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    im4a3-64

    Abstract: lattice im4a3 im4a3 im4a3-128 im4a3-192 lfe3-35ea IM4A3-256 iM4A3-384 LFXP2-8E lfe3-70ea
    Text: Lattice Socket Adapter Listing Rev 4.30 Socket Adapters are the interface between programming hardware such as the Lattice Model 300 desktop programmer , and Lattice programmable devices. This document shows which Lattice Socket Adapters support which Lattice programmable products. Lattice Socket Adapters are


    Original     		28-pin im4a3-64 lattice im4a3 im4a3 im4a3-128 im4a3-192 lfe3-35ea IM4A3-256 iM4A3-384 LFXP2-8E lfe3-70ea PDF

    ispmach lc4032

    Abstract: Lattice Socket Products LFE3-95EA
    Text: Rev 5.8.1 Lattice Socket Adapter Listing Lattice Desktop Programmers The Lattice Model 300 Desktop Programmer enables programming of all Lattice families except iCE without soldering on a printed circuit board. The Model 300 is supported by the Lattice Programming Cable HW-USBN-2A is included with the Model 300 . To program a specific Lattice device, an appropriate Lattice socket adapter must be


    Original     		pDS4102-FB208-C1) PN-Q208-GDX160V PN-FB208/GX160V PA-FB388/GX240VA PN-T48/CLK5510V PN-T100/CLK5520V Model300 ispmach lc4032 Lattice Socket Products LFE3-95EA PDF

    Lattice Socket Products

    Abstract: LFE3-95EA
    Text: Rev 5.7 Lattice Socket Adapter Listing Lattice Desktop Programmers The Lattice Model 300 Desktop Programmer enables programming of all Lattice families except iCE without soldering on a printed circuit board. The Model 300 is supported by the Lattice Programming Cable (HW-USBN-2A is included with the Model 300). To program a specific Lattice device, an appropriate Lattice socket adapter must


    Original     		PN-Q208-GDX160V PN-FB208/GX160V pDS4102-FB208-C1) PA-FB388/GX240VA PN-T48/CLK5510V PN-T100/CLK5520V PN-S64-CLK5410D Model300 Lattice Socket Products LFE3-95EA PDF

    lcmxo2-1200

    Abstract: LFE3-17EA LCMXO2 1200 LC4064 LFXP20C 22V10A lfe3-70ea LC4256 HW-USBN-2A LFXP2-40E
    Text: Rev 5.2 Lattice Socket Adapter Listing Lattice Desktop Programmers The Lattice Model 300 Desktop Programmer enables programming of Lattice devices all families except iCE without soldering on a printed circuit board. The Desktop Programmer communicates to software on the PC (ispVM System or Diamond Programmer) via a Lattice Programming Cable (USB: HW-USBN-2A, or Parallel: HW-DLN-3C Parallel cable is included with the Model 300). To program a specific Lattice device, an appropriate Lattice socket adapter must be installed on the Model 300 Desktop


    Original     		PN-T48/CLK5510V PN-T100/CLK5520V Model300 ICEPROGM1050-01) ICECABLEM100-01) lcmxo2-1200 LFE3-17EA LCMXO2 1200 LC4064 LFXP20C 22V10A lfe3-70ea LC4256 HW-USBN-2A LFXP2-40E PDF

    KEY-YM061

    Abstract: 2x5 berg JTAG 3SWO50 BERG stick single LFXP2-5E CC3528 LFXP2-5E-6TN144C SW-DIP-8 LM1117A conn 20X2
    Text:  LatticeXP2 Brevia Development Kit User’s Guide June 2010 Revision: EB53_01.1  LatticeXP2 Brevia Development Kit User’s Guide Lattice Semiconductor Introduction Thank you for choosing the Lattice Semiconductor LatticeXP2 Brevia Development Kit!


