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    VERILOG CODE FOR SPI4.2 INTERFACE Search Results

    VERILOG CODE FOR SPI4.2 INTERFACE Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    TB67S539FTG Toshiba Electronic Devices & Storage Corporation Stepping Motor Driver/Bipolar Type/Vout(V)=40/Iout(A)=2/Clock Interface Visit Toshiba Electronic Devices & Storage Corporation
    TB67S141AFTG Toshiba Electronic Devices & Storage Corporation Stepping Motor Driver/Unipolar Type/Vout(V)=84/Iout(A)=3/Phase Interface Visit Toshiba Electronic Devices & Storage Corporation
    TB67S149AFTG Toshiba Electronic Devices & Storage Corporation Stepping Motor Driver/Unipolar Type/Vout(V)=84/Iout(A)=3/Clock Interface Visit Toshiba Electronic Devices & Storage Corporation
    TB67S549FTG Toshiba Electronic Devices & Storage Corporation Stepping Motor Driver/Bipolar Type/Vout(V)=40/Iout(A)=1.5/Clock Interface Visit Toshiba Electronic Devices & Storage Corporation
    DCL541A01 Toshiba Electronic Devices & Storage Corporation Digital Isolator / VDD=2.25~5.5V / 150Mbps / 4 channel(F:R=3:1) / Default Output Logic: Low / Input disable Visit Toshiba Electronic Devices & Storage Corporation

    VERILOG CODE FOR SPI4.2 INTERFACE Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    vhdl code for spi

    Abstract: vhdl code for spi xilinx OC192 OC48 XAPP525 verilog code for spi4.2 to fifo spi 4.2 master code verilog code for 16 bit ram SPI Verilog HDL vhdl code for DCM
    Text: Application Note: Virtex-II Series R SPI-4.2 to Quad SPI-3 Bridge XAPP525 v2.0 October 15, 2004 Summary This application note describes a reference design used to bridge one 4-channel Xilinx SPI-4.2 (PL4) core (v6.1) to four 1-channel SPI-3 (PL3) Link Layer cores (v3.2). The design is


    Original     		PDF XAPP525 OC192 com/pub/applications/xapp/xapp525 vhdl code for spi vhdl code for spi xilinx OC48 XAPP525 verilog code for spi4.2 to fifo spi 4.2 master code verilog code for 16 bit ram SPI Verilog HDL vhdl code for DCM

    sol 20 Package XILINX

    Abstract: XC2064 XC3090 XC4005 XC5210 verilog code for spi4.2 to fifo
    Text: LogiCORE SPI-4.2 Core v6.3 Getting Started Guide UG231 February 15, 2006 R R "Xilinx" and the Xilinx logo shown above are registered trademarks of Xilinx, Inc. Any rights not expressly granted herein are reserved. CoolRunner, RocketChips, Rocket IP, Spartan, StateBENCH, StateCAD, Virtex, XACT, XC2064, XC3090, XC4005, and XC5210 are


    Original     		PDF UG231 XC2064, XC3090, XC4005, XC5210 sol 20 Package XILINX XC2064 XC3090 XC4005 verilog code for spi4.2 to fifo

    XC4VLX40FF1148-10

    Abstract: vhdl code for spi xc4vlx40ff1148 vhdl spi interface X737 vhdl code for spi xilinx XC4VLX40-FF1148 UG154 DS302 vhdl code for DCM
    Text: Application Note: Virtex-4 FPGAs R XAPP737 v1.0 June 12, 2007 Summary SPI-4.2 to Quad SPI-3 Bridge in Virtex-4 FPGAs Author: Zhe Xia Often in communication systems, data must be moved between different protocols. This application note describes a reference design used to bridge one four-channel Xilinx SPI-4.2


    Original     		PDF XAPP737 UG153, DS302, UG154, DS504, XC4VLX40FF1148-10 vhdl code for spi xc4vlx40ff1148 vhdl spi interface X737 vhdl code for spi xilinx XC4VLX40-FF1148 UG154 DS302 vhdl code for DCM

