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本文通过采用DC-DC电源与LDO电源结合的结构,实现了电路效率和性能的有效均衡,同时在电源输出级增加多级π型滤波器进一步减小电源纹波和噪声,使电源同时满足系统模拟电路和ADC电路供电需求,为高精度多通道动态数据采集系统提供了可靠的低噪声低纹波电源。 相似文献
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在微波测试领域,关于电源纹波基本是原理性研究,而针对性研究电源纹波对频率源相位噪声影响的分析或者实验实例更少,对微波电路的电磁兼容设计方面缺乏参考。文中在电源纹波对频谱纯度的影响概念性分析基础上,主要针对现代雷达系统中电源纹波对频率源频谱纯度的影响展开研究,通过分析电源纹波对频谱纯度影响的机理,采用模拟数据仿真的方法探索电源纹波对不同类型频率源频谱纯度的影响,并进行实际测试数据对比仿真结论,得出频率源频谱纯度受电源纹波影响的主要因素以及相互关系,为电路设计者提供数据支持。 相似文献
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基于0.18 μm BCD工艺,设计了适用于电压模式恒定导通时间(COT)架构DC-DC降压型变换器的纹波补偿电路。分析了使用电解电容作为输出电容以及片外纹波补偿电路的缺点,并设计了一种新颖的片内纹波补偿电路来克服这些缺点。在芯片系统典型应用环境下,利用Cadence和Hspice软件进行电路设计和仿真。结果表明,在电源电压为5 V,温度为25 ℃的条件下,芯片输出电压的纹波仅为2.15 mV,通过纹波补偿电路的反馈电压的纹波为37 mV,完全满足系统稳定要求。当温度在-20 ℃~125 ℃内变化时,输出最大纹波仅为12.6 mV。 相似文献
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纹波电压对高放、本振、混频、滤波、检波、A/D变换等电路都会产生影响.在设计电子产品时都要尽量抑制纹波.本设计基于AC-DC变换以及A/D变换,提供了一种测量电源纹波的有效方法,系统包括滤波、整流、放大、ADC采集、LCD显示5个模块.电源纹波信号通过高通滤波后滤除了直流,输出的交流信号经小信号整流电路后变为单方向的脉动直流信号,再由放大电路放大后输送到STM32片内ADC采集,最后将结果显示在LCD上.经验证,本系统能够较为准确地测量电源纹波,并可根据需要调节系统的频率响应. 相似文献
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本文简要的介绍了水文RTU(Remote Terminal Unit)远程测控终端的电源系统,针对传统水文RTU电源系统中电源切换电路、3.3V电源电路和现场仪表供电电路的缺点,分别提出了优化方法与改进措施。对于电源切换电路,利用Liner公司的LTC4412芯片控制MOSFET的导通,解决了电源在切换时产生纹波的现象;对于3.3V供电电路,利用磁环电感替换相同感值的柱状电感,使磁力线会集中在磁环电感中,避免了漏磁的产生;对于现场仪表供电电路,用MOSFET代替电磁继电器,解决了电磁继电器误动作和机械寿命短的问题。通过这三个部分优化了RTU电源系统,提高了电源系统的稳定性。 相似文献
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A three-phase AC/DC converter based on isolated Cuk topology feeding an inductive load is presented. The main goal is to get a compact, highly stable current source to feed an electromagnet. A high power factor is achieved, at constant duty-cycle and switching frequency, by discontinuous input current mode operation. The converter presents a linear relationship between the duty-cycle and the output current, making it easier to design the control system. Additionally the voltage stress on the power transistor is constant and does not depend on the duty-cycle. An auxiliary circuit allows zero voltage turn-off while limiting the over-voltage on the switch produced by the transformer leakage inductance. Pulse-width modulation (PWM) control is used to reduce sensitivity to line disturbances and to eliminate the 300-Hz ripple on the output current. Experimental measurements taken on a 400-W prototype confirm theoretical forecasts 相似文献
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Hyunseok Nam Youngkook Ahn Jeongjin Roh 《Analog Integrated Circuits and Signal Processing》2012,71(2):327-332
This letter proposes a new adaptive on-time pulse-frequency modulation (PFM) circuit that operates at a wide range of supply
voltage levels and that can generate various output voltage levels compared to conventional circuits. The circuit’s peak inductor
current is well-controlled; the magnitude of the output ripple voltage is constant, even when the supply and output voltage
levels are significantly different. Since the ripple voltage is a noise component, constant ripple voltage is important for
predictable noise of a power management system. 相似文献
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The parallel operation of modular power factor correction circuits is illustrated. The modular units using boost converters are operated at a constant frequency with variable duty-ratio. Flexible load demand is met by changing the number of operating modules under the maximum current limit. The operating modules have the same frequency and duty-ratio, but are equally phase-shifted to each other by a fraction of the switching period to reduce the ripple content and to increase the ripple frequency of the input current. With this phase-shifted control strategy, balanced current sharing among modules can be achieved by operating the boost converters at discontinuous current mode, without the need of extra current control circuit. A prototype circuit consisting of 15 modular units, which supply the attempted power rating of 3.75 kVA was implemented to verified the theoretical prediction 相似文献
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为实现30 W连续掺Yb光纤激光器,设计一种大功率(10 A)半导体激光器(LD)的驱动电路,该恒流源电路采用功率场效应管作电流控制元件,运用负反馈原理稳定输出电流,正向电流0 A~10 A连续可调,纹波峰值为10 mV,输出电流的短期稳定度达到1×10-5,具有过流保护、防浪涌冲击的功能。实际应用在30 W连续掺Yb光纤激光器中,结果表明该驱动电路工作安全可靠。 相似文献
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To meet the demands for a number of LEDs, a novel charge pump circuit with current mode control is proposed. Regulation is achieved by operating the current mirrors and the output current of the operational transcon ductance amplifier. In the steady state, the input current from power voltage retains constant, so reducing the noise induced on the input voltage source and improving the output voltage ripple. The charge pump small-signal model is used to describe the device's dynamic behavior and stability. Analytical predictions were verified by Hspice sim ulation and testing. Load driving is up to 800 mA with a power voltage of 3.6 V, and the output voltage ripple is less than 45 mV. The output response time is less than 8 μs, and the load current jumps from 400 to 800 mA. 相似文献