    Original     		inclu15, RC0402 KEY-YM061 B3FS-1000P KEY-YM061 2x5 berg JTAG 3SWO50 BERG stick single LFXP2-5E CC3528 LFXP2-5E-6TN144C SW-DIP-8 LM1117A conn 20X2 PDF

    DM-107 2K2

    Abstract: No abstract text available
    Text:  LatticeXP2 Brevia 2 Development Kit User’s Guide November 2011 Revision: EB67_01.0  LatticeXP2 Brevia 2 Development Kit User’s Guide Lattice Semiconductor Introduction Thank you for choosing the Lattice Semiconductor LatticeXP2 Brevia 2 Development Kit!


    Original     		Bre03 ECJ-1VB0J475K C0402C104K4RACTU LMK107BJ106MALTD C0402C180K3GACTU MAX6818EAP+ LFXP2-5E-6TN144C OT-223 FAN1112SX DM-107 2K2 PDF

    AT 2005B Schematic Diagram

    Abstract: AT 2005B at CODE VHDL TO LPC BUS INTERFACE filter bank design matlab code AT 2005B DPR16X2B verilog code for interpolation filter vhdl code for loop filter of digital PLL 2005b d480
    Text: ispLEVER 5.1 Service Pack 1 Release Notes Technical Support Line 1-800-LATTICE 528-8423 or 503-268-8001 Web Update To view the most current version of this document, go to www.latticesemi.com/software. December 2005 Copyright Copyright 2005 Lattice Semiconductor Corporation.


    Original     		1-800-LATTICE AT 2005B Schematic Diagram AT 2005B at CODE VHDL TO LPC BUS INTERFACE filter bank design matlab code AT 2005B DPR16X2B verilog code for interpolation filter vhdl code for loop filter of digital PLL 2005b d480 PDF

    verilog code for digital calculator

    Abstract: CODE VHDL TO LPC BUS INTERFACE sample verilog code for memory read d480 schematic dell code fir filter in vhdl vhdl code for loop filter of digital PLL filter bank design matlab code 32x8 rom verilog program vhdl source code for fft
    Text: ispLEVER 5.1 Service Pack 2 Release Notes Technical Support Line 1-800-LATTICE 528-8423 or 503-268-8001 Web Update To view the most current version of this document, go to www.latticesemi.com/software. February 2006 Copyright Copyright 2006 Lattice Semiconductor Corporation.


    Original     		1-800-LATTICE verilog code for digital calculator CODE VHDL TO LPC BUS INTERFACE sample verilog code for memory read d480 schematic dell code fir filter in vhdl vhdl code for loop filter of digital PLL filter bank design matlab code 32x8 rom verilog program vhdl source code for fft PDF

    Untitled

    Abstract: No abstract text available
    Text: ispLever CORE TM Turbo Encoder User’s Guide November 2008 ipug08_04.4 Lattice Semiconductor Turbo Encoder User’s Guide Introduction This document contains technical information about the Lattice Turbo Encoder IP core. Turbo coding is an advanced error correction technique widely used in the communications industry. The Turbo


    Original     		ipug08 PDF

    Untitled

    Abstract: No abstract text available
    Text: ispLever CORE TM Turbo Decoder User’s Guide November 2008 ipug14_04.4 Lattice Semiconductor Turbo Decoder User’s Guide Introduction Lattice’s Turbo Decoder core provides an ideal solution that meets the needs of turbo decoding applications. The core provides a customizable solution allowing turbo decoding of data in many system designs. This core allows


    Original     		ipug14 PDF

    sot23 Transistor marking W18

    Abstract: EB29 LCM-S02002DSF LDS-A304RI POWR607 68013a PT38A sot marking code w17 SOT-23 a6 ZENER aa15
    Text: LatticeXP2 Standard Evaluation Board User’s Guide February 2008 Revision: EB29_01.3 LatticeXP2 Standard Evaluation Board User’s Guide Lattice Semiconductor Introduction The LatticeXP2 Standard Evaluation Board provides a convenient platform to evaluate, test and debug user


    Original     		LatticeXP2-17 soic16 8013A RS232 ADS7842 tssop16 dip14 sot23 Transistor marking W18 EB29 LCM-S02002DSF LDS-A304RI POWR607 68013a PT38A sot marking code w17 SOT-23 a6 ZENER aa15 PDF

