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  • Below, you will find an assortment of documentation to assist you through every step of your USB dev

    Below, you will find an assortment of documentation to assist you through every step of your USB development experience.

    標簽: documentation assortment you through

    上傳時間: 2017-06-20

    上傳用戶:nanshan

  • Below, you will find an assortment of documentation to assist you through every step of your USB dev

    Below, you will find an assortment of documentation to assist you through every step of your USB development experience.

    標簽: documentation assortment you through

    上傳時間: 2017-06-20

    上傳用戶:bcjtao

  • 求解ppln中脈沖傳輸的問題 采用split step fourier method

    求解ppln中脈沖傳輸的問題 采用split step fourier method

    標簽: fourier method split ppln

    上傳時間: 2017-07-03

    上傳用戶:youlongjian0

  • split step fourier method

    split step fourier method

    標簽: fourier method split step

    上傳時間: 2017-07-03

    上傳用戶:leehom61

  • 1-D optimal step size using golden section

    1-D optimal step size using golden section

    標簽: optimal section golden using

    上傳時間: 2014-12-19

    上傳用戶:lnnn30

  • 3D電子元件封裝STEP格式

    3D電子元件封裝STEP格式  賺點積分  謝謝大佬  沒積分了

    標簽: 3D封裝 3D庫

    上傳時間: 2022-01-28

    上傳用戶:

  • Altium-常用3D封裝庫(STEP)【電阻電容】

    Altium-常用3D封裝庫(STEP)【電阻電容】

    標簽: Altium Designer 3D封裝庫

    上傳時間: 2022-04-17

    上傳用戶:

  • DAC技術用語 (D/A Converters Defini

    Differential Nonlinearity: Ideally, any two adjacent digitalcodes correspond to output analog voltages that are exactlyone LSB apart. Differential non-linearity is a measure of theworst case deviation from the ideal 1 LSB step. For example,a DAC with a 1.5 LSB output change for a 1 LSB digital codechange exhibits 1⁄2 LSB differential non-linearity. Differentialnon-linearity may be expressed in fractional bits or as a percentageof full scale. A differential non-linearity greater than1 LSB will lead to a non-monotonic transfer function in aDAC.Gain Error (Full Scale Error): The difference between theoutput voltage (or current) with full scale input code and theideal voltage (or current) that should exist with a full scale inputcode.Gain Temperature Coefficient (Full Scale TemperatureCoefficient): Change in gain error divided by change in temperature.Usually expressed in parts per million per degreeCelsius (ppm/°C).Integral Nonlinearity (Linearity Error): Worst case deviationfrom the line between the endpoints (zero and full scale).Can be expressed as a percentage of full scale or in fractionof an LSB.LSB (Lease-Significant Bit): In a binary coded system thisis the bit that carries the smallest value or weight. Its value isthe full scale voltage (or current) divided by 2n, where n is theresolution of the converter.Monotonicity: A monotonic function has a slope whose signdoes not change. A monotonic DAC has an output thatchanges in the same direction (or remains constant) for eachincrease in the input code. the converse is true for decreasing codes.

    標簽: Converters Defini DAC

    上傳時間: 2013-10-30

    上傳用戶:stvnash

  • 100-15V TO 12V DCDC 原理圖 PCB BOM表

    高的工作電壓高達100V N雙N溝道MOSFET同步驅動 The D810DCDC is a synchronous step-down switching regulator controller that can directly step-down voltages from up to 100V, making it ideal for telecom and automotive applications. The D810DCDC uses a constant on-time valley current control architecture to deliver very low duty cycles with accurate cycle-by-cycle current limit, without requiring a sense resistor. A precise internal reference provides 0.5% DC accuracy. A high bandwidth (25MHz) error amplifi er provides very fast line and load transient response. Large 1Ω gate drivers allow the D810DCDC to drive multiple MOSFETs for higher current applications. The operating frequency is selected by an external resistor and is compensated for variations in VIN and can also be synchronized to an external clock for switching-noise sensitive applications. Integrated bias control generates gate drive power from the input supply during start-up and when an output shortcircuit occurs, with the addition of a small external SOT23 MOSFET. When in regulation, power is derived from the output for higher effi ciency.

    標簽: DCDC 100 12V BOM

    上傳時間: 2013-10-24

    上傳用戶:wd450412225

  • DN436微型全橋壓電馬達驅動器

      Piezoelectric motors are used in digital cameras for autofocus,zooming and optical image stabilization. Theyare relatively small, lightweight and effi cient, but theyalso require a complicated driving scheme. Traditionally,this challenge has been met with the use ofseparatecircuits, including a step-up converter and an oversizedgeneric full-bridge drive IC. The resulting high componentcount and large board space are especially problematicin the design of cameras for ever shrinking cell phones.The LT®3572 solves these problems by combining astep-up regulator and a dual full-bridge driver in a 4mm× 4mm QFN package. Figure 1 shows a typical LT3572Piezo motor drive circuit. A step-up converter is usedto generate 30V from a low voltage power source suchas a Li-Ion battery or any input power source within thepart’s wide input voltage range of 2.7V to 10V. The highoutput voltage of the step-up converter, adjustable upto 40V, is available for the drivers at the VOUT pin. Thedrivers operate in a full-bridge fashion, where the OUTAand OUTB pins are the same polarity as the PWMA andPWMB pins, respectively, and the OUTA and OUTB pinsare inverted from PWMA and PWMB, respectively. Thestep-up converter and both Piezo drivers have their ownshutdown control. Figure 2 shows a typical layout

    標簽: 436 DN 全橋 壓電

    上傳時間: 2013-11-18

    上傳用戶:hulee

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