供电电压

  • 网络Supply Voltage;power supply;VDD;VCC;VDC
供电电压供电电压
  1. GM计数管脉冲供电电压对计数率的影响

    Influence of Pulsed Supply Voltage for GM Counter Count Rate

  2. 采用PCIE差分串行总线传输,既防止总线之间的串扰,同时又提高了传输速度,而且其供电电压低,降低了功耗。

    Using PCI E difference serial bus transport to prevent cross-talk between bus , and improve the transmission speed ; the supply voltage is low , and reduced power consumption . 7 .

  3. 我国普通供电电压为220/380伏。

    The common service voltage of electric power in our country is 220 / 380 volt .

  4. 脉冲宽度调制(PWM)是一种对模拟信号电平进行数字编码的方法,利用PWM技术改变供电电压的占空比可以实现对电机转速的调节。

    Pules-Width Modulation ( PWM ) is an digital coding method of analog signal . In this technology we can use a duty cycle to change the motor speed .

  5. 供电电压Vcc及流体压力P之间的关系,并指出,不仅桥电压而且总激励电压都对零点和灵敏度有影响。

    It is pointed out that not only the bridge voltage but also the supply voltage have influence on null point and sensitivity for pressure sensors .

  6. 现有的DVS算法大体上可以分为两类,任务间DVS算法和任务内DVS算法:任务间DVS算法是以任务与任务之间相互关系为基础,来确定供电电压的。

    The existing DVS algorithms can be classified into two kinds : Inter-DVS and Intra-DVS .

  7. 利用所设计的CCD采集系统,设计了测试CCD动态范围实验,并分析了CCD供电电压波动对CCD动态范围的影响。

    Based on the CCD acquisition system we design a CCD dynamic range testing experiment . Through the experiment we analyze the CCD dynamic range change which is caused by voltage fluctuate .

  8. 3V供电电压下功耗为2.7mW。

    The power consumption is 2.7 mW at a 3 V supply voltage .

  9. AVR精简指令集高速单片机控制器用于控制辅助板,实现供电电压、正向供电电流、反向供电电流以及仪器内部温度的采集和存储。

    AVR was designed to collect and deposit power supply voltage , forward direction supply current , reversal supply current , and temperature inside the instrument .

  10. 另外,为了降低功耗,SOC供电电压越来越低,导致高速低压嵌入式快闪存储器的设计本身也面临诸多技术难题。

    Moreover , in order to reduce power dissipation , the supply voltage of SOC has been reduced recently , which gives rise to a bunch of technical problems for high speed low voltage embedded Flash Memories .

  11. 模拟管脚电压读数紧密取决于Arduino的供电电压。

    Analog pin voltage readings seem to depend critically on the voltage of the power supply to the Arduino .

  12. DVS技术更进一步的让系统在低频率运行的同时,控制片外的逆变器使得系统的供电电压也同时降低,进一步降低了系统的功耗。

    DVS enables the system to run in a lower supply voltage when the system is running at low frequencies by controlling the off-chip converter .

  13. 该模块使用共源共栅结构和偏置跟踪技术,基于0.35μm、5V的低压CMOS工艺,可耐受高达12V的供电电压输入。

    This circuit , with a cascode topology and a bias voltage tracking technique , can be tolerant of input voltage up to 12V in a 5V CMOS process .

  14. 芯片的电源供电电压为1.8V,功耗为400mW。

    The power consumption of the DEMUX chip is 400 mW with 1.8 V supply voltage .

  15. 此外,芯片在12V供电电压下的稳态工作功耗仅为0.11W(包括开关损耗)。

    And the power dissipation is 0.11W ( including switching loss ) when supply voltage is 12V . The designed chip was taped out .

  16. 目前现存的LVDS驱动不能在低供电电压下工作,双电流源(DCS)LVDS驱动和开关电流源(SCS)LVDS驱动等两种新驱动适用于低电压应用。

    While the previously reported LVDS drivers cannot operate with low-voltage supplies , two new LVDS drivers are proposed-double current sources ( DCS ) LVDS driver and the switchable current sources ( SCS ) LVDS driver are suitable for low-voltage applications .