    ML324

    Abstract: diode GFP AA test bench verilog code for uart 16550 uart verilog MODEL vhdl code CRC T1X15 Ethernet to FIFO XAPP695 1000BASE-X CRC-16
    Text: Application Note: Virtex-II Pro Gigabit Ethernet Aggregation to SPI-4.2 with Optional GFP-F Adaptation R Author: Hamish Fallside XAPP695 v1.0 December 16, 2003 Summary The Gigabit Ethernet Aggregation reference design (EARD) as shown in Figure 1 demonstrates the aggregation of up to eight Gigabit Ethernet ports to SPI-4.2 with optional


    Original     		PDF XAPP695 1000Base-X ML324 diode GFP AA test bench verilog code for uart 16550 uart verilog MODEL vhdl code CRC T1X15 Ethernet to FIFO XAPP695 1000BASE-X CRC-16

    RTL code for ethernet

    Abstract: RDRAM SOP DESIGN AND IMPLEMENTATION OF SYNCHRONOUS FIFO OIF-SPI4-02 synchronous fifo design in verilog SDH-64
    Text: Product Brief A P P L I CAT I O N S OC-192 ATM LVDS IO SPI-4.2 Protocol Manager SERDES FIFO Manager 16 64/128 PL Config. Reg. Packet over SONET/SDH 64/128 DPRA 10 Gigabit Ethernet User Logic Interface SPI-4.2 Interface 16 PBUS Controller PBUS Interface Highly Configurable. System Validated.


    Original     		PDF OC-192 OIF-SPI4-02 RTL code for ethernet RDRAM SOP DESIGN AND IMPLEMENTATION OF SYNCHRONOUS FIFO synchronous fifo design in verilog SDH-64

    CC-401

    Abstract: XIP209 XIP210 verilog code for spi4.2 interface
    Text: CoreEl SPI-4 Phase 2 Interface Core CC401 May 6, 2003 Product Specification AllianceCORE™ Facts Paxonet Communications, Inc. 4046 Clipper Court Fremont CA 94538, USA Phone: +1 510-770-2277 Fax: +1 510-770-2288 E-mail: sales@paxonet.com URL: www.paxonet.com


    Original     		PDF CC401) OIF-SPI402 OC-192, CC401 CC410 CC-401 XIP209 XIP210 verilog code for spi4.2 interface

    altera marking Code Formats Cyclone 2

    Abstract: verilog code for spi4.2 to fifo vhdl 4-bit binary calculator cyclone FPGA 144 EP3C40F780C6 EP4SGX230DF29C3ES EP4SGX70 PM3388 EP3SE50F780 OIF-SPI4-02
    Text: POS-PHY Level 4 MegaCore Function User Guide POS-PHY Level 4 MegaCore Function User Guide 101 Innovation Drive San Jose, CA 95134 www.altera.com UG-IPPOSPHY4-10.0 Document last updated for Altera Complete Design Suite version: Document publication date: 10.0


    Original     		PDF UG-IPPOSPHY4-10 altera marking Code Formats Cyclone 2 verilog code for spi4.2 to fifo vhdl 4-bit binary calculator cyclone FPGA 144 EP3C40F780C6 EP4SGX230DF29C3ES EP4SGX70 PM3388 EP3SE50F780 OIF-SPI4-02

    EP3SE50F780

    Abstract: PM3388 EP3C40F780C6 EP4SGX230DF29C3ES EP4SGX70 verilog code for spi4.2 interface altddio_out EP3SE50F
    Text: POS-PHY Level 4 MegaCore Function User Guide 101 Innovation Drive San Jose, CA 95134 www.altera.com MegaCore Version: Document Date: 9.1 November 2009 Copyright 2009 Altera Corporation. All rights reserved. Altera, The Programmable Solutions Company, the stylized Altera logo, specific device designations, and all other


