反向开关

The core circuit adopting differential negative resistance structure with resistor feedback achieves good phase noise performance.The 2 bit switch capacitor array provides extra tuning range.The output buffer of common source structure is of decent reverse isolation.

电路核心采用带电阻反馈的差分负阻结构，因此具有良好的相位噪声性能；2bit的开关电容阵列进一步提高了电路的调谐范围；共源级输出缓冲提供了较好的反向隔离度。

Furthermore, reverse recovery losses of main diodes are minimized, and auxiliary switches commutate at zero current.

此外，续流二极管的反向恢复损耗被降低到最小，辅助开关也实现了零电流开关。

In this paper, investigate basic half bridge Three-Level DC/DC converter, the operation and parameter design are disused ,second side commutate diode reverse furbish bring high pinnacle on the main switches.

本文首先给出了基本半桥式三电平DC/DC变换器，详细分析了其工作原理，讨论了主要参数的设计和由于次级整流二极管的反向恢复导致主开关管的电压尖峰。

Fundamental equations for an RSD are derived through semiconductor theory.

从大注入半导体物理的基本理论推导得到了反向开关复合管工作的基本物理方程。

Main features:- Hole spacing 2.25mm-operating voltage: 4.5 V to 24 V-switching offset compensation at 62Hz under - over-voltage Protection - VDD-pin Reverse voltage protection - Short circuit protection open-drain output is hot off - working magnetic field range: DC to 10kHz-output goes low with magnetic south pole contacts marked on the package side, while the higher magnetic flux density and area of S1, As S2-all temperature and supply voltage range magnetic parameters on-chip temperature compensation circuitry of the minimum drift - EMC meet DIN40839.

主要特点：–霍尔片间距2.25mm–工作电压： 4.5 V 至 24 V–开关偏移补偿在62Hz下–过电压保护– VDD-pin反向电压保护–短路保护漏极开路输出被热关断–工作磁场范围：直流到10kHz–输出变低用磁场南极接触封装上有标记边，而更高磁通量密度面积S1，如同S2–全温度和供电电压范围下磁参数的片上温度补偿电路的最小漂移– EMC适应DIN40839。

We also designed the timing circuit board to driver the MOSET and the network control system based on the probably fill mode in the future and the RF system of the storage ring in HLS. The high reverse overshoot exists in the current pulse with the pulse width of 60 ns. Further study is necessary to eliminate the reverse overshoot and to search the proper techniques on modulability of light pulse interval in HLS.

根据未来光源储存环可能的填充模式，以及光源储存环高频系统的特性，设计了MOSET开关驱动控制系统的时钟试验电路，和以太网控制试验电路，即将投入加工。60ns脉宽的脉冲电流，存在较大的反向过冲，需要进一步研究合适的反峰削除技术，以及可用于光源脉冲可调性的合适技术。

In the case of Boost PFC circuit, the output voltage is greater than the input peak voltage.

在Boost PFC电路中，输出电压要高于输入电压峰值，而高压输出对IGBT的开通损耗和二极管的反向恢复损耗而言，在PWM硬开关工作状态下都会相当大，因此，一个最大的问题就是如何减小或者消除这两个损耗。

It shows that the control pulse width, the SOA length effect and the nonlinear gain compression effect influence the width of the switching window, and they are the main factors in limiting the switching speed of the CPMZ configuration.

研究表明：控制脉冲宽度、半导体光放大器的长度和非线性增益压缩影响着控制脉冲和信号脉冲反向传播开关窗口的大小，是限制控制脉冲和信号脉冲反向传播高速工作的主要因素。

According to the request of adopting advanced technology, the main designing has such contents as below:⑴ Designing the two-fluid nozzle that is based on the theory of air-atomize spraying.⑵ Designing and choosing the type of the axial fan that is used to supply assisted airflow to waft droplets that comes from nozzle.⑶ Designing the swaying outfit that can rotate the spray assembly at a speed and inside a angle in order to satisfy the spray request of different crops, different planting states and improve the uniformity of distribution, the deposition of droplet. Here, we select TYV type reduction gear motor to adjust the swaying speed and use course switch to adjust the swaying angle.⑷ Designing the lift outfit that can adjust the height of the spray assembly to satisfy the request of the crops of different tallness, different spraying range. Here, we select cylinder as the main component that can be used as kickstand and controlled easily.⑸ Designing the switch of the power supply that is put out of the greenhouse in order to prevent worker from poisoning. After the mist sprayer being made, the experiment is made to test the function of the greenhouse mist sprayer fully.

