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什么是电路回路
我的房子快要装修了，在浏览一些装修的文章时，提到电路安装，经常说到回路，而且显的蛮重要的，我想问一下，什么是回路，有什么作用？
回路是物理---电学的一个基本概念。它一般指由电源、电键、用电器等构成的电流通路。
单回路就是指一个负荷有一个供电电源的回路；双回路就是指一个负荷有2个供电电源的回路。
一般,对供电可靠性要求高的企业,或地区重要变电站,均采用双回线供电,这样可保护其中一个电源因故停电,另一个电源可继续供电.但对一般的对供电可靠性要求不高的中小用户往往采用单电源供电.
222.212.56.*
61.53.225.*
124.31.9.*
学习了，谢谢！
115.236.31.*
122.143.25.*
125.112.96.*
还是你通俗易懂
1.193.243.*
精简·明了，通俗易懂，高！
218.23.98.*
看了你的回答，才明白住宅使用说明书上的供电系统回路数是什么！
222.222.127.*
不错，一语点醒梦中人
115.175.21.*
讲解的好，不上面的好多了。。
您的举报已经提交成功，我们将尽快处理，谢谢！文档贡献者
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电磁继电器
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内容提示：知识点1、电磁继电器的实质上是一个利用电磁铁来控制工作电路的一种开关。
2、电磁继电器的作用是可实现远距离操作和自动控制。
3、电磁继电器是利用低电压、弱电流电路的通断来间接控制高电压、强电流电路的装置。
4、电磁继电器的结构包括电磁铁、衔铁、簧片、触点。其工作电路由低压控制电路和高压工作电路两部分构成。
5、扬声器是把电信号转换成声信号的一种装置。构造主要由固定的永久磁铁、线圈和锥形纸盆构成。它的原理是：线圈中通入携带声音信息、时刻变化的电流，使得在一个瞬间和下一个瞬间产生不同方向的磁场，线圈就不断地来回振动，纸盆也就振动起来，便发出了声音。
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c 获得￥190.00奖励&&&10-22xxyh123 获得￥50.00奖励&&&10-22QQ 获得￥100.00奖励&&&10-22yyangcumt 获得￥410.00奖励&&&10-22QQ 获得￥70.00奖励&&&10-22elanwcy 获得￥280.00奖励&&&10-21todaytheo 获得￥270.00奖励&&&10-21mjly5472 获得￥50.00奖励&&&10-21zhangajie20 获得￥170.00奖励&&&10-21mtl168168 获得￥70.00奖励&&&10-21duzibing 获得￥660.00奖励&&&10-21xiaodengyou 获得￥100.00奖励&&&10-21furui84 获得￥50.00奖励&&&10-21zhyueguang 获得￥180.00奖励&&&10-21gaobiao66 获得￥110.00奖励&&&10-21当前位置: >>> 关于石英晶体的一些知识
关于石英晶体的一些知识
Equivalent Circuit(等效电路)& Vibration of a crystal unit is actually mechanical vibration．However．the crystal unit can be expressed by a two&terminal network if its behavior is electrically converted．The series circuit consisting of L1．C1．and R1 is related to elastic vibration．while the element C0 connected in parallel to the series arm as a capacitance attributable to the dielectric body of a quartz crystal plate．The resistance R1 is a resonance resistance of the crystal unit at the series resonance frequency．(See Fig.1.)& 石英晶体谐振器的振动实质上是一种机械振动。实际上，石英晶体谐振器可以被一个具有电子转换性能的两端网络测出。这个回路包括L1、C1，同时C0作为一个石英晶体的绝缘体的电容被并入回路，与弹性振动有关的阻抗R1是在谐振频率时石英晶体谐振器的谐振阻抗。(见图1)
Frequency-Temperature Characteristics(频率-温度特性)& To use a crystal unit as an oscillator．its oscillated frequency is required to be stable against temperature variations．A quartz crystal has crystallographic axes．and crystal cut is defined according to the cutting angle against a crystallographic axis and its associated mode of vibration．-Typical types of crystal cut and frequency&temperature characteristics are shown in Fig.2.& 石英晶体作为谐振器在使用时，要求其谐振频率在温度发生变化时保持稳定。温频特性与切割角有关，每个石英晶体具有结晶轴，晶体切割是按其振动模式沿垂直于结晶轴的角度切割的。典型的晶体切割和温频特性。(见图2)
Frequency-Temperature Characteristics of an AT-Cut(AT型切片的温频特性)& The frequency&temperature characteristics of an AT-Cut crystal unit most generally used at present are expressed by cubic curves．(See Fig.3.)．& A crystal plate is cut at an angle at which a required frequency tolerance is obtained in the given operating temperature range．& AT型石英晶体谐振器的温度特性目前大多用三次曲线表示(见图3)。一个石英芯片在所需要的频率范围己满足的情况下在某一角度被切割，以达到要求的工作温度范围。当然，实际上，即使在成功的操作中，也会有一些由于切割和磨光精确性不够而造成的角度散布，由此，操作的精确度需要提高。在图4中可以看到频率公差和生产难度等级的关系。
