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    CODE FOR CORDIC Search Results

    CODE FOR CORDIC Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    GCM188D70E226ME36D Murata Manufacturing Co Ltd Chip Multilayer Ceramic Capacitors for Automotive Visit Murata Manufacturing Co Ltd
    GRM022C71A472KE19L Murata Manufacturing Co Ltd Chip Multilayer Ceramic Capacitors for General Purpose Visit Murata Manufacturing Co Ltd
    GRM033C81A224KE01W Murata Manufacturing Co Ltd Chip Multilayer Ceramic Capacitors for General Purpose Visit Murata Manufacturing Co Ltd
    GRM155D70G475ME15D Murata Manufacturing Co Ltd Chip Multilayer Ceramic Capacitors for General Purpose Visit Murata Manufacturing Co Ltd
    GRM155R61J334KE01D Murata Manufacturing Co Ltd Chip Multilayer Ceramic Capacitors for General Purpose Visit Murata Manufacturing Co Ltd

    CODE FOR CORDIC Datasheets Context Search

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    vhdl code for cordic algorithm

    Abstract: verilog code for cordic verilog code for logarithm verilog code for cordic algorithm cordic algorithm code in verilog vhdl code for cordic verilog code for cordic algorithm sine cosine vhdl code for cordic cosine and sine vhdl cordic code verilog code of sine rom
    Text: DCORDIC CORDIC processor ver 1.16 OVERVIEW The DCORDIC uses the CORDIC algorithm to compute trigonometric, reverse trigonometric, hyperbolic and reverse hyperbolic functions. It supports sine, cosine, arcus tangent functions for hyperbolic and trigonometric systems. Logarithm, square root and exponent


    Original     		PDF 24-bit IEEE-754 vhdl code for cordic algorithm verilog code for cordic verilog code for logarithm verilog code for cordic algorithm cordic algorithm code in verilog vhdl code for cordic verilog code for cordic algorithm sine cosine vhdl code for cordic cosine and sine vhdl cordic code verilog code of sine rom

    EMBEDDED C BOOKS IN PIC16F877A

    Abstract: PIC16F877A cordic pic16f877a c code programming example PIC16F877A circuit diagram PIC16F877A Microcontroller with LCD cordic design for fixed angle rotation ATAN TECHNOLOGY pic16f877a PIC16F877A block diagram PIC16F877A Microcontroller
    Text: AN1061 Efficient Fixed-Point Trigonometry Using CORDIC Functions For PIC16F Author: Jose Benavides Microchip Technology Inc. INTRODUCTION This application note presents an implementation of the following fixed-point math routines for the PIC16F microcontroller families:


    Original     		PDF AN1061 PIC16F DS01061A-page EMBEDDED C BOOKS IN PIC16F877A PIC16F877A cordic pic16f877a c code programming example PIC16F877A circuit diagram PIC16F877A Microcontroller with LCD cordic design for fixed angle rotation ATAN TECHNOLOGY pic16f877a PIC16F877A block diagram PIC16F877A Microcontroller

    8051 16bit addition, subtraction

    Abstract: verilog code for floating point division verilog code for single precision floating point multiplication vhdl code for cordic cosine and sine vhdl code for cordic verilog code for floating point multiplication program for 8051 16bit square root vhdl code for cordic multiplication test bench for 16 bit shifter verilog code for cordic
    Text: Floating Point Mathematics Unit ver 1.30 OVERVIEW DFPMU uses the specialized CORDIC and standard algorithms to compute math functions. It supports addition, subtraction, multiplication, division, square root, comparison, absolute value, change sign of a number


    Original     		PDF IEEE-754 16-bit 32-bit 32-bit 8051 16bit addition, subtraction verilog code for floating point division verilog code for single precision floating point multiplication vhdl code for cordic cosine and sine vhdl code for cordic verilog code for floating point multiplication program for 8051 16bit square root vhdl code for cordic multiplication test bench for 16 bit shifter verilog code for cordic

    verilog code for cordic algorithm

    Abstract: verilog code for cordic cordic algorithm code in verilog cordic cordic algorithm in matlab code for cordic cordic design for fixed angle rotation AN 263 CORDIC Reference Design altera CORDIC ip cordic design for fixed angle of rotation
    Text: CORDIC Reference Design June 2005, ver. 1.4 Introduction Application Note 263 The co-ordinate rotation digital computer CORDIC reference design implements the CORDIC algorithm, which converts cartesian to polar coordinates and vice versa and also allows vectors to be rotated through


