx*?!1225 (3264 metric)A 4 (0040)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@1225Rxxxx*?!1225 (3264 metric)A 5 (0050)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@1225Rxxxx*?!1225 (3264 metric)A 6 (0060)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@1225Rxxxx*?!1225 (3264 metric)A 7 (0070)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@1225Rxxxx*?!1225 (3264 metric)A 8 (0080)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@1225Rxxxx*?!1225 (3264 metric)A 9 (0090)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@1225Rxxxx*?!1225 (3264 metric)A 10 (0100)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@1225Rxxxx*?!1225 (3264 metric)A12 (0120)±1% (F)3 W (G)MnCu (M)± 50-55 °C to +170 °C@= Enter grade option from table above (A=Automotive)Rxxxx = Enter resistance code option from table above xxxx= resistance code (R0000 = 0, Resistance is under 0.5mΩ for jumper resistor , R0050 = 5.0 mΩ)*= Enter resistance tolerance code option from table above (F= ±1%, J= ±5%)= Enter power rating code option from table above (A =1/4 W, S =1/2 W, C =1 W, D = 1.5 W, E = 2 W, G= 3 W)!=Enter metal material code option from tabel above (M = MnCu, N = NiCu, C= Cu)7Technical Data ELX1179Effective June 2022MSMASMD current sensing resistor- metal strip /electronics Electrical specificationsPart number SizeGrade optionResistance value mΩ (Part number code)Resistance tolerance (Part number code)Power rating (Part number code)Metal material (Part number code)TCR(ppm/°C)Operating temperatureMSM@1225Rxxxx*?!1225 (3264 metric)A 15 (0150)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@1225Rxxxx*?!1225 (3264 metric)A 20 (0200)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@1225Rxxxx*?!1225 (3264 metric)A 25 (0250)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@1225Rxxxx*?!1225 (3264 metric)A 30 (0300)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@1225Rxxxx*?!1225 (3264 metric)A 33 (0330)±1% (F) 3 W (G)MnCu (M)± 50-55 °C to +170 °C MSM@1225Rxxxx*?!1225 (3264 metric)A40 (0400)±1% (F)3 W (G)MnCu (M)± 50-55 °C to +170 °C@= Enter grade option from table above (A=Automotive)Rxxxx = Enter resistance code option from table above xxxx= resistance code (R0000 = 0, Resistance is under 0.5mΩ for jumper resistor , R0050 = 5.0 mΩ)*= Enter resistance tolerance code option from table above (F= ±1%, J= ±5%)= Enter power rating code option from table above (A =1/4 W, S =1/2 W, C =1 W, D = 1.5 W, E = 2 W, G= 3 W)!=Enter metal material code option from tabel above (M = MnCu, N = NiCu, C= Cu)。

化学品安全技术说明书公司地址：上海化学工业区奉贤分区银工路28号E栋楼客服热线：400-133-2688 1 化学品及企业标识1.1 产品标识符化学品俗名或商品名：2-甲氧基-5-吡啶硼酸频哪醇酯CAS No.：445264-61-9别名：2-甲氧基吡啶-5-硼酸频哪酯;2-(6-甲氧基-3-吡啶基)-4,4,5,5-四甲基-1,3,2-二氧环戊硼烷;6-甲氧基-3-吡啶硼酸频那醇酯;2-甲氧基吡啶-5-硼酸频哪醇酯;6-甲氧基吡啶-3-硼酸频哪醇酯;2-甲氧基-5-(4,4,5,5-四甲基-1,3,2-二氧硼戊环-2-基)吡啶;1.2 鉴别的其他方法2-Methoxy-5-(4,4,5,5-tetramethyl-1,3,2-dioxaborolan-2-yl)pyridine2-Methoxy-5-pyridineboronicacidpinacolester1.3 有关的确定了的物质或混合物的用途和建议不适合的用途仅供科研用途，不作为药物、家庭备用药或其它用途。

