核心电压

  • 网络Core Voltage;Vcore
核心电压核心电压
  1. 芯片能够精确的调整CPU核心电压,对称不同通道之间的电流。

    The chip can adjust the CPU core voltage accurately and balance the different channel current .

  2. 嵌入式倾斜仪采用全工业等级芯片设计,系统设计有独立的电源电路,多种隔离接口,核心电压监测和看门狗电路,使其适应性,稳定性得以保证。

    The embedded clinometer ensures its adaptability and stability by selecting industrial class chips and designing independent power system , variable insulate interfaces , power monitoring and watch dog circuit .

  3. 本文研究的就是采用DSP为控制核心的电压源型矢量控制变频器的控制系统。

    In this thesis , a Voltage Vector Control Inverter based on DSP is studied and developed .

  4. 锁相环往往需要有较大的输出频率范围来适应宽带通信的需求,所以锁相环的核心模块电压控制振荡器一般使用单或多核宽带结构。

    The PLL often needs large output tuning range to adapt the requirement of wideband communication , so the wide band single / multiple core Voltage-Controlled Oscillator ( VCO ) is often adopted .

  5. 介绍了一种以工控机为核心的电磁电压继电器检测系统的主要功能及工作原理。

    This system combined analogic and digital electronic technology with computer technology , which could detect the related parameters of voltage relay automatically .

  6. 针对电压补偿问题,研究以嵌入式微处理器为核心的智能电压补偿器,有效地控制了输出电压,提高了设备的可靠性。

    For the problem of voltage compensation , the design of microprocessor control system used in voltage compensation controlled voltage output availably , and the stabilization of the system is increased .

  7. 控制电路以脉宽调制电路为核心,通过电压给定信号和反馈信号的比较,获得宽度可调的脉冲信号,调节焊接电源的输出,并实现对弧焊逆变器的闭环控制。

    Control circuit is taking pulse wide modulation circuit as core . By comparison of given signal and feedback signal of overvoltage , get the width-adjustable pulse signal for regulating output of welding power source so as to realize the colsed-loop control to arc-welding inverter .

  8. 该控制器的核心采用含有直流电压波动前馈补偿的双环串级PI结构。

    The core of the controller is the infrastructure of double feedback loop and series PI regulators with DC voltage variation feed-forward compensation .

  9. 尖峰电压信号发生器的核心是产生尖峰电压信号,通过CPU控制串联接入被试设备的供电电源的回路中,能够输出尖峰电压信号、电压浪涌信号的试验设备。

    A peak voltage signal generator is developed and used to generate and send peak voltage and voltage surge signals to the power supply circuit for tested equipment in series connection under the control of a CPU .