Load Capacitance(负载电容)& The load capacitance CL is a factor for determining the &conditions& of a crystal unit when used in the oscillation circuit．In an ordinary oscillationcircuit the crystal unit is used in a range where it functions as an inductive reactance in such usage，the oscillation circuit operates as a& apacitive reactance．In other words．when the oscillation circuit is seen from both terminals of the crystal unit．this oscillation circuit can be expressed as a series circuit of a negative resistance -R and a capacitance CL.At that time this capacitance is called the load capacitance．The relationship between load capacitance and oscillation frequency is not linear．When the load capacitance is small．the amount of frequency variation is large．and when the load capacitance iS increased．frequency variation lowers．If the load capacitance is lessened in the oscillation circuit to secure a large allowance for the oscillation frequency．the frequency stability will be greatly influenced even by a small change in the circuit．The load capacitance can be any values．but 10-30PF is better．& 负载电容CL是组成振荡电路时的必备条件。在通常的振荡电路中，石英晶体谐振器作为感抗，而振荡电路作为一个容抗被使用。也就是说，当晶体两端均接入谐振回路中，振荡电路的负阻抗-R和电容CL即被测出，这时，这一电容称为负载电容。负载电容和谐振频率之间的关系不是线性的，负载电容小时，频率偏差量大，当负载电容提高时，频率偏差量减小。当振荡电路中的负载电容减少时，谐振频率发生较大的偏差，甚至当电路中发生一个小变化时，频率的稳定性就受到巨大影响。负载电容可以是任意值，但10-30PF会更佳。
Equivalent Circuit of Crystal Oscillation Circuit(晶体振荡电路中的等效电路)& When a crystal unit is actuated as an inductive reactance in an oscillation circuit．the relationship between crystal unit and oscillation circuit is shown in Fig.6. To improve the starting conditions of the oscillation circuit．it is preferable to increase the value of negative resistance -R which parameter of the oscillation circuit．The starting conditions will become worse if a circuit without much allowance in negative resistance (less negative resistance) is combined with a crystal unit having a larger resonance resistance．The oscillation circuit should be designed to a goal such that the value of negative resistance is 5 to 10 times the resonance resistance．It is also necessary that the center value of load capacitance& (to determine the absolute value of oscillation frequency) and the variable range (fine adjustment range of oscillation frequency) are maintained at the optimum values in the oscillation circuit．& 在振荡电路中，石英晶体谐振器作为感抗被使用。石英晶体谐振器和振荡电路的关系如图5所示，为提高振荡电路中的起振条件，须提高振荡电路中的负阻抗，而电路中没有足够的负阻抗偏差，则较难起振。在振荡电路中负阻抗的值应达到谐振阻抗的5-10倍。在振荡电路中，负载电容的中心值(其决定谐振频率的绝对值)和其变化范围(谐振频率的良好调整范围)应保持在最佳值。
Oscillation Circuit(振荡电路)& A typical oscillation circuit composed of a crystal unit is introduced below Element constants used are for example．一个由石英晶体谐振器组成的典型振荡电路如图7所示