  17. 针对芯片各模块的负载和对供电电压的不同要求,提出了一种以带隙基准电路为核心,由LDO电路、电荷泵电路等组成的电源模块的系统解决方案。

    Based on the requirements of different blocks for load abilities and power supply voltages , a total solution of built-in power supply block is proposed , which is implemented by bandgap reference , LDO and charge-pump DC-DC converter .

  18. 但就目前的带隙电压基准来说,其供电电压一般大于1.25V,且输出基准电压为固定值。

    But in the current , the supply voltage of BGR is generally greater than 1.25V and the output voltage is fixed .

  19. 在一些低供电电压基准电压源结构中需用到宽输入共模范围的放大器,本文提出了一种能工作于低供电电压下的基于动态偏置的Rail-to-Rail恒定增益放大方法,并进行了电路实现。

    Some low-supply voltage reference required amplifier which have wide input common-mode range , a low supply voltage Rail-to-Rail Constant gain amplifier which based on dynamic bias method has been carried out , and a curcuit has been designed .

  20. 电压凹陷是指供电电压有效值在90%~10%额定值间变化,持续时间从中个周期到1min的电压有效值变化现象。

    Voltage sag is a reduction between 10 % and 90 % in rms voltage , with duration between 0.5 cycle and 1 minute .

  21. 该系统对机房环境温度、动力供电电压(220V)及设备工作电压(-48V)进行集中监测和管理。

    The system can be widely used in the rural areas , such as counties and townships . Centralized monitoring and management of temperature , power supply voltage ( 220 V ), and equipment working voltage ( - 48 V ) are implemented .

  22. 当供电电压大于600V时,灵敏度已基本稳定;构成阵列探测器的单个探测器数量越多,时间响应波形展宽越多。

    Cm2 by changing the number of single PIN detector , and sensitivity has been leveled off as power supply voltage is higher than 600V.The more the number of single PIN detectors , the wider is the waveform time response .

  23. 提出在配电网络部分加入一台等值理想变压器,配合无功补偿装置以稳定供电电压,由此建立带理想变压器的综合负荷模型(SLM-T)。

    A SLM-T ( Synthesis Load Model with Transformer ) is proposed by adding an ideal transformer to the SLM , which cooperates with the reactive compensator to stabilize low-voltage bus voltage .

  24. 仿真结果表明,输出电压0.4V~1.3V范围内,电荷泵上下电流失配小于1%,满足低供电电压锁相环系统对电荷泵的要求。

    The current mismatch is less than 1 % when output voltage varies from 0.4 V to 1.3 V. This good performance can fulfill the requirement about charge pump in low power supply and low phase noise PLL .

  25. 在1.8V供电电压下,芯片输出数据速率达到了10-Gb/s,芯片面积1.4×1mm2,功耗300mW,低于同类芯片功耗。

    Output data speed of the chip is up to 10-Gb / s with 1.8 V supply voltage . Die area equals 1.4 × 1 mm2 . Power consumption of the chip equals 300 mW , lower than that of the same kinds of circuits .

  26. 供电电压凹陷域的分析

    An Analysis of Voltage Sag Exposed Areas in Distribution System

  27. 城市道路照明供电电压与控制新技术

    New Technique of Power Supply Voltage and Control in Urban Road Lighting

  28. 在计算机和电子设备中,通常需要多个等级的供电电压同时对设备供电。

    Computers and some electronic equipment usually require multiple levels of supply voltage .

  29. 基于智能方法的静电除尘器供电电压优化控制

    Optimized Control of the Working Voltage for Electrostatic Precipitator Based on Intellective Method

  30. 电潜泵供电电压的选用对投资费用的影响

    Effect of Selection of Power Supply Voltage for Submersible Electric Pump on Investment