    Original     		PDF

    code for cordic

    Abstract: CORDIC altera LMS MIMO CORDIC Digital computer design fourth edition cordicbased applications of vlsi in antennas fpga altera NLMS EQUALIZER beamforming weight
    Text: White Paper Implementation of CORDIC-Based QRD-RLS Algorithm on Altera Stratix FPGA with Embedded Nios Soft Processor Technology This white paper describes the implementation of the QR decomposition-based recursive least squares RLS algorithm on Altera Stratix FPGAs. Coordinate Rotation by Digital Computer (CORDIC)


    Original     		PDF

    cordic sine cosine generator vhdl

    Abstract: cordic vhdl code for cordic algorithm vhdl code for cordic vhdl code for rotation cordic vhdl code for vector cordic verilog code for cordic verilog code for cordic algorithm cordic algorithm code in verilog vhdl code for cordic cosine and sine
    Text: CoreCORDIC CORDIC RTL Generator Product Summary • – Intended Use • COordinate Rotation DIgital Computer CORDIC Rotator Function for Actel FPGAs Vector Rotation – Conversion of Polar Coordinates to Rectangular Coordinates • Vector Translation – Conversion of Rectangular


    Original     		PDF

    cordic design for fixed angle rotation

    Abstract: CORDIC in xilinx CORDIC system generator xilinx CORDIC MAGNITUDE code for scale free cordic cordic design for fixed angle of rotation code for cordic cordic algorithm CORDIC tanh fpga polar architecture
    Text: CORDIC v2.0 DS249 v1.5 March 28, 2003 Product Specification Features • Word Serial architectural configuration for small area • Available for all Virtex , Virtex-E, Virtex-II, Virtex-II Pro™, Spartan™-II, Spartan-IIE and Spartan-3 FPGA family members


    Original     		PDF DS249 cordic design for fixed angle rotation CORDIC in xilinx CORDIC system generator xilinx CORDIC MAGNITUDE code for scale free cordic cordic design for fixed angle of rotation code for cordic cordic algorithm CORDIC tanh fpga polar architecture

    vhdl code for rotation cordic

    Abstract: DS858 LogiCORE IP CORDIC CORDIC divider CORDIC in xilinx cordic design for fixed angle rotation CORDIC v5.0 CORDIC v4.0 XC7K325T CORDIC system generator xilinx
    Text: LogiCORE IP CORDIC v5.0 DS858 October 19, 2011 Product Specification Introduction LogiCORE IP Facts Table The Xilinx LogiCORE IP v5.0 core implements a generalized coordinate rotational digital computer CORDIC algorithm. Features Core Specifics Supported


    Original     		PDF DS858 ZynqTM-7000, vhdl code for rotation cordic LogiCORE IP CORDIC CORDIC divider CORDIC in xilinx cordic design for fixed angle rotation CORDIC v5.0 CORDIC v4.0 XC7K325T CORDIC system generator xilinx

    Untitled

    Abstract: No abstract text available
    Text: TECHNICAL ARTICLE | Join | Tweet Connect Model-Based Design Streamlines Embedded Motor Control System Development by Dara O’Sullivan, Jens Sorensen, Aengus Murray, Analog Devices, Inc. This article describes the detailed steps in building a model-based design


    Original     		PDF TA13139-0-4/15

    vhdl code for cordic algorithm

    Abstract: vhdl code for cordic verilog code for cordic algorithm vhdl code for modulation vhdl code for complex multiplication and addition verilog code for cordic vhdl code for rotation cordic vhdl code for digital clock digital clock vhdl code cordic algorithm code in verilog
    Text: New Products - Software Programming a Xilinx FPGA in “C” Hardware designers are realizing they will need to use higher levels of abstraction to increase their productivity. by Doug Johnson, Business Development Manager, Frontier Design, doug_johnson@frontierd.com; Marc Defossez, Field Applications Engineer,