Spurious Resonances(寄生回应)& AIl quartz crystals have spurious resonances (unwanted resonance) besides the main resonance frequency．They are represented in the equivalent circuit diagram(Fig.5)by additional resonant circuits in parallel with R1．L1．C1．The ratio of spurious resonance resistance RNW toresonance resistance Rr of the main wave is generally specified in the attenuation& constant dB& and designated& spurious attenuation& aNW:&&&&&&&&&& aNW=-20*lg (Rnw/Rr)For oscillator crystals 3 to 6 dB are normally sufficient．For filter crystals attenuations greater than 40 dB are often required．This can only beachieved by special design techniques and involves the use of very small values of the dynamic capacity C1．& The achievable attenuation decreases with higher frequency and with higher orders of overtone．It is found generally that piano-parallel quartzresonators have better spurious attenuation than piano-convex resonators．In specifying spurious resonance parameters it is necessary to give an indication of both the acceptable attenuation level desired and their frequencies relative to main resonance frequency．& Resonance in the region of
150 KHZ for plano parallel resonators biconvex or piano-convex resonators．& In the passive measurement method indicated above，spurious resonance attenuations up to 20 to 30 dB can be measured．With higher attenuations．Co compensation is necessary．& 所有石英谐振器均有寄生(在主频率之外的不期望出现的)振荡响应。他们在等效电路图中表现为附加的以R1、L1、C1形成的回应回路。& 寄生响应的阻抗RNW与主谐振波的阻抗Rr的比例通常以衰减常数dB来表示，并被定义为寄生衰减aNW=-20*lg (RNW/Rr)对于振荡用晶体，3至6dB是完全足够的．对于滤波用晶体，通常的要求是超过40dB．这一规格要求只有通过特殊设计工艺并使用数值非常小的动态电容方能达到．& 可达到的衰减随着频率的上升和泛音次数的增加而减小．通常的平面石英芯片谐振器比平凸或双面凸芯片谐振器的寄生衰减要良好．在确定寄生响应参数时，应同时确定一个可接受的寄生衰减水平以及寄生频率与主振频率的相对关系．& 在AT切型中，对于平面芯片，&不和谐的响应&只存在于主响应的 40至 150KHZ之间，对于平凸或双面凸的芯片，寄生则在 200至 400KHZ之间．& 在以上的测量方法中，寄生响应衰减至20至30dB时是可以测量的，对于再高一些的衰减．C0的补偿是必需的．
Drive Level(DLD)(激励功率依赖性)& The amplitude of mechanical vibration of the quartz resonator increases proportionally to the amplitude of the applied current．The power dissipated in the resonance resistance is given by Pc=12qRl．High drive levels lead to the destruction of the resonator or the vaporisation of the evaporated electrodes，The upper limit for drive level is approximately 10 mV & As the reactive power oscillating between L1 and C1 is represented by Qc=Q X Pc，for Pc=1 MW and with a Q of 100.000，Qc is equal to 100Watts，The oscillation amplitude can be exceeted with relatively low level of drive Pc，thus resulting in the crystal frequency moving upwards．& This frequency dependence on drive level is more pronounced with increasing overtone order．Figure 9 shows typical effects but exact prediction of the effect is not possible as it is influenced by all the elements of crystal design and operation．& Mechanical blank parameters．mounting arrangements and so on．Is it can be seen that the drive level must be specified carefully．if there iS to be good correlation between the frequency of the crystal at the end of its production and in the end use equipment．& Today with semiconductor oscillator circuits a drive level of approximately 0.1 MW appears normal．where this parameter is most specified．ourproduction will use 0.1 Mw．& A well performing crystal should start to oscillate easily and its frequency should be virtrally independent of the variation of drive level from a starting level of about 1 nW．