2 危险性概述2.1 GHS分类健康危害严重损伤/刺激眼睛：EyeIrrit.2皮肤腐蚀/刺激：SkinIrrit.22.2 GHS 标记要素，包括预防性的陈述危害类型GHS07:感叹号;信号词 【警告】危险申明H315 引起皮肤过敏。

H319 造成了严重的眼睛发炎。

警告申明P264 在处理后要彻底清洗双手或 … 。

P280 戴防护手套/防护服/护眼/防护面具。

P302+P352 如沾染皮肤：用大量肥皂和水清洗。

P305+P351+P338 如进入眼睛：用水小心清洗几分钟。

如果可以做到，摘掉隐形眼镜，继续冲洗。

P321 特殊明确的治疗见本标签上的...。

P332+P313 如发生皮肤刺激：求医/就诊。

P337+P313 如果发生眼刺激：求医/就诊。

?P362 脱掉受污染的衣服，清洗后方可重新使用。

RSHazard symbol(s) 无数据资料R-phrase(s) 无数据资料S-phrase(s) 无数据资料2.3 其它危害物-无3 成分/组成信息3.1 物质分子式 - C12H18BNO3分子量 - 235.094 急救措施4.1 必要的急救措施描述一般的建议请教医生。

1200AP40 1200AP60、1203P60200D6、203D6 DAP8A 可互代203D6/1203P6 DAP8A2S0680 2S08803S0680 3S08805S0765 DP104、DP7048S0765C DP704加24V的稳压二极管ACT4060 ZA3020LV/MP1410/MP9141ACT4065 ZA3020/MP1580ACT4070 ZA3030/MP1583/MP1591MP1593/MP1430 ACT6311 LT1937ACT6906 LTC3406/AT1366/MP2104AMC2576 LM2576AMC2596 LM2596AMC3100 LTC3406/AT1366/MP2104AMC34063A AMC34063AMC7660 AJC1564AP8012 VIPer12AAP8022 VIPer22ADAP02 可用SG5841 /SG6841代换DAP02ALSZ SG6841DAP02ALSZ SG6841DAP7A、DP8A 203D6、1203P6DH321、DL321 Q100、DM0265RDM0465R DM/CM0565RDM0465R/DM0565R 用cm0565r代换（取掉4脚的稳压二极管）DP104 5S0765DP704 5S0765DP706 5S0765DP804 DP904FAN7601 LAF0001LD7552 可用SG6841代（改4脚电阻）LD7575PS 203D6改1脚100K电阻为24KOB2268CP OB2269CPOB2268CP SG6841改4脚100K电阻为20-47KOCP1451 TL1451/BA9741/SP9741/AP200OCP2150 LTC3406/AT1366/MP2104OCP2160 LTC3407OCP2576 LM2576OCP3601 MB3800OCP5001 TL5001OMC2596 LM2596/AP1501PT1301 RJ9266PT4101 AJC1648/MP3202PT4102 LT1937/AJC1896/AP1522/RJ9271/MP1540SG5841SZ SG6841DZ/SG6841DSM9621 RJ9621/AJC1642SP1937 LT1937/AJC1896/AP1522/RJ9271/MP1540STR-G5643D STR-G5653D、STR-G8653DTEA1507 TEA1533TEA1530 TEA1532对应引脚功能接入THX202H TFC719THX203H TFC718STOP246Y TOP247YVA7910 MAX1674/75 L6920 AJC1610VIPer12A VIPer22A[audio01]ICE2A165(1A/650V.31W);ICE2A265(2A/650V.52W);ICE2B0565(0.5A/650V.23W):ICE2B165(1A/650V.31W);ICE2B265(2A/650V.52W);ICE2A180(1A/800V.29W);ICE2A280(2A/800.50W).KA5H0365R, KA5M0365R, KA5L0365R, KA5M0365RN# u) t! u1 W1 B) R, PKA5L0365RN, KA5H0380R, KA5M0380R, KA5L0380R1、KA5Q1265RF/RT（大小两种体积）、KA5Q0765、FSCQ1265RT、KACQ1265RF、FSCQ0765RT、FSCQ1565Q这是一类的，这些型号的引脚功能全都一样，只是输出功率不一样。