    OSC4/SM

    Abstract: MDLS-20265 OPTREX C-51505 MDLS-24265 short stop 12v p18 30a rs232 converter dmx Mosfet J49 LCM-S01602 lcm-s02402 Vishay SOT23 MARKING F5
    Text: LatticeXP2 Advanced Evaluation Board User’s Guide January 2009 Revision: EB30_01.3 LatticeXP2 Advanced Evaluation Board User’s Guide Lattice Semiconductor Introduction The LatticeXP2 Advanced Evaluation Board provides a convenient platform to evaluate, test and debug user


    Original     		LatticeXP2-17 24-6R8 OSC4/SM MDLS-20265 OPTREX C-51505 MDLS-24265 short stop 12v p18 30a rs232 converter dmx Mosfet J49 LCM-S01602 lcm-s02402 Vishay SOT23 MARKING F5 PDF

    MP2307

    Abstract: sot marking code w17 transistor marking code w17 SOT-23 A22 MARKING soic8 PT43B transistor cf43 W17 marking code sot 23 POWR607 sma connector footprint transistor marking A9 R8
    Text:  LatticeXP2 Standard Evaluation Board User’s Guide February 2010 Revision: EB29_01.5  LatticeXP2 Standard Evaluation Board User’s Guide Lattice Semiconductor Introduction The LatticeXP2 Standard Evaluation Board provides a convenient platform to evaluate, test and debug user


    Original     		LatticeXP2-17 soic16 8013A RS232 ADS7842 tssop16 dip14 MP2307 sot marking code w17 transistor marking code w17 SOT-23 A22 MARKING soic8 PT43B transistor cf43 W17 marking code sot 23 POWR607 sma connector footprint transistor marking A9 R8 PDF

    Untitled

    Abstract: No abstract text available
    Text:  LatticeXP2 Advanced Evaluation Board User’s Guide March 2011 Revision: EB30_01.5  LatticeXP2 Advanced Evaluation Board User’s Guide Lattice Semiconductor Introduction The LatticeXP2 Advanced Evaluation Board provides a convenient platform to evaluate, test and debug user


    Original     		LatticeXP2-17 PDF

    CODE VHDL TO ISA BUS INTERFACE

    Abstract: ispMACH M4A3 LCMXO1200 LCMXO2280 PCI33 ispMACH 4A3 verilog hdl code for parity generator vhdl code for 32bit parity generator verilog hdl code for multiplexer 4 to 1 Signal path designer
    Text: Designing a 33MHz, 32-Bit PCI Target Using Lattice Devices January 2010 Reference Design RD1008 Introduction The evolution of digital systems over the past two decades has placed new requirements on system designers. They now need to design interfaces that are both high performance and compatible with other vendors’ systems. At


    Original     		33MHz, 32-Bit RD1008 1-800-LATTICE CODE VHDL TO ISA BUS INTERFACE ispMACH M4A3 LCMXO1200 LCMXO2280 PCI33 ispMACH 4A3 verilog hdl code for parity generator vhdl code for 32bit parity generator verilog hdl code for multiplexer 4 to 1 Signal path designer PDF

    lcmxo2-1200

    Abstract: 32 bit microcontroller using vhdl 4 bit updown counter vhdl code Lattice LFXP2 RD1026 0X00005 vhdl code for a updown counter LCMXo2-1200HC
    Text: LatticeMico8 Microcontroller User’s Guide November 2010 Reference Design RD1026 Introduction The LatticeMico8 is an 8-bit microcontroller optimized for Field Programmable Gate Arrays FPGAs and Programmable Logic Device architectures from Lattice. Combining a full 18-bit wide instruction set with 16 or 32 general purpose registers, the LatticeMico8 is a flexible Verilog and VHDL reference design suitable for a wide variety


    Original     		RD1026 18-bit lcmxo2-1200 32 bit microcontroller using vhdl 4 bit updown counter vhdl code Lattice LFXP2 RD1026 0X00005 vhdl code for a updown counter LCMXo2-1200HC PDF