In todays semiconductor circuits with very low power consumption the crystal has to work well also at very low drive levels．& In fig.10 we show the effect of crystals with and without the problem of frequency dependence on drive level．& Crystal that have badly adhering electrodes or on which the Surface of the resonator is not fine enough exhibit the curved effect．At low drive level they have higher resistance．& This effect is called the drive level dependence (DLD)．Usually production tests of DLD are performed between 1 and 10 microwatts and then at 1 Mw and again at a low load．The relative change in resistance is then used as the test criterion．Needless to say．making more measurements intermediate level increases production costs considerably．& Using suitable test oscillators permits fast of the DLD limit value．but only in the form of a Go/No-go test．IEC Draft 248 covers measurement of the drive level dependence of the resonance impedance in accordance with (DIN) IEC444-6．& Oscillation build&up problems can very largely be eliminated by optimizing the oscillator circuit by providing a sufficient feedback reserve and a &hard& switch-on pulse．& 石英振荡器的机械振动的振幅会随着电流的振幅成正比例地上升．功率与响应阻抗的关系为Pc=l2qR1，高激励功率会导致共振的破坏或蒸镀电极的蒸发，最高允许的功率不应超过lOmV．& 由于L1和C1电抗性的功率振荡，存在Qc=QxPc．若Pc=1mV Q=100.000，Qc则相当于IOOW．由于低的Pc功率会导致振荡幅度的超过，最终导致晶体的频率上移．& 随着晶体泛音次数的增加，对于激励功率的依赖性更加显著．上图显示了典型的结果，但是精确的预期结果还是要受到包括晶体设计和加工，机械性芯片参数，电极大小，点胶情况等的影响．& 可以看出，激励功率必须被谨慎地确定，以使晶体在生产中和使用中保持良好的关系．& 当今，一个半导体振荡回路的激励功率一股为0。1mV故在生产晶体时也一股按0.1mV进行．& 一个质量良好的晶体可以容易地起振，其频率在自lnW逐步增加时均能保持稳定．现在，晶体两端的功率很低的半导体回路也可以在很低的功率的情况下工作良好．& 上图显示了一个对激励功率有或无依赖性的晶体的工作曲线的比较．& 晶体存在蒸镀电极不良，芯片表面洁净度不足，都会存在如图所示的在低功率时出现高阻抗的情况，这一影响称为激励功率依赖。(DLD)．通常生产中测试DLD是用1～lOmV测试后再用lmV测试，发生的阻抗变化可作为测试的标准．很显然，在增加测试内容会相当大的提高晶体生产的成本．& 利用适当的测试仪器可以很快地进行DLD极限值的测定，但是只能进行合格/不合格的测试．IEC草案248覆盖了根据(DIV)IEC444-6制定的激励功率的依赖性的测量方法．& 提供具有充分的回馈和良好脉冲的最优化的振荡回路，可以极大的消除振荡的内部问题．
Notes for Crystal Unit Applications(石英晶体谐振器使用的注意点)& (1)& Compared with the lineups of HC-49/U，small crystal units (HC-49U/S，HC-49USM，UM-1，SMD)are designed to have lower limitablelevel of drive，of 100uW and below．Prior to use，therefore，the crystal current should be examined in an actually mounting circuit．(See Fig.5.)& (2) The negative resistance of a circuit must be checked．Confirmation of negative resistance is possible according to Fig.6.A goal of negativeresistance is about 5 times the resonance resistance．& (3)The Rd in the circuit diagram is indispensable when used in a C-MOS oscillation circuit．(See fig7．)lf this Rd is attached，the level of drive is kept within the specified value and stable oscillation frequency can be obtained．& (4)Cg&and Cd should be used within the range of 10-30pf，if Cg and Cd are used below 10pF or above 30pF．oscillation may be easily affected by circuit performance．level of drive may increase．or negative resistance may decrease，thus failing in maintaining stable oscillation．