    Original     		PDF

    FSP250-60GTA

    Abstract: fsp250-60gta power supply schematic power supply fsp250-60gta fsp250-60 FSP250 manual FSP250-60gta manual vhdl code for 16 prbs generator FSP250 fsp250-60gt SMC91C11xFD
    Text: High-Speed Development Kit, Stratix GX Edition User Guide 101 Innovation Drive San Jose, CA 95134 408 544-7000 http://www.altera.com UG-STRATIXGX-1.0 P25-09565-00 Document Version: 1.0 Copyright 2003 Altera Corporation. All rights reserved. Altera, The Programmable Solutions Company, the stylized Altera logo, specific device designations, and all other words and logos that are identified as trademarks and/or service marks are, unless noted otherwise, the trademarks and


    Original     		PDF P25-09565-00 D-85757 10-Gigabit FSP250-60GTA fsp250-60gta power supply schematic power supply fsp250-60gta fsp250-60 FSP250 manual FSP250-60gta manual vhdl code for 16 prbs generator FSP250 fsp250-60gt SMC91C11xFD

    verilog code for spi4.2 to fifo

    Abstract: verilog code for spi4.2 interface LFSC25 qdr2 sram DDR2 routing Tree LFSC115 R28C9A Signal Path Designer RLDRAM
    Text: DELIVERING FPGA-BASED PRE-ENGINEERED IP USING STRUCTURED ASIC TECHNOLOGY A Lattice Semiconductor White Paper February 2006 Lattice Semiconductor 5555 Northeast Moore Ct. Hillsboro, Oregon 97124 USA Telephone: 503 268-8000 www.latticesemi.com 1 Delivering FPGA Based Pre-Engineered IP Using Structured ASIC Technology


    Original     		PDF 700Mhz verilog code for spi4.2 to fifo verilog code for spi4.2 interface LFSC25 qdr2 sram DDR2 routing Tree LFSC115 R28C9A Signal Path Designer RLDRAM

    BF957

    Abstract: FF1152 FG676
    Text: SPI-4.2 Core v6.0.1 DS209 October 10, 2003 Features Product Specification LogiCORE Facts • Fully compliant with OIF-SPI4-02.0 System Packet Interface Level-4 SPI-4 Phase 2 standard • Supports POS, ATM, and Ethernet 10 Gbps applications • Sink and Source cores selected and configured


    Original     		PDF DS209 OIF-SPI4-02 128-bit BF957 FF1152 FG676

    RPR MAC vhdl code

    Abstract: 10BERR RPR vhdl code 10G Ethernet MAC frame by vhdl 1000BASE-X CRC-16 RAMB16 XAPP759 LocalLink
    Text: de-mapsv Generic Framing Procedure v1.3 DS303 January 18, 2006 Product Specification Introduction LogiCORE Facts The LogiCORE Generic Framing Procedure GFP core is a fully verified protocol encapsulation/de-encapsulation engine enabling efficient transport of LAN/SAN client protocols over SONET/SDH-based networks.


    Original     		PDF DS303 64-bit) 64-bit RPR MAC vhdl code 10BERR RPR vhdl code 10G Ethernet MAC frame by vhdl 1000BASE-X CRC-16 RAMB16 XAPP759 LocalLink

    RAMB16

    Abstract: UG152 G.7041 GFP 1000BASE-X CRC-16 XAPP759 block code error management, verilog UCF virtex-4 vhdl code for ethernet mac spartan 3
    Text: - DISCONTINUED PRODUCT - de-mapsv Generic Framing Procedure v2.1 DS303 April 25, 2008 Product Specification Introduction LogiCORE IP Facts The LogiCORE IP Generic Framing Procedure GFP core is a fully verified protocol encapsulation/de-encapsulation engine enabling efficient transport of LAN/SAN


    Original     		PDF DS303 32-bit) 64-bit) RAMB16 UG152 G.7041 GFP 1000BASE-X CRC-16 XAPP759 block code error management, verilog UCF virtex-4 vhdl code for ethernet mac spartan 3

    higig2 frame format

    Abstract: "higig header" EZchip higig2 higig specification verilog code for spi4.2 to fifo higig pause frame marvell 618 datasheet pt36C 0x00900
    Text: LatticeSCM XAUI to SPI4.2 July 2008 Reference Design RD1033 Introduction The XAUI to SPI4.2 X2S4 Bridge reference design is a cost-effective system solution for bridging SPI4.2 based network processors and 10G/10G+ Ethernet switching devices. On the XAUI side, the X2S4 optionally supports the


