逻辑分析仪

luó ji fēn xī yí
  • logic analyzer
逻辑分析仪逻辑分析仪
  1. 基于FPGA的逻辑分析仪多路量化显示电路的实现

    Realization of Multi-channel Display Circuit of Digital Logic Analyzer based on FPGA

  2. 基于DSP与CPLD的逻辑分析仪设计

    A Design of Digital Logic Analyzer Based on DSP and CPLD

  3. 用FPGA实现数字逻辑分析仪设计

    Design of Digital Logic Analytic Instrument on FPGA

  4. 利用双CPU设计简易逻辑分析仪

    Design of Simple Logic Analysis Instrument Using Double CPU

  5. 基于FPGA芯片和EDA技术的逻辑分析仪系统设计

    Based on FPGA 's Chip and EDA 's Technique Logical Analysis Instrument System Design

  6. 论文围绕基于USB接口的虚拟逻辑分析仪的设计具体展开。

    The thesis mainly discusses the design of virtual Logic Analyzer , based on USB interface .

  7. 第5章介绍了基于JAVA语言开发的PC机端软件设计,包括逻辑分析仪的面板、菜单设计,以及系统的通讯协议描述。

    Panel , menu design , and the communication protocol of the logic analyzer are introduced in chapter 5 based on JAVA language .

  8. 基于NiosⅡ的嵌入式高速逻辑分析仪

    Embedded High Speed Logic Analyzer on the Base of Nios ⅱ

  9. 基于NiosⅡ的嵌入式逻辑分析仪系统软件设计

    Design of System Software of Embedded Logic Analyzer Based on Nios ⅱ

  10. 可作为逻辑分析仪、密码协处理器使用,也可用于信息安全、IC设计、嵌入式操作系统等有关的研究、开发和实验。

    It can properly satisfy the needs of practice of IC design , embed operating system as well as Logic Analyzer and Cipher Coprocessor .

  11. 本系统设计的虚拟逻辑分析仪将FPGA技术与虚拟仪器技术相结合,突出了新技术在智能仪器应用中的优势。

    This system design of virtual logic analyzer combines virtual instrument technology with FPGA technology , which highlights the advantage of applying new technologies in intelligent instruments .

  12. GPIB激光自动测径系统及逻辑分析仪的应用

    Foundation of laser dia-auto-testing system based on GPIB and the application of the logic analyzer

  13. 以单片机和CPLD为核心,辅以必要的外围电路,构成了一个简易逻辑分析仪。

    The design uses the single-chip microcomputer and CPLD as control center , and adopt essential periphery circuits to realize simple logical analyzer .

  14. 利用并行口的EPP模式制做虚拟逻辑分析仪

    Use EPP 's model of parallel port to design and make virtual logical analyses apparatus

  15. 最后利用逻辑分析仪对设计程序进行分析与调试,在SCSI总线上实现了数据的传输。

    At last , data transmission on SCSI bus is realized by analyzing and debugging program through logic analyzer .

  16. 跟踪缓冲可以记录程序执行的历史轨迹,这在各种在线仿真器(ICE)和逻辑分析仪中得到了广泛的应用。

    Trace Buffer was widely applied in recording the historical track in the period of the programs ' execution . And this convenience is used in many kinds of In-circuit Emulators and Oscilloscopes .

  17. 本文以USB逻辑分析仪作为一种典型的被测对象,进行了可测性设计的再开发工作,使其具有支持IEEE1149.1边界扫描功能的设备结构。

    This paper chooses USB logic analyzer as a typical tested object , and carries through a second develop to design it supporting IEEE 1149.1 boundary-scan function for testability .

  18. 文章以逻辑分析仪和Matlab软件为基础,运用相干采样技术,针对10位40MSPSA/D转换器动态参数的测试和基波图形恢复算法进行了深入研究。

    Based on logic analyzer and Matlab , an insight investigation is made into the dynamic parameter test of a 10-bit 40 MSPS A / D converter and the fundamental wave graphic recovery algorithm .