& (5) The layout for crystal oscillation circuits should be arranged as short as possible．& (6) The stray capacitance between circuits and ground patterns should be reduced．& (7)Crossing of crystal oscillation circuit patterns over other circuit patterns should be avoided．& (8)If the circuits used，IC types，and IC manufacturers are different，frequency．level of drive．and negative resistance should be confirmed．& (9) Overtone oscillation circuits need additional consultation．& (1)与HC-49/U相比，小的石英晶体谐振器(如HC-49U/S，HC-49USM，UM-1，49T)都是低激励功率(100um或以下)．在使用之前，须在一个实际的安装电路中检验晶体电流(见图5)．& (2)须检查电路的负阻抗，负阻抗的认可见图8．负阻抗应是谐振阻抗的5倍左右．& (3)当使用C-MOS振荡器时(见图7)线路图中的Rd是必要的．如果Rd达到要求，激励功率会保持在规定值内，那么谐振频率也就稳定了．& (4)在10&30PF内，可以用Cg和Cd，如果Cg和Cd&10PF或&30PF，振荡会被电路现象轻易的影响，激励功率会升高，或负阻抗会减小，最终导致振荡的不稳定．& (5)晶体振荡电路的设计应尽量简短．& (6)电路和线路板问的杂散电容应尽量被减少．& (7)尽量避免晶体振荡电路穿过其它电路．& (8)如果电路用IC方式，而且IC制造各不相同，那么频率，激励功率，负阻抗须被确认．& (9)泛音振荡电路还需要附加的参考．
Notes for Ordering(定货注意点)& For special use conditions more detailed specifications should be offered，if more detailed specifications should be offered，if more practical applications，etc.. are specified．the most suitable products can be introduced．When load capacitances，etc.，are unclear for crystal units，the result will be more advantaaeous if the circuit being adopted or the actual device．&&& 电路组成下图1示出的60Hz脉冲信号发生电路，由石英晶体多谐振荡器和分频器两部分电路组成，其中ICl为&非&门电路CD4069，IC2为分频集成电路CD4040，JT为32768Hz石英晶体。&&& 石英晶体、&非&门1和&非&门2组成石英晶体多谐振荡器，晶体JT和电容C1在电路中形成正反馈。晶体在它的固有串联谐振频率点f0的等效阻抗最小，所以电路的振荡频率就取决于晶体的固有串联谐振频率，与外接电阻R1、电容C1的参数无关。由于石英晶体的频率稳定度可达10&10～10&11，所以可获得频率非常稳定的振荡信号。IC2、&非&门3、&非&门4和D1、D2组成分频电路，它对石英晶体振荡器所产生的32768Hz的脉冲信号进行分频，在输出端010或09可获取60Hz的脉冲信号。分频比及频率误差CD4040是一片12级脉动进位二进制计数分频电路，它在时钟的下降沿进行计数，其复位端输入高电平时，可取得与时钟输入无关的直接复位。由于石英晶体的固有谐振频率f0=32768Hz，从Q9端输出的信号是f0的29分频，其数值是64Hz，所以不采取一定的措施是不能获得60Hz的信号的。所采取的措施是，把CD输出端通过R2、&非&门3和&非&门4连接到它的复位端，同时通过D1、D2分别连接到它的Q2和Q6输出端，即D1、D2、&非&门3和&非&门4组成复位控制电路，让Q10、Q6、Q2的输出共同控制CD4040的复位。&&& Q10端输出的信号是振荡频率的210分频，该信号的一个周期为振荡脉冲信号的1024个周期时间，低电平和高电平时间各为振荡脉冲的512个周期时间。同理，Q6端输出信号一个周期的高、低电平各为振荡脉冲的32个周期时间，Q2端输出信号一个周期的高、低电平时间各为振荡脉冲的2个周期时间。它们在Q10上升沿处的波形如图2所示。由于CD4040是下降沿触发，所以在Q10的上升沿处对应着Q6的下降沿。从图1可见，CD4040在Q10、Q6和Q2均为高电平(即Q10&Q6&Q1=1)时复位。从图2可以看出，电路复位出现在Q10高电平，Q6也高电平之后，Q2输出第一个高电平的时刻。电路复位时Q10、Q6、Q2均回到低电平，Q10以及Q9输出脉冲结束一个周期，开始新的周期。从上面分析可以得出09、010输出脉冲信号的周期为512 32 2=546振荡脉冲周期时间，它们的频率就是振荡脉冲信号的546次分频，因此其频率为：f=.Hz，其误差为6=(60.)/60&2.442&10-4。&&& 减小误差的电路为了减小输出脉冲信号的频率误差，可以适当修正振荡脉冲信号的频率，具体做法是在电路上把图1的石英器件多谐振荡电路改为图3所示的可微调频率的石英晶体多谐振荡电路。石英晶体JT仍作为反馈元件，&非&门电路工作在线性放大状态，R1为其提供偏置。当振荡频率接近晶体的固有串联谐振频率时，电路满足振荡条件。该电路仍具有十分稳定的振荡频率。图3中C1、C2和石英晶体JT组成兀形反馈网络，调整C1或C2的值，可以微调电路的振荡频率。&&& 该电路的输出端接到图1中CD4040的CLK端，输出的脉冲信号作为CD4040的计数脉冲。要使图1中CD0输出60Hz的脉冲信号，计数脉冲的频率应为：f0=60&546=32760Hz。这一振荡频率在图3所示的电路中可通过调整C1或C2的数值来实现。
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关于FPC排线的一点点基本知识介绍
&&& 对于相信大家都有一定的认识了，那你知道什么是FPC排线吗？
&&& FPC按照功能可分为FPC天线、FPC电容屏、FPC触摸屏等，而FPC排线就是FPC的其中一种。FPC排线的作用就是将两个相关的零件或产品连接起来，现在我们使用的很多打印机、手机、笔记本等电子产品都有使用到。
&&& 因为FPC排线的中间通常都是线路，所以排线有具备一定的柔韧性。即FPC排线使用的基材一般是耐曲折、柔韧性较好的压延铜，而FPC排线的表面处理的工艺有沉金、防氧化及镀锡喷锡等，但一般使用较多的是沉金工艺。
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