    Original     		PDF RD1033 10G/10G+ 12Gbps RD1033. higig2 frame format "higig header" EZchip higig2 higig specification verilog code for spi4.2 to fifo higig pause frame marvell 618 datasheet pt36C 0x00900

    RX-6 TX-6

    Abstract: DS209 IXP2800 ML450 ML550 VIRTEX-5 DDR PHY DCM02
    Text: SPI-4.2 v8.4 DS209 August 8, 2007 Product Specification Introduction LogiCORE Facts Core Specifics Device Family Alignment Type Performance Mbps /Speed LUT/Flop Pairs 64-bit static 622–700/-1,-2,-3 Rx: 2000 Tx: 2600 Rx: 6 Tx: 6 128-bit static 622–700/-1,-2,-3


    Original     		PDF DS209 64-bit OIF-SPI4-02 RX-6 TX-6 IXP2800 ML450 ML550 VIRTEX-5 DDR PHY DCM02

    gsm simulink

    Abstract: JESD204 VITA-57 SFP CPRI EVALUATION BOARD VHDL code for high speed ADCs using SPI with FPGA dvb-s encoder design with fpga TC7000-LTE VITA-57 fmc fft algorithm verilog in ofdm Reed-Solomon encoder verilog for wimax
    Text: f u l l y t e s t e d a n d i n t e r o p e r a b l e Lattice Wireless Solutions Ready-to-Use Wireless Portfolio Lattice provides customers with low cost and low power programmable solutions that are ready-to-use right out of the box. For wireless applications, a full suite of tested solutions are available


    Original     		PDF JESD204 LatticeMico32 1-800-LATTICE LatticeMico32, I0197 gsm simulink VITA-57 SFP CPRI EVALUATION BOARD VHDL code for high speed ADCs using SPI with FPGA dvb-s encoder design with fpga TC7000-LTE VITA-57 fmc fft algorithm verilog in ofdm Reed-Solomon encoder verilog for wimax

    vhdl code for ofdm transceiver using QPSK

    Abstract: soft 16 QAM modulation matlab code verilog code for ofdm transmitter dac 0808 interfacing with 8051 microcontroller vhdl code for ofdm transmitter VHDL PROGRAM for ofdm turbo codes matlab simulation program 16 QAM adaptive modulation matlab E1 pdh vhdl uart 16750
    Text: Intellectual Property Selector Guide IP Functions for System-on-a-Programmable-Chip Solutions March 2003 Contents • Introduction to Altera IP Megafunctions Page 3 • DSP Solutions Page 5 • Communications Solutions Page 11 • Microsystems Solutions Page 16


    Original     		PDF ARM922T vhdl code for ofdm transceiver using QPSK soft 16 QAM modulation matlab code verilog code for ofdm transmitter dac 0808 interfacing with 8051 microcontroller vhdl code for ofdm transmitter VHDL PROGRAM for ofdm turbo codes matlab simulation program 16 QAM adaptive modulation matlab E1 pdh vhdl uart 16750

    xaui xgmii ip core altera

    Abstract: vhdl code for clock and data recovery P802 verilog code for 100 mbps ethernet synchronizer megafunction vhdl code for phy interface vhdl code for mac transmitter
    Text: Implementing 10 Gigabit Ethernet XAUI in Stratix GX Devices November 2002, ver. 1.0 Introduction Application Note 249 A main system bottleneck in high-speed communications equipment is data transmission from chip-to-chip and over backplanes. StratixTM GX devices help remedy the problem by supporting 3.125-gigabit per second