  19. 为了使更多用户使用到逻辑分析仪,本论文在对虚拟仪器技术、FPGA技术以及USB总线接口研究的基础上,设计了基于FPGA的虚拟逻辑分析仪。

    This thesis has designed the virtual logic analyzer based on FPGA to let more users use it , which bases on researching virtual instrument technology , FPGA technology and USB interface .

  20. 在分析数字逻辑分析仪触发电路工作原理的基础上,讨论了其触发电路模块的FPGA实现方法,给出了部分电路的程序设计。

    Based on the analysis of the principle of digital logic analyzer circuit , this paper discusses the FPGA implementation method of its flip-flop circuit module and presents some programming of part circuits .

  21. 设计和验证超高密度FPGA的方法是采用逻辑分析仪、示波器和总线分析仪,通过测试头和连接器把信号送到仪器上。

    Making use of logic analyzer , oscillograph and bus analyzer , we can design and test the superhigh density FPGA , and transmit the signal to the instrument through probe and linker .

  22. Tektronix逻辑分析仪用于高速逻辑信号采集与分析

    Logic Analyzer Applied to Multi-channel High-speed Logic Signal Acquiring and Analysis

  23. 利用积分球作标准光源,并用逻辑分析仪作数字输出信号的分析统计,测出CMOS传感器光照度接收曲线。

    It used the integrating sphere as the standard light source , and adopted the logic analyzer analyzing the output digital signal , and the receiving illumination curve of CMOS sensor was gotten .

  24. 介绍了一种基于PC的用ISP器件实现的虚拟高频逻辑分析仪的设计方法,并且对其软件的调试和硬件的实现进行了详细描述。

    This paper introduces a design method for virtual high frequency logic analyzer using ISP ( in system programmability ) device based on PC , and describes the procedure of software adjustment and the hardware implementation .

  25. 本文就是把NiosⅡ硬件平台的方案,在逻辑分析仪设计上进行了有益尝试,给出了基于Cyclone芯片的NiosⅡ的实现框图。

    This design applies the scheme of hardware platform based on Nios ⅱ to the embedded logic analyzer , and the overview of Nios ⅱ based on chip Cyclone is given .

  26. 本文详细论述了利用SignalTapⅡ嵌入式逻辑分析仪如何实时监测FPGA内部信号。

    How to monitor the signal within FPGA in real time this text narrates in detail and utilizes SignalTap ⅱ embedded logic analysis instrument .

  27. 对A16/D16单周期数据传输能力和块传输能力进行了实际电路测试,经逻辑分析仪采回的结果显示,符合VME总线协议的要求,设计正确可行。

    A16 / D16 single-cycle and block transfer capability are tested using the logic analyzer . The results are in accordance with the design .

  28. 介绍了采用MCS-51单片机设计的简易逻辑分析仪的功能,系统组成,软硬件电路的设计方法。

    This article introduced the function of a simple and easy logic tester , which is designed by using the MCS-51 microcomputer system , and its system constitution and the design of software and hardware .

  29. 本文开展了虚拟仪器方面的研究工作,进行了虚拟仪器及其相关技术的研究,并研制开发了新一代虚拟仪器&一种基于FPGA技术的虚拟逻辑分析仪。

    The paper was doing some works about virtual instrument , making study on virtual instrument and correlative technology and developing a new virtual instrument - a virtual logic analyzer based on FPGA , which is a perfect instrument on computer system and digital circuit design and software development .

  30. 在阐述ES4541逻辑分析仪系统软件组成结构的基础上详细论述了逻辑分析仪软件设计中的面板控制、存储限定字功能实现、GPIB通讯程序设计,最后,就系统软件的调试进行了论述。

    The design of the control function and the GPIB communication of system software . At last the dissertation deals with the debugging of the system program .