    Original     		PDF

    verilog code for orthogonal cdma transmitter

    Abstract: verilog code for dpd handover MATLAB fft algorithm verilog in ofdm CORDIC altera verilog code for cdma transmitter vhdl code for rotation cordic vhdl code for cordic algorithm verilog code for ofdm transmitter vhdl code for FFT 256 point
    Text: WiMAX OFDMA Ranging Application Note 430 August 2006, version 1.0 Introduction This application note describes the Altera worldwide interoperability for microwave access WiMAX orthogonal frequency-division multiple access (OFDMA) ranging reference design. The application note


    Original     		PDF 16e-2005 verilog code for orthogonal cdma transmitter verilog code for dpd handover MATLAB fft algorithm verilog in ofdm CORDIC altera verilog code for cdma transmitter vhdl code for rotation cordic vhdl code for cordic algorithm verilog code for ofdm transmitter vhdl code for FFT 256 point

    MSC8101

    Abstract: SC100 SC140
    Text: Freescale Semiconductor, Inc. Freescale Semiconductor, Inc. StarCore Digital Signal Processor Application Development Framework ADF User’s Guide SCDSPADFUG/D Revision 0, December 2002 For More Information On This Product, Go to: www.freescale.com Freescale Semiconductor, Inc.


    Original     		PDF

    12VDC sf 249

    Abstract: 230 97o Osram LED SMD 5630 diodo 2B
    Text: 2013 Catalogo VLM 2013 VLM Catalogue 2013 since 1945 570 www.vlm.it since 1945 Indice Index Indicazioni Generali General warnings 575 Simboli e definizioni Symbols and definitions 577 Tipi, classi, gradi di protezione Types, classes, degrees of protection


    Original     		PDF VG/71P VG/73P VL-5081-65-B VL-5081-65-BV VL-5081-85-B VL-5081-85-BV 12VDC sf 249 230 97o Osram LED SMD 5630 diodo 2B

    FIR filter design using cordic algorithm

    Abstract: EPF20K rAised cosine FILTER Scrambling code QPSK qam trans Modulator block diagram CORDIC QAM modulation rake complex receiver qpsk schematic diagram MPEG4 schematic IMT-2000
    Text: Implementing a W-CDMA System with Altera Devices & IP Functions September 2000, ver. 1.0 Introduction Application Note 129 In the wireless world, the demand for advanced information services is growing. Voice and low-rate data services are insufficient in a world


    Original     		PDF IMT-2000, FIR filter design using cordic algorithm EPF20K rAised cosine FILTER Scrambling code QPSK qam trans Modulator block diagram CORDIC QAM modulation rake complex receiver qpsk schematic diagram MPEG4 schematic IMT-2000

    MLX90365

    Abstract: J2716 SAE J2716 protocol specification MLX90367 J2716 microcontroller 3131h PTC04 mechanical outline tesla potentiometer 195 390110000001 J2716 JAN2010
    Text:  MLX90366 Triaxis Position Sensor Assembly feat. SENT Features and Benefits Triaxis Hall Technology On Chip Signal Processing for Robust Absolute Position Sensing Simple Magnetic Design Programmable Measurement Range Programmable Linear Transfer Characteristic Multi-points


    Original     		PDF MLX90366 J2716-2010) ISO14001 MLX90366 25/Jun/13 MLX90365 J2716 SAE J2716 protocol specification MLX90367 J2716 microcontroller 3131h PTC04 mechanical outline tesla potentiometer 195 390110000001 J2716 JAN2010

    390110000001

    Abstract: FEAT 366ADS2
    Text:  MLX90366 Triaxis Position Sensor Assembly feat. SENT Features and Benefits Triaxis Hall Technology On Chip Signal Processing for Robust Absolute Position Sensing Simple Magnetic Design Programmable Measurement Range Programmable Linear Transfer Characteristic Multi-points


    Original     		PDF MLX90366 J2716-2010) ISO14001 14/Feb/14 390110000001 FEAT 366ADS2

    EMS22

    Abstract: CORDIC MAGNITUDE
    Text: PL IA NT Features S CO M • *R oH ■ ■ ■ ■ ■ 3.3 and 5 VDC voltage supply option Quadrature, absolute, PWM and direction/step output options Bushing or servo mount Non-contacting magnetic technology Small size CMOS and TTL compatible ■ ■ ■