    Original     		PDF 125-gigabit 10-Gbps xaui xgmii ip core altera vhdl code for clock and data recovery P802 verilog code for 100 mbps ethernet synchronizer megafunction vhdl code for phy interface vhdl code for mac transmitter

    verilog code for interpolation filter

    Abstract: verilog code for decimation filter gsm simulink VITA-57 fmc ECP3-150 Lattice ECP3 ofdm predistortion ECP3-35 SFP CPRI EVALUATION BOARD verilog code for dpd
    Text: f u l l y t e s t e d a n d i n t e r o p e r a b l e Lattice Wireless Solutions Ready-to-Use Wireless Portfolio Lattice provides customers with low-cost and low-power programmable solutions that are ready-to-use right out of the box. For wireless applications, a full suite of tested solutions are available


    Original     		PDF JESD204a LatticeMico32 1-800-LATTICE I0197B LatticeMico32, verilog code for interpolation filter verilog code for decimation filter gsm simulink VITA-57 fmc ECP3-150 Lattice ECP3 ofdm predistortion ECP3-35 SFP CPRI EVALUATION BOARD verilog code for dpd

    XP2-17

    Abstract: vhdl code for frequency divider
    Text: LatticeXP2 sysCLOCK PLL Design and Usage Guide February 2007 Technical Note TN1126 Introduction This user’s guide describes the clock resources available in the LatticeXP2 device architecture. Details are provided for primary clocks, secondary clocks and edge clocks as well as clock elements such as PLLs, clock dividers


    Original     		PDF TN1126 XP2-17 XP2-30 XP2-40 XP2-17 vhdl code for frequency divider

    LatticeXP2-40

    Abstract: TN1126 XP2-17 ehxplle vhdl code for frequency divider LFXP2-40
    Text: LatticeXP2 sysCLOCK PLL Design and Usage Guide February 2010 Technical Note TN1126 Introduction This user’s guide describes the clock resources available in the LatticeXP2 device architecture. Details are provided for primary clocks, secondary clocks and edge clocks as well as clock elements such as PLLs, clock dividers


    Original     		PDF TN1126 XP2-17 XP2-30 XP2-40 LatticeXP2-40 TN1126 XP2-17 ehxplle vhdl code for frequency divider LFXP2-40

    ECP3-35

    Abstract: ECP3-17 ECP3-95 vhdl code for phase frequency detector for FPGA PR97E CODE VHDL TO LPC BUS INTERFACE
    Text: LatticeECP3 sysCLOCK PLL/DLL Design and Usage Guide June 2010 Technical Note TN1178 Introduction This technical note describes the clock resources available in the LatticeECP3 device architecture. Details are provided for primary clocks, secondary clocks and edge clocks as well as clock elements such as PLLs, DLLs,


    Original     		PDF TN1178 ECP3-17 ECP3-35 ECP3-70 ECP3-95 ECP3-150 ECP3-35 ECP3-17 ECP3-95 vhdl code for phase frequency detector for FPGA PR97E CODE VHDL TO LPC BUS INTERFACE

    DS509

    Abstract: SD10 SD12 SD13 2V220 binaryencoded
    Text: - DISCONTINUED PRODUCT Packet Queue v2.2 DS509 August 8, 2007 Product Specification Introduction The Xilinx LogiCORE Packet Queue is ideal for systems that require buffering packet-based data from multiple input streams with aggregation into a single output interface. Packet Queue implements a fully


    Original     		PDF DS509 SD10 SD12 SD13 2V220 binaryencoded

    TN1178

    Abstract: ECP3-35 ECP3-17 ECP3-95 ecp3
    Text: LatticeECP3 sysCLOCK PLL/DLL Design and Usage Guide November 2009 Technical Note TN1178 Introduction This technical note describes the clock resources available in the LatticeECP3 device architecture. Details are provided for primary clocks, secondary clocks and edge clocks as well as clock elements such as PLLs, DLLs,


    Original     		PDF TN1178 ECP3-17 ECP3-35 ECP3-70 ECP3-95 ECP3-150 TN1178 ECP3-35 ECP3-17 ECP3-95 ecp3