根据采用先进施药技术的要求，本研究的设计内容主要有：⑴采用气液两相流喷雾技术，基于气力雾化原理，设计双流体喷头；⑵采用辅助气流输送雾滴，气流源为风机，对风机进行设计、选型；⑶为满足不同作物、不同栽培情况及提高雾滴分布均匀性、沉积性的施药要求，设计能带动喷射部件在一定角度内、以一定转速的旋转摇摆机构，本研究选用调速电机调节其摇摆速度，并利用反向行程开关调节其摇摆角度；⑷为满足不同高度作物、不同射程的施药要求，设计能调节喷射部件高度的升降机构，这里选用气缸为主要构件，既可以起到整机支架的作用，又可方便进行升降、固定控制；⑸设计行程开关的控制电路以及整机的控制系统。

In order to ensure the reliable source of technical water supply for the unit as well as a safe and steady operation of each bearing's cooler, the technical water supply operates based on forward/backward switching as designed, controlled by four electrical switch valves made in Israel that are able to work forwardly and backwardly.

为了保证机组技术供水水源的可靠和各轴承冷却器设备的工作安全稳定，技术供水设计成能正／反向切换的运行方式，由4个以色列生产的能正／反向切换的电控开关阀控制。

HOS：层站运行控制开关

3、反向召唤消除(CCC) 4、层站运行控制开关(HOS)5、次层停靠(MXL) 6、超载报警(OLH)7、门负载传感器(DLD) 8、即时关门(EDC)9、重复关门(RDC) 10、本层再开门(ROHB)11、轿内方向指示(DAC) 12、层站方向指示(DAH)13、内部通话装置(ITP)

reverse leakage current：反向漏电流

电导调制效应不能忽略;为了提高反向耐压,其掺杂浓度低也造成正向压降(Forward Bias Voltage)较大.当用在频率较高的场合时,开关损耗(Switching Losses)造成的发热往往不能忽略,当采用反向漏电流(Reverse Leakage Current)较大的电力二极管时,

current reverser：电流反向开关

current reversal 电流反向 | current reverser 电流反向开关 | current riple 电流脉动

reversing switch：反向开关

reversible reaction 可逆反应 | reversing switch 反向开关 | revolution counter 转数计

reverse takeover：反向兼并,反向接管企业

reverse switching loss 反向开关损耗 | reverse takeover 反向兼并,反向接管企业 | reverse tape feed 反向送带

three-way switch：三向开关

终点开关Termina l switch | 三向开关Three-way switch | 反向开关Reversing switch

distance between oppsite polarities of switch：开关反向极间距离

distance between commutator segment 换向片间距 | distance between oppsite polarities of switch 开关反向极间距离 | distance between pole tips 极端间距

preset switches by prefixing any switch with hyphen for example -w：用前缀和放在短横线-后的开关(例如/-w)预置开关

prefix toreverse order 反向显示的前缀 | preset switches by prefixing any switch with hyphen for example -w 用前缀和放在短横线-后的开关(例如/-w)预置开关 | press a key to resume 按一键继续

emergency reverse direction switch：紧急反向开关

www.mapeng.net 马棚网 | emergency reverse direction switch;紧急反向开关 | emergency sensing circuit;紧急传感电路

disconnecting switch reverser：隔离反向器

disconnecting switch 隔离开关,断路开关 | disconnecting switch reverser 隔离反向器 | disconnecting valve 断开阀,断流阀