必要的电子电路理论知识,会应用示波器、逻辑分析仪等仪器仪表于问题调查分析。
Sound knowledge on electronic circuit theory, capable to use electronic instruments (oscilloscope, logic analyzer) for problem investigation.
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.
可作为示波器增添逻辑和脉冲触发等高级触发能力。
Can increase logic and pulse to spark as oscillograph etc advanced spark ability.
各式各样的触发选择,使仪器具有示波器敏锐的眼睛和逻辑分析仪的头脑,以搜索毛刺。
Ahost of triggering Options let a instrument hunt down glitchs, arming it with a scope's sharp eyes and a logic analyzer's brain.
然而,传统的测量仪器如示波器,万用表,逻辑分析仪等都只是针对某一些信号或者电参数的测量。
However, the traditional measuring instruments such as DSO, DMM, Logic Analyzer have only focus on a certain number of signal or electrical parameters.
逻辑分析仪输出到示波器上同时显示被测的8路信号,十分清晰、稳定。
The signals of 8 channels output of the logic analysis instrument can be shown in the oscilloscope at the same time, and the waveform is very clear and stable.
逻辑分析仪输出到示波器上同时显示被测的8路信号,十分清晰、稳定。
The signals of 8 channels output of the logic analysis instrument can be shown in the oscilloscope at the same time, and the waveform is very clear and stable.
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