本论文研究了通过控制开关模式电源中的混沌降低其电磁干扰水平问题。
To reduce EMI level of switched-mode power supply by controlling chaos is studied in this thesis.
本文使用双电流控制模式,以智能芯片uc 3842为核心,设计了单片开关电源的实用电路。
In this paper, by the use of dual-current control mode and intelligent UC3842 chip as the core, a single-chip switching power supply circuit are presented.
介绍了一种基于零电压软开关技术和双闭环控制模式的大功率等离子喷涂高频开关电源。
A novel plasma spray power supply based on ZVS soft-switching technology and double close loop control mode is presented in this paper.
从开关模式电源电路中固有的混沌现象出发,提出了应用组合参数控制改变电路工作状态降低电磁干扰水平的思路。
On the base of chaos inherent in the switched-mode power supply the idea is present to uses controlling parameters to change the state of the circuit to reduce EMI level.
提出了一种基于临界电流模式的峰值电流控制技术来实现开关电源的功率因数校正任务。
A critical current mode based on the peak current control technology to achieve switching power supply power factor correction task is proposed.
本文在传统晶闸管逆变弧焊电源的基础上,实现了采用8098单片机系统的微机控制模式。
In this paper, the micro-computer controll mode adopting 8098 slice computer system is realized on the basis of traditional thyristor arc welding rectifier.
SSR (PIDD)模式:可以达到精确的温度控制,但电源的噪音比PWM模式大得多。
SSR (PIDD) mode: can achieve accurate temperature control, but the power of the noise is much larger than the PWM model.
通过状态机对负载进行离散侦测以及电流极限模糊控制模式,提高了电源的响应度;
Response speed has been improved by both the state machine, which makes discrete detection on load, and current limit fuzzy control.
为了进行电源系统分析和设计,本文建立了电压模式和峰值电流模式控制的逆变弧焊电源数学模型,并用计算机进行分析。
In order analyze and design the power supply system, the system models which control by two above-mentioned control modes are established and analyzed by computer.
一阀具有两种运行计时模式:由电子控制主板里的“ON”和“1”进行切换来达到按天或按小时计时,切换后切记重起电源才生效。
S a valve with two operation timed mode: by electronic control motherboard in the "on" and "1" to switch to achieve by the hour or by the day time, after switch power supply only effective.
当市电断路时,工作于电压控制模式,提供稳定的交流电源输出。
While the unity power is failed, the power conditioner works in voltage-controlled mode so as to output AC voltage.
由于这种控制方式具有响应时间快,稳定性高,内在限流保护等特点,因此近年来电流模式控制方式在电源管理芯片中得到了广泛的运用。
Due to its characteristics of fast response, good stability, inherent current limiting, current-mode controller has been widely applied in power management circuits.
通过远程红外控制来调整传感器增益,激活远程分路校准或将发射器设为电源备用模式。
Use the infrared remote control to adjust transmitter gain, activate the remote shunt calibration or switch the transmitter to standby power mode.
实施的多重反馈回路控制器,微电网可以输出高品质电源的电网连接模式下。
With the implementation of the multiple feedback loop controller, the Microgrid can export high-quality power under the grid-connected mode.
在待机模式下,仍然执行基本的操作,EFM 32微控制器结合超低功耗和智能电源管理技术,来减低能源的使用。
EFM32 microcontrollers implement ultra low power technology and clever power management for reducing energy spill in standby modes while still performing basic operations.
在待机模式下,仍然执行基本的操作,EFM 32微控制器结合超低功耗和智能电源管理技术,来减低能源的使用。
EFM32 microcontrollers implement ultra low power technology and clever power management for reducing energy spill in standby modes while still performing basic operations.
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