least square estimation of system identification
标签: identification estimation square system
上传时间: 2014-01-08
上传用户:Shaikh
this code calculates square root of a 16 bit number
标签: calculates square number this
上传时间: 2014-01-05
上传用户:change0329
Least Mean square Newton Algorithm
标签: Algorithm square Newton Least
上传时间: 2014-01-13
上传用户:sardinescn
Find out 16 bit number square root. Asm51 source
上传时间: 2017-09-07
上传用户:zl5712176
a function called fit least square in mathematics with an excel sheet
标签: mathematics function called square
上传时间: 2014-08-12
上传用户:yiwen213
PCB线宽和电流关系公式 先计算Track的截面积,大部分PCB的铜箔厚度为35um(即 1oz)它乘上线宽就是截面积,注意换算成平方毫米。 有一个电流密度经验值,为15~25安培/平方毫米。把它称上截面积就得到通流容量。 I=KT(0.44)A(0.75), 括号里面是指数, K为修正系数,一般覆铜线在内层时取0.024,在外层时取0.048 T为最大温升,单位为摄氏度(铜的熔点是1060℃) A为覆铜截面积,单位为square mil. I为容许的最大电流,单位为安培。 一般 10mil=0.010inch=0.254mm 1A , 250mil=6.35mm 8.3A ?倍数关系,与公式不符 ?
上传时间: 2013-10-11
上传用户:ls530720646
锁定放大是微弱信号检测的重要手段。基于相关检测理论,利用开关电容的开关实现锁定放大器中乘法器的功能,提出开关电容和积分器相结合以实现相关检测的方法,并设计出一种锁定放大器。该锁定放大器将微弱信号转化为与之相关的方波,通过后续电路得到正比于被测信号的直流电平,为后续采集处理提供方便。测量数据表明锁定放大器前级可将10-6 A的电流转换为10-1 V的电压,后级通过带通滤波器级联可将信号放大1×105倍。该方法在降低噪声的同时,可对微弱信号进行放大,线性度较高、稳定性较好。 Abstract: Lock-in Amplifying(LIA)is one of important means for weak signal detection. Based on cross-correlation detection theory, switch in the swithched capacitor was used as multiplier of LIA, and a new method of correlation detection was proposed combining swithched capacitor with integrator. A kind of LIA was designed which can convert the weak signal to square-wave, then DC proportional to measured signal was obtained through follow-up conditioning circuit, providing convenience for signal acquisition and processing. The measured data shows that the electric current(10-6 A) can be changed into voltage(10-1 V) by LIA, and the signal is magnified 1×105 times by cascade band-pass filter. The noise is suppressed and the weak signal is amplified. It has the advantages of good linearity and stability.
上传时间: 2013-11-29
上传用户:黑漆漆
6小时学会labview, labview Six Hour Course – Instructor Notes This zip file contains material designed to give students a working knowledge of labview in a 6 hour timeframe. The contents are: Instructor Notes.doc – this document. labviewIntroduction-SixHour.ppt – a PowerPoint presentation containing screenshots and notes on the topics covered by the course. Convert C to F (Ex1).vi – Exercise 1 solution VI. Convert C to F (Ex2).vi – Exercise 2 solution subVI. Thermometer-DAQ (Ex2).vi – Exercise 2 solution VI. Temperature Monitor (Ex3).vi – Exercise 3 solution VI. Thermometer (Ex4).vi – Exercise 4 solution subVI. Convert C to F (Ex4).vi – Exercise 4 solution subVI. Temperature Logger (Ex4).vi – Exercise 4 solution VI. Multiplot Graph (Ex5).vi – Exercise 5 solution VI. square Root (Ex6).vi – Exercise 6 solution VI. State Machine 1 (Ex7).vi – Exercise 7 solution VI. The slides can be presented in two three hour labs, or six one hour lectures. Depending on the time and resources available in class, you can choose whether to assign the exercises as homework or to be done in class. If you decide to assign the exercises in class, it is best to assign them in order with the presentation. This way the students can create VI’s while the relevant information is still fresh. The notes associated with the exercise slide should be sufficient to guide the students to a solution. The solution files included are one possible solution, but by no means the only solution.
标签: labview
上传时间: 2013-10-13
上传用户:zjwangyichao
PCB线宽和电流关系公式 先计算Track的截面积,大部分PCB的铜箔厚度为35um(即 1oz)它乘上线宽就是截面积,注意换算成平方毫米。 有一个电流密度经验值,为15~25安培/平方毫米。把它称上截面积就得到通流容量。 I=KT(0.44)A(0.75), 括号里面是指数, K为修正系数,一般覆铜线在内层时取0.024,在外层时取0.048 T为最大温升,单位为摄氏度(铜的熔点是1060℃) A为覆铜截面积,单位为square mil. I为容许的最大电流,单位为安培。 一般 10mil=0.010inch=0.254mm 1A , 250mil=6.35mm 8.3A ?倍数关系,与公式不符 ?
上传时间: 2013-11-12
上传用户:ljd123456
This project is created using the Keil ARM CA Compiler. The Logic Analyzer built into the simulator may be used to monitor and display any variable or peripheral I/O register. It is already configured to show the PWM output signal on PORT3.0 and PORT3.1 This ARM Example may be debugged using only the uVision Simulator and your PC--no additional hardware or evaluation boards are required. The Simulator provides cycle-accurate simulation of all on-chip peripherals of the ADuC7000 device series. You may create various input signals like digital pulses, sine waves, sawtooth waves, and square waves using signal functions which you write in C. Signal functions run in the background in the simulator within timing constraints you configure. In this example, several signal functions are defined in the included Startup_SIM.INI file.
标签: the Analyzer Compiler project
上传时间: 2013-12-19
上传用户:Yukiseop
