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    EQUATION OF STATE Search Results

    EQUATION OF STATE Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    SCAN18373T/MXA Rochester Electronics LLC SCAN18373 - Transparent Latch with 3-State Outputs Visit Rochester Electronics LLC Buy
    SCAN18373TSSC-G Rochester Electronics LLC SCAN18373 - Transparent Latch with 3-State Outputs Visit Rochester Electronics LLC Buy
    54AC646/QLA Rochester Electronics 54AC646 - Octal Tranceiver with Tri-State Outputs (Dual mark 5962-8968201LA) Visit Rochester Electronics Buy
    54F540/BRA Rochester Electronics LLC BUFFER/DRIVER; OCTAL; INVERTING; WITH 3-STATE OUTPUTS Visit Rochester Electronics LLC Buy
    54ACT257/QEA Rochester Electronics LLC 54ACT257 - Multiplexer, 3-State, 8-IN - Dual marked (5962-8968901EA) Visit Rochester Electronics LLC Buy

    EQUATION OF STATE Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    P16HD8

    Abstract: P16R4 preload decade counter transistor B1010 F159
    Text: Equation and JEDEC Simulators User Manual Table of Contents Preface 1. Equation and JEDEC Simulation Equation and JEDEC File Simulation Test Vector Files . . . . . . . . . . How to Invoke Simulation . . . . The Simulator Model . . . . . . . JEDEC and .tmv Vectors . . . . .


    Original     		PDF reset22a P16HD8 P16R4 preload decade counter transistor B1010 F159

    LM628

    Abstract: AN-706 LM12 LM18293 LM629 POSITION DECODER ENCODER
    Text: Table of Contents 1.0 INTRODUCTION 1.1 Application Note Objectives 5.2.1 PID Filter Difference Equation 5.2.2 Difference Equation with LM628/629 Coefficients 1.2 Brief Description of LM628/629 2.0 DEVICE DESCRIPTION 2.1 Hardware Architecture 2.2 Motor Position Decoder


    Original     		PDF LM628/629 LM628/629 Host-LM628/629 an011018 LM628 AN-706 LM12 LM18293 LM629 POSITION DECODER ENCODER

    ups PURE SINE WAVE schematic diagram

    Abstract: AD9854 DDS based CLOCK GENERATOR 10MHZ quality FM TRANSMITTER 16psk block diagram ups transformer winding formula Transistor based fm modulator ct UHf band upconverter LMX1501 lmx1501a disabling prescaler RF MMIC MARK CODE E4
    Text: A Technical Tutorial on Digital Signal Synthesis  Copyright  1999 Analog Devices, Inc. 1 Outline Section 1. Fundamentals of DDS technology Theory of operation Circuit architecture Tuning equation Elements of DDS circuit functionality and capabilities DAC integration


    Original     		PDF

    ups PURE SINE WAVE schematic diagram

    Abstract: ad9850 am modulation quality FM TRANSMITTER AD9854 DDS based CLOCK GENERATOR 10MHZ ad9850 fm modulation 74HC74 optical quadrature encoder ad9850 AD985X LMX1501A 3 phase ups PURE SINE WAVE schematic diagram
    Text: A Technical Tutorial on Digital Signal Synthesis a Copyright  1999 Analog Devices, Inc. 1 Outline Section 1. Fundamentals of DDS technology Page 5 Overview DDS Advantages Theory of operation Circuit architecture Tuning equation Elements of DDS circuit functionality and capabilities


    Original     		PDF AD9851 ups PURE SINE WAVE schematic diagram ad9850 am modulation quality FM TRANSMITTER AD9854 DDS based CLOCK GENERATOR 10MHZ ad9850 fm modulation 74HC74 optical quadrature encoder ad9850 AD985X LMX1501A 3 phase ups PURE SINE WAVE schematic diagram

    AN1149

    Abstract: P N Junction diode
    Text: application brief AB20 3A replaces AN1149 3A Advanced Electrical Design Models Table of Contents Diode Equation Forward Voltage Model 2 Derivation of Diode Model 2 Calculation of Diode Model Parameters 2 “Worst case” Diode Models 3 Advanced Thermal Modeling Equations


    Original     		PDF AN1149 P N Junction diode

    Untitled

    Abstract: No abstract text available
    Text: Cable Assemblies Definition of Parameters Impedance - The characteristic impedance equation for a coaxial transmission line is expressed as follows: Impedance ≡ Zo = where: 138.06 √ ε Log 10 D/d D = diameter of outer conductor d = diameter of center conductor