    Original     		PDF EMS22 CORDIC MAGNITUDE

    MLX90

    Abstract: MLX90367 MLX90365 smd 1513 J2716 microcontroller Ptc04 SAE J2716 protocol tesla potentiometer 195 TESLA MA 1458 DB90316
    Text: MLX90367  Triaxis Position Sensor IC feat. SENT Features and Benefits Triaxis Hall Technology On Chip Signal Processing for Robust Absolute Position Sensing Simple Magnetic Design Programmable Measurement Range Programmable Linear Transfer Characteristic Multi-points


    Original     		PDF MLX90367 J2716-2010) TSSOP-16 ISO14001 MLX90367 25/Jun/13 MLX90 MLX90365 smd 1513 J2716 microcontroller Ptc04 SAE J2716 protocol tesla potentiometer 195 TESLA MA 1458 DB90316

    EMS22A

    Abstract: No abstract text available
    Text: *R oH S CO M PL IA NT Features • 3.3 and 5 VDC voltage supply option ■ Resolution: 1024 positions ■ Absolute ■ Long life ■ Bushing or servo mount ■ High operating speed ■ Non-contacting magnetic technology ■ Highly repeatable ■ Small size


    Original     		PDF EMS22A

    Untitled

    Abstract: No abstract text available
    Text: *R oH S CO M PL IA NT Features • 3.3 and 5 VDC voltage supply option ■ Resolution: 1024 positions ■ Absolute ■ Long life ■ Bushing or servo mount ■ High operating speed ■ Non-contacting magnetic technology ■ Highly repeatable ■ Small size


    Original     		PDF EMS22A

    DSC17

    Abstract: 8087 coprocessor instruction set 80387DX fpu coprocessor 80C188 instruction set Intel 387DX 387DX 8086 opcode sheet free
    Text: in te l 80C187 80-BIT MATH COPROCESSOR • High Performance 80-Bit Internal Architecture ■ Implements ANSI/IEEE Standard 754­ 1985 for Binary Floating-Point Arithmetic ■ Upward Object-Code Compatible from 8087 ■ Fully Compatible with 387DX and 387SX


    OCR Scan     		PDF 80C187 80-BIT 387DX 387SX 80C186 80C186/80C187 64-Bit DSC17 8087 coprocessor instruction set 80387DX fpu coprocessor 80C188 instruction set Intel 387DX 8086 opcode sheet free

    Untitled

    Abstract: No abstract text available
    Text: in t e i M80C187 80-BIT NUMERIC PROCESSOR EXTENSION Military High Performance 80-Bit Internal Architecture Two to Three Times M8087 Performance at Equivalent Clock Speed Implements ANSI/IEEE Standard 7541985 for Binary Floating-Point Arithmetic Upward Object-Code Compatible from


    OCR Scan     		PDF M80C187 80-BIT M8087 M8067 M80387. M80387 M80C186 M80C166/M80C187

    Untitled

    Abstract: No abstract text available
    Text: intJ 80C187 80-BIT MATH COPROCESSOR • High Performance 80-Bit Internal Architecture ■ Implements ANSI/IEEE Standard 7541985 for Binary Floating-Point Arithmetic ■ Upward Object-Code Compatible from 8087 ■ Fully Compatible with 387DX and 387SX Math Coprocessors. Implements all 387


    OCR Scan     		PDF 80C187 80-BIT 387DX 387SX 80C186 80C186/80C187 80C186â 64-Bit

    M68060SP

    Abstract: MC68060FPSP M68060 MC68060 MC68EC060 MC68LC060 MC68060ISP c3231 026 MC68060ILSP
    Text: APPENDIX C MC68060 SOFTWARE PACKAGE The purpose of the M68060 software package M68060SP is to supply, for a target operat­ ing system, system exception handlers and user library software that provide: • Software emulation for integer instructions not implemented in MC68060 hardware via


    OCR Scan     		PDF MC68060 M68060 M68060SP) VT100 32bis 42bis M68060SP MC68060FPSP MC68EC060 MC68LC060 MC68060ISP c3231 026 MC68060ILSP