    LMV311

    Abstract: ADC tracking RD1063 LCMXO2-1200HC-6MG132C LVCMOS33 "digital Lowpass Filter" RD1066 "lattice semiconductor" sigma Delta
    Text: Simple Sigma-Delta ADC November 2010 Reference Design RD1066 Introduction The Simple Sigma-Delta Analog-to-Digital Converter Reference Design targets the implementation of an analogto-digital converter in a Lattice CPLD or FPGA. This reference design supports the use of an external analog comparator device, or optionally an on-chip LVDS buffer in devices with differential LVDS input support. Implementing


    Original     		RD1066 LFXP2-5E-5FT256C, 1-800-LATTICE RD1063, LMV311 ADC tracking RD1063 LCMXO2-1200HC-6MG132C LVCMOS33 "digital Lowpass Filter" RD1066 "lattice semiconductor" sigma Delta PDF

    block diagram UART using VHDL

    Abstract: wishbone interface for UART LCMXO2-1200HC-4TG144C FSM VHDL interface of rs232 to UART in VHDL LFXP2-5E-5TN144C Lattice LFXP2 NS16450 RD1042 uart verilog testbench
    Text: WISHBONE UART November 2010 Reference Design RD1042 Introduction The Lattice WISHBONE UART provides an interface between the WISHBONE UART system bus and an RS232 serial communication channel. Figure 1 shows the major blocks implemented in the UART in non-FIFO mode. This UART reference design contains a receiver and a transmitter. The receiver performs serial-to-parallel conversion on the asynchronous data


    Original     		RD1042 RS232 LatticeMico32 1-800-LATTICE block diagram UART using VHDL wishbone interface for UART LCMXO2-1200HC-4TG144C FSM VHDL interface of rs232 to UART in VHDL LFXP2-5E-5TN144C Lattice LFXP2 NS16450 RD1042 uart verilog testbench PDF

    LFXP2-8E

    Abstract: LFXP2-40E LFXP2-5E LFXP20C theta jc FCBGA LFXP2-17E LFE3-17 Theta JB LFXP15C LFXP2-8E 132
    Text: Thermal Management July 2009 Introduction Thermal management is recommended as part of any sound CPLD and FPGA design methodology. To properly assess the thermal characteristics of the system, Lattice Semiconductor specifies a maximum allowable junction temperature in all device data sheets. The system designer should always complete a thermal analysis of their specific design to ensure that the device and package does not exceed the junction temperature requirements.


    Original     		64-ball 144-ball LFXP2-8E LFXP2-40E LFXP2-5E LFXP20C theta jc FCBGA LFXP2-17E LFE3-17 Theta JB LFXP15C LFXP2-8E 132 PDF

    Untitled

    Abstract: No abstract text available
    Text: Dynamic Block Reed-Solomon Encoder User’s Guide August 2010 IPUG40_03.6 Table of Contents Chapter 1. Introduction . 4 Quick Facts . 4


    Original     		IPUG40 LFSC/M3GA25E-7F900C D2009 12L-1 PDF

    Block Interleaver

    Abstract: No abstract text available
    Text: Interleaver/De-interleaver IP Core User’s Guide December 2010 IPUG61_02.7 Table of Contents Chapter 1. Introduction . 4 Quick Facts . 4


    Original     		IPUG61 LFSC3GA25E-7F900C Block Interleaver PDF

    Untitled

    Abstract: No abstract text available
    Text: Numerically Controlled Oscillator IP Core User’s Guide June 2010 IPUG36_02.5 Table of Contents Chapter 1. Introduction . 4 Quick Facts . 4


    Original     		IPUG36 18x18 LFXP2-17E-7F484C D2009 12L-1 MULT18X18ADDSUBs. PDF

    Untitled

    Abstract: No abstract text available
    Text: Cascaded Integrator-Comb CIC Filter User’s Guide August 2010 IPUG42_02.6 Table of Contents Chapter 1. Introduction . 4 Quick Facts . 4


    Original     		IPUG42 15-bit LFXP2-17E-7F484C D2009 12L-1 PDF

    Untitled

    Abstract: No abstract text available
    Text: Dynamic Block Reed-Solomon Decoder User’s Guide December 2010 IPUG52_01.6 Table of Contents Chapter 1. Introduction . 4 Quick Facts . 4


    Original     		IPUG52 LFSC/M3GA25E-7F900C D-2009 12L-1 PDF