    Original     		PDF

    bubba oscillator

    Abstract: bubba oscillator schematic bubba RC Phase shift Oscillator Three phase sine wave oscillator Wien Bridge Oscillator Wien Bridge Oscillator AGC lc oscillator PHASE SHIFT single supply Wien Bridge Oscillator
    Text: Amplifiers: Op Amps Texas Instruments Incorporated Design of op amp sine wave oscillators By Ron Mancini Senior Application Specialist, Operational Amplifiers Criteria for oscillation system1 The canonical form of a feedback is shown in Figure 1, and Equation 1 describes the performance of


    Original     		PDF SLYT164 bubba oscillator bubba oscillator schematic bubba RC Phase shift Oscillator Three phase sine wave oscillator Wien Bridge Oscillator Wien Bridge Oscillator AGC lc oscillator PHASE SHIFT single supply Wien Bridge Oscillator

    10E431

    Abstract: 10E131 10H131 AN1504 10E101 DL140 ECL 100151 DL140-D Rennie
    Text: AN1504 Application Note Metastability and the ECLinPS Family Prepared by Rennie Wm. Dover Todd Pearson ECLinPS Applications Engineering This application note examines the concept of metastability and provides a theoretical discussion of how it occurs, including examples of the metastable condition. An equation


    Original     		PDF AN1504 DL140 AN1504/D* AN1504/D 10E431 10E131 10H131 AN1504 10E101 ECL 100151 DL140-D Rennie

    panasonic capacitor FL

    Abstract: zener diode 4.7V EKZE350ELL561MJ25S diode zener c26 vishay capacitors 5002 testpoint keystone CAPACITOR 1000pf PANASONIC SM0603 CAPACITORS CHEMICON SM TDSON-8
    Text: ISL8106EVAL1Z User Guide Application Note Introduction February 16, 2009 AN1452.0 The value of RSEN can then be calculated by Equation 2: The ISL8106EVAL1Z evaluation board demonstrates the performances of the ISL8106, synchronous buck PWM controller with Intersil’s Robust Ripple Regulator R3


    Original     		PDF ISL8106EVAL1Z AN1452 ISL8106, ISL8106 200kHz 600kHz. panasonic capacitor FL zener diode 4.7V EKZE350ELL561MJ25S diode zener c26 vishay capacitors 5002 testpoint keystone CAPACITOR 1000pf PANASONIC SM0603 CAPACITORS CHEMICON SM TDSON-8

    TC1264VAB-3

    Abstract: 200B AN761 DK-2750 TC1264 AN-761
    Text: M AN761 LDO Thermal Considerations Author: The conservation of power, states that power in must equal power out. Consequently, input power is equal to the power delivered to the load plus the power dissipated in the LDO, Equation 1 : Paul Paglia, Microchip Technology Inc.


    Original     		PDF AN761 D-81739 DS00761B-page TC1264VAB-3 200B AN761 DK-2750 TC1264 AN-761

    schematic diagram for thermistor

    Abstract: 101 thermistor
    Text: PSoC Creator Component Datasheet Thermistor Calculator 1.20 Features • Adaptable for majority of negative temperature coefficient NTC thermistors •    Look-Up-Table (LUT) or equation implementation methods Selectable reference resistor, based on thermistor value


    Original     		PDF

    Untitled

    Abstract: No abstract text available
    Text: PSoC Creator Component Data Sheet Thermistor Calculator 1.0 Features • Adaptable for majority of negative temperature coefficient NTC thermistors •    Look-Up-Table (LUT) or equation implementation methods Selectable reference resistor, based on thermistor value


    Original     		PDF

    AN765

    Abstract: SS TRANSISTOR IN SOT 23 PACKAGING voltage regulator sot 223 LP2980 MIC5205 TC1070 TC1071 sot-23-5 Micropower Voltage Regulator AN-765
    Text: AN765 Using Microchip’s Micropower LDOs Author: Paul Paglia, Microchip Technology Inc. EQUATION 1: V OUT = V REF [ R 1 ⁄ R 2 + 1 ] VREF INTRODUCTION Microchip Technology, Inc.’s family of micropower LDOs utilizes low-voltage CMOS process technology.


    Original     		PDF AN765 lo536-4803 DS00765B-page AN765 SS TRANSISTOR IN SOT 23 PACKAGING voltage regulator sot 223 LP2980 MIC5205 TC1070 TC1071 sot-23-5 Micropower Voltage Regulator AN-765

    NTC thermistors MEDICAL

    Abstract: No abstract text available
    Text: PSoC Creator Component Data Sheet Thermistor Calculator 1.10 Features • Adaptable for majority of negative temperature coefficient NTC thermistors •    Look-Up-Table (LUT) or equation implementation methods Selectable reference resistor, based on thermistor value


