一个由处理器内部硬件触发的程序中断。
An interruption of a program that is triggered by the processor "s own internal hardware."
为了提高总体系统速度,可采用硬件触发同步系统中的所有仪器。
To increase overall system speed, synchronize all the instruments in the system using hardware triggers.
任何没有给出的硬件都不会触发需要它的任务。
Any hardware that's not present will not trigger the jobs that would require it.
注意,由于触摸板尺寸较小以及硬件功能的内在限制,因此可能需要进行一些练习才能可靠地触发手势事件。
Note that due to the smaller track-pad size, as well as the inherent limitations of the ability of the hardware, it may take some practice before you can reliably trigger gesture events.
然后分析触发这个问题的软件指令,并用更为硬件友好的命令来代替执行同样的工作。
It then analyzes the software instructions that are triggering the problem and substitutes more hardware-friendly commands that do the same job.
本文简述了采用单片机为主体构成的晶闸管过零触发调功装置的硬件构成和工作原理。
This article summarizes the hardware organization and working principles of the thyristor zeropassage trigger capacity control circuit which have a singlechip as its main body.
硬件电路简单,可靠性高,抗干扰能力强,是一种比较理想的晶闸管触发装置。
The hardware circuit is simple, and it has strong reliance and anti-interference ability, which is a kind of ideal SCR trigger.
介绍了电阻炉温度控制系统的硬件组成、温度信号的高精度转换及触发控制电路。
The hardware composition, high precision conversion of temperature signal and the trigger control circuit for resistance furnace are introduced.
本实验室采用硬件延迟控制触发和软件循环采集保存的手段,实现了瞬态过程的X射线数字化实时成象功能。
We used the means of the hardware delay control trigger and the software circularly saving, realized the flash process X-ray digital imaging function.
对调速器的控制原理及结构组成进行了介绍,并对触发控制的硬件和软件进行了叙述。
The control principle and structure of the riser are discussed; the software and hardware of the triggering control are described.
该触发器充分发挥了80c 196kc的HSIO的作用,把系统硬件和占用cpu的时间减少到了较低限度。
It makes the best of HSIO of microprocessor 80c196kc, so the hardware is simple and the occupation time of CPU is less.
时间触发架构(TTA)为设计和实现高可靠性分布式嵌入式系统提供了软件和硬件的模型。
The TTA provides a software and hardware infrastructure for design and implementation of dependable distributed embedded systems.
光学测棒硬件控制电路划分为:LED驱动电路、单片机控制、按键触发和数据通信四个功能模块。
The control circuit of the probe has been divided into four modules, namely, infrared LED drive circuit module, monolithic processor control module, keys trigger module and data communication module.
使硬件自动产生一个适当的触发,当你在自动方式时不能得到触发。
'ForceTrigger: it can let hardware auto generate a proper trigger when you can't get trigger in auto trigger mode.
整体温控部分主要进行了温度采集单元,控制单元、触发单元,电源等硬件电路的设计。
Designed a temperature control circuit in the overall temperature control unit, mainly including temperature acquisition unit, control unit, trigger unit, power supply and other hardware circuits.
并介绍该系统软硬件模块,最后对高速摄像与视频触发原理作了详细的说明。
The paper also discuss the system software and hardware modules, finally we focus on principle of the high speed videography and intelligent video-detect in details.
本文利用VHDL硬件描述语言设计了一种SVPWM信号发生器,该信号发生器不仅成功实现了输入时间信号到SVPWM触发信号的转换,而且具有良好的抗干扰能力。
In this paper, a SVPWM signal generator is designed with VHDL. This signal generator can transform time signal into SVPWM trigger signal successfully with good anti-jamming capability.
提出了一种以复杂可编程逻辑器件(CPLD)和锁相环技术为核心的新型通用数字触发器,对其硬件电路和软件设计进行了详细分析。
To aim at the defect of the simulate trigger and the digital trigger with microcomputer, a new universal digital trigger based on CPLD and PLL is introduced.
硬件设计包括测试电源、测试控制电路、数据采集部分、过零触发电路等。
The hardware design includes electrical source design, measuring controlled circuit design, data acquisition section design, checking-at-zero circuit design and so on.
用高速的FPGA代替ECL集成电路制作了北京谱仪的主触发电路,其设计过程中使用了硬件描述语言VHDL,得到了和原电路同样的性能,但增加了灵活性。
Master Trigger Controller was made using fast FPGA instead of ECLIC. VHDL was used in its design. The same performance was obtained with increased flexibility. .
设计了以TMS320F240为控制核心的硬件控制平台,包括采样电路、保护电路、六相触发同步等外围电路。
The hardware control system based on TMS320F240 is designed, which includes sampling circuit, protective circuit, phase-compensated circuit and so on.
设计了以TMS320F240为控制核心的硬件控制平台,包括采样电路、保护电路、六相触发同步等外围电路。
The hardware control system based on TMS320F240 is designed, which includes sampling circuit, protective circuit, phase-compensated circuit and so on.
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