在此基础上设计了三值ecl极性变换电路。
Then, the ternary ECL polarity transformation circuits are designed.
给出了基于这一方程出发设计的立体显示坐标变换电路。
It also gives the three dimensional display coordinate conversion circuit which is on the equation.
针对其电流特点,讨论具有大动态范围的I-V变换电路。
The I-V circuit is discussed which has big dynamic range for its current characteristic.
信号通道由衰减电路、阻抗变换电路、放大电路等电路组成。
Signal channel consists of attenuating circuit, impedance transformation circuit and amplification circuit.
本文提出了一种离散余弦变换电路VLSI实现的可测试性设计。
In this paper, a VLSI implementation method of design-for-testability for DCT is presented.
介绍了一种利用AD2S90芯片实现的感应同步器信号变换电路。
This paper introduces a type of circuit which can digitize signal of inductosyn by AD2S90.
主要论述了基于四电平功率变换电路的开关磁阻电机直接瞬时转矩控制。
In this paper, a direct instantaneous torque control (DITC) of switched reluctance motor (SRM) with a four-level converter is presented.
串级逆变电路是在高压大功率电力电子变换器中应用较多的一种变换电路。
Cascade inverter has various applications in the high voltage and power multilevel inverter field.
目前的LED直流驱动电路中性能最强、效率最高的是电感式开关变换电路。
The most powerful and efficient direct current LED driver circuit is the inductor switch converter recently.
分别讨论了功率因数校正模块、双正激变换电路模块和二次斩波模块的建模方法。
The model setting up method of the three module which include power factor correction circuit, two-transistor forward converter, secondly chopper circuit, is discussed in detail.
对用负阻抗变换电路同圆锥螺旋天线相结合,构成的有源接收天线进行了理论分析。
An active receiving antenna consisting of conical helix antenna and a negative impedance changing circuit is analyzed in this paper.
分析了模拟电压一频率比变换电路原理,给出了元件参数的设计要求及其计算方法。
After the analyses of circuit theory of analogue voltage-to-frequency ratio converter, the design requirement of component parameters and the calculation method are presented.
本文对用一种负阻抗变换电路同电小天线导线相结合构成的有源天线进行了理论分析。
An active antenna consisting of electrically small antennas and a negative impedance changing circuit is analyzed in this paper.
DC开关变换电路是一个时变的、非线性的动态系统,它的分析与设计一直是一个难题。
DC-DC switching converter is a time-variant and non-linear dynamic system, and it is difficult to analyze and design.
函数发生器MAX038是具有整机功能的、将波形的产生和变换电路综合在一起的集成芯片。
The function generator MAX038 has complete machines function, the integrated chip synthesize of undee produce and transfer circuit.
本文在对相位噪声的概念、产生及其相关测量方法研究的基础上,设计出一种低噪声频率变换电路。
This paper presents a new type of low noise frequency conversion circuit based on the research of phase noise conception, generation as well as relativity measurement method.
主要介绍了直流变换电路主电路参数的设计方法,对从事蓄电池放电技术研究的工程技术人员具有较高的参考价值。
The design method of the main circuit components parameters of DC/DC converter is obtained. And this method is of higher value for the engineer.
在硬件设计方面:为了提高灵敏度,通过数学推导设计传感器信号变换电路中的各个参数,并给出了各参数的求取公式。
As for hardware design, in signal converter, in order to improve sensitivity, the parameter of signal converter is gotten through math illation.
分析了开关变换电路中的传导EM I的传播路径,介绍了EM I电源滤波器的工作原理以及EM I电源滤波器的设计。
The Paper analyzes the conducting EMI propagation path of converter, and presents the working principle of EMI power filter and the design of EMI power filter.
根据冲击型探地雷达的原理,窄脉冲发生电路是探地雷达的一个重要的基本单元电路,它是组成脉冲发射电路和取样变换电路的重要组成部分。
According to the principle of impulse GPR, the short pulse generator is an important basic circuit of GPR, it is an important part of radiation excitation and sampling circuit.
内置智能电路,能自动变换充电器的输出极性以适应电池的正极和负极。
With the intelligent circuitry inside, it can automatically transform the charger output polarity to suit for the battery anode and cathode.
针对采用的生物传感器内阻高、信号弱、双极性等特点,用预处理电路对模拟信号进行了变换。
A preprocessing circuit is designed for analog signal transformation because of large inner impedance of biosensor and bipolar signal.
相乘器是由非线性元件组成,可以实现两个信号的相乘,完成频率变换的电路。
Multiplier is the circuit which is conformed of nonlinear elements and can make two signal multiplied so that it can implement frequency transformation.
采用德国西门子IGBT变频,电压反馈串联谐振电路。变换效率高达97.5%以上。
Adopt IGBT frequency conversion of German Siemens and voltage feedback series resonance circuit. The conversion efficiency is reaching up to above 97.5%.
两种等效电路可以通过简单的电源变换来实现相互转换。
The two equivalents may be obtained from one another by a simple source transformation.
该文系统地讨论二极管工作在开关特性下所组成电路的频率变换的工作原理。
This paper tries to discuss the work principle of frequency transformation on the circuit where diodes work on on-off speciality.
最后,设计了变换器的硬件电路和软件流程。实现了以TMS320F 2812DSP芯片为控制核心的样机。
And then, designed hardware circuit and software flow, realized a sample using TMS320F2812 DSP as kernel controller.
最后,设计了变换器的硬件电路和软件流程。实现了以TMS320F 2812DSP芯片为控制核心的样机。
And then, designed hardware circuit and software flow, realized a sample using TMS320F2812 DSP as kernel controller.
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