    Original     		PDF

    swra169

    Abstract: SmartRF04EB radar distance measurement RFID matlaB design DN018 CC2500 SWRA046A CC2500EM ERCOS 2445MHz
    Text: Design Note DN018 Range Measurements in an Open Field Environment By Tor-Inge Kvaksrud Keywords • • • Friis Equation Ground Model Range 1 Introduction • • Sensitivity Transmission Budget Range is one of the most important parameters of any radio system. Datarate, output power, receiver sensitivity,


    Original     		PDF DN018 swra169 SmartRF04EB radar distance measurement RFID matlaB design DN018 CC2500 SWRA046A CC2500EM ERCOS 2445MHz

    Untitled

    Abstract: No abstract text available
    Text: Microcomputer Based IR Temperature Transducers Charles E. Everest, Everest Interscience, Inc. systems, an increment of radiant power dWD is transmitted from the detector’s sensitive area to the target spot according to the equation: ⑀DC1␾ dWD = d␭


    Original     		PDF

    Matching MOSFET Drivers to MOSFETs

    Abstract: POWER MOSFET 4600 TC4422 AN799 Matching MOSFET Drivers to MOSFETs fet 4816 multiple mosfet gate driver Dual Gate MOSFET graphs an799 mosfet cross reference MOSFET A3
    Text: AN799 Matching MOSFET Drivers to MOSFETs Author: Jamie Dunn Microchip Technology Inc. 2. Power dissipation due to quiescent current draw of the MOSFET driver. EQUATION 2: INTRODUCTION There are many MOSFET technologies and silicon processes in existence today, with new advances being


    Original     		PDF AN799 r4-7200 D-85737 NL-5152 DS00799B-page Matching MOSFET Drivers to MOSFETs POWER MOSFET 4600 TC4422 AN799 Matching MOSFET Drivers to MOSFETs fet 4816 multiple mosfet gate driver Dual Gate MOSFET graphs an799 mosfet cross reference MOSFET A3

    VARISTOR k275

    Abstract: K95 varistor S20 K275 varistor varistor s20 k275 "Surge Arresters" pspice siemens automotive relay dc 12v S20K275 sm 323 module Siemens varistor s20k275 k275 varistor
    Text: 3 Application and design examples 3.1 Switching off inductive loads The discharge of an inductor produces high voltages that endanger both the contact breaker switching transistor and the like and the inductor itself. According to equation 16 the energy stored


    Original     		PDF

    TI-34

    Abstract: F0123456789 DAE 1ST YEAR
    Text: Order of Operations The TI-34 Ö uses EOSé Equation Operating System to evaluate expressions. TI.34 x Explorer Plusé Scientific Calculator Copyright  1999 Texas Instruments General Information Examples: See the last page of these instructions for keystroke examples that demonstrate many of the TI-34 Ö


    Original     		PDF TI-34 F0123456789 x10M65 TI-34 F0123456789 DAE 1ST YEAR

    Untitled

    Abstract: No abstract text available
    Text: Cable Assemblies Definition of Parameters Impedance - The characteristic impedance equation for a coaxial transmission line is expressed as follows: 138.06 Impedance = Zo= - — - \e where: Log 10 D/d D = diameter of outer conductor d = diameter of center conductor


    OCR Scan     		PDF

    VHC244F

    Abstract: No abstract text available
    Text: TOSHIBA 5. [5] Other Electrical Characteristics Other Electrical Characteristics 5-1 Power Dissipation The power dissipation is given as the sum of the quiescent supply current and the dynamic operating current. Therefore, it can be obtained from the following equation:


    OCR Scan     		PDF Ta-25 -50pF 74VHC VHC244F) VHC244F

    Untitled

    Abstract: No abstract text available
    Text: Cable Assemblies Definition of Parameters Impedance - The characteristic impedance equation for a coaxial transmission line is expressed as follows: 138.06 Im p e d a n c e where: = Z o= - - — - L o g 10 D /d D = diam eter of outer conductor


    OCR Scan     		PDF

    milli farad capacitor

    Abstract: n2200 CAPACITOR 100 nano FARAD 25 VOLT
    Text: fk The Capacitor Potential Change — A capacitor is a reactive component GENERAL INFORMATION which reacts against a change in potential across it. This is shown by the equation for the linear charge of a capacitor: A capacitor is a component which is capable of storing elec­


    OCR Scan     		PDF

    ad625a

    Abstract: No abstract text available
    Text: ANALOG DEVICES Programmable Gain Instrumentation Amplifier □ 1.1 AD625 Scope. This specification covers the detail requirements for a programmable gain instrumentation amplifier. The 2Rf gain equation is -= — +1. Kg 1.2 Part Number. The complete part number per Table 1 of this specification is as follows:


    OCR Scan     		PDF AD625 AD625S /883B ADI-M-1000: E-20A 16-Pin 20-Terminal MIL-STD-883 ad625a